1 2 3 4 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 33 34 35 36 37 38 39 40 41 42 45 46 47 49 50 51 53 54 55 57 58 60 61 62 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 data number reference number comment common formula of materials chemical formula element name of materials composition of MA1 element name of materials composition of MA2 element name of materials composition of MA3 element name of materials composition of MA4 element name of materials composition of MA5 element name of materials composition of MA6 element name of materials composition of MA7 element name of materials composition of MA8 element name of materials composition of MA9 element name of materials composition of MA10 oxygen common formula of oxygen measured value of Oxygen content shape publication year of reference unit of KAIZERO temperature independent term in susceptibility unit of CURIEC Curie constant unit of MOMENT magnetic moment per formula Curie temperature Neel temperature density (gcm-3) unit of hardness hardness at 300 K unit of Young's modulus Young's modulus at 4.2 K Young's modulus at 300 K unit of shear modulus shear modulus at 4.2 K shear modulus at 300 K unit of bulk modulus unit of bulk modulus at 4.2 K unit of bulk modulus at 300 K Poisson ratio at 4.2 K Poisson ratio at 300 K unit of sound velocity sound velocity at 4.2 K sound velocity at 300 K figure number for SV(T) "*crystal structure, symmetry" common name of structure space group international table number unit of lattice constant lattice constant a lattice constant b lattice constant c *method of analysis for structure figure number of structure model unit of D(L)DT temperature dependence of LATA temperature dependence of LATB temperature dependence of LATC unit of D(L)DP pressure dependence of LATA pressure dependence of LATB pressure dependence of LATC comments for structure unit of Tc transition temperature (R = 0) transition temperature (mid point) transition temperature (R = 100%) Tc from susceptibility measurement lowest temperature for measurement (not superconducting) transition width for resistive transition Tc (of this sample) recommended "figure number for Tc(p, x, etc)" tc measurement method unit of DTCDP slope at P = 0 in Tc vs P plot maximum pressure applied "alpha in Tc = A * M^(-alpha), isotope effect" isotope element exchange ratio of isotope(%) DTC = Tc - Tc0 for isotope element volume fraction of Meissner effect(%) unit of Hc1 method of Hc1 derivation Hc1 at 0 K for poly crystal Hc1 at 0 K for single crystal for H //ab-plane Hc1 at 0 K for single crystal for H //c-axis Hc1 at given temperature for poly crystal Hc1 at given temperature for single crystal H//ab-plane Hc1 at given temperature for single crystal H//c-axis measuring temperature unit of Hc2 method of Hc2 derivation Hc2 at 0 K for poly crystal Hc2 at 0 K for single crystal for H //ab-plane Hc2 at 0 K for single crystal for H //c-axis Hc2 at given temperature for poly crystal Hc2 at given temperature for single crystal H//ab-plane Hc2 at given temperature for single crystal H//c-axis measuring temperature unit of dHc2/dT method of dHc2/dT derivation #NAME? -slope in Hc2 vs T at Tc for single crystal for H //ab-plane -slope in Hc2 vs T at Tc for single crystal for H //c-axis "figure number for Hirr(T), irreversibility field" difinition or method for Hirr unit of COHERE method of COHERE derivation coherence length at 0 K for poly crystal coherence length at 0 K for single crystal for H //ab-plane coherence length at 0 K for single crystal for H ⊥ab-plane unit of PENET method of PENET derivation penetration depth at 0 K for poly crystal penetration depth at 0 K for single crystal for H //ab-plane penetration depth at 0 K for single crystal for H⊥ab-plane unit of energy gap "energy gap at 0 K , delta(0)" "normarized energy gap at 0 K , 2delta(0)/kTc" method of measuring energy gap "Jc at 4.2 K, H = 0 T" "Jc at T = 77 K, H = 0 T" "figure number for Jc(T,H)" graph number of specific heat unit of SPJUMP specific heat jump at Tc (delta-C) unit of GAMMA coefficient of electronic specific heat comment for derivation of GAMMA Debye temperature method for derivation of Debye temperature unit of thermal conductivity thermal conductivity at 300 K thermal conductivity at 300 K for heat flow//c-axis thermal conductivity at 300 K for heat flow//ab-plane graph number for thermal conductivity unit of thermopower thermopower at 300 K thermopower at 300 K for normal to ab-plane thermopower at 300 K for parallel to ab-plane graph number for thermopower unit of resistivity resistivity at 4.2 K for poly crystal resistivity at 4.2 K for single crystal for J//ab-plane resistivity at 4.2 K for single crystal for J//c-axis resistivity at 77 K for poly crystal resistivity at 77 K for single crystal for J//ab-plane resistivity at 77 K for single crystal for J//c-axis resistivity at normal-T for poly crystal resistivity at normal-T for single crystal for J//ab-plane resistivity at normal-T for single crystal for J//c-axis normal temperature resistivity at RT for poly crystal resistivity at RT for single crystal for J//ab-plane resistivity at RT for single crystal for J//c-axis unit of RH300 Hall coefficient at 300 K "Hall coefficient at 300 K for single, H//c-axis" "Hall coefficient at 300 K for single, H//ab-plane" "Hall coefficient for single, H//c-axis" magnetic field for Hall effect graph number for Hall coefficient unit of carrier density carrier density at 300 K raw materials *preparation method preparation comments preparation method for film substrate target material process comments title of reference publication year of reference month of reference keyword institute journal sample comments num refno commt name element ma1 ma2 mb1 mb2 mc1 mc2 md1 md2 me1 me2 mf1 mf2 mg1 mg2 mh1 mh2 mi1 mi2 mj1 mj2 mo1 mo2 oz shape year ukai kaizero ucc curiec umoment moment curiet neelt dens uhv hv300 uye yehe ye300 ug ghe g300 ub bhe b300 pohe po300 usv svhe sv300 svfig str1 str3 spaceg tblno ulat lata latb latc analm model udldt dadt dbdt dcdt udldp dadp dbdp dcdp strcmt utc t1 t2 t3 tcsus tcn tcwidth tc tcfig tcmeth udtcdp dtcdp pmax isotope isoel isorat dtc vols uhc1 mhc1 hc1zero phc1zero nhc1zero hc1t phc1t nhc1t tempc1 uhc2 mhc2 hc2zero phc2zero nhc2zero hc2t phc2t nhc2t tempc2 udhc2dt mdhc2dt dhc2dt pdhc2dt ndhc2dt hirfig mhirr ucohere mcohere cohere pcohere ncohere upenet mpenet penet ppenet npenet ugap gap gapene gapmeth jche jc77 figjc spheat ujump spjump ugamma gamma gamcom debyet mdebye uthc thc300 thc300n thc300p thcfig utp tp300 tp300n tp300p tpfig ures reshe abreshe creshe res77 abres77 cres77 resn abresn cresn nort resrt abresrt cresrt uhall rh300 rh300n rh300p rhn field hallfig ucarr carrier rawmat method prepcmt f_prep subst target pr_commt title year month keyword institute journal sample comments 2 JJP0260223 "(Ba,La)2CuO4" Ba0.2La1.8Cu1O4-Y Ba 0.2 La 1.8 Cu 1 O 4-Y 1987 T K 24 29 32 29 "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 3 JJP0260223 "(Ba,La,Ag)2CuO4" Ba0.1La1.9Ag0.1Cu0.9O4-Y Ba 0.1 La 1.9 Ag 0.1 Cu 0.9 O 4-Y 1987 T K 15 26 32 26 "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 4 JJP0260223 "(Ba,La,)2CuO4" Ba0.1La1.9Cu1O4-Y Ba 0.1 La 1.9 Cu 1 O 4-Y 1987 T K 5 19 30 19 "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 5 JJP0260223 "(Ba,La)2CuO4" Ba0.15La1.85Cu1O4-Y Ba 0.15 La 1.85 Cu 1 O 4-Y 1987 T K 4 22 30 22 "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 6 JJP0260223 "(Ba,La)2CuO4" Ba0.3La1.7Cu1O4-Y Ba 0.3 La 1.7 Cu 1 O 4-Y 1987 T K 5 23 34 23 "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 7 JJP0260223 "(Ba,La)2CuO4" Ba0.5La1.5Cu1O4-Y Ba 0.5 La 1.5 Cu 1 O 4-Y 1987 T K 5 23 35 23 "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 8 JJP0260223 "(Ba,La)2CuO4" Ba1La1Cu1O4-Y Ba 1 La 1 Cu 1 O 4-Y 1987 T K 11 21 11 "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 9 JJP0260223 La2CuO4 La2Cu1O4-Y La 2 Cu 1 O 4-Y 1987 T K "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 10 JJP0260223 "(La,Sr)2CuO4" Sr0.05La1.95Cu1O4-Y Sr 0.05 La 1.95 Cu 1 O 4-Y 1987 T K "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 11 JJP0260223 "(La,Sr)2CuO4" Sr0.1La1.9Cu1O4-Y Sr 0.1 La 1.9 Cu 1 O 4-Y 1987 T K 17.5 33 38 33 "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 12 JJP0260223 "(La,Sr)2CuO4" Sr0.15La1.85Cu1O4-Y Sr 0.15 La 1.85 Cu 1 O 4-Y 1987 T K 30 36 40 36 "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 13 JJP0260223 "(La,Sr)2CuO4" Sr0.2La1.8Cu1O4-Y Sr 0.2 La 1.8 Cu 1 O 4-Y 1987 T K 22 31 38 31 "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 14 JJP0260223 "(La,Sr)2CuO4" Sr0.3La1.7Cu1O4-Y Sr 0.3 La 1.7 Cu 1 O 4-Y 1987 T K 5 33 38 33 "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 15 JJP0260223 "(La,Ba)2(Cu,Hg)O4" Ba0.3La1.7Hg0.3Cu0.7O4-Y Ba 0.3 La 1.7 Hg 0.3 Cu 0.7 O 4-Y 1987 T K 4 26 34 26 "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 16 JJP0260223 "(La,Ba)2(Cu,Hg)O4" Ba0.3La1.7Hg0.5Cu0.5O4-Y Ba 0.3 La 1.7 Hg 0.5 Cu 0.5 O 4-Y 1987 T K "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 17 JJP0260223 "(La,Ba)2(Cu,Ag)O4" Ba0.1La1.9Ag0.05Cu0.95O4-Y Ba 0.1 La 1.9 Ag 0.05 Cu 0.95 O 4-Y 1987 T K 11.5 27 35 27 "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 18 JJP0260223 "(La,Ba)2(Cu,Ag)O4" Ba0.1La1.9Ag0.1Cu0.9O4-Y Ba 0.1 La 1.9 Ag 0.1 Cu 0.9 O 4-Y 1987 T K 11.5 27 35 27 "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 19 JJP0260223 "(La,Ba)2(Cu,Ag)O4" Ba0.1La1.9Ag0.25Cu0.75O4-Y Ba 0.1 La 1.9 Ag 0.25 Cu 0.75 O 4-Y 1987 T K 10 26 35 26 "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 20 JJP0260223 "(La,Ba)2(Cu,Ag)O4" Ba0.1La1.9Ag0.5Cu0.5O4-Y Ba 0.1 La 1.9 Ag 0.5 Cu 0.5 O 4-Y 1987 T K 10 27 36 27 "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 21 SSC0721203 "Y(Ba,Ca)2Cu3O7" Y1Ba1.5Ca0.5Cu3O7-Z Y 1 Ba 1.5 Ca 0.5 Cu 3 O 7-Z 1989 3 Y123 3.762 3.894 11.697 K 82 82 MAGNETIC PROPERTIES OF YBA1.5CA0.5CU3-O7-Z SUPERCONDUCTOR 1989 12 "MICROSTRUCTURE ,SUSCEPTIBILITY ,CRITICAL CURRENT ,GRAINS" "DEPARTMENT OF PHYSICS, SAURASHTRA UNIVERSITY, RAJIKOT 360 005,INDIA" SOLID STATE COMMUN.72(1989)1203 "Y,BA,CA,CU,O" 22 JJP0260123 "(La,Ba)2CuO4" Ba0.15La1.85Cu1O4-Y Ba 0.15 La 1.85 Cu 1 O 4-Y 1987 T K 24 30 32 30 High-Tc superconductivity of La-Ba-Cu oxides. II.-Specification of the superconducting phase 1987 "Jpn.J.Appl.Phys., 26(1987)L123" 23 JJP0260151 "(La,Ba)2CuO4" La1.85Ba0.15Cu1O4 La 1.85 Ba 0.15 Cu 1 O 4 1987 T K 26 30 32 30 6 High-Tc superconductivity of La-Ba-Cu oxides. III. Electrical resistivity measurement 1987 "Jpn.J.Appl.Phys., 26(1987)L151" 24 JJP0260196 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1987 T K 39 39 2 High-Tc superconductivity of La-Ba(Sr)-Cu oxides. IV Critical magnetic fields 1987 "Jpn.J.Appl.Phys., 26(1987)L196" 36 CL19870547 "(La,Sr)2CuO4" La1.95Sr0.05Cu1O4-Y La 1.95 Sr 0.05 Cu 1 O 4-Y 1987 T 3.794 13.211 K 14.8 14.8 Superconductivity and lattice parameters in (La1-xSrx)2CuO4-d solid solution system 1987 "Chem.Lett., No.3 (1987)547-550" 37 CL19870547 "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4-Y La 1.9 Sr 0.1 Cu 1 O 4-Y 1987 T 3.786 13.221 K 30 30 Superconductivity and lattice parameters in (La1-xSrx)2CuO4-d solid solution system 1987 "Chem.Lett., No.3 (1987)547-550" 38 CL19870547 "(La,Sr)2CuO4" La1.775Sr0.225Cu1O4-Y La 1.775 Sr 0.225 Cu 1 O 4-Y 1987 T 3.771 13.254 K 35.5 35.5 Superconductivity and lattice parameters in (La1-xSrx)2CuO4-d solid solution system 1987 "Chem.Lett., No.3 (1987)547-550" 39 CL19870547 "(La,Sr)2CuO4" La1.75Sr0.25Cu1O4-Y La 1.75 Sr 0.25 Cu 1 O 4-Y 1987 T 3.774 13.267 K 23.3 23.3 Superconductivity and lattice parameters in (La1-xSrx)2CuO4-d solid solution system 1987 "Chem.Lett., No.3 (1987)547-550" 40 CL19870547 "(La,Sr)2CuO4" La1.7Sr0.3Cu1O4-Y La 1.7 Sr 0.3 Cu 1 O 4-Y 1987 T 3.774 13.246 K 18.2 18.2 Superconductivity and lattice parameters in (La1-xSrx)2CuO4-d solid solution system 1987 "Chem.Lett., No.3 (1987)547-550" 41 CL19870547 "(La,Sr)2CuO4" La1.65Sr0.35Cu1O4-Y La 1.65 Sr 0.35 Cu 1 O 4-Y 1987 T 3.771 13.258 K 18.3 18.3 Superconductivity and lattice parameters in (La1-xSrx)2CuO4-d solid solution system 1987 "Chem.Lett., No.3 (1987)547-550" 42 CL19870547 "(La,Sr)2CuO4" La1.6Sr0.4Cu1O4-Y La 1.6 Sr 0.4 Cu 1 O 4-Y 1987 T 3.769 13.257 K 18.3 18.3 Superconductivity and lattice parameters in (La1-xSrx)2CuO4-d solid solution system 1987 "Chem.Lett., No.3 (1987)547-550" 43 CL19870547 "(La,Sr)2CuO4" La1.825Sr0.175Cu1O4-Y La 1.825 Sr 0.175 Cu 1 O 4-Y 1987 T 3.778 13.243 K 37.5 37.5 Superconductivity and lattice parameters in (La1-xSrx)2CuO4-d solid solution system 1987 "Chem.Lett., No.3 (1987)547-550" 44 CL19870429 "(La,Sr)2CuO4" La1.85Ca0.15Cu1O4-Y La 1.85 Ca 0.15 Cu 1 O 4-Y 1987 T K 18 20 24 20 New high temperature superconducting oxides (La1-xSrx)2CuO4-d and (La1-xCax)2CuO4-d 1987 "Chem. Lett., 16(1987)429" 47 JJP0260325 Yb16Ba1Cu2Oz Yb 16 Ba 1 Cu 2 O z 1987 K 26.7 76.9 89.9 76.9 600 High-Tc superconductivity in new oxide systems 1987 "Jpn.J.Appl.Phys., 26(1987)L325" 48 JJP0260325 Yb1.8Ba0.2Cu1Oz Yb 1.8 Ba 0.2 Cu 1 O z 1987 K 44.3 65.3 89.4 65.3 430 High-Tc superconductivity in new oxide systems 1987 "Jpn.J.Appl.Phys., 26(1987)L325" 49 JJP0260325 Yb6Ba1Cu1Oz Yb 6 Ba 1 Cu 1 O z 1987 K 48.6 78.6 89 78.6 370 High-Tc superconductivity in new oxide systems 1987 "Jpn.J.Appl.Phys., 26(1987)L325" 50 JJP0260325 Yb1.62La0.18Ba0.18Sr0.02Cu1Oz Yb 1.62 La 0.18 Ba 0.18 Sr 0.02 Cu 1 O z 1987 K 59.9 79.3 89 79.3 420 High-Tc superconductivity in new oxide systems 1987 "Jpn.J.Appl.Phys., 26(1987)L325" 51 JJP0260608 Y0.4Ba0.6Cu1OX Y 0.4 Ba 0.6 Cu 1 O X 1987 5.51 5.472 K 88 90 91 90 MEISSNER EFFECT AND RESISTIVITY OF THE SUPERCONDUCTING Y-BA-CU-O SYSTEM 1987 "JJAP.LETT.,26(1987)L608" "Y,BA,CU,O" 52 JJP0260601 Y0.4Ba0.6Cu1OX Y 0.4 Ba 0.6 Cu 1 O X 1987 K 87 94 90.5 2.2 5.2 BULK SUPERCONDUCTIVITY OF Y-BA-CU-O AND ER-BA-CU-O 1987 "JJAP.LETT.,26(1987)L601" "M,BA,CU,O" 53 JJP0260601 Er0.5Ba0.5Cu1OX Er 0.5 Ba 0.5 Cu 1 O X 1987 K 90 94 92 2.6 5.3 BULK SUPERCONDUCTIVITY OF Y-BA-CU-O AND ER-BA-CU-O 1987 "JJAP.LETT.,26(1987)L601" "M,BA,CU,O" 54 JJP0260613 Tm0.35Ba0.65Cu1OX Tm 0.35 Ba 0.65 Cu 1 O X 1987 K 93 93.2 100 93.2 HIGH TC SUPERCONDUCTIVITY IN TM-BA-CU-O SYSTEM 1987 "JJAP.LETT.,26(1987)L613" "TM,BA,CU,O" 55 JJP0260613 Tm0.3Ba0.7Cu1OX Tm 0.3 Ba 0.7 Cu 1 O X 1987 3.89 3.81 11.68 K 94.4 96.6 94.4 HIGH TC SUPERCONDUCTIVITY IN TM-BA-CU-O SYSTEM 1987 "JJAP.LETT.,26(1987)L613" "TM,BA,CU,O" 56 JJP0260613 Tm0.25Ba0.75Cu1OX Tm 0.25 Ba 0.75 Cu 1 O X 1987 3.89 3.81 11.68 K 86 93.2 97 93.2 HIGH TC SUPERCONDUCTIVITY IN TM-BA-CU-O SYSTEM 1987 "JJAP.LETT.,26(1987)L613" "TM,BA,CU,O" 57 JJP0260613 Tm0.2Ba0.8Cu1OX Tm 0.2 Ba 0.8 Cu 1 O X 1987 3.89 3.81 11.68 K 68.6 80.5 97.5 80.5 HIGH TC SUPERCONDUCTIVITY IN TM-BA-CU-O SYSTEM 1987 "JJAP.LETT.,26(1987)L613" "TM,BA,CU,O" 58 JJP0260615 La2Ba4Cu6O14+X La 2 Ba 4 Cu 6 O 14+X 1987 3 5.545 11.73 K 40 48 55 48 0.6 OXYGEN-DEFECT PEROVSKITE STRUCTURE WITH SUPERCONDUCTING TC ABOVE 50K IN LA-BA-CU-O COMPOUND SYSTEM 1987 "JJAP.LETT.,26(1987)L615" "LA,BA,CU,O" 59 JJP0260619 YBa2Cu3O7 Y1Ba2Cu3OX Y 1 Ba 2 Cu 3 O X 1987 3 Y123 3.824 3.889 11.687 K 86 94 90 2 3.2 "X-RAY AND ELECTRON-MICROSCOPIC STUDIES ON SINGLE-PHASE HIGH TC SUPERCONDUCTOR, Y(1)BA(2)CU(3)O(Z)" 1987 "JJAP.LETT.,26(1987)L619" "Y,BA,CU,O" 60 JJP0260624 "Y(Y,Ba)2Cu3O7" Y1.6Ba2.4Cu3O10-X Y 1.6 Ba 2.4 Cu 3 O 10-X 1987 Y123 K 78 90 93 90 SUPERCONDUCTIVITY ABOVE 90K IN Y-BA-CU-O COMPOUNDS AND THEIR CRITICAL CURRENT DENSITIES AT 77K 1987 "JJAP.LETT.,26(1987)L624" "Y,BA,CU,O" 61 JJP0260624 "Y(Y,Ba)2Cu3O7" Y1.2Ba1.8Cu2O7-X Y 1.2 Ba 1.8 Cu 2 O 7-X 1987 3 Y123 K 85 92 94 92 SUPERCONDUCTIVITY ABOVE 90K IN Y-BA-CU-O COMPOUNDS AND THEIR CRITICAL CURRENT DENSITIES AT 77K 1987 "JJAP.LETT.,26(1987)L624" "Y,BA,CU,O" 62 JJP0260624 Y0.8Ba1.2Cu1O4-X Y 0.8 Ba 1.2 Cu 1 O 4-X 1987 3 K 80 92 80 SUPERCONDUCTIVITY ABOVE 90K IN Y-BA-CU-O COMPOUNDS AND THEIR CRITICAL CURRENT DENSITIES AT 77K 1987 "JJAP.LETT.,26(1987)L624" "Y,BA,CU,O" 63 JJP0260633 La0.4Ba0.6Cu1O3-X La 0.4 Ba 0.6 Cu 1 O 3-X 1987 3 K SUPERCONDUCTIVITY IN BA-LN(LANTHANOID)-CU-O COMPOUNDS 1987 "JJAP.LETT.,26(1987)L633" "M,BA,CU,O" 64 JJP0260633 Pr0.4Ba0.6Cu1O3-X Pr 0.4 Ba 0.6 Cu 1 O 3-X 1987 3 K SUPERCONDUCTIVITY IN BA-LN(LANTHANOID)-CU-O COMPOUNDS 1987 "JJAP.LETT.,26(1987)L633" "M,BA,CU,O" 65 JJP0260633 Nd0.4Ba0.6Cu1OX Nd 0.4 Ba 0.6 Cu 1 O X 1987 3 K 85 93 85 SUPERCONDUCTIVITY IN BA-LN(LANTHANOID)-CU-O COMPOUNDS 1987 "JJAP.LETT.,26(1987)L633" "M,BA,CU,O" 66 JJP0260633 Eu0.4Ba0.6Cu1O3-X Eu 0.4 Ba 0.6 Cu 1 O 3-X 1987 K 8 16 8 SUPERCONDUCTIVITY IN BA-LN(LANTHANOID)-CU-O COMPOUNDS 1987 "JJAP.LETT.,26(1987)L633" "M,BA,CU,O" 67 JJP0260633 Gd0.4Ba0.6Cu1O3-X Gd 0.4 Ba 0.6 Cu 1 O 3-X 1987 3 K 13 27 13 SUPERCONDUCTIVITY IN BA-LN(LANTHANOID)-CU-O COMPOUNDS 1987 "JJAP.LETT.,26(1987)L633" "M,BA,CU,O" 68 JJP0260633 Dy0.4Ba0.6Cu1O3-X Dy 0.4 Ba 0.6 Cu 1 O 3-X 1987 K 91 94 91 SUPERCONDUCTIVITY IN BA-LN(LANTHANOID)-CU-O COMPOUNDS 1987 "JJAP.LETT.,26(1987)L633" "M,BA,CU,O" 69 JJP0260633 Ho0.4Ba0.6Cu1O3-X Ho 0.4 Ba 0.6 Cu 1 O 3-X 1987 3 K 94 95 94 SUPERCONDUCTIVITY IN BA-LN(LANTHANOID)-CU-O COMPOUNDS 1987 "JJAP.LETT.,26(1987)L633" "M,BA,CU,O" 70 JJP0260633 Er0.4Ba0.6Cu1O3-X Er 0.4 Ba 0.6 Cu 1 O 3-X 1987 3 K 93 95 93 SUPERCONDUCTIVITY IN BA-LN(LANTHANOID)-CU-O COMPOUNDS 1987 "JJAP.LETT.,26(1987)L633" "M,BA,CU,O" 71 JJP0260633 Tm0.4Ba0.6Cu1O3-X Tm 0.4 Ba 0.6 Cu 1 O 3-X 1987 3 K 93 96 93 SUPERCONDUCTIVITY IN BA-LN(LANTHANOID)-CU-O COMPOUNDS 1987 "JJAP.LETT.,26(1987)L633" "M,BA,CU,O" 72 JJP0260633 Lu0.4Ba0.6Cu1O3-X Lu 0.4 Ba 0.6 Cu 1 O 3-X 1987 3 K 91 94 91 SUPERCONDUCTIVITY IN BA-LN(LANTHANOID)-CU-O COMPOUNDS 1987 "JJAP.LETT.,26(1987)L633" "M,BA,CU,O" 73 JJP0260642 LaBa2Cu3O7 La1Ba2Cu3OX La 1 Ba 2 Cu 3 O X 1987 3 Y123 3.923 11.78 K HIGH TC SUPERCONDUCTIVITY IN NEW OXIDE SYSTEMS AND THEIR X-RAY DIFFRACTION STUDY 1987 "JJAP.LETT.,26(1987)L642" 74 JJP0260642 Pr2Ba3Cu5OX Pr 2 Ba 3 Cu 5 O X 1987 3 3.904 11.716 K HIGH TC SUPERCONDUCTIVITY IN NEW OXIDE SYSTEMS AND THEIR X-RAY DIFFRACTION STUDY 1987 "JJAP.LETT.,26(1987)L642" 75 JJP0260642 Nd2Ba3Cu5OX Nd 2 Ba 3 Cu 5 O X 1987 3.891 11.678 K 2.8 18 40 18 HIGH TC SUPERCONDUCTIVITY IN NEW OXIDE SYSTEMS AND THEIR X-RAY DIFFRACTION STUDY 1987 "JJAP.LETT.,26(1987)L642" 76 JJP0260642 SmBa2Cu3O7 Sm1Ba2Cu3OX Sm 1 Ba 2 Cu 3 O X 1987 3 Y123 3.901 11.81 K 24 43 54 43 HIGH TC SUPERCONDUCTIVITY IN NEW OXIDE SYSTEMS AND THEIR X-RAY DIFFRACTION STUDY 1987 "JJAP.LETT.,26(1987)L642" 77 JJP0260642 Eu2Ba3Cu5OX Eu 2 Ba 3 Cu 5 O X 1987 3.861 3.896 11.688 K HIGH TC SUPERCONDUCTIVITY IN NEW OXIDE SYSTEMS AND THEIR X-RAY DIFFRACTION STUDY 1987 "JJAP.LETT.,26(1987)L642" 78 JJP0260642 Gd2Ba3Cu5OX Gd 2 Ba 3 Cu 5 O X 1987 3 3.852 3.9 11.701 K 28.6 40 51 40 HIGH TC SUPERCONDUCTIVITY IN NEW OXIDE SYSTEMS AND THEIR X-RAY DIFFRACTION STUDY 1987 "JJAP.LETT.,26(1987)L642" 79 JJP0260642 Dy2Ba3Cu5OX Dy 2 Ba 3 Cu 5 O X 1987 3 3.879 11.679 K HIGH TC SUPERCONDUCTIVITY IN NEW OXIDE SYSTEMS AND THEIR X-RAY DIFFRACTION STUDY 1987 "JJAP.LETT.,26(1987)L642" 80 JJP0260642 TmBa2Cu3O7 Tm1Ba2Cu3OX Tm 1 Ba 2 Cu 3 O X 1987 3 Y123 3.823 3.892 11.674 K HIGH TC SUPERCONDUCTIVITY IN NEW OXIDE SYSTEMS AND THEIR X-RAY DIFFRACTION STUDY 1987 "JJAP.LETT.,26(1987)L642" 81 JJP0260642 YBa2Cu3O7 Y1Ba2Cu3OX Y 1 Ba 2 Cu 3 O X 1987 3 Y123 3.829 3.888 11.667 K HIGH TC SUPERCONDUCTIVITY IN NEW OXIDE SYSTEMS AND THEIR X-RAY DIFFRACTION STUDY 1987 "JJAP.LETT.,26(1987)L642" 82 JJP0260642 YBa2Cu3O7 Y1Ba2Cu3OX Y 1 Ba 2 Cu 3 O X 1987 3 Y123 K 48 92 70 HIGH TC SUPERCONDUCTIVITY IN NEW OXIDE SYSTEMS AND THEIR X-RAY DIFFRACTION STUDY 1987 "JJAP.LETT.,26(1987)L642" 83 JJP0260645 strong c-axis orientation. surface oxidized by glow discharge and Pb-film-electrode. gap by tunneling. Tc = 48 K after sample treatments YBa2Cu3O7 Y1Ba2Cu3OX Y 1 Ba 2 Cu 3 O X 1987 Y123 3.883 3.822 11.69 K 90 90 10.5 1 TUNNELING SPECTROSCOPY OF Y-BA-CU-O COMPOUNDS 1987 "JJAP.LETT.,26(1987)L645" "Y,BA,CU,O" 85 JJP0260649 Y0.3Ba0.7Cu1O3-X Y 0.3 Ba 0.7 Cu 1 O 3-X 1987 3 K 95.5 95.5 RIETVELD REFINEMENT OF THE STRUCTURE OF BA(2)Y(1)CU(3)O(7-Z) WITH NEUTRON POWDER DIFFRACTION DATA 1987 "JJAP.LETT.,26(1987)L649" "Y,BA,CU,O" 86 JJP0260657 Y0.8Ba1.2Cu1OX Y 0.8 Ba 1.2 Cu 1 O X 1987 3 K 94 94 "ELECTRICAL RESISTIVITY, CRITICAL CURRENTAND CRYSTAL ORIENTATION OF THE SINTERED Y-BA-CU-O COMPOUNDS" 1987 "JJAP.LETT.,26(1987)L657" "Y,BA,CU,O" 87 JJP0260657 Y0.6Ba0.9Cu1OX Y 0.6 Ba 0.9 Cu 1 O X 1987 K 75 88 98 88 "ELECTRICAL RESISTIVITY, CRITICAL CURRENTAND CRYSTAL ORIENTATION OF THE SINTERED Y-BA-CU-O COMPOUNDS" 1987 "JJAP.LETT.,26(1987)L657" "Y,BA,CU,O" 88 JJP0260223 Ba0.3La1.7Hg0.15Cu0.85O4-Y Ba 0.3 La 1.7 Hg 0.15 Cu 0.85 O 4-Y 1987 K 22 28 32 28 "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 89 JJP0260223 Ba0.3La1.7Hg0.15Cu0.85O4-Y Ba 0.3 La 1.7 Hg 0.15 Cu 0.85 O 4-Y 1987 K 10 28 36 28 "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 93 CL19870547 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4-Y La 1.85 Sr 0.15 Cu 1 O 4-Y 1987 T 3.782 13.229 K 35.5 36 35.5 Superconductivity and lattice parameters in (La1-xSrx)2CuO4-d solid solution system 1987 "Chem.Lett., No.3 (1987)547-550" 94 JJP0260325 Yb1.6La0.2Ba0.2Cu1Oz Yb 1.6 La 0.2 Ba 0.2 Cu 1 O z 1987 3 K 53.5 79.2 88.9 79.2 780 High-Tc superconductivity in new oxide systems 1987 "Jpn. J. Appl. Phys., 26(1987)L325" 95 JJP0260223 "(La,Sr)2CuO4" Sr0.35La1.65Cu1O4-Y Sr 0.35 La 1.65 Cu 1 O 4-Y 1987 T K 26 32 26 "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 97 JJP0260624 Y0.4Ba0.6Cu1OX Y 0.4 Ba 0.6 Cu 1 O X 1987 3.818 3.888 11.667 K 90 92 93 92 SUPERCONDUCTIVITY ABOVE 90K IN Y-BA-CU-O COMPOUNDS AND THEIR CRITICAL CURRENT DENSITIES AT 77K 1987 "JJAP.LETT.,26(1987)L624" "Y,BA,CU,O" 98 JJP0260633 Yb0.4Ba0.6Cu1O3-X Yb 0.4 Ba 0.6 Cu 1 O 3-X 1987 3 K 88 92 88 SUPERCONDUCTIVITY IN BA-LN(LANTHANOID)-CU-O COMPOUNDS 1987 "JJAP.LETT.,26(1987)L633" "M,BA,CU,O" 99 JJP0260325 Lu1.8Ba0.2Cu1O4 Lu 1.8 Ba 0.2 Cu 1 O 4 1987 3 K 43 71.9 89 71.9 4.2 High-Tc superconductivity in new oxide systems 1987 "Jpn. J. Appl. Phys., 26(1987)L325" 100 JJP0260325 Y0.9Ba0.1Cu1O4 Y 0.9 Ba 0.1 Cu 1 O 4 1987 3 K 50 81 92.5 81 0.7 High-Tc superconductivity in new oxide systems 1987 "Jpn. J. Appl. Phys., 26(1987)L325" 105 APL0500543 "(La,Ba)2CuO4" Ba0.15La1.85Cu1O4 Ba 0.15 La 1.85 Cu 1 O 4 1987 T K 21.5 28 34 28 Upper critical fields and high superconducting transition temperatures of La1.85Sr0.15CuO4 and La1.85Ba0.15CuO4 1987 "Appl.Phys.Lett., 50(1987)543" 106 APL0500543 "(La,Sr)2CuO4" Sr0.15La1.85Cu1O4 Sr 0.15 La 1.85 Cu 1 O 4 1987 T K 30 34.7 36.7 34.7 Upper critical fields and high superconducting transition temperatures of La1.85Sr0.15CuO4 and La1.85Ba0.15CuO4 1987 "Appl.Phys.Lett., 50(1987)543" 108 JJP0260337 "(La,Sr)2(Cu,Ti)O4" Sr0.2La1.8Cu0.95Ti0.05O4 Sr 0.2 La 1.8 Cu 0.95 Ti 0.05 O 4 1987 T K 21 21 HIGH TC SUPERCONDUCTIVITY OF (LA(1-X)SR(X))(2)CU(1)O(4)EFFECT OF SUBSTITUTION OF FOREIGN IONS FOR CU AND LA ON SUPERCONDUCTIVITY 1987 4 "DEPARTMENT OF INDUSTRIAL CHEMISTRY,FACULTY OFENGINEERING,UNIVERSITY OF TOKYO,TOKYO" "JJAP.LETT.,26(1987)L337" "LA,SR,CU,O" 109 JJP0260337 "(La,Sr)2(Cu,V)O4" Sr0.2La1.8Cu0.99V0.01O4 Sr 0.2 La 1.8 Cu 0.99 V 0.01 O 4 1987 T K 12 12 HIGH TC SUPERCONDUCTIVITY OF (LA(1-X)SR(X))(2)CU(1)O(4)EFFECT OF SUBSTITUTION OF FOREIGN IONS FOR CU AND LA ON SUPERCONDUCTIVITY 1987 4 "DEPARTMENT OF INDUSTRIAL CHEMISTRY,FACULTY OFENGINEERING,UNIVERSITY OF TOKYO,TOKYO" "JJAP.LETT.,26(1987)L337" "LA,SR,CU,O" 110 JJP0260337 "(La,Sr)2(Cu,Cr)O4" Sr0.2La1.8Cu0.99Cr0.01O4 Sr 0.2 La 1.8 Cu 0.99 Cr 0.01 O 4 1987 T K 22 22 HIGH TC SUPERCONDUCTIVITY OF (LA(1-X)SR(X))(2)CU(1)O(4)EFFECT OF SUBSTITUTION OF FOREIGN IONS FOR CU AND LA ON SUPERCONDUCTIVITY 1987 4 "DEPARTMENT OF INDUSTRIAL CHEMISTRY,FACULTY OFENGINEERING,UNIVERSITY OF TOKYO,TOKYO" "JJAP.LETT.,26(1987)L337" "LA,SR,CU,O" 111 JJP0260337 "(La,Sr)2(Cu,Mn)O4" Sr0.2La1.8Cu0.98Mn0.02O4 Sr 0.2 La 1.8 Cu 0.98 Mn 0.02 O 4 1987 T K 32 32 HIGH TC SUPERCONDUCTIVITY OF (LA(1-X)SR(X))(2)CU(1)O(4)EFFECT OF SUBSTITUTION OF FOREIGN IONS FOR CU AND LA ON SUPERCONDUCTIVITY 1987 4 "DEPARTMENT OF INDUSTRIAL CHEMISTRY,FACULTY OFENGINEERING,UNIVERSITY OF TOKYO,TOKYO" "JJAP.LETT.,26(1987)L337" "LA,SR,CU,O" 112 JJP0260337 "(La,Sr)2(Cu,Fe)O4" Sr0.2La1.8Cu0.95Fe0.05O4 Sr 0.2 La 1.8 Cu 0.95 Fe 0.05 O 4 1987 T K 30 30 HIGH TC SUPERCONDUCTIVITY OF (LA(1-X)SR(X))(2)CU(1)O(4)EFFECT OF SUBSTITUTION OF FOREIGN IONS FOR CU AND LA ON SUPERCONDUCTIVITY 1987 4 "DEPARTMENT OF INDUSTRIAL CHEMISTRY,FACULTY OFENGINEERING,UNIVERSITY OF TOKYO,TOKYO" "JJAP.LETT.,26(1987)L337" "LA,SR,CU,O" 113 JJP0260337 "(La,Sr)2(Cu,Co)O4" Sr0.2La1.8Cu0.95Co0.05O4 Sr 0.2 La 1.8 Cu 0.95 Co 0.05 O 4 1987 T K 16 16 HIGH TC SUPERCONDUCTIVITY OF (LA(1-X)SR(X))(2)CU(1)O(4)EFFECT OF SUBSTITUTION OF FOREIGN IONS FOR CU AND LA ON SUPERCONDUCTIVITY 1987 4 "DEPARTMENT OF INDUSTRIAL CHEMISTRY,FACULTY OFENGINEERING,UNIVERSITY OF TOKYO,TOKYO" "JJAP.LETT.,26(1987)L337" "LA,SR,CU,O" 114 JJP0260337 "(La,Sr)2(Cu,Ni)O4" Sr0.2La1.8Cu0.95Ni0.05O4 Sr 0.2 La 1.8 Cu 0.95 Ni 0.05 O 4 1987 T K 21 21 HIGH TC SUPERCONDUCTIVITY OF (LA(1-X)SR(X))(2)CU(1)O(4)EFFECT OF SUBSTITUTION OF FOREIGN IONS FOR CU AND LA ON SUPERCONDUCTIVITY 1987 4 "DEPARTMENT OF INDUSTRIAL CHEMISTRY,FACULTY OFENGINEERING,UNIVERSITY OF TOKYO,TOKYO" "JJAP.LETT.,26(1987)L337" "LA,SR,CU,O" 115 JJP0260337 "(La,Sr)2(Cu,Zn)O4" Sr0.2La1.8Cu0.99Zn0.01O4 Sr 0.2 La 1.8 Cu 0.99 Zn 0.01 O 4 1987 T K 29 29 HIGH TC SUPERCONDUCTIVITY OF (LA(1-X)SR(X))(2)CU(1)O(4)EFFECT OF SUBSTITUTION OF FOREIGN IONS FOR CU AND LA ON SUPERCONDUCTIVITY 1987 4 "DEPARTMENT OF INDUSTRIAL CHEMISTRY,FACULTY OFENGINEERING,UNIVERSITY OF TOKYO,TOKYO" "JJAP.LETT.,26(1987)L337" "LA,SR,CU,O" 116 JJP0260337 "(La,Pr,Sr)2CuO4" Pr0.1La1.7Sr0.2Cu1O4 Pr 0.1 La 1.7 Sr 0.2 Cu 1 O 4 1987 T K 36 36 HIGH TC SUPERCONDUCTIVITY OF (LA(1-X)SR(X))(2)CU(1)O(4)EFFECT OF SUBSTITUTION OF FOREIGN IONS FOR CU AND LA ON SUPERCONDUCTIVITY 1987 4 "DEPARTMENT OF INDUSTRIAL CHEMISTRY,FACULTY OFENGINEERING,UNIVERSITY OF TOKYO,TOKYO" "JJAP.LETT.,26(1987)L337" "LA,SR,CU,O" 117 JJP0260337 "(La,Nd,Sr)2CuO4" Nd0.1La1.7Sr0.2Cu1O4 Nd 0.1 La 1.7 Sr 0.2 Cu 1 O 4 1987 T K 35 35 HIGH TC SUPERCONDUCTIVITY OF (LA(1-X)SR(X))(2)CU(1)O(4)EFFECT OF SUBSTITUTION OF FOREIGN IONS FOR CU AND LA ON SUPERCONDUCTIVITY 1987 4 "DEPARTMENT OF INDUSTRIAL CHEMISTRY,FACULTY OFENGINEERING,UNIVERSITY OF TOKYO,TOKYO" "JJAP.LETT.,26(1987)L337" "LA,SR,CU,O" 118 JJP0260337 "(La,Sm,Sr)2CuO4" Sm0.1La1.7Sr0.2Cu1O4 Sm 0.1 La 1.7 Sr 0.2 Cu 1 O 4 1987 T K 32 32 HIGH TC SUPERCONDUCTIVITY OF (LA(1-X)SR(X))(2)CU(1)O(4)EFFECT OF SUBSTITUTION OF FOREIGN IONS FOR CU AND LA ON SUPERCONDUCTIVITY 1987 4 "DEPARTMENT OF INDUSTRIAL CHEMISTRY,FACULTY OFENGINEERING,UNIVERSITY OF TOKYO,TOKYO" "JJAP.LETT.,26(1987)L337" "LA,SR,CU,O" 119 JJP0260337 "(La,Gd,Sr)2CuO4" Gd0.1La1.7Sr0.2Cu1O4 Gd 0.1 La 1.7 Sr 0.2 Cu 1 O 4 1987 T K 30 30 HIGH TC SUPERCONDUCTIVITY OF (LA(1-X)SR(X))(2)CU(1)O(4)EFFECT OF SUBSTITUTION OF FOREIGN IONS FOR CU AND LA ON SUPERCONDUCTIVITY 1987 4 "DEPARTMENT OF INDUSTRIAL CHEMISTRY,FACULTY OFENGINEERING,UNIVERSITY OF TOKYO,TOKYO" "JJAP.LETT.,26(1987)L337" "LA,SR,CU,O" 120 PRB0363923 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.85Fe0.15O7 Y 1 Ba 2 Cu 2.85 Fe 0.15 O 7 1987 Y123 K 51 51 EFFECTS OF SUBSTITUTION OF O BY S AND CU BY FE ON SUPERCONDUCTIVITY IN Y(1)BA(2)CU(3)O(7) 1987 9 "SUSCEPTIBILITY ,TC" "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY,JERUSALEM,ISRAEL" "PHYS.REV.B,36(1987)3923" "Y,BA,CU,O" 121 PRB0363923 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.7Fe0.3O7 Y 1 Ba 2 Cu 2.7 Fe 0.3 O 7 1987 3 Y123 K 33 33 EFFECTS OF SUBSTITUTION OF O BY S AND CU BY FE ON SUPERCONDUCTIVITY IN Y(1)BA(2)CU(3)O(7) 1987 9 "SUSCEPTIBILITY ,TC" "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY,JERUSALEM,ISRAEL" "PHYS.REV.B,36(1987)3923" "Y,BA,CU,O" 122 PRB0363923 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.97Fe0.03O7 Y 1 Ba 2 Cu 2.97 Fe 0.03 O 7 1987 3 Y123 3.822 3.891 11.67 K 82 82 EFFECTS OF SUBSTITUTION OF O BY S AND CU BY FE ON SUPERCONDUCTIVITY IN Y(1)BA(2)CU(3)O(7) 1987 9 "SUSCEPTIBILITY ,TC" "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY,JERUSALEM,ISRAEL" "PHYS.REV.B,36(1987)3923" "Y,BA,CU,O" 123 PRB0363923 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.94Fe0.06O7 Y 1 Ba 2 Cu 2.94 Fe 0.06 O 7 1987 3 Y123 K 60 60 EFFECTS OF SUBSTITUTION OF O BY S AND CU BY FE ON SUPERCONDUCTIVITY IN Y(1)BA(2)CU(3)O(7) 1987 9 "SUSCEPTIBILITY ,TC" "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY,JERUSALEM,ISRAEL" "PHYS.REV.B,36(1987)3923" "Y,BA,CU,O" 124 PRB0363923 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.88Fe0.12O7 Y 1 Ba 2 Cu 2.88 Fe 0.12 O 7 1987 Y123 K 54 54 EFFECTS OF SUBSTITUTION OF O BY S AND CU BY FE ON SUPERCONDUCTIVITY IN Y(1)BA(2)CU(3)O(7) 1987 9 "SUSCEPTIBILITY ,TC" "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY,JERUSALEM,ISRAEL" "PHYS.REV.B,36(1987)3923" "Y,BA,CU,O" 125 PRB0363923 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1987 3 Y123 3.822 3.891 11.67 K 90 90 EFFECTS OF SUBSTITUTION OF O BY S AND CU BY FE ON SUPERCONDUCTIVITY IN Y(1)BA(2)CU(3)O(7) 1987 9 "SUSCEPTIBILITY ,TC" "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY,JERUSALEM,ISRAEL" "PHYS.REV.B,36(1987)3923" "Y,BA,CU,O" 126 PRB0363923 "YBa2Cu3(O,S)7" Y1Ba2Cu3S1O6 Y 1 Ba 2 Cu 3 S 1 O 6 1987 Y123 3.855 3.919 11.75 K 90 90 EFFECTS OF SUBSTITUTION OF O BY S AND CU BY FE ON SUPERCONDUCTIVITY IN Y(1)BA(2)CU(3)O(7) 1987 9 "SUSCEPTIBILITY ,TC" "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY,JERUSALEM,ISRAEL" "PHYS.REV.B,36(1987)3923" "Y,BA,CU,O" 127 PRB0363923 "Yba2Cu3(O,Cl)7" Y1Ba2Cu3Cl1O6 Y 1 Ba 2 Cu 3 Cl 1 O 6 1987 3 Y123 K 72 72 EFFECTS OF SUBSTITUTION OF O BY S AND CU BY FE ON SUPERCONDUCTIVITY IN Y(1)BA(2)CU(3)O(7) 1987 9 "SUSCEPTIBILITY ,TC" "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY,JERUSALEM,ISRAEL" "PHYS.REV.B,36(1987)3923" "Y,BA,CU,O" 128 PRB0363920 YBa2Cu3O7 Y1Ba2Cu3O7+Y Y 1 Ba 2 Cu 3 O 7+Y 1987 3 Y123 3.821 3.885 11.676 K 92 92 Twins and oriented domains in the orthorhombic superconductor YBa2Cu3O7+-e 1987 "Laboratoire de Cristallographie et Sciences des Materiaux, Institut des Sciences de la Matiere et du Rayonnement, Campus 2, Boulevard du Marechal Juin, Universite de Caen, 14032 Caen Cedex, France" "Phys.Rev.B,36(1987)3920" 129 PRB0363917 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1987 3 Y123 K 86 100 93 11 19 THERMAL CONDUCTIVITY OF SUPERCONDUCTIVE Y-BA-CU-O 1987 9 THERMAL CONDUCTIVITY "PHYSICS DEPARTMENT,GENERAL MOTORS RESEARCH LABORATORIES,WARREN,MICHIGAN" "PHYS.REV.B,36(1987)3917" "Y,BA,CU,O" 130 PRB0363913 YBa2Cu3O7 Y1Ba2Cu3O7-Y Y 1 Ba 2 Cu 3 O 7-Y 1987 3 Y123 K 92 92 40 3.24 TP130 0.35 NORMAL-STATE PROPERTIES OF A(1)BA(2)CU(3)O(7-Y) COMPOUNDS(A=Y AND GD):ELECTRON-ELECTRON CORRELATIONS 1987 9 "THERMOPOWER ,HALL EFFECT" "PHYSICS DIVISION,LOS ALAMOS NATIONAL LABORATORY,LOS ALAMOS,NEW MEXICO" "PHYS.REV.B,36(1987)3913" "R,BA,CU,O" 131 PRB0363913 GdBa2Cu3O7 Gd1Ba2Cu3O7-Y Gd 1 Ba 2 Cu 3 O 7-Y 1987 3 Y123 K 94.5 94.5 6.46 TP131 0.2 RH131 NORMAL-STATE PROPERTIES OF A(1)BA(2)CU(3)O(7-Y) COMPOUNDS(A=Y AND GD):ELECTRON-ELECTRON CORRELATIONS 1987 9 "THERMOPOWER ,HALL EFFECT" "PHYSICS DIVISION,LOS ALAMOS NATIONAL LABORATORY,LOS ALAMOS,NEW MEXICO" "PHYS.REV.B,36(1987)3913" "R,BA,CU,O" 132 PRB0364011 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1987 T K Low-field magnetic relaxation effects in high-Tc superconductors Sr-La-Cu-O and Ba-La-Cu-O 1987 9 "Laboratorium Fur Festkorperphysik, Eidgenossische Technische Hochschule-Honggerberg, CH-8093 Zurich, Swizerland" "Phys.Rev.B,36(1987)4011" 133 PRB0364003 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1987 T K 36 36 Critical fields and the critical current density of La1.85Sr0.15CuO4 1987 "Laboratoire de Physique des Solides Universite de Paris-Sud, Batiment 510, 91405 Orsay Cedex, France" "Phys.Rev.B,36(1987)4003" 134 PRB0363990 "78.8%BA(135),DTC=0.1,ALPHA=0.0+-0.1(RES)" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1987 Y123 K 91 91.85 92 91.85 Complete absence of isotope effect in YBa2Cu3O7: Consequences for phonon-mediated superconductivity 1987 9 "Department of Physics, University of California, Berkeley, California 94720" "Phys.Rev.B,36(1987)3990" 135 PRB0363990 99.7%BA(138) YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1987 Y123 K 91 91.95 92.2 91.95 Complete absence of isotope effect in YBa2Cu3O7: Consequences for phonon-mediated superconductivity 1987 9 "Department of Physics, University of California, Berkeley, California 94720" "Phys.Rev.B,36(1987)3990" 136 PRB0363990 "99.7%CU(63),DTC=0.2,ALPHA=0.0+-0.07(RES)" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1987 3 Y123 K 87 89.7 91 89.7 0.01 Complete absence of isotope effect in YBa2Cu3O7: Consequences for phonon-mediated superconductivity 1987 9 "Department of Physics, University of California, Berkeley, California 94720" "Phys.Rev.B,36(1987)3990" 137 PRB0363990 99.6%CU(65) YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1987 3 Y123 K 87 89.9 91.2 89.9 Complete absence of isotope effect in YBa2Cu3O7: Consequences for phonon-mediated superconductivity 1987 9 "Department of Physics, University of California, Berkeley, California 94720" "Phys.Rev.B,36(1987)3990" 138 JPC0200669 HoBa2Cu3O7 Ho1Ba2Cu3O8-X Ho 1 Ba 2 Cu 3 O 8-X 1987 7.9 3 Y123 K 80 90 85 15 SUPERCONDUCTIVITY IN Y(0.1)GD(0.9)BA(2)CU(3)O(8-Z) AND HO(1)BA(2)CU(3)O(8-Z) SYSTEMS 1987 10 "RESISTIVITY ,TC ,MAGNETIZ" "SAHA INSTITUTE OF NUCLEAR PHYSICS,CALCUTTA,INDIA" "J.PHYS.C,20(1987)669" "Y,GD,BA,CU,O,HO,BA,CU,O" 139 JPC0200669 "(Y,Gd)Ba2Cu3O7" Y0.1Gd0.9Ba2Cu3O8-X Y 0.1 Gd 0.9 Ba 2 Cu 3 O 8-X 1987 5.26 3 Y123 K 89 92 90.5 2 SUPERCONDUCTIVITY IN Y(0.1)GD(0.9)BA(2)CU(3)O(8-Z) AND HO(1)BA(2)CU(3)O(8-Z) SYSTEMS 1987 10 "RESISTIVITY ,TC ,MAGNETIZ" "SAHA INSTITUTE OF NUCLEAR PHYSICS,CALCUTTA,INDIA" "J.PHYS.C,20(1987)669" "Y,GD,BA,CU,O,HO,BA,CU,O" 140 JPC0200673 ErBa2Cu3O7 Er1Ba2Cu3O7-X Er 1 Ba 2 Cu 3 O 7-X 1987 3 Y123 K 260 275 285 275 EVIDENCE FOR TRANSIENT SUPERCONDUCTIVITY NEAR 260 K 1987 10 "RESISTIVITY ,SUSCEPTIBILITY" "TATA INSTITUTE OF FUNDAMENTAL RESEARCH,HOMI BHABHA ROAD,BOMBAY,INDIA" "J.PHYS.C,20(1987)673" "ER,BA,CU,O" 141 PRL0591468 YBa2Cu3O7 Y1Ba2Cu3O7-X Y 1 Ba 2 Cu 3 O 7-X 1987 Y123 K 130 130 40 IMPROVED HIGH-TC SUPERCONDUCTORS 1987 9 "RESISTIVITY ,PREPARATION" "PHILIPS LABORATORIES,NORTH AMERICAN PHILIPS CORPORATION,BRIARCLIFF MANOR,NEW YORK" "PHYS.REV.LETT.,59(1987)1468" "Y,BA,CU,O,F" 142 PRL0591160 YBa2Cu3O7 Y1Ba2Cu3O7-X Y 1 Ba 2 Cu 3 O 7-X 1987 3 Y123 3.83 3.89 11.71 K 88.8 88.8 2.3 0.71 ANISOTROPIC NATURE OF HIGH-TEMPERATURE SUPERCONDUCTIVITY IN SINGLE-CRYSTAL Y(1)BA(2)CU(3)O(7-X) 1987 9 "HC ,ANISOTROPY ,SINGLE C" "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.LETT.,59(1987)1160" "Y,BA,CU,O" 143 PRL0591329 La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 1987 T K SOFT-PHONON BEHAVIOR AND TRANSPORT IN SINGLE-CRYSTAL LA(2)CU(1)O(4) 1987 9 "STRUCTURE ,PHONON ,RESISTIV" "CENTER FOR MATERIALS SCIENCE AND ENGINEERING,MASSACHUSETTS INSTITUTE OF TECHNOLOGY,CAMBRIDGE,MASSACHUSETTS" "PHYS.REV.LETT.,59(1987)1329" "LA,CU,O" 144 JPF0170261 YBa2Cu3O7 Y1Ba2Cu3O7-X Y 1 Ba 2 Cu 3 O 7-X 1987 Y123 K 84 90 92 90 ULTRASONIC ATTENUATION IN THE HIGH-TC SUPERCONDUCTOR Y(1)BA(2)CU(3)O(7-Z) 1987 10 "SOUND VELOCITY ,PHONON" "SCHOOLS OF MATERIALS SCIENCE AND PHYSICS,UNIVERSITY OF BATH,CLAVERTON DOWN,BATH,UK" "J.PHYS.F,17(1987)261" "Y,BA,CU,O" 145 JPF0170243 YBa2Cu3O7 Y1Ba2Cu3O7-X Y 1 Ba 2 Cu 3 O 7-X 1987 3 Y123 K 85.5 85.5 Ultrasonic investigation of lattice instability and superconductivivty in high-Tc systems 1987 "Center of Theoretical Physics, CCAST (World Lab.), Beijing, China and Physics Department, Tsinghua University, Beijing, China" J.Phys.F:Met.Phys.17(1987)L243-L248 146 JPF0170243 Y3Ba5Cu4Nb1O18-X Y 3 Ba 5 Cu 4 Nb 1 O 18-X 1987 3 K 77.3 77.3 Ultrasonic investigation of lattice instability and superconductivivty in high-Tc systems 1987 "Center of Theoretical Physics, CCAST (World Lab.), Beijing, China and Physics Department, Tsinghua University, Beijing, China" J.Phys.F:Met.Phys.17(1987)L243-L248 147 PRL0591768 YBa2Cu3O7 Y1Ba2Cu3O7-X Y 1 Ba 2 Cu 3 O 7-X 1987 3 Y123 K 90 90 0.18 -0.75 -0.9 MEASUREMENT OF ANISOTROPIC RESISTIVITY AND HALL CONSTANT FOR SINGLE-CRYSTAL Y(1)BA(2)CU(3)O(7-X) 1987 10 "SINGLE CRYSTAL ,HALL EFFECT ,RESISTIVITY ,AN" "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.LETT.,59(1987)1768" "Y,BA,CU,O" 148 SSC0631125 Sm0.45Ba0.55Cu1O3-Y Sm 0.45 Ba 0.55 Cu 1 O 3-Y 1987 3 K 56 69 85.5 69 THE HIGH-TC SUPERCONDUCTIVITY IN SM(X)BA(1-X)CU(1)O(3-Y) COMPOUND SYSTEM 1987 10 "RESISTIVITY ,SUSCEPTIBILITY ,TC" "INSTITUTE OF PHYSICS,CHINESE ACADEMY OF SCIENCES,BEIJING,CHINA" "SOLID STATE COMMUN.,63(1987)1125" 149 SSC0631125 Sm0.4Ba0.6Cu1O3-Y Sm 0.4 Ba 0.6 Cu 1 O 3-Y 1987 3 K 78.9 84.3 92.8 84.3 THE HIGH-TC SUPERCONDUCTIVITY IN SM(X)BA(1-X)CU(1)O(3-Y) COMPOUND SYSTEM 1987 10 "RESISTIVITY ,SUSCEPTIBILITY ,TC" "INSTITUTE OF PHYSICS,CHINESE ACADEMY OF SCIENCES,BEIJING,CHINA" "SOLID STATE COMMUN.,63(1987)1125" 150 SSC0631125 Sm0.33Ba0.67Cu1O7-X Sm 0.33 Ba 0.67 Cu 1 O 7-X 1987 K 80.3 86.4 94.8 86.4 THE HIGH-TC SUPERCONDUCTIVITY IN SM(X)BA(1-X)CU(1)O(3-Y) COMPOUND SYSTEM 1987 10 "RESISTIVITY ,SUSCEPTIBILITY ,TC" "INSTITUTE OF PHYSICS,CHINESE ACADEMY OF SCIENCES,BEIJING,CHINA" "SOLID STATE COMMUN.,63(1987)1125" 151 SSC0631125 Sm0.3Ba0.7Cu1O3-Y Sm 0.3 Ba 0.7 Cu 1 O 3-Y 1987 3 K 79.8 88.8 96.5 88.8 THE HIGH-TC SUPERCONDUCTIVITY IN SM(X)BA(1-X)CU(1)O(3-Y) COMPOUND SYSTEM 1987 10 "RESISTIVITY ,SUSCEPTIBILITY ,TC" "INSTITUTE OF PHYSICS,CHINESE ACADEMY OF SCIENCES,BEIJING,CHINA" "SOLID STATE COMMUN.,63(1987)1125" 152 SSC0631125 Sm0.25Ba0.75Cu1O3-Y Sm 0.25 Ba 0.75 Cu 1 O 3-Y 1987 3 K 63.4 73.6 89.1 73.6 THE HIGH-TC SUPERCONDUCTIVITY IN SM(X)BA(1-X)CU(1)O(3-Y) COMPOUND SYSTEM 1987 10 "RESISTIVITY ,SUSCEPTIBILITY ,TC" "INSTITUTE OF PHYSICS,CHINESE ACADEMY OF SCIENCES,BEIJING,CHINA" "SOLID STATE COMMUN.,63(1987)1125" 153 SSC0631125 Sm0.2Ba0.8Cu1O3-Y Sm 0.2 Ba 0.8 Cu 1 O 3-Y 1987 K 41.3 62.5 89.9 62.5 THE HIGH-TC SUPERCONDUCTIVITY IN SM(X)BA(1-X)CU(1)O(3-Y) COMPOUND SYSTEM 1987 10 "RESISTIVITY ,SUSCEPTIBILITY ,TC" "INSTITUTE OF PHYSICS,CHINESE ACADEMY OF SCIENCES,BEIJING,CHINA" "SOLID STATE COMMUN.,63(1987)1125" 154 SSC0631125 Sm0.35Ba0.65Cu1O3-Y Sm 0.35 Ba 0.65 Cu 1 O 3-Y 1987 3 3.976 3.998 11.996 K 90.8 93.1 96.7 93.1 THE HIGH-TC SUPERCONDUCTIVITY IN SM(X)BA(1-X)CU(1)O(3-Y) COMPOUND SYSTEM 1987 10 "RESISTIVITY ,SUSCEPTIBILITY ,TC" "INSTITUTE OF PHYSICS,CHINESE ACADEMY OF SCIENCES,BEIJING,CHINA" "SOLID STATE COMMUN.,63(1987)1125" 155 SSC0631149 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1987 3 Y123 3.817 3.883 11.633 K 90 90 STRUCTURE OF THE HIGH-TEMPERATURE SUPERCONDUCTOR BA(2)Y(1)CU(3)O(7) BY X-RAY AND NEUTRON POWDER DIFFRACTION 1987 10 "STRUCTURE ,NEUTRON DIFFRA" "LABORATOIRE DE CRISTALLOGRAPHIE AUX RAYONS-X,24 QUAI ERNST ANSERMET,UNIVERSITE DE GENEVE,GENEVE,SWITZERLAND" "SOLID STATE COMMUN.,63(1987)1149" 156 SSC0631129 YBa2Cu3O7 Y1Ba2Cu3O9-X Y 1 Ba 2 Cu 3 O 9-X 1987 3 3.818 3.889 11.694 K 92 92 MAGNETIC PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR Y(1)BA(2)CU(3)O(9-X) 1987 10 MAGNETIZATION "DEPARTMENT OF PHYSICS AND INSTITUTE OF SOLID STATE PHYSICS,PEKING UNIVERSITY,BEIJING,CHINA" "SOLID STATE COMMUN.,63(1987)1129" 157 JPC0200659 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1987 T K EVIDENCE FOR PEROXIDE AND CU1+ SPECIES IN LA1.8SR0.2CUO4 FROMPHOTO-EMISSION STUDIES 1987 "J.PHYS.C,20(1987)659" "LA,SR,CU,O" 158 ZPS0680421 Bi2Sr2Cu2O7+Z Bi 2 Sr 2 Cu 2 O 7+Z 1987 3 5.32 26.6 48.8 K 14 22 27 22 25 SUPERCONDUCTIVITY IN THE BI-SR-CU-O SYSTEM 1987 "RESISTIVITY ,PREPARATION" "LABORATOIRE DE CRISTALLOGRAPHIE ET SCIENCES DES MATERIAUX,ISMRA,UNIVERSITE DE CAEN,FRANCE" "Z.PHYS.B:CONDENSED MATTER,68(1987)421" "BI,SR,CU,O" 159 JJP0262080 Bi1Sr1Cu1OY Bi 1 Sr 1 Cu 1 O Y 1987 2 5.38 5.38 24.6 K 4.7 6.5 8.5 6.5 SUPERCONDUCTIVITY IN THE BI-SR-CU-O SYSTEM 1987 12 "RESISTIVITY ,PREPARATION" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,26(1987)L2080" "BI,SR,CU,O" 160 JJP0261837 YBa2Cu3O7 Y1Ba2Cu3O9-Y Y 1 Ba 2 Cu 3 O 9-Y 1987 Y123 K Thickness Dependence of Superconductivity in As-Sputtered Er-Ba-Cu-O 1987 11 "Central Research Laboratories, Matsushita Electric Industrial Co.,Ltd., Moriguchi, Osaka 570" "Jpn.J.Appl.Phys,26(1987)L1837-L1838" 161 JJP0261837 ErBa2Cu3O7 Er1Ba2Cu3OX Er 1 Ba 2 Cu 3 O X 1987 3 Y123 K 80 91 85.5 3 Thickness Dependence of Superconductivity in As-Sputtered Er-Ba-Cu-O 1987 11 "Central Research Laboratories, Matsushita Electric Industrial Co.,Ltd., Moriguchi, Osaka 570" "Jpn.J.Appl.Phys,26(1987)L1837-L1838" 162 JJP0261850 HoBa2Cu3O7 Ho1Ba2Cu3OX Ho 1 Ba 2 Cu 3 O X 1987 3 Y123 K 91 91 0.9 3 Critical Field Anisotropy of a Single Craystal GdBa2Cu3Ox and HoBa2Cu3Ox 1987 "The Institute for Solid State Physics, The University of Tokyo, Roppongi, Minato-ku, Tokyo 106" "Jpn.J.Appl.Phys.,26(1987)L1850-L1852" 163 JJP0261850 GdBa2Cu3O7 Gd1Ba2Cu3OX Gd 1 Ba 2 Cu 3 O X 1987 Y123 K 93 93 0.9 3 Critical Field Anisotropy of a Single Craystal GdBa2Cu3Ox and HoBa2Cu3Ox 1987 "The Institute for Solid State Physics, The University of Tokyo, Roppongi, Minato-ku, Tokyo 106" "Jpn.J.Appl.Phys.,26(1987)L1850-L1852" 164 JJP0261859 YBa2Cu3O7 Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 6.9 6.9 1987 32 3 Y123 K 95 95 Dependence of Magnetic Susceptibility of Ba2YCu3O7-x on the Oxygen Defect Concentration 1987 "Institute for Solid State Physics, University of Tokyo, Roppongi, Minato-ku, Tokyo 106" "Jpn.J.Appl.Phys.,26(1987)L1859-L1861" 165 JJP0261859 YBa2Cu3O7 Y1Ba2Cu3O6.41 Y 1 Ba 2 Cu 3 O 6.41 6.41 1987 35 Y123 K Dependence of Magnetic Susceptibility of Ba2YCu3O7-x on the Oxygen Defect Concentration 1987 "Institute for Solid State Physics, University of Tokyo, Roppongi, Minato-ku, Tokyo 106" "Jpn.J.Appl.Phys.,26(1987)L1859-L1861" 166 JJP0261859 YBa2Cu3O7 Y1Ba2Cu3O6.23 Y 1 Ba 2 Cu 3 O 6.23 6.23 1987 38 Y123 K Dependence of Magnetic Susceptibility of Ba2YCu3O7-x on the Oxygen Defect Concentration 1987 "Institute for Solid State Physics, University of Tokyo, Roppongi, Minato-ku, Tokyo 106" "Jpn.J.Appl.Phys.,26(1987)L1859-L1861" 167 JJP0261859 YBa2Cu3O7 Y1Ba2Cu3O6.18 Y 1 Ba 2 Cu 3 O 6.18 6.18 1987 30 Y123 K Dependence of Magnetic Susceptibility of Ba2YCu3O7-x on the Oxygen Defect Concentration 1987 "Institute for Solid State Physics, University of Tokyo, Roppongi, Minato-ku, Tokyo 106" "Jpn.J.Appl.Phys.,26(1987)L1859-L1861" 168 JJP0261865 "La(Ba,La)2Cu3O7" La1.5Ba1.5Cu3OY La 1.5 Ba 1.5 Cu 3 O Y 1987 Y123 3.913 11.71 K 120 "Drystal Structures and Electrical Properties of L1.5ba1.5Cu3Oy (L=La,Pr,Nd,Sm,Eu,Gd,Y, and Yb)" 1987 11 "NTT Opto-electronics Laboratories, Tokai, Ibaraki 319-11" "Jpn.J.Appl.Phys,26(1987)L1865-L1867" 169 JJP0261865 "Pr(Ba,Pr)2Cu3O7" Pr1.5Ba1.5Cu3OY Pr 1.5 Ba 1.5 Cu 3 O Y 1987 Y123 3.898 11.66 K "Drystal Structures and Electrical Properties of L1.5ba1.5Cu3Oy (L=La,Pr,Nd,Sm,Eu,Gd,Y, and Yb)" 1987 11 "NTT Opto-electronics Laboratories, Tokai, Ibaraki 319-11" "Jpn.J.Appl.Phys,26(1987)L1865-L1867" 170 JJP0261865 "Nd(Ba,Nd)2Cu3O7" Nd1.5Ba1.5Cu3OY Nd 1.5 Ba 1.5 Cu 3 O Y 1987 Y123 3.887 11.62 K 530 "Drystal Structures and Electrical Properties of L1.5ba1.5Cu3Oy (L=La,Pr,Nd,Sm,Eu,Gd,Y, and Yb)" 1987 11 "NTT Opto-electronics Laboratories, Tokai, Ibaraki 319-11" "Jpn.J.Appl.Phys,26(1987)L1865-L1867" 171 JJP0261865 "Sm(Ba,Sm)2Cu3O7" Sm1.5Ba1.5Cu3OY Sm 1.5 Ba 1.5 Cu 3 O Y 1987 Y123 3.865 11.56 K 950 "Drystal Structures and Electrical Properties of L1.5ba1.5Cu3Oy (L=La,Pr,Nd,Sm,Eu,Gd,Y, and Yb)" 1987 11 "NTT Opto-electronics Laboratories, Tokai, Ibaraki 319-11" "Jpn.J.Appl.Phys,26(1987)L1865-L1867" 172 JJP0261865 "Eu(Ba,Eu)2Cu3O7" Eu1.5Ba1.5Cu3Oz Eu 1.5 Ba 1.5 Cu 3 O z 1987 Y123 3.865 11.56 K 86 93 89.5 17 "Drystal Structures and Electrical Properties of L1.5ba1.5Cu3Oy (L=La,Pr,Nd,Sm,Eu,Gd,Y, and Yb)" 1987 11 "NTT Opto-electronics Laboratories, Tokai, Ibaraki 319-11" "Jpn.J.Appl.Phys,26(1987)L1865-L1867" 173 JJP0261865 "Gd(Ba,Gd)2Cu3O7" Gd1.5Ba1.5Cu3Oz Gd 1.5 Ba 1.5 Cu 3 O z 1987 Y123 3.863 11.58 K 92 93 92.5 8 "Drystal Structures and Electrical Properties of L1.5ba1.5Cu3Oy (L=La,Pr,Nd,Sm,Eu,Gd,Y, and Yb)" 1987 11 "NTT Opto-electronics Laboratories, Tokai, Ibaraki 319-11" "Jpn.J.Appl.Phys,26(1987)L1865-L1867" 174 JJP0261865 "Y(Ba,Y)Cu3O7" Y1.5Ba1.5Cu3Oz Y 1.5 Ba 1.5 Cu 3 O z 1987 Y123 3.821 3.854 11.67 K 90 90 13 "Drystal Structures and Electrical Properties of L1.5ba1.5Cu3Oy (L=La,Pr,Nd,Sm,Eu,Gd,Y, and Yb)" 1987 11 "NTT Opto-electronics Laboratories, Tokai, Ibaraki 319-11" "Jpn.J.Appl.Phys,26(1987)L1865-L1867" 175 JJP0261865 "Tb(Ba,Yb)2Cu3O7" Yb1.5Ba1.5Cu3Oz Yb 1.5 Ba 1.5 Cu 3 O z 1987 Y123 K 90 90 20 "Drystal Structures and Electrical Properties of L1.5ba1.5Cu3Oy (L=La,Pr,Nd,Sm,Eu,Gd,Y, and Yb)" 1987 11 "NTT Opto-electronics Laboratories, Tokai, Ibaraki 319-11" "Jpn.J.Appl.Phys,26(1987)L1865-L1867" 176 PRB0368393 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.95Zn0.05O4 La 1.85 Sr 0.15 Cu 0.95 Zn 0.05 O 4 1987 3 T 3.781 13.135 K 3 3d-metal doping of the high-temperature superconducting perovskites La-Sr-Cu-O and Y-Ba-Cu-O 1987 12 "Bell Communications Reserch, Red Bank, New Jersey 07701" "Phys.Rev.B,36(1987)8393" 177 PRB0368393 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.925Zn0.075O4 La 1.85 Sr 0.15 Cu 0.925 Zn 0.075 O 4 1987 0.56 11 T 3.793 13.201 K 15 3d-metal doping of the high-temperature superconducting perovskites La-Sr-Cu-O and Y-Ba-Cu-O 1987 12 "Bell Communications Reserch, Red Bank, New Jersey 07701" "Phys.Rev.B,36(1987)8393" 178 PRB0368393 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.9Zn0.1O4 La 1.85 Sr 0.15 Cu 0.9 Zn 0.1 O 4 1987 0.5 8 T 3.785 13.194 K 10.5 3d-metal doping of the high-temperature superconducting perovskites La-Sr-Cu-O and Y-Ba-Cu-O 1987 12 "Bell Communications Reserch, Red Bank, New Jersey 07701" "Phys.Rev.B,36(1987)8393" 179 PRB0368393 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.8Zn0.2O4 La 1.85 Sr 0.15 Cu 0.8 Zn 0.2 O 4 1987 0.46 9 T 3.794 13.164 K 20 3d-metal doping of the high-temperature superconducting perovskites La-Sr-Cu-O and Y-Ba-Cu-O 1987 12 "Bell Communications Reserch, Red Bank, New Jersey 07701" "Phys.Rev.B,36(1987)8393" 180 PRB0368393 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1987 0.29 -21 Y123 3.824 3.887 11.657 K 91.6 91.6 1.8 3d-metal doping of the high-temperature superconducting perovskites La-Sr-Cu-O and Y-Ba-Cu-O 1987 12 "Bell Communications Reserch, Red Bank, New Jersey 07701" "Phys.Rev.B,36(1987)8393" 181 PRB0368393 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.8Ni0.2O4 La 1.85 Sr 0.15 Cu 0.8 Ni 0.2 O 4 1987 T 3.787 13.114 K 3d-metal doping of the high-temperature superconducting perovskites La-Sr-Cu-O and Y-Ba-Cu-O 1987 12 "Bell Communications Reserch, Red Bank, New Jersey 07701" "Phys.Rev.B,36(1987)8393" 182 PRB0368393 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.7Ni0.3O4 La 1.85 Sr 0.15 Cu 0.7 Ni 0.3 O 4 1987 1.72 14 T 3.797 13.046 K 3d-metal doping of the high-temperature superconducting perovskites La-Sr-Cu-O and Y-Ba-Cu-O 1987 12 "Bell Communications Reserch, Red Bank, New Jersey 07701" "Phys.Rev.B,36(1987)8393" 183 PRB0368393 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.75Ni0.25O7 Y 1 Ba 2 Cu 2.75 Ni 0.25 O 7 1987 0.62 14 Y123 3.819 3.886 11.657 K 63.9 63.9 1.36 3d-metal doping of the high-temperature superconducting perovskites La-Sr-Cu-O and Y-Ba-Cu-O 1987 12 "Bell Communications Reserch, Red Bank, New Jersey 07701" "Phys.Rev.B,36(1987)8393" 184 PRB0368365 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1987 Y123 3.851 3.851 11.672 K 92 92 Aluminum substitution in Ba2YCu3O7 1987 "At&T Bell Laboratories, 600 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.B,36(1987)8365" 185 PRB0368365 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.95Al0.05O7 Y 1 Ba 2 Cu 2.95 Al 0.05 O 7 1987 Y123 3.835 3.884 11.688 K 88 88 Aluminum substitution in Ba2YCu3O7 1987 "At&T Bell Laboratories, 600 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.B,36(1987)8365" 186 PRB0368365 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.9Al0.1O7 Y 1 Ba 2 Cu 2.9 Al 0.1 O 7 1987 Y123 3.844 3.895 11.657 K 75 75 Aluminum substitution in Ba2YCu3O7 1987 "At&T Bell Laboratories, 600 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.B,36(1987)8365" 187 PRB0368393 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1987 T 3.777 13.226 K 39.3 39.3 2.3 3d-metal doping of the high-temperature superconducting perovskites La-Sr-Cu-O and Y-Ba-Cu-O 1987 12 "Bell Communications Reserch, Red Bank, New Jersey 07701" "Phys.Rev.B,36(1987)8393" 188 PRB0368393 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.975Ni0.025O4 La 1.85 Sr 0.15 Cu 0.975 Ni 0.025 O 4 1987 T 3.775 13.222 K 22.6 22.6 2.38 3d-metal doping of the high-temperature superconducting perovskites La-Sr-Cu-O and Y-Ba-Cu-O 1987 12 "Bell Communications Reserch, Red Bank, New Jersey 07701" "Phys.Rev.B,36(1987)8393" 189 PRB0368393 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.95Ni0.05O4 La 1.85 Sr 0.15 Cu 0.95 Ni 0.05 O 4 1987 T 3.776 13.208 K 4.2 4.2 3.5 3d-metal doping of the high-temperature superconducting perovskites La-Sr-Cu-O and Y-Ba-Cu-O 1987 12 "Bell Communications Reserch, Red Bank, New Jersey 07701" "Phys.Rev.B,36(1987)8393" 190 PRB0368393 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.925Ni0.075O4 La 1.85 Sr 0.15 Cu 0.925 Ni 0.075 O 4 1987 0.74 1 T 3.779 13.187 K 4 3d-metal doping of the high-temperature superconducting perovskites La-Sr-Cu-O and Y-Ba-Cu-O 1987 12 "Bell Communications Reserch, Red Bank, New Jersey 07701" "Phys.Rev.B,36(1987)8393" 191 PRB0368393 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.9Ni0.1O4 La 1.85 Sr 0.15 Cu 0.9 Ni 0.1 O 4 1987 0.83 2 T 3.792 13.167 K 4.2 3d-metal doping of the high-temperature superconducting perovskites La-Sr-Cu-O and Y-Ba-Cu-O 1987 12 "Bell Communications Reserch, Red Bank, New Jersey 07701" "Phys.Rev.B,36(1987)8393" 192 PRB0368393 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.875Ni0.125O4 La 1.85 Sr 0.15 Cu 0.875 Ni 0.125 O 4 1987 1.14 9 T 3.783 13.158 K 9.3 3d-metal doping of the high-temperature superconducting perovskites La-Sr-Cu-O and Y-Ba-Cu-O 1987 12 "Bell Communications Reserch, Red Bank, New Jersey 07701" "Phys.Rev.B,36(1987)8393" 193 PRB0368365 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.89Al0.11O7 Y 1 Ba 2 Cu 2.89 Al 0.11 O 7 1987 Y123 3.847 3.851 11.659 K 82 82 Aluminum substitution in Ba2YCu3O7 1987 "At&T Bell Laboratories, 600 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.B,36(1987)8365" 194 PRB0368365 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.88Al0.12O7 Y 1 Ba 2 Cu 2.88 Al 0.12 O 7 1987 Y123 3.855 3.859 11.684 K 51 51 Aluminum substitution in Ba2YCu3O7 1987 "At&T Bell Laboratories, 600 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.B,36(1987)8365" 195 PRB0368365 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.87Al0.13O7 Y 1 Ba 2 Cu 2.87 Al 0.13 O 7 1987 Y123 3.843 3.859 11.667 K 45 45 Aluminum substitution in Ba2YCu3O7 1987 "At&T Bell Laboratories, 600 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.B,36(1987)8365" 196 PRB0368365 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.865Al0.135O7 Y 1 Ba 2 Cu 2.865 Al 0.135 O 7 1987 Y123 3.856 3.86 11.674 K 45 45 Aluminum substitution in Ba2YCu3O7 1987 "At&T Bell Laboratories, 600 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.B,36(1987)8365" 197 PRB0368365 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.82Al0.18O7 Y 1 Ba 2 Cu 2.82 Al 0.18 O 7 1987 Y123 3.854 3.856 11.668 K 20 20 Aluminum substitution in Ba2YCu3O7 1987 "At&T Bell Laboratories, 600 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.B,36(1987)8365" 198 PRB0368365 "YBa2(Cu,Al)3O7" Y1Ba2Cu0.78Al0.22O7 Y 1 Ba 2 Cu 0.78 Al 0.22 O 7 1987 Y123 3.854 3.861 11.672 K Aluminum substitution in Ba2YCu3O7 1987 "At&T Bell Laboratories, 600 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.B,36(1987)8365" 199 PRB0368329 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1987 Y123 K 92.4 92.4 3.2 0.8 High-magnetic-field study of superconducting YBa2Cu3O7-delta 1987 12 "Francis Bitter National Magnet Laboratory, Cambridge, Massachusetts 02139" "Phys.Rev.B,36(1987)8329" 200 PRB0368786 YBa2Cu3O7 Y1Ba2Cu3O6.8 Y 1 Ba 2 Cu 3 O 7-Z 6.8 1987 Y123 K 87 91.6 91.6 LOW-TEMPERATURE THERMAL CONDUCTIVITY OF Y(1)BA(2)CU(3)O(7-Z) 1987 12 THERMAL CONDUCTIVITY "DEPARTMENT OF PHYSICS AND MATERIALS RESEARCH LABORATORY,UNIVERSITY OF ILLINOIS AT URBANA-CHAMPAIGN" "PHYS.REV.B,36(1987)8786" "Y,BA,CU,O" 201 PRB0368791 ErBa2Cu3O7 Er1Ba2Cu3O7-Z Er 1 Ba 2 Cu 3 O 7-Z 1987 9.67 -10.8 Y123 K 84 86 86 Magnetic ordering and magnetization in the high-temperature superconductor ErBa2Cu3O7-delta 1987 12 "Ames Laboratory and Department of Physics, Iowa State university, Ames, Iowa 50011" "Phys.Rev.B,36(1987)8791" 202 PRB0368798 YBa2Cu3HxO7 Y1Ba2Cu3H0.14O7 Y 1 Ba 2 Cu 3 H 0.14 O 7 1987 Y123 K 92.5 92.5 SUPERCONDUCTING H(X)Y(1)BA(2)CU(3)O(7): THE ROLE OF H 1987 12 "INFRARED ,XAS" "DIVISION OF MATERIALS SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK" "PHYS.REV.B,36(1987)8798" "H,Y,BA,CU,O" 203 PRB0368798 Yba2Cu3HxO7 Y1Ba2Cu3H0.48O7 Y 1 Ba 2 Cu 3 H 0.48 O 7 1987 Y123 K 93.6 93.6 SUPERCONDUCTING H(X)Y(1)BA(2)CU(3)O(7): THE ROLE OF H 1987 12 "INFRARED ,XAS" "DIVISION OF MATERIALS SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK" "PHYS.REV.B,36(1987)8798" "H,Y,BA,CU,O" 204 PRB0368798 YBa2Cu3HxO7 Y1Ba2Cu3H1O7 Y 1 Ba 2 Cu 3 H 1 O 7 1987 Y123 K 93.2 93.2 SUPERCONDUCTING H(X)Y(1)BA(2)CU(3)O(7): THE ROLE OF H 1987 12 "INFRARED ,XAS" "DIVISION OF MATERIALS SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK" "PHYS.REV.B,36(1987)8798" "H,Y,BA,CU,O" 205 PRB0368798 YBa2Cu3HxO7 Y1Ba2Cu3H4O7 Y 1 Ba 2 Cu 3 H 4 O 7 1987 Y123 K SUPERCONDUCTING H(X)Y(1)BA(2)CU(3)O(7): THE ROLE OF H 1987 12 "INFRARED ,XAS" "DIVISION OF MATERIALS SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK" "PHYS.REV.B,36(1987)8798" "H,Y,BA,CU,O" 206 PRB0368798 YBa2Cu3HxO7 Y1Ba2Cu3H5O7 Y 1 Ba 2 Cu 3 H 5 O 7 1987 Y123 K SUPERCONDUCTING H(X)Y(1)BA(2)CU(3)O(7): THE ROLE OF H 1987 12 "INFRARED ,XAS" "DIVISION OF MATERIALS SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK" "PHYS.REV.B,36(1987)8798" "H,Y,BA,CU,O" 207 PRB0368802 YBa2Cu3O7 Y1Ba2Cu3O9-Z Y 1 Ba 2 Cu 3 O 9-Z 1987 Y123 K 90 90 SUPERCONDUCTING ENERGY GAP OF Y(1)BA(2)CU(3)O(9-Z) MEASURED BY FAR-INFRARED REFLECTION 1987 12 "ENERGY GAP ,INFRARED" "LABORATORY FOR INFRARED PHYSICS,SHANGHAI INSTITUTE OF TECHNICAL PHYSICS,SHANGHAI,CHINA" "PHYS.REV.B,36(1987)8802" "Y,BA,CU,O" 208 PRB0360226 EuBa2Cu3O7 Eu1Ba2Cu3O7.1 Eu 1 Ba 2 Cu 3 O 7-X 7.1 1987 Y123 3.845 3.901 11.704 K 93.7 94.9 94.9 2.5 Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 209 PRB0360226 GdBa2Cu3O7 Gd1Ba2Cu3O7.08 Gd 1 Ba 2 Cu 3 O 7-X 7.08 1987 7.75 -2 Y123 3.84 3.899 11.703 K 92.2 93.8 93.8 1.65 Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 210 PRB0360226 DyBa2Cu3O7 Dy1Ba2Cu3O6.82 Dy 1 Ba 2 Cu 3 O 7-X 6.82 1987 10.45 -7 Y123 3.828 3.889 11.668 K 91.2 92.7 92.7 1.55 Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 211 PRB0360226 HoBa2Cu3O7 Ho1Ba2Cu3O6.71 Ho 1 Ba 2 Cu 3 O 7-X 6.71 1987 10.48 -16 Y123 3.822 3.888 11.67 K 92.2 92.9 92.9 1.2 Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 212 PRB0360226 ErBa2Cu3O7 Er1Ba2Cu3O6.16 Er 1 Ba 2 Cu 3 O 7-X 6.16 1987 9.63 -16 Y123 3.854 11.796 K Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 213 PRB0360226 TmBa2Cu3O7 Tm1Ba2Cu3O6.07 Tm 1 Ba 2 Cu 3 O 7-X 6.07 1987 7.69 -38 Y123 3.849 11.788 K Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 214 PRB0360226 YbBa2Cu3O7 Yb1Ba2Cu3O6.01 Yb 1 Ba 2 Cu 3 O 7-X 6.01 1987 Y123 3.841 11.828 K Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 215 PRB0360226 EuBa2Cu3O7 Eu1Ba2Cu3O6.59 Eu 1 Ba 2 Cu 3 O 7-X 6.59 1987 Y123 3.883 11.814 K Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 216 PRB0360226 GdBa2Cu3O7 Gd1Ba2Cu3O6.52 Gd 1 Ba 2 Cu 3 O 7-X 6.52 1987 7.85 -3 Y123 3.877 11.81 K Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 217 PRB0360226 DyBa2Cu3O7 Dy1Ba2Cu3O6.28 Dy 1 Ba 2 Cu 3 O 7-X 6.28 1987 10.69 -8 Y123 3.866 11.783 K Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 218 PRB0360226 HoBa2Cu3O7 Ho1Ba2Cu3O6.13 Ho 1 Ba 2 Cu 3 O 7-X 6.13 1987 10.6 -19 Y123 3.86 11.791 K Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 219 PRB0360226 YBa2Cu3O7 Y1Ba2Cu3O6.19 Y 1 Ba 2 Cu 3 O 7-X 6.19 1987 Y123 3.859 11.8 K Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 220 PRB0360226 LaBa2Cu3O7 La1Ba2Cu3O7-X La 1 Ba 2 Cu 3 O 7-X 1987 Y123 3.901 11.858 K Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 221 PRB0360226 SmBa2Cu3O7 Sm1Ba2Cu3O6.64 Sm 1 Ba 2 Cu 3 O 7-X 6.64 1987 Y123 3.884 11.822 K Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 222 PRB0360226 ErBa2Cu3O7 Er1Ba2Cu3O6.82 Er 1 Ba 2 Cu 3 O 7-X 6.82 1987 9.93 -15 Y123 3.815 3.885 11.659 K 91.5 92.4 92.4 1.88 Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 223 PRB0360226 TmBa2Cu3O7 Tm1Ba2Cu3O6.65 Tm 1 Ba 2 Cu 3 O 7-X 6.65 1987 7.53 -35 Y123 3.81 3.882 11.656 K 91.2 92.5 92.5 1.11 Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 224 PRB0360226 YbBa2Cu3O7 Yb1Ba2Cu3O6.71 Yb 1 Ba 2 Cu 3 O 7-X 6.71 1987 Y123 3.799 3.873 11.65 K 85.6 87 87 1 Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 225 PRB0360226 LuBa2Cu3O7 Lu1Ba2Cu3O7-X Lu 1 Ba 2 Cu 3 O 7-X 1987 Y123 K 88.2 89.5 89.5 17 Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 226 PRB0360226 YBa2Cu3O7 Y1Ba2Cu3O6.72 Y 1 Ba 2 Cu 3 O 7-X 6.72 1987 Y123 3.824 3.887 11.657 K 91.5 93.4 93.4 2.5 Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 227 PRB0360226 LaBa2Cu3O7 La1Ba2Cu3O7-X La 1 Ba 2 Cu 3 O 7-X 1987 Y123 3.856 3.906 11.783 K Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 228 PRB0360226 NdBa2Cu3O7 Nd1Ba2Cu3O7.16 Nd 1 Ba 2 Cu 3 O 7-X 7.16 1987 Y123 3.855 3.914 11.736 K 92 95.3 95.3 4.2 Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 229 PRB0360226 SmBa2Cu3O7 Sm1Ba2Cu3O7.11 Sm 1 Ba 2 Cu 3 O 7-X 7.11 1987 Y123 3.855 3.899 11.721 K 88.3 93.5 93.5 2.8 Oxygen and rare-earth doping of the 90-K superconducting perovskite YBa2Cu3O7-x 1987 7 "Bell Communications Research, 331 Newman Springs Road, Red Bank, New Jersay 07701-7020" "Phys.Rev.B,36(1987)226" 230 SSC0650849 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1988 T K 37.1 37.1 1.84 0.134 SUPERCONDUCTNG AND NORMAL STATEPROPERTIES OF Sr0.5La1.85CuO4 DETERMINED FROM MAGNETIZATION MEASUREMENTS 1988 "Department of Physics, Brock University St. Cctharines, Ontario, Canada L2S 3AI" "Solid State Commun.,65(1988)849-853" 231 PRL0591160 YBa2Cu3O7 Y1Ba2Cu3O7-X Y 1 Ba 2 Cu 3 O 7-X 1987 Y123 K 88.8 88.8 2.3 0.46 ANISOTROPIC NATURE OF HIGH-TEMPERATURE SUPERCONDUCTIVITY IN SINGLE-CRYSTAL Y(1)BA(2)CU(3)O(7-X) 1987 9 "HC ,ANISOTROPY ,SINGLE C" "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.LETT.,59(1987)1160" "Y,BA,CU,O" 232 PRB0365279 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4-Z La 1.85 Sr 0.15 Cu 1 O 4-Z 1987 T K 33 33 2.2 7 HIGH-FIELD MEASUREMENTS ON THE HIGH-TC SUPERCONDUCTORS LA(1.85)SR(0.15)CU(1)O(4-Z) AND Y(1)BA(2)CU(3)O(7-Z) 1987 10 "HC ,MAGNETO-RESIST" "RESEARCH INSTITUTE FOR MATERIALS AND HIGH FIELD MAGNET LABORATORY,UNIVERSITY OF NIJMEGEN,TOERNOOIVELD,NL" "PHYS.REV.B,36(1987)5279" "LA,SR,CU,O,Y,BA,CU,O" 233 SSC0650585 "YBa2(Cu,Ni)3O7" Y1Ba2.01Cu2.81Ni0.19O6.7 Y 1 Ba 2.01 Cu 2.81 Ni 0.19 O 6.7 1988 Y123 3.819 3.888 11.661 K 65 73 65 SUPERCONDUCTING PROPERTIES OF SUBSTITUTED Y(1)BA(2)CU(3(1-X))M(3X)O(7-Z) 1988 2 "RESISTIVITY ,SUBSTITUTION ,SUSCEPTI" "LABORATOIRE DE CRISTALLOGRAPHIE,C.N.R.S.,BP,FRANCE" "SOLID STATE COMMUN.,65(1988)585" "Y,BA,CU,MO" 234 SSC0650585 "YBa2(Cu,Zn)3O7" Y1Ba2.02Cu2.18Zn0.82O7 Y 1 Ba 2.02 Cu 2.18 Zn 0.82 O 7 1988 Y123 3.829 3.887 11.67 K 30 40 30 SUPERCONDUCTING PROPERTIES OF SUBSTITUTED Y(1)BA(2)CU(3(1-X))M(3X)O(7-Z) 1988 2 "RESISTIVITY ,SUBSTITUTION ,SUSCEPTI" "LABORATOIRE DE CRISTALLOGRAPHIE,C.N.R.S.,BP,FRANCE" "SOLID STATE COMMUN.,65(1988)585" "Y,BA,CU,MO" 235 SSC0650585 "YBa2(Cu,Ag)3O7" Y1Ba1.99Cu2.847Ag0.153O6.7 Y 1 Ba 1.99 Cu 2.847 Ag 0.153 O 6.7 1988 Y123 3.827 3.893 11.683 K 86 92 86 SUPERCONDUCTING PROPERTIES OF SUBSTITUTED Y(1)BA(2)CU(3(1-X))M(3X)O(7-Z) 1988 2 "RESISTIVITY ,SUBSTITUTION ,SUSCEPTI" "LABORATOIRE DE CRISTALLOGRAPHIE,C.N.R.S.,BP,FRANCE" "SOLID STATE COMMUN.,65(1988)585" "Y,BA,CU,MO" 236 SSC0650585 "YBa2(Cu,Pt)3O7" Y1Ba2Cu2.902Pt0.098O6.4 Y 1 Ba 2 Cu 2.902 Pt 0.098 O 6.4 1988 Y123 3.82 3.886 11.675 K 81 92 81 SUPERCONDUCTING PROPERTIES OF SUBSTITUTED Y(1)BA(2)CU(3(1-X))M(3X)O(7-Z) 1988 2 "RESISTIVITY ,SUBSTITUTION ,SUSCEPTI" "LABORATOIRE DE CRISTALLOGRAPHIE,C.N.R.S.,BP,FRANCE" "SOLID STATE COMMUN.,65(1988)585" "Y,BA,CU,MO" 237 SSC0650585 "Yba2(Cu,Co)3O7" Y1Ba2.01Cu2.7Co0.3O6.8 Y 1 Ba 2.01 Cu 2.7 Co 0.3 O 6.8 1988 Y123 3.871 11.664 K 36 50 36 SUPERCONDUCTING PROPERTIES OF SUBSTITUTED Y(1)BA(2)CU(3(1-X))M(3X)O(7-Z) 1988 2 "RESISTIVITY ,SUBSTITUTION ,SUSCEPTI" "LABORATOIRE DE CRISTALLOGRAPHIE,C.N.R.S.,BP,FRANCE" "SOLID STATE COMMUN.,65(1988)585" "Y,BA,CU,MO" 238 SSC0650585 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.55Co0.45Oz Y 1 Ba 2 Cu 2.55 Co 0.45 O z 1988 Y123 3.878 11.64 K SUPERCONDUCTING PROPERTIES OF SUBSTITUTED Y(1)BA(2)CU(3(1-X))M(3X)O(7-Z) 1988 2 "RESISTIVITY ,SUBSTITUTION ,SUSCEPTI" "LABORATOIRE DE CRISTALLOGRAPHIE,C.N.R.S.,BP,FRANCE" "SOLID STATE COMMUN.,65(1988)585" "Y,BA,CU,MO" 239 SSC0650585 "YBa2(Cu,Ni)3O7" Y1.01Ba2.01Cu2.906Ni0.094O6.7 Y 1.01 Ba 2.01 Cu 2.906 Ni 0.094 O 6.7 1988 Y123 3.819 3.886 11.662 K 71 76 71 SUPERCONDUCTING PROPERTIES OF SUBSTITUTED Y(1)BA(2)CU(3(1-X))M(3X)O(7-Z) 1988 2 "RESISTIVITY ,SUBSTITUTION ,SUSCEPTI" "LABORATOIRE DE CRISTALLOGRAPHIE,C.N.R.S.,BP,FRANCE" "SOLID STATE COMMUN.,65(1988)585" "Y,BA,CU,MO" 240 SSC0650585 "YBa2(Cu,Mn)3O7" Y1Ba2Cu2.697Mn0.303O6.9 Y 1 Ba 2 Cu 2.697 Mn 0.303 O 6.9 6.9 1988 Y123 3.828 3.889 11.673 K 63 92 63 SUPERCONDUCTING PROPERTIES OF SUBSTITUTED Y(1)BA(2)CU(3(1-X))M(3X)O(7-Z) 1988 2 "RESISTIVITY ,SUBSTITUTION ,SUSCEPTI" "LABORATOIRE DE CRISTALLOGRAPHIE,C.N.R.S.,BP,FRANCE" "SOLID STATE COMMUN.,65(1988)585" "Y,BA,CU,MO" 241 SSC0650585 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.844Fe0.156O7 Y 1 Ba 2 Cu 2.844 Fe 0.156 O 7 1988 Y123 3.863 11.665 K 57 90 57 SUPERCONDUCTING PROPERTIES OF SUBSTITUTED Y(1)BA(2)CU(3(1-X))M(3X)O(7-Z) 1988 2 "RESISTIVITY ,SUBSTITUTION ,SUSCEPTI" "LABORATOIRE DE CRISTALLOGRAPHIE,C.N.R.S.,BP,FRANCE" "SOLID STATE COMMUN.,65(1988)585" "Y,BA,CU,MO" 242 SSC0650585 "YBa2(Cu,Fe)3O7" Y1.01Ba2.01Cu2.697Fe0.303O Y 1.01 Ba 2.01 Cu 2.697 Fe 0.303 O 1988 Y123 3.869 11.61 K 36 50 36 SUPERCONDUCTING PROPERTIES OF SUBSTITUTED Y(1)BA(2)CU(3(1-X))M(3X)O(7-Z) 1988 2 "RESISTIVITY ,SUBSTITUTION ,SUSCEPTI" "LABORATOIRE DE CRISTALLOGRAPHIE,C.N.R.S.,BP,FRANCE" "SOLID STATE COMMUN.,65(1988)585" "Y,BA,CU,MO" 243 SSC0650585 YBa2Cu3O7 Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 6.9 6.9 1988 Y123 3.823 3.888 11.665 K 88 92 88 SUPERCONDUCTING PROPERTIES OF SUBSTITUTED Y(1)BA(2)CU(3(1-X))M(3X)O(7-Z) 1988 2 "RESISTIVITY ,SUBSTITUTION ,SUSCEPTI" "LABORATOIRE DE CRISTALLOGRAPHIE,C.N.R.S.,BP,FRANCE" "SOLID STATE COMMUN.,65(1988)585" "Y,BA,CU,MO" 244 SSC0650585 YBa2Cu3O7 Y1Ba2Cu3O6.2 Y 1 Ba 2 Cu 3 O 6.2 6.2 1988 Y123 3.863 11.768 K SUPERCONDUCTING PROPERTIES OF SUBSTITUTED Y(1)BA(2)CU(3(1-X))M(3X)O(7-Z) 1988 2 "RESISTIVITY ,SUBSTITUTION ,SUSCEPTI" "LABORATOIRE DE CRISTALLOGRAPHIE,C.N.R.S.,BP,FRANCE" "SOLID STATE COMMUN.,65(1988)585" "Y,BA,CU,MO" 245 SSC0650585 "YBa2(Cu,Li)3O7" Y0.99Ba1.99Cu2.847Li0.153O6.4 Y 0.99 Ba 1.99 Cu 2.847 Li 0.153 O 6.4 6.4 1988 Y123 3.826 3.889 11.667 K 62 73 62 SUPERCONDUCTING PROPERTIES OF SUBSTITUTED Y(1)BA(2)CU(3(1-X))M(3X)O(7-Z) 1988 2 "RESISTIVITY ,SUBSTITUTION ,SUSCEPTI" "LABORATOIRE DE CRISTALLOGRAPHIE,C.N.R.S.,BP,FRANCE" "SOLID STATE COMMUN.,65(1988)585" "Y,BA,CU,MO" 246 SSC0650585 "YBa2(Cu,Li)3O7" Y1.01Ba2.03Cu2.808Li0.192O6.6 Y 1.01 Ba 2.03 Cu 2.808 Li 0.192 O 6.6 6.6 1988 Y123 3.829 3.884 11.68 K 33 46 33 SUPERCONDUCTING PROPERTIES OF SUBSTITUTED Y(1)BA(2)CU(3(1-X))M(3X)O(7-Z) 1988 2 "RESISTIVITY ,SUBSTITUTION ,SUSCEPTI" "LABORATOIRE DE CRISTALLOGRAPHIE,C.N.R.S.,BP,FRANCE" "SOLID STATE COMMUN.,65(1988)585" "Y,BA,CU,MO" 247 PLA1270231 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.85Fe0.15O7-Z Y 1 Ba 2 Cu 2.85 Fe 0.15 O 7-Z 1988 Y123 K 50 50 A MOSSBAUER STUDY OF YBa2(Cu1-xFex)3O7-delta 1988 2 "Department of Physics,University of Manitoba, Winnipeg R3T 2N2, Manitoba, Canada" "Phys.Lett.A,127(1988)231" 248 PLA1270231 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.85Fe0.15O7-Z Y 1 Ba 2 Cu 2.85 Fe 0.15 O 7-Z 1988 Y123 K 57 57 A MOSSBAUER STUDY OF YBa2(Cu1-xFex)3O7-delta 1988 2 "Department of Physics,University of Manitoba, Winnipeg R3T 2N2, Manitoba, Canada" "Phys.Lett.A,127(1988)231" 249 PLA1270231 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.7Fe0.3O7-Z Y 1 Ba 2 Cu 2.7 Fe 0.3 O 7-Z 1988 Y123 K 4 4 A MOSSBAUER STUDY OF YBa2(Cu1-xFex)3O7-delta 1988 2 "Department of Physics,University of Manitoba, Winnipeg R3T 2N2, Manitoba, Canada" "Phys.Lett.A,127(1988)231" 250 PLA1270231 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 91 91 A MOSSBAUER STUDY OF YBa2(Cu1-xFex)3O7-delta 1988 2 "Department of Physics,University of Manitoba, Winnipeg R3T 2N2, Manitoba, Canada" "Phys.Lett.A,127(1988)231" 251 PLA1270231 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.955Fe0.045O7-Z Y 1 Ba 2 Cu 2.955 Fe 0.045 O 7-Z 1988 Y123 K 74 74 A MOSSBAUER STUDY OF YBa2(Cu1-xFex)3O7-delta 1988 2 "Department of Physics,University of Manitoba, Winnipeg R3T 2N2, Manitoba, Canada" "Phys.Lett.A,127(1988)231" 252 PLA1270231 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.955Fe0.045O7-Z Y 1 Ba 2 Cu 2.955 Fe 0.045 O 7-Z 1988 Y123 K 59 59 A MOSSBAUER STUDY OF YBa2(Cu1-xFex)3O7-delta 1988 2 "Department of Physics,University of Manitoba, Winnipeg R3T 2N2, Manitoba, Canada" "Phys.Lett.A,127(1988)231" 253 PLA1270231 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.895Fe0.105O7-Z Y 1 Ba 2 Cu 2.895 Fe 0.105 O 7-Z 1988 Y123 K 61 61 A MOSSBAUER STUDY OF YBa2(Cu1-xFex)3O7-delta 1988 2 "Department of Physics,University of Manitoba, Winnipeg R3T 2N2, Manitoba, Canada" "Phys.Lett.A,127(1988)231" 254 APL0520838 "YBa2Cu3(O,F)7" Y1Ba2Cu3F0.825O Y 1 Ba 2 Cu 3 F 0.825 O 1988 Y123 K 90.5 90.5 EFFECT OF FLUORIDE DOPING ON THE TRANSITION TEMPERATURE OF Y(1)BA(2)CU(3)O(6.5+Z) 1988 3 "FLUORIDE ,STRUCTURE ,TC" "MATERIALS DIVISION,NATIONAL AERONAUTICS AND SPACE ADMINISTRATION,LEWIS RESEARCH CENTER,CLEVELAND,OHIO" "APPL.PHYS.LETT.,52(1988)838" "Y,BA,CU,O" 255 APL0520838 "YBa2Cu3(O,F)7" Y1Ba2Cu3F1.65O5.675 Y 1 Ba 2 Cu 3 F 1.65 O 5.675 5.675 1988 Y123 K 90.3 90.3 EFFECT OF FLUORIDE DOPING ON THE TRANSITION TEMPERATURE OF Y(1)BA(2)CU(3)O(6.5+Z) 1988 3 "FLUORIDE ,STRUCTURE ,TC" "MATERIALS DIVISION,NATIONAL AERONAUTICS AND SPACE ADMINISTRATION,LEWIS RESEARCH CENTER,CLEVELAND,OHIO" "APPL.PHYS.LETT.,52(1988)838" "Y,BA,CU,O" 256 APL0520838 "YBa2Cu3(O,F)7" Y1Ba2Cu3F0.066Oz Y 1 Ba 2 Cu 3 F 0.066 O z 1988 Y123 3.826 3.885 11.68 K 93.4 93.4 EFFECT OF FLUORIDE DOPING ON THE TRANSITION TEMPERATURE OF Y(1)BA(2)CU(3)O(6.5+Z) 1988 3 "FLUORIDE ,STRUCTURE ,TC" "MATERIALS DIVISION,NATIONAL AERONAUTICS AND SPACE ADMINISTRATION,LEWIS RESEARCH CENTER,CLEVELAND,OHIO" "APPL.PHYS.LETT.,52(1988)838" "Y,BA,CU,O" 257 APL0520838 "YBa2Cu3(O,F)7" Y1Ba2Cu3F0.066Oz Y 1 Ba 2 Cu 3 F 0.066 O z 1988 Y123 3.827 3.892 11.73 K 92.2 92.2 EFFECT OF FLUORIDE DOPING ON THE TRANSITION TEMPERATURE OF Y(1)BA(2)CU(3)O(6.5+Z) 1988 3 "FLUORIDE ,STRUCTURE ,TC" "MATERIALS DIVISION,NATIONAL AERONAUTICS AND SPACE ADMINISTRATION,LEWIS RESEARCH CENTER,CLEVELAND,OHIO" "APPL.PHYS.LETT.,52(1988)838" "Y,BA,CU,O" 258 APL0520838 "YBa2Cu3(O,F)7" Y1Ba2Cu3F0.165Oz Y 1 Ba 2 Cu 3 F 0.165 O z 1988 Y123 3.821 3.867 11.77 K 91.6 91.6 EFFECT OF FLUORIDE DOPING ON THE TRANSITION TEMPERATURE OF Y(1)BA(2)CU(3)O(6.5+Z) 1988 3 "FLUORIDE ,STRUCTURE ,TC" "MATERIALS DIVISION,NATIONAL AERONAUTICS AND SPACE ADMINISTRATION,LEWIS RESEARCH CENTER,CLEVELAND,OHIO" "APPL.PHYS.LETT.,52(1988)838" "Y,BA,CU,O" 259 APL0520838 "YBa2Cu3(O,F)7" Y1Ba2Cu3F0.016Oz Y 1 Ba 2 Cu 3 F 0.016 O z 1988 3 Y123 3.818 3.884 11.69 K 90.8 90.8 EFFECT OF FLUORIDE DOPING ON THE TRANSITION TEMPERATURE OF Y(1)BA(2)CU(3)O(6.5+Z) 1988 3 "FLUORIDE ,STRUCTURE ,TC" "MATERIALS DIVISION,NATIONAL AERONAUTICS AND SPACE ADMINISTRATION,LEWIS RESEARCH CENTER,CLEVELAND,OHIO" "APPL.PHYS.LETT.,52(1988)838" "Y,BA,CU,O" 260 APL0520838 "YBa2Cu3(O,F)7" Y1Ba2Cu3F0.033Oz Y 1 Ba 2 Cu 3 F 0.033 O z 1988 3 Y123 3.827 3.893 11.7 K 92.1 92.1 EFFECT OF FLUORIDE DOPING ON THE TRANSITION TEMPERATURE OF Y(1)BA(2)CU(3)O(6.5+Z) 1988 3 "FLUORIDE ,STRUCTURE ,TC" "MATERIALS DIVISION,NATIONAL AERONAUTICS AND SPACE ADMINISTRATION,LEWIS RESEARCH CENTER,CLEVELAND,OHIO" "APPL.PHYS.LETT.,52(1988)838" "Y,BA,CU,O" 261 APL0520838 "YBa2Cu3(O,F)7" Y1Ba2Cu3F0.05Oz Y 1 Ba 2 Cu 3 F 0.05 O z 1988 3 Y123 3.822 3.88 11.7 K 92.5 92.5 EFFECT OF FLUORIDE DOPING ON THE TRANSITION TEMPERATURE OF Y(1)BA(2)CU(3)O(6.5+Z) 1988 3 "FLUORIDE ,STRUCTURE ,TC" "MATERIALS DIVISION,NATIONAL AERONAUTICS AND SPACE ADMINISTRATION,LEWIS RESEARCH CENTER,CLEVELAND,OHIO" "APPL.PHYS.LETT.,52(1988)838" "Y,BA,CU,O" 262 PRB0368816 YBa2Cu3O7 Y1Ba2Cu3Oz Y 1 Ba 2 Cu 3 O z 1987 Y123 K 90 90 1.2 247 5.2 SUPERCONDUCTING AND NONSUPERCONDUCTING PHASES OF Y(1)BA(2)CU(3)O(X): MODIFICATIONS AT THE HIGH-TEMPERATURE PHASE TRANSITION 1987 11 "PHASE TRANSITION ,SPECIFIC HEAT ,RES" "DEPARTMENT OF PHYSICS AND CENTER FEO MATERIALS RESEARCH AND TECHNOLOGY,FLORIDA STATE UNIVERSITY,TALLAHASSEE,FLORIDA" "PHYS.REV.B,36(1987)8816" "Y,BA,CU,O" 263 PRB0368816 YBa2Cu3O7 Y1Ba2Cu3Oz Y 1 Ba 2 Cu 3 O z 1987 Y123 K 9 248 SUPERCONDUCTING AND NONSUPERCONDUCTING PHASES OF Y(1)BA(2)CU(3)O(X): MODIFICATIONS AT THE HIGH-TEMPERATURE PHASE TRANSITION 1987 11 "PHASE TRANSITION ,SPECIFIC HEAT ,RES" "DEPARTMENT OF PHYSICS AND CENTER FEO MATERIALS RESEARCH AND TECHNOLOGY,FLORIDA STATE UNIVERSITY,TALLAHASSEE,FLORIDA" "PHYS.REV.B,36(1987)8816" "Y,BA,CU,O" 264 PRB0368780 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1987 T K 23 400 SPECIFIC HEAT OF LA(1.8)SR(0.2)CU(1)O(4): ANOMALY AT THE SUPERCONDUCTING TRANSITION 1987 12 SPECIFIC HEAT "CENTRO ATOMICO BARILOCHE,RIO NEGRO,ARGENTINA" "PHYS.REV.B,36(1987)8780" "LA,SR,CU,O" 265 JAP0624821 YBa2Cu3O7 Y1Ba2Cu3Oz Y 1 Ba 2 Cu 3 O z 1987 3 Y123 K 86 86 1.088 Evidence for weak link and anistropy limitations on the transport critixal current bulk polycrystalline Y1Ba2Cu3Ox 1987 "Electromagnetic Technology Division, National Bureau of Standards, Boulder, Colorado 80303" J.Appl.Phys.62(1987)4821 266 JPS0563805 GdBa2Cu3O7 Gd1Ba2Cu3Oz Gd 1 Ba 2 Cu 3 O z 1987 Y123 K 87 87 "HEAT CAPACITIES OF BA2RCU3OX(R=GD, HO, ER, DY)" 1987 11 "HEAT CAPACITIES ,MEGNETIC ORDERING" "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINNERING SCIENCE, OSAKA UNIVERSITY, TOYONAKA, OSAKA" "J.PHYS.SOC.JAPAN,56(1987)3805" "BA,GD,HO,ER,DY,CU,O" 267 JPS0563805 ErBa2Cu3O7 Er1Ba2Cu3OX Er 1 Ba 2 Cu 3 O X 1987 3 Y123 K 90 90 "HEAT CAPACITIES OF BA2RCU3OX(R=GD, HO, ER, DY)" 1987 11 "HEAT CAPACITIES ,MEGNETIC ORDERING" "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINNERING SCIENCE, OSAKA UNIVERSITY, TOYONAKA, OSAKA" "J.PHYS.SOC.JAPAN,56(1987)3805" "BA,GD,HO,ER,DY,CU,O" 268 JPS0563805 DyBa2Cu3O7 Dy1Ba2Cu3OX Dy 1 Ba 2 Cu 3 O X 1987 3 Y123 K 92 92 "HEAT CAPACITIES OF BA2RCU3OX(R=GD, HO, ER, DY)" 1987 11 "HEAT CAPACITIES ,MEGNETIC ORDERING" "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINNERING SCIENCE, OSAKA UNIVERSITY, TOYONAKA, OSAKA" "J.PHYS.SOC.JAPAN,56(1987)3805" "BA,GD,HO,ER,DY,CU,O" 269 JPS0563805 HoBa2Cu3O7 Ho1Ba2Cu3OX Ho 1 Ba 2 Cu 3 O X 1987 3 Y123 K 90 90 "HEAT CAPACITIES OF BA2RCU3OX(R=GD, HO, ER, DY)" 1987 11 "HEAT CAPACITIES ,MEGNETIC ORDERING" "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINNERING SCIENCE, OSAKA UNIVERSITY, TOYONAKA, OSAKA" "J.PHYS.SOC.JAPAN,56(1987)3805" "BA,GD,HO,ER,DY,CU,O" 270 PRB0364014 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1987 Y123 K 93 93 2.7 Longitudinal and transverse magnetoresistances of YBa2cu3O7 in very high field up to 430 kG 1987 9 "Laboratoire de Physique des Solides, Centre d'Orsay, Universite' de Paris-Sud, Batiment 510,91405 Orsay, France" "Phys.Rev.B,36(1987)4014" 271 SSC0650059 YBa2Cu3O7 Y1Ba2Cu3OX Y 1 Ba 2 Cu 3 O X 1988 Y123 K 92 92 STUDY OF HIGH-TC SUPERCONDUCTING Y-BA-CU-O THIN FILMS 1988 1 "FILM ,PREPARATION ,RESISTIV" "INSTITUTE OF PHYSICS,ACADEMIA SINICA,BEIJING,CHINA SURFACE PHYSICS LABORATRY,ACADEMIA SINICA,BEIJING,CHINA" "SOLID STATE COMMUN.,65(1988)59" "Y,BA,CU,O" 272 PRB0375132 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4-X La 1.85 Sr 0.15 Cu 1 O 4-X 1988 T 3.776 13.22 K 34 34 EFFECTS OF NI-TO-CU SUBSTITUTION ON THE PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR LA(1.85)SR(0.15)CU(1)O(4-Y) 1988 4 "RESISTIVITY ,TC ,SUSCEPTIBILITY ,LA" "LABORATOIRE DE PHYSIQUE DES SOLIDES,UNIVERSITE DE PARIS-SUD,FRANCE" "PHYS.REV.B,37(1988)5132" "LA,SR,CU,O,LA,SR,CU,NI,O" 273 PRB0375132 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.995Ni0.005O4-X La 1.85 Sr 0.15 Cu 0.995 Ni 0.005 O 4-X 1988 T 3.776 13.205 K 30.5 30.5 EFFECTS OF NI-TO-CU SUBSTITUTION ON THE PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR LA(1.85)SR(0.15)CU(1)O(4-Y) 1988 4 "RESISTIVITY ,TC ,SUSCEPTIBILITY ,LA" "LABORATOIRE DE PHYSIQUE DES SOLIDES,UNIVERSITE DE PARIS-SUD,FRANCE" "PHYS.REV.B,37(1988)5132" "LA,SR,CU,O,LA,SR,CU,NI,O" 274 PRB0375132 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.99Ni0.01O4-X La 1.85 Sr 0.15 Cu 0.99 Ni 0.01 O 4-X 1988 T 3.777 13.22 K 30.5 30.5 EFFECTS OF NI-TO-CU SUBSTITUTION ON THE PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR LA(1.85)SR(0.15)CU(1)O(4-Y) 1988 4 "RESISTIVITY ,TC ,SUSCEPTIBILITY ,LA" "LABORATOIRE DE PHYSIQUE DES SOLIDES,UNIVERSITE DE PARIS-SUD,FRANCE" "PHYS.REV.B,37(1988)5132" "LA,SR,CU,O,LA,SR,CU,NI,O" 275 PRB0375132 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.98Ni0.02O4-X La 1.85 Sr 0.15 Cu 0.98 Ni 0.02 O 4-X 1988 T 3.785 13.225 K 23 23 EFFECTS OF NI-TO-CU SUBSTITUTION ON THE PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR LA(1.85)SR(0.15)CU(1)O(4-Y) 1988 4 "RESISTIVITY ,TC ,SUSCEPTIBILITY ,LA" "LABORATOIRE DE PHYSIQUE DES SOLIDES,UNIVERSITE DE PARIS-SUD,FRANCE" "PHYS.REV.B,37(1988)5132" "LA,SR,CU,O,LA,SR,CU,NI,O" 276 PRB0375132 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.97Ni0.03OX La 1.85 Sr 0.15 Cu 0.97 Ni 0.03 O X 1988 T 3.78 13.22 K 24 24 EFFECTS OF NI-TO-CU SUBSTITUTION ON THE PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR LA(1.85)SR(0.15)CU(1)O(4-Y) 1988 4 "RESISTIVITY ,TC ,SUSCEPTIBILITY ,LA" "LABORATOIRE DE PHYSIQUE DES SOLIDES,UNIVERSITE DE PARIS-SUD,FRANCE" "PHYS.REV.B,37(1988)5132" "LA,SR,CU,O,LA,SR,CU,NI,O" 277 PRB0375132 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.95Ni0.05OX La 1.85 Sr 0.15 Cu 0.95 Ni 0.05 O X 1988 T 3.782 13.2 K EFFECTS OF NI-TO-CU SUBSTITUTION ON THE PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR LA(1.85)SR(0.15)CU(1)O(4-Y) 1988 4 "RESISTIVITY ,TC ,SUSCEPTIBILITY ,LA" "LABORATOIRE DE PHYSIQUE DES SOLIDES,UNIVERSITE DE PARIS-SUD,FRANCE" "PHYS.REV.B,37(1988)5132" "LA,SR,CU,O,LA,SR,CU,NI,O" 278 PRL0601657 Tl2Ca2Ba1Cu3OX Tl 2 Ca 2 Ba 1 Cu 3 O X 1988 K 106 110 120 110 100-K SUPERCONDUCTING PHASES IN THE TL-CA-BA-CU-O SYSTEM 1988 4 "NEW PHASE ,RESISTIVITY ,TEM ,ST" "GEOPHYSICAL LABORATORY,CARNEGIE INSTITUTION OF WASHINGTON,WASHINGTON,D.C." "PHYS.REV.LETT.,60(1988)1657" "TL,CA,BA,CU,O" 279 PRL0601657 Tl2Ca2Ba2Cu3OX Tl 2 Ca 2 Ba 2 Cu 3 O X 1988 5.4 36.25 K 102 110 120 110 100-K SUPERCONDUCTING PHASES IN THE TL-CA-BA-CU-O SYSTEM 1988 4 "NEW PHASE ,RESISTIVITY ,TEM ,ST" "GEOPHYSICAL LABORATORY,CARNEGIE INSTITUTION OF WASHINGTON,WASHINGTON,D.C." "PHYS.REV.LETT.,60(1988)1657" "TL,CA,BA,CU,O" 280 PRL0601657 Tl1Ca4Cu5OX Tl 1 Ca 4 Cu 5 O X 1988 5.4 17.4 43.4 K 100-K SUPERCONDUCTING PHASES IN THE TL-CA-BA-CU-O SYSTEM 1988 4 "NEW PHASE ,RESISTIVITY ,TEM ,ST" "GEOPHYSICAL LABORATORY,CARNEGIE INSTITUTION OF WASHINGTON,WASHINGTON,D.C." "PHYS.REV.LETT.,60(1988)1657" "TL,CA,BA,CU,O" 281 PRL0601657 Tl2Ba2CaCu2Oz Tl2Ca1Ba2Cu2Oz Tl 2 Ca 1 Ba 2 Cu 2 O z 1988 Tl2212 5.44 29.3 K 100-K SUPERCONDUCTING PHASES IN THE TL-CA-BA-CU-O SYSTEM 1988 4 "NEW PHASE ,RESISTIVITY ,TEM ,ST" "GEOPHYSICAL LABORATORY,CARNEGIE INSTITUTION OF WASHINGTON,WASHINGTON,D.C." "PHYS.REV.LETT.,60(1988)1657" "TL,CA,BA,CU,O" 282 JJP0270655 YBa2Cu3O7 Y1Ba2Cu3Oz Y 1 Ba 2 Cu 3 O z 1988 Y123 K 87 100 93.5 "SUPERCONDUCTIVITY OF BA(2)Y(CU,TI)(3)O(Y) OXIDE" 1988 4 "FABRICATION ,RESISTIVITY ,SUSCEPTI" "RESEARCH & DEVELOPMENT GROUP,SUMITOMO ELECTRIC INDUSTRIES,LTD. OSAKA" "JJAP.LETT.,27(1988)L655" "Y,BA,CU,TI,O" 283 JJP0270655 "YBa(Cu,Ti)3O7" Y1Ba2Cu2.85Ti0.15Oz Y 1 Ba 2 Cu 2.85 Ti 0.15 O z 1988 Y123 K 80 108 94 "SUPERCONDUCTIVITY OF BA(2)Y(CU,TI)(3)O(Y) OXIDE" 1988 4 "FABRICATION ,RESISTIVITY ,SUSCEPTI" "RESEARCH & DEVELOPMENT GROUP,SUMITOMO ELECTRIC INDUSTRIES,LTD. OSAKA" "JJAP.LETT.,27(1988)L655" "Y,BA,CU,TI,O" 284 JJP0270655 "YBa2(Cu,Ti)3O7" Y1Ba2Cu2.7Ti0.3Oz Y 1 Ba 2 Cu 2.7 Ti 0.3 O z 1988 Y123 K 81 104 92.5 "SUPERCONDUCTIVITY OF BA(2)Y(CU,TI)(3)O(Y) OXIDE" 1988 4 "FABRICATION ,RESISTIVITY ,SUSCEPTI" "RESEARCH & DEVELOPMENT GROUP,SUMITOMO ELECTRIC INDUSTRIES,LTD. OSAKA" "JJAP.LETT.,27(1988)L655" "Y,BA,CU,TI,O" 285 JJP0270655 "YBa2(Cu,Ti)3O7" Y1Ba2Cu2.55Ti0.45Oz Y 1 Ba 2 Cu 2.55 Ti 0.45 O z 1988 Y123 K 80 105 92.5 "SUPERCONDUCTIVITY OF BA(2)Y(CU,TI)(3)O(Y) OXIDE" 1988 4 "FABRICATION ,RESISTIVITY ,SUSCEPTI" "RESEARCH & DEVELOPMENT GROUP,SUMITOMO ELECTRIC INDUSTRIES,LTD. OSAKA" "JJAP.LETT.,27(1988)L655" "Y,BA,CU,TI,O" 286 JJP0270655 "YBa2(Cu,Ti)3O7" Y1Ba2Cu2.4Ti0.6Oz Y 1 Ba 2 Cu 2.4 Ti 0.6 O z 1988 Y123 K 80 107 93.5 "SUPERCONDUCTIVITY OF BA(2)Y(CU,TI)(3)O(Y) OXIDE" 1988 4 "FABRICATION ,RESISTIVITY ,SUSCEPTI" "RESEARCH & DEVELOPMENT GROUP,SUMITOMO ELECTRIC INDUSTRIES,LTD. OSAKA" "JJAP.LETT.,27(1988)L655" "Y,BA,CU,TI,O" 287 JJP0270655 "YBa2(Cu,Ti)3O7" Y1Ba2Cu2.25Ti0.75Oz Y 1 Ba 2 Cu 2.25 Ti 0.75 O z 1988 Y123 K 78 98 88 "SUPERCONDUCTIVITY OF BA(2)Y(CU,TI)(3)O(Y) OXIDE" 1988 4 "FABRICATION ,RESISTIVITY ,SUSCEPTI" "RESEARCH & DEVELOPMENT GROUP,SUMITOMO ELECTRIC INDUSTRIES,LTD. OSAKA" "JJAP.LETT.,27(1988)L655" "Y,BA,CU,TI,O" 288 JJP0270655 "YBa2(Cu,Ti)3O7" Y1Ba2Cu2.1Ti0.9Oz Y 1 Ba 2 Cu 2.1 Ti 0.9 O z 1988 Y123 K 77 90 83.5 "SUPERCONDUCTIVITY OF BA(2)Y(CU,TI)(3)O(Y) OXIDE" 1988 4 "FABRICATION ,RESISTIVITY ,SUSCEPTI" "RESEARCH & DEVELOPMENT GROUP,SUMITOMO ELECTRIC INDUSTRIES,LTD. OSAKA" "JJAP.LETT.,27(1988)L655" "Y,BA,CU,TI,O" 289 JJP0270661 Bi1Sr1Ca1Cu2Oz Bi 1 Sr 1 Ca 1 Cu 2 O z 1988 K 75 110 110 4 10 PHYSICAL PROPERTIES OF AN 80 K-SUPERCONDUCTOR: BI-SR-CA-CU-O CERAMICS 1988 4 "STRUCTURE ,SUSCEPTIBILITY" "DEPARTMENT OF APPLIED PHYSICS,THE UNIVERSITY OF TOKYO" "JJAP.LETT.,27(1988)L661" "BI,SR,CA,CU,O" 290 JJP0270661 "Bi2(Sr,Ca)2CaCu2O8" Bi2Sr1.8Ca1.2Cu2Oz Bi 2 Sr 1.8 Ca 1.2 Cu 2 O z 1988 Bi2212 5.4 27 30.73 K 70 75 75 0.4 1.2 PHYSICAL PROPERTIES OF AN 80 K-SUPERCONDUCTOR: BI-SR-CA-CU-O CERAMICS 1988 4 "STRUCTURE ,SUSCEPTIBILITY" "DEPARTMENT OF APPLIED PHYSICS,THE UNIVERSITY OF TOKYO" "JJAP.LETT.,27(1988)L661" "BI,SR,CA,CU,O" 291 JJP0270674 Bi2Sr3Ca4Cu8Oz Bi 2 Sr 3 Ca 4 Cu 8 O z 1988 K 82.5 104 110 104 EFFECT OF PRESSURE ON SUPERCONDUCTING TRANSITION TEMPERATURES IN THE BI-SR-CA-CU-O SYSTEM 1988 4 "PRESSURE EFFECT ,TC ,RESISTIV" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS,TSUKUBA,IBARAKI" "JJAP.LETT.,27(1988)L674" "BI,SR,CA,CU,O" 292 JJP0270668 Bi1Sr1Ca1Cu2Oz Bi 1 Sr 1 Ca 1 Cu 2 O z 1988 K 106 112 106 108 1.5 UPPER CRITICAL FIELD OF NEW OXIDE SUPERCONDUCTOR BI-SR-CA-CU-O 1988 4 "NATIONAL RESEARCH INSTITUTE FOR METALS,IBARAK-KEYW CRITICAL FIELD" "JJAP.LETT.,27(1988)L668" "BI,SR,CA,CU,O" 293 PRB0368393 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.925Zn0.025O4 La 1.85 Sr 0.15 Cu 0.925 Zn 0.025 O 4 1987 T 3.777 13.221 K 15 15 3.5 3d-metal doping of the high-temperature superconducting perovskites La-Sr-Cu-O and Y-Ba-Cu-O 1987 12 "Bell Communications Reserch, Red Bank, New Jersey 07701" "Phys.Rev.B,36(1987)8393" 294 PRB0365279 NdBa2Cu3O7 Nd1Ba2Cu3O6.47 Nd 1 Ba 2 Cu 3 O 7-X 6.47 1987 Y123 3.893 11.882 K HIGH-FIELD MEASUREMENTS ON THE HIGH-TC SUPERCONDUCTORS LA(1.85)SR(0.15)CU(1)O(4-Z) AND Y(1)BA(2)CU(3)O(7-Z) 1987 10 "HC ,MAGNETO-RESIST" "RESEARCH INSTITUTE FOR MATERIALS AND HIGH FIELD MAGNET LABORATORY,UNIVERSITY OF NIJMEGEN,TOERNOOIVELD,NL" "PHYS.REV.B,36(1987)5279" "LA,SR,CU,O,Y,BA,CU,O" 295 PRB0365279 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1987 Y123 K 91.5 91.5 4.2 48 HIGH-FIELD MEASUREMENTS ON THE HIGH-TC SUPERCONDUCTORS LA(1.85)SR(0.15)CU(1)O(4-Z) AND Y(1)BA(2)CU(3)O(7-Z) 1987 10 "HC ,MAGNETO-RESIST" "RESEARCH INSTITUTE FOR MATERIALS AND HIGH FIELD MAGNET LABORATORY,UNIVERSITY OF NIJMEGEN,TOERNOOIVELD,NL" "PHYS.REV.B,36(1987)5279" "LA,SR,CU,O,Y,BA,CU,O" 296 SSC0650585 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.841Co0.159O6.8 Y 1 Ba 2 Cu 2.841 Co 0.159 O 6.8 6.8 1988 Y123 3.862 11.664 K 54 78 54 SUPERCONDUCTING PROPERTIES OF SUBSTITUTED Y(1)BA(2)CU(3(1-X))M(3X)O(7-Z) 1988 2 "RESISTIVITY ,SUBSTITUTION ,SUSCEPTI" "LABORATOIRE DE CRISTALLOGRAPHIE,C.N.R.S.,BP,FRANCE" "SOLID STATE COMMUN.,65(1988)585" "Y,BA,CU,MO" 297 SSC0650585 "YBa2(Cu,Cr)3O7" Y1Ba2.01Cu2.806Cr0.194O7.3 Y 1 Ba 2.01 Cu 2.806 Cr 0.194 O 7.3 7.3 1988 Y123 3.831 3.894 11.686 K 62 86 62 SUPERCONDUCTING PROPERTIES OF SUBSTITUTED Y(1)BA(2)CU(3(1-X))M(3X)O(7-Z) 1988 2 "RESISTIVITY ,SUBSTITUTION ,SUSCEPTI" "LABORATOIRE DE CRISTALLOGRAPHIE,C.N.R.S.,BP,FRANCE" "SOLID STATE COMMUN.,65(1988)585" "Y,BA,CU,MO" 298 JPS0563797 YBa2Cu3O7 Y1Ba2Cu3O6.74 Y 1 Ba 2 Cu 3 O 6.74 6.74 1987 Y123 K 91 91 4.9 FAR-INFRARED ABSORPTION BY SMALL PARTICLES OF YBA2CU3O6.74 1987 11 "FAR-INFRARED ,GAP" "INSTITUTE FOR MATERIALS RESEARCH, TOHOKU UNIVERSITY, SENDAI" "J.PHYS.SOC.JAPAN,56(1987)3797" "Y,BA,CU,O" 299 PRB0377458 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.98Fe0.02O6.93 Y 1 Ba 2 Cu 2.98 Fe 0.02 O X 6.93 1988 3 Y123 3.819 3.884 11.667 K 91.8 91.8 1.7 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 300 PRB0377458 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.95Fe0.05O6.92 Y 1 Ba 2 Cu 2.95 Fe 0.05 O X 6.92 1988 3 Y123 3.83 3.878 11.666 K 91.8 91.8 1.7 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 301 PRB0377458 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.9Fe0.1O6.92 Y 1 Ba 2 Cu 2.9 Fe 0.1 O X 6.92 1988 4.23 13 Y123 3.86 11.683 K 76 76 5.2 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 302 PRB0377458 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.8Fe0.2O6.93 Y 1 Ba 2 Cu 2.8 Fe 0.2 O X 6.93 1988 3.77 5 2 Y123 3.864 11.684 K 49 49 7.5 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 303 PRB0377458 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.7Fe0.3O6.96 Y 1 Ba 2 Cu 2.7 Fe 0.3 O X 6.96 1988 3.51 9 Y123 3.867 11.681 K 8 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 304 PRB0377458 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.6Fe0.4O7 Y 1 Ba 2 Cu 2.6 Fe 0.4 O X 7 1988 3.48 11 2 Y123 3.871 11.674 K 31 31 10 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 305 PRB0377458 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.5Fe0.5O7.2 Y 1 Ba 2 Cu 2.5 Fe 0.5 O X 7.2 1988 3.53 16 2 Y123 3.874 11.667 K 10 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 306 PRB0377458 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.2Fe0.8O7.25 Y 1 Ba 2 Cu 2.2 Fe 0.8 O X 7.25 1988 3.23 12 2 Y123 3.873 11.647 K 170 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 307 PRB0377458 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.95Al0.05O6.93 Y 1 Ba 2 Cu 2.95 Al 0.05 O X 6.93 1988 3 Y123 3.835 3.883 11.682 K 91 91 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 308 PRB0377458 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.9Al0.1O6.93 Y 1 Ba 2 Cu 2.9 Al 0.1 O X 6.93 1988 Y123 3.86 3.866 11.675 K 92 92 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 309 PRB0377458 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.8Al0.2O6.91 Y 1 Ba 2 Cu 2.8 Al 0.2 O X 6.91 1988 2 Y123 3.862 11.673 K 85 85 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 310 PRB0377458 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.7Al0.3O6.99 Y 1 Ba 2 Cu 2.7 Al 0.3 O X 6.99 1988 Y123 3.863 11.672 K 73 73 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 311 PRB0377458 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.6Al0.4O7 Y 1 Ba 2 Cu 2.6 Al 0.4 O X 7 1988 2 Y123 3.863 11.671 K 42 42 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 312 PRB0377458 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.9Ni0.1O6.87 Y 1 Ba 2 Cu 2.9 Ni 0.1 O X 6.87 1988 3 Y123 3.829 3.886 11.637 K 55 55 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 313 PRB0377458 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.8Ni0.2O6.82 Y 1 Ba 2 Cu 2.8 Ni 0.2 O X 6.82 1988 3 Y123 3.835 3.856 11.657 K 45 45 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 314 PRB0377458 "RH FROM (REFNO=PR0397324),RHN =AT 100K" "YBa2(Cu,Co)3O7" Y1Ba2Cu2.98Co0.02O6.9 Y 1 Ba 2 Cu 2.98 Co 0.02 O X 6.9 1 1988 Y123 3.82 3.883 11.667 K 93.4 93.4 1.1 4.98E-10 1.33E-09 RH314 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 315 PRB0377458 "RH FROM (REFNO=PR0397324),RHN=AT 100K" "YBa2(Cu,Co)3O7" Y1Ba2Cu2.95Co0.05O6.92 Y 1 Ba 2 Cu 2.95 Co 0.05 O X 6.92 1 1988 3 Y123 3.829 3.88 11.67 K 94.3 94.3 3.8 1.26E-09 3.62E-09 RH315 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 316 PRB0377458 "RH FROM (REFNO=PR0397324),RHN=AT 100K" "YBa2(Cu,Co)3O7" Y1Ba2Cu2.9Co0.1O6.82 Y 1 Ba 2 Cu 2.9 Co 0.1 O X 6.82 1 1988 4.05 Y123 3.861 11.687 K 73 73 4.5 2.63E-09 5.63E-09 RH316 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 317 PRB0377458 "RH FROM (REFNO=PR0397324),RHN=AT 100K" "YBa2(Cu,Co)3O7" Y1Ba2Cu2.8Co0.2O6.83 Y 1 Ba 2 Cu 2.8 Co 0.2 O X 6.83 1 1988 3.74 15 2 Y123 3.868 11.684 K 53 53 11 5.06E-09 9.68E-09 RH317 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 318 PRB0377458 "RH FROM (REFNO=PR0397324),RHN=AT 100K" "YBa2(Cu,Co)3O7" Y1Ba2Cu2.7Co0.3O6.88 Y 1 Ba 2 Cu 2.7 Co 0.3 O X 6.88 1 1988 3.37 20 2 Y123 3.872 11.68 K 22 22 20 1.08E-08 1.45E-08 RH318 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 319 PRB0377458 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.6Co0.4O6.95 Y 1 Ba 2 Cu 2.6 Co 0.4 O X 6.95 1988 3.52 52 2 Y123 3.877 11.674 K 77 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 320 PRB0377458 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.5Co0.5O6.99 Y 1 Ba 2 Cu 2.5 Co 0.5 O X 6.99 1988 3.46 66 2 Y123 3.881 11.671 K 50 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 321 PRB0377458 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.2Co0.8O7.07 Y 1 Ba 2 Cu 2.2 Co 0.8 O X 7.07 1988 3.52 100 Y123 3.886 11.661 K STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 322 PRB0377458 "YBa2(Cu,Co)3O7" Y1Ba2Cu2Co1O7.2 Y 1 Ba 2 Cu 2 Co 1 O X 7.2 1988 Y123 3.887 11.625 K STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 323 PRB0377458 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.7Ni0.3O6.97 Y 1 Ba 2 Cu 2.7 Ni 0.3 O X 6.97 1988 3 Y123 3.833 3.849 11.662 K 40 40 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 324 PRB0377458 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.9Zn0.1O6.81 Y 1 Ba 2 Cu 2.9 Zn 0.1 O X 6.81 1988 3 Y123 3.819 3.888 11.682 K 55 55 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 325 PRB0377458 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.8Zn0.2O6.79 Y 1 Ba 2 Cu 2.8 Zn 0.2 O X 6.79 1988 3 Y123 3.82 3.889 11.68 K 45 45 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 326 PRB0377458 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.7Zn0.3O6.74 Y 1 Ba 2 Cu 2.7 Zn 0.3 O X 6.74 1988 3 Y123 3.82 3.893 11.68 K 45 45 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 327 PRB0377458 YBa2Cu3O7 Y1Ba2Cu3O6.85 Y 1 Ba 2 Cu 3 O X 6.85 1988 3 Y123 3.815 3.882 11.67 K 92 92 1.8 STRUCTURAL AND PHYSICAL PROPERTIES OF THE METAL (M) SUBSTITUTED Y(1)BA(2)CU(3-X)M(X)O(7-Y) PEROVSKITE 1988 5 "STRUCTURE ,TRANSITION TEMPERATURE ,LATTICE CONSTANT ,RESISTIVITY" "BELL COMMUNICATIONS RESEARCH INC.,NEW JERSEY" "PHYS.REV.B,37(1988)7458" "Y,BA,CU,M,O" 328 SSC0660715 GdBa2Cu3O7 Gd1Ba2Cu3OX Gd 1 Ba 2 Cu 3 O X 1988 3 Y123 3.833 3.895 11.681 K 95 96.4 97.8 96.4 CRYSTAL SYRUCTURE AND HIGH-TC SUPERCONDUCTIVITY IN THE SYSYEM GD(1)BA(2-X)SR(X)CU(3)O(7-Z) 1988 5 "STRUCTURE ,RESISTIVITY" "CHEMISTRY DEPARTMENT,PAISLEY COLLEGE OF TECHNOLOGY,PAISLEY,SCOTLAND" "SOLID STATE COMMUN.,66(1988)715" "GD,BA,SR,CU,O" 329 SSC0660715 "Gd(Ba,Sr)2Cu3O7" Gd1Ba1.8Sr0.2Cu3OX Gd 1 Ba 1.8 Sr 0.2 Cu 3 O X 1988 Y123 3.834 3.897 11.69 K 89.7 94.7 97.5 94.7 CRYSTAL SYRUCTURE AND HIGH-TC SUPERCONDUCTIVITY IN THE SYSYEM GD(1)BA(2-X)SR(X)CU(3)O(7-Z) 1988 5 "STRUCTURE ,RESISTIVITY" "CHEMISTRY DEPARTMENT,PAISLEY COLLEGE OF TECHNOLOGY,PAISLEY,SCOTLAND" "SOLID STATE COMMUN.,66(1988)715" "GD,BA,SR,CU,O" 330 SSC0660715 "Gd(Ba,Sr)2Cu3O7" Gd1Ba1.6Sr0.4Cu3OX Gd 1 Ba 1.6 Sr 0.4 Cu 3 O X 1988 Y123 3.831 3.883 11.64 K 88.3 92.4 95.2 92.4 CRYSTAL SYRUCTURE AND HIGH-TC SUPERCONDUCTIVITY IN THE SYSYEM GD(1)BA(2-X)SR(X)CU(3)O(7-Z) 1988 5 "STRUCTURE ,RESISTIVITY" "CHEMISTRY DEPARTMENT,PAISLEY COLLEGE OF TECHNOLOGY,PAISLEY,SCOTLAND" "SOLID STATE COMMUN.,66(1988)715" "GD,BA,SR,CU,O" 331 SSC0660715 "Gd(Ba,Sr)2Cu3O7" Gd1Ba1.4Sr0.6Cu3Oz Gd 1 Ba 1.4 Sr 0.6 Cu 3 O z 1988 2 Y123 3.854 11.615 K 86 89.4 94.2 89.4 CRYSTAL SYRUCTURE AND HIGH-TC SUPERCONDUCTIVITY IN THE SYSYEM GD(1)BA(2-X)SR(X)CU(3)O(7-Z) 1988 5 "STRUCTURE ,RESISTIVITY" "CHEMISTRY DEPARTMENT,PAISLEY COLLEGE OF TECHNOLOGY,PAISLEY,SCOTLAND" "SOLID STATE COMMUN.,66(1988)715" "GD,BA,SR,CU,O" 332 SSC0660715 "Gd(Ba,Sr)2Cu3O7" Gd1Ba1.2Sr0.8Cu3Oz Gd 1 Ba 1.2 Sr 0.8 Cu 3 O z 1988 2 Y123 3.843 11.567 K 90.7 94.9 90.7 CRYSTAL SYRUCTURE AND HIGH-TC SUPERCONDUCTIVITY IN THE SYSYEM GD(1)BA(2-X)SR(X)CU(3)O(7-Z) 1988 5 "STRUCTURE ,RESISTIVITY" "CHEMISTRY DEPARTMENT,PAISLEY COLLEGE OF TECHNOLOGY,PAISLEY,SCOTLAND" "SOLID STATE COMMUN.,66(1988)715" "GD,BA,SR,CU,O" 333 SSC0660715 "Gd(Ba,Sr)2Cu3O7" Gd1Ba1Sr1Cu3Oz Gd 1 Ba 1 Sr 1 Cu 3 O z 1988 2 Y123 3.848 11.569 K 88.6 94.2 88.6 CRYSTAL SYRUCTURE AND HIGH-TC SUPERCONDUCTIVITY IN THE SYSYEM GD(1)BA(2-X)SR(X)CU(3)O(7-Z) 1988 5 "STRUCTURE ,RESISTIVITY" "CHEMISTRY DEPARTMENT,PAISLEY COLLEGE OF TECHNOLOGY,PAISLEY,SCOTLAND" "SOLID STATE COMMUN.,66(1988)715" "GD,BA,SR,CU,O" 334 SSC0660387 "(La,Na)2CuO4" La2.89Na0.11Cu1O4-X La 2.89 Na 0.11 Cu 1 O 4-X 1988 Y123 K 16 21 16 4 SUPERCONDUCTIVITY IN La2-xNaxCuO4-y 1988 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Solid State Commun., 66(1988)387" 335 SSC0660387 "(La,Na)2CuO4" La2.89Na0.41Cu1O4-X La 2.89 Na 0.41 Cu 1 O 4-X 1988 Y123 K 18 25 18 4 SUPERCONDUCTIVITY IN La2-xNaxCuO4-y 1988 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Solid State Commun., 66(1988)387" 336 SSC0660393 Bi1Ca1Sr1Cu2Oz Bi 1 Ca 1 Sr 1 Cu 2 O z 1988 Y123 K 71 75 90 75 14 HIGH TEMPERATURE SUPERCONDUCTIVITY IN THE COMPOUND (BICASR)CU(X)O(Y) 1988 4 "FABRICATION ,RESISTIVITY" "LABORATORIUM VOOR VASTE STOF-FYSIKA EN MAGNETISME,KATHOLIEKE UNIVERSITEIT LEUVEN,BELGIUM" "SOLID STATE COMMUN.,66(1988)393" "BI,CA,SR,CU,O" 337 SSC0660393 Bi1Ca1Sr1Cu2Oz Bi 1 Ca 1 Sr 1 Cu 2 O z 1988 Y123 K 64 70 84 70 1.7 HIGH TEMPERATURE SUPERCONDUCTIVITY IN THE COMPOUND (BICASR)CU(X)O(Y) 1988 4 "FABRICATION ,RESISTIVITY" "LABORATORIUM VOOR VASTE STOF-FYSIKA EN MAGNETISME,KATHOLIEKE UNIVERSITEIT LEUVEN,BELGIUM" "SOLID STATE COMMUN.,66(1988)393" "BI,CA,SR,CU,O" 338 SSC0660421 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1988 3 Y123 K 91.3 91.3 7 9.8 PROBING THERMODYNAMIC FLUCTUATIONS IN HIGH TEMPERATURE SUPERCONDUCTORS 1988 4 "FLUCTUATION ,RESISTIVITY" "LABORATORIO DE FISICA DE MATERIALES,FACULTAD DE FISICA,UNIVERSIDAD DE SANTIAGO DE COMPOSTELA,SPAIN" "SOLID STATE COMMUN.,66(1988)421" "R,BA,CU,O" 339 SSC0660421 HoBa2Cu3O7 Ho1Ba2Cu3O7 Ho 1 Ba 2 Cu 3 O 7 1988 3 Y123 K 92.1 92.1 2.8 5.1 PROBING THERMODYNAMIC FLUCTUATIONS IN HIGH TEMPERATURE SUPERCONDUCTORS 1988 4 "FLUCTUATION ,RESISTIVITY" "LABORATORIO DE FISICA DE MATERIALES,FACULTAD DE FISICA,UNIVERSIDAD DE SANTIAGO DE COMPOSTELA,SPAIN" "SOLID STATE COMMUN.,66(1988)421" "R,BA,CU,O" 340 SSC0660421 SmBa2Cu3O7 Sm1Ba2Cu3O7 Sm 1 Ba 2 Cu 3 O 7 1988 Y123 K 92.6 92.6 1.45 2.6 PROBING THERMODYNAMIC FLUCTUATIONS IN HIGH TEMPERATURE SUPERCONDUCTORS 1988 4 "FLUCTUATION ,RESISTIVITY" "LABORATORIO DE FISICA DE MATERIALES,FACULTAD DE FISICA,UNIVERSIDAD DE SANTIAGO DE COMPOSTELA,SPAIN" "SOLID STATE COMMUN.,66(1988)421" "R,BA,CU,O" 341 SSC0660421 HoBa2Cu3O7 Ho1Ba2Cu3O7 Ho 1 Ba 2 Cu 3 O 7 1988 3 Y123 K 92.1 92.1 0.85 1.7 PROBING THERMODYNAMIC FLUCTUATIONS IN HIGH TEMPERATURE SUPERCONDUCTORS 1988 4 "FLUCTUATION ,RESISTIVITY" "LABORATORIO DE FISICA DE MATERIALES,FACULTAD DE FISICA,UNIVERSIDAD DE SANTIAGO DE COMPOSTELA,SPAIN" "SOLID STATE COMMUN.,66(1988)421" "R,BA,CU,O" 342 SSC0660623 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1988 3 Y123 K 88.1 88.1 12 ELECTRICAL RESISTANCE OF Y(1)BA(2)CU(3)O(7-Z) IN THE RANGE 300-500 K AND 0-1.5 GPA 1988 5 "RESISTIVITY ,PRESSURE" "DEPARTMENT OF PHYSICS,UNIVERSITY OF UMEA,SWEDEN" "SOLID STATE COMMUN.,66(1988)623" "Y,BA,CU,O" 343 PRB0377956 EuBa2Cu3O7 Eu1Ba2Cu3OX Eu 1 Ba 2 Cu 3 O X 1988 3 Y123 K 94 94 3.8 0.41 1 UPPER CRITICAL FIELD AND RESISTIVITY OF SINGLE-CRYSTAL EU(1)BA(2)CU(3)O(Y):DIRECT MEASUREMENTS UNDER HIGH FIELD UP TO 50 T 1988 5 "SINGLE CRYSTAL ,CRITICAL FIELD ,RESISTIV" "NIPPON TELEGRAPH AND TELEPHONE CORPORATION OPTO-ELECTRONICS LABORATORIES,TOKAI,IBARAKI" "PHYS.REV.B,37(1988)7956" "EU,BA,CU,O" 344 SSC0650845 YBa2Cu3O7 Y1Ba2Cu3O6.8 Y 1 Ba 2 Cu 3 O X 6.8 1988 3 Y123 K 79 79 750 88 "MEISSNER EFFECT, CRITICAL FIELDS, AND SUPERCONDUCTING PARAMETERS OF YBa2Cu3O7-delta" 1988 "Freie Universitat Berlin, Institut fur Atom-und Festkorperphysik, Arnimallee 14, D-1000 Berlin 33, Federal Republic of Germany" Solid State Cmmun.65(1988)845-848 345 PRB0377454 NdBa2Cu3O7 Nd1Ba2Cu3OX Nd 1 Ba 2 Cu 3 O X 1988 3.57 3 Y123 3.88 3.874 11.626 K 75 90 82.5 1.8 RESISTIVE AND MAGNETIC STUDIES OF ND(1)BA(2)CU(3)O(7-Z) AND PR(1)BA(2)CU(3)O(7-Z) 1988 5 "RESISTIVITY ,SUSCEPTIBILITY" "DEPARTMENT OF PHYSICS,OHIO STATE UNIVERSITY,COLUMBUS,OHIO" "PHYS.REV.B,37(1988)7454" "ND,BA,CU,O,PR,BA,CU,O" 346 PRB0377454 PrBa2Cu3O7 Pr1Ba2Cu3OX Pr 1 Ba 2 Cu 3 O X 1988 3.35 -5 3 Y123 3.887 3.889 11.654 K 100 RESISTIVE AND MAGNETIC STUDIES OF ND(1)BA(2)CU(3)O(7-Z) AND PR(1)BA(2)CU(3)O(7-Z) 1988 5 "RESISTIVITY ,SUSCEPTIBILITY" "DEPARTMENT OF PHYSICS,OHIO STATE UNIVERSITY,COLUMBUS,OHIO" "PHYS.REV.B,37(1988)7454" "ND,BA,CU,O,PR,BA,CU,O" 347 JJP0270665 Bi1Sr1Ca1Cu2OX Bi 1 Sr 1 Ca 1 Cu 2 O X 1988 K 75 105 105 MAGNETIC PROPERTIES OF BI(1)SR(1)CA(1)CU(2)O(X) SUPERCONDUCTORS 1988 4 "NATIONAL RESEARCH INSTITUTE FOR METALS,TSUKUB-KEYW MAGNETIZATION,JC" "JJAP.LETT.,27(1988)L665" "BI,SR,CA,CU,O" 348 PRB0363906 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1987 T K 35.7 35.7 1.53 8.07 Microwave study of the high-Tc superconductor La1.8Sr0.2CuO4 1987 9 "Centre de Recherche en Physique du Solide, De'partement de Physique, Universite' de Sherbrooke, Sherbrooke, Que'bec, Canada JIK 2R1" "Phys.Rev.B,36(1987)3906" 349 PRB0363910 Y1.2Ba0.8Cu1O4 Y 1.2 Ba 0.8 Cu 1 O 4 1987 K 75 85 75 7 Electron tunneling in the high-Tc superconductor Y-Ba-Cu-O 1987 9 "Instituto de Investigaciones en Materiales, Universidad Nacional Auto'noma de Mexico, Apartado Postal 70-360,04510 Me'xco, Distrito Federal, Me'xico" "Phys.Rev.B,36(1987)3910" 350 PRB0364018 Gd1Ba2Cu2.82Fe0.18O9-Z Gd 1 Ba 2 Cu 2.82 Fe 0.18 O 9-Z 1987 3 K 31 42 57 42 Magnetic ordering in GdBa2(Cu0.94Fe0.06)3O9-delta below the superconducting transition temperature 1987 9 "Department of Phsics and Astronomy, Johns Hopkins University, Baltimore, Maryland 21218" "Phys.Rev.B,36(1987)4018" 351 PLA1260130 Y1.2Ba0.8Cu1O4-X Y 1.2 Ba 0.8 Cu 1 O 4-X 1987 3 3.457 3.815 26.5 K 94.5 94.5 EFFECT OF PRESSURE ON THE SUPERCONDUCTING TRANSITION TEMPERATURE OF THE (Y1.2BA0.8)4CU4O16-Z CERAMIC COMPOUND 1987 12 "PHYS.LETT.A,126(1987)130" "Y,BA,CU,O" 352 JJP0262091 ErBa2Cu3O7 Er1Ba2Cu3O7-Z Er 1 Ba 2 Cu 3 O 7-Z 1987 3 Y123 3.811 3.878 11.646 K 90 90 1 "ELECTRICAL,MAGNETIC AND SUPERCONDUCTING PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR ER(1-X)YB(X)BA(2)CU(3)O(7-Z)" 1987 12 "RESISTIVITY ,TC ,MAGNETIZ" "DEPARTMENT OF ELECTRICAL AND ELECTRONIC ENGINEERING,TOYOHASHI UNIVERSITY OF TECHNOLOGY,TEMPAKU-CHO,TOYOHASHI-SHI,AICHI-KEN" "JJAP.LETT.,26(1987)L2091" "ER,YB,BA,CU,O" 353 JJP0262091 "(Er,Yb)Ba2Cu3O7" Er0.75Yb0.25Ba2Cu3O7-Z Er 0.75 Yb 0.25 Ba 2 Cu 3 O 7-Z 1987 Y123 3.817 3.887 11.659 K 87.6 87.6 3.8 "ELECTRICAL,MAGNETIC AND SUPERCONDUCTING PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR ER(1-X)YB(X)BA(2)CU(3)O(7-Z)" 1987 12 "RESISTIVITY ,TC ,MAGNETIZ" "DEPARTMENT OF ELECTRICAL AND ELECTRONIC ENGINEERING,TOYOHASHI UNIVERSITY OF TECHNOLOGY,TEMPAKU-CHO,TOYOHASHI-SHI,AICHI-KEN" "JJAP.LETT.,26(1987)L2091" "ER,YB,BA,CU,O" 354 JJP0262091 "(Er,Yb)Ba2Cu3O7" Er0.62Yb0.38Ba2Cu3O7-Z Er 0.62 Yb 0.38 Ba 2 Cu 3 O 7-Z 1987 3 Y123 3.815 3.883 11.675 K 88.3 88.3 1.5 "ELECTRICAL,MAGNETIC AND SUPERCONDUCTING PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR ER(1-X)YB(X)BA(2)CU(3)O(7-Z)" 1987 12 "RESISTIVITY ,TC ,MAGNETIZ" "DEPARTMENT OF ELECTRICAL AND ELECTRONIC ENGINEERING,TOYOHASHI UNIVERSITY OF TECHNOLOGY,TEMPAKU-CHO,TOYOHASHI-SHI,AICHI-KEN" "JJAP.LETT.,26(1987)L2091" "ER,YB,BA,CU,O" 355 JJP0262091 "(Er,Yb)Ba2Cu3O7" Er0.5Yb0.5Ba2Cu3O7-Z Er 0.5 Yb 0.5 Ba 2 Cu 3 O 7-Z 1987 Y123 3.812 3.883 11.674 K 89.3 89.3 0.8 "ELECTRICAL,MAGNETIC AND SUPERCONDUCTING PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR ER(1-X)YB(X)BA(2)CU(3)O(7-Z)" 1987 12 "RESISTIVITY ,TC ,MAGNETIZ" "DEPARTMENT OF ELECTRICAL AND ELECTRONIC ENGINEERING,TOYOHASHI UNIVERSITY OF TECHNOLOGY,TEMPAKU-CHO,TOYOHASHI-SHI,AICHI-KEN" "JJAP.LETT.,26(1987)L2091" "ER,YB,BA,CU,O" 356 JJP0262091 "(Er,Yb)Ba2Cu3O7" Er0.37Yb0.63Ba2Cu3O7-Z Er 0.37 Yb 0.63 Ba 2 Cu 3 O 7-Z 1987 3 Y123 3.809 3.879 11.664 K 87.8 87.8 1.4 "ELECTRICAL,MAGNETIC AND SUPERCONDUCTING PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR ER(1-X)YB(X)BA(2)CU(3)O(7-Z)" 1987 12 "RESISTIVITY ,TC ,MAGNETIZ" "DEPARTMENT OF ELECTRICAL AND ELECTRONIC ENGINEERING,TOYOHASHI UNIVERSITY OF TECHNOLOGY,TEMPAKU-CHO,TOYOHASHI-SHI,AICHI-KEN" "JJAP.LETT.,26(1987)L2091" "ER,YB,BA,CU,O" 357 JJP0262091 "(Er,Yb)Ba2Cu3O7" Er0.25Yb0.75Ba2Cu3O7-Z Er 0.25 Yb 0.75 Ba 2 Cu 3 O 7-Z 1987 3 Y123 3.812 3.879 11.636 K 86.3 86.3 2.4 "ELECTRICAL,MAGNETIC AND SUPERCONDUCTING PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR ER(1-X)YB(X)BA(2)CU(3)O(7-Z)" 1987 12 "RESISTIVITY ,TC ,MAGNETIZ" "DEPARTMENT OF ELECTRICAL AND ELECTRONIC ENGINEERING,TOYOHASHI UNIVERSITY OF TECHNOLOGY,TEMPAKU-CHO,TOYOHASHI-SHI,AICHI-KEN" "JJAP.LETT.,26(1987)L2091" "ER,YB,BA,CU,O" 358 JJP0262091 YBa2Cu3O7 Yb1Ba2Cu3O7-Z Yb 1 Ba 2 Cu 3 O 7-Z 1987 3 Y123 3.811 3.871 11.635 K 88.5 88.5 2.3 "ELECTRICAL,MAGNETIC AND SUPERCONDUCTING PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR ER(1-X)YB(X)BA(2)CU(3)O(7-Z)" 1987 12 "RESISTIVITY ,TC ,MAGNETIZ" "DEPARTMENT OF ELECTRICAL AND ELECTRONIC ENGINEERING,TOYOHASHI UNIVERSITY OF TECHNOLOGY,TEMPAKU-CHO,TOYOHASHI-SHI,AICHI-KEN" "JJAP.LETT.,26(1987)L2091" "ER,YB,BA,CU,O" 359 JJP0262087 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.9Fe0.1OX Y 1 Ba 2 Cu 2.9 Fe 0.1 O X 1987 Y123 K 90 90 "SUPERCONDUCTIVITY OF Y(1)BA(2)CU(3-X)M(X)O(Y) (M=CO,FE,NI,ZN)" 1987 12 "SUSCEPTIBILITY ,TC" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS,IBARAKI" "JJAP.LETT.,26(1987)L2087" "Y,BA,CU,M,O" 360 JJP0262087 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.8Fe0.2OX Y 1 Ba 2 Cu 2.8 Fe 0.2 O X 1987 Y123 K 66 66 "SUPERCONDUCTIVITY OF Y(1)BA(2)CU(3-X)M(X)O(Y) (M=CO,FE,NI,ZN)" 1987 12 "SUSCEPTIBILITY ,TC" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS,IBARAKI" "JJAP.LETT.,26(1987)L2087" "Y,BA,CU,M,O" 361 JJP0262087 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.7Fe0.3OX Y 1 Ba 2 Cu 2.7 Fe 0.3 O X 1987 Y123 K 44 44 "SUPERCONDUCTIVITY OF Y(1)BA(2)CU(3-X)M(X)O(Y) (M=CO,FE,NI,ZN)" 1987 12 "SUSCEPTIBILITY ,TC" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS,IBARAKI" "JJAP.LETT.,26(1987)L2087" "Y,BA,CU,M,O" 362 JJP0262087 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.6Fe0.4OX Y 1 Ba 2 Cu 2.6 Fe 0.4 O X 1987 Y123 K 22 22 "SUPERCONDUCTIVITY OF Y(1)BA(2)CU(3-X)M(X)O(Y) (M=CO,FE,NI,ZN)" 1987 12 "SUSCEPTIBILITY ,TC" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS,IBARAKI" "JJAP.LETT.,26(1987)L2087" "Y,BA,CU,M,O" 363 JJP0262087 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.9Ni0.1OX Y 1 Ba 2 Cu 2.9 Ni 0.1 O X 1987 Y123 K 80 80 "SUPERCONDUCTIVITY OF Y(1)BA(2)CU(3-X)M(X)O(Y) (M=CO,FE,NI,ZN)" 1987 12 "SUSCEPTIBILITY ,TC" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS,IBARAKI" "JJAP.LETT.,26(1987)L2087" "Y,BA,CU,M,O" 364 JJP0262087 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.8Ni0.2OX Y 1 Ba 2 Cu 2.8 Ni 0.2 O X 1987 Y123 K 73 73 "SUPERCONDUCTIVITY OF Y(1)BA(2)CU(3-X)M(X)O(Y) (M=CO,FE,NI,ZN)" 1987 12 "SUSCEPTIBILITY ,TC" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS,IBARAKI" "JJAP.LETT.,26(1987)L2087" "Y,BA,CU,M,O" 365 JJP0262087 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.9Co0.1OX Y 1 Ba 2 Cu 2.9 Co 0.1 O X 1987 Y123 K 88 88 "SUPERCONDUCTIVITY OF Y(1)BA(2)CU(3-X)M(X)O(Y) (M=CO,FE,NI,ZN)" 1987 12 "SUSCEPTIBILITY ,TC" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS,IBARAKI" "JJAP.LETT.,26(1987)L2087" "Y,BA,CU,M,O" 366 JJP0262087 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.8Co0.2OX Y 1 Ba 2 Cu 2.8 Co 0.2 O X 1987 Y123 K "SUPERCONDUCTIVITY OF Y(1)BA(2)CU(3-X)M(X)O(Y) (M=CO,FE,NI,ZN)" 1987 12 "SUSCEPTIBILITY ,TC" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS,IBARAKI" "JJAP.LETT.,26(1987)L2087" "Y,BA,CU,M,O" 367 JJP0262087 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.7Co0.3OX Y 1 Ba 2 Cu 2.7 Co 0.3 O X 1987 Y123 K 50 50 "SUPERCONDUCTIVITY OF Y(1)BA(2)CU(3-X)M(X)O(Y) (M=CO,FE,NI,ZN)" 1987 12 "SUSCEPTIBILITY ,TC" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS,IBARAKI" "JJAP.LETT.,26(1987)L2087" "Y,BA,CU,M,O" 368 JJP0262087 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.6Co0.4OX Y 1 Ba 2 Cu 2.6 Co 0.4 O X 1987 Y123 K 15 15 "SUPERCONDUCTIVITY OF Y(1)BA(2)CU(3-X)M(X)O(Y) (M=CO,FE,NI,ZN)" 1987 12 "SUSCEPTIBILITY ,TC" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS,IBARAKI" "JJAP.LETT.,26(1987)L2087" "Y,BA,CU,M,O" 369 JJP0262087 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.9Zn0.1OX Y 1 Ba 2 Cu 2.9 Zn 0.1 O X 1987 Y123 K 58 58 "SUPERCONDUCTIVITY OF Y(1)BA(2)CU(3-X)M(X)O(Y) (M=CO,FE,NI,ZN)" 1987 12 "SUSCEPTIBILITY ,TC" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS,IBARAKI" "JJAP.LETT.,26(1987)L2087" "Y,BA,CU,M,O" 370 JJP0262087 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.8Zn0.2OX Y 1 Ba 2 Cu 2.8 Zn 0.2 O X 1987 Y123 K 50 50 "SUPERCONDUCTIVITY OF Y(1)BA(2)CU(3-X)M(X)O(Y) (M=CO,FE,NI,ZN)" 1987 12 "SUSCEPTIBILITY ,TC" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS,IBARAKI" "JJAP.LETT.,26(1987)L2087" "Y,BA,CU,M,O" 371 JJP0262097 DyBa2Cu3O7 Dy1Ba2Cu3OX Dy 1 Ba 2 Cu 3 O X 1987 3 Y123 3.835 3.89 11.69 K 91.2 91.2 170 2.77 15.3 4.4 SUPERCONDUCTIVITY AND MAGNETIC PROPERTIES OF DY(1)BA(2)CU(3)O(Y) 1987 12 "HC ,MAGNETIZATION ,SPECIFIC" "ELECTROTECHNICAL LABORATORY,IBARAKI" "JJAP.LETT.,26(1987)L2097" "DY,BA,CU,O" 372 JJP0262097 YBa2Cu3O7 Y1Ba2Cu3OX Y 1 Ba 2 Cu 3 O X 1987 3 Y123 3.823 3.886 11.68 K 90.8 90.8 2.22 4.4 2.5 4 SUPERCONDUCTIVITY AND MAGNETIC PROPERTIES OF DY(1)BA(2)CU(3)O(Y) 1987 12 "HC ,MAGNETIZATION ,SPECIFIC" "ELECTROTECHNICAL LABORATORY,IBARAKI" "JJAP.LETT.,26(1987)L2097" "DY,BA,CU,O" 373 SSC0650465 YBa2Cu3O7 Y1Ba2Cu3OX Y 1 Ba 2 Cu 3 O X 1988 3 Y123 K 89 91.5 92 91.5 50 ESTIMATION OF MATERIAL PARAMETERS FROM THE OBSERVATION OF PARACONDUCTIVITY IN Y-BA-CU-O 1988 1 RESISTIVITY "DEPARTMENT OF PHYSICS AND MATERIALS RESEARCH LABORATORY,UNIVERSITY OF ILLINOIS AT URBANA-CHAMPAIGN,USA" "SOLID STATE COMMUN.,65(1988)465" "Y,BA,CU,O" 374 PRL0600542 La4Ba1Cu5O13 La 4 Ba 1 Cu 5 O 13 1988 K "METALLIC,BUT NOT SUPERCONDUCTING,LA-BA(AND LA-SR) COPPER OXIDES" 1988 2 "SUPERCONDUCTIVITY ,RESISTIVITY" "IBM ALMADEN RESEARCH CENTER,SAN JOSE,CALIFORNIA" "PHYS.REV.LETT.,60(1988)542" "LA,BA,CU,O,LA,SR,CU,O" 375 PRL0600542 La2SrCu2O6 La2Sr1Cu2O6.2 La 2 Sr 1 Cu 2 O 6.2 6.2 1988 2126 K "METALLIC,BUT NOT SUPERCONDUCTING,LA-BA(AND LA-SR) COPPER OXIDES" 1988 2 "SUPERCONDUCTIVITY ,RESISTIVITY" "IBM ALMADEN RESEARCH CENTER,SAN JOSE,CALIFORNIA" "PHYS.REV.LETT.,60(1988)542" "LA,BA,CU,O,LA,SR,CU,O" 376 PRL0600542 La5Sr1Cu6O15 La 5 Sr 1 Cu 6 O 15 1988 K "METALLIC,BUT NOT SUPERCONDUCTING,LA-BA(AND LA-SR) COPPER OXIDES" 1988 2 "SUPERCONDUCTIVITY ,RESISTIVITY" "IBM ALMADEN RESEARCH CENTER,SAN JOSE,CALIFORNIA" "PHYS.REV.LETT.,60(1988)542" "LA,BA,CU,O,LA,SR,CU,O" 377 PRL0600542 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1988 3 T K 40 40 "METALLIC,BUT NOT SUPERCONDUCTING,LA-BA(AND LA-SR) COPPER OXIDES" 1988 2 "SUPERCONDUCTIVITY ,RESISTIVITY" "IBM ALMADEN RESEARCH CENTER,SAN JOSE,CALIFORNIA" "PHYS.REV.LETT.,60(1988)542" "LA,BA,CU,O,LA,SR,CU,O" 378 SSC0650487 "YBa2(Cu,V)3O7" Y1Ba2Cu2.4V0.6O6.9 Y 1 Ba 2 Cu 2.4 V 0.6 O 6.9 6.9 1988 Y123 K RAMAN SPECTROSCOPIC STUDY OF AN APPARENT PHASE TRANSITION AT 234 K IN THE HIGH-TC SUPERCONDUCTOR Y(1)BA(2)CU(3-X)V(X)O(7-Y) 1988 1 RAMAN "NANJING UNIVERSITY,NANJING,PEOPLE'S REPUBLIC OF CHINA" "SOLID STATE COMMUN.,65(1988)487" "Y,BA,CU,O" 379 JJP0261997 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1987 3 Y123 3.823 3.887 11.684 K 92 92 TETRAGONAL HIGH-TC SUPERCONDUCTOR IN THE SYSTEM BA(2)Y(CU(1-X)GA(X))(3)O(7-Z) 1987 12 "FABRICATION ,SUBSTITUTION ,OXYGEN C" "CENTRAL RESEARCH LABORATORY,HITACHI,LTD.,KOKUBUNJI,TOKYO" "JJAP.LETT.,26(1987)L1997" "Y,BA,CU,GA,O" 380 JJP0261997 "YBa2(Cu,Ga)3O7" Y1Ba2Cu2.94Ga0.06O7-Z Y 1 Ba 2 Cu 2.94 Ga 0.06 O 7-Z 1987 3 Y123 3.848 3.874 11.689 K 87 87 TETRAGONAL HIGH-TC SUPERCONDUCTOR IN THE SYSTEM BA(2)Y(CU(1-X)GA(X))(3)O(7-Z) 1987 12 "FABRICATION ,SUBSTITUTION ,OXYGEN C" "CENTRAL RESEARCH LABORATORY,HITACHI,LTD.,KOKUBUNJI,TOKYO" "JJAP.LETT.,26(1987)L1997" "Y,BA,CU,GA,O" 381 JJP0261997 "YBa2(Cu,Ga)3O7" Y1Ba2Cu2.85Ga0.15O7-Z Y 1 Ba 2 Cu 2.85 Ga 0.15 O 7-Z 1987 2 Y123 3.855 3.863 11.689 K 75 75 TETRAGONAL HIGH-TC SUPERCONDUCTOR IN THE SYSTEM BA(2)Y(CU(1-X)GA(X))(3)O(7-Z) 1987 12 "FABRICATION ,SUBSTITUTION ,OXYGEN C" "CENTRAL RESEARCH LABORATORY,HITACHI,LTD.,KOKUBUNJI,TOKYO" "JJAP.LETT.,26(1987)L1997" "Y,BA,CU,GA,O" 382 JJP0261997 "YBa2(Cu,Ga)3O7" Y1Ba2Cu2.7Ga0.3O7-Z Y 1 Ba 2 Cu 2.7 Ga 0.3 O 7-Z 1987 2 Y123 3.861 3.866 11.696 K 66 66 TETRAGONAL HIGH-TC SUPERCONDUCTOR IN THE SYSTEM BA(2)Y(CU(1-X)GA(X))(3)O(7-Z) 1987 12 "FABRICATION ,SUBSTITUTION ,OXYGEN C" "CENTRAL RESEARCH LABORATORY,HITACHI,LTD.,KOKUBUNJI,TOKYO" "JJAP.LETT.,26(1987)L1997" "Y,BA,CU,GA,O" 383 PRB0370638 YBa2Cu3O7 Y1Ba2Cu3O6.98 Y 1 Ba 2 Cu 3 O 6.98 6.98 1988 2 Y123 K 92 92 DETERMINATION OF THE MAGNETIC FIELD PENETRATION DEPTH IN SUPERCONDUCTING YTTRIUM BARIUM COPPER OXIDE: DEVIATIONS FROM THE BARDEEN-COOPER-SCHRIEFFER LAWS 1988 1 "MAGNETIZATION ,POWDER ,PENETRAT" "PHYSICS DEPARTMENT AND SOLID STATE SCIENCE CENTER,UNIVERSITY OF CALIFORNIA,LOS ANGELES,CALIFORNIA" "PHYS.REV.B,37(1988)638" 384 JJP0261953 YBa2Cu3O7 Y1Ba2Cu3O6 Y 1 Ba 2 Cu 3 O 6 1987 Y123 K 16.4 LOW TEMPERATURE SPECIFIC HEAT AND ELECTRICAL RESISTIVITY IN ORTHORHOMBIC Y(1)BA(2)CU(3)O(6.8) AND TETRAGONAL Y(1)BA(2)CU(3)O(6.0) 1987 12 "RESISTIVITY ,SPECIFIC HEAT" "NATIONAL RESEARCH INSTITUTE FOR METALS,NAKAMEGURO,TOKYO" "JJAP.LETT.,26(1987)L1953" "Y,BA,CU,O" 385 JJP0261953 YBa2Cu3O7 Y1Ba2Cu3O6.8 Y 1 Ba 2 Cu 3 O 6.8 6.8 1987 Y123 K 10.2 LOW TEMPERATURE SPECIFIC HEAT AND ELECTRICAL RESISTIVITY IN ORTHORHOMBIC Y(1)BA(2)CU(3)O(6.8) AND TETRAGONAL Y(1)BA(2)CU(3)O(6.0) 1987 12 "RESISTIVITY ,SPECIFIC HEAT" "NATIONAL RESEARCH INSTITUTE FOR METALS,NAKAMEGURO,TOKYO" "JJAP.LETT.,26(1987)L1953" "Y,BA,CU,O" 386 JJP0261982 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.88Fe0.12O7-Z Y 1 Ba 2 Cu 2.88 Fe 0.12 O 7-Z 1987 Y123 K 70 70 SUPERCONDUCTIVITY IN IMPURITY-INDUCED TETRAGONAL Y(1)BA(2)(CU(1-X)FE(X))(3)O(7-Z) 1987 12 "IMPURITY ,STRUCTURE ,TC" "DEPARTMENT OF PHYSICS,FACULTY OF SCIENCE,HIROSHIMA UNIVERSITY,HIROSHIMA" "JJAP.LETT.,26(1987)L1982" "Y,BA,CU,FE,O" 387 JJP0262034 GdBa2Cu3O7 Gd1Ba2Cu3O7-Z Gd 1 Ba 2 Cu 3 O 7-Z 1987 Y123 K 94.7 94.7 4.1 UPPER CRITICAL FIELD AND ITS ANISOTROPY OF EU(1)BA(2)CU(3)O(7-X) AND GD(1)BA(2)CU(3)O(7-X) STUDIED IN PREFERENTIALLY ORIENTED PELLETS 1987 12 "HC ,ANISOTROPY" "INSTITUTE OF MATERIALS SCIENCE,UNIVERSITY OF TSUKUBA,IBARAKI" "JJAP.LETT.,26(1987)L2034" "EU,BA,CU,O,GD,BA,CU,O" 388 JJP0262034 ErBa2Cu3O7 Eu1Ba2Cu3O7-Z Eu 1 Ba 2 Cu 3 O 7-Z 1987 Y123 K 94.5 94.5 4.2 2.6 UPPER CRITICAL FIELD AND ITS ANISOTROPY OF EU(1)BA(2)CU(3)O(7-X) AND GD(1)BA(2)CU(3)O(7-X) STUDIED IN PREFERENTIALLY ORIENTED PELLETS 1987 12 "HC ,ANISOTROPY" "INSTITUTE OF MATERIALS SCIENCE,UNIVERSITY OF TSUKUBA,IBARAKI" "JJAP.LETT.,26(1987)L2034" "EU,BA,CU,O,GD,BA,CU,O" 389 JJP0262080 Bi1Sr1Cu1OX Bi 1 Sr 1 Cu 1 O X 1987 K 4.6 6.5 8 6.5 SUPERCONDUCTIVITY IN THE BI-SR-CU-O SYSTEM 1987 12 "RESISTIVITY ,PREPARATION" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,26(1987)L2080" "BI,SR,CU,O" 390 JJP0262076 NdBa2Cu3O7 Nd1Ba2Cu3OX Nd 1 Ba 2 Cu 3 O X 1987 Y123 K 90 90 4.8 THE OXYGEN-DEFICIENT PEROVSKITE SOLID SOLUTION ND(1+X)BA(2-X)CU(3)O(Y) AND ITS SUPERCONDUCTIVITY 1987 12 "OXYGEN DEFECT ,X-RAY ,RESISTIV" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS,NAMIKI,IBARAKI" "JJAP.LETT.,26(1987)L2076" "ND,BA,CU,O" 391 JJP0262076 "Nd(Ba,Nd)2Cu3O7" Nd1.2Ba1.8Cu3OX Nd 1.2 Ba 1.8 Cu 3 O X 1987 Y123 K 60 60 2 THE OXYGEN-DEFICIENT PEROVSKITE SOLID SOLUTION ND(1+X)BA(2-X)CU(3)O(Y) AND ITS SUPERCONDUCTIVITY 1987 12 "OXYGEN DEFECT ,X-RAY ,RESISTIV" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS,NAMIKI,IBARAKI" "JJAP.LETT.,26(1987)L2076" "ND,BA,CU,O" 392 JJP0262076 "Nd(Ba,Nd)Cu3O7" Nd1.08Ba1.92Cu3OX Nd 1.08 Ba 1.92 Cu 3 O X 1987 Y123 K 86 86 1.2 THE OXYGEN-DEFICIENT PEROVSKITE SOLID SOLUTION ND(1+X)BA(2-X)CU(3)O(Y) AND ITS SUPERCONDUCTIVITY 1987 12 "OXYGEN DEFECT ,X-RAY ,RESISTIV" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS,NAMIKI,IBARAKI" "JJAP.LETT.,26(1987)L2076" "ND,BA,CU,O" 393 JJP0262076 "Nd(Ba,Nd)2Cu3O7" Nd1.5Ba1.5Cu3OX Nd 1.5 Ba 1.5 Cu 3 O X 1987 Y123 K 20 THE OXYGEN-DEFICIENT PEROVSKITE SOLID SOLUTION ND(1+X)BA(2-X)CU(3)O(Y) AND ITS SUPERCONDUCTIVITY 1987 12 "OXYGEN DEFECT ,X-RAY ,RESISTIV" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS,NAMIKI,IBARAKI" "JJAP.LETT.,26(1987)L2076" "ND,BA,CU,O" 394 JJP0262076 "Nd(Ba,Nd)2Cu3O7" Nd1.32Ba1.68Cu3OX Nd 1.32 Ba 1.68 Cu 3 O X 1987 Y123 K 20 20 8 THE OXYGEN-DEFICIENT PEROVSKITE SOLID SOLUTION ND(1+X)BA(2-X)CU(3)O(Y) AND ITS SUPERCONDUCTIVITY 1987 12 "OXYGEN DEFECT ,X-RAY ,RESISTIV" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS,NAMIKI,IBARAKI" "JJAP.LETT.,26(1987)L2076" "ND,BA,CU,O" 395 SSC0660413 "YBa2(Cu,Mo)3O7" Y1Ba2Cu2.97Mo0.03OX Y 1 Ba 2 Cu 2.97 Mo 0.03 O X 1988 Y123 3.826 3.882 11.706 K 76 76 0.75 1.6 "EFFECT OF NONMAGNETIC IMPURITIES OF AL,MO AND ZN ON THE SUPERCONDUCTIVITY OF BA(2)Y(1)CU(3)O(7)" 1988 4 "SUBSTITUTION ,RESISTIVITY ,TC" "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO" "SOLID STATE COMMUN.,66(1988)413" "Y,BA,CU,O" 396 SSC0660413 "YBa2(Cu,Mo)3O7" Y1Ba2Cu2.94Mo0.06OX Y 1 Ba 2 Cu 2.94 Mo 0.06 O X 1988 Y123 3.841 3.878 11.724 K 63 63 1.3 2.3 "EFFECT OF NONMAGNETIC IMPURITIES OF AL,MO AND ZN ON THE SUPERCONDUCTIVITY OF BA(2)Y(1)CU(3)O(7)" 1988 4 "SUBSTITUTION ,RESISTIVITY ,TC" "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO" "SOLID STATE COMMUN.,66(1988)413" "Y,BA,CU,O" 397 SSC0660413 "YBa2(Cu,Mo)3O7" Y1Ba2Cu2.895Mo0.105OX Y 1 Ba 2 Cu 2.895 Mo 0.105 O X 1988 Y123 3.855 3.868 11.73 K 52.5 52.5 3.25 "EFFECT OF NONMAGNETIC IMPURITIES OF AL,MO AND ZN ON THE SUPERCONDUCTIVITY OF BA(2)Y(1)CU(3)O(7)" 1988 4 "SUBSTITUTION ,RESISTIVITY ,TC" "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO" "SOLID STATE COMMUN.,66(1988)413" "Y,BA,CU,O" 398 SSC0660413 "YBa2(Cu,Mo)3O7" Y1Ba2Cu2.85Mo0.15OX Y 1 Ba 2 Cu 2.85 Mo 0.15 O X 1988 Y123 3.362 3.864 11.736 K 50 50 5 "EFFECT OF NONMAGNETIC IMPURITIES OF AL,MO AND ZN ON THE SUPERCONDUCTIVITY OF BA(2)Y(1)CU(3)O(7)" 1988 4 "SUBSTITUTION ,RESISTIVITY ,TC" "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO" "SOLID STATE COMMUN.,66(1988)413" "Y,BA,CU,O" 399 SSC0660413 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.97Zn0.03OX Y 1 Ba 2 Cu 2.97 Zn 0.03 O X 1988 Y123 3.819 3.885 11.691 K 79 79 0.6 1.05 "EFFECT OF NONMAGNETIC IMPURITIES OF AL,MO AND ZN ON THE SUPERCONDUCTIVITY OF BA(2)Y(1)CU(3)O(7)" 1988 4 "SUBSTITUTION ,RESISTIVITY ,TC" "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO" "SOLID STATE COMMUN.,66(1988)413" "Y,BA,CU,O" 400 SSC0660413 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.94Zn0.06OX Y 1 Ba 2 Cu 2.94 Zn 0.06 O X 1988 Y123 3.818 3.883 11.688 K 62 62 0.75 1.2 "EFFECT OF NONMAGNETIC IMPURITIES OF AL,MO AND ZN ON THE SUPERCONDUCTIVITY OF BA(2)Y(1)CU(3)O(7)" 1988 4 "SUBSTITUTION ,RESISTIVITY ,TC" "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO" "SOLID STATE COMMUN.,66(1988)413" "Y,BA,CU,O" 401 SSC0660413 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.895Zn0.105OX Y 1 Ba 2 Cu 2.895 Zn 0.105 O X 1988 Y123 3.82 3.886 11.688 K 52 52 1 1.3 "EFFECT OF NONMAGNETIC IMPURITIES OF AL,MO AND ZN ON THE SUPERCONDUCTIVITY OF BA(2)Y(1)CU(3)O(7)" 1988 4 "SUBSTITUTION ,RESISTIVITY ,TC" "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO" "SOLID STATE COMMUN.,66(1988)413" "Y,BA,CU,O" 402 SSC0660413 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.85Zn0.15OX Y 1 Ba 2 Cu 2.85 Zn 0.15 O X 1988 Y123 3.82 3.886 11.685 K 38 38 1.4 1.76 "EFFECT OF NONMAGNETIC IMPURITIES OF AL,MO AND ZN ON THE SUPERCONDUCTIVITY OF BA(2)Y(1)CU(3)O(7)" 1988 4 "SUBSTITUTION ,RESISTIVITY ,TC" "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO" "SOLID STATE COMMUN.,66(1988)413" "Y,BA,CU,O" 403 SSC0660413 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.775Zn0.225OX Y 1 Ba 2 Cu 2.775 Zn 0.225 O X 1988 Y123 3.823 3.888 11.685 K 4.5 3.2 "EFFECT OF NONMAGNETIC IMPURITIES OF AL,MO AND ZN ON THE SUPERCONDUCTIVITY OF BA(2)Y(1)CU(3)O(7)" 1988 4 "SUBSTITUTION ,RESISTIVITY ,TC" "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO" "SOLID STATE COMMUN.,66(1988)413" "Y,BA,CU,O" 404 SSC0660413 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.7Zn0.3OX Y 1 Ba 2 Cu 2.7 Zn 0.3 O X 1988 Y123 3.823 3.883 11.685 K 11 6.5 "EFFECT OF NONMAGNETIC IMPURITIES OF AL,MO AND ZN ON THE SUPERCONDUCTIVITY OF BA(2)Y(1)CU(3)O(7)" 1988 4 "SUBSTITUTION ,RESISTIVITY ,TC" "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO" "SOLID STATE COMMUN.,66(1988)413" "Y,BA,CU,O" 405 SSC0660413 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.97Al0.03OX Y 1 Ba 2 Cu 2.97 Al 0.03 O X 1988 Y123 3.826 3.882 11.691 K 81 81 0.5 1.1 "EFFECT OF NONMAGNETIC IMPURITIES OF AL,MO AND ZN ON THE SUPERCONDUCTIVITY OF BA(2)Y(1)CU(3)O(7)" 1988 4 "SUBSTITUTION ,RESISTIVITY ,TC" "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO" "SOLID STATE COMMUN.,66(1988)413" "Y,BA,CU,O" 406 SSC0660413 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.94Al0.06OX Y 1 Ba 2 Cu 2.94 Al 0.06 O X 1988 Y123 3.833 3.88 11.703 K 58 58 1.2 2.1 "EFFECT OF NONMAGNETIC IMPURITIES OF AL,MO AND ZN ON THE SUPERCONDUCTIVITY OF BA(2)Y(1)CU(3)O(7)" 1988 4 "SUBSTITUTION ,RESISTIVITY ,TC" "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO" "SOLID STATE COMMUN.,66(1988)413" "Y,BA,CU,O" 407 SSC0660413 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.885Al0.105OX Y 1 Ba 2 Cu 2.885 Al 0.105 O X 1988 Y123 3.848 3.871 11.712 K 42 42 3.5 "EFFECT OF NONMAGNETIC IMPURITIES OF AL,MO AND ZN ON THE SUPERCONDUCTIVITY OF BA(2)Y(1)CU(3)O(7)" 1988 4 "SUBSTITUTION ,RESISTIVITY ,TC" "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO" "SOLID STATE COMMUN.,66(1988)413" "Y,BA,CU,O" 408 SSC0660413 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.85Al0.15OX Y 1 Ba 2 Cu 2.85 Al 0.15 O X 1988 Y123 3.854 3.866 11.715 K 33 33 3.75 "EFFECT OF NONMAGNETIC IMPURITIES OF AL,MO AND ZN ON THE SUPERCONDUCTIVITY OF BA(2)Y(1)CU(3)O(7)" 1988 4 "SUBSTITUTION ,RESISTIVITY ,TC" "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO" "SOLID STATE COMMUN.,66(1988)413" "Y,BA,CU,O" 409 PRB0375912 "Y(Ba,La)2Cu3O7" Y1Ba1.95La0.05Cu3OX Y 1 Ba 1.95 La 0.05 Cu 3 O X 1988 Y123 3.82 3.89 11.675 K 91 91 3.5 BA(2-X)LA(X)Y(1)CU(3)O(7+-Z) PEROVSKITE COMPOUNDS:CRYSTAL CHEMISTRY 1988 4 "CRYSTAL STRUCTURE ,RESISTIVITY ,X-RAY ,OX" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,37(1988)5912" "Y,BA,LA,CU,O" 410 PRB0375912 "Y(Ba,La)2Cu3O7" Y1Ba1.9La0.1Cu3OX Y 1 Ba 1.9 La 0.1 Cu 3 O X 1988 Y123 3.827 3.893 11.678 K BA(2-X)LA(X)Y(1)CU(3)O(7+-Z) PEROVSKITE COMPOUNDS:CRYSTAL CHEMISTRY 1988 4 "CRYSTAL STRUCTURE ,RESISTIVITY ,X-RAY ,OX" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,37(1988)5912" "Y,BA,LA,CU,O" 411 PRB0375912 "Y(Ba,La)2Cu3O7" Y1Ba1.85La0.15Cu3OX Y 1 Ba 1.85 La 0.15 Cu 3 O X 1988 Y123 3.825 3.892 11.681 K 88 88 1.6 BA(2-X)LA(X)Y(1)CU(3)O(7+-Z) PEROVSKITE COMPOUNDS:CRYSTAL CHEMISTRY 1988 4 "CRYSTAL STRUCTURE ,RESISTIVITY ,X-RAY ,OX" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,37(1988)5912" "Y,BA,LA,CU,O" 412 PRB0375912 "Y(Ba,La)2Cu3O7" Y1Ba1.8La0.2Cu3OX Y 1 Ba 1.8 La 0.2 Cu 3 O X 1988 Y123 3.827 3.89 11.669 K BA(2-X)LA(X)Y(1)CU(3)O(7+-Z) PEROVSKITE COMPOUNDS:CRYSTAL CHEMISTRY 1988 4 "CRYSTAL STRUCTURE ,RESISTIVITY ,X-RAY ,OX" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,37(1988)5912" "Y,BA,LA,CU,O" 413 PRB0375912 "Y(Ba,La)2Cu3O7" Y1Ba1.75La0.25Cu3OX Y 1 Ba 1.75 La 0.25 Cu 3 O X 1988 Y123 3.83 3.889 11.669 K 76 76 2.6 BA(2-X)LA(X)Y(1)CU(3)O(7+-Z) PEROVSKITE COMPOUNDS:CRYSTAL CHEMISTRY 1988 4 "CRYSTAL STRUCTURE ,RESISTIVITY ,X-RAY ,OX" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,37(1988)5912" "Y,BA,LA,CU,O" 414 PRB0375912 "Y(Ba,La)2Cu3O7" Y1Ba1.7La0.3Cu3OX Y 1 Ba 1.7 La 0.3 Cu 3 O X 1988 Y123 3.843 3.881 11.644 K 5 BA(2-X)LA(X)Y(1)CU(3)O(7+-Z) PEROVSKITE COMPOUNDS:CRYSTAL CHEMISTRY 1988 4 "CRYSTAL STRUCTURE ,RESISTIVITY ,X-RAY ,OX" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,37(1988)5912" "Y,BA,LA,CU,O" 415 PRB0375912 "Y(Ba,La)Cu3O7" Y1Ba1.65La0.35Cu3OX Y 1 Ba 1.65 La 0.35 Cu 3 O X 1988 Y123 3.852 3.873 11.624 K 64 64 5.3 BA(2-X)LA(X)Y(1)CU(3)O(7+-Z) PEROVSKITE COMPOUNDS:CRYSTAL CHEMISTRY 1988 4 "CRYSTAL STRUCTURE ,RESISTIVITY ,X-RAY ,OX" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,37(1988)5912" "Y,BA,LA,CU,O" 416 PRB0375912 "Y(Ba,La)2Cu3O7" Y1Ba1.6La0.4Cu3O7-Z Y 1 Ba 1.6 La 0.4 Cu 3 O 7-Z 1988 Y123 3.867 11.598 K 8.8 BA(2-X)LA(X)Y(1)CU(3)O(7+-Z) PEROVSKITE COMPOUNDS:CRYSTAL CHEMISTRY 1988 4 "CRYSTAL STRUCTURE ,RESISTIVITY ,X-RAY ,OX" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,37(1988)5912" "Y,BA,LA,CU,O" 417 JJP0261956 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1987 Y123 3.83 3.89 11.67 K 92 92.5 93 92.5 EXPERIMENTS ON SUPERCONEDUCTING (RARE EARTH)-BA(2)CU(3)O(7-Z) DOWN TO 30 MK 1987 12 "SUSCEPTIBILITY ,STRUCTURE" "FACULTY OF ENGINEERING SCIENCE,OSAKA UNIVERSITY,TOYONAKA,OSAKA" "JJAP.LETT.,26(1987)L1956" "R,BA,CU,O" 418 JJP0261956 NdBa2Cu3O7 Nd1Ba2Cu3O7-Z Nd 1 Ba 2 Cu 3 O 7-Z 1987 3.1 -22.6 Y123 3.812 3.907 11.741 K 60 67 75 67 EXPERIMENTS ON SUPERCONEDUCTING (RARE EARTH)-BA(2)CU(3)O(7-Z) DOWN TO 30 MK 1987 12 "SUSCEPTIBILITY ,STRUCTURE" "FACULTY OF ENGINEERING SCIENCE,OSAKA UNIVERSITY,TOYONAKA,OSAKA" "JJAP.LETT.,26(1987)L1956" "R,BA,CU,O" 419 JJP0261956 SmBa2Cu3O7 Sm1Ba2Cu3O7-Z Sm 1 Ba 2 Cu 3 O 7-Z 1987 0.7 -17.9 Y123 3.858 3.916 11.704 K 71 76 90 76 EXPERIMENTS ON SUPERCONEDUCTING (RARE EARTH)-BA(2)CU(3)O(7-Z) DOWN TO 30 MK 1987 12 "SUSCEPTIBILITY ,STRUCTURE" "FACULTY OF ENGINEERING SCIENCE,OSAKA UNIVERSITY,TOYONAKA,OSAKA" "JJAP.LETT.,26(1987)L1956" "R,BA,CU,O" 420 JJP0261956 EuBa2Cu3O7 Eu1Ba2Cu3O7-Z Eu 1 Ba 2 Cu 3 O 7-Z 1987 Y123 3.84 3.9 11.704 K 87 92 94 92 EXPERIMENTS ON SUPERCONEDUCTING (RARE EARTH)-BA(2)CU(3)O(7-Z) DOWN TO 30 MK 1987 12 "SUSCEPTIBILITY ,STRUCTURE" "FACULTY OF ENGINEERING SCIENCE,OSAKA UNIVERSITY,TOYONAKA,OSAKA" "JJAP.LETT.,26(1987)L1956" "R,BA,CU,O" 421 JJP0261956 GdBa2Cu3O7 Gd1Ba2Cu3O7-Z Gd 1 Ba 2 Cu 3 O 7-Z 1987 8 -12.7 Y123 3.843 3.898 11.717 K 82 86 93 86 EXPERIMENTS ON SUPERCONEDUCTING (RARE EARTH)-BA(2)CU(3)O(7-Z) DOWN TO 30 MK 1987 12 "SUSCEPTIBILITY ,STRUCTURE" "FACULTY OF ENGINEERING SCIENCE,OSAKA UNIVERSITY,TOYONAKA,OSAKA" "JJAP.LETT.,26(1987)L1956" "R,BA,CU,O" 422 JJP0261956 DyBa2Cu3O7 Dy1Ba2Cu3O7-Z Dy 1 Ba 2 Cu 3 O 7-Z 1987 10.7 -12.1 Y123 3.829 3.895 11.68 K 90 92 93 92 EXPERIMENTS ON SUPERCONEDUCTING (RARE EARTH)-BA(2)CU(3)O(7-Z) DOWN TO 30 MK 1987 12 "SUSCEPTIBILITY ,STRUCTURE" "FACULTY OF ENGINEERING SCIENCE,OSAKA UNIVERSITY,TOYONAKA,OSAKA" "JJAP.LETT.,26(1987)L1956" "R,BA,CU,O" 423 JJP0261956 HoBa2Cu3O7 Ho1Ba2Cu3O7-Z Ho 1 Ba 2 Cu 3 O 7-Z 1987 9.7 -10.3 Y123 3.824 3.89 11.664 K 90 91 93 91 EXPERIMENTS ON SUPERCONEDUCTING (RARE EARTH)-BA(2)CU(3)O(7-Z) DOWN TO 30 MK 1987 12 "SUSCEPTIBILITY ,STRUCTURE" "FACULTY OF ENGINEERING SCIENCE,OSAKA UNIVERSITY,TOYONAKA,OSAKA" "JJAP.LETT.,26(1987)L1956" "R,BA,CU,O" 424 JJP0261956 ErBa2Cu3O7 Er1Ba2Cu3O7-Z Er 1 Ba 2 Cu 3 O 7-Z 1987 9.3 -12.3 Y123 3.829 3.884 11.652 K 90 91 93 91 EXPERIMENTS ON SUPERCONEDUCTING (RARE EARTH)-BA(2)CU(3)O(7-Z) DOWN TO 30 MK 1987 12 "SUSCEPTIBILITY ,STRUCTURE" "FACULTY OF ENGINEERING SCIENCE,OSAKA UNIVERSITY,TOYONAKA,OSAKA" "JJAP.LETT.,26(1987)L1956" "R,BA,CU,O" 425 JJP0261956 TmBa2Cu3O7 Tm1Ba2Cu3O7-Z Tm 1 Ba 2 Cu 3 O 7-Z 1987 7.9 -13 Y123 3.82 3.88 11.66 K 90 92 95 92 EXPERIMENTS ON SUPERCONEDUCTING (RARE EARTH)-BA(2)CU(3)O(7-Z) DOWN TO 30 MK 1987 12 "SUSCEPTIBILITY ,STRUCTURE" "FACULTY OF ENGINEERING SCIENCE,OSAKA UNIVERSITY,TOYONAKA,OSAKA" "JJAP.LETT.,26(1987)L1956" "R,BA,CU,O" 426 JJP0261956 YbBa2Cu3O7 Yb1Ba2Cu3O7-Z Yb 1 Ba 2 Cu 3 O 7-Z 1987 4.5 -2.4 Y123 3.382 3.87 11.66 K 90 91 95 91 EXPERIMENTS ON SUPERCONEDUCTING (RARE EARTH)-BA(2)CU(3)O(7-Z) DOWN TO 30 MK 1987 12 "SUSCEPTIBILITY ,STRUCTURE" "FACULTY OF ENGINEERING SCIENCE,OSAKA UNIVERSITY,TOYONAKA,OSAKA" "JJAP.LETT.,26(1987)L1956" "R,BA,CU,O" 427 JJP0271123 "YBa2(Cu,Co)3O7" Y1Ba2Cu2Co1OX Y 1 Ba 2 Cu 2 Co 1 O X 1988 -52.8 Y123 3.89 11.66 K MAGNETIC PROPERTY OF Y(1)BA(2)CU(2)CO(1)O(Y) 1988 6 "SUSCEPTIBILITY ,LOW DIMENSIONA" "DEPARTMENT OF PHYSICS,FACULTY OF ENGINEERING,YOKOHAMA NATIONAL UNIVERSITY,TOKIWADAI" "JJAP.LETT.,27(1988)L1123" "Y,BA,CU,CO,O" 428 JJP0271104 YBa2Cu3HxO7 Y1Ba2Cu3HO7-X Y 1 Ba 2 Cu 3 H O 7-X 1988 Y123 3.822 3.892 11.67 K 87.5 92.5 90 6.3 EFFECTS OF HYDROGEN ION IMPLANTATION ON SUPERCONDUCTIVITY IN Y(1)BA(2)CU(3)O(7-X) 1988 6 "ION IMPLANTATION ,RES ,STRUCTUR" "HITACHI RESEARCH LABORATORY,HITACHI LTD.,HITACHI,IBARAKI" "JJAP.LETT.,27(1988)L1104" "Y,BA,CU,O" 429 JJP0271104 YBa2Cu3HxO7 Y1Ba2Cu3HO7-X Y 1 Ba 2 Cu 3 H O 7-X 1988 Y123 3.862 11.76 K 34.8 51.3 43.05 58 EFFECTS OF HYDROGEN ION IMPLANTATION ON SUPERCONDUCTIVITY IN Y(1)BA(2)CU(3)O(7-X) 1988 6 "ION IMPLANTATION ,RES ,STRUCTUR" "HITACHI RESEARCH LABORATORY,HITACHI LTD.,HITACHI,IBARAKI" "JJAP.LETT.,27(1988)L1104" "Y,BA,CU,O" 430 JJP0271104 YBa2Cu3HxO7 Y1Ba2Cu3HO7-X Y 1 Ba 2 Cu 3 H O 7-X 1988 2 Y123 3.68 11.73 K 1400 EFFECTS OF HYDROGEN ION IMPLANTATION ON SUPERCONDUCTIVITY IN Y(1)BA(2)CU(3)O(7-X) 1988 6 "ION IMPLANTATION ,RES ,STRUCTUR" "HITACHI RESEARCH LABORATORY,HITACHI LTD.,HITACHI,IBARAKI" "JJAP.LETT.,27(1988)L1104" "Y,BA,CU,O" 431 PRL0591860 YBa2Cu3O7 Y1Ba2Cu3O7-X Y 1 Ba 2 Cu 3 O 7-X 1987 Y123 K 92 92 8.3 Evidence for Two Pairing Energies from Nuclear Spin-Lattice Relaxation in Superconducting Ba2YCu3O7-delta 1987 10 "AT & T Bell Laboratories, Murray Hill, New Jersey 07974" Phys.Rev.Lett.59(1987)1860 432 NU0570030 YBa2Cu3O7 Y1Ba2Cu3O7-X Y 1 Ba 2 Cu 3 O 7-X 1988 Y123 K 92 92 12 NUCLEAR RELAXATION AND KNIGHT SHIFT STUDIES OF COPPER IN Y(1)BA(2)CU(3)O(7-Y) 1988 1 "NMR ,NQR" "DEPARTMENT OF MATERIAL PHYSICS,FACULTY OF ENGINEERING SCIENCE,OSAKA UNIVERSITY,TOYONAKA,OSAKA" "J.PHYS.SOC.JAPAN,57(1988)30" "Y,BA,CU,O" 433 PRB0375820 "GdBa2Cu3(O,S)7" Gd1Ba2Cu3S1O6 Gd 1 Ba 2 Cu 3 S 1 O 6 1988 8.33 -12 Y123 3.899 11.85 K EFFECT OF SULFUR ON THE SUPERCONDUCTIVITY OF R(1)BA(2)CU(3)O(7) 1988 4 "SULFUR ,SUSCEPTIBILITY ,STRUCTUR" "LABORATOIRE L.NEEL,FRANCE" "PHYS.REV.B,37(1988)5820" "R,BA,CU,O" 434 PRB0375820 TbBa2Cu3O7 Tb1Ba2Cu3O7 Tb 1 Ba 2 Cu 3 O 7 1988 9.7 -50 Y123 8.572 K EFFECT OF SULFUR ON THE SUPERCONDUCTIVITY OF R(1)BA(2)CU(3)O(7) 1988 4 "SULFUR ,SUSCEPTIBILITY ,STRUCTUR" "LABORATOIRE L.NEEL,FRANCE" "PHYS.REV.B,37(1988)5820" "R,BA,CU,O" 435 PRB0375820 "TbBa2Cu3(O,S)7" Tb1Ba2Cu3S1O6 Tb 1 Ba 2 Cu 3 S 1 O 6 1988 8.23 -40 Y123 8.572 K EFFECT OF SULFUR ON THE SUPERCONDUCTIVITY OF R(1)BA(2)CU(3)O(7) 1988 4 "SULFUR ,SUSCEPTIBILITY ,STRUCTUR" "LABORATOIRE L.NEEL,FRANCE" "PHYS.REV.B,37(1988)5820" "R,BA,CU,O" 436 PRB0375828 GdBa2Cu3O7 Gd1Ba2Cu3O7-Z Gd 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 90 96 93 5.4 7.92 "TRANSPORT CRITICAL CURRENT IN RARE-EARTH-SUBSTITUTED SUPERCONDUCTORS R(1)BA(2)CU(3)O(7-Z)(R=GD,DY,SM,HO,Y)" 1988 4 "CRITICAL CURRENT ,MAGNETIC FIELD" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,37(1988)5828" "R,BA,CU,O" 437 PRB0375828 DyBa2Cu3O7 Dy1Ba2Cu3O7-Z Dy 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 92 96 94 0.84 1.95 "TRANSPORT CRITICAL CURRENT IN RARE-EARTH-SUBSTITUTED SUPERCONDUCTORS R(1)BA(2)CU(3)O(7-Z)(R=GD,DY,SM,HO,Y)" 1988 4 "CRITICAL CURRENT ,MAGNETIC FIELD" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,37(1988)5828" "R,BA,CU,O" 438 PRB0375828 SmBa2Cu3O7 Sm1Ba2Cu3O7-Z Sm 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 90 94 92 1.8 4.44 "TRANSPORT CRITICAL CURRENT IN RARE-EARTH-SUBSTITUTED SUPERCONDUCTORS R(1)BA(2)CU(3)O(7-Z)(R=GD,DY,SM,HO,Y)" 1988 4 "CRITICAL CURRENT ,MAGNETIC FIELD" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,37(1988)5828" "R,BA,CU,O" 439 PRB0375828 HoBa2Cu3O7 Ho1Ba2Cu3O7-Z Ho 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 92 95 93.5 1.44 3.07 "TRANSPORT CRITICAL CURRENT IN RARE-EARTH-SUBSTITUTED SUPERCONDUCTORS R(1)BA(2)CU(3)O(7-Z)(R=GD,DY,SM,HO,Y)" 1988 4 "CRITICAL CURRENT ,MAGNETIC FIELD" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,37(1988)5828" "R,BA,CU,O" 440 PRB0375828 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 91 96 93.5 0.38 0.81 "TRANSPORT CRITICAL CURRENT IN RARE-EARTH-SUBSTITUTED SUPERCONDUCTORS R(1)BA(2)CU(3)O(7-Z)(R=GD,DY,SM,HO,Y)" 1988 4 "CRITICAL CURRENT ,MAGNETIC FIELD" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,37(1988)5828" "R,BA,CU,O" 441 PRB0375820 NdBa2Cu3O7 Nd1Ba2Cu3O7 Nd 1 Ba 2 Cu 3 O 7 1988 3.53 -36 Y123 3.873 3.906 11.73 K 88 88 EFFECT OF SULFUR ON THE SUPERCONDUCTIVITY OF R(1)BA(2)CU(3)O(7) 1988 4 "SULFUR ,SUSCEPTIBILITY ,STRUCTUR" "LABORATOIRE L.NEEL,FRANCE" "PHYS.REV.B,37(1988)5820" "R,BA,CU,O" 442 PRB0375820 "NdBa2Cu3(O,S)7" Nd1Ba2Cu3S1O6 Nd 1 Ba 2 Cu 3 S 1 O 6 1988 3.58 -40 Y123 3.879 11.69 K 69 69 EFFECT OF SULFUR ON THE SUPERCONDUCTIVITY OF R(1)BA(2)CU(3)O(7) 1988 4 "SULFUR ,SUSCEPTIBILITY ,STRUCTUR" "LABORATOIRE L.NEEL,FRANCE" "PHYS.REV.B,37(1988)5820" "R,BA,CU,O" 443 PRB0375820 "NdBa2Cu3(O,S)7" Nd1Ba2Cu3S1O5 Nd 1 Ba 2 Cu 3 S 1 O 5 1988 3.64 -57 Y123 3.897 11.69 K 56 56 EFFECT OF SULFUR ON THE SUPERCONDUCTIVITY OF R(1)BA(2)CU(3)O(7) 1988 4 "SULFUR ,SUSCEPTIBILITY ,STRUCTUR" "LABORATOIRE L.NEEL,FRANCE" "PHYS.REV.B,37(1988)5820" "R,BA,CU,O" 444 PRB0375820 EuBa2Cu3O7 Eu1Ba2Cu3O7 Eu 1 Ba 2 Cu 3 O 7 1988 3.05 -12 Y123 3.821 3.884 11.61 K 92 92 EFFECT OF SULFUR ON THE SUPERCONDUCTIVITY OF R(1)BA(2)CU(3)O(7) 1988 4 "SULFUR ,SUSCEPTIBILITY ,STRUCTUR" "LABORATOIRE L.NEEL,FRANCE" "PHYS.REV.B,37(1988)5820" "R,BA,CU,O" 445 PRB0375820 "EuBa2Cu3(O,S)7" Eu1Ba2Cu3S1O6 Eu 1 Ba 2 Cu 3 S 1 O 6 1988 Y123 3.884 11.65 K 85 85 EFFECT OF SULFUR ON THE SUPERCONDUCTIVITY OF R(1)BA(2)CU(3)O(7) 1988 4 "SULFUR ,SUSCEPTIBILITY ,STRUCTUR" "LABORATOIRE L.NEEL,FRANCE" "PHYS.REV.B,37(1988)5820" "R,BA,CU,O" 446 PRB0375820 GdBa2Cu3O7 Gd1Ba2Cu3O7 Gd 1 Ba 2 Cu 3 O 7 1988 8.03 Y123 3.844 3.897 11.7 K 92 92 EFFECT OF SULFUR ON THE SUPERCONDUCTIVITY OF R(1)BA(2)CU(3)O(7) 1988 4 "SULFUR ,SUSCEPTIBILITY ,STRUCTUR" "LABORATOIRE L.NEEL,FRANCE" "PHYS.REV.B,37(1988)5820" "R,BA,CU,O" 447 PRB0375820 "GdBa2Cu3(O,S)7" Gd1Ba2Cu3S1O6 Gd 1 Ba 2 Cu 3 S 1 O 6 1988 8.17 Y123 3.887 3.911 11.72 K 92 92 EFFECT OF SULFUR ON THE SUPERCONDUCTIVITY OF R(1)BA(2)CU(3)O(7) 1988 4 "SULFUR ,SUSCEPTIBILITY ,STRUCTUR" "LABORATOIRE L.NEEL,FRANCE" "PHYS.REV.B,37(1988)5820" "R,BA,CU,O" 448 JJP0271101 YBa2Cu3O7 Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 1988 Y123 K FRACTURE TOUGHNESS MEASUREMENTS OF BA(2)Y(1)CU(3)O(7-X) SUPERCONDUCTING OXIDE BY MEANS OF INDENTATION TECHNIQUE 1988 6 "FRACTURE TOUGHNESS ,HARDNESS" "DEPARTMENT OF METALLURGY,KYOTO UNIVERSITY,SAKYO-KU,KYOTO" "JJAP.LETT.,27(1988)L1101" "Y,BA,CU,O" 449 JJP0271094 Bi2Sr1.8Ca1.6Cu2.3OX Bi 2 Sr 1.8 Ca 1.6 Cu 2.3 O X 1988 K 440 0.36 7.3 ANISOTROPIC UPPER CRITICAL FIELDS OF HIGHLY ORIENTED BI-SR-CA-CU-O THIN FILMS PREPARED BY COEVAPORATION 1988 6 "THIN FILM ,COEVAPORATION ,CRITICAL" "FUNDAMENTAL RESEARCH LABORATORIES,KAWASAKI" "JJAP.LETT.,27(1988)L1094" "BI,SR,CA,CU,O" 450 PRB0375619 "K(Ta,Nb)O3" K1Ta0.992Nb0.008O3 K 1 Ta 0.992 Nb 0.008 O 3 1988 ABO3 K EXPERIMENTAL AND THEORETICAL STUDY OF THE RAMAN SPECTRUM IN K(1)TA(1-X)NB(X)O(3) SOLID SOLUTIONS 1988 4 RAMAN "CENTRE LORRAIN D'OPTIQUE ET D'ELECTRONIQUE DU SOLIDE,ECOLE SUPERIEURE D'ELECTRICITE,FRANCE" "PHYS.REV.B,37(1988)5619" "K,TA,NB,O" 451 PRB0375619 "K(Ta,Nb)O3" K1Ta0.988Nb0.012O3 K 1 Ta 0.988 Nb 0.012 O 3 1988 ABO3 K EXPERIMENTAL AND THEORETICAL STUDY OF THE RAMAN SPECTRUM IN K(1)TA(1-X)NB(X)O(3) SOLID SOLUTIONS 1988 4 RAMAN "CENTRE LORRAIN D'OPTIQUE ET D'ELECTRONIQUE DU SOLIDE,ECOLE SUPERIEURE D'ELECTRICITE,FRANCE" "PHYS.REV.B,37(1988)5619" "K,TA,NB,O" 452 PRB0375619 "K(Ta,Nb)O3" K1Ta0.98Nb0.02O3 K 1 Ta 0.98 Nb 0.02 O 3 1988 ABO3 K EXPERIMENTAL AND THEORETICAL STUDY OF THE RAMAN SPECTRUM IN K(1)TA(1-X)NB(X)O(3) SOLID SOLUTIONS 1988 4 RAMAN "CENTRE LORRAIN D'OPTIQUE ET D'ELECTRONIQUE DU SOLIDE,ECOLE SUPERIEURE D'ELECTRICITE,FRANCE" "PHYS.REV.B,37(1988)5619" "K,TA,NB,O" 453 PRB0375619 "K(Ta,Nb)O3" K1Ta0.91Nb0.09O3 K 1 Ta 0.91 Nb 0.09 O 3 1988 ABO3 K EXPERIMENTAL AND THEORETICAL STUDY OF THE RAMAN SPECTRUM IN K(1)TA(1-X)NB(X)O(3) SOLID SOLUTIONS 1988 4 RAMAN "CENTRE LORRAIN D'OPTIQUE ET D'ELECTRONIQUE DU SOLIDE,ECOLE SUPERIEURE D'ELECTRICITE,FRANCE" "PHYS.REV.B,37(1988)5619" "K,TA,NB,O" 454 PRB0375619 "K(Ta,Nb)O3" K1Ta0.79Nb0.21O3 K 1 Ta 0.79 Nb 0.21 O 3 1988 ABO3 K EXPERIMENTAL AND THEORETICAL STUDY OF THE RAMAN SPECTRUM IN K(1)TA(1-X)NB(X)O(3) SOLID SOLUTIONS 1988 4 RAMAN "CENTRE LORRAIN D'OPTIQUE ET D'ELECTRONIQUE DU SOLIDE,ECOLE SUPERIEURE D'ELECTRICITE,FRANCE" "PHYS.REV.B,37(1988)5619" "K,TA,NB,O" 455 PRB0375619 "K(Ta,Nb)O3" K1Ta0.64Nb0.36O3 K 1 Ta 0.64 Nb 0.36 O 3 1988 ABO3 K EXPERIMENTAL AND THEORETICAL STUDY OF THE RAMAN SPECTRUM IN K(1)TA(1-X)NB(X)O(3) SOLID SOLUTIONS 1988 4 RAMAN "CENTRE LORRAIN D'OPTIQUE ET D'ELECTRONIQUE DU SOLIDE,ECOLE SUPERIEURE D'ELECTRICITE,FRANCE" "PHYS.REV.B,37(1988)5619" "K,TA,NB,O" 456 PRB0375845 YBa2Cu3O7 Y1Ba2Cu3O6.54 Y 1 Ba 2 Cu 3 O X 6.54 1988 Y123 3.882 11.826 K STRUCTURE OF THE HIGH-TC SUPERCONDUCTOR BA(2)Y(1)CU(3)O(X) AT 750-C USING NEUTRON DIFFRACTION 1988 4 "CRYSTAL STRUCTURE ,NEUTRON DIFFRA" "INSTITUTE OF PHYSICS,ACADEMIA SINICA,CHINA" "PHYS.REV.B,37(1988)5845" "Y,BA,CU,O" 457 PRB0375901 YBa2Cu3O7 Y1Ba2Cu3O6.96 Y 1 Ba 2 Cu 3 O 7-Z 6.96 1988 Y123 K ANOMALOUS ULTRASOUND PROPAGATION IN HIGH-TC SUPERCONDUCTORS:LA(1.8)SR(0.2)CU(1)O(4-Y) AND Y(1)BA(2)CU(3)O(7-Z) 1988 4 "ATTENUATION ,SOUND VELOCITY" "CORPORATE RESEARCH SCIENCE LABORATORIES,EXXON RESEARCH AND ENGINEERING COMPANY,ANNANDALE,NEW JERSEY" "PHYS.REV.B,37(1988)5901" "LA,SR,CU,O,Y,BA,CU,O" 458 PRB0375901 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O3.95 La 1.8 Sr 0.2 Cu 1 O 4-Z 3.95 1988 T K ANOMALOUS ULTRASOUND PROPAGATION IN HIGH-TC SUPERCONDUCTORS:LA(1.8)SR(0.2)CU(1)O(4-Y) AND Y(1)BA(2)CU(3)O(7-Z) 1988 4 "ATTENUATION ,SOUND VELOCITY" "CORPORATE RESEARCH SCIENCE LABORATORIES,EXXON RESEARCH AND ENGINEERING COMPANY,ANNANDALE,NEW JERSEY" "PHYS.REV.B,37(1988)5901" "LA,SR,CU,O,Y,BA,CU,O" 459 JJP0271080 YBa2Cu3O7 Y1Ba2Cu3O6.89 Y 1 Ba 2 Cu 3 O 6.89 6.89 1988 Y123 K 92 92 EFFECTS OF SULFUR ADDITION ON THE SUPERCONDUCTIVITY OF Y-BA-CU-O COMPOUND 1988 6 "TRANSITION TEMPERATURE ,CRITICAL CURRENT ,X-RAY" "GOVERNMENT INDUSTRIAL RESEARCH INSTITUTE,OSAKA" "JJAP.LETT.,27(1988)L1080" "Y,BA,CU,O" 460 JJP0271080 "YBa2Cu3(O,S)7" Y1Ba2Cu3S0.03O7.12 Y 1 Ba 2 Cu 3 S 0.03 O 7.12 7.12 1988 Y123 K 90 90 EFFECTS OF SULFUR ADDITION ON THE SUPERCONDUCTIVITY OF Y-BA-CU-O COMPOUND 1988 6 "TRANSITION TEMPERATURE ,CRITICAL CURRENT ,X-RAY" "GOVERNMENT INDUSTRIAL RESEARCH INSTITUTE,OSAKA" "JJAP.LETT.,27(1988)L1080" "Y,BA,CU,O" 461 JJP0271080 "YBa2Cu3(O,S)7" Y1Ba2Cu3S0.06O7.23 Y 1 Ba 2 Cu 3 S 0.06 O 7.23 7.23 1988 Y123 K 89 89 EFFECTS OF SULFUR ADDITION ON THE SUPERCONDUCTIVITY OF Y-BA-CU-O COMPOUND 1988 6 "TRANSITION TEMPERATURE ,CRITICAL CURRENT ,X-RAY" "GOVERNMENT INDUSTRIAL RESEARCH INSTITUTE,OSAKA" "JJAP.LETT.,27(1988)L1080" "Y,BA,CU,O" 462 JJP0271080 "YBa2Cu3(O,S)7" Y1Ba2Cu3S0.12O7.28 Y 1 Ba 2 Cu 3 S 0.12 O 7.28 7.28 1988 Y123 K 89 89 EFFECTS OF SULFUR ADDITION ON THE SUPERCONDUCTIVITY OF Y-BA-CU-O COMPOUND 1988 6 "TRANSITION TEMPERATURE ,CRITICAL CURRENT ,X-RAY" "GOVERNMENT INDUSTRIAL RESEARCH INSTITUTE,OSAKA" "JJAP.LETT.,27(1988)L1080" "Y,BA,CU,O" 463 SSC0661215 YBa2Cu3O7 Y1Ba2Cu3OY Y 1 Ba 2 Cu 3 O Y 1988 Y123 3.813 3.882 11.656 K 91.9 91.9 ELECTRONIC STATE AND SUPERCONDUCTIVITY IN Y(1)BA(2)CU(3-X)ZN(X)O(Y) SYSTEM 1988 6 "X-RAY ,RES ,HALL EFF" "DEPARTMENT OF PHYSICS,UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,P.R.CHINA" "SOLID STATE COMMUN.,66(1988)1215" "Y,BA,CU,ZN,O" 464 SSC0661215 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.975Zn0.025OY Y 1 Ba 2 Cu 2.975 Zn 0.025 O Y 1988 Y123 3.809 3.882 11.653 K 82.8 82.8 ELECTRONIC STATE AND SUPERCONDUCTIVITY IN Y(1)BA(2)CU(3-X)ZN(X)O(Y) SYSTEM 1988 6 "X-RAY ,RES ,HALL EFF" "DEPARTMENT OF PHYSICS,UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,P.R.CHINA" "SOLID STATE COMMUN.,66(1988)1215" "Y,BA,CU,ZN,O" 465 SSC0661215 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.95Zn0.05OY Y 1 Ba 2 Cu 2.95 Zn 0.05 O Y 1988 Y123 3.805 3.876 11.626 K 74.7 74.7 ELECTRONIC STATE AND SUPERCONDUCTIVITY IN Y(1)BA(2)CU(3-X)ZN(X)O(Y) SYSTEM 1988 6 "X-RAY ,RES ,HALL EFF" "DEPARTMENT OF PHYSICS,UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,P.R.CHINA" "SOLID STATE COMMUN.,66(1988)1215" "Y,BA,CU,ZN,O" 466 SSC0661215 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.925Zn0.075OY Y 1 Ba 2 Cu 2.925 Zn 0.075 O Y 1988 Y123 3.815 3.888 11.663 K 64.9 64.9 ELECTRONIC STATE AND SUPERCONDUCTIVITY IN Y(1)BA(2)CU(3-X)ZN(X)O(Y) SYSTEM 1988 6 "X-RAY ,RES ,HALL EFF" "DEPARTMENT OF PHYSICS,UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,P.R.CHINA" "SOLID STATE COMMUN.,66(1988)1215" "Y,BA,CU,ZN,O" 467 SSC0661215 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.9Zn0.1OY Y 1 Ba 2 Cu 2.9 Zn 0.1 O Y 1988 Y123 3.816 3.884 11.644 K 57.6 57.6 ELECTRONIC STATE AND SUPERCONDUCTIVITY IN Y(1)BA(2)CU(3-X)ZN(X)O(Y) SYSTEM 1988 6 "X-RAY ,RES ,HALL EFF" "DEPARTMENT OF PHYSICS,UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,P.R.CHINA" "SOLID STATE COMMUN.,66(1988)1215" "Y,BA,CU,ZN,O" 468 SSC0661215 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.85Zn0.15OY Y 1 Ba 2 Cu 2.85 Zn 0.15 O Y 1988 Y123 3.816 3.887 11.666 K 56 56 ELECTRONIC STATE AND SUPERCONDUCTIVITY IN Y(1)BA(2)CU(3-X)ZN(X)O(Y) SYSTEM 1988 6 "X-RAY ,RES ,HALL EFF" "DEPARTMENT OF PHYSICS,UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,P.R.CHINA" "SOLID STATE COMMUN.,66(1988)1215" "Y,BA,CU,ZN,O" 469 SSC0661215 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.8Zn0.2OY Y 1 Ba 2 Cu 2.8 Zn 0.2 O Y 1988 Y123 3.818 3.885 11.651 K 56.5 56.5 ELECTRONIC STATE AND SUPERCONDUCTIVITY IN Y(1)BA(2)CU(3-X)ZN(X)O(Y) SYSTEM 1988 6 "X-RAY ,RES ,HALL EFF" "DEPARTMENT OF PHYSICS,UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,P.R.CHINA" "SOLID STATE COMMUN.,66(1988)1215" "Y,BA,CU,ZN,O" 470 SSC0661215 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.7Zn0.3OY Y 1 Ba 2 Cu 2.7 Zn 0.3 O Y 1988 Y123 3.825 3.885 11.644 K 47.6 47.6 ELECTRONIC STATE AND SUPERCONDUCTIVITY IN Y(1)BA(2)CU(3-X)ZN(X)O(Y) SYSTEM 1988 6 "X-RAY ,RES ,HALL EFF" "DEPARTMENT OF PHYSICS,UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,P.R.CHINA" "SOLID STATE COMMUN.,66(1988)1215" "Y,BA,CU,ZN,O" 471 JJP0271307 GdBa2Cu3O7 Gd1Ba2Cu3O6.9 Gd 1 Ba 2 Cu 3 O Z 6.9 1988 7.79 Y123 K 92 92 "MAGNETIC PROPERTIES OF GD(1)BA(2)CU(2.7)M(0.3)O(Y) (M=CU,FE AND CO): MAGNETIC ORDERING OF M IN CU(1) SITE" 1988 7 "MAGNETIZATION ,SUSCEPTIBILITY" "ELECTROTECHNICAL LABORATORY,TSUKUBA" "JJAP.LETT.,27(1988)L1307" "GD,BA,CU,M,O" 472 JJP0271307 GdBa2Cu3O7 Gd1Ba2Cu3O6.3 Gd 1 Ba 2 Cu 3 O Z 6.3 1988 7.82 2.35 2 Y123 3.886 11.808 K "MAGNETIC PROPERTIES OF GD(1)BA(2)CU(2.7)M(0.3)O(Y) (M=CU,FE AND CO): MAGNETIC ORDERING OF M IN CU(1) SITE" 1988 7 "MAGNETIZATION ,SUSCEPTIBILITY" "ELECTROTECHNICAL LABORATORY,TSUKUBA" "JJAP.LETT.,27(1988)L1307" "GD,BA,CU,M,O" 473 JJP0271307 "GdBa2(Cu,Fe)3O7" Gd1Ba2Cu2.7Fe0.3O6.9 Gd 1 Ba 2 Cu 2.7 Fe 0.3 O Z 6.9 1988 Y123 K 41 41 "MAGNETIC PROPERTIES OF GD(1)BA(2)CU(2.7)M(0.3)O(Y) (M=CU,FE AND CO): MAGNETIC ORDERING OF M IN CU(1) SITE" 1988 7 "MAGNETIZATION ,SUSCEPTIBILITY" "ELECTROTECHNICAL LABORATORY,TSUKUBA" "JJAP.LETT.,27(1988)L1307" "GD,BA,CU,M,O" 474 JJP0271307 "GdBa2(Cu,Fe)3O7" Gd1Ba2Cu2.7Fe0.3O6.3 Gd 1 Ba 2 Cu 2.7 Fe 0.3 O Z 6.3 1988 8.29 2.3 2 Y123 3.892 11.778 K "MAGNETIC PROPERTIES OF GD(1)BA(2)CU(2.7)M(0.3)O(Y) (M=CU,FE AND CO): MAGNETIC ORDERING OF M IN CU(1) SITE" 1988 7 "MAGNETIZATION ,SUSCEPTIBILITY" "ELECTROTECHNICAL LABORATORY,TSUKUBA" "JJAP.LETT.,27(1988)L1307" "GD,BA,CU,M,O" 475 JJP0271307 "GdBa2(Cu,Co)3O7" Gd1Ba2Cu2.7Co0.3O6.9 Gd 1 Ba 2 Cu 2.7 Co 0.3 O Z 6.9 1988 8.07 2 Y123 K 33 33 "MAGNETIC PROPERTIES OF GD(1)BA(2)CU(2.7)M(0.3)O(Y) (M=CU,FE AND CO): MAGNETIC ORDERING OF M IN CU(1) SITE" 1988 7 "MAGNETIZATION ,SUSCEPTIBILITY" "ELECTROTECHNICAL LABORATORY,TSUKUBA" "JJAP.LETT.,27(1988)L1307" "GD,BA,CU,M,O" 476 JJP0271307 "GdBa2(Cu,Co)3O7" Gd1Ba2Cu2.7Co0.3O6.3 Gd 1 Ba 2 Cu 2.7 Co 0.3 O Z 6.3 1988 8.04 2.25 2 3.892 11.76 K "MAGNETIC PROPERTIES OF GD(1)BA(2)CU(2.7)M(0.3)O(Y) (M=CU,FE AND CO): MAGNETIC ORDERING OF M IN CU(1) SITE" 1988 7 "MAGNETIZATION ,SUSCEPTIBILITY" "ELECTROTECHNICAL LABORATORY,TSUKUBA" "JJAP.LETT.,27(1988)L1307" "GD,BA,CU,M,O" 477 PRB0380889 YBa2Cu3O7 Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 7-Z 6.9 1988 Y123 3.846 3.883 11.661 K 91 91 ANOMALOUS VARIATION OF THE C LATTICE PARAMETER OF A SAMPLE OF Y(1)BA(2)CU(3)O(7-Z) THROUGH THE SUPERCONDUCTING TRANSITION 1988 7 "LATTICE CONSTANT ,X-RAY" "LOW TEMPERATURE LABORATORY,DEPARTMENT OF PHYSICS,INDIAN INSTITUTE OF TECHNOLOGY,MADRAS,INDIA" "PHYS.REV.B,38(1988)889" "Y,BA,CU,O" 478 PRB0380893 Bi2Sr2CaCu2O8 Bi2.2Sr2Ca0.8Cu2O8+Z Bi 2.2 Sr 2 Ca 0.8 Cu 2 O 8+Z 1988 Bi2212 5.414 5.418 30.89 K 84 90 87 0.04 0.13 STRUCTURE AND PHYSICAL PROPERTIES OF SINGLE CRYSTALS OF THE 84-K SUPERCONDUCTOR BI(2.2)SR(2)CA(0.8)CU(2)O(8+Z) 1988 7 "SINGLE CRYSTAL ,X-RAY ,SUSCEPTIBILITY ,RESISTIVITY" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,38(1988)893" "BI,SR,CA,CU,O" 479 PRB0380893 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.5Ni0.5O7 Y 1 Ba 2 Cu 2.5 Ni 0.5 O 7 1988 0.87 -4 Y123 3.82 3.883 11.647 K 52.3 52.3 2.5 STRUCTURE AND PHYSICAL PROPERTIES OF SINGLE CRYSTALS OF THE 84-K SUPERCONDUCTOR BI(2.2)SR(2)CA(0.8)CU(2)O(8+Z) 1988 7 "SINGLE CRYSTAL ,X-RAY ,SUSCEPTIBILITY ,RESISTIVITY" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,38(1988)893" "BI,SR,CA,CU,O" 480 PHF0180095 "La(Ba,La)2Cu3O7" La3Ba3Cu6O14.37 La 3 Ba 3 Cu 6 O X 14.37 1988 Y123 3.9 11.696 K "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 481 PHF0180095 "La(Ba,La)2Cu3O7" La2.8Ba3.2Cu6O14.07 La 2.8 Ba 3.2 Cu 6 O X 14.07 1988 Y123 3.902 11.713 K 13 13 "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 482 PHF0180095 "La(Ba,La)2Cu3O7" La2.6Ba3.4Cu6O14.06 La 2.6 Ba 3.4 Cu 6 O X 14.06 1988 Y123 3.903 11.714 K 26 26 "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 483 PHF0180095 "La(Ba,La)2Cu3O7" La2.4Ba3.6Cu6O14.01 La 2.4 Ba 3.6 Cu 6 O X 14.01 1988 Y123 3.904 11.738 K 39 39 "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 484 PHF0180095 "La(Ba,La)2Cu3O7" La2.2Ba3.8Cu6O13.86 La 2.2 Ba 3.8 Cu 6 O X 13.86 1988 Y123 3.905 11.758 K 52 52 "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 485 PHF0180095 LaBa2Cu3O7 La2Ba4Cu6O13.8 La 2 Ba 4 Cu 6 O X 13.8 1988 Y123 3.909 11.78 K 65 65 "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 486 PHF0180095 Y1La2Ba3Cu6O14.53 Y 1 La 2 Ba 3 Cu 6 O X 14.53 1988 3.861 11.603 K 25.6 25.6 "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 487 PHF0180095 Y1La1.8Ba3.2Cu6O14.49 Y 1 La 1.8 Ba 3.2 Cu 6 O X 14.49 1988 Y123 3.875 11.645 K 41.9 41.9 "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 488 PHF0180095 Y1La1.6Ba3.4Cu6O14.38 Y 1 La 1.6 Ba 3.4 Cu 6 O X 14.38 1988 Y123 3.844 3.877 11.673 K 53.1 53.1 "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 489 PHF0180095 Y1La1.4Ba3.6Cu6O14.2 Y 1 La 1.4 Ba 3.6 Cu 6 O X 14.2 1988 Y123 3.873 3.882 11.668 K 64 64 "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 490 PHF0180095 Y1La1.2Ba3.8Cu6O14.07 Y 1 La 1.2 Ba 3.8 Cu 6 O X 14.07 1988 3 Y123 3.852 3.861 11.682 K 70.4 70.4 "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 491 PHF0180095 Y1La1Ba4Cu6O13.95 Y 1 La 1 Ba 4 Cu 6 O X 13.95 1988 3 Y123 3.853 3.863 11.687 K 72.2 72.2 "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 492 PHF0180095 Y2La2Ba2Cu6O14.45 Y 2 La 2 Ba 2 Cu 6 O X 14.45 1988 Y123 K "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 493 PHF0180095 Y2La1.8Ba2.2Cu6O14.54 Y 2 La 1.8 Ba 2.2 Cu 6 O X 14.54 1988 Y123 3.835 3.864 11.622 K "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 494 PHF0180095 Y2La1.6Ba2.4Cu6O14.39 Y 2 La 1.6 Ba 2.4 Cu 6 O X 14.39 1988 Y123 3.846 3.869 11.634 K "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 495 PHF0180095 Y2La1.4Ba2.6Cu6O14.42 Y 2 La 1.4 Ba 2.6 Cu 6 O X 14.42 1988 Y123 3.821 3.839 11.619 K "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 496 PHF0180095 Y2La1.2Ba2.8Cu6O14.27 Y 2 La 1.2 Ba 2.8 Cu 6 O X 14.27 1988 Y123 3.832 3.843 11.574 K "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 497 PHF0180095 Y2La1Ba3Cu6O14.17 Y 2 La 1 Ba 3 Cu 6 O X 14.17 1988 Y123 3.84 3.849 11.569 K 28 28 "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 498 PHF0180095 Y2La0.8Ba3.2Cu6O14.2 Y 2 La 0.8 Ba 3.2 Cu 6 O X 14.2 1988 Y123 3.848 11.567 K 46 46 "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 499 PHF0180095 Y2La0.6Ba3.4Cu6O14.02 Y 2 La 0.6 Ba 3.4 Cu 6 O X 14.02 1988 Y123 3.87 11.647 K 60 60 "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 500 PHF0180095 Y2La0.4Ba3.6Cu6O13.91 Y 2 La 0.4 Ba 3.6 Cu 6 O X 13.91 1988 Y123 3.812 3.874 11.624 K 78 78 "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 501 PHF0180095 Y2La0.2Ba3.8Cu6O13.92 Y 2 La 0.2 Ba 3.8 Cu 6 O X 13.92 1988 Y123 3.81 3.876 11.64 K 93 93 "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 502 PHF0180095 Y2La0.15Ba3.85Cu6O13.99 Y 2 La 0.15 Ba 3.85 Cu 6 O X 13.99 1988 Y123 K 93.2 93.2 "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 503 PHF0180095 Y2La0.1Ba3.9Cu6O13.94 Y 2 La 0.1 Ba 3.9 Cu 6 O X 13.94 1988 Y123 K 90 90 "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 504 PHF0180095 YBa2Cu3O7 Y2Ba4Cu6O13.9 Y 2 Ba 4 Cu 6 O X 13.9 1988 Y123 3.817 3.884 11.666 K 93 93 "SUPERCONDUCTIVITY IN THE SOLID SOLUTIONS Y(N)LA(2-N+X)BA(4-X)CU(6)O(14+Y) (N=0,1,2)" 1988 6 "FABRICATION ,SOLID SOLUTION ,RESISTIV" "DEPARTMENT OF CHEMISTRY,THE UNIVERSITY,SOUTHAMPTON,UK" "J.PHYS.F,18(1988)95" "Y,LA,BA,CU,O" 505 PRB0373734 YBa2Cu3O7 Y1Ba2Cu3O6.94 Y 1 Ba 2 Cu 3 O X 6.94 1988 Y123 3.824 3.89 11.679 K 97 97 EVIDENCE FOR PEROXIDE FORMATION IN SUPERCONDUCTING Y(1)BA(2-X)LA(X)CU(3)O(7+-Z) 1988 3 "OXYGEN CONTENT ,LATTICE CONSTANT ,RESISTIVITY ,ST" "CENTER FOR MATERIALS SCIENCE AND ENGINEERING,ETC,TEXAS" "PHYS.REV.B,37(1988)3734" "Y,BA,LA,CU,O" 506 PRB0373734 "Y(Ba,La)2Cu3O7" Y1Ba1.975La0.025Cu3O6.95 Y 1 Ba 1.975 La 0.025 Cu 3 O X 6.95 1988 Y123 3.82 3.889 11.67 K 99 99 EVIDENCE FOR PEROXIDE FORMATION IN SUPERCONDUCTING Y(1)BA(2-X)LA(X)CU(3)O(7+-Z) 1988 3 "OXYGEN CONTENT ,LATTICE CONSTANT ,RESISTIVITY ,ST" "CENTER FOR MATERIALS SCIENCE AND ENGINEERING,ETC,TEXAS" "PHYS.REV.B,37(1988)3734" "Y,BA,LA,CU,O" 507 PRB0373734 "Y(Ba,La)2Cu3O7" Y1Ba1.95La0.05Cu3O6.9 Y 1 Ba 1.95 La 0.05 Cu 3 O X 6.9 1988 Y123 3.821 3.889 11.672 K 99 99 EVIDENCE FOR PEROXIDE FORMATION IN SUPERCONDUCTING Y(1)BA(2-X)LA(X)CU(3)O(7+-Z) 1988 3 "OXYGEN CONTENT ,LATTICE CONSTANT ,RESISTIVITY ,ST" "CENTER FOR MATERIALS SCIENCE AND ENGINEERING,ETC,TEXAS" "PHYS.REV.B,37(1988)3734" "Y,BA,LA,CU,O" 508 PRB0373734 "Y(Ba,La)2Cu3O7" Y1Ba1.925La0.075Cu3O6.9 Y 1 Ba 1.925 La 0.075 Cu 3 O X 6.9 1988 Y123 3.827 3.885 11.659 K 99 99 EVIDENCE FOR PEROXIDE FORMATION IN SUPERCONDUCTING Y(1)BA(2-X)LA(X)CU(3)O(7+-Z) 1988 3 "OXYGEN CONTENT ,LATTICE CONSTANT ,RESISTIVITY ,ST" "CENTER FOR MATERIALS SCIENCE AND ENGINEERING,ETC,TEXAS" "PHYS.REV.B,37(1988)3734" "Y,BA,LA,CU,O" 509 PRB0373734 "Y(Ba,La,)2Cu3O7" Y1Ba1.9La0.1Cu3O6.9 Y 1 Ba 1.9 La 0.1 Cu 3 O X 6.9 1988 Y123 3.83 3.883 11.653 K 95 95 EVIDENCE FOR PEROXIDE FORMATION IN SUPERCONDUCTING Y(1)BA(2-X)LA(X)CU(3)O(7+-Z) 1988 3 "OXYGEN CONTENT ,LATTICE CONSTANT ,RESISTIVITY ,ST" "CENTER FOR MATERIALS SCIENCE AND ENGINEERING,ETC,TEXAS" "PHYS.REV.B,37(1988)3734" "Y,BA,LA,CU,O" 510 PRB0373734 "Y(Ba,La)2Cu3O7" Y1Ba1.8La0.2Cu3O6.95 Y 1 Ba 1.8 La 0.2 Cu 3 O X 6.95 1988 Y123 3.839 3.872 11.618 K 78 78 EVIDENCE FOR PEROXIDE FORMATION IN SUPERCONDUCTING Y(1)BA(2-X)LA(X)CU(3)O(7+-Z) 1988 3 "OXYGEN CONTENT ,LATTICE CONSTANT ,RESISTIVITY ,ST" "CENTER FOR MATERIALS SCIENCE AND ENGINEERING,ETC,TEXAS" "PHYS.REV.B,37(1988)3734" "Y,BA,LA,CU,O" 511 PRB0373734 "Y(Ba,La)2Cu3O7" Y1Ba1.7La0.3Cu3O7 Y 1 Ba 1.7 La 0.3 Cu 3 O X 7 1988 Y123 3.858 3.859 11.582 K 67 67 EVIDENCE FOR PEROXIDE FORMATION IN SUPERCONDUCTING Y(1)BA(2-X)LA(X)CU(3)O(7+-Z) 1988 3 "OXYGEN CONTENT ,LATTICE CONSTANT ,RESISTIVITY ,ST" "CENTER FOR MATERIALS SCIENCE AND ENGINEERING,ETC,TEXAS" "PHYS.REV.B,37(1988)3734" "Y,BA,LA,CU,O" 512 PRB0373734 "Y(Ba,La)2Cu3O7" Y1Ba1.6La0.4Cu3O7.05 Y 1 Ba 1.6 La 0.4 Cu 3 O X 7.05 1988 Y123 3.858 3.858 11.58 K 52 52 EVIDENCE FOR PEROXIDE FORMATION IN SUPERCONDUCTING Y(1)BA(2-X)LA(X)CU(3)O(7+-Z) 1988 3 "OXYGEN CONTENT ,LATTICE CONSTANT ,RESISTIVITY ,ST" "CENTER FOR MATERIALS SCIENCE AND ENGINEERING,ETC,TEXAS" "PHYS.REV.B,37(1988)3734" "Y,BA,LA,CU,O" 513 PRB0373734 "Y(Ba,La)2Cu3O7" Y1Ba1.5La0.5Cu3O7.08 Y 1 Ba 1.5 La 0.5 Cu 3 O X 7.08 1988 Y123 3.858 11.572 K 38 38 EVIDENCE FOR PEROXIDE FORMATION IN SUPERCONDUCTING Y(1)BA(2-X)LA(X)CU(3)O(7+-Z) 1988 3 "OXYGEN CONTENT ,LATTICE CONSTANT ,RESISTIVITY ,ST" "CENTER FOR MATERIALS SCIENCE AND ENGINEERING,ETC,TEXAS" "PHYS.REV.B,37(1988)3734" "Y,BA,LA,CU,O" 514 SSC0670521 GdBa2Cu3O7 Gd1Ba2Cu3OX Gd 1 Ba 2 Cu 3 O X 1988 7.89 3.4 Y123 3.838 3.9 11.699 K 89 89 SUPERCONDUCTING AND MAGNETIC STUDIES ON GDBA2(CU1-XFEX)3O7+Z OXIDE SYSTEM 1988 SOLID STATE COMMUN.67(1988)521 "GD,BA,CU,FE,O" 515 SSC0670521 "GdBa2(Cu,Fe)3O7" Gd1Ba2Cu2.925Fe0.075OX Gd 1 Ba 2 Cu 2.925 Fe 0.075 O X 1988 8.08 1.8 Y123 3.871 3.897 11.684 K 64 64 SUPERCONDUCTING AND MAGNETIC STUDIES ON GDBA2(CU1-XFEX)3O7+Z OXIDE SYSTEM 1988 SOLID STATE COMMUN.67(1988)521 "GD,BA,CU,FE,O" 516 SSC0670521 "GdBa2(Cu,Fe)3O7" Gd1Ba2Cu2.85Fe0.15OX Gd 1 Ba 2 Cu 2.85 Fe 0.15 O X 1988 8.13 -4.3 Y123 3.874 3.891 11.67 K 47 47 SUPERCONDUCTING AND MAGNETIC STUDIES ON GDBA2(CU1-XFEX)3O7+Z OXIDE SYSTEM 1988 SOLID STATE COMMUN.67(1988)521 "GD,BA,CU,FE,O" 517 SSC0670521 "GdBa2(Cu,Fe)3O7" Gd1Ba2Cu2.775Fe0.225OX Gd 1 Ba 2 Cu 2.775 Fe 0.225 O X 1988 8.18 -3.8 Y123 3.884 3.884 11.661 K 33 33 SUPERCONDUCTING AND MAGNETIC STUDIES ON GDBA2(CU1-XFEX)3O7+Z OXIDE SYSTEM 1988 SOLID STATE COMMUN.67(1988)521 "GD,BA,CU,FE,O" 518 SSC0670521 "GdBa2(Cu,Fe)3O7" Gd1Ba2Cu2.7Fe0.3OX Gd 1 Ba 2 Cu 2.7 Fe 0.3 O X 1988 8.23 2.7 Y123 3.882 3.886 11.652 K 11 11 SUPERCONDUCTING AND MAGNETIC STUDIES ON GDBA2(CU1-XFEX)3O7+Z OXIDE SYSTEM 1988 SOLID STATE COMMUN.67(1988)521 "GD,BA,CU,FE,O" 519 SSC0640209 YBa2Cu3O7 Y1Ba2Cu3OX Y 1 Ba 2 Cu 3 O X 1987 Y123 K 92 92 3.036 21 400 SPECIFIC HEAT STUDIES OF HIGH-T(C) SUPERCONDUCTOR Y(1)BA(2)CU(3)0(7-X) 1987 "SPECIFIC HEAT ,SUS ,RES" "NATIONAL INSTITUTE OF METROLOGY,BEIJING,CHINA" "SOLID STATE COMMUN.,64(1987)209" "Y,BA,CU,O" 520 SSC0640247 YBa2Cu3O7 Y1Ba2Cu3OX Y 1 Ba 2 Cu 3 O X 1987 Y123 K 93 93 2 6.417 33 383 THERMAL AND MAGNETIC PROPERTIES OF SOME YBA2CU3O7-Z SAMPLES 1987 SOLID STATE COMMUN.64(1987)247 "Y,BA,CU,O" 521 PRB0362401 YBa2Cu3O7 Y1Ba2Cu3OX Y 1 Ba 2 Cu 3 O X 1987 Y123 K 90.1 91.6 91.6 4.129 37.3 440 MEASUREMENT OF THE SPECIFIC-HEAT ANOMALY AT THE SUPERCONDUCTING TRANSITION OF Y(1)BA(2)CU(3)O(7-Z) 1987 8 "SPECIFIC HEAT ,SUSCEPTIBILITY ,SP ,SUS" "DEPARTMENT OF PHYSICS AND MATERIALS RESEARCH LABORATORY,UNIVERSITY OF ILLINOIS AT URBANA-CHAMPAIGN,URBANA,ILLINOIS" "PHYS.REV.B,36(1987)2401" "Y,BA,CU,O" 522 SSC0661085 LaBa2Cu3O7 La1Ba2Cu3OX La 1 Ba 2 Cu 3 O X 1988 Y123 3.913 11.617 K 34.5 34.5 RAMAN STUDIES ON LA(1)BA(2-X)CA(X)CU(3)O(Y) SYSTEM 1988 6 RAMAN "DEPARTMENT OF PHYSICS,PEKING UNIVERSITY BEIJING,CHINA" "SOLID STATE COMMUN.,66(1988)1085" "LA,BA,CA,CU,O" 523 SSC0661085 "La(Ba,Ca)2Cu3O7" La1Ba1.75Ca0.25Cu3OX La 1 Ba 1.75 Ca 0.25 Cu 3 O X 1988 Y123 3.885 3.892 11.54 K 71.7 71.7 RAMAN STUDIES ON LA(1)BA(2-X)CA(X)CU(3)O(Y) SYSTEM 1988 6 RAMAN "DEPARTMENT OF PHYSICS,PEKING UNIVERSITY BEIJING,CHINA" "SOLID STATE COMMUN.,66(1988)1085" "LA,BA,CA,CU,O" 524 SSC0661085 "La(Ba,Ca)2Cu3O7" La1Ba1.25Ca0.75Cu3OX La 1 Ba 1.25 Ca 0.75 Cu 3 O X 1988 Y123 3.858 3.875 11.488 K 78.2 78.2 RAMAN STUDIES ON LA(1)BA(2-X)CA(X)CU(3)O(Y) SYSTEM 1988 6 RAMAN "DEPARTMENT OF PHYSICS,PEKING UNIVERSITY BEIJING,CHINA" "SOLID STATE COMMUN.,66(1988)1085" "LA,BA,CA,CU,O" 525 SSC0661085 "La(Ba,Ca)2Cu3O7" La1Ba1Ca1Cu3OX La 1 Ba 1 Ca 1 Cu 3 O X 1988 Y123 3.827 3.844 11.474 K 80 80 RAMAN STUDIES ON LA(1)BA(2-X)CA(X)CU(3)O(Y) SYSTEM 1988 6 RAMAN "DEPARTMENT OF PHYSICS,PEKING UNIVERSITY BEIJING,CHINA" "SOLID STATE COMMUN.,66(1988)1085" "LA,BA,CA,CU,O" 526 SSC0661085 "La(Ba,Ca)2Cu3O7" La1Ba0.5Ca1.5Cu3OX La 1 Ba 0.5 Ca 1.5 Cu 3 O X 1988 Y123 3.846 3.865 11.476 K 36.7 36.7 RAMAN STUDIES ON LA(1)BA(2-X)CA(X)CU(3)O(Y) SYSTEM 1988 6 RAMAN "DEPARTMENT OF PHYSICS,PEKING UNIVERSITY BEIJING,CHINA" "SOLID STATE COMMUN.,66(1988)1085" "LA,BA,CA,CU,O" 527 SSC0661079 EuBa2Cu3O7 Eu1Ba2Cu3OX Eu 1 Ba 2 Cu 3 O X 1988 3 Y123 3.845 3.903 11.71 K CRYSTAL-FIELD EFFECT ON MAGNETIC SUSCEPTIBILITY OF EU(1)BA(2)CU(3)O(Y) 1988 6 "SUSCEPTIBILITY ,SINGLE CRYSTAL ,CRYSTAL" "ELECTROTECHNICAL LABORATORY,TSUKUBA,IBARAKI" "SOLID STATE COMMUN.,66(1988)1079" "EU,BA,CU,O" 528 SSC0661079 EuBa2Cu3O7 Eu1Ba2Cu3OX Eu 1 Ba 2 Cu 3 O X 1988 2 Y123 3.885 11.79 K CRYSTAL-FIELD EFFECT ON MAGNETIC SUSCEPTIBILITY OF EU(1)BA(2)CU(3)O(Y) 1988 6 "SUSCEPTIBILITY ,SINGLE CRYSTAL ,CRYSTAL" "ELECTROTECHNICAL LABORATORY,TSUKUBA,IBARAKI" "SOLID STATE COMMUN.,66(1988)1079" "EU,BA,CU,O" 529 PRB0375932 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.8Co0.2O7.04 Y 1 Ba 2 Cu 2.8 Co 0.2 O X 7.04 1988 Y123 K 53 53 ROLE OF BOND LENGTHS IN THE 90-K SUPERCONDUCTOR: A NEUTRON POWDER-DIFFRACTION STUDY OF Y(1)BA(2)CU(3-X)CO(X)O(7-Y) 1988 4 "NEUTRON DIFFRACTION ,CU-O BOND" "BELL COMMUNICATIONS RESEARCH,RED BANK,NEW JERSEY" "PHYS.REV.B,37(1988)5932" "Y,BA,CU,CO,O" 530 PRB0375932 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.8Co0.2O6.45 Y 1 Ba 2 Cu 2.8 Co 0.2 O X 6.45 1988 Y123 K ROLE OF BOND LENGTHS IN THE 90-K SUPERCONDUCTOR: A NEUTRON POWDER-DIFFRACTION STUDY OF Y(1)BA(2)CU(3-X)CO(X)O(7-Y) 1988 4 "NEUTRON DIFFRACTION ,CU-O BOND" "BELL COMMUNICATIONS RESEARCH,RED BANK,NEW JERSEY" "PHYS.REV.B,37(1988)5932" "Y,BA,CU,CO,O" 531 PRB0375932 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.2Co0.8O7.3 Y 1 Ba 2 Cu 2.2 Co 0.8 O X 7.3 1988 Y123 K ROLE OF BOND LENGTHS IN THE 90-K SUPERCONDUCTOR: A NEUTRON POWDER-DIFFRACTION STUDY OF Y(1)BA(2)CU(3-X)CO(X)O(7-Y) 1988 4 "NEUTRON DIFFRACTION ,CU-O BOND" "BELL COMMUNICATIONS RESEARCH,RED BANK,NEW JERSEY" "PHYS.REV.B,37(1988)5932" "Y,BA,CU,CO,O" 532 PRB0375932 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.2Co0.8O6.91 Y 1 Ba 2 Cu 2.2 Co 0.8 O X 6.91 1988 Y123 K ROLE OF BOND LENGTHS IN THE 90-K SUPERCONDUCTOR: A NEUTRON POWDER-DIFFRACTION STUDY OF Y(1)BA(2)CU(3-X)CO(X)O(7-Y) 1988 4 "NEUTRON DIFFRACTION ,CU-O BOND" "BELL COMMUNICATIONS RESEARCH,RED BANK,NEW JERSEY" "PHYS.REV.B,37(1988)5932" "Y,BA,CU,CO,O" 533 JJP0271094 Bi2Sr2Ca2Cu3O Bi 2 Sr 2 Ca 2 Cu 3 O 1988 K 103 111 115 111 500 0.34 7 ANISOTROPIC UPPER CRITICAL FIELDS OF HIGHLY ORIENTED BI-SR-CA-CU-O THIN FILMS PREPARED BY COEVAPORATION 1988 6 "THIN FILM ,COEVAPORATION ,CRITICAL" "FUNDAMENTAL RESEARCH LABORATORIES,KAWASAKI" "JJAP.LETT.,27(1988)L1094" "BI,SR,CA,CU,O" 534 JJP0271094 Bi2Sr2Ca1Cu2O Bi 2 Sr 2 Ca 1 Cu 2 O 1988 K 82 87 91 87 400 0.36 7.3 ANISOTROPIC UPPER CRITICAL FIELDS OF HIGHLY ORIENTED BI-SR-CA-CU-O THIN FILMS PREPARED BY COEVAPORATION 1988 6 "THIN FILM ,COEVAPORATION ,CRITICAL" "FUNDAMENTAL RESEARCH LABORATORIES,KAWASAKI" "JJAP.LETT.,27(1988)L1094" "BI,SR,CA,CU,O" 535 PRB0382432 YBa2Cu3O7 Y1Ba2Cu3O6 Y 1 Ba 2 Cu 3 O X 6 1988 Y123 3.857 11.819 K "SYNTHESIS AND CHARACTERIZATION OF Y(1)BA(2)(CU(1-X)M(X))(3)O(7-Z) (M=CO,NI): CRYSTAL SYMMETRY,SUPERCONDUCTIVITY,AND THE ROLE OF OXYGEN" 1988 8 "OXYGEN CONTENT ,PHASE TRANSITION ,SUSCEPTIBILITY ,CR" "DEPARTMENT OF CHEMISTRY,UNIVERSITY OF VIRGINIA,CHARLOTTESVILLE,VIRGINIA" "PHYS.REV.B,38(1988)2432" "Y,BA,CU,M,O" 536 PRB0382432 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O X 7 1988 Y123 3.822 3.892 11.674 K 92 92 "SYNTHESIS AND CHARACTERIZATION OF Y(1)BA(2)(CU(1-X)M(X))(3)O(7-Z) (M=CO,NI): CRYSTAL SYMMETRY,SUPERCONDUCTIVITY,AND THE ROLE OF OXYGEN" 1988 8 "OXYGEN CONTENT ,PHASE TRANSITION ,SUSCEPTIBILITY ,CR" "DEPARTMENT OF CHEMISTRY,UNIVERSITY OF VIRGINIA,CHARLOTTESVILLE,VIRGINIA" "PHYS.REV.B,38(1988)2432" "Y,BA,CU,M,O" 537 PRB0382432 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.97Co0.03O6.96 Y 1 Ba 2 Cu 2.97 Co 0.03 O X 6.96 1988 Y123 3.824 3.889 11.677 K 92 92 "SYNTHESIS AND CHARACTERIZATION OF Y(1)BA(2)(CU(1-X)M(X))(3)O(7-Z) (M=CO,NI): CRYSTAL SYMMETRY,SUPERCONDUCTIVITY,AND THE ROLE OF OXYGEN" 1988 8 "OXYGEN CONTENT ,PHASE TRANSITION ,SUSCEPTIBILITY ,CR" "DEPARTMENT OF CHEMISTRY,UNIVERSITY OF VIRGINIA,CHARLOTTESVILLE,VIRGINIA" "PHYS.REV.B,38(1988)2432" "Y,BA,CU,M,O" 538 PRB0382432 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.925Co0.075O6.97 Y 1 Ba 2 Cu 2.925 Co 0.075 O X 6.97 1988 Y123 K 92 92 "SYNTHESIS AND CHARACTERIZATION OF Y(1)BA(2)(CU(1-X)M(X))(3)O(7-Z) (M=CO,NI): CRYSTAL SYMMETRY,SUPERCONDUCTIVITY,AND THE ROLE OF OXYGEN" 1988 8 "OXYGEN CONTENT ,PHASE TRANSITION ,SUSCEPTIBILITY ,CR" "DEPARTMENT OF CHEMISTRY,UNIVERSITY OF VIRGINIA,CHARLOTTESVILLE,VIRGINIA" "PHYS.REV.B,38(1988)2432" "Y,BA,CU,M,O" 539 PRB0382432 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.85Co0.15O7.03 Y 1 Ba 2 Cu 2.85 Co 0.15 O X 7.03 1988 Y123 3.869 11.701 K 65 65 "SYNTHESIS AND CHARACTERIZATION OF Y(1)BA(2)(CU(1-X)M(X))(3)O(7-Z) (M=CO,NI): CRYSTAL SYMMETRY,SUPERCONDUCTIVITY,AND THE ROLE OF OXYGEN" 1988 8 "OXYGEN CONTENT ,PHASE TRANSITION ,SUSCEPTIBILITY ,CR" "DEPARTMENT OF CHEMISTRY,UNIVERSITY OF VIRGINIA,CHARLOTTESVILLE,VIRGINIA" "PHYS.REV.B,38(1988)2432" "Y,BA,CU,M,O" 540 PRB0382432 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.775Co0.225O6.99 Y 1 Ba 2 Cu 2.775 Co 0.225 O X 6.99 1988 Y123 3.873 11.647 K 58 58 "SYNTHESIS AND CHARACTERIZATION OF Y(1)BA(2)(CU(1-X)M(X))(3)O(7-Z) (M=CO,NI): CRYSTAL SYMMETRY,SUPERCONDUCTIVITY,AND THE ROLE OF OXYGEN" 1988 8 "OXYGEN CONTENT ,PHASE TRANSITION ,SUSCEPTIBILITY ,CR" "DEPARTMENT OF CHEMISTRY,UNIVERSITY OF VIRGINIA,CHARLOTTESVILLE,VIRGINIA" "PHYS.REV.B,38(1988)2432" "Y,BA,CU,M,O" 541 PRB0382432 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.7Co0.3O7.11 Y 1 Ba 2 Cu 2.7 Co 0.3 O X 7.11 1988 -17 Y123 3.878 11.648 K 36 36 "SYNTHESIS AND CHARACTERIZATION OF Y(1)BA(2)(CU(1-X)M(X))(3)O(7-Z) (M=CO,NI): CRYSTAL SYMMETRY,SUPERCONDUCTIVITY,AND THE ROLE OF OXYGEN" 1988 8 "OXYGEN CONTENT ,PHASE TRANSITION ,SUSCEPTIBILITY ,CR" "DEPARTMENT OF CHEMISTRY,UNIVERSITY OF VIRGINIA,CHARLOTTESVILLE,VIRGINIA" "PHYS.REV.B,38(1988)2432" "Y,BA,CU,M,O" 542 PRB0382432 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.55Co0.45O7.26 Y 1 Ba 2 Cu 2.55 Co 0.45 O X 7.26 1988 Y123 3.88 11.659 K "SYNTHESIS AND CHARACTERIZATION OF Y(1)BA(2)(CU(1-X)M(X))(3)O(7-Z) (M=CO,NI): CRYSTAL SYMMETRY,SUPERCONDUCTIVITY,AND THE ROLE OF OXYGEN" 1988 8 "OXYGEN CONTENT ,PHASE TRANSITION ,SUSCEPTIBILITY ,CR" "DEPARTMENT OF CHEMISTRY,UNIVERSITY OF VIRGINIA,CHARLOTTESVILLE,VIRGINIA" "PHYS.REV.B,38(1988)2432" "Y,BA,CU,M,O" 543 PRB0382432 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.4Co0.6OX Y 1 Ba 2 Cu 2.4 Co 0.6 O X 1988 Y123 3.884 11.647 K "SYNTHESIS AND CHARACTERIZATION OF Y(1)BA(2)(CU(1-X)M(X))(3)O(7-Z) (M=CO,NI): CRYSTAL SYMMETRY,SUPERCONDUCTIVITY,AND THE ROLE OF OXYGEN" 1988 8 "OXYGEN CONTENT ,PHASE TRANSITION ,SUSCEPTIBILITY ,CR" "DEPARTMENT OF CHEMISTRY,UNIVERSITY OF VIRGINIA,CHARLOTTESVILLE,VIRGINIA" "PHYS.REV.B,38(1988)2432" "Y,BA,CU,M,O" 544 PRB0382432 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.94Ni0.06O7.01 Y 1 Ba 2 Cu 2.94 Ni 0.06 O X 7.01 1988 Y123 3.835 3.897 11.686 K 85 85 "SYNTHESIS AND CHARACTERIZATION OF Y(1)BA(2)(CU(1-X)M(X))(3)O(7-Z) (M=CO,NI): CRYSTAL SYMMETRY,SUPERCONDUCTIVITY,AND THE ROLE OF OXYGEN" 1988 8 "OXYGEN CONTENT ,PHASE TRANSITION ,SUSCEPTIBILITY ,CR" "DEPARTMENT OF CHEMISTRY,UNIVERSITY OF VIRGINIA,CHARLOTTESVILLE,VIRGINIA" "PHYS.REV.B,38(1988)2432" "Y,BA,CU,M,O" 545 PRB0382432 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.85Ni0.15O6.84 Y 1 Ba 2 Cu 2.85 Ni 0.15 O X 6.84 1988 Y123 3.832 3.894 11.684 K 75 75 1.5 "SYNTHESIS AND CHARACTERIZATION OF Y(1)BA(2)(CU(1-X)M(X))(3)O(7-Z) (M=CO,NI): CRYSTAL SYMMETRY,SUPERCONDUCTIVITY,AND THE ROLE OF OXYGEN" 1988 8 "OXYGEN CONTENT ,PHASE TRANSITION ,SUSCEPTIBILITY ,CR" "DEPARTMENT OF CHEMISTRY,UNIVERSITY OF VIRGINIA,CHARLOTTESVILLE,VIRGINIA" "PHYS.REV.B,38(1988)2432" "Y,BA,CU,M,O" 546 PRB0382432 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.7Ni0.3O6.88 Y 1 Ba 2 Cu 2.7 Ni 0.3 O X 6.88 1988 20 Y123 3.827 3.889 11.671 K 73 73 "SYNTHESIS AND CHARACTERIZATION OF Y(1)BA(2)(CU(1-X)M(X))(3)O(7-Z) (M=CO,NI): CRYSTAL SYMMETRY,SUPERCONDUCTIVITY,AND THE ROLE OF OXYGEN" 1988 8 "OXYGEN CONTENT ,PHASE TRANSITION ,SUSCEPTIBILITY ,CR" "DEPARTMENT OF CHEMISTRY,UNIVERSITY OF VIRGINIA,CHARLOTTESVILLE,VIRGINIA" "PHYS.REV.B,38(1988)2432" "Y,BA,CU,M,O" 547 PRB0382432 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.4Ni0.6O6.94 Y 1 Ba 2 Cu 2.4 Ni 0.6 O X 6.94 1988 Y123 3.822 3.88 11.61 K 66 66 "SYNTHESIS AND CHARACTERIZATION OF Y(1)BA(2)(CU(1-X)M(X))(3)O(7-Z) (M=CO,NI): CRYSTAL SYMMETRY,SUPERCONDUCTIVITY,AND THE ROLE OF OXYGEN" 1988 8 "OXYGEN CONTENT ,PHASE TRANSITION ,SUSCEPTIBILITY ,CR" "DEPARTMENT OF CHEMISTRY,UNIVERSITY OF VIRGINIA,CHARLOTTESVILLE,VIRGINIA" "PHYS.REV.B,38(1988)2432" "Y,BA,CU,M,O" 548 PRB0364047 La2SrO4 La2Sr1O4.003 La 2 Sr 1 O X 4.003 1987 T K CORRELATION OF TC WITH HOLE CONCENTRATION IN LA(2-X)SR(X)CU(1)O(4-Z) SUPERCONDUCTORS 1987 9 TC "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,36(1987)4047" "LA,SR,CU,O" 549 PRB0364047 "(La,Sr)2CuO4" La1.96Sr0.04Cu1O4.002 La 1.96 Sr 0.04 Cu 1 O X 4.002 1987 T K CORRELATION OF TC WITH HOLE CONCENTRATION IN LA(2-X)SR(X)CU(1)O(4-Z) SUPERCONDUCTORS 1987 9 TC "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,36(1987)4047" "LA,SR,CU,O" 550 PRB0364047 "(La,Sr)2CuO4" La1.94Sr0.06Cu1O3.995 La 1.94 Sr 0.06 Cu 1 O X 3.995 1987 T K 6.5 6.5 CORRELATION OF TC WITH HOLE CONCENTRATION IN LA(2-X)SR(X)CU(1)O(4-Z) SUPERCONDUCTORS 1987 9 TC "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,36(1987)4047" "LA,SR,CU,O" 551 PRB0364047 "(La,Sr)2CuO4" La1.92Sr0.08Cu1O3.994 La 1.92 Sr 0.08 Cu 1 O X 3.994 1987 T K 20.3 20.3 CORRELATION OF TC WITH HOLE CONCENTRATION IN LA(2-X)SR(X)CU(1)O(4-Z) SUPERCONDUCTORS 1987 9 TC "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,36(1987)4047" "LA,SR,CU,O" 552 PRB0364047 "(La,Sr)2CuO4" La1.89Sr0.11Cu1O3.986 La 1.89 Sr 0.11 Cu 1 O X 3.986 1987 T K 29.2 29.2 CORRELATION OF TC WITH HOLE CONCENTRATION IN LA(2-X)SR(X)CU(1)O(4-Z) SUPERCONDUCTORS 1987 9 TC "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,36(1987)4047" "LA,SR,CU,O" 553 PRB0364047 "(La,Sr)2CuO4" La1.855Sr0.145Cu1O4 La 1.855 Sr 0.145 Cu 1 O X 4 1987 T K 34.9 34.9 CORRELATION OF TC WITH HOLE CONCENTRATION IN LA(2-X)SR(X)CU(1)O(4-Z) SUPERCONDUCTORS 1987 9 TC "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,36(1987)4047" "LA,SR,CU,O" 554 PRB0364047 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O X 4 1987 T K 35.2 35.2 CORRELATION OF TC WITH HOLE CONCENTRATION IN LA(2-X)SR(X)CU(1)O(4-Z) SUPERCONDUCTORS 1987 9 TC "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,36(1987)4047" "LA,SR,CU,O" 555 PRB0364047 "(La,Sr)2CuO4" La1.815Sr0.185Cu1O3.964 La 1.815 Sr 0.185 Cu 1 O X 3.964 1987 T K 33.2 33.2 CORRELATION OF TC WITH HOLE CONCENTRATION IN LA(2-X)SR(X)CU(1)O(4-Z) SUPERCONDUCTORS 1987 9 TC "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,36(1987)4047" "LA,SR,CU,O" 556 PRB0364047 "(La,Sr)2CuO4" La1.81Sr0.19Cu1O3.949 La 1.81 Sr 0.19 Cu 1 O X 3.949 1987 T K CORRELATION OF TC WITH HOLE CONCENTRATION IN LA(2-X)SR(X)CU(1)O(4-Z) SUPERCONDUCTORS 1987 9 TC "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,36(1987)4047" "LA,SR,CU,O" 557 PRB0364047 "(La,Sr)2CuO4" La1.78Sr0.22Cu1O3.945 La 1.78 Sr 0.22 Cu 1 O X 3.945 1987 T K 34.8 34.8 CORRELATION OF TC WITH HOLE CONCENTRATION IN LA(2-X)SR(X)CU(1)O(4-Z) SUPERCONDUCTORS 1987 9 TC "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,36(1987)4047" "LA,SR,CU,O" 558 PRB0364047 "(La,Sr)2CuO4" La1.75Sr0.25Cu1O3.921 La 1.75 Sr 0.25 Cu 1 O X 3.921 1987 T K 19.6 19.6 CORRELATION OF TC WITH HOLE CONCENTRATION IN LA(2-X)SR(X)CU(1)O(4-Z) SUPERCONDUCTORS 1987 9 TC "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,36(1987)4047" "LA,SR,CU,O" 559 PRB0364047 "(La,Sr)2CuO4" La1.73Sr0.27Cu1O3.913 La 1.73 Sr 0.27 Cu 1 O X 3.913 1987 T K 30.6 30.6 CORRELATION OF TC WITH HOLE CONCENTRATION IN LA(2-X)SR(X)CU(1)O(4-Z) SUPERCONDUCTORS 1987 9 TC "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,36(1987)4047" "LA,SR,CU,O" 560 PRB0357129 La1Ba2Cu2.9O6.8 La 1 Ba 2 Cu 2.9 O 6.8 6.8 1987 3.892 3.936 11.814 K 45 45 MAGNETIC PENETRATION DEPTH AND FLUX-PINNING EFFECT IN HIGH-TC SUPERCONDUCTOR LA(1.85)SR(0.15)CU(1)O(4) 1987 5 "MUON ,PENETRATION DEPTH ,CARRIER DENSITY ,FL" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,35(1987)7129" "LA,SR,CU,O" 561 PRB0357129 "La(Ba,La)2Cu3O7" La1.6Ba1.4Cu2.9O6.98 La 1.6 Ba 1.4 Cu 2.9 O 6.98 6.98 1987 Y123 3.918 3.928 11.742 K MAGNETIC PENETRATION DEPTH AND FLUX-PINNING EFFECT IN HIGH-TC SUPERCONDUCTOR LA(1.85)SR(0.15)CU(1)O(4) 1987 5 "MUON ,PENETRATION DEPTH ,CARRIER DENSITY ,FL" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,35(1987)7129" "LA,SR,CU,O" 562 PRB0357129 "La(Ba,La)2Cu3O7" La1.2Ba1.8Cu3O6.98 La 1.2 Ba 1.8 Cu 3 O 6.98 1987 Y123 3.895 3.927 11.778 K 80 80 MAGNETIC PENETRATION DEPTH AND FLUX-PINNING EFFECT IN HIGH-TC SUPERCONDUCTOR LA(1.85)SR(0.15)CU(1)O(4) 1987 5 "MUON ,PENETRATION DEPTH ,CARRIER DENSITY ,FL" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,35(1987)7129" "LA,SR,CU,O" 563 JJP0271425 YBa2Cu3O7 Y1Ba2Cu3OX Y 1 Ba 2 Cu 3 O X 1988 Y123 3.823 3.894 11.684 K 92 92 SUPERCONDUCTING AND MAGNETIC PROPERTIES OF THE HIGH-T(C) AND HIGH-DENSITY SUPERCONDUCTOR Y(1-X)LU(X)BA(2)CU(3)O(7-Z) 1988 8 "X-RAY ,RESISTIVITY ,MAGNETIZ" "DEPARTMENT OF ELECTRACAL AND ELECTRONIC ENGINEERING,TOYOHASHI UNIVERSITY OF TECHNOLOGY,TOYOHASHI-SHI,AICHI-KEN" "JJAP LETT.,27(1988)L1425" "Y,LU,BA,CU,O" 564 JJP0271425 "(Y,Lu)Ba2Cu3O7" Y0.875Lu0.125Ba2Cu3OX Y 0.875 Lu 0.125 Ba 2 Cu 3 O X 1988 Y123 3.82 3.893 11.672 K 89.7 89.7 SUPERCONDUCTING AND MAGNETIC PROPERTIES OF THE HIGH-T(C) AND HIGH-DENSITY SUPERCONDUCTOR Y(1-X)LU(X)BA(2)CU(3)O(7-Z) 1988 8 "X-RAY ,RESISTIVITY ,MAGNETIZ" "DEPARTMENT OF ELECTRACAL AND ELECTRONIC ENGINEERING,TOYOHASHI UNIVERSITY OF TECHNOLOGY,TOYOHASHI-SHI,AICHI-KEN" "JJAP LETT.,27(1988)L1425" "Y,LU,BA,CU,O" 565 JJP0271425 "(Y,Lu)Ba2Cu3O7" Y0.75Lu0.25Ba2Cu3OX Y 0.75 Lu 0.25 Ba 2 Cu 3 O X 1988 Y123 3.817 3.888 11.676 K 88.2 88.2 SUPERCONDUCTING AND MAGNETIC PROPERTIES OF THE HIGH-T(C) AND HIGH-DENSITY SUPERCONDUCTOR Y(1-X)LU(X)BA(2)CU(3)O(7-Z) 1988 8 "X-RAY ,RESISTIVITY ,MAGNETIZ" "DEPARTMENT OF ELECTRACAL AND ELECTRONIC ENGINEERING,TOYOHASHI UNIVERSITY OF TECHNOLOGY,TOYOHASHI-SHI,AICHI-KEN" "JJAP LETT.,27(1988)L1425" "Y,LU,BA,CU,O" 566 JJP0271425 "(Y,Lu)Ba2Cu3O7" Y0.625Lu0.375Ba2Cu3OX Y 0.625 Lu 0.375 Ba 2 Cu 3 O X 1988 Y123 3.812 3.888 11.676 K 88 88 SUPERCONDUCTING AND MAGNETIC PROPERTIES OF THE HIGH-T(C) AND HIGH-DENSITY SUPERCONDUCTOR Y(1-X)LU(X)BA(2)CU(3)O(7-Z) 1988 8 "X-RAY ,RESISTIVITY ,MAGNETIZ" "DEPARTMENT OF ELECTRACAL AND ELECTRONIC ENGINEERING,TOYOHASHI UNIVERSITY OF TECHNOLOGY,TOYOHASHI-SHI,AICHI-KEN" "JJAP LETT.,27(1988)L1425" "Y,LU,BA,CU,O" 567 JJP0271425 "(Y,Lu)Ba2Cu3O7" Y0.5Lu0.5Ba2Cu3OX Y 0.5 Lu 0.5 Ba 2 Cu 3 O X 1988 Y123 3.818 3.891 11.679 K 86.7 86.7 SUPERCONDUCTING AND MAGNETIC PROPERTIES OF THE HIGH-T(C) AND HIGH-DENSITY SUPERCONDUCTOR Y(1-X)LU(X)BA(2)CU(3)O(7-Z) 1988 8 "X-RAY ,RESISTIVITY ,MAGNETIZ" "DEPARTMENT OF ELECTRACAL AND ELECTRONIC ENGINEERING,TOYOHASHI UNIVERSITY OF TECHNOLOGY,TOYOHASHI-SHI,AICHI-KEN" "JJAP LETT.,27(1988)L1425" "Y,LU,BA,CU,O" 568 JJP0271425 "(Y,Lu)Ba2Cu3O7" Y0.375Lu0.625Ba2Cu3OX Y 0.375 Lu 0.625 Ba 2 Cu 3 O X 1988 Y123 3.81 3.89 11.668 K 86.9 86.9 SUPERCONDUCTING AND MAGNETIC PROPERTIES OF THE HIGH-T(C) AND HIGH-DENSITY SUPERCONDUCTOR Y(1-X)LU(X)BA(2)CU(3)O(7-Z) 1988 8 "X-RAY ,RESISTIVITY ,MAGNETIZ" "DEPARTMENT OF ELECTRACAL AND ELECTRONIC ENGINEERING,TOYOHASHI UNIVERSITY OF TECHNOLOGY,TOYOHASHI-SHI,AICHI-KEN" "JJAP LETT.,27(1988)L1425" "Y,LU,BA,CU,O" 569 JJP0271425 "(Y,Lu)Ba2Cu3O7" Y0.25Lu0.75Ba2Cu3OX Y 0.25 Lu 0.75 Ba 2 Cu 3 O X 1988 Y123 3.807 3.883 11.659 K 86 86 SUPERCONDUCTING AND MAGNETIC PROPERTIES OF THE HIGH-T(C) AND HIGH-DENSITY SUPERCONDUCTOR Y(1-X)LU(X)BA(2)CU(3)O(7-Z) 1988 8 "X-RAY ,RESISTIVITY ,MAGNETIZ" "DEPARTMENT OF ELECTRACAL AND ELECTRONIC ENGINEERING,TOYOHASHI UNIVERSITY OF TECHNOLOGY,TOYOHASHI-SHI,AICHI-KEN" "JJAP LETT.,27(1988)L1425" "Y,LU,BA,CU,O" 570 JJP0271425 "(Y,Lu)Ba2Cu3O7" Y0.125Lu0.875Ba2Cu3OX Y 0.125 Lu 0.875 Ba 2 Cu 3 O X 1988 Y123 3.803 3.88 11.65 K 87.9 87.9 SUPERCONDUCTING AND MAGNETIC PROPERTIES OF THE HIGH-T(C) AND HIGH-DENSITY SUPERCONDUCTOR Y(1-X)LU(X)BA(2)CU(3)O(7-Z) 1988 8 "X-RAY ,RESISTIVITY ,MAGNETIZ" "DEPARTMENT OF ELECTRACAL AND ELECTRONIC ENGINEERING,TOYOHASHI UNIVERSITY OF TECHNOLOGY,TOYOHASHI-SHI,AICHI-KEN" "JJAP LETT.,27(1988)L1425" "Y,LU,BA,CU,O" 571 JJP0271449 La2CuO4 La2Cu1O4 La 2 Cu 1 O Z 4 1988 T K "CRYTAL STRUCTIRE,OXYGEN CONTENT AND SUPERCONDUCTIVITY OF M(X)LA(2-X)CU(1)O(4-Y) (M=BA,SR AND CA)" 1988 8 "OXYGEN CONTENT ,STRUCTURE ,RESISTIVITY ,TC" "TOHOKU UNIVERSITY,SENDAI" "JJAP LETT.,27(1988)L1449" "M,LA,CU,O" 572 JJP0271449 "(La,Ba)2CuO4" La1.95Ba0.05Cu1O3.98 La 1.95 Ba 0.05 Cu 1 O Z 3.98 1988 T 3.787 3.801 13.192 K "CRYTAL STRUCTIRE,OXYGEN CONTENT AND SUPERCONDUCTIVITY OF M(X)LA(2-X)CU(1)O(4-Y) (M=BA,SR AND CA)" 1988 8 "OXYGEN CONTENT ,STRUCTURE ,RESISTIVITY ,TC" "TOHOKU UNIVERSITY,SENDAI" "JJAP LETT.,27(1988)L1449" "M,LA,CU,O" 573 JJP0271449 "(La,Ba)2CuO4" La1.9Ba0.1Cu1O4 La 1.9 Ba 0.1 Cu 1 O Z 4 1988 T 3.785 13.244 K 26.9 26.9 "CRYTAL STRUCTIRE,OXYGEN CONTENT AND SUPERCONDUCTIVITY OF M(X)LA(2-X)CU(1)O(4-Y) (M=BA,SR AND CA)" 1988 8 "OXYGEN CONTENT ,STRUCTURE ,RESISTIVITY ,TC" "TOHOKU UNIVERSITY,SENDAI" "JJAP LETT.,27(1988)L1449" "M,LA,CU,O" 574 JJP0271449 "(La,Ba)2CuO4" La1.85Ba0.15Cu1O4 La 1.85 Ba 0.15 Cu 1 O Z 4 1988 T 3.784 13.285 K "CRYTAL STRUCTIRE,OXYGEN CONTENT AND SUPERCONDUCTIVITY OF M(X)LA(2-X)CU(1)O(4-Y) (M=BA,SR AND CA)" 1988 8 "OXYGEN CONTENT ,STRUCTURE ,RESISTIVITY ,TC" "TOHOKU UNIVERSITY,SENDAI" "JJAP LETT.,27(1988)L1449" "M,LA,CU,O" 575 JJP0271449 "(La,Ba)2CuO4" La1.785Ba0.215Cu1OZ La 1.785 Ba 0.215 Cu 1 O Z 1988 T K 25.5 25.5 "CRYTAL STRUCTIRE,OXYGEN CONTENT AND SUPERCONDUCTIVITY OF M(X)LA(2-X)CU(1)O(4-Y) (M=BA,SR AND CA)" 1988 8 "OXYGEN CONTENT ,STRUCTURE ,RESISTIVITY ,TC" "TOHOKU UNIVERSITY,SENDAI" "JJAP LETT.,27(1988)L1449" "M,LA,CU,O" 576 JJP0271449 "(La,Sr)2CuO4" La1.95Sr0.05Cu1O3.98 La 1.95 Sr 0.05 Cu 1 O Z 3.98 1988 T 3.783 3.801 13.163 K "CRYTAL STRUCTIRE,OXYGEN CONTENT AND SUPERCONDUCTIVITY OF M(X)LA(2-X)CU(1)O(4-Y) (M=BA,SR AND CA)" 1988 8 "OXYGEN CONTENT ,STRUCTURE ,RESISTIVITY ,TC" "TOHOKU UNIVERSITY,SENDAI" "JJAP LETT.,27(1988)L1449" "M,LA,CU,O" 577 JJP0271449 "(La,Sr)2CuO4" La1.9Sr0.1Cu1O3.98 La 1.9 Sr 0.1 Cu 1 O Z 3.98 1988 T 3.783 13.209 K 29.5 29.5 "CRYTAL STRUCTIRE,OXYGEN CONTENT AND SUPERCONDUCTIVITY OF M(X)LA(2-X)CU(1)O(4-Y) (M=BA,SR AND CA)" 1988 8 "OXYGEN CONTENT ,STRUCTURE ,RESISTIVITY ,TC" "TOHOKU UNIVERSITY,SENDAI" "JJAP LETT.,27(1988)L1449" "M,LA,CU,O" 578 JJP0271449 "(La,Sr)2CuO4" La1.875Sr0.125Cu1OZ La 1.875 Sr 0.125 Cu 1 O Z 1988 T K 34.3 34.3 "CRYTAL STRUCTIRE,OXYGEN CONTENT AND SUPERCONDUCTIVITY OF M(X)LA(2-X)CU(1)O(4-Y) (M=BA,SR AND CA)" 1988 8 "OXYGEN CONTENT ,STRUCTURE ,RESISTIVITY ,TC" "TOHOKU UNIVERSITY,SENDAI" "JJAP LETT.,27(1988)L1449" "M,LA,CU,O" 579 JJP0271449 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O3.98 La 1.85 Sr 0.15 Cu 1 O Z 3.98 1988 T 3.773 13.224 K 37.9 37.9 "CRYTAL STRUCTIRE,OXYGEN CONTENT AND SUPERCONDUCTIVITY OF M(X)LA(2-X)CU(1)O(4-Y) (M=BA,SR AND CA)" 1988 8 "OXYGEN CONTENT ,STRUCTURE ,RESISTIVITY ,TC" "TOHOKU UNIVERSITY,SENDAI" "JJAP LETT.,27(1988)L1449" "M,LA,CU,O" 580 JJP0271449 "(La,Sr)2CuO4" La1.825Sr0.175Cu1OZ La 1.825 Sr 0.175 Cu 1 O Z 1988 T K 35 35 "CRYTAL STRUCTIRE,OXYGEN CONTENT AND SUPERCONDUCTIVITY OF M(X)LA(2-X)CU(1)O(4-Y) (M=BA,SR AND CA)" 1988 8 "OXYGEN CONTENT ,STRUCTURE ,RESISTIVITY ,TC" "TOHOKU UNIVERSITY,SENDAI" "JJAP LETT.,27(1988)L1449" "M,LA,CU,O" 581 JJP0271449 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O3.99 La 1.8 Sr 0.2 Cu 1 O Z 3.99 1988 T K 27.5 27.5 "CRYTAL STRUCTIRE,OXYGEN CONTENT AND SUPERCONDUCTIVITY OF M(X)LA(2-X)CU(1)O(4-Y) (M=BA,SR AND CA)" 1988 8 "OXYGEN CONTENT ,STRUCTURE ,RESISTIVITY ,TC" "TOHOKU UNIVERSITY,SENDAI" "JJAP LETT.,27(1988)L1449" "M,LA,CU,O" 582 JJP0271449 "(La,Sr)2CuO4" La1.75Sr0.25Cu1OZ La 1.75 Sr 0.25 Cu 1 O Z 1988 T K 11.9 11.9 "CRYTAL STRUCTIRE,OXYGEN CONTENT AND SUPERCONDUCTIVITY OF M(X)LA(2-X)CU(1)O(4-Y) (M=BA,SR AND CA)" 1988 8 "OXYGEN CONTENT ,STRUCTURE ,RESISTIVITY ,TC" "TOHOKU UNIVERSITY,SENDAI" "JJAP LETT.,27(1988)L1449" "M,LA,CU,O" 583 JJP0271449 "(La,Sr)2CuO4" La1.7Sr0.3Cu1O3.99 La 1.7 Sr 0.3 Cu 1 O Z 3.99 1988 T K "CRYTAL STRUCTIRE,OXYGEN CONTENT AND SUPERCONDUCTIVITY OF M(X)LA(2-X)CU(1)O(4-Y) (M=BA,SR AND CA)" 1988 8 "OXYGEN CONTENT ,STRUCTURE ,RESISTIVITY ,TC" "TOHOKU UNIVERSITY,SENDAI" "JJAP LETT.,27(1988)L1449" "M,LA,CU,O" 584 JJP0271449 "(La,Sr)2CuO4" La1.5Sr0.5Cu1O3.96 La 1.5 Sr 0.5 Cu 1 O Z 3.96 1988 T K "CRYTAL STRUCTIRE,OXYGEN CONTENT AND SUPERCONDUCTIVITY OF M(X)LA(2-X)CU(1)O(4-Y) (M=BA,SR AND CA)" 1988 8 "OXYGEN CONTENT ,STRUCTURE ,RESISTIVITY ,TC" "TOHOKU UNIVERSITY,SENDAI" "JJAP LETT.,27(1988)L1449" "M,LA,CU,O" 585 JJP0271449 "(La,Ca)2CuO4" La1.95Ca0.05Cu1O3.975 La 1.95 Ca 0.05 Cu 1 O Z 3.975 1988 T 3.781 3.802 13.149 K "CRYTAL STRUCTIRE,OXYGEN CONTENT AND SUPERCONDUCTIVITY OF M(X)LA(2-X)CU(1)O(4-Y) (M=BA,SR AND CA)" 1988 8 "OXYGEN CONTENT ,STRUCTURE ,RESISTIVITY ,TC" "TOHOKU UNIVERSITY,SENDAI" "JJAP LETT.,27(1988)L1449" "M,LA,CU,O" 586 JJP0271449 "(La,Ca)2CuO4" La1.9Ca0.1Cu1O3.967 La 1.9 Ca 0.1 Cu 1 O Z 3.967 1988 T 3.78 13.158 K 20 20 "CRYTAL STRUCTIRE,OXYGEN CONTENT AND SUPERCONDUCTIVITY OF M(X)LA(2-X)CU(1)O(4-Y) (M=BA,SR AND CA)" 1988 8 "OXYGEN CONTENT ,STRUCTURE ,RESISTIVITY ,TC" "TOHOKU UNIVERSITY,SENDAI" "JJAP LETT.,27(1988)L1449" "M,LA,CU,O" 587 JJP0271449 "(La,Ca)2CuO4" La1.85Ca0.15Cu1O3.942 La 1.85 Ca 0.15 Cu 1 O Z 3.942 1988 T 3.779 13.166 K 19 19 "CRYTAL STRUCTIRE,OXYGEN CONTENT AND SUPERCONDUCTIVITY OF M(X)LA(2-X)CU(1)O(4-Y) (M=BA,SR AND CA)" 1988 8 "OXYGEN CONTENT ,STRUCTURE ,RESISTIVITY ,TC" "TOHOKU UNIVERSITY,SENDAI" "JJAP LETT.,27(1988)L1449" "M,LA,CU,O" 588 JJP0271449 "(La,Ca)2CuO4" La1.8Ca0.2Cu1O3.917 La 1.8 Ca 0.2 Cu 1 O Z 3.917 1988 T K 19.5 19.5 "CRYTAL STRUCTIRE,OXYGEN CONTENT AND SUPERCONDUCTIVITY OF M(X)LA(2-X)CU(1)O(4-Y) (M=BA,SR AND CA)" 1988 8 "OXYGEN CONTENT ,STRUCTURE ,RESISTIVITY ,TC" "TOHOKU UNIVERSITY,SENDAI" "JJAP LETT.,27(1988)L1449" "M,LA,CU,O" 589 SSC0680221 YBa2Cu3O7 Y1Ba2Cu3O6.94 Y 1 Ba 2 Cu 3 O Z 6.94 1988 3 Y123 K 92.5 92.5 LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 590 SSC0680221 YBa2Cu3O7 Y1Ba2Cu3O6.89 Y 1 Ba 2 Cu 3 O Z 6.89 1988 3 Y123 K 92.1 92.1 LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 591 SSC0680221 YBa2Cu3O7 Y1Ba2Cu3O6.84 Y 1 Ba 2 Cu 3 O Z 6.84 1988 3 Y123 K 91 91 LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 592 SSC0680221 YBa2Cu3O7 Y1Ba2Cu3O6.83 Y 1 Ba 2 Cu 3 O Z 6.83 1988 3 Y123 K 89.3 89.3 LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 593 SSC0680221 YBa2CuO7 Y1Ba2Cu3O6.75 Y 1 Ba 2 Cu 3 O Z 6.75 1988 Y123 K 92.3 92.3 LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 594 SSC0680221 YBa3Cu3O7 Y1Ba2Cu3O6.7 Y 1 Ba 2 Cu 3 O Z 6.7 1988 3 Y123 K 83 83 LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 595 SSC0680221 YBa2Cu3O7 Y1Ba2Cu3O6.4 Y 1 Ba 2 Cu 3 O Z 6.4 1988 Y123 K 33 33 LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 596 SSC0680221 YBa2Cu3O7 Y1Ba2Cu3O6.31 Y 1 Ba 2 Cu 3 O Z 6.31 1988 2 Y123 K LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 597 SSC0680221 YBa2Cu3O7 Y1Ba2Cu3O6.22 Y 1 Ba 2 Cu 3 O Z 6.22 1988 2 Y123 K LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 598 SSC0680221 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.955Fe0.045O6.89 Y 1 Ba 2 Cu 2.955 Fe 0.045 O Z 6.89 1988 2 Y123 K 72 72 LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 599 SSC0680221 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.9Fe0.1O6.92 Y 1 Ba 2 Cu 2.9 Fe 0.1 O Z 6.92 1988 2 Y123 K 48 48 LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 600 SSC0680221 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.52Al0.48O6.74 Y 1 Ba 2 Cu 2.52 Al 0.48 O Z 6.74 1988 Y123 K 68 68 LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 601 SSC0680221 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.05Al0.95O6.7 Y 1 Ba 2 Cu 2.05 Al 0.95 O Z 6.7 1988 2 Y123 K 63 63 LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 602 SSC0680221 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.095Al0.095O6.81 Y 1 Ba 2 Cu 2.095 Al 0.095 O Z 6.81 1988 Y123 K 83.3 83.3 LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 603 SSC0680221 "YBa2(Cu,Zr)3O7" Y1Ba2Cu2.98Zr0.02O6.84 Y 1 Ba 2 Cu 2.98 Zr 0.02 O Z 6.84 1988 3 Y123 K 90.2 90.2 LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 604 SSC0680221 "YBa2(Cu,Zr)3O7" Y1Ba2Cu2.94Zr0.06O6.81 Y 1 Ba 2 Cu 2.94 Zr 0.06 O Z 6.81 1988 3 Y123 K 92.3 92.3 LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 605 SSC0680221 "YBa2(Cu,Zr)3O7" Y1Ba2Cu2.98Zr0.2O6.75 Y 1 Ba 2 Cu 2.98 Zr 0.2 O 7-z 6.75 1988 Y123 K 89.8 89.8 LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 606 SSC0680221 EuBa2Cu3O7 Eu1Ba2Cu3O6.76 Eu 1 Ba 2 Cu 3 O Z 6.76 1988 3 Y123 K 77 77 LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 607 SSC0680221 EuBa2Cu3O7 Eu1Ba2Cu3O6.88 Eu 1 Ba 2 Cu 3 O Z 6.88 1988 Y123 K 94 94 LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 608 SSC0680221 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.98Fe0.02O6.93 Y 1 Ba 2 Cu 2.98 Fe 0.02 O Z 6.93 1988 3 Y123 K 89 89 LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 609 SSC0680221 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.994Zn0.006O6.63 Y 1 Ba 2 Cu 2.994 Zn 0.006 O Z 6.63 1988 3 Y123 K 60 60 LABILE CU(3) IONS CORRELATED WITH SUPERCONDUCTING PROPERTIES IN Y(1)BA(2)CU(3)O(7-X) 1988 10 "CU(3) IONS ,Tc ,DOPANT ,CH" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING UNIVERSITY OF NEW SOUTH WALES KENSINGTON,AUSTRALIA" "SOLID STATE COMMUN.,68(1988)0221" "Y,BA,CU,O" 610 JJP0260223 "(La,Sr)2CuO4" Sr0.25La1.75Cu1O4-Y Sr 0.25 La 1.75 Cu 1 O 4-Y 1987 T K 7.5 33 37 33 "Composition dependence of the high temperature superconductivity in (Ba,Sr)-La-(Hg,Ag)-Cu-O system with K2NiF4-type structure" 1987 "Jpn.J.Appl.Phys., 26(1987)L223" 613 JJP0260633 Sm0.4Ba0.6Cu1OX Sm 0.4 Ba 0.6 Cu 1 O X 1987 K 18 35 18 SUPERCONDUCTIVITY IN BA-LN(LANTHANOID)-CU-O COMPOUNDS 1987 "JJAP.LETT.,26(1987)L633" "M,BA,CU,O" 614 JJP0260337 "(La,Sr,Eu)2CuO4" Eu0.1La1.7Sr0.2Cu1O4 Eu 0.1 La 1.7 Sr 0.2 Cu 1 O 4 1987 T K 33 33 HIGH TC SUPERCONDUCTIVITY OF (LA(1-X)SR(X))(2)CU(1)O(4)EFFECT OF SUBSTITUTION OF FOREIGN IONS FOR CU AND LA ON SUPERCONDUCTIVITY 1987 4 "DEPARTMENT OF INDUSTRIAL CHEMISTRY,FACULTY OFENGINEERING,UNIVERSITY OF TOKYO,TOKYO" "JJAP.LETT.,26(1987)L337" "LA,SR,CU,O" 615 PRB0364025 YBa2Cu3O7 Y1Ba2Cu3O7-Y Y 1 Ba 2 Cu 3 O 7-Y 1987 3 Y123 K 92.3 92.3 0.23 SUPERCONDUCTING PROPERTIES OF ALIGNED CRYSTALLINE GRAINS OF Y(1)BA(2)CU(3)O(7-Z) 1987 9 "MAGNETIZATION ,JC" "DEPARTMENT OF PHYSICS,CASE WESTERN RESERVE UNIVERSITY,CLEVELAND,OHIO" "PHYS.REV.B,36(1987)4025" "Y,BA,CU,O" 616 PRB0368393 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.75Ni0.25O7 Y 1 Ba 2 Cu 2.75 Ni 0.25 O 7 1987 0.66 -3 Y123 3.859 11.8 K 3d-metal doping of the high-temperature superconducting perovskites La-Sr-Cu-O and Y-Ba-Cu-O 1987 12 "Bell Communications Reserch, Red Bank, New Jersey 07701" "Phys.Rev.B,36(1987)8393" 617 JPS0572261 La2CuO4 La2O4 La 2 O 4 1 1988 T K EXISTENCE OF THE MINIMUM COEFFICIENT IN TEMPERATURE LINEAR TERM OF HEAT CAPACITY IN SUPERCONDUCTING (LA1-XBAX)2CUO4 1988 7 "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY" "J.PHYS.SOC.JAPAN,57(1988)2261" "LA,BA,CU,O" 618 JPS0572261 "(La,Ba)2CuO4" La1.99Ba0.01Cu1O4 La 1.99 Ba 0.01 Cu 1 O 4 1 1988 T K 0.5 EXISTENCE OF THE MINIMUM COEFFICIENT IN TEMPERATURE LINEAR TERM OF HEAT CAPACITY IN SUPERCONDUCTING (LA1-XBAX)2CUO4 1988 7 "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY" "J.PHYS.SOC.JAPAN,57(1988)2261" "LA,BA,CU,O" 619 JPS0572261 "(La,Ba)2CuO4" La1.98Ba0.02Cu1O4 La 1.98 Ba 0.02 Cu 1 O 4 1 1988 T K 1.6 EXISTENCE OF THE MINIMUM COEFFICIENT IN TEMPERATURE LINEAR TERM OF HEAT CAPACITY IN SUPERCONDUCTING (LA1-XBAX)2CUO4 1988 7 "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY" "J.PHYS.SOC.JAPAN,57(1988)2261" "LA,BA,CU,O" 620 JPS0572261 "(La,Ba2)2CuO4" La1.97Ba0.03Cu1O4 La 1.97 Ba 0.03 Cu 1 O 4 1 1988 T K 2.8 EXISTENCE OF THE MINIMUM COEFFICIENT IN TEMPERATURE LINEAR TERM OF HEAT CAPACITY IN SUPERCONDUCTING (LA1-XBAX)2CUO4 1988 7 "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY" "J.PHYS.SOC.JAPAN,57(1988)2261" "LA,BA,CU,O" 621 JPS0572261 "(La,ba)2CuO4" La1.965Ba0.035Cu1O4 La 1.965 Ba 0.035 Cu 1 O 4 1 1988 T K 5 EXISTENCE OF THE MINIMUM COEFFICIENT IN TEMPERATURE LINEAR TERM OF HEAT CAPACITY IN SUPERCONDUCTING (LA1-XBAX)2CUO4 1988 7 "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY" "J.PHYS.SOC.JAPAN,57(1988)2261" "LA,BA,CU,O" 622 JPS0572261 "(La,Ba)2CuO4" La1.955Ba0.045Cu1O4 La 1.955 Ba 0.045 Cu 1 O 4 1 1988 T K 5.8 EXISTENCE OF THE MINIMUM COEFFICIENT IN TEMPERATURE LINEAR TERM OF HEAT CAPACITY IN SUPERCONDUCTING (LA1-XBAX)2CUO4 1988 7 "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY" "J.PHYS.SOC.JAPAN,57(1988)2261" "LA,BA,CU,O" 623 JPS0572261 "(La,Ba)2CuO4" La1.94Ba0.06Cu1O4 La 1.94 Ba 0.06 Cu 1 O 4 1 1988 T K 3.8 EXISTENCE OF THE MINIMUM COEFFICIENT IN TEMPERATURE LINEAR TERM OF HEAT CAPACITY IN SUPERCONDUCTING (LA1-XBAX)2CUO4 1988 7 "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY" "J.PHYS.SOC.JAPAN,57(1988)2261" "LA,BA,CU,O" 624 JPS0572261 "(La,Ba)2CuO4" La1.93Ba0.07Cu1O4 La 1.93 Ba 0.07 Cu 1 O 4 1 1988 T K 3.8 EXISTENCE OF THE MINIMUM COEFFICIENT IN TEMPERATURE LINEAR TERM OF HEAT CAPACITY IN SUPERCONDUCTING (LA1-XBAX)2CUO4 1988 7 "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY" "J.PHYS.SOC.JAPAN,57(1988)2261" "LA,BA,CU,O" 625 JPS0572261 "(La,Ba)2CuO4" La1.92Ba0.08Cu1O4 La 1.92 Ba 0.08 Cu 1 O 4 1 1988 T K 2.7 EXISTENCE OF THE MINIMUM COEFFICIENT IN TEMPERATURE LINEAR TERM OF HEAT CAPACITY IN SUPERCONDUCTING (LA1-XBAX)2CUO4 1988 7 "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY" "J.PHYS.SOC.JAPAN,57(1988)2261" "LA,BA,CU,O" 626 JPS0572261 "(La,Ba)2CuO4" La1.91Ba0.09Cu1O4 La 1.91 Ba 0.09 Cu 1 O 4 1 1988 T K 3 EXISTENCE OF THE MINIMUM COEFFICIENT IN TEMPERATURE LINEAR TERM OF HEAT CAPACITY IN SUPERCONDUCTING (LA1-XBAX)2CUO4 1988 7 "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY" "J.PHYS.SOC.JAPAN,57(1988)2261" "LA,BA,CU,O" 627 JPS0572261 "(La,Ba)2CuO4" La1.9Ba0.1Cu1O4 La 1.9 Ba 0.1 Cu 1 O 4 1 1988 T K 2.9 EXISTENCE OF THE MINIMUM COEFFICIENT IN TEMPERATURE LINEAR TERM OF HEAT CAPACITY IN SUPERCONDUCTING (LA1-XBAX)2CUO4 1988 7 "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY" "J.PHYS.SOC.JAPAN,57(1988)2261" "LA,BA,CU,O" 628 JPS0572261 "(La,Ba)2CuO4" La1.88Ba0.12Cu1O4 La 1.88 Ba 0.12 Cu 1 O 4 1 1988 T K 4 EXISTENCE OF THE MINIMUM COEFFICIENT IN TEMPERATURE LINEAR TERM OF HEAT CAPACITY IN SUPERCONDUCTING (LA1-XBAX)2CUO4 1988 7 "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY" "J.PHYS.SOC.JAPAN,57(1988)2261" "LA,BA,CU,O" 629 JPS0572261 "(La,Ba)2CuO4" La1.85Ba0.15Cu1O4 La 1.85 Ba 0.15 Cu 1 O 4 1 1988 T K 5.9 EXISTENCE OF THE MINIMUM COEFFICIENT IN TEMPERATURE LINEAR TERM OF HEAT CAPACITY IN SUPERCONDUCTING (LA1-XBAX)2CUO4 1988 7 "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY" "J.PHYS.SOC.JAPAN,57(1988)2261" "LA,BA,CU,O" 630 PRB0362404 YBa2Cu3O7 Y1Ba2Cu3OX Y 1 Ba 2 Cu 3 O X 1987 Y123 K K/GPa 0.9 "COMPARISON OF THE PRESSURE DEPENDENCIES OF Tc IN THE 90-K SUPERCONDUCTORS R(1)BA(2)CU(3)O(X) (R=GD,ER,AND YB) AND Y(1)BA(2)CU(3)O(X)" 1987 8 "RESISTANCE ,Tc ,PRESSURE" "LOS ALAMOS NATIONAL LABORATORY,LOS ALAMOS,NEW MEXICO" "PHYS.REV.B,36(1987)2404" "GD,ER,YB,Y,BA,CU,O" 631 PRB0362404 GdBa2Cu3O7 Gd1Ba2Cu3OX Gd 1 Ba 2 Cu 3 O X 1987 Y123 K K/GPa 1.3 "COMPARISON OF THE PRESSURE DEPENDENCIES OF Tc IN THE 90-K SUPERCONDUCTORS R(1)BA(2)CU(3)O(X) (R=GD,ER,AND YB) AND Y(1)BA(2)CU(3)O(X)" 1987 8 "RESISTANCE ,Tc ,PRESSURE" "LOS ALAMOS NATIONAL LABORATORY,LOS ALAMOS,NEW MEXICO" "PHYS.REV.B,36(1987)2404" "GD,ER,YB,Y,BA,CU,O" 632 PRB0362404 ErBa2Cu3O7 Er1Ba2Cu3OX Er 1 Ba 2 Cu 3 O X 1987 Y123 K K/GPa 1.4 "COMPARISON OF THE PRESSURE DEPENDENCIES OF Tc IN THE 90-K SUPERCONDUCTORS R(1)BA(2)CU(3)O(X) (R=GD,ER,AND YB) AND Y(1)BA(2)CU(3)O(X)" 1987 8 "RESISTANCE ,Tc ,PRESSURE" "LOS ALAMOS NATIONAL LABORATORY,LOS ALAMOS,NEW MEXICO" "PHYS.REV.B,36(1987)2404" "GD,ER,YB,Y,BA,CU,O" 633 PRB0362404 YbBa2Cu3O7 Yb1Ba2Cu3OX Yb 1 Ba 2 Cu 3 O X 1987 Y123 K K/GPa 1.9 "COMPARISON OF THE PRESSURE DEPENDENCIES OF Tc IN THE 90-K SUPERCONDUCTORS R(1)BA(2)CU(3)O(X) (R=GD,ER,AND YB) AND Y(1)BA(2)CU(3)O(X)" 1987 8 "RESISTANCE ,Tc ,PRESSURE" "LOS ALAMOS NATIONAL LABORATORY,LOS ALAMOS,NEW MEXICO" "PHYS.REV.B,36(1987)2404" "GD,ER,YB,Y,BA,CU,O" 634 PRB0392788 "Y(Ba,Sr)2Cu3O7" Y1Ba1.48Sr0.52Cu3O7-Z Y 1 Ba 1.48 Sr 0.52 Cu 3 O 7-Z 1 1989 3 Y123 3.79 3.84 11.52 K 95 95 LOCAL STRUCTURE DISTORTION IN A Y(1)BA(2-0.52)SR(0.52)CU(3)O(7) SUPERCONDUCTOR 1989 2 "STRUCTURE ,XAFS" "INSTITUTE FOR STRUCTURE AND FUNCTION STUDIES,PHILADELPHIA" "PHYS.REV.B,39(1989)2788" "Y,BA,SR,CU,O" 635 PRB0392788 "Y(Ba,Sr)2Cu3O7" Y1Ba1.48Sr0.52Cu3O7-Z Y 1 Ba 1.48 Sr 0.52 Cu 3 O 7-Z 1 1989 3 Y123 3.812 3.862 11.586 K 85 85 LOCAL STRUCTURE DISTORTION IN A Y(1)BA(2-0.52)SR(0.52)CU(3)O(7) SUPERCONDUCTOR 1989 2 "STRUCTURE ,XAFS" "INSTITUTE FOR STRUCTURE AND FUNCTION STUDIES,PHILADELPHIA" "PHYS.REV.B,39(1989)2788" "Y,BA,SR,CU,O" 636 PRB0392748 EuBa2Cu3O7 Eu1Ba2Cu3OX Eu 1 Ba 2 Cu 3 O X 1 1989 5.31 3 Y123 K 93 95 93 31 A 1700 MUON-SPIN-ROTATION MEASUREMENT OF MAGNETIC FIELD PENETRATION AND FLUX PINNING IN SUPERCONDUCTING EU(1)BA(2)CU(3)O(X) 1989 2 "MUON ,PENETRATION DEPTH ,FLUX PIN" "LOS ALAMOS NATIONAL LABORATORY,NEW MEXICO" "PHYS.REV.B,39(1989)2748" "EU,BA,CU,O" 637 JJP0272274 SmBa2Cu3O7 Sm1Ba2Cu3O6.85 Sm 1 Ba 2 Cu 3 O 7-Z 6.85 1 1988 3 Y123 3.858 3.909 11.754 K 91.4 94.2 92.8 "OXYGEN CONTENT AND TRANSITION TEMPERATURE (TC) IN BA(2-X)LN(1+X)CU(3)O(7-Z) (LN=SM,EU)" 1988 12 "OXYGEN CONTENT ,VALENCE ,DOPANT" "R&D CENTER,TDK CORPORATION,ICHIKAWA,CHIBA" "JJAP LETT.,27(1988)L2274" "BA,SM,EU,CU,O" 638 JJP0272274 "Sm(Ba,Sm)2Cu3O7" Sm1.05Ba1.95Cu3O6.87 Sm 1.05 Ba 1.95 Cu 3 O 7-Z 6.87 1 1988 3 Y123 3.853 3.903 11.743 K 86.5 93 89.75 "OXYGEN CONTENT AND TRANSITION TEMPERATURE (TC) IN BA(2-X)LN(1+X)CU(3)O(7-Z) (LN=SM,EU)" 1988 12 "OXYGEN CONTENT ,VALENCE ,DOPANT" "R&D CENTER,TDK CORPORATION,ICHIKAWA,CHIBA" "JJAP LETT.,27(1988)L2274" "BA,SM,EU,CU,O" 639 JJP0272274 "Sm(Ba,Sm)2Cu3O7" Sm1.15Ba1.85Cu3O6.95 Sm 1.15 Ba 1.85 Cu 3 O 7-Z 6.95 1 1988 3 Y123 3.859 3.902 11.741 K 73.5 81.1 77.3 "OXYGEN CONTENT AND TRANSITION TEMPERATURE (TC) IN BA(2-X)LN(1+X)CU(3)O(7-Z) (LN=SM,EU)" 1988 12 "OXYGEN CONTENT ,VALENCE ,DOPANT" "R&D CENTER,TDK CORPORATION,ICHIKAWA,CHIBA" "JJAP LETT.,27(1988)L2274" "BA,SM,EU,CU,O" 640 JJP0272274 "Sm(Ba,Sm)2Cu3O7" Sm1.2Ba1.8Cu3O7.01 Sm 1.2 Ba 1.8 Cu 3 O 7-Z 7.01 1 1988 3 Y123 3.87 3.88 11.658 K 51.4 61.6 56.5 "OXYGEN CONTENT AND TRANSITION TEMPERATURE (TC) IN BA(2-X)LN(1+X)CU(3)O(7-Z) (LN=SM,EU)" 1988 12 "OXYGEN CONTENT ,VALENCE ,DOPANT" "R&D CENTER,TDK CORPORATION,ICHIKAWA,CHIBA" "JJAP LETT.,27(1988)L2274" "BA,SM,EU,CU,O" 641 JJP0272274 "Sm(Ba,Sm)2Cu3O7" Sm1.28Ba1.72Cu3O7.03 Sm 1.28 Ba 1.72 Cu 3 O 7-Z 7.03 1 1988 Y123 11.639 K 33.7 53.5 43.6 "OXYGEN CONTENT AND TRANSITION TEMPERATURE (TC) IN BA(2-X)LN(1+X)CU(3)O(7-Z) (LN=SM,EU)" 1988 12 "OXYGEN CONTENT ,VALENCE ,DOPANT" "R&D CENTER,TDK CORPORATION,ICHIKAWA,CHIBA" "JJAP LETT.,27(1988)L2274" "BA,SM,EU,CU,O" 642 JJP0272274 "Sm(Ba,Sm)2CuO7" Sm1.35Ba1.65Cu3O7.07 Sm 1.35 Ba 1.65 Cu 3 O 7-Z 7.07 1 1988 Y123 11.639 K 10.5 41.9 26.2 "OXYGEN CONTENT AND TRANSITION TEMPERATURE (TC) IN BA(2-X)LN(1+X)CU(3)O(7-Z) (LN=SM,EU)" 1988 12 "OXYGEN CONTENT ,VALENCE ,DOPANT" "R&D CENTER,TDK CORPORATION,ICHIKAWA,CHIBA" "JJAP LETT.,27(1988)L2274" "BA,SM,EU,CU,O" 643 JJP0272274 "Sm(Ba,Sm)2CuO7" Sm1.5Ba1.5Cu3O7.14 Sm 1.5 Ba 1.5 Cu 3 O 7-Z 7.14 1 1988 Y123 3.863 3.872 11.574 K "OXYGEN CONTENT AND TRANSITION TEMPERATURE (TC) IN BA(2-X)LN(1+X)CU(3)O(7-Z) (LN=SM,EU)" 1988 12 "OXYGEN CONTENT ,VALENCE ,DOPANT" "R&D CENTER,TDK CORPORATION,ICHIKAWA,CHIBA" "JJAP LETT.,27(1988)L2274" "BA,SM,EU,CU,O" 644 JJP0272283 "(Nd,Ce,Sr)2CuO4" Nd1.32Ce0.27Sr0.41Cu1OY Nd 1.32 Ce 0.27 Sr 0.41 Cu 1 O Y 1 1988 T' 3.856 12.487 K 20 20 IDENTIFICATION OF THE SUPERCONDUCTING PHASE IN THE ND-CE-SR-CU0O SYSTEM 1988 12 "SINGLE PHASE ,SUSCEPTIBILITY ,CONDUCTIVITY ,TE" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS,TSUKUBA IBARAKI" "JJAP LETT.,27(1988)L2283" "ND,CE,SR,CU,O" 645 PRB0394299 YBa2Cu3O7 Y1Ba2Cu3O6.75 Y 1 Ba 2 Cu 3 O X 6.75 1989 Y123 K 89.1 89.1 PHASE TRANSFORMATIONS IN YBA(2)CU(3)O(7-Z) 1989 3 "ANNEALING ,PHASE TRANSFORMATION ,TWINNING" "MATERIALS SCIENCE DIVISION,BUILDING 223,ARGONNE NATIONAL LABORA-TORY, ARGONNE,ILLINOIS" "PHYSICAL REVIEW B.,39(1989)4299" "Y,BA,CU,O" 646 PRB0394299 YBa2Cu3O7 Y1Ba2Cu3O6.72 Y 1 Ba 2 Cu 3 O X 6.72 1989 Y123 K 62 62 PHASE TRANSFORMATIONS IN YBA(2)CU(3)O(7-Z) 1989 3 "ANNEALING ,PHASE TRANSFORMATION ,TWINNING" "MATERIALS SCIENCE DIVISION,BUILDING 223,ARGONNE NATIONAL LABORA-TORY, ARGONNE,ILLINOIS" "PHYSICAL REVIEW B.,39(1989)4299" "Y,BA,CU,O" 647 PRB0394299 YBa2Cu3O7 Y1Ba2Cu3O6.62 Y 1 Ba 2 Cu 3 O X 6.62 1989 Y123 K 62 62 PHASE TRANSFORMATIONS IN YBA(2)CU(3)O(7-Z) 1989 3 "ANNEALING ,PHASE TRANSFORMATION ,TWINNING" "MATERIALS SCIENCE DIVISION,BUILDING 223,ARGONNE NATIONAL LABORA-TORY, ARGONNE,ILLINOIS" "PHYSICAL REVIEW B.,39(1989)4299" "Y,BA,CU,O" 648 PRB0394291 ErBa2Cu3O7 Er1Ba2Cu3O7-Z Er 1 Ba 2 Cu 3 O 7-Z 1989 0.55 Y123 3.828 3.89 K 88 89.5 88 MAGNETIC ORDERING IN THE HIGH-TEMPERATURE SUPERCONDUCTOR ERBA(2-)CU(3)O(7-Z) 1989 3 "NEUTRON DIFFRACTION ,MAGNETIC ORDERING ,SPECIFIC HEAT ,SI" "DEPARTMENT OF PHYSICS,UNIVERSITY OF WARWICK,COVENTRY CV 4 7 AL,-UNITED KINGDOM" "PHYS. REV. B.,39(1989)4291" "ER,BA,CU,O" 649 PRB0394693 Bi2Sr2CaCu2O8 Bi2Ca1Sr2Cu2O8 Bi 2 Ca 1 Sr 2 Cu 2 O 8 1989 Bi2212 K 82 88.5 96 88.5 3.4 TUNNELING MEASUREMENTS ON BI(2)CASR(2)CU(2)O(8) 1989 3 "TUNNELING ,I-V CHARACTERI" "DEPARTMENT OF PHYSICS AND ASTRONOMY,UNIVERSITY OF IOWA CITY,IOWA" "PHYS. REV. B.,39(1989)4693" "BI,CA,SR,CU,O" 650 JPS0570734 La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 1988 240 T K MAGNETIC PHASE DIAGRAM AND SUPERCONDUCTIVITY IN HIGH-TC(LA1-XBAX)2CUO4 1988 3 "PHASE DIAGRAM ,NQR ,ANTIFERROMAGNETISM" "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY, TOYONAKA, OSAKA" "J.PHYS.SOC.JAPAN,57(1988)734" "LA,BA,CU,O" 651 JPS0570734 "(La,Ba)2CuO4" La1.996Ba0.004Cu1O4 La 1.996 Ba 0.004 Cu 1 O 4 1988 189 T K MAGNETIC PHASE DIAGRAM AND SUPERCONDUCTIVITY IN HIGH-TC(LA1-XBAX)2CUO4 1988 3 "PHASE DIAGRAM ,NQR ,ANTIFERROMAGNETISM" "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY, TOYONAKA, OSAKA" "J.PHYS.SOC.JAPAN,57(1988)734" "LA,BA,CU,O" 652 JPS0570734 "(La,Ba)2CuO4" La1.99Ba0.01Cu1O4 La 1.99 Ba 0.01 Cu 1 O 4 1988 129 T K MAGNETIC PHASE DIAGRAM AND SUPERCONDUCTIVITY IN HIGH-TC(LA1-XBAX)2CUO4 1988 3 "PHASE DIAGRAM ,NQR ,ANTIFERROMAGNETISM" "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY, TOYONAKA, OSAKA" "J.PHYS.SOC.JAPAN,57(1988)734" "LA,BA,CU,O" 653 JPS0570734 "(La,Ba)2CuO4" La1.987Ba0.014Cu1O4 La 1.987 Ba 0.014 Cu 1 O 4 1988 88 T K MAGNETIC PHASE DIAGRAM AND SUPERCONDUCTIVITY IN HIGH-TC(LA1-XBAX)2CUO4 1988 3 "PHASE DIAGRAM ,NQR ,ANTIFERROMAGNETISM" "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY, TOYONAKA, OSAKA" "J.PHYS.SOC.JAPAN,57(1988)734" "LA,BA,CU,O" 654 JPS0570734 "(La,Ba)2CuO4" La1.986Ba0.014Cu1O4 La 1.986 Ba 0.014 Cu 1 O 4 1988 15 T K MAGNETIC PHASE DIAGRAM AND SUPERCONDUCTIVITY IN HIGH-TC(LA1-XBAX)2CUO4 1988 3 "PHASE DIAGRAM ,NQR ,ANTIFERROMAGNETISM" "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY, TOYONAKA, OSAKA" "J.PHYS.SOC.JAPAN,57(1988)734" "LA,BA,CU,O" 655 JPS0570734 "(La,Ba)2CuO4" La1.984Ba0.016Cu1O4 La 1.984 Ba 0.016 Cu 1 O 4 1988 12 T K MAGNETIC PHASE DIAGRAM AND SUPERCONDUCTIVITY IN HIGH-TC(LA1-XBAX)2CUO4 1988 3 "PHASE DIAGRAM ,NQR ,ANTIFERROMAGNETISM" "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY, TOYONAKA, OSAKA" "J.PHYS.SOC.JAPAN,57(1988)734" "LA,BA,CU,O" 656 JPS0570734 "(La,Ba)2CuO4" La1.98Ba0.02Cu1O4 La 1.98 Ba 0.02 Cu 1 O 4 1988 8.8 T K MAGNETIC PHASE DIAGRAM AND SUPERCONDUCTIVITY IN HIGH-TC(LA1-XBAX)2CUO4 1988 3 "PHASE DIAGRAM ,NQR ,ANTIFERROMAGNETISM" "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY, TOYONAKA, OSAKA" "J.PHYS.SOC.JAPAN,57(1988)734" "LA,BA,CU,O" 657 JPS0570734 "(La,Ba)2CuO4" La1.95Ba0.05Cu1O4 La 1.95 Ba 0.05 Cu 1 O 4 1988 1.5 T K MAGNETIC PHASE DIAGRAM AND SUPERCONDUCTIVITY IN HIGH-TC(LA1-XBAX)2CUO4 1988 3 "PHASE DIAGRAM ,NQR ,ANTIFERROMAGNETISM" "DEPARTMENT OF MATERIAL PHYSICS, FACULTY OF ENGINEERING SCIENCE, OSAKA UNIVERSITY, TOYONAKA, OSAKA" "J.PHYS.SOC.JAPAN,57(1988)734" "LA,BA,CU,O" 658 PHC1570237 "(Ba,K)BiO3" Ba0.65K0.35Bi1O3 Ba 0.65 K 0.35 Bi 1 O 3 1989 BKBO K 23 23 K/GPa 0.8 EFFECT OF PRESSURE ON THE SUPERCONDUCTING TRANSITION TEMPERATURE OF BA(1-X)K(X)BI(1)O(3) 1989 2 "TC ,PRESSURE" "SANDIA NATIONAL LABORATORIES,ALBUQUERQUE,USA" "PHYSICA C,157(1989)237" "BA,K,BI,O" 659 PHC1570237 La2CuO4 La2Cu1O4.13 La 2 Cu 1 O 4.13 1989 T K 28 28 K/GPa 2.7 EFFECT OF PRESSURE ON THE SUPERCONDUCTING TRANSITION TEMPERATURE OF BA(1-X)K(X)BI(1)O(3) 1989 2 "TC ,PRESSURE" "SANDIA NATIONAL LABORATORIES,ALBUQUERQUE,USA" "PHYSICA C,157(1989)237" "BA,K,BI,O" 660 PHC1570237 "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 1989 T K 26 26 K/GPa 2 EFFECT OF PRESSURE ON THE SUPERCONDUCTING TRANSITION TEMPERATURE OF BA(1-X)K(X)BI(1)O(3) 1989 2 "TC ,PRESSURE" "SANDIA NATIONAL LABORATORIES,ALBUQUERQUE,USA" "PHYSICA C,157(1989)237" "BA,K,BI,O" 661 PHC1570237 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1989 T K 39 39 K/GPa 3.5 EFFECT OF PRESSURE ON THE SUPERCONDUCTING TRANSITION TEMPERATURE OF BA(1-X)K(X)BI(1)O(3) 1989 2 "TC ,PRESSURE" "SANDIA NATIONAL LABORATORIES,ALBUQUERQUE,USA" "PHYSICA C,157(1989)237" "BA,K,BI,O" 662 PHC1570237 "(La,Sr)2CuO4" La1.75Sr0.25Cu1O4 La 1.75 Sr 0.25 Cu 1 O 4 1989 T K 30 30 K/kbar 0 EFFECT OF PRESSURE ON THE SUPERCONDUCTING TRANSITION TEMPERATURE OF BA(1-X)K(X)BI(1)O(3) 1989 2 "TC ,PRESSURE" "SANDIA NATIONAL LABORATORIES,ALBUQUERQUE,USA" "PHYSICA C,157(1989)237" "BA,K,BI,O" 663 PHC1570237 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2OX Bi 2 Sr 2 Ca 1 Cu 2 O X 1989 Bi2212 K 85 85 K/GPa 2.4 EFFECT OF PRESSURE ON THE SUPERCONDUCTING TRANSITION TEMPERATURE OF BA(1-X)K(X)BI(1)O(3) 1989 2 "TC ,PRESSURE" "SANDIA NATIONAL LABORATORIES,ALBUQUERQUE,USA" "PHYSICA C,157(1989)237" "BA,K,BI,O" 664 PHC1570237 BiSr2Ca2Cu3O10 Bi2Sr2Ca2Cu3OX Bi 2 Sr 2 Ca 2 Cu 3 O X 1989 Bi2212 K 108 108 K/GPa 1.6 EFFECT OF PRESSURE ON THE SUPERCONDUCTING TRANSITION TEMPERATURE OF BA(1-X)K(X)BI(1)O(3) 1989 2 "TC ,PRESSURE" "SANDIA NATIONAL LABORATORIES,ALBUQUERQUE,USA" "PHYSICA C,157(1989)237" "BA,K,BI,O" 665 PHC1570237 TlBa2CaCu2O8 Tl2Ca1Ba2Cu2OX Tl 2 Ca 1 Ba 2 Cu 2 O X 1989 Tl2212 K 106 106 K/GPa 2 EFFECT OF PRESSURE ON THE SUPERCONDUCTING TRANSITION TEMPERATURE OF BA(1-X)K(X)BI(1)O(3) 1989 2 "TC ,PRESSURE" "SANDIA NATIONAL LABORATORIES,ALBUQUERQUE,USA" "PHYSICA C,157(1989)237" "BA,K,BI,O" 666 PHC1570237 YBa2Cu3O7 Y1Ba2Cu3O6.8 Y 1 Ba 2 Cu 3 O 6.8 1989 Y123 K 92 92 K/GPa 0.7 EFFECT OF PRESSURE ON THE SUPERCONDUCTING TRANSITION TEMPERATURE OF BA(1-X)K(X)BI(1)O(3) 1989 2 "TC ,PRESSURE" "SANDIA NATIONAL LABORATORIES,ALBUQUERQUE,USA" "PHYSICA C,157(1989)237" "BA,K,BI,O" 667 SSC0651355 RH300 BY LOW FREQ. AC TECHNIQUE YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O Z 7 1988 Y123 K 91 5 91 0.9 1.12E-09 0.000000002 1 RH667 HALL-EFFECT OF THE HIGH TC SUPERCONDUCTORS Y-BA-CU-O AND GD-BA-CU-O 1988 4 "HALL EFFECT ,HEAT TREATMENT" "INSTITUTE OF PHYSICS OF THE UNIVERSITY,P.O.B.YUGOSLAVIA" "SOLID STATE COMMUN.,65(1988)1355" "Y,BA,CU,O,GD,BA,CU,O" 668 SSC0651355 YBa2Cu3O7 Y1Ba2Cu3O6.6 Y 1 Ba 2 Cu 3 O Z 6.6 1988 Y123 K 4.2 1.7 1.69E-08 0.000000002 RH668 HALL-EFFECT OF THE HIGH TC SUPERCONDUCTORS Y-BA-CU-O AND GD-BA-CU-O 1988 4 "HALL EFFECT ,HEAT TREATMENT" "INSTITUTE OF PHYSICS OF THE UNIVERSITY,P.O.B.YUGOSLAVIA" "SOLID STATE COMMUN.,65(1988)1355" "Y,BA,CU,O,GD,BA,CU,O" 669 SSC0641287 YBa2Cu3O7 Y1Ba2Cu3OX Y 1 Ba 2 Cu 3 O X 1987 Y123 K 89 89 2 HALL EFFECT MEASUREMENTS ON A BULK Y(1)BA(2)CU(3)O(7) SAMPLE 1987 12 "HALL EFFECT ,RESISTIVITY" "CSIRO DIVISION OF APPLIED PHYSICS,LINDFIELD,AUSTRALIA" "SOLID STATE COMMUN.,64(1987)1287" "Y,BA,CU,O" 670 PRB0380844 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O X 7 1988 Y123 K 92 92 0.8 HALL COEFFICIENT AND OXYGEN STOICHIOMETRY IN Y(1)BA(2)CU(3)O(7-Z) CERAMICS AT ELEVATED TEMPERATURES 1988 7 "RESISTIVITY ,OXYGEN CONTENT ,HALL EFF" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,38(1988)844" "Y,BA,CU,O" 671 PLA1310203 YBa2Cu3O7 Y1Ba2Cu3O6.94 Y 1 Ba 2 Cu 3 O X 6.94 1988 Y123 K 4.00E-10 8.00E-10 RESISTIVITY AND THERMOELECTRIC POWER IN Y(1)BA(2)CU(3)O(X) SAMPLES WITH DIFFERENT OXYGEN CONTENT 1988 8 "RESISTIVITY ,THERMOPOWER ,OXYGEN CONTENT ,HA" "URAL DIVISION OF THE USSR ACADEMY OF SCIENCES,SVERDLOVSK,USSR" "PHYS.LETT.A,131(1988)203" "Y,BA,CU,O" 672 PLA1320217 "RHN AT 100K,DENS CALCULATED BY XRD" YBa2Cu3O7 Y1Ba2Cu3OX Y 1 Ba 2 Cu 3 O X 1988 4.86 Y123 K 91.9 91.9 1.84E-09 1.84E-09 LOCALIZATION EFFECTS IN THE Y(1)BA(2)CU(3-X)CO(X)O(Y) SYSTEM 1988 10 "HALL EFFECT ,LOCALIZATION ,XRY ,RE" "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,PR CHINA" "PHYS.LETT.A,132(1988)217" "Y,BA,CU,CO,O" 673 PRB0389280 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 2 1988 3 Y123 K 91.2 91.2 2.34 0.32 ORIENTATIONAL ANISOTROPY OF THE UPPER CRITICAL FIELD IN SINGLE-CRYSTAL Y(1)BA(2)CU(3)O(7) AND BI(2.2)CA(1)SR(1.9)CU(2)O(8+X) 1988 11 "SINGLE-CRYSTAL ,Hc ,ANISOTRO" "DEPARTMENT OF PHYSICS AND LABORATORY FOR RESEARCH ON THE STRUCTURE OF MATTER,UNIVERSITY OF PENNSYLVANIA,PHILADELPHIA,PENNSYLVANIA" "PHYS.REV.B,38(1988)9280" "Y,BA,CU,O,BI.CA.SR" 674 PRB0389280 Bi2Sr2CaCu2O8 Bi2.2Ca1Sr1.9Cu2O8+X Bi 2.2 Ca 1 Sr 1.9 Cu 2 O 8+X 2 1988 Bi2212 K 82 91 86.5 ORIENTATIONAL ANISOTROPY OF THE UPPER CRITICAL FIELD IN SINGLE-CRYSTAL Y(1)BA(2)CU(3)O(7) AND BI(2.2)CA(1)SR(1.9)CU(2)O(8+X) 1988 11 "SINGLE-CRYSTAL ,Hc ,ANISOTRO" "DEPARTMENT OF PHYSICS AND LABORATORY FOR RESEARCH ON THE STRUCTURE OF MATTER,UNIVERSITY OF PENNSYLVANIA,PHILADELPHIA,PENNSYLVANIA" "PHYS.REV.B,38(1988)9280" "Y,BA,CU,O,BI.CA.SR" 675 PRB0394316 Bi4Sr4La2Cu4OZ Bi 4 Sr 4 La 2 Cu 4 O Z 1 1989 3.875 30.592 K BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 676 PRB0394316 Bi4Sr4Pr2Cu4OZ Bi 4 Sr 4 Pr 2 Cu 4 O Z 1 1989 2.96 16 3.877 30.366 K BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 677 PRB0394316 Bi4Sr4Nd2Cu4OZ Bi 4 Sr 4 Nd 2 Cu 4 O Z 1 1989 2.97 30 Bi2212 3.872 30.287 K BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 678 PRB0394316 Bi4Sr4Sm2Cu4OZ Bi 4 Sr 4 Sm 2 Cu 4 O Z 1 1989 Bi2212 3.867 30.296 K BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 679 PRB0394316 Bi4Sr4Eu2Cu4OZ Bi 4 Sr 4 Eu 2 Cu 4 O Z 1 1989 Bi2212 3.863 30.138 K BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 680 PRB0394316 Bi4Sr4Gd2Cu4OZ Bi 4 Sr 4 Gd 2 Cu 4 O Z 1 1989 7.84 2 Bi2212 3.855 30.248 K BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 681 PRB0394316 Bi4Sr4Dy2Cu4OZ Bi 4 Sr 4 Dy 2 Cu 4 O Z 1 1989 10.23 8 Bi2212 3.853 30.162 K BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 682 PRB0394316 Bi4Sr4Y2Cu4OZ Bi 4 Sr 4 Y 2 Cu 4 O Z 1 1989 Bi2212 3.853 30.152 K BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 683 PRB0394316 Bi4Sr4Tb2Cu4OZ Bi 4 Sr 4 Tb 2 Cu 4 O Z 1 1989 7.66 13 Bi2212 3.85 30.232 K BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 684 PRB0394316 Bi4Sr4Ho2Cu4OZ Bi 4 Sr 4 Ho 2 Cu 4 O Z 1989 10.23 13 Bi2212 3.843 30.025 K BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 685 PRB0394316 Bi4Sr4Er2Cu4OZ Bi 4 Sr 4 Er 2 Cu 4 O Z 1989 9.39 14 Bi2212 3.841 30.156 K BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 686 PRB0394316 Bi4Sr4Tm2Cu4OZ Bi 4 Sr 4 Tm 2 Cu 4 O Z 1989 7.66 32 Bi2212 3.824 30.173 K BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 687 PRB0394316 Bi4Sr4Yb2Cu4OZ Bi 4 Sr 4 Yb 2 Cu 4 O Z 1989 Bi2212 3.85 30.474 K BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 688 PRB0394316 Bi4Sr4Lu2Cu4OZ Bi 4 Sr 4 Lu 2 Cu 4 O Z 1989 Bi2212 3.812 30.316 K BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 689 PHC1580230 "Bi2(Sr,Ca)2CuO6" Bi2Sr1.3Ca0.7Cu1O6.15 Bi 2 Sr 1.3 Ca 0.7 Cu 1 O 6.15 1989 Bi2201 K 84 84 A MUON-SPIN RELAXATION 3550 "BI2O3,SRCO3,CACO3,CUO" 0 MIXTURE-CAL(750C 15H)-SIN(830C 15H) "MAGNETIC PENETRATION DEPTH IN BI(2)(SR,CA)(2)CUO(8-Z)" 1989 4 "INSTITUT FUR MITTELENERGIEPHYSIK,ETHZ,CH-5232 VILLIGEN PSI,SWITZERLAND" "PHYSICA C ,158(1989)230" "BI,SR,CA,CU,O" 690 PHC1580097 Bi0.8Pb0.2Sb0.05Sr1Ca1Cu2OX Bi 0.8 Pb 0.2 Sb 0.05 Sr 1 Ca 1 Cu 2 O X 1989 5.23 5.18 35.98 K 93 107 93 "(BI,SR,CA,CU,PB)-NITRATE,SB2O5" 0 MIXTURE-CAL(800C 12H+840C 24H)-SIN(850C 60-100H IN (N2+O2) GAS) EFFECT OF SB SUBSTITUTION ON TC IN BI-PB-SR-CA-CU-O SYSTEMS 1989 4 "MATERIAL ,SB SUBSTITUTION ,SUPERLAT" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING,UNIVERSITY OF NEWSOUTH WALES,P.O.BOX 1 KENSINGTON,NSW 2033,AUSTRALIA" "PHISICA C ,158(1989)97" "SB,BI,PB,SR,CA,CU,O" 691 PHC1580097 Bi0.8Pb0.2Sr1Ca1Cu2OZ Bi 0.8 Pb 0.2 Sr 1 Ca 1 Cu 2 O Z 1989 5.26 5.23 36.45 K 108 108 "(BI,SR,CA,CU,PB)-NITRATE,SB2O5" 0 MIXTURE-CAL(800C 12H+840C 24H)-SIN(850C 60-100H IN (N2+O2) GAS) EFFECT OF SB SUBSTITUTION ON TC IN BI-PB-SR-CA-CU-O SYSTEMS 1989 4 "MATERIAL ,SB SUBSTITUTION ,SUPERLAT" "SCHOOL OF MATERIALS SCIENCE AND ENGINEERING,UNIVERSITY OF NEWSOUTH WALES,P.O.BOX 1 KENSINGTON,NSW 2033,AUSTRALIA" "PHISICA C ,158(1989)97" "SB,BI,PB,SR,CA,CU,O" 692 PHC1580265 YBa2Cu3O7 Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 1989 Y123 K 92 92 0 "NEUTRON DIFFRACTION STUDY OF THE SUPERCONDUCTOR YBA(2)(CU(1-X)FE(X))(3)O(7-Z) AT X=0.06 AND 0.10,Z=0" 1989 4 "NEUTRON DIFFRACTION ,RIETVELD" "LABORATORY OF NEUTRON PHYSICS,JOINT INSTITUTE FOR NUCLEAR RESEARCH,DUBNA,USSR" "PHYSICA C ,158(1989)265" "Y,BA,CU,FE,O" 693 PHC1580265 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.82Fe0.18OZ Y 1 Ba 2 Cu 2.82 Fe 0.18 O Z 1989 Y123 K 55 55 0 "NEUTRON DIFFRACTION STUDY OF THE SUPERCONDUCTOR YBA(2)(CU(1-X)FE(X))(3)O(7-Z) AT X=0.06 AND 0.10,Z=0" 1989 4 "NEUTRON DIFFRACTION ,RIETVELD" "LABORATORY OF NEUTRON PHYSICS,JOINT INSTITUTE FOR NUCLEAR RESEARCH,DUBNA,USSR" "PHYSICA C ,158(1989)265" "Y,BA,CU,FE,O" 694 PHC1580265 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.7Fe0.3OZ Y 1 Ba 2 Cu 2.7 Fe 0.3 O Z 1989 Y123 K 39 39 0 "NEUTRON DIFFRACTION STUDY OF THE SUPERCONDUCTOR YBA(2)(CU(1-X)FE(X))(3)O(7-Z) AT X=0.06 AND 0.10,Z=0" 1989 4 "NEUTRON DIFFRACTION ,RIETVELD" "LABORATORY OF NEUTRON PHYSICS,JOINT INSTITUTE FOR NUCLEAR RESEARCH,DUBNA,USSR" "PHYSICA C ,158(1989)265" "Y,BA,CU,FE,O" 695 PHC1580237 Bi4.4Sr3.6Ca2Cu4OY Bi 4.4 Sr 3.6 Ca 2 Cu 4 O Y 1989 K 83.6 83.6 K/kbar 0.2 2.3 630 0 CRYSTAL GROWN BY CUO FLUX METHOD PRESSURE-EFFECT STUDY ON HIGH-TC SUPERCONDUCTING SINGLE CRYSTAL OF 84 K BI-SR-CA-CU-O SYSTEM 1989 4 "PRESSURE EFFECT ,TC ,RESISTIVITY ,SI" "NIPPON TELEGRAPH AND TELEPHONE CORPORATION,OPTO-ELECTRONICS LABORATORIES,TOKAI IBARAKI 319-11,JAPAN" "PHYSICA C ,158(1989)237" "BI,SR,CA,CU,O" 696 PHC1580255 "(Bi,Pb)2Sr2Ca2Cu3O10" Pb0.3Bi1.7Sr2Ca2Cu3O10+Z Pb 0.3 Bi 1.7 Sr 2 Ca 2 Cu 3 O 10+Z 1989 Bi2223 5.418 5.346 37.1 K 107 107 SP696 5.3 34.6 418 "PBO,BI2O3,SRCO3,CACO3,CUO" 0 CAL(800-810C 12H)-SIN(870-880C 240H IN AIR)-FC TO 500C-Q "THE SPECIFIC HEAT OF THE SINGLE-PHASE (BI,PB)(2)SR(2)CA(2)CU(3)O(10+Y) SUPERCONDUCTOR" 1989 4 "SPECIFIC HEAT ,SINGLE-PHASE" "INSTITUTE OF PHYSICS,CHINESE ACADEMY OF SCIENCE,BEIJING,P.R.CHINA" "PHYSICA C ,158(1989)255" "BI,PB,SR,CA,CU,O" 697 PRB0399069 YBa2Cu3Oz Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O Z 6.9 1 1989 3 Y123 3.817 3.884 11.671 K 91 91 OXYGEN IN-DIFFUSION PROCESSES IN TETRAGONAL YBA(2)CU(3)O(7-X)OXIDE 1989 5 "RESISTANCE ,DIFFUSION ,OXYGEN CONTENT ,DISORDER-ORDER" "PHYSICS DEPARTMENT,UNIVERSITA DEGLI STUDI DI MODENA,VIA CAMPI213/A,I-41100,MODENA,ITALY" "Phys.Rev.B,39(1989)9069" "Y,BA,CU,O" 698 PRB0399069 YBa2Cu3Oz Y1Ba2Cu3O6.4 Y 1 Ba 2 Cu 3 O Z 6.4 1 1989 2 Y123 3.861 11.803 K OXYGEN IN-DIFFUSION PROCESSES IN TETRAGONAL YBA(2)CU(3)O(7-X)OXIDE 1989 5 "RESISTANCE ,DIFFUSION ,OXYGEN CONTENT ,DISORDER-ORDER" "PHYSICS DEPARTMENT,UNIVERSITA DEGLI STUDI DI MODENA,VIA CAMPI213/A,I-41100,MODENA,ITALY" "Phys.Rev.B,39(1989)9069" "Y,BA,CU,O" 699 PRB0399069 YBa2Cu3Oz Y1Ba2Cu3O6.4 Y 1 Ba 2 Cu 3 O Z 6.4 1 1989 2 Y123 3.858 11.81 K OXYGEN IN-DIFFUSION PROCESSES IN TETRAGONAL YBA(2)CU(3)O(7-X)OXIDE 1989 5 "RESISTANCE ,DIFFUSION ,OXYGEN CONTENT ,DISORDER-ORDER" "PHYSICS DEPARTMENT,UNIVERSITA DEGLI STUDI DI MODENA,VIA CAMPI213/A,I-41100,MODENA,ITALY" "Phys.Rev.B,39(1989)9069" "Y,BA,CU,O" 700 PRB0399069 YBa2Cu3Oz Y1Ba2Cu3O6.55 Y 1 Ba 2 Cu 3 O Z 6.55 1 1989 3 Y123 3.82 3.89 11.714 K 89 89 OXYGEN IN-DIFFUSION PROCESSES IN TETRAGONAL YBA(2)CU(3)O(7-X)OXIDE 1989 5 "RESISTANCE ,DIFFUSION ,OXYGEN CONTENT ,DISORDER-ORDER" "PHYSICS DEPARTMENT,UNIVERSITA DEGLI STUDI DI MODENA,VIA CAMPI213/A,I-41100,MODENA,ITALY" "Phys.Rev.B,39(1989)9069" "Y,BA,CU,O" 701 PRB0399069 YBa2Cu3Oz Y1Ba2Cu3O6.66 Y 1 Ba 2 Cu 3 O Z 6.66 1 1989 3 Y123 3.82 3.89 11.681 K OXYGEN IN-DIFFUSION PROCESSES IN TETRAGONAL YBA(2)CU(3)O(7-X)OXIDE 1989 5 "RESISTANCE ,DIFFUSION ,OXYGEN CONTENT ,DISORDER-ORDER" "PHYSICS DEPARTMENT,UNIVERSITA DEGLI STUDI DI MODENA,VIA CAMPI213/A,I-41100,MODENA,ITALY" "Phys.Rev.B,39(1989)9069" "Y,BA,CU,O" 702 PRB0399069 YBa2Cu3O7 Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 1 1989 3 Y123 3.817 3.885 11.674 K 90 90 OXYGEN IN-DIFFUSION PROCESSES IN TETRAGONAL YBA(2)CU(3)O(7-X)OXIDE 1989 5 "RESISTANCE ,DIFFUSION ,OXYGEN CONTENT ,DISORDER-ORDER" "PHYSICS DEPARTMENT,UNIVERSITA DEGLI STUDI DI MODENA,VIA CAMPI213/A,I-41100,MODENA,ITALY" "Phys.Rev.B,39(1989)9069" "Y,BA,CU,O" 703 PRB0399682 "(Ba,K)BiO3" Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 1989 8.1 BKBO K 31.5 31.5 0.52 27.09 1.5 HEAT CAPACITY OF SUPERCONDUCTING BA0.6K0.4BIO3NEAR TC 1989 5 "HEAT CAPACITY ,SINGLE CRYSTALS ,MAGNETIZATION ,BA" "AT&T BELL LABORATORIES,MURRY HILL,NEW JERSEY 07974" PHYS.REV.B.39(1989)9682 "BA,K,BI,O" 704 SSC0700547 YBa2Cu3O7 Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 5 1989 Y123 K 90 90 3.2 INFRARED REFLECTANCE OF ANISOTROPIC(110)YBCO EPITAXIAL FILM 1989 5 "IR ,REFLECTANCE ,SINGLE CRYSTAL ,FI" "INSTITUTE OF PHTSICS,CZECHOSLIVAK ACAD.SCI.,NASLIVANCE 2,18040PRAGUE 8,CZECHOSLOVAKIA" "SOLID STATE COMMUN.,70(1989)547" "Y,BA,CU,O" 705 SSC0700553 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1989 Y123 K 92 92 82 DETERMINARION OF FLUX PINNING POTENTIALS FROM FIELD-INDUCED ANISOTROPY IN OXIDE SUPERCONDUCTORS 1989 5 "MAGNETIZATION ,PINNING ,RAYLEIGH" "DEPARTMENT OF PHYSICS,PEKING UNIVERSITY,BEIJING 100871,PRC" "SOLID STATE COMMUN.,70(1989)553" 706 SSC0700553 "YBa2(Cu,Ag)3O7" Y1Ba2Cu2.85Ag0.15O7 Y 1 Ba 2 Cu 2.85 Ag 0.15 O 7 1 1989 Y123 K 90 90 58 DETERMINARION OF FLUX PINNING POTENTIALS FROM FIELD-INDUCED ANISOTROPY IN OXIDE SUPERCONDUCTORS 1989 5 "MAGNETIZATION ,PINNING ,RAYLEIGH" "DEPARTMENT OF PHYSICS,PEKING UNIVERSITY,BEIJING 100871,PRC" "SOLID STATE COMMUN.,70(1989)553" 707 SSC0700561 YBa2Cu3O7 Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O Z 6.9 1 1989 3 Y123 K 90.6 90.6 THE EFFECT OF A MODERATE-TEMPERATURE ANNEALING ON THE STRUCTURE AND TEMPERATURE OF A SUPERCONDUCTIVE CONVERSION OF CERAMICSYBA2CU3OY 1989 5 "INSTITUTE OF SOLID STATE PHYSICS,CHERNOGOLOVKA,MOSCOW IBL.142432,USSR" "SOLID STATE COMMUN.,70(1989)561" "Y,BA,CU,O" 708 SSC0700561 YBa2Cu3O7 Y1Ba2Cu3O6.82 Y 1 Ba 2 Cu 3 O Z 6.82 1 1989 3 Y123 K 91.2 91.2 THE EFFECT OF A MODERATE-TEMPERATURE ANNEALING ON THE STRUCTURE AND TEMPERATURE OF A SUPERCONDUCTIVE CONVERSION OF CERAMICSYBA2CU3OY 1989 5 "INSTITUTE OF SOLID STATE PHYSICS,CHERNOGOLOVKA,MOSCOW IBL.142432,USSR" "SOLID STATE COMMUN.,70(1989)561" "Y,BA,CU,O" 709 SSC0700561 YBa2Cu3O7 Y1Ba2Cu3O6.66 Y 1 Ba 2 Cu 3 O Z 6.66 1 1989 3 Y123 K 88.9 88.9 THE EFFECT OF A MODERATE-TEMPERATURE ANNEALING ON THE STRUCTURE AND TEMPERATURE OF A SUPERCONDUCTIVE CONVERSION OF CERAMICSYBA2CU3OY 1989 5 "INSTITUTE OF SOLID STATE PHYSICS,CHERNOGOLOVKA,MOSCOW IBL.142432,USSR" "SOLID STATE COMMUN.,70(1989)561" "Y,BA,CU,O" 710 SSC0700561 YBa2Cu3O7 Y1Ba2Cu3O6.47 Y 1 Ba 2 Cu 3 O Z 6.47 1 1989 Y123 K 43.6 43.6 THE EFFECT OF A MODERATE-TEMPERATURE ANNEALING ON THE STRUCTURE AND TEMPERATURE OF A SUPERCONDUCTIVE CONVERSION OF CERAMICSYBA2CU3OY 1989 5 "INSTITUTE OF SOLID STATE PHYSICS,CHERNOGOLOVKA,MOSCOW IBL.142432,USSR" "SOLID STATE COMMUN.,70(1989)561" "Y,BA,CU,O" 711 SSC0700561 YBa2Cu3O7 Y1Ba2Cu3O6.46 Y 1 Ba 2 Cu 3 O Z 6.46 1 1989 Y123 K 45 45 THE EFFECT OF A MODERATE-TEMPERATURE ANNEALING ON THE STRUCTURE AND TEMPERATURE OF A SUPERCONDUCTIVE CONVERSION OF CERAMICSYBA2CU3OY 1989 5 "INSTITUTE OF SOLID STATE PHYSICS,CHERNOGOLOVKA,MOSCOW IBL.142432,USSR" "SOLID STATE COMMUN.,70(1989)561" "Y,BA,CU,O" 712 SSC0700561 YBa2Cu3O7 Y1Ba2Cu3O6.19 Y 1 Ba 2 Cu 3 O Z 6.19 1 1989 Y123 K THE EFFECT OF A MODERATE-TEMPERATURE ANNEALING ON THE STRUCTURE AND TEMPERATURE OF A SUPERCONDUCTIVE CONVERSION OF CERAMICSYBA2CU3OY 1989 5 "INSTITUTE OF SOLID STATE PHYSICS,CHERNOGOLOVKA,MOSCOW IBL.142432,USSR" "SOLID STATE COMMUN.,70(1989)561" "Y,BA,CU,O" 713 SSC0700631 NOT S/C CeBa2Cu3O7 Ce1Ba2Cu3O7.4 Ce 1 Ba 2 Cu 3 O 7.4 7.4 1 1989 Y123 PMMM 6.208 6.232 8.759 K STRUCTURE STUDY OF BA2CECU3O7.4 1989 5 EXAFS RECEIVED 25 JANUARY 1989 BY W.Y.KUAN "SOLID STATE COMMUN.,70(1989)631" "BA,CE,CU,O" 714 SSC0700661 "TlSr2(Ca,Sm)Cu2O7" Tl1Sr2Ca0.5Sm0.5Cu2O6.75 Tl 1 Sr 2 Ca 0.5 Sm 0.5 Cu 2 O 6.75 6.75 1 1989 Tl1212 3.817 12.054 K 37.6 37.6 "TL2O3,SRO,CAO,SM2O3" 0 SIN(900C 4H IN O2)-FURNACE COOL TO RT THE CRYSTAL STRUCTURE AND SUPERCONDUCTIVITY OF NEW SUPERCONDUCTING PHASE TISR2CA0.5SM0.5CU2O6.75 1989 5 "STRUCTURE ,XRY" "INSTITUTE OF PHYSICS,ACADEMIA SINICA,BEIJING 100080,CHINA" "SOLID STATE COMMUN.,70(1989)661" "TL,SR,CA,SM,CU,O" 715 PRB0399689 Bi1.84Pb0.34Sr2Cu3O10 Bi 1.84 Pb 0.34 Sr 2 Cu 3 O 10 1989 6.5 GPa 82 GPa 34.2 GPa 45.7 0.2 253000 Bi2212 5.396 37.18 K 312 ELASTIC CONSTANTS OF THE POLYCRYSTALLINE BI-PB-SR-CA-CU-O SUPERCONDUCTOR 1989 5 "ELASTIC CONSTANTS ,SHEAR MODULUS ,DEBYE" "NATIONAL INSTITUTE OF STANDARDS AND TECHNOLOGY,BOULDER,COLORADO 80303" "Phys.Rev.B,39(1989)9689" "BI,PB,SR,CA,CU,O" 716 PRB0399611 YBa2Cu4O8 Y1Ba2Cu4O8+-Z Y 1 Ba 2 Cu 4 O 8+-Z 1989 Y124 K 82 82 1 500 NONLINEAR TEMPERATURE DEPENDENCE OF THE NORMAL-STATE RESISTIVITY IN YBA2CU4O8+-ZFILMS 1989 5 "RESISITIVITY ,FILMS ,NONLINEA" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY 07974" "Phys.Rev.B,39(1989)9611" "Y,BA,CU,O" 717 PRB0399611 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1989 Y123 K 91.5 91.5 3 NONLINEAR TEMPERATURE DEPENDENCE OF THE NORMAL-STATE RESISTIVITY IN YBA2CU4O8+-ZFILMS 1989 5 "RESISITIVITY ,FILMS ,NONLINEA" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY 07974" "Phys.Rev.B,39(1989)9611" "Y,BA,CU,O" 718 PHC1580143 "Tl(Ba,La)2CuO5" Tl1Ba1La1Cu1O5 Tl 1 Ba 1 La 1 Cu 1 O 5 1989 Tl1201 3.843 9.01 K 25.7 SUPERCONDUCTIVITY OF TLBA(1+X)LA(1-X)CUO(5) WITH 1201 STRUCTURE 1989 4 "MATERIAL ,XRY ,RES ,SUS" "FUNDAMENTAL RESEARCH LABORATORIES,RESOURCE AND ENVIORONMENT PROTECTION RESEARCH LABORATORIES,NEC CORPORATION,4-1-1,MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYSICA C ,158(1989)143" "TL,BA,LA,CU,O" 719 PHC1580143 "Tl(Ba,La)2CuO5" Tl1Ba1.1La0.9Cu1O5 Tl 1 Ba 1.1 La 0.9 Cu 1 O 5 1989 Tl1201 3.84 9.054 K 39.6 39.6 3.6 SUPERCONDUCTIVITY OF TLBA(1+X)LA(1-X)CUO(5) WITH 1201 STRUCTURE 1989 4 "MATERIAL ,XRY ,RES ,SUS" "FUNDAMENTAL RESEARCH LABORATORIES,RESOURCE AND ENVIORONMENT PROTECTION RESEARCH LABORATORIES,NEC CORPORATION,4-1-1,MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYSICA C ,158(1989)143" "TL,BA,LA,CU,O" 720 PHC1580143 "Tl(Ba,La)2CuO5" Tl1Ba1.2La0.8Cu1O5 Tl 1 Ba 1.2 La 0.8 Cu 1 O 5 1989 Tl1201 3.834 9.107 K 41.1 41.1 3.6 SUPERCONDUCTIVITY OF TLBA(1+X)LA(1-X)CUO(5) WITH 1201 STRUCTURE 1989 4 "MATERIAL ,XRY ,RES ,SUS" "FUNDAMENTAL RESEARCH LABORATORIES,RESOURCE AND ENVIORONMENT PROTECTION RESEARCH LABORATORIES,NEC CORPORATION,4-1-1,MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYSICA C ,158(1989)143" "TL,BA,LA,CU,O" 721 PHC1580143 Tl(Ba2La)2CuO5 Tl1Ba1.4La0.6Cu1O5 Tl 1 Ba 1.4 La 0.6 Cu 1 O 5 1989 Tl1201 3.838 9.223 K 8.3 SUPERCONDUCTIVITY OF TLBA(1+X)LA(1-X)CUO(5) WITH 1201 STRUCTURE 1989 4 "MATERIAL ,XRY ,RES ,SUS" "FUNDAMENTAL RESEARCH LABORATORIES,RESOURCE AND ENVIORONMENT PROTECTION RESEARCH LABORATORIES,NEC CORPORATION,4-1-1,MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYSICA C ,158(1989)143" "TL,BA,LA,CU,O" 722 PHC1580148 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-X Nd 1.85 Ce 0.15 Cu 1 O 4-X 1989 T' 3.946 12.081 K 21 21 SINTHESIS AND X-RAY CHARACTERIZATION OF SUPERCONDUCTING AND RELATED Ln2-xCexCuO4-y(Ln=Nd AND GD) COMPOUNDS 1989 "IBM Research Division, Almaden Research Center, 650 Harry Road, San Jose, CA 95120-6099, USA" "Physica C, 159(1989)148-152" 723 PHC1580148 "(Gd,Ce)2CuO4" Gd1.85Ce0.15Cu1O4-X Gd 1.85 Ce 0.15 Cu 1 O 4-X 1989 T' 3.902 11.831 K SINTHESIS AND X-RAY CHARACTERIZATION OF SUPERCONDUCTING AND RELATED Ln2-xCexCuO4-y(Ln=Nd AND GD) COMPOUNDS 1989 "IBM Research Division, Almaden Research Center, 650 Harry Road, San Jose, CA 95120-6099, USA" "Physica C, 159(1989)148-152" 724 PHC1530026 YBa2Cu3Oz Y1Ba2Cu3O6.86 Y 1 Ba 2 Cu 3 O 7-X 6.86 1988 3 Y123 3.818 3.891 11.674 K 91 91 3.3 0.88 0.28 11 0.68 23 1.56E-10 4.50E-10 "THE ANISOTROPIC SUPERCONDUCTIVITY OF R(1)BA(2)CU(3)O(7-X) (R:Y,GD AND HO) SINGLE CRYSTALS" 1988 "SINGLE CRYSTAL ,ANISOTROPY ,RES ,HALL EFFECT" "THE INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,TOKYO" "PHYSICA C, 153(1988)26" "Y,GD,HO,BA,CU,O" 725 PHC1531357 YBa2Cu3Oz Y1Ba2Cu3O6.96 Y 1 Ba 2 Cu 3 O 7-X 6.96 1988 3 Y123 K 85 85 3.12 0.32 46 4.6 12.5 0.2 0.6 18 2.30E-09 4.10E-09 TRANSPORT PROPERTIES OF A Y(1)BA(2)CU(3)O(7-Z) SINGLE CRYSTAL 1988 "SINGLE CRYSTAL ,ANISOTROPY ,HC ,HALL EFFECT" "CENTRE D'ETUDES NUCLEAIRES,DEPARTMENT DE RECHERCHE FONDAMENTALE,38041 GRENOBLE CEDEX-F" "Physica C,153(1988)1357" "Y,BA,CU,O" 726 PRB0387016 Tl2Ca2Ba2Cu3OX Tl 2 Ca 2 Ba 2 Cu 3 O X 1988 Tl2223 3.85 36 K 120 120 2.60E-09 5.3 RH726 HALL EFFECT OF THE HIGH-TcSUPERCONDUCTING OXIDES BI-CA-SR-CU-O AND TL(2)CA(2)BA(2)CU(3)O(X) 1988 10 "HALL EFFECT ,RES" "JOSEPH HENRY LABORATORIES,PRINCETON UNIVERSITY,NEW JERSEY" "PHYS.REV.B,38(1988)7016" "BI,CA,SR,CU,O,TL,CA,BA,CU,O" 727 PRB0390729 Bi2Sr2Ca1Cu2OX Bi 2 Sr 2 Ca 1 Cu 2 O X 1989 Bi2212 K 0.16 0.29 2.2 2.8 HALL COEFFICIENT OF SINGLE-CRYSTAL BI(2)SR(2)CA(1)CU(2)O(Y) 1989 1 "SINGLE CRYSTAL ,CARRIER DENSITY ,HALL EFF" "INSTITUTE OF PHYSICS,ACADEMIA SINICA,BEIJING,CHINA" "PHYS.REV.B,39(1989)729" "BI,SR,CA,CU,O" 728 SSC0700725 YBa2Cu3Oz Y1Ba2Cu3OX Y 1 Ba 2 Cu 3 O X 1 1989 3 Y123 3.82 3.886 11.67 K 91.9 91.9 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 729 SSC0700725 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.95Ni0.05OX Y 1 Ba 2 Cu 2.95 Ni 0.05 O X 1 1989 3 Y123 3.826 3.886 11.67 K 86.8 86.8 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 730 SSC0700725 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.9Ni0.1OX Y 1 Ba 2 Cu 2.9 Ni 0.1 O X 1 1989 3 Y123 3.818 3.88 11.66 K 82.9 82.9 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 731 SSC0700725 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.95Zn0.05OX Y 1 Ba 2 Cu 2.95 Zn 0.05 O X 1 1989 3 Y123 3.822 3.881 11.68 K 72.2 72.2 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 732 SSC0700725 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.9Zn0.1OX Y 1 Ba 2 Cu 2.9 Zn 0.1 O X 1 1989 3 Y123 3.825 3.881 11.68 K 54.3 54.3 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 733 SSC0700725 NdBa2Cu3O7 Nd1Ba2Cu3OX Nd 1 Ba 2 Cu 3 O X 1 1989 3.4 -30.7 3 Y123 3.859 3.913 11.76 K 93 93 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 734 SSC0700725 "NdBa2(Cu,Ni)3O7" Nd1Ba2Cu2.95Ni0.05OX Nd 1 Ba 2 Cu 2.95 Ni 0.05 O X 1 1989 3.4 -38.6 3 Y123 3.878 3.919 11.73 K 85 85 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 735 SSC0700725 "NdBa2(Cu,Ni)3O7" Nd1Ba2Cu2.9Ni0.1OX Nd 1 Ba 2 Cu 2.9 Ni 0.1 O X 1 1989 3.2 -43.1 3 Y123 3.863 3.906 11.74 K 70.9 70.9 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 736 SSC0700725 "NdBa2(Cu,Zn)3O7" Nd1Ba2Cu2.95Zn0.05OX Nd 1 Ba 2 Cu 2.95 Zn 0.05 O X 1 1989 3.2 -33.1 3 Y123 3.868 3.895 11.74 K 65 65 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 737 SSC0700725 "NdBa2(Cu,Zn)3O7" Nd1Ba2Cu2.9Zn0.1OX Nd 1 Ba 2 Cu 2.9 Zn 0.1 O X 1 1989 3.2 -22.1 3 Y123 3.873 3.905 11.75 K 36.9 36.9 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 738 SSC0700725 GdBa2Cu3O7 Gd1Ba2Cu3OX Gd 1 Ba 2 Cu 3 O X 1 1989 7.9 5.4 3 Y123 3.844 3.896 11.7 K 93.4 93.4 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 739 SSC0700725 "GdBa2(Cu,Ni)3O7" Gd1Ba2Cu2.95Ni0.05OX Gd 1 Ba 2 Cu 2.95 Ni 0.05 O X 1 1989 7.4 2.7 3 Y123 3.85 3.885 11.68 K 86.2 86.2 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 740 SSC0700725 "GdBa2(Cu,Ni)3O7" Gd1Ba2Cu2.9Ni0.1OX Gd 1 Ba 2 Cu 2.9 Ni 0.1 O X 1 1989 7.7 4.5 3 Y123 3.845 3.883 11.69 K 84.5 84.5 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 741 SSC0700725 "GdBa2(Cu,Zn)3O7" Gd1Ba2Cu2.95Zn0.05OX Gd 1 Ba 2 Cu 2.95 Zn 0.05 O X 1 1989 7.8 5.1 3 Y123 3.845 3.89 11.7 K 72.5 72.5 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 742 SSC0700725 "GdBa2(Cu,Zn)3O7" Gd1Ba2Cu2.9Zn0.1OX Gd 1 Ba 2 Cu 2.9 Zn 0.1 O X 1 1989 7.8 0.9 3 Y123 3.842 3.89 11.7 K 53.6 53.6 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 743 SSC0700725 DyBa2Cu3O7 Dy1Ba2Cu3OX Dy 1 Ba 2 Cu 3 O X 1 1989 10.5 -5.2 3 Y123 3.83 3.892 11.67 K 91.3 91.3 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 744 SSC0700725 "DyBa2(Cu,Ni)3O7" Dy1Ba2Cu2.95Ni0.05OX Dy 1 Ba 2 Cu 2.95 Ni 0.05 O X 1 1989 10.6 -6.1 3 Y123 3.827 3.89 11.67 K 87.5 87.5 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 745 SSC0700725 "DyBa2(Cu,Ni)3O7" Dy1Ba2Cu2.9Ni0.1OX Dy 1 Ba 2 Cu 2.9 Ni 0.1 O X 1 1989 10.5 -6.4 3 Y123 3.831 3.87 11.66 K 81.8 81.8 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 746 SSC0700725 "DyBa2(Cu,Zn)3O7" Dy1Ba2Cu2.95Zn0.05OX Dy 1 Ba 2 Cu 2.95 Zn 0.05 O X 1 1989 10.8 -5.2 3 Y123 3.83 3.877 11.66 K 71.5 71.5 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 747 SSC0700725 "DyBa2(Cu,Zn)3O7" Dy1Ba2Cu2.9Zn0.1OX Dy 1 Ba 2 Cu 2.9 Zn 0.1 O X 1 1989 10.7 -7.1 3 Y123 3.831 3.881 11.67 K 49.3 49.3 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 748 SSC0700725 ErBa2Cu3O7 Er1Ba2Cu3OX Er 1 Ba 2 Cu 3 O X 1 1989 9.3 -5.6 3 Y123 3.818 3.881 11.67 K 91.7 91.7 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 749 SSC0700725 "ErBa2(Cu,Ni)3O7" Er1Ba2Cu2.95Ni0.05OX Er 1 Ba 2 Cu 2.95 Ni 0.05 O X 1 1989 9.6 -8.5 3 Y123 3.819 3.88 11.67 K 87.8 87.8 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 750 SSC0700725 "ErBa2(Cu,Ni)3O7" Er1Ba2Cu2.9Ni0.1OX Er 1 Ba 2 Cu 2.9 Ni 0.1 O X 1 1989 9.4 -7.9 3 Y123 3.819 3.879 11.66 K 83.3 83.3 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 751 SSC0700725 "ErBa2(Cu,Zn)3O7" Er1Ba2Cu2.95Zn0.05OX Er 1 Ba 2 Cu 2.95 Zn 0.05 O X 1 1989 9.5 -8 3 Y123 3.815 3.877 11.66 K 73.1 73.1 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 752 SSC0700725 "ErBa2(Cu,Zn)3O7" Er1Ba2Cu2.9Zn0.1OX Er 1 Ba 2 Cu 2.9 Zn 0.1 O X 1 1989 9.5 -5.8 3 Y123 3.818 3.874 11.66 K 51.8 51.8 "R2O3,BACO3,CUO,NIO,ZNO" 0 CAL(930C 10H IN AIR)-SIN(930C 10H IN AIR)-COOL(140C/H) "MAGNETIC AND SUPERCONDUCTING PROPERTIES OF RBA(2)CU(3-X)M(X)O(Y) (R=Y,ND,GD,DY AND ER; M=NI AND ZN)" 1989 6 "TC ,SUS ,SUBSTITUTION ,CU" "DEPARTMENT OF PHYSICS,COLLEGE OF SCIENCE & TECHNOLOGY,NIHON UNIVERSITY,KANDA-SURUGADAI 1-8,CHIYODA-KU,TOKYO 101,JAPAN" "SOLID STATE COMMUN.,70(1989)725" "Y,ND,GD,DY,ER,NI,ZN,CU,BA,O" 753 PHC1580230 Bi2Sr1.3Ca0.7Cu1O8-Z Bi 2 Sr 1.3 Ca 0.7 Cu 1 O 8-Z 1989 5.392 5.394 24.537 K 62 84 82 84 "MAGNETIC PENETRATION DEPTH IN BI(2)(SR,CA)(2)CUO(8-Z)" 1989 4 "INSTITUT FUR MITTELENERGIEPHYSIK,ETHZ,CH-5232 VILLIGEN PSI,SWITZERLAND" "PHYSICA C ,158(1989)230" "BI,SR,CA,CU,O" 754 PR0399074 "La(Ba,Ca)2Cu3O7" La1Ba1Ca1Cu3O6.98 La 1 Ba 1 Ca 1 Cu 3 O 7+Z 6.98 1989 Y123 3.87 11.61 K 74.2 78.5 76.35 1.07 20 A 640 "PREPARATION,CHARACTERIZATION,AND SUPERCONDUCTING PROPERTIES OFTETRAGONAL LABACACU(3)O(7+X)" 1989 5 "HC ,OXYGEN CONTENT ,MAGNETIZATION ,RESISTIVITY" "DEPARTMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA,DAVIS,CALIFORNIA 95616" "Phys.Rev.B,39(1989)9074" "LA,BA,CA,CU,O" 755 PRB0399099 ErBa2Cu3Oz Er1Ba2Cu3O6.12 Er 1 Ba 2 Cu 3 O X 6.12 1989 Y123 3.836 11.733 K LOW-DEMENSIONAL MAGNETIC ORDERING AND ISING- AND XY-LINK ANISOTROPY OF ER(3+) IN THE SYSTEM ERBA(2)CU(3)O(X) WITH 6 exchange analyzed by mass spectroscopy." YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1987 3 Y123 K 92.1 92.1 0 O 75 0.1 "exchange cycle : heat(500-550C,12h, in vac) - heat(500C,12h in 1 atm-O<18>). after three exchange cycle, 75% exchange." ISOTOPE EFFECT IN THE HIGH-TC SUPERCONDUCTORS BA(2)Y(1)CU(3)O(7) AND BA(2)EU(1)CU(3)O(7) 1987 "ISOTOPE EFFECT ,RAMAN ,MAGNETIZ" "ATT & ELL LAB.,MURRY HILL,NEW JERSEY,USA" "PHYS.REV.LETT.,58(1987)2333" 962 PRL0582333 "75%O(18),DTC=0.4K(RES). O<18> exchange analyzed by mass spectroscopy." EuBa2Cu3O7 Eu1Ba2Cu3O7 Eu 1 Ba 2 Cu 3 O 7 1 1987 3 Y123 K 92.15 92.15 0 O 75 0.1 "exchange cycle : heat(500-550C,12h, in vac) - heat(500C,12h in 1 atm-O<18>). after three exchange cycle, 75% exchange." ISOTOPE EFFECT IN THE HIGH-TC SUPERCONDUCTORS BA(2)Y(1)CU(3)O(7) AND BA(2)EU(1)CU(3)O(7) 1987 "ISOTOPE EFFECT ,RAMAN ,MAGNETIZ" "ATT & ELL LAB.,MURRY HILL,NEW JERSEY,USA" "PHYS.REV.LETT.,58(1987)2333" 963 PRL0582337 "90%O(18),ALPHA=0.0+-0.027(RES)" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1987 3 Y123 K 90 90 0 O 90 "O-exchange condition (950C,12h, in O<18> atmosphere) - slow cool to RT(over 6h)" SEARCH FOR ISOTOPE EFFECT IN SUPERCONDUCTING Y-BA-CU-O 1987 6 "ISOTOPE EFFECT ,RESISTIVITY ,SUSCEPTI" "UNIV. OF CALIFORNIA,BERKELEY,CALIFORNIA,USA" "PHYS.REV.LETT.,58(1987)2337" 964 PRL0591236 "90%O(18) substitution, DTC=0.5K" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1987 3 Y123 K 92.1 92.1 0.046 O 90 0.5 OBSERVATION OF AN OXYGEN ISOTOPE EFFECT IN Y(1)BA(2)CU(3)O(7) 1987 9 "ISOTOPE EFFECT ,SUSCEPTIBILITY ,OXYGEN C" "COLLEGE OF CHEMISTRY,UNIVERSITY OF CALIFORNIA,BERKELEY,CALIFORNIA" "PHYS.REV.LETT.,59(1987)1236" "Y,BA,CU,O" 965 SSC0650869 "alpha=zero, CU(65),DTC=0.0+-0.2" YBa2Cu3Oz Y1Ba2Cu3O7.1 Y 1 Ba 2 Cu 3 O 7 7.1 1 1988 3 Y123 K 91.3 91.3 0 Cu THE COPPER ISOTOPE EFFECT IN BA(2)Y(1)CU(3)O(7) 1988 2 "ISOTOPE EFFECT ,SUSCEPTIBILITY ,TC" "INSTITUTE OF PHYSICS,ACADEMY OF SCIENCES,BEIJING,CHINA" "SOLID STATE COMMUN.,65(1988)869" "Y,BA,CU,O" 966 JJP0270553 "85%BA(134),DTC=0.1(INDUCTANCE)" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1988 3 Y123 K 89.9 89.9 BA ISOTOPE EFFECT IN A BA(2)Y(1)CU(3)O(7-Z) SUPERCONDUCTOR 1988 4 "ISOTOPE EFFECT ,MEISSNER EFFEC" "ELECTROTECHNICAL LABORATORY,IBARAKI" "JJAP.LETT.,27(1988)L553" "Y,BA,CU,O" 967 PRB0375936 "DTC=0.18+-0.04K WITH 85%O(18),ALPHA=0.019+-0.005" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1988 4.8 3 Y123 K 91.6 91.6 0.019 SMALL OXYGEN ISOTOPE SHIFT IN Y(1)BA(2)CU(3)O(7) 1988 4 "OXYGEN ISOTOPE EFFECT ,TC" "PHYSICS DIVISION,LAWRENCE BERKELEY LABORATORY,UNIVERSITY OF CALIFORNIA,BERKELEY,CALIFORNIA" "PHYS.REV.B,37(1988)5936" "Y,BA,CU,O" 968 SSC0670707 "80%O(18),DTC=0.41+-0.2K,ALPHA=0.14+-0.08(SUS)" "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1988 T K 35 35 0.14 MAGNETIC AND RESISTIVE DETERMINATION OF THE OXYGEN ISOTOPE EFFECT IN La1.85Sr0.15CuO4 1988 "Department of Physics, University of California at Berkeley, and Materials and Chemical Sciences Division, Lawrence Berkeley Laboratories, Berkeley, California 94720" "Solid State Commun.,67(1988)707-711" 969 PRB0392269 "DTC=0.17K,ALPHA=0.019+-0.004(SUS),ALPHA=0.028+-0.003(RES)" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1989 3 Y123 K 92 92 0.019 OXYGEN ISOTOPE STUDY OF Y(1)BA(2)CU(3)O(7) 1989 2 "OXYGEN ,ISOTOPE EFFECT" "DEPARTMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA AT BERKELEY,AND MATERIALS AND CHEMICAL SCIENCES DIVISION,LAWRENCE BERKELEY LABORATORY,CALIFORNIA" "PHYS.REV.B,39(1989)2269" "Y,BA,CU,O" 970 JJP0281769 Bi2La0.5Ca1.5Cu2OZ Bi 2 La 0.5 Ca 1.5 Cu 2 O Z 1 1989 2 Bi2212 5.409 39.6 K 39.6 39.6 6.3 SUPERCONDUCTIVITY IN THE BI2LNXCA3-XCU2OZ 1989 10 "NEW FAMILY ,RESISTIVITY ,SINGLE PHASE ,XRY" "DEPARTMENT OF MATERIALS SCIENCE, UNIVERSITY OF OSAKA PREFECTURE, SAKAI, OSAKA 591" JJAP LETT 28(1989)L1769 "BI,R,CU,CA,O" 971 JJP0281769 Bi2La0.3Ca2.7Cu2OZ Bi 2 La 0.3 Ca 2.7 Cu 2 O Z 1 1989 2 Bi2212 K 20.2 20.2 30.7 SUPERCONDUCTIVITY IN THE BI2LNXCA3-XCU2OZ 1989 10 "NEW FAMILY ,RESISTIVITY ,SINGLE PHASE ,XRY" "DEPARTMENT OF MATERIALS SCIENCE, UNIVERSITY OF OSAKA PREFECTURE, SAKAI, OSAKA 591" JJAP LETT 28(1989)L1769 "BI,R,CU,CA,O" 972 JJP0281769 Bi2Pr0.5Ca1.5Cu2OZ Bi 2 Pr 0.5 Ca 1.5 Cu 2 O Z 1 1989 2 2212 5.41 29.98 K 46.8 46.8 5.1 SUPERCONDUCTIVITY IN THE BI2LNXCA3-XCU2OZ 1989 10 "NEW FAMILY ,RESISTIVITY ,SINGLE PHASE ,XRY" "DEPARTMENT OF MATERIALS SCIENCE, UNIVERSITY OF OSAKA PREFECTURE, SAKAI, OSAKA 591" JJAP LETT 28(1989)L1769 "BI,R,CU,CA,O" 973 PRB0406862 "(Ba,K)BiO3" Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 1989 1 BKBO K 29 29 3.5 SUPERCONDUCTING ENERGY GAP AND A NORMAL-STATE EXCITATION IN BA0.6K0.4BIO3 1989 10 "ENERGY GAP ,INFRARED ,REFLECTIVITY" "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK10598" "PHYS.REV.B,40(1989)6862" "BA,K,BI,O" 974 PRB0406810 Bi10Sr15Fe10O46 Bi 10 Sr 15 Fe 10 O 46 1 1989 3 B222 27.245 5.462 31.696 K ORGIN OF THE INCOMMENSURATE MODULATION OF THE 80-K SUPERCONDUCTOR BI2SR2CACU2O8.21 DERIVED FROM ISOSTRUCTURAL COMMENSURATE BI10SR15FE10O46 1989 10 "INCOMMENSURATE ,MODULATION ,STRUCTURE ,OXYGEN DISTRIBUTI" "DIVISION OF CHEMISTRY, NATIONAL RESEARCH COUNCIL OF CANADA, OTTAWA, CANADA K1A OR9" "PHYS.REV.B,40(1989)6810" "FE,BI,SR,CA,CU,O" 975 PRB0406771 LaBa2Cu3Oz La1Ba2Cu2.9O6.82 La 1 Ba 2 Cu 2.9 O 6.82 6.82 1 1989 3 Y123 PMMM 3.894 3.937 11.816 K 20 45 52 45 30 STRUCTURAL PROPERTIES OF THE SUPERCONDUCTOR LABA2CU3-YO7-Z INTHE SOLID SOLUTION SYSTEM LA1+XBA2-XCU3-YO7-Z 1989 10 "TIME-OF-FLIGHT ,NEUTRON ,CRYSTAL STRUCTURES ,CRYSTAL PARAMENTRS ,SOLID-SOLUTION" "DEPARTMENT OF PHYSICS, TOKYO UNIVERSITY OF MERCANTILE MARINE,2-1-6, ETCHU-JIMA, KOTO-KU, TOKYO 135, JAPAN" "PHYS.REV.B,40(1989)6771" "KA,BA,CU,O" 976 PRB0406771 La1.56Ba1.44Cu2.86O6.98 La 1.56 Ba 1.44 Cu 2.86 O 6.98 6.98 1989 PMMM 3.918 3.928 11.742 K STRUCTURAL PROPERTIES OF THE SUPERCONDUCTOR LABA2CU3-YO7-Z INTHE SOLID SOLUTION SYSTEM LA1+XBA2-XCU3-YO7-Z 1989 10 "TIME-OF-FLIGHT ,NEUTRON ,CRYSTAL STRUCTURES ,CRYSTAL PARAMENTRS ,SOLID-SOLUTION" "DEPARTMENT OF PHYSICS, TOKYO UNIVERSITY OF MERCANTILE MARINE,2-1-6, ETCHU-JIMA, KOTO-KU, TOKYO 135, JAPAN" "PHYS.REV.B,40(1989)6771" "KA,BA,CU,O" 977 PRB0406717 "NO. OF CU-O SHEETS=INFINITY, IR AND RAMAN" Ca1Cu1O2 Ca 1 Cu 1 O 2 1989 P4/MMM K PHONONS IN CACUO2 1989 10 "INFRARED REFLECTIVIT,PHONONS ,GROUP THEORY ,RAMAN" "IBM THOMAS J. WATSON RESEARCH CENTER, YORKTOWN HEIGHTS, NEW YORK 10598-0218" "PHYS.REV.B,40(1989)6717" "SR,CA,CU,O" 978 PH0406717 Ca0.86Sr0.14Cu1O2 Ca 0.86 Sr 0.14 Cu 1 O 2 1 1989 IL K PHONONS IN CACUO2 1989 10 "INFRARED REFLECTIVIT,PHONONS ,GROUP THEORY ,RAMAN" "IBM THOMAS J. WATSON RESEARCH CENTER, YORKTOWN HEIGHTS, NEW YORK 10598-0218" "PHYS.REV.B,40(1989)6717" "SR,CA,CU,O" 979 PRB0406771 LaBa2Cu3Oz La1Ba2Cu3O6.85 La 1 Ba 2 Cu 3 O 6.85 6.85 1 1989 3 Y123 PMMM 3.893 3.938 11.818 K 93 93 30 STRUCTURAL PROPERTIES OF THE SUPERCONDUCTOR LABA2CU3-YO7-Z INTHE SOLID SOLUTION SYSTEM LA1+XBA2-XCU3-YO7-Z 1989 10 "TIME-OF-FLIGHT ,NEUTRON ,CRYSTAL STRUCTURES ,CRYSTAL PARAMENTRS ,SOLID-SOLUTION" "DEPARTMENT OF PHYSICS, TOKYO UNIVERSITY OF MERCANTILE MARINE,2-1-6, ETCHU-JIMA, KOTO-KU, TOKYO 135, JAPAN" "PHYS.REV.B,40(1989)6771" "KA,BA,CU,O" 980 SSC0710939 "THERMAL CONDUCTIVITY, UNIT=W/M.K" YBa2Cu3Oz Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 6.9 6.9 1989 3 Y123 K 92 92 CORRELATION BETWEEN ELECTRONIC STATES OF OXYGEN AND COPPER INY-BA-CU-O DOPED SYSTEMS 1989 "XPS ,OXYGEN CONTENTS ,ELECTRONIC STATES" "DEPARTMENT OF APPLIED CHEMISTRY, UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA (USTC),HEFEI,ANHUI,CHINA" SOLID STATE COMMUN.71(1989)939 "Y,BA,CU,O,SR,CA,ZN,AL,SN" 981 SSC0710939 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.9Zn0.1O6.94 Y 1 Ba 2 Cu 2.9 Zn 0.1 O 6.94 6.94 1989 Y123 K 57 57 CORRELATION BETWEEN ELECTRONIC STATES OF OXYGEN AND COPPER INY-BA-CU-O DOPED SYSTEMS 1989 "XPS ,OXYGEN CONTENTS ,ELECTRONIC STATES" "DEPARTMENT OF APPLIED CHEMISTRY, UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA (USTC),HEFEI,ANHUI,CHINA" SOLID STATE COMMUN.71(1989)939 "Y,BA,CU,O,SR,CA,ZN,AL,SN" 982 SSC0710939 "YBa2(Cu,Al)3Oz" Y1Ba2Cu2.9Al0.1O7.1 Y 1 Ba 2 Cu 2.9 Al 0.1 O 7.1 7.1 1989 Y123 K 85 85 CORRELATION BETWEEN ELECTRONIC STATES OF OXYGEN AND COPPER INY-BA-CU-O DOPED SYSTEMS 1989 "XPS ,OXYGEN CONTENTS ,ELECTRONIC STATES" "DEPARTMENT OF APPLIED CHEMISTRY, UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA (USTC),HEFEI,ANHUI,CHINA" SOLID STATE COMMUN.71(1989)939 "Y,BA,CU,O,SR,CA,ZN,AL,SN" 983 SSC0710939 "YBa2(Cu,Sn)3Oz" Y1Ba2Cu2.9Sn0.1O7.28 Y 1 Ba 2 Cu 2.9 Sn 0.1 O 7.28 7.28 1989 Y123 K 90 90 CORRELATION BETWEEN ELECTRONIC STATES OF OXYGEN AND COPPER INY-BA-CU-O DOPED SYSTEMS 1989 "XPS ,OXYGEN CONTENTS ,ELECTRONIC STATES" "DEPARTMENT OF APPLIED CHEMISTRY, UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA (USTC),HEFEI,ANHUI,CHINA" SOLID STATE COMMUN.71(1989)939 "Y,BA,CU,O,SR,CA,ZN,AL,SN" 984 PLA1390265 ANOMALY IN THERMAL CONDUCTIVITY AT 155 AND 225K Tl2Ba2Ca2Cu3Oz Tl2Ba2Ca2Cu3OZ Tl 2 Ba 2 Ca 2 Cu 3 O Z 1989 2 Tl2223 K 119 128 11 119 1.6 2.4 8.1 ANOMALOUS BEHAVIOUR OF THERMAL CONDUCTIVITY OF TL-BA-CA-CU-O 1989 8 "THERMAL CONDUCTIVITY ,PHASE TRANSITION ,OXYGEN V" "INSTITUTE FOR LOW TEMPERATURE AND STRUCTURE RESEARCH,POLISH ACADEMY OF SCIENCES,2 OKOLNA ST.,50-422 WROCLAW,POLAND" "PHYS.LETT.A,139(1989)265" "TL,BA,CA,CU,O" 985 PRL0582482 La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 1 1987 2 T K 3 40 21.5 300 EVIDENCE FOR SUPERCONDUCTIVITY IN LA(2)CU(1)O(4) 1987 "RESISTIVITY ,THERMOPOWER" "IBM ALMADEN RESEARCH CENTER,SAN JOSE,CALIFORNIA,USA" "PHYS.REV.LETT.,58(1987)2482" 986 SSC0700303 THPOW300 = AT 240K "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1989 2 T 13.222 K 25.4 TP986 "LA2O3,SRCO3,CUO" 1 CAL(1000C 30H)-SIN(1100C 60H)-FC-ANN(1080C 6H IN 200ATM O2) NORMAL STATE PROPERTIES OF LA2-XSRXCUO4 AND LA2SRCU2OY 1989 "SOLID STATE COMMUN.,70(1989)303" "LA,SR,CU,O" 987 SSC0700303 THPOW300 = AT 240K "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1 1989 2 T 13.232 K 15.8 TP987 "LA2O3,SRCO3,CUO" 1 CAL(1000C 30H)-SIN(1100C 60H)-FC-ANN(1080C 6H IN 200ATM O2) NORMAL STATE PROPERTIES OF LA2-XSRXCUO4 AND LA2SRCU2OY 1989 "SOLID STATE COMMUN.,70(1989)303" "LA,SR,CU,O" 988 SSC0700303 THPOW300 = AT 240K "(La,Sr)2CuO4" La1.75Sr0.25Cu1O4 La 1.75 Sr 0.25 Cu 1 O 4 1 1989 2 T 13.245 K 12.6 TP988 "LA2O3,SRCO3,CUO" 1 CAL(1000C 30H)-SIN(1100C 60H)-FC-ANN(1080C 6H IN 200ATM O2) NORMAL STATE PROPERTIES OF LA2-XSRXCUO4 AND LA2SRCU2OY 1989 "SOLID STATE COMMUN.,70(1989)303" "LA,SR,CU,O" 989 SSC0690851 STRUCTURAL TRANSFORMATION AT TM=52K "(La,Ba)2CuO4" La1.9Ba0.1Cu1O4 La 1.9 Ba 0.1 Cu 1 O 4 1 1989 T K 35.7 TP989 0.000000004 6.63E-09 RH989 "LA2O3,BACO3,CUO" 1 CAL(900C 12H)-SIN(1100C 12H)-ANN(600C 12H) TRANSPORT AND MAGNETIC ANOMALIES AT THE STRUCTURAL TRANSITION T-O THE NEW LOW TEMPERATURE PHASE IN LA(2-X)BA(X)CUO(4) 1989 2 "RES ,HALL EFFECT ,THERMOPOWER ,ST" "INSTITUTE FOR MOLECULAR SCIENCE,OKAZAKI 444,JAPAN" "SOLID STATE COMMUN.,69(1989)851" "LA,BA,CU,O" 990 SSC0690851 STRUCTURAL TRANSFORMATION AT TM=61K "(La,Ba)2CuO4" La1.88Ba0.12Cu1O4 La 1.88 Ba 0.12 Cu 1 O 4 1 1989 T K 35 35 27.7 TP990 2 3.5 2.83E-09 4.23E-09 RH990 "LA2O3,BACO3,CUO" 1 CAL(900C 12H)-SIN(1100C 12H)-ANN(600C 12H) TRANSPORT AND MAGNETIC ANOMALIES AT THE STRUCTURAL TRANSITION T-O THE NEW LOW TEMPERATURE PHASE IN LA(2-X)BA(X)CUO(4) 1989 2 "RES ,HALL EFFECT ,THERMOPOWER ,ST" "INSTITUTE FOR MOLECULAR SCIENCE,OKAZAKI 444,JAPAN" "SOLID STATE COMMUN.,69(1989)851" "LA,BA,CU,O" 991 SSC0690851 STRUCTURAL TRANSFORMATION AT TM=61K "(La,Ba)2CuO4" La1.86Ba0.14Cu1O4 La 1.86 Ba 0.14 Cu 1 O 4 1 1989 T K 24.3 TP991 2.24E-09 3.58E-09 RH991 "LA2O3,BACO3,CUO" 1 CAL(900C 12H)-SIN(1100C 12H)-ANN(600C 12H) TRANSPORT AND MAGNETIC ANOMALIES AT THE STRUCTURAL TRANSITION T-O THE NEW LOW TEMPERATURE PHASE IN LA(2-X)BA(X)CUO(4) 1989 2 "RES ,HALL EFFECT ,THERMOPOWER ,ST" "INSTITUTE FOR MOLECULAR SCIENCE,OKAZAKI 444,JAPAN" "SOLID STATE COMMUN.,69(1989)851" "LA,BA,CU,O" 992 SSC0700303 "THPOW300=AT 240K,RHN=AT 50K" "(La,Sr)2CuO4" La1.7Sr0.3Cu1O4 La 1.7 Sr 0.3 Cu 1 O 4 1 1989 2 T 13.268 K 2.7 TP992 1.60E-10 2.46E-10 RH992 "LA2O3,SRCO3,CUO" 1 CAL(1000C 30H)-SIN(1100C 60H)-FC-ANN(1080C 6H IN 200ATM O2) NORMAL STATE PROPERTIES OF LA2-XSRXCUO4 AND LA2SRCU2OY 1989 "SOLID STATE COMMUN.,70(1989)303" "LA,SR,CU,O" 993 SSC0700303 "THPOW300=AT 240K,RHN=AT 50K" "(La,Sr)2CuO4" La1.65Sr0.35Cu1O4 La 1.65 Sr 0.35 Cu 1 O 4 1 1989 2 T 13.277 K 5.10E-11 1.05E-10 RH993 "LA2O3,SRCO3,CUO" 1 CAL(1000C 30H)-SIN(1100C 60H)-FC-ANN(1080C 6H IN 200ATM O2) NORMAL STATE PROPERTIES OF LA2-XSRXCUO4 AND LA2SRCU2OY 1989 "SOLID STATE COMMUN.,70(1989)303" "LA,SR,CU,O" 994 SSC0700303 "THPOW300=AT 240K,RHN=AT 50K" "(La,Sr)2CuO4" La1.6Sr0.4Cu1O4 La 1.6 Sr 0.4 Cu 1 O 4 1 1989 2 T 13.277 K 1.1 4.70E-11 RH994 "LA2O3,SRCO3,CUO" 1 CAL(1000C 30H)-SIN(1100C 60H)-FC-ANN(1080C 6H IN 200ATM O2) NORMAL STATE PROPERTIES OF LA2-XSRXCUO4 AND LA2SRCU2OY 1989 "SOLID STATE COMMUN.,70(1989)303" "LA,SR,CU,O" 995 SSC0700303 "THPOW300=AT 240K,RHN=AT 50K" "(LA,SR)2CUO4" La1.5Sr0.5Cu1O4 La 1.5 Sr 0.5 Cu 1 O 4 1 1989 2 T 13.279 K 1.3 -2.56E-10 -3.02E-10 RH995 "LA2O3,SRCO3,CUO" 1 CAL(1000C 30H)-SIN(1100C 60H)-FC-ANN(1080C 6H IN 200ATM O2) NORMAL STATE PROPERTIES OF LA2-XSRXCUO4 AND LA2SRCU2OY 1989 "SOLID STATE COMMUN.,70(1989)303" "LA,SR,CU,O" 996 PRB0397324 "(La,Sr)2CuO4" La1.84Sr0.16Cu1O4 La 1.84 Sr 0.16 Cu 1 O 4 1 1989 T K 37 37 1.21E-09 RH996 HALL-EFFECT ANOMALY IN THE HIGH-TC COPPER-BASED PEROVSKITES 1989 4 "HALL EFFECT ,ANOMALY" "JOSEPH HENRY LABORATORIES OF PHYSICS,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY 08544" "Phys.Rev.B,39(1989)7324" "CO,NI,Y,BA,CU,O,LA,SR" 997 PRB0397324 "(La,Sr)2(Cu,Ni)O4" La1.84Sr0.16Cu0.987Ni0.013O4 La 1.84 Sr 0.16 Cu 0.987 Ni 0.013 O 4 1 1989 T K 25 25 1.36E-09 RH997 HALL-EFFECT ANOMALY IN THE HIGH-TC COPPER-BASED PEROVSKITES 1989 4 "HALL EFFECT ,ANOMALY" "JOSEPH HENRY LABORATORIES OF PHYSICS,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY 08544" "Phys.Rev.B,39(1989)7324" "CO,NI,Y,BA,CU,O,LA,SR" 998 PRB0397324 "(La,Sr)2(Cu,Ni)O4" La1.84Sr0.16Cu0.975Ni0.025O4 La 1.84 Sr 0.16 Cu 0.975 Ni 0.025 O 4 1 1989 T K 15 15 1.41E-09 RH998 HALL-EFFECT ANOMALY IN THE HIGH-TC COPPER-BASED PEROVSKITES 1989 4 "HALL EFFECT ,ANOMALY" "JOSEPH HENRY LABORATORIES OF PHYSICS,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY 08544" "Phys.Rev.B,39(1989)7324" "CO,NI,Y,BA,CU,O,LA,SR" 999 PRB0397324 "(La,Sr)2(Cu,Ni)O4" La1.84Sr0.16Cu0.95Ni0.05O4 La 1.84 Sr 0.16 Cu 0.95 Ni 0.05 O 4 1 1989 T K 1.41E-09 RH999 HALL-EFFECT ANOMALY IN THE HIGH-TC COPPER-BASED PEROVSKITES 1989 4 "HALL EFFECT ,ANOMALY" "JOSEPH HENRY LABORATORIES OF PHYSICS,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY 08544" "Phys.Rev.B,39(1989)7324" "CO,NI,Y,BA,CU,O,LA,SR" 1000 PRB0389194 BI4SR3CA3CU4O16 Bi4Ca3Sr3Cu4O16 Bi 4 Ca 3 Sr 3 Cu 4 O 16 1988 Bi4334 K 76 93 84.5 240 44 A 1585 4.78 "BI2O3,CACO3,SRCO3,CUO" 0 CAL(850C 1-2H IN AIR)-SIN(865C12H IN O2)-C TO RT WITHIN 12H MAGNETIZATION AND RESISTIVITY OF BI(4)CA(3)SR(3)CU(4)O(16)-TYPE MATERIALS HAVING TWO SUPERCONDUCTIVITY ONSET TEMPERATURES 1988 11 "MAG ,RES ,Tc ,Hc" "CPRNING GLASS WORKS,SULLIVAN PRAK,CORNING,NEW YORK" "PHYS.REV.B,38(1988)9194" "BI,CA,SR,CU,O" 1001 PRB0389194 Bi4Sr3Ca3Cu4O16 Bi4Ca3Sr3Cu4O16 Bi 4 Ca 3 Sr 3 Cu 4 O 16 1988 Bi4334 K 76 111 93.5 90 2.7 3650 1.09 "BI2O3,CACO3,SRCO3,CUO" 0 CAL(850C 1-2H IN AIR)-SIN(865C12H IN O2)-C TO RT WITHIN 12H MAGNETIZATION AND RESISTIVITY OF BI(4)CA(3)SR(3)CU(4)O(16)-TYPE MATERIALS HAVING TWO SUPERCONDUCTIVITY ONSET TEMPERATURES 1988 11 "MAG ,RES ,Tc ,Hc" "CPRNING GLASS WORKS,SULLIVAN PRAK,CORNING,NEW YORK" "PHYS.REV.B,38(1988)9194" "BI,CA,SR,CU,O" 1002 PRB0389194 Bi4Sr3Ca3Cu4O16 Bi4Ca3Sr3Cu4O16 Bi 4 Ca 3 Sr 3 Cu 4 O 16 1988 Bi4334 K 58 115 86.5 110 7 3040 5.59 "BI2O3,CACO3,SRCO3,CUO" 0 CAL(850C 1-2H IN AIR)-SIN(865C12H IN O2)-C TO RT WITHIN 12H MAGNETIZATION AND RESISTIVITY OF BI(4)CA(3)SR(3)CU(4)O(16)-TYPE MATERIALS HAVING TWO SUPERCONDUCTIVITY ONSET TEMPERATURES 1988 11 "MAG ,RES ,Tc ,Hc" "CPRNING GLASS WORKS,SULLIVAN PRAK,CORNING,NEW YORK" "PHYS.REV.B,38(1988)9194" "BI,CA,SR,CU,O" 1003 PR0388885 Bi2Sr2CuO6 Bi2Sr2Cu1O6+Y Bi 2 Sr 2 Cu 1 O 6+Y 1988 2 Bi2201 5.39 24.6 K 10 10 10 "BI2O3,SRCO3,SRO2,CUO" 0 VARIOUS HEAT TREATMENT "PREPARATION,STRUCTURE,AND PROPERTIES OF THE SUPERCONDUCTING COMPOUND SERIES BI(2)SR(2)CA(N-1)CU(N)O(Y) WITH N=1,2,AND 3" 1988 11 "STRUCTURES ,PREPARATION ,TEM ,SUS" "BELLCORE,331 NEWMAN SPRINGS ROAD,RED BANK,NEW JERSEY" "PHYS.REV.B,38(1988)8885" "BI,SR,CA,CU,O" 1004 PR0388885 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+Y Bi 2 Sr 2 Ca 1 Cu 2 O 8+Y 1988 2 Bi2212 5.39 30.7 K 85 85 50 "BI2O3,SRCO3,SRO2,CUO" 0 VARIOUS HEAT TREATMENT "PREPARATION,STRUCTURE,AND PROPERTIES OF THE SUPERCONDUCTING COMPOUND SERIES BI(2)SR(2)CA(N-1)CU(N)O(Y) WITH N=1,2,AND 3" 1988 11 "STRUCTURES ,PREPARATION ,TEM ,SUS" "BELLCORE,331 NEWMAN SPRINGS ROAD,RED BANK,NEW JERSEY" "PHYS.REV.B,38(1988)8885" "BI,SR,CA,CU,O" 1005 PR0388885 Bi2Sr2Ca2Cu3O10 Bi2Sr2Ca2Cu3O10+Y Bi 2 Sr 2 Ca 2 Cu 3 O 10+Y 1988 2 Bi2223 5.39 37.1 K 110 110 50 "BI2O3,SRCO3,SRO2,CUO" 0 VARIOUS HEAT TREATMENT "PREPARATION,STRUCTURE,AND PROPERTIES OF THE SUPERCONDUCTING COMPOUND SERIES BI(2)SR(2)CA(N-1)CU(N)O(Y) WITH N=1,2,AND 3" 1988 11 "STRUCTURES ,PREPARATION ,TEM ,SUS" "BELLCORE,331 NEWMAN SPRINGS ROAD,RED BANK,NEW JERSEY" "PHYS.REV.B,38(1988)8885" "BI,SR,CA,CU,O" 1006 PRB0389205 Bi1Sr1Ca1Cu2OX Bi 1 Sr 1 Ca 1 Cu 2 O X 1988 5.384 26.951 30.608 K 110 110 1.98 19 "BI2O3,SRCO3,CACO3,CUO" 0 "CAL(850C,16H IN O2)-SIN(882C 20MIN)-ANN(872C 12H IN O2)-C" MAGNETORESISTANCE AND THERMOELECTRIC POWER OF THE BI-SR-CA-CU-O SYSTEM 1988 11 "MAGNETORESISTANCE ,RES ,Hc ,TH" "SAHA INSTITUTE OF NUCLEAR PHYSICS,CALCUTTA,INDIA" "PHYS.REV.B,38(1988)9205" "BI,SR,CA,CU,O" 1007 PRB0389205 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2OX Bi 2 Sr 2 Ca 1 Cu 2 O X 1988 Bi2212 K 80 80 "BI2O3,SRCO3,CACO3,CUO" 0 "CAL(850C,16H IN O2)-SIN(882C 20MIN)-ANN(872C 12H IN O2)-C" MAGNETORESISTANCE AND THERMOELECTRIC POWER OF THE BI-SR-CA-CU-O SYSTEM 1988 11 "MAGNETORESISTANCE ,RES ,Hc ,TH" "SAHA INSTITUTE OF NUCLEAR PHYSICS,CALCUTTA,INDIA" "PHYS.REV.B,38(1988)9205" "BI,SR,CA,CU,O" 1008 PRB0389209 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.8Co0.2O6.45 Y 1 Ba 2 Cu 2.8 Co 0.2 O 6.45 6.45 1988 415 Y123 K 0 ANTIFERROMAGNETIC ORDER IN Y(1)BA(2)CU(3-X)CO(X)O(6+Y) 1988 11 "NEUTRON SCATTERING ,ANTIFERROMAGNE" "BELL COMMUNICATIONS RESEARCH,RED BANK,NEW JERSEY" "PHYS.REV.B,38(1988)9209" "Y,BA,CU,CO,O" 1009 PRB0389209 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.2Co0.8O6.91 Y 1 Ba 2 Cu 2.2 Co 0.8 O 6.91 6.91 1988 435 3 Y123 K 0 ANTIFERROMAGNETIC ORDER IN Y(1)BA(2)CU(3-X)CO(X)O(6+Y) 1988 11 "NEUTRON SCATTERING ,ANTIFERROMAGNE" "BELL COMMUNICATIONS RESEARCH,RED BANK,NEW JERSEY" "PHYS.REV.B,38(1988)9209" "Y,BA,CU,CO,O" 1010 PRB0389220 EuBa2Cu3O7 Eu1Ba2Cu3O7-Z Eu 1 Ba 2 Cu 3 O 7-Z 1 1988 Y123 K 90 90 250 3.3 "BACO3,EUO,CUO" 0 CAL(950C IN O2)-PELLET-(750C OVERNIGHT)-(425C 8H+OVER NIGHT IN O2) THERMAL CONDUCTIVITY AND SUPERCONDUCTIVITY IN EU(1)BA(2)CU(3)O(7-X) 1988 11 "THERMAL ,CONDUCTIVITY ,ENRRGY G" "CENTRO ATOMICO BARILOCHE,RIO NEGRO,REPUBLIC OF ARGENTINA" "PHYS.REV.B,38(1988)9220" "EU,BA,CU,O" 1011 PRB0389272 Bi2Sr2Ca2Cu6OZ Bi 2 Sr 2 Ca 2 Cu 6 O Z 3 1988 2 K 0 INFLUENCE OF LEAD ON THE FORMATION OF THE 110-K SUPERCONDUCTING PHASE IN THE BI-SR-CA-CU-O COMPOUNDS 1988 11 "FABRICATION ,XRY ,RES ,ST" "INSTITUTO DE INVESTIGACIONES EN MATERIALER,UNIVERSIDAD NACIONAL AUTONOMA DE MEXICO,DISTRITO FEDERAL,MEXICO" "PHYS.REV.B,38(1988)9272" "BI,SR,CA,CU,O,PB" 1012 PRB0389272 Bi2Sr2CaCu2O8 Bi2.15Sr1.68Ca1.17Cu2OZ Bi 2.15 Sr 1.68 Ca 1.17 Cu 2 O Z 3 1988 2 Bi2212 K 68 68 0 INFLUENCE OF LEAD ON THE FORMATION OF THE 110-K SUPERCONDUCTING PHASE IN THE BI-SR-CA-CU-O COMPOUNDS 1988 11 "FABRICATION ,XRY ,RES ,ST" "INSTITUTO DE INVESTIGACIONES EN MATERIALER,UNIVERSIDAD NACIONAL AUTONOMA DE MEXICO,DISTRITO FEDERAL,MEXICO" "PHYS.REV.B,38(1988)9272" "BI,SR,CA,CU,O,PB" 1013 PRB0389272 "Bi2Sr2(Ca,Bi)2Cu3O10" Bi2.4Sr2Ca1.6Cu3OZ Bi 2.4 Sr 2 Ca 1.6 Cu 3 O Z 3 1988 2 Bi2223 K 70 70 0 INFLUENCE OF LEAD ON THE FORMATION OF THE 110-K SUPERCONDUCTING PHASE IN THE BI-SR-CA-CU-O COMPOUNDS 1988 11 "FABRICATION ,XRY ,RES ,ST" "INSTITUTO DE INVESTIGACIONES EN MATERIALER,UNIVERSIDAD NACIONAL AUTONOMA DE MEXICO,DISTRITO FEDERAL,MEXICO" "PHYS.REV.B,38(1988)9272" "BI,SR,CA,CU,O,PB" 1014 PHC1620427 CDW INSTABILITY AT ABOUT 30K Li0.9Mo6O17 Li 0.9 Mo 6 O 17 3 1989 bronze K 1.7 1.7 K/GPa 2 0 PRESSURE EFFECT ON THE TRANSPORT PROPERTIES OF SUPERCONDUCTING Li0.9Mo6O17 BRONZE 1989 Laboratoire d'Etudes des Proprietes Electroniques des Solides+ *Laboratoire Louis Nee+-C.N.R.S. B.P. 166-38042 Grenoble Cedex-France "Physica.C,162-164(1989)427-428" 1015 PRB0389272 "Bi2Sr2(Ca,Bi)2Cu3O10" Bi2.2Sr2Ca1.8Cu3OZ Bi 2.2 Sr 2 Ca 1.8 Cu 3 O Z 3 1988 2 Bi2223 K 30 30 INFLUENCE OF LEAD ON THE FORMATION OF THE 110-K SUPERCONDUCTING PHASE IN THE BI-SR-CA-CU-O COMPOUNDS 1988 11 "FABRICATION ,XRY ,RES ,ST" "INSTITUTO DE INVESTIGACIONES EN MATERIALER,UNIVERSIDAD NACIONAL AUTONOMA DE MEXICO,DISTRITO FEDERAL,MEXICO" "PHYS.REV.B,38(1988)9272" "BI,SR,CA,CU,O,PB" 1016 PRB0389272 Bi2Sr2Ca2Cu3O10 Bi2Sr2Ca2Cu3OZ Bi 2 Sr 2 Ca 2 Cu 3 O Z 3 1988 2 Bi2223 K 76 76 0 INFLUENCE OF LEAD ON THE FORMATION OF THE 110-K SUPERCONDUCTING PHASE IN THE BI-SR-CA-CU-O COMPOUNDS 1988 11 "FABRICATION ,XRY ,RES ,ST" "INSTITUTO DE INVESTIGACIONES EN MATERIALER,UNIVERSIDAD NACIONAL AUTONOMA DE MEXICO,DISTRITO FEDERAL,MEXICO" "PHYS.REV.B,38(1988)9272" "BI,SR,CA,CU,O,PB" 1017 PRB0389272 Bi2Sr2Ca2Cu3O10 Bi1.95Sr2Ca2Cu3OZ Bi 1.95 Sr 2 Ca 2 Cu 3 O Z 3 1988 2 Bi2223 K 58 58 0 INFLUENCE OF LEAD ON THE FORMATION OF THE 110-K SUPERCONDUCTING PHASE IN THE BI-SR-CA-CU-O COMPOUNDS 1988 11 "FABRICATION ,XRY ,RES ,ST" "INSTITUTO DE INVESTIGACIONES EN MATERIALER,UNIVERSIDAD NACIONAL AUTONOMA DE MEXICO,DISTRITO FEDERAL,MEXICO" "PHYS.REV.B,38(1988)9272" "BI,SR,CA,CU,O,PB" 1018 PRB0389272 Bi2Sr2Ca2Cu3O10 Bi1.8Sr2Ca2Cu3OZ Bi 1.8 Sr 2 Ca 2 Cu 3 O Z 3 1988 2 Bi2223 K 95 95 0 INFLUENCE OF LEAD ON THE FORMATION OF THE 110-K SUPERCONDUCTING PHASE IN THE BI-SR-CA-CU-O COMPOUNDS 1988 11 "FABRICATION ,XRY ,RES ,ST" "INSTITUTO DE INVESTIGACIONES EN MATERIALER,UNIVERSIDAD NACIONAL AUTONOMA DE MEXICO,DISTRITO FEDERAL,MEXICO" "PHYS.REV.B,38(1988)9272" "BI,SR,CA,CU,O,PB" 1019 PRB0389272 "(Bi,Pb)2Sr2Ca2Cu3O10" Bi1.7Sr2Ca2Cu3Pb0.3OZ Bi 1.7 Sr 2 Ca 2 Cu 3 Pb 0.3 O Z 3 1988 2 Bi2223 K 106 106 0 INFLUENCE OF LEAD ON THE FORMATION OF THE 110-K SUPERCONDUCTING PHASE IN THE BI-SR-CA-CU-O COMPOUNDS 1988 11 "FABRICATION ,XRY ,RES ,ST" "INSTITUTO DE INVESTIGACIONES EN MATERIALER,UNIVERSIDAD NACIONAL AUTONOMA DE MEXICO,DISTRITO FEDERAL,MEXICO" "PHYS.REV.B,38(1988)9272" "BI,SR,CA,CU,O,PB" 1020 PRB0389272 "(Bi,Pb)2Sr2Ca2Cu3O10" Bi1.9Sr2Ca2Cu3Pb0.3OZ Bi 1.9 Sr 2 Ca 2 Cu 3 Pb 0.3 O Z 3 1988 2 Bi2223 K 104 104 0 INFLUENCE OF LEAD ON THE FORMATION OF THE 110-K SUPERCONDUCTING PHASE IN THE BI-SR-CA-CU-O COMPOUNDS 1988 11 "FABRICATION ,XRY ,RES ,ST" "INSTITUTO DE INVESTIGACIONES EN MATERIALER,UNIVERSIDAD NACIONAL AUTONOMA DE MEXICO,DISTRITO FEDERAL,MEXICO" "PHYS.REV.B,38(1988)9272" "BI,SR,CA,CU,O,PB" 1021 PRB0389272 "(Bi,Pb)2Sr2Ca2Cu3O10" Bi1.8Sr2Ca2Cu3Pb0.6OZ Bi 1.8 Sr 2 Ca 2 Cu 3 Pb 0.6 O Z 3 1988 2 Bi2223 K 104 104 0 INFLUENCE OF LEAD ON THE FORMATION OF THE 110-K SUPERCONDUCTING PHASE IN THE BI-SR-CA-CU-O COMPOUNDS 1988 11 "FABRICATION ,XRY ,RES ,ST" "INSTITUTO DE INVESTIGACIONES EN MATERIALER,UNIVERSIDAD NACIONAL AUTONOMA DE MEXICO,DISTRITO FEDERAL,MEXICO" "PHYS.REV.B,38(1988)9272" "BI,SR,CA,CU,O,PB" 1022 PRB0365680 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1987 3 Y123 K 92 92 0.6 1.2 2.3 0 THERMAL TRANSPORT PROPERTIES OF Y(1)BA(2)CU(3)O(7) SUPERCONDUCTORS 1987 10 "THERMAL CONDUCTIVITY ,THERMOPOWER ,HALL EFFECT ,RE" "MAX-PLANCK-INSTITUT FUR FESTKORPERFORSCHUNG,FEDERAL REPUBLIC OF GERMANY AND PHYSICS DEPARTMENT,THE UNIVERSITY OF MICHIGAN,ANN ARBOR,MICHIGAN" "PHYS.REV.B,36(1987)5680" "Y,BA,CU,O" 1023 PRB0365676 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1 1987 T K 7 TP1023 0.4 0.28 1.2 1.7 0 ELECTRONIC TRANSPORT IN HIGHLY DOPED LA(2-X)SR(X)CU(1)O(4) SUPERCONDUCTORS 1987 10 "THERMOPOWER ,HALL EFFECT ,RES" "MAX-PLANCK-INSTITUT FUR RESTKORPERFORSCHUNG,FEDERAL REPUBLIC OF GERMANY AND PHYSICS DEPARTMENT,THE UNIVERSITY OF MICHIGAN,ANN ARBOR,MICHIGAN" "PHYS.REV.B,36(1987)5676" "LA,SR,CU,O" 1024 PRB0365676 "(La,Sr)2CuO4" La1.75Sr0.25Cu1O4 La 1.75 Sr 0.25 Cu 1 O 4 1 1987 T K 0.5 TP1024 0.42 0.18 1.2 0.45 0 ELECTRONIC TRANSPORT IN HIGHLY DOPED LA(2-X)SR(X)CU(1)O(4) SUPERCONDUCTORS 1987 10 "THERMOPOWER ,HALL EFFECT ,RES" "MAX-PLANCK-INSTITUT FUR RESTKORPERFORSCHUNG,FEDERAL REPUBLIC OF GERMANY AND PHYSICS DEPARTMENT,THE UNIVERSITY OF MICHIGAN,ANN ARBOR,MICHIGAN" "PHYS.REV.B,36(1987)5676" "LA,SR,CU,O" 1025 PHC1480342 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1987 3 Y123 3.828 3.896 11.7 K 92.6 92.6 0 HIGH-TC OXIDE Y-BA-CU-O NORMAL AND SUPERCONDUCTING PROPERTIES AND PHASES 1987 12 "NATIONAL RESEARCH INSTITUTE FOR METALS,TOKYO" "PHYSICA B+C,148(1987)342" "Y,BA,CU,O" 1026 PHC1480342 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.97Al0.03O7-Z Y 1 Ba 2 Cu 2.97 Al 0.03 O 7-Z 1 1987 3 Y123 3.838 3.896 11.701 K 86.1 86.1 0 HIGH-TC OXIDE Y-BA-CU-O NORMAL AND SUPERCONDUCTING PROPERTIES AND PHASES 1987 12 "NATIONAL RESEARCH INSTITUTE FOR METALS,TOKYO" "PHYSICA B+C,148(1987)342" "Y,BA,CU,O" 1027 PHC1480342 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.94Al0.06O7-Z Y 1 Ba 2 Cu 2.94 Al 0.06 O 7-Z 1 1987 3 Y123 3.848 3.891 11.675 K 80.3 80.3 0 HIGH-TC OXIDE Y-BA-CU-O NORMAL AND SUPERCONDUCTING PROPERTIES AND PHASES 1987 12 "NATIONAL RESEARCH INSTITUTE FOR METALS,TOKYO" "PHYSICA B+C,148(1987)342" "Y,BA,CU,O" 1028 PHC1480342 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.91Al0.09O7-Z Y 1 Ba 2 Cu 2.91 Al 0.09 O 7-Z 1 1987 3 Y123 3.852 3.889 11.686 K 0 HIGH-TC OXIDE Y-BA-CU-O NORMAL AND SUPERCONDUCTING PROPERTIES AND PHASES 1987 12 "NATIONAL RESEARCH INSTITUTE FOR METALS,TOKYO" "PHYSICA B+C,148(1987)342" "Y,BA,CU,O" 1029 PHC1480342 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.88Al0.12O7-Z Y 1 Ba 2 Cu 2.88 Al 0.12 O 7-Z 1 1987 Y123 3.87 11.59 K 68.6 68.6 0 HIGH-TC OXIDE Y-BA-CU-O NORMAL AND SUPERCONDUCTING PROPERTIES AND PHASES 1987 12 "NATIONAL RESEARCH INSTITUTE FOR METALS,TOKYO" "PHYSICA B+C,148(1987)342" "Y,BA,CU,O" 1030 PHC1480342 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.82Al0.18O7-Z Y 1 Ba 2 Cu 2.82 Al 0.18 O 7-Z 1 1987 Y123 K 72.1 72.1 0 HIGH-TC OXIDE Y-BA-CU-O NORMAL AND SUPERCONDUCTING PROPERTIES AND PHASES 1987 12 "NATIONAL RESEARCH INSTITUTE FOR METALS,TOKYO" "PHYSICA B+C,148(1987)342" "Y,BA,CU,O" 1031 PHC1480342 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.76Al0.24O7-Z Y 1 Ba 2 Cu 2.76 Al 0.24 O 7-Z 1 1987 Y123 K 72.1 72.1 0 HIGH-TC OXIDE Y-BA-CU-O NORMAL AND SUPERCONDUCTING PROPERTIES AND PHASES 1987 12 "NATIONAL RESEARCH INSTITUTE FOR METALS,TOKYO" "PHYSICA B+C,148(1987)342" "Y,BA,CU,O" 1032 PHC1480342 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.7Al0.3O7-Z Y 1 Ba 2 Cu 2.7 Al 0.3 O 7-Z 1 1987 Y123 K 59.4 59.4 0 HIGH-TC OXIDE Y-BA-CU-O NORMAL AND SUPERCONDUCTING PROPERTIES AND PHASES 1987 12 "NATIONAL RESEARCH INSTITUTE FOR METALS,TOKYO" "PHYSICA B+C,148(1987)342" "Y,BA,CU,O" 1033 SSC0650043 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.97Fe0.03O7-Z Y 1 Ba 2 Cu 2.97 Fe 0.03 O 7-Z 1 1988 3 Y123 K 89 89 0 MOSSBAUER STUDY OF Y(1)BA(2)(CU(1-X)FE(X))(3)O(7-Z) : SUPERCONDUCTIVITY AND MAGNETIC ORDER 1988 1 "MOSSBAUER ,SUBSTITUTION ,SITE ASS" "DEPARTMENT OF PHYSICS,FACULTY OF SCIENCE,OCHANOMIZU UNIVERSITY,TOKYO" "SOLID STATE COMMUN.,65(1988)0043" "Y,BA,CU,FE,O" 1034 SSC0650043 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.949Fe0.051O7-Z Y 1 Ba 2 Cu 2.949 Fe 0.051 O 7-Z 1 1988 3 Y123 K 78 78 0 MOSSBAUER STUDY OF Y(1)BA(2)(CU(1-X)FE(X))(3)O(7-Z) : SUPERCONDUCTIVITY AND MAGNETIC ORDER 1988 1 "MOSSBAUER ,SUBSTITUTION ,SITE ASS" "DEPARTMENT OF PHYSICS,FACULTY OF SCIENCE,OCHANOMIZU UNIVERSITY,TOKYO" "SOLID STATE COMMUN.,65(1988)0043" "Y,BA,CU,FE,O" 1035 SSC0650043 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.901Fe0.099O7-Z Y 1 Ba 2 Cu 2.901 Fe 0.099 O 7-Z 1 1988 2 Y123 K 62 62 0 MOSSBAUER STUDY OF Y(1)BA(2)(CU(1-X)FE(X))(3)O(7-Z) : SUPERCONDUCTIVITY AND MAGNETIC ORDER 1988 1 "MOSSBAUER ,SUBSTITUTION ,SITE ASS" "DEPARTMENT OF PHYSICS,FACULTY OF SCIENCE,OCHANOMIZU UNIVERSITY,TOKYO" "SOLID STATE COMMUN.,65(1988)0043" "Y,BA,CU,FE,O" 1036 SSC0650043 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.799Fe0.201O7-Z Y 1 Ba 2 Cu 2.799 Fe 0.201 O 7-Z 1 1988 2 Y123 K 39 39 0 MOSSBAUER STUDY OF Y(1)BA(2)(CU(1-X)FE(X))(3)O(7-Z) : SUPERCONDUCTIVITY AND MAGNETIC ORDER 1988 1 "MOSSBAUER ,SUBSTITUTION ,SITE ASS" "DEPARTMENT OF PHYSICS,FACULTY OF SCIENCE,OCHANOMIZU UNIVERSITY,TOKYO" "SOLID STATE COMMUN.,65(1988)0043" "Y,BA,CU,FE,O" 1037 PHF0181547 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1988 3 Y123 K 89 89 5 3800 0.85 1.7 0 1988 "J.Phys. F, 18(1988)1547-1562" 1038 JPF0182069 YBa2Cu3O7 Y0.33Ba0.67Cu3OX Y 0.33 Ba 0.67 Cu 3 O X 1 1988 3 Y123 3.809 3.861 11.663 K 97 97 8 2.5 0 A STIDY OF THE Y(X)BA(1-X)CU(1)O(Y) SUPERCONDUCTORS FOR 0.3100 K)IN BI,PB-SR-CA-CU-O GLASS-CERAMICS" 1989 1 "GLASSY STATE ,FABRICATION ,THERMAL" "DEPARTMENT OF ELECTRICAL ENGINEERING,FACULTY OF ENGINEERING,HIROSHIMA UNIVERSITY,HIGASHI-HIROSHIMA" "JJAP LETT.,28(1989)L37" "BI,PB,SR,CA,CU,O" 1133 JJP0280037 Bi1Pb0.2Sr1Ca1Cu2OX Bi 1 Pb 0.2 Sr 1 Ca 1 Cu 2 O X 3 1989 K 99 119 109 0 "PREPARATION AND CRYSTALLIZATION PROCESS OF THE HIGH-TC SUPERCONDUCTING PHASE (TC(END)>100 K)IN BI,PB-SR-CA-CU-O GLASS-CERAMICS" 1989 1 "GLASSY STATE ,FABRICATION ,THERMAL" "DEPARTMENT OF ELECTRICAL ENGINEERING,FACULTY OF ENGINEERING,HIROSHIMA UNIVERSITY,HIGASHI-HIROSHIMA" "JJAP LETT.,28(1989)L37" "BI,PB,SR,CA,CU,O" 1134 JJP0280037 Bi1Pb0.3Sr1Ca1Cu2OX Bi 1 Pb 0.3 Sr 1 Ca 1 Cu 2 O X 3 1989 K 92 118 105 0 "PREPARATION AND CRYSTALLIZATION PROCESS OF THE HIGH-TC SUPERCONDUCTING PHASE (TC(END)>100 K)IN BI,PB-SR-CA-CU-O GLASS-CERAMICS" 1989 1 "GLASSY STATE ,FABRICATION ,THERMAL" "DEPARTMENT OF ELECTRICAL ENGINEERING,FACULTY OF ENGINEERING,HIROSHIMA UNIVERSITY,HIGASHI-HIROSHIMA" "JJAP LETT.,28(1989)L37" "BI,PB,SR,CA,CU,O" 1135 JJP0280037 Bi1Pb0.4Sr1Ca1Cu2OX Bi 1 Pb 0.4 Sr 1 Ca 1 Cu 2 O X 3 1989 K 88 115 101.5 0 "PREPARATION AND CRYSTALLIZATION PROCESS OF THE HIGH-TC SUPERCONDUCTING PHASE (TC(END)>100 K)IN BI,PB-SR-CA-CU-O GLASS-CERAMICS" 1989 1 "GLASSY STATE ,FABRICATION ,THERMAL" "DEPARTMENT OF ELECTRICAL ENGINEERING,FACULTY OF ENGINEERING,HIROSHIMA UNIVERSITY,HIGASHI-HIROSHIMA" "JJAP LETT.,28(1989)L37" "BI,PB,SR,CA,CU,O" 1136 JJP0280037 Bi0.8Pb0.1Sr0.8Ca1Cu1.4OX Bi 0.8 Pb 0.1 Sr 0.8 Ca 1 Cu 1.4 O X 3 1989 K 82 120 101 0 "PREPARATION AND CRYSTALLIZATION PROCESS OF THE HIGH-TC SUPERCONDUCTING PHASE (TC(END)>100 K)IN BI,PB-SR-CA-CU-O GLASS-CERAMICS" 1989 1 "GLASSY STATE ,FABRICATION ,THERMAL" "DEPARTMENT OF ELECTRICAL ENGINEERING,FACULTY OF ENGINEERING,HIROSHIMA UNIVERSITY,HIGASHI-HIROSHIMA" "JJAP LETT.,28(1989)L37" "BI,PB,SR,CA,CU,O" 1137 JJP0280037 Bi0.8Pb0.2Sr0.8Ca1Cu1.4OX Bi 0.8 Pb 0.2 Sr 0.8 Ca 1 Cu 1.4 O X 3 1989 K 92 119 105.5 0 "PREPARATION AND CRYSTALLIZATION PROCESS OF THE HIGH-TC SUPERCONDUCTING PHASE (TC(END)>100 K)IN BI,PB-SR-CA-CU-O GLASS-CERAMICS" 1989 1 "GLASSY STATE ,FABRICATION ,THERMAL" "DEPARTMENT OF ELECTRICAL ENGINEERING,FACULTY OF ENGINEERING,HIROSHIMA UNIVERSITY,HIGASHI-HIROSHIMA" "JJAP LETT.,28(1989)L37" "BI,PB,SR,CA,CU,O" 1138 JJP0280037 Bi0.8Pb0.3Sr0.8Ca1Cu1.4OX Bi 0.8 Pb 0.3 Sr 0.8 Ca 1 Cu 1.4 O X 3 1989 K 90 118 104 0 "PREPARATION AND CRYSTALLIZATION PROCESS OF THE HIGH-TC SUPERCONDUCTING PHASE (TC(END)>100 K)IN BI,PB-SR-CA-CU-O GLASS-CERAMICS" 1989 1 "GLASSY STATE ,FABRICATION ,THERMAL" "DEPARTMENT OF ELECTRICAL ENGINEERING,FACULTY OF ENGINEERING,HIROSHIMA UNIVERSITY,HIGASHI-HIROSHIMA" "JJAP LETT.,28(1989)L37" "BI,PB,SR,CA,CU,O" 1139 JJP0280037 Bi0.8Pb0.4Sr0.8Ca1Cu1.4OX Bi 0.8 Pb 0.4 Sr 0.8 Ca 1 Cu 1.4 O X 3 1989 K 86 115 100.5 0 "PREPARATION AND CRYSTALLIZATION PROCESS OF THE HIGH-TC SUPERCONDUCTING PHASE (TC(END)>100 K)IN BI,PB-SR-CA-CU-O GLASS-CERAMICS" 1989 1 "GLASSY STATE ,FABRICATION ,THERMAL" "DEPARTMENT OF ELECTRICAL ENGINEERING,FACULTY OF ENGINEERING,HIROSHIMA UNIVERSITY,HIGASHI-HIROSHIMA" "JJAP LETT.,28(1989)L37" "BI,PB,SR,CA,CU,O" 1140 PRB0392729 "Y(Ba,Cs)2Cu3O7" Y1Ba1.95Cs0.05Cu3O7-Z Y 1 Ba 1.95 Cs 0.05 Cu 3 O 7-Z 3 1989 Y123 3.827 3.876 11.632 K 78 85.5 90.5 85.5 0 SUPERCONDUCTIVITY IN Y(1)BA(1.95)CS(0.05)CU(3)O(7-Y) GRANULAR CERAMICS 1989 2 "RESISTIVITY ,GRANULAR" "INSTITUT DE PHYSIQUE B5,UNIVERSITE DE LIEGE,BELGIUM" "PHYS.REV.B,39(1989)2729" "Y,BA,CS,CU,O" 1141 PRB0392251 La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 2 1989 280 T K 0 INFRARED STUDY OF ANISOTROPY IN SINGLE-CRYSTAL LA(2-X)SR(X)CU(1)O(4) 1989 2 "INFRARED ,SINGLE CRYSTAL ,ANISOTRO" "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,39(1989)2251" "LA,SR,CU,O" 1142 PRB0392251 "(La,Sr)2CuO4" La1.92Sr0.08Cu1O4 La 1.92 Sr 0.08 Cu 1 O 4 2 1989 T K 0 INFRARED STUDY OF ANISOTROPY IN SINGLE-CRYSTAL LA(2-X)SR(X)CU(1)O(4) 1989 2 "INFRARED ,SINGLE CRYSTAL ,ANISOTRO" "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,39(1989)2251" "LA,SR,CU,O" 1143 PRB0392255 "Bi2(Sr,Bi)2CaCu2O8" Bi2.2Sr1.8Ca1Cu2OY Bi 2.2 Sr 1.8 Ca 1 Cu 2 O Y 2 1989 Bi2212 K 90 90 0 "PHOTOEMISSION STUDY OF BI(2)(SR,CA)(3)CU(2)O(Y)" 1989 2 "ELECTRONIC STRUCTURE ,PHOTOEMISSION ,EELS" "DEPARTMENT OF PHYSICS,UNIVERSITY OF TOKYO,TOKYO" "PHYS.REV.B,39(1989)2255" "BI,SR,CA,CU,O" 1144 PRB0392255 "(La,Sr)2CuO4" La1.92Sr0.08Cu1O4-Z La 1.92 Sr 0.08 Cu 1 O 4-Z 2 1989 T K 0 "PHOTOEMISSION STUDY OF BI(2)(SR,CA)(3)CU(2)O(Y)" 1989 2 "ELECTRONIC STRUCTURE ,PHOTOEMISSION ,EELS" "DEPARTMENT OF PHYSICS,UNIVERSITY OF TOKYO,TOKYO" "PHYS.REV.B,39(1989)2255" "BI,SR,CA,CU,O" 1145 PRB0392336 La2CoO4 La2Co1O4 La 2 Co 1 O 4 2 1989 275 T 5.473 5.606 12.656 K 0 SUCCESSIVE ANTIFERROMAGNETIC PHASE TRANSITIONS IN SINGLE-CRYSTAL LA(2)CO(1)O(4) 1989 2 "PHASE TRANSITION ,SINGLE CRYSTAL ,NEUTRON SCATTERING ,AN" "DEPARTMENT OF PHYSICS,TOHOKU UNIVERSITY,SENDAI" "PHYS.REV.B,39(1989)2336" "LA,CO,O" 1146 PRB0390785 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 4 1989 Y123 K 3000 1 0.09 POWER-LAW TEMPERATURE DEPENDENCE OF THE ELECTRODYNAMIC PROPERTIES IN ORIENTED Y(1)BA(2)CU(3)O(7-Z) AND Y(2)BA(4)CU(8)O(16-Z) FILMS 1989 1 "SURFACE RESISTANCE ,SURFACE REACTANCE ,FILM" "DEPARTMENT OF PHYSICS AND SOLID STATE SCIENCE CENTER,UNIVERSITY OF CALIFORNIA,LOS ANGELES,CALIFORNIA" "PHYS.REV.B,39(1989)785" "Y,BA,CU,O" 1147 PRB0390851 YBa2Cu3O7 Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O Z 6.9 2 1989 3 Y123 K 82 82 1415 MAGNETIC PENETRATION DEPTH IN SINGLE-CRYSTAL Y(1)BA(2)CU(3)O(7-Z) 1989 1 "PENETRATION ,SINGLE CRYSTAL ,MAGNETIZ" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,39(1989)851" "Y,BA,CU,O" 1148 PRB0380909 YBa2Cu3O7 Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O Z 6.95 1988 3 Y123 K 89.9 89.9 1656 SYSTEMATIC VARIATION OF MAGNETIC-FIELD PENETRATION DEPTH IN HIGH-TC SUPERCONDUCTORS STUDIED BY MUON-SPIN RELAXATION 1988 7 "MUON ,PENETRATION DE" "BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK" "PHYS.REV.B,38(1988)909" "Y,BA,CU,O,LA,SR,CU,O" 1149 PRB0380909 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O Z 7 1988 3 Y123 K 91.1 91.1 1472 SYSTEMATIC VARIATION OF MAGNETIC-FIELD PENETRATION DEPTH IN HIGH-TC SUPERCONDUCTORS STUDIED BY MUON-SPIN RELAXATION 1988 7 "MUON ,PENETRATION DE" "BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK" "PHYS.REV.B,38(1988)909" "Y,BA,CU,O,LA,SR,CU,O" 1150 PRB0367199 EuBa2Cu3O7 Eu1Ba2Cu3OY Eu 1 Ba 2 Cu 3 O Y 1987 3 Y123 K 94.8 94.8 190 45 3 0.7 27 6 0.41 0.72 ELECTRICAL PROPERTIES OF HIGH-TC SUPERCONDUCTING SINGLE-CRYSTAL EU(1)BA(2)CU(3)O(Y) 1987 11 "RESISTIVITY ,SINGLE CRYSTAL ,HC ,AN" "NIPPON TELEGRAPH AND TELEPHONE ELECTRICAL COMMUNICATIONS LABORATORIES,TOKAI,IBARAKI" "PHYS.REV.B,36(1987)7199" "EU,BA,CU,O" 1151 JJP0272339 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1988 Y123 K 92.5 93.8 93.15 ELECTRON IRRADIATION EFFECT ON A BA(2)Y(1)CU(3)O(7) SUPERCONDUCTOR 1988 12 "IRRADIATION ,RESISTIVITY ,CRITICAL CURRENT ,TC" "TAKASAKI RADIATION CHEMISTRY RESEARCH ESTABLISHMENT,JAPAN ATOMIC ENERGY RESEARCH INSTITUTE,GUNMA" "JJAP LETT.,27(1988)L2339" "Y,BA,CU,O" 1152 PRB0390801 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2OX Bi 2 Sr 2 Ca 1 Cu 2 O X 1989 Bi2212 K 85 85 6.3 ELECTRON TUNNELING AND THE ENERGY GAP IN BI(2)SR(2)CA(1)CU(2)O(X) 1989 1 "TUNNELING ,SINGLE CRYSTAL ,ENERGY G" "DEPARTMENT OF APPLIED PHYSICS,STANFORD UNIVERSITY,CALIFORNIA" "PHYS.REV.B,39(1989)801" "BI,SR,CA,CU,O" 1153 SSC0650997 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1988 Y123 K 4 ELECTRON TUNNELING STUDIES OF HIGH-TC SUPERCONDUCTOR YBA2CU3O7-Z 1988 "SOLID STATE COMMUN.,65(1988)997" "Y,BA,CU,O" 1154 SSC0670057 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1988 Y123 3.82 3.889 11.668 K 92.11 92.11 SUPERCONDUCTIVITY IN YTTRIUM-TERBIUM-BARIUM-COPPER OXIDE 1988 10 "LATTICE CONSTANT ,Tc ,RES" "DEPARTMENT OF PHYSICS AND ASTRONOMY,UNIVERSITY OF IOWA,IOWA,USA" "SOLID STATE COMMUN.,68(1988)0057" "Y,TB,BA,CU,O" 1155 SSC0670057 "(Y,Tb)Ba2Cu3O7" Y0.96Tb0.04Ba2Cu3O7-Z Y 0.96 Tb 0.04 Ba 2 Cu 3 O 7-Z 1988 Y123 3.819 3.889 11.677 K 92.01 92.01 SUPERCONDUCTIVITY IN YTTRIUM-TERBIUM-BARIUM-COPPER OXIDE 1988 10 "LATTICE CONSTANT ,Tc ,RES" "DEPARTMENT OF PHYSICS AND ASTRONOMY,UNIVERSITY OF IOWA,IOWA,USA" "SOLID STATE COMMUN.,68(1988)0057" "Y,TB,BA,CU,O" 1156 SSC0670057 "(Y,Tb)Ba2Cu3O7" Y0.92Tb0.08Ba2Cu3O7-Z Y 0.92 Tb 0.08 Ba 2 Cu 3 O 7-Z 1988 Y123 3.82 3.889 11.672 K 92.01 92.01 SUPERCONDUCTIVITY IN YTTRIUM-TERBIUM-BARIUM-COPPER OXIDE 1988 10 "LATTICE CONSTANT ,Tc ,RES" "DEPARTMENT OF PHYSICS AND ASTRONOMY,UNIVERSITY OF IOWA,IOWA,USA" "SOLID STATE COMMUN.,68(1988)0057" "Y,TB,BA,CU,O" 1157 SSC0670057 "(Y,Tb)Ba2Cu3O7" Y0.88Tb0.12Ba2Cu3O7-Z Y 0.88 Tb 0.12 Ba 2 Cu 3 O 7-Z 1988 Y123 3.831 3.891 11.666 K 92.1 92.1 SUPERCONDUCTIVITY IN YTTRIUM-TERBIUM-BARIUM-COPPER OXIDE 1988 10 "LATTICE CONSTANT ,Tc ,RES" "DEPARTMENT OF PHYSICS AND ASTRONOMY,UNIVERSITY OF IOWA,IOWA,USA" "SOLID STATE COMMUN.,68(1988)0057" "Y,TB,BA,CU,O" 1158 PRL0601446 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1988 Y123 3.822 3.888 11.681 K 91.06 91.06 1.588 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1159 PRL0601446 "YBa2(Cu,Ga)3O7" Y1Ba2Cu2.97Ga0.03O7 Y 1 Ba 2 Cu 2.97 Ga 0.03 O 7 1988 Y123 3.835 3.882 11.687 K 90.88 90.88 1.805 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1160 PRL0601446 "YBa2(Cu,Ga)3O7" Y1Ba2Cu2.94Ga0.06O7 Y 1 Ba 2 Cu 2.94 Ga 0.06 O 7 1988 Y123 3.851 3.874 11.681 K 87.99 87.99 2.473 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1161 PRL0601446 "YBa2(Cu,Ga)3O7" Y1Ba2Cu2.91Ga0.09O7 Y 1 Ba 2 Cu 2.91 Ga 0.09 O 7 1988 Y123 3.858 3.866 11.686 K 83.71 83.71 3.05 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1162 PRL0601446 "YBa2(Cu,Ga)3O7" Y1Ba2Cu2.88Ga0.12O7 Y 1 Ba 2 Cu 2.88 Ga 0.12 O 7 1988 Y123 3.861 3.866 11.681 K 79.89 79.89 3.538 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1163 PRL0601446 "YBa2(Cu,Ga)3O7" Y1Ba2Cu2.85Ga0.15O7 Y 1 Ba 2 Cu 2.85 Ga 0.15 O 7 1988 Y123 3.861 3.866 11.684 K 78.49 78.49 4.332 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1164 PRL0601446 "YBa2(Cu,Ga)3O7" Y1Ba2Cu2.82Ga0.18O7 Y 1 Ba 2 Cu 2.82 Ga 0.18 O 7 1988 Y123 3.863 3.863 11.686 K 79.24 79.24 4.296 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1165 PRL0601446 "YBa2(Cu,Ga)3O7" Y1Ba2Cu2.79Ga0.21O7 Y 1 Ba 2 Cu 2.79 Ga 0.21 O 7 1988 Y123 3.864 3.864 11.686 K 76.91 76.91 4.585 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1166 PRL0601446 "YBa2(Cu,Ga)3O7" Y1Ba2Cu2.76Ga0.24O7 Y 1 Ba 2 Cu 2.76 Ga 0.24 O 7 1988 Y123 3.865 3.865 11.683 K 71.79 71.79 7.022 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1167 PRL0601446 "YBa2(Cu,Ga)3O7" Y1Ba2Cu2.73Ga0.27O7 Y 1 Ba 2 Cu 2.73 Ga 0.27 O 7 1988 Y123 3.866 3.866 11.683 K 67.04 67.04 7.166 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1168 PRL0601446 "YBa2(Cu,Ga)3O7" Y1Ba2Cu2.67Ga0.33O7 Y 1 Ba 2 Cu 2.67 Ga 0.33 O 7 1988 Y123 3.866 3.866 11.679 K 65.64 65.64 9.206 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1169 PRL0601446 "YBa2(Cu,Ga)3O7" Y1Ba2Cu2.61Ga0.39O7 Y 1 Ba 2 Cu 2.61 Ga 0.39 O 7 1988 Y123 3.865 3.865 11.677 K 64.8 64.8 12.67 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1170 PRL0601446 "YBa2(Cu,Ga)3O7" Y1Ba2Cu2.55Ga0.45O7 Y 1 Ba 2 Cu 2.55 Ga 0.45 O 7 1988 Y123 3.867 3.867 11.677 K 65.36 65.36 20.94 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1171 PRL0601446 "YBa2(Cu,Ga)3O7" Y1Ba2Cu2.4Ga0.6O7 Y 1 Ba 2 Cu 2.4 Ga 0.6 O 7 1988 Y123 3.868 3.868 11.675 K 63.31 63.31 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1172 PRL0601446 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1988 Y123 3.822 3.888 11.683 K 89.66 89.66 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1173 PRL0601446 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.97Zn0.03O7 Y 1 Ba 2 Cu 2.97 Zn 0.03 O 7 1988 Y123 3.827 3.883 11.683 K 78.21 78.21 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1174 PRL0601446 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.94Zn0.06O7 Y 1 Ba 2 Cu 2.94 Zn 0.06 O 7 1988 Y123 3.829 3.883 11.683 K 67.04 67.04 1.877 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1175 PRL0601446 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.91Zn0.09O7 Y 1 Ba 2 Cu 2.91 Zn 0.09 O 7 1988 Y123 3.829 3.883 11.683 K 55.87 55.87 1.877 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1176 PRL0601446 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.88Zn0.12O7 Y 1 Ba 2 Cu 2.88 Zn 0.12 O 7 1988 Y123 3.834 3.886 11.681 K 47.02 47.02 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1177 PRL0601446 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.85Zn0.15O7 Y 1 Ba 2 Cu 2.85 Zn 0.15 O 7 1988 Y123 3.833 3.883 11.681 K 45.53 45.53 2.256 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1178 PRL0601446 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.82Zn0.18O7 Y 1 Ba 2 Cu 2.82 Zn 0.18 O 7 1988 Y123 3.833 3.883 11.681 K 46.18 46.18 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1179 PRL0601446 "YBa2(Cyu,Zn)3O7" Y1Ba2Cu2.885Zn0.195O7 Y 1 Ba 2 Cu 2.885 Zn 0.195 O 7 1988 Y123 3.833 3.885 11.679 K 32.4 32.4 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1180 PRL0601446 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.79Zn0.21O7 Y 1 Ba 2 Cu 2.79 Zn 0.21 O 7 1988 Y123 3.834 3.884 11.68 K 35.2 35.2 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1181 PRL0601446 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.73Zn0.27O7 Y 1 Ba 2 Cu 2.73 Zn 0.27 O 7 1988 Y123 3.835 3.887 11.681 K HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1182 PRL0601446 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.7Zn0.3O7 Y 1 Ba 2 Cu 2.7 Zn 0.3 O 7 1988 Y123 3.837 3.89 11.686 K 27 27 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1183 PRL0601446 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.67Zn0.33O7 Y 1 Ba 2 Cu 2.67 Zn 0.33 O 7 1988 Y123 3.836 3.888 11.683 K HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1184 PRL0601446 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.76Zn0.24O7 Y 1 Ba 2 Cu 2.76 Zn 0.24 O 7 1988 Y123 K 29.05 29.05 3.899 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1185 PRL0601446 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.58Zn0.42O7 Y 1 Ba 2 Cu 2.58 Zn 0.42 O 7 1988 Y123 K 8.881 HIGH-TEMPERATURE SUPERCONDUCTIVITY IN TETRAGONAL PEROVSKITE STRUCTURES:IS OXYGEN-VACANCY ORDER IMPORTANT? 1988 4 "PHYS.REV.LETT.,60(1988)1446" "Y,BA,CU,O,ZN,GA," 1186 PRB0392312 La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 4 1989 T K 7800 3460 HALL COEFFICIENTS AND OPTICAL PROPERTIES OF LA(2-X)SR(X)CU(1)O(4) SINGLE-CRYSTAL THIN FILMS 1989 2 "THIN FILM ,FILM ,HALL EFFECT ,OP" "NIPPON TELEGRAPH AND TELEPHONE OPTO-ELECTRONICS LABORATORIES,IBARAKI" "PHYS.REV.B,39(1989)2312" "LA,SR,CU,O" 1187 PRB0392312 "(La,Sr)2CuO4" La1.96Sr0.04Cu1O4 La 1.96 Sr 0.04 Cu 1 O 4 4 1989 T K 3.7 6.31 HALL COEFFICIENTS AND OPTICAL PROPERTIES OF LA(2-X)SR(X)CU(1)O(4) SINGLE-CRYSTAL THIN FILMS 1989 2 "THIN FILM ,FILM ,HALL EFFECT ,OP" "NIPPON TELEGRAPH AND TELEPHONE OPTO-ELECTRONICS LABORATORIES,IBARAKI" "PHYS.REV.B,39(1989)2312" "LA,SR,CU,O" 1188 PRB0392312 "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 4 1989 T K 26.2 26.2 0.287 0.958 HALL COEFFICIENTS AND OPTICAL PROPERTIES OF LA(2-X)SR(X)CU(1)O(4) SINGLE-CRYSTAL THIN FILMS 1989 2 "THIN FILM ,FILM ,HALL EFFECT ,OP" "NIPPON TELEGRAPH AND TELEPHONE OPTO-ELECTRONICS LABORATORIES,IBARAKI" "PHYS.REV.B,39(1989)2312" "LA,SR,CU,O" 1189 PRB0392312 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 4 1989 T K 28.6 28.6 0.236 0.75 HALL COEFFICIENTS AND OPTICAL PROPERTIES OF LA(2-X)SR(X)CU(1)O(4) SINGLE-CRYSTAL THIN FILMS 1989 2 "THIN FILM ,FILM ,HALL EFFECT ,OP" "NIPPON TELEGRAPH AND TELEPHONE OPTO-ELECTRONICS LABORATORIES,IBARAKI" "PHYS.REV.B,39(1989)2312" "LA,SR,CU,O" 1190 PRB0392312 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 4 1989 T K 18.9 18.9 0.165 0.531 HALL COEFFICIENTS AND OPTICAL PROPERTIES OF LA(2-X)SR(X)CU(1)O(4) SINGLE-CRYSTAL THIN FILMS 1989 2 "THIN FILM ,FILM ,HALL EFFECT ,OP" "NIPPON TELEGRAPH AND TELEPHONE OPTO-ELECTRONICS LABORATORIES,IBARAKI" "PHYS.REV.B,39(1989)2312" "LA,SR,CU,O" 1191 PRB0392312 "(La,Sr)2CuO4" La1.7Sr0.3Cu1O4 La 1.7 Sr 0.3 Cu 1 O 4 4 1989 T K 15.2 15.2 0.109 0.333 HALL COEFFICIENTS AND OPTICAL PROPERTIES OF LA(2-X)SR(X)CU(1)O(4) SINGLE-CRYSTAL THIN FILMS 1989 2 "THIN FILM ,FILM ,HALL EFFECT ,OP" "NIPPON TELEGRAPH AND TELEPHONE OPTO-ELECTRONICS LABORATORIES,IBARAKI" "PHYS.REV.B,39(1989)2312" "LA,SR,CU,O" 1192 PRB0392312 "(La,Sr)2CuO4" La1.64Sr0.36Cu1O4 La 1.64 Sr 0.36 Cu 1 O 4 4 1989 T K 0.096 0.299 HALL COEFFICIENTS AND OPTICAL PROPERTIES OF LA(2-X)SR(X)CU(1)O(4) SINGLE-CRYSTAL THIN FILMS 1989 2 "THIN FILM ,FILM ,HALL EFFECT ,OP" "NIPPON TELEGRAPH AND TELEPHONE OPTO-ELECTRONICS LABORATORIES,IBARAKI" "PHYS.REV.B,39(1989)2312" "LA,SR,CU,O" 1193 JJP0280193 "Bi2Sr2(Sr,Nd)Cu2O8" Bi2Sr2.9Nd0.1Cu2OY Bi 2 Sr 2.9 Nd 0.1 Cu 2 O Y 1989 Bi2212 K SUPERCONDUCTIVITY IN THE BI(2)SR(3-X)LN(X)CU(2)O(Y) SYSTEM AND THE EXCESS OF HOLE CONCENTRATION IN BI(2)SR(2)CA(N)CU(1+N)O(Y) (N=0 AND 1) 1989 2 "MATERIAL ,RES ,SUS ,TC" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,28(1989)L193" "PR,ND,BI,SR,LN,CU,O" 1194 JJP0280193 "Bi2Sr2(Sr,Nd)Cu2O8" Bi2Sr2.8Nd0.2Cu2OY Bi 2 Sr 2.8 Nd 0.2 Cu 2 O Y 1989 Bi2212 K 62.94 62.94 SUPERCONDUCTIVITY IN THE BI(2)SR(3-X)LN(X)CU(2)O(Y) SYSTEM AND THE EXCESS OF HOLE CONCENTRATION IN BI(2)SR(2)CA(N)CU(1+N)O(Y) (N=0 AND 1) 1989 2 "MATERIAL ,RES ,SUS ,TC" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,28(1989)L193" "PR,ND,BI,SR,LN,CU,O" 1195 JJP0280193 "Bi2Sr2(Sr,Nd)Cu2O8" Bi2Sr2.7Nd0.3Cu2OY Bi 2 Sr 2.7 Nd 0.3 Cu 2 O Y 1989 Bi2212 K 63.38 63.38 SUPERCONDUCTIVITY IN THE BI(2)SR(3-X)LN(X)CU(2)O(Y) SYSTEM AND THE EXCESS OF HOLE CONCENTRATION IN BI(2)SR(2)CA(N)CU(1+N)O(Y) (N=0 AND 1) 1989 2 "MATERIAL ,RES ,SUS ,TC" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,28(1989)L193" "PR,ND,BI,SR,LN,CU,O" 1196 JJP0280193 "Bi2Sr2(Sr,Nd)Cu2O8" Bi2Sr2.6Nd0.4Cu2OY Bi 2 Sr 2.6 Nd 0.4 Cu 2 O Y 1989 Bi2212 K 55.28 55.28 SUPERCONDUCTIVITY IN THE BI(2)SR(3-X)LN(X)CU(2)O(Y) SYSTEM AND THE EXCESS OF HOLE CONCENTRATION IN BI(2)SR(2)CA(N)CU(1+N)O(Y) (N=0 AND 1) 1989 2 "MATERIAL ,RES ,SUS ,TC" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,28(1989)L193" "PR,ND,BI,SR,LN,CU,O" 1197 JJP0280193 "Bi2Sr2(Sr,Nd)Cu2O8" Bi2Sr2.5Nd0.5Cu2OY Bi 2 Sr 2.5 Nd 0.5 Cu 2 O Y 1989 Bi2212 K 50.09 50.09 SUPERCONDUCTIVITY IN THE BI(2)SR(3-X)LN(X)CU(2)O(Y) SYSTEM AND THE EXCESS OF HOLE CONCENTRATION IN BI(2)SR(2)CA(N)CU(1+N)O(Y) (N=0 AND 1) 1989 2 "MATERIAL ,RES ,SUS ,TC" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,28(1989)L193" "PR,ND,BI,SR,LN,CU,O" 1198 JJP0280193 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2OY Bi 2 Sr 2 Ca 1 Cu 2 O Y 1989 Bi2212 K 72.18 72.18 SUPERCONDUCTIVITY IN THE BI(2)SR(3-X)LN(X)CU(2)O(Y) SYSTEM AND THE EXCESS OF HOLE CONCENTRATION IN BI(2)SR(2)CA(N)CU(1+N)O(Y) (N=0 AND 1) 1989 2 "MATERIAL ,RES ,SUS ,TC" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,28(1989)L193" "PR,ND,BI,SR,LN,CU,O" 1199 JJP0280193 "Bi2(Sr,La)2CaCu2O8" Bi2Sr1.9La0.1Ca1Cu2OY Bi 2 Sr 1.9 La 0.1 Ca 1 Cu 2 O Y 1989 Bi2212 K 85.04 85.04 SUPERCONDUCTIVITY IN THE BI(2)SR(3-X)LN(X)CU(2)O(Y) SYSTEM AND THE EXCESS OF HOLE CONCENTRATION IN BI(2)SR(2)CA(N)CU(1+N)O(Y) (N=0 AND 1) 1989 2 "MATERIAL ,RES ,SUS ,TC" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,28(1989)L193" "PR,ND,BI,SR,LN,CU,O" 1200 JJP0280193 "Bi2(Sr,La)2CaCu2O8" Bi2Sr1.8La0.2Ca1Cu2OY Bi 2 Sr 1.8 La 0.2 Ca 1 Cu 2 O Y 1989 Bi2212 K 90.58 90.58 0 SUPERCONDUCTIVITY IN THE BI(2)SR(3-X)LN(X)CU(2)O(Y) SYSTEM AND THE EXCESS OF HOLE CONCENTRATION IN BI(2)SR(2)CA(N)CU(1+N)O(Y) (N=0 AND 1) 1989 2 "MATERIAL ,RES ,SUS ,TC" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,28(1989)L193" "PR,ND,BI,SR,LN,CU,O" 1201 JJP0280193 "Bi2(Sr,La)2CaCu2O8" Bi2Sr1.7La0.3Ca1Cu2OY Bi 2 Sr 1.7 La 0.3 Ca 1 Cu 2 O Y 1989 Bi2212 K 86 86 0 SUPERCONDUCTIVITY IN THE BI(2)SR(3-X)LN(X)CU(2)O(Y) SYSTEM AND THE EXCESS OF HOLE CONCENTRATION IN BI(2)SR(2)CA(N)CU(1+N)O(Y) (N=0 AND 1) 1989 2 "MATERIAL ,RES ,SUS ,TC" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,28(1989)L193" "PR,ND,BI,SR,LN,CU,O" 1202 JJP0280193 "Bi2(Sr,La)2CaCu2O8" Bi2Sr1.6La0.4Ca1Cu2OY Bi 2 Sr 1.6 La 0.4 Ca 1 Cu 2 O Y 1989 Bi2212 K 75.18 75.18 0 SUPERCONDUCTIVITY IN THE BI(2)SR(3-X)LN(X)CU(2)O(Y) SYSTEM AND THE EXCESS OF HOLE CONCENTRATION IN BI(2)SR(2)CA(N)CU(1+N)O(Y) (N=0 AND 1) 1989 2 "MATERIAL ,RES ,SUS ,TC" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,28(1989)L193" "PR,ND,BI,SR,LN,CU,O" 1203 JJP0280193 "Bi2(Sr,La)2CaCuO8" Bi2Sr1.5La0.5Ca1Cu2OY Bi 2 Sr 1.5 La 0.5 Ca 1 Cu 2 O Y 1989 Bi2212 K 55.63 55.63 0 SUPERCONDUCTIVITY IN THE BI(2)SR(3-X)LN(X)CU(2)O(Y) SYSTEM AND THE EXCESS OF HOLE CONCENTRATION IN BI(2)SR(2)CA(N)CU(1+N)O(Y) (N=0 AND 1) 1989 2 "MATERIAL ,RES ,SUS ,TC" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,28(1989)L193" "PR,ND,BI,SR,LN,CU,O" 1204 JJP0280193 "Bi2(Sr,La)2CaCu2O8" Bi2Sr1.4La0.6Ca1Cu2OY Bi 2 Sr 1.4 La 0.6 Ca 1 Cu 2 O Y 1989 Bi2212 K 39.44 39.44 0 SUPERCONDUCTIVITY IN THE BI(2)SR(3-X)LN(X)CU(2)O(Y) SYSTEM AND THE EXCESS OF HOLE CONCENTRATION IN BI(2)SR(2)CA(N)CU(1+N)O(Y) (N=0 AND 1) 1989 2 "MATERIAL ,RES ,SUS ,TC" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,28(1989)L193" "PR,ND,BI,SR,LN,CU,O" 1205 JJP0280193 BiSrCuOZ Bi1Sr1Cu1OY Bi 1 Sr 1 Cu 1 O Y 1989 K 5.28 5.28 0 SUPERCONDUCTIVITY IN THE BI(2)SR(3-X)LN(X)CU(2)O(Y) SYSTEM AND THE EXCESS OF HOLE CONCENTRATION IN BI(2)SR(2)CA(N)CU(1+N)O(Y) (N=0 AND 1) 1989 2 "MATERIAL ,RES ,SUS ,TC" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,28(1989)L193" "PR,ND,BI,SR,LN,CU,O" 1206 JJP0280193 "Bi2(Sr,Nd)3Cu2O8" Bi1Sr0.95Nd0.05Cu1OY Bi 1 Sr 0.95 Nd 0.05 Cu 1 O Y 1989 K 8.01 8.01 0 SUPERCONDUCTIVITY IN THE BI(2)SR(3-X)LN(X)CU(2)O(Y) SYSTEM AND THE EXCESS OF HOLE CONCENTRATION IN BI(2)SR(2)CA(N)CU(1+N)O(Y) (N=0 AND 1) 1989 2 "MATERIAL ,RES ,SUS ,TC" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,28(1989)L193" "PR,ND,BI,SR,LN,CU,O" 1207 JJP0280193 "Bi2(Sr,Nd)3Cu2O8" Bi1Sr0.9Nd0.1Cu1OY Bi 1 Sr 0.9 Nd 0.1 Cu 1 O Y 1989 K 10.74 10.74 0 SUPERCONDUCTIVITY IN THE BI(2)SR(3-X)LN(X)CU(2)O(Y) SYSTEM AND THE EXCESS OF HOLE CONCENTRATION IN BI(2)SR(2)CA(N)CU(1+N)O(Y) (N=0 AND 1) 1989 2 "MATERIAL ,RES ,SUS ,TC" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,28(1989)L193" "PR,ND,BI,SR,LN,CU,O" 1208 JJP0280193 "Bi2(Sr,Nd)3Cu2O8" Bi1Sr0.85Nd0.15Cu1OY Bi 1 Sr 0.85 Nd 0.15 Cu 1 O Y 1989 K 13.56 13.56 0 SUPERCONDUCTIVITY IN THE BI(2)SR(3-X)LN(X)CU(2)O(Y) SYSTEM AND THE EXCESS OF HOLE CONCENTRATION IN BI(2)SR(2)CA(N)CU(1+N)O(Y) (N=0 AND 1) 1989 2 "MATERIAL ,RES ,SUS ,TC" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,28(1989)L193" "PR,ND,BI,SR,LN,CU,O" 1209 JJP0280193 "Bi2(Sr,Nd)3Cu2O8" Bi1Sr0.8Nd0.2Cu1OY Bi 1 Sr 0.8 Nd 0.2 Cu 1 O Y 1989 K 14.79 14.79 0 SUPERCONDUCTIVITY IN THE BI(2)SR(3-X)LN(X)CU(2)O(Y) SYSTEM AND THE EXCESS OF HOLE CONCENTRATION IN BI(2)SR(2)CA(N)CU(1+N)O(Y) (N=0 AND 1) 1989 2 "MATERIAL ,RES ,SUS ,TC" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,28(1989)L193" "PR,ND,BI,SR,LN,CU,O" 1210 JJP0280193 "Bi2(Sr,Nd)3Cu2O8" Bi1Sr0.75Nd0.25Cu1OY Bi 1 Sr 0.75 Nd 0.25 Cu 1 O Y 1989 K 14.96 14.96 0 SUPERCONDUCTIVITY IN THE BI(2)SR(3-X)LN(X)CU(2)O(Y) SYSTEM AND THE EXCESS OF HOLE CONCENTRATION IN BI(2)SR(2)CA(N)CU(1+N)O(Y) (N=0 AND 1) 1989 2 "MATERIAL ,RES ,SUS ,TC" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,28(1989)L193" "PR,ND,BI,SR,LN,CU,O" 1211 JJP0280193 "Bi2(Sr,Nd)3Cu2O8" Bi1Sr0.7Nd0.3Cu1OY Bi 1 Sr 0.7 Nd 0.3 Cu 1 O Y 1989 K 13.2 13.2 0 SUPERCONDUCTIVITY IN THE BI(2)SR(3-X)LN(X)CU(2)O(Y) SYSTEM AND THE EXCESS OF HOLE CONCENTRATION IN BI(2)SR(2)CA(N)CU(1+N)O(Y) (N=0 AND 1) 1989 2 "MATERIAL ,RES ,SUS ,TC" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,28(1989)L193" "PR,ND,BI,SR,LN,CU,O" 1212 JJP0280193 "Bi2(Sr,Nd)3Cu2O8" Bi1Sr0.65Nd0.35Cu1OY Bi 1 Sr 0.65 Nd 0.35 Cu 1 O Y 1989 K 10.21 10.21 0 SUPERCONDUCTIVITY IN THE BI(2)SR(3-X)LN(X)CU(2)O(Y) SYSTEM AND THE EXCESS OF HOLE CONCENTRATION IN BI(2)SR(2)CA(N)CU(1+N)O(Y) (N=0 AND 1) 1989 2 "MATERIAL ,RES ,SUS ,TC" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,TOKYO" "JJAP.LETT.,28(1989)L193" "PR,ND,BI,SR,LN,CU,O" 1213 JJP0280200 Tl2.5Nd1Sr2Cu2.5OX Tl 2.5 Nd 1 Sr 2 Cu 2.5 O X 1989 K 16.37 40.78 28.575 "TL2O3,PBO,SRCO3,CUO,R2O3" 0 SIN(850-870C 8-12H IN AIR)-ANN(860-880C 40-80MIN)-C(10-15C/MIN) "SUPERCONDUCTIVITY OF NEW COMPOUNDS IN THE SYSTEMS TL-LN-SR-CU-O (LN=PR AND ND) AND TL-PB-LN-SR-CU-O (LN=PR,ND AND SM)" 1989 2 "RESISTIVITY ,NEW MATERIAL ,TC" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT CO.,LTD.,TOKYO" "JJAP.LETT.,28(1989)L200" "PR,ND,SM,TL,PB,SR,CU,O" 1214 JJP0280200 Tl2.5Pb0.2Nd1Sr2Cu2.5OX Tl 2.5 Pb 0.2 Nd 1 Sr 2 Cu 2.5 O X 1989 K 30.97 41.99 36.48 "TL2O3,PBO,SRCO3,CUO,R2O3" 0 SIN(850-870C 8-12H IN AIR)-ANN(860-880C 40-80MIN)-C(10-15C/MIN) "SUPERCONDUCTIVITY OF NEW COMPOUNDS IN THE SYSTEMS TL-LN-SR-CU-O (LN=PR AND ND) AND TL-PB-LN-SR-CU-O (LN=PR,ND AND SM)" 1989 2 "RESISTIVITY ,NEW MATERIAL ,TC" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT CO.,LTD.,TOKYO" "JJAP.LETT.,28(1989)L200" "PR,ND,SM,TL,PB,SR,CU,O" 1215 JJP0280200 Tl2.5Pb0.5Nd1Sr2Cu2.5OX Tl 2.5 Pb 0.5 Nd 1 Sr 2 Cu 2.5 O X 1989 K 36.94 42.8 39.87 "TL2O3,PBO,SRCO3,CUO,R2O3" 0 SIN(850-870C 8-12H IN AIR)-ANN(860-880C 40-80MIN)-C(10-15C/MIN) "SUPERCONDUCTIVITY OF NEW COMPOUNDS IN THE SYSTEMS TL-LN-SR-CU-O (LN=PR AND ND) AND TL-PB-LN-SR-CU-O (LN=PR,ND AND SM)" 1989 2 "RESISTIVITY ,NEW MATERIAL ,TC" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT CO.,LTD.,TOKYO" "JJAP.LETT.,28(1989)L200" "PR,ND,SM,TL,PB,SR,CU,O" 1216 JJP0280200 Tl2.5Pb0.6Nd1Sr2Cu2.5OX Tl 2.5 Pb 0.6 Nd 1 Sr 2 Cu 2.5 O X 1989 K 36.99 42.58 39.785 "TL2O3,PBO,SRCO3,CUO,R2O3" 0 SIN(850-870C 8-12H IN AIR)-ANN(860-880C 40-80MIN)-C(10-15C/MIN) "SUPERCONDUCTIVITY OF NEW COMPOUNDS IN THE SYSTEMS TL-LN-SR-CU-O (LN=PR AND ND) AND TL-PB-LN-SR-CU-O (LN=PR,ND AND SM)" 1989 2 "RESISTIVITY ,NEW MATERIAL ,TC" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT CO.,LTD.,TOKYO" "JJAP.LETT.,28(1989)L200" "PR,ND,SM,TL,PB,SR,CU,O" 1217 JJP0280200 Tl2.5Pb0.7Nd1Sr2Cu2.5OX Tl 2.5 Pb 0.7 Nd 1 Sr 2 Cu 2.5 O X 1989 K 30.89 42.28 36.585 "TL2O3,PBO,SRCO3,CUO,R2O3" 0 SIN(850-870C 8-12H IN AIR)-ANN(860-880C 40-80MIN)-C(10-15C/MIN) "SUPERCONDUCTIVITY OF NEW COMPOUNDS IN THE SYSTEMS TL-LN-SR-CU-O (LN=PR AND ND) AND TL-PB-LN-SR-CU-O (LN=PR,ND AND SM)" 1989 2 "RESISTIVITY ,NEW MATERIAL ,TC" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT CO.,LTD.,TOKYO" "JJAP.LETT.,28(1989)L200" "PR,ND,SM,TL,PB,SR,CU,O" 1218 JJP0280200 Tl2.5Pb1Nd1Sr2Cu2.5OX Tl 2.5 Pb 1 Nd 1 Sr 2 Cu 2.5 O X 1989 K 41.26 41.26 "TL2O3,PBO,SRCO3,CUO,R2O3" 0 SIN(850-870C 8-12H IN AIR)-ANN(860-880C 40-80MIN)-C(10-15C/MIN) "SUPERCONDUCTIVITY OF NEW COMPOUNDS IN THE SYSTEMS TL-LN-SR-CU-O (LN=PR AND ND) AND TL-PB-LN-SR-CU-O (LN=PR,ND AND SM)" 1989 2 "RESISTIVITY ,NEW MATERIAL ,TC" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT CO.,LTD.,TOKYO" "JJAP.LETT.,28(1989)L200" "PR,ND,SM,TL,PB,SR,CU,O" 1219 JJP0280200 Tl2.5Pb0.3Pr1Sr2Cu2.5OX Tl 2.5 Pb 0.3 Pr 1 Sr 2 Cu 2.5 O X 1989 K 39.06 39.06 "TL2O3,PBO,SRCO3,CUO,R2O3" 0 SIN(850-870C 8-12H IN AIR)-ANN(860-880C 40-80MIN)-C(10-15C/MIN) "SUPERCONDUCTIVITY OF NEW COMPOUNDS IN THE SYSTEMS TL-LN-SR-CU-O (LN=PR AND ND) AND TL-PB-LN-SR-CU-O (LN=PR,ND AND SM)" 1989 2 "RESISTIVITY ,NEW MATERIAL ,TC" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT CO.,LTD.,TOKYO" "JJAP.LETT.,28(1989)L200" "PR,ND,SM,TL,PB,SR,CU,O" 1220 JJP0280200 Tl2.5Pb0.5Pr1Sr2Cu2.5OX Tl 2.5 Pb 0.5 Pr 1 Sr 2 Cu 2.5 O X 1989 K 15.54 40.24 27.89 "TL2O3,PBO,SRCO3,CUO,R2O3" 0 SIN(850-870C 8-12H IN AIR)-ANN(860-880C 40-80MIN)-C(10-15C/MIN) "SUPERCONDUCTIVITY OF NEW COMPOUNDS IN THE SYSTEMS TL-LN-SR-CU-O (LN=PR AND ND) AND TL-PB-LN-SR-CU-O (LN=PR,ND AND SM)" 1989 2 "RESISTIVITY ,NEW MATERIAL ,TC" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT CO.,LTD.,TOKYO" "JJAP.LETT.,28(1989)L200" "PR,ND,SM,TL,PB,SR,CU,O" 1221 JJP0280200 Tl2.5Pb0.65Pr1Sr2Cu2.5OX Tl 2.5 Pb 0.65 Pr 1 Sr 2 Cu 2.5 O X 1989 K 20 40.56 30.28 "TL2O3,PBO,SRCO3,CUO,R2O3" 0 SIN(850-870C 8-12H IN AIR)-ANN(860-880C 40-80MIN)-C(10-15C/MIN) "SUPERCONDUCTIVITY OF NEW COMPOUNDS IN THE SYSTEMS TL-LN-SR-CU-O (LN=PR AND ND) AND TL-PB-LN-SR-CU-O (LN=PR,ND AND SM)" 1989 2 "RESISTIVITY ,NEW MATERIAL ,TC" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT CO.,LTD.,TOKYO" "JJAP.LETT.,28(1989)L200" "PR,ND,SM,TL,PB,SR,CU,O" 1222 JJP0280200 Tl2.5Pb0.8Pr1Sr2Cu2.5OX Tl 2.5 Pb 0.8 Pr 1 Sr 2 Cu 2.5 O X 1989 K 15.54 40.08 27.81 "TL2O3,PBO,SRCO3,CUO,R2O3" 0 SIN(850-870C 8-12H IN AIR)-ANN(860-880C 40-80MIN)-C(10-15C/MIN) "SUPERCONDUCTIVITY OF NEW COMPOUNDS IN THE SYSTEMS TL-LN-SR-CU-O (LN=PR AND ND) AND TL-PB-LN-SR-CU-O (LN=PR,ND AND SM)" 1989 2 "RESISTIVITY ,NEW MATERIAL ,TC" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT CO.,LTD.,TOKYO" "JJAP.LETT.,28(1989)L200" "PR,ND,SM,TL,PB,SR,CU,O" 1223 JJP0280200 Tl2.5Pb1Pr1Sr2Cu2.5OX Tl 2.5 Pb 1 Pr 1 Sr 2 Cu 2.5 O X 1989 K 39.22 39.22 "TL2O3,PBO,SRCO3,CUO,R2O3" 0 SIN(850-870C 8-12H IN AIR)-ANN(860-880C 40-80MIN)-C(10-15C/MIN) "SUPERCONDUCTIVITY OF NEW COMPOUNDS IN THE SYSTEMS TL-LN-SR-CU-O (LN=PR AND ND) AND TL-PB-LN-SR-CU-O (LN=PR,ND AND SM)" 1989 2 "RESISTIVITY ,NEW MATERIAL ,TC" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT CO.,LTD.,TOKYO" "JJAP.LETT.,28(1989)L200" "PR,ND,SM,TL,PB,SR,CU,O" 1224 PRB0390777 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.98Ni0.02O7 Y 1 Ba 2 Cu 2.98 Ni 0.02 O 7 1989 Y123 K 91.6 91.6 uV/K -1.293 0 "CHAIN-SITE VERSUS PLANE-SITE CU SUBSTITUTION IN Y(1)BA(2)CU(3-X)M(X)O(7) (M=CO,NI): HALL AND THERMOPOWER STUDIES" 1989 1 "SUBSTITUTION ,HALL EFFECT ,THERMOPO" "JOSEPH HENRY LABORATORIES,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY" "PHYS.REV.B,39(1989)777" "Y,BA,CU,CO,NI,O" 1225 PRB0390777 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.95Ni0.05O7 Y 1 Ba 2 Cu 2.95 Ni 0.05 O 7 1989 Y123 K 90.6 90.6 uV/K -3.142 0 "CHAIN-SITE VERSUS PLANE-SITE CU SUBSTITUTION IN Y(1)BA(2)CU(3-X)M(X)O(7) (M=CO,NI): HALL AND THERMOPOWER STUDIES" 1989 1 "SUBSTITUTION ,HALL EFFECT ,THERMOPO" "JOSEPH HENRY LABORATORIES,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY" "PHYS.REV.B,39(1989)777" "Y,BA,CU,CO,NI,O" 1226 PRB0390777 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.9Ni0.1O7 Y 1 Ba 2 Cu 2.9 Ni 0.1 O 7 1989 Y123 K 83 83 uV/K -3.95 0 "CHAIN-SITE VERSUS PLANE-SITE CU SUBSTITUTION IN Y(1)BA(2)CU(3-X)M(X)O(7) (M=CO,NI): HALL AND THERMOPOWER STUDIES" 1989 1 "SUBSTITUTION ,HALL EFFECT ,THERMOPO" "JOSEPH HENRY LABORATORIES,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY" "PHYS.REV.B,39(1989)777" "Y,BA,CU,CO,NI,O" 1227 PRB0390777 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.8Ni0.2O7 Y 1 Ba 2 Cu 2.8 Ni 0.2 O 7 1989 Y123 K 79.4 79.4 uV/K -3.849 0 "CHAIN-SITE VERSUS PLANE-SITE CU SUBSTITUTION IN Y(1)BA(2)CU(3-X)M(X)O(7) (M=CO,NI): HALL AND THERMOPOWER STUDIES" 1989 1 "SUBSTITUTION ,HALL EFFECT ,THERMOPO" "JOSEPH HENRY LABORATORIES,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY" "PHYS.REV.B,39(1989)777" "Y,BA,CU,CO,NI,O" 1228 PRB0390777 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.6Ni0.4O7 Y 1 Ba 2 Cu 2.6 Ni 0.4 O 7 1989 Y123 K 71 71 uV/K -2.164 0 "CHAIN-SITE VERSUS PLANE-SITE CU SUBSTITUTION IN Y(1)BA(2)CU(3-X)M(X)O(7) (M=CO,NI): HALL AND THERMOPOWER STUDIES" 1989 1 "SUBSTITUTION ,HALL EFFECT ,THERMOPO" "JOSEPH HENRY LABORATORIES,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY" "PHYS.REV.B,39(1989)777" "Y,BA,CU,CO,NI,O" 1229 PRB0394693 POINT CONTACT Bi2Sr2CaCu2O8 Bi2Ca1Sr2Cu2O8 Bi 2 Ca 1 Sr 2 Cu 2 O 8 1 1989 Bi2212 K 88 88 3.4 1 "BI2O3,SRCO3,CA(NO3)2,CUO" 0 CAL(860C 48H IN AIR)-SIN(850C 24H IN AIR) TUNNELING MEASUREMENTS ON BI(2)CASR(2)CU(2)O(8) 1989 3 "TUNNELING ,I-V CHARACTERI" "DEPARTMENT OF PHYSICS AND ASTRONOMY,UNIVERSITY OF IOWA CITY,IOWA" "PHYS. REV. B.,39(1989)4693" "BI,CA,SR,CU,O" 1230 PSA1030113 Ba1Y1Cu2OX Ba 1 Y 1 Cu 2 O X 1987 3.82 3.888 11.616 K LA AND LI DOPED HIGH-TC SUPERCONDUCTOR OF Y-BA-CU-O CERAMICS 1987 9 "DOPING EFFECT ,XRY ,RES ,SU" "DEPARTMENT OF PHYSICS,ZHONGSHAN UNIVERSITY,GUANGZHOU" "PHYS.STAT.SOL.A,103(1987)K113" "Y,BA,CU,O,LA,LI" 1231 PSA1030113 Ba1Y1Cu1.6Li0.4OX Ba 1 Y 1 Cu 1.6 Li 0.4 O X 1987 3.82 3.885 11.664 K LA AND LI DOPED HIGH-TC SUPERCONDUCTOR OF Y-BA-CU-O CERAMICS 1987 9 "DOPING EFFECT ,XRY ,RES ,SU" "DEPARTMENT OF PHYSICS,ZHONGSHAN UNIVERSITY,GUANGZHOU" "PHYS.STAT.SOL.A,103(1987)K113" "Y,BA,CU,O,LA,LI" 1232 PSA1030113 Ba1Y0.67La0.33Cu1.8Li0.2OX Ba 1 Y 0.67 La 0.33 Cu 1.8 Li 0.2 O X 1987 3.888 3.895 11.598 K 82 90 90 LA AND LI DOPED HIGH-TC SUPERCONDUCTOR OF Y-BA-CU-O CERAMICS 1987 9 "DOPING EFFECT ,XRY ,RES ,SU" "DEPARTMENT OF PHYSICS,ZHONGSHAN UNIVERSITY,GUANGZHOU" "PHYS.STAT.SOL.A,103(1987)K113" "Y,BA,CU,O,LA,LI" 1233 PRB0394690 Tl1.5Pb0.3Nd2Sr2Cu2OX Tl 1.5 Pb 0.3 Nd 2 Sr 2 Cu 2 O X 1989 K 29.6 37.5 43.1 37.5 "PBO,ND2O3,SRCO3,CUO,TL2O3" 0 CAL(860C 9H IN AIR)-MIX WITH TL2O3-(860C 70MIN IN PT CRUCIBLE)-C(15C/MIN) TO 300C SUPERCONDUCTIVITY IN THE TI-ND-SR-CU-O AND THE TI-PB-ND-SR-CU-O- SYSTEMS 1989 3 "RESISTIVITY ,SUSCEPTIBILITY ,MATERIAL" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT COMPANY,LTD.,TOKYO 13-5,JAPAN" "PHYS.REV. B.,39(1989)4690" "TL,ND,SR,CU,O,PB" 1234 PRB0394690 Tl1.5Pb0.5Nd2Sr2Cu2OX Tl 1.5 Pb 0.5 Nd 2 Sr 2 Cu 2 O X 1989 K 31.7 44.1 37.9 "PBO,ND2O3,SRCO3,CUO,TL2O3" 0 CAL(860C 9H IN AIR)-MIX WITH TL2O3-(860C 70MIN IN PT CRUCIBLE)-C(15C/MIN) TO 300C SUPERCONDUCTIVITY IN THE TI-ND-SR-CU-O AND THE TI-PB-ND-SR-CU-O- SYSTEMS 1989 3 "RESISTIVITY ,SUSCEPTIBILITY ,MATERIAL" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT COMPANY,LTD.,TOKYO 13-5,JAPAN" "PHYS.REV. B.,39(1989)4690" "TL,ND,SR,CU,O,PB" 1235 PRB0394690 Tl1.5Pb0.7Nd2Sr2Cu2OX Tl 1.5 Pb 0.7 Nd 2 Sr 2 Cu 2 O X 1989 K 16.8 44.1 30.45 "PBO,ND2O3,SRCO3,CUO,TL2O3" 0 CAL(860C 9H IN AIR)-MIX WITH TL2O3-(860C 70MIN IN PT CRUCIBLE)-C(15C/MIN) TO 300C SUPERCONDUCTIVITY IN THE TI-ND-SR-CU-O AND THE TI-PB-ND-SR-CU-O- SYSTEMS 1989 3 "RESISTIVITY ,SUSCEPTIBILITY ,MATERIAL" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT COMPANY,LTD.,TOKYO 13-5,JAPAN" "PHYS.REV. B.,39(1989)4690" "TL,ND,SR,CU,O,PB" 1236 PRB0394690 Tl1.5Pb1Nd2Sr2Cu2OX Tl 1.5 Pb 1 Nd 2 Sr 2 Cu 2 O X 1989 K 44.1 44.1 "PBO,ND2O3,SRCO3,CUO,TL2O3" 0 CAL(860C 9H IN AIR)-MIX WITH TL2O3-(860C 70MIN IN PT CRUCIBLE)-C(15C/MIN) TO 300C SUPERCONDUCTIVITY IN THE TI-ND-SR-CU-O AND THE TI-PB-ND-SR-CU-O- SYSTEMS 1989 3 "RESISTIVITY ,SUSCEPTIBILITY ,MATERIAL" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT COMPANY,LTD.,TOKYO 13-5,JAPAN" "PHYS.REV. B.,39(1989)4690" "TL,ND,SR,CU,O,PB" 1237 PRB0394690 Tl1.5Pb0.5Sm2Sr2Cu2OX Tl 1.5 Pb 0.5 Sm 2 Sr 2 Cu 2 O X 1989 K 23.6 23.6 "PBO,ND2O3,SRCO3,CUO,TL2O3" 0 CAL(860C 9H IN AIR)-MIX WITH TL2O3-(860C 70MIN IN PT CRUCIBLE)-C(15C/MIN) TO 300C SUPERCONDUCTIVITY IN THE TI-ND-SR-CU-O AND THE TI-PB-ND-SR-CU-O- SYSTEMS 1989 3 "RESISTIVITY ,SUSCEPTIBILITY ,MATERIAL" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT COMPANY,LTD.,TOKYO 13-5,JAPAN" "PHYS.REV. B.,39(1989)4690" "TL,ND,SR,CU,O,PB" 1238 PRB0394690 Tl1.5Pb0.5Pr2Sr2Cu2OX Tl 1.5 Pb 0.5 Pr 2 Sr 2 Cu 2 O X 1989 K 16.7 16.7 "PBO,ND2O3,SRCO3,CUO,TL2O3" 0 CAL(860C 9H IN AIR)-MIX WITH TL2O3-(860C 70MIN IN PT CRUCIBLE)-C(15C/MIN) TO 300C SUPERCONDUCTIVITY IN THE TI-ND-SR-CU-O AND THE TI-PB-ND-SR-CU-O- SYSTEMS 1989 3 "RESISTIVITY ,SUSCEPTIBILITY ,MATERIAL" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT COMPANY,LTD.,TOKYO 13-5,JAPAN" "PHYS.REV. B.,39(1989)4690" "TL,ND,SR,CU,O,PB" 1239 PRB0394690 Tl1.5Pb0.5La2Sr2Cu2OX Tl 1.5 Pb 0.5 La 2 Sr 2 Cu 2 O X 1989 K "PBO,ND2O3,SRCO3,CUO,TL2O3" 0 CAL(860C 9H IN AIR)-MIX WITH TL2O3-(860C 70MIN IN PT CRUCIBLE)-C(15C/MIN) TO 300C SUPERCONDUCTIVITY IN THE TI-ND-SR-CU-O AND THE TI-PB-ND-SR-CU-O- SYSTEMS 1989 3 "RESISTIVITY ,SUSCEPTIBILITY ,MATERIAL" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT COMPANY,LTD.,TOKYO 13-5,JAPAN" "PHYS.REV. B.,39(1989)4690" "TL,ND,SR,CU,O,PB" 1240 PRB0394690 Tl1.5Nd1Sr2Cu3OX Tl 1.5 Nd 1 Sr 2 Cu 3 O X 1989 K 36.1 36.1 "PBO,ND2O3,SRCO3,CUO,TL2O3" 0 CAL(860C 9H IN AIR)-MIX WITH TL2O3-(860C 70MIN IN PT CRUCIBLE)-C(15C/MIN) TO 300C SUPERCONDUCTIVITY IN THE TI-ND-SR-CU-O AND THE TI-PB-ND-SR-CU-O- SYSTEMS 1989 3 "RESISTIVITY ,SUSCEPTIBILITY ,MATERIAL" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT COMPANY,LTD.,TOKYO 13-5,JAPAN" "PHYS.REV. B.,39(1989)4690" "TL,ND,SR,CU,O,PB" 1241 PRB0394690 Tl1.5Nd2Sr2Cu3OX Tl 1.5 Nd 2 Sr 2 Cu 3 O X 1989 K 29.8 29.8 "PBO,ND2O3,SRCO3,CUO,TL2O3" 0 CAL(860C 9H IN AIR)-MIX WITH TL2O3-(860C 70MIN IN PT CRUCIBLE)-C(15C/MIN) TO 300C SUPERCONDUCTIVITY IN THE TI-ND-SR-CU-O AND THE TI-PB-ND-SR-CU-O- SYSTEMS 1989 3 "RESISTIVITY ,SUSCEPTIBILITY ,MATERIAL" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT COMPANY,LTD.,TOKYO 13-5,JAPAN" "PHYS.REV. B.,39(1989)4690" "TL,ND,SR,CU,O,PB" 1242 PRB0394690 Tl1.5Pb0.5Nd1Sr2Cu3OX Tl 1.5 Pb 0.5 Nd 1 Sr 2 Cu 3 O X 1989 K 39.6 39.6 "PBO,ND2O3,SRCO3,CUO,TL2O3" 0 CAL(860C 9H IN AIR)-MIX WITH TL2O3-(860C 70MIN IN PT CRUCIBLE)-C(15C/MIN) TO 300C SUPERCONDUCTIVITY IN THE TI-ND-SR-CU-O AND THE TI-PB-ND-SR-CU-O- SYSTEMS 1989 3 "RESISTIVITY ,SUSCEPTIBILITY ,MATERIAL" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT COMPANY,LTD.,TOKYO 13-5,JAPAN" "PHYS.REV. B.,39(1989)4690" "TL,ND,SR,CU,O,PB" 1243 PRB0394690 Tl1.5Pb0.5Nd2Sr2Cu3OX Tl 1.5 Pb 0.5 Nd 2 Sr 2 Cu 3 O X 1989 K 38.8 38.8 "PBO,ND2O3,SRCO3,CUO,TL2O3" 0 CAL(860C 9H IN AIR)-MIX WITH TL2O3-(860C 70MIN IN PT CRUCIBLE)-C(15C/MIN) TO 300C SUPERCONDUCTIVITY IN THE TI-ND-SR-CU-O AND THE TI-PB-ND-SR-CU-O- SYSTEMS 1989 3 "RESISTIVITY ,SUSCEPTIBILITY ,MATERIAL" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT COMPANY,LTD.,TOKYO 13-5,JAPAN" "PHYS.REV. B.,39(1989)4690" "TL,ND,SR,CU,O,PB" 1244 PRB0394690 Tl1.5Nd2Sr2Cu2OX Tl 1.5 Nd 2 Sr 2 Cu 2 O X 1989 K 15.5 41.8 28.65 "PBO,ND2O3,SRCO3,CUO,TL2O3" 0 CAL(860C 9H IN AIR)-MIX WITH TL2O3-(860C 70MIN IN PT CRUCIBLE)-C(15C/MIN) TO 300C SUPERCONDUCTIVITY IN THE TI-ND-SR-CU-O AND THE TI-PB-ND-SR-CU-O- SYSTEMS 1989 3 "RESISTIVITY ,SUSCEPTIBILITY ,MATERIAL" "CERAMICS RESEARCH LABORATORY,ONODA CEMENT COMPANY,LTD.,TOKYO 13-5,JAPAN" "PHYS.REV. B.,39(1989)4690" "TL,ND,SR,CU,O,PB" 1245 AS3370345 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O3.93 Nd 1.85 Ce 0.15 Cu 1 O 4-X 3.93 1 1989 T' 3.95 12.07 K 24 24 -0.65 A SUPERCONDUCTING COPPER OXIDE COMPOUND WITH ELECTRONS AS THECHARGE CARRIERS 1989 1 "RES ,STRUCTURE ,SUS" "DEPARTMENT OF PHYSICS AND ENGINEERING RESEARCH INSTITUTE,UNIVERSITY OF TOKYO,TOKYO" "NATURE,337(1989)345" "ND,CE,SR,CU,O" 1246 AS3370345 "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4-X Pr 1.85 Ce 0.15 Cu 1 O 4-X 1 1989 T' K 17 17 A SUPERCONDUCTING COPPER OXIDE COMPOUND WITH ELECTRONS AS THECHARGE CARRIERS 1989 1 "RES ,STRUCTURE ,SUS" "DEPARTMENT OF PHYSICS AND ENGINEERING RESEARCH INSTITUTE,UNIVERSITY OF TOKYO,TOKYO" "NATURE,337(1989)345" "ND,CE,SR,CU,O" 1247 AS3370345 "(Sm,Ce)2CuO4" Sm1.85Ce0.15Cu1O4-X Sm 1.85 Ce 0.15 Cu 1 O 4-X 1 1989 T* K 15 15 A SUPERCONDUCTING COPPER OXIDE COMPOUND WITH ELECTRONS AS THECHARGE CARRIERS 1989 1 "RES ,STRUCTURE ,SUS" "DEPARTMENT OF PHYSICS AND ENGINEERING RESEARCH INSTITUTE,UNIVERSITY OF TOKYO,TOKYO" "NATURE,337(1989)345" "ND,CE,SR,CU,O" 1248 PRB0397324 "RH300=AT 250K,RHN=AT 100K" "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.98Ni0.02O7 Y 1 Ba 2 Cu 2.98 Ni 0.02 O 7 1989 Y123 K 5.04E-10 1.25E-09 RH1248 0 HALL-EFFECT ANOMALY IN THE HIGH-TC COPPER-BASED PEROVSKITES 1989 4 "HALL EFFECT ,ANOMALY" "JOSEPH HENRY LABORATORIES OF PHYSICS,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY 08544" "Phys.Rev.B,39(1989)7324" "CO,NI,Y,BA,CU,O,LA,SR" 1249 PRB0397324 "RH300=AT 250K,RHN=AT 100K" "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.95Ni0.05O7 Y 1 Ba 2 Cu 2.95 Ni 0.05 O 7 1989 Y123 K 4.48E-10 8.35E-10 RH1249 0 HALL-EFFECT ANOMALY IN THE HIGH-TC COPPER-BASED PEROVSKITES 1989 4 "HALL EFFECT ,ANOMALY" "JOSEPH HENRY LABORATORIES OF PHYSICS,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY 08544" "Phys.Rev.B,39(1989)7324" "CO,NI,Y,BA,CU,O,LA,SR" 1250 PRB0397324 "RH300=AT 250K,RHN=AT 100K" "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.9Ni0.1O7 Y 1 Ba 2 Cu 2.9 Ni 0.1 O 7 1989 Y123 K 4.78E-10 8.54E-10 RH1250 0 HALL-EFFECT ANOMALY IN THE HIGH-TC COPPER-BASED PEROVSKITES 1989 4 "HALL EFFECT ,ANOMALY" "JOSEPH HENRY LABORATORIES OF PHYSICS,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY 08544" "Phys.Rev.B,39(1989)7324" "CO,NI,Y,BA,CU,O,LA,SR" 1251 PRB0397324 "RH300=AT 250K,RHN=AT 100K" "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.8Ni0.2O7 Y 1 Ba 2 Cu 2.8 Ni 0.2 O 7 1989 Y123 K 6.04E-10 1.10E-09 RH1251 0 HALL-EFFECT ANOMALY IN THE HIGH-TC COPPER-BASED PEROVSKITES 1989 4 "HALL EFFECT ,ANOMALY" "JOSEPH HENRY LABORATORIES OF PHYSICS,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY 08544" "Phys.Rev.B,39(1989)7324" "CO,NI,Y,BA,CU,O,LA,SR" 1252 PRB0397324 "RH300=AT 250K,RHN=AT 100K" "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.7Ni0.3O7 Y 1 Ba 2 Cu 2.7 Ni 0.3 O 7 1989 Y123 K 6.36E-10 1.15E-09 RH1252 0 HALL-EFFECT ANOMALY IN THE HIGH-TC COPPER-BASED PEROVSKITES 1989 4 "HALL EFFECT ,ANOMALY" "JOSEPH HENRY LABORATORIES OF PHYSICS,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY 08544" "Phys.Rev.B,39(1989)7324" "CO,NI,Y,BA,CU,O,LA,SR" 1253 PRB0397324 "RH300=AT 250K,RHN=AT 100K" "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.6Ni0.4O7 Y 1 Ba 2 Cu 2.6 Ni 0.4 O 7 1989 Y123 K 58 58 7.93E-10 1.20E-09 RH1253 0 HALL-EFFECT ANOMALY IN THE HIGH-TC COPPER-BASED PEROVSKITES 1989 4 "HALL EFFECT ,ANOMALY" "JOSEPH HENRY LABORATORIES OF PHYSICS,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY 08544" "Phys.Rev.B,39(1989)7324" "CO,NI,Y,BA,CU,O,LA,SR" 1254 PRB0402568 RH300 = FOR (SR=0.30) "(Sm,La,Sr)2CuO4" Sm1La0.75Sr0.25Cu1O3.95 Sm 1 La 0.75 Sr 0.25 Cu 1 O 3.95 3.95 1989 2 P4/NMM 3.859 12.572 K 20 20 10 0.000000002 "LA2O3,SM2O3,CUO,SRCO3" 0 CAL(950C10H IN AIR)-SIN(1130C 15H IN AIR)-Q TO RT IN AIR-ANN(550C IN O2 UPTO 80 ATM) NEW FAMILI OF LAYERED COPPER OXIDE COMPOUNDS WITH ORDERED CATIONS:PROSPECTIVE HIGH-TEMPERATURE SUPERCONDUCTORS 1989 8 "NEW FAMILY ,FABRICATION ,HREM ,HALL EFFECT" "DEPARTMENT OF PHYSICS,UNIVERSITY OF TOKYO,7-3-1 HONGO,BUNKYO-KU,TOKYO 113,JAPAN" "PHYS.REV.B,40(1989)2568" "SM,LA,SR,CU,O" 1255 SSC0660189 "RHN=AT 77K,HC2 FIGURE" BiSrCuOZ Bi1Sr1Cu1OY Bi 1 Sr 1 Cu 1 O Y 1988 2 5.381 24.65 K 6.7 6.7 6.25E-09 1.49E-08 0 SUPERCONDUCTING AND ELECTRONIC PROPERTIES OF BI(1-X)LA(X)SR(1)CU(1)O(Y) SYSTEM 1988 4 "RESISTIVITY ,HALL EFFECT ,HC ,SU" "INSTITUTE FOR MOLECULAR SCIENCE,OKAZAKI NATIONAL RESEARCH INSTITUTES,MYODAIJI,OKAZAKI" "SOLID STATE COMMUN.,66(1988)189" "BI,LA,SR,CU,O" 1256 SSC0660189 "(Bi,La)SrCuOZ" Bi1.95La0.05Sr1Cu1OY Bi 1.95 La 0.05 Sr 1 Cu 1 O Y 1988 2 24.398 K 20 20 7.5 0 SUPERCONDUCTING AND ELECTRONIC PROPERTIES OF BI(1-X)LA(X)SR(1)CU(1)O(Y) SYSTEM 1988 4 "RESISTIVITY ,HALL EFFECT ,HC ,SU" "INSTITUTE FOR MOLECULAR SCIENCE,OKAZAKI NATIONAL RESEARCH INSTITUTES,MYODAIJI,OKAZAKI" "SOLID STATE COMMUN.,66(1988)189" "BI,LA,SR,CU,O" 1257 PRB0377963 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4-Z La 1.85 Sr 0.15 Cu 1 O 4-Z 1 1988 2 T K 35 35 55 TP1257 1 OBSERVATIONS ON THE THERMOPOWER OF THE HIGH-TC SUPERCONDUCTORS 1988 5 "THERMOPOWER ,SEEBECK EFFECT" "DEPARTMENT OF PHYSICS AND LABORATORY FOR RESEARCH ON THE STRUCTURE OF MATTER,UNIVERSITY OF PENNSYLVANIA,PHILADELPHIA,PENNSYLVANIA" "PHYS.REV.B,37(1988)7963" "SR,LA,CU,O,Y,BA,CU,O" 1258 PRB0377963 YBa2Cu307 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 92 92 -0.19 TP1258 1 OBSERVATIONS ON THE THERMOPOWER OF THE HIGH-TC SUPERCONDUCTORS 1988 5 "THERMOPOWER ,SEEBECK EFFECT" "DEPARTMENT OF PHYSICS AND LABORATORY FOR RESEARCH ON THE STRUCTURE OF MATTER,UNIVERSITY OF PENNSYLVANIA,PHILADELPHIA,PENNSYLVANIA" "PHYS.REV.B,37(1988)7963" "SR,LA,CU,O,Y,BA,CU,O" 1259 PRB0377963 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1988 3 Y123 K 92 92 -2.05 TP1259 1 OBSERVATIONS ON THE THERMOPOWER OF THE HIGH-TC SUPERCONDUCTORS 1988 5 "THERMOPOWER ,SEEBECK EFFECT" "DEPARTMENT OF PHYSICS AND LABORATORY FOR RESEARCH ON THE STRUCTURE OF MATTER,UNIVERSITY OF PENNSYLVANIA,PHILADELPHIA,PENNSYLVANIA" "PHYS.REV.B,37(1988)7963" "SR,LA,CU,O,Y,BA,CU,O" 1260 PRB0358794 La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 1 1987 3 T K 308 "LA2O3,BACO3" 1 CAL(900C 5H IN AIR)-SIN(1050C 17H IN AIR)-C TO RT WITHIN 4H THERMOELECTRIC POWER OF SOME HIGH-TC OXIDES 1987 THERMOPOWER "UNIV. OF CALIFORNIA,LOS ANGELES,CALIFORNIA,USA" "PHYS.REV.B,35(1987)8794" 1261 PRB0358794 "(La,Ba)2CuO4" La1.95Ba0.05Cu1O4 La 1.95 Ba 0.05 Cu 1 O 4 1 1987 T K 137 "LA2O3,BACO3" 1 CAL(900C 5H IN AIR)-SIN(1050C 17H IN AIR)-C TO RT WITHIN 4H THERMOELECTRIC POWER OF SOME HIGH-TC OXIDES 1987 THERMOPOWER "UNIV. OF CALIFORNIA,LOS ANGELES,CALIFORNIA,USA" "PHYS.REV.B,35(1987)8794" 1262 PRB0358794 "(La,Ba)2CuO4" La1.9Ba0.1Cu1O4 La 1.9 Ba 0.1 Cu 1 O 4 1 1987 2 T K 97 "LA2O3,BACO3" 1 CAL(900C 5H IN AIR)-SIN(1050C 17H IN AIR)-C TO RT WITHIN 4H THERMOELECTRIC POWER OF SOME HIGH-TC OXIDES 1987 THERMOPOWER "UNIV. OF CALIFORNIA,LOS ANGELES,CALIFORNIA,USA" "PHYS.REV.B,35(1987)8794" 1263 PRB0358794 "(La,Ba)2CuO4" La1.85Ba0.15Cu1O4 La 1.85 Ba 0.15 Cu 1 O 4 1 1987 T K 50 "LA2O3,BACO3" 1 CAL(900C 5H IN AIR)-SIN(1050C 17H IN AIR)-C TO RT WITHIN 4H THERMOELECTRIC POWER OF SOME HIGH-TC OXIDES 1987 THERMOPOWER "UNIV. OF CALIFORNIA,LOS ANGELES,CALIFORNIA,USA" "PHYS.REV.B,35(1987)8794" 1264 PRB0358794 "(La,Ba)2CuO4" La1.725Ba0.275Cu1O4 La 1.725 Ba 0.275 Cu 1 O 4 1 1987 T K 13 "LA2O3,BACO3" 1 CAL(900C 5H IN AIR)-SIN(1050C 17H IN AIR)-C TO RT WITHIN 4H THERMOELECTRIC POWER OF SOME HIGH-TC OXIDES 1987 THERMOPOWER "UNIV. OF CALIFORNIA,LOS ANGELES,CALIFORNIA,USA" "PHYS.REV.B,35(1987)8794" 1265 PRB0358794 "(La,Sr)2CuO4" La1.95Sr0.05Cu1O4 La 1.95 Sr 0.05 Cu 1 O 4 1 1987 T K 117 "LA2O3,BACO3" 1 CAL(900C 5H IN AIR)-SIN(1050C 17H IN AIR)-C TO RT WITHIN 4H THERMOELECTRIC POWER OF SOME HIGH-TC OXIDES 1987 THERMOPOWER "UNIV. OF CALIFORNIA,LOS ANGELES,CALIFORNIA,USA" "PHYS.REV.B,35(1987)8794" 1266 PRB0358794 "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 1 1987 2 T K 54 "LA2O3,BACO3" 1 CAL(900C 5H IN AIR)-SIN(1050C 17H IN AIR)-C TO RT WITHIN 4H THERMOELECTRIC POWER OF SOME HIGH-TC OXIDES 1987 THERMOPOWER "UNIV. OF CALIFORNIA,LOS ANGELES,CALIFORNIA,USA" "PHYS.REV.B,35(1987)8794" 1267 PRB0358794 "(La,Ba)2CuO4" La1.8Ba0.2Cu1O4 La 1.8 Ba 0.2 Cu 1 O 4 1 1987 2 T K 29 29 13.6 "LA2O3,BACO3" 1 CAL(900C 5H IN AIR)-SIN(1050C 17H IN AIR)-C TO RT WITHIN 4H THERMOELECTRIC POWER OF SOME HIGH-TC OXIDES 1987 THERMOPOWER "UNIV. OF CALIFORNIA,LOS ANGELES,CALIFORNIA,USA" "PHYS.REV.B,35(1987)8794" 1268 PRB0358794 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1 1987 2 T K 36 36 4 "LA2O3,BACO3" 1 CAL(900C 5H IN AIR)-SIN(1050C 17H IN AIR)-C TO RT WITHIN 4H THERMOELECTRIC POWER OF SOME HIGH-TC OXIDES 1987 THERMOPOWER "UNIV. OF CALIFORNIA,LOS ANGELES,CALIFORNIA,USA" "PHYS.REV.B,35(1987)8794" 1269 PLA1270228 "Y(Ba,La)2Cu3O7" Y1Ba1La1Cu3OZ Y 1 Ba 1 La 1 Cu 3 O Z 1 1988 3 Y123 3.84 3.856 11.55 K 103 "Y2O3,BACO3,LA2O3,CUO" 1 CAL(IN AIR)-SIN(1080C IN O2)-C TO 400C EVIDENCE FOR ELECTRONIC LOCALIZATION IN Y(1)BA(2-Y)LA(Y)CU(3)O(X) 1988 2 "ELECTRICAL PROPERTIES ,THERMOPOWER" "LOS ALAMOS NATIONAL LABORATORY,LOS ALAMOS,NM" "PHYS.LETT.A,127(1988)228" "Y,BA,LA,CU,O" 1270 JJP0280762 "RHN=AT 60K,PRESS. DEP. OF TC AND HC2 ALSO SHOWN" "(La,Sr)2CuO4" La1.92Sr0.08Cu1OZ La 1.92 Sr 0.08 Cu 1 O Z 1 1989 T K 21.8 25.2 21.8 K/GPa 3.75 4.77 5.5 6.36E-09 1 SPRAY-DRY TECKNIQUE THE STRONTIUM CONTENT DEPENDENCE OF PRESSURE EFFECT IN (LA(1-X)SR(X))(2)CUO(4) 1989 5 "PRESSURE EFFECT ,HALL COEFFICIENT ,TC" "INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106" "JJAP LETT.,28(1989)L762" "LA,SR,CU,O" 1271 JJP0280762 "(La,Sr)2CuO4" La1.88Sr0.12Cu1OZ La 1.88 Sr 0.12 Cu 1 O Z 1 1989 T K 30.3 33.4 30.3 K/GPa 3.66 1.08 2.96 3.12E-09 1 SPRAY-DRY TECKNIQUE THE STRONTIUM CONTENT DEPENDENCE OF PRESSURE EFFECT IN (LA(1-X)SR(X))(2)CUO(4) 1989 5 "PRESSURE EFFECT ,HALL COEFFICIENT ,TC" "INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106" "JJAP LETT.,28(1989)L762" "LA,SR,CU,O" 1272 JJP0280762 "(La,Sr)2CuO4" La1.84Sr0.16Cu1OZ La 1.84 Sr 0.16 Cu 1 O Z 1 1989 T K 38 38.7 38 K/GPa 3.26 0.67 2.09 1.47E-09 1 SPRAY-DRY TECKNIQUE THE STRONTIUM CONTENT DEPENDENCE OF PRESSURE EFFECT IN (LA(1-X)SR(X))(2)CUO(4) 1989 5 "PRESSURE EFFECT ,HALL COEFFICIENT ,TC" "INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106" "JJAP LETT.,28(1989)L762" "LA,SR,CU,O" 1273 JJP0280762 "(La,Sr)2CuO4" La1.8Sr0.2Cu1OZ La 1.8 Sr 0.2 Cu 1 O Z 1 1989 T K 32.7 34.4 32.7 K/GPa 2.43 0.33 1.05 7.10E-10 1 SPRAY-DRY TECKNIQUE THE STRONTIUM CONTENT DEPENDENCE OF PRESSURE EFFECT IN (LA(1-X)SR(X))(2)CUO(4) 1989 5 "PRESSURE EFFECT ,HALL COEFFICIENT ,TC" "INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106" "JJAP LETT.,28(1989)L762" "LA,SR,CU,O" 1274 JJP0280762 "(La,Sr)2CuO4" La1.76Sr0.24Cu1OZ La 1.76 Sr 0.24 Cu 1 O Z 1 1989 T K 18.7 20.2 18.7 K/GPa 3.02 0.23 0.84 4.30E-10 1 SPRAY-DRY TECKNIQUE THE STRONTIUM CONTENT DEPENDENCE OF PRESSURE EFFECT IN (LA(1-X)SR(X))(2)CUO(4) 1989 5 "PRESSURE EFFECT ,HALL COEFFICIENT ,TC" "INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106" "JJAP LETT.,28(1989)L762" "LA,SR,CU,O" 1275 SSC0680649 "(La,Sr)2CuO4" La1.99Sr0.01Cu1O4 La 1.99 Sr 0.01 Cu 1 O 4 3 1988 T K 102 TP1275 1 USING CUO FLUX ANISOTROPIC THERMOELECTRIC POWERS OF Y(1)BA(2)CU(3)O(7-Z) AND (LA(1-X)SR(X))(2)CU(1)O(4) SINGLE CRYSTALS 1988 11 "SINGLE CRYSTAL ,ANISOTROPY ,THERMOPO" "INSTITUTE FOR MOLECULAR SCIENCE,OKAZAKI" "SOLID STATE COMMUN.,68(1988)649" "Y,BA,CU,O,LA,SR" 1276 SSC0680649 "(La,Sr)2CuO4" La1.91Sr0.09Cu1O4 La 1.91 Sr 0.09 Cu 1 O 4 3 1988 T K 11 11 31.6 TP1276 1 USING CUO FLUX ANISOTROPIC THERMOELECTRIC POWERS OF Y(1)BA(2)CU(3)O(7-Z) AND (LA(1-X)SR(X))(2)CU(1)O(4) SINGLE CRYSTALS 1988 11 "SINGLE CRYSTAL ,ANISOTROPY ,THERMOPO" "INSTITUTE FOR MOLECULAR SCIENCE,OKAZAKI" "SOLID STATE COMMUN.,68(1988)649" "Y,BA,CU,O,LA,SR" 1277 SSC0680649 La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 3 1988 T K 121 TP1277 1 USING CUO FLUX ANISOTROPIC THERMOELECTRIC POWERS OF Y(1)BA(2)CU(3)O(7-Z) AND (LA(1-X)SR(X))(2)CU(1)O(4) SINGLE CRYSTALS 1988 11 "SINGLE CRYSTAL ,ANISOTROPY ,THERMOPO" "INSTITUTE FOR MOLECULAR SCIENCE,OKAZAKI" "SOLID STATE COMMUN.,68(1988)649" "Y,BA,CU,O,LA,SR" 1278 SSC0680649 THPOW ALONG C AXIS ALSO SHOWN YBa2Cu3O7 Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O Z 6.9 3 1988 3 Y123 K 92 1 92 2.1 TP1278 1.9 36 6.7 50 1 USING CUO FLUX ANISOTROPIC THERMOELECTRIC POWERS OF Y(1)BA(2)CU(3)O(7-Z) AND (LA(1-X)SR(X))(2)CU(1)O(4) SINGLE CRYSTALS 1988 11 "SINGLE CRYSTAL ,ANISOTROPY ,THERMOPO" "INSTITUTE FOR MOLECULAR SCIENCE,OKAZAKI" "SOLID STATE COMMUN.,68(1988)649" "Y,BA,CU,O,LA,SR" 1279 SSC0680649 YBa2Cu3O7 Y1Ba2Cu3O6.7 Y 1 Ba 2 Cu 3 O Z 6.7 3 1988 Y123 K 73 85.4 85.4 13.4 TP1279 26.8 307 19.5 146 1 USING CUO FLUX ANISOTROPIC THERMOELECTRIC POWERS OF Y(1)BA(2)CU(3)O(7-Z) AND (LA(1-X)SR(X))(2)CU(1)O(4) SINGLE CRYSTALS 1988 11 "SINGLE CRYSTAL ,ANISOTROPY ,THERMOPO" "INSTITUTE FOR MOLECULAR SCIENCE,OKAZAKI" "SOLID STATE COMMUN.,68(1988)649" "Y,BA,CU,O,LA,SR" 1280 SSC0680649 YBa2Cu3O7 Y1Ba2Cu3O6.2 Y 1 Ba 2 Cu 3 O Z 6.2 3 1988 Y123 K 64.4 TP1280 1 USING CUO FLUX ANISOTROPIC THERMOELECTRIC POWERS OF Y(1)BA(2)CU(3)O(7-Z) AND (LA(1-X)SR(X))(2)CU(1)O(4) SINGLE CRYSTALS 1988 11 "SINGLE CRYSTAL ,ANISOTROPY ,THERMOPO" "INSTITUTE FOR MOLECULAR SCIENCE,OKAZAKI" "SOLID STATE COMMUN.,68(1988)649" "Y,BA,CU,O,LA,SR" 1281 PRB0357124 "CULAO3 PHASE OBSERVED, THPOW UP TO 160K" "(La,Ba)2CuO4" La1.8Ba0.2Cu1O4-Y La 1.8 Ba 0.2 Cu 1 O 4-Y 2 1987 T K 28 28 TP1281 "LA2O3,BACO3,CUO" 1 CAL(900C 8H IN AIR)-SIN(1100C 4H IN AIR) DETERMINATION OF CHARGE CARRIERS IN SUPERCONDUCTING LA-BA-CU-O BY THERMOELECTRIC MEASUREMENTS 1987 5 "CHARGE CARRIER ,THERMOPOWER" "DEPARTMENT OF PHYSICS,WAYNE STATE UNIVERSITY,DETROIT,MICHIGAN" "PHYS.REV.B,35(1987)7124" "LA,BA,CU,O" 1282 PRB0375916 RES BY MONTGOMERY METHOD. S=A*T**(1/2) La2CuO4 La2Cu1O4-Y La 2 Cu 1 O 4-Y 3 1988 T 5.358 5.403 13.181 K 33 33 160 1230 8.6 9100 14.1 4200 0.000000115 1 "USING PBO FLUX, CHEM.ANAL.=LA1.75CUO4.3+2AT%PB" ELECTRONIC ANISOTROPY IN SINGLE-CRYSTAL LA(2)CU(1)O(4) 1988 4 "RESISTIVITY ,ANISOTROPY ,THERMOEP" "LOS ALAMOS NATIONAL LABORATORY,LOS ALAMOS,NEW MEXICO" "PHYS.REV.B,37(1988)5916" "LA,CU,O" 1283 PRB0364007 La2CuO4 La2Cu1O3.985 La 2 Cu 1 O 4-Y 3.985 1 1987 230 T K 118 1 CAL(950C IN AIR)-FC-HEAT(500C UNDER 600PSI O2) INFLUENCE OF OXYGEN DEFECTS ON THE PHYSICAL PROPERTIES OF LA(2)CU(1)O(4-Y) 1987 9 "SUS ,SPECIFIC HEAT ,RESISTIVITY ,TH" "CORPORATE RESEARCH LABORATORIES,EXXON RESEARCH AND ENGINEERING COMPANY,ANNANDALE,NEW JERSEY" "PHYS.REV.B,36(1987)4007" "LA,CU,O" 1284 PRB0364007 La2CuO4 La2Cu1O3.97 La 2 Cu 1 O 4-Y 3.97 1 1987 290 T K 1 CAL(950C IN AIR)-FC-HEAT(500C UNDER 600PSI O2) INFLUENCE OF OXYGEN DEFECTS ON THE PHYSICAL PROPERTIES OF LA(2)CU(1)O(4-Y) 1987 9 "SUS ,SPECIFIC HEAT ,RESISTIVITY ,TH" "CORPORATE RESEARCH LABORATORIES,EXXON RESEARCH AND ENGINEERING COMPANY,ANNANDALE,NEW JERSEY" "PHYS.REV.B,36(1987)4007" "LA,CU,O" 1285 PRB0364007 La2CuO4 La2Cu1O4 La 2 Cu 1 O 4-Y 4 1 1987 T K 729 1 CAL(950C IN AIR)-FC-HEAT(500C UNDER 600PSI O2) INFLUENCE OF OXYGEN DEFECTS ON THE PHYSICAL PROPERTIES OF LA(2)CU(1)O(4-Y) 1987 9 "SUS ,SPECIFIC HEAT ,RESISTIVITY ,TH" "CORPORATE RESEARCH LABORATORIES,EXXON RESEARCH AND ENGINEERING COMPANY,ANNANDALE,NEW JERSEY" "PHYS.REV.B,36(1987)4007" "LA,CU,O" 1286 PR0410769 USING BRANDT'S FORMULA Tl2Ba2Ca2Cu3Oz Tl2Ba2Ca2Cu3OX Tl 2 Ba 2 Ca 2 Cu 3 O X 1990 Tl2223 K 119 119 A EPR SPECTRA 2520 0 MEASUREMENT BY EPR OF THE PENETRATION DEPHT IN THE HIGH-TC SUPERCONDUCTORS TL2BA2CA2CU3OX AND BI2CA2SRCU2OX 1990 1 "EPR ,PENTERATION DEPHT" "CHEMISTRY DEPARTMENT, WEST VIRGINIA UNIVERSITY, MORGANTOWN, WEST VIRGINIA 26506" "PHYS.REV.B,41(1990)769" "TL,BA,CA,CU,O,BI,SR" 1287 PR0410769 Bi2Sr2CaCu2O8 Bi2Sr2Ca2Cu2OX Bi 2 Sr 2 Ca 2 Cu 2 O X 1990 Bi2212 K 84 84 A EPR 2700 0 MEASUREMENT BY EPR OF THE PENETRATION DEPHT IN THE HIGH-TC SUPERCONDUCTORS TL2BA2CA2CU3OX AND BI2CA2SRCU2OX 1990 1 "EPR ,PENTERATION DEPHT" "CHEMISTRY DEPARTMENT, WEST VIRGINIA UNIVERSITY, MORGANTOWN, WEST VIRGINIA 26506" "PHYS.REV.B,41(1990)769" "TL,BA,CA,CU,O,BI,SR" 1288 PR0410282 "85%O(18),NON-SUPER" "(La,Sr)2CuO4" La1.962Sr0.038Cu1O4 La 1.962 Sr 0.038 Cu 1 O 4 1 1990 T K 1 SIN(1100C 12H IN O2)-FC ANOMALOUS OXYGEN ISOTOPE EFFECT IN LA2-XSRXCUO4 1990 1 ISOTOPE EFFECT "E.I.DU PONT DENEMOURS AND CO., INC., CENTRAL RESEARCH AND DEVELOPMENT DEPARTMENT, EXPERIMENTAL STATION, WILMINGTON, DELAWARE 19880-0356" "PHYS.REV.B,41(1990)282" "LA,SR,CU,O" 1289 PR0410282 "90%O(18),TC0-TC=0.84" "(La,Sr)2CuO4" La1.925Sr0.075Cu1O4 La 1.925 Sr 0.075 Cu 1 O 4 1 1990 T K 21.2 21.2 0.4 O 90 0.84 1 SIN(1100C 12H IN O2)-FC ANOMALOUS OXYGEN ISOTOPE EFFECT IN LA2-XSRXCUO4 1990 1 ISOTOPE EFFECT "E.I.DU PONT DENEMOURS AND CO., INC., CENTRAL RESEARCH AND DEVELOPMENT DEPARTMENT, EXPERIMENTAL STATION, WILMINGTON, DELAWARE 19880-0356" "PHYS.REV.B,41(1990)282" "LA,SR,CU,O" 1290 PR0410282 "88%O(18),TC0-TC=1.91" "(La,Sr)2CuO4" La1.887Sr0.113Cu1O4 La 1.887 Sr 0.113 Cu 1 O 4 1 1990 T K 29.7 29.7 0.64 O 88 1.91 1 SIN(1100C 12H IN O2)-FC ANOMALOUS OXYGEN ISOTOPE EFFECT IN LA2-XSRXCUO4 1990 1 ISOTOPE EFFECT "E.I.DU PONT DENEMOURS AND CO., INC., CENTRAL RESEARCH AND DEVELOPMENT DEPARTMENT, EXPERIMENTAL STATION, WILMINGTON, DELAWARE 19880-0356" "PHYS.REV.B,41(1990)282" "LA,SR,CU,O" 1291 PR0410282 "87%O(18),TC0-TC=0.32" "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1990 T K 37.8 37.8 0.08 O 87 0.32 1 SIN(1100C 12H IN O2)-FC ANOMALOUS OXYGEN ISOTOPE EFFECT IN LA2-XSRXCUO4 1990 1 ISOTOPE EFFECT "E.I.DU PONT DENEMOURS AND CO., INC., CENTRAL RESEARCH AND DEVELOPMENT DEPARTMENT, EXPERIMENTAL STATION, WILMINGTON, DELAWARE 19880-0356" "PHYS.REV.B,41(1990)282" "LA,SR,CU,O" 1292 PR0410282 "84%O(18),TC0-TC=0.21" "(La,Sr)2CuO4" La1.812Sr0.188Cu1O4 La 1.812 Sr 0.188 Cu 1 O 4 1 1990 T K 34.4 34.4 0.06 O 84 0.21 1 SIN(1100C 12H IN O2)-FC ANOMALOUS OXYGEN ISOTOPE EFFECT IN LA2-XSRXCUO4 1990 1 ISOTOPE EFFECT "E.I.DU PONT DENEMOURS AND CO., INC., CENTRAL RESEARCH AND DEVELOPMENT DEPARTMENT, EXPERIMENTAL STATION, WILMINGTON, DELAWARE 19880-0356" "PHYS.REV.B,41(1990)282" "LA,SR,CU,O" 1293 PR0410282 "88%O(18),TC0-TC=0.23" "(La,Sr)2CuO4" La1.775Sr0.225Cu1O4 La 1.775 Sr 0.225 Cu 1 O 4 1 1990 T K 23 23 0.1 O 88 0.23 1 SIN(1100C 12H IN O2)-FC ANOMALOUS OXYGEN ISOTOPE EFFECT IN LA2-XSRXCUO4 1990 1 ISOTOPE EFFECT "E.I.DU PONT DENEMOURS AND CO., INC., CENTRAL RESEARCH AND DEVELOPMENT DEPARTMENT, EXPERIMENTAL STATION, WILMINGTON, DELAWARE 19880-0356" "PHYS.REV.B,41(1990)282" "LA,SR,CU,O" 1294 PR0410282 "86%O(18),TC0-TC=0.22" "(La,Sr)2CuO4" La1.737Sr0.263Cu1O4 La 1.737 Sr 0.263 Cu 1 O 4 1 1990 T K 8 8 0.12 O 86 0.22 1 SIN(1100C 12H IN O2)-FC ANOMALOUS OXYGEN ISOTOPE EFFECT IN LA2-XSRXCUO4 1990 1 ISOTOPE EFFECT "E.I.DU PONT DENEMOURS AND CO., INC., CENTRAL RESEARCH AND DEVELOPMENT DEPARTMENT, EXPERIMENTAL STATION, WILMINGTON, DELAWARE 19880-0356" "PHYS.REV.B,41(1990)282" "LA,SR,CU,O" 1295 PR04011406 "980C,P(O2)=20BAR" Y2Ba4Cu7Oz Y2Ba4Cu7O15-X Y 2 Ba 4 Cu 7 O 15-X 1 1989 3 Y247 3.854 3.874 50.4 K 55 55 "R2O3,BAO,CU0" 1 SIN(930-980C 8H IN 18.6BAR O2)-C(5C/MIN) TO RT IN O2 "SYNTHESIS AND PROPERTIES OF THE 2:4:7 SUPERCONDUCTORS R2BA4CU7O15-X (R=Y,EU,GD,DY,HO,ER)" 1989 12 "SYNTHESIZED ,OXYGEN CONTENT ,HOLE CONCENTRATION" "LAWRENCE BERKELEY LABORATORY 2-300,BERKELEY,CALIFORNIA 94720" "PHYS.REV.B,40(1989)11406" "R,BA,CU,O,Y" 1296 PR04011406 "CONTAIN 124 PHASE,980C P(O2)=35BAR" Eu2Ba4Cu7Oz Eu2Ba4Cu7O15-X Eu 2 Ba 4 Cu 7 O 15-X 2 1989 3 Y247 3.879 3.886 50.39 K 45 45 "R2O3,BAO,CU0" 1 SIN(930-980C 8H IN 18.6BAR O2)-C(5C/MIN) TO RT IN O2 "SYNTHESIS AND PROPERTIES OF THE 2:4:7 SUPERCONDUCTORS R2BA4CU7O15-X (R=Y,EU,GD,DY,HO,ER)" 1989 12 "SYNTHESIZED ,OXYGEN CONTENT ,HOLE CONCENTRATION" "LAWRENCE BERKELEY LABORATORY 2-300,BERKELEY,CALIFORNIA 94720" "PHYS.REV.B,40(1989)11406" "R,BA,CU,O,Y" 1297 PR04011406 "CONTAIN 124 PHASE,930C P(O2)=35BAR" Gd2Ba4Cu7Oz Gd2Ba4Cu7O15-X Gd 2 Ba 4 Cu 7 O 15-X 2 1989 3 Y247 3.872 3.879 50.36 K 45 45 "R2O3,BAO,CU0" 1 SIN(930-980C 8H IN 18.6BAR O2)-C(5C/MIN) TO RT IN O2 "SYNTHESIS AND PROPERTIES OF THE 2:4:7 SUPERCONDUCTORS R2BA4CU7O15-X (R=Y,EU,GD,DY,HO,ER)" 1989 12 "SYNTHESIZED ,OXYGEN CONTENT ,HOLE CONCENTRATION" "LAWRENCE BERKELEY LABORATORY 2-300,BERKELEY,CALIFORNIA 94720" "PHYS.REV.B,40(1989)11406" "R,BA,CU,O,Y" 1298 PR04011406 Dy2Ba4Cu7Oz Dy2Ba4Cu7O15-X Dy 2 Ba 4 Cu 7 O 15-X 1 1989 3 Y247 3.864 3.879 50.39 K 50 50 "R2O3,BAO,CU0" 1 SIN(930-980C 8H IN 18.6BAR O2)-C(5C/MIN) TO RT IN O2 "SYNTHESIS AND PROPERTIES OF THE 2:4:7 SUPERCONDUCTORS R2BA4CU7O15-X (R=Y,EU,GD,DY,HO,ER)" 1989 12 "SYNTHESIZED ,OXYGEN CONTENT ,HOLE CONCENTRATION" "LAWRENCE BERKELEY LABORATORY 2-300,BERKELEY,CALIFORNIA 94720" "PHYS.REV.B,40(1989)11406" "R,BA,CU,O,Y" 1299 PR04011406 Ho2Ba4Cu7Oz Ho2Ba4Cu7O15-X Ho 2 Ba 4 Cu 7 O 15-X 2 1989 3 Y247 3.857 3.879 50.4 K 55 55 "R2O3,BAO,CU0" 1 SIN(930-980C 8H IN 18.6BAR O2)-C(5C/MIN) TO RT IN O2 "SYNTHESIS AND PROPERTIES OF THE 2:4:7 SUPERCONDUCTORS R2BA4CU7O15-X (R=Y,EU,GD,DY,HO,ER)" 1989 12 "SYNTHESIZED ,OXYGEN CONTENT ,HOLE CONCENTRATION" "LAWRENCE BERKELEY LABORATORY 2-300,BERKELEY,CALIFORNIA 94720" "PHYS.REV.B,40(1989)11406" "R,BA,CU,O,Y" 1300 PR04011406 Er2Ba4Cu7Oz Er2Ba4Cu7O15-X Er 2 Ba 4 Cu 7 O 15-X 1 1989 3 Y247 3.847 3.873 50.44 K 55 55 "R2O3,BAO,CU0" 1 SIN(930-980C 8H IN 18.6BAR O2)-C(5C/MIN) TO RT IN O2 "SYNTHESIS AND PROPERTIES OF THE 2:4:7 SUPERCONDUCTORS R2BA4CU7O15-X (R=Y,EU,GD,DY,HO,ER)" 1989 12 "SYNTHESIZED ,OXYGEN CONTENT ,HOLE CONCENTRATION" "LAWRENCE BERKELEY LABORATORY 2-300,BERKELEY,CALIFORNIA 94720" "PHYS.REV.B,40(1989)11406" "R,BA,CU,O,Y" 1301 SSC0680647 THPOW=MINIMUM AT 100K "(Ba,K)BiO3" Ba0.77K0.23Bi1O3 Ba 0.77 K 0.23 Bi 1 O 3 1988 BKBO K 28 28 10 3.22 TP1301 700 78 0 USING AG-TUBE THERMOELECTRIC POWER OF SUPERCONDUCTING BA-K-BI-O WITH PEROVSKITE STRUCTURE 1988 11 THERMOPOWER "INSTITUTE FOR MOLECULAR SCIENCE,OKAZAKI" "SOLID STATE COMMUN.,68(1988)647" "BA,K,BI,O" 1302 APL0531753 "X-RAY DIFFRACTION, STRUCTURE FACTOR" "(Ba,K)BiO3" Ba0.87K0.13Bi1O3 Ba 0.87 K 0.13 Bi 1 O 3 3 1988 1 BKBO PM3M 4.322 K "BA(OH)2.8H2O,BI2O3,KOH" 0 "HEAT(360C IN AIR) USING AU BOAT,EXCESS KOH WAS DISSOLVED IN WATER" OXYGEN ATOM THERMAL VIBRATION ANISOTROPY IN BA(0.87)K(0.13)BI(1)O(3) 1988 10 "STRUCTURE ,THERMAL VIBRAT" "CENTER FOR MATERIALS SCIENCE AND ENGINEERING,THE UNIVERSITY OF TEXAS AT AUSTIN TEXAS" "APPL.PHYS.LETT.,53(1988)1753" "BA,K,BI,O" 1303 SSC0670879 "(Ba,K)BiO3" Ba0.7K0.75Bi1OY Ba 0.7 K 0.75 Bi 1 O Y 1988 1 BKBO K 29 29 9.1 700 78 "BAO,KO2,BI2O3" 1 SEALED IN AG TUBE-HEAT(675C 3DAYS)-FC SYNTHESIS OF SUPERCONDUCTING BA-K-BI-O SYSTEM WITH PEROVSKITE STRUCTURE 1988 9 "FABRICATION ,SUS ,RES" "INSTITUTE FOR MOLECULAR SCIENCE,OKAZAKI JAPAN" "SOLID STATE COMMUN.,67(1988)879" "BA,K,BI,O" 1304 PRB0373745 BAND STRUCTURE IN EL0602681 "(Ba,K)BiO3" Ba0.9K0.2Bi1O3-Z Ba 0.9 K 0.2 Bi 1 O 3-Z 2 1988 1 BKBO K 20 20 "BACO3,K2CO3,BI2O3" 1 MIX-HEAT(900C 2H IN PT CRUCIBLE)-SIN(900C 2H IN O2) SUPERCONDUCTIVITY ABOVE 20 K IN THE BA-K-BI-O SYSTEM 1988 3 "FABRICATION ,SUSCEPTIBILITY" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,37(1988)3745" "BA,K,BI,O" 1305 PRB0373745 "(Ba,K)BiO3" Ba0.9K0.24Bi1O3-Z Ba 0.9 K 0.24 Bi 1 O 3-Z 2 1988 1 BKBO K 22 22 "BACO3,K2CO3,BI2O3" 1 MIX-HEAT(900C 2H IN PT CRUCIBLE)-SIN(900C 2H IN O2) SUPERCONDUCTIVITY ABOVE 20 K IN THE BA-K-BI-O SYSTEM 1988 3 "FABRICATION ,SUSCEPTIBILITY" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,37(1988)3745" "BA,K,BI,O" 1306 PRB0373745 "(Ba,Rb)BiO3" Ba0.9Rb0.2Bi1O3-Z Ba 0.9 Rb 0.2 Bi 1 O 3-Z 2 1988 1 BKBO K 15 15 "BACO3,K2CO3,BI2O3" 1 MIX-HEAT(900C 2H IN PT CRUCIBLE)-SIN(900C 2H IN O2) SUPERCONDUCTIVITY ABOVE 20 K IN THE BA-K-BI-O SYSTEM 1988 3 "FABRICATION ,SUSCEPTIBILITY" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,37(1988)3745" "BA,K,BI,O" 1307 PRB0397339 FLUX CREEP "(Ba,K)BiO3" Ba0.6K0.4Bi1O3-Z Ba 0.6 K 0.4 Bi 1 O 3-Z 1 1989 1 BKBO IM3M 4.287 K 26 29 26 98 300000 "BANO3,BI2O3,KNO3" 1 (700K 1H IN N2)-ANN(450C 3H+375C 4H IN O2)-FC Flux creep in a polycrystalline Ba0.6K0.4BiO3 superconductor 1989 4 "Los Alomos National Laboratory, Los Alamos, New Mexico 87545" "Phys.Rev.B,39(1989)7339" 1308 PRB0399203 SmBa2Cu3O7 Sm1Ba2Cu3O6.941 Sm 1 Ba 2 Cu 3 O Z 6.941 1989 3 Y123 K 90.7 90.7 MAGNETIZATION OF PARTICLE(ABOUT 10MICRON) 0 "HIGH-TEMPERATURE RESISTIVITY OF RBA(2)CU(3)0(7-Y),WHERE R=LA,PR,ND,SM,EU,DY,HO,ER,AND TM" 1989 5 "RESISTIVITY ,OXYGEN CONTENTS" "DEPRTMENT OF PHYSICS,NATIONAL TAIWAN UNIVERSITY,TAIPEI,TAIWAN,REPUBRIC OF CHINA" "Phys.Rev.B,39(1989)9203" "SM,EU,DY,HO,ER,R,BA,CU,O" 1309 PRB0399203 SmBa2Cu3O7 Sm1Ba2Cu3O7 Sm 1 Ba 2 Cu 3 O Z 7 1989 3 Y123 K 95.5 95.5 MAGNETIZATION OF PARTICLE(ABOUT 10MICRON) 0 "HIGH-TEMPERATURE RESISTIVITY OF RBA(2)CU(3)0(7-Y),WHERE R=LA,PR,ND,SM,EU,DY,HO,ER,AND TM" 1989 5 "RESISTIVITY ,OXYGEN CONTENTS" "DEPRTMENT OF PHYSICS,NATIONAL TAIWAN UNIVERSITY,TAIPEI,TAIWAN,REPUBRIC OF CHINA" "Phys.Rev.B,39(1989)9203" "SM,EU,DY,HO,ER,R,BA,CU,O" 1310 PRB0399203 SmBa2Cu3O7 Sm1Ba2Cu3O6.927 Sm 1 Ba 2 Cu 3 O Z 6.927 1989 3 Y123 K 88.1 88.1 MAGNETIZATION OF PARTICLE(ABOUT 10MICRON) 0 "HIGH-TEMPERATURE RESISTIVITY OF RBA(2)CU(3)0(7-Y),WHERE R=LA,PR,ND,SM,EU,DY,HO,ER,AND TM" 1989 5 "RESISTIVITY ,OXYGEN CONTENTS" "DEPRTMENT OF PHYSICS,NATIONAL TAIWAN UNIVERSITY,TAIPEI,TAIWAN,REPUBRIC OF CHINA" "Phys.Rev.B,39(1989)9203" "SM,EU,DY,HO,ER,R,BA,CU,O" 1311 PRB0399203 SmBa2Cu3O7 Sm1Ba2Cu3O6.9 Sm 1 Ba 2 Cu 3 O Z 6.9 1989 3 Y123 K 87 87 MAGNETIZATION OF PARTICLE(ABOUT 10MICRON) 0 "HIGH-TEMPERATURE RESISTIVITY OF RBA(2)CU(3)0(7-Y),WHERE R=LA,PR,ND,SM,EU,DY,HO,ER,AND TM" 1989 5 "RESISTIVITY ,OXYGEN CONTENTS" "DEPRTMENT OF PHYSICS,NATIONAL TAIWAN UNIVERSITY,TAIPEI,TAIWAN,REPUBRIC OF CHINA" "Phys.Rev.B,39(1989)9203" "SM,EU,DY,HO,ER,R,BA,CU,O" 1312 PRB0399203 SmBa2Cu3O7 Sm1Ba2Cu3O6.878 Sm 1 Ba 2 Cu 3 O Z 6.878 1989 3 Y123 K 91.1 91.1 MAGNETIZATION OF PARTICLE(ABOUT 10MICRON) 0 "HIGH-TEMPERATURE RESISTIVITY OF RBA(2)CU(3)0(7-Y),WHERE R=LA,PR,ND,SM,EU,DY,HO,ER,AND TM" 1989 5 "RESISTIVITY ,OXYGEN CONTENTS" "DEPRTMENT OF PHYSICS,NATIONAL TAIWAN UNIVERSITY,TAIPEI,TAIWAN,REPUBRIC OF CHINA" "Phys.Rev.B,39(1989)9203" "SM,EU,DY,HO,ER,R,BA,CU,O" 1313 PRB0399203 SmBa2Cu3O7 Sm1Ba2Cu3O6.813 Sm 1 Ba 2 Cu 3 O Z 6.813 1989 3 Y123 K 83.6 83.6 MAGNETIZATION OF PARTICLE(ABOUT 10MICRON) 0 "HIGH-TEMPERATURE RESISTIVITY OF RBA(2)CU(3)0(7-Y),WHERE R=LA,PR,ND,SM,EU,DY,HO,ER,AND TM" 1989 5 "RESISTIVITY ,OXYGEN CONTENTS" "DEPRTMENT OF PHYSICS,NATIONAL TAIWAN UNIVERSITY,TAIPEI,TAIWAN,REPUBRIC OF CHINA" "Phys.Rev.B,39(1989)9203" "SM,EU,DY,HO,ER,R,BA,CU,O" 1314 PRB0399203 SmBa2Cu3O7 Sm1Ba2Cu3O6.773 Sm 1 Ba 2 Cu 3 O Z 6.773 1989 3 Y123 K 87.8 87.8 MAGNETIZATION OF PARTICLE(ABOUT 10MICRON) 0 "HIGH-TEMPERATURE RESISTIVITY OF RBA(2)CU(3)0(7-Y),WHERE R=LA,PR,ND,SM,EU,DY,HO,ER,AND TM" 1989 5 "RESISTIVITY ,OXYGEN CONTENTS" "DEPRTMENT OF PHYSICS,NATIONAL TAIWAN UNIVERSITY,TAIPEI,TAIWAN,REPUBRIC OF CHINA" "Phys.Rev.B,39(1989)9203" "SM,EU,DY,HO,ER,R,BA,CU,O" 1315 PRB0399203 SmBa2Cu3O7 Sm1Ba2Cu3O6.734 Sm 1 Ba 2 Cu 3 O Z 6.734 1989 3 Y123 K 67.6 67.6 MAGNETIZATION OF PARTICLE(ABOUT 10MICRON) 0 "HIGH-TEMPERATURE RESISTIVITY OF RBA(2)CU(3)0(7-Y),WHERE R=LA,PR,ND,SM,EU,DY,HO,ER,AND TM" 1989 5 "RESISTIVITY ,OXYGEN CONTENTS" "DEPRTMENT OF PHYSICS,NATIONAL TAIWAN UNIVERSITY,TAIPEI,TAIWAN,REPUBRIC OF CHINA" "Phys.Rev.B,39(1989)9203" "SM,EU,DY,HO,ER,R,BA,CU,O" 1316 PRB0399203 SmBa2Cu3O7 Sm1Ba2Cu3O6.709 Sm 1 Ba 2 Cu 3 O Z 6.709 1989 3 Y123 K 59.8 59.8 MAGNETIZATION OF PARTICLE(ABOUT 10MICRON) 0 "HIGH-TEMPERATURE RESISTIVITY OF RBA(2)CU(3)0(7-Y),WHERE R=LA,PR,ND,SM,EU,DY,HO,ER,AND TM" 1989 5 "RESISTIVITY ,OXYGEN CONTENTS" "DEPRTMENT OF PHYSICS,NATIONAL TAIWAN UNIVERSITY,TAIPEI,TAIWAN,REPUBRIC OF CHINA" "Phys.Rev.B,39(1989)9203" "SM,EU,DY,HO,ER,R,BA,CU,O" 1317 PRB0399203 SmBa2Cu3O7 Sm1Ba2Cu3O6.554 Sm 1 Ba 2 Cu 3 O Z 6.554 1989 3 Y123 K 44.7 44.7 MAGNETIZATION OF PARTICLE(ABOUT 10MICRON) 0 "HIGH-TEMPERATURE RESISTIVITY OF RBA(2)CU(3)0(7-Y),WHERE R=LA,PR,ND,SM,EU,DY,HO,ER,AND TM" 1989 5 "RESISTIVITY ,OXYGEN CONTENTS" "DEPRTMENT OF PHYSICS,NATIONAL TAIWAN UNIVERSITY,TAIPEI,TAIWAN,REPUBRIC OF CHINA" "Phys.Rev.B,39(1989)9203" "SM,EU,DY,HO,ER,R,BA,CU,O" 1318 PRB0399203 SmBa2Cu3O7 Sm1Ba2Cu3O6.467 Sm 1 Ba 2 Cu 3 O Z 6.467 1989 3 Y123 K MAGNETIZATION OF PARTICLE(ABOUT 10MICRON) 0 "HIGH-TEMPERATURE RESISTIVITY OF RBA(2)CU(3)0(7-Y),WHERE R=LA,PR,ND,SM,EU,DY,HO,ER,AND TM" 1989 5 "RESISTIVITY ,OXYGEN CONTENTS" "DEPRTMENT OF PHYSICS,NATIONAL TAIWAN UNIVERSITY,TAIPEI,TAIWAN,REPUBRIC OF CHINA" "Phys.Rev.B,39(1989)9203" "SM,EU,DY,HO,ER,R,BA,CU,O" 1319 PRB0399203 YBa2Cu3O7 Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 1989 6.324 3 Y123 K 90.53 90.53 MAGNETIZATION OF PARTICLE(ABOUT 10MICRON) 3910 0 "HIGH-TEMPERATURE RESISTIVITY OF RBA(2)CU(3)0(7-Y),WHERE R=LA,PR,ND,SM,EU,DY,HO,ER,AND TM" 1989 5 "RESISTIVITY ,OXYGEN CONTENTS" "DEPRTMENT OF PHYSICS,NATIONAL TAIWAN UNIVERSITY,TAIPEI,TAIWAN,REPUBRIC OF CHINA" "Phys.Rev.B,39(1989)9203" "SM,EU,DY,HO,ER,R,BA,CU,O" 1320 PRB0399203 LaBa2Cu3O7 La1Ba2Cu3OZ La 1 Ba 2 Cu 3 O Z 1989 6.577 3 Y123 K 47.73 47.73 MAGNETIZATION OF PARTICLE(ABOUT 10MICRON) 10780 0 "HIGH-TEMPERATURE RESISTIVITY OF RBA(2)CU(3)0(7-Y),WHERE R=LA,PR,ND,SM,EU,DY,HO,ER,AND TM" 1989 5 "RESISTIVITY ,OXYGEN CONTENTS" "DEPRTMENT OF PHYSICS,NATIONAL TAIWAN UNIVERSITY,TAIPEI,TAIWAN,REPUBRIC OF CHINA" "Phys.Rev.B,39(1989)9203" "SM,EU,DY,HO,ER,R,BA,CU,O" 1321 PRB0399203 NdBa2Cu3O7 Nd1Ba2Cu3OZ Nd 1 Ba 2 Cu 3 O Z 1989 6.746 3 Y123 K 87.63 87.63 MAGNETIZATION OF PARTICLE(ABOUT 10MICRON) 8020 0 "HIGH-TEMPERATURE RESISTIVITY OF RBA(2)CU(3)0(7-Y),WHERE R=LA,PR,ND,SM,EU,DY,HO,ER,AND TM" 1989 5 "RESISTIVITY ,OXYGEN CONTENTS" "DEPRTMENT OF PHYSICS,NATIONAL TAIWAN UNIVERSITY,TAIPEI,TAIWAN,REPUBRIC OF CHINA" "Phys.Rev.B,39(1989)9203" "SM,EU,DY,HO,ER,R,BA,CU,O" 1322 PRB0399203 SmBa2Cu3O7 Sm1Ba2Cu3OZ Sm 1 Ba 2 Cu 3 O Z 1989 6.853 3 Y123 K 92.33 92.33 MAGNETIZATION OF PARTICLE(ABOUT 10MICRON) 6830 0 "HIGH-TEMPERATURE RESISTIVITY OF RBA(2)CU(3)0(7-Y),WHERE R=LA,PR,ND,SM,EU,DY,HO,ER,AND TM" 1989 5 "RESISTIVITY ,OXYGEN CONTENTS" "DEPRTMENT OF PHYSICS,NATIONAL TAIWAN UNIVERSITY,TAIPEI,TAIWAN,REPUBRIC OF CHINA" "Phys.Rev.B,39(1989)9203" "SM,EU,DY,HO,ER,R,BA,CU,O" 1323 PRB0399203 EuBa2Cu3O7 Eu1Ba2Cu3OZ Eu 1 Ba 2 Cu 3 O Z 1989 6.88 3 Y123 K 93.83 93.83 MAGNETIZATION OF PARTICLE(ABOUT 10MICRON) 6910 0 "HIGH-TEMPERATURE RESISTIVITY OF RBA(2)CU(3)0(7-Y),WHERE R=LA,PR,ND,SM,EU,DY,HO,ER,AND TM" 1989 5 "RESISTIVITY ,OXYGEN CONTENTS" "DEPRTMENT OF PHYSICS,NATIONAL TAIWAN UNIVERSITY,TAIPEI,TAIWAN,REPUBRIC OF CHINA" "Phys.Rev.B,39(1989)9203" "SM,EU,DY,HO,ER,R,BA,CU,O" 1324 PRB0399203 DyBa2Cu3O7 Dy1Ba2Cu3OZ Dy 1 Ba 2 Cu 3 O Z 1989 7.057 3 Y123 K 91.23 91.23 MAGNETIZATION OF PARTICLE(ABOUT 10MICRON) 5280 0 "HIGH-TEMPERATURE RESISTIVITY OF RBA(2)CU(3)0(7-Y),WHERE R=LA,PR,ND,SM,EU,DY,HO,ER,AND TM" 1989 5 "RESISTIVITY ,OXYGEN CONTENTS" "DEPRTMENT OF PHYSICS,NATIONAL TAIWAN UNIVERSITY,TAIPEI,TAIWAN,REPUBRIC OF CHINA" "Phys.Rev.B,39(1989)9203" "SM,EU,DY,HO,ER,R,BA,CU,O" 1325 PRB0399203 HoBa2Cu3O7 Ho1Ba2Cu3OZ Ho 1 Ba 2 Cu 3 O Z 1989 7.095 3 Y123 K 89.43 89.43 MAGNETIZATION OF PARTICLE(ABOUT 10MICRON) 5930 0 "HIGH-TEMPERATURE RESISTIVITY OF RBA(2)CU(3)0(7-Y),WHERE R=LA,PR,ND,SM,EU,DY,HO,ER,AND TM" 1989 5 "RESISTIVITY ,OXYGEN CONTENTS" "DEPRTMENT OF PHYSICS,NATIONAL TAIWAN UNIVERSITY,TAIPEI,TAIWAN,REPUBRIC OF CHINA" "Phys.Rev.B,39(1989)9203" "SM,EU,DY,HO,ER,R,BA,CU,O" 1326 PRB0399203 ErBa2Cu3O7 Er1Ba2Cu3OZ Er 1 Ba 2 Cu 3 O Z 1989 7.139 3 Y123 K 91.1 91.1 MAGNETIZATION OF PARTICLE(ABOUT 10MICRON) 3560 0 "HIGH-TEMPERATURE RESISTIVITY OF RBA(2)CU(3)0(7-Y),WHERE R=LA,PR,ND,SM,EU,DY,HO,ER,AND TM" 1989 5 "RESISTIVITY ,OXYGEN CONTENTS" "DEPRTMENT OF PHYSICS,NATIONAL TAIWAN UNIVERSITY,TAIPEI,TAIWAN,REPUBRIC OF CHINA" "Phys.Rev.B,39(1989)9203" "SM,EU,DY,HO,ER,R,BA,CU,O" 1327 PRB0399203 TmBa2Cu3O7 Tm1Ba2Cu3OZ Tm 1 Ba 2 Cu 3 O Z 1989 7.186 3 Y123 K 90.1 90.1 MAGNETIZATION OF PARTICLE(ABOUT 10MICRON) 4090 0 "HIGH-TEMPERATURE RESISTIVITY OF RBA(2)CU(3)0(7-Y),WHERE R=LA,PR,ND,SM,EU,DY,HO,ER,AND TM" 1989 5 "RESISTIVITY ,OXYGEN CONTENTS" "DEPRTMENT OF PHYSICS,NATIONAL TAIWAN UNIVERSITY,TAIPEI,TAIWAN,REPUBRIC OF CHINA" "Phys.Rev.B,39(1989)9203" "SM,EU,DY,HO,ER,R,BA,CU,O" 1328 PR04011352 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8-X Bi 2 Sr 2 Ca 1 Cu 2 O 8-X 3 1989 Bi2212 K 83 83 RH1328 3.02E+21 "BI2O3,SRCO3,CACO3,CUO" 0 "5H AT 650C, FOLLOWED BY 12H RAMP TO 25C IN 1 ATM O2 FLOW" VARIABLE HALL COEFFICIENT IN BI2SR2CACU2O8-X ACROSS THE METAL-INSULATOR TRANSITION 1989 12 "HALL COEFFICIENT ,SINGLE-CRYSTAL ,OXYGEN CONTENT ,HALL MOBILITY" "DEPARTMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA ATBERKELEY,ANDMATERIALS AND CHEMICAL SCIENCES DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "PHYS.REV.B,40(1989)11352" "BI,SR,CA,CU,O" 1329 PR04011352 1/RH=A+BT. Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8-X Bi 2 Sr 2 Ca 1 Cu 2 O 8-X 1989 Bi2212 K 25 25 RH1329 1.05E+21 "BI2O3,SRCO3,CACO3,CUO" 0 "5H AT 650C, FOLLOWED BY 12H RAMP TO 25C IN 1 ATM O2 FLOW" VARIABLE HALL COEFFICIENT IN BI2SR2CACU2O8-X ACROSS THE METAL-INSULATOR TRANSITION 1989 12 "HALL COEFFICIENT ,SINGLE-CRYSTAL ,OXYGEN CONTENT ,HALL MOBILITY" "DEPARTMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA ATBERKELEY,ANDMATERIALS AND CHEMICAL SCIENCES DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "PHYS.REV.B,40(1989)11352" "BI,SR,CA,CU,O" 1330 SSC0711079 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-Y Nd 1.85 Ce 0.15 Cu 1 O 4-Y 2 1989 2 T' K 14 20.9 22.3 20.9 -1.49 24.5 36.7 9 "ND2O3,CEO2,CUO" 0 "IMPURITY PHASE=NDCEO3.5,NDCE3O7.5,CU2O,CAL(950C 24H IN AIR)-SIN(1050C 48H IN O2)-ANN(900C 24H IN AIR)-Q TO RT" COMPOSITIONAL PROPERTIES AND THERMOELECTRIC POWER OF THE SUPERCONDUCTING CERAMIC ND2-XCEXCUO4-Y 1989 9 "THERMOELECTRIC POWER,RES ,SUS" "IBM RESEARCH DIVISION, ALMADEN RESEARCH CENTER SAN JOSE, CALIFORUNIA 95120-6099" SOLID STATE COMMUN.71(1989)1079 "ND,CE,CU,O" 1331 SSC0711099 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 3 1989 Y123 K 91.5 91.5 0.082 0.27 5.70E-10 1.45E-09 RH1331 1.00E+22 0 GRAIN GROWTH FLUX-FLOW HALL EFFECT IN YBA2CU3O7 AND BI2SR2CACU2O8 HIGH TEMPERATURE SUPERCONDUCTORS 1989 "SOLID STATE COMMUN.,71(1989)1099" "Y,BA,CU,O,BI,SR,CA," 1332 SSC0711099 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 3 1989 Bi2212 K 82 82 0.048 0.19 1.04E-09 1.53E-09 5.95E+21 0 GRAIN GROWTH FLUX-FLOW HALL EFFECT IN YBA2CU3O7 AND BI2SR2CACU2O8 HIGH TEMPERATURE SUPERCONDUCTORS 1989 "SOLID STATE COMMUN.,71(1989)1099" "Y,BA,CU,O,BI,SR,CA," 1333 SSC0710939 "Y(Ba,Ca)2Cu3O7" Y1Ba1.9Ca0.1Cu3O6.84 Y 1 Ba 1.9 Ca 0.1 Cu 3 O Z 6.84 1989 3 Y123 K 85 85 0 CORRELATION BETWEEN ELECTRONIC STATES OF OXYGEN AND COPPER INY-BA-CU-O DOPED SYSTEMS 1989 "XPS ,OXYGEN CONTENTS ,ELECTRONIC STATES" "DEPARTMENT OF APPLIED CHEMISTRY, UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA (USTC),HEFEI,ANHUI,CHINA" SOLID STATE COMMUN.71(1989)939 "Y,BA,CU,O,SR,CA,ZN,AL,SN" 1334 SSC0710939 "Y(Ba,Sr)2Cu3O7" Y1Ba1.9Sr0.1Cu3O6.89 Y 1 Ba 1.9 Sr 0.1 Cu 3 O Z 6.89 1989 3 Y123 K 89 89 0 CORRELATION BETWEEN ELECTRONIC STATES OF OXYGEN AND COPPER INY-BA-CU-O DOPED SYSTEMS 1989 "XPS ,OXYGEN CONTENTS ,ELECTRONIC STATES" "DEPARTMENT OF APPLIED CHEMISTRY, UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA (USTC),HEFEI,ANHUI,CHINA" SOLID STATE COMMUN.71(1989)939 "Y,BA,CU,O,SR,CA,ZN,AL,SN" 1335 SSC0720075 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.975Zn0.025O6.93 Y 1 Ba 2 Cu 2.975 Zn 0.025 O Z 6.93 1 1989 3 Y123 K 82.8 82.8 1 "930C QUENCH IN O2, OZ BY TGA" OXYGEN CONTENT IS NOT THE PROEDOMINANT FACTOR FOR HIGH TC SUPERCONDUCTIVITY IN Y-BA-CU-O SYSTEM 1989 10 "OXYGEN CONTENT ,TC" "DEPARTMENT OF APPLIED CHEMISTRY, UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA(USTC), HEFEI, ANHUI, CHINA" SOLID STATE COMMUN. 72(1989)75 "Y,BA,CU,O,M,R" 1336 SSC0720075 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.95Zn0.05O6.94 Y 1 Ba 2 Cu 2.95 Zn 0.05 O Z 6.94 1 1989 3 Y123 K 73.9 73.9 1 "930C QUENCH IN O2, OZ BY TGA" OXYGEN CONTENT IS NOT THE PROEDOMINANT FACTOR FOR HIGH TC SUPERCONDUCTIVITY IN Y-BA-CU-O SYSTEM 1989 10 "OXYGEN CONTENT ,TC" "DEPARTMENT OF APPLIED CHEMISTRY, UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA(USTC), HEFEI, ANHUI, CHINA" SOLID STATE COMMUN. 72(1989)75 "Y,BA,CU,O,M,R" 1337 SSC0720075 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.925Zn0.075O6.94 Y 1 Ba 2 Cu 2.925 Zn 0.075 O Z 6.94 1 1989 3 Y123 K 65 65 1 "930C QUENCH IN O2, OZ BY TGA" OXYGEN CONTENT IS NOT THE PROEDOMINANT FACTOR FOR HIGH TC SUPERCONDUCTIVITY IN Y-BA-CU-O SYSTEM 1989 10 "OXYGEN CONTENT ,TC" "DEPARTMENT OF APPLIED CHEMISTRY, UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA(USTC), HEFEI, ANHUI, CHINA" SOLID STATE COMMUN. 72(1989)75 "Y,BA,CU,O,M,R" 1338 SSC0720075 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.9Zn0.1O6.94 Y 1 Ba 2 Cu 2.9 Zn 0.1 O Z 6.94 1 1989 3 Y123 K 56.9 56.9 1 "930C QUENCH IN O2, OZ BY TGA" OXYGEN CONTENT IS NOT THE PROEDOMINANT FACTOR FOR HIGH TC SUPERCONDUCTIVITY IN Y-BA-CU-O SYSTEM 1989 10 "OXYGEN CONTENT ,TC" "DEPARTMENT OF APPLIED CHEMISTRY, UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA(USTC), HEFEI, ANHUI, CHINA" SOLID STATE COMMUN. 72(1989)75 "Y,BA,CU,O,M,R" 1339 SSC0720075 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.85Zn0.15O6.9 Y 1 Ba 2 Cu 2.85 Zn 0.15 O Z 6.9 1 1989 3 Y123 K 1 "930C QUENCH IN O2, OZ BY TGA" OXYGEN CONTENT IS NOT THE PROEDOMINANT FACTOR FOR HIGH TC SUPERCONDUCTIVITY IN Y-BA-CU-O SYSTEM 1989 10 "OXYGEN CONTENT ,TC" "DEPARTMENT OF APPLIED CHEMISTRY, UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA(USTC), HEFEI, ANHUI, CHINA" SOLID STATE COMMUN. 72(1989)75 "Y,BA,CU,O,M,R" 1340 SSC0720075 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.8Zn0.2O6.88 Y 1 Ba 2 Cu 2.8 Zn 0.2 O Z 6.88 1 1989 3 Y123 K 54.7 54.7 1 "930C QUENCH IN O2, OZ BY TGA" OXYGEN CONTENT IS NOT THE PROEDOMINANT FACTOR FOR HIGH TC SUPERCONDUCTIVITY IN Y-BA-CU-O SYSTEM 1989 10 "OXYGEN CONTENT ,TC" "DEPARTMENT OF APPLIED CHEMISTRY, UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA(USTC), HEFEI, ANHUI, CHINA" SOLID STATE COMMUN. 72(1989)75 "Y,BA,CU,O,M,R" 1341 SSC0720075 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.7Zn0.3O6.92 Y 1 Ba 2 Cu 2.7 Zn 0.3 O Z 6.92 1 1989 3 Y123 K 47.2 47.2 1 "930C QUENCH IN O2, OZ BY TGA" OXYGEN CONTENT IS NOT THE PROEDOMINANT FACTOR FOR HIGH TC SUPERCONDUCTIVITY IN Y-BA-CU-O SYSTEM 1989 10 "OXYGEN CONTENT ,TC" "DEPARTMENT OF APPLIED CHEMISTRY, UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA(USTC), HEFEI, ANHUI, CHINA" SOLID STATE COMMUN. 72(1989)75 "Y,BA,CU,O,M,R" 1342 SSC0720085 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.97Fe0.03O7-Z Y 1 Ba 2 Cu 2.97 Fe 0.03 O 7-Z 1 1989 3 Y123 K 91 91 2.9 2 "Y2O3,BAO2,CUO,FE2O3" 1 OBSERVATION OF AN ENERGY GAP IN THE FAR INFRARED SPECTRA OF IRON-DOPED YBA2CU3OX SUPERCONDUCTORS 1989 10 "FAR INFRARED ,REFLECTANCE ,ENERGY GAP ,OXYGEN CONTENT" "MAX-PLANCE-INSTITUT FUR FESTKORPERFORSCHUNG HEISENBERGSTR. 1,7000 STUTTGART 80" SOLID STATE COMMUN.72(1989)85 "Y,BA,CU,O,FE" 1343 SSC0720085 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.82Fe0.18O7-Z Y 1 Ba 2 Cu 2.82 Fe 0.18 O 7-Z 1 1989 2 Y123 K 72.2 72.2 1.1 2 "Y2O3,BAO2,CUO,FE2O3" 1 OBSERVATION OF AN ENERGY GAP IN THE FAR INFRARED SPECTRA OF IRON-DOPED YBA2CU3OX SUPERCONDUCTORS 1989 10 "FAR INFRARED ,REFLECTANCE ,ENERGY GAP ,OXYGEN CONTENT" "MAX-PLANCE-INSTITUT FUR FESTKORPERFORSCHUNG HEISENBERGSTR. 1,7000 STUTTGART 80" SOLID STATE COMMUN.72(1989)85 "Y,BA,CU,O,FE" 1344 SSC0720273 Pr2NiO4 Pr2Ni1O4 Pr 2 Ni 1 O 4 1 1989 3.73 -16.3 3 BMAB 5.404 5.578 12.22 K 1 BY REDUCING NONSTOICHIOMETRIC R2NI04+Z UNDER H FLOW AT 583K MAGNETIC AND X-RAY DIFFRACTION CHARACTERIZATION OF STOICHIOMETRIC PR2NIO4 AND ND2NIO4OXIDES 1989 10 "SRYSTAL STRUCTURE ,ANTIFERROMAGNETIC ,SUSCEPTIBILITY" "DEPT. QULMICA LNORGANICA. FACULTAD CIENCIAS QULMICAS, UNIVERSIDAD COMPLUTENSE. E-28040. MADRID. SPAIN" SOLID STATE COMMUN.72(1989)273 "PR,NI,O,ND" 1345 SSC0720273 Nd2NiO4 Nd2Ni1O4 Nd 2 Ni 1 O 4 1 1989 3.83 -17.9 3 BMAB 5.381 5.585 12.114 K 1 BY REDUCING NONSTOICHIOMETRIC R2NI04+Z UNDER H FLOW AT 583K MAGNETIC AND X-RAY DIFFRACTION CHARACTERIZATION OF STOICHIOMETRIC PR2NIO4 AND ND2NIO4OXIDES 1989 10 "SRYSTAL STRUCTURE ,ANTIFERROMAGNETIC ,SUSCEPTIBILITY" "DEPT. QULMICA LNORGANICA. FACULTAD CIENCIAS QULMICAS, UNIVERSIDAD COMPLUTENSE. E-28040. MADRID. SPAIN" SOLID STATE COMMUN.72(1989)273 "PR,NI,O,ND" 1346 SSC0720117 HC1 MEASURED BY EPR X-BAND "(Y,Er)(Ba,Sr)2Cu3O7" Y0.9Er0.1Ba1.9Sr0.1Cu3O7-Z Y 0.9 Er 0.1 Ba 1.9 Sr 0.1 Cu 3 O 7-Z 1 1989 Y123 K 88 88 190 83 15 1400 "CUO,Y2O3,BACO3,ER2O3,SR2CO3" 1 CAL(800C 12H)-SIN(960C 7H IN O2)-C ELECTRON PARAMAGNETIC RESONANCE OF THE HIGH-TC SUPERCONDUCTORY0.9ER0.1BA1.9SR0.1CU3O7-Z 1989 10 "EPR ,JOSEPHSON JUNCTIONS ,CRITICAL FIELD ,MICROWAVE ABSORPT" "PHYSICS DEPARTMENT, CONCORDIA UNIVIRSITY, 1455 DE MAISONNEUVE.BLVD, WEST, MONTREAL," SOLID STATE COMMUN.72(1989)117 "Y,ER,BA,SR,CU,O" 1347 SSC0720351 "HC1 MEASURED BY EPR, X-BAND" "(Y,Ho)Ba2Cu3O7" Y0.9Ho0.1Ba2Cu3O7-Z Y 0.9 Ho 0.1 Ba 2 Cu 3 O 7-Z 1 1989 3 Y123 K 60 60 EPR MEASUREMENT 750 ESTIMATED FROM HC1 173 1 EPR STUDY OF HIGH-TC SUPERCONDUCTOR Y0.9HO0.1BA2CU3O7-Z 1989 10 "EPR ,MICROWAVE ABSORPTION,CRITICAL FIELD ,OXYGEN VACANCIES" "PHYSICS DEPARTMENT, CONCORDIA UNIVERSITY, 1455 DE MAISONNEUVEBLVD. WEST, MONTREAL, QUEBEC, CANADA" SOLID STATE COMMUN.72(1989)351 "Y,HO,BA,CU,O" 1348 PRB0406850 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.975Zn0.025O6.85 Y 1 Ba 2 Cu 2.975 Zn 0.025 O 7-Y 6.85 1 1989 3 Y123 K 72.85 72.85 TP1348 1 THERMOPOWER OF ZINC-DOPED Y-BA-CU-O 1989 10 "THERMOPOWER ,SINGLE PHASE ,PHONON DRAG" "LOW TEMPERATURE LABORATORY,DEPARTMENT OF PHYSICS,INDIA AND MATERIAL SCIENCE RESEARCH CENTER,INDIAN INSTITUTE OF TECHNOLOGY,MADRAS 600036,INDIA" "EATCH CENTER,IN" "Y,BA,CU,ZN,O" 1349 PRB0406850 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.95Zn0.05O6.85 Y 1 Ba 2 Cu 2.95 Zn 0.05 O 7-Y 6.85 1 1989 3 Y123 K 66.19 66.19 TP1349 1 THERMOPOWER OF ZINC-DOPED Y-BA-CU-O 1989 10 "THERMOPOWER ,SINGLE PHASE ,PHONON DRAG" "LOW TEMPERATURE LABORATORY,DEPARTMENT OF PHYSICS,INDIA AND MATERIAL SCIENCE RESEARCH CENTER,INDIAN INSTITUTE OF TECHNOLOGY,MADRAS 600036,INDIA" "EATCH CENTER,IN" "Y,BA,CU,ZN,O" 1350 PRB0406850 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.925Zn0.075O6.85 Y 1 Ba 2 Cu 2.925 Zn 0.075 O 7-Y 6.85 1 1989 3 Y123 K 63.6 63.6 TP1350 1 THERMOPOWER OF ZINC-DOPED Y-BA-CU-O 1989 10 "THERMOPOWER ,SINGLE PHASE ,PHONON DRAG" "LOW TEMPERATURE LABORATORY,DEPARTMENT OF PHYSICS,INDIA AND MATERIAL SCIENCE RESEARCH CENTER,INDIAN INSTITUTE OF TECHNOLOGY,MADRAS 600036,INDIA" "EATCH CENTER,IN" "Y,BA,CU,ZN,O" 1351 PRB0406850 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.9Zn0.1O6.85 Y 1 Ba 2 Cu 2.9 Zn 0.1 O 7-Y 6.85 1 1989 3 Y123 K 50.08 50.08 TP1351 1 THERMOPOWER OF ZINC-DOPED Y-BA-CU-O 1989 10 "THERMOPOWER ,SINGLE PHASE ,PHONON DRAG" "LOW TEMPERATURE LABORATORY,DEPARTMENT OF PHYSICS,INDIA AND MATERIAL SCIENCE RESEARCH CENTER,INDIAN INSTITUTE OF TECHNOLOGY,MADRAS 600036,INDIA" "EATCH CENTER,IN" "Y,BA,CU,ZN,O" 1352 PRB0406850 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.85Zn0.15O6.85 Y 1 Ba 2 Cu 2.85 Zn 0.15 O 7-Y 6.85 1 1989 3 Y123 K 47.6 47.6 TP1352 1 THERMOPOWER OF ZINC-DOPED Y-BA-CU-O 1989 10 "THERMOPOWER ,SINGLE PHASE ,PHONON DRAG" "LOW TEMPERATURE LABORATORY,DEPARTMENT OF PHYSICS,INDIA AND MATERIAL SCIENCE RESEARCH CENTER,INDIAN INSTITUTE OF TECHNOLOGY,MADRAS 600036,INDIA" "EATCH CENTER,IN" "Y,BA,CU,ZN,O" 1353 PRB0406850 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.8Zn0.2O6.85 Y 1 Ba 2 Cu 2.8 Zn 0.2 O 7-Y 6.85 1 1989 3 Y123 K 30.69 30.69 TP1353 1 THERMOPOWER OF ZINC-DOPED Y-BA-CU-O 1989 10 "THERMOPOWER ,SINGLE PHASE ,PHONON DRAG" "LOW TEMPERATURE LABORATORY,DEPARTMENT OF PHYSICS,INDIA AND MATERIAL SCIENCE RESEARCH CENTER,INDIAN INSTITUTE OF TECHNOLOGY,MADRAS 600036,INDIA" "EATCH CENTER,IN" "Y,BA,CU,ZN,O" 1354 PRB0406850 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.7Zn0.3O6.85 Y 1 Ba 2 Cu 2.7 Zn 0.3 O 7-Y 6.85 1 1989 Y123 K TP1354 1 THERMOPOWER OF ZINC-DOPED Y-BA-CU-O 1989 10 "THERMOPOWER ,SINGLE PHASE ,PHONON DRAG" "LOW TEMPERATURE LABORATORY,DEPARTMENT OF PHYSICS,INDIA AND MATERIAL SCIENCE RESEARCH CENTER,INDIAN INSTITUTE OF TECHNOLOGY,MADRAS 600036,INDIA" "EATCH CENTER,IN" "Y,BA,CU,ZN,O" 1355 PRB0406850 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.6Zn0.4O6.85 Y 1 Ba 2 Cu 2.6 Zn 0.4 O 7-Y 6.85 1 1989 Y123 K TP1355 1 THERMOPOWER OF ZINC-DOPED Y-BA-CU-O 1989 10 "THERMOPOWER ,SINGLE PHASE ,PHONON DRAG" "LOW TEMPERATURE LABORATORY,DEPARTMENT OF PHYSICS,INDIA AND MATERIAL SCIENCE RESEARCH CENTER,INDIAN INSTITUTE OF TECHNOLOGY,MADRAS 600036,INDIA" "EATCH CENTER,IN" "Y,BA,CU,ZN,O" 1356 PR0408861 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1989 3 Y123 K SP1356 28.4 322 1 "<2% CUO ,SIN(975C IN O2)" THERMAL EXPANSIVITY BELOW 300 K AND LOW-TEMPERATURE HEAT CAPACITY OF YBA2CU3O7 1989 11 "THEMAL EXPANSIVITIES,HEAT CAPACITIES ,LATTICE SOFTENING ,ELASTIC CONSTANTS" "AMES LABORATORY,U.S.DEPARTMET OF ENERGY,IOWA STATE UNIVERSITY,AMES,IOWA 50011" "PHYS.REV.B,40(1989)8861" "Y,BA,CU,O" 1357 PR0408861 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1989 3 Y123 K SP1357 8.2 415 1 "<2% CUO ,SIN(975C IN O2)" THERMAL EXPANSIVITY BELOW 300 K AND LOW-TEMPERATURE HEAT CAPACITY OF YBA2CU3O7 1989 11 "THEMAL EXPANSIVITIES,HEAT CAPACITIES ,LATTICE SOFTENING ,ELASTIC CONSTANTS" "AMES LABORATORY,U.S.DEPARTMET OF ENERGY,IOWA STATE UNIVERSITY,AMES,IOWA 50011" "PHYS.REV.B,40(1989)8861" "Y,BA,CU,O" 1358 PR0408861 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1989 3 Y123 K SP1358 5.74 435 1 "<2% CUO ,SIN(975C IN O2)" THERMAL EXPANSIVITY BELOW 300 K AND LOW-TEMPERATURE HEAT CAPACITY OF YBA2CU3O7 1989 11 "THEMAL EXPANSIVITIES,HEAT CAPACITIES ,LATTICE SOFTENING ,ELASTIC CONSTANTS" "AMES LABORATORY,U.S.DEPARTMET OF ENERGY,IOWA STATE UNIVERSITY,AMES,IOWA 50011" "PHYS.REV.B,40(1989)8861" "Y,BA,CU,O" 1359 SSC0720089 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.8Ni0.2O7 Y 1 Ba 2 Cu 2.8 Ni 0.2 O 7 1 1989 Y123 K 63.5 1.5 63.5 "Y2O3,BACO3,CUO,NI OR CO OXIDE" 0 CAL(900C 24H IN AIR)-ANN(600C 6H IN AIR)-FC EFFECTIVE CONCENTRATION OF CO AND NI IMPURITIES AND THEIR INFLUENCE ON THE SUPERCONDUCTING YBA2 CU3 O7 COMPOUND 1989 10 "SQUID ,TC ,SUS ,EPMA" "INSTITUT D'ELECTRONIQUE FONDAMENTALE, BATIMENT 220, URA 022, UNIVERSITE PARIS SUD, F91405-ORSAY" SOLID STATE COMMUN.72(1989)89 "Y,VA,CU,O,CO,NI" 1360 SSC0720089 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.88Ni0.12O7 Y 1 Ba 2 Cu 2.88 Ni 0.12 O 7 1 1989 Y123 K 74.3 0.8 74.3 "Y2O3,BACO3,CUO,NI OR CO OXIDE" 0 CAL(900C 24H IN AIR)-ANN(600C 6H IN AIR)-FC EFFECTIVE CONCENTRATION OF CO AND NI IMPURITIES AND THEIR INFLUENCE ON THE SUPERCONDUCTING YBA2 CU3 O7 COMPOUND 1989 10 "SQUID ,TC ,SUS ,EPMA" "INSTITUT D'ELECTRONIQUE FONDAMENTALE, BATIMENT 220, URA 022, UNIVERSITE PARIS SUD, F91405-ORSAY" SOLID STATE COMMUN.72(1989)89 "Y,VA,CU,O,CO,NI" 1361 SSC0720089 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.75Ni0.25O7 Y 1 Ba 2 Cu 2.75 Ni 0.25 O 7 1 1989 Y123 K 54 1.5 54 "Y2O3,BACO3,CUO,NI OR CO OXIDE" 0 CAL(900C 24H IN AIR)-ANN(600C 6H IN AIR)-FC EFFECTIVE CONCENTRATION OF CO AND NI IMPURITIES AND THEIR INFLUENCE ON THE SUPERCONDUCTING YBA2 CU3 O7 COMPOUND 1989 10 "SQUID ,TC ,SUS ,EPMA" "INSTITUT D'ELECTRONIQUE FONDAMENTALE, BATIMENT 220, URA 022, UNIVERSITE PARIS SUD, F91405-ORSAY" SOLID STATE COMMUN.72(1989)89 "Y,VA,CU,O,CO,NI" 1362 SSC0720089 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.72Ni0.28O7 Y 1 Ba 2 Cu 2.72 Ni 0.28 O 7 1 1989 Y123 K 51 1.6 51 "Y2O3,BACO3,CUO,NI OR CO OXIDE" 0 CAL(900C 24H IN AIR)-ANN(600C 6H IN AIR)-FC EFFECTIVE CONCENTRATION OF CO AND NI IMPURITIES AND THEIR INFLUENCE ON THE SUPERCONDUCTING YBA2 CU3 O7 COMPOUND 1989 10 "SQUID ,TC ,SUS ,EPMA" "INSTITUT D'ELECTRONIQUE FONDAMENTALE, BATIMENT 220, URA 022, UNIVERSITE PARIS SUD, F91405-ORSAY" SOLID STATE COMMUN.72(1989)89 "Y,VA,CU,O,CO,NI" 1363 SSC0720089 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.89Co0.11O7 Y 1 Ba 2 Cu 2.89 Co 0.11 O 7 1 1989 Y123 K 64 4 64 "Y2O3,BACO3,CUO,NI OR CO OXIDE" 0 CAL(900C 24H IN AIR)-ANN(600C 6H IN AIR)-FC EFFECTIVE CONCENTRATION OF CO AND NI IMPURITIES AND THEIR INFLUENCE ON THE SUPERCONDUCTING YBA2 CU3 O7 COMPOUND 1989 10 "SQUID ,TC ,SUS ,EPMA" "INSTITUT D'ELECTRONIQUE FONDAMENTALE, BATIMENT 220, URA 022, UNIVERSITE PARIS SUD, F91405-ORSAY" SOLID STATE COMMUN.72(1989)89 "Y,VA,CU,O,CO,NI" 1364 SSC0720089 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.82Co0.18O7 Y 1 Ba 2 Cu 2.82 Co 0.18 O 7 1 1989 Y123 K 46 5 46 "Y2O3,BACO3,CUO,NI OR CO OXIDE" 0 CAL(900C 24H IN AIR)-ANN(600C 6H IN AIR)-FC EFFECTIVE CONCENTRATION OF CO AND NI IMPURITIES AND THEIR INFLUENCE ON THE SUPERCONDUCTING YBA2 CU3 O7 COMPOUND 1989 10 "SQUID ,TC ,SUS ,EPMA" "INSTITUT D'ELECTRONIQUE FONDAMENTALE, BATIMENT 220, URA 022, UNIVERSITE PARIS SUD, F91405-ORSAY" SOLID STATE COMMUN.72(1989)89 "Y,VA,CU,O,CO,NI" 1365 SSC0680331 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2OX Bi 2 Sr 2 Ca 1 Cu 2 O X 3 1988 3 Bi2212 5.14 5.42 30.78 K 86 86 450 2800 150000 "BI2O3,SR(NO3)2,CACO3,CUO" 5 MELT(1025C 16H)-COOL TO 925C(80C/H)-HOLD(8H)-COOL TO 835C(1C/H)-COOL TO RT(10C/H) ANISOTROPIC MAGNETIZATION IN SINGLE CRYSTAL BI(2)SR(2)CA(1)CU(2)O(Y) 1988 10 "SINGLE CRYSTAL ,ANISOTROPY ,MAG ,HC" "INSTITUTE OF PHYSICS,ACADEMIA SINICA,BEIJING,CHINA" "SOLID STATE COMMUN.,68(1988)331" "BI,SR,CA,CU,O" 1366 PRB0385102 "Bi2Sr2(Ca,Bi)Cu2O8" Bi2.2Sr2Ca0.8Cu2O8+Z Bi 2.2 Sr 2 Ca 0.8 Cu 2 O 8+Z 3 1988 Bi2212 K RESISTIVE 44 2640 45 0.75 27 0.45 0.22 5 ANGULAR DEPENDENCE OF THE UPPER CRITICAL FIELD OF BI(2.2)SR(2)CA(0.8)CU(2)O(8+Z) 1988 9 "ANISOTROPY ,RES ,HC" "AT&T BELL LABORATORIES,600 MOUNTAIN AVENUE,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,38(1988)5102" "BI,SR,CA,CU,O" 1367 PRB0392936 single crystal. YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 3 1989 Y123 K 91 89.5 89.5 DEVIATION FROM LINEAR MAGNETIZATION 180 530 13 2 1300 4500 0 not described TEMPERATURE DEPENDENCE OF LOWER CRITICAL FIELDS IN Y-BA-CU-O CRYSTALS 1989 2 "ANISOTROPY ,LOWER CRITICAL FIELD ,SINGLE CRYSTAL ,MA" "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,39(1989)2936" "Y,BA,CU,O" 1368 PLA1280283 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1988 Y123 11.71 K 81 81 3.12 0.32 44.8 4.6 0.6 RESISTIVITY AND UPPER CRITICAL FIELD ANISOTROPY IN Y(1)BA(2)CU(3)O(7-Z) SINGLE CRYSTALS 1988 4 "SINGLE CRYSTAL ,ANISOTROPY ,CRITICAL" "CENTRE D'ETUDES NUCLEAIRES DE GRENOBLE,DEPARTEMENT DE RECHERCHE FONDAMENTALE,FRANCE" "PHYS.LETT.A,128(1988)283" "Y,BA,CU,O" 1369 PRB0380252 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1988 Y123 K 91 91 RESISTIVE 210 35 3.3 0.56 31 5.1 "Y2O3,BACO3,CUO" 5 CUO FLUX METHOD ANISOTROPIC SUPERCONDUCTING PROPERTIES OF BA(2)Y(1)CU(3)O(7-Y) 1988 7 "HC ,SINGLE CRYSTAL ,ANISOTRO" "NTT OPTO-ELECTRONICS LABORATORIES,IBARAKI,JAPAN" "PHYS.REV.B,38(1988)252" "Y,BA,CU,O" 1370 SSC0670609 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1988 3 Bi2212 5.4 27.01 30.82 K 90 90 0.45 "BI2O3,SRCO3,CACO3,CUO" 1 HEAT(900C 2H IN PT)-C(5C/H) TO 800C-FC ANISOTROPY OF THE SUPERCONDUCTING PROPERTIES OF Bi2Sr2CaCu2O8 1988 "Service National des Champs Intenses, Centre National de la Recherche Scientifique, BP 166 X, 38042 Grenoble-Ce'dex, France" "Solid State Commun.,67(1988)609-611" 1371 ZPB0690151 "Y(Ba,K)2Cu3O7" Y1Ba1.9K0.1Cu3O6.9 Y 1 Ba 1.9 K 0.1 Cu 3 O 6.9 6.9 1 1987 3 Y123 K 91.5 91.5 7.74 397 A SPEDIFIC HEAT AND MAGNETIZATION STUDY OF HIGH TC CERAMIC SUPERCONDUCTORS 1987 "RUHR-UNIVERSITAT BOCHUM, EXPERIMENTALPHYSIK VI, BOCHUM, FEDERAL REPUBLIC JOF GERMANY" "Z.PHYS.B,69(1987)151" "LA,SR,CU,O,Y,BA" 1372 ZPB0690151 La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 1 1987 T K SP1372 396 A SPEDIFIC HEAT AND MAGNETIZATION STUDY OF HIGH TC CERAMIC SUPERCONDUCTORS 1987 "RUHR-UNIVERSITAT BOCHUM, EXPERIMENTALPHYSIK VI, BOCHUM, FEDERAL REPUBLIC JOF GERMANY" "Z.PHYS.B,69(1987)151" "LA,SR,CU,O,Y,BA" 1373 ZPB0690151 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1 1987 T K 37.2 37.2 0.85 4.02 394 A SPEDIFIC HEAT AND MAGNETIZATION STUDY OF HIGH TC CERAMIC SUPERCONDUCTORS 1987 "RUHR-UNIVERSITAT BOCHUM, EXPERIMENTALPHYSIK VI, BOCHUM, FEDERAL REPUBLIC JOF GERMANY" "Z.PHYS.B,69(1987)151" "LA,SR,CU,O,Y,BA" 1374 TH1531507 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1988 3 Y123 K 90 92 0.5 91 On the influence of the heat treatment on the diamagnetic and thermodynamic properties of sintered YBa2Cu3O7 1988 "PHYSICA C,153-155(1988)1507" 1375 PHC1531089 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1988 3 Y123 3.817 3.884 11.68 K SP1375 4.2 371 SPECIFIC HEAT STUDY ON BA2YCU3O7 SAMPLES WITH A DOUBLE SUPERCONDUCTING TRANSITION 1988 "INSTITUTE FOR SOLID STATE PHYSICS, UNIVERSITY OF TOKYO, ROPPONGI, MINATO-KU, TOKYO 106, JAPAN" "PHYSICA C,153-155(1988)1089" "BA,Y,CU,O" 1376 PHC1531092 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1988 3 Y123 K 92 92 160 SP1376 6.95 457 SPECIFIC HEAT OF BYA2CU3O7 1988 "MATERIALS AND CHEMICAL SCIENCE DIVISION, LAWRENCE BERKELEY LABORATORY, UNIVERSITY OF CALIFORNIA, BERKELEY, CA 94720, USA" "PHYSICA C,153-155(1988)1092" "Y,BA,CU,O" 1377 PHB1480332 TETRA-I YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1987 2 Y123 3.87 11.63 K "CHARACTERIZATION OF THE HIGH-TX PHASE AND ITS METAMORPHIC PHASES, BA2YCU3O7-Z" 1987 "INSTITUTE FOR SOLID STATE PHYSICS, UNIVERSITY OF TOKYO, ROPPONGI, MINATO-KU, TOKYO 106, JAPAN" "PHYSICA B,148(1987)332" "BA,Y,CU,O" 1378 PHB1480332 TETRA-II YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1987 2 Y123 3.864 11.803 K SP1378 "CHARACTERIZATION OF THE HIGH-TX PHASE AND ITS METAMORPHIC PHASES, BA2YCU3O7-Z" 1987 "INSTITUTE FOR SOLID STATE PHYSICS, UNIVERSITY OF TOKYO, ROPPONGI, MINATO-KU, TOKYO 106, JAPAN" "PHYSICA B,148(1987)332" "BA,Y,CU,O" 1379 PHB1480332 ORTHO-I YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1987 3 Y123 3.825 3.893 11.676 K SP1379 8 0.35 0.82 "CHARACTERIZATION OF THE HIGH-TX PHASE AND ITS METAMORPHIC PHASES, BA2YCU3O7-Z" 1987 "INSTITUTE FOR SOLID STATE PHYSICS, UNIVERSITY OF TOKYO, ROPPONGI, MINATO-KU, TOKYO 106, JAPAN" "PHYSICA B,148(1987)332" "BA,Y,CU,O" 1380 PHB1480332 ORTHO-II YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1987 3 Y123 3.846 3.883 11.763 K SP1380 8 44 12 "CHARACTERIZATION OF THE HIGH-TX PHASE AND ITS METAMORPHIC PHASES, BA2YCU3O7-Z" 1987 "INSTITUTE FOR SOLID STATE PHYSICS, UNIVERSITY OF TOKYO, ROPPONGI, MINATO-KU, TOKYO 106, JAPAN" "PHYSICA B,148(1987)332" "BA,Y,CU,O" 1381 PHC1580102 Pr2CuO4 Pr2Cu1O4 Pr 2 Cu 1 O 4 1989 3.68 -61 I4/MMM K SP1381 2.6 361 0 "PBO,CUO FLUX,PB<1% IF ANY,NO MAGNETIC ORDER :GROWN FROM PBO- AND CUO-BASED FLUX" "SPECIFIC HEAT AND ANISOTROPIC MAGNETIC SUSCEPTIBILITY OF PR(2)CUO(4),ND(2)CUO(4) AND SM(2)CUO(4) CRYSTALS" 1989 4 "SINGLE CRYSTAL ,ANTIFERROMAGNETIC ORDER ,ANISOTRO" "LOS ALAMOS NATIONAL LABORATORY,LOS ALAMOS,NEW MEXICO 87545,USA" "PHYSICA C ,158(1989)102" "PR,CU,O,ND,SM" 1382 PHC1580102 Nd2CuO4 Nd2Cu1O4 Nd 2 Cu 1 O 4 1989 3.56 -62 1 K SP1382 319 0 "PBO,CUO FLUX,PB<1% IF ANY,NO MAGNETIC ORDER :GROWN FROM PBO- AND CUO-BASED FLUX" "SPECIFIC HEAT AND ANISOTROPIC MAGNETIC SUSCEPTIBILITY OF PR(2)CUO(4),ND(2)CUO(4) AND SM(2)CUO(4) CRYSTALS" 1989 4 "SINGLE CRYSTAL ,ANTIFERROMAGNETIC ORDER ,ANISOTRO" "LOS ALAMOS NATIONAL LABORATORY,LOS ALAMOS,NEW MEXICO 87545,USA" "PHYSICA C ,158(1989)102" "PR,CU,O,ND,SM" 1383 PHC1580102 SP FITTING RANGE:15< T<25K Sm2CuO4 Sm2Cu1O4 Sm 2 Cu 1 O 4 1989 5.95 T' K SP1383 164 353 0 "PBO,CUO FLUX,PB<1% IF ANY,NO MAGNETIC ORDER :GROWN FROM PBO- AND CUO-BASED FLUX" "SPECIFIC HEAT AND ANISOTROPIC MAGNETIC SUSCEPTIBILITY OF PR(2)CUO(4),ND(2)CUO(4) AND SM(2)CUO(4) CRYSTALS" 1989 4 "SINGLE CRYSTAL ,ANTIFERROMAGNETIC ORDER ,ANISOTRO" "LOS ALAMOS NATIONAL LABORATORY,LOS ALAMOS,NEW MEXICO 87545,USA" "PHYSICA C ,158(1989)102" "PR,CU,O,ND,SM" 1384 LTP0730241 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 92 92 SP1384 mJ/mol.K2 13.8 356 1 "Low-temperature Specific Heat of YBa2Cu3O7, YBa2Cu3O6, Y2Ba2CuO5, YBa3Cu2O7, BaCuO2, and CuO" 1988 3 "De'partement de Physique de la Matie're Condense'e, Universite' de Gene've, CH-1211 Geneva 4, Swizerland" "J.Low Temp.Phys., 73(1988)241" 1385 LTP0730241 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 92 92 SP1385 mJ/mol.K2 11.7 387 1 "Low-temperature Specific Heat of YBa2Cu3O7, YBa2Cu3O6, Y2Ba2CuO5, YBa3Cu2O7, BaCuO2, and CuO" 1988 3 "De'partement de Physique de la Matie're Condense'e, Universite' de Gene've, CH-1211 Geneva 4, Swizerland" "J.Low Temp.Phys., 73(1988)241" 1386 LTP0730241 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 90.5 90.5 SP1386 mJ/mol.K2 3.9 392 1 "Low-temperature Specific Heat of YBa2Cu3O7, YBa2Cu3O6, Y2Ba2CuO5, YBa3Cu2O7, BaCuO2, and CuO" 1988 3 "De'partement de Physique de la Matie're Condense'e, Universite' de Gene've, CH-1211 Geneva 4, Swizerland" "J.Low Temp.Phys., 73(1988)241" 1387 PHC1590215 FITTING C=AT**(-2)+BT**3+CT**5+DT**7 Tl2Ba2Ca2Cu3Oz Tl2Ba2Ca2Cu3OX Tl 2 Ba 2 Ca 2 Cu 3 O X 2 1989 2 Tl2223 K 125 129 9.8 125 24 290 1 "SPECIFIC HEAT(1-330 K),MEISSNER EFFECT AND MAGNETIC SUSCEPTIBILITY OF TL(2)BA(2)CA(2)CU(3)O(10),TL(2)BA(2)CACU(2)O(8) AND TL(2)BA(2)CUO(6) CERAMIC SAMPLES" 1989 6 "SPECIFIC HEAT ,SUSCEPTIBILITY ,MEISSNER EFFECT" "DEPARTMENT DE PHYSIOUE DE LA MATIERE CONDENSEE,UNIVERSITE DE GENEVE,CH-1211 GENEVE 4,SWIZERLAND" "PHYSICA C.,159(1989)215" "TL,BA,CA,CU,O" 1388 PHC1590215 FITTING C=AT**(-2)+BT**3+CT**5+DT**7 Tl2Ba2CaCu2Oz Tl2Ba2Ca1Cu2OX Tl 2 Ba 2 Ca 1 Cu 2 O X 1 1989 2 Tl2212 K 101 106 8.8 101 51 SP1388 6.8 254 1 "SPECIFIC HEAT(1-330 K),MEISSNER EFFECT AND MAGNETIC SUSCEPTIBILITY OF TL(2)BA(2)CA(2)CU(3)O(10),TL(2)BA(2)CACU(2)O(8) AND TL(2)BA(2)CUO(6) CERAMIC SAMPLES" 1989 6 "SPECIFIC HEAT ,SUSCEPTIBILITY ,MEISSNER EFFECT" "DEPARTMENT DE PHYSIOUE DE LA MATIERE CONDENSEE,UNIVERSITE DE GENEVE,CH-1211 GENEVE 4,SWIZERLAND" "PHYSICA C.,159(1989)215" "TL,BA,CA,CU,O" 1389 SP1590215 FITTING C=AT**(-2)+BT**3+CT**5+DT**7 Tl2Ba2CuOz Tl2Ba2Cu1OX Tl 2 Ba 2 Cu 1 O X 1 1989 -1.73E+25 2 Tl2201 K 10 10 SP1389 238 1 "SPECIFIC HEAT(1-330 K),MEISSNER EFFECT AND MAGNETIC SUSCEPTIBILITY OF TL(2)BA(2)CA(2)CU(3)O(10),TL(2)BA(2)CACU(2)O(8) AND TL(2)BA(2)CUO(6) CERAMIC SAMPLES" 1989 6 "SPECIFIC HEAT ,SUSCEPTIBILITY ,MEISSNER EFFECT" "DEPARTMENT DE PHYSIOUE DE LA MATIERE CONDENSEE,UNIVERSITE DE GENEVE,CH-1211 GENEVE 4,SWIZERLAND" "PHYSICA C.,159(1989)215" "TL,BA,CA,CU,O" 1390 PHC1590215 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1989 3 Y123 K 89.9 0.8 89.9 65 4 438 1 "SPECIFIC HEAT(1-330 K),MEISSNER EFFECT AND MAGNETIC SUSCEPTIBILITY OF TL(2)BA(2)CA(2)CU(3)O(10),TL(2)BA(2)CACU(2)O(8) AND TL(2)BA(2)CUO(6) CERAMIC SAMPLES" 1989 6 "SPECIFIC HEAT ,SUSCEPTIBILITY ,MEISSNER EFFECT" "DEPARTMENT DE PHYSIOUE DE LA MATIERE CONDENSEE,UNIVERSITE DE GENEVE,CH-1211 GENEVE 4,SWIZERLAND" "PHYSICA C.,159(1989)215" "TL,BA,CA,CU,O" 1391 PHC1520495 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1988 5.74 3 Y123 3.818 3.887 11.676 K 91.4 1.8 91.4 66 SP1391 10.6 457 "CUO,Y2O3,BACO3,FE2O3" 1 "CITRATE PYROLYSIS TECHNIQUE,DISSOLVED IN HOT H2NO3-MIXTURE-CAL(950C 14H)-SIN(980C 17H IN O2)-C(50C/H) TO RT" "SPECIFIC HEAT, MAGNETIC SUSCEPTIBILITY AND SUPERCONDUCTIVITY OF YBA2CU3O7-Z DOPED WITH IRON" 1988 "PHYSICA C,152(1988)495" 1392 PHC1520495 MOMENT PER FE ATOM "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.97Fe0.03O7 Y 1 Ba 2 Cu 2.97 Fe 0.03 O 7 1 1988 4.07 3 Y123 3.825 3.885 11.683 K 91.2 1 91.2 66 SP1392 "CUO,Y2O3,BACO3,FE2O3" 1 "CITRATE PYROLYSIS TECHNIQUE,DISSOLVED IN HOT H2NO3-MIXTURE-CAL(950C 14H)-SIN(980C 17H IN O2)-C(50C/H) TO RT" "SPECIFIC HEAT, MAGNETIC SUSCEPTIBILITY AND SUPERCONDUCTIVITY OF YBA2CU3O7-Z DOPED WITH IRON" 1988 "PHYSICA C,152(1988)495" 1393 PHC1520495 MOMENT PER FE ATOM "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.94Fe0.06O7 Y 1 Ba 2 Cu 2.94 Fe 0.06 O 7 1 1988 4.07 3 Y123 3.834 3.881 11.681 K 89.3 1.7 89.3 47 SP1393 "CUO,Y2O3,BACO3,FE2O3" 1 "CITRATE PYROLYSIS TECHNIQUE,DISSOLVED IN HOT H2NO3-MIXTURE-CAL(950C 14H)-SIN(980C 17H IN O2)-C(50C/H) TO RT" "SPECIFIC HEAT, MAGNETIC SUSCEPTIBILITY AND SUPERCONDUCTIVITY OF YBA2CU3O7-Z DOPED WITH IRON" 1988 "PHYSICA C,152(1988)495" 1394 PHC1520495 MOMENT PER FE ATOM "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.88Fe0.12O7 Y 1 Ba 2 Cu 2.88 Fe 0.12 O 7 1 1988 3.96 2 Y123 3.863 11.685 K 77.3 13 77.3 14 SP1394 "CUO,Y2O3,BACO3,FE2O3" 1 "CITRATE PYROLYSIS TECHNIQUE,DISSOLVED IN HOT H2NO3-MIXTURE-CAL(950C 14H)-SIN(980C 17H IN O2)-C(50C/H) TO RT" "SPECIFIC HEAT, MAGNETIC SUSCEPTIBILITY AND SUPERCONDUCTIVITY OF YBA2CU3O7-Z DOPED WITH IRON" 1988 "PHYSICA C,152(1988)495" 1395 PHC1520401 FITTING C=AT**(-2)+BT +CT**3 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1988 5.24 3 Y123 K 90.5 90.5 6.96 413 0.665 "Y2O3,BACO3,CUO" 1 "SINTER 945C,13H-ANNEAL 350C,10H IN AIR" THE HEAT CAPACITY OF YBA2CU3O7 AND YBA2CU3O6 IN RTHE RANGE 0.4TO 20 K: EVIDENCE FOR AN INTRINSIC T-TERM 1988 "PHYSICA C,152(1988)401" 1396 PHC1520401 FITTING C=AT**(-2)+BT +CT**3 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1988 5.39 3 Y123 K 92 92 7.53 439 0.401 "Y2O3,BACO3,CUO" 1 "SINTER 945C,13H-ANNEAL 350C,10H IN AIR" THE HEAT CAPACITY OF YBA2CU3O7 AND YBA2CU3O6 IN RTHE RANGE 0.4TO 20 K: EVIDENCE FOR AN INTRINSIC T-TERM 1988 "PHYSICA C,152(1988)401" 1397 PHC1520401 FITTING C=AT**(-2)+BT +CT**3 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1988 5.2 3 Y123 K 91.5 91.5 6.65 435 0.695 "Y2O3,BACO3,CUO" 1 "SINTER 945C,13H-ANNEAL 350C,10H IN AIR" THE HEAT CAPACITY OF YBA2CU3O7 AND YBA2CU3O6 IN RTHE RANGE 0.4TO 20 K: EVIDENCE FOR AN INTRINSIC T-TERM 1988 "PHYSICA C,152(1988)401" 1398 PHC1520401 FITTING C=AT**(-2)+BT +CT**3 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1988 4.48 3 Y123 K 95 95 7.51 426 6.89 "Y2O3,BACO3,CUO" 1 "SINTER 945C,13H-ANNEAL 350C,10H IN AIR" THE HEAT CAPACITY OF YBA2CU3O7 AND YBA2CU3O6 IN RTHE RANGE 0.4TO 20 K: EVIDENCE FOR AN INTRINSIC T-TERM 1988 "PHYSICA C,152(1988)401" 1399 PHC1520401 FITTING C=AT**(-2)+BT +CT**3 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1988 4.37 3 Y123 K 5.6 330 "Y2O3,BACO3,CUO" 1 "SINTER 945C,13H-ANNEAL 350C,10H IN AIR" THE HEAT CAPACITY OF YBA2CU3O7 AND YBA2CU3O6 IN RTHE RANGE 0.4TO 20 K: EVIDENCE FOR AN INTRINSIC T-TERM 1988 "PHYSICA C,152(1988)401" 1400 PHC1520401 FITTING C=AT**(-2)+BT +CT**3 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1988 4.13 3 Y123 K 91 91 11.5 431 12.85 "Y2O3,BACO3,CUO" 1 "SINTER 945C,13H-ANNEAL 350C,10H IN AIR" THE HEAT CAPACITY OF YBA2CU3O7 AND YBA2CU3O6 IN RTHE RANGE 0.4TO 20 K: EVIDENCE FOR AN INTRINSIC T-TERM 1988 "PHYSICA C,152(1988)401" 1401 PHC1520401 FITTING C=AT**(-2)+BT +CT**3 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1988 4.49 3 Y123 K 92 92 5.63 427 4.7 "Y2O3,BACO3,CUO" 1 "SINTER 945C,13H-ANNEAL 350C,10H IN AIR" THE HEAT CAPACITY OF YBA2CU3O7 AND YBA2CU3O6 IN RTHE RANGE 0.4TO 20 K: EVIDENCE FOR AN INTRINSIC T-TERM 1988 "PHYSICA C,152(1988)401" 1402 PHC1520401 FITTING C=AT**(-2)+BT +CT**3 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1988 4.38 3 Y123 K 4.47 333 "Y2O3,BACO3,CUO" 1 "SINTER 945C,13H-ANNEAL 350C,10H IN AIR" THE HEAT CAPACITY OF YBA2CU3O7 AND YBA2CU3O6 IN RTHE RANGE 0.4TO 20 K: EVIDENCE FOR AN INTRINSIC T-TERM 1988 "PHYSICA C,152(1988)401" 1403 PHC1520065 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K SP1403 5.5 391 1 "LOW-TEMPRETURE SPECIFIC HEAT OF REBA2CU3O7 IN MAGNETIC FIELDSUP TO 5T(RE=Y,PR,SM,EU,GD,DY,HO,ER,TM,YB AND LU)" 1988 "PHYSICA C,152(1988)65" 1404 PHC1520065 EuBa2Cu3O7 Eu1Ba2Cu3O7-Z Eu 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K SP1404 5.5 391 1 "LOW-TEMPRETURE SPECIFIC HEAT OF REBA2CU3O7 IN MAGNETIC FIELDSUP TO 5T(RE=Y,PR,SM,EU,GD,DY,HO,ER,TM,YB AND LU)" 1988 "PHYSICA C,152(1988)65" 1405 PHC1520065 SmBa2Cu3O7 Sm1Ba2Cu3O7-Z Sm 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K SP1405 350 1 "LOW-TEMPRETURE SPECIFIC HEAT OF REBA2CU3O7 IN MAGNETIC FIELDSUP TO 5T(RE=Y,PR,SM,EU,GD,DY,HO,ER,TM,YB AND LU)" 1988 "PHYSICA C,152(1988)65" 1406 PHC1520065 LuBa2Cu3O7 Lu1Ba2Cu3O7-Z Lu 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K SP1406 5.5 292 1 "LOW-TEMPRETURE SPECIFIC HEAT OF REBA2CU3O7 IN MAGNETIC FIELDSUP TO 5T(RE=Y,PR,SM,EU,GD,DY,HO,ER,TM,YB AND LU)" 1988 "PHYSICA C,152(1988)65" 1407 PHC1520065 GdBa2Cu3O7 Gd1Ba2Cu3O7-Z Gd 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K SP1407 5.5 316 1 "LOW-TEMPRETURE SPECIFIC HEAT OF REBA2CU3O7 IN MAGNETIC FIELDSUP TO 5T(RE=Y,PR,SM,EU,GD,DY,HO,ER,TM,YB AND LU)" 1988 "PHYSICA C,152(1988)65" 1408 PHC1520065 YbBa2Cu3O7 Yb1Ba2Cu3O7-Z Yb 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K SP1408 5.5 316 1 "LOW-TEMPRETURE SPECIFIC HEAT OF REBA2CU3O7 IN MAGNETIC FIELDSUP TO 5T(RE=Y,PR,SM,EU,GD,DY,HO,ER,TM,YB AND LU)" 1988 "PHYSICA C,152(1988)65" 1409 PHC1520065 HoBa2Cu3O7 Ho1Ba2Cu3O7-Z Ho 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K SP1409 1 "LOW-TEMPRETURE SPECIFIC HEAT OF REBA2CU3O7 IN MAGNETIC FIELDSUP TO 5T(RE=Y,PR,SM,EU,GD,DY,HO,ER,TM,YB AND LU)" 1988 "PHYSICA C,152(1988)65" 1410 PHC1520065 DyBa2Cu3O7 Dy1Ba2Cu3O7-Z Dy 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K SP1410 1 "LOW-TEMPRETURE SPECIFIC HEAT OF REBA2CU3O7 IN MAGNETIC FIELDSUP TO 5T(RE=Y,PR,SM,EU,GD,DY,HO,ER,TM,YB AND LU)" 1988 "PHYSICA C,152(1988)65" 1411 PHC1520065 ErBa2Cu3O7 Er1Ba2Cu3O7-Z Er 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K SP1411 1 "LOW-TEMPRETURE SPECIFIC HEAT OF REBA2CU3O7 IN MAGNETIC FIELDSUP TO 5T(RE=Y,PR,SM,EU,GD,DY,HO,ER,TM,YB AND LU)" 1988 "PHYSICA C,152(1988)65" 1412 PHC1520065 TmBa2Cu3O7 Tm1Ba2Cu3O7-Z Tm 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K SP1412 1 "LOW-TEMPRETURE SPECIFIC HEAT OF REBA2CU3O7 IN MAGNETIC FIELDSUP TO 5T(RE=Y,PR,SM,EU,GD,DY,HO,ER,TM,YB AND LU)" 1988 "PHYSICA C,152(1988)65" 1413 PHC1560395 "FITTING C(H)/T=A(H)*T**(-3)+B(H)+D*T**2+E*T**4,D=1944NTD**3" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7-Z 7 1 1988 3 Y123 3.823 3.895 11.694 K 91 91 SP1413 5.1 443 "Y2O3,BACO3,CUO" 1 "SIN(930C 12H IN AIR)-SIN(930C 15H IN AIR)-OXYGEN CONTROL(Q,ANN(IN N2),ANN(690C))" SPECIFIC HEAT OF YBA2CU3O7-Z AND BACUO2+C IN MAGNETIC FIELDS UP TO 6 T 1988 "PHYSICA C,156(1988)" 1414 PHC1560395 YBa2Cu3O7 Y1Ba2Cu3O6.31 Y 1 Ba 2 Cu 3 O 7-Z 6.31 1 1988 2 Y123 3.859 11.711 K SP1414 10 394 "Y2O3,BACO3,CUO" 1 "SIN(930C 12H IN AIR)-SIN(930C 15H IN AIR)-OXYGEN CONTROL(Q,ANN(IN N2),ANN(690C))" SPECIFIC HEAT OF YBA2CU3O7-Z AND BACUO2+C IN MAGNETIC FIELDS UP TO 6 T 1988 "PHYSICA C,156(1988)" 1415 PHC1560395 YBa2Cu3O7 Y1Ba2Cu3O6.09 Y 1 Ba 2 Cu 3 O 7-Z 6.09 1 1988 2 Y123 3.856 11.833 K SP1415 4.1 354 "Y2O3,BACO3,CUO" 1 "SIN(930C 12H IN AIR)-SIN(930C 15H IN AIR)-OXYGEN CONTROL(Q,ANN(IN N2),ANN(690C))" SPECIFIC HEAT OF YBA2CU3O7-Z AND BACUO2+C IN MAGNETIC FIELDS UP TO 6 T 1988 "PHYSICA C,156(1988)" 1416 PHC1560395 "Y(Ba,Y)2Cu3O7" Y1.1Ba1.9Cu3O7-Z Y 1.1 Ba 1.9 Cu 3 O 7-Z 1 1988 3 Y123 K 91 91 SP1416 6.2 440 "Y2O3,BACO3,CUO" 1 "SIN(930C 12H IN AIR)-SIN(930C 15H IN AIR)-OXYGEN CONTROL(Q,ANN(IN N2),ANN(690C))" SPECIFIC HEAT OF YBA2CU3O7-Z AND BACUO2+C IN MAGNETIC FIELDS UP TO 6 T 1988 "PHYSICA C,156(1988)" 1417 PHC1560395 Ba1Cu1O2+X Ba 1 Cu 1 O 2+X 1 1988 K SP1417 98 "Y2O3,BACO3,CUO" 1 "SIN(930C 12H IN AIR)-SIN(930C 15H IN AIR)-OXYGEN CONTROL(Q,ANN(IN N2),ANN(690C))" SPECIFIC HEAT OF YBA2CU3O7-Z AND BACUO2+C IN MAGNETIC FIELDS UP TO 6 T 1988 "PHYSICA C,156(1988)" 1418 PHC1520424 YBa2Cu3O7 Y1Ba2Cu3O6.5 Y 1 Ba 2 Cu 3 O 6.5 6.5 1 1988 3 Y123 3.834 3.873 11.738 K 50 50 1.5 SP1418 4 359 1 "SINTERING-QUENCH,PREFERRED ORIENTATION , (885-900C)-SIN(920C 50H IN AIR)-C TO 690C-ANN(690C 24H)-Q-ANN(600-300C 6DAYS IN EVAC. TUBE)" SUPERCONCDUCTING AND MAGNETIC PROPERTIES OF THE OXYGEN-VACANCYORDERED ORTHO-2 PHASE OF BA2YCU3O6.5 1988 "PHYSICA C,152(1988)424" 1419 PHB1480305 YBa2Cu3O7 Y1Ba2Cu3O6.92 Y 1 Ba 2 Cu 3 O 7-Z 6.92 1 1987 3 Y123 K 91 91 SP1419 10 350 "BACO3,CUO,Y2O3" 1 "ANNEAL 480C,1.2BAR O2 , (950C 12H IN AIR)-Q-ANN(480C IN 1.2BAR O2)-C(WITHIN 12H) TO RT" "SPECIFIC HEAT, SUSCEPTIBILITY AND RESISTIVITY MEASUREMENTS OFHIGH-TC SUPERCONDUCTORS YBA2CU3O7-X" 1987 "DEPARTMENT DE RECHERCHE FONDAMENTALE, C.E.N. GRENOBLE, 85X-38041 GRENOBLE CEDEX, FRANCE" "PHYSICA B,148(1987)305" "Y,BA,CU,O" 1420 PHB1480305 YBa2Cu3O7 Y1Ba2Cu3O6 Y 1 Ba 2 Cu 3 O 7-Z 6 1 1987 2 Y123 3.857 11.83 K SP1420 10 350 "BACO3,CUO,Y2O3" 1 "ANNEAL 480C,1.2BAR O2 , (950C 12H IN AIR)-Q-ANN(480C IN 1.2BAR O2)-C(WITHIN 12H) TO RT" "SPECIFIC HEAT, SUSCEPTIBILITY AND RESISTIVITY MEASUREMENTS OFHIGH-TC SUPERCONDUCTORS YBA2CU3O7-X" 1987 "DEPARTMENT DE RECHERCHE FONDAMENTALE, C.E.N. GRENOBLE, 85X-38041 GRENOBLE CEDEX, FRANCE" "PHYSICA B,148(1987)305" "Y,BA,CU,O" 1421 PHB1480305 YBa2Cu3O7 Y1Ba2Cu3O6.66 Y 1 Ba 2 Cu 3 O 7-Z 6.66 1 1987 3 Y123 K 50 50 SP1421 10 350 "BACO3,CUO,Y2O3" 1 "ANNEAL 480C,1.2BAR O2 , (950C 12H IN AIR)-Q-ANN(480C IN 1.2BAR O2)-C(WITHIN 12H) TO RT" "SPECIFIC HEAT, SUSCEPTIBILITY AND RESISTIVITY MEASUREMENTS OFHIGH-TC SUPERCONDUCTORS YBA2CU3O7-X" 1987 "DEPARTMENT DE RECHERCHE FONDAMENTALE, C.E.N. GRENOBLE, 85X-38041 GRENOBLE CEDEX, FRANCE" "PHYSICA B,148(1987)305" "Y,BA,CU,O" 1422 PHB1480442 GAMMA FROM KAIZERO=36.0 DIAMAG CORRECTION YBa2Cu3O7 Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O 7 6.95 1 1987 3 Y123 3.824 3.886 11.676 K 91 0.9 91 SP1422 5.53 389 0.127 0.35 1 "<1% BACUO2,BAO,Y2O3 , STANDARD CERAMICS TECHNIQUE" PHYSICAL PROPERTIES OF SINGLE-PHASE HIGH-TC SUPERCONDUCTOR YBA2CU3O7 1987 "NATUURKUNDIG LABORATORIUM DER UNIVERSITEIT VAN AMSTERDAM, VALCKENIERSTRAAT 65, 1018 XE, AMSTERDAM, THE NETHERLANDS" "PHYSICA B,148(1987)442" "Y,BA,CU,O" 1423 PHB1480360 FITTING C(H)=A(H)/T**2+B(H)*T+B3*T**3+B5*T**5 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1987 3 Y123 K 92 8 92 SP1423 7.1 430 1 "SPECIFIC HEAT OF THE HIGH-TC SUPERCONDUCTORS (LA,M)2CUO4 AND YBA2CU3O7 IN MAGNETIC FIELDS" 1987 "MATERIALS AND CHEMICAL SCIENCES, LAWRENCE BERKELEY, UNIVERSITYOF CALIFORNIA, BERKELEY, CA 94720, USA" "PHYSICA B,148(1987)360" "LA,CA,CU,O,SR,Y,BA" 1424 PHB1480155 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1987 3 Y123 K 8.2 161 1 RBA2CU3O7-Z (R=RARE EATTH) HIGH-TC MAGNETIC SUPERCONDUCTORS 1987 "DEPARTMENT OF PHYDICS AND INSTUTUTE FOR PURE AND APPLIED PHYSICAL SCIENCES, UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CA 92093, USA" "PHYSICA B,148(1987)155" "R,BA,CU,O" 1425 PHB1480155 HoBa2Cu3O7 Ho1Ba2Cu3O7-Z Ho 1 Ba 2 Cu 3 O 7-Z 1 1987 3 Y123 K 2.4 1 RBA2CU3O7-Z (R=RARE EATTH) HIGH-TC MAGNETIC SUPERCONDUCTORS 1987 "DEPARTMENT OF PHYDICS AND INSTUTUTE FOR PURE AND APPLIED PHYSICAL SCIENCES, UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CA 92093, USA" "PHYSICA B,148(1987)155" "R,BA,CU,O" 1426 PHB1480155 TmBa2Cu3O7 Tm1Ba2Cu3O7-Z Tm 1 Ba 2 Cu 3 O 7-Z 1 1987 3 Y123 K 2.8 1 RBA2CU3O7-Z (R=RARE EATTH) HIGH-TC MAGNETIC SUPERCONDUCTORS 1987 "DEPARTMENT OF PHYDICS AND INSTUTUTE FOR PURE AND APPLIED PHYSICAL SCIENCES, UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CA 92093, USA" "PHYSICA B,148(1987)155" "R,BA,CU,O" 1427 PHB1480155 YbBa2Cu3O7 Yb1Ba2Cu3O7-Z Yb 1 Ba 2 Cu 3 O 7-Z 1 1987 3 Y123 K 2.7 1 RBA2CU3O7-Z (R=RARE EATTH) HIGH-TC MAGNETIC SUPERCONDUCTORS 1987 "DEPARTMENT OF PHYDICS AND INSTUTUTE FOR PURE AND APPLIED PHYSICAL SCIENCES, UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CA 92093, USA" "PHYSICA B,148(1987)155" "R,BA,CU,O" 1428 PHB1480155 EuBa2Cu3O7 Eu1Ba2Cu3O7-Z Eu 1 Ba 2 Cu 3 O 7-Z 1 1987 3 Y123 K 2.86 12.9 370 1 RBA2CU3O7-Z (R=RARE EATTH) HIGH-TC MAGNETIC SUPERCONDUCTORS 1987 "DEPARTMENT OF PHYDICS AND INSTUTUTE FOR PURE AND APPLIED PHYSICAL SCIENCES, UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CA 92093, USA" "PHYSICA B,148(1987)155" "R,BA,CU,O" 1429 PRB0368816 YBa2Cu3O7 Y1Ba2Cu3OX Y 1 Ba 2 Cu 3 O X 1 1987 3 Y123 K 1.2 247 1 SUPERCONDUCTING AND NONSUPERCONDUCTING PHASES OF Y(1)BA(2)CU(3)O(X): MODIFICATIONS AT THE HIGH-TEMPERATURE PHASE TRANSITION 1987 11 "PHASE TRANSITION ,SPECIFIC HEAT ,RES" "DEPARTMENT OF PHYSICS AND CENTER FEO MATERIALS RESEARCH AND TECHNOLOGY,FLORIDA STATE UNIVERSITY,TALLAHASSEE,FLORIDA" "PHYS.REV.B,36(1987)8816" "Y,BA,CU,O" 1430 PRB0368816 YBa2Cu3O7 Y1Ba2Cu3OX Y 1 Ba 2 Cu 3 O X 1 1987 3 Y123 K 9 248 1 SUPERCONDUCTING AND NONSUPERCONDUCTING PHASES OF Y(1)BA(2)CU(3)O(X): MODIFICATIONS AT THE HIGH-TEMPERATURE PHASE TRANSITION 1987 11 "PHASE TRANSITION ,SPECIFIC HEAT ,RES" "DEPARTMENT OF PHYSICS AND CENTER FEO MATERIALS RESEARCH AND TECHNOLOGY,FLORIDA STATE UNIVERSITY,TALLAHASSEE,FLORIDA" "PHYS.REV.B,36(1987)8816" "Y,BA,CU,O" 1431 SSC0640247 YBa2Cu3O7 Y1Ba2Cu3OX Y 1 Ba 2 Cu 3 O X 1 1987 3 Y123 K 93 93 15 1000 33 383 1 SIN(950C)-Q-ANN(500C IN O2)-C THERMAL AND MAGNETIC PROPERTIES OF SOME YBA2CU3O7-Z SAMPLES 1987 SOLID STATE COMMUN.64(1987)247 "Y,BA,CU,O" 1432 PRB0371580 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4-Z La 1.8 Sr 0.2 Cu 1 O 4-Z 1 1988 2 T K 35 35 SP1432 3.35 376 "LA(NO3)3,SR(NO3)2,CU(NO3)2" 0 COPRECIPITATION "LOW-TEMPERATURE SPECIFIC HEAT OF THE HIGH-TC SUPERCONDUCTORS LA(1.8)SR(0.2)CU(1)O(4-Z) AND R(1)BA(2)CU(3)O(7-Z)(R=Y,EU,HO,TM,AND YB)" 1988 2 SPECIFIC HEAT "DEPARTMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA" "PHYS.REV.B,37(1988)1580" "LA,SR,CU,O,R,BA,CU,O" 1433 PRB0371580 YBa2Cu3O7 Y1Ba2Cu3O1 Y 1 Ba 2 Cu 3 O 7-Z 1 1 1988 3 Y123 K SP1433 8.21 383 "LA(NO3)3,SR(NO3)2,CU(NO3)2" 0 COPRECIPITATION "LOW-TEMPERATURE SPECIFIC HEAT OF THE HIGH-TC SUPERCONDUCTORS LA(1.8)SR(0.2)CU(1)O(4-Z) AND R(1)BA(2)CU(3)O(7-Z)(R=Y,EU,HO,TM,AND YB)" 1988 2 SPECIFIC HEAT "DEPARTMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA" "PHYS.REV.B,37(1988)1580" "LA,SR,CU,O,R,BA,CU,O" 1434 PRB0371580 HoBa2Cu3O7 Ho1Ba2Cu3O1 Ho 1 Ba 2 Cu 3 O 7-Z 1 1 1988 3 Y123 K SP1434 "LA(NO3)3,SR(NO3)2,CU(NO3)2" 0 COPRECIPITATION "LOW-TEMPERATURE SPECIFIC HEAT OF THE HIGH-TC SUPERCONDUCTORS LA(1.8)SR(0.2)CU(1)O(4-Z) AND R(1)BA(2)CU(3)O(7-Z)(R=Y,EU,HO,TM,AND YB)" 1988 2 SPECIFIC HEAT "DEPARTMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA" "PHYS.REV.B,37(1988)1580" "LA,SR,CU,O,R,BA,CU,O" 1435 PRB0371580 TmBa2Cu3O7 Tm1Ba2Cu3O1 Tm 1 Ba 2 Cu 3 O 7-Z 1 1 1988 3 Y123 K SP1435 "LA(NO3)3,SR(NO3)2,CU(NO3)2" 0 COPRECIPITATION "LOW-TEMPERATURE SPECIFIC HEAT OF THE HIGH-TC SUPERCONDUCTORS LA(1.8)SR(0.2)CU(1)O(4-Z) AND R(1)BA(2)CU(3)O(7-Z)(R=Y,EU,HO,TM,AND YB)" 1988 2 SPECIFIC HEAT "DEPARTMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA" "PHYS.REV.B,37(1988)1580" "LA,SR,CU,O,R,BA,CU,O" 1436 PRB0371580 YbBa2Cu3O7 Yb1Ba2Cu3O1 Yb 1 Ba 2 Cu 3 O 7-Z 1 1 1988 3 Y123 K SP1436 "LA(NO3)3,SR(NO3)2,CU(NO3)2" 0 COPRECIPITATION "LOW-TEMPERATURE SPECIFIC HEAT OF THE HIGH-TC SUPERCONDUCTORS LA(1.8)SR(0.2)CU(1)O(4-Z) AND R(1)BA(2)CU(3)O(7-Z)(R=Y,EU,HO,TM,AND YB)" 1988 2 SPECIFIC HEAT "DEPARTMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA" "PHYS.REV.B,37(1988)1580" "LA,SR,CU,O,R,BA,CU,O" 1437 PRB0371580 EuBa2Cu3O7 Eu1Ba2Cu3O7-Z Eu 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K SP1437 12.9 370 "LA(NO3)3,SR(NO3)2,CU(NO3)2" 0 COPRECIPITATION "LOW-TEMPERATURE SPECIFIC HEAT OF THE HIGH-TC SUPERCONDUCTORS LA(1.8)SR(0.2)CU(1)O(4-Z) AND R(1)BA(2)CU(3)O(7-Z)(R=Y,EU,HO,TM,AND YB)" 1988 2 SPECIFIC HEAT "DEPARTMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA" "PHYS.REV.B,37(1988)1580" "LA,SR,CU,O,R,BA,CU,O" 1438 PLA1290185 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1988 3 Y123 K 0 ANN(450C 12H IN O2) LOW TEMPERATURE SPECIFIC HEAT OF YBA2CU3O7 SINGLE CRYSTALS 1988 5 "PHYS.LETT.A,129(1988)185" "Y,BA,CU,O" 1439 JJP0270333 ORTHO-I GdBa2Cu3O7 Gd1Ba2Cu3O7-Z Gd 1 Ba 2 Cu 3 O 7-Z 3 1988 2.26 3 Y123 K 92.7 92.7 SP1439 mJ/mol.K2 4.57 355 "GD2O3,BACO3,CUO,FE2O3" 0 "CAL(930C 12H)-SIN(930C 12H)-SIN(940C 12H)-C,ALL IN O2" Specific heat on metamorphic and iron-doped GdBa2Cu3O7-z 1988 "Department of Electrical and Electronic Engineering, Toyohashi University of Technology, Japan" "Jpn.J.Appl.Phys., 27(1988)L333" 1440 JJP0270333 ORTHO-II GdBa2Cu3O7 Gd1Ba2Cu3O7-Z Gd 1 Ba 2 Cu 3 O 7-Z 1 1988 2.27 3 Y123 K 49 49 SP1440 mJ/mol.K2 4.46 326 "GD2O3,BACO3,CUO,FE2O3" 0 "CAL(930C 12H)-SIN(930C 12H)-SIN(940C 12H)-C,ALL IN O2" Specific heat on metamorphic and iron-doped GdBa2Cu3O7-z 1988 "Department of Electrical and Electronic Engineering, Toyohashi University of Technology, Japan" "Jpn.J.Appl.Phys., 27(1988)L333" 1441 JJP0270333 TETRA-II GdBa2Cu3O7 Gd1Ba2Cu3O7-Z Gd 1 Ba 2 Cu 3 O 7-Z 1 1988 2.23 2 Y123 K SP1441 mJ/mol.K2 6.28 313 "GD2O3,BACO3,CUO,FE2O3" 0 "CAL(930C 12H)-SIN(930C 12H)-SIN(940C 12H)-C,ALL IN O2" Specific heat on metamorphic and iron-doped GdBa2Cu3O7-z 1988 "Department of Electrical and Electronic Engineering, Toyohashi University of Technology, Japan" "Jpn.J.Appl.Phys., 27(1988)L333" 1442 JJP0270333 "GdBa2(Cu,Fe)3O7" Gd1Ba2Cu2.925Fe0.075O7-Z Gd 1 Ba 2 Cu 2.925 Fe 0.075 O 7-Z 1 1988 2.23 3 Y123 K 81.3 81.3 SP1442 mJ/mol.K2 21.7 348 "GD2O3,BACO3,CUO,FE2O3" 0 "CAL(930C 12H)-SIN(930C 12H)-SIN(940C 12H)-C,ALL IN O2" Specific heat on metamorphic and iron-doped GdBa2Cu3O7-z 1988 "Department of Electrical and Electronic Engineering, Toyohashi University of Technology, Japan" "Jpn.J.Appl.Phys., 27(1988)L333" 1443 JJP0270333 "GdBa2(Cu,Fe)3O7" Gd1Ba2Cu2.85Fe0.15O7-Z Gd 1 Ba 2 Cu 2.85 Fe 0.15 O 7-Z 1 1988 2.2 3 Y123 K 63.1 63.1 SP1443 mJ/mol.K2 41.4 347 "GD2O3,BACO3,CUO,FE2O3" 0 "CAL(930C 12H)-SIN(930C 12H)-SIN(940C 12H)-C,ALL IN O2" Specific heat on metamorphic and iron-doped GdBa2Cu3O7-z 1988 "Department of Electrical and Electronic Engineering, Toyohashi University of Technology, Japan" "Jpn.J.Appl.Phys., 27(1988)L333" 1444 JJP0270333 "GdBa2(Cu,Fe)3O7" Gd1Ba2Cu2.7Fe0.3O7-Z Gd 1 Ba 2 Cu 2.7 Fe 0.3 O 7-Z 1 1988 2.14 3 Y123 K 2.9 2.9 SP1444 mJ/mol.K2 73.6 349 "GD2O3,BACO3,CUO,FE2O3" 0 "CAL(930C 12H)-SIN(930C 12H)-SIN(940C 12H)-C,ALL IN O2" Specific heat on metamorphic and iron-doped GdBa2Cu3O7-z 1988 "Department of Electrical and Electronic Engineering, Toyohashi University of Technology, Japan" "Jpn.J.Appl.Phys., 27(1988)L333" 1445 JPF0180009 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 88.9 88.9 "Y2O3,BACO3,CUO" 1 SIN(900C 12H IN AIR)-ANN(600C+500C+400C 12H)-FC MEASUREMENTS OF THE LOW TEMPERATURE HEAT CAPACITY OF YBA2CU3O7-Y IN MAGNETIC FIELDS UP TO 4.5T 1988 J.PHYS. F:MET.PHYS.18(1988)L9 "Y,BA,CU,O" 1446 JPF0180009 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 89.2 89.2 8.27 465 "Y2O3,BACO3,CUO" 1 SIN(900C 12H IN AIR)-ANN(600C+500C+400C 12H)-FC MEASUREMENTS OF THE LOW TEMPERATURE HEAT CAPACITY OF YBA2CU3O7-Y IN MAGNETIC FIELDS UP TO 4.5T 1988 J.PHYS. F:MET.PHYS.18(1988)L9 "Y,BA,CU,O" 1447 JPF0180009 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 90.1 90.1 "Y2O3,BACO3,CUO" 1 SIN(900C 12H IN AIR)-ANN(600C+500C+400C 12H)-FC MEASUREMENTS OF THE LOW TEMPERATURE HEAT CAPACITY OF YBA2CU3O7-Y IN MAGNETIC FIELDS UP TO 4.5T 1988 J.PHYS. F:MET.PHYS.18(1988)L9 "Y,BA,CU,O" 1448 PRB0377917 C=7.326*T+0.315*T**3+0.00222*T**5 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 92 2.5 92 7.326 431 1 SCHOTTKY ANOMALY IN THE HEAT CAPACITY OF THE HIGH-TC SUPERCNDUCTOR Y(1)BA(2)CU(3)O(7) 1988 5 SPECIFIC HEAT "DIVISION OF APPLIED PHYSICS,COMMONWEALTH SCIENTIFIC AND INDUSTRIAL RESEARCH ORGANIZATION,LINDFIELD,AUSTRALIA" "PHYS.REV.B,37(1988)7917" "Y,BA,CU,O" 1449 PRB0377917 C=10.273*T**(-2)+11.380*T+0.0248*T**3 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 91 2.5 91 11.38 1 SCHOTTKY ANOMALY IN THE HEAT CAPACITY OF THE HIGH-TC SUPERCNDUCTOR Y(1)BA(2)CU(3)O(7) 1988 5 SPECIFIC HEAT "DIVISION OF APPLIED PHYSICS,COMMONWEALTH SCIENTIFIC AND INDUSTRIAL RESEARCH ORGANIZATION,LINDFIELD,AUSTRALIA" "PHYS.REV.B,37(1988)7917" "Y,BA,CU,O" 1450 SSC0661101 Bi4.1Sr2.4Ca2.4Cu4OX Bi 4.1 Sr 2.4 Ca 2.4 Cu 4 O X 1 1988 2 5.4 30.79 K 70 75 110 75 SP1450 290 "BI2O3,SRCO3,CACO3,CUO" 1 "IMPURITY=(CA,SR)2CUOX,BI-SR-CA-OX, HEAT(820C 12H IN AIR)-SIN(820C 375H)-C TO 450C IN FURNACE" "ABSENCE OF THE T-LINEAR TERM IN LOW TEMPERATURE SPECIFIC HEAT OF HIGH-TC OXIDE,BI-SR-CA-CU-O SYSTEM" 1988 6 "SPECIFIC HEAT ,RESISTIVITY ,MAGNETIZ" "INSTITUTE FOR MOLECULAR SCIENCE,MYODAIJI,OKAZAKI" "SOLID STATE COMMUN.,66(1988)1101" "BI,SR,CA,CU,O" 1451 LES1510191 "FOR DEBYET/45< T,DEVIATION FROM T**3 LAW" Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 2 1989 2 Bi2212 K 7 233 1 LOW-TEMPERATURE SPECIFIC HEAT OF BI2SU2CACU2O8: COMPARISON WITH SOME OTHER LAYERED OXIDES 1989 "OB, RESEARCH CENTER, YORKTOWN HEIGHTS, NY 10598 (U.S.A.)" "J.LESS-COMMON METALES,151(1989)191" "BI,CR,CA,CU,O" 1452 LES1510191 Sr14Cu24O41 Sr 14 Cu 24 O 41 1989 K 100 296 1 LOW-TEMPERATURE SPECIFIC HEAT OF BI2SU2CACU2O8: COMPARISON WITH SOME OTHER LAYERED OXIDES 1989 "OB, RESEARCH CENTER, YORKTOWN HEIGHTS, NY 10598 (U.S.A.)" "J.LESS-COMMON METALES,151(1989)191" "BI,CR,CA,CU,O" 1453 LTP0730241 "(Y,Ba)Ba2Cu3O7" Y0.9Ba2.1Cu3O7-Z Y 0.9 Ba 2.1 Cu 3 O 7-Z 1988 Y123 K 92 92 SP1453 63 372 "Low-temperature Specific Heat of YBa2Cu3O7, YBa2Cu3O6, Y2Ba2CuO5, YBa3Cu2O7, BaCuO2, and CuO" 1988 3 "De'partement de Physique de la Matie're Condense'e, Universite' de Gene've, CH-1211 Geneva 4, Swizerland" "J.Low Temp.Phys., 73(1988)241" 1454 LTP0730241 "Y(Ba,Y)2Cu3O7" Y1.1Ba1.9Cu3O7-Z Y 1.1 Ba 1.9 Cu 3 O 7-Z 1988 Y123 K 92 92 SP1454 14.1 362 "Low-temperature Specific Heat of YBa2Cu3O7, YBa2Cu3O6, Y2Ba2CuO5, YBa3Cu2O7, BaCuO2, and CuO" 1988 3 "De'partement de Physique de la Matie're Condense'e, Universite' de Gene've, CH-1211 Geneva 4, Swizerland" "J.Low Temp.Phys., 73(1988)241" 1455 LTP0730241 Y2BaCuO5 Y2Ba1Cu1O5 Y 2 Ba 1 Cu 1 O 5 1988 Y211 K SP1455 9 292 "Low-temperature Specific Heat of YBa2Cu3O7, YBa2Cu3O6, Y2Ba2CuO5, YBa3Cu2O7, BaCuO2, and CuO" 1988 3 "De'partement de Physique de la Matie're Condense'e, Universite' de Gene've, CH-1211 Geneva 4, Swizerland" "J.Low Temp.Phys., 73(1988)241" 1456 LTP0730241 YBa3Cu2O7 Y1Ba3Cu2O7 Y 1 Ba 3 Cu 2 O 7 1988 K SP1456 28.6 244 "Low-temperature Specific Heat of YBa2Cu3O7, YBa2Cu3O6, Y2Ba2CuO5, YBa3Cu2O7, BaCuO2, and CuO" 1988 3 "De'partement de Physique de la Matie're Condense'e, Universite' de Gene've, CH-1211 Geneva 4, Swizerland" "J.Low Temp.Phys., 73(1988)241" 1457 LTP0730241 BaCuO2 Ba1Cu1O2+X Ba 1 Cu 1 O 2+X 1988 K SP1457 52 278 "Low-temperature Specific Heat of YBa2Cu3O7, YBa2Cu3O6, Y2Ba2CuO5, YBa3Cu2O7, BaCuO2, and CuO" 1988 3 "De'partement de Physique de la Matie're Condense'e, Universite' de Gene've, CH-1211 Geneva 4, Swizerland" "J.Low Temp.Phys., 73(1988)241" 1458 LTP0730241 BaCuO2 Ba1Cu1O2+X Ba 1 Cu 1 O 2+X 1988 K SP1458 140 291 "Low-temperature Specific Heat of YBa2Cu3O7, YBa2Cu3O6, Y2Ba2CuO5, YBa3Cu2O7, BaCuO2, and CuO" 1988 3 "De'partement de Physique de la Matie're Condense'e, Universite' de Gene've, CH-1211 Geneva 4, Swizerland" "J.Low Temp.Phys., 73(1988)241" 1459 LTP0730241 BaCuO2 Ba1Cu1O2+X Ba 1 Cu 1 O 2+X 1988 K SP1459 107 290 "Low-temperature Specific Heat of YBa2Cu3O7, YBa2Cu3O6, Y2Ba2CuO5, YBa3Cu2O7, BaCuO2, and CuO" 1988 3 "De'partement de Physique de la Matie're Condense'e, Universite' de Gene've, CH-1211 Geneva 4, Swizerland" "J.Low Temp.Phys., 73(1988)241" 1460 LTP0730241 BaCuO2 Ba1Cu1O2+X Ba 1 Cu 1 O 2+X 1988 K SP1460 151 293 "Low-temperature Specific Heat of YBa2Cu3O7, YBa2Cu3O6, Y2Ba2CuO5, YBa3Cu2O7, BaCuO2, and CuO" 1988 3 "De'partement de Physique de la Matie're Condense'e, Universite' de Gene've, CH-1211 Geneva 4, Swizerland" "J.Low Temp.Phys., 73(1988)241" 1461 SSC0701155 BA0.58K0.42BIO3.03 BY NEUTRON DIFFR. "(Ba,K)BiO3" Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 1 1989 1 BKBO 4.29 K 27 27 22 0.39 SP1461 210 "BANO3,BI2O3,KNO3" 1 (BANO3+BI2O3)-(700C 12H)-MIX WITH KNO3-(700C 1H IN N2)-ANN(450C 2H+375C 4H IN O2)-C SPECIFIC HEAT OF THE CUBIC HIGH-TC SUPERCONDUCTOR BA0.6K0.4BIO3 1989 "LOS ALAMOS NATIONAL LABORATORY, LOS ALAMOS, NM 87545" "SOLID STATE COMMUN,70(1989)1155" "BA,K,BI,O" 1464 SSC0630721 "(La,Ba)2CuO4" La1.8Ba0.2Cu1O4-Y La 1.8 Ba 0.2 Cu 1 O 4-Y 1987 T K 31 35 31 67 SP1464 6 330 0 MAGNETIC AND THERMAL MEASUREMENTS ON HIGH-TC (LA0.9BA0.1)2CUO4-Y 1987 "LOS ALAMOS NATIONAL LABORATORY, LOS ALAMOS, NM 87545" "SOLID STATE COMMUN,063(1987)721" "LA,BA,CU,O" 1465 SSC0650111 La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 1988 0.21 37.5 240 3 T 5.358 5.403 13.181 K SP1465 1 320 0 PBO BASED FLUX NOVEL PHASE TRANSITION IN NON-ANTIFERROMAGNETICALLY ORDERED CRYSTALS OF LA2CUO4 1988 "LOS ALAMOS NATIONAL LABORATORY, LOS ALAMOS, NM 87545" "SOLID STATE COMMUN,065(1988)111" "LA,CU,O" 1466 SSC0630635 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4-Z La 1.8 Sr 0.2 Cu 1 O 4-Z 1987 T K 27 38 32.5 4 367 0 SIN(1100C 12H)-ANN(925C 18-24H IN 1ATM O2) "HIGH TEMPERATUER SUPERCONDUCTIVITY IN(M1-XM'X)2CUO4-Z AND RELATED COMPOUNDS(M=Y,LA,EU,SM; M=BA,SR)" 1987 "DEPERTMENT OF PHYSICS AND INSTITUTE FO PURE AND APPLIEDPHYSICAL SCIENSE UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CA 92093" "SOLID STATE COMMUN,063(1987)635" "CU,O,Y,LA,EU,SM,BA,SR" 1467 TH1380136 "LATC=37,30A TWO PHASES" "(Bi,Pb,Sb)2Sr2Ca2Cu3Oz" Bi1.7Pb0.2Sb0.1Sr2Ca2Cu3OZ Bi 1.7 Pb 0.2 Sb 0.1 Sr 2 Ca 2 Cu 3 O Z 2 1989 Bi2223 K 116 116 181 2.43 "BI2O3,CU0,SB2O5,PBO,SRCO3,CACO3" 1 "MATERIALS CONTAIN CU3,BI-PB-SB-SR-CA-CU-O , MIXTURE-HEAT(830C 15H)-SIN(865C 60H)-FC IN AIR" THE INFLUENCE OF PB COMPOSITION ON THE UPPER CRITICAL MAGNETICFIELD OF BI1.9-XPBXSB0.1SR2CA2CU3OY SYSTEM 1989 6 "UPPER CRITICAL FIELD,PB CONTENT ,MAGNETORESISTANCE" "DEPARTMENT OF PHYSICS, UNIVERSITY OF SCIENCE AND TECHNOLOGY OFCHINA, HEFEI, PR CHINA" "PHYS. A,138(1989)136" "BI,PB,SB,SR,CA,CU,O" 1468 TH1380136 "LATC=37,30A TWO PHASES" "(Bi,Pb,Sb)2Sr2Ca2Cu3Oz" Bi1.6Pb0.3Sb0.1Sr2Ca2Cu3OZ Bi 1.6 Pb 0.3 Sb 0.1 Sr 2 Ca 2 Cu 3 O Z 2 1989 Bi2223 K 116 116 370 4.9 "BI2O3,CU0,SB2O5,PBO,SRCO3,CACO3" 1 "MATERIALS CONTAIN CU3,BI-PB-SB-SR-CA-CU-O , MIXTURE-HEAT(830C 15H)-SIN(865C 60H)-FC IN AIR" THE INFLUENCE OF PB COMPOSITION ON THE UPPER CRITICAL MAGNETICFIELD OF BI1.9-XPBXSB0.1SR2CA2CU3OY SYSTEM 1989 6 "UPPER CRITICAL FIELD,PB CONTENT ,MAGNETORESISTANCE" "DEPARTMENT OF PHYSICS, UNIVERSITY OF SCIENCE AND TECHNOLOGY OFCHINA, HEFEI, PR CHINA" "PHYS. A,138(1989)136" "BI,PB,SB,SR,CA,CU,O" 1469 TH1380136 "LATC=37,30A TWO PHASES" "(Bi,Pb,Sb)2Sr2Ca2Cu3Oz" Bi1.5Pb0.4Sb0.1Sr2Ca2Cu3OZ Bi 1.5 Pb 0.4 Sb 0.1 Sr 2 Ca 2 Cu 3 O Z 2 1989 Bi2223 K 110 110 416 5.36 "BI2O3,CU0,SB2O5,PBO,SRCO3,CACO3" 1 "MATERIALS CONTAIN CU3,BI-PB-SB-SR-CA-CU-O , MIXTURE-HEAT(830C 15H)-SIN(865C 60H)-FC IN AIR" THE INFLUENCE OF PB COMPOSITION ON THE UPPER CRITICAL MAGNETICFIELD OF BI1.9-XPBXSB0.1SR2CA2CU3OY SYSTEM 1989 6 "UPPER CRITICAL FIELD,PB CONTENT ,MAGNETORESISTANCE" "DEPARTMENT OF PHYSICS, UNIVERSITY OF SCIENCE AND TECHNOLOGY OFCHINA, HEFEI, PR CHINA" "PHYS. A,138(1989)136" "BI,PB,SB,SR,CA,CU,O" 1470 TH1380136 "LATC=37,30A TWO PHASES" "(Bi,Pb,Sb)2Sr2Ca2Cu3Oz" Bi1.4Pb0.5Sb0.1Sr2Ca2Cu3OZ Bi 1.4 Pb 0.5 Sb 0.1 Sr 2 Ca 2 Cu 3 O Z 2 1989 Bi2223 K 109 109 195 2.5 "BI2O3,CU0,SB2O5,PBO,SRCO3,CACO3" 1 "MATERIALS CONTAIN CU3,BI-PB-SB-SR-CA-CU-O , MIXTURE-HEAT(830C 15H)-SIN(865C 60H)-FC IN AIR" THE INFLUENCE OF PB COMPOSITION ON THE UPPER CRITICAL MAGNETICFIELD OF BI1.9-XPBXSB0.1SR2CA2CU3OY SYSTEM 1989 6 "UPPER CRITICAL FIELD,PB CONTENT ,MAGNETORESISTANCE" "DEPARTMENT OF PHYSICS, UNIVERSITY OF SCIENCE AND TECHNOLOGY OFCHINA, HEFEI, PR CHINA" "PHYS. A,138(1989)136" "BI,PB,SB,SR,CA,CU,O" 1471 PRB0368780 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1987 2 T K 41.5 41.5 SP1471 4 400 0 "<5% LA2SRCU2O6, CAL(1130C IN AIR)-ANN(1000C 12H IN O2)" SPECIFIC HEAT OF LA(1.8)SR(0.2)CU(1)O(4): ANOMALY AT THE SUPERCONDUCTING TRANSITION 1987 12 SPECIFIC HEAT "CENTRO ATOMICO BARILOCHE,RIO NEGRO,ARGENTINA" "PHYS.REV.B,36(1987)8780" "LA,SR,CU,O" 1472 JPF0170329 La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 1987 T K SP1472 0.16 406 0 EVIDENCE ON THE NATURE OF SUPERCONDUCTIVITY IN LA1.85BA0.15CUO4 FROM SPECIFIC HEAT MEASUREMENTS 1987 "SCHOOL OF MATHEMATICAL AND PHYSICAL SCEINCES, UNIVERSITY OF SUSSEX, BRIGHTON BN19QH, UK" "J.PHYS.F,17(1987)L329" "LA,BA,CU,O" 1473 JPF0170329 "(La,Ba)2CuO4" La1.85Ba0.15Cu1O4 La 1.85 Ba 0.15 Cu 1 O 4 1987 T K 29 29 SP1473 0.76 418 0 EVIDENCE ON THE NATURE OF SUPERCONDUCTIVITY IN LA1.85BA0.15CUO4 FROM SPECIFIC HEAT MEASUREMENTS 1987 "SCHOOL OF MATHEMATICAL AND PHYSICAL SCEINCES, UNIVERSITY OF SUSSEX, BRIGHTON BN19QH, UK" "J.PHYS.F,17(1987)L329" "LA,BA,CU,O" 1474 SSC0651555 THER.EXPAN.=1.03E-9*T+5.75E-11*T**3 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 87 90 88.5 SP1474 9.4 346 LOW TEMPERATURE THERMAL EXPANSION AND SPECIFIC HEAT OF A HIGH TC CERAMIC Y(1)BA(2)CU(3)O(7-Z) 1988 4 "SPECIFIC HEAT ,THERMAL EXPANS" "DPTO.DE FISICA DE LA MATERIA CONDENSADA,C-III UNIVERSIDAD AUTONOMA DE MADRID CANTOBLANCO" "SOLID STATE COMMUN.,65(1988)1555" "Y,BA,CU,O" 1475 PRB03912391 0.75X0.75X0.1 MM3 Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O10+Z Tl 2 Ba 2 Ca 2 Cu 3 O 10+Z 3 1989 2 Tl2223 K 105 105 SP1475 1 242 9 LOW-TEMPERATURE SPECIFIC HEAT OF SINGLE-CRYSTAL BI(2)CASR(2)CU(2)O(8) AND TL(2)CA(2)BA(2)CU(3)O(10) 1989 6 "SPECIFIC-HEAT ,SINGLE CRYSTALS" "DEPARTMENT OF APPLIED PHYSICS,STANFORD UNIVERSITY,STANFORD,CALIFORNIA 94305" "Phys.Rev.B,39(1989)12391" "BI,CA,SR,CU,O,TL,BA" 1476 PRB03912391 Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O10+Z Tl 2 Ba 2 Ca 2 Cu 3 O 10+Z 1 1989 2 Tl2223 K 105 105 SP1476 5 225 9 LOW-TEMPERATURE SPECIFIC HEAT OF SINGLE-CRYSTAL BI(2)CASR(2)CU(2)O(8) AND TL(2)CA(2)BA(2)CU(3)O(10) 1989 6 "SPECIFIC-HEAT ,SINGLE CRYSTALS" "DEPARTMENT OF APPLIED PHYSICS,STANFORD UNIVERSITY,STANFORD,CALIFORNIA 94305" "Phys.Rev.B,39(1989)12391" "BI,CA,SR,CU,O,TL,BA" 1477 PRB03912391 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1989 2 Bi2212 K 98 98 SP1477 0.6 230 9 LOW-TEMPERATURE SPECIFIC HEAT OF SINGLE-CRYSTAL BI(2)CASR(2)CU(2)O(8) AND TL(2)CA(2)BA(2)CU(3)O(10) 1989 6 "SPECIFIC-HEAT ,SINGLE CRYSTALS" "DEPARTMENT OF APPLIED PHYSICS,STANFORD UNIVERSITY,STANFORD,CALIFORNIA 94305" "Phys.Rev.B,39(1989)12391" "BI,CA,SR,CU,O,TL,BA" 1478 PRB03811942 "TC=110K + 80K, TWO PHASES" Bi2Sr2Ca6Cu8O19 Bi2Sr2Ca6Cu8O19 Bi 2 Sr 2 Ca 6 Cu 8 O 19 1988 Bi2268 K 80 80 293 0 SPECIFIC-HEAT MEASUREMENTS ON SUPERCONDUCTING BI-CA-SR-CU AND TL-CA-BA-CU OXIDES: ABSENCE OF A LINEAR TERM IN THE SPECIFIC HEAT OF BI-CA-SR-CU OXIDES 1988 12 SPECIFIC HEAT "MATERIALS AND CHEMICAL SCIENCES DIVISION,LAWRENCE BERKELEY LABORATORY,UNIVERSITY OF CALIFORNIA,BERKELEY,CALIFORNIA" "PHYS.REV.B,38(1988)11942" "BI,CA,SR,CU,TL,BA,O" 1479 PRB03811942 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1988 Bi2212 K 84 84 256 0 SPECIFIC-HEAT MEASUREMENTS ON SUPERCONDUCTING BI-CA-SR-CU AND TL-CA-BA-CU OXIDES: ABSENCE OF A LINEAR TERM IN THE SPECIFIC HEAT OF BI-CA-SR-CU OXIDES 1988 12 SPECIFIC HEAT "MATERIALS AND CHEMICAL SCIENCES DIVISION,LAWRENCE BERKELEY LABORATORY,UNIVERSITY OF CALIFORNIA,BERKELEY,CALIFORNIA" "PHYS.REV.B,38(1988)11942" "BI,CA,SR,CU,TL,BA,O" 1480 PRB03811942 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1988 Bi2212 K 84 30 84 252 0 SPECIFIC-HEAT MEASUREMENTS ON SUPERCONDUCTING BI-CA-SR-CU AND TL-CA-BA-CU OXIDES: ABSENCE OF A LINEAR TERM IN THE SPECIFIC HEAT OF BI-CA-SR-CU OXIDES 1988 12 SPECIFIC HEAT "MATERIALS AND CHEMICAL SCIENCES DIVISION,LAWRENCE BERKELEY LABORATORY,UNIVERSITY OF CALIFORNIA,BERKELEY,CALIFORNIA" "PHYS.REV.B,38(1988)11942" "BI,CA,SR,CU,TL,BA,O" 1481 PRB03811942 TC=95K+110K Bi2Sr2Ca2Cu4O11 Bi 2 Sr 2 Ca 2 Cu 4 O 11 1988 Bi2224 K 95 95 249 0 SPECIFIC-HEAT MEASUREMENTS ON SUPERCONDUCTING BI-CA-SR-CU AND TL-CA-BA-CU OXIDES: ABSENCE OF A LINEAR TERM IN THE SPECIFIC HEAT OF BI-CA-SR-CU OXIDES 1988 12 SPECIFIC HEAT "MATERIALS AND CHEMICAL SCIENCES DIVISION,LAWRENCE BERKELEY LABORATORY,UNIVERSITY OF CALIFORNIA,BERKELEY,CALIFORNIA" "PHYS.REV.B,38(1988)11942" "BI,CA,SR,CU,TL,BA,O" 1482 PRB03811942 Tl1Ba1Ca1Cu2O5.5 Tl 1 Ba 1 Ca 1 Cu 2 O 5.5 1 1988 2 K 114 20 114 SP1482 16 268 0 SPECIFIC-HEAT MEASUREMENTS ON SUPERCONDUCTING BI-CA-SR-CU AND TL-CA-BA-CU OXIDES: ABSENCE OF A LINEAR TERM IN THE SPECIFIC HEAT OF BI-CA-SR-CU OXIDES 1988 12 SPECIFIC HEAT "MATERIALS AND CHEMICAL SCIENCES DIVISION,LAWRENCE BERKELEY LABORATORY,UNIVERSITY OF CALIFORNIA,BERKELEY,CALIFORNIA" "PHYS.REV.B,38(1988)11942" "BI,CA,SR,CU,TL,BA,O" 1483 PRB03811942 Bi2.15Sr1.68Ca1.17Cu2O8 Bi 2.15 Sr 1.68 Ca 1.17 Cu 2 O 8 1988 2 K 80 20 80 SP1483 228 0 SPECIFIC-HEAT MEASUREMENTS ON SUPERCONDUCTING BI-CA-SR-CU AND TL-CA-BA-CU OXIDES: ABSENCE OF A LINEAR TERM IN THE SPECIFIC HEAT OF BI-CA-SR-CU OXIDES 1988 12 SPECIFIC HEAT "MATERIALS AND CHEMICAL SCIENCES DIVISION,LAWRENCE BERKELEY LABORATORY,UNIVERSITY OF CALIFORNIA,BERKELEY,CALIFORNIA" "PHYS.REV.B,38(1988)11942" "BI,CA,SR,CU,TL,BA,O" 1484 PR04011400 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O7.876 Tl 2 Ba 2 Ca 1 Cu 2 O Z 7.876 1 1989 Tl2212 K 110 110 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1485 PR04011400 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O7.833 Tl 2 Ba 2 Ca 1 Cu 2 O Z 7.833 1 1989 Tl2212 K 112 112 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1486 PR04011400 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O8 Tl 2 Ba 2 Ca 1 Cu 2 O Z 8 1 1989 Tl2212 K 87 87 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1487 PR04011400 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O7.984 Tl 2 Ba 2 Ca 1 Cu 2 O Z 7.984 1 1989 Tl2212 K 92 92 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1488 PR04011400 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O7.978 Tl 2 Ba 2 Ca 1 Cu 2 O Z 7.978 1 1989 Tl2212 K 95 95 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1489 PR04011400 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O7.958 Tl 2 Ba 2 Ca 1 Cu 2 O Z 7.958 1 1989 Tl2212 K 107 107 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1490 PR04011400 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O7.946 Tl 2 Ba 2 Ca 1 Cu 2 O Z 7.946 1 1989 Tl2212 K 107 107 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1491 PR04011400 Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O10 Tl 2 Ba 2 Ca 2 Cu 3 O 10 1989 Tl2223 K 115 115 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1492 PR04011400 Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O9.964 Tl 2 Ba 2 Ca 2 Cu 3 O 10 9.964 1989 Tl2223 K 112 112 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1493 PR04011400 Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O9.877 Tl 2 Ba 2 Ca 2 Cu 3 O 10 9.877 1989 Tl2223 K 111 111 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1494 PR04011400 Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O9.841 Tl 2 Ba 2 Ca 2 Cu 3 O 10 9.841 1989 Tl2223 K 110 110 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1495 PHC1660405 SOUND VELOCITY Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1990 Bi2212 30.86 K 85 85 0 PT CRUCIBLE AT 900 C 2H SOUND VELOCITY IN BI2SR2CACU2O8 SINGLE CRYSTALS 1990 "SOUND VELOCITY ,SINGLE CRYSTALS ,SHERA MODULUS" "CENTRE DE RECHERCHES SUR LES TRES BASSED TEMPREATURES,CNRS,BP166 X,38042 GRENOBLE-CEKEX,FRANCE" "PHYSICA C,166(1990)405" "BI,SR,CA,CU,O" 1496 JJP0282175 "(Tl,Pb)Sr2(Ca,Er)Cu2Oz" Tl0.5Pb0.5Ca0.8Er0.2Sr2Cu2OX Tl 0.5 Pb 0.5 Ca 0.8 Er 0.2 Sr 2 Cu 2 O X 1 1989 9.76 -8.5 2 Tl1212 3.81 11.97 K 110 110 "CACO3,ER2O3,SRCO3,CUO,TL2O3,PBO" 1 CAL(920-970C 12H IN AIR)-ADD(TL2O3+PBO)-WRAPPED IN AU FOIL-SIN(950C 3H IN O2)-C(2C/MIN) TO RT MAGNETIC PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR TL0.5PB0.5CA0.8ER0.2SR2CU2 OXUDE 1989 12 "MAGNETISATION ,ESR ,PARAMAGNETISM ,MAGNETIC PROPERTI" "RESEARCH CENTRE IN SUPERCONDUCTIVITY,UNIVERSITY OF CAMBRIDGE,WEST CAMBRIDGE SITE,MADINGLEY ROAD,CAMBRIDGE,U.K." "JJAP LETT.,28(1989)L2175" "TL,PB,CA,ER,SR,CU,O" 1497 PR04011403 "TUNNELING USING STM,I-V CURVE USING PT-RH TIP" Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O10+Z Tl 2 Ba 2 Ca 2 Cu 3 O 10+Z 1989 Tl2223 K 105 110 110 4 0 TUNNELING MEASUREMENTS OF THE ENERGY GAP IN THE HIGH-TC SUPERCONDUCTOR TL2BA2CA2CU3O10+Z 1989 12 "TUNNELING ,I-V CHARACTERISTIC ,ENERGY GAP ,STEM" "LABORATORIO DE FISICA DE BAJAS TEMPERATURAS,C-III,UNIVERSIDADAUTONOMA DE MADRLD,CANTOBLANCO,28049-MADRID,SPAIN" "PHYS.REV.B,40(1989)11403" "TL,BA,CA,CU,O" 1498 PR04011400 Tl2Ba2CuO6 Tl2Ba2Cu1O6 Tl 2 Ba 2 Cu 1 O Z 6 1 1989 Tl2201 23.14 K "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1499 PR04011400 Tl2Ba2CuO6 Tl2Ba2Cu1O5.989 Tl 2 Ba 2 Cu 1 O Z 5.989 1 1989 Tl2201 23.15 K 10 10 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1500 JJP0280368 YBa2Cu3O7 Y1Ba2Cu3O6 Y 1 Ba 2 Cu 3 O X 6 1989 Y123 3.862 11.813 K "Y2O3,BACO3,CUO" 0 "SIN(900C)-ANN(500C IN AIR),OXYGEN CONTROLED BY HEATING UPTO 400-700C AT 10C/MIN AND COOLING(2.5C/MIN)" POSSIBLE EXISTENCE OF A SUPERCONDUCTING PHASE IN HIGHLY OXYGEN--DEFICIENT YBA(2)CU(3)O(Y)(Y<6.5) 1989 3 "OXYGEN CONTENT ,SUSCEPTIBILITY ,RES" "DEPARTMENT OF MATHENATICS AND PHYSICS,THE NATIONAL DEFENSE ACAD-EMY,YOKOSUKA" "JJAP LETT.,28(1989)L368" "Y,BA,CU,O" 1501 JJP0280368 YBa2Cu3O7 Y1Ba2Cu3O6.16 Y 1 Ba 2 Cu 3 O X 6.16 1989 Y123 3.855 3.871 11.792 K "Y2O3,BACO3,CUO" 0 "SIN(900C)-ANN(500C IN AIR),OXYGEN CONTROLED BY HEATING UPTO 400-700C AT 10C/MIN AND COOLING(2.5C/MIN)" POSSIBLE EXISTENCE OF A SUPERCONDUCTING PHASE IN HIGHLY OXYGEN--DEFICIENT YBA(2)CU(3)O(Y)(Y<6.5) 1989 3 "OXYGEN CONTENT ,SUSCEPTIBILITY ,RES" "DEPARTMENT OF MATHENATICS AND PHYSICS,THE NATIONAL DEFENSE ACAD-EMY,YOKOSUKA" "JJAP LETT.,28(1989)L368" "Y,BA,CU,O" 1502 JJP0280368 YBa2Cu3O7 Y1Ba2Cu3O6.29 Y 1 Ba 2 Cu 3 O X 6.29 1989 Y123 3.842 3.872 11.767 K 21.9 21.9 345 "Y2O3,BACO3,CUO" 0 "SIN(900C)-ANN(500C IN AIR),OXYGEN CONTROLED BY HEATING UPTO 400-700C AT 10C/MIN AND COOLING(2.5C/MIN)" POSSIBLE EXISTENCE OF A SUPERCONDUCTING PHASE IN HIGHLY OXYGEN--DEFICIENT YBA(2)CU(3)O(Y)(Y<6.5) 1989 3 "OXYGEN CONTENT ,SUSCEPTIBILITY ,RES" "DEPARTMENT OF MATHENATICS AND PHYSICS,THE NATIONAL DEFENSE ACAD-EMY,YOKOSUKA" "JJAP LETT.,28(1989)L368" "Y,BA,CU,O" 1503 JJP0280368 YBa2Cu3O7 Y1Ba2Cu3O6.34 Y 1 Ba 2 Cu 3 O X 6.34 1989 Y123 3.838 3.875 11.747 K 23.5 23.5 210 "Y2O3,BACO3,CUO" 0 "SIN(900C)-ANN(500C IN AIR),OXYGEN CONTROLED BY HEATING UPTO 400-700C AT 10C/MIN AND COOLING(2.5C/MIN)" POSSIBLE EXISTENCE OF A SUPERCONDUCTING PHASE IN HIGHLY OXYGEN--DEFICIENT YBA(2)CU(3)O(Y)(Y<6.5) 1989 3 "OXYGEN CONTENT ,SUSCEPTIBILITY ,RES" "DEPARTMENT OF MATHENATICS AND PHYSICS,THE NATIONAL DEFENSE ACAD-EMY,YOKOSUKA" "JJAP LETT.,28(1989)L368" "Y,BA,CU,O" 1504 JJP0280368 YBa2Cu3O7 Y1Ba2Cu3O6.43 Y 1 Ba 2 Cu 3 O X 6.43 1989 Y123 3.837 3.875 11.747 K 26.4 26.4 157 "Y2O3,BACO3,CUO" 0 "SIN(900C)-ANN(500C IN AIR),OXYGEN CONTROLED BY HEATING UPTO 400-700C AT 10C/MIN AND COOLING(2.5C/MIN)" POSSIBLE EXISTENCE OF A SUPERCONDUCTING PHASE IN HIGHLY OXYGEN--DEFICIENT YBA(2)CU(3)O(Y)(Y<6.5) 1989 3 "OXYGEN CONTENT ,SUSCEPTIBILITY ,RES" "DEPARTMENT OF MATHENATICS AND PHYSICS,THE NATIONAL DEFENSE ACAD-EMY,YOKOSUKA" "JJAP LETT.,28(1989)L368" "Y,BA,CU,O" 1505 JJP0280368 YBa2Cu3O7 Y1Ba2Cu3O6.5 Y 1 Ba 2 Cu 3 O X 6.5 1989 Y123 3.831 3.879 11.738 K 50.1 50.1 48.8 "Y2O3,BACO3,CUO" 0 "SIN(900C)-ANN(500C IN AIR),OXYGEN CONTROLED BY HEATING UPTO 400-700C AT 10C/MIN AND COOLING(2.5C/MIN)" POSSIBLE EXISTENCE OF A SUPERCONDUCTING PHASE IN HIGHLY OXYGEN--DEFICIENT YBA(2)CU(3)O(Y)(Y<6.5) 1989 3 "OXYGEN CONTENT ,SUSCEPTIBILITY ,RES" "DEPARTMENT OF MATHENATICS AND PHYSICS,THE NATIONAL DEFENSE ACAD-EMY,YOKOSUKA" "JJAP LETT.,28(1989)L368" "Y,BA,CU,O" 1506 JJP0280368 YBa2Cu3O7 Y1Ba2Cu3O6.54 Y 1 Ba 2 Cu 3 O X 6.54 1989 Y123 3.831 3.876 11.732 K 54 54 27.9 "Y2O3,BACO3,CUO" 0 "SIN(900C)-ANN(500C IN AIR),OXYGEN CONTROLED BY HEATING UPTO 400-700C AT 10C/MIN AND COOLING(2.5C/MIN)" POSSIBLE EXISTENCE OF A SUPERCONDUCTING PHASE IN HIGHLY OXYGEN--DEFICIENT YBA(2)CU(3)O(Y)(Y<6.5) 1989 3 "OXYGEN CONTENT ,SUSCEPTIBILITY ,RES" "DEPARTMENT OF MATHENATICS AND PHYSICS,THE NATIONAL DEFENSE ACAD-EMY,YOKOSUKA" "JJAP LETT.,28(1989)L368" "Y,BA,CU,O" 1507 JJP0280368 YBa2Cu3O7 Y1Ba2Cu3O6.58 Y 1 Ba 2 Cu 3 O X 6.58 1989 Y123 3.829 3.88 11.723 K 56.3 56.3 22.4 "Y2O3,BACO3,CUO" 0 "SIN(900C)-ANN(500C IN AIR),OXYGEN CONTROLED BY HEATING UPTO 400-700C AT 10C/MIN AND COOLING(2.5C/MIN)" POSSIBLE EXISTENCE OF A SUPERCONDUCTING PHASE IN HIGHLY OXYGEN--DEFICIENT YBA(2)CU(3)O(Y)(Y<6.5) 1989 3 "OXYGEN CONTENT ,SUSCEPTIBILITY ,RES" "DEPARTMENT OF MATHENATICS AND PHYSICS,THE NATIONAL DEFENSE ACAD-EMY,YOKOSUKA" "JJAP LETT.,28(1989)L368" "Y,BA,CU,O" 1508 JJP0280368 YBa2Cu3O7 Y1Ba2Cu3O6.64 Y 1 Ba 2 Cu 3 O X 6.64 1989 Y123 3.826 3.882 11.719 K 59.7 59.7 17.6 "Y2O3,BACO3,CUO" 0 "SIN(900C)-ANN(500C IN AIR),OXYGEN CONTROLED BY HEATING UPTO 400-700C AT 10C/MIN AND COOLING(2.5C/MIN)" POSSIBLE EXISTENCE OF A SUPERCONDUCTING PHASE IN HIGHLY OXYGEN--DEFICIENT YBA(2)CU(3)O(Y)(Y<6.5) 1989 3 "OXYGEN CONTENT ,SUSCEPTIBILITY ,RES" "DEPARTMENT OF MATHENATICS AND PHYSICS,THE NATIONAL DEFENSE ACAD-EMY,YOKOSUKA" "JJAP LETT.,28(1989)L368" "Y,BA,CU,O" 1509 JJP0280368 YBa2Cu3O7 Y1Ba2Cu3O6.72 Y 1 Ba 2 Cu 3 O X 6.72 1989 Y123 3.824 3.881 11.707 K 85 85 9.75 "Y2O3,BACO3,CUO" 0 "SIN(900C)-ANN(500C IN AIR),OXYGEN CONTROLED BY HEATING UPTO 400-700C AT 10C/MIN AND COOLING(2.5C/MIN)" POSSIBLE EXISTENCE OF A SUPERCONDUCTING PHASE IN HIGHLY OXYGEN--DEFICIENT YBA(2)CU(3)O(Y)(Y<6.5) 1989 3 "OXYGEN CONTENT ,SUSCEPTIBILITY ,RES" "DEPARTMENT OF MATHENATICS AND PHYSICS,THE NATIONAL DEFENSE ACAD-EMY,YOKOSUKA" "JJAP LETT.,28(1989)L368" "Y,BA,CU,O" 1510 JJP0280368 YBa2Cu3O7 Y1Ba2Cu3O6.8 Y 1 Ba 2 Cu 3 O X 6.8 1989 Y123 3.82 3.884 11.697 K 93.9 93.9 7.56 "Y2O3,BACO3,CUO" 0 "SIN(900C)-ANN(500C IN AIR),OXYGEN CONTROLED BY HEATING UPTO 400-700C AT 10C/MIN AND COOLING(2.5C/MIN)" POSSIBLE EXISTENCE OF A SUPERCONDUCTING PHASE IN HIGHLY OXYGEN--DEFICIENT YBA(2)CU(3)O(Y)(Y<6.5) 1989 3 "OXYGEN CONTENT ,SUSCEPTIBILITY ,RES" "DEPARTMENT OF MATHENATICS AND PHYSICS,THE NATIONAL DEFENSE ACAD-EMY,YOKOSUKA" "JJAP LETT.,28(1989)L368" "Y,BA,CU,O" 1511 JJP0280368 YBa2Cu3O7 Y1Ba2Cu3O6.87 Y 1 Ba 2 Cu 3 O X 6.87 1989 Y123 3.818 3.885 11.684 K 93.2 93.2 3.28 "Y2O3,BACO3,CUO" 0 "SIN(900C)-ANN(500C IN AIR),OXYGEN CONTROLED BY HEATING UPTO 400-700C AT 10C/MIN AND COOLING(2.5C/MIN)" POSSIBLE EXISTENCE OF A SUPERCONDUCTING PHASE IN HIGHLY OXYGEN--DEFICIENT YBA(2)CU(3)O(Y)(Y<6.5) 1989 3 "OXYGEN CONTENT ,SUSCEPTIBILITY ,RES" "DEPARTMENT OF MATHENATICS AND PHYSICS,THE NATIONAL DEFENSE ACAD-EMY,YOKOSUKA" "JJAP LETT.,28(1989)L368" "Y,BA,CU,O" 1512 PR04011400 Tl2Ba2CuO6 Tl2Ba2Cu1O5.957 Tl 2 Ba 2 Cu 1 O Z 5.957 1 1989 Tl2201 23.17 K 38 38 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1513 PR04011400 Tl2Ba2CuO6 Tl2Ba2Cu1O5.947 Tl 2 Ba 2 Cu 1 O Z 5.947 1 1989 Tl2201 23.176 K 50 50 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1514 PR04011400 Tl2Ba2CuO6 Tl2Ba2Cu1O5.943 Tl 2 Ba 2 Cu 1 O Z 5.943 1 1989 Tl2201 23.2 K 56 56 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1515 PR04011400 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O7.984 Tl 2 Ba 2 Ca 1 Cu 2 O 8 7.984 1 1989 Tl2212 K 90 90 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1516 PR04011400 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O7.978 Tl 2 Ba 2 Ca 1 Cu 2 O 8 7.978 1 1989 Tl2212 K 95 95 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1517 PR04011400 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O7.958 Tl 2 Ba 2 Ca 1 Cu 2 O 8 7.958 1 1989 Tl2212 K 107 107 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1518 PR04011400 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O7.946 Tl 2 Ba 2 Ca 1 Cu 2 O 8 7.946 1 1989 Tl2212 K 107 107 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1519 PR04011400 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O7.876 Tl 2 Ba 2 Ca 1 Cu 2 O 8 7.876 1 1989 Tl2212 K 110 110 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1520 PR04011400 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O7.833 Tl 2 Ba 2 Ca 1 Cu 2 O 8 7.833 1 1989 Tl2212 K 112 112 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1521 PR04011400 Tl2Ba2CuO6 Tl2Ba2Cu1O5.94 Tl 2 Ba 2 Cu 1 O Z 5.94 1 1989 Tl2201 K 58 58 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1522 PR04011400 TL2BA2CUO6 Tl2Ba2Cu1O5.929 Tl 2 Ba 2 Cu 1 O Z 5.929 1 1989 Tl2201 K 70 70 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1523 PR04011400 Tl2Ba2CuO6 Tl2Ba2Cu1O5.912 Tl 2 Ba 2 Cu 1 O Z 5.912 1 1989 Tl2201 K 82 82 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1524 PR04011400 Tl2Ba2CuO6 Tl2Ba2Cu1O5.876 Tl 2 Ba 2 Cu 1 O Z 5.876 1 1989 Tl2201 K 87 87 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1525 PR04011400 Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O10 Tl 2 Ba 2 Ca 2 Cu 3 O Z 10 1 1989 Tl2223 K 115 115 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1526 PR04011400 Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O9.964 Tl 2 Ba 2 Ca 2 Cu 3 O Z 9.964 1 1989 Tl2223 K 112 112 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1527 PR04011400 Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O9.877 Tl 2 Ba 2 Ca 2 Cu 3 O Z 9.877 1 1989 Tl2223 K 111 111 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1528 PR04011400 Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O9.841 Tl 2 Ba 2 Ca 2 Cu 3 O Z 9.841 1 1989 Tl2223 K 110 110 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1529 PR04011400 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O8 Tl 2 Ba 2 Ca 1 Cu 2 O 8 8 1 1989 Tl2212 K 87 87 "TL2O3,BAO,CAO,CUO" 1 WRAPPED IN AU FOIL-SIN(860C 5-10H IN O2)-SIN(880-890C 5-10H IN O2)-OXYGEN CONTROL BY ANN(350-600C 3-5H IN AR) VARIATION IN TC AND CARRIER CONCENTRATION IN TL-BASED SUPERCONDUCTORS 1989 12 "CARRIER CONCETRATION,OXYGEN CONTENT ,TC" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,40(1989)11400" "TL,BA,CA,CU,O" 1530 PHC1570279 Tl2Ba2CuO6 Tl2Ba2Cu1O5.963 Tl 2 Ba 2 Cu 1 O 6 5.963 1 1989 2 Tl2201 I4/MMM 139 3.86 23.201 K 53 53 0 890C 3H QUENCH TO LN "VARIATION IN TC,STRUCTURE AND OXYGEN CONTENT IN TL(2)BA(2)CU(1)O(6) AND THEIR CORRELATIONS" 1989 2 "FABRICATION ,STRUCTURE ,TC ,OX" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,KAWASAKI" "PHYSICA C,157(1989)279" "TL,BA,CU,O" 1531 PHC1570279 Tl2Ba2CuO6 Tl2Ba2Cu1O6 Tl 2 Ba 2 Cu 1 O 6 6 1 1989 2 Tl2201 I4/MMM 139 3.859 23.127 K 0 890C 3H QUENCH TO LN "VARIATION IN TC,STRUCTURE AND OXYGEN CONTENT IN TL(2)BA(2)CU(1)O(6) AND THEIR CORRELATIONS" 1989 2 "FABRICATION ,STRUCTURE ,TC ,OX" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,KAWASAKI" "PHYSICA C,157(1989)279" "TL,BA,CU,O" 1532 PHC1570279 Tl2Ba2CuO6 Tl2Ba2Cu1O6 Tl 2 Ba 2 Cu 1 O 6 1 1989 3 Tl2201 FMMM 69 5.455 5.493 23.176 K 50 50 0 890C 3H QUENCH TO LN "VARIATION IN TC,STRUCTURE AND OXYGEN CONTENT IN TL(2)BA(2)CU(1)O(6) AND THEIR CORRELATIONS" 1989 2 "FABRICATION ,STRUCTURE ,TC ,OX" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,KAWASAKI" "PHYSICA C,157(1989)279" "TL,BA,CU,O" 1533 PHC1570279 Tl2Ba2CuO6 Tl2Ba2Cu1O6 Tl 2 Ba 2 Cu 1 O 6 1 1989 3 Tl2201 FMMM 69 5.44 5.496 23.141 K 0 890C 3H QUENCH TO LN "VARIATION IN TC,STRUCTURE AND OXYGEN CONTENT IN TL(2)BA(2)CU(1)O(6) AND THEIR CORRELATIONS" 1989 2 "FABRICATION ,STRUCTURE ,TC ,OX" "FUNDAMENTAL RESEARCH LABORATORIES,NEC CORPORATION,KAWASAKI" "PHYSICA C,157(1989)279" "TL,BA,CU,O" 1534 PHC1650340 GAMMA=43MJ/MOLE.K2 FROM KAIZERO "(Bi,Pb,Sb)2Sr2Ca2Cu3O10" Bi1.6Pb0.3Sb0.1Sr2Ca2Cu3O10 Bi 1.6 Pb 0.3 Sb 0.1 Sr 2 Ca 2 Cu 3 O 10 1 1990 -8.15E+21 215 2 Bi2223 5.261 37.1 K 109 109 "SPECIFIC HEAT AND MAGNETIC SUSCEPTIBILITY OF THE HIGH-TC SUPERCONDUCTOR (VI,PB,SB)2SR2CA2CU3O10" 1990 "CENTER FOR MATERIALS RESEARCH, TEMPLE UNIVERSITY, PHILADELPHIA, PA 19122, USA" "PHYSICA C,165(1990)340" "BI,PB,SB,SR,CA,CU,O" 1535 PHC1670067 NOT SUPER BUT HAVE CUO5 PYRAMIDS Pb3Ba3Cu3Cl1O8 Pb 3 Ba 3 Cu 3 Cl 1 O 8 1990 3 5.55 5.59 20.11 K 0 PB2SR3CU3O8ZCL: A NEW LAYERED COPPER EXYCHLORIDE 1990 "CRYSTAL STRUCTURE ,OXYGEN STOICHIOMETR" "AT&T BELL LABORATORIES,600 MOUNJTAIN AVENUE,MURRAY HILL,NJ USA" "PHYSICA C,167(1990)67" "PB,SR,CU,O,CL" 1536 PHC1670067 NOT SUPER BUT HAVE CUO5 PYRAMIDS Pb3Sr3Cu3Cl1O9.5 Pb 3 Sr 3 Cu 3 Cl 1 O 9.5 1990 3 3.88 3.95 19.53 K 0 PB2SR3CU3O8ZCL: A NEW LAYERED COPPER EXYCHLORIDE 1990 "CRYSTAL STRUCTURE ,OXYGEN STOICHIOMETR" "AT&T BELL LABORATORIES,600 MOUNJTAIN AVENUE,MURRAY HILL,NJ USA" "PHYSICA C,167(1990)67" "PB,SR,CU,O,CL" 1537 PHC1670067 Pb3Sr3Cu3Cl1O8 Pb 3 Sr 3 Cu 3 Cl 1 O 8 1990 3 C-MMM 5.444 5.495 19.49 K 0 PB2SR3CU3O8ZCL: A NEW LAYERED COPPER EXYCHLORIDE 1990 "CRYSTAL STRUCTURE ,OXYGEN STOICHIOMETR" "AT&T BELL LABORATORIES,600 MOUNJTAIN AVENUE,MURRAY HILL,NJ USA" "PHYSICA C,167(1990)67" "PB,SR,CU,O,CL" 1538 PHC1670067 Pb3Ba2Sr1Cu3Cl1O8 Pb 3 Ba 2 Sr 1 Cu 3 Cl 1 O 8 1990 3 5.53 5.56 19.87 K 0 PB2SR3CU3O8ZCL: A NEW LAYERED COPPER EXYCHLORIDE 1990 "CRYSTAL STRUCTURE ,OXYGEN STOICHIOMETR" "AT&T BELL LABORATORIES,600 MOUNJTAIN AVENUE,MURRAY HILL,NJ USA" "PHYSICA C,167(1990)67" "PB,SR,CU,O,CL" 1539 PHC1660393 Ho1Ba2Cu4O8 Ho 1 Ba 2 Cu 4 O 8 1 1990 10.4 -14 Y124 K 76 81 78.5 380 "SPECIFIC HEAT, MAGNETIZATION AND RESISTIVITY MEASUREMENTS ON HOBA2CU4O8" 1990 "SPECIFIC HEAT ,RESISTIVETY ,MAGNETIZATION" "LABRATORIUM FUR FESTKORPRPHYSIK,ETHZ,HC-8093 ZURICH,SWIZRELAND" "PHYSICA C,166(1990)393" "HO,BA,CU,O" 1540 PHC1670102 HoBa2Cu4O8 Ho1Ba2Cu4O8 Ho 1 Ba 2 Cu 4 O 8 1990 6.72 Y124 K 77 77 68.6 "Y2O3,HO2O3,CACO3,BACO3,CUO" 1 CAL(880C 16H IN AIR)-O2-HIP IN 20%O2+80%AR "BULK SYNTHESIS OF LN1-XCAXBA2CU4O8(LN=Y,HO)BY THE OXYGEN-HIPTHCHNIQUE" 1990 "SYNTHESIS ,HIGH PRESSURE OXYGEN,CA-SUBSTIUTION ,CRITICALCURRENT" "SUPERCONDUCTING AND CRYOGENIC TECHNOLOGY CENTER,KOBE STEEL LTD.,1-5-5,TAKATSUKADAI,NISHI-KU,KOBE 673-02,JAPAN" "PHYSICA C,167(1990)102" "Y,HO,CA,BA,CU,O" 1541 PHC1670102 "(Ho,Ca)Ba2Cu4O8" Ho0.95Ca0.05Ba2Cu4O8 Ho 0.95 Ca 0.05 Ba 2 Cu 4 O 8 1990 Y124 K 81 81 94.1 "Y2O3,HO2O3,CACO3,BACO3,CUO" 1 CAL(880C 16H IN AIR)-O2-HIP IN 20%O2+80%AR "BULK SYNTHESIS OF LN1-XCAXBA2CU4O8(LN=Y,HO)BY THE OXYGEN-HIPTHCHNIQUE" 1990 "SYNTHESIS ,HIGH PRESSURE OXYGEN,CA-SUBSTIUTION ,CRITICALCURRENT" "SUPERCONDUCTING AND CRYOGENIC TECHNOLOGY CENTER,KOBE STEEL LTD.,1-5-5,TAKATSUKADAI,NISHI-KU,KOBE 673-02,JAPAN" "PHYSICA C,167(1990)102" "Y,HO,CA,BA,CU,O" 1542 PHC1670102 "(Ho,Ca)Ba2Cu4O8" Ho0.9Ca0.1Ba2Cu4O8 Ho 0.9 Ca 0.1 Ba 2 Cu 4 O 8 1990 Y124 K 87 87 98 "Y2O3,HO2O3,CACO3,BACO3,CUO" 1 CAL(880C 16H IN AIR)-O2-HIP IN 20%O2+80%AR "BULK SYNTHESIS OF LN1-XCAXBA2CU4O8(LN=Y,HO)BY THE OXYGEN-HIPTHCHNIQUE" 1990 "SYNTHESIS ,HIGH PRESSURE OXYGEN,CA-SUBSTIUTION ,CRITICALCURRENT" "SUPERCONDUCTING AND CRYOGENIC TECHNOLOGY CENTER,KOBE STEEL LTD.,1-5-5,TAKATSUKADAI,NISHI-KU,KOBE 673-02,JAPAN" "PHYSICA C,167(1990)102" "Y,HO,CA,BA,CU,O" 1543 PHC1670102 "(Ho,Ca)Ba2Cu4O8" Ho0.85Ca0.15Ba2Cu4O8 Ho 0.85 Ca 0.15 Ba 2 Cu 4 O 8 1990 Y124 K 87 87 93.3 "Y2O3,HO2O3,CACO3,BACO3,CUO" 1 CAL(880C 16H IN AIR)-O2-HIP IN 20%O2+80%AR "BULK SYNTHESIS OF LN1-XCAXBA2CU4O8(LN=Y,HO)BY THE OXYGEN-HIPTHCHNIQUE" 1990 "SYNTHESIS ,HIGH PRESSURE OXYGEN,CA-SUBSTIUTION ,CRITICALCURRENT" "SUPERCONDUCTING AND CRYOGENIC TECHNOLOGY CENTER,KOBE STEEL LTD.,1-5-5,TAKATSUKADAI,NISHI-KU,KOBE 673-02,JAPAN" "PHYSICA C,167(1990)102" "Y,HO,CA,BA,CU,O" 1544 PHC1670102 "(Ho,Ca)Ba2Cu4O8" Ho0.8Ca0.2Ba2Cu4O8 Ho 0.8 Ca 0.2 Ba 2 Cu 4 O 8 1990 Y124 K 87 87 73.5 "Y2O3,HO2O3,CACO3,BACO3,CUO" 1 CAL(880C 16H IN AIR)-O2-HIP IN 20%O2+80%AR "BULK SYNTHESIS OF LN1-XCAXBA2CU4O8(LN=Y,HO)BY THE OXYGEN-HIPTHCHNIQUE" 1990 "SYNTHESIS ,HIGH PRESSURE OXYGEN,CA-SUBSTIUTION ,CRITICALCURRENT" "SUPERCONDUCTING AND CRYOGENIC TECHNOLOGY CENTER,KOBE STEEL LTD.,1-5-5,TAKATSUKADAI,NISHI-KU,KOBE 673-02,JAPAN" "PHYSICA C,167(1990)102" "Y,HO,CA,BA,CU,O" 1545 PHC1670102 "(Ho,Ca)Ba2Cu4O8" Ho0.7Ca0.3Ba2Cu4O8 Ho 0.7 Ca 0.3 Ba 2 Cu 4 O 8 1990 Y124 K 87 87 64.6 "Y2O3,HO2O3,CACO3,BACO3,CUO" 1 CAL(880C 16H IN AIR)-O2-HIP IN 20%O2+80%AR "BULK SYNTHESIS OF LN1-XCAXBA2CU4O8(LN=Y,HO)BY THE OXYGEN-HIPTHCHNIQUE" 1990 "SYNTHESIS ,HIGH PRESSURE OXYGEN,CA-SUBSTIUTION ,CRITICALCURRENT" "SUPERCONDUCTING AND CRYOGENIC TECHNOLOGY CENTER,KOBE STEEL LTD.,1-5-5,TAKATSUKADAI,NISHI-KU,KOBE 673-02,JAPAN" "PHYSICA C,167(1990)102" "Y,HO,CA,BA,CU,O" 1546 PHC1670102 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1990 6.13 Y124 K 81 81 72.2 "Y2O3,HO2O3,CACO3,BACO3,CUO" 1 CAL(880C 16H IN AIR)-O2-HIP IN 20%O2+80%AR "BULK SYNTHESIS OF LN1-XCAXBA2CU4O8(LN=Y,HO)BY THE OXYGEN-HIPTHCHNIQUE" 1990 "SYNTHESIS ,HIGH PRESSURE OXYGEN,CA-SUBSTIUTION ,CRITICALCURRENT" "SUPERCONDUCTING AND CRYOGENIC TECHNOLOGY CENTER,KOBE STEEL LTD.,1-5-5,TAKATSUKADAI,NISHI-KU,KOBE 673-02,JAPAN" "PHYSICA C,167(1990)102" "Y,HO,CA,BA,CU,O" 1547 PHC1670102 "(Y,Ca)Ba2Cu4O8" Y0.95Ca0.05Ba2Cu4O8 Y 0.95 Ca 0.05 Ba 2 Cu 4 O 8 1 1990 Y124 K 84 84 89.3 "Y2O3,HO2O3,CACO3,BACO3,CUO" 1 CAL(880C 16H IN AIR)-O2-HIP IN 20%O2+80%AR "BULK SYNTHESIS OF LN1-XCAXBA2CU4O8(LN=Y,HO)BY THE OXYGEN-HIPTHCHNIQUE" 1990 "SYNTHESIS ,HIGH PRESSURE OXYGEN,CA-SUBSTIUTION ,CRITICALCURRENT" "SUPERCONDUCTING AND CRYOGENIC TECHNOLOGY CENTER,KOBE STEEL LTD.,1-5-5,TAKATSUKADAI,NISHI-KU,KOBE 673-02,JAPAN" "PHYSICA C,167(1990)102" "Y,HO,CA,BA,CU,O" 1548 PHC1670102 "(Y,Ca)Ba2Cu4O8" Y0.9Ca0.1Ba2Cu4O8 Y 0.9 Ca 0.1 Ba 2 Cu 4 O 8 1 1990 Y124 K 89.5 89.5 94.7 "Y2O3,HO2O3,CACO3,BACO3,CUO" 1 CAL(880C 16H IN AIR)-O2-HIP IN 20%O2+80%AR "BULK SYNTHESIS OF LN1-XCAXBA2CU4O8(LN=Y,HO)BY THE OXYGEN-HIPTHCHNIQUE" 1990 "SYNTHESIS ,HIGH PRESSURE OXYGEN,CA-SUBSTIUTION ,CRITICALCURRENT" "SUPERCONDUCTING AND CRYOGENIC TECHNOLOGY CENTER,KOBE STEEL LTD.,1-5-5,TAKATSUKADAI,NISHI-KU,KOBE 673-02,JAPAN" "PHYSICA C,167(1990)102" "Y,HO,CA,BA,CU,O" 1549 PHC1670102 "(Y,Ca)Ba2Cu4O8" Y0.85Ca0.15Ba2Cu4O8 Y 0.85 Ca 0.15 Ba 2 Cu 4 O 8 1 1990 Y124 K 90 90 73 "Y2O3,HO2O3,CACO3,BACO3,CUO" 1 CAL(880C 16H IN AIR)-O2-HIP IN 20%O2+80%AR "BULK SYNTHESIS OF LN1-XCAXBA2CU4O8(LN=Y,HO)BY THE OXYGEN-HIPTHCHNIQUE" 1990 "SYNTHESIS ,HIGH PRESSURE OXYGEN,CA-SUBSTIUTION ,CRITICALCURRENT" "SUPERCONDUCTING AND CRYOGENIC TECHNOLOGY CENTER,KOBE STEEL LTD.,1-5-5,TAKATSUKADAI,NISHI-KU,KOBE 673-02,JAPAN" "PHYSICA C,167(1990)102" "Y,HO,CA,BA,CU,O" 1550 PHC1670102 "(Y,Ca)Ba2Cu4O8" Y0.8Ca0.2Ba2Cu4O8 Y 0.8 Ca 0.2 Ba 2 Cu 4 O 8 1 1990 Y124 K 90 90 65 "Y2O3,HO2O3,CACO3,BACO3,CUO" 1 CAL(880C 16H IN AIR)-O2-HIP IN 20%O2+80%AR "BULK SYNTHESIS OF LN1-XCAXBA2CU4O8(LN=Y,HO)BY THE OXYGEN-HIPTHCHNIQUE" 1990 "SYNTHESIS ,HIGH PRESSURE OXYGEN,CA-SUBSTIUTION ,CRITICALCURRENT" "SUPERCONDUCTING AND CRYOGENIC TECHNOLOGY CENTER,KOBE STEEL LTD.,1-5-5,TAKATSUKADAI,NISHI-KU,KOBE 673-02,JAPAN" "PHYSICA C,167(1990)102" "Y,HO,CA,BA,CU,O" 1551 PHC1670102 "(Y,Ca)Ba2Cu4O8" Y0.7Ca0.3Ba2Cu4O8 Y 0.7 Ca 0.3 Ba 2 Cu 4 O 8 1 1990 Y124 K 90 90 48.9 "Y2O3,HO2O3,CACO3,BACO3,CUO" 1 CAL(880C 16H IN AIR)-O2-HIP IN 20%O2+80%AR "BULK SYNTHESIS OF LN1-XCAXBA2CU4O8(LN=Y,HO)BY THE OXYGEN-HIPTHCHNIQUE" 1990 "SYNTHESIS ,HIGH PRESSURE OXYGEN,CA-SUBSTIUTION ,CRITICALCURRENT" "SUPERCONDUCTING AND CRYOGENIC TECHNOLOGY CENTER,KOBE STEEL LTD.,1-5-5,TAKATSUKADAI,NISHI-KU,KOBE 673-02,JAPAN" "PHYSICA C,167(1990)102" "Y,HO,CA,BA,CU,O" 1552 SSC0630721 "DEFINITION OF HC1 AMBIGUOUS,GAMMA=2.23 FROM SUS" "(La,Ba)2CuO4" La1.8Ba0.2Cu1O4-Y La 1.8 Ba 0.2 Cu 1 O 4-Y 1987 T K 31 31 10 400 6 330 0 MAGNETIC AND THERMAL MEASUREMENTS ON HIGH-TC (LA0.9BA0.1)2CUO4-Y 1987 "LOS ALAMOS NATIONAL LABORATORY, LOS ALAMOS, NM 87545" "SOLID STATE COMMUN,063(1987)721" "LA,BA,CU,O" 1553 SSC0650111 KAI= /MOLE.CU La2Cu1O La 2 Cu 1 O 1988 0.21 37.5 240 3 T 5.358 5.403 13.181 K 0 PBO BASED FLUX NOVEL PHASE TRANSITION IN NON-ANTIFERROMAGNETICALLY ORDERED CRYSTALS OF LA2CUO4 1988 "LOS ALAMOS NATIONAL LABORATORY, LOS ALAMOS, NM 87545" "SOLID STATE COMMUN,065(1988)111" "LA,CU,O" 1554 SSC0630635 "BETA=0.274MJ/MOLE.K4, TEMP.<80K" "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4-Z La 1.8 Sr 0.2 Cu 1 O 4-Z 1987 T K 34 34 11 4 367 0 SIN(1100C 12H)-ANN(925C 18-24H IN 1ATM O2) "HIGH TEMPERATUER SUPERCONDUCTIVITY IN(M1-XM'X)2CUO4-Z AND RELATED COMPOUNDS(M=Y,LA,EU,SM; M=BA,SR)" 1987 "DEPERTMENT OF PHYSICS AND INSTITUTE FO PURE AND APPLIEDPHYSICAL SCIENSE UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CA 92093" "SOLID STATE COMMUN,063(1987)635" "CU,O,Y,LA,EU,SM,BA,SR" 1555 ST0280576 "OMEGA-P=8700CM-1,TAW=4.9E-15 FR PLASMA FREQ." Bi1.85Pb0.35Sr1.9Ca2.1Cu3.1OY Bi 1.85 Pb 0.35 Sr 1.9 Ca 2.1 Cu 3.1 O Y 1 1989 2 Bi2223 5.413 37.1 K 107 112 112 0.8 1.25E-09 2.70E-09 1.8 "BI2O3,PB3O4,SRCO3,CACO3,CUO" 1 BI-PB-SR-CA-CU=1.85-0.35-1.9-2.1-3.1 NOMINAL COMP. "STUDY ON THE PREPARATION AND THE PHYSICAL PROPERTIES OF A 110K (BI,PB)(2)SR(2)CA(2)CU(3)O(Y) SUPERCONDUCTOR" 1989 4 "PLASMA FREQUENCY ,HALL EFFECT ,SINGLE PHASE ,PR" "DEPARTMENT OF APPLIED PHYSICS,THE UNIVERSITY OF TOKYO,7-3-1 HON-GO,BUNKYO-KU,TOKYO" "JJAP LETT.,28(1989)L576" "BI,PB,SR,CA,CU,O" 1556 PHC1560761 THPOW77=100K YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1988 3 Y123 3.82 3.89 11.68 K 88 89.5 89.5 0 FINAL TREATMENT=SINGLE CRYSTAL ANN(950C 70H) STUDU OF THE SUPERCONDUCTING TRANSITION IN YBA2CU3O7-Z SINGLECRYSTAL BY THERMOPOWRT MEASUREMENTS 1988 "PHYSICA C,156(1988)761" 1557 PHC1670107 "LN=PR,SM,LA, SAME STRUCTURE,NOT SUPERCOND." Pb2Sr2Nd1Ce1Cu3O10+Y Pb 2 Sr 2 Nd 1 Ce 1 Cu 3 O 10+Y 1 1990 Pb3222 FMMM 5.442 5.462 36.9 K "PBO,SR2CUO3,LN2O3,CEO2,CUO" 1 (900C 12H IN N2) "PB2SR2LNCECU3O10+Z A NEW MEMBER OF THE LAYERED CUPRATES FAMILY, BUILT UP FROM DOUBLE FLUORITE-TYPE LAYERS" 1990 "LAYERED CUPRATES ,FLUORITE-TYPE" "LABORATOIRE CRISMAT,ISMRA CAMPUS 2,UNIVERSITE DE CAEN,BOULEVARD DU MARECHAL JUIN,14032 CAEN CEDEX,FRANCE" "PHYSICA C,167(1990)107" "PB,SR,LN,SE,CU,O" 1558 PRB0394316 Bi2Sr2CaCu2O8 Bi4Sr4Ca2Cu4O16.25 Bi 4 Sr 4 Ca 2 Cu 4 O 16+Y 16.25 1989 Bi2212 5.412 30.843 K 82.4 82.4 "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1559 PRB0394316 "Bi2Sr2(Ca,Tm)Cu2O8" Bi4Sr4Ca1.9Tm0.1Cu4O16.28 Bi 4 Sr 4 Ca 1.9 Tm 0.1 Cu 4 O 16+Y 16.28 1989 Bi2212 5.406 30.777 K 83.9 83.9 "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1560 PRB0394316 "Bi2Sr2(Ca,Tm)CuO8" Bi4Sr4Ca1.8Tm0.2Cu4O16.38 Bi 4 Sr 4 Ca 1.8 Tm 0.2 Cu 4 O 16+Y 16.38 1989 Bi2212 5.403 30.738 K 83.9 83.9 "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1561 PRB0394316 "Bi2Sr2(Ca,Tm)Cu2O8" Bi4Sr4Ca1.5Tm0.5Cu4O16.5 Bi 4 Sr 4 Ca 1.5 Tm 0.5 Cu 4 O 16+Y 16.5 1989 Bi2212 5.405 30.671 K 84.3 84.3 "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1562 PRB0394316 "Bi2Sr2(Ca,Tm)Cu2O8" Bi4Sr4Ca1Tm1Cu4O16.67 Bi 4 Sr 4 Ca 1 Tm 1 Cu 4 O 16+Y 16.67 1989 Bi2212 5.419 30.452 K 37.7 37.7 "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1563 PRB0394316 "Bi2Sr2(Ca,Tm)Cu2O8" Bi4Sr4Ca0.5Tm1.5Cu4O16.91 Bi 4 Sr 4 Ca 0.5 Tm 1.5 Cu 4 O 16+Y 16.91 1989 Bi2212 5.423 30.252 K 1.5 1.5 "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1564 PRB0394316 "Bi2Sr2(Ca,Eu)Cu2O8" Bi4Sr4Ca1.5Eu0.5Cu4O16+Y Bi 4 Sr 4 Ca 1.5 Eu 0.5 Cu 4 O 16+Y 1989 Bi2212 K 84.3 84.3 "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1565 PRB0394316 "Bi2Sr2(Ca,Eu)Cu2O8" Bi4Sr4Ca1Eu1Cu4O16+Y Bi 4 Sr 4 Ca 1 Eu 1 Cu 4 O 16+Y 1989 Bi2212 K 28.5 28.5 "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1566 PRB0394316 "Bi2Sr2(Ca,Eu)Cu2O8" Bi4Sr4Ca0.5Eu1.5Cu4O16+Y Bi 4 Sr 4 Ca 0.5 Eu 1.5 Cu 4 O 16+Y 1989 Bi2212 K 1.5 1.5 "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1567 PRB0394316 "Bi2Sr2(Ca,Er)Cu2O8" Bi4Sr4Ca1.5Er0.5Cu4O16+Y Bi 4 Sr 4 Ca 1.5 Er 0.5 Cu 4 O 16+Y 1989 Bi2212 K 84.3 84.3 "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1568 PRB0394316 "Bi2Sr2(Ca,Er)Cu2O8" Bi4Sr4Ca1Er1Cu4O16+Y Bi 4 Sr 4 Ca 1 Er 1 Cu 4 O 16+Y 1989 Bi2212 K 32.9 32.9 "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1569 PRB0394316 "Bi2Sr2(Ca,Er)Cu2O8" Bi4Sr4Ca0.5Er1.5Cu4O16+Y Bi 4 Sr 4 Ca 0.5 Er 1.5 Cu 4 O 16+Y 1989 Bi2212 K 1.5 1.5 "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1570 PRB0394316 "Bi2Sr2(Ca,Ho)Cu2O8" Bi4Sr4Ca1.5Ho0.5Cu4O16+Y Bi 4 Sr 4 Ca 1.5 Ho 0.5 Cu 4 O 16+Y 1989 Bi2212 K 84.3 84.3 "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1571 PRB0394316 "Bi2Sr2(Ca,Ho)Cu2O8" Bi4Sr4Ca1Ho1Cu4O16+Y Bi 4 Sr 4 Ca 1 Ho 1 Cu 4 O 16+Y 1989 Bi2212 K 40.7 40.7 "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1572 PRB0394316 "Bi2Sr2(Ca,Ho)Cu2O8" Bi4Sr4Ca0.5Ho1.5Cu4O16+Y Bi 4 Sr 4 Ca 0.5 Ho 1.5 Cu 4 O 16+Y 1989 Bi2212 K 1.5 1.5 "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1573 PRB0394316 Bi4Sr4Ca3Cu4O16.29 Bi 4 Sr 4 Ca 3 Cu 4 O 16+Y 16.29 1989 5.404 30.693 K 81 81 "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1574 PRB0394316 Bi4Sr3Ca2.9Tm0.1Cu4O16.36 Bi 4 Sr 3 Ca 2.9 Tm 0.1 Cu 4 O 16+Y 16.36 1989 5.4 30.667 K 80 80 "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1575 PRB0394316 Bi4Sr3Ca2.8Tm0.2Cu4O16.41 Bi 4 Sr 3 Ca 2.8 Tm 0.2 Cu 4 O 16+Y 16.41 1989 5.393 30.596 K 83 83 "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1576 PRB0394316 Bi4Sr3Ca2.5Tm0.5Cu4O16.52 Bi 4 Sr 3 Ca 2.5 Tm 0.5 Cu 4 O 16+Y 16.52 1989 5.399 30.465 K 81 81 "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1577 PRB0394316 Bi4Sr3Ca2Tm1Cu4O16.73 Bi 4 Sr 3 Ca 2 Tm 1 Cu 4 O 16+Y 16.73 1989 5.399 30.309 K 46.5 46.5 "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1578 PRB0394316 Bi4Sr3Ca1.5Tm1.5Cu4O16.88 Bi 4 Sr 3 Ca 1.5 Tm 1.5 Cu 4 O 16+Y 16.88 1989 5.408 30.265 K "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1579 PRB0394316 Bi4Sr3Ca1Tm2Cu4O17.18 Bi 4 Sr 3 Ca 1 Tm 2 Cu 4 O 16+Y 17.18 1989 5.409 30.187 K "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1580 PRB0394316 BI4SR4ER2CU4O16 Bi4Sr4Er2Cu4O16+Y Bi 4 Sr 4 Er 2 Cu 4 O 16+Y 1989 9.39 14 Bi2212 3.841 30.156 K "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1581 PRB0394316 BI4SR4TM2CU4O16 Bi4Sr4Tm2Cu4O17.14 Bi 4 Sr 4 Tm 2 Cu 4 O 16+Y 17.14 1989 7.66 32 Bi2212 3.824 30.173 K "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1582 PRB0394316 BI4SR4YB2CU4O16 Bi4Sr4Yb2Cu4O16+Y Bi 4 Sr 4 Yb 2 Cu 4 O 16+Y 1989 Bi2212 3.85 30.474 K "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1583 PRB0394316 BI4SR4LU2CU4O16 Bi4Sr4Lu2Cu4O16+Y Bi 4 Sr 4 Lu 2 Cu 4 O 16+Y 1989 Bi2212 3.812 30.316 K "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1584 PRB0394316 NOT SUPERCOND. BI4SR4GD2CU4O16 Bi4Sr4Gd2Cu4O16+Y Bi 4 Sr 4 Gd 2 Cu 4 O 16+Y 1989 7.84 2 Bi2212 3.855 30.248 K "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1585 PRB0394316 BI4SR4DY2CU4O16 Bi4Sr4Dy2Cu4O16+Y Bi 4 Sr 4 Dy 2 Cu 4 O 16+Y 1989 10.23 8 Bi2212 3.853 30.162 K "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1586 PRB0394316 BI4SR4Y2CU4O16 Bi4Sr4Y2Cu4O16+Y Bi 4 Sr 4 Y 2 Cu 4 O 16+Y 1989 0.5 Bi2212 3.853 30.152 K "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1587 PRB0394316 BI4SR4TB2CU4O16 Bi4Sr4Tb2Cu4O16+Y Bi 4 Sr 4 Tb 2 Cu 4 O 16+Y 1989 7.66 13 Bi2212 3.85 30.232 K "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1588 PRB0394316 BI4SR4HO2CU4O16 Bi4Sr4Ho2Cu4O16+Y Bi 4 Sr 4 Ho 2 Cu 4 O 16+Y 1989 10.23 13 Bi2212 3.843 30.025 K "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1589 PRB0394316 BI4SR4LA2CU4O16 Bi4Sr4La2Cu4O16+Y Bi 4 Sr 4 La 2 Cu 4 O 16+Y 1989 Bi2212 3.875 30.592 K "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1590 PRB0394316 BI4SR4PR2CU4O16 Bi4Sr4Pr2Cu4O16+Y Bi 4 Sr 4 Pr 2 Cu 4 O 16+Y 1989 2.96 16 Bi2212 3.877 30.366 K "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1591 PRB0394316 BI4SR4ND2CU4O16 Bi4Sr4Nd2Cu4OZ Bi 4 Sr 4 Nd 2 Cu 4 O Z 1989 2.97 30 2 Bi2212 3.872 30.287 K "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1592 PRB0394316 BI4SR4SM2CU4O16 Bi4Sr4Sm2Cu4OZ Bi 4 Sr 4 Sm 2 Cu 4 O Z 1989 2 Bi2212 3.867 30.296 K "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1593 PRB0394316 BI4SR4EU2CU4O16 Bi4Sr4Eu2Cu4OZ Bi 4 Sr 4 Eu 2 Cu 4 O Z 1989 2 Bi2212 3.863 30.138 K "CACO3,SRCO3,BI2O3,CUO,R2O3" 0 "HEAT TREATMENT IN AIR,ANN(860C) EXCEPT FOR TM AND LU COMPOUND ANN(900C)" BISMUTH CUPRATE HIGH-T(C) SUPERCONDUCTORS USING CATIONIC SUBSTI-TUTION 1989 3 "TC ,STRUCTURE ,VALENCE ,SU" "BELLCORE,RED BANK,NEW JERSEY" "PHYSICAL REVIEW B.,39(1989)4316" "R,BI,SR,CA,CU,O,FE,CO" 1594 PHC1650055 "(Bi,Pb)2Sr2(Ca,Y)Cu2O8" Bi1.7Pb0.3Sr2Ca0.7Y0.3Cu2O8.25 Bi 1.7 Pb 0.3 Sr 2 Ca 0.7 Y 0.3 Cu 2 O 8+Z 8.25 1990 Bi2212 5.411 5.414 30.471 K 71 71 "BI2O3,PBO,SR(NO3)2,CA(OH)2,CUO" 0 "MOTHER COMPOUND PREPARED BY:(850C 16H IN AIR)-(850C 72H IN AIR)-Q,OXYGEN CONTROL BY ANN(600C IN VARIOUS O2 PRESSURE)" HOLE CONCENTRATION AND TC IN BI2SR2CACU2O8+Z 1990 "PHYSICA C,165(1990)55" 1595 PHC1650055 "(Bi,Pb)2Sr2(Ca,Y)Cu2O8" Bi1.7Pb0.3Sr2Ca0.7Y0.3Cu2O8.25 Bi 1.7 Pb 0.3 Sr 2 Ca 0.7 Y 0.3 Cu 2 O 8+Z 8.25 1990 Bi2212 5.409 5.424 30.456 K 72 72 "BI2O3,PBO,SR(NO3)2,CA(OH)2,CUO" 0 "MOTHER COMPOUND PREPARED BY:(850C 16H IN AIR)-(850C 72H IN AIR)-Q,OXYGEN CONTROL BY ANN(600C IN VARIOUS O2 PRESSURE)" HOLE CONCENTRATION AND TC IN BI2SR2CACU2O8+Z 1990 "PHYSICA C,165(1990)55" 1596 PHC1650055 "(Bi,Pb)2Sr2(Ca,Y)Cu2O8" Bi1.7Pb0.3Sr2Ca0.7Y0.3Cu2O8.26 Bi 1.7 Pb 0.3 Sr 2 Ca 0.7 Y 0.3 Cu 2 O 8+Z 8.26 1990 Bi2212 5.407 5.411 30.446 K 73 73 "BI2O3,PBO,SR(NO3)2,CA(OH)2,CUO" 0 "MOTHER COMPOUND PREPARED BY:(850C 16H IN AIR)-(850C 72H IN AIR)-Q,OXYGEN CONTROL BY ANN(600C IN VARIOUS O2 PRESSURE)" HOLE CONCENTRATION AND TC IN BI2SR2CACU2O8+Z 1990 "PHYSICA C,165(1990)55" 1597 PHC1520223 Tl5Ba5Ca2Cu6OX Tl 5 Ba 5 Ca 2 Cu 6 O X 1 1988 7.43 3 Tl5526 3.862 3.863 29.306 K 106 110 106 K/kbar 0.23 60 "TL2O3,BAO,CAO,CUO" 1 TL-BA-CA-CU=2-1-1-2 IN PT CRUCIBLE - HEAT TO 950C-HOLD 30MIN-COOL TO 900C-HOLD 1H-C(10C/H) TO 750C-FC SINGLE CRYSTALS OF TL5BA5CA2CU6OX:106 K SUPERCONDUCTOR 1988 "PHYSICA C,152(1988)223" 1598 PHC1520339 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.97Fe0.03O7-Z Y 1 Ba 2 Cu 2.97 Fe 0.03 O 7-Z 1 1988 3 Y123 K 84 84 K/kbar 0.19 "Y2O3,BACO3,CUO,FE2O3,CO2O3,NIO,ZNO" 1 "PRESSURE DEPENDENCES OF SUPERCONDUCTING TRANSITION TEMPERATURETC IN ORTHORHOMBIC AND IMPURITY-INDUCED TETRAGONAL YBA2(CU1-XMX)3O7-Y(M=FE,CO,NI AND ZN)" 1988 "PHYSICA C,152(1988)339" 1599 PHC1520339 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 91 91 K/kbar 0.11 "Y2O3,BACO3,CUO,FE2O3,CO2O3,NIO,ZNO" 1 "PRESSURE DEPENDENCES OF SUPERCONDUCTING TRANSITION TEMPERATURETC IN ORTHORHOMBIC AND IMPURITY-INDUCED TETRAGONAL YBA2(CU1-XMX)3O7-Y(M=FE,CO,NI AND ZN)" 1988 "PHYSICA C,152(1988)339" 1600 PHC1610123 Bi2Sr2Ca2Cu3O10 Bi2Sr2Ca2Cu3OX Bi 2 Sr 2 Ca 2 Cu 3 O X 2 1989 2 Bi2223 3.822 37.04 K 105.7 105.7 65 7 400 SP1600 3.82E-09 RH1600 "BI2O3,PBO,SRCO3,CACO3,CUO" 1 "6-7%2212 PHASE,7%CU2PBO4,<5%CUO" SUPERCONDUCTING FLUCTUATIONS IN Bi2Sr2Ca2Cu3Ox 1989 "II. Physikalisches Institut der Universitat zu Ko""ln, 5000 Ko""ln 41, Fed. Rep. Germany" "Physica.C,161(1989)123-135" 1601 PHC1520339 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.955Fe0.045O7-Z Y 1 Ba 2 Cu 2.955 Fe 0.045 O 7-Z 1 1988 3 Y123 K K/kbar 0.26 "Y2O3,BACO3,CUO,FE2O3,CO2O3,NIO,ZNO" 1 "PRESSURE DEPENDENCES OF SUPERCONDUCTING TRANSITION TEMPERATURETC IN ORTHORHOMBIC AND IMPURITY-INDUCED TETRAGONAL YBA2(CU1-XMX)3O7-Y(M=FE,CO,NI AND ZN)" 1988 "PHYSICA C,152(1988)339" 1602 PHC1520339 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.895Fe0.105O7-Z Y 1 Ba 2 Cu 2.895 Fe 0.105 O 7-Z 1 1988 2 Y123 K 63 63 K/kbar 0.56 "Y2O3,BACO3,CUO,FE2O3,CO2O3,NIO,ZNO" 1 "PRESSURE DEPENDENCES OF SUPERCONDUCTING TRANSITION TEMPERATURETC IN ORTHORHOMBIC AND IMPURITY-INDUCED TETRAGONAL YBA2(CU1-XMX)3O7-Y(M=FE,CO,NI AND ZN)" 1988 "PHYSICA C,152(1988)339" 1603 PHC1520339 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.82Fe0.18O7-Z Y 1 Ba 2 Cu 2.82 Fe 0.18 O 7-Z 1 1988 2 Y123 K K/kbar 0.61 "Y2O3,BACO3,CUO,FE2O3,CO2O3,NIO,ZNO" 1 "PRESSURE DEPENDENCES OF SUPERCONDUCTING TRANSITION TEMPERATURETC IN ORTHORHOMBIC AND IMPURITY-INDUCED TETRAGONAL YBA2(CU1-XMX)3O7-Y(M=FE,CO,NI AND ZN)" 1988 "PHYSICA C,152(1988)339" 1604 PHC1520339 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.901Co0.099O7-Z Y 1 Ba 2 Cu 2.901 Co 0.099 O 7-Z 1 1988 2 Y123 K 70 70 K/kbar 0.62 "Y2O3,BACO3,CUO,FE2O3,CO2O3,NIO,ZNO" 1 "PRESSURE DEPENDENCES OF SUPERCONDUCTING TRANSITION TEMPERATURETC IN ORTHORHOMBIC AND IMPURITY-INDUCED TETRAGONAL YBA2(CU1-XMX)3O7-Y(M=FE,CO,NI AND ZN)" 1988 "PHYSICA C,152(1988)339" 1605 PHC1520339 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.955Zn0.045O7-Z Y 1 Ba 2 Cu 2.955 Zn 0.045 O 7-Z 1 1988 3 Y123 K 67 67 K/kbar 0.14 "Y2O3,BACO3,CUO,FE2O3,CO2O3,NIO,ZNO" 1 "PRESSURE DEPENDENCES OF SUPERCONDUCTING TRANSITION TEMPERATURETC IN ORTHORHOMBIC AND IMPURITY-INDUCED TETRAGONAL YBA2(CU1-XMX)3O7-Y(M=FE,CO,NI AND ZN)" 1988 "PHYSICA C,152(1988)339" 1606 PHC1520339 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.82Zn0.18O7-Z Y 1 Ba 2 Cu 2.82 Zn 0.18 O 7-Z 1 1988 3 Y123 K 35 35 K/kbar 0.16 "Y2O3,BACO3,CUO,FE2O3,CO2O3,NIO,ZNO" 1 "PRESSURE DEPENDENCES OF SUPERCONDUCTING TRANSITION TEMPERATURETC IN ORTHORHOMBIC AND IMPURITY-INDUCED TETRAGONAL YBA2(CU1-XMX)3O7-Y(M=FE,CO,NI AND ZN)" 1988 "PHYSICA C,152(1988)339" 1607 PHC1520339 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.94Ni0.06O7-Z Y 1 Ba 2 Cu 2.94 Ni 0.06 O 7-Z 1 1988 3 Y123 K 83 83 "Y2O3,BACO3,CUO,FE2O3,CO2O3,NIO,ZNO" 1 "PRESSURE DEPENDENCES OF SUPERCONDUCTING TRANSITION TEMPERATURETC IN ORTHORHOMBIC AND IMPURITY-INDUCED TETRAGONAL YBA2(CU1-XMX)3O7-Y(M=FE,CO,NI AND ZN)" 1988 "PHYSICA C,152(1988)339" 1608 PHC1520339 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.82Ni0.18O7-Z Y 1 Ba 2 Cu 2.82 Ni 0.18 O 7-Z 1 1988 3 Y123 K K/kbar 0.14 "Y2O3,BACO3,CUO,FE2O3,CO2O3,NIO,ZNO" 1 "PRESSURE DEPENDENCES OF SUPERCONDUCTING TRANSITION TEMPERATURETC IN ORTHORHOMBIC AND IMPURITY-INDUCED TETRAGONAL YBA2(CU1-XMX)3O7-Y(M=FE,CO,NI AND ZN)" 1988 "PHYSICA C,152(1988)339" 1609 PHC1560113 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O8 Tl 2 Ba 2 Ca 1 Cu 2 O 8 1 1988 2 Tl2212 3.847 29.43 K 109.2 113.1 117.1 8.1 113.1 K/kbar 0.2 "TL2O3,BAO,CAO,CUO" 1 SIN(820C 10H)-C PRESSURE EFFECTS ON THE NEW HIGH-TC SUPERCONDUCTOR TL-BA-CA-CU-O 1988 "PHYSICA C,156(1988)113" 1610 PHC1560448 PLATE LIKE Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+X Bi 2 Sr 2 Ca 1 Cu 2 O 8+X 3 1988 6.5 3 Bi2212 5.427 5.441 30.77 K 80 85 85 K/kbar 0.2 410 40 7 0.7 9 29 1.6 600 "SRCO3,CUO,BI2O3,CAO" 1 "NOMINAL SR-CA-BI-CU=1-1-1-2,(800-850C 6H IN AIR)-SIN(820C 6H)" "PRESSURE EFFECTS, ANISOTROPIC TRANSPORT PROPERTIES AND UPPER CRITICAL FIELDS OF BI2SR2CACU2O8+C SINGLE CRYSTALS-CHARACTERIZATION OF NEEDLE-LIKE BI-SR-CA-CU-O CRYSTALS" 1988 "PHYSICA C,156(1988)448" 1611 PHC1560448 SEMI-COND. LIKE RESISTIVITY. IN SOLDER CONTACT Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+X Bi 2 Sr 2 Ca 1 Cu 2 O 8+X 3 1988 3 Bi2212 5.427 5.441 30.77 K 82 82 K/kbar 0.2 "PRESSURE EFFECTS, ANISOTROPIC TRANSPORT PROPERTIES AND UPPER CRITICAL FIELDS OF BI2SR2CACU2O8+C SINGLE CRYSTALS-CHARACTERIZATION OF NEEDLE-LIKE BI-SR-CA-CU-O CRYSTALS" 1988 "PHYSICA C,156(1988)448" 1612 PHC1660019 "LAT=305K,LATA=3.8444,LATC=9.0744(15K)" Tl1Ba1.2La0.8Cu1O5 Tl 1 Ba 1.2 La 0.8 Cu 1 O 5 1990 P4/MMM 3.848 9.091 K 52 52 "TL2O3,CUO,LA2O3,BA-PEROXIDE" 0 "TLBA1.2LA0.8CUO5: A SUPERCONDUCTOR PRODUCED BY REDUCTION, RATHER THAN OXIDATION, OF THE CUO2 PLANES" 1990 "E.I. DU PONT DE NEMOURS, EXPERIMENTAL STATION, P.O. BOX 80262,WILMINGTON, DE 19880-0262, USA" "PHYSICA C,166(1990)19" "TL,BA,LA,CU,O" 1613 PHC1660015 1X1.5X0.3MM3 TUNGSTEN NEEDLE Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+X Bi 2 Sr 2 Ca 1 Cu 2 O 8+X 3 1990 Bi2212 K 80 80 7.8 1 0 MIXTURE-(950C IN AIR)-C(1C/H) TO BELOW 600C SUPERCONDUCTING ENERGY GAP OF SINGLE-CRYSTAL BI2XR2CA1CU2O8+ZBY ELECTRON TUNNELING 1990 "INSTITUTO DE INVESTIGACIONES EN MATERIALES. UNIJVERSIDAD NACIONAL AUTONOMA DE MEXICO, A. POSTAL 70-360 MEXICO." "PHYSICA C,166(1990)15" "BI,SR,CA,CU,O" 1614 PHC1650055 "Bi2(Sr,Ca)2Cu2O8" Bi2Sr1.5Ca1.5Cu2O8.19 Bi 2 Sr 1.5 Ca 1.5 Cu 2 O 8+X 8.19 1990 3 Bi2212 5.402 5.408 30.699 K 83 83 0 "SPRAY-DRYING TECHNIQUE,METAL NITRATE-SPRAY(200C)-CAL(850C16H)-OXYGEN CONTROL BY ANN(600C AT VARIOUS O2 PRESSURE)" HOLE CONCENTRATION AND TC IN BI2SR2CACU2O8+Z 1990 "PHYSICA C,165(1990)55" 1615 PHC1650055 "Bi2(Sr,Ca)2Cu2O8" Bi2Sr1.5Ca1.5Cu2O8.22 Bi 2 Sr 1.5 Ca 1.5 Cu 2 O 8+X 8.22 1990 3 Bi2212 5.396 5.4 30.635 K 73 73 0 "SPRAY-DRYING TECHNIQUE,METAL NITRATE-SPRAY(200C)-CAL(850C16H)-OXYGEN CONTROL BY ANN(600C AT VARIOUS O2 PRESSURE)" HOLE CONCENTRATION AND TC IN BI2SR2CACU2O8+Z 1990 "PHYSICA C,165(1990)55" 1616 PHC1650055 "Bi2(Sr,Ca)2Cu2O8" Bi2Sr1.5Ca1.5Cu2O8.25 Bi 2 Sr 1.5 Ca 1.5 Cu 2 O 8+X 8.25 1990 3 Bi2212 5.396 5.404 30.618 K 67 67 0 "SPRAY-DRYING TECHNIQUE,METAL NITRATE-SPRAY(200C)-CAL(850C16H)-OXYGEN CONTROL BY ANN(600C AT VARIOUS O2 PRESSURE)" HOLE CONCENTRATION AND TC IN BI2SR2CACU2O8+Z 1990 "PHYSICA C,165(1990)55" 1617 PHC1650055 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+X Bi 2 Sr 2 Ca 1 Cu 2 O 8+X 1990 3 Bi2212 5.407 5.415 30.874 K 83 83 0 "SPRAY-DRYING TECHNIQUE,METAL NITRATE-SPRAY(200C)-CAL(850C16H)-OXYGEN CONTROL BY ANN(600C AT VARIOUS O2 PRESSURE)" HOLE CONCENTRATION AND TC IN BI2SR2CACU2O8+Z 1990 "PHYSICA C,165(1990)55" 1618 PHC1650055 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+X Bi 2 Sr 2 Ca 1 Cu 2 O 8+X 1990 3 Bi2212 5.401 5.408 30.788 K 68 68 0 "SPRAY-DRYING TECHNIQUE,METAL NITRATE-SPRAY(200C)-CAL(850C16H)-OXYGEN CONTROL BY ANN(600C AT VARIOUS O2 PRESSURE)" HOLE CONCENTRATION AND TC IN BI2SR2CACU2O8+Z 1990 "PHYSICA C,165(1990)55" 1619 PHC1650055 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+X Bi 2 Sr 2 Ca 1 Cu 2 O 8+X 1990 3 Bi2212 5.401 5.412 30.781 K 64 64 0 "SPRAY-DRYING TECHNIQUE,METAL NITRATE-SPRAY(200C)-CAL(850C16H)-OXYGEN CONTROL BY ANN(600C AT VARIOUS O2 PRESSURE)" HOLE CONCENTRATION AND TC IN BI2SR2CACU2O8+Z 1990 "PHYSICA C,165(1990)55" 1620 PHC1650055 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.5Y0.5Cu2O8.33 Bi 2 Sr 2 Ca 0.5 Y 0.5 Cu 2 O 8+Z 8.33 1 1990 3 Bi2212 FMMM 69 5.416 5.439 30.43 K 40 40 0 "SPRAY-DRYING TECHNIQUE,METAL NITRATE-SPRAY(200C)-CAL(850C16H)-OXYGEN CONTROL BY ANN(600C AT VARIOUS O2 PRESSURE)" HOLE CONCENTRATION AND TC IN BI2SR2CACU2O8+Z 1990 "PHYSICA C,165(1990)55" 1621 PHC1650055 T2<4K "Bi2SR2(Ca,Y)Cu2O8" Bi2Sr2Ca0.25Y0.75Cu2O8.41 Bi 2 Sr 2 Ca 0.25 Y 0.75 Cu 2 O 8+Z 8.41 1 1990 3 Bi2212 5.424 5.454 30.28 K 0 "SPRAY-DRYING TECHNIQUE,METAL NITRATE-SPRAY(200C)-CAL(850C16H)-OXYGEN CONTROL BY ANN(600C AT VARIOUS O2 PRESSURE)" HOLE CONCENTRATION AND TC IN BI2SR2CACU2O8+Z 1990 "PHYSICA C,165(1990)55" 1622 PHC1650055 T2<4K Bi2Sr2YCu2O8 Bi2Sr2Y1Cu2O8.51 Bi 2 Sr 2 Y 1 Cu 2 O 8+Z 8.51 1 1990 3 Bi2212 5.432 5.471 30.204 K 0 "SPRAY-DRYING TECHNIQUE,METAL NITRATE-SPRAY(200C)-CAL(850C16H)-OXYGEN CONTROL BY ANN(600C AT VARIOUS O2 PRESSURE)" HOLE CONCENTRATION AND TC IN BI2SR2CACU2O8+Z 1990 "PHYSICA C,165(1990)55" 1623 PHC1650055 DENS=60% OF X-RAY DENS Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.23 Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 8.23 1 1990 3 Bi2212 69 5.403 5.407 30.851 K 70 70 0 "SPRAY-DRYING TECHNIQUE,METAL NITRATE-SPRAY(200C)-CAL(850C16H)-OXYGEN CONTROL BY ANN(600C AT VARIOUS O2 PRESSURE)" HOLE CONCENTRATION AND TC IN BI2SR2CACU2O8+Z 1990 "PHYSICA C,165(1990)55" 1624 PHC1650055 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.9Y0.1Cu2O8.23 Bi 2 Sr 2 Ca 0.9 Y 0.1 Cu 2 O 8+Z 8.23 1 1990 3 Bi2212 5.407 5.416 30.807 K 90 90 0 "SPRAY-DRYING TECHNIQUE,METAL NITRATE-SPRAY(200C)-CAL(850C16H)-OXYGEN CONTROL BY ANN(600C AT VARIOUS O2 PRESSURE)" HOLE CONCENTRATION AND TC IN BI2SR2CACU2O8+Z 1990 "PHYSICA C,165(1990)55" 1625 PHC1650055 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.7Y0.3Cu2O8.3 Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 2 O 8+Z 8.3 1 1990 3 Bi2212 5.41 5.425 30.619 K 86 86 0 "SPRAY-DRYING TECHNIQUE,METAL NITRATE-SPRAY(200C)-CAL(850C16H)-OXYGEN CONTROL BY ANN(600C AT VARIOUS O2 PRESSURE)" HOLE CONCENTRATION AND TC IN BI2SR2CACU2O8+Z 1990 "PHYSICA C,165(1990)55" 1626 PHC1650055 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.65Y0.35Cu2O8.3 Bi 2 Sr 2 Ca 0.65 Y 0.35 Cu 2 O 8+Z 8.3 1 1990 3 Bi2212 5.412 5.428 30.54 K 74 74 0 "SPRAY-DRYING TECHNIQUE,METAL NITRATE-SPRAY(200C)-CAL(850C16H)-OXYGEN CONTROL BY ANN(600C AT VARIOUS O2 PRESSURE)" HOLE CONCENTRATION AND TC IN BI2SR2CACU2O8+Z 1990 "PHYSICA C,165(1990)55" 1627 PHC1650055 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.6Y0.4Cu2O8.29 Bi 2 Sr 2 Ca 0.6 Y 0.4 Cu 2 O 8+Z 8.29 1 1990 3 Bi2212 5.414 5.431 30.52 K 64 64 0 "SPRAY-DRYING TECHNIQUE,METAL NITRATE-SPRAY(200C)-CAL(850C16H)-OXYGEN CONTROL BY ANN(600C AT VARIOUS O2 PRESSURE)" HOLE CONCENTRATION AND TC IN BI2SR2CACU2O8+Z 1990 "PHYSICA C,165(1990)55" 1628 PHC1660009 MOMENT/ER ErBa2Cu3O7 Er1Ba2Cu3O7 Er 1 Ba 2 Cu 3 O Z 7 1 1990 4.8 0.62 3 Y123 K 92 92 "ER2O3,BACO3,CUO" 1 "HEAT(4K/MIN) TO 1228K-(1228K 24H IN O2)-ANN(1228K 24H IN AIR)-C(0.5K/MIN),OXYGEN CONTROL BY ANN(IN VARIOUS O2 PRESSURE)" 2-D AND 3-D MAGNETIC ORDERING OF ER IN ERBA2CU3OX(6-0.35 ANN(1080C 6H IN 300ATM O2)" THERMAL CONDUCTIVITY OF HIGH-TC OXIDES 1990 THERMAL CONDUCTIVITY "INSTITUTE FOR MOLECULAR SCIENCE, OKAZAKI 444, JAPAN" "SOLID STATE COMMUN.,74(1990)951" "LA,BA,SR,CU,O" 1717 SSC0740951 "(La,Sr)2CuO4" La1.6Sr0.4Cu1O4 La 1.6 Sr 0.4 Cu 1 O 4 1 1990 1 T K THC1717 "LA2O3,SRCO3,CUO" 0 "CAL(900C 30H)-SIN(1100C 60H)-FC,FOR X>0.35 ANN(1080C 6H IN 300ATM O2)" THERMAL CONDUCTIVITY OF HIGH-TC OXIDES 1990 THERMAL CONDUCTIVITY "INSTITUTE FOR MOLECULAR SCIENCE, OKAZAKI 444, JAPAN" "SOLID STATE COMMUN.,74(1990)951" "LA,BA,SR,CU,O" 1718 SSC0740951 "(La,Sr)2CuO4" La1.5Sr0.5Cu1O4 La 1.5 Sr 0.5 Cu 1 O 4 1 1990 1 T K THC1718 "LA2O3,SRCO3,CUO" 0 "CAL(900C 30H)-SIN(1100C 60H)-FC,FOR X>0.35 ANN(1080C 6H IN 300ATM O2)" THERMAL CONDUCTIVITY OF HIGH-TC OXIDES 1990 THERMAL CONDUCTIVITY "INSTITUTE FOR MOLECULAR SCIENCE, OKAZAKI 444, JAPAN" "SOLID STATE COMMUN.,74(1990)951" "LA,BA,SR,CU,O" 1719 SSC0740951 "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 1 1990 1 T K THC1719 "LA2O3,SRCO3,CUO" 0 "CAL(900C 30H)-SIN(1100C 60H)-FC,FOR X>0.35 ANN(1080C 6H IN 300ATM O2)" THERMAL CONDUCTIVITY OF HIGH-TC OXIDES 1990 THERMAL CONDUCTIVITY "INSTITUTE FOR MOLECULAR SCIENCE, OKAZAKI 444, JAPAN" "SOLID STATE COMMUN.,74(1990)951" "LA,BA,SR,CU,O" 1720 SSC0740951 "(La,Sr)2CuO4" La1.75Sr0.25Cu1O4 La 1.75 Sr 0.25 Cu 1 O 4 1 1990 1 T K THC1720 "LA2O3,SRCO3,CUO" 0 "CAL(900C 30H)-SIN(1100C 60H)-FC,FOR X>0.35 ANN(1080C 6H IN 300ATM O2)" THERMAL CONDUCTIVITY OF HIGH-TC OXIDES 1990 THERMAL CONDUCTIVITY "INSTITUTE FOR MOLECULAR SCIENCE, OKAZAKI 444, JAPAN" "SOLID STATE COMMUN.,74(1990)951" "LA,BA,SR,CU,O" 1721 SSC0740951 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1990 1 T K 36.4 36.4 THC1721 "LA2O3,SRCO3,CUO" 0 "CAL(900C 30H)-SIN(1100C 60H)-FC,FOR X>0.35 ANN(1080C 6H IN 300ATM O2)" THERMAL CONDUCTIVITY OF HIGH-TC OXIDES 1990 THERMAL CONDUCTIVITY "INSTITUTE FOR MOLECULAR SCIENCE, OKAZAKI 444, JAPAN" "SOLID STATE COMMUN.,74(1990)951" "LA,BA,SR,CU,O" 1722 SSC0740951 YBa2Cu3O7 Y1Ba2Cu3O6.7 Y 1 Ba 2 Cu 3 O 6.7 6.7 3 1990 3 Y123 K 60 60 THC1722 "LA2O3,SRCO3,CUO" 0 "CAL(900C 30H)-SIN(1100C 60H)-FC,FOR X>0.35 ANN(1080C 6H IN 300ATM O2)" THERMAL CONDUCTIVITY OF HIGH-TC OXIDES 1990 THERMAL CONDUCTIVITY "INSTITUTE FOR MOLECULAR SCIENCE, OKAZAKI 444, JAPAN" "SOLID STATE COMMUN.,74(1990)951" "LA,BA,SR,CU,O" 1723 SSC0740951 Nd2CuO4 Nd2Cu1O4 Nd 2 Cu 1 O 4 3 1990 T' K THC1723 "LA2O3,SRCO3,CUO" 0 "CAL(900C 30H)-SIN(1100C 60H)-FC,FOR X>0.35 ANN(1080C 6H IN 300ATM O2)" THERMAL CONDUCTIVITY OF HIGH-TC OXIDES 1990 THERMAL CONDUCTIVITY "INSTITUTE FOR MOLECULAR SCIENCE, OKAZAKI 444, JAPAN" "SOLID STATE COMMUN.,74(1990)951" "LA,BA,SR,CU,O" 1724 PR0422554 "GdBa2(Cu,Zn)3O7" Gd1Ba2Cu2.925Zn0.075Oz Gd 1 Ba 2 Cu 2.925 Zn 0.075 O z 1 1990 7.91 1.7 2.12 3 Y123 3.836 3.891 11.682 K 54 54 0 USUAL SOLID STATE REACTION EFFECTS OF NI AND ZN SUBSTITUTION ON MAGNETIC PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR GDBA2CU3O7-Y 1990 8 "DEPARTMENT OF PHYSICS, PEKING UNIVERSITY, BEIJING, PEOPLE'S REPUBLIC OF CHINA" "PHYS.REV.B,42(1990)2554" "GD,BA,CU,O" 1725 PR0422554 "GdBa2(Cu,Zn)3O7" Gd1Ba2Cu2.85Zn0.15Oz Gd 1 Ba 2 Cu 2.85 Zn 0.15 O z 1 1990 7.91 -0.7 2.06 3 Y123 3.833 3.887 11.662 K 37 37 0 USUAL SOLID STATE REACTION EFFECTS OF NI AND ZN SUBSTITUTION ON MAGNETIC PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR GDBA2CU3O7-Y 1990 8 "DEPARTMENT OF PHYSICS, PEKING UNIVERSITY, BEIJING, PEOPLE'S REPUBLIC OF CHINA" "PHYS.REV.B,42(1990)2554" "GD,BA,CU,O" 1726 PR0422554 "GdBa2(Cu,Zn)3O7" Gd1Ba2Cu2.775Zn0.225Oz Gd 1 Ba 2 Cu 2.775 Zn 0.225 O z 1 1990 7.9 -2.4 2.05 3 Y123 3.841 3.894 11.662 K 35 35 0 USUAL SOLID STATE REACTION EFFECTS OF NI AND ZN SUBSTITUTION ON MAGNETIC PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR GDBA2CU3O7-Y 1990 8 "DEPARTMENT OF PHYSICS, PEKING UNIVERSITY, BEIJING, PEOPLE'S REPUBLIC OF CHINA" "PHYS.REV.B,42(1990)2554" "GD,BA,CU,O" 1727 PR0422554 "GdBa2(Cu,Zn)3O7" Gd1Ba2Cu2.7Zn0.3Oz Gd 1 Ba 2 Cu 2.7 Zn 0.3 O z 1 1990 7.93 1.1 1.99 3 Y123 3.845 3.889 11.647 K 0 USUAL SOLID STATE REACTION EFFECTS OF NI AND ZN SUBSTITUTION ON MAGNETIC PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR GDBA2CU3O7-Y 1990 8 "DEPARTMENT OF PHYSICS, PEKING UNIVERSITY, BEIJING, PEOPLE'S REPUBLIC OF CHINA" "PHYS.REV.B,42(1990)2554" "GD,BA,CU,O" 1728 PR0422554 GdBa2Cu3O7 Gd1Ba2Cu3OZ Gd 1 Ba 2 Cu 3 O Z 1 1990 7.98 0.6 2.19 3 Y123 3.834 3.897 11.675 K 91 91 0 USUAL SOLID STATE REACTION EFFECTS OF NI AND ZN SUBSTITUTION ON MAGNETIC PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR GDBA2CU3O7-Y 1990 8 "DEPARTMENT OF PHYSICS, PEKING UNIVERSITY, BEIJING, PEOPLE'S REPUBLIC OF CHINA" "PHYS.REV.B,42(1990)2554" "GD,BA,CU,O" 1729 PR0422554 "GdBa2(Cu,Ni)3O7" Gd1Ba2Cu2.925Ni0.075OZ Gd 1 Ba 2 Cu 2.925 Ni 0.075 O Z 1 1990 7.95 2.2 2.11 3 Y123 3.821 3.876 11.633 K 79 79 0 USUAL SOLID STATE REACTION EFFECTS OF NI AND ZN SUBSTITUTION ON MAGNETIC PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR GDBA2CU3O7-Y 1990 8 "DEPARTMENT OF PHYSICS, PEKING UNIVERSITY, BEIJING, PEOPLE'S REPUBLIC OF CHINA" "PHYS.REV.B,42(1990)2554" "GD,BA,CU,O" 1730 PR0422554 "GdBa2(Cu,Ni)3O7" Gd1Ba2Cu2.85Ni0.15OZ Gd 1 Ba 2 Cu 2.85 Ni 0.15 O Z 1 1990 8.01 0.5 2.06 3 Y123 3.834 3.888 11.677 K 71 71 0 USUAL SOLID STATE REACTION EFFECTS OF NI AND ZN SUBSTITUTION ON MAGNETIC PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR GDBA2CU3O7-Y 1990 8 "DEPARTMENT OF PHYSICS, PEKING UNIVERSITY, BEIJING, PEOPLE'S REPUBLIC OF CHINA" "PHYS.REV.B,42(1990)2554" "GD,BA,CU,O" 1731 PR0422554 "GdBa2(Cu,Ni)3O7" Gd1Ba2Cu2.775Ni0.225OZ Gd 1 Ba 2 Cu 2.775 Ni 0.225 O Z 1 1990 7.93 3.2 1.99 3 Y123 3.833 3.882 11.65 K 65 65 0 USUAL SOLID STATE REACTION EFFECTS OF NI AND ZN SUBSTITUTION ON MAGNETIC PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR GDBA2CU3O7-Y 1990 8 "DEPARTMENT OF PHYSICS, PEKING UNIVERSITY, BEIJING, PEOPLE'S REPUBLIC OF CHINA" "PHYS.REV.B,42(1990)2554" "GD,BA,CU,O" 1732 PR0422554 "GdBa2(Cu,Ni)3O7" Gd1Ba2Cu2.7Ni0.3OZ Gd 1 Ba 2 Cu 2.7 Ni 0.3 O Z 1 1990 8 -0.2 1.9 3 Y123 3.833 3.878 11.641 K 0 USUAL SOLID STATE REACTION EFFECTS OF NI AND ZN SUBSTITUTION ON MAGNETIC PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR GDBA2CU3O7-Y 1990 8 "DEPARTMENT OF PHYSICS, PEKING UNIVERSITY, BEIJING, PEOPLE'S REPUBLIC OF CHINA" "PHYS.REV.B,42(1990)2554" "GD,BA,CU,O" 1733 PR0422551 "(Ba,K)BiO3" Ba0.5K0.5Bi1O3 Ba 0.5 K 0.5 Bi 1 O 3 1 1990 7.29 1 BKBO 4.29 K 23 24 24 15.4 0.916 45.3 "FROM MAGNETIZATION,400 MESH PARTICLE" 803 150000 "BAO,K2O,BI2O3" 0 ANN(700C 1H IN N2)-ANN(450C 2H IN O2)-FC MAGNETIC PROPERTIES OF POLYCRYSTALLINE BA0.5K0.5BIO3 1990 8 MAGNETIZATION "DEPARTMENT OF PHYSICS, NATIONAL TAIWAN UNIVERSITY, TAIPEI, TAIWAN" "PHY.REV.B,42(1990)2551" "BA,K,BI,O" 1734 PR0416541 "(Bi,Pb)2Sr2Ca3Cu4Oz" Bi1.7Pb0.3Sr2Ca3Cu4OZ Bi 1.7 Pb 0.3 Sr 2 Ca 3 Cu 4 O Z 1 1990 4 Bi2223 3.779 3.834 37.15 K 107 110 110 900 184 2.43 13.5 880 48000 5.3 34.6 418 "PBO,BI2O3,SRCO3,CACO3,CUO" 0 CAL(800-810C 12H)-SIN(870-880C 60+180H IN AIR)-FC TO 500C-Q IN AIR "PREPARATION PROCESS, CRYSTAL STRUCTURE, AND PHYSICAL PROPERTIES OF THE 110-K SINGLE-PHASE PB-BI-SR-CA-CU-O SUPERCONDUCTOR" 1990 4 "DEPARTMENT OF MATERIALS SCIENCE AND ENGINEERING, UNIVERSITY OFSCIENCE AND TECHNOLOGY, BEIJING, BEIJING, 10083, CHINA" "PHYS.REV.B,41(1990)6541" "PB,BI,SR,CA,CU,O" 1735 PR04111681 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1990 Y123 K 93 93 3.5 100 0 Infrared absorptivity of YBa2Cu3O7-x crystal 1990 6 "Center for Superconductivity Research, Physics Department, University of Maryland, College Park, Maryland 20742 and Laboratory for Physical Sciences, College Park, Maryland 20740" "Phys.Rev.B,41(1990)11681" 1736 PR0422558 NEELT BY ESR "GdBa2(Cu,Ni)3O7" Gd1Ba2CuNiOY Gd 1 Ba 2 Cu Ni O Y 1 1990 1 Y123 K "GD2O3,BACO3,NIO,CUO" 0 SIN(850C 2H IN N2)-C-SIN(950C 24H IN O2)-C(20C/H) TO 600C-C(10C/H) TO RT MAGNETIC INTERACTIONOS OF GD IN GDBA2 (CU1-XNIX)3OY COMPOUNDS 1990 8 "INSTITUTE OF PHYSICS, UNIVERSITY OF TSUKUBA, TSUKUBA, IBARAKI305, JAPAN" "PHY.REV.B,42(1990)2558" "GD,BA,CU,NI,O" 1737 PR0416605 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1990 5.24 3 Y123 K 90 90 TC1737 "BACO3,Y2O3,CUO" 1 "YBA2CUO5 ABOUT 2%,CUO 1% , (950C 24H IN AIR)-(900C 24H IN O2)-C(12C/H) TO RT-(930C 24H IN O2)-C(12C/H) TO RT" THERMAL CONDUCTIVITY OF POLYCRYSTALLINE YBA2CU3O7-Z IN A MAGNETIC FIELD 1990 4 "DEPARTMENT OF PHYSICS AND MATERIALS RESEARCH LABORATORY, UNIVERSITY OF ILLINOIS AT URBANA-CHAMPAIGN, URBANA, ILLINOIS 61801" "PHYS.REV.B,41(1990)6605" "Y,BA,CU,O" 1738 PR0416418 Bi2.05Pb0.05Sr1.9Cu1OY Bi 2.05 Pb 0.05 Sr 1.9 Cu 1 O Y 1 1990 5.362 24.616 K 9.4 9.4 1 "PHYSICAL PROPERTIES OF BI2SU2CAN-1CUNOY (N=1,2,3)" 1990 4 "HOLE CONCENTRATIONS ,SUSCEPTIBILITIES ,INFRARED" "DEPARTMENT OF APPLIED PHYSICS, THE UNIVERSITY OF TOKYO, 7-3-1HONGO, BUNKYO-KU, TOKYO 113, JAPAN" "PHYS.REV.B,41(1990)6418" "BI,SR,CA,CU,O,PB" 1739 PR0416418 Bi2Pb0.1Sr1.9Cu1OY Bi 2 Pb 0.1 Sr 1.9 Cu 1 O Y 1990 5.361 24.625 K 8.4 8.4 1 "PHYSICAL PROPERTIES OF BI2SU2CAN-1CUNOY (N=1,2,3)" 1990 4 "HOLE CONCENTRATIONS ,SUSCEPTIBILITIES ,INFRARED" "DEPARTMENT OF APPLIED PHYSICS, THE UNIVERSITY OF TOKYO, 7-3-1HONGO, BUNKYO-KU, TOKYO 113, JAPAN" "PHYS.REV.B,41(1990)6418" "BI,SR,CA,CU,O,PB" 1740 PR0416418 Bi1.95Pb0.15Sr1.9Cu1OY Bi 1.95 Pb 0.15 Sr 1.9 Cu 1 O Y 1990 5.34 5.37 24.654 K 6.4 6.4 1 "PHYSICAL PROPERTIES OF BI2SU2CAN-1CUNOY (N=1,2,3)" 1990 4 "HOLE CONCENTRATIONS ,SUSCEPTIBILITIES ,INFRARED" "DEPARTMENT OF APPLIED PHYSICS, THE UNIVERSITY OF TOKYO, 7-3-1HONGO, BUNKYO-KU, TOKYO 113, JAPAN" "PHYS.REV.B,41(1990)6418" "BI,SR,CA,CU,O,PB" 1741 PR0416418 Bi1.9Pb0.2Sr1.9Cu1OY Bi 1.9 Pb 0.2 Sr 1.9 Cu 1 O Y 1990 5.336 5.385 24.649 K 4.7 4.7 1 "PHYSICAL PROPERTIES OF BI2SU2CAN-1CUNOY (N=1,2,3)" 1990 4 "HOLE CONCENTRATIONS ,SUSCEPTIBILITIES ,INFRARED" "DEPARTMENT OF APPLIED PHYSICS, THE UNIVERSITY OF TOKYO, 7-3-1HONGO, BUNKYO-KU, TOKYO 113, JAPAN" "PHYS.REV.B,41(1990)6418" "BI,SR,CA,CU,O,PB" 1742 PR0416418 Bi1.8Pb0.3Sr1.9Cu1OY Bi 1.8 Pb 0.3 Sr 1.9 Cu 1 O Y 1990 5.303 5.371 24.53 K 1 "PHYSICAL PROPERTIES OF BI2SU2CAN-1CUNOY (N=1,2,3)" 1990 4 "HOLE CONCENTRATIONS ,SUSCEPTIBILITIES ,INFRARED" "DEPARTMENT OF APPLIED PHYSICS, THE UNIVERSITY OF TOKYO, 7-3-1HONGO, BUNKYO-KU, TOKYO 113, JAPAN" "PHYS.REV.B,41(1990)6418" "BI,SR,CA,CU,O,PB" 1743 PR0416418 Bi1.7Pb0.4Sr1.9Cu1OY Bi 1.7 Pb 0.4 Sr 1.9 Cu 1 O Y 1990 5.284 5.391 24.584 K 1 "PHYSICAL PROPERTIES OF BI2SU2CAN-1CUNOY (N=1,2,3)" 1990 4 "HOLE CONCENTRATIONS ,SUSCEPTIBILITIES ,INFRARED" "DEPARTMENT OF APPLIED PHYSICS, THE UNIVERSITY OF TOKYO, 7-3-1HONGO, BUNKYO-KU, TOKYO 113, JAPAN" "PHYS.REV.B,41(1990)6418" "BI,SR,CA,CU,O,PB" 1744 SSC0640727 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1987 Y123 3.822 3.885 11.66 K 3.66 4 0 INFRARED AND RAMAN SPECTRA OF THE MBA2CU3O7-TYPE HIGH-TC SUPERCONDUCTORS 1987 "MAX-PLANK-INSTITUT FUR FESKORPEFORSCHUNG, HEISENGERGSTR. 1, D-7000 STUTTGART 80, FEDERAL REPUBLIC OF GERMANY" "SOLID STATE COMMUN.,64(1987)727" 1745 SSC0640727 GdBa2Cu3O7 Gd1Ba2Cu3O7 Gd 1 Ba 2 Cu 3 O 7 1987 Y123 K 3.33 4 0 INFRARED AND RAMAN SPECTRA OF THE MBA2CU3O7-TYPE HIGH-TC SUPERCONDUCTORS 1987 "MAX-PLANK-INSTITUT FUR FESKORPEFORSCHUNG, HEISENGERGSTR. 1, D-7000 STUTTGART 80, FEDERAL REPUBLIC OF GERMANY" "SOLID STATE COMMUN.,64(1987)727" 1746 SSC0640727 SmBa2Cu3O7 Sm1Ba2Cu3O7 Sm 1 Ba 2 Cu 3 O 7 1987 Y123 3.85 3.902 11.708 K 3.17 4 0 INFRARED AND RAMAN SPECTRA OF THE MBA2CU3O7-TYPE HIGH-TC SUPERCONDUCTORS 1987 "MAX-PLANK-INSTITUT FUR FESKORPEFORSCHUNG, HEISENGERGSTR. 1, D-7000 STUTTGART 80, FEDERAL REPUBLIC OF GERMANY" "SOLID STATE COMMUN.,64(1987)727" 1747 SSC0640727 HoBa2Cu3O7 Ho1Ba2Cu3O7 Ho 1 Ba 2 Cu 3 O 7 1987 Y123 3.818 3.89 11.669 K 93 97 95 3.36 4 0 INFRARED AND RAMAN SPECTRA OF THE MBA2CU3O7-TYPE HIGH-TC SUPERCONDUCTORS 1987 "MAX-PLANK-INSTITUT FUR FESKORPEFORSCHUNG, HEISENGERGSTR. 1, D-7000 STUTTGART 80, FEDERAL REPUBLIC OF GERMANY" "SOLID STATE COMMUN.,64(1987)727" 1748 SSC0640727 EuBa2Cu3O7 Eu1Ba2Cu3O7 Eu 1 Ba 2 Cu 3 O 7 1987 Y123 K 3.18 4 0 INFRARED AND RAMAN SPECTRA OF THE MBA2CU3O7-TYPE HIGH-TC SUPERCONDUCTORS 1987 "MAX-PLANK-INSTITUT FUR FESKORPEFORSCHUNG, HEISENGERGSTR. 1, D-7000 STUTTGART 80, FEDERAL REPUBLIC OF GERMANY" "SOLID STATE COMMUN.,64(1987)727" 1749 SSC0650219 "(Y,Ho)Ba2Cu3O7" Y0.5Ho0.5Ba2Cu3O7-Z Y 0.5 Ho 0.5 Ba 2 Cu 3 O 7-Z 1988 Y123 3.827 3.896 11.688 K 3.6 2 0 HIGH SUPERCONDUCTORS MBA2CU3O7-X WITH M=MIXED RARE EARTHS ANDY: LOW FREQUENCY PHONON PEAK ENGINEERING 1988 "MAX-PLANCK-INSTITUT FUR FESTKORPERFORSCHUNG,HEISENBERGSTRASSE1, D-7000 STUTTGART 80, FEDERAL REPUBLIC OF GERMANY" SOLID STATE COMMUN.65(1990)219 "Y,SM,HO,BA,CU,O" 1750 PRB0370652 DyBa2Cu3O7 Dy1Ba2Cu3O7-Z Dy 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 90 90 3.2 0 SUPERCONDUCTING ENERGY GAP IN M(1)BA(2)CU(3)O(7-Z)-TYPE MATERIALS 1988 1 "ENERGY GAP ,FAR-INFRARED ,REFLECTA" "MAX-PLANCK-INSTITUT FUR FESTKORPERFORSCHUNG,HEISENBERGSTRASSE,GERMANY" "PHYS.REV.B,37(1988)652" "R,BA,CU,O" 1751 PRB0370652 "(Sm,Y)Ba2Cu3O7" Sm0.5Y0.5Ba2Cu3O7-Z Sm 0.5 Y 0.5 Ba 2 Cu 3 O 7-Z 1988 Y123 3.836 3.891 11.681 K 3.2 2 0 SUPERCONDUCTING ENERGY GAP IN M(1)BA(2)CU(3)O(7-Z)-TYPE MATERIALS 1988 1 "ENERGY GAP ,FAR-INFRARED ,REFLECTA" "MAX-PLANCK-INSTITUT FUR FESTKORPERFORSCHUNG,HEISENBERGSTRASSE,GERMANY" "PHYS.REV.B,37(1988)652" "R,BA,CU,O" 1752 PRB0370652 "(Sm,Ho)Ba2Cu3O7" Sm0.5Ho0.5Ba2Cu3O7-Z Sm 0.5 Ho 0.5 Ba 2 Cu 3 O 7-Z 1988 Y123 3.841 3.899 11.699 K 3.2 2 0 SUPERCONDUCTING ENERGY GAP IN M(1)BA(2)CU(3)O(7-Z)-TYPE MATERIALS 1988 1 "ENERGY GAP ,FAR-INFRARED ,REFLECTA" "MAX-PLANCK-INSTITUT FUR FESTKORPERFORSCHUNG,HEISENBERGSTRASSE,GERMANY" "PHYS.REV.B,37(1988)652" "R,BA,CU,O" 1753 SSC0720085 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.88Fe0.12OZ Y 1 Ba 2 Cu 2.88 Fe 0.12 O Z 1989 Y123 K 76.1 76.1 1.17 2 0 USUAL SINTERING PROCESS OBSERVATION OF AN ENERGY GAP IN THE FAR INFRARED SPECTRA OF IRON-DOPED YBA2CU3OX SUPERCONDUCTORS 1989 10 "FAR INFRARED ,REFLECTANCE ,ENERGY GAP ,OXYGEN CONTENT" "MAX-PLANCE-INSTITUT FUR FESTKORPERFORSCHUNG HEISENBERGSTR. 1,7000 STUTTGART 80" SOLID STATE COMMUN.72(1989)85 "Y,BA,CU,O,FE" 1754 SSC0720085 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.91Fe0.09OZ Y 1 Ba 2 Cu 2.91 Fe 0.09 O Z 1989 Y123 K 1.51 2 0 USUAL SINTERING PROCESS OBSERVATION OF AN ENERGY GAP IN THE FAR INFRARED SPECTRA OF IRON-DOPED YBA2CU3OX SUPERCONDUCTORS 1989 10 "FAR INFRARED ,REFLECTANCE ,ENERGY GAP ,OXYGEN CONTENT" "MAX-PLANCE-INSTITUT FUR FESTKORPERFORSCHUNG HEISENBERGSTR. 1,7000 STUTTGART 80" SOLID STATE COMMUN.72(1989)85 "Y,BA,CU,O,FE" 1755 SSC0720085 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.94Fe0.06OZ Y 1 Ba 2 Cu 2.94 Fe 0.06 O Z 1989 Y123 K 2.09 2 0 USUAL SINTERING PROCESS OBSERVATION OF AN ENERGY GAP IN THE FAR INFRARED SPECTRA OF IRON-DOPED YBA2CU3OX SUPERCONDUCTORS 1989 10 "FAR INFRARED ,REFLECTANCE ,ENERGY GAP ,OXYGEN CONTENT" "MAX-PLANCE-INSTITUT FUR FESTKORPERFORSCHUNG HEISENBERGSTR. 1,7000 STUTTGART 80" SOLID STATE COMMUN.72(1989)85 "Y,BA,CU,O,FE" 1756 PRB0360843 YBa2Cu3O7 Y1Ba2Cu3O7-Y Y 1 Ba 2 Cu 3 O 7-Y 1987 Y123 K 84 84 3.2 1 0 TUNNELING MEASUREMENTS ON THE HIGH-TC SUPERCONDUCTORS LA(1.85)SR(0.15)CU(1)O(4-Z) AND Y(1)BA(2)CU(3)O(7-Z) 1987 7 TUNNELING "RESEARCH INST. FOR MATERIALS,UNIV. OF NIJMEGEN,TOERNOOIVELD,NIJMEGEN,THE NETHERLANDS" "PHYS.REV.B,36(1987)843" 1757 PRB0358853 YBa2Cu3O7 Y1Ba2Cu3O9-Y Y 1 Ba 2 Cu 3 O 9-Y 1987 Y123 K 90 90 3.9 1 0 TUNNELING MEASUREMENT OF THE ENERGY GAP IN Y-BA-CU-O 1987 6 TUNNELING "UNIV. OF CALIFORNIA,BERKELEY,CALIFORNIA,USA" "PHYS.REV.B,35(1987)8853" 1758 PRB0375920 YBa2Cu3O7 Y1Ba2Cu3O7-Y Y 1 Ba 2 Cu 3 O 7-Y 1988 Y123 K 90 90 2.8 4 0 RAMAN SCATTERING FROM SUPERCONDUCTING GAP EXCITATIONS IN SINGLE-CRYSTAL Y(1)BA(2)CU(3)O(7-Z) 1988 4 "SINGLE CRYSTAL ,RAMAN ,ENERGY G" "DEPARTMENT OF PHYSICS AND MATERIALS RESEARCH LABORATORY,UNIVERSITY OF ILLINOIS AT URBANA-CHAMPAIGN,ILLINOIS" "PHYS.REV.B,37(1988)5920" "Y,BA,CU,O" 1759 PRL0582249 Y1Ba2Cu3.85O6.85 Y 1 Ba 2 Cu 3.85 O 6.85 6.85 1987 Y123 K 93 93 3.1 2 0 FAR-INFRARED CONDUCTIVITY OF THE HIGH-TC SUPERCONDUCTOR YBA2CU3O7 1987 5 GAP "INSTITUTE OF MATERIALS RESEARCH, MCMASTER UNIVERSITY,HAMILTON,ONTARIO L8S 4M1, CANADA" "PHYS.REV.LETT.,58(1987)2249" "Y,BA,CU,O" 1760 PR04111237 C-AXIS GAP YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1990 Y123 K 93 93 3 2 0 infrared studies of the superconducting energy gap and normal-state dynamics of the high-Tc superconductor YBa2Cu3O7 1990 "IBM Thomas J. Watson Research Center, Yorktown Heights, New York 10598" "Phys.Rev.B,41(1990)11237" 1761 PR04111237 AB PLANE GAP YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1990 Y123 K 93 93 8 2 0 infrared studies of the superconducting energy gap and normal-state dynamics of the high-Tc superconductor YBa2Cu3O7 1990 "IBM Thomas J. Watson Research Center, Yorktown Heights, New York 10598" "Phys.Rev.B,41(1990)11237" 1762 PRB0365586 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1987 Y123 K 90 90 5 5 0 MEASUREMENT OF THE ENERGY GAP OF Y(1)BA(2)CU(3)O(7) USING AC SUSCEPTIBILITY 1987 10 "ENERGY GAP ,SUSCEPTIBILITY" "PHYSICS DEPARTMENT,THE TECHNION,ISRAEL" "PHYS.REV.B,36(1987)5586" "Y,BA,CU,O" 1763 PR0352378 "(La,Sr)2CuO4" La1.83Sr0.17Cu1O4 La 1.83 Sr 0.17 Cu 1 O 4 1987 T K 37 37 1.3 6 0 1987 "Phys. Rev. B,?36(1987)2378" 1764 PRB0358826 "(La,Sr)2CuO4" La1.8Ba0.2Cu1O4-Y La 1.8 Ba 0.2 Cu 1 O 4-Y 1987 T K 25.6 25.6 3.5 7 0 SURFACE IMPEDANCE MEASUREMENTS IN LA(1.8)BA(0.2)CU(1)O(4-Y) 1987 6 "UNIV. OF CALIFORNIA,LOS ANGELES,LOS ANGELES,CALIFORNIA ,USA" "PHYS.REV.B,35(1987)8826" 1765 PRB0358829 "(La,Sr)2CuO4" La1.84Sr0.16Cu1O4-Y La 1.84 Sr 0.16 Cu 1 O 4-Y 1987 T K 38.5 38.5 2.7 2 0 FAR-INFRARED MEASUREMENT OF A2(Q)F(Q) IN SUPERCONDUCTING LA(1.85)SR(0.15)CU(1)O(4-Y) 1987 6 "CORNELL UNIV. ITHACA,NEW YORK,USA" "PHYS.REV.B,35(1987)8829" 1766 PRB0357228 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1987 T K 32 32 8 1 0 ELECTRON-TUNNELING STUDIES OF THIN FILMS OF HIGH-TC SUPERCONDUCTING LA-SR-CU-O 1987 5 "TUNNELING ,THIN FILM ,POINTCON" "DEPARTMENT OF APPLIED PHYSICS,STANFORD UNIVERSITY,CALIFORNIA" "PHYS.REV.B,35(1987)7228" "LA,SR,CU,O" 1767 PRB0358850 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1987 T K 35 35 13 1 0 POINT-CONTACT ELECTRON TUNNELING INTO THE HIGH-TC SUPERCONDUCTOR Y-BA-CU-O 1987 6 TUNNELING "STANFORD UNIV.,STANFORD,CALIFORNIA,USA" "PHYS.REV.B,35(1987)8850" 1768 PRB0358850 YBa2Cu3O7 Y1Ba2Cu3O7-Y Y 1 Ba 2 Cu 3 O 7-Y 1987 Y124 K 90 90 13 1 0 POINT-CONTACT ELECTRON TUNNELING INTO THE HIGH-TC SUPERCONDUCTOR Y-BA-CU-O 1987 6 TUNNELING "STANFORD UNIV.,STANFORD,CALIFORNIA,USA" "PHYS.REV.B,35(1987)8850" 1769 PRB0355327 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4-Y La 1.85 Sr 0.15 Cu 1 O 4-Y 1987 T K 36 36 2.4 2 0 ENERGY GAP IN THE HIGH-TC SUPERCONDUCTOR LA(1.85)SR(0.15)CU(1)O(4) 1987 4 "FAR-INFRARED ,ENERGY GAP" "DEPARTMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA,BERKELEY,CALIFORNIA" "PHYS.REV.B,35(1987)5327" "LA,SR,CU,O" 1770 PRB0357224 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4-Y La 1.85 Sr 0.15 Cu 1 O 4-Y 1987 T K 35.9 35.9 5.2 1 0 ENERGY GAP IN LA(1.85)SR(0.15)CU(1)O(4-Y) FROM POINT-CONTACT TUNNELING 1987 5 "TUNNELING ,ENERGY GAP" "MATERIALS SCIENCE DIVISION,ARGONNE NATIONAL LABORATORY,ILLINOIS" "PHYS.REV.B,35(1987)7224" "LA,SR,CU,O" 1771 PRB0355330 "(La,Ba)2CuO4" La1.85Ba0.15Cu1O4 La 1.85 Ba 0.15 Cu 1 O 4 1987 T K 28 28 1.95 2 0 MEASUREMENT OF THE SUPERCONDUCTING ENERGY GAP IN LA-BA-CU OXIDE AND LA-SR-CU OXIDE 1987 4 "FAR-INFRARED ,ENERGY GAP" "LABORATORY OF ATOMIC AND SOLID STATE PHYSICS AND MATERIALS SCIENCE CENTER,CORNELL UNIVERSITY,ITHACA,NEW YORK" "PHYS.REV.B,35(1987)5330" "LA,BA,CU,O,SR" 1772 PRB0355330 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1987 T K 36 36 2.7 2 0 MEASUREMENT OF THE SUPERCONDUCTING ENERGY GAP IN LA-BA-CU OXIDE AND LA-SR-CU OXIDE 1987 4 "FAR-INFRARED ,ENERGY GAP" "LABORATORY OF ATOMIC AND SOLID STATE PHYSICS AND MATERIALS SCIENCE CENTER,CORNELL UNIVERSITY,ITHACA,NEW YORK" "PHYS.REV.B,35(1987)5330" "LA,BA,CU,O,SR" 1773 PRB0357220 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4-Y La 1.85 Sr 0.15 Cu 1 O 4-Y 1987 T K 40 40 7 1 0 MEASUREMENTS OF THE SUPERCONDUCTING GAP OF LA-SR-CU-O WITH A SCANNING-TUNNELING MICROSCOPE 1987 5 "STM ,ENERGY GAP" "DEPARTMENT OF PHYSICS,UNIVERSITY OF TEXAS,AUSTIN,TEZAS" "PHYS.REV.B,35(1987)7220" "LA,SR,CU,O" 1774 PRB0357216 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4-Y La 1.85 Sr 0.15 Cu 1 O 4-Y 1987 T K 36 36 6.3 1 0 LOCAL TUNNELING MEASUREMENTS OF THE HIGH-TC SUPERCONDUCTOR LA(2-X)SR(X)CU(1)O(4-Y) 1987 5 "TUNNELING ,I-V CHARACTERISTIC ,STM" "IBM THOMAS J.WATSON LABORATORY,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,35(1987)7216" "LA,SR,CU,O" 1775 PRB0360736 "(La,Sr)2CuO4" La1.825Sr0.175Cu1O4 La 1.825 Sr 0.175 Cu 1 O 4 1987 T K 36 36 3.5 2 0 FAR-INFRARED REFLECTIVITY OF LA(2-X)SR(X)CU(1)O(4) 1987 7 "REFLECTANCE ,FAR-INFRARED" "AT&T BELL LAB.,MURRAY HILL,NEW JERSEY,USA" "PHYS.REV.B,36(1987)736" 1776 PRB0355334 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1987 T K 30 30 2.5 2 0 FAR-INFRARED MEASUREMENT OF THE ENERGY GAP OF LA(1.8)SR(0.2)CU(1)O(4) 1987 4 "FAR-INFRARED ,ENERGY GAP" "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,35(1987)5334" "LA,SR,CU,O" 1777 PRB0357232 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1987 T K 35 35 1.65 2 0 OBSERVATION OF A LOW-ENERGY INFRARED ANOMOLY IN SUPERCONDUCTING LA(1.85)SR(0.15)CU(1)O(4) 1987 5 "INFRARED ,PLASMA EDGE" "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,35(1987)7232" "LA,SR,CU,O" 1778 SSC0650873 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1988 T K 34 34 2.7 2 0 SPECIFIC HEAT AND FLUX CREEP FEATURE ON Y-BA-CU-O SYSTEM 1988 2 "THEORY ,SPECIFIC HEAT ,FLUX CRE" "INSTITUTE OF PHYSICS,CHINESE ACADEMY OF SCIENCES,BEIJING CHINA" "SOLID STATE COMMUN.,65(1988)873" "Y,BA,CU,O" 1779 PRB0358843 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4-Y La 1.85 Sr 0.15 Cu 1 O 4-Y 1987 T K 37 37 4.5 2 0 FAR-INFRARED MEASUREMENT OF THE GAP OF THE HIGH-TC SUPERCONDUCTOR LA(1.85)SR(0.15)CU(1)O(4-X) 1987 6 GAP "MCMASTER UNIV.,HAMILTON,ONTARIO,CANADA" "PHYS.REV.B,35(1987)8843" 1780 PRB0360843 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4-Y La 1.85 Sr 0.15 Cu 1 O 4-Y 1987 T K 33 33 4 1 0 TUNNELING MEASUREMENTS ON THE HIGH-TC SUPERCONDUCTORS LA(1.85)SR(0.15)CU(1)O(4-Z) AND Y(1)BA(2)CU(3)O(7-Z) 1987 7 TUNNELING "RESEARCH INST. FOR MATERIALS,UNIV. OF NIJMEGEN,TOERNOOIVELD,NIJMEGEN,THE NETHERLANDS" "PHYS.REV.B,36(1987)843" 1781 PRB0371587 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1988 T K 36 36 2.4 2 0 TEMPERATURE-DEPENDENT FAR-INFRARED REFLECTANCE OF LA-SR-CU-O AND LA-CA-CU-O:BARDEEN-COOPER-SCHRIEFFER ELECTRODYNAMICS BUT UNCERTAIN ENERGY GAP 1988 2 "FAR-INFRARED ,ENERGY GAP" "DEPARTMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA,BERKELEY,CALIFORNIA" "PHYS.REV.B,37(1988)1587" "LA,SR,CU,O,LA,CA,CU,O" 1782 PRB0371587 "(La,Ca)2CuO4" La1.85Ca0.15Cu1O4 La 1.85 Ca 0.15 Cu 1 O 4 1988 T K 17 17 2.4 2 0 TEMPERATURE-DEPENDENT FAR-INFRARED REFLECTANCE OF LA-SR-CU-O AND LA-CA-CU-O:BARDEEN-COOPER-SCHRIEFFER ELECTRODYNAMICS BUT UNCERTAIN ENERGY GAP 1988 2 "FAR-INFRARED ,ENERGY GAP" "DEPARTMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA,BERKELEY,CALIFORNIA" "PHYS.REV.B,37(1988)1587" "LA,SR,CU,O,LA,CA,CU,O" 1783 PRB0389284 Ba1Pb0.8Bi0.2O3 Ba 1 Pb 0.8 Bi 0.2 O 3 1988 T K 9.5 9.5 3.2 2 0 SUPERCONDUCTING ENERGY GAP OF BA(1)PB(1-X)BI(X)O(3) 1988 11 "INFRARED ,ENERGY GAP ,POLYCRYS" "IBM RESEARCH DIVISION,THOMAS J.WATSON RESEARCH CENTER.P.O.YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,38(1988)9284" "BA,BI,PB,O" 1784 PR0365275 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1987 T K 35 35 2 2 0 NORMAL-STATE REFLECTIVITY AND SUPERCONDUCTING ENERGY-GAP MEASUREMENT OF LA2-XSRXCUO4 1987 10 "REFLECTIVITY ,GAP" "IBM THOMAS J. WATSON RESEARCH CENTER, YORKTOWN HEIGHTS, NEW YORK 10598" "PHYS.REV.B,36(1987)5275" "LA,SR,CU,O" 1785 PRL0630330 "(La,Sr)2CuO4" La1.89Sr0.11Cu1O4 La 1.89 Sr 0.11 Cu 1 O 4 1989 T K 10 10 3.48 8 0 TEMPERATURE DEPARTMENT OF THE MAGNETIC EXCITATIONS IN LA1.85SR0.15CUO4 (TC=33 K) 1989 7 ENERGY GAP "BROOKHAVEN NATIONAL LABORATORY, UPTON, NEW YOIRK 11973" "PHYS.REV.LETT.,63(1989)330" "LA,SR,CU,O" 1786 PRL0630330 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1989 T K 33 33 3.52 8 0 TEMPERATURE DEPARTMENT OF THE MAGNETIC EXCITATIONS IN LA1.85SR0.15CUO4 (TC=33 K) 1989 7 ENERGY GAP "BROOKHAVEN NATIONAL LABORATORY, UPTON, NEW YOIRK 11973" "PHYS.REV.LETT.,63(1989)330" "LA,SR,CU,O" 1787 PRL0641067 "(Nd,Th)2CuO4" Nd1.85Th0.15Cu1O4-Y Nd 1.85 Th 0.15 Cu 1 O 4-Y 1990 T' 3.955 12.116 K 18 18 3.9 2 0 ENERGY GAPS OF ND1.85CE0.15CUO4-Y AND ND1.85TH0.15CUO4-Y DETERMINED BY FAR-INFRARED SPECTROSCOPY 1990 2 "DEPARTMENT OF PHYSICS, SIMON FRASER UNIVERSITY, BURNABY, BRITISH COLUMBIA, CANADA V5A 1S6" "PHYS.REV.LETT.,64(1990)1067" "ND,CE,CU,O,TH" 1788 PRL0641067 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-Y Nd 1.85 Ce 0.15 Cu 1 O 4-Y 1990 T' 3.959 12.11 K 23 23 3.1 2 0 ENERGY GAPS OF ND1.85CE0.15CUO4-Y AND ND1.85TH0.15CUO4-Y DETERMINED BY FAR-INFRARED SPECTROSCOPY 1990 2 "DEPARTMENT OF PHYSICS, SIMON FRASER UNIVERSITY, BURNABY, BRITISH COLUMBIA, CANADA V5A 1S6" "PHYS.REV.LETT.,64(1990)1067" "ND,CE,CU,O,TH" 1789 PR0365735 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4-Y La 1.85 Sr 0.15 Cu 1 O 4-Y 1987 T K 37 37 2.6 2 0 FAR-INFRARED COMPOSITE-MEDIUM STUDY OF SINTERED LA2NIO4 AND LA1.85SR0.15CUO4-Y 1987 10 "INFRARED ,GAP" "LABORATORY OF ATOMIC AND SOLID STATE PHYSICS AND MATERIALS SCIENCE CENTER, CORNELL UNIVERSITY, ITHACA, NEW YORK 14853-2501" "PHYS.REV.B,36(1987)5735" "LA,NI,O,SR,CU" 1790 PRL0641067 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4-Y La 1.85 Sr 0.15 Cu 1 O 4-Y 1990 T' K 36 36 3.2 2 0 ENERGY GAPS OF ND1.85CE0.15CUO4-Y AND ND1.85TH0.15CUO4-Y DETERMINED BY FAR-INFRARED SPECTROSCOPY 1990 2 "DEPARTMENT OF PHYSICS, SIMON FRASER UNIVERSITY, BURNABY, BRITISH COLUMBIA, CANADA V5A 1S6" "PHYS.REV.LETT.,64(1990)1067" "ND,CE,CU,O,TH" 1791 PRB0367121 YBa2Cu3O7 Y1Ba2Cu3O7-Y Y 1 Ba 2 Cu 3 O 7-Y 1987 Y123 K 92.4 92.4 4.8 1 0 INVESTIGATION OF THE ENERGY GAP OF Y-BA-CU-O BY POINT-CONTACT JOSEPHSON-JUNCTION TECHNIQUES 1987 11 "POINT CONTACT ,ENERGY GAP ,I-V CHAR" "DIPARTIMENTO DI FISICA NUCLEARE,STRUTTURA DELLA MATERIA E FISICA APPLICATA,UNIVERSITA DI NAPOLI,NAPOLI,ITALY" "PHYS.REV.B,36(1987)7121" "Y,BA,CU,O" 1792 PRB0396571 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 4 1989 Y123 K 92 92 8 2 0 REFLECTIVTY AND CONDUCTIVITY OF YBA2CU3O7 1989 4 "IBM THOMAS J.WATSON RESEARCH CENTER,YOKTOWN HEIGHTS,NEW YORK 10598" "Phys.Rev.B,39(1989)6571" "INFRARED,REFLECTIVITY" 1793 PRB0402170 "GAPENE,2.6-6.0" YBa2Cu3O7 Y1Ba2Cu3O9-Y Y 1 Ba 2 Cu 3 O 9-Y 1989 Y123 K 89 89 6 2 0 PHONON ANOMALIES AND RANGE OF SUPERCONDUCTING ENERGY GAPS FROMINFRARED STUDIES OF YBA2CU3O7-Z 1989 8 "INFRARED ,PHONONS ,LATTICE-DYNAMICS ,DIELECTRIC ,ENERGY GAP" "MAX-PLANCK-INSTIFUT FUR FESTKORPERFORSCHUNG,HEISENBERGSTRASSE1,D-7000 STUTTART 80,FEDERAL REPUBLIC OF GERMANY" "PHYS.REV.B,40(1989)2170" "Y,BA,CU,O" 1794 PRL0631008 AB PLANE GAP YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 2 1989 Y123 K 89 89 4.95 1 0 REPRODUCIBLE TUNNELING DATA ON CHEMICALLY ETCHED SINGLE CRYSTALS OF YBA2CU3O7 1989 8 "TUNNEL JUNCTIONS ,SINGLE CRYSTALS ,CONDUCTANCE" "AT & BELL LABORATORIES,MURRAY HILL,NEW JERSEY 07974" "PHYS.REV.LETT., 63(1989)1008" "Y,BA,CU,O" 1795 PRL0631008 C AXIS GAP YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 2 1989 Y123 K 89 89 1.04 1 0 REPRODUCIBLE TUNNELING DATA ON CHEMICALLY ETCHED SINGLE CRYSTALS OF YBA2CU3O7 1989 8 "TUNNEL JUNCTIONS ,SINGLE CRYSTALS ,CONDUCTANCE" "AT & BELL LABORATORIES,MURRAY HILL,NEW JERSEY 07974" "PHYS.REV.LETT., 63(1989)1008" "Y,BA,CU,O" 1796 PRB0358846 "GAP,3.7-5.6" YBa2Cu3O7 Y1Ba2Cu3O9-Y Y 1 Ba 2 Cu 3 O 9-Y 1987 Y123 K 90 90 5.6 1 0 TUNNELING AND INFRARED MEASUREMENTS OF THE ENERGY GAP IN THE HIGH-CRITICAL-TEMPERATURE SUPERCONDUCTOR Y-BA-CU-O 1987 6 "IBM THOMAS J. WATSON LAB.,YORKTOWN HEIGHTS,NEW YORK,USA" "PHYS.REV.B,35(1987)8846" 1797 PRL0631008 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 2 1989 Y123 K 89 89 4.1 1 0 REPRODUCIBLE TUNNELING DATA ON CHEMICALLY ETCHED SINGLE CRYSTALS OF YBA2CU3O7 1989 8 "TUNNEL JUNCTIONS ,SINGLE CRYSTALS ,CONDUCTANCE" "AT & BELL LABORATORIES,MURRAY HILL,NEW JERSEY 07974" "PHYS.REV.LETT., 63(1989)1008" "Y,BA,CU,O" 1798 PRB03811955 "GAP,4-7" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 2 1988 Bi2212 K 90 90 7 4 0 Raman scattering spectra of superconducting Bi2Sr2CaCu2O8 single crystals 1988 12 "Varian Research Center, 611 Hansen Way, Palo Alto, California 94303" "Phys.Rev.B,38(1988)11955" 1799 PRL0611313 "GAP,3-4" YBa2Cu3O7 Y1Ba2Cu3O7-Y Y 1 Ba 2 Cu 3 O 7-Y 1988 Y123 K 90 90 4 2 0 BA(2)TCU(3)O(7-Z): ELECTRODYNAMICS OF CRYSTALS WITH HIGH REFLECTIVITY 1988 9 "REFLECTANCE ,OPTICS ,ENERGY G" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.LETT.,61(1988)1313" "Y,BA,CU,O" 1800 PRL0620336 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1989 Bi2212 K 88 88 8 9 0 HIGH-RESOLUTION PHOTOEMISSION STUDY OF THE LOW-ENERGY EXCITATIONS REFLECTING THE SUPERCONDUCTING STATE OF BI-SR-CA-CU-O SINGLE CRYSTALS 1989 1 "SINGLE CRYSTAL ,ULTRA VIOLET ,PES ,EN" "INSTITUT DE PHYSIQUE,UNIVERSITE DE NEUCHATEL,SWITZERLAND" "PHYS.REV.LETT.,62(1989)336" "BI,SR,CA,CU,O" 1801 PRB0365592 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1987 Y123 K 85 85 3.4 4 0 RAMAN DETECTION OF THE SUPERCONDUCTING GAP IN BA-Y-CU-O SUPERCONDUCTORS 1987 10 "RAMAN ,THIN FILM ,ANISOTROPY ,EN" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,36(1987)5592" "BA,Y,CU,O" 1802 PHC1660015 GAP=7.8-9.3 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1990 Bi2212 K 80 80 9.3 1 0 MIXTURE-(950C IN AIR)-C(1C/H) TO BELOW 600C SUPERCONDUCTING ENERGY GAP OF SINGLE-CRYSTAL BI2XR2CA1CU2O8+ZBY ELECTRON TUNNELING 1990 "INSTITUTO DE INVESTIGACIONES EN MATERIALES. UNIJVERSIDAD NACIONAL AUTONOMA DE MEXICO, A. POSTAL 70-360 MEXICO." "PHYSICA C,166(1990)15" "BI,SR,CA,CU,O" 1803 PRB03811970 GAP=1.3-6.5 YBa2Cu3O7 Y1Ba2Cu3O7-Y Y 1 Ba 2 Cu 3 O 7-Y 1988 Y123 K 90 90 6.5 10 0 MICROWAVE TRANSMISSION THROUGH FILMS OF Y(1)BA(2)CU(3)O(7-Z) 1988 12 "MICROWAVE ,THIN FILM ,CONDUCTIVITY ,PENETRATION DEPTH" "IBM RESEARCH DIVISION,THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,38(1988)11970" "Y,BA,CU,O" 1804 PRL0630422 AB PLANE GAP YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1989 Y123 K 92 92 8 2 0 INFRARED EVIDENCE FOR GAP ANISOTROPY IN YBA(2)CU(3)O(7) 1989 7 "INFRARED ,ENERGY GAP ,ANISOTROPY" "IBM T.J.WATSON RESEACH CENTER,YORKTOWN HEIGHTS,NEW YORK 10598" "PHYS.REV.LETT.,63(1989)422" "Y,BA,CU,O" 1805 PRL0630422 C-AXIS GAP YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1989 Y123 K 92 92 3 2 0 INFRARED EVIDENCE FOR GAP ANISOTROPY IN YBA(2)CU(3)O(7) 1989 7 "INFRARED ,ENERGY GAP ,ANISOTROPY" "IBM T.J.WATSON RESEACH CENTER,YORKTOWN HEIGHTS,NEW YORK 10598" "PHYS.REV.LETT.,63(1989)422" "Y,BA,CU,O" 1806 PR0368903 EPITAXIAL FILM YBa2Cu3O7 Y1Ba2Cu3O7-Y Y 1 Ba 2 Cu 3 O 7-Y 4 1987 Y123 K 92 92 4.5 1 0 PROPERTIES OF EPITAXIAL FILMS OF Y(1)BA(2)CU(3)O(7-Z) 1987 12 "IBM RESEARCH CENTER,P.O.BOX,NEW YORK" "PHYS.REV.B,36(1987)8903" "Y,BA,CU,O" 1807 PR0368903 YBa2Cu3O7 Y1Ba2Cu3O7-Y Y 1 Ba 2 Cu 3 O 7-Y 1987 Y123 K 92 92 4.5 2 0 PROPERTIES OF EPITAXIAL FILMS OF Y(1)BA(2)CU(3)O(7-Z) 1987 12 "IBM RESEARCH CENTER,P.O.BOX,NEW YORK" "PHYS.REV.B,36(1987)8903" "Y,BA,CU,O" 1808 PRL0591860 CU(1) SITEGAP YBa2Cu3O7 Y1Ba2Cu3O7-Y Y 1 Ba 2 Cu 3 O 7-Y 1987 Y123 K 92 92 8.3 6 0 Evidence for Two Pairing Energies from Nuclear Spin-Lattice Relaxation in Superconducting Ba2YCu3O7-delta 1987 10 "AT & T Bell Laboratories, Murray Hill, New Jersey 07974" Phys.Rev.Lett.59(1987)1860 1809 PRL0591860 CU(2) SITE GAP YBa2Cu3O7 Y1Ba2Cu3O7-Y Y 1 Ba 2 Cu 3 O 7-Y 1987 Y123 K 92 92 2.4 6 0 Evidence for Two Pairing Energies from Nuclear Spin-Lattice Relaxation in Superconducting Ba2YCu3O7-delta 1987 10 "AT & T Bell Laboratories, Murray Hill, New Jersey 07974" Phys.Rev.Lett.59(1987)1860 1810 PRB0387133 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 2 1988 Y123 K 88 88 14.8 4 0 LIGHT-SCATTERING STUDY OF THE SUPERCONDUCTING ENERGY GAP IN Y(1)BA(2)CU(3)O(7) SINGLE CRYSTALS 1988 10 "RAMAN ,SINGLE-CRYSTAL ,ENERGY G" "PHYSIK DEPARTMENT E21,TECHNISCHE UNIVERSITAT MUNCHEN,FEDERAL REPUBLIC OF GERMANY" "PHYS.REV.B,38(1988)7133" 1811 PRB0387133 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 2 1988 Y123 K 83 83 2.6 4 0 LIGHT-SCATTERING STUDY OF THE SUPERCONDUCTING ENERGY GAP IN Y(1)BA(2)CU(3)O(7) SINGLE CRYSTALS 1988 10 "RAMAN ,SINGLE-CRYSTAL ,ENERGY G" "PHYSIK DEPARTMENT E21,TECHNISCHE UNIVERSITAT MUNCHEN,FEDERAL REPUBLIC OF GERMANY" "PHYS.REV.B,38(1988)7133" 1812 PRB0371574 GAP=2.98-4.8 YBa2Cu3O7 Y1Ba2Cu3O7-Y Y 1 Ba 2 Cu 3 O 7-Y 1988 Y123 K 94 94 4.8 2 0 FAR-INFRARED PROPERTIES OF AB-PLANE ORIENTED Y(1)BA(2)CU(3)O(7-Z) 1988 2 "FAR-INFRARED ,PHONON" "INSTITUTE FOR MATERIALS RESARCH,MCMASTER UNIVERSITY,HAMILTON,ONTARIO,CANADA" "PHYS.REV.B,37(1988)1574" "Y,BA,CU,O" 1813 PRB0360846 YBa2Cu3O7 Y1Ba2Cu3O7-Y Y 1 Ba 2 Cu 3 O 7-Y 1987 Y123 K 93 93 3.5 2 0 FAR-INFRARED SPECTRA OF POLYCRYSTALLINE BA(2)Y(1)CU(3)O(9-Z) 1987 7 "REFLECTANCE ,FAR-INFRARED" "AT&T BELL LAB.,MURRAY HILL,NEW JERSEY,USA" "PHYS.REV.B,36(1987)846" 1814 PRL0590704 EPITAXIAL FILM YBa2Cu3O7 Y1Ba2Cu3O7-Y Y 1 Ba 2 Cu 3 O 7-Y 4 1987 Y123 K 90 90 4.7 2 0 COMPARATIVE STUDY OF SUOERCONDUCTING ENERGY GAPS IN ORIENTED FILMS AND POLYCRYSTALLINE BULK SAMPLES OF Y-BA-CU-O 1987 10 "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.LETT.,59(1987)704" 1815 PRB0358856 YBa2Cu3O7 Y1Ba2Cu3O7-Y Y 1 Ba 2 Cu 3 O 7-Y 1987 Y123 K 93 93 4.8 1 0 BREAK-JUNCTION TUNNELING MEASUREMENTS OF THE HIGH-TC SUPERCONDUCTOR Y(1)BA(2)CU(3)O(9-Z) 1987 6 TUNNELING "NBS,BOULDER,COLORADO,USA" "PHYS.REV.B,35(1987)8856" 1816 PRB0396667 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.88Fe0.12O7-Z Y 1 Ba 2 Cu 2.88 Fe 0.12 O 7-Z 1989 Y123 3.861 11.682 K 77.3 77.3 3.19 "Y2O3,BACO3,CUO,FE2O3" 0 CAL(900C IN AIR)-SIN(970C 40H IN O2)-ANN(665C 8H)-FC "MICROSTRUCTURE,LATTICE PARAMETERS,AND SUPERCONDUCTIVITY OF YBA2(CU1-XFEX)3O7-Z" 1989 4 "TC ,TEM ,LATTICE PARAMETERS ,DISTORTION ,TWIN BOUNDARY" "DEPARTMENT OF APPLIED SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK 11973" "Phys.Rev.B,39(1989)6667" "Y,BA,CU,FE,O" 1817 PRB0396667 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.85Fe0.15O7-Z Y 1 Ba 2 Cu 2.85 Fe 0.15 O 7-Z 1989 Y123 3.861 11.676 K 73.7 73.7 4.89 "Y2O3,BACO3,CUO,FE2O3" 0 CAL(900C IN AIR)-SIN(970C 40H IN O2)-ANN(665C 8H)-FC "MICROSTRUCTURE,LATTICE PARAMETERS,AND SUPERCONDUCTIVITY OF YBA2(CU1-XFEX)3O7-Z" 1989 4 "TC ,TEM ,LATTICE PARAMETERS ,DISTORTION ,TWIN BOUNDARY" "DEPARTMENT OF APPLIED SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK 11973" "Phys.Rev.B,39(1989)6667" "Y,BA,CU,FE,O" 1818 PRB0396667 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.775Fe0.225O7-Z Y 1 Ba 2 Cu 2.775 Fe 0.225 O 7-Z 1989 Y123 3.865 11.68 K 57.6 57.6 "Y2O3,BACO3,CUO,FE2O3" 0 CAL(900C IN AIR)-SIN(970C 40H IN O2)-ANN(665C 8H)-FC "MICROSTRUCTURE,LATTICE PARAMETERS,AND SUPERCONDUCTIVITY OF YBA2(CU1-XFEX)3O7-Z" 1989 4 "TC ,TEM ,LATTICE PARAMETERS ,DISTORTION ,TWIN BOUNDARY" "DEPARTMENT OF APPLIED SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK 11973" "Phys.Rev.B,39(1989)6667" "Y,BA,CU,FE,O" 1819 PRB0396667 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.7Fe0.3O7.15 Y 1 Ba 2 Cu 2.7 Fe 0.3 O 7-Z 7.15 1989 Y123 P4/MMM 3.865 11.668 K 36 36 "Y2O3,BACO3,CUO,FE2O3" 0 CAL(900C IN AIR)-SIN(970C 40H IN O2)-ANN(665C 8H)-FC "MICROSTRUCTURE,LATTICE PARAMETERS,AND SUPERCONDUCTIVITY OF YBA2(CU1-XFEX)3O7-Z" 1989 4 "TC ,TEM ,LATTICE PARAMETERS ,DISTORTION ,TWIN BOUNDARY" "DEPARTMENT OF APPLIED SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK 11973" "Phys.Rev.B,39(1989)6667" "Y,BA,CU,FE,O" 1820 PRB0396667 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.55Fe0.45O7-Z Y 1 Ba 2 Cu 2.55 Fe 0.45 O 7-Z 1989 Y123 3.873 11.66 K "Y2O3,BACO3,CUO,FE2O3" 0 CAL(900C IN AIR)-SIN(970C 40H IN O2)-ANN(665C 8H)-FC "MICROSTRUCTURE,LATTICE PARAMETERS,AND SUPERCONDUCTIVITY OF YBA2(CU1-XFEX)3O7-Z" 1989 4 "TC ,TEM ,LATTICE PARAMETERS ,DISTORTION ,TWIN BOUNDARY" "DEPARTMENT OF APPLIED SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK 11973" "Phys.Rev.B,39(1989)6667" "Y,BA,CU,FE,O" 1821 PRB0396667 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.5Fe0.5O7.23 Y 1 Ba 2 Cu 2.5 Fe 0.5 O 7-Z 7.23 1989 Y123 P4/MMM 3.871 11.661 K "Y2O3,BACO3,CUO,FE2O3" 0 CAL(900C IN AIR)-SIN(970C 40H IN O2)-ANN(665C 8H)-FC "MICROSTRUCTURE,LATTICE PARAMETERS,AND SUPERCONDUCTIVITY OF YBA2(CU1-XFEX)3O7-Z" 1989 4 "TC ,TEM ,LATTICE PARAMETERS ,DISTORTION ,TWIN BOUNDARY" "DEPARTMENT OF APPLIED SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK 11973" "Phys.Rev.B,39(1989)6667" "Y,BA,CU,FE,O" 1822 PRB0396667 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2Fe1O7-Z Y 1 Ba 2 Cu 2 Fe 1 O 7-Z 1989 Y123 3.866 11.66 K "Y2O3,BACO3,CUO,FE2O3" 0 CAL(900C IN AIR)-SIN(970C 40H IN O2)-ANN(665C 8H)-FC "MICROSTRUCTURE,LATTICE PARAMETERS,AND SUPERCONDUCTIVITY OF YBA2(CU1-XFEX)3O7-Z" 1989 4 "TC ,TEM ,LATTICE PARAMETERS ,DISTORTION ,TWIN BOUNDARY" "DEPARTMENT OF APPLIED SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK 11973" "Phys.Rev.B,39(1989)6667" "Y,BA,CU,FE,O" 1823 PHC1700035 "(BI,PB)2SR2CA2(CU,MO)3O10" Bi1.6Pb0.4Sr2Cu2.95Mo0.05OY Bi 1.6 Pb 0.4 Sr 2 Cu 2.95 Mo 0.05 O Y 1990 K 107.1 107.1 0 SUPERDONDUCTING PROPERTIES OF SUBSTITUTED BI1.6PB0.4SR2CA2(CU3-XMOX)OY 1990 "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA, HEFEI, PR CHINA" "PHYSICA C,170(1990)35" "BI,PB,SR,CA,CU,MO,O" 1824 PHC1700035 "(BI,PB)2SR2CA2(CU,MO)3O10" Bi1.6Pb0.4Sr2Cu2.9Mo0.1OY Bi 1.6 Pb 0.4 Sr 2 Cu 2.9 Mo 0.1 O Y 1990 K 107 107 0 SUPERDONDUCTING PROPERTIES OF SUBSTITUTED BI1.6PB0.4SR2CA2(CU3-XMOX)OY 1990 "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA, HEFEI, PR CHINA" "PHYSICA C,170(1990)35" "BI,PB,SR,CA,CU,MO,O" 1825 PHC1700035 "(BI,PB)2SR2CA2(CU,MO)3O10" Bi1.6Pb0.4Sr2Cu2.85Mo0.15OY Bi 1.6 Pb 0.4 Sr 2 Cu 2.85 Mo 0.15 O Y 1990 K 98.5 98.5 0 SUPERDONDUCTING PROPERTIES OF SUBSTITUTED BI1.6PB0.4SR2CA2(CU3-XMOX)OY 1990 "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA, HEFEI, PR CHINA" "PHYSICA C,170(1990)35" "BI,PB,SR,CA,CU,MO,O" 1826 PHC1700035 "(BI,PB)2SR2CA2(CU,MO)3O10" Bi1.6Pb0.4Sr2Cu2.8Mo0.2OY Bi 1.6 Pb 0.4 Sr 2 Cu 2.8 Mo 0.2 O Y 1990 K 98.4 98.4 0 SUPERDONDUCTING PROPERTIES OF SUBSTITUTED BI1.6PB0.4SR2CA2(CU3-XMOX)OY 1990 "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA, HEFEI, PR CHINA" "PHYSICA C,170(1990)35" "BI,PB,SR,CA,CU,MO,O" 1827 PHC1700035 "(BI,PB)2SR2CA2(CU,MO)3O10" Bi1.6Pb0.4Sr2Cu2.75Mo0.25OY Bi 1.6 Pb 0.4 Sr 2 Cu 2.75 Mo 0.25 O Y 1990 K 96.9 96.9 0 SUPERDONDUCTING PROPERTIES OF SUBSTITUTED BI1.6PB0.4SR2CA2(CU3-XMOX)OY 1990 "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA, HEFEI, PR CHINA" "PHYSICA C,170(1990)35" "BI,PB,SR,CA,CU,MO,O" 1828 PHC1700035 "(BI,PB)2SR2CA2(CU,MO)3O10" Bi1.6Pb0.4Sr2Cu2.7Mo0.3OY Bi 1.6 Pb 0.4 Sr 2 Cu 2.7 Mo 0.3 O Y 1990 K 96.9 96.9 0 SUPERDONDUCTING PROPERTIES OF SUBSTITUTED BI1.6PB0.4SR2CA2(CU3-XMOX)OY 1990 "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA, HEFEI, PR CHINA" "PHYSICA C,170(1990)35" "BI,PB,SR,CA,CU,MO,O" 1829 PHC1700245 "TWO PHASE Y123,(A=3.84,B=3.86,C=11.68),(" YBA2CU2PBOZ Y1Ba2Cu2Pb1OX Y 1 Ba 2 Cu 2 Pb 1 O X 1990 K 80 90 93 90 0 PREPARED BY PYROPHORIC PROCESS SIN(885C 20H IN AIR) LATTICE AND ELECTRONIC STRUCTURE OF YBA2CU2PBOX SUPERCONDUCTOR 1990 "MATERIALS SCIENCE CENTRE, INDIAN INSTITUTE OF TECHNOLOGY, KHARAGPUR, KHARAGPUR-721302, INDIA" "PHYSICA C,170(1990)245" "Y,BA,CU,PB,O" 1830 PHC1700139 NO SUP/CON YBa2Cu3O7 Y1Ba2Cu3O6.8 Y 1 Ba 2 Cu 3 O 6.8 6.8 1990 2 Y123 P4/MMM 6.871 11.626 K 0 "YBA2CU3O6.8: AN OXYGEN-RICH ""123""-TYPE PHASE SWITH TETRAGONALSYMMETRY" 1990 "LABORATOIRE CRISMAT, ISMRA, UNIVERSITE DE CAEN, BOULEVARD DU MARECHAL JUIN, 14032 CAEN CEDEX, FRANCE" "PHYSICA C,170(1990)139" "Y,BA,CU,O" 1831 PHC1690391 S-I-N JUNCTION I=AU "(Ba,K)BiO3" Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 4 1990 1 BKBO K 16 16 3.7 1 16 "EPITAXIAL FILM, FILMS((110) ORIENTED) ON STTIO3(110) SUBSTRATE BY RF MAGNETRON SPUTTERING" GAP OBSERVATION BY TUNNELING MEASUREMENT ON SUPERCONDUCTING BA1-XKXBIO3 THIN FILM: A FINITE ENERGY GAP IN BA1-XKXBIO3 1990 "DEPARTMENT OF APPLIED PHYSICS, UNIVERSITY OF TOKYO, BUNKYO-KU,TOKYO 113, JAPAN" "PHYSICA C,169(1990)391" "BA,K,BI,O" 1832 PHC1690464 "EXCESS O IN THE INTERLAYER SITE,NO S/C" "(LA,SR)2CU2O6" La1.85Sr1.15Cu2O6.25 La 1.85 Sr 1.15 Cu 2 O 6.25 1990 2 2126 I4/MMM 3.853 20.083 K "LA2O3,SRCO3,CUO" 1 (1000C 20H IN 1ATM O2)-G-(1050C 20H IN 1ATM O2)-ANN(500+450+400+350+300+250C EACH 12H)-C TO 100C OXYGEN-DEFECT STRUCTURE OF NON-SUPERCONDUCTING LA1.85SR1.15CU2O6.25: EXCESS OXYGEN IN THE INTERLAYER SITE 1990 "MATERIALS SCIENCE DIVISION AND SCIENCE AND TECHNOLOGY CENTERFOR SUPERCONDUCTIVITY, ARGONNE NATIONALLABORATORY, ARGONNE,1L60439, USA" "PHYSICA C,169(1990)464" "LA,SR,CU,O" 1833 PHC1690377 "NO S/C,CRYSTAL TYPE=0212" "(LA,SR)2CACU2OZ" La1.6Sr0.4Ca1Cu2OY La 1.6 Sr 0.4 Ca 1 Cu 2 O Y 1 1990 2 2126 I4/MMM 3.822 19.545 K "LA2O3,SRCO3,CUO,CACO3" 1 CAL(900C 5H IN AIR)-SIN(1050C 24H IN O2)-C(100C/H) "X-RAY RIETVELD STUDY OF NONSUPERCONDUCTING ""0212"" CUPRATE; LA1.6SR0.4CACU2OY" 1990 "CENTRAL RESEARCH LABORATORIES, MATSUSHITA ELECTRIC INDUSTRIALCO., LTD., 3-15 YAGUMO-NAKAMACHI, MORIGUCHI, OSAKA 570, JAPAN" "PHYSICA C,169(1990)377" "LA,SR,CA,CU,O" 1834 PHC1680521 "Tl(Sr,Nd)2CaCu2Oz" Tl1Sr1.3Nd0.7Ca1Cu2O7 Tl 1 Sr 1.3 Nd 0.7 Ca 1 Cu 2 O 7 1 1990 2 Tl1212 P4/MMM 3.828 11.987 K 81 81 "TL2O3,CUO,ND2O3,(SR,CA)-PEROXIDE" 1 HEAT IN SEALED AU TUBE(890C 12H) STRUCTURE OF TI(SR0.65ND0.35)2CACU2O7NEUTRON POWDER DEFFRACTION STUDY OF CATI0N ORDERING AND OXYGENSTOICHIOMETRY 1990 "LOS ALAMOS NATIONAL LABORATORY, LOS ALAMOS, NM 87545-1663, USA" "PHYSICA C,186(1990)521" "TL,SR,ND,CA,CU,O" 1835 PHC1590245 "(Tl,Pb)Sr2CaCu2Oz" Tl0.5Pb0.5Sr2Ca1Cu2O7 Tl 0.5 Pb 0.5 Sr 2 Ca 1 Cu 2 O 7 1989 Tl1212 3.802 12.107 K 85 85 "TL2O3,PBO2,SRO2,CAO2,CUO" 0 (850-915C 3-12H IN SEALED AU TUBE) "THE SUPERCONDUCTORS (Tl,Pb)SrCaCu2O7 AND (Tl,Pb)Sr2Ca2Cu3O9: neutron POWDER DIFFRACTION, HIGH RESOLUTION ELECTRON MICROSCOPY AND X-RAY ABSORPTION STUDIES" 1989 "E.I. du Pont de Nemours & Company, Central Research and Development Department, Experimental Station, P.O. Box 80356, Wilmington, Delaware 19880-0356, USA" "Physica.C,159(1989)245-254" 1836 PRB0396667 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1989 Y123 3.82 3.885 11.676 K 89.8 0.2 89.8 0.8 0 "MICROSTRUCTURE,LATTICE PARAMETERS,AND SUPERCONDUCTIVITY OF YBA2(CU1-XFEX)3O7-Z" 1989 4 "TC ,TEM ,LATTICE PARAMETERS ,DISTORTION ,TWIN BOUNDARY" "DEPARTMENT OF APPLIED SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK 11973" "Phys.Rev.B,39(1989)6667" "Y,BA,CU,FE,O" 1837 PRB0396667 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.985Fe0.015O7-Z Y 1 Ba 2 Cu 2.985 Fe 0.015 O 7-Z 1989 Y123 3.822 3.885 11.68 K 90 7 90 0 "MICROSTRUCTURE,LATTICE PARAMETERS,AND SUPERCONDUCTIVITY OF YBA2(CU1-XFEX)3O7-Z" 1989 4 "TC ,TEM ,LATTICE PARAMETERS ,DISTORTION ,TWIN BOUNDARY" "DEPARTMENT OF APPLIED SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK 11973" "Phys.Rev.B,39(1989)6667" "Y,BA,CU,FE,O" 1838 PRB0396667 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.97Fe0.03O7-Z Y 1 Ba 2 Cu 2.97 Fe 0.03 O 7-Z 1989 Y123 3.825 3.885 11.672 K 89.2 89.2 1.24 0 "MICROSTRUCTURE,LATTICE PARAMETERS,AND SUPERCONDUCTIVITY OF YBA2(CU1-XFEX)3O7-Z" 1989 4 "TC ,TEM ,LATTICE PARAMETERS ,DISTORTION ,TWIN BOUNDARY" "DEPARTMENT OF APPLIED SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK 11973" "Phys.Rev.B,39(1989)6667" "Y,BA,CU,FE,O" 1839 PRB0396667 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.955Fe0.045O7-Z Y 1 Ba 2 Cu 2.955 Fe 0.045 O 7-Z 1989 Y123 3.829 3.881 11.678 K 86.7 86.7 0 "MICROSTRUCTURE,LATTICE PARAMETERS,AND SUPERCONDUCTIVITY OF YBA2(CU1-XFEX)3O7-Z" 1989 4 "TC ,TEM ,LATTICE PARAMETERS ,DISTORTION ,TWIN BOUNDARY" "DEPARTMENT OF APPLIED SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK 11973" "Phys.Rev.B,39(1989)6667" "Y,BA,CU,FE,O" 1840 PRB0396667 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.94Fe0.06O7-Z Y 1 Ba 2 Cu 2.94 Fe 0.06 O 7-Z 1989 Y123 3.834 3.879 11.677 K 86.4 86.4 1.91 0 "MICROSTRUCTURE,LATTICE PARAMETERS,AND SUPERCONDUCTIVITY OF YBA2(CU1-XFEX)3O7-Z" 1989 4 "TC ,TEM ,LATTICE PARAMETERS ,DISTORTION ,TWIN BOUNDARY" "DEPARTMENT OF APPLIED SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK 11973" "Phys.Rev.B,39(1989)6667" "Y,BA,CU,FE,O" 1841 PRB0396667 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.925Fe0.075O7-Z Y 1 Ba 2 Cu 2.925 Fe 0.075 O 7-Z 1989 Y123 3.842 3.868 11.678 K 86.4 86.4 0 "MICROSTRUCTURE,LATTICE PARAMETERS,AND SUPERCONDUCTIVITY OF YBA2(CU1-XFEX)3O7-Z" 1989 4 "TC ,TEM ,LATTICE PARAMETERS ,DISTORTION ,TWIN BOUNDARY" "DEPARTMENT OF APPLIED SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK 11973" "Phys.Rev.B,39(1989)6667" "Y,BA,CU,FE,O" 1842 PRB0396667 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.91Fe0.09O7-Z Y 1 Ba 2 Cu 2.91 Fe 0.09 O 7-Z 1989 Y123 3.852 3.861 11.686 K 82.8 82.8 3.19 0 "MICROSTRUCTURE,LATTICE PARAMETERS,AND SUPERCONDUCTIVITY OF YBA2(CU1-XFEX)3O7-Z" 1989 4 "TC ,TEM ,LATTICE PARAMETERS ,DISTORTION ,TWIN BOUNDARY" "DEPARTMENT OF APPLIED SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK 11973" "Phys.Rev.B,39(1989)6667" "Y,BA,CU,FE,O" 1843 PRB0394756 YBa2Cu3O7 Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 2 1989 Y123 K 90.71 0.3 90.71 2.7 0.72 26 5.5 0 MAGNETORESISTANCE AND THERMODYNAMIC FLUCTUATIONS IN SINGLE-CRYS-TAL YBA(2)CU(3)O(Y) 1989 3 "MAGNETORESISTANCE ,SINGLE CRYSTAL ,FLUCTUAT" "NIPPON TELEGRAPH AND TELEPHONE CORPORATION OPTO-ELECTRONICS LAB-ORATORIES,TOKAI,IBARAKI 319-11,JAPAN" "PHYS. REV. B., 39(1989)4756" "Y,BA,CU,O" 1844 PRB0370619 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 2 1988 Y123 K 92.5 92.5 0.4 0 CRITICAL-MAGNETIC-FIELD ANISOTROPY IN SINGLE-CRYSTAL Y(1)BA(2)CU(3)O(7) 1988 1 "HC ,SINGLE CRYSTAL" "FRANCIS BITTER NATIONAL MAGNET LABORATORY,MASSACHUSETTS INSTITUTE OF TECHNOLOGY,CAMBRIDGE,MASSACHUSETTS" "PHYS.REV.B,37(1988)619" "Y,BA,CU,O" 1845 PRL0591160 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 2 1987 Y123 K 88.8 88.8 2.3 0.71 34 7 0 ANISOTROPIC NATURE OF HIGH-TEMPERATURE SUPERCONDUCTIVITY IN SINGLE-CRYSTAL Y(1)BA(2)CU(3)O(7-X) 1987 9 "HC ,ANISOTROPY ,SINGLE C" "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.LETT.,59(1987)1160" "Y,BA,CU,O" 1846 PHC1680023 "Bi2Sr2(Y,Ca)Cu2O8" Bi2Sr2Y0.9Ca0.1Cu2OY Bi 2 Sr 2 Y 0.9 Ca 0.1 Cu 2 O Y 1 1990 300 Bi2212 K "BI2O3,CACO3,Y2O3,CUO" 1 "CAL(800C)-(860C FOR X=1,900C FOR X=0)-SIN(100H)" INTERNAL MAGNETIC FIELDS AT (MYU+) SITES AND THE MAGNETIC PHASE DIAGRAM OF BI2SR2Y1-XCAXCU2OYSYSTEM STUDIED BY THE (MYU)SR METHOD 1990 "DEPT.OF PHYSICS,TOKYO INST.OF TECHNOLOGY,MEGURO-KU,TOKYO 152,JAPAN" "PHYSICA C,168(1990)23" "BI,SR,Y,CA,CU,O" 1847 PHC1680023 "Bi2Sr2(Y,Ca)Cu2O8" Bi2Sr2Y0.8Ca0.2Cu2OY Bi 2 Sr 2 Y 0.8 Ca 0.2 Cu 2 O Y 1 1990 257 Bi2212 K "BI2O3,CACO3,Y2O3,CUO" 1 "CAL(800C)-(860C FOR X=1,900C FOR X=0)-SIN(100H)" INTERNAL MAGNETIC FIELDS AT (MYU+) SITES AND THE MAGNETIC PHASE DIAGRAM OF BI2SR2Y1-XCAXCU2OYSYSTEM STUDIED BY THE (MYU)SR METHOD 1990 "DEPT.OF PHYSICS,TOKYO INST.OF TECHNOLOGY,MEGURO-KU,TOKYO 152,JAPAN" "PHYSICA C,168(1990)23" "BI,SR,Y,CA,CU,O" 1848 PHC1680023 "Bi2Sr2(Y,Ca)Cu2O8" Bi2Sr2Y0.7Ca0.3Cu2OY Bi 2 Sr 2 Y 0.7 Ca 0.3 Cu 2 O Y 1 1990 16 Bi2212 K "BI2O3,CACO3,Y2O3,CUO" 1 "CAL(800C)-(860C FOR X=1,900C FOR X=0)-SIN(100H)" INTERNAL MAGNETIC FIELDS AT (MYU+) SITES AND THE MAGNETIC PHASE DIAGRAM OF BI2SR2Y1-XCAXCU2OYSYSTEM STUDIED BY THE (MYU)SR METHOD 1990 "DEPT.OF PHYSICS,TOKYO INST.OF TECHNOLOGY,MEGURO-KU,TOKYO 152,JAPAN" "PHYSICA C,168(1990)23" "BI,SR,Y,CA,CU,O" 1849 PHC1690107 JC DETERMINED AT 1 UV INRESISTANCE MEASUREMENT YBa2Cu3O7 Y1Ba2Cu3OY Y 1 Ba 2 Cu 3 O Y 1990 Y123 K 92 92 81 "Y2O3,BACO3,CUO,AG2O" 1 (920C 10H)-SIN(960C 12H IN O2) CRITICAL CURRENT DENSITY OF AG-DOPED Y-BA-CU-O SUPERCONDUCTORSIN LOW MAGNETIC FIELDS 1990 "DEPARTMENT OF PHYSICS,STATE UNIVERSITY OF NEW YORK AT BUFFALO,BUFFALO, NY 14260, USA" "PHYSICA C,169(1990)107" "AG,Y,BA,CU,O" 1850 PHC1690107 "YBa2(Cu,Ag)3O7" Y1Ba2Cu2.85Ag0.15OY Y 1 Ba 2 Cu 2.85 Ag 0.15 O Y 1990 Y123 K 91.3 91.3 480 "Y2O3,BACO3,CUO,AG2O" 1 (920C 10H)-SIN(960C 12H IN O2) CRITICAL CURRENT DENSITY OF AG-DOPED Y-BA-CU-O SUPERCONDUCTORSIN LOW MAGNETIC FIELDS 1990 "DEPARTMENT OF PHYSICS,STATE UNIVERSITY OF NEW YORK AT BUFFALO,BUFFALO, NY 14260, USA" "PHYSICA C,169(1990)107" "AG,Y,BA,CU,O" 1851 PHC1690107 "IMPURITY,BACUO2,Y2O3,Y2BACUO5" "YBa2(Cu,Ag)3O7" Y1Ba2Cu2.7Ag0.3OY Y 1 Ba 2 Cu 2.7 Ag 0.3 O Y 1990 Y123 K 90.2 90.2 170 "Y2O3,BACO3,CUO,AG2O" 1 (920C 10H)-SIN(960C 12H IN O2) CRITICAL CURRENT DENSITY OF AG-DOPED Y-BA-CU-O SUPERCONDUCTORSIN LOW MAGNETIC FIELDS 1990 "DEPARTMENT OF PHYSICS,STATE UNIVERSITY OF NEW YORK AT BUFFALO,BUFFALO, NY 14260, USA" "PHYSICA C,169(1990)107" "AG,Y,BA,CU,O" 1852 PHC1690107 "YBa2(Cu,Ag)3O7" Y1Ba2Cu2.55Ag0.45OY Y 1 Ba 2 Cu 2.55 Ag 0.45 O Y 1990 Y123 K 87.6 87.6 3 "Y2O3,BACO3,CUO,AG2O" 1 (920C 10H)-SIN(960C 12H IN O2) CRITICAL CURRENT DENSITY OF AG-DOPED Y-BA-CU-O SUPERCONDUCTORSIN LOW MAGNETIC FIELDS 1990 "DEPARTMENT OF PHYSICS,STATE UNIVERSITY OF NEW YORK AT BUFFALO,BUFFALO, NY 14260, USA" "PHYSICA C,169(1990)107" "AG,Y,BA,CU,O" 1853 PHC1680493 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu1O8+Y Bi 2 Sr 2 Ca 1 Cu 1 O 8+Y 1990 Bi2212 I4/MMM 3.814 30.52 K 69 77 89 17 77 "BI2O3,CUO,FE2O3,CACO3,SRCO3" 0 (800C 20H IN AIR)-(875C 20H IN AIR)-Q IRON DOPING AND MOSSBAUER SPECTROSCOPY IN BI-SR-CA-CU CERAMICSUPERCONDUCTORS 1990 "DEPARTAMENTO DE FISICA,COMISION NACIONAL DE ENERGIA ATOMICA,AVDA. LIBERTADOR 8250, 1429 BUENOS AIRES, ARGENTINA" "PHUSOCA C,185(1990)493" "BI,SR,CA,CU" 1854 PHC1680493 "Bi2Sr2Ca(Cu,Fe)2O8" Bi2Sr2Ca1Cu0.995Fe0.005O8+Y Bi 2 Sr 2 Ca 1 Cu 0.995 Fe 0.005 O 8+Y 1990 Bi2212 K 69 77 89 17 77 "BI2O3,CUO,FE2O3,CACO3,SRCO3" 0 (800C 20H IN AIR)-(875C 20H IN AIR)-Q IRON DOPING AND MOSSBAUER SPECTROSCOPY IN BI-SR-CA-CU CERAMICSUPERCONDUCTORS 1990 "DEPARTAMENTO DE FISICA,COMISION NACIONAL DE ENERGIA ATOMICA,AVDA. LIBERTADOR 8250, 1429 BUENOS AIRES, ARGENTINA" "PHUSOCA C,185(1990)493" "BI,SR,CA,CU" 1855 PHC1680493 "Bi2Sr2Ca(Cu,Fe)2O8" Bi2Sr2Ca1Cu0.98Fe0.02O8+Y Bi 2 Sr 2 Ca 1 Cu 0.98 Fe 0.02 O 8+Y 1990 Bi2212 K 54 66 79 26 66 "BI2O3,CUO,FE2O3,CACO3,SRCO3" 0 (800C 20H IN AIR)-(875C 20H IN AIR)-Q IRON DOPING AND MOSSBAUER SPECTROSCOPY IN BI-SR-CA-CU CERAMICSUPERCONDUCTORS 1990 "DEPARTAMENTO DE FISICA,COMISION NACIONAL DE ENERGIA ATOMICA,AVDA. LIBERTADOR 8250, 1429 BUENOS AIRES, ARGENTINA" "PHUSOCA C,185(1990)493" "BI,SR,CA,CU" 1856 PHC1680493 "Bi2Sr2Ca(Cu,Fe)2O8" Bi2Sr2Ca1Cu0.95Fe0.05O8+Y Bi 2 Sr 2 Ca 1 Cu 0.95 Fe 0.05 O 8+Y 1 1990 Bi2212 K 33 52 70 37 52 "BI2O3,CUO,FE2O3,CACO3,SRCO3" 0 (800C 20H IN AIR)-(875C 20H IN AIR)-Q IRON DOPING AND MOSSBAUER SPECTROSCOPY IN BI-SR-CA-CU CERAMICSUPERCONDUCTORS 1990 "DEPARTAMENTO DE FISICA,COMISION NACIONAL DE ENERGIA ATOMICA,AVDA. LIBERTADOR 8250, 1429 BUENOS AIRES, ARGENTINA" "PHUSOCA C,185(1990)493" "BI,SR,CA,CU" 1857 PHC1690179 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1990 GPa 147 T -0.002 -0.002 K 0 PRESSURE-INDUCED STRUCTURAL CHANGES IN LA1.85SR0.15CUO4 1990 "MATERIAL SCIENCE DIVISION AND SCIENCE AND TECHNOLOGY CENTER FOR SUPERCONDUCTIVITY,ARGONNE NATIONAL LABORATORY, ARGONNE, IL 60439, USA" "PHYSICA C,169(1990)179" "LA,SR,CU,O" 1858 PHC1690250 Bi1.84Pb0.34Sr1.91Ca2.03Cu3OX Bi 1.84 Pb 0.34 Sr 1.91 Ca 2.03 Cu 3 O X 1 1990 Bi2223 K 101.4 107 6 107 1.1 2.9 1 STUDY OF UPPER CRITICAL FIELD HC2(T) IN DOPED BI-SR-CA-CU-O SUPERCONDUCTORS WITH 100 K PHASE 1990 "DEPARTMENT OF SOLID STATE PHYSICS, THE ROYAL INSTITUTE OF TECHNOLOGY, S-100 44 STOCKHOLM, SWEDEN" "PHYSICA C,169(1990)250" "BI,SR,CA,CU,O" 1859 PHC1690250 Bi1.6Pb0.3Sb0.1Sr2Ca2Cu3OX Bi 1.6 Pb 0.3 Sb 0.1 Sr 2 Ca 2 Cu 3 O X 1 1990 Bi2223 K 102.3 109.6 6 109.6 2.26 1 STUDY OF UPPER CRITICAL FIELD HC2(T) IN DOPED BI-SR-CA-CU-O SUPERCONDUCTORS WITH 100 K PHASE 1990 "DEPARTMENT OF SOLID STATE PHYSICS, THE ROYAL INSTITUTE OF TECHNOLOGY, S-100 44 STOCKHOLM, SWEDEN" "PHYSICA C,169(1990)250" "BI,SR,CA,CU,O" 1860 PHC1690250 "(Bi,Pb)2Sr2Ca2Cu3O10" Bi1.8Pb0.2Sr2Ca2Cu3OX Bi 1.8 Pb 0.2 Sr 2 Ca 2 Cu 3 O X 1 1990 Bi2223 K 99.6 107 9 107 0.81 5.3 1 STUDY OF UPPER CRITICAL FIELD HC2(T) IN DOPED BI-SR-CA-CU-O SUPERCONDUCTORS WITH 100 K PHASE 1990 "DEPARTMENT OF SOLID STATE PHYSICS, THE ROYAL INSTITUTE OF TECHNOLOGY, S-100 44 STOCKHOLM, SWEDEN" "PHYSICA C,169(1990)250" "BI,SR,CA,CU,O" 1861 PHC1690250 Bi3.7Pb0.3Sr3Ca3Cu4OX Bi 3.7 Pb 0.3 Sr 3 Ca 3 Cu 4 O X 1 1990 K 103.1 107 7 107 1.1 6.1 1 STUDY OF UPPER CRITICAL FIELD HC2(T) IN DOPED BI-SR-CA-CU-O SUPERCONDUCTORS WITH 100 K PHASE 1990 "DEPARTMENT OF SOLID STATE PHYSICS, THE ROYAL INSTITUTE OF TECHNOLOGY, S-100 44 STOCKHOLM, SWEDEN" "PHYSICA C,169(1990)250" "BI,SR,CA,CU,O" 1862 PHC1690294 "GAP(T) AGREE WITH BCS THORY,GAP(4.2K)=2.9MEV, BYTUNNELING SAMPLE-I-SN JUNCTION" "(Ba,K)BiO3" Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 1990 BKBO K 18 18 3.75 1 0 BY MELT-PROCESS ELECTRON TUNNELING IN SUPERCONDUCTING BA0.6K0.4BIO3 1990 "INSTITUTO DE INVESTIGACIONES EN MATERIALES,UNIVERSIDAD NACIONAL AUTONOMA DE MEXICO, APARTADO POSTAL 70-360, MEXICO, D.F. 04510, MEXICO" "PHYSICA C,169(1990)294" "BA,K,BI,O" 1863 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.85Zn0.15O6.97 Y 1 Ba 2 Cu 2.85 Zn 0.15 O Y 6.97 1 1990 3 Y123 K 39 39 7.80E-10 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1864 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.85Zn0.15O6.9 Y 1 Ba 2 Cu 2.85 Zn 0.15 O Y 6.9 1 1990 3 Y123 K 32.5 32.5 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1865 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.85Zn0.15O6.76 Y 1 Ba 2 Cu 2.85 Zn 0.15 O Y 6.76 1 1990 3 Y123 K "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1866 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.79Zn0.21O6.97 Y 1 Ba 2 Cu 2.79 Zn 0.21 O Y 6.97 1 1990 3 Y123 K 14.2 14.2 8.30E-10 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1867 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.79Zn0.21O6.9 Y 1 Ba 2 Cu 2.79 Zn 0.21 O Y 6.9 1 1990 3 Y123 K "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1868 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.7Zn0.3O6.97 Y 1 Ba 2 Cu 2.7 Zn 0.3 O Y 6.97 1 1990 3 Y123 K 1.64E-09 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1869 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.94Zn0.06O6.97 Y 1 Ba 2 Cu 2.94 Zn 0.06 O Y 6.97 1 1990 3 Y123 K 67.6 67.6 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1870 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.94Zn0.06O6.9 Y 1 Ba 2 Cu 2.94 Zn 0.06 O Y 6.9 1 1990 3 Y123 K 67.1 67.1 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1871 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.94Zn0.06O6.76 Y 1 Ba 2 Cu 2.94 Zn 0.06 O Y 6.76 1 1990 3 Y123 K 41.1 41.1 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1872 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.94Zn0.06O6.59 Y 1 Ba 2 Cu 2.94 Zn 0.06 O Y 6.59 1 1990 3 Y123 K 18.6 18.6 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1873 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.94Zn0.06O6.47 Y 1 Ba 2 Cu 2.94 Zn 0.06 O Y 6.47 1 1990 3 Y123 K "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1874 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.97Zn0.03O6.97 Y 1 Ba 2 Cu 2.97 Zn 0.03 O Y 6.97 1 1990 3 Y123 K 79.1 79.1 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1875 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.97Zn0.03O6.9 Y 1 Ba 2 Cu 2.97 Zn 0.03 O Y 6.9 1 1990 3 Y123 K 81 81 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1876 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.97Zn0.03O6.76 Y 1 Ba 2 Cu 2.97 Zn 0.03 O Y 6.76 1 1990 Y123 K 61.4 61.4 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1877 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.97Zn0.03O6.59 Y 1 Ba 2 Cu 2.97 Zn 0.03 O Y 6.59 1 1990 Y123 K 38.7 38.7 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1878 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.97Zn0.03O6.47 Y 1 Ba 2 Cu 2.97 Zn 0.03 O Y 6.47 1 1990 Y123 K 29.8 29.8 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1879 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.97Zn0.03O6.85 Y 1 Ba 2 Cu 2.97 Zn 0.03 O Y 6.85 1 1990 Y123 K 77 77 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1880 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.97Zn0.03O6.67 Y 1 Ba 2 Cu 2.97 Zn 0.03 O Y 6.67 1 1990 Y123 K 39.8 39.8 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1881 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.94Zn0.06O6.84 Y 1 Ba 2 Cu 2.94 Zn 0.06 O Y 6.84 1 1990 Y123 K 60.8 60.8 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1882 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.94Zn0.06O6.65 Y 1 Ba 2 Cu 2.94 Zn 0.06 O Y 6.65 1 1990 Y123 K 18.9 18.9 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1883 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.94Zn0.06O6.59 Y 1 Ba 2 Cu 2.94 Zn 0.06 O Y 6.59 1 1990 Y123 K 18.9 18.9 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1884 PHC1700307 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.94Zn0.06O6.48 Y 1 Ba 2 Cu 2.94 Zn 0.06 O Y 6.48 1 1990 Y123 K "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1885 PHC1700307 YBa2Cu3O7 Y1Ba2Cu3O6.97 Y 1 Ba 2 Cu 3 O Y 6.97 1 1990 Y123 K 91.6 91.6 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1886 PHC1700307 YBa2Cu3O7 Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O Y 6.9 1 1990 Y123 K 94.1 94.1 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1887 PHC1700307 YBa2Cu3O7 Y1Ba2Cu3O6.76 Y 1 Ba 2 Cu 3 O Y 6.76 1 1990 Y123 K 82 82 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1888 PHC1700307 YBa2Cu3O7 Y1Ba2Cu3O6.59 Y 1 Ba 2 Cu 3 O Y 6.59 1 1990 Y123 K 61.2 61.2 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1889 PHC1700307 YBa2Cu3O7 Y1Ba2Cu3O6.47 Y 1 Ba 2 Cu 3 O Y 6.47 1 1990 Y123 K 51.4 51.4 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1890 PHC1700307 YBa2Cu3O7 Y1Ba2Cu3O6.66 Y 1 Ba 2 Cu 3 O Y 6.66 1 1990 Y123 K 68 68 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1891 PHC1700307 YBa2Cu3O7 Y1Ba2Cu3O6.33 Y 1 Ba 2 Cu 3 O Y 6.33 1 1990 Y123 K 18.6 18.6 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1892 PHC1700307 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.94Ni0.06O6.97 Y 1 Ba 2 Cu 2.94 Ni 0.06 O Y 6.97 1 1990 2.22 -34.1 Y123 K 85 85 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1893 PHC1700307 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.94Ni0.06O6.9 Y 1 Ba 2 Cu 2.94 Ni 0.06 O Y 6.9 1 1990 2.33 -7.8 Y123 K 86.3 86.3 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1894 PHC1700307 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.94Ni0.06O6.78 Y 1 Ba 2 Cu 2.94 Ni 0.06 O Y 6.78 1 1990 2.29 15.4 Y123 K 64.6 64.6 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1895 PHC1700307 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.94Ni0.06O6.6 Y 1 Ba 2 Cu 2.94 Ni 0.06 O Y 6.6 1 1990 2.3 18.2 Y123 K 40.1 40.1 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1896 PHC1700307 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.94Ni0.06O6.47 Y 1 Ba 2 Cu 2.94 Ni 0.06 O Y 6.47 1 1990 Y123 K 23 23 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1897 PHC1700307 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.94Ni0.06O6.7 Y 1 Ba 2 Cu 2.94 Ni 0.06 O Y 6.7 1 1990 Y123 K 47.4 47.4 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1898 PHC1700307 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.94Ni0.06O6.64 Y 1 Ba 2 Cu 2.94 Ni 0.06 O Y 6.64 1 1990 Y123 K 43.1 43.1 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1899 PHC1700307 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.94Ni0.06O6.56 Y 1 Ba 2 Cu 2.94 Ni 0.06 O Y 6.56 1 1990 Y123 K 37.5 37.5 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1900 PHC1700307 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.85Ni0.15O6.97 Y 1 Ba 2 Cu 2.85 Ni 0.15 O Y 6.97 1 1990 2.36 -44.4 Y123 K 77.2 77.2 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1901 PHC1700307 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.85Ni0.15O6.9 Y 1 Ba 2 Cu 2.85 Ni 0.15 O Y 6.9 1 1990 2.37 -12.8 Y123 K 73 73 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1902 PHC1700307 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.85Ni0.15O6.78 Y 1 Ba 2 Cu 2.85 Ni 0.15 O Y 6.78 1 1990 Y123 K 41.3 41.3 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1903 PHC1700307 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.85Ni0.15O6.6 Y 1 Ba 2 Cu 2.85 Ni 0.15 O Y 6.6 1 1990 2.52 -14.3 Y123 K "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1904 PHC1700307 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.7Ni0.3O6.97 Y 1 Ba 2 Cu 2.7 Ni 0.3 O Y 6.97 1 1990 2.42 -43.6 Y123 K 60.4 60.4 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1905 PHC1700307 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.7Ni0.3O6.9 Y 1 Ba 2 Cu 2.7 Ni 0.3 O Y 6.9 1 1990 2.38 -23.2 Y123 K 46 46 "BA(NO3)2,Y2O3,CUO,ZNO,NICO3.XH2O" 0 "CAL(900C 24H IN AIR)-SIN(960C 12H IN O2)-STEP WISE COOLING BETWEEN 800 AND 350C-ANN(5H)-Q,OXYGEN CONTROL BY ANNEALING TEMPERATURE" "SUPERCONDUCTIVITY, MAGNETISM AND OXYGEN NONSTOICHIOMETRY OF BA2Y(CU1-XMX)3OY(M=ZN AND NI)" 1990 "RESEARCH LABORATORY OF ENGINEERING MEATERIALS, TOKYO INSTITUTEOF TECHNOLOGY, 4259 NAGATSUTA, MIDORI-KU, YOKOHAMA 227, JAPAN" "PHYSICA C,170(1990)307" "BA,Y,CU,O,ZN,NI" 1906 PHC1700130 LEAD WIRE=IN SOLDER OR AG PASTE "Pb2CuSr2(Y,Ca)Cu2O8" Pb2Sr2Y0.85Ca0.15Cu3O8+Z Pb 2 Sr 2 Y 0.85 Ca 0.15 Cu 3 O 8+Z 1 1990 3 Pb3212 5.403 5.442 15.773 K 46 46 22 1.06 38 43.5 0.000000162 1.5 "SRCO3,Y2O3,CACO3,CUO,PBO" 1 PRECURSOR SR2Y1-XCAXCU3OZ+PBO - SIN(925-955C 2H IN 1%O2+99%N2)-ANN(800-840C 12H IN 1%O2+99%N2)-Q NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZI:DEPENDENCE ON THE CA CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,170(1990)130" "PB,SR,Y,CA,CU,O" 1907 PHC1700130 "Pb2CuSr2(Y,Ca)Cu2O8" Pb2Sr2Y0.8Ca0.2Cu3O8+Z Pb 2 Sr 2 Y 0.8 Ca 0.2 Cu 3 O 8+Z 1 1990 0 3 Pb3212 5.4 5.435 15.786 K 58.9 58.9 42 1.16 27.8 55.1 6.87E-08 1.5 "SRCO3,Y2O3,CACO3,CUO,PBO" 1 PRECURSOR SR2Y1-XCAXCU3OZ+PBO - SIN(925-955C 2H IN 1%O2+99%N2)-ANN(800-840C 12H IN 1%O2+99%N2)-Q NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZI:DEPENDENCE ON THE CA CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,170(1990)130" "PB,SR,Y,CA,CU,O" 1908 PHC1700130 "Pb2CuSr2(Y,Ca)Cu2O8" Pb2Sr2Y0.75Ca0.25Cu3O8+Z Pb 2 Sr 2 Y 0.75 Ca 0.25 Cu 3 O 8+Z 1 1990 3 Pb3212 5.396 5.435 15.777 K 70.6 70.6 49.5 4.06E-08 "SRCO3,Y2O3,CACO3,CUO,PBO" 1 PRECURSOR SR2Y1-XCAXCU3OZ+PBO - SIN(925-955C 2H IN 1%O2+99%N2)-ANN(800-840C 12H IN 1%O2+99%N2)-Q NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZI:DEPENDENCE ON THE CA CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,170(1990)130" "PB,SR,Y,CA,CU,O" 1909 PHC1700130 "Pb2CuSr2(Y,Ca)Cu2O8" Pb2Sr2Y0.7Ca0.3Cu3O8+Z Pb 2 Sr 2 Y 0.7 Ca 0.3 Cu 3 O 8+Z 1 1990 -24860 3 Pb3212 5.395 5.435 15.803 K 76.8 76.8 45 0.92 27 11.5 1.08E-08 1.5 "SRCO3,Y2O3,CACO3,CUO,PBO" 1 PRECURSOR SR2Y1-XCAXCU3OZ+PBO - SIN(925-955C 2H IN 1%O2+99%N2)-ANN(800-840C 12H IN 1%O2+99%N2)-Q NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZI:DEPENDENCE ON THE CA CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,170(1990)130" "PB,SR,Y,CA,CU,O" 1910 PHC1700130 "Pb2CuSr2(Y,Ca)Cu2O8" Pb2Sr2Y0.65Ca0.35Cu3O8+Z Pb 2 Sr 2 Y 0.65 Ca 0.35 Cu 3 O 8+Z 1 1990 3 Pb3212 5.394 5.432 15.799 K 79.1 79.1 75 1.45 21 15.9 1.67E-08 1.5 "SRCO3,Y2O3,CACO3,CUO,PBO" 1 PRECURSOR SR2Y1-XCAXCU3OZ+PBO - SIN(925-955C 2H IN 1%O2+99%N2)-ANN(800-840C 12H IN 1%O2+99%N2)-Q NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZI:DEPENDENCE ON THE CA CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,170(1990)130" "PB,SR,Y,CA,CU,O" 1911 PHC1700130 "Pb2CuSr2(Y,Ca)Cu2O8" Pb2Sr2Y0.6Ca0.4Cu3O8+Z Pb 2 Sr 2 Y 0.6 Ca 0.4 Cu 3 O 8+Z 1 1990 -1.06E+33 3 Pb3212 5.392 5.43 15.806 K 79.1 79.1 79 1.51 20 12.8 1.18E-08 1.5 "SRCO3,Y2O3,CACO3,CUO,PBO" 1 PRECURSOR SR2Y1-XCAXCU3OZ+PBO - SIN(925-955C 2H IN 1%O2+99%N2)-ANN(800-840C 12H IN 1%O2+99%N2)-Q NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZI:DEPENDENCE ON THE CA CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,170(1990)130" "PB,SR,Y,CA,CU,O" 1912 PHC1700130 Pb2CuSr2YCu2O8 Pb2Sr2Y1Cu3O8+Z Pb 2 Sr 2 Y 1 Cu 3 O 8+Z 1 1990 EMU.K/G 2E(-5) 3 Pb3212 5.409 5.447 15.765 K 82.9 0.00000026 1.5 "SRCO3,Y2O3,CACO3,CUO,PBO" 1 PRECURSOR SR2Y1-XCAXCU3OZ+PBO - SIN(925-955C 2H IN 1%O2+99%N2)-ANN(800-840C 12H IN 1%O2+99%N2)-Q NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZI:DEPENDENCE ON THE CA CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,170(1990)130" "PB,SR,Y,CA,CU,O" 1913 PHC1700130 "Pb2CuSr2(Y,Ca)Cu2O8" Pb2Sr2Y0.55Ca0.45Cu3O8+Z Pb 2 Sr 2 Y 0.55 Ca 0.45 Cu 3 O 8+Z 1 1990 3 Pb3212 5.391 5.43 15.806 K 79.7 79.7 7.98 1.28E-08 1.5 "SRCO3,Y2O3,CACO3,CUO,PBO" 1 PRECURSOR SR2Y1-XCAXCU3OZ+PBO - SIN(925-955C 2H IN 1%O2+99%N2)-ANN(800-840C 12H IN 1%O2+99%N2)-Q NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZI:DEPENDENCE ON THE CA CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,170(1990)130" "PB,SR,Y,CA,CU,O" 1914 PHC1700130 "Pb2CuSr2(Y,Ca)Cu2O8" Pb2Sr2Y0.5Ca0.5Cu3O8+Z Pb 2 Sr 2 Y 0.5 Ca 0.5 Cu 3 O 8+Z 1 1990 0 3 Pb3212 5.388 5.428 15.808 K 79.7 79.7 78 1.51 20 6.3 1.23E-08 1.5 "SRCO3,Y2O3,CACO3,CUO,PBO" 1 PRECURSOR SR2Y1-XCAXCU3OZ+PBO - SIN(925-955C 2H IN 1%O2+99%N2)-ANN(800-840C 12H IN 1%O2+99%N2)-Q NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZI:DEPENDENCE ON THE CA CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,170(1990)130" "PB,SR,Y,CA,CU,O" 1915 PHC1700130 "Pb2CuSr2(Y,Ca)Cu2O8" Pb2Sr2Y0.45Ca0.55Cu3O8+Z Pb 2 Sr 2 Y 0.45 Ca 0.55 Cu 3 O 8+Z 1 1990 3 Pb3212 5.385 5.424 15.804 K 78.8 78.8 79 1.52 20 26.5 1.74E-08 1.5 "SRCO3,Y2O3,CACO3,CUO,PBO" 1 PRECURSOR SR2Y1-XCAXCU3OZ+PBO - SIN(925-955C 2H IN 1%O2+99%N2)-ANN(800-840C 12H IN 1%O2+99%N2)-Q NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZI:DEPENDENCE ON THE CA CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,170(1990)130" "PB,SR,Y,CA,CU,O" 1916 PHC1700130 "Pb2CuSr2(Y,Ca)Cu3O8" Pb2Sr2Y0.4Ca0.6Cu3O8+Z Pb 2 Sr 2 Y 0.4 Ca 0.6 Cu 3 O 8+Z 2 1990 -0.002 3 Pb3212 5.396 5.434 15.836 K 79.1 79.1 14.8 0.000000353 1.5 "SRCO3,Y2O3,CACO3,CUO,PBO" 1 PRECURSOR SR2Y1-XCAXCU3OZ+PBO - SIN(925-955C 2H IN 1%O2+99%N2)-ANN(800-840C 12H IN 1%O2+99%N2)-Q NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZI:DEPENDENCE ON THE CA CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,170(1990)130" "PB,SR,Y,CA,CU,O" 1917 PHC1700130 "Pb2CuSr2(Y,Ca)Cu2O8" Pb2Sr2Y0.3Ca0.7Cu3O8+Z Pb 2 Sr 2 Y 0.3 Ca 0.7 Cu 3 O 8+Z 2 1990 -3.75E+11 3 Pb3212 5.393 5.429 15.818 K 73 73 1570 "SRCO3,Y2O3,CACO3,CUO,PBO" 1 PRECURSOR SR2Y1-XCAXCU3OZ+PBO - SIN(925-955C 2H IN 1%O2+99%N2)-ANN(800-840C 12H IN 1%O2+99%N2)-Q NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZI:DEPENDENCE ON THE CA CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,170(1990)130" "PB,SR,Y,CA,CU,O" 1918 PHC1700130 "Pb2CuSr2(Y,Ca)Cu2O8" Pb2Sr2Y0.2Ca0.8Cu3O8+Z Pb 2 Sr 2 Y 0.2 Ca 0.8 Cu 3 O 8+Z 2 1990 -8.22E+25 3 Pb3212 5.392 5.425 15.8 K 73.2 73.2 1066 "SRCO3,Y2O3,CACO3,CUO,PBO" 1 PRECURSOR SR2Y1-XCAXCU3OZ+PBO - SIN(925-955C 2H IN 1%O2+99%N2)-ANN(800-840C 12H IN 1%O2+99%N2)-Q NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZI:DEPENDENCE ON THE CA CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,170(1990)130" "PB,SR,Y,CA,CU,O" 1919 PHC1700130 "Pb2CuSr2(Y,Ca)Cu2O8" Pb2Sr2Y0.9Ca0.1Cu3O8+Z Pb 2 Sr 2 Y 0.9 Ca 0.1 Cu 3 O 8+Z 1 1990 -8.22E+25 3 Pb3212 5.411 5.448 15.783 K 27.7 "SRCO3,Y2O3,CACO3,CUO,PBO" 1 PRECURSOR SR2Y1-XCAXCU3OZ+PBO - SIN(925-955C 2H IN 1%O2+99%N2)-ANN(800-840C 12H IN 1%O2+99%N2)-Q NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZI:DEPENDENCE ON THE CA CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,170(1990)130" "PB,SR,Y,CA,CU,O" 1920 PRB0377476 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 92.9 93.5 94.4 93.5 1.75 TP1920 1.18 1 TRANSPORT PROPERTIES OF THE OXIDES Y(1-X)PR(X)BA(2)CU(3)O(7-Z)(0<-X<-1): EFFECTS OF BAND FILLING AND LATTICE DISTORTION ON SUPERCONDUCTIVITY 1988 5 "RESISTIVITY ,THERMOPOWER" "DEPARTAMENTO DE QUIMICA,INSTITUTO DE CIENCASEE ENGENHARIA NUCLEAR-LABORATORIO NACIONAL DE ENGENHARIA E TECNOLGIA INDUSTRIAL,PORTUGAL" "PHYS.REV.B,37(1988)7476" "Y,PR,BA,CU,O" 1921 PRB0377476 "(Y,Pr)Ba2Cu3O7" Y0.95Pr0.05Ba2Cu3O7-Z Y 0.95 Pr 0.05 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 1.65 TP1921 1.2 1 TRANSPORT PROPERTIES OF THE OXIDES Y(1-X)PR(X)BA(2)CU(3)O(7-Z)(0<-X<-1): EFFECTS OF BAND FILLING AND LATTICE DISTORTION ON SUPERCONDUCTIVITY 1988 5 "RESISTIVITY ,THERMOPOWER" "DEPARTAMENTO DE QUIMICA,INSTITUTO DE CIENCASEE ENGENHARIA NUCLEAR-LABORATORIO NACIONAL DE ENGENHARIA E TECNOLGIA INDUSTRIAL,PORTUGAL" "PHYS.REV.B,37(1988)7476" "Y,PR,BA,CU,O" 1922 PRB0377476 "(Y,Pr)Ba2Cu3O7" Y0.9Pr0.1Ba2Cu3O7-Z Y 0.9 Pr 0.1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 89 90 90.8 90 2.15 TP1922 1.23 TRANSPORT PROPERTIES OF THE OXIDES Y(1-X)PR(X)BA(2)CU(3)O(7-Z)(0<-X<-1): EFFECTS OF BAND FILLING AND LATTICE DISTORTION ON SUPERCONDUCTIVITY 1988 5 "RESISTIVITY ,THERMOPOWER" "DEPARTAMENTO DE QUIMICA,INSTITUTO DE CIENCASEE ENGENHARIA NUCLEAR-LABORATORIO NACIONAL DE ENGENHARIA E TECNOLGIA INDUSTRIAL,PORTUGAL" "PHYS.REV.B,37(1988)7476" "Y,PR,BA,CU,O" 1923 PRB0377476 "(Y,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O7-Z Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 77.2 78.4 79.6 78.4 1.52 TRANSPORT PROPERTIES OF THE OXIDES Y(1-X)PR(X)BA(2)CU(3)O(7-Z)(0<-X<-1): EFFECTS OF BAND FILLING AND LATTICE DISTORTION ON SUPERCONDUCTIVITY 1988 5 "RESISTIVITY ,THERMOPOWER" "DEPARTAMENTO DE QUIMICA,INSTITUTO DE CIENCASEE ENGENHARIA NUCLEAR-LABORATORIO NACIONAL DE ENGENHARIA E TECNOLGIA INDUSTRIAL,PORTUGAL" "PHYS.REV.B,37(1988)7476" "Y,PR,BA,CU,O" 1924 PRB0377476 "(Y,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3O7-Z Y 0.7 Pr 0.3 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 61.9 64 68 64 2.1 1 TRANSPORT PROPERTIES OF THE OXIDES Y(1-X)PR(X)BA(2)CU(3)O(7-Z)(0<-X<-1): EFFECTS OF BAND FILLING AND LATTICE DISTORTION ON SUPERCONDUCTIVITY 1988 5 "RESISTIVITY ,THERMOPOWER" "DEPARTAMENTO DE QUIMICA,INSTITUTO DE CIENCASEE ENGENHARIA NUCLEAR-LABORATORIO NACIONAL DE ENGENHARIA E TECNOLGIA INDUSTRIAL,PORTUGAL" "PHYS.REV.B,37(1988)7476" "Y,PR,BA,CU,O" 1925 PRB0377476 "(Y,Pr)Ba2Cu3O7" Y0.6Pr0.4Ba2Cu3O7-Z Y 0.6 Pr 0.4 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 46 48 57.2 48 15.2 TP1925 2.5 1 TRANSPORT PROPERTIES OF THE OXIDES Y(1-X)PR(X)BA(2)CU(3)O(7-Z)(0<-X<-1): EFFECTS OF BAND FILLING AND LATTICE DISTORTION ON SUPERCONDUCTIVITY 1988 5 "RESISTIVITY ,THERMOPOWER" "DEPARTAMENTO DE QUIMICA,INSTITUTO DE CIENCASEE ENGENHARIA NUCLEAR-LABORATORIO NACIONAL DE ENGENHARIA E TECNOLGIA INDUSTRIAL,PORTUGAL" "PHYS.REV.B,37(1988)7476" "Y,PR,BA,CU,O" 1926 PRB0377476 "(Y,Pr)Ba2Cu3O7" Y0.5Pr0.5Ba2Cu3O7-Z Y 0.5 Pr 0.5 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 29.2 33 38 33 18.5 TP1926 2.7 1 TRANSPORT PROPERTIES OF THE OXIDES Y(1-X)PR(X)BA(2)CU(3)O(7-Z)(0<-X<-1): EFFECTS OF BAND FILLING AND LATTICE DISTORTION ON SUPERCONDUCTIVITY 1988 5 "RESISTIVITY ,THERMOPOWER" "DEPARTAMENTO DE QUIMICA,INSTITUTO DE CIENCASEE ENGENHARIA NUCLEAR-LABORATORIO NACIONAL DE ENGENHARIA E TECNOLGIA INDUSTRIAL,PORTUGAL" "PHYS.REV.B,37(1988)7476" "Y,PR,BA,CU,O" 1927 PRB0377476 "(Y,Pr)Ba2Cu3O7" Y0.4Pr0.6Ba2Cu3O7-Z Y 0.4 Pr 0.6 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 41.7 TP1927 5.5 1 TRANSPORT PROPERTIES OF THE OXIDES Y(1-X)PR(X)BA(2)CU(3)O(7-Z)(0<-X<-1): EFFECTS OF BAND FILLING AND LATTICE DISTORTION ON SUPERCONDUCTIVITY 1988 5 "RESISTIVITY ,THERMOPOWER" "DEPARTAMENTO DE QUIMICA,INSTITUTO DE CIENCASEE ENGENHARIA NUCLEAR-LABORATORIO NACIONAL DE ENGENHARIA E TECNOLGIA INDUSTRIAL,PORTUGAL" "PHYS.REV.B,37(1988)7476" "Y,PR,BA,CU,O" 1928 PRB0377476 "(Y,Pr)Ba2Cu3O7" Y0.3Pr0.7Ba2Cu3O7-Z Y 0.3 Pr 0.7 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 15 1 TRANSPORT PROPERTIES OF THE OXIDES Y(1-X)PR(X)BA(2)CU(3)O(7-Z)(0<-X<-1): EFFECTS OF BAND FILLING AND LATTICE DISTORTION ON SUPERCONDUCTIVITY 1988 5 "RESISTIVITY ,THERMOPOWER" "DEPARTAMENTO DE QUIMICA,INSTITUTO DE CIENCASEE ENGENHARIA NUCLEAR-LABORATORIO NACIONAL DE ENGENHARIA E TECNOLGIA INDUSTRIAL,PORTUGAL" "PHYS.REV.B,37(1988)7476" "Y,PR,BA,CU,O" 1929 PRB0377476 "(Y,Pr)Ba2Cu3O7" Y0.2Pr0.8Ba2Cu3O7-Z Y 0.2 Pr 0.8 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 27 1 TRANSPORT PROPERTIES OF THE OXIDES Y(1-X)PR(X)BA(2)CU(3)O(7-Z)(0<-X<-1): EFFECTS OF BAND FILLING AND LATTICE DISTORTION ON SUPERCONDUCTIVITY 1988 5 "RESISTIVITY ,THERMOPOWER" "DEPARTAMENTO DE QUIMICA,INSTITUTO DE CIENCASEE ENGENHARIA NUCLEAR-LABORATORIO NACIONAL DE ENGENHARIA E TECNOLGIA INDUSTRIAL,PORTUGAL" "PHYS.REV.B,37(1988)7476" "Y,PR,BA,CU,O" 1930 PRB0377476 "(Y,Pr)Ba2Cu3O7" Y0.1Pr0.9Ba2Cu3O7-Z Y 0.1 Pr 0.9 Ba 2 Cu 3 O 7-Z 1 1988 Y123 K 68.1 TP1930 61 1 TRANSPORT PROPERTIES OF THE OXIDES Y(1-X)PR(X)BA(2)CU(3)O(7-Z)(0<-X<-1): EFFECTS OF BAND FILLING AND LATTICE DISTORTION ON SUPERCONDUCTIVITY 1988 5 "RESISTIVITY ,THERMOPOWER" "DEPARTAMENTO DE QUIMICA,INSTITUTO DE CIENCASEE ENGENHARIA NUCLEAR-LABORATORIO NACIONAL DE ENGENHARIA E TECNOLGIA INDUSTRIAL,PORTUGAL" "PHYS.REV.B,37(1988)7476" "Y,PR,BA,CU,O" 1931 PRB0377476 PrBa2Cu3O7 Pr1Ba2Cu3O7-Z Pr 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 120 TP1931 85.4 1 TRANSPORT PROPERTIES OF THE OXIDES Y(1-X)PR(X)BA(2)CU(3)O(7-Z)(0<-X<-1): EFFECTS OF BAND FILLING AND LATTICE DISTORTION ON SUPERCONDUCTIVITY 1988 5 "RESISTIVITY ,THERMOPOWER" "DEPARTAMENTO DE QUIMICA,INSTITUTO DE CIENCASEE ENGENHARIA NUCLEAR-LABORATORIO NACIONAL DE ENGENHARIA E TECNOLGIA INDUSTRIAL,PORTUGAL" "PHYS.REV.B,37(1988)7476" "Y,PR,BA,CU,O" 1932 PR0426801 "MUON SPIN,H=3.9KOE" "(Y,Pr)Ba2Cu3O7" Y0.95Pr0.05Ba2Cu3O6.97 Y 0.95 Pr 0.05 Ba 2 Cu 3 O 6.97 6.97 1 1990 3 Y123 PMMM K 91.5 91.5 1500 1 MAGNETIC PENETRATION DEPTH OF Y1-XPRXBA2CU3O6.97 MEASURED BY MUON-SPIN RELAXATION 1990 10 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES, UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CALIFORNIA 92093" "PHYS.REV.B,42(1990)6801" "Y,PR,BA,CU,O" 1933 PR0426801 "MUON SPIN,H=3.9KOE" "(Y,Pr)Ba2Cu3O7" Y0.6Pr0.4Ba2Cu3O6.97 Y 0.6 Pr 0.4 Ba 2 Cu 3 O 6.97 6.97 1 1990 3 Y123 PMMM K 40 40 40 2900 1 MAGNETIC PENETRATION DEPTH OF Y1-XPRXBA2CU3O6.97 MEASURED BY MUON-SPIN RELAXATION 1990 10 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES, UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CALIFORNIA 92093" "PHYS.REV.B,42(1990)6801" "Y,PR,BA,CU,O" 1934 PRL0632516 "(Y,Ca,Pr)Ba2Cu3O7" Y0.85Ca0.05Pr0.1Ba2Cu3O6.95 Y 0.85 Ca 0.05 Pr 0.1 Ba 2 Cu 3 O 6.95 6.95 1 1989 Y123 K 84.6 84.6 HOLE FILLING AND PAIR BREAKING BY PR IONS IN YBA2CU3O6.95+-0.02 1989 11 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA,SAN DIEGO,LA,JOLLA,CALIFORNIA 92093" "PHYS,REV.LETT.63(1989)2516" "Y,BA,CU,O,PR" 1935 PRL0632516 "(Y,Ca,Pr)Ba2Cu3O7" Y0.8Ca0.1Pr0.1Ba2Cu3O6.95 Y 0.8 Ca 0.1 Pr 0.1 Ba 2 Cu 3 O 6.95 6.95 1 1989 Y123 K 81.4 81.4 HOLE FILLING AND PAIR BREAKING BY PR IONS IN YBA2CU3O6.95+-0.02 1989 11 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA,SAN DIEGO,LA,JOLLA,CALIFORNIA 92093" "PHYS,REV.LETT.63(1989)2516" "Y,BA,CU,O,PR" 1936 PRL0632516 YBa2Cu3O7 Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O 6.95 6.95 1 1989 Y123 K 92.2 92.2 HOLE FILLING AND PAIR BREAKING BY PR IONS IN YBA2CU3O6.95+-0.02 1989 11 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA,SAN DIEGO,LA,JOLLA,CALIFORNIA 92093" "PHYS,REV.LETT.63(1989)2516" "Y,BA,CU,O,PR" 1937 PRL0632516 "(Y,Pr)Ba2Cu3O7" Y0.95Pr0.05Ba2Cu3O6.95 Y 0.95 Pr 0.05 Ba 2 Cu 3 O 6.95 6.95 1 1989 Y123 K 91.5 91.5 HOLE FILLING AND PAIR BREAKING BY PR IONS IN YBA2CU3O6.95+-0.02 1989 11 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA,SAN DIEGO,LA,JOLLA,CALIFORNIA 92093" "PHYS,REV.LETT.63(1989)2516" "Y,BA,CU,O,PR" 1938 PRL0632516 "(Y,Pr)Ba2Cu3O7" Y0.9Pr0.1Ba2Cu3O6.95 Y 0.9 Pr 0.1 Ba 2 Cu 3 O 6.95 6.95 1 1989 Y123 K 88.1 88.1 HOLE FILLING AND PAIR BREAKING BY PR IONS IN YBA2CU3O6.95+-0.02 1989 11 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA,SAN DIEGO,LA,JOLLA,CALIFORNIA 92093" "PHYS,REV.LETT.63(1989)2516" "Y,BA,CU,O,PR" 1939 PRL0632516 "(Y,Pr)Ba2Cu3O7" Y0.85Pr0.15Ba2Cu3O6.95 Y 0.85 Pr 0.15 Ba 2 Cu 3 O 6.95 6.95 1 1989 Y123 K 81.6 81.6 HOLE FILLING AND PAIR BREAKING BY PR IONS IN YBA2CU3O6.95+-0.02 1989 11 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA,SAN DIEGO,LA,JOLLA,CALIFORNIA 92093" "PHYS,REV.LETT.63(1989)2516" "Y,BA,CU,O,PR" 1940 PRL0632516 "(Y,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O6.95 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 6.95 6.95 1 1989 Y123 K 74.6 74.6 HOLE FILLING AND PAIR BREAKING BY PR IONS IN YBA2CU3O6.95+-0.02 1989 11 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA,SAN DIEGO,LA,JOLLA,CALIFORNIA 92093" "PHYS,REV.LETT.63(1989)2516" "Y,BA,CU,O,PR" 1941 PRL0632516 "(Y,Ca,Pr)Ba2Cu3O7" Y0.83Ca0.02Pr0.15Ba2Cu3O6.95 Y 0.83 Ca 0.02 Pr 0.15 Ba 2 Cu 3 O 6.95 6.95 1 1989 Y123 K 83 83 HOLE FILLING AND PAIR BREAKING BY PR IONS IN YBA2CU3O6.95+-0.02 1989 11 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA,SAN DIEGO,LA,JOLLA,CALIFORNIA 92093" "PHYS,REV.LETT.63(1989)2516" "Y,BA,CU,O,PR" 1942 PRL0632516 "(Y,Ca,Pr)Ba2Cu3O7" Y0.8Ca0.05Pr0.15Ba2Cu3O6.95 Y 0.8 Ca 0.05 Pr 0.15 Ba 2 Cu 3 O 6.95 6.95 1 1989 Y123 K 82.7 82.7 HOLE FILLING AND PAIR BREAKING BY PR IONS IN YBA2CU3O6.95+-0.02 1989 11 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA,SAN DIEGO,LA,JOLLA,CALIFORNIA 92093" "PHYS,REV.LETT.63(1989)2516" "Y,BA,CU,O,PR" 1943 PRL0632516 "(Y,Pr,Pr)Ba2Cu3O7" Y0.77Ca0.08Pr0.15Ba2Cu3O6.95 Y 0.77 Ca 0.08 Pr 0.15 Ba 2 Cu 3 O 6.95 6.95 1 1989 Y123 K 81.7 81.7 HOLE FILLING AND PAIR BREAKING BY PR IONS IN YBA2CU3O6.95+-0.02 1989 11 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA,SAN DIEGO,LA,JOLLA,CALIFORNIA 92093" "PHYS,REV.LETT.63(1989)2516" "Y,BA,CU,O,PR" 1944 PRL0632516 "(Y,Pr,Ca)Ba2Cu3O7" Y0.75Ca0.1Pr0.15Ba2Cu3O6.95 Y 0.75 Ca 0.1 Pr 0.15 Ba 2 Cu 3 O 6.95 6.95 1 1989 Y123 K 79.6 79.6 HOLE FILLING AND PAIR BREAKING BY PR IONS IN YBA2CU3O6.95+-0.02 1989 11 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA,SAN DIEGO,LA,JOLLA,CALIFORNIA 92093" "PHYS,REV.LETT.63(1989)2516" "Y,BA,CU,O,PR" 1945 PRL0632516 "(Y,Ca,Pr)Ba2Cu3O7" Y0.7Ca0.15Pr0.15Ba2Cu3O6.95 Y 0.7 Ca 0.15 Pr 0.15 Ba 2 Cu 3 O 6.95 6.95 1 1989 Y123 K 77.6 77.6 HOLE FILLING AND PAIR BREAKING BY PR IONS IN YBA2CU3O6.95+-0.02 1989 11 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA,SAN DIEGO,LA,JOLLA,CALIFORNIA 92093" "PHYS,REV.LETT.63(1989)2516" "Y,BA,CU,O,PR" 1946 PRL0632516 "(Y,Ca,Pr)Ba2Cu3O7" Y0.75Ca0.05Pr0.2Ba2Cu3O6.95 Y 0.75 Ca 0.05 Pr 0.2 Ba 2 Cu 3 O 6.95 6.95 1 1989 Y123 K 76.4 76.4 HOLE FILLING AND PAIR BREAKING BY PR IONS IN YBA2CU3O6.95+-0.02 1989 11 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA,SAN DIEGO,LA,JOLLA,CALIFORNIA 92093" "PHYS,REV.LETT.63(1989)2516" "Y,BA,CU,O,PR" 1947 PRL0632516 "(Y,Ca,Pr)Ba2Cu3O7" Y0.7Ca0.1Pr0.2Ba2Cu3O6.95 Y 0.7 Ca 0.1 Pr 0.2 Ba 2 Cu 3 O 6.95 6.95 1 1989 Y123 K 77.1 77.1 HOLE FILLING AND PAIR BREAKING BY PR IONS IN YBA2CU3O6.95+-0.02 1989 11 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA,SAN DIEGO,LA,JOLLA,CALIFORNIA 92093" "PHYS,REV.LETT.63(1989)2516" "Y,BA,CU,O,PR" 1948 PRL0632516 "(Y,Ca,Pr)Ba2Cu3O7" Y0.6Ca0.2Pr0.2Ba2Cu3O6.95 Y 0.6 Ca 0.2 Pr 0.2 Ba 2 Cu 3 O 6.95 6.95 1 1989 Y123 K 72.9 72.9 HOLE FILLING AND PAIR BREAKING BY PR IONS IN YBA2CU3O6.95+-0.02 1989 11 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA,SAN DIEGO,LA,JOLLA,CALIFORNIA 92093" "PHYS,REV.LETT.63(1989)2516" "Y,BA,CU,O,PR" 1949 PRL0632516 "(Y,Ca,Pr)Ba2Cu3O7" Y0.65Ca0.15Pr0.2Ba2Cu3O6.95 Y 0.65 Ca 0.15 Pr 0.2 Ba 2 Cu 3 O 6.95 6.95 1 1989 Y123 K 77.1 77.1 HOLE FILLING AND PAIR BREAKING BY PR IONS IN YBA2CU3O6.95+-0.02 1989 11 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA,SAN DIEGO,LA,JOLLA,CALIFORNIA 92093" "PHYS,REV.LETT.63(1989)2516" "Y,BA,CU,O,PR" 1950 PHC1680057 "TlBa2(Ca,Gd)Cu2O7" Tl1Ba2Ca0.9Gd0.1Cu2O7 Tl 1 Ba 2 Ca 0.9 Gd 0.1 Cu 2 O 7 1990 2 Tl1212 3.872 12.675 K 91.8 91.8 "TL2O3,BACUO2,BAO2,CAO,CUO,R2O3,Y2O3" 0 PELLET WRAPPED IN AU FOIL-CAL(890C 1-3H IN O2)-SLOW COOL IN O2 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 1951 PHC1680057 "TlBa2(Ca,Gd)Cu2O7" Tl1Ba2Ca0.8Gd0.2Cu2O7 Tl 1 Ba 2 Ca 0.8 Gd 0.2 Cu 2 O 7 1990 2 Tl1212 3.887 12.63 K 93.6 93.6 "TL2O3,BACUO2,BAO2,CAO,CUO,R2O3,Y2O3" 0 PELLET WRAPPED IN AU FOIL-CAL(890C 1-3H IN O2)-SLOW COOL IN O2 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 1952 PHC1680057 "TlBa2(Ca,Gd)Cu2O7" Tl1Ba2Ca0.7Gd0.3Cu2O7 Tl 1 Ba 2 Ca 0.7 Gd 0.3 Cu 2 O 7 1990 2 Tl1212 K 84.5 84.5 "TL2O3,BACUO2,BAO2,CAO,CUO,R2O3,Y2O3" 0 PELLET WRAPPED IN AU FOIL-CAL(890C 1-3H IN O2)-SLOW COOL IN O2 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 1953 PHC1680057 "TlBa2(Ca,Gd)Cu2O7" Tl1Ba2Ca0.6Gd0.4Cu2O7 Tl 1 Ba 2 Ca 0.6 Gd 0.4 Cu 2 O 7 1990 2 Tl1212 3.922 12.595 K "TL2O3,BACUO2,BAO2,CAO,CUO,R2O3,Y2O3" 0 PELLET WRAPPED IN AU FOIL-CAL(890C 1-3H IN O2)-SLOW COOL IN O2 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 1954 PHC1680057 "TlBa2(Ca,Gd)Cu2O7" Tl1Ba2Ca0.2Gd0.8Cu2O7 Tl 1 Ba 2 Ca 0.2 Gd 0.8 Cu 2 O 7 1990 2 Tl1212 3.955 12.508 K "TL2O3,BACUO2,BAO2,CAO,CUO,R2O3,Y2O3" 0 PELLET WRAPPED IN AU FOIL-CAL(890C 1-3H IN O2)-SLOW COOL IN O2 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 1955 PHC1680057 TlBa2GdCu2O7 Tl1Ba2Gd1Cu2O7 Tl 1 Ba 2 Gd 1 Cu 2 O 7 1990 2 Tl1212 3.954 12.492 K "TL2O3,BACUO2,BAO2,CAO,CUO,R2O3,Y2O3" 0 PELLET WRAPPED IN AU FOIL-CAL(890C 1-3H IN O2)-SLOW COOL IN O2 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 1956 PHC1680057 "TlBa2(Ca,Y)Cu2O7" Tl1Ba2Ca0.9Y0.1Cu2O7 Tl 1 Ba 2 Ca 0.9 Y 0.1 Cu 2 O 7 1990 2 Tl1212 K 86.1 86.1 "TL2O3,BACUO2,BAO2,CAO,CUO,R2O3,Y2O3" 0 PELLET WRAPPED IN AU FOIL-CAL(890C 1-3H IN O2)-SLOW COOL IN O2 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 1957 PHC1680057 "TlBa2(Ca,Y)Cu2O7" Tl1Ba2Ca0.8Y0.2Cu2O7 Tl 1 Ba 2 Ca 0.8 Y 0.2 Cu 2 O 7 1990 2 Tl1212 3.861 12.729 K 97.6 97.6 "TL2O3,BACUO2,BAO2,CAO,CUO,R2O3,Y2O3" 0 PELLET WRAPPED IN AU FOIL-CAL(890C 1-3H IN O2)-SLOW COOL IN O2 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 1958 PHC1680057 "TlBa2(Ca,Y)Cu2O7" Tl1Ba2Ca0.65Y0.35Cu2O7 Tl 1 Ba 2 Ca 0.65 Y 0.35 Cu 2 O 7 1990 2 Tl1212 3.865 12.649 K 102 102 "TL2O3,BACUO2,BAO2,CAO,CUO,R2O3,Y2O3" 0 PELLET WRAPPED IN AU FOIL-CAL(890C 1-3H IN O2)-SLOW COOL IN O2 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 1959 PHC1680057 "TlBa2(Ca,Y)Cu2O7" Tl1Ba2Ca0.6Y0.4Cu2O7 Tl 1 Ba 2 Ca 0.6 Y 0.4 Cu 2 O 7 1990 2 Tl1212 3.868 12.623 K 95.8 95.8 "TL2O3,BACUO2,BAO2,CAO,CUO,R2O3,Y2O3" 0 PELLET WRAPPED IN AU FOIL-CAL(890C 1-3H IN O2)-SLOW COOL IN O2 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 1960 PHC1680057 "TlBa2(Ca,Y)Cu2O7" Tl1Ba2Ca0.5Y0.5Cu2O7 Tl 1 Ba 2 Ca 0.5 Y 0.5 Cu 2 O 7 1990 2 Tl1212 3.87 12.607 K "TL2O3,BACUO2,BAO2,CAO,CUO,R2O3,Y2O3" 0 PELLET WRAPPED IN AU FOIL-CAL(890C 1-3H IN O2)-SLOW COOL IN O2 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 1961 PHC1680057 "TlBa2(Ca,Y)Cu2O7" Tl1Ba2Ca0.2Y0.8Cu2O7 Tl 1 Ba 2 Ca 0.2 Y 0.8 Cu 2 O 7 1990 2 Tl1212 3.902 12.492 K "TL2O3,BACUO2,BAO2,CAO,CUO,R2O3,Y2O3" 0 PELLET WRAPPED IN AU FOIL-CAL(890C 1-3H IN O2)-SLOW COOL IN O2 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 1962 PHC1680057 TlBa2YCu2O7 Tl1Ba2Y1Cu2O7 Tl 1 Ba 2 Y 1 Cu 2 O 7 1990 2 Tl1212 3.91 12.466 K "TL2O3,BACUO2,BAO2,CAO,CUO,R2O3,Y2O3" 0 PELLET WRAPPED IN AU FOIL-CAL(890C 1-3H IN O2)-SLOW COOL IN O2 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 1963 PHC1680057 TlBa2CaCu2O7 Tl1Ba2Ca1Cu2O7 Tl 1 Ba 2 Ca 1 Cu 2 O 7 1990 2 Tl1212 3.847 12.771 K 81.6 81.6 "TL2O3,BACUO2,BAO2,CAO,CUO,R2O3,Y2O3" 0 PELLET WRAPPED IN AU FOIL-CAL(890C 1-3H IN O2)-SLOW COOL IN O2 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 1964 PHC1680057 "TlBa2(Ca,Nd)Cu2O7" Tl1Ba2Ca0.9Nd0.1Cu2O7 Tl 1 Ba 2 Ca 0.9 Nd 0.1 Cu 2 O 7 1990 2 Tl1212 3.868 12.729 K 90.8 90.8 "TL2O3,BACUO2,BAO2,CAO,CUO,R2O3,Y2O3" 0 PELLET WRAPPED IN AU FOIL-CAL(890C 1-3H IN O2)-SLOW COOL IN O2 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 1965 PHC1680057 "TlBa2(Ca,Nd)Cu2O7" Tl1Ba2Ca0.8Nd0.2Cu2O7 Tl 1 Ba 2 Ca 0.8 Nd 0.2 Cu 2 O 7 1990 2 Tl1212 3.888 12.697 K 96.3 96.3 "TL2O3,BACUO2,BAO2,CAO,CUO,R2O3,Y2O3" 0 PELLET WRAPPED IN AU FOIL-CAL(890C 1-3H IN O2)-SLOW COOL IN O2 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 1966 PHC1680057 "TlBa2(Ca,Nd)Cu2O7" Tl1Ba2Ca0.7Nd0.3Cu2O7 Tl 1 Ba 2 Ca 0.7 Nd 0.3 Cu 2 O 7 1990 2 Tl1212 3.905 K 95.5 95.5 "TL2O3,BACUO2,BAO2,CAO,CUO,R2O3,Y2O3" 0 PELLET WRAPPED IN AU FOIL-CAL(890C 1-3H IN O2)-SLOW COOL IN O2 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 1967 PHC1680057 "TlBa2(Ca,Nd)Cu2O7" Tl1Ba2Ca0.6Nd0.4Cu2O7 Tl 1 Ba 2 Ca 0.6 Nd 0.4 Cu 2 O 7 1990 2 Tl1212 3.931 12.655 K "TL2O3,BACUO2,BAO2,CAO,CUO,R2O3,Y2O3" 0 PELLET WRAPPED IN AU FOIL-CAL(890C 1-3H IN O2)-SLOW COOL IN O2 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 1968 PHC1680057 "TlBa2(Ca,Nd)Cu2O7" Tl1Ba2Ca0.2Nd0.8Cu2O7 Tl 1 Ba 2 Ca 0.2 Nd 0.8 Cu 2 O 7 1990 2 Tl1212 3.972 12.556 K "TL2O3,BACUO2,BAO2,CAO,CUO,R2O3,Y2O3" 0 PELLET WRAPPED IN AU FOIL-CAL(890C 1-3H IN O2)-SLOW COOL IN O2 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 1969 PHC1680057 TlBa2NdCu2O7 Tl1Ba2Nd1Cu2O7 Tl 1 Ba 2 Nd 1 Cu 2 O 7 1990 2 Tl1212 3.972 12.534 K "TL2O3,BACUO2,BAO2,CAO,CUO,R2O3,Y2O3" 0 PELLET WRAPPED IN AU FOIL-CAL(890C 1-3H IN O2)-SLOW COOL IN O2 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 1970 PHC1690015 "(La,Dy)2Cu(F,O)4" La1.25Dy0.75Cu1F0.5O3.75 La 1.25 Dy 0.75 Cu 1 F 0.5 O 3.75 1990 3 T* CMMA 5.461 5.509 12.484 K "LA2O3,DY2O3,CUO,ZNF2" 0 "LOW TEMP. ANION-EXCHANGE REACTION,USING ZNF, (950C 12H)-(1050C 20H),FLUORINATION BY (LA,DY)2CUO4+ZNF2(IN GLASS TUBE)-HEAT(280C 48H IN VAC)-ANN(400C 24H)" INTERSTITIAL ANIONS IN THE T STRUCTURE 1990 "MATERIALS SCIENCE DIVISION, AND SCIENCE AND TECHNOLOGY CENTERFOR SUPERCONDUCTIVITY, ARGONNE NATIONAL LABORATORY, ARGONNE, IL 60439, USA" "PHYSICA C,169(1990)15" 1971 PHC1690015 "(La,Dy)2CuO4" La1.25Dy0.75Cu1O4 La 1.25 Dy 0.75 Cu 1 O 4 1990 2 P4/MMM 3.866 12.447 K "LA2O3,DY2O3,CUO,ZNF2" 0 "LOW TEMP. ANION-EXCHANGE REACTION,USING ZNF, (950C 12H)-(1050C 20H),FLUORINATION BY (LA,DY)2CUO4+ZNF2(IN GLASS TUBE)-HEAT(280C 48H IN VAC)-ANN(400C 24H)" INTERSTITIAL ANIONS IN THE T STRUCTURE 1990 "MATERIALS SCIENCE DIVISION, AND SCIENCE AND TECHNOLOGY CENTERFOR SUPERCONDUCTIVITY, ARGONNE NATIONAL LABORATORY, ARGONNE, IL 60439, USA" "PHYSICA C,169(1990)15" 1972 TH1220431 YBa2Cu3O7 Y1Ba2Cu3O6.8 Y 1 Ba 2 Cu 3 O 9-Z 6.8 1 1987 6.35 3 Y123 3.82 3.886 11.66 K 85 89.5 4.2 89.5 TC1972 0.74 THERMAL CONDUCTIVITY AND ELECTRICAL RESISTIVITY OF THE HIGH-TC SUPERCONDUCTOR Y(1)BA(2)CU(3)O(9-Z) 1987 6 "RESISTIVITY ,THERMAL CONDUC" "INSTITUTE FOR LOW TEMPERATURE AND STRUCTURE RESEARCH,POLISH ACADEMY OF SCIENCE,POLAND" "PHYS.REV.A,122(1987)431" "Y,BA,CU,O" 1973 PHC1700071 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.94Ni0.06O7-Z Y 1 Ba 2 Cu 2.94 Ni 0.06 O 7-Z 1 1990 3 Y123 3.826 3.888 11.668 K 82.7 82.7 "Y2O3,GD2O3,BACO3,CUO,FE2O3,NIO" 0 SIN(960C IN O2)-FC(1.4C/MIN) IN O2) "ASPECTS OF SUBSTITUTION OF MAGNETIC IONS FE, NI AND GD IN YBCOHTSC" 1990 "INSTITUT FUR METALLPHYSIK,HOSPITALSTRASSE 3-7, 3400 GOTTINGEN,FRG" "PHYSICA C,179(1990)71" "FE,NI,GD,Y,BA,CU,O" 1974 PHC1700071 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.85Ni0.15O7-Z Y 1 Ba 2 Cu 2.85 Ni 0.15 O 7-Z 1 1990 3 Y123 3.827 3.887 11.668 K 74.6 74.6 "Y2O3,GD2O3,BACO3,CUO,FE2O3,NIO" 0 SIN(960C IN O2)-FC(1.4C/MIN) IN O2) "ASPECTS OF SUBSTITUTION OF MAGNETIC IONS FE, NI AND GD IN YBCOHTSC" 1990 "INSTITUT FUR METALLPHYSIK,HOSPITALSTRASSE 3-7, 3400 GOTTINGEN,FRG" "PHYSICA C,179(1990)71" "FE,NI,GD,Y,BA,CU,O" 1975 PHC1700071 "GDBA2(CU,FE)3O7" Gd1Ba2Cu2.97Fe0.03O7-Z Gd 1 Ba 2 Cu 2.97 Fe 0.03 O 7-Z 1 1990 Y123 K 88.2 88.2 "Y2O3,GD2O3,BACO3,CUO,FE2O3,NIO" 0 SIN(960C IN O2)-FC(1.4C/MIN) IN O2) "ASPECTS OF SUBSTITUTION OF MAGNETIC IONS FE, NI AND GD IN YBCOHTSC" 1990 "INSTITUT FUR METALLPHYSIK,HOSPITALSTRASSE 3-7, 3400 GOTTINGEN,FRG" "PHYSICA C,179(1990)71" "FE,NI,GD,Y,BA,CU,O" 1976 PHC1700071 "GDBA2(CU,FE)3O7" Gd1Ba2Cu2.94Fe0.06O7-Z Gd 1 Ba 2 Cu 2.94 Fe 0.06 O 7-Z 1 1990 Y123 K 85 85 "Y2O3,GD2O3,BACO3,CUO,FE2O3,NIO" 0 SIN(960C IN O2)-FC(1.4C/MIN) IN O2) "ASPECTS OF SUBSTITUTION OF MAGNETIC IONS FE, NI AND GD IN YBCOHTSC" 1990 "INSTITUT FUR METALLPHYSIK,HOSPITALSTRASSE 3-7, 3400 GOTTINGEN,FRG" "PHYSICA C,179(1990)71" "FE,NI,GD,Y,BA,CU,O" 1977 PHC1700071 "GDBA2(CU,FE)3O7" Gd1Ba2Cu2.82Fe0.18O7-Z Gd 1 Ba 2 Cu 2.82 Fe 0.18 O 7-Z 1 1990 Y123 K 55.2 55.2 "Y2O3,GD2O3,BACO3,CUO,FE2O3,NIO" 0 SIN(960C IN O2)-FC(1.4C/MIN) IN O2) "ASPECTS OF SUBSTITUTION OF MAGNETIC IONS FE, NI AND GD IN YBCOHTSC" 1990 "INSTITUT FUR METALLPHYSIK,HOSPITALSTRASSE 3-7, 3400 GOTTINGEN,FRG" "PHYSICA C,179(1990)71" "FE,NI,GD,Y,BA,CU,O" 1978 PHC1700071 "GDBA2(CU,FE)3O7" Gd1Ba2Cu2.76Fe0.24O7-Z Gd 1 Ba 2 Cu 2.76 Fe 0.24 O 7-Z 1 1990 Y123 K 40.6 40.6 "Y2O3,GD2O3,BACO3,CUO,FE2O3,NIO" 0 SIN(960C IN O2)-FC(1.4C/MIN) IN O2) "ASPECTS OF SUBSTITUTION OF MAGNETIC IONS FE, NI AND GD IN YBCOHTSC" 1990 "INSTITUT FUR METALLPHYSIK,HOSPITALSTRASSE 3-7, 3400 GOTTINGEN,FRG" "PHYSICA C,179(1990)71" "FE,NI,GD,Y,BA,CU,O" 1979 PHC1700071 "GDBA2(CU,FE)3O7" Gd1Ba2Cu2.73Fe0.27O7-Z Gd 1 Ba 2 Cu 2.73 Fe 0.27 O 7-Z 1 1990 Y123 K 36.4 36.4 "Y2O3,GD2O3,BACO3,CUO,FE2O3,NIO" 0 SIN(960C IN O2)-FC(1.4C/MIN) IN O2) "ASPECTS OF SUBSTITUTION OF MAGNETIC IONS FE, NI AND GD IN YBCOHTSC" 1990 "INSTITUT FUR METALLPHYSIK,HOSPITALSTRASSE 3-7, 3400 GOTTINGEN,FRG" "PHYSICA C,179(1990)71" "FE,NI,GD,Y,BA,CU,O" 1980 PHC1700071 "GDBA2(CU,FE)3O7" Gd1Ba2Cu2.67Fe0.33O7-Z Gd 1 Ba 2 Cu 2.67 Fe 0.33 O 7-Z 1 1990 Y123 K 11.8 11.8 "Y2O3,GD2O3,BACO3,CUO,FE2O3,NIO" 0 SIN(960C IN O2)-FC(1.4C/MIN) IN O2) "ASPECTS OF SUBSTITUTION OF MAGNETIC IONS FE, NI AND GD IN YBCOHTSC" 1990 "INSTITUT FUR METALLPHYSIK,HOSPITALSTRASSE 3-7, 3400 GOTTINGEN,FRG" "PHYSICA C,179(1990)71" "FE,NI,GD,Y,BA,CU,O" 1981 PHC1700071 "GDBA2(CU,FE)3O7" Gd1Ba2Cu2.64Fe0.36O7-Z Gd 1 Ba 2 Cu 2.64 Fe 0.36 O 7-Z 1 1990 Y123 K 18.6 18.6 "Y2O3,GD2O3,BACO3,CUO,FE2O3,NIO" 0 SIN(960C IN O2)-FC(1.4C/MIN) IN O2) "ASPECTS OF SUBSTITUTION OF MAGNETIC IONS FE, NI AND GD IN YBCOHTSC" 1990 "INSTITUT FUR METALLPHYSIK,HOSPITALSTRASSE 3-7, 3400 GOTTINGEN,FRG" "PHYSICA C,179(1990)71" "FE,NI,GD,Y,BA,CU,O" 1982 PHC1700071 GAMMA FROM SUSCEPTIBILITY YBa2Cu3O7 Y1Ba2Cu3O6.93 Y 1 Ba 2 Cu 3 O 7-Z 6.93 1 1990 3 Y123 K 92 92 2.7 11.5 890 97 "Y2O3,GD2O3,BACO3,CUO,FE2O3,NIO" 0 SIN(960C IN O2)-FC(1.4C/MIN) IN O2) "ASPECTS OF SUBSTITUTION OF MAGNETIC IONS FE, NI AND GD IN YBCOHTSC" 1990 "INSTITUT FUR METALLPHYSIK,HOSPITALSTRASSE 3-7, 3400 GOTTINGEN,FRG" "PHYSICA C,179(1990)71" "FE,NI,GD,Y,BA,CU,O" 1983 PHC1700071 GAMMA FROM SUSCEPTIBILITY "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.955Fe0.045O6.93 Y 1 Ba 2 Cu 2.955 Fe 0.045 O 7-Z 6.93 1 1990 3 Y123 K 91.4 91.4 2 13.4 731 107 "Y2O3,GD2O3,BACO3,CUO,FE2O3,NIO" 0 SIN(960C IN O2)-FC(1.4C/MIN) IN O2) "ASPECTS OF SUBSTITUTION OF MAGNETIC IONS FE, NI AND GD IN YBCOHTSC" 1990 "INSTITUT FUR METALLPHYSIK,HOSPITALSTRASSE 3-7, 3400 GOTTINGEN,FRG" "PHYSICA C,179(1990)71" "FE,NI,GD,Y,BA,CU,O" 1984 PHC1700071 GAMMAFROM SUSCEPTIBILITY "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.835Fe0.165O6.98 Y 1 Ba 2 Cu 2.835 Fe 0.165 O 7-Z 6.98 1 1990 2 Y123 3.864 11.676 K 69.3 69.3 0.5 30.7 334 169 "Y2O3,GD2O3,BACO3,CUO,FE2O3,NIO" 0 SIN(960C IN O2)-FC(1.4C/MIN) IN O2) "ASPECTS OF SUBSTITUTION OF MAGNETIC IONS FE, NI AND GD IN YBCOHTSC" 1990 "INSTITUT FUR METALLPHYSIK,HOSPITALSTRASSE 3-7, 3400 GOTTINGEN,FRG" "PHYSICA C,179(1990)71" "FE,NI,GD,Y,BA,CU,O" 1985 PHC1700071 GAMMA FROM SUSCEPTIBILITY "YBAa(Cu,Fe)3O7" Y1Ba2Cu2.745Fe0.255O7.08 Y 1 Ba 2 Cu 2.745 Fe 0.255 O 7-Z 7.08 1 1990 2 Y123 K 53 53 0.25 49.7 230 233 "Y2O3,GD2O3,BACO3,CUO,FE2O3,NIO" 0 SIN(960C IN O2)-FC(1.4C/MIN) IN O2) "ASPECTS OF SUBSTITUTION OF MAGNETIC IONS FE, NI AND GD IN YBCOHTSC" 1990 "INSTITUT FUR METALLPHYSIK,HOSPITALSTRASSE 3-7, 3400 GOTTINGEN,FRG" "PHYSICA C,179(1990)71" "FE,NI,GD,Y,BA,CU,O" 1986 PHC1700071 GAMMA FROM SUSCEPTIBILITY "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.64Fe0.36O7.12 Y 1 Ba 2 Cu 2.64 Fe 0.36 O 7-Z 7.12 1 1990 2 Y123 K 32 32 71 228 312 "Y2O3,GD2O3,BACO3,CUO,FE2O3,NIO" 0 SIN(960C IN O2)-FC(1.4C/MIN) IN O2) "ASPECTS OF SUBSTITUTION OF MAGNETIC IONS FE, NI AND GD IN YBCOHTSC" 1990 "INSTITUT FUR METALLPHYSIK,HOSPITALSTRASSE 3-7, 3400 GOTTINGEN,FRG" "PHYSICA C,179(1990)71" "FE,NI,GD,Y,BA,CU,O" 1987 PHC1700071 GAMMA FROM SUSCEPTIBILITY "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.52Fe0.48O7.08 Y 1 Ba 2 Cu 2.52 Fe 0.48 O 7-Z 7.08 1990 2 Y123 K 337 "Y2O3,GD2O3,BACO3,CUO,FE2O3,NIO" 0 SIN(960C IN O2)-FC(1.4C/MIN) IN O2) "ASPECTS OF SUBSTITUTION OF MAGNETIC IONS FE, NI AND GD IN YBCOHTSC" 1990 "INSTITUT FUR METALLPHYSIK,HOSPITALSTRASSE 3-7, 3400 GOTTINGEN,FRG" "PHYSICA C,179(1990)71" "FE,NI,GD,Y,BA,CU,O" 1988 PHC1700071 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.58Fe0.42O7-Z Y 1 Ba 2 Cu 2.58 Fe 0.42 O 7-Z 1 1990 2 Y123 3.865 11.627 K 24.7 24.7 "Y2O3,GD2O3,BACO3,CUO,FE2O3,NIO" 0 SIN(960C IN O2)-FC(1.4C/MIN) IN O2) "ASPECTS OF SUBSTITUTION OF MAGNETIC IONS FE, NI AND GD IN YBCOHTSC" 1990 "INSTITUT FUR METALLPHYSIK,HOSPITALSTRASSE 3-7, 3400 GOTTINGEN,FRG" "PHYSICA C,179(1990)71" "FE,NI,GD,Y,BA,CU,O" 1989 PRB0397347 DyBa2Cu4O8 Dy1Ba2Cu4O8 Dy 1 Ba 2 Cu 4 O 8 1 1989 3 Y124 3.846 3.873 27.237 K 77.2 77.2 EIGHT NEW HIGH-TEMPERATURE SUPERCONDUCTORS WITH THE 1:2:4 STRUCTURE 1989 4 "TC ,SUS ,COMPOUNDS ,NEW PHASE ,STOICHIOMETRY" "PHYSICS DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "Phys.Rev.B,39(1989)7347" "ND,SM,BA,CU,O,R" 1990 PR0394316 Bi4Sr4Pr2Cu4OZ Bi 4 Sr 4 Pr 2 Cu 4 O Z 1989 2 K Bismuth cuprate high-Tc superconductors using cationic substitution 1989 3 "Bellcore, Red Bank, New Jersey 07701" "Phys.Rev.B,39(1989)4316" 1991 PRB0397347 ErBa2Cu4O8 Er1Ba2Cu4O8 Er 1 Ba 2 Cu 4 O 8 1 1989 3 Y124 3.837 3.869 27.23 K 78.3 78.3 EIGHT NEW HIGH-TEMPERATURE SUPERCONDUCTORS WITH THE 1:2:4 STRUCTURE 1989 4 "TC ,SUS ,COMPOUNDS ,NEW PHASE ,STOICHIOMETRY" "PHYSICS DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "Phys.Rev.B,39(1989)7347" "ND,SM,BA,CU,O,R" 1992 PRB0397347 TmBa2Cu4O8 Tm1Ba2Cu4O8 Tm 1 Ba 2 Cu 4 O 8 1 1989 3 Y124 3.827 3.864 27.18 K 78.6 78.6 EIGHT NEW HIGH-TEMPERATURE SUPERCONDUCTORS WITH THE 1:2:4 STRUCTURE 1989 4 "TC ,SUS ,COMPOUNDS ,NEW PHASE ,STOICHIOMETRY" "PHYSICS DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "Phys.Rev.B,39(1989)7347" "ND,SM,BA,CU,O,R" 1993 PRB0397347 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1989 3 Y124 3.84 3.87 27.231 K 80.4 80.4 EIGHT NEW HIGH-TEMPERATURE SUPERCONDUCTORS WITH THE 1:2:4 STRUCTURE 1989 4 "TC ,SUS ,COMPOUNDS ,NEW PHASE ,STOICHIOMETRY" "PHYSICS DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "Phys.Rev.B,39(1989)7347" "ND,SM,BA,CU,O,R" 1994 PRB0397347 "Y123(70%),Y124(30%)" SmBa2Cu4O8 Sm1Ba2Cu4O8 Sm 1 Ba 2 Cu 4 O 8 2 1989 3 Y124 3.872 3.886 27.308 K 69.3 69.3 EIGHT NEW HIGH-TEMPERATURE SUPERCONDUCTORS WITH THE 1:2:4 STRUCTURE 1989 4 "TC ,SUS ,COMPOUNDS ,NEW PHASE ,STOICHIOMETRY" "PHYSICS DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "Phys.Rev.B,39(1989)7347" "ND,SM,BA,CU,O,R" 1995 PRB0397347 "Y124(60%),Y247(40%)" EuBa2Cu4O8 Eu1Ba2Cu4O8 Eu 1 Ba 2 Cu 4 O 8 2 1989 3 Y124 3.865 3.884 27.279 K 68.9 68.9 EIGHT NEW HIGH-TEMPERATURE SUPERCONDUCTORS WITH THE 1:2:4 STRUCTURE 1989 4 "TC ,SUS ,COMPOUNDS ,NEW PHASE ,STOICHIOMETRY" "PHYSICS DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "Phys.Rev.B,39(1989)7347" "ND,SM,BA,CU,O,R" 1996 PRB0397347 "Y124(40%),Y247(60%)" GdBa2Cu4O8 Gd1Ba2Cu4O8 Gd 1 Ba 2 Cu 4 O 8 2 1989 3 Y124 3.863 3.881 27.259 K 73.4 73.4 EIGHT NEW HIGH-TEMPERATURE SUPERCONDUCTORS WITH THE 1:2:4 STRUCTURE 1989 4 "TC ,SUS ,COMPOUNDS ,NEW PHASE ,STOICHIOMETRY" "PHYSICS DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "Phys.Rev.B,39(1989)7347" "ND,SM,BA,CU,O,R" 1997 PHC1680047 CUO CLUSTER(<1%VOLUME) YBa2Cu4O8 Y1Ba2Cu4O8.045 Y 1 Ba 2 Cu 4 O 8 8.045 1990 5.74 Y124 3.84 3.869 27.23 K 81.4 81.4 55 4.9 350 0 SPECIFIC HEAT OF THE SUPERCONDUCTOR YBA2CU4O8FROM 1.5 TO 330 K 1990 "DEPARTEMENT DE PHYSIQUE DE LA MATIERE CONDENSEE, UNIVERSITE DEGENEVE, CH-1211 GENEVE 4, SWIZERLAND" "PHYSICA C,168(1990)47" "Y,BA,CU,O" 1998 PHC1680047 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1990 Y124 3.837 3.87 27.216 K 79.7 79.7 31 13 260 0 SPECIFIC HEAT OF THE SUPERCONDUCTOR YBA2CU4O8FROM 1.5 TO 330 K 1990 "DEPARTEMENT DE PHYSIQUE DE LA MATIERE CONDENSEE, UNIVERSITE DEGENEVE, CH-1211 GENEVE 4, SWIZERLAND" "PHYSICA C,168(1990)47" "Y,BA,CU,O" 1999 PHC1680047 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1990 Y124 3.843 3.872 27.237 K 80.6 80.6 14 15 200 0 SPECIFIC HEAT OF THE SUPERCONDUCTOR YBA2CU4O8FROM 1.5 TO 330 K 1990 "DEPARTEMENT DE PHYSIQUE DE LA MATIERE CONDENSEE, UNIVERSITE DEGENEVE, CH-1211 GENEVE 4, SWIZERLAND" "PHYSICA C,168(1990)47" "Y,BA,CU,O" 2000 PRB0397347 HoBa2Cu4O8 Ho1Ba2Cu4O8 Ho 1 Ba 2 Cu 4 O 8 1989 Y124 3.84 3.87 27.221 K 77.4 77.4 EIGHT NEW HIGH-TEMPERATURE SUPERCONDUCTORS WITH THE 1:2:4 STRUCTURE 1989 4 "TC ,SUS ,COMPOUNDS ,NEW PHASE ,STOICHIOMETRY" "PHYSICS DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "Phys.Rev.B,39(1989)7347" "ND,SM,BA,CU,O,R" 2001 PHC1700112 "TP IS NOT INFLUENCED BY THE POROCITY,RH DEPENDS ON THE POROC" ErBa2Cu4O8 Er1Ba2Cu4O8 Er 1 Ba 2 Cu 4 O 8 1 1990 3.3 3 Y124 3.836 3.867 27.22 K 73 78 5 78 7.52 TP2001 4.00E-10 NORMAL-STATE TRANSPORT PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR ERBA2CU4O8 1990 "LABORATORY OF INORGANIC CHEMISTRY, UNIVERSITY OF GRONINGEN, NIJENBORGH 216, 9747 GRONINGEN, THE NETHERLANDS" "PHYUSICA C,170(1990)112" "ER,BA,CU,O" 2002 PHC1700112 "TP IS NOT INFLUENCED BY THE POROCITY,RH DEPENDS ON POROCITY" ErBa2Cu4O8 Er1Ba2Cu4O8 Er 1 Ba 2 Cu 4 O 8 1 1990 5.1 3 Y124 3.838 3.871 27.25 K RH2001 RH2002 NORMAL-STATE TRANSPORT PROPERTIES OF THE HIGH-TC SUPERCONDUCTOR ERBA2CU4O8 1990 "LABORATORY OF INORGANIC CHEMISTRY, UNIVERSITY OF GRONINGEN, NIJENBORGH 216, 9747 GRONINGEN, THE NETHERLANDS" "PHYUSICA C,170(1990)112" "ER,BA,CU,O" 2003 PHC1650391 T(SUS)=77.0 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1990 3 Y124 3.835 3.856 27.215 K 82.9 82.9 CALCIUM-SUBSTITUTED SUPERCONDUCTING RBA2CU4O8 WITH TC-90K PREPARED AT ONE ATMOSPHERE 1990 "PHYSICS AND ENGINEERING LABORATORY, DSIR, P.O. BOX 31313, LOWER HUTT, NEW ZEALAND" "PHYSICA C,165(1990)391" "Y,ER,CU,O,BA" 2004 PHC1650391 "T(SUS)=80.4,TC PROPORTINAL TO LATC" "(Y,Ca)(Ba,Ca)2Cu4O8" Y0.981Ba1.994Ca0.025Cu4O8 Y 0.981 Ba 1.994 Ca 0.025 Cu 4 O 8 1 1990 3 Y124 27.233 K 87.1 87.1 CALCIUM-SUBSTITUTED SUPERCONDUCTING RBA2CU4O8 WITH TC-90K PREPARED AT ONE ATMOSPHERE 1990 "PHYSICS AND ENGINEERING LABORATORY, DSIR, P.O. BOX 31313, LOWER HUTT, NEW ZEALAND" "PHYSICA C,165(1990)391" "Y,ER,CU,O,BA" 2005 PHC1650391 T(SUS)=83.9 "(Y,Ca)(Ba,Ca)2Cu4O8" Y0.962Ba1.987Ca0.05Cu4O8 Y 0.962 Ba 1.987 Ca 0.05 Cu 4 O 8 1 1990 3 Y124 27.248 K 91.5 91.5 CALCIUM-SUBSTITUTED SUPERCONDUCTING RBA2CU4O8 WITH TC-90K PREPARED AT ONE ATMOSPHERE 1990 "PHYSICS AND ENGINEERING LABORATORY, DSIR, P.O. BOX 31313, LOWER HUTT, NEW ZEALAND" "PHYSICA C,165(1990)391" "Y,ER,CU,O,BA" 2006 PHC1650391 T(SUS)=86.2 "(Y,Ca)(Ba,Ca)2Cu4O8" Y0.925Ba1.975Ca0.1Cu4O8 Y 0.925 Ba 1.975 Ca 0.1 Cu 4 O 8 2 1990 3 Y124 27.261 K 92.3 92.3 CALCIUM-SUBSTITUTED SUPERCONDUCTING RBA2CU4O8 WITH TC-90K PREPARED AT ONE ATMOSPHERE 1990 "PHYSICS AND ENGINEERING LABORATORY, DSIR, P.O. BOX 31313, LOWER HUTT, NEW ZEALAND" "PHYSICA C,165(1990)391" "Y,ER,CU,O,BA" 2007 PHC1650391 T(SUS)=82.8 "(Y,Ca)(Ba,Ca)2Cu4O8" Y0.887Ba1.962Ca0.15Cu4O8 Y 0.887 Ba 1.962 Ca 0.15 Cu 4 O 8 2 1990 3 Y124 K 91.8 91.8 CALCIUM-SUBSTITUTED SUPERCONDUCTING RBA2CU4O8 WITH TC-90K PREPARED AT ONE ATMOSPHERE 1990 "PHYSICS AND ENGINEERING LABORATORY, DSIR, P.O. BOX 31313, LOWER HUTT, NEW ZEALAND" "PHYSICA C,165(1990)391" "Y,ER,CU,O,BA" 2008 PHC1650391 T(SUS)=83.2 "(Y,Ca)(Ba,Ca)2Cu4O8" Y0.85Ba1.95Ca0.2Cu4O8 Y 0.85 Ba 1.95 Ca 0.2 Cu 4 O 8 2 1990 3 Y124 27.262 K 91.6 91.6 CALCIUM-SUBSTITUTED SUPERCONDUCTING RBA2CU4O8 WITH TC-90K PREPARED AT ONE ATMOSPHERE 1990 "PHYSICS AND ENGINEERING LABORATORY, DSIR, P.O. BOX 31313, LOWER HUTT, NEW ZEALAND" "PHYSICA C,165(1990)391" "Y,ER,CU,O,BA" 2009 SSC0690531 YBa2Cu4O8 Y1Ba2Cu4O8.043 Y 1 Ba 2 Cu 4 O 8 8.043 1 1989 3 Y124 AMMM 3.841 3.871 27.24 K 80 80 0 "400 BAR O2,1040C,IMPURITY YCUO2 OR Y2BACUO5" HIGHPRESSURE PREPARATION AND NEUTRON-DIFFRACTION STUDY OF THE HIGH Tc SUPERCONDUCTOR YBa2Cu4O8+-x 1989 "Laboratorium fu""r Festko""rperphysik ETH, CH-8093 Zu""rich" "Solid State Commun.,69(1989)531-533" 2010 SSC0750315 "SWEEP RATE=10MOE/SEC,DEMAG.FACTOR(N=0.8,L=0.179,M=0.022)" YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 3 1990 Y124 K 74 74 44 197 DETERMINATION OF HC1(T) ON A Y2BA4CU8O16 SINGLE CRYSTAL 1990 "MAGNETIZATION ,HC1 ,SINGLE CRYSTAL" "CENTRE DE RECHERCHES SUR LES TRES BASSES TEMPERATURES, C.N.R.S., BP 166 X, 38042" "SOLID STATE COMMUN.,75(1990)315" "Y,BA,CU,O" 2011 PHC1670335 "(dL/dP) shows (1/L)*(dL/dP). B(30K)=122GPA,SEE PHC1590668" YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1990 GPa 112 Y124 0.003 0.001 0.004 K 80 80 X-RAY INVESTIGATIONS OF Y1BA2CU4O8 UNDER HIGH PRESSURE 1990 "UNIVERSITAT KARLSRUHE UND KERNFORSCHUNGSZENTRUM KARLSRUHE, INSTITUTE FUR TECHNISCHE PHYSIK, D-7500 KARLSRUHE, FRG" "PHYSICA C,167(1990)335" "Y,BA,CU,O" 2012 PHC1700521 "DTCDP=K/GPA. Tc defined as midpoint value in resistive transition,?@POROCITY=1.5" YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1990 Y124 K 75 75 K/GPa 7.5 900 0.63 ELECTRICAL TRANSPORT PROPERTIES OF DENSE BULK YBA2CU4O8 PRODUCED BY HOT ISOSTATIC PRESSING 1990 "DEPARTMENT OF PHYSICS, UMEA UNIVERSITY, S-90187 UMEA, SWEDEN" "PHYSICA C,170(1990)521" "Y,BA,CU,O" 2013 PRB03811337 La2CuO4 La2Cu1O4.13 La 2 Cu 1 O 4.13 4.13 1 1988 3 T FMMM 3.772 3.816 13.165 K 34 34 30 SUPERCONDUCTING PHASE OF LA(2)CU(1)O(4+Z): A SUPERCONDUCTING COMPOSITION RESULTING FROM PHASE SEPARATION 1988 12 "NEUTRON DIFFRACTION ,OXYGEN CONTENT ,TWQ PHAS" "MATERIALS SCIENCE AND CHEMISTRY DIVISIONS,ARGONNE NATIONAL LABORATORY,ILLINOIS" "PHYS.REV.B,38(1988)11337" "LA,CU,O" 2014 PRB03811337 La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 4 1 1988 3 T BMAB 3.772 3.833 13.107 K SUPERCONDUCTING PHASE OF LA(2)CU(1)O(4+Z): A SUPERCONDUCTING COMPOSITION RESULTING FROM PHASE SEPARATION 1988 12 "NEUTRON DIFFRACTION ,OXYGEN CONTENT ,TWQ PHAS" "MATERIALS SCIENCE AND CHEMISTRY DIVISIONS,ARGONNE NATIONAL LABORATORY,ILLINOIS" "PHYS.REV.B,38(1988)11337" "LA,CU,O" 2015 PHC1580183 EXCESS OXYGEN OCCUPY AN INTERSTITIAL SITE La2CuO4 La2Cu1O4.32 La 2 Cu 1 O 4.32 4.32 3 1989 3 T CMCA 3.79 3.813 13.181 K 37.5 37.5 70 THE CRYSTAL STRUCTURE OF SUPERCONDUCTING LA(2)CUO(4.032) BY NEUTRON DIFFRACTION 1989 4 "CRYSTAL STRUCTURE ,NEUTRON-DIFFRECTION" "LABORATOIRE DE CRISTALLOGRAPHIE,CNRS,ASSOCIE A UNIVERSITE J.FOURIER,166X,38042 GRENOBLEN CEDEX,FRANCE" "PHYSICA C ,158(1989)183" "LA,CU,O" 2016 SSC0750897 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-Y Nd 1.85 Ce 0.15 Cu 1 O 4-Y 1 1990 T' K 24 24 RH2016 "RESISTIVITY, HALL CONSTANT AND MASNETISATION OF ND1.85CE0.15CUO4-Y" 1990 "PREPARATION ,HALL CONSTANT ,MAGNETISATION" "LABORATOIRE DE PHYSIQUE DES SOLIDES DE BELLEVUE, CNRS, 92195 MEUDON FRANCE." "SOLID STATE COMMUN.,75(1990)897" "ND,CE,CU,O" 2017 SSC0750779 "(Bi,Pb,Sb)2Sr2Ca2Cu3O10" Bi1.4Pb0.5Sb0.1Sr2Ca2Cu3O10-X Bi 1.4 Pb 0.5 Sb 0.1 Sr 2 Ca 2 Cu 3 O 10-X 1 1990 K 106.9 106.9 THERMAL CONDUCTIVITY OF BI-BASED HIGH-TC SUPERCONDUCTORS IN THE VICINITY OF SUPERCONDUCTING TRANSITION 1990 THERMAL CONDUCTIVITY "INSTITUTE FOR LOW TEMPERATURE AND STRUCTURE RESEARCH,POLISH ACADEMY OF SCIENCE,OKOLNA 2,50-422 WROCLAW, P.O. BOX 937, POLAND" "SOLID STATE COMMUN.,75(1990)779" "BI,PB,SB,SR,CA,CU,O" 2018 SSC0750753 PENET FROM NMR MEASUREMENT Tl2Ba2CuO6 Tl2Ba2Cu1O6 Tl 2 Ba 2 Cu 1 O 6 1 1990 Tl2201 K 85 85 1800 MAGNETIC FIELD DISTRIBUTION OF THE VORTEX LATTICE IN THE SUPERCONDUCTOR TL2BA2CUO6 (TC=85K): 205TL NMR INVESTIGATION 1990 "NMR ,PENETRATION DEPTH" "2. PHYSIKALISCHES INSTITUT, UNIVERSITAT STUTTGART, D-7000 STUTTGART 80, FEDERAL REPUBLIC OF GERMANY" "SOLID STATE COMMUN.,75(1990)753" "TL,BA,CU,O" 2019 SSC0750617 "(Bi,Pb,Sb)2Sr2Ca2Cu3O10" Bi1.6Pb0.4Sb0.1Sr2Ca2Cu2OZ Bi 1.6 Pb 0.4 Sb 0.1 Sr 2 Ca 2 Cu 2 O Z 1990 Bi2223 K 132 140 136 THE EFFECT OF CONSTITUENT CONTENT ON SUPERCONDUCTIVITY AND PHASE IN BI-PB-SB-SR-CA-CU-O SYSTEM 1990 "DEPARTMENT OF APPLIED CHEMISTRY, DEPARTMENT OF PHYSICS, UNIVERSITY OF SCIENCE & TECHNOLOGY OF CHINA, HEFEI, ANHUI,P.R.CHINA)" "SOLID STATE COMMUN.,75(1990)617" "BI,PB,SB,SR,CA,CU,O" 2020 SSC0750617 "(Bi,Pb,Sb)2Sr2Ca2Cu3O10" Bi1.6Pb0.4Sb0.1Sr2Ca2Cu2OZ Bi 1.6 Pb 0.4 Sb 0.1 Sr 2 Ca 2 Cu 2 O Z 1990 K 130 134.5 132.25 THE EFFECT OF CONSTITUENT CONTENT ON SUPERCONDUCTIVITY AND PHASE IN BI-PB-SB-SR-CA-CU-O SYSTEM 1990 "DEPARTMENT OF APPLIED CHEMISTRY, DEPARTMENT OF PHYSICS, UNIVERSITY OF SCIENCE & TECHNOLOGY OF CHINA, HEFEI, ANHUI,P.R.CHINA)" "SOLID STATE COMMUN.,75(1990)617" "BI,PB,SB,SR,CA,CU,O" 2021 SSC0750617 "(Bi,Pb,Sb)2Sr2Ca2Cu3O10" Bi1.8Pb0.2Sb0.1Sr2Ca2Cu2OZ Bi 1.8 Pb 0.2 Sb 0.1 Sr 2 Ca 2 Cu 2 O Z 1990 K 130 142 136 THE EFFECT OF CONSTITUENT CONTENT ON SUPERCONDUCTIVITY AND PHASE IN BI-PB-SB-SR-CA-CU-O SYSTEM 1990 "DEPARTMENT OF APPLIED CHEMISTRY, DEPARTMENT OF PHYSICS, UNIVERSITY OF SCIENCE & TECHNOLOGY OF CHINA, HEFEI, ANHUI,P.R.CHINA)" "SOLID STATE COMMUN.,75(1990)617" "BI,PB,SB,SR,CA,CU,O" 2022 SSC0750579 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1990 4.4 3 Y123 K 91.7 91.7 460 LOW MAGNETIC FIELD DEPENDENCE OF A.C. SUSCEPTIBILITY IN SUPERCONDUCTING YBA2CU3O7-Z 1990 SUSCEPTIBILITY "DEPARTMENT OF PHYSICS, UNIVERSITY OF WISCONSIN-MILWAUKEE, MILWAUKEE, WI 53201, U.S.A" "SOLID STATE COMMUN.,75(1990)579" "Y,BA,CU,O" 2023 SSC0750981 NEELT FROM MOSSBAUER "(Pr,Gd)Ba2Cu3O7" Gd0.075Pr0.925Ba2Cu3O6.9 Gd 0.075 Pr 0.925 Ba 2 Cu 3 O 7-Z 6.9 1 1990 16.5 3 Y123 3.874 3.912 11.74 K MAGNETIC ORDER OF THE PR SUBLATTICE IN TETRAGONAL AND ORTHORHOMBIC PR1-XGDXBA2CU3O7-Z OBSERVBED BY 155GD-MOSSBAUER SPECTROSCOPY 1990 "MOSSBAUER ,MAGNETIC ORDER" "INSTITUT FUR EXPERIMENTALPHYSIK, FREIE UNIVERSITAT BERLIN, D-1000 BERLIN 33, GERMANY" "SOLID STATE COMMUN.,75(1990)981" "PR,GD,BA,CU,O" 2024 SSC0750981 NEELT FROM MOSSBAUER "(Pr,Gd)Ba2Cu3O7" Gd0.075Pr0.925Ba2Cu3O6.1 Gd 0.075 Pr 0.925 Ba 2 Cu 3 O 7-Z 6.1 1 1990 7.5 2 Y123 3.909 11.84 K MAGNETIC ORDER OF THE PR SUBLATTICE IN TETRAGONAL AND ORTHORHOMBIC PR1-XGDXBA2CU3O7-Z OBSERVBED BY 155GD-MOSSBAUER SPECTROSCOPY 1990 "MOSSBAUER ,MAGNETIC ORDER" "INSTITUT FUR EXPERIMENTALPHYSIK, FREIE UNIVERSITAT BERLIN, D-1000 BERLIN 33, GERMANY" "SOLID STATE COMMUN.,75(1990)981" "PR,GD,BA,CU,O" 2025 SSC0750987 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.85Zn0.15O7-Z Y 1 Ba 2 Cu 2.85 Zn 0.15 O 7-Z 1990 Y123 3.835 3.874 11.621 K 42.8 42.8 SIMULTANEOUS DOPING AT THE CHAIN- AND PLANE-SITES OF CU IN YBA2CU3O7-Y 1990 "TATA INSITITUTE OF FUNDAMENTAL RESEARCH, BOMBAY-400 005, INDIA" "SOLID STATE COMMUN.,75(1990)987" "Y,BA,CU,O,ZN,GA" 2026 SSC0750987 "YBa2(Cu,Zn,Ga)3O7" Y1Ba2Cu2.85Zn0.114Ga0.036O7-Z Y 1 Ba 2 Cu 2.85 Zn 0.114 Ga 0.036 O 7-Z 1990 Y123 3.842 3.874 11.62 K 40.2 40.2 SIMULTANEOUS DOPING AT THE CHAIN- AND PLANE-SITES OF CU IN YBA2CU3O7-Y 1990 "TATA INSITITUTE OF FUNDAMENTAL RESEARCH, BOMBAY-400 005, INDIA" "SOLID STATE COMMUN.,75(1990)987" "Y,BA,CU,O,ZN,GA" 2027 SSC0750987 "YBa2(Cu,Zn,Ga)3O7" Y1Ba2Cu2.85Zn0.075Ga0.075O7-Z Y 1 Ba 2 Cu 2.85 Zn 0.075 Ga 0.075 O 7-Z 1990 Y123 3.853 3.874 11.623 K 42.3 42.3 SIMULTANEOUS DOPING AT THE CHAIN- AND PLANE-SITES OF CU IN YBA2CU3O7-Y 1990 "TATA INSITITUTE OF FUNDAMENTAL RESEARCH, BOMBAY-400 005, INDIA" "SOLID STATE COMMUN.,75(1990)987" "Y,BA,CU,O,ZN,GA" 2028 SSC0750987 "YBa2(Cu,Zn,Ga)3O7" Y1Ba2Cu2.85Zn0.036Ga0.114O7-Z Y 1 Ba 2 Cu 2.85 Zn 0.036 Ga 0.114 O 7-Z 1990 Y123 3.85 3.869 11.614 K 55.1 55.1 SIMULTANEOUS DOPING AT THE CHAIN- AND PLANE-SITES OF CU IN YBA2CU3O7-Y 1990 "TATA INSITITUTE OF FUNDAMENTAL RESEARCH, BOMBAY-400 005, INDIA" "SOLID STATE COMMUN.,75(1990)987" "Y,BA,CU,O,ZN,GA" 2029 SSC0750987 "YBa2(Cu,Ga)3O7" Y1Ba2Cu2.85Ga0.15O7-Z Y 1 Ba 2 Cu 2.85 Ga 0.15 O 7-Z 1990 Y123 3.855 3.876 11.633 K 75.2 75.2 SIMULTANEOUS DOPING AT THE CHAIN- AND PLANE-SITES OF CU IN YBA2CU3O7-Y 1990 "TATA INSITITUTE OF FUNDAMENTAL RESEARCH, BOMBAY-400 005, INDIA" "SOLID STATE COMMUN.,75(1990)987" "Y,BA,CU,O,ZN,GA" 2030 PRB0357129 "MUON SPIN RESONANCE,ANOMOLOUS TEMP DEPENDENCE" "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1987 T K 37 37 150 2500 MAGNETIC PENETRATION DEPTH AND FLUX-PINNING EFFECT IN HIGH-TC SUPERCONDUCTOR LA(1.85)SR(0.15)CU(1)O(4) 1987 5 "MUON ,PENETRATION DEPTH ,CARRIER DENSITY ,FL" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,35(1987)7129" "LA,SR,CU,O" 2031 PRB0357133 MUON SPIN RESONANCE "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1987 T K 37 37 2000 MAGNETIC FIELD PENETRATION DEPTH OF LA(1.85)SR(0.15)CU(1)O(4)MEASURED BY MUON SPIN RELAXATION 1987 5 "MUON ,PENETRATION DEPTH ,CARRIER" "PHYSICS DEPARTMENT,COLLEGE OF WILLIAM AND MARY,WILLIAMSBURG,VIRGINIA" "PHYS.REV.B,35(1987)7133" "LA,SR,CU,O" 2032 JJP0260443 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1987 0 T K 38 39 40 1 39 50 1.8 20 1000 0.3 1.8 SUPERCONDUCTING PROPERTIES OF (LA(1-X)SR(X))(2)CU(1)O(4) 1987 4 "DEPARTMENT OF APPLIED PHYSICS,UNIVERSITY OF TOKYO,TOKYO" "JJAP.LETT.,26(1987)L443" "LA,SR,CU,O" 2033 LES1640824 "5X5X0.15MM3,HALL=H//C-AXIS" "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 3 1990 T' K 22.9 0.4 22.9 0.55 -4.80E-09 RH2033 CRYSTAL GROWTH AND PHYSICAL PROPERTIES OF ND2-XCEXCUO4-Y SINGLE CRYSTALS. 1990 "SINGLE CRYSTALS ,RESISTIVITY ,HALL COEFFICIENT" DEPARTEMENT DE PHYSIQUE DE LA MATIERE CONDENSEE "LESS-COMM.METALS,164(1990)824" "ND,CE,CU,O" 2034 LES1640824 X DEPEND. OF TC IN FIGURE "(Nd,Ce)2CuO4" Nd1.847Ce0.153Cu1O4 Nd 1.847 Ce 0.153 Cu 1 O 4 3 1990 K 22.5 22.5 TC2034 CRYSTAL GROWTH AND PHYSICAL PROPERTIES OF ND2-XCEXCUO4-Y SINGLE CRYSTALS. 1990 "SINGLE CRYSTALS ,RESISTIVITY ,HALL COEFFICIENT" DEPARTEMENT DE PHYSIQUE DE LA MATIERE CONDENSEE "LESS-COMM.METALS,164(1990)824" "ND,CE,CU,O" 2035 LES1640808 Pb2.04Sr2.07Y0.61Ca0.38Cu3O8 Pb 2.04 Sr 2.07 Y 0.61 Ca 0.38 Cu 3 O 8 3 1990 3 5.383 5.413 15.79 K 65 65 PREPARATION AND CHARACTERIZATION OF 80 K SUPERCONDUCTING PB2SR2Y1-XCAXCU3O8+Z SINGLE CRYSTALS 1990 "PREPARATION ,SINGLE CRYSTALS" "LABORATOIRE DE CRISTALLOGRAPHIE, CNRS-UJF, 166X, 38042 GRENOBLE CEDEX, FRANCE" "LESS-COMM.METALS,164(1990)808" "PB,SR,Y,CA,CU,O" 2036 LES1640808 SEE PHC162-164(1989)53 Pb2Sr2Y0.5Ca0.5Cu3O9.4 Pb 2 Sr 2 Y 0.5 Ca 0.5 Cu 3 O 9.4 9.4 3 1990 3 Pb3212 3.84 3.87 15.89 K 4.2 PREPARATION AND CHARACTERIZATION OF 80 K SUPERCONDUCTING PB2SR2Y1-XCAXCU3O8+Z SINGLE CRYSTALS 1990 "PREPARATION ,SINGLE CRYSTALS" "LABORATOIRE DE CRISTALLOGRAPHIE, CNRS-UJF, 166X, 38042 GRENOBLE CEDEX, FRANCE" "LESS-COMM.METALS,164(1990)808" "PB,SR,Y,CA,CU,O" 2037 LES1640884 "METALLIC,DEFORMRD PEROVSKITE" "(Sr,La)2TiO4" Sr1.78La0.22Ti1O4 Sr 1.78 La 0.22 Ti 1 O 4 1990 K 4.2 SEARCH OF SUPERCONDUCTIVITY IN TERNARY OXIDES BASED ON D1IONS 1990 "CERN, 1211 GENEVE 23, SWITZERLAND" "LESS-COMM.METALS,164(1990)884" "K,RB,CS,CA,SR,BA,LA,CU,O" 2038 LES1640884 SEMICONDUCTOR LIKE "(Sr,La)2TiO4" Sr1.89La0.19Ti1O4 Sr 1.89 La 0.19 Ti 1 O 4 1990 K 4.2 SEARCH OF SUPERCONDUCTIVITY IN TERNARY OXIDES BASED ON D1IONS 1990 "CERN, 1211 GENEVE 23, SWITZERLAND" "LESS-COMM.METALS,164(1990)884" "K,RB,CS,CA,SR,BA,LA,CU,O" 2039 SSC0730291 La2Sr6Cu8O18 La2Sr6Cu8O17.56 La 2 Sr 6 Cu 8 O 18-Z 17.56 1989 emu/mol 0.000736 emu.K/mol 0.0376 2.23 2 A 3.764 10.861 K 4 PROPERTIES OF A NEW COPPER TERNARY COMPOUND LA2SR6CU8O18-Z 1989 "STRUCFTURE ,TED ,XRY ,OXYGEN CONTENT ,SUSCEPTIBILITY" "KAMERLINGH ONNES LABORATORY AND CORLAEUS LABORATORIES, LEIDENUNIVERSITY P.O. BOC 9506, 2300 RA LEIDEN, THE NETHERLANDS" "SOLID STATE COMMUN,73(1989)291" "LA,SR,CU,O" 2040 SSC0730291 La2Sr6Cu8O18 La2Sr6Cu8O16.02 La 2 Sr 6 Cu 8 O 18-Z 16.02 1989 emu/mol 0.000388 0.0512 3.11 2 A 3.652 11.055 K 4 PROPERTIES OF A NEW COPPER TERNARY COMPOUND LA2SR6CU8O18-Z 1989 "STRUCFTURE ,TED ,XRY ,OXYGEN CONTENT ,SUSCEPTIBILITY" "KAMERLINGH ONNES LABORATORY AND CORLAEUS LABORATORIES, LEIDENUNIVERSITY P.O. BOC 9506, 2300 RA LEIDEN, THE NETHERLANDS" "SOLID STATE COMMUN,73(1989)291" "LA,SR,CU,O" 2041 SSC0670391 "(Y,Pr)Ba2Cu3O7" Y0.9Pr0.1Ba2Cu3O6.85 Y 0.9 Pr 0.1 Ba 2 Cu 3 O 7-Z 6.85 1 1988 3 Y123 K 89 18.4 89 SP2041 SPECIFIC HEAT OF PRASEODYMIUM DOPED YTTRIUM BARIUM COPPER OXIDE 1988 8 "SPECIFIC HEAT ,SCHOTTKY ANOMALIES ,DOPANT" "DEPARTMENT OF PHYSICS,INDIAN INSTITUTE OF TECHNOLOGY,INDIA" "SOLID STATE COMMUN.,67(1988)391" "Y,BA,CU,O" 2042 SSC0670391 "(Y,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O6.82 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 6.82 1 1988 3 Y123 K 71.6 33.3 71.6 SPECIFIC HEAT OF PRASEODYMIUM DOPED YTTRIUM BARIUM COPPER OXIDE 1988 8 "SPECIFIC HEAT ,SCHOTTKY ANOMALIES ,DOPANT" "DEPARTMENT OF PHYSICS,INDIAN INSTITUTE OF TECHNOLOGY,INDIA" "SOLID STATE COMMUN.,67(1988)391" "Y,BA,CU,O" 2043 SSC0670391 "(Y,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3O7-Z Y 0.7 Pr 0.3 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 67.4 25.4 67.4 SP2043 SPECIFIC HEAT OF PRASEODYMIUM DOPED YTTRIUM BARIUM COPPER OXIDE 1988 8 "SPECIFIC HEAT ,SCHOTTKY ANOMALIES ,DOPANT" "DEPARTMENT OF PHYSICS,INDIAN INSTITUTE OF TECHNOLOGY,INDIA" "SOLID STATE COMMUN.,67(1988)391" "Y,BA,CU,O" 2044 SSC0670391 "(Y,Pr)Ba2Cu3O7" Y0.6Pr0.4Ba2Cu3O6.76 Y 0.6 Pr 0.4 Ba 2 Cu 3 O 7-Z 6.76 1 1988 3 Y123 K 44.3 20.9 44.3 SPECIFIC HEAT OF PRASEODYMIUM DOPED YTTRIUM BARIUM COPPER OXIDE 1988 8 "SPECIFIC HEAT ,SCHOTTKY ANOMALIES ,DOPANT" "DEPARTMENT OF PHYSICS,INDIAN INSTITUTE OF TECHNOLOGY,INDIA" "SOLID STATE COMMUN.,67(1988)391" "Y,BA,CU,O" 2045 SSC0670391 "(Y,Pr)Ba2Cu3O7" Y0.5Pr0.5Ba2Cu3O7-Z Y 0.5 Pr 0.5 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 25.4 12.2 25.4 SP2045 SPECIFIC HEAT OF PRASEODYMIUM DOPED YTTRIUM BARIUM COPPER OXIDE 1988 8 "SPECIFIC HEAT ,SCHOTTKY ANOMALIES ,DOPANT" "DEPARTMENT OF PHYSICS,INDIAN INSTITUTE OF TECHNOLOGY,INDIA" "SOLID STATE COMMUN.,67(1988)391" "Y,BA,CU,O" 2046 APJ0291259 ESTIMATED BY TYPE-II S/C THEORY "(Bi,Pb)2Sr2Ca2Cu3O10" Bi1.4Pb0.6Ca2Sr2Cu3OZ Bi 1.4 Pb 0.6 Ca 2 Sr 2 Cu 3 O Z 1991 2 Bi2223 5.415 37.044 K 108 108 111 61 0.81 23 2600 MAGNETIC PROPERTIES OF HIGH-TC BI1.4PB0.6CA2SR2CU3OY SUPERCONDUCTOR 1991 7 "MAGNETIZATION ,COHERENCE LENGTH ,PENETRATION DEPTH" "DEPARTMENT OF PHYSICS,SUNG KYUN KWAN UNIVERSITY,SUWAN 440-746,KOREA" "JPN.J,APPL.PHYS.,29(1991)1259" "BI,PB,CA,SR,CU,O" 2047 JJP0261231 ErBa2Cu3O7 Er1Ba2Cu3O7-Z Er 1 Ba 2 Cu 3 O 7-Z 1 1987 3 Y123 3.819 3.891 11.672 K 92.5 92.5 3.8 SUPERCONDUCTIVITY IN METAMORPHIC PHASES OF BA(2)ER(1)CU(3)O(7-Z) 1987 "RESISTIVITY ,SUSCEPTIBILITY ,LATTICE" "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,JAPAN" "JJAP LETT.,26(1987)L1231" 2048 JJP0261231 ErBa2Cu3O7 Er1Ba2Cu3O7-Z Er 1 Ba 2 Cu 3 O 7-Z 1 1987 3 Y123 3.84 3.877 11.763 K 51.8 51.8 9.5 SUPERCONDUCTIVITY IN METAMORPHIC PHASES OF BA(2)ER(1)CU(3)O(7-Z) 1987 "RESISTIVITY ,SUSCEPTIBILITY ,LATTICE" "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,JAPAN" "JJAP LETT.,26(1987)L1231" 2049 JJP0261231 ErBa2Cu3O7 Er1Ba2Cu3O7-Z Er 1 Ba 2 Cu 3 O 7-Z 1 1987 2 Y123 3.862 11.823 K 4.2 SUPERCONDUCTIVITY IN METAMORPHIC PHASES OF BA(2)ER(1)CU(3)O(7-Z) 1987 "RESISTIVITY ,SUSCEPTIBILITY ,LATTICE" "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,JAPAN" "JJAP LETT.,26(1987)L1231" 2050 PRB0390225 KAIZERO=EMU/MOLE.OE "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.73Fe0.27O7.1 Y 1 Ba 2 Cu 2.73 Fe 0.27 O 7.1 7.1 1 1989 -65230000000 3.2 2.8 3 Y123 K 69 69 200 SP2050 73 "SUSCEPTIBILITY,CRYSTAL-STRUCTURE,AND SPECIFIC-HEAT STUDIES OF THE HIGH-TC SUPERCONDUCTOR AND QUENCHED Y(1)BA(2)(CU(0.91)FE(0.09))(3)O(X)" 1989 1 "SUSCEPTIBILITY ,SPECIFIC HEAT ,XRY" "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY OF JERUSALEMISRAEL" "PHYS.REV.B,39(1989)225" "Y,BA,CU,FE,O" 2051 PRB0390225 KAIZERO=EMU/MOLE.OE "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.73Fe0.27O6.1 Y 1 Ba 2 Cu 2.73 Fe 0.27 O 6.1 6.1 1 1989 -5.77E+22 -1 410 2 Y123 K 4.2 "SUSCEPTIBILITY,CRYSTAL-STRUCTURE,AND SPECIFIC-HEAT STUDIES OF THE HIGH-TC SUPERCONDUCTOR AND QUENCHED Y(1)BA(2)(CU(0.91)FE(0.09))(3)O(X)" 1989 1 "SUSCEPTIBILITY ,SPECIFIC HEAT ,XRY" "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY OF JERUSALEMISRAEL" "PHYS.REV.B,39(1989)225" "Y,BA,CU,FE,O" 2052 PRL0640080 OZ=3.99-3. 97 "(Pr,Th)2CuO4" Pr1.85Th0.15Cu1O3.98 Pr 1.85 Th 0.15 Cu 1 O 4-Z 3.98 1990 2 T' 3.981 12.214 K 17.2 17.2 K/GPa -0.18 "PRESSUR DEPARTMENT OF TC IN L2-XMXCUO4-Y (L=PR,ND,SM,EU;M=CE,TH): ANTISYMMETRIC BEHAVIOR OF ELECTRON - VERSUS HOLE-DOPED COPPER-OXIDE SUPERCONDUCTORS" 1990 1 "TC ,PRESSURE" "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES, UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CALIFORNIA 92093" "PHYS.REV.LETT.,64(1990)80" "PR,ND,SM,EU,CE,TH,CU,O" 2053 PRL0640080 OZ=3.99-3. 97 "(Nd,Th)2CuO4" Nd1.85Th0.15Cu1O3.98 Nd 1.85 Th 0.15 Cu 1 O 4-Z 3.98 1990 2 T' 3.958 12.127 K 17 17 K/GPa -0.33 "PRESSUR DEPARTMENT OF TC IN L2-XMXCUO4-Y (L=PR,ND,SM,EU;M=CE,TH): ANTISYMMETRIC BEHAVIOR OF ELECTRON - VERSUS HOLE-DOPED COPPER-OXIDE SUPERCONDUCTORS" 1990 1 "TC ,PRESSURE" "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES, UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CALIFORNIA 92093" "PHYS.REV.LETT.,64(1990)80" "PR,ND,SM,EU,CE,TH,CU,O" 2054 PRL0640080 OZ=3.99-3. 97 "(Sm,Th)2CuO4" Sm1.85Th0.15Cu1O3.98 Sm 1.85 Th 0.15 Cu 1 O 4-Z 3.98 1990 2 T' 3.932 11.948 K 1.8 1.8 K/GPa -0.27 "PRESSUR DEPARTMENT OF TC IN L2-XMXCUO4-Y (L=PR,ND,SM,EU;M=CE,TH): ANTISYMMETRIC BEHAVIOR OF ELECTRON - VERSUS HOLE-DOPED COPPER-OXIDE SUPERCONDUCTORS" 1990 1 "TC ,PRESSURE" "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES, UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CALIFORNIA 92093" "PHYS.REV.LETT.,64(1990)80" "PR,ND,SM,EU,CE,TH,CU,O" 2055 PRL0640080 OZ=3.99-3. 97 "(Eu,Th)2CuO4" Eu1.85Th0.15Cu1O3.98 Eu 1.85 Th 0.15 Cu 1 O 4-Z 3.98 1990 2 T' 3.919 11.877 K 4.2 "PRESSUR DEPARTMENT OF TC IN L2-XMXCUO4-Y (L=PR,ND,SM,EU;M=CE,TH): ANTISYMMETRIC BEHAVIOR OF ELECTRON - VERSUS HOLE-DOPED COPPER-OXIDE SUPERCONDUCTORS" 1990 1 "TC ,PRESSURE" "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES, UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CALIFORNIA 92093" "PHYS.REV.LETT.,64(1990)80" "PR,ND,SM,EU,CE,TH,CU,O" 2056 PRL0640080 OZ=3.99-3. 97 "(Gd,Th)2CuO4" Gd1.85Th0.15Cu1O3.98 Gd 1.85 Th 0.15 Cu 1 O 4-Z 3.98 1990 2 T' 3.91 11.865 K 4.2 "PRESSUR DEPARTMENT OF TC IN L2-XMXCUO4-Y (L=PR,ND,SM,EU;M=CE,TH): ANTISYMMETRIC BEHAVIOR OF ELECTRON - VERSUS HOLE-DOPED COPPER-OXIDE SUPERCONDUCTORS" 1990 1 "TC ,PRESSURE" "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES, UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CALIFORNIA 92093" "PHYS.REV.LETT.,64(1990)80" "PR,ND,SM,EU,CE,TH,CU,O" 2057 PRL0640080 OZ=3.99-3. 97 "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O3.98 Pr 1.85 Ce 0.15 Cu 1 O 4-Z 3.98 1990 2 T' 3.973 12.166 K 19.4 19.4 K/GPa -0.1 "PRESSUR DEPARTMENT OF TC IN L2-XMXCUO4-Y (L=PR,ND,SM,EU;M=CE,TH): ANTISYMMETRIC BEHAVIOR OF ELECTRON - VERSUS HOLE-DOPED COPPER-OXIDE SUPERCONDUCTORS" 1990 1 "TC ,PRESSURE" "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES, UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CALIFORNIA 92093" "PHYS.REV.LETT.,64(1990)80" "PR,ND,SM,EU,CE,TH,CU,O" 2058 PRL0640080 OZ=3.99-3. 97 "(Nd,Th)2CuO4" Nd1.85Ce0.15Cu1O3.98 Nd 1.85 Ce 0.15 Cu 1 O 4-z 3.98 1990 2 T' 3.952 12.091 K 21.2 21.2 K/GPa -0.01 "PRESSUR DEPARTMENT OF TC IN L2-XMXCUO4-Y (L=PR,ND,SM,EU;M=CE,TH): ANTISYMMETRIC BEHAVIOR OF ELECTRON - VERSUS HOLE-DOPED COPPER-OXIDE SUPERCONDUCTORS" 1990 1 "TC ,PRESSURE" "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES, UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CALIFORNIA 92093" "PHYS.REV.LETT.,64(1990)80" "PR,ND,SM,EU,CE,TH,CU,O" 2059 PRL0640080 OZ=3.99-3. 97 "(Sm,Ce)2CuO4" Sm1.85Ce0.15Cu1O3.98 Sm 1.85 Ce 0.15 Cu 1 O 4-z 3.98 1990 2 T' 3.924 11.909 K 19.7 19.7 K/GPa -0.49 "PRESSUR DEPARTMENT OF TC IN L2-XMXCUO4-Y (L=PR,ND,SM,EU;M=CE,TH): ANTISYMMETRIC BEHAVIOR OF ELECTRON - VERSUS HOLE-DOPED COPPER-OXIDE SUPERCONDUCTORS" 1990 1 "TC ,PRESSURE" "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES, UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CALIFORNIA 92093" "PHYS.REV.LETT.,64(1990)80" "PR,ND,SM,EU,CE,TH,CU,O" 2060 PRL0640080 OZ=3.99-3. 97 "(Eu,Ce)2CuO4" Eu1.85Ce0.15Cu1O3.98 Eu 1.85 Ce 0.15 Cu 1 O 4-z 3.98 1990 2 T' 3.918 11.85 K 7.3 7.3 K/GPa -0.37 "PRESSUR DEPARTMENT OF TC IN L2-XMXCUO4-Y (L=PR,ND,SM,EU;M=CE,TH): ANTISYMMETRIC BEHAVIOR OF ELECTRON - VERSUS HOLE-DOPED COPPER-OXIDE SUPERCONDUCTORS" 1990 1 "TC ,PRESSURE" "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES, UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CALIFORNIA 92093" "PHYS.REV.LETT.,64(1990)80" "PR,ND,SM,EU,CE,TH,CU,O" 2061 PRL0640080 OZ=3.99-3. 97 "(Gd,Ce)2CuO4" Gd1.85Ce0.15Cu1O3.99 Gd 1.85 Ce 0.15 Cu 1 O 4-z 3.99 1990 2 T' 3.906 11.834 K 4.2 "PRESSUR DEPARTMENT OF TC IN L2-XMXCUO4-Y (L=PR,ND,SM,EU;M=CE,TH): ANTISYMMETRIC BEHAVIOR OF ELECTRON - VERSUS HOLE-DOPED COPPER-OXIDE SUPERCONDUCTORS" 1990 1 "TC ,PRESSURE" "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES, UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CALIFORNIA 92093" "PHYS.REV.LETT.,64(1990)80" "PR,ND,SM,EU,CE,TH,CU,O" 2062 SSC0750059 EuBa2Cu3O7 Eu1Ba2Cu3O6.9 Eu 1 Ba 2 Cu 3 O Z 6.9 1 1990 3 Y123 3.844 3.899 11.7 K 88 88 "MAGNETIC SUSCEPTIBILITY, RESISTIVITY AND 151EU MOSSBAUER STUDIES ON ZN-SUBSTITUTED EUBA2CU3O7-Y" 1990 MOSSBAUER "TATA INSTITUTE OF FUNDAMENTAL RESEARCH, BOMBAY 400 005, INDIA" "SOLID STATE COMMUN.,75(1990)59" "EU,BA,CU,O,ZN" 2063 SSC0750059 "EuBa2(Cu,Zn)3O7" Eu1Ba2Cu2.925Zn0.075OZ Eu 1 Ba 2 Cu 2.925 Zn 0.075 O Z 1 1990 3 Y123 3.848 3.901 11.71 K 27 27 "MAGNETIC SUSCEPTIBILITY, RESISTIVITY AND 151EU MOSSBAUER STUDIES ON ZN-SUBSTITUTED EUBA2CU3O7-Y" 1990 MOSSBAUER "TATA INSTITUTE OF FUNDAMENTAL RESEARCH, BOMBAY 400 005, INDIA" "SOLID STATE COMMUN.,75(1990)59" "EU,BA,CU,O,ZN" 2064 SSC0750059 "EuBa2(Cu,Zn)307" Eu1Ba2Cu2.85Zn0.15OZ Eu 1 Ba 2 Cu 2.85 Zn 0.15 O Z 1 1990 3 Y123 3.853 3.904 11.7 K 12 "MAGNETIC SUSCEPTIBILITY, RESISTIVITY AND 151EU MOSSBAUER STUDIES ON ZN-SUBSTITUTED EUBA2CU3O7-Y" 1990 MOSSBAUER "TATA INSTITUTE OF FUNDAMENTAL RESEARCH, BOMBAY 400 005, INDIA" "SOLID STATE COMMUN.,75(1990)59" "EU,BA,CU,O,ZN" 2065 SSC0750059 "EuBa2(Cu,Zn)3O7" Eu1Ba2Cu2.775Zn0.225OZ Eu 1 Ba 2 Cu 2.775 Zn 0.225 O Z 1 1990 3 Y123 3.858 3.902 11.71 K 12 "MAGNETIC SUSCEPTIBILITY, RESISTIVITY AND 151EU MOSSBAUER STUDIES ON ZN-SUBSTITUTED EUBA2CU3O7-Y" 1990 MOSSBAUER "TATA INSTITUTE OF FUNDAMENTAL RESEARCH, BOMBAY 400 005, INDIA" "SOLID STATE COMMUN.,75(1990)59" "EU,BA,CU,O,ZN" 2066 SSC0750059 "EuBa2(Cu,Zn)3O7" Eu1Ba2Cu2.7Zn0.3OZ Eu 1 Ba 2 Cu 2.7 Zn 0.3 O Z 1 1990 2 Y123 3.888 11.67 K 12 "MAGNETIC SUSCEPTIBILITY, RESISTIVITY AND 151EU MOSSBAUER STUDIES ON ZN-SUBSTITUTED EUBA2CU3O7-Y" 1990 MOSSBAUER "TATA INSTITUTE OF FUNDAMENTAL RESEARCH, BOMBAY 400 005, INDIA" "SOLID STATE COMMUN.,75(1990)59" "EU,BA,CU,O,ZN" 2067 PHC1670097 "HEAT TREATED AT 200C IN F2(1.3BAR),MAYBE F IS CORPORATED" La2CuFoO4 La2Cu1FO4 La 2 Cu 1 F O 4 1990 3 5.342 5.436 13.192 K 40 40 700 STABILIZATION OF A NEW SUPERCONDUCTING PHASE BY LOW TEMPERATURE FLUORINATION OF LA2CUO4 1990 "HC1 ,F2 GAS ,NEW COMPOUND ,SUSCEPTIBILITY" "LABORATOIRE DE CHIMIE DU SOLIDE DU CNRS,UNIVERSITE BORDEAUX 1,33405 TALENCE CEDEX,FRANCE" "PHYSICA C,167(1990)97" "LA,CU,O,F" 2068 PHC1660393 "NO 123,247 PHASES" HoBa2Cu4O8 Ho1Ba2Cu4O8 Ho 1 Ba 2 Cu 4 O 8 1990 10.4 -14 Y124 K 76 76 76 9 SP2068 380 5.8 "SPECIFIC HEAT, MAGNETIZATION AND RESISTIVITY MEASUREMENTS ON HOBA2CU4O8" 1990 "SPECIFIC HEAT ,RESISTIVETY ,MAGNETIZATION" "LABRATORIUM FUR FESTKORPRPHYSIK,ETHZ,HC-8093 ZURICH,SWIZRELAND" "PHYSICA C,166(1990)393" "HO,BA,CU,O" 2069 PHC1670236 "DTC/DP=-0.434(B-A)/A *E3 + 7.93,DTCDP=K/GPA" Y2Ba4Cu7O15 Y2Ba4Cu7O15 Y 2 Ba 4 Cu 7 O 15 1990 Y247 K 93 4 93 K/GPa 3 HIGH-PRESSURE STUDIES ON THE 90 K SUPERCONDUCTORS Y2BA4CU7O15AND (Y/CA)BA2CU4O8 1990 "HELIUM PRESSURES ,RESISTIV ,SUSCEPTIBILITY" "PHYSICS AND ENGINEERING LABORATORY,DEPARTMENT OF SINENIFIC ANDINDUSTRIAL RESEARCH,PO BOX 31313,LOWER HUTT,NEW ZEALAND" "PHYSICA C,167(1990)236" "Y,BA,CU,CA" 2070 PHC1670236 CA 75% ON Y- SITE "(Y,Ca)Ba2Cu4O8" Y0.93Ca0.07Ba2Cu4O8 Y 0.93 Ca 0.07 Ba 2 Cu 4 O 8 1990 Y124 K 85.5 89 4 89 K/GPa 4.5 HIGH-PRESSURE STUDIES ON THE 90 K SUPERCONDUCTORS Y2BA4CU7O15AND (Y/CA)BA2CU4O8 1990 "HELIUM PRESSURES ,RESISTIV ,SUSCEPTIBILITY" "PHYSICS AND ENGINEERING LABORATORY,DEPARTMENT OF SINENIFIC ANDINDUSTRIAL RESEARCH,PO BOX 31313,LOWER HUTT,NEW ZEALAND" "PHYSICA C,167(1990)236" "Y,BA,CU,CA" 2071 SSC0750779 TWO STEP CHANGE IN THERMAL CONDUCTIVITY "((Bi,Pb,Sb)2Sr2Ca2Cu3O10" Bi1.4Pb0.5Sb0.1Sr2Ca2Cu3O10-X Bi 1.4 Pb 0.5 Sb 0.1 Sr 2 Ca 2 Cu 3 O 10-X 1990 K 106.9 108.6 106.9 TC2071 THERMAL CONDUCTIVITY OF BI-BASED HIGH-TC SUPERCONDUCTORS IN THE VICINITY OF SUPERCONDUCTING TRANSITION 1990 THERMAL CONDUCTIVITY "INSTITUTE FOR LOW TEMPERATURE AND STRUCTURE RESEARCH,POLISH ACADEMY OF SCIENCE,OKOLNA 2,50-422 WROCLAW, P.O. BOX 937, POLAND" "SOLID STATE COMMUN.,75(1990)779" "BI,PB,SB,SR,CA,CU,O" 2072 SSC0750785 Yb2Cu2O5 Yb2Cu2O5 Yb 2 Cu 2 O 5 1990 PN2(1)A 10.724 12.337 3.432 K "CRYSTAL STRUCTURE REFINEMENT AND MAGNETIC ORDERING IN R2CU2O5(R=HO,TM,YB) COMPOUNDS" 1990 "CRYSTAL STRUCTURES ,NEUTRON DIFFRACTION ,MAGNETIC ORDERING" "LABOR FUR NEUTRONENSTREUUNG ETHZ, CH-5232 VILLIGEN PSI, SWITZERLAND" "SOLID STATE COMMUN.,75(1990)785" "HO,TM,YB,CU,O" 2073 SSC0750785 Tm2Cu2O5 Tm2Cu2O5 Tm 2 Cu 2 O 5 1990 10.741 12.371 3.459 K "CRYSTAL STRUCTURE REFINEMENT AND MAGNETIC ORDERING IN R2CU2O5(R=HO,TM,YB) COMPOUNDS" 1990 "CRYSTAL STRUCTURES ,NEUTRON DIFFRACTION ,MAGNETIC ORDERING" "LABOR FUR NEUTRONENSTREUUNG ETHZ, CH-5232 VILLIGEN PSI, SWITZERLAND" "SOLID STATE COMMUN.,75(1990)785" "HO,TM,YB,CU,O" 2074 SSC0750785 Ho2Cu2O5 Ho2Cu2O5 Ho 2 Cu 2 O 5 1990 K "CRYSTAL STRUCTURE REFINEMENT AND MAGNETIC ORDERING IN R2CU2O5(R=HO,TM,YB) COMPOUNDS" 1990 "CRYSTAL STRUCTURES ,NEUTRON DIFFRACTION ,MAGNETIC ORDERING" "LABOR FUR NEUTRONENSTREUUNG ETHZ, CH-5232 VILLIGEN PSI, SWITZERLAND" "SOLID STATE COMMUN.,75(1990)785" "HO,TM,YB,CU,O" 2075 JJP0291396 B=GPA (Bi2Pb)2Sr2Ca2Cu3O10 Bi1.8Pb0.4Sr1.85Ca2.05Cu3O10.26 Bi 1.8 Pb 0.4 Sr 1.85 Ca 2.05 Cu 3 O 10+X 10.26 1990 GPa 73 Bi2223 -0.003 -0.008 K 107 107 K/GPa 2 PRESSURE-EFFECT STUDY ON THE HIGH-TC SUPERCONDUCTOR BI(PB)-SR-CA-CU-O SYSTEM 1990 8 "PRESSURE EFFECT ,X-RAY ,COMPRESSIBILITY" "DEPARTMENT OF MATERIAL SCIENCE, HIMEJI INSTITUTE OF TECHNOLOGY, HIMEJI 670" "JJAP LETT,29(1990)L1396" "BI,PB,SR,CA,CU,O" 2076 JJP0291396 B=GPA Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 1990 GPa 61 Bi2212 -0.004 -0.008 K 85 85 K/GPa 2 PRESSURE-EFFECT STUDY ON THE HIGH-TC SUPERCONDUCTOR BI(PB)-SR-CA-CU-O SYSTEM 1990 8 "PRESSURE EFFECT ,X-RAY ,COMPRESSIBILITY" "DEPARTMENT OF MATERIAL SCIENCE, HIMEJI INSTITUTE OF TECHNOLOGY, HIMEJI 670" "JJAP LETT,29(1990)L1396" "BI,PB,SR,CA,CU,O" 2077 JJP0291079 "HIGH O2 PRESS,HIP PROCESS" YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1990 3 Y124 3.842 3.863 27.19 K 83 83 50 140 114 2 17 2400 CRITICAL CURRENT DENSITIES OF Y1-XCAXBA2CU4O8 (X=0 AND 0.1) SUPERCONDUCTING CERAMICS 1990 7 "CRITICAL CURRENT ,CRITICAL FIELD" "SUPERCONDUCTIVITY RESEARCH LABORATORY, ISTEC, 1-10-13 SHINONOME, KOTO-KU, TOKYO 135" "JJAP LETT,29(1990)L1079" "Y,CA,BA,CU,O" 2078 JJP0291079 "HIGH O2 PRESS,HIP PROCESS" "(Y,Ca)Ba2Cu4O8" Y0.9Ca0.1Ba2Cu4O8 Y 0.9 Ca 0.1 Ba 2 Cu 4 O 8 1990 3 Y124 3.841 3.864 27.21 K 91 91 45 185 172 2.77 14 2100 CRITICAL CURRENT DENSITIES OF Y1-XCAXBA2CU4O8 (X=0 AND 0.1) SUPERCONDUCTING CERAMICS 1990 7 "CRITICAL CURRENT ,CRITICAL FIELD" "SUPERCONDUCTIVITY RESEARCH LABORATORY, ISTEC, 1-10-13 SHINONOME, KOTO-KU, TOKYO 135" "JJAP LETT,29(1990)L1079" "Y,CA,BA,CU,O" 2079 PR0409389 "THC FOR OUT-OF PLANE,THC(C)" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1989 3 K 92 0.2 92 8.2 THC2079 ANISOTROPY OF THE THERMAL CONDUCTIVITY OF YBA2CU3O7-Y 1989 11 "THERMAL CONDUCTIVITY,ANISOTROPIC ,ELECTRON-PHONON" "JOSEPH HENRY LABORATORIES OF PHYSICS,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY 08544" "PHYS.REV.B,40(1989)9389" "Y,BA,CU,O" 2080 PR0409389 "THC FOR AB PLANE,THC(AB)" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1989 2 K 4.2 7.25 THC2080 ANISOTROPY OF THE THERMAL CONDUCTIVITY OF YBA2CU3O7-Y 1989 11 "THERMAL CONDUCTIVITY,ANISOTROPIC ,ELECTRON-PHONON" "JOSEPH HENRY LABORATORIES OF PHYSICS,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY 08544" "PHYS.REV.B,40(1989)9389" "Y,BA,CU,O" 2081 PRB0402694 "NEUTRON IRRADIATED, Tc is for fluence = 30 E+17. FLUENCE DEP. OF TC IN FIGURE(TC2081)" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 2 1989 3 Y123 K 86.5 86.5 TC2081 7 THC2081 -4.05 TP2081 THERMOELECTRIC POWER AND THERMAL CONDUCTIVITY OF NEUTRON-IRRADIATED YBA2CU3O7-Z 1989 8 "THERMOELECTRIC POWER,THERMAL CONDUCTIVITY,FAST-NEUTRON ,IRRADIATION" "DEPARTMENT OF PHYSICS,UNIVERSITY OF MICHIGAN,ANN ARBOR,MICHIGAN 48109" "PHYS.REV.B,40(1989)2694" "Y,BA,CU,O" 2082 PSA1030037 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1 1987 2 3.774 13.253 K 34.2 6 34.2 THC2082 0.8 THERMAL AND ELECTRICAL CONDUCTIVITY OF LA(1.8)SR(0.2)CU(1)O(4) SAMPLES 1987 9 "THERMAL CONDUCTIVITY ,RES" "INSTITUTE FOR LOW TEMPERATURE AND STRUCTURE RESEARCH,POLISH ACADEMY OF SCIENCES,WROCLAW" "PHYS.STAT.SOL..A, 103(1987)K37" "LA,SR,CU,O" 2083 PRB0400841 "K=0.15*T**2.0 FOR T<1.6K, AB-PLANE" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1989 2 Bi2212 K 84 84 THC2083 LOW-TEMPERATURE THERMAL CONDUCTIVITY OF SINGLE-CRYSTAL BI(2)SR(2)CACU(2)O(8) 1989 7 "THERMAL CONDUCTIVITY,SINGLE CRYSTAL" "DEPARTMENT OF PHYSICS AND MATERIALS RESEARCH LABORATORY,UNIVERSITY OF ILLINOIS AT URBANA-CHAMPAIGN,1110 WEST GREEN STREET,URBANA,ILLINOIS 61801" "Phys.Rev.B,40(1989)841" "BI,SR,CA,CU,O" 2084 PRL0622885 "TWO FLUID MODEL,PENET=879A BY USING WEAK-COUPLING MODEL" YBa2Cu3O7 Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 1989 Y123 K 89.6 89.6 1705 Magnetic penetration depth of?YBa2Cu3O7 1989 "PHYS.REV.LETT.,62(1989)2885" 2085 PRL0611419 FROM SUSCEPTIBILITY USING =1-(2P/D)TANH(D/2P) YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1988 Y123 K 89.7 0.2 89.7 1400 RENORMALIZATION OF THE MEAN-FIELD SUPERCONDUCTING PENETRATION DEPTH IN EPITAXIAL Y(1)BA(2)CU(3)O(7) FILMS 1988 9 "PENETRATION DEPTH ,KOSTERLITZ-THO" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.LETT.,61(1988)1419" "Y,BA,CU,O" 2086 PHC1600541 HC2 ESTIMATED HY WHH THEORY YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1989 3 Y124 3.842 3.863 27.19 K 79.6 82.5 82.6 82.5 50 140 114 2 17 2400 0.75 3 PREPARATION AND SUPERCONDUCTING PROPERTIES OF YBA2CU4O8 1989 10 PHYS.C.160(1989)541 2087 PHC1531515 "THC BELOW 7K,FIELD DEP. OF THC AND MAGNETIZATION" GdBa2Cu3O7 Gd1Ba2Cu3O7-Z Gd 1 Ba 2 Cu 3 O 7-Z 1 1988 2.2 Y123 K 95.5 1.5 95.5 0.6 THERMAL TRANSPORT AND MAGNETIC PROPERTIES OF GdBa2Cu3O7-y SUPERCONDUCTOR 1988 "College of Liberal Arts, Toyama University, 3190 Gofuku, Toyama 930 Japan" "Physica.C,153-155(1988)1515-1516" 2088 PHC1700259 "H//AB-PLANE,SLIGHTLY DIFFERENT FOR ANOTHER DIRECTION" YBa2Cu4O8 Y1Ba2Cu4OZ Y 1 Ba 2 Cu 4 O Z 3 1990 4 Y124 K 73.6 74.6 76.7 3 74.6 K/GPa 6.8 CHANGE OF CRITICAL PARAMETERS OF YBA2CU4OX AND YBA2CU3.5OX SINGLE CRYSTALS UNDER PRESSURE 1990 "INSTITUTE FOR HIGH PRESSURE PHYSICS, ACADEMY OF SCIENCES OF THE USSR, TROITSK, MOSCOW REGION, 142092, USSR" "PHYSICA C,170(1990)259" "Y,BA,CU,O" 2089 PHC1700259 "H//AB-PLANE,SLIGHTLY DIFFERENT FOR ANOTHER DIRECTION" Y2Ba4Cu7O15 Y2Ba4Cu7OZ Y 2 Ba 4 Cu 7 O Z 3 1990 4 Y247 K 45.3 51.3 53.3 51.3 K/GPa 5.6 CHANGE OF CRITICAL PARAMETERS OF YBA2CU4OX AND YBA2CU3.5OX SINGLE CRYSTALS UNDER PRESSURE 1990 "INSTITUTE FOR HIGH PRESSURE PHYSICS, ACADEMY OF SCIENCES OF THE USSR, TROITSK, MOSCOW REGION, 142092, USSR" "PHYSICA C,170(1990)259" "Y,BA,CU,O" 2090 PR04111681 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1990 Y123 K 93 93 3.5 2 Infrared absorptivity of YBa2Cu3O7-x crystal 1990 6 "Center for Superconductivity Research, Physics Department, University of Maryland, College Park, Maryland 20742 and Laboratory for Physical Sciences, College Park, Maryland 20740" "Phys.Rev.B,41(1990)11681" 2091 HPA0610438 ERROR BELOW 1.5% GdBa2Cu3O7 Gd1Ba2Cu3O7-Z Gd 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 92.7 2.5 92.7 3.32 THC2091 2.4 1988 6 "Helvetica Phys.Acta, 61(1988) 438" 2092 HPA0610438 ERROR BELOW 1.5% YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 89.5 4.2 89.5 4.74 THC2092 0.74 1988 6 "Helvetica Phys.Acta, 61(1988) 438" 2093 HPA0610438 ERROR BELOW 1.5% SmBa2Cu3O7 Sm1Ba2Cu3O7-Z Sm 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 K 92 2.2 92 5.13 THC2093 1.5 1988 6 "Helvetica Phys.Acta, 61(1988) 438" 2094 SST0010296 YBa2Cu3O7 Y1Ba2Cu3O6.81 Y 1 Ba 2 Cu 3 O Z 6.81 1 1989 3 Y123 K 89.5 89.5 4.96 THC2094 Thermal conductivity of the Y-Ba-Cu-O tetragonal structure: phase transitions and hysteresis behaviour 1989 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw, Poland" "Supercond.Scie.Technol., 1(1989)296" 2095 SST0010296 YBa2Cu3O7 Y1Ba2Cu3O6.54 Y 1 Ba 2 Cu 3 O Z 6.54 1 1989 3 Y123 K 58 58 4.49 THC2095 Thermal conductivity of the Y-Ba-Cu-O tetragonal structure: phase transitions and hysteresis behaviour 1989 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw, Poland" "Supercond.Scie.Technol., 1(1989)296" 2096 SST0010296 YBa2Cu3O7 Y1Ba2Cu3O6.1 Y 1 Ba 2 Cu 3 O Z 6.1 1 1989 2 Y123 3.858 11.811 K 2.76 THC2096 Thermal conductivity of the Y-Ba-Cu-O tetragonal structure: phase transitions and hysteresis behaviour 1989 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw, Poland" "Supercond.Scie.Technol., 1(1989)296" 2097 PHC1560574 SEE SSC0651001 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 92.4 92.4 K/kbar 0.07 PRESSURE DEPENDENCE OF THE SUPERCONDUCTING TRANSITION TEMPERATURE OF (Y1-XPRX)BA2CU3O7-Z COMPOUNDS; EVIDENCE FOR 4F ELECTRONHYBRIDIZATION 1988 "PHYSICA C,156(1988)574" 2098 PHC1560574 SEE SSC0651001 "(Y,Pr)Ba2Cu3O7" Y0.9Pr0.1Ba2Cu3O7-Z Y 0.9 Pr 0.1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 85.5 85.5 K/kbar 0.18 PRESSURE DEPENDENCE OF THE SUPERCONDUCTING TRANSITION TEMPERATURE OF (Y1-XPRX)BA2CU3O7-Z COMPOUNDS; EVIDENCE FOR 4F ELECTRONHYBRIDIZATION 1988 "PHYSICA C,156(1988)574" 2099 PHC1560574 SEE SSC0651001 "(Y,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O7-Z Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1988 Y123 K 79.6 79.6 K/kbar 0.3 PRESSURE DEPENDENCE OF THE SUPERCONDUCTING TRANSITION TEMPERATURE OF (Y1-XPRX)BA2CU3O7-Z COMPOUNDS; EVIDENCE FOR 4F ELECTRONHYBRIDIZATION 1988 "PHYSICA C,156(1988)574" 2100 PHC1560574 SEESSC0651001 "(Y,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3O7-Z Y 0.7 Pr 0.3 Ba 2 Cu 3 O 7-Z 1988 Y123 K 56 56 K/kbar 0.32 PRESSURE DEPENDENCE OF THE SUPERCONDUCTING TRANSITION TEMPERATURE OF (Y1-XPRX)BA2CU3O7-Z COMPOUNDS; EVIDENCE FOR 4F ELECTRONHYBRIDIZATION 1988 "PHYSICA C,156(1988)574" 2101 PHC1560574 SEESSC0651001 "(Y,Pr)Ba2Cu3O7" Y0.6Pr0.4Ba2Cu3O7-Z Y 0.6 Pr 0.4 Ba 2 Cu 3 O 7-Z 1988 Y123 K 48.5 48.5 K/kbar -0.21 PRESSURE DEPENDENCE OF THE SUPERCONDUCTING TRANSITION TEMPERATURE OF (Y1-XPRX)BA2CU3O7-Z COMPOUNDS; EVIDENCE FOR 4F ELECTRONHYBRIDIZATION 1988 "PHYSICA C,156(1988)574" 2102 PHC1560574 SEESSC0651001 "(Y,Pr)Ba2Cu3O7" Y0.5Pr0.5Ba2Cu3O7-Z Y 0.5 Pr 0.5 Ba 2 Cu 3 O 7-Z 1988 Y123 K 28.9 28.9 K/kbar -0.68 PRESSURE DEPENDENCE OF THE SUPERCONDUCTING TRANSITION TEMPERATURE OF (Y1-XPRX)BA2CU3O7-Z COMPOUNDS; EVIDENCE FOR 4F ELECTRONHYBRIDIZATION 1988 "PHYSICA C,156(1988)574" 2103 PHC1710315 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.8Y0.2Cu2O8.26 Bi 2 Sr 2 Ca 0.8 Y 0.2 Cu 2 O 8+Z 8.26 1990 2 3.824 30.678 K 92 92 SUBSTITUTION EFFECT OF RARE EARTH (R) FOR CA IN THE BI2SR2CA1-XRXCU2O8+Y SYSTEM 1990 "IONIC RADIUS ,TC" "INSTITUTE OF APPLIED PHYSICS AND CRYOGENICS CENTER,UNIVERSITYOF TSUKUBA, TSUKUBA, IBARAKI 305,JAPAN" "PHYSICA C,171(1990)315" "BI,SR,CA,CU,O,R," 2104 PHC1710315 "Bi2Sr2(Ca,La)Cu2O8" Bi2Sr2Ca0.8La0.2Cu2O8.26 Bi 2 Sr 2 Ca 0.8 La 0.2 Cu 2 O 8+Z 8.26 1990 2 3.831 30.786 K 87.9 87.9 SUBSTITUTION EFFECT OF RARE EARTH (R) FOR CA IN THE BI2SR2CA1-XRXCU2O8+Y SYSTEM 1990 "IONIC RADIUS ,TC" "INSTITUTE OF APPLIED PHYSICS AND CRYOGENICS CENTER,UNIVERSITYOF TSUKUBA, TSUKUBA, IBARAKI 305,JAPAN" "PHYSICA C,171(1990)315" "BI,SR,CA,CU,O,R," 2105 PHC1710315 "Bi2Sr2(Ca,Nd)Cu2O8" Bi2Sr2Ca0.8Nd0.2Cu2O8.26 Bi 2 Sr 2 Ca 0.8 Nd 0.2 Cu 2 O 8+Z 8.26 1990 2 3.829 30.752 K 88.8 88.8 SUBSTITUTION EFFECT OF RARE EARTH (R) FOR CA IN THE BI2SR2CA1-XRXCU2O8+Y SYSTEM 1990 "IONIC RADIUS ,TC" "INSTITUTE OF APPLIED PHYSICS AND CRYOGENICS CENTER,UNIVERSITYOF TSUKUBA, TSUKUBA, IBARAKI 305,JAPAN" "PHYSICA C,171(1990)315" "BI,SR,CA,CU,O,R," 2106 PHC1710315 "Bi2Sr2(Ca,Eu)Cu2O8" Bi2Sr2Ca0.8Eu0.2Cu2O8.26 Bi 2 Sr 2 Ca 0.8 Eu 0.2 Cu 2 O 8+Z 8.26 1990 2 3.826 30.688 K 90.4 90.4 SUBSTITUTION EFFECT OF RARE EARTH (R) FOR CA IN THE BI2SR2CA1-XRXCU2O8+Y SYSTEM 1990 "IONIC RADIUS ,TC" "INSTITUTE OF APPLIED PHYSICS AND CRYOGENICS CENTER,UNIVERSITYOF TSUKUBA, TSUKUBA, IBARAKI 305,JAPAN" "PHYSICA C,171(1990)315" "BI,SR,CA,CU,O,R," 2107 PHC1710315 "Bi2Sr2(Ca,Gd)Cu2O8" Bi2Sr2Ca0.8Gd0.2Cu2O8.26 Bi 2 Sr 2 Ca 0.8 Gd 0.2 Cu 2 O 8+Z 8.26 1990 2 3.826 30.709 K 89.8 89.8 SUBSTITUTION EFFECT OF RARE EARTH (R) FOR CA IN THE BI2SR2CA1-XRXCU2O8+Y SYSTEM 1990 "IONIC RADIUS ,TC" "INSTITUTE OF APPLIED PHYSICS AND CRYOGENICS CENTER,UNIVERSITYOF TSUKUBA, TSUKUBA, IBARAKI 305,JAPAN" "PHYSICA C,171(1990)315" "BI,SR,CA,CU,O,R," 2108 PHC1710315 "Bi2Sr2(Ca,Dy)Cu2O8" Bi2Sr2Ca0.8Dy0.2Cu2O8.26 Bi 2 Sr 2 Ca 0.8 Dy 0.2 Cu 2 O 8+Z 8.26 1990 2 3.824 30.685 K 90.8 90.8 SUBSTITUTION EFFECT OF RARE EARTH (R) FOR CA IN THE BI2SR2CA1-XRXCU2O8+Y SYSTEM 1990 "IONIC RADIUS ,TC" "INSTITUTE OF APPLIED PHYSICS AND CRYOGENICS CENTER,UNIVERSITYOF TSUKUBA, TSUKUBA, IBARAKI 305,JAPAN" "PHYSICA C,171(1990)315" "BI,SR,CA,CU,O,R," 2109 PHC1710315 "Bi2Sr2(Ca,Yb)Cu2O8" Bi2Sr2Ca0.8Yb0.2Cu2O8.26 Bi 2 Sr 2 Ca 0.8 Yb 0.2 Cu 2 O 8+Z 8.26 1990 2 3.821 30.657 K 91.2 91.2 SUBSTITUTION EFFECT OF RARE EARTH (R) FOR CA IN THE BI2SR2CA1-XRXCU2O8+Y SYSTEM 1990 "IONIC RADIUS ,TC" "INSTITUTE OF APPLIED PHYSICS AND CRYOGENICS CENTER,UNIVERSITYOF TSUKUBA, TSUKUBA, IBARAKI 305,JAPAN" "PHYSICA C,171(1990)315" "BI,SR,CA,CU,O,R," 2110 PHC1710287 EuBa2Cu3O7 Eu1Ba2Cu3O7-Z Eu 1 Ba 2 Cu 3 O 7-Z 1990 3 K 95.8 95.8 INVESTIGATION OF THE PRASEODYMIUM ROLE IN SUPERCONDUCTIVITY OF(EU1-XPRX)BA2CU3O7-Z AND RELATED COMPOUNDS 1990 "X-RAY ,RESISTIVITY ,MOSSBAUER" "INSTITUTE OF PHYSICS, JAGELLONIAN UNIVERSITY, REYMONTA 4,30-059 CRACOW,POLAND" "PHYSICA C,171(1990)287" "EU,PR,BA,CU,O" 2111 PHC1710287 DTC/DP IN K/GPA "(Eu,Pr)Ba2Cu3O7" Eu0.9Pr0.1Ba2Cu3O7-Z Eu 0.9 Pr 0.1 Ba 2 Cu 3 O 7-Z 1990 3 Y123 3.838 3.885 11.673 K 74 77.8 81.7 77.8 K/GPa 1 INVESTIGATION OF THE PRASEODYMIUM ROLE IN SUPERCONDUCTIVITY OF(EU1-XPRX)BA2CU3O7-Z AND RELATED COMPOUNDS 1990 "X-RAY ,RESISTIVITY ,MOSSBAUER" "INSTITUTE OF PHYSICS, JAGELLONIAN UNIVERSITY, REYMONTA 4,30-059 CRACOW,POLAND" "PHYSICA C,171(1990)287" "EU,PR,BA,CU,O" 2112 PHC1710287 "(Eu,Pr)Ba2Cu3O7" Eu0.8Pr0.2Ba2Cu3O7-Z Eu 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1990 3 3.843 3.885 11.68 K 48.3 53.5 60.2 53.5 INVESTIGATION OF THE PRASEODYMIUM ROLE IN SUPERCONDUCTIVITY OF(EU1-XPRX)BA2CU3O7-Z AND RELATED COMPOUNDS 1990 "X-RAY ,RESISTIVITY ,MOSSBAUER" "INSTITUTE OF PHYSICS, JAGELLONIAN UNIVERSITY, REYMONTA 4,30-059 CRACOW,POLAND" "PHYSICA C,171(1990)287" "EU,PR,BA,CU,O" 2113 PHC1710287 "(Eu,Pr)Ba2Cu3O7" Eu0.7Pr0.3Ba2Cu3O7-Z Eu 0.7 Pr 0.3 Ba 2 Cu 3 O 7-Z 1990 3 3.841 3.889 11.681 K 29.4 35.2 41.3 35.2 INVESTIGATION OF THE PRASEODYMIUM ROLE IN SUPERCONDUCTIVITY OF(EU1-XPRX)BA2CU3O7-Z AND RELATED COMPOUNDS 1990 "X-RAY ,RESISTIVITY ,MOSSBAUER" "INSTITUTE OF PHYSICS, JAGELLONIAN UNIVERSITY, REYMONTA 4,30-059 CRACOW,POLAND" "PHYSICA C,171(1990)287" "EU,PR,BA,CU,O" 2114 PHC1710287 "(Eu,Pr)Ba2Cu3O7" Eu0.65Pr0.35Ba2Cu3O7-Z Eu 0.65 Pr 0.35 Ba 2 Cu 3 O 7-Z 1990 3 K 10.4 19.1 26.5 19.1 INVESTIGATION OF THE PRASEODYMIUM ROLE IN SUPERCONDUCTIVITY OF(EU1-XPRX)BA2CU3O7-Z AND RELATED COMPOUNDS 1990 "X-RAY ,RESISTIVITY ,MOSSBAUER" "INSTITUTE OF PHYSICS, JAGELLONIAN UNIVERSITY, REYMONTA 4,30-059 CRACOW,POLAND" "PHYSICA C,171(1990)287" "EU,PR,BA,CU,O" 2115 PHC1710287 "(Eu,Pr)Ba2Cu3O7" Eu0.6Pr0.4Ba2Cu3O7-Z Eu 0.6 Pr 0.4 Ba 2 Cu 3 O 7-Z 1990 3 K 4.2 INVESTIGATION OF THE PRASEODYMIUM ROLE IN SUPERCONDUCTIVITY OF(EU1-XPRX)BA2CU3O7-Z AND RELATED COMPOUNDS 1990 "X-RAY ,RESISTIVITY ,MOSSBAUER" "INSTITUTE OF PHYSICS, JAGELLONIAN UNIVERSITY, REYMONTA 4,30-059 CRACOW,POLAND" "PHYSICA C,171(1990)287" "EU,PR,BA,CU,O" 2116 PHC1710287 "(Eu,Pr)Ba2Cu3O7" Eu0.5Pr0.5Ba2Cu3O7-Z Eu 0.5 Pr 0.5 Ba 2 Cu 3 O 7-Z 1990 3 K 4.2 INVESTIGATION OF THE PRASEODYMIUM ROLE IN SUPERCONDUCTIVITY OF(EU1-XPRX)BA2CU3O7-Z AND RELATED COMPOUNDS 1990 "X-RAY ,RESISTIVITY ,MOSSBAUER" "INSTITUTE OF PHYSICS, JAGELLONIAN UNIVERSITY, REYMONTA 4,30-059 CRACOW,POLAND" "PHYSICA C,171(1990)287" "EU,PR,BA,CU,O" 2117 PHC1710287 "(Eu,Pr)Ba2Cu3O7" Eu0.1Pr0.9Ba2Cu3O7-Z Eu 0.1 Pr 0.9 Ba 2 Cu 3 O 7-Z 1990 3 K 4.2 INVESTIGATION OF THE PRASEODYMIUM ROLE IN SUPERCONDUCTIVITY OF(EU1-XPRX)BA2CU3O7-Z AND RELATED COMPOUNDS 1990 "X-RAY ,RESISTIVITY ,MOSSBAUER" "INSTITUTE OF PHYSICS, JAGELLONIAN UNIVERSITY, REYMONTA 4,30-059 CRACOW,POLAND" "PHYSICA C,171(1990)287" "EU,PR,BA,CU,O" 2118 PHC1710523 "(La,Ca)2CaCu2O6" La1.9Ca1.1Cu2O6-Z La 1.9 Ca 1.1 Cu 2 O 6-Z 1 1990 2126 K 39.5 39.5 HIGH-PRESSURE SYNTHESIS OF SUPERCONDUCTING LA2-XCA1+XCU2O6-X/2+Z 1990 "SYNTHESIS ,MEISSNER VOLUME" "NTT BASIC RESEARCH LABORATORIES, MIDORI-CHO, MUSASHINO-SHI, TOKYO 180, JAPAN" "PHYSICA C,171(1990)523" "LA,CA,CU,O" 2119 PHC1710523 "(La,Ca)2CaCu2O6" La1.85Ca1.15Cu2O6-Z La 1.85 Ca 1.15 Cu 2 O 6-Z 1 1990 2126 38.2 19.419 K 45.5 45.5 HIGH-PRESSURE SYNTHESIS OF SUPERCONDUCTING LA2-XCA1+XCU2O6-X/2+Z 1990 "SYNTHESIS ,MEISSNER VOLUME" "NTT BASIC RESEARCH LABORATORIES, MIDORI-CHO, MUSASHINO-SHI, TOKYO 180, JAPAN" "PHYSICA C,171(1990)523" "LA,CA,CU,O" 2120 PHC1710523 "(La,Ca)2CaCu2O6" La1.75Ca1.25Cu2O5.99 La 1.75 Ca 1.25 Cu 2 O 6-Z 5.99 1 1990 2126 K 44.7 47.7 47.7 12 HIGH-PRESSURE SYNTHESIS OF SUPERCONDUCTING LA2-XCA1+XCU2O6-X/2+Z 1990 "SYNTHESIS ,MEISSNER VOLUME" "NTT BASIC RESEARCH LABORATORIES, MIDORI-CHO, MUSASHINO-SHI, TOKYO 180, JAPAN" "PHYSICA C,171(1990)523" "LA,CA,CU,O" 2121 PHC1710523 "(La,Ca)2CaCu2O6" La1.4Ca1.6Cu2O6-Z La 1.4 Ca 1.6 Cu 2 O 6-Z 2 1990 2126 K 47.7 47.7 HIGH-PRESSURE SYNTHESIS OF SUPERCONDUCTING LA2-XCA1+XCU2O6-X/2+Z 1990 "SYNTHESIS ,MEISSNER VOLUME" "NTT BASIC RESEARCH LABORATORIES, MIDORI-CHO, MUSASHINO-SHI, TOKYO 180, JAPAN" "PHYSICA C,171(1990)523" "LA,CA,CU,O" 2122 PHC1710223 PENET DEPENDS ON PARTICLE SIZE AND PARTICLE SHAPE YBa2Cu3O7 Y1Ba2Cu3O6.83 Y 1 Ba 2 Cu 3 O 7-Z 6.83 5 1990 3 Y123 3.83 3.88 11.16 K 1430 TEMPERATURE DEPENDENCE OF THE MAGNETIC FIELD PENETRATION DEPTHIN YBA2CU3O7-Z MEASURED ON ULTRA FINE POWDER 1990 "PENETRATION DEPTH ,SUSCEPTIBILITY ,FINE POWDER" "INSTITUTE OF SOLID STATE PHYSICS, ACADEMY OF THE USSR, CHERNOGOLOVKA, MOSCOW DISTRICT, 142432, USSR" "PHYSICA C,171(1990)223" "Y,BA,CU,O" 2123 JJP0261304 LaBa2Cu3O7 La1Ba2Cu3OX La 1 Ba 2 Cu 3 O X 1 1987 3 K 62.5 69 15 62.5 2.1 5.4 Structure and Upper Critical Fields of High Tc Superconductors (RE)Ba2Cu3Ox 1987 "The Institute for Solid State Physics, The University of Tokyo, Roppongi, Minato-ku, Tokyo 106" "Jpn. J.Appl.Phys., 26(1987)L1304" 2124 JJP0261304 NdBa2Cu3O7 Nd1Ba2Cu3OX Nd 1 Ba 2 Cu 3 O X 1 1987 3 K 93.6 94.6 2.3 93.6 2 0.69 Structure and Upper Critical Fields of High Tc Superconductors (RE)Ba2Cu3Ox 1987 "The Institute for Solid State Physics, The University of Tokyo, Roppongi, Minato-ku, Tokyo 106" "Jpn. J.Appl.Phys., 26(1987)L1304" 2125 JJP0261304 SmBa2Cu3O7 Sm1Ba2Cu3OX Sm 1 Ba 2 Cu 3 O X 1 1987 3 K 94.2 94.6 1 94.2 2.1 0.43 Structure and Upper Critical Fields of High Tc Superconductors (RE)Ba2Cu3Ox 1987 "The Institute for Solid State Physics, The University of Tokyo, Roppongi, Minato-ku, Tokyo 106" "Jpn. J.Appl.Phys., 26(1987)L1304" 2126 JJP0261304 EuBa2Cu3O7 Eu1Ba2Cu3OX Eu 1 Ba 2 Cu 3 O X 1 1987 3 K 93.9 94.4 2.6 93.9 2 1.5 Structure and Upper Critical Fields of High Tc Superconductors (RE)Ba2Cu3Ox 1987 "The Institute for Solid State Physics, The University of Tokyo, Roppongi, Minato-ku, Tokyo 106" "Jpn. J.Appl.Phys., 26(1987)L1304" 2127 JJP0261304 GdBa2Cu3O7 Gd1Ba2Cu3OX Gd 1 Ba 2 Cu 3 O X 1 1987 3 K 93.6 93.9 0.6 93.6 2.9 0.35 Structure and Upper Critical Fields of High Tc Superconductors (RE)Ba2Cu3Ox 1987 "The Institute for Solid State Physics, The University of Tokyo, Roppongi, Minato-ku, Tokyo 106" "Jpn. J.Appl.Phys., 26(1987)L1304" 2128 JJP0261304 DyBa2Cu3O7 Dy1Ba2Cu3OX Dy 1 Ba 2 Cu 3 O X 1 1987 3 K 91.8 92.3 2 91.8 2.7 0.68 Structure and Upper Critical Fields of High Tc Superconductors (RE)Ba2Cu3Ox 1987 "The Institute for Solid State Physics, The University of Tokyo, Roppongi, Minato-ku, Tokyo 106" "Jpn. J.Appl.Phys., 26(1987)L1304" 2129 JJP0261304 HoBa2Cu3O7 Ho1Ba2Cu3OX Ho 1 Ba 2 Cu 3 O X 1 1987 3 K 91.7 92.3 2.5 91.7 2.6 0.84 Structure and Upper Critical Fields of High Tc Superconductors (RE)Ba2Cu3Ox 1987 "The Institute for Solid State Physics, The University of Tokyo, Roppongi, Minato-ku, Tokyo 106" "Jpn. J.Appl.Phys., 26(1987)L1304" 2130 JJP0261304 ErBa2Cu3O7 Er1Ba2Cu3OX Er 1 Ba 2 Cu 3 O X 1 1987 3 K 91.4 92.3 1.5 91.4 2 0.73 Structure and Upper Critical Fields of High Tc Superconductors (RE)Ba2Cu3Ox 1987 "The Institute for Solid State Physics, The University of Tokyo, Roppongi, Minato-ku, Tokyo 106" "Jpn. J.Appl.Phys., 26(1987)L1304" 2131 JJP0261304 TmBa2Cu3O7 Tm1Ba2Cu3OX Tm 1 Ba 2 Cu 3 O X 1 1987 3 K 90.2 91 1.9 90.2 2.1 0.36 Structure and Upper Critical Fields of High Tc Superconductors (RE)Ba2Cu3Ox 1987 "The Institute for Solid State Physics, The University of Tokyo, Roppongi, Minato-ku, Tokyo 106" "Jpn. J.Appl.Phys., 26(1987)L1304" 2132 JJP0261304 YbBa2Cu3O7 Yb1Ba2Cu3OX Yb 1 Ba 2 Cu 3 O X 1 1987 3 K 88.7 89.8 2.3 88.7 2.4 0.6 Structure and Upper Critical Fields of High Tc Superconductors (RE)Ba2Cu3Ox 1987 "The Institute for Solid State Physics, The University of Tokyo, Roppongi, Minato-ku, Tokyo 106" "Jpn. J.Appl.Phys., 26(1987)L1304" 2133 JJP0261304 LuBa2Cu3O7 Lu1Ba2Cu3OX Lu 1 Ba 2 Cu 3 O X 1 1987 3 K 86.9 88.7 3 86.9 2.4 0.64 Structure and Upper Critical Fields of High Tc Superconductors (RE)Ba2Cu3Ox 1987 "The Institute for Solid State Physics, The University of Tokyo, Roppongi, Minato-ku, Tokyo 106" "Jpn. J.Appl.Phys., 26(1987)L1304" 2134 PHC1710331 "ALMOST SINGLE PHASE,KAI=EMU/G" Pb2Sr2YCu3O8 Pb2Sr2Y1Cu3O8 Pb 2 Sr 2 Y 1 Cu 3 O 8 8 1990 3 5.407 5.448 15.731 K 4.2 0.000000256 NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZII.DEPENDENCE ON THE OXYGEN CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS, FACULTY OF ENGINEERING, TOHOKUUNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,171(1990)331" "PB,SR,Y,CA,CU,O" 2135 PHC1710331 "ALMOST SINGLE PHASE,KAI=EMU/G" Pb2Sr2YCu3O8 Pb2Sr2Y1Cu3O8.5 Pb 2 Sr 2 Y 1 Cu 3 O 8.5 8.5 1990 3 5.419 5.457 15.848 K 4.2 0.0000285 NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZII.DEPENDENCE ON THE OXYGEN CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS, FACULTY OF ENGINEERING, TOHOKUUNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,171(1990)331" "PB,SR,Y,CA,CU,O" 2136 PHC1710331 "ALMOST SINGLE PHASE,KAI=EMU/G" Pb2Sr2YCu3O8 Pb2Sr2Y1Cu3O8.8 Pb 2 Sr 2 Y 1 Cu 3 O 8.8 8.8 1990 3 Pb3212 5.412 5.459 15.933 K 4.2 0.0000856 NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZII.DEPENDENCE ON THE OXYGEN CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS, FACULTY OF ENGINEERING, TOHOKUUNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,171(1990)331" "PB,SR,Y,CA,CU,O" 2137 PHC1710331 "ALMOST SINGLE PHASE,KAI=EMU/G" "Pb2Sr2(Y,Ca)Cu3O8" Pb2Sr2Y0.5Ca0.5Cu3O8 Pb 2 Sr 2 Y 0.5 Ca 0.5 Cu 3 O 8 8 1990 emu/g 0.00000017 3 Pb3212 5.398 5.434 15.825 K 78.4 78.4 1.18E-08 NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZII.DEPENDENCE ON THE OXYGEN CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS, FACULTY OF ENGINEERING, TOHOKUUNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,171(1990)331" "PB,SR,Y,CA,CU,O" 2138 PHC1710331 "ALMOST SINGLE PHASE,KAI=EMU/G" "Pb2Sr2(Y,Ca)Cu3O8" Pb2Sr2Y0.5Ca0.5Cu3O8.6 Pb 2 Sr 2 Y 0.5 Ca 0.5 Cu 3 O 8.6 8.6 1990 emu/g 0.00000036 3 Pb3212 5.408 5.438 15.848 K 65 65 0.000000331 NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZII.DEPENDENCE ON THE OXYGEN CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS, FACULTY OF ENGINEERING, TOHOKUUNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,171(1990)331" "PB,SR,Y,CA,CU,O" 2139 PHC1710331 "ALMOST SINGLE PHASE,KAI=EMU/G" "Pb2Sr2(Y,Ca)Cu3O8" Pb2Sr2Y0.5Ca0.5Cu3O9 Pb 2 Sr 2 Y 0.5 Ca 0.5 Cu 3 O 9 9 1990 Pb3212 15.99 K 4.2 0.00000765 NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZII.DEPENDENCE ON THE OXYGEN CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS, FACULTY OF ENGINEERING, TOHOKUUNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,171(1990)331" "PB,SR,Y,CA,CU,O" 2140 PHC1710331 "ALMOST SINGLE PHASE,KAI=EMU/G" "Pb2Sr2(Y,Ca)Cu3O8" Pb2Sr2Y0.5Ca0.5Cu3O9.47 Pb 2 Sr 2 Y 0.5 Ca 0.5 Cu 3 O 9.47 9.47 1990 2 Pb3212 5.47 15.002 K 4.2 0.00011 NORMAL AND SUPERCONDUCTING PROPERTIES OF PB2SR2Y1-XCAXCU3O8+ZII.DEPENDENCE ON THE OXYGEN CONCENTRATION 1990 "DEPARTMENT OF APPLIED PHYSICS, FACULTY OF ENGINEERING, TOHOKUUNIVERSITY, ARAMAKI AOBA, AOBA-KU, SENDAI 980, JAPAN" "PHYSICA C,171(1990)331" "PB,SR,Y,CA,CU,O" 2141 PRB0363917 LORENTZ NO.=2.45E-8W.OHM./K YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 2 1987 K 86 5 86 THC2141 19 THERMAL CONDUCTIVITY OF SUPERCONDUCTIVE Y-BA-CU-O 1987 9 THERMAL CONDUCTIVITY "PHYSICS DEPARTMENT,GENERAL MOTORS RESEARCH LABORATORIES,WARREN,MICHIGAN" "PHYS.REV.B,36(1987)3917" "Y,BA,CU,O" 2142 PRB0368786 THC VARIES AS T**2 FOR T<0.3K YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1987 4.43 K 87 91.6 2.6 91.6 THC2142 LOW-TEMPERATURE THERMAL CONDUCTIVITY OF Y(1)BA(2)CU(3)O(7-Z) 1987 12 THERMAL CONDUCTIVITY "DEPARTMENT OF PHYSICS AND MATERIALS RESEARCH LABORATORY,UNIVERSITY OF ILLINOIS AT URBANA-CHAMPAIGN" "PHYS.REV.B,36(1987)8786" "Y,BA,CU,O" 2143 PRB0368813 "SDW=150K,SOUND VELOCITY=4E+5CM/S" La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 1987 3 T K 300 THC2143 ANOMALOUS THERMAL CONDUCTIVITY OF LA(2-X)SR(X)CU(1)O(4): POSSIBILITY OF A POLARONIC GLASS 1987 12 "THERMAL ,CONDUCTIVITY" "CENTRO ATOMICO BARILOCHE,COMISION NACIONAL DE ENERGIA ATOMICA,ARGENTINA" "PHYS.REV.B,36(1987)8813" "LA,SR,CU,O" 2144 PRB0368813 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1987 K 35.5 2 35.5 THC2144 ANOMALOUS THERMAL CONDUCTIVITY OF LA(2-X)SR(X)CU(1)O(4): POSSIBILITY OF A POLARONIC GLASS 1987 12 "THERMAL ,CONDUCTIVITY" "CENTRO ATOMICO BARILOCHE,COMISION NACIONAL DE ENERGIA ATOMICA,ARGENTINA" "PHYS.REV.B,36(1987)8813" "LA,SR,CU,O" 2145 PRB0365680 LORENTZ NO.=2.45E-8V**2/K**2 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1987 Y123 K 90.5 90.5 4.5 THC2145 2.3 TP2145 THERMAL TRANSPORT PROPERTIES OF Y(1)BA(2)CU(3)O(7) SUPERCONDUCTORS 1987 10 "THERMAL CONDUCTIVITY ,THERMOPOWER ,HALL EFFECT ,RE" "MAX-PLANCK-INSTITUT FUR FESTKORPERFORSCHUNG,FEDERAL REPUBLIC OF GERMANY AND PHYSICS DEPARTMENT,THE UNIVERSITY OF MICHIGAN,ANN ARBOR,MICHIGAN" "PHYS.REV.B,36(1987)5680" "Y,BA,CU,O" 2146 SSC0630983 YBa2Cu3O7 Y1.04Ba1.96Cu3O6.8 Y 1.04 Ba 1.96 Cu 3 O 6.8 6.8 1 1987 Y123 K 90 90.6 1 90.6 2.31 THC2146 5.62 TP2146 STRONG ELECTRON-PHONON COUPLING FROM THERMAL CONDUCTIVITY MEASUREMENTS IN A YBA2CU3O7-TYPE SUPERCONDUCTING COMPOUND 1987 "SOLID STATE COMMUN.,63(1987)983" "Y,BA,CU,O" 2147 PRB0407310 "R NOT GO TO ZERO AT 4.2K,TEP HAVE + SIGN CONTRAST TAKAGI ET.AL" "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-Z Nd 1.85 Ce 0.15 Cu 1 O 4-Z 1989 T' K 24 24 0.96 TP2147 THERMOELECTRIC POWER OF ND1.85CE0.15CUO4-Y AND PR1.85CE0.15CUO4-Y 1989 10 "THEMOELECTRIC POWER ,RESISTANCE" "PHYSICS DIVISION,RESEARCH INSTITUTE OF INDUSTRIAL SCIENCE ANDTECHNOLOGY,POHANG,790-330,KOREA" "PHYS.REV.B,40(1989)7310" "ND,CE,CU,O,PR" 2148 PRB0407310 "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4-Z Pr 1.85 Ce 0.15 Cu 1 O 4-Z 1989 Y123 K 7 23 23 0.12 TP2148 THERMOELECTRIC POWER OF ND1.85CE0.15CUO4-Y AND PR1.85CE0.15CUO4-Y 1989 10 "THEMOELECTRIC POWER ,RESISTANCE" "PHYSICS DIVISION,RESEARCH INSTITUTE OF INDUSTRIAL SCIENCE ANDTECHNOLOGY,POHANG,790-330,KOREA" "PHYS.REV.B,40(1989)7310" "ND,CE,CU,O,PR" 2149 SSC0681011 YBa2Cu3O7 Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 7-Z 6.9 1 1988 3 Y123 3.821 3.887 11.666 K 92 92 6 TP2500 1.1 "NITRATES OF Y,BA,CU" 1 CRYO-CHEMICAL TECHNOLOGY THERMOELECTRIC POWER OF Y(1)BA(2)CU(3)O(X) SUPERCONDUCTORS 1988 12 "THERMO POWER ,OXYGEN CONTENT" INSTITUTE OF ATOMIC ENERGY MOSCOW "SOLID STATE COMMUN.,68(1988)1011" "Y,BA,CU,O" 2150 SSC0681011 YBa2Cu3O7 Y1Ba2Cu3O6.7 Y 1 Ba 2 Cu 3 O 7-Z 6.7 1 1988 3 Y123 3.822 3.881 11.701 K 56 56 22 TP2501 4 "NITRATES OF Y,BA,CU" 1 CRYO-CHEMICAL TECHNOLOGY THERMOELECTRIC POWER OF Y(1)BA(2)CU(3)O(X) SUPERCONDUCTORS 1988 12 "THERMO POWER ,OXYGEN CONTENT" INSTITUTE OF ATOMIC ENERGY MOSCOW "SOLID STATE COMMUN.,68(1988)1011" "Y,BA,CU,O" 2151 SSC0681011 YBa2Cu3O7 Y1Ba2Cu3O6.3 Y 1 Ba 2 Cu 3 O 7-Z 6.3 1 1988 2 Y123 3.858 11.786 K 200 118 "NITRATES OF Y,BA,CU" 1 CRYO-CHEMICAL TECHNOLOGY THERMOELECTRIC POWER OF Y(1)BA(2)CU(3)O(X) SUPERCONDUCTORS 1988 12 "THERMO POWER ,OXYGEN CONTENT" INSTITUTE OF ATOMIC ENERGY MOSCOW "SOLID STATE COMMUN.,68(1988)1011" "Y,BA,CU,O" 2152 PRB0387160 "2*2*0.08MM3,CRES HAS SHALLOW MINIMUM NEAR 150K" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 3 1988 Y123 K 91 91 9.6 TP2152 0.05 0.15 ANISOTROPIC THERMOPOWER IN SINGLE CRYSTALS OF THE HIGH-Tc SUPERCONDUCTOR Y(1)BA(2)CU(3)O(7) 1988 10 "THERMOPOWER ,SINGLE CRYSTAL" "JOSEPH HENRY LABORATORIES,PRINCETON UNIVERSITY,NEW JERSEY" "PHYS.REV.B,38(1988)7160" "Y,BA,CU,O" 2153 PR0387160 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 3 1988 Y123 K 92 92 2.75 TP2153 Anisotoropic thermopower in single crystals of the high-Tc superconductor YBa2Cu3O7 1988 "Joseph Henry Laboratories, Princeton University, Princeton, New Jersey 08544" "Phys.Rev.B,38(1988)7106" 2154 PLA1310203 YBa2Cu3O7 Y1Ba2Cu3O6.94 Y 1 Ba 2 Cu 3 O Z 6.94 1988 Y123 K 91.7 91.7 -3.11 TP2154 0.2 0.7 RESISTIVITY AND THERMOELECTRIC POWER IN Y(1)BA(2)CU(3)O(X) SAMPLES WITH DIFFERENT OXYGEN CONTENT 1988 8 "RESISTIVITY ,THERMOPOWER ,OXYGEN CONTENT ,HA" "URAL DIVISION OF THE USSR ACADEMY OF SCIENCES,SVERDLOVSK,USSR" "PHYS.LETT.A,131(1988)203" "Y,BA,CU,O" 2155 PLA1310203 YBa2Cu3O7 Y1Ba2Cu3O6.85 Y 1 Ba 2 Cu 3 O Z 6.85 1988 Y123 K 90.9 90.9 -2.66 TP2155 1.1 RESISTIVITY AND THERMOELECTRIC POWER IN Y(1)BA(2)CU(3)O(X) SAMPLES WITH DIFFERENT OXYGEN CONTENT 1988 8 "RESISTIVITY ,THERMOPOWER ,OXYGEN CONTENT ,HA" "URAL DIVISION OF THE USSR ACADEMY OF SCIENCES,SVERDLOVSK,USSR" "PHYS.LETT.A,131(1988)203" "Y,BA,CU,O" 2156 PLA1310203 YBa2Cu3O7 Y1Ba2Cu3O6.65 Y 1 Ba 2 Cu 3 O Z 6.65 1988 Y123 K 79.3 79.3 7.5 TP2156 2.1 RESISTIVITY AND THERMOELECTRIC POWER IN Y(1)BA(2)CU(3)O(X) SAMPLES WITH DIFFERENT OXYGEN CONTENT 1988 8 "RESISTIVITY ,THERMOPOWER ,OXYGEN CONTENT ,HA" "URAL DIVISION OF THE USSR ACADEMY OF SCIENCES,SVERDLOVSK,USSR" "PHYS.LETT.A,131(1988)203" "Y,BA,CU,O" 2157 PLA1310203 YBa2Cu3O7 Y1Ba2Cu3O6.55 Y 1 Ba 2 Cu 3 O Z 6.55 1988 Y123 K 58.3 58.3 21.1 TP2157 3.9 RESISTIVITY AND THERMOELECTRIC POWER IN Y(1)BA(2)CU(3)O(X) SAMPLES WITH DIFFERENT OXYGEN CONTENT 1988 8 "RESISTIVITY ,THERMOPOWER ,OXYGEN CONTENT ,HA" "URAL DIVISION OF THE USSR ACADEMY OF SCIENCES,SVERDLOVSK,USSR" "PHYS.LETT.A,131(1988)203" "Y,BA,CU,O" 2158 PLA1310203 YBa2Cu3O7 Y1Ba2Cu3O6.45 Y 1 Ba 2 Cu 3 O Z 6.45 1988 Y123 K 52.5 52.5 37.4 TP2158 3.3 RESISTIVITY AND THERMOELECTRIC POWER IN Y(1)BA(2)CU(3)O(X) SAMPLES WITH DIFFERENT OXYGEN CONTENT 1988 8 "RESISTIVITY ,THERMOPOWER ,OXYGEN CONTENT ,HA" "URAL DIVISION OF THE USSR ACADEMY OF SCIENCES,SVERDLOVSK,USSR" "PHYS.LETT.A,131(1988)203" "Y,BA,CU,O" 2159 PLA1310203 YBa2Cu3O7 Y1Ba2Cu3O6.36 Y 1 Ba 2 Cu 3 O Z 6.36 1988 Y123 K 8.3 8.3 72.8 TP2159 3.58 RESISTIVITY AND THERMOELECTRIC POWER IN Y(1)BA(2)CU(3)O(X) SAMPLES WITH DIFFERENT OXYGEN CONTENT 1988 8 "RESISTIVITY ,THERMOPOWER ,OXYGEN CONTENT ,HA" "URAL DIVISION OF THE USSR ACADEMY OF SCIENCES,SVERDLOVSK,USSR" "PHYS.LETT.A,131(1988)203" "Y,BA,CU,O" 2160 PLA1310203 YBa2Cu3O7 Y1Ba2Cu3O6.15 Y 1 Ba 2 Cu 3 O Z 6.15 1988 Y123 K 128 TP2160 14.9 RESISTIVITY AND THERMOELECTRIC POWER IN Y(1)BA(2)CU(3)O(X) SAMPLES WITH DIFFERENT OXYGEN CONTENT 1988 8 "RESISTIVITY ,THERMOPOWER ,OXYGEN CONTENT ,HA" "URAL DIVISION OF THE USSR ACADEMY OF SCIENCES,SVERDLOVSK,USSR" "PHYS.LETT.A,131(1988)203" "Y,BA,CU,O" 2161 PLA1310203 YBa2Cu3O7 Y1Ba2Cu3O6 Y 1 Ba 2 Cu 3 O Z 6 1988 Y123 K 228 TP2161 5300 30.6 RESISTIVITY AND THERMOELECTRIC POWER IN Y(1)BA(2)CU(3)O(X) SAMPLES WITH DIFFERENT OXYGEN CONTENT 1988 8 "RESISTIVITY ,THERMOPOWER ,OXYGEN CONTENT ,HA" "URAL DIVISION OF THE USSR ACADEMY OF SCIENCES,SVERDLOVSK,USSR" "PHYS.LETT.A,131(1988)203" "Y,BA,CU,O" 2162 PRB0379734 "0.75*0.75*0.15MM3,TEP ALONG C-AXIS" YBa2Cu3O7 Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 3 1988 Y123 K 81 81 7 TP2162 ANISOTROPIC THERMOELECTRIC POWER AND CONDUCTIVITY IN SINGLE-CRYSTAL Y(1)BA(2)CU(3)O(Y) 1988 6 "THERMOPOWER ,ELECTRICAL CONDUCTIVITY ,SINGLE C" "DEPARTMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA,AND MATERIALS AND CHEMICAL SCIENCES DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA" "PHYS.REV.B,37(1988)9734" "Y,BA,CU,O" 2163 PRB0379734 TEP ALONG AB-PLANE YBa2Cu3O7 Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 3 1988 Y123 K 81 81 13.5 TP2163 ANISOTROPIC THERMOELECTRIC POWER AND CONDUCTIVITY IN SINGLE-CRYSTAL Y(1)BA(2)CU(3)O(Y) 1988 6 "THERMOPOWER ,ELECTRICAL CONDUCTIVITY ,SINGLE C" "DEPARTMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA,AND MATERIALS AND CHEMICAL SCIENCES DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA" "PHYS.REV.B,37(1988)9734" "Y,BA,CU,O" 2164 PRB0379734 POLYCRYSTAL YBa2Cu3O7 Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 1 1988 Y123 K 91 91 6.3 TP2164 ANISOTROPIC THERMOELECTRIC POWER AND CONDUCTIVITY IN SINGLE-CRYSTAL Y(1)BA(2)CU(3)O(Y) 1988 6 "THERMOPOWER ,ELECTRICAL CONDUCTIVITY ,SINGLE C" "DEPARTMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA,AND MATERIALS AND CHEMICAL SCIENCES DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA" "PHYS.REV.B,37(1988)9734" "Y,BA,CU,O" 2165 PRB0372285 ErBa2Cu3O7 Er1Ba2Cu3O7 Er 1 Ba 2 Cu 3 O 7 1988 Y123 3.821 3.895 11.705 K 88.8 91.1 93.2 2.8 91.1 -3 THERMOELECTRIC POWER AND SUPERCONDUCTING PROPERTIES OF Y(1)BA(2)CU(3)O(7-Z) AND R(1)BA(2)CU(3)O(7-Z) 1988 2 THERMOPOWER "DEPARTMENT OF PHYSICS,SEOUL NATIONAL UNIVERSITY,SEOUL,KOREA" "PHYS.REV.B,37(1988)2285" "R,BA,CU,O" 2166 PRB0372285 TmBa2Cu3O7 Tm1Ba2Cu3O7 Tm 1 Ba 2 Cu 3 O 7 1988 Y123 3.844 3.915 11.783 K 89.4 92.1 94.6 2.5 92.1 -2.2 THERMOELECTRIC POWER AND SUPERCONDUCTING PROPERTIES OF Y(1)BA(2)CU(3)O(7-Z) AND R(1)BA(2)CU(3)O(7-Z) 1988 2 THERMOPOWER "DEPARTMENT OF PHYSICS,SEOUL NATIONAL UNIVERSITY,SEOUL,KOREA" "PHYS.REV.B,37(1988)2285" "R,BA,CU,O" 2167 PRB0372285 YbBa2Cu3O7 Yb1Ba2Cu3O7 Yb 1 Ba 2 Cu 3 O 7 1988 Y123 3.828 3.906 11.746 K 91.7 96.1 97.8 2.5 96.1 -4.9 TP2167 THERMOELECTRIC POWER AND SUPERCONDUCTING PROPERTIES OF Y(1)BA(2)CU(3)O(7-Z) AND R(1)BA(2)CU(3)O(7-Z) 1988 2 THERMOPOWER "DEPARTMENT OF PHYSICS,SEOUL NATIONAL UNIVERSITY,SEOUL,KOREA" "PHYS.REV.B,37(1988)2285" "R,BA,CU,O" 2168 PRB0372285 LuBa2Cu3O7 Lu1Ba2Cu3O7 Lu 1 Ba 2 Cu 3 O 7 1988 Y123 3.797 3.879 11.663 K 89.8 92.4 95.8 4 92.4 -4.7 THERMOELECTRIC POWER AND SUPERCONDUCTING PROPERTIES OF Y(1)BA(2)CU(3)O(7-Z) AND R(1)BA(2)CU(3)O(7-Z) 1988 2 THERMOPOWER "DEPARTMENT OF PHYSICS,SEOUL NATIONAL UNIVERSITY,SEOUL,KOREA" "PHYS.REV.B,37(1988)2285" "R,BA,CU,O" 2169 PRB0372285 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1988 Y123 3.815 3.891 11.673 K 92.2 94 95.5 2 94 -2.7 THERMOELECTRIC POWER AND SUPERCONDUCTING PROPERTIES OF Y(1)BA(2)CU(3)O(7-Z) AND R(1)BA(2)CU(3)O(7-Z) 1988 2 THERMOPOWER "DEPARTMENT OF PHYSICS,SEOUL NATIONAL UNIVERSITY,SEOUL,KOREA" "PHYS.REV.B,37(1988)2285" "R,BA,CU,O" 2170 PRB0372285 SmBa2Cu3O7 Sm1Ba2Cu3O7 Sm 1 Ba 2 Cu 3 O 7 1988 Y123 3.87 3.893 11.727 K 61 73 85 12 73 21.9 THERMOELECTRIC POWER AND SUPERCONDUCTING PROPERTIES OF Y(1)BA(2)CU(3)O(7-Z) AND R(1)BA(2)CU(3)O(7-Z) 1988 2 THERMOPOWER "DEPARTMENT OF PHYSICS,SEOUL NATIONAL UNIVERSITY,SEOUL,KOREA" "PHYS.REV.B,37(1988)2285" "R,BA,CU,O" 2171 PRB0372285 NdBa2Cu3O7 Nd1Ba2Cu3O7 Nd 1 Ba 2 Cu 3 O 7 1988 Y123 3.869 3.92 11.78 K 86 93.5 96.7 5.5 93.5 8.8 THERMOELECTRIC POWER AND SUPERCONDUCTING PROPERTIES OF Y(1)BA(2)CU(3)O(7-Z) AND R(1)BA(2)CU(3)O(7-Z) 1988 2 THERMOPOWER "DEPARTMENT OF PHYSICS,SEOUL NATIONAL UNIVERSITY,SEOUL,KOREA" "PHYS.REV.B,37(1988)2285" "R,BA,CU,O" 2172 PRB0372285 EuBa2Cu3O7 Eu1Ba2Cu3O7 Eu 1 Ba 2 Cu 3 O 7 1988 Y123 3.859 3.914 11.753 K 70 82.2 86.5 7 82.2 1.6 THERMOELECTRIC POWER AND SUPERCONDUCTING PROPERTIES OF Y(1)BA(2)CU(3)O(7-Z) AND R(1)BA(2)CU(3)O(7-Z) 1988 2 THERMOPOWER "DEPARTMENT OF PHYSICS,SEOUL NATIONAL UNIVERSITY,SEOUL,KOREA" "PHYS.REV.B,37(1988)2285" "R,BA,CU,O" 2173 PRB0372285 GdBa2Cu3O7 Gd1Ba2Cu3O7 Gd 1 Ba 2 Cu 3 O 7 1988 Y123 3.84 3.914 11.743 K 94.4 95.7 96.6 1.2 95.7 3.4 TP2173 THERMOELECTRIC POWER AND SUPERCONDUCTING PROPERTIES OF Y(1)BA(2)CU(3)O(7-Z) AND R(1)BA(2)CU(3)O(7-Z) 1988 2 THERMOPOWER "DEPARTMENT OF PHYSICS,SEOUL NATIONAL UNIVERSITY,SEOUL,KOREA" "PHYS.REV.B,37(1988)2285" "R,BA,CU,O" 2174 PRB0372285 DyBa2Cu3O7 Dy1Ba2Cu3O7 Dy 1 Ba 2 Cu 3 O 7 1988 Y123 3.834 3.905 11.726 K 93.4 95.1 96.1 1.3 95.1 -1.2 THERMOELECTRIC POWER AND SUPERCONDUCTING PROPERTIES OF Y(1)BA(2)CU(3)O(7-Z) AND R(1)BA(2)CU(3)O(7-Z) 1988 2 THERMOPOWER "DEPARTMENT OF PHYSICS,SEOUL NATIONAL UNIVERSITY,SEOUL,KOREA" "PHYS.REV.B,37(1988)2285" "R,BA,CU,O" 2175 PRB0372285 HoBa2Cu3O7 Ho1Ba2Cu3O7 Ho 1 Ba 2 Cu 3 O 7 1988 Y123 3.831 3.897 11.7 K 88.8 91.3 93.5 2.5 91.3 -2.7 THERMOELECTRIC POWER AND SUPERCONDUCTING PROPERTIES OF Y(1)BA(2)CU(3)O(7-Z) AND R(1)BA(2)CU(3)O(7-Z) 1988 2 THERMOPOWER "DEPARTMENT OF PHYSICS,SEOUL NATIONAL UNIVERSITY,SEOUL,KOREA" "PHYS.REV.B,37(1988)2285" "R,BA,CU,O" 2176 PRB0368881 GdBa2Cu3O7 Gd1Ba2Cu3O7 Gd 1 Ba 2 Cu 3 O 7 1987 Y123 K 90 90 10.5 TP2176 THERMOPOWER OF Y(1)BA(2)CU(3)O(7) AND RELATED SUPERCONDUCTING OXIDES 1987 12 "THERMOPOWER ,RESISTIVITY" "DEPARTMENT,VICTORIA UNIVERSITY OF WELLINGTON,PRIVATE BAG,WELLINGTON,NEW ZEALAND" "PHYS.REV.B,36(1987)8881" "Y,BA,CU,O" 2177 SSC0641285 RH300=2.6*E-11 V.CM/A.OE YBa2Cu3O7 Y1Ba2Cu3O6.88 Y 1 Ba 2 Cu 3 O 6.5+Z 6.88 1987 Y123 3.824 3.889 11.694 K 90.6 90.6 4.2 TP2177 1.05 NORMAL STATE THERMOPOWER OF THE HIGH TEMPERATURE SUPERCONDUCTOR Y(1)BA(2)CU(3)O(6.5+Z) 1987 11 "INSTITUTE FOR LOW TEMPERATURE AND STRUCTURE RESEARCH,POLISH ACADEMY OF SCIENCES,PL.KATEDRALNY,POLAND" "SOLID STATE COMMUN.,64(1987)1285" "Y,BA,CU,O" 2178 MPL0020923 Tl2Ba2Ca2Cu3O10 Tl2Ca2Ba2Cu3O10 Tl 2 Ca 2 Ba 2 Cu 3 O 10 1988 Tl2223 K 114.9 125 119.95 2.5 TP2178 10 SUPERCONDUCTIVITY AND THERMOELECTRIC POWER IN TL(2)CA(2)BA(2)CU(3)O(10) AND TL(1)CA(3)BA(1)CU(3)O(9) 1988 8 "SYNTHESIS ,TEP ,RES ,SU" "DEPT.QUIMICA,ICEN-LNETI,P-2686 SACAVE CODEX,PORTUGAL" "MOD.PHYS.LETT.B,2(1988)923" "TL,CA,BA,CU,O" 2179 MPL0020923 Th1Ca3Ba1Cu3O9 Th 1 Ca 3 Ba 1 Cu 3 O 9 1988 K 122 127 124.5 1.75 TP2179 25 SUPERCONDUCTIVITY AND THERMOELECTRIC POWER IN TL(2)CA(2)BA(2)CU(3)O(10) AND TL(1)CA(3)BA(1)CU(3)O(9) 1988 8 "SYNTHESIS ,TEP ,RES ,SU" "DEPT.QUIMICA,ICEN-LNETI,P-2686 SACAVE CODEX,PORTUGAL" "MOD.PHYS.LETT.B,2(1988)923" "TL,CA,BA,CU,O" 2180 PR0414002 YBa2Cu3O7 Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 1 1990 5 3 Y123 K 93 93 6 TP2180 1 "THERMOPOWER OF RBA2CU3O7-X (R=Y,ER)" 1990 3 "THERMOPOWER ,RESISTANCE" "PHYSICS DEPARTMENT, TEXAS A&M UNIVERSITY, COLLEGE STATION, TEXAS 77843" "PHYS.REV.B,41(1990)4002" "Y,ER,BA,CU,O" 2181 PR0414002 NON-ZERO BELOW TC BY AG-LEAD ErBa2Cu3O7 Er1Ba2Cu3OZ Er 1 Ba 2 Cu 3 O Z 1 1990 5.8 3 Y123 K 90 90 5.5 TP2181 3 "THERMOPOWER OF RBA2CU3O7-X (R=Y,ER)" 1990 3 "THERMOPOWER ,RESISTANCE" "PHYSICS DEPARTMENT, TEXAS A&M UNIVERSITY, COLLEGE STATION, TEXAS 77843" "PHYS.REV.B,41(1990)4002" "Y,ER,BA,CU,O" 2182 PR0419551 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1990 Bi2212 K 83 83 1 K/GPa 1.5 0.15 0.006 HIGH-PRESSURE STYDY OF BI2SR2CACU2O8 SINGLE CRYSTALS 1990 5 "INSTITUTE OF PHYSICS OF THE UNIVERSITY, BIJENICKA CESTA 46, P.O. BOX 304, 41001 ZAGREB, YUGOSLAVIA" "PHYS.REV.B,41(1990)9551" "BI,SR,CA,CU,O" 2183 PR0418757 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.94Zn0.06O7-Z Y 1 Ba 2 Cu 2.94 Zn 0.06 O 7-Z 1990 Y123 K 69 69 3 K/GPa 1 "SUPERCONDUCTIVITY UNDER HIGH PRESSURE OF YBA2(CU1-XMX)3O7-Z(M=FE,CO,AL,CR,NI, AND ZN)" 1990 5 "PHYSICS DEPARTMENT, VIRGINIA COMMONWEALTH UNIVERSITY, RICHMOND, VIRGINIA 23284" "PHYS.REV.B,41(1990)8757" "Y,BA,CU,O,FE,CO,AL,CR,NI,ZN" 2184 PR0418757 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.88Zn0.12O7-Z Y 1 Ba 2 Cu 2.88 Zn 0.12 O 7-Z 1990 Y123 K 41 41 3 K/GPa 4 "SUPERCONDUCTIVITY UNDER HIGH PRESSURE OF YBA2(CU1-XMX)3O7-Z(M=FE,CO,AL,CR,NI, AND ZN)" 1990 5 "PHYSICS DEPARTMENT, VIRGINIA COMMONWEALTH UNIVERSITY, RICHMOND, VIRGINIA 23284" "PHYS.REV.B,41(1990)8757" "Y,BA,CU,O,FE,CO,AL,CR,NI,ZN" 2185 PR0418757 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.94Ni0.06O7-Z Y 1 Ba 2 Cu 2.94 Ni 0.06 O 7-Z 1990 Y123 K 84 84 3 K/GPa 1 "SUPERCONDUCTIVITY UNDER HIGH PRESSURE OF YBA2(CU1-XMX)3O7-Z(M=FE,CO,AL,CR,NI, AND ZN)" 1990 5 "PHYSICS DEPARTMENT, VIRGINIA COMMONWEALTH UNIVERSITY, RICHMOND, VIRGINIA 23284" "PHYS.REV.B,41(1990)8757" "Y,BA,CU,O,FE,CO,AL,CR,NI,ZN" 2186 PR0418757 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.88Ni0.12O7-Z Y 1 Ba 2 Cu 2.88 Ni 0.12 O 7-Z 1990 Y123 K 78 78 3 K/GPa 1 "SUPERCONDUCTIVITY UNDER HIGH PRESSURE OF YBA2(CU1-XMX)3O7-Z(M=FE,CO,AL,CR,NI, AND ZN)" 1990 5 "PHYSICS DEPARTMENT, VIRGINIA COMMONWEALTH UNIVERSITY, RICHMOND, VIRGINIA 23284" "PHYS.REV.B,41(1990)8757" "Y,BA,CU,O,FE,CO,AL,CR,NI,ZN" 2187 PR0418757 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.88Co0.12O7-Z Y 1 Ba 2 Cu 2.88 Co 0.12 O 7-Z 1990 Y123 K 72.5 72.5 3 K/GPa 11 "SUPERCONDUCTIVITY UNDER HIGH PRESSURE OF YBA2(CU1-XMX)3O7-Z(M=FE,CO,AL,CR,NI, AND ZN)" 1990 5 "PHYSICS DEPARTMENT, VIRGINIA COMMONWEALTH UNIVERSITY, RICHMOND, VIRGINIA 23284" "PHYS.REV.B,41(1990)8757" "Y,BA,CU,O,FE,CO,AL,CR,NI,ZN" 2188 PR0418757 "YBa2(Cu,Cr)3O7" Y1Ba2Cu2.94Cr0.06O7-Z Y 1 Ba 2 Cu 2.94 Cr 0.06 O 7-Z 1990 Y123 K 84 84 3 K/GPa 2 "SUPERCONDUCTIVITY UNDER HIGH PRESSURE OF YBA2(CU1-XMX)3O7-Z(M=FE,CO,AL,CR,NI, AND ZN)" 1990 5 "PHYSICS DEPARTMENT, VIRGINIA COMMONWEALTH UNIVERSITY, RICHMOND, VIRGINIA 23284" "PHYS.REV.B,41(1990)8757" "Y,BA,CU,O,FE,CO,AL,CR,NI,ZN" 2189 PR0418757 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.88Al0.12O7-Z Y 1 Ba 2 Cu 2.88 Al 0.12 O 7-Z 1990 Y123 K 78 78 3 K/GPa 4 "SUPERCONDUCTIVITY UNDER HIGH PRESSURE OF YBA2(CU1-XMX)3O7-Z(M=FE,CO,AL,CR,NI, AND ZN)" 1990 5 "PHYSICS DEPARTMENT, VIRGINIA COMMONWEALTH UNIVERSITY, RICHMOND, VIRGINIA 23284" "PHYS.REV.B,41(1990)8757" "Y,BA,CU,O,FE,CO,AL,CR,NI,ZN" 2190 PR0418757 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.82Al0.18O7-Z Y 1 Ba 2 Cu 2.82 Al 0.18 O 7-Z 1990 Y123 K 66 66 3 K/GPa 7 "SUPERCONDUCTIVITY UNDER HIGH PRESSURE OF YBA2(CU1-XMX)3O7-Z(M=FE,CO,AL,CR,NI, AND ZN)" 1990 5 "PHYSICS DEPARTMENT, VIRGINIA COMMONWEALTH UNIVERSITY, RICHMOND, VIRGINIA 23284" "PHYS.REV.B,41(1990)8757" "Y,BA,CU,O,FE,CO,AL,CR,NI,ZN" 2191 PR0418757 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.85Fe0.15O7-Z Y 1 Ba 2 Cu 2.85 Fe 0.15 O 7-Z 1990 Y123 K 75 75 3 K/GPa 5 "SUPERCONDUCTIVITY UNDER HIGH PRESSURE OF YBA2(CU1-XMX)3O7-Z(M=FE,CO,AL,CR,NI, AND ZN)" 1990 5 "PHYSICS DEPARTMENT, VIRGINIA COMMONWEALTH UNIVERSITY, RICHMOND, VIRGINIA 23284" "PHYS.REV.B,41(1990)8757" "Y,BA,CU,O,FE,CO,AL,CR,NI,ZN" 2192 PR0418757 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.775Fe0.225O7-Z Y 1 Ba 2 Cu 2.775 Fe 0.225 O 7-Z 1990 Y123 K 59 59 3 K/GPa 8.5 "SUPERCONDUCTIVITY UNDER HIGH PRESSURE OF YBA2(CU1-XMX)3O7-Z(M=FE,CO,AL,CR,NI, AND ZN)" 1990 5 "PHYSICS DEPARTMENT, VIRGINIA COMMONWEALTH UNIVERSITY, RICHMOND, VIRGINIA 23284" "PHYS.REV.B,41(1990)8757" "Y,BA,CU,O,FE,CO,AL,CR,NI,ZN" 2193 PR0418757 YBa2Cu3O7 Y1Ba2Cu3O6.8 Y 1 Ba 2 Cu 3 O 6.8 6.8 1990 Y123 3.822 3.889 11.712 K 64 64 3 K/GPa 8 "SUPERCONDUCTIVITY UNDER HIGH PRESSURE OF YBA2(CU1-XMX)3O7-Z(M=FE,CO,AL,CR,NI, AND ZN)" 1990 5 "PHYSICS DEPARTMENT, VIRGINIA COMMONWEALTH UNIVERSITY, RICHMOND, VIRGINIA 23284" "PHYS.REV.B,41(1990)8757" "Y,BA,CU,O,FE,CO,AL,CR,NI,ZN" 2194 PR0418757 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1990 Y123 3.817 3.885 11.681 K 89 89 3 K/GPa -0.1 "SUPERCONDUCTIVITY UNDER HIGH PRESSURE OF YBA2(CU1-XMX)3O7-Z(M=FE,CO,AL,CR,NI, AND ZN)" 1990 5 "PHYSICS DEPARTMENT, VIRGINIA COMMONWEALTH UNIVERSITY, RICHMOND, VIRGINIA 23284" "PHYS.REV.B,41(1990)8757" "Y,BA,CU,O,FE,CO,AL,CR,NI,ZN" 2195 PR0416655 CURIEC=EMU.K/MOL PrBa2Cu3O7 Pr1Ba2Cu3O6.93 Pr 1 Ba 2 Cu 3 O 6.93 6.93 1 1990 3 3 Y123 3.865 3.931 11.725 K 60 ROLE OF OXYGEN IN PRBA2CU3O7-Y: EFFECT OF STRUCTURAL AND PHYSICAL PROPERTIES 1990 4 "INSTITUTO DE INVESTIGACIONES EN MATERIALES, UNIVERSIDAD NACIONAL AUTONOMA DE MEXICO, APARTADO POSTAL70-360, MEXICO, DISTRITO FEDERAL, MIXICO" "PHYS.REV.B,41(1990)6655" "PR,BA,CU,O" 2196 PR0416655 CURIEC=EMU.K/MOL PrBa2Cu3O7 Pr1Ba2Cu3O6.6 Pr 1 Ba 2 Cu 3 O 6.6 6.6 1 1990 7 K ROLE OF OXYGEN IN PRBA2CU3O7-Y: EFFECT OF STRUCTURAL AND PHYSICAL PROPERTIES 1990 4 "INSTITUTO DE INVESTIGACIONES EN MATERIALES, UNIVERSIDAD NACIONAL AUTONOMA DE MEXICO, APARTADO POSTAL70-360, MEXICO, DISTRITO FEDERAL, MIXICO" "PHYS.REV.B,41(1990)6655" "PR,BA,CU,O" 2197 PR0416655 CURIEC=EMU.K/MOL PrBa2Cu3O7 Pr1Ba2Cu3O6.46 Pr 1 Ba 2 Cu 3 O 6.46 6.46 1 1990 8 K ROLE OF OXYGEN IN PRBA2CU3O7-Y: EFFECT OF STRUCTURAL AND PHYSICAL PROPERTIES 1990 4 "INSTITUTO DE INVESTIGACIONES EN MATERIALES, UNIVERSIDAD NACIONAL AUTONOMA DE MEXICO, APARTADO POSTAL70-360, MEXICO, DISTRITO FEDERAL, MIXICO" "PHYS.REV.B,41(1990)6655" "PR,BA,CU,O" 2198 PR0416616 YBa2Cu3O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1990 3 3.842 3.871 27.244 K 78 84 81 BULK SUPERCONDUCTING Y2BA4CU7O15-ZX AND YBA2CU4O8 PREPARDE INOXYGEN AT 1 ATM 1990 4 "PHYSICS AND ENGINEERING LABORATORY, DEPARTMENT OF SCIENTIFIC AND INDUSTRIAL RESEARCH, P.O.BOX 31313, LAWER HUTT, NEW ZAALAND" "PHYS.REV.B,41(1990)6616" "Y,BA,CU,O" 2199 PR0416616 Er2Ba4Cu7O15 Er2Ba4Cu7O15-Z Er 2 Ba 4 Cu 7 O 15-Z 1 1990 3 3.838 3.867 50.624 K 80 90 85 BULK SUPERCONDUCTING Y2BA4CU7O15-ZX AND YBA2CU4O8 PREPARDE INOXYGEN AT 1 ATM 1990 4 "PHYSICS AND ENGINEERING LABORATORY, DEPARTMENT OF SCIENTIFIC AND INDUSTRIAL RESEARCH, P.O.BOX 31313, LAWER HUTT, NEW ZAALAND" "PHYS.REV.B,41(1990)6616" "Y,BA,CU,O" 2200 PR0417220 Y2Ba4Cu7O15 Y2Ba4Cu7O15 Y 2 Ba 4 Cu 7 O 15-Z 15 1 1990 3 Y247 K 92 92 2 R2BA4CU7O15-Z: A 92-K BULK SUPERCONDUCTOR 1990 4 "PHYSICS AND INGINEERING LABORATORY, DEPARTMENT OF SCIENTIFIC &INDUSTRIAL RESEARCH, P.O. BOX 31313, LOWER HUTT, NEW ZEALAND" "PHYS.REV.B,41(1990)7220" "BA,CU,O,Y,ER" 2201 PR0417220 Y2Ba4Cu7O15 Y2Ba4Cu7O14.98 Y 2 Ba 4 Cu 7 O 15-Z 14.98 1 1990 3 Y247 K 88 88 2 R2BA4CU7O15-Z: A 92-K BULK SUPERCONDUCTOR 1990 4 "PHYSICS AND INGINEERING LABORATORY, DEPARTMENT OF SCIENTIFIC &INDUSTRIAL RESEARCH, P.O. BOX 31313, LOWER HUTT, NEW ZEALAND" "PHYS.REV.B,41(1990)7220" "BA,CU,O,Y,ER" 2202 PR0417220 Y2Ba4Cu7O15 Y2Ba4Cu7O14.92 Y 2 Ba 4 Cu 7 O 15-Z 14.92 1 1990 3 Y247 K 82 82 2 R2BA4CU7O15-Z: A 92-K BULK SUPERCONDUCTOR 1990 4 "PHYSICS AND INGINEERING LABORATORY, DEPARTMENT OF SCIENTIFIC &INDUSTRIAL RESEARCH, P.O. BOX 31313, LOWER HUTT, NEW ZEALAND" "PHYS.REV.B,41(1990)7220" "BA,CU,O,Y,ER" 2203 PR0417220 Y2Ba4Cu7O15 Y2Ba4Cu7O14.85 Y 2 Ba 4 Cu 7 O 15-Z 14.85 1 1990 3 Y247 K 78 78 2 R2BA4CU7O15-Z: A 92-K BULK SUPERCONDUCTOR 1990 4 "PHYSICS AND INGINEERING LABORATORY, DEPARTMENT OF SCIENTIFIC &INDUSTRIAL RESEARCH, P.O. BOX 31313, LOWER HUTT, NEW ZEALAND" "PHYS.REV.B,41(1990)7220" "BA,CU,O,Y,ER" 2204 PR0417220 Y2Ba4Cu7O15 Y2Ba4Cu7O14.78 Y 2 Ba 4 Cu 7 O 15-Z 14.78 1 1990 3 Y247 K 70 70 2 R2BA4CU7O15-Z: A 92-K BULK SUPERCONDUCTOR 1990 4 "PHYSICS AND INGINEERING LABORATORY, DEPARTMENT OF SCIENTIFIC &INDUSTRIAL RESEARCH, P.O. BOX 31313, LOWER HUTT, NEW ZEALAND" "PHYS.REV.B,41(1990)7220" "BA,CU,O,Y,ER" 2205 PR0417220 Y2Ba4Cu7O15 Y2Ba4Cu7O14.68 Y 2 Ba 4 Cu 7 O 15-Z 14.68 1 1990 3 Y247 K 60 60 2 R2BA4CU7O15-Z: A 92-K BULK SUPERCONDUCTOR 1990 4 "PHYSICS AND INGINEERING LABORATORY, DEPARTMENT OF SCIENTIFIC &INDUSTRIAL RESEARCH, P.O. BOX 31313, LOWER HUTT, NEW ZEALAND" "PHYS.REV.B,41(1990)7220" "BA,CU,O,Y,ER" 2206 PR0417220 Y2Ba4Cu7O15 Y2Ba4Cu7O14.46 Y 2 Ba 4 Cu 7 O 15-Z 14.46 1 1990 3 Y247 K 46 46 2 R2BA4CU7O15-Z: A 92-K BULK SUPERCONDUCTOR 1990 4 "PHYSICS AND INGINEERING LABORATORY, DEPARTMENT OF SCIENTIFIC &INDUSTRIAL RESEARCH, P.O. BOX 31313, LOWER HUTT, NEW ZEALAND" "PHYS.REV.B,41(1990)7220" "BA,CU,O,Y,ER" 2207 PR0417220 Y2Ba4Cu7O15 Y2Ba4Cu7O14.38 Y 2 Ba 4 Cu 7 O 15-Z 14.38 1 1990 3 Y247 K 50 50 2 R2BA4CU7O15-Z: A 92-K BULK SUPERCONDUCTOR 1990 4 "PHYSICS AND INGINEERING LABORATORY, DEPARTMENT OF SCIENTIFIC &INDUSTRIAL RESEARCH, P.O. BOX 31313, LOWER HUTT, NEW ZEALAND" "PHYS.REV.B,41(1990)7220" "BA,CU,O,Y,ER" 2208 PR0417220 Y2Ba4Cu7O15 Y2Ba4Cu7O14.16 Y 2 Ba 4 Cu 7 O 15-Z 14.16 1 1990 3 Y247 K 34 34 2 R2BA4CU7O15-Z: A 92-K BULK SUPERCONDUCTOR 1990 4 "PHYSICS AND INGINEERING LABORATORY, DEPARTMENT OF SCIENTIFIC &INDUSTRIAL RESEARCH, P.O. BOX 31313, LOWER HUTT, NEW ZEALAND" "PHYS.REV.B,41(1990)7220" "BA,CU,O,Y,ER" 2209 PR0417220 Y2Ba4Cu7O15 Y2Ba4Cu7O14.04 Y 2 Ba 4 Cu 7 O 15-Z 14.04 1 1990 3 Y247 K 36 36 2 R2BA4CU7O15-Z: A 92-K BULK SUPERCONDUCTOR 1990 4 "PHYSICS AND INGINEERING LABORATORY, DEPARTMENT OF SCIENTIFIC &INDUSTRIAL RESEARCH, P.O. BOX 31313, LOWER HUTT, NEW ZEALAND" "PHYS.REV.B,41(1990)7220" "BA,CU,O,Y,ER" 2210 PR0417220 Y2Ba4Cu7O15 Y2Ba4Cu7O14 Y 2 Ba 4 Cu 7 O 15-Z 14 1 1990 3 Y247 K 30 30 2 R2BA4CU7O15-Z: A 92-K BULK SUPERCONDUCTOR 1990 4 "PHYSICS AND INGINEERING LABORATORY, DEPARTMENT OF SCIENTIFIC &INDUSTRIAL RESEARCH, P.O. BOX 31313, LOWER HUTT, NEW ZEALAND" "PHYS.REV.B,41(1990)7220" "BA,CU,O,Y,ER" 2211 PR0426813 Dy2CuO4 Dy2Cu1O4 Dy 2 Cu 1 O 4 1990 -22.1 2 K "Magnetic properties of Nd2CuO4-type R2CuO4(R=Y,Dy,Ho,Er,Tm) synthesized under high pressure: Weak ferromagnetism of Y2CuO4" 1990 10 "Materials Researchi Laboratory, Kobe Steel, Ltd.,Kobe 651, Japan" "Phys.Rev.B,42(1990)6813" 2212 PR0426813 Ho2CuO4 Ho2Cu1O4 Ho 2 Cu 1 O 4 1990 -12.2 2 K "Magnetic properties of Nd2CuO4-type R2CuO4(R=Y,Dy,Ho,Er,Tm) synthesized under high pressure: Weak ferromagnetism of Y2CuO4" 1990 10 "Materials Researchi Laboratory, Kobe Steel, Ltd.,Kobe 651, Japan" "Phys.Rev.B,42(1990)6813" 2213 PR0426813 Er2CuO4 Er2Cu1O4 Er 2 Cu 1 O 4 1990 -23.9 2 K "Magnetic properties of Nd2CuO4-type R2CuO4(R=Y,Dy,Ho,Er,Tm) synthesized under high pressure: Weak ferromagnetism of Y2CuO4" 1990 10 "Materials Researchi Laboratory, Kobe Steel, Ltd.,Kobe 651, Japan" "Phys.Rev.B,42(1990)6813" 2214 PR0426813 Tm2CuO4 Tm2Cu1O4 Tm 2 Cu 1 O 4 1990 -20.6 2 K "Magnetic properties of Nd2CuO4-type R2CuO4(R=Y,Dy,Ho,Er,Tm) synthesized under high pressure: Weak ferromagnetism of Y2CuO4" 1990 10 "Materials Researchi Laboratory, Kobe Steel, Ltd.,Kobe 651, Japan" "Phys.Rev.B,42(1990)6813" 2215 PHC1680079 "Bi2Sr2(Nd,Ce)Cu2O8" Bi2Sr2Nd1.64Ce0.36Cu2O10.23 Bi 2 Sr 2 Nd 1.64 Ce 0.36 Cu 2 O 10.23 10.23 2 1990 2 3.881 17.93 K 14 14 2 EXTENDED FAMILY OF NEW Bi-2222 SUPERCONDUCTING CUPRATES Bi2Sr2(RE1-xCex)2Cu2O10+y9 RE=rare earth 1990 "Department of Physics, University of Tokyo, Bunkyo 113, Japan" "Physica.C,168(1990)79-84" 2216 PHC1680079 "Bi2Sr2(Sm,Ce)Cu2O8" Bi2Sr2Sm1.64Ce0.36Cu2O10.24 Bi 2 Sr 2 Sm 1.64 Ce 0.36 Cu 2 O 10.24 10.24 2 1990 2 3.863 17.9 K 16 16 2 EXTENDED FAMILY OF NEW Bi-2222 SUPERCONDUCTING CUPRATES Bi2Sr2(RE1-xCex)2Cu2O10+y9 RE=rare earth 1990 "Department of Physics, University of Tokyo, Bunkyo 113, Japan" "Physica.C,168(1990)79-84" 2217 PHC1680079 "Bi2Sr2(Eu,Ce)Cu2O8" Bi2Sr2Eu1.64Ce0.36Cu2O10.26 Bi 2 Sr 2 Eu 1.64 Ce 0.36 Cu 2 O 10.26 10.26 2 1990 2 3.854 17.88 K 27 27 2 EXTENDED FAMILY OF NEW Bi-2222 SUPERCONDUCTING CUPRATES Bi2Sr2(RE1-xCex)2Cu2O10+y9 RE=rare earth 1990 "Department of Physics, University of Tokyo, Bunkyo 113, Japan" "Physica.C,168(1990)79-84" 2218 PHC1680079 "Bi2Sr2(Gd,Ce)Cu2O8" Bi2Sr2Gd1.64Ce0.36Cu2O10.24 Bi 2 Sr 2 Gd 1.64 Ce 0.36 Cu 2 O 10.24 10.24 2 1990 2 3.851 17.88 K 34 34 2 EXTENDED FAMILY OF NEW Bi-2222 SUPERCONDUCTING CUPRATES Bi2Sr2(RE1-xCex)2Cu2O10+y9 RE=rare earth 1990 "Department of Physics, University of Tokyo, Bunkyo 113, Japan" "Physica.C,168(1990)79-84" 2219 PHC1680079 "Bi2Sr2(Dy,Ce)Cu2O8" Bi2Sr2Dy1.64Ce0.36Cu2O10.26 Bi 2 Sr 2 Dy 1.64 Ce 0.36 Cu 2 O 10.26 10.26 2 1990 2 3.844 17.87 K 27 27 2 EXTENDED FAMILY OF NEW Bi-2222 SUPERCONDUCTING CUPRATES Bi2Sr2(RE1-xCex)2Cu2O10+y9 RE=rare earth 1990 "Department of Physics, University of Tokyo, Bunkyo 113, Japan" "Physica.C,168(1990)79-84" 2220 PHC1680079 "Bi2Sr2(Ho,Ce)Cu2O8" Bi2Sr2Ho1.64Ce0.36Cu2O10.22 Bi 2 Sr 2 Ho 1.64 Ce 0.36 Cu 2 O 10.22 10.22 2 1990 2 3.84 17.86 K 24 24 2 EXTENDED FAMILY OF NEW Bi-2222 SUPERCONDUCTING CUPRATES Bi2Sr2(RE1-xCex)2Cu2O10+y9 RE=rare earth 1990 "Department of Physics, University of Tokyo, Bunkyo 113, Japan" "Physica.C,168(1990)79-84" 2221 PHC1680079 "Bi2Sr2(Y,Ce)Cu2O8" Bi2Sr2Y1.64Ce0.36Cu2O10.22 Bi 2 Sr 2 Y 1.64 Ce 0.36 Cu 2 O 10.22 10.22 2 1990 2 3.836 17.85 K 20 20 2 EXTENDED FAMILY OF NEW Bi-2222 SUPERCONDUCTING CUPRATES Bi2Sr2(RE1-xCex)2Cu2O10+y9 RE=rare earth 1990 "Department of Physics, University of Tokyo, Bunkyo 113, Japan" "Physica.C,168(1990)79-84" 2222 PHC1680079 "Bi2Sr2(Er,Ce)Cu2O8" Bi2Sr2Er1.64Ce0.36Cu2O10.21 Bi 2 Sr 2 Er 1.64 Ce 0.36 Cu 2 O 10.21 10.21 2 1990 2 3.837 17.84 K 5 2 EXTENDED FAMILY OF NEW Bi-2222 SUPERCONDUCTING CUPRATES Bi2Sr2(RE1-xCex)2Cu2O10+y9 RE=rare earth 1990 "Department of Physics, University of Tokyo, Bunkyo 113, Japan" "Physica.C,168(1990)79-84" 2223 PHC1680079 "Bi2Sr2(Tm,Ce)Cu2O8" Bi2Sr2Tm1.64Ce0.36Cu2O10.2 Bi 2 Sr 2 Tm 1.64 Ce 0.36 Cu 2 O 10.2 10.2 2 1990 2 3.827 17.84 K 5 2 EXTENDED FAMILY OF NEW Bi-2222 SUPERCONDUCTING CUPRATES Bi2Sr2(RE1-xCex)2Cu2O10+y9 RE=rare earth 1990 "Department of Physics, University of Tokyo, Bunkyo 113, Japan" "Physica.C,168(1990)79-84" 2224 PHC1680057 TlBa2CaCu2O7 Tl1Ba2Ca1Cu2O7 Tl 1 Ba 2 Ca 1 Cu 2 O 7 1 1990 2 3.85 12.76 K 80 80 1 "SUPERCONDUCTIVITY OF HIGH-TC TLBA2CA1-XREXCU2O7(RE=ND,GD OR Y)SYSTEM" 1990 "INSTITUTE FOR METALS RESEARCH,TOHOKU UNIVERSITY,KATAHIRA,AOBA-KU,SENDAI 980 JAPAN" "PHYSICA C,168(1990)57" "TL,BA,CA,ND,GD,Y,CU,O" 2225 PHC1700211 "(Nd,Ce)2(Cu,In)O4" Nd1.88Ce0.12Cu0.98IN0.02O4-Z Nd 1.88 Ce 0.12 Cu 0.98 IN 0.02 O 4-Z 1 1990 K 10.7 15.4 21 10.3 15.4 1 THE EFFECT OF INDIUM SUBSTITUTION FOR COPPER ON THE SUPERCONDUCTIVITY OF THE ELECTRON-DOPED SYSTEM ND-CE-CU-O 1990 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CA92093, USA" "PHYSICA C,170(1990)211" "ND,CE,CU,O" 2226 PHC1700211 "(Nd,Ce)2(Cu,In)O4" Nd1.88Ce0.12Cu0.97IN0.03O4-Z Nd 1.88 Ce 0.12 Cu 0.97 IN 0.03 O 4-Z 1 1990 K 12.2 17 23 10.8 17 1 THE EFFECT OF INDIUM SUBSTITUTION FOR COPPER ON THE SUPERCONDUCTIVITY OF THE ELECTRON-DOPED SYSTEM ND-CE-CU-O 1990 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CA92093, USA" "PHYSICA C,170(1990)211" "ND,CE,CU,O" 2227 PHC1700211 "(Nd,Ce)2(Cu,In)O4" Nd1.88Ce0.12Cu0.96IN0.04O4-Z Nd 1.88 Ce 0.12 Cu 0.96 IN 0.04 O 4-Z 1 1990 K 2.6 10.5 22 19.4 10.5 1 THE EFFECT OF INDIUM SUBSTITUTION FOR COPPER ON THE SUPERCONDUCTIVITY OF THE ELECTRON-DOPED SYSTEM ND-CE-CU-O 1990 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CA92093, USA" "PHYSICA C,170(1990)211" "ND,CE,CU,O" 2228 PHC1700211 "(Nd,Ce)2(Cu,In)O4" Nd1.87Ce0.13Cu0.98IN0.02O4-Z Nd 1.87 Ce 0.13 Cu 0.98 IN 0.02 O 4-Z 1 1990 K 17.8 19.5 23.8 6 19.5 1 THE EFFECT OF INDIUM SUBSTITUTION FOR COPPER ON THE SUPERCONDUCTIVITY OF THE ELECTRON-DOPED SYSTEM ND-CE-CU-O 1990 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CA92093, USA" "PHYSICA C,170(1990)211" "ND,CE,CU,O" 2229 PHC1700211 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-Z Nd 1.85 Ce 0.15 Cu 1 O 4-Z 1 1990 T' K 20.8 22.7 24.8 4 22.7 1 THE EFFECT OF INDIUM SUBSTITUTION FOR COPPER ON THE SUPERCONDUCTIVITY OF THE ELECTRON-DOPED SYSTEM ND-CE-CU-O 1990 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CA92093, USA" "PHYSICA C,170(1990)211" "ND,CE,CU,O" 2230 PHC1700211 "(Nd,Ce)2(Cu,In)O4" Nd1.85Ce0.15Cu0.99IN0.01O4-Z Nd 1.85 Ce 0.15 Cu 0.99 IN 0.01 O 4-Z 1 1990 K 19.2 20.5 24.3 5.1 20.5 1 THE EFFECT OF INDIUM SUBSTITUTION FOR COPPER ON THE SUPERCONDUCTIVITY OF THE ELECTRON-DOPED SYSTEM ND-CE-CU-O 1990 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CA92093, USA" "PHYSICA C,170(1990)211" "ND,CE,CU,O" 2231 PHC1700211 "(Nd,Ce)2(Cu,In)O4" Nd1.85Ce0.15Cu0.98IN0.02O4-Z Nd 1.85 Ce 0.15 Cu 0.98 IN 0.02 O 4-Z 1 1990 K 17 19.5 24.3 7.3 19.5 1 THE EFFECT OF INDIUM SUBSTITUTION FOR COPPER ON THE SUPERCONDUCTIVITY OF THE ELECTRON-DOPED SYSTEM ND-CE-CU-O 1990 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CA92093, USA" "PHYSICA C,170(1990)211" "ND,CE,CU,O" 2232 PR0437955 R30/R273=7.5 "(Ba,K)BiO3" Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 1 1991 1 BKBO K 24.5 26.5 25.5 TP2232 231 THERMOELECTRIC POWER OF BA1-XKXBIO3 1991 4 "DEPARTMENT OF PHYSICS,UNIVERSITY OF MACHIGAN,ANN ARBOR,MICHIGAN 48109" "PHYS.REV.B,43(1991)7955" "BA,K,BI,O" 2233 PR0437955 R30/R273=1.2 "(Ba,K)BiO3" Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 1 1991 1 BKBO K 24.5 26.5 25.5 TP2233 19.1 THERMOELECTRIC POWER OF BA1-XKXBIO3 1991 4 "DEPARTMENT OF PHYSICS,UNIVERSITY OF MACHIGAN,ANN ARBOR,MICHIGAN 48109" "PHYS.REV.B,43(1991)7955" "BA,K,BI,O" 2234 MPL0030295 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 3 1989 3 Bi2212 5.42 5.44 30.6 K 85 85 TP2234 MEASUREMENT OF ANISOTROPIC THERMOPOWER IN SINGLE CTYSTALS BI2SR2CACU2OY 1989 THERMOPOWER "INSTITUTE OF PHYSICS,CHINESE ACADEMY OF SCIENCES,BEIJING,CHINA" "MOD.PHYS.LETT.B,3(1989)295" 2235 IJM0030409 150X150X80MICRO-M 3 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1989 3 Y123 3.82 3.89 11.68 K 92 1.5 92 TP2235 THERMOPOWER ANISOTROPY OF YBA2CU3O7-Z SINGLE CRYSTALS 1989 "INSTITUTE OF PHYSICS,CHINESE ACADEMY OF SCIENCES,BEIJING,CHINA" "INT'L J.MOD.PHYS.B,3(1989)409" "Y,BA,CU,O" 2236 PHC1621627 HIGHLY ORIENTED CRYSTAL YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1989 3 Y123 K 91.5 91.5 1490 141 2.2 "CRITICAL MAGNETIC FIELDS(Hc2Hcl)AND k IN YBa2(Cu0.98M0.02)3O7+delta,M=Ni,Al, AND Cu" 1989 "Material Science Division, Brookhaven National Laboratory, Upton, New York 1973" "Physica.C,162-164(1989)1627-1628" 2237 PHC1621627 HIGHLY ORIENTED CRYSTAL "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.94Ni0.06O7 Y 1 Ba 2 Cu 2.94 Ni 0.06 O 7 1 1989 3 Y123 K 83.5 83.5 900 140 2.4 "CRITICAL MAGNETIC FIELDS(Hc2Hcl)AND k IN YBa2(Cu0.98M0.02)3O7+delta,M=Ni,Al, AND Cu" 1989 "Material Science Division, Brookhaven National Laboratory, Upton, New York 1973" "Physica.C,162-164(1989)1627-1628" 2238 PHC1621627 HIGHLY ORIENTED CRYSTAL "YBa2(Cu,Al)3O7" Y1Ba2Cu2.94Al0.06O7 Y 1 Ba 2 Cu 2.94 Al 0.06 O 7 1 1989 3 Y123 K 87 87 190 150 2.8 "CRITICAL MAGNETIC FIELDS(Hc2Hcl)AND k IN YBa2(Cu0.98M0.02)3O7+delta,M=Ni,Al, AND Cu" 1989 "Material Science Division, Brookhaven National Laboratory, Upton, New York 1973" "Physica.C,162-164(1989)1627-1628" 2239 PHC1621619 Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O10 Tl 2 Ba 2 Ca 2 Cu 3 O 10 1 1989 Tl2223 K 118.5 2 118.5 3 0.55 ANISOTROPIC PROPERTIES OF SINGLE CRYSTALS OF (TIO)mBa2Ca2Cu3O8 1989 "Sevice National des Champs Intenses, C.N.R.S.,BP 166 X, 38042 Grenoble-Ce'dex, France" "Physica.C,162-164(1989)1619-1620" 2240 PHC1621619 Th1Ba2Ca2Cu3OZ Th 1 Ba 2 Ca 2 Cu 3 O Z 1 1989 Tl1223 K 114 2 114 3.7 0.98 ANISOTROPIC PROPERTIES OF SINGLE CRYSTALS OF (TIO)mBa2Ca2Cu3O8 1989 "Sevice National des Champs Intenses, C.N.R.S.,BP 166 X, 38042 Grenoble-Ce'dex, France" "Physica.C,162-164(1989)1619-1620" 2241 PHC1520293 GAMMA FROM DHC2DT YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 92.2 1.7 92.2 108 1.72 14.3 1.12 3.65 UPPER CRITICAL MAGNETIC FIELD MEASUREMENTS IN RBA2CU3O7-Z(R=RARE EARTH) COMPOUNDS 1988 "PHYSICA C,152(1988)293" 2242 PHC1520293 GAMMA FROM DHC2DT YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 90.9 3.3 90.9 71 1.14 18 1.33 2 UPPER CRITICAL MAGNETIC FIELD MEASUREMENTS IN RBA2CU3O7-Z(R=RARE EARTH) COMPOUNDS 1988 "PHYSICA C,152(1988)293" 2243 PHC1520293 GAMMA FROM DHC2DT NdBa2Cu3O7 Nd1Ba2Cu3O7-Z Nd 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 91.9 4.2 91.9 88 1.41 14.4 1.13 2.96 UPPER CRITICAL MAGNETIC FIELD MEASUREMENTS IN RBA2CU3O7-Z(R=RARE EARTH) COMPOUNDS 1988 "PHYSICA C,152(1988)293" 2244 PHC1520293 GAMMA FROM DHC2DT SmBa2Cu3O7 Sm1Ba2Cu3O7-Z Sm 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 90.9 3 90.9 87 1.41 15.8 1.35 2.48 UPPER CRITICAL MAGNETIC FIELD MEASUREMENTS IN RBA2CU3O7-Z(R=RARE EARTH) COMPOUNDS 1988 "PHYSICA C,152(1988)293" 2245 PHC1520293 GAMMA FROM DHC2DT EuBa2Cu3O7 Eu1Ba2Cu3O7-Z Eu 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 93.8 1 93.8 183 2.86 11 10 0.68 UPPER CRITICAL MAGNETIC FIELD MEASUREMENTS IN RBA2CU3O7-Z(R=RARE EARTH) COMPOUNDS 1988 "PHYSICA C,152(1988)293" 2246 PHC1520293 GAMMA FROM DHC2DT GdBa2Cu3O7 Gd1Ba2Cu3O7-Z Gd 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 94.2 1.2 94.2 162 2.52 11.6 6.72 0.89 UPPER CRITICAL MAGNETIC FIELD MEASUREMENTS IN RBA2CU3O7-Z(R=RARE EARTH) COMPOUNDS 1988 "PHYSICA C,152(1988)293" 2247 PHC1520293 GAMMA FROM DHC2DT DyBa2Cu3O7 Dy1Ba2Cu3O7-Z Dy 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 90 4 90 92 1.5 15.5 1.98 1.8 UPPER CRITICAL MAGNETIC FIELD MEASUREMENTS IN RBA2CU3O7-Z(R=RARE EARTH) COMPOUNDS 1988 "PHYSICA C,152(1988)293" 2248 PHC1520293 GAMMA FROM DHC2DT DyBa2Cu3O7 Dy1Ba2Cu3O7-Z Dy 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 91 2.9 91 62 1 18.8 0.78 3.2 UPPER CRITICAL MAGNETIC FIELD MEASUREMENTS IN RBA2CU3O7-Z(R=RARE EARTH) COMPOUNDS 1988 "PHYSICA C,152(1988)293" 2249 PHC1520293 GAMMA FROM DHC2DT HoBa2Cu3O7 Ho1Ba2Cu3O7-Z Ho 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 92.7 1 92.7 153 2.4 12.1 8.16 0.7 UPPER CRITICAL MAGNETIC FIELD MEASUREMENTS IN RBA2CU3O7-Z(R=RARE EARTH) COMPOUNDS 1988 "PHYSICA C,152(1988)293" 2250 PHC1520293 GAMMA FROM DHC2DT ErBa2Cu3O7 Er1Ba2Cu3O7-Z Er 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 92.2 2.7 92.2 58 1.01 18.7 0.47 5.04 UPPER CRITICAL MAGNETIC FIELD MEASUREMENTS IN RBA2CU3O7-Z(R=RARE EARTH) COMPOUNDS 1988 "PHYSICA C,152(1988)293" 2251 PHC1520293 GAMMA FROM DHC2DT ErBa2Cu3O7 Er1Ba2Cu3O7-Z Er 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 89.3 10 89.3 46 0.76 21.8 0.063 26.3 UPPER CRITICAL MAGNETIC FIELD MEASUREMENTS IN RBA2CU3O7-Z(R=RARE EARTH) COMPOUNDS 1988 "PHYSICA C,152(1988)293" 2252 PHC1520293 GAMMA FROM DHC2DT TmBa2Cu3O7 Tm1Ba2Cu3O7-Z Tm 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 91.5 0.8 91.5 177 2.8 11.3 3.54 1.9 UPPER CRITICAL MAGNETIC FIELD MEASUREMENTS IN RBA2CU3O7-Z(R=RARE EARTH) COMPOUNDS 1988 "PHYSICA C,152(1988)293" 2253 PHC1520293 GAMMA FROM DHC2DT YbBa2Cu3O7 Yb1Ba2Cu3O7-Z Yb 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 90.1 1.8 90.1 166 2.7 11.6 8.67 0.74 UPPER CRITICAL MAGNETIC FIELD MEASUREMENTS IN RBA2CU3O7-Z(R=RARE EARTH) COMPOUNDS 1988 "PHYSICA C,152(1988)293" 2254 PHC1520293 GAMMA FROM DHC2DT LuBa2Cu3O7 Lu1Ba2Cu3O7-Z Lu 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 90 7.9 90 50 0.81 21.1 0.063 30.2 UPPER CRITICAL MAGNETIC FIELD MEASUREMENTS IN RBA2CU3O7-Z(R=RARE EARTH) COMPOUNDS 1988 "PHYSICA C,152(1988)293" 2255 PR0437875 RHN=120K Tl2Ba2CuO6 Tl2Ba2Cu1O6.01 Tl 2 Ba 2 Cu 1 O 6+Z 6.01 1991 K 81 81 1.76E-09 2.38E-09 RH2255 TRANSPORT AND MAGNETIC PROPERTIES OF TL2BA2CUO6+Z SHOWING A Z-DEPENDENT GRADUAL TRANSITION FROM AN 85-K SUPERCONDUCTING METAL 1991 4 "TRANSPORT ,HALL" "FUNDAMENTAL RESEACH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,43(1991)7875" "TL,BA,CU,O" 2256 PR0437875 RHN=120K Tl2Ba2CuO6 Tl2Ba2Cu1O6.03 Tl 2 Ba 2 Cu 1 O 6+Z 6.03 1991 K 62 62 1.36E-09 1.69E-09 RH2256 TRANSPORT AND MAGNETIC PROPERTIES OF TL2BA2CUO6+Z SHOWING A Z-DEPENDENT GRADUAL TRANSITION FROM AN 85-K SUPERCONDUCTING METAL 1991 4 "TRANSPORT ,HALL" "FUNDAMENTAL RESEACH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,43(1991)7875" "TL,BA,CU,O" 2257 PR0437875 RHN=120K Tl2Ba2CuO6 Tl2Ba2Cu1O6.05 Tl 2 Ba 2 Cu 1 O 6+Z 6.05 1991 K 47 47 1.19E-09 1.47E-09 RH2257 TRANSPORT AND MAGNETIC PROPERTIES OF TL2BA2CUO6+Z SHOWING A Z-DEPENDENT GRADUAL TRANSITION FROM AN 85-K SUPERCONDUCTING METAL 1991 4 "TRANSPORT ,HALL" "FUNDAMENTAL RESEACH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,43(1991)7875" "TL,BA,CU,O" 2258 PR0437875 RHN=120K Tl2Ba2CuO6 Tl2Ba2Cu1O6.08 Tl 2 Ba 2 Cu 1 O 6+Z 6.08 1991 K 16 16 1.03E-09 1.15E-09 RH2258 TRANSPORT AND MAGNETIC PROPERTIES OF TL2BA2CUO6+Z SHOWING A Z-DEPENDENT GRADUAL TRANSITION FROM AN 85-K SUPERCONDUCTING METAL 1991 4 "TRANSPORT ,HALL" "FUNDAMENTAL RESEACH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,43(1991)7875" "TL,BA,CU,O" 2259 PR0437875 RHN=120K Tl2Ba2CuO6 Tl2Ba2Cu1O6.1 Tl 2 Ba 2 Cu 1 O 6+Z 6.1 1991 K 4.2 9.30E-10 1.08E-09 RH2259 TRANSPORT AND MAGNETIC PROPERTIES OF TL2BA2CUO6+Z SHOWING A Z-DEPENDENT GRADUAL TRANSITION FROM AN 85-K SUPERCONDUCTING METAL 1991 4 "TRANSPORT ,HALL" "FUNDAMENTAL RESEACH LABORATORIES,NEC CORPORATION,4-1-1 MIYAZAKI,MIYAMAE-KU,KAWASAKI 213,JAPAN" "PHYS.REV.B,43(1991)7875" "TL,BA,CU,O" 2260 PRL0621197 RHN=80K "(Nd,Ce)2CuO4" Nd1.95Ce0.05Cu1O3.97 Nd 1.95 Ce 0.05 Cu 1 O 4 3.97 1989 T' K 4.2 -4.25E-09 -1.29E-08 SUPERCONDUCTIVITY PRODUCED BY ELECTRON DOPING IN CUO2-LAYEREDCOMPOUNDS 1989 3 "ENGINEERING RESEARCH INSTITUTE,UNIVERSITY OF TOKYO,BUNKYO-KU,TOKYO 113,JAPAN" PHYS.REV.LETT.62(1989)1197 "ND,CE,CU,O" 2261 PRL0621197 RHN=80K "(Nd,Ce)2CuO4" Nd1.92Ce0.08Cu1O3.97 Nd 1.92 Ce 0.08 Cu 1 O 4 3.97 1989 T' 3.948 12.125 K 4.2 -2.61E-09 -5.43E-09 SUPERCONDUCTIVITY PRODUCED BY ELECTRON DOPING IN CUO2-LAYEREDCOMPOUNDS 1989 3 "ENGINEERING RESEARCH INSTITUTE,UNIVERSITY OF TOKYO,BUNKYO-KU,TOKYO 113,JAPAN" PHYS.REV.LETT.62(1989)1197 "ND,CE,CU,O" 2262 PRL0621197 RHN=80K (Nd.Ce)2CuO4 Nd1.88Ce0.12Cu1O3.94 Nd 1.88 Ce 0.12 Cu 1 O 4 3.94 1989 T' 3.945 12.099 K 4.2 -1.30E-09 -3.33E-09 SUPERCONDUCTIVITY PRODUCED BY ELECTRON DOPING IN CUO2-LAYEREDCOMPOUNDS 1989 3 "ENGINEERING RESEARCH INSTITUTE,UNIVERSITY OF TOKYO,BUNKYO-KU,TOKYO 113,JAPAN" PHYS.REV.LETT.62(1989)1197 "ND,CE,CU,O" 2263 PRL0621197 RHN=80K "(Nd,Ce)2CuO4" Nd1.86Ce0.14Cu1O3.96 Nd 1.86 Ce 0.14 Cu 1 O 4 3.96 1989 T' 3.949 12.089 K 21.3 21.3 SUPERCONDUCTIVITY PRODUCED BY ELECTRON DOPING IN CUO2-LAYEREDCOMPOUNDS 1989 3 "ENGINEERING RESEARCH INSTITUTE,UNIVERSITY OF TOKYO,BUNKYO-KU,TOKYO 113,JAPAN" PHYS.REV.LETT.62(1989)1197 "ND,CE,CU,O" 2264 PRL0621197 RHN=80K "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O3.95 Nd 1.85 Ce 0.15 Cu 1 O 4 3.95 1989 T' 3.947 12.1 K 22.1 22.1 -2.35E-10 -7.83E-10 RH2264 SUPERCONDUCTIVITY PRODUCED BY ELECTRON DOPING IN CUO2-LAYEREDCOMPOUNDS 1989 3 "ENGINEERING RESEARCH INSTITUTE,UNIVERSITY OF TOKYO,BUNKYO-KU,TOKYO 113,JAPAN" PHYS.REV.LETT.62(1989)1197 "ND,CE,CU,O" 2265 PRL0621197 RHN=80K "(Nd,Ce)2CuO4" Nd1.84Ce0.16Cu1O3.96 Nd 1.84 Ce 0.16 Cu 1 O 4 3.96 1989 T' 3.948 12.077 K 16.1 16.1 -1.11E-10 -3.00E-10 SUPERCONDUCTIVITY PRODUCED BY ELECTRON DOPING IN CUO2-LAYEREDCOMPOUNDS 1989 3 "ENGINEERING RESEARCH INSTITUTE,UNIVERSITY OF TOKYO,BUNKYO-KU,TOKYO 113,JAPAN" PHYS.REV.LETT.62(1989)1197 "ND,CE,CU,O" 2266 PRL0621197 RHN=80K "(Nd,Ce)2CuO4" Nd1.83Ce0.17Cu1O4 Nd 1.83 Ce 0.17 Cu 1 O 4 1989 T' K 9.9 9.9 SUPERCONDUCTIVITY PRODUCED BY ELECTRON DOPING IN CUO2-LAYEREDCOMPOUNDS 1989 3 "ENGINEERING RESEARCH INSTITUTE,UNIVERSITY OF TOKYO,BUNKYO-KU,TOKYO 113,JAPAN" PHYS.REV.LETT.62(1989)1197 "ND,CE,CU,O" 2267 PRL0621197 RHN=80K "(Nd,Ce)2CuO4" Nd1.82Ce0.18Cu1O4 Nd 1.82 Ce 0.18 Cu 1 O 4 1989 T' K SUPERCONDUCTIVITY PRODUCED BY ELECTRON DOPING IN CUO2-LAYEREDCOMPOUNDS 1989 3 "ENGINEERING RESEARCH INSTITUTE,UNIVERSITY OF TOKYO,BUNKYO-KU,TOKYO 113,JAPAN" PHYS.REV.LETT.62(1989)1197 "ND,CE,CU,O" 2268 PR0437866 Pb1Sr4Y1Cu5OZ Pb 1 Sr 4 Y 1 Cu 5 O Z 1 1991 2 Pb1212 3.814 11.796 K 4.2 "SYNTHESIS AND CHARACTERIZATION OF THE SUPERCONDUVTING CUPTATES(PB,CU)SR2(Y,CA)CU2OZ" 1991 4 "SUPERCONDUCTIVITY RESEACH LABORATORY,ISTEC,10-13,SINONOME 1-CYOME,KOTO-KU,YOKYO135,LAPAN" "PHYS.REV.B,43(1991)7866" "PB,SR,Y,CA,CU,O" 2269 PR0437866 Pb1.3Sr4Y1.4Ca0.6Cu4.7OZ Pb 1.3 Sr 4 Y 1.4 Ca 0.6 Cu 4.7 O Z 2 1991 2 Pb1212 3.817 11.854 K 22 22 "SYNTHESIS AND CHARACTERIZATION OF THE SUPERCONDUVTING CUPTATES(PB,CU)SR2(Y,CA)CU2OZ" 1991 4 "SUPERCONDUCTIVITY RESEACH LABORATORY,ISTEC,10-13,SINONOME 1-CYOME,KOTO-KU,YOKYO135,LAPAN" "PHYS.REV.B,43(1991)7866" "PB,SR,Y,CA,CU,O" 2270 PR0437866 Pb1.35Sr4Y1.3Ca0.7Cu4.65OZ Pb 1.35 Sr 4 Y 1.3 Ca 0.7 Cu 4.65 O Z 2 1991 2 Pb1212 3.817 11.864 K 41 41 "SYNTHESIS AND CHARACTERIZATION OF THE SUPERCONDUVTING CUPTATES(PB,CU)SR2(Y,CA)CU2OZ" 1991 4 "SUPERCONDUCTIVITY RESEACH LABORATORY,ISTEC,10-13,SINONOME 1-CYOME,KOTO-KU,YOKYO135,LAPAN" "PHYS.REV.B,43(1991)7866" "PB,SR,Y,CA,CU,O" 2271 PR0437866 Pb1.4Sr4Y1.2Ca0.8Cu4.6OZ Pb 1.4 Sr 4 Y 1.2 Ca 0.8 Cu 4.6 O Z 2 1991 Pb1212 K 52 52 "SYNTHESIS AND CHARACTERIZATION OF THE SUPERCONDUVTING CUPTATES(PB,CU)SR2(Y,CA)CU2OZ" 1991 4 "SUPERCONDUCTIVITY RESEACH LABORATORY,ISTEC,10-13,SINONOME 1-CYOME,KOTO-KU,YOKYO135,LAPAN" "PHYS.REV.B,43(1991)7866" "PB,SR,Y,CA,CU,O" 2272 PHC1710243 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1990 3 Y123 K 92.5 92.5 SP2272 1.95 405 THE ELECTRONIC SPECIFIC HEAT OF YBA2(CU1-ZNX)3O7 FROM 1.6 K TO300 K 1990 "SPECIFIC HEAT ,DENSITY OF STATES" "IRC IN SUPERCONDUCTIVITY, MADINGLEY ROAD, CAMBRIDGE CB3 OHE,UK" "PHYSICA C,171(1990)243" "Y,BA,CU,ZN,O" 2273 PHC1710243 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.97Zn0.03O7 Y 1 Ba 2 Cu 2.97 Zn 0.03 O 7 1 1990 3 Y123 K 79.5 79.5 SP2273 5.2 405 THE ELECTRONIC SPECIFIC HEAT OF YBA2(CU1-ZNX)3O7 FROM 1.6 K TO300 K 1990 "SPECIFIC HEAT ,DENSITY OF STATES" "IRC IN SUPERCONDUCTIVITY, MADINGLEY ROAD, CAMBRIDGE CB3 OHE,UK" "PHYSICA C,171(1990)243" "Y,BA,CU,ZN,O" 2274 PHC1710243 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.91Zn0.09O7 Y 1 Ba 2 Cu 2.91 Zn 0.09 O 7 1 1990 3 Y123 K 56 56 SP2274 12.35 403 THE ELECTRONIC SPECIFIC HEAT OF YBA2(CU1-ZNX)3O7 FROM 1.6 K TO300 K 1990 "SPECIFIC HEAT ,DENSITY OF STATES" "IRC IN SUPERCONDUCTIVITY, MADINGLEY ROAD, CAMBRIDGE CB3 OHE,UK" "PHYSICA C,171(1990)243" "Y,BA,CU,ZN,O" 2275 PHC1710243 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.85Zn0.15O7 Y 1 Ba 2 Cu 2.85 Zn 0.15 O 7 1 1990 3 Y123 K 43.5 43.5 SP2275 14.3 403 THE ELECTRONIC SPECIFIC HEAT OF YBA2(CU1-ZNX)3O7 FROM 1.6 K TO300 K 1990 "SPECIFIC HEAT ,DENSITY OF STATES" "IRC IN SUPERCONDUCTIVITY, MADINGLEY ROAD, CAMBRIDGE CB3 OHE,UK" "PHYSICA C,171(1990)243" "Y,BA,CU,ZN,O" 2276 PHC1710243 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.79Zn0.21O7 Y 1 Ba 2 Cu 2.79 Zn 0.21 O 7 1 1990 3 Y123 K 27 27 SP2276 17.55 395 THE ELECTRONIC SPECIFIC HEAT OF YBA2(CU1-ZNX)3O7 FROM 1.6 K TO300 K 1990 "SPECIFIC HEAT ,DENSITY OF STATES" "IRC IN SUPERCONDUCTIVITY, MADINGLEY ROAD, CAMBRIDGE CB3 OHE,UK" "PHYSICA C,171(1990)243" "Y,BA,CU,ZN,O" 2277 PHC1710243 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.7Zn0.3O7 Y 1 Ba 2 Cu 2.7 Zn 0.3 O 7 1 1990 3 Y123 K 19 19 SP2277 19.5 381 THE ELECTRONIC SPECIFIC HEAT OF YBA2(CU1-ZNX)3O7 FROM 1.6 K TO300 K 1990 "SPECIFIC HEAT ,DENSITY OF STATES" "IRC IN SUPERCONDUCTIVITY, MADINGLEY ROAD, CAMBRIDGE CB3 OHE,UK" "PHYSICA C,171(1990)243" "Y,BA,CU,ZN,O" 2278 JJP0271631 Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3OZ Tl 2 Ba 2 Ca 2 Cu 3 O Z 1988 2 Tl2223 5.45 35.59 K 114 114 500 100 1.3 18 1400 Upper and Lower Critical Fields of High-Tc Tl-Ba-Ca-Cu-O System 1988 9 "Institute for Materials Research, Tohoku University, Katahira, sendai 980" "Jpn.J.Appl.Phys,27(1988)L1631-L1633" 2279 APJ0300474 Y2Ba4Cu7O15 Y2Ba4Cu7O15-Z Y 2 Ba 4 Cu 7 O 15-Z 1 1991 K 41 41 Effect of Annealing Conditions on the Tc of the Y2Ba4Cu7O15-x Superconductor 1991 3 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135" Jpn.J.Appl.Phys.30(1991)474-475 2280 APJ0300474 Y2Ba4Cu7O15 Y2Ba4Cu7O15-Z Y 2 Ba 4 Cu 7 O 15-Z 1 1991 K 66 66 Effect of Annealing Conditions on the Tc of the Y2Ba4Cu7O15-x Superconductor 1991 3 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135" Jpn.J.Appl.Phys.30(1991)474-475 2281 APJ0300474 Y2Ba4Cu7O15 Y2Ba4Cu7O15-Z Y 2 Ba 4 Cu 7 O 15-Z 1 1991 K 75 75 Effect of Annealing Conditions on the Tc of the Y2Ba4Cu7O15-x Superconductor 1991 3 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135" Jpn.J.Appl.Phys.30(1991)474-475 2282 APJ0300474 Y2Ba4Cu7O15 Y2Ba4Cu7O15-Z Y 2 Ba 4 Cu 7 O 15-Z 1 1991 K 82 82 Effect of Annealing Conditions on the Tc of the Y2Ba4Cu7O15-x Superconductor 1991 3 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135" Jpn.J.Appl.Phys.30(1991)474-475 2283 APJ0300472 Dy0.35Ba0.65Cu1O3-Z Dy 0.35 Ba 0.65 Cu 1 O 3-Z 1 1991 5.2 3 Y123 3.821 3.876 11.629 K 92 106.5 99.25 SUPERCONDUCTIVITY IN PB2+ DOPED DY-BA-CUO SYSTEM 1991 3 JAPANESE J.APPL.PHYS.30(1991)472 2284 APJ0300472 Dy0.35Ba0.65Pb0.1Cu0.9O3-Z Dy 0.35 Ba 0.65 Pb 0.1 Cu 0.9 O 3-Z 1 1991 6.1 3 Y123 3.813 3.887 11.662 K 80 100.5 90.25 SUPERCONDUCTIVITY IN PB2+ DOPED DY-BA-CUO SYSTEM 1991 3 JAPANESE J.APPL.PHYS.30(1991)472 2285 PHC1720131 HALL=H PARALLEL C-AXIS YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 3 1990 3 Y123 K 85.5 0.7 85.5 0.27 1.10E-09 RH2285 COMPARISON OF HALL EFFECT NEAR TC IN YBCO 123 SINGLE CRYSTAL AND 124 CERAMICS 1990 "DEPARTEMENT DE LA PHYSIQUE DE LA MATIERE CONDENSEE, UNIVERSITEDE GENEVE, CH-1211 GENEVE, CH-1211 GENEVE 4, SWITZERLAND" "PHYSICA C,172(1990)131" "Y,BA,CU,O" 2286 PHC1720131 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1990 5.8 3 Y124 AMMM 3.84 3.87 27.227 K 79.6 2.5 79.6 0.42 RH2286 COMPARISON OF HALL EFFECT NEAR TC IN YBCO 123 SINGLE CRYSTAL AND 124 CERAMICS 1990 "DEPARTEMENT DE LA PHYSIQUE DE LA MATIERE CONDENSEE, UNIVERSITEDE GENEVE, CH-1211 GENEVE, CH-1211 GENEVE 4, SWITZERLAND" "PHYSICA C,172(1990)131" "Y,BA,CU,O" 2287 PHC1560027 "(Ba,K)BiO3" Ba0.65K0.35Bi1O3 Ba 0.65 K 0.35 Bi 1 O 3 1988 K 27 10 27 25 THE UPPER CRITICAL FIELD OF BA1-XKXBIO3 1988 "PHYSICA C,156(1988)27" 2288 PHC1560027 "(Ba,K)BiO3" Ba0.63K0.37Bi1O3 Ba 0.63 K 0.37 Bi 1 O 3 1988 K 27.7 7.5 27.7 85 21 0.86 THE UPPER CRITICAL FIELD OF BA1-XKXBIO3 1988 "PHYSICA C,156(1988)27" 2289 PHC1560027 "RE-ENTRANT BEHAVIOR BELOW 9K AT H=0.25,I=1MA" "(Ba,K)BiO3" Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 1988 K 28 2.6 28 60 16 0.63 THE UPPER CRITICAL FIELD OF BA1-XKXBIO3 1988 "PHYSICA C,156(1988)27" 2290 PHC1560027 "(Ba,K)BiO3" Ba0.55K0.45Bi1O3 Ba 0.55 K 0.45 Bi 1 O 3 1988 K 25.6 1.7 25.6 35 11 0.52 THE UPPER CRITICAL FIELD OF BA1-XKXBIO3 1988 "PHYSICA C,156(1988)27" 2291 PR0416582 "(Nd,Th)2CuO4" Nd1.85Th0.15Cu1O4 Nd 1.85 Th 0.15 Cu 1 O 4 1 1990 2 3.952 12.11 K 22.5 22.5 CATIONIC SUBSTITUTION AND ROLE OF OXYGEN IN THE N-TYPE SUPERCONDUCTING T' SYSTEM ND2-YCEYCUOZ 1990 4 "BELLCORE, 331 NEWMAN SPRINGS ROAD, RED BAND, NEW JERSEY 07701" "PHYS.REV.B,41(1990)6582" "ND,CE,CU,O" 2292 PR0416582 "(Nd,La,Th)2CuO4" Nd1.55La0.3Th0.15Cu1O4 Nd 1.55 La 0.3 Th 0.15 Cu 1 O 4 1 1990 2 3.961 12.16 K 22 22 CATIONIC SUBSTITUTION AND ROLE OF OXYGEN IN THE N-TYPE SUPERCONDUCTING T' SYSTEM ND2-YCEYCUOZ 1990 4 "BELLCORE, 331 NEWMAN SPRINGS ROAD, RED BAND, NEW JERSEY 07701" "PHYS.REV.B,41(1990)6582" "ND,CE,CU,O" 2293 PR0416582 "(Nd,La,Th)2CuO4" Nd1.25La0.6Th0.15Cu1O4 Nd 1.25 La 0.6 Th 0.15 Cu 1 O 4 1 1990 2 3.97 12.22 K 18 18 CATIONIC SUBSTITUTION AND ROLE OF OXYGEN IN THE N-TYPE SUPERCONDUCTING T' SYSTEM ND2-YCEYCUOZ 1990 4 "BELLCORE, 331 NEWMAN SPRINGS ROAD, RED BAND, NEW JERSEY 07701" "PHYS.REV.B,41(1990)6582" "ND,CE,CU,O" 2294 PR0416582 "(Nd,La,Th)2CuO4" Nd0.95La0.9Th0.15Cu1O4 Nd 0.95 La 0.9 Th 0.15 Cu 1 O 4 1 1990 2 3.981 12.26 K 16 16 CATIONIC SUBSTITUTION AND ROLE OF OXYGEN IN THE N-TYPE SUPERCONDUCTING T' SYSTEM ND2-YCEYCUOZ 1990 4 "BELLCORE, 331 NEWMAN SPRINGS ROAD, RED BAND, NEW JERSEY 07701" "PHYS.REV.B,41(1990)6582" "ND,CE,CU,O" 2295 PR0416582 "(Nd,La,Th)2CuO4" Nd0.85La1Th0.15Cu1O4 Nd 0.85 La 1 Th 0.15 Cu 1 O 4 1 1990 2 3.984 12.28 K 16 16 CATIONIC SUBSTITUTION AND ROLE OF OXYGEN IN THE N-TYPE SUPERCONDUCTING T' SYSTEM ND2-YCEYCUOZ 1990 4 "BELLCORE, 331 NEWMAN SPRINGS ROAD, RED BAND, NEW JERSEY 07701" "PHYS.REV.B,41(1990)6582" "ND,CE,CU,O" 2296 PR0416582 "(Eu,La,Ce)2CuO4" Eu1.55La0.3Ce0.15Cu1O4 Eu 1.55 La 0.3 Ce 0.15 Cu 1 O 4 1 1990 2 3.923 11.93 K 10 10 CATIONIC SUBSTITUTION AND ROLE OF OXYGEN IN THE N-TYPE SUPERCONDUCTING T' SYSTEM ND2-YCEYCUOZ 1990 4 "BELLCORE, 331 NEWMAN SPRINGS ROAD, RED BAND, NEW JERSEY 07701" "PHYS.REV.B,41(1990)6582" "ND,CE,CU,O" 2297 PR0416582 "(Eu,La,Ce)2CuO4" Eu1.25La0.6Ce0.15Cu1O4 Eu 1.25 La 0.6 Ce 0.15 Cu 1 O 4 1 1990 2 3.938 12.02 K 15 15 CATIONIC SUBSTITUTION AND ROLE OF OXYGEN IN THE N-TYPE SUPERCONDUCTING T' SYSTEM ND2-YCEYCUOZ 1990 4 "BELLCORE, 331 NEWMAN SPRINGS ROAD, RED BAND, NEW JERSEY 07701" "PHYS.REV.B,41(1990)6582" "ND,CE,CU,O" 2298 PR0416582 "(Eu,La,Ce)2CuO4" Eu0.95La0.9Ce0.15Cu1O4 Eu 0.95 La 0.9 Ce 0.15 Cu 1 O 4 1 1990 2 3.952 12.1 K 17.5 17.5 CATIONIC SUBSTITUTION AND ROLE OF OXYGEN IN THE N-TYPE SUPERCONDUCTING T' SYSTEM ND2-YCEYCUOZ 1990 4 "BELLCORE, 331 NEWMAN SPRINGS ROAD, RED BAND, NEW JERSEY 07701" "PHYS.REV.B,41(1990)6582" "ND,CE,CU,O" 2299 PR0416582 "(Eu,La,Ce)2CuO4" Eu0.85La1Ce0.15Cu1O4 Eu 0.85 La 1 Ce 0.15 Cu 1 O 4 1 1990 2 3.958 12.14 K 15 15 CATIONIC SUBSTITUTION AND ROLE OF OXYGEN IN THE N-TYPE SUPERCONDUCTING T' SYSTEM ND2-YCEYCUOZ 1990 4 "BELLCORE, 331 NEWMAN SPRINGS ROAD, RED BAND, NEW JERSEY 07701" "PHYS.REV.B,41(1990)6582" "ND,CE,CU,O" 2300 PR0416582 "(Eu,La,Ce)2CuO4" Eu0.65La1.2Ce0.15Cu1O4 Eu 0.65 La 1.2 Ce 0.15 Cu 1 O 4 1 1990 2 3.97 12.2 K 11 11 CATIONIC SUBSTITUTION AND ROLE OF OXYGEN IN THE N-TYPE SUPERCONDUCTING T' SYSTEM ND2-YCEYCUOZ 1990 4 "BELLCORE, 331 NEWMAN SPRINGS ROAD, RED BAND, NEW JERSEY 07701" "PHYS.REV.B,41(1990)6582" "ND,CE,CU,O" 2301 PR0416582 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 1 1990 2 T' 3.944 12.09 K 24 24 CATIONIC SUBSTITUTION AND ROLE OF OXYGEN IN THE N-TYPE SUPERCONDUCTING T' SYSTEM ND2-YCEYCUOZ 1990 4 "BELLCORE, 331 NEWMAN SPRINGS ROAD, RED BAND, NEW JERSEY 07701" "PHYS.REV.B,41(1990)6582" "ND,CE,CU,O" 2302 PR0416582 "(Nd,La,Ce)2CuO4" Nd1.55La0.3Ce0.15Cu1O4 Nd 1.55 La 0.3 Ce 0.15 Cu 1 O 4 1 1990 2 3.954 12.12 K 25.2 25.2 CATIONIC SUBSTITUTION AND ROLE OF OXYGEN IN THE N-TYPE SUPERCONDUCTING T' SYSTEM ND2-YCEYCUOZ 1990 4 "BELLCORE, 331 NEWMAN SPRINGS ROAD, RED BAND, NEW JERSEY 07701" "PHYS.REV.B,41(1990)6582" "ND,CE,CU,O" 2303 PR0416582 "(Nd.La,Ce)2CuO4" Nd1.25La0.6Ce0.15Cu1O4 Nd 1.25 La 0.6 Ce 0.15 Cu 1 O 4 1 1990 2 3.963 12.16 K 23 23 CATIONIC SUBSTITUTION AND ROLE OF OXYGEN IN THE N-TYPE SUPERCONDUCTING T' SYSTEM ND2-YCEYCUOZ 1990 4 "BELLCORE, 331 NEWMAN SPRINGS ROAD, RED BAND, NEW JERSEY 07701" "PHYS.REV.B,41(1990)6582" "ND,CE,CU,O" 2304 PR0416582 "(Nd,La,Ce)2CuO4" Nd0.95La0.9Ce0.15Cu1O4 Nd 0.95 La 0.9 Ce 0.15 Cu 1 O 4 1 1990 2 3.972 12.22 K 22 22 CATIONIC SUBSTITUTION AND ROLE OF OXYGEN IN THE N-TYPE SUPERCONDUCTING T' SYSTEM ND2-YCEYCUOZ 1990 4 "BELLCORE, 331 NEWMAN SPRINGS ROAD, RED BAND, NEW JERSEY 07701" "PHYS.REV.B,41(1990)6582" "ND,CE,CU,O" 2305 PR0416582 "(Nd,La,Ce)2CuO4" Nd0.85La1Ce0.15Cu1O4 Nd 0.85 La 1 Ce 0.15 Cu 1 O 4 1 1990 2 3.978 12.25 K 15 15 CATIONIC SUBSTITUTION AND ROLE OF OXYGEN IN THE N-TYPE SUPERCONDUCTING T' SYSTEM ND2-YCEYCUOZ 1990 4 "BELLCORE, 331 NEWMAN SPRINGS ROAD, RED BAND, NEW JERSEY 07701" "PHYS.REV.B,41(1990)6582" "ND,CE,CU,O" 2306 PHC1620476 KAI=EMU/G Tl2Ba2CuO6 Tl2Ba2Cu1O6+Z Tl 2 Ba 2 Cu 1 O 6+Z 1 1989 -1.73E+25 Tl2201 K 238 "SPECIFIC HEAT (1-330K), MAGNETIC SUSCEPTIBILITY AND MEISSNER EFFECT OF Tl-Ba-Ca-Cu-O SAMPLES" 1989 "Departement de physique de la matiere condense'e, Universite' de Gene've, CH-1211 Gene've 4, Switzerland" "Physica.C,162-164(1989)476-477" 2307 PHC1620476 "KAI=EMU/G,GAMMA<6.8" Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O8+Z Tl 2 Ba 2 Ca 1 Cu 2 O 8+Z 1 1989 Tl2212 K 106 8.8 106 51 254 "SPECIFIC HEAT (1-330K), MAGNETIC SUSCEPTIBILITY AND MEISSNER EFFECT OF Tl-Ba-Ca-Cu-O SAMPLES" 1989 "Departement de physique de la matiere condense'e, Universite' de Gene've, CH-1211 Gene've 4, Switzerland" "Physica.C,162-164(1989)476-477" 2308 PHC1620476 KAI=EMU/G Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O10+Z Tl 2 Ba 2 Ca 2 Cu 3 O 10+Z 2 1989 Tl2223 K 129 9.8 129 24 290 "SPECIFIC HEAT (1-330K), MAGNETIC SUSCEPTIBILITY AND MEISSNER EFFECT OF Tl-Ba-Ca-Cu-O SAMPLES" 1989 "Departement de physique de la matiere condense'e, Universite' de Gene've, CH-1211 Gene've 4, Switzerland" "Physica.C,162-164(1989)476-477" 2309 PRB0397347 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1989 Y124 3.84 3.87 27.231 K 80.4 80.4 EIGHT NEW HIGH-TEMPERATURE SUPERCONDUCTORS WITH THE 1:2:4 STRUCTURE 1989 4 "TC ,SUS ,COMPOUNDS ,NEW PHASE ,STOICHIOMETRY" "PHYSICS DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "Phys.Rev.B,39(1989)7347" "ND,SM,BA,CU,O,R" 2310 PRB0397347 SmBa2Cu4O8 Sm1Ba2Cu4O8 Sm 1 Ba 2 Cu 4 O 8 2 1989 Y124 3.872 3.886 27.308 K 69.3 69.3 EIGHT NEW HIGH-TEMPERATURE SUPERCONDUCTORS WITH THE 1:2:4 STRUCTURE 1989 4 "TC ,SUS ,COMPOUNDS ,NEW PHASE ,STOICHIOMETRY" "PHYSICS DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "Phys.Rev.B,39(1989)7347" "ND,SM,BA,CU,O,R" 2311 PRB0397347 EuBa2Cu4O8 Eu1Ba2Cu4O8 Eu 1 Ba 2 Cu 4 O 8 2 1989 Y124 3.865 3.884 27.279 K 68.9 68.9 EIGHT NEW HIGH-TEMPERATURE SUPERCONDUCTORS WITH THE 1:2:4 STRUCTURE 1989 4 "TC ,SUS ,COMPOUNDS ,NEW PHASE ,STOICHIOMETRY" "PHYSICS DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "Phys.Rev.B,39(1989)7347" "ND,SM,BA,CU,O,R" 2312 PRB0397347 GdBa2Cu4O8 Gd1Ba2Cu4O8 Gd 1 Ba 2 Cu 4 O 8 2 1989 Y124 3.863 3.881 27.259 K 73.4 73.4 EIGHT NEW HIGH-TEMPERATURE SUPERCONDUCTORS WITH THE 1:2:4 STRUCTURE 1989 4 "TC ,SUS ,COMPOUNDS ,NEW PHASE ,STOICHIOMETRY" "PHYSICS DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "Phys.Rev.B,39(1989)7347" "ND,SM,BA,CU,O,R" 2313 PRB0397347 DyBa2Cu4O8 Dy1Ba2Cu4O8 Dy 1 Ba 2 Cu 4 O 8 1 1989 Y124 3.846 3.873 27.237 K 77.2 77.2 EIGHT NEW HIGH-TEMPERATURE SUPERCONDUCTORS WITH THE 1:2:4 STRUCTURE 1989 4 "TC ,SUS ,COMPOUNDS ,NEW PHASE ,STOICHIOMETRY" "PHYSICS DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "Phys.Rev.B,39(1989)7347" "ND,SM,BA,CU,O,R" 2314 PHC1650251 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-Z Nd 1.85 Ce 0.15 Cu 1 O 4-Z 1 1990 T' K 19.5 19.5 133 5.1 0.38 "MAGNETIC PROPERTIES OF LN2-XCEXCUO4-Z(LN=ND,PR,SM) IN THE SUPERCONDUCTING AND NORMAL-CONDUCTING STATE" 1990 "PHYSIKALISCHES INSTITUTE, UNIVERSITAT ERLANGEN, 8520 ERLANGEN,FED.TEP. GERMANY" "PHYSICA C,165(1990)251" "ND,PR,SM,CE,CU,O" 2315 PRB0397347 HoBa2Cu4O8 Ho1Ba2Cu4O8 Ho 1 Ba 2 Cu 4 O 8 1 1989 3 Y124 3.84 3.87 27.221 K 77.4 77.4 EIGHT NEW HIGH-TEMPERATURE SUPERCONDUCTORS WITH THE 1:2:4 STRUCTURE 1989 4 "TC ,SUS ,COMPOUNDS ,NEW PHASE ,STOICHIOMETRY" "PHYSICS DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "Phys.Rev.B,39(1989)7347" "ND,SM,BA,CU,O,R" 2316 PRB0397347 ErBa2Cu4O8 Er1Ba2Cu4O8 Er 1 Ba 2 Cu 4 O 8 1 1989 3 Y124 3.837 3.869 27.23 K 78.3 78.3 EIGHT NEW HIGH-TEMPERATURE SUPERCONDUCTORS WITH THE 1:2:4 STRUCTURE 1989 4 "TC ,SUS ,COMPOUNDS ,NEW PHASE ,STOICHIOMETRY" "PHYSICS DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "Phys.Rev.B,39(1989)7347" "ND,SM,BA,CU,O,R" 2317 PRB0397347 TmBa2Cu4O8 Tm1Ba2Cu4O8 Tm 1 Ba 2 Cu 4 O 8 1 1989 3 Y124 3.827 3.864 27.18 K 78.6 78.6 EIGHT NEW HIGH-TEMPERATURE SUPERCONDUCTORS WITH THE 1:2:4 STRUCTURE 1989 4 "TC ,SUS ,COMPOUNDS ,NEW PHASE ,STOICHIOMETRY" "PHYSICS DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "Phys.Rev.B,39(1989)7347" "ND,SM,BA,CU,O,R" 2318 PHC1590195 "E-PH COUPLING CONST.=2.8,KAIZERO=EMU/MOLE" SmBa2Cu3O7 Sm1Ba2Cu3O7 Sm 1 Ba 2 Cu 3 O 7 1 1989 38 3 Y123 3.853 3.908 11.73 K 88.1 3.3 88.1 42 580 137 9 680 MAGNETIC CHARACTERISTICS OF NORMAL AND SUPERCONDUCTIVE STATES IN SmBa2Cu3O7 1989 "Institute of Physics, Chinese Academy of Sciences Beijing, P.O. Box P.R. China" "Physica.C,159(1989)195-200" 2319 PRL0621197 "(Pr,Ce)2CuO4" Pr1.86Ce0.14Cu1O4-Z Pr 1.86 Ce 0.14 Cu 1 O 4-Z 1 1989 2 T' K 20 20 SUPERCONDUCTIVITY PRODUCED BY ELECTRON DOPING IN CUO2-LAYEREDCOMPOUNDS 1989 3 "ENGINEERING RESEARCH INSTITUTE,UNIVERSITY OF TOKYO,BUNKYO-KU,TOKYO 113,JAPAN" PHYS.REV.LETT.62(1989)1197 "ND,CE,CU,O" 2320 PRL0621197 "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4-Z Pr 1.85 Ce 0.15 Cu 1 O 4-Z 1 1989 2 T' K 17.8 17.8 SUPERCONDUCTIVITY PRODUCED BY ELECTRON DOPING IN CUO2-LAYEREDCOMPOUNDS 1989 3 "ENGINEERING RESEARCH INSTITUTE,UNIVERSITY OF TOKYO,BUNKYO-KU,TOKYO 113,JAPAN" PHYS.REV.LETT.62(1989)1197 "ND,CE,CU,O" 2321 PRL0621197 "(Pr,Ce)2CuO4" Pr1.84Ce0.16Cu1O4-Z Pr 1.84 Ce 0.16 Cu 1 O 4-Z 1 1989 2 T' K 12.3 12.3 SUPERCONDUCTIVITY PRODUCED BY ELECTRON DOPING IN CUO2-LAYEREDCOMPOUNDS 1989 3 "ENGINEERING RESEARCH INSTITUTE,UNIVERSITY OF TOKYO,BUNKYO-KU,TOKYO 113,JAPAN" PHYS.REV.LETT.62(1989)1197 "ND,CE,CU,O" 2322 PRL0621197 "(Pr,Ce)2CuO4" Pr1.82Ce0.18Cu1O4-Z Pr 1.82 Ce 0.18 Cu 1 O 4-Z 1 1989 2 T' K SUPERCONDUCTIVITY PRODUCED BY ELECTRON DOPING IN CUO2-LAYEREDCOMPOUNDS 1989 3 "ENGINEERING RESEARCH INSTITUTE,UNIVERSITY OF TOKYO,BUNKYO-KU,TOKYO 113,JAPAN" PHYS.REV.LETT.62(1989)1197 "ND,CE,CU,O" 2323 NAT3370345 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O3.93 Nd 1.85 Ce 0.15 Cu 1 O 3.93 3.93 1 1989 2 T' K 24 24 -6.50E-10 -2.30E-09 A superconducting copper oxide compound with electrons as the charge carriers 1989 "Department of Physics and Engineering Research Institute, University of Tokyo, Tokyo, Japan" "Nature, 337(1989)345" 2324 NAT3390293 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-Z Nd 1.85 Ce 0.15 Cu 1 O 4-Z 1 1989 2 T' K 22.3 22.3 1989 Nature 339(1989)293-294 2325 NAT3390293 "(Nd,Ce,Sr)2CuO4" Nd1.3Ce0.2Sr0.15Cu1O4-Z Nd 1.3 Ce 0.2 Sr 0.15 Cu 1 O 4-Z 1 1989 2 T' K 23.76 23.76 K/GPa 3 1989 Nature 339(1989)293-294 2326 PHC1620957 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O3.98 Nd 1.85 Ce 0.15 Cu 1 O 3.98 3.98 1 1989 2 T' K 19.5 19.5 400 1.5 "PROCESSING AND SUPERCONDUCTING PROPERTIES OF THE ELECTRON-DOPED COMPOUNDS Ln2-xMxCuO4-y(Ln=Pr,Nd,Sm,Eu,Gd;=Ce,Th)" 1989 "Institute for Pure and Applied Physical Sciences and Department of Physics, University of California, San Diego, La Jolla, CA 92093 USA" "Physica.C,162-164(1989)957-958" 2327 PRB0406739 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1989 3 Y123 3.825 3.9 11.66 K 91 91 17 MAGNETIC ORDER AND SUPERCONDUCTIVITY IN Y1-XPRXBA2CU3O7 1989 10 "MOSSBAUER ,ANTIFERROMAGNETIC ,SPECIFIC-HEAT" "THE RACAH INSTITUTE OF PHYSICS, THE HEBREW UNIVERSITY OF JERUSALEM, 91904 JERUSALEM, ISRAEL" "PHYS.REV.B,40(1989)6739" "Y,PR,BA,CU,O,FE" 2328 PRB0406739 "(Y,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O7 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7 1 1989 3 Y123 3.83 3.905 11.67 K 67 67 64 MAGNETIC ORDER AND SUPERCONDUCTIVITY IN Y1-XPRXBA2CU3O7 1989 10 "MOSSBAUER ,ANTIFERROMAGNETIC ,SPECIFIC-HEAT" "THE RACAH INSTITUTE OF PHYSICS, THE HEBREW UNIVERSITY OF JERUSALEM, 91904 JERUSALEM, ISRAEL" "PHYS.REV.B,40(1989)6739" "Y,PR,BA,CU,O,FE" 2329 PRB0406739 "(Y,Pr)Ba2Cu3O7" Y0.6Pr0.4Ba2Cu3O7 Y 0.6 Pr 0.4 Ba 2 Cu 3 O 7 1 1989 3 Y123 3.83 3.921 11.68 K 35 35 138 MAGNETIC ORDER AND SUPERCONDUCTIVITY IN Y1-XPRXBA2CU3O7 1989 10 "MOSSBAUER ,ANTIFERROMAGNETIC ,SPECIFIC-HEAT" "THE RACAH INSTITUTE OF PHYSICS, THE HEBREW UNIVERSITY OF JERUSALEM, 91904 JERUSALEM, ISRAEL" "PHYS.REV.B,40(1989)6739" "Y,PR,BA,CU,O,FE" 2330 PRB0406739 NEELT=PR ORDER "(Y,Pr)Ba2Cu3O7" Y0.4Pr0.6Ba2Cu3O7 Y 0.4 Pr 0.6 Ba 2 Cu 3 O 7 1 1989 6.4 3 Y123 3.845 3.906 11.69 K 180 MAGNETIC ORDER AND SUPERCONDUCTIVITY IN Y1-XPRXBA2CU3O7 1989 10 "MOSSBAUER ,ANTIFERROMAGNETIC ,SPECIFIC-HEAT" "THE RACAH INSTITUTE OF PHYSICS, THE HEBREW UNIVERSITY OF JERUSALEM, 91904 JERUSALEM, ISRAEL" "PHYS.REV.B,40(1989)6739" "Y,PR,BA,CU,O,FE" 2331 PRB0406739 NEELT=PR ORDER "(Y,Pr)Ba2Cu3O7" Y0.2Pr0.8Ba2Cu3O7 Y 0.2 Pr 0.8 Ba 2 Cu 3 O 7 1 1989 12 3 Y123 3.852 3.916 11.69 K 216 MAGNETIC ORDER AND SUPERCONDUCTIVITY IN Y1-XPRXBA2CU3O7 1989 10 "MOSSBAUER ,ANTIFERROMAGNETIC ,SPECIFIC-HEAT" "THE RACAH INSTITUTE OF PHYSICS, THE HEBREW UNIVERSITY OF JERUSALEM, 91904 JERUSALEM, ISRAEL" "PHYS.REV.B,40(1989)6739" "Y,PR,BA,CU,O,FE" 2332 PRB0406739 NEELT=PR ORDER PrBa2Cu3O7 Pr1Ba2Ba2Cu3O7 Pr 1 Ba 2 Ba 2 Cu 3 O 7 1 1989 17 3 Y123 3.873 3.915 11.67 K 300 MAGNETIC ORDER AND SUPERCONDUCTIVITY IN Y1-XPRXBA2CU3O7 1989 10 "MOSSBAUER ,ANTIFERROMAGNETIC ,SPECIFIC-HEAT" "THE RACAH INSTITUTE OF PHYSICS, THE HEBREW UNIVERSITY OF JERUSALEM, 91904 JERUSALEM, ISRAEL" "PHYS.REV.B,40(1989)6739" "Y,PR,BA,CU,O,FE" 2333 PR0435430 YBa2Cu3O7 Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O 7-Z 6.95 1 1991 3 Y123 PMMM K 92.2 0.7 92.2 LOW-TEMPERATURE SPECIFIC HEAT OF THE Y1-XPRXBA2CU3O7-Z SISTEM 1991 3 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA 92093" "PHYS.REV.B,43(1991)5430" "Y,PR,BA,CU,O" 2334 PR0435430 "(Y,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O6.95 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 6.95 1 1991 3 Y123 PMMM K 73.3 2.7 73.3 49.4 LOW-TEMPERATURE SPECIFIC HEAT OF THE Y1-XPRXBA2CU3O7-Z SISTEM 1991 3 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA 92093" "PHYS.REV.B,43(1991)5430" "Y,PR,BA,CU,O" 2335 PR0435430 "(Y,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3O6.95 Y 0.7 Pr 0.3 Ba 2 Cu 3 O 7-Z 6.95 1 1991 3 Y123 PMMM K 62.5 3.9 62.5 70.5 LOW-TEMPERATURE SPECIFIC HEAT OF THE Y1-XPRXBA2CU3O7-Z SISTEM 1991 3 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA 92093" "PHYS.REV.B,43(1991)5430" "Y,PR,BA,CU,O" 2336 PR0435430 "(Y,Pr)Ba2Cu3O7" Y0.6Pr0.4Ba2Cu3O6.95 Y 0.6 Pr 0.4 Ba 2 Cu 3 O 7-Z 6.95 1 1991 3 Y123 PMMM K 45.3 2.8 45.3 40.4 LOW-TEMPERATURE SPECIFIC HEAT OF THE Y1-XPRXBA2CU3O7-Z SISTEM 1991 3 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA 92093" "PHYS.REV.B,43(1991)5430" "Y,PR,BA,CU,O" 2337 PR0435430 "(Y,Pr)Ba2Cu3O7" Y0.4Pr0.6Ba2Cu3O6.95 Y 0.4 Pr 0.6 Ba 2 Cu 3 O 7-Z 6.95 1 1991 3 Y123 PMMM K 9 9.6 9 84.6 LOW-TEMPERATURE SPECIFIC HEAT OF THE Y1-XPRXBA2CU3O7-Z SISTEM 1991 3 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA 92093" "PHYS.REV.B,43(1991)5430" "Y,PR,BA,CU,O" 2338 PR0435430 "(Y,Pr)Ba2Cu3O7" Y0.2Pr0.8Ba2Cu3O6.95 Y 0.2 Pr 0.8 Ba 2 Cu 3 O 7-Z 6.95 1 1991 3 Y123 PMMM K 104 LOW-TEMPERATURE SPECIFIC HEAT OF THE Y1-XPRXBA2CU3O7-Z SISTEM 1991 3 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA 92093" "PHYS.REV.B,43(1991)5430" "Y,PR,BA,CU,O" 2339 PR0435430 PrBa2Cu3O7 Pr1Ba2Cu3O6.95 Pr 1 Ba 2 Cu 3 O 7-Z 6.95 1 1991 3 Y123 PMMM K 94 LOW-TEMPERATURE SPECIFIC HEAT OF THE Y1-XPRXBA2CU3O7-Z SISTEM 1991 3 "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CALIFORNIA 92093" "PHYS.REV.B,43(1991)5430" "Y,PR,BA,CU,O" 2340 PRL0651945 "MOSSBAUER,0.1%FE" YBa2Cu3O7 Y1Ba2Cu3O6+Z Y 1 Ba 2 Cu 3 O 6+Z 1 1990 410 Y123 K "COMPETITION BETWEEN SUPERCONDUCTIVITY AND ANTIFERROMAGNETISMINCU(2) LAYERS OF Y1-XPRXBA2CU3-YMYOZ,M=FE,CO,ZN" 1990 10 "ANTIFERROMAGNETIC ,PHASE TRANSITION ,MOSSBAUER" "THE RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY OF JERUSALEM,JERUSALEM 91904,ISRAEL" "PHYS.REV.LETT.,65(1990)1945" "Y,PR,BA,CU,FE,CO,ZN,O" 2341 PRL0651945 "MOSSBAUER,0.1%FE" "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.93Zn0.07O6+Z Y 1 Ba 2 Cu 2.93 Zn 0.07 O 6+Z 1 1990 270 Y123 K "COMPETITION BETWEEN SUPERCONDUCTIVITY AND ANTIFERROMAGNETISMINCU(2) LAYERS OF Y1-XPRXBA2CU3-YMYOZ,M=FE,CO,ZN" 1990 10 "ANTIFERROMAGNETIC ,PHASE TRANSITION ,MOSSBAUER" "THE RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY OF JERUSALEM,JERUSALEM 91904,ISRAEL" "PHYS.REV.LETT.,65(1990)1945" "Y,PR,BA,CU,FE,CO,ZN,O" 2342 PRL0651945 "MOSSBAUER,0.1%FE" "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.87Zn0.13O6+Z Y 1 Ba 2 Cu 2.87 Zn 0.13 O 6+Z 1 1990 240 Y123 K "COMPETITION BETWEEN SUPERCONDUCTIVITY AND ANTIFERROMAGNETISMINCU(2) LAYERS OF Y1-XPRXBA2CU3-YMYOZ,M=FE,CO,ZN" 1990 10 "ANTIFERROMAGNETIC ,PHASE TRANSITION ,MOSSBAUER" "THE RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY OF JERUSALEM,JERUSALEM 91904,ISRAEL" "PHYS.REV.LETT.,65(1990)1945" "Y,PR,BA,CU,FE,CO,ZN,O" 2343 PRL0651945 "MOSSBAUER,0.1%FE" "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.81Zn0.19O6+Z Y 1 Ba 2 Cu 2.81 Zn 0.19 O 6+Z 1 1990 217 Y123 K "COMPETITION BETWEEN SUPERCONDUCTIVITY AND ANTIFERROMAGNETISMINCU(2) LAYERS OF Y1-XPRXBA2CU3-YMYOZ,M=FE,CO,ZN" 1990 10 "ANTIFERROMAGNETIC ,PHASE TRANSITION ,MOSSBAUER" "THE RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY OF JERUSALEM,JERUSALEM 91904,ISRAEL" "PHYS.REV.LETT.,65(1990)1945" "Y,PR,BA,CU,FE,CO,ZN,O" 2344 PRL0651945 "MOSSBAUER,0.1%FE" "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.75Zn0.25O6+Z Y 1 Ba 2 Cu 2.75 Zn 0.25 O 6+Z 1 1990 148 Y123 K "COMPETITION BETWEEN SUPERCONDUCTIVITY AND ANTIFERROMAGNETISMINCU(2) LAYERS OF Y1-XPRXBA2CU3-YMYOZ,M=FE,CO,ZN" 1990 10 "ANTIFERROMAGNETIC ,PHASE TRANSITION ,MOSSBAUER" "THE RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY OF JERUSALEM,JERUSALEM 91904,ISRAEL" "PHYS.REV.LETT.,65(1990)1945" "Y,PR,BA,CU,FE,CO,ZN,O" 2345 PRL0651945 "MOSSBAUER,0.1%FE" "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.7Zn0.3O6+Z Y 1 Ba 2 Cu 2.7 Zn 0.3 O 6+Z 1 1990 Y123 K "COMPETITION BETWEEN SUPERCONDUCTIVITY AND ANTIFERROMAGNETISMINCU(2) LAYERS OF Y1-XPRXBA2CU3-YMYOZ,M=FE,CO,ZN" 1990 10 "ANTIFERROMAGNETIC ,PHASE TRANSITION ,MOSSBAUER" "THE RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY OF JERUSALEM,JERUSALEM 91904,ISRAEL" "PHYS.REV.LETT.,65(1990)1945" "Y,PR,BA,CU,FE,CO,ZN,O" 2346 PRB0406739 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.7Fe0.3O7.1 Y 1 Ba 2 Cu 2.7 Fe 0.3 O 7.1 7.1 1 1989 2 Y123 3.875 11.68 K 69 69 MAGNETIC ORDER AND SUPERCONDUCTIVITY IN Y1-XPRXBA2CU3O7 1989 10 "MOSSBAUER ,ANTIFERROMAGNETIC ,SPECIFIC-HEAT" "THE RACAH INSTITUTE OF PHYSICS, THE HEBREW UNIVERSITY OF JERUSALEM, 91904 JERUSALEM, ISRAEL" "PHYS.REV.B,40(1989)6739" "Y,PR,BA,CU,O,FE" 2347 PRB0406739 "(Y,Pr)Ba2(Cu,Fe)3O7" Y0.8Pr0.2Ba2Cu2.7Fe0.3O7.1 Y 0.8 Pr 0.2 Ba 2 Cu 2.7 Fe 0.3 O 7.1 7.1 1 1989 2 Y123 3.879 11.69 K 25 25 MAGNETIC ORDER AND SUPERCONDUCTIVITY IN Y1-XPRXBA2CU3O7 1989 10 "MOSSBAUER ,ANTIFERROMAGNETIC ,SPECIFIC-HEAT" "THE RACAH INSTITUTE OF PHYSICS, THE HEBREW UNIVERSITY OF JERUSALEM, 91904 JERUSALEM, ISRAEL" "PHYS.REV.B,40(1989)6739" "Y,PR,BA,CU,O,FE" 2348 PRB0406739 NEELT=CU(2) "(Y,Pr)Ba2(Cu,Fe)3O7" Y0.6Pr0.4Ba2Cu2.7Fe0.3O7.1 Y 0.6 Pr 0.4 Ba 2 Cu 2.7 Fe 0.3 O 7.1 7.1 1 1989 30 2 Y123 3.881 11.7 K MAGNETIC ORDER AND SUPERCONDUCTIVITY IN Y1-XPRXBA2CU3O7 1989 10 "MOSSBAUER ,ANTIFERROMAGNETIC ,SPECIFIC-HEAT" "THE RACAH INSTITUTE OF PHYSICS, THE HEBREW UNIVERSITY OF JERUSALEM, 91904 JERUSALEM, ISRAEL" "PHYS.REV.B,40(1989)6739" "Y,PR,BA,CU,O,FE" 2349 PRB0406739 "NEELT=CU(2) ORDER,PR ORDER=5.5K" "(Y,Pr)Ba2(Cu,Fe)3O7" Y0.4Pr0.6Ba2Cu2.7Fe0.3O7.1 Y 0.4 Pr 0.6 Ba 2 Cu 2.7 Fe 0.3 O 7.1 7.1 1 1989 230 2 Y123 3.884 11.7 K MAGNETIC ORDER AND SUPERCONDUCTIVITY IN Y1-XPRXBA2CU3O7 1989 10 "MOSSBAUER ,ANTIFERROMAGNETIC ,SPECIFIC-HEAT" "THE RACAH INSTITUTE OF PHYSICS, THE HEBREW UNIVERSITY OF JERUSALEM, 91904 JERUSALEM, ISRAEL" "PHYS.REV.B,40(1989)6739" "Y,PR,BA,CU,O,FE" 2350 PRB0406739 "NEELT=CU(2) ORDER,PR ORDER=7.5K" "(Y,Pr)Ba2(Cu,Fe)3O7" Y0.2Pr0.8Ba2Cu2.7Fe0.3O7.1 Y 0.2 Pr 0.8 Ba 2 Cu 2.7 Fe 0.3 O 7.1 7.1 1 1989 300 2 Y123 3.909 11.73 K MAGNETIC ORDER AND SUPERCONDUCTIVITY IN Y1-XPRXBA2CU3O7 1989 10 "MOSSBAUER ,ANTIFERROMAGNETIC ,SPECIFIC-HEAT" "THE RACAH INSTITUTE OF PHYSICS, THE HEBREW UNIVERSITY OF JERUSALEM, 91904 JERUSALEM, ISRAEL" "PHYS.REV.B,40(1989)6739" "Y,PR,BA,CU,O,FE" 2351 PRB0406739 "NEELT=CU(2) ORDER,PR ORDER=12K" "PrBa2(Cu,Fe)3O7" Pr1Ba2Cu2.7Fe3O7.1 Pr 1 Ba 2 Cu 2.7 Fe 3 O 7.1 7.1 1 1989 325 2 Y123 3.917 11.75 K MAGNETIC ORDER AND SUPERCONDUCTIVITY IN Y1-XPRXBA2CU3O7 1989 10 "MOSSBAUER ,ANTIFERROMAGNETIC ,SPECIFIC-HEAT" "THE RACAH INSTITUTE OF PHYSICS, THE HEBREW UNIVERSITY OF JERUSALEM, 91904 JERUSALEM, ISRAEL" "PHYS.REV.B,40(1989)6739" "Y,PR,BA,CU,O,FE" 2352 PHC1580178 Nd2CuO4 Nd2Cu1O3.93 Nd 2 Cu 1 O 4 3.93 1 1989 2 T' K SP2352 "TWO NEW ELECTRON CUPRATE SUPERCONDUCTORS,PR(1.85)TH(0.15)CUO(4-Y) AND EU(1.85)CE(0.15)CUO(4-Y),AND PROPERTIES OF ND(2-X)CE(X)O(4-Y)" 1989 4 "NEW MATERIAL ,RES ,SUS ,OXYGEN CONTENT ,SPECIFIC HEAT" "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCE,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CA 92093,USA" "PHYSICA C ,158(1989)178" "EU,CE,CU,O,PR,TH,ND" 2353 PHC1580178 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O3.98 Nd 1.85 Ce 0.15 Cu 1 O 4 3.98 1 1989 2 T' K SP2353 "TWO NEW ELECTRON CUPRATE SUPERCONDUCTORS,PR(1.85)TH(0.15)CUO(4-Y) AND EU(1.85)CE(0.15)CUO(4-Y),AND PROPERTIES OF ND(2-X)CE(X)O(4-Y)" 1989 4 "NEW MATERIAL ,RES ,SUS ,OXYGEN CONTENT ,SPECIFIC HEAT" "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCE,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CA 92093,USA" "PHYSICA C ,158(1989)178" "EU,CE,CU,O,PR,TH,ND" 2354 PHC1580178 "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4 Pr 1.85 Ce 0.15 Cu 1 O 4 1 1989 2 T' K 19 2 19 "TWO NEW ELECTRON CUPRATE SUPERCONDUCTORS,PR(1.85)TH(0.15)CUO(4-Y) AND EU(1.85)CE(0.15)CUO(4-Y),AND PROPERTIES OF ND(2-X)CE(X)O(4-Y)" 1989 4 "NEW MATERIAL ,RES ,SUS ,OXYGEN CONTENT ,SPECIFIC HEAT" "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCE,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CA 92093,USA" "PHYSICA C ,158(1989)178" "EU,CE,CU,O,PR,TH,ND" 2355 PHC1580178 "(Eu,Ce)2CuO4" Eu1.85Ce0.15Cu1O4 Eu 1.85 Ce 0.15 Cu 1 O 4 1 1989 2 T' K 8 12.5 6 8 "TWO NEW ELECTRON CUPRATE SUPERCONDUCTORS,PR(1.85)TH(0.15)CUO(4-Y) AND EU(1.85)CE(0.15)CUO(4-Y),AND PROPERTIES OF ND(2-X)CE(X)O(4-Y)" 1989 4 "NEW MATERIAL ,RES ,SUS ,OXYGEN CONTENT ,SPECIFIC HEAT" "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCE,UNIVERSITY OF CALIFORNIA,SAN DIEGO,LA JOLLA,CA 92093,USA" "PHYSICA C ,158(1989)178" "EU,CE,CU,O,PR,TH,ND" 2356 PR0438620 "THPOWER300(C)=14UV/K,FIG P=1 FOR AB PLANE,P=2 FOR C-PLANE" YBa2Cu3O7 Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O 7-Z 6.95 3 1991 3 Y123 K 90 90 10.5 TP2356 ANISOTROPIC THERMOELECTRIC POWER IN YBA2CU307-X SINGLE CRYSTALS UNDER PRESSURES UP TO 8 GPA 1991 4 "THERMOELECTRIC POWER,SINGLE CRYSTALS ,PRESSURE" "MATERIALS SCIENCE DIVISION,NATIONAL AERONAUTICAL LABORATORY,BANGALORE 560 017,INDIA" "PHYS.REV.B,43(1991)8620" "Y,BA,CU,O" 2357 PR0438721 "FIELD DEPENDENCE OF THC,PCOHERE/NCOHERE=3..5" YBa2Cu3O7 Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 7-Z 6.9 3 1991 3 Y123 K 92 92 TC2357 EFFECT OF MAGNETIC 0N THERMAL CONDUCTIVITY OF YBA2CU3O7-Z SINGLE CRYSTALS 1991 4 "THERMAL CONDUCTIVITY,MAGNETIC FIELD ,SINGLE CRYSTALS" "DEPARTMENT OF PHYSICS,UNIVERSITY OF MICHIGAN,ANN ARBOR,MICHIGAN 48109" "PHYS.REV.B,43(1991)8721" "Y,BA,CU,O" 2358 APL0542361 MUON SR EuBa2Cu3O7 Eu1Ba2Cu3O7 Eu 1 Ba 2 Cu 3 O 7 1989 3 Y123 K 95 95 1310 COUPLING STRENGTHS AND FLUX PINNING IN OXIDE SUPERCONDUCTORS 1989 6 "MUON SPIN RELAXATION,PENETRATION DEPPTH" "TEXAS TECH UNIVERSITY,LUBBOCK,TEXAS 79409" "APPL.PHYS.LETT.,54(1989)2361" "Y,BA,CU,O,EU,GD,ER,BI,SR,CA,TL" 2359 APL0542361 MUON SR GdBa2Cu3O7 Gd1Ba2Cu3O6.8 Gd 1 Ba 2 Cu 3 O 7 6.8 1989 3 Y123 K 81 81 1770 COUPLING STRENGTHS AND FLUX PINNING IN OXIDE SUPERCONDUCTORS 1989 6 "MUON SPIN RELAXATION,PENETRATION DEPPTH" "TEXAS TECH UNIVERSITY,LUBBOCK,TEXAS 79409" "APPL.PHYS.LETT.,54(1989)2361" "Y,BA,CU,O,EU,GD,ER,BI,SR,CA,TL" 2360 APL0542361 MUON SR GdBa2Cu3O7 Gd1Ba2Cu3O7 Gd 1 Ba 2 Cu 3 O 7 1989 3 Y123 K 96 96 1430 COUPLING STRENGTHS AND FLUX PINNING IN OXIDE SUPERCONDUCTORS 1989 6 "MUON SPIN RELAXATION,PENETRATION DEPPTH" "TEXAS TECH UNIVERSITY,LUBBOCK,TEXAS 79409" "APPL.PHYS.LETT.,54(1989)2361" "Y,BA,CU,O,EU,GD,ER,BI,SR,CA,TL" 2361 APL0542361 MUON SR ErBa2Cu3O7 Er1Ba2Cu3O7 Er 1 Ba 2 Cu 3 O 7 1989 3 Y123 K 92 92 1340 COUPLING STRENGTHS AND FLUX PINNING IN OXIDE SUPERCONDUCTORS 1989 6 "MUON SPIN RELAXATION,PENETRATION DEPPTH" "TEXAS TECH UNIVERSITY,LUBBOCK,TEXAS 79409" "APPL.PHYS.LETT.,54(1989)2361" "Y,BA,CU,O,EU,GD,ER,BI,SR,CA,TL" 2362 APL0542361 MUON SR ErBa2Cu3O7 Er1Ba2Cu3O7 Er 1 Ba 2 Cu 3 O 7 1989 3 Y123 K 93 93 1400 COUPLING STRENGTHS AND FLUX PINNING IN OXIDE SUPERCONDUCTORS 1989 6 "MUON SPIN RELAXATION,PENETRATION DEPPTH" "TEXAS TECH UNIVERSITY,LUBBOCK,TEXAS 79409" "APPL.PHYS.LETT.,54(1989)2361" "Y,BA,CU,O,EU,GD,ER,BI,SR,CA,TL" 2363 APL0542361 MUON SR Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1989 Bi2212 K 82 82 1950 COUPLING STRENGTHS AND FLUX PINNING IN OXIDE SUPERCONDUCTORS 1989 6 "MUON SPIN RELAXATION,PENETRATION DEPPTH" "TEXAS TECH UNIVERSITY,LUBBOCK,TEXAS 79409" "APPL.PHYS.LETT.,54(1989)2361" "Y,BA,CU,O,EU,GD,ER,BI,SR,CA,TL" 2364 APL0542361 MUON SR Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O10 Tl 2 Ba 2 Ca 2 Cu 3 O 10 1989 Tl2223 K 105 105 1850 COUPLING STRENGTHS AND FLUX PINNING IN OXIDE SUPERCONDUCTORS 1989 6 "MUON SPIN RELAXATION,PENETRATION DEPPTH" "TEXAS TECH UNIVERSITY,LUBBOCK,TEXAS 79409" "APPL.PHYS.LETT.,54(1989)2361" "Y,BA,CU,O,EU,GD,ER,BI,SR,CA,TL" 2365 TL1590255 TC DEPENDS ON RAW MATERIAL BAO OR BA2O "(Tl,Cd)2Ba2CuO6" Tl1.75Cd0.25Ba2Cu1O6 Tl 1.75 Cd 0.25 Ba 2 Cu 1 O 6 1989 3.851 23.313 K 88 88 TL(2-X)CD(X)BA(2)CUO(6+Z):VARIATION OF T(C) WITH CADMIUM SUBSTITUTION 1989 6 "HREM ,TC ,CATION DOPING ,NEUTRON DIFFRACTION ,STRUCTURE" "CENTRAL RESEARCH & DEVELOPMENT DEPARTMENT,E.I.DUPONT DE NEMOURS,EXPERIMENTAL STATION,P.O.BOX 80356,WILMINGTON,DE 19880-0356,USA" "PHYSICA C.,159(1989)255" "TL,CD,BA,CU,O" 2366 PR0428039 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 1 1990 T' K 18.4 18.4 ANNIHILATION OF SUPERCONDUCTIVITY BY CO SUBSTITUTION FOR CU INND1.85CE0.15CUO4 1990 11 "ANTIFERROMAGNETIC ,PAIR-BREAKING" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME, KOTO-KU, TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8039" "ND,CE,CU,O" 2367 PR0428039 TC OBEY A-G THEORY "(Nd,Ce)2(Cu,Co)O4" Nd1.85Ce0.15Cu0.999Co0.001O4 Nd 1.85 Ce 0.15 Cu 0.999 Co 0.001 O 4 1 1990 T' K 15.5 15.5 ANNIHILATION OF SUPERCONDUCTIVITY BY CO SUBSTITUTION FOR CU INND1.85CE0.15CUO4 1990 11 "ANTIFERROMAGNETIC ,PAIR-BREAKING" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME, KOTO-KU, TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8039" "ND,CE,CU,O" 2368 PR0428039 "(Nd,Ce)2(Cu,Co)O4" Nd1.85Ce0.15Cu0.998Co0.002O4 Nd 1.85 Ce 0.15 Cu 0.998 Co 0.002 O 4 1 1990 T' K 14.4 14.4 ANNIHILATION OF SUPERCONDUCTIVITY BY CO SUBSTITUTION FOR CU INND1.85CE0.15CUO4 1990 11 "ANTIFERROMAGNETIC ,PAIR-BREAKING" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME, KOTO-KU, TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8039" "ND,CE,CU,O" 2369 PR0428039 "(Nd,Ce)2(Cu,Co)O4" Nd1.85Ce0.15Cu0.996Co0.004O4 Nd 1.85 Ce 0.15 Cu 0.996 Co 0.004 O 4 1 1990 T' K 9.6 9.6 ANNIHILATION OF SUPERCONDUCTIVITY BY CO SUBSTITUTION FOR CU INND1.85CE0.15CUO4 1990 11 "ANTIFERROMAGNETIC ,PAIR-BREAKING" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME, KOTO-KU, TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8039" "ND,CE,CU,O" 2370 PR0428039 "(Nd,Ce)2(Cu,Co)O4" Nd1.85Ce0.15Cu0.994Co0.006O4 Nd 1.85 Ce 0.15 Cu 0.994 Co 0.006 O 4 1 1990 T' K 3 ANNIHILATION OF SUPERCONDUCTIVITY BY CO SUBSTITUTION FOR CU INND1.85CE0.15CUO4 1990 11 "ANTIFERROMAGNETIC ,PAIR-BREAKING" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME, KOTO-KU, TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8039" "ND,CE,CU,O" 2371 PR0430448 "BELOW 120K ORTHORHOMBIC(BMAB),SPIN GLASS BELOW 17K" "(La,Sr)2NiO4" La1.8Sr0.2Ni1O4 La 1.8 Sr 0.2 Ni 1 O 4 3 1991 2 I4/MMM 5.346 12.4 K 4.2 MAGNETIC AND STRUCTURAL STUDY OF LA1.8SR0.2NIO4 1991 1 "NEUTRON-DEFFRACTION ,SINGLE CRYSTALS ,STRUCTURAL PARAMETER,MAGNETIC ORDER" "INSTITUT LAUE-LANGEVIN, 156X, 38042 GRENOBLE, FRANCE" "PHYS.REV.B,43(1991)448" "LA,SR,NI,O" 2372 PR0437936 "TC VARIES FOR ANNEALING CONDITION,SINGLE PHASE FOR X=<0.5" Pb0.5Sr2Ca0.5Y0.5Cu2.5O7-Z Pb 0.5 Sr 2 Ca 0.5 Y 0.5 Cu 2.5 O 7-Z 1 1991 2 3.818 11.882 K 65 65 "SUPERCONDUCTIVITY AT 67 K IN (PB,CU)SR2(CA,Y)CU2O7 BY PRECISEADJUDTMENT OF OXYGEN" 1991 4 "MORRIS RESEACH INC.,1918 UNIVERSITY AVENUE,BERKELEY,CALIFORNIA94704" "PHYS.REV.B,43(1991)7936" "PB,CU,SR,CA,Y,O" 2373 PR0428039 "(Nd,Ce)2(Cu,Co)O4" Nd1.85Ce0.15Cu0.99Co0.01O4 Nd 1.85 Ce 0.15 Cu 0.99 Co 0.01 O 4 1 1990 9.6 -72 T' K 3 ANNIHILATION OF SUPERCONDUCTIVITY BY CO SUBSTITUTION FOR CU INND1.85CE0.15CUO4 1990 11 "ANTIFERROMAGNETIC ,PAIR-BREAKING" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME, KOTO-KU, TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8039" "ND,CE,CU,O" 2374 PR0428039 "(Nd,Ce)2(Cu,Co)O4" Nd1.85Ce0.15Cu0.98Co0.02O4 Nd 1.85 Ce 0.15 Cu 0.98 Co 0.02 O 4 1 1990 6.9 -152 T' K 3 ANNIHILATION OF SUPERCONDUCTIVITY BY CO SUBSTITUTION FOR CU INND1.85CE0.15CUO4 1990 11 "ANTIFERROMAGNETIC ,PAIR-BREAKING" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME, KOTO-KU, TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8039" "ND,CE,CU,O" 2375 PR0428039 "(Nd,Ce)2(Cu,Co)O4" Nd1.85Ce0.15Cu0.95Co0.05O4 Nd 1.85 Ce 0.15 Cu 0.95 Co 0.05 O 4 1 1990 6.52 -133 T' K 3 ANNIHILATION OF SUPERCONDUCTIVITY BY CO SUBSTITUTION FOR CU INND1.85CE0.15CUO4 1990 11 "ANTIFERROMAGNETIC ,PAIR-BREAKING" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME, KOTO-KU, TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8039" "ND,CE,CU,O" 2376 PR0428039 "(Nd,Ce)2(Cu,Co)O4" Nd1.85Ce0.15Cu0.9Co0.1O4 Nd 1.85 Ce 0.15 Cu 0.9 Co 0.1 O 4 1 1990 6.12 -320 T' K 3 ANNIHILATION OF SUPERCONDUCTIVITY BY CO SUBSTITUTION FOR CU INND1.85CE0.15CUO4 1990 11 "ANTIFERROMAGNETIC ,PAIR-BREAKING" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME, KOTO-KU, TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8039" "ND,CE,CU,O" 2377 PR0438686 "(Bi,Pb)2Sr2(Y,Ca)Cu2O8" Bi1Pb1Sr2Y0.65Ca0.35Cu2O8 Bi 1 Pb 1 Sr 2 Y 0.65 Ca 0.35 Cu 2 O 8 1991 3 Bi2212 5.395 5.407 30.35 K 76 76 MODULATION-FREE BISMUTH-LEAD CUPRATE SUPERCONDUCTORS:BIPBSR1+XL1-XCUO6 AND BIPBSR2Y1-XCAXCU2O8 1991 4 "SOLID STATE AND STRUCTURAL CHEMISTRY UNIT,INDIAN INSUTITUTE OFSCIENCE,BANGALORE,560 012,INDIA" "PHYS.REV.B,43(1991)8686" "BI,PB,SR,CU,Y,CA,LA,O" 2378 PR0438686 "(Bi,Pb)2Sr2(Y,Ca)Cu2O8" Bi1Pb1Sr2Y0.6Ca0.4Cu2O8 Bi 1 Pb 1 Sr 2 Y 0.6 Ca 0.4 Cu 2 O 8 1991 3 Bi2212 5.391 5.395 30.392 K 83 83 MODULATION-FREE BISMUTH-LEAD CUPRATE SUPERCONDUCTORS:BIPBSR1+XL1-XCUO6 AND BIPBSR2Y1-XCAXCU2O8 1991 4 "SOLID STATE AND STRUCTURAL CHEMISTRY UNIT,INDIAN INSUTITUTE OFSCIENCE,BANGALORE,560 012,INDIA" "PHYS.REV.B,43(1991)8686" "BI,PB,SR,CU,Y,CA,LA,O" 2379 PR0438686 "(Bi,Pb)2Sr2(Y,Ca)Cu2O8" Bi1Pb1Sr2Y0.5Ca0.5Cu2O8 Bi 1 Pb 1 Sr 2 Y 0.5 Ca 0.5 Cu 2 O 8 1991 2 Bi2212 5.389 30.44 K 85 85 MODULATION-FREE BISMUTH-LEAD CUPRATE SUPERCONDUCTORS:BIPBSR1+XL1-XCUO6 AND BIPBSR2Y1-XCAXCU2O8 1991 4 "SOLID STATE AND STRUCTURAL CHEMISTRY UNIT,INDIAN INSUTITUTE OFSCIENCE,BANGALORE,560 012,INDIA" "PHYS.REV.B,43(1991)8686" "BI,PB,SR,CU,Y,CA,LA,O" 2380 PR0438686 "(Bi,Pb)2Sr2(Y,Ca)Cu2O8" Bi1Pb1Sr2Y0.4Ca0.6Cu2O8 Bi 1 Pb 1 Sr 2 Y 0.4 Ca 0.6 Cu 2 O 8 1991 2 Bi2212 5.389 30.463 K 79.5 79.5 MODULATION-FREE BISMUTH-LEAD CUPRATE SUPERCONDUCTORS:BIPBSR1+XL1-XCUO6 AND BIPBSR2Y1-XCAXCU2O8 1991 4 "SOLID STATE AND STRUCTURAL CHEMISTRY UNIT,INDIAN INSUTITUTE OFSCIENCE,BANGALORE,560 012,INDIA" "PHYS.REV.B,43(1991)8686" "BI,PB,SR,CU,Y,CA,LA,O" 2381 PR0438686 "(Bi,Pb)2Sr2(Y,Ca)Cu2O8" Bi1Pb1Sr2Y0.3Ca0.7Cu2O8 Bi 1 Pb 1 Sr 2 Y 0.3 Ca 0.7 Cu 2 O 8 1991 2 Bi2212 5.387 30.535 K 75 75 MODULATION-FREE BISMUTH-LEAD CUPRATE SUPERCONDUCTORS:BIPBSR1+XL1-XCUO6 AND BIPBSR2Y1-XCAXCU2O8 1991 4 "SOLID STATE AND STRUCTURAL CHEMISTRY UNIT,INDIAN INSUTITUTE OFSCIENCE,BANGALORE,560 012,INDIA" "PHYS.REV.B,43(1991)8686" "BI,PB,SR,CU,Y,CA,LA,O" 2382 PR0438737 "SQUID 20OE,DTCDX=23K/AT%FE" YBa2Cu4O8 Y1Ba2Cu4O8+Z Y 1 Ba 2 Cu 4 O 8+Z 1991 3 3.833 3.873 27.19 K 82 82 SUPERCONDUCTIVITY AND MAGNETIC ORDER IN THE CU(2) PLANES IN FE-DOPED YBA2CU4O8 1991 4 "MOSSBAUER ,SUSCEPTIBILITY ,AUTIFERROMAGNETISM ,PHASE DIAGRAM" "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY,JERUSALEM 91904,ISRAEL" "PHYS.REV.B,43(1991)8737" "Y,BA,CU,O,FE" 2383 PR0438737 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.96Fe0.04O8+Z Y 1 Ba 2 Cu 3.96 Fe 0.04 O 8+Z 1991 3 K 59 59 SUPERCONDUCTIVITY AND MAGNETIC ORDER IN THE CU(2) PLANES IN FE-DOPED YBA2CU4O8 1991 4 "MOSSBAUER ,SUSCEPTIBILITY ,AUTIFERROMAGNETISM ,PHASE DIAGRAM" "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY,JERUSALEM 91904,ISRAEL" "PHYS.REV.B,43(1991)8737" "Y,BA,CU,O,FE" 2384 PR0438737 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.9Fe0.1O8+Z Y 1 Ba 2 Cu 3.9 Fe 0.1 O 8+Z 1991 3 3.83 3.87 27.131 K 26 26 SUPERCONDUCTIVITY AND MAGNETIC ORDER IN THE CU(2) PLANES IN FE-DOPED YBA2CU4O8 1991 4 "MOSSBAUER ,SUSCEPTIBILITY ,AUTIFERROMAGNETISM ,PHASE DIAGRAM" "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY,JERUSALEM 91904,ISRAEL" "PHYS.REV.B,43(1991)8737" "Y,BA,CU,O,FE" 2385 PR0438737 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.84Fe0.16O8+Z Y 1 Ba 2 Cu 3.84 Fe 0.16 O 8+Z 1991 2 3.86 27.08 K 4.2 SUPERCONDUCTIVITY AND MAGNETIC ORDER IN THE CU(2) PLANES IN FE-DOPED YBA2CU4O8 1991 4 "MOSSBAUER ,SUSCEPTIBILITY ,AUTIFERROMAGNETISM ,PHASE DIAGRAM" "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY,JERUSALEM 91904,ISRAEL" "PHYS.REV.B,43(1991)8737" "Y,BA,CU,O,FE" 2386 PR0438737 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.72Fe0.28O8+Z Y 1 Ba 2 Cu 3.72 Fe 0.28 O 8+Z 1991 110 2 3.86 27.08 K 4.2 SUPERCONDUCTIVITY AND MAGNETIC ORDER IN THE CU(2) PLANES IN FE-DOPED YBA2CU4O8 1991 4 "MOSSBAUER ,SUSCEPTIBILITY ,AUTIFERROMAGNETISM ,PHASE DIAGRAM" "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY,JERUSALEM 91904,ISRAEL" "PHYS.REV.B,43(1991)8737" "Y,BA,CU,O,FE" 2387 PR0438737 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.6Fe0.4O8+Z Y 1 Ba 2 Cu 3.6 Fe 0.4 O 8+Z 1991 380 2 3.86 27.08 K 4.2 SUPERCONDUCTIVITY AND MAGNETIC ORDER IN THE CU(2) PLANES IN FE-DOPED YBA2CU4O8 1991 4 "MOSSBAUER ,SUSCEPTIBILITY ,AUTIFERROMAGNETISM ,PHASE DIAGRAM" "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY,JERUSALEM 91904,ISRAEL" "PHYS.REV.B,43(1991)8737" "Y,BA,CU,O,FE" 2388 PR0438686 "(Bi,Pb)2(Sr,La)2CuO6" Bi1Pb1Sr1.2La0.2Cu1O6 Bi 1 Pb 1 Sr 1.2 La 0.2 Cu 1 O 6 1991 3 5.288 5.4 24.557 K 24 24 MODULATION-FREE BISMUTH-LEAD CUPRATE SUPERCONDUCTORS:BIPBSR1+XL1-XCUO6 AND BIPBSR2Y1-XCAXCU2O8 1991 4 "SOLID STATE AND STRUCTURAL CHEMISTRY UNIT,INDIAN INSUTITUTE OFSCIENCE,BANGALORE,560 012,INDIA" "PHYS.REV.B,43(1991)8686" "BI,PB,SR,CU,Y,CA,LA,O" 2389 PR0438686 "(Bi,Pb)2(Sr,La)2CuO6" Bi1Pb1Sr1.26La0.26Cu1O6 Bi 1 Pb 1 Sr 1.26 La 0.26 Cu 1 O 6 1991 3 5.283 5.409 24.591 K 26 26 MODULATION-FREE BISMUTH-LEAD CUPRATE SUPERCONDUCTORS:BIPBSR1+XL1-XCUO6 AND BIPBSR2Y1-XCAXCU2O8 1991 4 "SOLID STATE AND STRUCTURAL CHEMISTRY UNIT,INDIAN INSUTITUTE OFSCIENCE,BANGALORE,560 012,INDIA" "PHYS.REV.B,43(1991)8686" "BI,PB,SR,CU,Y,CA,LA,O" 2390 PR0438686 "(Bi,Pb)2(Sr,La)2CuO6" Bi1Pb1Sr1.5La0.5Cu1O6 Bi 1 Pb 1 Sr 1.5 La 0.5 Cu 1 O 6 1991 3 5.273 5.419 24.662 K 16.3 16.3 MODULATION-FREE BISMUTH-LEAD CUPRATE SUPERCONDUCTORS:BIPBSR1+XL1-XCUO6 AND BIPBSR2Y1-XCAXCU2O8 1991 4 "SOLID STATE AND STRUCTURAL CHEMISTRY UNIT,INDIAN INSUTITUTE OFSCIENCE,BANGALORE,560 012,INDIA" "PHYS.REV.B,43(1991)8686" "BI,PB,SR,CU,Y,CA,LA,O" 2391 PR0438686 "(Bi,Pb)2(Sr,Pr)2CuO6" Bi1Pb1Sr0.12Pr0.12Cu1O6 Bi 1 Pb 1 Sr 0.12 Pr 0.12 Cu 1 O 6 1991 3 5.273 5.407 24.207 K 11 11 MODULATION-FREE BISMUTH-LEAD CUPRATE SUPERCONDUCTORS:BIPBSR1+XL1-XCUO6 AND BIPBSR2Y1-XCAXCU2O8 1991 4 "SOLID STATE AND STRUCTURAL CHEMISTRY UNIT,INDIAN INSUTITUTE OFSCIENCE,BANGALORE,560 012,INDIA" "PHYS.REV.B,43(1991)8686" "BI,PB,SR,CU,Y,CA,LA,O" 2392 PR0438686 "(Bi,Pb)2(Srr,Pr)2CuO6" Bi1Pb1Sr0.2Pr0.2Cu1O6 Bi 1 Pb 1 Sr 0.2 Pr 0.2 Cu 1 O 6 1991 3 5.268 5.418 24.262 K 15 15 MODULATION-FREE BISMUTH-LEAD CUPRATE SUPERCONDUCTORS:BIPBSR1+XL1-XCUO6 AND BIPBSR2Y1-XCAXCU2O8 1991 4 "SOLID STATE AND STRUCTURAL CHEMISTRY UNIT,INDIAN INSUTITUTE OFSCIENCE,BANGALORE,560 012,INDIA" "PHYS.REV.B,43(1991)8686" "BI,PB,SR,CU,Y,CA,LA,O" 2393 PR0438686 "(Bi,Pb)2(Sr,Pr)2CuO6" Bi1Pb1Sr0.3Pr0.3Cu1O6 Bi 1 Pb 1 Sr 0.3 Pr 0.3 Cu 1 O 6 1991 3 5.263 5.433 24.333 K 14 14 MODULATION-FREE BISMUTH-LEAD CUPRATE SUPERCONDUCTORS:BIPBSR1+XL1-XCUO6 AND BIPBSR2Y1-XCAXCU2O8 1991 4 "SOLID STATE AND STRUCTURAL CHEMISTRY UNIT,INDIAN INSUTITUTE OFSCIENCE,BANGALORE,560 012,INDIA" "PHYS.REV.B,43(1991)8686" "BI,PB,SR,CU,Y,CA,LA,O" 2394 PHC1590111 "(La,Ba)2CuO4" La1.94Ba0.04Cu1O4 La 1.94 Ba 0.04 Cu 1 O 4 1 1989 2 T K 4 4 STRUCTURAL PHASE TRANSITION IN (LA(1-X)BA(X))(2)CUO(4-Z) 1989 6 "STRUCTURE ,XRY ,PHASE TRANSITION ,FERROELASTIC" "DEPARTMENT OF PHYSICS,FACULTY OF SCIENCE,HIROSHIMA UNIVERSITY,HIROSHIMA 730,JAPAN" "PHYSICA C ,159(1989)111" "LA,BA,CU,O" 2395 PHC1590111 "(La,Ba)2CuO4" La1.922Ba0.078Cu1O4 La 1.922 Ba 0.078 Cu 1 O 4 1 1989 2 T K 27 27 STRUCTURAL PHASE TRANSITION IN (LA(1-X)BA(X))(2)CUO(4-Z) 1989 6 "STRUCTURE ,XRY ,PHASE TRANSITION ,FERROELASTIC" "DEPARTMENT OF PHYSICS,FACULTY OF SCIENCE,HIROSHIMA UNIVERSITY,HIROSHIMA 730,JAPAN" "PHYSICA C ,159(1989)111" "LA,BA,CU,O" 2396 PHC1590111 "T-O AT 272K,O-T AT 25K,STRUCTURE CHANGE" "(La,Ba)2CuO4" La1.906Ba0.094Cu1O4 La 1.906 Ba 0.094 Cu 1 O 4 1 1989 2 T K 32 32 STRUCTURAL PHASE TRANSITION IN (LA(1-X)BA(X))(2)CUO(4-Z) 1989 6 "STRUCTURE ,XRY ,PHASE TRANSITION ,FERROELASTIC" "DEPARTMENT OF PHYSICS,FACULTY OF SCIENCE,HIROSHIMA UNIVERSITY,HIROSHIMA 730,JAPAN" "PHYSICA C ,159(1989)111" "LA,BA,CU,O" 2397 PHC1590111 "(La,Ba)2CuO4" La1.898Ba0.102Cu1O4 La 1.898 Ba 0.102 Cu 1 O 4 1 1989 2 T K 29 29 STRUCTURAL PHASE TRANSITION IN (LA(1-X)BA(X))(2)CUO(4-Z) 1989 6 "STRUCTURE ,XRY ,PHASE TRANSITION ,FERROELASTIC" "DEPARTMENT OF PHYSICS,FACULTY OF SCIENCE,HIROSHIMA UNIVERSITY,HIROSHIMA 730,JAPAN" "PHYSICA C ,159(1989)111" "LA,BA,CU,O" 2398 PHC1590111 "T-O AT 206K,O-T AT 68K,STRUCTURE CHANGE" "(La,Ba)2CuO4" La1.882Ba0.118Cu1O4 La 1.882 Ba 0.118 Cu 1 O 4 1 1989 2 T K 9 9 STRUCTURAL PHASE TRANSITION IN (LA(1-X)BA(X))(2)CUO(4-Z) 1989 6 "STRUCTURE ,XRY ,PHASE TRANSITION ,FERROELASTIC" "DEPARTMENT OF PHYSICS,FACULTY OF SCIENCE,HIROSHIMA UNIVERSITY,HIROSHIMA 730,JAPAN" "PHYSICA C ,159(1989)111" "LA,BA,CU,O" 2399 PHC1590111 "T-O AT 137K,O-T AT 68K,STRUCTURE CHANGE" "(La,Ba)2CuO4" La1.858Ba0.142Cu1O4 La 1.858 Ba 0.142 Cu 1 O 4 1 1989 2 T K 29 29 STRUCTURAL PHASE TRANSITION IN (LA(1-X)BA(X))(2)CUO(4-Z) 1989 6 "STRUCTURE ,XRY ,PHASE TRANSITION ,FERROELASTIC" "DEPARTMENT OF PHYSICS,FACULTY OF SCIENCE,HIROSHIMA UNIVERSITY,HIROSHIMA 730,JAPAN" "PHYSICA C ,159(1989)111" "LA,BA,CU,O" 2400 PHC1590111 "T-O AT 94K,O-T AT 25K,STRUCTURE CHANGE" "(La,Ba)2CuO4" La1.842Ba0.158Cu1O4 La 1.842 Ba 0.158 Cu 1 O 4 1 1989 2 T K STRUCTURAL PHASE TRANSITION IN (LA(1-X)BA(X))(2)CUO(4-Z) 1989 6 "STRUCTURE ,XRY ,PHASE TRANSITION ,FERROELASTIC" "DEPARTMENT OF PHYSICS,FACULTY OF SCIENCE,HIROSHIMA UNIVERSITY,HIROSHIMA 730,JAPAN" "PHYSICA C ,159(1989)111" "LA,BA,CU,O" 2401 PHC1590111 "(La,Ba)2CuO4" La1.8Ba0.2Cu1O4 La 1.8 Ba 0.2 Cu 1 O 4 1 1989 3 K 21 21 STRUCTURAL PHASE TRANSITION IN (LA(1-X)BA(X))(2)CUO(4-Z) 1989 6 "STRUCTURE ,XRY ,PHASE TRANSITION ,FERROELASTIC" "DEPARTMENT OF PHYSICS,FACULTY OF SCIENCE,HIROSHIMA UNIVERSITY,HIROSHIMA 730,JAPAN" "PHYSICA C ,159(1989)111" "LA,BA,CU,O" 2402 PHC1590111 "(La,Ba)2CuO4" La1.76Ba0.24Cu1O4 La 1.76 Ba 0.24 Cu 1 O 4 1 1989 3 K 14 14 STRUCTURAL PHASE TRANSITION IN (LA(1-X)BA(X))(2)CUO(4-Z) 1989 6 "STRUCTURE ,XRY ,PHASE TRANSITION ,FERROELASTIC" "DEPARTMENT OF PHYSICS,FACULTY OF SCIENCE,HIROSHIMA UNIVERSITY,HIROSHIMA 730,JAPAN" "PHYSICA C ,159(1989)111" "LA,BA,CU,O" 2403 PHB1651331 F CONC. IS NOMINAL VALUE "Nd2Cu(O,F)4" Nd2Cu1F0.3O3.7 Nd 2 Cu 1 F 0.3 O 3.7 1990 T' K 40 LOW TEMPERATURE SPECIFIC HEAT OF ND2CUO4 AND ND2CUO4-XFX 1990 8 "IPCMS, GROUPE DES MATERIAUX INORGANIQUES, EHICS, 1 RUE BLAISEPASCAL, 67008 STRASBOURG CEDEX, FRANCE" "PHYSICA B,165(1990)1331" "ND,CU,O,F" 2404 PHB1651331 F CONC. IS NOMINAL VALUE "Nd2Cu(O,F)4" Nd2Cu1F0.4O3.6 Nd 2 Cu 1 F 0.4 O 3.6 1990 T' K 30 LOW TEMPERATURE SPECIFIC HEAT OF ND2CUO4 AND ND2CUO4-XFX 1990 8 "IPCMS, GROUPE DES MATERIAUX INORGANIQUES, EHICS, 1 RUE BLAISEPASCAL, 67008 STRASBOURG CEDEX, FRANCE" "PHYSICA B,165(1990)1331" "ND,CU,O,F" 2405 PHB1651331 F CONC. IS NOMINAL VALUE "Nd2Cu(O,F)4" Nd2Cu1F0.5O3.5 Nd 2 Cu 1 F 0.5 O 3.5 1990 T' K 42 LOW TEMPERATURE SPECIFIC HEAT OF ND2CUO4 AND ND2CUO4-XFX 1990 8 "IPCMS, GROUPE DES MATERIAUX INORGANIQUES, EHICS, 1 RUE BLAISEPASCAL, 67008 STRASBOURG CEDEX, FRANCE" "PHYSICA B,165(1990)1331" "ND,CU,O,F" 2406 PHB1651331 Nd2CuO4 Nd2Cu1O4 Nd 2 Cu 1 O 4 1990 2.1 T' K 50 300 LOW TEMPERATURE SPECIFIC HEAT OF ND2CUO4 AND ND2CUO4-XFX 1990 8 "IPCMS, GROUPE DES MATERIAUX INORGANIQUES, EHICS, 1 RUE BLAISEPASCAL, 67008 STRASBOURG CEDEX, FRANCE" "PHYSICA B,165(1990)1331" "ND,CU,O,F" 2407 PHB1651331 Nd2CuO4 Nd2Cu1O4 Nd 2 Cu 1 O 4 1990 1.6 T' K 225 410 LOW TEMPERATURE SPECIFIC HEAT OF ND2CUO4 AND ND2CUO4-XFX 1990 8 "IPCMS, GROUPE DES MATERIAUX INORGANIQUES, EHICS, 1 RUE BLAISEPASCAL, 67008 STRASBOURG CEDEX, FRANCE" "PHYSICA B,165(1990)1331" "ND,CU,O,F" 2408 PHB1651283 SrTiO3 Sr1Ti1O3 Sr 1 Ti 1 O 3 1990 5.11 GPa 190 GPa 118 GPa 180 0.23 812000 1 ABO3 K 4.2 690 Ultrasonic investigations of the layered perovskite ceramic superconducting systems 1990 "Tsinghua University, Beijing, P.R.China" "Physica B, 165-166(1990)1283-1284" 2409 PHB1651283 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1990 6.22 GPa 124 GPa 50.1 GPa 78.5 0.24 483400 2 T K 38 38 410 Ultrasonic investigations of the layered perovskite ceramic superconducting systems 1990 "Tsinghua University, Beijing, P.R.China" "Physica B, 165-166(1990)1283-1284" 2410 PHB1651283 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1990 5.69 GPa 92.2 GPa 38.4 GPa 51.2 0.2 424200 3 Y123 K 90 90 480 Ultrasonic investigations of the layered perovskite ceramic superconducting systems 1990 "Tsinghua University, Beijing, P.R.China" "Physica B, 165-166(1990)1283-1284" 2411 PHB1651283 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 1990 5.35 GPa 38.8 GPa 16.1 GPa 21.9 0.2 284600 2 Bi2212 K 74 74 250 Ultrasonic investigations of the layered perovskite ceramic superconducting systems 1990 "Tsinghua University, Beijing, P.R.China" "Physica B, 165-166(1990)1283-1284" 2412 PHB1651283 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 1990 5.02 GPa 37.3 GPa 16 GPa 18.6 0.17 282100 2 Bi2212 K 80 80 270 Ultrasonic investigations of the layered perovskite ceramic superconducting systems 1990 "Tsinghua University, Beijing, P.R.China" "Physica B, 165-166(1990)1283-1284" 2413 PHB1651283 Bi2Sr2Ca2Cu3O10 Bi2Sr2Ca2Cu3OZ Bi 2 Sr 2 Ca 2 Cu 3 O Z 1990 4.35 GPa 33.7 GPa 14.3 GPa 17.4 0.18 289400 2 Bi2223 K 108 108 280 Ultrasonic investigations of the layered perovskite ceramic superconducting systems 1990 "Tsinghua University, Beijing, P.R.China" "Physica B, 165-166(1990)1283-1284" 2414 PLA1320217 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.8Co0.2OZ Y 1 Ba 2 Cu 2.8 Co 0.2 O Z 1988 3.8 3 Y123 3.86 3.862 11.668 K 50.2 50.2 1.37E-08 LOCALIZATION EFFECTS IN THE Y(1)BA(2)CU(3-X)CO(X)O(Y) SYSTEM 1988 10 "HALL EFFECT ,LOCALIZATION ,XRY ,RE" "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,PR CHINA" "PHYS.LETT.A,132(1988)217" "Y,BA,CU,CO,O" 2415 PLA1320217 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.75Co0.25OZ Y 1 Ba 2 Cu 2.75 Co 0.25 O Z 1988 4.28 3 Y123 3.862 3.868 11.669 K 39.3 39.3 1.60E-08 LOCALIZATION EFFECTS IN THE Y(1)BA(2)CU(3-X)CO(X)O(Y) SYSTEM 1988 10 "HALL EFFECT ,LOCALIZATION ,XRY ,RE" "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,PR CHINA" "PHYS.LETT.A,132(1988)217" "Y,BA,CU,CO,O" 2416 PLA1320217 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.725Co0.275OZ Y 1 Ba 2 Cu 2.725 Co 0.275 O Z 1988 5.17 3 Y123 3.86 3.862 11.662 K 31 31 1.40E-08 LOCALIZATION EFFECTS IN THE Y(1)BA(2)CU(3-X)CO(X)O(Y) SYSTEM 1988 10 "HALL EFFECT ,LOCALIZATION ,XRY ,RE" "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,PR CHINA" "PHYS.LETT.A,132(1988)217" "Y,BA,CU,CO,O" 2417 PLA1320217 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.7Co0.3OZ Y 1 Ba 2 Cu 2.7 Co 0.3 O Z 1988 5.36 3 Y123 3.871 3.878 11.655 K 23.2 23.2 1.27E-08 LOCALIZATION EFFECTS IN THE Y(1)BA(2)CU(3-X)CO(X)O(Y) SYSTEM 1988 10 "HALL EFFECT ,LOCALIZATION ,XRY ,RE" "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,PR CHINA" "PHYS.LETT.A,132(1988)217" "Y,BA,CU,CO,O" 2418 PLA1320217 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.675Co0.325OZ Y 1 Ba 2 Cu 2.675 Co 0.325 O Z 1988 5.33 3 Y123 3.873 3.884 11.671 K 7 7 1.56E-08 LOCALIZATION EFFECTS IN THE Y(1)BA(2)CU(3-X)CO(X)O(Y) SYSTEM 1988 10 "HALL EFFECT ,LOCALIZATION ,XRY ,RE" "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,PR CHINA" "PHYS.LETT.A,132(1988)217" "Y,BA,CU,CO,O" 2419 PLA1320217 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.65Co0.35OZ Y 1 Ba 2 Cu 2.65 Co 0.35 O Z 1988 5.19 3 Y123 3.868 3.87 11.646 K 4.2 2.22E-08 LOCALIZATION EFFECTS IN THE Y(1)BA(2)CU(3-X)CO(X)O(Y) SYSTEM 1988 10 "HALL EFFECT ,LOCALIZATION ,XRY ,RE" "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,PR CHINA" "PHYS.LETT.A,132(1988)217" "Y,BA,CU,CO,O" 2420 PLA1320217 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.625Co0.375OZ Y 1 Ba 2 Cu 2.625 Co 0.375 O Z 1988 5.15 2 Y123 3.879 11.669 K 4.2 2.46E-08 LOCALIZATION EFFECTS IN THE Y(1)BA(2)CU(3-X)CO(X)O(Y) SYSTEM 1988 10 "HALL EFFECT ,LOCALIZATION ,XRY ,RE" "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,PR CHINA" "PHYS.LETT.A,132(1988)217" "Y,BA,CU,CO,O" 2421 PLA1320217 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.6Co0.4OZ Y 1 Ba 2 Cu 2.6 Co 0.4 O Z 1988 2 Y123 3.869 11.869 K 4.2 LOCALIZATION EFFECTS IN THE Y(1)BA(2)CU(3-X)CO(X)O(Y) SYSTEM 1988 10 "HALL EFFECT ,LOCALIZATION ,XRY ,RE" "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,PR CHINA" "PHYS.LETT.A,132(1988)217" "Y,BA,CU,CO,O" 2422 PR0430457 "COHERE BY MAGNETIC FLUCTUATION,KAIZERO IN CM3/MOLE" "(Bi,Pb)2Sr2CaCu2O8" Bi1.8Pb0.2Sr2Ca1Cu2O8+Z Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 2 O 8+Z 1991 -17300 Bi2212 K 91.1 91.1 20.4 0.37 "MAGNETIC PROPERTIES AND SUPERCONDUCTING-FLUCTUATION DIAMAGNETISM ABOVE TC IN BI2-XPBXSR2CACU2O8+Z(X=0.0,0.1,0.2,0.3,0.5)ANDBI2-XPBXSR2CA2CU3O10+Z(X=0.2,0.25)" 1991 1 "SUSCEPTIBILITIES ,FLUCTUATION ,ORDER PARAMETER" "AMES LABORATORY-U.S. DEPARTMENT OF ENERGY AND DEPARTMENT OF PHYSICS, IOWA STATE UNIVERSITY, AMES, IOWA 50011" "PHYS.REV.B,43(1991)457" "BI,PB,SR,CA,CU,O" 2423 PR0430457 "COHERE BY MAGNETIC FLUCTUATION,KAIZERO IN CM3/MOLE" "(Bi,Pb)2Sr2Ca2Cu3O10" Bi1.8Pb0.2Sr2Ca2Cu3O10+Z Bi 1.8 Pb 0.2 Sr 2 Ca 2 Cu 3 O 10+Z 1991 0 Bi2223 K 103 103 18 "MAGNETIC PROPERTIES AND SUPERCONDUCTING-FLUCTUATION DIAMAGNETISM ABOVE TC IN BI2-XPBXSR2CACU2O8+Z(X=0.0,0.1,0.2,0.3,0.5)ANDBI2-XPBXSR2CA2CU3O10+Z(X=0.2,0.25)" 1991 1 "SUSCEPTIBILITIES ,FLUCTUATION ,ORDER PARAMETER" "AMES LABORATORY-U.S. DEPARTMENT OF ENERGY AND DEPARTMENT OF PHYSICS, IOWA STATE UNIVERSITY, AMES, IOWA 50011" "PHYS.REV.B,43(1991)457" "BI,PB,SR,CA,CU,O" 2424 PR0430457 "COHERE BY MAGNETIC FLUCTUATION,KAIZERO IN CM3/MOLE" "(Bi,Pb)2Sr2Ca2Cu3O10" Bi1.75Pb0.25Sr2Ca2Cu3O10+Z Bi 1.75 Pb 0.25 Sr 2 Ca 2 Cu 3 O 10+Z 1991 Bi2223 K 108 108 11.8 "MAGNETIC PROPERTIES AND SUPERCONDUCTING-FLUCTUATION DIAMAGNETISM ABOVE TC IN BI2-XPBXSR2CACU2O8+Z(X=0.0,0.1,0.2,0.3,0.5)ANDBI2-XPBXSR2CA2CU3O10+Z(X=0.2,0.25)" 1991 1 "SUSCEPTIBILITIES ,FLUCTUATION ,ORDER PARAMETER" "AMES LABORATORY-U.S. DEPARTMENT OF ENERGY AND DEPARTMENT OF PHYSICS, IOWA STATE UNIVERSITY, AMES, IOWA 50011" "PHYS.REV.B,43(1991)457" "BI,PB,SR,CA,CU,O" 2425 PHC1710031 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 7 1 1990 3 Y123 3.82 3.886 11.688 K 92.1 92.1 RAMAN MEASUREMENTS OF Y1-XEUXBA2CU3O7: COMPARISON WITH Y1-XPRXBA2CU307 1990 "IBM RESEARCH DIVISION, THOMAS J. WATSON RESEARCH CENTER, P.O.BOX 218, YORKTOWN HEIGHTS, NY 10598, USA" "PHYSICA C,171(1990)31" "Y,EU,BA,CU,O,PR" 2426 PHC1710031 "(Y,Eu)Ba2Cu3O7" Y0.8Eu0.2Ba2Cu3O7 Y 0.8 Eu 0.2 Ba 2 Cu 3 O 7 7 1 1990 3 Y123 3.823 3.89 11.697 K RAMAN MEASUREMENTS OF Y1-XEUXBA2CU3O7: COMPARISON WITH Y1-XPRXBA2CU307 1990 "IBM RESEARCH DIVISION, THOMAS J. WATSON RESEARCH CENTER, P.O.BOX 218, YORKTOWN HEIGHTS, NY 10598, USA" "PHYSICA C,171(1990)31" "Y,EU,BA,CU,O,PR" 2427 PHC1710031 "(Y,Eu)Ba2Cu3O7" Y0.6Eu0.4Ba2Cu3O7 Y 0.6 Eu 0.4 Ba 2 Cu 3 O 7 7 1 1990 3 Y123 3.828 3.893 11.696 K 92.6 92.6 RAMAN MEASUREMENTS OF Y1-XEUXBA2CU3O7: COMPARISON WITH Y1-XPRXBA2CU307 1990 "IBM RESEARCH DIVISION, THOMAS J. WATSON RESEARCH CENTER, P.O.BOX 218, YORKTOWN HEIGHTS, NY 10598, USA" "PHYSICA C,171(1990)31" "Y,EU,BA,CU,O,PR" 2428 PHC1710031 "(Y,Eu)Ba2Cu3O7" Y0.4Eu0.6Ba2Cu3O7 Y 0.4 Eu 0.6 Ba 2 Cu 3 O 7 7 1 1990 3 Y123 3.831 3.895 11.705 K RAMAN MEASUREMENTS OF Y1-XEUXBA2CU3O7: COMPARISON WITH Y1-XPRXBA2CU307 1990 "IBM RESEARCH DIVISION, THOMAS J. WATSON RESEARCH CENTER, P.O.BOX 218, YORKTOWN HEIGHTS, NY 10598, USA" "PHYSICA C,171(1990)31" "Y,EU,BA,CU,O,PR" 2429 PHC1710031 "(Y,Eu)Ba2Cu3O7" Y0.2Eu0.8Ba2Cu3O7 Y 0.2 Eu 0.8 Ba 2 Cu 3 O 7 7 1 1990 3 Y123 3.836 3.896 11.71 K 93.8 93.8 RAMAN MEASUREMENTS OF Y1-XEUXBA2CU3O7: COMPARISON WITH Y1-XPRXBA2CU307 1990 "IBM RESEARCH DIVISION, THOMAS J. WATSON RESEARCH CENTER, P.O.BOX 218, YORKTOWN HEIGHTS, NY 10598, USA" "PHYSICA C,171(1990)31" "Y,EU,BA,CU,O,PR" 2430 PHC1710031 EuBa2Cu3O7 Eu1Ba2Cu3O7 Eu 1 Ba 2 Cu 3 O 7 7 1 1990 3 Y123 3.845 3.905 11.719 K 95.2 95.2 RAMAN MEASUREMENTS OF Y1-XEUXBA2CU3O7: COMPARISON WITH Y1-XPRXBA2CU307 1990 "IBM RESEARCH DIVISION, THOMAS J. WATSON RESEARCH CENTER, P.O.BOX 218, YORKTOWN HEIGHTS, NY 10598, USA" "PHYSICA C,171(1990)31" "Y,EU,BA,CU,O,PR" 2431 PHC1710093 0.0065HOLES/GPA YBa2Cu3O7 Y1Ba2Cu3O6.93 Y 1 Ba 2 Cu 3 O 6.93 6.93 1 1990 GPa 123 3 Y123 3.818 3.884 11.683 K 91 91 PRESSURE-INDUCED CHARGE TRANSFER AND DTC/DP IN YBA2CU3O7-X 1990 "MATERIALS SCIENCE DIVISION AND SCIENCE AND TECHNOLOGY CENTER FOR SUPERCONDUCTIVITY, ARGONNE NATIONAL LABORATORY, ARGONNE, IL60439, USA" "PHYSICA C,171(1990)93" "Y,BA,CU,O" 2432 PHC1710093 0.008HOLES/GPA YBa2Cu3O7 Y1Ba2Cu3O6.6 Y 1 Ba 2 Cu 3 O 6.6 6.6 1 1990 GPa 112 3 Y123 3.83 3.885 11.709 K 58 58 PRESSURE-INDUCED CHARGE TRANSFER AND DTC/DP IN YBA2CU3O7-X 1990 "MATERIALS SCIENCE DIVISION AND SCIENCE AND TECHNOLOGY CENTER FOR SUPERCONDUCTIVITY, ARGONNE NATIONAL LABORATORY, ARGONNE, IL60439, USA" "PHYSICA C,171(1990)93" "Y,BA,CU,O" 2433 PHC1660413 Pb0.5Sr2Y1Cu2.5OZ Pb 0.5 Sr 2 Y 1 Cu 2.5 O Z 1990 2 Pb1212 K 4.2 60 "SUPERCONDUCTIVITY IN PB-BASED LAYERED COPPER OXIDES, (PB0.5CU0.5)(SR,BA)2(Y,CA)CU2O7" 1990 "NEW MATERIAL ,SUBSTITUTION ,SOLUBILITY ,STRUCTURE" "SUPERCONDUCTIVITY RESEARCH LABRATORY INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13,SHINONOME 1-CHOME,KOTO-KU,TOKYO" "PHYSICA C,166(1990)413" "PB,CU,SR,BA,Y,CA,CU,O" 2434 PHC1660413 Pb0.5Sr1.5Ba0.5Y1Cu2.5OZ Pb 0.5 Sr 1.5 Ba 0.5 Y 1 Cu 2.5 O Z 1990 2 Pb1212 K 4.2 28 "SUPERCONDUCTIVITY IN PB-BASED LAYERED COPPER OXIDES, (PB0.5CU0.5)(SR,BA)2(Y,CA)CU2O7" 1990 "NEW MATERIAL ,SUBSTITUTION ,SOLUBILITY ,STRUCTURE" "SUPERCONDUCTIVITY RESEARCH LABRATORY INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13,SHINONOME 1-CHOME,KOTO-KU,TOKYO" "PHYSICA C,166(1990)413" "PB,CU,SR,BA,Y,CA,CU,O" 2435 PHC1660413 Pb0.5Sr1Ba1Y1Cu2.5OZ Pb 0.5 Sr 1 Ba 1 Y 1 Cu 2.5 O Z 1990 2 Pb1212 K 4.2 18 "SUPERCONDUCTIVITY IN PB-BASED LAYERED COPPER OXIDES, (PB0.5CU0.5)(SR,BA)2(Y,CA)CU2O7" 1990 "NEW MATERIAL ,SUBSTITUTION ,SOLUBILITY ,STRUCTURE" "SUPERCONDUCTIVITY RESEARCH LABRATORY INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13,SHINONOME 1-CHOME,KOTO-KU,TOKYO" "PHYSICA C,166(1990)413" "PB,CU,SR,BA,Y,CA,CU,O" 2436 PHC1660413 Pb0.5Sr1Ba1Y0.75Ca0.25Cu2.5OZ Pb 0.5 Sr 1 Ba 1 Y 0.75 Ca 0.25 Cu 2.5 O Z 1990 2 Pb1212 K 53 70 61.5 8 "SUPERCONDUCTIVITY IN PB-BASED LAYERED COPPER OXIDES, (PB0.5CU0.5)(SR,BA)2(Y,CA)CU2O7" 1990 "NEW MATERIAL ,SUBSTITUTION ,SOLUBILITY ,STRUCTURE" "SUPERCONDUCTIVITY RESEARCH LABRATORY INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13,SHINONOME 1-CHOME,KOTO-KU,TOKYO" "PHYSICA C,166(1990)413" "PB,CU,SR,BA,Y,CA,CU,O" 2437 PHC1660413 Pb0.5Sr1.5Ba0.5Y0.75Ca0.25Cu2.5OZ Pb 0.5 Sr 1.5 Ba 0.5 Y 0.75 Ca 0.25 Cu 2.5 O Z 1990 2 Pb1212 K 26 37 31.5 17 "SUPERCONDUCTIVITY IN PB-BASED LAYERED COPPER OXIDES, (PB0.5CU0.5)(SR,BA)2(Y,CA)CU2O7" 1990 "NEW MATERIAL ,SUBSTITUTION ,SOLUBILITY ,STRUCTURE" "SUPERCONDUCTIVITY RESEARCH LABRATORY INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13,SHINONOME 1-CHOME,KOTO-KU,TOKYO" "PHYSICA C,166(1990)413" "PB,CU,SR,BA,Y,CA,CU,O" 2438 PHC1660413 Pb0.5Sr2Y0.75Ca0.25Cu2.5OZ Pb 0.5 Sr 2 Y 0.75 Ca 0.25 Cu 2.5 O Z 1990 2 Pb1212 K 4.2 34 "SUPERCONDUCTIVITY IN PB-BASED LAYERED COPPER OXIDES, (PB0.5CU0.5)(SR,BA)2(Y,CA)CU2O7" 1990 "NEW MATERIAL ,SUBSTITUTION ,SOLUBILITY ,STRUCTURE" "SUPERCONDUCTIVITY RESEARCH LABRATORY INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13,SHINONOME 1-CHOME,KOTO-KU,TOKYO" "PHYSICA C,166(1990)413" "PB,CU,SR,BA,Y,CA,CU,O" 2439 PR0437852 "DIAMAG APPEAR BUT NO ZERO RESISTANCE,TETRA(HIGH)-ORTHO(LOW) AT 100K" "(La,Sr)2NiO4" La1.8Sr0.2Ni1O4+Z La 1.8 Sr 0.2 Ni 1 O 4+Z 1 1991 K 4.2 STRUCTURAL AND TRANSPORT MEASUREMENTS IN LA1.8SR0.2NIO4+Z 1991 4 "LATTICE CONSTANTS ,RESISTIVITY ,MAGNETIZATION ,SINGLE CRYSTALS" "DEPARTMENT OF PHYSICS,PURDUE UNIVERSITY,WEST LAFAYETTE,INDIANA47907" "PHYS.REV.B,43(1991)7852" "LA,SR,NI,O" 2440 PR0436242 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1991 Y123 K 0.15 RH2440 UNUSUAL I/T3 TEMPERATURE DEPENDENCE OF THE HALL CONDUCTIVITY IN YBA2CU3O7-Z 1991 3 "JOSPH HENRY LABORATORIES OF PHYSICS,PRINCETON UNIVERSITY,PRINCETON,NEW JORSEY 08544" "PHYS.REV.B,43(1991)6242" "Y,BA,CU,O" 2441 PR0436242 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1991 Y123 K 0.15 RH2441 UNUSUAL I/T3 TEMPERATURE DEPENDENCE OF THE HALL CONDUCTIVITY IN YBA2CU3O7-Z 1991 3 "JOSPH HENRY LABORATORIES OF PHYSICS,PRINCETON UNIVERSITY,PRINCETON,NEW JORSEY 08544" "PHYS.REV.B,43(1991)6242" "Y,BA,CU,O" 2442 PR0436242 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1991 Y123 K 0.3 RH2442 UNUSUAL I/T3 TEMPERATURE DEPENDENCE OF THE HALL CONDUCTIVITY IN YBA2CU3O7-Z 1991 3 "JOSPH HENRY LABORATORIES OF PHYSICS,PRINCETON UNIVERSITY,PRINCETON,NEW JORSEY 08544" "PHYS.REV.B,43(1991)6242" "Y,BA,CU,O" 2443 PR04310364 ZN PREFERENTIALLY SUBSTITUTE FOR CU(2) "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.96Zn0.04O8 Y 1 Ba 2 Cu 3.96 Zn 0.04 O 8 1 1991 3 Y124 K 52.2 52.2 EFFECTS OF FE AND ZN SUBSTITUTION UPON SUPERCONDUCTIVITY IN YBA2CU4O8 1991 5 "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY OF JERUSALEM,JERUSALEM,91904,ISRAEL" PHYS.REV.43(1991)10364 "Y,BA,CU,O" 2444 PR04310364 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.94Zn0.06O8 Y 1 Ba 2 Cu 3.94 Zn 0.06 O 8 1 1991 3 Y124 K 39.6 39.6 EFFECTS OF FE AND ZN SUBSTITUTION UPON SUPERCONDUCTIVITY IN YBA2CU4O8 1991 5 "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY OF JERUSALEM,JERUSALEM,91904,ISRAEL" PHYS.REV.43(1991)10364 "Y,BA,CU,O" 2445 PR04310364 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.92Zn0.08O8 Y 1 Ba 2 Cu 3.92 Zn 0.08 O 8 1 1991 3 Y124 K 27.7 27.7 EFFECTS OF FE AND ZN SUBSTITUTION UPON SUPERCONDUCTIVITY IN YBA2CU4O8 1991 5 "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY OF JERUSALEM,JERUSALEM,91904,ISRAEL" PHYS.REV.43(1991)10364 "Y,BA,CU,O" 2446 PR04310364 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.88Zn0.12O8 Y 1 Ba 2 Cu 3.88 Zn 0.12 O 8 1 1991 3 Y124 K 25.7 25.7 EFFECTS OF FE AND ZN SUBSTITUTION UPON SUPERCONDUCTIVITY IN YBA2CU4O8 1991 5 "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY OF JERUSALEM,JERUSALEM,91904,ISRAEL" PHYS.REV.43(1991)10364 "Y,BA,CU,O" 2447 PR04310364 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.7Zn0.3O8 Y 1 Ba 2 Cu 3.7 Zn 0.3 O 8 1 1991 3 Y124 K 22.5 22.5 EFFECTS OF FE AND ZN SUBSTITUTION UPON SUPERCONDUCTIVITY IN YBA2CU4O8 1991 5 "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY OF JERUSALEM,JERUSALEM,91904,ISRAEL" PHYS.REV.43(1991)10364 "Y,BA,CU,O" 2448 PR04310364 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1991 3 Y124 3.833 3.873 27.19 K 81.3 81.3 EFFECTS OF FE AND ZN SUBSTITUTION UPON SUPERCONDUCTIVITY IN YBA2CU4O8 1991 5 "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY OF JERUSALEM,JERUSALEM,91904,ISRAEL" PHYS.REV.43(1991)10364 "Y,BA,CU,O" 2449 PR04310364 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.96Zn0.04O8 Y 1 Ba 2 Cu 3.96 Zn 0.04 O 8 1 1991 3 Y124 K 55.8 55.8 EFFECTS OF FE AND ZN SUBSTITUTION UPON SUPERCONDUCTIVITY IN YBA2CU4O8 1991 5 "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY OF JERUSALEM,JERUSALEM,91904,ISRAEL" PHYS.REV.43(1991)10364 "Y,BA,CU,O" 2450 PR04310364 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.9Zn0.1O8 Y 1 Ba 2 Cu 3.9 Zn 0.1 O 8 1 1991 3 Y124 3.83 3.869 27.133 K 25.3 25.3 EFFECTS OF FE AND ZN SUBSTITUTION UPON SUPERCONDUCTIVITY IN YBA2CU4O8 1991 5 "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY OF JERUSALEM,JERUSALEM,91904,ISRAEL" PHYS.REV.43(1991)10364 "Y,BA,CU,O" 2451 PR04310364 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.8Zn0.2O8 Y 1 Ba 2 Cu 3.8 Zn 0.2 O 8 1 1991 2 Y124 3.86 27.08 K 4.2 EFFECTS OF FE AND ZN SUBSTITUTION UPON SUPERCONDUCTIVITY IN YBA2CU4O8 1991 5 "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY OF JERUSALEM,JERUSALEM,91904,ISRAEL" PHYS.REV.43(1991)10364 "Y,BA,CU,O" 2452 PR04310364 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.72Zn0.28O8 Y 1 Ba 2 Cu 3.72 Zn 0.28 O 8 1 1991 2 Y124 3.86 27.08 K 4.2 EFFECTS OF FE AND ZN SUBSTITUTION UPON SUPERCONDUCTIVITY IN YBA2CU4O8 1991 5 "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY OF JERUSALEM,JERUSALEM,91904,ISRAEL" PHYS.REV.43(1991)10364 "Y,BA,CU,O" 2453 PR04310364 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.6Zn0.4O8 Y 1 Ba 2 Cu 3.6 Zn 0.4 O 8 1 1991 2 Y124 3.86 27.08 K 4.2 EFFECTS OF FE AND ZN SUBSTITUTION UPON SUPERCONDUCTIVITY IN YBA2CU4O8 1991 5 "RACAH INSTITUTE OF PHYSICS,THE HEBREW UNIVERSITY OF JERUSALEM,JERUSALEM,91904,ISRAEL" PHYS.REV.43(1991)10364 "Y,BA,CU,O" 2454 PR0435516 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.88Ni0.12O7+Z Y 1 Ba 2 Cu 2.88 Ni 0.12 O 7+Z 1991 Y123 K 76.3 76.3 123 2.3 16.4 "IRREVERSIBILITY REMPERATURES IN SUPERCONDUCTING OXIDES:THE FLUX-LINE-LATTICE MELTING,THE GLASS-LIQUID TRANSITION,OR THE DEPINNING TEMPERATURES" 1991 3 "DIVISION OF MATERIALS SCIENCE,BRPOOKHAVEN NATIONAL LABORATORY,UPTOWN,NEW YORK 11973" "PHYS.REV.B,(1991)5516" 2455 PR0435516 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.82Ni0.18O7+Z Y 1 Ba 2 Cu 2.82 Ni 0.18 O 7+Z 1991 Y123 K 72.2 72.2 126 2.5 16.2 "IRREVERSIBILITY REMPERATURES IN SUPERCONDUCTING OXIDES:THE FLUX-LINE-LATTICE MELTING,THE GLASS-LIQUID TRANSITION,OR THE DEPINNING TEMPERATURES" 1991 3 "DIVISION OF MATERIALS SCIENCE,BRPOOKHAVEN NATIONAL LABORATORY,UPTOWN,NEW YORK 11973" "PHYS.REV.B,(1991)5516" 2456 PR0435516 YBa2Cu3O7 Y1Ba2Cu3O7+Z Y 1 Ba 2 Cu 3 O 7+Z 1991 Y123 K 90.5 90.5 133 2.1 15.7 "IRREVERSIBILITY REMPERATURES IN SUPERCONDUCTING OXIDES:THE FLUX-LINE-LATTICE MELTING,THE GLASS-LIQUID TRANSITION,OR THE DEPINNING TEMPERATURES" 1991 3 "DIVISION OF MATERIALS SCIENCE,BRPOOKHAVEN NATIONAL LABORATORY,UPTOWN,NEW YORK 11973" "PHYS.REV.B,(1991)5516" 2457 PR0435516 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.94Ni0.06O7+Z Y 1 Ba 2 Cu 2.94 Ni 0.06 O 7+Z 1991 Y123 K 83.5 83.5 123 2.1 16.4 "IRREVERSIBILITY REMPERATURES IN SUPERCONDUCTING OXIDES:THE FLUX-LINE-LATTICE MELTING,THE GLASS-LIQUID TRANSITION,OR THE DEPINNING TEMPERATURES" 1991 3 "DIVISION OF MATERIALS SCIENCE,BRPOOKHAVEN NATIONAL LABORATORY,UPTOWN,NEW YORK 11973" "PHYS.REV.B,(1991)5516" 2458 PR0435516 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.94Zn0.06O7+Z Y 1 Ba 2 Cu 2.94 Zn 0.06 O 7+Z 1991 Y123 K 68 68 100 2.1 18.2 "IRREVERSIBILITY REMPERATURES IN SUPERCONDUCTING OXIDES:THE FLUX-LINE-LATTICE MELTING,THE GLASS-LIQUID TRANSITION,OR THE DEPINNING TEMPERATURES" 1991 3 "DIVISION OF MATERIALS SCIENCE,BRPOOKHAVEN NATIONAL LABORATORY,UPTOWN,NEW YORK 11973" "PHYS.REV.B,(1991)5516" 2459 PR0435516 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.94Fe0.06O7+Z Y 1 Ba 2 Cu 2.94 Fe 0.06 O 7+Z 1991 Y123 K 86 86 114 1.9 17 "IRREVERSIBILITY REMPERATURES IN SUPERCONDUCTING OXIDES:THE FLUX-LINE-LATTICE MELTING,THE GLASS-LIQUID TRANSITION,OR THE DEPINNING TEMPERATURES" 1991 3 "DIVISION OF MATERIALS SCIENCE,BRPOOKHAVEN NATIONAL LABORATORY,UPTOWN,NEW YORK 11973" "PHYS.REV.B,(1991)5516" 2460 PR0435516 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.94Al0.06O6 Y 1 Ba 2 Cu 2.94 Al 0.06 O 6 1991 Y123 K 86 86 148 2.4 14.9 "IRREVERSIBILITY REMPERATURES IN SUPERCONDUCTING OXIDES:THE FLUX-LINE-LATTICE MELTING,THE GLASS-LIQUID TRANSITION,OR THE DEPINNING TEMPERATURES" 1991 3 "DIVISION OF MATERIALS SCIENCE,BRPOOKHAVEN NATIONAL LABORATORY,UPTOWN,NEW YORK 11973" "PHYS.REV.B,(1991)5516" 2461 PHC1740028 "ANN(970C, 50h,P(O2)=20 bar) " "(La,Sr)2CaCu2O6" La1.7Sr0.3Ca1Cu2O6 La 1.7 Sr 0.3 Ca 1 Cu 2 O 6 1991 2126 K 34 34 SUPERCONDUCTIVITY IN LA2-XSRXCACU2O6 AT 60 K INVESTIGATION OFDOPING AND HIGH PRESSURE ANNEALING 1991 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVE.,BERKELEY,CA 94704,USA" "PHYSCA C,174(1991)28" "LA,SR,CA,CU,O" 2462 PHC1740028 "ANN(970C, 50h,P(O2)=50 bar) " "(La,Sr)2CaCu2O6" La1.7Sr0.3Ca1Cu2O6 La 1.7 Sr 0.3 Ca 1 Cu 2 O 6 1991 2126 K 44 44 SUPERCONDUCTIVITY IN LA2-XSRXCACU2O6 AT 60 K INVESTIGATION OFDOPING AND HIGH PRESSURE ANNEALING 1991 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVE.,BERKELEY,CA 94704,USA" "PHYSCA C,174(1991)28" "LA,SR,CA,CU,O" 2463 PHC1740028 "ANN(970C, 50h,P(O2)=100 bar) " "(La,Sr)2CaCu2O6" La1.7Sr0.3Ca1Cu2O6 La 1.7 Sr 0.3 Ca 1 Cu 2 O 6 1991 2126 K 50 50 SUPERCONDUCTIVITY IN LA2-XSRXCACU2O6 AT 60 K INVESTIGATION OFDOPING AND HIGH PRESSURE ANNEALING 1991 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVE.,BERKELEY,CA 94704,USA" "PHYSCA C,174(1991)28" "LA,SR,CA,CU,O" 2464 PHC1740028 "ANN(970C, 50h,P(O2)=200 bar) " "(La,Sr)2CaCu2O6" La1.7Sr0.3Ca1Cu2O6 La 1.7 Sr 0.3 Ca 1 Cu 2 O 6 1991 2126 K 54 54 SUPERCONDUCTIVITY IN LA2-XSRXCACU2O6 AT 60 K INVESTIGATION OFDOPING AND HIGH PRESSURE ANNEALING 1991 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVE.,BERKELEY,CA 94704,USA" "PHYSCA C,174(1991)28" "LA,SR,CA,CU,O" 2465 PHC1740028 "ANN(970C, 50h,P(O2)=20 bar) " "(La,Sr)2CaCu2O6" La1.8Sr0.2Ca1Cu2O6 La 1.8 Sr 0.2 Ca 1 Cu 2 O 6 2 1991 2126 3.82 19.43 K 27 27 SUPERCONDUCTIVITY IN LA2-XSRXCACU2O6 AT 60 K INVESTIGATION OFDOPING AND HIGH PRESSURE ANNEALING 1991 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVE.,BERKELEY,CA 94704,USA" "PHYSCA C,174(1991)28" "LA,SR,CA,CU,O" 2466 PHC1740028 "ANN(970C, 50h,P(O2)=50 bar) " "(La,Sr)2CaCu2O6" La1.8Sr0.2Ca1Cu2O6 La 1.8 Sr 0.2 Ca 1 Cu 2 O 6 2 1991 2126 K 38 38 SUPERCONDUCTIVITY IN LA2-XSRXCACU2O6 AT 60 K INVESTIGATION OFDOPING AND HIGH PRESSURE ANNEALING 1991 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVE.,BERKELEY,CA 94704,USA" "PHYSCA C,174(1991)28" "LA,SR,CA,CU,O" 2467 PHC1740028 "ANN(970C, 50h,P(O2)=100 bar) " "(La,Sr)2CaCu2O6" La1.8Sr0.2Ca1Cu2O6 La 1.8 Sr 0.2 Ca 1 Cu 2 O 6 2 1991 2126 K 45 45 SUPERCONDUCTIVITY IN LA2-XSRXCACU2O6 AT 60 K INVESTIGATION OFDOPING AND HIGH PRESSURE ANNEALING 1991 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVE.,BERKELEY,CA 94704,USA" "PHYSCA C,174(1991)28" "LA,SR,CA,CU,O" 2468 PHC1740028 "ANN(970C, 50h,P(O2)=200 bar) " "(La,Sr)2CaCu2O6" La1.8Sr0.2Ca1Cu2O6 La 1.8 Sr 0.2 Ca 1 Cu 2 O 6 2 1991 2126 K 53 53 SUPERCONDUCTIVITY IN LA2-XSRXCACU2O6 AT 60 K INVESTIGATION OFDOPING AND HIGH PRESSURE ANNEALING 1991 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVE.,BERKELEY,CA 94704,USA" "PHYSCA C,174(1991)28" "LA,SR,CA,CU,O" 2469 PHC1680309 SUBSTITUTION OF ALKALINE METAL RESULTS IN THE INCREASE OF TC Bi2.2Sr1.8Ca1.05Cu1.45Li0.7OZ Bi 2.2 Sr 1.8 Ca 1.05 Cu 1.45 Li 0.7 O Z 2 1990 2 Bi2212 5.4 30.82 K 91 91 LI SUBSTITUTION IN THE BI2SR2CA1CU2O8 SUPERCONDUCTOR 1990 "SUBSTITUTION ,MEISSNER EFFECT ,ANNEALING" "THE INSTITUTE OF SCIENTIFIC AND INDUSTRIAL RESEARCH, OSAKA UNIVERSITY, MIHOGAOKA, IBARAKI, OSAKA 567, JAPAN" "PHYSICA C,168(1990)309" "LI,BI,SR,CA,CU,O" 2470 PHC1700015 "(La,Sr)2SrCu2O6" La1.9Sr1.1Cu2O6.251 La 1.9 Sr 1.1 Cu 2 O 6+Z 6.251 1 1990 2 2126 3.856 20.068 K 4.2 CARRIER DENSITY DEPENDENCE OF THE TRANSPORT PROPERTIES OF LA2-XSR1+XCU2O6+Y 1990 "THE INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI, MINATO-KU, TOKYO 106, JAPAN" "PHYSICA C,170(1990)15" "LA,SR,CU,O" 2471 PHC1700015 "(La,Sr)2SrCu2O6" La1.8Sr1.2Cu2O6.213 La 1.8 Sr 1.2 Cu 2 O 6+Z 6.213 1 1990 2 2126 3.85 20.074 K 4.2 CARRIER DENSITY DEPENDENCE OF THE TRANSPORT PROPERTIES OF LA2-XSR1+XCU2O6+Y 1990 "THE INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI, MINATO-KU, TOKYO 106, JAPAN" "PHYSICA C,170(1990)15" "LA,SR,CU,O" 2472 PHC1700015 "(La,Sr)2SrCu2O6" La2Sr1Cu2O6.315 La 2 Sr 1 Cu 2 O 6+Z 6.315 1990 2 2126 3.86 20.063 K 4.2 CARRIER DENSITY DEPENDENCE OF THE TRANSPORT PROPERTIES OF LA2-XSR1+XCU2O6+Y 1990 "THE INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI, MINATO-KU, TOKYO 106, JAPAN" "PHYSICA C,170(1990)15" "LA,SR,CU,O" 2473 PHC1700015 "(La,Sr)2SrCu2O6" La1.9Sr1.1Cu2O6.05 La 1.9 Sr 1.1 Cu 2 O 6+Z 6.05 1 1990 2 2126 3.862 19.949 K 4.2 5.80E-09 CARRIER DENSITY DEPENDENCE OF THE TRANSPORT PROPERTIES OF LA2-XSR1+XCU2O6+Y 1990 "THE INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI, MINATO-KU, TOKYO 106, JAPAN" "PHYSICA C,170(1990)15" "LA,SR,CU,O" 2474 PR04011352 RH FOR AB-PLANE Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8-Z Bi 2 Sr 2 Ca 1 Cu 2 O 8-Z 3 1989 2 Bi2212 K 81 81 1 3.92E-09 RH2474 VARIABLE HALL COEFFICIENT IN BI2SR2CACU2O8-X ACROSS THE METAL-INSULATOR TRANSITION 1989 12 "HALL COEFFICIENT ,SINGLE-CRYSTAL ,OXYGEN CONTENT ,HALL MOBILITY" "DEPARTMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA ATBERKELEY,ANDMATERIALS AND CHEMICAL SCIENCES DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "PHYS.REV.B,40(1989)11352" "BI,SR,CA,CU,O" 2475 PR04011352 RH FOR AB-PLANE Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8-Z Bi 2 Sr 2 Ca 1 Cu 2 O 8-Z 3 1989 2 Bi2212 K 62 62 1.8 4.98E-09 RH2475 VARIABLE HALL COEFFICIENT IN BI2SR2CACU2O8-X ACROSS THE METAL-INSULATOR TRANSITION 1989 12 "HALL COEFFICIENT ,SINGLE-CRYSTAL ,OXYGEN CONTENT ,HALL MOBILITY" "DEPARTMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA ATBERKELEY,ANDMATERIALS AND CHEMICAL SCIENCES DIVISION,LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "PHYS.REV.B,40(1989)11352" "BI,SR,CA,CU,O" 2476 PRB0402254 La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 1 1989 3 T 3.785 3.818 13.148 K 4.2 4.45E-09 RH2476 SUPERCONDUCTOR-TO-NONSUPERCONDUCTOR TRANSITION INLA1-XSRX)2CUO4 AS INVESTIGATED BY TRANSPORT AND MAGNETIC MEASUREMENTS 1989 8 "HALL COEFFICIENT ,SUSCEPTIBILITY ,RES ,SUPER-SEMI TRANSI" "ENGINEERING RESEARCH INSTITUTE,UNIVERSITY OF TOKYO,YAYOI, BUNKYO-KU,TOKYO 113,JAPAN" "PHYS.REV.B,40(1989)2254" "LA,SR,CU,O" 2477 PRB0402254 "(La,Sr)2CuO4" La1.964Sr0.036Cu1O4 La 1.964 Sr 0.036 Cu 1 O 4 1 1989 3 T 3.783 3.812 13.166 K 4.2 RH2477 SUPERCONDUCTOR-TO-NONSUPERCONDUCTOR TRANSITION INLA1-XSRX)2CUO4 AS INVESTIGATED BY TRANSPORT AND MAGNETIC MEASUREMENTS 1989 8 "HALL COEFFICIENT ,SUSCEPTIBILITY ,RES ,SUPER-SEMI TRANSI" "ENGINEERING RESEARCH INSTITUTE,UNIVERSITY OF TOKYO,YAYOI, BUNKYO-KU,TOKYO 113,JAPAN" "PHYS.REV.B,40(1989)2254" "LA,SR,CU,O" 2478 PRB0402254 "(La,Sr)2CuO4" La1.95Sr0.05Cu1O4 La 1.95 Sr 0.05 Cu 1 O 4 1 1989 3 T 3.782 3.809 13.174 K 4.2 RH2478 SUPERCONDUCTOR-TO-NONSUPERCONDUCTOR TRANSITION INLA1-XSRX)2CUO4 AS INVESTIGATED BY TRANSPORT AND MAGNETIC MEASUREMENTS 1989 8 "HALL COEFFICIENT ,SUSCEPTIBILITY ,RES ,SUPER-SEMI TRANSI" "ENGINEERING RESEARCH INSTITUTE,UNIVERSITY OF TOKYO,YAYOI, BUNKYO-KU,TOKYO 113,JAPAN" "PHYS.REV.B,40(1989)2254" "LA,SR,CU,O" 2479 PRB0402254 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1989 2 T 3.776 13.229 K 37 37 RH2479 SUPERCONDUCTOR-TO-NONSUPERCONDUCTOR TRANSITION INLA1-XSRX)2CUO4 AS INVESTIGATED BY TRANSPORT AND MAGNETIC MEASUREMENTS 1989 8 "HALL COEFFICIENT ,SUSCEPTIBILITY ,RES ,SUPER-SEMI TRANSI" "ENGINEERING RESEARCH INSTITUTE,UNIVERSITY OF TOKYO,YAYOI, BUNKYO-KU,TOKYO 113,JAPAN" "PHYS.REV.B,40(1989)2254" "LA,SR,CU,O" 2480 PRB0402254 "(La,Sr)2CuO4" La1.774Sr0.226Cu1O4 La 1.774 Sr 0.226 Cu 1 O 4 1 1989 2 3.767 13.25 K 19.8 19.8 3.12E-10 RH2480 SUPERCONDUCTOR-TO-NONSUPERCONDUCTOR TRANSITION INLA1-XSRX)2CUO4 AS INVESTIGATED BY TRANSPORT AND MAGNETIC MEASUREMENTS 1989 8 "HALL COEFFICIENT ,SUSCEPTIBILITY ,RES ,SUPER-SEMI TRANSI" "ENGINEERING RESEARCH INSTITUTE,UNIVERSITY OF TOKYO,YAYOI, BUNKYO-KU,TOKYO 113,JAPAN" "PHYS.REV.B,40(1989)2254" "LA,SR,CU,O" 2481 PR04310445 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.2 Bi 2 Sr 2 Ca 1 Cu 2 O 8-Z 8.2 1 1991 2 Bi2212 K 65 65 1.50E-09 OXYGEN-LOSS EFFECTS ON SUPERCONDUCTIVITY OF BI2SR2CACU2OY SISTEM 1991 5 "STEEL RESEACH CENTER,NKK CORPORATION,KAWASAKI 210,JAPAN" "PHYS.REV.B,43(1991)10445" "BI,SR,CA,CU,O" 2482 PR04310445 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.199 Bi 2 Sr 2 Ca 1 Cu 2 O 8-Z 8.199 1 1991 2 Bi2212 K 70 70 OXYGEN-LOSS EFFECTS ON SUPERCONDUCTIVITY OF BI2SR2CACU2OY SISTEM 1991 5 "STEEL RESEACH CENTER,NKK CORPORATION,KAWASAKI 210,JAPAN" "PHYS.REV.B,43(1991)10445" "BI,SR,CA,CU,O" 2483 PR04310445 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.198 Bi 2 Sr 2 Ca 1 Cu 2 O 8-Z 8.198 1 1991 2 Bi2212 K 78 78 2.83E-09 OXYGEN-LOSS EFFECTS ON SUPERCONDUCTIVITY OF BI2SR2CACU2OY SISTEM 1991 5 "STEEL RESEACH CENTER,NKK CORPORATION,KAWASAKI 210,JAPAN" "PHYS.REV.B,43(1991)10445" "BI,SR,CA,CU,O" 2484 PR04310445 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.196 Bi 2 Sr 2 Ca 1 Cu 2 O 8-Z 8.196 1 1991 2 Bi2212 K 85 85 3.12E-09 OXYGEN-LOSS EFFECTS ON SUPERCONDUCTIVITY OF BI2SR2CACU2OY SISTEM 1991 5 "STEEL RESEACH CENTER,NKK CORPORATION,KAWASAKI 210,JAPAN" "PHYS.REV.B,43(1991)10445" "BI,SR,CA,CU,O" 2485 PR04310445 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.195 Bi 2 Sr 2 Ca 1 Cu 2 O 8-Z 8.195 1 1991 2 Bi2212 K 91 91 2.98E-09 OXYGEN-LOSS EFFECTS ON SUPERCONDUCTIVITY OF BI2SR2CACU2OY SISTEM 1991 5 "STEEL RESEACH CENTER,NKK CORPORATION,KAWASAKI 210,JAPAN" "PHYS.REV.B,43(1991)10445" "BI,SR,CA,CU,O" 2486 PR04310445 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.194 Bi 2 Sr 2 Ca 1 Cu 2 O 8-Z 8.194 1 1991 2 Bi2212 K 92 92 2.78E-09 OXYGEN-LOSS EFFECTS ON SUPERCONDUCTIVITY OF BI2SR2CACU2OY SISTEM 1991 5 "STEEL RESEACH CENTER,NKK CORPORATION,KAWASAKI 210,JAPAN" "PHYS.REV.B,43(1991)10445" "BI,SR,CA,CU,O" 2487 PR04310445 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.118 Bi 2 Sr 2 Ca 1 Cu 2 O 8-Z 8.118 1 1991 2 Bi2212 K 91 91 OXYGEN-LOSS EFFECTS ON SUPERCONDUCTIVITY OF BI2SR2CACU2OY SISTEM 1991 5 "STEEL RESEACH CENTER,NKK CORPORATION,KAWASAKI 210,JAPAN" "PHYS.REV.B,43(1991)10445" "BI,SR,CA,CU,O" 2488 PR04310445 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.1 Bi 2 Sr 2 Ca 1 Cu 2 O 8-Z 8.1 1 1991 2 Bi2212 K 90 90 OXYGEN-LOSS EFFECTS ON SUPERCONDUCTIVITY OF BI2SR2CACU2OY SISTEM 1991 5 "STEEL RESEACH CENTER,NKK CORPORATION,KAWASAKI 210,JAPAN" "PHYS.REV.B,43(1991)10445" "BI,SR,CA,CU,O" 2489 PR04310489 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 1 1991 2 T' K 21.6 21.6 -3.80E-10 RH2489 COMPARISPON OF PARAMAGNETIC- AND NONMAGNETIC-IMPURITY EFFECT ON SUPERCONDUCTIVITY IN ND1.85CE0.15CUO4 1991 5 "SUPERCONDUCTIVITY RESEACH LABORATOTY,INTERNATIONALSUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO135,JAPAN" "PHYS.REV.B,43(1991)10489" "ZN,ND,CE,CU,O,CO,NA" 2490 PR04310489 "(Nd,Ce)2(Cu,Co)O4" Nd1.85Ce0.15Cu0.998Co0.002O4 Nd 1.85 Ce 0.15 Cu 0.998 Co 0.002 O 4 1 1991 2 T' K 16.5 16.5 COMPARISPON OF PARAMAGNETIC- AND NONMAGNETIC-IMPURITY EFFECT ON SUPERCONDUCTIVITY IN ND1.85CE0.15CUO4 1991 5 "SUPERCONDUCTIVITY RESEACH LABORATOTY,INTERNATIONALSUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO135,JAPAN" "PHYS.REV.B,43(1991)10489" "ZN,ND,CE,CU,O,CO,NA" 2491 PR04310489 "(Nd,Ce)2(Cu,Co)O4" Nd1.85Ce0.15Cu0.996Co0.004O4 Nd 1.85 Ce 0.15 Cu 0.996 Co 0.004 O 4 1 1991 2 T' K 11.2 11.2 RH2491 COMPARISPON OF PARAMAGNETIC- AND NONMAGNETIC-IMPURITY EFFECT ON SUPERCONDUCTIVITY IN ND1.85CE0.15CUO4 1991 5 "SUPERCONDUCTIVITY RESEACH LABORATOTY,INTERNATIONALSUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO135,JAPAN" "PHYS.REV.B,43(1991)10489" "ZN,ND,CE,CU,O,CO,NA" 2492 PR04310489 "(Nd,Ce)2(Cu,Co)O4" Nd1.85Ce0.15Cu0.995Co0.005O4 Nd 1.85 Ce 0.15 Cu 0.995 Co 0.005 O 4 1 1991 2 T' K 7.3 7.3 COMPARISPON OF PARAMAGNETIC- AND NONMAGNETIC-IMPURITY EFFECT ON SUPERCONDUCTIVITY IN ND1.85CE0.15CUO4 1991 5 "SUPERCONDUCTIVITY RESEACH LABORATOTY,INTERNATIONALSUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO135,JAPAN" "PHYS.REV.B,43(1991)10489" "ZN,ND,CE,CU,O,CO,NA" 2493 PR04310489 "(Nd,Ce)2(Cu,Co)O4" Nd1.85Ce0.15Cu0.994Co0.006O4 Nd 1.85 Ce 0.15 Cu 0.994 Co 0.006 O 4 1 1991 2 T' K 4.3 4.3 COMPARISPON OF PARAMAGNETIC- AND NONMAGNETIC-IMPURITY EFFECT ON SUPERCONDUCTIVITY IN ND1.85CE0.15CUO4 1991 5 "SUPERCONDUCTIVITY RESEACH LABORATOTY,INTERNATIONALSUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO135,JAPAN" "PHYS.REV.B,43(1991)10489" "ZN,ND,CE,CU,O,CO,NA" 2494 PR04310489 "(Nd,Ce)2(Cu,Co)O4" Nd1.85Ce0.15Cu0.993Co0.007O4 Nd 1.85 Ce 0.15 Cu 0.993 Co 0.007 O 4 1 1991 2 T' K 2 COMPARISPON OF PARAMAGNETIC- AND NONMAGNETIC-IMPURITY EFFECT ON SUPERCONDUCTIVITY IN ND1.85CE0.15CUO4 1991 5 "SUPERCONDUCTIVITY RESEACH LABORATOTY,INTERNATIONALSUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO135,JAPAN" "PHYS.REV.B,43(1991)10489" "ZN,ND,CE,CU,O,CO,NA" 2495 PR04310489 "(Nd,Ce)2(Cu,Co)O4" Nd1.85Ce0.15Cu0.99Co0.01O4 Nd 1.85 Ce 0.15 Cu 0.99 Co 0.01 O 4 1 1991 2 T' K 2 6 RH2495 COMPARISPON OF PARAMAGNETIC- AND NONMAGNETIC-IMPURITY EFFECT ON SUPERCONDUCTIVITY IN ND1.85CE0.15CUO4 1991 5 "SUPERCONDUCTIVITY RESEACH LABORATOTY,INTERNATIONALSUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO135,JAPAN" "PHYS.REV.B,43(1991)10489" "ZN,ND,CE,CU,O,CO,NA" 2496 PR04310489 "(Nd,Ce)2(Cu,Co)O4" Nd1.85Ce0.15Cu0.98Co0.02O4 Nd 1.85 Ce 0.15 Cu 0.98 Co 0.02 O 4 1 1991 2 T' K 2 6 RH2496 COMPARISPON OF PARAMAGNETIC- AND NONMAGNETIC-IMPURITY EFFECT ON SUPERCONDUCTIVITY IN ND1.85CE0.15CUO4 1991 5 "SUPERCONDUCTIVITY RESEACH LABORATOTY,INTERNATIONALSUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO135,JAPAN" "PHYS.REV.B,43(1991)10489" "ZN,ND,CE,CU,O,CO,NA" 2497 PR04310489 "(Nd,Ce)2(Cu,Ni)O4" Nd1.85Ce0.15Cu0.999Ni0.001O4 Nd 1.85 Ce 0.15 Cu 0.999 Ni 0.001 O 4 1 1991 T' K 19.5 19.5 COMPARISPON OF PARAMAGNETIC- AND NONMAGNETIC-IMPURITY EFFECT ON SUPERCONDUCTIVITY IN ND1.85CE0.15CUO4 1991 5 "SUPERCONDUCTIVITY RESEACH LABORATOTY,INTERNATIONALSUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO135,JAPAN" "PHYS.REV.B,43(1991)10489" "ZN,ND,CE,CU,O,CO,NA" 2498 PR04310489 "(Nd,Ce)2(Cu,Ni)O4" Nd1.85Ce0.15Cu0.998Ni0.002O4 Nd 1.85 Ce 0.15 Cu 0.998 Ni 0.002 O 4 1 1991 T' K 17.3 17.3 COMPARISPON OF PARAMAGNETIC- AND NONMAGNETIC-IMPURITY EFFECT ON SUPERCONDUCTIVITY IN ND1.85CE0.15CUO4 1991 5 "SUPERCONDUCTIVITY RESEACH LABORATOTY,INTERNATIONALSUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO135,JAPAN" "PHYS.REV.B,43(1991)10489" "ZN,ND,CE,CU,O,CO,NA" 2499 PR04310489 "(Nd,Ce)2(Cu,Ni)O4" Nd1.85Ce0.15Cu0.997Ni0.003O4 Nd 1.85 Ce 0.15 Cu 0.997 Ni 0.003 O 4 1 1991 T' K 15.3 15.3 COMPARISPON OF PARAMAGNETIC- AND NONMAGNETIC-IMPURITY EFFECT ON SUPERCONDUCTIVITY IN ND1.85CE0.15CUO4 1991 5 "SUPERCONDUCTIVITY RESEACH LABORATOTY,INTERNATIONALSUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO135,JAPAN" "PHYS.REV.B,43(1991)10489" "ZN,ND,CE,CU,O,CO,NA" 2500 PR04310489 "(Nd,Ce)2(Cu,Ni)O4" Nd1.85Ce0.15Cu0.996Ni0.004O4 Nd 1.85 Ce 0.15 Cu 0.996 Ni 0.004 O 4 1 1991 T' K 13.5 13.5 -2.80E-10 6 RH2500 COMPARISPON OF PARAMAGNETIC- AND NONMAGNETIC-IMPURITY EFFECT ON SUPERCONDUCTIVITY IN ND1.85CE0.15CUO4 1991 5 "SUPERCONDUCTIVITY RESEACH LABORATOTY,INTERNATIONALSUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO135,JAPAN" "PHYS.REV.B,43(1991)10489" "ZN,ND,CE,CU,O,CO,NA" 2501 PR04310489 "(Nd,Ce)2(Cu,Ni)O4" Nd1.85Ce0.15Cu0.995Ni0.005O4 Nd 1.85 Ce 0.15 Cu 0.995 Ni 0.005 O 4 1 1991 T' K 11.2 11.2 COMPARISPON OF PARAMAGNETIC- AND NONMAGNETIC-IMPURITY EFFECT ON SUPERCONDUCTIVITY IN ND1.85CE0.15CUO4 1991 5 "SUPERCONDUCTIVITY RESEACH LABORATOTY,INTERNATIONALSUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO135,JAPAN" "PHYS.REV.B,43(1991)10489" "ZN,ND,CE,CU,O,CO,NA" 2502 PR04310489 "(Nd,Ce)2(Cu,Ni)O4" Nd1.85Ce0.15Cu0.994Ni0.006O4 Nd 1.85 Ce 0.15 Cu 0.994 Ni 0.006 O 4 1 1991 T' K 8.4 8.4 195 COMPARISPON OF PARAMAGNETIC- AND NONMAGNETIC-IMPURITY EFFECT ON SUPERCONDUCTIVITY IN ND1.85CE0.15CUO4 1991 5 "SUPERCONDUCTIVITY RESEACH LABORATOTY,INTERNATIONALSUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO135,JAPAN" "PHYS.REV.B,43(1991)10489" "ZN,ND,CE,CU,O,CO,NA" 2503 PR04310489 "(Nd,Ce)2(Cu,Ni)O4" Nd1.85Ce0.15Cu0.993Ni0.007O4 Nd 1.85 Ce 0.15 Cu 0.993 Ni 0.007 O 4 1 1991 T' K 5.6 5.6 COMPARISPON OF PARAMAGNETIC- AND NONMAGNETIC-IMPURITY EFFECT ON SUPERCONDUCTIVITY IN ND1.85CE0.15CUO4 1991 5 "SUPERCONDUCTIVITY RESEACH LABORATOTY,INTERNATIONALSUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO135,JAPAN" "PHYS.REV.B,43(1991)10489" "ZN,ND,CE,CU,O,CO,NA" 2504 PR04310489 "(Nd,Ce)2(Cu,Ni)O4" Nd1.85Ce0.15Cu0.99Ni0.01O4 Nd 1.85 Ce 0.15 Cu 0.99 Ni 0.01 O 4 1 1991 T' K 2 -1.75E-10 6 RH2504 COMPARISPON OF PARAMAGNETIC- AND NONMAGNETIC-IMPURITY EFFECT ON SUPERCONDUCTIVITY IN ND1.85CE0.15CUO4 1991 5 "SUPERCONDUCTIVITY RESEACH LABORATOTY,INTERNATIONALSUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO135,JAPAN" "PHYS.REV.B,43(1991)10489" "ZN,ND,CE,CU,O,CO,NA" 2505 PR04310489 "(Nd,Ce)2(Cu,Ni)O4" Nd1.85Ce0.15Cu0.98Ni0.02O4 Nd 1.85 Ce 0.15 Cu 0.98 Ni 0.02 O 4 1 1991 T' K 2 -1.20E-10 6 RH2505 COMPARISPON OF PARAMAGNETIC- AND NONMAGNETIC-IMPURITY EFFECT ON SUPERCONDUCTIVITY IN ND1.85CE0.15CUO4 1991 5 "SUPERCONDUCTIVITY RESEACH LABORATOTY,INTERNATIONALSUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO135,JAPAN" "PHYS.REV.B,43(1991)10489" "ZN,ND,CE,CU,O,CO,NA" 2506 PR04310489 "(Nd,Ce)2(Cu,Zn)O4" Nd1.85Ce0.15Cu0.996Zn0.004O4 Nd 1.85 Ce 0.15 Cu 0.996 Zn 0.004 O 4 1 1991 T' K 18.1 18.1 6 RH2506 COMPARISPON OF PARAMAGNETIC- AND NONMAGNETIC-IMPURITY EFFECT ON SUPERCONDUCTIVITY IN ND1.85CE0.15CUO4 1991 5 "SUPERCONDUCTIVITY RESEACH LABORATOTY,INTERNATIONALSUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO135,JAPAN" "PHYS.REV.B,43(1991)10489" "ZN,ND,CE,CU,O,CO,NA" 2507 PR04310489 "(Nd,Ce)2(Cu,Zn)O4" Nd1.85Ce0.15Cu0.99Zn0.01O4 Nd 1.85 Ce 0.15 Cu 0.99 Zn 0.01 O 4 1 1991 T' K 15.1 15.1 6 RH2507 COMPARISPON OF PARAMAGNETIC- AND NONMAGNETIC-IMPURITY EFFECT ON SUPERCONDUCTIVITY IN ND1.85CE0.15CUO4 1991 5 "SUPERCONDUCTIVITY RESEACH LABORATOTY,INTERNATIONALSUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO135,JAPAN" "PHYS.REV.B,43(1991)10489" "ZN,ND,CE,CU,O,CO,NA" 2508 PR04310489 "(Nd,Ce)2(Cu,Zn)O4" Nd1.85Ce0.15Cu0.98Zn0.02O4 Nd 1.85 Ce 0.15 Cu 0.98 Zn 0.02 O 4 1 1991 T' K 8.7 8.7 COMPARISPON OF PARAMAGNETIC- AND NONMAGNETIC-IMPURITY EFFECT ON SUPERCONDUCTIVITY IN ND1.85CE0.15CUO4 1991 5 "SUPERCONDUCTIVITY RESEACH LABORATOTY,INTERNATIONALSUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO135,JAPAN" "PHYS.REV.B,43(1991)10489" "ZN,ND,CE,CU,O,CO,NA" 2509 PLA1320217 "RHN AT 100K,DENS CALCULATED FROM XRD" "YBa2(Cu,Co)3O7" Y1Ba2Cu2.975Co0.025OZ Y 1 Ba 2 Cu 2.975 Co 0.025 O Z 1 1988 4.08 3 Y123 3.824 3.889 11.678 K 90.3 90.3 4.06E-09 LOCALIZATION EFFECTS IN THE Y(1)BA(2)CU(3-X)CO(X)O(Y) SYSTEM 1988 10 "HALL EFFECT ,LOCALIZATION ,XRY ,RE" "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,PR CHINA" "PHYS.LETT.A,132(1988)217" "Y,BA,CU,CO,O" 2510 PLA1320217 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.95Co0.05OZ Y 1 Ba 2 Cu 2.95 Co 0.05 O Z 1 1988 4.07 3 Y123 3.826 3.876 11.665 K 86.1 86.1 4.22E-09 LOCALIZATION EFFECTS IN THE Y(1)BA(2)CU(3-X)CO(X)O(Y) SYSTEM 1988 10 "HALL EFFECT ,LOCALIZATION ,XRY ,RE" "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,PR CHINA" "PHYS.LETT.A,132(1988)217" "Y,BA,CU,CO,O" 2511 PLA1320217 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.95Co0.05OZ Y 1 Ba 2 Cu 2.95 Co 0.05 O Z 1 1988 3 Y123 3.833 3.872 11.651 K 84 84 LOCALIZATION EFFECTS IN THE Y(1)BA(2)CU(3-X)CO(X)O(Y) SYSTEM 1988 10 "HALL EFFECT ,LOCALIZATION ,XRY ,RE" "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,PR CHINA" "PHYS.LETT.A,132(1988)217" "Y,BA,CU,CO,O" 2512 PLA1320217 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.925Co0.075OZ Y 1 Ba 2 Cu 2.925 Co 0.075 O Z 1 1988 3 Y123 3.853 3.882 11.669 K 77 77 LOCALIZATION EFFECTS IN THE Y(1)BA(2)CU(3-X)CO(X)O(Y) SYSTEM 1988 10 "HALL EFFECT ,LOCALIZATION ,XRY ,RE" "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,PR CHINA" "PHYS.LETT.A,132(1988)217" "Y,BA,CU,CO,O" 2513 PLA1320217 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.9Co0.1OZ Y 1 Ba 2 Cu 2.9 Co 0.1 O Z 1 1988 4.04 3 Y123 3.85 3.87 11.665 K 70 70 5.79E-09 LOCALIZATION EFFECTS IN THE Y(1)BA(2)CU(3-X)CO(X)O(Y) SYSTEM 1988 10 "HALL EFFECT ,LOCALIZATION ,XRY ,RE" "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,PR CHINA" "PHYS.LETT.A,132(1988)217" "Y,BA,CU,CO,O" 2514 PLA1320217 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.875Co0.125OZ Y 1 Ba 2 Cu 2.875 Co 0.125 O Z 1 1988 4.83 3 Y123 3.851 3.858 11.677 K 64.3 64.3 8.41E-09 LOCALIZATION EFFECTS IN THE Y(1)BA(2)CU(3-X)CO(X)O(Y) SYSTEM 1988 10 "HALL EFFECT ,LOCALIZATION ,XRY ,RE" "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,PR CHINA" "PHYS.LETT.A,132(1988)217" "Y,BA,CU,CO,O" 2515 PLA1320217 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.85Co0.15OZ Y 1 Ba 2 Cu 2.85 Co 0.15 O Z 1 1988 3 Y123 3.861 3.864 11.865 K 58.9 58.9 LOCALIZATION EFFECTS IN THE Y(1)BA(2)CU(3-X)CO(X)O(Y) SYSTEM 1988 10 "HALL EFFECT ,LOCALIZATION ,XRY ,RE" "UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI,PR CHINA" "PHYS.LETT.A,132(1988)217" "Y,BA,CU,CO,O" 2516 PR0379401 GdBa2Cu3O7 Gd1Ba2Cu3O7 Gd 1 Ba 2 Cu 3 O 7 1 1988 3 Y123 K 1550 Muon depolarization and magnetic field penetration depth in superconducting GdBa2Cu3Ox 1988 6 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545" "Phys.Rev.B,37(1988)9401" 2517 PR0379401 GdBa2Cu3O7 Gd1Ba2Cu3O7 Gd 1 Ba 2 Cu 3 O 7 1 1988 3 Y123 K 1900 Muon depolarization and magnetic field penetration depth in superconducting GdBa2Cu3Ox 1988 6 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545" "Phys.Rev.B,37(1988)9401" 2518 JJP0270538 Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 3 1988 Bi2212 K 83 83 812 19 14 0.32 42 1 "LARGE ANISOTROPY OF THE UPPER CRITICAL MAGNETIC FIELD IN SINGLE CRYSTAL BI-(SR,CA)-CU-O" 1988 4 "SINGLE CRYSTAL ,HC" "NTT LABORATORIES,IBARAKI" "JJAP.LETT.,27(1988)L538" "BI,SR,CA,CU,O" 2519 JJP0261921 substrate temp.=800C Films were grown on SrTiO3 by magnetron sputtering. La1.92Sr0.08Cu1OZ La 1.92 Sr 0.08 Cu 1 O Z 4 1987 T K 19.8 19.8 T mid point in the resistive transition 125 24 T/K 6.3 1.2 A 37 7.1 ANISOTROPIC PROPERTIES OF SUPERCONDUCTING (LA(1-X)SR(X))(2)CU(1)O(4) SINGLE-CRYSTAL THIN FILMS 1987 11 "FILM ,SINGLE CRYSTAL ,HC ,RE" "NTT LABORATORIES,TOKAI,IBARAKI" "JJAP.LETT.,26(1987)L1921" "LA,SR,CU,O" 2520 JJP0261057 YBa2Cu3O7 Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 3 1987 Y123 K 90.8 90.8 190 56 3 0.9 10 THE ANISOTROPIC UPPER CRITICAL FIELD OF SINGLE CRYSTAL Y(1)BA(2)CU(3)O(X) 1987 "HC ,ANISOTROPY" ISSP UNIV. OF TOKYO "JJAP LETT.,26(1987)L1057" 2521 PR0426172 Pr2CuO4 Pr2Cu1O3.49 Pr 2 Cu 1 O 3.49 3.49 1990 3 214S 4.254 3.794 12.005 K 5 "NEW PHASES INDUCED BY HYDROGEN REDUCTION AND BY SUBSEQUENT OXIDATION OF L2CUO4(L=LA,PR,ND,SM,EU,GD)" 1990 10 "AMES LABORATORY U.S.DEPARTMENT OF ENERGY AND DEVELOPMENT OF PHYSICS,IOWA STATE UNIVERSITY,AMES,IOWA50011" "PHYS.REV.B,42(1990)6172" "LA,PR,ND,SM,EU,GD,CU,O" 2522 PR0426172 Nd2CuO4 Nd2Cu1O3.5 Nd 2 Cu 1 O 3.5 3.5 1990 3 214S 4.238 3.768 11.919 K 5 "NEW PHASES INDUCED BY HYDROGEN REDUCTION AND BY SUBSEQUENT OXIDATION OF L2CUO4(L=LA,PR,ND,SM,EU,GD)" 1990 10 "AMES LABORATORY U.S.DEPARTMENT OF ENERGY AND DEVELOPMENT OF PHYSICS,IOWA STATE UNIVERSITY,AMES,IOWA50011" "PHYS.REV.B,42(1990)6172" "LA,PR,ND,SM,EU,GD,CU,O" 2523 PR0426172 La2CuO4 La2Cu1O4.1 La 2 Cu 1 O 4.1 4.1 1990 2 T 4.004 12.546 K 5 "NEW PHASES INDUCED BY HYDROGEN REDUCTION AND BY SUBSEQUENT OXIDATION OF L2CUO4(L=LA,PR,ND,SM,EU,GD)" 1990 10 "AMES LABORATORY U.S.DEPARTMENT OF ENERGY AND DEVELOPMENT OF PHYSICS,IOWA STATE UNIVERSITY,AMES,IOWA50011" "PHYS.REV.B,42(1990)6172" "LA,PR,ND,SM,EU,GD,CU,O" 2524 PR0426172 La2CuO4 La2Cu1O4.2 La 2 Cu 1 O 4.2 4.2 1990 2 T 4.007 12.549 K 5 "NEW PHASES INDUCED BY HYDROGEN REDUCTION AND BY SUBSEQUENT OXIDATION OF L2CUO4(L=LA,PR,ND,SM,EU,GD)" 1990 10 "AMES LABORATORY U.S.DEPARTMENT OF ENERGY AND DEVELOPMENT OF PHYSICS,IOWA STATE UNIVERSITY,AMES,IOWA50011" "PHYS.REV.B,42(1990)6172" "LA,PR,ND,SM,EU,GD,CU,O" 2525 PR0426172 La2CuO4 La2Cu1O4.33 La 2 Cu 1 O 4.33 4.33 1990 2 T 4.009 12.547 K 5 "NEW PHASES INDUCED BY HYDROGEN REDUCTION AND BY SUBSEQUENT OXIDATION OF L2CUO4(L=LA,PR,ND,SM,EU,GD)" 1990 10 "AMES LABORATORY U.S.DEPARTMENT OF ENERGY AND DEVELOPMENT OF PHYSICS,IOWA STATE UNIVERSITY,AMES,IOWA50011" "PHYS.REV.B,42(1990)6172" "LA,PR,ND,SM,EU,GD,CU,O" 2526 PR0426172 La2CuO4 La2Cu1O4.06 La 2 Cu 1 O 4.06 4.06 1990 2 T 3.804 13.152 K 5 "NEW PHASES INDUCED BY HYDROGEN REDUCTION AND BY SUBSEQUENT OXIDATION OF L2CUO4(L=LA,PR,ND,SM,EU,GD)" 1990 10 "AMES LABORATORY U.S.DEPARTMENT OF ENERGY AND DEVELOPMENT OF PHYSICS,IOWA STATE UNIVERSITY,AMES,IOWA50011" "PHYS.REV.B,42(1990)6172" "LA,PR,ND,SM,EU,GD,CU,O" 2527 PR0426172 La2CuO4 La2Cu1O4.03 La 2 Cu 1 O 4.03 4.03 1990 2 T 3.802 13.15 K 5 "NEW PHASES INDUCED BY HYDROGEN REDUCTION AND BY SUBSEQUENT OXIDATION OF L2CUO4(L=LA,PR,ND,SM,EU,GD)" 1990 10 "AMES LABORATORY U.S.DEPARTMENT OF ENERGY AND DEVELOPMENT OF PHYSICS,IOWA STATE UNIVERSITY,AMES,IOWA50011" "PHYS.REV.B,42(1990)6172" "LA,PR,ND,SM,EU,GD,CU,O" 2528 PR0426172 La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 4 1990 3 T 3.792 3.825 13.17 K 5 "NEW PHASES INDUCED BY HYDROGEN REDUCTION AND BY SUBSEQUENT OXIDATION OF L2CUO4(L=LA,PR,ND,SM,EU,GD)" 1990 10 "AMES LABORATORY U.S.DEPARTMENT OF ENERGY AND DEVELOPMENT OF PHYSICS,IOWA STATE UNIVERSITY,AMES,IOWA50011" "PHYS.REV.B,42(1990)6172" "LA,PR,ND,SM,EU,GD,CU,O" 2529 PR0426172 Pr2CuO4 Pr2Cu1O4 Pr 2 Cu 1 O 4 4 1990 2 T' 3.958 12.288 K 5 "NEW PHASES INDUCED BY HYDROGEN REDUCTION AND BY SUBSEQUENT OXIDATION OF L2CUO4(L=LA,PR,ND,SM,EU,GD)" 1990 10 "AMES LABORATORY U.S.DEPARTMENT OF ENERGY AND DEVELOPMENT OF PHYSICS,IOWA STATE UNIVERSITY,AMES,IOWA50011" "PHYS.REV.B,42(1990)6172" "LA,PR,ND,SM,EU,GD,CU,O" 2530 PR0426172 Nd2CuO4 Nd2Cu1O3.99 Nd 2 Cu 1 O 3.99 3.99 1990 2 T' 3.937 12.15 K 5 "NEW PHASES INDUCED BY HYDROGEN REDUCTION AND BY SUBSEQUENT OXIDATION OF L2CUO4(L=LA,PR,ND,SM,EU,GD)" 1990 10 "AMES LABORATORY U.S.DEPARTMENT OF ENERGY AND DEVELOPMENT OF PHYSICS,IOWA STATE UNIVERSITY,AMES,IOWA50011" "PHYS.REV.B,42(1990)6172" "LA,PR,ND,SM,EU,GD,CU,O" 2531 PR0426172 Sr2CuO4 Sr2Cu1O3 Sr 2 Cu 1 O 3 3 1990 3 T 3.906 3.496 12.684 K 5 "NEW PHASES INDUCED BY HYDROGEN REDUCTION AND BY SUBSEQUENT OXIDATION OF L2CUO4(L=LA,PR,ND,SM,EU,GD)" 1990 10 "AMES LABORATORY U.S.DEPARTMENT OF ENERGY AND DEVELOPMENT OF PHYSICS,IOWA STATE UNIVERSITY,AMES,IOWA50011" "PHYS.REV.B,42(1990)6172" "LA,PR,ND,SM,EU,GD,CU,O" 2532 PR0426172 La2CuO4 La2Cu1O3.67 La 2 Cu 1 O 3.67 3.67 1990 2 T 4.278 3.87 12.241 K 5 "NEW PHASES INDUCED BY HYDROGEN REDUCTION AND BY SUBSEQUENT OXIDATION OF L2CUO4(L=LA,PR,ND,SM,EU,GD)" 1990 10 "AMES LABORATORY U.S.DEPARTMENT OF ENERGY AND DEVELOPMENT OF PHYSICS,IOWA STATE UNIVERSITY,AMES,IOWA50011" "PHYS.REV.B,42(1990)6172" "LA,PR,ND,SM,EU,GD,CU,O" 2533 PHC1740071 GdBa2Cu3O7 Gd1Ba2Cu3O7-Z Gd 1 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 3.838 3.89 11.695 K 93.5 93.5 SUPERCONDUCTIVITY IN THE (GD1-XPRX)BA2CU307-Z SYSTEM 1991 "INSTITUTE OF PHYSICS,JAGELLONIAN UNIVERSITY,REYMONTA 4,30-059CRACOW,POLAND" PHYSICA C174(1991)71 "GD,PR,BA,CU,O" 2534 PHC1740071 "(Gd,Pr)Ba2Cu3O7" Gd0.95Pr0.05Ba2Cu3O7-Z Gd 0.95 Pr 0.05 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 K 88 88 SUPERCONDUCTIVITY IN THE (GD1-XPRX)BA2CU307-Z SYSTEM 1991 "INSTITUTE OF PHYSICS,JAGELLONIAN UNIVERSITY,REYMONTA 4,30-059CRACOW,POLAND" PHYSICA C174(1991)71 "GD,PR,BA,CU,O" 2535 PHC1740071 "(Gd,Pr)Ba2Cu3O7" Gd0.9Pr0.1Ba2Cu3O7-Z Gd 0.9 Pr 0.1 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 K 76 76 SUPERCONDUCTIVITY IN THE (GD1-XPRX)BA2CU307-Z SYSTEM 1991 "INSTITUTE OF PHYSICS,JAGELLONIAN UNIVERSITY,REYMONTA 4,30-059CRACOW,POLAND" PHYSICA C174(1991)71 "GD,PR,BA,CU,O" 2536 PHC1740071 "(Gd,Pr)Ba2Cu3O7" Gd0.85Pr0.15Ba2Cu3O7-Z Gd 0.85 Pr 0.15 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 3.841 3.887 11.678 K 63 63 SUPERCONDUCTIVITY IN THE (GD1-XPRX)BA2CU307-Z SYSTEM 1991 "INSTITUTE OF PHYSICS,JAGELLONIAN UNIVERSITY,REYMONTA 4,30-059CRACOW,POLAND" PHYSICA C174(1991)71 "GD,PR,BA,CU,O" 2537 PHC1740071 "(Gd,Pr)Ba2Cu3O7" Gd0.8Pr0.2Ba2Cu3O7-Z Gd 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 3.841 3.893 11.678 K 56 56 SUPERCONDUCTIVITY IN THE (GD1-XPRX)BA2CU307-Z SYSTEM 1991 "INSTITUTE OF PHYSICS,JAGELLONIAN UNIVERSITY,REYMONTA 4,30-059CRACOW,POLAND" PHYSICA C174(1991)71 "GD,PR,BA,CU,O" 2538 PHC1740071 "(Gd,Pr)Ba2Cu3O7" Gd0.75Pr0.25Ba2Cu3O7-Z Gd 0.75 Pr 0.25 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 3.839 3.894 11.682 K 51 51 SUPERCONDUCTIVITY IN THE (GD1-XPRX)BA2CU307-Z SYSTEM 1991 "INSTITUTE OF PHYSICS,JAGELLONIAN UNIVERSITY,REYMONTA 4,30-059CRACOW,POLAND" PHYSICA C174(1991)71 "GD,PR,BA,CU,O" 2539 PHC1740071 "(Gd,Pr)Ba2Cu3O7" Gd0.7Pr0.3Ba2Cu3O7-Z Gd 0.7 Pr 0.3 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 3.846 3.904 11.687 K 43.2 43.2 SUPERCONDUCTIVITY IN THE (GD1-XPRX)BA2CU307-Z SYSTEM 1991 "INSTITUTE OF PHYSICS,JAGELLONIAN UNIVERSITY,REYMONTA 4,30-059CRACOW,POLAND" PHYSICA C174(1991)71 "GD,PR,BA,CU,O" 2540 PHC1740071 "(Gd,Pr)Ba2Cu3O7" Gd0.65Pr0.35Ba2Cu3O7-Z Gd 0.65 Pr 0.35 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 K 30.4 30.4 SUPERCONDUCTIVITY IN THE (GD1-XPRX)BA2CU307-Z SYSTEM 1991 "INSTITUTE OF PHYSICS,JAGELLONIAN UNIVERSITY,REYMONTA 4,30-059CRACOW,POLAND" PHYSICA C174(1991)71 "GD,PR,BA,CU,O" 2541 PHC1740071 "(Gd,Pr)Ba2Cu3O7" Gd0.6Pr0.4Ba2Cu3O7-Z Gd 0.6 Pr 0.4 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 3.85 3.905 11.693 K 16 16 SUPERCONDUCTIVITY IN THE (GD1-XPRX)BA2CU307-Z SYSTEM 1991 "INSTITUTE OF PHYSICS,JAGELLONIAN UNIVERSITY,REYMONTA 4,30-059CRACOW,POLAND" PHYSICA C174(1991)71 "GD,PR,BA,CU,O" 2542 PHC1740071 "(Gd,Pr)Ba2Cu3O7" Gd0.55Pr0.45Ba2Cu3O7-Z Gd 0.55 Pr 0.45 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 K 4.2 SUPERCONDUCTIVITY IN THE (GD1-XPRX)BA2CU307-Z SYSTEM 1991 "INSTITUTE OF PHYSICS,JAGELLONIAN UNIVERSITY,REYMONTA 4,30-059CRACOW,POLAND" PHYSICA C174(1991)71 "GD,PR,BA,CU,O" 2543 PHC1740071 "(Gd,Pr)Ba2Cu3O7" Gd0.3Pr0.7Ba2Cu3O7-Z Gd 0.3 Pr 0.7 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 3.856 3.898 11.68 K 4.2 SUPERCONDUCTIVITY IN THE (GD1-XPRX)BA2CU307-Z SYSTEM 1991 "INSTITUTE OF PHYSICS,JAGELLONIAN UNIVERSITY,REYMONTA 4,30-059CRACOW,POLAND" PHYSICA C174(1991)71 "GD,PR,BA,CU,O" 2544 PHC1740071 "(Gd,Pr)Ba2Cu3O7" Gd0.1Pr0.9Ba2Cu3O7-Z Gd 0.1 Pr 0.9 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 3.864 3.928 11.689 K 4.2 SUPERCONDUCTIVITY IN THE (GD1-XPRX)BA2CU307-Z SYSTEM 1991 "INSTITUTE OF PHYSICS,JAGELLONIAN UNIVERSITY,REYMONTA 4,30-059CRACOW,POLAND" PHYSICA C174(1991)71 "GD,PR,BA,CU,O" 2545 PHC1690174 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 3 1990 Bi2212 30.75 K 93 93 1 TRANSPORT PROPERTIES OF BI2SR2CACU2OX SINGLE CRYSTALS WITH TC=95 K 1990 "INSTITUTE FOR PHYSICAL PROBLEMS, U. KOSYGINA 2, MOSCOW 117334,USSR" "PHYSICA C,169(1990)174" "BI,SR,CA,CU,O" 2546 PHC1610001 NO-POSITIVE CURVATURE IN HC2 VS T YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1989 3 Y123 3.82 3.891 11.679 K 93 93 10 1.8 THE UPPER CRITICAL FIELD OF UNTWINNED YBA2CU3O7-Z CRYSTALS 1989 10 PHYS.C.161(1989)1 2547 MSTEC1 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1990 3 Y123 K 91.5 0.2 91.5 K/GPa -2.5 1990 "TC ,PRESSURE DEPENDENCE" "MEAS.SCI.TECHNOL.,1(1990)1347" "Y,BA,CU,O" 2548 MSTEC1 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1990 3 Y123 K 90 90 K/GPa -1.1 1990 "TC ,PRESSURE DEPENDENCE" "MEAS.SCI.TECHNOL.,1(1990)1347" "Y,BA,CU,O" 2549 PR04310568 "(La,Pr)Ba2Cu3O7" La0.8Pr0.2Ba2Cu3O7-Z La 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 K 20.5 20.5 SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2550 PR04310568 "(Nd,Pr)Ba2Cu3O7" Nd0.8Pr0.2Ba2Cu3O7-Z Nd 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 K 25.8 25.8 SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2551 PR04310568 "(Sm,Pr)Ba2Cu3O7" Sm0.8Pr0.2Ba2Cu3O7-Z Sm 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 K 49.4 49.4 SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2552 PR04310568 "(Eu,Pr)Ba2Cu3O7" Eu0.8Pr0.2Ba2Cu3O7-Z Eu 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 K 47 47 SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2553 PR04310568 "(Gd,Pr)Ba2Cu3O7" Gd0.8Pr0.2Ba2Cu3O7-Z Gd 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 K 58.5 58.5 SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2554 PR04310568 "(Dy,Pr)Ba2Cu3O7" Dy0.8Pr0.2Ba2Cu3O7-Z Dy 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 K 66.7 66.7 SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2555 PR04310568 "(Ho,Pr)Ba2Cu3O7" Ho0.8Pr0.2Ba2Cu3O7-Z Ho 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 K 79.5 79.5 SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2556 PR04310568 "(Er,Pr)Ba2Cu3O7" Er0.8Pr0.2Ba2Cu3O7-Z Er 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 K 76.5 76.5 SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2557 PR04310568 "(Tm,Pr)Ba2Cu3O7" Tm0.8Pr0.2Ba2Cu3O7-Z Tm 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 K 81.8 81.8 SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2558 PR04310568 "(Yb,Pr)Ba2Cu3O7" Yb0.8Pr0.2Ba2Cu3O7-Z Yb 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 K 82.4 82.4 SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2559 PR04310568 "(Lu,Pr)Ba2Cu3O7" Lu0.8Pr0.2Ba2Cu3O7-Z Lu 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 K 75.2 75.2 SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2560 PR04310568 "(Y,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O7-Z Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 K 71.7 71.7 SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2561 PR04310568 KAIZERO=EMU/MOLE GdBa2Cu3O7 Gd1Ba2Cu3O7-Z Gd 1 Ba 2 Cu 3 O 7-Z 1 1991 emu/mol 0.00071 myu-B/mol 7.79 -0.4 3 Y123 3.84 3.899 11.702 K 91.5 91.5 SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2562 PR04310568 "(Gd,Pr)Ba2Cu3O7" Gd0.9Pr0.1Ba2Cu3O7-Z Gd 0.9 Pr 0.1 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 3.845 3.899 11.701 K 73.5 73.5 SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2563 PR04310568 "(Gd,Pr)Ba2Cu3O7" Gd0.8Pr0.2Ba2Cu3O7-Z Gd 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1991 emu/mol 0.00052 myu-B/mol 7.06 -2.3 3 Y123 3.85 3.895 11.7 K 58 58 SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2564 PR04310568 "(Gd,Pr)Ba2Cu3O7" Gd0.7Pr0.3Ba2Cu3O7-Z Gd 0.7 Pr 0.3 Ba 2 Cu 3 O 7-Z 1 1991 emu/mol 0.00015 myu-B/mol 6.65 -16.1 3 Y123 3.857 3.898 11.699 K 35 35 SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2565 PR04310568 "(Gd,Pr)Ba2Cu3O7" Gd0.65Pr0.35Ba2Cu3O7-Z Gd 0.65 Pr 0.35 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 3.859 3.899 11.697 K 15.5 15.5 SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2566 PR04310568 "(Gd,Pr)Ba2Cu3O7" Gd0.6Pr0.4Ba2Cu3O7-Z Gd 0.6 Pr 0.4 Ba 2 Cu 3 O 7-Z 1 1991 emu/mol 0.00045 myu-B/mol 6.27 -4.6 3 Y123 3.862 3.9 11.698 K SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2567 PR04310568 "(Gd,Pr)Ba2Cu3O7" Gd0.4Pr0.6Ba2Cu3O7-Z Gd 0.4 Pr 0.6 Ba 2 Cu 3 O 7-Z 1 1991 emu/mol 0.00037 myu-B/mol 5.51 -6.3 3 Y123 3.874 3.898 11.695 K SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2568 PR04310568 "(Gd,Pr)Ba2Cu3O7" Gd0.2Pr0.8Ba2Cu3O7-Z Gd 0.2 Pr 0.8 Ba 2 Cu 3 O 7-Z 1 1991 emu/mol 0.00042 myu-B/mol 4.14 -6.7 3 Y123 3.885 3.897 11.69 K SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2569 PR04310568 PrBa2Cu3O7 Pr1Ba2Cu3O7-Z Pr 1 Ba 2 Cu 3 O 7-Z 1 1991 emu/mol 0.00036 myu-B/mol 3.02 -6 3 Y123 3.896 3.903 11.699 K SUPPRESSION OF SUPERCONDUVTIVITY IN GD1-XPRXBA2CU3O7-Y AND R0.8PR0.2BA2CU3O7-Z SYSTEMS 1991 5 "DEPARTMENT OF PHYSICS,NATIONAL SUN YAT-SEN UNIVERSITY,KAOHSIUNG,TAIWAN 80424,REQUBLIC OF CHINA" "PHYS.REV.B,43(1991)10568" "GD,PR,BA,CU,O,R" 2570 PR04310589 "Bi2Sr2(Ca,Gd)(Cu,Li)2O8" Bi2Sr2Ca0.6Gd0.4Cu1.96LI0.04O8+Z Bi 2 Sr 2 Ca 0.6 Gd 0.4 Cu 1.96 LI 0.04 O 8+Z 1991 Bi2212 K 54 74 87.8 74 DESTRUCTION OF SUPERCONDUCTIVITY IN THE BI2SR2CA1-XGDXCU2-YLIYO8+D SYSTEM 1991 5 "DEPARTMENT OF PHYSICS,UNIVERSITY OF NEBRASKA,OMAHA,NEBRASKA 68182-0266" "PHYS.REV.B,43(1991)10589" "BI,SR,CA,GD,CU,LI,O" 2571 PR04310589 "Bi2Sr2(Ca,Gd)(Cu,Li)2O8" Bi2Sr2Ca0.6Gd0.4Cu1.85LI0.15O8+Z Bi 2 Sr 2 Ca 0.6 Gd 0.4 Cu 1.85 LI 0.15 O 8+Z 1991 Bi2212 K 39 64 91 64 DESTRUCTION OF SUPERCONDUCTIVITY IN THE BI2SR2CA1-XGDXCU2-YLIYO8+D SYSTEM 1991 5 "DEPARTMENT OF PHYSICS,UNIVERSITY OF NEBRASKA,OMAHA,NEBRASKA 68182-0266" "PHYS.REV.B,43(1991)10589" "BI,SR,CA,GD,CU,LI,O" 2572 PR04310589 "Bi2Sr2(Ca,Gd)(Cu,Li)2O8" Bi2Sr2Ca0.6Gd0.4Cu1.8LI0.2O8+Z Bi 2 Sr 2 Ca 0.6 Gd 0.4 Cu 1.8 LI 0.2 O 8+Z 1991 Bi2212 K 24 44 81 44 DESTRUCTION OF SUPERCONDUCTIVITY IN THE BI2SR2CA1-XGDXCU2-YLIYO8+D SYSTEM 1991 5 "DEPARTMENT OF PHYSICS,UNIVERSITY OF NEBRASKA,OMAHA,NEBRASKA 68182-0266" "PHYS.REV.B,43(1991)10589" "BI,SR,CA,GD,CU,LI,O" 2573 PR04310589 "Bi2Sr2(Ca,Gd)(Cu,Li)2O8" Bi2Sr2Ca0.6Gd0.4Cu1.8LI0.2O8+Z Bi 2 Sr 2 Ca 0.6 Gd 0.4 Cu 1.8 LI 0.2 O 8+Z 1991 Bi2212 K 5 24 5 DESTRUCTION OF SUPERCONDUCTIVITY IN THE BI2SR2CA1-XGDXCU2-YLIYO8+D SYSTEM 1991 5 "DEPARTMENT OF PHYSICS,UNIVERSITY OF NEBRASKA,OMAHA,NEBRASKA 68182-0266" "PHYS.REV.B,43(1991)10589" "BI,SR,CA,GD,CU,LI,O" 2574 PR04310589 "Bi2Sr2(Ca,Gd)(Cu,Li)2O8" Bi2Sr2Ca0.6Gd0.4Cu1.6LI0.4O8+Z Bi 2 Sr 2 Ca 0.6 Gd 0.4 Cu 1.6 LI 0.4 O 8+Z 1991 Bi2212 K 5 DESTRUCTION OF SUPERCONDUCTIVITY IN THE BI2SR2CA1-XGDXCU2-YLIYO8+D SYSTEM 1991 5 "DEPARTMENT OF PHYSICS,UNIVERSITY OF NEBRASKA,OMAHA,NEBRASKA 68182-0266" "PHYS.REV.B,43(1991)10589" "BI,SR,CA,GD,CU,LI,O" 2575 PHC1740155 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.985Zn0.015O7 Y 1 Ba 2 Cu 2.985 Zn 0.015 O 7 1 1991 3 Y123 K 11 416 EFFECTS OF OXYGEN STOICHIOMETRY AND ZN(AL) SUBSTITUTION ON LOWTEMPERATURE SPECIFIC HEAT ANOMALY OF THE BA2YCU3OY SYSTEM 1991 "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "Phisica C, 174(1991)155" "AL,BA,Y,CU,O" 2576 PHC1740155 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.97Zn0.03O7 Y 1 Ba 2 Cu 2.97 Zn 0.03 O 7 1 1991 3 Y123 K 12.48 419 EFFECTS OF OXYGEN STOICHIOMETRY AND ZN(AL) SUBSTITUTION ON LOWTEMPERATURE SPECIFIC HEAT ANOMALY OF THE BA2YCU3OY SYSTEM 1991 "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "Phisica C, 174(1991)155" "AL,BA,Y,CU,O" 2577 PHC1740155 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.94Zn0.06O7 Y 1 Ba 2 Cu 2.94 Zn 0.06 O 7 1 1991 3 Y123 K 17.56 394 EFFECTS OF OXYGEN STOICHIOMETRY AND ZN(AL) SUBSTITUTION ON LOWTEMPERATURE SPECIFIC HEAT ANOMALY OF THE BA2YCU3OY SYSTEM 1991 "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "Phisica C, 174(1991)155" "AL,BA,Y,CU,O" 2578 PHC1740155 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.91Zn0.09O7 Y 1 Ba 2 Cu 2.91 Zn 0.09 O 7 1 1991 3 Y123 K 18.93 412 EFFECTS OF OXYGEN STOICHIOMETRY AND ZN(AL) SUBSTITUTION ON LOWTEMPERATURE SPECIFIC HEAT ANOMALY OF THE BA2YCU3OY SYSTEM 1991 "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "Phisica C, 174(1991)155" "AL,BA,Y,CU,O" 2579 PHC1740155 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.85Zn0.15O7 Y 1 Ba 2 Cu 2.85 Zn 0.15 O 7 1 1991 3 Y123 K 25.7 410 EFFECTS OF OXYGEN STOICHIOMETRY AND ZN(AL) SUBSTITUTION ON LOWTEMPERATURE SPECIFIC HEAT ANOMALY OF THE BA2YCU3OY SYSTEM 1991 "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "Phisica C, 174(1991)155" "AL,BA,Y,CU,O" 2580 PHC1740155 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.985Al0.015O7 Y 1 Ba 2 Cu 2.985 Al 0.015 O 7 1 1991 3 Y123 K 4.9 EFFECTS OF OXYGEN STOICHIOMETRY AND ZN(AL) SUBSTITUTION ON LOWTEMPERATURE SPECIFIC HEAT ANOMALY OF THE BA2YCU3OY SYSTEM 1991 "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "Phisica C, 174(1991)155" "AL,BA,Y,CU,O" 2581 PHC1740155 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.97Al0.03O7 Y 1 Ba 2 Cu 2.97 Al 0.03 O 7 1 1991 3 Y123 K 8.4 EFFECTS OF OXYGEN STOICHIOMETRY AND ZN(AL) SUBSTITUTION ON LOWTEMPERATURE SPECIFIC HEAT ANOMALY OF THE BA2YCU3OY SYSTEM 1991 "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "Phisica C, 174(1991)155" "AL,BA,Y,CU,O" 2582 PHC1740155 "YBa2(Cu,Al)3O7" Y1Ba2Cu2.94Al0.06O7 Y 1 Ba 2 Cu 2.94 Al 0.06 O 7 1 1991 3 Y123 K 12.2 EFFECTS OF OXYGEN STOICHIOMETRY AND ZN(AL) SUBSTITUTION ON LOWTEMPERATURE SPECIFIC HEAT ANOMALY OF THE BA2YCU3OY SYSTEM 1991 "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "Phisica C, 174(1991)155" "AL,BA,Y,CU,O" 2583 PHC1740155 YBa2Cu3O7 Y1Ba2Cu3O6.92 Y 1 Ba 2 Cu 3 O Z 6.92 1 1991 3 Y123 K 3.54 394 EFFECTS OF OXYGEN STOICHIOMETRY AND ZN(AL) SUBSTITUTION ON LOWTEMPERATURE SPECIFIC HEAT ANOMALY OF THE BA2YCU3OY SYSTEM 1991 "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "Phisica C, 174(1991)155" "AL,BA,Y,CU,O" 2584 PHC1740155 YBa2Cu3O7 Y1Ba2Cu3O6.84 Y 1 Ba 2 Cu 3 O Z 6.84 1 1991 3 Y123 K 4.15 390 EFFECTS OF OXYGEN STOICHIOMETRY AND ZN(AL) SUBSTITUTION ON LOWTEMPERATURE SPECIFIC HEAT ANOMALY OF THE BA2YCU3OY SYSTEM 1991 "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "Phisica C, 174(1991)155" "AL,BA,Y,CU,O" 2585 PHC1740155 YBa2Cu3Oz Y1Ba2Cu3O6.7 Y 1 Ba 2 Cu 3 O Z 6.7 1 1991 3 Y123 K 4.32 383 EFFECTS OF OXYGEN STOICHIOMETRY AND ZN(AL) SUBSTITUTION ON LOWTEMPERATURE SPECIFIC HEAT ANOMALY OF THE BA2YCU3OY SYSTEM 1991 "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "Phisica C, 174(1991)155" "AL,BA,Y,CU,O" 2586 PHC1740155 YBa2Cu3Oz Y1Ba2Cu3O6.5 Y 1 Ba 2 Cu 3 O Z 6.5 1 1991 3 Y123 K 3.66 375 EFFECTS OF OXYGEN STOICHIOMETRY AND ZN(AL) SUBSTITUTION ON LOWTEMPERATURE SPECIFIC HEAT ANOMALY OF THE BA2YCU3OY SYSTEM 1991 "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "Phisica C, 174(1991)155" "AL,BA,Y,CU,O" 2587 PHC1740155 YBa2Cu3Oz Y1Ba2Cu3O6.4 Y 1 Ba 2 Cu 3 O Z 6.4 1 1991 3 Y123 K 4.54 364 EFFECTS OF OXYGEN STOICHIOMETRY AND ZN(AL) SUBSTITUTION ON LOWTEMPERATURE SPECIFIC HEAT ANOMALY OF THE BA2YCU3OY SYSTEM 1991 "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "Phisica C, 174(1991)155" "AL,BA,Y,CU,O" 2588 PHC1740155 YBa2Cu3Oz Y1Ba2Cu3O6.3 Y 1 Ba 2 Cu 3 O Z 6.3 1 1991 Y123 K 10.73 355 EFFECTS OF OXYGEN STOICHIOMETRY AND ZN(AL) SUBSTITUTION ON LOWTEMPERATURE SPECIFIC HEAT ANOMALY OF THE BA2YCU3OY SYSTEM 1991 "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "Phisica C, 174(1991)155" "AL,BA,Y,CU,O" 2589 PHC1740155 YBa2Cu3Oz Y1Ba2Cu3O6.24 Y 1 Ba 2 Cu 3 O Z 6.24 1 1991 Y123 K 12.29 351 EFFECTS OF OXYGEN STOICHIOMETRY AND ZN(AL) SUBSTITUTION ON LOWTEMPERATURE SPECIFIC HEAT ANOMALY OF THE BA2YCU3OY SYSTEM 1991 "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "Phisica C, 174(1991)155" "AL,BA,Y,CU,O" 2590 PHC1740155 YBa2Cu3Oz Y1Ba2Cu3O6.16 Y 1 Ba 2 Cu 3 O Z 6.16 1 1991 Y123 K 4.46 347 EFFECTS OF OXYGEN STOICHIOMETRY AND ZN(AL) SUBSTITUTION ON LOWTEMPERATURE SPECIFIC HEAT ANOMALY OF THE BA2YCU3OY SYSTEM 1991 "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "Phisica C, 174(1991)155" "AL,BA,Y,CU,O" 2591 PHC1740155 YBa2Cu3Oz Y1Ba2Cu3O6 Y 1 Ba 2 Cu 3 O Z 6 1 1991 Y123 K 4.27 320 EFFECTS OF OXYGEN STOICHIOMETRY AND ZN(AL) SUBSTITUTION ON LOWTEMPERATURE SPECIFIC HEAT ANOMALY OF THE BA2YCU3OY SYSTEM 1991 "INSTITUTE FOR SOLID STATE PHYSICS,UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "Phisica C, 174(1991)155" "AL,BA,Y,CU,O" 2592 MATLET10 TWO STEP TRANSITION "(Bi,Pb)SrCaCu1.5POz" Bi0.7Pb0.3Sr1Ca1Cu1.5POZ Bi 0.7 Pb 0.3 Sr 1 Ca 1 Cu 1.5 P O Z 1990 K 70 100 85 1990 "MATERIALS LETTERS,10(1990)133" "BI,PB,SR,CA,CU,P,O" 2593 PRB0397320 "RH230(=230K),CALCULATED BY ASSUMING V=440A~3" "Bi4Sr3(Ca,Tm)3Cu4O16" Bi4Sr3Ca3Cu4O16.25 Bi 4 Sr 3 Ca 3 Cu 4 O 16+Z 16.25 1989 K 83 83 1.96E-09 RH2593 "APPROACHING THE MOTT-HUBBARS INSULATOR IN THE 85-K SUPERCONDUCTOR BI2(SR,CA)3CU2O8+D BY DOPING WITH TM" 1989 4 "HALL EFFECT ,MOTT-HUBBARD ,CARRIER" "JOSEPH HENRY LODORATORIES OF PHYSICS,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY 08544" "RHYS.REV.B,39(1989)7320" "BI,SR,CA,CU,O,TM" 2594 PRB0397320 RH300(=230K) "Bi4Sr3(Ca,Tm)3Cu4O16" Bi4Sr3Ca2.8Tm0.2Cu4O16+Z Bi 4 Sr 3 Ca 2.8 Tm 0.2 Cu 4 O 16+Z 1989 K 88 88 1.79E-09 RH2594 "APPROACHING THE MOTT-HUBBARS INSULATOR IN THE 85-K SUPERCONDUCTOR BI2(SR,CA)3CU2O8+D BY DOPING WITH TM" 1989 4 "HALL EFFECT ,MOTT-HUBBARD ,CARRIER" "JOSEPH HENRY LODORATORIES OF PHYSICS,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY 08544" "RHYS.REV.B,39(1989)7320" "BI,SR,CA,CU,O,TM" 2595 PRB0397320 RH300(=230K) "Bi4Sr3(Ca,Tm)3Cu4O16" Bi4Sr3Ca2.5Tm0.5Cu4O16+Z Bi 4 Sr 3 Ca 2.5 Tm 0.5 Cu 4 O 16+Z 1989 K 91.5 91.5 1.40E-09 RH2595 "APPROACHING THE MOTT-HUBBARS INSULATOR IN THE 85-K SUPERCONDUCTOR BI2(SR,CA)3CU2O8+D BY DOPING WITH TM" 1989 4 "HALL EFFECT ,MOTT-HUBBARD ,CARRIER" "JOSEPH HENRY LODORATORIES OF PHYSICS,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY 08544" "RHYS.REV.B,39(1989)7320" "BI,SR,CA,CU,O,TM" 2596 PRB0397320 RH300(=230K) "Bi4Sr3(Ca,Tm)3Cu4O16" Bi4Sr3Ca2Tm1Cu4O16+Z Bi 4 Sr 3 Ca 2 Tm 1 Cu 4 O 16+Z 1989 K 49 49 5.66E-10 RH2596 "APPROACHING THE MOTT-HUBBARS INSULATOR IN THE 85-K SUPERCONDUCTOR BI2(SR,CA)3CU2O8+D BY DOPING WITH TM" 1989 4 "HALL EFFECT ,MOTT-HUBBARD ,CARRIER" "JOSEPH HENRY LODORATORIES OF PHYSICS,PRINCETON UNIVERSITY,PRINCETON,NEW JERSEY 08544" "RHYS.REV.B,39(1989)7320" "BI,SR,CA,CU,O,TM" 2597 SSC0780413 "TWO PHASES ZNFE2O4 TYPE(A=8.441) + CAFE2O4 TYPE(A=9.277,B=10.714,C=3.049),PHASE TRANSITION AT 200K,SUGGEST SUPERCOND. AT 200K" Ca0.5Zn0.5Fe2O4 Ca 0.5 Zn 0.5 Fe 2 O 4 2 1991 K 4.2 MAGNETIC ORIGINS OF THE PHASE TRANSITIONAL BEHAVIOUR AT 200K IN CA0.5ZN0.5FE2O4 1991 5 "SCHOOLS OF PHYSICS AND MATERIALS SCIENCE,UNIVERSITY OF BATH,CLVERTON DOWN,BATH BA27AY,UK" "SOLID STATE COMMUN.,78(1991)413" "CA,ZN,FE,O" 2598 SSC0780391 "PbSr(Ba,La)Cu2O6" Pb1Sr1Ba0.5La0.5Cu2O6-Z Pb 1 Sr 1 Ba 0.5 La 0.5 Cu 2 O 6-Z 1991 3 10.772 11.856 6.93 K 24.8 29.2 27 A NEW SUPERCONDUCTOR IN THE SYSTEM PB-SR-BA-LA-CU-O 1991 5 "SHANGHAI INSTITUTE OF CERAMICS,CHINESEACADEMY OF SCIENCES,1295DING XI ROAD,SHANGHAI 200050,PEOPLE'S REPUBLIC OF CHINA" "SOLID STATE COMMUN.,78(1991)391" "PB,SR,BA,LA,CU,O" 2599 SSC0780605 "(Bi,Pb,Sb)2Sr2Cu3O10" Bi1.5Pb0.4Sb0.06Sr2Ca2Cu2OZ Bi 1.5 Pb 0.4 Sb 0.06 Sr 2 Ca 2 Cu 2 O Z 2 1991 Bi2212 K 113 113 SUPERCONDUCTIVITY IN BI1.5PB0.4SBXSR2CA2CU2OY SYSTEM (X=0-0.32) 1991 5 EFFECT OF DOPING "CHANGCHUN INSTITUTE OF APPLIED CHEMISTRY,ACADEMIA SINICA 130022 CHANGCHUN,PEOPLE'S REPUBLIC OF CHINA" "SOLID STATE COMMUN.,78(1991)605" "BI,PB,SB,SR,CA,CU,O" 2600 SSC0780605 "(Bi,Pb,Sb)2Sr2Cu3O10" Bi1.5Pb0.4Sb0.1Sr2Ca2Cu2OZ Bi 1.5 Pb 0.4 Sb 0.1 Sr 2 Ca 2 Cu 2 O Z 2 1991 Bi2223 K 114.7 114.7 SUPERCONDUCTIVITY IN BI1.5PB0.4SBXSR2CA2CU2OY SYSTEM (X=0-0.32) 1991 5 EFFECT OF DOPING "CHANGCHUN INSTITUTE OF APPLIED CHEMISTRY,ACADEMIA SINICA 130022 CHANGCHUN,PEOPLE'S REPUBLIC OF CHINA" "SOLID STATE COMMUN.,78(1991)605" "BI,PB,SB,SR,CA,CU,O" 2601 SSC0780605 "(Bi,Pb,Sb)2Sr2Cu3O10" Bi1.5Pb0.4Sb0.18Sr2Ca2Cu2OZ Bi 1.5 Pb 0.4 Sb 0.18 Sr 2 Ca 2 Cu 2 O Z 2 1991 Bi2223 K 114 114 SUPERCONDUCTIVITY IN BI1.5PB0.4SBXSR2CA2CU2OY SYSTEM (X=0-0.32) 1991 5 EFFECT OF DOPING "CHANGCHUN INSTITUTE OF APPLIED CHEMISTRY,ACADEMIA SINICA 130022 CHANGCHUN,PEOPLE'S REPUBLIC OF CHINA" "SOLID STATE COMMUN.,78(1991)605" "BI,PB,SB,SR,CA,CU,O" 2602 SSC0780605 "(Bi,Pb,Sb)2Sr2Cu3O10" Bi1.5Pb0.4Sb0.32Sr2Ca2Cu2OZ Bi 1.5 Pb 0.4 Sb 0.32 Sr 2 Ca 2 Cu 2 O Z 2 1991 Bi2223 K 116.5 116.5 SUPERCONDUCTIVITY IN BI1.5PB0.4SBXSR2CA2CU2OY SYSTEM (X=0-0.32) 1991 5 EFFECT OF DOPING "CHANGCHUN INSTITUTE OF APPLIED CHEMISTRY,ACADEMIA SINICA 130022 CHANGCHUN,PEOPLE'S REPUBLIC OF CHINA" "SOLID STATE COMMUN.,78(1991)605" "BI,PB,SB,SR,CA,CU,O" 2603 PRL0663217 "NEUTRON DIFFRACTION AND MOLECULAR DYNAMICS,SIMULATION" "(Ba,K)BiO3" Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 1991 1 BKBO K 0.42 OXYGEN ISOTOPE EFFECT IN SUPERFONDUCTING BA1-XKXBIO3 FROM PHONON DENSITY OF STATES 1991 6 "PHONON SPECTRUM ,OXYGEN ISOTOPE ,NEUTRON SCATTERING" "MATERIALS SCIENCE DIVISION,ARGONNE NATIONAL LABORATORY,ARGONNE,ILLINOIS 60439" "PHYS.REV.LETT.,66(1991)3217" "BA,K,BI,O" 2604 PR04311488 GAMMA=7.6+200*X(=PR MOLE) "(Y,Pr)Ba2Cu3O7" Y0.9Pr0.1Ba2Cu3O6.95 Y 0.9 Pr 0.1 Ba 2 Cu 3 O 6.95 6.95 1 1991 3 Y123 K 86 86 27.6 "MAGNETIC-ORDERING,HYPERFINE,AND LINEAR CONTRIBUTIONS TO THE LOW-TEMPERATURE SPECIFIC HEAT OF (Y1-XPRX) BA2CU3O7-Z" 1991 5 "MATERIALS AND CHEMICAL SCIENCE DIVISION,LAWRENCE BERKLEY LABORATORY,UNIVERSITY OF CALIFORNIA,BARKELEY,CALIFORNIA 94550" "PHYS.REV.B,43(1991)11488" "Y,PR,BA,CU,O" 2605 PHC1590087 "Pb2(Sr,La)LaCu2O6" Pb2Sr0.8La1.2Cu2O6+Z Pb 2 Sr 0.8 La 1.2 Cu 2 O 6+Z 2 1989 3 Pb3201 P22(1)2 5.333 5.421 12.609 K 26 31 32 31 1 1.40E-09 NEUTRON DIFFRACTION EVIDENCE FOR OXYGEN DIMERS IN Bi-Ca-Sr-Cu-O SUPERCONDUCTORS 1989 "Neutron Physics Division, Bhabha Atomic Research Centre, Trombay, Bombay 400 085, India" Physica C159(1989)87 2606 PHC1590210 SEMICONDUCTOR LIKE BEHAVIOR IN RESISTIVITY Pb2Ba2YCu3O8 Pb2Ba2Y1Cu3O8+Z Pb 2 Ba 2 Y 1 Cu 3 O 8+Z 1 1989 3 Pb2212 P22(1)2 5.465 5.497 16.173 K PREPARATION AND CRYSTAL STRUCTURE OF PB(2)BA(2)YCU(3)O(8+Z) 1989 6 "TED ,XRY ,STRUCTURE ,NEUTRON DIFFRACTION ,NEW FAMILY" "KAMERLINGH ONNES LABORATORY,LEIDEN UNIVERSITY,P.O.BOX 9506,2300 RA LEIDEN,THE NETHERLANDS" "PHYSICA C.,159(1989)210" "PB,BA,Y,CU,O" 2607 PHC1590201 "(Pb,Sr)Sr2(Y,Ca)Cu2O7" Pb0.5Sr2.5Y0.5Ca0.5Cu2O7-Z Pb 0.5 Sr 2.5 Y 0.5 Ca 0.5 Cu 2 O 7-Z 1989 2 Tl1212 3.817 11.907 K 50 100 75 1 SUPERCONDUCTIVITY UP TO 100 K IN LEAD CUPRATES:A NEW SUPERCONDUCTOR PB(0.5)SR(2.5)Y(0.5)CA(0.5)CU(2)O(7-Z) 1989 6 "FABRICATION ,TED ,HREM ,MAGNETIZATION ,STRUCTURE ,OXYGEN VACANCIE" "LABORATOIRE CRISMAT-ISMRA-BD DU MARECHAL JUIN,14032 CAEN CEDEX,FRANCE" "PHYSICA C.,159(1989)201" "PB,SR,Y,CA,CU,O" 2608 PHC1590087 ORTHO WAS TRANSFORMED TO TETRA BY HEATING IN AIR AT 500C Pb1.8Bi0.2Sr1.1La0.9Cu2O6+Z Pb 1.8 Bi 0.2 Sr 1.1 La 0.9 Cu 2 O 6+Z 2 1989 3 5.297 5.415 12.686 K 24 24 1 NEUTRON DIFFRACTION EVIDENCE FOR OXYGEN DIMERS IN Bi-Ca-Sr-Cu-O SUPERCONDUCTORS 1989 "Neutron Physics Division, Bhabha Atomic Research Centre, Trombay, Bombay 400 085, India" Physica C159(1989)87 2609 JJP0281378 SINGLE SIZE=2X2 MM2 Tl1.9Ca0.03Ba2Cu1OZ Tl 1.9 Ca 0.03 Ba 2 Cu 1 O Z 3 1989 2 Tl2202 23.4 K 84 84 2 CRYSTAL GROWTH AND SUPERCONDUCTIVITY OF TL-CA-BA-CU-O SYSTEM 1989 8 "GROWTH ,SINGLE CRYSTAL ,PHASE DIAGRAM ,EDX ,DTA" "BASIC HIGH-TECHNOLOGY LABORATORIES,SUMITOMO ELECTRIC INDUSTRIES,LTD.,1-3,SHIMAYA 1-CHOME,KONOHANA-KU,OSAKA 554" "JJAP LETT.,28(1989)L1378" "TL,CA,BA,CU,O" 2610 JJP0281378 SINGLE SIZE=2X2.5 MM2 Tl2Ca0.67Ba2Cu2OZ Tl 2 Ca 0.67 Ba 2 Cu 2 O Z 3 1989 2 Tl2213 29.2 K 110 110 2 CRYSTAL GROWTH AND SUPERCONDUCTIVITY OF TL-CA-BA-CU-O SYSTEM 1989 8 "GROWTH ,SINGLE CRYSTAL ,PHASE DIAGRAM ,EDX ,DTA" "BASIC HIGH-TECHNOLOGY LABORATORIES,SUMITOMO ELECTRIC INDUSTRIES,LTD.,1-3,SHIMAYA 1-CHOME,KONOHANA-KU,OSAKA 554" "JJAP LETT.,28(1989)L1378" "TL,CA,BA,CU,O" 2611 JJP0281378 SINGLE SIZE=1X1.5 MM2 Tl1.8Ca1.6Ba2Cu2.9OZ Tl 1.8 Ca 1.6 Ba 2 Cu 2.9 O Z 3 1989 2 Tl2223 35.8 K 118 118 2 CRYSTAL GROWTH AND SUPERCONDUCTIVITY OF TL-CA-BA-CU-O SYSTEM 1989 8 "GROWTH ,SINGLE CRYSTAL ,PHASE DIAGRAM ,EDX ,DTA" "BASIC HIGH-TECHNOLOGY LABORATORIES,SUMITOMO ELECTRIC INDUSTRIES,LTD.,1-3,SHIMAYA 1-CHOME,KONOHANA-KU,OSAKA 554" "JJAP LETT.,28(1989)L1378" "TL,CA,BA,CU,O" 2612 JJP0281378 SINGLE SIZE=0.8X0.8 MM2 Tl2.1Ca2.6Ba2Cu3.8OZ Tl 2.1 Ca 2.6 Ba 2 Cu 3.8 O Z 3 1989 2 Tl2324 42 K 115 115 2 CRYSTAL GROWTH AND SUPERCONDUCTIVITY OF TL-CA-BA-CU-O SYSTEM 1989 8 "GROWTH ,SINGLE CRYSTAL ,PHASE DIAGRAM ,EDX ,DTA" "BASIC HIGH-TECHNOLOGY LABORATORIES,SUMITOMO ELECTRIC INDUSTRIES,LTD.,1-3,SHIMAYA 1-CHOME,KONOHANA-KU,OSAKA 554" "JJAP LETT.,28(1989)L1378" "TL,CA,BA,CU,O" 2613 PR0440249 "THICKNESS=2810A,COHERE AB/C=13.8" "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 5 1991 T K 30.4 30.4 33 2.4 0.0996 "RESISTIVE TRANSITION,MAGNETORESISTANCE,AND ANISOTROPY IN LA2-XSRXCU04 SINGLE-CRYSTAL THIN FILMS" 1991 7 "NTT APPLIED ELECTRONICS LABORATORIES,NTT IBARAKI RESEARCH ANDDEVELOPMENT CENTER,NIPPON TELEGRAPH ANDTELEPHONE CORPORATION,162 TOKAI,IBARAKI 319-11,JAPAN" "PHYS.REV.B,44(1991)249" "LA,SR,CU,O" 2614 PR0440249 "THICKNESS=3410A,COHERE AB/C=17.2" "(La,Sr)2CuO4" La1.76Sr0.24Cu1O4 La 1.76 Sr 0.24 Cu 1 O 4 5 1991 T K 19 19 39 2.5 0.104 "RESISTIVE TRANSITION,MAGNETORESISTANCE,AND ANISOTROPY IN LA2-XSRXCU04 SINGLE-CRYSTAL THIN FILMS" 1991 7 "NTT APPLIED ELECTRONICS LABORATORIES,NTT IBARAKI RESEARCH ANDDEVELOPMENT CENTER,NIPPON TELEGRAPH ANDTELEPHONE CORPORATION,162 TOKAI,IBARAKI 319-11,JAPAN" "PHYS.REV.B,44(1991)249" "LA,SR,CU,O" 2615 PR0440249 "THICKNESS=3550A,COHERE AB/C=17,NO PHASE SEPARATION" "(La,Sr)2CuO4" La1.7Sr0.3Cu1O4 La 1.7 Sr 0.3 Cu 1 O 4 5 1991 T K 17.8 17.8 52 3 0.116 "RESISTIVE TRANSITION,MAGNETORESISTANCE,AND ANISOTROPY IN LA2-XSRXCU04 SINGLE-CRYSTAL THIN FILMS" 1991 7 "NTT APPLIED ELECTRONICS LABORATORIES,NTT IBARAKI RESEARCH ANDDEVELOPMENT CENTER,NIPPON TELEGRAPH ANDTELEPHONE CORPORATION,162 TOKAI,IBARAKI 319-11,JAPAN" "PHYS.REV.B,44(1991)249" "LA,SR,CU,O" 2616 PR0440249 "THICKNESS=3360A,COHERE AB/C=56" "(La,Sr)2CuO4" La1.92Sr0.08Cu1O4 La 1.92 Sr 0.08 Cu 1 O 4 5 1991 T K 29.7 29.7 31 0.55 0.474 "RESISTIVE TRANSITION,MAGNETORESISTANCE,AND ANISOTROPY IN LA2-XSRXCU04 SINGLE-CRYSTAL THIN FILMS" 1991 7 "NTT APPLIED ELECTRONICS LABORATORIES,NTT IBARAKI RESEARCH ANDDEVELOPMENT CENTER,NIPPON TELEGRAPH ANDTELEPHONE CORPORATION,162 TOKAI,IBARAKI 319-11,JAPAN" "PHYS.REV.B,44(1991)249" "LA,SR,CU,O" 2617 PR0440249 "THICKNESS=3630A,COHERE AB/C=17" "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 5 1991 T K 31.6 31.6 31 1.8 0.643 "RESISTIVE TRANSITION,MAGNETORESISTANCE,AND ANISOTROPY IN LA2-XSRXCU04 SINGLE-CRYSTAL THIN FILMS" 1991 7 "NTT APPLIED ELECTRONICS LABORATORIES,NTT IBARAKI RESEARCH ANDDEVELOPMENT CENTER,NIPPON TELEGRAPH ANDTELEPHONE CORPORATION,162 TOKAI,IBARAKI 319-11,JAPAN" "PHYS.REV.B,44(1991)249" "LA,SR,CU,O" 2618 PR0440249 "THICKNESS=2780A,COHERE AB/C=22" "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 5 1991 T K 25.2 25.2 37 1.7 0.5 "RESISTIVE TRANSITION,MAGNETORESISTANCE,AND ANISOTROPY IN LA2-XSRXCU04 SINGLE-CRYSTAL THIN FILMS" 1991 7 "NTT APPLIED ELECTRONICS LABORATORIES,NTT IBARAKI RESEARCH ANDDEVELOPMENT CENTER,NIPPON TELEGRAPH ANDTELEPHONE CORPORATION,162 TOKAI,IBARAKI 319-11,JAPAN" "PHYS.REV.B,44(1991)249" "LA,SR,CU,O" 2619 PR0440249 "THICKNESS=3700A,COHERE AB/C=35" "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 5 1991 T K 29.1 29.1 31.5 0.9 0.284 "RESISTIVE TRANSITION,MAGNETORESISTANCE,AND ANISOTROPY IN LA2-XSRXCU04 SINGLE-CRYSTAL THIN FILMS" 1991 7 "NTT APPLIED ELECTRONICS LABORATORIES,NTT IBARAKI RESEARCH ANDDEVELOPMENT CENTER,NIPPON TELEGRAPH ANDTELEPHONE CORPORATION,162 TOKAI,IBARAKI 319-11,JAPAN" "PHYS.REV.B,44(1991)249" "LA,SR,CU,O" 2620 PR0440249 "THICKNESS=3700A,COHERE AB/C=14.5" "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 5 1991 T K 31.6 31.6 32 2.2 0.217 "RESISTIVE TRANSITION,MAGNETORESISTANCE,AND ANISOTROPY IN LA2-XSRXCU04 SINGLE-CRYSTAL THIN FILMS" 1991 7 "NTT APPLIED ELECTRONICS LABORATORIES,NTT IBARAKI RESEARCH ANDDEVELOPMENT CENTER,NIPPON TELEGRAPH ANDTELEPHONE CORPORATION,162 TOKAI,IBARAKI 319-11,JAPAN" "PHYS.REV.B,44(1991)249" "LA,SR,CU,O" 2621 PR0440249 "THICKNESS=3350A,COHERE AB/C=15" "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 5 1991 T K 31.4 31.4 33 2.2 0.176 "RESISTIVE TRANSITION,MAGNETORESISTANCE,AND ANISOTROPY IN LA2-XSRXCU04 SINGLE-CRYSTAL THIN FILMS" 1991 7 "NTT APPLIED ELECTRONICS LABORATORIES,NTT IBARAKI RESEARCH ANDDEVELOPMENT CENTER,NIPPON TELEGRAPH ANDTELEPHONE CORPORATION,162 TOKAI,IBARAKI 319-11,JAPAN" "PHYS.REV.B,44(1991)249" "LA,SR,CU,O" 2622 PHC1480411 "EuBa2(Cu,Zn)3O7" Eu1Ba2Cu2.97Zn0.03OZ Eu 1 Ba 2 Cu 2.97 Zn 0.03 O Z 1987 3 Y123 K 70.6 70.6 K/GPa 9.4 "RESISTIVITY OF EUBA2(CU1-YZNY)3OX AS A FUNCTION OF TEMPERATURE, MAGNETIC FIELD, PRESSURE AND ZN CONCENTRATION" 1987 "LOS ALAMOS NATIONAL LABORATORY, LOS ALAMOS, NM 87545. USA" "PHYSICA C,148(1987)411" "EU,BA,CU,ZN,O" 2623 PHC1480411 "EuBa2(Cu,Zn)3O7" Eu1Ba2Cu2.895Zn0.105OZ Eu 1 Ba 2 Cu 2.895 Zn 0.105 O Z 1987 3 Y123 K 25.4 25.4 "RESISTIVITY OF EUBA2(CU1-YZNY)3OX AS A FUNCTION OF TEMPERATURE, MAGNETIC FIELD, PRESSURE AND ZN CONCENTRATION" 1987 "LOS ALAMOS NATIONAL LABORATORY, LOS ALAMOS, NM 87545. USA" "PHYSICA C,148(1987)411" "EU,BA,CU,ZN,O" 2624 PHC1480411 "EuBa2(Cu,Zn)3O7" Eu1Ba2Cu2.85Zn0.15OZ Eu 1 Ba 2 Cu 2.85 Zn 0.15 O Z 1987 3 Y123 K 4.2 "RESISTIVITY OF EUBA2(CU1-YZNY)3OX AS A FUNCTION OF TEMPERATURE, MAGNETIC FIELD, PRESSURE AND ZN CONCENTRATION" 1987 "LOS ALAMOS NATIONAL LABORATORY, LOS ALAMOS, NM 87545. USA" "PHYSICA C,148(1987)411" "EU,BA,CU,ZN,O" 2625 PHC1480411 "EuBa2(Cu,Zn)3O7" Eu1Ba2Cu3OZ Eu 1 Ba 2 Cu 3 O Z 1987 3 Y123 K 93 93 K/GPa 1.2 "RESISTIVITY OF EUBA2(CU1-YZNY)3OX AS A FUNCTION OF TEMPERATURE, MAGNETIC FIELD, PRESSURE AND ZN CONCENTRATION" 1987 "LOS ALAMOS NATIONAL LABORATORY, LOS ALAMOS, NM 87545. USA" "PHYSICA C,148(1987)411" "EU,BA,CU,ZN,O" 2626 JJP0281368 D=3000-4000A "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 5 1989 T K 28.5 28.5 38.5 1.8 25.4 1.19 0.3 ANOMALOUS FIELD-INDUCED RESISTIVE TRANSITION IN LA2-XSRXCUO4 1989 8 "RESISTIVE TRANSITION ,COHERENCE LENGRH ,LA2-XSRXCUO4 ,HC" "NTT OPTO-ELECTRONICS LABORATORIES,162 TOKAI,IBARAKI 319-11" "JJAP LETT.,28(1989)L1368" "LA,SR,CU,O" 2627 JJP0281368 D=3000-4000A "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 5 1989 T K 31.4 31.4 12 0.96 33 2.6 0.24 ANOMALOUS FIELD-INDUCED RESISTIVE TRANSITION IN LA2-XSRXCUO4 1989 8 "RESISTIVE TRANSITION ,COHERENCE LENGRH ,LA2-XSRXCUO4 ,HC" "NTT OPTO-ELECTRONICS LABORATORIES,162 TOKAI,IBARAKI 319-11" "JJAP LETT.,28(1989)L1368" "LA,SR,CU,O" 2628 JJP0281368 D=3000-4000A "(La,Sr)2CuO4" La1.7Sr0.3Cu1O4 La 1.7 Sr 0.3 Cu 1 O 4 5 1989 T K 18.3 18.3 5.17 0.089 144 2.5 0.097 ANOMALOUS FIELD-INDUCED RESISTIVE TRANSITION IN LA2-XSRXCUO4 1989 8 "RESISTIVE TRANSITION ,COHERENCE LENGRH ,LA2-XSRXCUO4 ,HC" "NTT OPTO-ELECTRONICS LABORATORIES,162 TOKAI,IBARAKI 319-11" "JJAP LETT.,28(1989)L1368" "LA,SR,CU,O" 2629 PRB0402674 "RANDOMLY ORIENTED POWDER PELLET,PENET FROM MAGNETIZATION" YBa2Cu3O7 Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 1 1989 3 Y123 K 89.2 91.2 92.1 91.2 2900 "MAGNETIC FIELD PENETRATION DEPTH OF POLYCRYSTALLINE (Y,GD)BA2CU3O7,GRAIN-ALIGNED YBA2CU3O7,AND SINGLE-CRYSTAL BI2SR2CACU2O8" 1989 8 "PENETRATION DEPTHS ,MAGNETIZATION" "AMES LABORATORY-U.S. DEPARTMENT OF ENERGY AND DEPARTMENT OF PHYSICS,IOWA STATE UNIVERSITY,AMES,IOWA 50011" "PHYS.REV.B,40(1989)2674" "Y,GD,BA,CU,O,BI,SR,CA" 2630 PRB0402674 "FREE-FLOWING POWDER ORIENTED WITH H//ABPLANE,PENET FROM MAGNETIZATION" YBa2Cu3O7 Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 1 1989 3 Y123 K 87.5 91.1 92.1 91.1 2200 "MAGNETIC FIELD PENETRATION DEPTH OF POLYCRYSTALLINE (Y,GD)BA2CU3O7,GRAIN-ALIGNED YBA2CU3O7,AND SINGLE-CRYSTAL BI2SR2CACU2O8" 1989 8 "PENETRATION DEPTHS ,MAGNETIZATION" "AMES LABORATORY-U.S. DEPARTMENT OF ENERGY AND DEPARTMENT OF PHYSICS,IOWA STATE UNIVERSITY,AMES,IOWA 50011" "PHYS.REV.B,40(1989)2674" "Y,GD,BA,CU,O,BI,SR,CA" 2631 PRB0402674 PENET FROM MAGNETIZATION GdBa2Cu3O7 Gd1Ba2Cu3OZ Gd 1 Ba 2 Cu 3 O Z 1 1989 3 Y123 K 90.7 91.4 92.2 91.4 2500 "MAGNETIC FIELD PENETRATION DEPTH OF POLYCRYSTALLINE (Y,GD)BA2CU3O7,GRAIN-ALIGNED YBA2CU3O7,AND SINGLE-CRYSTAL BI2SR2CACU2O8" 1989 8 "PENETRATION DEPTHS ,MAGNETIZATION" "AMES LABORATORY-U.S. DEPARTMENT OF ENERGY AND DEPARTMENT OF PHYSICS,IOWA STATE UNIVERSITY,AMES,IOWA 50011" "PHYS.REV.B,40(1989)2674" "Y,GD,BA,CU,O,BI,SR,CA" 2632 PRB0402674 PENET FROM MAGNETIZATION Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1989 Bi2212 K 81.3 84 84.8 84 3000 "MAGNETIC FIELD PENETRATION DEPTH OF POLYCRYSTALLINE (Y,GD)BA2CU3O7,GRAIN-ALIGNED YBA2CU3O7,AND SINGLE-CRYSTAL BI2SR2CACU2O8" 1989 8 "PENETRATION DEPTHS ,MAGNETIZATION" "AMES LABORATORY-U.S. DEPARTMENT OF ENERGY AND DEPARTMENT OF PHYSICS,IOWA STATE UNIVERSITY,AMES,IOWA 50011" "PHYS.REV.B,40(1989)2674" "Y,GD,BA,CU,O,BI,SR,CA" 2633 PHC1670020 RESISTIVITY AND SUSCEPTIBILITY ARE MEASURED FROM4.2 TO 300K BiPbSr2CoO6 Bi1Pb1Sr2Co1O6 Bi 1 Pb 1 Sr 2 Co 1 O 6 3 1990 5.326 5.396 23.521 K 4.2 "NEW NON-SUPERCONDUCTING MODULATION-FREE BIPBSR2MOY PHASES (M=CO,MN,FE) ISOTYPC WITH THE 10 K BI2SR2CUOY SUPERCONDUCTOR" 1990 "ISOSTRUCTURAL ,SINGLE CRYSTALS ,ELECTRICAL PROPERTIE,STRUCTURE ,MOSSBAURE ,MAGNETIC PHASE" "BELL COMMUNICATIONS RESARCH,RED BANK,NJ 07701,USA" "PHYSICA C,167(1990)20" "BI,PB,SR,CO,MN,FE,O" 2634 PHC1670020 RESISTIVITY AND SUSCEPTIBILITY ARE MEASURED FROM4.2 TO 300K BiPbSr2MnO6 Bi1Pb1Sr2Mn1O6 Bi 1 Pb 1 Sr 2 Mn 1 O 6 3 1990 5.331 5.399 23.751 K 4.2 "NEW NON-SUPERCONDUCTING MODULATION-FREE BIPBSR2MOY PHASES (M=CO,MN,FE) ISOTYPC WITH THE 10 K BI2SR2CUOY SUPERCONDUCTOR" 1990 "ISOSTRUCTURAL ,SINGLE CRYSTALS ,ELECTRICAL PROPERTIE,STRUCTURE ,MOSSBAURE ,MAGNETIC PHASE" "BELL COMMUNICATIONS RESARCH,RED BANK,NJ 07701,USA" "PHYSICA C,167(1990)20" "BI,PB,SR,CO,MN,FE,O" 2635 PHC1670042 COHERE OBTAINED FROM FITTING CURVE USING FLUCTUATION EQUATION YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 4 1990 Y123 K 89.5 89.5 4.7 1.4 12.5 MAGNETORESISTANCE ABOVE AND BELOW TC IN C-ACIS-ORIENTED YBA2XU3O7Z 1990 "RESISTIBITY ,THIN FILMS ,MAGNETORESISTANCE ,ANISOTROPIC ,FLUCTUATION COND" "INSTITUTE OF PHYSICS,CHINESE ACADEMY OF SCIENCES,BEIJING,PR CHINA" "PHYSICA C,167(1990)42" "Y,BA,CU,O" 2636 PRL0640080 "(Sm,Ce)2CuO4" Sm1.88Ce0.12Cu1O4 Sm 1.88 Ce 0.12 Cu 1 O 4 1990 T' K 3.9 3.9 K/GPa -0.62 "PRESSUR DEPARTMENT OF TC IN L2-XMXCUO4-Y (L=PR,ND,SM,EU;M=CE,TH): ANTISYMMETRIC BEHAVIOR OF ELECTRON - VERSUS HOLE-DOPED COPPER-OXIDE SUPERCONDUCTORS" 1990 1 "TC ,PRESSURE" "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES, UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CALIFORNIA 92093" "PHYS.REV.LETT.,64(1990)80" "PR,ND,SM,EU,CE,TH,CU,O" 2637 PRL0640080 "(Sm,Ce)2CuO4" Sm1.8Ce0.2Cu1O4 Sm 1.8 Ce 0.2 Cu 1 O 4 1990 T' K 14.7 14.7 K/GPa -0.19 "PRESSUR DEPARTMENT OF TC IN L2-XMXCUO4-Y (L=PR,ND,SM,EU;M=CE,TH): ANTISYMMETRIC BEHAVIOR OF ELECTRON - VERSUS HOLE-DOPED COPPER-OXIDE SUPERCONDUCTORS" 1990 1 "TC ,PRESSURE" "DEPARTMENT OF PHYSICS AND INSTITUTE FOR PURE AND APPLIED PHYSICAL SCIENCES, UNIVERSITY OF CALIFORNIA, SAN DIEGO, LA JOLLA, CALIFORNIA 92093" "PHYS.REV.LETT.,64(1990)80" "PR,ND,SM,EU,CE,TH,CU,O" 2638 PR0428752 "(La,Sr)2(Cu,Fe)O4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1990 T K 35.8 35.8 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2639 PR0428752 "(La,Sr)2(Cu,Fe)O4" La1.85Sr0.15Cu0.996Fe0.004O4 La 1.85 Sr 0.15 Cu 0.996 Fe 0.004 O 4 1 1990 T K 29.4 29.4 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2640 PR0428752 "(La,Sr)2(Cu,Fe)O4" La1.85Sr0.15Cu0.992Fe0.008O4 La 1.85 Sr 0.15 Cu 0.992 Fe 0.008 O 4 1 1990 T K 20.4 20.4 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2641 PR0428752 "(La,Sr)2(Cu,Fe)O4" La1.85Sr0.15Cu0.988Fe0.012O4 La 1.85 Sr 0.15 Cu 0.988 Fe 0.012 O 4 1 1990 4.8 T K 11.6 11.6 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2642 PR0428752 "(La,Sr)2(Cu,Fe)O4" La1.85Sr0.15Cu0.985Fe0.015O4 La 1.85 Sr 0.15 Cu 0.985 Fe 0.015 O 4 1 1990 T K 5.2 5.2 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2643 PR0428752 "(La,Sr)2(Cu,Fe)O4" La1.85Sr0.15Cu0.982Fe0.018O4 La 1.85 Sr 0.15 Cu 0.982 Fe 0.018 O 4 1 1990 T K 0.2 0.2 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2644 PR0428752 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1990 T K 35.3 35.3 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2645 PR0428752 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.996Zn0.004O4 La 1.85 Sr 0.15 Cu 0.996 Zn 0.004 O 4 1 1990 T K 31 31 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2646 PR0428752 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.992Zn0.008O4 La 1.85 Sr 0.15 Cu 0.992 Zn 0.008 O 4 1 1990 T K 25.5 25.5 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2647 PR0428752 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.988Zn0.012O4 La 1.85 Sr 0.15 Cu 0.988 Zn 0.012 O 4 1 1990 0.95 T K 20.2 20.2 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2648 PR0428752 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.985Zn0.015O4 La 1.85 Sr 0.15 Cu 0.985 Zn 0.015 O 4 1 1990 T K 16.6 16.6 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2649 PR0428752 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.982Zn0.018O4 La 1.85 Sr 0.15 Cu 0.982 Zn 0.018 O 4 1 1990 T K 12.6 12.6 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2650 PR0428752 "(La.Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.979Zn0.021O4 La 1.85 Sr 0.15 Cu 0.979 Zn 0.021 O 4 1 1990 T K 10.4 10.4 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2651 PR0428752 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.976Zn0.024O4 La 1.85 Sr 0.15 Cu 0.976 Zn 0.024 O 4 1 1990 T K 6.6 6.6 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2652 PR0428752 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.973Zn0.027O4 La 1.85 Sr 0.15 Cu 0.973 Zn 0.027 O 4 1 1990 T K 2.8 2.8 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2653 PR0428752 "(La,Sr)2(Cu,Co)O4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1990 T K 34.7 34.7 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2654 PR0428752 "(La,Sr)2(Cu,Co)O4" La1.85Sr0.15Cu0.996Co0.004O4 La 1.85 Sr 0.15 Cu 0.996 Co 0.004 O 4 1 1990 T K 30 30 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2655 PR0428752 "(La,Sr)2(Cu,Co)O4" La1.85Sr0.15Cu0.992Co0.008O4 La 1.85 Sr 0.15 Cu 0.992 Co 0.008 O 4 1 1990 T K 23.1 23.1 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2656 PR0428752 "(La,Sr)2(Cu,Co)O4" La1.85Sr0.15Cu0.988Co0.012O4 La 1.85 Sr 0.15 Cu 0.988 Co 0.012 O 4 1 1990 T K 18.6 18.6 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2657 PR0428752 "(La,Sr)2(Cu,Co)O4" La1.85Sr0.15Cu0.985Co0.015O4 La 1.85 Sr 0.15 Cu 0.985 Co 0.015 O 4 1 1990 T K 16 16 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2658 PR0428752 "(La,Sr)2(Cu,Co)O4" La1.85Sr0.15Cu0.982Co0.018O4 La 1.85 Sr 0.15 Cu 0.982 Co 0.018 O 4 1 1990 T K 8.9 8.9 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2659 PR0428752 "(La,Sr)2(Cu,Co)O4" La1.85Sr0.15Cu0.979Co0.021O4 La 1.85 Sr 0.15 Cu 0.979 Co 0.021 O 4 1 1990 1.2 T K 6 6 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2660 PR0428752 "(La,Sr)2(Cu,Co)O4" La1.85Sr0.15Cu0.976Co0.024O4 La 1.85 Sr 0.15 Cu 0.976 Co 0.024 O 4 1 1990 T K 4.4 4.4 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2661 PR0428752 "(La,Sr)2(Cu,Co)O4" La1.85Sr0.15Cu0.973Co0.027O4 La 1.85 Sr 0.15 Cu 0.973 Co 0.027 O 4 1 1990 T K 2.5 2.5 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2662 PR0428752 "(La,Sr)2(Cu,Ga)O4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1990 T K 36 36 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2663 PR0428752 "(La,Sr)2(Cu,Ga)O4" La1.85Sr0.15Cu0.995Ga0.005O4 La 1.85 Sr 0.15 Cu 0.995 Ga 0.005 O 4 1 1990 T K 29.8 29.8 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2664 PR0428752 "(La,Sr)2(Cu,Ga)O4" La1.85Sr0.15Cu0.99Ga0.01O4 La 1.85 Sr 0.15 Cu 0.99 Ga 0.01 O 4 1 1990 T K 24.1 24.1 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2665 PR0428752 "(La,Sr)2(Cu,Ga)O4" La1.85Sr0.15Cu0.985Ga0.015O4 La 1.85 Sr 0.15 Cu 0.985 Ga 0.015 O 4 1 1990 T K 13.7 13.7 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2666 PR0428752 "(La,Sr)2(Cu,Ga)O4" La1.85Sr0.15Cu0.98Ga0.02O4 La 1.85 Sr 0.15 Cu 0.98 Ga 0.02 O 4 1 1990 0.8 T K 8.3 8.3 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2667 PR0428752 "(La,Sr)2(Cu,Ga)O4" La1.85Sr0.15Cu0.977Ga0.023O4 La 1.85 Sr 0.15 Cu 0.977 Ga 0.023 O 4 1 1990 T K 0.9 0.9 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2668 PR0428752 "(La,Sr)2(Cu,Ga)O4" La1.85Sr0.15Cu0.975Ga0.025O4 La 1.85 Sr 0.15 Cu 0.975 Ga 0.025 O 4 1 1990 T K 0.7 0.7 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2669 PR0428752 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1990 T K 38.1 38.1 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2670 PR0428752 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.993Ni0.007O4 La 1.85 Sr 0.15 Cu 0.993 Ni 0.007 O 4 1 1990 T K 32.6 32.6 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2671 PR0428752 "(La.Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.986Ni0.014O4 La 1.85 Sr 0.15 Cu 0.986 Ni 0.014 O 4 1 1990 T K 27.9 27.9 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2672 PR0428752 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.98Ni0.02O4 La 1.85 Sr 0.15 Cu 0.98 Ni 0.02 O 4 1 1990 T K 22.2 22.2 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2673 PR0428752 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.975Ni0.025O4 La 1.85 Sr 0.15 Cu 0.975 Ni 0.025 O 4 1 1990 T K 17.4 17.4 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2674 PR0428752 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.97Ni0.03O4 La 1.85 Sr 0.15 Cu 0.97 Ni 0.03 O 4 1 1990 0.6 T K 13.4 13.4 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2675 PR0428752 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.966Ni0.034O4 La 1.85 Sr 0.15 Cu 0.966 Ni 0.034 O 4 1 1990 T K 9.4 9.4 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2676 PR0428752 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15CuNi0.037O4 La 1.85 Sr 0.15 Cu Ni 0.037 O 4 1 1990 T K 6.1 6.1 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2677 PR0428752 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15CuNi0.04O4 La 1.85 Sr 0.15 Cu Ni 0.04 O 4 1 1990 T K 2.5 2.5 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2678 PR0428752 "(La,Sr)2(Cu,Al)O4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1990 T K 34.4 34.4 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2679 PR0428752 "(La,Sr)2(Cu,Al)O4" La1.85Sr0.15Cu0.996Al0.004O4 La 1.85 Sr 0.15 Cu 0.996 Al 0.004 O 4 1 1990 T K 30.4 30.4 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2680 PR0428752 "(La,Sr)2(Cu,Al)O4" La1.85Sr0.15Cu0.992Al0.008O4 La 1.85 Sr 0.15 Cu 0.992 Al 0.008 O 4 1 1990 T K 27.1 27.1 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2681 PR0428752 "(La,Sr)2(Cu,Al)O4" La1.85Sr0.15Cu0.988Al0.012O4 La 1.85 Sr 0.15 Cu 0.988 Al 0.012 O 4 1 1990 T K 17.9 17.9 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2682 PR0428752 "(La,Sr)2(Cu,Al)O4" La1.85Sr0.15Cu0.985Al0.015O4 La 1.85 Sr 0.15 Cu 0.985 Al 0.015 O 4 1 1990 T K 15 15 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2683 PR0428752 "(La,Sr)2(Cu,Al)O4" La1.85Sr0.15Cu0.982Al0.018O4 La 1.85 Sr 0.15 Cu 0.982 Al 0.018 O 4 1 1990 T K 9.1 9.1 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2684 PR0428752 "(La,Sr)2(Cu,Al)O4" La1.85Sr0.15Cu0.979Al0.021O4 La 1.85 Sr 0.15 Cu 0.979 Al 0.021 O 4 1 1990 1.1 T K 3.7 3.7 "MAGNECTIC PAIR-BREAKING EFFECTS: MOMENT FORMATION AND CRITICALDOPING LEVEL IN SUPERCONDUCTING LA1.85SR0.15CU1-XAXO4 SYSTEMS(A=FE,CO,NI,ZU,GA,AL)" 1990 11 "CU-SITE DOPING ,MAGNETIC MOMENT ,PAIR-BREAKING EFFE" "DEPARTMENT OF PHYSICS, BROWN UNIVERSITY, PROVIDENCE, PHODE ISLAND 02912" "PHYS.RE.V,42(1990)8752" "LA,SR,CU,O,FE,CO,NI,ZN,GA,AL" 2685 PR04312989 "YBa2(Cu,Fe)3O7" Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1991 3 Y123 K 91.2 92.7 2.6 91.2 3500 EFFECT OF CU SUBSTITUTION BY FE ON THE MAGNETIC PROPERTIES OFYBA2CU3O7-Y SINGLE CRYSTALS 1991 6 "DEPATMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA,DAVIS,DAVIS,CALIFORNIA 95616" "PHYS.REV.B,43(1991)12989" "Y,BA,CU,O,FE" 2686 PR04312989 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.94Fe0.06O7-Z Y 1 Ba 2 Cu 2.94 Fe 0.06 O 7-Z 3 1991 3 Y123 K 82.1 87.2 8.4 82.1 2500 EFFECT OF CU SUBSTITUTION BY FE ON THE MAGNETIC PROPERTIES OFYBA2CU3O7-Y SINGLE CRYSTALS 1991 6 "DEPATMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA,DAVIS,DAVIS,CALIFORNIA 95616" "PHYS.REV.B,43(1991)12989" "Y,BA,CU,O,FE" 2687 PR04312989 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.88Fe0.12O7-Z Y 1 Ba 2 Cu 2.88 Fe 0.12 O 7-Z 3 1991 2 Y123 K 76 86.1 14.6 76 2300 EFFECT OF CU SUBSTITUTION BY FE ON THE MAGNETIC PROPERTIES OFYBA2CU3O7-Y SINGLE CRYSTALS 1991 6 "DEPATMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA,DAVIS,DAVIS,CALIFORNIA 95616" "PHYS.REV.B,43(1991)12989" "Y,BA,CU,O,FE" 2688 PR04312989 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.76Fe0.24O7-Z Y 1 Ba 2 Cu 2.76 Fe 0.24 O 7-Z 3 1991 2 Y123 K 48.3 70 22.2 48.3 800 EFFECT OF CU SUBSTITUTION BY FE ON THE MAGNETIC PROPERTIES OFYBA2CU3O7-Y SINGLE CRYSTALS 1991 6 "DEPATMENT OF PHYSICS,UNIVERSITY OF CALIFORNIA,DAVIS,DAVIS,CALIFORNIA 95616" "PHYS.REV.B,43(1991)12989" "Y,BA,CU,O,FE" 2689 JML0090033 "(In,Pb)Sr2(Y,Ca)Cu2OZ" In0.5Pb0.5Sr2Y0.5Ca0.5Cu2OZ In 0.5 Pb 0.5 Sr 2 Y 0.5 Ca 0.5 Cu 2 O Z 1 1990 2 3.82 11.89 K 36 36 CONFIRMATION OF SUPERCONDUCTIVITY IN (INPB)SR2(YCA)CU2OZ 1990 "LABORATOIRE DE PHYSIQUE DES SOLIDES DE BELLEVUE,CNRS,92195 MEUDON,FRANCE" "J.MATER.SCI.LETT.,9(1990)33" "IN,PB,SR,Y,CA,CU,O" 2690 JML0090033 "(In,Pb)Sr2(Y,Ca)Cu2OZ" In0.4Pb0.6Sr2Y0.5Ca0.5Cu2OZ In 0.4 Pb 0.6 Sr 2 Y 0.5 Ca 0.5 Cu 2 O Z 1 1990 2 K 47 47 15 0.000000006 CONFIRMATION OF SUPERCONDUCTIVITY IN (INPB)SR2(YCA)CU2OZ 1990 "LABORATOIRE DE PHYSIQUE DES SOLIDES DE BELLEVUE,CNRS,92195 MEUDON,FRANCE" "J.MATER.SCI.LETT.,9(1990)33" "IN,PB,SR,Y,CA,CU,O" 2691 JML0090033 "(In,Pb)Sr2(Y,Ca)Cu2OZ" In0.3Pb0.7Sr2Y0.5Ca0.5Cu2OZ In 0.3 Pb 0.7 Sr 2 Y 0.5 Ca 0.5 Cu 2 O Z 1 1990 2 K 38 40 50 40 CONFIRMATION OF SUPERCONDUCTIVITY IN (INPB)SR2(YCA)CU2OZ 1990 "LABORATOIRE DE PHYSIQUE DES SOLIDES DE BELLEVUE,CNRS,92195 MEUDON,FRANCE" "J.MATER.SCI.LETT.,9(1990)33" "IN,PB,SR,Y,CA,CU,O" 2692 PR0428019 PENET BY MUON SPIN RESONANCE YBa2Cu3O7 Y1Ba2Cu3O6.97 Y 1 Ba 2 Cu 3 O 6.97 6.97 1990 5.3 3 Y123 K 89.5 8 89.5 60 1550 MUON-SPIN-ROTATION MEASUREMENTS OF THE LONDON PENETRATION DEPTHS IN YBA2CU3O6.79 1990 11 "MUON-SPIN-ROTATION ,PENTRATION DEPTH" "PHYSIK-INSTITUT DER UNIVERSITAT ZURICH, H-8001 ZURICH, SWITZERLAND" "PHYS.REV.B,42(1990)8019" "B,BA,CU,O" 2693 PR0428030 "Y(Ba,La)2Cu4O8" Y1Ba2Cu4O7.9 Y 1 Ba 2 Cu 4 O 7.9 7.9 1 1990 3 Y124 3.836 3.872 27.224 K 74 78.3 80 78.3 SYNTHESIS AND SUPERCONDUCTING PROPERTIES OF Y(BA1-YLAY)2CU4O8AND (Y1-XCAX)(BA1-YLAY)2CU4O8 1990 11 "SYNTHESIZED ,SINGLE-PHASE" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, 10-13, SHINONOME 1-CHOME, KOTO-KU,TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8030" "Y,BA,LA,CU,O,CA" 2694 PR0428030 "Y(Ba,La)2Cu4O8" Y1Ba1.95La0.05Cu4OZ Y 1 Ba 1.95 La 0.05 Cu 4 O Z 1 1990 3 Y124 3.832 3.872 27.213 K 68 74.3 75 74.3 SYNTHESIS AND SUPERCONDUCTING PROPERTIES OF Y(BA1-YLAY)2CU4O8AND (Y1-XCAX)(BA1-YLAY)2CU4O8 1990 11 "SYNTHESIZED ,SINGLE-PHASE" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, 10-13, SHINONOME 1-CHOME, KOTO-KU,TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8030" "Y,BA,LA,CU,O,CA" 2695 PR0428030 "Y(Ba,La)2Cu4O8" Y1Ba1.9La0.1Cu4O7.8 Y 1 Ba 1.9 La 0.1 Cu 4 O 7.8 7.8 1 1990 3 Y124 3.832 3.873 27.196 K 60 67.8 71 67.8 SYNTHESIS AND SUPERCONDUCTING PROPERTIES OF Y(BA1-YLAY)2CU4O8AND (Y1-XCAX)(BA1-YLAY)2CU4O8 1990 11 "SYNTHESIZED ,SINGLE-PHASE" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, 10-13, SHINONOME 1-CHOME, KOTO-KU,TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8030" "Y,BA,LA,CU,O,CA" 2696 PR0428030 "Y(Ba,La)2Cu4O8" Y1Ba1.85La0.15Cu4OZ Y 1 Ba 1.85 La 0.15 Cu 4 O Z 1 1990 3 Y124 3.835 3.875 27.173 K 54 63.4 67 63.4 SYNTHESIS AND SUPERCONDUCTING PROPERTIES OF Y(BA1-YLAY)2CU4O8AND (Y1-XCAX)(BA1-YLAY)2CU4O8 1990 11 "SYNTHESIZED ,SINGLE-PHASE" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, 10-13, SHINONOME 1-CHOME, KOTO-KU,TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8030" "Y,BA,LA,CU,O,CA" 2697 PR0428030 "Y(Ba,La)2Cu4O8" Y1Ba1.8La0.2Cu4O7.9 Y 1 Ba 1.8 La 0.2 Cu 4 O 7.9 7.9 1 1990 3 Y124 3.834 3.875 27.145 K 43 60.1 62 60.1 SYNTHESIS AND SUPERCONDUCTING PROPERTIES OF Y(BA1-YLAY)2CU4O8AND (Y1-XCAX)(BA1-YLAY)2CU4O8 1990 11 "SYNTHESIZED ,SINGLE-PHASE" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, 10-13, SHINONOME 1-CHOME, KOTO-KU,TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8030" "Y,BA,LA,CU,O,CA" 2698 PR0428030 "Y(Ba,La)2Cu4O8" Y1Ba1.75La0.25Cu4OZ Y 1 Ba 1.75 La 0.25 Cu 4 O Z 1990 3 Y124 3.828 3.876 27.151 K 44 60.1 63 60.1 SYNTHESIS AND SUPERCONDUCTING PROPERTIES OF Y(BA1-YLAY)2CU4O8AND (Y1-XCAX)(BA1-YLAY)2CU4O8 1990 11 "SYNTHESIZED ,SINGLE-PHASE" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, 10-13, SHINONOME 1-CHOME, KOTO-KU,TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8030" "Y,BA,LA,CU,O,CA" 2699 PR0428030 "Y(Ba,La)2Cu4O8" Y1Ba1.7La0.3Cu4O7.8 Y 1 Ba 1.7 La 0.3 Cu 4 O 7.8 7.8 1990 3 Y124 3.835 3.878 27.143 K 37 62.7 59 62.7 SYNTHESIS AND SUPERCONDUCTING PROPERTIES OF Y(BA1-YLAY)2CU4O8AND (Y1-XCAX)(BA1-YLAY)2CU4O8 1990 11 "SYNTHESIZED ,SINGLE-PHASE" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, 10-13, SHINONOME 1-CHOME, KOTO-KU,TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8030" "Y,BA,LA,CU,O,CA" 2700 PR0428030 "(Y,Ca)(Ba,La)2Cu4O8" Y0.95Ca0.05Ba1.9La0.1Cu4O7.9 Y 0.95 Ca 0.05 Ba 1.9 La 0.1 Cu 4 O 7.9 7.9 1 1990 3 Y124 3.828 3.874 27.155 K 46 68.8 68 68.8 SYNTHESIS AND SUPERCONDUCTING PROPERTIES OF Y(BA1-YLAY)2CU4O8AND (Y1-XCAX)(BA1-YLAY)2CU4O8 1990 11 "SYNTHESIZED ,SINGLE-PHASE" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, 10-13, SHINONOME 1-CHOME, KOTO-KU,TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8030" "Y,BA,LA,CU,O,CA" 2701 PR0428030 "(Y,Ca)(Ba,La)2Cu4O8" Y0.9Ca0.1Ba1.9La0.1Cu4O7.8 Y 0.9 Ca 0.1 Ba 1.9 La 0.1 Cu 4 O 7.8 7.8 1 1990 3 Y124 3.827 3.873 27.174 K 60 79 80 79 SYNTHESIS AND SUPERCONDUCTING PROPERTIES OF Y(BA1-YLAY)2CU4O8AND (Y1-XCAX)(BA1-YLAY)2CU4O8 1990 11 "SYNTHESIZED ,SINGLE-PHASE" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, 10-13, SHINONOME 1-CHOME, KOTO-KU,TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8030" "Y,BA,LA,CU,O,CA" 2702 PR0428030 "(Y,Ca)(Ba,La)2Cu4O8" Y0.85Ca0.15Ba1.9La0.1Cu4OZ Y 0.85 Ca 0.15 Ba 1.9 La 0.1 Cu 4 O Z 1990 3 Y124 3.825 3.871 27.183 K 70 79.3 81 79.3 SYNTHESIS AND SUPERCONDUCTING PROPERTIES OF Y(BA1-YLAY)2CU4O8AND (Y1-XCAX)(BA1-YLAY)2CU4O8 1990 11 "SYNTHESIZED ,SINGLE-PHASE" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, 10-13, SHINONOME 1-CHOME, KOTO-KU,TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8030" "Y,BA,LA,CU,O,CA" 2703 PR0428030 "(Y,Ca)(Ba,La)2Cu4O8" Y0.8Ca0.2Ba1.9La0.1Cu4OZ Y 0.8 Ca 0.2 Ba 1.9 La 0.1 Cu 4 O Z 1990 K 74 80.7 83 80.7 SYNTHESIS AND SUPERCONDUCTING PROPERTIES OF Y(BA1-YLAY)2CU4O8AND (Y1-XCAX)(BA1-YLAY)2CU4O8 1990 11 "SYNTHESIZED ,SINGLE-PHASE" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, 10-13, SHINONOME 1-CHOME, KOTO-KU,TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8030" "Y,BA,LA,CU,O,CA" 2704 PR0428030 "(Y,Ca)(Ba,La)2Cu4O8" Y0.75Ca0.25Ba1.9La0.1Cu4OZ Y 0.75 Ca 0.25 Ba 1.9 La 0.1 Cu 4 O Z 1990 K 71 80.4 83 80.4 SYNTHESIS AND SUPERCONDUCTING PROPERTIES OF Y(BA1-YLAY)2CU4O8AND (Y1-XCAX)(BA1-YLAY)2CU4O8 1990 11 "SYNTHESIZED ,SINGLE-PHASE" "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, 10-13, SHINONOME 1-CHOME, KOTO-KU,TOKYO 135, JAPAN" "PHYS.REV.B,42(1990)8030" "Y,BA,LA,CU,O,CA" 2705 PHC1740316 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.8Fe0.2O6.7 Y 1 Ba 2 Cu 2.8 Fe 0.2 O 6.7 6.7 1 1991 2 Y123 K 4.2 "CRYSTALLOGRAPHIC,THERMOGRAVIMETRIC AND MAGNETIZATION STUDY OFTHE YBA2CU3-XFEXOY SUPERCONDUCTOR (O=3KBAR" La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 1991 204 T K 37.7 37.7 K/GPa 4 TWO-STEP SUPERCONDUCTING TRANSITION AND ANOMALOUS PRESSURE DEPENDENCE OF TC IN LA2CUO4 1991 "FACULTY OF ENGINEERING,IWATE UNIVERSITY,MORIOKA 020,JAPAN" "PHYSICA C,179(1991)358" "LA,CU,O" 2904 PR04410167 "(Nd,Ba)(Ba,Nd)2Cu3O7" Nd1Ba2Cu3O7+Z Nd 1 Ba 2 Cu 3 O 7+Z 1 1991 Y123 K 92.9 92.9 8.54E-10 RH2904 UNIVERSAL TRANSPORT ANOMALY IN YBA2CU3O7-TYPE SYSTEMS WITH REDUCED CARRIER DENSITY 1991 11 "THE INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "PHYS.REV.B,44(1991)10167" "Y,BA,CU,O,CO,ND,ZN" 2905 PR04410167 "(Nd,Ba)(Ba,Nd)2Cu3O7" Nd1.1Ba1.9Cu3O7+Z Nd 1.1 Ba 1.9 Cu 3 O 7+Z 1 1991 Y123 K 82.3 82.3 1.51E-09 RH2905 UNIVERSAL TRANSPORT ANOMALY IN YBA2CU3O7-TYPE SYSTEMS WITH REDUCED CARRIER DENSITY 1991 11 "THE INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "PHYS.REV.B,44(1991)10167" "Y,BA,CU,O,CO,ND,ZN" 2906 PR04410167 "(Nd,Ba)(Ba,Nd)2Cu3O7" Nd1.2Ba1.8Cu3O7+Z Nd 1.2 Ba 1.8 Cu 3 O 7+Z 1 1991 Y123 K 56.5 56.5 2.92E-09 RH2906 UNIVERSAL TRANSPORT ANOMALY IN YBA2CU3O7-TYPE SYSTEMS WITH REDUCED CARRIER DENSITY 1991 11 "THE INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "PHYS.REV.B,44(1991)10167" "Y,BA,CU,O,CO,ND,ZN" 2907 PR04410167 "(Nd,Ba)(Ba,Nd)2Cu3O7" Nd1.3Ba1.7Cu3O7+Z Nd 1.3 Ba 1.7 Cu 3 O 7+Z 1 1991 Y123 K 39.4 39.4 5.80E-09 RH2907 UNIVERSAL TRANSPORT ANOMALY IN YBA2CU3O7-TYPE SYSTEMS WITH REDUCED CARRIER DENSITY 1991 11 "THE INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "PHYS.REV.B,44(1991)10167" "Y,BA,CU,O,CO,ND,ZN" 2908 PR04410167 "(Nd,Ba)(Ba,Nd)2Cu3O7" Nd1.4Ba1.6Cu3O7+Z Nd 1.4 Ba 1.6 Cu 3 O 7+Z 1 1991 Y123 K 23.5 23.5 8.10E-09 RH2908 UNIVERSAL TRANSPORT ANOMALY IN YBA2CU3O7-TYPE SYSTEMS WITH REDUCED CARRIER DENSITY 1991 11 "THE INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "PHYS.REV.B,44(1991)10167" "Y,BA,CU,O,CO,ND,ZN" 2909 PR04410167 "(Nd,Ba)(Ba,Nd)2Cu3O7" Nd1.5Ba1.5Cu3O7+Z Nd 1.5 Ba 1.5 Cu 3 O 7+Z 1 1991 Y123 K 4.2 8.40E-09 RH2909 UNIVERSAL TRANSPORT ANOMALY IN YBA2CU3O7-TYPE SYSTEMS WITH REDUCED CARRIER DENSITY 1991 11 "THE INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "PHYS.REV.B,44(1991)10167" "Y,BA,CU,O,CO,ND,ZN" 2910 PR04410167 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.97Co0.03O7+Z Y 1 Ba 2 Cu 2.97 Co 0.03 O 7+Z 1 1991 Y123 K 90.5 90.5 7.41E-10 RH2910 UNIVERSAL TRANSPORT ANOMALY IN YBA2CU3O7-TYPE SYSTEMS WITH REDUCED CARRIER DENSITY 1991 11 "THE INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "PHYS.REV.B,44(1991)10167" "Y,BA,CU,O,CO,ND,ZN" 2911 PR04410167 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.91Co0.09O7+Z Y 1 Ba 2 Cu 2.91 Co 0.09 O 7+Z 1 1991 Y123 K 70 70 2.04E-09 RH2911 UNIVERSAL TRANSPORT ANOMALY IN YBA2CU3O7-TYPE SYSTEMS WITH REDUCED CARRIER DENSITY 1991 11 "THE INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "PHYS.REV.B,44(1991)10167" "Y,BA,CU,O,CO,ND,ZN" 2912 PR04410167 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.85Co0.15O7+Z Y 1 Ba 2 Cu 2.85 Co 0.15 O 7+Z 1 1991 Y123 K 57.1 57.1 RH2912 UNIVERSAL TRANSPORT ANOMALY IN YBA2CU3O7-TYPE SYSTEMS WITH REDUCED CARRIER DENSITY 1991 11 "THE INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "PHYS.REV.B,44(1991)10167" "Y,BA,CU,O,CO,ND,ZN" 2913 PR04410167 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.79Co0.21O7+Z Y 1 Ba 2 Cu 2.79 Co 0.21 O 7+Z 1 1991 Y123 K 41.1 41.1 4.64E-09 RH2913 UNIVERSAL TRANSPORT ANOMALY IN YBA2CU3O7-TYPE SYSTEMS WITH REDUCED CARRIER DENSITY 1991 11 "THE INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "PHYS.REV.B,44(1991)10167" "Y,BA,CU,O,CO,ND,ZN" 2914 PR04410167 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.97Zn0.03O7-Z Y 1 Ba 2 Cu 2.97 Zn 0.03 O 7-Z 1 1991 Y123 K 80.2 80.2 3.50E-10 RH2914 UNIVERSAL TRANSPORT ANOMALY IN YBA2CU3O7-TYPE SYSTEMS WITH REDUCED CARRIER DENSITY 1991 11 "THE INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "PHYS.REV.B,44(1991)10167" "Y,BA,CU,O,CO,ND,ZN" 2915 PR04410167 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.91Zn0.09O7-Z Y 1 Ba 2 Cu 2.91 Zn 0.09 O 7-Z 1 1991 Y123 K 58.7 58.7 4.80E-10 RH2915 UNIVERSAL TRANSPORT ANOMALY IN YBA2CU3O7-TYPE SYSTEMS WITH REDUCED CARRIER DENSITY 1991 11 "THE INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "PHYS.REV.B,44(1991)10167" "Y,BA,CU,O,CO,ND,ZN" 2916 PR04410167 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.79Zn0.21O7-Z Y 1 Ba 2 Cu 2.79 Zn 0.21 O 7-Z 1 1991 Y123 K 21 21 4.60E-10 RH2916 UNIVERSAL TRANSPORT ANOMALY IN YBA2CU3O7-TYPE SYSTEMS WITH REDUCED CARRIER DENSITY 1991 11 "THE INSTITUTE FOR SOLID STATE PHYSICS,THE UNIVERSITY OF TOKYO,ROPPONGI,MINATO-KU,TOKYO 106,JAPAN" "PHYS.REV.B,44(1991)10167" "Y,BA,CU,O,CO,ND,ZN" 2917 SSC0700951 RESRT=280K YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1989 5.3 3 Y123 3.82 3.889 11.672 K 91 91 1.33 7.60E-10 RH2917 "Y2O3,BACO3,CUO,ZNO" 1 SIN(950C 24H IN O2)-FC(IN O2) EFFECTS OF CU SUBSTITUTION BY ZN ON TRANSPORT PRAPERTIES OF YBA(2)CU(3)O(7-Z) 1989 6 "RESISTIVITY ,HALL COEFFICIENT ,HALL MOB" DEPARTMENT DE PHYSIOUE I.M.O.ECOLE POLYTECHNIQUE FEDERALE CH-1015 LAUSANNE SWITZERLAND "SOLID STATE COMMUN.,70(1989)951" "Y,BA,CU,O" 2918 SSC0700951 RESRT=280K "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.925Zn0.075O7-Z Y 1 Ba 2 Cu 2.925 Zn 0.075 O 7-Z 1 1989 5.2 3 Y123 3.82 3.89 11.673 K 59 59 1.43 8.21E-10 RH2918 "Y2O3,BACO3,CUO,ZNO" 1 SIN(950C 24H IN O2)-FC(IN O2) EFFECTS OF CU SUBSTITUTION BY ZN ON TRANSPORT PRAPERTIES OF YBA(2)CU(3)O(7-Z) 1989 6 "RESISTIVITY ,HALL COEFFICIENT ,HALL MOB" DEPARTMENT DE PHYSIOUE I.M.O.ECOLE POLYTECHNIQUE FEDERALE CH-1015 LAUSANNE SWITZERLAND "SOLID STATE COMMUN.,70(1989)951" "Y,BA,CU,O" 2919 SSC0700951 RESRT=280K "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.85Zn0.15O7-Z Y 1 Ba 2 Cu 2.85 Zn 0.15 O 7-Z 1 1989 5.05 3 Y123 3.82 3.885 11.671 K 49 49 1.88 8.57E-10 RH2919 "Y2O3,BACO3,CUO,ZNO" 1 SIN(950C 24H IN O2)-FC(IN O2) EFFECTS OF CU SUBSTITUTION BY ZN ON TRANSPORT PRAPERTIES OF YBA(2)CU(3)O(7-Z) 1989 6 "RESISTIVITY ,HALL COEFFICIENT ,HALL MOB" DEPARTMENT DE PHYSIOUE I.M.O.ECOLE POLYTECHNIQUE FEDERALE CH-1015 LAUSANNE SWITZERLAND "SOLID STATE COMMUN.,70(1989)951" "Y,BA,CU,O" 2920 SSC0700951 "MAYBE SECONDARY PHASE,RESRT AT 280K" "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.775Zn0.225O7-Z Y 1 Ba 2 Cu 2.775 Zn 0.225 O 7-Z 1989 4.95 3 Y123 3.826 3.893 11.689 K 46 46 7.35 1.03E-09 RH2920 "Y2O3,BACO3,CUO,ZNO" 1 SIN(950C 24H IN O2)-FC(IN O2) EFFECTS OF CU SUBSTITUTION BY ZN ON TRANSPORT PRAPERTIES OF YBA(2)CU(3)O(7-Z) 1989 6 "RESISTIVITY ,HALL COEFFICIENT ,HALL MOB" DEPARTMENT DE PHYSIOUE I.M.O.ECOLE POLYTECHNIQUE FEDERALE CH-1015 LAUSANNE SWITZERLAND "SOLID STATE COMMUN.,70(1989)951" "Y,BA,CU,O" 2921 PR04410408 "SLIGHTLY UNTWINNED,SPHEAT JUMP=MJ/G.K2" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 3 1991 3 Y123 K 91.6 91.6 SP2921 2.75 HEAT-CAPACITY INVESTIGATIONS NEAR THE NORMAL-SUPERCONDUCTINGTRANSITION OF YBA2CU3O7 1991 11 "CENTER FOR THE SCIENCE AND APPLICATION OF SUPERCONDUCTIVITY AND SCHOOL OF PHYSICS AND ASTRONOMY,UNIVERSITY OF MINNESOTA,MINNESOTA 55455" "PHYS.REV.B,44(1991)10408" "Y,BA,CU,O" 2922 PRL0582482 LA2.01CUO4.6 BY EPMA La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 1 1987 3 T K 16 40 28 294 TP2922 EVIDENCE FOR SUPERCONDUCTIVITY IN LA(2)CU(1)O(4) 1987 "RESISTIVITY ,THERMOPOWER" "IBM ALMADEN RESEARCH CENTER,SAN JOSE,CALIFORNIA,USA" "PHYS.REV.LETT.,58(1987)2482" 2923 PHC1790353 MAJOR 2223+IMPURITY TL0.2CA0.8CUOZ PHASE TlBaCa3Cu3OZ Tl1Ba1Ca3Cu3OZ Tl 1 Ba 1 Ca 3 Cu 3 O Z 1991 K 116 130 123 29.6 5.58 SYNTHESIS OF MONOPHASIC TL2BA2CA2CU3O10 (TC=120K) SUPERCONDUCTOR 1991 "IRC IN SUPERCONDUCTIVITY,UNIVERSITY OF CAMBRIDGE,MADINGLEY ROAD,CAMBRIGE CB30HE,UK" "PHYSICA C,179(1991)353" "TL,BA,CA,CU,O" 2924 PHC1790353 HOMOGENEOUS 2223 Tl2Ba2Ca2Cu3O10 Tl1.8Ba2Ca2.2Cu3OZ Tl 1.8 Ba 2 Ca 2.2 Cu 3 O Z 1 1991 2 Tl2223 3.859 35.94 K 117 120 130 120 58 3.47 SYNTHESIS OF MONOPHASIC TL2BA2CA2CU3O10 (TC=120K) SUPERCONDUCTOR 1991 "IRC IN SUPERCONDUCTIVITY,UNIVERSITY OF CAMBRIDGE,MADINGLEY ROAD,CAMBRIGE CB30HE,UK" "PHYSICA C,179(1991)353" "TL,BA,CA,CU,O" 2925 PHC1790353 MAJOR 2223 + MINOR 2212 Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3OZ Tl 2 Ba 2 Ca 2 Cu 3 O Z 1991 Tl2223 K 110 130 120 48.9 3.17 SYNTHESIS OF MONOPHASIC TL2BA2CA2CU3O10 (TC=120K) SUPERCONDUCTOR 1991 "IRC IN SUPERCONDUCTIVITY,UNIVERSITY OF CAMBRIDGE,MADINGLEY ROAD,CAMBRIGE CB30HE,UK" "PHYSICA C,179(1991)353" "TL,BA,CA,CU,O" 2926 PRB0372285 "SLIGHTLY OFF-STOICHIOMETRY,LESS CUO" YBa2Cu3O7 Y1Ba2Cu3O9-Z Y 1 Ba 2 Cu 3 O 9-Z 1 1988 3 Y123 K 92 92 4.44 TP2926 THERMOELECTRIC POWER AND SUPERCONDUCTING PROPERTIES OF Y(1)BA(2)CU(3)O(7-Z) AND R(1)BA(2)CU(3)O(7-Z) 1988 2 THERMOPOWER "DEPARTMENT OF PHYSICS,SEOUL NATIONAL UNIVERSITY,SEOUL,KOREA" "PHYS.REV.B,37(1988)2285" "R,BA,CU,O" 2927 SSC0700303 NOT SUPERCONDUCTING La2SrCu2O6 La2Sr1Cu2OZ La 2 Sr 1 Cu 2 O Z 1 1989 2126 K 4.2 TP2927 RH2927 "LA2O3,SRCO3,CUO" 1 CAL(1050C)-SIN(1050C 2DAYS)-ANN(450C 4DAYS IN O2) NORMAL STATE PROPERTIES OF LA2-XSRXCUO4 AND LA2SRCU2OY 1989 "SOLID STATE COMMUN.,70(1989)303" "LA,SR,CU,O" 2928 PHC1770183 "TlSr2(Sr,Y)Cu2O7" Tl1Sr2Sr0.5Y0.5Cu2O7-Z Tl 1 Sr 2 Sr 0.5 Y 0.5 Cu 2 O 7-Z 1 1991 2 Tl1212 3.736 12.05 K 77 90 83.5 "FORMATION AND SUPERCONDUCTIVITY OF 1212-TYPE PHASE TLSR2(SR0.5R0.5)SU2O7-Z WITH R=SC,Y AND LANTHANIDES" 1991 "DEPARTMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,177(1991)183" "TL,SR,SC,Y,CU,O,R" 2929 PHC1770183 MAJOR 1201(TC=40K) + MINOR 1212(TC=90K) "TlSr2(Sr,La)Cu2O7" Tl1Sr2Sr0.5La0.5Cu2O7-Z Tl 1 Sr 2 Sr 0.5 La 0.5 Cu 2 O 7-Z 2 1991 2 Tl1212 3.736 K 90 90 "FORMATION AND SUPERCONDUCTIVITY OF 1212-TYPE PHASE TLSR2(SR0.5R0.5)SU2O7-Z WITH R=SC,Y AND LANTHANIDES" 1991 "DEPARTMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,177(1991)183" "TL,SR,SC,Y,CU,O,R" 2930 PHC1770183 "TlSr2(Sr,Pr)Cu2O7" Tl1Sr2Sr0.5Pr0.5Cu2O7-Z Tl 1 Sr 2 Sr 0.5 Pr 0.5 Cu 2 O 7-Z 1 1991 2 Tl1212 3.843 12.166 K 79 90 84.5 "FORMATION AND SUPERCONDUCTIVITY OF 1212-TYPE PHASE TLSR2(SR0.5R0.5)SU2O7-Z WITH R=SC,Y AND LANTHANIDES" 1991 "DEPARTMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,177(1991)183" "TL,SR,SC,Y,CU,O,R" 2931 PHC1770183 "TlSr2(Sr,Nd)Cu2O7" Tl1Sr2Sr0.5Nd0.5Cu2O7-Z Tl 1 Sr 2 Sr 0.5 Nd 0.5 Cu 2 O 7-Z 1 1991 2 Tl1212 3.836 12.135 K 82 90 86 "FORMATION AND SUPERCONDUCTIVITY OF 1212-TYPE PHASE TLSR2(SR0.5R0.5)SU2O7-Z WITH R=SC,Y AND LANTHANIDES" 1991 "DEPARTMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,177(1991)183" "TL,SR,SC,Y,CU,O,R" 2932 PHC1770183 "TlSr2(Sr,Sm)Cu2O7" Tl1Sr2Sr0.5Sm0.5Cu2O7-Z Tl 1 Sr 2 Sr 0.5 Sm 0.5 Cu 2 O 7-Z 1 1991 2 Tl1212 3.833 12.078 K 60 90 75 "FORMATION AND SUPERCONDUCTIVITY OF 1212-TYPE PHASE TLSR2(SR0.5R0.5)SU2O7-Z WITH R=SC,Y AND LANTHANIDES" 1991 "DEPARTMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,177(1991)183" "TL,SR,SC,Y,CU,O,R" 2933 PHC1770183 "TlSr2(Sr,Eu)Cu2O7" Tl1Sr2Sr0.5Eu0.5Cu2O7-Z Tl 1 Sr 2 Sr 0.5 Eu 0.5 Cu 2 O 7-Z 1 1991 2 Tl1212 3.825 12.074 K 55 87 71 "FORMATION AND SUPERCONDUCTIVITY OF 1212-TYPE PHASE TLSR2(SR0.5R0.5)SU2O7-Z WITH R=SC,Y AND LANTHANIDES" 1991 "DEPARTMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,177(1991)183" "TL,SR,SC,Y,CU,O,R" 2934 PHC1770183 "TlSr2(Sr,Gd)Cu2O7" Tl1Sr2Sr0.5Gd0.5Cu2O7-Z Tl 1 Sr 2 Sr 0.5 Gd 0.5 Cu 2 O 7-Z 1 1991 2 Tl1212 3.825 12.093 K 77 90 83.5 "FORMATION AND SUPERCONDUCTIVITY OF 1212-TYPE PHASE TLSR2(SR0.5R0.5)SU2O7-Z WITH R=SC,Y AND LANTHANIDES" 1991 "DEPARTMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,177(1991)183" "TL,SR,SC,Y,CU,O,R" 2935 PHC1770183 "TlSr2(Sr,Tb)Cu2O7" Tl1Sr2Sr0.5Tb0.5Cu2O7-Z Tl 1 Sr 2 Sr 0.5 Tb 0.5 Cu 2 O 7-Z 1 1991 2 Tl1212 3.818 12.078 K 75 90 82.5 "FORMATION AND SUPERCONDUCTIVITY OF 1212-TYPE PHASE TLSR2(SR0.5R0.5)SU2O7-Z WITH R=SC,Y AND LANTHANIDES" 1991 "DEPARTMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,177(1991)183" "TL,SR,SC,Y,CU,O,R" 2936 PHC1770183 "TlSr2(Sr,Dy)Cu2O7" Tl1Sr2Sr0.5Dy0.5Cu2O7-Z Tl 1 Sr 2 Sr 0.5 Dy 0.5 Cu 2 O 7-Z 1 1991 2 Tl1212 3.817 12.068 K 74 90 82 "FORMATION AND SUPERCONDUCTIVITY OF 1212-TYPE PHASE TLSR2(SR0.5R0.5)SU2O7-Z WITH R=SC,Y AND LANTHANIDES" 1991 "DEPARTMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,177(1991)183" "TL,SR,SC,Y,CU,O,R" 2937 PHC1770183 "TlSr2(Sr,Ho)Cu2O7" Tl1Sr2Sr0.5Ho0.5Cu2O7-Z Tl 1 Sr 2 Sr 0.5 Ho 0.5 Cu 2 O 7-Z 1 1991 2 Tl1212 3.814 12.05 K 77 90 83.5 "FORMATION AND SUPERCONDUCTIVITY OF 1212-TYPE PHASE TLSR2(SR0.5R0.5)SU2O7-Z WITH R=SC,Y AND LANTHANIDES" 1991 "DEPARTMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,177(1991)183" "TL,SR,SC,Y,CU,O,R" 2938 PHC1770183 "TlSr2(Sr,Er)Cu2O7" Tl1Sr2Sr0.5Er0.5Cu2O7-Z Tl 1 Sr 2 Sr 0.5 Er 0.5 Cu 2 O 7-Z 1 1991 2 Tl1212 3.81 12.04 K 77 90 83.5 "FORMATION AND SUPERCONDUCTIVITY OF 1212-TYPE PHASE TLSR2(SR0.5R0.5)SU2O7-Z WITH R=SC,Y AND LANTHANIDES" 1991 "DEPARTMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,177(1991)183" "TL,SR,SC,Y,CU,O,R" 2939 PHC1770183 "TlSr2(Sr,Tm)Cu2O7" Tl1Sr2Sr0.5Tm0.5Cu2O7-Z Tl 1 Sr 2 Sr 0.5 Tm 0.5 Cu 2 O 7-Z 1 1991 2 Tl1212 3.805 12.035 K 79 90 84.5 "FORMATION AND SUPERCONDUCTIVITY OF 1212-TYPE PHASE TLSR2(SR0.5R0.5)SU2O7-Z WITH R=SC,Y AND LANTHANIDES" 1991 "DEPARTMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,177(1991)183" "TL,SR,SC,Y,CU,O,R" 2940 PHC1770183 "TlSr2(Sr,Yb)Cu2O7" Tl1Sr2Sr0.5Yb0.5Cu2O7-Z Tl 1 Sr 2 Sr 0.5 Yb 0.5 Cu 2 O 7-Z 1 1991 2 Tl1212 3.796 12.034 K 73 90 81.5 "FORMATION AND SUPERCONDUCTIVITY OF 1212-TYPE PHASE TLSR2(SR0.5R0.5)SU2O7-Z WITH R=SC,Y AND LANTHANIDES" 1991 "DEPARTMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,177(1991)183" "TL,SR,SC,Y,CU,O,R" 2941 PHC1770183 "TlSr2(Sr,Lu)Cu2O7" Tl2Sr2Sr0.5Lu0.5Cu2O7-Z Tl 2 Sr 2 Sr 0.5 Lu 0.5 Cu 2 O 7-Z 1 1991 2 Tl1212 3.8 12.037 K 73 90 81.5 "FORMATION AND SUPERCONDUCTIVITY OF 1212-TYPE PHASE TLSR2(SR0.5R0.5)SU2O7-Z WITH R=SC,Y AND LANTHANIDES" 1991 "DEPARTMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,177(1991)183" "TL,SR,SC,Y,CU,O,R" 2942 PHC1760445 "(Bi,Pb)2(Sr,Nd)2(Ca,Nd)Cu2O8" Bi1.6Pb0.4Sr1.8Ca1Nd0.2Cu2O8.11 Bi 1.6 Pb 0.4 Sr 1.8 Ca 1 Nd 0.2 Cu 2 O 8.11 2 1991 3 Bi2212 5.39 5.413 30.73 K 84 87 87 SUPERCONDUCTING PROPERTIES OF CERAMICS IN THE 2212 SYSTEM BI2-WPBWSR2-XCA1-YNDX+YCU2O8+Z 1991 "INSTITUT FUR ANORGANISCH CHEMIE DER UNIVERSITAT TUBINFEN,AUF DER MORGENSTELLE 18,W-7400 TUBINGEN,GERMANY" "PHYSICA C,176(1991)445" "BI,PB,SR,CA,ND,CU,O" 2943 PHC1760445 "(Bi,Pb)2(Sr,Nd)2(Ca,Nd)Cu2O8" Bi1.6Pb0.4Sr2Ca0.8Nd0.2Cu2O8.16 Bi 1.6 Pb 0.4 Sr 2 Ca 0.8 Nd 0.2 Cu 2 O 8.16 2 1991 3 Bi2212 5.401 5.409 30.74 K 85 87 87 SUPERCONDUCTING PROPERTIES OF CERAMICS IN THE 2212 SYSTEM BI2-WPBWSR2-XCA1-YNDX+YCU2O8+Z 1991 "INSTITUT FUR ANORGANISCH CHEMIE DER UNIVERSITAT TUBINFEN,AUF DER MORGENSTELLE 18,W-7400 TUBINGEN,GERMANY" "PHYSICA C,176(1991)445" "BI,PB,SR,CA,ND,CU,O" 2944 PHC1760445 "(Bi,Pb)2(Sr,Nd)2(Ca,Nd)Cu2O8" Bi1.4Pb0.6Sr1.8Ca1Nd0.2Cu2O8+Z Bi 1.4 Pb 0.6 Sr 1.8 Ca 1 Nd 0.2 Cu 2 O 8+Z 2 1991 3 Bi2212 5.377 5.424 30.71 K 77 84 84 SUPERCONDUCTING PROPERTIES OF CERAMICS IN THE 2212 SYSTEM BI2-WPBWSR2-XCA1-YNDX+YCU2O8+Z 1991 "INSTITUT FUR ANORGANISCH CHEMIE DER UNIVERSITAT TUBINFEN,AUF DER MORGENSTELLE 18,W-7400 TUBINGEN,GERMANY" "PHYSICA C,176(1991)445" "BI,PB,SR,CA,ND,CU,O" 2945 PHC1760445 "(Bi,Pb)2(Sr,Nd)2(Ca,Nd)Cu2O8" Bi1.4Pb0.6Sr2Ca0.8Nd0.2Cu2O8+Z Bi 1.4 Pb 0.6 Sr 2 Ca 0.8 Nd 0.2 Cu 2 O 8+Z 2 1991 3 Bi2212 5.384 5.421 30.74 K 84 87 87 SUPERCONDUCTING PROPERTIES OF CERAMICS IN THE 2212 SYSTEM BI2-WPBWSR2-XCA1-YNDX+YCU2O8+Z 1991 "INSTITUT FUR ANORGANISCH CHEMIE DER UNIVERSITAT TUBINFEN,AUF DER MORGENSTELLE 18,W-7400 TUBINGEN,GERMANY" "PHYSICA C,176(1991)445" "BI,PB,SR,CA,ND,CU,O" 2946 PHC1760445 "(Bi,Pb)2(Sr,Nd)2(Ca,Nd)Cu2O8" Bi1.4Pb0.6Sr1.6Ca1Nd0.4Cu2O8+Z Bi 1.4 Pb 0.6 Sr 1.6 Ca 1 Nd 0.4 Cu 2 O 8+Z 2 1991 3 Bi2212 5.383 5.424 30.6 K 52 62 62 SUPERCONDUCTING PROPERTIES OF CERAMICS IN THE 2212 SYSTEM BI2-WPBWSR2-XCA1-YNDX+YCU2O8+Z 1991 "INSTITUT FUR ANORGANISCH CHEMIE DER UNIVERSITAT TUBINFEN,AUF DER MORGENSTELLE 18,W-7400 TUBINGEN,GERMANY" "PHYSICA C,176(1991)445" "BI,PB,SR,CA,ND,CU,O" 2947 PHC1760445 "(Bi,Pb)2(Sr,Nd)2(Ca,Nd)Cu2O8" Bi2.4Pb0.6Sr2Ca0.6Nd0.4Cu2O8+Z Bi 2.4 Pb 0.6 Sr 2 Ca 0.6 Nd 0.4 Cu 2 O 8+Z 2 1991 3 Bi2212 5.398 5.434 30.69 K 65 77 77 SUPERCONDUCTING PROPERTIES OF CERAMICS IN THE 2212 SYSTEM BI2-WPBWSR2-XCA1-YNDX+YCU2O8+Z 1991 "INSTITUT FUR ANORGANISCH CHEMIE DER UNIVERSITAT TUBINFEN,AUF DER MORGENSTELLE 18,W-7400 TUBINGEN,GERMANY" "PHYSICA C,176(1991)445" "BI,PB,SR,CA,ND,CU,O" 2948 NAT3510549 SrCuO2 Sr1Cu1O2 Sr 1 Cu 1 O 2 1 1991 2 3.925 3.43 K 2 ELECTRON-DOPED SUPERCONDUCTIVITY AT 40 K IN THE INFINITE-LAYERCOMPOUND SR1-YNDYCUO2 1991 6 "CENTER FOR MATERIALS SCIENCE AND ENGINEERING,ETC#5160,UNIVERSITY OF TEXAS AT AUSTIN,AUSTIN,TEXAS 78712-1084,USA" "NATURE,351(1991)549" "SR,ND,PR,CU,O" 2949 NAT3510549 "INFINITE LAYER COMPOUND,SR1-XLNXCUO2=NEARLY SINGLE PHASE FOR 0<=X<=0.16 FOR LN=PR,ND" "(Sr,Nd)CuO2" Sr0.95Nd0.05Cu1O2 Sr 0.95 Nd 0.05 Cu 1 O 2 1 1991 2 IL 3.932 3.408 K 38 38 ELECTRON-DOPED SUPERCONDUCTIVITY AT 40 K IN THE INFINITE-LAYERCOMPOUND SR1-YNDYCUO2 1991 6 "CENTER FOR MATERIALS SCIENCE AND ENGINEERING,ETC#5160,UNIVERSITY OF TEXAS AT AUSTIN,AUSTIN,TEXAS 78712-1084,USA" "NATURE,351(1991)549" "SR,ND,PR,CU,O" 2950 NAT3510549 "(Sr,Nd)CuO2" Sr0.86Nd0.14Cu1O2 Sr 0.86 Nd 0.14 Cu 1 O 2 1 1991 2 IL 3.942 3.384 K 25 35 40 35 ELECTRON-DOPED SUPERCONDUCTIVITY AT 40 K IN THE INFINITE-LAYERCOMPOUND SR1-YNDYCUO2 1991 6 "CENTER FOR MATERIALS SCIENCE AND ENGINEERING,ETC#5160,UNIVERSITY OF TEXAS AT AUSTIN,AUSTIN,TEXAS 78712-1084,USA" "NATURE,351(1991)549" "SR,ND,PR,CU,O" 2951 NAT3510549 "(Sr,Nd)CuO2" Sr0.84Nd0.16Cu1O2 Sr 0.84 Nd 0.16 Cu 1 O 2 1 1991 2 IL 3.944 3.386 K 40 40 ELECTRON-DOPED SUPERCONDUCTIVITY AT 40 K IN THE INFINITE-LAYERCOMPOUND SR1-YNDYCUO2 1991 6 "CENTER FOR MATERIALS SCIENCE AND ENGINEERING,ETC#5160,UNIVERSITY OF TEXAS AT AUSTIN,AUSTIN,TEXAS 78712-1084,USA" "NATURE,351(1991)549" "SR,ND,PR,CU,O" 2952 NAT3510549 "(Sr,Pr)CuO2" Sr0.85Pr0.15Cu1O2 Sr 0.85 Pr 0.15 Cu 1 O 2 1 1991 2 3.942 3.393 K 39 39 ELECTRON-DOPED SUPERCONDUCTIVITY AT 40 K IN THE INFINITE-LAYERCOMPOUND SR1-YNDYCUO2 1991 6 "CENTER FOR MATERIALS SCIENCE AND ENGINEERING,ETC#5160,UNIVERSITY OF TEXAS AT AUSTIN,AUSTIN,TEXAS 78712-1084,USA" "NATURE,351(1991)549" "SR,ND,PR,CU,O" 2953 PR0444539 "Y- and Ca-content not described. Then, Y- and Ca-content are tentative values. anisotropy factor = 2.5" "Pb2Sr2(Y,Ca)Cu3O8" Pb2Sr2Y0.5Ca0.5Cu3O8+Z Pb 2 Sr 2 Y 0.5 Ca 0.5 Cu 3 O 8+Z 3 1991 3 Pb3212 5.383 5.423 15.765 K 75 75 Oe deviation from linear in M-H curve. 95 505 A magnetization 2575 6425 "single crystals were grown using a PbO-NaCl flux method. ANN(600C,40h in N2)" "TEMPERATURE DEPENDENCE OF THE ANISOTROPIC MAGNETIC PENETRATIONDEPTH AND LOWER CRITICAL FIELD OF SINGLE-CRYSTAL PB2SR2(Y,CA)CU3O8-Z" 1991 9 "DEPARTMENT OF PHYSICS,MCMASTER UNIVERSITY,HAMILTON,ONTARIO,CANADA L8S4M1" "PHYS.REV.B,44(1991)4539" "PB,SR,Y,CA,CU,O" 2954 PR0445046 TETRA-ORTHO PHASE TRANSITION >300K La2NiO4 La2Ni1O4 La 2 Ni 1 O 4+Z 4 3 1991 300 3 5.473 5.532 12.541 K Magnetic correlations and their dependence on excess oxygen in La2NiO4+delta 1991 9 "Corporate R&D, NKT, DK-2605 Brondby, Denmark" "Phys.Rev.B,44(1991)5046" 2955 PR0445046 TETRA-ORTHO PHASE TRANSITION 232-240K La2NiO4 La2Ni1O4.067 La 2 Ni 1 O 4+Z 4.067 3 1991 68 2 3.869 12.625 K Magnetic correlations and their dependence on excess oxygen in La2NiO4+delta 1991 9 "Corporate R&D, NKT, DK-2605 Brondby, Denmark" "Phys.Rev.B,44(1991)5046" 2956 PR0445046 La2NiO4 La2Ni1O4.077 La 2 Ni 1 O 4+Z 4.077 3 1991 49 2 3.869 12.635 K Magnetic correlations and their dependence on excess oxygen in La2NiO4+delta 1991 9 "Corporate R&D, NKT, DK-2605 Brondby, Denmark" "Phys.Rev.B,44(1991)5046" 2957 PR0445046 TETRA-ORTHO PHASE TRANSITION 220-250K La2NiO4 La2Ni1O4 La 2 Ni 1 O 4+Z 4 1 1991 0.85 74 2 3.871 12.63 K Magnetic correlations and their dependence on excess oxygen in La2NiO4+delta 1991 9 "Corporate R&D, NKT, DK-2605 Brondby, Denmark" "Phys.Rev.B,44(1991)5046" 2958 PR0445046 La2CuO4 La2Cu1O4 La 2 Cu 1 O 4+Z 4 1 1991 265 3 5.375 5.399 13.156 K Magnetic correlations and their dependence on excess oxygen in La2NiO4+delta 1991 9 "Corporate R&D, NKT, DK-2605 Brondby, Denmark" "Phys.Rev.B,44(1991)5046" 2959 PR0445318 DELTA-TC=0.9 "(Y,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O7-Z Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1991 Y123 K 71 71 0.1 0.9 OBSERVATION OF AN OXYGEN ISOTOPE EFFECT IN SUPERCONDUCTING (Y1-XPRX)BA2CU3O7-Z 1991 9 "DEPARTMENTOF PHYSICS,UNIVERSITY OF AOBERTA,CANADA T6G2J1" "PHYS.REV.B,44(1991)5318" "Y,PR,BA,CU,O" 2960 PR0445318 "DELTA-TC=0.76K,84%O(18)" "(Y,Pr,Ca)Ba2Cu3O7" Y0.75Pr0.2Ca0.05Ba2Cu3O7-Z Y 0.75 Pr 0.2 Ca 0.05 Ba 2 Cu 3 O 7-Z 1991 Y123 K 73.6 73.6 1 0.09 O 84 0.76 OBSERVATION OF AN OXYGEN ISOTOPE EFFECT IN SUPERCONDUCTING (Y1-XPRX)BA2CU3O7-Z 1991 9 "DEPARTMENTOF PHYSICS,UNIVERSITY OF AOBERTA,CANADA T6G2J1" "PHYS.REV.B,44(1991)5318" "Y,PR,BA,CU,O" 2961 PR0445318 "DELTA-TC=0.47K,78%O(18)" "(Y,Pr,Ca)Ba2Cu3O7" Y0.7Pr0.2Ca0.1Ba2Cu3O7-Z Y 0.7 Pr 0.2 Ca 0.1 Ba 2 Cu 3 O 7-Z 1991 Y123 K 77.8 77.8 1 0.05 O 78 0.47 OBSERVATION OF AN OXYGEN ISOTOPE EFFECT IN SUPERCONDUCTING (Y1-XPRX)BA2CU3O7-Z 1991 9 "DEPARTMENTOF PHYSICS,UNIVERSITY OF AOBERTA,CANADA T6G2J1" "PHYS.REV.B,44(1991)5318" "Y,PR,BA,CU,O" 2962 PR0445318 "DELTA-TC=0.42K,76%O(18)" "(Y,Pr,Ca)Ba2Cu3O7" Y0.6Pr0.2Ca0.2Ba2Cu3O7-Z Y 0.6 Pr 0.2 Ca 0.2 Ba 2 Cu 3 O 7-Z 1991 Y123 K 71.2 71.2 1 0.05 O 76 0.42 OBSERVATION OF AN OXYGEN ISOTOPE EFFECT IN SUPERCONDUCTING (Y1-XPRX)BA2CU3O7-Z 1991 9 "DEPARTMENTOF PHYSICS,UNIVERSITY OF AOBERTA,CANADA T6G2J1" "PHYS.REV.B,44(1991)5318" "Y,PR,BA,CU,O" 2963 PR0445318 "DELTA-TC=0.8K,84.6%O(18)" "(Y,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O7-Z Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1991 Y123 K 75.6 75.6 1 0.09 O 84.6 0.8 24 OBSERVATION OF AN OXYGEN ISOTOPE EFFECT IN SUPERCONDUCTING (Y1-XPRX)BA2CU3O7-Z 1991 9 "DEPARTMENTOF PHYSICS,UNIVERSITY OF AOBERTA,CANADA T6G2J1" "PHYS.REV.B,44(1991)5318" "Y,PR,BA,CU,O" 2964 PR0445318 "DELTA=TC=1.07K,79%O(18)" "(Y,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3O7-Z Y 0.7 Pr 0.3 Ba 2 Cu 3 O 7-Z 1991 Y123 K 60.4 60.4 1 0.15 O 79 1.07 21 OBSERVATION OF AN OXYGEN ISOTOPE EFFECT IN SUPERCONDUCTING (Y1-XPRX)BA2CU3O7-Z 1991 9 "DEPARTMENTOF PHYSICS,UNIVERSITY OF AOBERTA,CANADA T6G2J1" "PHYS.REV.B,44(1991)5318" "Y,PR,BA,CU,O" 2965 PR0445318 "DELTA-TC=1.50K,85.5%O(18)" "(Y,Pr)Ba2Cu3O7" Y0.6Pr0.4Ba2Cu3O7-Z Y 0.6 Pr 0.4 Ba 2 Cu 3 O 7-Z 1991 Y123 K 46.2 46.2 1 0.27 O 85.5 1.5 14 OBSERVATION OF AN OXYGEN ISOTOPE EFFECT IN SUPERCONDUCTING (Y1-XPRX)BA2CU3O7-Z 1991 9 "DEPARTMENTOF PHYSICS,UNIVERSITY OF AOBERTA,CANADA T6G2J1" "PHYS.REV.B,44(1991)5318" "Y,PR,BA,CU,O" 2966 PR0445318 "DELTA-TC=1.65K,85.9%O(18)" "(Y,Pr)Ba2Cu3O7" Y0.5Pr0.5Ba2Cu3O7-Z Y 0.5 Pr 0.5 Ba 2 Cu 3 O 7-Z 1991 Y123 K 30.6 30.6 1 0.45 O 85.9 1.65 7 OBSERVATION OF AN OXYGEN ISOTOPE EFFECT IN SUPERCONDUCTING (Y1-XPRX)BA2CU3O7-Z 1991 9 "DEPARTMENTOF PHYSICS,UNIVERSITY OF AOBERTA,CANADA T6G2J1" "PHYS.REV.B,44(1991)5318" "Y,PR,BA,CU,O" 2967 PR0445318 "DELTA-TC=1.16K,72.1%O(18)" "(Y,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3O7-Z Y 0.7 Pr 0.3 Ba 2 Cu 3 O 7-Z 1991 Y123 K 60 60 1 0.17 O 72.1 1.16 OBSERVATION OF AN OXYGEN ISOTOPE EFFECT IN SUPERCONDUCTING (Y1-XPRX)BA2CU3O7-Z 1991 9 "DEPARTMENTOF PHYSICS,UNIVERSITY OF AOBERTA,CANADA T6G2J1" "PHYS.REV.B,44(1991)5318" "Y,PR,BA,CU,O" 2968 PR0445326 "COMPARED WITH 97%LI(6),99%LI(7)" LiTiO4 Li1Ti1O4 Li 1 Ti 1 O 4 1991 LTO K 12.15 12.15 2 0.013 Li 99 LI-LI ISOTOPE EFFECT IN SUPERCONDUCTING LITI2O4 1991 9 ISOTOPE EFFECT "DEPARTMENT OF PHYSICS AND ASTRONOMY,LOUISIANA STATE UNIVERSITY,BATON ROUGE,LOUISIANA 70803-4001" "PHYS.REV.B,44(1991)5326" "LI,TI,O" 2969 PR0444553 Pb1Sr0.8Ba1.2Y0.7Ca0.3Cu3O8.41 Pb 1 Sr 0.8 Ba 1.2 Y 0.7 Ca 0.3 Cu 3 O 7+Z 8.41 1991 Pb1213 3.845 27.92 K 42 42 77-K SUPERCONDUCTOR PB0.8SRBA1.2Y0.7CA0.3CU3O7+Z:COMPARISON WITH OTHER PB-BASED SUPERCONDUCTORS 1991 9 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVENUE,BERKELEY,CALIFORNIA 94704" "PHYS.REV.B,44(1991)4553" "PB,SR,BA,Y,CA,CU,O" 2970 PR0444553 Pb1Sr0.8Ba1.2Y0.7Ca0.3Cu3O7+Z Pb 1 Sr 0.8 Ba 1.2 Y 0.7 Ca 0.3 Cu 3 O 7+Z 1991 Pb3212 K 78 78 77-K SUPERCONDUCTOR PB0.8SRBA1.2Y0.7CA0.3CU3O7+Z:COMPARISON WITH OTHER PB-BASED SUPERCONDUCTORS 1991 9 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVENUE,BERKELEY,CALIFORNIA 94704" "PHYS.REV.B,44(1991)4553" "PB,SR,BA,Y,CA,CU,O" 2971 PR0444553 Pb1Sr0.8Ba1.2Y0.7Ca0.3Cu3O9.63 Pb 1 Sr 0.8 Ba 1.2 Y 0.7 Ca 0.3 Cu 3 O 7+Z 9.63 1991 Pb3212 K 6 77-K SUPERCONDUCTOR PB0.8SRBA1.2Y0.7CA0.3CU3O7+Z:COMPARISON WITH OTHER PB-BASED SUPERCONDUCTORS 1991 9 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVENUE,BERKELEY,CALIFORNIA 94704" "PHYS.REV.B,44(1991)4553" "PB,SR,BA,Y,CA,CU,O" 2972 PR0444553 Pb0.5Sr2Y0.6Ca0.4Cu2.5O6.97 Pb 0.5 Sr 2 Y 0.6 Ca 0.4 Cu 2.5 O 7-Z 6.97 1991 K 67 67 77-K SUPERCONDUCTOR PB0.8SRBA1.2Y0.7CA0.3CU3O7+Z:COMPARISON WITH OTHER PB-BASED SUPERCONDUCTORS 1991 9 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVENUE,BERKELEY,CALIFORNIA 94704" "PHYS.REV.B,44(1991)4553" "PB,SR,BA,Y,CA,CU,O" 2973 PR0444553 Pb0.5Sr2Y0.6Ca0.4Cu2.5O6.99 Pb 0.5 Sr 2 Y 0.6 Ca 0.4 Cu 2.5 O 7-Z 6.99 1991 K 6 77-K SUPERCONDUCTOR PB0.8SRBA1.2Y0.7CA0.3CU3O7+Z:COMPARISON WITH OTHER PB-BASED SUPERCONDUCTORS 1991 9 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVENUE,BERKELEY,CALIFORNIA 94704" "PHYS.REV.B,44(1991)4553" "PB,SR,BA,Y,CA,CU,O" 2974 PR0444553 Pb0.8Sr1Ba1.2Y0.7Ca0.3Cu3O7.59 Pb 0.8 Sr 1 Ba 1.2 Y 0.7 Ca 0.3 Cu 3 O 7+Z 7.59 1991 2 Pb1213 4.839 27.72 K 40 40 77-K SUPERCONDUCTOR PB0.8SRBA1.2Y0.7CA0.3CU3O7+Z:COMPARISON WITH OTHER PB-BASED SUPERCONDUCTORS 1991 9 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVENUE,BERKELEY,CALIFORNIA 94704" "PHYS.REV.B,44(1991)4553" "PB,SR,BA,Y,CA,CU,O" 2975 PR0444553 Pb0.8Sr1Ba1.2Y0.7Ca0.3Cu3O8.28 Pb 0.8 Sr 1 Ba 1.2 Y 0.7 Ca 0.3 Cu 3 O 7+Z 8.28 1991 2 Pb1213 3.844 27.96 K 74 74 77-K SUPERCONDUCTOR PB0.8SRBA1.2Y0.7CA0.3CU3O7+Z:COMPARISON WITH OTHER PB-BASED SUPERCONDUCTORS 1991 9 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVENUE,BERKELEY,CALIFORNIA 94704" "PHYS.REV.B,44(1991)4553" "PB,SR,BA,Y,CA,CU,O" 2976 PR0444553 Pb0.8Sr1Ba1.2Y0.7Ca0.3Cu3O8.35 Pb 0.8 Sr 1 Ba 1.2 Y 0.7 Ca 0.3 Cu 3 O 7+Z 8.35 1991 2 Pb1213 3.845 27.96 K 77 77 77-K SUPERCONDUCTOR PB0.8SRBA1.2Y0.7CA0.3CU3O7+Z:COMPARISON WITH OTHER PB-BASED SUPERCONDUCTORS 1991 9 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVENUE,BERKELEY,CALIFORNIA 94704" "PHYS.REV.B,44(1991)4553" "PB,SR,BA,Y,CA,CU,O" 2977 PR0444553 Pb0.8Sr0.8Ba1.2Y0.7Ca0.3Cu3.2O8.3 Pb 0.8 Sr 0.8 Ba 1.2 Y 0.7 Ca 0.3 Cu 3.2 O 7+Z 8.3 1991 2 Pb1213 3.845 27.9 K 75 75 77-K SUPERCONDUCTOR PB0.8SRBA1.2Y0.7CA0.3CU3O7+Z:COMPARISON WITH OTHER PB-BASED SUPERCONDUCTORS 1991 9 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVENUE,BERKELEY,CALIFORNIA 94704" "PHYS.REV.B,44(1991)4553" "PB,SR,BA,Y,CA,CU,O" 2978 JPS0583890 NEELT INCREASES AS +18.5K/GPA BY NED La2CuO4 La2Cu1O4-Z La 2 Cu 1 O 4-Z 3 1989 222 3 T 5.353 5.402 13.136 K PRESSURE EFFECT ON THE ANTIFERROMAGNETISM IN LA2CUO4-Y 1989 11 "DEPARTMENT OF PHYSICS,JAPAN ATOMIC ENERGY RESEARCH INSTITUTE,TOKAI,IBARAKI 319-11" J.PHYS.SOC.JAPAN.58(1989)3890 "LA,CU,O" 2979 PR0362305 "TWO STEP TRANSITION 95.5,93K,RES/T=1.94MICRO-OHM/K" YBa2Cu3O7 Y1Ba2Cu3O9-Z Y 1 Ba 2 Cu 3 O 9-Z 1 1987 3 Y123 3.819 3.882 11.665 K 91 93 96 3 93 50 1.17 TP2979 0.22 0.52 SUPERCONDUCTIVITY IN SINGLE-PHASE Y1BA2CU3O9-X AND THERMOELECTRIC POWER MEASUREMENT 1987 8 "DEPARTMENT OF PHYSICS,SEOUL NATIONAL UNIVERSITY,SEOUL 151,KOREA" "PHPYS.REV.B,36(1991)2305" "Y,BA,CU,O" 2980 PHC1790376 TP MEASURED IN AIR "(La,Sr)2CuO4" La1.99Sr0.01Cu1O4-Z La 1.99 Sr 0.01 Cu 1 O 4-Z 1991 T K 392 TP2980 THERMOELECTRIC POWER OF THE HIGH-TC OXIDE SUPERCONDUCTORS AT ELEVATED TEMPERATURES 1991 "LABORATORY FOR SOLID STATE CHEMISTRY,OKAYAMA UNIVERSITY OF SCIENCE,RIDAI-CHO 1-1,OKAYAMA 700,JAPAN" "PHYSICA C,179(1991)376" "ND,CE,LA,SR,CU,O,NI,CA" 2981 PHC1790376 "(La,Sr)2CuO4" La1.97Sr0.03Cu1O4-Z La 1.97 Sr 0.03 Cu 1 O 4-Z 1991 T K 267 TP2981 THERMOELECTRIC POWER OF THE HIGH-TC OXIDE SUPERCONDUCTORS AT ELEVATED TEMPERATURES 1991 "LABORATORY FOR SOLID STATE CHEMISTRY,OKAYAMA UNIVERSITY OF SCIENCE,RIDAI-CHO 1-1,OKAYAMA 700,JAPAN" "PHYSICA C,179(1991)376" "ND,CE,LA,SR,CU,O,NI,CA" 2982 PHC1790376 "(La,Sr)2CuO4" La1.96Sr0.04Cu1O4-Z La 1.96 Sr 0.04 Cu 1 O 4-Z 1991 T K 151 TP2982 THERMOELECTRIC POWER OF THE HIGH-TC OXIDE SUPERCONDUCTORS AT ELEVATED TEMPERATURES 1991 "LABORATORY FOR SOLID STATE CHEMISTRY,OKAYAMA UNIVERSITY OF SCIENCE,RIDAI-CHO 1-1,OKAYAMA 700,JAPAN" "PHYSICA C,179(1991)376" "ND,CE,LA,SR,CU,O,NI,CA" 2983 PHC1790376 "(La,Sr)2CuO4" La1.86Sr0.14Cu1O4-Z La 1.86 Sr 0.14 Cu 1 O 4-Z 1991 T K 22.8 TP2983 THERMOELECTRIC POWER OF THE HIGH-TC OXIDE SUPERCONDUCTORS AT ELEVATED TEMPERATURES 1991 "LABORATORY FOR SOLID STATE CHEMISTRY,OKAYAMA UNIVERSITY OF SCIENCE,RIDAI-CHO 1-1,OKAYAMA 700,JAPAN" "PHYSICA C,179(1991)376" "ND,CE,LA,SR,CU,O,NI,CA" 2984 PHC1790376 "(La,Sr)2CuO4" La1.84Sr0.16Cu1O4-Z La 1.84 Sr 0.16 Cu 1 O 4-Z 1991 T K 6.14 TP2984 THERMOELECTRIC POWER OF THE HIGH-TC OXIDE SUPERCONDUCTORS AT ELEVATED TEMPERATURES 1991 "LABORATORY FOR SOLID STATE CHEMISTRY,OKAYAMA UNIVERSITY OF SCIENCE,RIDAI-CHO 1-1,OKAYAMA 700,JAPAN" "PHYSICA C,179(1991)376" "ND,CE,LA,SR,CU,O,NI,CA" 2985 PHC1790376 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4-Z La 1.8 Sr 0.2 Cu 1 O 4-Z 1991 T K -10.3 TP2985 THERMOELECTRIC POWER OF THE HIGH-TC OXIDE SUPERCONDUCTORS AT ELEVATED TEMPERATURES 1991 "LABORATORY FOR SOLID STATE CHEMISTRY,OKAYAMA UNIVERSITY OF SCIENCE,RIDAI-CHO 1-1,OKAYAMA 700,JAPAN" "PHYSICA C,179(1991)376" "ND,CE,LA,SR,CU,O,NI,CA" 2986 PHC1790376 "(La,Sr)2CuO4" La1.6Sr0.4Cu1O4-Z La 1.6 Sr 0.4 Cu 1 O 4-Z 1991 T K -3.86 TP2986 THERMOELECTRIC POWER OF THE HIGH-TC OXIDE SUPERCONDUCTORS AT ELEVATED TEMPERATURES 1991 "LABORATORY FOR SOLID STATE CHEMISTRY,OKAYAMA UNIVERSITY OF SCIENCE,RIDAI-CHO 1-1,OKAYAMA 700,JAPAN" "PHYSICA C,179(1991)376" "ND,CE,LA,SR,CU,O,NI,CA" 2987 PHC1790376 "(Nd,Ce)2CuO4" Nd1.95Ce0.05Cu1O4-Z Nd 1.95 Ce 0.05 Cu 1 O 4-Z 1991 T' K -14.2 TP2987 THERMOELECTRIC POWER OF THE HIGH-TC OXIDE SUPERCONDUCTORS AT ELEVATED TEMPERATURES 1991 "LABORATORY FOR SOLID STATE CHEMISTRY,OKAYAMA UNIVERSITY OF SCIENCE,RIDAI-CHO 1-1,OKAYAMA 700,JAPAN" "PHYSICA C,179(1991)376" "ND,CE,LA,SR,CU,O,NI,CA" 2988 PHC1790376 "(Nd,Ce)2CuO4" Nd1.9Ce0.1Cu1O4-Z Nd 1.9 Ce 0.1 Cu 1 O 4-Z 1991 T' K TP2988 THERMOELECTRIC POWER OF THE HIGH-TC OXIDE SUPERCONDUCTORS AT ELEVATED TEMPERATURES 1991 "LABORATORY FOR SOLID STATE CHEMISTRY,OKAYAMA UNIVERSITY OF SCIENCE,RIDAI-CHO 1-1,OKAYAMA 700,JAPAN" "PHYSICA C,179(1991)376" "ND,CE,LA,SR,CU,O,NI,CA" 2989 PHC1790376 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-Z Nd 1.85 Ce 0.15 Cu 1 O 4-Z 1991 T' K TP2989 THERMOELECTRIC POWER OF THE HIGH-TC OXIDE SUPERCONDUCTORS AT ELEVATED TEMPERATURES 1991 "LABORATORY FOR SOLID STATE CHEMISTRY,OKAYAMA UNIVERSITY OF SCIENCE,RIDAI-CHO 1-1,OKAYAMA 700,JAPAN" "PHYSICA C,179(1991)376" "ND,CE,LA,SR,CU,O,NI,CA" 2990 PHC1790376 "(Nd,Ce)2CuO4" Nd1.8Ce0.2Cu1O4-Z Nd 1.8 Ce 0.2 Cu 1 O 4-Z 1991 T' K THERMOELECTRIC POWER OF THE HIGH-TC OXIDE SUPERCONDUCTORS AT ELEVATED TEMPERATURES 1991 "LABORATORY FOR SOLID STATE CHEMISTRY,OKAYAMA UNIVERSITY OF SCIENCE,RIDAI-CHO 1-1,OKAYAMA 700,JAPAN" "PHYSICA C,179(1991)376" "ND,CE,LA,SR,CU,O,NI,CA" 2991 PHC1790376 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1991 Y123 K -12.9 TP2991 THERMOELECTRIC POWER OF THE HIGH-TC OXIDE SUPERCONDUCTORS AT ELEVATED TEMPERATURES 1991 "LABORATORY FOR SOLID STATE CHEMISTRY,OKAYAMA UNIVERSITY OF SCIENCE,RIDAI-CHO 1-1,OKAYAMA 700,JAPAN" "PHYSICA C,179(1991)376" "ND,CE,LA,SR,CU,O,NI,CA" 2992 PHC1790376 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 1991 Bi2212 K -21.1 TP2992 THERMOELECTRIC POWER OF THE HIGH-TC OXIDE SUPERCONDUCTORS AT ELEVATED TEMPERATURES 1991 "LABORATORY FOR SOLID STATE CHEMISTRY,OKAYAMA UNIVERSITY OF SCIENCE,RIDAI-CHO 1-1,OKAYAMA 700,JAPAN" "PHYSICA C,179(1991)376" "ND,CE,LA,SR,CU,O,NI,CA" 2993 SSC0780511 "(La,Ba)2(Cu,Ga)O4" La1.94Ba0.06Cu0.99Ga0.01O4 La 1.94 Ba 0.06 Cu 0.99 Ga 0.01 O 4 1 1991 T K 4.2 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 2994 SSC0780511 "(La,Ba)2(Cu,Ga)O4" La1.9Ba0.1Cu0.99Ga0.01O4 La 1.9 Ba 0.1 Cu 0.99 Ga 0.01 O 4 1 1991 T K 14.3 14.3 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 2995 SSC0780511 "(La,Ba)2(Cu,Ga)O4" La1.88Ba0.12Cu0.99Ga0.01O4 La 1.88 Ba 0.12 Cu 0.99 Ga 0.01 O 4 1 1991 T K 8.2 8.2 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 2996 SSC0780511 "(La,Ba)2(Cu,Ga)O4" La1.87Ba0.13Cu0.99Ga0.01O4 La 1.87 Ba 0.13 Cu 0.99 Ga 0.01 O 4 1 1991 T K 4.5 4.5 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 2997 SSC0780511 "(La,Ba)2(Cu,Ga)O4" La1.86Ba0.14Cu0.99Ga0.01O4 La 1.86 Ba 0.14 Cu 0.99 Ga 0.01 O 4 1 1991 T K 4.2 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 2998 SSC0780511 "(La,Ba)2(Cu,Ga)O4" La1.84Ba0.16Cu0.99Ga0.01O4 La 1.84 Ba 0.16 Cu 0.99 Ga 0.01 O 4 1 1991 T K 8.3 8.3 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 2999 SSC0780511 "(La,Ba)2(Cu,Ga)O4" La1.82Ba0.18Cu0.99Ga0.01O4 La 1.82 Ba 0.18 Cu 0.99 Ga 0.01 O 4 1 1991 T K 8.6 8.6 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3000 SSC0780511 "(La,Ba)2(Cu,Ga)O4" La1.7Ba0.3Cu0.99Ga0.01O4 La 1.7 Ba 0.3 Cu 0.99 Ga 0.01 O 4 1 1991 T K 4.2 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3001 SSC0780511 "(La,Ba)2(Cu,Zn)O4" La1.94Ba0.06Cu0.99Zn0.01O4 La 1.94 Ba 0.06 Cu 0.99 Zn 0.01 O 4 1 1991 T K 4.2 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3002 SSC0780511 "(La,Ba)2(Cu,Zn)O4" La1.9Ba0.1Cu0.99Zn0.01O4 La 1.9 Ba 0.1 Cu 0.99 Zn 0.01 O 4 1 1991 T K 9.8 9.8 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3003 SSC0780511 "(La,Ba)2(Cu,Zn)O4" La1.88Ba0.12Cu0.99Zn0.01O4 La 1.88 Ba 0.12 Cu 0.99 Zn 0.01 O 4 1 1991 T K 4.2 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3004 SSC0780511 "(La,Ba)2(Cu,Zn)O4" La1.86Ba0.14Cu0.99Zn0.01O4 La 1.86 Ba 0.14 Cu 0.99 Zn 0.01 O 4 1 1991 T K 4.2 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3005 SSC0780511 "(La,Ba)2(Cu,Zn)O4" La1.84Ba0.16Cu0.99Zn0.01O4 La 1.84 Ba 0.16 Cu 0.99 Zn 0.01 O 4 1 1991 T K 12.4 12.4 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3006 SSC0780511 "(La,Ba)2(Cu,Zn)O4" La1.82Ba0.18Cu0.99Zn0.01O4 La 1.82 Ba 0.18 Cu 0.99 Zn 0.01 O 4 1 1991 T K 13.9 13.9 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3007 SSC0780511 "(La,Ba)2(Cu,Zn)O4" La1.7Ba0.3Cu0.99Zn0.01O4 La 1.7 Ba 0.3 Cu 0.99 Zn 0.01 O 4 1 1991 T K 5 5 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3008 SSC0780511 La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 1991 T K 4.2 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3009 SSC0780511 "(La,Ba)2CuO4" La1.95Ba0.05Cu1O4 La 1.95 Ba 0.05 Cu 1 O 4 1991 T K EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3010 SSC0780511 "(La,Ba)2CuO4" La1.94Ba0.06Cu1O4 La 1.94 Ba 0.06 Cu 1 O 4 1991 T K 10.2 10.2 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3011 PHC1800324 "La(Ba,Ca)2(Cu,Ni)3O7" Ca1Ba1La1Cu2.5Ni0.5O6.812 Ca 1 Ba 1 La 1 Cu 2.5 Ni 0.5 O 6.812 6.812 1 1991 Y123 3.877 11.634 K 4.2 EFFECT OF PARTIAL SUBSTITUTION OF NI AND ZN FOR CU IN CABALACU3O7-Z SUPERCONDUCTOR 1991 "CHEMISTRY DIVISION,BHABHA AROMIC RESEARCH CENTRE,BOMBAY-400085,INDIA" "PHYSICA C,180(1991)324" "ZN,NI,CA,BA,LA,CU,O" 3012 PHC1710419 "YBa2(Cu,Ga)3O7" Y1Ba2Cu2.7Ga0.3O6.93 Y 1 Ba 2 Cu 2.7 Ga 0.3 O Z 6.93 1 1990 2 Y123 K 75 75 ANTIFERROMAGNETISM IN YBA2CU3O6+X: GA AND ZN SUBSTITUTIONS I.89Y NMR DETERMINATION OF THE NEEL TEMPERATURE 1990 "NEEL TEMPERATURE ,NMR ,ANTIFERROMAGNETIC" "LABORATOIRE DE PHYSIQUE DES SOLIDES AND LABORATOIRE DES COMPOSES NON STOECHIOMETRIQUES, UNIVERSITE PARIS SUD, 91405 ORSAY, FRANCE" "PHYSICA C,171(1990)419" "Y,BA,CU,O,GA,ZN" 3013 PHC1710419 "YBa2(Cu,Ga)3O7" Y1Ba2Cu2.7Ga0.3O6.2 Y 1 Ba 2 Cu 2.7 Ga 0.3 O Z 6.2 1 1990 404 2 Y123 K ANTIFERROMAGNETISM IN YBA2CU3O6+X: GA AND ZN SUBSTITUTIONS I.89Y NMR DETERMINATION OF THE NEEL TEMPERATURE 1990 "NEEL TEMPERATURE ,NMR ,ANTIFERROMAGNETIC" "LABORATOIRE DE PHYSIQUE DES SOLIDES AND LABORATOIRE DES COMPOSES NON STOECHIOMETRIQUES, UNIVERSITE PARIS SUD, 91405 ORSAY, FRANCE" "PHYSICA C,171(1990)419" "Y,BA,CU,O,GA,ZN" 3014 PHC1710419 X=0.102 BY EDAX "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.88Zn0.12O6.92 Y 1 Ba 2 Cu 2.88 Zn 0.12 O Z 6.92 1 1990 3 Y123 K 53 53 ANTIFERROMAGNETISM IN YBA2CU3O6+X: GA AND ZN SUBSTITUTIONS I.89Y NMR DETERMINATION OF THE NEEL TEMPERATURE 1990 "NEEL TEMPERATURE ,NMR ,ANTIFERROMAGNETIC" "LABORATOIRE DE PHYSIQUE DES SOLIDES AND LABORATOIRE DES COMPOSES NON STOECHIOMETRIQUES, UNIVERSITE PARIS SUD, 91405 ORSAY, FRANCE" "PHYSICA C,171(1990)419" "Y,BA,CU,O,GA,ZN" 3015 PHC1710419 X=0.102 BY EDAX "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.88Zn0.12O6.01 Y 1 Ba 2 Cu 2.88 Zn 0.12 O Z 6.01 1 1990 401 Y123 K ANTIFERROMAGNETISM IN YBA2CU3O6+X: GA AND ZN SUBSTITUTIONS I.89Y NMR DETERMINATION OF THE NEEL TEMPERATURE 1990 "NEEL TEMPERATURE ,NMR ,ANTIFERROMAGNETIC" "LABORATOIRE DE PHYSIQUE DES SOLIDES AND LABORATOIRE DES COMPOSES NON STOECHIOMETRIQUES, UNIVERSITE PARIS SUD, 91405 ORSAY, FRANCE" "PHYSICA C,171(1990)419" "Y,BA,CU,O,GA,ZN" 3016 PHC1710419 X=0.201 BY EDAX "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.76Zn0.24O6.02 Y 1 Ba 2 Cu 2.76 Zn 0.24 O Z 6.02 1990 404 Y123 K ANTIFERROMAGNETISM IN YBA2CU3O6+X: GA AND ZN SUBSTITUTIONS I.89Y NMR DETERMINATION OF THE NEEL TEMPERATURE 1990 "NEEL TEMPERATURE ,NMR ,ANTIFERROMAGNETIC" "LABORATOIRE DE PHYSIQUE DES SOLIDES AND LABORATOIRE DES COMPOSES NON STOECHIOMETRIQUES, UNIVERSITE PARIS SUD, 91405 ORSAY, FRANCE" "PHYSICA C,171(1990)419" "Y,BA,CU,O,GA,ZN" 3017 PHC1720043 NEARLY SINGLE PHASE "(Tl,Pb)(Sr,Pr)3Cu2OZ" Tl0.8Pb0.2Sr2.5Pr0.5Cu2OZ Tl 0.8 Pb 0.2 Sr 2.5 Pr 0.5 Cu 2 O Z 1 1990 2 Tl1302 3.841 12.195 K 90 105 90 SUPERCONDUCTIVITY ABOVE 100 K IN THE CA-FREE TL-PB-SR-PR-CU-OSYSTEM 1990 "DEPARTMENT OF PHYSICS, UNIVERSITY OF ARKANSAS, FAYETTEVILLE, AR 72701 USA" "PHYSICA C,172(1990)43" "TL,PB,SR,PR,CU,O" 3018 PHC1760368 IMPURITIS PRESENT Tl2Ba2CuO6 Tl2Ba2Cu1O6-X Tl 2 Ba 2 Cu 1 O 6-X 1 1991 Tl2201 3.87 23.238 K 73 90 81.5 TP3018 THERMOPOWER OF TL2BA2CUO6-X BULK SUPERCONDUCTORS 1991 "HEBREW UNIVERSITY,JERUSALEM 91904,ISRAEL" "PHYSICA C,176(1991)368" "TL,BA,CU,O" 3019 RSI0621801 "BY MICROSTRIP RESONATOR TECHNIQUE,PENE(LONDON)=1400A" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 4 1991 Y123 K 90 90 15 1700 4.5 MAGNETIC PENETRATION DEPTH MEASUREMENTS OF SUPERCONDUCTING THIN FILMS BY A MICROSTRIP RESONATOR TECHNIQUE 1991 7 "REV.SCI.INSTRUM.,62(1991)1801" 3020 SSC0780511 "(La,Ba)2CuO4" La1.93Ba0.07Cu1O4 La 1.93 Ba 0.07 Cu 1 O 4 1991 T K 19 19 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3021 SSC0780511 "(La,Ba)2CuO4" La1.922Ba0.078Cu1O4 La 1.922 Ba 0.078 Cu 1 O 4 1991 T K 22.9 22.9 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3022 SSC0780511 "(La,Ba)2CuO4" La1.903Ba0.097Cu1O4 La 1.903 Ba 0.097 Cu 1 O 4 1991 T K 26 26 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3023 SSC0780511 "(La,Ba)2CuO4" La1.892Ba0.108Cu1O4 La 1.892 Ba 0.108 Cu 1 O 4 1991 T K 22.1 22.1 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3024 SSC0780511 "(La,Ba)2CuO4" La1.88Ba0.12Cu1O4 La 1.88 Ba 0.12 Cu 1 O 4 1991 T K 9.5 9.5 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3025 SSC0780511 "(La,Ba)2CuO4" La1.87Ba0.13Cu1O4 La 1.87 Ba 0.13 Cu 1 O 4 1991 T K 9.7 9.7 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3026 SSC0780511 "(La,Ba)2CuO4" La1.86Ba0.14Cu1O4 La 1.86 Ba 0.14 Cu 1 O 4 1991 T K 13.3 13.3 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3027 SSC0780511 "(La,Ba)2CuO4" La1.843Ba0.157Cu1O4 La 1.843 Ba 0.157 Cu 1 O 4 1991 T K 25.3 25.3 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3028 SSC0780511 "(La,Ba)2CuO4" La1.823Ba0.177Cu1O4 La 1.823 Ba 0.177 Cu 1 O 4 1991 T K 25.5 25.5 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3029 SSC0780511 "(La,Ba)2CuO4" La1.801Ba0.199Cu1O4 La 1.801 Ba 0.199 Cu 1 O 4 1991 T K 23.5 23.5 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3030 SSC0780511 "(LA,BA)2CUO4" La1.782Ba0.218Cu1O4 La 1.782 Ba 0.218 Cu 1 O 4 1991 T K 21.6 21.6 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3031 SSC0780511 "(La,Ba)2CuO4" La1.751Ba0.249Cu1O4 La 1.751 Ba 0.249 Cu 1 O 4 1991 T K 13.7 13.7 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3032 SSC0780511 "(La,Ba)2CuO4" La1.7Ba0.3Cu1O4 La 1.7 Ba 0.3 Cu 1 O 4 1991 T K 9.7 9.7 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3033 SSC0780511 "(La,Ba)2CuO4" La1.65Ba0.35Cu1O4 La 1.65 Ba 0.35 Cu 1 O 4 1991 T K 4.2 4.2 4.2 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3034 SSC0780511 "(La,Ba)2CuO4" La1.6Ba0.4Cu1O4 La 1.6 Ba 0.4 Cu 1 O 4 1991 T K 4.2 4.2 4.2 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3035 SSC0780511 "(La,Ba)2(Cu,Ni)O4" La1.94Ba0.06Cu0.99Ni0.01O4 La 1.94 Ba 0.06 Cu 0.99 Ni 0.01 O 4 1991 T K 4.2 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3036 SSC0780511 "(La,Ba)2(Cu,Ni)O4" La1.9Ba0.1Cu0.99Ni0.01O4 La 1.9 Ba 0.1 Cu 0.99 Ni 0.01 O 4 1991 T K 17 17 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3037 SSC0780511 "(La,Ba)2(Cu,Ni)O4" La1.882Ba0.118Cu0.99Ni0.01O4 La 1.882 Ba 0.118 Cu 0.99 Ni 0.01 O 4 1991 T K 12.7 12.7 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3038 SSC0780511 "(La,Ba)2(Cu,Ni)O4" La1.869Ba0.131Cu0.99Ni0.01O4 La 1.869 Ba 0.131 Cu 0.99 Ni 0.01 O 4 1991 T K 7 7 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3039 SSC0780511 "(La,Ba)2(Cu,Ni)O4" La1.86Ba0.14Cu0.99Ni0.01O4 La 1.86 Ba 0.14 Cu 0.99 Ni 0.01 O 4 1991 T K 11 11 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3040 SSC0780511 "(La,Ba)2(Cu,Ni)O4" La1.842Ba0.158Cu0.99Ni0.01O4 La 1.842 Ba 0.158 Cu 0.99 Ni 0.01 O 4 1991 T K 19 19 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3041 SSC0780511 "(La,Ba)2(Cu,Ni)O4" La1.822Ba0.178Cu0.99Ni0.01O4 La 1.822 Ba 0.178 Cu 0.99 Ni 0.01 O 4 1991 T K 18.2 18.2 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3042 SSC0780511 "(La,Ba)2(Cu,Ni)O4" La1.7Ba0.3Cu0.99Ni0.01O4 La 1.7 Ba 0.3 Cu 0.99 Ni 0.01 O 4 1991 T K 4.2 EFFECTS OF THE CU-SITE SUBSTITUTION ON THE ANOMALOUS X DEPENDENCE OF TC IN LA2-XBAXCUO4 1991 5 "DEPARTMENT OF APPLIED PHYSICS,FACULTY OF ENGINEERING,TOHOKU UNIVERSITY,ARAMAKI AOBA,AOBA-KU,SENDEI 980,JAPAN" "SOLID STATE COMMUN.,78(1991)511" "LA,BA,CU,O" 3043 PRB0365694 TC BY INDUCTIVE METHOD Ba2Cu3O7 Ba 2 Cu 3 O 7 1 1987 3 Y123 3.82 3.886 11.683 K 92 92 SUPERCONDUCTIVITY IN H(X) Y(1)BA(2)CU(3)O(7) 1987 10 "PREPARATION ,SOLID SOLUTION ,TC" "DEPARTMENT OF APPLIED SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK" "PHYS.REV.B,36(1987)5694" "H,Y,BA,CU,O" 3044 PRB0365694 Y1Ba2Cu3H0.13O7 Y 1 Ba 2 Cu 3 H 0.13 O 7 1 1987 3 Y123 3.821 3.887 11.688 K 93.5 93.5 SUPERCONDUCTIVITY IN H(X) Y(1)BA(2)CU(3)O(7) 1987 10 "PREPARATION ,SOLID SOLUTION ,TC" "DEPARTMENT OF APPLIED SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK" "PHYS.REV.B,36(1987)5694" "H,Y,BA,CU,O" 3045 PRB0365694 Y1Ba2Cu3H0.19O7 Y 1 Ba 2 Cu 3 H 0.19 O 7 1 1987 3 Y123 3.825 3.886 11.691 K 93.5 93.5 SUPERCONDUCTIVITY IN H(X) Y(1)BA(2)CU(3)O(7) 1987 10 "PREPARATION ,SOLID SOLUTION ,TC" "DEPARTMENT OF APPLIED SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK" "PHYS.REV.B,36(1987)5694" "H,Y,BA,CU,O" 3046 PRB0365694 Y1Ba2Cu3H0.38O7 Y 1 Ba 2 Cu 3 H 0.38 O 7 1 1987 3 Y123 3.825 3.886 11.69 K 93.8 93.8 SUPERCONDUCTIVITY IN H(X) Y(1)BA(2)CU(3)O(7) 1987 10 "PREPARATION ,SOLID SOLUTION ,TC" "DEPARTMENT OF APPLIED SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK" "PHYS.REV.B,36(1987)5694" "H,Y,BA,CU,O" 3047 PRB0365694 Y1Ba2Cu3H0.49O7 Y 1 Ba 2 Cu 3 H 0.49 O 7 1 1987 3 Y123 3.826 3.886 11.694 K 93.6 93.6 SUPERCONDUCTIVITY IN H(X) Y(1)BA(2)CU(3)O(7) 1987 10 "PREPARATION ,SOLID SOLUTION ,TC" "DEPARTMENT OF APPLIED SCIENCE,BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK" "PHYS.REV.B,36(1987)5694" "H,Y,BA,CU,O" 3048 JJP0280923 SMALL AMOUNT OF BA2CUO3 TlBa2CuO4 Tl1Ba2Cu1O5-Z Tl 1 Ba 2 Cu 1 O 5-Z 1989 Tl1201 3.859 9.229 K 15 15 THE OCCURRENCE OF SUPERCONDUCTIVITY IN THE TLBA(2)CUO(5-Z)-TYPE (1021) SYSTEM 1989 6 "METASTABLE ,METAL-INSULATOR TRANSITIO,RES" "DEPARTMENT OF PHYSICS,NATIONAL TSING HUA UNIVERSITY,HSINCHU,TAIWAN 30043,R.O.C." "JJAP LETT ,28(1989)L923" "TL,BA,CU,O" 3049 JJP0280923 "Tl(Ba,La)2CuO4" Tl1Ba1.8La0.2Cu1O5-Z Tl 1 Ba 1.8 La 0.2 Cu 1 O 5-Z 1989 Tl1201 K 42 57 42 THE OCCURRENCE OF SUPERCONDUCTIVITY IN THE TLBA(2)CUO(5-Z)-TYPE (1021) SYSTEM 1989 6 "METASTABLE ,METAL-INSULATOR TRANSITIO,RES" "DEPARTMENT OF PHYSICS,NATIONAL TSING HUA UNIVERSITY,HSINCHU,TAIWAN 30043,R.O.C." "JJAP LETT ,28(1989)L923" "TL,BA,CU,O" 3050 JJP0280923 "Tl(Ba,La)2CuO4" Tl1Ba1.6La0.4Cu1O5-Z Tl 1 Ba 1.6 La 0.4 Cu 1 O 5-Z 1989 Tl1201 K 40 40 THE OCCURRENCE OF SUPERCONDUCTIVITY IN THE TLBA(2)CUO(5-Z)-TYPE (1021) SYSTEM 1989 6 "METASTABLE ,METAL-INSULATOR TRANSITIO,RES" "DEPARTMENT OF PHYSICS,NATIONAL TSING HUA UNIVERSITY,HSINCHU,TAIWAN 30043,R.O.C." "JJAP LETT ,28(1989)L923" "TL,BA,CU,O" 3051 JJP0280923 "Tl(Ba,La)2CuO4" Tl1Ba1.4La0.6Cu1O5-Z Tl 1 Ba 1.4 La 0.6 Cu 1 O 5-Z 1989 Tl1201 K 42 45 45 THE OCCURRENCE OF SUPERCONDUCTIVITY IN THE TLBA(2)CUO(5-Z)-TYPE (1021) SYSTEM 1989 6 "METASTABLE ,METAL-INSULATOR TRANSITIO,RES" "DEPARTMENT OF PHYSICS,NATIONAL TSING HUA UNIVERSITY,HSINCHU,TAIWAN 30043,R.O.C." "JJAP LETT ,28(1989)L923" "TL,BA,CU,O" 3052 JJP0290586 "(Y,Ca)Sr2(Cu,Pb)3O7" Sr2Y0.7Ca0.3Cu2.35Pb0.65O6.89 Sr 2 Y 0.7 Ca 0.3 Cu 2.35 Pb 0.65 O Y 6.89 1 1990 2 3.815 11.85 K 17 17 PREPARATION OF A NEW SUPERCONDUCTOR SR2Y0.7CA0.3CU2.35PB0.65OY 1990 4 "SINGLE PHASE ,TC" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS, NAMIKI, TSUKUBA, IBARAKI 305" "JJAP,29(1990)L586" "SR,Y,CA,CU,PB,O" 3053 JJP0290586 "(Y,Ca)Sr2(Cu,Pb)3O7" Sr2Y0.7Ca0.3Cu2.35Pb0.65O7.11 Sr 2 Y 0.7 Ca 0.3 Cu 2.35 Pb 0.65 O Y 7.11 1 1990 2 3.818 11.86 K 4.2 PREPARATION OF A NEW SUPERCONDUCTOR SR2Y0.7CA0.3CU2.35PB0.65OY 1990 4 "SINGLE PHASE ,TC" "NATIONAL INSTITUTE FOR RESEARCH IN INORGANIC MATERIALS, NAMIKI, TSUKUBA, IBARAKI 305" "JJAP,29(1990)L586" "SR,Y,CA,CU,PB,O" 3054 DE0611670 65% O(18) replaced. -(dHc1/dT)=4.5 Oe/K. -(dHc/dT)=75 Oe/K. G-L = 45 "(Ba,K)BiO3" Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 1 1988 1 BKBO K 28 28 0.21 O 65 Oe 107 T/K 0.5 HC3054 DENSITY OF STATES AND ISOTOPE EFFECT IN BI(1)O(1) SUPERCONDUCTORS: EVIDENCE FOR NONPHONON MECHANISM 1988 10 "ISOTOPE EFFECT ,HC ,SUS ,MA" "AT&T BELL LABORATIRIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.LETT.,61(1988)1670" 3055 DE0611670 85% O(18) replaced. -(dHc/dT)=50 Oe/K. G-L = 80. "Ba(Pb,Bi)O3" Ba1Pb0.75Bi0.25O3 Ba 1 Pb 0.75 Bi 0.25 O 3 3 1988 1 BPBO K 10.5 10.5 0.22 O 85 DENSITY OF STATES AND ISOTOPE EFFECT IN BI(1)O(1) SUPERCONDUCTORS: EVIDENCE FOR NONPHONON MECHANISM 1988 10 "ISOTOPE EFFECT ,HC ,SUS ,MA" "AT&T BELL LABORATIRIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.LETT.,61(1988)1670" 3056 PHC1760087 AS-PREPARED Bi2Sr2CuO6 Bi2Sr2Cu1O6+Z Bi 2 Sr 2 Cu 1 O 6+Z 1 1991 3 Bi2201 5.362 5.374 24.622 K 2 STRUCTURAL AND TRANSPORT PROPERTIES OF BI2SR2-XMXCUO6+-Z (M=BIAND PB) 1991 "DEPARTMENT OF CHEMISTRY,RUTGERS,THE STATE UNIVERSITY OF NEW JERSEY,NEW BRUNSWICK,NJ 08903,USA" "PHYSICA C,176(1991)87" "BI,SR,CU,O,PB" 3057 PHC1760087 ANNEALED IN AIR AT 500C "Bi2(Sr,Pb)2CuO6" Bi2Sr1.9Pb0.1Cu1O6+Z Bi 2 Sr 1.9 Pb 0.1 Cu 1 O 6+Z 1 1991 3 Bi2201 5.363 5.37 24.652 K 8 8 STRUCTURAL AND TRANSPORT PROPERTIES OF BI2SR2-XMXCUO6+-Z (M=BIAND PB) 1991 "DEPARTMENT OF CHEMISTRY,RUTGERS,THE STATE UNIVERSITY OF NEW JERSEY,NEW BRUNSWICK,NJ 08903,USA" "PHYSICA C,176(1991)87" "BI,SR,CU,O,PB" 3058 PHC1760087 AS-PREPARED "Bi2(Sr,Pb)2CuO6" Bi2Sr1.85Pb0.15Cu1O6+Z Bi 2 Sr 1.85 Pb 0.15 Cu 1 O 6+Z 1 1991 3 Bi2201 5.36 5.376 24.621 K 2 STRUCTURAL AND TRANSPORT PROPERTIES OF BI2SR2-XMXCUO6+-Z (M=BIAND PB) 1991 "DEPARTMENT OF CHEMISTRY,RUTGERS,THE STATE UNIVERSITY OF NEW JERSEY,NEW BRUNSWICK,NJ 08903,USA" "PHYSICA C,176(1991)87" "BI,SR,CU,O,PB" 3059 PHC1760087 AS-PREPARED "Bi2(Sr,Pb)2CuO6" Bi2Sr1.8Pb0.2Cu1O6.129 Bi 2 Sr 1.8 Pb 0.2 Cu 1 O 6+Z 6.129 1 1991 3 Bi2201 5.355 5.382 24.6 K 2 STRUCTURAL AND TRANSPORT PROPERTIES OF BI2SR2-XMXCUO6+-Z (M=BIAND PB) 1991 "DEPARTMENT OF CHEMISTRY,RUTGERS,THE STATE UNIVERSITY OF NEW JERSEY,NEW BRUNSWICK,NJ 08903,USA" "PHYSICA C,176(1991)87" "BI,SR,CU,O,PB" 3060 PHC1760087 AS-PREPARED "Bi2(Sr,Pb)2CuO6" Bi2Sr1.7Pb0.3Cu1O6.152 Bi 2 Sr 1.7 Pb 0.3 Cu 1 O 6+Z 6.152 1 1991 3 Bi2201 5.351 5.397 24.529 K 2 STRUCTURAL AND TRANSPORT PROPERTIES OF BI2SR2-XMXCUO6+-Z (M=BIAND PB) 1991 "DEPARTMENT OF CHEMISTRY,RUTGERS,THE STATE UNIVERSITY OF NEW JERSEY,NEW BRUNSWICK,NJ 08903,USA" "PHYSICA C,176(1991)87" "BI,SR,CU,O,PB" 3061 PHC1760087 AS-PREPARED "Bi2(Sr,Pb)2CuO6" Bi2Sr1.6Pb0.4Cu1O6.172 Bi 2 Sr 1.6 Pb 0.4 Cu 1 O 6+Z 6.172 1 1991 3 Bi2201 5.349 5.404 24.501 K 2 STRUCTURAL AND TRANSPORT PROPERTIES OF BI2SR2-XMXCUO6+-Z (M=BIAND PB) 1991 "DEPARTMENT OF CHEMISTRY,RUTGERS,THE STATE UNIVERSITY OF NEW JERSEY,NEW BRUNSWICK,NJ 08903,USA" "PHYSICA C,176(1991)87" "BI,SR,CU,O,PB" 3062 PHC1760087 AS-PREPARED "Bi2(Sr,Pb)2CuO6" Bi2Sr1.5Pb0.5Cu1O6+Z Bi 2 Sr 1.5 Pb 0.5 Cu 1 O 6+Z 1 1991 3 Bi2201 5.35 5.404 24.486 K 2 STRUCTURAL AND TRANSPORT PROPERTIES OF BI2SR2-XMXCUO6+-Z (M=BIAND PB) 1991 "DEPARTMENT OF CHEMISTRY,RUTGERS,THE STATE UNIVERSITY OF NEW JERSEY,NEW BRUNSWICK,NJ 08903,USA" "PHYSICA C,176(1991)87" "BI,SR,CU,O,PB" 3063 CA0271623 SEMICONDUCTOR LIKE CONDUCTIVITY LaBa2CuTaO8 La1Ba2Cu2Ta1O8+Y La 1 Ba 2 Cu 2 Ta 1 O 8+Y 1988 2 P4/MMM 3.967 12.052 K 77 CATION ORDERING IN LA(1)BA(2)CU(3)TA(1)O(8+Y) 1988 9 "CATION ORDERING ,SEMICONDUCTIVITY ,XRY ,RE" "COVERNMENT INDUSTRIAL RESEARCH INSTITUTE,NAGOYA" "JJAP LETT.,27(1988)L1623" "LA,BA,CU,TA,O" 3064 PHC1760019 "SEMICONDUCTOR LIKE BEHAVIOUR,UNIT CELL MODEL" Ta1Sr2Nd1.5Ce0.5Cu2O10 Ta 1 Sr 2 Nd 1.5 Ce 0.5 Cu 2 O 10 1 1991 2 Ml1222 I4/MMM 3.881 28.93 K "THE PREPARATION AND STRUCTURE OF A NEW LAYERED CUPRATE:TASR2(NDCE)2CU2OY,THE TA ANALOG OF THE TL-1222 PHASE" 1991 "DEPARTMENT OF APPLIED CHEMISTRY,UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA,HEFEI,ANHUI 230026,CHINA" "PHYSICA C,176(1991)19" "TA,SR,ND,CE,CU,O" 3065 PR0412623 "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4-Y Pr 1.85 Ce 0.15 Cu 1 O 4-Y 1990 T' K 11 11 8 TP3065 4.5 SUPERCONDUCTIVITY AND THERMOELECTRIC POWER OF PR1.85CE0.15CUO4-Y 1990 2 "OXYGEN CONTENTS ,RESISTANCE ,THERMOELECTRIC POW" "DEPARTMENT OF PHYSICS AND BASIC SCIENCE RESEARCH CENTER, POHANG INSTITUTE OF SCIENCE AND TECHNOLOGY, POHANG, 790-330, KOREA" "PHYS.REV.B,41(1990)2623" "PR,CE,CU,O" 3066 PR0412623 "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4-Y Pr 1.85 Ce 0.15 Cu 1 O 4-Y 1990 T' K -3.87 TP3066 6.2 SUPERCONDUCTIVITY AND THERMOELECTRIC POWER OF PR1.85CE0.15CUO4-Y 1990 2 "OXYGEN CONTENTS ,RESISTANCE ,THERMOELECTRIC POW" "DEPARTMENT OF PHYSICS AND BASIC SCIENCE RESEARCH CENTER, POHANG INSTITUTE OF SCIENCE AND TECHNOLOGY, POHANG, 790-330, KOREA" "PHYS.REV.B,41(1990)2623" "PR,CE,CU,O" 3067 PR0412623 "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4-Y Pr 1.85 Ce 0.15 Cu 1 O 4-Y 1990 T' K -3.55 TP3067 6.8 SUPERCONDUCTIVITY AND THERMOELECTRIC POWER OF PR1.85CE0.15CUO4-Y 1990 2 "OXYGEN CONTENTS ,RESISTANCE ,THERMOELECTRIC POW" "DEPARTMENT OF PHYSICS AND BASIC SCIENCE RESEARCH CENTER, POHANG INSTITUTE OF SCIENCE AND TECHNOLOGY, POHANG, 790-330, KOREA" "PHYS.REV.B,41(1990)2623" "PR,CE,CU,O" 3068 PR0412623 "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4-Y Pr 1.85 Ce 0.15 Cu 1 O 4-Y 1990 T' K 10 23 16.5 0.04 TP3068 25.3 SUPERCONDUCTIVITY AND THERMOELECTRIC POWER OF PR1.85CE0.15CUO4-Y 1990 2 "OXYGEN CONTENTS ,RESISTANCE ,THERMOELECTRIC POW" "DEPARTMENT OF PHYSICS AND BASIC SCIENCE RESEARCH CENTER, POHANG INSTITUTE OF SCIENCE AND TECHNOLOGY, POHANG, 790-330, KOREA" "PHYS.REV.B,41(1990)2623" "PR,CE,CU,O" 3069 PR0412623 "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4-Y Pr 1.85 Ce 0.15 Cu 1 O 4-Y 1990 T' K 0.19 TP3069 SUPERCONDUCTIVITY AND THERMOELECTRIC POWER OF PR1.85CE0.15CUO4-Y 1990 2 "OXYGEN CONTENTS ,RESISTANCE ,THERMOELECTRIC POW" "DEPARTMENT OF PHYSICS AND BASIC SCIENCE RESEARCH CENTER, POHANG INSTITUTE OF SCIENCE AND TECHNOLOGY, POHANG, 790-330, KOREA" "PHYS.REV.B,41(1990)2623" "PR,CE,CU,O" 3070 PR0412623 "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4-Y Pr 1.85 Ce 0.15 Cu 1 O 4-Y 1990 T' K 7 25 16 -0.46 TP3070 12.5 SUPERCONDUCTIVITY AND THERMOELECTRIC POWER OF PR1.85CE0.15CUO4-Y 1990 2 "OXYGEN CONTENTS ,RESISTANCE ,THERMOELECTRIC POW" "DEPARTMENT OF PHYSICS AND BASIC SCIENCE RESEARCH CENTER, POHANG INSTITUTE OF SCIENCE AND TECHNOLOGY, POHANG, 790-330, KOREA" "PHYS.REV.B,41(1990)2623" "PR,CE,CU,O" 3071 SSC0730637 TlBa2CaCu2O Tl1Ba2Ca1Cu2O8 Tl 1 Ba 2 Ca 1 Cu 2 O 8 1 1990 Tl2212 K 104.33 111.66 107.995 0.89 TP3071 11.37 THERMOPOWER OF 2122 THALLIUM THGH TEMPERATURE SUPERCONDUCTORS 1990 "THERMOPOWER ,SINGLE PHASE" "LOW TEMPERATURE LABORATORY, DEPARTMENT OF PHYSICS, INKIAN INSTITUTE OF TECHNOLOGY, MADRAS 600 036, INDIA," "SOLID STATE COMMUN,73(1990)637" "TL,CA,BA,CU,O" 3072 SSC0730637 TlBa2CaCu2O Tl1Ba2Ca1Cu2O8 Tl 1 Ba 2 Ca 1 Cu 2 O 8 1 1990 Tl2212 K 102.74 107.16 2.9 104.95 5.59 TP3072 1.609 THERMOPOWER OF 2122 THALLIUM THGH TEMPERATURE SUPERCONDUCTORS 1990 "THERMOPOWER ,SINGLE PHASE" "LOW TEMPERATURE LABORATORY, DEPARTMENT OF PHYSICS, INKIAN INSTITUTE OF TECHNOLOGY, MADRAS 600 036, INDIA," "SOLID STATE COMMUN,73(1990)637" "TL,CA,BA,CU,O" 3073 SSC0730501 "S//=6UV/K,SN=2UV/K,SAMPLE=4X0.2X0.005MM3" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1990 Bi2212 K 84 85 85 6 TP3073 0.15 6000 THERMOELECTRIC POWER OF BI2SR2CACU2O8 SINGLE CRYSTALS WITH VARYING OXYGEN STOICHIOMETRY 1990 "THERMOELECTRIC POWER,SINGLE CRYSTALS ,OXYGEN STOICHIOMET" "INSTITUTE OF PHYSICS OF THE UNIVERSITY, ZAGREB, P.O.B. 304, ZAGREB, YUGOSLAVIA" "SOLID STATE COMMUN,73(1990)501" "BI,SR,CA,CU,O" 3074 SSC0730501 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1990 Bi2212 K 60 60 18.9 TP3074 THERMOELECTRIC POWER OF BI2SR2CACU2O8 SINGLE CRYSTALS WITH VARYING OXYGEN STOICHIOMETRY 1990 "THERMOELECTRIC POWER,SINGLE CRYSTALS ,OXYGEN STOICHIOMET" "INSTITUTE OF PHYSICS OF THE UNIVERSITY, ZAGREB, P.O.B. 304, ZAGREB, YUGOSLAVIA" "SOLID STATE COMMUN,73(1990)501" "BI,SR,CA,CU,O" 3075 SSC0730501 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1990 Bi2212 K 71.5 71.5 14.5 TP3075 THERMOELECTRIC POWER OF BI2SR2CACU2O8 SINGLE CRYSTALS WITH VARYING OXYGEN STOICHIOMETRY 1990 "THERMOELECTRIC POWER,SINGLE CRYSTALS ,OXYGEN STOICHIOMET" "INSTITUTE OF PHYSICS OF THE UNIVERSITY, ZAGREB, P.O.B. 304, ZAGREB, YUGOSLAVIA" "SOLID STATE COMMUN,73(1990)501" "BI,SR,CA,CU,O" 3076 SSC0730053 2223+2212(MAJOR) Tl2Ba2Ca2Cu3O10 Tl2Ca2Ba2Cu3O10 Tl 2 Ca 2 Ba 2 Cu 3 O 10 2 1990 Tl2223 K 112 118 122 10 118 5.3 TP3076 5 THERMOELECTRIC POWER OF TL-CA-BA-CU-O AND PR-TL-SR-CA-CU-O HIGH TC SUPERCONDUCTORS 1990 1 "RESISTANCE ,THERMOELECTRIC POWE" "PHYSICS DEPARTMENT; CHEMISTRY DEPARTMENT, TEXAS A&M UNIVERSITY, COLLEGE STATION, TX 77843 USA" "SOLID STATE COMMUN.,73(1990)53" "TL,CA,BA,CU,O,PR,SR" 3077 SSC0730053 2223+2212LARGE AMOUNT OF 2223 Tl2Ba2Ca2Cu3O10 Tl2Ca2Ba2Cu3O10 Tl 2 Ca 2 Ba 2 Cu 3 O 10 2 1990 Tl2223 K 112 118 122 118 1.3 TP3077 THERMOELECTRIC POWER OF TL-CA-BA-CU-O AND PR-TL-SR-CA-CU-O HIGH TC SUPERCONDUCTORS 1990 1 "RESISTANCE ,THERMOELECTRIC POWE" "PHYSICS DEPARTMENT; CHEMISTRY DEPARTMENT, TEXAS A&M UNIVERSITY, COLLEGE STATION, TX 77843 USA" "SOLID STATE COMMUN.,73(1990)53" "TL,CA,BA,CU,O,PR,SR" 3078 SSC0730053 PrTl2Sr2Ca4Cu5O Pr1Tl2Sr2Ca4Cu5O2 Pr 1 Tl 2 Sr 2 Ca 4 Cu 5 O X 2 1990 K 79 97 88 13 TP3078 THERMOELECTRIC POWER OF TL-CA-BA-CU-O AND PR-TL-SR-CA-CU-O HIGH TC SUPERCONDUCTORS 1990 1 "RESISTANCE ,THERMOELECTRIC POWE" "PHYSICS DEPARTMENT; CHEMISTRY DEPARTMENT, TEXAS A&M UNIVERSITY, COLLEGE STATION, TX 77843 USA" "SOLID STATE COMMUN.,73(1990)53" "TL,CA,BA,CU,O,PR,SR" 3079 SU1590081 "Pr2(Sr,La)2Cu2O6" Pr2Sr0.8La1.2Cu2O6+Z Pr 2 Sr 0.8 La 1.2 Cu 2 O 6+Z 1989 3 Pb3201 5.333 5.421 12.609 K 26 31 32 31 "SUPERCONDUCTIVITY IN (PB,BI)(2)SR(2-X)LA(X)CU(2)O(6+Z)" 1989 6 "HREM ,FABRICATION ,STRUCTUR" "GORLAEUS LABORATORIES,LEIDEN UNIVERSITY,P.O.BOX 9502,2300RA LEIDEN,THE NETHERLANDS" "PHISICA C ,159(1989)81" "PB,BI,SR,LA,CU,O," 3080 PHC1760179 "METALLIC,2223 PHASE DOMINANT" "(Bi,Pb)2Sr2Ca2Cu3O10" Bi1.7Pb0.3Sr2Ca2Cu3OX Bi 1.7 Pb 0.3 Sr 2 Ca 2 Cu 3 O X 2 1991 3 5.425 5.313 37.049 K 104 116 110 "COMPARISON OF PB,PB-SB,PB-V,PB-MO AND PB-W SUBSTITUTED BI-SR-CA-CU-O" 1991 "DEPAERMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,176(1991)179" "PB,SB,V,MO,W,BI,SR,CA,CU,O" 3081 PHC1760179 "METALLIC,2223 PHASE DOMINANT" "(Bi,Pb)2Sr2Ca2Cu3O10" Bi1.3Pb0.7Sr2Ca2Cu3OX Bi 1.3 Pb 0.7 Sr 2 Ca 2 Cu 3 O X 1991 3 5.4 5.374 37.101 K 112 120 116 "COMPARISON OF PB,PB-SB,PB-V,PB-MO AND PB-W SUBSTITUTED BI-SR-CA-CU-O" 1991 "DEPAERMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,176(1991)179" "PB,SB,V,MO,W,BI,SR,CA,CU,O" 3082 PHC1760179 "METALLIC,2223 PHASE DOMINANT" "(Bi,Pb,Sb)2Sr2Ca2Cu3O10" Bi1.7Pb0.2Sb0.1Sr2Ca2Cu3OX Bi 1.7 Pb 0.2 Sb 0.1 Sr 2 Ca 2 Cu 3 O X 2 1991 3 5.397 5.38 36.976 K 105 116 110.5 "COMPARISON OF PB,PB-SB,PB-V,PB-MO AND PB-W SUBSTITUTED BI-SR-CA-CU-O" 1991 "DEPAERMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,176(1991)179" "PB,SB,V,MO,W,BI,SR,CA,CU,O" 3083 PHC1760179 "SEMICONDUCTOR-LIKE,2223 PHASE DOMINANT" "(Bi,Pb,Sb)2Sr2Ca2Cu3O10" Bi1.3Pb0.5Sb0.2Sr2Ca2Cu3OX Bi 1.3 Pb 0.5 Sb 0.2 Sr 2 Ca 2 Cu 3 O X 2 1991 3 5.397 5.344 36.921 K 70 115 92.5 "COMPARISON OF PB,PB-SB,PB-V,PB-MO AND PB-W SUBSTITUTED BI-SR-CA-CU-O" 1991 "DEPAERMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,176(1991)179" "PB,SB,V,MO,W,BI,SR,CA,CU,O" 3084 PHC1760179 "METALLIC,2223 PHASE DOMINANT" "(Bi,Pb,V)2Sr2Ca2Cu3O10" Bi1.7Pb0.2V0.1Sr2Ca2Cu3OX Bi 1.7 Pb 0.2 V 0.1 Sr 2 Ca 2 Cu 3 O X 2 1991 3 5.425 5.406 37.105 K 105 115 110 "COMPARISON OF PB,PB-SB,PB-V,PB-MO AND PB-W SUBSTITUTED BI-SR-CA-CU-O" 1991 "DEPAERMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,176(1991)179" "PB,SB,V,MO,W,BI,SR,CA,CU,O" 3085 PHC1760179 "METALLIC,2223 PHASE DOMINANT" "(Bi,Pb,V)2Sr2Ca2Cu3O10" Bi1.3Pb0.5V0.2Sr2Ca2Cu3OX Bi 1.3 Pb 0.5 V 0.2 Sr 2 Ca 2 Cu 3 O X 2 1991 3 5.408 5.374 37.084 K 106 117 111.5 "COMPARISON OF PB,PB-SB,PB-V,PB-MO AND PB-W SUBSTITUTED BI-SR-CA-CU-O" 1991 "DEPAERMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,176(1991)179" "PB,SB,V,MO,W,BI,SR,CA,CU,O" 3086 PHC1760179 "METALLIC,2223 PHASE DOMINANT" "(Bi,Pb,Mo)2Sr2Ca2Cu3O10" Bi1.7Pb0.2Mo0.1Sr2Ca2Cu3OX Bi 1.7 Pb 0.2 Mo 0.1 Sr 2 Ca 2 Cu 3 O X 2 1991 3 5.416 5.401 37.026 K 105 115 110 "COMPARISON OF PB,PB-SB,PB-V,PB-MO AND PB-W SUBSTITUTED BI-SR-CA-CU-O" 1991 "DEPAERMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,176(1991)179" "PB,SB,V,MO,W,BI,SR,CA,CU,O" 3087 PHC1760179 "METALLIC,2223 PHASE DOMINANT" "(Bi,Pb,Mo)2Sr2Ca2Cu3O10" Bi1.3Pb0.5Mo0.2Sr2Ca2Cu3OX Bi 1.3 Pb 0.5 Mo 0.2 Sr 2 Ca 2 Cu 3 O X 2 1991 3 5.402 5.371 37.053 K 105 122 113.5 "COMPARISON OF PB,PB-SB,PB-V,PB-MO AND PB-W SUBSTITUTED BI-SR-CA-CU-O" 1991 "DEPAERMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,176(1991)179" "PB,SB,V,MO,W,BI,SR,CA,CU,O" 3088 PHC1760179 "METALLIC,2223 PHASE DOMINANT" "(Bi,Pb,W)2Sr2Ca2Cu3O10" Bi1.7Pb0.2W0.1Sr2Ca2Cu3OX Bi 1.7 Pb 0.2 W 0.1 Sr 2 Ca 2 Cu 3 O X 2 1991 3 5.39 5.358 36.978 K 93 113 103 "COMPARISON OF PB,PB-SB,PB-V,PB-MO AND PB-W SUBSTITUTED BI-SR-CA-CU-O" 1991 "DEPAERMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,176(1991)179" "PB,SB,V,MO,W,BI,SR,CA,CU,O" 3089 PHC1760179 "METALLIC,2223 DOMINANT,PB0.2W0.1 SEEMS TO BE FAVOR THE FORMATIONOF 2223 PHASE MORE THAN PB0.5W0.2" "(Bi,Pb,W)2Sr2Ca2Cu3O10" Bi1.3Pb0.5W0.2Sr2Ca2Cu3OX Bi 1.3 Pb 0.5 W 0.2 Sr 2 Ca 2 Cu 3 O X 2 1991 3 5.383 5.352 37.018 K 71 118 94.5 "COMPARISON OF PB,PB-SB,PB-V,PB-MO AND PB-W SUBSTITUTED BI-SR-CA-CU-O" 1991 "DEPAERMENT OF PHYSICS,UNIVERSITY OF ARKANSAS,FAYETTEVILLE,AR 72701,USA" "PHYSICA C,176(1991)179" "PB,SB,V,MO,W,BI,SR,CA,CU,O" 3090 PHC1770310 HC1 FROM M VS H CURVE "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-Y Nd 1.85 Ce 0.15 Cu 1 O 4-Y 3 1991 T' K 16.5 22 16.5 20 1900 AN UPPER LIMIT ON THE LOWER CRITICAL FIELD IN SINGLE CRYSTAL ND1.85CE0.15CUO4-Y 1991 "TATA INSTITUTE OF FUNDAMENTAL RESEARCH,HOMI BHABHA ROAD,BOMBAY400005,INDIA" "PHYSICA C,177(1991)310" "ND,CE,CU,O" 3091 PR04311508 Eu2.667Ce1.333La1.333Ba1.333Sr1.333Cu6OY Eu 2.667 Ce 1.333 La 1.333 Ba 1.333 Sr 1.333 Cu 6 O Y 1991 446 K 28.5 28.5 22 TP3091 "thermoelectric power of the (Eu,Ce)4(Ba,Eu)4Cu6Oy phase and the T* phase: Comparison between superconducting and nonsuperconducting compounds" 1991 5 "Supercoductivity Reserch Laboratory, International Superconductivity Technology Center, 10-13 Shinonome 1-chome, Koto-Ku, Tokyo 135, Japan" "Phys.Rev.B,43(1991)11508" 3092 PR04311508 Y2.667Ce1.333La1.333Ba1.333Sr1.333Cu6OY Y 2.667 Ce 1.333 La 1.333 Ba 1.333 Sr 1.333 Cu 6 O Y 1991 446 K 2 33.2 TP3092 "thermoelectric power of the (Eu,Ce)4(Ba,Eu)4Cu6Oy phase and the T* phase: Comparison between superconducting and nonsuperconducting compounds" 1991 5 "Supercoductivity Reserch Laboratory, International Superconductivity Technology Center, 10-13 Shinonome 1-chome, Koto-Ku, Tokyo 135, Japan" "Phys.Rev.B,43(1991)11508" 3093 PR04311508 Nd1.4Ce0.2Sr0.4Cu1O4-Z Nd 1.4 Ce 0.2 Sr 0.4 Cu 1 O 4-Z 1991 T* K 23.1 23.1 22.3 TP3093 3.04E-09 RH3093 "thermoelectric power of the (Eu,Ce)4(Ba,Eu)4Cu6Oy phase and the T* phase: Comparison between superconducting and nonsuperconducting compounds" 1991 5 "Supercoductivity Reserch Laboratory, International Superconductivity Technology Center, 10-13 Shinonome 1-chome, Koto-Ku, Tokyo 135, Japan" "Phys.Rev.B,43(1991)11508" 3094 PR04311508 Nd1.4Ce0.2Sr0.4Cu0.985Zn0.015O4-Z Nd 1.4 Ce 0.2 Sr 0.4 Cu 0.985 Zn 0.015 O 4-Z 1991 T* K 2 36 TP3094 3.17E-09 RH3094 "thermoelectric power of the (Eu,Ce)4(Ba,Eu)4Cu6Oy phase and the T* phase: Comparison between superconducting and nonsuperconducting compounds" 1991 5 "Supercoductivity Reserch Laboratory, International Superconductivity Technology Center, 10-13 Shinonome 1-chome, Koto-Ku, Tokyo 135, Japan" "Phys.Rev.B,43(1991)11508" 3095 PR0442815 PENET FROM MAGNETIZATION AFTER CORRECTION YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1991 2 Y123 K 66 66 2600 MAGNETIC PENETRATION DEPTH OF OXYGEN-DEFICIENT YBA2CU3O7-Z SINGLE CRYSTALS (TC=66K) 1991 8 "DEPARTMENT OF PHYSICS AND MATERIALS RESEARTCH LABORATORY,UNIVERSITY OF ILLINOIS AT URABANA-CHAMPAIGN,1110 WEST GREEN STREET,URBANA,ILLINOIS 61801" "PHYS.REV.B,44(1991)2815" "Y,BA,CU,O" 3096 CEM0780192 "(Y,Ca)Ba2Cu3O7" Y0.8Ca0.2Ba2Cu3O6.1 Y 0.8 Ca 0.2 Ba 2 Cu 3 O 6.1 1 1989 2 Y123 3.861 11.826 K 50 50 LETTER TO THE EDITOROBSERVATION OF SUKPERCONDUCTIVITY IN (Y1-XCAX)BA2CU3O6 1989 "E.I.DU PONT DE NEMOURS AND CO.,INC.,CENTRAL RESEARCH AND DEVELOPMENT,EXPERIMENTAL STATION,WILMINGTON,DELAWARE 19880-0356" "J.SOL.STATE CHEM.,78(1989)192" "Y,CA,BA,CU,O" 3097 JML0100760 Sb1Pb1Ca1Ba2Cu2OX Sb 1 Pb 1 Ca 1 Ba 2 Cu 2 O X 2 1991 3 5.11 6.321 18.512 K 25 25 SYNTHESIS AND STRUCTURE OF (SBPB)CABA2CU2OX) 1991 "CHEMISTRY,RADIOCHEMISTRY AND APPLIED CHEMISTRY DIVISIONS,CHEMICAL GROUP,BHABHA ATOMIC RESEARCH CENTRE,TROMBAY,BOMBAY 400085,INDIA" "J.MATER.SCI.LETT.,10(1991)760" "SB,PB,CA,BA,CU,O" 3098 PHC1750119 "TWO PHASES,NO MEISSNER EFFECT,NO Y123 PHASE" Y1Ba2Cu2W1OY Y 1 Ba 2 Cu 2 W 1 O Y 2 1991 K 60 60 Superconductivity in the Ba-Y-Cu-W-O system 1991 "Instituto Fisica, Universidad Nacional Auto'noma de Me'xico, a.p. 20-364, 01000 Me'xico D.F., Me'xco" "Physica.c,175(1991)119-126" 3099 PHC1750119 "TWO PHASES,NO MEISSNER EFFECT,NO Y123 PHASE" Y1Ba2Cu2W1OY Y 1 Ba 2 Cu 2 W 1 O Y 2 1991 K 65 92 78.5 Superconductivity in the Ba-Y-Cu-W-O system 1991 "Instituto Fisica, Universidad Nacional Auto'noma de Me'xico, a.p. 20-364, 01000 Me'xico D.F., Me'xco" "Physica.c,175(1991)119-126" 3100 PHC1800358 NEELT BY MUON-SR La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 1 1991 258 K DISRUPTION OF ANTIFERROMAGNETIC ORDER IN ZN-DOPED LA2CUO4 1991 "TEXAS TECH UNIVERSITY,LUBBOCK,TX 79409,USA" "PHYSICA C,180(1991)358" "ZN,LA,CU,O" 3101 PHC1800358 NEELT BY MUON-SR "La2(Cu,Zn)O4" La2Cu0.98Zn0.02O4 La 2 Cu 0.98 Zn 0.02 O 4 1 1991 208 K DISRUPTION OF ANTIFERROMAGNETIC ORDER IN ZN-DOPED LA2CUO4 1991 "TEXAS TECH UNIVERSITY,LUBBOCK,TX 79409,USA" "PHYSICA C,180(1991)358" "ZN,LA,CU,O" 3102 PHC1800358 NEELT BY MUON-SR "La2(Cu,Zn)O4" La2Cu0.96Zn0.04O4 La 2 Cu 0.96 Zn 0.04 O 4 1 1991 194 K DISRUPTION OF ANTIFERROMAGNETIC ORDER IN ZN-DOPED LA2CUO4 1991 "TEXAS TECH UNIVERSITY,LUBBOCK,TX 79409,USA" "PHYSICA C,180(1991)358" "ZN,LA,CU,O" 3103 PHC1800358 NEELT BY MUON-SR "La2(Cu,Zn)O4" La2Cu0.92Zn0.08O4 La 2 Cu 0.92 Zn 0.08 O 4 1 1991 181 K DISRUPTION OF ANTIFERROMAGNETIC ORDER IN ZN-DOPED LA2CUO4 1991 "TEXAS TECH UNIVERSITY,LUBBOCK,TX 79409,USA" "PHYSICA C,180(1991)358" "ZN,LA,CU,O" 3104 PHC1800358 NEELT BY MUON-SR "La2(Cu,Zn)O4" La2Cu0.9Zn0.1O4 La 2 Cu 0.9 Zn 0.1 O 4 1 1991 103 K DISRUPTION OF ANTIFERROMAGNETIC ORDER IN ZN-DOPED LA2CUO4 1991 "TEXAS TECH UNIVERSITY,LUBBOCK,TX 79409,USA" "PHYSICA C,180(1991)358" "ZN,LA,CU,O" 3105 PHC1800324 "La(Ca,Ba)2(Cu,Zn)3O7" La1Ca1Ba1Cu2.95Zn0.05O7-Z La 1 Ca 1 Ba 1 Cu 2.95 Zn 0.05 O 7-Z 1991 2 Y123 3.87 11.634 K 55 55 EFFECT OF PARTIAL SUBSTITUTION OF NI AND ZN FOR CU IN CABALACU3O7-Z SUPERCONDUCTOR 1991 "CHEMISTRY DIVISION,BHABHA AROMIC RESEARCH CENTRE,BOMBAY-400085,INDIA" "PHYSICA C,180(1991)324" "ZN,NI,CA,BA,LA,CU,O" 3106 PHC1800324 "La(Ca,Ba)2(Cu,Zn)3O7" La1Ca1Ba1Cu2.9Zn0.1O7-Z La 1 Ca 1 Ba 1 Cu 2.9 Zn 0.1 O 7-Z 1991 2 Y123 3.867 11.622 K 37 37 EFFECT OF PARTIAL SUBSTITUTION OF NI AND ZN FOR CU IN CABALACU3O7-Z SUPERCONDUCTOR 1991 "CHEMISTRY DIVISION,BHABHA AROMIC RESEARCH CENTRE,BOMBAY-400085,INDIA" "PHYSICA C,180(1991)324" "ZN,NI,CA,BA,LA,CU,O" 3107 PHC1800324 "La(Ca,Ba)2(Cu,Zn)3O7" La1Ca1Ba1Cu2.8Zn0.2O7-Z La 1 Ca 1 Ba 1 Cu 2.8 Zn 0.2 O 7-Z 1991 2 Y123 3.868 11.628 K 30 30 EFFECT OF PARTIAL SUBSTITUTION OF NI AND ZN FOR CU IN CABALACU3O7-Z SUPERCONDUCTOR 1991 "CHEMISTRY DIVISION,BHABHA AROMIC RESEARCH CENTRE,BOMBAY-400085,INDIA" "PHYSICA C,180(1991)324" "ZN,NI,CA,BA,LA,CU,O" 3108 PHC1800324 "La(Ca,Ba)2(Cu,Zn)3O7" La1Ca1Ba1Cu2.7Zn0.3O7-Z La 1 Ca 1 Ba 1 Cu 2.7 Zn 0.3 O 7-Z 1991 2 Y123 3.879 11.662 K 20 20 EFFECT OF PARTIAL SUBSTITUTION OF NI AND ZN FOR CU IN CABALACU3O7-Z SUPERCONDUCTOR 1991 "CHEMISTRY DIVISION,BHABHA AROMIC RESEARCH CENTRE,BOMBAY-400085,INDIA" "PHYSICA C,180(1991)324" "ZN,NI,CA,BA,LA,CU,O" 3109 PHC1800324 "La(Ca,Ba)2(Cu,Zn)3O7" La1Ca1Ba1Cu2.6Zn0.4O7-Z La 1 Ca 1 Ba 1 Cu 2.6 Zn 0.4 O 7-Z 1991 2 Y123 3.877 11.628 K 42 EFFECT OF PARTIAL SUBSTITUTION OF NI AND ZN FOR CU IN CABALACU3O7-Z SUPERCONDUCTOR 1991 "CHEMISTRY DIVISION,BHABHA AROMIC RESEARCH CENTRE,BOMBAY-400085,INDIA" "PHYSICA C,180(1991)324" "ZN,NI,CA,BA,LA,CU,O" 3110 PHC1800324 LaBaCaCu3O7 La1Ba1Ca1Cu3O6.856 La 1 Ba 1 Ca 1 Cu 3 O 7-Z 6.856 1 1991 2 Y123 3.871 11.61 K 66 66 EFFECT OF PARTIAL SUBSTITUTION OF NI AND ZN FOR CU IN CABALACU3O7-Z SUPERCONDUCTOR 1991 "CHEMISTRY DIVISION,BHABHA AROMIC RESEARCH CENTRE,BOMBAY-400085,INDIA" "PHYSICA C,180(1991)324" "ZN,NI,CA,BA,LA,CU,O" 3111 PHC1800324 "La(Ca,Ba)2(Cu,Ni)3O7" La1Ba1Ca1Cu2.9Ni0.1O6.85 La 1 Ba 1 Ca 1 Cu 2.9 Ni 0.1 O 7-Z 6.85 1 1991 2 Y123 3.866 11.628 K 45 45 EFFECT OF PARTIAL SUBSTITUTION OF NI AND ZN FOR CU IN CABALACU3O7-Z SUPERCONDUCTOR 1991 "CHEMISTRY DIVISION,BHABHA AROMIC RESEARCH CENTRE,BOMBAY-400085,INDIA" "PHYSICA C,180(1991)324" "ZN,NI,CA,BA,LA,CU,O" 3112 PHC1800324 "La(Ca,Ba)2(Cu,Ni)3O7" La1Ba1Ca1Cu2.8Ni0.2O6.837 La 1 Ba 1 Ca 1 Cu 2.8 Ni 0.2 O 7-Z 6.837 1 1991 2 Y123 3.871 11.624 K 30 30 EFFECT OF PARTIAL SUBSTITUTION OF NI AND ZN FOR CU IN CABALACU3O7-Z SUPERCONDUCTOR 1991 "CHEMISTRY DIVISION,BHABHA AROMIC RESEARCH CENTRE,BOMBAY-400085,INDIA" "PHYSICA C,180(1991)324" "ZN,NI,CA,BA,LA,CU,O" 3113 PHC1800324 "La(Ca,Ba)2(Cu,Ni)3O7" La1Ba1Ca1Cu2.7Ni0.3O6.848 La 1 Ba 1 Ca 1 Cu 2.7 Ni 0.3 O 7-Z 6.848 1 1991 2 Y123 3.875 11.639 K 28 28 EFFECT OF PARTIAL SUBSTITUTION OF NI AND ZN FOR CU IN CABALACU3O7-Z SUPERCONDUCTOR 1991 "CHEMISTRY DIVISION,BHABHA AROMIC RESEARCH CENTRE,BOMBAY-400085,INDIA" "PHYSICA C,180(1991)324" "ZN,NI,CA,BA,LA,CU,O" 3114 PHC1800324 "La(Ca,Ba)2(Cu,Ni)3O7" La1Ba1Ca1Cu2.6Ni0.4O6.854 La 1 Ba 1 Ca 1 Cu 2.6 Ni 0.4 O 7-Z 6.854 1 1991 2 Y123 3.876 11.622 K 24 24 EFFECT OF PARTIAL SUBSTITUTION OF NI AND ZN FOR CU IN CABALACU3O7-Z SUPERCONDUCTOR 1991 "CHEMISTRY DIVISION,BHABHA AROMIC RESEARCH CENTRE,BOMBAY-400085,INDIA" "PHYSICA C,180(1991)324" "ZN,NI,CA,BA,LA,CU,O" 3115 PHC1770159 YBa2Cu3O6 Y1Ba2Cu3O6 Y 1 Ba 2 Cu 3 O 6 1 1991 2 Y123 K TP3115 "VARIABLE-RANGE HOPPING IN YBA2(CU1-XMX)3O6+Z M=FE,ZN!" 1991 "CENTRE DE RECHERCHE EN PHYSIQUE DU SOLIDE AND DEPARTMENT DE PHYSIQUE,UNIVERSITE DE SHERBROOKE,SHERBROOKE,QUE.,CANADA JIK2R1" "PHYSICA C,177(1991)159" "Y,BA,CU,FE,ZN,O" 3116 PHC1770023 "2223 IS DOMINANT,SECOND PHASE<5% BY XRD" Tl2Ba2Ca2Cu3O10 Tl 2 Ba 2 Ca 2 Cu 3 O 10 1991 Tl2223 K 121 121 THC3116 THERMAL CONDUCTIVITY OF TL2BA2CA2CU3O10 CERAMICS FROM 300K DOWN TO 0.1K 1991 "DEPARTMENT OF PHYSICS,UNIVERSITY OF MICHIGAN,ANN ARBOR,MICHIGAN 48109,USA" "PHYSICA C,177(1991)23" "TL,BA,CA,CU,O" 3117 PHC1770023 SAME AS 3116 DATA Tl2Ba2Ca2Cu3O10 Tl 2 Ba 2 Ca 2 Cu 3 O 10 1991 Tl2223 K 121 121 THC3117 THERMAL CONDUCTIVITY OF TL2BA2CA2CU3O10 CERAMICS FROM 300K DOWN TO 0.1K 1991 "DEPARTMENT OF PHYSICS,UNIVERSITY OF MICHIGAN,ANN ARBOR,MICHIGAN 48109,USA" "PHYSICA C,177(1991)23" "TL,BA,CA,CU,O" 3118 JPS0581883 "X=0.082(EPMA),TD1=275,TD2=26,PHASE TRANSITION" "(La,Ba)2CuO4" La1.906Ba0.094Cu1O4-Z La 1.906 Ba 0.094 Cu 1 O 4-Z 1 1989 2 T K 32 32 ANOMALOUS CHANGE IN CRYSTALLINE STRUCTURE OF (LA1-XBAX)2CUO4-Z 1989 6 "DEPARTMENT OF PHYSICS,HIROSHIMA UNIVERSITY,HIROSHIMA 730" "J.PHYS.SOC.JAPAN,58(1989)1883" "LA,BA,CU,O" 3119 JPS0581883 "X=0.102(EPMA),TD1=210,TD2=49" "(La,Ba)2CuO4" La1.882Ba0.118Cu1O4-Z La 1.882 Ba 0.118 Cu 1 O 4-Z 1 1989 2 T 3.78 13.27 K 9.2 9.2 TC3119 6.5 TP3119 ANOMALOUS CHANGE IN CRYSTALLINE STRUCTURE OF (LA1-XBAX)2CUO4-Z 1989 6 "DEPARTMENT OF PHYSICS,HIROSHIMA UNIVERSITY,HIROSHIMA 730" "J.PHYS.SOC.JAPAN,58(1989)1883" "LA,BA,CU,O" 3120 JPS0581883 "X=0.142(EPMA),TD1=137,TD2=49" "(La,Ba)2CuO4" La1.858Ba0.142Cu1O4-Z La 1.858 Ba 0.142 Cu 1 O 4-Z 1 1989 2 T K 28.9 28.9 ANOMALOUS CHANGE IN CRYSTALLINE STRUCTURE OF (LA1-XBAX)2CUO4-Z 1989 6 "DEPARTMENT OF PHYSICS,HIROSHIMA UNIVERSITY,HIROSHIMA 730" "J.PHYS.SOC.JAPAN,58(1989)1883" "LA,BA,CU,O" 3121 JPS0581883 "X=0.158(EPMA),TD1=95.5,TD2=24.3" "(La,Ba)2CuO4" La1.842Ba0.158Cu1O4-Z La 1.842 Ba 0.158 Cu 1 O 4-Z 1 1989 2 T K ANOMALOUS CHANGE IN CRYSTALLINE STRUCTURE OF (LA1-XBAX)2CUO4-Z 1989 6 "DEPARTMENT OF PHYSICS,HIROSHIMA UNIVERSITY,HIROSHIMA 730" "J.PHYS.SOC.JAPAN,58(1989)1883" "LA,BA,CU,O" 3122 JPS0581883 X=0.064(EPMA) "(La,Ba)2CuO4" La1.922Ba0.078Cu1O4-Z La 1.922 Ba 0.078 Cu 1 O 4-Z 1 1989 2 T K 26.6 26.6 ANOMALOUS CHANGE IN CRYSTALLINE STRUCTURE OF (LA1-XBAX)2CUO4-Z 1989 6 "DEPARTMENT OF PHYSICS,HIROSHIMA UNIVERSITY,HIROSHIMA 730" "J.PHYS.SOC.JAPAN,58(1989)1883" "LA,BA,CU,O" 3123 JPS0581883 X=0.174(EPMA) "(La,Ba)2CuO4" La1.8Ba0.2Cu1O4-Z La 1.8 Ba 0.2 Cu 1 O 4-Z 1 1989 2 T K 20.9 20.9 ANOMALOUS CHANGE IN CRYSTALLINE STRUCTURE OF (LA1-XBAX)2CUO4-Z 1989 6 "DEPARTMENT OF PHYSICS,HIROSHIMA UNIVERSITY,HIROSHIMA 730" "J.PHYS.SOC.JAPAN,58(1989)1883" "LA,BA,CU,O" 3124 JPS0581883 X=0.212(EPMA) "(LA,BA)2CUO4" La1.76Ba0.24Cu1O4-Z La 1.76 Ba 0.24 Cu 1 O 4-Z 1 1989 2 T K 14 14 ANOMALOUS CHANGE IN CRYSTALLINE STRUCTURE OF (LA1-XBAX)2CUO4-Z 1989 6 "DEPARTMENT OF PHYSICS,HIROSHIMA UNIVERSITY,HIROSHIMA 730" "J.PHYS.SOC.JAPAN,58(1989)1883" "LA,BA,CU,O" 3125 PHC1760373 Nd1.42Ce0.18Sr0.4Cu1O4-Z Nd 1.42 Ce 0.18 Sr 0.4 Cu 1 O 4-Z 1 1991 T* K 17.3 17.3 RH3125 HALL EFFECT AND SUPERCONDUCTING PROPERTIES OF (ND0.8-XCEXSR0.2)2CUO4-Z WITH T STRUCTURE 1991 "SUPERCONDUCTIVITY RESEARCH LAVORATORY,INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO 135,JAPAN" "PHYSICA C,176(1991)373" "ND,CE,SR,CU,O" 3126 PHC1760373 HHC1 BY M VS H CURVE Nd1.4Ce0.2Sr0.4Cu1O4-Z Nd 1.4 Ce 0.2 Sr 0.4 Cu 1 O 4-Z 1 1991 T* K 21.8 22.7 22.7 40 15 0.91 46 4200 RH3126 HALL EFFECT AND SUPERCONDUCTING PROPERTIES OF (ND0.8-XCEXSR0.2)2CUO4-Z WITH T STRUCTURE 1991 "SUPERCONDUCTIVITY RESEARCH LAVORATORY,INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO 135,JAPAN" "PHYSICA C,176(1991)373" "ND,CE,SR,CU,O" 3127 PHC1760373 Nd1.38Ce0.22Sr0.4Cu1O4-Z Nd 1.38 Ce 0.22 Sr 0.4 Cu 1 O 4-Z 1 1991 T* K 18.2 18.2 RH3127 HALL EFFECT AND SUPERCONDUCTING PROPERTIES OF (ND0.8-XCEXSR0.2)2CUO4-Z WITH T STRUCTURE 1991 "SUPERCONDUCTIVITY RESEARCH LAVORATORY,INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO 135,JAPAN" "PHYSICA C,176(1991)373" "ND,CE,SR,CU,O" 3128 PHC1760373 SEMICONDUCTOR LIKE Nd1.3Ce0.3Sr0.4Cu1O4-Z Nd 1.3 Ce 0.3 Sr 0.4 Cu 1 O 4-Z 1 1991 T* K 4.2 RH3128 HALL EFFECT AND SUPERCONDUCTING PROPERTIES OF (ND0.8-XCEXSR0.2)2CUO4-Z WITH T STRUCTURE 1991 "SUPERCONDUCTIVITY RESEARCH LAVORATORY,INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO 135,JAPAN" "PHYSICA C,176(1991)373" "ND,CE,SR,CU,O" 3129 PHC1810068 OZ BY TGA "Bi2(Ca,R)2CaCu2O8" Bi2Ca2.5Pr0.5Cu2O8.53 Bi 2 Ca 2.5 Pr 0.5 Cu 2 O 8+Z 8.53 1 1991 6.5 2 Bi2212 K 45 56 45 38 1.90E-09 RH3129 PREPARATION AND PROPERTIES OF SUPERCONDUCTING BI2CA3-XRXCU2O8+Z 1991 "CENTER FOR SUPERCONDUCTIVITY RESEARCH,DEPARTMENT OF PHYSICS AND ASTRONOMY,UNIVERSITY OF MARYLAND,COLLEGE PARK,MD 20742,USA" "PHYSICA C,181(1991)68" "BI,CA,CU,O,R" 3130 PHC1810068 "Bi2(Ca,R)2CaCu2O8" Bi2Ca2.5Nd0.5Cu2O8.43 Bi 2 Ca 2.5 Nd 0.5 Cu 2 O 8+Z 8.43 1 1991 2 Bi2212 K 33.5 52 33.5 PREPARATION AND PROPERTIES OF SUPERCONDUCTING BI2CA3-XRXCU2O8+Z 1991 "CENTER FOR SUPERCONDUCTIVITY RESEARCH,DEPARTMENT OF PHYSICS AND ASTRONOMY,UNIVERSITY OF MARYLAND,COLLEGE PARK,MD 20742,USA" "PHYSICA C,181(1991)68" "BI,CA,CU,O,R" 3131 PHC1810068 "Bi2(Ca,R)2CaCu2O8" Bi2Ca2.5Sm0.5Cu2O8.33 Bi 2 Ca 2.5 Sm 0.5 Cu 2 O 8+Z 8.33 1 1991 2 Bi2212 K 22 59 22 1.90E-09 RH3131 PREPARATION AND PROPERTIES OF SUPERCONDUCTING BI2CA3-XRXCU2O8+Z 1991 "CENTER FOR SUPERCONDUCTIVITY RESEARCH,DEPARTMENT OF PHYSICS AND ASTRONOMY,UNIVERSITY OF MARYLAND,COLLEGE PARK,MD 20742,USA" "PHYSICA C,181(1991)68" "BI,CA,CU,O,R" 3132 PHC1810068 "Bi2(Ca,R)2CaCu2O8" Bi2Ca2.5Eu0.5Cu2O8.31 Bi 2 Ca 2.5 Eu 0.5 Cu 2 O 8+Z 8.31 1 1991 2 Bi2212 K 7 35 7 PREPARATION AND PROPERTIES OF SUPERCONDUCTING BI2CA3-XRXCU2O8+Z 1991 "CENTER FOR SUPERCONDUCTIVITY RESEARCH,DEPARTMENT OF PHYSICS AND ASTRONOMY,UNIVERSITY OF MARYLAND,COLLEGE PARK,MD 20742,USA" "PHYSICA C,181(1991)68" "BI,CA,CU,O,R" 3133 PHC1810068 "Bi2(Ca,R)2CaCu2O8" Bi2Ca2.5Gd0.5Cu2O8.33 Bi 2 Ca 2.5 Gd 0.5 Cu 2 O 8+Z 8.33 1 1991 2 Bi2212 K 4 25 4 0.000000003 RH3133 PREPARATION AND PROPERTIES OF SUPERCONDUCTING BI2CA3-XRXCU2O8+Z 1991 "CENTER FOR SUPERCONDUCTIVITY RESEARCH,DEPARTMENT OF PHYSICS AND ASTRONOMY,UNIVERSITY OF MARYLAND,COLLEGE PARK,MD 20742,USA" "PHYSICA C,181(1991)68" "BI,CA,CU,O,R" 3134 PHC1810068 OZ BY TGA "Bi2(Ca,R)2CaCu2O8" Bi2Ca2.5Pr0.5Cu2O8.41 Bi 2 Ca 2.5 Pr 0.5 Cu 2 O 8+Z 8.41 1 1991 2 Bi2212 K 2.65E-09 RH3134 PREPARATION AND PROPERTIES OF SUPERCONDUCTING BI2CA3-XRXCU2O8+Z 1991 "CENTER FOR SUPERCONDUCTIVITY RESEARCH,DEPARTMENT OF PHYSICS AND ASTRONOMY,UNIVERSITY OF MARYLAND,COLLEGE PARK,MD 20742,USA" "PHYSICA C,181(1991)68" "BI,CA,CU,O,R" 3135 PHC1810063 #NAME? "Bi2(Sr,Li)2CaCu2O8" Bi2Sr1.8Li0.2Ca1Cu2O8 Bi 2 Sr 1.8 Li 0.2 Ca 1 Cu 2 O 8+Z 8 1991 2 Bi2212 5.429 30.811 K 77 77 "LITHIUM/STRONTIUM EXCHANGE IN ""2212"" BISMUTH SUPERCONDUCTORS" 1991 "FACULTY OF SCIENCE AND TECHNOLOGY,THAMMASAT UNIVERSITY,RANGSIT,PATUM THANI 12121,THAILAND" "PHYSICA C,181(1991)63" "LA,SR,BI,CA,CU,O" 3136 PHC1810063 #NAME? "Bi2(Sr,Li)2CaCu2O8" Bi2Sr1.6Li0.4Ca1Cu2O7.87 Bi 2 Sr 1.6 Li 0.4 Ca 1 Cu 2 O 8+Z 7.87 1991 2 Bi2212 5.408 30.795 K 86 86 "LITHIUM/STRONTIUM EXCHANGE IN ""2212"" BISMUTH SUPERCONDUCTORS" 1991 "FACULTY OF SCIENCE AND TECHNOLOGY,THAMMASAT UNIVERSITY,RANGSIT,PATUM THANI 12121,THAILAND" "PHYSICA C,181(1991)63" "LA,SR,BI,CA,CU,O" 3137 PHC1810063 "Bi2(Sr,Li)2CaCu2O8" Bi2Sr1.4Li0.6Ca1Cu2O7.7 Bi 2 Sr 1.4 Li 0.6 Ca 1 Cu 2 O 8+Z 7.7 1991 2 Bi2212 5.398 30.806 K 94 94 "LITHIUM/STRONTIUM EXCHANGE IN ""2212"" BISMUTH SUPERCONDUCTORS" 1991 "FACULTY OF SCIENCE AND TECHNOLOGY,THAMMASAT UNIVERSITY,RANGSIT,PATUM THANI 12121,THAILAND" "PHYSICA C,181(1991)63" "LA,SR,BI,CA,CU,O" 3138 PHC1800407 #NAME? "(Bi,Pb)2Sr2Ca2Cu3O10" Bi1.4Pb0.6Sr2Ca2Cu3O7 Bi 1.4 Pb 0.6 Sr 2 Ca 2 Cu 3 O 7 2 1991 2 Bi2223 K 74.5 108.5 108.5 THE EFFECT OF GALLIUM SUBSTITUTION ON THE SUPERCONDUCTIVITY OFTHE BISRCACUO SYSTEM 1991 "DEPARTMENT OF PHYSICS & ASTRONOMY,MCMASTER UNIVERSITY,HAMILTON,ONT.,L8S4M1 CANADA" "PHYSICA C,180(1991)407" "GA,BI,SR,CA,CU,O" 3139 PHC1800407 #NAME? "(Bi,Pb)2Sr2(CaGa)2Cu3O10" Bi1.4Pb0.6Sr2Ca1.9Ga0.1Cu3O7 Bi 1.4 Pb 0.6 Sr 2 Ca 1.9 Ga 0.1 Cu 3 O 7 2 1991 2 Bi2223 K 65.5 104.4 104.4 THE EFFECT OF GALLIUM SUBSTITUTION ON THE SUPERCONDUCTIVITY OFTHE BISRCACUO SYSTEM 1991 "DEPARTMENT OF PHYSICS & ASTRONOMY,MCMASTER UNIVERSITY,HAMILTON,ONT.,L8S4M1 CANADA" "PHYSICA C,180(1991)407" "GA,BI,SR,CA,CU,O" 3140 PHC1800407 #NAME? Bi1.4Pb0.6Sr2Ca1.8Ga0.2Cu3O7 Bi 1.4 Pb 0.6 Sr 2 Ca 1.8 Ga 0.2 Cu 3 O 7 2 1991 2 K 68.2 103.4 68.2 THE EFFECT OF GALLIUM SUBSTITUTION ON THE SUPERCONDUCTIVITY OFTHE BISRCACUO SYSTEM 1991 "DEPARTMENT OF PHYSICS & ASTRONOMY,MCMASTER UNIVERSITY,HAMILTON,ONT.,L8S4M1 CANADA" "PHYSICA C,180(1991)407" "GA,BI,SR,CA,CU,O" 3141 PHC1800407 #NAME? "(Bi,Pb)2Sr2(Ca,Ga)Cu2O8" Bi1.4Pb0.6Sr2Ca1.7Ga0.3Cu3O7 Bi 1.4 Pb 0.6 Sr 2 Ca 1.7 Ga 0.3 Cu 3 O 7 2 1991 2 Bi2212 K 67.4 67.4 THE EFFECT OF GALLIUM SUBSTITUTION ON THE SUPERCONDUCTIVITY OFTHE BISRCACUO SYSTEM 1991 "DEPARTMENT OF PHYSICS & ASTRONOMY,MCMASTER UNIVERSITY,HAMILTON,ONT.,L8S4M1 CANADA" "PHYSICA C,180(1991)407" "GA,BI,SR,CA,CU,O" 3142 PHC1800407 #NAME? "(Bi,Pb)2Sr2(Ca,Ga)Cu2O8" Bi1.4Pb0.6Sr2Ca1.6Ga0.4Cu3O7 Bi 1.4 Pb 0.6 Sr 2 Ca 1.6 Ga 0.4 Cu 3 O 7 2 1991 2 Bi2212 K 69.4 69.4 THE EFFECT OF GALLIUM SUBSTITUTION ON THE SUPERCONDUCTIVITY OFTHE BISRCACUO SYSTEM 1991 "DEPARTMENT OF PHYSICS & ASTRONOMY,MCMASTER UNIVERSITY,HAMILTON,ONT.,L8S4M1 CANADA" "PHYSICA C,180(1991)407" "GA,BI,SR,CA,CU,O" 3143 PHC1800407 #NAME? "(Bi,Pb)2Sr2(Ca,Ga)Cu2O8" Bi1.4Pb0.6Sr2Ca1.4Ga0.6Cu3O7 Bi 1.4 Pb 0.6 Sr 2 Ca 1.4 Ga 0.6 Cu 3 O 7 2 1991 2 Bi2212 K 70.6 70.6 THE EFFECT OF GALLIUM SUBSTITUTION ON THE SUPERCONDUCTIVITY OFTHE BISRCACUO SYSTEM 1991 "DEPARTMENT OF PHYSICS & ASTRONOMY,MCMASTER UNIVERSITY,HAMILTON,ONT.,L8S4M1 CANADA" "PHYSICA C,180(1991)407" "GA,BI,SR,CA,CU,O" 3144 PHC1800407 #NAME? "(Bi,Pb)2Sr2(Ca,Ga)Cu2O8" Bi1.4Pb0.6Sr2Ca1.2Ga0.8Cu3O7 Bi 1.4 Pb 0.6 Sr 2 Ca 1.2 Ga 0.8 Cu 3 O 7 2 1991 2 Bi2212 K 67.7 67.7 THE EFFECT OF GALLIUM SUBSTITUTION ON THE SUPERCONDUCTIVITY OFTHE BISRCACUO SYSTEM 1991 "DEPARTMENT OF PHYSICS & ASTRONOMY,MCMASTER UNIVERSITY,HAMILTON,ONT.,L8S4M1 CANADA" "PHYSICA C,180(1991)407" "GA,BI,SR,CA,CU,O" 3145 PHC1800407 #NAME? "(Bi,Pb)2Sr2(Ca,Ga)Cu2O8" Bi1.4Pb0.6Sr2Ca1Ga1Cu3O7 Bi 1.4 Pb 0.6 Sr 2 Ca 1 Ga 1 Cu 3 O 7 2 1991 2 K 66.5 66.5 THE EFFECT OF GALLIUM SUBSTITUTION ON THE SUPERCONDUCTIVITY OFTHE BISRCACUO SYSTEM 1991 "DEPARTMENT OF PHYSICS & ASTRONOMY,MCMASTER UNIVERSITY,HAMILTON,ONT.,L8S4M1 CANADA" "PHYSICA C,180(1991)407" "GA,BI,SR,CA,CU,O" 3146 PHC1800407 #NAME? Bi1.4Pb0.6Sr2Ga2Cu3O7 Bi 1.4 Pb 0.6 Sr 2 Ga 2 Cu 3 O 7 2 1991 2 Bi2201 K 62.7 62.7 THE EFFECT OF GALLIUM SUBSTITUTION ON THE SUPERCONDUCTIVITY OFTHE BISRCACUO SYSTEM 1991 "DEPARTMENT OF PHYSICS & ASTRONOMY,MCMASTER UNIVERSITY,HAMILTON,ONT.,L8S4M1 CANADA" "PHYSICA C,180(1991)407" "GA,BI,SR,CA,CU,O" 3147 PHC1730322 "T(D1)=204.7,TD2=49.7,PHASE TRANSITION" "(La,Ba)2CuO4" La1.875Ba0.125Cu1O4 La 1.875 Ba 0.125 Cu 1 O 4 1 1991 2 T K 4.4 4.4 "STRUCTURAL, NORMAL-STATE, AND SUPERCONDUCTING PROPERTIES OF (LA1-XBAX-YSRY)2CUO4" 1991 2 "PHYSICA C,173(1991)322" "LA,BA,SR,CU,O" 3148 PHC1730322 "TD1=214.7,TD2=39.7" "(La,Ba,Sr)2CuO4" La1.875Ba0.1Sr0.025Cu1O4 La 1.875 Ba 0.1 Sr 0.025 Cu 1 O 4 1 1991 2 T K 6 6 "STRUCTURAL, NORMAL-STATE, AND SUPERCONDUCTING PROPERTIES OF (LA1-XBAX-YSRY)2CUO4" 1991 2 "PHYSICA C,173(1991)322" "LA,BA,SR,CU,O" 3149 PHC1730322 "TD1=217.7,TD2=25.7" "(La,Ba,Sr)2CuO4" La1.875Ba0.075Sr0.05Cu1O4 La 1.875 Ba 0.075 Sr 0.05 Cu 1 O 4 1 1991 2 T K 8 8 "STRUCTURAL, NORMAL-STATE, AND SUPERCONDUCTING PROPERTIES OF (LA1-XBAX-YSRY)2CUO4" 1991 2 "PHYSICA C,173(1991)322" "LA,BA,SR,CU,O" 3150 PHC1730322 TD1=225. "(La,Ba,Sr)2CuO4" La1.875Ba0.05Sr0.075Cu1O4 La 1.875 Ba 0.05 Sr 0.075 Cu 1 O 4 1 1991 2 T K 17 17 "STRUCTURAL, NORMAL-STATE, AND SUPERCONDUCTING PROPERTIES OF (LA1-XBAX-YSRY)2CUO4" 1991 2 "PHYSICA C,173(1991)322" "LA,BA,SR,CU,O" 3151 PHC1730322 TD1=214.7 "(La,Ba,Sr)2CuO4" La1.875Ba0.025Sr0.1Cu1O4 La 1.875 Ba 0.025 Sr 0.1 Cu 1 O 4 1 1991 2 T K 29.1 29.1 "STRUCTURAL, NORMAL-STATE, AND SUPERCONDUCTING PROPERTIES OF (LA1-XBAX-YSRY)2CUO4" 1991 2 "PHYSICA C,173(1991)322" "LA,BA,SR,CU,O" 3152 PHC1730322 TD1=225K "(La,Sr)2CuO4" La1.875Sr0.125Cu1O4 La 1.875 Sr 0.125 Cu 1 O 4 1 1991 2 T K 30 30 "STRUCTURAL, NORMAL-STATE, AND SUPERCONDUCTING PROPERTIES OF (LA1-XBAX-YSRY)2CUO4" 1991 2 "PHYSICA C,173(1991)322" "LA,BA,SR,CU,O" 3153 PR04411971 "RES IS UNDER 0.1 MPA,OZ BY COULOMETRIC TITRATION" "(Yb,Ca)(Ba,Sr)2Cu3O7" Yb0.7Ca0.3Ba1.6Sr0.4Cu3O6.78 Yb 0.7 Ca 0.3 Ba 1.6 Sr 0.4 Cu 3 O Z 6.78 1 1991 3 Y123 3.794 3.851 11.622 K 44.6 44.6 K/GPa -1.25 0.516 COMPOSITION DEPENDENCE OF THE PRESSURE EFFECT ON TC IN (YB0.7CA0.3)(BA0.8SR0.2)2CU3OZ 1991 12 "SUPERCONDUCTIVITY RESEARCH LABORATORY,INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,SHINONOME,KOTO-KU,TOKYO 135,JAPAN" "PHYS.REV.B,44(1991)11971" "YB,CA,BA,SR,CU,O" 3154 PR04411971 "(Yb,Ca)(Ba,Sr)2Cu3O7" Yb0.7Ca0.3Ba1.6Sr0.4Cu3O6.73 Yb 0.7 Ca 0.3 Ba 1.6 Sr 0.4 Cu 3 O Z 6.73 1 1991 3 Y123 3.797 3.856 11.594 K 67.6 67.6 K/GPa -1.25 0.926 COMPOSITION DEPENDENCE OF THE PRESSURE EFFECT ON TC IN (YB0.7CA0.3)(BA0.8SR0.2)2CU3OZ 1991 12 "SUPERCONDUCTIVITY RESEARCH LABORATORY,INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,SHINONOME,KOTO-KU,TOKYO 135,JAPAN" "PHYS.REV.B,44(1991)11971" "YB,CA,BA,SR,CU,O" 3155 PR04411971 "(Yb,Ca)(Ba,Sr)2Cu3O7" Yb0.7Ca0.3Ba1.6Sr0.4Cu3O6.56 Yb 0.7 Ca 0.3 Ba 1.6 Sr 0.4 Cu 3 O Z 6.56 1 1991 2 Y123 3.83 11.677 K 80.3 80.3 K/GPa 0.95 1.3 COMPOSITION DEPENDENCE OF THE PRESSURE EFFECT ON TC IN (YB0.7CA0.3)(BA0.8SR0.2)2CU3OZ 1991 12 "SUPERCONDUCTIVITY RESEARCH LABORATORY,INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,SHINONOME,KOTO-KU,TOKYO 135,JAPAN" "PHYS.REV.B,44(1991)11971" "YB,CA,BA,SR,CU,O" 3156 PR04411971 "(Yb,Ca)(Ba,Sr)2Cu3O7" Yb0.7Ca0.3Ba1.6Sr0.4Cu3O6.43 Yb 0.7 Ca 0.3 Ba 1.6 Sr 0.4 Cu 3 O Z 6.43 1 1991 2 Y123 3.822 11.708 K 66.3 66.3 K/GPa 6.16 1.59 COMPOSITION DEPENDENCE OF THE PRESSURE EFFECT ON TC IN (YB0.7CA0.3)(BA0.8SR0.2)2CU3OZ 1991 12 "SUPERCONDUCTIVITY RESEARCH LABORATORY,INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,SHINONOME,KOTO-KU,TOKYO 135,JAPAN" "PHYS.REV.B,44(1991)11971" "YB,CA,BA,SR,CU,O" 3157 PHC1850573 "VOLUME INCREASES FROM 5.353*5.404*13.164 TO 5.35*5.379*13.216 BYOXIDIZATION,TC(SUS)=35K" La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 1 1991 3 T 5.35 5.371 13.216 K 36 37 37 4.5 2.50E-09 7 RH3157 SUPERCONDUCTING PROPERTIES AND HALL EFFECT IN ELECTROCHEMICALLLY OXIDISED LaCuO4 . 1991 "Laboratoire de Physique des Solides de Bellevue, CNRS, 92195 Meudon, France" "Physica.C,185-189(1991)573-574" 3158 PR04412086 YBa2Cu3O7 Y1Ba2Cu3O6.975 Y 1 Ba 2 Cu 3 O 7-Z 6.975 1 1991 3 Y123 K 3.54E-10 7 RH3158 EFFECT OF OXYGEN ON THE TRANSPORT PROPERTIES OF YBA2CU3O7-Z 1991 12 "INTERDISCIPLINARY RESEARCH CENTRE IN SUPERCONDUCTIVITY,UNIVERSITY OF CAMBRIDGE,MADINGLEY ROAD,CAMBRIDGE,ENGLAND CB30HE" "PHYS.REV.B,44(1991)12086" "Y,BA,CU,O" 3159 PR04412086 YBa2Cu3O7 Y1Ba2Cu3O6.6 Y 1 Ba 2 Cu 3 O 7-Z 6.6 1 1991 3 Y123 K 56.5 56.5 33.9 1.80E-09 7 RH3159 EFFECT OF OXYGEN ON THE TRANSPORT PROPERTIES OF YBA2CU3O7-Z 1991 12 "INTERDISCIPLINARY RESEARCH CENTRE IN SUPERCONDUCTIVITY,UNIVERSITY OF CAMBRIDGE,MADINGLEY ROAD,CAMBRIDGE,ENGLAND CB30HE" "PHYS.REV.B,44(1991)12086" "Y,BA,CU,O" 3160 PR04412086 YBa2Cu3O7 Y1Ba2Cu3O6.32 Y 1 Ba 2 Cu 3 O 7-Z 6.32 1 1991 3 Y123 K 68.5 7.89E-09 7 RH3160 EFFECT OF OXYGEN ON THE TRANSPORT PROPERTIES OF YBA2CU3O7-Z 1991 12 "INTERDISCIPLINARY RESEARCH CENTRE IN SUPERCONDUCTIVITY,UNIVERSITY OF CAMBRIDGE,MADINGLEY ROAD,CAMBRIDGE,ENGLAND CB30HE" "PHYS.REV.B,44(1991)12086" "Y,BA,CU,O" 3161 PR04412086 "AVERAGE GRAIN SIZE 20-30MICRON-M,Z DEDUCED FROM THE WEIGHT CHANGE,RES BY AC METHOD(77HZ)" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O Z 7 1 1991 5.1 3 Y123 K 90.2 90.2 11 2.8 -2.33 TP3161 0.6 7 RH3161 EFFECT OF OXYGEN ON THE TRANSPORT PROPERTIES OF YBA2CU3O7-Z 1991 12 "INTERDISCIPLINARY RESEARCH CENTRE IN SUPERCONDUCTIVITY,UNIVERSITY OF CAMBRIDGE,MADINGLEY ROAD,CAMBRIDGE,ENGLAND CB30HE" "PHYS.REV.B,44(1991)12086" "Y,BA,CU,O" 3162 PR04412086 YBa2Cu3O7 Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O Z 6.95 1 1991 3 Y123 K 90.9 90.9 1.8 -0.02 TP3162 0.78 4.10E-10 7 RH3162 EFFECT OF OXYGEN ON THE TRANSPORT PROPERTIES OF YBA2CU3O7-Z 1991 12 "INTERDISCIPLINARY RESEARCH CENTRE IN SUPERCONDUCTIVITY,UNIVERSITY OF CAMBRIDGE,MADINGLEY ROAD,CAMBRIDGE,ENGLAND CB30HE" "PHYS.REV.B,44(1991)12086" "Y,BA,CU,O" 3163 PR04412086 YBa2Cu3O7 Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O Z 6.9 1 1991 3 Y123 K 91.6 91.6 9.9 1.4 1.51 TP3163 0.83 7 RH3163 EFFECT OF OXYGEN ON THE TRANSPORT PROPERTIES OF YBA2CU3O7-Z 1991 12 "INTERDISCIPLINARY RESEARCH CENTRE IN SUPERCONDUCTIVITY,UNIVERSITY OF CAMBRIDGE,MADINGLEY ROAD,CAMBRIDGE,ENGLAND CB30HE" "PHYS.REV.B,44(1991)12086" "Y,BA,CU,O" 3164 PR04412086 YBa2Cu3O7 Y1Ba2Cu3O6.82 Y 1 Ba 2 Cu 3 O Z 6.82 1 1991 3 Y123 K 86.7 86.7 1.5 3.69 TP3164 1.16 7.20E-10 7 RH3164 EFFECT OF OXYGEN ON THE TRANSPORT PROPERTIES OF YBA2CU3O7-Z 1991 12 "INTERDISCIPLINARY RESEARCH CENTRE IN SUPERCONDUCTIVITY,UNIVERSITY OF CAMBRIDGE,MADINGLEY ROAD,CAMBRIDGE,ENGLAND CB30HE" "PHYS.REV.B,44(1991)12086" "Y,BA,CU,O" 3165 PR04412086 YBa2Cu3O7 Y1Ba2Cu3O6.7 Y 1 Ba 2 Cu 3 O Z 6.7 1 1991 3 Y123 K 63.9 63.9 8.63 TP3165 1.28E-09 7 RH3165 EFFECT OF OXYGEN ON THE TRANSPORT PROPERTIES OF YBA2CU3O7-Z 1991 12 "INTERDISCIPLINARY RESEARCH CENTRE IN SUPERCONDUCTIVITY,UNIVERSITY OF CAMBRIDGE,MADINGLEY ROAD,CAMBRIDGE,ENGLAND CB30HE" "PHYS.REV.B,44(1991)12086" "Y,BA,CU,O" 3166 PR04412516 "(Bi,Pb)2(Sb)Sr2Ca2Cu3O10" Bi1.7Pb0.3Sb0.05Sr2Ca2Cu3OZ Bi 1.7 Pb 0.3 Sb 0.05 Sr 2 Ca 2 Cu 3 O Z 1991 Bi2223 K 106.2 106.2 8.73 FLUCTUATION-ENHANCED CONDUCTIVITY IN THE SB-DOPED BI-PB-SR-CA-CU-O SUPERCONDUCTING SYSTEM 1991 12 "DEPARTMENT OF PHYSICS AND ASTRONOMY,MCMASTER UNIVERSITY,HAMILTON,ONTARIO L8S4M1,CANADA" "PHYS.REV.B,44(1991)12516" "SB,BI,PB,SR,CA,CU,O" 3167 PR04412516 Bi1.7Pb0.3Sb0.05Sr2Ca2Cu3OZ Bi 1.7 Pb 0.3 Sb 0.05 Sr 2 Ca 2 Cu 3 O Z 1 1991 Bi2223 K 105.8 105.8 7.7 FLUCTUATION-ENHANCED CONDUCTIVITY IN THE SB-DOPED BI-PB-SR-CA-CU-O SUPERCONDUCTING SYSTEM 1991 12 "DEPARTMENT OF PHYSICS AND ASTRONOMY,MCMASTER UNIVERSITY,HAMILTON,ONTARIO L8S4M1,CANADA" "PHYS.REV.B,44(1991)12516" "SB,BI,PB,SR,CA,CU,O" 3168 PR04412516 Bi1.7Pb0.3Sb0.1Sr2Ca2Cu3OZ Bi 1.7 Pb 0.3 Sb 0.1 Sr 2 Ca 2 Cu 3 O Z 1 1991 Bi2223 K 106.3 106.3 7.26 FLUCTUATION-ENHANCED CONDUCTIVITY IN THE SB-DOPED BI-PB-SR-CA-CU-O SUPERCONDUCTING SYSTEM 1991 12 "DEPARTMENT OF PHYSICS AND ASTRONOMY,MCMASTER UNIVERSITY,HAMILTON,ONTARIO L8S4M1,CANADA" "PHYS.REV.B,44(1991)12516" "SB,BI,PB,SR,CA,CU,O" 3169 PHC1810303 "FERRIMAGNETIC,NEGATIVE M BELLOW 35K,INFLECTION POINT AT 45K,METALLIC RESISTIVITY" TlSrVOZ Tl1Sr1V1OZ Tl 1 Sr 1 V 1 O Z 2 1991 87 K 5 1.75 ELECTRICAL AND MAGNETIC PROPERTIES OF THE TL-SR-V-O SYSTEM 1991 10 "IRC IN SUPERCONDUCTIVITY,UNIIVERSITY OF CAMBRIDGE,MADINGLY ROAD,CAMBRIDGE CB30HE,UNITED KINGDOM" "PHYSICA C,181(1991)303" "TL,SR,V,O" 3170 PRL0681058 "DELTA-TC=0.65K,75% SUBSTITUTION OF C(13)" Rb3C60 C60Rb3 C 60 Rb 3 1992 K 29.8 29.8 4000 ISOTOPE EFFECT IN SUPERCONDUCTING RB3C60 1992 2 "PHYS.REV.LETT.,68(1992)1058" "RB,C" 3171 PRL0681054 "D=1600A,GRAIN SIZE=70A" K3C60 C60K3 C 60 K 3 4 1992 fullerene K 12.8 12.8 47 5.5 26 RH3171 ELECTRONIC TRANSPORT PROPERTIES OF K3C60 FILMS 1992 2 "PHYS.REV.LETT.,68(1992)1054" "K,C" 3172 JJP0310166 "FILMS OF C60 BY VACUUM EVAP. OF C60 ONTO QUALTZ SUBSTRATE,D=1000A" C60Rb3 C 60 Rb 3 3 1992 K 26 30 28 80 Charge Transport and Superconducting Transitions in C60 Single Crystal and Thin Films Doped with Rubidium 1992 2 "The Graduate University for Advanced Studies, Institute for Molecular Science, Myodaiji, Okazaki 444" Jpn.J.Appl.Phys.Lett.31(1992)L166-L168 3173 JJP0310166 C60Rb3 C 60 Rb 3 4 1992 K 2.5 22 12.25 140 Charge Transport and Superconducting Transitions in C60 Single Crystal and Thin Films Doped with Rubidium 1992 2 "The Graduate University for Advanced Studies, Institute for Molecular Science, Myodaiji, Okazaki 444" Jpn.J.Appl.Phys.Lett.31(1992)L166-L168 3174 JJP0310166 C60K3 C 60 K 3 4 1992 K 2.5 14.5 8.5 20 Charge Transport and Superconducting Transitions in C60 Single Crystal and Thin Films Doped with Rubidium 1992 2 "The Graduate University for Advanced Studies, Institute for Molecular Science, Myodaiji, Okazaki 444" Jpn.J.Appl.Phys.Lett.31(1992)L166-L168 3175 NAT3520223 "(CSMX)3C60 (M=HG,TL,BI) HAVING ALL THE SAME TC" Cs3C60 Cs3C60 Cs 3 C 60 1991 K 29.5 29.5 Superconductivity at 30K in cesium-doped C60 1991 7 "Department of Chemistry and Division of Applied Sciences, Harvard University, Cambridge, Massachusetts 02138, USA" Nature 352(1991)223 3176 NAT3520222 COMPOSITION IS NOMINAL VALUE "(Cs,Rb)3C60" Cs2Rb1C60 Cs 2 Rb 1 C 60 1991 K 33 33 60 SUPERCONDUCTIVITY AT 33K IN CSXRBYC60 1991 7 "NATURE,350(1991)222" "CS,RB,C" 3177 NAT3520222 COMPOSITION IS NOMINAL VALUE "(Cs,Rb)3C60" Cs1Rb2C60 Cs 1 Rb 2 C 60 1991 K 31 31 30 SUPERCONDUCTIVITY AT 33K IN CSXRBYC60 1991 7 "NATURE,350(1991)222" "CS,RB,C" 3178 NAT3520222 COMPO. IS NOMINAL Rb3C60 Rb3C60C60 Rb 3 C 60 C 60 1991 K 29 29 10 SUPERCONDUCTIVITY AT 33K IN CSXRBYC60 1991 7 "NATURE,350(1991)222" "CS,RB,C" 3179 NAT3520222 COMPO. IS NOMINAL Rb2C60 C60Rb2 C 60 Rb 2 1991 K 29 29 14 SUPERCONDUCTIVITY AT 33K IN CSXRBYC60 1991 7 "NATURE,350(1991)222" "CS,RB,C" 3180 NAT3520222 COMPOSITION IS NOMINAL VALUE Rb4C60 C60Rb4 C 60 Rb 4 1991 K 29 29 18 SUPERCONDUCTIVITY AT 33K IN CSXRBYC60 1991 7 "NATURE,350(1991)222" "CS,RB,C" 3181 PRL0670271 K3C60 C60K3 C 60 K 3 1991 1.91 fullerene K 19.3 19.3 132 49 3.73 26 2400 CRITICAL MAGNETIC FIELDS IN THE SUPERCONDUCTING STATE OF K3C60 1991 7 "PHYS.REV.LETT.,67(1991)271" "K,C" 3182 NAT3500600 "VAN DER PAUW'S METHOD FOR AC RESISTIVITY,D=960A" K3C60 C60K3 C 60 K 3 4 1991 K 8 18 13 Superconductivity at 18K in potassium-doped C60 1991 "AT&T Bell Laboratories, Murray Hill, New Jersey 07974-2070, USA" Nature.35(1991)600 3183 NAT3500600 TC BY MEISSNER EFFECT K3C60 C60K3 C 60 K 3 1 1991 K 18 18 Superconductivity at 18K in potassium-doped C60 1991 "AT&T Bell Laboratories, Murray Hill, New Jersey 07974-2070, USA" Nature.35(1991)600 3184 PR04412632 MAXIMUM TC=122.7K(3.7GPA) Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O8 Tl 2 Ba 2 Ca 1 Cu 2 O 8 1 1991 Tl2212 K 112.1 112.1 K/GPa 4 PRESSURE DEPENDENCE OF TC IN TL2BA2CACU2O8 AT HYDROSTATIC PRESSURES TO 6 GPA 1991 12 "U.S.NAVAL RESEARCH LABORATORY,WASHINGTON,D.C.20375-5000" "PHYS.REV.B,44(1991)12632" "TL,BA,CA,CU,O" 3185 PR04412632 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O8 Tl 2 Ba 2 Ca 1 Cu 2 O 8 1 1991 Tl2212 K 107.2 107.2 K/GPa 1.6 PRESSURE DEPENDENCE OF TC IN TL2BA2CACU2O8 AT HYDROSTATIC PRESSURES TO 6 GPA 1991 12 "U.S.NAVAL RESEARCH LABORATORY,WASHINGTON,D.C.20375-5000" "PHYS.REV.B,44(1991)12632" "TL,BA,CA,CU,O" 3186 PR04412632 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O8 Tl 2 Ba 2 Ca 1 Cu 2 O 8 1 1991 Tl2212 K 106.7 106.7 K/GPa 2.4 PRESSURE DEPENDENCE OF TC IN TL2BA2CACU2O8 AT HYDROSTATIC PRESSURES TO 6 GPA 1991 12 "U.S.NAVAL RESEARCH LABORATORY,WASHINGTON,D.C.20375-5000" "PHYS.REV.B,44(1991)12632" "TL,BA,CA,CU,O" 3187 PR04412632 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O8 Tl 2 Ba 2 Ca 1 Cu 2 O 8 1 1991 Tl2212 K 114.1 114.1 K/GPa 2 PRESSURE DEPENDENCE OF TC IN TL2BA2CACU2O8 AT HYDROSTATIC PRESSURES TO 6 GPA 1991 12 "U.S.NAVAL RESEARCH LABORATORY,WASHINGTON,D.C.20375-5000" "PHYS.REV.B,44(1991)12632" "TL,BA,CA,CU,O" 3188 PR0450355 "GRAIN SIZE 2-4MICRON,89.4% O(18)" "(La,Sr)2CuO4" La1.87Sr0.125Cu1.07O4 La 1.87 Sr 0.125 Cu 1.07 O 4 1992 T K 26.4 26.4 0.65 O 89.4 ISOTOPE EFFECT IN LA2-XSRXCUO4 SUPERCONDUCTORS 1992 1 "PHYS.REV.B,45(1992)355" "LA,SR,CU,O" 3189 PR0450355 "92.2,91.6% O(18)" "(La,Sr)2CuO4" La1.88Sr0.125Cu0.97O4 La 1.88 Sr 0.125 Cu 0.97 O 4 1992 T K 28.4 28.4 0.44 O 91.6 ISOTOPE EFFECT IN LA2-XSRXCUO4 SUPERCONDUCTORS 1992 1 "PHYS.REV.B,45(1992)355" "LA,SR,CU,O" 3190 PR04313118 SUS PEAK AT 70K "Ba(V,Ti)S3" Ba1V1S3 Ba 1 V 1 S 3 1991 K -43 TP3190 -2.50E-09 10 Magnetic and transport properties of BaV1-xTixS3(0%$x<0.2) 1991 6 "Superonductivity Research Laboratory, International Superconductivity Technology Center, 10-13 Shinonome 1-chome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,43(1991)13118" 3191 PR04313118 SEMICON-LIKE "Ba(V,Ti)S3" Ba1V0.8TI0.2S3 Ba 1 V 0.8 TI 0.2 S 3 1991 K TP3191 Magnetic and transport properties of BaV1-xTixS3(0%$x<0.2) 1991 6 "Superonductivity Research Laboratory, International Superconductivity Technology Center, 10-13 Shinonome 1-chome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,43(1991)13118" 3192 PHC1790131 "F DISTRIBUTE HOMOGENEOUSLY,F CONTENT = 0.85*NOMINAL" "Nd2Cu(O,F)4" Nd2Cu1F0.1O3.9 Nd 2 Cu 1 F 0.1 O 3.9 1 1991 2 T' 3.946 12.129 K 10 RH3192 TEM OBSERVATION AND HALL MEASUREMENTS ONSUPERCONDUCTIVE ND2CUO4-XFX 1991 "SUPERCONDUCTIVITY RESEARCH LABORATORY,INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO 135,JAPAN" "PHYSICA C,179(1991)131" "ND,CU,O,F" 3193 PHC1790131 SAME AS 3192 "Nd2Cu(O,F)4" Nd2Cu1F0.16O3.84 Nd 2 Cu 1 F 0.16 O 3.84 1 1991 2 T' K 10 RH3193 TEM OBSERVATION AND HALL MEASUREMENTS ONSUPERCONDUCTIVE ND2CUO4-XFX 1991 "SUPERCONDUCTIVITY RESEARCH LABORATORY,INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO 135,JAPAN" "PHYSICA C,179(1991)131" "ND,CU,O,F" 3194 PHC1790131 SAME AS 3192 "Nd2Cu(O,F)4" Nd2Cu1F0.2O3.8 Nd 2 Cu 1 F 0.2 O 3.8 1 1991 2 T' 3.95 12.12 K 27 27 25 -8.30E-10 RH3194 TEM OBSERVATION AND HALL MEASUREMENTS ONSUPERCONDUCTIVE ND2CUO4-XFX 1991 "SUPERCONDUCTIVITY RESEARCH LABORATORY,INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO 135,JAPAN" "PHYSICA C,179(1991)131" "ND,CU,O,F" 3195 PHC1790131 SAME AS 3192 "Nd2Cu(O,F)4" Nd2Cu1F0.3O3.7 Nd 2 Cu 1 F 0.3 O 3.7 1 1991 2 T' 3.951 12.116 K 27 27 RH3195 TEM OBSERVATION AND HALL MEASUREMENTS ONSUPERCONDUCTIVE ND2CUO4-XFX 1991 "SUPERCONDUCTIVITY RESEARCH LABORATORY,INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO 135,JAPAN" "PHYSICA C,179(1991)131" "ND,CU,O,F" 3196 PHC1730103 "SMALL GRAIN,HIGH DENSITY OF PORES" "Nd2Cu(O,F)4" Nd2Cu1F0.2O3.8 Nd 2 Cu 1 F 0.2 O 3.8 1 1991 2 T' K 10 SUPERCONDUCTIVITY IN ND2CUO4-XFX 1991 1 "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CERNTER, 10-13 SHINONOME 1-CHOME, KOTO-KU, TOKYO 135, JAPAN" "PHYSICA C,173(1991)103" "ND,CU,O,F" 3197 PHC1730103 SAME AS 3192 "Nd2Cu(O,F)4" Nd2Cu1F0.4O3.6 Nd 2 Cu 1 F 0.4 O 3.6 2 1991 2 T' 3.95 12.116 K 10 27 18.5 SUPERCONDUCTIVITY IN ND2CUO4-XFX 1991 1 "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CERNTER, 10-13 SHINONOME 1-CHOME, KOTO-KU, TOKYO 135, JAPAN" "PHYSICA C,173(1991)103" "ND,CU,O,F" 3198 PHC1730103 SAME AS 3192 "Nd2Cu(O,F)4" Nd2Cu1F0.5O3.5 Nd 2 Cu 1 F 0.5 O 3.5 2 1991 2 T' 3.95 12.115 K 8 27 17.5 SUPERCONDUCTIVITY IN ND2CUO4-XFX 1991 1 "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CERNTER, 10-13 SHINONOME 1-CHOME, KOTO-KU, TOKYO 135, JAPAN" "PHYSICA C,173(1991)103" "ND,CU,O,F" 3199 PHC1820157 "SEMICON-LIKE,(PB0.5,CU0.5)" "(Pb,Cu)Sr2(Y,Ca)Cu2OZ" Pb0.5Sr2Y1Cu2.5OZ Pb 0.5 Sr 2 Y 1 Cu 2.5 O Z 1991 Pb2212 K RH3199 TRANSPORT PROPERTIES OF THE PB-BASED SUPERCONDUCTING SUPRATE PB(1+X)/2CU(1-X)/2 SR(Y1-XCAX)CU2OY 1991 10 "SUPERCONDUCTIVITY RESEARCH LABORATORY,INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO 135,JAPAN" "PHYSICA C,182(1991)))157" "PB,CU,SR,Y,CA,O" 3200 PHC1820157 "SEMICON-LIKE,(PB0.6,CU0.4)" "(Pb,Cu)Sr2(Y,Ca)Cu2OZ" Pb0.6Sr2Y0.8Ca0.2Cu2.4OZ Pb 0.6 Sr 2 Y 0.8 Ca 0.2 Cu 2.4 O Z 1991 Pb2212 K RH3200 TRANSPORT PROPERTIES OF THE PB-BASED SUPERCONDUCTING SUPRATE PB(1+X)/2CU(1-X)/2 SR(Y1-XCAX)CU2OY 1991 10 "SUPERCONDUCTIVITY RESEARCH LABORATORY,INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO 135,JAPAN" "PHYSICA C,182(1991)))157" "PB,CU,SR,Y,CA,O" 3201 PHC1820157 "SEMICON-LIKE,(PB0.6,CU0.4)" "(Pb,Cu)Sr2(Y,Ca)Cu2OZ" Pb0.6Sr2Y0.8Ca0.2Cu2.4OZ Pb 0.6 Sr 2 Y 0.8 Ca 0.2 Cu 2.4 O Z 1991 Pb1212 K 8.99E-09 RH3201 TRANSPORT PROPERTIES OF THE PB-BASED SUPERCONDUCTING SUPRATE PB(1+X)/2CU(1-X)/2 SR(Y1-XCAX)CU2OY 1991 10 "SUPERCONDUCTIVITY RESEARCH LABORATORY,INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO 135,JAPAN" "PHYSICA C,182(1991)))157" "PB,CU,SR,Y,CA,O" 3202 PHC1820157 "SEMICON-LIKE,(PB0.65,CU0.35)" "(Pb,Cu)Sr2(Y,Ca)Cu2OZ" Pb0.65Sr2Y0.7Ca0.3Cu2.35OZ Pb 0.65 Sr 2 Y 0.7 Ca 0.3 Cu 2.35 O Z 1991 Pb1212 K 76.6 TP3202 8.21E-09 RH3202 TRANSPORT PROPERTIES OF THE PB-BASED SUPERCONDUCTING SUPRATE PB(1+X)/2CU(1-X)/2 SR(Y1-XCAX)CU2OY 1991 10 "SUPERCONDUCTIVITY RESEARCH LABORATORY,INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO 135,JAPAN" "PHYSICA C,182(1991)))157" "PB,CU,SR,Y,CA,O" 3203 PHC1820157 "SEMICON-LIKE,(PB0.65,CU0.35)" "(Pb,Cu)Sr2(Y,Ca)Cu2OZ" Pb0.65Sr2Y0.7Ca0.3Cu2.35OZ Pb 0.65 Sr 2 Y 0.7 Ca 0.3 Cu 2.35 O Z 1991 Pb1212 K 20 20 63.7 TP3203 7.15E-09 RH3203 TRANSPORT PROPERTIES OF THE PB-BASED SUPERCONDUCTING SUPRATE PB(1+X)/2CU(1-X)/2 SR(Y1-XCAX)CU2OY 1991 10 "SUPERCONDUCTIVITY RESEARCH LABORATORY,INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO 135,JAPAN" "PHYSICA C,182(1991)))157" "PB,CU,SR,Y,CA,O" 3204 PHC1820157 "SEMICON-LIKE,(PB0.675,CU0.325)" "(Pb,Cu)Sr2(Y,Ca)Cu2OZ" Pb0.675Sr2Y0.65Ca0.35Cu2.325OZ Pb 0.675 Sr 2 Y 0.65 Ca 0.35 Cu 2.325 O Z 1991 Pb1212 K 60.8 TP3204 7.61E-09 RH3204 TRANSPORT PROPERTIES OF THE PB-BASED SUPERCONDUCTING SUPRATE PB(1+X)/2CU(1-X)/2 SR(Y1-XCAX)CU2OY 1991 10 "SUPERCONDUCTIVITY RESEARCH LABORATORY,INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO 135,JAPAN" "PHYSICA C,182(1991)))157" "PB,CU,SR,Y,CA,O" 3205 PHC1820157 "(PB0.675,CU0.325)" "(Pb,Cu)Sr2(Y,Ca)Cu2OZ" Pb0.675Sr2Y0.65Ca0.35Cu2.325OZ Pb 0.675 Sr 2 Y 0.65 Ca 0.35 Cu 2.325 O Z 1991 Pb1212 K 40 40 51.7 TP3205 6.57E-09 RH3205 TRANSPORT PROPERTIES OF THE PB-BASED SUPERCONDUCTING SUPRATE PB(1+X)/2CU(1-X)/2 SR(Y1-XCAX)CU2OY 1991 10 "SUPERCONDUCTIVITY RESEARCH LABORATORY,INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER,10-13 SHINONOME 1-CHOME,KOTO-KU,TOKYO 135,JAPAN" "PHYSICA C,182(1991)))157" "PB,CU,SR,Y,CA,O" 3206 CEM0940294 "METALLIC,PAULI PARAMAGNETISM" BaNb2O5 Ba1Nb2S5 Ba 1 Nb 2 S 5 1991 7 3.32 24.88 K 1.9 -11 TP3206 1.3 "Physical Properties of a New Barium Niobium Sulfide, BaNd2S5" 1991 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 10-13 Shinonome 1-chome, Koto-ku, Tokyo 135, Japan" J.Solid State Chem.94(1991)294-297 3207 CTR0180157 "Bi2(R,Ca)2CaCu2O8" Bi2La0.5Ca2.5Cu2OZ Bi 2 La 0.5 Ca 2.5 Cu 2 O Z 1 1991 K 30 57 43.5 1991 "Cer.Trans.,18(1991)157" 3208 CTR0180157 "Bi2(R,Ca)2CaCu2O8" Bi2Pr0.5Ca2.5Cu2OZ Bi 2 Pr 0.5 Ca 2.5 Cu 2 O Z 1 1991 K 37 57 47 1991 "Cer.Trans.,18(1991)157" 3209 CTR0180157 "Bi2(R,Ca)2CaCu2O8" Bi2Nd0.5Ca2.5Cu2OZ Bi 2 Nd 0.5 Ca 2.5 Cu 2 O Z 1 1991 K 33 54 43.5 1991 "Cer.Trans.,18(1991)157" 3210 CTR0180157 "Bi2(R,Ca)2CaCu2O8" Bi2Sm0.5Ca2.5Cu2OZ Bi 2 Sm 0.5 Ca 2.5 Cu 2 O Z 1 1991 K 27 46 36.5 1991 "Cer.Trans.,18(1991)157" 3211 CTR0180157 "Bi2(R,Ca)2CaCu2O8" Bi2Eu0.5Ca2.5Cu2OZ Bi 2 Eu 0.5 Ca 2.5 Cu 2 O Z 1 1991 K 21 42 31.5 1991 "Cer.Trans.,18(1991)157" 3212 CTR0180157 "Bi2(R,Ca)2CaCu2O8" Bi2Gd0.5Ca2.5Cu2OZ Bi 2 Gd 0.5 Ca 2.5 Cu 2 O Z 1 1991 K 21 36 28.5 1991 "Cer.Trans.,18(1991)157" 3213 CTR0180157 "Bi2(R,Ca)2CaCu2O8" Bi2La0.25Pr0.25Ca2.5Cu2OZ Bi 2 La 0.25 Pr 0.25 Ca 2.5 Cu 2 O Z 1 1991 K 45 62 53.5 1991 "Cer.Trans.,18(1991)157" 3214 CTR0180157 "Bi2(R,Ca)2CaCu2O8" Bi2La0.25Nd0.25Ca2.5Cu2OZ Bi 2 La 0.25 Nd 0.25 Ca 2.5 Cu 2 O Z 1 1991 K 40 62 51 1991 "Cer.Trans.,18(1991)157" 3215 CTR0180157 "Bi2(R,Ca)2CaCu2O8" Bi2La0.25Sm0.25Ca2.5Cu2OZ Bi 2 La 0.25 Sm 0.25 Ca 2.5 Cu 2 O Z 1 1991 K 35 60 47.5 1991 "Cer.Trans.,18(1991)157" 3216 CTR0180157 "Bi2(R,Ca)2CaCu2O8" Bi2La0.25Eu0.25Ca2.5Cu2OZ Bi 2 La 0.25 Eu 0.25 Ca 2.5 Cu 2 O Z 1 1991 K 33 60 46.5 1991 "Cer.Trans.,18(1991)157" 3217 CTR0180157 "Bi2(R,Ca)2CaCu2O8" Bi2La0.25Gd0.25Ca2.5Cu2OZ Bi 2 La 0.25 Gd 0.25 Ca 2.5 Cu 2 O Z 1 1991 K 40 58 49 1991 "Cer.Trans.,18(1991)157" 3218 PR0450527 "SUPERCON. IS SEEN ONLY FOR X<0.2 IN BI(2+X),REDUCED SAMPLE 3220" Bi2.15Sr1.85Cu1O5.4+Z Bi 2.15 Sr 1.85 Cu 1 O 5.4+Z 1992 Bi2201 K 6 6 1.31E-09 RH3218 LOW-TEMPERATURE HALL EFFECT IN BI2SR2CUO6-Z 1992 1 "PHYS.REV.B,45(1992)527" "BI,SR,CU,O" 3219 PR0450527 Bi2.25Sr1.75Cu1O5.4+Z Bi 2.25 Sr 1.75 Cu 1 O 5.4+Z 1992 Bi2201 K 2.76E-09 RH3219 LOW-TEMPERATURE HALL EFFECT IN BI2SR2CUO6-Z 1992 1 "PHYS.REV.B,45(1992)527" "BI,SR,CU,O" 3220 PR0450527 Bi2.15Sr1.85Cu1O5.4+Z Bi 2.15 Sr 1.85 Cu 1 O 5.4+Z 1992 Bi2201 K 2.57E-09 RH3220 LOW-TEMPERATURE HALL EFFECT IN BI2SR2CUO6-Z 1992 1 "PHYS.REV.B,45(1992)527" "BI,SR,CU,O" 3221 PR0450515 NON-SUPER "(Nd,Ce)2CuO4" Nd1.975Ce0.025Cu1O4-Z Nd 1.975 Ce 0.025 Cu 1 O 4-Z 3 1992 T' K -108 TP3221 RH3221 TRANSPORT AND LOCALIZATION IN ND2-XCEXCUO4-Y CRYSTALS AT LOW DOPING 1992 1 "PHYS.REV.B,45(1992)515" "ND,CE,CU,O" 3222 PR0450511 YBa2Cu3O7 Y1Ba2Cu3O6.92 Y 1 Ba 2 Cu 3 O 7-Z 6.92 3 1992 K 92 0.5 92 8 THC3222 0.25 EVIDENCE FOR STRONG ELECTRON-PHONON COUPLING IN THE THERMAL CONDUCTIVITY OF YBA2CU3O7-Z 1992 1 "PHYS.REV.B,45(1992)511" "Y,BA,CU,O" 3223 PHC1900099 "(INXPB0.75-XCU0.25)SR2(CA0.5Y0.5)CU2O7-Z,X=0" "(Pb,Cu,In)Sr2(Ca,Y)Cu2O7" Pb0.75Sr2Ca0.5Y0.5Cu2.25O7-Z Pb 0.75 Sr 2 Ca 0.5 Y 0.5 Cu 2.25 O 7-Z 1991 2 Pb1212 3.8 11.8 K 45 45 21.7 TP3223 "BULK NEW HIGH-TC SUPERCONDUCTORS IN THE (PB,CU)SR2(CA,Y)CU2O7-Z AND (IN,PB,CU)SR2(CA,Y)CU2O7-Z SYSTEMS" 1991 12 "PHYSICA C,190(1991)99" "PB,CU,SR,CA,Y,O,IN" 3224 PHC1900099 "SAME AS 3223,X=0.2" "(Pb,Cu,In)Sr2(Ca,Y)Cu2O7" In0.2Pb0.55Sr2Ca0.5Y0.5Cu2.25O7-Z In 0.2 Pb 0.55 Sr 2 Ca 0.5 Y 0.5 Cu 2.25 O 7-Z 1991 2 Pb1212 3.8 11.8 K 60 60 19.1 TP3224 "BULK NEW HIGH-TC SUPERCONDUCTORS IN THE (PB,CU)SR2(CA,Y)CU2O7-Z AND (IN,PB,CU)SR2(CA,Y)CU2O7-Z SYSTEMS" 1991 12 "PHYSICA C,190(1991)99" "PB,CU,SR,CA,Y,O,IN" 3225 PHC1840041 "1.8*1.7*1.2MM2,92.25% FREE OF TWIN,HC1(4K)=164 OE FOR H//B-AXIS,HC1(4K)=1250 OE FOR H//C-AXIS" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1991 Y123 K a-b anisotropy properties of millimeter-sized monodomain YBa2Cu3O7-x single crystals 1991 "Physica C,184(1991)41" 3226 PHC1840041 "SAME AS 3225,HC1(4K)=117 OE FOR H//B-AXIS,HC1(4K)=520 OE FOR H//C-AXIS" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1991 Y123 K a-b anisotropy properties of millimeter-sized monodomain YBa2Cu3O7-x single crystals 1991 "Physica C,184(1991)41" 3227 PHC1840113 Gd1Ba2Cu3O7-Z Gd 1 Ba 2 Cu 3 O 7-Z 1 1991 3 Y123 K 91.2 0.7 91.2 SP3227 37 SPECIFIC HEAT OF A HIGH-TEMPERATURE SUPERCONDUCTOR:DYBA2CU3O7 1991 12 "PHYSICA C,184(1991)113" "DY,BA,CU,O" 3228 PRL0683240 GAP=46MEV BY HREELS Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1992 Bi2212 K 88.5 5 88.5 6 TEMPERATURE DEPENDENCE OF THE ENERGY GAP IN BI2SR2CACU2O8 SUPERCONDUCTORS BY HIGH-RESOLUTION ELECTRON-ENERGY-LOSS SPECTROSCOPY 1992 5 PHYS.REV.LETT.68(1992)3240 "BI,SR,CA,CU,O" 3229 PHC1900104 "Sr4(V,Ti)3O10" Sr4V2.7TI0.3O9.51 Sr 4 V 2.7 TI 0.3 O 10-Z 9.51 1991 K 4.2 CANDIDATE COMPOUNDS FOR SUPERCONDUCTIVITY 1991 12 "PHYCA C,190(1991)104" 3230 PHC1900104 "Sr4(V,Ti)3O10" Sr4V2.82TI0.18O9.47 Sr 4 V 2.82 TI 0.18 O 10-Z 9.47 1991 K 4.2 CANDIDATE COMPOUNDS FOR SUPERCONDUCTIVITY 1991 12 "PHYCA C,190(1991)104" 3231 PHC1900104 "Sr4(V,Ti)3O10" Sr4V2.85TI0.15O9.6 Sr 4 V 2.85 TI 0.15 O 10-Z 9.6 1991 K 4.2 CANDIDATE COMPOUNDS FOR SUPERCONDUCTIVITY 1991 12 "PHYCA C,190(1991)104" 3232 PHC1900104 "CURIEC=EMU.K/MOLE,KAIZERO=EMU/MOLE" "(La,Sr)RhO3" La1Rh1O3 La 1 Rh 1 O 3 1991 -1.3 K 4.2 CANDIDATE COMPOUNDS FOR SUPERCONDUCTIVITY 1991 12 "PHYCA C,190(1991)104" 3233 PHC1900104 "(La,Sr)RhO3" La0.9Sr0.1Rh1O3 La 0.9 Sr 0.1 Rh 1 O 3 1991 K 4.2 CANDIDATE COMPOUNDS FOR SUPERCONDUCTIVITY 1991 12 "PHYCA C,190(1991)104" 3234 PHC1900104 "(La,Ca)RhO3" La0.8Ca0.2Rh1O3 La 0.8 Ca 0.2 Rh 1 O 3 1991 K 4.2 CANDIDATE COMPOUNDS FOR SUPERCONDUCTIVITY 1991 12 "PHYCA C,190(1991)104" 3235 PHC1900104 SAME AS 3232 LaCoO3 La1Co1O3 La 1 Co 1 O 3 1991 -2.26E+31 -218 K 4.2 CANDIDATE COMPOUNDS FOR SUPERCONDUCTIVITY 1991 12 "PHYCA C,190(1991)104" 3236 PR0457436 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.9Pr0.1Cu2O8 Bi 2 Sr 2 Ca 0.9 Pr 0.1 Cu 2 O 8 1992 2 Bi2212 5.404 30.706 K "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3237 PR0457436 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.8Pr0.2Cu2O8 Bi 2 Sr 2 Ca 0.8 Pr 0.2 Cu 2 O 8 1992 2 Bi2212 5.451 30.628 K 73 73 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3238 PR0457436 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.7Pr0.3Cu2O8 Bi 2 Sr 2 Ca 0.7 Pr 0.3 Cu 2 O 8 1992 2 Bi2212 5.437 30.654 K 61 61 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3239 PR0457436 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.6Pr0.4Cu2O8 Bi 2 Sr 2 Ca 0.6 Pr 0.4 Cu 2 O 8 1992 2 Bi2212 5.454 30.697 K 41 41 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3240 PR0457436 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.5Pr0.5Cu2O8 Bi 2 Sr 2 Ca 0.5 Pr 0.5 Cu 2 O 8 1992 2 Bi2212 5.446 30.697 K 16 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3241 PR0457436 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.4Pr0.6Cu2O8 Bi 2 Sr 2 Ca 0.4 Pr 0.6 Cu 2 O 8 1992 2 Bi2212 5.465 30.74 K 4.2 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3242 PR0457436 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.3Pr0.7Cu2O8 Bi 2 Sr 2 Ca 0.3 Pr 0.7 Cu 2 O 8 1992 2 Bi2212 5.463 30.774 K 4.2 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3243 PR0457436 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.2Pr0.8Cu2O8 Bi 2 Sr 2 Ca 0.2 Pr 0.8 Cu 2 O 8 1992 2 Bi2212 5.479 30.757 K 4.2 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3244 PR0457436 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.1Pr0.9Cu2O8 Bi 2 Sr 2 Ca 0.1 Pr 0.9 Cu 2 O 8 1992 2 Bi2212 5.478 30.731 K 4.2 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3245 PR0457436 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Pr1Cu2O8 Bi 2 Sr 2 Pr 1 Cu 2 O 8 1992 2 Bi2212 30.748 K 4.2 26 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3246 PR0457436 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1992 2 Bi2212 K 81 81 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3247 PR0457436 "Bi2Sr2(Ca,Gd)Cu2O8" Bi2Sr2Ca0.9Gd0.1Cu2O8 Bi 2 Sr 2 Ca 0.9 Gd 0.1 Cu 2 O 8 1992 2 Bi2212 5.425 K 80 80 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3248 PR0457436 "Bi2Sr2(Ca,Gd)Cu2O8" Bi2Sr2Ca0.8Gd0.2Cu2O8 Bi 2 Sr 2 Ca 0.8 Gd 0.2 Cu 2 O 8 1992 2 Bi2212 5.418 30.586 K 73 73 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3249 PR0457436 "Bi2Sr2(Ca,Gd)Cu2O8" Bi2Sr2Ca0.7Gd0.3Cu2O8 Bi 2 Sr 2 Ca 0.7 Gd 0.3 Cu 2 O 8 1992 2 Bi2212 5.433 30.586 K 48 48 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3250 PR0457436 "Bi2Sr2(Ca,Gd)Cu2O8" Bi2Sr2Ca0.6Gd0.4Cu2O8 Bi 2 Sr 2 Ca 0.6 Gd 0.4 Cu 2 O 8 1992 2 Bi2212 5.437 30.465 K 30 30 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3251 PR0457436 "Bi2Sr2(Ca,Gd)Cu2O8" Bi2Sr2Ca0.5Gd0.5Cu2O8 Bi 2 Sr 2 Ca 0.5 Gd 0.5 Cu 2 O 8 1992 2 Bi2212 5.449 30.465 K 4.2 19 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3252 PR0457436 "Bi2Sr2(Ca,Gd)Cu2O8" Bi2Sr2Ca0.4Gd0.6Cu2O8 Bi 2 Sr 2 Ca 0.4 Gd 0.6 Cu 2 O 8 1992 2 Bi2212 5.449 30.369 K 4.2 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3253 PR0457436 "Bi2Sr2(Ca,Gd)Cu2O8" Bi2Sr2Ca0.3Gd0.7Cu2O8 Bi 2 Sr 2 Ca 0.3 Gd 0.7 Cu 2 O 8 1992 2 Bi2212 5.444 30.352 K 4.2 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3254 PR0457436 "Bi2Sr2(Ca,Gd)Cu2O8" Bi2Sr2Ca0.2Gd0.8Cu2O8 Bi 2 Sr 2 Ca 0.2 Gd 0.8 Cu 2 O 8 1992 2 Bi2212 5.447 30.265 K 4.2 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3255 PR0457436 "Bi2Sr2(Ca,Gd)Cu2O8" Bi2Sr2Gd1Cu2O8 Bi 2 Sr 2 Gd 1 Cu 2 O 8 1992 2 Bi2212 30.265 K 4.2 30.7 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3256 PR0457436 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.9Y0.1Cu2O8 Bi 2 Sr 2 Ca 0.9 Y 0.1 Cu 2 O 8 1992 2 Bi2212 5.403 30.8 K 77 77 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3257 PR0457436 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.8Y0.2Cu2O8 Bi 2 Sr 2 Ca 0.8 Y 0.2 Cu 2 O 8 1992 2 Bi2212 5.405 30.714 K 70 70 1.7 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3258 PR0457436 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.7Y0.3Cu2O8 Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 2 O 8 1992 2 Bi2212 5.408 30.62 K 48 48 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3259 PR0457436 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.6Y0.4Cu2O8 Bi 2 Sr 2 Ca 0.6 Y 0.4 Cu 2 O 8 1992 2 Bi2212 5.416 30.414 K 37 37 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3260 PR0457436 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.5Y0.5Cu2O8 Bi 2 Sr 2 Ca 0.5 Y 0.5 Cu 2 O 8 1992 2 Bi2212 5.418 30.414 K 22 22 2.3 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3261 PR0457436 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.4Y0.6Cu2O8 Bi 2 Sr 2 Ca 0.4 Y 0.6 Cu 2 O 8 1992 2 Bi2212 5.421 30.371 K 9 9 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3262 PR0457436 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.1Y0.9Cu2O8 Bi 2 Sr 2 Ca 0.1 Y 0.9 Cu 2 O 8 1992 358 2 Bi2212 5.436 30.31 K 4.2 6.5 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3263 PR0457436 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.2Y0.8Cu2O8 Bi 2 Sr 2 Ca 0.2 Y 0.8 Cu 2 O 8 1992 296 2 Bi2212 5.432 30.242 K 4.2 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3264 PR0457436 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Y1Cu2O8 Bi 2 Sr 2 Y 1 Cu 2 O 8 1992 368 2 Bi2212 K 4.2 10.2 "SUPERCONDUCTING AND MAGNETIC PHASE BOUNDARIES IN BI2SR2CA1-XMXCU2O8,WITH M=Y,GD, AND PR" 1992 4 "PHYS.REV.B,45(1992)7436" "BA,SR,CA,Y,GD,PR,CU,O" 3265 SSC0810253 GRAIN SIZE=9MICRON "YBa2(Cu,Li)3O7" Y1Ba2Cu2.95Li0.05OZ Y 1 Ba 2 Cu 2.95 Li 0.05 O Z 1992 Y123 K 82 82 "ORIENTED GRAIN GROWTH IN YBA2CU3O7-Z BY ALKALI METALS (LI,NA &K) SUBSTITUTION" 1992 1 "J.SOLID STATE COMMUN.,81(1992)253" "Y,BA,CU,O,LI,NA,K" 3266 SSC0810253 26 MICRON "YBa2(Cu,Li)3O7" Y1Ba2Cu2.9Li0.1OZ Y 1 Ba 2 Cu 2.9 Li 0.1 O Z 1992 Y123 K 78 78 "ORIENTED GRAIN GROWTH IN YBA2CU3O7-Z BY ALKALI METALS (LI,NA &K) SUBSTITUTION" 1992 1 "J.SOLID STATE COMMUN.,81(1992)253" "Y,BA,CU,O,LI,NA,K" 3267 SSC0810253 32MICRON "YBa2(Cu,Li)3O7" Y1Ba2Cu2.98Li0.2OZ Y 1 Ba 2 Cu 2.98 Li 0.2 O Z 1992 Y123 K 77 77 "ORIENTED GRAIN GROWTH IN YBA2CU3O7-Z BY ALKALI METALS (LI,NA &K) SUBSTITUTION" 1992 1 "J.SOLID STATE COMMUN.,81(1992)253" "Y,BA,CU,O,LI,NA,K" 3268 SSC0810253 7 MICRON Y1BaNa0.05Cu3OZ Y 1 Ba Na 0.05 Cu 3 O Z 1992 Y123 K 84 84 "ORIENTED GRAIN GROWTH IN YBA2CU3O7-Z BY ALKALI METALS (LI,NA &K) SUBSTITUTION" 1992 1 "J.SOLID STATE COMMUN.,81(1992)253" "Y,BA,CU,O,LI,NA,K" 3269 SSC0810253 17 MICRON Y1BaNa0.1Cu3OZ Y 1 Ba Na 0.1 Cu 3 O Z 1992 Y123 K 84 84 "ORIENTED GRAIN GROWTH IN YBA2CU3O7-Z BY ALKALI METALS (LI,NA &K) SUBSTITUTION" 1992 1 "J.SOLID STATE COMMUN.,81(1992)253" "Y,BA,CU,O,LI,NA,K" 3270 SSC0810253 23MICRON Y1BaNa0.2Cu3OZ Y 1 Ba Na 0.2 Cu 3 O Z 1992 Y123 K 84 84 "ORIENTED GRAIN GROWTH IN YBA2CU3O7-Z BY ALKALI METALS (LI,NA &K) SUBSTITUTION" 1992 1 "J.SOLID STATE COMMUN.,81(1992)253" "Y,BA,CU,O,LI,NA,K" 3271 SSC0810253 6 MICRON "Y(Ba,K)2Cu3O7" Y1Ba1.95K0.05Cu3OZ Y 1 Ba 1.95 K 0.05 Cu 3 O Z 1992 Y123 K 86 86 "ORIENTED GRAIN GROWTH IN YBA2CU3O7-Z BY ALKALI METALS (LI,NA &K) SUBSTITUTION" 1992 1 "J.SOLID STATE COMMUN.,81(1992)253" "Y,BA,CU,O,LI,NA,K" 3272 SSC0810253 10 MICRON "Y(Ba,K)2Cu3O7" Y1Ba1.9K0.1Cu3OZ Y 1 Ba 1.9 K 0.1 Cu 3 O Z 1992 Y123 K 86 86 "ORIENTED GRAIN GROWTH IN YBA2CU3O7-Z BY ALKALI METALS (LI,NA &K) SUBSTITUTION" 1992 1 "J.SOLID STATE COMMUN.,81(1992)253" "Y,BA,CU,O,LI,NA,K" 3273 SSC0810253 16 MICRON "Y(Ba,K)2Cu3O7" Y1Ba1.8K0.2Cu3OZ Y 1 Ba 1.8 K 0.2 Cu 3 O Z 1992 Y123 K 86 86 "ORIENTED GRAIN GROWTH IN YBA2CU3O7-Z BY ALKALI METALS (LI,NA &K) SUBSTITUTION" 1992 1 "J.SOLID STATE COMMUN.,81(1992)253" "Y,BA,CU,O,LI,NA,K" 3274 SSC0810109 UNKNOWN IMPURITY "(BI,GA)2(SR,CA)2CACU2O8" Bi2Sr1.8Ca1.2Cu2O8 Bi 2 Sr 1.8 Ca 1.2 Cu 2 O 8 1992 Bi2212 K 68.4 68.4 EFFECT OF GA2O3 SUBSTITUTION IN BI-2212 SUPERCONDUCTOR 1992 1 "J.SOLID STATE COMMUN.,81(1992)109" "BI,SR,CA,CU,GA,O" 3275 SSC0810109 BI SITE SUBSTITUTE BY GA "(BI,CA)2(SR,CA)2CACU208" Bi1.8Ga0.2Sr1.8Ca1.2Cu2O8 Bi 1.8 Ga 0.2 Sr 1.8 Ca 1.2 Cu 2 O 8 1992 Bi2212 K 56.5 56.5 EFFECT OF GA2O3 SUBSTITUTION IN BI-2212 SUPERCONDUCTOR 1992 1 "J.SOLID STATE COMMUN.,81(1992)109" "BI,SR,CA,CU,GA,O" 3276 SSC0810109 SAME AS 3275 "(BI,CA)2(SR,CA)2CACU2O8" Bi1.5Ga0.5Sr1.8Ca1.2Cu2O8 Bi 1.5 Ga 0.5 Sr 1.8 Ca 1.2 Cu 2 O 8 1992 Bi2212 K 41 41 EFFECT OF GA2O3 SUBSTITUTION IN BI-2212 SUPERCONDUCTOR 1992 1 "J.SOLID STATE COMMUN.,81(1992)109" "BI,SR,CA,CU,GA,O" 3277 SSC0810109 SAME AS 3275 "(BI,GA)2(SR,CA)2CACU2O8" Bi1Ga1Sr1.8Ca1.2Cu2O8 Bi 1 Ga 1 Sr 1.8 Ca 1.2 Cu 2 O 8 1992 Bi2212 K 24.8 24.8 EFFECT OF GA2O3 SUBSTITUTION IN BI-2212 SUPERCONDUCTOR 1992 1 "J.SOLID STATE COMMUN.,81(1992)109" "BI,SR,CA,CU,GA,O" 3278 SSC0810081 "GAP=13 MEV AT 4.2K,BSCCO/IN2O3/PB0.5IN0.5 JUNCTION" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 1992 3 Bi2212 5.406 5.436 30.87 K 77.8 77.8 3.8 SINGLE PARTICLE TUNNELING STUDIES ON BI2SR2CA1CU2OY 1992 1 "J.SOLID STATE COMMUN.,81(1992)81" "BI,SR,CA,CU,O" 3279 PR0457414 WHISKER Bi2Sr2Ca2Cu3O10 Bi2Sr2Ca2Cu3OZ Bi 2 Sr 2 Ca 2 Cu 3 O Z 1992 Bi2223 K 106.5 106.5 1210 39 16 0.51 29 0.93 0.38 UPPER CRITICAL FIELD AND ANISOTROPY OF THE HIGH-TC BI2SR2CA2CU3OX PHASE 1992 4 "PHYS.REV.B,45(1992)7414" "BI,SR,CA,CU,O" 3280 PR0457402 "IMPURITY=CUO,NO Y123,NO Y247 PHASES DETERMINED BY XRD,PENET CALCULATED BY HC1,PENET ESTIMATED FROM HC1 AND G-L PARAMETER" YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1992 Y124 K 79.2 79.2 67 87 1.57 19.5 1960 "MAGNETIC MEASUREMENTS OF THE UPPER CRITICAL FIELD,IRREVERSIBILITY LINE,ANISOTROPY,AND MAGNETIC PENETRATION DEPTH OF GRAIN-ALIGNED YBA2CU4O8" 1992 4 "PHYS.REV.B,45(1992)7402" "Y,BA,CU,O" 3281 PR0457406 SEMICONDUCTOR Pb2Sr2RCu3O8 Pb2Sr2Pr1Cu3O8 Pb 2 Sr 2 Pr 1 Cu 3 O 8 3 1992 Pb3212 K 60 "OPTICAL INVESTIGATION OF THE METAL-INSULATOR TRANSITION IN THECA-FREE PB2SR2LCU3O8 (L=Y,DY,EU,SM,ND,AND PR)SERIES" 1992 4 "PHYS.REV.B,45(1992)7406" "PB,SR,Y,DY,EU,SM,ND,PR,CU,O" 3282 PR0457406 SEMICONDUCTOR Pb2Sr2RCu3O8 Pb2Sr2Sm1Cu3O8 Pb 2 Sr 2 Sm 1 Cu 3 O 8 3 1992 Pb3212 K 60 "OPTICAL INVESTIGATION OF THE METAL-INSULATOR TRANSITION IN THECA-FREE PB2SR2LCU3O8 (L=Y,DY,EU,SM,ND,AND PR)SERIES" 1992 4 "PHYS.REV.B,45(1992)7406" "PB,SR,Y,DY,EU,SM,ND,PR,CU,O" 3283 PR0457406 Pb2Sr2RCu3O8 Pb2Sr2Eu1Cu3O8 Pb 2 Sr 2 Eu 1 Cu 3 O 8 3 1992 Pb3212 K 67 75 71 "OPTICAL INVESTIGATION OF THE METAL-INSULATOR TRANSITION IN THECA-FREE PB2SR2LCU3O8 (L=Y,DY,EU,SM,ND,AND PR)SERIES" 1992 4 "PHYS.REV.B,45(1992)7406" "PB,SR,Y,DY,EU,SM,ND,PR,CU,O" 3284 PR0457406 Pb2Sr2RCu3O8 Pb2Sr2Dy1Cu3O8 Pb 2 Sr 2 Dy 1 Cu 3 O 8 3 1992 Pb3212 K 71 82 76.5 "OPTICAL INVESTIGATION OF THE METAL-INSULATOR TRANSITION IN THECA-FREE PB2SR2LCU3O8 (L=Y,DY,EU,SM,ND,AND PR)SERIES" 1992 4 "PHYS.REV.B,45(1992)7406" "PB,SR,Y,DY,EU,SM,ND,PR,CU,O" 3285 PR0457406 Pb2Sr2RCu3O8 Pb2Sr2Y1Cu3O8 Pb 2 Sr 2 Y 1 Cu 3 O 8 3 1992 Pb3212 K 71 80 75.5 "OPTICAL INVESTIGATION OF THE METAL-INSULATOR TRANSITION IN THECA-FREE PB2SR2LCU3O8 (L=Y,DY,EU,SM,ND,AND PR)SERIES" 1992 4 "PHYS.REV.B,45(1992)7406" "PB,SR,Y,DY,EU,SM,ND,PR,CU,O" 3286 PR04412571 "THC300=AB-PLANE,FOR C-AXIS,ANISOTROPY=9" Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O8 Tl 2 Ba 2 Ca 1 Cu 2 O 8 1 1991 Tl2212 K 1.5 THC3286 ANISOTROPIC THERMAL CONDUCTIVITY OF TL2BA2CACU2O8 AND YBA2CU3O7 SINGLE CRYSTALS: ANOMALY IN BOTH IN-PLANE DIRECTIONS 1991 12 "INSTITUTE OF PHYSICS,CHINESE ACADEMY OF SEIENCIES,BEIJING 100080,CHINA" "PHYS.REV.B,44(1991)12571" "TL,BA,CA,CU,O,Y" 3287 PR04412571 "SAME AS 3286,ANISOTROPY=17" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1991 Y123 K 3 THC3287 ANISOTROPIC THERMAL CONDUCTIVITY OF TL2BA2CACU2O8 AND YBA2CU3O7 SINGLE CRYSTALS: ANOMALY IN BOTH IN-PLANE DIRECTIONS 1991 12 "INSTITUTE OF PHYSICS,CHINESE ACADEMY OF SEIENCIES,BEIJING 100080,CHINA" "PHYS.REV.B,44(1991)12571" "TL,BA,CA,CU,O,Y" 3288 PHC1620572 2*0.5*0.2 MM3 Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3OX Tl 2 Ba 2 Ca 2 Cu 3 O X 3 1989 Tl2223 K 120 120 THC3288 1989 "Physica C,162-164(1989)572" 3289 PHC1620572 "TWO TC(80K,110K)" "Bi2(Ca,Sr)3Cu2O8" Bi2Sr1.5Ca1.5Cu2OX Bi 2 Sr 1.5 Ca 1.5 Cu 2 O X 2 1989 Bi2212 K 80 110 95 THC3289 1989 "Physica C,162-164(1989)572" 3290 PRL0673856 "TWINNED SAMPLE,H//C-AXIS,HEAT FLOW ALONG A-B PLANE" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1991 3 Y123 K THC3290 THERMAL CONDUCTIVITY OF YBA2CU3O7-Z IN A MAGNETIC FIELD: CAN K(H) PROBE THE VORTEX STATE? 1991 12 PHYS.REV.LETT.67(1991)3856 "Y,BA,CU,O" 3291 PRL0673856 "UNTWINNED SAMPLE,H//C-AXIS,HEAT FLOW ALONG A-B PLANE" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1991 3 Y123 K THC3291 THERMAL CONDUCTIVITY OF YBA2CU3O7-Z IN A MAGNETIC FIELD: CAN K(H) PROBE THE VORTEX STATE? 1991 12 PHYS.REV.LETT.67(1991)3856 "Y,BA,CU,O" 3292 PHC1920161 TL=1.78 BY CHEMICAL ANALYSIS Tl2Ba2Ca2Cu3O9.83 Tl 2 Ba 2 Ca 2 Cu 3 O 10 9.83 1 1992 2 Tl2223 3.859 35.72 K 114 114 HOLE CONCENTRATION AND CRITICAL TEMPERATURE IN THE TL2-X-ZBA2CA2+XCU3O10-Y SYSTEM 1992 3 "PHYSICA C,192(1992)161" "TL,BA,CA,CU,O" 3293 PHC1920161 TL=1.66 BY CHEMICAL ANALYSIS Tl1.8Ba2Ca2.2Cu3O9.92 Tl 1.8 Ba 2 Ca 2.2 Cu 3 O 10 9.92 1 1992 2 Tl2223 3.861 35.76 K 112 112 HOLE CONCENTRATION AND CRITICAL TEMPERATURE IN THE TL2-X-ZBA2CA2+XCU3O10-Y SYSTEM 1992 3 "PHYSICA C,192(1992)161" "TL,BA,CA,CU,O" 3294 PHC1920161 TL=1.52 Tl1.7Ba2Ca2.3Cu3O9.82 Tl 1.7 Ba 2 Ca 2.3 Cu 3 O 10 9.82 1 1992 2 Tl2223 3.858 35.71 K 116 116 HOLE CONCENTRATION AND CRITICAL TEMPERATURE IN THE TL2-X-ZBA2CA2+XCU3O10-Y SYSTEM 1992 3 "PHYSICA C,192(1992)161" "TL,BA,CA,CU,O" 3295 PHC1920161 "TL=1.33,TC INCREASE UPTO 128K BY POST ANNEALING AT 750 C FOR 10DAYS" Tl1.6Ba2Ca2.4Cu3O9.67 Tl 1.6 Ba 2 Ca 2.4 Cu 3 O 10 9.67 1 1992 2 Tl2223 3.856 35.72 K 118 118 HOLE CONCENTRATION AND CRITICAL TEMPERATURE IN THE TL2-X-ZBA2CA2+XCU3O10-Y SYSTEM 1992 3 "PHYSICA C,192(1992)161" "TL,BA,CA,CU,O" 3296 PHC1920161 "TL=1.10 BY CHEMICAL ANALYSIS,IMPURITY = TL0.2CA0.8CUOZ" Tl1.4Ba2Ca2.6Cu3O9.53 Tl 1.4 Ba 2 Ca 2.6 Cu 3 O 10 9.53 1 1992 2 Tl2223 3.857 35.7 K 118 118 HOLE CONCENTRATION AND CRITICAL TEMPERATURE IN THE TL2-X-ZBA2CA2+XCU3O10-Y SYSTEM 1992 3 "PHYSICA C,192(1992)161" "TL,BA,CA,CU,O" 3297 PHC1920137 "FIGURE=TC VS OZ,247 DECOMPOSES INTO 123 + CUO AT HIGH T AND LOW O2 PRESSURE" YBa2Cu3O7 Y2Ba4Cu7OZ Y 2 Ba 4 Cu 7 O Z 1 1992 3 Y247 K "VARIATION OF THE SUPERCONDUCTING AND STRUCTURAL PROPERTIES OFY2BA4CU7OZ WITH OXYGEN CONTENT (14.1 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1988 3 Y123 K 92 0.3 92 RH3397 STRONGLY ANISOTROPIC ELECTRICAL PROPERTIES OF SINGLE-CRYSTAL Y(1)BA(2)CU(3)O(7-Z) 1988 8 "RESISTIVITY ,HALL EFFECT ,ANISOTRO" "IBM RESEARCH DIVISION,THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YOWK,USA" "PHYS.REV.B,38(1988)2918" "Y,BA,CU,O" 3398 PHC1940076 YBa2Cu3O7 Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 1 1992 3 Y123 3.827 3.888 11.645 K 92.8 92.8 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3399 PHC1940076 CRITICAL CONC.=0.57 FOR Y1-XPRXBA2CU3O7 SYSTEM "(Y,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3OZ Y 0.8 Pr 0.2 Ba 2 Cu 3 O Z 1 1992 3 Y123 K 71.3 71.3 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3400 PHC1940076 "(Y,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3OZ Y 0.7 Pr 0.3 Ba 2 Cu 3 O Z 1 1992 3 Y123 K 58.4 58.4 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3401 PHC1940076 "(Y,Pr)Ba2Cu3O7" Y0.6Pr0.4Ba2Cu3OZ Y 0.6 Pr 0.4 Ba 2 Cu 3 O Z 1 1992 3 Y123 K 43.3 43.3 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3402 PHC1940076 "(Y,Pr)Ba2Cu3O7" Y0.5Pr0.5Ba2Cu3OZ Y 0.5 Pr 0.5 Ba 2 Cu 3 O Z 1 1992 3 Y123 K 21.9 21.9 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3403 PHC1940076 "(Y,Pr)Ba2Cu3O7" Y0.4Pr0.6Ba2Cu3OZ Y 0.4 Pr 0.6 Ba 2 Cu 3 O Z 1 1992 3 Y123 3.844 3.9 11.702 K 3.75 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3404 PHC1940076 "(Y,Pr)Ba2Cu3O7" Pr1Ba2Cu3OZ Pr 1 Ba 2 Cu 3 O Z 1 1992 3 Y123 3.861 3.907 11.722 K 3.75 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3405 PHC1940076 "(Er,Pr)Ba2Cu3O7" Er1Ba2Cu3OZ Er 1 Ba 2 Cu 3 O Z 1 1992 3 Y123 3.825 3.884 11.653 K 92.4 92.4 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3406 PHC1940076 CRITICAL CONC.=0.60 FOR ER1-XPRXBA2CU3O7 "(Er,Pr)Ba2Cu3O7" Er0.9Pr0.1Ba2Cu3OZ Er 0.9 Pr 0.1 Ba 2 Cu 3 O Z 1 1992 3 Y123 K 84.1 84.1 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3407 PHC1940076 "(Er,Pr)Ba2Cu3O7" Er0.8Pr0.2Ba2Cu3OZ Er 0.8 Pr 0.2 Ba 2 Cu 3 O Z 1 1992 3 Y123 K 73.7 73.7 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3408 PHC1940076 "(Er,Pr)Ba2Cu3O7" Er0.7Pr0.3Ba2Cu3OZ Er 0.7 Pr 0.3 Ba 2 Cu 3 O Z 1 1992 3 Y123 K 66.7 66.7 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3409 PHC1940076 "(Er,Pr)Ba2Cu3O7" Er0.6Pr0.4Ba2Cu3OZ Er 0.6 Pr 0.4 Ba 2 Cu 3 O Z 1 1992 3 Y123 K 55 55 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3410 PHC1940076 "(Er,Pr)Ba2Cu3O7" Er0.5Pr0.5Ba2Cu3OZ Er 0.5 Pr 0.5 Ba 2 Cu 3 O Z 1 1992 3 Y123 K 24.8 24.8 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3411 PHC1940076 "(Er,Pr)Ba2Cu3O7" Er0.4Pr0.6Ba2Cu3OZ Er 0.4 Pr 0.6 Ba 2 Cu 3 O Z 1 1992 3 Y123 3.845 3.895 11.665 K 3.75 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3412 PHC1940076 "(Gd,Pr)Ba2Cu3O7" Gd1Ba2Cu3OZ Gd 1 Ba 2 Cu 3 O Z 1 1992 3 Y123 3.841 3.901 11.702 K 92.8 92.8 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3413 PHC1940076 CRITICAL CONC.=0.45 FOR GD1-XPRXBA2CU3O7 "(Gd,Pr)Ba2Cu3O7" Gd0.95Pr0.05Ba2Cu3OZ Gd 0.95 Pr 0.05 Ba 2 Cu 3 O Z 1 1992 3 Y123 K 79 79 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3414 PHC1940076 "(Gd,Pr)Ba2Cu3O7" Gd0.9Pr0.1Ba2Cu3OZ Gd 0.9 Pr 0.1 Ba 2 Cu 3 O Z 1 1992 3 Y123 K 69 69 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3415 PHC1940076 "(Gd,Pr)Ba2Cu3O7" Gd0.8Pr0.2Ba2Cu3OZ Gd 0.8 Pr 0.2 Ba 2 Cu 3 O Z 1 1992 3 Y123 K 43.4 43.4 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3416 PHC1940076 "(Gd,Pr)Ba2Cu3O7" Gd0.6Pr0.4Ba2Cu3OZ Gd 0.6 Pr 0.4 Ba 2 Cu 3 O Z 1 1992 3 Y123 3.85 3.9 11.694 K 18 18 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3417 PHC1940076 "(Gd,Pr)Ba2Cu3O7" Gd0.5Pr0.5Ba2Cu3OZ Gd 0.5 Pr 0.5 Ba 2 Cu 3 O Z 1 1992 3 Y123 K 3.75 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3418 PHC1940076 "(Sm,Pr)Ba2Cu3O7" Sm1Ba2Cu3OZ Sm 1 Ba 2 Cu 3 O Z 1 1992 3 Y123 3.849 3.911 11.729 K 92 92 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3419 PHC1940076 CRITICAL CONC.=0.40 FOR SM1-XPRXBA2CU3O7 "(Sm,Pr)Ba2Cu3O7" Sm0.95Pr0.05Ba2Cu3OZ Sm 0.95 Pr 0.05 Ba 2 Cu 3 O Z 1 1992 3 Y123 K 65.8 65.8 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3420 PHC1940076 "(Sm,Pr)Ba2Cu3O7" Sm0.9Pr0.1Ba2Cu3OZ Sm 0.9 Pr 0.1 Ba 2 Cu 3 O Z 1 1992 3 Y123 K 58.3 58.3 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3421 PHC1940076 "(Sm,Pr)Ba2Cu3O7" Sm0.8Pr0.2Ba2Cu3OZ Sm 0.8 Pr 0.2 Ba 2 Cu 3 O Z 1 1992 3 Y123 K 39 39 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3422 PHC1940076 "(Sm,Pr)Ba2Cu3O7" Sm0.7Pr0.3Ba2Cu3OZ Sm 0.7 Pr 0.3 Ba 2 Cu 3 O Z 1 1992 3 Y123 K 31.1 31.1 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3423 PHC1940076 "(Sm,Pr)Ba2Cu3O7" Sm0.6Pr0.4Ba2Cu3OZ Sm 0.6 Pr 0.4 Ba 2 Cu 3 O Z 1 1992 3 Y123 3.851 3.904 11.722 K 3.75 ON THE SUPERCONDUCTIVITY SUPPRESSION IN LN1-XPRXBA2CU3O7 1992 5 "PHYSICA C,194(1992)76" 3424 PHC1940066 NEEL-T FOR CU "(Gd,Nd,Ce)2CuO4" Gd1.85Ce0.15Cu1O4 Gd 1.85 Ce 0.15 Cu 1 O 4 1992 155 T' K 4.2 "SUPERCONDUCTIVITY AND ANTIFERROMAGNETIC ORDERING IN (GD,ND,CE)2CUO4" 1992 5 "PHYSICA C,194(1992)66" 3425 PHC1940066 NEEL-T FOR CU "(Gd,Nd,Ce)2CuO4" Gd1.65Nd0.2Ce0.15Cu1O4 Gd 1.65 Nd 0.2 Ce 0.15 Cu 1 O 4 1992 140 T' K 4.2 "SUPERCONDUCTIVITY AND ANTIFERROMAGNETIC ORDERING IN (GD,ND,CE)2CUO4" 1992 5 "PHYSICA C,194(1992)66" 3426 PHC1940066 NEEL-T FOR CU "(Gd,Nd,Ce)2CuO4" Gd1.5Nd0.35Ce0.15Cu1O4 Gd 1.5 Nd 0.35 Ce 0.15 Cu 1 O 4 1992 96 T' K 4.2 "SUPERCONDUCTIVITY AND ANTIFERROMAGNETIC ORDERING IN (GD,ND,CE)2CUO4" 1992 5 "PHYSICA C,194(1992)66" 3427 PHC1940066 NEEL-T FOR CU "(Gd,Nd,Ce)2CuO4" Gd1.3Nd0.55Ce0.15Cu1O4 Gd 1.3 Nd 0.55 Ce 0.15 Cu 1 O 4 1992 T' K 4.2 "SUPERCONDUCTIVITY AND ANTIFERROMAGNETIC ORDERING IN (GD,ND,CE)2CUO4" 1992 5 "PHYSICA C,194(1992)66" 3428 PHC1940066 "(Gd,Nd,Ce)2CuO4" Gd1.1Nd0.75Ce0.15Cu1O4 Gd 1.1 Nd 0.75 Ce 0.15 Cu 1 O 4 1992 T' K "SUPERCONDUCTIVITY AND ANTIFERROMAGNETIC ORDERING IN (GD,ND,CE)2CUO4" 1992 5 "PHYSICA C,194(1992)66" 3429 PHC1940066 "(Gd,Nd,Ce)2CuO4" Gd1Nd0.85Ce0.15Cu1O4 Gd 1 Nd 0.85 Ce 0.15 Cu 1 O 4 1992 T' K 5.9 5.9 "SUPERCONDUCTIVITY AND ANTIFERROMAGNETIC ORDERING IN (GD,ND,CE)2CUO4" 1992 5 "PHYSICA C,194(1992)66" 3430 PHC1940066 "(Gd,Nd,Ce)2CuO4" Gd0.75Nd1.1Ce0.15Cu1O4 Gd 0.75 Nd 1.1 Ce 0.15 Cu 1 O 4 1992 T' K 10.1 10.1 "SUPERCONDUCTIVITY AND ANTIFERROMAGNETIC ORDERING IN (GD,ND,CE)2CUO4" 1992 5 "PHYSICA C,194(1992)66" 3431 PHC1940066 "(Gd,Nd,Ce)2CuO4" Gd0.5Nd1.35Ce0.15Cu1O4 Gd 0.5 Nd 1.35 Ce 0.15 Cu 1 O 4 1992 T' K 14.3 14.3 "SUPERCONDUCTIVITY AND ANTIFERROMAGNETIC ORDERING IN (GD,ND,CE)2CUO4" 1992 5 "PHYSICA C,194(1992)66" 3432 PHC1940066 "(Gd,Nd,Ce)2CuO4" Gd0.2Nd1.65Ce0.15Cu1O4 Gd 0.2 Nd 1.65 Ce 0.15 Cu 1 O 4 1992 T' K 18.5 18.5 "SUPERCONDUCTIVITY AND ANTIFERROMAGNETIC ORDERING IN (GD,ND,CE)2CUO4" 1992 5 "PHYSICA C,194(1992)66" 3433 PHC1940066 "(GD,ND,CE)2CUO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 1992 T' 3.953 12.109 K 20 20 "SUPERCONDUCTIVITY AND ANTIFERROMAGNETIC ORDERING IN (GD,ND,CE)2CUO4" 1992 5 "PHYSICA C,194(1992)66" 3434 PHC1940066 "(Nd,Y,Ce)2CuO4" Nd1.75Y0.1Ce0.15Cu1O4 Nd 1.75 Y 0.1 Ce 0.15 Cu 1 O 4 1992 T' K 21 21 "SUPERCONDUCTIVITY AND ANTIFERROMAGNETIC ORDERING IN (GD,ND,CE)2CUO4" 1992 5 "PHYSICA C,194(1992)66" 3435 PHC1940066 "(Nd,Y,Ce)2CuO4" Nd1.65Y0.2Ce0.15Cu1O4 Nd 1.65 Y 0.2 Ce 0.15 Cu 1 O 4 1992 T' 3.942 12.042 K 17.3 17.3 "SUPERCONDUCTIVITY AND ANTIFERROMAGNETIC ORDERING IN (GD,ND,CE)2CUO4" 1992 5 "PHYSICA C,194(1992)66" 3436 PHC1940066 "(Nd,Y,Ce)2CuO4" Nd1.5Y0.35Ce0.15Cu1O4 Nd 1.5 Y 0.35 Ce 0.15 Cu 1 O 4 1992 T' 3.936 12.001 K "SUPERCONDUCTIVITY AND ANTIFERROMAGNETIC ORDERING IN (GD,ND,CE)2CUO4" 1992 5 "PHYSICA C,194(1992)66" 3438 PHC1940066 "(Nd,La,Ce)2CuO4" Nd1.75La0.1Ce0.15Cu1O4 Nd 1.75 La 0.1 Ce 0.15 Cu 1 O 4 1992 T' 3.958 12.139 K 20 20 "SUPERCONDUCTIVITY AND ANTIFERROMAGNETIC ORDERING IN (GD,ND,CE)2CUO4" 1992 5 "PHYSICA C,194(1992)66" 3439 PHC1940066 "(Nd,La,Ce)2CuO4" Nd1.65La0.2Ce0.15Cu1O4 Nd 1.65 La 0.2 Ce 0.15 Cu 1 O 4 1992 T' K 21.2 21.2 "SUPERCONDUCTIVITY AND ANTIFERROMAGNETIC ORDERING IN (GD,ND,CE)2CUO4" 1992 5 "PHYSICA C,194(1992)66" 3440 PHC1940066 "(Nd,La,Ce)2CuO4" Nd1.55La0.3Ce0.15Cu1O4 Nd 1.55 La 0.3 Ce 0.15 Cu 1 O 4 1992 T' 3.968 12.149 K 21.5 21.5 "SUPERCONDUCTIVITY AND ANTIFERROMAGNETIC ORDERING IN (GD,ND,CE)2CUO4" 1992 5 "PHYSICA C,194(1992)66" 3441 PHC1940066 "(Nd,La,Ce)2CuO4" Nd1.35La0.5Ce0.15Cu1O4 Nd 1.35 La 0.5 Ce 0.15 Cu 1 O 4 1992 T' 3.968 12.195 K 19.1 19.1 "SUPERCONDUCTIVITY AND ANTIFERROMAGNETIC ORDERING IN (GD,ND,CE)2CUO4" 1992 5 "PHYSICA C,194(1992)66" 3442 PHC1940066 "(Nd,La,Ce)2CuO4" Nd1.15La0.7Ce0.15Cu1O4 Nd 1.15 La 0.7 Ce 0.15 Cu 1 O 4 1992 T' 3.968 12.23 K 19 19 "SUPERCONDUCTIVITY AND ANTIFERROMAGNETIC ORDERING IN (GD,ND,CE)2CUO4" 1992 5 "PHYSICA C,194(1992)66" 3443 PHC1940066 "(Nd,La,Ce)2CuO4" Nd0.95La0.9Ce0.15Cu1O4 Nd 0.95 La 0.9 Ce 0.15 Cu 1 O 4 1992 T' 3.981 12.294 K 18.4 18.4 "SUPERCONDUCTIVITY AND ANTIFERROMAGNETIC ORDERING IN (GD,ND,CE)2CUO4" 1992 5 "PHYSICA C,194(1992)66" 3444 PHC1940066 "(Nd,La,Ce)2CuO4" Nd0.65La1.2Ce0.15Cu1O4 Nd 0.65 La 1.2 Ce 0.15 Cu 1 O 4 1992 T' 3.985 12.284 K 5.8 5.8 "SUPERCONDUCTIVITY AND ANTIFERROMAGNETIC ORDERING IN (GD,ND,CE)2CUO4" 1992 5 "PHYSICA C,194(1992)66" 3445 PR0461176 "PrBa2(Cu,Ni)3O7" Pr1Ba2Cu2.925Ni0.075OZ Pr 1 Ba 2 Cu 2.925 Ni 0.075 O Z 1992 15.4 3 Y123 3.868 3.894 K 4.2 MAGNETIC ORDERING AND CHAIN TRANSPORT OF PRBA2CU3O7-Y 1992 7 "PHYS REV B,46(1992)1176" "PR,BA,CU,O,FE,CO,NI,ZN,GA,GD" 3446 PR0461176 "PrBa2(Cu,Ni)3O7" Pr1Ba2Cu2.85Ni0.15OZ Pr 1 Ba 2 Cu 2.85 Ni 0.15 O Z 1992 14.5 2 Y123 3.889 K 4.2 MAGNETIC ORDERING AND CHAIN TRANSPORT OF PRBA2CU3O7-Y 1992 7 "PHYS REV B,46(1992)1176" "PR,BA,CU,O,FE,CO,NI,ZN,GA,GD" 3447 PR0461176 "PrBa2(Cu,Ni)3O7" Pr1Ba2Cu2.775Ni0.225OZ Pr 1 Ba 2 Cu 2.775 Ni 0.225 O Z 1992 13 2 Y123 3.892 K 4.2 MAGNETIC ORDERING AND CHAIN TRANSPORT OF PRBA2CU3O7-Y 1992 7 "PHYS REV B,46(1992)1176" "PR,BA,CU,O,FE,CO,NI,ZN,GA,GD" 3448 PR0461176 "PrBa2(Cu,Ni)3O7" Pr1Ba2Cu2.7Ni0.3OZ Pr 1 Ba 2 Cu 2.7 Ni 0.3 O Z 1992 12 2 Y123 3.893 K 4.2 MAGNETIC ORDERING AND CHAIN TRANSPORT OF PRBA2CU3O7-Y 1992 7 "PHYS REV B,46(1992)1176" "PR,BA,CU,O,FE,CO,NI,ZN,GA,GD" 3449 PR0461176 "PrBa2(Cu,Ni)3O7" Pr1Ba2Cu2.55Ni0.45OZ Pr 1 Ba 2 Cu 2.55 Ni 0.45 O Z 1992 11.6 2 Y123 3.893 K 4.2 MAGNETIC ORDERING AND CHAIN TRANSPORT OF PRBA2CU3O7-Y 1992 7 "PHYS REV B,46(1992)1176" "PR,BA,CU,O,FE,CO,NI,ZN,GA,GD" 3450 PR0461176 "PrBa2(Cu,Ni)3O7" Pr1Ba2Cu2.4Ni0.6OZ Pr 1 Ba 2 Cu 2.4 Ni 0.6 O Z 1992 11.7 2 Y123 3.892 K 4.2 MAGNETIC ORDERING AND CHAIN TRANSPORT OF PRBA2CU3O7-Y 1992 7 "PHYS REV B,46(1992)1176" "PR,BA,CU,O,FE,CO,NI,ZN,GA,GD" 3451 PR0461176 "PrBa2(Cu,Co)3O7" Pr1Ba2Cu2.925Co0.075OZ Pr 1 Ba 2 Cu 2.925 Co 0.075 O Z 1992 16.9 2 Y123 3.897 K 4.2 MAGNETIC ORDERING AND CHAIN TRANSPORT OF PRBA2CU3O7-Y 1992 7 "PHYS REV B,46(1992)1176" "PR,BA,CU,O,FE,CO,NI,ZN,GA,GD" 3452 PR0461176 "PrBa2(Cu,Co)3O7" Pr1Ba2Cu2.85Co0.15OZ Pr 1 Ba 2 Cu 2.85 Co 0.15 O Z 1992 13.9 2 Y123 3.902 K 4.2 MAGNETIC ORDERING AND CHAIN TRANSPORT OF PRBA2CU3O7-Y 1992 7 "PHYS REV B,46(1992)1176" "PR,BA,CU,O,FE,CO,NI,ZN,GA,GD" 3453 PR0461176 "PrBa2(Cu,Co)3O7" Pr1Ba2Cu2.775Co0.225OZ Pr 1 Ba 2 Cu 2.775 Co 0.225 O Z 1992 12.1 2 Y123 3.906 K 4.2 MAGNETIC ORDERING AND CHAIN TRANSPORT OF PRBA2CU3O7-Y 1992 7 "PHYS REV B,46(1992)1176" "PR,BA,CU,O,FE,CO,NI,ZN,GA,GD" 3454 PR0461176 "PrBa2(Cu,Co)3O7" Pr1Ba2Cu2.7Co0.3OZ Pr 1 Ba 2 Cu 2.7 Co 0.3 O Z 1992 10.2 2 Y123 3.909 K 4.2 MAGNETIC ORDERING AND CHAIN TRANSPORT OF PRBA2CU3O7-Y 1992 7 "PHYS REV B,46(1992)1176" "PR,BA,CU,O,FE,CO,NI,ZN,GA,GD" 3455 PR0461176 "PrBa2(Cu,Co)3O7" Pr1Ba2Cu2.55Co0.45OZ Pr 1 Ba 2 Cu 2.55 Co 0.45 O Z 1992 7.6 2 Y123 3.919 K 4.2 MAGNETIC ORDERING AND CHAIN TRANSPORT OF PRBA2CU3O7-Y 1992 7 "PHYS REV B,46(1992)1176" "PR,BA,CU,O,FE,CO,NI,ZN,GA,GD" 3456 PR0461176 "PrBa2(Cu,Co)3O7" Pr1Ba2Cu2.4Co0.6OZ Pr 1 Ba 2 Cu 2.4 Co 0.6 O Z 1992 7.2 2 Y123 3.921 K 4.2 MAGNETIC ORDERING AND CHAIN TRANSPORT OF PRBA2CU3O7-Y 1992 7 "PHYS REV B,46(1992)1176" "PR,BA,CU,O,FE,CO,NI,ZN,GA,GD" 3457 PR0461176 "PrBa2(Cu,Fe)3O7" Pr1Ba2Cu3OZ Pr 1 Ba 2 Cu 3 O Z 1992 17.5 3 Y123 3.865 3.9 K 4.2 MAGNETIC ORDERING AND CHAIN TRANSPORT OF PRBA2CU3O7-Y 1992 7 "PHYS REV B,46(1992)1176" "PR,BA,CU,O,FE,CO,NI,ZN,GA,GD" 3458 PR0461176 "PrBa2(Cu,Fe)3O7" Pr1Ba2Cu2.925Fe0.075OZ Pr 1 Ba 2 Cu 2.925 Fe 0.075 O Z 1992 15.4 2 Y123 3.897 K 4.2 MAGNETIC ORDERING AND CHAIN TRANSPORT OF PRBA2CU3O7-Y 1992 7 "PHYS REV B,46(1992)1176" "PR,BA,CU,O,FE,CO,NI,ZN,GA,GD" 3459 PR0461176 "PrBa2(Cu,Fe)3O7" Pr1Ba2Cu2.85Fe0.15OZ Pr 1 Ba 2 Cu 2.85 Fe 0.15 O Z 1992 14.5 2 Y123 3.899 K 4.2 MAGNETIC ORDERING AND CHAIN TRANSPORT OF PRBA2CU3O7-Y 1992 7 "PHYS REV B,46(1992)1176" "PR,BA,CU,O,FE,CO,NI,ZN,GA,GD" 3460 PR0461176 "PrBa2(Cu,Fe)3O7" Pr1Ba2Cu2.775Fe0.225OZ Pr 1 Ba 2 Cu 2.775 Fe 0.225 O Z 1992 12.5 2 Y123 3.9 K 4.2 MAGNETIC ORDERING AND CHAIN TRANSPORT OF PRBA2CU3O7-Y 1992 7 "PHYS REV B,46(1992)1176" "PR,BA,CU,O,FE,CO,NI,ZN,GA,GD" 3461 PR0461176 "PrBa2(Cu,Fe)3O7" Pr1Ba2Cu2.7Fe0.3OZ Pr 1 Ba 2 Cu 2.7 Fe 0.3 O Z 1992 11 2 Y123 3.899 K 4.2 MAGNETIC ORDERING AND CHAIN TRANSPORT OF PRBA2CU3O7-Y 1992 7 "PHYS REV B,46(1992)1176" "PR,BA,CU,O,FE,CO,NI,ZN,GA,GD" 3462 PR0461176 "PrBa2(Cu,Fe)3O7" Pr1Ba2Cu2.55Fe0.45OZ Pr 1 Ba 2 Cu 2.55 Fe 0.45 O Z 1992 9.5 2 Y123 3.892 K 4.2 MAGNETIC ORDERING AND CHAIN TRANSPORT OF PRBA2CU3O7-Y 1992 7 "PHYS REV B,46(1992)1176" "PR,BA,CU,O,FE,CO,NI,ZN,GA,GD" 3463 PR0461176 "PrBa2(Cu,Fe)3O7" Pr1Ba2Cu2.4Fe0.6OZ Pr 1 Ba 2 Cu 2.4 Fe 0.6 O Z 1992 8.1 2 Y123 3.89 K 4.2 MAGNETIC ORDERING AND CHAIN TRANSPORT OF PRBA2CU3O7-Y 1992 7 "PHYS REV B,46(1992)1176" "PR,BA,CU,O,FE,CO,NI,ZN,GA,GD" 3464 PR0461166 CaGdCuO3Cl Ca1Gd1Cu1Cl1O3 Ca 1 Gd 1 Cu 1 Cl 1 O 3 1992 8.3 -13 T* K MAGNETIC ORDERING OF GD3+ AND SM3+ IN THE T' AND T* COPPER OXIDES AND OXYCHLORIDES 1992 7 "PHYS.REV.B,46(1992)1166" "LA,GD,CU,O,SR,CA,SM,CL" 3465 PR0461166 "(La,Gd)2CuO4" La1.15Gd0.85Cu1O4 La 1.15 Gd 0.85 Cu 1 O 4 1992 7.9 -8 T* K MAGNETIC ORDERING OF GD3+ AND SM3+ IN THE T' AND T* COPPER OXIDES AND OXYCHLORIDES 1992 7 "PHYS.REV.B,46(1992)1166" "LA,GD,CU,O,SR,CA,SM,CL" 3466 PR0461166 "(Sr,La,Gd)2CuO4" Sr0.2La0.9Gd0.9Cu1O4 Sr 0.2 La 0.9 Gd 0.9 Cu 1 O 4 1992 8.1 -10 T* K MAGNETIC ORDERING OF GD3+ AND SM3+ IN THE T' AND T* COPPER OXIDES AND OXYCHLORIDES 1992 7 "PHYS.REV.B,46(1992)1166" "LA,GD,CU,O,SR,CA,SM,CL" 3467 PR0460585 "EPITAXIAL SINGLE PHASE FILM,123 PHASE STABLE ONLY IN FILM STATE" Tb0.7Pr0.3Ba2Cu3OZ Tb 0.7 Pr 0.3 Ba 2 Cu 3 O Z 4 1992 Y123 K 50 50 SUPERCONDUCTING FILMS OF TB1-XPRXBA2CU3O7-Z 1992 7 "PHYS.REV.B,46(1992)585" "TB,PR,BA,CU,O" 3468 PR0460585 SAME AS 3467 Tb0.6Pr0.4Ba2Cu3OZ Tb 0.6 Pr 0.4 Ba 2 Cu 3 O Z 4 1992 Y123 K 43 43 SUPERCONDUCTING FILMS OF TB1-XPRXBA2CU3O7-Z 1992 7 "PHYS.REV.B,46(1992)585" "TB,PR,BA,CU,O" 3469 PR0460585 SAME AS 3467 Tb0.5Pr0.5Ba2Cu3OZ Tb 0.5 Pr 0.5 Ba 2 Cu 3 O Z 4 1992 Y123 K 30 30 SUPERCONDUCTING FILMS OF TB1-XPRXBA2CU3O7-Z 1992 7 "PHYS.REV.B,46(1992)585" "TB,PR,BA,CU,O" 3470 PR0460585 SAME AS 3467 Tb0.4Pr0.6Ba2Cu3OZ Tb 0.4 Pr 0.6 Ba 2 Cu 3 O Z 4 1992 Y123 K 4.2 SUPERCONDUCTING FILMS OF TB1-XPRXBA2CU3O7-Z 1992 7 "PHYS.REV.B,46(1992)585" "TB,PR,BA,CU,O" 3471 SUP0040029 "Bi2Sr2(Ca,K)Cu2O8" Bi2Sr2Ca0.95K0.05Cu2OZ Bi 2 Sr 2 Ca 0.95 K 0.05 Cu 2 O Z 1991 Bi2212 K 78 78 Effect of Oxygen Concentration on Superconductivity of Bi-Sr-Ca-K-Cu-O Compounds 1991 "Department of Physics, University of Science and Technology of China, Hefei, Anhui, China." "J.Superconductivity,4(1991)29" 3472 SUP0040029 "Bi2Sr2(Ca,K)Cu2O8" Bi2Sr2Ca0.9K0.1Cu2OZ Bi 2 Sr 2 Ca 0.9 K 0.1 Cu 2 O Z 1991 Bi2212 K 76 76 Effect of Oxygen Concentration on Superconductivity of Bi-Sr-Ca-K-Cu-O Compounds 1991 "Department of Physics, University of Science and Technology of China, Hefei, Anhui, China." "J.Superconductivity,4(1991)29" 3473 SUP0040029 "Bi2Sr2(Ca,K)Cu2O8" Bi2Sr2Ca0.8K0.2Cu2OZ Bi 2 Sr 2 Ca 0.8 K 0.2 Cu 2 O Z 1991 Bi2212 K 76 76 Effect of Oxygen Concentration on Superconductivity of Bi-Sr-Ca-K-Cu-O Compounds 1991 "Department of Physics, University of Science and Technology of China, Hefei, Anhui, China." "J.Superconductivity,4(1991)29" 3474 SUP0040029 "Bi2Sr2(Ca,K)Cu2O8" Bi2Sr2Ca0.7K0.3Cu2OZ Bi 2 Sr 2 Ca 0.7 K 0.3 Cu 2 O Z 1991 Bi2212 K 71 71 Effect of Oxygen Concentration on Superconductivity of Bi-Sr-Ca-K-Cu-O Compounds 1991 "Department of Physics, University of Science and Technology of China, Hefei, Anhui, China." "J.Superconductivity,4(1991)29" 3475 SUP0040029 "Bi2Sr2(Ca,K)Cu2O8" Bi2Sr2Ca0.6K0.4Cu2OZ Bi 2 Sr 2 Ca 0.6 K 0.4 Cu 2 O Z 1991 Bi2212 K 75 75 Effect of Oxygen Concentration on Superconductivity of Bi-Sr-Ca-K-Cu-O Compounds 1991 "Department of Physics, University of Science and Technology of China, Hefei, Anhui, China." "J.Superconductivity,4(1991)29" 3476 PLA1640355 C<13> 60% substitution. ISOTOPE=2.0-2.25 Rb3C60 C60Rb3 C 60 Rb 3 1992 fullerene K 28.6 28.6 2 C 60 "Enhanced isotope effect in 13C-rich superconducting MxC60 (M=K,Rb): support for vibronic pairing" 1992 "Institute for Molecular Science, Okazaki, Aichi 444, Japan" "Phys.Lett.A,164(1992)355-361" 3477 PLA1640355 C<13> 60% substitution. ISOTOPE EFFECT=1.2-1.43 K3C60 C60K3 C 60 K 3 1992 fullerene K 20 20 1.2 C 60 "Enhanced isotope effect in 13C-rich superconducting MxC60 (M=K,Rb): support for vibronic pairing" 1992 "Institute for Molecular Science, Okazaki, Aichi 444, Japan" "Phys.Lett.A,164(1992)355-361" 3478 PR0461144 "(Ba,K)(Bi,Pb)O3" Ba0.6K0.4Bi0.9Pb0.1O3 Ba 0.6 K 0.4 Bi 0.9 Pb 0.1 O 3 1992 BKBO K 21.5 21.5 METASTABLE BEHAVIOR OF THE SUPERCUNDUCTING PHASE IN THE BABI1-XPBXO3 SYSTEM 1992 7 "PHYS.REV.B,46(1992)1144" "BA,BI,PB,O" 3479 PR0461144 "(Ba,K)(Bi,Pb)O3" Ba0.6K0.4Bi0.8Pb0.2O3 Ba 0.6 K 0.4 Bi 0.8 Pb 0.2 O 3 1992 BKBO K 14.7 14.7 METASTABLE BEHAVIOR OF THE SUPERCUNDUCTING PHASE IN THE BABI1-XPBXO3 SYSTEM 1992 7 "PHYS.REV.B,46(1992)1144" "BA,BI,PB,O" 3480 PR0461144 "(Ba,K)(Bi,Pb)O3" Ba0.7K0.3Bi0.7Pb0.3O3 Ba 0.7 K 0.3 Bi 0.7 Pb 0.3 O 3 1992 BKBO K 14.6 14.6 METASTABLE BEHAVIOR OF THE SUPERCUNDUCTING PHASE IN THE BABI1-XPBXO3 SYSTEM 1992 7 "PHYS.REV.B,46(1992)1144" "BA,BI,PB,O" 3481 PR0461144 "(Ba,K)(Bi,Pb)O3" Ba0.6K0.4Bi0.7Pb0.3O3 Ba 0.6 K 0.4 Bi 0.7 Pb 0.3 O 3 1992 BKBO K 11.3 11.3 METASTABLE BEHAVIOR OF THE SUPERCUNDUCTING PHASE IN THE BABI1-XPBXO3 SYSTEM 1992 7 "PHYS.REV.B,46(1992)1144" "BA,BI,PB,O" 3482 PR0461144 "(Ba,K)(Bi,Pb)O3" Ba0.9K0.1Bi0.4Pb0.6O3 Ba 0.9 K 0.1 Bi 0.4 Pb 0.6 O 3 1992 BKBO K 11.3 11.3 METASTABLE BEHAVIOR OF THE SUPERCUNDUCTING PHASE IN THE BABI1-XPBXO3 SYSTEM 1992 7 "PHYS.REV.B,46(1992)1144" "BA,BI,PB,O" 3483 PR0461144 "(Ba,K)(Bi,Pb)O3" Ba0.6K0.4Bi0.6Pb0.4O3 Ba 0.6 K 0.4 Bi 0.6 Pb 0.4 O 3 1992 BKBO K 9.2 9.2 METASTABLE BEHAVIOR OF THE SUPERCUNDUCTING PHASE IN THE BABI1-XPBXO3 SYSTEM 1992 7 "PHYS.REV.B,46(1992)1144" "BA,BI,PB,O" 3484 PR0461144 "(Ba,K)(Bi,Pb)O3" Ba0.9K0.1Bi0.3Pb0.7O3 Ba 0.9 K 0.1 Bi 0.3 Pb 0.7 O 3 1992 BKBO K 9.3 9.3 METASTABLE BEHAVIOR OF THE SUPERCUNDUCTING PHASE IN THE BABI1-XPBXO3 SYSTEM 1992 7 "PHYS.REV.B,46(1992)1144" "BA,BI,PB,O" 3485 PR0461144 "(Ba,K)(Bi,Pb)O3" Ba0.6K0.4Bi0.5Pb0.5O3 Ba 0.6 K 0.4 Bi 0.5 Pb 0.5 O 3 1992 BKBO K 7.2 7.2 METASTABLE BEHAVIOR OF THE SUPERCUNDUCTING PHASE IN THE BABI1-XPBXO3 SYSTEM 1992 7 "PHYS.REV.B,46(1992)1144" "BA,BI,PB,O" 3486 PR0461144 "(Ba,K)(Bi,Pb)O3" Ba0.8K0.2Bi0.3Pb0.7O3 Ba 0.8 K 0.2 Bi 0.3 Pb 0.7 O 3 1992 BKBO K 7.2 7.2 METASTABLE BEHAVIOR OF THE SUPERCUNDUCTING PHASE IN THE BABI1-XPBXO3 SYSTEM 1992 7 "PHYS.REV.B,46(1992)1144" "BA,BI,PB,O" 3487 JAP0685289 "(M,Tl)BaCuO4.5" Tl0.76Ba1Cu1O4.5 Tl 0.76 Ba 1 Cu 1 O 4.5 1990 3.853 23.14 K 82 90 86 "STUDY ON ZN-, CD-, OR HG-ADDITION INTO TLBACUO" 1990 "DEPARTMENT OF PHYSICS, UNIVERSITY OF ARKANSAS, FAYETTEVILLE, ARKANSAS 72701" "J.APPL.PHYS.,68(1990)5289" "TL,BA,CU,O,ZN,CD,HG," 3488 JAP0685289 "(M,Tl)BaCuO4.5" Zn1Tl0.78Ba1Cu1O4.5 Zn 1 Tl 0.78 Ba 1 Cu 1 O 4.5 1990 3.865 23.218 K 77 85 81 "STUDY ON ZN-, CD-, OR HG-ADDITION INTO TLBACUO" 1990 "DEPARTMENT OF PHYSICS, UNIVERSITY OF ARKANSAS, FAYETTEVILLE, ARKANSAS 72701" "J.APPL.PHYS.,68(1990)5289" "TL,BA,CU,O,ZN,CD,HG," 3489 JAP0685289 "(M,Tl)BaCuO4.5" Cd1Tl0.7Ba1Cu1O4.5 Cd 1 Tl 0.7 Ba 1 Cu 1 O 4.5 1990 3.853 23.241 K 45 60 52.5 "STUDY ON ZN-, CD-, OR HG-ADDITION INTO TLBACUO" 1990 "DEPARTMENT OF PHYSICS, UNIVERSITY OF ARKANSAS, FAYETTEVILLE, ARKANSAS 72701" "J.APPL.PHYS.,68(1990)5289" "TL,BA,CU,O,ZN,CD,HG," 3490 JAP0685289 "(M,Tl)BaCuO4.5" Hg0.76Tl0.76Ba1Cu1O4.5 Hg 0.76 Tl 0.76 Ba 1 Cu 1 O 4.5 1990 3.875 23.217 K 85 90 87.5 "STUDY ON ZN-, CD-, OR HG-ADDITION INTO TLBACUO" 1990 "DEPARTMENT OF PHYSICS, UNIVERSITY OF ARKANSAS, FAYETTEVILLE, ARKANSAS 72701" "J.APPL.PHYS.,68(1990)5289" "TL,BA,CU,O,ZN,CD,HG," 3491 PR0446999 "(Eu,Pr)Ba2Cu3O7" Eu1Ba2Cu3O6.97 Eu 1 Ba 2 Cu 3 O Z 6.97 1 1991 3 Y123 3.843 3.902 11.714 K 94.75 94.77 94.9 94.77 0.857 SUPERCONDUCTIVITY AND MAGNETISM IN EU1-XPRXBA2CU3O7-Z 1991 10 "DEPARTMENT OF PHYSICS AND INSTITUTEFOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SANDIEGO,LA JOLLA,CALIFORNIA 92093" "PHYS.REV.B,44(1991)6999" "EU,PR,BA,CU,O" 3492 PR0446999 "(Eu,Pr)Ba2Cu3O7" Eu0.95Pr0.05Ba2Cu3OZ Eu 0.95 Pr 0.05 Ba 2 Cu 3 O Z 1 1991 3 Y123 K 91.05 91.35 91.8 91.35 0.792 SUPERCONDUCTIVITY AND MAGNETISM IN EU1-XPRXBA2CU3O7-Z 1991 10 "DEPARTMENT OF PHYSICS AND INSTITUTEFOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SANDIEGO,LA JOLLA,CALIFORNIA 92093" "PHYS.REV.B,44(1991)6999" "EU,PR,BA,CU,O" 3493 PR0446999 "KONDO-T=2.1K,NEELT,GAMMA,KONDO-T FROM SPECIFIC HEAT" "(Eu,Pr)Ba2Cu3O7" Eu0.9Pr0.1Ba2Cu3O6.95 Eu 0.9 Pr 0.1 Ba 2 Cu 3 O Z 6.95 1 1991 1.15 3 Y123 3.842 3.895 11.696 K 78.2 79.45 81.5 79.45 40 0.973 SUPERCONDUCTIVITY AND MAGNETISM IN EU1-XPRXBA2CU3O7-Z 1991 10 "DEPARTMENT OF PHYSICS AND INSTITUTEFOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SANDIEGO,LA JOLLA,CALIFORNIA 92093" "PHYS.REV.B,44(1991)6999" "EU,PR,BA,CU,O" 3494 PR0446999 "KONDO-T=4.5K,FROM SPECIFIC HEAT" "(Eu,Pr)Ba2Cu3O7" Eu0.8Pr0.2Ba2Cu3O6.97 Eu 0.8 Pr 0.2 Ba 2 Cu 3 O Z 6.97 1 1991 2.63 3 Y123 3.847 3.904 11.714 K 57.2 57.9 59.4 57.9 90 1.56 SUPERCONDUCTIVITY AND MAGNETISM IN EU1-XPRXBA2CU3O7-Z 1991 10 "DEPARTMENT OF PHYSICS AND INSTITUTEFOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SANDIEGO,LA JOLLA,CALIFORNIA 92093" "PHYS.REV.B,44(1991)6999" "EU,PR,BA,CU,O" 3495 PR0446999 "(Eu,Pr)Ba2Cu3O7" Eu0.7Pr0.3Ba2Cu3O6.95 Eu 0.7 Pr 0.3 Ba 2 Cu 3 O Z 6.95 1 1991 3 Y123 3.846 3.899 11.701 K 37.2 38.8 42.2 38.8 2.24 SUPERCONDUCTIVITY AND MAGNETISM IN EU1-XPRXBA2CU3O7-Z 1991 10 "DEPARTMENT OF PHYSICS AND INSTITUTEFOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SANDIEGO,LA JOLLA,CALIFORNIA 92093" "PHYS.REV.B,44(1991)6999" "EU,PR,BA,CU,O" 3496 PR0446999 "KONDO-T=7.0K,FROM SPECIFIC HEAT" "(Eu,Pr)Ba2Cu3O7" Eu0.6Pr0.4Ba2Cu3O6.97 Eu 0.6 Pr 0.4 Ba 2 Cu 3 O Z 6.97 1 1991 9.1 3 Y123 3.856 3.894 11.722 K 10.1 15 20.1 15 112.5 2.28 SUPERCONDUCTIVITY AND MAGNETISM IN EU1-XPRXBA2CU3O7-Z 1991 10 "DEPARTMENT OF PHYSICS AND INSTITUTEFOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SANDIEGO,LA JOLLA,CALIFORNIA 92093" "PHYS.REV.B,44(1991)6999" "EU,PR,BA,CU,O" 3497 PR0446999 NEELT FROM SPECIFIC HEAT "(Eu,Pr)Ba2Cu3O7" Eu0.4Pr0.6Ba2Cu3O6.95 Eu 0.4 Pr 0.6 Ba 2 Cu 3 O Z 6.95 1 1991 10.1 3 Y123 3.86 3.898 11.711 K 7.9 SUPERCONDUCTIVITY AND MAGNETISM IN EU1-XPRXBA2CU3O7-Z 1991 10 "DEPARTMENT OF PHYSICS AND INSTITUTEFOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SANDIEGO,LA JOLLA,CALIFORNIA 92093" "PHYS.REV.B,44(1991)6999" "EU,PR,BA,CU,O" 3498 PR0446999 NEELT FROM SPHEAT "(Eu,Pr)Ba2Cu3O7" Eu0.2Pr0.8Ba2Cu3O7.01 Eu 0.2 Pr 0.8 Ba 2 Cu 3 O Z 7.01 1 1991 12.9 3 Y123 3.868 3.893 11.734 K 11.93 SUPERCONDUCTIVITY AND MAGNETISM IN EU1-XPRXBA2CU3O7-Z 1991 10 "DEPARTMENT OF PHYSICS AND INSTITUTEFOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SANDIEGO,LA JOLLA,CALIFORNIA 92093" "PHYS.REV.B,44(1991)6999" "EU,PR,BA,CU,O" 3499 PR0446999 NEELT FROM SPHEAT "(Eu,Pr)Ba2Cu3O7" Pr1Ba2Cu3O6.95 Pr 1 Ba 2 Cu 3 O Z 6.95 1 1991 15.9 3 Y123 3.878 3.928 11.719 K 15.1 SUPERCONDUCTIVITY AND MAGNETISM IN EU1-XPRXBA2CU3O7-Z 1991 10 "DEPARTMENT OF PHYSICS AND INSTITUTEFOR PURE AND APPLIED PHYSICAL SCIENCES,UNIVERSITY OF CALIFORNIA,SANDIEGO,LA JOLLA,CALIFORNIA 92093" "PHYS.REV.B,44(1991)6999" "EU,PR,BA,CU,O" 3500 PR0457424 "KAIZERO,CURIEC IN EMU/CM3.OE" "(Pb,Cu)Sr2(Y,Ca)Cu2OZ" Pb0.5Sr2Y1Cu2.5O6.98 Pb 0.5 Sr 2 Y 1 Cu 2.5 O Z 6.98 1992 -4.20E+11 0.41 10.7 2 Pb1212 3.817 11.802 K 15 1.61E-08 RH3500 SUPERCONDUCTING LEAD CUPRATES (PB0.5CU0.5)(SR1-YBAY)2(Y1-XCAX)CU2OW 1992 4 "PHYS.REV.B,45(1992)7424" "PB,CU,SR,BA,Y,CA,O" 3501 PR0457424 "(Pb,Cu)Sr2(Y,Ca)Cu2OZ" Pb0.5Sr2Y0.95Ca0.05Cu2.5OZ Pb 0.5 Sr 2 Y 0.95 Ca 0.05 Cu 2.5 O Z 1992 2 Pb1212 3.815 11.804 K 9.7 SUPERCONDUCTING LEAD CUPRATES (PB0.5CU0.5)(SR1-YBAY)2(Y1-XCAX)CU2OW 1992 4 "PHYS.REV.B,45(1992)7424" "PB,CU,SR,BA,Y,CA,O" 3502 PR0457424 IMPURITY=SRCUO2 "(Pb,Cu)Sr2(Y,Ca)Cu2OZ" Pb0.5Sr2Y0.9Ca0.1Cu2.5OZ Pb 0.5 Sr 2 Y 0.9 Ca 0.1 Cu 2.5 O Z 1992 2 Pb1212 3.815 11.818 K 7.1 SUPERCONDUCTING LEAD CUPRATES (PB0.5CU0.5)(SR1-YBAY)2(Y1-XCAX)CU2OW 1992 4 "PHYS.REV.B,45(1992)7424" "PB,CU,SR,BA,Y,CA,O" 3503 PR0457424 IMPURITY=SRCUO2 "(Pb,Cu)Sr2(Y,Ca)Cu2OZ" Pb0.5Sr2Y0.85Ca0.15Cu2.5OZ Pb 0.5 Sr 2 Y 0.85 Ca 0.15 Cu 2.5 O Z 1992 2 Pb1212 3.814 11.821 K 7.1 SUPERCONDUCTING LEAD CUPRATES (PB0.5CU0.5)(SR1-YBAY)2(Y1-XCAX)CU2OW 1992 4 "PHYS.REV.B,45(1992)7424" "PB,CU,SR,BA,Y,CA,O" 3504 PR0457424 IMPURITY=SRCUO2 "(Pb,Cu)Sr2(Y,Ca)Cu2OZ" Pb0.5Sr2Y0.8Ca0.2Cu2.5OZ Pb 0.5 Sr 2 Y 0.8 Ca 0.2 Cu 2.5 O Z 1992 2 Pb1212 3.814 11.823 K 7.1 SUPERCONDUCTING LEAD CUPRATES (PB0.5CU0.5)(SR1-YBAY)2(Y1-XCAX)CU2OW 1992 4 "PHYS.REV.B,45(1992)7424" "PB,CU,SR,BA,Y,CA,O" 3505 PR0457424 "KAIZERO,CURIEC IN EMU/CM3.OE" "(Pb,Cu)(Sr,Ba)2(Y,Ca)Cu2OZ" Pb0.5Sr1.8Ba0.2Y1Cu2.5O6.98 Pb 0.5 Sr 1.8 Ba 0.2 Y 1 Cu 2.5 O Z 6.98 1992 0.24 -5.5 2 Pb1212 3.823 11.839 K 12.5 9.26E-09 RH3505 SUPERCONDUCTING LEAD CUPRATES (PB0.5CU0.5)(SR1-YBAY)2(Y1-XCAX)CU2OW 1992 4 "PHYS.REV.B,45(1992)7424" "PB,CU,SR,BA,Y,CA,O" 3506 PR0457424 "(Pb,Ca)(Sr,Ba)2(Y,Ca)Cu2OZ" Pb0.5Sr1.8Ba0.2Y0.95Ca0.05Cu2.5OZ Pb 0.5 Sr 1.8 Ba 0.2 Y 0.95 Ca 0.05 Cu 2.5 O Z 1992 2 Pb1212 3.823 11.85 K 8.3 SUPERCONDUCTING LEAD CUPRATES (PB0.5CU0.5)(SR1-YBAY)2(Y1-XCAX)CU2OW 1992 4 "PHYS.REV.B,45(1992)7424" "PB,CU,SR,BA,Y,CA,O" 3507 PR0457424 "(Pb,Cu)(Sr,Ba)2(Y,Ca)Cu2OZ" Pb0.5Sr1.8Ba0.2Y0.9Ca0.1Cu2.5OZ Pb 0.5 Sr 1.8 Ba 0.2 Y 0.9 Ca 0.1 Cu 2.5 O Z 1992 2 Pb1212 3.822 11.853 K 5.2 SUPERCONDUCTING LEAD CUPRATES (PB0.5CU0.5)(SR1-YBAY)2(Y1-XCAX)CU2OW 1992 4 "PHYS.REV.B,45(1992)7424" "PB,CU,SR,BA,Y,CA,O" 3508 PR0457424 "KAIZERO,CURIEC IN EMU/CM3.OE" "(Pb,Cu)(Sr,Ba)2(Y,Ca)Cu2OZ" Pb0.5Sr1.8Ba0.2Y0.85Ca0.15Cu2.5O6.98 Pb 0.5 Sr 1.8 Ba 0.2 Y 0.85 Ca 0.15 Cu 2.5 O Z 6.98 1992 -26750 0.22 -3 2 Pb1212 3.821 11.861 K 25 25 11 4.1 3.65E-09 RH3508 SUPERCONDUCTING LEAD CUPRATES (PB0.5CU0.5)(SR1-YBAY)2(Y1-XCAX)CU2OW 1992 4 "PHYS.REV.B,45(1992)7424" "PB,CU,SR,BA,Y,CA,O" 3509 PR0457424 IMPURITY=SRCUO2 BY XRD "(Pb,Cu)(Sr,Ba)2(Y,Ca)Cu2OZ" Pb0.5Sr1.8Ba0.2Y0.8Ca0.2Cu2.5OZ Pb 0.5 Sr 1.8 Ba 0.2 Y 0.8 Ca 0.2 Cu 2.5 O Z 1992 2 Pb1212 3.821 11.869 K 4.1 SUPERCONDUCTING LEAD CUPRATES (PB0.5CU0.5)(SR1-YBAY)2(Y1-XCAX)CU2OW 1992 4 "PHYS.REV.B,45(1992)7424" "PB,CU,SR,BA,Y,CA,O" 3510 PR0458189 "NO Y123,NO Y124 PHASES" YBa2Cu4O15 Y2Ba4Cu7O15.09 Y 2 Ba 4 Cu 7 O 15.09 15.09 1 1992 Y247 K 89 89 1.1 6.00E-11 RH3510 HALL EFFECT IN Y2BA4CU7OX CERAMICS WITH 14.1X=0.15" "(Sr,La)CuO2" Sr0.88La0.12Cu1O1.97 Sr 0.88 La 0.12 Cu 1 O 2 1.97 1 1992 2 3.948 3.409 K 22.5 42.4 42 42.4 50 "STRUCTURAL,ELECTRICAL AND MAGNETIC STUDIES OF INFINITE-LAYEREDSR1-XLAXCUO2 SUPERCONDUCTOR" 1992 6 "PHYSICA C,196(1992)271" "SR,LA,CU,O" 3616 PHC1960271 "(Sr,La)CuO2" SrCu1O2 Sr 1 Cu 1 O 2 1 1992 2 3.928 3.434 K "STRUCTURAL,ELECTRICAL AND MAGNETIC STUDIES OF INFINITE-LAYEREDSR1-XLAXCUO2 SUPERCONDUCTOR" 1992 6 "PHYSICA C,196(1992)271" "SR,LA,CU,O" 3617 PHC1960247 DyBaSrCu3O7 Dy1Ba1Sr1Cu3O6.94 Dy 1 Ba 1 Sr 1 Cu 3 O 6.94 6.94 1 1992 2 Y123 3.828 11.533 K 80 80 1.74 OXYGEN ORDERING AND SUPERCONDUCTIVITY IN DYBASRCU3OY 1992 6 "PHYSICA C,196(1992)247" "DY,BA,SR,CU,O" 3618 PHC1960247 DyBaSrCu3O7 Dy1Ba1Sr1Cu3O6.93 Dy 1 Ba 1 Sr 1 Cu 3 O 6.93 6.93 1 1992 3 Y123 3.816 3.838 11.542 K 83 83 1.11 OXYGEN ORDERING AND SUPERCONDUCTIVITY IN DYBASRCU3OY 1992 6 "PHYSICA C,196(1992)247" "DY,BA,SR,CU,O" 3619 PHC1950195 "MEASURING CURRENT //<100>DIRECTION,G-L PARAMETER=82,HC2(0) BY WHH THEORY" "(Ba,K)BiO3" Ba0.62K0.38Bi1O3 Ba 0.62 K 0.38 Bi 1 O 3 3 1992 BKBO K 28.5 30.5 29.5 16.1 0.79 45 3690 ELECTRICAL RESISTIVITY OF SINGLE CRYSTAL BA1-XKXBIO3 1992 5 "PHYSICA C,195(1992)195" "BA,K,BI,O" 3620 PR0414126 "(Ba,K)BiO3" Ba1Bi1O3 Ba 1 Bi 1 O 3 1990 4 BKBO I2/M 6.186 6.141 8.672 K 4.2 STRUCTURAL PHASE DIAGRAM OF THE BA1-XKXBIO3 SYSTEM 1990 3 "STRUCTURES ,NEUTRON DIFFRACTION" "MATERIALS SCIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARGONNE, ILLINOIS 60439" "PHYS.REV.B,41(1990)4126" "BA,K,BI,O" 3621 PR0414126 "(Ba,K)BiO3" Ba0.9K0.1Bi1O3 Ba 0.9 K 0.1 Bi 1 O 3 1990 4 BKBO IBMM 6.158 6.126 8.657 K 4.2 STRUCTURAL PHASE DIAGRAM OF THE BA1-XKXBIO3 SYSTEM 1990 3 "STRUCTURES ,NEUTRON DIFFRACTION" "MATERIALS SCIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARGONNE, ILLINOIS 60439" "PHYS.REV.B,41(1990)4126" "BA,K,BI,O" 3622 PR0414126 "(Ba,K)BiO3" Ba0.8K0.2Bi1O3 Ba 0.8 K 0.2 Bi 1 O 3 1990 4 BKBO IBMM 6.128 6.104 8.629 K 4.2 STRUCTURAL PHASE DIAGRAM OF THE BA1-XKXBIO3 SYSTEM 1990 3 "STRUCTURES ,NEUTRON DIFFRACTION" "MATERIALS SCIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARGONNE, ILLINOIS 60439" "PHYS.REV.B,41(1990)4126" "BA,K,BI,O" 3623 PR0414126 "(Ba,K)BiO3" Ba0.75K0.25Bi1O3 Ba 0.75 K 0.25 Bi 1 O 3 1990 4 BKBO IBMM 6.112 6.093 8.613 K 4.2 STRUCTURAL PHASE DIAGRAM OF THE BA1-XKXBIO3 SYSTEM 1990 3 "STRUCTURES ,NEUTRON DIFFRACTION" "MATERIALS SCIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARGONNE, ILLINOIS 60439" "PHYS.REV.B,41(1990)4126" "BA,K,BI,O" 3624 PR0414126 "(Ba,K)BiO3" Ba0.7K0.3Bi1O3 Ba 0.7 K 0.3 Bi 1 O 3 1990 1 BKBO PM3-M 4.301 K 29.9 29.9 STRUCTURAL PHASE DIAGRAM OF THE BA1-XKXBIO3 SYSTEM 1990 3 "STRUCTURES ,NEUTRON DIFFRACTION" "MATERIALS SCIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARGONNE, ILLINOIS 60439" "PHYS.REV.B,41(1990)4126" "BA,K,BI,O" 3625 PR0414126 "(Ba,K)BiO3" Ba0.65K0.35Bi1O3 Ba 0.65 K 0.35 Bi 1 O 3 1990 1 BKBO PM3-M 4.295 K 28.5 29.9 29.2 STRUCTURAL PHASE DIAGRAM OF THE BA1-XKXBIO3 SYSTEM 1990 3 "STRUCTURES ,NEUTRON DIFFRACTION" "MATERIALS SCIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARGONNE, ILLINOIS 60439" "PHYS.REV.B,41(1990)4126" "BA,K,BI,O" 3626 PR0414126 "(Ba,K)BiO3" Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 1990 1 BKBO PM3-M 4.283 K 27.6 29.4 28.5 STRUCTURAL PHASE DIAGRAM OF THE BA1-XKXBIO3 SYSTEM 1990 3 "STRUCTURES ,NEUTRON DIFFRACTION" "MATERIALS SCIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARGONNE, ILLINOIS 60439" "PHYS.REV.B,41(1990)4126" "BA,K,BI,O" 3627 PR0414126 "(Ba,K)BiO3" Ba0.575K0.425Bi1O3 Ba 0.575 K 0.425 Bi 1 O 3 1990 1 BKBO PM3-M 4.279 K 26.6 28 27.3 STRUCTURAL PHASE DIAGRAM OF THE BA1-XKXBIO3 SYSTEM 1990 3 "STRUCTURES ,NEUTRON DIFFRACTION" "MATERIALS SCIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARGONNE, ILLINOIS 60439" "PHYS.REV.B,41(1990)4126" "BA,K,BI,O" 3628 PR0414126 "(Ba,K)BiO3" Ba0.5K0.5Bi1O3 Ba 0.5 K 0.5 Bi 1 O 3 1990 1 BKBO PM3-M 4.27 K 17.2 21.9 19.55 STRUCTURAL PHASE DIAGRAM OF THE BA1-XKXBIO3 SYSTEM 1990 3 "STRUCTURES ,NEUTRON DIFFRACTION" "MATERIALS SCIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARGONNE, ILLINOIS 60439" "PHYS.REV.B,41(1990)4126" "BA,K,BI,O" 3629 APJ0271862 "(Nd,Pr)Ba2Cu3O7" Nd1Ba2Cu3O6.86 Nd 1 Ba 2 Cu 3 O Z 6.86 1 1988 3 Y123 3.866 3.908 11.766 K 77.1 78.6 80.2 78.6 1.65 "Electrical, Magnetic and Superconducting Properties of the High-Tc Superconductor Ba2Nd1-xPrxCu3O7-delta" 1988 10 "Technology Development Center, Toyohashi University of Technology, Tempaku-cho, Toyohashi 440" Japanese J.Appl.Phys.27(1988)1862-1866 3630 APJ0271862 "(Nd,Pr)Ba2Cu3O7" Nd0.9Pr0.1Ba2Cu3OZ Nd 0.9 Pr 0.1 Ba 2 Cu 3 O Z 1 1988 3 Y123 3.865 3.917 11.755 K 45.1 48.9 52.9 48.9 1.59 "Electrical, Magnetic and Superconducting Properties of the High-Tc Superconductor Ba2Nd1-xPrxCu3O7-delta" 1988 10 "Technology Development Center, Toyohashi University of Technology, Tempaku-cho, Toyohashi 440" Japanese J.Appl.Phys.27(1988)1862-1866 3631 APJ0271862 "(Nd,Pr)Ba2Cu3O7" Nd0.8Pr0.2Ba2Cu3OZ Nd 0.8 Pr 0.2 Ba 2 Cu 3 O Z 1 1988 3 Y123 3.863 3.912 11.742 K 23.9 28.6 33.1 28.6 2.14 "Electrical, Magnetic and Superconducting Properties of the High-Tc Superconductor Ba2Nd1-xPrxCu3O7-delta" 1988 10 "Technology Development Center, Toyohashi University of Technology, Tempaku-cho, Toyohashi 440" Japanese J.Appl.Phys.27(1988)1862-1866 3632 APJ0271862 "(Nd,Pr)Ba2Cu3O7" Nd0.75Pr0.25Ba2Cu3O6.96 Nd 0.75 Pr 0.25 Ba 2 Cu 3 O Z 6.96 1 1988 3 Y123 3.861 3.906 11.758 K 4.2 11.7 19.3 11.7 3.79 "Electrical, Magnetic and Superconducting Properties of the High-Tc Superconductor Ba2Nd1-xPrxCu3O7-delta" 1988 10 "Technology Development Center, Toyohashi University of Technology, Tempaku-cho, Toyohashi 440" Japanese J.Appl.Phys.27(1988)1862-1866 3633 APJ0271862 "(Nd,Pr)Ba2Cu3O7" Nd0.7Pr0.3Ba2Cu3O6.98 Nd 0.7 Pr 0.3 Ba 2 Cu 3 O Z 6.98 1 1988 3 Y123 3.866 3.91 11.747 K 4.2 3.45 "Electrical, Magnetic and Superconducting Properties of the High-Tc Superconductor Ba2Nd1-xPrxCu3O7-delta" 1988 10 "Technology Development Center, Toyohashi University of Technology, Tempaku-cho, Toyohashi 440" Japanese J.Appl.Phys.27(1988)1862-1866 3634 APJ0271862 "(Nd,Pr)Ba2Cu3O7" Nd0.65Pr0.35Ba2Cu3O6.87 Nd 0.65 Pr 0.35 Ba 2 Cu 3 O Z 6.87 1 1988 3 Y123 3.869 3.913 11.744 K 4.2 3.48 "Electrical, Magnetic and Superconducting Properties of the High-Tc Superconductor Ba2Nd1-xPrxCu3O7-delta" 1988 10 "Technology Development Center, Toyohashi University of Technology, Tempaku-cho, Toyohashi 440" Japanese J.Appl.Phys.27(1988)1862-1866 3635 APJ0271862 "(Nd,Pr)Ba2Cu3O7" Nd0.5Pr0.5Ba2Cu3O6.95 Nd 0.5 Pr 0.5 Ba 2 Cu 3 O Z 6.95 1 1988 3 Y123 3.859 3.902 11.767 K 4.2 4.31 "Electrical, Magnetic and Superconducting Properties of the High-Tc Superconductor Ba2Nd1-xPrxCu3O7-delta" 1988 10 "Technology Development Center, Toyohashi University of Technology, Tempaku-cho, Toyohashi 440" Japanese J.Appl.Phys.27(1988)1862-1866 3636 APJ0271862 "(Nd,Pr)Ba2Cu3O7" Nd0.25Pr0.75Ba2Cu3O6.91 Nd 0.25 Pr 0.75 Ba 2 Cu 3 O Z 6.91 1 1988 3 Y123 3.865 3.903 11.769 K 4.2 7.18 "Electrical, Magnetic and Superconducting Properties of the High-Tc Superconductor Ba2Nd1-xPrxCu3O7-delta" 1988 10 "Technology Development Center, Toyohashi University of Technology, Tempaku-cho, Toyohashi 440" Japanese J.Appl.Phys.27(1988)1862-1866 3637 APJ0271862 "(Nd,Pr)Ba2Cu3O7" Pr1Ba2Cu3O6.88 Pr 1 Ba 2 Cu 3 O Z 6.88 1 1988 3 Y123 3.875 3.911 11.757 K 4.2 12 "Electrical, Magnetic and Superconducting Properties of the High-Tc Superconductor Ba2Nd1-xPrxCu3O7-delta" 1988 10 "Technology Development Center, Toyohashi University of Technology, Tempaku-cho, Toyohashi 440" Japanese J.Appl.Phys.27(1988)1862-1866 3638 PHC1960090 TC RELATED TO AVERAGE ION RADIUS OF R "(Lu,Pr)Ba2Cu3O7" Lu0.5Pr0.5Ba2Cu3O6.75 Lu 0.5 Pr 0.5 Ba 2 Cu 3 O Z 6.75 1 1992 3 Y123 3.826 3.891 11.683 K 37.5 40.1 40.1 SUPERCONDUCTIVITY OF PR0.5R0.5BA2CU3O7-Y SYSTEM AND THE EXISTENCE OF A CRITICAL ION RADIUS FOR SUPPRESSION OF SUPERCONDUCTIVITY IN R1-XPRXBA2CU3O7-Y 1992 6 "PHYSICA C,196(1992)90" "PR,BA,CU,O,R" 3639 PHC1960090 "(Pr,R)Ba2Cu3O7" Yb0.5Pr0.5Ba2Cu3O6.67 Yb 0.5 Pr 0.5 Ba 2 Cu 3 O Z 6.67 1 1992 3 Y123 3.826 3.893 11.676 K 37 38.7 38.7 SUPERCONDUCTIVITY OF PR0.5R0.5BA2CU3O7-Y SYSTEM AND THE EXISTENCE OF A CRITICAL ION RADIUS FOR SUPPRESSION OF SUPERCONDUCTIVITY IN R1-XPRXBA2CU3O7-Y 1992 6 "PHYSICA C,196(1992)90" "PR,BA,CU,O,R" 3640 PHC1960090 "(Pr,R)Ba2Cu3O7" Tm0.5Pr0.5Ba2Cu3O6.64 Tm 0.5 Pr 0.5 Ba 2 Cu 3 O Z 6.64 1 1992 3 Y123 3.829 3.895 11.679 K 35 36 36 SUPERCONDUCTIVITY OF PR0.5R0.5BA2CU3O7-Y SYSTEM AND THE EXISTENCE OF A CRITICAL ION RADIUS FOR SUPPRESSION OF SUPERCONDUCTIVITY IN R1-XPRXBA2CU3O7-Y 1992 6 "PHYSICA C,196(1992)90" "PR,BA,CU,O,R" 3641 PHC1960090 "(Pr,R)Ba2Cu3O7" Er0.5Pr0.5Ba2Cu3O6.82 Er 0.5 Pr 0.5 Ba 2 Cu 3 O Z 6.82 1 1992 3 Y123 3.832 3.893 11.682 K 33 34.4 34.4 SUPERCONDUCTIVITY OF PR0.5R0.5BA2CU3O7-Y SYSTEM AND THE EXISTENCE OF A CRITICAL ION RADIUS FOR SUPPRESSION OF SUPERCONDUCTIVITY IN R1-XPRXBA2CU3O7-Y 1992 6 "PHYSICA C,196(1992)90" "PR,BA,CU,O,R" 3642 PHC1960090 "(Pr,R)Ba2Cu3O7" Ho0.5Pr0.5Ba2Cu3O6.67 Ho 0.5 Pr 0.5 Ba 2 Cu 3 O Z 6.67 1 1992 3 Y123 3.834 3.898 11.691 K 23 24.3 24.3 SUPERCONDUCTIVITY OF PR0.5R0.5BA2CU3O7-Y SYSTEM AND THE EXISTENCE OF A CRITICAL ION RADIUS FOR SUPPRESSION OF SUPERCONDUCTIVITY IN R1-XPRXBA2CU3O7-Y 1992 6 "PHYSICA C,196(1992)90" "PR,BA,CU,O,R" 3643 PHC1960090 "(Pr,R)Ba2Cu3O7" Y0.5Pr0.5Ba2Cu3O6.68 Y 0.5 Pr 0.5 Ba 2 Cu 3 O Z 6.68 1 1992 3 Y123 3.837 3.896 11.7 K 26 27.1 27.1 SUPERCONDUCTIVITY OF PR0.5R0.5BA2CU3O7-Y SYSTEM AND THE EXISTENCE OF A CRITICAL ION RADIUS FOR SUPPRESSION OF SUPERCONDUCTIVITY IN R1-XPRXBA2CU3O7-Y 1992 6 "PHYSICA C,196(1992)90" "PR,BA,CU,O,R" 3644 PHC1960090 "(Pr,R)Ba2Cu3O7" Dy0.5Pr0.5Ba2Cu3O6.85 Dy 0.5 Pr 0.5 Ba 2 Cu 3 O Z 6.85 1 1992 3 Y123 3.844 3.906 11.709 K 18 19 19 SUPERCONDUCTIVITY OF PR0.5R0.5BA2CU3O7-Y SYSTEM AND THE EXISTENCE OF A CRITICAL ION RADIUS FOR SUPPRESSION OF SUPERCONDUCTIVITY IN R1-XPRXBA2CU3O7-Y 1992 6 "PHYSICA C,196(1992)90" "PR,BA,CU,O,R" 3645 PHC1960090 "(Pr,R)Ba2Cu3O7" Gd0.5Pr0.5Ba2Cu3O6.79 Gd 0.5 Pr 0.5 Ba 2 Cu 3 O Z 6.79 1 1992 3 Y123 3.836 3.902 11.712 K SUPERCONDUCTIVITY OF PR0.5R0.5BA2CU3O7-Y SYSTEM AND THE EXISTENCE OF A CRITICAL ION RADIUS FOR SUPPRESSION OF SUPERCONDUCTIVITY IN R1-XPRXBA2CU3O7-Y 1992 6 "PHYSICA C,196(1992)90" "PR,BA,CU,O,R" 3646 PHC1960090 "(Pr,R)Ba2Cu3O7" Eu0.5Pr0.5Ba2Cu3O6.79 Eu 0.5 Pr 0.5 Ba 2 Cu 3 O Z 6.79 1 1992 3 Y123 3.848 3.907 11.709 K SUPERCONDUCTIVITY OF PR0.5R0.5BA2CU3O7-Y SYSTEM AND THE EXISTENCE OF A CRITICAL ION RADIUS FOR SUPPRESSION OF SUPERCONDUCTIVITY IN R1-XPRXBA2CU3O7-Y 1992 6 "PHYSICA C,196(1992)90" "PR,BA,CU,O,R" 3647 PHC1960125 "MULTI-PHASE FOR 095%) "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.975Fe0.025O8 Y 1 Ba 2 Cu 3.975 Fe 0.025 O 8 1 1992 3 Y124 3.835 3.87 27.17 K 64.6 64.6 MAGNETIZATION MEASUREMENTS AND MOSSBAUER SPECTROSCOPY IN IRONDOPED YBA2CU4O8 1992 8 "PHYSICA C,199(1992)130" "FE,Y,BA,CU,O" 3714 PHC1990130 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.987Fe0.013O8 Y 1 Ba 2 Cu 3.987 Fe 0.013 O 8 1 1992 Y124 K 70.3 70.3 MAGNETIZATION MEASUREMENTS AND MOSSBAUER SPECTROSCOPY IN IRONDOPED YBA2CU4O8 1992 8 "PHYSICA C,199(1992)130" "FE,Y,BA,CU,O" 3715 PHC1990130 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.925Fe0.075O8 Y 1 Ba 2 Cu 3.925 Fe 0.075 O 8 1 1992 Y124 K 44.2 44.2 MAGNETIZATION MEASUREMENTS AND MOSSBAUER SPECTROSCOPY IN IRONDOPED YBA2CU4O8 1992 8 "PHYSICA C,199(1992)130" "FE,Y,BA,CU,O" 3716 PHC1990143 TC DEPEND ON HOLE DENSITY "(La,Sr)2CuO4" La1.82Sr0.18Cu1O4 La 1.82 Sr 0.18 Cu 1 O 4 4 1992 T K 37 37 EFFECT OF 0XYGEN VACANCY ON MAGNETIC AND SUPERCONDUCTING PROPERTIES IN LA1.82SR0.18CUO4 1992 8 "PHYSICA C,199(1992)143" "LA,SR,CU,O" 3717 PHC1990143 "(La,Sr)2CuO4" La1.82Sr0.18Cu1O3.994 La 1.82 Sr 0.18 Cu 1 O 3.994 3.994 1992 T K 34 34 EFFECT OF 0XYGEN VACANCY ON MAGNETIC AND SUPERCONDUCTING PROPERTIES IN LA1.82SR0.18CUO4 1992 8 "PHYSICA C,199(1992)143" "LA,SR,CU,O" 3718 PHC1990143 "(La,Sr)2CuO4" La1.82Sr0.18Cu1O3.987 La 1.82 Sr 0.18 Cu 1 O 3.987 3.987 1992 T K 33 33 EFFECT OF 0XYGEN VACANCY ON MAGNETIC AND SUPERCONDUCTING PROPERTIES IN LA1.82SR0.18CUO4 1992 8 "PHYSICA C,199(1992)143" "LA,SR,CU,O" 3719 PHC1990143 "(La,Sr)2CuO4" La1.82Sr0.18Cu1O3.972 La 1.82 Sr 0.18 Cu 1 O 3.972 3.972 1992 T K 28 28 EFFECT OF 0XYGEN VACANCY ON MAGNETIC AND SUPERCONDUCTING PROPERTIES IN LA1.82SR0.18CUO4 1992 8 "PHYSICA C,199(1992)143" "LA,SR,CU,O" 3720 PHC1990143 "(La,Sr)2CuO4" La1.82Sr0.18Cu1O3.967 La 1.82 Sr 0.18 Cu 1 O 3.967 3.967 1992 T K 22 22 EFFECT OF 0XYGEN VACANCY ON MAGNETIC AND SUPERCONDUCTING PROPERTIES IN LA1.82SR0.18CUO4 1992 8 "PHYSICA C,199(1992)143" "LA,SR,CU,O" 3721 PHC1990143 "(La,Sr)2CuO4" La1.82Sr0.18Cu1O3.957 La 1.82 Sr 0.18 Cu 1 O 3.957 3.957 1992 T K 4.2 EFFECT OF 0XYGEN VACANCY ON MAGNETIC AND SUPERCONDUCTING PROPERTIES IN LA1.82SR0.18CUO4 1992 8 "PHYSICA C,199(1992)143" "LA,SR,CU,O" 3722 PHC1990177 NEARLY SINGLE PHASE "Yb(Ba,Sr)2Cu4O8" Yb1Ba1.8Sr0.2Cu4O8 Yb 1 Ba 1.8 Sr 0.2 Cu 4 O 8 1 1992 3 Y124 3.814 3.857 27.129 K 77 80 82 80 "PREPARATION AND PROPERTIES OF CA-DOPED ""YB-124"" SUPERCONDUCTORS" 1992 8 "PHYSICA C,199(1992)177" "CA,YB,BA,SR,CU,O" 3723 PHC1990177 "Yb(Ba,Sr)2Cu4O8" Yb1Ba1.6Sr0.4Cu4O8 Yb 1 Ba 1.6 Sr 0.4 Cu 4 O 8 1 1992 3 Y124 3.805 3.855 27.072 K 78 80 83 80 5.47 TP3723 "PREPARATION AND PROPERTIES OF CA-DOPED ""YB-124"" SUPERCONDUCTORS" 1992 8 "PHYSICA C,199(1992)177" "CA,YB,BA,SR,CU,O" 3724 PHC1990177 "Yb(Ba,Sr)2Cu4O8" Yb1Ba1.4Sr0.6Cu4O8 Yb 1 Ba 1.4 Sr 0.6 Cu 4 O 8 1 1992 3 Y124 3.796 3.851 27.022 K 77 80 83 80 "PREPARATION AND PROPERTIES OF CA-DOPED ""YB-124"" SUPERCONDUCTORS" 1992 8 "PHYSICA C,199(1992)177" "CA,YB,BA,SR,CU,O" 3725 PHC1990177 Y124+OTHER PHASES "Yb(Ba,Sr)2Cu4O8" Yb1Ba1.2Sr0.8Cu4O8 Yb 1 Ba 1.2 Sr 0.8 Cu 4 O 8 2 1992 3 Y124 3.794 3.851 27.007 K 76 80 81 80 "PREPARATION AND PROPERTIES OF CA-DOPED ""YB-124"" SUPERCONDUCTORS" 1992 8 "PHYSICA C,199(1992)177" "CA,YB,BA,SR,CU,O" 3726 PHC1990177 NEARLY SINGLE PHASE "(Yb,Ca)(Ba,Sr)2Cu4O8" Yb0.9Ca0.1Ba1.8Sr0.2Cu4O8 Yb 0.9 Ca 0.1 Ba 1.8 Sr 0.2 Cu 4 O 8 1 1992 3 Y124 3.814 3.854 27.128 K 86 87 88 87 "PREPARATION AND PROPERTIES OF CA-DOPED ""YB-124"" SUPERCONDUCTORS" 1992 8 "PHYSICA C,199(1992)177" "CA,YB,BA,SR,CU,O" 3727 PHC1990177 "(Yb,Ca)(Ba,Sr)2Cu4O8" Yb0.9Ca0.1Ba1.6Sr0.4Cu4O8 Yb 0.9 Ca 0.1 Ba 1.6 Sr 0.4 Cu 4 O 8 1 1992 3 Y124 3.805 3.851 27.076 K 85 86 87 86 1.37 TP3727 "PREPARATION AND PROPERTIES OF CA-DOPED ""YB-124"" SUPERCONDUCTORS" 1992 8 "PHYSICA C,199(1992)177" "CA,YB,BA,SR,CU,O" 3728 PHC1990177 "(Yb,Ca)(Ba,Sr)2Cu4O8" Yb0.9Ca0.1Ba1.4Sr0.6Cu4O8 Yb 0.9 Ca 0.1 Ba 1.4 Sr 0.6 Cu 4 O 8 1 1992 3 Y124 3.8 3.851 27.046 K 83 85 86 85 "PREPARATION AND PROPERTIES OF CA-DOPED ""YB-124"" SUPERCONDUCTORS" 1992 8 "PHYSICA C,199(1992)177" "CA,YB,BA,SR,CU,O" 3729 PHC1990177 Y124+OTHER PHASES "(Yb,Ca)(Ba,Sr)2Cu4O8" Yb0.9Ca0.1Ba1.2Sr0.8Cu4O8 Yb 0.9 Ca 0.1 Ba 1.2 Sr 0.8 Cu 4 O 8 2 1992 3 Y124 3.798 3.85 27.036 K 80 84 85 84 "PREPARATION AND PROPERTIES OF CA-DOPED ""YB-124"" SUPERCONDUCTORS" 1992 8 "PHYSICA C,199(1992)177" "CA,YB,BA,SR,CU,O" 3730 PHC1990177 Y124+OTHER PHASES "(Yb,Ca)(Ba,Sr)2Cu4O8" YbCa0.2Ba1.6Sr0.4Cu4O8 Yb 1 Ca 0.2 Ba 1.6 Sr 0.4 Cu 4 O 8 2 1992 3 Y124 3.809 3.852 27.106 K 86 86 87 86 "PREPARATION AND PROPERTIES OF CA-DOPED ""YB-124"" SUPERCONDUCTORS" 1992 8 "PHYSICA C,199(1992)177" "CA,YB,BA,SR,CU,O" 3731 PHC1990177 Y124+OTHER PHASES "(Yb,Ca)(Ba,Sr)2Cu4O8" YbCa0.4Ba1.6Sr0.4Cu4O8 Yb 1 Ca 0.4 Ba 1.6 Sr 0.4 Cu 4 O 8 2 1992 3 Y124 3.809 3.852 27.106 K 84 85 87 85 "PREPARATION AND PROPERTIES OF CA-DOPED ""YB-124"" SUPERCONDUCTORS" 1992 8 "PHYSICA C,199(1992)177" "CA,YB,BA,SR,CU,O" 3732 PR0469250 "COUNTER ELECTRODE=PB FILM,ANOTHER PEAK=+-5MEV" "YBa2(Cu,Fe)O7" Y1Ba2Cu2.88Fe0.12O7 Y 1 Ba 2 Cu 2.88 Fe 0.12 O 7 3 1992 2 Y123 3.866 11.729 K 57 57 25 5.09 1 9 TUNNELING SPECTROSCOPY OF FE-DOPED YBA2CU3O7 SINGLE CRYSTALS 1992 10 "DEPARTIMENTO DI FISICA, UNIVERSITA DI SALERNO, ITALY" "PHYS.REV.B,46(1992)9250" "Y,BA,CU,O,FE" 3733 PR0469116 La(2-x)Ca(1+x)Cu2O6 La1.9Ca1.1Cu2O6+Z La 1.9 Ca 1.1 Cu 2 O 6+Z 1 1992 2126 K 42.5 42.5 "LA2O3,CACO3,CUO" 0 "SIN(1050-1080C 50H IN AIR 1-8ATM)-SIN(20%O2+80%AR 50-2000ATM) USING HIP,SYNTHESIZED UNDER 400 ATM O2" SUPERCONDICTIVITY AND ANTIFERROMAGNETISM IN LA2-XCA1-XCU2O6+-ZAND LA2-XSRXCACU2O6+-Z 1992 10 "NTT BASIC RESEARCH LABORATORIES, TOKYO" "PHYS.REV.B,46(1992)9116" "LA,CA,CU,O,SR" 3734 PR0469116 La(2-x)Ca(1+x)Cu2O6 La1.85Ca1.15Cu2O6+Z La 1.85 Ca 1.15 Cu 2 O 6+Z 1 1992 2126 K 48 48 "LA2O3,CACO3,CUO" 0 "SIN(1050-1080C 50H IN AIR 1-8ATM)-SIN(20%O2+80%AR 50-2000ATM) USING HIP,SYNTHESIZED UNDER 400 ATM O2" SUPERCONDICTIVITY AND ANTIFERROMAGNETISM IN LA2-XCA1-XCU2O6+-ZAND LA2-XSRXCACU2O6+-Z 1992 10 "NTT BASIC RESEARCH LABORATORIES, TOKYO" "PHYS.REV.B,46(1992)9116" "LA,CA,CU,O,SR" 3735 PR0469116 La(2-x)Ca(1+x)Cu2O6 La1.82Ca1.18Cu2O6+Z La 1.82 Ca 1.18 Cu 2 O 6+Z 1 1992 EMU.K/MOLE 0.63 -141 2126 K 49 50 60 50 "LA2O3,CACO3,CUO" 0 "SIN(1050-1080C 50H IN AIR 1-8ATM)-SIN(20%O2+80%AR 50-2000ATM) USING HIP,SYNTHESIZED UNDER 400 ATM O2" SUPERCONDICTIVITY AND ANTIFERROMAGNETISM IN LA2-XCA1-XCU2O6+-ZAND LA2-XSRXCACU2O6+-Z 1992 10 "NTT BASIC RESEARCH LABORATORIES, TOKYO" "PHYS.REV.B,46(1992)9116" "LA,CA,CU,O,SR" 3736 PR0469116 La(2-x)Ca(1+x)Cu2O6 La1.75Ca1.25Cu2O6+Z La 1.75 Ca 1.25 Cu 2 O 6+Z 1 1992 2126 K 51 51 "LA2O3,CACO3,CUO" 0 "SIN(1050-1080C 50H IN AIR 1-8ATM)-SIN(20%O2+80%AR 50-2000ATM) USING HIP,SYNTHESIZED UNDER 400 ATM O2" SUPERCONDICTIVITY AND ANTIFERROMAGNETISM IN LA2-XCA1-XCU2O6+-ZAND LA2-XSRXCACU2O6+-Z 1992 10 "NTT BASIC RESEARCH LABORATORIES, TOKYO" "PHYS.REV.B,46(1992)9116" "LA,CA,CU,O,SR" 3737 PR0469116 "(La,Sr)2CaCu2O6" La1.9Sr0.1Ca1Cu2O6.03 La 1.9 Sr 0.1 Ca 1 Cu 2 O 6+Z 6.03 1 1992 2126 K 43 43 "LA2O3,CACO3,SRCO3,CUO" 0 "SIN(1050-1080C 50H IN AIR 1-8ATM)-SIN(20%O2+80%AR 50-2000ATM) USING HIP,SYNTHESIZED UNDER 400ATM O2" SUPERCONDICTIVITY AND ANTIFERROMAGNETISM IN LA2-XCA1-XCU2O6+-ZAND LA2-XSRXCACU2O6+-Z 1992 10 "NTT BASIC RESEARCH LABORATORIES, TOKYO" "PHYS.REV.B,46(1992)9116" "LA,CA,CU,O,SR" 3738 PR0469116 "(La,Sr)2CaCu2O6" La1.85Sr0.15Ca1Cu2O6.03 La 1.85 Sr 0.15 Ca 1 Cu 2 O 6+Z 6.03 1 1992 2126 K 47.5 47.5 "LA2O3,CACO3,SRCO3,CUO" 0 "SIN(1050-1080C 50H IN AIR 1-8ATM)-SIN(20%O2+80%AR 50-2000ATM) USING HIP,SYNTHESIZED UNDER 400ATM O2" SUPERCONDICTIVITY AND ANTIFERROMAGNETISM IN LA2-XCA1-XCU2O6+-ZAND LA2-XSRXCACU2O6+-Z 1992 10 "NTT BASIC RESEARCH LABORATORIES, TOKYO" "PHYS.REV.B,46(1992)9116" "LA,CA,CU,O,SR" 3739 PR0469116 "(La,Sr)2CaCu2O6" La1.8Sr0.2Ca1Cu2O6.03 La 1.8 Sr 0.2 Ca 1 Cu 2 O 6+Z 6.03 1 1992 2126 K 51 51 "LA2O3,CACO3,SRCO3,CUO" 0 "SIN(1050-1080C 50H IN AIR 1-8ATM)-SIN(20%O2+80%AR 50-2000ATM) USING HIP,SYNTHESIZED UNDER 400ATM O2" SUPERCONDICTIVITY AND ANTIFERROMAGNETISM IN LA2-XCA1-XCU2O6+-ZAND LA2-XSRXCACU2O6+-Z 1992 10 "NTT BASIC RESEARCH LABORATORIES, TOKYO" "PHYS.REV.B,46(1992)9116" "LA,CA,CU,O,SR" 3740 PR0469116 "(La,Sr)2CaCu2O6" La1.77Sr0.23Ca1Cu2O6.03 La 1.77 Sr 0.23 Ca 1 Cu 2 O 6+Z 6.03 1 1992 2126 K 51.5 51.5 "LA2O3,CACO3,SRCO3,CUO" 0 "SIN(1050-1080C 50H IN AIR 1-8ATM)-SIN(20%O2+80%AR 50-2000ATM) USING HIP,SYNTHESIZED UNDER 400ATM O2" SUPERCONDICTIVITY AND ANTIFERROMAGNETISM IN LA2-XCA1-XCU2O6+-ZAND LA2-XSRXCACU2O6+-Z 1992 10 "NTT BASIC RESEARCH LABORATORIES, TOKYO" "PHYS.REV.B,46(1992)9116" "LA,CA,CU,O,SR" 3741 SSC0691097 1.7*0.37*0.03 MM3 YBa2Cu3O7 Y1Ba2Cu3O6.8 Y 1 Ba 2 Cu 3 O 6.8 6.8 3 1989 3 Y123 K 84 84 12 TP3741 2.20E-09 7.5 RH3741 HALL EFFECT AND THERMOELECTRIC POWER OF AN YBa2Cu3O6.8 SINGLE CRYSTAL 1989 "Centre d'Etudes Nucle'aires, De'partement de Recherche Fondamentale BP 85 x-38041 GRENOBLE Cedex-France" "Solid State Commun.,69(1989)1097-1101" 3742 SSC0691093 "Bi2(Sr,La)2CuO6" Bi2Sr1.6La0.4Cu1O6+Z Bi 2 Sr 1.6 La 0.4 Cu 1 O 6+Z 1 1989 3 Bi2201 5.411 5.378 24.41 K 17 27 36 29 27 20 "SRCO3,BI2O3,LA2O3,CUO" 1 SIN(920C)-ANN(800C 1DAY IN O2)-FC SUPERCONDUCTING PHASES IN THE SERIES Bi2Sr2-xLaxCuO6+d (0< x <1) 1989 "Laboratoire de chimie du Solide du CNRS, 351,Cours de la Libe'ration Universite' de BORDEAUXI, 33405 TALENCE Cedex, France" "Solid State Commun.,69(1989)1093-1096" 3743 SSC0691079 POSSIBILITY THAT ZN IS SUBSTITUTED ON CU SITE "(Y,Zn)Ba2Cu3O7" Y0.9Zn0.1Ba2Cu3O7 Y 0.9 Zn 0.1 Ba 2 Cu 3 O 7 1989 Y123 K 50.6 54.9 58.1 54.9 "Y2O3,BACO3,CUO,ZNO,CDO" 1 SIN(900C 1DAY)-ANN(850-930C 24H IN O2)-SLOW COOL(IN O2) Superconductivity in (Y1-xMx)Ba2Cu3O7-delta(M=Cd and Zn)Systems 1989 "Department of Physics National Taiwan University Taipei, Taiwan, Republic of China" "Solid State Commun.,69(1989)1079-1083" 3744 SSC0691079 "(Y,Zn)Ba2Cu3O7" Y0.8Zn0.2Ba2Cu3O7 Y 0.8 Zn 0.2 Ba 2 Cu 3 O 7 1989 Y123 K 33.1 43 50.6 43 "Y2O3,BACO3,CUO,ZNO,CDO" 1 SIN(900C 1DAY)-ANN(850-930C 24H IN O2)-SLOW COOL(IN O2) Superconductivity in (Y1-xMx)Ba2Cu3O7-delta(M=Cd and Zn)Systems 1989 "Department of Physics National Taiwan University Taipei, Taiwan, Republic of China" "Solid State Commun.,69(1989)1079-1083" 3745 SSC0691079 "(Y,Zn)Ba2Cu3O7" Y0.7Zn0.3Ba2Cu3O7 Y 0.7 Zn 0.3 Ba 2 Cu 3 O 7 1989 Y123 K 11.3 23.5 33.1 23.5 "Y2O3,BACO3,CUO,ZNO,CDO" 1 SIN(900C 1DAY)-ANN(850-930C 24H IN O2)-SLOW COOL(IN O2) Superconductivity in (Y1-xMx)Ba2Cu3O7-delta(M=Cd and Zn)Systems 1989 "Department of Physics National Taiwan University Taipei, Taiwan, Republic of China" "Solid State Commun.,69(1989)1079-1083" 3746 SSC0691079 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1989 Y123 K 92.1 92.1 "Y2O3,BACO3,CUO,ZNO,CDO" 1 SIN(900C 1DAY)-ANN(850-930C 24H IN O2)-SLOW COOL(IN O2) Superconductivity in (Y1-xMx)Ba2Cu3O7-delta(M=Cd and Zn)Systems 1989 "Department of Physics National Taiwan University Taipei, Taiwan, Republic of China" "Solid State Commun.,69(1989)1079-1083" 3747 SSC0691079 "(Y,Cd)Ba2Cu3O7" Y0.9Cd0.1Ba2Cu3O7 Y 0.9 Cd 0.1 Ba 2 Cu 3 O 7 1 1989 Y123 K 89.9 89.9 "Y2O3,BACO3,CUO,ZNO,CDO" 1 SIN(900C 1DAY)-ANN(850-930C 24H IN O2)-SLOW COOL(IN O2) Superconductivity in (Y1-xMx)Ba2Cu3O7-delta(M=Cd and Zn)Systems 1989 "Department of Physics National Taiwan University Taipei, Taiwan, Republic of China" "Solid State Commun.,69(1989)1079-1083" 3748 SSC0691079 "(Y,Cd)Ba2Cu3O7" Y0.8Cd0.2Ba2Cu3O7 Y 0.8 Cd 0.2 Ba 2 Cu 3 O 7 1 1989 Y123 K 92.8 92.8 "Y2O3,BACO3,CUO,ZNO,CDO" 1 SIN(900C 1DAY)-ANN(850-930C 24H IN O2)-SLOW COOL(IN O2) Superconductivity in (Y1-xMx)Ba2Cu3O7-delta(M=Cd and Zn)Systems 1989 "Department of Physics National Taiwan University Taipei, Taiwan, Republic of China" "Solid State Commun.,69(1989)1079-1083" 3749 SSC0691079 "(Y,Cd)Ba2Cu3O7" Y0.7Cd0.3Ba2Cu3O7 Y 0.7 Cd 0.3 Ba 2 Cu 3 O 7 1 1989 Y123 K 92.8 92.8 "Y2O3,BACO3,CUO,ZNO,CDO" 1 SIN(900C 1DAY)-ANN(850-930C 24H IN O2)-SLOW COOL(IN O2) Superconductivity in (Y1-xMx)Ba2Cu3O7-delta(M=Cd and Zn)Systems 1989 "Department of Physics National Taiwan University Taipei, Taiwan, Republic of China" "Solid State Commun.,69(1989)1079-1083" 3750 SSC0691079 "(Y,Cd)Ba2Cu3O7" Y0.6Cd0.4Ba2Cu3O7 Y 0.6 Cd 0.4 Ba 2 Cu 3 O 7 1 1989 Y123 K 91.7 91.7 "Y2O3,BACO3,CUO,ZNO,CDO" 1 SIN(900C 1DAY)-ANN(850-930C 24H IN O2)-SLOW COOL(IN O2) Superconductivity in (Y1-xMx)Ba2Cu3O7-delta(M=Cd and Zn)Systems 1989 "Department of Physics National Taiwan University Taipei, Taiwan, Republic of China" "Solid State Commun.,69(1989)1079-1083" 3751 SSC0691079 "(Y,Cd)Ba2Cu3O7" Y0.5Cd0.5Ba2Cu3O7 Y 0.5 Cd 0.5 Ba 2 Cu 3 O 7 1 1989 Y123 K 93.2 93.2 "Y2O3,BACO3,CUO,ZNO,CDO" 1 SIN(900C 1DAY)-ANN(850-930C 24H IN O2)-SLOW COOL(IN O2) Superconductivity in (Y1-xMx)Ba2Cu3O7-delta(M=Cd and Zn)Systems 1989 "Department of Physics National Taiwan University Taipei, Taiwan, Republic of China" "Solid State Commun.,69(1989)1079-1083" 3752 SSC0691079 IMPURITY=BACUO2 "(Y,Cd)Ba2Cu3O7" Y0.4Cd0.6Ba2Cu3O7 Y 0.4 Cd 0.6 Ba 2 Cu 3 O 7 2 1989 Y123 K 91.7 91.7 "Y2O3,BACO3,CUO,ZNO,CDO" 1 SIN(900C 1DAY)-ANN(850-930C 24H IN O2)-SLOW COOL(IN O2) Superconductivity in (Y1-xMx)Ba2Cu3O7-delta(M=Cd and Zn)Systems 1989 "Department of Physics National Taiwan University Taipei, Taiwan, Republic of China" "Solid State Commun.,69(1989)1079-1083" 3753 SSC0691079 IMPURITY=BACUO2 "(Y,Cd)Ba2Cu3O7" Y0.3Cd0.7Ba2Cu3O7 Y 0.3 Cd 0.7 Ba 2 Cu 3 O 7 2 1989 Y123 K 82.9 87 90.6 87 "Y2O3,BACO3,CUO,ZNO,CDO" 1 SIN(900C 1DAY)-ANN(850-930C 24H IN O2)-SLOW COOL(IN O2) Superconductivity in (Y1-xMx)Ba2Cu3O7-delta(M=Cd and Zn)Systems 1989 "Department of Physics National Taiwan University Taipei, Taiwan, Republic of China" "Solid State Commun.,69(1989)1079-1083" 3754 SSC0691079 IMPURITY=BACUO2 "(Y,Cd)Ba2Cu3O7" Y0.25Cd0.75Ba2Cu3O7 Y 0.25 Cd 0.75 Ba 2 Cu 3 O 7 2 1989 Y123 K 29.7 53.2 74.5 53.2 "Y2O3,BACO3,CUO,ZNO,CDO" 1 SIN(900C 1DAY)-ANN(850-930C 24H IN O2)-SLOW COOL(IN O2) Superconductivity in (Y1-xMx)Ba2Cu3O7-delta(M=Cd and Zn)Systems 1989 "Department of Physics National Taiwan University Taipei, Taiwan, Republic of China" "Solid State Commun.,69(1989)1079-1083" 3755 SSC0690867 STABLE FOR LOW TEMP.(77-200K) CYCLE "(Bi,Pb,Sb)2Sr2Ca2Cu3O10" Bi1.6Pb0.3Sb0.1Sr2Ca2Cu3OZ Bi 1.6 Pb 0.3 Sb 0.1 Sr 2 Ca 2 Cu 3 O Z 2 1989 Bi2223 K 132 132 "BI2O3,PBO,SB2O5,SRCO3,CACO3,CUO" 1 SIN(820C 12H IN AIR)-SIN(865C 60H IN AIR)-Q "Zero Resistance at 132K in the Multiphase System of Bi1,9-xPbxSb0.1Sr2Ca2Cu3Oy with x=0.3,0.4" 1989 "Department of Physics, University of Science and Technology of China, Hefei, Anhui, P.R. China" "Solid State Commun.,69(1989)867-868" 3756 SSC0690867 "(Bi,Pb,Sb)2Sr2Ca2Cu3O10" Bi1.5Pb0.4Sb0.1Sr2Ca2Cu3OZ Bi 1.5 Pb 0.4 Sb 0.1 Sr 2 Ca 2 Cu 3 O Z 2 1989 Bi2223 K 132 132 "BI2O3,PBO,SB2O5,SRCO3,CACO3,CUO" 1 SIN(820C 12H IN AIR)-SIN(865C 60H IN AIR)-Q "Zero Resistance at 132K in the Multiphase System of Bi1,9-xPbxSb0.1Sr2Ca2Cu3Oy with x=0.3,0.4" 1989 "Department of Physics, University of Science and Technology of China, Hefei, Anhui, P.R. China" "Solid State Commun.,69(1989)867-868" 3757 SSC0690739 SEMICON Bi2MLaCuO6.5 Bi2Ca1La1Cu1O6.5 Bi 2 Ca 1 La 1 Cu 1 O 6.5 1989 7.12 3 5.451 5.412 23.64 K 4.2 1 SIN(920C 16H IN AIR)-SLOW COOL "NEW SERIES OF COMPOUNDS Bi2AlaCuO6.5(A=Ca,Sr, or Ba) ISOSTRUCTURAL TO THE SUPERCONDUCTING PHASE Bi2Sr2CuO6" 1989 "Laboratoire de Chimie du Solide du CNRS, 351, cours de la Libe'ration Universite' de BORDEAUX I, 33405 TALENCE Cedex, France" "Solid State Commun.,69(1989)739-742" 3758 SSC0690739 SEMICON Bi2MLaCuO6.5 Bi2Sr1La1Cu1O6.5 Bi 2 Sr 1 La 1 Cu 1 O 6.5 1989 3 5.459 5.432 23.92 K 4.2 1 SIN(920C 16H IN AIR)-SLOW COOL "NEW SERIES OF COMPOUNDS Bi2AlaCuO6.5(A=Ca,Sr, or Ba) ISOSTRUCTURAL TO THE SUPERCONDUCTING PHASE Bi2Sr2CuO6" 1989 "Laboratoire de Chimie du Solide du CNRS, 351, cours de la Libe'ration Universite' de BORDEAUX I, 33405 TALENCE Cedex, France" "Solid State Commun.,69(1989)739-742" 3759 SSC0690739 SEMICON Bi2MLaCuO6.5 Bi2Ba1La1Cu1O6.5 Bi 2 Ba 1 La 1 Cu 1 O 6.5 1989 3 5.553 5.477 24.006 K 4.2 1 SIN(850C 16H IN AIR)-SLOW COOL "NEW SERIES OF COMPOUNDS Bi2AlaCuO6.5(A=Ca,Sr, or Ba) ISOSTRUCTURAL TO THE SUPERCONDUCTING PHASE Bi2Sr2CuO6" 1989 "Laboratoire de Chimie du Solide du CNRS, 351, cours de la Libe'ration Universite' de BORDEAUX I, 33405 TALENCE Cedex, France" "Solid State Commun.,69(1989)739-742" 3760 SSC0690379 "(Y,Pr)Ba2Cu3O7" Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1989 /PR ION 3 Y123 K 95.5 96 95.5 8.68 0.13 0.39 PR6O11 1 SIN(950-980C) "DEPRESSION OF SUPERCONDUCTIVITY, HEAVY FERMION BEHAVIOR AND VALENCE FLUCTUATIONS IN Y1-xPrxba2Cu3O7" 1989 "Center for Materials Reserch, Temple University, Philadelphia, PA 19122, USA" "Solid State Commun.,69(1989)379-384" 3761 SSC0690379 "(Y,Pr)Ba2Cu3O7" Y0.9Pr0.1Ba2Cu3O7 Y 0.9 Pr 0.1 Ba 2 Cu 3 O 7 1 1989 /PR ION 2.39 3 Y123 K 84.1 88.2 84.1 34.3 PR6O11 1 SIN(950-980C) "DEPRESSION OF SUPERCONDUCTIVITY, HEAVY FERMION BEHAVIOR AND VALENCE FLUCTUATIONS IN Y1-xPrxba2Cu3O7" 1989 "Center for Materials Reserch, Temple University, Philadelphia, PA 19122, USA" "Solid State Commun.,69(1989)379-384" 3762 SSC0690379 "(Y,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O7 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7 1 1989 /PR 2.55 3 Y123 K 73.5 75.8 78.8 82.1 75.8 67.4 0.46 1.19 PR6O11 1 SIN(950-980C) "DEPRESSION OF SUPERCONDUCTIVITY, HEAVY FERMION BEHAVIOR AND VALENCE FLUCTUATIONS IN Y1-xPrxba2Cu3O7" 1989 "Center for Materials Reserch, Temple University, Philadelphia, PA 19122, USA" "Solid State Commun.,69(1989)379-384" 3763 SSC0690379 "(Y,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3O7 Y 0.7 Pr 0.3 Ba 2 Cu 3 O 7 1 1989 /PR 2.63 3 Y123 K 56.4 59.2 62.8 70.3 59.2 110.3 PR6O11 1 SIN(950-980C) "DEPRESSION OF SUPERCONDUCTIVITY, HEAVY FERMION BEHAVIOR AND VALENCE FLUCTUATIONS IN Y1-xPrxba2Cu3O7" 1989 "Center for Materials Reserch, Temple University, Philadelphia, PA 19122, USA" "Solid State Commun.,69(1989)379-384" 3764 SSC0690379 "(Y,Pr)Ba2Cu3O7" Y0.6Pr0.4Ba2Cu3O7 Y 0.6 Pr 0.4 Ba 2 Cu 3 O 7 1 1989 /PR 2.58 3 Y123 K 48.7 54.2 46.5 48.7 162.4 0.78 1.28 PR6O11 1 SIN(950-980C) "DEPRESSION OF SUPERCONDUCTIVITY, HEAVY FERMION BEHAVIOR AND VALENCE FLUCTUATIONS IN Y1-xPrxba2Cu3O7" 1989 "Center for Materials Reserch, Temple University, Philadelphia, PA 19122, USA" "Solid State Commun.,69(1989)379-384" 3765 SSC0690379 "(Y,Pr)Ba2Cu3O7" Y0.5Pr0.5Ba2Cu3O7 Y 0.5 Pr 0.5 Ba 2 Cu 3 O 7 1 1989 /PR 2.39 3 Y123 K 24.6 28.5 35.1 28.5 231.8 1.81 2.03 1 "DEPRESSION OF SUPERCONDUCTIVITY, HEAVY FERMION BEHAVIOR AND VALENCE FLUCTUATIONS IN Y1-xPrxba2Cu3O7" 1989 "Center for Materials Reserch, Temple University, Philadelphia, PA 19122, USA" "Solid State Commun.,69(1989)379-384" 3766 SSC0690379 "(Y,Pr)Ba2Cu3O7" Y0.4Pr0.6Ba2Cu3O7 Y 0.4 Pr 0.6 Ba 2 Cu 3 O 7 1 1989 /PR 2.76 3 Y123 K 282 C=A*T+B*T(3) 1 "DEPRESSION OF SUPERCONDUCTIVITY, HEAVY FERMION BEHAVIOR AND VALENCE FLUCTUATIONS IN Y1-xPrxba2Cu3O7" 1989 "Center for Materials Reserch, Temple University, Philadelphia, PA 19122, USA" "Solid State Commun.,69(1989)379-384" 3767 SSC0690387 "DHC1/DP=3 OE/KBAR AT 4.2K,DHC2/DP=1.3 KOE/KBAR AT 25K" "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1989 T K 32.5 32.5 K/KBAR 0.17 EFFECT OF PRESSURE ON CRITICAL FIELDS AND Tc OF La1.8Sr0.2CuO4 AND YBa2Cu3O7 HIGH-Tc CERAMICS 1989 "Institute for High Pressure Physics, USSR Academy of Sciences, Troisk, Moscow region, 142092, USSR" "Solid State Commun.,69(1989)387-389" 3768 SSC0690387 "DHC1/DP=0 OE/KBAR AT 10K,DHC2/DP=1.3 KOE/KBAR AT 80K" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1989 Y123 K 88.9 88.9 K/KBAR 0.22 EFFECT OF PRESSURE ON CRITICAL FIELDS AND Tc OF La1.8Sr0.2CuO4 AND YBa2Cu3O7 HIGH-Tc CERAMICS 1989 "Institute for High Pressure Physics, USSR Academy of Sciences, Troisk, Moscow region, 142092, USSR" "Solid State Commun.,69(1989)387-389" 3769 SSC0690387 YBa2Cu3O7(H) Y1Ba2Cu3H0.2O7-Z Y 1 Ba 2 Cu 3 H 0.2 O 7-Z 1989 3 Y123 K 92 92 PROTON NMR 2500 "Y2O3,BA(OH)2.H2O,CUO" 1 CAL(950C 20H IN AIR)-ANN(900C 10H IN O2)-ANN(400C)-Q(TO RT) EFFECT OF PRESSURE ON CRITICAL FIELDS AND Tc OF La1.8Sr0.2CuO4 AND YBa2Cu3O7 HIGH-Tc CERAMICS 1989 "Institute for High Pressure Physics, USSR Academy of Sciences, Troisk, Moscow region, 142092, USSR" "Solid State Commun.,69(1989)387-389" 3770 SSC0701151 "PRESSURE GENERATED BY WC PISTON, TC BY RESISTANCE. structural phase transition temperature T0, dT0/dP = 5 K/kbar. " "(La,Ba)2CuO4" La1.88Ba0.12Cu1O4 La 1.88 Ba 0.12 Cu 1 O 4 1 1989 T K 12 12 "LA2O3,BACO3,CUO" 1 CAL(1050C 10H IN O2)-SIN(1050C4H)-COOL(1.5C/MIN)TO 500C-ANN(500C 24H) PRESSURE EFFECT ON THE LOW TEMPERATURE TETRAGONAL PHASE AND THE SUPERCONDUCTIVITY IN (LA1-XBAX)2CUO4 1989 "SOLID STATE COMMUN.,70(1989)1151" "LA,BA,CU,O" 3771 SSC0701141 "four samples (average oxygen isotope mass: M=16.00, 16.61, 17.23, 17.84) are measured." "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 1989 T' K 23.6 23.6 0.15 O "synthsized using Nd2<18>O3, Cu<18>O." OXYGEN ISOTOPE EFFECT OF SUPERCONDUCTING (ND1-XCEX)2CUO4-Z SYSTEM 1989 "SOLID STATE COMMUN.,70(1989)1141" "ND,CE,CU,O" 3772 SSC0701055 "POINT CONTACT, GAP(C)=12MEV,2*GAP(C)/KTC=3.3" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1 1989 Bi2212 K 85 85 MEV 23 6.2 1 0 TUNNELING SPECTROSCOPY IN BI2SR2CACU2O8: IS THE ENERGY GAP ANISOTROPIC? 1989 "SOLID STATE COMMUN.,70(1989)1055" "BI,SR,CA,CU,O" 3773 SSC0700287 "(Bi,Pb)2Sr2Ca3Cu4OZ" Pb0.3Bi1.7Sr2Ca3Cu4OZ Pb 0.3 Bi 1.7 Sr 2 Ca 3 Cu 4 O Z 1 1989 3 Bi2234 5.418 5.346 37.1 K 107 110 110 900 184 2.43 13.5 880 48000 "PBO,BI2O3,SRCO3,CACO3,CUO" 1 CAL(800C 12H)-SIN(870C 60H IN AIR)-ANN(880C 180H) Properties of 107K supercomducting single phase in PbBiSrCaCu oxide 1989 "Institute of Physics, Academia Sinica, Beijing, China" "Solid State COmmun.,70(1989)287-289" 3774 SSC0700145 "(Nd,Th)2CuO4" Nd1.85Th0.15Cu1O4-Z Nd 1.85 Th 0.15 Cu 1 O 4-Z 1989 7.5 T* K 16 17 4 16 4 "ND2O3,CEO2,THO2,CUO" 0 SIN(900C 20H IN AIR)-(1100C 16H)-Q TO RT IN AIR-ANN(910C IN HE)-Q HIGH TEMPERATURE SUPERCONDUCTIVITY IN Th-DOPED Nd2CuO4-y 1989 "Department of Physics and Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun.,70(1989)145-147" 3775 SSC0700129 "(Bi,Pb)4Sr3Ca3Cu4OZ" Bi3Pb1Ca3Sr3Cu4OZ Bi 3 Pb 1 Ca 3 Sr 3 Cu 4 O Z 1989 Bi4334 K 103 105 105 RH3775 0 Pculiar Behavior of Hall Effect on single-Phase Bi3PbCa3Sr3 cu4Oy 1989 "Department of Physics, University of Science and Technology of China, Hefei, China" "Solid State Commun.,70(1989)129-131" 3776 SSC0710663 Bi2M3Co2OZ Bi2Ca3Co2OZ Bi 2 Ca 3 Co 2 O Z 1989 K 4.2 1 ANN(1200C 1.5H)-C(8C/H) TO 800C NEW NON-SUPERCONDUCTING LAYERED Bi-OXIDEPHASES OF FORMULA Bi2M3Co2Oy CONTAINING Co INSTEAD OF Cu 1989 "Bellcore, Red Bank, New Jerscy 07701" "Solid State Commun.,71(1989)663-668" 3777 SSC0710663 Bi2M3Co2OZ Bi2Sr3Co2OZ Bi 2 Sr 3 Co 2 O Z 1989 K 4.2 1 ANN(1000C 2H)-C(6C/H) TO 700C NEW NON-SUPERCONDUCTING LAYERED Bi-OXIDEPHASES OF FORMULA Bi2M3Co2Oy CONTAINING Co INSTEAD OF Cu 1989 "Bellcore, Red Bank, New Jerscy 07701" "Solid State Commun.,71(1989)663-668" 3778 SSC0710663 Bi2M3Co2OZ Bi2Ba3Co2OZ Bi 2 Ba 3 Co 2 O Z 1989 K 4.2 1 ANN(1150C 2.5H)-C(8C/H) TO 750C NEW NON-SUPERCONDUCTING LAYERED Bi-OXIDEPHASES OF FORMULA Bi2M3Co2Oy CONTAINING Co INSTEAD OF Cu 1989 "Bellcore, Red Bank, New Jerscy 07701" "Solid State Commun.,71(1989)663-668" 3779 SSC0710419 YBa2Cu3O7 Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 6.9 6.9 1 1989 5.6 3 Y123 3.822 3.88 11.66 K 89.6 4 89.6 5.29 THC3779 1.1 1 FIVIDENCE FOR HYSTERESIS BEHAVIOUR AND ANOMALY OF THERMAL CONDUCTIVITY IN Y-Ba-Cu-O SUPERCONDUCTOR 1989 "Institute for Low Temperature and Structure Research, Polish Academy of Sciences, 2 Oko lna str., 50-422 Wrociaw, Poland" "Solid State Commun.,71(1989)419-424" 3780 SSC0710419 YBa2Cu3O7 Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O 6.95 6.95 1 1989 5.45 3 Y123 3.816 3.99 11.646 K 91 1.4 91 2.95 THC3780 1.11 1 FIVIDENCE FOR HYSTERESIS BEHAVIOUR AND ANOMALY OF THERMAL CONDUCTIVITY IN Y-Ba-Cu-O SUPERCONDUCTOR 1989 "Institute for Low Temperature and Structure Research, Polish Academy of Sciences, 2 Oko lna str., 50-422 Wrociaw, Poland" "Solid State Commun.,71(1989)419-424" 3781 SSC0710419 CuO Cu1O Cu 1 O 1989 225 K 12.4 THC3781 1 FIVIDENCE FOR HYSTERESIS BEHAVIOUR AND ANOMALY OF THERMAL CONDUCTIVITY IN Y-Ba-Cu-O SUPERCONDUCTOR 1989 "Institute for Low Temperature and Structure Research, Polish Academy of Sciences, 2 Oko lna str., 50-422 Wrociaw, Poland" "Solid State Commun.,71(1989)419-424" 3782 SSC0710739 R2Tl2Sr2Cu3O11 La2Tl2Sr2Cu3O11 La 2 Tl 2 Sr 2 Cu 3 O 11 1 1989 2 3.775 35.35 K 34 37 41 37 "TL2O3,SRO,CUO,R2O3" 1 MIXTURE PELLET HEATED(930C 3-5MIN) IN TUBE IN O2-FC SUPERCONDUCTIVITY IN THE R-Tl-Sr-Cu-O SYSTEM WITH R= RARE EARTHS 1989 "Department of Physics, University of Arkansas, Fayetteville, AR 72701, USA" "Solid State Commun.,71(1989)739-741" 3783 SSC0710739 R2Tl2Sr2Cu3O11 Pr2Tl2Sr2Cu3O11 Pr 2 Tl 2 Sr 2 Cu 3 O 11 1 1989 2 3.762 35.34 K 37 43 46 43 "TL2O3,SRO,CUO,R2O3" 1 MIXTURE PELLET HEATED(930C 3-5MIN) IN TUBE IN O2-FC SUPERCONDUCTIVITY IN THE R-Tl-Sr-Cu-O SYSTEM WITH R= RARE EARTHS 1989 "Department of Physics, University of Arkansas, Fayetteville, AR 72701, USA" "Solid State Commun.,71(1989)739-741" 3784 SSC0710739 R2Tl2Sr2Cu3O11 Nd2Tl2Sr2Cu3O11 Nd 2 Tl 2 Sr 2 Cu 3 O 11 1 1989 K 25 44 65 44 "TL2O3,SRO,CUO,R2O3" 1 MIXTURE PELLET HEATED(930C 3-5MIN) IN TUBE IN O2-FC SUPERCONDUCTIVITY IN THE R-Tl-Sr-Cu-O SYSTEM WITH R= RARE EARTHS 1989 "Department of Physics, University of Arkansas, Fayetteville, AR 72701, USA" "Solid State Commun.,71(1989)739-741" 3785 SSC0710739 R2Tl2Sr2Cu3O11 Y2Tl2Sr2Cu3O11 Y 2 Tl 2 Sr 2 Cu 3 O 11 1 1989 K 45 15 45 "TL2O3,SRO,CUO,R2O3" 1 MIXTURE PELLET HEATED(930C 3-5MIN) IN TUBE IN O2-FC SUPERCONDUCTIVITY IN THE R-Tl-Sr-Cu-O SYSTEM WITH R= RARE EARTHS 1989 "Department of Physics, University of Arkansas, Fayetteville, AR 72701, USA" "Solid State Commun.,71(1989)739-741" 3786 SSC0651333 "C-AXIS ORIENTED GRAIN,THERMOPOWER IS // TO AB-PLANE,VALUES ARE FOR // TO THE PRESSING DIRECTION" EuBa2Cu3O7 Eu1Ba2Cu3O7-Z Eu 1 Ba 2 Cu 3 O 7-Z 1 1988 3 Y123 3.82 3.884 11.681 K 76.9 85.1 95.3 85.1 TP3786 61 1 CAL(930C)-COOL TO 550C-Q IN AIR STRUCTURAL AND ELECTRONIC ANISOTROPY IN POLYCRYSTALLINE COMPACTIONS OF THE HIGH-Tc SUPERCONDUCTOR EuBa2Cu3O7-delta 1988 "Department of Chemistry and the Materials Research Center, Northwestern University, Evanston, IL 60208, USA" "Solid State Commnu.,65(1988)1333-1337" 3787 SSC0651001 "BACUO2,CUO,BACO3=IMPURITY" "(Y,Na)Ba2Cu3O7" Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 1 1988 -9.08E+28 4.41 3 Y123 K 90.6 90.6 "Y2O3,NACO3,CUO" 1 CAL(800C 3H IN AIR)-ANN(900C IN AIR)-ANN(950C 18H IN O2)-COOL TO RT WITHIN 9H "SUPERCONDUCTING AND NORMAL STATE PROPERTIES OF Y1-XMXBA2CU3O7-Z (M=PR,NA)" 1988 "SOLID STATE COMMUN.,65(1988)1001" "Y,PR,NA,CU,O,BA" 3788 SSC0651001 "(Y,Na)Ba2Cu3O7" Y0.9Na0.1Ba2Cu3OZ Y 0.9 Na 0.1 Ba 2 Cu 3 O Z 1 1988 24.22 3 Y123 K 90.2 90.2 "Y2O3,NACO3,CUO" 1 CAL(800C 3H IN AIR)-ANN(900C IN AIR)-ANN(950C 18H IN O2)-COOL TO RT WITHIN 9H "SUPERCONDUCTING AND NORMAL STATE PROPERTIES OF Y1-XMXBA2CU3O7-Z (M=PR,NA)" 1988 "SOLID STATE COMMUN.,65(1988)1001" "Y,PR,NA,CU,O,BA" 3789 SSC0651001 "(Y,Na)Ba2Cu3O7" Y0.8Na0.2Ba2Cu3OZ Y 0.8 Na 0.2 Ba 2 Cu 3 O Z 1 1988 29.04 3 Y123 K 84.9 89.5 90.6 89.5 "Y2O3,NACO3,CUO" 1 CAL(800C 3H IN AIR)-ANN(900C IN AIR)-ANN(950C 18H IN O2)-COOL TO RT WITHIN 9H "SUPERCONDUCTING AND NORMAL STATE PROPERTIES OF Y1-XMXBA2CU3O7-Z (M=PR,NA)" 1988 "SOLID STATE COMMUN.,65(1988)1001" "Y,PR,NA,CU,O,BA" 3790 SSC0651001 "(Y,Na)Ba2Cu3O7" Y0.7Na0.3Ba2Cu3OZ Y 0.7 Na 0.3 Ba 2 Cu 3 O Z 1 1988 3 Y123 K 69.6 81.8 88.3 81.8 "Y2O3,NACO3,CUO" 1 CAL(800C 3H IN AIR)-ANN(900C IN AIR)-ANN(950C 18H IN O2)-COOL TO RT WITHIN 9H "SUPERCONDUCTING AND NORMAL STATE PROPERTIES OF Y1-XMXBA2CU3O7-Z (M=PR,NA)" 1988 "SOLID STATE COMMUN.,65(1988)1001" "Y,PR,NA,CU,O,BA" 3791 SSC0651001 "(Y,Na)Ba2Cu3O7" Y0.6Na0.4Ba2Cu3OZ Y 0.6 Na 0.4 Ba 2 Cu 3 O Z 1 1988 3 Y123 K 43.6 52.8 61.6 52.8 "Y2O3,NACO3,CUO" 1 CAL(800C 3H IN AIR)-ANN(900C IN AIR)-ANN(950C 18H IN O2)-COOL TO RT WITHIN 9H "SUPERCONDUCTING AND NORMAL STATE PROPERTIES OF Y1-XMXBA2CU3O7-Z (M=PR,NA)" 1988 "SOLID STATE COMMUN.,65(1988)1001" "Y,PR,NA,CU,O,BA" 3792 SSC0651001 "(Y,Na)Ba2Cu3O7" Y0.5Na0.5Ba2Cu3OZ Y 0.5 Na 0.5 Ba 2 Cu 3 O Z 1 1988 3 Y123 K 23.7 41.3 56.6 41.3 "Y2O3,NACO3,CUO" 1 CAL(800C 3H IN AIR)-ANN(900C IN AIR)-ANN(950C 18H IN O2)-COOL TO RT WITHIN 9H "SUPERCONDUCTING AND NORMAL STATE PROPERTIES OF Y1-XMXBA2CU3O7-Z (M=PR,NA)" 1988 "SOLID STATE COMMUN.,65(1988)1001" "Y,PR,NA,CU,O,BA" 3793 SSC0650973 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.88Co0.12O7-Z Y 1 Ba 2 Cu 2.88 Co 0.12 O 7-Z 1988 6.46 2 Y123 PMM2 E-6% 8.3 1.97 K 84 8 84 44 "Y2O3,BACO3,CUO,CO3O4" 1 CAL(950C IN AIR)-SIN(950C 12H IN O2)-C TO RT WITHIN 5H BULK SUPERCONDUCTIVITY AT 70 K IN TETRAGONAL YBA2(CU0.96CO0.04)3O7-Y 1988 "SOLID STATE COMMUN.,65(1988)973" "Y,BA,CU,CO,O" 3794 SSC0650849 GRAIN SIZE =10 MICRON "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1988 T K 37.1 37.1 20 250 1.84 30 2600 0.14 "SRCO3,LACO3,CU-NITRATE" 0 "DISSOLVING IN NITRIC ACID-DECOMPOSED AT 600C-SIN(900C 54H,950C 24H)-SIN(1000C 38H IN O2)-FAST COOL IN O2" SUPERCONDUCTNG AND NORMAL STATEPROPERTIES OF Sr0.5La1.85CuO4 DETERMINED FROM MAGNETIZATION MEASUREMENTS 1988 "Department of Physics, Brock University St. Cctharines, Ontario, Canada L2S 3AI" "Solid State Commun.,65(1988)849-853" 3795 SSC0650333 DyBa2Cu3O7 Dy1Ba2Cu3O7-Z Dy 1 Ba 2 Cu 3 O 7-Z 1 1988 EMU/K.OE 1.93E(-2) /CELL 10.68 -8.4 3 Y123 3.849 3.889 11.739 K 33 DEVIATION FROM LINEAR MAGNETIZATION 500 "RESISTIVE TRANSITION,WHH THEORY" 103 1.6 FROM HC2(O) 10.4 735 0.208 1 THE MAGNETIC AND SUPERCONDUCTING PROPERTIES OF DyBa2Cu3O7-x 1988 "Institute of Physics, Chinese Academy of Sciences, Beijing, China" "Solid State Commun.,65(1988)333-337" 3796 SSC0651529 CuO Cu1O1 Cu 1 O 1 1988 K SP3796 1 MIXTURE HEATED (950C 2DAYS IN AIR) ORIGIN OF THE RESIDUAL LINEAR SPECIFIC HEAT TERM IN YBa2Cu3O7-x 1988 "I.P.C.M.S. 1. L.M.S.E.S. LA 306 Du CNRS, 3 rue de 1' Universite', 67084 STRASBOURG (France)" "Solid State Commun.,65(1988)1529-1530" 3797 SSC0651529 Y2BaCuO5 Y2Ba1Cu1O5 Y 2 Ba 1 Cu 1 O 5 1988 3 K SP3797 1 MIXTURE HEATED (950C 2DAYS IN AIR) ORIGIN OF THE RESIDUAL LINEAR SPECIFIC HEAT TERM IN YBa2Cu3O7-x 1988 "I.P.C.M.S. 1. L.M.S.E.S. LA 306 Du CNRS, 3 rue de 1' Universite', 67084 STRASBOURG (France)" "Solid State Commun.,65(1988)1529-1530" 3798 SSC0651529 Y2CuO5 Y2Cu5O5 Y 2 Cu 5 O 5 1988 K SP3798 1 MIXTURE HEATED (950C 2DAYS IN AIR) ORIGIN OF THE RESIDUAL LINEAR SPECIFIC HEAT TERM IN YBa2Cu3O7-x 1988 "I.P.C.M.S. 1. L.M.S.E.S. LA 306 Du CNRS, 3 rue de 1' Universite', 67084 STRASBOURG (France)" "Solid State Commun.,65(1988)1529-1530" 3799 SSC0651339 "(Y,Gd)Ba2Cu3O7" YGd0.5Ba2Cu3OZ Y 1 Gd 0.5 Ba 2 Cu 3 O Z 1988 EMU/G -1.1 Y123 K "GD2O3,Y2O3,BACO3,CUO" 0 ANN(900C 10H IN AIR)-Q TO LN2 THE GADOLINIUM ORDERING IN SUPERCONDUCTING AND NON-SUPERCONDUCTING Gdxy1-xBa2Cu3Oy COMPOUNDS 1988 "Instittue of Physcs, University of Tsukuba, Tsukuba, Ibaraki 305, Japan" "Solid State Commun.,65(1988)1339-1341" 3800 SSC0651339 "(Y,Gd)Ba2Cu3O7" YGd0.8Ba2Cu3OZ Y 1 Gd 0.8 Ba 2 Cu 3 O Z 1988 -1.92 1.93 Y123 K "GD2O3,Y2O3,BACO3,CUO" 0 ANN(900C 10H IN AIR)-Q TO LN2 THE GADOLINIUM ORDERING IN SUPERCONDUCTING AND NON-SUPERCONDUCTING Gdxy1-xBa2Cu3Oy COMPOUNDS 1988 "Instittue of Physcs, University of Tsukuba, Tsukuba, Ibaraki 305, Japan" "Solid State Commun.,65(1988)1339-1341" 3801 SSC0651339 "(Y,Gd)Ba2Cu3O7" Gd1Ba2Cu3OZ Gd 1 Ba 2 Cu 3 O Z 1988 EMU/G -2.7 2.37 Y123 K "GD2O3,Y2O3,BACO3,CUO" 0 ANN(900C 10H IN AIR)-Q TO LN2 THE GADOLINIUM ORDERING IN SUPERCONDUCTING AND NON-SUPERCONDUCTING Gdxy1-xBa2Cu3Oy COMPOUNDS 1988 "Instittue of Physcs, University of Tsukuba, Tsukuba, Ibaraki 305, Japan" "Solid State Commun.,65(1988)1339-1341" 3802 SSC0651339 "(Y,Gd)Ba2Cu3O7" Y0.7Gd0.3Ba2Cu3OZ Y 0.7 Gd 0.3 Ba 2 Cu 3 O Z 1988 EMU/G Y123 K 93 93 "GD2O3,Y2O3,BACO3,CUO" 0 SIN(950C IN O2)-ANN(800C 10H IN AIR) THE GADOLINIUM ORDERING IN SUPERCONDUCTING AND NON-SUPERCONDUCTING Gdxy1-xBa2Cu3Oy COMPOUNDS 1988 "Instittue of Physcs, University of Tsukuba, Tsukuba, Ibaraki 305, Japan" "Solid State Commun.,65(1988)1339-1341" 3803 SSC0651339 "(Y,Gd)Ba2Cu3O7" Y0.4Gd0.6Ba2Cu3OZ Y 0.4 Gd 0.6 Ba 2 Cu 3 O Z 1988 EMU/G Y123 K 93 93 "GD2O3,Y2O3,BACO3,CUO" 0 SIN(950C IN O2)-ANN(800C 10H IN AIR) THE GADOLINIUM ORDERING IN SUPERCONDUCTING AND NON-SUPERCONDUCTING Gdxy1-xBa2Cu3Oy COMPOUNDS 1988 "Instittue of Physcs, University of Tsukuba, Tsukuba, Ibaraki 305, Japan" "Solid State Commun.,65(1988)1339-1341" 3804 SSC0651339 "(Y,Gd)Ba2Cu3O7" Y0.2Gd0.8Ba2Cu3OZ Y 0.2 Gd 0.8 Ba 2 Cu 3 O Z 1988 EMU/G 7.53E(-3) 1.8 Y123 K 93 93 "GD2O3,Y2O3,BACO3,CUO" 0 SIN(950C IN O2)-ANN(800C 10H IN AIR) THE GADOLINIUM ORDERING IN SUPERCONDUCTING AND NON-SUPERCONDUCTING Gdxy1-xBa2Cu3Oy COMPOUNDS 1988 "Instittue of Physcs, University of Tsukuba, Tsukuba, Ibaraki 305, Japan" "Solid State Commun.,65(1988)1339-1341" 3805 SSC0651339 GdBa2Cu3O7 Gd1Ba2Cu3OZ Gd 1 Ba 2 Cu 3 O Z 1988 EMU/G 2.27 Y123 K 93 93 "GD2O3,Y2O3,BACO3,CUO" 0 SIN(950C IN O2)-ANN(800C 10H IN AIR) THE GADOLINIUM ORDERING IN SUPERCONDUCTING AND NON-SUPERCONDUCTING Gdxy1-xBa2Cu3Oy COMPOUNDS 1988 "Instittue of Physcs, University of Tsukuba, Tsukuba, Ibaraki 305, Japan" "Solid State Commun.,65(1988)1339-1341" 3806 SSC0680827 "// CURRENT TO AB-PLANE GIVES HIGHER TC TAN N-CURRENT, SIZE=3X1X1MM3" GdBa2Cu3O7 Gd1Ba2Cu3O7 Gd 1 Ba 2 Cu 3 O Z 7 3 1988 Y123 K 78 84 78 1.47 36.5 1.33E-09 1 RH3806 Reserch on Anisotropy for Single Craystal GdBa2Cu3O7-y 1988 "Deaprtment of Physics, Department of Applied Chemistry, University of Science and Technology of China, Hefei, P.R. China" "Solid State Commun.,68(1988)827-829" 3807 SSC0680753 "GAPENE=5.4 FOR TC1, =3.9 FOR TC3" YBa2Cu3O7 Y1Ba2Cu3O6.6 Y 1 Ba 2 Cu 3 O Z 6.6 4 1988 Y123 K 68 93 80.5 5.4 1 2.22E-08 1 RH3807 TUNNELING SPECTROSCOPY IN THIN FILM SUPERCONDUCTING JUNCTTIONS YBCO/Pb 1988 "Institute of Electrical Engineering EPRC SAS, 842 39 Bratislava, Czechoslovakia" "Solid State Commun.,68(1988)" 3808 PHC1990240 "CaBa(La,Eu)Cu3O7" Ca1Ba1La0.8Eu0.2Cu3O7-Z Ca 1 Ba 1 La 0.8 Eu 0.2 Cu 3 O 7-Z 1 1992 2 1113 3.866 11.587 K 69 69 8.61 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3809 PHC1990240 "CaBa(La,Eu)Cu3O7" Ca1Ba1La0.6Eu0.4Cu3O7-Z Ca 1 Ba 1 La 0.6 Eu 0.4 Cu 3 O 7-Z 1 1992 2 1113 3.863 11.573 K 65 65 10.17 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3810 PHC1990240 "CaBa(La,Eu)Cu3O7" Ca1Ba1La0.4Eu0.6Cu3O7-Z Ca 1 Ba 1 La 0.4 Eu 0.6 Cu 3 O 7-Z 1 1992 2 1113 3.857 11.595 K 62 62 6.92 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3811 PHC1990240 CaBaEuCu3O7 Ca1Ba1Eu1Cu3O7-Z Ca 1 Ba 1 Eu 1 Cu 3 O 7-Z 1992 Y123 K 53 53 31.37 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3812 PHC1990240 NOT SUPERCOND. CaBaPrCu3O7 Ca1Ba1Pr1Cu3O7-Z Ca 1 Ba 1 Pr 1 Cu 3 O 7-Z 1992 1113 K 4.2 251.4 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3813 PHC1990240 CaBaGdCu3O7 Ca1Ba1Gd1Cu3O7-Z Ca 1 Ba 1 Gd 1 Cu 3 O 7-Z 1992 Y123 K 49 49 89.64 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3814 PHC1990240 "CaBa(La,Sm)Cu3O7" Ca1Ba1La0.8Sm0.2Cu3O7-Z Ca 1 Ba 1 La 0.8 Sm 0.2 Cu 3 O 7-Z 1 1992 2 1113 3.865 11.637 K 71 71 2.7 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3815 PHC1990240 "CaBa(La,Sm)Cu3O7" Ca1Ba1La0.6Sm0.4Cu3O7-Z Ca 1 Ba 1 La 0.6 Sm 0.4 Cu 3 O 7-Z 1 1992 2 3.861 11.626 K 68 68 5.81 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3816 PHC1990240 "CaBa(La,Sm)Cu3O7" Ca1Ba1La0.4Sm0.6Cu3O7-Z Ca 1 Ba 1 La 0.4 Sm 0.6 Cu 3 O 7-Z 1 1992 2 3.859 11.612 K 64 64 4.45 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3817 PHC1990240 "CaBa(La,Sm)Cu3O7" Ca1Ba1La0.2Sm0.8Cu3O7-Z Ca 1 Ba 1 La 0.2 Sm 0.8 Cu 3 O 7-Z 1 1992 2 1113 3.853 11.613 K 56 56 8.72 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3818 PHC1990240 CaBaSmCu3O7 Ca1Ba1Sm1Cu3O7-Z Ca 1 Ba 1 Sm 1 Cu 3 O 7-Z 1992 Y123 K 39 39 33.39 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3819 PHC1990240 CaBaLaCu3O7 Ca1Ba1La1Cu3O7-Z Ca 1 Ba 1 La 1 Cu 3 O 7-Z 1 1992 2 1113 3.871 11.61 K 72 72 1.84 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3820 PHC1990240 "CaBa(La,Nd)Cu3O7" Ca1Ba1La0.8Nd0.2Cu3O7-Z Ca 1 Ba 1 La 0.8 Nd 0.2 Cu 3 O 7-Z 1 1992 2 3.866 11.606 K 71 71 3.96 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3821 PHC1990240 "CaBa(La,Nd)Cu3O7" Ca1Ba1La0.6Nd0.4Cu3O7-Z Ca 1 Ba 1 La 0.6 Nd 0.4 Cu 3 O 7-Z 1 1992 2 3.864 11.617 K 67 67 3.52 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3822 PHC1990240 "CaBa(La,Nd)Cu3O7" Ca1Ba1La0.4Nd0.6Cu3O7-Z Ca 1 Ba 1 La 0.4 Nd 0.6 Cu 3 O 7-Z 1 1992 2 3.86 11.622 K 63 63 4.64 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3823 PHC1990240 "CaBa(La,Nd)Cu3O7" Ca1Ba1La0.2Nd0.8Cu3O7-Z Ca 1 Ba 1 La 0.2 Nd 0.8 Cu 3 O 7-Z 1 1992 2 3.857 11.628 K 57 57 12.23 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3824 PHC1990240 CaBaNdCu3O7 Ca1Ba1Nd1Cu3O7-Z Ca 1 Ba 1 Nd 1 Cu 3 O 7-Z 1 1992 2 3.854 11.629 K 46 46 20.15 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3825 PHC1990240 CaBaDyCu3O7 Ca1Ba1Dy1Cu3O7-Z Ca 1 Ba 1 Dy 1 Cu 3 O 7-Z 1992 K 65 65 95.02 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3826 PHC1990240 CaBaHoCu3O7 Ca1Ba1Ho1Cu3O7-Z Ca 1 Ba 1 Ho 1 Cu 3 O 7-Z 1992 K 57 57 31.6 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3827 PHC1990240 CaBaErCu3O7 Ca1Ba1Er1Cu3O7-Z Ca 1 Ba 1 Er 1 Cu 3 O 7-Z 1992 K 66 66 28.75 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3828 PHC1990240 CaBaTmCu3O7 Ca1Ba1Tm1Cu3O7-Z Ca 1 Ba 1 Tm 1 Cu 3 O 7-Z 1992 K 67 67 32.77 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3829 PHC1990240 "NOT SUPERCOND.,RESRT>1.0E+6" CaBaYbCu3O7 Ca1Ba1Yb1Cu3O7-Z Ca 1 Ba 1 Yb 1 Cu 3 O 7-Z 1992 K PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 3830 SSC0680239 "(Y,Sc)Ba2Cu3O7" Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1988 0.12 20 Y123 K 90 90 1.35 ANOMALOUS MAGNETIC PROPERTIES OF Y1-XSCXBA2CU3O7-Z 1988 "SOLID STATE COMMUN.,68(1988)239" "Y,SC,BA,CU,O" 3831 SSC0680239 "(Y,Sc)Ba2Cu3O7" Y0.75Sc0.25Ba2Cu3O7-Z Y 0.75 Sc 0.25 Ba 2 Cu 3 O 7-Z 1 1988 0.65 36 Y123 K 87 87 2.2 ANOMALOUS MAGNETIC PROPERTIES OF Y1-XSCXBA2CU3O7-Z 1988 "SOLID STATE COMMUN.,68(1988)239" "Y,SC,BA,CU,O" 3832 SSC0680239 AT LEAST 90% Y123 PHASE "(Y,Sc)Ba2Cu3O7" Y0.5Sc0.5Ba2Cu3O7-Z Y 0.5 Sc 0.5 Ba 2 Cu 3 O 7-Z 1988 1.37 32 Y123 K 83 83 9.8 ANOMALOUS MAGNETIC PROPERTIES OF Y1-XSCXBA2CU3O7-Z 1988 "SOLID STATE COMMUN.,68(1988)239" "Y,SC,BA,CU,O" 3833 SSC0680835 RESN=AT 115K "YBa2(Cu,Mn)3O7" Y1Ba2Cu2.85Mn0.15O7-Z Y 1 Ba 2 Cu 2.85 Mn 0.15 O 7-Z 1988 Y123 K 90.5 91.1 91.1 80 1.38 MICROSTRUCTURE AND SUPERCONDUCTING FRACTION IN THE YBa2(Cu1-xMnx)3O7-delta 1988 "Fundacao de Tecnologia Industrial Po'lo Urbo Industrial, s/n -Gleba AI-6 - CP.16 12600 - Lorena -SP - Brasil" "Solid State Commun.,68(1988)" 3834 SSC0680835 "YBa2(Cu,Mn)3O7" Y1Ba2Cu2.7Mn0.3O7-Z Y 1 Ba 2 Cu 2.7 Mn 0.3 O 7-Z 1988 Y123 K 88.7 89 89 60 2.19 MICROSTRUCTURE AND SUPERCONDUCTING FRACTION IN THE YBa2(Cu1-xMnx)3O7-delta 1988 "Fundacao de Tecnologia Industrial Po'lo Urbo Industrial, s/n -Gleba AI-6 - CP.16 12600 - Lorena -SP - Brasil" "Solid State Commun.,68(1988)" 3835 SSC0680835 "YBa2(Cu,Mn)3O7" Y1Ba2Cu2.55Mn0.45O7-Z Y 1 Ba 2 Cu 2.55 Mn 0.45 O 7-Z 1988 Y123 K 78 86 86 30 2.38 MICROSTRUCTURE AND SUPERCONDUCTING FRACTION IN THE YBa2(Cu1-xMnx)3O7-delta 1988 "Fundacao de Tecnologia Industrial Po'lo Urbo Industrial, s/n -Gleba AI-6 - CP.16 12600 - Lorena -SP - Brasil" "Solid State Commun.,68(1988)" 3836 SSC0680835 "YBa2(Cu,Mn)3O7" Y1Ba2Cu2.4Mn0.6O7-Z Y 1 Ba 2 Cu 2.4 Mn 0.6 O 7-Z 1988 Y123 K 73 84 84 20 2.99 MICROSTRUCTURE AND SUPERCONDUCTING FRACTION IN THE YBa2(Cu1-xMnx)3O7-delta 1988 "Fundacao de Tecnologia Industrial Po'lo Urbo Industrial, s/n -Gleba AI-6 - CP.16 12600 - Lorena -SP - Brasil" "Solid State Commun.,68(1988)" 3837 SSC0680391 "HIGHLY TEXTURED,J NORMAL TO FORGING AXIS" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 91.5 91.5 700 190 50 3.2 0.838 ANISOTROPIC PROPERTIES OF SINTER-FORGED YBA2CU3O7-Z 1988 "SOLID STATE COMMUN.,68(1988)391" "Y,BA,CU,O" 3838 SSC0680391 "HIGHLY TEXTURED,J//FORGING AXIS" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1988 Y123 K 91.5 91.5 1300 190 50 1.15 6.4 ANISOTROPIC PROPERTIES OF SINTER-FORGED YBA2CU3O7-Z 1988 "SOLID STATE COMMUN.,68(1988)391" "Y,BA,CU,O" 3839 SSC0680539 "Y(Ba,M)2Cu3O7" Y1Ba1.95Li0.05Cu3OZ Y 1 Ba 1.95 Li 0.05 Cu 3 O Z 1988 3 Y123 K 66 72 69 "EFFECTS OF ALKALI CATION(Li,Na,K,Cs)SUBSTITUTION ON THE MAGNETO-ELECTRICAL PROPERTIES OF Y1Ba2Cu3O7-y GRANULAR SUPERCONDUCTORS" 1988 "Institut de Physique, B5, Universite' de Lie'ge, 4000. Belgium E-mail address: U2150MA at BLIULGII" "Solid State Commun.,68(1988)539-545" 3840 SSC0680539 "Y(Ba,M)2Cu3O7" Y1Ba1.95Na0.05Cu3OZ Y 1 Ba 1.95 Na 0.05 Cu 3 O Z 1988 3 Y123 K 78 90 90 "EFFECTS OF ALKALI CATION(Li,Na,K,Cs)SUBSTITUTION ON THE MAGNETO-ELECTRICAL PROPERTIES OF Y1Ba2Cu3O7-y GRANULAR SUPERCONDUCTORS" 1988 "Institut de Physique, B5, Universite' de Lie'ge, 4000. Belgium E-mail address: U2150MA at BLIULGII" "Solid State Commun.,68(1988)539-545" 3841 SSC0680539 "Y(Ba,M)2Cu3O7" Y1Ba1.95K0.05Cu3OZ Y 1 Ba 1.95 K 0.05 Cu 3 O Z 1988 3 Y123 K 83 83 "EFFECTS OF ALKALI CATION(Li,Na,K,Cs)SUBSTITUTION ON THE MAGNETO-ELECTRICAL PROPERTIES OF Y1Ba2Cu3O7-y GRANULAR SUPERCONDUCTORS" 1988 "Institut de Physique, B5, Universite' de Lie'ge, 4000. Belgium E-mail address: U2150MA at BLIULGII" "Solid State Commun.,68(1988)539-545" 3842 SSC0680539 "Y(Ba,M)2Cu3O7" Y1Ba1.95Cs0.05Cu3OZ Y 1 Ba 1.95 Cs 0.05 Cu 3 O Z 1988 3 Y123 K 78 84.5 84.5 "EFFECTS OF ALKALI CATION(Li,Na,K,Cs)SUBSTITUTION ON THE MAGNETO-ELECTRICAL PROPERTIES OF Y1Ba2Cu3O7-y GRANULAR SUPERCONDUCTORS" 1988 "Institut de Physique, B5, Universite' de Lie'ge, 4000. Belgium E-mail address: U2150MA at BLIULGII" "Solid State Commun.,68(1988)539-545" 3843 SSC0680519 TWO STEP TRANSITION IN SUSCEPTIBILITY Tl1.7Sr3Ca0.7Cu4.3OZ Tl 1.7 Sr 3 Ca 0.7 Cu 4.3 O Z 1988 2 3.805 12.14 K 104 109 106.5 BLUK SUPERCONDUCTIVITY ABOVE 100 K IN THE Tl-Sr-Ca-Cu SYSTEM 1988 "Naval Research Laboratory Washington, DC 20375-5000" "Solid State Commun.,68(1988)519-521" 3844 ME0382455 HoBa2Cu3O7 Ho1Ba2Cu3O6.9 Ho 1 Ba 2 Cu 3 O 7-Z 6.9 1988 EMU/mol 1.51E+01 10.9 -16.1 3 Y123 3.819 3.9 11.669 K 91.5 1.5 91.5 MAGNETIZATION REACHES TO PARA-MAG VALUE 0.39 "BACO3,HO2O3,CU(NO3)2" 1 MIXTURE-(950C IN AIR)-PELLET-ANN(700C 2H IN O2)-C(IN O2) TO RT Meissner effect and critical fields in an inhomogeneous BaHoCu3O7-x high-Tc superconductor 1988 8 "Departament de Fisica Fonamental, Universitat de Barcelona, Diagonal, 647 08028 Barcelona, Spain" "Phys.Rev.B,38(1988)2455" 3845 PR0382450 "Nd(Ba,Nd)2Cu3O7" Nd1Ba2Cu3O7.04 Nd 1 Ba 2 Cu 3 O 7+Z 7.04 1 1988 3 Y123 3.871 3.914 11.756 K 77 88 82.5 "ND2O3,BACO3,CUO" 1 MIXTURE-CAL(950C IN AIR)-PELLET-SIN(950C 24H)-ANN(450-500C 24H IN O2)-FC "ORTHORHOMBIC-TO-TETRAGONAL TRANSITION IN R1+XBA2-XCU3O7-Z (R=NS,SM, AND FU)" 1988 8 "DEPARTMENT OF CHEMISTRY, RUTGERS-THE STATE UNIVERSITY, NEW JERSEY" "PHYS.REV.B,38(1988)2450" "ND,SM,EU,BA,CU,O" 3846 PR0382450 "Nd(Ba,Nd)2Cu3O7" Nd1.1Ba1.9Cu3O7.05 Nd 1.1 Ba 1.9 Cu 3 O 7+Z 7.05 1 1988 3 Y123 3.871 3.914 11.732 K 50 81 65.5 "ND2O3,BACO3,CUO" 1 MIXTURE-CAL(950C IN AIR)-PELLET-SIN(950C 24H)-ANN(450-500C 24H IN O2)-FC "ORTHORHOMBIC-TO-TETRAGONAL TRANSITION IN R1+XBA2-XCU3O7-Z (R=NS,SM, AND FU)" 1988 8 "DEPARTMENT OF CHEMISTRY, RUTGERS-THE STATE UNIVERSITY, NEW JERSEY" "PHYS.REV.B,38(1988)2450" "ND,SM,EU,BA,CU,O" 3847 PR0382450 "Nd(Ba,Nd)2Cu3O7" Nd1.2Ba1.8Cu3O7.1 Nd 1.2 Ba 1.8 Cu 3 O 7+Z 7.1 1 1988 3 Y123 3.89 3.892 11.696 K 33 54 43.5 "ND2O3,BACO3,CUO" 1 MIXTURE-CAL(950C IN AIR)-PELLET-SIN(950C 24H)-ANN(450-500C 24H IN O2)-FC "ORTHORHOMBIC-TO-TETRAGONAL TRANSITION IN R1+XBA2-XCU3O7-Z (R=NS,SM, AND FU)" 1988 8 "DEPARTMENT OF CHEMISTRY, RUTGERS-THE STATE UNIVERSITY, NEW JERSEY" "PHYS.REV.B,38(1988)2450" "ND,SM,EU,BA,CU,O" 3848 PR0382450 "Nd(Ba,Nd)2Cu3O7" Nd1.3Ba1.7Cu3O7.14 Nd 1.3 Ba 1.7 Cu 3 O 7+Z 7.14 1 1988 2 Y123 3.89 11.661 K 14 50 32 "ND2O3,BACO3,CUO" 1 MIXTURE-CAL(950C IN AIR)-PELLET-SIN(950C 24H)-ANN(450-500C 24H IN O2)-FC "ORTHORHOMBIC-TO-TETRAGONAL TRANSITION IN R1+XBA2-XCU3O7-Z (R=NS,SM, AND FU)" 1988 8 "DEPARTMENT OF CHEMISTRY, RUTGERS-THE STATE UNIVERSITY, NEW JERSEY" "PHYS.REV.B,38(1988)2450" "ND,SM,EU,BA,CU,O" 3849 PR0382450 "Nd(Ba,Nd)2Cu3O7" Nd1.4Ba1.6Cu3O7.19 Nd 1.4 Ba 1.6 Cu 3 O 7+Z 7.19 1 1988 2 Y123 3.874 11.659 K "ND2O3,BACO3,CUO" 1 MIXTURE-CAL(950C IN AIR)-PELLET-SIN(950C 24H)-ANN(450-500C 24H IN O2)-FC "ORTHORHOMBIC-TO-TETRAGONAL TRANSITION IN R1+XBA2-XCU3O7-Z (R=NS,SM, AND FU)" 1988 8 "DEPARTMENT OF CHEMISTRY, RUTGERS-THE STATE UNIVERSITY, NEW JERSEY" "PHYS.REV.B,38(1988)2450" "ND,SM,EU,BA,CU,O" 3850 PR0382450 "Nd(Ba,Nd)2Cu3O7" Nd1.5Ba1.5Cu3O7.3 Nd 1.5 Ba 1.5 Cu 3 O 7+Z 7.3 1 1988 2 Y123 3.876 11.649 K "ND2O3,BACO3,CUO" 1 MIXTURE-CAL(950C IN AIR)-PELLET-SIN(950C 24H)-ANN(450-500C 24H IN O2)-FC "ORTHORHOMBIC-TO-TETRAGONAL TRANSITION IN R1+XBA2-XCU3O7-Z (R=NS,SM, AND FU)" 1988 8 "DEPARTMENT OF CHEMISTRY, RUTGERS-THE STATE UNIVERSITY, NEW JERSEY" "PHYS.REV.B,38(1988)2450" "ND,SM,EU,BA,CU,O" 3851 PR0382450 "Sm(Ba,Sm)2Cu3O7" Sm1Ba2Cu3O7.01 Sm 1 Ba 2 Cu 3 O 7+Z 7.01 1 1988 3 Y123 3.858 3.91 11.741 K 82 92 87 "SM2O3,BACO3,CUO" 1 "ORTHORHOMBIC-TO-TETRAGONAL TRANSITION IN R1+XBA2-XCU3O7-Z (R=NS,SM, AND FU)" 1988 8 "DEPARTMENT OF CHEMISTRY, RUTGERS-THE STATE UNIVERSITY, NEW JERSEY" "PHYS.REV.B,38(1988)2450" "ND,SM,EU,BA,CU,O" 3852 PR0382450 "Sm(Ba,Sm)2Cu3O7" Sm1.1Ba1.9Cu3O7.05 Sm 1.1 Ba 1.9 Cu 3 O 7+Z 7.05 1 1988 3 Y123 3.86 3.906 11.729 K 70 87 78.5 "SM2O3,BACO3,CUO" 1 "ORTHORHOMBIC-TO-TETRAGONAL TRANSITION IN R1+XBA2-XCU3O7-Z (R=NS,SM, AND FU)" 1988 8 "DEPARTMENT OF CHEMISTRY, RUTGERS-THE STATE UNIVERSITY, NEW JERSEY" "PHYS.REV.B,38(1988)2450" "ND,SM,EU,BA,CU,O" 3853 PR0382450 "Sm(Ba,Sm)2Cu3O7" Sm1.2Ba1.8Cu3O7.09 Sm 1.2 Ba 1.8 Cu 3 O 7+Z 7.09 1 1988 2 Y123 3.881 11.654 K 29 47 38 "SM2O3,BACO3,CUO" 1 "ORTHORHOMBIC-TO-TETRAGONAL TRANSITION IN R1+XBA2-XCU3O7-Z (R=NS,SM, AND FU)" 1988 8 "DEPARTMENT OF CHEMISTRY, RUTGERS-THE STATE UNIVERSITY, NEW JERSEY" "PHYS.REV.B,38(1988)2450" "ND,SM,EU,BA,CU,O" 3854 PR0382450 "Sm(Ba,Sm)2Cu3O7" Sm1.3Ba1.7Cu3O7.16 Sm 1.3 Ba 1.7 Cu 3 O 7+Z 7.16 1 1988 2 Y123 3.879 11.63 K "SM2O3,BACO3,CUO" 1 "ORTHORHOMBIC-TO-TETRAGONAL TRANSITION IN R1+XBA2-XCU3O7-Z (R=NS,SM, AND FU)" 1988 8 "DEPARTMENT OF CHEMISTRY, RUTGERS-THE STATE UNIVERSITY, NEW JERSEY" "PHYS.REV.B,38(1988)2450" "ND,SM,EU,BA,CU,O" 3855 PR0382450 "Sm(Ba,Sm)2Cu3O7" Sm1.4Ba1.6Cu3O7.19 Sm 1.4 Ba 1.6 Cu 3 O 7+Z 7.19 1 1988 2 Y123 3.871 11.599 K "SM2O3,BACO3,CUO" 1 "ORTHORHOMBIC-TO-TETRAGONAL TRANSITION IN R1+XBA2-XCU3O7-Z (R=NS,SM, AND FU)" 1988 8 "DEPARTMENT OF CHEMISTRY, RUTGERS-THE STATE UNIVERSITY, NEW JERSEY" "PHYS.REV.B,38(1988)2450" "ND,SM,EU,BA,CU,O" 3856 PR0382450 "Sm(Ba,Sm)2Cu3O7" Sm1.5Ba1.5Cu3O7.22 Sm 1.5 Ba 1.5 Cu 3 O 7+Z 7.22 1 1988 2 Y123 3.861 11.603 K "SM2O3,BACO3,CUO" 1 "ORTHORHOMBIC-TO-TETRAGONAL TRANSITION IN R1+XBA2-XCU3O7-Z (R=NS,SM, AND FU)" 1988 8 "DEPARTMENT OF CHEMISTRY, RUTGERS-THE STATE UNIVERSITY, NEW JERSEY" "PHYS.REV.B,38(1988)2450" "ND,SM,EU,BA,CU,O" 3857 PR0382450 "Eu(Ba,Eu)2Cu3O7" Eu1Ba2Cu3O7.01 Eu 1 Ba 2 Cu 3 O 7+Z 7.01 1 1988 3 Y123 3.859 3.904 11.709 K 88 92 90 "SM2O3,BACO3,CUO" 1 "ORTHORHOMBIC-TO-TETRAGONAL TRANSITION IN R1+XBA2-XCU3O7-Z (R=NS,SM, AND FU)" 1988 8 "DEPARTMENT OF CHEMISTRY, RUTGERS-THE STATE UNIVERSITY, NEW JERSEY" "PHYS.REV.B,38(1988)2450" "ND,SM,EU,BA,CU,O" 3858 PR0382450 "Eu(Ba,Eu)2Cu3O7" Eu1.1Ba1.9Cu3O7.07 Eu 1.1 Ba 1.9 Cu 3 O 7+Z 7.07 1 1988 3 Y123 3.873 3.887 11.679 K 70 92 81 "SM2O3,BACO3,CUO" 1 "ORTHORHOMBIC-TO-TETRAGONAL TRANSITION IN R1+XBA2-XCU3O7-Z (R=NS,SM, AND FU)" 1988 8 "DEPARTMENT OF CHEMISTRY, RUTGERS-THE STATE UNIVERSITY, NEW JERSEY" "PHYS.REV.B,38(1988)2450" "ND,SM,EU,BA,CU,O" 3859 PR0382450 "Eu(Ba,Eu)2Cu3O7" Eu1.2Ba1.8Cu3O7.18 Eu 1.2 Ba 1.8 Cu 3 O 7+Z 7.18 1 1988 2 Y123 3.867 11.631 K 28 56 42 "SM2O3,BACO3,CUO" 1 "ORTHORHOMBIC-TO-TETRAGONAL TRANSITION IN R1+XBA2-XCU3O7-Z (R=NS,SM, AND FU)" 1988 8 "DEPARTMENT OF CHEMISTRY, RUTGERS-THE STATE UNIVERSITY, NEW JERSEY" "PHYS.REV.B,38(1988)2450" "ND,SM,EU,BA,CU,O" 3860 PR0382450 "Eu(Ba,Eu)2Cu3O7" Eu1.3Ba1.7Cu3O7.15 Eu 1.3 Ba 1.7 Cu 3 O 7+Z 7.15 1 1988 2 Y123 3.873 11.624 K 26 53 39.5 "SM2O3,BACO3,CUO" 1 "ORTHORHOMBIC-TO-TETRAGONAL TRANSITION IN R1+XBA2-XCU3O7-Z (R=NS,SM, AND FU)" 1988 8 "DEPARTMENT OF CHEMISTRY, RUTGERS-THE STATE UNIVERSITY, NEW JERSEY" "PHYS.REV.B,38(1988)2450" "ND,SM,EU,BA,CU,O" 3861 PR0382450 "Eu(Ba,Eu)2Cu3O7" Eu1.4Ba1.6Cu3O7.16 Eu 1.4 Ba 1.6 Cu 3 O 7+Z 7.16 1 1988 2 Y123 3.854 11.619 K 13 43 28 "SM2O3,BACO3,CUO" 1 "ORTHORHOMBIC-TO-TETRAGONAL TRANSITION IN R1+XBA2-XCU3O7-Z (R=NS,SM, AND FU)" 1988 8 "DEPARTMENT OF CHEMISTRY, RUTGERS-THE STATE UNIVERSITY, NEW JERSEY" "PHYS.REV.B,38(1988)2450" "ND,SM,EU,BA,CU,O" 3862 PR0382450 "Eu(Ba,Eu)2Cu3O7" Eu1.5Ba1.5Cu3O7.32 Eu 1.5 Ba 1.5 Cu 3 O 7+Z 7.32 1 1988 2 Y123 3.844 11.579 K "SM2O3,BACO3,CUO" 1 "ORTHORHOMBIC-TO-TETRAGONAL TRANSITION IN R1+XBA2-XCU3O7-Z (R=NS,SM, AND FU)" 1988 8 "DEPARTMENT OF CHEMISTRY, RUTGERS-THE STATE UNIVERSITY, NEW JERSEY" "PHYS.REV.B,38(1988)2450" "ND,SM,EU,BA,CU,O" 3863 PRB0384596 TWO STEP TC2=9.3K "(La,Ba)2CuO4" La1.88Ba0.12Cu1O4 La 1.88 Ba 0.12 Cu 1 O 4 1 1988 2 T K 30 30 0.852 "LA2O3,BACO3,CUO" 0 MIXTURE-PRESS-(1000C 12H IN AIR)-(1100C 12H IN AIR)-FC SUPERCONDUCTING PROPERTIES OF LA(2-X)BA(X)CU(1)O(4) 1988 9 "TC ,RES ,INDUCTANCE ,LA" "BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK" "PHYS.REV.B,38(1988)4596" "LA,BA,CU,O" 3864 PRB0384596 "RESISTIVE PEAK AT TC(ON), IMPURITY PHASES EXIST" "(La,Ba)2CuO4" La1.9Ba0.1Cu1O4 La 1.9 Ba 0.1 Cu 1 O 4 1 1988 2 T K 30 30 1.22 "LA2O3,BACO3,CUO" 0 MIXTURE-PRESS-(1000C 12H IN AIR)-(1100C 12H IN AIR)-FC SUPERCONDUCTING PROPERTIES OF LA(2-X)BA(X)CU(1)O(4) 1988 9 "TC ,RES ,INDUCTANCE ,LA" "BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK" "PHYS.REV.B,38(1988)4596" "LA,BA,CU,O" 3865 PRB0384596 "(La,Ba)2CuO4" La1.92Ba0.08Cu1O4 La 1.92 Ba 0.08 Cu 1 O 4 1 1988 2 T K 32.2 32.2 0.235 "LA2O3,BACO3,CUO" 0 MIXTURE-PRESS-(1000C 12H IN AIR)-(1100C 12H IN AIR)-FC SUPERCONDUCTING PROPERTIES OF LA(2-X)BA(X)CU(1)O(4) 1988 9 "TC ,RES ,INDUCTANCE ,LA" "BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK" "PHYS.REV.B,38(1988)4596" "LA,BA,CU,O" 3866 PRB0384596 TWO STEP TC2=17.0 "(La,Ba)2CuO4" La1.8Ba0.2Cu1O4 La 1.8 Ba 0.2 Cu 1 O 4 1 1988 2 T K 32.5 32.5 0.497 "LA2O3,BACO3,CUO" 0 MIXTURE-PRESS-(1000C 12H IN AIR)-(1100C 12H IN AIR)-FC SUPERCONDUCTING PROPERTIES OF LA(2-X)BA(X)CU(1)O(4) 1988 9 "TC ,RES ,INDUCTANCE ,LA" "BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK" "PHYS.REV.B,38(1988)4596" "LA,BA,CU,O" 3867 PRB0384596 "(La,Ba)2CuO4" La1.825Ba0.175Cu1O4 La 1.825 Ba 0.175 Cu 1 O 4 1 1988 2 T K 28.3 28.3 0.443 "LA2O3,BACO3,CUO" 0 MIXTURE-PRESS-(1000C 12H IN AIR)-(1100C 12H IN AIR)-FC SUPERCONDUCTING PROPERTIES OF LA(2-X)BA(X)CU(1)O(4) 1988 9 "TC ,RES ,INDUCTANCE ,LA" "BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK" "PHYS.REV.B,38(1988)4596" "LA,BA,CU,O" 3868 PRB0384596 "(La,Ba)2CuO4" La1.855Ba0.145Cu1O4 La 1.855 Ba 0.145 Cu 1 O 4 1 1988 2 T K 30 30 1.03 "LA2O3,BACO3,CUO" 0 MIXTURE-PRESS-(1000C 12H IN AIR)-(1100C 12H IN AIR)-FC SUPERCONDUCTING PROPERTIES OF LA(2-X)BA(X)CU(1)O(4) 1988 9 "TC ,RES ,INDUCTANCE ,LA" "BROOKHAVEN NATIONAL LABORATORY,UPTON,NEW YORK" "PHYS.REV.B,38(1988)4596" "LA,BA,CU,O" 3869 OX0385025 "91%O(18),DTC=0.16K" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1988 Y123 K 91.2 91.2 0.016 O 91 0.16 "BAO2,Y2O3,CUO" 0 MIXTURE-HEAT(850C 3H IN AIR)-(950C 12H IN O2)-C-REGROUND-(950C 12H IN O2)-(350C 48H IN O2)-O(18) EXCHANGE OXYGEN ISOTOPE EFFECT ON CRITICAL TEMPERATURE AND PHONON MODES IN Y(1)BA(2)CU(3)O(7) 1988 9 "FAR-INFRARED ,ISOTOPE EFFECT ,SUS ,TC" "UNIVERSITY OF VIRGINIA,CHARLOTTESVILLE,VIRGINIA" "PHYS.REV.B,38(1988)5025" "Y,BA,CU,O" 3870 HI0379730 EuBa2Cu3O7 Eu1Ba2Cu3OZ Eu 1 Ba 2 Cu 3 O Z 1988 3 Y123 3.849 3.901 11.704 K 90 90 K/KBAR 0.16 1 MIXTURE-CAL(950C IN AIR)-SIN(950C IN O2)-SLOW C IN O2 HIGH-PRESSURE STUDY ON 60- AND 90-K EU(1)BA(2)CU(3)O(7-Z) 1988 6 "PRESSURE EFFECT ,RESISTIVITY ,TC" "DEPARTMENT OF PHYSICS,TEXAS CENTER FOR SUPERCONDUCTIVITY AT THE UNIVERSITY OF HOUSTON,HOUSTON,TEXAS" "PHYS.REV.B,37(1988)9730" "EU,BA,CU,O" 3871 HI0379730 EuBa2Cu3O7 Eu1Ba2Cu3OZ Eu 1 Ba 2 Cu 3 O Z 1988 3 Y123 3.859 3.904 11.712 K 55 55 K/KBAR 0.9 1 3870 SAMPLE-ANN(300-500C 30MIN IN VACUUM) HIGH-PRESSURE STUDY ON 60- AND 90-K EU(1)BA(2)CU(3)O(7-Z) 1988 6 "PRESSURE EFFECT ,RESISTIVITY ,TC" "DEPARTMENT OF PHYSICS,TEXAS CENTER FOR SUPERCONDUCTIVITY AT THE UNIVERSITY OF HOUSTON,HOUSTON,TEXAS" "PHYS.REV.B,37(1988)9730" "EU,BA,CU,O" 3872 PR0465880 K3C60 C60K3 C 60 K 3 1992 fullerene K 18 18 28 2 34 1 UPPER-CRITICAL-FIELD-TEMPERATURE PHASE DIAGRAM OF ALKALI-METAL-INTERCALATED C60 SUPERCONDUCTORS 1992 9 "DEPARTMENT OF PHYSICS, UNIVERSITY OF CALIFORNIA AT LOS ANGELES" "PHYS.REV.B,46(1992)5880" "K,C,RB" 3873 PR0465880 Rb3C60 C60Rb3 C 60 Rb 3 1992 fullerene K 30 30 38 2 30 1 UPPER-CRITICAL-FIELD-TEMPERATURE PHASE DIAGRAM OF ALKALI-METAL-INTERCALATED C60 SUPERCONDUCTORS 1992 9 "DEPARTMENT OF PHYSICS, UNIVERSITY OF CALIFORNIA AT LOS ANGELES" "PHYS.REV.B,46(1992)5880" "K,C,RB" 3874 PR0465876 "HC2 FOLLOWS LINEAR RELATION, NOT WHH THEORY" K3C60 C60K3 C 60 K 3 1 1992 fullerene K 18.7 18.7 38 2.14 29 0 "C60 POWDER + K-(350C SEVERAL DAYS IN SEALED PYREX AMPOULE),NOMINAL(K2.5 C60)" EVIDENCE OF UPPER-CRITICAL-FIELD ENHAMCEMENT IN K3C60 POWDERS 1992 9 "AT&T BELL LABORATORIES, NEW JERSEY" "PHYS.REN.B,46(1992)5876" "K,C" 3875 HE0370552 "GAMMA BY SPHEAT, BCS THEORY" DyBa2Cu3O7 Dy1Ba2Cu3O7 Dy 1 Ba 2 Cu 3 O 7 1 1988 Y123 K 92.5 3.7 92.5 J/MOLE.K 3.7 28 "DY2O3,BA(NO3)2,CUO" 0 MIXTURE-(1173K 12H IN AIR)-PELLET-SIN(1223K 16H IN O2)-ANN(1173K 1H+1073K 2H+973K 4H)-C TO RT HEAT CAPACITY OF THE HIGH-TEMPERATURE SUPERCONDUCTOR BA(2)DY(1)CU(3)O(7) 1988 1 "SPECIFIC HEAT ,MAGNETIZATION" "RESEARCH LABORATORY OF ENGINEEING MATERIALS,TOKYO INSTITUTE OF TECHNOLOGY,YOKOHAMA" "PHYS.REV.B,37(1988)552" "DY,BA,CU,O" 3876 SP0367145 NEEL-T DETERMINED BY SPHEAT NdBa2Cu3O7 Nd1Ba2Cu3O7 Nd 1 Ba 2 Cu 3 O 7 1 1987 3 Y123 K 1 "SPECIFIC HEAT NEAR T(N) IN(PR,ND,SM,GD,AND DY)BA(2)CU(3)O(7): EVIDENCE FOR SPIN-EXCHANGE-DRIVEN ORDERING" 1987 11 "MAGNETIC ORDERING ,SPECIFIC HEAT ,ANTIFERR" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,36(1987)7145" "PR,ND,SM,GD,DY,BA,CU,O" 3877 SP0367145 "NEEL-T DETERMINED BY SPHEAT, NO ORDERING" SmBa2Cu3O7 Sm1Ba2Cu3O7 Sm 1 Ba 2 Cu 3 O 7 1 1987 0.6 3 Y123 K 1 "SPECIFIC HEAT NEAR T(N) IN(PR,ND,SM,GD,AND DY)BA(2)CU(3)O(7): EVIDENCE FOR SPIN-EXCHANGE-DRIVEN ORDERING" 1987 11 "MAGNETIC ORDERING ,SPECIFIC HEAT ,ANTIFERR" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,36(1987)7145" "PR,ND,SM,GD,DY,BA,CU,O" 3878 SP0367145 NEEL-T BY SPHEAT GdBa2Cu3O7 Gd1Ba2Cu3O7 Gd 1 Ba 2 Cu 3 O 7 1 1987 2.2 3 Y123 K 1 "SPECIFIC HEAT NEAR T(N) IN(PR,ND,SM,GD,AND DY)BA(2)CU(3)O(7): EVIDENCE FOR SPIN-EXCHANGE-DRIVEN ORDERING" 1987 11 "MAGNETIC ORDERING ,SPECIFIC HEAT ,ANTIFERR" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,36(1987)7145" "PR,ND,SM,GD,DY,BA,CU,O" 3879 SP0367145 NEEL-T BY SPHEAT DyBa2Cu3O7 Dy1Ba2Cu3O7 Dy 1 Ba 2 Cu 3 O 7 1 1987 0.92 3 Y123 K 1 "SPECIFIC HEAT NEAR T(N) IN(PR,ND,SM,GD,AND DY)BA(2)CU(3)O(7): EVIDENCE FOR SPIN-EXCHANGE-DRIVEN ORDERING" 1987 11 "MAGNETIC ORDERING ,SPECIFIC HEAT ,ANTIFERR" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,36(1987)7145" "PR,ND,SM,GD,DY,BA,CU,O" 3880 SP0366915 GdBa2Cu3O7 Gd1Ba2Cu3O7-Z Gd 1 Ba 2 Cu 3 O 7-Z 1987 /GD 7.98 -5.89 Y123 K 89 94 2 94 MJ/GAT.K 301 374 1 MIXTURE-(950C 24H)-(900C 16H IN O2)-C(100C/C) TO 400C-C(200C/H)-TO RT SPECIFIC HEAT OF GD(1)BA(2)CU(3)O(7-Z) IN THE NORMAL AND SUPERCONDUCTING STATES 1987 11 "SPECIFIC HEAT ,ANTIFERROMAGNETIC ,RES ,SU" "DEPARTMENT OF PHYSICS AND MATERIALS RESEARCH LABORATORY,UNIVERSITY OF ILLINOIS AT URBANA-CHAMPAIGN,URBANA,ILLINOIS" "PHYS.REV.B,36(1987)6915" "GD,BA,CU,O" 3881 SP0366915 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1987 Y123 K 90.3 92.1 1.79 92.1 374 1 MIXTURE-(950C 24H)-(900C 16H IN O2)-C(100C/C) TO 400C-C(200C/H)-TO RT SPECIFIC HEAT OF GD(1)BA(2)CU(3)O(7-Z) IN THE NORMAL AND SUPERCONDUCTING STATES 1987 11 "SPECIFIC HEAT ,ANTIFERROMAGNETIC ,RES ,SU" "DEPARTMENT OF PHYSICS AND MATERIALS RESEARCH LABORATORY,UNIVERSITY OF ILLINOIS AT URBANA-CHAMPAIGN,URBANA,ILLINOIS" "PHYS.REV.B,36(1987)6915" "GD,BA,CU,O" 3882 SP0366915 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1987 T K 4.17 356 1 MIXTURE-(950C 24H)-(900C 16H IN O2)-C(100C/C) TO 400C-C(200C/H)-TO RT SPECIFIC HEAT OF GD(1)BA(2)CU(3)O(7-Z) IN THE NORMAL AND SUPERCONDUCTING STATES 1987 11 "SPECIFIC HEAT ,ANTIFERROMAGNETIC ,RES ,SU" "DEPARTMENT OF PHYSICS AND MATERIALS RESEARCH LABORATORY,UNIVERSITY OF ILLINOIS AT URBANA-CHAMPAIGN,URBANA,ILLINOIS" "PHYS.REV.B,36(1987)6915" "GD,BA,CU,O" 3883 EF0365258 "(La,Nd,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1987 2 T 3.778 13.222 K 24 34.4 37 34.4 1.33 0.98 0 NITRATE-CAL(1000C)-PELLET-SIN(1000C OVERNIGHT) EFFECT OF MAGNETIC IMPURITIES ON HIGH-TEMPERATURE SUPERCONDUCTIVITY IN LA(1.85)SR(0.15)CU(1)O(4) 1987 10 "MAGNETIC IMPURITY ,RESISTIVITY ,SUS ,HC" "MATERIALS SCIENCE AND CHEMISTRY DISISIONS,ARGONNE NATIONAL LABORATORY,ARGONNE,ILLINOIS" "PHYS.REV.B,36(1987)5258" "LA,SR,CU,O,ND" 3884 EF0365258 "(La,Nd,Sr)2CuO4" La1.45Nd0.4Sr0.15Cu1O4 La 1.45 Nd 0.4 Sr 0.15 Cu 1 O 4 1987 2 T 3.768 13.173 K 9 22.5 30 22.5 0.97 4.8 0 NITRATE-CAL(1000C)-PELLET-SIN(1000C OVERNIGHT) EFFECT OF MAGNETIC IMPURITIES ON HIGH-TEMPERATURE SUPERCONDUCTIVITY IN LA(1.85)SR(0.15)CU(1)O(4) 1987 10 "MAGNETIC IMPURITY ,RESISTIVITY ,SUS ,HC" "MATERIALS SCIENCE AND CHEMISTRY DISISIONS,ARGONNE NATIONAL LABORATORY,ARGONNE,ILLINOIS" "PHYS.REV.B,36(1987)5258" "LA,SR,CU,O,ND" 3885 EF0365258 "(La,Nd,Sr)2CuO4" La1.82Nd0.03Sr0.15Cu1O4 La 1.82 Nd 0.03 Sr 0.15 Cu 1 O 4 1987 /ND 3.9 2 T K 34.2 38 34.2 1.26 0 NITRATE-CAL(1000C)-PELLET-SIN(1000C OVERNIGHT) EFFECT OF MAGNETIC IMPURITIES ON HIGH-TEMPERATURE SUPERCONDUCTIVITY IN LA(1.85)SR(0.15)CU(1)O(4) 1987 10 "MAGNETIC IMPURITY ,RESISTIVITY ,SUS ,HC" "MATERIALS SCIENCE AND CHEMISTRY DISISIONS,ARGONNE NATIONAL LABORATORY,ARGONNE,ILLINOIS" "PHYS.REV.B,36(1987)5258" "LA,SR,CU,O,ND" 3886 MA0364028 O IS REPLACED BY S "YBa2Cu3(O,S)7" Y1Ba2Cu3S1O6 Y 1 Ba 2 Cu 3 S 1 O 6 1 1987 3 Y123 3.855 3.914 11.75 K 89 89 80 ESR MEASUREMENT 600 "ESTIMATED FROM HC1ZERO,KAPPA" 138 0 SLOW COOLING "MAGNETISM AND CRITICAL FIELDS IN THE HIGH-TC SUPERCONDUCTORS Y(1)BA(2)CU(3)O(7-X)S(X)(X=0,1):AN ESR STUDY" 1987 9 "SUSCEPTIBILITY ,HC ,ESR" "RACAH INSTITUTE OF PHYSICS,HEBREW UNIVERSITY OF JERUSALEM,JERUSALEM,ISRAEL" "PYHS.REV.B,36(1987)4028" "Y,BA,CU,O,S" 3887 TE0387026 THERMAL EXPANSION=10.5E-6 K(-1) "(Ba,K)BiO3" Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 1988 BKBO 4.286 4.5 K 0 SEE NAT3320814 TEMPERTURE DEPENDENCE OF THE LATTICE PARAMETERS IN THE 30-K SUPERCONDUCTOR BA(0.6)K(0.4)BI(1)O(3) 1988 10 "XRY ,STRUCTURE" "AT&T BELL LABORATORIES,MURRAY HILL,NEW JERSEY" "PHYS.REV.B,38(1988)7026" "BA,K,BI,O" 3888 MA03811828 YBa2Cu3O7 Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 1988 Y123 K 91.5 91.5 MAGNETIC RELAXATION 250 950 0 "SEE J.CRYST.GROWTH,85(1987)593" MAGNETIC RELAXATION AND THE LOWER CRITICAL FIELDS IN A Y-BA-CU-O CRYSTAL 1988 12 "MAGNETIC RELAXATION ,LOWER CRITICAL FIELD ,FLUX CREEP ,MA" "IBM THOMAS J.WATSON RESEARCH CENTER,YORKTOWN HEIGHTS,NEW YORK" "PHYS.REV.B,38(1988)11828" "Y,BA,CU,O" 3889 LO0387041 SPJUMP=6MJ/K2.MOLE "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1988 T K 36.7 36.7 6 1.8 285 0 SEE SSC0620383 LOW-TEMPERATURE SPECIFIC HEAT OF LA(1.85)SR(0.15)CU(1)O(4) AND LA(2)CU(1)O(4) 1988 10 SPECIFIC HEAT "DEPARTMENT OF PHYSICS,THE PENNSYLVANIA STATE UNIVERSITY,UNIVERSITY PARK,PENNSYLVANIA" "PHYS.REV.B,38(1988)7041" "LA,SR,CU,O" 3890 LO0387041 OZ>3.97 La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 1 1988 250 T K 0.2 280 0 SEE SSC0620383 LOW-TEMPERATURE SPECIFIC HEAT OF LA(1.85)SR(0.15)CU(1)O(4) AND LA(2)CU(1)O(4) 1988 10 SPECIFIC HEAT "DEPARTMENT OF PHYSICS,THE PENNSYLVANIA STATE UNIVERSITY,UNIVERSITY PARK,PENNSYLVANIA" "PHYS.REV.B,38(1988)7041" "LA,SR,CU,O" 3891 JPS0610881 Pb2Sr2MCu3O8+Z Pb2Sr2Nd1Cu3O8+Z Pb 2 Sr 2 Nd 1 Cu 3 O 8+Z 1 1992 3 Pb3212 5.437 5.48 15.782 K 1 "CRYSTAL STRUCTURE OF PB2SR2MCU3O8+Z SYSTEN (M=ND, SM, EU, GD,DY, Y1-XCAX,HO AND ER)" 1992 3 "CRYSTAL STRUCTURE ,X-RAY ,COMPRESSIBILITY" "J.PHYS.SOC.JAPAN,61(1992)881" "PB,SR,LN,CU,O" 3892 JPS0610881 Pb2Sr2MCu3O8+Z Pb2Sr2Sm1Cu3O8+Z Pb 2 Sr 2 Sm 1 Cu 3 O 8+Z 1 1992 3 Pb3212 5.424 5.466 15.758 K 1 "CRYSTAL STRUCTURE OF PB2SR2MCU3O8+Z SYSTEN (M=ND, SM, EU, GD,DY, Y1-XCAX,HO AND ER)" 1992 3 "CRYSTAL STRUCTURE ,X-RAY ,COMPRESSIBILITY" "J.PHYS.SOC.JAPAN,61(1992)881" "PB,SR,LN,CU,O" 3893 JPS0610881 Pb2Sr2MCu3O8+Z Pb2Sr2Eu1Cu3O8+Z Pb 2 Sr 2 Eu 1 Cu 3 O 8+Z 1 1992 3 Pb3212 5.417 5.459 15.741 K 1 "CRYSTAL STRUCTURE OF PB2SR2MCU3O8+Z SYSTEN (M=ND, SM, EU, GD,DY, Y1-XCAX,HO AND ER)" 1992 3 "CRYSTAL STRUCTURE ,X-RAY ,COMPRESSIBILITY" "J.PHYS.SOC.JAPAN,61(1992)881" "PB,SR,LN,CU,O" 3894 JPS0610881 Pb2Sr2MCu3O8+Z Pb2Sr2Gd1Cu3O8+Z Pb 2 Sr 2 Gd 1 Cu 3 O 8+Z 1 1992 3 Pb3212 5.413 5.454 15.734 K 1 "CRYSTAL STRUCTURE OF PB2SR2MCU3O8+Z SYSTEN (M=ND, SM, EU, GD,DY, Y1-XCAX,HO AND ER)" 1992 3 "CRYSTAL STRUCTURE ,X-RAY ,COMPRESSIBILITY" "J.PHYS.SOC.JAPAN,61(1992)881" "PB,SR,LN,CU,O" 3895 JPS0610881 Pb2Sr2MCu3O8+Z Pb2Sr2Dy1Cu3O8+Z Pb 2 Sr 2 Dy 1 Cu 3 O 8+Z 1 1992 3 Pb3212 5.399 5.44 15.719 K 1 "CRYSTAL STRUCTURE OF PB2SR2MCU3O8+Z SYSTEN (M=ND, SM, EU, GD,DY, Y1-XCAX,HO AND ER)" 1992 3 "CRYSTAL STRUCTURE ,X-RAY ,COMPRESSIBILITY" "J.PHYS.SOC.JAPAN,61(1992)881" "PB,SR,LN,CU,O" 3896 JPS0610881 Pb2Sr2MCu3O8+Z Pb2Sr2Ho1Cu3O8+Z Pb 2 Sr 2 Ho 1 Cu 3 O 8+Z 1 1992 3 Pb3212 5.394 5.436 15.721 K 1 "CRYSTAL STRUCTURE OF PB2SR2MCU3O8+Z SYSTEN (M=ND, SM, EU, GD,DY, Y1-XCAX,HO AND ER)" 1992 3 "CRYSTAL STRUCTURE ,X-RAY ,COMPRESSIBILITY" "J.PHYS.SOC.JAPAN,61(1992)881" "PB,SR,LN,CU,O" 3897 JPS0610881 Pb2Sr2ErCu3O8 Pb2Sr2Er1Cu3O8+Z Pb 2 Sr 2 Er 1 Cu 3 O 8+Z 1 1992 3 Pb3212 CMMM 5.387 5.428 15.708 K "PBO,SRCO3,LN2O3,CACO3,CUO" 1 MIX-(800C12H)-Q TO RT-PELLET-SIN(850C12H)-Q TO RT-ANN(800C24H IN N2) "CRYSTAL STRUCTURE OF PB2SR2MCU3O8+Z SYSTEN (M=ND, SM, EU, GD,DY, Y1-XCAX,HO AND ER)" 1992 3 "CRYSTAL STRUCTURE ,X-RAY ,COMPRESSIBILITY" "J.PHYS.SOC.JAPAN,61(1992)881" "PB,SR,LN,CU,O" 3898 JPS0610881 "Pb2Sr2(Y,Ca)Cu3O8" Pb2Sr2Y0.7Ca0.3Cu3O8+Z Pb 2 Sr 2 Y 0.7 Ca 0.3 Cu 3 O 8+Z 1 1992 3 Pb3212 5.383 5.419 15.75 K "PBO,SRCO3,LN2O3,CACO3,CUO" 1 MIX-(800C12H)-Q TO RT-PELLET-SIN(850C12H)-Q TO RT-ANN(800C24H IN N2) "CRYSTAL STRUCTURE OF PB2SR2MCU3O8+Z SYSTEN (M=ND, SM, EU, GD,DY, Y1-XCAX,HO AND ER)" 1992 3 "CRYSTAL STRUCTURE ,X-RAY ,COMPRESSIBILITY" "J.PHYS.SOC.JAPAN,61(1992)881" "PB,SR,LN,CU,O" 3899 JPS0610881 "Pb2Sr2(Y,Ca)Cu3O8" Pb2Sr2Y0.5Ca0.5Cu3O8+Z Pb 2 Sr 2 Y 0.5 Ca 0.5 Cu 3 O 8+Z 1 1992 3 Pb3212 5.378 5.415 15.778 K "PBO,SRCO3,LN2O3,CACO3,CUO" 1 MIX-(800C12H)-Q TO RT-PELLET-SIN(850C12H)-Q TO RT-ANN(800C24H IN N2) "CRYSTAL STRUCTURE OF PB2SR2MCU3O8+Z SYSTEN (M=ND, SM, EU, GD,DY, Y1-XCAX,HO AND ER)" 1992 3 "CRYSTAL STRUCTURE ,X-RAY ,COMPRESSIBILITY" "J.PHYS.SOC.JAPAN,61(1992)881" "PB,SR,LN,CU,O" 3900 JPS0582252 "Ln:Ba:Ce:Cu=6:4:2:9, Tc strongly depends on annealing condition" "Cu(Eu,Ce)2(Ba,Eu)2Cu2O10-z" Eu6Ba4Ce2Cu9OZ Eu 6 Ba 4 Ce 2 Cu 9 O Z 1 1989 EMU/G 2 Cu1222 I4/MMM A 3.85 28.46 K 20 20 22 "ND2O3,SM2O3,CEO2,EU2O3+BACO3,CUO" 1 MIX-PELLET-(1020C15H IN O2)-REPEAT 2 TIMES-ANN(650C 24H IN O2(80KG/CM2)) "A new family of superconducting copper oxides: (Ln1-xCex)2(Ba1-yLny)2Cu3O10-z) (Ln: Nd,Sm,Eu) " 1989 7 "DEPARTMENT OF PHYSICS, AOYAMA-GAKUIN UNIVERSIRY" "J.PHYS.SOC.JAPAN,58(1989)3363" "ND,SM,EU,CE,BA,CU,O" 3901 JPS0582252 "Cu(Sm,Ce)2(Ba,Sm)2Cu2O10-z" Sm6Ba4Ce2Cu9OZ Sm 6 Ba 4 Ce 2 Cu 9 O Z 1 1989 2 Cu1222 K 12 12 "ND2O3,SM2O3,CEO2,EU2O3+BACO3,CUO" 1 MIX-PELLET-(1020C15H IN O2)-REPEAT 2 TIMES-ANN(650C 24H IN O2(80KG/CM2)) "A new family of superconducting copper oxides: (Ln1-xCex)2(Ba1-yLny)2Cu3O10-z) (Ln: Nd,Sm,Eu) " 1989 7 "DEPARTMENT OF PHYSICS, AOYAMA-GAKUIN UNIVERSIRY" "J.PHYS.SOC.JAPAN,58(1989)3363" "ND,SM,EU,CE,BA,CU,O" 3902 JPS0582252 "Cu(Nd,Ce)2(Ba,Nd))2Cu2O10-z" Nd6Ba4Ce2Cu9OZ Nd 6 Ba 4 Ce 2 Cu 9 O Z 1 1989 2 Cu1222 K 27 27 "ND2O3,SM2O3,CEO2,EU2O3+BACO3,CUO" 1 MIX-PELLET-(1020C15H IN O2)-REPEAT 2 TIMES-ANN(650C 24H IN O2(80KG/CM2)) "A new family of superconducting copper oxides: (Ln1-xCex)2(Ba1-yLny)2Cu3O10-z) (Ln: Nd,Sm,Eu) " 1989 7 "DEPARTMENT OF PHYSICS, AOYAMA-GAKUIN UNIVERSIRY" "J.PHYS.SOC.JAPAN,58(1989)3363" "ND,SM,EU,CE,BA,CU,O" 3903 OH0563805 NEEL TEMP. BY SPECIFIC HEAT RBa2Cu3O7 Gd1Ba2Cu3OX Gd 1 Ba 2 Cu 3 O X 1987 2.25 Y123 K 87 87 "R2O3,BACO3,CUO" 1 MIXTURE-PELLET-(920C 15H)-SLOW C-REPEAT(940C) "Heat Capacities of Ba2RCu3Ox (R=Gd, Ho, Er, Dy)" 1987 "Department of Material Physics, Faculty of Engineering Science, Osaka University, Toyonaka, Osaka 560" "J.Phys.Soc.Jpn,56(1987)3805-3807" 3904 OH0563805 RBa2Cu3O7 Er1Ba2Cu3OX Er 1 Ba 2 Cu 3 O X 1987 0.55 Y123 K 90 90 "R2O3,BACO3,CUO" 1 MIXTURE-PELLET-(920C 15H)-SLOW C-REPEAT(940C) "Heat Capacities of Ba2RCu3Ox (R=Gd, Ho, Er, Dy)" 1987 "Department of Material Physics, Faculty of Engineering Science, Osaka University, Toyonaka, Osaka 560" "J.Phys.Soc.Jpn,56(1987)3805-3807" 3905 OH0563805 RBa2Cu3O7 Dy1Ba2Cu3OX Dy 1 Ba 2 Cu 3 O X 1987 0.95 Y123 K 92 92 "R2O3,BACO3,CUO" 1 MIXTURE-PELLET-(920C 15H)-SLOW C-REPEAT(940C) "Heat Capacities of Ba2RCu3Ox (R=Gd, Ho, Er, Dy)" 1987 "Department of Material Physics, Faculty of Engineering Science, Osaka University, Toyonaka, Osaka 560" "J.Phys.Soc.Jpn,56(1987)3805-3807" 3906 OH0563805 RBa2Cu3O7 Ho1Ba2Cu3OX Ho 1 Ba 2 Cu 3 O X 1987 0.1 Y123 K 90 90 "R2O3,BACO3,CUO" 1 MIXTURE-PELLET-(920C 15H)-SLOW C-REPEAT(940C) "Heat Capacities of Ba2RCu3Ox (R=Gd, Ho, Er, Dy)" 1987 "Department of Material Physics, Faculty of Engineering Science, Osaka University, Toyonaka, Osaka 560" "J.Phys.Soc.Jpn,56(1987)3805-3807" 3907 SSC0820673 "(Bi,Pb)2Sr2Ca2Cu3O10" Bi1.6Pb0.4Sr2Ca2Cu3OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 3 O Z 1992 2.871 2 Bi2223 K 99.2 115 107.1 4.941 THC3907 3.841 1 INFLUENCE OF DENSITY OF BI0.6PB0.4SR2CA2CU3OX SUPEERCONDUCTINGPELLETS ON THEIR TEMPERATURE DEPENDENCE OF THERMAL CONDUCTIVITY 1992 SOLID STATE COMMUN.82(1992)673 "BI,PB,SR,CA,CU,O" 3908 SSC0820673 "(Bi,Pb)2Sr2Ca2Cu3O10" Bi1.6Pb0.4Sr2Ca2Cu3OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 3 O Z 1992 3.595 2 Bi2223 K 99.5 115 107.25 5.2 THC3908 3.637 1 INFLUENCE OF DENSITY OF BI0.6PB0.4SR2CA2CU3OX SUPEERCONDUCTINGPELLETS ON THEIR TEMPERATURE DEPENDENCE OF THERMAL CONDUCTIVITY 1992 SOLID STATE COMMUN.82(1992)673 "BI,PB,SR,CA,CU,O" 3909 SSC0820673 "(Bi,Pb)2Sr2Ca2Cu3O10" Bi1.6Pb0.4Sr2Ca2Cu3OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 3 O Z 1992 3.821 2 Bi2223 K 100.5 115 107.75 5.4 THC3909 2.934 1 INFLUENCE OF DENSITY OF BI0.6PB0.4SR2CA2CU3OX SUPEERCONDUCTINGPELLETS ON THEIR TEMPERATURE DEPENDENCE OF THERMAL CONDUCTIVITY 1992 SOLID STATE COMMUN.82(1992)673 "BI,PB,SR,CA,CU,O" 3910 SSC0820673 "(Bi,Pb)2Sr2Ca2Cu3O10" Bi1.6Pb0.4Sr2Ca2Cu3OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 3 O Z 1992 4.252 2 Bi2223 K 101.2 115 108.1 5.576 THC3910 2.543 1 INFLUENCE OF DENSITY OF BI0.6PB0.4SR2CA2CU3OX SUPEERCONDUCTINGPELLETS ON THEIR TEMPERATURE DEPENDENCE OF THERMAL CONDUCTIVITY 1992 SOLID STATE COMMUN.82(1992)673 "BI,PB,SR,CA,CU,O" 3911 SSC0820775 "(Bi,Pb)2Sr2Ca3Cu4O10" Bi1.6Pb0.4Sr2Ca3Cu4O10+Z Bi 1.6 Pb 0.4 Sr 2 Ca 3 Cu 4 O 10+Z 1992 Bi2234 K 90 100 110 100 TP3911 1 THERMOELECTRIC POWER OF BULK AND THIN FILM BISMUTH HIGH TC SUPERCONDUCTORS 1992 SOLID STATE COMMUN.82(1992)775 "BI,PB,SR,CA,CU,O" 3912 SSC0820241 TmBa2Cu3O7 Tm1Ba2Cu3O7 Tm 1 Ba 2 Cu 3 O 7 3 1992 Y123 K 90 90 THC3912 TP3912 0 THERMAL CONDUCTIVITY OF TMBA2CU3OX AND BI2SR2CACU2OX SINGLE CRYSTALS IN THE VICINITY OF THE SUPERCONDUCTING TRANSITION 1992 SOLID STATE COMMUN.82(1992)241 "TM,BA,CU,O,BI,SR,CA" 3913 SSC0820241 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2OX Bi 2 Sr 2 Ca 1 Cu 2 O X 3 1992 Bi2212 K 89 89 THC3913 TP3913 0 THERMAL CONDUCTIVITY OF TMBA2CU3OX AND BI2SR2CACU2OX SINGLE CRYSTALS IN THE VICINITY OF THE SUPERCONDUCTING TRANSITION 1992 SOLID STATE COMMUN.82(1992)241 "TM,BA,CU,O,BI,SR,CA" 3914 PHC1990032 "SIZE 1.0*1.0*0.093MM3,DEMAG.FACTOR=0.87," Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1992 Bi2212 K 87 87 340 7 FLOATING ZONE FROM SINTERED FEED TEMPERATURE DEPENDENCE OF THE LOWER CRITICAL FIELD UNDER THE EFFECT OF SURFACE BARRIES IN BI2SR2CACU2O8 CRYSTAL 1992 8 "PHYSICA C,199(1992)32" "BI,SR,CA,CU,O" 3915 PHC1990023 "RANDOM ORIENTED MULTI-GRAIN(8*8*4MM3),EXTENSIVE TWIN, JC CRITERIA=3.3UV/CM,JC(77K,H=1T)=3000A/CM2" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1 1992 3 Y123 K 94 94 16000 0 "MELT-GROWN BULK,SIN-1100C 15H-RAPID COOL TO 1030C-SLOW C TO 980C-HOLD(980C 15H)" TRANSPORT CRITICAL CURRENTS AND FLUX PINNING IN MELT-GROWN YBA2CU3O7-Z 1992 8 "PHYSICA C,199(1992)23" "Y,BA,CU,O" 3916 SSC0721207 "Y(Ba,K)2Cu3O7" Y1Ba1.9K0.1Cu3O7-Z Y 1 Ba 1.9 K 0.1 Cu 3 O 7-Z 1 1989 3 Y123 3.83 3.895 11.6 K 315 73 "CUO,Y2O3,BACO3,KHCO3" 1 MIXTURE-CAL(800C 12H)-PRESS-SIN(960C SEV H IN O2)-SLOW C EPR OF POLYCRYSTALLINE HIGH-TC SUPERCONDUCTOR YBA1.9K0.1CU3O7-Z 1989 12 "ERP ,MICROWAVEABSORPTION ,CRITICAL FIELD" "PHYSICS DEPARTMENT CONCORDIA UNIVERSITY, 1455 DE MAISONNEUVE BOULEVARD WEST MONTREAL, QUEBEC, CANADA H3G 1M8" SOLID STATE COMMUN.72(1989)1207 "Y,BA,K,CU,O" 3917 SSC0720749 GAMMA BY LOW TEMP SP.HEAT "(Pr,Ce)2CuO4" Pr1.95Ce0.05Cu1O4 Pr 1.95 Ce 0.05 Cu 1 O 4 1 1989 T' K 2.08 0 SMALL ELECTRONIC SPECIFIC HEAT IN THE ELECTRON DOPED CU-OXIDESUPERCONDUCTORS 1989 11 SPECIFIC HEAT "INSTITUTE FOR MOLECULAR SCIENCE, MYODAIJI, OKAZAKI 444 JAPAN" SOLID STATE COMMUN.72(1989)749 "PR,ND,CE,CU,O" 3918 SSC0720749 "(Pr,Ce)2CuO4" Pr1.9Ce0.1Cu1O4 Pr 1.9 Ce 0.1 Cu 1 O 4 1 1989 T' K 2.34 0 SMALL ELECTRONIC SPECIFIC HEAT IN THE ELECTRON DOPED CU-OXIDESUPERCONDUCTORS 1989 11 SPECIFIC HEAT "INSTITUTE FOR MOLECULAR SCIENCE, MYODAIJI, OKAZAKI 444 JAPAN" SOLID STATE COMMUN.72(1989)749 "PR,ND,CE,CU,O" 3919 SSC0720749 "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4 Pr 1.85 Ce 0.15 Cu 1 O 4 1 1989 T' 12.15 K 2.75 0 SMALL ELECTRONIC SPECIFIC HEAT IN THE ELECTRON DOPED CU-OXIDESUPERCONDUCTORS 1989 11 SPECIFIC HEAT "INSTITUTE FOR MOLECULAR SCIENCE, MYODAIJI, OKAZAKI 444 JAPAN" SOLID STATE COMMUN.72(1989)749 "PR,ND,CE,CU,O" 3920 SSC0720749 "(Pr,Ce)2CuO4" Pr1.82Ce0.18Cu1O4 Pr 1.82 Ce 0.18 Cu 1 O 4 1 1989 T' K 4.13 0 SMALL ELECTRONIC SPECIFIC HEAT IN THE ELECTRON DOPED CU-OXIDESUPERCONDUCTORS 1989 11 SPECIFIC HEAT "INSTITUTE FOR MOLECULAR SCIENCE, MYODAIJI, OKAZAKI 444 JAPAN" SOLID STATE COMMUN.72(1989)749 "PR,ND,CE,CU,O" 3921 SSC0720749 "(Pr,Ce)2CuO4" Pr1.8Ce0.2Cu1O4 Pr 1.8 Ce 0.2 Cu 1 O 4 1989 T' K 5.02 0 SMALL ELECTRONIC SPECIFIC HEAT IN THE ELECTRON DOPED CU-OXIDESUPERCONDUCTORS 1989 11 SPECIFIC HEAT "INSTITUTE FOR MOLECULAR SCIENCE, MYODAIJI, OKAZAKI 444 JAPAN" SOLID STATE COMMUN.72(1989)749 "PR,ND,CE,CU,O" 3922 SSC0720749 "(Pr,Ce)2CuO4" Pr1.75Ce0.25Cu1O4 Pr 1.75 Ce 0.25 Cu 1 O 4 1989 T' K 6.96 0 SMALL ELECTRONIC SPECIFIC HEAT IN THE ELECTRON DOPED CU-OXIDESUPERCONDUCTORS 1989 11 SPECIFIC HEAT "INSTITUTE FOR MOLECULAR SCIENCE, MYODAIJI, OKAZAKI 444 JAPAN" SOLID STATE COMMUN.72(1989)749 "PR,ND,CE,CU,O" 3923 SSC0720749 GAMMA ESTIMATED BY BCS TYPE JUMP(1.43) "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 1 1989 T' 12.25 K 22 22 37.75 1.2 0 HEAT(900C 18H IN AIR)-PRESS-HEAT(1000C 20H+1100C 40H IN AIR)-PRESS-HEAT-ANN(900C 44H+550C 50H IN 1E-5 TORR) SMALL ELECTRONIC SPECIFIC HEAT IN THE ELECTRON DOPED CU-OXIDESUPERCONDUCTORS 1989 11 SPECIFIC HEAT "INSTITUTE FOR MOLECULAR SCIENCE, MYODAIJI, OKAZAKI 444 JAPAN" SOLID STATE COMMUN.72(1989)749 "PR,ND,CE,CU,O" 3924 SSC0720697 "DENSITY=60% OF X-RAY DENSITY,SMALL AMOUNT OF BI4SR8CU5O19+Z" Bi2Sr2CuO6 Bi2Sr2Cu1O6.17 Bi 2 Sr 2 Cu 1 O 6+Z 6.17 1 1989 Bi2201 5.365 5.369 24.69 K 4.2 1 "OXYGEN CONTENT, LATTICE CONSTANTS AND TC OF BI2SR2-XLAXCUO6+ZWHTH 0.0,P=2 FOR HEAT FLOW //<221>,P=3 FOR HEAT FLOW //<110>" La2CuO4 La2Cu1O4-Z La 2 Cu 1 O 4-Z 3 1989 2 K THC4073 0 SEE J.CRYST.GROWTH 85(1987)576 THERMAL PROPERTIES OF SINGLE-CRYSTAL LA(2)CU(1)O(4-Z) 1989 1 "THERMAL CONDUCTIVITY ,RAMAN ,SUSCEPTIBILITY ,SPECIFIC HEAT" "PHYSICS DEPARTMENT,GENERAL MOTORS RESEARCH LABORATORIES,WARREN,MICHIGAN" "PHYS.REV.B,39(1989)804" "LA,CU,O" 4074 PRB0371604 90%Y123STRUCTURE RBa2Cu3O7 Gd1Ba1.98Cu3.05O7 Gd 1 Ba 1.98 Cu 3.05 O 7 1988 3.83 Y123 K 89.4 89.4 614 BY FITTING OF DEBYE FUNCTION TO SPHEAT THC4074 0 SEE PHYS.REV.B 36(1987)3917 THERMAL AND ELECTRONIC PROPERTIES OF RARE-EARTH BA(2)CU(3)O(X) SUPERCONDUCTORS 1988 2 "THERMAL CONDUCTIVITY ,RESISTIVITY ,SPECIFIC" "PHYSICS DEPARTMENT,GENERAL MOTORS RESEARCH LABORATORIES,WARREN,MICHIGAN" "PHYS.REV.B,37(1988)1604" "R,BA,CU,O" 4075 PRB0371604 90%Y123 STRUCTURE RBa2Cu3O7 Dy1Ba1.97Cu3.06O7 Dy 1 Ba 1.97 Cu 3.06 O 7 1988 4.48 Y123 K 87.1 87.1 595 BY SP.HEAT THC4075 0 SEE PHYS.REV.B 36(1987)3917 THERMAL AND ELECTRONIC PROPERTIES OF RARE-EARTH BA(2)CU(3)O(X) SUPERCONDUCTORS 1988 2 "THERMAL CONDUCTIVITY ,RESISTIVITY ,SPECIFIC" "PHYSICS DEPARTMENT,GENERAL MOTORS RESEARCH LABORATORIES,WARREN,MICHIGAN" "PHYS.REV.B,37(1988)1604" "R,BA,CU,O" 4076 PRB0371604 90%Y123 STRUCTURE RBa2Cu3O7 Eu1Ba1.93Cu2.92O7 Eu 1 Ba 1.93 Cu 2.92 O 7 1988 3.69 Y123 K 83.2 83.2 595 BY SP.HEAT THC4076 0 SEE PHYS.REV.B 36(1987)3917 THERMAL AND ELECTRONIC PROPERTIES OF RARE-EARTH BA(2)CU(3)O(X) SUPERCONDUCTORS 1988 2 "THERMAL CONDUCTIVITY ,RESISTIVITY ,SPECIFIC" "PHYSICS DEPARTMENT,GENERAL MOTORS RESEARCH LABORATORIES,WARREN,MICHIGAN" "PHYS.REV.B,37(1988)1604" "R,BA,CU,O" 4077 PRB0371604 "90%Y123 STRUCTURE,TWO CURVES ARE FOR DIFFERENT SAMPLES" RBa2Cu3O7 Y1Ba2.01Cu3.11O7 Y 1 Ba 2.01 Cu 3.11 O 7 1988 2.72 Y123 K 86 86 606 BY SP.HEAT THC4077 0 SEE PHYS.REV.B 36(1987)3917 THERMAL AND ELECTRONIC PROPERTIES OF RARE-EARTH BA(2)CU(3)O(X) SUPERCONDUCTORS 1988 2 "THERMAL CONDUCTIVITY ,RESISTIVITY ,SPECIFIC" "PHYSICS DEPARTMENT,GENERAL MOTORS RESEARCH LABORATORIES,WARREN,MICHIGAN" "PHYS.REV.B,37(1988)1604" "R,BA,CU,O" 4078 PRB0371604 RBa2Cu3O7 Er1Ba2.03Cu3.05O7 Er 1 Ba 2.03 Cu 3.05 O 7 1988 3.01 Y123 K 90 90 614 BY SP.HEAT THC4078 0 SEE PHYS.REV.B 36(1987)3917 THERMAL AND ELECTRONIC PROPERTIES OF RARE-EARTH BA(2)CU(3)O(X) SUPERCONDUCTORS 1988 2 "THERMAL CONDUCTIVITY ,RESISTIVITY ,SPECIFIC" "PHYSICS DEPARTMENT,GENERAL MOTORS RESEARCH LABORATORIES,WARREN,MICHIGAN" "PHYS.REV.B,37(1988)1604" "R,BA,CU,O" 4079 PRL0643090 "THERMAL COND. MEASURED FOR MAGNETIC FIELD PARRALLEL TO C-AXIS,SINGLE=1.80*0.71*0.02MM3" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 3 1990 Y123 K 87.5 87.5 400 7 9 THC4079 0 "USING CUO FLUX, SEE NAT3280601" Transport Entropy of Vortex Motion in YBa2Cu3O7 1990 "AT&T Bell Laboratories,600 Mountain Avenue, Murray Hill, New Jersey 07974" Phys.rev.Lett.64(1990)3090 4080 PR0382892 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1988 5.22 Y123 K THC4080 2.01 0 ANN(600C)-SLOW COOL TO RT(IN O2) THERMAL CONDUCTIVITY OF YBA2CU3O7-Z BELOW 1 K: EVIDENCE FOR NORMAL-CARRIER TRANSPORT WELL BELOW TC 1988 8 "DEPARTMENT OF PHYSICS, UNIVERSITY OF MICHIGAN" "PHYS.REV.B,38(1988)2892" "Y,BA,CU,O" 4081 PR0382892 YBa2Cu3O7 Y1Ba2Cu3O6.2 Y 1 Ba 2 Cu 3 O 7-Z 6.2 1988 Y123 K THC4081 0 ANN(600C)-SLOW COOL TO RT(IN O2)-VAVUUM ANN THERMAL CONDUCTIVITY OF YBA2CU3O7-Z BELOW 1 K: EVIDENCE FOR NORMAL-CARRIER TRANSPORT WELL BELOW TC 1988 8 "DEPARTMENT OF PHYSICS, UNIVERSITY OF MICHIGAN" "PHYS.REV.B,38(1988)2892" "Y,BA,CU,O" 4082 PR0422684 INSULATOR "(Ba,K)BiO3" Ba0.8K0.2Bi1O3 Ba 0.8 K 0.2 Bi 1 O 3 1 1990 BKBO K "BAO,BI2O3,KO2" 0 THERMAL CONDUCTIVITY OF BA-K-BI-O: A CONTRAST TO COPPER OXIDESUPERCONDUCTORS 1990 8 "DEPARTMENT OF PHYSICS, THE UNIVERSITY OF MICHIGAN, ANN ARBOR,MICHIGAN 48109" "PHYS.REV.B,42(1990)2684" "BA,K,BI,O" 4083 PR0471053 "80% SINGLE DOMAIN,SPJUMP BY ASSUMING 3D GAUSSIAN FLUCTUATION,HC2 BY LINEAR DEPENDENCE" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1993 6.4 3 Y123 K 90.6 90.6 1000 250 11.5 2.9 MJ/G.K 0 "(CA,SR,CU,O)MIXTURE-HEAT(1200K,24H)+(TL2O3,PBO2)-HEAT(1170K,3H IN SEALED AG TUBE IN AIR)" HEAT CAPACITY OF YBA2CU3O7-Z CRYSTALS ALONG THE HC2 LINE 1993 1 "NAVAL RESEARCH LABORATORY, WASHINGTON, D.C." "PHYS.REV.B,(1993)1053" "Y,BA,CU,O" 4084 SSC0830073 "(Tl,Pb)Sr2CaCu2O7" Tl0.75Pb0.25Ca1Sr2Cu2O7 Tl 0.75 Pb 0.25 Ca 1 Sr 2 Cu 2 O 7 1 1992 2 Tl1212 3.8 12.145 K 20 0 SUPERCONDUCTING PROPERTIES OF TL1-YPBYCASR2CU2O7: ROLE OF PB AND OXYGEN STOICHIOMETRY 1992 SOLID STATE COMMUN.83(1992)73 "TL,PB,CA,SR,CU,O" 4085 SSC0830073 "(Tl,Pb)Sr2CaCu2O7" Tl0.7Pb0.3Ca1Sr2Cu2O7 Tl 0.7 Pb 0.3 Ca 1 Sr 2 Cu 2 O 7 1 1992 2 Tl1212 3.794 12.115 K 22 40 31 0 SUPERCONDUCTING PROPERTIES OF TL1-YPBYCASR2CU2O7: ROLE OF PB AND OXYGEN STOICHIOMETRY 1992 SOLID STATE COMMUN.83(1992)73 "TL,PB,CA,SR,CU,O" 4086 SSC0830073 "(Tl,Pb)Sr2CaCu2O7" Tl0.5Pb0.5Ca1Sr2Cu2O7 Tl 0.5 Pb 0.5 Ca 1 Sr 2 Cu 2 O 7 1 1992 2 Tl1212 3.81 12.16 K 78 91 84.5 0 SUPERCONDUCTING PROPERTIES OF TL1-YPBYCASR2CU2O7: ROLE OF PB AND OXYGEN STOICHIOMETRY 1992 SOLID STATE COMMUN.83(1992)73 "TL,PB,CA,SR,CU,O" 4087 SSC0830073 "(Tl,Pb)Sr2CaCu2O7" Tl0.75Pb0.25Ca1Sr2Cu2O7 Tl 0.75 Pb 0.25 Ca 1 Sr 2 Cu 2 O 7 1 1992 Tl1212 K 80 80 0 4083+ANN IN SILICA TUBE UNDER VAC(E-3 TORR) SUPERCONDUCTING PROPERTIES OF TL1-YPBYCASR2CU2O7: ROLE OF PB AND OXYGEN STOICHIOMETRY 1992 SOLID STATE COMMUN.83(1992)73 "TL,PB,CA,SR,CU,O" 4088 SSC0710187 "2212(MAJOR)+2223(MINOR)+OTHERS,GAMMA BY ASSUMING BCS" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 2 1989 Bi2212 K 84 90 87 J/MOLE.K 1.6 MJ/MOLE.K2 14 230 0 "SIN(880C,12H IN O2)" SPECIFIC HEAT AND RESISTIVITY OF THE HIGH-Tc SUPERCONDUCTOR BiCaSrCu2Ox FROM 2.5 TO 300K 1989 "Reserch Institute of Electricl Engineering, 190 11 Prague 9 - Bechovice" "Solid State Commun.,71(1989)187-190" 4089 SSC0710187 "2212(MAJOR)+2223(MINOR)+OTHERS,TWO STEP TRANSITION IN SUS AND RES" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 2 1989 Bi2212 K 76 110 93 1.83 17.5 0 "SIN(880C,12H IN AIR)" SPECIFIC HEAT AND RESISTIVITY OF THE HIGH-Tc SUPERCONDUCTOR BiCaSrCu2Ox FROM 2.5 TO 300K 1989 "Reserch Institute of Electricl Engineering, 190 11 Prague 9 - Bechovice" "Solid State Commun.,71(1989)187-190" 4090 SSC0710187 "2223(MAJOR)+2212(MINOR),2223>85 VOL %" "(Bi,Pb)2Sr2Ca2Cu3O10" Bi0.7Pb0.3Sr1Ca1Cu1.8O6 Bi 0.7 Pb 0.3 Sr 1 Ca 1 Cu 1.8 O 6 2 1989 Bi2223 K 73 0 SPECIFIC HEAT AND RESISTIVITY OF THE HIGH-Tc SUPERCONDUCTOR BiCaSrCu2Ox FROM 2.5 TO 300K 1989 "Reserch Institute of Electricl Engineering, 190 11 Prague 9 - Bechovice" "Solid State Commun.,71(1989)187-190" 4091 PR04614234 "1.5*1.5*0.05MM3,PENET ANDHC1 HAVE THE SAME TEMP. DEPENDENCE" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2OY Bi 2 Sr 2 Ca 1 Cu 2 O Y 3 1992 Bi2212 K 90 1.3 90 800 LC RESONANCE WITH 10MHZ 5000 0.23 0 MAGNETIC-FIELD PENETRATION DEPTH AND THE LOWER CRITICAL FIELDOF THE QUASI-TWO-DIMENSIONAL SUPERCONDUCTOR BI2SR2CACU2OY 1992 12 "PHYS.REV.B,46(1992)14234" "BI,SR,CA,CU,O" 4092 PR0466422 Bi2Sr2CaCu2O8 Bi2.15Sr1.8Ca1Cu2O8.15 Bi 2.15 Sr 1.8 Ca 1 Cu 2 O 8.15 8.15 3 1992 Bi2212 K 93 93 0 "(870C,45H IN PT CRUCIBLE)-Q,PLATELET-ANN(725C)" MAGNETIC PROPERTIES OF BI2SR2CACU2O8+Z SINGLE CRYSTALS WITH VARIABLE OXYGEN CONTENT 1992 9 "IBM THOMAS J.WATSON RESEARCH CENTER, NEW YORK" "PHYS.REV.B,46(1992)6422" "BI,SR,CA,CU,O" 4093 PR0430408 "AB PLANE 1MM,5-10 MICRON IN C-DIRECTION,CREAVED,HEAT FLOW//C AXIS, THC300(NORMAL)=0=87W/M.K" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1991 K 85 2 85 0.87 THC4093 0 SEE PRL0620336 THERMAL-CONDUCTIVITY ANISOTROPY OF SINGLE-CRYSTAL BI2SR2CACU2O8 1991 1 "THERMAL CONDUCTIVITY,SINGLE-CRYSTAL" "DEPARTMENT OF PHYSICS, UNIVERSITY OF CALIFORNIA AT BERKELEY,AND MATERIALS AND CHEMICAL SCIENCES DIVISION OF THE LAWRENCE BERKELEY LABORATORY,BERKELEY,CALIFORNIA 94720" "PHYS.REV.B,43(1991)408" "BI,SR,CA,CU,O" 4094 PR04110978 HEAT FLOW FOR AB DIRECTION Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8-Z Bi 2 Sr 2 Ca 1 Cu 2 O 8-Z 3 1990 Bi2212 K 81 89 85 6.8 THC4094 0.37 0 SEE PRL0620336 THERMAL CONDUCTIVITY OF SINGLE-CRYSTAL BI-SR-CA-CU-O 1990 6 "DEPARTMENT OF PHYSICS, UNIVERSITY OF CALIFORNIA AT BERKELEY,BERKELEY, CALIFORNIA 94720 AND MATERIALS AND CHEMICAL SCIENCES DIVISION OF THE LAWRENCE BERKELEY LABORATORY, BERKELEY, CALIFORNIA 94720" "PHYS.REV.B,41(1990)10978" "BI,SR,CA,CU,O" 4095 PR04110978 HEAT FLOW FOR AB DIRECTION Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8-Z Bi 2 Sr 2 Ca 1 Cu 2 O 8-Z 3 1990 Bi2212 K 55 55 3.2 THC4095 4.5 0 SEE PRL0620336 THERMAL CONDUCTIVITY OF SINGLE-CRYSTAL BI-SR-CA-CU-O 1990 6 "DEPARTMENT OF PHYSICS, UNIVERSITY OF CALIFORNIA AT BERKELEY,BERKELEY, CALIFORNIA 94720 AND MATERIALS AND CHEMICAL SCIENCES DIVISION OF THE LAWRENCE BERKELEY LABORATORY, BERKELEY, CALIFORNIA 94720" "PHYS.REV.B,41(1990)10978" "BI,SR,CA,CU,O" 4096 PR0382843 "AS-GROWN, MEASURED AT 11K" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1988 3 Y123 K DEVIATION FROM LINEAR M VS H CURVE 120 690 CALCULATED FROM HC1 AND WHH THEORY 230 35 31 4.8 CALCULATED FROM HC1 900 0 SEE PHYS.LETT. 121(1987)305 "ANISOTROPY OF THE LOWER CRITICAL FIELD, MAGNETIC PENETRATION DEPTH, AND EQUILIBRIUM SHIELDING CURRENT IN SINGLE-CRYSTAL YBA2CUO7-Z" 1988 8 "MATERIALS SCIENCES DIVISION, ARGONNE NATIONAL LABORATORY, ILLINOIS" "PHYS.REV.B,38(1988)2843" "Y,BA,CU,O" 4097 PR0382843 "AS-GROWN AND ANN(550C,72H IN O2)" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1988 3 Y123 K DEVIATION FROM LINEAR M VS H CURVE 80 375 CALCULATED FROM HC1 AND WHH THEORY 0 SEE PHYS.LETT. 121(1987)305 "ANISOTROPY OF THE LOWER CRITICAL FIELD, MAGNETIC PENETRATION DEPTH, AND EQUILIBRIUM SHIELDING CURRENT IN SINGLE-CRYSTAL YBA2CUO7-Z" 1988 8 "MATERIALS SCIENCES DIVISION, ARGONNE NATIONAL LABORATORY, ILLINOIS" "PHYS.REV.B,38(1988)2843" "Y,BA,CU,O" 4098 PR0382843 "AS-GROWN-IRRADIATED BY FAST NEUTRON,FLUENCE OF 8.16E+17 N/CM2" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1988 3 Y123 K DEVIATION FROM LINEAR M VS H CURVE 90 325 CALCULATED FROM HC1 AND WHH THEORY 0 SEE PHYS.LETT. 121(1987)305 "ANISOTROPY OF THE LOWER CRITICAL FIELD, MAGNETIC PENETRATION DEPTH, AND EQUILIBRIUM SHIELDING CURRENT IN SINGLE-CRYSTAL YBA2CUO7-Z" 1988 8 "MATERIALS SCIENCES DIVISION, ARGONNE NATIONAL LABORATORY, ILLINOIS" "PHYS.REV.B,38(1988)2843" "Y,BA,CU,O" 4099 PR0382900 NATURAL ABANDANCE OF O(18) YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1988 3 3.816 3.884 11.679 K 90.85 90.85 94 0 SYNTHSIS AND SUPERCONDUCTING CRITICAL TEMPERATURE OF YBA2CU3 18O7-Z 1988 8 "LOS ALAMOS NATIONAL LABORATORY, NEW MEXICO" "PHYS.REN.B,38(1988)2900" "Y,BA,CU,O" 4100 PR0382900 "44% O(18),NO INDICATION OF ISOTOPE EFFECT" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1988 3 3.815 3.887 11.667 K 91.15 91.15 95 0 SYNTHSIS AND SUPERCONDUCTING CRITICAL TEMPERATURE OF YBA2CU3 18O7-Z 1988 8 "LOS ALAMOS NATIONAL LABORATORY, NEW MEXICO" "PHYS.REN.B,38(1988)2900" "Y,BA,CU,O" 4101 PR0382900 "90% O(18),NO INDICATION OF ISOTOPE EFFECT" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1988 3 3.818 3.884 11.664 K 90.6 90.6 82 0 SYNTHSIS AND SUPERCONDUCTING CRITICAL TEMPERATURE OF YBA2CU3 18O7-Z 1988 8 "LOS ALAMOS NATIONAL LABORATORY, NEW MEXICO" "PHYS.REN.B,38(1988)2900" "Y,BA,CU,O" 4102 EN0406902 TWO STEP TRANSITION Bi2Sr2Ca2Cu3O10 Bi1Sr1Ca1Cu1O1 Bi 1 Sr 1 Ca 1 Cu 1 O 1 1 1989 Bi2223 K 76 105 111 105 40.5 10 1 0 "FIRED(800C,5H)-(880C,12-20H IN AIR),BI:SR:CA:CU=1:1:1:2" ENERGY GAPS IN BI-SR-CA-CU-O AND BI-SR-CU-O SYSTEMS BY ELECTRON TUNNELING 1989 10 "ELECTRON TUNNELING ,POINT-CONTACT ,ENERGY GAPS ,ANISOTROPIES" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,6-16-1 CHITOSEDAI,SETAGAYA,TOKYO 157 JAPAN" "PHYS.REV.B,40(1989)6902" "BI,SR,CA,CU,O" 4103 EN0406902 TUNNEL//CUO2 PLANE Bi2Sr2CaCu2O8 Bi1Sr1Ca1Cu1O1 Bi 1 Sr 1 Ca 1 Cu 1 O 1 2 1989 Bi2212 K 76 84 88 84 36.5 9.6 1 0 "BI:SR:CA:CU=1:2:2:4,FROM 900C TO 800C COOL AT RATE 2C/H IN AIR" ENERGY GAPS IN BI-SR-CA-CU-O AND BI-SR-CU-O SYSTEMS BY ELECTRON TUNNELING 1989 10 "ELECTRON TUNNELING ,POINT-CONTACT ,ENERGY GAPS ,ANISOTROPIES" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,6-16-1 CHITOSEDAI,SETAGAYA,TOKYO 157 JAPAN" "PHYS.REV.B,40(1989)6902" "BI,SR,CA,CU,O" 4104 PR0428890 THE TIP IS PERPENDICULAR TO THE AB PLANE Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1990 Bi2212 K 37.9 8.5 1 0 Energy gaps measured by scanning tunneling microscopy 1990 11 "Department of Physics, University of Virginia, Charlottesville, Virginia 22901" "Phys.rev.B,42(1990)8890" 4105 PO0392261 POINT CONTACT NB/SAMPLE YBa2Cu3O7 Y1Ba2Cu3O6.93 Y 1 Ba 2 Cu 3 O 7-Z 6.93 1 1989 3 Y123 3.821 3.885 11.675 K 90.5 4.5 90.5 21.3 5.46 1 "BA(NO3)2,Y2O3,CU2O" 1 "PELLET-SIN(950C,10H IN O2)-ANN(850C,2H)-SLOW COOL IN O2" POINT-CONTACT TUNNELING IN MONOPHASIC AND POLYPHASIC Y-BA-CU-O SAMPLES:EXPERIMENT AND MODEL 1989 2 "TUNNELING ,POINT-CONTACT" "DIPARTIMENTO DI FISICA,POLITECNICO DI TORINO,ITALY" "PHYS.REV.B,39(1989)2261" "Y,BA,CU,O" 4106 PO0392261 11VOL % Y2BACUO7 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 2 1989 3 Y123 K 90.9 8.8 90.9 22 5.62 1 "BA(NO3)2,Y2O3,CU2O" 1 "PELLET-SIN(950C,10H IN O2)-ANN(850C,2H)-SLOW COOL IN O2" POINT-CONTACT TUNNELING IN MONOPHASIC AND POLYPHASIC Y-BA-CU-O SAMPLES:EXPERIMENT AND MODEL 1989 2 "TUNNELING ,POINT-CONTACT" "DIPARTIMENTO DI FISICA,POLITECNICO DI TORINO,ITALY" "PHYS.REV.B,39(1989)2261" "Y,BA,CU,O" 4107 PR0409286 "POINT CONTACT,ELECTRODE=AL,TIP AREA=0.001MM2,GAP AT 4.2-15K" "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1OX Nd 1.85 Ce 0.15 Cu 1 O X 2 1989 T' K 20 22.5 20 4.75 5.5 1 1 "SIN(1050C,10H IN O2)-ANN(800C,8H+400C,4H IN O2)" TUNNELING MEASUREMENTS OF ND1.85CE0.15CUOX 1989 11 "TUNNELING ,POINT-CONTACT ,ENERGY GAP" "MICROELECTRONICS RESEATCH LABORATORIES,NEC CORPORATION,34 MIYUKIGOKA,TSUKUBA,IBARAKI 305,JAPAN" "PHYS.REV.B,40(1989)9286" "ND,CE,CU,O" 4108 TU0394693 "2212 PHASE=90%,ETCHED W TIP, CONTACT RESISTANCE=100-200OHM" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1989 Bi2212 K 88 88 25 3.4 1 "BI2O3,SR2CO3,CA(NO3)2,CUO" 1 "HEAT(860C,48H IN AIR)-HEAT(850C,24H IN AIR)" TUNNELING MEASUREMENTS ON BI(2)CASR(2)CU(2)O(8) 1989 3 "TUNNELING ,I-V CHARACTERI" "DEPARTMENT OF PHYSICS AND ASTRONOMY,UNIVERSITY OF IOWA CITY,IOWA" "PHYSICAL REVIEW B.,39(1989)4693" "BI,CA,SR,CU,O" 4109 EL0390801 "GAP AT 4.2K,ELECTRODE=PB,NB,GAP CLOSING AT 81-85K" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2OX Bi 2 Sr 2 Ca 1 Cu 2 O X 3 1989 Bi2212 K 90 1 90 25 7 1 0 MIXTURE OF OXIDE AND CARBONATE-MELT(950C IN AIR)-COOL(7C/) TO 800C ELECTRON TUNNELING AND THE ENERGY GAP IN BI(2)SR(2)CA(1)CU(2)O(X) 1989 1 "TUNNELING ,SINGLE CRYSTAL ,ENERGY G" "DEPARTMENT OF APPLIED PHYSICS,STANFORD UNIVERSITY,CALIFORNIA" "PHYS.REV.B,39(1989)801" "BI,SR,CA,CU,O" 4110 PR0417217 PB/SIO/BSCCO SANDWITCH Bi2Pb0.4Sr2Ca2.5Cu3.5OZ Bi 2 Pb 0.4 Sr 2 Ca 2.5 Cu 3.5 O Z 1990 K 105 105 49.6 5.5 1 1 "CAL(820C,20H IN AIR)-HEAT(840C,100H IN 0.1ATM O2+520C,50H IN 1ATM O2)" TUNNELING STUDY OF BI2PB0.4SR2CA2.5CU3.5OY WITH TC=105K 1990 4 "DEPARTMENT OF PHYSICS, FACULTY OF SCIENCE AND ENGINEERING, SAGA UNIVERSITY, SAGA 840, JAPAN" "PHYS.REV.B,41(1990)7217" "BI,PB,SR,CA,CU,O" 4111 TU0407364 "TWO STEP TRANSITION,T1=26.1,T2=21.5K,POINT CONTACT=PT ELECTRODE" "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-Z Nd 1.85 Ce 0.15 Cu 1 O 4-Z 1 1989 T' 3.95 12.1 K 15 26.1 20.55 4 5.2 1 1 "ANN(900C,20H IN N2)-Q TO RT" TUNNELING STUDY ON THE ELECTRON-DOPED SUPERCONDUCTOR ND1.85CE0.15CUO4-Y 1989 10 "TUNNELING ,ENERGY GAP" "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,6-16-1,CHITOSEDAI,SETAGAYA,TOKYO 157,JAPAN" "PHYS.REV.B,40(1989)7364" "ND,CE,CU,O" 4112 IN0367121 "ELECTRODE=1MM DIA NB, GAP ESTIMATED FROM DI/DV" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1987 Y123 K 92.4 0.8 92.4 19.5 4.8 1 1 "PELLET-SIN(950C, IN O2)" INVESTIGATION OF THE ENERGY GAP OF Y-BA-CU-O BY POINT-CONTACT JOSEPHSON-JUNCTION TECHNIQUES 1987 11 "POINT CONTACT ,ENERGY GAP ,I-V CHAR" "DIPARTIMENTO DI FISICA NUCLEARE,STRUTTURA DELLA MATERIA E FISICA APPLICATA,UNIVERSITA DI NAPOLI,NAPOLI,ITALY" "PHYS.REV.B,36(1987)7121" "Y,BA,CU,O" 4113 TU0358711 BREAK-JUNCTION METHOD "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1987 T K 36 36 3.5 2.26 1 1 TUNNELING SPECTROSCOPY OF A LA-SR-CU-O BREAK JUNCTION: EVIDENCE FOR STRONG-COUPLING SUPERCONDUCTIVITY 1987 TUNNELING "NBS BOULDER,COLORADO,USA" "PHYS.REV.B,35(1987)8711" 4114 PR04010954 ELECTRODE=1000A DIA W YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1989 3 Y123 K 92 92 16 4 1 1 "SURFACE WERE POLISHED WITH SAND PAPER AND CUTTED, THEN CLEANED" TUNNELING MEASUREMENT OF THE ENERGY GAPS IN THE SUPERCONDUCTORS Y-BA-CU-O AND TI-BA-CA-CU-O 1989 12 "POINT-CONTACT ,TUNNELING ,ENERGY GAPS" "PHYSICS DEPARTMENT,PEKING UNIVERSITY,BEIJING,CHINA" "PHYS.REV.B,40(1989)10954" "Y,BA,CU,O,TL,CA" 4115 PR04010954 ELECTRODE=1000A DIA W Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O10+Z Tl 2 Ba 2 Ca 2 Cu 3 O 10+Z 1989 Tl2223 K 116 116 23 4.6 1 1 "SURFACE WERE POLISHED WITH SAND PAPER AND CUTTED, THEN CLEANED" TUNNELING MEASUREMENT OF THE ENERGY GAPS IN THE SUPERCONDUCTORS Y-BA-CU-O AND TI-BA-CA-CU-O 1989 12 "POINT-CONTACT ,TUNNELING ,ENERGY GAPS" "PHYSICS DEPARTMENT,PEKING UNIVERSITY,BEIJING,CHINA" "PHYS.REV.B,40(1989)10954" "Y,BA,CU,O,TL,CA" 4116 TU0389295 "UNIT CELL=80 CUBIC CELL,USING LOW TEMP. STM,TIP=PT-RH WIRE" Bi4Ca3Sr3Cu4O16.32 Bi 4 Ca 3 Sr 3 Cu 4 O 16+Z 16.32 1988 3 5.405 27.03 30.6 K 80 5 80 15 4.5 1 1 "MIXTURE-HEAT(810C,13H IN AIR)-COOL TO RT-ANN(840C,14H+860C,15H)-FC" TUNNELING MEASUREMENTS OF THE ENERGY GAP IN BI(4)CA(3)SR(3)CU(4)O(16+Z) 1988 11 "TUNNELING ,STM ,ENERGY G" "DEPARTMENT DE FISICA DE LA MATERIA CONDENSADA,UNIVERSIDAD AUTONOMA DE MADRID,SPAIN" "PHYS.REV.B,38(1988)9295" "BI,CA,SR,CU,O" 4117 PR0410842 BSCCO/AL2O3(60A)/AL JUNCTION Bi2Sr2CaCu2O8 Bi1Sr1Ca1Cu1O1 Bi 1 Sr 1 Ca 1 Cu 1 O 1 4 1990 Bi2212 K 85 85 18 5.5 16 QUASIPARTICLE TUNNELING IN BI-SR-CA-CU-O THIN FILMS 1990 1 "TUNNEL JUNCTIONS ,THIN ,GAP PARAMETER" "FRANCIS BITTER NATIONAL MAGNET LABORATORY, MASSACHUSETTS INSTITUTE OF TECHNOLOGY, CAMBIRDGE, MASSACHUSETTS 02139" "PHYS.REV.B,41(1990)842" "BI,SR,CA,CU,O" 4118 PR0410842 BSCCO/AL2O3(60A)/AL JUNCTION Bi2Sr2Ca2Cu3O10 Bi1Sr1Ca1Cu1O1 Bi 1 Sr 1 Ca 1 Cu 1 O 1 4 1990 Bi2223 K 78 110 110 25 5.5 16 QUASIPARTICLE TUNNELING IN BI-SR-CA-CU-O THIN FILMS 1990 1 "TUNNEL JUNCTIONS ,THIN ,GAP PARAMETER" "FRANCIS BITTER NATIONAL MAGNET LABORATORY, MASSACHUSETTS INSTITUTE OF TECHNOLOGY, CAMBIRDGE, MASSACHUSETTS 02139" "PHYS.REV.B,41(1990)842" "BI,SR,CA,CU,O" 4119 TU0379738 "POINT CONTACT(ELECTRODE=PT-RH ALLOY),GAP AT 4.2K" "(La,Sr)2CuO4" La1.92Sr0.08Cu1O4-Z La 1.92 Sr 0.08 Cu 1 O 4-Z 1 1988 T K 12 12 3 5.79 1 0 TUNNELING MEASUREMENTS OF THE DEPENDENCE OF THE ENERGY GAP ON CRITICAL TEMPERATURE IN LA(2-X)SR(X)CU(1)O(4-Y) 1988 6 "TUNNELING ,ENERGY GAP" "IBM THOMAS J.WATSON RESEARCH CENTER,NEW YORK" "PHYS.REV.B,37(1988)9738" "LA,SR,CU,O" 4120 TU0379738 "ELECTRODE=PT-RH ALLOY,GAP AT 4.2K" "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4-Z La 1.9 Sr 0.1 Cu 1 O 4-Z 1 1988 T K 18 18 4 5.15 1 0 TUNNELING MEASUREMENTS OF THE DEPENDENCE OF THE ENERGY GAP ON CRITICAL TEMPERATURE IN LA(2-X)SR(X)CU(1)O(4-Y) 1988 6 "TUNNELING ,ENERGY GAP" "IBM THOMAS J.WATSON RESEARCH CENTER,NEW YORK" "PHYS.REV.B,37(1988)9738" "LA,SR,CU,O" 4121 TU0379738 "ELECTRODE=PT-RH ALLOY,GAP AT 4.2K" "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4-Z La 1.85 Sr 0.15 Cu 1 O 4-Z 1 1988 T K 30 30 7 5.41 1 0 TUNNELING MEASUREMENTS OF THE DEPENDENCE OF THE ENERGY GAP ON CRITICAL TEMPERATURE IN LA(2-X)SR(X)CU(1)O(4-Y) 1988 6 "TUNNELING ,ENERGY GAP" "IBM THOMAS J.WATSON RESEARCH CENTER,NEW YORK" "PHYS.REV.B,37(1988)9738" "LA,SR,CU,O" 4122 PR0409366 "POINT CONTACT(AU TIP),GAP VALUES BETWEEN 17 AND 31 MEV" "(Bi,Pb)2Sr2CaCu2O8" Bi1.7Pb0.3Sr2Ca1Cu2OZ Bi 1.7 Pb 0.3 Sr 2 Ca 1 Cu 2 O Z 3 1989 Bi2212 K 96 96 17 1 0 ELECTRON TUNNELING STUDY OF THE NORMAL AND SUPERCONDUCTING STATES OF BI1.7PB0.3SR2CACU2OX 1989 11 "POINT-CONTACT ,TUNNELING ,CONDUCTANCE" "MATERIALS SCIENCE DIVISION AND SCIENCE AND TECHNOLOGY CENTER FOR SUPERCONDUCTIVITY,ARGONNE NATIONALLOBORATORY,ARGONNE,ILLINOIS 60439" "PHYS.REV.B,40(1989)9366" "BI,PB,SR,CA,CU,O" 4123 PR0428049 GAP AT 4.2K YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1990 Y123 K 90 90 12 3.2 0 ELECTRON-TUNNELING STUDIES ON THE SUPERCONDUCTING (LA1-XSRX)2CUO4 AND YBA2CU3OY SYSTEMS 1990 11 "TUNNELING ,GAPS" "FACULTY OF INTEGRATED ARTS AND SCIENCE, HIROSHIMA UNIVERSITY,HIROSHIMA 730, JAPAN" "PHYS.REV.B,42(1990)8049" "LA,SR,CU,O,Y,BA" 4124 PR0428049 GAP AT 6.3K YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1990 Y123 K 50 50 9.7 4.1 0 ELECTRON-TUNNELING STUDIES ON THE SUPERCONDUCTING (LA1-XSRX)2CUO4 AND YBA2CU3OY SYSTEMS 1990 11 "TUNNELING ,GAPS" "FACULTY OF INTEGRATED ARTS AND SCIENCE, HIROSHIMA UNIVERSITY,HIROSHIMA 730, JAPAN" "PHYS.REV.B,42(1990)8049" "LA,SR,CU,O,Y,BA" 4125 PR0428049 GAP AT 5.1K GdBa2Cu3O7 Gd1Ba2Cu3O7 Gd 1 Ba 2 Cu 3 O 7 1990 Y123 K 90 90 12.4 4.2 0 ELECTRON-TUNNELING STUDIES ON THE SUPERCONDUCTING (LA1-XSRX)2CUO4 AND YBA2CU3OY SYSTEMS 1990 11 "TUNNELING ,GAPS" "FACULTY OF INTEGRATED ARTS AND SCIENCE, HIROSHIMA UNIVERSITY,HIROSHIMA 730, JAPAN" "PHYS.REV.B,42(1990)8049" "LA,SR,CU,O,Y,BA" 4126 PR0428049 GAP AT 9.8K ErBa2Cu3O7 Er1Ba2Cu3O7 Er 1 Ba 2 Cu 3 O 7 1990 Y123 K 90 90 11.4 4.1 0 ELECTRON-TUNNELING STUDIES ON THE SUPERCONDUCTING (LA1-XSRX)2CUO4 AND YBA2CU3OY SYSTEMS 1990 11 "TUNNELING ,GAPS" "FACULTY OF INTEGRATED ARTS AND SCIENCE, HIROSHIMA UNIVERSITY,HIROSHIMA 730, JAPAN" "PHYS.REV.B,42(1990)8049" "LA,SR,CU,O,Y,BA" 4127 PR0428049 POINT CONTACT(ELECTRODE=AL OR PT) "(La,Sr)2CuO4" La1.95Sr0.05Cu1O4 La 1.95 Sr 0.05 Cu 1 O 4 1990 K 10 20 15 2.5 4.5 1 0 ELECTRON-TUNNELING STUDIES ON THE SUPERCONDUCTING (LA1-XSRX)2CUO4 AND YBA2CU3OY SYSTEMS 1990 11 "TUNNELING ,GAPS" "FACULTY OF INTEGRATED ARTS AND SCIENCE, HIROSHIMA UNIVERSITY,HIROSHIMA 730, JAPAN" "PHYS.REV.B,42(1990)8049" "LA,SR,CU,O,Y,BA" 4128 PR0428049 POINT CONTACT(ELECTRODE=AL OR PT) "(La,Sr)2CuO4" La1.91Sr0.09Cu1O4 La 1.91 Sr 0.09 Cu 1 O 4 1990 K 30 30 6 4.6 1 0 ELECTRON-TUNNELING STUDIES ON THE SUPERCONDUCTING (LA1-XSRX)2CUO4 AND YBA2CU3OY SYSTEMS 1990 11 "TUNNELING ,GAPS" "FACULTY OF INTEGRATED ARTS AND SCIENCE, HIROSHIMA UNIVERSITY,HIROSHIMA 730, JAPAN" "PHYS.REV.B,42(1990)8049" "LA,SR,CU,O,Y,BA" 4129 QU0404478 "GAP VALUE AT 4.6K, NORMAL TO CU-O PLANE" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 4 1989 Y123 K 87 3.7 87 9 3 1 17 SINGLE CRYSTAL FILMS WERE GROWN ON SRTIO3(100) AT 600C QUASIPARTICLE DENSITY OF STATES IN THE PERPENDICULAR DIRECTIONTO THE CU-O PLANES IN YBA2CU3O7-X SINGLE-CRYSTAL THIN FILMS 1989 9 "FILMS ,ENERGY GAP" "INSTITUTE FOR CHEMICAL RESEARCH,KYOTO UNIVERSITY,UJI 611,JAPAN" "PHYS.REV.B,40(1989)4478" TUNNELING SPECTRASINGLE-CRYSTAL 4130 SSC0701055 "GAP VALUES FOR AB-PLANE, FOR C-AXIS DIRECTION GAP=12MEV,GAPENE=3.3" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1989 Bi2212 K 85 85 23 6.2 1 0 ANN(IN O2) AFTER THE SYNTHESIS TUNNELING SPECTROSCOPY IN BI2SR2CACU2O8: IS THE ENERGY GAP ANISOTROPIC? 1989 "SOLID STATE COMMUN.,70(1989)1055" "BI,SR,CA,CU,O" 4131 SSC0620535 POINT CONTACT(ELECTRODE=AL) "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1987 T K 34 40 37 7 4.07 1 1 ELECTRON TUNNELING STUDY OF HIGH-Tc SUPERCONDUCTOR La-Sr-Cu-O SYSTEM 1987 "Department of Physics, Aoyama-gakuin University, 6-16-1 Chitosedai, Setagaya, Tokyo 157 Japan" "Solid State Commun.,62(1987)535-537" 4132 SSC0780809 POINT CONTACT YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1991 Y123 K 80 80 30 7.6 1 0 DISORDERED GRANULAR OR ORIENTED FILMS WITH C-AXIS NORMAL TO SUBSTRATE THE ENERGY GAP DEPRESSION IN YBA2CU3O7-X/METAL CONTACTS 1991 6 "INSTITUTE OF ELECTRICAL ENGINEERING,SLOVAK ACADEMY OF SCIENCES,84239 BRATISLAVA,CZECHO-SLOVAKIA" "SOLID STATE COMMUN.,78(1991)809" "Y,BA,CU,O" 4133 SSC0671179 "POINT CONTACT(MO,NB TIPS)" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 3 1988 Bi2212 K 84 84 23 6.4 1 5 Electron tunnelling Spectroscopy of Bi2Ca1Sr2Cu2Oy Superconductor 1988 "Institute of Physics, Chinese Academy of Sciences, Beijing, China" "Solid State Commun.,67(1988)1179-1182" 4134 SSC0770519 "CLEAVED SURFACE,BREAK JUNCTION(PB ELECTRODE),GAPENE ESTIMATED USING TC=80K(GAP OPENING)" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 3 1991 Bi2212 K 90 90 25 7.3 1 0 TUNNELING EVIDENCE OF STRONG COOPER-PAIR-BREAKING NEAR TC IN CUPRATE SUPERCONDUCTORS 1991 "SOLID STATE COMMUN.,77(1991)519" 4135 JJP0271038 "BSCCO/ALPHA-SI(160A)/AG JUNCTION,GAP AT 8.2K" "Bi2(Sr,Ca)2CaCu2O8" Bi2Sr1.8Ca1.2Cu2OZ Bi 2 Sr 1.8 Ca 1.2 Cu 2 O Z 1988 Bi2212 K 80 80 30 8.7 1 1 "MIXTURE-CAL(850C,10H IN AIR)-PELLET-SIN(860C,5H IN AIR)" Tunneling Spectroscopy of the 80 K Superconducting Phase of the Bi-Sr-Ca-Cu-O System 1988 6 "Department of Applied Physics, The University of Tokyo 7-3-1 Hongo, Bunkyo-ku, Tokyo 113" Jpn.J.Appl.Phys.Lett.27(1988)L1038-L1040 4136 JJP0290614 YBCO/MGO/PB PLANAR JUNCTION YBa2Cu3O7 Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 4 1990 3 Y123 K 75 85 80 20 6.2 1 17 "COEVAPORATION ON MGO(100),SRTIO3(100) AT 600C" TUNNELING CHARACTERISTICS OF YBACUO/MGO/PB PLANAR TUNNEL JUNCTIONS AND PBSERVATION OF JOSEPHSON EFFECT 1990 4 "TUNNEL JUNCTION ,GAP STRUCTURE ,JOSEPHSON" "INSTITUTE OF MATERIALS SCIENCE, UNIVERSITY OF TSUKUBA, TSUKUBA, IBARAKI 305" "JJAP LETT.,29(1990)L614" "Y,BA,CU,O" 4137 APL0532689 PT(1000A)/ALOX(60A)/YBCO JUNCTION YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 4 1988 Y123 K 74 83 83 11.5 3.2 1 0 FILMS PREPARED BY REACTIVE EVAPORATION ON SRTIO3(100) Tunnel junctions using oxide superconducting thin films epitaxially grown on SrTiO3 1988 12 "Institute for Chemical reserch, Kyoto University Uji 611, Japan" Appl.Phys.Lett.53(1988)2689 4138 APL0560683 "YBCO(001)Y2O3(001)/YBCO(001) JUNCTION,GAP AT 4.5K" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 4 1990 Y123 K 86 86 9 3.5 1 0 EPITAXIAL GROWTH ON MGO(100) AT 650C Tunneling measurement on superconductor/insulator/superconductor junctions using single-crystal YBa2Cu3O7-x thin films 1990 2 "Reserch Institute for Production Development, Kyoto 606, Japan" Appl.Phys.Lett.56(1990)683 4139 APL0572356 "POINT CONTACT(AU OR NB ELECTRODE),USING TC=21.5K" "(Ba,K)BiO3" Ba0.625K0.375Bi1O3 Ba 0.625 K 0.375 Bi 1 O 3 1990 BKBO K 21.5 27.5 28.5 27.5 3.6 3.8 1 1 "MELT PROCESS,SURFACE WAS POLISHED BY DIAMOND PAPER," Ideal tunneling characteristics in Ba1-xKxBiO3 point-contact junctions with Au and Nd tips 1990 11 "Materials Science Division and Science and Technology Center for Superconductivity, Argonne National Laboratory, Argonne, Illinois 60439" Appl.phys.Lett.57(1990)2356 4140 APL0551463 "10-18% TL2BA2CA2CU3O10, BREAK JUNCTION" Tl2Ba2CaCu2O7 Tl2Ba2Ca1Cu2O7 Tl 2 Ba 2 Ca 1 Cu 2 O 7 2 1989 Tl2212 K 105 108 115 108 30 6.1 1 0 CRYSTAL GROWN FROM MELT OF TL2BA0.5CA1.5CU2OZ Break junction measurement of the tunneling gap of a thallium-based high temperature superconductor crystal 1989 10 "Electromagnetic technology Division, National Institute of Standards and Technology, Boulder, Clorado 80303" Appl.Phys.Lett.55(1989)1463 4141 PHB1651567 POINT CONTACT(W TIP) Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 3 1990 Bi2212 K 85 85 21.5 6.3 1 0 1990 "Physica B, 165(1990)1567" 4142 PHB1651567 BREAK JUNCTION Bi2Sr2Ca2Cu3O10 Bi2Sr2Ca2Cu3O10+Z Bi 2 Sr 2 Ca 2 Cu 3 O 10+Z 1 1990 Bi2223 K 107 107 32.5 7.3 1 0 1990 "Physica B, 165(1990)1567" 4143 PHB1651503 POINT CONTACT(W TIP) "(Y,Pr)Ba2Cu3O7" Y0.57Pr0.43Ba2Cu3O7 Y 0.57 Pr 0.43 Ba 2 Cu 3 O 7 1990 K 22 7 22 38 4 1 0 FILMS PREPARED USING TWO TARGET DC MAGNETRON SPUTTERING 1990 "Physica B, 165(1990)1503" 4144 PHB1651601 SIS tunneling ( high-Tc/SiO/Pb). Tunneling were measured after 4 days from fabrication. compositions and structure of films not given. target compositions are in DB. Bi2212-film Bi2Pb1Sr2Ca2Cu4OZ Bi 2 Pb 1 Sr 2 Ca 2 Cu 4 O Z 4 1990 K 65 65 10.5 3.8 1 16 "Films were deposited on SrTiO3(110) substrates using magnetron sputtering. Target: Bi2PbSr2Ca2Cu4Oz. Films were annealed (830C, 1h) with PbO." TUNING INVESTGATION OF HIFG TcBi-SYSTEM FILMS ON SrTiO3(110) 1990 "Instute of Experimental Physics, University of Lausanne, CH-1015 Lausanne, Swizerland" "Physica B, 165(1990)1601" 4145 PHB1651601 SIS tunneling ( high-Tc/SiO/Pb). As-grown film. compositions and structure of films not given. target compositions are in DB. Bi2212-film Bi2Pb1Sr2Ca2Cu4OZ Bi 2 Pb 1 Sr 2 Ca 2 Cu 4 O Z 4 1990 K 65 65 23.5 8.4 1 16 "Films were deposited on SrTiO3(110) substrates using magnetron sputtering. Target: Bi2PbSr2Ca2Cu4Oz. Films were annealed (830C, 1h) with PbO." TUNING INVESTGATION OF HIFG TcBi-SYSTEM FILMS ON SrTiO3(110) 1990 "Instute of Experimental Physics, University of Lausanne, CH-1015 Lausanne, Swizerland" "Physica B, 165(1990)1601" 4146 PHB1690705 "BKBO/OXIDE/SN JUNCTION,GAP AT 4K,GAPENE USING TC=18K(GAP DISAPPEAR)" "(Ba,K)BiO3" Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 1 1990 BKBO K 21 30 25.5 2.9 3.75 1 0 1990 "Physica B, 169(1990)705" 4147 JPS0582135 POINT CONTACT(ELECTRODE=AL) "Ba(Pb,Bi)O3" Ba1Pb0.78Bi0.22O3 Ba 1 Pb 0.78 Bi 0.22 O 3 3 1989 BPBO K 10.3 10.3 1.71 3.85 1 5 USING PBO2+BI2O3 AS A SOLVENT SUPERCONDUCTING ENERGY GAP IN BAPB1-XBIXO3 DETAERMINED FROM POINT-CONTACT TUNNELING 1989 6 "DEPARTMENT OF PHYSICS, AOYAMA-GAKUEN UNIVERSITY, SETAGAYA, TOKYO" "J.PHYS.SOC.JAPAN,58(1989)2135" "BA,PB,BI,O" 4148 JPS0582135 POINT CONTACT(ELECTRODE=AL) "Ba(Pb,Bi)O3" Ba1Pb0.83Bi0.17O3 Ba 1 Pb 0.83 Bi 0.17 O 3 3 1989 BPBO K 7.6 7.6 0.71 2.17 1 5 USING PBO2+BI2O3 AS A SOLVENT SUPERCONDUCTING ENERGY GAP IN BAPB1-XBIXO3 DETAERMINED FROM POINT-CONTACT TUNNELING 1989 6 "DEPARTMENT OF PHYSICS, AOYAMA-GAKUEN UNIVERSITY, SETAGAYA, TOKYO" "J.PHYS.SOC.JAPAN,58(1989)2135" "BA,PB,BI,O" 4149 JPS0580383 "POINT CONTACT(ELECTRODE=GAAS), USING TC=76.2K" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1989 Bi2212 K 76.2 87.2 81.7 22 6.7 0 FINE STRUCTURE IN THE TUNNELING CONDUCTANCE OF A BI2SR2CACU2O8-GAAS JUNCTION 1989 2 "DEPARTMENT OF APPLIED PHYSICS, SCIENCE UNIVERSITY OF TOKYO" "J.PHYS.SOC.JAPAN,58(1989)383" "BI,SR,CA,SU,O" 4150 JPS0592473 "BSCCO/GAAS:ZN JUNCTION, GAPENE USING TC=85K" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1990 Bi2212 K 84 89 84 28 7.1 0 TUNNELING CONDUCTANCE OF A BI2SR2CACU2O8-GAAS JUNCTION:TEMPERATURE DEPENDENCE OF THE GAP 1990 7 "J.PHYS.SOC.JAPAN,59(1990)2473" "BI,SR,CA,CU,O" 4151 JPC0201009 "CERAMIC DISC WITH GRAIN SIZE=5-20MICRON, POINT CONTACT" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 1987 3 Y123 K 89 91.7 91.7 20 5 1 1 Electron tunneling spectroscopy of YBaCu3O7-x ceramics 1987 "Cavendish Laboratory, Madingley Road, Cambridge CB3 OAE, UK" "J.Phys.C,20(1987)L1009-L1015" 4152 PRL0672195 STM Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 3 1991 Bi2212 K 85 2 85 30 8.2 1 0 CLEAVED SURFACE Features of the Density of States of High-Tc Superconductors Probed by Vacuum Tunneling 1991 10 "Center for the Science and Application of Superconductivity and School of Physics and Astronomy, University of Minnesota, Minneapolis, Minnesota 55455" Phys.Rev.Lett.67(1991)2195 4153 PR0418904 POINT CONTACT YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1990 3 Y123 K 80 85 95 85 27 1 16 TUNNELING SPECTROSCOPY STUDY OF YBA2CU3O7 THIN FILMS USING A CRYOGENIC SCANNING TUNNELING MICROSCOPE 1990 5 "DEPARTMENT OF PHYSICS, THE UNIVERSITY OF MICHIGAN, ANN ARBOR,MICHIGAN 48109" "PHYS.REV.B,41(1990)8904" "Y,BA,CU,O" 4154 PHC2040194 "Ba(Pb,Sb)O3" Ba1Pb0.9Sb0.1O3-Z Ba 1 Pb 0.9 Sb 0.1 O 3-Z 1992 3 ABO3 6.022 6.061 8.506 K 2 0.0318 -1.56E-08 "BACO3,PB(NO3)2,SB2O3" 1 "MIXTURE-CAL(1073K,12H IN AIR)-PELLET-PRESS(300MPA)-SIN(1123K,6H IN O2)-COOL TO RT(300K/H)" "ELECTRICAL PROPERTIES OF THE A(PB1-XBX)O3-Z (A=BA,SR,B=SB,BI)SYSTEM" 1992 12 "PHYSICA C,204(1992)194" "BA,SR,SB,BI,PB,O" 4155 PHC2040194 "Ba(Pb,Sb)O3" Ba1Pb0.8Sb0.2O3-Z Ba 1 Pb 0.8 Sb 0.2 O 3-Z 1992 3 ABO3 K 2 0.0424 -1.22E-08 "BACO3,PB(NO3)2,SB2O3" 1 "MIXTURE-CAL(1073K,12H IN AIR)-PELLET-PRESS(300MPA)-SIN(1123K,6H IN O2)-COOL TO RT(300K/H)" "ELECTRICAL PROPERTIES OF THE A(PB1-XBX)O3-Z (A=BA,SR,B=SB,BI)SYSTEM" 1992 12 "PHYSICA C,204(1992)194" "BA,SR,SB,BI,PB,O" 4156 PHC2040194 "Ba(Pb,Sb)O3" Ba1Pb0.75Sb0.25O3-Z Ba 1 Pb 0.75 Sb 0.25 O 3-Z 1992 3 ABO3 K 2.3 2.3 0.0531 -1.04E-08 "BACO3,PB(NO3)2,SB2O3" 1 "MIXTURE-CAL(1073K,12H IN AIR)-PELLET-PRESS(300MPA)-SIN(1123K,6H IN O2)-COOL TO RT(300K/H)" "ELECTRICAL PROPERTIES OF THE A(PB1-XBX)O3-Z (A=BA,SR,B=SB,BI)SYSTEM" 1992 12 "PHYSICA C,204(1992)194" "BA,SR,SB,BI,PB,O" 4157 PHC2040194 "Ba(Pb,Sb)O3" Ba1Pb0.7Sb0.3O3-Z Ba 1 Pb 0.7 Sb 0.3 O 3-Z 1992 3 ABO3 K 2 0.0763 -0.00000001 "BACO3,PB(NO3)2,SB2O3" 1 "MIXTURE-CAL(1073K,12H IN AIR)-PELLET-PRESS(300MPA)-SIN(1123K,6H IN O2)-COOL TO RT(300K/H)" "ELECTRICAL PROPERTIES OF THE A(PB1-XBX)O3-Z (A=BA,SR,B=SB,BI)SYSTEM" 1992 12 "PHYSICA C,204(1992)194" "BA,SR,SB,BI,PB,O" 4158 PHC2040194 "Sr(Pb,Sb)O3" Sr1Pb1SbO3-Z Sr 1 Pb 1 Sb O 3-Z 1992 3 ABO3 5.859 5.957 8.325 K 2 4.23 -0.00000213 "SRCO3,SR(NO3)2,PBO,PB(NO3)2,SB2O3" 1 "MIXTURE-CAL(1023K,12H IN AIR)-PELLET-PRESS(300MPA)-SIN(1123K,12H IN O2)-COOL TO RT(300K/H)" "ELECTRICAL PROPERTIES OF THE A(PB1-XBX)O3-Z (A=BA,SR,B=SB,BI)SYSTEM" 1992 12 "PHYSICA C,204(1992)194" "BA,SR,SB,BI,PB,O" 4159 PHC2040194 "Sr(Pb,Sb)O3" Sr1Pb0.95Sb0.05O3-Z Sr 1 Pb 0.95 Sb 0.05 O 3-Z 1992 3 ABO3 5.859 5.953 8.325 K 2 0.0659 -0.000000698 "SRCO3,SR(NO3)2,PBO,PB(NO3)2,SB2O3" 1 "MIXTURE-CAL(1023K,12H IN AIR)-PELLET-PRESS(300MPA)-SIN(1123K,12H IN O2)-COOL TO RT(300K/H)" "ELECTRICAL PROPERTIES OF THE A(PB1-XBX)O3-Z (A=BA,SR,B=SB,BI)SYSTEM" 1992 12 "PHYSICA C,204(1992)194" "BA,SR,SB,BI,PB,O" 4160 PHC2040194 "Sr(Pb,Sb)O3" Sr1Pb0.9Sb0.1O3-Z Sr 1 Pb 0.9 Sb 0.1 O 3-Z 1992 3 ABO3 5.861 5.951 8.325 K 2 0.0511 -0.000000205 "SRCO3,SR(NO3)2,PBO,PB(NO3)2,SB2O3" 1 "MIXTURE-CAL(1023K,12H IN AIR)-PELLET-PRESS(300MPA)-SIN(1123K,12H IN O2)-COOL TO RT(300K/H)" "ELECTRICAL PROPERTIES OF THE A(PB1-XBX)O3-Z (A=BA,SR,B=SB,BI)SYSTEM" 1992 12 "PHYSICA C,204(1992)194" "BA,SR,SB,BI,PB,O" 4161 PHC2040194 "Sr(Pb,Sb)O3" Sr1Pb0.85Sb0.15O3-Z Sr 1 Pb 0.85 Sb 0.15 O 3-Z 1992 3 ABO3 5.862 5.954 8.326 K 2 0.108 -0.00000026 "SRCO3,SR(NO3)2,PBO,PB(NO3)2,SB2O3" 1 "MIXTURE-CAL(1023K,12H IN AIR)-PELLET-PRESS(300MPA)-SIN(1123K,12H IN O2)-COOL TO RT(300K/H)" "ELECTRICAL PROPERTIES OF THE A(PB1-XBX)O3-Z (A=BA,SR,B=SB,BI)SYSTEM" 1992 12 "PHYSICA C,204(1992)194" "BA,SR,SB,BI,PB,O" 4162 PHC2040194 "Sr(Pb,Sb)O3" Sr1Pb0.8Sb0.2O3-Z Sr 1 Pb 0.8 Sb 0.2 O 3-Z 1992 3 ABO3 5.861 5.954 8.327 K 2 0.42 -0.000000456 "SRCO3,SR(NO3)2,PBO,PB(NO3)2,SB2O3" 1 "MIXTURE-CAL(1023K,12H IN AIR)-PELLET-PRESS(300MPA)-SIN(1123K,12H IN O2)-COOL TO RT(300K/H)" "ELECTRICAL PROPERTIES OF THE A(PB1-XBX)O3-Z (A=BA,SR,B=SB,BI)SYSTEM" 1992 12 "PHYSICA C,204(1992)194" "BA,SR,SB,BI,PB,O" 4163 PHC2040384 DyBa2Cu3O7 Dy1Ba2Cu3O6.94 Dy 1 Ba 2 Cu 3 O 7-Z 6.94 1993 6.07 3 3.826 3.896 11.688 K 87.3 88.7 2.6 88.7 0.88 0 A POWDER X-RAY DIFFRACTION AND ELECTRICAL STUDY OF DY(BA2-XSRX)CU3O7-Z SUPERCONDUCTING CUPRATES 1993 1 "PHYSICA C,204(1993)384" "DY,BA,SR,CU,O" 4164 PHC2040384 "Dy(Ba,Sr)2Cu3O7" Dy1Ba1.8Sr0.2Cu3O6.89 Dy 1 Ba 1.8 Sr 0.2 Cu 3 O 7-Z 6.89 1993 6.06 3 3.822 3.888 11.661 K 83 84.2 2 84.2 1.78 0 A POWDER X-RAY DIFFRACTION AND ELECTRICAL STUDY OF DY(BA2-XSRX)CU3O7-Z SUPERCONDUCTING CUPRATES 1993 1 "PHYSICA C,204(1993)384" "DY,BA,SR,CU,O" 4165 PHC2040384 "Dy(Ba,Sr)2Cu3O7" Dy1Ba1.6Sr0.4Cu3O6.89 Dy 1 Ba 1.6 Sr 0.4 Cu 3 O 7-Z 6.89 1993 5.91 3 3.818 3.882 11.647 K 79.1 80.6 2.8 80.6 1.25 0 A POWDER X-RAY DIFFRACTION AND ELECTRICAL STUDY OF DY(BA2-XSRX)CU3O7-Z SUPERCONDUCTING CUPRATES 1993 1 "PHYSICA C,204(1993)384" "DY,BA,SR,CU,O" 4166 PHC2040384 "Dy(Ba,Sr)2Cu3O7" Dy1Ba1.4Sr0.6Cu3O6.91 Dy 1 Ba 1.4 Sr 0.6 Cu 3 O 7-Z 6.91 1993 5.91 3 3.81 3.874 11.624 K 84.5 85.2 1 85.2 0.71 0 A POWDER X-RAY DIFFRACTION AND ELECTRICAL STUDY OF DY(BA2-XSRX)CU3O7-Z SUPERCONDUCTING CUPRATES 1993 1 "PHYSICA C,204(1993)384" "DY,BA,SR,CU,O" 4167 PHC2040384 "Dy(Ba,Sr)2Cu3O7" Dy1Ba1.2Sr0.8Cu3O6.9 Dy 1 Ba 1.2 Sr 0.8 Cu 3 O 7-Z 6.9 1993 5.86 3 3.799 3.863 11.588 K 84.4 84.7 0.8 84.7 0.59 0 4164+SIN(970+980C) A POWDER X-RAY DIFFRACTION AND ELECTRICAL STUDY OF DY(BA2-XSRX)CU3O7-Z SUPERCONDUCTING CUPRATES 1993 1 "PHYSICA C,204(1993)384" "DY,BA,SR,CU,O" 4168 PHC2040384 "Dy(Ba,Sr)2Cu3O7" Dy1Ba1Sr1Cu3O6.89 Dy 1 Ba 1 Sr 1 Cu 3 O 7-Z 6.89 1993 5.51 3 3.83 3.849 11.559 K 78.5 79.5 79.5 0.76 0 4164+SIN(960+980C) A POWDER X-RAY DIFFRACTION AND ELECTRICAL STUDY OF DY(BA2-XSRX)CU3O7-Z SUPERCONDUCTING CUPRATES 1993 1 "PHYSICA C,204(1993)384" "DY,BA,SR,CU,O" 4169 PHC2050118 "SRCUO2,SRY2O5,(SR,Y)14CU24O41 CONTAINED,NOT S/C" "YSr2(Cu,B)3O7" Y1Sr2Cu2.9B0.1O7 Y 1 Sr 2 Cu 2.9 B 0.1 O 7 1993 1212 11.15 K "CUO,SRCO3,Y2O3,H3BO3" 1 "PELLET-HEAT(900C,20H IN AIR)-PELLET-CAL(1000C,24H IN AIR)-ANN(550C)" "(B,CU)SR2YCU2O7,A NEW LAYERED COPPER-OXIDE BASED ON THE BORON-OXYGEN GROUP" 1993 1 "PHYSICA C,205(1993)118" "B,CU,SR,Y,O" 4170 PHC2050118 NOT S/C "YSr2(Cu,B)3O7" Y1Sr2Cu2.7B0.3O7 Y 1 Sr 2 Cu 2.7 B 0.3 O 7 1 1993 1212 11.029 K "CUO,SRCO3,Y2O3,H3BO3" 1 "PELLET-HEAT(900C,20H IN AIR)-PELLET-CAL(1000C,24H IN AIR)-ANN(550C)" "(B,CU)SR2YCU2O7,A NEW LAYERED COPPER-OXIDE BASED ON THE BORON-OXYGEN GROUP" 1993 1 "PHYSICA C,205(1993)118" "B,CU,SR,Y,O" 4171 PHC2050118 NOT S/C "YSr2(Cu,B)3O7" Y1Sr2Cu2.5B0.5O7 Y 1 Sr 2 Cu 2.5 B 0.5 O 7 1 1993 2 1212 P4/MMM 3.817 10.961 K "CUO,SRCO3,Y2O3,H3BO3" 1 "PELLET-HEAT(900C,20H IN AIR)-PELLET-CAL(1000C,24H IN AIR)-ANN(550C)" "(B,CU)SR2YCU2O7,A NEW LAYERED COPPER-OXIDE BASED ON THE BORON-OXYGEN GROUP" 1993 1 "PHYSICA C,205(1993)118" "B,CU,SR,Y,O" 4172 PHC2050118 SEMICOND. "YSr2(Cu,B)3O7" Y1Sr2Cu2.3B0.7O7 Y 1 Sr 2 Cu 2.3 B 0.7 O 7 1 1993 1212 10.93 K "CUO,SRCO3,Y2O3,H3BO3" 1 "PELLET-HEAT(900C,20H IN AIR)-PELLET-CAL(1000C,24H IN AIR)-ANN(550C)" "(B,CU)SR2YCU2O7,A NEW LAYERED COPPER-OXIDE BASED ON THE BORON-OXYGEN GROUP" 1993 1 "PHYSICA C,205(1993)118" "B,CU,SR,Y,O" 4173 PHC2050118 SEMICOND. "YSr2(Cu,B)3O7" Y1Sr2Cu2.1B0.9O7 Y 1 Sr 2 Cu 2.1 B 0.9 O 7 1 1993 1212 10.942 K "CUO,SRCO3,Y2O3,H3BO3" 1 "PELLET-HEAT(900C,20H IN AIR)-PELLET-CAL(1000C,24H IN AIR)-ANN(550C)" "(B,CU)SR2YCU2O7,A NEW LAYERED COPPER-OXIDE BASED ON THE BORON-OXYGEN GROUP" 1993 1 "PHYSICA C,205(1993)118" "B,CU,SR,Y,O" 4174 PHC2050118 "Y(Sr,Ba)2(Cu,B)3O7" Y1Sr1.85Ba0.15Cu2.5B0.5O7 Y 1 Sr 1.85 Ba 0.15 Cu 2.5 B 0.5 O 7 1993 2 1212 3.834 11.079 K 0 "(B,CU)SR2YCU2O7,A NEW LAYERED COPPER-OXIDE BASED ON THE BORON-OXYGEN GROUP" 1993 1 "PHYSICA C,205(1993)118" "B,CU,SR,Y,O" 4175 PHC2050118 "Y(Sr,Ba)2(Cu,B)3O7" Y1Sr1.7Ba0.3Cu2.5B0.5O7 Y 1 Sr 1.7 Ba 0.3 Cu 2.5 B 0.5 O 7 1993 2 1212 3.838 11.186 K 0 "(B,CU)SR2YCU2O7,A NEW LAYERED COPPER-OXIDE BASED ON THE BORON-OXYGEN GROUP" 1993 1 "PHYSICA C,205(1993)118" "B,CU,SR,Y,O" 4176 PHC2050118 "Y(Sr,Ba)2(Cu,B)3O7" Y1Sr1.55Ba0.45Cu2.5B0.5O7 Y 1 Sr 1.55 Ba 0.45 Cu 2.5 B 0.5 O 7 1993 2 1212 3.848 11.212 K 16 16 0 "(B,CU)SR2YCU2O7,A NEW LAYERED COPPER-OXIDE BASED ON THE BORON-OXYGEN GROUP" 1993 1 "PHYSICA C,205(1993)118" "B,CU,SR,Y,O" 4177 PHC2050118 "Y(Sr,Ba)2(Cu,B)3O7" Y1Sr1.4Ba0.6Cu2.5B0.5O7 Y 1 Sr 1.4 Ba 0.6 Cu 2.5 B 0.5 O 7 1993 2 1212 3.86 11.247 K 24 24 0 "(B,CU)SR2YCU2O7,A NEW LAYERED COPPER-OXIDE BASED ON THE BORON-OXYGEN GROUP" 1993 1 "PHYSICA C,205(1993)118" "B,CU,SR,Y,O" 4178 PHC2050118 "Y(Sr,Ba)2(Cu,B)3O7" Y1Sr1.2Ba0.8Cu2.5B0.5O7 Y 1 Sr 1.2 Ba 0.8 Cu 2.5 B 0.5 O 7 1993 2 1212 0.865 11.269 K 35 35 0 "(B,CU)SR2YCU2O7,A NEW LAYERED COPPER-OXIDE BASED ON THE BORON-OXYGEN GROUP" 1993 1 "PHYSICA C,205(1993)118" "B,CU,SR,Y,O" 4179 PHC2050118 "Y(Sr,Ba)2(Cu,B)3O7" Y1Sr1Ba1Cu2.5B0.5O7 Y 1 Sr 1 Ba 1 Cu 2.5 B 0.5 O 7 1993 2 1212 3.87 11.3 K 44 44 0 "(B,CU)SR2YCU2O7,A NEW LAYERED COPPER-OXIDE BASED ON THE BORON-OXYGEN GROUP" 1993 1 "PHYSICA C,205(1993)118" "B,CU,SR,Y,O" 4180 PHC2050118 "Y(Sr,Ba)2(Cu,B)3O7" Y1Sr0.8Ba1.2Cu2.5B0.5O7 Y 1 Sr 0.8 Ba 1.2 Cu 2.5 B 0.5 O 7 1993 2 1212 3.877 11.33 K 51 51 0 "(B,CU)SR2YCU2O7,A NEW LAYERED COPPER-OXIDE BASED ON THE BORON-OXYGEN GROUP" 1993 1 "PHYSICA C,205(1993)118" "B,CU,SR,Y,O" 4181 PHC2050118 "Y(Sr,Ba)2(Cu,B)3O7" Y1Sr0.6Ba1.4Cu2.5B0.5O7 Y 1 Sr 0.6 Ba 1.4 Cu 2.5 B 0.5 O 7 1993 2 1212 3.879 11.369 K 47 47 0 "(B,CU)SR2YCU2O7,A NEW LAYERED COPPER-OXIDE BASED ON THE BORON-OXYGEN GROUP" 1993 1 "PHYSICA C,205(1993)118" "B,CU,SR,Y,O" 4182 PHC2050118 "Y(Sr,Ba)2(Cu,B)3O7" Y1Sr0.4Ba1.6Cu2.5B0.5O7 Y 1 Sr 0.4 Ba 1.6 Cu 2.5 B 0.5 O 7 1993 2 1212 3.879 11.399 K 35 35 0 "(B,CU)SR2YCU2O7,A NEW LAYERED COPPER-OXIDE BASED ON THE BORON-OXYGEN GROUP" 1993 1 "PHYSICA C,205(1993)118" "B,CU,SR,Y,O" 4183 PHC2040299 2223 DOMINANT(85% 2223) "(Bi,Pb)2Sr2Ca2Cu3O10" Bi1.7Pb0.3Sr2Ca2Cu3OZ Bi 1.7 Pb 0.3 Sr 2 Ca 2 Cu 3 O Z 1993 2 Bi2223 5.41 37.07 K 108 116 8 112 "BI2O3,PBO,SRCO3,CAO,SM2O3,CUO" 1 "MIXTURE-CAL(800C,24H)-SIN(800C,SEVERAL H)-PELLET-SIN(850C,200H)" EFFECT OF RARE-EARTH SM3+ SUBSTITUTION ON THE SUPERCONDUCTINGPROPERTIES OF THE BI1.7PB0.3SR2CA2-XSMXCU3OY SYSTEM 1993 1 "PHYSICA C,204(1993)299" "BI,PB,SR,CA,SM,CU,O" 4184 PHC2040299 41%2223 "(Bi,Pb)2Sr2(Ca,Sm)2Cu3O10" Bi1.7Pb0.3Sr2Ca1.99Sm0.01Cu3OZ Bi 1.7 Pb 0.3 Sr 2 Ca 1.99 Sm 0.01 Cu 3 O Z 1993 2 K 107 115 8 111 "BI2O3,PBO,SRCO3,CAO,SM2O3,CUO" 1 "MIXTURE-CAL(800C,24H)-SIN(800C,SEVERAL H)-PELLET-SIN(850C,200H)" EFFECT OF RARE-EARTH SM3+ SUBSTITUTION ON THE SUPERCONDUCTINGPROPERTIES OF THE BI1.7PB0.3SR2CA2-XSMXCU3OY SYSTEM 1993 1 "PHYSICA C,204(1993)299" "BI,PB,SR,CA,SM,CU,O" 4185 PHC2040299 38% 2223 "(Bi,Pb)2Sr2(Ca,Sm)2Cu3O10" Bi1.7Pb0.3Sr2Ca1.98Sm0.02Cu3OZ Bi 1.7 Pb 0.3 Sr 2 Ca 1.98 Sm 0.02 Cu 3 O Z 1993 2 K 105 115 10 110 "BI2O3,PBO,SRCO3,CAO,SM2O3,CUO" 1 "MIXTURE-CAL(800C,24H)-SIN(800C,SEVERAL H)-PELLET-SIN(850C,200H)" EFFECT OF RARE-EARTH SM3+ SUBSTITUTION ON THE SUPERCONDUCTINGPROPERTIES OF THE BI1.7PB0.3SR2CA2-XSMXCU3OY SYSTEM 1993 1 "PHYSICA C,204(1993)299" "BI,PB,SR,CA,SM,CU,O" 4186 PHC2040299 4% 2223 "(Bi,Pb)2Sr2(Ca,Sm)2Cu3O10" Bi1.7Pb0.3Sr2Ca1.95Sm0.05Cu3OZ Bi 1.7 Pb 0.3 Sr 2 Ca 1.95 Sm 0.05 Cu 3 O Z 1993 2 Bi2223 K 76 100 24 88 "BI2O3,PBO,SRCO3,CAO,SM2O3,CUO" 1 "MIXTURE-CAL(800C,24H)-SIN(800C,SEVERAL H)-PELLET-SIN(850C,200H)" EFFECT OF RARE-EARTH SM3+ SUBSTITUTION ON THE SUPERCONDUCTINGPROPERTIES OF THE BI1.7PB0.3SR2CA2-XSMXCU3OY SYSTEM 1993 1 "PHYSICA C,204(1993)299" "BI,PB,SR,CA,SM,CU,O" 4187 PHC2040299 "(Bi,Pb)2Sr2(Ca,Sm)2Cu3O10" Bi1.7Pb0.3Sr2Ca1.925Sm0.075Cu3OZ Bi 1.7 Pb 0.3 Sr 2 Ca 1.925 Sm 0.075 Cu 3 O Z 1993 2 Bi2223 K 86 86 "BI2O3,PBO,SRCO3,CAO,SM2O3,CUO" 1 "MIXTURE-CAL(800C,24H)-SIN(800C,SEVERAL H)-PELLET-SIN(850C,200H)" EFFECT OF RARE-EARTH SM3+ SUBSTITUTION ON THE SUPERCONDUCTINGPROPERTIES OF THE BI1.7PB0.3SR2CA2-XSMXCU3OY SYSTEM 1993 1 "PHYSICA C,204(1993)299" "BI,PB,SR,CA,SM,CU,O" 4188 PHC2040299 "(Bi,Pb)2Sr2(Ca,Sm)2Cu3O10" Bi1.7Pb0.3Sr2Ca1.9Sm0.1Cu3OZ Bi 1.7 Pb 0.3 Sr 2 Ca 1.9 Sm 0.1 Cu 3 O Z 1993 2 Bi2223 5.41 30.69 K 85 85 "BI2O3,PBO,SRCO3,CAO,SM2O3,CUO" 1 "MIXTURE-CAL(800C,24H)-SIN(800C,SEVERAL H)-PELLET-SIN(850C,200H)" EFFECT OF RARE-EARTH SM3+ SUBSTITUTION ON THE SUPERCONDUCTINGPROPERTIES OF THE BI1.7PB0.3SR2CA2-XSMXCU3OY SYSTEM 1993 1 "PHYSICA C,204(1993)299" "BI,PB,SR,CA,SM,CU,O" 4189 PHC2040212 "INSULATING,20 KOHM.CM AT 100K,KAIZERO IN EMU/CM3.OE" "(R,Ce)2Sr2Cu2NbO10" Pr1.5Ce0.5Sr2Cu2Nb1O10 Pr 1.5 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10 1992 emu/cm3.Oe 0.0000137 2.6 -3.01 6.39 RCSCNO 3.887 28.752 K 0 "SUPERCONDUCTING,MAGNETIC,ELECTRONIC TRANSPORT,AND STRUCTURAL PROPERTIES OF (R1.5CE0.5)SR2CU2NBO10,R=PR,ND,SM,EU" 1992 12 "PHYSICA C,204(1992)212" "R,CE,SR,CU,NB,O" 4190 PHC2040212 KAIZERO IN EMU/CM3.OE "(R,Ce)2Sr2Cu2NbO10" Sm1.5Ce0.5Sr2Cu2Nb1O10 Sm 1.5 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10 1992 emu/cm3.Oe 0.000012 0.42 -7.79 6.55 RCSCNO 3.871 28.791 K 23 5 23 57 0 "SUPERCONDUCTING,MAGNETIC,ELECTRONIC TRANSPORT,AND STRUCTURAL PROPERTIES OF (R1.5CE0.5)SR2CU2NBO10,R=PR,ND,SM,EU" 1992 12 "PHYSICA C,204(1992)212" "R,CE,SR,CU,NB,O" 4191 PHC2040212 "(R,Ce)2Sr2Cu2NbO10" Eu1.5Ce0.5Sr2Cu2Nb1O10 Eu 1.5 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10 1992 6.58 RCSCNO 3.869 28.774 K 23 5 23 56 0 "SUPERCONDUCTING,MAGNETIC,ELECTRONIC TRANSPORT,AND STRUCTURAL PROPERTIES OF (R1.5CE0.5)SR2CU2NBO10,R=PR,ND,SM,EU" 1992 12 "PHYSICA C,204(1992)212" "R,CE,SR,CU,NB,O" 4192 PHC2040212 "(Nd,Ce)2Sr2Cu2NbO10" Nd1.5Ce0.5Sr2Cu2Nb1O10 Nd 1.5 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10 1992 emu/cm3.Oe 0.0000164 2.97 -19.6 6.42 RCSCNO 3.882 28.843 K 20 25 10 20 63 "CEO2,ND2O3,SRCO3,CUO,ND2O5" 1 "PELLET IN ALUMINA-SIN(1120C,80H IN 5 PSI O2)-FC TO RT-REPEAT" "SUPERCONDUCTING,MAGNETIC,ELECTRONIC TRANSPORT,AND STRUCTURAL PROPERTIES OF (R1.5CE0.5)SR2CU2NBO10,R=PR,ND,SM,EU" 1992 12 "PHYSICA C,204(1992)212" "R,CE,SR,CU,NB,O" 4193 JPS0621017 "Bi2(Sr,Ca)3Cu2O8" Bi2Sr1Ca2Cu2O8.229 Bi 2 Sr 1 Ca 2 Cu 2 O Z 8.229 1993 2 Bi2212 5.396 30.487 K 76.4 76.4 "BI2O3,SRCO3,CACO3,CUO" 0 "MIXTURE-(760-780C,24H)-(790-830C,72H)-(820-870C,48H)" Normal-State Uniform Mgnetic Susceptibility and Superconductivity in Bi2SrzCa3-zCu2Oy 1993 3 "Institute of Applied Physics, University of Tsukuba, Tennoudai 1-1-1, Tsukuba, Ibaraki 305" J.Phys.Soc.Japan62(1993)1017-1024 4194 JPS0621017 "Bi2(Sr,Ca)3Cu2O8" Bi2Sr1.1Ca1.9Cu2O8.22 Bi 2 Sr 1.1 Ca 1.9 Cu 2 O Z 8.22 1993 2 5.396 30.547 K 76.5 76.5 "BI2O3,SRCO3,CACO3,CUO" 0 "MIXTURE-(760-780C,24H)-(790-830C,72H)-(820-870C,48H)" Normal-State Uniform Mgnetic Susceptibility and Superconductivity in Bi2SrzCa3-zCu2Oy 1993 3 "Institute of Applied Physics, University of Tsukuba, Tennoudai 1-1-1, Tsukuba, Ibaraki 305" J.Phys.Soc.Japan62(1993)1017-1024 4195 JPS0621017 "Bi2(Sr,Ca)3Cu2O8" Bi2Sr1.2Ca1.8Cu2O8.199 Bi 2 Sr 1.2 Ca 1.8 Cu 2 O Z 8.199 1993 2 5.399 30.579 K 76.5 76.5 "BI2O3,SRCO3,CACO3,CUO" 0 "MIXTURE-(760-780C,24H)-(790-830C,72H)-(820-870C,48H)" Normal-State Uniform Mgnetic Susceptibility and Superconductivity in Bi2SrzCa3-zCu2Oy 1993 3 "Institute of Applied Physics, University of Tsukuba, Tennoudai 1-1-1, Tsukuba, Ibaraki 305" J.Phys.Soc.Japan62(1993)1017-1024 4196 JPS0621017 "Bi2(Sr,Ca)3Cu2O8" Bi2Sr1.3Ca1.7Cu2O8.19 Bi 2 Sr 1.3 Ca 1.7 Cu 2 O Z 8.19 1993 2 5.399 30.608 K 76.5 76.5 "BI2O3,SRCO3,CACO3,CUO" 0 "MIXTURE-(760-780C,24H)-(790-830C,72H)-(820-870C,48H)" Normal-State Uniform Mgnetic Susceptibility and Superconductivity in Bi2SrzCa3-zCu2Oy 1993 3 "Institute of Applied Physics, University of Tsukuba, Tennoudai 1-1-1, Tsukuba, Ibaraki 305" J.Phys.Soc.Japan62(1993)1017-1024 4197 JPS0621017 "Bi2(Sr,Ca)3Cu2O8" Bi2Sr1.4Ca1.6Cu2O8.2 Bi 2 Sr 1.4 Ca 1.6 Cu 2 O Z 8.2 1993 2 5.399 30.649 K 81.1 81.1 "BI2O3,SRCO3,CACO3,CUO" 0 "MIXTURE-(760-780C,24H)-(790-830C,72H)-(820-870C,48H)" Normal-State Uniform Mgnetic Susceptibility and Superconductivity in Bi2SrzCa3-zCu2Oy 1993 3 "Institute of Applied Physics, University of Tsukuba, Tennoudai 1-1-1, Tsukuba, Ibaraki 305" J.Phys.Soc.Japan62(1993)1017-1024 4198 JPS0621017 "Bi2(Sr,Ca)3Cu2O8" Bi2Sr1.5Ca1.5Cu2O8.19 Bi 2 Sr 1.5 Ca 1.5 Cu 2 O Z 8.19 1993 2 5.403 30.699 K 78.5 78.5 "BI2O3,SRCO3,CACO3,CUO" 0 "MIXTURE-(760-780C,24H)-(790-830C,72H)-(820-870C,48H)" Normal-State Uniform Mgnetic Susceptibility and Superconductivity in Bi2SrzCa3-zCu2Oy 1993 3 "Institute of Applied Physics, University of Tsukuba, Tennoudai 1-1-1, Tsukuba, Ibaraki 305" J.Phys.Soc.Japan62(1993)1017-1024 4199 JPS0621017 "Bi2(Sr,Ca)3Cu2O8" Bi2Sr1.6Ca1.4Cu2O8.16 Bi 2 Sr 1.6 Ca 1.4 Cu 2 O Z 8.16 1993 5.399 30.862 K 77.6 77.6 "BI2O3,SRCO3,CACO3,CUO" 0 "MIXTURE-(760-780C,24H)-(790-830C,72H)-(820-870C,48H)" Normal-State Uniform Mgnetic Susceptibility and Superconductivity in Bi2SrzCa3-zCu2Oy 1993 3 "Institute of Applied Physics, University of Tsukuba, Tennoudai 1-1-1, Tsukuba, Ibaraki 305" J.Phys.Soc.Japan62(1993)1017-1024 4200 JPS0621017 "Bi2(Sr,Ca)3Cu2O8" Bi2Sr1.7Ca1.3Cu2O8.211 Bi 2 Sr 1.7 Ca 1.3 Cu 2 O Z 8.211 1993 5.409 30.832 K 78.7 78.7 "BI2O3,SRCO3,CACO3,CUO" 0 "MIXTURE-(760-780C,24H)-(790-830C,72H)-(820-870C,48H)" Normal-State Uniform Mgnetic Susceptibility and Superconductivity in Bi2SrzCa3-zCu2Oy 1993 3 "Institute of Applied Physics, University of Tsukuba, Tennoudai 1-1-1, Tsukuba, Ibaraki 305" J.Phys.Soc.Japan62(1993)1017-1024 4201 JPS0621017 "Bi2(Sr,Ca)3Cu2O8" Bi2Sr1.8Ca1.2Cu2O8.211 Bi 2 Sr 1.8 Ca 1.2 Cu 2 O Z 8.211 1993 5.402 30.81 K 73.7 73.7 "BI2O3,SRCO3,CACO3,CUO" 0 "MIXTURE-(760-780C,24H)-(790-830C,72H)-(820-870C,48H)" Normal-State Uniform Mgnetic Susceptibility and Superconductivity in Bi2SrzCa3-zCu2Oy 1993 3 "Institute of Applied Physics, University of Tsukuba, Tennoudai 1-1-1, Tsukuba, Ibaraki 305" J.Phys.Soc.Japan62(1993)1017-1024 4202 JPS0621017 "Bi2(Sr,Ca)3Cu2O8" Bi2Sr1.9Ca1.1Cu2O8.181 Bi 2 Sr 1.9 Ca 1.1 Cu 2 O Z 8.181 1993 5.402 30.8 K 71.8 71.8 "BI2O3,SRCO3,CACO3,CUO" 0 "MIXTURE-(760-780C,24H)-(790-830C,72H)-(820-870C,48H)" Normal-State Uniform Mgnetic Susceptibility and Superconductivity in Bi2SrzCa3-zCu2Oy 1993 3 "Institute of Applied Physics, University of Tsukuba, Tennoudai 1-1-1, Tsukuba, Ibaraki 305" J.Phys.Soc.Japan62(1993)1017-1024 4203 JPS0621017 "Bi2(Sr,Ca)3Cu2O8" Bi2Sr2Ca1Cu2O8.212 Bi 2 Sr 2 Ca 1 Cu 2 O Z 8.212 1993 5.407 30.72 K 73 73 "BI2O3,SRCO3,CACO3,CUO" 0 "MIXTURE-(760-780C,24H)-(790-830C,72H)-(820-870C,48H)" Normal-State Uniform Mgnetic Susceptibility and Superconductivity in Bi2SrzCa3-zCu2Oy 1993 3 "Institute of Applied Physics, University of Tsukuba, Tennoudai 1-1-1, Tsukuba, Ibaraki 305" J.Phys.Soc.Japan62(1993)1017-1024 4204 NAT3620226 HgBa2CuO4 Hg1Ba2Cu1O4+Z Hg 1 Ba 2 Cu 1 O 4+Z 1993 2 Hg1201 P4/MMM 3.88 9.509 K 35 94 64.5 "BA2CUO3,HGO" 1 "MIXTURE OF BA2CUO3+HGO-SEALED IN SILICA TUBE-HEAT(800C,5H)-FC TO RT AFTER 10H" SUPERCONDUCTIVITY AT 94K IN HGBA2CUO4+Z 1993 3 "NATURE,362(1993)226" "HG,BA,CU,O" 4205 NAT3630056 "PLATE-LIKE GRAIN,HG1223+HG1212,LATTICE CONST. IS FOR HG1223" HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8+Z Hg 1 Ba 2 Ca 2 Cu 3 O 8+Z 2 1993 2 Hg1223 3.93 16.1 K 95 132.5 133.5 132.5 1 "BA2CACU2O5+HGO-MIX-PELLET IN SEALED QUAETZ-(800C,5H)-ANN(300C,5H IN O2)" SUPERCONDUCTIVITY ABOVE 130 K IN THE HG-BA-CA-CU-O SYSTEM 1993 5 "NATURE,363(1993)56" "HG,BA,CA,CU,O" 4206 PHC2000043 OZ BY TGA "(Y,Ca)Ba2(Cu,Co)3O7" Y0.76Ca0.24Ba2Cu2.94Co0.06O6.81 Y 0.76 Ca 0.24 Ba 2 Cu 2.94 Co 0.06 O Z 6.81 1 1992 2 Y123 3.857 11.695 K 82 82 100 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4207 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.76Ca0.24Ba2Cu2.85Co0.15O6.8 Y 0.76 Ca 0.24 Ba 2 Cu 2.85 Co 0.15 O Z 6.8 2 1992 2 Y123 3.862 11.691 K 86 86 71 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4208 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.76Ca0.24Ba2Cu2.76Co0.24O6.84 Y 0.76 Ca 0.24 Ba 2 Cu 2.76 Co 0.24 O Z 6.84 2 1992 2 Y123 3.863 11.709 K 85 85 82 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4209 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.76Ca0.24Ba2Cu2.64Co0.36O6.96 Y 0.76 Ca 0.24 Ba 2 Cu 2.64 Co 0.36 O Z 6.96 2 1992 2 Y123 3.87 11.689 K 66 66 63 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4210 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.76Ca0.34Ba2Cu2.55Co0.45O6.95 Y 0.76 Ca 0.34 Ba 2 Cu 2.55 Co 0.45 O Z 6.95 2 1992 2 Y123 3.874 11.687 K 51 51 43 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4211 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y1Ba2Cu2.55Co0.45O7 Y 1 Ba 2 Cu 2.55 Co 0.45 O Z 7 2 1992 2 Y123 3.878 11.666 K "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4212 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.9Ca0.1Ba2Cu2.55Co0.45O7.02 Y 0.9 Ca 0.1 Ba 2 Cu 2.55 Co 0.45 O Z 7.02 2 1992 2 Y123 3.879 11.677 K 18 18 4 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4213 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.85Ca0.15Ba2Cu2.55Co0.45O7.08 Y 0.85 Ca 0.15 Ba 2 Cu 2.55 Co 0.45 O Z 7.08 2 1992 2 Y123 3.876 11.685 K 30 30 28 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4214 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.76Ca0.24Ba2Cu2.55Co0.45O6.93 Y 0.76 Ca 0.24 Ba 2 Cu 2.55 Co 0.45 O Z 6.93 2 1992 2 Y123 3.874 11.687 K 51 51 43 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4215 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.7Ca0.3Ba2Cu2.55Co0.45O6.84 Y 0.7 Ca 0.3 Ba 2 Cu 2.55 Co 0.45 O Z 6.84 2 1992 2 Y123 3.874 11.689 K 53 53 49 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4216 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y1Ba2Cu2.85Co0.15O6.92 Y 1 Ba 2 Cu 2.85 Co 0.15 O Z 6.92 2 1992 2 Y123 3.864 11.678 K 71 71 55 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4217 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.95Ca0.05Ba2Cu2.85Co0.15O6.82 Y 0.95 Ca 0.05 Ba 2 Cu 2.85 Co 0.15 O Z 6.82 2 1992 2 Y123 3.864 11.684 K 83 83 51 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4218 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.9Ca0.1Ba2Cu2.85Co0.15O6.91 Y 0.9 Ca 0.1 Ba 2 Cu 2.85 Co 0.15 O Z 6.91 2 1992 2 Y123 3.863 11.69 K 84 84 57 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4219 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.85Ca0.15Ba2Cu2.85Co0.15O6.83 Y 0.85 Ca 0.15 Ba 2 Cu 2.85 Co 0.15 O Z 6.83 2 1992 2 Y123 3.861 11.694 K 86 86 58 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4220 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.8Ca0.2Ba2Cu2.85Co0.15O6.84 Y 0.8 Ca 0.2 Ba 2 Cu 2.85 Co 0.15 O Z 6.84 2 1992 2 Y123 3.86 11.75 K 86 86 71 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4221 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.76Ca0.24Ba2Cu2.85Co0.15O6.8 Y 0.76 Ca 0.24 Ba 2 Cu 2.85 Co 0.15 O Z 6.8 2 1992 2 Y123 3.862 11.691 K 86 86 71 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4222 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.88Ca0.12Ba2Cu2.88Co0.12O6.78 Y 0.88 Ca 0.12 Ba 2 Cu 2.88 Co 0.12 O Z 6.78 2 1992 2 Y123 3.861 11.687 K 87 87 85 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4223 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.85Ca0.15Ba2Cu2.85Co0.15O6.83 Y 0.85 Ca 0.15 Ba 2 Cu 2.85 Co 0.15 O Z 6.83 2 1992 2 Y123 3.861 11.694 K 86 86 58 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4224 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.76Ca0.24Ba2Cu2.76Co0.24O6.84 Y 0.76 Ca 0.24 Ba 2 Cu 2.76 Co 0.24 O Z 6.84 2 1992 2 Y123 3.863 11.709 K 85 85 82 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4225 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.7Ca0.3Ba2Cu2.7Co0.3O6.93 Y 0.7 Ca 0.3 Ba 2 Cu 2.7 Co 0.3 O Z 6.93 2 1992 2 Y123 3.865 11.715 K 84 84 80 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4226 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.64Ca0.36Ba2Cu2.64Co0.36O6.87 Y 0.64 Ca 0.36 Ba 2 Cu 2.64 Co 0.36 O Z 6.87 2 1992 2 Y123 3.866 11.717 K 82 82 77 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4227 PHC2000043 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.58Ca0.42Ba2Cu2.52Co0.48OZ Y 0.58 Ca 0.42 Ba 2 Cu 2.52 Co 0.48 O Z 2 1992 2 Y123 3.868 11.716 K 79 79 65 "BACO3,Y2O3,CACO3,CUO,CO3O4" 0 "MIXTURE-CAL(950C,SEVERAL DAYS IN AIR)-PELLET-ANN(980C,24H+400C,12H IN O2)-FC TO RT" EFFECT OF Y-CA SUBSTITUTION UPON SUPERCONDUCTIVITY IN THE OXIDE YBA2CU3-XCOXO7-Z 1992 9 "PHYSICA C,200(1992)43" "CA,Y,BA,CU,CO,O" 4228 PHC2030411 Bi2Sr2CaCu2O8I Bi2Sr2Ca1Cu2I1O8 Bi 2 Sr 2 Ca 1 Cu 2 I 1 O 8 1 1992 2 5.393 18.95 K 58 55 58 50 80 "BI2O3,SRCO3,CACO3,Y2O3,CUO" 1 "MIXTURE-FIRE(800C,12H IN AIR)-PELLET-SIN(860-880C,24H)" TWO EFFECTS OF IODINE INTERCALATION ON TC IN BI2SR2CA1-XYXCU2O8 1992 12 "PHYSICA C,203(1992)411" "BI,SR,CA,CU,O,Y" 4229 PHC2030411 "Bi2Sr2(Ca,Y)Cu2O8I" Bi2Sr2Ca0.9Y0.1Cu2I1O8 Bi 2 Sr 2 Ca 0.9 Y 0.1 Cu 2 I 1 O 8 1 1992 2 5.403 18.975 K 67 72 67 240 300 "BI2O3,SRCO3,CACO3,Y2O3,CUO" 1 "MIXTURE-FIRE(800C,12H IN AIR)-PELLET-SIN(860-880C,24H)" TWO EFFECTS OF IODINE INTERCALATION ON TC IN BI2SR2CA1-XYXCU2O8 1992 12 "PHYSICA C,203(1992)411" "BI,SR,CA,CU,O,Y" 4230 PHC2030411 "Bi2Sr2(Ca,Y)Cu2O8I" Bi2Sr2Ca0.8Y0.2Cu2I1O8 Bi 2 Sr 2 Ca 0.8 Y 0.2 Cu 2 I 1 O 8 1 1992 2 5.411 19 K 75 76 75 270 300 "BI2O3,SRCO3,CACO3,Y2O3,CUO" 1 "MIXTURE-FIRE(800C,12H IN AIR)-PELLET-SIN(860-880C,24H)" TWO EFFECTS OF IODINE INTERCALATION ON TC IN BI2SR2CA1-XYXCU2O8 1992 12 "PHYSICA C,203(1992)411" "BI,SR,CA,CU,O,Y" 4231 PHC2030411 "Bi2Sr2(Ca,Y)Cu2O8I" Bi2Sr2Ca0.7Y0.3Cu2I1O8 Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 2 I 1 O 8 1 1992 2 5.421 19 K 79 79 79 200 220 "BI2O3,SRCO3,CACO3,Y2O3,CUO" 1 "MIXTURE-FIRE(800C,12H IN AIR)-PELLET-SIN(860-880C,24H)" TWO EFFECTS OF IODINE INTERCALATION ON TC IN BI2SR2CA1-XYXCU2O8 1992 12 "PHYSICA C,203(1992)411" "BI,SR,CA,CU,O,Y" 4232 PHC2030411 "Bi2Sr2(Ca,Y)Cu2O8I" Bi2Sr2Ca0.6Y0.4Cu2I1O8 Bi 2 Sr 2 Ca 0.6 Y 0.4 Cu 2 I 1 O 8 1 1992 2 5.425 19 K 66 65 66 250 22 "BI2O3,SRCO3,CACO3,Y2O3,CUO" 1 "MIXTURE-FIRE(800C,12H IN AIR)-PELLET-SIN(860-880C,24H)" TWO EFFECTS OF IODINE INTERCALATION ON TC IN BI2SR2CA1-XYXCU2O8 1992 12 "PHYSICA C,203(1992)411" "BI,SR,CA,CU,O,Y" 4233 PHC2030411 "Bi2Sr2(Ca,Y)Cu2O8I" Bi2Sr2Ca0.55Y0.45Cu2I1O8 Bi 2 Sr 2 Ca 0.55 Y 0.45 Cu 2 I 1 O 8 1 1992 2 5.426 19 K 55 55 55 530 470 "BI2O3,SRCO3,CACO3,Y2O3,CUO" 1 "MIXTURE-FIRE(800C,12H IN AIR)-PELLET-SIN(860-880C,24H)" TWO EFFECTS OF IODINE INTERCALATION ON TC IN BI2SR2CA1-XYXCU2O8 1992 12 "PHYSICA C,203(1992)411" "BI,SR,CA,CU,O,Y" 4234 PHC2030411 "Bi2Sr2(Ca,Y)Cu2O8I" Bi2Sr2Ca0.5Y0.5Cu2I1O8 Bi 2 Sr 2 Ca 0.5 Y 0.5 Cu 2 I 1 O 8 1 1992 2 5.433 19 K 31 43 31 500 300 "BI2O3,SRCO3,CACO3,Y2O3,CUO" 1 "MIXTURE-FIRE(800C,12H IN AIR)-PELLET-SIN(860-880C,24H)" TWO EFFECTS OF IODINE INTERCALATION ON TC IN BI2SR2CA1-XYXCU2O8 1992 12 "PHYSICA C,203(1992)411" "BI,SR,CA,CU,O,Y" 4235 PHC2030411 "Bi2Sr2(Ca,Y)Cu2O8I" Bi2Sr2Ca0.4Y0.6Cu2I1O8 Bi 2 Sr 2 Ca 0.4 Y 0.6 Cu 2 I 1 O 8 1 1992 2 5.439 19 K "BI2O3,SRCO3,CACO3,Y2O3,CUO" 1 "MIXTURE-FIRE(800C,12H IN AIR)-PELLET-SIN(860-880C,24H)" TWO EFFECTS OF IODINE INTERCALATION ON TC IN BI2SR2CA1-XYXCU2O8 1992 12 "PHYSICA C,203(1992)411" "BI,SR,CA,CU,O,Y" 4236 PHC2020371 Bi1.6Pb0.4Sr2Ca2Cu2.99Fe0.01OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 2.99 Fe 0.01 O Z 1992 2 5.4 37 K 96.8 109.7 103.25 "BI2O3,PBO,SRCO3,CACO3,CUO,MXOZ" 0 "MIXTURE-CAL(820C,5H IN AIR)-PELLET-SIN(850C,100H)-COOL TO 700C(0.2C/MIN)-COOL TO 200C(0.1C/MIN)-FC TO RT" "Substitution of 3d metals for Cu in (Bi,Pb)2Sr2Ca2U3Oy" 1992 "Department of Physics & Astronomy, McMaster University, Hamilton, Ont. L8S 4M1. China" "Physica.C,202(1992)371-378" 4237 PHC2020371 Bi1.6Pb0.4Sr2Ca2Cu2.95Fe0.05OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 2.95 Fe 0.05 O Z 1992 2 5.39 37.14 K 85.6 101.9 93.75 "BI2O3,PBO,SRCO3,CACO3,CUO,MXOZ" 0 "MIXTURE-CAL(820C,5H IN AIR)-PELLET-SIN(850C,100H)-COOL TO 700C(0.2C/MIN)-COOL TO 200C(0.1C/MIN)-FC TO RT" "Substitution of 3d metals for Cu in (Bi,Pb)2Sr2Ca2U3Oy" 1992 "Department of Physics & Astronomy, McMaster University, Hamilton, Ont. L8S 4M1. China" "Physica.C,202(1992)371-378" 4238 PHC2020371 Bi1.6Pb0.4Sr2Ca2Cu2.93Fe0.07OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 2.93 Fe 0.07 O Z 1992 2 5.39 37.08 K 79.9 98.8 89.35 "BI2O3,PBO,SRCO3,CACO3,CUO,MXOZ" 0 "MIXTURE-CAL(820C,5H IN AIR)-PELLET-SIN(850C,100H)-COOL TO 700C(0.2C/MIN)-COOL TO 200C(0.1C/MIN)-FC TO RT" "Substitution of 3d metals for Cu in (Bi,Pb)2Sr2Ca2U3Oy" 1992 "Department of Physics & Astronomy, McMaster University, Hamilton, Ont. L8S 4M1. China" "Physica.C,202(1992)371-378" 4239 PHC2020371 Bi1.6Pb0.4Sr2Ca2Cu2.9Fe0.1OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 2.9 Fe 0.1 O Z 1992 5.38 36.89 K 94.2 94.2 "BI2O3,PBO,SRCO3,CACO3,CUO,MXOZ" 0 "MIXTURE-CAL(820C,5H IN AIR)-PELLET-SIN(850C,100H)-COOL TO 700C(0.2C/MIN)-COOL TO 200C(0.1C/MIN)-FC TO RT" "Substitution of 3d metals for Cu in (Bi,Pb)2Sr2Ca2U3Oy" 1992 "Department of Physics & Astronomy, McMaster University, Hamilton, Ont. L8S 4M1. China" "Physica.C,202(1992)371-378" 4240 PHC2020371 2223+2212(MINOR) "(Bi,Pb)2Sr2Ca2(Cu,Zn)3O10" Bi1.6Pb0.4Sr2Ca2Cu2.99Zn0.01OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 2.99 Zn 0.01 O Z 2 1992 2 Bi2223 5.4 37.03 K 95.9 101.1 98.5 "BI2O3,PBO,SRCO3,CACO3,CUO,MXOZ" 0 "MIXTURE-CAL(820C,5H IN AIR)-PELLET-SIN(850C,100H)-COOL TO 700C(0.2C/MIN)-COOL TO 200C(0.1C/MIN)-FC TO RT" "Substitution of 3d metals for Cu in (Bi,Pb)2Sr2Ca2U3Oy" 1992 "Department of Physics & Astronomy, McMaster University, Hamilton, Ont. L8S 4M1. China" "Physica.C,202(1992)371-378" 4241 PHC2020371 2223+2212(MINOR) "(Bi,Pb)2Sr2Ca2(Cu,Zn)3O10" Bi1.6Pb0.4Sr2Ca2Cu2.95Zn0.05OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 2.95 Zn 0.05 O Z 1992 5.42 37.09 K 86.5 107.7 97.1 "BI2O3,PBO,SRCO3,CACO3,CUO,MXOZ" 0 "MIXTURE-CAL(820C,5H IN AIR)-PELLET-SIN(850C,100H)-COOL TO 700C(0.2C/MIN)-COOL TO 200C(0.1C/MIN)-FC TO RT" "Substitution of 3d metals for Cu in (Bi,Pb)2Sr2Ca2U3Oy" 1992 "Department of Physics & Astronomy, McMaster University, Hamilton, Ont. L8S 4M1. China" "Physica.C,202(1992)371-378" 4242 PHC2020371 "(Bi,Pb)2Sr2Ca2(Cu,Zn)3O10" Bi1.6Pb0.4Sr2Ca2Cu2.93Zn0.07OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 2.93 Zn 0.07 O Z 1992 K 79 107.1 93.05 "BI2O3,PBO,SRCO3,CACO3,CUO,MXOZ" 0 "MIXTURE-CAL(820C,5H IN AIR)-PELLET-SIN(850C,100H)-COOL TO 700C(0.2C/MIN)-COOL TO 200C(0.1C/MIN)-FC TO RT" "Substitution of 3d metals for Cu in (Bi,Pb)2Sr2Ca2U3Oy" 1992 "Department of Physics & Astronomy, McMaster University, Hamilton, Ont. L8S 4M1. China" "Physica.C,202(1992)371-378" 4243 PHC2020371 "(Bi,Pb)2Sr2Ca2(Cu,Zn)3O10" Bi1.6Pb0.4Sr2Ca2Cu2.9Zn0.1OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 2.9 Zn 0.1 O Z 1992 K 78.1 105.2 91.65 "BI2O3,PBO,SRCO3,CACO3,CUO,MXOZ" 0 "MIXTURE-CAL(820C,5H IN AIR)-PELLET-SIN(850C,100H)-COOL TO 700C(0.2C/MIN)-COOL TO 200C(0.1C/MIN)-FC TO RT" "Substitution of 3d metals for Cu in (Bi,Pb)2Sr2Ca2U3Oy" 1992 "Department of Physics & Astronomy, McMaster University, Hamilton, Ont. L8S 4M1. China" "Physica.C,202(1992)371-378" 4244 PHC2020371 "(Bi,Pb)2Sr2Ca2(Cu,Zn)3O10" Bi1.6Pb0.4Sr2Ca2Cu2.8Zn0.2OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 2.8 Zn 0.2 O Z 1992 5.42 37.16 K 78 106 92 "BI2O3,PBO,SRCO3,CACO3,CUO,MXOZ" 0 "MIXTURE-CAL(820C,5H IN AIR)-PELLET-SIN(850C,100H)-COOL TO 700C(0.2C/MIN)-COOL TO 200C(0.1C/MIN)-FC TO RT" "Substitution of 3d metals for Cu in (Bi,Pb)2Sr2Ca2U3Oy" 1992 "Department of Physics & Astronomy, McMaster University, Hamilton, Ont. L8S 4M1. China" "Physica.C,202(1992)371-378" 4245 PHC2020371 "(Bi,Pb)2Sr2Ca2(Cu,Zn)3O10" Bi1.6Pb0.4Sr2Ca2Cu2.6Zn0.4OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 2.6 Zn 0.4 O Z 1992 5.38 37.09 K 63.8 108.1 85.95 "BI2O3,PBO,SRCO3,CACO3,CUO,MXOZ" 0 "MIXTURE-CAL(820C,5H IN AIR)-PELLET-SIN(850C,100H)-COOL TO 700C(0.2C/MIN)-COOL TO 200C(0.1C/MIN)-FC TO RT" "Substitution of 3d metals for Cu in (Bi,Pb)2Sr2Ca2U3Oy" 1992 "Department of Physics & Astronomy, McMaster University, Hamilton, Ont. L8S 4M1. China" "Physica.C,202(1992)371-378" 4246 PHC2020371 "(Bi,Pb)2Sr2Ca2(Cu,Zn)3O10" Bi1.6Pb0.4Sr2Ca2Cu2.5Zn0.5OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 2.5 Zn 0.5 O Z 1992 Bi2212 K 55 74.3 64.65 "BI2O3,PBO,SRCO3,CACO3,CUO,MXOZ" 0 "MIXTURE-CAL(820C,5H IN AIR)-PELLET-SIN(850C,100H)-COOL TO 700C(0.2C/MIN)-COOL TO 200C(0.1C/MIN)-FC TO RT" "Substitution of 3d metals for Cu in (Bi,Pb)2Sr2Ca2U3Oy" 1992 "Department of Physics & Astronomy, McMaster University, Hamilton, Ont. L8S 4M1. China" "Physica.C,202(1992)371-378" 4247 PHC2020371 2223(MAJOR)+2212(MINOR) "(Bi,Pb)2Sr2Ca2(Cu,Mn)3O10" Bi1.6Pb0.4Sr2Ca2Cu3OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 3 O Z 2 1992 2 Bi2223 5.41 37.12 K 99.7 105.3 110.1 105.3 "BI2O3,PBO,SRCO3,CACO3,CUO,MXOZ" 0 "MIXTURE-CAL(820C,5H IN AIR)-PELLET-SIN(850C,100H)-COOL TO 700C(0.2C/MIN)-COOL TO 200C(0.1C/MIN)-FC TO RT" "Substitution of 3d metals for Cu in (Bi,Pb)2Sr2Ca2U3Oy" 1992 "Department of Physics & Astronomy, McMaster University, Hamilton, Ont. L8S 4M1. China" "Physica.C,202(1992)371-378" 4248 PHC2020371 2223(MAJOR)+2212(MINOR) "(Bi,Pb)2Sr2Ca2(Cu,Mn)3O10" Bi1.6Pb0.4Sr2Ca2Cu2.99Mn0.01OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 2.99 Mn 0.01 O Z 2 1992 2 Bi2223 5.4 37 K "BI2O3,PBO,SRCO3,CACO3,CUO,MXOZ" 0 "MIXTURE-CAL(820C,5H IN AIR)-PELLET-SIN(850C,100H)-COOL TO 700C(0.2C/MIN)-COOL TO 200C(0.1C/MIN)-FC TO RT" "Substitution of 3d metals for Cu in (Bi,Pb)2Sr2Ca2U3Oy" 1992 "Department of Physics & Astronomy, McMaster University, Hamilton, Ont. L8S 4M1. China" "Physica.C,202(1992)371-378" 4249 PHC2020371 2223(MAJOR)+2212(MINOR) "(Bi,Pb)2Sr2Ca2(Cu,Mn)3O10" Bi1.6Pb0.4Sr2Ca2Cu2.95Mn0.05OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 2.95 Mn 0.05 O Z 2 1992 2 Bi2223 5.39 36.81 K 95.7 103.8 109.7 103.8 "BI2O3,PBO,SRCO3,CACO3,CUO,MXOZ" 0 "MIXTURE-CAL(820C,5H IN AIR)-PELLET-SIN(850C,100H)-COOL TO 700C(0.2C/MIN)-COOL TO 200C(0.1C/MIN)-FC TO RT" "Substitution of 3d metals for Cu in (Bi,Pb)2Sr2Ca2U3Oy" 1992 "Department of Physics & Astronomy, McMaster University, Hamilton, Ont. L8S 4M1. China" "Physica.C,202(1992)371-378" 4250 PHC2020371 2223(MAJOR)+2212(MINOR) "(Bi,Pb)2Sr2Ca2(Cu,Mn)3O10" Bi1.6Pb0.4Sr2Ca2Cu2.8Mn0.2OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 2.8 Mn 0.2 O Z 2 1992 2 Bi2223 5.41 37.04 K 95 108.4 101.7 "BI2O3,PBO,SRCO3,CACO3,CUO,MXOZ" 0 "MIXTURE-CAL(820C,5H IN AIR)-PELLET-SIN(850C,100H)-COOL TO 700C(0.2C/MIN)-COOL TO 200C(0.1C/MIN)-FC TO RT" "Substitution of 3d metals for Cu in (Bi,Pb)2Sr2Ca2U3Oy" 1992 "Department of Physics & Astronomy, McMaster University, Hamilton, Ont. L8S 4M1. China" "Physica.C,202(1992)371-378" 4251 PHC2020371 2223+2212 "(Bi,Pb)2Sr2Ca2(Cu,Mn)3O10" Bi1.6Pb0.4Sr2Ca2Cu2.7Mn0.3OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 2.7 Mn 0.3 O Z 2 1992 2 Bi2223 5.4 36.98 K 88.4 106.8 97.6 "BI2O3,PBO,SRCO3,CACO3,CUO,MXOZ" 0 "MIXTURE-CAL(820C,5H IN AIR)-PELLET-SIN(850C,100H)-COOL TO 700C(0.2C/MIN)-COOL TO 200C(0.1C/MIN)-FC TO RT" "Substitution of 3d metals for Cu in (Bi,Pb)2Sr2Ca2U3Oy" 1992 "Department of Physics & Astronomy, McMaster University, Hamilton, Ont. L8S 4M1. China" "Physica.C,202(1992)371-378" 4252 PHC2020371 "(Bi,Pb)2Sr2Ca2(Cu,Mn)3O10" Bi1.6Pb0.4Sr2Ca2Cu2.6Mn0.4OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 2.6 Mn 0.4 O Z 2 1992 2 Bi2223 5.41 36.94 K 65.9 106.8 86.35 "BI2O3,PBO,SRCO3,CACO3,CUO,MXOZ" 0 "MIXTURE-CAL(820C,5H IN AIR)-PELLET-SIN(850C,100H)-COOL TO 700C(0.2C/MIN)-COOL TO 200C(0.1C/MIN)-FC TO RT" "Substitution of 3d metals for Cu in (Bi,Pb)2Sr2Ca2U3Oy" 1992 "Department of Physics & Astronomy, McMaster University, Hamilton, Ont. L8S 4M1. China" "Physica.C,202(1992)371-378" 4253 PHC2020371 "(Bi,Pb)2Sr2Ca2(Cu,Mn)3O10" Bi1.6Pb0.4Sr2Ca2Cu2.5Mn0.5OZ Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 2.5 Mn 0.5 O Z 1992 2 Bi2223 5.4 36.8 K 63 95.5 106.8 95.5 "BI2O3,PBO,SRCO3,CACO3,CUO,MXOZ" 0 "MIXTURE-CAL(820C,5H IN AIR)-PELLET-SIN(850C,100H)-COOL TO 700C(0.2C/MIN)-COOL TO 200C(0.1C/MIN)-FC TO RT" "Substitution of 3d metals for Cu in (Bi,Pb)2Sr2Ca2U3Oy" 1992 "Department of Physics & Astronomy, McMaster University, Hamilton, Ont. L8S 4M1. China" "Physica.C,202(1992)371-378" 4254 PHC2020162 "(C,Cu)Sr2(Y,Ce)2Cu2O9" Sr2.02Y1.4Ce0.55Cu2.59C0.41OZ Sr 2.02 Y 1.4 Ce 0.55 Cu 2.59 C 0.41 O Z 1992 3 1222 I4/MMM 3.827 3.831 27.708 K 5 18 18 10 0 "SR:Y:CE:CU=2:1.46:0.54:2.65-PELLET-ANN(1303K,20H IN 80%O2+20%CO2 UNDER 0.02MPA)-Q-ANN(773-1023K, UNDER 0.1MPA O2)" (C0.35CU0.65)SR2(Y0.73CE0.27)2CU2OX 1992 11 "PHYSICA C,202(1992)162" "C,CU,SR,Y,CE,O" 4255 SSC0850579 "Pb2Sr2(Y,Ca)Cu3O8" Pb2Sr2Y0.61Ca0.39Cu3O8 Pb 2 Sr 2 Y 0.61 Ca 0.39 Cu 3 O 8 1993 2 Pb3212 5.393 5.394 15.815 K 79 79 50 0 "PRESSURE EFFECTS,ANISOTROPIC TRANSPORT PROPERTIES AND IRREVERSIBILITY LINE OF PB2SR2Y1-XCAXCU3O8 CRYSTALS" 1993 2 "SOLID STATE COMMUN.,85(1993)579" "PB,SR,Y,CA,CU,O" 4256 SSC0850579 "CA CONTENT NOT MEASURED,UNDER HYDROSTATIC PRESSURE" "Pb2Sr2(Y,Ca)Cu3O8" Pb2Sr2Y0.61Ca0.39Cu3O8 Pb 2 Sr 2 Y 0.61 Ca 0.39 Cu 3 O 8 1993 3 Pb3212 5.379 5.416 15.775 K 75 75 K/kbar 0.15 0.16 0.75 0 "PRESSURE EFFECTS,ANISOTROPIC TRANSPORT PROPERTIES AND IRREVERSIBILITY LINE OF PB2SR2Y1-XCAXCU3O8 CRYSTALS" 1993 2 "SOLID STATE COMMUN.,85(1993)579" "PB,SR,Y,CA,CU,O" 4257 SSC0850579 "Pb2Sr2(Y,Ca)Cu3O8" Pb2Sr2Y0.64Ca0.36Cu3O8 Pb 2 Sr 2 Y 0.64 Ca 0.36 Cu 3 O 8 1993 3 Pb3212 5.382 5.412 15.783 K 65 65 0 "PRESSURE EFFECTS,ANISOTROPIC TRANSPORT PROPERTIES AND IRREVERSIBILITY LINE OF PB2SR2Y1-XCAXCU3O8 CRYSTALS" 1993 2 "SOLID STATE COMMUN.,85(1993)579" "PB,SR,Y,CA,CU,O" 4258 PR0470457 "YBa2(Cu,Fe)3O7" Y1Ba2Cu3FeO7-Z Y 1 Ba 2 Cu 3 Fe O 7-Z 3 1993 Y123 K 92.5 92 92 481 112 7.5 1.75 17.2 4 0 "SELF-FLUX METHOD, CRYSTAL-ANN(400C,2-4H IN O2)" RESISTIVITY AND UPPER CRITICAL FIELD OF YBA2CU3-XFEXO7-Y SINGLE CRYSTALS 1993 1 "DEPARTMENT OF PHYSICS, UNIVERSITY OF CALIFORNIA, DAVIS" "PHYS.REV.B,47(1993)457" "Y,BA,CU,FE,O" 4259 PR0470457 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.96Fe0.04O7-Z Y 1 Ba 2 Cu 2.96 Fe 0.04 O 7-Z 3 1993 Y123 K 89.5 89.5 215 56 3.45 0.91 24.3 6.3 0 "SELF-FLUX METHOD, CRYSTAL-ANN(400C,2-4H IN O2)" RESISTIVITY AND UPPER CRITICAL FIELD OF YBA2CU3-XFEXO7-Y SINGLE CRYSTALS 1993 1 "DEPARTMENT OF PHYSICS, UNIVERSITY OF CALIFORNIA, DAVIS" "PHYS.REV.B,47(1993)457" "Y,BA,CU,FE,O" 4260 PR0470457 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.87Fe0.13O7-Z Y 1 Ba 2 Cu 2.87 Fe 0.13 O 7-Z 3 1993 Y123 K 79 73.5 73.5 129 31 2.35 0.58 32.7 7.8 0 "SELF-FLUX METHOD, CRYSTAL-ANN(400C,2-4H IN O2)" RESISTIVITY AND UPPER CRITICAL FIELD OF YBA2CU3-XFEXO7-Y SINGLE CRYSTALS 1993 1 "DEPARTMENT OF PHYSICS, UNIVERSITY OF CALIFORNIA, DAVIS" "PHYS.REV.B,47(1993)457" "Y,BA,CU,FE,O" 4261 PR0481266 "LATTICE CONST. BY NEUTRON DIFFRACTION AT 20K,NO PRECIPITATION OBSERVED BY XAFS" "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.85Zn0.15O6.95 Y 1 Ba 2 Cu 2.85 Zn 0.15 O 7-Z 6.95 1 1993 3 3.817 3.888 11.642 K 39.2 3.7 39.2 1 DISTORTED LOCAL ENVIRONMENT AROUND ZN ON CU(2) SITES IN YBA2CU3O7: AN X-RAY-ABSORPTION STUDY 1993 7 "PHYS.REV.B,48(1993)1266" 4262 PR0481266 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.775Zn0.225O6.93 Y 1 Ba 2 Cu 2.775 Zn 0.225 O 7-Z 6.93 1 1993 3 3.819 3.89 11.64 K 25 5.8 25 1 DISTORTED LOCAL ENVIRONMENT AROUND ZN ON CU(2) SITES IN YBA2CU3O7: AN X-RAY-ABSORPTION STUDY 1993 7 "PHYS.REV.B,48(1993)1266" 4263 PR0481266 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.7Zn0.3O6.89 Y 1 Ba 2 Cu 2.7 Zn 0.3 O 7-Z 6.89 1 1993 3 3.823 3.891 11.649 K 1 DISTORTED LOCAL ENVIRONMENT AROUND ZN ON CU(2) SITES IN YBA2CU3O7: AN X-RAY-ABSORPTION STUDY 1993 7 "PHYS.REV.B,48(1993)1266" 4264 PR0481148 "ASSUMPTION(OXYGEN CONTENT DOES NOT CHANGE BY BROMINATION),BR CONTENT MEASURED" Y1Ba2Cu3Br0.9O6.2 Y 1 Ba 2 Cu 3 Br 0.9 O 6.2 3 1993 Y123 K 92 1 92 HC2(0)=0.69DHC2/DT AT 14T 776 53 25 1.7 0 "DEOXYGENATE(600C,12H)-BROMINATE(260C,24H)" TRANSPORT AND MAGNETIC PROPERTIES OF YBA2CU3O7-ZBRY SINGLE CRYSTALS 1993 7 "PHYS.REV.B,48(1993)1148" 4265 PR0481148 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1993 3 Y123 K 92 92 313 78 21 5.1 0 TRANSPORT AND MAGNETIC PROPERTIES OF YBA2CU3O7-ZBRY SINGLE CRYSTALS 1993 7 "PHYS.REV.B,48(1993)1148" 4266 PR0480607 SOUND VELOCITY AND SPECIFIC HEAT SHOW JUMP AT 150K "(Y,Ca)Ba2Cu4O8" Y0.975Ca0.025Ba2Cu4O8 Y 0.975 Ca 0.025 Ba 2 Cu 4 O 8 1 1993 Y124 K 82 82 82 1 HIP USING AR+O2 GAS CA-INDUCED PHASE TRANSITION AT 150 K IN Y1-XCAXBA2CU4O8 SINGLE-PHASE HIGH-TC SUPERCONDUCTING MATERIAL 1993 7 "PHYS.REV.B,48(1993)607" 4267 PR0480607 SEE 4266 "(Y,Ca)Ba2Cu4O8" Y0.95Ca0.05Ba2Cu4O8 Y 0.95 Ca 0.05 Ba 2 Cu 4 O 8 1993 Y124 K 87 87 87 1 HIP USING AR+O2 GAS CA-INDUCED PHASE TRANSITION AT 150 K IN Y1-XCAXBA2CU4O8 SINGLE-PHASE HIGH-TC SUPERCONDUCTING MATERIAL 1993 7 "PHYS.REV.B,48(1993)607" 4268 PR0480607 SEE 4266 "(Y,Ca)Ba2Cu4O8" Y0.9Ca0.1Ba2Cu4O8 Y 0.9 Ca 0.1 Ba 2 Cu 4 O 8 1993 Y124 K 89 89 89 1 HIP USING AR+O2 GAS CA-INDUCED PHASE TRANSITION AT 150 K IN Y1-XCAXBA2CU4O8 SINGLE-PHASE HIGH-TC SUPERCONDUCTING MATERIAL 1993 7 "PHYS.REV.B,48(1993)607" 4269 PR0480532 "(Ca,La)(Ba,La)2Cu3O7" La1.25Ca0.3Ba1.45Cu3O7.11 La 1.25 Ca 0.3 Ba 1.45 Cu 3 O Z 7.11 1 1993 2 Y123 3.883 11.649 K 74.6 67.1 3.9 67.1 1.92 0 TETRAGONAL SUPERCONDUCTING FAMILY (CAXLA1-X)(BA1.75-XLA0.25+X)CU3OY: THE EFFECT OF COSUBSTITUTION ON THE TRANSITION TEMPERATURE 1993 7 "PHYS.REV.B,48(1993)532" 4270 PR0480532 "(Ca,La)(Ba,La)2Cu3O7" La1.25Ca0.35Ba1.4Cu3O7.108 La 1.25 Ca 0.35 Ba 1.4 Cu 3 O Z 7.108 1993 Y123 K 78.5 74.3 2.6 74.3 1.29 0 TETRAGONAL SUPERCONDUCTING FAMILY (CAXLA1-X)(BA1.75-XLA0.25+X)CU3OY: THE EFFECT OF COSUBSTITUTION ON THE TRANSITION TEMPERATURE 1993 7 "PHYS.REV.B,48(1993)532" 4271 PR0480532 "(Ca,La)(Ba,La)2Cu3O7" La1.25Ca0.4Ba1.35Cu3O7.141 La 1.25 Ca 0.4 Ba 1.35 Cu 3 O Z 7.141 1993 Y123 3.876 11.634 K 80.6 77.8 1.3 77.8 1.48 0 TETRAGONAL SUPERCONDUCTING FAMILY (CAXLA1-X)(BA1.75-XLA0.25+X)CU3OY: THE EFFECT OF COSUBSTITUTION ON THE TRANSITION TEMPERATURE 1993 7 "PHYS.REV.B,48(1993)532" 4272 PR0480532 "(Ca,La)(Ba,La)2Cu3O7" La1.25Ca0.45Ba1.3Cu3O7.135 La 1.25 Ca 0.45 Ba 1.3 Cu 3 O Z 7.135 1993 Y123 K 81.4 79.2 0.9 79.2 1.04 0 TETRAGONAL SUPERCONDUCTING FAMILY (CAXLA1-X)(BA1.75-XLA0.25+X)CU3OY: THE EFFECT OF COSUBSTITUTION ON THE TRANSITION TEMPERATURE 1993 7 "PHYS.REV.B,48(1993)532" 4273 PR0480532 "(Ca,La)(Ba,La)2Cu3O7" La1.25Ca0.5Ba1.25Cu3O7.137 La 1.25 Ca 0.5 Ba 1.25 Cu 3 O Z 7.137 1993 Y123 3.873 11.622 K 81.3 79.2 0.7 79.2 1.04 0 TETRAGONAL SUPERCONDUCTING FAMILY (CAXLA1-X)(BA1.75-XLA0.25+X)CU3OY: THE EFFECT OF COSUBSTITUTION ON THE TRANSITION TEMPERATURE 1993 7 "PHYS.REV.B,48(1993)532" 4274 PR0480532 "(Ca,La)(Ba,La)2Cu3O7" La1.25Ba1.75Cu3O7.07 La 1.25 Ba 1.75 Cu 3 O Z 7.07 1 1993 2 Y123 3.917 11.751 K 47.8 40 5.3 40 3.54 "CACO3,LA2O3,BACO3,CUO" 1 "MIXTURE-HEAT(950C,1-2DAYS IN AIR)-PELLET-SIN(960C,60H IN O2)-COOL(10C/H) TO RT" TETRAGONAL SUPERCONDUCTING FAMILY (CAXLA1-X)(BA1.75-XLA0.25+X)CU3OY: THE EFFECT OF COSUBSTITUTION ON THE TRANSITION TEMPERATURE 1993 7 "PHYS.REV.B,48(1993)532" 4275 PR0480532 "(Ca,La)(Ba,La)2Cu3O7" La1.25Ca0.05Ba1.7Cu3O7.03 La 1.25 Ca 0.05 Ba 1.7 Cu 3 O Z 7.03 1993 Y123 K 46.7 38.6 6.1 38.6 3.47 "CACO3,LA2O3,BACO3,CUO" 1 "MIXTURE-HEAT(950C,1-2DAYS IN AIR)-PELLET-SIN(960C,60H IN O2)-COOL(10C/H) TO RT" TETRAGONAL SUPERCONDUCTING FAMILY (CAXLA1-X)(BA1.75-XLA0.25+X)CU3OY: THE EFFECT OF COSUBSTITUTION ON THE TRANSITION TEMPERATURE 1993 7 "PHYS.REV.B,48(1993)532" 4276 PR0480532 "(Ca,La)(Ba,La)2Cu3O7" La1.25Ca0.1Ba1.65Cu3O7.06 La 1.25 Ca 0.1 Ba 1.65 Cu 3 O Z 7.06 1993 Y123 3.906 11.718 K 48.3 38.8 5.4 38.8 3.02 "CACO3,LA2O3,BACO3,CUO" 1 "MIXTURE-HEAT(950C,1-2DAYS IN AIR)-PELLET-SIN(960C,60H IN O2)-COOL(10C/H) TO RT" TETRAGONAL SUPERCONDUCTING FAMILY (CAXLA1-X)(BA1.75-XLA0.25+X)CU3OY: THE EFFECT OF COSUBSTITUTION ON THE TRANSITION TEMPERATURE 1993 7 "PHYS.REV.B,48(1993)532" 4277 PR0480532 "(Ca,La)(Ba,La)2Cu3O7" La1.25Ca0.15Ba1.6Cu3O7.052 La 1.25 Ca 0.15 Ba 1.6 Cu 3 O Z 7.052 1993 Y123 K 51.9 45.6 5.1 45.6 2.5 "CACO3,LA2O3,BACO3,CUO" 1 "MIXTURE-HEAT(950C,1-2DAYS IN AIR)-PELLET-SIN(960C,60H IN O2)-COOL(10C/H) TO RT" TETRAGONAL SUPERCONDUCTING FAMILY (CAXLA1-X)(BA1.75-XLA0.25+X)CU3OY: THE EFFECT OF COSUBSTITUTION ON THE TRANSITION TEMPERATURE 1993 7 "PHYS.REV.B,48(1993)532" 4278 PR0480532 "(Ca,La)(Ba,La)2Cu3O7" La1.25Ca0.2Ba1.55Cu3O7.082 La 1.25 Ca 0.2 Ba 1.55 Cu 3 O Z 7.082 1993 Y123 3.894 11.685 K 61.7 50.2 5.4 50.2 2.53 "CACO3,LA2O3,BACO3,CUO" 1 "MIXTURE-HEAT(950C,1-2DAYS IN AIR)-PELLET-SIN(960C,60H IN O2)-COOL(10C/H) TO RT" TETRAGONAL SUPERCONDUCTING FAMILY (CAXLA1-X)(BA1.75-XLA0.25+X)CU3OY: THE EFFECT OF COSUBSTITUTION ON THE TRANSITION TEMPERATURE 1993 7 "PHYS.REV.B,48(1993)532" 4279 PR0480532 "(Ca,La)(Ba,La)2Cu3O7" La1.25Ca0.25Ba1.5Cu3O7.087 La 1.25 Ca 0.25 Ba 1.5 Cu 3 O Z 7.087 1993 Y123 K 70 62.9 5.4 62.9 1.6 "CACO3,LA2O3,BACO3,CUO" 1 "MIXTURE-HEAT(950C,1-2DAYS IN AIR)-PELLET-SIN(960C,60H IN O2)-COOL(10C/H) TO RT" TETRAGONAL SUPERCONDUCTING FAMILY (CAXLA1-X)(BA1.75-XLA0.25+X)CU3OY: THE EFFECT OF COSUBSTITUTION ON THE TRANSITION TEMPERATURE 1993 7 "PHYS.REV.B,48(1993)532" 4280 PR04711525 BaPbO Ba1Pb1O1 Ba 1 Pb 1 O 1 1 1993 3 6.056 6.024 8.506 K 4.2 1.2 -0.00000002 1 "BA(OH)2.8H2O,PB3O4" 1 "SLOW HEAT TO 750C-PELLET-(825C,2H IN O2)+(500C,5H)" OXYGEN-DEFICIENT BARIUM LEAD OXIDE PEROVSKITES 1993 5 "PHYS.REV.B,47(1993)11525" 4281 PR04711525 Ba4Pb3O10 Ba4Pb3O10 Ba 4 Pb 3 O 10 1 1993 2 4.289 30.278 K 4.2 3.5 -0.000000018 1 "BACO3,PB(NO3)2" 0 "HEAT(825C,15H IN O2)-(950C,48H)-PELLET-(950C,48H+850C,5H+500C,5H IN O2)" OXYGEN-DEFICIENT BARIUM LEAD OXIDE PEROVSKITES 1993 5 "PHYS.REV.B,47(1993)11525" 4282 PR04711544 EFFECTIVE O2 PRESSURE DURING ANN=20 ATM "(La,Ca)2CaCu2O6" La1.89Ca1.11Cu2OZ La 1.89 Ca 1.11 Cu 2 O Z 3 1993 2126 K 4.2 7.2 6 0 "CRYSTAL GROWN IN AIR FROM CUO-RICH MELT-ANN(1040-1080C,200H IN 20%O2+80%AR AT PRESSURE OF 100-1500 ATM)" EFFECTS OF HIGH-OXYGEN-PRESSURE ANNEALING ON TRANSPORT PROPERTIES FOR LA1.89CA1.11CU2O6+-Z SINGLE CRYSTALS 1993 5 "PHYS.REV.B,47(1993)11544" 4283 PR04711544 EFFECTIVE O2 PRESSURE DURING ANN=100 ATM "(La,Ca)2CaCu2O6" La1.89Ca1.11Cu2OZ La 1.89 Ca 1.11 Cu 2 O Z 3 1993 2126 K 13 13 1.914 6 0 "CRYSTAL GROWN IN AIR FROM CUO-RICH MELT-ANN(1040-1080C,200H IN 20%O2+80%AR AT PRESSURE OF 100-1500 ATM)" EFFECTS OF HIGH-OXYGEN-PRESSURE ANNEALING ON TRANSPORT PROPERTIES FOR LA1.89CA1.11CU2O6+-Z SINGLE CRYSTALS 1993 5 "PHYS.REV.B,47(1993)11544" 4284 PR04711544 EFFECTIVE O2 PRESSURE DURING ANN=300 ATM "(La,Ca)2CaCu2O6" La1.89Ca1.11Cu2OZ La 1.89 Ca 1.11 Cu 2 O Z 3 1993 2126 K 40 40 0.819 6 0 "CRYSTAL GROWN IN AIR FROM CUO-RICH MELT-ANN(1040-1080C,200H IN 20%O2+80%AR AT PRESSURE OF 100-1500 ATM)" EFFECTS OF HIGH-OXYGEN-PRESSURE ANNEALING ON TRANSPORT PROPERTIES FOR LA1.89CA1.11CU2O6+-Z SINGLE CRYSTALS 1993 5 "PHYS.REV.B,47(1993)11544" 4285 PR0476177 "211 PHASE INCLUDED,HC(0)=0.78 T, G-L PARAMETER=63" "YBa2(Cu,Au)3O7" Y1Ba1.97Cu2.55Au0.13OX Y 1 Ba 1.97 Cu 2.55 Au 0.13 O X 2 1993 3 Y123 K 93.3 1 93.3 1.5 1 ADDING METALLIC AU POWDER-MIX-PELLET-SIN-ANN(400C)-Q UPPER CRITICAL FIELD OF GOLD-DOPED YBA2CU3O7-Z 1993 3 "PHYS.REV.B,47(1993)6177" "Y,BA,CU,O" 4286 PLA1420300 La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 1989 2 T 0.002 0.002 0.002 K 1 "MIXTURE-PELLET BY 10KBAR-HEAT(1323K IN O2)-HEAT(1223K,2 DAYS)-COOL TO RT IN AIR" X-RAY INVESTIGATION OF La2CuO4 AND Pr2CuO4 UNDER HIGH PRESSURE 1989 11 "Kernforschungszentrum Karlsruhe and Universitat Karlsruhe, Postfach 3640, D-7500 Karlsruhe, FRG" "Phys.Lett.A,142(1989)300" 4287 PLA1420300 Pr2CuO4 Pr2Cu1O4 Pr 2 Cu 1 O 4 1989 2 T' 0.002 0.002 0.003 K 0 "CRYSTAL GROWN FROM PB-O BASED FLUX-MIXTURE-HEAT(1520K,2H IN AIR)-COOL TO 1070K(7K/H)" X-RAY INVESTIGATION OF La2CuO4 AND Pr2CuO4 UNDER HIGH PRESSURE 1989 11 "Kernforschungszentrum Karlsruhe and Universitat Karlsruhe, Postfach 3640, D-7500 Karlsruhe, FRG" "Phys.Lett.A,142(1989)300" 4288 PR0475524 TC(MAX)=131.5K AT 7.4GPA Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O10-Z Tl 2 Ba 2 Ca 2 Cu 3 O 10-Z 3 1993 Tl2223 K 116 116 K/GPa 4.8 "TL2O3,BAO2,CAO2,CUO" 0 "TL:BA:CA:CU=2:2:3:4, IN AU CAPSULE,)917C,4H)-COOL TO 697C IN 12H-FC-REMOVED AT 350C" PRESSURE DEPENDENCE OF THE SUPERCONDUCTING TRANSITION TEMPERATURE IN SINGLE CRYSTALS OF TL2BA2CA2CU3O10-X 1993 3 "PHYS.REV.B,47(1993)5524" "TL,BA,CA,CU,O" 4289 PR0476154 "ABOUT 10% OF CHAIN CU WERE REPLACED BY AU,9 INDEPENDENT ELASTIC CONST. C(I,I) ARE DETERMINED" YBa2Cu3O7 Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 7-Z 6.9 3 1993 6.333 GPa 154.3 GPa 58.7 GPa 138.2 0.314 0.251 3 Y123 K 91.4 0.7 91.4 414 0 SELF-FLUX METHOD IN AU CRUCIBLE ELASTIC CONSTANTS OF A MONOCRYSTAL OF SUPERCONDUCTING YBA2CU3O7-Z 1993 3 "PHYS.REV.B,47(1993)6154" "Y,BA,CU,O" 4290 PR04711337 "RSr2(Cu,Mo)3O7" Yb1Sr2Cu2.7Mo0.3OZ Yb 1 Sr 2 Cu 2.7 Mo 0.3 O Z 1 1993 Y123 K 34 35.9 34 5.9 0 "HIGH-PRESSURE STUDY OF RSR2CU2.7MO0.3OY WITH R=SM,EU,GD,TB,DY,HO,ER,TM,AND YB" 1993 5 "PHYS.REV.B,47(1993)11337" 4291 PR04711337 "RSr2(Cu,Mo)3O7" Tm1Sr2Cu2.7Mo0.3OZ Tm 1 Sr 2 Cu 2.7 Mo 0.3 O Z 1 1993 Y123 K 33.9 35.4 33.9 K/GPa 5.7 0 "HIGH-PRESSURE STUDY OF RSR2CU2.7MO0.3OY WITH R=SM,EU,GD,TB,DY,HO,ER,TM,AND YB" 1993 5 "PHYS.REV.B,47(1993)11337" 4292 PR04711337 "RSr2(Cu,Mo)3O7" Er1Sr2Cu2.7Mo0.3OZ Er 1 Sr 2 Cu 2.7 Mo 0.3 O Z 1 1993 Y123 K 35.1 36.7 35.1 K/GPa 6.1 0 "HIGH-PRESSURE STUDY OF RSR2CU2.7MO0.3OY WITH R=SM,EU,GD,TB,DY,HO,ER,TM,AND YB" 1993 5 "PHYS.REV.B,47(1993)11337" 4293 PR04711337 "RSr2(Cu,Mo)3O7" Ho1Sr2Cu2.7Mo0.3OZ Ho 1 Sr 2 Cu 2.7 Mo 0.3 O Z 1 1993 Y123 K 34.1 35.7 34.1 K/GPa 6.4 0 "HIGH-PRESSURE STUDY OF RSR2CU2.7MO0.3OY WITH R=SM,EU,GD,TB,DY,HO,ER,TM,AND YB" 1993 5 "PHYS.REV.B,47(1993)11337" 4294 PR04711337 "RSr2(Cu,Mo)3O7" Dy1Sr2Cu2.7Mo0.3OZ Dy 1 Sr 2 Cu 2.7 Mo 0.3 O Z 1 1993 Y123 K 31.9 35.8 31.9 4.7 0 "HIGH-PRESSURE STUDY OF RSR2CU2.7MO0.3OY WITH R=SM,EU,GD,TB,DY,HO,ER,TM,AND YB" 1993 5 "PHYS.REV.B,47(1993)11337" 4295 PR04711337 "RSr2(Cu,Mo)3O7" Gd1Sr2Cu2.7Mo0.3OZ Gd 1 Sr 2 Cu 2.7 Mo 0.3 O Z 1 1993 Y123 K 31.1 33.6 31.1 K/GPa 4 0 "HIGH-PRESSURE STUDY OF RSR2CU2.7MO0.3OY WITH R=SM,EU,GD,TB,DY,HO,ER,TM,AND YB" 1993 5 "PHYS.REV.B,47(1993)11337" 4296 PR04711337 "RSr2(Cu,Mo)3O7" Eu1Sr2Cu2.7Mo0.3OZ Eu 1 Sr 2 Cu 2.7 Mo 0.3 O Z 1993 Y123 K 27.1 30 27.1 K/GPa 3.7 0 "HIGH-PRESSURE STUDY OF RSR2CU2.7MO0.3OY WITH R=SM,EU,GD,TB,DY,HO,ER,TM,AND YB" 1993 5 "PHYS.REV.B,47(1993)11337" 4297 PR04711337 "RSr2(Cu,Mo)3O7" Sm1Sr2Cu2.7Mo0.3OZ Sm 1 Sr 2 Cu 2.7 Mo 0.3 O Z 1993 Y123 K 31.5 33.6 31.5 K/GPa 3.9 0 "HIGH-PRESSURE STUDY OF RSR2CU2.7MO0.3OY WITH R=SM,EU,GD,TB,DY,HO,ER,TM,AND YB" 1993 5 "PHYS.REV.B,47(1993)11337" 4298 PHC1990430 "YB<0.8-X>NDPR0.2BA2CU3O<7-Z>,FIGURE SHOWS TC VS X" "(Yb,Nd,Pr)Ba2Cu3O7" Yb0.6Nd0.2Pr0.2Ba2Cu3O7-Z Yb 0.6 Nd 0.2 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1992 3 Y123 K 70.3 70.3 TC4298 0 ION SIZE EFFECT ON TC IN THE (YB0.8-ZNDZPR0.2)BA2CU3O7-Y AND (ER0.7-ZEUZPR0.3)BA2CU3O7-Y SYSTEMS 1992 9 "PHYSICA C,199(1992)430" "ER,EU,YB,ND,PR,BA,CU,O" 4299 PHC1990430 "ER<0.7-X>EUPR0.3BA2CU3O<7-Z>,FIGURE SHOWS TC VS X" "(Er,Eu,Pr)Ba2Cu3O7" Er0.5Eu0.2Pr0.3Ba2Cu3O7-Z Er 0.5 Eu 0.2 Pr 0.3 Ba 2 Cu 3 O 7-Z 1 1992 3 Y123 K 52.1 52.1 TC4299 0 ION SIZE EFFECT ON TC IN THE (YB0.8-ZNDZPR0.2)BA2CU3O7-Y AND (ER0.7-ZEUZPR0.3)BA2CU3O7-Y SYSTEMS 1992 9 "PHYSICA C,199(1992)430" "ER,EU,YB,ND,PR,BA,CU,O" 4300 PHC1990430 "(Yb,Nd,Pr)Ba2Cu3O7" Yb0.4Nd0.4Pr0.2Ba2Cu3O7-Z Yb 0.4 Nd 0.4 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1992 3 Y123 K 54.1 56.6 57 56.6 4 0 ION SIZE EFFECT ON TC IN THE (YB0.8-ZNDZPR0.2)BA2CU3O7-Y AND (ER0.7-ZEUZPR0.3)BA2CU3O7-Y SYSTEMS 1992 9 "PHYSICA C,199(1992)430" "ER,EU,YB,ND,PR,BA,CU,O" 4301 PHC1990430 "(Er,Eu,Pr)Ba2Cu3O7" Er0.4Eu0.3Pr0.3Ba2Cu3O7-Z Er 0.4 Eu 0.3 Pr 0.3 Ba 2 Cu 3 O 7-Z 1 1992 3 Y123 K 44.6 47.8 48 47.8 4 0 ION SIZE EFFECT ON TC IN THE (YB0.8-ZNDZPR0.2)BA2CU3O7-Y AND (ER0.7-ZEUZPR0.3)BA2CU3O7-Y SYSTEMS 1992 9 "PHYSICA C,199(1992)430" "ER,EU,YB,ND,PR,BA,CU,O" 4302 PHC1990285 Tc/Tc0 = 0.709 for x=0.1 "(Sm,Pr)Ba2Cu3O7" Sm0.9Pr0.1Ba2Cu3O7-Z Sm 0.9 Pr 0.1 Ba 2 Cu 3 O 7-Z 1992 Y123 K TC4302 "CUO,BACO3,PR6O11,R2O3" 1 "MIXTURE-CAL(920C,20H IN AIR)-PELLET-CAL(940C,3DAYS IN O2)-COOL TO RT(1C/MIN)" "RARE-EARTH IONIC SIZE EFFECT ON THE PR-INDUCED TC DEPRESSION IN THE SERIES R1-XPRXBA2CU3O7-Z (R=SM,GD,Y,ER,TM)" 1992 9 "PHYSICA C,199(1992)285" "SM,GD,Y,ER,TM,PR,BA,CU,O" 4303 PHC1990285 Tc/Tc0 = 0.835 for x=0.1 "(Gd,Pr)Ba2Cu3O7" Gd0.9Pr0.1Ba2Cu3O7-Z Gd 0.9 Pr 0.1 Ba 2 Cu 3 O 7-Z 1992 Y123 K TC4303 "CUO,BACO3,PR6O11,R2O3" 1 "MIXTURE-CAL(920C,20H IN AIR)-PELLET-CAL(940C,3DAYS IN O2)-COOL TO RT(1C/MIN)" "RARE-EARTH IONIC SIZE EFFECT ON THE PR-INDUCED TC DEPRESSION IN THE SERIES R1-XPRXBA2CU3O7-Z (R=SM,GD,Y,ER,TM)" 1992 9 "PHYSICA C,199(1992)285" "SM,GD,Y,ER,TM,PR,BA,CU,O" 4304 PHC1990285 Tc/Tc0 = 0.638 for x=0.2 "(Y,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O7-Z Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1992 Y123 K TC4304 "CUO,BACO3,PR6O11,R2O3" 1 "MIXTURE-CAL(920C,20H IN AIR)-PELLET-CAL(940C,3DAYS IN O2)-COOL TO RT(1C/MIN)" "RARE-EARTH IONIC SIZE EFFECT ON THE PR-INDUCED TC DEPRESSION IN THE SERIES R1-XPRXBA2CU3O7-Z (R=SM,GD,Y,ER,TM)" 1992 9 "PHYSICA C,199(1992)285" "SM,GD,Y,ER,TM,PR,BA,CU,O" 4305 PHC1990285 Tc/Tc0 = 0.823 for x=0.2 "(Er,Pr)Ba2Cu3O7" Er0.8Pr0.2Ba2Cu3O7-Z Er 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1992 Y123 K TC4305 "CUO,BACO3,PR6O11,R2O3" 1 "MIXTURE-CAL(920C,20H IN AIR)-PELLET-CAL(940C,3DAYS IN O2)-COOL TO RT(1C/MIN)" "RARE-EARTH IONIC SIZE EFFECT ON THE PR-INDUCED TC DEPRESSION IN THE SERIES R1-XPRXBA2CU3O7-Z (R=SM,GD,Y,ER,TM)" 1992 9 "PHYSICA C,199(1992)285" "SM,GD,Y,ER,TM,PR,BA,CU,O" 4306 PHC1990285 Tc/Tc0 = 0.871 for x=0.2 "(Tm,Pr)Ba2Cu3O7" Tm0.8Pr0.2Ba2Cu3O7-Z Tm 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1992 Y123 K TC4306 "CUO,BACO3,PR6O11,R2O3" 1 "MIXTURE-CAL(920C,20H IN AIR)-PELLET-CAL(940C,3DAYS IN O2)-COOL TO RT(1C/MIN)" "RARE-EARTH IONIC SIZE EFFECT ON THE PR-INDUCED TC DEPRESSION IN THE SERIES R1-XPRXBA2CU3O7-Z (R=SM,GD,Y,ER,TM)" 1992 9 "PHYSICA C,199(1992)285" "SM,GD,Y,ER,TM,PR,BA,CU,O" 4307 PHC1990276 "HALL EFFECT BY VAN DER PAUW, NOT S/C" Bi2Sr2CuO6 Bi2Sr2Cu1O6.17 Bi 2 Sr 2 Cu 1 O 6+Z 6.17 1992 Bi2201 K 4.2 -8.5 TP4307 8.00E-10 5 RH4307 1 SEE SSC0720697 TRANSPORT PROPERTIES OF BI2SR2-XLAXCUO6+Z 1992 9 "PHYSICA C,199(1992)276" "BI,SR,LA,CU,O" 4308 PHC1990276 "Bi2(Sr,La)2CuO6" Bi2Sr1.9La0.1Cu1O6.2 Bi 2 Sr 1.9 La 0.1 Cu 1 O 6+Z 6.2 1992 Bi2201 K 12 12 -11.9 TP4308 2.40E-09 5 RH4308 1 SEE SSC0720697 TRANSPORT PROPERTIES OF BI2SR2-XLAXCUO6+Z 1992 9 "PHYSICA C,199(1992)276" "BI,SR,LA,CU,O" 4309 PHC1990276 "Bi2(Sr,La)2CuO6" Bi2Sr1.8La0.2Cu1O6.3 Bi 2 Sr 1.8 La 0.2 Cu 1 O 6+Z 6.3 1992 Bi2201 K 18 18 -10.8 TP4309 1 SEE SSC0720697 TRANSPORT PROPERTIES OF BI2SR2-XLAXCUO6+Z 1992 9 "PHYSICA C,199(1992)276" "BI,SR,LA,CU,O" 4310 PHC1990276 "Bi2(Sr,La)2CuO6" Bi2Sr1.6La0.4Cu1O6.35 Bi 2 Sr 1.6 La 0.4 Cu 1 O 6+Z 6.35 1992 Bi2201 K 20 20 -7.3 TP4310 1 SEE SSC0720697 TRANSPORT PROPERTIES OF BI2SR2-XLAXCUO6+Z 1992 9 "PHYSICA C,199(1992)276" "BI,SR,LA,CU,O" 4311 PHC1990276 "Bi2(Sr,La)2CuO6" Bi2Sr1.5La0.5Cu1O6.38 Bi 2 Sr 1.5 La 0.5 Cu 1 O 6+Z 6.38 1992 Bi2201 K 21 21 -1 TP4311 1 SEE SSC0720697 TRANSPORT PROPERTIES OF BI2SR2-XLAXCUO6+Z 1992 9 "PHYSICA C,199(1992)276" "BI,SR,LA,CU,O" 4312 PHC1990276 "Bi2(Sr,La)2CuO6" Bi2Sr1.4La0.6Cu1O6.42 Bi 2 Sr 1.4 La 0.6 Cu 1 O 6+Z 6.42 1992 Bi2201 K 5 5 1.2 TP4312 1 SEE SSC0720697 TRANSPORT PROPERTIES OF BI2SR2-XLAXCUO6+Z 1992 9 "PHYSICA C,199(1992)276" "BI,SR,LA,CU,O" 4313 PHC1990276 NOT S/C "Bi2(Sr,La)2CuO6" Bi2Sr1La1Cu1O6.6 Bi 2 Sr 1 La 1 Cu 1 O 6+Z 6.6 1992 Bi2201 K 4.2 1 SEE SSC0720697 TRANSPORT PROPERTIES OF BI2SR2-XLAXCUO6+Z 1992 9 "PHYSICA C,199(1992)276" "BI,SR,LA,CU,O" 4314 PRL0711238 "LINEAR REGION IN HC2(T) NOT EXIST, FIGURE SHOWS HC2(T)" Tl2Ba2CuO6 Tl2Ba2Cu1O6 Tl 2 Ba 2 Cu 1 O 6 3 1993 Tl2201 K 15 1.8 15 T resistive transition 15.8 0.025 0.195 RESISTIVE UPPER CRITICAL FIELD OF TL2BA2CUO6 AT LOW TEMPERATURES AND HIGH MAGNETIC FIELDS 1993 8 "PHYS.REV.LETT.,71(1993)1238" 4315 PHC1990240 "(La,Eu)CaBaCu3O7" La0.8Eu0.2Ca1Ba1Cu3OZ La 0.8 Eu 0.2 Ca 1 Ba 1 Cu 3 O Z 1 1992 2 Y123 3.866 11.587 K 69 69 8.61 1 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 4316 PHC1990240 "(La,Eu)CaBaCu3O7" La0.6Eu0.4Ca1Ba1Cu3OZ La 0.6 Eu 0.4 Ca 1 Ba 1 Cu 3 O Z 1 1992 2 Y123 3.863 11.573 K 65 65 10.17 1 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 4317 PHC1990240 "(La,Eu)CaBaCu3O7" La0.4Eu0.6Ca1Ba1Cu3OZ La 0.4 Eu 0.6 Ca 1 Ba 1 Cu 3 O Z 1 1992 2 Y123 3.857 11.595 K 62 62 6.92 1 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 4318 PHC1990240 "(La,Eu)CaBaCu3O7" Eu1Ca1Ba1Cu3OZ Eu 1 Ca 1 Ba 1 Cu 3 O Z 1 1992 Y123 3.865 11.637 K 53 53 31.37 1 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 4319 PHC1990240 "(La,Sm)CaBaCu3O7" La0.8Sm0.2Ca1Ba1Cu3O7-Z La 0.8 Sm 0.2 Ca 1 Ba 1 Cu 3 O 7-Z 1 1992 2 Y123 3.861 11.626 K 71 71 2.7 1 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 4320 PHC1990240 "(La,Sm)CaBaCu3O7" La0.6Sm0.4Ca1Ba1Cu3O7-Z La 0.6 Sm 0.4 Ca 1 Ba 1 Cu 3 O 7-Z 1 1992 2 Y123 3.859 11.612 K 68 68 5.81 1 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 4321 PHC1990240 "(La,Sm)CaBaCu3O7" La0.4Sm0.6Ca1Ba1Cu3O7-Z La 0.4 Sm 0.6 Ca 1 Ba 1 Cu 3 O 7-Z 1 1992 2 Y123 3.853 11.613 K 64 64 4.45 1 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 4322 PHC1990240 "(La,Sm)CaBaCu3O7" La0.2Sm0.8Ca1Ba1Cu3O7-Z La 0.2 Sm 0.8 Ca 1 Ba 1 Cu 3 O 7-Z 1 1992 2 Y123 K 56 56 8.72 1 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 4323 PHC1990240 "(La,Sm)CaBaCu3O7" Sm1Ca1Ba1Cu3O7-Z Sm 1 Ca 1 Ba 1 Cu 3 O 7-Z 1 1992 Y123 K 39 39 33.39 1 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 4324 PHC1990240 STRUCTURE CALLED ALSO AS 1113 PHASE "(La,Nd)CaBaCu3O7" La1Ca1Ba1Cu3O7-Z La 1 Ca 1 Ba 1 Cu 3 O 7-Z 1 1992 2 Y123 3.871 11.61 K 72 72 1.84 1 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 4325 PHC1990240 4324 "(La,Nd)CaBaCu3O7" La0.8Nd0.2Ca1Ba1Cu3O7-Z La 0.8 Nd 0.2 Ca 1 Ba 1 Cu 3 O 7-Z 1 1992 2 Y123 3.866 11.606 K 71 71 3.96 1 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 4326 PHC1990240 4324 "(La,Nd)CaBaCu3O7" La0.6Nd0.4Ca1Ba1Cu3O7-Z La 0.6 Nd 0.4 Ca 1 Ba 1 Cu 3 O 7-Z 1 1992 2 Y123 3.864 11.617 K 67 67 3.52 1 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 4327 PHC1990240 4324 "(La,Nd)CaBaCu3O7" La0.4Nd0.6Ca1Ba1Cu3O7-Z La 0.4 Nd 0.6 Ca 1 Ba 1 Cu 3 O 7-Z 1 1992 2 Y123 3.86 11.622 K 63 63 4.64 1 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 4328 PHC1990240 4324 "(La,Nd)CaBaCu3O7" La0.2Nd0.8Ca1Ba1Cu3O7-Z La 0.2 Nd 0.8 Ca 1 Ba 1 Cu 3 O 7-Z 1 1992 2 Y123 3.857 11.628 K 57 57 12.23 1 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 4329 PHC1990240 4324 "(La,Nd)CaBaCu3O7" Nd1Ca1Ba1Cu3O7-Z Nd 1 Ca 1 Ba 1 Cu 3 O 7-Z 1 1992 2 Y123 3.854 11.629 K 46 46 20.15 1 PHASE STABILITY AND SUPERCONDUCTING CHARACTERISTICS OF CABA(LA1-XRX)CU3O7-Z(R=RARE EARTH) SYSTEM 1992 9 "CHEMISTRY DIVISION, BHABHA ATOMIC RESEARCH CENTRE, INDIA" "PHYSICA C,199(1992)240" "CA,BA,LA,R,CU,O" 4330 PHC2030144 "SEMICOND.-LIKE,FERROMAGNETIC,COERCIVE FORCE=7960 OE, MOMENT PER CO CALCULATED FROM CURIE CONST." "Bi2Ca2(Ca,La)Co2OZ" Bi2Ca2.5La0.5Co2OZ Bi 2 Ca 2.5 La 0.5 Co 2 O Z 1992 1.8 147 3 Bi2212 5.54 5.36 29.32 K 900 "BI2O3,LA2O3,CACO3,CO3O4" 1 "MIXTURE-CAL(840C IN AIR)-SIN(870-910,50H IN AIR)" "MAGNETIC PROPERTIES OF BI-BASED LAYERED COBALT OXIDES, BAI2CA3-XLAXCO2OY" 1992 12 "SUPERCONDUCTIVITY RESEARCH LABORATORY, TOKYO" "PHYSICA C,203(1992)144" "BI,CA,LA,CO,O" 4331 PHC2020209 PHASE DIAGRAM FOR 4<4+Z<4.09 La2CuO4 La2Cu1O4.09 La 2 Cu 1 O 4+Z 4.09 1992 T K 32 32 640 "BACO3,Y2O3,CUO" 1 TRANSPORT AND MAGNETIC PROPERTIES OF THE SUPERCONDUCTING LA2CUO4-Z PHASE (0Tc C=C(L)+r*T, for T5%CaHgO2" HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8+z Hg 1 Ba 2 Ca 2 Cu 3 O 8+z 1994 2 Hg1223 P4/mmm A 3.852 15.83 K 134.5 134.5 134.5 1 "Ba2Ca2Cu3O7+HgO-mix-pellet-quartz tube-heat(860C,6H)-ANN(300C,6H in O2)" Single-step synthesis of bulk HgBa2Ca2Cu3O8+z 1994 3 "Chemistry Division,Oal Ridge National Laboratory, Oak Ridge,TN,USA" "Physica C, 222(1994)7" "Hg,Ba,Ca,Cu,O" 4538 PHC2220013 "(Pb,Hg)Sr2(Ca,Y)Cu2O7" Pb0.5Hg0.5Sr2Ca0.8Y0.2Cu2O7-z Pb 0.5 Hg 0.5 Sr 2 Ca 0.8 Y 0.2 Cu 2 O 7-z 1994 2 Pb1212 K "PbO,HgO,SrO2,CaO,Y2O3,CuO" see Solid State Chem. 103(1993)280 "Crystal structure of the (Pb,Hg)Sr2(Ca,Y)Cu2O7-z superconductor" 1994 3 "Material Research Laboratories, Industrial Technology Research Institute,Hsinchu,Taiwan" "Phisica C, 222(1994)13" "Pb,Hg,Sr,Ca,Y,Cu,O" 4539 PHC2220013 "(Pb,Hg)Sr2(Ca,Y)Cu2O7" Pb0.5Hg0.5Sr2Ca0.7Y0.3Cu2O7-z Pb 0.5 Hg 0.5 Sr 2 Ca 0.7 Y 0.3 Cu 2 O 7-z 1994 2 Pb1212 K "PbO,HgO,SrO2,CaO,Y2O3,CuO" see Solid State Chem. 103(1993)280 "Crystal structure of the (Pb,Hg)Sr2(Ca,Y)Cu2O7-z superconductor" 1994 3 "Material Research Laboratories, Industrial Technology Research Institute,Hsinchu,Taiwan" "Phisica C, 222(1994)13" "Pb,Hg,Sr,Ca,Y,Cu,O" 4540 PHC2220013 "(Pb,Hg)Sr2(Ca,Y)Cu2O7" Pb0.5Hg0.5Sr2Ca0.6Y0.4Cu2O7-z Pb 0.5 Hg 0.5 Sr 2 Ca 0.6 Y 0.4 Cu 2 O 7-z 1994 2 Pb1212 K "PbO,HgO,SrO2,CaO,Y2O3,CuO" see Solid State Chem. 103(1993)280 "Crystal structure of the (Pb,Hg)Sr2(Ca,Y)Cu2O7-z superconductor" 1994 3 "Material Research Laboratories, Industrial Technology Research Institute,Hsinchu,Taiwan" "Phisica C, 222(1994)13" "Pb,Hg,Sr,Ca,Y,Cu,O" 4541 PHC2220013 "(Pb,Hg)Sr2(Ca,Y)Cu2O7" Pb0.5Hg0.5Sr2Ca0.5Y0.5Cu2O7-z Pb 0.5 Hg 0.5 Sr 2 Ca 0.5 Y 0.5 Cu 2 O 7-z 1994 2 Pb1212 A 3.817 11.948 K "PbO,HgO,SrO2,CaO,Y2O3,CuO" see Solid State Chem. 103(1993)280 "Crystal structure of the (Pb,Hg)Sr2(Ca,Y)Cu2O7-z superconductor" 1994 3 "Material Research Laboratories, Industrial Technology Research Institute,Hsinchu,Taiwan" "Phisica C, 222(1994)13" "Pb,Hg,Sr,Ca,Y,Cu,O" 4542 PHC2220019 for oz=7.6 sample has T1=65K and T3=90K "(Pb,Hg)Sr2(Nd,Ca)Cu2O7" Pb0.7Hg0.3Sr2Nd0.3Ca0.7Cu2O6.6 Pb 0.7 Hg 0.3 Sr 2 Nd 0.3 Ca 0.7 Cu 2 O 7 6.6 1994 2 Pb1212 P4/mmm A 3.812 12.134 K 80 100 90 "PbO2,HgO,SrO2,SrCuO2,CuO,CaO,Nd2O3" 1 mixtre-heat(800C) Lead-mercury-based superconductors. The 1212 cuprate Pb0.7Hg0.3Sr2+xCa0.7Nd0.3-xCu2O7-z and the new oxycarbonate Pb0.7Hg0.3Sr4Cu2CO3O7 1994 3 "CNRS, Universite de Caen, Caen, France" "Physica C, 222(1994)19" "Pb,Hg,Sr,Ca,Nd,Cu,O,C" 4543 PHC2220019 "(Pb,Hg)Sr4Cu2(CO3)O7" Pb0.7Hg0.3Sr4Cu2C1O10 Pb 0.7 Hg 0.3 Sr 4 Cu 2 C 1 O 10 1994 2 Pb1212 P4/mmm A 3.824 16.468 K 68 68 68 1 "mixture-heat(800C)-ANN(400C,30min in 90%Ar+10%H2)" Lead-mercury-based superconductors. The 1212 cuprate Pb0.7Hg0.3Sr2+xCa0.7Nd0.3-xCu2O7-z and the new oxycarbonate Pb0.7Hg0.3Sr4Cu2CO3O7 1994 3 "CNRS, Universite de Caen, Caen, France" "Physica C, 222(1994)19" "Pb,Hg,Sr,Ca,Nd,Cu,O,C" 4544 PR04900572 film YBa2Cu3O7 Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 7-z 6.9 4 1994 Y123 K 89.8 89.8 T/K 1.7 "films grown by BaF2 process. for resistivity, they were patterned photolithographically. O-content was controlled by isobaric sequential anneals at 550C under reduced partial O2 pressure" Upper-critical fields of YBa2Cu3O7-z epitaxial thin films with variable oxygen deficiency z 1994 1 "Department of Physics,University of Tennessee,Knoxville,Tennessee,USA" "Phys.Rev.B, 49(1994)572" "Y,Ba,Cu,O" 4546 PR04900572 film YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7-z 7 4 1994 Y123 K 90 90.5 90.25 T/K 1.7 "films grown by BaF2 process. for resistivity, they were patterned photolithographically. O-content was controlled by isobaric sequential anneals at 550C under reduced partial O2 pressure" Upper-critical fields of YBa2Cu3O7-z epitaxial thin films with variable oxygen deficiency z 1994 1 "Department of Physics,University of Tennessee,Knoxville,Tennessee,USA" "Phys.Rev.B, 49(1994)572" "Y,Ba,Cu,O" 4547 PR04900572 film YBa2Cu3O7 Y1Ba2Cu3O6.8 Y 1 Ba 2 Cu 3 O 7-z 6.8 4 1994 Y123 K 89.1 89.1 T/K 1.7 "films grown by BaF2 process. for resistivity, they were patterned photolithographically. O-content was controlled by isobaric sequential anneals at 550C under reduced partial O2 pressure" Upper-critical fields of YBa2Cu3O7-z epitaxial thin films with variable oxygen deficiency z 1994 1 "Department of Physics,University of Tennessee,Knoxville,Tennessee,USA" "Phys.Rev.B, 49(1994)572" "Y,Ba,Cu,O" 4548 PR04900580 YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 3 1994 Y123 K 92 92 m3/C 7.30E-10 5 RH4548 5 "ANN(420C,1 week in flowing O2)" Normal-state Hall effect in YBa2Cu3-xFexO7-z single crystals 1994 1 "Department of Physics,University of California,Davis,California,USA" "Phys.Rev.B, 49(1994)580" "Y,Ba,Cu,Fe,O" 4549 PR04900580 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.98Fe0.02O7-z Y 1 Ba 2 Cu 2.98 Fe 0.02 O 7-z 3 1994 Y123 K 93.4 93.4 m3/C 0.000000001 5 RH4549 5 "ANN(420C,1 week in flowing O2)" Normal-state Hall effect in YBa2Cu3-xFexO7-z single crystals 1994 1 "Department of Physics,University of California,Davis,California,USA" "Phys.Rev.B, 49(1994)580" "Y,Ba,Cu,Fe,O" 4550 PR04900580 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.96Fe0.04O7-z Y 1 Ba 2 Cu 2.96 Fe 0.04 O 7-z 3 1994 Y123 K 90.5 90.5 m3/C 1.10E-09 5 RH4550 5 "ANN(420C,1 week in flowing O2)" Normal-state Hall effect in YBa2Cu3-xFexO7-z single crystals 1994 1 "Department of Physics,University of California,Davis,California,USA" "Phys.Rev.B, 49(1994)580" "Y,Ba,Cu,Fe,O" 4551 PR04900580 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.88Fe0.12O7-z Y 1 Ba 2 Cu 2.88 Fe 0.12 O 7-z 3 1994 Y123 K 75 75 m3/C 1.60E-09 5 RH4551 5 "ANN(420C,1 week in flowing O2)" Normal-state Hall effect in YBa2Cu3-xFexO7-z single crystals 1994 1 "Department of Physics,University of California,Davis,California,USA" "Phys.Rev.B, 49(1994)580" "Y,Ba,Cu,Fe,O" 4552 PR04900580 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.8Fe0.2O7-z Y 1 Ba 2 Cu 2.8 Fe 0.2 O 7-z 3 1994 Y123 K 64 64 m3/C 2.30E-09 RH4552 5 "ANN(420C,1 week in flowing O2)" Normal-state Hall effect in YBa2Cu3-xFexO7-z single crystals 1994 1 "Department of Physics,University of California,Davis,California,USA" "Phys.Rev.B, 49(1994)580" "Y,Ba,Cu,Fe,O" 4553 PHC2210039 "YbBa2(Cu,Zn)3O7" Yb1Ba2Cu2.98Zn0.02O7-z Yb 1 Ba 2 Cu 2.98 Zn 0.02 O 7-z 1 1994 Y123 K 83.3 83.3 TC4553 "R2O3,BaCO3,CuO,ZnO" 1 "mixture-CAL(915C,24H)-ground-pellet-SIN(925C,72H in flowing O2)-ANN(680C,10H + 400C,10H)-FC to RT in flowing O2" "Effect of Zn doping on the superconductivity of RBa2Cu3-xZnxO7-z (R=Yb,Er,Y,Dy,Gd,Eu,Sm,Nd)" 1994 2 "Physica C, 221(1994)39-45" "Ba,Cu,O,Zn,Yb,Er,Y,Dy,Gd,Eu,Sm,Nd" 4554 PHC2210039 "ErBa2(Cu,Zn)3O7" Er1Ba2Cu2.98Zn0.02O7-z Er 1 Ba 2 Cu 2.98 Zn 0.02 O 7-z 1 1994 Y123 K 85.5 85.5 TC4554 "R2O3,BaCO3,CuO,ZnO" 1 "mixture-CAL(915C,24H)-ground-pellet-SIN(925C,72H in flowing O2)-ANN(680C,10H + 400C,10H)-FC to RT in flowing O2" "Effect of Zn doping on the superconductivity of RBa2Cu3-xZnxO7-z (R=Yb,Er,Y,Dy,Gd,Eu,Sm,Nd)" 1994 2 "Physica C, 221(1994)39-45" "Ba,Cu,O,Zn,Yb,Er,Y,Dy,Gd,Eu,Sm,Nd" 4555 PHC2210039 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.98Zn0.02O7-z Y 1 Ba 2 Cu 2.98 Zn 0.02 O 7-z 1 1994 Y123 K 84.7 84.7 TC4555 "R2O3,BaCO3,CuO,ZnO" 1 "mixture-CAL(915C,24H)-ground-pellet-SIN(925C,72H in flowing O2)-ANN(680C,10H + 400C,10H)-FC to RT in flowing O2" "Effect of Zn doping on the superconductivity of RBa2Cu3-xZnxO7-z (R=Yb,Er,Y,Dy,Gd,Eu,Sm,Nd)" 1994 2 "Physica C, 221(1994)39-45" "Ba,Cu,O,Zn,Yb,Er,Y,Dy,Gd,Eu,Sm,Nd" 4556 PHC2210039 "DyBa2(Cu,Zn)3O7" Dy1Ba2Cu2.98Zn0.02O7-z Dy 1 Ba 2 Cu 2.98 Zn 0.02 O 7-z 1 1994 Y123 K 84.8 84.8 TC4556 "R2O3,BaCO3,CuO,ZnO" 1 "mixture-CAL(915C,24H)-ground-pellet-SIN(925C,72H in flowing O2)-ANN(680C,10H + 400C,10H)-FC to RT in flowing O2" "Effect of Zn doping on the superconductivity of RBa2Cu3-xZnxO7-z (R=Yb,Er,Y,Dy,Gd,Eu,Sm,Nd)" 1994 2 "Physica C, 221(1994)39-45" "Ba,Cu,O,Zn,Yb,Er,Y,Dy,Gd,Eu,Sm,Nd" 4557 PHC2210039 "GdBa2(Cu,Zn)3O7" Gd1Ba2Cu2.98Zn0.02O7-z Gd 1 Ba 2 Cu 2.98 Zn 0.02 O 7-z 1 1994 Y123 K 86 86 TC4557 "R2O3,BaCO3,CuO,ZnO" 1 "mixture-CAL(915C,24H)-ground-pellet-SIN(925C,72H in flowing O2)-ANN(680C,10H + 400C,10H)-FC to RT in flowing O2" "Effect of Zn doping on the superconductivity of RBa2Cu3-xZnxO7-z (R=Yb,Er,Y,Dy,Gd,Eu,Sm,Nd)" 1994 2 "Physica C, 221(1994)39-45" "Ba,Cu,O,Zn,Yb,Er,Y,Dy,Gd,Eu,Sm,Nd" 4558 PHC2210039 "EuBa2(Cu,Zn)3O7" Eu1Ba2Cu2.98Zn0.02O7-z Eu 1 Ba 2 Cu 2.98 Zn 0.02 O 7-z 1 1994 Y123 K 86 86 TC4558 "R2O3,BaCO3,CuO,ZnO" 1 "mixture-CAL(915C,24H)-ground-pellet-SIN(925C,72H in flowing O2)-ANN(680C,10H + 400C,10H)-FC to RT in flowing O2" "Effect of Zn doping on the superconductivity of RBa2Cu3-xZnxO7-z (R=Yb,Er,Y,Dy,Gd,Eu,Sm,Nd)" 1994 2 "Physica C, 221(1994)39-45" "Ba,Cu,O,Zn,Yb,Er,Y,Dy,Gd,Eu,Sm,Nd" 4559 PHC2210039 "SmBa2(Cu,Zn)3O7" Sm1Ba2Cu2.98Zn0.02O7-z Sm 1 Ba 2 Cu 2.98 Zn 0.02 O 7-z 1 1994 Y123 K 86.3 86.3 TC4559 "R2O3,BaCO3,CuO,ZnO" 1 "mixture-CAL(915C,24H)-ground-pellet-SIN(925C,72H in flowing O2)-ANN(680C,10H + 400C,10H)-FC to RT in flowing O2" "Effect of Zn doping on the superconductivity of RBa2Cu3-xZnxO7-z (R=Yb,Er,Y,Dy,Gd,Eu,Sm,Nd)" 1994 2 "Physica C, 221(1994)39-45" "Ba,Cu,O,Zn,Yb,Er,Y,Dy,Gd,Eu,Sm,Nd" 4560 PHC2210039 "NdBa2(Cu,Zn)3O7" Nd1Ba2Cu2.98Zn0.02O7-z Nd 1 Ba 2 Cu 2.98 Zn 0.02 O 7-z 1 1994 Y123 K 85.5 85.5 TC4560 "R2O3,BaCO3,CuO,ZnO" 1 "mixture-CAL(915C,24H)-ground-pellet-SIN(925C,72H in flowing O2)-ANN(680C,10H + 400C,10H)-FC to RT in flowing O2" "Effect of Zn doping on the superconductivity of RBa2Cu3-xZnxO7-z (R=Yb,Er,Y,Dy,Gd,Eu,Sm,Nd)" 1994 2 "Physica C, 221(1994)39-45" "Ba,Cu,O,Zn,Yb,Er,Y,Dy,Gd,Eu,Sm,Nd" 4561 PHC2200001 "(Bi,Hg)Sr2YCu2O7" Bi0.33Hg0.67Sr2Y1Cu2O7 Bi 0.33 Hg 0.67 Sr 2 Y 1 Cu 2 O 7 1 1994 2 Hg1212 A 3.816 12.02 K 74 74 74 "Bi2O3,CuO,SrCO3,CaCO3,Y2O3,HgO" 1 precursor(Bi-Sr-Ca-Cu-Y-O)+HgO-wrapped in Au foil-ANN(in quartz tube) "Studies on (Hg,Bi)-1212: A 92K superconductor" 1994 2 "Physica C, 220(1994)1-6" "Hg,Bi,Sr,Y,Ca,Cu,O" 4562 PHC2200001 "(Bi,Hg)Sr2(Y,Ca)Cu2O7" Bi0.33Hg0.67Sr2Y0.5Ca0.5Cu2O7 Bi 0.33 Hg 0.67 Sr 2 Y 0.5 Ca 0.5 Cu 2 O 7 1 1994 2 Hg1212 A 3.811 12 K 92 92 92 "Bi2O3,CuO,SrCO3,CaCO3,Y2O3,HgO" 1 precursor(Bi-Sr-Ca-Cu-Y-O)+HgO-wrapped in Au foil-ANN(in quartz tube) "Studies on (Hg,Bi)-1212: A 92K superconductor" 1994 2 "Physica C, 220(1994)1-6" "Hg,Bi,Sr,Y,Ca,Cu,O" 4563 PHC2200001 not superconducting "(Bi,Hg)Sr2CaCu2O7" Bi0.33Hg0.67Sr2Ca1Cu2O7 Bi 0.33 Hg 0.67 Sr 2 Ca 1 Cu 2 O 7 3 1994 2 Hg1212 A 5.345 24.329 K 4.2 "Bi2O3,CuO,SrCO3,CaCO3,Y2O3,HgO" 1 precursor(Bi-Sr-Ca-Cu-Y-O)+HgO-wrapped in Au foil-ANN(in quartz tube) "Studies on (Hg,Bi)-1212: A 92K superconductor" 1994 2 "Physica C, 220(1994)1-6" "Hg,Bi,Sr,Y,Ca,Cu,O" 4564 PHC2220027 "as-grown,this system has a superstructure a=24.71, b=5.49, c=16.94" HgBa2Sr2Cu2O6(CO3) Hg1Ba2Sr2Cu2C1O9+z Hg 1 Ba 2 Sr 2 Cu 2 C 1 O 9+z 1994 2 A 3.88 16.94 K 46 58 58 58 58 20 "HgO,Ba2CuO3,Sr2CuO2(CO3)" 1 "mixture-pellet-seal in evacuated quartz ampoule-fire(800C,5H)-Q" New Hg based oxycarbonate superconductor HgBa2Sr2Cu2O6+z(CO3) 1994 3 "Department of Physics, Aoyama-Gakuen University, Tokyo,Japan" "Physica C, 222(1994)27-32" "Hg,Ba,Sr,Cu,O,C" 4565 PHC2220027 HgBa2Sr2Cu2O6(CO3) Hg1Ba2Sr2Cu2C1O9+z Hg 1 Ba 2 Sr 2 Cu 2 C 1 O 9+z 1994 2 K 58 66 66 66 66 20 "HgO,Ba2CuO3,Sr2CuO2(CO3)" 1 "mixture-pellet-seal in evacuated quartz ampoule-fire(800C,5H)-Q" New Hg based oxycarbonate superconductor HgBa2Sr2Cu2O6+z(CO3) 1994 3 "Department of Physics, Aoyama-Gakuen University, Tokyo,Japan" "Physica C, 222(1994)27-32" "Hg,Ba,Sr,Cu,O,C" 4566 PHC2220047 as-sintered HgBa2CuO4 Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1994 Hg1201 K 50 75 75 micro.V/K 36 TP4566 m.ohm.cm 600 "BaO,HgO,CuO" 1 mixture-SIN Thermoelectric power and resistivity of bulk HgBa2CuO4+y superconductors and the effects of annealing 1994 3 "Phys.Dept.,Victoria University of Wellington,Wellington,New Zealand" "Physica C, 222(1994)47-51" "Hg,Ba,Cu,O" 4567 PHC2220047 as-annealing HgBa2CuO4 Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1994 Hg1201 K 97 97 micro.V/K 0.9 TP4567 m.ohm.cm 2 "BaO,HgO,CuO" 1 "mixture-SIN--ANN(500C,12H in flowing O2)" Thermoelectric power and resistivity of bulk HgBa2CuO4+y superconductors and the effects of annealing 1994 3 "Phys.Dept.,Victoria University of Wellington,Wellington,New Zealand" "Physica C, 222(1994)47-51" "Hg,Ba,Cu,O" 4568 PHC2190047 "(Eu,Sr)2(Eu,Ce)2Cu3O8" Eu1.6Sr1.8Ce0.6Cu3O8.6 Eu 1.6 Sr 1.8 Ce 0.6 Cu 3 O 8.6 8.6 1994 2 223 A 3.844 28.09 K 30 30 "R2O3,SrCO3,CuO" 1 "mixture-pellet-ANN(1000C,20H)-heat(600C,25H under 120 atm O2)" "Synthesis and investigation of Sr-containing 223 and 1222 complex oxides in the R-Sr-Ce-Cu-O system (R=Pr,Nd,Sm-Gd,Dy-Yb and Y)" 1994 1 "Department of Chemistry,Moscow State University, Moscow,Russian Federation" "Physica C, 219(1994)47-56" "Sr,Ce,Cu,O,Pr,Nd,Sm,Gd,Dy,Yb,Y" 4569 PHC2190047 "(Y,Cu)(Y,Sr)2(Ce,Sr)2Cu2O8" Y1.5Sr1.8Ce1Cu2.7O8.6 Y 1.5 Sr 1.8 Ce 1 Cu 2.7 O 8.6 8.6 1994 2 Cu1222 A 3.816 29.12 K 4.2 "R2O3,SrCO3,CuO" 1 "mixture-pellet-ANN(1000C,20H)-heat(600C,25H under 120 atm O2)" "Synthesis and investigation of Sr-containing 223 and 1222 complex oxides in the R-Sr-Ce-Cu-O system (R=Pr,Nd,Sm-Gd,Dy-Yb and Y)" 1994 1 "Department of Chemistry,Moscow State University, Moscow,Russian Federation" "Physica C, 219(1994)47-56" "Sr,Ce,Cu,O,Pr,Nd,Sm,Gd,Dy,Yb,Y" 4570 PHC2190047 "(Sm,Sr)2(Sm,Ce)2Cu3O8" Sm1.6Sr1.7Ce0.7Cu3O8+z Sm 1.6 Sr 1.7 Ce 0.7 Cu 3 O 8+z 1994 2 223 A 3.856 28.18 K 36 36 "R2O3,SrCO3,CuO" 1 "mixture-pellet-ANN(1000C,20H)-heat(600C,25H under 120 atm O2)" "Synthesis and investigation of Sr-containing 223 and 1222 complex oxides in the R-Sr-Ce-Cu-O system (R=Pr,Nd,Sm-Gd,Dy-Yb and Y)" 1994 1 "Department of Chemistry,Moscow State University, Moscow,Russian Federation" "Physica C, 219(1994)47-56" "Sr,Ce,Cu,O,Pr,Nd,Sm,Gd,Dy,Yb,Y" 4571 PHC2210001 measured under He-gas pressure(hydrostatic) HgBa2CuO4 Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1994 GPa 69.9 2 Hg1201 A 3.879 9.516 A/GPa 4.26 5.83 "DLDP=(1/L)(dL/dP) in e-3 unit, by NED" K 97 97 97 95 1 "Ba2CuO3+HgO-pellet-sealed in evacuated quartz-heat(840C,8H)-ANN(in flowing O2)" "Pressur-induced structural changes in superconducting HgBa2Cun-1CunO2n+2+z (n=1,2,3) compounds" 1994 2 "Physica C,221(1994)1-10" "Hg,Ba,Ca,Cu,O" 4572 PHC2210001 measured under He-gas pressure(hydrostatic) HgBa2CaCu2O6 Hg1Ba2Ca1Cu2O6+z Hg 1 Ba 2 Ca 1 Cu 2 O 6+z 1994 GPa 84.1 2 Hg1212 p4/mmm 123 A 3.849 12.646 A/GPa 2.94 6.04 "DLDP=(1/L)(dL/dP) in e-3 unit, by NED" K 128 128 128 95 "HgO,BaO,CaO,CuO" 1 "mixture-pellet-sealed in evacuated quartz-heat(810 or 860C, 8 or 6H)-ANN in 2%O2+Ar or O2" "Pressur-induced structural changes in superconducting HgBa2Cun-1CunO2n+2+z (n=1,2,3) compounds" 1994 2 "Physica C,221(1994)1-10" "Hg,Ba,Ca,Cu,O" 4573 PHC2210001 measured under He-gas pressure(hydrostatic) HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8+z Hg 1 Ba 2 Ca 2 Cu 3 O 8+z 1994 GPa 93 2 Hg1223 p4/mmm 123 A 3.846 15.773 A/GPa 2.57 5.62 "DLDP=(1/L)(dL/dP) in e-3 unit, by NED" K 135 135 135 95 "HgO,BaO,CaO,CuO" 1 "mixture-pellet-sealed in evacuated quartz-heat(810 or 860C, 8 or 6H)-ANN in 2%O2+Ar or O2" "Pressur-induced structural changes in superconducting HgBa2Cun-1CunO2n+2+z (n=1,2,3) compounds" 1994 2 "Physica C,221(1994)1-10" "Hg,Ba,Ca,Cu,O" 4574 PRL0720128 "gap is for a-axis direction, for direction 45 degree from a-axis gap=23 meV" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1994 3 Bi2212 A 5.399 5.457 30.724 K 85 85 meV 36.6 5 1 "see Phys.Rev.B, 41(1990)6564" Observation of a-b Plane Gap Anisotropy in BiSr2CaCu2O8 with a Low Temperature Scanning Tunneling Microscope 1994 1 "Department of Physics and Astronomy,University of Kentucky,Lexington,Kentucky 40506-0055" "Rhys.Rev.Lett.,72(1994)0128" 4575 PHC2210278 "impurity Sr-Cu-O,GdInO3,Sr-Bi-O" "(Bi,In)Sr2GdCu2O7" Bi0.35In0.65Sr2Gd1Cu2Oz Bi 0.35 In 0.65 Sr 2 Gd 1 Cu 2 O z 1994 2 Tl1212 A 3.838 11.76 K 4.2 "Bi2O3,In2O3,SrCO3,Gd2O3,Ln2O3,CaCO3,CuO" 1 "mixture-CAL(1103K,5H in air with cover)-pellet-SIN(1283K,1H in flowing O2)-FC-ANN(973K,1H in flowing O2) -cool to 473K(1K/min)" "Synthesis and characterization of new cuprates with a (Bi,In)O monolayer: (Bi,In)Sr2(Gd,Ca)Cu2Oz" 1994 3 "Physica C, 221(1994)278-282" "Bi,In,Sr,Gd,Ca,Cu,O" 4576 PHC2210278 "impurity=Sr-Cu-O,GdInO3,Sr-Bi-O" "(Bi,In)Sr2(Gd,Ca)Cu2O7" Bi0.35In0.65Sr2Gd0.9Ca0.1Cu2Oz Bi 0.35 In 0.65 Sr 2 Gd 0.9 Ca 0.1 Cu 2 O z 1994 2 Tl1212 A 3.837 11.762 K 4.2 "Bi2O3,In2O3,SrCO3,Gd2O3,Ln2O3,CaCO3,CuO" 1 "mixture-CAL(1103K,5H in air with cover)-pellet-SIN(1283K,1H in flowing O2)-FC-ANN(973K,1H in flowing O2) -cool to 473K(1K/min)" "Synthesis and characterization of new cuprates with a (Bi,In)O monolayer: (Bi,In)Sr2(Gd,Ca)Cu2Oz" 1994 3 "Physica C, 221(1994)278-282" "Bi,In,Sr,Gd,Ca,Cu,O" 4577 PHC2210278 "impurity=Sr-Cu-O,GdInO3,Sr-Bi-O" "(Bi,In)Sr2(Gd,Ca)Cu2O7" Bi0.35In0.65Sr2Gd0.8Ca0.2Cu2Oz Bi 0.35 In 0.65 Sr 2 Gd 0.8 Ca 0.2 Cu 2 O z 1994 2 Tl1212 A 3.836 11.784 K 4.2 "Bi2O3,In2O3,SrCO3,Gd2O3,Ln2O3,CaCO3,CuO" 1 "mixture-CAL(1103K,5H in air with cover)-pellet-SIN(1283K,1H in flowing O2)-FC-ANN(973K,1H in flowing O2) -cool to 473K(1K/min)" "Synthesis and characterization of new cuprates with a (Bi,In)O monolayer: (Bi,In)Sr2(Gd,Ca)Cu2Oz" 1994 3 "Physica C, 221(1994)278-282" "Bi,In,Sr,Gd,Ca,Cu,O" 4578 PHC2210278 "impurity=Sr-Cu-O,GdInO3,Sr-Bi-O" "(Bi,In)Sr2(Gd,Ca)Cu2O7" Bi0.35In0.65Sr2Gd0.7Ca0.3Cu2Oz Bi 0.35 In 0.65 Sr 2 Gd 0.7 Ca 0.3 Cu 2 O z 1994 2 Tl1212 A 3.835 11.8 K 4.2 "Bi2O3,In2O3,SrCO3,Gd2O3,Ln2O3,CaCO3,CuO" 1 "mixture-CAL(1103K,5H in air with cover)-pellet-SIN(1283K,1H in flowing O2)-FC-ANN(973K,1H in flowing O2) -cool to 473K(1K/min)" "Synthesis and characterization of new cuprates with a (Bi,In)O monolayer: (Bi,In)Sr2(Gd,Ca)Cu2Oz" 1994 3 "Physica C, 221(1994)278-282" "Bi,In,Sr,Gd,Ca,Cu,O" 4579 PHC2210278 "impurity=Sr-Cu-O,GdInO3,Sr-Bi-O" "(Bi,In)Sr2(Gd,Ca)Cu2O7" Bi0.35In0.65Sr2Gd0.6Ca0.4Cu2Oz Bi 0.35 In 0.65 Sr 2 Gd 0.6 Ca 0.4 Cu 2 O z 1994 2 Tl1212 A 3.834 11.779 K 18 42 30 "Bi2O3,In2O3,SrCO3,Gd2O3,Ln2O3,CaCO3,CuO" 1 "mixture-CAL(1103K,5H in air with cover)-pellet-SIN(1283K,1H in flowing O2)-FC-ANN(973K,1H in flowing O2) -cool to 473K(1K/min)" "Synthesis and characterization of new cuprates with a (Bi,In)O monolayer: (Bi,In)Sr2(Gd,Ca)Cu2Oz" 1994 3 "Physica C, 221(1994)278-282" "Bi,In,Sr,Gd,Ca,Cu,O" 4580 PHC2210278 "impurity=Sr-Cu-O,GdInO3,Sr-Bi-O" "(Bi,In)Sr2(Gd,Ca)Cu2O7" Bi0.35In0.65Sr2Gd0.5Ca0.5Cu2Oz Bi 0.35 In 0.65 Sr 2 Gd 0.5 Ca 0.5 Cu 2 O z 1994 2 Tl1212 A 3.835 11.779 K 22 50 36 "Bi2O3,In2O3,SrCO3,Gd2O3,Ln2O3,CaCO3,CuO" 1 "mixture-CAL(1103K,5H in air with cover)-pellet-SIN(1283K,1H in flowing O2)-FC-ANN(973K,1H in flowing O2) -cool to 473K(1K/min)" "Synthesis and characterization of new cuprates with a (Bi,In)O monolayer: (Bi,In)Sr2(Gd,Ca)Cu2Oz" 1994 3 "Physica C, 221(1994)278-282" "Bi,In,Sr,Gd,Ca,Cu,O" 4581 PRL0721537 "photon dose=1.5e+25 photon/cm2, before photon dose Tc=73K" YBa2Cu3O7 Y1Ba2Cu3O6.7 Y 1 Ba 2 Cu 3 O 6.7 6.7 4 1994 Y123 K 77 77 m.ohm.cm 17 "film grown on SrTiO3(100) substrate by coevaporation method, heat treatment for each oxygen content" Effects of Photoinduced Hole Doping on Normal-State and Superconducting Transport in Oxygen-Deficient YBa2Cu3Oy 1994 3 "NTT Interdisciplinary Research Laboratories,Tokai,Ibaraki 319-11,Japan" "Phys.Rev.Lett.,72(1994)1537" 4582 PRL0721537 "photon dose=1.5e+25 photon/cm2, before photon dose Tc=45K, resistivity=0.3 mOhm.cm(77K)" YBa2Cu3O7 Y1Ba2Cu3O6.45 Y 1 Ba 2 Cu 3 O 6.45 6.45 4 1994 Y123 K 49 49 m.ohm.cm 0.25 17 "film grown on SrTiO3(100) substrate by coevaporation method, heat treatment for each oxygen content" Effects of Photoinduced Hole Doping on Normal-State and Superconducting Transport in Oxygen-Deficient YBa2Cu3Oy 1994 3 "NTT Interdisciplinary Research Laboratories,Tokai,Ibaraki 319-11,Japan" "Phys.Rev.Lett.,72(1994)1537" 4583 PRL0721537 "photon dose=1.5e+25 photon/cm2, before photon dose Tc=26K, resistivity=0.55 mOhm.cm(77K)" YBa2Cu3O7 Y1Ba2Cu3O6.4 Y 1 Ba 2 Cu 3 O 6.4 6.4 4 1994 Y123 K 34 34 m.ohm.cm 0.4 17 "film grown on SrTiO3(100) substrate by coevaporation method, heat treatment for each oxygen content" Effects of Photoinduced Hole Doping on Normal-State and Superconducting Transport in Oxygen-Deficient YBa2Cu3Oy 1994 3 "NTT Interdisciplinary Research Laboratories,Tokai,Ibaraki 319-11,Japan" "Phys.Rev.Lett.,72(1994)1537" 4584 PRL0721537 "photon dose=1.5e+25 photon/cm2, before photon dose Tc lower than 1.5K, resistivity=1.4 mOhm.cm(77K)" YBa2Cu3O7 Y1Ba2Cu3O6.35 Y 1 Ba 2 Cu 3 O 6.35 6.35 4 1994 Y123 K 15 15 m.ohm.cm 0.8 17 "film grown on SrTiO3(100) substrate by coevaporation method, heat treatment for each oxygen content" Effects of Photoinduced Hole Doping on Normal-State and Superconducting Transport in Oxygen-Deficient YBa2Cu3Oy 1994 3 "NTT Interdisciplinary Research Laboratories,Tokai,Ibaraki 319-11,Japan" "Phys.Rev.Lett.,72(1994)1537" 4585 PHC2200041 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1994 emu/g 0.00000182 3 Y124 A 3.837 3.868 27.203 K 80 2 80 m.ohm.cm 0.88 "Y2O3,Pr6O11,BaO2,CuO" 1 "mix in N2-pellet-SIN(900-980C24H in O2 of 38 atm)-cool to RT within 2H, repeat several times" Superconducting properties of (Y1-xPrx)Ba2Cu4O8 compounds 1994 2 "Physica C, 220(1994)41-49" "Y,Pr,Ba,Cu,O" 4586 PHC2200041 trace of BaCuO2 and CuO "(Y,Pr)Ba2Cu4O8" Y0.9Pr0.1Ba2Cu4O8 Y 0.9 Pr 0.1 Ba 2 Cu 4 O 8 1 1994 emu/g 0.00000045 uB/Pr 3.53 6 3 Y124 A 3.841 3.871 27.206 K 75 3 75 m.ohm.cm 1.03 "Y2O3,Pr6O11,BaO2,CuO" 1 "mix in N2-pellet-SIN(900-980C24H in O2 of 38 atm)-cool to RT within 2H, repeat several times" Superconducting properties of (Y1-xPrx)Ba2Cu4O8 compounds 1994 2 "Physica C, 220(1994)41-49" "Y,Pr,Ba,Cu,O" 4587 PHC2200041 trace of BaCuO2 and CuO "(Y,Pr)Ba2Cu4O8" Y0.8Pr0.2Ba2Cu4O8 Y 0.8 Pr 0.2 Ba 2 Cu 4 O 8 1 1994 emu/g 0.00000041 uB/Pr 3.55 3 3 Y124 A 3.845 3.875 27.214 K 68 4 68 m.ohm.cm 1.09 "Y2O3,Pr6O11,BaO2,CuO" 1 "mix in N2-pellet-SIN(900-980C24H in O2 of 38 atm)-cool to RT within 2H, repeat several times" Superconducting properties of (Y1-xPrx)Ba2Cu4O8 compounds 1994 2 "Physica C, 220(1994)41-49" "Y,Pr,Ba,Cu,O" 4588 PHC2200041 trace of BaCuO2 and CuO "(Y,Pr)Ba2Cu4O8" Y0.7Pr0.3Ba2Cu4O8 Y 0.7 Pr 0.3 Ba 2 Cu 4 O 8 1 1994 emu/g 0.00000044 uB/Pr 2.88 4 3 Y124 A 3.849 3.879 27.215 K 61 4.5 61 m.ohm.cm 1.18 "Y2O3,Pr6O11,BaO2,CuO" 1 "mix in N2-pellet-SIN(900-980C24H in O2 of 38 atm)-cool to RT within 2H, repeat several times" Superconducting properties of (Y1-xPrx)Ba2Cu4O8 compounds 1994 2 "Physica C, 220(1994)41-49" "Y,Pr,Ba,Cu,O" 4589 PHC2200041 trace of BaCuO2 and CuO "(Y,Pr)Ba2Cu4O8" Y0.6Pr0.4Ba2Cu4O8 Y 0.6 Pr 0.4 Ba 2 Cu 4 O 8 1 1994 emu/g 0.00000037 uB/Pr 3.17 5 3 Y124 A 3.853 3.882 27.227 K 58 5 58 m.ohm.cm 1.28 "Y2O3,Pr6O11,BaO2,CuO" 1 "mix in N2-pellet-SIN(900-980C24H in O2 of 38 atm)-cool to RT within 2H, repeat several times" Superconducting properties of (Y1-xPrx)Ba2Cu4O8 compounds 1994 2 "Physica C, 220(1994)41-49" "Y,Pr,Ba,Cu,O" 4590 PHC2200041 trace of BaCuO2 and CuO "(Y,Pr)Ba2Cu4O8" Y0.5Pr0.5Ba2Cu4O8 Y 0.5 Pr 0.5 Ba 2 Cu 4 O 8 1 1994 emu/g 0.00000097 uB/Pr 2.95 7 3 Y124 A 3.858 3.885 27.236 K 49 6 49 m.ohm.cm 1.36 "Y2O3,Pr6O11,BaO2,CuO" 1 "mix in N2-pellet-SIN(900-980C24H in O2 of 38 atm)-cool to RT within 2H, repeat several times" Superconducting properties of (Y1-xPrx)Ba2Cu4O8 compounds 1994 2 "Physica C, 220(1994)41-49" "Y,Pr,Ba,Cu,O" 4591 PHC2200041 trace of BaCuO2 and CuO "(Y,Pr)Ba2Cu4O8" Y0.4Pr0.6Ba2Cu4O8 Y 0.4 Pr 0.6 Ba 2 Cu 4 O 8 1 1994 emu/g 0.0000013 uB/Pr 3.05 9 3 Y124 A 3.863 3.889 27.248 K 39 6.5 39 m.ohm.cm 1.56 "Y2O3,Pr6O11,BaO2,CuO" 1 "mix in N2-pellet-SIN(900-980C24H in O2 of 38 atm)-cool to RT within 2H, repeat several times" Superconducting properties of (Y1-xPrx)Ba2Cu4O8 compounds 1994 2 "Physica C, 220(1994)41-49" "Y,Pr,Ba,Cu,O" 4592 PHC2200041 trace of BaCuO2 and CuO "(Y,Pr)Ba2Cu4O8" Y0.3Pr0.7Ba2Cu4O8 Y 0.3 Pr 0.7 Ba 2 Cu 4 O 8 1 1994 emu/g 0.00000148 uB/Pr 3.09 13 3 Y124 A 3.867 3.892 27.251 K 23 12 23 m.ohm.cm 2.22 "Y2O3,Pr6O11,BaO2,CuO" 1 "mix in N2-pellet-SIN(900-980C24H in O2 of 38 atm)-cool to RT within 2H, repeat several times" Superconducting properties of (Y1-xPrx)Ba2Cu4O8 compounds 1994 2 "Physica C, 220(1994)41-49" "Y,Pr,Ba,Cu,O" 4593 PHC2190183 "(Lu,Ce,Ca)Ba2Cu3O7" Lu0.8Ce0.1Ca0.1Ba2Cu3O7-z Lu 0.8 Ce 0.1 Ca 0.1 Ba 2 Cu 3 O 7-z 1994 Y123 K 73 73 "Lu2O3,CeO2,BaCO3,CaCO3,CuO" 1 solid state reaction "Superconductivity and valence states of Ce,Pr and Tb in bulk Lu1-xMxBa2Cu3O7-z(M=Ce,Pr and Tb) systems" 1994 1 "Physica C, 219(1994)184-190" "Ce,Pr,Tb,Lu,Ba,Cu,O" 4594 PHC2190183 impurity=BaCeO2 "(Lu,Ce,Ca)Ba2Cu3O7" Lu0.75Ce0.15Ca0.1Ba2Cu3O7-z Lu 0.75 Ce 0.15 Ca 0.1 Ba 2 Cu 3 O 7-z 1994 Y123 K 70 70 "Lu2O3,CeO2,BaCO3,CaCO3,CuO" 1 solid state reaction "Superconductivity and valence states of Ce,Pr and Tb in bulk Lu1-xMxBa2Cu3O7-z(M=Ce,Pr and Tb) systems" 1994 1 "Physica C, 219(1994)184-190" "Ce,Pr,Tb,Lu,Ba,Cu,O" 4595 PHC2190183 impurity=BaCeO2 "(Lu,Ce,Ca)Ba2Cu3O7" Lu0.7Ce0.15Ca0.15Ba2Cu3O7-z Lu 0.7 Ce 0.15 Ca 0.15 Ba 2 Cu 3 O 7-z 1994 Y123 K 66 66 "Lu2O3,CeO2,BaCO3,CaCO3,CuO" 1 solid state reaction "Superconductivity and valence states of Ce,Pr and Tb in bulk Lu1-xMxBa2Cu3O7-z(M=Ce,Pr and Tb) systems" 1994 1 "Physica C, 219(1994)184-190" "Ce,Pr,Tb,Lu,Ba,Cu,O" 4596 PHC2190183 "(Lu,Ce)Ba2Cu3O7" Lu0.9Ce0.1Ba2Cu3O7-z Lu 0.9 Ce 0.1 Ba 2 Cu 3 O 7-z 1994 Y123 K 60 60 "Lu2O3,CeO2,BaCO3,CaCO3,CuO" 1 solid state reaction "Superconductivity and valence states of Ce,Pr and Tb in bulk Lu1-xMxBa2Cu3O7-z(M=Ce,Pr and Tb) systems" 1994 1 "Physica C, 219(1994)184-190" "Ce,Pr,Tb,Lu,Ba,Cu,O" 4597 PHC2190183 impurity phase "(Lu,Pr)Ba2Cu3O7" Lu0.93Pr0.07Ba2Cu3O7-z Lu 0.93 Pr 0.07 Ba 2 Cu 3 O 7-z 2 1994 Y123 K 78 78 "Lu2O3,Pr6O11,BaCO3,CaCO3,CuO" 1 solid state reaction "Superconductivity and valence states of Ce,Pr and Tb in bulk Lu1-xMxBa2Cu3O7-z(M=Ce,Pr and Tb) systems" 1994 1 "Physica C, 219(1994)184-190" "Ce,Pr,Tb,Lu,Ba,Cu,O" 4598 PHC2190183 "(Lu,Pr)Ba2Cu3O7" Lu0.9Pr0.1Ba2Cu3O7-z Lu 0.9 Pr 0.1 Ba 2 Cu 3 O 7-z 1 1994 Y123 K 86 86 "Lu2O3,Pr6O11,BaCO3,CaCO3,CuO" 1 solid state reaction "Superconductivity and valence states of Ce,Pr and Tb in bulk Lu1-xMxBa2Cu3O7-z(M=Ce,Pr and Tb) systems" 1994 1 "Physica C, 219(1994)184-190" "Ce,Pr,Tb,Lu,Ba,Cu,O" 4599 PHC2190183 "(Lu,Pr,Ca)Ba2Cu3O7" Lu0.8Pr0.1Ca0.1Ba2Cu3O7-z Lu 0.8 Pr 0.1 Ca 0.1 Ba 2 Cu 3 O 7-z 1 1994 Y123 K 78 78 "Lu2O3,Pr6O11,BaCO3,CaCO3,CuO" 1 solid state reaction "Superconductivity and valence states of Ce,Pr and Tb in bulk Lu1-xMxBa2Cu3O7-z(M=Ce,Pr and Tb) systems" 1994 1 "Physica C, 219(1994)184-190" "Ce,Pr,Tb,Lu,Ba,Cu,O" 4600 PHC2190183 "(Lu,Pr)Ba2Cu3O7" Lu0.85Pr0.15Ba2Cu3O7-z Lu 0.85 Pr 0.15 Ba 2 Cu 3 O 7-z 1 1994 Y123 K 82.5 82.5 "Lu2O3,Pr6O11,BaCO3,CaCO3,CuO" 1 solid state reaction "Superconductivity and valence states of Ce,Pr and Tb in bulk Lu1-xMxBa2Cu3O7-z(M=Ce,Pr and Tb) systems" 1994 1 "Physica C, 219(1994)184-190" "Ce,Pr,Tb,Lu,Ba,Cu,O" 4601 PHC2190183 "(Lu,Pr)Ba2Cu3O7" Lu0.8Pr0.2Ba2Cu3O7-z Lu 0.8 Pr 0.2 Ba 2 Cu 3 O 7-z 1 1994 Y123 K 80 80 "Lu2O3,Pr6O11,BaCO3,CaCO3,CuO" 1 solid state reaction "Superconductivity and valence states of Ce,Pr and Tb in bulk Lu1-xMxBa2Cu3O7-z(M=Ce,Pr and Tb) systems" 1994 1 "Physica C, 219(1994)184-190" "Ce,Pr,Tb,Lu,Ba,Cu,O" 4602 PHC2190183 "(Lu,Pr,Ca)Ba2Cu3O7" Lu0.7Pr0.2Ca0.1Ba2Cu3O7-z Lu 0.7 Pr 0.2 Ca 0.1 Ba 2 Cu 3 O 7-z 1 1994 Y123 K 74 74 "Lu2O3,Pr6O11,BaCO3,CaCO3,CuO" 1 solid state reaction "Superconductivity and valence states of Ce,Pr and Tb in bulk Lu1-xMxBa2Cu3O7-z(M=Ce,Pr and Tb) systems" 1994 1 "Physica C, 219(1994)184-190" "Ce,Pr,Tb,Lu,Ba,Cu,O" 4603 PHC2190183 "(Lu,Pr)Ba2Cu3O7" Lu0.7Pr0.3Ba2Cu3O7-z Lu 0.7 Pr 0.3 Ba 2 Cu 3 O 7-z 1 1994 Y123 K 71 71 "Lu2O3,Pr6O11,BaCO3,CaCO3,CuO" 1 solid state reaction "Superconductivity and valence states of Ce,Pr and Tb in bulk Lu1-xMxBa2Cu3O7-z(M=Ce,Pr and Tb) systems" 1994 1 "Physica C, 219(1994)184-190" "Ce,Pr,Tb,Lu,Ba,Cu,O" 4604 PHC2190183 "(Lu,Pr,Ca)Ba2Cu3O7" Lu0.6Pr0.3Ca0.1Ba2Cu3O7-z Lu 0.6 Pr 0.3 Ca 0.1 Ba 2 Cu 3 O 7-z 1 1994 Y123 K 60.5 60.5 "Lu2O3,Pr6O11,BaCO3,CaCO3,CuO" 1 solid state reaction "Superconductivity and valence states of Ce,Pr and Tb in bulk Lu1-xMxBa2Cu3O7-z(M=Ce,Pr and Tb) systems" 1994 1 "Physica C, 219(1994)184-190" "Ce,Pr,Tb,Lu,Ba,Cu,O" 4605 PHC2190183 "(Lu,Pr)Ba2Cu3O7" Lu0.6Pr0.4Ba2Cu3O7-z Lu 0.6 Pr 0.4 Ba 2 Cu 3 O 7-z 1 1994 Y123 K 49 49 "Lu2O3,Pr6O11,BaCO3,CaCO3,CuO" 1 solid state reaction "Superconductivity and valence states of Ce,Pr and Tb in bulk Lu1-xMxBa2Cu3O7-z(M=Ce,Pr and Tb) systems" 1994 1 "Physica C, 219(1994)184-190" "Ce,Pr,Tb,Lu,Ba,Cu,O" 4606 PHC2190183 "(Lu,Pr)Ba2Cu3O7" Lu0.5Pr0.5Ba2Cu3O7-z Lu 0.5 Pr 0.5 Ba 2 Cu 3 O 7-z 1 1994 Y123 K 29 29 "Lu2O3,Pr6O11,BaCO3,CaCO3,CuO" 1 solid state reaction "Superconductivity and valence states of Ce,Pr and Tb in bulk Lu1-xMxBa2Cu3O7-z(M=Ce,Pr and Tb) systems" 1994 1 "Physica C, 219(1994)184-190" "Ce,Pr,Tb,Lu,Ba,Cu,O" 4607 PHC2190183 semicon-like "(Lu,Pr)Ba2Cu3O7" Lu0.45Pr0.55Ba2Cu3O7-z Lu 0.45 Pr 0.55 Ba 2 Cu 3 O 7-z 1 1994 Y123 K 13 13 "Lu2O3,Pr6O11,BaCO3,CaCO3,CuO" 1 solid state reaction "Superconductivity and valence states of Ce,Pr and Tb in bulk Lu1-xMxBa2Cu3O7-z(M=Ce,Pr and Tb) systems" 1994 1 "Physica C, 219(1994)184-190" "Ce,Pr,Tb,Lu,Ba,Cu,O" 4608 PHC2230207 minor(<5%) impurity HgBa2CuO4 Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1 1994 2 Hg1201 p4/mm A 3.879 9.51 K 91.5 94 94 T "using WHH theory, resistive transition" 44 T/K 0.68 A 27 160000 "HgO,BaO,CuO" 1 grind- mixture in Ar-drybox-sealed in quartz tube-heat-two step cooling Magnetic and transport properties of HgBa2CuO4+z 1994 4 "Physica C, 223(1994)207-212" "Hg,Ba,Cu,O" 4609 PHC2230238 "two step transition in SUS, Cu1234(dominant) + Cu1223 + BaCuO2 +BaCuO2+x" Ba-Ca-Cu-O Ba2Ca3Cu5O Ba 2 Ca 3 Cu 5 O 2 1994 6 K 107.6 117 106 106 "BaO2,CaO,CuO" 1 "Ba:Ca:Cu=2:3:4, mixture-CAL(920C,50H in flowing O2)-SIN-pellet-(5.0GPa-950C)-pressure release" 117K superconductivity in the Ba-Ca-Cu-O system 1994 4 "Physica C, 223(1994)238-242" "Ba,Cu,O,Ca" 4610 PHC2230267 not s/c TlBa2PrCu2O7 Tl1Ba2Pr1Cu2O7-z Tl 1 Ba 2 Pr 1 Cu 2 O 7-z 1994 8.03 2 Tl1212 p4/mmm A 3.919 12.552 K 4.2 1 Structures and antiferromagnetic Pr ordering mechanism of Tl(Ba2-xSrx)PrCu2O7-z compounds by Rietveld analysis 1994 4 "Physica C, 223(1994)267-275" "Tl,Ba,Sr,Pr,Cu,O" 4611 PHC2230267 not s/c "Tl(Ba,Sr)2PrCu2O7" Tl1Ba1.6Sr0.4Pr1Cu2O7-z Tl 1 Ba 1.6 Sr 0.4 Pr 1 Cu 2 O 7-z 1994 6.22 2 Tl1212 p4/mmm A 3.908 12.49 K 4.2 1 Structures and antiferromagnetic Pr ordering mechanism of Tl(Ba2-xSrx)PrCu2O7-z compounds by Rietveld analysis 1994 4 "Physica C, 223(1994)267-275" "Tl,Ba,Sr,Pr,Cu,O" 4612 PHC2230267 not s/c "Tl(Ba,Sr)2PrCu2O7" Tl1Ba1.2Sr0.8Pr1Cu2O7-z Tl 1 Ba 1.2 Sr 0.8 Pr 1 Cu 2 O 7-z 1994 5.74 2 Tl1212 p4/mmm A 3.895 12.384 K 4.2 1 Structures and antiferromagnetic Pr ordering mechanism of Tl(Ba2-xSrx)PrCu2O7-z compounds by Rietveld analysis 1994 4 "Physica C, 223(1994)267-275" "Tl,Ba,Sr,Pr,Cu,O" 4613 PHC2230267 not s/c "Tl(Ba,Sr)2PrCu2O7" Tl1Ba1Sr1Pr1Cu2O7-z Tl 1 Ba 1 Sr 1 Pr 1 Cu 2 O 7-z 1994 5.44 2 Tl1212 p4/mmm A 3.889 12.309 K 4.2 1 Structures and antiferromagnetic Pr ordering mechanism of Tl(Ba2-xSrx)PrCu2O7-z compounds by Rietveld analysis 1994 4 "Physica C, 223(1994)267-275" "Tl,Ba,Sr,Pr,Cu,O" 4614 PHC2230267 not s/c "Tl(Ba,Sr)2PrCu2O7" Tl1Ba0.8Sr1.2Pr1Cu2O7-z Tl 1 Ba 0.8 Sr 1.2 Pr 1 Cu 2 O 7-z 1994 5.24 2 Tl1212 p4/mmm A 3.882 12.275 K 4.2 1 Structures and antiferromagnetic Pr ordering mechanism of Tl(Ba2-xSrx)PrCu2O7-z compounds by Rietveld analysis 1994 4 "Physica C, 223(1994)267-275" "Tl,Ba,Sr,Pr,Cu,O" 4615 PHC2230267 not s/c "Tl(Ba,Sr)2PrCu2O7" Tl1Ba0.4Sr1.6Pr1Cu2O7-z Tl 1 Ba 0.4 Sr 1.6 Pr 1 Cu 2 O 7-z 1994 4.53 2 Tl1212 p4/mmm A 3.868 12.195 K 4.2 1 Structures and antiferromagnetic Pr ordering mechanism of Tl(Ba2-xSrx)PrCu2O7-z compounds by Rietveld analysis 1994 4 "Physica C, 223(1994)267-275" "Tl,Ba,Sr,Pr,Cu,O" 4616 PHC2230267 not s/c TlSr2PrCu2O7 Tl1Sr2Pr1Cu2O7-z Tl 1 Sr 2 Pr 1 Cu 2 O 7-z 1994 4.03 2 Tl1212 p4/mmm A 3.854 12.102 K 4.2 1 Structures and antiferromagnetic Pr ordering mechanism of Tl(Ba2-xSrx)PrCu2O7-z compounds by Rietveld analysis 1994 4 "Physica C, 223(1994)267-275" "Tl,Ba,Sr,Pr,Cu,O" 4617 PHC2230037 not s/c Ba4YCu2.37O7.85(SO4)0.5 Ba4Y1Cu2.37S0.5O9.85 Ba 4 Y 1 Cu 2.37 S 0.5 O 9.85 9.85 1 1994 2 p4/mmm A 5.854 8.082 K 4.2 "BaO,BaSO4,CaO,Y2O3,CuO" 1 "mixture-heat(1000C)-ANN(400C,12H in O2)" "Synthesis and structure of the perovskite oxy-sulphates Ba4MCu2+xO6+y(SO4)z (M=Ca,Y)" 1994 4 "Physica C, 223(1994)37-45" "Ba,Cu,O,Ca,Y" 4618 PHC2230037 not s/c Ba4CaCu2.38O7.52(SO4)0.5 Ba4Ca1Cu2.38S0.5O9.52 Ba 4 Ca 1 Cu 2.38 S 0.5 O 9.52 9.52 1 1994 2 p4/mmm A 5.838 8.143 K 4.2 "BaO,BaSO4,CaO,Y2O3,CuO" 1 "mixture-heat(1000C)-ANN(400C,12H in O2)" "Synthesis and structure of the perovskite oxy-sulphates Ba4MCu2+xO6+y(SO4)z (M=Ca,Y)" 1994 4 "Physica C, 223(1994)37-45" "Ba,Cu,O,Ca,Y" 4619 PHC2230037 not s/c Ba4YCu2.15O6.90(SO4)0.8 Ba4Y1Cu2.15S0.8O10.1 Ba 4 Y 1 Cu 2.15 S 0.8 O 10.1 10.1 1 1994 2 p4/mmm A 5.887 8.102 K 4.2 "BaO,BaSO4,CaO,Y2O3,CuO" 1 "mixture-heat(1000C)-ANN(400C,12H in O2)" "Synthesis and structure of the perovskite oxy-sulphates Ba4MCu2+xO6+y(SO4)z (M=Ca,Y)" 1994 4 "Physica C, 223(1994)37-45" "Ba,Cu,O,Ca,Y" 4620 PHC2230313 "hydrostatic pressure, Figure is Tc vs P" HgBa2CaCu2O6 Hg1Ba2Ca1Cu2O6+z Hg 1 Ba 2 Ca 1 Cu 2 O 6+z 1994 Hg1212 K 126.6 126.6 TC4620 2 K/GPa 1.8 "HgO,BaO,CaO,CuO" see Physica C 216(1993)29 Hydrostatic pressure dependence of the superconducting transition temperature of HgBa2CaCu2O6+z and HgBa2Ca2Cu3O8+z 1994 4 "Physica C, 223(1994)313-320" "Hg,Ba,Ca,Cu,O" 4621 PHC2230313 "hydrostatic pressure, Figure is Tc vs P" HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8+z Hg 1 Ba 2 Ca 2 Cu 3 O 8+z 1994 Hg1223 K 133.9 133.9 TC4621 2 K/GPa 1.71 "HgO,BaO,CaO,CuO" see Physica C 216(1993)29 Hydrostatic pressure dependence of the superconducting transition temperature of HgBa2CaCu2O6+z and HgBa2Ca2Cu3O8+z 1994 4 "Physica C, 223(1994)313-320" "Hg,Ba,Ca,Cu,O" 4622 PR0478167 Bi2CuO4 Bi2Cu1O4 Bi 2 Cu 1 O 4 3 1993 uB/Cu 0.63 44 2 p4/ncc 130 A 8.51 5.814 K 7 grown from the melt by floating zone method with an image furnace MAGNON DISPERSION CURVE OF ANTIFERROMAGNETIC BI2CUO4 1993 4 "PHYS.REV.B,47(1993)8167" "BI,CU,O" 4623 PHC2230051 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1994 3 Y124 A 3.833 3.861 27.189 K 79.7 79.7 "Pr6O11,BaO2,CuO,CaO" 1 "mixture-dry-press-fire(930-950C,30H in O2 of 200bar)-repeat" Effect of praseodymium substitution in YBa2Cu4O8(1:2:4) 1994 4 "Physica C, 223(1994)51-56" "Y,Ba,Cu,O,Pr" 4624 PHC2230051 "(Y,Pr)Ba2Cu4O8" Y0.95Pr0.05Ba2Cu4O8 Y 0.95 Pr 0.05 Ba 2 Cu 4 O 8 1 1994 3 Y124 A 3.834 3.863 27.172 K 77 77 "Pr6O11,BaO2,CuO,CaO" 1 "mixture-dry-press-fire(930-950C,30H in O2 of 200bar)-repeat" Effect of praseodymium substitution in YBa2Cu4O8(1:2:4) 1994 4 "Physica C, 223(1994)51-56" "Y,Ba,Cu,O,Pr" 4625 PHC2230051 "(Y,Pr)Ba2Cu4O8" Y0.9Pr0.1Ba2Cu4O8 Y 0.9 Pr 0.1 Ba 2 Cu 4 O 8 1 1994 3 Y124 A 3.837 3.867 27.174 K 74.6 74.6 "Pr6O11,BaO2,CuO,CaO" 1 "mixture-dry-press-fire(930-950C,30H in O2 of 200bar)-repeat" Effect of praseodymium substitution in YBa2Cu4O8(1:2:4) 1994 4 "Physica C, 223(1994)51-56" "Y,Ba,Cu,O,Pr" 4626 PHC2230051 "(Y,Pr)Ba2Cu4O8" Y0.85Pr0.15Ba2Cu4O8 Y 0.85 Pr 0.15 Ba 2 Cu 4 O 8 1 1994 3 Y124 A 3.839 3.867 27.184 K 72.3 72.3 "Pr6O11,BaO2,CuO,CaO" 1 "mixture-dry-press-fire(930-950C,30H in O2 of 200bar)-repeat" Effect of praseodymium substitution in YBa2Cu4O8(1:2:4) 1994 4 "Physica C, 223(1994)51-56" "Y,Ba,Cu,O,Pr" 4627 PHC2230051 "(Y,Pr)Ba2Cu4O8" Y0.8Pr0.2Ba2Cu4O8 Y 0.8 Pr 0.2 Ba 2 Cu 4 O 8 1 1994 3 Y124 A 3.841 3.869 27.184 K 70.8 70.8 "Pr6O11,BaO2,CuO,CaO" 1 "mixture-dry-press-fire(930-950C,30H in O2 of 200bar)-repeat" Effect of praseodymium substitution in YBa2Cu4O8(1:2:4) 1994 4 "Physica C, 223(1994)51-56" "Y,Ba,Cu,O,Pr" 4628 PHC2230051 "(Y,Ca)Ba2Cu4O8" Y0.9Ca0.1Ba2Cu4O8 Y 0.9 Ca 0.1 Ba 2 Cu 4 O 8 1 1994 3 Y124 A 3.833 3.861 27.189 K 88.8 88.8 "Pr6O11,BaO2,CuO,CaO" 1 "mixture-dry-press-fire(930-950C,30H in O2 of 200bar)-repeat" Effect of praseodymium substitution in YBa2Cu4O8(1:2:4) 1994 4 "Physica C, 223(1994)51-56" "Y,Ba,Cu,O,Pr" 4629 PHC2230051 "(Y,Pr,Ca)Ba2Cu4O8" Y0.85Pr0.05Ca0.1Ba2Cu4O8 Y 0.85 Pr 0.05 Ca 0.1 Ba 2 Cu 4 O 8 1 1994 3 Y124 A 3.83 3.86 27.169 K 83.8 83.8 "Pr6O11,BaO2,CuO,CaO" 1 "mixture-dry-press-fire(930-950C,30H in O2 of 200bar)-repeat" Effect of praseodymium substitution in YBa2Cu4O8(1:2:4) 1994 4 "Physica C, 223(1994)51-56" "Y,Ba,Cu,O,Pr" 4630 PHC2230051 "(Y,Pr,Ca)Ba2Cu4O8" Y0.8Pr0.1Ca0.1Ba2Cu4O8 Y 0.8 Pr 0.1 Ca 0.1 Ba 2 Cu 4 O 8 1 1994 3 Y124 A 3.832 3.862 27.174 K 80 80 "Pr6O11,BaO2,CuO,CaO" 1 "mixture-dry-press-fire(930-950C,30H in O2 of 200bar)-repeat" Effect of praseodymium substitution in YBa2Cu4O8(1:2:4) 1994 4 "Physica C, 223(1994)51-56" "Y,Ba,Cu,O,Pr" 4631 PHC2230051 "(Y,Pr,Ca)Ba2Cu4O8" Y0.75Pr0.15Ca0.1Ba2Cu4O8 Y 0.75 Pr 0.15 Ca 0.1 Ba 2 Cu 4 O 8 1 1994 3 Y124 A 3.834 3.864 27.18 K 76.2 76.2 "Pr6O11,BaO2,CuO,CaO" 1 "mixture-dry-press-fire(930-950C,30H in O2 of 200bar)-repeat" Effect of praseodymium substitution in YBa2Cu4O8(1:2:4) 1994 4 "Physica C, 223(1994)51-56" "Y,Ba,Cu,O,Pr" 4632 PHC2230051 "(Y,Pr,Ca)Ba2Cu4O8" Y0.7Pr0.2Ca0.1Ba2Cu4O8 Y 0.7 Pr 0.2 Ca 0.1 Ba 2 Cu 4 O 8 1 1994 3 Y124 A 3.836 3.867 27.173 K 73.4 73.4 "Pr6O11,BaO2,CuO,CaO" 1 "mixture-dry-press-fire(930-950C,30H in O2 of 200bar)-repeat" Effect of praseodymium substitution in YBa2Cu4O8(1:2:4) 1994 4 "Physica C, 223(1994)51-56" "Y,Ba,Cu,O,Pr" 4633 PR04906293 "(La,Nd,Ce)2CuO4" La1Nd0.91Ce0.09Cu1O3.97 La 1 Nd 0.91 Ce 0.09 Cu 1 O 4 3.97 1 1994 T' K 15.7 15.7 1 "L2O3,ceric ammonium nitrate, Cu were dissolved in dilute nitric acid,-CAL(500C,6H in air)-SIN(1000C,24H)-ANN(950C, in N2)" Role of boud-length mismatch in L2-xCexCuO4(L=lanthanide) 1994 3 "Center for Materials Science and Engineering, ETC 9.104, The University of Texas at Austin, Austin, Texas 78712" "Phys.Rev.B,49(1994)6293" 4634 PR04906293 "(La,Nd,Ce)2CuO4" La1Nd0.9Ce0.1Cu1O3.974 La 1 Nd 0.9 Ce 0.1 Cu 1 O 4 3.974 1 1994 T' K 19.9 19.9 1 "L2O3,ceric ammonium nitrate, Cu were dissolved in dilute nitric acid,-CAL(500C,6H in air)-SIN(1000C,24H)-ANN(950C, in N2)" Role of boud-length mismatch in L2-xCexCuO4(L=lanthanide) 1994 3 "Center for Materials Science and Engineering, ETC 9.104, The University of Texas at Austin, Austin, Texas 78712" "Phys.Rev.B,49(1994)6293" 4635 PR04906293 "(La,Nd,Ce)2CuO4" La1Nd0.89Ce0.11Cu1O3.978 La 1 Nd 0.89 Ce 0.11 Cu 1 O 4 3.978 1 1994 T' K 19.8 19.8 1 "L2O3,ceric ammonium nitrate, Cu were dissolved in dilute nitric acid,-CAL(500C,6H in air)-SIN(1000C,24H)-ANN(950C, in N2)" Role of boud-length mismatch in L2-xCexCuO4(L=lanthanide) 1994 3 "Center for Materials Science and Engineering, ETC 9.104, The University of Texas at Austin, Austin, Texas 78712" "Phys.Rev.B,49(1994)6293" 4636 PR04906293 "(La,Nd,Ce)2CuO4" La1Nd0.87Ce0.13Cu1O3.975 La 1 Nd 0.87 Ce 0.13 Cu 1 O 4 3.975 1 1994 T' K 16.8 16.8 1 "L2O3,ceric ammonium nitrate, Cu were dissolved in dilute nitric acid,-CAL(500C,6H in air)-SIN(1000C,24H)-ANN(950C, in N2)" Role of boud-length mismatch in L2-xCexCuO4(L=lanthanide) 1994 3 "Center for Materials Science and Engineering, ETC 9.104, The University of Texas at Austin, Austin, Texas 78712" "Phys.Rev.B,49(1994)6293" 4637 PR04906293 "(La,Nd,Ce)2CuO4" La1Nd0.86Ce0.14Cu1O3.978 La 1 Nd 0.86 Ce 0.14 Cu 1 O 4 3.978 1 1994 T' K 16 16 1 "L2O3,ceric ammonium nitrate, Cu were dissolved in dilute nitric acid,-CAL(500C,6H in air)-SIN(1000C,24H)-ANN(950C, in N2)" Role of boud-length mismatch in L2-xCexCuO4(L=lanthanide) 1994 3 "Center for Materials Science and Engineering, ETC 9.104, The University of Texas at Austin, Austin, Texas 78712" "Phys.Rev.B,49(1994)6293" 4638 PR04906293 "(La,Nd,Ce)2CuO4" La1Nd0.85Ce0.15Cu1O4 La 1 Nd 0.85 Ce 0.15 Cu 1 O 4 1 1994 T' K 8.8 8.8 1 "L2O3,ceric ammonium nitrate, Cu were dissolved in dilute nitric acid,-CAL(500C,6H in air)-SIN(1000C,24H)-ANN(950C, in N2)" Role of boud-length mismatch in L2-xCexCuO4(L=lanthanide) 1994 3 "Center for Materials Science and Engineering, ETC 9.104, The University of Texas at Austin, Austin, Texas 78712" "Phys.Rev.B,49(1994)6293" 4639 PR0455628 "Figure=Hirr vs T,Hirr determined by dc magnetization" Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O8 Tl 2 Ba 2 Ca 1 Cu 2 O 8 1992 Tl2212 K 102 102 HIR4639 1 Field-modulated microwave surface resistance in a single-crystal Tl2Ca2BaCu2O8 superconductor 1992 3 "Department of phisics, University of Illinois at Urbana-Champaign, Urbana, Illinois 61801" "Phys.Rev.B,45(1992)5628" 4640 PR0455547 "4%Tl2Ba2CaCu2O8 phase,grain size=20-30micron-meter,thickness=1micron-meter,Jc(100K,0T)=5E+5 A/cm2" Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O10+z Tl 2 Ba 2 Ca 2 Cu 3 O 10+z 4 1992 Tl2223 K 116 116 HIR4640 17 "substrate=LaAlO3, epitaxial film by single target rf magnetron sputtering" MAGNETIC RELAXATION AND IRREVERSIBILITY IN A SUPERCONDUCTING TL2BA2CA2CU3O10+-X THIN FILM 1992 3 "PHYS.REV.B,45(1992)5547" "TL,BA,CA,CU,O" 4641 PR0426797 "Figure=Hirr vs T for H//c-axis,platelet=1.5*1*0.3mm3,Hirr by ac-permiability measurement using freq. from 10 to E+5 Hz" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 3 1990 Y123 K 87.5 87.5 HIR4641 FLUX PINNING AND IRREVERSIBILITY IN YBA2CU3O7 SUPERCONDUCTINGCRYSTAL 1990 10 "DIVISION OF PHYSICS, THE NORWEGIAN INSTITUTE OF TECHNOLOGY ANDSINTEF APPLIED PHYSICS, 7034 TRONDHEIM, NORWAY" "PHYS.REV.B,42(1990)6797" "Y,BA,CU,O" 4642 APL0630693 "Figure= Hirr vs T, Jc(10K,2T)=1.6E+3 A/cm2" HgBa2CuO4 Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1 1993 Hg1201 p4/mmm A 3.878 9.527 K 94 94 94 HIR4642 "HgO,PbO,Ba2CuO3" 1 see Physica C 210(1993)447 The irreversibility line of HgBa2CuO4+z 1993 8 "Argonne National Laboratory, Argonne,Illinois,USA" "Appl.Phys.Lett., 63(1993)693" "Hg,Ba,Pb,Cu,O" 4643 APL0630693 Figure=Hirr vs T "(Hg,Pb)Ba2CuO4" Hg0.8Pb0.2Ba2Cu1O4+z Hg 0.8 Pb 0.2 Ba 2 Cu 1 O 4+z 1993 2 Hg1201 p4/mmm A 3.881 9.531 K 96 96 96 HIR4643 "HgO,PbO,Ba2CuO3" 1 see Physica C 210(1993)447 The irreversibility line of HgBa2CuO4+z 1993 8 "Argonne National Laboratory, Argonne,Illinois,USA" "Appl.Phys.Lett., 63(1993)693" "Hg,Ba,Pb,Cu,O" 4644 PR0428704 "1*1mm *300A,electrical contact by silver epoxy" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1990 Bi2212 K 82 82 m3/C 7 RH4644 HALL-EFFECT MEASUREMENTS ON SUPERCONDUCTING AND NONSUPERCONDUCTING COPPER-OXIDE-BASED METALS 1990 11 "HALL EFFECT ,SINGLE CRYSTALS" "DEPARTMENT OF PHYSICS, STATE UNIVERSITY OF NEW YORK AT STONY BROOK, NEW YORK 11794" "PHYS.RE,B,42(1990)8704" "BI,SR,CA,CU,O" 4645 PR0428704 metallic Bi2Sr2CuO6 Bi2Sr2Cu1O6 Bi 2 Sr 2 Cu 1 O 6 1990 Bi2201 K 3 m3/C 7 RH4645 HALL-EFFECT MEASUREMENTS ON SUPERCONDUCTING AND NONSUPERCONDUCTING COPPER-OXIDE-BASED METALS 1990 11 "HALL EFFECT ,SINGLE CRYSTALS" "DEPARTMENT OF PHYSICS, STATE UNIVERSITY OF NEW YORK AT STONY BROOK, NEW YORK 11794" "PHYS.RE,B,42(1990)8704" "BI,SR,CA,CU,O" 4646 PRL0672088 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.984Zn0.016O7-z Y 1 Ba 2 Cu 2.984 Zn 0.016 O 7-z 3 1991 Y123 K 83 84 84 m3/C RH4646 5 "Zn-doped ceramic is crushed and dissolved in the ratio 1:5 in BaCuO2+z flux at 1025C, slow cool in flowing O2--ANN in O2 of 3 bar" EFFECT OF ZN IMPURITIES ON THE NORMAL-STATE HALL ANGLE IN SINGLE-CRYSTAL YBA2CU3-XZNXO7-Z 1991 10 "JOSEPH HENRY LABORATORIES OF PHYSICS,PRINCERON UNIVERSITY,PRINCETON UNIVERSITY,PRINCERON,NEW JERSEY 08544" "PHYS.REV.LETT.,67(1991)2088" "Y,BA,CU,ZN,O" 4647 PRL0672088 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.948Zn0.052O7-z Y 1 Ba 2 Cu 2.948 Zn 0.052 O 7-z 3 1991 Y123 K 72 73 73 m3/C RH4647 5 "Zn-doped ceramic is crushed and dissolved in the ratio 1:5 in BaCuO2+z flux at 1025C, slow cool in flowing O2--ANN in O2 of 3 bar" EFFECT OF ZN IMPURITIES ON THE NORMAL-STATE HALL ANGLE IN SINGLE-CRYSTAL YBA2CU3-XZNXO7-Z 1991 10 "JOSEPH HENRY LABORATORIES OF PHYSICS,PRINCERON UNIVERSITY,PRINCETON UNIVERSITY,PRINCERON,NEW JERSEY 08544" "PHYS.REV.LETT.,67(1991)2088" "Y,BA,CU,ZN,O" 4648 PRL0672088 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.909Zn0.091O7-z Y 1 Ba 2 Cu 2.909 Zn 0.091 O 7-z 3 1991 Y123 K 50 55 55 m3/C RH4648 5 "Zn-doped ceramic is crushed and dissolved in the ratio 1:5 in BaCuO2+z flux at 1025C, slow cool in flowing O2--ANN in O2 of 3 bar" EFFECT OF ZN IMPURITIES ON THE NORMAL-STATE HALL ANGLE IN SINGLE-CRYSTAL YBA2CU3-XZNXO7-Z 1991 10 "JOSEPH HENRY LABORATORIES OF PHYSICS,PRINCERON UNIVERSITY,PRINCETON UNIVERSITY,PRINCERON,NEW JERSEY 08544" "PHYS.REV.LETT.,67(1991)2088" "Y,BA,CU,ZN,O" 4649 PRL0672088 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.892Zn0.108O7-z Y 1 Ba 2 Cu 2.892 Zn 0.108 O 7-z 3 1991 Y123 K 40 48 48 m3/C RH4649 5 "Zn-doped ceramic is crushed and dissolved in the ratio 1:5 in BaCuO2+z flux at 1025C, slow cool in flowing O2--ANN in O2 of 3 bar" EFFECT OF ZN IMPURITIES ON THE NORMAL-STATE HALL ANGLE IN SINGLE-CRYSTAL YBA2CU3-XZNXO7-Z 1991 10 "JOSEPH HENRY LABORATORIES OF PHYSICS,PRINCERON UNIVERSITY,PRINCETON UNIVERSITY,PRINCERON,NEW JERSEY 08544" "PHYS.REV.LETT.,67(1991)2088" "Y,BA,CU,ZN,O" 4650 PHC2220257 "Tc measured by resistivity,lattice const. linearly decreases with Ocontent" "(Ba,K)BiO3" Ba0.65K0.35Bi1O2.984 Ba 0.65 K 0.35 Bi 1 O z 2.984 1994 BKBO K 27.9 27.9 TC4650 "BaO,KO2,Bi2O3" 1 "mixture-heat(700C,1H in N2)-C-heat(500C,2H)-ANN in O2 for various O-content" Defect chemistry of Ba1-xKxBiOy superconductors 1994 3 "Physica C, 222(1994)257-266" "Ba,K,Bi,O" 4651 PHC2220257 Fig=Tc vs O-content "(Ba,k)BiO3" Ba0.525K0.475Bi1O2.917 Ba 0.525 K 0.475 Bi 1 O z 2.917 1994 BKBO K 25.9 25.9 TC4651 "BaO,KO2,Bi2O3" 1 "mixture-heat(700C,1H in N2)-C-heat(500C,2H)-ANN in O2 for various O-content" Defect chemistry of Ba1-xKxBiOy superconductors 1994 3 "Physica C, 222(1994)257-266" "Ba,K,Bi,O" 4652 PHC2220257 Fig=Tc vs O-content "(Ba,K)BiO3" Ba0.6K0.4Bi1O2.926 Ba 0.6 K 0.4 Bi 1 O z 2.926 1994 BKBO K 27.6 27.6 TC4652 "BaO,KO2,Bi2O3" 1 "mixture-heat(700C,1H in N2)-C-heat(500C,2H)-ANN in O2 for various O-content" Defect chemistry of Ba1-xKxBiOy superconductors 1994 3 "Physica C, 222(1994)257-266" "Ba,K,Bi,O" 4653 PR0489747 SUS(Pauli)=1.51E-4 cm3/mole "Bi2(Sr,La)2CuO6" Bi2Sr1.6La0.4Cu1O6.29 Bi 2 Sr 1.6 La 0.4 Cu 1 O 6.29 6.29 1993 Bi2201 K 30.6 30.6 30.6 "SEE PHYSICA C,194(1992)337" MAGNETIC SUSCEPTIBILITY IN THE NORMAL STATE: A TOOL TO OPTIMIZE TC WITHIN A GIVEN SUPERCONDUCTING OXIDE SYXTEM 1993 10 "PHYS.REV.B,48(1993)9747" 4654 PR0489747 SUS(Pauli)=2.86E-4 cm3/mole Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.16 Bi 2 Sr 2 Ca 1 Cu 2 O 8.16 8.16 1993 Bi2212 K 92.8 92.8 92.8 "SEE PHYSICA C,194(1992)337" MAGNETIC SUSCEPTIBILITY IN THE NORMAL STATE: A TOOL TO OPTIMIZE TC WITHIN A GIVEN SUPERCONDUCTING OXIDE SYXTEM 1993 10 "PHYS.REV.B,48(1993)9747" 4655 PR0489747 SUS(Pauli)=1.47E-4 cm3/mole Tl2Ba2CuO6 Tl2Ba2Cu1O6.1 Tl 2 Ba 2 Cu 1 O 6.1 6.1 1993 Tl2201 K 92.5 92.5 92.5 "SEE PHYSICA C,194(1992)337" MAGNETIC SUSCEPTIBILITY IN THE NORMAL STATE: A TOOL TO OPTIMIZE TC WITHIN A GIVEN SUPERCONDUCTING OXIDE SYXTEM 1993 10 "PHYS.REV.B,48(1993)9747" 4656 PR0489747 SUS(Pauli)=2.73E-4 cm3/mole Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O8+z Tl 2 Ba 2 Ca 1 Cu 2 O 8+z 1993 Tl2212 K 106.8 106.8 106.8 "SEE PHYSICA C,194(1992)337" MAGNETIC SUSCEPTIBILITY IN THE NORMAL STATE: A TOOL TO OPTIMIZE TC WITHIN A GIVEN SUPERCONDUCTING OXIDE SYXTEM 1993 10 "PHYS.REV.B,48(1993)9747" 4657 PR0489747 SUS(Pauli=3.77 E-4 cm3/mole Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O10+z Tl 2 Ba 2 Ca 2 Cu 3 O 10+z 1993 Tl2223 K 120 120 120 "SEE PHYSICA C,194(1992)337" MAGNETIC SUSCEPTIBILITY IN THE NORMAL STATE: A TOOL TO OPTIMIZE TC WITHIN A GIVEN SUPERCONDUCTING OXIDE SYXTEM 1993 10 "PHYS.REV.B,48(1993)9747" 4658 PR0489747 SUS(Pauli)=2.06 E-4 cm3/mole Bi2Sr2Ca1Cu2O8 Bi2Sr2Ca1Cu2O8.11 Bi 2 Sr 2 Ca 1 Cu 2 O 8.11 8.11 1993 cm3/mole micro.B/Mo 0.834 Bi2212 K 86.5 86.5 86.5 "SEE PHYSICA C,194(1992)337" MAGNETIC SUSCEPTIBILITY IN THE NORMAL STATE: A TOOL TO OPTIMIZE TC WITHIN A GIVEN SUPERCONDUCTING OXIDE SYXTEM 1993 10 "PHYS.REV.B,48(1993)9747" 4659 PR0489747 SUS(Pauli)=2.27E-4 cm3/mole Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.16 Bi 2 Sr 2 Ca 1 Cu 2 O 8.16 8.16 1993 cm3/mole micro.B/Mo 0.709 Bi2212 K 92.8 92.8 92.8 "SEE PHYSICA C,194(1992)337" MAGNETIC SUSCEPTIBILITY IN THE NORMAL STATE: A TOOL TO OPTIMIZE TC WITHIN A GIVEN SUPERCONDUCTING OXIDE SYXTEM 1993 10 "PHYS.REV.B,48(1993)9747" 4660 PR0489747 SUS(Pauli)=2.37E-4 cm3/mole Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.19 Bi 2 Sr 2 Ca 1 Cu 2 O 8.19 8.19 1993 cm3/mole micro.B/Mo 0.682 Bi2212 K 87.1 87.1 87.1 "SEE PHYSICA C,194(1992)337" MAGNETIC SUSCEPTIBILITY IN THE NORMAL STATE: A TOOL TO OPTIMIZE TC WITHIN A GIVEN SUPERCONDUCTING OXIDE SYXTEM 1993 10 "PHYS.REV.B,48(1993)9747" 4661 PR0489747 SUS(Pauli)=2.45E-4 cm3/mole Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.22 Bi 2 Sr 2 Ca 1 Cu 2 O 8.22 8.22 1993 cm3/mole micro.B/Mo 0.702 Bi2212 K 77.6 77.6 77.6 "SEE PHYSICA C,194(1992)337" MAGNETIC SUSCEPTIBILITY IN THE NORMAL STATE: A TOOL TO OPTIMIZE TC WITHIN A GIVEN SUPERCONDUCTING OXIDE SYXTEM 1993 10 "PHYS.REV.B,48(1993)9747" 4662 PR0489747 SUS(Pauli)=2.69E-4 cm3/mole Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.24 Bi 2 Sr 2 Ca 1 Cu 2 O 8.24 8.24 1993 cm3/mole micro.B/Mo 0.616 Bi2212 K 71.1 71.1 71.1 "SEE PHYSICA C,194(1992)337" MAGNETIC SUSCEPTIBILITY IN THE NORMAL STATE: A TOOL TO OPTIMIZE TC WITHIN A GIVEN SUPERCONDUCTING OXIDE SYXTEM 1993 10 "PHYS.REV.B,48(1993)9747" 4663 JJP0330503 "as-sintered it contains Cu1245,BaCuO2 and other phases" CuBa2Ca3Cu4O12 Cu5Ba2Ca3O12-z Cu 5 Ba 2 Ca 3 O 12-z 2 1994 2 Cu1234 A 7.711 35.986 K 109.3 116.3 116.4 116.3 20 "BaCO3,CaCO3,CuO" 1 "mixture of some kind of Ba-Ca-Cu-O -mix with CaO2-pellet-sealed in Au capsule-heat(1100C,3H in graphite tube under 5GPa-ANN(300C,5-10H in flowing O2)" New High-Tc Superconductor Family oof Cu-Based Cu1-xBa2Can-1CunO2n+4-z with Tc>116K 1994 4 "Jpn.J.Apll.Phys.Lett.,33(1994)L503-506" "Cu,Ba,Ca,O" 4664 PHC2270160 "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 1 1994 2 T A 3.371 13.222 K 27.8 27.8 "La2O3,SrCo3,CuO,NiO" 1 "mixture-heat(900C,48H in air)-heat(1000-1150C,in air)-ANN(500C,10H in flowing O2)-cool to RT(1C/min)" Effect of a change in the carrier concentration and disorder on the superconducting transition temperature of the La2-xSrxCu1-yNiyO4 system 1994 6 "Physica C, 227(1994)160-168" "La,Sr,Cu,Ni,O" 4665 PHC2270160 semiconductor-like "(La,Sr)2(Cu,Ni)O4" La0.9Sr0.1Cu1.98Ni0.02O4 La 0.9 Sr 0.1 Cu 1.98 Ni 0.02 O 4 1 1994 2 T K 4.2 "La2O3,SrCo3,CuO,NiO" 1 "mixture-heat(900C,48H in air)-heat(1000-1150C,in air)-ANN(500C,10H in flowing O2)-cool to RT(1C/min)" Effect of a change in the carrier concentration and disorder on the superconducting transition temperature of the La2-xSrxCu1-yNiyO4 system 1994 6 "Physica C, 227(1994)160-168" "La,Sr,Cu,Ni,O" 4666 PHC2270160 semiconductor-like "(La,Sr)2(Cu,Ni)O4" La0.9Sr0.1Cu0.965Ni0.035O4 La 0.9 Sr 0.1 Cu 0.965 Ni 0.035 O 4 1 1994 2 T K 4.2 "La2O3,SrCo3,CuO,NiO" 1 "mixture-heat(900C,48H in air)-heat(1000-1150C,in air)-ANN(500C,10H in flowing O2)-cool to RT(1C/min)" Effect of a change in the carrier concentration and disorder on the superconducting transition temperature of the La2-xSrxCu1-yNiyO4 system 1994 6 "Physica C, 227(1994)160-168" "La,Sr,Cu,Ni,O" 4667 PHC2270160 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1994 2 T A 3.786 13.246 K 37 37 "La2O3,SrCo3,CuO,NiO" 1 "mixture-heat(900C,48H in air)-heat(1000-1150C,in air)-ANN(500C,10H in flowing O2)-cool to RT(1C/min)" Effect of a change in the carrier concentration and disorder on the superconducting transition temperature of the La2-xSrxCu1-yNiyO4 system 1994 6 "Physica C, 227(1994)160-168" "La,Sr,Cu,Ni,O" 4668 PHC2270160 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.965Ni0.035O4 La 1.85 Sr 0.15 Cu 0.965 Ni 0.035 O 4 1 1994 2 T K 2.1 2.1 "La2O3,SrCo3,CuO,NiO" 1 "mixture-heat(900C,48H in air)-heat(1000-1150C,in air)-ANN(500C,10H in flowing O2)-cool to RT(1C/min)" Effect of a change in the carrier concentration and disorder on the superconducting transition temperature of the La2-xSrxCu1-yNiyO4 system 1994 6 "Physica C, 227(1994)160-168" "La,Sr,Cu,Ni,O" 4669 PHC2270160 "(La,Sr)2CuO4" La1.83Sr0.17Cu1O4 La 1.83 Sr 0.17 Cu 1 O 4 1 1994 2 T A 3.782 13.252 K 37 37 "La2O3,SrCo3,CuO,NiO" 1 "mixture-heat(900C,48H in air)-heat(1000-1150C,in air)-ANN(500C,10H in flowing O2)-cool to RT(1C/min)" Effect of a change in the carrier concentration and disorder on the superconducting transition temperature of the La2-xSrxCu1-yNiyO4 system 1994 6 "Physica C, 227(1994)160-168" "La,Sr,Cu,Ni,O" 4670 PHC2270160 "(La,Sr)2(Cu,Ni)O4" La1.83Sr0.17Cu0.98Ni0.02O4 La 1.83 Sr 0.17 Cu 0.98 Ni 0.02 O 4 1 1994 2 T K 22.1 22.1 "La2O3,SrCo3,CuO,NiO" 1 "mixture-heat(900C,48H in air)-heat(1000-1150C,in air)-ANN(500C,10H in flowing O2)-cool to RT(1C/min)" Effect of a change in the carrier concentration and disorder on the superconducting transition temperature of the La2-xSrxCu1-yNiyO4 system 1994 6 "Physica C, 227(1994)160-168" "La,Sr,Cu,Ni,O" 4671 PHC2270160 "(La,Sr)2(Cu,Ni)O4" La1.83Sr0.17Cu0.97Ni0.03O4 La 1.83 Sr 0.17 Cu 0.97 Ni 0.03 O 4 1 1994 2 T K 14.4 14.4 "La2O3,SrCo3,CuO,NiO" 1 "mixture-heat(900C,48H in air)-heat(1000-1150C,in air)-ANN(500C,10H in flowing O2)-cool to RT(1C/min)" Effect of a change in the carrier concentration and disorder on the superconducting transition temperature of the La2-xSrxCu1-yNiyO4 system 1994 6 "Physica C, 227(1994)160-168" "La,Sr,Cu,Ni,O" 4672 PHC2270160 "(La,Sr)2(Cu,Ni)O4" La1.83Sr0.17Cu0.96Ni0.04O4 La 1.83 Sr 0.17 Cu 0.96 Ni 0.04 O 4 1 1994 2 T K 5.8 5.8 "La2O3,SrCo3,CuO,NiO" 1 "mixture-heat(900C,48H in air)-heat(1000-1150C,in air)-ANN(500C,10H in flowing O2)-cool to RT(1C/min)" Effect of a change in the carrier concentration and disorder on the superconducting transition temperature of the La2-xSrxCu1-yNiyO4 system 1994 6 "Physica C, 227(1994)160-168" "La,Sr,Cu,Ni,O" 4673 PHC2270160 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1 1994 2 T A 3.78 13.261 K 31 31 "La2O3,SrCo3,CuO,NiO" 1 "mixture-heat(900C,48H in air)-heat(1000-1150C,in air)-ANN(500C,10H in flowing O2)-cool to RT(1C/min)" Effect of a change in the carrier concentration and disorder on the superconducting transition temperature of the La2-xSrxCu1-yNiyO4 system 1994 6 "Physica C, 227(1994)160-168" "La,Sr,Cu,Ni,O" 4674 PHC2270160 "(La,Sr)2(Cu,Ni)O4" La1.8Sr0.2Cu0.98Ni0.02O4 La 1.8 Sr 0.2 Cu 0.98 Ni 0.02 O 4 1 1994 2 T K 17.1 17.1 "La2O3,SrCo3,CuO,NiO" 1 "mixture-heat(900C,48H in air)-heat(1000-1150C,in air)-ANN(500C,10H in flowing O2)-cool to RT(1C/min)" Effect of a change in the carrier concentration and disorder on the superconducting transition temperature of the La2-xSrxCu1-yNiyO4 system 1994 6 "Physica C, 227(1994)160-168" "La,Sr,Cu,Ni,O" 4675 PHC2270160 "(La,Sr)2(Cu,Ni)O4" La1.8Sr0.2Cu0.97Ni0.03O4 La 1.8 Sr 0.2 Cu 0.97 Ni 0.03 O 4 1 1994 2 T K 11.1 11.1 "La2O3,SrCo3,CuO,NiO" 1 "mixture-heat(900C,48H in air)-heat(1000-1150C,in air)-ANN(500C,10H in flowing O2)-cool to RT(1C/min)" Effect of a change in the carrier concentration and disorder on the superconducting transition temperature of the La2-xSrxCu1-yNiyO4 system 1994 6 "Physica C, 227(1994)160-168" "La,Sr,Cu,Ni,O" 4676 PHC2270160 "(La,Sr)2(Cu,Ni)O4" La1.8Sr0.2Cu0.96Ni0.04O4 La 1.8 Sr 0.2 Cu 0.96 Ni 0.04 O 4 1 1994 2 T K 7 7 "La2O3,SrCo3,CuO,NiO" 1 "mixture-heat(900C,48H in air)-heat(1000-1150C,in air)-ANN(500C,10H in flowing O2)-cool to RT(1C/min)" Effect of a change in the carrier concentration and disorder on the superconducting transition temperature of the La2-xSrxCu1-yNiyO4 system 1994 6 "Physica C, 227(1994)160-168" "La,Sr,Cu,Ni,O" 4677 PHC2270160 "(La,Sr)2CuO4" La1.75Sr0.25Cu1O4 La 1.75 Sr 0.25 Cu 1 O 4 1 1994 2 T A 3.777 13.263 K 16.2 16.2 "La2O3,SrCo3,CuO,NiO" 1 "mixture-heat(900C,48H in air)-heat(1000-1150C,in air)-ANN(500C,10H in flowing O2)-cool to RT(1C/min)" Effect of a change in the carrier concentration and disorder on the superconducting transition temperature of the La2-xSrxCu1-yNiyO4 system 1994 6 "Physica C, 227(1994)160-168" "La,Sr,Cu,Ni,O" 4678 PHC2270160 resistivity not to zero at 0K. "(La,Sr)2(Cu,Ni)O4" La1.75Sr0.25Cu0.96Ni0.04O4 La 1.75 Sr 0.25 Cu 0.96 Ni 0.04 O 4 1 1994 2 T K 33.6 33.6 "La2O3,SrCo3,CuO,NiO" 1 "mixture-heat(900C,48H in air)-heat(1000-1150C,in air)-ANN(500C,10H in flowing O2)-cool to RT(1C/min)" Effect of a change in the carrier concentration and disorder on the superconducting transition temperature of the La2-xSrxCu1-yNiyO4 system 1994 6 "Physica C, 227(1994)160-168" "La,Sr,Cu,Ni,O" 4679 PHC2270160 semiconductor-like "(La,Sr)2(Cu,Ni)O4" La1.75Sr0.25Cu0.92Ni0.08O4 La 1.75 Sr 0.25 Cu 0.92 Ni 0.08 O 4 1 1994 2 T K 4.2 "La2O3,SrCo3,CuO,NiO" 1 "mixture-heat(900C,48H in air)-heat(1000-1150C,in air)-ANN(500C,10H in flowing O2)-cool to RT(1C/min)" Effect of a change in the carrier concentration and disorder on the superconducting transition temperature of the La2-xSrxCu1-yNiyO4 system 1994 6 "Physica C, 227(1994)160-168" "La,Sr,Cu,Ni,O" 4680 PHC2260243 "oxygen content by iodometry, linear dependence of R on T" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.231 Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 8.231 1994 Bi2212 K 83.7 83.7 "Bi2O3,SrCO3,CaCO3,CuO" 1 "mixture-fire(800C,12H)-pellet-SIN(825C,24H in air)-FC-ANN(300-400,100H in 1-1080 atm O2) or (600C,24H in flowing N2)" Dependence of Tc on the excess oxygen content z in Bi2Sr2CaCu2O8+z annealed under high pressures of oxygen 1994 6 "Physica C, 226(1994)243-249" "Bi,Sr,Ca,Cu,O" 4681 PHC2260243 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.329 Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 8.329 1994 emu.K/mole 0.048 Bi2212 K 47.3 47.3 m.ohm.cm 0.835 "Bi2O3,SrCO3,CaCO3,CuO" 1 "mixture-fire(800C,12H)-pellet-SIN(825C,24H in air)-FC-ANN(300-400,100H in 1-1080 atm O2) or (600C,24H in flowing N2)" Dependence of Tc on the excess oxygen content z in Bi2Sr2CaCu2O8+z annealed under high pressures of oxygen 1994 6 "Physica C, 226(1994)243-249" "Bi,Sr,Ca,Cu,O" 4682 PHC2260243 linear dependence of R on T Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.373 Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 8.373 1994 emu.K/mole 0.079 Bi2212 K 47.2 47.2 m.ohm.cm 0.745 "Bi2O3,SrCO3,CaCO3,CuO" 1 "mixture-fire(800C,12H)-pellet-SIN(825C,24H in air)-FC-ANN(300-400,100H in 1-1080 atm O2) or (600C,24H in flowing N2)" Dependence of Tc on the excess oxygen content z in Bi2Sr2CaCu2O8+z annealed under high pressures of oxygen 1994 6 "Physica C, 226(1994)243-249" "Bi,Sr,Ca,Cu,O" 4683 PHC2260243 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.428 Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 8.428 1994 Bi2212 K 42.1 42.1 m.ohm.cm 0.677 "Bi2O3,SrCO3,CaCO3,CuO" 1 "mixture-fire(800C,12H)-pellet-SIN(825C,24H in air)-FC-ANN(300-400,100H in 1-1080 atm O2) or (600C,24H in flowing N2)" Dependence of Tc on the excess oxygen content z in Bi2Sr2CaCu2O8+z annealed under high pressures of oxygen 1994 6 "Physica C, 226(1994)243-249" "Bi,Sr,Ca,Cu,O" 4684 PHC2260243 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.256 Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 8.256 1994 emu.K/mole 0.045 Bi2212 K 67.2 67.2 "Bi2O3,SrCO3,CaCO3,CuO" 1 "mixture-fire(800C,12H)-pellet-SIN(825C,24H in air)-FC-ANN(300-400,100H in 1-1080 atm O2) or (600C,24H in flowing N2)" Dependence of Tc on the excess oxygen content z in Bi2Sr2CaCu2O8+z annealed under high pressures of oxygen 1994 6 "Physica C, 226(1994)243-249" "Bi,Sr,Ca,Cu,O" 4685 PHC2270254 Y2Ba4Cu7O14 Y2Ba4Cu7O15-z Y 2 Ba 4 Cu 7 O 15-z 1994 3 Y247 A 3.841 3.884 50.42 K 78.8 6.5 78.8 1 K/GPa 5 "Y2O3,BaCO3,CuO,Pr2O3" 1 "mixture-CAL(900C,12H in flowing O2)-SIN(900C,48H at 2 MPa(for x=0), 24H at 0.8 MPa (for x=0.1,0.4,0.6) O2)" "Pressure effects on the electrical resistivities of (Y1-xPrx)2Ba4Cu7O15-z with x=0,0.1,0.4 and 0.6" 1994 7 "Physica C, 227(1994)254-258" "Y,Pr,Ba,Cu,O" 4686 PHC2270254 "(Y,Pr)2Ba4Cu7O14" Y1.8Pr0.2Ba4Cu7O15-z Y 1.8 Pr 0.2 Ba 4 Cu 7 O 15-z 1994 3 Y247 A 3.839 3.877 50.5 K 64.3 13 64.3 1 K/GPa 3.5 "Y2O3,BaCO3,CuO,Pr2O3" 1 "mixture-CAL(900C,12H in flowing O2)-SIN(900C,48H at 2 MPa(for x=0), 24H at 0.8 MPa (for x=0.1,0.4,0.6) O2)" "Pressure effects on the electrical resistivities of (Y1-xPrx)2Ba4Cu7O15-z with x=0,0.1,0.4 and 0.6" 1994 7 "Physica C, 227(1994)254-258" "Y,Pr,Ba,Cu,O" 4687 PHC2270254 "(Y,Pr)2Ba4Cu7O14" Y1.2Pr0.8Ba4Cu7O15-z Y 1.2 Pr 0.8 Ba 4 Cu 7 O 15-z 1994 3 Y247 A 3.855 3.886 50.57 K 54 9.3 54 1 K/GPa -1.8 "Y2O3,BaCO3,CuO,Pr2O3" 1 "mixture-CAL(900C,12H in flowing O2)-SIN(900C,48H at 2 MPa(for x=0), 24H at 0.8 MPa (for x=0.1,0.4,0.6) O2)" "Pressure effects on the electrical resistivities of (Y1-xPrx)2Ba4Cu7O15-z with x=0,0.1,0.4 and 0.6" 1994 7 "Physica C, 227(1994)254-258" "Y,Pr,Ba,Cu,O" 4688 PHC2270254 "(Y,Pr)2Ba4Cu7O14" Y0.8Pr1.2Ba4Cu7O15-z Y 0.8 Pr 1.2 Ba 4 Cu 7 O 15-z 1994 3 Y247 A 3.861 3.893 50.6 K 40 13 40 1 K/GPa -15 "Y2O3,BaCO3,CuO,Pr2O3" 1 "mixture-CAL(900C,12H in flowing O2)-SIN(900C,48H at 2 MPa(for x=0), 24H at 0.8 MPa (for x=0.1,0.4,0.6) O2)" "Pressure effects on the electrical resistivities of (Y1-xPrx)2Ba4Cu7O15-z with x=0,0.1,0.4 and 0.6" 1994 7 "Physica C, 227(1994)254-258" "Y,Pr,Ba,Cu,O" 4689 PHC2270237 Cl occupies both at apical and interstitial sites "(La,Sr)2Cu(O,Cl)4" La1.935Sr0.065Cu1Cl0.05O4-z La 1.935 Sr 0.065 Cu 1 Cl 0.05 O 4-z 1 1994 T K 14 14 m.ohm.cm 11.8 "LaOCl,Cu,SrCO3,La2O3" 1 sintered sample Chlorination effects in electrical transport properties of ceramic La2-xSrxCuO4-z-yCly 1994 7 "Physica C, 227(1994)237-244" "La,Sr,Cu,O,Cl" 4690 PHC2270237 "(La,Sr)2Cu(O,Cl)4" La1.9Sr0.1Cu1Cl0.1O3.9-z La 1.9 Sr 0.1 Cu 1 Cl 0.1 O 3.9-z 1 1994 T K 21 21 m.ohm.cm 8.2 "LaOCl,Cu,SrCO3,La2O3" 1 sintered sample Chlorination effects in electrical transport properties of ceramic La2-xSrxCuO4-z-yCly 1994 7 "Physica C, 227(1994)237-244" "La,Sr,Cu,O,Cl" 4691 PHC2270237 R is not zero at Tc "(La,Sr)2Cu(O,Cl)4" La1.8Sr0.2Cu1Cl0.2O3.8-z La 1.8 Sr 0.2 Cu 1 Cl 0.2 O 3.8-z 1 1994 T K 32 32 m.ohm.cm 2.73 "LaOCl,Cu,SrCO3,La2O3" 1 sintered sample Chlorination effects in electrical transport properties of ceramic La2-xSrxCuO4-z-yCly 1994 7 "Physica C, 227(1994)237-244" "La,Sr,Cu,O,Cl" 4692 PHC2200265 "Bi2Sr2(Y,Ce)2Cu2O10" Bi2Sr2Y1.65Ce0.35Cu2O10+z Bi 2 Sr 2 Y 1.65 Ce 0.35 Cu 2 O 10+z 1 1994 2 Bi2222 A 3.819 17.831 K 17.9 17.9 "Bi2O3,PbO,SrCO3,CeO2,Y2O3,CuO" 1 "mixture-fire(750C,20H)-pellet-heat(900C,60H in air)-ANN(500C,10H in 100 bar O2)" "Effect of lead addition to Bi-based 2222 superconducting cuprates Bi2-xPbxSr2(Y,Ce)2Cu2O10+z" 1994 2 "Physca C, 220(1994)265-270" "Bi,Sr,Pb,Y,Ce,Cu,O" 4693 PHC2200265 "(Bi,Pb)2Sr2(Y,Ce)2Cu2O10" Bi1.8Pb0.2Sr2Y1.65Ce0.35Cu2O10+z Bi 1.8 Pb 0.2 Sr 2 Y 1.65 Ce 0.35 Cu 2 O 10+z 1 1994 2 Bi2222 A 3.816 17.812 K 20 20 "Bi2O3,PbO,SrCO3,CeO2,Y2O3,CuO" 1 "mixture-fire(750C,20H)-pellet-heat(900C,60H in air)-ANN(500C,10H in 100 bar O2)" "Effect of lead addition to Bi-based 2222 superconducting cuprates Bi2-xPbxSr2(Y,Ce)2Cu2O10+z" 1994 2 "Physca C, 220(1994)265-270" "Bi,Sr,Pb,Y,Ce,Cu,O" 4694 PHC2200265 "(Bi,Pb)2Sr2(Y,Ce)2Cu2O10" Bi1.6Pb0.4Sr2Y1.65Ce0.35Cu2O10+z Bi 1.6 Pb 0.4 Sr 2 Y 1.65 Ce 0.35 Cu 2 O 10+z 1 1994 2 Bi2222 A 3.821 17.811 K 21.4 21.4 "Bi2O3,PbO,SrCO3,CeO2,Y2O3,CuO" 1 "mixture-fire(750C,20H)-pellet-heat(900C,60H in air)-ANN(500C,10H in 100 bar O2)" "Effect of lead addition to Bi-based 2222 superconducting cuprates Bi2-xPbxSr2(Y,Ce)2Cu2O10+z" 1994 2 "Physca C, 220(1994)265-270" "Bi,Sr,Pb,Y,Ce,Cu,O" 4695 PHC2200265 "(Bi,Pb)2Sr2(Y,Ce)2Cu2O10" Bi1.4Pb0.6Sr2Y1.65Ce0.35Cu2O10+z Bi 1.4 Pb 0.6 Sr 2 Y 1.65 Ce 0.35 Cu 2 O 10+z 1 1994 2 Bi2222 A 3.809 17.861 K 23.5 23.5 "Bi2O3,PbO,SrCO3,CeO2,Y2O3,CuO" 1 "mixture-fire(750C,20H)-pellet-heat(900C,60H in air)-ANN(500C,10H in 100 bar O2)" "Effect of lead addition to Bi-based 2222 superconducting cuprates Bi2-xPbxSr2(Y,Ce)2Cu2O10+z" 1994 2 "Physca C, 220(1994)265-270" "Bi,Sr,Pb,Y,Ce,Cu,O" 4696 PHC2200265 "(Bi,Pb)2Sr2(Y,Ce)2Cu2O10" Bi1.2Pb0.8Sr2Y1.65Ce0.35Cu2O10+z Bi 1.2 Pb 0.8 Sr 2 Y 1.65 Ce 0.35 Cu 2 O 10+z 1 1994 2 Bi2222 A 3.813 17.881 K 27 27 "Bi2O3,PbO,SrCO3,CeO2,Y2O3,CuO" 1 "mixture-fire(750C,20H)-pellet-heat(900C,60H in air)-ANN(500C,10H in 100 bar O2)" "Effect of lead addition to Bi-based 2222 superconducting cuprates Bi2-xPbxSr2(Y,Ce)2Cu2O10+z" 1994 2 "Physca C, 220(1994)265-270" "Bi,Sr,Pb,Y,Ce,Cu,O" 4697 PHC2200265 "(Bi,Pb)2Sr2(Y,Ce)2Cu2O10" Bi1Pb1Sr2Y1.65Ce0.35Cu2O10+z Bi 1 Pb 1 Sr 2 Y 1.65 Ce 0.35 Cu 2 O 10+z 1 1994 2 Bi2222 A 3.813 17.827 K 25 25 "Bi2O3,PbO,SrCO3,CeO2,Y2O3,CuO" 1 "mixture-fire(750C,20H)-pellet-heat(900C,60H in air)-ANN(500C,10H in 100 bar O2)" "Effect of lead addition to Bi-based 2222 superconducting cuprates Bi2-xPbxSr2(Y,Ce)2Cu2O10+z" 1994 2 "Physca C, 220(1994)265-270" "Bi,Sr,Pb,Y,Ce,Cu,O" 4698 PHC1680079 "Bi2Sr2(Pr,Ce)Cu2O10" Bi2Sr2Pr1.64Ce0.36Cu2O10.27 Bi 2 Sr 2 Pr 1.64 Ce 0.36 Cu 2 O 10+z 10.27 1 1990 2 Bi2222 A 3.885 17.87 K 4.2 "Bi2O3,SrCO3,CeO2,CuO,R2O3" 1 "mixture-fire(800C,10H in air)-pellet-heat(900-990C,60H in air)-SIN(slightly below M.P.)-FC-ANN(500C,10H in 80 atm O2)" EXTENDED FAMILY OF NEW Bi-2222 SUPERCONDUCTING CUPRATES Bi2Sr2(RE1-xCex)2Cu2O10+y9 RE=rare earth 1990 "Department of Physics, University of Tokyo, Bunkyo 113, Japan" "Physica.C,168(1990)79-84" 4699 PHC1680079 "Bi2Sr2(Nd,Ce)2Cu2O10" Bi2Sr2Nd1.64Ce0.36Cu2O10.23 Bi 2 Sr 2 Nd 1.64 Ce 0.36 Cu 2 O 10+z 10.23 1 1990 2 Bi2222 A 3.881 17.93 K 14 14 "Bi2O3,SrCO3,CeO2,CuO,R2O3" 1 "mixture-fire(800C,10H in air)-pellet-heat(900-990C,60H in air)-SIN(slightly below M.P.)-FC-ANN(500C,10H in 80 atm O2)" EXTENDED FAMILY OF NEW Bi-2222 SUPERCONDUCTING CUPRATES Bi2Sr2(RE1-xCex)2Cu2O10+y9 RE=rare earth 1990 "Department of Physics, University of Tokyo, Bunkyo 113, Japan" "Physica.C,168(1990)79-84" 4700 PHC1680079 "Bi2Sr2(Sm,Ce)2Cu2O10" Bi2Sr2Sm1.64Ce0.36Cu2O10.24 Bi 2 Sr 2 Sm 1.64 Ce 0.36 Cu 2 O 10+z 10.24 1 1990 2 Bi2222 A 3.863 17.9 K 16 16 "Bi2O3,SrCO3,CeO2,CuO,R2O3" 1 "mixture-fire(800C,10H in air)-pellet-heat(900-990C,60H in air)-SIN(slightly below M.P.)-FC-ANN(500C,10H in 80 atm O2)" EXTENDED FAMILY OF NEW Bi-2222 SUPERCONDUCTING CUPRATES Bi2Sr2(RE1-xCex)2Cu2O10+y9 RE=rare earth 1990 "Department of Physics, University of Tokyo, Bunkyo 113, Japan" "Physica.C,168(1990)79-84" 4701 PHC1680079 "Bi2Sr2(Eu,Ce)2Cu2O10" Bi2Sr2Eu1.64Ce0.36Cu2O10.26 Bi 2 Sr 2 Eu 1.64 Ce 0.36 Cu 2 O 10+z 10.26 1 1990 2 Bi2222 A 3.854 17.88 K 27 27 "Bi2O3,SrCO3,CeO2,CuO,R2O3" 1 "mixture-fire(800C,10H in air)-pellet-heat(900-990C,60H in air)-SIN(slightly below M.P.)-FC-ANN(500C,10H in 80 atm O2)" EXTENDED FAMILY OF NEW Bi-2222 SUPERCONDUCTING CUPRATES Bi2Sr2(RE1-xCex)2Cu2O10+y9 RE=rare earth 1990 "Department of Physics, University of Tokyo, Bunkyo 113, Japan" "Physica.C,168(1990)79-84" 4702 PHC1680079 "Bi2Sr2(Gd,Ce)2Cu2O10" Bi2Sr2Gd1.64Ce0.36Cu2O10.24 Bi 2 Sr 2 Gd 1.64 Ce 0.36 Cu 2 O 10+z 10.24 1 1990 2 Bi2222 A 3.851 17.88 K 34 34 20 "Bi2O3,SrCO3,CeO2,CuO,R2O3" 1 "mixture-fire(800C,10H in air)-pellet-heat(900-990C,60H in air)-SIN(slightly below M.P.)-FC-ANN(500C,10H in 80 atm O2)" EXTENDED FAMILY OF NEW Bi-2222 SUPERCONDUCTING CUPRATES Bi2Sr2(RE1-xCex)2Cu2O10+y9 RE=rare earth 1990 "Department of Physics, University of Tokyo, Bunkyo 113, Japan" "Physica.C,168(1990)79-84" 4703 PHC1680079 "Bi2Sr2(Tb,Ce)2Cu2O10" Bi2Sr2Tb1.64Ce0.36Cu2O10.26 Bi 2 Sr 2 Tb 1.64 Ce 0.36 Cu 2 O 10+z 10.26 1 1990 2 Bi2222 A 3.847 17.83 K 4.2 "Bi2O3,PbO,SrCO3,CeO2,Y2O3,CuO" 1 "mixture-fire(750C,20H)-pellet-heat(900C,60H in air)-ANN(500C,10H in 100 bar O2)" EXTENDED FAMILY OF NEW Bi-2222 SUPERCONDUCTING CUPRATES Bi2Sr2(RE1-xCex)2Cu2O10+y9 RE=rare earth 1990 "Department of Physics, University of Tokyo, Bunkyo 113, Japan" "Physica.C,168(1990)79-84" 4704 PHC1680079 "Bi2Sr2(Dy,Ce)2Cu2O10" Bi2Sr2Dy1.64Ce0.36Cu2O10.26 Bi 2 Sr 2 Dy 1.64 Ce 0.36 Cu 2 O 10+z 10.26 1 1990 2 Bi2222 A 3.844 17.87 K 27 27 "Bi2O3,PbO,SrCO3,CeO2,Y2O3,CuO" 1 "mixture-fire(750C,20H)-pellet-heat(900C,60H in air)-ANN(500C,10H in 100 bar O2)" EXTENDED FAMILY OF NEW Bi-2222 SUPERCONDUCTING CUPRATES Bi2Sr2(RE1-xCex)2Cu2O10+y9 RE=rare earth 1990 "Department of Physics, University of Tokyo, Bunkyo 113, Japan" "Physica.C,168(1990)79-84" 4705 PHC1680079 "Bi2Sr2(Ho,Ce)2Cu2O10" Bi2Sr2Ho1.64Ce0.36Cu2O10.22 Bi 2 Sr 2 Ho 1.64 Ce 0.36 Cu 2 O 10+z 10.22 1 1990 2 Bi2222 A 3.84 17.86 K 24 24 "Bi2O3,PbO,SrCO3,CeO2,Y2O3,CuO" 1 "mixture-fire(750C,20H)-pellet-heat(900C,60H in air)-ANN(500C,10H in 100 bar O2)" EXTENDED FAMILY OF NEW Bi-2222 SUPERCONDUCTING CUPRATES Bi2Sr2(RE1-xCex)2Cu2O10+y9 RE=rare earth 1990 "Department of Physics, University of Tokyo, Bunkyo 113, Japan" "Physica.C,168(1990)79-84" 4706 PHC1680079 "Bi2Sr2(Y,Ce)2Cu2O10" Bi2Sr2Y1.64Ce0.36Cu2O10.22 Bi 2 Sr 2 Y 1.64 Ce 0.36 Cu 2 O 10+z 10.22 1 1990 2 Bi2222 A 3.836 17.85 K 20 20 "Bi2O3,PbO,SrCO3,CeO2,Y2O3,CuO" 1 "mixture-fire(750C,20H)-pellet-heat(900C,60H in air)-ANN(500C,10H in 100 bar O2)" EXTENDED FAMILY OF NEW Bi-2222 SUPERCONDUCTING CUPRATES Bi2Sr2(RE1-xCex)2Cu2O10+y9 RE=rare earth 1990 "Department of Physics, University of Tokyo, Bunkyo 113, Japan" "Physica.C,168(1990)79-84" 4707 PHC1680079 "Bi2Sr2(Er,Ce)2Cu2O10" Bi2Sr2Er1.64Ce0.36Cu2O10.21 Bi 2 Sr 2 Er 1.64 Ce 0.36 Cu 2 O 10+z 10.21 1 1990 2 Bi2222 A 3.837 17.84 K 5 "Bi2O3,PbO,SrCO3,CeO2,Y2O3,CuO" 1 "mixture-fire(750C,20H)-pellet-heat(900C,60H in air)-ANN(500C,10H in 100 bar O2)" EXTENDED FAMILY OF NEW Bi-2222 SUPERCONDUCTING CUPRATES Bi2Sr2(RE1-xCex)2Cu2O10+y9 RE=rare earth 1990 "Department of Physics, University of Tokyo, Bunkyo 113, Japan" "Physica.C,168(1990)79-84" 4708 PHC1680079 "Bi2Sr2(Tm,Ce)2Cu2O10" Bi2Sr2Tm1.64Ce0.36Cu2O10.2 Bi 2 Sr 2 Tm 1.64 Ce 0.36 Cu 2 O 10+z 10.2 1 1990 2 Bi2222 A 3.827 17.84 K 5 "Bi2O3,PbO,SrCO3,CeO2,Y2O3,CuO" 1 "mixture-fire(750C,20H)-pellet-heat(900C,60H in air)-ANN(500C,10H in 100 bar O2)" EXTENDED FAMILY OF NEW Bi-2222 SUPERCONDUCTING CUPRATES Bi2Sr2(RE1-xCex)2Cu2O10+y9 RE=rare earth 1990 "Department of Physics, University of Tokyo, Bunkyo 113, Japan" "Physica.C,168(1990)79-84" 4709 PHC2200187 La1.4Ba1.27Ca0.33Cu3Oz La 1.4 Ba 1.27 Ca 0.33 Cu 3 O z 1 1994 2 K 68 68 "La2O3,BaCO3,CaCO3,CuO" 1 "mixture-(900C,12H for decarbonate)-(900C)" "Superconducting La1.5-xBa1.5+x-yCayCu3Oz solid solutions: I. Phase diagram,cation stoichiometry and Tc data" 1994 2 "Physica C, 220(1994)187-194" "La,Ba,Ca,Cu,O" 4710 PHC2200187 La1.3Ba1.37Ca0.33Cu3Oz La 1.3 Ba 1.37 Ca 0.33 Cu 3 O z 1 1994 2 K 61 61 "La2O3,BaCO3,CaCO3,CuO" 1 "mixture-(900C,12H for decarbonate)-(900C)" "Superconducting La1.5-xBa1.5+x-yCayCu3Oz solid solutions: I. Phase diagram,cation stoichiometry and Tc data" 1994 2 "Physica C, 220(1994)187-194" "La,Ba,Ca,Cu,O" 4711 PHC2200187 La1.2Ba1.47Ca0.33Cu3Oz La 1.2 Ba 1.47 Ca 0.33 Cu 3 O z 1 1994 2 K 53 53 "La2O3,BaCO3,CaCO3,CuO" 1 "mixture-(900C,12H for decarbonate)-(900C)" "Superconducting La1.5-xBa1.5+x-yCayCu3Oz solid solutions: I. Phase diagram,cation stoichiometry and Tc data" 1994 2 "Physica C, 220(1994)187-194" "La,Ba,Ca,Cu,O" 4712 PHC2200187 La1.1Ba1.57Ca0.33Cu3Oz La 1.1 Ba 1.57 Ca 0.33 Cu 3 O z 1 1994 2 K 43 43 "La2O3,BaCO3,CaCO3,CuO" 1 "mixture-(900C,12H for decarbonate)-(900C)" "Superconducting La1.5-xBa1.5+x-yCayCu3Oz solid solutions: I. Phase diagram,cation stoichiometry and Tc data" 1994 2 "Physica C, 220(1994)187-194" "La,Ba,Ca,Cu,O" 4713 PHC2200187 La1.4Ba1.4Ca0.2Cu3Oz La 1.4 Ba 1.4 Ca 0.2 Cu 3 O z 1 1994 2 K 30 30 "La2O3,BaCO3,CaCO3,CuO" 1 "mixture-(900C,12H for decarbonate)-(900C)" "Superconducting La1.5-xBa1.5+x-yCayCu3Oz solid solutions: I. Phase diagram,cation stoichiometry and Tc data" 1994 2 "Physica C, 220(1994)187-194" "La,Ba,Ca,Cu,O" 4714 PHC2200187 La1.3Ba1.3Ca0.4Cu3Oz La 1.3 Ba 1.3 Ca 0.4 Cu 3 O z 1 1994 2 K 58 58 "La2O3,BaCO3,CaCO3,CuO" 1 "mixture-(900C,12H for decarbonate)-(900C)" "Superconducting La1.5-xBa1.5+x-yCayCu3Oz solid solutions: I. Phase diagram,cation stoichiometry and Tc data" 1994 2 "Physica C, 220(1994)187-194" "La,Ba,Ca,Cu,O" 4715 PHC2200187 La1Ba1.5Ca0.5Cu3Oz La 1 Ba 1.5 Ca 0.5 Cu 3 O z 1 1994 2 K 77 77 "La2O3,BaCO3,CaCO3,CuO" 1 "mixture-(900C,12H for decarbonate)-(900C)" "Superconducting La1.5-xBa1.5+x-yCayCu3Oz solid solutions: I. Phase diagram,cation stoichiometry and Tc data" 1994 2 "Physica C, 220(1994)187-194" "La,Ba,Ca,Cu,O" 4716 PHC2200187 La1.5Ba1Ca0.5Cu3Oz La 1.5 Ba 1 Ca 0.5 Cu 3 O z 1 1994 2 K 50 50 "La2O3,BaCO3,CaCO3,CuO" 1 "mixture-(900C,12H for decarbonate)-(900C)" "Superconducting La1.5-xBa1.5+x-yCayCu3Oz solid solutions: I. Phase diagram,cation stoichiometry and Tc data" 1994 2 "Physica C, 220(1994)187-194" "La,Ba,Ca,Cu,O" 4717 PHC2230075 "constant current=0.50mA,Cu-valence2.145" La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 1 1994 3 T A 5.336 5.421 13.164 K 41.2 41.2 TP4717 "La2O3,Ba(NO3)2,CuO" "mixture-CAL(1173K,12H in air)-SIN(1320K,24H)-oxidized electrochemically" "Preparation, magnetization, Seebeck coefficient, and electrical resistivity of electrochemically oxidized La2-xBaxCuO4 (0=60%,Hg1212=5%, Hg2435=30%" HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3Oz Hg 1 Ba 2 Ca 2 Cu 3 O z 1993 2 Hg1223 A 3.85 15.95 K 130 133 133 133 20 see NAT3620226 CHARACTERISATION OF SUPERCONDUCTING HG-BA-CA-CU-OXIDES 1993 9 "PHYSICA C,215(1993)11" "HG,BA,CA,CU,O" 5073 PHC1620151 YBa2Cu3Oz Y1Ba2Cu3O6.97 Y 1 Ba 2 Cu 3 O z 6.97 1 1989 3 Y123 K 89.9 89.9 89.9 60 A muon-spin resonance 1550 1 MEASUREMENT OF THE LONDON PENETRATION DEPTHSIN IN YBa2Cu3Ox BY MEANS OF MUON SPIN ROTATION (%*SR) EXPERIMENTS 1989 "Physik-Institut der Universita""t Zu""rich, CH-8001 Zurich" "Physica.C,162-164(1989)151-152" 5074 PHC1620151 c-axis oriented sample YBa2Cu3Oz Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O z 6.9 1 1989 3 Y123 K 89 89 89 23 A muon-spin resonance 5000 1300 1 MEASUREMENT OF THE LONDON PENETRATION DEPTHSIN IN YBa2Cu3Ox BY MEANS OF MUON SPIN ROTATION (%*SR) EXPERIMENTS 1989 "Physik-Institut der Universita""t Zu""rich, CH-8001 Zurich" "Physica.C,162-164(1989)151-152" 5075 PHC2140350 YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 1993 3 Y123 K 92.9 92.9 A susceptibility of highly oriented grain 1400 10400 "Y2O3,BaCO3,CuO,Co3O4,ZnO" 1 "mixture-CAL(850C,12H)-pellet-SIN(900C+940C,36H)-ANN-slow cool(1C/min) in O2 to RT" TEMPERATURE DEPENDENT MAGNETIC PENETRATION DEPTH OF CO AND ZNDOPED YBA2CU3O7 OBTAINED FROM THE AC SUSCEPTIBILITY OF MAGNETICALLY ALIGNED POWDERS 1993 9 "PHYSICA C,214(1993)350" "CO,ZN,Y,BA,CU,O" 5076 PHC2140350 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.85Zn0.15O7-z Y 1 Ba 2 Cu 2.85 Zn 0.15 O 7-z 1993 Y123 K 41.5 41.5 A 3300 15000 "Y2O3,BaCO3,CuO,Co3O4,ZnO" 1 "mixture-CAL(850C,12H)-pellet-SIN(900C+940C,36H)-ANN-slow cool(1C/min) in O2 to RT" TEMPERATURE DEPENDENT MAGNETIC PENETRATION DEPTH OF CO AND ZNDOPED YBA2CU3O7 OBTAINED FROM THE AC SUSCEPTIBILITY OF MAGNETICALLY ALIGNED POWDERS 1993 9 "PHYSICA C,214(1993)350" "CO,ZN,Y,BA,CU,O" 5077 PHC2140350 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.955Co0.045O7-z Y 1 Ba 2 Cu 2.955 Co 0.045 O 7-z 1993 Y123 K 94.4 94.4 A susceptibility of highly oriented grain 2020 11600 "Y2O3,BaCO3,CuO,Co3O4,ZnO" 1 "mixture-CAL(850C,12H)-pellet-SIN(900C+940C,36H)-ANN-slow cool(1C/min) in O2 to RT" TEMPERATURE DEPENDENT MAGNETIC PENETRATION DEPTH OF CO AND ZNDOPED YBA2CU3O7 OBTAINED FROM THE AC SUSCEPTIBILITY OF MAGNETICALLY ALIGNED POWDERS 1993 9 "PHYSICA C,214(1993)350" "CO,ZN,Y,BA,CU,O" 5078 PHC2140350 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.88Co0.12O7-z Y 1 Ba 2 Cu 2.88 Co 0.12 O 7-z 1993 Y123 K 80 80 A susceptibility of highly oriented grain 2000 20000 "Y2O3,BaCO3,CuO,Co3O4,ZnO" 1 "mixture-CAL(850C,12H)-pellet-SIN(900C+940C,36H)-ANN-slow cool(1C/min) in O2 to RT" TEMPERATURE DEPENDENT MAGNETIC PENETRATION DEPTH OF CO AND ZNDOPED YBA2CU3O7 OBTAINED FROM THE AC SUSCEPTIBILITY OF MAGNETICALLY ALIGNED POWDERS 1993 9 "PHYSICA C,214(1993)350" "CO,ZN,Y,BA,CU,O" 5079 PR0486525 "(Nd,Ce)2Sr2Cu2NbO10" Nd1.5Ce0.5Sr2Cu2Nb1O10 Nd 1.5 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10 1993 2 RCSCNO K 24.2 24.2 Oe 89 "CeO2,R2O3,SrCO3,CuO,Nb2O3" 1 "pellet in Al2O3-SIN(1120C,80H in 30kbar O2)-FC to RT" "MAGNETIC PROPERTIES OF POLYCRYSTALLINE R1.5CE0.5SR2CU2NBO10 (R=EU,ND,AND SM) HIGH-TC SUPERCONDUCTING CERAMICS" 1993 9 "PHYS.REV.B,48(1993)6525" 5080 PR0486525 "(Eu,Ce)2Sr2Cu2NbO10" Eu1.5Ce0.5Sr2Cu2Nb1O10 Eu 1.5 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10 1993 2 RCSCNO K 24 24 Oe 70.5 "CeO2,R2O3,SrCO3,CuO,Nb2O3" 1 "pellet in Al2O3-SIN(1120C,80H in 30kbar O2)-FC to RT" "MAGNETIC PROPERTIES OF POLYCRYSTALLINE R1.5CE0.5SR2CU2NBO10 (R=EU,ND,AND SM) HIGH-TC SUPERCONDUCTING CERAMICS" 1993 9 "PHYS.REV.B,48(1993)6525" 5081 PR0486525 "(Sm,Ce)2Sr2Cu2NbO10" Sm1.5Ce0.5Sr2Cu2Nb1O10 Sm 1.5 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10 1993 2 RCSCNO K 27 27 Oe 92.5 "CeO2,R2O3,SrCO3,CuO,Nb2O3" 1 "pellet in Al2O3-SIN(1120C,80H in 30kbar O2)-FC to RT" "MAGNETIC PROPERTIES OF POLYCRYSTALLINE R1.5CE0.5SR2CU2NBO10 (R=EU,ND,AND SM) HIGH-TC SUPERCONDUCTING CERAMICS" 1993 9 "PHYS.REV.B,48(1993)6525" 5082 PR0486519 "Hc(0)=0.92T, G-L parameter=143" "(Tl,Pb)Sr2Ca2Cu3O9" Tl0.5Pb0.5Sr2Ca2Cu3O9 Tl 0.5 Pb 0.5 Sr 2 Ca 2 Cu 3 O 9 1 1993 Tl1223 K 115 3 115 Oe 231 T using WHH theory 240 T/K 2.8 A 11.7 A Hao et al method from magnetization 1800 1 "sample sealed in Au foil, SIN(950C or 910C in O2), average grain size 2 micron powders were solidified with wax in a field of 8T" "REVERSIBLE MAGNETIC PROPERTIES OF SUPERCONDUCTING (TL,PB)SR2CA2CU3O9 AND TL2BA2CA2CU3O10" 1993 9 "PHYS.REV.B,48(1993)6519" 5083 PR0486519 "Hc(0)=0.79T, G-L parameter=151" Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O10 Tl 2 Ba 2 Ca 2 Cu 3 O 10 1 1993 Tl2223 K 118 3 118 Oe 186 WHH theory 212 T/K 2.4 A 12.4 A Hao et al method from magnetization 2100 1 "sample sealed in Au foil, SIN(950C or 910C in O2), average grain size 2 micron powders were solidified with wax in a field of 8T" "REVERSIBLE MAGNETIC PROPERTIES OF SUPERCONDUCTING (TL,PB)SR2CA2CU3O9 AND TL2BA2CA2CU3O10" 1993 9 "PHYS.REV.B,48(1993)6519" 5084 PR0486506 "Tc measured by rf technique,pressure was changed at RT" La2CuO4 La2Cu1O4.08 La 2 Cu 1 O 4+z 4.08 1 1993 T K 32 32 K/GPa 2.5 1 electro-chemically charged sample using NaOH electrolyte PRESSURE DEPENDENCE OF THE SUPERCONDUCTING TRANSITION TEMPERATURE OF SUPEROXYGENATED LA2CUO4+Z 1993 9 "PHYS.REV.B,48(1993)6506" 5085 PR0486506 "Tc measured rf technique, pressure was changed at RT" La2CuO4 La2Cu1O4.12 La 2 Cu 1 O 4+z 4.12 1 1993 T K 43 43 K/GPa 0.1 1 electro-chemically charged sample using NaOH electrolyte PRESSURE DEPENDENCE OF THE SUPERCONDUCTING TRANSITION TEMPERATURE OF SUPEROXYGENATED LA2CUO4+Z 1993 9 "PHYS.REV.B,48(1993)6506" 5086 PR0486506 "Tc was measured by rf technique,pressure was changed at RT" La2CuO4 La2Cu1O4+z La 2 Cu 1 O 4+z 3 1993 T K 28 28 K/GPa 0.1 5 high pressure charged sample PRESSURE DEPENDENCE OF THE SUPERCONDUCTING TRANSITION TEMPERATURE OF SUPEROXYGENATED LA2CUO4+Z 1993 9 "PHYS.REV.B,48(1993)6506" 5087 PR0486506 "Tc was measured by rf technique,pressure was changed at RT" La2CuO4 La2Cu1O4+z La 2 Cu 1 O 4+z 3 1993 T K 39 39 K/GPa -1 5 high pressure charged sample PRESSURE DEPENDENCE OF THE SUPERCONDUCTING TRANSITION TEMPERATURE OF SUPEROXYGENATED LA2CUO4+Z 1993 9 "PHYS.REV.B,48(1993)6506" 5088 PR0486431 "z<0.1(OZ>6.9),Tc(max)=96.5K(p=5.6GPa), Tc for dTc/dP determined by Tc(on)" NdBa2Cu3O7 Nd1Ba2Cu3O7-z Nd 1 Ba 2 Cu 3 O 7-z 3 1993 3 Y123 K 87 7 87 K/GPa 3.6 diamond anvil method PRESSURE DEPENDENCE OF TC IN NDBA2CU3O7-Z TO 6 GPA 1993 9 "PHYS.REV.B,48(1993)6431" 5089 PR0486431 "z<0.1, Tc for dTc/dP determined by Tc(on)" NdBa2Cu3O7 Nd1Ba2Cu3O7-z Nd 1 Ba 2 Cu 3 O 7-z 3 1993 3 Y123 K 87.5 7 87.5 K/GPa 3.4 diamond anvil method PRESSURE DEPENDENCE OF TC IN NDBA2CU3O7-Z TO 6 GPA 1993 9 "PHYS.REV.B,48(1993)6431" 5090 PR0484095 "thermal cond. measured by using transient plane source technique, porocity=0.20" YBa2Cu3O7 Y1Ba2Cu3O6.99 Y 1 Ba 2 Cu 3 O 7-z 6.99 1 1993 5.08 3 Y123 A 3.821 3.887 11.68 K 400 from thermal conductivity 2.8 THC5090 m.ohm.cm 1.3 /cm3 "Y2O3,Er2O3,CuO,BaCO3" 1 "mixture-CAL(900C,20H in air)-pellet-SIN(920C,20H in air)-SIN(940C,20-24H in air)-FC to RT-ANN(400C,48H in O2)-c to RT" THERMAL CONDUCTIVITY AND ELECTRICAL RESISTIVITY OF THE Y- ANDER-SUBSTITUTED 1:2:3 SUPERCONDUCTING COMPOUNDS IN THE VICINITYOF THE TRANSITION TEMPERATURE 1993 8 "PHYS.REV.B,48(1993)4095" 5091 PR0484095 "porocity=0.24, thermal cond. by transient plane source technique" ErBa2Cu3O7 Er1Ba2Cu3O6.88 Er 1 Ba 2 Cu 3 O 7-z 6.88 1 1993 5.4 3 Y123 A 3.817 3.89 11.648 K 350 from thermal conductivity 1.8 THC5091 m.ohm.cm 2.6 /cm3 "Y2O3,Er2O3,CuO,BaCO3" 1 "mixture-CAL(900C,20H in air)-pellet-SIN(920C,20H in air)-SIN(940C,20-24H in air)-FC to RT-ANN(400C,48H in O2)-c to RT" THERMAL CONDUCTIVITY AND ELECTRICAL RESISTIVITY OF THE Y- ANDER-SUBSTITUTED 1:2:3 SUPERCONDUCTING COMPOUNDS IN THE VICINITYOF THE TRANSITION TEMPERATURE 1993 8 "PHYS.REV.B,48(1993)4095" 5092 PR0483575 porocity<2% YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1993 Y124 K 79 4 79 185 analyzed by relaxation time model 7.3 THC5092 m.ohm.cm 630 1 by HIP CuO with Y123 THERMAL CONDUCTIVITY OF YBA2CU4O8 DOMINATED BY PHONON-PHONON INTERACTIONS 1993 8 "PHYS.REV.B,48(1993)3575" 5093 PR0483531 "Bi:Sr:Ca:Cu=2.14:1.93:0.92:2.02, oxygen content not measured" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+z Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 3 1993 Bi2212 K 85 85 m.ohm.cm 0.3 2800 /cm3 9 "1 bar air annealing(500C,12-24H)" WIDE-RANGE OXYGEN DOPING OF BI2SR2CACU2O8+Z 1993 8 "PHYS.REV.B,48(1993)3531" 5094 PR0483531 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+z Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 3 1993 Bi2212 K 59 59 m.ohm.cm 0.18 1580 /cm3 9 "2 kbar O2 annealing(500C,12-24H)" WIDE-RANGE OXYGEN DOPING OF BI2SR2CACU2O8+Z 1993 8 "PHYS.REV.B,48(1993)3531" 5095 PHC1970131 "major phase=Tl-1222, impurity phase=Eu2CuO4" "TlBa2(Eu,Ce)2Cu2O9" Tl1Ba1.75Eu1.75Ce0.5Cu2O9-z Tl 1 Ba 1.75 Eu 1.75 Ce 0.5 Cu 2 O 9-z 2 1992 2 Tl1222 I4/mmm A 3.878 30.423 K 40 40 40 5 "Tl2O3,BaO2,Eu2O3,CeO2,CuO" 1 "ANN(500C,10H in 100bar O2), sample(5096)=SIN(890-910C,6H)" "TLBA2(EU,CE)2CU2O9+Z, A NEW MEMBER OF THE DOUBLE FLUORITE-TYPECUPRATE FAMILY" 1992 7 "PHYSICA C,197(1992)131" "TL,EU,CE,CU,O" 5096 PHC1970131 "major=Tl-1222, impurity phase=Eu2CuO4" "TlBa2(Eu,Ce)2Cu2O9" Tl1Ba1.75Eu1.75Ce0.5Cu2O9-z Tl 1 Ba 1.75 Eu 1.75 Ce 0.5 Cu 2 O 9-z 2 1992 2 Tl1222 I4/mmm A 3.878 30.423 K 25.5 25.5 25.5 0.3 "Tl2O3,BaO2,Eu2O3,CeO2,CuO" 1 "ANN(500C,10H in 100bar O2), sample(5096)=SIN(890-910C,6H)" "TLBA2(EU,CE)2CU2O9+Z, A NEW MEMBER OF THE DOUBLE FLUORITE-TYPECUPRATE FAMILY" 1992 7 "PHYSICA C,197(1992)131" "TL,EU,CE,CU,O" 5097 PHC1970042 "main phase=ortho-Pb2Sr2YCu3O8, X-Ray shows weak Ag + unknown phase" "((Pb,Ag)La,Cu)Sr2LaCu2Oz" Pb0.9AgSr2La2Cu3.1Oz Pb 0.9 Ag Sr 2 La 2 Cu 3.1 O z 2 1992 3 Pb3212 A 5.402 5.367 15.7 K 55 70 69 70 11 "sol-gel precursor-powder-fired(350C)-pellet-SIN(800C,12H in flowing Ar)-Quench" SUPERCONDUCTIVITY AT 55 K ENHANCED BY SILVER-DOPING IN PB0.9AGXSR2LA2CU3.1OY 1992 7 "PHYSICA C,197(1992)42" "PB,AG,SR,LA,CU,O" 5098 PHC1900433 lattice parameter decreases with increasing Sr content "Yb(Ba,Sr)2Cu4O8" Yb1Ba1.8Sr0.2Cu4O8 Yb 1 Ba 1.8 Sr 0.2 Cu 4 O 8 1 1992 3 Y124 A 3.814 3.857 27.129 x-ray K 77 82 80 82 m.ohm.cm 4.3 "Yb2O3,BaCO3,SrCO3,CuO" 1 "mixture-pellet-CAL(900c,120H in flowing O20-ground-long bar-SIN(920C in flowing O2)-ANN(1070C,6H in 80%Ar+20%O2 of 200MPa)" "YB(BA,SR)2CU4O8:A""124"" PHASE SUPERCONDUCTOR WITH A REDUCED UNIT CELL VOLUME" 1992 1 "PHYSICA C,190(1992)433" "YB,BA,SR,CU,O" 5099 PHC1900433 "Yb(Ba,Sr)2Cu4O8" Yb1Ba1.6Sr0.4Cu4O8 Yb 1 Ba 1.6 Sr 0.4 Cu 4 O 8 1 1992 3 Y124 A 3.805 3.855 27.072 x-ray K 78 83 80 80 m.ohm.cm 2.9 "Yb2O3,BaCO3,SrCO3,CuO" 1 "mixture-pellet-CAL(900c,120H in flowing O20-ground-long bar-SIN(920C in flowing O2)-ANN(1070C,6H in 80%Ar+20%O2 of 200MPa)" "YB(BA,SR)2CU4O8:A""124"" PHASE SUPERCONDUCTOR WITH A REDUCED UNIT CELL VOLUME" 1992 1 "PHYSICA C,190(1992)433" "YB,BA,SR,CU,O" 5100 PHC1900433 "Yb(Ba,Sr)2Cu4O8" Yb1Ba1.4Sr0.6Cu4O8 Yb 1 Ba 1.4 Sr 0.6 Cu 4 O 8 1 1992 3 Y124 A 3.796 3.851 27.022 x-ray K 77 83 80 80 m.ohm.cm 4 "Yb2O3,BaCO3,SrCO3,CuO" 1 "mixture-pellet-CAL(900c,120H in flowing O20-ground-long bar-SIN(920C in flowing O2)-ANN(1070C,6H in 80%Ar+20%O2 of 200MPa)" "YB(BA,SR)2CU4O8:A""124"" PHASE SUPERCONDUCTOR WITH A REDUCED UNIT CELL VOLUME" 1992 1 "PHYSICA C,190(1992)433" "YB,BA,SR,CU,O" 5101 PHC1900433 "Yb(Ba,Sr)2Cu4O8" Yb1Ba1.2Sr0.8Cu4O8 Yb 1 Ba 1.2 Sr 0.8 Cu 4 O 8 2 1992 3 Y124 A 3.794 3.851 27.007 x-ray K 76 81 80 80 m.ohm.cm 6.8 "Yb2O3,BaCO3,SrCO3,CuO" 1 "mixture-pellet-CAL(900c,120H in flowing O20-ground-long bar-SIN(920C in flowing O2)-ANN(1070C,6H in 80%Ar+20%O2 of 200MPa)" "YB(BA,SR)2CU4O8:A""124"" PHASE SUPERCONDUCTOR WITH A REDUCED UNIT CELL VOLUME" 1992 1 "PHYSICA C,190(1992)433" "YB,BA,SR,CU,O" 5102 PRL0700085 "gap by microwave, gap=3.9-4.5" "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 3 1993 T' K 22 22 22 A A micro wave 1100 3.9 10 Temperature Dependence of Penetration Depth and Surface Resistance of Nd1.85Ce0.15CuO4 1993 1 "Center for Superconductivity Reserch, Department of Physics, University of Maryland, College Park, Maryland 207 42" Phys.Rev.Lett.70(1993)85 5103 PRL0700085 gap=3.9-4.3 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 3 1993 T' K 21.5 21.5 21.5 A 80 A 1250 3.9 10 Temperature Dependence of Penetration Depth and Surface Resistance of Nd1.85Ce0.15CuO4 1993 1 "Center for Superconductivity Reserch, Department of Physics, University of Maryland, College Park, Maryland 207 42" Phys.Rev.Lett.70(1993)85 5104 PRL0700085 "thin film, gap=4-4.3" "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 4 1993 T' K 21 21 A 72 A 1300 4 10 Temperature Dependence of Penetration Depth and Surface Resistance of Nd1.85Ce0.15CuO4 1993 1 "Center for Superconductivity Reserch, Department of Physics, University of Maryland, College Park, Maryland 207 42" Phys.Rev.Lett.70(1993)85 5105 PRB03600836 impurity phase<5% HoBa2Cu3O7 Ho1Ba2Cu3Oz Ho 1 Ba 2 Cu 3 O z 1 1987 micro.B/Mo 10.6 13 Y123 K 90.2 91.5 86.6 91.5 90 ohm.cm 0.4 1 "Ho2O3,BaCO3,CuO" 1 "mixture-fired(895C,20H in flowing O2)-ground-pellet-HEAT(2C/min) to 945C-SIN(945C,16H)-cool(0.5C/min) to 500C-FC" Independent superconductivity and paramagnetism in HoBa2Cu3Oz 1987 "PHYS.REV.B,36(1987)836" 5106 SSC0850849 "apical Cu-O=2.333A,in-plane Cu-O=1.9902A" PrBa2Cu2NbOz Pr1Ba2Cu2Nb1O8-z Pr 1 Ba 2 Cu 2 Nb 1 O 8-z 1 1993 emu/mole 0.001 /Pr 2.85 -6 10 2 Y123 P4/mmm A 3.965 12.003 x-ray K "Pr6O11,CuO,Nb2O5,BaCO3" 1 "mixture-HEAT(1000C,24H)-ground-pellet-SIN(1000C,12H in flowing O2)" STRUCTURAL AND MAGNETIC STUDIES ON PRBA2CU2NBO8-Y 1993 3 "SOLID STATE COMMUN.,85(1993)849" "PR,BA,CU,NB,O" 5107 PHC2040043 "O2 press =23.4GPa, quenching sample" Sr2Dy1Cu3Oz Sr 2 Dy 1 Cu 3 O z 1992 2 Y123 A 3.797 11.395 K 40 "SrCO3,R2O3,CuO" 1 synthesized at 2GPa under various O2 pressure "SUPERCONDUCTIVITY IN SR2RCU3OZ (R=DY,HO,ER,TM AND YB)" 1992 12 "PHYSICA C,204(1992)43" "SR,R,CU,O" 5108 PHC2040043 O2 pressure=12.9GPa HoSr2Cu3Oz Sr2Ho1Cu3O Sr 2 Ho 1 Cu 3 O 1992 2 Y123 A 3.792 11.384 K 62 62 62 "SrCO3,R2O3,CuO" 1 synthesized at 2GPa under various O2 pressure "SUPERCONDUCTIVITY IN SR2RCU3OZ (R=DY,HO,ER,TM AND YB)" 1992 12 "PHYSICA C,204(1992)43" "SR,R,CU,O" 5109 PHC2040043 O2 pressure = 19.1GPa ErSr2Cu3Oz Er1Sr2Cu3Oz Er 1 Sr 2 Cu 3 O z 1992 2 Y123 K 60 60 60 "SrCO3,R2O3,CuO" 1 synthesized at 2GPa under various O2 pressure "SUPERCONDUCTIVITY IN SR2RCU3OZ (R=DY,HO,ER,TM AND YB)" 1992 12 "PHYSICA C,204(1992)43" "SR,R,CU,O" 5110 PHC2040043 O2 pressure=16.1GPa TmSr2Cu3Oz Tm1Sr2Cu3Oz Tm 1 Sr 2 Cu 3 O z 1992 2 Y123 K 45 45 45 "SrCO3,R2O3,CuO" 1 synthesized at 2GPa under various O2 pressure "SUPERCONDUCTIVITY IN SR2RCU3OZ (R=DY,HO,ER,TM AND YB)" 1992 12 "PHYSICA C,204(1992)43" "SR,R,CU,O" 5111 PHC2040065 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 3 1992 2 Bi2212 Bbmb A 5.41 30.88 K 75 85 75 75 STRUCTURAL AND SUPERCONDUCTING PROPERTIES OF IODINE-INTERCALATED BI2SR2CA1-XYXCU2OZ 1992 12 "PHYSICA C,204(1992)65" "BI,SR,CA,Y,CU,O" 5112 PHC2040065 I content =0.97 IBi2Sr2YCu2O8 I1Bi2Sr2Y1Cu2Oz I 1 Bi 2 Sr 2 Y 1 Cu 2 O z 1992 2 A 5.448 37.76 x-ray K 4.2 STRUCTURAL AND SUPERCONDUCTING PROPERTIES OF IODINE-INTERCALATED BI2SR2CA1-XYXCU2OZ 1992 12 "PHYSICA C,204(1992)65" "BI,SR,CA,Y,CU,O" 5113 PHC2040065 I content =0.96 "IBi2Sr2(Ca,Y)Cu2O8" I1Bi2Sr2Ca0.4Y0.6Cu2Oz I 1 Bi 2 Sr 2 Ca 0.4 Y 0.6 Cu 2 O z 1992 2 A 5.428 37.76 x-ray K 4.2 STRUCTURAL AND SUPERCONDUCTING PROPERTIES OF IODINE-INTERCALATED BI2SR2CA1-XYXCU2OZ 1992 12 "PHYSICA C,204(1992)65" "BI,SR,CA,Y,CU,O" 5114 PHC2040065 I content =0.96 "IBi2Sr2(Ca,Y)Cu2O8" I1Bi2Sr2Ca0.5Y0.5Cu2Oz I 1 Bi 2 Sr 2 Ca 0.5 Y 0.5 Cu 2 O z 1992 2 A 5.423 37.85 x-ray K 79 79 79 79 STRUCTURAL AND SUPERCONDUCTING PROPERTIES OF IODINE-INTERCALATED BI2SR2CA1-XYXCU2OZ 1992 12 "PHYSICA C,204(1992)65" "BI,SR,CA,Y,CU,O" 5115 PHC2040065 "IBi2Sr2(Ca,Y)Cu2O8" I1Bi2Sr2Ca0.6Y0.4Cu2Oz I 1 Bi 2 Sr 2 Ca 0.6 Y 0.4 Cu 2 O z 3 1992 2 A 5.421 37.9 x-ray K 86 88 86 86 STRUCTURAL AND SUPERCONDUCTING PROPERTIES OF IODINE-INTERCALATED BI2SR2CA1-XYXCU2OZ 1992 12 "PHYSICA C,204(1992)65" "BI,SR,CA,Y,CU,O" 5116 PHC2040065 "IBi2Sr2(Ca,Y)Cu2O8" I1Bi2Sr2Ca0.8Y0.2Cu2Oz I 1 Bi 2 Sr 2 Ca 0.8 Y 0.2 Cu 2 O z 3 1992 2 A 5.408 38.06 x-ray K 84 98 84 84 STRUCTURAL AND SUPERCONDUCTING PROPERTIES OF IODINE-INTERCALATED BI2SR2CA1-XYXCU2OZ 1992 12 "PHYSICA C,204(1992)65" "BI,SR,CA,Y,CU,O" 5117 PHC2040065 lattice const. c linearly decreases with decreasing I content. I atom found between Bi-O layers. IBi2Sr2CaCu2O8 I1Bi2Sr2Ca1Cu2Oz I 1 Bi 2 Sr 2 Ca 1 Cu 2 O z 3 1992 2 Pbmb A 5.4 38.15 x-ray K 65 75 65 65 STRUCTURAL AND SUPERCONDUCTING PROPERTIES OF IODINE-INTERCALATED BI2SR2CA1-XYXCU2OZ 1992 12 "PHYSICA C,204(1992)65" "BI,SR,CA,Y,CU,O" 5118 PHC2040065 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.8Y0.2Cu2Oz Bi 2 Sr 2 Ca 0.8 Y 0.2 Cu 2 O z 3 1992 2 Bi2212 A 5.408 30.7 K 87 100 87 87 STRUCTURAL AND SUPERCONDUCTING PROPERTIES OF IODINE-INTERCALATED BI2SR2CA1-XYXCU2OZ 1992 12 "PHYSICA C,204(1992)65" "BI,SR,CA,Y,CU,O" 5119 PHC2040065 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.6Y0.4Cu2Oz Bi 2 Sr 2 Ca 0.6 Y 0.4 Cu 2 O z 3 1992 2 Bi2212 A 5.422 30.52 K 86 98 86 86 STRUCTURAL AND SUPERCONDUCTING PROPERTIES OF IODINE-INTERCALATED BI2SR2CA1-XYXCU2OZ 1992 12 "PHYSICA C,204(1992)65" "BI,SR,CA,Y,CU,O" 5120 PHC2040065 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.5Y0.5Cu2Oz Bi 2 Sr 2 Ca 0.5 Y 0.5 Cu 2 O z 1992 3 Bi2212 A 5.423 5.432 30.46 K 80 83 80 80 STRUCTURAL AND SUPERCONDUCTING PROPERTIES OF IODINE-INTERCALATED BI2SR2CA1-XYXCU2OZ 1992 12 "PHYSICA C,204(1992)65" "BI,SR,CA,Y,CU,O" 5121 PHC2040065 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.4Y0.6Cu2Oz Bi 2 Sr 2 Ca 0.4 Y 0.6 Cu 2 O z 1992 3 Bi2212 A 5.424 5.438 30.38 K 4.2 STRUCTURAL AND SUPERCONDUCTING PROPERTIES OF IODINE-INTERCALATED BI2SR2CA1-XYXCU2OZ 1992 12 "PHYSICA C,204(1992)65" "BI,SR,CA,Y,CU,O" 5122 PHC2040065 Bi2Sr2YCu2O8 Bi2Sr2Y1Cu2Oz Bi 2 Sr 2 Y 1 Cu 2 O z 1992 3 Bi2212 A 5.438 5.468 30.2 K 4.2 STRUCTURAL AND SUPERCONDUCTING PROPERTIES OF IODINE-INTERCALATED BI2SR2CA1-XYXCU2OZ 1992 12 "PHYSICA C,204(1992)65" "BI,SR,CA,Y,CU,O" 5123 SSC0850073 "80%C60+18%C70+2%solvent, Debye temp. estimated from specific heat below 9K. two anomalies(90K ,250K) in specific heat" C60 C60 C 60 1993 fullerene K uJ/g.K2 893 188 from specific heat SPECIFIC HEAT OF FULLERENES EXTRACT 1993 1 "SOLID STATE COMMUN.,85(1993)73" "C," 5124 SSC0850849 PrBa2Cu3NbO8 Pr1Ba2Cu2Nb1O8-z Pr 1 Ba 2 Cu 2 Nb 1 O 8-z 1993 emu/mole 0.001 micro.B/Mo 2.85 -6 10 2 Y123 P4/mmm A 3.965 12.003 structure analyzed by neutron diffraction K "Pr6O11,CuO,Nb2O5,BaCo2" 1 "mixture-Heat(1000C,24H)-reground-pellet-Heat(12H in flowing O2)-slow cool" STRUCTURAL AND MAGNETIC STUDIES ON PRBA2CU2NBO8-Y 1993 3 "SOLID STATE COMMUN.,85(1993)849" "PR,BA,CU,NB,O" 5125 PR0479048 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O8+z Tl 2 Ba 2 Ca 1 Cu 2 O 8+z 1 1993 3 Tl2212 K 85 85 micro.V/K -3.1 TP5125 see PR0442757 THERMOELECTRIC POWER OF TL2BA2CA1-XYXCU2O8+Y (0<-X<-0.6) SAMPLES 1993 4 "PHYS.REV.B,47(1993)9048" "TL,BA,CA,Y,CU,O" 5126 PR0479048 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O8+z Tl 2 Ba 2 Ca 1 Cu 2 O 8+z 1 1993 3 Tl2212 K 105 105 2.63 TP5126 see PR0442757 THERMOELECTRIC POWER OF TL2BA2CA1-XYXCU2O8+Y (0<-X<-0.6) SAMPLES 1993 4 "PHYS.REV.B,47(1993)9048" "TL,BA,CA,Y,CU,O" 5127 PR0479048 "Tl2Ba2(Ca,Y)Cu2O8" Tl2Ba2Ca0.9Y0.1Cu2O8+z Tl 2 Ba 2 Ca 0.9 Y 0.1 Cu 2 O 8+z 1 1993 3 Tl2212 K 88 88 2.46 TP5127 see PR0442757 THERMOELECTRIC POWER OF TL2BA2CA1-XYXCU2O8+Y (0<-X<-0.6) SAMPLES 1993 4 "PHYS.REV.B,47(1993)9048" "TL,BA,CA,Y,CU,O" 5128 PR0479048 "Tl2Ba2(Ca,Y)Cu2O8" Tl2Ba2Ca0.8Y0.2Cu2O8+z Tl 2 Ba 2 Ca 0.8 Y 0.2 Cu 2 O 8+z 1 1993 3 Tl2212 K 74 74 12.3 TP5128 see PR0442757 THERMOELECTRIC POWER OF TL2BA2CA1-XYXCU2O8+Y (0<-X<-0.6) SAMPLES 1993 4 "PHYS.REV.B,47(1993)9048" "TL,BA,CA,Y,CU,O" 5129 PR0479048 "Tl2Ba2(Ca,Y)Cu2O8" Tl2Ba2Ca0.75Y0.25Cu2O8+z Tl 2 Ba 2 Ca 0.75 Y 0.25 Cu 2 O 8+z 1 1993 3 Tl2212 K 58 58 27 TP5129 see PR0442757 THERMOELECTRIC POWER OF TL2BA2CA1-XYXCU2O8+Y (0<-X<-0.6) SAMPLES 1993 4 "PHYS.REV.B,47(1993)9048" "TL,BA,CA,Y,CU,O" 5130 PR0479048 "Tl2Ba2(Ca,Y)Cu2O8" Tl2Ba2Ca0.65Y0.35Cu2O8+z Tl 2 Ba 2 Ca 0.65 Y 0.35 Cu 2 O 8+z 1 1993 3 Tl2212 K 30 30 62.6 TP5130 see PR0442757 THERMOELECTRIC POWER OF TL2BA2CA1-XYXCU2O8+Y (0<-X<-0.6) SAMPLES 1993 4 "PHYS.REV.B,47(1993)9048" "TL,BA,CA,Y,CU,O" 5131 PR0479048 "Tl2Ba2(Ca,Y)Cu2O8" Tl2Ba2Ca0.5Y0.5Cu2O8+z Tl 2 Ba 2 Ca 0.5 Y 0.5 Cu 2 O 8+z 1 1993 3 Tl2212 K 121.5 TP5131 see PR0442757 THERMOELECTRIC POWER OF TL2BA2CA1-XYXCU2O8+Y (0<-X<-0.6) SAMPLES 1993 4 "PHYS.REV.B,47(1993)9048" "TL,BA,CA,Y,CU,O" 5132 PR0479048 "Tl2Ba2(Ca,Y)Cu2O8" Tl2Ba2Ca0.4Y0.6Cu2O8+z Tl 2 Ba 2 Ca 0.4 Y 0.6 Cu 2 O 8+z 1 1993 3 Tl2212 K 180 TP5132 see PR0442757 THERMOELECTRIC POWER OF TL2BA2CA1-XYXCU2O8+Y (0<-X<-0.6) SAMPLES 1993 4 "PHYS.REV.B,47(1993)9048" "TL,BA,CA,Y,CU,O" 5133 PR0478008 structure comfirmed by x-ray diffraction "(Ba,K)2(Pb,Bi)O4" Ba1.7K0.3Pb0.95Bi0.05O4 Ba 1.7 K 0.3 Pb 0.95 Bi 0.05 O 4 1993 2 T K 11 11 11 11 modified sol-gel method was used for nominal powders BA2-XKXPB1-YBIYO4-Z: LAYERED OXIDES WITH INSULATING OR CONDUCTING PROPERTIES AND POSSIBLE SUPERCONDUCTING PROPERTIES 1993 4 "PHYS.REV.B,47(1993)8008" "BA,K,PB,BI,O" 5134 PR0478008 structure by x-ray diffraction "(Ba.K)2(Pb,Bi)O4" Ba1.9K0.1Pb0.85Bi0.15O4 Ba 1.9 K 0.1 Pb 0.85 Bi 0.15 O 4 1993 2 T K 12.5 12.5 12.5 11 modified sol-gel method was used for nominal powders BA2-XKXPB1-YBIYO4-Z: LAYERED OXIDES WITH INSULATING OR CONDUCTING PROPERTIES AND POSSIBLE SUPERCONDUCTING PROPERTIES 1993 4 "PHYS.REV.B,47(1993)8008" "BA,K,PB,BI,O" 5135 PR0478008 structure by x-ray diffraction "(Ba,K)2(Pb,Bi)O4" Ba1.7K0.3Pb0.9Bi0.1O4 Ba 1.7 K 0.3 Pb 0.9 Bi 0.1 O 4 1993 2 T K 11 11 11 11 modified sol-gel method was used for nominal powders BA2-XKXPB1-YBIYO4-Z: LAYERED OXIDES WITH INSULATING OR CONDUCTING PROPERTIES AND POSSIBLE SUPERCONDUCTING PROPERTIES 1993 4 "PHYS.REV.B,47(1993)8008" "BA,K,PB,BI,O" 5136 PR0478151 "1.3*0.8*0.02mm3, Ce distribution is uniform" "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4+z Nd 1.85 Ce 0.15 Cu 1 O 4+z 3 1993 T' K 4.2 m3/C -2.70E-09 RH5136 5 as-grown TRANSPORT PROPERTIES OF ND1.85CE0.15CUO4+Z CRYSTALS BEFORE ANDAFTER REDUCTION 1993 4 "PHYS.REV.B,47(1993)8151" "ND,CE,CU,O" 5137 PR0478151 "1.3*0.8*0.02mm3, Ce distribution is uniform" "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4+z Nd 1.85 Ce 0.15 Cu 1 O 4+z 3 1993 T' K 24 2 24 m3/C -0.000000001 RH5137 5 "annealing in N2(900c,15H)" TRANSPORT PROPERTIES OF ND1.85CE0.15CUO4+Z CRYSTALS BEFORE ANDAFTER REDUCTION 1993 4 "PHYS.REV.B,47(1993)8151" "ND,CE,CU,O" 5138 PR0478324 reverse slope 1/B (B=dS/dT for in-plane thermopower S) decreases linearly with increasing Tc Tl2Ba2CuO6 Tl2Ba2Cu1O6 Tl 2 Ba 2 Cu 1 O 6 3 1993 Tl2201 K 80 92 86 -4 TP5138 m.ohm.cm 0.1 10 by using double-crucible technique THERMOPOWER OF TL2BA2CUO6 SINGLE CRYSTALS 1993 4 "PHYS.REV.B,47(1993)8324" "TL,BA,CU,O" 5139 PR0478212 anisotropy parameter > 31 "Pb2Sr2(Y,Ca)Cu3O8" Pb2Sr2Y0.67Ca0.33Cu3O8+z Pb 2 Sr 2 Y 0.67 Ca 0.33 Cu 3 O 8+z 3 1993 Pb3212 K 80 80 80 Oe linear extraporation in root(M) vs H 16 500 A "using 2D layered s/c model, measurement of M" 1860 5 crucible-quickly heat up to 1030C-hold for 30min-cool to 800C at 5C/H-cool to 550C at 20C/H-FC to RT in N2 "LOWER CRITICAL FIELDS,CRITICAL CURRENTS,AND FLUX CREEP IN PB2SR2R1-XCAXCU3O8+Y (R=Y,DY) SINGLE CRYSTALS" 1993 4 "PHYS.REV.B,47(1993)8212" "PB,SR,Y,DY,CA,CU,O" 5140 PHC2170265 "95%Hg1223, 5%Hg1234, impurity=CaHgO2,BaCuO2, oxygen content by neutron diffraction" HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8.41 Hg 1 Ba 2 Ca 2 Cu 3 O 8+z 8.41 2 1993 2 Hg1223 P4/mmm A 3.85 15.784 analized by multi-phase program K 133 133 133 "Ba2Ca2Cu3Oz,HgO" 1 "precursor prepared by mixing metal-nitrate,mix(precursor+HgO)-Au crucible-press(18kbar,20min)-Heat(880C,40min)-react(18kbar,880C,1.8H)-cool to RT at 1 atm" Neutron powder diffraction study at room temperature and at 10 K of the crystal structure of the 133 K superconductor HgBa2Ca2Cu3O8+z 1993 11 "NIST,Gaithersburg,USA" "Physica C, 217(1993)265" "Hg,Ba,Ca,Cu,O" 5141 PHC2170253 "oxygen content evaluated by neutron diffraction,synthesis condition of precursor is important" HgBa2CaCu2O6 Hg1Ba2Ca1Cu2O6.22 Hg 1 Ba 2 Ca 1 Cu 2 O 6 6.22 1993 6.45 2 Hg1212 P4/mmm A 6.858 12.68 K 127 127 "Ba2CaCu2Oz,HgO" 1 "mixture of precursor +yellow HgO-pellet-sealed in silica tube-SIN(750C,16H)-ANN(300C,10H),precursor made by 600+800+925C with intermediate ground(starting=Nitrate)" Synthesis and structural characterization of the 127 K HgBa2CaCu2O6.22 superconductor: Tc variations upon different atmosphere annealings 1993 11 "Physica C, 217(1993)253" "Hg,Ba,Ca,Cu,O" 5142 PHC2170294 "Y124+Ag, Ag addition improves structural completeness and increases s/c volume fraction" "(Y,Ca)Ba2Cu4O8" Y0.9Ca0.1Ba2Cu4O8 Y 0.9 Ca 0.1 Ba 2 Cu 4 O 8 1993 3 Y124 A 3.846 3.869 27.25 K 77 90 83.5 1 "mixture-CAL(750C,24H)-cool to RT-mix(powder+50wt%Ag2O)-pellet under 100MPa-SIN(800C,72H)-FC to RT,all press under flowing O2" Synthesis of 90 K superconducting Y0.9Ca0.1Ba2Cu4O8 in oxygen at ordinary pressure by Ag2O addition 1993 11 "Department of Electical Engineering,Nagaoka University of Technology,Nagaoka,Japan" "Physica C, 217(1993)294" "Y,Ca,Ba,Cu,O" 5143 PHC2170342 "(Sr,Bi)2(Y,Ce)2Cu2O8" Sr1.5Bi0.5Y1.15Ce0.85Cu2O8-z Sr 1.5 Bi 0.5 Y 1.15 Ce 0.85 Cu 2 O 8-z 1993 2 T* P4/mmm A 3.822 12.659 K 30 32 40 32 32 "Bi2O3,SrCO3,Y2O3,CeO2,CuO" 1 "mixture-CAL(950C,several days in flowing O2)-ground-pellet-SIN(980C,36H in flowing O2)-cool to 500C(0.25C/min)-ANN(500C,10H)-cool to RT" "Synthesis and structure of superconductors, (Sr2-xBix)(Ln2-yCey)Cu2O8-z of T* phase" 1993 11 "Department of Physics, University of Science & Technology of China,Hefei,China" "Physica C, 217(1993)342" "Sr,Bi,Ln,Ce,Cu,O" 5144 PHC2170439 "for Pr,Tb, single phase for 0Nd" "(Hg,Ce)Sr2(Sr,Ca,Nd)Cu2O7" Hg0.4Ce0.6Sr2.5Ca-0.1Nd0.5Cu2.1O7-z Hg 0.4 Ce 0.6 Sr 2.5 Ca -0.1 Nd 0.5 Cu 2.1 O 7-z 1994 K 60 60 "HgO,CeO2,SrO2,CaO,Nd2O3,CuO" 1 mixture-in evacuated silica-heat(800C in 10H + hold 10H)-cool to 400C in 10H "Cerium-mercury '1212' cuprates Hg0.4Ce0.5Sr3-xMxCu2.1O7-z (M=Ca,Ce,Nd). A new series of superconductors" 1994 10 "Physica C,232 (1994) 15-21" "Hg,Ce,Sr,Ca,Nd,Cu,O" 5224 PHC2320277 "after annealing over 20H, Tc remains constant" "Ca(La,Ba)2Cu3O7" Ca1La1Ba1Cu3Oz Ca 1 La 1 Ba 1 Cu 3 O z 1 1994 Y123 K 77.9 79.1 80.1 79.1 m.ohm.cm 2.39 "CaCO3,CdO,La2O3,BaCO3,CuO" 1 "mixture-CAL(900C,20H in air)-press-pellet-SIN(900C,24H in flowing O2)-cool to 600C(5C/min)-ANN(600C,20H in flowing O2)-FC to RT" Normal and superconducting properties in the Ca1-xCdxLaBaCu3Oy system 1994 10 "Physica C,232 (1994) 277-282" "Ca,Cd,La,Ba,Cu,O" 5225 PHC2320277 "(Ca,Cd)(La,Ba)2Cu3O7" Ca0.9Cd0.1La1Ba1Cu3Oz Ca 0.9 Cd 0.1 La 1 Ba 1 Cu 3 O z 1 1994 Y123 K 75.9 76.7 77.8 76.7 m.ohm.cm 2.87 "CaCO3,CdO,La2O3,BaCO3,CuO" 1 "mixture-CAL(900C,20H in air)-press-pellet-SIN(900C,24H in flowing O2)-cool to 600C(5C/min)-ANN(600C,20H in flowing O2)-FC to RT" Normal and superconducting properties in the Ca1-xCdxLaBaCu3Oy system 1994 10 "Physica C,232 (1994) 277-282" "Ca,Cd,La,Ba,Cu,O" 5226 PHC2320277 "(Ca,Cd)(La,Ba)2Cu3O7" Ca0.8Cd0.2La1Ba1Cu3Oz Ca 0.8 Cd 0.2 La 1 Ba 1 Cu 3 O z 1 1994 Y123 K 75 76 76.9 76 m.ohm.cm 3.27 "CaCO3,CdO,La2O3,BaCO3,CuO" 1 "mixture-CAL(900C,20H in air)-press-pellet-SIN(900C,24H in flowing O2)-cool to 600C(5C/min)-ANN(600C,20H in flowing O2)-FC to RT" Normal and superconducting properties in the Ca1-xCdxLaBaCu3Oy system 1994 10 "Physica C,232 (1994) 277-282" "Ca,Cd,La,Ba,Cu,O" 5227 PHC2320277 "(Ca,Cd)(La,Ba)2Cu3O7" Ca0.7Cd0.3La1Ba1Cu3Oz Ca 0.7 Cd 0.3 La 1 Ba 1 Cu 3 O z 1 1994 Y123 K 69 70.8 72.6 70.8 m.ohm.cm 3.63 "CaCO3,CdO,La2O3,BaCO3,CuO" 1 "mixture-CAL(900C,20H in air)-press-pellet-SIN(900C,24H in flowing O2)-cool to 600C(5C/min)-ANN(600C,20H in flowing O2)-FC to RT" Normal and superconducting properties in the Ca1-xCdxLaBaCu3Oy system 1994 10 "Physica C,232 (1994) 277-282" "Ca,Cd,La,Ba,Cu,O" 5228 PHC2320277 "(Ca,Cd)(La,Ba)2Cu3O7" Ca0.6Cd0.4La1Ba1Cu3Oz Ca 0.6 Cd 0.4 La 1 Ba 1 Cu 3 O z 1 1994 Y123 K 69.4 67.3 70 67.3 m.ohm.cm 6 "CaCO3,CdO,La2O3,BaCO3,CuO" 1 "mixture-CAL(900C,20H in air)-press-pellet-SIN(900C,24H in flowing O2)-cool to 600C(5C/min)-ANN(600C,20H in flowing O2)-FC to RT" Normal and superconducting properties in the Ca1-xCdxLaBaCu3Oy system 1994 10 "Physica C,232 (1994) 277-282" "Ca,Cd,La,Ba,Cu,O" 5229 PHC2320277 "(Ca,Cd)(La,Ba)2Cu3O7" Ca0.5Cd0.5La1Ba1Cu3Oz Ca 0.5 Cd 0.5 La 1 Ba 1 Cu 3 O z 1 1994 Y123 K 55.9 58.4 61.5 58.4 m.ohm.cm 16.37 "CaCO3,CdO,La2O3,BaCO3,CuO" 1 "mixture-CAL(900C,20H in air)-press-pellet-SIN(900C,24H in flowing O2)-cool to 600C(5C/min)-ANN(600C,20H in flowing O2)-FC to RT" Normal and superconducting properties in the Ca1-xCdxLaBaCu3Oy system 1994 10 "Physica C,232 (1994) 277-282" "Ca,Cd,La,Ba,Cu,O" 5230 PHC2320277 "(Ca,Cd)(La,Ba)2Cu3O7" Ca0.4Cd0.6La1Ba1Cu3Oz Ca 0.4 Cd 0.6 La 1 Ba 1 Cu 3 O z 1 1994 Y123 K 44.8 47.8 51.3 47.8 m.ohm.cm 23.85 "CaCO3,CdO,La2O3,BaCO3,CuO" 1 "mixture-CAL(900C,20H in air)-press-pellet-SIN(900C,24H in flowing O2)-cool to 600C(5C/min)-ANN(600C,20H in flowing O2)-FC to RT" Normal and superconducting properties in the Ca1-xCdxLaBaCu3Oy system 1994 10 "Physica C,232 (1994) 277-282" "Ca,Cd,La,Ba,Cu,O" 5231 PHC2320277 "(Ca,Cd)(La,Ba)2Cu3O7" Ca0.3Cd0.7La1Ba1Cu3Oz Ca 0.3 Cd 0.7 La 1 Ba 1 Cu 3 O z 1 1994 Y123 K 31.5 36 39.8 36 m.ohm.cm 34.5 "CaCO3,CdO,La2O3,BaCO3,CuO" 1 "mixture-CAL(900C,20H in air)-press-pellet-SIN(900C,24H in flowing O2)-cool to 600C(5C/min)-ANN(600C,20H in flowing O2)-FC to RT" Normal and superconducting properties in the Ca1-xCdxLaBaCu3Oy system 1994 10 "Physica C,232 (1994) 277-282" "Ca,Cd,La,Ba,Cu,O" 5232 PHC2320277 "(Ca,Cd)(La,Ba)2Cu3O7" Ca0.25Cd0.75La1Ba1Cu3Oz Ca 0.25 Cd 0.75 La 1 Ba 1 Cu 3 O z 1 1994 Y123 K 25.8 31.3 35.8 31.3 m.ohm.cm 48.7 "CaCO3,CdO,La2O3,BaCO3,CuO" 1 "mixture-CAL(900C,20H in air)-press-pellet-SIN(900C,24H in flowing O2)-cool to 600C(5C/min)-ANN(600C,20H in flowing O2)-FC to RT" Normal and superconducting properties in the Ca1-xCdxLaBaCu3Oy system 1994 10 "Physica C,232 (1994) 277-282" "Ca,Cd,La,Ba,Cu,O" 5233 PHC2320277 "(Ca,Cd)(La,Ba)2Cu3O7" Ca0.2Cd0.8La1Ba1Cu3Oz Ca 0.2 Cd 0.8 La 1 Ba 1 Cu 3 O z 1 1994 Y123 K 10 m.ohm.cm 103.5 "CaCO3,CdO,La2O3,BaCO3,CuO" 1 "mixture-CAL(900C,20H in air)-press-pellet-SIN(900C,24H in flowing O2)-cool to 600C(5C/min)-ANN(600C,20H in flowing O2)-FC to RT" Normal and superconducting properties in the Ca1-xCdxLaBaCu3Oy system 1994 10 "Physica C,232 (1994) 277-282" "Ca,Cd,La,Ba,Cu,O" 5234 PHC2320277 "(Ca,Cd)(La,Ba)2Cu3O7" Ca0.1Cd0.9La1Ba1Cu3Oz Ca 0.1 Cd 0.9 La 1 Ba 1 Cu 3 O z 1 1994 Y123 K 10 m.ohm.cm 160.1 "CaCO3,CdO,La2O3,BaCO3,CuO" 1 "mixture-CAL(900C,20H in air)-press-pellet-SIN(900C,24H in flowing O2)-cool to 600C(5C/min)-ANN(600C,20H in flowing O2)-FC to RT" Normal and superconducting properties in the Ca1-xCdxLaBaCu3Oy system 1994 10 "Physica C,232 (1994) 277-282" "Ca,Cd,La,Ba,Cu,O" 5235 PHC2320277 "(Ca,Cd)(La,Ba)2Cu3O7" Cd1La1Ba1Cu3Oz Cd 1 La 1 Ba 1 Cu 3 O z 1 1994 Y123 K 10 m.ohm.cm 245.1 "CaCO3,CdO,La2O3,BaCO3,CuO" 1 "mixture-CAL(900C,20H in air)-press-pellet-SIN(900C,24H in flowing O2)-cool to 600C(5C/min)-ANN(600C,20H in flowing O2)-FC to RT" Normal and superconducting properties in the Ca1-xCdxLaBaCu3Oy system 1994 10 "Physica C,232 (1994) 277-282" "Ca,Cd,La,Ba,Cu,O" 5236 PHC2330021 "grain oriented sample, G-L parameter=127" HgBa2CuO4+z Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1994 Hg1201 A K 96 96 Oe calculated from magnetization curve 123 T calculated from magnetization curve 72 T/K 1.75 A from Hc2 21.1 A 2680 1 "poly crystal-powder-grain oriented in a resin, in a magnetic field of 8 T for 24H at RT" "Superconducting-state thermodynamic paramenters of HgBa2Can-1CunOy(N=1,2,and 3)" 1994 11 "Physica C,233 (1994) 21-29" "Hg,Ba,Ca,Cu,O" 5237 PHC2330021 "grain oriented sample, G-L parameter=126" HgBa2CaCu2O6+z Hg1Ba2Ca1Cu2O6+z Hg 1 Ba 2 Ca 1 Cu 2 O 6+z 1994 Hg1212 A K 127 127 Oe calculated from magnetization curve 201 T from magnetization curve 113 T/K 1.4 A from Hc2 16.6 A 2090 1 "poly crystal-powder-grain oriented in a resin, in a magnetic field of 8 T for 24H at RT" "Superconducting-state thermodynamic paramenters of HgBa2Can-1CunOy(N=1,2,and 3)" 1994 11 "Physica C,233 (1994) 21-29" "Hg,Ba,Ca,Cu,O" 5238 PHC2330021 "grain oriented sample, G-L parameter=80" HgBa2Ca2Cu3O8+z Hg1Ba2Ca2Cu3O8+z Hg 1 Ba 2 Ca 2 Cu 3 O 8+z 1994 Hg1223 A K 135 135 K/GPa Oe from magnetization curve 335 T from magnetization curve 88 T/K 1.2 A from Hc2 19.3 A 1550 1 "poly crystal-powder-grain oriented in a resin, in a magnetic field of 8 T for 24H at RT" "Superconducting-state thermodynamic paramenters of HgBa2Can-1CunOy(N=1,2,and 3)" 1994 11 "Physica C,233 (1994) 21-29" "Hg,Ba,Ca,Cu,O" 5239 PHC2330001 "(Hg,Mo)Sr2CuOz" Hg0.7Mo0.3Sr2Cu1Oz Hg 0.7 Mo 0.3 Sr 2 Cu 1 O z 1994 2 Hg1201 A 3.8 8.86 K 58 56 56 K/GPa 1.5 "SrCO3,CaCO3,CuO,MoO3" 1 "precursor Mo-Sr-(Ca,Y)-Cu-O + HgO - mix - press-pellet-seal in evacuated quartz tube-SIN(860-940C,10-40H)-Q to RT" "New barium-free mercury-based high-Tc superconductors (Hg,Mo)Sr2(Ca,Y)n-1CunOy and HgSr2(Ca,Y)n-1(Cu,Re)nOy (n=1 and 2)" 1994 11 "Physica C,233 (1994) 1-7" "Re,Hg,Mo,Sr,Ca,Y,Cu,O" 5240 PHC2330001 "(Hg,Re)Sr2(Ca,Y)Cu2Oz" Hg0.8Re0.2Sr2Ca0.7Y0.3Cu2Oz Hg 0.8 Re 0.2 Sr 2 Ca 0.7 Y 0.3 Cu 2 O z 1 1994 2 Hg1212 A 3.818 11.879 K 83 100 91.5 "SrCO3,CaCO3,CuO,MoO3" 1 "precursor Mo-Sr-(Ca,Y)-Cu-O + HgO - mix - press-pellet-seal in evacuated quartz tube-SIN(860-940C,10-40H)-Q to RT" "New barium-free mercury-based high-Tc superconductors (Hg,Mo)Sr2(Ca,Y)n-1CunOy and HgSr2(Ca,Y)n-1(Cu,Re)nOy (n=1 and 2)" 1994 11 "Physica C,233 (1994) 1-7" "Re,Hg,Mo,Sr,Ca,Y,Cu,O" 5241 PHC2330001 "HgSr2(Ca,Y)(Cu,Re)2Oz" Hg1Sr2Ca0.7Y0.3Cu1.8Re0.2Oz Hg 1 Sr 2 Ca 0.7 Y 0.3 Cu 1.8 Re 0.2 O z 1 1994 2 Hg1212 A 3.818 11.879 K 83 100 91.5 "SrCO3,CaCO3,CuO,MoO3" 1 "precursor Mo-Sr-(Ca,Y)-Cu-O + HgO - mix - press-pellet-seal in evacuated quartz tube-SIN(860-940C,10-40H)-Q to RT" "New barium-free mercury-based high-Tc superconductors (Hg,Mo)Sr2(Ca,Y)n-1CunOy and HgSr2(Ca,Y)n-1(Cu,Re)nOy (n=1 and 2)" 1994 11 "Physica C,233 (1994) 1-7" "Re,Hg,Mo,Sr,Ca,Y,Cu,O" 5242 PHC2330001 resistivity did not show zero down to 4.2K "HgSr2(Cu,Re)Oz" Hg1Sr2Cu0.9Re0.1Oz Hg 1 Sr 2 Cu 0.9 Re 0.1 O z 1994 2 Hg1201 A 3.783 8.883 K 70 62 62 9.5 "SrCO3,CaCO3,CuO,MoO3" 1 "precursor Mo-Sr-(Ca,Y)-Cu-O + HgO - mix - press-pellet-seal in evacuated quartz tube-SIN(860-940C,10-40H)-Q to RT" "New barium-free mercury-based high-Tc superconductors (Hg,Mo)Sr2(Ca,Y)n-1CunOy and HgSr2(Ca,Y)n-1(Cu,Re)nOy (n=1 and 2)" 1994 11 "Physica C,233 (1994) 1-7" "Re,Hg,Mo,Sr,Ca,Y,Cu,O" 5243 PHC2330001 "Tirr = 55.1K, for 0.3=116K 1994 4 "Jpn.J.Apll.Phys.Lett.,33(1994)L503-506" "Cu,Ba,Ca,O" 5314 JJP0330219 "(Y,K)Ba2Cu3O7" Y0.95K0.05Ba2Cu3O6.6 Y 0.95 K 0.05 Ba 2 Cu 3 O z 6.6 1994 3 Y123 A 3.825 3.896 11.688 K 86.7 92.1 5.4 89.4 "Y2O3,BaCO3,CuO,K2CO3,RbOH.H2O,CsOH" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5315 JJP0330219 (Y.K)Ba2Cu3O7 Y0.9K0.1Ba2Cu3O6.51 Y 0.9 K 0.1 Ba 2 Cu 3 O z 6.51 1 1994 3 Y123 A 3.825 3.896 11.692 K 89.8 94.3 4.5 92.05 "Y2O3,BaCO3,CuO,K2CO3,RbOH.H2O,CsOH" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5316 JJP0330219 "(Y,K)Ba2Cu3O7" Y0.85K0.15Ba2Cu3O6.48 Y 0.85 K 0.15 Ba 2 Cu 3 O z 6.48 1 1994 3 Y123 A 3.823 3.896 11.69 K 88.7 91.6 2.9 90.15 "Y2O3,BaCO3,CuO,K2CO3,RbOH.H2O,CsOH" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5317 JJP0330219 "(Y,Rb)Ba2Cu3O7" Y0.95Rb0.05Ba2Cu3O6.59 Y 0.95 Rb 0.05 Ba 2 Cu 3 O z 6.59 1 1994 3 Y123 A 3.824 3.897 11.694 K 90.3 93.8 3.5 92.05 "Y2O3,BaCO3,CuO,K2CO3,RbOH.H2O,CsOH" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5318 JJP0330219 "(Y,Rb)Ba2Cu3O7" Y0.9Rb0.1Ba2Cu3O6.42 Y 0.9 Rb 0.1 Ba 2 Cu 3 O z 6.42 1 1994 3 Y123 A 3.825 3.896 11.693 K 91 93.8 2.8 92.4 "Y2O3,BaCO3,CuO,K2CO3,RbOH.H2O,CsOH" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5319 JJP0330219 "(Y,Rb)Ba2Cu3O7" Y0.85Rb0.15Ba2Cu3O6.48 Y 0.85 Rb 0.15 Ba 2 Cu 3 O z 6.48 1 1994 3 Y123 A 3.822 3.896 11.694 K 89.5 94.4 4.9 91.95 "Y2O3,BaCO3,CuO,K2CO3,RbOH.H2O,CsOH" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5320 JJP0330219 "(Y,Cs)Ba2Cu3O7" Y0.95Cs0.05Ba2Cu3O6.61 Y 0.95 Cs 0.05 Ba 2 Cu 3 O z 6.61 1 1994 3 Y123 A 3.823 3.896 11.69 K 89.4 95.5 6.1 92.45 "Y2O3,BaCO3,CuO,K2CO3,RbOH.H2O,CsOH" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5321 JJP0330219 "(Y,Cs)Ba2Cu3O7" Y0.9Cs0.1Ba2Cu3O6.47 Y 0.9 Cs 0.1 Ba 2 Cu 3 O z 6.47 1 1994 3 Y123 A 3.827 3.895 11.685 K 89 93.6 4.6 91.3 "Y2O3,BaCO3,CuO,K2CO3,RbOH.H2O,CsOH" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5322 JJP0330219 "(Y,Cs)Ba2Cu3O7" Y0.85Cs0.15Ba2Cu3O6.5 Y 0.85 Cs 0.15 Ba 2 Cu 3 O z 6.5 1 1994 3 Y123 A 3.823 3.897 11.696 K 87.9 92.9 5 90.4 "Y2O3,BaCO3,CuO,K2CO3,RbOH.H2O,CsOH" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5323 JJP0330219 "Y(Ba,K)2Cu3O7" Y1Ba1.9K0.1Cu3O6.61 Y 1 Ba 1.9 K 0.1 Cu 3 O z 6.61 1 1994 3 Y123 A 3.829 3.896 11.693 K 91.8 93.6 1.8 92.7 "Y2O3,BaCO3,CuO,K2CO3,RbOH.H2O,CsOH" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5324 JJP0330219 "Y(Ba,K)2Cu3O7" Y1Ba1.8K0.2Cu3O6.57 Y 1 Ba 1.8 K 0.2 Cu 3 O z 6.57 1 1994 3 Y123 A 3.836 3.896 11.691 K 92.4 93.6 1.2 93 "Y2O3,BaCO3,CuO,K2CO3,RbOH.H2O,CsOH" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5325 JJP0330219 "Y(Ba,K)2Cu3O7" Y1Ba1.7K0.3Cu3O6.54 Y 1 Ba 1.7 K 0.3 Cu 3 O z 6.54 1 1994 3 Y123 A 3.828 3.895 11.687 K 92 93.7 1.7 92.85 "Y2O3,BaCO3,CuO,K2CO3,RbOH.H2O,CsOH" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5326 JJP0330219 "Y(Ba,Rb)2Cu3O7" Y1Ba1.9Rb0.1Cu3O6.52 Y 1 Ba 1.9 Rb 0.1 Cu 3 O z 6.52 1 1994 3 Y123 A 3.825 3.895 11.687 K 92.4 94.3 1.9 93.35 "Y2O3,BaCO3,CuO,K2CO3,RbOH.H2O,CsOH" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5327 JJP0330219 "Y(Ba,Rb)2Cu3O7" Y1Ba1.8Rb0.2Cu3O6.56 Y 1 Ba 1.8 Rb 0.2 Cu 3 O z 6.56 1 1994 3 Y123 A 3.825 3.893 11.684 K 89 92.1 3.1 90.55 "Y2O3,BaCO3,CuO,K2CO3,RbOH.H2O,CsOH" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5328 JJP0330219 "Y(Ba,Rb)2Cu3O7" Y1Ba1.7Rb0.3Cu3O6.52 Y 1 Ba 1.7 Rb 0.3 Cu 3 O z 6.52 1 1994 3 Y123 A 3.826 3.895 11.684 K 89.7 92.4 2.7 91.05 "Y2O3,BaCO3,CuO,K2CO3,RbOH.H2O,CsOH" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5329 JJP0330219 "Y(Ba,Cs)2Cu3O7" Y1Ba1.9Cs0.1Cu3O6.65 Y 1 Ba 1.9 Cs 0.1 Cu 3 O z 6.65 1 1994 3 Y123 A 3.826 3.895 11.688 K 91.9 95 3.1 93.45 "Y2O3,BaCO3,CuO,K2CO3,RbOH.H2O,CsOH" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5330 JJP0330219 "Y(Ba,Cs)2Cu3O7" Y1Ba1.8Cs0.2Cu3O6.58 Y 1 Ba 1.8 Cs 0.2 Cu 3 O z 6.58 1 1994 3 Y123 A 3.827 3.893 11.684 K 91.9 94.7 2.8 93.3 "Y2O3,BaCO3,CuO,K2CO3,RbOH.H2O,CsOH" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5331 JJP0330219 "Y(Ba,Cs)Cu3O7" Y1Ba1.7Cs0.3Cu3O6.6 Y 1 Ba 1.7 Cs 0.3 Cu 3 O z 6.6 1 1994 3 Y123 A 3.826 3.896 11.69 K 92.2 95.3 3.1 93.75 "Y2O3,BaCO3,CuO,K2CO3,RbOH.H2O,CsOH" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5332 JJP0330219 "(Y,Sc)Ba2Cu3O7" Y0.95Sc0.05Ba2Cu3O6.63 Y 0.95 Sc 0.05 Ba 2 Cu 3 O z 6.63 1 1994 3 Y123 A 3.831 3.895 11.69 K 90.8 92.6 1.8 91.7 "Y2O3,BaCO3,CuO,Sc2O3,La2O3" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5333 JJP0330219 "(Y,Sc)Ba2Cu3O7" Y0.9Sc0.1Ba2Cu3O6.56 Y 0.9 Sc 0.1 Ba 2 Cu 3 O z 6.56 1 1994 3 Y123 A 3.833 3.896 11.687 K 89.9 92.9 3 91.4 "Y2O3,BaCO3,CuO,Sc2O3,La2O3" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5334 JJP0330219 "(Y,La)Ba2Cu3O7" Y0.95La0.05Ba2Cu3O6.58 Y 0.95 La 0.05 Ba 2 Cu 3 O z 6.58 1 1994 3 Y123 A 3.829 3.896 11.7 K 92.1 95.2 3.1 93.65 "Y2O3,BaCO3,CuO,Sc2O3,La2O3" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5335 JJP0330219 "(Y,La)Ba2Cu3O7" Y0.9La0.1Ba2Cu3O6.62 Y 0.9 La 0.1 Ba 2 Cu 3 O z 6.62 1 1994 3 Y123 A 3.834 3.896 11.69 K 90.7 94 3.3 92.35 "Y2O3,BaCO3,CuO,Sc2O3,La2O3" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5336 JJP0330219 "Y(Ba,Sc)2Cu3O7" Y1Ba1.9Sc0.1Cu3O6.55 Y 1 Ba 1.9 Sc 0.1 Cu 3 O z 6.55 1 1994 3 Y123 A 3.837 3.895 11.689 K 86.9 91 4.7 88.95 "Y2O3,BaCO3,CuO,Sc2O3,La2O3" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5337 JJP0330219 "Y(Ba,Sc)2Cu3O7" Y1Ba1.8Sc0.2Cu3O6.64 Y 1 Ba 1.8 Sc 0.2 Cu 3 O z 6.64 1 1994 3 Y123 A 3.827 3.893 11.681 K 87 90.6 3.6 88.8 "Y2O3,BaCO3,CuO,Sc2O3,La2O3" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5338 JJP0330219 "Y(Ba,Y)2Cu3O7" Y1.1Ba1.9Cu3O6.65 Y 1.1 Ba 1.9 Cu 3 O z 6.65 1 1994 3 Y123 A 3.831 3.892 11.68 K 90.3 92.2 1.9 91.25 "Y2O3,BaCO3,CuO,Sc2O3,La2O3" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5339 JJP0330219 "Y(Ba,Y)2Cu3O7" Y1.2Ba1.8Cu3O6.68 Y 1.2 Ba 1.8 Cu 3 O z 6.68 1 1994 3 Y123 A 3.83 3.894 11.696 K 89.6 95 5.4 92.3 "Y2O3,BaCO3,CuO,Sc2O3,La2O3" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5340 JJP0330219 "Y(Ba,La)2Cu3O7" Y1Ba1.9La0.1Cu3O6.73 Y 1 Ba 1.9 La 0.1 Cu 3 O z 6.73 1 1994 3 Y123 A 3.836 3.888 11.668 K 90.4 95.3 4.9 92.85 "Y2O3,BaCO3,CuO,Sc2O3,La2O3" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5341 JJP0330219 "Y(Ba,La)2Cu3O7" Y1Ba1.8La0.2Cu3O6.81 Y 1 Ba 1.8 La 0.2 Cu 3 O z 6.81 1 1994 3 Y123 A 3.826 3.887 11.661 K 87.4 96 8.6 91.7 "Y2O3,BaCO3,CuO,Sc2O3,La2O3" 1 "solid state reaction, for details see Jpn.J.Appl.Phys.31(1992)L392" Effects of Substitution by Group Ia and IIIa Elements on Superconducting Properties of YBa2Cu3Oy 1994 2 "Jpn.J.Appl.Phys.Lett.,33 (1994) L219-222" "Y,Ba,Cu,O,K,Rb,Cs,Sc,La" 5342 JJP0330300 "impurity phase=BaCuO2, unknown,amorphous, Ag site = disorder" "(Ag,Cu)Ba2Ca3Cu4O11" Ag0.25Cu0.75Ba2Ca3Cu4O11-z Ag 0.25 Cu 0.75 Ba 2 Ca 3 Cu 4 O 11-z 1994 2 Ag1234 P4/mmm A 7.727 36.222 K 116.4 117.1 117.6 117 117.1 1 "mixture of precursor(Ba-Ca-Cu-O) and AgO - pellet-seal in Au capsule-heat(1100C,1-3H under 5GPa) ANN(300C,5-10H in flowing O2)" New Hihg-Tc Superconductor Ag1-xCuxBa2Can-1CunO2n+3-z Family with Tc>117 K 1994 3 "Jpn.J.Appl.Phys.Lett.,33 (1994) L300-303" "Ag,Cu,Ba,Ca,O" 5343 JJP0330715 Hir defined as the peak of imaginary part of susceptibility during sweeping DC field YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1994 Y123 K 92 92 HIR5343 "MPMG method, final melt growth process was performed in the mixed gas of 1 %O2 and 99%Ar" Flux Pinning in Melt-Grown NdBa2Cu3Oy and SmBa2Cu3Oy Superconductors 1994 5 "Jpn.J.Appl.Phys.Lett.,33(1994)L715-717" "Nd,Ba,Cu,O,Sm" 5344 JJP0330715 Nd4Ba2Cu2O10 phase included NdBa2Cu3O7 Nd1Ba2Cu3O7 Nd 1 Ba 2 Cu 3 O 7 1994 Y123 K 94.5 94.5 HIR5344 "MPMG method, final melt growth process was performed in the mixed gas of 1 %O2 and 99%Ar" Flux Pinning in Melt-Grown NdBa2Cu3Oy and SmBa2Cu3Oy Superconductors 1994 5 "Jpn.J.Appl.Phys.Lett.,33(1994)L715-717" "Nd,Ba,Cu,O,Sm" 5345 PHC2280181 "AC susceptibility measurement, BCS coherence = 150A" K3C60 C60K3 C 60 K 3 1994 fullerene K 17.8 17.8 17.8 K/GPa 44 T 17 T/K 1.4 A 44 "(C60+excess K or Rb)-seal in quartz ampoule-react(300C,5days) using two zone method-pelletize-ANN(35)c,5days)" Inter- and intragrain AC response of the granular superconductors K3C60 and Rb3C60 1994 7 "Physica C, 228(1994)181-189" "K,C,Rb" 5346 PHC2280181 "single grain, BCS coherence = 50A" Rb3C60 C60Rb3 C 60 Rb 3 1994 fullerene K 29.5 29.5 29.5 K/GPa 29 T 44 T/K 2.3 A 27 "(C60+excess K or Rb)-seal in quartz ampoule-react(300C,5days) using two zone method-pelletize-ANN(35)c,5days)" Inter- and intragrain AC response of the granular superconductors K3C60 and Rb3C60 1994 7 "Physica C, 228(1994)181-189" "K,C,Rb" 5347 PHC2280175 BCS coherence = 44 A Rb3C60 C60Rb3 C 60 Rb 3 1994 fullerene K 30 30 T analizing R(H) curve using fluctuation theory 62 T/K 3.28 A 24 A 3200 "high quality C60 single crystals were grown by vapor transport, Rb doping using similar method of Science 352(1992)1900" Magnetotransport in single-crystal Rb3C60 1994 7 "Physica C, 228(1994)175-180" "Rb,C" 5348 PHC2330247 "intercalated sample,24.6A for host c-axis" (Hg2Cl2)Bi2Sr2CuO8 Hg1.38Cl1.38Bi2.2Sr1.8Cu1Oz Hg 1.38 Cl 1.38 Bi 2.2 Sr 1.8 Cu 1 O z 1994 Bi2201 A 27.8 K "HgCl2 was intercalated into Bi2201,Bi2212, Bi2223 single phase of Bi22(n-1)n + HgCl2 in evacuated pyrex-heat(360C,4days)" Synthesis and superconductivity of 'Hg2Cl2'-intercalated Bi2Sr2Can-1CunOz(n=1-3) compounds 1994 11 "Physica C.,233(1994) 247-252" "Hg,Cl,Bi,Sr,Ca,O,Cu" 5349 PHC2330247 (Hg2Cl2)Bi2Sr2CaCu2O8 Hg1.76Cl1.76Bi2Sr2Ca1Cu2Oz Hg 1.76 Cl 1.76 Bi 2 Sr 2 Ca 1 Cu 2 O z 1994 Bi2212 A 34.3 K Synthesis and superconductivity of 'Hg2Cl2'-intercalated Bi2Sr2Can-1CunOz(n=1-3) compounds 1994 11 "Physica C.,233(1994) 247-252" "Hg,Cl,Bi,Sr,Ca,O,Cu" 5350 PHC2330247 "(Hg2Cl2)(Bi,Pb)2Sr2Ca2Cu3O10" Hg2.9Cl2.9Bi1.65Pb0.35Sr2Ca2Cu3Oz Hg 2.9 Cl 2.9 Bi 1.65 Pb 0.35 Sr 2 Ca 2 Cu 3 O z 1994 Bi2223 A 40.8 K Synthesis and superconductivity of 'Hg2Cl2'-intercalated Bi2Sr2Can-1CunOz(n=1-3) compounds 1994 11 "Physica C.,233(1994) 247-252" "Hg,Cl,Bi,Sr,Ca,O,Cu" 5351 PHC2330247 (Hg2Cl2)Bi2Sr2CaCu2O8 Hg1.46Cl1.46Bi2Sr2Ca1Cu2Oz Hg 1.46 Cl 1.46 Bi 2 Sr 2 Ca 1 Cu 2 O z 1994 K 86 86 Synthesis and superconductivity of 'Hg2Cl2'-intercalated Bi2Sr2Can-1CunOz(n=1-3) compounds 1994 11 "Physica C.,233(1994) 247-252" "Hg,Cl,Bi,Sr,Ca,O,Cu" 5352 PHC2330327 "(Bi,Pb)2Sr2Ca2Cu3OF" Bi1.6Pb0.4Sr2Ca2Cu3Oz Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 3 O z 1994 K 79 107 93 "Effect of F doping in the (Bi,Pb)-Sr-Ca-Cu-O system" 1994 11 "Physica C.,233(1994) 327-331" "Bi,Pb,Sr,Cu,Ca,O" 5354 PHC2330327 "(Bi,Pb)2Sr2Ca2Cu3OF" Bi1.6Pb0.4Sr2Ca2Cu3F0.65Oz Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 3 F 0.65 O z 1994 K 93 107 100 "Effect of F doping in the (Bi,Pb)-Sr-Ca-Cu-O system" 1994 11 "Physica C.,233(1994) 327-331" "Bi,Pb,Sr,Cu,Ca,O" 5355 PHC2330327 "(Bi,Pb)2Sr2Ca2Cu3OF" Bi1.6Pb0.4Sr2Ca2Cu3F0.85Oz Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 3 F 0.85 O z 1994 K 97 107 102 "Effect of F doping in the (Bi,Pb)-Sr-Ca-Cu-O system" 1994 11 "Physica C.,233(1994) 327-331" "Bi,Pb,Sr,Cu,Ca,O" 5356 PHC2330327 "(Bi,Pb)2Sr2Ca2Cu3OF" Bi1.6Pb0.4Sr2Ca2Cu3F0.85Oz Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 3 F 0.85 O z 1994 Bi2223 K 112 120 116 "Effect of F doping in the (Bi,Pb)-Sr-Ca-Cu-O system" 1994 11 "Physica C.,233(1994) 327-331" "Bi,Pb,Sr,Cu,Ca,O" 5357 NAT3450324 Li1Nb1O2 Li 1 Nb 1 O 2 1990 2 A 2.906 10.447 K 2 K/GPa Superconductivity in the layered compound LixNbO2 1990 5 Nature.345 (1990)324-325 "Li,Nb,O" 5358 NAT3450324 Li0.5Nb1O2 Li 0.5 Nb 1 O 2 1990 2 MoS2 A 2.919 10.453 K 5 5 5 Superconductivity in the layered compound LixNbO2 1990 5 Nature.345 (1990)324-325 "Li,Nb,O" 5359 NAT3450324 Li0.45Nb1O2 Li 0.45 Nb 1 O 2 1990 6 2 A 2.9227 10.455 K 5.5 5.5 5.5 K/GPa 15 Superconductivity in the layered compound LixNbO2 1990 5 Nature.345 (1990)324-325 "Li,Nb,O" 5360 PHC2310021 "HgBa2(Ca,Sr)2Cu3O8" Hg1Ba2CaSrCu3O8+z Hg 1 Ba 2 Ca Sr Cu 3 O 8+z 1994 Hg1223 K 132 132 HIR5360 Critical currents and irreversibility lines in HgBa2(Ca1-xSrx)2Cu3O8+z and Hg0.5Tl0.5Ba2(Ca1-xSrx)2Cu3O8+z 1994 9 "Physica C,231(1994) 21-25" "Tl,Hg,Ca,Sr,Cu,O" 5361 PHC2310021 "(Hg,Tl)Ba2(Ca,Sr)2Cu3O8" Hg0.5Tl0.5Ba2CaSrCu3O8+z Hg 0.5 Tl 0.5 Ba 2 Ca Sr Cu 3 O 8+z 1994 Hg1223 K 132 132 HIR5361 Critical currents and irreversibility lines in HgBa2(Ca1-xSrx)2Cu3O8+z and Hg0.5Tl0.5Ba2(Ca1-xSrx)2Cu3O8+z 1994 9 "Physica C,231(1994) 21-25" "Tl,Hg,Ca,Sr,Cu,O" 5362 PHC2220233 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+z Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 1994 2 Bi2212 A 5.392 30.854 K 66.5 66.5 E+21/cm3 "Study of Hall effect, electrical resistivity and magnetoresistance in Bi2Sr2-xGdxCa1Cu2O8+z(x=0.00-0.65) systems" 1994 3 "Physica C, 222(1994)233-240" "Bi,Sr,Gd,Ca,Cu,O" 5363 PHC2220233 "Bi2(Sr,Gd)2CaCu2O8" Bi2Sr1.9Gd0.1Ca1Cu2O8+z Bi 2 Sr 1.9 Gd 0.1 Ca 1 Cu 2 O 8+z 1994 2 Bi2212 A 5.396 30.715 K 76 76 "Study of Hall effect, electrical resistivity and magnetoresistance in Bi2Sr2-xGdxCa1Cu2O8+z(x=0.00-0.65) systems" 1994 3 "Physica C, 222(1994)233-240" "Bi,Sr,Gd,Ca,Cu,O" 5364 PHC2220233 "Bi2(Sr,Gd)2CaCu2O8" Bi2Sr1.8Gd0.2Ca1Cu2O8+z Bi 2 Sr 1.8 Gd 0.2 Ca 1 Cu 2 O 8+z 1994 2 Bi2212 A 5.398 30.572 K 71.6 71.6 E+21/cm3 "Study of Hall effect, electrical resistivity and magnetoresistance in Bi2Sr2-xGdxCa1Cu2O8+z(x=0.00-0.65) systems" 1994 3 "Physica C, 222(1994)233-240" "Bi,Sr,Gd,Ca,Cu,O" 5365 PHC2220233 Bi2(Sr.Gd)2CaCu2O8 Bi2Sr1.7Gd0.3Ca1Cu2O8+z Bi 2 Sr 1.7 Gd 0.3 Ca 1 Cu 2 O 8+z 1994 2 Bi2212 A 5.394 30.384 K 60.4 60.4 "Study of Hall effect, electrical resistivity and magnetoresistance in Bi2Sr2-xGdxCa1Cu2O8+z(x=0.00-0.65) systems" 1994 3 "Physica C, 222(1994)233-240" "Bi,Sr,Gd,Ca,Cu,O" 5366 PHC2220233 "Bi2(Sr,Gd)2CaCu2O8" Bi2Sr1.6Gd0.4Ca1Cu2O8+z Bi 2 Sr 1.6 Gd 0.4 Ca 1 Cu 2 O 8+z 1994 2 Bi2212 A 5.394 30.329 K 50 50 E+21/cm3 "Study of Hall effect, electrical resistivity and magnetoresistance in Bi2Sr2-xGdxCa1Cu2O8+z(x=0.00-0.65) systems" 1994 3 "Physica C, 222(1994)233-240" "Bi,Sr,Gd,Ca,Cu,O" 5367 PHC2220233 "Bi2(Sr,Gd)2CaCu2O8" Bi2Sr1.5Gd0.5Ca1Cu2O8+z Bi 2 Sr 1.5 Gd 0.5 Ca 1 Cu 2 O 8+z 1994 2 Bi2212 A K 21.6 21.6 E+21/cm3 "Study of Hall effect, electrical resistivity and magnetoresistance in Bi2Sr2-xGdxCa1Cu2O8+z(x=0.00-0.65) systems" 1994 3 "Physica C, 222(1994)233-240" "Bi,Sr,Gd,Ca,Cu,O" 5368 PHC2220233 Bi2(Sr.Gd)2CaCu2O8 Bi2Sr1.44Gd0.56Ca1Cu2O8+z Bi 2 Sr 1.44 Gd 0.56 Ca 1 Cu 2 O 8+z 1994 2 Bi2212 A 5.418 30.165 K 4 4 E+21/cm3 "Study of Hall effect, electrical resistivity and magnetoresistance in Bi2Sr2-xGdxCa1Cu2O8+z(x=0.00-0.65) systems" 1994 3 "Physica C, 222(1994)233-240" "Bi,Sr,Gd,Ca,Cu,O" 5369 PHC2220233 "Bi2(Sr,Gd)2CaCu2O8" Bi2Sr1.4Gd0.6Ca1Cu2O8+z Bi 2 Sr 1.4 Gd 0.6 Ca 1 Cu 2 O 8+z 1994 2 Bi2212 A 5.387 30.102 K 10 E+21/cm3 "Study of Hall effect, electrical resistivity and magnetoresistance in Bi2Sr2-xGdxCa1Cu2O8+z(x=0.00-0.65) systems" 1994 3 "Physica C, 222(1994)233-240" "Bi,Sr,Gd,Ca,Cu,O" 5370 PHC2220233 "Bi2(Sr,Gd)2CaCu2O8" Bi2Sr1.35Gd0.65Ca1Cu2O8+z Bi 2 Sr 1.35 Gd 0.65 Ca 1 Cu 2 O 8+z 1994 2 Bi2212 A 5.391 29.997 K 10 E+21/cm3 "Study of Hall effect, electrical resistivity and magnetoresistance in Bi2Sr2-xGdxCa1Cu2O8+z(x=0.00-0.65) systems" 1994 3 "Physica C, 222(1994)233-240" "Bi,Sr,Gd,Ca,Cu,O" 5371 PHC2340361 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1994 3 Y124 A 3.842 3.863 27.204 K 80.4 81.8 80.4 Effects of Ni substitution on the superconducting and Raman spectra in YBa2Cu4O8 1994 12 "Physica C.,234(1994) 361-367" "Y,Ba,Cu,O" 5372 PHC2340361 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.96Ni0.04O8 Y 1 Ba 2 Cu 3.96 Ni 0.04 O 8 1 1994 3 Y124 A 3.843 3.859 27.227 K 45.4 45 45.4 Effects of Ni substitution on the superconducting and Raman spectra in YBa2Cu4O8 1994 12 "Physica C.,234(1994) 361-367" "Y,Ba,Cu,O" 5373 PHC2340361 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.92Ni0.08O8 Y 1 Ba 2 Cu 3.92 Ni 0.08 O 8 1 1994 3 Y124 A 3.843 3.858 27.207 K 17 15.3 17 Effects of Ni substitution on the superconducting and Raman spectra in YBa2Cu4O8 1994 12 "Physica C.,234(1994) 361-367" "Y,Ba,Cu,O" 5374 PHC2340361 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.88Ni0.12O8 Y 1 Ba 2 Cu 3.88 Ni 0.12 O 8 1 1994 3 Y124 A 3.842 3.861 27.197 K 4.2 Effects of Ni substitution on the superconducting and Raman spectra in YBa2Cu4O8 1994 12 "Physica C.,234(1994) 361-367" "Y,Ba,Cu,O" 5375 PHC2340361 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.84Ni0.16O8 Y 1 Ba 2 Cu 3.84 Ni 0.16 O 8 1 1994 3 Y124 A 3.845 3.858 27.178 K 4.2 Effects of Ni substitution on the superconducting and Raman spectra in YBa2Cu4O8 1994 12 "Physica C.,234(1994) 361-367" "Y,Ba,Cu,O" 5376 PHC2340361 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.8Ni0.2O8 Y 1 Ba 2 Cu 3.8 Ni 0.2 O 8 1994 3 Y124 A 3.845 3.858 27.18 K 4.2 Effects of Ni substitution on the superconducting and Raman spectra in YBa2Cu4O8 1994 12 "Physica C.,234(1994) 361-367" "Y,Ba,Cu,O" 5377 PHC2340361 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.76Ni0.24O8 Y 1 Ba 2 Cu 3.76 Ni 0.24 O 8 1994 3 Y124 A 3.844 3.86 27.159 K 4.2 Effects of Ni substitution on the superconducting and Raman spectra in YBa2Cu4O8 1994 12 "Physica C.,234(1994) 361-367" "Y,Ba,Cu,O" 5378 PHC2340361 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.68Ni0.32O8 Y 1 Ba 2 Cu 3.68 Ni 0.32 O 8 1994 3 Y124 A 3.845 3.861 27.153 K 4.2 Effects of Ni substitution on the superconducting and Raman spectra in YBa2Cu4O8 1994 12 "Physica C.,234(1994) 361-367" "Y,Ba,Cu,O" 5379 PHC2340361 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.6Ni0.4O8 Y 1 Ba 2 Cu 3.6 Ni 0.4 O 8 1994 3 Y124 A 3.843 3.861 27.144 K 4.2 Effects of Ni substitution on the superconducting and Raman spectra in YBa2Cu4O8 1994 12 "Physica C.,234(1994) 361-367" "Y,Ba,Cu,O" 5380 PHC2340269 YBa2Cu3O7 Y1Ba2Cu3O6.92 Y 1 Ba 2 Cu 3 O 6.92 6.92 1994 3 Y123 K 92.4 0.14 92.4 T from specific heat measurement 212 T/K 3.2 A 12.4 Specific heat up to 14 tesla of a YBa2Cu3O6.92 single crystal 1994 12 "Physica C.,234(1994) 269-279" "Y,Ba,Cu,O" 5381 PHC2340255 "Bi2(Sr,La)2CuO6" Bi2Sr1.6La0.4Cu1O6.307 Bi 2 Sr 1.6 La 0.4 Cu 1 O z 6.307 1994 2 Bi2201 A 5.38 K 27.6 27.6 Effects of lanthanoid substitution on superconductivity and modulated structure of Bi2Sr2CuOy 1994 12 "Physica C.,234(1994) 255-262" "Bi,Sr,Cu,O" 5382 PHC2340255 "Bi2(Sr,Pr)2CuO6" Bi2Sr1.6Pr0.4Cu1O6.313 Bi 2 Sr 1.6 Pr 0.4 Cu 1 O z 6.313 1994 2 Bi2201 A 5.382 K 21.8 21.8 Effects of lanthanoid substitution on superconductivity and modulated structure of Bi2Sr2CuOy 1994 12 "Physica C.,234(1994) 255-262" "Bi,Sr,Cu,O" 5383 PHC2340255 "Bi2(Sr,Nd)2CuO6" Bi2Sr1.6Nd0.4Cu1O6.32 Bi 2 Sr 1.6 Nd 0.4 Cu 1 O z 6.32 1994 2 Bi2201 A 5.382 K 23.1 23.1 Effects of lanthanoid substitution on superconductivity and modulated structure of Bi2Sr2CuOy 1994 12 "Physica C.,234(1994) 255-262" "Bi,Sr,Cu,O" 5384 PHC2340255 "Bi2(Sr,Sm)2CuO6" Bi2Sr1.6Sm0.4Cu1O6.3 Bi 2 Sr 1.6 Sm 0.4 Cu 1 O z 6.3 1994 2 Bi2201 A 5.378 K 17 17 Effects of lanthanoid substitution on superconductivity and modulated structure of Bi2Sr2CuOy 1994 12 "Physica C.,234(1994) 255-262" "Bi,Sr,Cu,O" 5385 PHC2340255 "Bi(Sr,Eu)2CuO6" Bi2Sr1.6Eu0.4Cu1O6.301 Bi 2 Sr 1.6 Eu 0.4 Cu 1 O z 6.301 1994 2 Bi2201 A 5.374 K 12.5 12.5 Effects of lanthanoid substitution on superconductivity and modulated structure of Bi2Sr2CuOy 1994 12 "Physica C.,234(1994) 255-262" "Bi,Sr,Cu,O" 5386 PHC2340255 "Bi(Sr,Gd)2CuO6" Bi2Sr1.6Gd0.4Cu1O6.328 Bi 2 Sr 1.6 Gd 0.4 Cu 1 O z 6.328 1994 2 Bi2201 A 5.373 K 5 Effects of lanthanoid substitution on superconductivity and modulated structure of Bi2Sr2CuOy 1994 12 "Physica C.,234(1994) 255-262" "Bi,Sr,Cu,O" 5387 PHC2340255 "Bi(Sr,Tb)2CuO6" Bi2Sr1.6Tb0.4Cu1O6.331 Bi 2 Sr 1.6 Tb 0.4 Cu 1 O z 6.331 1994 2 Bi2201 A 5.379 K 5 Effects of lanthanoid substitution on superconductivity and modulated structure of Bi2Sr2CuOy 1994 12 "Physica C.,234(1994) 255-262" "Bi,Sr,Cu,O" 5388 PHC2340255 "Bi2(Sr,La)2CuO6" Bi2Sr1.3La0.7Cu1O6.422 Bi 2 Sr 1.3 La 0.7 Cu 1 O z 6.422 1994 2 Bi2201 A 5.414 K 22.6 22.6 Effects of lanthanoid substitution on superconductivity and modulated structure of Bi2Sr2CuOy 1994 12 "Physica C.,234(1994) 255-262" "Bi,Sr,Cu,O" 5389 PHC2340255 "Bi2(Sr,Pr)2CuO6" Bi2Sr1.3Pr0.7Cu1O6.412 Bi 2 Sr 1.3 Pr 0.7 Cu 1 O z 6.412 1994 2 Bi2201 A 5.406 K 5 Effects of lanthanoid substitution on superconductivity and modulated structure of Bi2Sr2CuOy 1994 12 "Physica C.,234(1994) 255-262" "Bi,Sr,Cu,O" 5390 PHC2340255 "Bi2(Sr,Nd)2CuO6" Bi2Sr1.3Nd0.7Cu1O6.417 Bi 2 Sr 1.3 Nd 0.7 Cu 1 O z 6.417 1994 2 Bi2201 A 5.403 K 14.2 14.2 Effects of lanthanoid substitution on superconductivity and modulated structure of Bi2Sr2CuOy 1994 12 "Physica C.,234(1994) 255-262" "Bi,Sr,Cu,O" 5391 PHC2340255 "Bi2(Sr,Sm)2CuO6" Bi2Sr1.3Sm0.7Cu1O6.405 Bi 2 Sr 1.3 Sm 0.7 Cu 1 O z 6.405 1994 3 Bi2201 A 5.406 K 8 8 Effects of lanthanoid substitution on superconductivity and modulated structure of Bi2Sr2CuOy 1994 12 "Physica C.,234(1994) 255-262" "Bi,Sr,Cu,O" 5392 PHC2340255 "Bi2(Sr,Eu)2CuO6" Bi2Sr1.3Eu0.7Cu1O6.408 Bi 2 Sr 1.3 Eu 0.7 Cu 1 O z 6.408 1994 2 Bi2201 A 5.408 K 5 Effects of lanthanoid substitution on superconductivity and modulated structure of Bi2Sr2CuOy 1994 12 "Physica C.,234(1994) 255-262" "Bi,Sr,Cu,O" 5393 PHC2340255 "Bi2(Sr,Gd)2CuO6" Bi2Sr1.3Gd0.7Cu1O6.402 Bi 2 Sr 1.3 Gd 0.7 Cu 1 O z 6.402 1994 2 Bi2201 A 5.407 K 5 Effects of lanthanoid substitution on superconductivity and modulated structure of Bi2Sr2CuOy 1994 12 "Physica C.,234(1994) 255-262" "Bi,Sr,Cu,O" 5394 PHC2340255 "Bi2(Sr,Tb)2CuO6" Bi2Sr1.3Tb0.7Cu1O6.399 Bi 2 Sr 1.3 Tb 0.7 Cu 1 O z 6.399 1994 2 Bi2201 A 5.398 K 5 Effects of lanthanoid substitution on superconductivity and modulated structure of Bi2Sr2CuOy 1994 12 "Physica C.,234(1994) 255-262" "Bi,Sr,Cu,O" 5395 PHC2340120 Al1Sr2Ca3Cu4Oz Al 1 Sr 2 Ca 3 Cu 4 O z 1994 Al1234 A 3.839 17.72 K 108 110 110 "A new series of high-Tc superconductors AlSr2Can-1CunO2n+3(n=4,Tc=110 K;n=5,Tc=83 K )prepared at high pressure" 1994 12 "Physica C,.234(1994) 120-126" "Al,Sr,Cu,O.Ca" 5396 PHC2340120 Al1Sr2Ca5Cu5Oz Al 1 Sr 2 Ca 5 Cu 5 O z 1994 Al1245 A 3.845 20.87 K 80 83 83 "A new series of high-Tc superconductors AlSr2Can-1CunO2n+3(n=4,Tc=110 K;n=5,Tc=83 K )prepared at high pressure" 1994 12 "Physica C,.234(1994) 120-126" "Al,Sr,Cu,O.Ca" 5397 NAT3690382 grain size is about 700A Sr2Cu(O2F2) Sr2Cu1F2.6O2 Sr 2 Cu 1 F 2.6 O 2 1994 3 T 5.394 5.513 13.468 K 4.2 "Sr2CuO3-Ni furnacetube(10%F2+90%N2)-heat(21OC,15min)-cool in N2 or air after flushing all F2 from the system" Synthesis and superconducting properties of the strontium copper oxy-fluoride Sr2CuO2F2+z 1994 6 "Nature,369(1994) 382-384" "Sr,Cu,O,F" 5398 NAT3690382 Sr2Cu(O2F2) Sr2Cu1F2.33O2 Sr 2 Cu 1 F 2.33 O 2 1994 K 46 48 46 3.5 "Sr2CuO3-Ni furnacetube(10%F2+90%N2)-heat(21OC,15min)-cool in N2 or air after flushing all F2 from the system" Synthesis and superconducting properties of the strontium copper oxy-fluoride Sr2CuO2F2+z 1994 6 "Nature,369(1994) 382-384" "Sr,Cu,O,F" 5399 NAT3690382 F-content depence of Tc is shown in Figure. Sr2Cu(O2F2) Sr2Cu1F2O2 Sr 2 Cu 1 F 2 O 2 1994 K TC5399 "Sr2CuO3-Ni furnacetube(10%F2+90%N2)-heat(21OC,15min)-cool in N2 or air after flushing all F2 from the system" Synthesis and superconducting properties of the strontium copper oxy-fluoride Sr2CuO2F2+z 1994 6 "Nature,369(1994) 382-384" "Sr,Cu,O,F" 5400 APJ0332515 "Pb2Sr2(Ho,Ca)(Cu,Al)3O8" Pb2Sr2Ho0.05Ca0.5Cu2.994Al0.006O8 Pb 2 Sr 2 Ho 0.05 Ca 0.5 Cu 2.994 Al 0.006 O 8 1994 Pb3212 K 76.4 76.4 "SrCO3,Ho2O3,CaCO3,CuO,PbO,NaCl" 5 "Pb:Sr:Ho:Ca:Cu:NaCl=7:1.5:0.3:1:4:17, 1050C in Pt crucible, PbO,NaCl as a flux" "Growth,Superconductivity and Anisotropy in the Electrical Resistivity of Pb2Sr2Ho0.5Ca0.5Cu3O8 Single Crystals:The Effect of Contamination from theCrucible on Tc" 1994 5 "Jpn.J.Appl.Phys.,33(1994)2515-2520" "Pb,Sr,Ho, Ca,Cu,O" 5401 APJ0332515 "Pb2SR2(Ho,Ca)(Cu,Al)3O8" Pb2Sr2Ho0.5Ca0.5Cu2.982Al0.018O8 Pb 2 Sr 2 Ho 0.5 Ca 0.5 Cu 2.982 Al 0.018 O 8 1994 Pb3212 K 63.6 63.6 "SrCO3,Ho2O3,CaCO3,CuO,PbO,NaCl" 5 "Pb:Sr:Ho:Ca:Cu:NaCl=7:1.5:0.3:1:4:17, 1050C in Pt crucible, PbO,NaCl as a flux" "Growth,Superconductivity and Anisotropy in the Electrical Resistivity of Pb2Sr2Ho0.5Ca0.5Cu3O8 Single Crystals:The Effect of Contamination from theCrucible on Tc" 1994 5 "Jpn.J.Appl.Phys.,33(1994)2515-2520" "Pb,Sr,Ho, Ca,Cu,O" 5402 APJ0332515 "Pb2Sr2(Ho,Ca)(Cu,Al)3O8" Pb2Sr2Ho0.5Ca0.5Cu2.97Al0.03O8 Pb 2 Sr 2 Ho 0.5 Ca 0.5 Cu 2.97 Al 0.03 O 8 1994 Pb3212 K 59.1 59.1 "SrCO3,Ho2O3,CaCO3,CuO,PbO,NaCl" 5 "Pb:Sr:Ho:Ca:Cu:NaCl=7:1.5:0.3:1:4:17, 1050C in Pt crucible, PbO,NaCl as a flux" "Growth,Superconductivity and Anisotropy in the Electrical Resistivity of Pb2Sr2Ho0.5Ca0.5Cu3O8 Single Crystals:The Effect of Contamination from theCrucible on Tc" 1994 5 "Jpn.J.Appl.Phys.,33(1994)2515-2520" "Pb,Sr,Ho, Ca,Cu,O" 5403 APJ0332515 "Pb2Sr2(Ho,Ca)(Cu,Al)3O8" Pb2Sr2Ho0.5Ca0.5Cu2.94Al0.06O8 Pb 2 Sr 2 Ho 0.5 Ca 0.5 Cu 2.94 Al 0.06 O 8 1994 Pb3212 K 51.8 51.8 "SrCO3,Ho2O3,CaCO3,CuO,PbO,NaCl" 5 "Pb:Sr:Ho:Ca:Cu:NaCl=7:1.5:0.3:1:4:17, 1050C in Pt crucible, PbO,NaCl as a flux" "Growth,Superconductivity and Anisotropy in the Electrical Resistivity of Pb2Sr2Ho0.5Ca0.5Cu3O8 Single Crystals:The Effect of Contamination from theCrucible on Tc" 1994 5 "Jpn.J.Appl.Phys.,33(1994)2515-2520" "Pb,Sr,Ho, Ca,Cu,O" 5404 APJ0332515 Tc is independent of Pt-doping "Pb2Sr2(Ho,Ca)(Cu,Pt)3O8" Pb2Sr2Ho0.5Ca0.5Cu2.94Pt0.06O8 Pb 2 Sr 2 Ho 0.5 Ca 0.5 Cu 2.94 Pt 0.06 O 8 1994 Pb3212 K 80.4 80.4 "SrCO3,Ho2O3,CaCO3,CuO,PbO,NaCl" 5 "Pb:Sr:Ho:Ca:Cu:NaCl=7:1.5:0.3:1:4:17, 1050C in Pt crucible, PbO,NaCl as a flux" "Growth,Superconductivity and Anisotropy in the Electrical Resistivity of Pb2Sr2Ho0.5Ca0.5Cu3O8 Single Crystals:The Effect of Contamination from theCrucible on Tc" 1994 5 "Jpn.J.Appl.Phys.,33(1994)2515-2520" "Pb,Sr,Ho, Ca,Cu,O" 5405 NAT3710139 "impurity phane=CaCl2 Ca(OH)2 H2O,CuO insulator" Ca2CuO2Cl2 Ca2Cu1Cl2O2 Ca 2 Cu 1 Cl 2 O 2 1994 3.864 15.049 K "mixture of (Ca2CuO2Cl2+NaClO4+CuO)in dry box-heat(1173K,30min under 6 G Pa)" "Probable hole-doped superconductivity without apical oxygens in (Ca,Na)2CuO2Cl2" 1994 10 Nature.371(1994) 139-141 "Ca,Na,Cu,O,Cl" 5406 NAT3710139 "(Ca,Na)2CuO2Cl2" Ca1.883Cu0.941Cl1.941Na0.059O2.117 Ca 1.883 Cu 0.941 Cl 1.941 Na 0.059 O 2.117 1994 3.855 15.096 K 26 26 26 "mixture of (Ca2CuO2Cl2+NaClO4+CuO)in dry box-heat(1173K,30min under 6 G Pa)" "Probable hole-doped superconductivity without apical oxygens in (Ca,Na)2CuO2Cl2" 1994 10 Nature.371(1994) 139-141 "Ca,Na,Cu,O,Cl" 5407 NAT3710139 "(Ca,Na)2CuO2Cl2" Ca1.808Cu0.904Cl1.904Na0.096O2.192 Ca 1.808 Cu 0.904 Cl 1.904 Na 0.096 O 2.192 1994 3.852 15.121 K 26 26 "mixture of (Ca2CuO2Cl2+NaClO4+CuO)in dry box-heat(1173K,30min under 6 G Pa)" "Probable hole-doped superconductivity without apical oxygens in (Ca,Na)2CuO2Cl2" 1994 10 Nature.371(1994) 139-141 "Ca,Na,Cu,O,Cl" 5408 NAT3710139 "(Ca,Na)2CuO2Cl2" Ca1.737Cu0.868Cl1.868Na0.132O2.263 Ca 1.737 Cu 0.868 Cl 1.868 Na 0.132 O 2.263 1994 3.849 15.143 K 21 21 "mixture of (Ca2CuO2Cl2+NaClO4+CuO)in dry box-heat(1173K,30min under 6 G Pa)" "Probable hole-doped superconductivity without apical oxygens in (Ca,Na)2CuO2Cl2" 1994 10 Nature.371(1994) 139-141 "Ca,Na,Cu,O,Cl" 5409 NAT3710139 "(Ca,Na)2CuO2Cl2" Ca1.702Cu0.851Cl1.851Na0.149O2.404 Ca 1.702 Cu 0.851 Cl 1.851 Na 0.149 O 2.404 1994 3.844 15.13 K 15 15 "mixture of (Ca2CuO2Cl2+NaClO4+CuO)in dry box-heat(1173K,30min under 6 G Pa)" "Probable hole-doped superconductivity without apical oxygens in (Ca,Na)2CuO2Cl2" 1994 10 Nature.371(1994) 139-141 "Ca,Na,Cu,O,Cl" 5410 PHC2340001 "Hall const n by van der Pa method maybeunderdoped sample,OHV=Hall angle." HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8+z Hg 1 Ba 2 Ca 2 Cu 3 O 8+z 3 1994 Hg1223 K 130 134 132 A 16 1 micro.V/K 5.4 TP5410 m.ohm.cm 0.35 7 "HgO,BaO,CaO,CuO" "Hg:Ba:Ca:Cu=1:2:2:3,pellet+pellet(=0:2:2:3)are placed in evacuated tube-heat(800C,10H)-slow cool to RT" Transport properties of single-crystal HgBa2Ca2Cu3O8+z 1994 12 "Physica C.,234(1994) 1-9" "Hg,Ba,Ca,Cu,O" 5411 PHC2340001 "Hall coust nea by van der Pa method maybe under doped sample,OHV=Hall angle" HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8+z Hg 1 Ba 2 Ca 2 Cu 3 O 8+z 1994 Hg1223 K 123 125 124 micro.V/K 9.2 TP5411 m.ohm.cm 0.35 "HgO,BaO,CaO,CuO" "Hg:Ba:Ca:Cu=1:2:2:3,pellet+pellet(=0:2:2:3)are placed in evacuated tube-heat(800C,10H)-slow cool to RT" Transport properties of single-crystal HgBa2Ca2Cu3O8+z 1994 12 "Physica C.,234(1994) 1-9" "Hg,Ba,Ca,Cu,O" 5412 PHC2340019 "imp rity pheses=CaHgO2,BaCuO2" "(Hg,Tl)Ba2(Ca,Sr)2Cu3O8" Hg0.75Tl0.25Ba2Ca1.72Sr0.28Cu3O8+z Hg 0.75 Tl 0.25 Ba 2 Ca 1.72 Sr 0.28 Cu 3 O 8+z 1 1994 2 Hg1223 A 3.873 16.006 K 128 128 "HgO,Tl2O3,Ba2CuO3,Ca0.86 Sr0.14 CuO2" "mixture of vaw materials-pellet- lanced in a alumin a tube in evacuateel qwartg-heat(88C,6H)-SIN(880C,10H)-slow cool-ANN(400C,10H in O2)" New members in the family of Hg and Tl based superconductors Hg1-xTlxBa2(Ca0.86Sr0.14)2Cu3O8+z 1994 12 "Physica C.,234(1994) 19-23" "Hg,Tl,Ba,Ca,Sr,Cu,O" 5413 PHC2340019 "(Hg,Tl)Ba2(Ca,Sr)2Cu3O8" Hg0.5Tl0.5Ba2Ca1.72Sr0.28Cu3O8+z Hg 0.5 Tl 0.5 Ba 2 Ca 1.72 Sr 0.28 Cu 3 O 8+z 1 1994 2 Hg1223 3.865 15.957 K 124 124 "HgO,Tl2O3,Ba2CuO3,Ca0.86 Sr0.14 CuO2" "mixture of vaw materials-pellet- lanced in a alumin a tube in evacuateel qwartg-heat(88C,6H)-SIN(880C,10H)-slow cool-ANN(400C,10H in O2)" New members in the family of Hg and Tl based superconductors Hg1-xTlxBa2(Ca0.86Sr0.14)2Cu3O8+z 1994 12 "Physica C.,234(1994) 19-23" "Hg,Tl,Ba,Ca,Sr,Cu,O" 5414 PHC2340019 "(Hg,Tl)Ba2(Ca,Sr)2Cu3O8" Hg0.25Tl0.75Ba2Ca1.72Sr0.28Cu3O8+z Hg 0.25 Tl 0.75 Ba 2 Ca 1.72 Sr 0.28 Cu 3 O 8+z 1 1994 2 Hg1223 A 3.863 15.869 K 122 122 90 "HgO,Tl2O3,Ba2CuO3,Ca0.86 Sr0.14 CuO2" "mixture of vaw materials-pellet- lanced in a alumin a tube in evacuateel qwartg-heat(88C,6H)-SIN(880C,10H)-slow cool-ANN(400C,10H in O2)" New members in the family of Hg and Tl based superconductors Hg1-xTlxBa2(Ca0.86Sr0.14)2Cu3O8+z 1994 12 "Physica C.,234(1994) 19-23" "Hg,Tl,Ba,Ca,Sr,Cu,O" 5415 PHC2340019 "(Hg,Tl)Ba2(Ca,Sr)2Cu3O2" Hg0.75Tl0.25Ba2Ca1.72Sr0.28Cu3O8+z Hg 0.75 Tl 0.25 Ba 2 Ca 1.72 Sr 0.28 Cu 3 O 8+z 1 1994 2 Hg1223 K 132 "sample #( )-ANN(400C,10H in Ar)" New members in the family of Hg and Tl based superconductors Hg1-xTlxBa2(Ca0.86Sr0.14)2Cu3O8+z 1994 12 "Physica C.,234(1994) 19-23" "Hg,Tl,Ba,Ca,Sr,Cu,O" 5416 PHC2340024 "(Tl,Hg)2Ba2Ca2Cu3O10" Tl2HgBa2Ca2Cu3O10-Z Tl 2 Hg Ba 2 Ca 2 Cu 3 O 10-Z 1994 2 Tl2223 A 3.849 35.662 K 115 122 118.5 "Ba(NO3)2,Ca(NO3)2 4H2O,Cu(NO3)2 3H2O" "prearor(Ba2Ca2Cu3O7)was prepered from solut on of metal nitrate,powder of preansor+HgO+Tl2O3-heat(860-870C,5H in vacuumquarty tube)" Stabilization of the Tl2Ba2Ca2Cu3O10 superconductor by Hg doping 1994 12 "Physica C.,234(1994) 24-28" "Hg,Tl,Ba,Ca,Cu,O" 5417 PHC2340024 "(Tl,Hg)2Ba2Ca2Cu3O10" Tl1.7Hg0.3Ba2Ca2Cu3O10-z Tl 1.7 Hg 0.3 Ba 2 Ca 2 Cu 3 O 10-z 1994 2 Tl2223 A 3.846 35.74 K 122.1 125.9 124 "Ba(NO3)2,Ca(NO3)2 4H2O,Cu(NO3)2 3H2O" "prearor(Ba2Ca2Cu3O7)was prepered from solut on of metal nitrate,powder of preansor+HgO+Tl2O3-heat(860-870C,5H in vacuumquarty tube)" Stabilization of the Tl2Ba2Ca2Cu3O10 superconductor by Hg doping 1994 12 "Physica C.,234(1994) 24-28" "Hg,Tl,Ba,Ca,Cu,O" 5418 PHC2340024 "(Tl,Hg)2Ba2Ca2Cu3O10" Tl1.6Hg0.4Ba2Ca2Cu3O10-z Tl 1.6 Hg 0.4 Ba 2 Ca 2 Cu 3 O 10-z 1994 2 Tl2223 A 3.843 35.754 K 125.9 129.9 127 127 89 "Ba(NO3)2,Ca(NO3)2 4H2O,Cu(NO3)2 3H2O" "prearor(Ba2Ca2Cu3O7)was prepered from solut on of metal nitrate,powder of preansor+HgO+Tl2O3-heat(860-870C,5H in vacuumquarty tube)" Stabilization of the Tl2Ba2Ca2Cu3O10 superconductor by Hg doping 1994 12 "Physica C.,234(1994) 24-28" "Hg,Tl,Ba,Ca,Cu,O" 5419 PHC2340024 "(Tl,Hg)2Ba2Ca2Cu3O10/" Tl1.4Hg0.6Ba2Ca2Cu3O10-z Tl 1.4 Hg 0.6 Ba 2 Ca 2 Cu 3 O 10-z 1994 2 Tl2223 A 3.841 35.816 K 122.1 124.9 123.5 "Ba(NO3)2,Ca(NO3)2 4H2O,Cu(NO3)2 3H2O" "prearor(Ba2Ca2Cu3O7)was prepered from solut on of metal nitrate,powder of preansor+HgO+Tl2O3-heat(860-870C,5H in vacuumquarty tube)" Stabilization of the Tl2Ba2Ca2Cu3O10 superconductor by Hg doping 1994 12 "Physica C.,234(1994) 24-28" "Hg,Tl,Ba,Ca,Cu,O" 5420 PR05001290 YBa2Cu3OzFx Y1Ba2Cu3F0.15O6.7 Y 1 Ba 2 Cu 3 F 0.15 O 6.7 1994 K 89.5 89.5 NMR study of the <89>Y resonance in fluorinated YBa2Cu3Oz 1994 7 "Phys.Rev.B, 50(1994)1290" "Y,Ba,Cu,O,F" 5421 PR05001290 YBa2Cu3OzFx Y1Ba2Cu3F0.25O6.7 Y 1 Ba 2 Cu 3 F 0.25 O 6.7 1994 K 91 91 NMR study of the <89>Y resonance in fluorinated YBa2Cu3Oz 1994 7 "Phys.Rev.B, 50(1994)1290" "Y,Ba,Cu,O,F" 5422 PR05001290 YBa2Cu3OzFx Y1Ba2Cu3F0.29O6.7 Y 1 Ba 2 Cu 3 F 0.29 O 6.7 1994 K 91 91 NMR study of the <89>Y resonance in fluorinated YBa2Cu3Oz 1994 7 "Phys.Rev.B, 50(1994)1290" "Y,Ba,Cu,O,F" 5423 PR05001290 YBa2Cu3OzFx Y1Ba2Cu3F0.38O6.7 Y 1 Ba 2 Cu 3 F 0.38 O 6.7 1994 K 91 91 NMR study of the <89>Y resonance in fluorinated YBa2Cu3Oz 1994 7 "Phys.Rev.B, 50(1994)1290" "Y,Ba,Cu,O,F" 5424 PR05001290 YBa2Cu3OzFx Y1Ba2Cu3F1.5O6 Y 1 Ba 2 Cu 3 F 1.5 O 6 1994 K NMR study of the <89>Y resonance in fluorinated YBa2Cu3Oz 1994 7 "Phys.Rev.B, 50(1994)1290" "Y,Ba,Cu,O,F" 5425 PR05000496 Authors say sample is Bi2201. compositions determined by EDX. Bi2Sr2Cu1Ox Bi2Sr1.9Cu2.1Ox Bi 2 Sr 1.9 Cu 2.1 O x 3 1994 K 5.3 7.5 7.5 mic.ohm.cm 267 m3/C 0.000000001 5 /cm3 Anisotropic resistivity of Bi2Sr2CuO crystals 1994 7 "National laboratory Superconductivity, Institute of Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100080, China" "Phys.Rev.B,50(1994)496" 5426 PR05000462 ErBa2Cu3O7-y Er1Ba2Cu3O7-y Er 1 Ba 2 Cu 3 O 7-y 1 1994 3 Y123 A 3.82 3.89 11.63 K 92.5 94.1 90.5 90.5 440 "See Physeca C 165,29(1990)." "Resistivity, magnetic-susceptibility, and specific-heat studies of ErBa2(Cu(1-x)Mx)3O7-y [(M=Ni,Zn,Fe,Co, and Ga) and x =0.005]: The effect of site-dependent substitutional disorder" 1994 7 "National Physical laboratory, New Delhi 110012, India" "Phys.Rev.B,50(1994)462" 5427 PR05000462 "ErBa2(Cu,Ni)3O7-y" Er1Ba2Cu2.85Ni0.15O7-y Er 1 Ba 2 Cu 2.85 Ni 0.15 O 7-y 1 1994 3 A 3.82 3.89 11.62 K 89.1 92.2 89.5 89.5 "Resistivity, magnetic-susceptibility, and specific-heat studies of ErBa2(Cu(1-x)Mx)3O7-y [(M=Ni,Zn,Fe,Co, and Ga) and x =0.005]: The effect of site-dependent substitutional disorder" 1994 7 "National Physical laboratory, New Delhi 110012, India" "Phys.Rev.B,50(1994)462" 5428 PR05000462 "ErBa2(Cu,Zn)3O7-y" Er1Ba2Cu2.85Zn0.15O7-y Er 1 Ba 2 Cu 2.85 Zn 0.15 O 7-y 1 1994 3 A 3.82 0.89 11.63 K 86.2 87.7 86 86 "Resistivity, magnetic-susceptibility, and specific-heat studies of ErBa2(Cu(1-x)Mx)3O7-y [(M=Ni,Zn,Fe,Co, and Ga) and x =0.005]: The effect of site-dependent substitutional disorder" 1994 7 "National Physical laboratory, New Delhi 110012, India" "Phys.Rev.B,50(1994)462" 5429 PR05000462 "ErBa2(Cu,Fe)3O7-y" Er1Ba2Cu2.85Fe0.15O7-y Er 1 Ba 2 Cu 2.85 Fe 0.15 O 7-y 1 1994 3 A 3.83 3.86 11.64 K 88.5 88.5 90 90 "Resistivity, magnetic-susceptibility, and specific-heat studies of ErBa2(Cu(1-x)Mx)3O7-y [(M=Ni,Zn,Fe,Co, and Ga) and x =0.005]: The effect of site-dependent substitutional disorder" 1994 7 "National Physical laboratory, New Delhi 110012, India" "Phys.Rev.B,50(1994)462" 5430 PR05000462 "ErBa2(Cu,Co)3O7-y" Er1Ba2Cu2.85Co0.15O7-y Er 1 Ba 2 Cu 2.85 Co 0.15 O 7-y 1 1994 3 A 3.83 3.87 11.63 K 89.9 91.8 88.5 88.5 "Resistivity, magnetic-susceptibility, and specific-heat studies of ErBa2(Cu(1-x)Mx)3O7-y [(M=Ni,Zn,Fe,Co, and Ga) and x =0.005]: The effect of site-dependent substitutional disorder" 1994 7 "National Physical laboratory, New Delhi 110012, India" "Phys.Rev.B,50(1994)462" 5431 PR05000462 "ErBa2(Cu,Ga)3O7-y" Er1Ba2Cu2.85Ga0.15O7-y Er 1 Ba 2 Cu 2.85 Ga 0.15 O 7-y 1 1994 3 A 3.84 3.86 11.64 K 89.5 90.9 89.6 89.6 "Resistivity, magnetic-susceptibility, and specific-heat studies of ErBa2(Cu(1-x)Mx)3O7-y [(M=Ni,Zn,Fe,Co, and Ga) and x =0.005]: The effect of site-dependent substitutional disorder" 1994 7 "National Physical laboratory, New Delhi 110012, India" "Phys.Rev.B,50(1994)462" 5432 PHC2430389 "demagnetization factor between0.7and0,95" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+z Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 3 1995 Bi2212 K 85 85 K/GPa Oe first penetration field 220 kT A A 2200 "crystal was grown from the melt by modified Bridgman-stockbarger tacknique,Before measurements homoginized by ANN(8%O2+92%Ar,800C,1week)" Flux penetration in Bi(2212) single crystals at low magnetic fields 1995 3 "Institut fur Experimentalphysik IV, Ruhr-Universitat Bochum,D-44780 Bochum,Germany" "Physica C.,243(1995)389-396" "Bi,Sr,Ca,Cu,O" 5433 PHC2430001 Cu-valence=2.28 HgBa2CuO4 Hg1Ba2Cu1O4.14 Hg 1 Ba 2 Cu 1 O 4+Z 4.14 1 1995 2 Hg1201 A 3.871 9.497 K "Precusor(Ba2CuOz) was prepared by mixing nitrates,+HgO-heat to 920C(P=18kbar)in Au capsule" Suppression of superconductivity and the overdoped region in HgBa2CuO4+z 1995 2 "Laboratoire de Cristallographie,CNRS-UJF BP 166,38042 Grenoble Cedex 09,France" "Physica C.,243(1995)1-9" "Hg,Ba,Cu,O" 5434 PHC2430001 HgBa2CuO4 Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1 1995 2 Hg1201 A 3.875 9.5 K 59 59 "Precusor(Ba2CuOz) was prepared by mixing nitrates,+HgO-heat to 920C(P=18kbar)in Au capsule" Suppression of superconductivity and the overdoped region in HgBa2CuO4+z 1995 2 "Laboratoire de Cristallographie,CNRS-UJF BP 166,38042 Grenoble Cedex 09,France" "Physica C.,243(1995)1-9" "Hg,Ba,Cu,O" 5435 PHC2430001 HgBa2CuO4 Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1 1995 2 Hg1201 A 3.878 9.51 K 87 87 "Precusor(Ba2CuOz) was prepared by mixing nitrates,+HgO-heat to 920C(P=18kbar)in Au capsule" Suppression of superconductivity and the overdoped region in HgBa2CuO4+z 1995 2 "Laboratoire de Cristallographie,CNRS-UJF BP 166,38042 Grenoble Cedex 09,France" "Physica C.,243(1995)1-9" "Hg,Ba,Cu,O" 5436 PHC2430001 "precursor(800C,10H in O2)Cu-valence=2.20" HgBa2CuO4 Hg1Ba2Cu1O4.1 Hg 1 Ba 2 Cu 1 O 4+z 4.1 1 1995 2 Hg1201 A 3.874 9.5 K 35 35 "Precusor(Ba2CuOz) was prepared by mixing nitrates,+HgO-heat to 920C(P=18kbar)in Au capsule" Suppression of superconductivity and the overdoped region in HgBa2CuO4+z 1995 2 "Laboratoire de Cristallographie,CNRS-UJF BP 166,38042 Grenoble Cedex 09,France" "Physica C.,243(1995)1-9" "Hg,Ba,Cu,O" 5437 PHC2430001 Cu-valence=2.18 HgBa2CuO4+z Hg1Ba2Cu1O4.09 Hg 1 Ba 2 Cu 1 O 4+z 4.09 1 1995 2 Hg1201 A 3.874 9.507 K 36 36 "Prearsor was heat-treated(800C,20H in O2)-heat(300C,15H in O2)-" Suppression of superconductivity and the overdoped region in HgBa2CuO4+z 1995 2 "Laboratoire de Cristallographie,CNRS-UJF BP 166,38042 Grenoble Cedex 09,France" "Physica C.,243(1995)1-9" "Hg,Ba,Cu,O" 5438 PHC2430001 Cu-valence=2.13 HgBa2CuO4+z Hg1Ba2Cu1O4.07 Hg 1 Ba 2 Cu 1 O 4+z 4.07 1 1995 2 Hg1201 A 3.88 9.512 K 91 91 "Prearsor was heat-treated(800C,20H in O2)-heat(300C,15H in O2)-" Suppression of superconductivity and the overdoped region in HgBa2CuO4+z 1995 2 "Laboratoire de Cristallographie,CNRS-UJF BP 166,38042 Grenoble Cedex 09,France" "Physica C.,243(1995)1-9" "Hg,Ba,Cu,O" 5439 PHC2430019 "post anneal (200C,6H in flowing O2), grain oriented sample" HgBa2CuO4 Hg1Ba2Cu1O4.117 Hg 1 Ba 2 Cu 1 O 4+z 4.117 1995 2 Hg1201 A 9.516 K 82 82 Hc1 at 40K 124 kT HIR5439 A "HgO,BaO,CuO" "(Hg:Ba:Cu=1:2:1)-sealed in quartz tube (P=2E-4 Torr)-heat(750C,1H)-Q to water" The oxygen-content dependence of the magnetization anisotropy of HgBaCuO4+z 1995 2 "Superconductivity Research Laboratory,ISTEC,10-13 Shinome,1-chome,Tokyo 135,Japan" "Physica C.,243(1995)19-23" "Hg,Ba,Cu,O" 5440 PHC2430019 HgBa2CuO4 Hg1Ba2Cu1O4.09 Hg 1 Ba 2 Cu 1 O 4+Z 4.09 1995 2 Hg1201 9.511 K 96 96 "HgO,BaO,CuO" "(Hg:Ba:Cu=1:2:1)-sealed in quartz tube (P=2E-4 Torr)-heat(750C,1H)-Q to water" The oxygen-content dependence of the magnetization anisotropy of HgBaCuO4+z 1995 2 "Superconductivity Research Laboratory,ISTEC,10-13 Shinome,1-chome,Tokyo 135,Japan" "Physica C.,243(1995)19-23" "Hg,Ba,Cu,O" 5441 PHC2430019 "post anneale(400C,6H in flowing Ar), grain oriented sample" HgBa2CuO4 Hg1Ba2Cu1O4.043 Hg 1 Ba 2 Cu 1 O 4+z 4.043 1995 2 Hg1201 A 9.516 K 87 87 Hc1 at 40K 80 HIR5441 "HgO,BaO,CuO" "(Hg:Ba:Cu=1:2:1)-sealed in quartz tube (P=2E-4 Torr)-heat(750C,1H)-Q to water" The oxygen-content dependence of the magnetization anisotropy of HgBaCuO4+z 1995 2 "Superconductivity Research Laboratory,ISTEC,10-13 Shinome,1-chome,Tokyo 135,Japan" "Physica C.,243(1995)19-23" "Hg,Ba,Cu,O" 5442 PHC2430134 "void free somple,sound velocity = 2909 m/s for shear velocity" ErBa2Cu3O7 Er1Ba2Cu3O6.92 Er 1 Ba 2 Cu 3 O 7-Z 6.92 1 1995 7.12 GPa 52.4 m/s 5509 3 Y123 A 3.821 3.888 11.669 K 90 90 480 calculated from sound velocity "Er2O3,BaCO3,CuO" "mixture-heat(930C,24H)-press in to pellett-heat(930C,24(+)in air)" Ultrasonic velocity studies on superconducting and non-superconducting ErBa2Cu3O7-z 1995 2 "Department of Physics,Universiti Kebangsaan Malaysia,43600 Bangi,Selangor Darul Ehsan,Malaysia" "Physica C.,243(1995)134-138" "Er,Ba,Cu,O" 5443 PHC2430134 Q from 930C. void-free sample Q from semicon-like Er1Ba2Cu3O6.25 Er 1 Ba 2 Cu 3 O 7-Z 6.25 1 1995 6.94 GPa 46.1 2 Y123 A 3.854 11.792 K 80 "Er2O3,BaCO3,CuO" "mixture-heat(930C,24H)-press in to pellett-heat(930C,24(+)in air)" Ultrasonic velocity studies on superconducting and non-superconducting ErBa2Cu3O7-z 1995 2 "Department of Physics,Universiti Kebangsaan Malaysia,43600 Bangi,Selangor Darul Ehsan,Malaysia" "Physica C.,243(1995)134-138" "Er,Ba,Cu,O" 5444 PHC2430160 "(Y,Ca)Ba2(Cu,Ni)3O7" Y1CaBa2Cu3NiO6.89 Y 1 Ca Ba 2 Cu 3 Ni O 7-z 6.89 1 1995 3 Y123 A 3.825 3.879 11.683 K 92 91 91 "Y2O3,Ba(NO3)2,CaCO3,CuO,NiO,ZnO" "mixture-heat(1190-1210K,24H in air)-SIN(1200-1225K,48H)-cool to 450K(1K/min)-FC" Superconducting behaviour of co-doped Y1-xCaxBa2Cu3-xMxO7-z(M=Ni or Zn and 0.0 x 0.30) 1995 2 "Chemistry Division,Bhabha Atomic Research Centre,Bombay 400 085,India" "Physica C.,243(1995)160-166" "Yi,Ca,Ba,Cu,O,Ni,Zn" 5445 PHC2430160 "(Y,Ca)Ba2(Cu,Ni)3O7" Y0.95Ca0.05Ba2Cu2.95Ni0.05O6.83 Y 0.95 Ca 0.05 Ba 2 Cu 2.95 Ni 0.05 O 7-z 6.83 1 1995 3 Y123 A 3.827 3.896 11.669 K 78 82 82 "Y2O3,Ba(NO3)2,CaCO3,CuO,NiO,ZnO" "mixture-heat(1190-1210K,24H in air)-SIN(1200-1225K,48H)-cool to 450K(1K/min)-FC" Superconducting behaviour of co-doped Y1-xCaxBa2Cu3-xMxO7-z(M=Ni or Zn and 0.0 x 0.30) 1995 2 "Chemistry Division,Bhabha Atomic Research Centre,Bombay 400 085,India" "Physica C.,243(1995)160-166" "Yi,Ca,Ba,Cu,O,Ni,Zn" 5446 PHC2430160 "(Y,Ca)Ba2(Cu,Ni)3O7" Y0.9Ca0.1Ba2Cu2.9Ni0.1O6.86 Y 0.9 Ca 0.1 Ba 2 Cu 2.9 Ni 0.1 O 7-z 6.86 1 1995 3 Y123 A 3.829 3.88 11.682 K 69 74 74 "Y2O3,Ba(NO3)2,CaCO3,CuO,NiO,ZnO" "mixture-heat(1190-1210K,24H in air)-SIN(1200-1225K,48H)-cool to 450K(1K/min)-FC" Superconducting behaviour of co-doped Y1-xCaxBa2Cu3-xMxO7-z(M=Ni or Zn and 0.0 x 0.30) 1995 2 "Chemistry Division,Bhabha Atomic Research Centre,Bombay 400 085,India" "Physica C.,243(1995)160-166" "Yi,Ca,Ba,Cu,O,Ni,Zn" 5447 PHC2430160 "(Y,Ca)Ba2(Cu,Ni)3O7" Y0.85Ca0.15Ba2Cu2.85Ni0.15O6.85 Y 0.85 Ca 0.15 Ba 2 Cu 2.85 Ni 0.15 O 7-z 6.85 1 1995 3 Y123 A 3.823 3.885 11.671 K 63 67 67 "Y2O3,Ba(NO3)2,CaCO3,CuO,NiO,ZnO" "mixture-heat(1190-1210K,24H in air)-SIN(1200-1225K,48H)-cool to 450K(1K/min)-FC" Superconducting behaviour of co-doped Y1-xCaxBa2Cu3-xMxO7-z(M=Ni or Zn and 0.0 x 0.30) 1995 2 "Chemistry Division,Bhabha Atomic Research Centre,Bombay 400 085,India" "Physica C.,243(1995)160-166" "Yi,Ca,Ba,Cu,O,Ni,Zn" 5448 PHC2430160 "(Y,Ca)Ba2(Cu,Ni)3O7" Y0.8Ca0.2Ba2Cu2.8Ni0.2O6.77 Y 0.8 Ca 0.2 Ba 2 Cu 2.8 Ni 0.2 O 7-Z 6.77 1995 3 Y123 A 3.825 3.872 11.663 K 59 64 64 "Y2O3,Ba(NO3)2,CaCO3,CuO,NiO,ZnO" "mixture-heat(1190-1210K,24H in air)-SIN(1200-1225K,48H)-cool to 450K(1K/min)-FC" Superconducting behaviour of co-doped Y1-xCaxBa2Cu3-xMxO7-z(M=Ni or Zn and 0.0 x 0.30) 1995 2 "Chemistry Division,Bhabha Atomic Research Centre,Bombay 400 085,India" "Physica C.,243(1995)160-166" "Yi,Ca,Ba,Cu,O,Ni,Zn" 5449 PHC2430160 in homogeneous "(Y,Ca)Ba2(Cu,Ni)3O7" Y0.75Ca0.25Ba2Cu2.75Ni0.25O6.77 Y 0.75 Ca 0.25 Ba 2 Cu 2.75 Ni 0.25 O 7-Z 6.77 1995 3 Y123 A 3.829 3.891 11.65 K 62 62 62 "Y2O3,Ba(NO3)2,CaCO3,CuO,NiO,ZnO" "mixture-heat(1190-1210K,24H in air)-SIN(1200-1225K,48H)-cool to 450K(1K/min)-FC" Superconducting behaviour of co-doped Y1-xCaxBa2Cu3-xMxO7-z(M=Ni or Zn and 0.0 x 0.30) 1995 2 "Chemistry Division,Bhabha Atomic Research Centre,Bombay 400 085,India" "Physica C.,243(1995)160-166" "Yi,Ca,Ba,Cu,O,Ni,Zn" 5450 PHC2430160 in homogeneous "(Y,Ca)Ba2(Cu,Ni)3O7" Y0.7Ca0.3Ba2Cu2.7Ni0.3O7-z Y 0.7 Ca 0.3 Ba 2 Cu 2.7 Ni 0.3 O 7-z 1995 3 Y123 K 64 65 65 "Y2O3,Ba(NO3)2,CaCO3,CuO,NiO,ZnO" "mixture-heat(1190-1210K,24H in air)-SIN(1200-1225K,48H)-cool to 450K(1K/min)-FC" Superconducting behaviour of co-doped Y1-xCaxBa2Cu3-xMxO7-z(M=Ni or Zn and 0.0 x 0.30) 1995 2 "Chemistry Division,Bhabha Atomic Research Centre,Bombay 400 085,India" "Physica C.,243(1995)160-166" "Yi,Ca,Ba,Cu,O,Ni,Zn" 5451 PHC2430214 "(Hg,V)Ba2CuO4" Hg0.8V0.2Ba2Cu1O4.3 Hg 0.8 V 0.2 Ba 2 Cu 1 O 4+z 4.3 1995 2 Hg1201 A 3.886 9.339 K 90 90 HIR5451 100000 "HgO,V2O5,BaO,CuO,CaO" "mix(in dry box)-Alumina crucible sealed in quartg tube(vacwum)-heat(800C at 100C/H)-keep(800C,12H)-cool to RT(50C/H)" New superconducting vanadomercury cuorates Hg0.8V0.2Ba2Cam-1CumO2m+2+z 1995 3 "Laboratoire CRISMAT,CNRS URA 1318,ISMRA et Universite de Caen,Bd du Marechal Juin 14050,Caen Cedex,France" "Physica C.,243(1995)214-221" "Hg,V,Ba,Ca,Cu,O" 5452 PHC2430214 "(Hg,V)Ba2CaCu2O6" Hg0.8V0.2Ba2Ca1Cu2O6.3 Hg 0.8 V 0.2 Ba 2 Ca 1 Cu 2 O 6+z 6.3 1995 2 Hg1212 A 3.869 12.5 K 115 115 HIR5452 1000000 "HgO,V2O5,BaO,CuO,CaO" "mix(in dry box)-Alumina crucible sealed in quartg tube(vacwum)-heat(800C at 100C/H)-keep(800C,12H)-cool to RT(50C/H)" New superconducting vanadomercury cuorates Hg0.8V0.2Ba2Cam-1CumO2m+2+z 1995 3 "Laboratoire CRISMAT,CNRS URA 1318,ISMRA et Universite de Caen,Bd du Marechal Juin 14050,Caen Cedex,France" "Physica C.,243(1995)214-221" "Hg,V,Ba,Ca,Cu,O" 5453 PHC2430214 ANN in flowing Oz. "(Hg,V)Ba2CaCu2O6" Hg0.8V0.2Ba2Ca1Cu2O6.3 Hg 0.8 V 0.2 Ba 2 Ca 1 Cu 2 O 6+z 6.3 1995 2 Hg1212 K 125 125 "HgO,V2O5,BaO,CuO,CaO" "mix(in dry box)-Alumina crucible sealed in quartg tube(vacwum)-heat(800C at 100C/H)-keep(800C,12H)-cool to RT(50C/H)" New superconducting vanadomercury cuorates Hg0.8V0.2Ba2Cam-1CumO2m+2+z 1995 3 "Laboratoire CRISMAT,CNRS URA 1318,ISMRA et Universite de Caen,Bd du Marechal Juin 14050,Caen Cedex,France" "Physica C.,243(1995)214-221" "Hg,V,Ba,Ca,Cu,O" 5454 PHC2430160 "(Y,Ca)Ba2(Cu,Zn)3O7" Y0.95Ca0.05Ba2Cu2.95Zn0.05O6.89 Y 0.95 Ca 0.05 Ba 2 Cu 2.95 Zn 0.05 O 7-z 6.89 1995 3 Y123 A 3.819 3.876 11.658 K 62 65 65 Superconducting behaviour of co-doped Y1-xCaxBa2Cu3-xMxO7-z(M=Ni or Zn and 0.0 x 0.30) 1995 2 "Chemistry Division,Bhabha Atomic Research Centre,Bombay 400 085,India" "Physica C.,243(1995)160-166" "Yi,Ca,Ba,Cu,O,Ni,Zn" 5455 PHC2430160 "(Y,Ca)Ba2(Cu,Zn)3O7" Y0.9Ca0.1Ba2Cu2.9Zn0.1O6.81 Y 0.9 Ca 0.1 Ba 2 Cu 2.9 Zn 0.1 O 7-z 6.81 1995 3 Y123 A 3.814 3.885 11.661 K 47 50 50 Superconducting behaviour of co-doped Y1-xCaxBa2Cu3-xMxO7-z(M=Ni or Zn and 0.0 x 0.30) 1995 2 "Chemistry Division,Bhabha Atomic Research Centre,Bombay 400 085,India" "Physica C.,243(1995)160-166" "Yi,Ca,Ba,Cu,O,Ni,Zn" 5456 PHC2430160 "(Y,Ca)Ba2(Cu,Zn)3O7" Y0.85Ca0.15Ba2Cu2.85Zn0.15O6.85 Y 0.85 Ca 0.15 Ba 2 Cu 2.85 Zn 0.15 O 7-Z 6.85 1995 3 Y123 A 3.816 3.879 11.666 K 42 43 43 Superconducting behaviour of co-doped Y1-xCaxBa2Cu3-xMxO7-z(M=Ni or Zn and 0.0 x 0.30) 1995 2 "Chemistry Division,Bhabha Atomic Research Centre,Bombay 400 085,India" "Physica C.,243(1995)160-166" "Yi,Ca,Ba,Cu,O,Ni,Zn" 5457 PHC2430160 "(Y,Ca)Ba2(Cu,Zn)3O7" Y0.8Ca0.2Ba2Cu2.8Zn0.2O6.73 Y 0.8 Ca 0.2 Ba 2 Cu 2.8 Zn 0.2 O 7-Z 6.73 1995 3 Y123 A 3.824 3.875 11.674 K 41 43 43 Superconducting behaviour of co-doped Y1-xCaxBa2Cu3-xMxO7-z(M=Ni or Zn and 0.0 x 0.30) 1995 2 "Chemistry Division,Bhabha Atomic Research Centre,Bombay 400 085,India" "Physica C.,243(1995)160-166" "Yi,Ca,Ba,Cu,O,Ni,Zn" 5458 PHC2430160 "(Y,Ca)Ba2(Cu,Zn)3O7" Y0.75Ca0.25Ba2Cu2.75Zn0.25O6.76 Y 0.75 Ca 0.25 Ba 2 Cu 2.75 Zn 0.25 O 7-Z 6.76 1995 3 Y123 A 3.82 3.868 11.67 K 40 42 42 Superconducting behaviour of co-doped Y1-xCaxBa2Cu3-xMxO7-z(M=Ni or Zn and 0.0 x 0.30) 1995 2 "Chemistry Division,Bhabha Atomic Research Centre,Bombay 400 085,India" "Physica C.,243(1995)160-166" "Yi,Ca,Ba,Cu,O,Ni,Zn" 5459 PHC2430160 winor amount of impusity p ase. "(Y,Ca)Ba2(Cu,Zn)3O7" Y0.7Ca0.3Ba1Cu2.7Zn0.3O7-z Y 0.7 Ca 0.3 Ba 1 Cu 2.7 Zn 0.3 O 7-z 1995 3 Y123 K 43 45 45 Superconducting behaviour of co-doped Y1-xCaxBa2Cu3-xMxO7-z(M=Ni or Zn and 0.0 x 0.30) 1995 2 "Chemistry Division,Bhabha Atomic Research Centre,Bombay 400 085,India" "Physica C.,243(1995)160-166" "Yi,Ca,Ba,Cu,O,Ni,Zn" 5460 PR05004051 YBa2Cu3O7 Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O 6.95 1994 Y123 K A A surface impedace 1400 flux growth technique Comparison of the influence of Ni and Zn impurities on the electromagnetic properties of YBa2Cu3O6.95 1994 8 "Phys.Rev.B, 50(1994)4051" "Y,Ba,Cu,O,Zn,Ni" 5461 PHC2460001 [Hg1201]n(Sr2CuO2CO3)m "(Hg,Mo)Sr4Cu2(CO3)O6" Hg0.5Mo0.5Sr4Cu2C1O9+z Hg 0.5 Mo 0.5 Sr 4 Cu 2 C 1 O 9+z 1995 2 Hg1201 123 A 3.845 16.317 K 74 74 K/GPa 35 "SrCO3,Cr2O3,MoO3,CuO,HgO" "mixtube-pellet-sealed in evacuated tube-heat(880C,12H)-Q to RT" "Two transition-metal-substituted superconducting mercury-based oxycarbonates,Hg1-xMxSr4Cu2(CO3)O6+z(M=Cr and Mo)" 1995 4 "Laboratoire CRISMAT-CNRS URA 1318,ISMRA et Universite de Caen,Boulevard du Marechal Juin,14050 Caen cedex,France" "Physica C.,246(1995)1-10" 5462 PHC2460001 [Hg1201]n(Sr2CuO2CO3)m "(Hg,Cr)Sr4Cu2(CO3)O6" Hg0.4Cr0.6Sr4Cu2C1O9+z Hg 0.4 Cr 0.6 Sr 4 Cu 2 C 1 O 9+z 1995 2 Hg1201 P4/mmm 123 A 3.875 16.155 K 37 37 K/GPa 60 "SrCO3,Cr2O3,MoO3,CuO,HgO" "mixtube-pellet-sealed in evacuated tube-heat(880C,12H)-Q to RT" "Two transition-metal-substituted superconducting mercury-based oxycarbonates,Hg1-xMxSr4Cu2(CO3)O6+z(M=Cr and Mo)" 1995 4 "Laboratoire CRISMAT-CNRS URA 1318,ISMRA et Universite de Caen,Boulevard du Marechal Juin,14050 Caen cedex,France" "Physica C.,246(1995)1-10" 5463 PHC2460011 magnetic properties by inelastic neutron scatlering Pb2Sr2EuCu3O8 Pb2Sr2Eu1Cu3O8 Pb 2 Sr 2 Eu 1 Cu 3 O 8 1995 0.01 emu.K/mole micro.B/Mo 9.89 9.5 Pb3212 K "PbO,R2O3,CuO,CaCO3,SrCuO2" "mixyube-prefire(950C,12H)-pellet-heat(890C,2days in Pt boat under N2 atmosphere)-cool to RT(1.5C/min)" The magnetic properties of R in Pb2Sr2(R/Ca)Cu3O8 (R = Ho and Er) 1995 4 "Argonne National Laboratory,Argonne IL 60439,USA" "Physica C.,246(1995)11-21" 5464 PHC2460011 magnetic properties by inelastic nsutron scatlering Pb2Sr2H0Cu3O8 Pb2Sr2HCu3O8 Pb 2 Sr 2 H Cu 3 O 8 1995 emu.K/mole micro.B/Mo 10.1 9 Pb3212 K "PbO,R2O3,CuO,CaCO3,SrCuO2" "mixyube-prefire(950C,12H)-pellet-heat(890C,2days in Pt boat under N2 atmosphere)-cool to RT(1.5C/min)" The magnetic properties of R in Pb2Sr2(R/Ca)Cu3O8 (R = Ho and Er) 1995 4 "Argonne National Laboratory,Argonne IL 60439,USA" "Physica C.,246(1995)11-21" 5465 PHC2460145 semiconductor YBa2Cu3Oz Y1Ba2Cu3O6.197 Y 1 Ba 2 Cu 3 O z 6.197 1995 Y123 K 649 TP5465 see RHC1960297 "Seebeck coefficient and electrical-resisivity measurements for semiconducting anitiferromagnetic YBa2Cu3Oz,up to 1000 K Evidence for phonon drag and storng electron-phonon coupling" 1995 4 "URA 446,Laboratoire des Composes Non-Stoechiomeriques,Batiment 415,Universite Paris-Sud,91405 Orsay Cedex,France" "Physica C.,246(1995)145-155" 5466 PHC2460145 semiconductor YBa2Cu3Oz Y1Ba2Cu3O6.215 Y 1 Ba 2 Cu 3 O z 6.215 1995 Y123 K TP5466 see RHC1960297 "Seebeck coefficient and electrical-resisivity measurements for semiconducting anitiferromagnetic YBa2Cu3Oz,up to 1000 K Evidence for phonon drag and storng electron-phonon coupling" 1995 4 "URA 446,Laboratoire des Composes Non-Stoechiomeriques,Batiment 415,Universite Paris-Sud,91405 Orsay Cedex,France" "Physica C.,246(1995)145-155" 5467 PHC2460145 semiconductor YBa2Cu3Oz Y1Ba2Cu3O6.24 Y 1 Ba 2 Cu 3 O z 6.24 1995 Y123 K 416 TP5467 see RHC1960297 "Seebeck coefficient and electrical-resisivity measurements for semiconducting anitiferromagnetic YBa2Cu3Oz,up to 1000 K Evidence for phonon drag and storng electron-phonon coupling" 1995 4 "URA 446,Laboratoire des Composes Non-Stoechiomeriques,Batiment 415,Universite Paris-Sud,91405 Orsay Cedex,France" "Physica C.,246(1995)145-155" 5468 PHC2460145 semiconductor YBa2Cu3Oz Y1Ba2Cu3O6.28 Y 1 Ba 2 Cu 3 O z 6.28 1995 Y123 K 313 TP5468 see RHC1960297 "Seebeck coefficient and electrical-resisivity measurements for semiconducting anitiferromagnetic YBa2Cu3Oz,up to 1000 K Evidence for phonon drag and storng electron-phonon coupling" 1995 4 "URA 446,Laboratoire des Composes Non-Stoechiomeriques,Batiment 415,Universite Paris-Sud,91405 Orsay Cedex,France" "Physica C.,246(1995)145-155" 5469 PHC2460145 semiconductor YBa2Cu3Oz Y1Ba2Cu3O6.35 Y 1 Ba 2 Cu 3 O z 6.35 1995 Y123 K 170 TP5469 see RHC1960297 "Seebeck coefficient and electrical-resisivity measurements for semiconducting anitiferromagnetic YBa2Cu3Oz,up to 1000 K Evidence for phonon drag and storng electron-phonon coupling" 1995 4 "URA 446,Laboratoire des Composes Non-Stoechiomeriques,Batiment 415,Universite Paris-Sud,91405 Orsay Cedex,France" "Physica C.,246(1995)145-155" 5470 PHC2460145 semiconductor YBa2Cu3Oz Y1Ba2Cu3O6.4 Y 1 Ba 2 Cu 3 O z 6.4 1995 Y123 K 124 TP5470 see RHC1960297 "Seebeck coefficient and electrical-resisivity measurements for semiconducting anitiferromagnetic YBa2Cu3Oz,up to 1000 K Evidence for phonon drag and storng electron-phonon coupling" 1995 4 "URA 446,Laboratoire des Composes Non-Stoechiomeriques,Batiment 415,Universite Paris-Sud,91405 Orsay Cedex,France" "Physica C.,246(1995)145-155" 5471 SUP0080021 "(Y,Ca)(Sr,Ba)2Cu2GaO7" Y0.6Ca0.4Sr1.8Ba0.2Cu2Ga1O7 Y 0.6 Ca 0.4 Sr 1.8 Ba 0.2 Cu 2 Ga 1 O 7 1995 K 45 45 "Synthesis,Composition,and Structure of Superconducting (Y,Ca)(Sr,Ba)2GaO7-z" 1995 1 "Superconductivity Research Group,School of Chemistry,University of Birmingham,Birmingham B15 2TT,United kingdom." "J.Supercomductivity.,8(1995)21-25" 5472 SUP0080021 "(Y,Ca)(Sr,Ba)2Cu2GaO7" Y0.6Ca0.4Sr1.7Ba0.3Cu2Ga1O7 Y 0.6 Ca 0.4 Sr 1.7 Ba 0.3 Cu 2 Ga 1 O 7 1995 K 50 50 "Synthesis,Composition,and Structure of Superconducting (Y,Ca)(Sr,Ba)2GaO7-z" 1995 1 "Superconductivity Research Group,School of Chemistry,University of Birmingham,Birmingham B15 2TT,United kingdom." "J.Supercomductivity.,8(1995)21-25" 5473 SUP0080021 "(Y,Ca)(Sr,Ba)2Cu2GaO7" Y0.6Ca0.4Sr1.6Ba0.4Cu2Ga1O7 Y 0.6 Ca 0.4 Sr 1.6 Ba 0.4 Cu 2 Ga 1 O 7 1995 K 56 56 "Synthesis,Composition,and Structure of Superconducting (Y,Ca)(Sr,Ba)2GaO7-z" 1995 1 "Superconductivity Research Group,School of Chemistry,University of Birmingham,Birmingham B15 2TT,United kingdom." "J.Supercomductivity.,8(1995)21-25" 5474 SUP0080021 "long anneating 500C,180H in 350 bar O2" "(Y,Ca)(Sr,Ba)2Cu2GaO7" Y0.6Ca0.4Sr1.8Ba0.2Cu2Ga1O7 Y 0.6 Ca 0.4 Sr 1.8 Ba 0.2 Cu 2 Ga 1 O 7 1995 K 68 68 "Synthesis,Composition,and Structure of Superconducting (Y,Ca)(Sr,Ba)2GaO7-z" 1995 1 "Superconductivity Research Group,School of Chemistry,University of Birmingham,Birmingham B15 2TT,United kingdom." "J.Supercomductivity.,8(1995)21-25" 5475 SUP0080021 "(Y,Ca)Sr2Cu2GaO7" Y0.65Ca0.35Sr2Cu2Ga1O7 Y 0.65 Ca 0.35 Sr 2 Cu 2 Ga 1 O 7 1995 Ima2 A 5.384 5.474 22.815 K 27 27 "Y2O3,CaCO3,SrCO3,BaCO3,CuO,Ga2O3" "mixture-heat(1050C,2OH in air)-pellet-SIN(1050C,in O2)-hold(460C,30H)-cool to RT-(500C,100H under pres of 350bar Oz)" "Synthesis,Composition,and Structure of Superconducting (Y,Ca)(Sr,Ba)2GaO7-z" 1995 1 "Superconductivity Research Group,School of Chemistry,University of Birmingham,Birmingham B15 2TT,United kingdom." "J.Supercomductivity.,8(1995)21-25" 5476 SUP0080021 "(Y,Ca)Sr2Cu2GaO7" Y0.6Ca0.4Sr2Cu2Ga1O7 Y 0.6 Ca 0.4 Sr 2 Cu 2 Ga 1 O 7 1995 Ima2 A 5.382 5.472 22.805 K 41 41 "Y2O3,CaCO3,SrCO3,BaCO3,CuO,Ga2O3" "mixture-heat(1050C,2OH in air)-pellet-SIN(1050C,in O2)-hold(460C,30H)-cool to RT-(500C,100H under pres of 350bar Oz)" "Synthesis,Composition,and Structure of Superconducting (Y,Ca)(Sr,Ba)2GaO7-z" 1995 1 "Superconductivity Research Group,School of Chemistry,University of Birmingham,Birmingham B15 2TT,United kingdom." "J.Supercomductivity.,8(1995)21-25" 5477 SUP0080067 "G-L parameter=15,e-ph coupling=0.8" Ba6C60 Ba6C60 Ba 6 C 60 1995 fullerene K 7 7 Oe deviation from linear magnetization 130 T 2.2 T/K 0.45 A 120 A 1800 On the Normal and Superconducting Properties of Ba6C60 1995 "Department of Condensed Matter Physics, Royal Institute of Technology, S-100 44 Stockholm, Sweden" "J.Superconductivity,8(1995)67" 5478 PHC2430252 semiconductoo "Y(Sr,Ba)2(Cu,Cr)3O7" Y1CaSr1.5Ba0.5Cu2.8Cr0.2O7 Y 1 Ca Sr 1.5 Ba 0.5 Cu 2.8 Cr 0.2 O 7 1995 K 4.2 54.2 TP5478 1 see physica C 207(1993)44 Comparison of carrier concentration determined by structural and electrical studies of substituted YSr2Cu3O7-z 1995 3 "Interdisciplinary Research centre in Superconductivity,Madingley Road,Cambridge,CB3 OHE,UK" "Physica C.,243(1995)252-256" "Y,Sr,Cu,O" 5479 PHC2430252 "(Y,Ca)(Sr,Ba)2(Cu,Cr)3O7" Y0.8Ca0.2Sr1.5Ba0.5Cu2.8Cr0.2O7 Y 0.8 Ca 0.2 Sr 1.5 Ba 0.5 Cu 2.8 Cr 0.2 O 7 1995 K 23 28 28 25.7 TP5479 ohm.cm 5.6 1 see physica C 207(1993)44 Comparison of carrier concentration determined by structural and electrical studies of substituted YSr2Cu3O7-z 1995 3 "Interdisciplinary Research centre in Superconductivity,Madingley Road,Cambridge,CB3 OHE,UK" "Physica C.,243(1995)252-256" "Y,Sr,Cu,O" 5480 PHC2430252 "(Y,Ca)(Sr,Ba)2(Cu,Cr)3O7" Y0.7Ca0.3Sr1.5Ba0.5Cu2.8Cr0.2O7 Y 0.7 Ca 0.3 Sr 1.5 Ba 0.5 Cu 2.8 Cr 0.2 O 7 1995 K 37 41 41 19.8 TP5480 ohm.cm 6.5 1 see physica C 207(1993)44 Comparison of carrier concentration determined by structural and electrical studies of substituted YSr2Cu3O7-z 1995 3 "Interdisciplinary Research centre in Superconductivity,Madingley Road,Cambridge,CB3 OHE,UK" "Physica C.,243(1995)252-256" "Y,Sr,Cu,O" 5481 PHC2430252 "YBa2(Cu,Cr)3O7" Y1Ba2Cu2.8Cr0.2O7 Y 1 Ba 2 Cu 2.8 Cr 0.2 O 7 1995 Y123 K 82 87.5 87.5 8.76 TP5481 ohm.cm 2.5 Comparison of carrier concentration determined by structural and electrical studies of substituted YSr2Cu3O7-z 1995 3 "Interdisciplinary Research centre in Superconductivity,Madingley Road,Cambridge,CB3 OHE,UK" "Physica C.,243(1995)252-256" "Y,Sr,Cu,O" 5482 PHC2430252 two step transition in thermopower. "YBa2(Cu,Co)3O7" Y1Ba2Cu2.79Co0.21O7 Y 1 Ba 2 Cu 2.79 Co 0.21 O 7 1995 Y123 K 22 22 47.7 TP5482 Comparison of carrier concentration determined by structural and electrical studies of substituted YSr2Cu3O7-z 1995 3 "Interdisciplinary Research centre in Superconductivity,Madingley Road,Cambridge,CB3 OHE,UK" "Physica C.,243(1995)252-256" "Y,Sr,Cu,O" 5483 PHC2430252 "(Y,Ca)(Sr,Ba)2(Cu,Ga)3O7" Y0.8Ca0.2Sr1Ba1Cu2.7Ga0.3O7 Y 0.8 Ca 0.2 Sr 1 Ba 1 Cu 2.7 Ga 0.3 O 7 1995 Y123 K 60 64 64 11.4 TP5483 ohm.cm 2.16 Comparison of carrier concentration determined by structural and electrical studies of substituted YSr2Cu3O7-z 1995 3 "Interdisciplinary Research centre in Superconductivity,Madingley Road,Cambridge,CB3 OHE,UK" "Physica C.,243(1995)252-256" "Y,Sr,Cu,O" 5484 PHC2430252 "(Y,Ca)(Sr,Ba)2(Cu,Ga)3O7" Y0.8Ca0.2Sr1.6Ba0.4Cu2.7Ga0.3O7 Y 0.8 Ca 0.2 Sr 1.6 Ba 0.4 Cu 2.7 Ga 0.3 O 7 1995 Y123 K 47.9 53.9 53.9 12.6 TP5484 ohm.cm 7.53 Comparison of carrier concentration determined by structural and electrical studies of substituted YSr2Cu3O7-z 1995 3 "Interdisciplinary Research centre in Superconductivity,Madingley Road,Cambridge,CB3 OHE,UK" "Physica C.,243(1995)252-256" "Y,Sr,Cu,O" 5485 PHC2430233 as-synthesized. "(Hg,W)Ba2CuO4" Hg0.9W0.1Ba2Cu1O4.2 Hg 0.9 W 0.1 Ba 2 Cu 1 O 4.2 1995 2 Hg1201 A 3.875 9.45 K 89 89 40 "M-oxide,BaO,CaO,CuO,HgO" mixture - heat to 800 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5486 PHC2430233 as-synthesized. not SC. nominal (Hg0.8Cr0.2)-1201 "(Hg,Cr)Ba2CuO4" Hg0.6Cr0.4Ba2Cu1O4.1 Hg 0.6 Cr 0.4 Ba 2 Cu 1 O 4.1 1995 2 Hg1201 A 3.926 9.306 K 30 "M-oxide,BaO,CaO,CuO,HgO" mixture - heat to 800 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5487 PHC2430233 after annealing in O2 flow. nominal (Hg0.8Cr0.2)-1201 "(Hg,Cr)Ba2CuO4" Hg0.6Cr0.4Ba2Cu1O4.1 Hg 0.6 Cr 0.4 Ba 2 Cu 1 O 4.1 1995 2 Hg1201 A 3.926 9.306 K 70 70 55 "M-oxide,BaO,CaO,CuO,HgO" mixture - heat to 800 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5488 PHC2430233 (Hg0.75Mo0.25)by EDS "(Hg,Mo)Ba2CuO4" Hg0.8Mo0.2Ba2Cu1O4.4 Hg 0.8 Mo 0.2 Ba 2 Cu 1 O 4.4 1995 2 Hg1201 A 3.882 9.378 K 74 74 60 "M-oxide,BaO,CaO,CuO,HgO" mixture - heat to 800 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5489 PHC2430233 "(Hg,Mo)Ba2CuO4" Hg0.9Mo0.1Ba2Cu1O4.2 Hg 0.9 Mo 0.1 Ba 2 Cu 1 O 4.2 1995 2 Hg1201 A 3.875 9.435 K 75 75 60 "M-oxide,BaO,CaO,CuO,HgO" mixture - heat to 800 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5490 PHC2430233 secondary phese Ba2CuWO6 exists "(Hg,W)Ba2CuO4" Hg0.8W0.2Ba2Cu1O4.4 Hg 0.8 W 0.2 Ba 2 Cu 1 O 4.4 1995 2 Hg1201 A 3.871 9.416 K 45 45 30 "M-oxide,BaO,CaO,CuO,HgO" mixture - heat to 800 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5491 PHC2430233 HgBa2CuO4 Hg0.9Ba2Cu1O4+z Hg 0.9 Ba 2 Cu 1 O 4+z 1995 2 Hg1201 A 3.883 9.536 K 91 91 51 "M-oxide,BaO,CaO,CuO,HgO" mixture - heat to 800 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5492 PHC2430233 "(Hg,V)Ba2CuO4" Hg0.8V0.2Ba2Cu1O4.3 Hg 0.8 V 0.2 Ba 2 Cu 1 O 4.3 1995 2 Hg1201 A 3.8863 9.338 K 96 96 65 "M-oxide,BaO,CaO,CuO,HgO" mixture - heat to 800 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5493 PHC2430233 HgBa2CaCu2O6 Hg1Ba2Ca1Cu2O6+z Hg 1 Ba 2 Ca 1 Cu 2 O 6+z 1995 2 Hg1212 A 3.862 12.704 K 117 117 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5494 PHC2430233 after annealing in O2 flow HgBa2CaCu2O6 Hg1Ba2Ca1Cu2O6+z Hg 1 Ba 2 Ca 1 Cu 2 O 6+z 1995 2 Hg1212 K 127 127 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5495 PHC2430233 "(Hg,V)Ba2CaCu2O6" Hg0.8V0.2Ba2Ca1Cu2O6.3 Hg 0.8 V 0.2 Ba 2 Ca 1 Cu 2 O 6.3 1995 2 Hg1212 A 3.869 12.5 K 119 119 K/GPa 60 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5496 PHC2430233 after annealing in O2 flow "(Hg,V)Ba2CaCu2O6" Hg0.8V0.2Ba2Ca1Cu2O6.3 Hg 0.8 V 0.2 Ba 2 Ca 1 Cu 2 O 6.3 1995 2 Hg1212 K 128 128 K/GPa 75 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5497 PHC2430233 (Hg0.75Mo0.25)by EDS "(Hg,Mo)Ba2CaCu2O6" Hg0.8Mo0.2Ba2Ca1Cu2O6.4 Hg 0.8 Mo 0.2 Ba 2 Ca 1 Cu 2 O 6.4 1995 2 Hg1212 A 3.86 12.576 K 127 127 K/GPa 75 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5498 PHC2430233 (Hg0.75W0.25)by EDS "(Hg,Mo)Ba2CaCu2O6" Hg0.8W0.2Ba2Ca1Cu2O6.4 Hg 0.8 W 0.2 Ba 2 Ca 1 Cu 2 O 6.4 1995 2 Hg1212 A 3.861 12.661 K 118 118 K/GPa 58 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5499 PHC2430233 "(Hg,W)Ba2CaCu2O6" Hg0.9W0.1Ba2Ca1Cu2O6.2 Hg 0.9 W 0.1 Ba 2 Ca 1 Cu 2 O 6.2 1995 2 Hg1212 A 3.864 12.685 K 118 118 K/GPa 40 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5500 PHC2430233 "(Hg0.7,Ti0.3)by EDS" "(Hg,Ti)Ba2Ca1Cu2O6" Hg0.8Ti0.2Ba2Ca1Cu2O6.2 Hg 0.8 Ti 0.2 Ba 2 Ca 1 Cu 2 O 6.2 1995 2 Hg1212 A 3.857 12.581 K 127 127 K/GPa 80 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5501 PHC2430233 "(Hg0.6,Cr0.4)by EDS" "(Hg,Cr)Ba2CaCu2O6" Hg0.8Cr0.2Ba2Ca1Cu2O6.1 Hg 0.8 Cr 0.2 Ba 2 Ca 1 Cu 2 O 6.1 1995 2 Hg1212 A 3.875 12.488 K 110 110 K/GPa 75 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5502 PHC2430233 after annealing in O2 flow "(Hg,Cr)Ba2CaCu2O6" Hg0.8Cr0.2Ba2Ca1Cu2O6.1 Hg 0.8 Cr 0.2 Ba 2 Ca 1 Cu 2 O 6.1 1995 2 Hg1212 K 115 115 K/GPa 98 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5503 PHC2430233 Compositions are nominal values. HgBa2Ca2Cu3O6 Hg1Ba2Ca1Cu2O6+z Hg 1 Ba 2 Ca 1 Cu 2 O 6+z 1995 2 Hg1212 A 3.856 15.856 K 105 105 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5504 PHC2430233 Sample was annealed in O2 flow. Compositions are nominal values. HgBa2Ca2Cu3O6 Hg1Ba2Ca1Cu2O6+z Hg 1 Ba 2 Ca 1 Cu 2 O 6+z 1995 2 Hg1223 K 134 134 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5505 PHC2430233 (Hg0.7V0.3)by EDS "(Hg,V)Ba2Ca2Cu3O8" Hg0.8V0.2Ba2Ca2Cu3O8.3 Hg 0.8 V 0.2 Ba 2 Ca 2 Cu 3 O 8.3 1995 2 Hg1223 A 3.863 15.652 K 120 120 K/GPa 80 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5506 PHC2430233 after annealing in O2 Flow "(Hg,V)Ba2Ca2Cu3O8" Hg0.8V0.2Ba2Ca2Cu3O8.3 Hg 0.8 V 0.2 Ba 2 Ca 2 Cu 3 O 8.3 1995 2 Hg1223 K 127 127 K/GPa 80 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5507 PHC2430233 (Hg0.75Mo0.25)by EDS "(Hg,Mo)Ba2Ca2Cu3O8" Hg0.8Mo0.2Ba2Ca2Cu3O8.4 Hg 0.8 Mo 0.2 Ba 2 Ca 2 Cu 3 O 8.4 1995 2 Hg1223 A 3.854 15.731 K 129 129 K/GPa 62 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5508 PHC2430233 after annealing in O2 flow "(Hg,Mo)Ba2Ca2Cu3O8" Hg0.8Mo0.2Ba2Ca2Cu3O8.4 Hg 0.8 Mo 0.2 Ba 2 Ca 2 Cu 3 O 8.4 1995 2 Hg1223 K 134 134 K/GPa 67 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5509 PHC2430233 (Hg0.7Ti0.3)by EDS "(Hg,Ti)Ba2Ca2Cu3O8" Hg0.6Ti0.4Ba2Ca2Cu3O8.4 Hg 0.6 Ti 0.4 Ba 2 Ca 2 Cu 3 O 8.4 1995 2 Hg1223 A 3.851 15.707 K 128 128 K/GPa 58 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5510 PHC2430233 after annealing in O2 flow "(Hg,Ti)Ba2Ca2Cu3O8" Hg0.6Ti0.4Ba2Ca2Cu3O8.4 Hg 0.6 Ti 0.4 Ba 2 Ca 2 Cu 3 O 8.4 1995 2 Hg1223 K 134 134 K/GPa 60 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5511 PHC2430233 (Hg0.6Cr0.4)by EDS "(Hg,Cr)Ba2Ca2Cu3O8" Hg0.8Cr0.2Ba2Ca2Cu3O8.1 Hg 0.8 Cr 0.2 Ba 2 Ca 2 Cu 3 O 8.1 1995 2 Hg1223 A 3.863 15.625 K 95 95 K/GPa 68 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5512 PHC2430233 after annealing in O2 flow "(Hg,Cr)Ba2Ca2Cu3O8" Hg0.8Cr0.2Ba2Ca2Cu3O8.1 Hg 0.8 Cr 0.2 Ba 2 Ca 2 Cu 3 O 8.1 1995 2 Hg1223 K 110 110 K/GPa 76 The great ability of mercury-based cuprates to accommodate transition elements 1995 3 "Laboratoire CRIMAT-ISMRA-Universite de Caen,6 boulevard du Marec Juin,14050 Caen Cedex,France" "Physica C.,243(1995)233-242" "Hg,Ba,Ca,Cu,O,V,Mo,W,Ti,Cr" 5513 PHC2410383 pressure effect of JC.was measured "(Y,Ca)(Ba,Ca)2Cu4O8" Y0.95Ba1.95Ca0.1Cu4O8 Y 0.95 Ba 1.95 Ca 0.1 Cu 4 O 8 1 1995 Y124 K 80 80 K/GPa 5.5 1 Ca was added to stabilige Y124 phase. Ca replaces both Y and Ba. Comparative study of the pressure effect on critical parameters of GdBa2Cu4O8 and YBa2Cu4O8 1995 1 "Institute of Physics Academy of Sciences Al. Lotnikow 32/46,02-668 Warszawa,Poland" "Physica C.,241(1995)383-388" "Gd,Ba,Cu,O,Y" 5514 PHC2410383 pressure effect of JC was measured "(Gd,Ca)(Ba,Ca)2Cu4O8" Gd0.95Ba1.95Ca0.1Cu4O8 Gd 0.95 Ba 1.95 Ca 0.1 Cu 4 O 8 1 1995 Y124 K 80 80 K/GPa 4.5 1 Ca was added to stabilige Y124 phase. Ca replaces both Y and Ba. Comparative study of the pressure effect on critical parameters of GdBa2Cu4O8 and YBa2Cu4O8 1995 1 "Institute of Physics Academy of Sciences Al. Lotnikow 32/46,02-668 Warszawa,Poland" "Physica C.,241(1995)383-388" "Gd,Ba,Cu,O,Y" 5515 PRL0741202 delta-ramda increases linearly with H Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1995 Bi2212 K A 2600 Magnetic Field Dependnce of the London Penetration Depth of Bi2Sr2CaCu2Oy 1995 2 "Department of Pure and Applied Sciences,The University of Tokyo,3-8-1,Komaba,Meguro-ku,Tokyo153, Japan" "Phys.Rev.Lett.,74(1995)1202" "Bi,Sr,Ca,Cu,O" 5516 PRL0740598 "untwinned sample,ppenet=800 A for b-axis" YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 3 1995 Y124 A K 80 0.5 80 A 2000 "under high-O2 pressure,see Physica C 202(1992)271" In-Plane Anisotropy of the Penetration Depth in YBa2Cu3O7-x and YBa2Cu4O8 Superconductors 1995 1 "Department of Physics and Astronomy,McMaster University,Hamilton,Ontario,Canada L8S 4M1" "Phys.Rev.Lett.,74(1995)0598" "Y,Ba,Cu,O" 5517 PRL0740598 "detwinned under uniaxial stress,anisotropy factor in a-,b- direction = 2.3 , from surface resistance penet= 1000A for b-axis," YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 3 1995 Y123 K 93.5 0.2 93.5 A far infrared reflectance 1600 5 see Physica C 195(1992)51 In-Plane Anisotropy of the Penetration Depth in YBa2Cu3O7-x and YBa2Cu4O8 Superconductors 1995 1 "Department of Physics and Astronomy,McMaster University,Hamilton,Ontario,Canada L8S 4M1" "Phys.Rev.Lett.,74(1995)0598" "Y,Ba,Cu,O" 5518 PRL0740598 "anisotropy factor in a-,b-,direction = 2.1 from dc resistivity, penet=1200A for b-axis from surface resistance" YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 3 1995 Y123 K 92 92 A 1200 1600 see Phys.Rev.42(1990)6217 In-Plane Anisotropy of the Penetration Depth in YBa2Cu3O7-x and YBa2Cu4O8 Superconductors 1995 1 "Department of Physics and Astronomy,McMaster University,Hamilton,Ontario,Canada L8S 4M1" "Phys.Rev.Lett.,74(1995)0598" "Y,Ba,Cu,O" 5519 PHC2410001 "as-Synthesized,XRD shows not-pure Hg1201" HgBa2CuO4 Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1995 Hg1201 K 90 90 60 Stabilization of mercury cuprates by bismuth The supercounductor Hg1-xBixBa2Cam-1CumO2m+2+z 1995 1 "Laboratoire CRISMAT,ISMRA,Bd du Marechal Juin 14050,Caen cedex,France" "Physica C.,241(1995)1-9" "Hg,Bi,Ba,Ca,Cu,O" 5520 PHC2410001 "as-synthesized.,XRD shows pure Hg1201" HgBa2CuO4 Hg0.9Ba2Cu1O4 Hg 0.9 Ba 2 Cu 1 O 4 1995 Hg1201 K 73 73 60 Stabilization of mercury cuprates by bismuth The supercounductor Hg1-xBixBa2Cam-1CumO2m+2+z 1995 1 "Laboratoire CRISMAT,ISMRA,Bd du Marechal Juin 14050,Caen cedex,France" "Physica C.,241(1995)1-9" "Hg,Bi,Ba,Ca,Cu,O" 5521 PHC2410001 as-synthesized "(Hg,Bi)Ba2CuO4" Hg0.8Bi0.2Ba2Cu1O4.2 Hg 0.8 Bi 0.2 Ba 2 Cu 1 O 4.2 1995 2 Hg1201 A 3.876 9.475 K 85 85 Stabilization of mercury cuprates by bismuth The supercounductor Hg1-xBixBa2Cam-1CumO2m+2+z 1995 1 "Laboratoire CRISMAT,ISMRA,Bd du Marechal Juin 14050,Caen cedex,France" "Physica C.,241(1995)1-9" "Hg,Bi,Ba,Ca,Cu,O" 5522 PHC2410001 as-synthesized "(Hg,Bi)Ba2Ca2Cu3O8" Hg0.8Bi0.2Ba2Ca2Cu3O8.2 Hg 0.8 Bi 0.2 Ba 2 Ca 2 Cu 3 O 8.2 1995 2 Hg1223 A 3.85 15.813 K 130 130 75 Stabilization of mercury cuprates by bismuth The supercounductor Hg1-xBixBa2Cam-1CumO2m+2+z 1995 1 "Laboratoire CRISMAT,ISMRA,Bd du Marechal Juin 14050,Caen cedex,France" "Physica C.,241(1995)1-9" "Hg,Bi,Ba,Ca,Cu,O" 5523 PHC2410301 nominal Y:Ba:Cu=1.02:2:3 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1995 3 Y123 A 3.818 3.886 11.679 K 92.03 92.03 mJ/K2fu 0.71 SP-heat 509 1 "mixture-CAL(920C,24H)-pellet-heat(935C,120H)-Ann(300C,240H)in flowing Oz" Specific heat of YBa2Cu3O7-z ceramics with single and double superconducting transitions in magnetic fields up to 14 T 1995 1 "Departement de Physique de la Matiere Condensee,Universite de Geneve,CH-1211 Geneve 4,Swizerland" "Physica C.,241(1995)301-310" "Y,Ba,Cu,O" 5524 PHC2410301 nominal Y:Ba:Cu=1:2:3 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1995 3 Y123 A 3.818 3.885 11.677 K 92.83 92.83 mJ/mole.K mJ/K2fu 460 "mixture-CAL(920C,24H)-pellet-heat(950C,120H)-ANN(300C,240H in flowing O2)-ANN(460C,24H)-Q to liquid Ga" Specific heat of YBa2Cu3O7-z ceramics with single and double superconducting transitions in magnetic fields up to 14 T 1995 1 "Departement de Physique de la Matiere Condensee,Universite de Geneve,CH-1211 Geneve 4,Swizerland" "Physica C.,241(1995)301-310" "Y,Ba,Cu,O" 5525 PHC2410211 "Ts=970C,P=3.0GPa" "(Hg,Mo)Sr2Ca2Cu3O8" Hg0.95Mo0.05Sr2Ca2Cu3Oz Hg 0.95 Mo 0.05 Sr 2 Ca 2 Cu 3 O z 1995 2 Hg1223 A 3.829 15.294 K 106 106 "(precursor+HgO+MoO3)-pellet-encapsuled in Au forl-react(Ts,P)" "High-pressure synthesis of single-phase superconductors HgzSrxBa2-xCa2Cu3O8+zand(Hg,M)Sr2Ca2CU3Oy with M=Pb and Mo" 1995 1 "Department of Physics,Zhougshan University,Guandzhou 510 275,People's Republic of China" "Physica C.,241(1995)211-218" "Hg,Sr,Ba,Ca,Cu,O,Pb,Mo" 5526 PHC2410211 "Ts=970C, P=3.0GPa" "(Hg,Mo)Sr2Ca2Cu3O8" Hg0.75Mo0.05Sr2Ca2Cu3O Hg 0.75 Mo 0.05 Sr 2 Ca 2 Cu 3 O 1995 2 Hg1223 A 3.83 15.323 K 106 106 "(precursor+HgO+MoO3)-pellet-encapsuled in Au forl-react(Ts,P)" "High-pressure synthesis of single-phase superconductors HgzSrxBa2-xCa2Cu3O8+zand(Hg,M)Sr2Ca2CU3Oy with M=Pb and Mo" 1995 1 "Department of Physics,Zhougshan University,Guandzhou 510 275,People's Republic of China" "Physica C.,241(1995)211-218" "Hg,Sr,Ba,Ca,Cu,O,Pb,Mo" 5527 PHC2410211 pressure=2.0GPa Ts=880C "Hg(Ba,Sr)2Ca2Cu3O8" Hg0.75SrBa2Ca2Cu3O8+z Hg 0.75 Sr Ba 2 Ca 2 Cu 3 O 8+z 1995 2 Hg1223 A 3.855 15.83 K 133 133.5 133.5 "mix(precursor Ba2Ca2Cu3O7,Sr2Ca2Cu3O7+HgO)-pellet-Aufoil-high pressure using BaCO3 medium T>1000C" "High-pressure synthesis of single-phase superconductors HgzSrxBa2-xCa2Cu3O8+zand(Hg,M)Sr2Ca2CU3Oy with M=Pb and Mo" 1995 1 "Department of Physics,Zhougshan University,Guandzhou 510 275,People's Republic of China" "Physica C.,241(1995)211-218" "Hg,Sr,Ba,Ca,Cu,O,Pb,Mo" 5528 PHC2410211 2.5GPa Ts=980C "Hg(Ba,Sr)2Ca2Cu3O8" Hg0.75Sr0.5Ba1.5Ca2Cu3O8+z Hg 0.75 Sr 0.5 Ba 1.5 Ca 2 Cu 3 O 8+z 1995 2 Hg1223 A 3.846 15.68 K 127.5 126.2 126.2 "mix(precursor Ba2Ca2Cu3O7,Sr2Ca2Cu3O7+HgO)-pellet-Aufoil-high pressure using BaCO3 medium T>1000C" "High-pressure synthesis of single-phase superconductors HgzSrxBa2-xCa2Cu3O8+zand(Hg,M)Sr2Ca2CU3Oy with M=Pb and Mo" 1995 1 "Department of Physics,Zhougshan University,Guandzhou 510 275,People's Republic of China" "Physica C.,241(1995)211-218" "Hg,Sr,Ba,Ca,Cu,O,Pb,Mo" 5529 PHC2410211 2.5GPa 1000C "Hg(Ba,Sr)2Ca2Cu3O8" Hg0.75Sr1Ba1Ca2Cu3O8+z Hg 0.75 Sr 1 Ba 1 Ca 2 Cu 3 O 8+z 1995 2 Hg1223 A 3.837 15.552 K 123 122 122 "mix(precursor Ba2Ca2Cu3O7,Sr2Ca2Cu3O7+HgO)-pellet-Aufoil-high pressure using BaCO3 medium T>1000C" "High-pressure synthesis of single-phase superconductors HgzSrxBa2-xCa2Cu3O8+zand(Hg,M)Sr2Ca2CU3Oy with M=Pb and Mo" 1995 1 "Department of Physics,Zhougshan University,Guandzhou 510 275,People's Republic of China" "Physica C.,241(1995)211-218" "Hg,Sr,Ba,Ca,Cu,O,Pb,Mo" 5530 PHC2410211 2.5GPa 980C "Hg(Ba,Sr)2Ca2Cu3O8" Hg0.5Pb0.5Sr2Ca2Cu3Oz Hg 0.5 Pb 0.5 Sr 2 Ca 2 Cu 3 O z 1995 2 Hg1223 A 3.838 15.54 K 123.5 121 121 "mix(precursor Ba2Ca2Cu3O7,Sr2Ca2Cu3O7+HgO)-pellet-Aufoil-high pressure using BaCO3 medium T>1000C" "High-pressure synthesis of single-phase superconductors HgzSrxBa2-xCa2Cu3O8+zand(Hg,M)Sr2Ca2CU3Oy with M=Pb and Mo" 1995 1 "Department of Physics,Zhougshan University,Guandzhou 510 275,People's Republic of China" "Physica C.,241(1995)211-218" "Hg,Sr,Ba,Ca,Cu,O,Pb,Mo" 5531 PHC2410211 3.0GPa 970C "Hg(Ba,Sr)2Ca2Cu3O8" Hg0.5Pb0.5Sr2Ca2Cu3Oz Hg 0.5 Pb 0.5 Sr 2 Ca 2 Cu 3 O z 1995 2 Hg1223 A 3.815 15.327 K 107.5 107 107 "mix(precursor Ba2Ca2Cu3O7,Sr2Ca2Cu3O7+HgO)-pellet-Aufoil-high pressure using BaCO3 medium T>1000C" "High-pressure synthesis of single-phase superconductors HgzSrxBa2-xCa2Cu3O8+zand(Hg,M)Sr2Ca2CU3Oy with M=Pb and Mo" 1995 1 "Department of Physics,Zhougshan University,Guandzhou 510 275,People's Republic of China" "Physica C.,241(1995)211-218" "Hg,Sr,Ba,Ca,Cu,O,Pb,Mo" 5532 PHC2410181 optimum fluorination condition is at 180C Sr2CuO2F2 Sr2Cu1F2O2 Sr 2 Cu 1 F 2 O 2 1995 Fmmm K 47 47 Sr2CuO3(from mixed SrO+CuO)-react in flowing F2/Ne gas at 180 C for 20 min "Supercondusting properties of strontium copper oxyfluoride,Sr2CuO2F2+z" 1995 1 "Sandia National Laboratory,Albuquerque,NM87185-0345,USA" Physica C 241(1995)181-186 "Sr,Cu,O,F" 5533 PHC2410151 "(Sr,Ba)2CuO2F2" Sr2BaCu1F2O2 Sr 2 Ba Cu 1 F 2 O 2 1995 3 A 5.405 5.513 13.46 K 46 46 "SrCO3,BaCO3,CaCO3,CuO" 1 "NH4F was added to Sr<2-x>(Ca,Ba)CuO<3>-mixture-pellet-heat(225C,6H under O2 or N2 or air)-cool to RT in N2" "Superconductivity up to 64 K in the copper oxyfluorides Sr2-xAxCuO2F2+z(A=Ca,Ba) prepared using NH4F as a fluorinating reagent" 1995 1 "Shool of Chemsity of Birmingham,Edgbaston,Birmingham B15 2TT,UK" "Physica C.,241(1995)151-157" "Sr,Ca,Ba,Cu,O,F" 5534 PHC2410151 "(Sr,Ba)2CuO2F2" Sr1.9Ba0.1Cu1F2O2 Sr 1.9 Ba 0.1 Cu 1 F 2 O 2 1995 3 A 5.409 5.504 13.49 K 54 54 "SrCO3,BaCO3,CaCO3,CuO" 1 "NH4F was added to Sr<2-x>(Ca,Ba)CuO<3>-mixture-pellet-heat(225C,6H under O2 or N2 or air)-cool to RT in N2" "Superconductivity up to 64 K in the copper oxyfluorides Sr2-xAxCuO2F2+z(A=Ca,Ba) prepared using NH4F as a fluorinating reagent" 1995 1 "Shool of Chemsity of Birmingham,Edgbaston,Birmingham B15 2TT,UK" "Physica C.,241(1995)151-157" "Sr,Ca,Ba,Cu,O,F" 5535 PHC2410151 "(Sr,Ba)2CuO2F2" Sr1.75Ba0.25Cu1F2O2 Sr 1.75 Ba 0.25 Cu 1 F 2 O 2 1995 3 A 5.431 5.498 13.56 K 58 58 "SrCO3,BaCO3,CaCO3,CuO" 1 "NH4F was added to Sr<2-x>(Ca,Ba)CuO<3>-mixture-pellet-heat(225C,6H under O2 or N2 or air)-cool to RT in N2" "Superconductivity up to 64 K in the copper oxyfluorides Sr2-xAxCuO2F2+z(A=Ca,Ba) prepared using NH4F as a fluorinating reagent" 1995 1 "Shool of Chemsity of Birmingham,Edgbaston,Birmingham B15 2TT,UK" "Physica C.,241(1995)151-157" "Sr,Ca,Ba,Cu,O,F" 5536 PHC2410151 "(Sr,Ba)2CuO2F2" Sr1.6Ba0.4Cu1F2O2 Sr 1.6 Ba 0.4 Cu 1 F 2 O 2 1995 2 A 5.475 13.64 K 60 60 "SrCO3,BaCO3,CaCO3,CuO" 1 "NH4F was added to Sr<2-x>(Ca,Ba)CuO<3>-mixture-pellet-heat(225C,6H under O2 or N2 or air)-cool to RT in N2" "Superconductivity up to 64 K in the copper oxyfluorides Sr2-xAxCuO2F2+z(A=Ca,Ba) prepared using NH4F as a fluorinating reagent" 1995 1 "Shool of Chemsity of Birmingham,Edgbaston,Birmingham B15 2TT,UK" "Physica C.,241(1995)151-157" "Sr,Ca,Ba,Cu,O,F" 5537 PHC2410151 "(Sr,Ba)2CuO2F2" Sr1.5Ba0.5Cu1F2O2 Sr 1.5 Ba 0.5 Cu 1 F 2 O 2 1995 2 A 5.475 13.64 K 62 62 "SrCO3,BaCO3,CaCO3,CuO" 1 "NH4F was added to Sr<2-x>(Ca,Ba)CuO<3>-mixture-pellet-heat(225C,6H under O2 or N2 or air)-cool to RT in N2" "Superconductivity up to 64 K in the copper oxyfluorides Sr2-xAxCuO2F2+z(A=Ca,Ba) prepared using NH4F as a fluorinating reagent" 1995 1 "Shool of Chemsity of Birmingham,Edgbaston,Birmingham B15 2TT,UK" "Physica C.,241(1995)151-157" "Sr,Ca,Ba,Cu,O,F" 5538 PHC2410151 "(Sr,Ba)2CuO2F2" Sr1.4Ba0.6Cu1F2O2 Sr 1.4 Ba 0.6 Cu 1 F 2 O 2 1995 2 A 5.48 13.69 K 64 64 "SrCO3,BaCO3,CaCO3,CuO" 1 "NH4F was added to Sr<2-x>(Ca,Ba)CuO<3>-mixture-pellet-heat(225C,6H under O2 or N2 or air)-cool to RT in N2" "Superconductivity up to 64 K in the copper oxyfluorides Sr2-xAxCuO2F2+z(A=Ca,Ba) prepared using NH4F as a fluorinating reagent" 1995 1 "Shool of Chemsity of Birmingham,Edgbaston,Birmingham B15 2TT,UK" "Physica C.,241(1995)151-157" "Sr,Ca,Ba,Cu,O,F" 5539 PHC2410137 impurity=CuO BSr2Ca3Cu4O11 B1Sr2Ca3Cu4O11 B 1 Sr 2 Ca 3 Cu 4 O 11 1 1995 2 B1234 P4/mmm A 3.836 17.082 K 105 110 118 110 110 "SrCuO2,CaCuO3,SrO2CuO,B2O3" 1 "mixture-sealed in Au capsule-heat(1200C,1H under 6GPa)" "New oxyborate superconductor,BSr2Ca3Cu4O11(Tc=110K) prepared at high pressure" 1995 1 "National Instiute for Research in Inorganic Materials(NIRIM),1-1 Namiki,Tsukuba,Ibaraki,305 Japan" "Physica C.,241(1995)137-141" "B,Sr,Ca,Cu,O" 5540 PRL0730166 epitaxial film SrCuO2 Sr0.85Cu1O2 Sr 0.85 Cu 1 O 2 4 1994 IL K 10 m.ohm.cm 3.47 m3/C 8 RH5540 "thin films were grown by pulsed laser ablation,see Phys.Rev.B.47(1993)8986" Anomalpus T3 Inverse Hall Mobilities Observed in Sr1-xCuO2 and Sr0.9Nd0.1CuO2 Infinite-Layer Thin Films 1994 7 "Solid State Division,Oak Ridge National Laboratory,Oak Ridge,Tennessee 37831-6061" "Phys.Rev.Lett.,73(1994)0166" "Sr,Cu,O,Nd" 5541 PRL0730166 epitaxial film "(Sr,Nd)CuO2" Sr0.9Nd0.1Cu1O2 Sr 0.9 Nd 0.1 Cu 1 O 2 4 1994 IL K m.ohm.cm 0.79 m3/C 8 RH5541 "thin films were grown by pulsed laser ablation,see Phys.Rev.B.47(1993)8986" Anomalpus T3 Inverse Hall Mobilities Observed in Sr1-xCuO2 and Sr0.9Nd0.1CuO2 Infinite-Layer Thin Films 1994 7 "Solid State Division,Oak Ridge National Laboratory,Oak Ridge,Tennessee 37831-6061" "Phys.Rev.Lett.,73(1994)0166" "Sr,Cu,O,Nd" 5542 PRL0730166 epitaxial film YBa2Cu3Oz Y1Ba2Cu3O6.4 Y 1 Ba 2 Cu 3 O 6.4 4 1994 Y123 K m.ohm.cm 1.91 m3/C 8 RH5542 "thin films were grown by pulsed laser ablation,see Phys.Rev.B.47(1993)8986" Anomalpus T3 Inverse Hall Mobilities Observed in Sr1-xCuO2 and Sr0.9Nd0.1CuO2 Infinite-Layer Thin Films 1994 7 "Solid State Division,Oak Ridge National Laboratory,Oak Ridge,Tennessee 37831-6061" "Phys.Rev.Lett.,73(1994)0166" "Sr,Cu,O,Nd" 5543 NAT3470369 point contact tunneling counter electrode=Au "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-z Nd 1.85 Ce 0.15 Cu 1 O 4-z 1 1990 T' K 23 23 meV 3.7 3.9 1 "Nd2O3,CeO2,CuO" 1 ANN in a reduced at mosphere Tunnelling evidence for predominantly electron-phonon coupling in superconducting Ba1-xKxBiO3and Nd2-xCexCuO4-y 1990 9 "Materials Science Division,and Science and Technology Center for Superconductivity,Argonne National Laboratory,Argonne,lllinois 60439,USA" "NATURE.,347(1990)369" "Ba,K,Bi,O,Nd,Ce,Cu" 5544 NAT3470369 point contact tunneling counter electrode=Au "(Ba,K)BiO3" Ba0.625K0.375Bi1O3 Ba 0.625 K 0.375 Bi 1 O 3 1 1990 BKBO K 30 30 meV 3.8 3.8 "Bi2O3,BaO,KO2" Melt-process technique Tunnelling evidence for predominantly electron-phonon coupling in superconducting Ba1-xKxBiO3and Nd2-xCexCuO4-y 1990 9 "Materials Science Division,and Science and Technology Center for Superconductivity,Argonne National Laboratory,Argonne,lllinois 60439,USA" "NATURE.,347(1990)369" "Ba,K,Bi,O,Nd,Ce,Cu" 5545 APL0591905 "gap=3.8-4.0,SIS tunneling,barrie is native surface oxide" "(Ba,K)BiO3" Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 4 1991 1 BKBO K 26.5 28 27.25 meV 4.5 3.8 1 "grown by pulsed laser,substrate=LaAlO3" In situ pulsed laser deposition of superconducting Ba1-xKxBiO3 thin films 1991 10 "Science and Technology Center for Superconductivity and Department of Physics,University Illinois at Urbana-Champaign, Urbana, Illinois 61801" Appl.phys.Lett.59(1991)1905 5546 APL0610480 "target=Ba0.6K0.4BiO3,thickness=1500A" "(Ba,K)BiO3" Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 4 1992 BKBO K 28 0.3 28 T WHH theory 15.2 T/K 0.78 A 46 3.1 m.ohm.cm 0.25 0.52 "ArF excimer laser,substrate=MgO(100)" Electrical and magnetic transport properties of laser-deposited Ba1-xKxBiO3 thin films 1992 7 "Science and Technology Center for Superconductivity and Department of Physics, University of Illinois at Urbana-Champaign, Urbana, Illinois 61801" Appl.Phys.Lett.61(1992)480 5547 PR05108624 rhombohed BaRuO3 structure "Ba(Ru,Rh)O3" Ba1Ru0.67Rh0.33O3 Ba 1 Ru 0.67 Rh 0.33 O 3 1 1995 emu.K/mole micro.B/Mo 5.8 -920 R-3m A 5.747 21.726 K 4.2 "RuO2,Rh2O3,BaCO3,SrCO3" "1200C,several days in air inAlumina,for Ba-Ru-Rh-O,1200C,in flowing O2 for Sr-Ru-Rh-O" Magnetic properties of BaRu1-xRhxO3 and Sr2Ru1-xRhxO4 1995 4 "Inorganic Chemistry Laboratory,Oxford University,South Parks Road,Oxford OX1 3QR,United Kingdom" "Phys.Rev.B,51(1995)8624" "Ba,Ru,Rh,O,Sr" 5548 PR05108624 rhombohedral BaRuO3 structure "Ba(Ru,Rh)O3" Ba1Ru0.5Rh0.5O3 Ba 1 Ru 0.5 Rh 0.5 O 3 1 1995 emu.K/mole micro.B/Mo 2.9 -375 R-3m A 5.753 21.762 K 4.2 "RuO2,Rh2O3,BaCO3,SrCO3" "1200C,several days in air inAlumina,for Ba-Ru-Rh-O,1200C,in flowing O2 for Sr-Ru-Rh-O" Magnetic properties of BaRu1-xRhxO3 and Sr2Ru1-xRhxO4 1995 4 "Inorganic Chemistry Laboratory,Oxford University,South Parks Road,Oxford OX1 3QR,United Kingdom" "Phys.Rev.B,51(1995)8624" "Ba,Ru,Rh,O,Sr" 5549 PR05108624 "Sr2(Ru,Rh)O4" Sr2Ru0.5Rh0.5O4 Sr 2 Ru 0.5 Rh 0.5 O 4 1 1995 emu.K/mole micro.B/Mo 2.3 -259 2 I4/mmm A 3.877 12.782 K 4.2 "RuO2,Rh2O3,BaCO3,SrCO3" "1200C,several days in air inAlumina,for Ba-Ru-Rh-O,1200C,in flowing O2 for Sr-Ru-Rh-O" Magnetic properties of BaRu1-xRhxO3 and Sr2Ru1-xRhxO4 1995 4 "Inorganic Chemistry Laboratory,Oxford University,South Parks Road,Oxford OX1 3QR,United Kingdom" "Phys.Rev.B,51(1995)8624" "Ba,Ru,Rh,O,Sr" 5550 PR05108624 "Sr2(Ru,Rh)O4" Sr2Ru0.33Rh0.67O4 Sr 2 Ru 0.33 Rh 0.67 O 4 1 1995 emu.K/mole micro.B/Mo 2.51 -323 2 I4/mmm A 3.871 12.812 A/K K 4.2 m.ohm.cm m3/C "RuO2,Rh2O3,BaCO3,SrCO3" "1200C,several days in air inAlumina,for Ba-Ru-Rh-O,1200C,in flowing O2 for Sr-Ru-Rh-O" Magnetic properties of BaRu1-xRhxO3 and Sr2Ru1-xRhxO4 1995 4 "Inorganic Chemistry Laboratory,Oxford University,South Parks Road,Oxford OX1 3QR,United Kingdom" "Phys.Rev.B,51(1995)8624" "Ba,Ru,Rh,O,Sr" 5551 CRY0350271 Bi2212+Bi2223 "(Bi,Pb)2Sr2Ca2Cu3O16" Bi1.82Pb0.18Sr2Ca2Cu3O16+z Bi 1.82 Pb 0.18 Sr 2 Ca 2 Cu 3 O 16+z 2 1995 2 Bi2223 K 102.98 102.98 micro.V/K 3.482 m.ohm.cm 4.11 "Bi2O3,PbO,CuO,CaCO3,Sr2CO3" 1 "mixture-CAL(820C,48H in air)-SIN(840C,110H in air)-FC to Rt" Influence of lead content on temperature dependence of thermoelectric power of 2223(Bi-Pb) sintered cuprates 1995 "High Temperature Superconductivity Laboratory,Cryogenic Engineering Centre, and Department of Physics,Indian Institute of Tachnology,Khaeagpur 721 302, India" Cryogenics 35 (1995)271-275 "Bi,Pb,Sr,Ca,Cu,O" 5552 CRY0350271 Bi2212+Bi2223 "(Bi,Pb)2Sr2Ca2Cu3O16" Bi1.72Pb0.28Sr2Ca2Cu3O16+z Bi 1.72 Pb 0.28 Sr 2 Ca 2 Cu 3 O 16+z 2 1995 2 Bi2223 K 102.98 102.98 mJ/mole.K mJ/K2fu W/K.M micro.V/K 2.451 ohm.cm 3.64 "Bi2O3,PbO,CuO,CaCO3,Sr2CO3" 1 "mixture-CAL(820C,48H in air)-SIN(840C,110H in air)-FC to Rt" Influence of lead content on temperature dependence of thermoelectric power of 2223(Bi-Pb) sintered cuprates 1995 "High Temperature Superconductivity Laboratory,Cryogenic Engineering Centre, and Department of Physics,Indian Institute of Tachnology,Khaeagpur 721 302, India" Cryogenics 35 (1995)271-275 "Bi,Pb,Sr,Ca,Cu,O" 5553 CRY0350271 Bi2212+Bi2223 "(Bi,Pb)2Sr2Ca2Cu3O16" Bi1.62Pb0.38Sr2Ca2Cu3O16+z Bi 1.62 Pb 0.38 Sr 2 Ca 2 Cu 3 O 16+z 2 1995 2 Bi2223 K 104.44 104.44 mJ/mole.K mJ/K2fu W/K.M micro.V/K 1.399 ohm.cm 2.851 "Bi2O3,PbO,CuO,CaCO3,Sr2CO3" 1 "mixture-CAL(820C,48H in air)-SIN(840C,110H in air)-FC to Rt" Influence of lead content on temperature dependence of thermoelectric power of 2223(Bi-Pb) sintered cuprates 1995 "High Temperature Superconductivity Laboratory,Cryogenic Engineering Centre, and Department of Physics,Indian Institute of Tachnology,Khaeagpur 721 302, India" Cryogenics 35 (1995)271-275 "Bi,Pb,Sr,Ca,Cu,O" 5554 CRY0350271 Bi2212+Bi2223 Bi2223 is dominant "(Bi,Pb)2Sr2Ca2Cu3O16" Bi1.52Pb0.48Sr2Ca2Cu3O16+z Bi 1.52 Pb 0.48 Sr 2 Ca 2 Cu 3 O 16+z 2 1995 2 Bi2223 A 5.411 37.03 K 107.17 107.17 mJ/mole.K mJ/K2fu W/K.M micro.V/K 2.358 ohm.cm 2.358 "Bi2O3,PbO,CuO,CaCO3,Sr2CO3" 1 "mixture-CAL(820C,48H in air)-SIN(840C,110H in air)-FC to Rt" Influence of lead content on temperature dependence of thermoelectric power of 2223(Bi-Pb) sintered cuprates 1995 "High Temperature Superconductivity Laboratory,Cryogenic Engineering Centre, and Department of Physics,Indian Institute of Tachnology,Khaeagpur 721 302, India" Cryogenics 35 (1995)271-275 "Bi,Pb,Sr,Ca,Cu,O" 5555 NAT3750126 "Z=32formula units per unit cell,calcuted density=2.92g/cm3" Yb3C60 C60Yb2.75 C 60 Yb 2.75 1995 Pcab A 27.874 27.98 27.873 K 6 6 6 K/GPa 5.6 "(Y6+C60)-seeled in quartz tube (E-7 Torr)-heat (630C,6H)-cool to RT(5C/min)" Superconductivity and cation-vacancy ordering in the rare-earth fulleride Yb2.75C60 1995 5 "AT&T Bell Laboratories, Murray Hill, new Jersey 07974, USA" Nature 375(1995)126 5556 PLA1960263 Oxygen content=6.91-6.95 in dependent of x "(Y,Pr)BaSrCu3O7" Y1PrBa1Sr1Cu3O6.95 Y 1 Pr Ba 1 Sr 1 Cu 3 O 7-z 6.95 1 1994 Y123 K "Y2O3,Pr6O11,BaCO3,SrCo3,CuO" 1 "mixture-fire(1203-1223K,24H in air)-press to bar -SIN(1243-1253K,24H in flowing O2-ANN(773K,24H)cool to RT (1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 5557 PLA1960263 Oxygen content=6.91-6.95 independent of x "(Y,Pr)BaSrCu3O7" Y0.8Pr0.2Ba1Sr1Cu3O6.95 Y 0.8 Pr 0.2 Ba 1 Sr 1 Cu 3 O 7-z 6.95 1 1994 Y123 K "Y2O3,Pr6O11,BaCO3,SrCo3,CuO" 1 "mixture-fire(1203-1223K,24H in air)-press to bar -SIN(1243-1253K,24H in flowing O2-ANN(773K,24H)cool to RT (1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 5558 PLA1960263 Oxygen content=6.91-6.95 independent of x "(Y,Pr)BaSrCu3O7" Y0.6Pr0.4Ba1Sr1Cu3O6.95 Y 0.6 Pr 0.4 Ba 1 Sr 1 Cu 3 O 7-z 6.95 1 1994 Y123 K "Y2O3,Pr6O11,BaCO3,SrCo3,CuO" 1 "mixture-fire(1203-1223K,24H in air)-press to bar -SIN(1243-1253K,24H in flowing O2-ANN(773K,24H)cool to RT (1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 5559 PLA1960263 Oxygen content=6.91-6.95 independent of x "(Y,Pr)BaSrCu3O7" Y0.5Pr0.5Ba1Sr1Cu3O6.95 Y 0.5 Pr 0.5 Ba 1 Sr 1 Cu 3 O 7-z 6.95 1 1994 Y123 K "Y2O3,Pr6O11,BaCO3,SrCo3,CuO" 1 "mixture-fire(1203-1223K,24H in air)-press to bar -SIN(1243-1253K,24H in flowing O2-ANN(773K,24H)cool to RT (1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 5560 PLA1960263 Oxygen content=6.91-6.95 independent of x "(Y,Pr)BaSrCu3O7" Y0.4Pr0.6Ba1Sr1Cu3O6.95 Y 0.4 Pr 0.6 Ba 1 Sr 1 Cu 3 O 7-z 6.95 1 1994 Y123 K "Y2O3,Pr6O11,BaCO3,SrCo3,CuO" 1 "mixture-fire(1203-1223K,24H in air)-press to bar -SIN(1243-1253K,24H in flowing O2-ANN(773K,24H)cool to RT (1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 5561 PLA1960263 "(Y,Pr)BaSrCu3O7" Y0.35Pr0.65Ba1Sr1Cu3O6.95 Y 0.35 Pr 0.65 Ba 1 Sr 1 Cu 3 O 7-z 6.95 1994 Y123 K "Y2O3,Pr6O11,BaCO3,SrCo3,CuO" 1 "mixture-fire(1203-1223K,24H in air)-press to bar -SIN(1243-1253K,24H in flowing O2-ANN(773K,24H)cool to RT (1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 5562 PLA1960263 "(Y,Pr)BaSrCu3O7" Y0.3Pr0.7Ba1Sr1Cu3O6.95 Y 0.3 Pr 0.7 Ba 1 Sr 1 Cu 3 O 7-z 6.95 1994 Y123 K 14 14 "Y2O3,Pr6O11,BaCO3,SrCo3,CuO" 1 "mixture-fire(1203-1223K,24H in air)-press to bar -SIN(1243-1253K,24H in flowing O2-ANN(773K,24H)cool to RT (1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 5563 PLA1960263 "(Y,Pr)BaSrCu3O7" Y0.2Pr0.8Ba1Sr1Cu3O6.95 Y 0.2 Pr 0.8 Ba 1 Sr 1 Cu 3 O 7-z 6.95 1994 Y123 K 14 "Y2O3,Pr6O11,BaCO3,SrCo3,CuO" 1 "mixture-fire(1203-1223K,24H in air)-press to bar -SIN(1243-1253K,24H in flowing O2-ANN(773K,24H)cool to RT (1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 5564 PHC2410191 "La(Ba,Sr)2Cu3O7" La1.5Ba1.5Sr1.5Cu3Oz La 1.5 Ba 1.5 Sr 1.5 Cu 3 O z 1995 2 Y123 A K 18 18 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5565 PHC2410191 "La(Ba,Sr)2Cu3O7" La1.5Ba1.3Sr0.2Cu3Oz La 1.5 Ba 1.3 Sr 0.2 Cu 3 O z 1995 2 Y123 A 3.909 11.759 K 31.8 31.8 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5566 PHC2410191 "La(Ba,Sr)2Cu3O7" La1.5Ba1.2Sr0.3Cu3Oz La 1.5 Ba 1.2 Sr 0.3 Cu 3 O z 1995 2 Y123 A 3.911 11.759 K 38 38 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5567 PHC2410191 "La(Ba,Sr)2Cu3O7" La1.5Ba1.1Sr0.4Cu3Oz La 1.5 Ba 1.1 Sr 0.4 Cu 3 O z 1995 2 Y123 A 3.91 11.759 K 35 35 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5568 PHC2410191 "La(Ba,Sr)2Cu3O7" La1.5Ba1Sr0.5Cu3O6.955 La 1.5 Ba 1 Sr 0.5 Cu 3 O z 6.955 1995 2 Y123 A 3.907 11.741 K 26.9 26.9 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5569 PHC2410191 "La(Ba,Sr)2Cu3O7" La1.1Ba1.7Sr0.2Cu3Oz La 1.1 Ba 1.7 Sr 0.2 Cu 3 O z 1995 2 Y123 A 3.921 11.786 K 54.3 54.3 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5570 PHC2410191 "La(Ba,Sr)2Cu3O7" La1.1Ba1.6Sr0.3Cu3Oz La 1.1 Ba 1.6 Sr 0.3 Cu 3 O z 1995 2 Y123 A 3.914 11.764 K 63.1 63.1 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5571 PHC2410191 "La(Ba,Sr)2Cu3O7" La1.1Ba1.5Sr0.4Cu3Oz La 1.1 Ba 1.5 Sr 0.4 Cu 3 O z 1995 2 Y123 A 3.906 11.747 K 56.1 56.1 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5572 PHC2410191 "La(Ba,Sr)2Cu3O7" La1.1Ba1.4Sr0.5Cu3O6.954 La 1.1 Ba 1.4 Sr 0.5 Cu 3 O z 6.954 1995 2 Y123 A 3.902 11.731 K 50.1 50.1 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5573 PHC2410191 "La(Ba,Sr)2Cu3O7" La1Ba1.6Sr0.4Cu3Oz La 1 Ba 1.6 Sr 0.4 Cu 3 O z 1995 2 Y123 A 3.91 11.759 K 65.3 65.3 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5574 PHC2410191 "La(Ba,Sr)2Cu3O7" La1Ba1.5Sr0.5Cu3O6.948 La 1 Ba 1.5 Sr 0.5 Cu 3 O z 6.948 1995 2 Y123 A 3.907 11.741 K 57.1 57.1 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5575 PHC2410191 "La(Ba,Sr)2Cu3O7" La1.2Ba1.8SrCu3Oz La 1.2 Ba 1.8 Sr Cu 3 O z 1995 2 Y123 A 3.926 11.793 K 44 44 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5576 PHC2410191 "La(Ba,Sr)2Cu3O7" La1.2Ba1.6Sr0.2Cu3Oz La 1.2 Ba 1.6 Sr 0.2 Cu 3 O z 1995 2 Y123 A 3.916 11.767 K 47.9 47.9 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5577 PHC2410191 "La(Ba,Sr)2Cu3O7" La1.2Ba1.5Sr0.3Cu3Oz La 1.2 Ba 1.5 Sr 0.3 Cu 3 O z 1995 2 Y123 A 3.91 11.748 K 55.2 55.2 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5578 PHC2410191 "La(Ba,Sr)2Cu3O7" La1.2Ba1.4Sr0.4Cu3Oz La 1.2 Ba 1.4 Sr 0.4 Cu 3 O z 1995 2 Y123 A 3.903 11.734 K 52 52 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5579 PHC2410191 "La(Ba,Sr)2Cu3O7" La1.2Ba1.3Sr0.5Cu3O6.943 La 1.2 Ba 1.3 Sr 0.5 Cu 3 O z 6.943 1995 2 Y123 A 3.899 11.722 K 45.1 45.1 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5580 PHC2410191 "La(Ba,Sr)2Cu3O7" La1.3Ba1.7SrCu3O6.885 La 1.3 Ba 1.7 Sr Cu 3 O z 6.885 1995 2 Y123 A 3.921 11.773 K 32 32 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5581 PHC2410191 "La(Ba,Sr)2Cu3O7" La1.3Ba1.5Sr0.2Cu3O6.901 La 1.3 Ba 1.5 Sr 0.2 Cu 3 O z 6.901 1995 2 Y123 A 3.911 11.746 K 43.8 43.8 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5582 PHC2410191 "La(Ba,Sr)2Cu3O7" La1.3Ba1.4Sr0.3Cu3O6.91 La 1.3 Ba 1.4 Sr 0.3 Cu 3 O z 6.91 1995 2 Y123 A 3.906 11.734 K 50 50 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5583 PHC2410191 "La(Ba,Sr)2Cu3O7" La1.3Ba1.3Sr0.4Cu3O6.928 La 1.3 Ba 1.3 Sr 0.4 Cu 3 O z 6.928 1995 2 Y123 A 3.9 11.722 K 45.2 45.2 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5584 PHC2410191 "La(Ba,Sr)2Cu3O7" La1.3Ba1.2Sr0.5Cu3O6.955 La 1.3 Ba 1.2 Sr 0.5 Cu 3 O z 6.955 1995 2 Y123 A 3.895 11.709 K 38 38 "La2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(930-980C)-reground-SIN-ANN(400C,in flowing Oz)-slow cool to RT" "Superconducting La1.5-xBa1.5+x-ySryCu3Ozsolid solutions.Stoichiometry,structure and properties" 1995 1 "Department of Chemistry,University of Aberdeen,Meston walk,Aberdeen AB9 2UE,Scotland,UK" "Physica C.,241(1995)191-197" "La,Ba,Sr,Cu,O" 5585 PHC2420012 "(Tl,Hg)Sr2Ba2Cu2(CO3)Oz" Tl1HgSr2Ba2Cu2Co3Oz Tl 1 Hg Sr 2 Ba 2 Cu 2 Co 3 O z 1995 3 Tl1222 A 3.843 3.879 16.95 K 70.3 70.3 "Tl2O3,HgO,Ba2CuO3,BaO,Sr2CuO2(CO3)" "pellet-sealed in evacuated quartz-fire(800C,5H)-Q toRT" Synthesis of oxycarbonate solid solutions (Tl1-xHgx)Sr2Ba2Cu2(CO3)Oy(x=0-1.0)and superconductivity 1995 2 "Department of Physics,Aoyama-Gakuin University,Chitosedai,Setagaya-ku,Tokyo 157,Japan" "Physica C.,242(1995)12-16" 5586 PHC2420012 "Tl(Sr,Ba)2CuOz impurity phase=" "(Tl,Hg)Sr2Ba2Cu2(CO3)Oz" Tl0.8Hg0.2Sr2Ba2Cu2Co3Oz Tl 0.8 Hg 0.2 Sr 2 Ba 2 Cu 2 Co 3 O z 1995 3 Tl1222 A 3.85 3.876 16.959 K 70 10.6 70 "Tl2O3,HgO,Ba2CuO3,BaO,Sr2CuO2(CO3)" "pellet-sealed in evacuated quartz-fire(800C,5H)-Q toRT" Synthesis of oxycarbonate solid solutions (Tl1-xHgx)Sr2Ba2Cu2(CO3)Oy(x=0-1.0)and superconductivity 1995 2 "Department of Physics,Aoyama-Gakuin University,Chitosedai,Setagaya-ku,Tokyo 157,Japan" "Physica C.,242(1995)12-16" 5587 PHC2420012 "(Tl,Hg)Sr2Ba2Cu2(CO3)Oz" Tl0.7Hg0.3Sr2Ba2Cu2Co3Oz Tl 0.7 Hg 0.3 Sr 2 Ba 2 Cu 2 Co 3 O z 1995 3 Tl1222 A 3.851 3.873 16.936 K 71 71 "Tl2O3,HgO,Ba2CuO3,BaO,Sr2CuO2(CO3)" "pellet-sealed in evacuated quartz-fire(800C,5H)-Q toRT" Synthesis of oxycarbonate solid solutions (Tl1-xHgx)Sr2Ba2Cu2(CO3)Oy(x=0-1.0)and superconductivity 1995 2 "Department of Physics,Aoyama-Gakuin University,Chitosedai,Setagaya-ku,Tokyo 157,Japan" "Physica C.,242(1995)12-16" 5588 PHC2420012 "(Tl,Hg)Sr2Ba2Cu2(CO3)Oz" Tl0.5Hg0.5Sr2Ba2Cu2Co3Oz Tl 0.5 Hg 0.5 Sr 2 Ba 2 Cu 2 Co 3 O z 1995 3 Tl1222 A 3.854 3.869 16.934 K 72.9 72.9 "Tl2O3,HgO,Ba2CuO3,BaO,Sr2CuO2(CO3)" "pellet-sealed in evacuated quartz-fire(800C,5H)-Q toRT" Synthesis of oxycarbonate solid solutions (Tl1-xHgx)Sr2Ba2Cu2(CO3)Oy(x=0-1.0)and superconductivity 1995 2 "Department of Physics,Aoyama-Gakuin University,Chitosedai,Setagaya-ku,Tokyo 157,Japan" "Physica C.,242(1995)12-16" 5589 PHC2420012 "(Tl,Hg)Sr2Ba2Cu2(CO3)Oz" Tl0.3Hg0.7Sr2Ba2Cu2Co3Oz Tl 0.3 Hg 0.7 Sr 2 Ba 2 Cu 2 Co 3 O z 1995 2 Tl1222 A 3.872 16.921 K 73 73 "Tl2O3,HgO,Ba2CuO3,BaO,Sr2CuO2(CO3)" "pellet-sealed in evacuated quartz-fire(800C,5H)-Q toRT" Synthesis of oxycarbonate solid solutions (Tl1-xHgx)Sr2Ba2Cu2(CO3)Oy(x=0-1.0)and superconductivity 1995 2 "Department of Physics,Aoyama-Gakuin University,Chitosedai,Setagaya-ku,Tokyo 157,Japan" "Physica C.,242(1995)12-16" 5590 PHC2420012 "impurity phase=(Sr,Ba)2CuO2(CO3)" "(Tl,,Hg)Sr2Ba2Cu2(CO3)Oz" Tl0.2Hg0.8Sr2Ba2Cu2Co3Oz Tl 0.2 Hg 0.8 Sr 2 Ba 2 Cu 2 Co 3 O z 1995 2 Tl1222 A 3.883 K 60 10.5 60 Synthesis of oxycarbonate solid solutions (Tl1-xHgx)Sr2Ba2Cu2(CO3)Oy(x=0-1.0)and superconductivity 1995 2 "Department of Physics,Aoyama-Gakuin University,Chitosedai,Setagaya-ku,Tokyo 157,Japan" "Physica C.,242(1995)12-16" 5591 PHC2420012 "impurity phase=(Sr,Ba)2CuO2(CO3)" "(Tl,Hg)Sr2Ba2Cu2(CO3)Oz" Tl0.1Hg0.9Sr2Ba2Cu2Co3Oz Tl 0.1 Hg 0.9 Sr 2 Ba 2 Cu 2 Co 3 O z 1995 2 Tl1222 A 3.879 16.929 K 66 66 Synthesis of oxycarbonate solid solutions (Tl1-xHgx)Sr2Ba2Cu2(CO3)Oy(x=0-1.0)and superconductivity 1995 2 "Department of Physics,Aoyama-Gakuin University,Chitosedai,Setagaya-ku,Tokyo 157,Japan" "Physica C.,242(1995)12-16" 5592 PHC2420012 "(Tl,Hg)Sr2Ba2Cu2(CO3)Oz" TlHg1Sr2Ba2Cu2Co3Oz Tl 1 Hg 1 Sr 2 Ba 2 Cu 2 Co 3 O z 1995 2 Tl1222 A 3.883 16.928 K 57.3 57.3 Synthesis of oxycarbonate solid solutions (Tl1-xHgx)Sr2Ba2Cu2(CO3)Oy(x=0-1.0)and superconductivity 1995 2 "Department of Physics,Aoyama-Gakuin University,Chitosedai,Setagaya-ku,Tokyo 157,Japan" "Physica C.,242(1995)12-16" 5593 PHC2420012 "ANN(400C,in O2)" "(Tl,Hg)Sr2Ba2Cu2(CO3)Oz" Tl1HgSr2Ba2Cu2Co3Oz Tl 1 Hg 1 Sr 2 Ba 2 Cu 2 Co 3 O z 1995 K 73 73 Synthesis of oxycarbonate solid solutions (Tl1-xHgx)Sr2Ba2Cu2(CO3)Oy(x=0-1.0)and superconductivity 1995 2 "Department of Physics,Aoyama-Gakuin University,Chitosedai,Setagaya-ku,Tokyo 157,Japan" "Physica C.,242(1995)12-16" 5594 PHC2420012 "ANN(400C,in O2)" "(Tl,Hg)Sr2Ba2Cu2(CO3)Oz" TlHg1Sr2Ba2Cu2Co3Oz Tl 1 Hg 1 Sr 2 Ba 2 Cu 2 Co 3 O z 1995 K 66 66 Synthesis of oxycarbonate solid solutions (Tl1-xHgx)Sr2Ba2Cu2(CO3)Oy(x=0-1.0)and superconductivity 1995 2 "Department of Physics,Aoyama-Gakuin University,Chitosedai,Setagaya-ku,Tokyo 157,Japan" "Physica C.,242(1995)12-16" 5595 SSC0920535 "(Ba,K)BiO3" Bi2Sr2Cu1O6 Bi 2 Sr 2 Cu 1 O 6 1995 3 Bi2201 A 5.344 5.392 24.574 K THE EFFECT OF PRESSURE ON THE CRISTAL STRUCTURES OF SOME BISMUTH BASED SUPERCONDUCTORS 1995 "Solid State Commun.,93(1995)269" "Bi, Ba, K, O, Pb, Sr, Ca" 5596 SSC0920535 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1995 3 Bi2212 A 5.408 5.416 30.919 K THE EFFECT OF PRESSURE ON THE CRISTAL STRUCTURES OF SOME BISMUTH BASED SUPERCONDUCTORS 1995 "Solid State Commun.,93(1995)269" "Bi, Ba, K, O, Pb, Sr, Ca" 5597 SSC0920535 Bi2Sr2Ca2Cu3O10 Bi2Sr2Ca2Cu3O10 Bi 2 Sr 2 Ca 2 Cu 3 O 10 1995 3 Bi2223 A 5.403 5.427 37.243 K "Bi2O3,SrCO3,CuO,CaCO3" 1 conventional solid state reaction THE EFFECT OF PRESSURE ON THE CRISTAL STRUCTURES OF SOME BISMUTH BASED SUPERCONDUCTORS 1995 "Solid State Commun.,93(1995)269" "Bi, Ba, K, O, Pb, Sr, Ca" 5598 SSC0920535 BaBiO3 Ba1Bi1O3 Ba 1 Bi 1 O 3 1995 3 ABO3 A 6.172 6.123 8.672 K 1 THE EFFECT OF PRESSURE ON THE CRISTAL STRUCTURES OF SOME BISMUTH BASED SUPERCONDUCTORS 1995 "Solid State Commun.,93(1995)269" "Bi, Ba, K, O, Pb, Sr, Ca" 5599 SSC0920535 Ba0.6K0.4BiO3 Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 1995 1 BKBO A 4.271 K 1 THE EFFECT OF PRESSURE ON THE CRISTAL STRUCTURES OF SOME BISMUTH BASED SUPERCONDUCTORS 1995 "Solid State Commun.,93(1995)269" "Bi, Ba, K, O, Pb, Sr, Ca" 5600 SSC0920535 "Ba(Pb,Bi)O3" Ba1Pb0.75Bi0.25O3 Ba 1 Pb 0.75 Bi 0.25 O 3 1995 3 BPBO A 6.069 6.041 8.543 K "BaO,KO2,Bi2O3" 1 "heat(700C,1H)-heat(425C,1H in O2)" THE EFFECT OF PRESSURE ON THE CRISTAL STRUCTURES OF SOME BISMUTH BASED SUPERCONDUCTORS 1995 "Solid State Commun.,93(1995)269" "Bi, Ba, K, O, Pb, Sr, Ca" 5601 PHC2420228 "(Ga, Hg )Sr2( Y, Ca )Cu2 Oz" Ga0.3Hg0.7Sr2Y0.3Ca0.7Cu2OZ Ga 0.3 Hg 0.7 Sr 2 Y 0.3 Ca 0.7 Cu 2 O Z 1995 Ga1212 A K 86 86 "Enhancement of T c onset in (Ga,Hg)Sr2(Y,Ca)Cu2O7 by Hg doping" 1995 2 "Department of Physics,University of Arkansas,Fayetteville,AR 72701,USA" "Physica C.,242(1995)228-232" "Ga,Hg,Sr,Y,Ca,Cu,O" 5602 PHC2420228 "(Ga,Hg) Sr2 (Y,Ca) Cu2 Oz" Ga0.5Hg0.5Sr2Y0.3Ca0.7Cu2OZ Ga 0.5 Hg 0.5 Sr 2 Y 0.3 Ca 0.7 Cu 2 O Z 1995 3 Ga1212 A 23.115 5.448 5.38 K 30 78 54 "precursor(Sr2(Y,Ca)Cu2Oz)-mix with Ga2O3-heat(920C,2-3H)-mix with HgO-seal in evacuated quartz-heat(910C,6H)-ANN(350C,in flowing O2)" "Enhancement of T c onset in (Ga,Hg)Sr2(Y,Ca)Cu2O7 by Hg doping" 1995 2 "Department of Physics,University of Arkansas,Fayetteville,AR 72701,USA" "Physica C.,242(1995)228-232" "Ga,Hg,Sr,Y,Ca,Cu,O" 5603 PHC2420228 "(Ga,Hg) Sr2 (Y,Ca) Cu2 Oz" Ga0.7Hg0.3Sr2Y0.3Ca0.7Cu2OZ Ga 0.7 Hg 0.3 Sr 2 Y 0.3 Ca 0.7 Cu 2 O Z 1995 Ga1212 A K 40 73 56.5 "precursor(Sr2(Y,Ca)Cu2Oz)-mix with Ga2O3-heat(920C,2-3H)-mix with HgO-seal in evacuated quartz-heat(910C,6H)-ANN(350C,in flowing O2)" "Enhancement of T c onset in (Ga,Hg)Sr2(Y,Ca)Cu2O7 by Hg doping" 1995 2 "Department of Physics,University of Arkansas,Fayetteville,AR 72701,USA" "Physica C.,242(1995)228-232" "Ga,Hg,Sr,Y,Ca,Cu,O" 5604 PHC2420228 Tc(zero)<20K "(Ga,Hg) Sr2 (Y,Ca) Cu2 Oz" Ga0.3Hg0.7Sr2Y0.5Ca0.5Cu2OZ Ga 0.3 Hg 0.7 Sr 2 Y 0.5 Ca 0.5 Cu 2 O Z 1995 Ga1212 A K 88 88 "Enhancement of T c onset in (Ga,Hg)Sr2(Y,Ca)Cu2O7 by Hg doping" 1995 2 "Department of Physics,University of Arkansas,Fayetteville,AR 72701,USA" "Physica C.,242(1995)228-232" "Ga,Hg,Sr,Y,Ca,Cu,O" 5605 PHC2420228 Tc(zero)<20K "(Ga,Hg) Sr2 (Y,Ca) Cu2 Oz" Ga0.5Hg0.5Sr2Y0.5Ca0.5Cu2OZ Ga 0.5 Hg 0.5 Sr 2 Y 0.5 Ca 0.5 Cu 2 O Z 1995 Ga1212 A K 86 86 "Enhancement of T c onset in (Ga,Hg)Sr2(Y,Ca)Cu2O7 by Hg doping" 1995 2 "Department of Physics,University of Arkansas,Fayetteville,AR 72701,USA" "Physica C.,242(1995)228-232" "Ga,Hg,Sr,Y,Ca,Cu,O" 5606 PHC2420228 "(Ga,Hg) Sr2 (Y,Ca) Cu2 Oz" Ga0.7Hg0.3Sr2Y0.5Ca0.5Cu2OZ Ga 0.7 Hg 0.3 Sr 2 Y 0.5 Ca 0.5 Cu 2 O Z 1995 Ga1212 A K 35 75 55 "Enhancement of T c onset in (Ga,Hg)Sr2(Y,Ca)Cu2O7 by Hg doping" 1995 2 "Department of Physics,University of Arkansas,Fayetteville,AR 72701,USA" "Physica C.,242(1995)228-232" "Ga,Hg,Sr,Y,Ca,Cu,O" 5607 PHC2420221 "(Hg,Tl)(Ba,Sr) Ca Cu Oz" Hg1Tl1Ba4Ca2Cu4OZ Hg 1 Tl 1 Ba 4 Ca 2 Cu 4 O Z 1995 2 Tl2223 A 3.85 35.85 K 106 110 108 "Superconductivity in (Hg,Tl)(Ba,Sr)CaCuOx" 1995 2 "Materials Science and Technology Division,Naval Research Laboratory,Washington,DC 20375-5000 USA" "Physica C.,242(1995)221-227" "Hg,Tl,Ba,Sr,Ca,Cu,O" 5608 PHC2420221 "(Hg,Tl)(Ba,Sr) Ca Cu Oz" Hg1Tl1Ba4Ca4Cu6OZ Hg 1 Tl 1 Ba 4 Ca 4 Cu 6 O Z 1995 2 Tl2223 A 3.85 36.1 K 119 126 122.5 "Superconductivity in (Hg,Tl)(Ba,Sr)CaCuOx" 1995 2 "Materials Science and Technology Division,Naval Research Laboratory,Washington,DC 20375-5000 USA" "Physica C.,242(1995)221-227" "Hg,Tl,Ba,Sr,Ca,Cu,O" 5609 PHC2420221 "(Hg,Tl)(Ba,Sr) Ca Cu Oz" Hg1Tl2Ba4Ca2Cu4OZ Hg 1 Tl 2 Ba 4 Ca 2 Cu 4 O Z 1995 2 Tl2212 A 3.85 29.5 K 110 125 117.5 "Superconductivity in (Hg,Tl)(Ba,Sr)CaCuOx" 1995 2 "Materials Science and Technology Division,Naval Research Laboratory,Washington,DC 20375-5000 USA" "Physica C.,242(1995)221-227" "Hg,Tl,Ba,Sr,Ca,Cu,O" 5610 PHC2420221 "(Hg,Tl)(Ba,Sr) Ca Cu Oz" Hg1Tl2Ba4Ca4Cu6OZ Hg 1 Tl 2 Ba 4 Ca 4 Cu 6 O Z 1995 2 Tl2223 A 3.86 35.86 K 121 123 122 "Superconductivity in (Hg,Tl)(Ba,Sr)CaCuOx" 1995 2 "Materials Science and Technology Division,Naval Research Laboratory,Washington,DC 20375-5000 USA" "Physica C.,242(1995)221-227" "Hg,Tl,Ba,Sr,Ca,Cu,O" 5611 PHC2420221 "(Hg,Tl)(Ba,Sr) Ca Cu Oz" Hg1Tl2Ba4Ca4Cu6OZ Hg 1 Tl 2 Ba 4 Ca 4 Cu 6 O Z 2 1995 2 Tl2212 A 3.86 29.6 K 85 130 107.5 "Superconductivity in (Hg,Tl)(Ba,Sr)CaCuOx" 1995 2 "Materials Science and Technology Division,Naval Research Laboratory,Washington,DC 20375-5000 USA" "Physica C.,242(1995)221-227" "Hg,Tl,Ba,Sr,Ca,Cu,O" 5612 PHC2420221 "(Hg,Tl) (Ba,Sr) Ca Cu Oz" Hg1Tl1Sr4Ca2Cu4OZ Hg 1 Tl 1 Sr 4 Ca 2 Cu 4 O Z 2 1995 2 A K 95 110 102.5 "Superconductivity in (Hg,Tl)(Ba,Sr)CaCuOx" 1995 2 "Materials Science and Technology Division,Naval Research Laboratory,Washington,DC 20375-5000 USA" "Physica C.,242(1995)221-227" "Hg,Tl,Ba,Sr,Ca,Cu,O" 5613 PHC2420221 "(Hg,Tl)(Ba,Sr) CA Cu Oz" Hg1Tl2Sr4Ca2Cu4OZ Hg 1 Tl 2 Sr 4 Ca 2 Cu 4 O Z 2 1995 2 A 3.79 28.3 K 85 98 91.5 "Superconductivity in (Hg,Tl)(Ba,Sr)CaCuOx" 1995 2 "Materials Science and Technology Division,Naval Research Laboratory,Washington,DC 20375-5000 USA" "Physica C.,242(1995)221-227" "Hg,Tl,Ba,Sr,Ca,Cu,O" 5614 PHC2420221 "(Hg,Tl)(Ba,Sr) Ca Cu Oz" Hg1Tl2Sr4Cu6OZ Hg 1 Tl 2 Sr 4 Cu 6 O Z 2 1995 2 A 3.83 28.6 K 70 110 90 "Superconductivity in (Hg,Tl)(Ba,Sr)CaCuOx" 1995 2 "Materials Science and Technology Division,Naval Research Laboratory,Washington,DC 20375-5000 USA" "Physica C.,242(1995)221-227" "Hg,Tl,Ba,Sr,Ca,Cu,O" 5615 PHC2420155 Y Ba2 Cu3 O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1995 0 -2.2 5.78 Y123 A K 92 92 Magnetic properties of Y1-xGdxBa2Cu3O7-z Polycrystals 1995 2 "Institut fuir Physik,Max-Planck-Institut fuir Meisenbergstr.1,Pf800665,70569 Stuttgart,Germany" "Physica C.,242(1995)155-163" 5616 PHC2420155 "(Y,Gd) Ba2 Cu3 O7" Y0.8Gd0.2Ba2Cu3O7-z Y 0.8 Gd 0.2 Ba 2 Cu 3 O 7-z 1995 8.31 -7.1 Y123 K 92 92 Magnetic properties of Y1-xGdxBa2Cu3O7-z Polycrystals 1995 2 "Institut fuir Physik,Max-Planck-Institut fuir Meisenbergstr.1,Pf800665,70569 Stuttgart,Germany" "Physica C.,242(1995)155-163" 5617 PHC2420155 "(Y,Gd) Ba2 Cu3 O7" Y0.6Gd0.4Ba2Cu3O7-z Y 0.6 Gd 0.4 Ba 2 Cu 3 O 7-z 1995 8.09 -5.6 Y123 K 92 92 Magnetic properties of Y1-xGdxBa2Cu3O7-z Polycrystals 1995 2 "Institut fuir Physik,Max-Planck-Institut fuir Meisenbergstr.1,Pf800665,70569 Stuttgart,Germany" "Physica C.,242(1995)155-163" 5618 PHC2420155 "(Y,Gd) Ba2 Cu3 O7" Y0.4Gd0.6Ba2Cu3O7-z Y 0.4 Gd 0.6 Ba 2 Cu 3 O 7-z 1995 8.06 -5 Y123 K 92 92 Magnetic properties of Y1-xGdxBa2Cu3O7-z Polycrystals 1995 2 "Institut fuir Physik,Max-Planck-Institut fuir Meisenbergstr.1,Pf800665,70569 Stuttgart,Germany" "Physica C.,242(1995)155-163" 5619 PHC2420155 "(Y,Gd) Ba2 Cu3 O7" Y0.2Gd0.8Ba2Cu3O7-z Y 0.2 Gd 0.8 Ba 2 Cu 3 O 7-z 1995 8.15 -4.6 Y123 K 92 92 Magnetic properties of Y1-xGdxBa2Cu3O7-z Polycrystals 1995 2 "Institut fuir Physik,Max-Planck-Institut fuir Meisenbergstr.1,Pf800665,70569 Stuttgart,Germany" "Physica C.,242(1995)155-163" 5620 PHC2420155 Gd Ba2 Cu3 O7 Gd1Ba2Cu3O7-z Gd 1 Ba 2 Cu 3 O 7-z 1995 7.98 -3.1 6.39 Y123 K 92 92 Magnetic properties of Y1-xGdxBa2Cu3O7-z Polycrystals 1995 2 "Institut fuir Physik,Max-Planck-Institut fuir Meisenbergstr.1,Pf800665,70569 Stuttgart,Germany" "Physica C.,242(1995)155-163" 5621 SUP0080329 "Cd Ba2 (Ca,Y)Cu2 Oz" Cd1Ba2Ca0.7Y0.3Cu2Oz Cd 1 Ba 2 Ca 0.7 Y 0.3 Cu 2 O z 1995 Cd1212 A K 70 Superconductivity at 103 K in CdBa2(Ca0.7Y0.3)Cu2Oy 1995 "Institute of Solid State Physics, 1784 Sofia, Gulgaria" "J.Superconductivity,8(1995)329" 5622 SUP0080329 "Cd Ba2(Ca,Y)Cu2 Oz" Cd1Ba2Ca0.7Y0.3Cu2Oz Cd 1 Ba 2 Ca 0.7 Y 0.3 Cu 2 O z 1995 K 72 103 103 103 Superconductivity at 103 K in CdBa2(Ca0.7Y0.3)Cu2Oy 1995 "Institute of Solid State Physics, 1784 Sofia, Gulgaria" "J.Superconductivity,8(1995)329" 5623 PHC2480011 Hg0.75Nb0.25Sr2Nd1-xCaxCu2Oz Hg0.75Nd0.25Sr2Nd1Cu2Oz Hg 0.75 Nd 0.25 Sr 2 Nd 1 Cu 2 O z 1 1995 2 Hg1212 P4/mmm A 3.852 11.966 3 K "Superconductivity of a new series of mercury-based cuprates (Hg,M)Sr2(Nd,Ca)Cu2Oz(M=Nb,Ta)" 1995 6 "Department of Applied Chemistry,University of Science and Technology of China;Structure Research Laboratory,University of Science and Technology of China,Academia Sinica;Hefei 230026, China" "Physica C.,248(1995)11-14" 5624 PHC2480011 Hg0.75 Nb0.25 Sr2 Nd1-x Cax Cu2 Oz Hg0.75Nb0.25Sr2Nd0.7Ca0.3Cu2Oz Hg 0.75 Nb 0.25 Sr 2 Nd 0.7 Ca 0.3 Cu 2 O z 1 1995 2 Hg1212 P4/mmm A 3.84 11.979 3 K "Superconductivity of a new series of mercury-based cuprates (Hg,M)Sr2(Nd,Ca)Cu2Oz(M=Nb,Ta)" 1995 6 "Department of Applied Chemistry,University of Science and Technology of China;Structure Research Laboratory,University of Science and Technology of China,Academia Sinica;Hefei 230026, China" "Physica C.,248(1995)11-14" 5625 PHC2480011 Hg0.75 Nb0.25 Sr2 Nd1-x Cax Cu2 Oz Hg0.75Nb0.25Sr2Nd0.6Ca0.4Cu2Oz Hg 0.75 Nb 0.25 Sr 2 Nd 0.6 Ca 0.4 Cu 2 O z 1 1995 2 Hg1212 P4/mmm A 3.839 11.988 3 K "Superconductivity of a new series of mercury-based cuprates (Hg,M)Sr2(Nd,Ca)Cu2Oz(M=Nb,Ta)" 1995 6 "Department of Applied Chemistry,University of Science and Technology of China;Structure Research Laboratory,University of Science and Technology of China,Academia Sinica;Hefei 230026, China" "Physica C.,248(1995)11-14" 5626 PHC2480092 "(Gd,Pr) Ba2 Cu3 O7" Gd1Ba2Cu3O7-z Gd 1 Ba 2 Cu 3 O 7-z 1 1995 RPr123 A 3.843 3.903 11.71 3 K The suppression of superconductivity in the Gd1-xPrxBa2-ySryCu3O7-z system 1995 6 "Department of Applied Chemistry,University of Science and Tecnology of China,Hefei 230026,P.R.China" "Physica C.,248(1995)92-96" 5627 PHC2480092 "(Gd,Pr) Ba2 Cu3 O7" Gd0.9Pr0.1Ba2Cu3O7-z Gd 0.9 Pr 0.1 Ba 2 Cu 3 O 7-z 1 1995 RPr123 A 3.846 3.905 11.713 3 K The suppression of superconductivity in the Gd1-xPrxBa2-ySryCu3O7-z system 1995 6 "Department of Applied Chemistry,University of Science and Tecnology of China,Hefei 230026,P.R.China" "Physica C.,248(1995)92-96" 5628 PHC2480092 "(Gd,Pr)Ba2 Cu3 O7" Gd0.8Pr0.2Ba2Cu3O7-z Gd 0.8 Pr 0.2 Ba 2 Cu 3 O 7-z 1 1995 RPr123 A 3.848 3.907 11.715 3 K The suppression of superconductivity in the Gd1-xPrxBa2-ySryCu3O7-z system 1995 6 "Department of Applied Chemistry,University of Science and Tecnology of China,Hefei 230026,P.R.China" "Physica C.,248(1995)92-96" 5629 PHC2480092 "(Gd,Pr) Ba2 Cu3 O7" Gd0.7Pr0.3Ba2Cu3O7-z Gd 0.7 Pr 0.3 Ba 2 Cu 3 O 7-z 1 1995 RPr123 A 3.852 3.909 11.718 3 K The suppression of superconductivity in the Gd1-xPrxBa2-ySryCu3O7-z system 1995 6 "Department of Applied Chemistry,University of Science and Tecnology of China,Hefei 230026,P.R.China" "Physica C.,248(1995)92-96" 5630 PHC2480092 "(Gd,Pr) Ba2 Cu3 O7" Gd0.65Pr0.35Ba2Cu3O7-z Gd 0.65 Pr 0.35 Ba 2 Cu 3 O 7-z 1 1995 RPr123 A 3.853 3.909 11.72 3 K The suppression of superconductivity in the Gd1-xPrxBa2-ySryCu3O7-z system 1995 6 "Department of Applied Chemistry,University of Science and Tecnology of China,Hefei 230026,P.R.China" "Physica C.,248(1995)92-96" 5631 PHC2480092 "(Gd,Pr) Ba2 Cu3 O7" Gd0.6Pr0.4Ba2Cu3O7-z Gd 0.6 Pr 0.4 Ba 2 Cu 3 O 7-z 1 1995 RPr123 A 3.855 3.911 11.724 3 K The suppression of superconductivity in the Gd1-xPrxBa2-ySryCu3O7-z system 1995 6 "Department of Applied Chemistry,University of Science and Tecnology of China,Hefei 230026,P.R.China" "Physica C.,248(1995)92-96" 5632 PHC2480092 "(Gd,Pr) Ba2 Cu3 O7" Gd0.5Pr0.5Ba2Cu3O7-z Gd 0.5 Pr 0.5 Ba 2 Cu 3 O 7-z 1 1995 RPr123 A 3.858 3.912 11.728 3 K The suppression of superconductivity in the Gd1-xPrxBa2-ySryCu3O7-z system 1995 6 "Department of Applied Chemistry,University of Science and Tecnology of China,Hefei 230026,P.R.China" "Physica C.,248(1995)92-96" 5633 PHC2480092 "(Gd,Pr)(Ba,Sr)2 Cu3 O7" Gd1Ba1Sr1Cu3O7-z Gd 1 Ba 1 Sr 1 Cu 3 O 7-z 1 1995 RPr123 A 3.847 3.864 11.582 3 K The suppression of superconductivity in the Gd1-xPrxBa2-ySryCu3O7-z system 1995 6 "Department of Applied Chemistry,University of Science and Tecnology of China,Hefei 230026,P.R.China" "Physica C.,248(1995)92-96" 5634 PHC2480092 "(Gd,Pr)(Ba,Sr)2 Cu3 O7" Gd0.9Pr0.1Ba1Sr1Cu3O7-z Gd 0.9 Pr 0.1 Ba 1 Sr 1 Cu 3 O 7-z 1 1995 RPr123 A 3.857 11.575 3 K The suppression of superconductivity in the Gd1-xPrxBa2-ySryCu3O7-z system 1995 6 "Department of Applied Chemistry,University of Science and Tecnology of China,Hefei 230026,P.R.China" "Physica C.,248(1995)92-96" 5635 PHC2480092 "(Gd,Pr)(Ba,Sr)2 Cu3 O7" Gd0.8Pr0.2Ba1Sr1Cu3O7-z Gd 0.8 Pr 0.2 Ba 1 Sr 1 Cu 3 O 7-z 1 1995 RPr123 A 3.857 11.577 3 K The suppression of superconductivity in the Gd1-xPrxBa2-ySryCu3O7-z system 1995 6 "Department of Applied Chemistry,University of Science and Tecnology of China,Hefei 230026,P.R.China" "Physica C.,248(1995)92-96" 5636 PHC2480092 "(Gd,Pr)(Ba,Sr)2 Cu3 O7" Gd0.7Pr0.3Ba1Sr1Cu3O7-z Gd 0.7 Pr 0.3 Ba 1 Sr 1 Cu 3 O 7-z 1 1995 RPr123 A 3.858 11.581 3 K The suppression of superconductivity in the Gd1-xPrxBa2-ySryCu3O7-z system 1995 6 "Department of Applied Chemistry,University of Science and Tecnology of China,Hefei 230026,P.R.China" "Physica C.,248(1995)92-96" 5637 PHC2480092 "(Gd,Pr)(Ba,Sr)2 Cu3 O7" Gd0.6Pr0.4Ba1Sr1Cu3O7-z Gd 0.6 Pr 0.4 Ba 1 Sr 1 Cu 3 O 7-z 1 1995 RPr123 A 3.859 11.58 3 K The suppression of superconductivity in the Gd1-xPrxBa2-ySryCu3O7-z system 1995 6 "Department of Applied Chemistry,University of Science and Tecnology of China,Hefei 230026,P.R.China" "Physica C.,248(1995)92-96" 5638 PHC2480092 "(Gd,Pr)(Ba,Sr)2 Cu3 O7" Gd0.5Pr0.5Ba1Sr1Cu3O7-z Gd 0.5 Pr 0.5 Ba 1 Sr 1 Cu 3 O 7-z 1 1995 RPr123 A 3.861 11.583 3 K The suppression of superconductivity in the Gd1-xPrxBa2-ySryCu3O7-z system 1995 6 "Department of Applied Chemistry,University of Science and Tecnology of China,Hefei 230026,P.R.China" "Physica C.,248(1995)92-96" 5639 PHC2480092 "(Gd,Pr)(Ba,Sr)2 Cu3 O7" Gd0.45Pr0.55Ba1Sr1Cu3O7-z Gd 0.45 Pr 0.55 Ba 1 Sr 1 Cu 3 O 7-z 1 1995 RPr123 A 3.862 11.584 3 K The suppression of superconductivity in the Gd1-xPrxBa2-ySryCu3O7-z system 1995 6 "Department of Applied Chemistry,University of Science and Tecnology of China,Hefei 230026,P.R.China" "Physica C.,248(1995)92-96" 5640 PHC2480092 "(Gd,Pr)(Ba,Sr)2 Cu3 P7" Gd0.4Pr0.6Ba1Sr1Cu3O7-z Gd 0.4 Pr 0.6 Ba 1 Sr 1 Cu 3 O 7-z 1 1995 RPr123 A 3.864 11.587 3 K The suppression of superconductivity in the Gd1-xPrxBa2-ySryCu3O7-z system 1995 6 "Department of Applied Chemistry,University of Science and Tecnology of China,Hefei 230026,P.R.China" "Physica C.,248(1995)92-96" 5641 PHC2480092 "(Gd,Pr) Ba2 Cu3 O7" Gd0.55Pr0.45Ba1Cu3O7-z Gd 0.55 Pr 0.45 Ba 1 Cu 3 O 7-z 1 1995 RPr123 A 3.856 3.911 11.725 3 K The suppression of superconductivity in the Gd1-xPrxBa2-ySryCu3O7-z system 1995 6 "Department of Applied Chemistry,University of Science and Tecnology of China,Hefei 230026,P.R.China" "Physica C.,248(1995)92-96" 5642 PHC2480092 "(Gd,Pr)(Ba,Sr)2 Cu3 O7" Gd0.55Pr0.45Ba1.5Sr0.5Cu3O7-z Gd 0.55 Pr 0.45 Ba 1.5 Sr 0.5 Cu 3 O 7-z 1 1995 RPr123 A 3.854 3.885 11.633 3 K The suppression of superconductivity in the Gd1-xPrxBa2-ySryCu3O7-z system 1995 6 "Department of Applied Chemistry,University of Science and Tecnology of China,Hefei 230026,P.R.China" "Physica C.,248(1995)92-96" 5643 PHC2480092 "(Gd,Pr)(Ba,Sr)2 Cu3 O7" Gd0.55Pr0.45Ba1.25Sr0.75Cu3O7-z Gd 0.55 Pr 0.45 Ba 1.25 Sr 0.75 Cu 3 O 7-z 1 1995 RPr123 A 3.856 3.875 11.606 3 K The suppression of superconductivity in the Gd1-xPrxBa2-ySryCu3O7-z system 1995 6 "Department of Applied Chemistry,University of Science and Tecnology of China,Hefei 230026,P.R.China" "Physica C.,248(1995)92-96" 5644 PHC2480092 "(Gd,Pr)(Ba,Sr)2 Cu3 O7" Gd0.55Pr0.45Ba1Sr1Cu3O7-z Gd 0.55 Pr 0.45 Ba 1 Sr 1 Cu 3 O 7-z 1 1995 RPr123 A 3.86 11.583 3 K The suppression of superconductivity in the Gd1-xPrxBa2-ySryCu3O7-z system 1995 6 "Department of Applied Chemistry,University of Science and Tecnology of China,Hefei 230026,P.R.China" "Physica C.,248(1995)92-96" 5645 PHC2480167 "(CA,NA)2 CA Cu2 O4 Cl2" Ca1.9Na0.1Ca1Cu2Cl2O4 Ca 1.9 Na 0.1 Ca 1 Cu 2 Cl 2 O 4 1 1995 2 2126 I4/mmm A 3.85 21.45 3 K "Superconductivity in (Ca,Na)2CaCu2O4Cl2 The new simplest double-layer cuprate with apical chlorine" 1995 6 "Department of Physics,Aoyama-Gakuin,University,6-16-1,Chitosedai,Setagaya-ku,Tokyo 157,Japan" "Physica C.,248(1995)167-170" 5646 PHC2420055 isomer shift(Gd)=0.507 mm/s linewidth=0.42 mm/s at 4.2K "GD(Ba, Sr)2 Cu3 O7" Gd1Ba1Sr1Cu3O7 Gd 1 Ba 1 Sr 1 Cu 3 O 7-x 7 1 1995 2 Y123 A 3.839 11.572 K 80.8 82 82 m.ohm.cm 1.97 9.00E-10 0.7 RH5646 "Gd2O3,BaCO3,SrCO3,CuO" 1 ANN(T>920C)-slow cooling in O2 Oxygen ordering and superconductivity in GdBaSrCu3O7-x 1995 2 "Angewandte Physik,Johannes-Keplera-Universitat Linz,A-4040 Linz,Austria" "Physica C.,242(1995)55-62" 5647 PHC2420055 "isomer shift=0.512 mm/s, HWHM=0.46 mm/s at 4.2K" "Gd(Ba, Sr)2 Cu3 O7" Gd1Ba1Sr1Cu3O7-z Gd 1 Ba 1 Sr 1 Cu 3 O 7-z 1 1995 3 Y123 3.804 3.863 11.588 K 82.6 85 85 m.ohm.cm 0.68 1.40E-09 0.7 RH5647 1 "ANN(T>920C)-slow cooling in O2-ANN(500C,in O2)" Oxygen ordering and superconductivity in GdBaSrCu3O7-x 1995 2 "Angewandte Physik,Johannes-Keplera-Universitat Linz,A-4040 Linz,Austria" "Physica C.,242(1995)55-62" 5648 PHC2420023 (Hg0.7 Cr0.3) Sanple also non- superconducting "(Hg, Cr) Sr (CA, Y) Ca2 O7" Hg0.49Cr0.51Sr2Ca0.44Yo0.56Cu2O7.28 Hg 0.49 Cr 0.51 Sr 2 Ca 0.44 Yo 0.56 Cu 2 O 7.28 7.28 1995 2 Hg1212 3.853 11.819 K 10 "HgO,Cr,O3,Sr(NO3)2,Y2O3,CaO,CuO" 1 mix ture of precursorand Hg-sealed in evacucted quartz tube mix ture of precursorand HgO-seald in evacucted quartz tube "New1212-type(Hg,Cr)-based cuprate (Hg1-xCrx)Sr2(Ca1-yYy)Cu2O6+z" 1995 2 "Department of Physics,and High Density Electronics Center,Unversity of Arkansas,Fayetteville,AR 72701,USA" "Physica C.,242(1995)23-29" 5649 PHC2470091 "using HIP apparatus,not superconducting" Ga1.78Cu4.22Sr3.16Nd3.84O16-z Ga 1.78 Cu 4.22 Sr 3.16 Nd 3.84 O 16-z 2 1995 3 Ga2434 5.458 5.535 51.3 K "Ga2O3,PbO,SrCO3,Nd2O3,CuO" 1 "CAL(920-1180C,15-30H,in ai)-Interrittent grindings-ANN(1000C,2H,under 20Mpa of Oxgen)-C to RT(at-10C/min)" "Preparation and structure of a new layered cuprate Ga2(Sr,Nd)4Nd3Cu4)z" 1995 5 "National Institute for Research in Inorganic Materials, 1-1 Namiki, Tsukuba,305,Japan" "Physica C.,247(1995)91-95" 5650 PHC2470125 90%1212 phase "(Hg, Pb) Sr2 (Ca,Y) Cu2 Oz" Hg0.7Pb0.3Sr2Ca0.7Y0.3Cu2Oz Hg 0.7 Pb 0.3 Sr 2 Ca 0.7 Y 0.3 Cu 2 O z 1 1995 2 Hg1212 A 3.808 12.005 K 100 100 "Sr(NO3)2,Y2O3,Ca,O,CuO,HgO,PbO" 1 "(Precursor(Sr2Ca1-yYyCu2Oz)+HgO+PbO in dry box)-sealed in quarty tube-heat to 920C(3.5C/min)-SIN(900-920,6-8H)-ANN(300C,20H in O2)" "Electrical properties and crystal structure of (Hg,Pb)Sr2(Ca,Y)Cu2O6+z" 1995 5 "Department of Physics,University of Arkansas,Fayetteville,AR 72701,USA" "Physica C.,247(1995)125-132" 5651 PHC2470125 95%1212 phase "(Hg, Pb) Sr2 (Ca, Y) Cu2 Oz" Hg0.5Pb0.5Sr2Ca0.5Y0.5Cu2Oz Hg 0.5 Pb 0.5 Sr 2 Ca 0.5 Y 0.5 Cu 2 O z 1 1995 Hg1212 A K 80 100 90 "Sr(NO3)2,Y2O3,Ca,O,CuO,HgO,PbO" 1 "(Precursor(Sr2Ca1-yYyCu2Oz)+HgO+PbO in dry box)-sealed in quarty tube-heat to 920C(3.5C/min)-SIN(900-920,6-8H)-ANN(300C,20H in O2)" "Electrical properties and crystal structure of (Hg,Pb)Sr2(Ca,Y)Cu2O6+z" 1995 5 "Department of Physics,University of Arkansas,Fayetteville,AR 72701,USA" "Physica C.,247(1995)125-132" 5652 PHC2470125 95%1212 phase "(Hg, Pb) Sr2 (Ca, Y) Cu2 Oz" Hg0.5Pb0.5Sr2Ca0.7Y0.3Cu2Oz Hg 0.5 Pb 0.5 Sr 2 Ca 0.7 Y 0.3 Cu 2 O z 1 1995 Hg1212 K 80 100 90 "Sr(NO3)2,Y2O3,Ca,O,CuO,HgO,PbO" 1 "(Precursor(Sr2Ca1-yYyCu2Oz)+HgO+PbO in dry box)-sealed in quarty tube-heat to 920C(3.5C/min)-SIN(900-920,6-8H)-ANN(300C,20H in O2)" "Electrical properties and crystal structure of (Hg,Pb)Sr2(Ca,Y)Cu2O6+z" 1995 5 "Department of Physics,University of Arkansas,Fayetteville,AR 72701,USA" "Physica C.,247(1995)125-132" 5653 PHC2470062 "Semiconducter like, not Superconducter" "(Ca O) (Ba Ti O3)2 (Gd,Ce)3 Cu2 O7" Ti2Ba2Ca1Gd2.25Ce0.75Cu2O14 Ti 2 Ba 2 Ca 1 Gd 2.25 Ce 0.75 Cu 2 O 14 1 1995 2 Ti2322 A 3.884 20.463 K 15 m.ohm.cm 270 70 "TiO2,BaCO3,CaCO3,Gd2O3,CeO2,CuO" 1 "Mxture-CAL(950C,24H, in air)-ground-CAL(1000C,24H, in air)-FC-grand-Pellet-SIN(1050C,48H, in air)-FC-SIN(1050C,72H,in air or flowing O2)-step cooling" "Design and synthesis of a new layered cuprate Ti2Ba2Ca(Gd,Ce)3Cu2O14" 1995 5 "Department of Applied Chemistry,University of Science and Technology of China,Hefei,Anhui 230026,P.R.China" "Physica C.,247(1995)62-66" 5654 PHC2420216 "(Hg,Mo) Sr2 (Y,Ca) Cu2 O6" Hg0.8Mo0.2Sr2Y0.6Ca0.4Ca2O6+z Hg 0.8 Mo 0.2 Sr 2 Y 0.6 Ca 0.4 Ca 2 O 6+z 1 1995 3.827 11.888 K 55 94 74.5 "MoO3,Sr(NO3)2,Y2O3,CaCO3,CuO,HgO" Precursor(Mo-Sr-Y-Ca-Cu-O)+HgO-Prees into pellet -seald in quartz tube-heat to 850C(3C/min)-hold(10H)- "(Hg,Mo)Sr2Y1-xCaxCu2O6+z A new series of mercury-based high-Tc superconductor" 1995 2 "Department of Applied Chemistry,University of Science and Technology of China.Structure Reseach Laboratory,University of Science and Technology of China,Academia Sinica,Hefei,Anhui 230026,P.R.China" "Physica C.,242(1995)216-220" "Hg,MO,Sr,Y,Ca,Cu,O" 5655 PHC2420216 "(Hg,Mo) Sr2 (Y,Ca) Cu2 O6" Hg0.8Mo0.2Sr2Y0.5Ca0.5Ca2O6+z Hg 0.8 Mo 0.2 Sr 2 Y 0.5 Ca 0.5 Ca 2 O 6+z 1 1995 3.825 11.912 K 54 93 73.5 "MoO3,Sr(NO3)2,Y2O3,CaCO3,CuO,HgO" Precursor(Mo-Sr-Y-Ca-Cu-O)+HgO-Prees into pellet -seald in quartz tube-heat to 850C(3C/min)-hold(10H)- "(Hg,Mo)Sr2Y1-xCaxCu2O6+z A new series of mercury-based high-Tc superconductor" 1995 2 "Department of Applied Chemistry,University of Science and Technology of China.Structure Reseach Laboratory,University of Science and Technology of China,Academia Sinica,Hefei,Anhui 230026,P.R.China" "Physica C.,242(1995)216-220" "Hg,MO,Sr,Y,Ca,Cu,O" 5656 PHC2420216 "(Hg,Mo) Sr2 (Y,Ca) Cu2 O6" Hg0.8Mo0.2Sr2Y0.35Ca0.65Ca2O6+z Hg 0.8 Mo 0.2 Sr 2 Y 0.35 Ca 0.65 Ca 2 O 6+z 1 1995 3.82 11.93 K 75 96 85.5 "(Hg,Mo)Sr2Y1-xCaxCu2O6+z A new series of mercury-based high-Tc superconductor" 1995 2 "Department of Applied Chemistry,University of Science and Technology of China.Structure Reseach Laboratory,University of Science and Technology of China,Academia Sinica,Hefei,Anhui 230026,P.R.China" "Physica C.,242(1995)216-220" "Hg,MO,Sr,Y,Ca,Cu,O" 5657 PHC2450301 "(Bi,Pb,Cu) Sr2 (Dy,Ca) Cu2 O" Bi0.3Pb0.5Cu0.2Sr2Dy0.75Ca0.25Cu2Oz Bi 0.3 Pb 0.5 Cu 0.2 Sr 2 Dy 0.75 Ca 0.25 Cu 2 O z 1995 2 Pb1212 K 80 80 "Bi2O3,Dy2O3,Pbo,CuO,SrCO3,CaCO3" 1 "Mixture-CAL(900C,16H+920C,24H)-pellet-SIN(940C,20H)-Q to cold Cu plate-ANN(600C 48H in flowing N)" "Preparation and superconductivity of (Bi,Pb,Cu)Sr2(RE,Ca)CuOd ceramics" 1995 4 "Max-Planck-Institut fur Metallforschung,Pulvermetallurgisches Laboratorium,Heisenbergstr.5,D-70569 Stuttgart,Germany" "Physica C.,245(1995)301-307" 5658 PHC2450301 "(Bi,Pb,Cu) Sr2 (Dy,Ca) Cu2 O" Bi0.3Pb0.5Cu0.2Sr2Dy0.5Ca0.5Oz Bi 0.3 Pb 0.5 Cu 0.2 Sr 2 Dy 0.5 Ca 0.5 O z 1995 2 Pb1212 K 80 80 "Bi2O3,Dy2O3,Pbo,CuO,SrCO3,CaCO3" 1 "Mixture-CAL(900C,16H+920C,24H)-pellet-SIN(940C,20H)-Q to cold Cu plate-ANN(600C 48H in flowing N)" "Preparation and superconductivity of (Bi,Pb,Cu)Sr2(RE,Ca)CuOd ceramics" 1995 4 "Max-Planck-Institut fur Metallforschung,Pulvermetallurgisches Laboratorium,Heisenbergstr.5,D-70569 Stuttgart,Germany" "Physica C.,245(1995)301-307" 5659 PHC2490139 Optimally doped Bi2 Sr2 Ca Cu2 O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1995 Bi2212 K 86.1 86.1 TP5659 using floating qone(infra-red image furnace) Thermoelectric power and the hole concentration in indine-intercalated Bi2Sr2CaCu2Ox crystals 1995 6 "Department of Physics,Victoria University of Wellington,PO.Box 600,Wellington,New Zealand" "Physica C.,249(1995)139-143" 5660 PHC2490139 Optimally doped I Bi2 Sr2 Ca Cu2 O8 I1Bi2Sr2Ca1Cu2O8 I 1 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1995 Bi2212 K 58.3 58.3 TP5660 "single cristal (floating qone)-seal in glass anpoule (excess I)-ANN (180C,1week)" Thermoelectric power and the hole concentration in indine-intercalated Bi2Sr2CaCu2Ox crystals 1995 6 "Department of Physics,Victoria University of Wellington,PO.Box 600,Wellington,New Zealand" "Physica C.,249(1995)139-143" 5661 PHC2490139 under doped Bi2 Sr2 Ca Cu2 O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1995 Bi2212 K 72.2 72.2 TP5661 using floating qone(infra-red image furnace) Thermoelectric power and the hole concentration in indine-intercalated Bi2Sr2CaCu2Ox crystals 1995 6 "Department of Physics,Victoria University of Wellington,PO.Box 600,Wellington,New Zealand" "Physica C.,249(1995)139-143" 5662 PHC2490139 under doped I Bi2 Sr2 Ca Cu2 O8 I1Bi2Sr2Ca1Cu2O8 I 1 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1995 Bi2212 K 72.2 72.2 TP5662 "single cristal (floating qone)-seal in glass anpoule (excess I)-ANN (180C,1week)" Thermoelectric power and the hole concentration in indine-intercalated Bi2Sr2CaCu2Ox crystals 1995 6 "Department of Physics,Victoria University of Wellington,PO.Box 600,Wellington,New Zealand" "Physica C.,249(1995)139-143" 5663 PHC2490196 Semi-con "Pb(Sr,La)2 Gd2 Cu2 Oz" Pb1Sr1.2La0.8Gd2Cu2Oz Pb 1 Sr 1.2 La 0.8 Gd 2 Cu 2 O z 1995 2 Pb1222 A 3.843 29.119 K 4.2 "PbO,SrCO3,Ln2O3,CuO" 1 "mixtuo-cal(850C,overnight,in air)-pellet-SIN(900-970C,20H in air)-FC to RT" "A new family of Pb-based 1222 cuprates Pb(Sr,La)2Ln2Cu2Oz(Ln=Gd,Dy,Eu, and Pr)" 1995 6 "Institute of Physics,Chinese Academy of Sciences,Beijing 100080,China" "Physica C.,249(1995)196-201" 5664 PHC2490196 semi-con "Pb(Sr,La)2 Dy2 Cu2 Oz" Pb1Sr14La0.6Dy2Cu2Oz Pb 1 Sr 14 La 0.6 Dy 2 Cu 2 O z 1995 2 Pb1222 A 3.825 29.119 K 4.2 "PbO,SrCO3,Ln2O3,CuO" 1 "mixtuo-cal(850C,overnight,in air)-pellet-SIN(900-970C,20H in air)-FC to RT" "A new family of Pb-based 1222 cuprates Pb(Sr,La)2Ln2Cu2Oz(Ln=Gd,Dy,Eu, and Pr)" 1995 6 "Institute of Physics,Chinese Academy of Sciences,Beijing 100080,China" "Physica C.,249(1995)196-201" 5665 PHC2490196 Semi-con "Pb(Sr,La)2 Eu2 Cu2 Oz" Pb1Sr1La1Eu2Cu2Oz Pb 1 Sr 1 La 1 Eu 2 Cu 2 O z 1995 2 Pb1222 A 3.859 29.203 K 4.2 "PbO,SrCO3,Ln2O3,CuO" 1 "mixtuo-cal(850C,overnight,in air)-pellet-SIN(900-970C,20H in air)-FC to RT" "A new family of Pb-based 1222 cuprates Pb(Sr,La)2Ln2Cu2Oz(Ln=Gd,Dy,Eu, and Pr)" 1995 6 "Institute of Physics,Chinese Academy of Sciences,Beijing 100080,China" "Physica C.,249(1995)196-201" 5666 PHC2490196 "Pb(Sr,La)2 Pr2 Cu2 Oz" Pb1Sr1.6La0.4Pr2Cu2Oz Pb 1 Sr 1.6 La 0.4 Pr 2 Cu 2 O z 1995 2 Pb1222 3.873 29.194 K 4.2 "PbO,SrCO3,Ln2O3,CuO" 1 "mixtuo-cal(850C,overnight,in air)-pellet-SIN(900-970C,20H in air)-FC to RT" "A new family of Pb-based 1222 cuprates Pb(Sr,La)2Ln2Cu2Oz(Ln=Gd,Dy,Eu, and Pr)" 1995 6 "Institute of Physics,Chinese Academy of Sciences,Beijing 100080,China" "Physica C.,249(1995)196-201" 5667 PHC2490196 "(Pb,Cd)(Sr,La)2 Gd2 Cu2 Oz" Pb0.5Cd0.5Sr1.2La0.8Gd2Cu2Oz Pb 0.5 Cd 0.5 Sr 1.2 La 0.8 Gd 2 Cu 2 O z 1995 2 Pb1222 3.842 29.29 K 4.2 "PbO,SrCO3,Ln2O3,CuO" 1 "mixtuo-cal(850C,overnight,in air)-pellet-SIN(900-970C,20H in air)-FC to RT" "A new family of Pb-based 1222 cuprates Pb(Sr,La)2Ln2Cu2Oz(Ln=Gd,Dy,Eu, and Pr)" 1995 6 "Institute of Physics,Chinese Academy of Sciences,Beijing 100080,China" "Physica C.,249(1995)196-201" 5668 PHC2490196 "anneal (920,in O2)" "(Pb,Cd)(Sr,La)2 Gd2 Cu2 Oz" Pb0.5Cd0.5Sr1.2La0.8Gd2Cu2Oz Pb 0.5 Cd 0.5 Sr 1.2 La 0.8 Gd 2 Cu 2 O z 1995 2 Pb1222 3.836 29.274 K 4.2 "PbO,SrCO3,Ln2O3,CuO" 1 "mixtuo-cal(850C,overnight,in air)-pellet-SIN(900-970C,20H in air)-FC to RT" "A new family of Pb-based 1222 cuprates Pb(Sr,La)2Ln2Cu2Oz(Ln=Gd,Dy,Eu, and Pr)" 1995 6 "Institute of Physics,Chinese Academy of Sciences,Beijing 100080,China" "Physica C.,249(1995)196-201" 5669 PHC2450281 "annealing(970C,2H in O2),inprity phase=Sr Cu O2,Sr2 Cu O3,CdO" "(Pb,Cd) Sr2 (Y,Ca) Cu2 O7" Pb0.5Cd0.5Sr2Y0.5Ca0.5Cu2O7 Pb 0.5 Cd 0.5 Sr 2 Y 0.5 Ca 0.5 Cu 2 O 7 1995 Pb1212 3.817 11.966 K 51 76 63.5 "PbO,CdO,SrCO3,Y2O3,CaCO3,CuO" 1 "mixture-CAL(850C,15H in air)-pellet-SIN(910C,10H in air)" Synthesis and superconducting properties of (Pb0.5Cd0.5)Sr2(Y0.5Ca0.5)Cu2O7 1995 4 "Institutr of Physics,Chinese Academy of Sciences,Beijing 100080,China" "Physica C.,245(1995)281-286" 5670 PHC2450281 "annealing(970C,2H, in air),inprity phase=Sr Cu O2,Sr2 Cu O3,Cd O" "(Pb,Cd) Sr2 (Y,Ca) Cu2 O7" Pb0.5Cd0.5Sr2Y0.5Ca0.5Cu2O7 Pb 0.5 Cd 0.5 Sr 2 Y 0.5 Ca 0.5 Cu 2 O 7 1995 2 Pb1212 K 12 32 22 "PbO,CdO,SrCO3,Y2O3,CaCO3,CuO" 1 "mixture-CAL(850C,15H in air)-pellet-SIN(910C,10H in air)" Synthesis and superconducting properties of (Pb0.5Cd0.5)Sr2(Y0.5Ca0.5)Cu2O7 1995 4 "Institutr of Physics,Chinese Academy of Sciences,Beijing 100080,China" "Physica C.,245(1995)281-286" 5671 PHC2450281 "annerling(970C,2H in N2),inprity phase=Sr Cu O2,Sr2 Cu O3,Cd O" "(Pb,Cd) Sr2 (Y,Ca) Cu2 O7" Pb0.5Cd0.5Sr2Y0.5Ca0.5Cu2O7 Pb 0.5 Cd 0.5 Sr 2 Y 0.5 Ca 0.5 Cu 2 O 7 1995 2 Pb1212 K 58 83 70.5 "PbO,CdO,SrCO3,Y2O3,CaCO3,CuO" 1 "mixture-CAL(850C,15H in air)-pellet-SIN(910C,10H in air)" Synthesis and superconducting properties of (Pb0.5Cd0.5)Sr2(Y0.5Ca0.5)Cu2O7 1995 4 "Institutr of Physics,Chinese Academy of Sciences,Beijing 100080,China" "Physica C.,245(1995)281-286" 5672 PHC2490293 "La2(Sr,Ca)Cu2 O6" La1.9Sr1.1Cu2O6.311 La 1.9 Sr 1.1 Cu 2 O 6+z 6.311 1995 2126 3.853 20.036 K 4.2 2.889 "La2O3,SrCO3,CaCO3,CuO" "mixture-CAL(1000-1070C,12H in latm O2)-pellet-SIN(1070C,12H,in O2 flow)" "Structural and electrical changes in Ln1.9Sr1.1-xCaxCu2O6+z(Ln=La,Pr)systems" 1995 7 "Depertment of Inorganic Materials,Faculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro,Tokyo,152 Japan" "Physica C.,249(1995)293-303" 5673 PHC2490293 "La2(Sr,Ca)Cu2O6" La1.9Sr1Ca0.1Cu2O6.242 La 1.9 Sr 1 Ca 0.1 Cu 2 O 6+z 6.242 1995 2126 3.853 19.96 K 4.2 5.859 "La2O3,SrCO3,CaCO3,CuO" "mixture-CAL(1000-1070C,12H in latm O2)-pellet-SIN(1070C,12H,in O2 flow)" "Structural and electrical changes in Ln1.9Sr1.1-xCaxCu2O6+z(Ln=La,Pr)systems" 1995 7 "Depertment of Inorganic Materials,Faculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro,Tokyo,152 Japan" "Physica C.,249(1995)293-303" 5674 PHC2490293 "La2(Sr,Ca)Cu2O6" La1.9Sr0.9Ca0.2Cu2O6.202 La 1.9 Sr 0.9 Ca 0.2 Cu 2 O 6+z 6.202 1995 2126 3.851 19.892 K 4.2 8.695 "La2O3,SrCO3,CaCO3,CuO" "mixture-CAL(1000-1070C,12H in latm O2)-pellet-SIN(1070C,12H,in O2 flow)" "Structural and electrical changes in Ln1.9Sr1.1-xCaxCu2O6+z(Ln=La,Pr)systems" 1995 7 "Depertment of Inorganic Materials,Faculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro,Tokyo,152 Japan" "Physica C.,249(1995)293-303" 5675 PHC2490293 "La2(Sr,Ca)Cu2O6" La1.9Sr0.8Ca0.3Cu2O6.122 La 1.9 Sr 0.8 Ca 0.3 Cu 2 O 6+z 6.122 1995 2126 3.848 19.82 K 4.2 7.75 "La2O3,SrCO3,CaCO3,CuO" "mixture-CAL(1000-1070C,12H in latm O2)-pellet-SIN(1070C,12H,in O2 flow)" "Structural and electrical changes in Ln1.9Sr1.1-xCaxCu2O6+z(Ln=La,Pr)systems" 1995 7 "Depertment of Inorganic Materials,Faculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro,Tokyo,152 Japan" "Physica C.,249(1995)293-303" 5676 PHC2490293 "La2(Sr,Ca)Cu2O6" La1.9Sr0.7Ca0.4Cu2O6.091 La 1.9 Sr 0.7 Ca 0.4 Cu 2 O 6+z 6.091 1995 2126 3.845 19.764 K 4.2 9.441 "La2O3,SrCO3,CaCO3,CuO" "mixture-CAL(1000-1070C,12H in latm O2)-pellet-SIN(1070C,12H,in O2 flow)" "Structural and electrical changes in Ln1.9Sr1.1-xCaxCu2O6+z(Ln=La,Pr)systems" 1995 7 "Depertment of Inorganic Materials,Faculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro,Tokyo,152 Japan" "Physica C.,249(1995)293-303" 5677 PHC2490293 "La2(Sr,Ca)Cu2O6" La1.9Sr0.6Ca0.5Cu2O6.062 La 1.9 Sr 0.6 Ca 0.5 Cu 2 O 6+z 6.062 1995 2126 3.842 19.72 K 4.2 23.33 "La2O3,SrCO3,CaCO3,CuO" "mixture-CAL(1000-1070C,12H in latm O2)-pellet-SIN(1070C,12H,in O2 flow)" "Structural and electrical changes in Ln1.9Sr1.1-xCaxCu2O6+z(Ln=La,Pr)systems" 1995 7 "Depertment of Inorganic Materials,Faculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro,Tokyo,152 Japan" "Physica C.,249(1995)293-303" 5678 PHC2490293 "La2(Sr,Ca)Cu2O6" La1.9Sr0.5Ca0.6Cu0.6O6.055 La 1.9 Sr 0.5 Ca 0.6 Cu 0.6 O 6+z 6.055 1995 2126 3.838 19.66 K 28.42 "La2O3,SrCO3,CaCO3,CuO" "mixture-CAL(1000-1070C,12H in latm O2)-pellet-SIN(1070C,12H,in O2 flow)" "Structural and electrical changes in Ln1.9Sr1.1-xCaxCu2O6+z(Ln=La,Pr)systems" 1995 7 "Depertment of Inorganic Materials,Faculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro,Tokyo,152 Japan" "Physica C.,249(1995)293-303" 5679 PHC2490293 "La2(Sr,Ca)Cu2O6" La1.9Sr0.4Ca0.7Cu2O6.042 La 1.9 Sr 0.4 Ca 0.7 Cu 2 O 6+z 6.042 1995 2126 3.854 19.608 K 24.11 "La2O3,SrCO3,CaCO3,CuO" "mixture-CAL(1000-1070C,12H in latm O2)-pellet-SIN(1070C,12H,in O2 flow)" "Structural and electrical changes in Ln1.9Sr1.1-xCaxCu2O6+z(Ln=La,Pr)systems" 1995 7 "Depertment of Inorganic Materials,Faculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro,Tokyo,152 Japan" "Physica C.,249(1995)293-303" 5680 PHC2490293 "La2(Sr,Ca)Cu2 O6" La1.9Sr0.3Ca0.8Cu2O6.04 La 1.9 Sr 0.3 Ca 0.8 Cu 2 O 6+z 6.04 1995 2126 3.832 19.56 K 23.33 "La2O3,SrCO3,CaCO3,CuO" "mixture-CAL(1000-1070C,12H in latm O2)-pellet-SIN(1070C,12H,in O2 flow)" "Structural and electrical changes in Ln1.9Sr1.1-xCaxCu2O6+z(Ln=La,Pr)systems" 1995 7 "Depertment of Inorganic Materials,Faculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro,Tokyo,152 Japan" "Physica C.,249(1995)293-303" 5681 PHC2490293 "La2(Sr,Ca)Cu2O6" La1.9Sr0.2Ca0.9Cu2O6.029 La 1.9 Sr 0.2 Ca 0.9 Cu 2 O 6+z 6.029 1995 2126 3.829 19.508 K 24.51 "La2O3,SrCO3,CaCO3,CuO" "mixture-CAL(1000-1070C,12H in latm O2)-pellet-SIN(1070C,12H,in O2 flow)" "Structural and electrical changes in Ln1.9Sr1.1-xCaxCu2O6+z(Ln=La,Pr)systems" 1995 7 "Depertment of Inorganic Materials,Faculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro,Tokyo,152 Japan" "Physica C.,249(1995)293-303" 5682 PHC2490293 "La2(Sr,Ca)Cu2O6" La1.9Sr0.1Ca1Cu2O6.02 La 1.9 Sr 0.1 Ca 1 Cu 2 O 6+z 6.02 1995 2126 3.827 19.448 K 18.23 "La2O3,SrCO3,CaCO3,CuO" "mixture-CAL(1000-1070C,12H in latm O2)-pellet-SIN(1070C,12H,in O2 flow)" "Structural and electrical changes in Ln1.9Sr1.1-xCaxCu2O6+z(Ln=La,Pr)systems" 1995 7 "Depertment of Inorganic Materials,Faculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro,Tokyo,152 Japan" "Physica C.,249(1995)293-303" 5683 PHC2490293 "La2(Sr,Ca)Cu2O6" La1.9Ca1.1Cu2O6+z La 1.9 Ca 1.1 Cu 2 O 6+z 1995 2126 3.824 19.396 K 16.79 "La2O3,SrCO3,CaCO3,CuO" "mixture-CAL(1000-1070C,12H in latm O2)-pellet-SIN(1070C,12H,in O2 flow)" "Structural and electrical changes in Ln1.9Sr1.1-xCaxCu2O6+z(Ln=La,Pr)systems" 1995 7 "Depertment of Inorganic Materials,Faculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro,Tokyo,152 Japan" "Physica C.,249(1995)293-303" 5684 PHC2490293 "Pr2(Sr,Ca)Cu2O6" Pr1.9Sr1.1Cu2O6.11 Pr 1.9 Sr 1.1 Cu 2 O 6+z 6.11 1995 emu/mol 0.000597 emu.K/mol 1.37 myu-B/Pr 3.31 -31.7 3.84 19.728 K 84.14 "Pr6O11,SrCO3,CaCO3,CuO" "mixtwo-CAL(1000-1070C,12H in O2 flow)-pellet-SIN(1050C,12H in air)" "Structural and electrical changes in Ln1.9Sr1.1-xCaxCu2O6+z(Ln=La,Pr)systems" 1995 7 "Depertment of Inorganic Materials,Faculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro,Tokyo,152 Japan" "Physica C.,249(1995)293-303" 5685 PHC2490293 "Pr2(Sr,Ca)Cu2O6" Pr1.9Sr1Ca0.1Cu2O6.078 Pr 1.9 Sr 1 Ca 0.1 Cu 2 O 6+z 6.078 1995 3.84 19.652 K 86.95 "Pr6O11,SrCO3,CaCO3,CuO" "mixtwo-CAL(1000-1070C,12H in O2 flow)-pellet-SIN(1050C,12H in air)" "Structural and electrical changes in Ln1.9Sr1.1-xCaxCu2O6+z(Ln=La,Pr)systems" 1995 7 "Depertment of Inorganic Materials,Faculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro,Tokyo,152 Japan" "Physica C.,249(1995)293-303" 5686 PHC2490293 "Pr2(Sr,Ca)Cu2O6" Pr1.9Sr0.9Ca0.2Cu2O6.061 Pr 1.9 Sr 0.9 Ca 0.2 Cu 2 O 6+z 6.061 1995 emu/mol 0.000605 emu.K/mol 1.34 myu-B/Pr 3.27 -31.4 3.839 19.58 K 53.09 "Pr6O11,SrCO3,CaCO3,CuO" "mixtwo-CAL(1000-1070C,12H in O2 flow)-pellet-SIN(1050C,12H in air)" "Structural and electrical changes in Ln1.9Sr1.1-xCaxCu2O6+z(Ln=La,Pr)systems" 1995 7 "Depertment of Inorganic Materials,Faculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro,Tokyo,152 Japan" "Physica C.,249(1995)293-303" 5687 PHC2490293 "Pr2(Sr,Ca)Cu2O6" Pr1.9Sr0.8Ca0.3Cu2O6.052 Pr 1.9 Sr 0.8 Ca 0.3 Cu 2 O 6+z 6.052 1995 3.836 19.524 K 48.1 "Pr6O11,SrCO3,CaCO3,CuO" "mixtwo-CAL(1000-1070C,12H in O2 flow)-pellet-SIN(1050C,12H in air)" "Structural and electrical changes in Ln1.9Sr1.1-xCaxCu2O6+z(Ln=La,Pr)systems" 1995 7 "Depertment of Inorganic Materials,Faculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro,Tokyo,152 Japan" "Physica C.,249(1995)293-303" 5688 PHC2490293 "Pr2(Sr,Ca)Cu2O6" Pr1.9Sr0.7Ca0.4Cu2O6.034 Pr 1.9 Sr 0.7 Ca 0.4 Cu 2 O 6+z 6.034 1995 emu/mol 0.000605 emu.K/mol 1.34 myu-B/Pr 3.26 -29.1 3.834 19.476 K 44.3 "Pr6O11,SrCO3,CaCO3,CuO" "mixtwo-CAL(1000-1070C,12H in O2 flow)-pellet-SIN(1050C,12H in air)" "Structural and electrical changes in Ln1.9Sr1.1-xCaxCu2O6+z(Ln=La,Pr)systems" 1995 7 "Depertment of Inorganic Materials,Faculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro,Tokyo,152 Japan" "Physica C.,249(1995)293-303" 5689 PHC2490293 "Pr2(Sr,Ca)Cu2O6" Pr1.9Sr0.6Ca0.5Cu2O6.023 Pr 1.9 Sr 0.6 Ca 0.5 Cu 2 O 6+z 6.023 1995 3.832 19.42 K 42.87 "Pr6O11,SrCO3,CaCO3,CuO" "mixtwo-CAL(1000-1070C,12H in O2 flow)-pellet-SIN(1050C,12H in air)" "Structural and electrical changes in Ln1.9Sr1.1-xCaxCu2O6+z(Ln=La,Pr)systems" 1995 7 "Depertment of Inorganic Materials,Faculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro,Tokyo,152 Japan" "Physica C.,249(1995)293-303" 5691 PHC2490220 "(100)-collapsed Sr2CuO2(CO3)-1201 phase, as-synthesized" TlBa2Sr2Cu2(CO3)O7 Tl1Ba2Sr2Cu2C1O10 Tl 1 Ba 2 Sr 2 Cu 2 C 1 O 10 1995 K 61 61 "Tl2O3,Cr2O3,V2O5,CuO,Sr-oxide" 1 "mixture-press into pellet-sealed in evacuated silica ampoule-heat(850c,12H)-Q to RT" "Stabilisation of three new oxycarbonates by V and Cr substitutions The superconductors(Tl,M)1Sr4Cu2(CO3)O7(M=Cr,V) and (Hg,V)1Sr4Cu2(CO3)O6+z" 1995 7 "Laboratoire CRISMAT,URA 1318 associee au CNRS,ISMRA et Universite de Caen,Bd du Marechal Juin 14050,Caen cedex,France" "Physica C.,249(1995)220-233" 5692 PHC2490220 "(100)-collapsed Sr2CuO2(CO3)-1201 phase, as-synthesized" "(Tl,Cr)Sr4Cu2(CO3)O7" Tl0.67Cr0.33Sr4Cu2C1O10 Tl 0.67 Cr 0.33 Sr 4 Cu 2 C 1 O 10 1995 I 222 5.418 27.108 16.668 K 77 72 77 "Tl2O3,Cr2O3,V2O5,CuO,Sr-oxide" 1 "mixture-press into pellet-sealed in evacuated silica ampoule-heat(850c,12H)-Q to RT" "Stabilisation of three new oxycarbonates by V and Cr substitutions The superconductors(Tl,M)1Sr4Cu2(CO3)O7(M=Cr,V) and (Hg,V)1Sr4Cu2(CO3)O6+z" 1995 7 "Laboratoire CRISMAT,URA 1318 associee au CNRS,ISMRA et Universite de Caen,Bd du Marechal Juin 14050,Caen cedex,France" "Physica C.,249(1995)220-233" 5693 PHC2490220 "(Tl,V)Sr4Cu2(CO3)O7" Tl0.8V0.2Sr4Cu2C1O10 Tl 0.8 V 0.2 Sr 4 Cu 2 C 1 O 10 1995 3 I222 23 5.401 27.076 16.628 K 50 54 50 90 "Tl2O3,Cr2O3,V2O5,CuO,Sr-oxide" 1 "mixture-press into pellet-sealed in evacuated silica ampoule-heat(850c,12H)-Q to RT" "Stabilisation of three new oxycarbonates by V and Cr substitutions The superconductors(Tl,M)1Sr4Cu2(CO3)O7(M=Cr,V) and (Hg,V)1Sr4Cu2(CO3)O6+z" 1995 7 "Laboratoire CRISMAT,URA 1318 associee au CNRS,ISMRA et Universite de Caen,Bd du Marechal Juin 14050,Caen cedex,France" "Physica C.,249(1995)220-233" 5694 PHC2490220 "(Tl,Pb)Sr4Cu2(CO3)O7" Tl0.5Pb0.5Sr4Cu2C1O10 Tl 0.5 Pb 0.5 Sr 4 Cu 2 C1 O 10 1995 K 71 71 "Tl2O3,Cr2O3,V2O5,CuO,Sr-oxide" 1 "mixture-press into pellet-sealed in evacuated silica ampoule-heat(850c,12H)-Q to RT" "Stabilisation of three new oxycarbonates by V and Cr substitutions The superconductors(Tl,M)1Sr4Cu2(CO3)O7(M=Cr,V) and (Hg,V)1Sr4Cu2(CO3)O6+z" 1995 7 "Laboratoire CRISMAT,URA 1318 associee au CNRS,ISMRA et Universite de Caen,Bd du Marechal Juin 14050,Caen cedex,France" "Physica C.,249(1995)220-233" 5695 PHC2490220 as-synthesized "(Hg,V)Sr4Cu2(CO3)O6" Hg0.6V0.4Sr4Cu2C1O9+z Hg 0.6 V 0.4 Sr 4 Cu 2 C1 O 9+z 1995 2 P4/mmm 123 3.85 16.24 K 76 76 76 55 "HgO,V2O5,CuO,SrO2" "mixture-pellet-heat(850c,20H)-Q to RT" "Stabilisation of three new oxycarbonates by V and Cr substitutions The superconductors(Tl,M)1Sr4Cu2(CO3)O7(M=Cr,V) and (Hg,V)1Sr4Cu2(CO3)O6+z" 1995 7 "Laboratoire CRISMAT,URA 1318 associee au CNRS,ISMRA et Universite de Caen,Bd du Marechal Juin 14050,Caen cedex,France" "Physica C.,249(1995)220-233" 5696 PHC2490220 as-synthesized "(Hg,Mo)Sr4Cu2(CO3)O6" Hg0.5Mo0.5Sr4Cu2C1O9+z Hg 0.5 Mo 0.5 Sr 4 Cu 2 C 1 O 9+z 1995 K 74 74 45 "HgO,V2O5,CuO,SrO2" "mixture-pellet-heat(850c,20H)-Q to RT" "Stabilisation of three new oxycarbonates by V and Cr substitutions The superconductors(Tl,M)1Sr4Cu2(CO3)O7(M=Cr,V) and (Hg,V)1Sr4Cu2(CO3)O6+z" 1995 7 "Laboratoire CRISMAT,URA 1318 associee au CNRS,ISMRA et Universite de Caen,Bd du Marechal Juin 14050,Caen cedex,France" "Physica C.,249(1995)220-233" 5697 PHC2420342 La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1 1995 2 T A 3.776 13.247 K 33 28 28 "La2O3,Sm2O3,SrCO3,CuO" "mixture-heat(950C,24H in air in almina boat)-pellet-heat(1150C,2days in flowing O2)" Structural and superconducting properties of the La1.8-xSmxSr0.2CuO4 system (0 x 1) 1995 2 "Laboratoire de Chimie du Solide du CNRS,Universite Bordeaux I,351 cours de la Liberation,F-33405 Talence Cedex,France" "Physica C.,242(1995)342-350" "La,Sm,Sr,Cu,O" 5698 PHC2420342 La1.65Sm0.15Sr0.2Cu1O4 La 1.65 Sm 0.15 Sr 0.2 Cu 1 O 4 1 1995 2 T 3.775 13.217 K 25 24 24 "La2O3,Sm2O3,SrCO3,CuO" "mixture-heat(950C,24H in air in almina boat)-pellet-heat(1150C,2days in flowing O2)" Structural and superconducting properties of the La1.8-xSmxSr0.2CuO4 system (0 x 1) 1995 2 "Laboratoire de Chimie du Solide du CNRS,Universite Bordeaux I,351 cours de la Liberation,F-33405 Talence Cedex,France" "Physica C.,242(1995)342-350" "La,Sm,Sr,Cu,O" 5699 PHC2420342 La1.5Sm0.3Sr0.2Cu1O4 La 1.5 Sm 0.3 Sr 0.2 Cu 1 O 4 1 1995 2 T 3.77 13.153 K 17 17 17 "La2O3,Sm2O3,SrCO3,CuO" "mixture-heat(950C,24H in air in almina boat)-pellet-heat(1150C,2days in flowing O2)" Structural and superconducting properties of the La1.8-xSmxSr0.2CuO4 system (0 x 1) 1995 2 "Laboratoire de Chimie du Solide du CNRS,Universite Bordeaux I,351 cours de la Liberation,F-33405 Talence Cedex,France" "Physica C.,242(1995)342-350" "La,Sm,Sr,Cu,O" 5700 PHC2420342 two phases T+T La1.35Sm0.45Sr0.2Cu1O4 La 1.35 Sm 0.45 Sr 0.2 Cu 1 O 4 2 1995 K 4 12 12 "La2O3,Sm2O3,SrCO3,CuO" "mixture-heat(950C,24H in air in almina boat)-pellet-heat(1150C,2days in flowing O2)" Structural and superconducting properties of the La1.8-xSmxSr0.2CuO4 system (0 x 1) 1995 2 "Laboratoire de Chimie du Solide du CNRS,Universite Bordeaux I,351 cours de la Liberation,F-33405 Talence Cedex,France" "Physica C.,242(1995)342-350" "La,Sm,Sr,Cu,O" 5701 PHC2420342 La1Sm0.8Sr0.2Cu1O4 La 1 Sm 0.8 Sr 0.2 Cu 1 O 4 1995 2 T 3.878 12.583 K 4 "La2O3,Sm2O3,SrCO3,CuO" "mixture-heat(950C,24H in air in almina boat)-pellet-heat(1150C,2days in flowing O2)" Structural and superconducting properties of the La1.8-xSmxSr0.2CuO4 system (0 x 1) 1995 2 "Laboratoire de Chimie du Solide du CNRS,Universite Bordeaux I,351 cours de la Liberation,F-33405 Talence Cedex,France" "Physica C.,242(1995)342-350" "La,Sm,Sr,Cu,O" 5702 PHC2420342 La1Sm0.8Sr0.2Cu1O4 La 1 Sm 0.8 Sr 0.2 Cu 1 O 4 1995 2 3.873 12.605 K 35 35 35 "La2O3,Sm2O3,SrCO3,CuO" "mixture-heat(950C,24H in air in almina boat)-pellet-heat(1150C,2days in flowing O2)" Structural and superconducting properties of the La1.8-xSmxSr0.2CuO4 system (0 x 1) 1995 2 "Laboratoire de Chimie du Solide du CNRS,Universite Bordeaux I,351 cours de la Liberation,F-33405 Talence Cedex,France" "Physica C.,242(1995)342-350" "La,Sm,Sr,Cu,O" 5703 PHC2420373 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.98Fe0.02O8 Y 1 Ba 2 Cu 3.98 Fe 0.02 O 8 1995 3 Y124 3.839 3.861 27.184 K 59 82 70.5 "Y2O3,Ba(NO3)2,CuO,Fe2O3" 1 "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5704 PHC2420373 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.96Fe0.04O8 Y 1 Ba 2 Cu 3.96 Fe 0.04 O 8 1995 3 Y124 3.847 3.86 27.132 K 48.5 81 64.75 "Y2O3,Ba(NO3)2,CuO,Fe2O3" 1 "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5705 PHC2420373 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.92Fe0.08O8 Y 1 Ba 2 Cu 3.92 Fe 0.08 O 8 1995 3 Y124 3.85 3.86 27.104 K 41 80 60.5 "Y2O3,Ba(NO3)2,CuO,Fe2O3" 1 "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5706 PHC2420373 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.88Fe0.12O8 Y 1 Ba 2 Cu 3.88 Fe 0.12 O 8 1995 emu/mol 0.00043 myu-B/mol 5.63 -5.39 2 Y124 3.855 27.079 K 19.1 77 48.05 "Y2O3,Ba(NO3)2,CuO,Fe2O3" 1 "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5707 PHC2420373 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.84Fe0.16O8 Y 1 Ba 2 Cu 3.84 Fe 0.16 O 8 1995 2 Y124 3.855 27.08 K 11.6 70 40.8 "Y2O3,Ba(NO3)2,CuO,Fe2O3" 1 "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5708 PHC2420373 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.8Fe0.2O8 Y 1 Ba 2 Cu 3.8 Fe 0.2 O 8 1995 2 Y124 3.855 27.08 K 64 64 "Y2O3,Ba(NO3)2,CuO,Fe2O3" 1 "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5709 PHC2420373 "YBa2(Cu,Co)4O8" Y1Ba2Cu3.98Co0.02O8 Y 1 Ba 2 Cu 3.98 Co 0.02 O 8 1995 3 Y124 3.845 3.86 37.193 K 66.6 80 73.3 "Y2O3,Ba(NO3)2,CuO,Co2O3" "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in Flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5710 PHC2420373 "YBa2(Cu,Co)4O8" Y1Ba2Cu3.96Co0.04O8 Y 1 Ba 2 Cu 3.96 Co 0.04 O 8 1995 3 Y124 3.847 3.858 27.158 K 59 78 68.5 "Y2O3,Ba(NO3)2,CuO,Co2O3" "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in Flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5711 PHC2420373 "YBa2(Cu,Co)4 O8" Y1Ba2Cu3.92Co0.08O8 Y 1 Ba 2 Cu 3.92 Co 0.08 O 8 1995 3 Y124 3.85 3.857 27.125 K 55.5 72 63.75 "Y2O3,Ba(NO3)2,CuO,Co2O3" "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in Flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5712 PHC2420373 "YBa2(Cu,Co)4 O8" Y1Ba2Cu3.88Co0.12O8 Y 1 Ba 2 Cu 3.88 Co 0.12 O 8 1995 emu/mole 0.0006 myu-B/mol 3.91 3.36 2 Y124 3.856 27.109 K 48 68 58 "Y2O3,Ba(NO3)2,CuO,Co2O3" "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in Flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5713 PHC2420373 "YBa2(Cu,Co)4 O8" Y1Ba2Cu3.84Co0.16O8 Y 1 Ba 2 Cu 3.84 Co 0.16 O 8 1995 2 Y124 3.858 27.098 K 43.6 65 54.3 "Y2O3,Ba(NO3)2,CuO,Co2O3" "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in Flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5714 PHC2420373 "YBa2(Cu,Co)4 O8" Y1Ba2Cu3.8Co0.2O8 Y 1 Ba 2 Cu 3.8 Co 0.2 O 8 1995 2 Y124 3.86 27.09 K 37 63 50 "Y2O3,Ba(NO3)2,CuO,Co2O3" "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in Flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5715 PHC2420373 "YBa2(Cu,Co)4 O8" Y1Ba2Cu1O8 Y 1 Ba 2 Cu 1 O 8 1995 3 Y124 3.842 3.861 27.207 K 79 90 84.5 "Y2O3,Ba(NO3)2,CuO,Co2O3" "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in Flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5716 PHC2420373 "YBa2(Cu,Ni)4 O8" Y1Ba2Cu3.98Ni0.02O8 Y 1 Ba 2 Cu 3.98 Ni 0.02 O 8 1995 3 Y124 3.844 3.862 27.202 K 62.1 80 71.05 "Y2O3,Ba(NO3)2,CuO,NiO" "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5717 PHC2420373 "YBa2(Cu,Ni)4 O8" Y1Ba2Cu3.96Ni0.04O8 Y 1 Ba 2 Cu 3.96 Ni 0.04 O 8 1995 3 Y124 3.848 3.864 27.196 K 52.4 75 63.7 "Y2O3,Ba(NO3)2,CuO,NiO" "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5718 PHC2420373 "YBa2(Cu,Ni)4 O8" Y1Ba2Cu3.92Ni0.08O8 Y 1 Ba 2 Cu 3.92 Ni 0.08 O 8 1995 3 Y124 3.851 3.865 27.192 K 31.5 67 49.25 "Y2O3,Ba(NO3)2,CuO,NiO" "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5719 PHC2420373 "YBa2(Cu,Ni)4 O8" Y1Ba2Cu3.88Ni0.12O8 Y 1 Ba 2 Cu 3.88 Ni 0.12 O 8 1995 emu/mole 0.00045 myu-B/mol 3.37 -3.4 3 Y124 3.855 3.866 27.187 K 50 50 "Y2O3,Ba(NO3)2,CuO,NiO" "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5720 PHC2420373 "YBa2(Cu,Ni)4 O8" Y1Ba2Cu3.84Ni0.16O8 Y 1 Ba 2 Cu 3.84 Ni 0.16 O 8 1995 3 Y124 3.859 3.867 27.182 K 10 "Y2O3,Ba(NO3)2,CuO,NiO" "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5721 PHC2420373 "YBa2(Cu,Ni)4 O8" Y1Ba2Cu3.8Ni0.2O8 Y 1 Ba 2 Cu 3.8 Ni 0.2 O 8 1995 3 Y124 3.862 3.868 27.181 K 10 "Y2O3,Ba(NO3)2,CuO,NiO" "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5722 PHC2420373 "YBa2(Cu,Zn)4 O8" Y1Ba2Cu3.98Zn0.02O8 Y 1 Ba 2 Cu 3.98 Zn 0.02 O 8 1995 3 Y124 3.841 3.861 27.2 K 58.1 77 67.55 "Y2O3,Ba(NO3)2CuO,ZnO" 1 "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5723 PHC2420373 "YBa2(Cu,Zn)4 O8" Y1Ba2Cu3.96Zn0.04O8 Y 1 Ba 2 Cu 3.96 Zn 0.04 O 8 1995 3 Y124 3.845 3.862 27.195 K 45.5 67 56.25 "Y2O3,Ba(NO3)2CuO,ZnO" 1 "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5724 PHC2420373 "YBa2(Cu,Zn)4 O8" Y1Ba2Cu3.92Zn0.08O8 Y 1 Ba 2 Cu 3.92 Zn 0.08 O 8 1995 3 Y124 3.847 3.862 27.191 K 37 61 49 "Y2O3,Ba(NO3)2CuO,ZnO" 1 "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5725 PHC2420373 "YBa2(Cu,Zn)4 O8" Y1Ba2Cu3.88Zn0.12O8 Y 1 Ba 2 Cu 3.88 Zn 0.12 O 8 1995 3 Y124 3.848 3.863 27.185 K 27 42 34.5 "Y2O3,Ba(NO3)2CuO,ZnO" 1 "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5726 PHC2420373 "YBa2(Cu,Zn)4 O8" Y1Ba2Cu3.84Zn0.16O8 Y 1 Ba 2 Cu 3.84 Zn 0.16 O 8 1995 3 Y124 3.852 3.864 27.185 K 21 42 31.5 "Y2O3,Ba(NO3)2CuO,ZnO" 1 "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5727 PHC2420373 "YBa2(Cu,Zn)4 O8" Y1Ba2Cu3.8Zn0.2O8 Y 1 Ba 2 Cu 3.8 Zn 0.2 O 8 1995 3 Y124 3.857 3.865 27.186 K 19 42 30.5 "Y2O3,Ba(NO3)2CuO,ZnO" 1 "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5728 PHC2420373 "YBa2(Cu,Ga)4 O8" Y1Ba2Cu3.98Ga0.02O8 Y 1 Ba 2 Cu 3.98 Ga 0.02 O 8 1995 3 Y124 3.844 3.86 27.197 K 70.5 85 77.75 "Y2O3, Ba(NO3)2, CuO,Ga2 O3" 1 "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5729 PHC2420373 "YBa2(Cu,Ga)4 O8" Y1Ba2Cu3.96Ga0.04O8 Y 1 Ba 2 Cu 3.96 Ga 0.04 O 8 1995 3 Y124 3.848 3.859 27.172 K 70 85 77.5 "Y2O3, Ba(NO3)2, CuO,Ga2 O3" 1 "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5730 PHC2420373 "YBa2(Cu,Ga)4 O8" Y1Ba2Cu3.92Ga0.08O8 Y 1 Ba 2 Cu 3.92 Ga 0.08 O 8 1995 3 Y124 3.85 3.858 27.152 K 66 83 74.5 "Y2O3, Ba(NO3)2, CuO,Ga2 O3" 1 "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5731 PHC2420373 "YBa2(Cu,Ga)4 O8" Y1Ba2Cu3.88Ga0.12O8 Y 1 Ba 2 Cu 3.88 Ga 0.12 O 8 1995 3 Y124 3.855 3.857 27.129 K 65 82 73.5 "Y2O3, Ba(NO3)2, CuO,Ga2 O3" 1 "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5732 PHC2420373 "YBa2(Cu,Ga)4 O8" Y1Ba2Cu3.84Ga0.16O8 Y 1 Ba 2 Cu 3.84 Ga 0.16 O 8 1995 2 Y124 3.856 27.12 K 61.5 81 71.25 "Y2O3, Ba(NO3)2, CuO,Ga2 O3" 1 "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5733 PHC2420373 "YBa2(Cu,Ga)4 O8" Y1Ba2Cu3.8Ga0.2O8 Y 1 Ba 2 Cu 3.8 Ga 0.2 O 8 1995 2 Y124 3.858 27.11 K 59.5 81 70.25 "Y2O3, Ba(NO3)2, CuO,Ga2 O3" 1 "mixture-CAL(750C,6H in O2)-pellet-SIN(800C,24H in flowing O2)" "Structure,superconductivity and magnetism of YBa2(Cu1-xMx)4O8(M=Fe,Co,Ni,Zn and Ga)" 1995 2 "Department of Physics,National Sun Yat-Sen University,Kaohsiung 80424,Taiwan" "Physica C.,242(1995)373-380" "Y,Ba,Cu,O,Fe,Co,Ni,Zn,Ga" 5734 PHC2420017 as-synthesized. semiconductor-like. RRR<1 "(Hg,Cr)Sr2CuO4" Hg0.7Cr0.3Sr2Cu1OZ Hg 0.7 Cr 0.3 Sr 2 Cu 1 O Z 1995 2 Hg1201 P4/mmm 3.841 8.701 K 56 59.5 67 59.5 "two step process, precursor(Cr-Sr-Cu-O) - ADD(HgO) - pellet - sealed in quartz tube - heat to 870C(3.5C/min) hold(870C,5-8h) - cool to RT" "Synthesis and study of (Hg,Cr)-based 1201-type superconducting cuprate (Hg,Cr)Sr2CuO4+z" 1995 2 "Department of Physics,and High Density Electronics Center,University of Arkansas,Fayetteville,AR 72701,USA" "Physica C.,242(1995)17-22" 5735 PHC2420017 annealed in O2. metallic behaviour. sharp transition "(Hg,Cr)Sr2CuO4" Hg0.7Cr0.3Sr2Cu1Oz Hg 0.7 Cr 0.3 Sr 2 Cu 1 O z 1995 Hg1201 K 59.5 59.5 "two step process, precursor(Cr-Sr-Cu-O) - ADD(HgO) - pellet - sealed in quartz tube - heat to 870C(3.5C/min) hold(870C,5-8h) - cool to RT" "Synthesis and study of (Hg,Cr)-based 1201-type superconducting cuprate (Hg,Cr)Sr2CuO4+z" 1995 2 "Department of Physics,and High Density Electronics Center,University of Arkansas,Fayetteville,AR 72701,USA" "Physica C.,242(1995)17-22" 5736 PHC2440305 Bi2Sr2CaCu2O8-(ZnPc)xBi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 1995 Bi2212 K 97 97 TP5736 "(Bi2212+single cryotal Zn Pc)-pellet-Pyrextube(10E-2TON)-heat(490C,15min-several hours)" Thermoelectric power study on high-Tc Bi2122 and -2223 oxides intercalated with organic molecules zincphtalocyanine 1995 3 "Department of physics,National Taiwan University,Taipei,Taiwan" "Physica C.,244(1995)305-310" 5737 PHC2440305 intercalated Br2Sr2CaCu2O8-(Zn Pc)x Bi2Sy2CaCu2O8 Zn0.005Pc0.005Bi2Sr2Ca1Cu2Oz Zn 0.005 Pc 0.005 Bi 2 Sr 2 Ca 1 Cu 2 O z 1995 Bi2212 K 79 79 TP5737 "(Bi2212+single cryotal Zn Pc)-pellet-Pyrextube(10E-2TON)-heat(490C,15min-several hours)" Thermoelectric power study on high-Tc Bi2122 and -2223 oxides intercalated with organic molecules zincphtalocyanine 1995 3 "Department of physics,National Taiwan University,Taipei,Taiwan" "Physica C.,244(1995)305-310" 5738 PHC2440305 Bi2Sr2CaCu2O8-(Zn Pc)xBi2Sr2CaCu2O8 Zn0.01Pc0.01Bi2Sr2Ca1Cu2Oz Zn 0.01 Pc 0.01 Bi 2 Sr 2 Ca 1 Cu 2 O z 1995 K 74 74 TP5738 "(Bi2212+single cryotal Zn Pc)-pellet-Pyrextube(10E-2TON)-heat(490C,15min-several hours)" Thermoelectric power study on high-Tc Bi2122 and -2223 oxides intercalated with organic molecules zincphtalocyanine 1995 3 "Department of physics,National Taiwan University,Taipei,Taiwan" "Physica C.,244(1995)305-310" 5739 PHC2440305 Bi2Sr2CaCu2O8-(Zn Pc)xBi2Sr2CaCu2O8 Zn0.02Pc0.02Bi2Sr2Ca1Cu2Oz Zn 0.02 Pc 0.02 Bi 2 Sr 2 Ca 1 Cu 2 O z 1995 K 67 67 TP5739 "(Bi2212+single cryotal Zn Pc)-pellet-Pyrextube(10E-2TON)-heat(490C,15min-several hours)" Thermoelectric power study on high-Tc Bi2122 and -2223 oxides intercalated with organic molecules zincphtalocyanine 1995 3 "Department of physics,National Taiwan University,Taipei,Taiwan" "Physica C.,244(1995)305-310" 5740 PHC2440305 Bi2Sr2Ca2Cu3O10 Bi2Sr2Ca2Cu3Oz Bi 2 Sr 2 Ca 2 Cu 3 O z 1995 Bi2223 K 110 110 TP5740 "(Bi2212+single cryotal Zn Pc)-pellet-Pyrextube(10E-2TON)-heat(490C,15min-several hours)" Thermoelectric power study on high-Tc Bi2122 and -2223 oxides intercalated with organic molecules zincphtalocyanine 1995 3 "Department of physics,National Taiwan University,Taipei,Taiwan" "Physica C.,244(1995)305-310" 5741 PHC2440305 (Zn Pc)xBi2Sr2Ca2Cu3O10 Zn0.005Pc0.005Bi2Ca2Cu3Oz Zn 0.005 Pc 0.005 Bi 2 Ca 2 Cu 3 O z 1995 Bi2223 K 94 94 TP5741 "(Bi2212+single cryotal Zn Pc)-pellet-Pyrextube(10E-2TON)-heat(490C,15min-several hours)" Thermoelectric power study on high-Tc Bi2122 and -2223 oxides intercalated with organic molecules zincphtalocyanine 1995 3 "Department of physics,National Taiwan University,Taipei,Taiwan" "Physica C.,244(1995)305-310" 5742 PHC2440305 (Zn Pc)xBi2Sr2Ca2Cu3O10 Zn0.01Pc0.01Bi2Sr2Ca2Cu3Oz Zn 0.01 Pc 0.01 Bi 2 Sr 2 Ca 2 Cu 3 O z 1995 Bi2223 K 88 88 TP5742 "(Bi2212+single cryotal Zn Pc)-pellet-Pyrextube(10E-2TON)-heat(490C,15min-several hours)" Thermoelectric power study on high-Tc Bi2122 and -2223 oxides intercalated with organic molecules zincphtalocyanine 1995 3 "Department of physics,National Taiwan University,Taipei,Taiwan" "Physica C.,244(1995)305-310" 5743 PHC2440341 "ANN(300C,6H under 90 bar O2)" "Tl(Ba,Sr)2 Ca2 Cu3 O9" Tl1Ba0.8Sr1.2Ca2Cu3O9-z Tl 1 Ba 0.8 Sr 1.2 Ca 2 Cu 3 O 9-z 3 1995 Tl1223 K 95 95 90 HIR5743 19.1 1660 "SrCuO2,Tl2O3,CuO,BaO2,CaO" sealed in silica ampoule-heatin vertical furnace Magnetic study of an overdoped %a1223%a system: TlBa0.8Sr1.2Ca2Cu3O9-delta single crystals 1995 "Laboratoire CRISMAT-CNRS URA 1318-ISMRa-Universite' de Caen, Boulevard du Mare'chal Juin, 14050 Caen Cedex, France" "Physica.C,244(1995)341-348" 5744 PHC2440341 "ANN(360C,30min in H2-Ar Fl)ow" "Tl(Ba,Sr)2 Ca2 Cu3 O9" Tl1Ba0.8Sr1.2Ca2Cu3O9-z Tl 1 Ba 0.8 Sr 1.2 Ca 2 Cu 3 O 9-z 3 1995 Tl1223 K 115 115 105 HIR5744 17.7 1660 "SrCuO2,Tl2O3,CuO,BaO2,CaO" sealed in silica ampoule-heatin vertical furnace Magnetic study of an overdoped %a1223%a system: TlBa0.8Sr1.2Ca2Cu3O9-delta single crystals 1995 "Laboratoire CRISMAT-CNRS URA 1318-ISMRa-Universite' de Caen, Boulevard du Mare'chal Juin, 14050 Caen Cedex, France" "Physica.C,244(1995)341-348" 5745 PHC2440341 as-grown "Tl(Ba,Sr)2 Ca2 Cu3 O9" Tl1Ba0.8Sr1.2Ca2Cu3O9-z Tl 1 Ba 0.8 Sr 1.2 Ca 2 Cu 3 O 9-z 3 1995 Tl1223 K 98 98 90 HIR5745 19.1 1640 "SrCuO2,Tl2O3,CuO,BaO2,CaO" sealed in silica ampoule-heatin vertical furnace Magnetic study of an overdoped %a1223%a system: TlBa0.8Sr1.2Ca2Cu3O9-delta single crystals 1995 "Laboratoire CRISMAT-CNRS URA 1318-ISMRa-Universite' de Caen, Boulevard du Mare'chal Juin, 14050 Caen Cedex, France" "Physica.C,244(1995)341-348" 5746 PHC2440389 "epitaxial film,G-L parameter=31" "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-z Nd 1.85 Ce 0.15 Cu 1 O 4-z 1995 T' K 21.7 21.7 T 5.2 T/K 0.35 A 80 A 2480 "target=Nd1.85 Ce0.15 Cu Oz,substrate=(100)Sr Ti O3 T(sub)=795C,sputtering(0.35mbar Ar+0.25mbar O2)" Fabrication and electrical transprot properties of epitaxial Nd1.85Ce0.15CuO4-y films 1995 3 "Physikalisches Institut,Lehrstuhl Experimentalphysik II,University of Tubingen Morgenstelle 14,D-72076 Tubingen,Germany" "Physica C.,244(1995)389-399" 5747 PHC2450270 Sr2 Cu(O2 F2) Sr2Cu1F2O2 Sr 2 Cu 1 F 2 O 2 1995 K 40 40 subjecting Sr2 Cu O3 to flowing 95% Ne/5% F2 at 180C for 20 min Anomalous pressure dependence of the superconducting transition temperature of Sr2CuO2F2+z 1995 4 "Sandia National Laboratories,Albuquerque,NM 87185-0345,USA" "Physica C.,245(1995)270-272" 5748 PHC2450036 Y Ba2 Cu3 O7 Y1Ba2Cu3O6.92 Y 1 Ba 2 Cu 3 O 7-z 6.92 1 1995 Y123 K 92.2 1.1 92.2 70 SP5748 25.091 446.7 "Y2O3,BaCo3,CuO" "ANN(930C,12H in air )-final ANN(500C,10-12H in flowing O2)-FC" Electron and phonon characteristics of YBa2Cu3O7-z 1995 4 "Institute of Inorganic Chemistry,Novosibirsk,630090,Russian Federation" "Physica C.,245(1995)36-40" 5749 PHC2450207 prepared immdiately "(Hg,Cu)Ba2 Cu O4" Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1 1995 2 Hg1201 3.872 9.479 K 50 50 "high pressure synthesis,pellet-Au capsule-prees(18Kbar,900C,0.6H)" On the possibility of replacing Hg by Cu in the Hgba2CuO4+z phase synthesized under high-pressure 1995 4 "Laboratoire de Cristallographie,CNRS-UJF,BP 166,38042 Grenoble cedex 09,France" "Physica C.,245(1995)207-211" 5750 PHC2450207 Hg1201+unknown inpuriq "(Hg,Cu)Ba2 Cu O4" Hg0.75Ba2Cu1.25O4+z Hg 0.75 Ba 2 Cu 1.25 O 4+z 1 1995 2 Hg1201 3.868 9.485 K 4.2 "high pressure synthesis,pellet-Au capsule-prees(18Kbar,900C,0.6H)" On the possibility of replacing Hg by Cu in the Hgba2CuO4+z phase synthesized under high-pressure 1995 4 "Laboratoire de Cristallographie,CNRS-UJF,BP 166,38042 Grenoble cedex 09,France" "Physica C.,245(1995)207-211" 5751 PHC2450001 "85%Hg1234+3% Hg1223+7% Hg1245,data for Hg1234, Tc=3step(132K,116K,96K)" Hg Ba2 Ca3 Cu4 O10 Hg1Ba2Ca3Cu4O10+z Hg 1 Ba 2 Ca 3 Cu 4 O 10+z 1995 2 Hg1234 3.852 18.943 K 116 132 116 HIR5751 1 "precursor(Ba2 Cu3 Cu4 Oz)-mixed with HgO-Au capsule-prees up to 18kbar-heat(920C,1.7H)-standuid state" Magnetic properties of the HgBa2Ca3Cu4O10+z superconducting phase 1995 4 "Departmento de Fisica,FCUL,Campo Grande,Ed.C1,1700 Lisboa,Portugal" "Physica C.,245(1995)1-5" 5752 PHC2460351 ANN(763K) "Hg Sr2 Ca (Cu,Re)2 Oz" Hg1Sr2Ca1Cu1.8Re0.2Oz Hg 1 Sr 2 Ca 1 Cu 1.8 Re 0.2 O z 1995 2 Hg1212 3.816 12.066 K 90 90 Precursor +HgO High-pressure synthesis and superconductivity of a Ba free mercury-based superconductor(Hg0.75Re0.25)Sr2Ca2Cu3Oy 1995 5 "Institute for Chemical Research,kyoto University,Uji.Kyoto-fu 611,Japan" "Physica C.,246(1995)351-356" 5753 PHC2460351 as-prepared "(Hg,Re)Sr2 Ca2 Cu3 Oz" Hg0.75Re0.25Sr2Ca2Cu3Oz Hg 0.75 Re 0.25 Sr 2 Ca 2 Cu 3 O z 1995 2 Hg1223 3.816 15.213 K 100 100 Precursor +HgO High-pressure synthesis and superconductivity of a Ba free mercury-based superconductor(Hg0.75Re0.25)Sr2Ca2Cu3Oy 1995 5 "Institute for Chemical Research,kyoto University,Uji.Kyoto-fu 611,Japan" "Physica C.,246(1995)351-356" 5754 PHC2460351 "ANN(783C,in evacuated quartz ampoule)" "(Hg,Re)Sr2 Ca2 Cu3 Oz" Hg0.75Re0.25Sr2Ca2Cu3Oz Hg 0.75 Re 0.25 Sr 2 Ca 2 Cu 3 O z 1995 2 Hg1223 3.83 15.227 K 120 120 Precursor +HgO High-pressure synthesis and superconductivity of a Ba free mercury-based superconductor(Hg0.75Re0.25)Sr2Ca2Cu3Oy 1995 5 "Institute for Chemical Research,kyoto University,Uji.Kyoto-fu 611,Japan" "Physica C.,246(1995)351-356" 5758 JSC1100032 semicon-like Nb Sr2 Sm Cu2 O8 Nb1Sr2Sm1Cu2O8-z Nb 1 Sr 2 Sm 1 Cu 2 O 8-z 1 1994 2 1212 P4/mmm 3.877 11.636 K 10 980 "M2O5,RuO2,BaCO3,SrCO3,Pr6O11,Sm2O3,CuO" 1 "CAL,SIN(1040,1050C,20H in air" "Preparation and Characterization of New 1-2-1-2 Compounds MA2RECu2O8-z (M=Nb or Ta, A=Ba or Sr, and RE=Pr or Sm )" 1994 "Angewandte Physik, Johannes-Kepler Uniersita""t Linz, A4040 Linz, Austria" J.Solid State Chem(1994)32-35 5759 JSC1100032 "in purity phase=SrCuO2,semicon" Ta Sr2 Sm Cu2 O8 Ta1Sr2Sm1Cu1O8-z Ta 1 Sr 2 Sm 1 Cu 1 O 8-z 1994 2 1212 3.872 11.676 K 10 4790 "M2O5,RuO2,BaCO3,SrCO3,Pr6O11,Sm2O3,CuO" 1 "CAL,SIN(1040,1050C,20H in air" "Preparation and Characterization of New 1-2-1-2 Compounds MA2RECu2O8-z (M=Nb or Ta, A=Ba or Sr, and RE=Pr or Sm )" 1994 "Angewandte Physik, Johannes-Kepler Uniersita""t Linz, A4040 Linz, Austria" J.Solid State Chem(1994)32-35 5760 JSC1100032 semicon Nb Sr2 Pr Cu2 O8 Nb1Sr2Pr1Cu2O8.01 Nb 1 Sr 2 Pr 1 Cu 2 O 8-z 8.01 1994 2 1212 3.892 11.681 K 10 670 "M2O5,RuO2,BaCO3,SrCO3,Pr6O11,Sm2O3,CuO" 1 "CAL,SIN(1040,1050C,20H in air" "Preparation and Characterization of New 1-2-1-2 Compounds MA2RECu2O8-z (M=Nb or Ta, A=Ba or Sr, and RE=Pr or Sm )" 1994 "Angewandte Physik, Johannes-Kepler Uniersita""t Linz, A4040 Linz, Austria" J.Solid State Chem(1994)32-35 5761 JSC1100032 semicon TaSr2PrCu2O8 Ta1Sr1Pr1Cu2O8-z Ta 1 Sr 1 Pr 1 Cu 2 O 8-z 1994 2 1222 P/4mmm 3.89 11.713 K "M2O5,RuO2,BaCO3,SrCO3,Pr6O11,Sm2O3,CuO" 1 "CAL,SIN(1040,1050C,20H in air" "Preparation and Characterization of New 1-2-1-2 Compounds MA2RECu2O8-z (M=Nb or Ta, A=Ba or Sr, and RE=Pr or Sm )" 1994 "Angewandte Physik, Johannes-Kepler Uniersita""t Linz, A4040 Linz, Austria" J.Solid State Chem(1994)32-35 5762 JSC1100032 semicon NbBa2PrCu2O8 Nb1Ba2Pr1Cu2O7.96 Nb 1 Ba 2 Pr 1 Cu 2 O 8-z 7.96 1994 2 1222 P/4mmm 3.95 11.947 K "M2O5,RuO2,BaCO3,SrCO3,Pr6O11,Sm2O3,CuO" 1 "CAL,SIN(1040,1050C,20H in air" "Preparation and Characterization of New 1-2-1-2 Compounds MA2RECu2O8-z (M=Nb or Ta, A=Ba or Sr, and RE=Pr or Sm )" 1994 "Angewandte Physik, Johannes-Kepler Uniersita""t Linz, A4040 Linz, Austria" J.Solid State Chem(1994)32-35 5763 JSC1100032 semicon "(Nb,Ru)Sr2 Sm Cu2 O8" Nb0.9Ru0.1Sr2Sm1Cu2O8-z Nb 0.9 Ru 0.1 Sr 2 Sm 1 Cu 2 O 8-z 1994 2 1212 3.8741 11.626 K 10 "M2O5,RuO2,BaCO3,SrCO3,Pr6O11,Sm2O3,CuO" 1 "CAL,SIN(1040,1050C,20H in air" "Preparation and Characterization of New 1-2-1-2 Compounds MA2RECu2O8-z (M=Nb or Ta, A=Ba or Sr, and RE=Pr or Sm )" 1994 "Angewandte Physik, Johannes-Kepler Uniersita""t Linz, A4040 Linz, Austria" J.Solid State Chem(1994)32-35 5764 JSC1100032 semicon "(Nb,Ru)Sr2 Sm Cu2 O8" Nb0.8Ru0.2Sr2Sm1Cu2O8-z Nb 0.8 Ru 0.2 Sr 2 Sm 1 Cu 2 O 8-z 1994 2 1212 3.8712 11.617 K 10 "M2O5,RuO2,BaCO3,SrCO3,Pr6O11,Sm2O3,CuO" 1 "CAL,SIN(1040,1050C,20H in air" "Preparation and Characterization of New 1-2-1-2 Compounds MA2RECu2O8-z (M=Nb or Ta, A=Ba or Sr, and RE=Pr or Sm )" 1994 "Angewandte Physik, Johannes-Kepler Uniersita""t Linz, A4040 Linz, Austria" J.Solid State Chem(1994)32-35 5765 JSC1100032 semicon "(Nb,Ru)Sr2 Sm Cu2 O8" Nb0.7Ru0.3Sr2Sm1Cu2O8-z Nb 0.7 Ru 0.3 Sr 2 Sm 1 Cu 2 O 8-z 1994 2 1212 3.8688 11.609 K 10 "M2O5,RuO2,BaCO3,SrCO3,Pr6O11,Sm2O3,CuO" 1 "CAL,SIN(1040,1050C,20H in air" "Preparation and Characterization of New 1-2-1-2 Compounds MA2RECu2O8-z (M=Nb or Ta, A=Ba or Sr, and RE=Pr or Sm )" 1994 "Angewandte Physik, Johannes-Kepler Uniersita""t Linz, A4040 Linz, Austria" J.Solid State Chem(1994)32-35 5766 JSC1100032 semicon "(Nb,Ru)Sr2 Sm Cu2 O8" Nb0.6Ru0.4Sr2Sm1Cu2O8-z Nb 0.6 Ru 0.4 Sr 2 Sm 1 Cu 2 O 8-z 1994 2 1212 3.8624 11.59 K 10 "M2O5,RuO2,BaCO3,SrCO3,Pr6O11,Sm2O3,CuO" 1 "CAL,SIN(1040,1050C,20H in air" "Preparation and Characterization of New 1-2-1-2 Compounds MA2RECu2O8-z (M=Nb or Ta, A=Ba or Sr, and RE=Pr or Sm )" 1994 "Angewandte Physik, Johannes-Kepler Uniersita""t Linz, A4040 Linz, Austria" J.Solid State Chem(1994)32-35 5767 SUP0080021 not SIc "(Y,Ca)Sr2(Cu2,Ga)O7" Y0.65Ca0.35Sr2Cu2Ga1O6.94 Y 0.65 Ca 0.35 Sr 2 Cu 2 Ga 1 O 7-z 6.94 1995 3 Y123 5.386 5.474 22.814 K 10 "Y2O3,CaCo3,SrCO3,BaCO3,CuO,Ga2O3" 1 "mixture-CAL(1050C,20H in air)-pellet-SIN(1050 or1000C,in O2)-ANN(460C,30H in O2)-cool to RT" "Synthesis,Composition,and Structure of Superconducting (Y,Ca)(Sr,Ba)2GaO7-z" 1995 1 "Superconductivity Research Group,School of Chemistry,University of Birmingham,Birmingham B15 2TT,United kingdom." "J.Supercomductivity.,8(1995)21-25" 5768 SUP0080021 ANN in 350 bar O2 at 500c "(Y,Ca)Sr2(Cu2,Ga)O7" Y0.65Ca0.35Sr2Cu2Ga1O6.99 Y 0.65 Ca 0.35 Sr 2 Cu 2 Ga 1 O 7-Z 6.99 1995 3 Y123 5.384 5.474 22.815 K 27 27 "Y2O3,CaCo3,SrCO3,BaCO3,CuO,Ga2O3" 1 "mixture-CAL(1050C,20H in air)-pellet-SIN(1050 or1000C,in O2)-ANN(460C,30H in O2)-cool to RT" "Synthesis,Composition,and Structure of Superconducting (Y,Ca)(Sr,Ba)2GaO7-z" 1995 1 "Superconductivity Research Group,School of Chemistry,University of Birmingham,Birmingham B15 2TT,United kingdom." "J.Supercomductivity.,8(1995)21-25" 5769 SUP0080021 not S/C "(Y,Ca)Sr2(Cu2,Ga)O7" Y0.6Ca0.4Sr2Cu2Ga1O0.92 Y 0.6 Ca 0.4 Sr 2 Cu 2 Ga 1 O 7-z 0.92 1995 3 Y123 5.386 5.475 22.816 K 10 "Y2O3,CaCo3,SrCO3,BaCO3,CuO,Ga2O3" 1 "mixture-CAL(1050C,20H in air)-pellet-SIN(1050 or1000C,in O2)-ANN(460C,30H in O2)-cool to RT" "Synthesis,Composition,and Structure of Superconducting (Y,Ca)(Sr,Ba)2GaO7-z" 1995 1 "Superconductivity Research Group,School of Chemistry,University of Birmingham,Birmingham B15 2TT,United kingdom." "J.Supercomductivity.,8(1995)21-25" 5770 SUP0080021 ANN in 350 bar O2 at 500C "(Y,Ca)Sr2(Cu2,Ga)O7" Y0.6Ca0.4Sr2Cu2Ga1O7 Y 0.6 Ca 0.4 Sr 2 Cu 2 Ga 1 O 7-z 7 1995 3 Y123 5.382 5.472 22.805 K 41 41 "Y2O3,CaCo3,SrCO3,BaCO3,CuO,Ga2O3" 1 "mixture-CAL(1050C,20H in air)-pellet-SIN(1050 or1000C,in O2)-ANN(460C,30H in O2)-cool to RT" "Synthesis,Composition,and Structure of Superconducting (Y,Ca)(Sr,Ba)2GaO7-z" 1995 1 "Superconductivity Research Group,School of Chemistry,University of Birmingham,Birmingham B15 2TT,United kingdom." "J.Supercomductivity.,8(1995)21-25" 5771 SUP0080021 "(Y,Ca)(Sr,Ba)2(Cu2,Ga)O7" Y0.6Ca0.4Sr1.8Ba0.2Cu2Ga1O7-z Y 0.6 Ca 0.4 Sr 1.8 Ba 0.2 Cu 2 Ga 1 O 7-z 1995 Y123 K 45 45 1 "ANN(500C,100H in 350bar O2)" "Synthesis,Composition,and Structure of Superconducting (Y,Ca)(Sr,Ba)2GaO7-z" 1995 1 "Superconductivity Research Group,School of Chemistry,University of Birmingham,Birmingham B15 2TT,United kingdom." "J.Supercomductivity.,8(1995)21-25" 5772 SUP0080021 "(Y,Ca)(Sr,Ba)2(Cu2,Ga)O7" Y0.6Ca0.4Sr1.7Ba0.3Cu2Ga1O7-z Y 0.6 Ca 0.4 Sr 1.7 Ba 0.3 Cu 2 Ga 1 O 7-z 1995 Y123 K 50 50 1 "ANN(500C,100H in 350bar O2)" "Synthesis,Composition,and Structure of Superconducting (Y,Ca)(Sr,Ba)2GaO7-z" 1995 1 "Superconductivity Research Group,School of Chemistry,University of Birmingham,Birmingham B15 2TT,United kingdom." "J.Supercomductivity.,8(1995)21-25" 5773 SUP0080021 "(Y,Ca)(Sr,Ba)2(Cu2,Ga)O7" Y0.6Ca0.4Sr1.6Ba0.4Cu2Ga1O7-z Y 0.6 Ca 0.4 Sr 1.6 Ba 0.4 Cu 2 Ga 1 O 7-z 1995 Y123 K 56 56 1 "ANN(500C,100H in 350bar O2)" "Synthesis,Composition,and Structure of Superconducting (Y,Ca)(Sr,Ba)2GaO7-z" 1995 1 "Superconductivity Research Group,School of Chemistry,University of Birmingham,Birmingham B15 2TT,United kingdom." "J.Supercomductivity.,8(1995)21-25" 5774 SUP0080021 "(Y,Ca)Sr2 Ga Cu2 O7" Y0.6Ca0.4Sr2Ga1Cu2O7 Y 0.6 Ca 0.4 Sr 2 Ga 1 Cu 2 O 7 1995 3 22.816 5.475 5.386 K 4.2 "Y2O3,CaCO3,SrCO3,BaCO3,CuO,Ga2O3" 1 "pellet-SIN(1050C in O2)-ANN(460C,30min)-RT" "Synthesis,Composition,and Structure of Superconducting (Y,Ca)(Sr,Ba)2GaO7-z" 1995 1 "Superconductivity Research Group,School of Chemistry,University of Birmingham,Birmingham B15 2TT,United kingdom." "J.Supercomductivity.,8(1995)21-25" 5775 SUP0080021 "(Y,Ca)Sr2 Cu2 Ga O7" Y0.6Ca0.4Sr2Ga1Cu2O7 Y 0.6 Ca 0.4 Sr 2 Ga 1 Cu 2 O 7 1995 3 22.805 5.472 5.382 K 41 41 "Y2O3,CaCO3,SrCO3,BaCO3,CuO,Ga2O3" 1 "pellet-SIN(1050C in O2)-ANN(460C,30min)-RT-heat(500C,100H in 350 bar O2)" "Synthesis,Composition,and Structure of Superconducting (Y,Ca)(Sr,Ba)2GaO7-z" 1995 1 "Superconductivity Research Group,School of Chemistry,University of Birmingham,Birmingham B15 2TT,United kingdom." "J.Supercomductivity.,8(1995)21-25" 5776 SUP0080021 "(Y,Ca)Sr2 Ga Cu2 O7" Y0.65Ca0.35Sr2Ga1Cu2O7 Y 0.65 Ca 0.35 Sr 2 Ga 1 Cu 2 O 7 1995 3 Y123 22.814 5.474 5.386 K 4.2 "Y2O3,CaCO3,SrCO3,BaCO3,CuO,Ga2O3" 1 "pellet-SIN(1050C in O2)-ANN(460C,30min)-RT" "Synthesis,Composition,and Structure of Superconducting (Y,Ca)(Sr,Ba)2GaO7-z" 1995 1 "Superconductivity Research Group,School of Chemistry,University of Birmingham,Birmingham B15 2TT,United kingdom." "J.Supercomductivity.,8(1995)21-25" 5777 SUP0080021 "(Y,Ca)Sr2 Ga Cu2 O7" Y0.65Ca0.35Sr2Ga1Cu2O7 Y 0.65 Ca 0.35 Sr 2 Ga 1 Cu 2 O 7 1995 3 Y123 22.815 5.474 5.384 K 27 27 "Y2O3,CaCO3,SrCO3,BaCO3,CuO,Ga2O3" 1 "pellet-SIN(1050C in O2)-ANN(460C,30min)-RT-heat(500C,100H in 350 bar O2)" "Synthesis,Composition,and Structure of Superconducting (Y,Ca)(Sr,Ba)2GaO7-z" 1995 1 "Superconductivity Research Group,School of Chemistry,University of Birmingham,Birmingham B15 2TT,United kingdom." "J.Supercomductivity.,8(1995)21-25" 5778 SUP0080021 "(Y,Ca)(Sr,Ba)Cu2 Ga O7" Y0.6Ca0.4Sr1.8Ba0.2Cu2Ga1O7-z Y 0.6 Ca 0.4 Sr 1.8 Ba 0.2 Cu 2 Ga 1 O 7-z 1995 Y123 K 45 45 "Y2O3,CaCO3,SrCO3,BaCO3,CuO,Ga2O3" 1 "pellet-SIN(1050C in O2)-ANN(460C,30min)-RT-heat(500C,100H in 350 bar O2)" "Synthesis,Composition,and Structure of Superconducting (Y,Ca)(Sr,Ba)2GaO7-z" 1995 1 "Superconductivity Research Group,School of Chemistry,University of Birmingham,Birmingham B15 2TT,United kingdom." "J.Supercomductivity.,8(1995)21-25" 5779 SUP0080021 "(Y,Ca)(Sr,Ba)Cu2 Ga O7" Y0.6Ca0.4Sr1.7Ba0.3Cu2Ga1O7-z Y 0.6 Ca 0.4 Sr 1.7 Ba 0.3 Cu 2 Ga 1 O 7-z 1995 Y123 K 50 50 "Y2O3,CaCO3,SrCO3,BaCO3,CuO,Ga2O3" 1 "pellet-SIN(1050C in O2)-ANN(460C,30min)-RT-heat(500C,100H in 350 bar O2)" "Synthesis,Composition,and Structure of Superconducting (Y,Ca)(Sr,Ba)2GaO7-z" 1995 1 "Superconductivity Research Group,School of Chemistry,University of Birmingham,Birmingham B15 2TT,United kingdom." "J.Supercomductivity.,8(1995)21-25" 5780 SUP0080021 "(Y,Ca)(Sr,Ba)Cu2 Ga O7" Y0.6Ca0.4Sr1.6Ba0.4Cu2Ga1O7-z Y 0.6 Ca 0.4 Sr 1.6 Ba 0.4 Cu 2 Ga 1 O 7-z 1995 Y123 K 56 56 "Y2O3,CaCO3,SrCO3,BaCO3,CuO,Ga2O3" 1 "pellet-SIN(1050C in O2)-ANN(460C,30min)-RT-heat(500C,100H in 350 bar O2)" "Synthesis,Composition,and Structure of Superconducting (Y,Ca)(Sr,Ba)2GaO7-z" 1995 1 "Superconductivity Research Group,School of Chemistry,University of Birmingham,Birmingham B15 2TT,United kingdom." "J.Supercomductivity.,8(1995)21-25" 5781 PHC2490111 "Two step transitions in SUS. Tc shows higher value (minor phase Pb1223). The lower is 70K (major phase Pb1212: a=3.81, b=3.83, c=12.1). O-content is nominal value. impurity phase: Sr3Pb2.03Cu0.73O7.70" "(Pb,Cu)Sr2CaCu2Oz" Pb0.5Sr2Ca1Cu2.5O6.8 Pb 0.5 Sr 2 Ca 1 Cu 2.5 O z 6.8 1995 3 Pb1223 3.82 15.5 K 115 115 "PbO,SrCuO2,Ca2CuO3,KClO4" "K Cl O4 is doled as oxidiqing agent,pellet-press to 5.0GPa-heat(900C,0.5H)-FC" 115 K superconductivity in the Pb-Sr-Ca-Cu-O system and formation of a new homologous series consisting of Pb-based layered cuprates 1995 6 "Superconductivity Research Laboratory,International Superconductivity Technoligy Center,10-13 Shinonome 1-chome,Koto-ku,Tokyo 135,Japan" "Physica C.,249(1995)111-116" 5782 PHC2490001 Tc(zero)below 13K "(Hg,Pb)Sr2(R,Ce)2Cu2Oz" Hg0.5Pb0.5Sr2Gd1.5Ce0.5Cu2Oz Hg 0.5 Pb 0.5 Sr 2 Gd 1.5 Ce 0.5 Cu 2 O z 1 1995 2 Hg1222 3.846 29.418 K 38 38 1 "precursor(Sr2(Ln,Ce)2 Cu2 Oz)by citrate gel process-mix with PbO,HgO-pellet-seal in quartz tubu-heat(920C,10H)-ANN(400,in O2 flow or 10bar O2)" "(Hg,Pb)Sr2(Ln,Ce)2Cu2Oz(Ln=Gd,Nd),a new family of mercury-lesd-based superconducting cuprates" 1995 6 "Department of Applied Chemistry,University of Science and Technology of China;Structure Research Laboratory,University of Science and Technology of China Academia Sinica,Hefei 230026,China" "Physica C.,249(1995)1-4" 5783 PHC2490001 dominant phase=1222 "(Hg,Pb)Sr2(R,Ce)2 Cu2 Oz" Hg0.5Pb0.5Sr2Eu1.5Ce0.5Cu2Oz Hg 0.5 Pb 0.5 Sr 2 Eu 1.5 Ce 0.5 Cu 2 O z 1995 2 Hg1222 3.851 29.43 K 4.2 1 "precursor(Sr2(Ln,Ce)2 Cu2 Oz)by citrate gel process-mix with PbO,HgO-pellet-seal in quartz tubu-heat(920C,10H)-ANN(400,in O2 flow or 10bar O2)" "(Hg,Pb)Sr2(Ln,Ce)2Cu2Oz(Ln=Gd,Nd),a new family of mercury-lesd-based superconducting cuprates" 1995 6 "Department of Applied Chemistry,University of Science and Technology of China;Structure Research Laboratory,University of Science and Technology of China Academia Sinica,Hefei 230026,China" "Physica C.,249(1995)1-4" 5784 PHC2490001 dominant phase=1222 "(Hg,Pb)Sr2(R,Ce)2 Cu2 Oz" Hg0.5Pb0.5Sr2Sm1.5Ce0.5Cu2Oz Hg 0.5 Pb 0.5 Sr 2 Sm 1.5 Ce 0.5 Cu 2 O z 1995 2 Hg1222 3.853 29.439 K 4.2 1 "precursor(Sr2(Ln,Ce)2 Cu2 Oz)by citrate gel process-mix with PbO,HgO-pellet-seal in quartz tubu-heat(920C,10H)-ANN(400,in O2 flow or 10bar O2)" "(Hg,Pb)Sr2(Ln,Ce)2Cu2Oz(Ln=Gd,Nd),a new family of mercury-lesd-based superconducting cuprates" 1995 6 "Department of Applied Chemistry,University of Science and Technology of China;Structure Research Laboratory,University of Science and Technology of China Academia Sinica,Hefei 230026,China" "Physica C.,249(1995)1-4" 5785 PHC2490001 semiconductor "(Hg,Pb)Sr2(R,Ce)2 Cu2 Oz" Hg0.5Pb0.5Sr2Nd1.5Ce0.5Cu2Oz Hg 0.5 Pb 0.5 Sr 2 Nd 1.5 Ce 0.5 Cu 2 O z 1 1995 2 Hg1222 3.872 29.496 K 4.2 1 "precursor(Sr2(Ln,Ce)2 Cu2 Oz)by citrate gel process-mix with PbO,HgO-pellet-seal in quartz tubu-heat(920C,10H)-ANN(400,in O2 flow or 10bar O2)" "(Hg,Pb)Sr2(Ln,Ce)2Cu2Oz(Ln=Gd,Nd),a new family of mercury-lesd-based superconducting cuprates" 1995 6 "Department of Applied Chemistry,University of Science and Technology of China;Structure Research Laboratory,University of Science and Technology of China Academia Sinica,Hefei 230026,China" "Physica C.,249(1995)1-4" 5786 PHC2030115 450-470C Na OH react at "(La,Na)2CuO4" La1.96Na0.4Cu1O4 La 1.96 Na 0.4 Cu 1 O 4 1992 2 T 5.361 13.158 K 31 31 "La2 O3,Cu O,R OH" "low temperature hydroxide melt technique. La2 O3,Cu O in Na OH,KOH,RbOH,CsOH,melt under air" LOW TEMPERATURE SYNTHESIS AND PROPERTIES OF SUPERCONDUCTING ALKALI SUBSTITUTED LA2CUO4 PHASE 1992 12 "INSTITUT FUR ANORGANISCHE UND ANALYTISCHE CHEMIE, TECHNISCHE UNIVERSITAT BERLIN, GERMANY" "PHYSICA C,203(1992)115" "LA,CU,O,NA,K,RB,CS" 5787 PHC2030115 react at 390C KOH "(La,K)2CuO4" La1.8K0.2Cu1O4 La 1.8 K 0.2 Cu 1 O 4 1992 2 T 5.334 13.324 K 41 41 "La2 O3,Cu O,R OH" "low temperature hydroxide melt technique. La2 O3,Cu O in Na OH,KOH,RbOH,CsOH,melt under air" LOW TEMPERATURE SYNTHESIS AND PROPERTIES OF SUPERCONDUCTING ALKALI SUBSTITUTED LA2CUO4 PHASE 1992 12 "INSTITUT FUR ANORGANISCHE UND ANALYTISCHE CHEMIE, TECHNISCHE UNIVERSITAT BERLIN, GERMANY" "PHYSICA C,203(1992)115" "LA,CU,O,NA,K,RB,CS" 5788 PHC2030115 react at 700C KOH "(La,K)2CuO4" La1.92K0.08Cu1O4 La 1.92 K 0.08 Cu 1 O 4 1992 2 T 5.342 13.238 K 21 21 "La2 O3,Cu O,R OH" "low temperature hydroxide melt technique. La2 O3,Cu O in Na OH,KOH,RbOH,CsOH,melt under air" LOW TEMPERATURE SYNTHESIS AND PROPERTIES OF SUPERCONDUCTING ALKALI SUBSTITUTED LA2CUO4 PHASE 1992 12 "INSTITUT FUR ANORGANISCHE UND ANALYTISCHE CHEMIE, TECHNISCHE UNIVERSITAT BERLIN, GERMANY" "PHYSICA C,203(1992)115" "LA,CU,O,NA,K,RB,CS" 5789 PHC2030115 react in 460C RbOH "(La,Rb)2CuO4" La1.84Rb0.16Cu1O4 La 1.84 Rb 0.16 Cu 1 O 4 1992 2 T 5.346 13.314 K 13 "La2 O3,Cu O,R OH" "low temperature hydroxide melt technique. La2 O3,Cu O in Na OH,KOH,RbOH,CsOH,melt under air" LOW TEMPERATURE SYNTHESIS AND PROPERTIES OF SUPERCONDUCTING ALKALI SUBSTITUTED LA2CUO4 PHASE 1992 12 "INSTITUT FUR ANORGANISCHE UND ANALYTISCHE CHEMIE, TECHNISCHE UNIVERSITAT BERLIN, GERMANY" "PHYSICA C,203(1992)115" "LA,CU,O,NA,K,RB,CS" 5790 PHC2030115 react in 370C CsOH "(La,Cs)2CuO4" LaCsCuO La 1 Cs 1 Cu 1 O 1992 2 T 5.362 13.238 K 13 "La2 O3,Cu O,R OH" "low temperature hydroxide melt technique. La2 O3,Cu O in Na OH,KOH,RbOH,CsOH,melt under air" LOW TEMPERATURE SYNTHESIS AND PROPERTIES OF SUPERCONDUCTING ALKALI SUBSTITUTED LA2CUO4 PHASE 1992 12 "INSTITUT FUR ANORGANISCHE UND ANALYTISCHE CHEMIE, TECHNISCHE UNIVERSITAT BERLIN, GERMANY" "PHYSICA C,203(1992)115" "LA,CU,O,NA,K,RB,CS" 5791 PHC2030115 react in 520C CsOH "(La,Cs)2CuO4" LaCsCuO La 1 Cs 1 Cu 1 O 1992 3 T 5.361 5.391 13.155 K 13 "La2 O3,Cu O,R OH" "low temperature hydroxide melt technique. La2 O3,Cu O in Na OH,KOH,RbOH,CsOH,melt under air" LOW TEMPERATURE SYNTHESIS AND PROPERTIES OF SUPERCONDUCTING ALKALI SUBSTITUTED LA2CUO4 PHASE 1992 12 "INSTITUT FUR ANORGANISCHE UND ANALYTISCHE CHEMIE, TECHNISCHE UNIVERSITAT BERLIN, GERMANY" "PHYSICA C,203(1992)115" "LA,CU,O,NA,K,RB,CS" 5792 PHC2450332 Bi2 Sr2 Ca Cu2 O8 Ix Bi2Sr2Ca1Cu2O8.21 Bi 2 Sr 2 Ca 1 Cu 2 O z 8.21 1 1995 Bi2212 K 90.6 90.6 "reduced host(z=8.210 Bi2212)+I in evacuated gloss tube,host temp=150C,I-temp=40-150C for various content of I" Carrier doping through iodine intercalation into Bi2Sr2CaCu2O8+z with different z values 1995 4 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan" "Physica C.,245(1995)332-340" 5793 PHC2450332 Bi2 Sr2 Ca Cu2 O8 Ix Bi2Sr2Ca1Cu2I0.03O8.21 Bi 2 Sr 2 Ca 1 Cu 2 I 0.03 O z 8.21 1 1995 Bi2212 K 86.6 86.6 "reduced host(z=8.210 Bi2212)+I in evacuated gloss tube,host temp=150C,I-temp=40-150C for various content of I" Carrier doping through iodine intercalation into Bi2Sr2CaCu2O8+z with different z values 1995 4 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan" "Physica C.,245(1995)332-340" 5794 PHC2450332 Bi2 Sr2 Ca Cu2 O8 Ix Bi2Sr2Ca1Cu2I0.1O8.21 Bi 2 Sr 2 Ca 1 Cu 2 I 0.1 O z 8.21 1 1995 Bi2212 K 83.9 83.9 "reduced host(z=8.210 Bi2212)+I in evacuated gloss tube,host temp=150C,I-temp=40-150C for various content of I" Carrier doping through iodine intercalation into Bi2Sr2CaCu2O8+z with different z values 1995 4 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan" "Physica C.,245(1995)332-340" 5795 PHC2450332 Bi2 Sr2 Ca Cu2 O8 Ix Bi2Sr2Ca1Cu2I0.25O8.21 Bi 2 Sr 2 Ca 1 Cu 2 I 0.25 O z 8.21 1 1995 Bi2212 K 71.6 71.6 "reduced host(z=8.210 Bi2212)+I in evacuated gloss tube,host temp=150C,I-temp=40-150C for various content of I" Carrier doping through iodine intercalation into Bi2Sr2CaCu2O8+z with different z values 1995 4 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan" "Physica C.,245(1995)332-340" 5796 PHC2450332 Bi2 Sr2 Ca Cu2 O8 Ix Bi2Sr2Ca1Cu2I0.43O8.21 Bi 2 Sr 2 Ca 1 Cu 2 I 0.43 O z 8.21 2 1995 Bi2212 K 63.1 63.1 Carrier doping through iodine intercalation into Bi2Sr2CaCu2O8+z with different z values 1995 4 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan" "Physica C.,245(1995)332-340" 5797 PHC2450332 Bi2 Sr2 Ca Cu2 O8 Ix Bi2Sr2Ca1Cu2I0.61O8.21 Bi 2 Sr 2 Ca 1 Cu 2 I 0.61 O z 8.21 2 1995 Bi2212 K 56.3 56.3 Carrier doping through iodine intercalation into Bi2Sr2CaCu2O8+z with different z values 1995 4 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan" "Physica C.,245(1995)332-340" 5798 PHC2450332 Bi2 Sr2 Ca Cu2 O8 Ix Bi2Sr2Ca2Cu2I0.86O8.21 Bi 2 Sr 2 Ca 2 Cu 2 I 0.86 O z 8.21 1 1995 Bi2212 K 50.6 50.6 Carrier doping through iodine intercalation into Bi2Sr2CaCu2O8+z with different z values 1995 4 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan" "Physica C.,245(1995)332-340" 5799 PHC2450332 Bi2 Sr2Ca Cu2 O8 Ix Bi2Sr2Ca1Cu2I0.98O8.21 Bi 2 Sr 2 Ca 1 Cu 2 I 0.98 O z 8.21 1 1995 Bi2212 K 49.3 49.3 Carrier doping through iodine intercalation into Bi2Sr2CaCu2O8+z with different z values 1995 4 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan" "Physica C.,245(1995)332-340" 5800 PHC2450332 Bi2 Sr2 Ca Cu2 O8 Ix Bi2Sr2Ca1Cu2O8.242 Bi 2 Sr 2 Ca 1 Cu 2 O 8.242 1 1995 Bi2212 K 73.9 73.9 -3.22 "as sintered host(z=8.242 Bi2212)+I in evacuated glass tube,host temp=150C,I-temp=40-150C for various content of I,24H" Carrier doping through iodine intercalation into Bi2Sr2CaCu2O8+z with different z values 1995 4 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan" "Physica C.,245(1995)332-340" 5801 PHC2450332 Bi2 Sr2 Ca Cu2 O8 Ix Bi2Sr2Ca1I0.06O8.242 Bi 2 Sr 2 Ca 1 I 0.06 O 8.242 1 1995 Bi2212 K -3.57 "as sintered host(z=8.242 Bi2212)+I in evacuated glass tube,host temp=150C,I-temp=40-150C for various content of I,24H" Carrier doping through iodine intercalation into Bi2Sr2CaCu2O8+z with different z values 1995 4 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan" "Physica C.,245(1995)332-340" 5802 PHC2450332 Bi2 Sr2 Ca Cu2 O8 Ix Bi2Sr2Ca1Cu2I0.2O8.242 Bi 2 Sr 2 Ca 1 Cu 2 I 0.2 O 8.242 1 1995 Bi2212 K 64.6 64.6 -4.75 "as sintered host(z=8.242 Bi2212)+I in evacuated glass tube,host temp=150C,I-temp=40-150C for various content of I,24H" Carrier doping through iodine intercalation into Bi2Sr2CaCu2O8+z with different z values 1995 4 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan" "Physica C.,245(1995)332-340" 5803 PHC2450332 Bi2 Sr2 Ca Cu2 O8 Ix Bi2Sr2Ca1Cu2I0.4O8.242 Bi 2 Sr 2 Ca 1 Cu 2 I 0.4 O 8.242 1 1995 Bi2212 K 56.7 56.7 -5.26 "as sintered host(z=8.242 Bi2212)+I in evacuated glass tube,host temp=150C,I-temp=40-150C for various content of I,24H" Carrier doping through iodine intercalation into Bi2Sr2CaCu2O8+z with different z values 1995 4 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan" "Physica C.,245(1995)332-340" 5804 PHC2450332 Bi2 Sr2 Ca Cu2 O8 Ix Bi2Sr2Ca1Cu2I0.69O8.242 Bi 2 Sr 2 Ca 1 Cu 2 I 0.69 O 8.242 2 1995 Bi2212 K 53.1 53.1 -4.69 "as sintered host(z=8.242 Bi2212)+I in evacuated glass tube,host temp=150C,I-temp=40-150C for various content of I,24H" Carrier doping through iodine intercalation into Bi2Sr2CaCu2O8+z with different z values 1995 4 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan" "Physica C.,245(1995)332-340" 5805 PHC2450332 Bi2Sr2CaCu2O8Ix Bi2Sr2Ca1Cu2I0.86O8.242 Bi 2 Sr 2 Ca 1 Cu 2 I 0.86 O 8.242 1 1995 Bi2212 K 55.5 55.5 -3.6 "as sintered host(z=8.242 Bi2212)+I in evacuated glass tube,host temp=150C,I-temp=40-150C for various content of I,24H" Carrier doping through iodine intercalation into Bi2Sr2CaCu2O8+z with different z values 1995 4 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan" "Physica C.,245(1995)332-340" 5806 PHC2450332 Bi2 Sr2 Ca Cu2 O8 Ix Bi2Sr2Ca1Cu2I1O8.242 Bi 2 Sr 2 Ca 1 Cu 2 I 1 O 8.242 1 1995 Bi2212 K 53 53 -3.35 "as sintered host(z=8.242 Bi2212)+I in evacuated glass tube,host temp=150C,I-temp=40-150C for various content of I,24H" Carrier doping through iodine intercalation into Bi2Sr2CaCu2O8+z with different z values 1995 4 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan" "Physica C.,245(1995)332-340" 5807 PHC2450332 Bi2 Sr2 Ca Cu2 O8 Ix Bi2Sr2Ca1Cu2O8.28 Bi 2 Sr 2 Ca 1 Cu 2 O z 8.28 1 1995 Bi2212 K "oxidiqed host (z=8.280 Bi2212)+I in evacuated glass tubu,host temp=150C,I-temp=40-150C for various content of I,24H" Carrier doping through iodine intercalation into Bi2Sr2CaCu2O8+z with different z values 1995 4 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan" "Physica C.,245(1995)332-340" 5808 PHC2450332 Bi2 Sr2 Ca Cu2 O8 Ix Bi2Sr2Ca1Cu2I0.23O8.28 Bi 2 Sr 2 Ca 1 Cu 2 I 0.23 O z 8.28 1 1995 Bi2212 K "oxidiqed host (z=8.280 Bi2212)+I in evacuated glass tubu,host temp=150C,I-temp=40-150C for various content of I,24H" Carrier doping through iodine intercalation into Bi2Sr2CaCu2O8+z with different z values 1995 4 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan" "Physica C.,245(1995)332-340" 5809 PHC2450332 Bi2 Sr2 Ca Cu2 O8 Ix Bi2Sr2Ca1Cu2I0.47O8.28 Bi 2 Sr 2 Ca 1 Cu 2 I 0.47 O Z 8.28 2 1995 Bi2212 K "oxidiqed host (z=8.280 Bi2212)+I in evacuated glass tubu,host temp=150C,I-temp=40-150C for various content of I,24H" Carrier doping through iodine intercalation into Bi2Sr2CaCu2O8+z with different z values 1995 4 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan" "Physica C.,245(1995)332-340" 5810 PHC2450332 Bi2 Sr2 Ca Cu2 O8 Ix Bi2Sr2Ca1Cu2I0.95O8.28 Bi 2 Sr 2 Ca 1 Cu 2 I 0.95 O z 8.28 1 1995 Bi2212 K "oxidiqed host (z=8.280 Bi2212)+I in evacuated glass tubu,host temp=150C,I-temp=40-150C for various content of I,24H" Carrier doping through iodine intercalation into Bi2Sr2CaCu2O8+z with different z values 1995 4 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan" "Physica C.,245(1995)332-340" 5811 SUP0080373 Y Ba2 Cu3 O7 Y1Ba2Cu3O6.92 Y 1 Ba 2 Cu 3 O z 6.92 1 1995 3 Y123 3.822 3.888 11.667 K 91.5 91.5 "Y2O3,BaCO3,CuO,TiO2" 1 "mixture-heat(950C,24H in Pt crucible)-pellet-SIN(950C,24H in air)-ANN(450C,12H in O2 flow)-cool to RT(1 C/min)" Influence of Hole Filling by Ti on the Superconductivity of YBa2Cu3O7-delta 1995 "Department of Physics, Dr. Babasahed Ambedkar Marathwada University, Aurangabad 431 004, India" "J.Superconductivity,8(1995)373" 5812 SUP0080373 "YBa2(Cu,Ti)3O7" Y1Ba2Cu2.97Ti0.03O6.92 Y 1 Ba 2 Cu 2.97 Ti 0.03 O z 6.92 1 1995 3 Y123 3.873 3.895 11.652 K 82 82 "Y2O3,BaCO3,CuO,TiO2" 1 "mixture-heat(950C,24H in Pt crucible)-pellet-SIN(950C,24H in air)-ANN(450C,12H in O2 flow)-cool to RT(1 C/min)" Influence of Hole Filling by Ti on the Superconductivity of YBa2Cu3O7-delta 1995 "Department of Physics, Dr. Babasahed Ambedkar Marathwada University, Aurangabad 431 004, India" "J.Superconductivity,8(1995)373" 5813 SUP0080373 "YBa2(Cu,Ti)3O7" Y1Ba2Cu2.94Ti0.06O6.91 Y 1 Ba 2 Cu 2.94 Ti 0.06 O z 6.91 1 1995 3 Y123 3.867 3.883 11.632 K 77 77 "Y2O3,BaCO3,CuO,TiO2" 1 "mixture-heat(950C,24H in Pt crucible)-pellet-SIN(950C,24H in air)-ANN(450C,12H in O2 flow)-cool to RT(1 C/min)" Influence of Hole Filling by Ti on the Superconductivity of YBa2Cu3O7-delta 1995 "Department of Physics, Dr. Babasahed Ambedkar Marathwada University, Aurangabad 431 004, India" "J.Superconductivity,8(1995)373" 5814 SUP0080373 "YBa2(Cu,Ti)3O7" Y1Ba2Cu2.91Ti0.09O6.9 Y 1 Ba 2 Cu 2.91 Ti 0.09 O z 6.9 1 1995 3 Y123 3.877 3.902 11.673 K 74.1 74.1 "Y2O3,BaCO3,CuO,TiO2" 1 "mixture-heat(950C,24H in Pt crucible)-pellet-SIN(950C,24H in air)-ANN(450C,12H in O2 flow)-cool to RT(1 C/min)" Influence of Hole Filling by Ti on the Superconductivity of YBa2Cu3O7-delta 1995 "Department of Physics, Dr. Babasahed Ambedkar Marathwada University, Aurangabad 431 004, India" "J.Superconductivity,8(1995)373" 5815 SUP0080373 "YBa2(Cu,Ti)3O7" Y1Ba2Cu2.88Ti0.12O6.88 Y 1 Ba 2 Cu 2.88 Ti 0.12 O z 6.88 1 1995 3 Y123 3.871 3.894 11.653 K 68.4 68.4 "Y2O3,BaCO3,CuO,TiO2" 1 "mixture-heat(950C,24H in Pt crucible)-pellet-SIN(950C,24H in air)-ANN(450C,12H in O2 flow)-cool to RT(1 C/min)" Influence of Hole Filling by Ti on the Superconductivity of YBa2Cu3O7-delta 1995 "Department of Physics, Dr. Babasahed Ambedkar Marathwada University, Aurangabad 431 004, India" "J.Superconductivity,8(1995)373" 5817 SSC0930269 "Na2(Rb,Cs)C60" Na2Rb1C60 Na 2 Rb 1 C 60 2 1995 1 ABO3 14.096 K 3.4 3.4 FULLERIDE SUPERCONDUCTORYS AND ORIENTATIONAL ORDER: Tc VS LATTICE CONSTANT IN Na2RbxCs1-xC60 1995 "Solid State Commun.,93(1995)269-274" "Na, Rb, Cs, C" 5818 SSC0930269 "Na2(Rb,Cs)C60" Na2Rb0.75Cs0.25C60 Na 2 Rb 0.75 Cs 0.25 C 60 2 1995 1 K 5.2 5.2 FULLERIDE SUPERCONDUCTORYS AND ORIENTATIONAL ORDER: Tc VS LATTICE CONSTANT IN Na2RbxCs1-xC60 1995 "Solid State Commun.,93(1995)269-274" "Na, Rb, Cs, C" 5819 SSC0930269 "Na2(Rb,Cs)C60" Na2Rb0.5Cs0.5C60 Na 2 Rb 0.5 Cs 0.5 C 60 2 1995 1 K 8.4 8.4 FULLERIDE SUPERCONDUCTORYS AND ORIENTATIONAL ORDER: Tc VS LATTICE CONSTANT IN Na2RbxCs1-xC60 1995 "Solid State Commun.,93(1995)269-274" "Na, Rb, Cs, C" 5820 SSC0930269 "Na2(Rb,Cs)C60" Na2Rb0.25Cs0.75C60 Na 2 Rb 0.25 Cs 0.75 C 60 2 1995 1 K 9.4 9.4 FULLERIDE SUPERCONDUCTORYS AND ORIENTATIONAL ORDER: Tc VS LATTICE CONSTANT IN Na2RbxCs1-xC60 1995 "Solid State Commun.,93(1995)269-274" "Na, Rb, Cs, C" 5821 SSC0930269 "Na2(Rb,Cs)C60" Na2Cs1C60 Na 2 Cs 1 C 60 2 1995 1 K 11.7 11.7 FULLERIDE SUPERCONDUCTORYS AND ORIENTATIONAL ORDER: Tc VS LATTICE CONSTANT IN Na2RbxCs1-xC60 1995 "Solid State Commun.,93(1995)269-274" "Na, Rb, Cs, C" 5822 JJP0341121 "(Ru,Nb)Sr2(Sm,Ce)2Cu2Oz" Nb1Sr2Sm1.2Ce0.8Cu2OZ Nb 1 Sr 2 Sm 1.2 Ce 0.8 Cu 2 O Z 1 1995 2 1212 3.872 28.731 K 25 25 "RuO2,Nb2O5,SrCO3,Sm2O3,CeO2,CuO" 1 "mixture-heat(1000-1050C,3H in air)-pellet-heat(1050C,12H in air)-ANN(550C,2H in 0.4MPa O2)-cool to RT" "Preparation of New Superconducting Cuprate(Ru,Nb)Sr2(Sm,Ce)2Cu2Oz" 1995 9 "Jpn.J.Appl.phys.Lett.,34(1995)L1121-L1122" "Ru, Nb, Sr, Sm, Ce, Cu,O" 5823 JJP0341121 "(Ru,Nb)Sr2(Sm,Ce)2Cu2Oz" Ru0.32Nb0.68Sr2Sm1.2Ce0.8Cu2Oz Ru 0.32 Nb 0.68 Sr 2 Sm 1.2 Ce 0.8 Cu 2 O z 2 1995 1212 K 30 30 "RuO2,Nb2O5,SrCO3,Sm2O3,CeO2,CuO" 1 "mixture-heat(1000-1050C,3H in air)-pellet-heat(1050C,12H in air)-ANN(550C,2H in 0.4MPa O2)-cool to RT" "Preparation of New Superconducting Cuprate(Ru,Nb)Sr2(Sm,Ce)2Cu2Oz" 1995 9 "Jpn.J.Appl.phys.Lett.,34(1995)L1121-L1122" "Ru, Nb, Sr, Sm, Ce, Cu,O" 5824 JJP0341121 "(Ru,Nb)Sr2(Sm,Ce)2Cu2Oz" Ru0.5Nb0.5Sr2Sm1.2Ce0.8Cu2Oz Ru 0.5 Nb 0.5 Sr 2 Sm 1.2 Ce 0.8 Cu 2 O z 1 1995 2 1212 3.859 28.663 K 32 32 "RuO2,Nb2O5,SrCO3,Sm2O3,CeO2,CuO" 1 "mixture-heat(1000-1050C,3H in air)-pellet-heat(1050C,12H in air)-ANN(550C,2H in 0.4MPa O2)-cool to RT" "Preparation of New Superconducting Cuprate(Ru,Nb)Sr2(Sm,Ce)2Cu2Oz" 1995 9 "Jpn.J.Appl.phys.Lett.,34(1995)L1121-L1122" "Ru, Nb, Sr, Sm, Ce, Cu,O" 5825 JJP0341121 "(Ru,Nb)Sr2(Sm,Ce)2Cu2Oz" Ru0.76Nb0.24Sr2Sm1.2Ce0.8Cu2Oz Ru 0.76 Nb 0.24 Sr 2 Sm 1.2 Ce 0.8 Cu 2 O z 1 1995 2 1212 3.851 28.61 K 25 25 "RuO2,Nb2O5,SrCO3,Sm2O3,CeO2,CuO" 1 "mixture-heat(1000-1050C,3H in air)-pellet-heat(1050C,12H in air)-ANN(550C,2H in 0.4MPa O2)-cool to RT" "Preparation of New Superconducting Cuprate(Ru,Nb)Sr2(Sm,Ce)2Cu2Oz" 1995 9 "Jpn.J.Appl.phys.Lett.,34(1995)L1121-L1122" "Ru, Nb, Sr, Sm, Ce, Cu,O" 5826 JJP0341121 "(Ru,Nb)Sr2(Sm,Ce)2Cu2Oz" Ru1Sr2Sm1.2Ce0.8Cu2Oz Ru 1 Sr 2 Sm 1.2 Ce 0.8 Cu 2 O z 1 1995 2 1212 3.847 28.559 K 4.2 "RuO2,Nb2O5,SrCO3,Sm2O3,CeO2,CuO" 1 "mixture-heat(1000-1050C,3H in air)-pellet-heat(1050C,12H in air)-ANN(550C,2H in 0.4MPa O2)-cool to RT" "Preparation of New Superconducting Cuprate(Ru,Nb)Sr2(Sm,Ce)2Cu2Oz" 1995 9 "Jpn.J.Appl.phys.Lett.,34(1995)L1121-L1122" "Ru, Nb, Sr, Sm, Ce, Cu,O" 5827 PHC2490111 O-content is nominal value. impurity phase: Sr3Pb2.03Cu0.73O7.70. "(Pb,Cu)Sr2CaCu2Oz" Pb0.5Sr2Ca1Cu2.5O7.4 Pb 0.5 Sr 2 Ca 1 Cu 2.5 O z 7.4 1995 3 Pb1212 3.76 3.85 12.3 K 4.2 "PbO,SrCuO2,Ca2CuO3,KClO4" "K Cl O4 is doled as oxidiqing agent,pellet-press to 5.0GPa-heat(900C,0.5H)-FC" 115 K superconductivity in the Pb-Sr-Ca-Cu-O system and formation of a new homologous series consisting of Pb-based layered cuprates 1995 6 "Superconductivity Research Laboratory,International Superconductivity Technoligy Center,10-13 Shinonome 1-chome,Koto-ku,Tokyo 135,Japan" "Physica C.,249(1995)111-116" 5828 PHC2510219 grain siqe< 20micron Y Ba2 Cu3 O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 3 1995 Y123 K 89.8 89.8 from AC Suspeptibity 1.3 1.2 "Y2 O3, Ba Co3, Cu O" 1 "final heat treatment(920C,several days)-slow cool (320C to 280C,150H),separate through sieves" Possible origin for the T2 dependence of the penetration depth detected by susceptibility measurements in aligned YBa2Cu3O7 powder samples 1995 9 "Physique des Solides, URA 2 CNRS, Universite' Paris-Sud, Orsay, France" "Physica C,251(1995)219-230" "Y, Ba, Cu, O" 5829 PHC2510219 2090% The synthesis and characterization of HgBa2Ca2Cu3O8+z superconductors with substitution of Hg by Pb 1995 5 "Department of Physics and National Laboratory of Solid State Microstructures,Centre for Advanced Studies in Science and Technology of Microstructure,Nanjing University,Nanjing 210093,China" "Physica C.,246(1995)207-215" 6015 PHC2540151 RuSr2SmCu2O8 Ru1Sr2Sm1Cu2O8 Ru 1 Sr 2 Sm 1 Cu 2 O 8 1995 2 Ru1212 3.852 11.56 K 4.2 "RuO2,Nb2O5,CuO,CeO2,R2O2" 1 "mixture-CAL(970C,24H)-pellet-SIN(1000-1060C for Nb1050-1080 for Ru,72H)" "Ruthenium-based layered cuprates RuSr2LnCu2O8 and RuSr2(Ln1+xCe1-x)Cu2O10 (Ln=Sm, Eu and Gd)" 1995 11 "Physikalisches Institut, Universita""t Bayreuth, 95440 Bayreuth, Germany" "Physica C,254(1995)151-158" "Ru, Sr, Sm, Eu, Gd, Cu, O, Ce" 6016 PHC2540151 RuSr2EuCu2O8 Ru1Sr2Eu1Cu2O8 Ru 1 Sr 2 Eu 1 Cu 2 O 8 1995 2 Ru1212 3.843 11.55 K 4.2 "RuO2,Nb2O5,CuO,CeO2,R2O2" 1 "mixture-CAL(970C,24H)-pellet-SIN(1000-1060C for Nb1050-1080 for Ru,72H)" "Ruthenium-based layered cuprates RuSr2LnCu2O8 and RuSr2(Ln1+xCe1-x)Cu2O10 (Ln=Sm, Eu and Gd)" 1995 11 "Physikalisches Institut, Universita""t Bayreuth, 95440 Bayreuth, Germany" "Physica C,254(1995)151-158" "Ru, Sr, Sm, Eu, Gd, Cu, O, Ce" 6017 PHC2540151 RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 1995 2 Ru1212 3.838 11.53 K 4.2 "RuO2,Nb2O5,CuO,CeO2,R2O2" 1 "mixture-CAL(970C,24H)-pellet-SIN(1000-1060C for Nb1050-1080 for Ru,72H)" "Ruthenium-based layered cuprates RuSr2LnCu2O8 and RuSr2(Ln1+xCe1-x)Cu2O10 (Ln=Sm, Eu and Gd)" 1995 11 "Physikalisches Institut, Universita""t Bayreuth, 95440 Bayreuth, Germany" "Physica C,254(1995)151-158" "Ru, Sr, Sm, Eu, Gd, Cu, O, Ce" 6018 PHC2540151 NbSr2SmCu2O8 Nb1Sr2Sm1Cu2O8 Nb 1 Sr 2 Sm 1 Cu 2 O 8 1995 2 Nb1212 3.877 11.64 K 4.2 "RuO2,Nb2O5,CuO,CeO2,R2O2" 1 "mixture-CAL(970C,24H)-pellet-SIN(1000-1060C for Nb1050-1080 for Ru,72H)" "Ruthenium-based layered cuprates RuSr2LnCu2O8 and RuSr2(Ln1+xCe1-x)Cu2O10 (Ln=Sm, Eu and Gd)" 1995 11 "Physikalisches Institut, Universita""t Bayreuth, 95440 Bayreuth, Germany" "Physica C,254(1995)151-158" "Ru, Sr, Sm, Eu, Gd, Cu, O, Ce" 6019 PHC2540151 NbSr2EuCu2O8 Nb1Sr2Eu2Cu2O8 Nb 1 Sr 2 Eu 2 Cu 2 O 8 1995 2 Nb1212 3.872 11.63 K 4.2 "RuO2,Nb2O5,CuO,CeO2,R2O2" 1 "mixture-CAL(970C,24H)-pellet-SIN(1000-1060C for Nb1050-1080 for Ru,72H)" "Ruthenium-based layered cuprates RuSr2LnCu2O8 and RuSr2(Ln1+xCe1-x)Cu2O10 (Ln=Sm, Eu and Gd)" 1995 11 "Physikalisches Institut, Universita""t Bayreuth, 95440 Bayreuth, Germany" "Physica C,254(1995)151-158" "Ru, Sr, Sm, Eu, Gd, Cu, O, Ce" 6020 PHC2540151 NbSr2GdCu2O8 Nb1Sr2Gd1Cu2O8 Nb 1 Sr 2 Gd 1 Cu 2 O 8 1995 2 Nb1212 3.869 11.62 K 4.2 "RuO2,Nb2O5,CuO,CeO2,R2O2" 1 "mixture-CAL(970C,24H)-pellet-SIN(1000-1060C for Nb1050-1080 for Ru,72H)" "Ruthenium-based layered cuprates RuSr2LnCu2O8 and RuSr2(Ln1+xCe1-x)Cu2O10 (Ln=Sm, Eu and Gd)" 1995 11 "Physikalisches Institut, Universita""t Bayreuth, 95440 Bayreuth, Germany" "Physica C,254(1995)151-158" "Ru, Sr, Sm, Eu, Gd, Cu, O, Ce" 6021 PHC2540151 "RuSr2(Sm,Ce)2Cu2O10" Ru1Sr2Sm1.5Ce0.5Cu2O10 Ru 1 Sr 2 Sm 1.5 Ce 0.5 Cu 2 O 10 1995 2 Ru1222 3.846 28.58 K 4.2 SIN (1065C)-Q to RT "Ruthenium-based layered cuprates RuSr2LnCu2O8 and RuSr2(Ln1+xCe1-x)Cu2O10 (Ln=Sm, Eu and Gd)" 1995 11 "Physikalisches Institut, Universita""t Bayreuth, 95440 Bayreuth, Germany" "Physica C,254(1995)151-158" "Ru, Sr, Sm, Eu, Gd, Cu, O, Ce" 6022 PHC2540151 "RuSr2(Eu,Ce)2Cu2O10" Ru1Sr2Eu1.5Ce0.5Cu2O10 Ru 1 Sr 2 Eu 1.5 Ce 0.5 Cu 2 O 10 1995 2 Ru1222 3.84 28.59 K 4.2 SIN (1065C)-Q to RT "Ruthenium-based layered cuprates RuSr2LnCu2O8 and RuSr2(Ln1+xCe1-x)Cu2O10 (Ln=Sm, Eu and Gd)" 1995 11 "Physikalisches Institut, Universita""t Bayreuth, 95440 Bayreuth, Germany" "Physica C,254(1995)151-158" "Ru, Sr, Sm, Eu, Gd, Cu, O, Ce" 6023 PHC2540151 "RuSr2(Gd,Ce)2Cu2O10" Ru1Sr2Gd1.5Ce0.5Cu2O10 Ru 1 Sr 2 Gd 1.5 Ce 0.5 Cu 2 O 10 1995 2 Ru1222 3.836 28.58 K 4.2 SIN (1065C)-Q to RT "Ruthenium-based layered cuprates RuSr2LnCu2O8 and RuSr2(Ln1+xCe1-x)Cu2O10 (Ln=Sm, Eu and Gd)" 1995 11 "Physikalisches Institut, Universita""t Bayreuth, 95440 Bayreuth, Germany" "Physica C,254(1995)151-158" "Ru, Sr, Sm, Eu, Gd, Cu, O, Ce" 6024 PHC2540151 "NbSr2(Sm,Ce)2Cu2O10" Nb1Sr2Sm1.5Ce0.5Cu2O10 Nb 1 Sr 2 Sm 1.5 Ce 0.5 Cu 2 O 10 1995 2 Nb1222 3.871 28.791 K 4.2 SIN (1065C)-Q to RT "Ruthenium-based layered cuprates RuSr2LnCu2O8 and RuSr2(Ln1+xCe1-x)Cu2O10 (Ln=Sm, Eu and Gd)" 1995 11 "Physikalisches Institut, Universita""t Bayreuth, 95440 Bayreuth, Germany" "Physica C,254(1995)151-158" "Ru, Sr, Sm, Eu, Gd, Cu, O, Ce" 6025 PHC2540151 "NbSr2(Eu,Ce)Cu2O10" Nb1Sr2Eu1.5Ce0.5Cu2O10 Nb 1 Sr 2 Eu 1.5 Ce 0.5 Cu 2 O 10 1995 2 Nb1222 3.869 28.774 K 4.2 SIN (1065C)-Q to RT "Ruthenium-based layered cuprates RuSr2LnCu2O8 and RuSr2(Ln1+xCe1-x)Cu2O10 (Ln=Sm, Eu and Gd)" 1995 11 "Physikalisches Institut, Universita""t Bayreuth, 95440 Bayreuth, Germany" "Physica C,254(1995)151-158" "Ru, Sr, Sm, Eu, Gd, Cu, O, Ce" 6026 PHC2540151 "NdSr2(Gd,Ce)2Cu2O10" Nd1Sr2Gd1.5Ce0.5Cu2O10 Nd 1 Sr 2 Gd 1.5 Ce 0.5 Cu 2 O 10 1995 2 Nb1222 3.867 28.742 K 4.2 SIN (1065C)-Q to RT "Ruthenium-based layered cuprates RuSr2LnCu2O8 and RuSr2(Ln1+xCe1-x)Cu2O10 (Ln=Sm, Eu and Gd)" 1995 11 "Physikalisches Institut, Universita""t Bayreuth, 95440 Bayreuth, Germany" "Physica C,254(1995)151-158" "Ru, Sr, Sm, Eu, Gd, Cu, O, Ce" 6027 PHC2540033 Tl0.9 Mo0.2 Sr2 Ca0.9 Cu2 by EDS as synthesiqed "(Tl,Mo)Sr2CaCu2O7" Tl0.8Mo0.2Sr2Ca1Cu2O7-z Tl 0.8 Mo 0.2 Sr 2 Ca 1 Cu 2 O 7-z 1995 2 Tl1212 3.79 12.046 K 40 40 "Tl2O3,MoO3,SrO2,CuO,Sr2CuO3,SrCO3" "mixture-pellet-seal in evacuated silica tube-heat(900C,10H)-Q to RT" Stabilization of new superconducting thallium cuprates and oxycarbonates bymolybdenum 1995 11 "laboratoire de Cristallographie et Sciences des Mate'riaux(CRISMAT)-U.R.A. 1318-ISMRA-Universite' de Caen, Bd du Mare'chal juin,14050 Caen Cedex, France" "Physica C,254(1995)33-43" "Tl, Mo, Sr, Cu, O" 6028 PHC2540033 "ANN(450C,10H under P(02))=100bar" "(Tl,Mo)Sr2CaCu2O7" Tl0.8Mo0.2Sr2Ca1Cu2O7-z Tl 0.8 Mo 0.2 Sr 2 Ca 1 Cu 2 O 7-z 1995 K 24 24 "Tl2O3,MoO3,SrO2,CuO,Sr2CuO3,SrCO3" "mixture-pellet-seal in evacuated silica tube-heat(900C,10H)-Q to RT" Stabilization of new superconducting thallium cuprates and oxycarbonates bymolybdenum 1995 11 "laboratoire de Cristallographie et Sciences des Mate'riaux(CRISMAT)-U.R.A. 1318-ISMRA-Universite' de Caen, Bd du Mare'chal juin,14050 Caen Cedex, France" "Physica C,254(1995)33-43" "Tl, Mo, Sr, Cu, O" 6029 PHC2540033 "ANN280C,IH under Ar/H2 flow" "(Tl,Mo)Sr2CaCu2O7" Tl0.8Mo0.2Sr2Ca1Cu2O7-z Tl 0.8 Mo 0.2 Sr 2 Ca 1 Cu 2 O 7-z 1995 K 86 86 "Tl2O3,MoO3,SrO2,CuO,Sr2CuO3,SrCO3" "mixture-pellet-seal in evacuated silica tube-heat(900C,10H)-Q to RT" Stabilization of new superconducting thallium cuprates and oxycarbonates bymolybdenum 1995 11 "laboratoire de Cristallographie et Sciences des Mate'riaux(CRISMAT)-U.R.A. 1318-ISMRA-Universite' de Caen, Bd du Mare'chal juin,14050 Caen Cedex, France" "Physica C,254(1995)33-43" "Tl, Mo, Sr, Cu, O" 6030 PHC2540033 as-synthesiqed "(Tl,Mo)(Sr,La)2CuO5" Tl0.9Mo0.1Sr1.2La0.8Cu1O5-z Tl 0.9 Mo 0.1 Sr 1.2 La 0.8 Cu 1 O 5-z 1995 2 Tl1201 3.776 8.841 K 40 40 15 "Tl2O3,MoO3,SrO2,CuO,Sr2CuO3,SrCO3" "mixture-pellet-seal in evacuated silica tube-heat(900C,10H)-Q to RT" Stabilization of new superconducting thallium cuprates and oxycarbonates bymolybdenum 1995 11 "laboratoire de Cristallographie et Sciences des Mate'riaux(CRISMAT)-U.R.A. 1318-ISMRA-Universite' de Caen, Bd du Mare'chal juin,14050 Caen Cedex, France" "Physica C,254(1995)33-43" "Tl, Mo, Sr, Cu, O" 6031 PHC2540033 "redced sample(280C,IH in Ar/H2flow)" "(Tl,Mo)(Sr,La)2CuO5" Tl0.9Mo0.1Sr1.2La0.8Cu1O5-z Tl 0.9 Mo 0.1 Sr 1.2 La 0.8 Cu 1 O 5-z 1995 2 Tl1201 K 40 34 34 "Tl2O3,MoO3,SrO2,CuO,Sr2CuO3,SrCO3" "mixture-pellet-seal in evacuated silica tube-heat(900C,10H)-Q to RT" Stabilization of new superconducting thallium cuprates and oxycarbonates bymolybdenum 1995 11 "laboratoire de Cristallographie et Sciences des Mate'riaux(CRISMAT)-U.R.A. 1318-ISMRA-Universite' de Caen, Bd du Mare'chal juin,14050 Caen Cedex, France" "Physica C,254(1995)33-43" "Tl, Mo, Sr, Cu, O" 6032 PHC2540033 as-synthesiqed "(Tl,MO)Sr2CuO5/Sr2CuO2(CO3)" Tl0.8Mo0.2Sr4Cu2Co3O7-z Tl 0.8 Mo 0.2 Sr 4 Cu 2 Co 3 O 7-z 1995 2 P4/mmm 3.825 16.429 K 30 30 "Tl2O3,MoO3,SrO2,CuO,Sr2CuO3,SrCO3" "mixture-pellet-seal in evacuated silica tube-heat(900C,10H)-Q to RT" Stabilization of new superconducting thallium cuprates and oxycarbonates bymolybdenum 1995 11 "laboratoire de Cristallographie et Sciences des Mate'riaux(CRISMAT)-U.R.A. 1318-ISMRA-Universite' de Caen, Bd du Mare'chal juin,14050 Caen Cedex, France" "Physica C,254(1995)33-43" "Tl, Mo, Sr, Cu, O" 6033 PHC2540033 "ANN(280C,IH in Ar/H2 flow)" "(Tl,Mo)Sr2CuO5/Sr2CuO2(CO3)" Tl0.8Mo0.2Sr4Cu2Co3O7-z Tl 0.8 Mo 0.2 Sr 4 Cu 2 Co 3 O 7-z 1995 2 K 73 80 85 80 80 "Tl2O3,MoO3,SrO2,CuO,Sr2CuO3,SrCO3" "mixture-pellet-seal in evacuated silica tube-heat(900C,10H)-Q to RT" Stabilization of new superconducting thallium cuprates and oxycarbonates bymolybdenum 1995 11 "laboratoire de Cristallographie et Sciences des Mate'riaux(CRISMAT)-U.R.A. 1318-ISMRA-Universite' de Caen, Bd du Mare'chal juin,14050 Caen Cedex, France" "Physica C,254(1995)33-43" "Tl, Mo, Sr, Cu, O" 6034 PHC2540033 Tl1201/Sr2CuO2Co3 intergrowth "(Tl,Mo)Sr2CuO5/Sr2CuO2(CO3)" Tl0.8Mo0.2Sr4Cu2Co3O7-z Tl 0.8 Mo 0.2 Sr 4 Cu 2 Co 3 O 7-z 1995 2 3.8345 16.5811 K "Tl2O3,MoO3,SrO2,CuO,Sr2CuO3,SrCO3" "mixture-pellet-seal in evacuated silica tube-heat(900C,10H)-Q to RT" Stabilization of new superconducting thallium cuprates and oxycarbonates bymolybdenum 1995 11 "laboratoire de Cristallographie et Sciences des Mate'riaux(CRISMAT)-U.R.A. 1318-ISMRA-Universite' de Caen, Bd du Mare'chal juin,14050 Caen Cedex, France" "Physica C,254(1995)33-43" "Tl, Mo, Sr, Cu, O" 6035 PHC2520100 "(Y,Ca)Ba2Cu3O6" Y0.74Ca0.26Ba2Cu3O6 Y 0.74 Ca 0.26 Ba 2 Cu 3 O 6 6 1995 2 3.854 11.831 K 33.4 56 44.7 "BaCO3,Y2O3,CuO,CaCO3" 1 "mixture-CAL-pellet-SIN(960C,20H)-deoxygenate(700C,20-40H in Ar)-seal(sample+Zn)in quartz tube-heat(430-450C,5-20H)" Superconducting and electrical properties of Ca-substituted YBa2Cu3O6 1995 10 "Department of AppliedElectronics,Science Univercity of Tokyo, 2641 Yamazaki, Noda, Chiba 278 Japan" "Physica C,252(1995)100-106" "Y, Ba, Cu, O, Ca" 6036 PHC2520100 "(Y,Ca)Ba2Cu3O6" Y0.72Ca0.28Ba2Cu3O6 Y 0.72 Ca 0.28 Ba 2 Cu 3 O 6 1995 K 36 59 47.5 "BaCO3,Y2O3,CuO,CaCO3" 1 "mixture-CAL-pellet-SIN(960C,20H)-deoxygenate(700C,20-40H in Ar)-seal(sample+Zn)in quartz tube-heat(430-450C,5-20H)" Superconducting and electrical properties of Ca-substituted YBa2Cu3O6 1995 10 "Department of AppliedElectronics,Science Univercity of Tokyo, 2641 Yamazaki, Noda, Chiba 278 Japan" "Physica C,252(1995)100-106" "Y, Ba, Cu, O, Ca" 6037 PHC2520100 "(Y,Ca)Ba2Cu3O6" Y0.69Ca0.31Ba2Cu3O6 Y 0.69 Ca 0.31 Ba 2 Cu 3 O 6 6 1995 2 3.856 11.836 K 19.4 36 27.7 "BaCO3,Y2O3,CuO,CaCO3" 1 "mixture-CAL-pellet-SIN(960C,20H)-deoxygenate(700C,20-40H in Ar)-seal(sample+Zn)in quartz tube-heat(430-450C,5-20H)" Superconducting and electrical properties of Ca-substituted YBa2Cu3O6 1995 10 "Department of AppliedElectronics,Science Univercity of Tokyo, 2641 Yamazaki, Noda, Chiba 278 Japan" "Physica C,252(1995)100-106" "Y, Ba, Cu, O, Ca" 6038 PHC2540026 "two step transition,second is due to Al1223,higher Tc due to Al1234" AlSr2Ca2Cu3Oz Al1Sr2Ca2Cu3O9.3 Al 1 Sr 2 Ca 2 Cu 3 O z 9.3 2 1995 2 Al1223 3.836 14.405 K 63 63 reaact at 6G Pa "High-pressure synthesis of a new superconductor, AlSr2Ca2-xYxCu3O9 The n=3 member of the AlSr2Can-1CunO2n+3 family" 1995 11 "National Institute for Reseach in Inorganic Materials(NIRIM), 1-1Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica C,254(1995)26-32" "Al, Sr, Ca, Y, Cu, O" 6039 PHC2540026 "two step transition second,is due to Al 1223,higher Tc due to Al1234" AlSr2Ca2Cu3Oz Al1Sr2Ca2Cu3O9.5 Al 1 Sr 2 Ca 2 Cu 3 O z 9.5 2 1995 2 Al1223 3.836 14.405 K 69 69 reaact at 6G Pa "High-pressure synthesis of a new superconductor, AlSr2Ca2-xYxCu3O9 The n=3 member of the AlSr2Can-1CunO2n+3 family" 1995 11 "National Institute for Reseach in Inorganic Materials(NIRIM), 1-1Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica C,254(1995)26-32" "Al, Sr, Ca, Y, Cu, O" 6040 PHC2540026 "two step transition, second is due to Al1223, higher Tc due to Al 1234" AlSr2Ca2Cu3Oz Al1Sr2Ca2Cu3O9.7 Al 1 Sr 2 Ca 2 Cu 3 O z 9.7 2 1995 2 Al1223 3.836 14.405 K 72 72 reaact at 6G Pa "High-pressure synthesis of a new superconductor, AlSr2Ca2-xYxCu3O9 The n=3 member of the AlSr2Can-1CunO2n+3 family" 1995 11 "National Institute for Reseach in Inorganic Materials(NIRIM), 1-1Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica C,254(1995)26-32" "Al, Sr, Ca, Y, Cu, O" 6041 PHC2540026 "two step transiyion, second is due to Al1223, Higher Tc due to Al1234" AlSr2Ca2Cu3Oz Al1Sr2Ca2Cu3O9.9 Al 1 Sr 2 Ca 2 Cu 3 O z 9.9 2 1995 2 Al1223 3.836 14.405 K 77 77 reaact at 6G Pa "High-pressure synthesis of a new superconductor, AlSr2Ca2-xYxCu3O9 The n=3 member of the AlSr2Can-1CunO2n+3 family" 1995 11 "National Institute for Reseach in Inorganic Materials(NIRIM), 1-1Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica C,254(1995)26-32" "Al, Sr, Ca, Y, Cu, O" 6042 PHC2540026 "two step transition, second is due to Al1223, higher Tc due to Al 1234" AlSr2Ca2Cu3Oz Al1Sr2Ca2Cu3O10.1 Al 1 Sr 2 Ca 2 Cu 3 O z 10.1 2 1995 2 Al1223 3.836 14.405 K 76 76 reaact at 6G Pa "High-pressure synthesis of a new superconductor, AlSr2Ca2-xYxCu3O9 The n=3 member of the AlSr2Can-1CunO2n+3 family" 1995 11 "National Institute for Reseach in Inorganic Materials(NIRIM), 1-1Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica C,254(1995)26-32" "Al, Sr, Ca, Y, Cu, O" 6043 PHC2540026 "AlSr2(Ca,Y)2Cu3O9" Al1Sr2Ca1.9Y0.1Cu3O9.1 Al 1 Sr 2 Ca 1.9 Y 0.1 Cu 3 O 9 9.1 1 1995 Al1223 3.836 14.475 K "mixture-sealed in Au capsule-react in abelt-type high-press apparatus (5-6GPa,1250C,IH)" "High-pressure synthesis of a new superconductor, AlSr2Ca2-xYxCu3O9 The n=3 member of the AlSr2Can-1CunO2n+3 family" 1995 11 "National Institute for Reseach in Inorganic Materials(NIRIM), 1-1Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica C,254(1995)26-32" "Al, Sr, Ca, Y, Cu, O" 6044 PHC2540026 impuriq phase=unknown and Al234 "AlSr2(Ca,Y)2Cu3O9" Al1Sr2Ca1.8Y0.2Cu3O9.1 Al 1 Sr 2 Ca 1.8 Y 0.2 Cu 3 O 9 9.1 1995 Al1223 3.834 14.418 K "mixture-sealed in Au capsule-react in abelt-type high-press apparatus (5-6GPa,1250C,IH)" "High-pressure synthesis of a new superconductor, AlSr2Ca2-xYxCu3O9 The n=3 member of the AlSr2Can-1CunO2n+3 family" 1995 11 "National Institute for Reseach in Inorganic Materials(NIRIM), 1-1Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica C,254(1995)26-32" "Al, Sr, Ca, Y, Cu, O" 6045 PHC2540026 inpuriq phase=unknown and Al234 "AlSr2(Ca,Y)2Cu3O9" Al1Sr2Ca1.7Y0.3Cu3O9.1 Al 1 Sr 2 Ca 1.7 Y 0.3 Cu 3 O 9 9.1 1995 Al1223 3.836 14.428 K "mixture-sealed in Au capsule-react in abelt-type high-press apparatus (5-6GPa,1250C,IH)" "High-pressure synthesis of a new superconductor, AlSr2Ca2-xYxCu3O9 The n=3 member of the AlSr2Can-1CunO2n+3 family" 1995 11 "National Institute for Reseach in Inorganic Materials(NIRIM), 1-1Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica C,254(1995)26-32" "Al, Sr, Ca, Y, Cu, O" 6046 PHC2540026 inpuriq phase=unknown and Al1234 "AlSr2(Ca,Y)2Cu3O9" Al1Sr2Ca1.6Y0.4Cu3O9.1 Al 1 Sr 2 Ca 1.6 Y 0.4 Cu 3 O 9 9.1 1995 Al1223 3.838 14.417 K "mixture-sealed in Au capsule-react in abelt-type high-press apparatus (5-6GPa,1250C,IH)" "High-pressure synthesis of a new superconductor, AlSr2Ca2-xYxCu3O9 The n=3 member of the AlSr2Can-1CunO2n+3 family" 1995 11 "National Institute for Reseach in Inorganic Materials(NIRIM), 1-1Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica C,254(1995)26-32" "Al, Sr, Ca, Y, Cu, O" 6047 PHC2540026 inpuriq phase=unknown and Al1234 "AlSr2(Ca,Y)2Cu3O9" Al1Sr2Ca1.5Y0.5Cu3O9.1 Al 1 Sr 2 Ca 1.5 Y 0.5 Cu 3 O 9 9.1 1995 Al1223 3.839 14.425 K "mixture-sealed in Au capsule-react in abelt-type high-press apparatus (5-6GPa,1250C,IH)" "High-pressure synthesis of a new superconductor, AlSr2Ca2-xYxCu3O9 The n=3 member of the AlSr2Can-1CunO2n+3 family" 1995 11 "National Institute for Reseach in Inorganic Materials(NIRIM), 1-1Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica C,254(1995)26-32" "Al, Sr, Ca, Y, Cu, O" 6048 PHC2540026 "AlSr2(Ca,Y)2Cu3O9" Al1Sr2Ca1.4Y0.6Cu3O9.1 Al 1 Sr 2 Ca 1.4 Y 0.6 Cu 3 O 9 9.1 1995 Al1212 3.847 14.368 K 14 14 "mixture-sealed in Au capsule-react in abelt-type high-press apparatus (5-6GPa,1250C,IH)" "High-pressure synthesis of a new superconductor, AlSr2Ca2-xYxCu3O9 The n=3 member of the AlSr2Can-1CunO2n+3 family" 1995 11 "National Institute for Reseach in Inorganic Materials(NIRIM), 1-1Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica C,254(1995)26-32" "Al, Sr, Ca, Y, Cu, O" 6049 PHC2550061 Ca2CuO2Cl2+x KClO4 "(Ca,K)2CuO2Cl2" Ca2Cu1Cl2O2 Ca 2 Cu 1 Cl 2 O 2 1995 2 3.871 15.114 K 5 "CaCo3, Cucl2" "mixture(CaCO3:CuCl2=2:1)-CAL(800C,10H in flowing O2)-pellet-heat(800C,10H)-additiong of KClO4-seal in Au capsule-heat9900C,30min under S G Pa" "High-pressure synthesis of superconductig (Ca,K)2CuO2Cl2" 1995 12 "Superconductivity Reserch Laboratory,International Superconductivity Technology Center,10-13 Shinonome,1-Chome,Koto-ku,Tokyo Japan" "Physica.C,255(1995)61-64" "Ca, K, Cu, O, Cl" 6050 PHC2550061 Ca2CuO2Cl2+x KClO4 "(Ca,K)2CuO2Cl2" Ca1.9K0.1Cu1Cl2O2 Ca 1.9 K 0.1 Cu 1 Cl 2 O 2 1995 2 3.859 15.209 K 18 18 "CaCo3, Cucl2" "mixture(CaCO3:CuCl2=2:1)-CAL(800C,10H in flowing O2)-pellet-heat(800C,10H)-additiong of KClO4-seal in Au capsule-heat9900C,30min under S G Pa" "High-pressure synthesis of superconductig (Ca,K)2CuO2Cl2" 1995 12 "Superconductivity Reserch Laboratory,International Superconductivity Technology Center,10-13 Shinonome,1-Chome,Koto-ku,Tokyo Japan" "Physica.C,255(1995)61-64" "Ca, K, Cu, O, Cl" 6051 PHC2550061 Ca2CuO2Cl2+x KClO4 "(Ca,K)2CuO2Cl2" Ca0.85K0.15Cu1Cl2O2 Ca 0.85 K 0.15 Cu 1 Cl 2 O 2 1995 2 3.856 15.271 K 24 24 50 "CaCo3, Cucl2" "mixture(CaCO3:CuCl2=2:1)-CAL(800C,10H in flowing O2)-pellet-heat(800C,10H)-additiong of KClO4-seal in Au capsule-heat9900C,30min under S G Pa" "High-pressure synthesis of superconductig (Ca,K)2CuO2Cl2" 1995 12 "Superconductivity Reserch Laboratory,International Superconductivity Technology Center,10-13 Shinonome,1-Chome,Koto-ku,Tokyo Japan" "Physica.C,255(1995)61-64" "Ca, K, Cu, O, Cl" 6052 PHC2550061 Ca2CuO2Cl2+x KClO4 "(Ca,K)2CuO2Cl2" Ca1.8K0.2Cu1Cl2O2 Ca 1.8 K 0.2 Cu 1 Cl 2 O 2 1995 2 3.857 15.287 K 24 24 42 "CaCo3, Cucl2" "mixture(CaCO3:CuCl2=2:1)-CAL(800C,10H in flowing O2)-pellet-heat(800C,10H)-additiong of KClO4-seal in Au capsule-heat9900C,30min under S G Pa" "High-pressure synthesis of superconductig (Ca,K)2CuO2Cl2" 1995 12 "Superconductivity Reserch Laboratory,International Superconductivity Technology Center,10-13 Shinonome,1-Chome,Koto-ku,Tokyo Japan" "Physica.C,255(1995)61-64" "Ca, K, Cu, O, Cl" 6053 PHC2550061 Ca2CuO2Cl2+x KClO4 "(Ca,K)2CuO2Cl2" Ca0.75K0.25Cu1Cl2O2 Ca 0.75 K 0.25 Cu 1 Cl 2 O 2 1995 2 3.858 15.249 K 24 24 30 "CaCo3, Cucl2" "mixture(CaCO3:CuCl2=2:1)-CAL(800C,10H in flowing O2)-pellet-heat(800C,10H)-additiong of KClO4-seal in Au capsule-heat9900C,30min under S G Pa" "High-pressure synthesis of superconductig (Ca,K)2CuO2Cl2" 1995 12 "Superconductivity Reserch Laboratory,International Superconductivity Technology Center,10-13 Shinonome,1-Chome,Koto-ku,Tokyo Japan" "Physica.C,255(1995)61-64" "Ca, K, Cu, O, Cl" 6054 PHC2550061 Ca2CuO2Cl2+x KclO4 "(Ca,K)2CuO2Cl2" Ca1.7K0.3Cu1Cl2O2 Ca 1.7 K 0.3 Cu 1 Cl 2 O 2 1995 2 3.857 15.28 K 24 24 25 "CaCo3, Cucl2" "mixture(CaCO3:CuCl2=2:1)-CAL(800C,10H in flowing O2)-pellet-heat(800C,10H)-additiong of KClO4-seal in Au capsule-heat9900C,30min under S G Pa" "High-pressure synthesis of superconductig (Ca,K)2CuO2Cl2" 1995 12 "Superconductivity Reserch Laboratory,International Superconductivity Technology Center,10-13 Shinonome,1-Chome,Koto-ku,Tokyo Japan" "Physica.C,255(1995)61-64" "Ca, K, Cu, O, Cl" 6055 PLA1960263 "(Y,Pr)(Ba,Sr)2Cu3O7" Y1Ba1Sr1Cu3O6.9 Y 1 Ba 1 Sr 1 Cu 3 O 7-z 6.9 1994 3 Y123 3.8008 3.8523 11.576 K 92 92 "Y2O3,Pr6O11,BaCO3,SrCO3,CuO" 1 "mixture-fire(1203-1223K,24H in air)-pellet-SIN(1243-1253K,24H in flowing O2)-ANN(773K,24H)-RT(1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 6056 PLA1960263 "(Y,Pr)(Ba,Sr)2Cu3O7" Y0.8Pr0.2Ba1Sr1Cu3O6.9 Y 0.8 Pr 0.2 Ba 1 Sr 1 Cu 3 O 7-z 6.9 1994 3 Y123 3.8154 3.8546 11.573 K 79.4 79.4 "Y2O3,Pr6O11,BaCO3,SrCO3,CuO" 1 "mixture-fire(1203-1223K,24H in air)-pellet-SIN(1243-1253K,24H in flowing O2)-ANN(773K,24H)-RT(1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 6057 PLA1960263 "(Y,Pr)(Ba,Sr)2Cu3O7" Y0.6Pr0.4Ba1Sr1Cu3O6.9 Y 0.6 Pr 0.4 Ba 1 Sr 1 Cu 3 O 7-z 6.9 1994 3 Y123 3.8315 3.515 11.573 K 60.5 60.5 "Y2O3,Pr6O11,BaCO3,SrCO3,CuO" 1 "mixture-fire(1203-1223K,24H in air)-pellet-SIN(1243-1253K,24H in flowing O2)-ANN(773K,24H)-RT(1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 6058 PLA1960263 "(Y,Pr)(Ba,Sr)2Cu3O7" Y0.5Pr0.5Ba1Sr1Cu3O6.9 Y 0.5 Pr 0.5 Ba 1 Sr 1 Cu 3 O 7-z 6.9 1994 2 Y123 3.8438 11.577 K 36 36 "Y2O3,Pr6O11,BaCO3,SrCO3,CuO" 1 "mixture-fire(1203-1223K,24H in air)-pellet-SIN(1243-1253K,24H in flowing O2)-ANN(773K,24H)-RT(1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 6059 PLA1960263 "(Y,Pr)(Ba,Sr)2Cu3O7" Y0.4Pr0.6Ba1Sr1Cu3O8.9 Y 0.4 Pr 0.6 Ba 1 Sr 1 Cu 3 O 7-z 8.9 1994 2 Y123 3.85 11.578 K 24.1 24.1 "Y2O3,Pr6O11,BaCO3,SrCO3,CuO" 1 "mixture-fire(1203-1223K,24H in air)-pellet-SIN(1243-1253K,24H in flowing O2)-ANN(773K,24H)-RT(1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 6060 PLA1960263 "(Y,Pr)(Ba,Sr)2Cu3O7" Y0.35Pr0.65Ba1Sr1Cu3O6.9 Y 0.35 Pr 0.65 Ba 1 Sr 1 Cu 3 O 7-z 6.9 1994 2 Y123 K 20.3 20.3 "Y2O3,Pr6O11,BaCO3,SrCO3,CuO" 1 "mixture-fire(1203-1223K,24H in air)-pellet-SIN(1243-1253K,24H in flowing O2)-ANN(773K,24H)-RT(1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 6061 PLA1960263 "(Y,Pr)(Ba,Sr)2Cu3O7" Y0.3Pr0.7Ba1Sr1Cu3O6.9 Y 0.3 Pr 0.7 Ba 1 Sr 1 Cu 3 O 7-z 6.9 1994 2 Y123 3.8531 11.582 K "Y2O3,Pr6O11,BaCO3,SrCO3,CuO" 1 "mixture-fire(1203-1223K,24H in air)-pellet-SIN(1243-1253K,24H in flowing O2)-ANN(773K,24H)-RT(1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 6062 PLA1960263 "(Y,Pr)(Ba,Sr)2Cu3O7" Y0.2Pr0.8Ba1Sr1Cu3O6.9 Y 0.2 Pr 0.8 Ba 1 Sr 1 Cu 3 O 7-z 6.9 1994 2 Y123 3.8585 11.587 K "Y2O3,Pr6O11,BaCO3,SrCO3,CuO" 1 "mixture-fire(1203-1223K,24H in air)-pellet-SIN(1243-1253K,24H in flowing O2)-ANN(773K,24H)-RT(1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 6063 PHC2550010 TP in ab-plane HIR for H//c-axis Pb2Sr2YCu3O8 Pb2Sr2Y1Cu3O8 Pb 2 Sr 2 Y 1 Cu 3 O 8 3 1995 Pb3212 K 31 31 HIR6063 TP6063 "precursor+PbO+Nacl-Pt crucible-heat(1050C,500C/H)-cool to 700C at 5C/H-FC to RT,all procedures are in flowing gas of N2 or 1% O2-99% N2" Carrer dependences of anisotropy and irrversibility field in Pb2Sr2Y1-xCaCu3O8 single srystals 1995 12 "Depertment of Applied Physics,Faculty of Engineering,Tohoku Univercity, Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan (b)Institute for Materials Research,Tohoku University,2-1-1 Katahira,Aoba-ku,Sendai 980-77.Japan" "Physica.C,255(1995)10-18" "Pb, Sr, Y, Ca, Cu, O" 6064 PHC2550010 TP in ab-plane HIR for H//c-axis "Pb2Sr2(Y,Ca)Cu3O8" Pb2Sr2Y0.85Ca0.15Cu3O8 Pb 2 Sr 2 Y 0.85 Ca 0.15 Cu 3 O 8 3 1995 Pb3212 K 47 47 HIR6064 TP6064 "precursor+PbO+Nacl-Pt crucible-heat(1050C,500C/H)-cool to 700C at 5C/H-FC to RT,all procedures are in flowing gas of N2 or 1% O2-99% N2" Carrer dependences of anisotropy and irrversibility field in Pb2Sr2Y1-xCaCu3O8 single srystals 1995 12 "Depertment of Applied Physics,Faculty of Engineering,Tohoku Univercity, Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan (b)Institute for Materials Research,Tohoku University,2-1-1 Katahira,Aoba-ku,Sendai 980-77.Japan" "Physica.C,255(1995)10-18" "Pb, Sr, Y, Ca, Cu, O" 6065 PHC2550010 Tp in ab-plan HIR for H//c-axis "Pb2Sr2(Y,Ca)Cu3O8" Pb1Sr2Y0.62Ca0.38Cu3O8 Pb 1 Sr 2 Y 0.62 Ca 0.38 Cu 3 O 8 3 1995 Pb3212 K 71 71 HIR6065 TP6065 "precursor+PbO+Nacl-Pt crucible-heat(1050C,500C/H)-cool to 700C at 5C/H-FC to RT,all procedures are in flowing gas of N2 or 1% O2-99% N2" Carrer dependences of anisotropy and irrversibility field in Pb2Sr2Y1-xCaCu3O8 single srystals 1995 12 "Depertment of Applied Physics,Faculty of Engineering,Tohoku Univercity, Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan (b)Institute for Materials Research,Tohoku University,2-1-1 Katahira,Aoba-ku,Sendai 980-77.Japan" "Physica.C,255(1995)10-18" "Pb, Sr, Y, Ca, Cu, O" 6066 PHC2550010 TP in ab-plane HIR for H//c-axis "Pb2Sr2(Y,Ca)Cu3O8" Pb2Sr2Y0.53Ca0.47Cu3O8 Pb 2 Sr 2 Y 0.53 Ca 0.47 Cu 3 O 8 3 1995 Pb3212 K 76 76 HIR6066 TP6066 "precursor+PbO+Nacl-Pt crucible-heat(1050C,500C/H)-cool to 700C at 5C/H-FC to RT,all procedures are in flowing gas of N2 or 1% O2-99% N2" Carrer dependences of anisotropy and irrversibility field in Pb2Sr2Y1-xCaCu3O8 single srystals 1995 12 "Depertment of Applied Physics,Faculty of Engineering,Tohoku Univercity, Aramaki Aoba,Aoba-ku,Sendai 980-77,Japan (b)Institute for Materials Research,Tohoku University,2-1-1 Katahira,Aoba-ku,Sendai 980-77.Japan" "Physica.C,255(1995)10-18" "Pb, Sr, Y, Ca, Cu, O" 6067 PHC2550180 HgBa2CuO4 Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1 1995 6.2 2 Hg1201 P4/mmm 3.877 9.498 K 97 97 mix(Ba2CuO3+z+HgO)-wrapped in Au foil in quartq tube-heat to 800C(100C/H-800C/H)-hold(5-15H)-cool to RT Single-step synthesis and crystal structure of HgBa2CuO4+z with a Tc of 97K 1995 12 "a) The school of Chemistry, University of Birmingham, Edgbaston,birmingham,B15 2TT,UK B)The ISIS facility,Rutherford Appleton Lavoratory,Chilton,Didcot,Oxon.,OX11OQX,UK" "Physica.C,255(1995)180-187" "Hg, Ba, Cu, O" 6068 PHC2460271 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 8 1 1995 Bi2212 30.818 K 83 83 using freeqed nitrate precursors "Oxygen stotchiometry,structure and superconductivity in Bi2Sr2CaCu2O8+x" 1995 5 "Department of Materials Science and Engineering,University of Pittsburgh,Pittsburgh,PA-15261,USA" "Physica C.,246(1995)271-276" 6069 PHC2460271 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.15 Bi 2 Sr 2 Ca 1 Cu 2 O 8.15 8.15 1 1995 Bi2212 30.843 K 87 87 using freeqed nitrate precursors "Oxygen stotchiometry,structure and superconductivity in Bi2Sr2CaCu2O8+x" 1995 5 "Department of Materials Science and Engineering,University of Pittsburgh,Pittsburgh,PA-15261,USA" "Physica C.,246(1995)271-276" 6070 PHC2460271 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.16 Bi 2 Sr 2 Ca 1 Cu 2 O 8.16 8.16 1 1995 Bi2212 30.832 K 85 85 using freeqed nitrate precursors "Oxygen stotchiometry,structure and superconductivity in Bi2Sr2CaCu2O8+x" 1995 5 "Department of Materials Science and Engineering,University of Pittsburgh,Pittsburgh,PA-15261,USA" "Physica C.,246(1995)271-276" 6071 PHC2460271 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.26 Bi 2 Sr 2 Ca 1 Cu 2 O 8.26 8.26 1 1995 Bi2212 30.796 K 75 75 using freeqed nitrate precursors "Oxygen stotchiometry,structure and superconductivity in Bi2Sr2CaCu2O8+x" 1995 5 "Department of Materials Science and Engineering,University of Pittsburgh,Pittsburgh,PA-15261,USA" "Physica C.,246(1995)271-276" 6072 PHC2460271 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.28 Bi 2 Sr 2 Ca 1 Cu 2 O 8.28 8.28 1 1995 Bi2212 30.792 K 75 75 using freeqed nitrate precursors "Oxygen stotchiometry,structure and superconductivity in Bi2Sr2CaCu2O8+x" 1995 5 "Department of Materials Science and Engineering,University of Pittsburgh,Pittsburgh,PA-15261,USA" "Physica C.,246(1995)271-276" 6073 PHC2460297 "Bi2Sr2Ca(Cu,Li)2Oz" Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 1995 Bi2212 K 84.2 9.2 84.2 "Bi2Sr2CaCu2Oz, Bi2Sr2Ca(Cu0.55Li0.45)2Oz" "mixture of precursor-pellet-SIN(870C,10-120H, in air)-cool to 800C (7C/min) -ANN(800C,12-48H)-Q to RT" Superconducting properties and microstructural evolution of Li doped Bi2Sr2CaCu2Ox 1995 5 "Science and Tecnology Center for Superconductivity and Department of Nuclear Engineering University of Illinois at Urbana-Champaign,103 South Goodwin Avenue,Urbana,IL 61801,USA" "Physica C.,246(1995)297-308" 6074 PHC2460297 "Bi2Sr2Ca(Cu,Li)2Oz" Bi2Sr2Ca1Cu1.8Li0.2Oz Bi 2 Sr 2 Ca 1 Cu 1.8 Li 0.2 O z 1995 Bi2212 K 86.9 8.9 86.9 "Bi2Sr2CaCu2Oz, Bi2Sr2Ca(Cu0.55Li0.45)2Oz" "mixture of precursor-pellet-SIN(870C,10-120H, in air)-cool to 800C (7C/min) -ANN(800C,12-48H)-Q to RT" Superconducting properties and microstructural evolution of Li doped Bi2Sr2CaCu2Ox 1995 5 "Science and Tecnology Center for Superconductivity and Department of Nuclear Engineering University of Illinois at Urbana-Champaign,103 South Goodwin Avenue,Urbana,IL 61801,USA" "Physica C.,246(1995)297-308" 6075 PHC2460297 "Bi2Sr2C(Cu,Li)2Oz" Bi2Sr2Ca1Cu1.6Li0.4Oz Bi 2 Sr 2 Ca 1 Cu 1.6 Li 0.4 O z 1995 Bi2212 K 91.3 9.1 91.3 "Bi2Sr2CaCu2Oz, Bi2Sr2Ca(Cu0.55Li0.45)2Oz" "mixture of precursor-pellet-SIN(870C,10-120H, in air)-cool to 800C (7C/min) -ANN(800C,12-48H)-Q to RT" Superconducting properties and microstructural evolution of Li doped Bi2Sr2CaCu2Ox 1995 5 "Science and Tecnology Center for Superconductivity and Department of Nuclear Engineering University of Illinois at Urbana-Champaign,103 South Goodwin Avenue,Urbana,IL 61801,USA" "Physica C.,246(1995)297-308" 6076 PHC2460297 "Bi2Sr2Ca(Cu,Li)2Oz" Bi2Sr2Ca1Cu1.4Li0.6Oz Bi 2 Sr 2 Ca 1 Cu 1.4 Li 0.6 O z 1995 Bi2212 K 89.6 7.3 89.6 "Bi2Sr2CaCu2Oz, Bi2Sr2Ca(Cu0.55Li0.45)2Oz" "mixture of precursor-pellet-SIN(870C,10-120H, in air)-cool to 800C (7C/min) -ANN(800C,12-48H)-Q to RT" Superconducting properties and microstructural evolution of Li doped Bi2Sr2CaCu2Ox 1995 5 "Science and Tecnology Center for Superconductivity and Department of Nuclear Engineering University of Illinois at Urbana-Champaign,103 South Goodwin Avenue,Urbana,IL 61801,USA" "Physica C.,246(1995)297-308" 6077 PHC2460297 "Bi2Sr2Ca(Cu,Li)2Oz" Bi2Sr2Ca1Cu1.1Li0.9Oz Bi 2 Sr 2 Ca 1 Cu 1.1 Li 0.9 O z 1995 Bi2212 K 82.8 5.6 82.8 "Bi2Sr2CaCu2Oz, Bi2Sr2Ca(Cu0.55Li0.45)2Oz" "mixture of precursor-pellet-SIN(870C,10-120H, in air)-cool to 800C (7C/min) -ANN(800C,12-48H)-Q to RT" Superconducting properties and microstructural evolution of Li doped Bi2Sr2CaCu2Ox 1995 5 "Science and Tecnology Center for Superconductivity and Department of Nuclear Engineering University of Illinois at Urbana-Champaign,103 South Goodwin Avenue,Urbana,IL 61801,USA" "Physica C.,246(1995)297-308" 6078 PHC2460297 T(*)=875C Bi2Sr2Ca1Cu2Li0.1Oz Bi 2 Sr 2 Ca 1 Cu 2 Li 0.1 O z 1995 Bi2212 K 86.9 9.3 86.9 "Bi2Sr2CaCu2Oz, Li2O2Bi2O3" 1 "mixture-pellet SIN(T(*),10-120 min, in air)-cool to 800C (7K/min)-ANN (800C,12-48H)-Q to RT" Superconducting properties and microstructural evolution of Li doped Bi2Sr2CaCu2Ox 1995 5 "Science and Tecnology Center for Superconductivity and Department of Nuclear Engineering University of Illinois at Urbana-Champaign,103 South Goodwin Avenue,Urbana,IL 61801,USA" "Physica C.,246(1995)297-308" 6079 PHC2460297 T(*)=865C Bi2Sr2Ca1Cu2Li0.4Oz Bi 2 Sr 2 Ca 1 Cu 2 Li 0.4 O z 1995 Bi2212 K 91.2 8.5 91.2 "Bi2Sr2CaCu2Oz, Li2O2Bi2O3" 1 "mixture-pellet SIN(T(*),10-120 min, in air)-cool to 800C (7K/min)-ANN (800C,12-48H)-Q to RT" Superconducting properties and microstructural evolution of Li doped Bi2Sr2CaCu2Ox 1995 5 "Science and Tecnology Center for Superconductivity and Department of Nuclear Engineering University of Illinois at Urbana-Champaign,103 South Goodwin Avenue,Urbana,IL 61801,USA" "Physica C.,246(1995)297-308" 6080 PHC2460297 T(*)=865C Bi1.8Sr2Ca1Cu2Li0.4Oz Bi 1.8 Sr 2 Ca 1 Cu 2 Li 0.4 O z 1995 Bi2212 K 94.1 6.8 94.1 "Bi2Sr2CaCu2Oz, Li2O2Bi2O3" 1 "mixture-pellet SIN(T(*),10-120 min, in air)-cool to 800C (7K/min)-ANN (800C,12-48H)-Q to RT" Superconducting properties and microstructural evolution of Li doped Bi2Sr2CaCu2Ox 1995 5 "Science and Tecnology Center for Superconductivity and Department of Nuclear Engineering University of Illinois at Urbana-Champaign,103 South Goodwin Avenue,Urbana,IL 61801,USA" "Physica C.,246(1995)297-308" 6081 PHC2460203 As-sintered "(Tl,Hg)Ba2Ca2Cu3O8" Tl1Ba2Ca2Cu3O8+z Tl 1 Ba 2 Ca 2 Cu 3 O 8+z 1 1995 2 Tl1223 3.845 15.909 K 123 123 "Tl2 O3, Hg O, Ba O, Ca O, Cu O" 1 "mixture-pellet-wrapping in Au foil-seal in evacuated qurtq tube-heat-SIN(750-850C,2-5H)-RT-ANN(300C,1-2H in flowing O2)" Superconductivity above 130 K in Tl1-xHgxBa2Ca2Cu3O8+z 1995 5 "Physics Department,University of California,Davis,CA,USA" "Physica C.,246(1995)203-206" 6082 PHC2460203 as-sintered "(Tl,Hg)Ba2Ca2Cu3O8" Tl0.9Hg0.1Ba2Ca2Cu3O8+z Tl 0.9 Hg 0.1 Ba 2 Ca 2 Cu 3 O 8+z 1995 2 Tl1223 3.845 15.902 K 132 132 "Tl2 O3, Hg O, Ba O, Ca O, Cu O" 1 "mixture-pellet-wrapping in Au foil-seal in evacuated qurtq tube-heat-SIN(750-850C,2-5H)-RT-ANN(300C,1-2H in flowing O2)" Superconductivity above 130 K in Tl1-xHgxBa2Ca2Cu3O8+z 1995 5 "Physics Department,University of California,Davis,CA,USA" "Physica C.,246(1995)203-206" 6083 PHC2460203 as-sintered "(Tl,Hg)Ba2Ca2Cu3O8" Tl0.7Hg0.3Ba2Ca2Cu3O8+z Tl 0.7 Hg 0.3 Ba 2 Ca 2 Cu 3 O 8+z 1995 2 Tl1223 3.845 15.89 K 133 133 "Tl2 O3, Hg O, Ba O, Ca O, Cu O" 1 "mixture-pellet-wrapping in Au foil-seal in evacuated qurtq tube-heat-SIN(750-850C,2-5H)-RT-ANN(300C,1-2H in flowing O2)" Superconductivity above 130 K in Tl1-xHgxBa2Ca2Cu3O8+z 1995 5 "Physics Department,University of California,Davis,CA,USA" "Physica C.,246(1995)203-206" 6084 PHC2460203 "(Tl,Hg)Ba2Ca2Cu3O8" Tl0.5Hg0.5Ba2Ca2Cu3O8+z Tl 0.5 Hg 0.5 Ba 2 Ca 2 Cu 3 O 8+z 1995 2 Tl1223 3.845 15.873 K 134 134 "Tl2 O3, Hg O, Ba O, Ca O, Cu O" 1 "mixture-pellet-wrapping in Au foil-seal in evacuated qurtq tube-heat-SIN(750-850C,2-5H)-RT-ANN(300C,1-2H in flowing O2)" Superconductivity above 130 K in Tl1-xHgxBa2Ca2Cu3O8+z 1995 5 "Physics Department,University of California,Davis,CA,USA" "Physica C.,246(1995)203-206" 6085 PHC2460203 "(Tl,Hg)Ba2Ca2Cu3O8" Tl0.3Hg0.7Ba2Ca2Cu3O8+z Tl 0.3 Hg 0.7 Ba 2 Ca 2 Cu 3 O 8+z 1995 2 Tl1223 3.845 15.86 K 134 134 "Tl2 O3, Hg O, Ba O, Ca O, Cu O" 1 "mixture-pellet-wrapping in Au foil-seal in evacuated qurtq tube-heat-SIN(750-850C,2-5H)-RT-ANN(300C,1-2H in flowing O2)" Superconductivity above 130 K in Tl1-xHgxBa2Ca2Cu3O8+z 1995 5 "Physics Department,University of California,Davis,CA,USA" "Physica C.,246(1995)203-206" 6086 PHC2460203 "(Tl,Hg)Ba2Ca2Cu3O8" Tl0.1Hg0.9Ba2Ca2Cu3O8+z Tl 0.1 Hg 0.9 Ba 2 Ca 2 Cu 3 O 8+z 1995 2 Tl1223 3.845 15.851 K 134 134 "Tl2 O3, Hg O, Ba O, Ca O, Cu O" 1 "mixture-pellet-wrapping in Au foil-seal in evacuated qurtq tube-heat-SIN(750-850C,2-5H)-RT-ANN(300C,1-2H in flowing O2)" Superconductivity above 130 K in Tl1-xHgxBa2Ca2Cu3O8+z 1995 5 "Physics Department,University of California,Davis,CA,USA" "Physica C.,246(1995)203-206" 6087 PHC2460203 "(Tl,Hg)Ba2Ca2Cu3O8" Tl0.05Hg0.95Ba2Ca2Cu3O8+z Tl 0.05 Hg 0.95 Ba 2 Ca 2 Cu 3 O 8+z 1995 2 Tl1223 3.845 K 134 134 "Tl2 O3, Hg O, Ba O, Ca O, Cu O" 1 "mixture-pellet-wrapping in Au foil-seal in evacuated qurtq tube-heat-SIN(750-850C,2-5H)-RT-ANN(300C,1-2H in flowing O2)" Superconductivity above 130 K in Tl1-xHgxBa2Ca2Cu3O8+z 1995 5 "Physics Department,University of California,Davis,CA,USA" "Physica C.,246(1995)203-206" 6088 PHC2460203 "(Tl,Hg)Ba2Ca2Cu3O8" Hg1Ba2Ca2Cu3O8+z Hg 1 Ba 2 Ca 2 Cu 3 O 8+z 1995 2 Tl1223 3.845 15.829 K 134 134 "Tl2 O3, Hg O, Ba O, Ca O, Cu O" 1 "mixture-pellet-wrapping in Au foil-seal in evacuated qurtq tube-heat-SIN(750-850C,2-5H)-RT-ANN(300C,1-2H in flowing O2)" Superconductivity above 130 K in Tl1-xHgxBa2Ca2Cu3O8+z 1995 5 "Physics Department,University of California,Davis,CA,USA" "Physica C.,246(1995)203-206" 6089 PHC2550173 as-prepared HgBa2CuO4 Hg1Ba2Cu1O4.08 Hg 1 Ba 2 Cu 1 O 4+z 4.08 1995 2 Hg1201 3.882 9.525 K 94 94 "react in evacuated silica tube uning extra Ba2CuO3+z in tube,temp.gradient=15-20C" Synthesis of monophase HgBa2CuO4+z under controlled partial oxygen pressure 1995 12 "Department of Chemistry,Moscow State University 119899,Moscow,Russian federation" "Physica.C,255(1995)173-179" "Hg, Ba, Cu, O" 6090 PHC2550173 ANN(350C 67H in 1 bar Ar) HgBa2CuO4 Hg1Ba2Cu1O4.01 Hg 1 Ba 2 Cu 1 O 4+z 4.01 1995 2 Hg1201 3.887 9.54 K 68 68 "react in evacuated silica tube uning extra Ba2CuO3+z in tube,temp.gradient=15-20C" Synthesis of monophase HgBa2CuO4+z under controlled partial oxygen pressure 1995 12 "Department of Chemistry,Moscow State University 119899,Moscow,Russian federation" "Physica.C,255(1995)173-179" "Hg, Ba, Cu, O" 6091 PHC2550173 "ANN(250C,24H in 1 Bar O2)" HgBa2CuO4 Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1995 2 Hg1201 3.881 9.525 K 95 95 "react in evacuated silica tube uning extra Ba2CuO3+z in tube,temp.gradient=15-20C" Synthesis of monophase HgBa2CuO4+z under controlled partial oxygen pressure 1995 12 "Department of Chemistry,Moscow State University 119899,Moscow,Russian federation" "Physica.C,255(1995)173-179" "Hg, Ba, Cu, O" 6092 PHC2550173 "ANN(200C,18H in 125 bar O2)" HgBa2CuO4 Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1995 2 Hg1201 3.88 9.521 K 97 97 "react in evacuated silica tube uning extra Ba2CuO3+z in tube,temp.gradient=15-20C" Synthesis of monophase HgBa2CuO4+z under controlled partial oxygen pressure 1995 12 "Department of Chemistry,Moscow State University 119899,Moscow,Russian federation" "Physica.C,255(1995)173-179" "Hg, Ba, Cu, O" 6093 PHC2550173 "ANN(250C,66H in 90 bar O2)" HgBa2CuO4 Hg1Ba2Cu1O4.12 Hg 1 Ba 2 Cu 1 O 4+z 4.12 1995 2 Hg1201 3.876 9.514 K 89 89 "react in evacuated silica tube uning extra Ba2CuO3+z in tube,temp.gradient=15-20C" Synthesis of monophase HgBa2CuO4+z under controlled partial oxygen pressure 1995 12 "Department of Chemistry,Moscow State University 119899,Moscow,Russian federation" "Physica.C,255(1995)173-179" "Hg, Ba, Cu, O" 6094 PHC2550173 as-prepared HgBa2CuO4 Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1995 2 Hg1201 3.884 9.53 K 85 85 "react in evacuated silica tube uning extra Ba2CuO3+z in tube,temp.gradient=15-20C" Synthesis of monophase HgBa2CuO4+z under controlled partial oxygen pressure 1995 12 "Department of Chemistry,Moscow State University 119899,Moscow,Russian federation" "Physica.C,255(1995)173-179" "Hg, Ba, Cu, O" 6095 PHC2550173 "ANN(250C,24H in flowing O2),Hg0.89 Ba2 Cu1.06 O4+z from wet analysis" HgBa2CuO4 Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1995 2 Hg1201 3.879 9.525 K 96 96 "react in evacuated silica tube uning extra Ba2CuO3+z in tube,temp.gradient=15-20C" Synthesis of monophase HgBa2CuO4+z under controlled partial oxygen pressure 1995 12 "Department of Chemistry,Moscow State University 119899,Moscow,Russian federation" "Physica.C,255(1995)173-179" "Hg, Ba, Cu, O" 6096 PHC2550151 "(Bi,Mo,Cu)Sr2YCu2O7" Bi0.33Cu0.67Sr2Y1Cu2Oz Bi 0.33 Cu 0.67 Sr 2 Y 1 Cu 2 O z 1 1995 Cu1212 3.8118 11.7123 K 10 "Bi2 O3, Mo O3, Sr Co3, Y2 O3, CuO" 1 "mixtuo-CAL(900C,10H in air )-pellet-SIN(980-1000C, 60H in air)-Q to RT-ANN(500-600C, in O2)" prepration and physical properties of the superconductor [(Bi1-xMox)0.33Cu0.67] Sr2YCu2Oy 1995 12 "Faculry of Engineering,Yamagata Univercity,4-3-16,Japan, Yonezawa, Yamagata 992, Japan" "Physica.C,255(1995)151-156" "Bi, Mo, Cu, Sr, Y, Cu, O" 6097 PHC2550151 "(Bi,Mo,Cu)Sr2YCu2O7" Bi0.264Mo0.066Cu0.67Sr2Y1Cu2Oz Bi 0.264 Mo 0.066 Cu 0.67 Sr 2 Y 1 Cu 2 O z 1 1995 Cu1212 3.812 11.6757 K 10 "Bi2 O3, Mo O3, Sr Co3, Y2 O3, CuO" 1 "mixtuo-CAL(900C,10H in air )-pellet-SIN(980-1000C, 60H in air)-Q to RT-ANN(500-600C, in O2)" prepration and physical properties of the superconductor [(Bi1-xMox)0.33Cu0.67] Sr2YCu2Oy 1995 12 "Faculry of Engineering,Yamagata Univercity,4-3-16,Japan, Yonezawa, Yamagata 992, Japan" "Physica.C,255(1995)151-156" "Bi, Mo, Cu, Sr, Y, Cu, O" 6098 PHC2550151 "(Bi,Mo,Cu)Sr2YCu2O7" Bi0.198Mo0.132Cu0.67Sr2Y1Cu2Oz Bi 0.198 Mo 0.132 Cu 0.67 Sr 2 Y 1 Cu 2 O z 1 1995 Cu1212 3.8111 11.6226 K 10 "Bi2 O3, Mo O3, Sr Co3, Y2 O3, CuO" 1 "mixtuo-CAL(900C,10H in air )-pellet-SIN(980-1000C, 60H in air)-Q to RT-ANN(500-600C, in O2)" prepration and physical properties of the superconductor [(Bi1-xMox)0.33Cu0.67] Sr2YCu2Oy 1995 12 "Faculry of Engineering,Yamagata Univercity,4-3-16,Japan, Yonezawa, Yamagata 992, Japan" "Physica.C,255(1995)151-156" "Bi, Mo, Cu, Sr, Y, Cu, O" 6099 PHC2550151 "(Bi,Mo,Cu)Sr2YCu2O7" Bi0.148Mo0.182Cu0.67Sr2Y1Cu2Oz Bi 0.148 Mo 0.182 Cu 0.67 Sr 2 Y 1 Cu 2 O z 1 1995 Cu1212 3.8137 11.5943 K 30.1 30.1 "Bi2 O3, Mo O3, Sr Co3, Y2 O3, CuO" 1 "mixtuo-CAL(900C,10H in air )-pellet-SIN(980-1000C, 60H in air)-Q to RT-ANN(500-600C, in O2)" prepration and physical properties of the superconductor [(Bi1-xMox)0.33Cu0.67] Sr2YCu2Oy 1995 12 "Faculry of Engineering,Yamagata Univercity,4-3-16,Japan, Yonezawa, Yamagata 992, Japan" "Physica.C,255(1995)151-156" "Bi, Mo, Cu, Sr, Y, Cu, O" 6100 PHC2550151 "(Bi,Mo,Cu)Sr2YCu2O7" Bi0.099Mo0.231Cu0.67Sr2Y1Cu2Oz Bi 0.099 Mo 0.231 Cu 0.67 Sr 2 Y 1 Cu 2 O z 1 1995 Cu1212 K 35.2 35.2 "Bi2 O3, Mo O3, Sr Co3, Y2 O3, CuO" 1 "mixtuo-CAL(900C,10H in air )-pellet-SIN(980-1000C, 60H in air)-Q to RT-ANN(500-600C, in O2)" prepration and physical properties of the superconductor [(Bi1-xMox)0.33Cu0.67] Sr2YCu2Oy 1995 12 "Faculry of Engineering,Yamagata Univercity,4-3-16,Japan, Yonezawa, Yamagata 992, Japan" "Physica.C,255(1995)151-156" "Bi, Mo, Cu, Sr, Y, Cu, O" 6101 PHC2550151 "(Bi,Mo,Cu)Sr2YCu2O7" Mo0.33Cu0.67Sr2Y1Cu2Oz Mo 0.33 Cu 0.67 Sr 2 Y 1 Cu 2 O z 1 1995 Cu1212 K 35.7 35.7 "Bi2 O3, Mo O3, Sr Co3, Y2 O3, CuO" 1 "mixtuo-CAL(900C,10H in air )-pellet-SIN(980-1000C, 60H in air)-Q to RT-ANN(500-600C, in O2)" prepration and physical properties of the superconductor [(Bi1-xMox)0.33Cu0.67] Sr2YCu2Oy 1995 12 "Faculry of Engineering,Yamagata Univercity,4-3-16,Japan, Yonezawa, Yamagata 992, Japan" "Physica.C,255(1995)151-156" "Bi, Mo, Cu, Sr, Y, Cu, O" 6102 PHC2550147 "(Gd,La,Ce)2CuO4" Gd1.85Ce0.15Cu1O4 Gd 1.85 Ce 0.15 Cu 1 O 4 1 1995 4.73 2 T' 3.903 11.86 K 1.5 1 "Stracutural and magnetic properties of (Gd,La)1.85Ce0.15CuO4" 1995 12 "(a)Depertment of Physics,Peking Univercity,Beijing,People's Republic of China(b)Depertment of Chemistry,Peking Univercity, Beijing, People's Republik of China" "Physica.C,255(1995)147-150" "Gd, La, Ce, Cu, O" 6103 PHC2550147 "(Gd,La,Ce)2CuO4" Gd1.75La0.1Ce0.15Cu1O4 Gd 1.75 La 0.1 Ce 0.15 Cu 1 O 4 1 1995 4.57 2 T' 3.905 11.86 K 1.5 1 "Stracutural and magnetic properties of (Gd,La)1.85Ce0.15CuO4" 1995 12 "(a)Depertment of Physics,Peking Univercity,Beijing,People's Republic of China(b)Depertment of Chemistry,Peking Univercity, Beijing, People's Republik of China" "Physica.C,255(1995)147-150" "Gd, La, Ce, Cu, O" 6104 PHC2550147 "(Gd,La,Ce)2CuO4" Gd1.65La0.2Ce0.15Cu1O4 Gd 1.65 La 0.2 Ce 0.15 Cu 1 O 4 1 1995 4.16 2 T' 3.911 11.885 K 1.5 1 "Stracutural and magnetic properties of (Gd,La)1.85Ce0.15CuO4" 1995 12 "(a)Depertment of Physics,Peking Univercity,Beijing,People's Republic of China(b)Depertment of Chemistry,Peking Univercity, Beijing, People's Republik of China" "Physica.C,255(1995)147-150" "Gd, La, Ce, Cu, O" 6105 PHC2550147 "(Gd,La,Ce)2CuO4" Gd1.55La0.3Ce0.15Cu1O4 Gd 1.55 La 0.3 Ce 0.15 Cu 1 O 4 1 1995 3.76 2 T' 3.92 11.937 K 1.5 1 "Stracutural and magnetic properties of (Gd,La)1.85Ce0.15CuO4" 1995 12 "(a)Depertment of Physics,Peking Univercity,Beijing,People's Republic of China(b)Depertment of Chemistry,Peking Univercity, Beijing, People's Republik of China" "Physica.C,255(1995)147-150" "Gd, La, Ce, Cu, O" 6106 PHC2550147 "(Gd,La,Ce)2CuO4" Gd1.35La0.5Ce0.15Cu1O4 Gd 1.35 La 0.5 Ce 0.15 Cu 1 O 4 1 1995 2 T' 3.935 11.995 K 1.5 1 "Stracutural and magnetic properties of (Gd,La)1.85Ce0.15CuO4" 1995 12 "(a)Depertment of Physics,Peking Univercity,Beijing,People's Republic of China(b)Depertment of Chemistry,Peking Univercity, Beijing, People's Republik of China" "Physica.C,255(1995)147-150" "Gd, La, Ce, Cu, O" 6107 PHC2550147 "(Gd,La,Ce)2CuO4" Gd1.25La0.6Ce0.15Cu1O4 Gd 1.25 La 0.6 Ce 0.15 Cu 1 O 4 1 1995 2 T' 3.94 12.02 K 1.5 1 "Stracutural and magnetic properties of (Gd,La)1.85Ce0.15CuO4" 1995 12 "(a)Depertment of Physics,Peking Univercity,Beijing,People's Republic of China(b)Depertment of Chemistry,Peking Univercity, Beijing, People's Republik of China" "Physica.C,255(1995)147-150" "Gd, La, Ce, Cu, O" 6108 PHC2550147 "(Gd,La,Ce)2CuO4" Gd1.05La0.8Ce0.15Cu1O4 Gd 1.05 La 0.8 Ce 0.15 Cu 1 O 4 1 1995 2 T' 3.951 12.1 K 1.5 1 "Stracutural and magnetic properties of (Gd,La)1.85Ce0.15CuO4" 1995 12 "(a)Depertment of Physics,Peking Univercity,Beijing,People's Republic of China(b)Depertment of Chemistry,Peking Univercity, Beijing, People's Republik of China" "Physica.C,255(1995)147-150" "Gd, La, Ce, Cu, O" 6109 PHC2550147 "(Gd,La,Ce)2CuO4" Gd0.95La0.9Ce0.15Cu1O4 Gd 0.95 La 0.9 Ce 0.15 Cu 1 O 4 1 1995 2 T' 3.957 12.125 K 1.5 1 "Stracutural and magnetic properties of (Gd,La)1.85Ce0.15CuO4" 1995 12 "(a)Depertment of Physics,Peking Univercity,Beijing,People's Republic of China(b)Depertment of Chemistry,Peking Univercity, Beijing, People's Republik of China" "Physica.C,255(1995)147-150" "Gd, La, Ce, Cu, O" 6110 PHC2550147 "(Gd,La,Ce)2CuO4" Gd0.65La1.2Ce0.15Cu1O4 Gd 0.65 La 1.2 Ce 0.15 Cu 1 O 4 1 1995 2 T' 3.977 12.235 K 1.5 1 "Stracutural and magnetic properties of (Gd,La)1.85Ce0.15CuO4" 1995 12 "(a)Depertment of Physics,Peking Univercity,Beijing,People's Republic of China(b)Depertment of Chemistry,Peking Univercity, Beijing, People's Republik of China" "Physica.C,255(1995)147-150" "Gd, La, Ce, Cu, O" 6111 PHC2550147 "(Gd,La,Ce)2CuO4" Gd0.35La1.5Ce0.15Cu1O4 Gd 0.35 La 1.5 Ce 0.15 Cu 1 O 4 1 1995 2 T' K 1.5 1 "Stracutural and magnetic properties of (Gd,La)1.85Ce0.15CuO4" 1995 12 "(a)Depertment of Physics,Peking Univercity,Beijing,People's Republic of China(b)Depertment of Chemistry,Peking Univercity, Beijing, People's Republik of China" "Physica.C,255(1995)147-150" "Gd, La, Ce, Cu, O" 6112 PHC2560051 "Nd(Ba,Sr)2 Cu3O7" Nd1Ba1Sr1Cu3O6.92 Nd 1 Ba 1 Sr 1 Cu 3 O 7-z 6.92 1 1996 2 Y123 3.854 11.634 K 60 64 64 "Nd2O3, SrCO3, CuO, CaCO3, Ba(NO3)2" 1 "mixture-CAL(1225K,24H)-SIN(1235-1255K,96-180H depending on Ca content) -ANN(450C,72H)" Effect of substitution of Ca for Nd and Sr on the superconducting behaviour of NdBaSrCu3O7-z 1996 1 "Chemistry Division,Bhabha Atomic Research Centre,Bombay-400 085, India" "Physica.C,256(1996)51-56" "Nd, Ba, Sr, Cu, O, Ca" 6113 PHC2560051 "(Nd,Ca)(Ba,Sr)2 Cu3O7" Nd0.9Ca0.1Ba1Sr1Cu3O6.85 Nd 0.9 Ca 0.1 Ba 1 Sr 1 Cu 3 O 7-z 6.85 1 1996 2 Y123 3.866 11.673 K 71 71 "Nd2O3, SrCO3, CuO, CaCO3, Ba(NO3)2" 1 "mixture-CAL(1225K,24H)-SIN(1235-1255K,96-180H depending on Ca content) -ANN(450C,72H)" Effect of substitution of Ca for Nd and Sr on the superconducting behaviour of NdBaSrCu3O7-z 1996 1 "Chemistry Division,Bhabha Atomic Research Centre,Bombay-400 085, India" "Physica.C,256(1996)51-56" "Nd, Ba, Sr, Cu, O, Ca" 6114 PHC2560051 "(Nd,Ca)(Ba,Sr)2 Cu3 O7" Nd0.8Ca0.2Ba1Sr1Cu3O6.78 Nd 0.8 Ca 0.2 Ba 1 Sr 1 Cu 3 O 7-z 6.78 1 1996 2 Y123 3.864 11.648 K 77 77 "Nd2O3, SrCO3, CuO, CaCO3, Ba(NO3)2" 1 "mixture-CAL(1225K,24H)-SIN(1235-1255K,96-180H depending on Ca content) -ANN(450C,72H)" Effect of substitution of Ca for Nd and Sr on the superconducting behaviour of NdBaSrCu3O7-z 1996 1 "Chemistry Division,Bhabha Atomic Research Centre,Bombay-400 085, India" "Physica.C,256(1996)51-56" "Nd, Ba, Sr, Cu, O, Ca" 6115 PHC2560051 "Nd(Ba,Sr,Ca)2 Cu3 O7" Nd1Ba1Sr0.95Ca0.05Cu3O7-z Nd 1 Ba 1 Sr 0.95 Ca 0.05 Cu 3 O 7-z 1 1996 2 Y123 3.86 11.627 K 65 67 67 "Nd2O3, SrCO3, CuO, CaCO3, Ba(NO3)2" 1 "mixture-CAL(1225K,24H)-SIN(1235-1255K,96-180H depending on Ca content) -ANN(450C,72H)" Effect of substitution of Ca for Nd and Sr on the superconducting behaviour of NdBaSrCu3O7-z 1996 1 "Chemistry Division,Bhabha Atomic Research Centre,Bombay-400 085, India" "Physica.C,256(1996)51-56" "Nd, Ba, Sr, Cu, O, Ca" 6116 PHC2560051 "Nd(Ba,Sr,Ca)2 Cu3 O7" Nd1Ba1Sr0.9Ca0.1Cu3O7-z Nd 1 Ba 1 Sr 0.9 Ca 0.1 Cu 3 O 7-z 1 1996 2 Y123 3.858 11.62 K 66 70 70 "Nd2O3, SrCO3, CuO, CaCO3, Ba(NO3)2" 1 "mixture-CAL(1225K,24H)-SIN(1235-1255K,96-180H depending on Ca content) -ANN(450C,72H)" Effect of substitution of Ca for Nd and Sr on the superconducting behaviour of NdBaSrCu3O7-z 1996 1 "Chemistry Division,Bhabha Atomic Research Centre,Bombay-400 085, India" "Physica.C,256(1996)51-56" "Nd, Ba, Sr, Cu, O, Ca" 6117 PHC2560051 "Nd(Ba,Sr,Ca)2 Cu3O7" Nd1Ba1Sr0.85Ca0.15Cu3O7-z Nd 1 Ba 1 Sr 0.85 Ca 0.15 Cu 3 O 7-z 1 1996 2 Y123 3.858 11.615 K 66 69 69 "Nd2O3, SrCO3, CuO, CaCO3, Ba(NO3)2" 1 "mixture-CAL(1225K,24H)-SIN(1235-1255K,96-180H depending on Ca content) -ANN(450C,72H)" Effect of substitution of Ca for Nd and Sr on the superconducting behaviour of NdBaSrCu3O7-z 1996 1 "Chemistry Division,Bhabha Atomic Research Centre,Bombay-400 085, India" "Physica.C,256(1996)51-56" "Nd, Ba, Sr, Cu, O, Ca" 6118 PHC2560051 "Nd(Ba,Sr,Ca)2 Cu3 O7" Nd1Ba1Sr0.8Ca0.2Cu3O7-z Nd 1 Ba 1 Sr 0.8 Ca 0.2 Cu 3 O 7-z 2 1996 2 Y123 3.852 11.607 K 66 69 69 "Nd2O3, SrCO3, CuO, CaCO3, Ba(NO3)2" 1 "mixture-CAL(1225K,24H)-SIN(1235-1255K,96-180H depending on Ca content) -ANN(450C,72H)" Effect of substitution of Ca for Nd and Sr on the superconducting behaviour of NdBaSrCu3O7-z 1996 1 "Chemistry Division,Bhabha Atomic Research Centre,Bombay-400 085, India" "Physica.C,256(1996)51-56" "Nd, Ba, Sr, Cu, O, Ca" 6119 PHC2560051 "Nd(Ba,Sr,Ca)2 Cu3O7" Nd1Ba1Sr0.6Ca0.4Cu3O7-z Nd 1 Ba 1 Sr 0.6 Ca 0.4 Cu 3 O 7-z 2 1996 2 Y123 3.854 11.611 K 62 66 66 "Nd2O3, SrCO3, CuO, CaCO3, Ba(NO3)2" 1 "mixture-CAL(1225K,24H)-SIN(1235-1255K,96-180H depending on Ca content) -ANN(450C,72H)" Effect of substitution of Ca for Nd and Sr on the superconducting behaviour of NdBaSrCu3O7-z 1996 1 "Chemistry Division,Bhabha Atomic Research Centre,Bombay-400 085, India" "Physica.C,256(1996)51-56" "Nd, Ba, Sr, Cu, O, Ca" 6120 PHC2560051 "Nd(Ba,Sr,Ca)2 Cu3O7" Nd1Ba1Sr0.4Ca0.6Cu3O7-z Nd 1 Ba 1 Sr 0.4 Ca 0.6 Cu 3 O 7-z 2 1996 2 Y123 3.862 11.64 K 59 63 63 "Nd2O3, SrCO3, CuO, CaCO3, Ba(NO3)2" 1 "mixture-CAL(1225K,24H)-SIN(1235-1255K,96-180H depending on Ca content) -ANN(450C,72H)" Effect of substitution of Ca for Nd and Sr on the superconducting behaviour of NdBaSrCu3O7-z 1996 1 "Chemistry Division,Bhabha Atomic Research Centre,Bombay-400 085, India" "Physica.C,256(1996)51-56" "Nd, Ba, Sr, Cu, O, Ca" 6121 PHC2560051 "Nd(Ba,Sr,Ca)2 Cu3O7" Nd1Ba1Sr0.2Ca0.8Cu3O7-z Nd 1 Ba 1 Sr 0.2 Ca 0.8 Cu 3 O 7-z 2 1996 2 Y123 3.865 11.608 K 41 51 51 "Nd2O3, SrCO3, CuO, CaCO3, Ba(NO3)2" 1 "mixture-CAL(1225K,24H)-SIN(1235-1255K,96-180H depending on Ca content) -ANN(450C,72H)" Effect of substitution of Ca for Nd and Sr on the superconducting behaviour of NdBaSrCu3O7-z 1996 1 "Chemistry Division,Bhabha Atomic Research Centre,Bombay-400 085, India" "Physica.C,256(1996)51-56" "Nd, Ba, Sr, Cu, O, Ca" 6122 PHC2560051 "Nd(Ba,Sr,Ca)2 Cu3O7" Nd1Ba1Ca1Cu3O7-z Nd 1 Ba 1 Ca 1 Cu 3 O 7-z 2 1996 2 Y123 3.864 11.63 K 47 59 59 "Nd2O3, SrCO3, CuO, CaCO3, Ba(NO3)2" 1 "mixture-CAL(1225K,24H)-SIN(1235-1255K,96-180H depending on Ca content) -ANN(450C,72H)" Effect of substitution of Ca for Nd and Sr on the superconducting behaviour of NdBaSrCu3O7-z 1996 1 "Chemistry Division,Bhabha Atomic Research Centre,Bombay-400 085, India" "Physica.C,256(1996)51-56" "Nd, Ba, Sr, Cu, O, Ca" 6123 PHC2550188 nearly single phase "(Hg,W)(Sr,La)2 Cu Oz" Hg0.8W0.2Sr1.4La0.6Cu1Oz Hg 0.8 W 0.2 Sr 1.4 La 0.6 Cu 1 O z 1 1995 2 Hg1201 3.781 8.828 K 19 37 28 "WO3,Sr(NO3)2,La2O3,CuO,HgO" "precursor with out HgO-CAL(900C,20H)-cool to RT-mix with HgO-seal in quartq-heat to 830C,2C/min-(830C,10H)-cool to RT" "Synthesis and supercoductivity of new barinm-free mercury-based cuprates (Hg,W) (Sr,La)n+1CunOz(n=1,2)" 1995 12 "(a)Depertment of Applied Chemistry,Univercity of Science and Technology of china,Hefei230026,PR. China( b)Structure Research Laboratory,Univercity of Science and Technology of China,Hefei230026,P.R.China" "Physica.C,255(1995)188-192" "Hg, W, Sr, La, Cu, O" 6124 PHC2550188 "nearly single hease,Annealed sample" "(Hg,W)Sr2(Sr,La)Cu2Oz" Hg0.8W0.2Sr2.45La0.55Cu2Oz Hg 0.8 W 0.2 Sr 2.45 La 0.55 Cu 2 O z 1995 Hg1212 P4/mmm 3.862 12.108 K 41 91 66 "WO3,Sr(NO3)2,La2O3,CuO,HgO" "precursor with out HgO-CAL(900C,20H)-cool to RT-mix with HgO-seal in quartq-heat to 830C,2C/min-(830C,10H)-cool to RT" "Synthesis and supercoductivity of new barinm-free mercury-based cuprates (Hg,W) (Sr,La)n+1CunOz(n=1,2)" 1995 12 "(a)Depertment of Applied Chemistry,Univercity of Science and Technology of china,Hefei230026,PR. China( b)Structure Research Laboratory,Univercity of Science and Technology of China,Hefei230026,P.R.China" "Physica.C,255(1995)188-192" "Hg, W, Sr, La, Cu, O" 6125 PHC2560161 "(Y,Pr)Ba2Cu3O7" Y0.9Pr0.1Ba2Cu3Oz Y 0.9 Pr 0.1 Ba 2 Cu 3 O z 1996 3 Y123 K 85.1 85.1 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6126 PHC2560161 "(Y,Pr,Ca)Ba2Cu3O7" Y0.85Pr0.1Ca0.05Ba2Cu3Oz Y 0.85 Pr 0.1 Ca 0.05 Ba 2 Cu 3 O z 1996 3 Y123 K 82.2 82.2 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6127 PHC2560161 "(Y,Pr,Ca)Ba2Cu3O7" Y0.8Pr0.1Ca0.1Ba2Cu3Oz Y 0.8 Pr 0.1 Ca 0.1 Ba 2 Cu 3 O z 1996 3 Y123 K 78.1 78.1 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6128 PHC2560161 "(Y,Pr,Ca)Ba2Cu3O7" Y0.75Pr0.1Ca0.15Ba2Cu3Oz Y 0.75 Pr 0.1 Ca 0.15 Ba 2 Cu 3 O z 1996 3 Y123 K 70.8 70.8 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6129 PHC2560161 "(Y,Pr,Ca)Ba2Cu3O7" Y0.7Pr0.1Ca0.2Ba2Cu3Oz Y 0.7 Pr 0.1 Ca 0.2 Ba 2 Cu 3 O z 1996 3 Y123 K 64 64 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6130 PHC2560161 "(Gd,Pr)Ba2Cu3O7" Gd0.8Pr0.2Ba2Cu3Oz Gd 0.8 Pr 0.2 Ba 2 Cu 3 O z 1996 3 Y123 K 58.7 58.7 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6131 PHC2560161 "(Gd,Pr,Ca)Ba2Cu3O7" Gd0.75Pr0.2Ca0.05Ba2Cu3Oz Gd 0.75 Pr 0.2 Ca 0.05 Ba 2 Cu 3 O z 1996 3 Y123 K 61.6 61.6 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6132 PHC2560161 "(Gd,Pr,Ca)Ba2Cu3O7" Gd0.7Pr0.2Ca0.1Ba2Cu3O7 Gd 0.7 Pr 0.2 Ca 0.1 Ba 2 Cu 3 O 7 1996 3 Y123 K 64.4 64.4 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6133 PHC2560161 "(Gd,Pr,Ca)Ba2Cu3O7" Gd0.65Pr0.2Ca0.15Ba2Cu3Oz Gd 0.65 Pr 0.2 Ca 0.15 Ba 2 Cu 3 O z 1996 3 Y123 K 62.5 62.5 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6134 PHC2560161 "(Gd,Pr,Ca)Ba2Cu3O7" Gd0.6Pr0.2Ca0.2Ba2Cu3Oz Gd 0.6 Pr 0.2 Ca 0.2 Ba 2 Cu 3 O z 1996 3 Y123 K 58 58 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6135 PHC2560161 "(Y,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3Oz Y 0.8 Pr 0.2 Ba 2 Cu 3 O z 1996 3 Y123 K 69.5 69.5 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6136 PHC2560161 "(Y,Pr,Ca)Ba2Cu3O7" Y0.75Pr0.2Ca0.05Ba2Cu3Oz Y 0.75 Pr 0.2 Ca 0.05 Ba 2 Cu 3 O z 1996 3 Y123 K 72.7 72.7 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6137 PHC2560161 "(Y,Pr,Ca)Ba2Cu3O7" Y0.7Pr0.2Ca0.1Ba2Cu3Oz Y 0.7 Pr 0.2 Ca 0.1 Ba 2 Cu 3 O z 1996 3 Y123 K 74.6 74.6 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6138 PHC2560161 "(Y,Pr,Ca)Ba2Cu3O7" Y0.65Pr0.2Ca0.15Ba2Cu3Oz Y 0.65 Pr 0.2 Ca 0.15 Ba 2 Cu 3 O z 1996 3 Y123 K 72.2 72.2 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6139 PHC2560161 "(Y,Pr,Ca)Ba2Cu3O7" Y0.6Pr0.2Ca0.2Ba2Cu3Oz Y 0.6 Pr 0.2 Ca 0.2 Ba 2 Cu 3 O z 1996 3 Y123 K 66.3 66.3 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6140 PHC2560161 "(Gd,Pr)Ba2Cu3O7" Gd0.9Pr0.1Ba2Cu3Oz Gd 0.9 Pr 0.1 Ba 2 Cu 3 O z 1996 3 Y123 K 80.3 80.3 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6141 PHC2560161 "(Gd,Pr,Ca)Ba2Cu3O7" Gd0.85Pr0.1Ca0.05Ba2Cu3Oz Gd 0.85 Pr 0.1 Ca 0.05 Ba 2 Cu 3 O z 1996 3 Y123 K "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6142 PHC2560161 "(Gd,Pr,Ca)Ba2Cu3O7" Gd0.8Pr0.1Ca0.1Ba2Cu3Oz Gd 0.8 Pr 0.1 Ca 0.1 Ba 2 Cu 3 O z 1996 3 Y123 K 78.4 78.4 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6143 PHC2560161 "(Gd,Pr,Ca)Ba2Cu3O7" Gd0.75Pr0.1Ca0.15Ba2Cu3Oz Gd 0.75 Pr 0.1 Ca 0.15 Ba 2 Cu 3 O z 1996 3 Y123 K "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6144 PHC2560161 "(Gd,Pr,Ca)Ba2Cu3O7" Gd0.7Pr0.1Ca0.2Ba2Cu3Oz Gd 0.7 Pr 0.1 Ca 0.2 Ba 2 Cu 3 O z 1996 3 Y123 K 67.8 67.8 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6145 PHC2560161 YBa2Cu3O7 Y1Ba2Cu3Oz Y 1 Ba 2 Cu 3 O z 1996 3 Y123 K 90.4 90.4 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6146 PHC2560161 "(Y,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3Oz Y 0.7 Pr 0.3 Ba 2 Cu 3 O z 1996 3 Y123 K 56.9 56.9 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6147 PHC2560161 "(Y,Pr)Ba2Cu3O7" Y0.6Pr0.4Ba2Cu3Oz Y 0.6 Pr 0.4 Ba 2 Cu 3 O z 1996 3 Y123 K 33.1 33.1 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6148 PHC2560161 "(Y,Pr)Ba2Cu3O7" Y0.5Pr0.5Ba2Cu3Oz Y 0.5 Pr 0.5 Ba 2 Cu 3 O z 1996 3 Y123 K 0 0 "R2O3,Pr6O11,BaO,CaCO3,CuO" "mixture-CAL(950C,24H)-pellet-heat(950C,24H in flowing O2)-ANN(485C,72H)-cool to RT(3C/min)" "Structual properties and solubility of calcium in the compounds R1-x-yPrxCayBa2Cu3O7-z (R=Y,Gd)" 1996 1 "Department of Physics,University of Hongkong, Pokfulam Road,Hong Kong" "Physica.C,256(1996)161-167" "Y, Gd, Pr, Ca, Ba, Cu, O" 6149 PHC2550329 "Li(Ti,Cu)2O4" Li1Ti1.91Cu0.09O4 Li 1 Ti 1.91 Cu 0.09 O 4 1995 K 14.4 14.4 TC6149 "Li2CO3,Ti,Ti2O3,TiO2,CuO" 1 "mixture-pellet-SIN(800-875C,24-48H in vac)" Conductivity and superconductivity in the LiTi2-xCuxO4 spinel system 1995 12 "Dpertment of Physics,Ben-Gurion University of the Negeu, Beer Sheva, Israel" "Physica.C,255(1995)329-334" "Li, Ti, Cu, O" 6150 PHC2560033 "size=1150*150*5 micron.m3,Pb-stabilized Bi2223 GL=84,Hc(0)=3300G" "(Bi,Pb)2Sr2Ca2Cu3O10" Bi2Sr2Ca2Oz Bi 2 Sr 2 Ca 2 O z 1996 Bi2223 K 109 109 Bi2223 whiskers were prepared by phase conversion of Bi2212 whisker to Bi2223 phase "Lower critical field and reversible magnetization of (Bi, Pb)2 Sr2Ca2Cu3Ox Superconducting whiskers" 1996 1 "(a)Osaka National Reseach Institute, AIST, Ikeda, Osaka 563, Japan (b)The Institute of Scientific and Industrial Reseach, Osaka University,Ibaraki, Osaka 567,Japan" "Physica.C,256(1996)33-38" "Bi, Pb, Sr, Ca, Cu, O" 6151 PHC2560001 "as-prepared,Hg1234,CaO, are included" HgBa2Ca4Cu5O12 Hg1Ba2Ca4Cu5O12+z Hg 1 Ba 2 Ca 4 Cu 5 O 12+z 2 1996 2 Hg1245 3.855 22.156 K 100 100 "Ba2Ca3Cu4Oz, HgO, CaO,CuO" "mixture-in Au capsule-high press(18Kbar)-heat(920C,1.6-4H)-heat cut-press cut" High-pressure synthesis and heat treatments of the HgBa2Ca4Cu5O12+z and HgBa2Ca5Cu6O14+z 1996 1 "Laboratoire de Critallographie, CNRS-UJF, BP 166, 38042 Grenoble Cedex 09, France" "Physica.C, 256(1996)1-7" "Hg, Ba, Ca, Cu, O" 6152 PHC2560001 "ANN(325C,5H,in 500 bar O2)" HgBa2Ca4Cu5O12 Hg1Ba2Ca4Cu5O12+z Hg 1 Ba 2 Ca 4 Cu 5 O 12+z 2 1996 2 Hg1245 3.852 22.141 K 110 110 "Ba2Ca3Cu4Oz, HgO, CaO,CuO" "mixture-in Au capsule-high press(18Kbar)-heat(920C,1.6-4H)-heat cut-press cut" High-pressure synthesis and heat treatments of the HgBa2Ca4Cu5O12+z and HgBa2Ca5Cu6O14+z 1996 1 "Laboratoire de Critallographie, CNRS-UJF, BP 166, 38042 Grenoble Cedex 09, France" "Physica.C, 256(1996)1-7" "Hg, Ba, Ca, Cu, O" 6153 PHC2560001 "as-prepared,70%Hg1256+15%Hg1245+10%Hg1234+CaO" HgBa2Ca5Cu6O14 Hg1Ba2Ca5Cu6O14+z Hg 1 Ba 2 Ca 5 Cu 6 O 14+z 2 1996 2 Hg1256 3.852 25.23 K 100 100 "Ba2Ca3Cu4Oz, HgO, CaO,CuO" "mixture-in Au capsule-high press(18Kbar)-heat(920C,1.6-4H)-heat cut-press cut" High-pressure synthesis and heat treatments of the HgBa2Ca4Cu5O12+z and HgBa2Ca5Cu6O14+z 1996 1 "Laboratoire de Critallographie, CNRS-UJF, BP 166, 38042 Grenoble Cedex 09, France" "Physica.C, 256(1996)1-7" "Hg, Ba, Ca, Cu, O" 6154 PHC2560001 "ANN(280C,10H in 13000bar O2)" HgBa2Ca5Cu6O14 Hg1Ba2Ca5Cu6O14+z Hg 1 Ba 2 Ca 5 Cu 6 O 14+z 1996 2 Hg1256 3.852 25.26 K 107 107 "Ba2Ca3Cu4Oz, HgO, CaO,CuO" "mixture-in Au capsule-high press(18Kbar)-heat(920C,1.6-4H)-heat cut-press cut" High-pressure synthesis and heat treatments of the HgBa2Ca4Cu5O12+z and HgBa2Ca5Cu6O14+z 1996 1 "Laboratoire de Critallographie, CNRS-UJF, BP 166, 38042 Grenoble Cedex 09, France" "Physica.C, 256(1996)1-7" "Hg, Ba, Ca, Cu, O" 6155 PHC2240001 "HgSr2(Cu,Cr)Oz" Hg1Sr2Cu0.7Cr0.3Oz Hg 1 Sr 2 Cu 0.7 Cr 0.3 O z 2 1994 Hg1201 K 56 56 "HgO,SrCO3,CuO,Cr2O3" "SrCo3+CuO+Cr2O3-mix and CAL(950C,24H)-mix with HgO-pellet-SIN(880C,8H in evacuated quartq am poule)-Q to RT" "A new mercury-based superconductor : (Hg,Cr)Sr2CuOz" 1994 "Department of Industrial Chemistry,University of Tokyo,Hongo,Bunkyo-ku,Tokyo,Japan" "Physica C, 224(1994)1-5" "Hg,Cr,Sr,Cu,O" 6156 PHC2240001 "(Hg,Cr)Sr2CuOz" Hg0.7Cr0.3Sr2Cu1Oz Hg 0.7 Cr 0.3 Sr 2 Cu 1 O z 1 1994 Hg1201 K 56.5 58 58 "HgO,SrCO3,CuO,Cr2O3" "SrCo3+CuO+Cr2O3-mix and CAL(950C,24H)-mix with HgO-pellet-SIN(880C,8H in evacuated quartq am poule)-Q to RT" "A new mercury-based superconductor : (Hg,Cr)Sr2CuOz" 1994 "Department of Industrial Chemistry,University of Tokyo,Hongo,Bunkyo-ku,Tokyo,Japan" "Physica C, 224(1994)1-5" "Hg,Cr,Sr,Cu,O" 6157 PHC2240001 HgSr2CuOz Hg1Sr2Cu1Oz Hg 1 Sr 2 Cu 1 O z 1994 Hg1201 K 62.4 62.4 "HgO,SrCO3,CuO,Cr2O3" "SrCo3+CuO+Cr2O3-mix and CAL(950C,24H)-mix with HgO-pellet-SIN(880C,8H in evacuated quartq am poule)-Q to RT" "A new mercury-based superconductor : (Hg,Cr)Sr2CuOz" 1994 "Department of Industrial Chemistry,University of Tokyo,Hongo,Bunkyo-ku,Tokyo,Japan" "Physica C, 224(1994)1-5" "Hg,Cr,Sr,Cu,O" 6158 PHC2140087 "(Hg,Bi)(Sr,La)2 Cu O5" Hg0.5Bi0.5Sr2Cu1O5-z Hg 0.5 Bi 0.5 Sr 2 Cu 1 O 5-z 1993 2 Hg1201 3.765 8.945 K "HgO,Bi2O3,La2O3,SrO2,CuO" 1 "mixture-heat(800C,several aours in quartq tubu)-cool to RT" "A NEW ""1201"" MERCURY CUPRATE" 1993 9 "PHYSICA C,214(1993)87" "HG,BI,SR,LA,CU,O" 6159 PHC2140087 "(Hg,Bi)(Sr,La)2 Cu O5" Hg0.5Bi0.5Sr1.75La0.25Cu1O5-z Hg 0.5 Bi 0.5 Sr 1.75 La 0.25 Cu 1 O 5-z 1993 2 Hg1201 3.773 8.906 K 27 27 7 "HgO,Bi2O3,La2O3,SrO2,CuO" 1 "mixture-heat(800C,several aours in quartq tubu)-cool to RT" "A NEW ""1201"" MERCURY CUPRATE" 1993 9 "PHYSICA C,214(1993)87" "HG,BI,SR,LA,CU,O" 6160 PHC2140087 "(Hg,Bi)(Sr,La)2 Cu O5" Hg0.5Bi0.5Sr0.5La0.5Cu1O5-z Hg 0.5 Bi 0.5 Sr 0.5 La 0.5 Cu 1 O 5-z 1993 2 Hg1201 3.775 8.877 K 27 27 7 "HgO,Bi2O3,La2O3,SrO2,CuO" 1 "mixture-heat(800C,several aours in quartq tubu)-cool to RT" "A NEW ""1201"" MERCURY CUPRATE" 1993 9 "PHYSICA C,214(1993)87" "HG,BI,SR,LA,CU,O" 6161 PHC2140087 "(Hg,Bi)(Sr,La)2 Cu O5" Hg0.5Bi0.5Sr1.25La0.75Cu1O5-z Hg 0.5 Bi 0.5 Sr 1.25 La 0.75 Cu 1 O 5-z 1993 2 Hg1201 3.778 8.841 K 27 27 7 "HgO,Bi2O3,La2O3,SrO2,CuO" 1 "mixture-heat(800C,several aours in quartq tubu)-cool to RT" "A NEW ""1201"" MERCURY CUPRATE" 1993 9 "PHYSICA C,214(1993)87" "HG,BI,SR,LA,CU,O" 6162 PHC2160273 "(Pb,Hg)(Sr,La)2CuO2" Pb0.5Hg0.5Sr1.2La0.8Cu1O5-z Pb 0.5 Hg 0.5 Sr 1.2 La 0.8 Cu 1 O 5-z 1 1993 2 Hg1201 3.791 8.691 K 17 24 38 32 24 "Pbo,HgO,SrO,CuO" mixture-pellet-wrapped in Au foil in evacuated quartq tube-heat to 930C(5C/min)-hold(12H)-cool to RT (SC/min) "VAN HOVE SINGULARITIES AND THE ROLE OF DOPING IN THE STABILIZATION,SYNTHESIS AND SUPERCONDUCTIVITY OF HGBA2CAN-1CUNO2N+2+Z" 1993 11 "PHYSICA C,216(1993)273" "HG,BA,CA,CU,O" 6163 PHC2160243 "(Hg,Pb)(Sr,La)2CuO4" Hg0.3Pb0.7Sr2Cu1O4+z Hg 0.3 Pb 0.7 Sr 2 Cu 1 O 4+z 1993 2 Hg1201 3.749 8.986 K 4.2 "PbO2,Pr6O11,La2O3,SrCuO2,Sr2CuO3,HgO" 1 mixture-slowly heat to 800C in silica tube-several hours-slow cool to RT "NEW MERCURY-BASED SUPERCONDUCTORS WITH THE ""1201"" STRUCTURE" 1993 11 "PHYSICA C,216(1993)243" "HG,PR,SR,CU,O,LA" 6164 PHC2160243 "(Hg,Pb)(Sr,La)2CuO4" Hg0.3Pb0.7Sr1.75La0.25Cu1O4+2 Hg 0.3 Pb 0.7 Sr 1.75 La 0.25 Cu 1 O 4+2 1993 2 Hg1201 3.76 8.947 K 30 30 "PbO2,Pr6O11,La2O3,SrCuO2,Sr2CuO3,HgO" 1 mixture-slowly heat to 800C in silica tube-several hours-slow cool to RT "NEW MERCURY-BASED SUPERCONDUCTORS WITH THE ""1201"" STRUCTURE" 1993 11 "PHYSICA C,216(1993)243" "HG,PR,SR,CU,O,LA" 6165 PHC2160243 "(Hg,Pb)(Sr,La)2CuO4" Hg0.3Pb0.7Sr1.5La0.5Cu1O4+z Hg 0.3 Pb 0.7 Sr 1.5 La 0.5 Cu 1 O 4+z 1993 2 Hg1201 3.772 8.894 K 39 39 "PbO2,Pr6O11,La2O3,SrCuO2,Sr2CuO3,HgO" 1 mixture-slowly heat to 800C in silica tube-several hours-slow cool to RT "NEW MERCURY-BASED SUPERCONDUCTORS WITH THE ""1201"" STRUCTURE" 1993 11 "PHYSICA C,216(1993)243" "HG,PR,SR,CU,O,LA" 6166 PHC2160243 "(Hg,Pb)(Sr,La)2CuO4" Hg0.3Pb0.7Sr1.35La0.65Cu1O4+z Hg 0.3 Pb 0.7 Sr 1.35 La 0.65 Cu 1 O 4+z 1993 2 Hg1201 3.768 8.874 K "PbO2,Pr6O11,La2O3,SrCuO2,Sr2CuO3,HgO" 1 mixture-slowly heat to 800C in silica tube-several hours-slow cool to RT "NEW MERCURY-BASED SUPERCONDUCTORS WITH THE ""1201"" STRUCTURE" 1993 11 "PHYSICA C,216(1993)243" "HG,PR,SR,CU,O,LA" 6167 PHC2160243 "(Hg,Pb)(Sr,La)2CuO4" Hg0.3Pb0.7Sr1La1Cu1O4+z Hg 0.3 Pb 0.7 Sr 1 La 1 Cu 1 O 4+z 1993 2 Hg1201 K 41 41 "PbO2,Pr6O11,La2O3,SrCuO2,Sr2CuO3,HgO" 1 mixture-slowly heat to 800C in silica tube-several hours-slow cool to RT "NEW MERCURY-BASED SUPERCONDUCTORS WITH THE ""1201"" STRUCTURE" 1993 11 "PHYSICA C,216(1993)243" "HG,PR,SR,CU,O,LA" 6168 PHC2160243 "(Hg,Pb)(Sr,La)2CuO4" Hg0.4Pb0.6Sr1.95Pr0.05Cu1O4+z Hg 0.4 Pb 0.6 Sr 1.95 Pr 0.05 Cu 1 O 4+z 1993 3 Hg1201 7.606 3.683 8.881 K 4.2 "PbO2,Pr6O11,La2O3,SrCuO2,Sr2CuO3,HgO" 1 mixture-slowly heat to 800C in silica tube-several hours-slow cool to RT "NEW MERCURY-BASED SUPERCONDUCTORS WITH THE ""1201"" STRUCTURE" 1993 11 "PHYSICA C,216(1993)243" "HG,PR,SR,CU,O,LA" 6169 PHC2500235 TlBa2CuO6 Tl2Ba2Cu1O6 Tl 2 Ba 2 Cu 1 O 6 1995 Tl2201 K 12 12 -6 TP6169 "as-synthesiqed,react(850-950C in silica ampoule) see.Physica C168(1990)8" "Systematic thermopower measurements of the thallium cuprates Tl(Ba,Sr)2Cam-xCumO2m+3-z and tl2Ba2Cam-1CumO2m+4+z" 1995 8 "(a)Laboratoire CRISMAT,CNRS 1318,ISMRA,Universite' de Caen,Bd du Mare'chal Juin,14050 Caen Ce'dex,France (b)Institute of Physics,Cukrovarnicka 10,16200 Prague 6,Czech Republic" "Physica C,250(1995)235-239" "Tl, Ba, Sr, Ca, Cu, O" 6170 PHC2500235 TlBa2CuO6 Tl2Ba2Cu1O6 Tl 2 Ba 2 Cu 1 O 6 1995 Tl2201 K 4.2 -10 TP6170 ANN(500C in O2) "Systematic thermopower measurements of the thallium cuprates Tl(Ba,Sr)2Cam-xCumO2m+3-z and tl2Ba2Cam-1CumO2m+4+z" 1995 8 "(a)Laboratoire CRISMAT,CNRS 1318,ISMRA,Universite' de Caen,Bd du Mare'chal Juin,14050 Caen Ce'dex,France (b)Institute of Physics,Cukrovarnicka 10,16200 Prague 6,Czech Republic" "Physica C,250(1995)235-239" "Tl, Ba, Sr, Ca, Cu, O" 6171 PHC2500235 TlBa2CuO6 Tl2Ba2Cu1O6 Tl 2 Ba 2 Cu 1 O 6 1995 Tl2201 K 88 88 -0.5 TP6171 "ANN(270C, in 90%Ar-10%H2 ) flow" "Systematic thermopower measurements of the thallium cuprates Tl(Ba,Sr)2Cam-xCumO2m+3-z and tl2Ba2Cam-1CumO2m+4+z" 1995 8 "(a)Laboratoire CRISMAT,CNRS 1318,ISMRA,Universite' de Caen,Bd du Mare'chal Juin,14050 Caen Ce'dex,France (b)Institute of Physics,Cukrovarnicka 10,16200 Prague 6,Czech Republic" "Physica C,250(1995)235-239" "Tl, Ba, Sr, Ca, Cu, O" 6172 PHC2500235 TlBa2CaCu2O8 Tl2Ba2Ca1Cu2O8 Tl 2 Ba 2 Ca 1 Cu 2 O 8 1995 Tl2212 K 106 106 1 TP6172 "as-synthesiqed,react(850-950C in silica ampoule) see.Physica C168(1990)8" "Systematic thermopower measurements of the thallium cuprates Tl(Ba,Sr)2Cam-xCumO2m+3-z and tl2Ba2Cam-1CumO2m+4+z" 1995 8 "(a)Laboratoire CRISMAT,CNRS 1318,ISMRA,Universite' de Caen,Bd du Mare'chal Juin,14050 Caen Ce'dex,France (b)Institute of Physics,Cukrovarnicka 10,16200 Prague 6,Czech Republic" "Physica C,250(1995)235-239" "Tl, Ba, Sr, Ca, Cu, O" 6173 PHC2500235 TlBa2CaCu2O8 Tl1Ba2Ca1Cu2O8 Tl 1 Ba 2 Ca 1 Cu 2 O 8 1995 Tl2212 K 105 105 TP6173 ANN(500C in O2) "Systematic thermopower measurements of the thallium cuprates Tl(Ba,Sr)2Cam-xCumO2m+3-z and tl2Ba2Cam-1CumO2m+4+z" 1995 8 "(a)Laboratoire CRISMAT,CNRS 1318,ISMRA,Universite' de Caen,Bd du Mare'chal Juin,14050 Caen Ce'dex,France (b)Institute of Physics,Cukrovarnicka 10,16200 Prague 6,Czech Republic" "Physica C,250(1995)235-239" "Tl, Ba, Sr, Ca, Cu, O" 6174 PHC2500235 TlBa2Ca2Cu3O9 Tl1Ba2Ca2Cu3O9 Tl 1 Ba 2 Ca 2 Cu 3 O 9 1995 Tl1223 K 114 114 -1 TP6174 "as-synthesiqed,react(850-950C in silica ampoule) see.Physica C168(1990)8" "Systematic thermopower measurements of the thallium cuprates Tl(Ba,Sr)2Cam-xCumO2m+3-z and tl2Ba2Cam-1CumO2m+4+z" 1995 8 "(a)Laboratoire CRISMAT,CNRS 1318,ISMRA,Universite' de Caen,Bd du Mare'chal Juin,14050 Caen Ce'dex,France (b)Institute of Physics,Cukrovarnicka 10,16200 Prague 6,Czech Republic" "Physica C,250(1995)235-239" "Tl, Ba, Sr, Ca, Cu, O" 6175 PHC2500235 TlBa2Ca2Cu3O9 Tl1Ba2Ca2Cu3O9 Tl 1 Ba 2 Ca 2 Cu 3 O 9 1995 Tl1223 K 108 108 TP6175 ANN(500C in O2) "Systematic thermopower measurements of the thallium cuprates Tl(Ba,Sr)2Cam-xCumO2m+3-z and tl2Ba2Cam-1CumO2m+4+z" 1995 8 "(a)Laboratoire CRISMAT,CNRS 1318,ISMRA,Universite' de Caen,Bd du Mare'chal Juin,14050 Caen Ce'dex,France (b)Institute of Physics,Cukrovarnicka 10,16200 Prague 6,Czech Republic" "Physica C,250(1995)235-239" "Tl, Ba, Sr, Ca, Cu, O" 6176 PHC2500235 TlBa2Ca2Cu3O9 Tl1Ba2Ca2Cu3O9 Tl 1 Ba 2 Ca 2 Cu 3 O 9 1995 Tl1223 K 123 123 1 TP6176 "ANN(270C, in 90%Ar-10%H2 ) flow" "Systematic thermopower measurements of the thallium cuprates Tl(Ba,Sr)2Cam-xCumO2m+3-z and tl2Ba2Cam-1CumO2m+4+z" 1995 8 "(a)Laboratoire CRISMAT,CNRS 1318,ISMRA,Universite' de Caen,Bd du Mare'chal Juin,14050 Caen Ce'dex,France (b)Institute of Physics,Cukrovarnicka 10,16200 Prague 6,Czech Republic" "Physica C,250(1995)235-239" "Tl, Ba, Sr, Ca, Cu, O" 6177 PHC2500235 Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O10 Tl 2 Ba 2 Ca 2 Cu 3 O 10 1995 Tl2223 K 125 125 TP6177 "as-synthesiqed,react(850-950C in silica ampoule) see.Physica C168(1990)8" "Systematic thermopower measurements of the thallium cuprates Tl(Ba,Sr)2Cam-xCumO2m+3-z and tl2Ba2Cam-1CumO2m+4+z" 1995 8 "(a)Laboratoire CRISMAT,CNRS 1318,ISMRA,Universite' de Caen,Bd du Mare'chal Juin,14050 Caen Ce'dex,France (b)Institute of Physics,Cukrovarnicka 10,16200 Prague 6,Czech Republic" "Physica C,250(1995)235-239" "Tl, Ba, Sr, Ca, Cu, O" 6178 PHC2500235 Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O10 Tl 2 Ba 2 Ca 2 Cu 3 O 10 1995 Tl2223 K 123 123 TP6178 ANN(500C in O2) "Systematic thermopower measurements of the thallium cuprates Tl(Ba,Sr)2Cam-xCumO2m+3-z and tl2Ba2Cam-1CumO2m+4+z" 1995 8 "(a)Laboratoire CRISMAT,CNRS 1318,ISMRA,Universite' de Caen,Bd du Mare'chal Juin,14050 Caen Ce'dex,France (b)Institute of Physics,Cukrovarnicka 10,16200 Prague 6,Czech Republic" "Physica C,250(1995)235-239" "Tl, Ba, Sr, Ca, Cu, O" 6179 PHC2500235 TlbaSrCaCu2O7 Tl1Ba1Sr1Ca1Cu2O7 Tl 1 Ba 1 Sr 1 Ca 1 Cu 2 O 7 1995 Tl1212 K 16 16 TP6179 "as-synthesiqed,react(850-950C in silica ampoule) see.Physica C168(1990)8" "Systematic thermopower measurements of the thallium cuprates Tl(Ba,Sr)2Cam-xCumO2m+3-z and tl2Ba2Cam-1CumO2m+4+z" 1995 8 "(a)Laboratoire CRISMAT,CNRS 1318,ISMRA,Universite' de Caen,Bd du Mare'chal Juin,14050 Caen Ce'dex,France (b)Institute of Physics,Cukrovarnicka 10,16200 Prague 6,Czech Republic" "Physica C,250(1995)235-239" "Tl, Ba, Sr, Ca, Cu, O" 6180 PHC2500235 TlBaSrCaCu2O7 Tl1Ba1Sr1Ca1Cu2O7 Tl 1 Ba 1 Sr 1 Ca 1 Cu 2 O 7 1995 Tl1212 K 80 80 TP6180 "ANN(270C, in 90%Ar-10%H2 ) flow" "Systematic thermopower measurements of the thallium cuprates Tl(Ba,Sr)2Cam-xCumO2m+3-z and tl2Ba2Cam-1CumO2m+4+z" 1995 8 "(a)Laboratoire CRISMAT,CNRS 1318,ISMRA,Universite' de Caen,Bd du Mare'chal Juin,14050 Caen Ce'dex,France (b)Institute of Physics,Cukrovarnicka 10,16200 Prague 6,Czech Republic" "Physica C,250(1995)235-239" "Tl, Ba, Sr, Ca, Cu, O" 6181 PHC2500235 TlBaSrCa2Cu3O9 Tl1Ba1Sr1Ca2Cu3O9 Tl 1 Ba 1 Sr 1 Ca 2 Cu 3 O 9 1995 Tl1223 K 97 97 TP6181 "as-synthesiqed,react(850-950C in silica ampoule) see.Physica C168(1990)8" "Systematic thermopower measurements of the thallium cuprates Tl(Ba,Sr)2Cam-xCumO2m+3-z and tl2Ba2Cam-1CumO2m+4+z" 1995 8 "(a)Laboratoire CRISMAT,CNRS 1318,ISMRA,Universite' de Caen,Bd du Mare'chal Juin,14050 Caen Ce'dex,France (b)Institute of Physics,Cukrovarnicka 10,16200 Prague 6,Czech Republic" "Physica C,250(1995)235-239" "Tl, Ba, Sr, Ca, Cu, O" 6182 PHC2500235 TlBaSrCa2Cu3O9 Tl1Ba2Sr1Ca2Cu3O9 Tl 1 Ba 2 Sr 1 Ca 2 Cu 3 O 9 1995 Tl1223 K 92 92 ANN(500C in O2) "Systematic thermopower measurements of the thallium cuprates Tl(Ba,Sr)2Cam-xCumO2m+3-z and tl2Ba2Cam-1CumO2m+4+z" 1995 8 "(a)Laboratoire CRISMAT,CNRS 1318,ISMRA,Universite' de Caen,Bd du Mare'chal Juin,14050 Caen Ce'dex,France (b)Institute of Physics,Cukrovarnicka 10,16200 Prague 6,Czech Republic" "Physica C,250(1995)235-239" "Tl, Ba, Sr, Ca, Cu, O" 6183 PHC2150001 "impurity=Hg1212,CaO,CuO,CaHgO2" Hg Ba2 Ca2 Cu3 Oz Hg1Ba2Ca2Cu3O8+z Hg 1 Ba 2 Ca 2 Cu 3 O 8+z 1993 2 Hg1223 3.853 15.818 K 133 133 "Ba2Ca2Cu3Oz,HgO" mixture-seald in Pt capsul-pressure(50Kbar)-heat(950C)-hold(1-4H)-furnace cool THE SYNTHESIS AND CHARACTERIZATION OF THE HGBA2CA2CU3O8+Z ANDHGBA2CA3CU4O10+Z PHASES 1993 9 "PHYSICA C,215(1993)1" "HG,BA,CA,CU,O" 6184 PHC2150001 "imprity=Hg1223,CaO,unknown phase.,Tc=132K(for Hg1223)is observed" Hg Ba2 Ca3 Cu4 O10 Hg1Ba2Ca3Cu4O10+z Hg 1 Ba 2 Ca 3 Cu 4 O 10+z 1993 2 Hg1234 3.854 19.006 K 126 126 THE SYNTHESIS AND CHARACTERIZATION OF THE HGBA2CA2CU3O8+Z ANDHGBA2CA3CU4O10+Z PHASES 1993 9 "PHYSICA C,215(1993)1" "HG,BA,CA,CU,O" 6185 PHC2550151 "(Bi,Mo,Cu)Sr2YCu2O7" Bi0.066Mo0.264Cu0.67Sr2Y1Cu2Oz Bi 0.066 Mo 0.264 Cu 0.67 Sr 2 Y 1 Cu 2 O z 1 1995 Cu1212 3.8125 11.5472 K 37.5 37.5 "Bi2 O3, Mo O3, Sr Co3, Y2 O3, CuO" 1 "mixtuo-CAL(900C,10H in air )-pellet-SIN(980-1000C, 60H in air)-Q to RT-ANN(500-600C, in O2)" prepration and physical properties of the superconductor [(Bi1-xMox)0.33Cu0.67] Sr2YCu2Oy 1995 12 "Faculry of Engineering,Yamagata Univercity,4-3-16,Japan, Yonezawa, Yamagata 992, Japan" "Physica.C,255(1995)151-156" "Bi, Mo, Cu, Sr, Y, Cu, O" 6186 SPS0312056 YBa2Cu3HxOz Y1Ba2Cu3O6.19 Y 1 Ba 2 Cu 3 O 6.19 1989 3 Y123 3.818 3.882 11.643 K 91 95.4 93.2 1 "powders of YBCO(z=6.91,6.54)-spread as thin layer in PT container-slow pumping at 50-60-H2(300-350 torr from TiH2)-(360K,1-2H)" Influence of hydrogen on the superconducting ceramic YBa2Cu3Oy (y=6.91 and 6.54) 1989 12 "Institute of Solid-State Physics, Academy of Sciences of the USSR, Chernogolovka, Moscow Province" Soviet Phys.;Solid State 31(1989)2056 6187 SPS0312056 YBa2Cu3HxOz Y1Ba2Cu3H0.14O6.91 Y 1 Ba 2 Cu 3 H 0.14 O 6.91 1989 3 Y123 3.819 3.885 11.645 K 88.7 93.2 90.95 1 "powders of YBCO(z=6.91,6.54)-spread as thin layer in PT container-slow pumping at 50-60-H2(300-350 torr from TiH2)-(360K,1-2H)" Influence of hydrogen on the superconducting ceramic YBa2Cu3Oy (y=6.91 and 6.54) 1989 12 "Institute of Solid-State Physics, Academy of Sciences of the USSR, Chernogolovka, Moscow Province" Soviet Phys.;Solid State 31(1989)2056 6188 SPS0312056 YBa2Cu3HxOz Y1Ba2Cu3H0.32O6.91 Y 1 Ba 2 Cu 3 H 0.32 O 6.91 1989 3 Y123 3.848 3.888 11.646 K 88.4 94.1 91.25 1 "powders of YBCO(z=6.91,6.54)-spread as thin layer in PT container-slow pumping at 50-60-H2(300-350 torr from TiH2)-(360K,1-2H)" Influence of hydrogen on the superconducting ceramic YBa2Cu3Oy (y=6.91 and 6.54) 1989 12 "Institute of Solid-State Physics, Academy of Sciences of the USSR, Chernogolovka, Moscow Province" Soviet Phys.;Solid State 31(1989)2056 6189 SPS0312056 YBa2Cu3HxOz Y1Ba2Cu3H0.43O6.91 Y 1 Ba 2 Cu 3 H 0.43 O 6.91 1989 3 Y123 3.83 3.886 11.644 K 1 "powders of YBCO(z=6.91,6.54)-spread as thin layer in PT container-slow pumping at 50-60-H2(300-350 torr from TiH2)-(360K,1-2H)" Influence of hydrogen on the superconducting ceramic YBa2Cu3Oy (y=6.91 and 6.54) 1989 12 "Institute of Solid-State Physics, Academy of Sciences of the USSR, Chernogolovka, Moscow Province" Soviet Phys.;Solid State 31(1989)2056 6190 SPS0312056 YBa2Cu3HxOz Y1Ba2Cu3H1.15O6.91 Y 1 Ba 2 Cu 3 H 1.15 O 6.91 1989 K 62.4 91 76.7 1 "powders of YBCO(z=6.91,6.54)-spread as thin layer in PT container-slow pumping at 50-60-H2(300-350 torr from TiH2)-(360K,1-2H)" Influence of hydrogen on the superconducting ceramic YBa2Cu3Oy (y=6.91 and 6.54) 1989 12 "Institute of Solid-State Physics, Academy of Sciences of the USSR, Chernogolovka, Moscow Province" Soviet Phys.;Solid State 31(1989)2056 6191 SPS0312056 YBa2Cu3HxOz Y1Ba2Cu3H1.46O6.91 Y 1 Ba 2 Cu 3 H 1.46 O 6.91 1989 K 1 "powders of YBCO(z=6.91,6.54)-spread as thin layer in PT container-slow pumping at 50-60-H2(300-350 torr from TiH2)-(360K,1-2H)" Influence of hydrogen on the superconducting ceramic YBa2Cu3Oy (y=6.91 and 6.54) 1989 12 "Institute of Solid-State Physics, Academy of Sciences of the USSR, Chernogolovka, Moscow Province" Soviet Phys.;Solid State 31(1989)2056 6192 SPS0312056 YBa2Cu3HxOz Y1Ba2Cu3O6.54 Y 1 Ba 2 Cu 3 O 6.54 1989 3 Y123 3.841 3.886 11.666 K 48.1 61.7 54.9 1 "powders of YBCO(z=6.91,6.54)-spread as thin layer in PT container-slow pumping at 50-60-H2(300-350 torr from TiH2)-(360K,1-2H)" Influence of hydrogen on the superconducting ceramic YBa2Cu3Oy (y=6.91 and 6.54) 1989 12 "Institute of Solid-State Physics, Academy of Sciences of the USSR, Chernogolovka, Moscow Province" Soviet Phys.;Solid State 31(1989)2056 6193 SPS0312056 YBa2Cu3HxOz Y1Ba2Cu3H0.16O6.54 Y 1 Ba 2 Cu 3 H 0.16 O 6.54 1989 3 Y123 3.849 3.888 11.662 K 38.2 57.6 47.9 1 "powders of YBCO(z=6.91,6.54)-spread as thin layer in PT container-slow pumping at 50-60-H2(300-350 torr from TiH2)-(360K,1-2H)" Influence of hydrogen on the superconducting ceramic YBa2Cu3Oy (y=6.91 and 6.54) 1989 12 "Institute of Solid-State Physics, Academy of Sciences of the USSR, Chernogolovka, Moscow Province" Soviet Phys.;Solid State 31(1989)2056 6194 SPS0312056 YBa2Cu3HxOz Y1Ba2Cu3H0.31O6.54 Y 1 Ba 2 Cu 3 H 0.31 O 6.54 1989 3 Y123 3.859 3.884 11.66 K 39.5 55.1 47.3 1 "powders of YBCO(z=6.91,6.54)-spread as thin layer in PT container-slow pumping at 50-60-H2(300-350 torr from TiH2)-(360K,1-2H)" Influence of hydrogen on the superconducting ceramic YBa2Cu3Oy (y=6.91 and 6.54) 1989 12 "Institute of Solid-State Physics, Academy of Sciences of the USSR, Chernogolovka, Moscow Province" Soviet Phys.;Solid State 31(1989)2056 6195 SPS0312056 YBa2Cu3HxOz Y1Ba2Cu3H0.53O6.54 Y 1 Ba 2 Cu 3 H 0.53 O 6.54 1989 3 Y123 3.874 3.882 11.655 K 34.1 53.5 43.8 1 "powders of YBCO(z=6.91,6.54)-spread as thin layer in PT container-slow pumping at 50-60-H2(300-350 torr from TiH2)-(360K,1-2H)" Influence of hydrogen on the superconducting ceramic YBa2Cu3Oy (y=6.91 and 6.54) 1989 12 "Institute of Solid-State Physics, Academy of Sciences of the USSR, Chernogolovka, Moscow Province" Soviet Phys.;Solid State 31(1989)2056 6196 SPS0312056 YBa2Cu3HxOz Y1Ba2Cu3H0.64O6.54 Y 1 Ba 2 Cu 3 H 0.64 O 6.54 1989 2 Y123 3.882 11.65 K 34.4 49.7 42.05 1 "powders of YBCO(z=6.91,6.54)-spread as thin layer in PT container-slow pumping at 50-60-H2(300-350 torr from TiH2)-(360K,1-2H)" Influence of hydrogen on the superconducting ceramic YBa2Cu3Oy (y=6.91 and 6.54) 1989 12 "Institute of Solid-State Physics, Academy of Sciences of the USSR, Chernogolovka, Moscow Province" Soviet Phys.;Solid State 31(1989)2056 6197 SPS0312056 YBa2Cu3HxOz Y1Ba2Cu3H0.6O6.91 Y 1 Ba 2 Cu 3 H 0.6 O 6.91 1989 3 Y123 K 82.1 90.9 86.5 1 "powders of YBCO(z=6.91,6.54)-spread as thin layer in PT container-slow pumping at 50-60-H2(300-350 torr from TiH2)-(360K,1-2H)" Influence of hydrogen on the superconducting ceramic YBa2Cu3Oy (y=6.91 and 6.54) 1989 12 "Institute of Solid-State Physics, Academy of Sciences of the USSR, Chernogolovka, Moscow Province" Soviet Phys.;Solid State 31(1989)2056 6198 SPS0312056 YBa2Cu3HxOz Y1Ba2Cu3H0.69O6.91 Y 1 Ba 2 Cu 3 H 0.69 O 6.91 1989 3 Y123 3.847 3.886 11.646 K 79.2 92.2 85.7 1 "powders of YBCO(z=6.91,6.54)-spread as thin layer in PT container-slow pumping at 50-60-H2(300-350 torr from TiH2)-(360K,1-2H)" Influence of hydrogen on the superconducting ceramic YBa2Cu3Oy (y=6.91 and 6.54) 1989 12 "Institute of Solid-State Physics, Academy of Sciences of the USSR, Chernogolovka, Moscow Province" Soviet Phys.;Solid State 31(1989)2056 6199 SPS0312056 YBa2Cu3HxOz Y1Ba2Cu3H0.92O6.91 Y 1 Ba 2 Cu 3 H 0.92 O 6.91 1989 3 Y123 3.867 3.888 11.647 K 71 90.6 80.8 1 "powders of YBCO(z=6.91,6.54)-spread as thin layer in PT container-slow pumping at 50-60-H2(300-350 torr from TiH2)-(360K,1-2H)" Influence of hydrogen on the superconducting ceramic YBa2Cu3Oy (y=6.91 and 6.54) 1989 12 "Institute of Solid-State Physics, Academy of Sciences of the USSR, Chernogolovka, Moscow Province" Soviet Phys.;Solid State 31(1989)2056 6200 PR0411863 YBa2Cu3Oz Y1Ba2Cu3O6.93 Y 1 Ba 2 Cu 3 O 7-z 6.93 1990 3 Y123 3.823 3.887 11.68 K 89.9 91.8 90.85 "Y2O3,BaCO3,CuO" "mixture-pellet-CAL(960C,24H in flowing Oz)-SIN(960C,24H in flowing O2)-ANN(520C,various O2 presure for various O2 content)" STRUCTURAL PROPERTIES OF OXYGEN-DEFICIENT YBA2CU3O7-Z 1990 2 "MATERIALS CSIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARNONNE, ILLIONIS 60439" "PHYS.REV.B,41(1990)1863" "Y,BA,CU,O" 6201 PR0411863 YBa2Cu3Oz Y1Ba2Cu3O6.84 Y 1 Ba 2 Cu 3 O 7-z 6.84 1990 3 Y123 K 88 89.7 88.85 "Y2O3,BaCO3,CuO" "mixture-pellet-CAL(960C,24H in flowing Oz)-SIN(960C,24H in flowing O2)-ANN(520C,various O2 presure for various O2 content)" STRUCTURAL PROPERTIES OF OXYGEN-DEFICIENT YBA2CU3O7-Z 1990 2 "MATERIALS CSIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARNONNE, ILLIONIS 60439" "PHYS.REV.B,41(1990)1863" "Y,BA,CU,O" 6202 PR0411863 YBa2Cu3Oz Y1Ba2Cu3O6.82 Y 1 Ba 2 Cu 3 O 7-z 6.82 1990 3 Y123 K 85 89.1 87.05 "Y2O3,BaCO3,CuO" "mixture-pellet-CAL(960C,24H in flowing Oz)-SIN(960C,24H in flowing O2)-ANN(520C,various O2 presure for various O2 content)" STRUCTURAL PROPERTIES OF OXYGEN-DEFICIENT YBA2CU3O7-Z 1990 2 "MATERIALS CSIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARNONNE, ILLIONIS 60439" "PHYS.REV.B,41(1990)1863" "Y,BA,CU,O" 6203 PR0411863 YBa2Cu3Oz Y1Ba2Cu3O6.78 Y 1 Ba 2 Cu 3 O 7-z 6.78 1990 3 Y123 K 80.4 84.8 82.6 "Y2O3,BaCO3,CuO" "mixture-pellet-CAL(960C,24H in flowing Oz)-SIN(960C,24H in flowing O2)-ANN(520C,various O2 presure for various O2 content)" STRUCTURAL PROPERTIES OF OXYGEN-DEFICIENT YBA2CU3O7-Z 1990 2 "MATERIALS CSIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARNONNE, ILLIONIS 60439" "PHYS.REV.B,41(1990)1863" "Y,BA,CU,O" 6204 PR0411863 YBa2Cu3Oz Y1Ba2Cu3O6.73 Y 1 Ba 2 Cu 3 O 7-z 6.73 1990 3 Y123 3.828 3.888 11.706 K 66 71.5 68.75 "Y2O3,BaCO3,CuO" "mixture-pellet-CAL(960C,24H in flowing Oz)-SIN(960C,24H in flowing O2)-ANN(520C,various O2 presure for various O2 content)" STRUCTURAL PROPERTIES OF OXYGEN-DEFICIENT YBA2CU3O7-Z 1990 2 "MATERIALS CSIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARNONNE, ILLIONIS 60439" "PHYS.REV.B,41(1990)1863" "Y,BA,CU,O" 6205 PR0411863 YBa2Cu3Oz Y1Ba2Cu3O6.69 Y 1 Ba 2 Cu 3 O 7-z 6.69 1990 3 Y123 K 62.8 66.6 64.7 "Y2O3,BaCO3,CuO" "mixture-pellet-CAL(960C,24H in flowing Oz)-SIN(960C,24H in flowing O2)-ANN(520C,various O2 presure for various O2 content)" STRUCTURAL PROPERTIES OF OXYGEN-DEFICIENT YBA2CU3O7-Z 1990 2 "MATERIALS CSIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARNONNE, ILLIONIS 60439" "PHYS.REV.B,41(1990)1863" "Y,BA,CU,O" 6206 PR0411863 YBa2Cu3Oz Y1Ba2Cu3O6.67 Y 1 Ba 2 Cu 3 O 7-z 6.67 1990 3 Y123 K 57.9 60.3 59.1 "Y2O3,BaCO3,CuO" "mixture-pellet-CAL(960C,24H in flowing Oz)-SIN(960C,24H in flowing O2)-ANN(520C,various O2 presure for various O2 content)" STRUCTURAL PROPERTIES OF OXYGEN-DEFICIENT YBA2CU3O7-Z 1990 2 "MATERIALS CSIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARNONNE, ILLIONIS 60439" "PHYS.REV.B,41(1990)1863" "Y,BA,CU,O" 6207 PR0411863 YBa2Cu3Oz Y1Ba2Cu3O6.64 Y 1 Ba 2 Cu 3 O 7-z 6.64 1990 3 Y123 K 55.7 57.6 56.65 "Y2O3,BaCO3,CuO" "mixture-pellet-CAL(960C,24H in flowing Oz)-SIN(960C,24H in flowing O2)-ANN(520C,various O2 presure for various O2 content)" STRUCTURAL PROPERTIES OF OXYGEN-DEFICIENT YBA2CU3O7-Z 1990 2 "MATERIALS CSIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARNONNE, ILLIONIS 60439" "PHYS.REV.B,41(1990)1863" "Y,BA,CU,O" 6208 PR0411863 YBa2Cu3Oz Y1Ba2Cu3O6.6 Y 1 Ba 2 Cu 3 O 7-z 6.6 1990 3 Y123 3.835 3.886 11.728 K 57 58.7 57.85 "Y2O3,BaCO3,CuO" "mixture-pellet-CAL(960C,24H in flowing Oz)-SIN(960C,24H in flowing O2)-ANN(520C,various O2 presure for various O2 content)" STRUCTURAL PROPERTIES OF OXYGEN-DEFICIENT YBA2CU3O7-Z 1990 2 "MATERIALS CSIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARNONNE, ILLIONIS 60439" "PHYS.REV.B,41(1990)1863" "Y,BA,CU,O" 6209 PR0411863 YBa2Cu3Oz Y1Ba2Cu3O6.57 Y 1 Ba 2 Cu 3 O 7-z 6.57 1990 3 Y123 K 56 58.4 57.2 "Y2O3,BaCO3,CuO" "mixture-pellet-CAL(960C,24H in flowing Oz)-SIN(960C,24H in flowing O2)-ANN(520C,various O2 presure for various O2 content)" STRUCTURAL PROPERTIES OF OXYGEN-DEFICIENT YBA2CU3O7-Z 1990 2 "MATERIALS CSIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARNONNE, ILLIONIS 60439" "PHYS.REV.B,41(1990)1863" "Y,BA,CU,O" 6210 PR0411863 YBa2Cu3Oz Y1Ba2Cu3O6.55 Y 1 Ba 2 Cu 3 O 7-z 6.55 1990 3 Y123 3.837 3.881 11.728 K 53.8 57.3 55.55 "Y2O3,BaCO3,CuO" "mixture-pellet-CAL(960C,24H in flowing Oz)-SIN(960C,24H in flowing O2)-ANN(520C,various O2 presure for various O2 content)" STRUCTURAL PROPERTIES OF OXYGEN-DEFICIENT YBA2CU3O7-Z 1990 2 "MATERIALS CSIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARNONNE, ILLIONIS 60439" "PHYS.REV.B,41(1990)1863" "Y,BA,CU,O" 6211 PR0411863 YBa2Cu3Oz Y1Ba2Cu3O6.52 Y 1 Ba 2 Cu 3 O 7-z 6.52 1990 3 Y123 K 51.1 57.6 54.35 "Y2O3,BaCO3,CuO" "mixture-pellet-CAL(960C,24H in flowing Oz)-SIN(960C,24H in flowing O2)-ANN(520C,various O2 presure for various O2 content)" STRUCTURAL PROPERTIES OF OXYGEN-DEFICIENT YBA2CU3O7-Z 1990 2 "MATERIALS CSIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARNONNE, ILLIONIS 60439" "PHYS.REV.B,41(1990)1863" "Y,BA,CU,O" 6212 PR0411863 YBa2Cu3Oz Y1Ba2Cu3O6.48 Y 1 Ba 2 Cu 3 O 7-z 6.48 1990 3 Y123 3.842 3.878 11.746 K 47 55.4 51.2 "Y2O3,BaCO3,CuO" "mixture-pellet-CAL(960C,24H in flowing Oz)-SIN(960C,24H in flowing O2)-ANN(520C,various O2 presure for various O2 content)" STRUCTURAL PROPERTIES OF OXYGEN-DEFICIENT YBA2CU3O7-Z 1990 2 "MATERIALS CSIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARNONNE, ILLIONIS 60439" "PHYS.REV.B,41(1990)1863" "Y,BA,CU,O" 6213 PR0411863 YBa2Cu3Oz Y1Ba2Cu3O6.45 Y 1 Ba 2 Cu 3 O 7-z 6.45 1990 3 Y123 3.844 3.877 11.751 K 24.1 29.6 26.85 "Y2O3,BaCO3,CuO" "mixture-pellet-CAL(960C,24H in flowing Oz)-SIN(960C,24H in flowing O2)-ANN(520C,various O2 presure for various O2 content)" STRUCTURAL PROPERTIES OF OXYGEN-DEFICIENT YBA2CU3O7-Z 1990 2 "MATERIALS CSIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARNONNE, ILLIONIS 60439" "PHYS.REV.B,41(1990)1863" "Y,BA,CU,O" 6214 PR0411863 YBa2Cu3Oz Y1Ba2Cu3O6.4 Y 1 Ba 2 Cu 3 O 7-z 6.4 1990 3 Y123 3.852 3.871 K 23.4 49.7 36.55 "Y2O3,BaCO3,CuO" "mixture-pellet-CAL(960C,24H in flowing Oz)-SIN(960C,24H in flowing O2)-ANN(520C,various O2 presure for various O2 content)" STRUCTURAL PROPERTIES OF OXYGEN-DEFICIENT YBA2CU3O7-Z 1990 2 "MATERIALS CSIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARNONNE, ILLIONIS 60439" "PHYS.REV.B,41(1990)1863" "Y,BA,CU,O" 6215 PR0411863 YBa2Cu3Oz Y1Ba2Cu3O6.4 Y 1 Ba 2 Cu 3 O 7-z 6.4 1990 3 Y123 K 14.4 32.3 23.35 "Y2O3,BaCO3,CuO" "mixture-pellet-CAL(960C,24H in flowing Oz)-SIN(960C,24H in flowing O2)-ANN(520C,various O2 presure for various O2 content)" STRUCTURAL PROPERTIES OF OXYGEN-DEFICIENT YBA2CU3O7-Z 1990 2 "MATERIALS CSIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARNONNE, ILLIONIS 60439" "PHYS.REV.B,41(1990)1863" "Y,BA,CU,O" 6216 PR0411863 YBa2Cu3Oz Y1Ba2Cu3O6.38 Y 1 Ba 2 Cu 3 O 7-z 6.38 1990 Y123 K 13.6 34.2 23.9 "Y2O3,BaCO3,CuO" "mixture-pellet-CAL(960C,24H in flowing Oz)-SIN(960C,24H in flowing O2)-ANN(520C,various O2 presure for various O2 content)" STRUCTURAL PROPERTIES OF OXYGEN-DEFICIENT YBA2CU3O7-Z 1990 2 "MATERIALS CSIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARNONNE, ILLIONIS 60439" "PHYS.REV.B,41(1990)1863" "Y,BA,CU,O" 6217 PR0411863 YBa2Cu3Oz Y1Ba2Cu3O6.48 Y 1 Ba 2 Cu 3 O 7-z 6.48 1990 3 Y123 K 36.4 43.7 40.05 "Y2O3,BaCO3,CuO" "mixture-pellet-CAL(960C,24H in flowing Oz)-SIN(960C,24H in flowing O2)-ANN(520C,various O2 presure for various O2 content)" STRUCTURAL PROPERTIES OF OXYGEN-DEFICIENT YBA2CU3O7-Z 1990 2 "MATERIALS CSIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARNONNE, ILLIONIS 60439" "PHYS.REV.B,41(1990)1863" "Y,BA,CU,O" 6218 PR0411863 YBa2Cu3Oz Y1Ba2Cu3O6.28 Y 1 Ba 2 Cu 3 O 7-z 6.28 1990 2 Y123 3.863 11.796 K "Y2O3,BaCO3,CuO" "mixture-pellet-CAL(960C,24H in flowing Oz)-SIN(960C,24H in flowing O2)-ANN(520C,various O2 presure for various O2 content)" STRUCTURAL PROPERTIES OF OXYGEN-DEFICIENT YBA2CU3O7-Z 1990 2 "MATERIALS CSIENCE DIVISION, ARGONNE NATIONAL LABORATORY, ARNONNE, ILLIONIS 60439" "PHYS.REV.B,41(1990)1863" "Y,BA,CU,O" 6219 PR04611923 "RES(200K)=5.72m,Ohm,cm" "(Yb,Ca)(Ba,Sr)2Cu3Oz" Yb0.7Ca0.3Ba1.6Sr0.4Cu3O6.1 Yb 0.7 Ca 0.3 Ba 1.6 Sr 0.4 Cu 3 O z 6.1 1992 2 Y123 3.818 11.744 K 48.3 48.3 34.51 "annealed for various temp,for oxygen control" "THERMOELECTRIC POWER FOR THE OVERDOPED SUPERCONDUCTORS (YB,CA)(BA,SR)2CU3OZ" 1992 11 "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, TOKYO" "PHYS.REV.B,46(1992)11923" "YB,CA,BA,SR,CU,O" 6220 PR04611923 "RES(200K)=4.05m,Ohm,cm" "(Yb,Ca)(Ba,Sr)2 Cu3Oz" Yb0.7Ca0.3Ba1.6Sr0.4Cu3O6.43 Yb 0.7 Ca 0.3 Ba 1.6 Sr 0.4 Cu 3 O z 6.43 1992 2 Y123 3.823 11.707 K 64.3 64.3 12.2 "annealed for various temp,for oxygen control" "THERMOELECTRIC POWER FOR THE OVERDOPED SUPERCONDUCTORS (YB,CA)(BA,SR)2CU3OZ" 1992 11 "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, TOKYO" "PHYS.REV.B,46(1992)11923" "YB,CA,BA,SR,CU,O" 6221 PR04611923 "RES(200K)=2.16m,Ohm,cm" "(Yb,Ca)(Ba,Sr)2 Cu3Oz" Yb0.7Ca0.3Ba1.6Sr0.4Cu3O6.56 Yb 0.7 Ca 0.3 Ba 1.6 Sr 0.4 Cu 3 O z 6.56 1992 2 Y123 3.83 11.675 K 82.4 82.4 1.24 "annealed for various temp,for oxygen control" "THERMOELECTRIC POWER FOR THE OVERDOPED SUPERCONDUCTORS (YB,CA)(BA,SR)2CU3OZ" 1992 11 "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, TOKYO" "PHYS.REV.B,46(1992)11923" "YB,CA,BA,SR,CU,O" 6222 PR04611923 "RES(200K)=1.36m,Ohm,cm" "(Yb,Ca)(Ba,Sr)2 Cu3Oz" Yb0.7Ca0.3Ba1.6Sr0.4Cu3O6.73 Yb 0.7 Ca 0.3 Ba 1.6 Sr 0.4 Cu 3 O z 6.73 1992 3 Y123 3.799 3.857 11.591 K 68.5 68.5 -6.19 "annealed for various temp,for oxygen control" "THERMOELECTRIC POWER FOR THE OVERDOPED SUPERCONDUCTORS (YB,CA)(BA,SR)2CU3OZ" 1992 11 "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, TOKYO" "PHYS.REV.B,46(1992)11923" "YB,CA,BA,SR,CU,O" 6223 PR04611923 "RES(200K)=1.18m,Ohm,cm" "(Yb,Ca)(Ba,Sr)2 Cu3 Oz" Yb0.7Ca0.3Ba1.6Sr0.4Cu3O6.78 Yb 0.7 Ca 0.3 Ba 1.6 Sr 0.4 Cu 3 O z 6.78 1992 Y123 3.793 3.853 11.612 K 40.7 40.7 -7.96 "annealed for various temp,for oxygen control" "THERMOELECTRIC POWER FOR THE OVERDOPED SUPERCONDUCTORS (YB,CA)(BA,SR)2CU3OZ" 1992 11 "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, TOKYO" "PHYS.REV.B,46(1992)11923" "YB,CA,BA,SR,CU,O" 6224 PR04611923 "(Yb,Ca)(Ba,Sr)2Cu3Oz" Yb1Ba1.6Sr0.4Cu3O6.88 Yb 1 Ba 1.6 Sr 0.4 Cu 3 O z 6.88 1992 3 Y123 3.788 3.863 11.588 K 80.2 80.2 "Yb2O3,CaCO3,BaCO3,SrCO3,SrCO3,CuO" 1 "mixture-CAL-formed into bar-SIN(850C,20H in flowing (99%N2+1%O2)) -ANN (400C,20H+300C,2OH in flowing O2)" "THERMOELECTRIC POWER FOR THE OVERDOPED SUPERCONDUCTORS (YB,CA)(BA,SR)2CU3OZ" 1992 11 "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, TOKYO" "PHYS.REV.B,46(1992)11923" "YB,CA,BA,SR,CU,O" 6225 PR04611923 "(Yb,Ca)(Ba,Sr)2Cu3Oz" Yb0.9Ca0.1Ba1.6Sr0.4Cu3O6.89 Yb 0.9 Ca 0.1 Ba 1.6 Sr 0.4 Cu 3 O z 6.89 1992 3 Y123 3.788 3.854 11.588 K 62.1 62.1 "Yb2O3,CaCO3,BaCO3,SrCO3,SrCO3,CuO" 1 "mixture-CAL-formed into bar-SIN(850C,20H in flowing (99%N2+1%O2)) -ANN (400C,20H+300C,2OH in flowing O2)" "THERMOELECTRIC POWER FOR THE OVERDOPED SUPERCONDUCTORS (YB,CA)(BA,SR)2CU3OZ" 1992 11 "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, TOKYO" "PHYS.REV.B,46(1992)11923" "YB,CA,BA,SR,CU,O" 6226 PR04611923 "(Yb,Ca)(Ba,Sr)2Cu3Oz" Yb0.8Ca0.2Ba0.8Sr0.4Cu3O6.85 Yb 0.8 Ca 0.2 Ba 0.8 Sr 0.4 Cu 3 O z 6.85 1992 3 Y123 3.796 3.854 11.599 K 35 35 "Yb2O3,CaCO3,BaCO3,SrCO3,SrCO3,CuO" 1 "mixture-CAL-formed into bar-SIN(850C,20H in flowing (99%N2+1%O2)) -ANN (400C,20H+300C,2OH in flowing O2)" "THERMOELECTRIC POWER FOR THE OVERDOPED SUPERCONDUCTORS (YB,CA)(BA,SR)2CU3OZ" 1992 11 "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, TOKYO" "PHYS.REV.B,46(1992)11923" "YB,CA,BA,SR,CU,O" 6227 PR04611923 "(Yb,Ca)(Ba,Sr)2Cu3Oz" Yb0.7Ca0.3Ba1.6Sr0.4Cu3O6.78 Yb 0.7 Ca 0.3 Ba 1.6 Sr 0.4 Cu 3 O z 6.78 1992 3 Y123 3.797 3.85 11.61 K 24.4 24.4 "Yb2O3,CaCO3,BaCO3,SrCO3,SrCO3,CuO" 1 "mixture-CAL-formed into bar-SIN(850C,20H in flowing (99%N2+1%O2)) -ANN (400C,20H+300C,2OH in flowing O2)" "THERMOELECTRIC POWER FOR THE OVERDOPED SUPERCONDUCTORS (YB,CA)(BA,SR)2CU3OZ" 1992 11 "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, TOKYO" "PHYS.REV.B,46(1992)11923" "YB,CA,BA,SR,CU,O" 6228 PR0490600 "1800E+8 Ohm, cm" Nd2Ba2Cu2Ti2O11 Nd 2 Ba 2 Cu 2 Ti 2 O 11 1996 2 3.904 15.68 K 4.2 ohm.cm 62.7 1 "mixture-heat(900C,2H+1100C,24H)-heat(1100C,24H)-ANN(500C,in flowing O2)" "Cationic substitutions and doping in the series of layered perovskites Ln2Ba2Cu2Ti2O11 (Ln=La,Nd,Eu,Tb)" 1996 "Institut de Cie'ncia de Materials de Barcelona(CSIC),Campus UAB, 08193 Bellaterra, Barcelona, Spain" "Physica.C,261(1996)71-80" 6591 PHC2610071 "R(77)>E+8 Ohm,cm, R(300)=9.0E+4 Ohm, cm" Nd2Ba1.7K0.1Cu2Ti2O10.79 Nd 2 Ba 1.7 K 0.1 Cu 2 Ti 2 O 11-z 10.79 1996 2 3.909 15.69 K 4.2 1 "mixture-heat(900C,2H+1100C,24H)-heat(1100C,24H)-ANN(500C,in flowing O2)" "Cationic substitutions and doping in the series of layered perovskites Ln2Ba2Cu2Ti2O11 (Ln=La,Nd,Eu,Tb)" 1996 "Institut de Cie'ncia de Materials de Barcelona(CSIC),Campus UAB, 08193 Bellaterra, Barcelona, Spain" "Physica.C,261(1996)71-80" 6592 PHC2610071 "R(77)>E+8 Ohm,cm, R(300)=4.1 E+4 Ohm,cm" Nd2Ba1.85Cu2Ti2O11-z Nd 2 Ba 1.85 Cu 2 Ti 2 O 11-z 1996 2 3.898 15.65 K 4.2 1 "mixture-heat(900C,2H+1100C,24H)-heat(1100C,24H)-ANN(500C,in flowing O2)" "Cationic substitutions and doping in the series of layered perovskites Ln2Ba2Cu2Ti2O11 (Ln=La,Nd,Eu,Tb)" 1996 "Institut de Cie'ncia de Materials de Barcelona(CSIC),Campus UAB, 08193 Bellaterra, Barcelona, Spain" "Physica.C,261(1996)71-80" 6593 PHC2610071 "R(300)=7.3+4 Ohm,cm" Nd2.3Ba1.7Cu2Ti2O11-z Nd 2.3 Ba 1.7 Cu 2 Ti 2 O 11-z 1996 2 3.909 15.66 K 4.2 ohm.cm 1 "mixture-heat(900C,2H+1100C,24H)-heat(1100C,24H)-ANN(500C,in flowing O2)" "Cationic substitutions and doping in the series of layered perovskites Ln2Ba2Cu2Ti2O11 (Ln=La,Nd,Eu,Tb)" 1996 "Institut de Cie'ncia de Materials de Barcelona(CSIC),Campus UAB, 08193 Bellaterra, Barcelona, Spain" "Physica.C,261(1996)71-80" 6594 PHC2610071 "R(77)>E+8 Ohm,cm" Nd2Ba2Cu2Ti1.85Zn0.15O11-z Nd 2 Ba 2 Cu 2 Ti 1.85 Zn 0.15 O 11-z 1996 2 3.912 15.69 K 4.2 ohm.cm 6.44 0.04 1 "mixture-heat(900C,2H+1100C,24H)-heat(1100C,24H)-ANN(500C,in flowing O2)" "Cationic substitutions and doping in the series of layered perovskites Ln2Ba2Cu2Ti2O11 (Ln=La,Nd,Eu,Tb)" 1996 "Institut de Cie'ncia de Materials de Barcelona(CSIC),Campus UAB, 08193 Bellaterra, Barcelona, Spain" "Physica.C,261(1996)71-80" 6595 PHC2610071 Na2Ba2Cu2.15Ti1.85O10.83 Na 2 Ba 2 Cu 2.15 Ti 1.85 O 11-z 10.83 1996 2 3.907 15.68 K 4.2 ohm.cm 3.14 0.023 1 "mixture-heat(900C,2H+1100C,24H)-heat(1100C,24H)-ANN(500C,in flowing O2)" "Cationic substitutions and doping in the series of layered perovskites Ln2Ba2Cu2Ti2O11 (Ln=La,Nd,Eu,Tb)" 1996 "Institut de Cie'ncia de Materials de Barcelona(CSIC),Campus UAB, 08193 Bellaterra, Barcelona, Spain" "Physica.C,261(1996)71-80" 6596 PHC2610071 "R(77)=3.9E+5 Ohm, cm" Nd2Ba2Cu2Ti1.7Co0.3O10.85 Nd 2 Ba 2 Cu 2 Ti 1.7 Co 0.3 O 11-z 10.85 1996 2 3.903 15.66 K 4.2 ohm.cm 0.38 1 "mixture-heat(900C,2H+1100C,24H)-heat(1100C,24H)-ANN(500C,in flowing O2)" "Cationic substitutions and doping in the series of layered perovskites Ln2Ba2Cu2Ti2O11 (Ln=La,Nd,Eu,Tb)" 1996 "Institut de Cie'ncia de Materials de Barcelona(CSIC),Campus UAB, 08193 Bellaterra, Barcelona, Spain" "Physica.C,261(1996)71-80" 6597 PHC2610071 Nd2Ba2Cu2Ti1.7Al0.3O10.85 Nd 2 Ba 2 Cu 2 Ti 1.7 Al 0.3 O 11-z 10.85 1996 2 3.904 15.65 K 4.2 ohm.cm 16.5 0.16 1 "mixture-heat(900C,2H+1100C,24H)-heat(1100C,24H)-ANN(500C,in flowing O2)" "Cationic substitutions and doping in the series of layered perovskites Ln2Ba2Cu2Ti2O11 (Ln=La,Nd,Eu,Tb)" 1996 "Institut de Cie'ncia de Materials de Barcelona(CSIC),Campus UAB, 08193 Bellaterra, Barcelona, Spain" "Physica.C,261(1996)71-80" 6598 PHC2610071 Eu2Ba2Cu2Ti2O11 Eu 2 Ba 2 Cu 2 Ti 2 O 11 1996 2 3.884 15.68 K 4.2 ohm.cm 4.65 1 "mixture-heat(900C,2H+1100C,24H)-heat(1100C,24H)-ANN(500C,in flowing O2)" "Cationic substitutions and doping in the series of layered perovskites Ln2Ba2Cu2Ti2O11 (Ln=La,Nd,Eu,Tb)" 1996 "Institut de Cie'ncia de Materials de Barcelona(CSIC),Campus UAB, 08193 Bellaterra, Barcelona, Spain" "Physica.C,261(1996)71-80" 6599 PHC2610071 Eu2Ba1.7K0.1Cu2Ti2O10.74 Eu 2 Ba 1.7 K 0.1 Cu 2 Ti 2 O 11-z 10.74 1996 2 3.883 15.69 K 4.2 ohm.cm 428.9 1 "mixture-heat(900C,2H+1100C,24H)-heat(1100C,24H)-ANN(500C,in flowing O2)" "Cationic substitutions and doping in the series of layered perovskites Ln2Ba2Cu2Ti2O11 (Ln=La,Nd,Eu,Tb)" 1996 "Institut de Cie'ncia de Materials de Barcelona(CSIC),Campus UAB, 08193 Bellaterra, Barcelona, Spain" "Physica.C,261(1996)71-80" 6600 PHC2610071 Eu2Ba2Cu2Ti1.85Zn0.15O10.89 Eu 2 Ba 2 Cu 2 Ti 1.85 Zn 0.15 O 11-z 10.89 1996 2 3.893 15.67 K 4.2 ohm.cm 22.5 0.026 1 "mixture-heat(900C,2H+1100C,24H)-heat(1100C,24H)-ANN(500C,in flowing O2)" "Cationic substitutions and doping in the series of layered perovskites Ln2Ba2Cu2Ti2O11 (Ln=La,Nd,Eu,Tb)" 1996 "Institut de Cie'ncia de Materials de Barcelona(CSIC),Campus UAB, 08193 Bellaterra, Barcelona, Spain" "Physica.C,261(1996)71-80" 6601 PHC2610071 Eu2Ba2Cu2.15Ti1.85O10.85 Eu 2 Ba 2 Cu 2.15 Ti 1.85 O 11-z 10.85 1996 2 3.885 15.68 K 4.2 m.ohm.cm 48 6.4 1 "mixture-heat(900C,2H+1100C,24H)-heat(1100C,24H)-ANN(500C,in flowing O2)" "Cationic substitutions and doping in the series of layered perovskites Ln2Ba2Cu2Ti2O11 (Ln=La,Nd,Eu,Tb)" 1996 "Institut de Cie'ncia de Materials de Barcelona(CSIC),Campus UAB, 08193 Bellaterra, Barcelona, Spain" "Physica.C,261(1996)71-80" 6602 PHC2610071 Eu2Ba2Cu2Ti1.7Co0.3O10.88 Eu 2 Ba 2 Cu 2 Ti 1.7 Co 0.3 O 11-z 10.88 1996 2 3.885 15.68 K 4.2 m.ohm.cm 274 1 "mixture-heat(900C,2H+1100C,24H)-heat(1100C,24H)-ANN(500C,in flowing O2)" "Cationic substitutions and doping in the series of layered perovskites Ln2Ba2Cu2Ti2O11 (Ln=La,Nd,Eu,Tb)" 1996 "Institut de Cie'ncia de Materials de Barcelona(CSIC),Campus UAB, 08193 Bellaterra, Barcelona, Spain" "Physica.C,261(1996)71-80" 6603 PHC2610071 Eu2Ba2Cu2Ti1.7Al0.3O10.89 Eu 2 Ba 2 Cu 2 Ti 1.7 Al 0.3 O 11-z 10.89 1996 2 3.887 15.65 K 4.2 m.ohm.cm 230 6.7 1 "mixture-heat(900C,2H+1100C,24H)-heat(1100C,24H)-ANN(500C,in flowing O2)" "Cationic substitutions and doping in the series of layered perovskites Ln2Ba2Cu2Ti2O11 (Ln=La,Nd,Eu,Tb)" 1996 "Institut de Cie'ncia de Materials de Barcelona(CSIC),Campus UAB, 08193 Bellaterra, Barcelona, Spain" "Physica.C,261(1996)71-80" 6604 PHC2610097 single phase "Nd(Ba,Sr)2Cu3O7" Nd1Ba1.5Sr0.5Cu3O6.91 Nd 1 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.91 1 1996 2 Y123 3.881 11.688 K 71 71 "Nd2O3, BaCo3, SrCO3, CuO" 1 "mixture-CAL(930C,25H in air)-pellet-SIN(1000C,20H in flowing O2)-cool to RT(50C/H)" Structural analysis of superconducting NdBa1.5Sr0.5Cu3O7-z 1996 "Angewandte Physik, Johannes Kepler Universita""t Linz A-4040 Linz, Austria" "Physica.C,261(1996)97-104" 6605 PHC2610097 "ANN(940C,5H in Ar)-ANN(350C,10H in flowing O2),Ortho+Tetra" "Nd(Ba,Sr)2Cu3O7" Nd1Ba1.5Sr0.5Cu3O6.91 Nd 1 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.91 2 1996 Y123 3.86 3.896 11.697 K 83 83 "Nd2O3, BaCo3, SrCO3, CuO" 1 "mixture-CAL(930C,25H in air)-pellet-SIN(1000C,20H in flowing O2)-cool to RT(50C/H)" Structural analysis of superconducting NdBa1.5Sr0.5Cu3O7-z 1996 "Angewandte Physik, Johannes Kepler Universita""t Linz A-4040 Linz, Austria" "Physica.C,261(1996)97-104" 6606 PHC2460351 "as-prepared,with out oxidiqer" "(Hg,Re)Sr2Ca2Cu3Oz" Hg0.75Re0.25Sr2Ca2Cu3Oz Hg 0.75 Re 0.25 Sr 2 Ca 2 Cu 3 O z 1995 Hg1223 K 100 100 "precursor(Ca-Sr-Cu-Re-O)+HgO-press to 6GPa-react(1273K,30min)-pressure release and quench" High-pressure synthesis and superconductivity of a Ba free mercury-based superconductor(Hg0.75Re0.25)Sr2Ca2Cu3Oy 1995 5 "Institute for Chemical Research,kyoto University,Uji.Kyoto-fu 611,Japan" "Physica C.,246(1995)351-356" 6607 PHC2460351 post-anneal(783K in evacuatecl quartq ampoule) "(Hg,Re)Sr2Ca2Cu3Oz" Hg0.75Re0.25Sr2Ca2Cu3Oz Hg 0.75 Re 0.25 Sr 2 Ca 2 Cu 3 O z 1995 2 Hg1223 3.83 15.227 K 120 120 "precursor(Ca-Sr-Cu-Re-O)+HgO-press to 6GPa-react(1273K,30min)-pressure release and quench" High-pressure synthesis and superconductivity of a Ba free mercury-based superconductor(Hg0.75Re0.25)Sr2Ca2Cu3Oy 1995 5 "Institute for Chemical Research,kyoto University,Uji.Kyoto-fu 611,Japan" "Physica C.,246(1995)351-356" 6608 PHC2460351 "HgSr2Ca(Cu,Re)2 Oz" Hg1Sr2Ca1Cu1.8Re0.2Oz Hg 1 Sr 2 Ca 1 Cu 1.8 Re 0.2 O z 1995 2 Hg1212 3.816 12.066 K 90 90 post-anneal(763K) High-pressure synthesis and superconductivity of a Ba free mercury-based superconductor(Hg0.75Re0.25)Sr2Ca2Cu3Oy 1995 5 "Institute for Chemical Research,kyoto University,Uji.Kyoto-fu 611,Japan" "Physica C.,246(1995)351-356" 6609 PHC2610117 RES=80micro Ohm.cm at 100K "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.895Fe0.105O7-z Y 1 Ba 2 Cu 2.895 Fe 0.105 O 7-z 3 1996 Y123 K 81.8 1.5 81.8 12.7 0.7 5 "self-flux method-ANN(460C,a for days,in flowing O2)siqe=1*0.2*0.02mm3" Fluctuation magnetoconductivity in Fe doped YBa2Cu3O7-z Sign change for B and I parallel to the planes 1996 "Department of Solid State Physics, The Royal Institute of Technology, S-100 44 Stockholm, Sweden" "Physica.C,261(1996)117-124" 6610 PHC2610117 RES=180 micro Ohm.cm at rook "YBa2(Cu,Fe)3 O7" Y1Ba2Cu2.805Fe0.195O7-z Y 1 Ba 2 Cu 2.805 Fe 0.195 O 7-z 3 1996 Y123 K 60 0.9 60 15 2.5 5 "self-flux method-ANN(460C,a for days,in flowing O2)siqe=1*0.2*0.02mm3" Fluctuation magnetoconductivity in Fe doped YBa2Cu3O7-z Sign change for B and I parallel to the planes 1996 "Department of Solid State Physics, The Royal Institute of Technology, S-100 44 Stockholm, Sweden" "Physica.C,261(1996)117-124" 6611 PR0476054 "(Y,Ca)Ba2Cu3O7" Y1Ba2Cu3O6.96 Y 1 Ba 2 Cu 3 O 7-z 6.96 1993 Y123 K 89.4 89.4 "mixture-SIN(950C,24H~960C,60H in flowing O2)sevenal times-ANN(400C,3days in flowing O2-slow cool to RT)" EFFECTS OF SUBSTITUTING CALCIUM FOR YTTRIUM ON THE PROPERTIESOF YBA2CU3O7-Z 1993 3 "PHYS.REV.B,47(1993)6054" "Y,BA,CU,O,CA" 6612 PR0476054 "(Y,Ca)Ba2Cu3O7" Y0.9Ca0.1Ba2Cu3O6.91 Y 0.9 Ca 0.1 Ba 2 Cu 3 O 7-z 6.91 1993 Y123 K 84.2 84.2 "mixture-SIN(950C,24H~960C,60H in flowing O2)sevenal times-ANN(400C,3days in flowing O2-slow cool to RT)" EFFECTS OF SUBSTITUTING CALCIUM FOR YTTRIUM ON THE PROPERTIESOF YBA2CU3O7-Z 1993 3 "PHYS.REV.B,47(1993)6054" "Y,BA,CU,O,CA" 6613 PR0476054 "(Y,Ca)Ba2Cu3O7" Y0.8Ca0.2Ba2Cu3O6.86 Y 0.8 Ca 0.2 Ba 2 Cu 3 O 7-z 6.86 1993 Y123 K 79 79 "mixture-SIN(950C,24H~960C,60H in flowing O2)sevenal times-ANN(400C,3days in flowing O2-slow cool to RT)" EFFECTS OF SUBSTITUTING CALCIUM FOR YTTRIUM ON THE PROPERTIESOF YBA2CU3O7-Z 1993 3 "PHYS.REV.B,47(1993)6054" "Y,BA,CU,O,CA" 6614 PR0476054 "(Y,Ca)Ba2Cu3O7" Y0.7Ca0.3Ba2Cu3O6.78 Y 0.7 Ca 0.3 Ba 2 Cu 3 O 7-z 6.78 1993 Y123 K 68.4 78 78 "mixture-SIN(950C,24H~960C,60H in flowing O2)sevenal times-ANN(400C,3days in flowing O2-slow cool to RT)" EFFECTS OF SUBSTITUTING CALCIUM FOR YTTRIUM ON THE PROPERTIESOF YBA2CU3O7-Z 1993 3 "PHYS.REV.B,47(1993)6054" "Y,BA,CU,O,CA" 6615 PHC2610125 "hydrostatic, up to 1 Gpa" "Gd(Ba,Sr)2Cu3Oz" Gd1Ba1.5Sr0.5Cu3O6.63 Gd 1 Ba 1.5 Sr 0.5 Cu 3 O z 6.63 1996 Y123 K 16 16 K/GPa 2.2 1 "mixture-heat (900-950C in O2 flow)-pellet-SIN(955C,12H in O2 flow)-cool to RT(IC/min)-ANN(300-600C,20H in N2)" High effect of pressure on the critical temperature in GdBa1.5Sr0.5Cu3Ox 1996 "Instiute of Physics, polish Academy of Sciences, Al. Lotniko'w 32/46 Warszawa, Poland" "Physica.c,261(1996)125-130" 6616 PHC2610125 "hydrostatic, up to 1 Gpa" "Gd(Ba,Sr)2Cu3Oz" Gd1Ba1.5Sr0.5Cu3O6.73 Gd 1 Ba 1.5 Sr 0.5 Cu 3 O z 6.73 1996 Y123 K 50 50 K/GPa 7 1 "mixture-heat (900-950C in O2 flow)-pellet-SIN(955C,12H in O2 flow)-cool to RT(IC/min)-ANN(300-600C,20H in N2)" High effect of pressure on the critical temperature in GdBa1.5Sr0.5Cu3Ox 1996 "Instiute of Physics, polish Academy of Sciences, Al. Lotniko'w 32/46 Warszawa, Poland" "Physica.c,261(1996)125-130" 6617 PHC2610125 "hydrostatic, up to 1Gpa" "Gd(Ba,Sr)2Cu3Oz" Gd1Ba1.5Sr0.5Cu3O6.93 Gd 1 Ba 1.5 Sr 0.5 Cu 3 O z 6.93 1996 Y123 K 89 89 K/GPa 13.7 1 "mixture-heat (900-950C in O2 flow)-pellet-SIN(955C,12H in O2 flow)-cool to RT(IC/min)-ANN(300-600C,20H in N2)" High effect of pressure on the critical temperature in GdBa1.5Sr0.5Cu3Ox 1996 "Instiute of Physics, polish Academy of Sciences, Al. Lotniko'w 32/46 Warszawa, Poland" "Physica.c,261(1996)125-130" 6618 PHC1830154 "(Y,Pr)Ba2Cu3O7" Y1Ba2Cu3O6.83 Y 1 Ba 2 Cu 3 O 7-z 6.83 1 1991 3 Y123 3.822 3.888 11.667 K 91 92 93 92 92 "Y2O3, BaCO3, CuO,Pr6O11, CaO" 1 "mixture-CAL(950C,24H in air in Pt-crucible)-SIN(950C,24H in aie)-ANN(450C,12H in flowing O2)-slow cool to RT" Influence of hole filling and pair breaking by Pr and hole doping by Ca on superconductivity and flux pinning of YBa2Cu3O6.83 1991 "Department of Physics, Marathawada University, Aurangabad-431 004, India" "Physica.C,183(1991)154-162" 6619 PHC1830154 "(Y,Pr)Ba2Cu3O7" Y0.95Pr0.05Ba2Cu3O6.85 Y 0.95 Pr 0.05 Ba 2 Cu 3 O 7-z 6.85 1 1991 3 Y123 3.814 3.884 11.65 K 79 85.5 90 85.5 "Y2O3, BaCO3, CuO,Pr6O11, CaO" 1 "mixture-CAL(950C,24H in air in Pt-crucible)-SIN(950C,24H in aie)-ANN(450C,12H in flowing O2)-slow cool to RT" Influence of hole filling and pair breaking by Pr and hole doping by Ca on superconductivity and flux pinning of YBa2Cu3O6.83 1991 "Department of Physics, Marathawada University, Aurangabad-431 004, India" "Physica.C,183(1991)154-162" 6620 PHC1830154 "(Y,Pr)Ba2Cu3O7" Y0.9Pr0.1Ba2Cu3O6.82 Y 0.9 Pr 0.1 Ba 2 Cu 3 O 7-z 6.82 1 1991 3 Y123 3.82 3.884 11.648 K 77 82 86 84 82 "Y2O3, BaCO3, CuO,Pr6O11, CaO" 1 "mixture-CAL(950C,24H in air in Pt-crucible)-SIN(950C,24H in aie)-ANN(450C,12H in flowing O2)-slow cool to RT" Influence of hole filling and pair breaking by Pr and hole doping by Ca on superconductivity and flux pinning of YBa2Cu3O6.83 1991 "Department of Physics, Marathawada University, Aurangabad-431 004, India" "Physica.C,183(1991)154-162" 6621 PHC1830154 "()Y,Prba2Cu3O7" Y0.85Pr0.15Ba2Cu3O6.84 Y 0.85 Pr 0.15 Ba 2 Cu 3 O 7-z 6.84 1 1991 3 Y123 3.817 3.887 11.662 K 68 75 82 75 "Y2O3, BaCO3, CuO,Pr6O11, CaO" 1 "mixture-CAL(950C,24H in air in Pt-crucible)-SIN(950C,24H in aie)-ANN(450C,12H in flowing O2)-slow cool to RT" Influence of hole filling and pair breaking by Pr and hole doping by Ca on superconductivity and flux pinning of YBa2Cu3O6.83 1991 "Department of Physics, Marathawada University, Aurangabad-431 004, India" "Physica.C,183(1991)154-162" 6622 PHC1830154 "(Y,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O6.81 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7-z 6.81 1 1991 3 Y123 3.826 3.889 11.669 K 62 68 73 70 68 "Y2O3, BaCO3, CuO,Pr6O11, CaO" 1 "mixture-CAL(950C,24H in air in Pt-crucible)-SIN(950C,24H in aie)-ANN(450C,12H in flowing O2)-slow cool to RT" Influence of hole filling and pair breaking by Pr and hole doping by Ca on superconductivity and flux pinning of YBa2Cu3O6.83 1991 "Department of Physics, Marathawada University, Aurangabad-431 004, India" "Physica.C,183(1991)154-162" 6623 PHC1830154 "(Y,Ca)Ba2Cu3O7" Y0.95Ca0.05Ba2Cu3O6.79 Y 0.95 Ca 0.05 Ba 2 Cu 3 O 7-z 6.79 1 1991 3 Y123 3.801 3.883 11.646 K 80 88 91 88 "Y2O3, BaCO3, CuO,Pr6O11, CaO" 1 "mixture-CAL(950C,24H in air in Pt-crucible)-SIN(950C,24H in aie)-ANN(450C,12H in flowing O2)-slow cool to RT" Influence of hole filling and pair breaking by Pr and hole doping by Ca on superconductivity and flux pinning of YBa2Cu3O6.83 1991 "Department of Physics, Marathawada University, Aurangabad-431 004, India" "Physica.C,183(1991)154-162" 6624 PHC1830154 "(Y,Ca)Ba2Cu3O7" Y0.9Ca0.1Ba2Cu3O6.67 Y 0.9 Ca 0.1 Ba 2 Cu 3 O 7-z 6.67 1 1991 3 Y123 3.841 3.89 11.689 K 79 82 90 82 "Y2O3, BaCO3, CuO,Pr6O11, CaO" 1 "mixture-CAL(950C,24H in air in Pt-crucible)-SIN(950C,24H in aie)-ANN(450C,12H in flowing O2)-slow cool to RT" Influence of hole filling and pair breaking by Pr and hole doping by Ca on superconductivity and flux pinning of YBa2Cu3O6.83 1991 "Department of Physics, Marathawada University, Aurangabad-431 004, India" "Physica.C,183(1991)154-162" 6625 PHC1830154 "(Y,Ca)Ba2Cu3O7" Y0.85Ca0.15Ba2Cu3O6.65 Y 0.85 Ca 0.15 Ba 2 Cu 3 O 7-z 6.65 1 1991 3 Y123 3.819 3.887 11.655 K 80 83 87 83 "Y2O3, BaCO3, CuO,Pr6O11, CaO" 1 "mixture-CAL(950C,24H in air in Pt-crucible)-SIN(950C,24H in aie)-ANN(450C,12H in flowing O2)-slow cool to RT" Influence of hole filling and pair breaking by Pr and hole doping by Ca on superconductivity and flux pinning of YBa2Cu3O6.83 1991 "Department of Physics, Marathawada University, Aurangabad-431 004, India" "Physica.C,183(1991)154-162" 6626 PHC1830154 "(Y,Ca)Ba2Cu3O7" Y0.8Ca0.2Ba2Cu3O6.64 Y 0.8 Ca 0.2 Ba 2 Cu 3 O 7-z 6.64 1 1991 3 Y123 3.822 3.872 11.617 K 78 81 85 81 "Y2O3, BaCO3, CuO,Pr6O11, CaO" 1 "mixture-CAL(950C,24H in air in Pt-crucible)-SIN(950C,24H in aie)-ANN(450C,12H in flowing O2)-slow cool to RT" Influence of hole filling and pair breaking by Pr and hole doping by Ca on superconductivity and flux pinning of YBa2Cu3O6.83 1991 "Department of Physics, Marathawada University, Aurangabad-431 004, India" "Physica.C,183(1991)154-162" 6627 PHC1830154 "(Y,Pr,Ca)Ba2Cu3O7" Y0.8Pr0.05Ca0.15Ba2Cu3O6.83 Y 0.8 Pr 0.05 Ca 0.15 Ba 2 Cu 3 O 7-z 6.83 1 1991 3 Y123 3.819 3.881 11.642 K 85 87 89 87 "Y2O3, BaCO3, CuO,Pr6O11, CaO" 1 "mixture-CAL(950C,24H in air in Pt-crucible)-SIN(950C,24H in aie)-ANN(450C,12H in flowing O2)-slow cool to RT" Influence of hole filling and pair breaking by Pr and hole doping by Ca on superconductivity and flux pinning of YBa2Cu3O6.83 1991 "Department of Physics, Marathawada University, Aurangabad-431 004, India" "Physica.C,183(1991)154-162" 6628 PHC1830154 "(Y,Pr,Ca)Ba2Cu3O7" Y0.8Pr0.15Ca0.05Ba2Cu3O6.82 Y 0.8 Pr 0.15 Ca 0.05 Ba 2 Cu 3 O 7-z 6.82 1 1991 3 Y123 3.805 3.873 11.624 K 75 80 86 80 "Y2O3, BaCO3, CuO,Pr6O11, CaO" 1 "mixture-CAL(950C,24H in air in Pt-crucible)-SIN(950C,24H in aie)-ANN(450C,12H in flowing O2)-slow cool to RT" Influence of hole filling and pair breaking by Pr and hole doping by Ca on superconductivity and flux pinning of YBa2Cu3O6.83 1991 "Department of Physics, Marathawada University, Aurangabad-431 004, India" "Physica.C,183(1991)154-162" 6629 PHC1910158 "(Y,Pr)Ba2Cu3O7" Y1Ba2Cu3O6.96 Y 1 Ba 2 Cu 3 O 7-z 6.96 1992 Y123 K 92 92.2 92.7 92.2 0.5 "Y2O3, Pr6O11, BaCO3, CuO" "pellet-ANN(955-970C, 2days in O2)-cool to 450C(1C/min)-ANN(450C,18H)-slow cool to RT" SUPERCONDUCTING CRITICAL TEMPERATURE AND ELECTRICAL RESISTIVITY OF THE SYSTEM Y1-XPRXBA2CU3O6.95(0<-X<-1) 1992 2 "PHYSICA C,191(1992)158" "Y,PR,BA,CU,O" 6630 PHC1910158 "(Y,Pr)Ba2Cu3O7" Y0.95Pr0.05Ba2Cu3O6.96 Y 0.95 Pr 0.05 Ba 2 Cu 3 O 7-z 6.96 1992 Y123 K 91.4 91.5 92.1 91.5 0.7 "Y2O3, Pr6O11, BaCO3, CuO" "pellet-ANN(955-970C, 2days in O2)-cool to 450C(1C/min)-ANN(450C,18H)-slow cool to RT" SUPERCONDUCTING CRITICAL TEMPERATURE AND ELECTRICAL RESISTIVITY OF THE SYSTEM Y1-XPRXBA2CU3O6.95(0<-X<-1) 1992 2 "PHYSICA C,191(1992)158" "Y,PR,BA,CU,O" 6631 PHC1910158 "(Y,Pr)Ba2Cu3O7" Y0.9Pr0.1Ba2Cu3O6.97 Y 0.9 Pr 0.1 Ba 2 Cu 3 O 7-z 6.97 1992 Y123 K 87.7 88.1 88.6 88.1 1.08 "Y2O3, Pr6O11, BaCO3, CuO" "pellet-ANN(955-970C, 2days in O2)-cool to 450C(1C/min)-ANN(450C,18H)-slow cool to RT" SUPERCONDUCTING CRITICAL TEMPERATURE AND ELECTRICAL RESISTIVITY OF THE SYSTEM Y1-XPRXBA2CU3O6.95(0<-X<-1) 1992 2 "PHYSICA C,191(1992)158" "Y,PR,BA,CU,O" 6632 PHC1910158 "(Y,Pr)Ba2Cu3O7" Y0.85Pr0.15Ba2Cu3O6.97 Y 0.85 Pr 0.15 Ba 2 Cu 3 O 7-z 6.97 1992 Y123 K 81.3 81.8 82.7 81.8 1.04 "Y2O3, Pr6O11, BaCO3, CuO" "pellet-ANN(955-970C, 2days in O2)-cool to 450C(1C/min)-ANN(450C,18H)-slow cool to RT" SUPERCONDUCTING CRITICAL TEMPERATURE AND ELECTRICAL RESISTIVITY OF THE SYSTEM Y1-XPRXBA2CU3O6.95(0<-X<-1) 1992 2 "PHYSICA C,191(1992)158" "Y,PR,BA,CU,O" 6633 PHC1910158 "(Y,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O6.96 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7-z 6.96 1992 Y123 K 74 74.7 76.1 74.7 1.17 "Y2O3, Pr6O11, BaCO3, CuO" "pellet-ANN(955-970C, 2days in O2)-cool to 450C(1C/min)-ANN(450C,18H)-slow cool to RT" SUPERCONDUCTING CRITICAL TEMPERATURE AND ELECTRICAL RESISTIVITY OF THE SYSTEM Y1-XPRXBA2CU3O6.95(0<-X<-1) 1992 2 "PHYSICA C,191(1992)158" "Y,PR,BA,CU,O" 6634 PHC1910158 "(Y,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3O6.97 Y 0.7 Pr 0.3 Ba 2 Cu 3 O 7-z 6.97 1992 Y123 K 58.3 59.3 60.9 59.3 1.44 "Y2O3, Pr6O11, BaCO3, CuO" "pellet-ANN(955-970C, 2days in O2)-cool to 450C(1C/min)-ANN(450C,18H)-slow cool to RT" SUPERCONDUCTING CRITICAL TEMPERATURE AND ELECTRICAL RESISTIVITY OF THE SYSTEM Y1-XPRXBA2CU3O6.95(0<-X<-1) 1992 2 "PHYSICA C,191(1992)158" "Y,PR,BA,CU,O" 6635 PHC1910158 "(Y,Pr)Ba2Cu3O7" Y0.6Pr0.4Ba2Cu3O6.98 Y 0.6 Pr 0.4 Ba 2 Cu 3 O 7-z 6.98 1992 Y123 K 44.1 45.4 47.6 45.4 1.59 "Y2O3, Pr6O11, BaCO3, CuO" "pellet-ANN(955-970C, 2days in O2)-cool to 450C(1C/min)-ANN(450C,18H)-slow cool to RT" SUPERCONDUCTING CRITICAL TEMPERATURE AND ELECTRICAL RESISTIVITY OF THE SYSTEM Y1-XPRXBA2CU3O6.95(0<-X<-1) 1992 2 "PHYSICA C,191(1992)158" "Y,PR,BA,CU,O" 6636 PHC1910158 "(Y,Pr)Ba2Cu3O7" Y0.5Pr0.5Ba2Cu3O6.95 Y 0.5 Pr 0.5 Ba 2 Cu 3 O 7-z 6.95 1992 Y123 K 25.7 28.2 32 28.2 1.99 "Y2O3, Pr6O11, BaCO3, CuO" "pellet-ANN(955-970C, 2days in O2)-cool to 450C(1C/min)-ANN(450C,18H)-slow cool to RT" SUPERCONDUCTING CRITICAL TEMPERATURE AND ELECTRICAL RESISTIVITY OF THE SYSTEM Y1-XPRXBA2CU3O6.95(0<-X<-1) 1992 2 "PHYSICA C,191(1992)158" "Y,PR,BA,CU,O" 6637 PHC1910158 "(Y,Pr)Ba2Cu3O7" Y0.47Pr0.53Ba2Cu3O6.96 Y 0.47 Pr 0.53 Ba 2 Cu 3 O 7-z 6.96 1992 Y123 K 9.7 13.5 17.7 13.5 2.01 "Y2O3, Pr6O11, BaCO3, CuO" "pellet-ANN(955-970C, 2days in O2)-cool to 450C(1C/min)-ANN(450C,18H)-slow cool to RT" SUPERCONDUCTING CRITICAL TEMPERATURE AND ELECTRICAL RESISTIVITY OF THE SYSTEM Y1-XPRXBA2CU3O6.95(0<-X<-1) 1992 2 "PHYSICA C,191(1992)158" "Y,PR,BA,CU,O" 6638 PHC1910158 "(Y,Pr)Ba2Cu3O7" Y0.44Pr0.56Ba2Cu3O6.93 Y 0.44 Pr 0.56 Ba 2 Cu 3 O 7-z 6.93 1992 Y123 K 2.1 2.1 2.2 "Y2O3, Pr6O11, BaCO3, CuO" "pellet-ANN(955-970C, 2days in O2)-cool to 450C(1C/min)-ANN(450C,18H)-slow cool to RT" SUPERCONDUCTING CRITICAL TEMPERATURE AND ELECTRICAL RESISTIVITY OF THE SYSTEM Y1-XPRXBA2CU3O6.95(0<-X<-1) 1992 2 "PHYSICA C,191(1992)158" "Y,PR,BA,CU,O" 6639 PHC1910158 "(Y,Pr)Ba2Cu3O7" Y0.42Pr0.58Ba2Cu3O6.94 Y 0.42 Pr 0.58 Ba 2 Cu 3 O 7-z 6.94 1992 Y123 K 4.2 2.22 "Y2O3, Pr6O11, BaCO3, CuO" "pellet-ANN(955-970C, 2days in O2)-cool to 450C(1C/min)-ANN(450C,18H)-slow cool to RT" SUPERCONDUCTING CRITICAL TEMPERATURE AND ELECTRICAL RESISTIVITY OF THE SYSTEM Y1-XPRXBA2CU3O6.95(0<-X<-1) 1992 2 "PHYSICA C,191(1992)158" "Y,PR,BA,CU,O" 6640 PHC1910158 "(Y,Pr)Ba2Cu3O7" Y0.2Pr0.8Ba2Cu3O6.95 Y 0.2 Pr 0.8 Ba 2 Cu 3 O 7-z 6.95 1992 Y123 K 4.2 3.89 "Y2O3, Pr6O11, BaCO3, CuO" "pellet-ANN(955-970C, 2days in O2)-cool to 450C(1C/min)-ANN(450C,18H)-slow cool to RT" SUPERCONDUCTING CRITICAL TEMPERATURE AND ELECTRICAL RESISTIVITY OF THE SYSTEM Y1-XPRXBA2CU3O6.95(0<-X<-1) 1992 2 "PHYSICA C,191(1992)158" "Y,PR,BA,CU,O" 6641 PHC1910158 "(Y,Pr)Ba2Cu3O7" Pr1Ba2Cu3O6.95 Pr 1 Ba 2 Cu 3 O 7-z 6.95 1992 Y123 K 4.2 14.56 "Y2O3, Pr6O11, BaCO3, CuO" "pellet-ANN(955-970C, 2days in O2)-cool to 450C(1C/min)-ANN(450C,18H)-slow cool to RT" SUPERCONDUCTING CRITICAL TEMPERATURE AND ELECTRICAL RESISTIVITY OF THE SYSTEM Y1-XPRXBA2CU3O6.95(0<-X<-1) 1992 2 "PHYSICA C,191(1992)158" "Y,PR,BA,CU,O" 6642 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y1Ba2Cu3O6.98 Y 1 Ba 2 Cu 3 O z 6.98 1 1996 Y123 K 92.2 92.2 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6643 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.9Pr0.1Ba2Cu3O6.98 Y 0.9 Pr 0.1 Ba 2 Cu 3 O z 6.98 1 1996 Y123 K 85.9 85.9 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6644 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.85Pr0.15Ba2Cu3O6.98 Y 0.85 Pr 0.15 Ba 2 Cu 3 O z 6.98 1 1996 Y123 K 79.2 79.2 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6645 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.8Pr0.2Ba2Cu3O6.98 Y 0.8 Pr 0.2 Ba 2 Cu 3 O z 6.98 1 1996 Y123 K 72.6 72.6 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6646 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.7Pr0.3Ba2Cu3O6.98 Y 0.7 Pr 0.3 Ba 2 Cu 3 O z 6.98 1 1996 Y123 K 57.4 57.4 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6647 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.6Pr0.4Ba2Cu3O6.98 Y 0.6 Pr 0.4 Ba 2 Cu 3 O z 6.98 1 1996 Y123 K 42.8 42.8 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6648 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.55Pr0.45Ba2Cu3O6.98 Y 0.55 Pr 0.45 Ba 2 Cu 3 O z 6.98 1 1996 Y123 K 33.6 33.6 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6649 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.5Pr0.5Ba2Cu3O6.98 Y 0.5 Pr 0.5 Ba 2 Cu 3 O z 6.98 1 1996 Y123 K 21.9 21.9 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6650 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.45Pr0.55Ba2Cu3O6.98 Y 0.45 Pr 0.55 Ba 2 Cu 3 O z 6.98 1 1996 Y123 K 10.1 10.1 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6651 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.4Pr0.6Ba2Cu3O6.98 Y 0.4 Pr 0.6 Ba 2 Cu 3 O z 6.98 1 1996 Y123 K 4.2 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6652 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y1Ba2Cu3O6.8 Y 1 Ba 2 Cu 3 O z 6.8 1 1996 Y123 K 73.2 73.2 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6653 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.9Pr0.1Ba2Cu3O6.8 Y 0.9 Pr 0.1 Ba 2 Cu 3 O z 6.8 1 1996 Y123 K 65.6 65.6 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6654 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.85Pr0.15Ba2Cu3O6.8 Y 0.85 Pr 0.15 Ba 2 Cu 3 O z 6.8 1 1996 Y123 K 59 59 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6655 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.8Pr0.2Ba2Cu3O6.8 Y 0.8 Pr 0.2 Ba 2 Cu 3 O z 6.8 1 1996 Y123 K 56.1 56.1 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6656 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.6Pr0.4Ba2Cu3O6.8 Y 0.6 Pr 0.4 Ba 2 Cu 3 O z 6.8 1 1996 Y123 K 33.9 33.9 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6657 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.55Pr0.45Ba2Cu3O6.8 Y 0.55 Pr 0.45 Ba 2 Cu 3 O z 6.8 1 1996 Y123 K 23.5 23.5 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6658 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.5Pr0.5Ba2Cu3O6.8 Y 0.5 Pr 0.5 Ba 2 Cu 3 O z 6.8 1 1996 Y123 K 4.2 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6659 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y1Ba2Cu3O6.65 Y 1 Ba 2 Cu 3 O z 6.65 1 1996 Y123 K 58.9 58.9 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6660 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.9Pr0.1Ba2Cu3O6.65 Y 0.9 Pr 0.1 Ba 2 Cu 3 O z 6.65 1 1996 Y123 K 56.1 56.1 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6661 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.85Pr0.15Ba2Cu3O6.65 Y 0.85 Pr 0.15 Ba 2 Cu 3 O z 6.65 1 1996 Y123 K 52.9 52.9 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6662 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.8Pr0.2Ba2Cu3O6.65 Y 0.8 Pr 0.2 Ba 2 Cu 3 O z 6.65 1 1996 Y123 K 51.7 51.7 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6663 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.7Pr0.3Ba2Cu3O6.65 Y 0.7 Pr 0.3 Ba 2 Cu 3 O z 6.65 1 1996 Y123 K 46 46 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6664 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.6Pr0.4Ba2Cu3O6.65 Y 0.6 Pr 0.4 Ba 2 Cu 3 O z 6.65 1 1996 Y123 K 38 38 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6665 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.55Pr0.45Ba2Cu3O6.65 Y 0.55 Pr 0.45 Ba 2 Cu 3 O z 6.65 1 1996 Y123 K 30.7 30.7 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6666 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.5Pr0.5Ba2Cu3O6.65 Y 0.5 Pr 0.5 Ba 2 Cu 3 O z 6.65 1 1996 Y123 K 18.7 18.7 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6667 PHC2630336 "(Y,Pr)ba2Cu3Oz" Y0.45Pr0.55Ba2Cu3O6.65 Y 0.45 Pr 0.55 Ba 2 Cu 3 O z 6.65 1 1996 Y123 K 4.2 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6668 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y1Ba2Cu3O6.5 Y 1 Ba 2 Cu 3 O z 6.5 1 1996 Y123 K 41.2 41.2 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6669 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.9Pr0.1Ba2Cu3O6.5 Y 0.9 Pr 0.1 Ba 2 Cu 3 O z 6.5 1 1996 Y123 K 38.7 38.7 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6670 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.85Pr0.15Ba2Cu3O6.5 Y 0.85 Pr 0.15 Ba 2 Cu 3 O z 6.5 1 1996 Y123 K 35.8 35.8 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6671 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.8Pr0.2Ba2Cu3O6.5 Y 0.8 Pr 0.2 Ba 2 Cu 3 O z 6.5 1 1996 Y123 K 33.9 33.9 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6672 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.7Pr0.3Ba2Cu3O6.5 Y 0.7 Pr 0.3 Ba 2 Cu 3 O z 6.5 1 1996 Y123 K 27.2 27.2 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6673 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.6Pr0.4Ba2Cu3O6.5 Y 0.6 Pr 0.4 Ba 2 Cu 3 O z 6.5 1 1996 Y123 K 14.9 14.9 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6674 PHC2630336 "(Y,Pr)Ba2Cu3Oz" Y0.55Pr0.45Ba2Cu3O6.5 Y 0.55 Pr 0.45 Ba 2 Cu 3 O z 6.5 1 1996 Y123 K 4.2 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6675 PHC2630336 "(Nd,Pr)Ba2Cu3O7" Nd1Ba2Cu3O6.85 Nd 1 Ba 2 Cu 3 O z 6.85 1 1996 Y123 K 67.4 67.4 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6676 PHC2630336 "(Nd,Pr)Ba2Cu3O7" Nd0.95Pr0.05Ba2Cu3O6.85 Nd 0.95 Pr 0.05 Ba 2 Cu 3 O z 6.85 1 1996 Y123 K 57.2 57.2 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6677 PHC2630336 "(Nd,Pr)Ba2Cu3O7" Nd0.9Pr0.1Ba2Cu3O6.85 Nd 0.9 Pr 0.1 Ba 2 Cu 3 O z 6.85 1 1996 Y123 K 48.3 48.3 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6678 PHC2630336 "(Nd,Pr)Ba2Cu3O7" Nd0.85Pr0.15Ba2Cu3O6.85 Nd 0.85 Pr 0.15 Ba 2 Cu 3 O z 6.85 1 1996 Y123 K 41.3 41.3 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6679 PHC2630336 "(Nd,Pr)Ba2Cu3O7" Nd0.8Pr0.2Ba2Cu3O6.85 Nd 0.8 Pr 0.2 Ba 2 Cu 3 O z 6.85 1 1996 Y123 K 30.2 30.2 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6680 PHC2630336 "(Nd,Pr)Ba2Cu3O7" Nd0.75Pr0.25Ba2Cu3O6.85 Nd 0.75 Pr 0.25 Ba 2 Cu 3 O z 6.85 1 1996 Y123 K 9.2 9.2 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6681 PHC2630336 "(Nd,Pr)Ba2Cu3O7" Nd0.7Pr0.3Ba2Cu3O6.85 Nd 0.7 Pr 0.3 Ba 2 Cu 3 O z 6.85 1 1996 Y123 K 4.2 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6682 PHC2630336 "(Nd,Pr)Ba2Cu3O7" Nd1Ba2Cu3O6.75 Nd 1 Ba 2 Cu 3 O z 6.75 1 1996 Y123 K 52.8 52.8 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6683 PHC2630336 "(Nd,Pr)Ba2Cu3O7" Nd0.95Pr0.05Ba2Cu3O6.75 Nd 0.95 Pr 0.05 Ba 2 Cu 3 O z 6.75 1 1996 Y123 K 45.8 45.8 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6684 PHC2630336 "(Nd,Pr)Ba2Cu3O7" Nd0.9Pr0.1Ba2Cu3O6.75 Nd 0.9 Pr 0.1 Ba 2 Cu 3 O z 6.75 1 1996 Y123 K 35.9 35.9 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6685 PHC2630336 "(Nd,Pr)Ba2Cu3O7" Nd0.85Pr0.15Ba2Cu3O6.75 Nd 0.85 Pr 0.15 Ba 2 Cu 3 O z 6.75 1 1996 Y123 K 21.6 21.6 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6686 PHC2630336 "(Nd,Pr)Ba2Cu3O7" Nd0.8Pr0.2Ba2Cu3O6.75 Nd 0.8 Pr 0.2 Ba 2 Cu 3 O z 6.75 1 1996 Y123 K 9.8 9.8 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6687 PHC2630336 "(Nd,Pr)Ba2Cu3O7" Nd0.75Pr0.25Ba2Cu3O6.75 Nd 0.75 Pr 0.25 Ba 2 Cu 3 O z 6.75 1 1996 Y123 K 4.2 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6688 PHC2630336 "(Nd,Pr)Ba2Cu3O7" Nd1Ba2Cu3O6.65 Nd 1 Ba 2 Cu 3 O z 6.65 1 1996 Y123 K 34.3 34.3 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6689 PHC2630336 "(Nd,Pr)Ba2Cu3O7" Nd0.95Pr0.05Ba2Cu3O6.65 Nd 0.95 Pr 0.05 Ba 2 Cu 3 O z 6.65 1 1996 Y123 K 26.7 26.7 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6690 PHC2630336 "(Nd,Pr)Ba2Cu3O7" Nd0.9Pr0.1Ba2Cu3O6.65 Nd 0.9 Pr 0.1 Ba 2 Cu 3 O z 6.65 1 1996 Y123 K 16.8 16.8 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6691 PHC2630336 "(Nd,Pr)Ba2Cu3O7" Nd0.85Pr0.15Ba2Cu3O6.65 Nd 0.85 Pr 0.15 Ba 2 Cu 3 O z 6.65 1 1996 Y123 K 4.2 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6692 PHC2630336 "(Nd,Pr)Ba2Cu3O7" Nd1Ba2Cu3O6.6 Nd 1 Ba 2 Cu 3 O z 6.6 1 1996 Y123 K 14 14 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6693 PHC2630336 "(Nd,Pr)Ba2Cu3O7" Nd0.95Pr0.05Ba2Cu3O6.6 Nd 0.95 Pr 0.05 Ba 2 Cu 3 O z 6.6 1 1996 Y123 K 4.1 4.1 "Y2O3,Nd2O3,Pr6O11,BaCO3,CuO" 1 "mixture-CAL(950C,24H in air)-pellet-SIN(930C(Nd),950C(Y),12H in flowing O2)-ANN(350C,12H)-verious quenching Temp. for different Oxygen content" "Oxygen concentration dependence of superconductivity in Pr-substituted Ln1-xPrxBa2Cu3O7-y (Ln= Y, Nd, Gd)" 1996 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Minamijosanjima, Tokushima 770, Japan" "Physica.C,263(1996)336-339" 6694 PHC2590168 "RuSr2(Gd,Ce)2Cu2Oz" Ru1Sr2Gd1.6Ce0.4Cu2Oz Ru 1 Sr 2 Gd 1.6 Ce 0.4 Cu 2 O z 2 1996 Ru1212 I4/mmm K 10 "RuO2,Sr(NO3)2,Gd2O3,CeO2,CuO" "mixture-CAL(1000C,48H in air)-pellet-SIN(1100C,24H in flowing O2)-FC to RT" "Synthesis and characterization of a new layered superconducting cuprate: RuSr2(Gd,Ce)2Cu2Oz" 1996 "Department of Applied Chemistry,University of Science and Technology of China, Hefei 230026, China" "Physica C,259(1996)168-172" 6695 PHC2590168 "RuSr2(Gd,Ce)2Cu2Oz" Ru1Sr2Gd1.5Ce0.5Cu2Oz Ru 1 Sr 2 Gd 1.5 Ce 0.5 Cu 2 O z 2 1996 Ru1212 I4/mmm K 11 14 28 14 "RuO2,Sr(NO3)2,Gd2O3,CeO2,CuO" "mixture-CAL(1000C,48H in air)-pellet-SIN(1100C,24H in flowing O2)-FC to RT" "Synthesis and characterization of a new layered superconducting cuprate: RuSr2(Gd,Ce)2Cu2Oz" 1996 "Department of Applied Chemistry,University of Science and Technology of China, Hefei 230026, China" "Physica C,259(1996)168-172" 6696 PHC2590168 "RuSr2(Gd,Ce)2Cu2Oz" Ru1Sr2Gd1.4Ce0.6Cu2Oz Ru 1 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O z 1 1996 Ru1212 I4/mmm 3.847 28.649 K 16 25 34 25 "RuO2,Sr(NO3)2,Gd2O3,CeO2,CuO" "mixture-CAL(1000C,48H in air)-pellet-SIN(1100C,24H in flowing O2)-FC to RT" "Synthesis and characterization of a new layered superconducting cuprate: RuSr2(Gd,Ce)2Cu2Oz" 1996 "Department of Applied Chemistry,University of Science and Technology of China, Hefei 230026, China" "Physica C,259(1996)168-172" 6697 PHC2590168 "RuSr2(Gd,Ce)2Cu2Oz" Ru1Sr2Gd1.3Ce0.7Cu2Oz Ru 1 Sr 2 Gd 1.3 Ce 0.7 Cu 2 O z 1 1996 Ru1212 I4/mmm K 14 22 30 22 "RuO2,Sr(NO3)2,Gd2O3,CeO2,CuO" "mixture-CAL(1000C,48H in air)-pellet-SIN(1100C,24H in flowing O2)-FC to RT" "Synthesis and characterization of a new layered superconducting cuprate: RuSr2(Gd,Ce)2Cu2Oz" 1996 "Department of Applied Chemistry,University of Science and Technology of China, Hefei 230026, China" "Physica C,259(1996)168-172" 6698 PHC2590168 "RuSr2(Gd,Ce)2Cu2Oz" Ru1Sr2Gd1.2Ce0.8Cu2Oz Ru 1 Sr 2 Gd 1.2 Ce 0.8 Cu 2 O z 1 1996 Ru1212 I4/mmm K 10 "RuO2,Sr(NO3)2,Gd2O3,CeO2,CuO" "mixture-CAL(1000C,48H in air)-pellet-SIN(1100C,24H in flowing O2)-FC to RT" "Synthesis and characterization of a new layered superconducting cuprate: RuSr2(Gd,Ce)2Cu2Oz" 1996 "Department of Applied Chemistry,University of Science and Technology of China, Hefei 230026, China" "Physica C,259(1996)168-172" 6699 PHC2590168 "RuSr2(Gd,Ce)2Cu2Oz" Ru1Sr2Gd1.1Ce0.9Cu2Oz Ru 1 Sr 2 Gd 1.1 Ce 0.9 Cu 2 O z 2 1996 Ru1212 I4/mmm K 10 "RuO2,Sr(NO3)2,Gd2O3,CeO2,CuO" "mixture-CAL(1000C,48H in air)-pellet-SIN(1100C,24H in flowing O2)-FC to RT" "Synthesis and characterization of a new layered superconducting cuprate: RuSr2(Gd,Ce)2Cu2Oz" 1996 "Department of Applied Chemistry,University of Science and Technology of China, Hefei 230026, China" "Physica C,259(1996)168-172" 6700 PHC2590036 "Hg2Ba2(Y,Ca)Cu2O8" Hg2Ba2Y1Cu2O8-z Hg 2 Ba 2 Y 1 Cu 2 O 8-z 1996 Hg2212 K 21 21 1 "materials were prepared by adding HgO,Tl2O3 to a precursor" "Effect of Tl doping on the phase stability of Hg2Ba2(Y,Ca)1Cu2O8-z suoerconducters prepared by a high-pressure technique" 1996 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Physica C,259(1996)36-42" 6701 PHC2590036 "Hg2Ba2(Y,Ca)Cu2O8" Hg2Ba2Y0.7Ca0.3Cu2O8-z Hg 2 Ba 2 Y 0.7 Ca 0.3 Cu 2 O 8-z 1996 Hg2212 K 58 58 1 "materials were prepared by adding HgO,Tl2O3 to a precursor" "Effect of Tl doping on the phase stability of Hg2Ba2(Y,Ca)1Cu2O8-z suoerconducters prepared by a high-pressure technique" 1996 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Physica C,259(1996)36-42" 6702 PHC2590036 small transition at 75K "Hg2Ba2(Y,Ca)Cu2O8" Hg2Ba2Y0.4Ca0.6Cu2O8-z Hg 2 Ba 2 Y 0.4 Ca 0.6 Cu 2 O 8-z 1996 Hg2212 K 45 45 1 "materials were prepared by adding HgO,Tl2O3 to a precursor" "Effect of Tl doping on the phase stability of Hg2Ba2(Y,Ca)1Cu2O8-z suoerconducters prepared by a high-pressure technique" 1996 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Physica C,259(1996)36-42" 6703 PHC2590036 "(Hg,Tl)2Ba2(Y,Ca)Cu2O8" Hg1.4Tl0.6Ba2Y1Cu2O8-z Hg 1.4 Tl 0.6 Ba 2 Y 1 Cu 2 O 8-z 1996 2 Hg2212 3.866 28.9 K 4.2 1 "materials were prepared by adding HgO,Tl2O3 to a precursor" "Effect of Tl doping on the phase stability of Hg2Ba2(Y,Ca)1Cu2O8-z suoerconducters prepared by a high-pressure technique" 1996 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Physica C,259(1996)36-42" 6704 PHC2590036 "(Hg,Tl)2Ba2(Y,Ca)Cu2O8" Hg1.4Tl0.6Ba2Y0.7Ca0.3Cu2O8-z Hg 1.4 Tl 0.6 Ba 2 Y 0.7 Ca 0.3 Cu 2 O 8-z 1996 2 Hg2212 3.861 28.92 K 50 60 70 68 60 1 "materials were prepared by adding HgO,Tl2O3 to a precursor" "Effect of Tl doping on the phase stability of Hg2Ba2(Y,Ca)1Cu2O8-z suoerconducters prepared by a high-pressure technique" 1996 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Physica C,259(1996)36-42" 6705 PHC2590036 "(Hg,Tl)2Ba2(Y,Ca)Cu2O8" Hg1.4Tl0.6Ba2Y0.4Ca0.6Cu2O8-z Hg 1.4 Tl 0.6 Ba 2 Y 0.4 Ca 0.6 Cu 2 O 8-z 1996 2 Hg2212 3.856 28.99 K 84 84 1 "materials were prepared by adding HgO,Tl2O3 to a precursor" "Effect of Tl doping on the phase stability of Hg2Ba2(Y,Ca)1Cu2O8-z suoerconducters prepared by a high-pressure technique" 1996 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Physica C,259(1996)36-42" 6706 PHC2590036 "(Hg,Tl)2Ba2(Y,Ca)Cu2O8" Hg1.4Tl0.6Ba2Ca1Cu2O8-z Hg 1.4 Tl 0.6 Ba 2 Ca 1 Cu 2 O 8-z 1996 2 Hg2212 3.847 29.27 K 4.9 1 "materials were prepared by adding HgO,Tl2O3 to a precursor" "Effect of Tl doping on the phase stability of Hg2Ba2(Y,Ca)1Cu2O8-z suoerconducters prepared by a high-pressure technique" 1996 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Physica C,259(1996)36-42" 6707 PHC2580384 Cu-vacancy "(Cu,C)Ba2Ca3Cu4Oz" Cu0.8C0.2Ba2Ca3Cu4Oz Cu 0.8 C 0.2 Ba 2 Ca 3 Cu 4 O z 1 1996 2 Cu1234 17.93 K 115.5 2.3 115.5 RH6707 high pressure synthesis technique "Hall effect of superconducting copper oxide, Cu-1234" 1996 "Department of Applied Electronics.Science University of Tokyo 2641 Yamazaki Noda,Chiba 278, Japan" "Physica.C.258,(1996)348-388" "Cu,C,Ba,Ca,Cu,O" 6708 PHC2580384 Cu-vacancy "(Cu,C)Ba2Ca3Cu4Oz" Cu0.9C0.1Ba2Ca3Cu4Oz Cu 0.9 C 0.1 Ba 2 Ca 3 Cu 4 O z 1996 2 Cu1234 K 117.2 1.6 117.2 RH6708 high pressure synthesis technique "Hall effect of superconducting copper oxide, Cu-1234" 1996 "Department of Applied Electronics.Science University of Tokyo 2641 Yamazaki Noda,Chiba 278, Japan" "Physica.C.258,(1996)348-388" "Cu,C,Ba,Ca,Cu,O" 6709 PHC2580384 Cu-vacancy "(Cu,C)Ba2Ca3Cu4Oz" Cu5Ba2Ca3Oz Cu 5 Ba 2 Ca 3 O z 1996 2 Cu1234 18 K 118 1.6 118 RH6709 high pressure synthesis technique "Hall effect of superconducting copper oxide, Cu-1234" 1996 "Department of Applied Electronics.Science University of Tokyo 2641 Yamazaki Noda,Chiba 278, Japan" "Physica.C.258,(1996)348-388" "Cu,C,Ba,Ca,Cu,O" 6710 PHC2580341 EPMA analysis(Tl:Ba:Cu=1.41:4.17:4.59) Tl2Ba5Cu4Oz Tl2Ba5Cu4Oz Tl 2 Ba 5 Cu 4 O z 3 1996 2 I4/mmm 5.502 27.257 5 K 92 92 8 "Tl2O3,BaO2,CuO" 5 "heat(950C,10H)-cool to 900C (2C/H)-FC to RV" "A new high-Tc cuprate superconductor Tl2Ba5Cu4Ox: growth, structure and superconductivity" 1996 "Institute for Solid State Physics,University of Tokyo Roppongi,Minato-ku, Tokyo 106, Japan" "Physica.C.258,(1996)341-348" "Tl,Ba,Cu,O" 6711 PHC2580315 Ag-grown "(La,Ba)2CuO4" La1.94Ba0.06Cu1O4-z La 1.94 Ba 0.06 Cu 1 O 4-z 3 1996 2 T 3.806 13.241 7 K 15 15.5 18 3 15.5 "La2CuO4, BaCuO4" 1 see J.cryst.Growth 96(1989)711 Anisotropic electric resistivity of superconducting La2-xBaxCuO4-z single crystals 1996 "Institute of Inorganic Synthesis, Faculty of Engineering, Yamanashi Uniersity, Miyamae 7,Kofu,Yamanashi 400, Japan" "Physica.C.258,(1996)315-320" "La,Ba,Cu,O" 6712 PHC2580315 as-grown "(La,Ba)2CuO4" La1.92Ba0.08Cu1O4-z La 1.92 Ba 0.08 Cu 1 O 4-z 3 1996 2 T 3.804 13.258 7 K 26.5 27 28 1.5 27 "La2CuO4, BaCuO4" 1 see J.cryst.Growth 96(1989)711 Anisotropic electric resistivity of superconducting La2-xBaxCuO4-z single crystals 1996 "Institute of Inorganic Synthesis, Faculty of Engineering, Yamanashi Uniersity, Miyamae 7,Kofu,Yamanashi 400, Japan" "Physica.C.258,(1996)315-320" "La,Ba,Cu,O" 6713 PHC2580315 as-grown "(La,Ba)2CuO4" La1.91Ba0.09Cu1O4-z La 1.91 Ba 0.09 Cu 1 O 4-z 3 1996 2 T 3.797 13.272 7 K 31 31.5 32.5 1.5 31.5 "La2CuO4, BaCuO4" 1 see J.cryst.Growth 96(1989)711 Anisotropic electric resistivity of superconducting La2-xBaxCuO4-z single crystals 1996 "Institute of Inorganic Synthesis, Faculty of Engineering, Yamanashi Uniersity, Miyamae 7,Kofu,Yamanashi 400, Japan" "Physica.C.258,(1996)315-320" "La,Ba,Cu,O" 6714 PHC2580315 "(La,Ba)2CuO4" La1.94Ba0.06Cu1O4-z La 1.94 Ba 0.06 Cu 1 O 4-z 3 1996 3.799 13.218 7 K 15 16.5 18.5 3.5 16.5 1 "ANN(650C,24H in Ar)-cool to RT(1C/min)" Anisotropic electric resistivity of superconducting La2-xBaxCuO4-z single crystals 1996 "Institute of Inorganic Synthesis, Faculty of Engineering, Yamanashi Uniersity, Miyamae 7,Kofu,Yamanashi 400, Japan" "Physica.C.258,(1996)315-320" "La,Ba,Cu,O" 6715 PHC2580315 "(La,Ba)2CuO4" La1.92Ba0.08Cu1O4-z La 1.92 Ba 0.08 Cu 1 O 4-z 3 1996 3.795 13.232 7 K 27 28 29 2 28 1 "ANN(650C,24H in Ar)-cool to RT(1C/min)" Anisotropic electric resistivity of superconducting La2-xBaxCuO4-z single crystals 1996 "Institute of Inorganic Synthesis, Faculty of Engineering, Yamanashi Uniersity, Miyamae 7,Kofu,Yamanashi 400, Japan" "Physica.C.258,(1996)315-320" "La,Ba,Cu,O" 6716 PHC2580315 "(La,Ba)2CuO4" La1.91Ba0.09Cu1O4-z La 1.91 Ba 0.09 Cu 1 O 4-z 3 1996 3.79 13.25 7 K 31 32.5 34 3 32.5 1 "ANN(650C,24H in Ar)-cool to RT(1C/min)" Anisotropic electric resistivity of superconducting La2-xBaxCuO4-z single crystals 1996 "Institute of Inorganic Synthesis, Faculty of Engineering, Yamanashi Uniersity, Miyamae 7,Kofu,Yamanashi 400, Japan" "Physica.C.258,(1996)315-320" "La,Ba,Cu,O" 6717 PHC2580227 Ca2Sr2Cu3GaO9 Ca2Sr2Cu3Ga1O9 Ca 2 Sr 2 Cu 3 Ga 1 O 9 2 1996 3 Imcm 29.36 5.462 5.404 4 K 73 73 1 Crystal structure of the superconductor Ca2Sr2Cu3GaO9 synthesized at high pressure 1996 "National Institute for Research in Inorganic Materials, 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" "Physica.C.258,(1996)227-235" "Ca,Sr,Cu,Ga,O" 6718 PHC2580279 "Fig(Hall effect),1:1/a, 2:1/b sampule is perfect single crystal" YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 3 1996 3 Y124 K 72 72 RH6718 see NAT336(1988)660 Hall effect measurements on YBa2Cu4O8 single crystals 1996 "Laboratorium f""ur Festko""rperphysik, ETH-Zu""rich, zu""rich, Swizerland" "Physica.C.258,(1996)279-283" "Y,Ba,Cu,O" 6719 PHC2590115 ANN(600C) "(Pb,Cu)Sr2(Y,Ca)Cu2O7" Pb0.5Cu0.5Sr2Y0.5Ca0.5Cu2O7-z Pb 0.5 Cu 0.5 Sr 2 Y 0.5 Ca 0.5 Cu 2 O 7-z 1 1996 Pb1212 K 4.2 "PbO,CuO,SrCO3,Y2O3,CuCO3" "Influence of annealing on the superconductivity in(Pb,Cu)Sr2(Y,Ca)Cu2O7-z ceramics" 1996 "Department of Electrical Engineering, Nagaoka University of Technology, 1603-1, Kamitomioka, Nagaoka, Niigata, 940-21, Japan" "Physica C,259(1996)115-120" 6720 PHC2590115 ANN(700C) "(Pb,Cu)Sr2(Y,Ca)Cu2O7" Pb0.5Cu0.5Sr2Y0.5Ca0.5Cu2O7-z Pb 0.5 Cu 0.5 Sr 2 Y 0.5 Ca 0.5 Cu 2 O 7-z 1 1996 Pb1212 K 14 20 31 20 "PbO,CuO,SrCO3,Y2O3,CuCO3" "Influence of annealing on the superconductivity in(Pb,Cu)Sr2(Y,Ca)Cu2O7-z ceramics" 1996 "Department of Electrical Engineering, Nagaoka University of Technology, 1603-1, Kamitomioka, Nagaoka, Niigata, 940-21, Japan" "Physica C,259(1996)115-120" 6721 PHC2590115 ANN(800C) "(Pb,Cu)Sr2(Y,Ca)Cu2O7" Pb0.5Cu0.5Sr2Y0.5Ca0.5Cu2O7-z Pb 0.5 Cu 0.5 Sr 2 Y 0.5 Ca 0.5 Cu 2 O 7-z 1 1996 Pb1212 K 25 35 47 35 "PbO,CuO,SrCO3,Y2O3,CuCO3" "Influence of annealing on the superconductivity in(Pb,Cu)Sr2(Y,Ca)Cu2O7-z ceramics" 1996 "Department of Electrical Engineering, Nagaoka University of Technology, 1603-1, Kamitomioka, Nagaoka, Niigata, 940-21, Japan" "Physica C,259(1996)115-120" 6722 PHC2590115 ANN(900C) "(Pb,Cu)Sr2(Y,Ca)Cu2O7" Pb0.5Cu0.5Sr2Y0.5Ca0.5Cu2O7-z Pb 0.5 Cu 0.5 Sr 2 Y 0.5 Ca 0.5 Cu 2 O 7-z 1 1996 Pb1212 K 30 38 48 38 "PbO,CuO,SrCO3,Y2O3,CuCO3" "Influence of annealing on the superconductivity in(Pb,Cu)Sr2(Y,Ca)Cu2O7-z ceramics" 1996 "Department of Electrical Engineering, Nagaoka University of Technology, 1603-1, Kamitomioka, Nagaoka, Niigata, 940-21, Japan" "Physica C,259(1996)115-120" 6723 JSC1180215 "(Y,Pr)Sr2(Cu,Re)3O7" Y1Sr2Cu2.85Re0.15O6.95 Y 1 Sr 2 Cu 2.85 Re 0.15 O 7 6.95 1995 2 Y123 3.803 9.081 K 43.1 43.1 15.6 "Y2O3,Pr2O3,SrCO3,ReO2,CuO" "mixture-CAL(950C,12-18H in air)-pellet-heat(980C,16-24H in air)-ANN(1000C,24H in O2)-FC to RT" Evidence for Retarded Pr f Hybridization and Tc Suppression in Y1-xPrxSr2Cu2.85Re0.15O7 1995 "Laboratoire de Physique des Solides de Bellevue, Centre National de la Recherche Scientifique,92195 Meudon, france" J. Solid State Chem.118(1995)215-218 6724 JSC1180215 "(Y,Pr)Sr2(Cu,Re)3O7" Y0.8Pr0.2Sr2Cu2.85Re0.15O7 Y 0.8 Pr 0.2 Sr 2 Cu 2.85 Re 0.15 O 7 1995 2 Y123 3.804 9.068 K 39.1 39.1 22.6 "Y2O3,Pr2O3,SrCO3,ReO2,CuO" "mixture-CAL(950C,12-18H in air)-pellet-heat(980C,16-24H in air)-ANN(1000C,24H in O2)-FC to RT" Evidence for Retarded Pr f Hybridization and Tc Suppression in Y1-xPrxSr2Cu2.85Re0.15O7 1995 "Laboratoire de Physique des Solides de Bellevue, Centre National de la Recherche Scientifique,92195 Meudon, france" J. Solid State Chem.118(1995)215-218 6725 JSC1180215 "(Y,Pr)Sr2(Cu,Re)3O7" Y0.6Pr0.4Cu2.85Re0.15O7 Y 0.6 Pr 0.4 Cu 2.85 Re 0.15 O 7 1995 2 Y123 3.814 9.042 K 33.9 33.9 28.9 "Y2O3,Pr2O3,SrCO3,ReO2,CuO" "mixture-CAL(950C,12-18H in air)-pellet-heat(980C,16-24H in air)-ANN(1000C,24H in O2)-FC to RT" Evidence for Retarded Pr f Hybridization and Tc Suppression in Y1-xPrxSr2Cu2.85Re0.15O7 1995 "Laboratoire de Physique des Solides de Bellevue, Centre National de la Recherche Scientifique,92195 Meudon, france" J. Solid State Chem.118(1995)215-218 6726 JSC1180215 "(Y,Pr)Sr2(Cu,Re)3O7" Y0.5Pr0.5Sr2Cu2.85Re0.15O7 Y 0.5 Pr 0.5 Sr 2 Cu 2.85 Re 0.15 O 7 1995 2 Y123 K 26.2 26.2 30.9 "Y2O3,Pr2O3,SrCO3,ReO2,CuO" "mixture-CAL(950C,12-18H in air)-pellet-heat(980C,16-24H in air)-ANN(1000C,24H in O2)-FC to RT" Evidence for Retarded Pr f Hybridization and Tc Suppression in Y1-xPrxSr2Cu2.85Re0.15O7 1995 "Laboratoire de Physique des Solides de Bellevue, Centre National de la Recherche Scientifique,92195 Meudon, france" J. Solid State Chem.118(1995)215-218 6727 JSC1180215 "(Y,Pr)Sr2(Cu,Re)3O7" Y0.4Pr0.6Sr2Cu2.85Re0.15O6.8 Y 0.4 Pr 0.6 Sr 2 Cu 2.85 Re 0.15 O 7 6.8 1995 2 Y123 3.829 9.002 K 20.2 20.2 36 "Y2O3,Pr2O3,SrCO3,ReO2,CuO" "mixture-CAL(950C,12-18H in air)-pellet-heat(980C,16-24H in air)-ANN(1000C,24H in O2)-FC to RT" Evidence for Retarded Pr f Hybridization and Tc Suppression in Y1-xPrxSr2Cu2.85Re0.15O7 1995 "Laboratoire de Physique des Solides de Bellevue, Centre National de la Recherche Scientifique,92195 Meudon, france" J. Solid State Chem.118(1995)215-218 6728 JSC1180215 "(Y,Pr)Sr2(Cu,Re)3O7" Y0.3Pr0.7Sr2Cu2.85Re0.15O7 Y 0.3 Pr 0.7 Sr 2 Cu 2.85 Re 0.15 O 7 1995 2 Y123 3.834 9 K 15.8 15.8 "Y2O3,Pr2O3,SrCO3,ReO2,CuO" "mixture-CAL(950C,12-18H in air)-pellet-heat(980C,16-24H in air)-ANN(1000C,24H in O2)-FC to RT" Evidence for Retarded Pr f Hybridization and Tc Suppression in Y1-xPrxSr2Cu2.85Re0.15O7 1995 "Laboratoire de Physique des Solides de Bellevue, Centre National de la Recherche Scientifique,92195 Meudon, france" J. Solid State Chem.118(1995)215-218 6729 PRL0740598 Ramda(b)=1000 ppenet=Randa(a) YBa2Cu3O7 Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O z 6.95 1995 Y123 K 93.5 0.2 93.5 by for infrared(FIR) 1600 by flux growth technique see Physica C 195(1992)51 detwinned under uriaxial stress In-Plane Anisotropy of the Penetration Depth in YBa2Cu3O7-x and YBa2Cu4O8 Superconductors 1995 1 "Department of Physics and Astronomy,McMaster University,Hamilton,Ontario,Canada L8S 4M1" "Phys.Rev.Lett.,74(1995)0598" "Y,Ba,Cu,O" 6730 PRL0740598 Ramda(b)=1200A ppenet=Ramda(a) YBa2Cu3O7 Y1Ba2Cu3Oz Y 1 Ba 2 Cu 3 O z 1995 Y123 K 92 92 by for infrared(FIR) 1600 "Phys.Rev.B,42(1990)6217" In-Plane Anisotropy of the Penetration Depth in YBa2Cu3O7-x and YBa2Cu4O8 Superconductors 1995 1 "Department of Physics and Astronomy,McMaster University,Hamilton,Ontario,Canada L8S 4M1" "Phys.Rev.Lett.,74(1995)0598" "Y,Ba,Cu,O" 6731 PRL0740598 Ramda(b)=800A ppenet=Ramda(a) YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1995 Y123 K 80 0.5 80 by for infrared(FIR) 2000 grown under high oxygen pressure In-Plane Anisotropy of the Penetration Depth in YBa2Cu3O7-x and YBa2Cu4O8 Superconductors 1995 1 "Department of Physics and Astronomy,McMaster University,Hamilton,Ontario,Canada L8S 4M1" "Phys.Rev.Lett.,74(1995)0598" "Y,Ba,Cu,O" 6732 PHC2050139 "dtc/dp for C-axial pressure,twinmed sample" YBa2Cu3Oz Y1Ba2Cu3O6.94 Y 1 Ba 2 Cu 3 O z 6.94 3 1993 Y123 K 89.5 89.5 K/GPa -0.85 "Single crystals were grown in Y2O3-stabiliqed ZrO2 crucible, O-content was varied annealing at 400-520C at I atm O2" UNIAXIAL PRESSURE DEPENDENCE OF TC UNTWINNED YBA2CU3OX SINGLECRYSTALS FOR X=6.5-7 1993 1 "PHYSICA C,205(1993)139" "Y,BA,CU,O" 6733 PHC2050139 "dtc/dp for C-axial pressure,twinmed sample" YBa2Cu3Oz Y1Ba2Cu3O6.93 Y 1 Ba 2 Cu 3 O z 6.93 3 1993 Y123 K 89.7 89.7 K/GPa -0.64 "Single crystals were grown in Y2O3-stabiliqed ZrO2 crucible, O-content was varied annealing at 400-520C at I atm O2" UNIAXIAL PRESSURE DEPENDENCE OF TC UNTWINNED YBA2CU3OX SINGLECRYSTALS FOR X=6.5-7 1993 1 "PHYSICA C,205(1993)139" "Y,BA,CU,O" 6734 PHC2050139 "dtc/dp for C-axial pressure,twinmed sample" YBa2Cu3Oz Y1Ba2Cu3O6.91 Y 1 Ba 2 Cu 3 O z 6.91 3 1993 Y123 K 90.1 90.1 K/GPa -0.27 "Single crystals were grown in Y2O3-stabiliqed ZrO2 crucible, O-content was varied annealing at 400-520C at I atm O2" UNIAXIAL PRESSURE DEPENDENCE OF TC UNTWINNED YBA2CU3OX SINGLECRYSTALS FOR X=6.5-7 1993 1 "PHYSICA C,205(1993)139" "Y,BA,CU,O" 6735 PHC2050139 "dtc/dp for C-axial pressure,twinmed sample" YBa2Cu3Oz Y1Ba2Cu3O6.81 Y 1 Ba 2 Cu 3 O z 6.81 3 1993 Y123 K 87.3 87.3 K/GPa 1.4 "Single crystals were grown in Y2O3-stabiliqed ZrO2 crucible, O-content was varied annealing at 400-520C at I atm O2" UNIAXIAL PRESSURE DEPENDENCE OF TC UNTWINNED YBA2CU3OX SINGLECRYSTALS FOR X=6.5-7 1993 1 "PHYSICA C,205(1993)139" "Y,BA,CU,O" 6736 PHC2050139 "dtc/dp for C-axial pressure,twinmed sample" YBa2Cu3Oz Y1Ba2Cu3O6.7 Y 1 Ba 2 Cu 3 O z 6.7 3 1993 Y123 K 71.2 71.2 K/GPa 1.4 "Single crystals were grown in Y2O3-stabiliqed ZrO2 crucible, O-content was varied annealing at 400-520C at I atm O2" UNIAXIAL PRESSURE DEPENDENCE OF TC UNTWINNED YBA2CU3OX SINGLECRYSTALS FOR X=6.5-7 1993 1 "PHYSICA C,205(1993)139" "Y,BA,CU,O" 6737 PHC2050139 "dtc/dp for C-axial pressure,twinmed sample" YBa2Cu3Oz Y1Ba2Cu3O6.61 Y 1 Ba 2 Cu 3 O z 6.61 3 1993 Y123 K 58.7 58.7 K/GPa 3.5 "Single crystals were grown in Y2O3-stabiliqed ZrO2 crucible, O-content was varied annealing at 400-520C at I atm O2" UNIAXIAL PRESSURE DEPENDENCE OF TC UNTWINNED YBA2CU3OX SINGLECRYSTALS FOR X=6.5-7 1993 1 "PHYSICA C,205(1993)139" "Y,BA,CU,O" 6738 PHC2050139 "dtc/dp for C-axial pressure,twinmed sample" YBa2Cu3Oz Y1Ba2Cu3O6.89 Y 1 Ba 2 Cu 3 O z 6.89 3 1993 Y123 K 90.8 90.8 K/GPa -0.27 "Single crystals were grown in Y2O3-stabiliqed ZrO2 crucible, O-content was varied annealing at 400-520C at I atm O2" UNIAXIAL PRESSURE DEPENDENCE OF TC UNTWINNED YBA2CU3OX SINGLECRYSTALS FOR X=6.5-7 1993 1 "PHYSICA C,205(1993)139" "Y,BA,CU,O" 6739 PHC2050139 "twinned sample,dtc/dp for C-axial pressure" YBa2Cu3Oz Y1Ba2Cu3O6.82 Y 1 Ba 2 Cu 3 O z 6.82 3 1993 Y123 K 87.7 87.7 K/GPa 1.6 UNIAXIAL PRESSURE DEPENDENCE OF TC UNTWINNED YBA2CU3OX SINGLECRYSTALS FOR X=6.5-7 1993 1 "PHYSICA C,205(1993)139" "Y,BA,CU,O" 6740 PHC2050139 "twinned sample,dtc/dp for C-axial pressure" YBa2Cu3Oz Y1Ba2Cu3O6.63 Y 1 Ba 2 Cu 3 O z 6.63 3 1993 Y123 K 61.1 61.1 K/GPa 4.4 UNIAXIAL PRESSURE DEPENDENCE OF TC UNTWINNED YBA2CU3OX SINGLECRYSTALS FOR X=6.5-7 1993 1 "PHYSICA C,205(1993)139" "Y,BA,CU,O" 6741 PHC2050139 "untwinned sample,dtc/dp for b-axial presure dtc/dp(a)=-2.7GP/K/2.3/-1.5/-1.0" YBa2Cu3Oz Y1Ba2Cu3O6.93 Y 1 Ba 2 Cu 3 O z 6.93 3 1993 Y123 K 89.7 89.7 K/GPa 3.1 UNIAXIAL PRESSURE DEPENDENCE OF TC UNTWINNED YBA2CU3OX SINGLECRYSTALS FOR X=6.5-7 1993 1 "PHYSICA C,205(1993)139" "Y,BA,CU,O" 6742 PHC2050139 "untwinned sample,dtc/dp for b-axial presure dtc/dp(a)=-2.7GP/K/2.3/-1.5/-1.0" YBa2Cu3Oz Y1Ba2Cu3O6.73 Y 1 Ba 2 Cu 3 O z 6.73 3 1993 Y123 K 76.3 76.3 K/GPa 4.8 UNIAXIAL PRESSURE DEPENDENCE OF TC UNTWINNED YBA2CU3OX SINGLECRYSTALS FOR X=6.5-7 1993 1 "PHYSICA C,205(1993)139" "Y,BA,CU,O" 6743 PHC2050139 "untwinned sample,dtc/dp fpr b-axial presure dtc/dp(a)=-2.7GP/K/2.3/-1.5/-1.0" YBa2Cu3Oz Y1Ba2Cu3O6.59 Y 1 Ba 2 Cu 3 O z 6.59 3 1993 Y123 K 59.9 59.9 K/GPa 2.9 UNIAXIAL PRESSURE DEPENDENCE OF TC UNTWINNED YBA2CU3OX SINGLECRYSTALS FOR X=6.5-7 1993 1 "PHYSICA C,205(1993)139" "Y,BA,CU,O" 6744 PHC2050139 "untwinned sample,dtc/dp for b-axial presore dtc/dp(a)=-2.7GP/K/2.3/-1.5/-1.0" YBa2Cu3Oz Y1Ba2Cu3O6.54 Y 1 Ba 2 Cu 3 O z 6.54 3 1993 Y123 K 55.5 55.5 K/GPa 2.5 UNIAXIAL PRESSURE DEPENDENCE OF TC UNTWINNED YBA2CU3OX SINGLECRYSTALS FOR X=6.5-7 1993 1 "PHYSICA C,205(1993)139" "Y,BA,CU,O" 6745 SSC0981095 R(300)=8.6mOhm "ErBa2(Cu,Co)3O7" Er1Ba2Cu3O6.94 Er 1 Ba 2 Cu 3 O z 6.94 1 1996 3 Y123 3.82 3.886 11.671 K 90 91.5 93 91.5 "Er2O3,BaCO3,CuO,Co3O4,CaCO3" 1 "mixture-heat(930C,24H in air in Pt crucible)-pellet-SIN(930C,24H in air)-ANN(500C,24H in flowing O2)-cool to RT(1C/min)" INFLUENCE OF HOLE FILLING BY Co AND HOLE DOPING BY Ca ON THE SUPERCONDUCTIVITY OF ErBa2Cu3O7-z 1996 "Department of Physics,Saurashtra University, Rajkot-360005, India" Solid State Commun.98(1996)10095-1098 "Ca, Er, Ba, Cu, O, Co" 6746 SSC0981095 R(300)=9.9mOhm "ErBa2(Ca,Co)3O7" Er1Ba2Cu2.94Co0.06O6.8 Er 1 Ba 2 Cu 2.94 Co 0.06 O z 6.8 1 1996 3 Y123 3.833 3.877 11.655 K 71 73 75 73 "Er2O3,BaCO3,CuO,Co3O4,CaCO3" 1 "mixture-heat(930C,24H in air in Pt crucible)-pellet-SIN(930C,24H in air)-ANN(500C,24H in flowing O2)-cool to RT(1C/min)" INFLUENCE OF HOLE FILLING BY Co AND HOLE DOPING BY Ca ON THE SUPERCONDUCTIVITY OF ErBa2Cu3O7-z 1996 "Department of Physics,Saurashtra University, Rajkot-360005, India" Solid State Commun.98(1996)10095-1098 "Ca, Er, Ba, Cu, O, Co" 6747 SSC0981095 R(300)=67.9mOhm "ErBa2(Ca,Co)3O7" Er1Ba2Cu2.88Co0.12O6.78 Er 1 Ba 2 Cu 2.88 Co 0.12 O z 6.78 1 1996 3 Y123 3.833 3.884 11.663 K 42 46 52 46 "Er2O3,BaCO3,CuO,Co3O4,CaCO3" 1 "mixture-heat(930C,24H in air in Pt crucible)-pellet-SIN(930C,24H in air)-ANN(500C,24H in flowing O2)-cool to RT(1C/min)" INFLUENCE OF HOLE FILLING BY Co AND HOLE DOPING BY Ca ON THE SUPERCONDUCTIVITY OF ErBa2Cu3O7-z 1996 "Department of Physics,Saurashtra University, Rajkot-360005, India" Solid State Commun.98(1996)10095-1098 "Ca, Er, Ba, Cu, O, Co" 6748 SSC0981095 R(300)=101.4mOhm "ErBa2(Cu,Co)3O7" Er1Ba2Cu2.28Co0.18O6.74 Er 1 Ba 2 Cu 2.28 Co 0.18 O z 6.74 1 1996 3 Y123 3.803 3.88 11.665 K 26 34 40 34 "Er2O3,BaCO3,CuO,Co3O4,CaCO3" 1 "mixture-heat(930C,24H in air in Pt crucible)-pellet-SIN(930C,24H in air)-ANN(500C,24H in flowing O2)-cool to RT(1C/min)" INFLUENCE OF HOLE FILLING BY Co AND HOLE DOPING BY Ca ON THE SUPERCONDUCTIVITY OF ErBa2Cu3O7-z 1996 "Department of Physics,Saurashtra University, Rajkot-360005, India" Solid State Commun.98(1996)10095-1098 "Ca, Er, Ba, Cu, O, Co" 6749 SSC0981095 R(300)=188.0mOhm "ErBa2(Cu,Co)3O7" Er1Ba2Cu2.76Co0.24O6.75 Er 1 Ba 2 Cu 2.76 Co 0.24 O z 6.75 1 1996 3 Y123 3.858 3.862 11.672 K 18 31 53 31 "Er2O3,BaCO3,CuO,Co3O4,CaCO3" 1 "mixture-heat(930C,24H in air in Pt crucible)-pellet-SIN(930C,24H in air)-ANN(500C,24H in flowing O2)-cool to RT(1C/min)" INFLUENCE OF HOLE FILLING BY Co AND HOLE DOPING BY Ca ON THE SUPERCONDUCTIVITY OF ErBa2Cu3O7-z 1996 "Department of Physics,Saurashtra University, Rajkot-360005, India" Solid State Commun.98(1996)10095-1098 "Ca, Er, Ba, Cu, O, Co" 6750 SSC0981095 R(300)=57.7mOhm "(Er,Ca)Ba2(Cu,Co)3O7" Er0.94Ca0.06Ba2Cu2.82Co0.18O6.76 Er 0.94 Ca 0.06 Ba 2 Cu 2.82 Co 0.18 O z 6.76 1 1996 3 Y123 3.815 3.879 11.66 K 57 64 71 64 1 "SIN(940C,24H in air)-ANN(550C,24H in flowing O2)-cool to RT(1C/min)" INFLUENCE OF HOLE FILLING BY Co AND HOLE DOPING BY Ca ON THE SUPERCONDUCTIVITY OF ErBa2Cu3O7-z 1996 "Department of Physics,Saurashtra University, Rajkot-360005, India" Solid State Commun.98(1996)10095-1098 "Ca, Er, Ba, Cu, O, Co" 6751 SSC0981095 R(300)=28.6mOhm "(Er,Ca)Ba2(Cu,Co)3O7" Er0.88Ca0.12Ba2Cu2.82Co0.18O6.93 Er 0.88 Ca 0.12 Ba 2 Cu 2.82 Co 0.18 O z 6.93 1 1996 3 Y123 3.823 3.878 11.658 K 72 77.5 83 77.5 1 "SIN(940C,24H in air)-ANN(550C,24H in flowing O2)-cool to RT(1C/min)" INFLUENCE OF HOLE FILLING BY Co AND HOLE DOPING BY Ca ON THE SUPERCONDUCTIVITY OF ErBa2Cu3O7-z 1996 "Department of Physics,Saurashtra University, Rajkot-360005, India" Solid State Commun.98(1996)10095-1098 "Ca, Er, Ba, Cu, O, Co" 6752 SSC0981095 R(300)=13.7mOhm "(Er,Ca)Ba2(Cu,Co)3O7" Er0.82Ca0.18Ba2Cu2.82Co0.18O6.71 Er 0.82 Ca 0.18 Ba 2 Cu 2.82 Co 0.18 O z 6.71 1 1996 3 Y123 3.827 3.875 11.658 K 82 84.5 87 84.5 1 "SIN(940C,24H in air)-ANN(550C,24H in flowing O2)-cool to RT(1C/min)" INFLUENCE OF HOLE FILLING BY Co AND HOLE DOPING BY Ca ON THE SUPERCONDUCTIVITY OF ErBa2Cu3O7-z 1996 "Department of Physics,Saurashtra University, Rajkot-360005, India" Solid State Commun.98(1996)10095-1098 "Ca, Er, Ba, Cu, O, Co" 6753 PLA1960263 "(Y,Pr)(Ba,Sr)2Cu3O7" Y0.8Pr0.2Ba1Sr1Cu3O7-z Y 0.8 Pr 0.2 Ba 1 Sr 1 Cu 3 O 7-z 1994 3 Y123 3.823 3.858 11.572 K 69.1 69.1 1 "mixture-fired(1203-1223K,24H in air)-pellet-SIN(1243-1253K,24H in flowing O2)-ANN(773K,24H)-cool to RT(1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 6754 PLA1960263 "(Y,Pr)(Ba,Sr)2Cu3O7" Y0.6Pr0.4Ba1Sr1Cu3O7-z Y 0.6 Pr 0.4 Ba 1 Sr 1 Cu 3 O 7-z 1994 3 Y123 3.839 3.856 11.574 K 52.4 52.4 1 "mixture-fired(1203-1223K,24H in air)-pellet-SIN(1243-1253K,24H in flowing O2)-ANN(773K,24H)-cool to RT(1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 6755 PLA1960263 "(Y,Pr)(Ba,Sr)2Cu3O7" Y0.5Pr0.5Ba1Sr1Cu3O7-z Y 0.5 Pr 0.5 Ba 1 Sr 1 Cu 3 O 7-z 1994 2 Y123 3.849 11.578 K 32.1 32.1 1 "mixture-fired(1203-1223K,24H in air)-pellet-SIN(1243-1253K,24H in flowing O2)-ANN(773K,24H)-cool to RT(1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 6756 PLA1960263 "(Y,Pr)(Ba,Sr)2Cu3O7" Y0.4Pr0.6Ba1Sr1Cu3O7-z Y 0.4 Pr 0.6 Ba 1 Sr 1 Cu 3 O 7-z 1994 2 Y123 3.854 11.576 K 21.4 21.4 1 "mixture-fired(1203-1223K,24H in air)-pellet-SIN(1243-1253K,24H in flowing O2)-ANN(773K,24H)-cool to RT(1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 6757 PLA1960263 "(Y,Pr)(Ba,Sr)2Cu3O7" Y0.35Pr0.65Ba1Sr1Cu3O7-z Y 0.35 Pr 0.65 Ba 1 Sr 1 Cu 3 O 7-z 1994 2 Y123 K 17.9 17.9 1 "mixture-fired(1203-1223K,24H in air)-pellet-SIN(1243-1253K,24H in flowing O2)-ANN(773K,24H)-cool to RT(1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 6758 PLA1960263 "(Y,Pr)(Ba,Sr)2Cu3O7" Y0.3Pr0.7Ba1Sr1Cu3O7-z Y 0.3 Pr 0.7 Ba 1 Sr 1 Cu 3 O 7-z 1994 2 Y123 3.857 11.581 K 1 "mixture-fired(1203-1223K,24H in air)-pellet-SIN(1243-1253K,24H in flowing O2)-ANN(773K,24H)-cool to RT(1K/min)" Structural properties and superconductivity in the Y1-xPrxBaSrCu3O7-delta system 1994 12 "Department of Applied Chemistry, University of Science and Technology of China, Hefei 2300026, China" "Phys.Lett.A,196(1994)263-266" 6759 PHC2620151 "(Hg,Au)Ba2Ca2Cu3Oz" Hg1Ba2Ca2Cu3Oz Hg 1 Ba 2 Ca 2 Cu 3 O z 1996 2 Hg1223 3.853 15.816 K 132.9 132.9 "precurso(Ba-Ca-Cu-O)+HgO+Au2O3-mixture-seal in Au capsoule-pressure up to 1.8GPA-heat(950C,1.6H)" Gold substitution in mercury cuprate superconductors 1996 5 "Laboratoire de Critallographie CNRS-U.J.F.,BP 166,38042 Grenoble Cedex 9, France" Physica.C.262(1996)151-158 6760 PHC2620151 "(Hg,Au)Ba2Ca2Cu3Oz" Hg0.9Au0.1Ba2Ca2Cu3Oz Hg 0.9 Au 0.1 Ba 2 Ca 2 Cu 3 O z 1996 2 Hg1223 3.85 15.79 K 133 133 "precurso(Ba-Ca-Cu-O)+HgO+Au2O3-mixture-seal in Au capsoule-pressure up to 1.8GPA-heat(950C,1.6H)" Gold substitution in mercury cuprate superconductors 1996 5 "Laboratoire de Critallographie CNRS-U.J.F.,BP 166,38042 Grenoble Cedex 9, France" Physica.C.262(1996)151-158 6761 PHC2620151 "(HG,Au)Ba2Ca2Cu3Oz" Hg0.8Au0.2Ba2Ca2Cu3Oz Hg 0.8 Au 0.2 Ba 2 Ca 2 Cu 3 O z 1996 2 Hg1223 3.846 15.739 K 130.9 130.9 "precurso(Ba-Ca-Cu-O)+HgO+Au2O3-mixture-seal in Au capsoule-pressure up to 1.8GPA-heat(950C,1.6H)" Gold substitution in mercury cuprate superconductors 1996 5 "Laboratoire de Critallographie CNRS-U.J.F.,BP 166,38042 Grenoble Cedex 9, France" Physica.C.262(1996)151-158 6762 PHC2620151 "(Hg,Au)Ba2Ca2Cu3Oz" Hg0.7Au0.3Ba2Ca2Cu3Oz Hg 0.7 Au 0.3 Ba 2 Ca 2 Cu 3 O z 1996 2 Hg1223 3.846 15.704 K 121 121 "precurso(Ba-Ca-Cu-O)+HgO+Au2O3-mixture-seal in Au capsoule-pressure up to 1.8GPA-heat(950C,1.6H)" Gold substitution in mercury cuprate superconductors 1996 5 "Laboratoire de Critallographie CNRS-U.J.F.,BP 166,38042 Grenoble Cedex 9, France" Physica.C.262(1996)151-158 6763 PHC2620151 "(Hg,Au)Ba2Ca2Cu3Oz" Hg0.6Au0.4Ba2Ca2Cu3Oz Hg 0.6 Au 0.4 Ba 2 Ca 2 Cu 3 O z 1996 2 Hg1223 3.843 15.68 K 118 118 "precurso(Ba-Ca-Cu-O)+HgO+Au2O3-mixture-seal in Au capsoule-pressure up to 1.8GPA-heat(950C,1.6H)" Gold substitution in mercury cuprate superconductors 1996 5 "Laboratoire de Critallographie CNRS-U.J.F.,BP 166,38042 Grenoble Cedex 9, France" Physica.C.262(1996)151-158 6764 PHC2620151 "(Hg,Au)Ba2Ca2Cu3Oz" Hg0.5Au0.5Ba2Ca2Cu3Oz Hg 0.5 Au 0.5 Ba 2 Ca 2 Cu 3 O z 1996 2 Hg1223 3.842 15.683 K 100 100 "precurso(Ba-Ca-Cu-O)+HgO+Au2O3-mixture-seal in Au capsoule-pressure up to 1.8GPA-heat(950C,1.6H)" Gold substitution in mercury cuprate superconductors 1996 5 "Laboratoire de Critallographie CNRS-U.J.F.,BP 166,38042 Grenoble Cedex 9, France" Physica.C.262(1996)151-158 6765 PHC2620151 "(Hg,Au)Ba2Ca2Cu3Oz" Hg0.4Au0.6Ba2Ca2Cu3Oz Hg 0.4 Au 0.6 Ba 2 Ca 2 Cu 3 O z 1996 2 Hg1223 3.841 15.694 K 100 100 "precurso(Ba-Ca-Cu-O)+HgO+Au2O3-mixture-seal in Au capsoule-pressure up to 1.8GPA-heat(950C,1.6H)" Gold substitution in mercury cuprate superconductors 1996 5 "Laboratoire de Critallographie CNRS-U.J.F.,BP 166,38042 Grenoble Cedex 9, France" Physica.C.262(1996)151-158 6766 PHC2620261 RBa2Cu4O8 Tm1Ba2Cu4O8 Tm 1 Ba 2 Cu 4 O 8 1996 3 Y124 3.82 3.86 27.187 K 79.6 79.6 "R2O3,BaCO3,CuO" 1 "mixture-CAL(900C,2day in air)-ANN(820C,2-6day in flowing O2)-FC to RT" "Synthesis of bulk superconductors RBa2Cu4O8(R=Tm, Er, Ho, Y, Dy, and Gd) by a simple solid-state rection method" 1996 5 "Department of Applied Chemistry, Faculty of Engineering, Kansai University, Osaka 564, Japan" "Physica.C,262(1996)261-265" "Tm, Er, Ho, Y, Dy, Gd, Ba, Cu, O" 6767 PHC2620261 RBa2Cu4O8 Er1Ba2Cu4O8 Er 1 Ba 2 Cu 4 O 8 1996 3 Y124 3.836 3.869 27.197 K 77.8 77.8 "R2O3,BaCO3,CuO" 1 "mixture-CAL(900C,2day in air)-ANN(820C,2-6day in flowing O2)-FC to RT" "Synthesis of bulk superconductors RBa2Cu4O8(R=Tm, Er, Ho, Y, Dy, and Gd) by a simple solid-state rection method" 1996 5 "Department of Applied Chemistry, Faculty of Engineering, Kansai University, Osaka 564, Japan" "Physica.C,262(1996)261-265" "Tm, Er, Ho, Y, Dy, Gd, Ba, Cu, O" 6768 PHC2620261 RBa2Cu4O8 Ho1Ba2Cu4O8 Ho 1 Ba 2 Cu 4 O 8 1996 3 Y124 3.837 3.867 27.204 K 76.2 76.2 "R2O3,BaCO3,CuO" 1 "mixture-CAL(900C,2day in air)-ANN(820C,2-6day in flowing O2)-FC to RT" "Synthesis of bulk superconductors RBa2Cu4O8(R=Tm, Er, Ho, Y, Dy, and Gd) by a simple solid-state rection method" 1996 5 "Department of Applied Chemistry, Faculty of Engineering, Kansai University, Osaka 564, Japan" "Physica.C,262(1996)261-265" "Tm, Er, Ho, Y, Dy, Gd, Ba, Cu, O" 6769 PHC2620261 RBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1996 3 Y124 3.842 3.871 27.229 K 78.6 78.6 "R2O3,BaCO3,CuO" 1 "mixture-CAL(900C,2day in air)-ANN(820C,2-6day in flowing O2)-FC to RT" "Synthesis of bulk superconductors RBa2Cu4O8(R=Tm, Er, Ho, Y, Dy, and Gd) by a simple solid-state rection method" 1996 5 "Department of Applied Chemistry, Faculty of Engineering, Kansai University, Osaka 564, Japan" "Physica.C,262(1996)261-265" "Tm, Er, Ho, Y, Dy, Gd, Ba, Cu, O" 6770 PHC2620261 RBa2Cu4O8 Dy1Ba2Cu4O8 Dy 1 Ba 2 Cu 4 O 8 1996 3 Y124 3.845 3.87 27.236 K 73.6 73.6 "R2O3,BaCO3,CuO" 1 "mixture-CAL(900C,2day in air)-ANN(820C,2-6day in flowing O2)-FC to RT" "Synthesis of bulk superconductors RBa2Cu4O8(R=Tm, Er, Ho, Y, Dy, and Gd) by a simple solid-state rection method" 1996 5 "Department of Applied Chemistry, Faculty of Engineering, Kansai University, Osaka 564, Japan" "Physica.C,262(1996)261-265" "Tm, Er, Ho, Y, Dy, Gd, Ba, Cu, O" 6771 PHC2620261 RBa2Cu4O8 Gd1Ba2Cu4O8 Gd 1 Ba 2 Cu 4 O 8 1996 3 Y124 3.877 3.899 27.274 K 71.8 71.8 "R2O3,BaCO3,CuO" 1 "mixture-CAL(900C,2day in air)-ANN(820C,2-6day in flowing O2)-FC to RT" "Synthesis of bulk superconductors RBa2Cu4O8(R=Tm, Er, Ho, Y, Dy, and Gd) by a simple solid-state rection method" 1996 5 "Department of Applied Chemistry, Faculty of Engineering, Kansai University, Osaka 564, Japan" "Physica.C,262(1996)261-265" "Tm, Er, Ho, Y, Dy, Gd, Ba, Cu, O" 6772 PHC2630189 TlSr2CaCu2Oz Tl1Sr2Ca1Cu2O6.78 Tl 1 Sr 2 Ca 1 Cu 2 O z 6.78 1996 Tl1212 K annealed in a fllowing Ar or heated in a evacuated quartz tube with Zr-foil getter Cation substitution and deoxygenation effect on superconductivity of Tl-Sr1212 cuprate 1996 "Institute for Materials Reserch, Tohoku University, Katahira, Aoba-ku, Sendai 980-77, Japan" "Physica.C,263(1996)189-192" 6773 PHC2630189 TlSr2CaCu2Oz Tl1Sr2Ca1Cu2O6.76 Tl 1 Sr 2 Ca 1 Cu 2 O z 6.76 1996 Tl1212 K 21 21 annealed in a fllowing Ar or heated in a evacuated quartz tube with Zr-foil getter Cation substitution and deoxygenation effect on superconductivity of Tl-Sr1212 cuprate 1996 "Institute for Materials Reserch, Tohoku University, Katahira, Aoba-ku, Sendai 980-77, Japan" "Physica.C,263(1996)189-192" 6774 PHC2630189 TlSr2CaCu2Oz Tl1Sr2Ca1Cu2O6.75 Tl 1 Sr 2 Ca 1 Cu 2 O z 6.75 1996 Tl1212 K 37 37 annealed in a fllowing Ar or heated in a evacuated quartz tube with Zr-foil getter Cation substitution and deoxygenation effect on superconductivity of Tl-Sr1212 cuprate 1996 "Institute for Materials Reserch, Tohoku University, Katahira, Aoba-ku, Sendai 980-77, Japan" "Physica.C,263(1996)189-192" 6775 PHC2630189 TlSr2CaCu2Oz Tl1Sr2Ca1Cu2O6.74 Tl 1 Sr 2 Ca 1 Cu 2 O z 6.74 1996 Tl1212 K 43 43 annealed in a fllowing Ar or heated in a evacuated quartz tube with Zr-foil getter Cation substitution and deoxygenation effect on superconductivity of Tl-Sr1212 cuprate 1996 "Institute for Materials Reserch, Tohoku University, Katahira, Aoba-ku, Sendai 980-77, Japan" "Physica.C,263(1996)189-192" 6776 PHC2630189 TlSr2CaCu2Oz Tl1Sr2Ca1Cu2O6.68 Tl 1 Sr 2 Ca 1 Cu 2 O z 6.68 1996 Tl1212 K 75 75 annealed in a fllowing Ar or heated in a evacuated quartz tube with Zr-foil getter Cation substitution and deoxygenation effect on superconductivity of Tl-Sr1212 cuprate 1996 "Institute for Materials Reserch, Tohoku University, Katahira, Aoba-ku, Sendai 980-77, Japan" "Physica.C,263(1996)189-192" 6777 PHC2630189 TlSr2CaCu2Oz Tl1Sr2Ca1Cu2O6.61 Tl 1 Sr 2 Ca 1 Cu 2 O z 6.61 1996 Tl1212 K 52 52 annealed in a fllowing Ar or heated in a evacuated quartz tube with Zr-foil getter Cation substitution and deoxygenation effect on superconductivity of Tl-Sr1212 cuprate 1996 "Institute for Materials Reserch, Tohoku University, Katahira, Aoba-ku, Sendai 980-77, Japan" "Physica.C,263(1996)189-192" 6778 PHC2630189 TlSr2CaCu2Oz Tl1Sr2Ca1Cu2O6.58 Tl 1 Sr 2 Ca 1 Cu 2 O z 6.58 1996 Tl1212 K 43 43 annealed in a fllowing Ar or heated in a evacuated quartz tube with Zr-foil getter Cation substitution and deoxygenation effect on superconductivity of Tl-Sr1212 cuprate 1996 "Institute for Materials Reserch, Tohoku University, Katahira, Aoba-ku, Sendai 980-77, Japan" "Physica.C,263(1996)189-192" 6779 PHC2630189 TlSr2CaCu2Oz Tl1Sr2Ca1Cu2O6.52 Tl 1 Sr 2 Ca 1 Cu 2 O z 6.52 1996 Tl1212 K 23 23 annealed in a fllowing Ar or heated in a evacuated quartz tube with Zr-foil getter Cation substitution and deoxygenation effect on superconductivity of Tl-Sr1212 cuprate 1996 "Institute for Materials Reserch, Tohoku University, Katahira, Aoba-ku, Sendai 980-77, Japan" "Physica.C,263(1996)189-192" 6780 PHC2630189 "TlSr2(Ca,Y)Cu2Oz" Tl1Sr2Ca1Cu2O6.78 Tl 1 Sr 2 Ca 1 Cu 2 O z 6.78 1 1996 Tl1212 K 4.2 "CaO,Y2O3,CuO,Sr2CuO3,Tl2O3" 1 "mixture with excess Tl2O3-pellet in Au bags-SIN(910C,12H)-wrapped in Au foil-SIN(920-930C,IH in flowing O2)" Cation substitution and deoxygenation effect on superconductivity of Tl-Sr1212 cuprate 1996 "Institute for Materials Reserch, Tohoku University, Katahira, Aoba-ku, Sendai 980-77, Japan" "Physica.C,263(1996)189-192" 6781 PHC2630189 "TlSr2(Ca,Y)Cu2Oz" Tl1Sr2Ca0.8Y0.2Cu2O6.82 Tl 1 Sr 2 Ca 0.8 Y 0.2 Cu 2 O z 6.82 1 1996 Tl1212 K 85 85 "CaO,Y2O3,CuO,Sr2CuO3,Tl2O3" 1 "mixture with excess Tl2O3-pellet in Au bags-SIN(910C,12H)-wrapped in Au foil-SIN(920-930C,IH in flowing O2)" Cation substitution and deoxygenation effect on superconductivity of Tl-Sr1212 cuprate 1996 "Institute for Materials Reserch, Tohoku University, Katahira, Aoba-ku, Sendai 980-77, Japan" "Physica.C,263(1996)189-192" 6782 PHC2630189 "TlSr2(Ca,Y)Cu2Oz" Tl1Sr2Ca0.7Y0.3Cu2O6.84 Tl 1 Sr 2 Ca 0.7 Y 0.3 Cu 2 O z 6.84 1 1996 Tl1212 K 87 87 "CaO,Y2O3,CuO,Sr2CuO3,Tl2O3" 1 "mixture with excess Tl2O3-pellet in Au bags-SIN(910C,12H)-wrapped in Au foil-SIN(920-930C,IH in flowing O2)" Cation substitution and deoxygenation effect on superconductivity of Tl-Sr1212 cuprate 1996 "Institute for Materials Reserch, Tohoku University, Katahira, Aoba-ku, Sendai 980-77, Japan" "Physica.C,263(1996)189-192" 6783 PHC2630189 "TlSr2(Ca,Y)Cu2Oz" Tl1Sr2Ca0.6Y0.4Cu2O6.86 Tl 1 Sr 2 Ca 0.6 Y 0.4 Cu 2 O z 6.86 1 1996 Tl1212 K 87 87 "CaO,Y2O3,CuO,Sr2CuO3,Tl2O3" 1 "mixture with excess Tl2O3-pellet in Au bags-SIN(910C,12H)-wrapped in Au foil-SIN(920-930C,IH in flowing O2)" Cation substitution and deoxygenation effect on superconductivity of Tl-Sr1212 cuprate 1996 "Institute for Materials Reserch, Tohoku University, Katahira, Aoba-ku, Sendai 980-77, Japan" "Physica.C,263(1996)189-192" 6784 PHC2630189 "TlSr2(Ca,Y)Cu2Oz" Tl1Sr2Ca0.5Y0.5Cu2O6.89 Tl 1 Sr 2 Ca 0.5 Y 0.5 Cu 2 O z 6.89 1 1996 Tl1212 K 92 92 "CaO,Y2O3,CuO,Sr2CuO3,Tl2O3" 1 "mixture with excess Tl2O3-pellet in Au bags-SIN(910C,12H)-wrapped in Au foil-SIN(920-930C,IH in flowing O2)" Cation substitution and deoxygenation effect on superconductivity of Tl-Sr1212 cuprate 1996 "Institute for Materials Reserch, Tohoku University, Katahira, Aoba-ku, Sendai 980-77, Japan" "Physica.C,263(1996)189-192" 6785 PHC2630189 "TlSr2(Ca,Y)Cu2Oz" Tl1Sr2Ca0.4Y0.6Cu2O6.93 Tl 1 Sr 2 Ca 0.4 Y 0.6 Cu 2 O z 6.93 1 1996 Tl1212 K 92 89.1 92 "CaO,Y2O3,CuO,Sr2CuO3,Tl2O3" 1 "mixture with excess Tl2O3-pellet in Au bags-SIN(910C,12H)-wrapped in Au foil-SIN(920-930C,IH in flowing O2)" Cation substitution and deoxygenation effect on superconductivity of Tl-Sr1212 cuprate 1996 "Institute for Materials Reserch, Tohoku University, Katahira, Aoba-ku, Sendai 980-77, Japan" "Physica.C,263(1996)189-192" 6786 PHC2630189 "TlSr2(Ca,Y)Cu2Oz" Tl1Sr2Ca0.3Y0.7Cu2O6.97 Tl 1 Sr 2 Ca 0.3 Y 0.7 Cu 2 O z 6.97 1 1996 Tl1212 K 92 92 "CaO,Y2O3,CuO,Sr2CuO3,Tl2O3" 1 "mixture with excess Tl2O3-pellet in Au bags-SIN(910C,12H)-wrapped in Au foil-SIN(920-930C,IH in flowing O2)" Cation substitution and deoxygenation effect on superconductivity of Tl-Sr1212 cuprate 1996 "Institute for Materials Reserch, Tohoku University, Katahira, Aoba-ku, Sendai 980-77, Japan" "Physica.C,263(1996)189-192" 6787 PHC2630189 "TlSr2(Ca,Y)Cu2Oz" Tl1Sr2Ca0.2Y0.8Cu2O6.97 Tl 1 Sr 2 Ca 0.2 Y 0.8 Cu 2 O z 6.97 1 1996 Tl1212 K 93 93 "CaO,Y2O3,CuO,Sr2CuO3,Tl2O3" 1 "mixture with excess Tl2O3-pellet in Au bags-SIN(910C,12H)-wrapped in Au foil-SIN(920-930C,IH in flowing O2)" Cation substitution and deoxygenation effect on superconductivity of Tl-Sr1212 cuprate 1996 "Institute for Materials Reserch, Tohoku University, Katahira, Aoba-ku, Sendai 980-77, Japan" "Physica.C,263(1996)189-192" 6788 PHC2630189 "TlSr2(Ca,Y)Cu2Oz" Tl1Sr2Ca0.1Y0.9Cu2O6.97 Tl 1 Sr 2 Ca 0.1 Y 0.9 Cu 2 O z 6.97 1 1996 Tl1212 K 87 87 "CaO,Y2O3,CuO,Sr2CuO3,Tl2O3" 1 "mixture with excess Tl2O3-pellet in Au bags-SIN(910C,12H)-wrapped in Au foil-SIN(920-930C,IH in flowing O2)" Cation substitution and deoxygenation effect on superconductivity of Tl-Sr1212 cuprate 1996 "Institute for Materials Reserch, Tohoku University, Katahira, Aoba-ku, Sendai 980-77, Japan" "Physica.C,263(1996)189-192" 6789 PSS1940371 HgBa2Ca2Cu3Oz Hg1Ba2Ca2Cu3Oz Hg 1 Ba 2 Ca 2 Cu 3 O z 1996 2 Hg1223 3.848 15.774 K 119 130 133.7 130 ohm.cm RH6789 "Ba(NO3)2,CaO,CuO,HgO" "precursor(Ba2Ca2Cu3Oz)-ground and mixed with HgO in glove bix in air-pellet-sealed in quaetz tubu-heat to 800C(1K/min),6H)-ANN(300C,6H in O2flow)" Transport Properties of High-Tc Mercury Cuprates 1996 "Department of Physics, University of Colorado, Boulder" "Phys,Stat.Sol.(b)194(1996)371" "Hg, Ba, Ca, Cu, O" 6790 PSS1940371 HgBa2Ca2Cu3Oz Hg1Ba2Ca2Cu3Oz Hg 1 Ba 2 Ca 2 Cu 3 O z 1996 2 Hg1223 3.856 15.883 K 126 132 138 137.8 132 ohm.cm RH6790 "Ba(No3)2,CaO,CuO,HgO" "precursor+Hgo in a glove box in Ar-sealed in quaetz tube-heat(800C,6H)-ANN(300,6H in O2 flow)" Transport Properties of High-Tc Mercury Cuprates 1996 "Department of Physics, University of Colorado, Boulder" "Phys,Stat.Sol.(b)194(1996)371" "Hg, Ba, Ca, Cu, O" 6791 SSC0990413 "YSr2(Cu,Re)3Oz" Y1Sr2Cu2.8Re0.2O6+z Y 1 Sr 2 Cu 2.8 Re 0.2 O 6+z 1 1996 2 Y123 3.813 11.52 K 42 42 "T2O3,Pr2O3,SrCO3,ReO2,CuO" 1 "mixture-CAL(950C,12-18H in air)-pellet-heat(980C,16-24H in air)-FC" "ENHANCEMENT OF Tc IN Y1-xPrxCu2.8Re0.2O6+z(z~1;x=0, 0.75)DUE TO THE ELEVATED OXYGEN PRESSURE ANNEALING" 1996 "Laboratoire de Physique des Solides, CNRS, 92195 Meudon, France" "Solid State 98.,(1996)413" "Y, Pr, CU, Re, O" 6792 SSC0990413 "(Y,Pr)Sr2(Cu,Re)3Oz" Y0.25Pr0.75Sr2Cu2.8Re0.2O6+z Y 0.25 Pr 0.75 Sr 2 Cu 2.8 Re 0.2 O 6+z 1 1996 2 Y123 3.845 11.586 K 5 "T2O3,Pr2O3,SrCO3,ReO2,CuO" 1 "mixture-CAL(950C,12-18H in air)-pellet-heat(980C,16-24H in air)-FC" "ENHANCEMENT OF Tc IN Y1-xPrxCu2.8Re0.2O6+z(z~1;x=0, 0.75)DUE TO THE ELEVATED OXYGEN PRESSURE ANNEALING" 1996 "Laboratoire de Physique des Solides, CNRS, 92195 Meudon, France" "Solid State 98.,(1996)413" "Y, Pr, CU, Re, O" 6793 SSC0990413 "YSr2(Cu,Re)3Oz" Y1Sr2Cu2.8Re0.2O6+z Y 1 Sr 2 Cu 2.8 Re 0.2 O 6+z 1 1996 2 Y123 3.821 11.548 K 55 55 "PREPID=(6791)-ANN(480C,24H under 200bar O2)-slow cool to RT" "ENHANCEMENT OF Tc IN Y1-xPrxCu2.8Re0.2O6+z(z~1;x=0, 0.75)DUE TO THE ELEVATED OXYGEN PRESSURE ANNEALING" 1996 "Laboratoire de Physique des Solides, CNRS, 92195 Meudon, France" "Solid State 98.,(1996)413" "Y, Pr, CU, Re, O" 6794 SSC0990413 "(Y,Ca)Sr2(Cu,Re)3Oz" Y0.25Pr0.75Sr2Cu2.8Re0.2O6+z Y 0.25 Pr 0.75 Sr 2 Cu 2.8 Re 0.2 O 6+z 1 1996 2 Y123 3.854 11.589 K 14 14 "PREPID=(6791)-ANN(480C,24H under 200bar O2)-slow cool to RT" "ENHANCEMENT OF Tc IN Y1-xPrxCu2.8Re0.2O6+z(z~1;x=0, 0.75)DUE TO THE ELEVATED OXYGEN PRESSURE ANNEALING" 1996 "Laboratoire de Physique des Solides, CNRS, 92195 Meudon, France" "Solid State 98.,(1996)413" "Y, Pr, CU, Re, O" 6795 SSC0981095 "ErBa2(Cu,Co)3Oz" Er1Ba2Cu3O6.94 Er 1 Ba 2 Cu 3 O z 6.94 1 1996 3 Y123 3.82 3.886 11.671 K 90 91.5 93 91.5 "Er2O3,BaCO3,CuO,Co3O4,CaCO3" 1 "mixture-heat(930C,24H in air)-ANN(500C,24H in O2flow)-cool to RT(1C/min)" INFLUENCE OF HOLE FILLING BY Co AND HOLE DOPING BY Ca ON THE SUPERCONDUCTIVITY OF ErBa2Cu3O7-z 1996 "Department of Physics,Saurashtra University, Rajkot-360005, India" Solid State Commun.98(1996)10095-1098 "Ca, Er, Ba, Cu, O, Co" 6796 SSC0981095 "ErBa2(Cu,Co)3Oz" Er1Ba2Cu2.94Co0.06O6.8 Er 1 Ba 2 Cu 2.94 Co 0.06 O z 6.8 1 1996 3 Y123 3.833 3.877 11.655 K 71 73 75 73 "Er2O3,BaCO3,CuO,Co3O4,CaCO3" 1 "mixture-heat(930C,24H in air)-ANN(500C,24H in O2flow)-cool to RT(1C/min)" INFLUENCE OF HOLE FILLING BY Co AND HOLE DOPING BY Ca ON THE SUPERCONDUCTIVITY OF ErBa2Cu3O7-z 1996 "Department of Physics,Saurashtra University, Rajkot-360005, India" Solid State Commun.98(1996)10095-1098 "Ca, Er, Ba, Cu, O, Co" 6797 SSC0981095 "ErBa2(Cu,Co)3Oz" Er1Ba2Cu2.88Co0.12O6.78 Er 1 Ba 2 Cu 2.88 Co 0.12 O z 6.78 1 1996 3 Y123 3.833 3.884 11.663 K 42 46 52 46 "Er2O3,BaCO3,CuO,Co3O4,CaCO3" 1 "mixture-heat(930C,24H in air)-ANN(500C,24H in O2flow)-cool to RT(1C/min)" INFLUENCE OF HOLE FILLING BY Co AND HOLE DOPING BY Ca ON THE SUPERCONDUCTIVITY OF ErBa2Cu3O7-z 1996 "Department of Physics,Saurashtra University, Rajkot-360005, India" Solid State Commun.98(1996)10095-1098 "Ca, Er, Ba, Cu, O, Co" 6798 SSC0981095 "ErBa2(Cu,Co)3Oz" Er1Ba2Cu2.82Co0.18O6.74 Er 1 Ba 2 Cu 2.82 Co 0.18 O z 6.74 1 1996 3 Y123 3.803 3.88 11.665 K 26 34 40 34 "Er2O3,BaCO3,CuO,Co3O4,CaCO3" 1 "mixture-heat(930C,24H in air)-ANN(500C,24H in O2flow)-cool to RT(1C/min)" INFLUENCE OF HOLE FILLING BY Co AND HOLE DOPING BY Ca ON THE SUPERCONDUCTIVITY OF ErBa2Cu3O7-z 1996 "Department of Physics,Saurashtra University, Rajkot-360005, India" Solid State Commun.98(1996)10095-1098 "Ca, Er, Ba, Cu, O, Co" 6799 SSC0981095 "ErBa2(Cu,Co)3Oz" Er1Ba2Cu2.76Co0.24O6.75 Er 1 Ba 2 Cu 2.76 Co 0.24 O z 6.75 1 1996 3 Y123 3.858 3.862 11.672 K 18 31 53 31 "Er2O3,BaCO3,CuO,Co3O4,CaCO3" 1 "mixture-heat(930C,24H in air)-ANN(500C,24H in O2flow)-cool to RT(1C/min)" INFLUENCE OF HOLE FILLING BY Co AND HOLE DOPING BY Ca ON THE SUPERCONDUCTIVITY OF ErBa2Cu3O7-z 1996 "Department of Physics,Saurashtra University, Rajkot-360005, India" Solid State Commun.98(1996)10095-1098 "Ca, Er, Ba, Cu, O, Co" 6800 SSC0981095 "(Er,Ca)Ba2(Cu,Co)3Oz" Er0.94Ca0.04Ba2Cu2.82Co0.18O6.76 Er 0.94 Ca 0.04 Ba 2 Cu 2.82 Co 0.18 O z 6.76 1 1996 3 Y123 3.815 3.879 11.66 K 57 64 71 64 1 "SIN(940C,24H in air)-ANN(550C,24H in O2 flow)-cool to RT (1C/min)" INFLUENCE OF HOLE FILLING BY Co AND HOLE DOPING BY Ca ON THE SUPERCONDUCTIVITY OF ErBa2Cu3O7-z 1996 "Department of Physics,Saurashtra University, Rajkot-360005, India" Solid State Commun.98(1996)10095-1098 "Ca, Er, Ba, Cu, O, Co" 6801 SSC0981095 "(Er,Ca)Ba2(Cu,Co)3Oz" Er0.88Ca0.12Ba2Cu2.28Co0.18O6.93 Er 0.88 Ca 0.12 Ba 2 Cu 2.28 Co 0.18 O z 6.93 1 1996 3 Y123 3.823 3.878 11.658 K 72 77.5 83 77.5 1 "SIN(940C,24H in air)-ANN(550C,24H in O2 flow)-cool to RT (1C/min)" INFLUENCE OF HOLE FILLING BY Co AND HOLE DOPING BY Ca ON THE SUPERCONDUCTIVITY OF ErBa2Cu3O7-z 1996 "Department of Physics,Saurashtra University, Rajkot-360005, India" Solid State Commun.98(1996)10095-1098 "Ca, Er, Ba, Cu, O, Co" 6802 SSC0981095 "(Er,Ca)Ba2(Cu,Co)3Oz" Er0.82Ca0.18Ba2Cu2.82Co0.18O6.71 Er 0.82 Ca 0.18 Ba 2 Cu 2.82 Co 0.18 O z 6.71 1 1996 3 Y123 3.827 3.875 11.658 K 82 84.5 87 84.5 1 "SIN(940C,24H in air)-ANN(550C,24H in O2 flow)-cool to RT (1C/min)" INFLUENCE OF HOLE FILLING BY Co AND HOLE DOPING BY Ca ON THE SUPERCONDUCTIVITY OF ErBa2Cu3O7-z 1996 "Department of Physics,Saurashtra University, Rajkot-360005, India" Solid State Commun.98(1996)10095-1098 "Ca, Er, Ba, Cu, O, Co" 6803 SSC0980185 Hirr=A*(1-T/Tc)^3.62 "HgBa2(Ca,Sr)2Cu3O8" Hg1Ba2Ca1.72Sr0.28Cu3O8+z Hg 1 Ba 2 Ca 1.72 Sr 0.28 Cu 3 O 8+z 1996 2 Hg1223 3.86 16.085 K HIR6803 "HgO,TlO3,Ba2CuO3,Ca0.86Sr0.14CuO2" "See Mater,Res.Bull.29(1994)959" CRITICAL CURRENTS AND IRREVERSIBILITY LINES IN Hg1-xTlxBa2 (Ca0.86Sr0.14)2Cu3O8+z 1996 "Korea Research Institute of Standards and Science, Yusung, P.O. Box 102,Taejon, 305-600,South Korea" Solid State Commun.98(1996)185-188 "Hg, Tl, Ba, Ca, Sr, Cu, O" 6804 SSC0980185 Hirr=A*(1-T/Tc)^2.6 "(Hg,Tl)Ba2(Ca,Sr)2Cu3O8" Hg0.75Tl0.25Ba2Ca1.72Sr0.28Cu3O8+z Hg 0.75 Tl 0.25 Ba 2 Ca 1.72 Sr 0.28 Cu 3 O 8+z 1996 2 Hg1223 3.855 15.921 K HIR6804 "HgO,TlO3,Ba2CuO3,Ca0.86Sr0.14CuO2" "See Mater,Res.Bull.29(1994)959" CRITICAL CURRENTS AND IRREVERSIBILITY LINES IN Hg1-xTlxBa2 (Ca0.86Sr0.14)2Cu3O8+z 1996 "Korea Research Institute of Standards and Science, Yusung, P.O. Box 102,Taejon, 305-600,South Korea" Solid State Commun.98(1996)185-188 "Hg, Tl, Ba, Ca, Sr, Cu, O" 6805 SSC0980185 Hirr=A*(1-T/Tc)^2.51 "(Hg,Tl)Ba2(Ca,Sr)2Cu3O8" Hg0.5Tl0.5Ba2Ca1.72Sr0.28Cu3O8+z Hg 0.5 Tl 0.5 Ba 2 Ca 1.72 Sr 0.28 Cu 3 O 8+z 1996 2 Hg1223 3.85 15.874 K HIR6805 "HgO,TlO3,Ba2CuO3,Ca0.86Sr0.14CuO2" "See Mater,Res.Bull.29(1994)959" CRITICAL CURRENTS AND IRREVERSIBILITY LINES IN Hg1-xTlxBa2 (Ca0.86Sr0.14)2Cu3O8+z 1996 "Korea Research Institute of Standards and Science, Yusung, P.O. Box 102,Taejon, 305-600,South Korea" Solid State Commun.98(1996)185-188 "Hg, Tl, Ba, Ca, Sr, Cu, O" 6806 SSC0980185 Hirr=A*(1-T/Tc)^2.41 "(Hg,Tl)Ba2(Ca,Sr)2Cu3O8" Hg0.25Tl0.75Ba2Ca1.72Sr0.28Cu3O8+z Hg 0.25 Tl 0.75 Ba 2 Ca 1.72 Sr 0.28 Cu 3 O 8+z 1996 2 Hg1223 3.846 15.832 K HIR6806 "HgO,TlO3,Ba2CuO3,Ca0.86Sr0.14CuO2" "See Mater,Res.Bull.29(1994)959" CRITICAL CURRENTS AND IRREVERSIBILITY LINES IN Hg1-xTlxBa2 (Ca0.86Sr0.14)2Cu3O8+z 1996 "Korea Research Institute of Standards and Science, Yusung, P.O. Box 102,Taejon, 305-600,South Korea" Solid State Commun.98(1996)185-188 "Hg, Tl, Ba, Ca, Sr, Cu, O" 6807 SSC0980031 ErBa2Cu3O7 Er1Ba2Cu3O7-z Er 1 Ba 2 Cu 3 O 7-z 1 1996 Y123 K 91.8 91.8 SP6807 mJ/mole.K 4.4 "Er2O3, Y2O3, BaCO3, CuO" 1 "See Phys,Stat,Sol.(a)116(1989)367" SPECIFIC HEAT OF Er1-xYxBa2Cu3O7-z. AN OBSERVATION OF CRYSTALLINE ELECTRIC FIELD CONTRIBUTION 1996 "Institute of Low Temperature and Structure Reserch,Polish Academy of Sciences,P.O.Box 937,50-950 Wroclow 2 Poland" Solid State Commun.98(1996)31-34 "Er, Y, Ba, Cu, O" 6808 SSC0980031 "(Er,Y)Ba2Cu3O7" Er0.5Y0.5Ba2Cu3O7-z Er 0.5 Y 0.5 Ba 2 Cu 3 O 7-z 1 1996 Y123 K 91.8 91.8 SP6808 mJ/mole.K 3.2 "Er2O3, Y2O3, BaCO3, CuO" 1 "See Phys,Stat,Sol.(a)116(1989)367" SPECIFIC HEAT OF Er1-xYxBa2Cu3O7-z. AN OBSERVATION OF CRYSTALLINE ELECTRIC FIELD CONTRIBUTION 1996 "Institute of Low Temperature and Structure Reserch,Polish Academy of Sciences,P.O.Box 937,50-950 Wroclow 2 Poland" Solid State Commun.98(1996)31-34 "Er, Y, Ba, Cu, O" 6809 SSC0980031 YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 1 1996 Y123 K 91 91 SP6809 mJ/mole.K 3.6 "Er2O3, Y2O3, BaCO3, CuO" 1 "See Phys,Stat,Sol.(a)116(1989)367" SPECIFIC HEAT OF Er1-xYxBa2Cu3O7-z. AN OBSERVATION OF CRYSTALLINE ELECTRIC FIELD CONTRIBUTION 1996 "Institute of Low Temperature and Structure Reserch,Polish Academy of Sciences,P.O.Box 937,50-950 Wroclow 2 Poland" Solid State Commun.98(1996)31-34 "Er, Y, Ba, Cu, O" 6810 PLA2070109 Tc and Meissner effect were measured by ESR PrBa2Cu3O7 Pr1Ba2Cu3O7 Pr 1 Ba 2 Cu 3 O 7 4 1995 Y123 K 90 20 90 7 film was deposited from 99.9% pure material onto 640C (100)MgO substrate Superconductivity in PrBa2Cu3O7 1995 10 "Department of Physics, University of Notre Dame, Notre Dame, IN 46556, USA" "Phys,Lett.A,207(1995)109-112" "Pr, Ba, Cu, O" 6811 PLA2080257 "Y(Ba,Sr)Cu3O7" Y1Ba1Sr1Cu3O6.91 Y 1 Ba 1 Sr 1 Cu 3 O z 6.91 1995 Y123 K 81 81 "Y2O3, BaCO3, SrCO3, CUO, SnO2" See Sold State Commun.75(1990)629 Lacalisation of Cu2+ states by Sn4+ ions in the YBaSrCu3Oy system 1995 10 "Superconductivity Research Group,School of Materials Science and Engineering, University of NewSouth Wales,Sydney,NSW 2052,Australia" "Phys.Lett.A,208(1995)257-260" "Y, Ba, Sr, Cu, O, Sm" 6812 PLA2080257 "Y(Ba,Sr)2(Cu,Sn)3Oz" Y1Ba1Sr1Cu2.975Sn0.025O6.92 Y 1 Ba 1 Sr 1 Cu 2.975 Sn 0.025 O z 6.92 1995 Y123 K 77 77 "Y2O3, BaCO3, SrCO3, CUO, SnO2" See Sold State Commun.75(1990)629 Lacalisation of Cu2+ states by Sn4+ ions in the YBaSrCu3Oy system 1995 10 "Superconductivity Research Group,School of Materials Science and Engineering, University of NewSouth Wales,Sydney,NSW 2052,Australia" "Phys.Lett.A,208(1995)257-260" "Y, Ba, Sr, Cu, O, Sm" 6813 PLA2080257 "Y(Ba,Sr)2(Cu,Sn)3Oz" Y1Ba1Sr1Cu2.95Sn0.05O6.96 Y 1 Ba 1 Sr 1 Cu 2.95 Sn 0.05 O z 6.96 1995 Y123 K 73.7 73.7 "Y2O3, BaCO3, SrCO3, CUO, SnO2" See Sold State Commun.75(1990)629 Lacalisation of Cu2+ states by Sn4+ ions in the YBaSrCu3Oy system 1995 10 "Superconductivity Research Group,School of Materials Science and Engineering, University of NewSouth Wales,Sydney,NSW 2052,Australia" "Phys.Lett.A,208(1995)257-260" "Y, Ba, Sr, Cu, O, Sm" 6814 PLA2080257 "Y(Ba,Sr)2(Cu,Sn)3Oz" Y1Ba1Sr1Cu2.9Sn0.1O7 Y 1 Ba 1 Sr 1 Cu 2.9 Sn 0.1 O z 7 1995 Y123 K 69.1 69.1 "Y2O3, BaCO3, SrCO3, CUO, SnO2" See Sold State Commun.75(1990)629 Lacalisation of Cu2+ states by Sn4+ ions in the YBaSrCu3Oy system 1995 10 "Superconductivity Research Group,School of Materials Science and Engineering, University of NewSouth Wales,Sydney,NSW 2052,Australia" "Phys.Lett.A,208(1995)257-260" "Y, Ba, Sr, Cu, O, Sm" 6815 PLA2080257 "Y(Ba,Sr)2(Cu,Sn)3Oz" Y1Ba1Sr1Cu2.85Sn0.15O7.06 Y 1 Ba 1 Sr 1 Cu 2.85 Sn 0.15 O z 7.06 1995 Y123 K 63.8 63.8 "Y2O3, BaCO3, SrCO3, CUO, SnO2" See Sold State Commun.75(1990)629 Lacalisation of Cu2+ states by Sn4+ ions in the YBaSrCu3Oy system 1995 10 "Superconductivity Research Group,School of Materials Science and Engineering, University of NewSouth Wales,Sydney,NSW 2052,Australia" "Phys.Lett.A,208(1995)257-260" "Y, Ba, Sr, Cu, O, Sm" 6816 PLA2080257 "Y(Ba,Sr)2(Cu,Sn)3Oz" Y1Ba1Sr1Cu2.8Sn0.2O7.12 Y 1 Ba 1 Sr 1 Cu 2.8 Sn 0.2 O z 7.12 1995 Y123 K 49.8 49.8 "Y2O3, BaCO3, SrCO3, CUO, SnO2" See Sold State Commun.75(1990)629 Lacalisation of Cu2+ states by Sn4+ ions in the YBaSrCu3Oy system 1995 10 "Superconductivity Research Group,School of Materials Science and Engineering, University of NewSouth Wales,Sydney,NSW 2052,Australia" "Phys.Lett.A,208(1995)257-260" "Y, Ba, Sr, Cu, O, Sm" 6817 PLA2080257 "Y(Ba,Sr)2(Cu,Sn)3Oz" Y1Ba1Sr1Cu2.75Sn0.25O7.16 Y 1 Ba 1 Sr 1 Cu 2.75 Sn 0.25 O z 7.16 1995 Y123 K 40.9 40.9 "Y2O3, BaCO3, SrCO3, CUO, SnO2" See Sold State Commun.75(1990)629 Lacalisation of Cu2+ states by Sn4+ ions in the YBaSrCu3Oy system 1995 10 "Superconductivity Research Group,School of Materials Science and Engineering, University of NewSouth Wales,Sydney,NSW 2052,Australia" "Phys.Lett.A,208(1995)257-260" "Y, Ba, Sr, Cu, O, Sm" 6818 SSC0980395 "(Y,Ca)Ba2Cu3Oz" Y0.9Ca0.1Ba2Cu3O6.59 Y 0.9 Ca 0.1 Ba 2 Cu 3 O z 6.59 1 1996 Y123 K 68.8 68.8 K/GPa 8.4 ohm.cm 7 RH6818 "Y2O3, CaCO3, BaCO3, CuO" 1 "mixture-fired(900C,6H in air)-pellet-heat(930-940C,10-15H in flowing Oz)-ANN(appropriete temp.in flowing O2)-Q to 77K" EFFECTS OF OXYGEN DOPING AND PRESSURE ON SUPERCONDUCTING TRANSITION TEMPERATUREIN Y0.9Ca0.1Ba2Cu3Oy 1996 "Department of Physics, Asahikawa Medical College,Asahikawa 078, Japan" Solid state Commun.98(1996)395-399 "Y, Ca, Ba, Cu, O" 6819 SSC0980395 "(Y,Ca)Ba2Cu3Oz" Y0.9Ca0.1Ba2Cu3O6.72 Y 0.9 Ca 0.1 Ba 2 Cu 3 O z 6.72 1 1996 Y123 K 82.6 82.6 K/GPa 4.6 ohm.cm RH6819 "Y2O3, CaCO3, BaCO3, CuO" 1 "mixture-fired(900C,6H in air)-pellet-heat(930-940C,10-15H in flowing Oz)-ANN(appropriete temp.in flowing O2)-Q to 77K" EFFECTS OF OXYGEN DOPING AND PRESSURE ON SUPERCONDUCTING TRANSITION TEMPERATUREIN Y0.9Ca0.1Ba2Cu3Oy 1996 "Department of Physics, Asahikawa Medical College,Asahikawa 078, Japan" Solid state Commun.98(1996)395-399 "Y, Ca, Ba, Cu, O" 6820 SSC0980395 "(Y,Ca)Ba2Cu3Oz" Y0.9Ca0.1Ba2Cu3O6.87 Y 0.9 Ca 0.1 Ba 2 Cu 3 O z 6.87 1 1996 Y123 K 85.4 85.4 K/GPa 2.4 ohm.cm RH6820 "Y2O3, CaCO3, BaCO3, CuO" 1 "mixture-fired(900C,6H in air)-pellet-heat(930-940C,10-15H in flowing Oz)-ANN(appropriete temp.in flowing O2)-Q to 77K" EFFECTS OF OXYGEN DOPING AND PRESSURE ON SUPERCONDUCTING TRANSITION TEMPERATUREIN Y0.9Ca0.1Ba2Cu3Oy 1996 "Department of Physics, Asahikawa Medical College,Asahikawa 078, Japan" Solid state Commun.98(1996)395-399 "Y, Ca, Ba, Cu, O" 6821 SSC0980395 "(Y,Ca)Ba2Cu3Oz" Y0.9Ca0.1Ba2Cu3O6.98 Y 0.9 Ca 0.1 Ba 2 Cu 3 O z 6.98 1 1996 Y123 K 81.8 81.8 ohm.cm RH6821 "Y2O3, CaCO3, BaCO3, CuO" 1 "mixture-fired(900C,6H in air)-pellet-heat(930-940C,10-15H in flowing Oz)-ANN(appropriete temp.in flowing O2)-Q to 77K" EFFECTS OF OXYGEN DOPING AND PRESSURE ON SUPERCONDUCTING TRANSITION TEMPERATUREIN Y0.9Ca0.1Ba2Cu3Oy 1996 "Department of Physics, Asahikawa Medical College,Asahikawa 078, Japan" Solid state Commun.98(1996)395-399 "Y, Ca, Ba, Cu, O" 6822 SSC0980333 HgBa2CuO4 Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1996 2 Hg1201 3.877 9.513 K 87 87 1 "precursor(Ba2CuO3)+HgO+CeO2-mixture-pellet-seald in quartz tubu-heat(850C,5H)-cool to RT(150C/H)" SUPERCONDUCTING PROPERTIES OF Ce-SUBSTITUTED HgBa2CuO4+z 1996 "Institute for Pure and Applied Physical Sciences, University of California, San Diego,La Jolla,CA 92093,U.S.A." Solid State Commun.98(1996)333-336 "Hg, Ba, Cu, O, Ce" 6823 SSC0980333 "(Hg,Ce)Ba2CuO4" Hg0.95Ce0.05Ba2Cu1O4+z Hg 0.95 Ce 0.05 Ba 2 Cu 1 O 4+z 1996 2 Hg1201 3.887 9.521 K 92 94 94 94 1 "precursor(Ba2CuO3)+HgO+CeO2-mixture-pellet-seald in quartz tubu-heat(850C,5H)-cool to RT(150C/H)" SUPERCONDUCTING PROPERTIES OF Ce-SUBSTITUTED HgBa2CuO4+z 1996 "Institute for Pure and Applied Physical Sciences, University of California, San Diego,La Jolla,CA 92093,U.S.A." Solid State Commun.98(1996)333-336 "Hg, Ba, Cu, O, Ce" 6824 SSC0980333 "(Hg,Ce)Ba2CuO4" Hg0.9Ce0.1Ba2Cu1O4+z Hg 0.9 Ce 0.1 Ba 2 Cu 1 O 4+z 1996 2 Hg1201 3.885 9.53 K 96 96 1 "precursor(Ba2CuO3)+HgO+CeO2-mixture-pellet-seald in quartz tubu-heat(850C,5H)-cool to RT(150C/H)" SUPERCONDUCTING PROPERTIES OF Ce-SUBSTITUTED HgBa2CuO4+z 1996 "Institute for Pure and Applied Physical Sciences, University of California, San Diego,La Jolla,CA 92093,U.S.A." Solid State Commun.98(1996)333-336 "Hg, Ba, Cu, O, Ce" 6825 SSC0980333 "(Hg,Ce)Ba2CuO4" Hg0.8Ce0.2Ba2Cu1O4+z Hg 0.8 Ce 0.2 Ba 2 Cu 1 O 4+z 1996 2 Hg1201 3.885 9.528 K 75 94 94 94 1 "precursor(Ba2CuO3)+HgO+CeO2-mixture-pellet-seald in quartz tubu-heat(850C,5H)-cool to RT(150C/H)" SUPERCONDUCTING PROPERTIES OF Ce-SUBSTITUTED HgBa2CuO4+z 1996 "Institute for Pure and Applied Physical Sciences, University of California, San Diego,La Jolla,CA 92093,U.S.A." Solid State Commun.98(1996)333-336 "Hg, Ba, Cu, O, Ce" 6826 SSC0980333 "(Hg,Ce)Ba2CuO4" Hg0.7Ce0.3Ba2Cu1O4+z Hg 0.7 Ce 0.3 Ba 2 Cu 1 O 4+z 1996 2 Hg1201 3.886 9.531 K 94 94 1 "precursor(Ba2CuO3)+HgO+CeO2-mixture-pellet-seald in quartz tubu-heat(850C,5H)-cool to RT(150C/H)" SUPERCONDUCTING PROPERTIES OF Ce-SUBSTITUTED HgBa2CuO4+z 1996 "Institute for Pure and Applied Physical Sciences, University of California, San Diego,La Jolla,CA 92093,U.S.A." Solid State Commun.98(1996)333-336 "Hg, Ba, Cu, O, Ce" 6828 SSC0980971 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.98Ni0.02O8 Y 1 Ba 2 Cu 3.98 Ni 0.02 O 8 1996 3 Y124 3.84 3.869 27.224 K 74 74 "Y2O3, BaO, CuO, NiO, ZnO" "mixture-CAL(650C,750C,880C, 24H in air)-pellet-SIN(950C,16H in O2)-ANN(500C,16H in O2)-ANN(990C,48H under 100bar O2)" EVIDENCE FOR CHAIN SITE SUBSTTUTION OF NICKEL IN YBa2(Cu1-xNix)4O8 1996 "Department of Physics, University of Missouri, Columbia, MO 65211" "Solid State Commun.,98(1996)971" "Zn, Y, Ba, Cu, Ni, O" 6829 SSC0980971 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.97Ni0.03O8 Y 1 Ba 2 Cu 3.97 Ni 0.03 O 8 1996 3 Y124 K 70.4 70.4 "Y2O3, BaO, CuO, NiO, ZnO" "mixture-CAL(650C,750C,880C, 24H in air)-pellet-SIN(950C,16H in O2)-ANN(500C,16H in O2)-ANN(990C,48H under 100bar O2)" EVIDENCE FOR CHAIN SITE SUBSTTUTION OF NICKEL IN YBa2(Cu1-xNix)4O8 1996 "Department of Physics, University of Missouri, Columbia, MO 65211" "Solid State Commun.,98(1996)971" "Zn, Y, Ba, Cu, Ni, O" 6830 SSC0980971 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.96Ni0.04O8 Y 1 Ba 2 Cu 3.96 Ni 0.04 O 8 1996 3 Y124 K 68.2 68.2 "Y2O3, BaO, CuO, NiO, ZnO" "mixture-CAL(650C,750C,880C, 24H in air)-pellet-SIN(950C,16H in O2)-ANN(500C,16H in O2)-ANN(990C,48H under 100bar O2)" EVIDENCE FOR CHAIN SITE SUBSTTUTION OF NICKEL IN YBa2(Cu1-xNix)4O8 1996 "Department of Physics, University of Missouri, Columbia, MO 65211" "Solid State Commun.,98(1996)971" "Zn, Y, Ba, Cu, Ni, O" 6831 SSC0980971 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.939Ni0.061O8 Y 1 Ba 2 Cu 3.939 Ni 0.061 O 8 1996 3 Y124 3.839 3.87 27.201 K 63.5 63.5 "Y2O3, BaO, CuO, NiO, ZnO" "mixture-CAL(650C,750C,880C, 24H in air)-pellet-SIN(950C,16H in O2)-ANN(500C,16H in O2)-ANN(990C,48H under 100bar O2)" EVIDENCE FOR CHAIN SITE SUBSTTUTION OF NICKEL IN YBa2(Cu1-xNix)4O8 1996 "Department of Physics, University of Missouri, Columbia, MO 65211" "Solid State Commun.,98(1996)971" "Zn, Y, Ba, Cu, Ni, O" 6832 SSC0980971 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.92Ni0.08O8 Y 1 Ba 2 Cu 3.92 Ni 0.08 O 8 1996 3 Y124 K 55.1 55.1 "Y2O3, BaO, CuO, NiO, ZnO" "mixture-CAL(650C,750C,880C, 24H in air)-pellet-SIN(950C,16H in O2)-ANN(500C,16H in O2)-ANN(990C,48H under 100bar O2)" EVIDENCE FOR CHAIN SITE SUBSTTUTION OF NICKEL IN YBa2(Cu1-xNix)4O8 1996 "Department of Physics, University of Missouri, Columbia, MO 65211" "Solid State Commun.,98(1996)971" "Zn, Y, Ba, Cu, Ni, O" 6833 SSC0980971 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.9Ni0.1O8 Y 1 Ba 2 Cu 3.9 Ni 0.1 O 8 1996 3 Y124 3.839 3.872 27.187 K 52.6 52.6 "Y2O3, BaO, CuO, NiO, ZnO" "mixture-CAL(650C,750C,880C, 24H in air)-pellet-SIN(950C,16H in O2)-ANN(500C,16H in O2)-ANN(990C,48H under 100bar O2)" EVIDENCE FOR CHAIN SITE SUBSTTUTION OF NICKEL IN YBa2(Cu1-xNix)4O8 1996 "Department of Physics, University of Missouri, Columbia, MO 65211" "Solid State Commun.,98(1996)971" "Zn, Y, Ba, Cu, Ni, O" 6834 SSC0980971 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.8Ni0.2O8 Y 1 Ba 2 Cu 3.8 Ni 0.2 O 8 1996 3 Y124 3.841 3.874 27.185 K 21 21 "Y2O3, BaO, CuO, NiO, ZnO" "mixture-CAL(650C,750C,880C, 24H in air)-pellet-SIN(950C,16H in O2)-ANN(500C,16H in O2)-ANN(990C,48H under 100bar O2)" EVIDENCE FOR CHAIN SITE SUBSTTUTION OF NICKEL IN YBa2(Cu1-xNix)4O8 1996 "Department of Physics, University of Missouri, Columbia, MO 65211" "Solid State Commun.,98(1996)971" "Zn, Y, Ba, Cu, Ni, O" 6835 SSC0980971 YBa2Cu4O8 Y1Ba2Cu1O8 Y 1 Ba 2 Cu 1 O 8 1996 3 Y124 3.842 3.87 27.194 K 80 80 "Y2O3, BaO, CuO, NiO, ZnO" "mixture-CAL(650C,750C,880C, 24H in air)-pellet-SIN(950C,16H in O2)-ANN(500C,16H in O2)-ANN(990C,48H under 100bar O2)" EVIDENCE FOR CHAIN SITE SUBSTTUTION OF NICKEL IN YBa2(Cu1-xNix)4O8 1996 "Department of Physics, University of Missouri, Columbia, MO 65211" "Solid State Commun.,98(1996)971" "Zn, Y, Ba, Cu, Ni, O" 6836 SSC0980971 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.992Zn0.008O8 Y 1 Ba 2 Cu 3.992 Zn 0.008 O 8 1996 3 Y124 K 74 74 "Y2O3, BaO, CuO, NiO, ZnO" "mixture-CAL(650C,750C,880C, 24H in air)-pellet-SIN(950C,16H in O2)-ANN(500C,16H in O2)-ANN(990C,48H under 100bar O2)" EVIDENCE FOR CHAIN SITE SUBSTTUTION OF NICKEL IN YBa2(Cu1-xNix)4O8 1996 "Department of Physics, University of Missouri, Columbia, MO 65211" "Solid State Commun.,98(1996)971" "Zn, Y, Ba, Cu, Ni, O" 6837 SSC0980971 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.98Zn0.02O8 Y 1 Ba 2 Cu 3.98 Zn 0.02 O 8 1996 3 Y124 3.869 3.838 27.212 K 67 67 "Y2O3, BaO, CuO, NiO, ZnO" "mixture-CAL(650C,750C,880C, 24H in air)-pellet-SIN(950C,16H in O2)-ANN(500C,16H in O2)-ANN(990C,48H under 100bar O2)" EVIDENCE FOR CHAIN SITE SUBSTTUTION OF NICKEL IN YBa2(Cu1-xNix)4O8 1996 "Department of Physics, University of Missouri, Columbia, MO 65211" "Solid State Commun.,98(1996)971" "Zn, Y, Ba, Cu, Ni, O" 6838 SSC0980971 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.96Zn0.04O8 Y 1 Ba 2 Cu 3.96 Zn 0.04 O 8 1996 3 Y124 3.871 3.84 27.211 K 57.6 57.6 "Y2O3, BaO, CuO, NiO, ZnO" "mixture-CAL(650C,750C,880C, 24H in air)-pellet-SIN(950C,16H in O2)-ANN(500C,16H in O2)-ANN(990C,48H under 100bar O2)" EVIDENCE FOR CHAIN SITE SUBSTTUTION OF NICKEL IN YBa2(Cu1-xNix)4O8 1996 "Department of Physics, University of Missouri, Columbia, MO 65211" "Solid State Commun.,98(1996)971" "Zn, Y, Ba, Cu, Ni, O" 6839 SSC0980971 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.938Zn0.062O8 Y 1 Ba 2 Cu 3.938 Zn 0.062 O 8 1996 3 Y124 3.872 3.841 27.21 K 47 47 "Y2O3, BaO, CuO, NiO, ZnO" "mixture-CAL(650C,750C,880C, 24H in air)-pellet-SIN(950C,16H in O2)-ANN(500C,16H in O2)-ANN(990C,48H under 100bar O2)" EVIDENCE FOR CHAIN SITE SUBSTTUTION OF NICKEL IN YBa2(Cu1-xNix)4O8 1996 "Department of Physics, University of Missouri, Columbia, MO 65211" "Solid State Commun.,98(1996)971" "Zn, Y, Ba, Cu, Ni, O" 6840 SSC0980971 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.92Zn0.08O8 Y 1 Ba 2 Cu 3.92 Zn 0.08 O 8 1996 3 Y124 K 36.7 36.7 "Y2O3, BaO, CuO, NiO, ZnO" "mixture-CAL(650C,750C,880C, 24H in air)-pellet-SIN(950C,16H in O2)-ANN(500C,16H in O2)-ANN(990C,48H under 100bar O2)" EVIDENCE FOR CHAIN SITE SUBSTTUTION OF NICKEL IN YBa2(Cu1-xNix)4O8 1996 "Department of Physics, University of Missouri, Columbia, MO 65211" "Solid State Commun.,98(1996)971" "Zn, Y, Ba, Cu, Ni, O" 6841 SSC0980971 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.9Zn0.1O8 Y 1 Ba 2 Cu 3.9 Zn 0.1 O 8 1996 3 Y124 3.873 3.841 27.207 K 22.4 22.4 "Y2O3, BaO, CuO, NiO, ZnO" "mixture-CAL(650C,750C,880C, 24H in air)-pellet-SIN(950C,16H in O2)-ANN(500C,16H in O2)-ANN(990C,48H under 100bar O2)" EVIDENCE FOR CHAIN SITE SUBSTTUTION OF NICKEL IN YBa2(Cu1-xNix)4O8 1996 "Department of Physics, University of Missouri, Columbia, MO 65211" "Solid State Commun.,98(1996)971" "Zn, Y, Ba, Cu, Ni, O" 6842 SSC0980971 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.848Zn0.152O8 Y 1 Ba 2 Cu 3.848 Zn 0.152 O 8 1996 3 Y124 K 5 "Y2O3, BaO, CuO, NiO, ZnO" "mixture-CAL(650C,750C,880C, 24H in air)-pellet-SIN(950C,16H in O2)-ANN(500C,16H in O2)-ANN(990C,48H under 100bar O2)" EVIDENCE FOR CHAIN SITE SUBSTTUTION OF NICKEL IN YBa2(Cu1-xNix)4O8 1996 "Department of Physics, University of Missouri, Columbia, MO 65211" "Solid State Commun.,98(1996)971" "Zn, Y, Ba, Cu, Ni, O" 6843 PHC2690005 Sr2RCu2O5F Sr2Yb1Cu2F1O5 Sr 2 Yb 1 Cu 2 F 1 O 5 1 1996 2126 3.834 19.764 K "R2O3, CuO, SrO2,SrF2, CaCuCO3,SrCuo2,Ca2" 1 "mixture-seald in Au capsule-(1300c,6GPa,1H)-Q to RT" "Synthesis,crystal structures and superconductivity of new copper oxyfluorides,Sr2RCu2O5F(R=Y,La,Nd,Sm,Gd,Dy,Er and Yd)" 1996 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" "Physica.C,269(1996)5-14" "Sr, R, Cu, O, F" 6844 PHC2690005 Sr2RCu2O5F Sr2Er1Cu2F1O5 Sr 2 Er 1 Cu 2 F 1 O 5 1 1996 2126 3.838 19.787 K "R2O3, CuO, SrO2,SrF2, CaCuCO3,SrCuo2,Ca2" 1 "mixture-seald in Au capsule-(1300c,6GPa,1H)-Q to RT" "Synthesis,crystal structures and superconductivity of new copper oxyfluorides,Sr2RCu2O5F(R=Y,La,Nd,Sm,Gd,Dy,Er and Yd)" 1996 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" "Physica.C,269(1996)5-14" "Sr, R, Cu, O, F" 6845 PHC2690005 Sr2RCu2O5F Sr2Y1Cu2F1O5 Sr 2 Y 1 Cu 2 F 1 O 5 1 1996 2126 3.838 19.764 K "R2O3, CuO, SrO2,SrF2, CaCuCO3,SrCuo2,Ca2" 1 "mixture-seald in Au capsule-(1300c,6GPa,1H)-Q to RT" "Synthesis,crystal structures and superconductivity of new copper oxyfluorides,Sr2RCu2O5F(R=Y,La,Nd,Sm,Gd,Dy,Er and Yd)" 1996 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" "Physica.C,269(1996)5-14" "Sr, R, Cu, O, F" 6846 PHC2690005 Sr2RCu2O5F Sr2Dy1Cu2F1O5 Sr 2 Dy 1 Cu 2 F 1 O 5 1 1996 2126 3.845 19.789 K "R2O3, CuO, SrO2,SrF2, CaCuCO3,SrCuo2,Ca2" 1 "mixture-seald in Au capsule-(1300c,6GPa,1H)-Q to RT" "Synthesis,crystal structures and superconductivity of new copper oxyfluorides,Sr2RCu2O5F(R=Y,La,Nd,Sm,Gd,Dy,Er and Yd)" 1996 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" "Physica.C,269(1996)5-14" "Sr, R, Cu, O, F" 6847 PHC2690005 Sr2RCu2O5F Sr2Gd1Cu2F1O5 Sr 2 Gd 1 Cu 2 F 1 O 5 1 1996 2126 3.857 19.808 K "R2O3, CuO, SrO2,SrF2, CaCuCO3,SrCuo2,Ca2" 1 "mixture-seald in Au capsule-(1300c,6GPa,1H)-Q to RT" "Synthesis,crystal structures and superconductivity of new copper oxyfluorides,Sr2RCu2O5F(R=Y,La,Nd,Sm,Gd,Dy,Er and Yd)" 1996 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" "Physica.C,269(1996)5-14" "Sr, R, Cu, O, F" 6848 PHC2690005 Sr2RCu2O5F Sr2Sm2Cu2F1O5 Sr 2 Sm 2 Cu 2 F 1 O 5 1 1996 2126 3.871 19.869 K "R2O3, CuO, SrO2,SrF2, CaCuCO3,SrCuo2,Ca2" 1 "mixture-seald in Au capsule-(1300c,6GPa,1H)-Q to RT" "Synthesis,crystal structures and superconductivity of new copper oxyfluorides,Sr2RCu2O5F(R=Y,La,Nd,Sm,Gd,Dy,Er and Yd)" 1996 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" "Physica.C,269(1996)5-14" "Sr, R, Cu, O, F" 6849 PHC2690005 Sr2RCu2O5F Sr2Nd1Cu2F1O5 Sr 2 Nd 1 Cu 2 F 1 O 5 1 1996 2126 3.876 19.915 K "R2O3, CuO, SrO2,SrF2, CaCuCO3,SrCuo2,Ca2" 1 "mixture-seald in Au capsule-(1300c,6GPa,1H)-Q to RT" "Synthesis,crystal structures and superconductivity of new copper oxyfluorides,Sr2RCu2O5F(R=Y,La,Nd,Sm,Gd,Dy,Er and Yd)" 1996 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" "Physica.C,269(1996)5-14" "Sr, R, Cu, O, F" 6850 PHC2690005 Sr2RCu2O5F Sr2La1Cu2F1O5 Sr 2 La 1 Cu 2 F 1 O 5 1 1996 2126 3.845 20.065 K "R2O3, CuO, SrO2,SrF2, CaCuCO3,SrCuo2,Ca2" 1 "mixture-seald in Au capsule-(1300c,6GPa,1H)-Q to RT" "Synthesis,crystal structures and superconductivity of new copper oxyfluorides,Sr2RCu2O5F(R=Y,La,Nd,Sm,Gd,Dy,Er and Yd)" 1996 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" "Physica.C,269(1996)5-14" "Sr, R, Cu, O, F" 6851 PHC2690005 "Sr2(Nd,Ca)Cu2O5F" Sr2Nd0.7Ca0.3Cu2F1O5 Sr 2 Nd 0.7 Ca 0.3 Cu 2 F 1 O 5 2 1996 2126 3.879 19.885 K "R2O3, CuO, SrO2,SrF2, CaCuCO3,SrCuo2,Ca2" 1 "mixture-seald in Au capsule-(1300c,6GPa,1H)-Q to RT" "Synthesis,crystal structures and superconductivity of new copper oxyfluorides,Sr2RCu2O5F(R=Y,La,Nd,Sm,Gd,Dy,Er and Yd)" 1996 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" "Physica.C,269(1996)5-14" "Sr, R, Cu, O, F" 6852 PHC2690005 "Sr(Nd,Ca)Cu2O5f" Sr2Nd0.5Ca0.5Cu2F1O5 Sr 2 Nd 0.5 Ca 0.5 Cu 2 F 1 O 5 1 1996 2126 3.866 19.9 K 70.9 70.9 "R2O3, CuO, SrO2,SrF2, CaCuCO3,SrCuo2,Ca2" 1 "mixture-seald in Au capsule-(1300c,6GPa,1H)-Q to RT" "Synthesis,crystal structures and superconductivity of new copper oxyfluorides,Sr2RCu2O5F(R=Y,La,Nd,Sm,Gd,Dy,Er and Yd)" 1996 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" "Physica.C,269(1996)5-14" "Sr, R, Cu, O, F" 6853 PHC2690005 "Sr(Nd,Ca)Cu2O5F" Sr2Nd0.4Ca0.6Cu2F1O5 Sr 2 Nd 0.4 Ca 0.6 Cu 2 F 1 O 5 1 1996 2126 3.859 20.048 K 75.1 75.1 "R2O3, CuO, SrO2,SrF2, CaCuCO3,SrCuo2,Ca2" 1 "mixture-seald in Au capsule-(1300c,6GPa,1H)-Q to RT" "Synthesis,crystal structures and superconductivity of new copper oxyfluorides,Sr2RCu2O5F(R=Y,La,Nd,Sm,Gd,Dy,Er and Yd)" 1996 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" "Physica.C,269(1996)5-14" "Sr, R, Cu, O, F" 6854 PHC2690005 "Sr(Nd,Ca)Cu2O5F" Sr2Nd0.3Ca0.7Cu2F1O5 Sr 2 Nd 0.3 Ca 0.7 Cu 2 F 1 O 5 1 1996 2126 3.871 20.021 K 73.1 73.1 "R2O3, CuO, SrO2,SrF2, CaCuCO3,SrCuo2,Ca2" 1 "mixture-seald in Au capsule-(1300c,6GPa,1H)-Q to RT" "Synthesis,crystal structures and superconductivity of new copper oxyfluorides,Sr2RCu2O5F(R=Y,La,Nd,Sm,Gd,Dy,Er and Yd)" 1996 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" "Physica.C,269(1996)5-14" "Sr, R, Cu, O, F" 6855 PHC2690005 "Sr2(Nd,Ca)Cu2O5F" Sr2Nd0.2Ca0.8Cu2F1O5 Sr 2 Nd 0.2 Ca 0.8 Cu 2 F 1 O 5 1 1996 2126 3.861 20.073 K 86 86 "R2O3, CuO, SrO2,SrF2, CaCuCO3,SrCuo2,Ca2" 1 "mixture-seald in Au capsule-(1300c,6GPa,1H)-Q to RT" "Synthesis,crystal structures and superconductivity of new copper oxyfluorides,Sr2RCu2O5F(R=Y,La,Nd,Sm,Gd,Dy,Er and Yd)" 1996 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" "Physica.C,269(1996)5-14" "Sr, R, Cu, O, F" 6856 PHC2690005 "Sr(Nd,Ca)Cu2O5F" Sr2Nd0.1Ca0.9Cu2F1O5 Sr 2 Nd 0.1 Ca 0.9 Cu 2 F 1 O 5 1 1996 2126 3.862 20.085 K 85.8 85.8 "R2O3, CuO, SrO2,SrF2, CaCuCO3,SrCuo2,Ca2" 1 "mixture-seald in Au capsule-(1300c,6GPa,1H)-Q to RT" "Synthesis,crystal structures and superconductivity of new copper oxyfluorides,Sr2RCu2O5F(R=Y,La,Nd,Sm,Gd,Dy,Er and Yd)" 1996 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" "Physica.C,269(1996)5-14" "Sr, R, Cu, O, F" 6857 PHC2690005 Sr2CaCu2O5F Sr2Ca1Cu2F1O5 Sr 2 Ca 1 Cu 2 F 1 O 5 1 1996 2 2126 3.856 20.14 K 69.1 69.1 "R2O3, CuO, SrO2,SrF2, CaCuCO3,SrCuo2,Ca2" 1 "mixture-seald in Au capsule-(1300c,6GPa,1H)-Q to RT" "Synthesis,crystal structures and superconductivity of new copper oxyfluorides,Sr2RCu2O5F(R=Y,La,Nd,Sm,Gd,Dy,Er and Yd)" 1996 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" "Physica.C,269(1996)5-14" "Sr, R, Cu, O, F" 6858 PHC2690005 Sr2NdCu2O5F Sr2Nd1Cu2F1O5 Sr 2 Nd 1 Cu 2 F 1 O 5 2 1996 2 2216 3.876 19.915 K "R2O3, CuO, SrO2,SrF2, CaCuCO3,SrCuo2,Ca2" 1 "mixture-seald in Au capsule-(1300c,6GPa,1H)-Q to RT" "Synthesis,crystal structures and superconductivity of new copper oxyfluorides,Sr2RCu2O5F(R=Y,La,Nd,Sm,Gd,Dy,Er and Yd)" 1996 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" "Physica.C,269(1996)5-14" "Sr, R, Cu, O, F" 6859 PHC2690005 "Sr2(Nd,Ca)Cu2O5F" Sr2Nd0.9Ca0.1Cu2F1O5 Sr 2 Nd 0.9 Ca 0.1 Cu 2 F 1 O 5 2 1996 2 2216 3.889 19.93 K "R2O3, CuO, SrO2,SrF2, CaCuCO3,SrCuo2,Ca2" 1 "mixture-seald in Au capsule-(1300c,6GPa,1H)-Q to RT" "Synthesis,crystal structures and superconductivity of new copper oxyfluorides,Sr2RCu2O5F(R=Y,La,Nd,Sm,Gd,Dy,Er and Yd)" 1996 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" "Physica.C,269(1996)5-14" "Sr, R, Cu, O, F" 6860 PHC2690005 "Sr2(Nd,Ca)Cu2O5F" Sr2Nd0.8Ca0.2Cu2F1O5 Sr 2 Nd 0.8 Ca 0.2 Cu 2 F 1 O 5 2 1996 2 2216 3.889 19.907 K "R2O3, CuO, SrO2,SrF2, CaCuCO3,SrCuo2,Ca2" 1 "mixture-seald in Au capsule-(1300c,6GPa,1H)-Q to RT" "Synthesis,crystal structures and superconductivity of new copper oxyfluorides,Sr2RCu2O5F(R=Y,La,Nd,Sm,Gd,Dy,Er and Yd)" 1996 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" "Physica.C,269(1996)5-14" "Sr, R, Cu, O, F" 6861 PHC2690220 Dyba2Cu3O7 Dy1Ba2Cu3O6.9 Dy 1 Ba 2 Cu 3 O 7 6.9 1996 Y123 K 92.3 92.3 "D2O2,Pr6O11,BaCO3,CuO2" 1 "mixture-CAL(900C,12H in air)-pellet-SIN(940C,12H)-slow cool to 600C-hold3H-cool to 600C-hold3H-cool to 400C(2H)-RT in flowing O2" Thermoelectric power and superconducting transition in high-temperature superconductors Dy1-xPrxBa2Cu3O7 1996 "Department of physics,National Taiwan University,Taipei,Taiwan" "Physica.C,269(1996)220-224" "Dy, Pr, Ba, Cu, O" 6862 PHC2690220 "(Dy,Pr)Ba2Cu3O7" Dy0.95Pr0.05Ba2Cu3O6.9 Dy 0.95 Pr 0.05 Ba 2 Cu 3 O 7 6.9 1996 Y123 K 91.4 91.4 2.31 TP6862 "D2O2,Pr6O11,BaCO3,CuO2" 1 "mixture-CAL(900C,12H in air)-pellet-SIN(940C,12H)-slow cool to 600C-hold3H-cool to 600C-hold3H-cool to 400C(2H)-RT in flowing O2" Thermoelectric power and superconducting transition in high-temperature superconductors Dy1-xPrxBa2Cu3O7 1996 "Department of physics,National Taiwan University,Taipei,Taiwan" "Physica.C,269(1996)220-224" "Dy, Pr, Ba, Cu, O" 6863 PHC2690220 "(Dy,Pr)Ba2Cu3O7" Dy0.85Pr0.15Ba2Cu3O6.9 Dy 0.85 Pr 0.15 Ba 2 Cu 3 O 7 6.9 1996 Y123 K 77.4 77.4 8.381 TP6863 "D2O2,Pr6O11,BaCO3,CuO2" 1 "mixture-CAL(900C,12H in air)-pellet-SIN(940C,12H)-slow cool to 600C-hold3H-cool to 600C-hold3H-cool to 400C(2H)-RT in flowing O2" Thermoelectric power and superconducting transition in high-temperature superconductors Dy1-xPrxBa2Cu3O7 1996 "Department of physics,National Taiwan University,Taipei,Taiwan" "Physica.C,269(1996)220-224" "Dy, Pr, Ba, Cu, O" 6864 PHC2690220 "(Dy,Pr)Ba2Cu3O7" Dy0.8Pr0.2Ba2Cu3O6.9 Dy 0.8 Pr 0.2 Ba 2 Cu 3 O 7 6.9 1996 Y123 K "D2O2,Pr6O11,BaCO3,CuO2" 1 "mixture-CAL(900C,12H in air)-pellet-SIN(940C,12H)-slow cool to 600C-hold3H-cool to 600C-hold3H-cool to 400C(2H)-RT in flowing O2" Thermoelectric power and superconducting transition in high-temperature superconductors Dy1-xPrxBa2Cu3O7 1996 "Department of physics,National Taiwan University,Taipei,Taiwan" "Physica.C,269(1996)220-224" "Dy, Pr, Ba, Cu, O" 6865 PHC2690220 "(Dy,Pr)Ba2Cu3O7" Dy0.7Pr0.3Ba2Cu3O6.9 Dy 0.7 Pr 0.3 Ba 2 Cu 3 O 7 6.9 1996 Y123 K 53.9 53.9 17.92 TP6865 "D2O2,Pr6O11,BaCO3,CuO2" 1 "mixture-CAL(900C,12H in air)-pellet-SIN(940C,12H)-slow cool to 600C-hold3H-cool to 600C-hold3H-cool to 400C(2H)-RT in flowing O2" Thermoelectric power and superconducting transition in high-temperature superconductors Dy1-xPrxBa2Cu3O7 1996 "Department of physics,National Taiwan University,Taipei,Taiwan" "Physica.C,269(1996)220-224" "Dy, Pr, Ba, Cu, O" 6866 PHC2690220 "(Dy,Pr)Ba2Cu3O7" Dy0.6Pr0.4Ba2Cu3O6.9 Dy 0.6 Pr 0.4 Ba 2 Cu 3 O 7 6.9 1996 Y123 K 41.2 41.2 "D2O2,Pr6O11,BaCO3,CuO2" 1 "mixture-CAL(900C,12H in air)-pellet-SIN(940C,12H)-slow cool to 600C-hold3H-cool to 600C-hold3H-cool to 400C(2H)-RT in flowing O2" Thermoelectric power and superconducting transition in high-temperature superconductors Dy1-xPrxBa2Cu3O7 1996 "Department of physics,National Taiwan University,Taipei,Taiwan" "Physica.C,269(1996)220-224" "Dy, Pr, Ba, Cu, O" 6867 PHC2690220 "(Dy,Pr)Ba2Cu3O7" Dy0.5Pr0.5Ba2Cu3O6.9 Dy 0.5 Pr 0.5 Ba 2 Cu 3 O 7 6.9 1996 Y123 K 27.8 27.8 37.57 TP6867 "D2O2,Pr6O11,BaCO3,CuO2" 1 "mixture-CAL(900C,12H in air)-pellet-SIN(940C,12H)-slow cool to 600C-hold3H-cool to 600C-hold3H-cool to 400C(2H)-RT in flowing O2" Thermoelectric power and superconducting transition in high-temperature superconductors Dy1-xPrxBa2Cu3O7 1996 "Department of physics,National Taiwan University,Taipei,Taiwan" "Physica.C,269(1996)220-224" "Dy, Pr, Ba, Cu, O" 6868 PHC2690220 "(Dy,Pr)Ba2Cu3O7" Dy0.4Pr0.6Ba2Cu3O6.9 Dy 0.4 Pr 0.6 Ba 2 Cu 3 O 7 6.9 1996 Y123 K 10 53.7 TP6868 "D2O2,Pr6O11,BaCO3,CuO2" 1 "mixture-CAL(900C,12H in air)-pellet-SIN(940C,12H)-slow cool to 600C-hold3H-cool to 600C-hold3H-cool to 400C(2H)-RT in flowing O2" Thermoelectric power and superconducting transition in high-temperature superconductors Dy1-xPrxBa2Cu3O7 1996 "Department of physics,National Taiwan University,Taipei,Taiwan" "Physica.C,269(1996)220-224" "Dy, Pr, Ba, Cu, O" 6869 PHC2690225 TlSr2YbCu2O7 Tl1Sr2Yb1Cu2O7 Tl 1 Sr 2 Yb 1 Cu 2 O 7 7 1996 Tl1212 3.805 11.989 K 5 "Sr2CuO3,CaO,Yb2O3,Cu),Tl2O3" 1 "excess Tl2O3 were added, mixture-heat(910-930C, 9-12H in flowing O2)" Superconductivity in TlSr2-xCaYbCu2O7 by isovalent cation substitution 1996 "Institute for Materials Research,Tohoku University,Katahira,Aoba-ku,Sendai 980-77, Japan" "Physica.C,269(1996)225-230" "Tl, Sr, Ca, Yb, Cu, O" 6870 PHC2690225 "Tl(Sr,Ca)2YbCu2O7" Tl1Sr1.8Ca0.2Yb1Cu2O7 Tl 1 Sr 1.8 Ca 0.2 Yb 1 Cu 2 O 7 1996 Tl1212 3.794 11.982 K 45 45 "Sr2CuO3,CaO,Yb2O3,Cu),Tl2O3" 1 "excess Tl2O3 were added, mixture-heat(910-930C, 9-12H in flowing O2)" Superconductivity in TlSr2-xCaYbCu2O7 by isovalent cation substitution 1996 "Institute for Materials Research,Tohoku University,Katahira,Aoba-ku,Sendai 980-77, Japan" "Physica.C,269(1996)225-230" "Tl, Sr, Ca, Yb, Cu, O" 6871 PHC2690225 "Tl(Sr,Ca)2YbCu2O7" Tl1Sr1.7Ca0.3Yb1Cu2O7 Tl 1 Sr 1.7 Ca 0.3 Yb 1 Cu 2 O 7 1996 Tl1212 3.791 11.973 K 55 55 "Sr2CuO3,CaO,Yb2O3,Cu),Tl2O3" 1 "excess Tl2O3 were added, mixture-heat(910-930C, 9-12H in flowing O2)" Superconductivity in TlSr2-xCaYbCu2O7 by isovalent cation substitution 1996 "Institute for Materials Research,Tohoku University,Katahira,Aoba-ku,Sendai 980-77, Japan" "Physica.C,269(1996)225-230" "Tl, Sr, Ca, Yb, Cu, O" 6872 PHC2690225 "Tl(Sr,Ca)2YbCu2O7" Tl1Sr1.5Ca0.5Yb1Cu2O7 Tl 1 Sr 1.5 Ca 0.5 Yb 1 Cu 2 O 7 1996 Tl1212 3.791 11.952 K 55 55 "Sr2CuO3,CaO,Yb2O3,Cu),Tl2O3" 1 "excess Tl2O3 were added, mixture-heat(910-930C, 9-12H in flowing O2)" Superconductivity in TlSr2-xCaYbCu2O7 by isovalent cation substitution 1996 "Institute for Materials Research,Tohoku University,Katahira,Aoba-ku,Sendai 980-77, Japan" "Physica.C,269(1996)225-230" "Tl, Sr, Ca, Yb, Cu, O" 6873 PHC2690225 "Tl(Sr,Ca)2YbCu2O7" Tl1Sr1Ca1Yb1Cu2O6.8 Tl 1 Sr 1 Ca 1 Yb 1 Cu 2 O 7 6.8 1996 Tl1212 K "Sr2CuO3,CaO,Yb2O3,Cu),Tl2O3" 1 "excess Tl2O3 were added, mixture-heat(910-930C, 9-12H in flowing O2)" Superconductivity in TlSr2-xCaYbCu2O7 by isovalent cation substitution 1996 "Institute for Materials Research,Tohoku University,Katahira,Aoba-ku,Sendai 980-77, Japan" "Physica.C,269(1996)225-230" "Tl, Sr, Ca, Yb, Cu, O" 6874 PHC2690225 "Tl(Sr,Ca)2YbCu2O7" Tl1Sr1.9Ca0.1Yb1Cu2O7 Tl 1 Sr 1.9 Ca 0.1 Yb 1 Cu 2 O 7 1996 Tl1212 3.799 11.979 K 5 "Sr2CuO3,CaO,Yb2O3,Cu),Tl2O3" 1 "excess Tl2O3 were added, mixture-heat(910-930C, 9-12H in flowing O2)" Superconductivity in TlSr2-xCaYbCu2O7 by isovalent cation substitution 1996 "Institute for Materials Research,Tohoku University,Katahira,Aoba-ku,Sendai 980-77, Japan" "Physica.C,269(1996)225-230" "Tl, Sr, Ca, Yb, Cu, O" 6875 PHC2690339 ErBa2Cu3O7 Er1Ba2Cu3Oz Er 1 Ba 2 Cu 3 O z 3 1996 Y123 K microwave magnets absorption 140 430 "Er2O3(Ho2O3),BaCo3,CuO" "R:Ba:Cu=3:6:11, mixture-SIN(900-910C,15H)-heat(1030 in O2),self flux method" Microwave magnetoabsorptions of ErBa2Cu3Oy and HoBa2Cu3Oy single crystals 1996 "Department of Materials,Science,University of Osaka Prefecture,Sakai,Osaka 593,Japan" "Physica.C,269(1996)339-342" "Er, Ba, Cu, O, Ho" 6876 PHC2690339 HoBa2Cu3O7 Ho1Ba2Cu3Oz Ho 1 Ba 2 Cu 3 O z 3 1996 Y123 K microwave magnets absorption 150 430 "Er2O3(Ho2O3),BaCo3,CuO" "R:Ba:Cu=3:6:11, mixture-SIN(900-910C,15H)-heat(1030 in O2),self flux method" Microwave magnetoabsorptions of ErBa2Cu3Oy and HoBa2Cu3Oy single crystals 1996 "Department of Materials,Science,University of Osaka Prefecture,Sakai,Osaka 593,Japan" "Physica.C,269(1996)339-342" "Er, Ba, Cu, O, Ho" 6877 PHC2690231 RT=275K NdBa2Cu3O7 Nd1Ba2Cu3O6.93 Nd 1 Ba 2 Cu 3 O 7-z 6.93 1996 3 Y123 Pmmm 3.87 3.918 11.763 K 91.5 91.5 1.6 "Nd2O3,BaCO3,CuO,Pr6O11,CaCO3" 1 "tablet-CAL(900C,920C)-pellet-ANN(460C,3days in flowing O2)-cool to RT (10C/H)" Neutron-diffraction studies and interatomic distances in Ca-Pr doped NdBa2Cu3O7-z 1996 "Solid State Physics,The Royal Institute of Technology,S-100 44 Stockholm Sweden" "Physica.C,269(1996)231-241" "Nd, Ba, Cu, O, Ca, Pr" 6878 PHC2690231 RT=275K "(Nd,Ca,Pr)Ba2Cu3O7" Nd0.95Ca0.025Pr0.025Ba2Cu3O6.95 Nd 0.95 Ca 0.025 Pr 0.025 Ba 2 Cu 3 O 7-z 6.95 1996 3 Y123 3.871 3.917 11.761 K 86.1 86.1 1.66 "Nd2O3,BaCO3,CuO,Pr6O11,CaCO3" 1 "tablet-CAL(900C,920C)-pellet-ANN(460C,3days in flowing O2)-cool to RT (10C/H)" Neutron-diffraction studies and interatomic distances in Ca-Pr doped NdBa2Cu3O7-z 1996 "Solid State Physics,The Royal Institute of Technology,S-100 44 Stockholm Sweden" "Physica.C,269(1996)231-241" "Nd, Ba, Cu, O, Ca, Pr" 6879 PHC2690231 RT=275K "(Nd,Ca,Pr)Ba2Cu3O7" Nd0.9Ca0.05Pr0.05Ba2Cu3O6.95 Nd 0.9 Ca 0.05 Pr 0.05 Ba 2 Cu 3 O 7-z 6.95 1996 3 Y123 3.871 3.916 11.755 K 81.4 81.4 1.87 "Nd2O3,BaCO3,CuO,Pr6O11,CaCO3" 1 "tablet-CAL(900C,920C)-pellet-ANN(460C,3days in flowing O2)-cool to RT (10C/H)" Neutron-diffraction studies and interatomic distances in Ca-Pr doped NdBa2Cu3O7-z 1996 "Solid State Physics,The Royal Institute of Technology,S-100 44 Stockholm Sweden" "Physica.C,269(1996)231-241" "Nd, Ba, Cu, O, Ca, Pr" 6880 PHC2690231 RT=275K "(Nd,Ca,Pr)Ba2Cu3O7" Nd0.8Ca0.1Pr0.1Ba2Cu3O7.02 Nd 0.8 Ca 0.1 Pr 0.1 Ba 2 Cu 3 O 7-z 7.02 1996 3 Y123 3.872 3.913 11.747 K 70.8 70.8 2.91 "Nd2O3,BaCO3,CuO,Pr6O11,CaCO3" 1 "tablet-CAL(900C,920C)-pellet-ANN(460C,3days in flowing O2)-cool to RT (10C/H)" Neutron-diffraction studies and interatomic distances in Ca-Pr doped NdBa2Cu3O7-z 1996 "Solid State Physics,The Royal Institute of Technology,S-100 44 Stockholm Sweden" "Physica.C,269(1996)231-241" "Nd, Ba, Cu, O, Ca, Pr" 6881 NAT3430444 Npenet=100 micron meter Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1990 Bi2212 K 85 85 micron.m 100 0.15 6800 see Direct evidence for a very large penetration depth in superconducying BiSr2CaCu3O8 singl crystals 1990 "Institute of Physics of the University. PO Box 304,41000 Zagreb, Yugoslavia" NATURE.343(1990)444 "Bi, Sr, Ca, Cu, O" 6882 MPL0091387 in purity=CaWOz "(Bi,Pb,W)2Sr2Ca2Cu3Oz" Bi1.6Pb0.3W0.1Sr2Ca2Cu3Oz Bi 1.6 Pb 0.3 W 0.1 Sr 2 Ca 2 Cu 3 O z 1995 Bi2223 K 108 108 800 HIR6882 "see Mat.Sci. and Engg.B23,137(1994)" "MAGNETIC RELAXATION, LOWER CRITICAL FIELD AND IRREVERSIBILITY LINE OF W DEPED(Bi, PB)-2223 SUPERCONDUCTOR" 1995 "Department of Physics, Osmania University, Hederabad 500 007, India" "Mod.Phys.Lett.B,9(1995)1387-1396" "Bi, Pb, W, Sr, Ca, Cu, O" 6883 MPL0091027 semi-con like "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-z Nd 1.85 Ce 0.15 Cu 1 O 4-z 1995 T K 4.2 TP6883 "Nd2O3, CuO, CeO2" 1 "mixture-CAL(950C,17H in air)-prllet-SIN(1100C,24H)" THERMOELECTRIC POWER IN Nd1.85Ce0.15CuO4-y 1995 "Department of Physics, University of Science and Technology of China, Hefei 230026, China" "Mod.Phys.Lett.B,9(1995)1027-1031" "Nd, Ce, Cu, O" 6884 MPL0091027 "(Nd,Ce)2CuO4" Nd185Ce0.15Cu1O4-z Nd 185 Ce 0.15 Cu 1 O 4-z 1995 T K 15 15 TP6884 "Nd2O3, CuO, CeO2" 1 "as-grown(6883)-ANN(950,7H in N2)" THERMOELECTRIC POWER IN Nd1.85Ce0.15CuO4-y 1995 "Department of Physics, University of Science and Technology of China, Hefei 230026, China" "Mod.Phys.Lett.B,9(1995)1027-1031" "Nd, Ce, Cu, O" 6885 MPL0091027 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-z Nd 1.85 Ce 0.15 Cu 1 O 4-z 1995 T K 20 20 TP6885 "Nd2O3, CuO, CeO2" 1 "as-grown(6883)-ANN(950C,42H in N2)" THERMOELECTRIC POWER IN Nd1.85Ce0.15CuO4-y 1995 "Department of Physics, University of Science and Technology of China, Hefei 230026, China" "Mod.Phys.Lett.B,9(1995)1027-1031" "Nd, Ce, Cu, O" 6886 MPL0091027 semi-con like "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-z Nd 1.85 Ce 0.15 Cu 1 O 4-z 1995 T K 4.2 TP6886 "Nd2O3, CuO, CeO2" 1 "as-grown(6883)-ANN(950C,17H in O2)" THERMOELECTRIC POWER IN Nd1.85Ce0.15CuO4-y 1995 "Department of Physics, University of Science and Technology of China, Hefei 230026, China" "Mod.Phys.Lett.B,9(1995)1027-1031" "Nd, Ce, Cu, O" 6887 MPL0090805 neariy single phase "(Y,Ca)2Ba4Cu7Oz" Y1.8Ca0.2Ba4Cu7Oz Y 1.8 Ca 0.2 Ba 4 Cu 7 O z 1995 Y247 3.84 3.87 50.5 K 78 78 "Y2O3, BaCO3, CaCO3, CuO" 1 "mixture-CAL(940C,10H in air)-pellet-SIN(940C,20H in air)-FC to RT" ENHANCEMENT OF Tc IN Y2Ba4Cu7O14+y BY CaDOPING 1995 "Department of Physics, Anna University Madras 600 025, India" "Mod,Phys.Lett.B,9(1995)805-810" "Ca, Y, Ba, Cu, O" 6888 MPL0090805 nearly single phase "(Y,Ca)2Ba4Cu7Oz" Y1.6Ca0.4Ba4Cu7Oz Y 1.6 Ca 0.4 Ba 4 Cu 7 O z 1995 Y247 3.85 3.87 50.4 K 73 73 "Y2O3, BaCO3, CaCO3, CuO" 1 "mixture-CAL(940C,10H in air)-pellet-SIN(940C,20H in air)-FC to RT" ENHANCEMENT OF Tc IN Y2Ba4Cu7O14+y BY CaDOPING 1995 "Department of Physics, Anna University Madras 600 025, India" "Mod,Phys.Lett.B,9(1995)805-810" "Ca, Y, Ba, Cu, O" 6889 MPL0090805 nearly single phase "(Y,Ca)2Ba4Cu7Oz" Y1Ca1Ba4Cu7Oz Y 1 Ca 1 Ba 4 Cu 7 O z 1995 Y247 3.86 3.86 50.47 K 53 53 "Y2O3, BaCO3, CaCO3, CuO" 1 "mixture-CAL(940C,10H in air)-pellet-SIN(940C,20H in air)-FC to RT" ENHANCEMENT OF Tc IN Y2Ba4Cu7O14+y BY CaDOPING 1995 "Department of Physics, Anna University Madras 600 025, India" "Mod,Phys.Lett.B,9(1995)805-810" "Ca, Y, Ba, Cu, O" 6890 JPS0652764 "Tc is maximen value at 3GPa, not S/C at atm. resistivity proportional to T^2 between 20 and 70K " "(Sr,Ca)14Cu24O41" Sr0.4Ca13.6Cu24O41.84 Sr 0.4 Ca 13.6 Cu 24 O 41.84 41.84 1996 3 LAD K 8 10 12 0 10 "SrCO3, CaCO3, CuO" "mixture-CAL(1000C,50H in flowing O2)-pellet-SIN(1200C,8H in 20%O2+80%Ar of 2000 atm using HIP)" Superconductivity in the Ladder Material Sr0.4Ca13.6Cu24O41.84 1996 9 "Department of Physics, Aoyama-Gakuin University, Chitosedai, Setagaya-ku, Tokyo 157" "J.Phys.Soc.Japan,65(1996)2764-2767" 6891 JMP0090549 "Bi4Sr3Ca3(Cu,Fe)4Oz" Bi4Sr3Ca3Cu4Oz Bi 4 Sr 3 Ca 3 Cu 4 O z 1 1995 2 30.74 K 74 78 78 4.19 "Bi2O3, CuO, SrCO3, CaCO3, M-oxide" "mixture-CAL(800C,24H)-melt(1000C,in Pt crucible for 15 mirutes-querch)-heat(820C,4days)-FC to RT" "STRUCTURAL AND SUPERCONDUCTING PROPERTIES OF Bi4Sr3Ca3CuyOw AND Bi4Sr3Ca3Cu4-!95%, Tc(max)=142K(at25GPa),dtc/dp=2K/GPa at P=o" HgBa2Cu3O8+z Hg1Ba2Ca2Cu3O1 Hg 1 Ba 2 Ca 2 Cu 3 O 8+z 1 1996 Hg1223 K K/GPa 0.64 "by a self-flux method in alumina crucible ANN(550-650C, in O2)" Prwssure dependence of the superconducting critical temperature of HgBa2Ca2Cu3O8+y and HgBa2Ca3Cu4O10+y up to 30 GPa 1996 8 "Department of Physics and Astronomy, Free University, De Boelelaan 1081,1081 HV Amsterdam, The Netherland" "Phys.Rev.B,54(1996)4265" 6980 PR05404265 "Hg1223>95%,Tc(max)=145K(at 8 GPa)" HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8+z Hg 1 Ba 2 Ca 2 Cu 3 O 8+z 1996 Hg1223 K 132.5 132.5 K/GPa 3 "by a self-flux method in alumina crucible ANN(550-650C, in O2)" Prwssure dependence of the superconducting critical temperature of HgBa2Ca2Cu3O8+y and HgBa2Ca3Cu4O10+y up to 30 GPa 1996 8 "Department of Physics and Astronomy, Free University, De Boelelaan 1081,1081 HV Amsterdam, The Netherland" "Phys.Rev.B,54(1996)4265" 6981 PR05404265 "Hg1234>80%, Tc(max)=122K (at20GPa)" HgBa2Ca3Cu4O10 Hg1Ba2Ca3Cu4O1 Hg 1 Ba 2 Ca 3 Cu 4 O 10+z 1 2 1996 Hg1234 K 115 115 K/GPa 0.6 "by a self-flux method in alumina crucible ANN(550-650C, in O2)" Prwssure dependence of the superconducting critical temperature of HgBa2Ca2Cu3O8+y and HgBa2Ca3Cu4O10+y up to 30 GPa 1996 8 "Department of Physics and Astronomy, Free University, De Boelelaan 1081,1081 HV Amsterdam, The Netherland" "Phys.Rev.B,54(1996)4265" 6982 PR05404265 "Hg1234>90%, Yc(max)=122K (at 7GPa)" HgBa2Ca3Cu4O10 Hg1Ba2Ca3Cu4O2 Hg 1 Ba 2 Ca 3 Cu 4 O 10+z 2 2 1996 Hg1234 K 115 115 K/GPa 1.2 "by a self-flux method in alumina crucible ANN(550-650C, in O2)" Prwssure dependence of the superconducting critical temperature of HgBa2Ca2Cu3O8+y and HgBa2Ca3Cu4O10+y up to 30 GPa 1996 8 "Department of Physics and Astronomy, Free University, De Boelelaan 1081,1081 HV Amsterdam, The Netherland" "Phys.Rev.B,54(1996)4265" 6983 PR05406133 "HC2(O) is estimated from HC2=32.2-1.8*T+0.025T, K-content not measured" "(Ba,K)BiO3" BaKBi1O3 Ba 1 K 1 Bi 1 O 3 3 1996 BKBO K 31.8 31.8 32.2 "KOH,Ba(OH)2 8H2O,Bi2O3" K:Ba:Bi=72:1:2 Positive curvature in the temperature dependence of Hc2 in KxBa1-xBiO3 1996 9 "Institute of Solid State Physics RAS, 142432 Chernogolovka, Russia" "Phys.Rev.B,54(1996)6133" 6984 PR05406122 "single phase-film,Tc measured by surface resistance,12.92GHz" PrBa2Cu3O7 Pr1Ba2Cu3O7 Pr 1 Ba 2 Cu 3 O 7 4 1996 Y123 K 92 20 92 The film deposited on MgO at 1023K Observation of superconductivity in PrBa2Cu3O7 1996 8 "Department of Physics, University of Notre Dame,Notre Dame,Indiana 46556" "Phys.Rev.B,54(1996)6122" 6985 PR05406122 "impurity=Pr2BaCuO5,Tc by ESR" PrBa2Cu3O7 Pr1Ba2Cu3O7 Pr 1 Ba 2 Cu 3 O 7 1996 Y123 K 92 92 The powders were prepared in low oxygen environment Observation of superconductivity in PrBa2Cu3O7 1996 8 "Department of Physics, University of Notre Dame,Notre Dame,Indiana 46556" "Phys.Rev.B,54(1996)6122" 6986 PR05407449 under doping "Bi2(Sr,La)2CuO6" Bi2Sr2Cu1Oz Bi 2 Sr 2 Cu 1 O z 3 1996 Bi2201 24.659 K 7 7 "Bi2O3,SrCO3,La2O3,CuO" "mixture-melt(1000-1060C depending on La-content,3H)-cool to 850-880C(1-2C/H)-FC to RT" Crystal growth and anisotrope resistivity of Bi2Sr2-xLaxCuOy 1996 9 "Institut fu""r Festko""rperphysik, Technische Hochschule Darmstadt,Hochshulstra%!e 8,D-64289 Darmstadt, Germany" "Phys.Rev.B,54(1996)7449" 6987 PR05407449 under doping "Bi2(Sr,La)2CuO6" Bi2Sr1.975La0.025Cu1Oz Bi 2 Sr 1.975 La 0.025 Cu 1 O z 3 1996 Bi2201 24.668 K 11 11 "Bi2O3,SrCO3,La2O3,CuO" "mixture-melt(1000-1060C depending on La-content,3H)-cool to 850-880C(1-2C/H)-FC to RT" Crystal growth and anisotrope resistivity of Bi2Sr2-xLaxCuOy 1996 9 "Institut fu""r Festko""rperphysik, Technische Hochschule Darmstadt,Hochshulstra%!e 8,D-64289 Darmstadt, Germany" "Phys.Rev.B,54(1996)7449" 6988 PR05407449 optimal doping "Bi2(Sr,La)2CuO6" Bi2Sr1.95La0.05Cu1Oz Bi 2 Sr 1.95 La 0.05 Cu 1 O z 3 1996 Bi2201 24.5 K 18 18 "Bi2O3,SrCO3,La2O3,CuO" "mixture-melt(1000-1060C depending on La-content,3H)-cool to 850-880C(1-2C/H)-FC to RT" Crystal growth and anisotrope resistivity of Bi2Sr2-xLaxCuOy 1996 9 "Institut fu""r Festko""rperphysik, Technische Hochschule Darmstadt,Hochshulstra%!e 8,D-64289 Darmstadt, Germany" "Phys.Rev.B,54(1996)7449" 6989 PR05407449 optimal doping "Bi2(Sr,La)2CuO6" Bi2Sr1.9La0.1Cu1Oz Bi 2 Sr 1.9 La 0.1 Cu 1 O z 3 1996 Bi2201 24.478 K 18 18 "Bi2O3,SrCO3,La2O3,CuO" "mixture-melt(1000-1060C depending on La-content,3H)-cool to 850-880C(1-2C/H)-FC to RT" Crystal growth and anisotrope resistivity of Bi2Sr2-xLaxCuOy 1996 9 "Institut fu""r Festko""rperphysik, Technische Hochschule Darmstadt,Hochshulstra%!e 8,D-64289 Darmstadt, Germany" "Phys.Rev.B,54(1996)7449" 6990 PR05407449 optimal doping "Bi2(Sr,La)2CuO6" Bi2Sr1.8La0.2Cu1Oz Bi 2 Sr 1.8 La 0.2 Cu 1 O z 3 1996 Bi2201 24.4 K 18 18 "Bi2O3,SrCO3,La2O3,CuO" "mixture-melt(1000-1060C depending on La-content,3H)-cool to 850-880C(1-2C/H)-FC to RT" Crystal growth and anisotrope resistivity of Bi2Sr2-xLaxCuOy 1996 9 "Institut fu""r Festko""rperphysik, Technische Hochschule Darmstadt,Hochshulstra%!e 8,D-64289 Darmstadt, Germany" "Phys.Rev.B,54(1996)7449" 6991 PR05407449 over doping "Bi2(Sr,La)2CuO6" Bi2Sr1.7La0.3Cu1Oz Bi 2 Sr 1.7 La 0.3 Cu 1 O z 3 1996 Bi2201 24.328 K 10 10 "Bi2O3,SrCO3,La2O3,CuO" "mixture-melt(1000-1060C depending on La-content,3H)-cool to 850-880C(1-2C/H)-FC to RT" Crystal growth and anisotrope resistivity of Bi2Sr2-xLaxCuOy 1996 9 "Institut fu""r Festko""rperphysik, Technische Hochschule Darmstadt,Hochshulstra%!e 8,D-64289 Darmstadt, Germany" "Phys.Rev.B,54(1996)7449" 6992 PR05406885 "size 12*2*2 mm,K=3.128+0.01104*T(W/mK)for 9097%,second Tc=78.5K" "(Bi,Pb,V)4Sr4Ca5Cu7Oz" Bi3.2Pb0.2V0.6Sr4Ca5Cu7Oz Bi 3.2 Pb 0.2 V 0.6 Sr 4 Ca 5 Cu 7 O z 2 1996 Bi2212 K 78.5 108.9 78.5 "Bi2O3,Pb3O4,V2O5,SrCO3,CaCO3,CuO" 1 "mixture-CAL(800C,24H in air)-pellet-SIN(830C,168H + 840C,168H)-quench to RT." Preparation and prorerties of Pb-and V-doped Bi-based superconductors 1996 "Institute of Chemical Technology, Technicka' 5, 166 28 Prague 6, Czech Republic" Supercond.Sci.Technol.9(1996)761 7329 SST0090761 "(Bi,Pb,V)4Sr4Ca5Cu7Oz" Bi3.2Pb0.4V0.4Sr4Ca5Cu7Oz Bi 3.2 Pb 0.4 V 0.4 Sr 4 Ca 5 Cu 7 O z 2 1996 K 108.5 108.5 "Bi2O3,Pb3O4,V2O5,SrCO3,CaCO3,CuO" 1 "mixture-CAL(800C,24H in air)-pellet-SIN(830C,168H + 840C,168H)-quench to RT." Preparation and prorerties of Pb-and V-doped Bi-based superconductors 1996 "Institute of Chemical Technology, Technicka' 5, 166 28 Prague 6, Czech Republic" Supercond.Sci.Technol.9(1996)761 7330 SST0090761 "(Bi,Pb,V)4Sr4Ca5Cu7Oz" Bi3.2Pb0.6V0.2Sr4Ca5Cu7Oz Bi 3.2 Pb 0.6 V 0.2 Sr 4 Ca 5 Cu 7 O z 2 1996 K 110.5 110.5 "Bi2O3,Pb3O4,V2O5,SrCO3,CaCO3,CuO" 1 "mixture-CAL(800C,24H in air)-pellet-SIN(830C,168H + 840C,168H)-quench to RT." Preparation and prorerties of Pb-and V-doped Bi-based superconductors 1996 "Institute of Chemical Technology, Technicka' 5, 166 28 Prague 6, Czech Republic" Supercond.Sci.Technol.9(1996)761 7331 SST0090761 "2223phase=25%, 2212phase=75%" "(Bi,Pb)4Sr4Ca5Cu7Oz" Bi3.2Pb0.8Sr4Ca5Cu7Oz Bi 3.2 Pb 0.8 Sr 4 Ca 5 Cu 7 O z 2 1996 2 Bi2212 5.404 37.173 K 108.9 108.9 "Bi2O3,Pb3O4,V2O5,SrCO3,CaCO3,CuO" 1 "mixture-CAL(800C,24H in air)-pellet-SIN(830C,168H + 840C,168H)-quench to RT." Preparation and prorerties of Pb-and V-doped Bi-based superconductors 1996 "Institute of Chemical Technology, Technicka' 5, 166 28 Prague 6, Czech Republic" Supercond.Sci.Technol.9(1996)761 7332 SST0090761 "2223phase=87%,2212phase=13%" "(Bi,Pb,V)4Sr4Ca5Cu7Oz" Bi2.6Pb0.8V0.6Sr4Ca5Cu7Oz Bi 2.6 Pb 0.8 V 0.6 Sr 4 Ca 5 Cu 7 O z 2 1996 5.41 37.079 K 110.8 110.8 "Bi2O3,Pb3O4,V2O5,SrCO3,CaCO3,CuO" 1 "mixture-CAL(800C,24H in air)-pellet-SIN(830C,168H + 840C,168H)-quench to RT." Preparation and prorerties of Pb-and V-doped Bi-based superconductors 1996 "Institute of Chemical Technology, Technicka' 5, 166 28 Prague 6, Czech Republic" Supercond.Sci.Technol.9(1996)761 7333 SST0090761 "(Bi,Pb,V)4Sr4Ca5Cu7Oz" Bi2.8Pb0.8V0.4Sr4Ca5Cu7Oz Bi 2.8 Pb 0.8 V 0.4 Sr 4 Ca 5 Cu 7 O z 2 1996 K 111 111 "Bi2O3,Pb3O4,V2O5,SrCO3,CaCO3,CuO" 1 "mixture-CAL(800C,24H in air)-pellet-SIN(830C,168H + 840C,168H)-quench to RT." Preparation and prorerties of Pb-and V-doped Bi-based superconductors 1996 "Institute of Chemical Technology, Technicka' 5, 166 28 Prague 6, Czech Republic" Supercond.Sci.Technol.9(1996)761 7334 SST0090761 "2223phase=62%, 2212phase=38%" "(Bi,Pb,V)4Sr4Ca5Cu7Oz" Bi3Pb0.8V0.2Sr4Ca5Cu7Oz Bi 3 Pb 0.8 V 0.2 Sr 4 Ca 5 Cu 7 O z 2 1996 5.411 37.118 K 110.8 110.8 "Bi2O3,Pb3O4,V2O5,SrCO3,CaCO3,CuO" 1 "mixture-CAL(800C,24H in air)-pellet-SIN(830C,168H + 840C,168H)-quench to RT." Preparation and prorerties of Pb-and V-doped Bi-based superconductors 1996 "Institute of Chemical Technology, Technicka' 5, 166 28 Prague 6, Czech Republic" Supercond.Sci.Technol.9(1996)761 7335 SST0090761 "2223phase<3%, 2212phase>97%" "(Bi,V)4Sr4Ca5Cu7Oz" Bi3.4V0.6Sr4Ca5Cu7Oz Bi 3.4 V 0.6 Sr 4 Ca 5 Cu 7 O z 2 1996 K 82.2 82.2 "Bi2O3,Pb3O4,V2O5,SrCO3,CaCO3,CuO" 1 "mixture-CAL(800C,24H in air)-pellet-SIN(830C,168H + 840C,168H)-quench to RT." Preparation and prorerties of Pb-and V-doped Bi-based superconductors 1996 "Institute of Chemical Technology, Technicka' 5, 166 28 Prague 6, Czech Republic" Supercond.Sci.Technol.9(1996)761 7336 SST0090761 "(Bi,V)4Sr4Ca5Cu7Oz" Bi3.6V0.4Sr4Ca5Cu7Oz Bi 3.6 V 0.4 Sr 4 Ca 5 Cu 7 O z 2 1996 Bi2212 K 84 84 "Bi2O3,Pb3O4,V2O5,SrCO3,CaCO3,CuO" 1 "mixture-CAL(800C,24H in air)-pellet-SIN(830C,168H + 840C,168H)-quench to RT." Preparation and prorerties of Pb-and V-doped Bi-based superconductors 1996 "Institute of Chemical Technology, Technicka' 5, 166 28 Prague 6, Czech Republic" Supercond.Sci.Technol.9(1996)761 7337 SST0090706 Hg1212 phase not found "(Hg,Ti)Sr2CaCu2O6" Hg0.8Ti0.2Sr2Ca1Cu2O6+z Hg 0.8 Ti 0.2 Sr 2 Ca 1 Cu 2 O 6+z 1996 K "TiO2,Sr(NO3)2,Y2O3,Ca(NO3)2,Cu(NO3)2,HgO" 1 "two-step solid state rection,orecursor(Ti0.2 Sr2 Ca1-xYx Cu2Oz)-addition of HgO-mixture-pellet-seal in quartz tube-heat(900C,6H+10H)-siow cool to RT" (Hg0.8Ti0.2)Sr2(Ca1-xYx)Cu2O6+z: a new series of mercury-based 1212 superconductors 1996 "Saha Institute of Nuclear Physics,1/AF Bidhannagar, Calcutta-700 064, India" Supercond.Sci.Technol.9(1996)706 7338 SST0090706 not s/c "(Hg,Ti)Sr2(Ca,Y)Ca2O6" Hg0.8Ti0.2Sr2Ca0.8Y0.2Cu2O6+z Hg 0.8 Ti 0.2 Sr 2 Ca 0.8 Y 0.2 Cu 2 O 6+z 2 1996 K 20 "TiO2,Sr(NO3)2,Y2O3,Ca(NO3)2,Cu(NO3)2,HgO" 1 "two-step solid state rection,orecursor(Ti0.2 Sr2 Ca1-xYx Cu2Oz)-addition of HgO-mixture-pellet-seal in quartz tube-heat(900C,6H+10H)-siow cool to RT" (Hg0.8Ti0.2)Sr2(Ca1-xYx)Cu2O6+z: a new series of mercury-based 1212 superconductors 1996 "Saha Institute of Nuclear Physics,1/AF Bidhannagar, Calcutta-700 064, India" Supercond.Sci.Technol.9(1996)706 7339 SST0090706 second Tc=52K "(Hg,Ti)Sr2(Ca,Y)Cu2O6" Hg0.8Ti0.2Sr2Ca0.7Y0.3Cu2O6+z Hg 0.8 Ti 0.2 Sr 2 Ca 0.7 Y 0.3 Cu 2 O 6+z 1 1996 2 Hg1212 3.822 11.905 K 31.7 81.8 56.75 32.8 51 "TiO2,Sr(NO3)2,Y2O3,Ca(NO3)2,Cu(NO3)2,HgO" 1 "two-step solid state rection,orecursor(Ti0.2 Sr2 Ca1-xYx Cu2Oz)-addition of HgO-mixture-pellet-seal in quartz tube-heat(900C,6H+10H)-siow cool to RT" (Hg0.8Ti0.2)Sr2(Ca1-xYx)Cu2O6+z: a new series of mercury-based 1212 superconductors 1996 "Saha Institute of Nuclear Physics,1/AF Bidhannagar, Calcutta-700 064, India" Supercond.Sci.Technol.9(1996)706 7340 SST0090706 second Tc=52K "(Hg,Ti)Sr2(Ca,Y)Cu2O6" Hg0.8Ti0.2Sr2Ca0.6Y0.4Cu2O6+z Hg 0.8 Ti 0.2 Sr 2 Ca 0.6 Y 0.4 Cu 2 O 6+z 1 1996 2 Hg1212 K 27.5 80 53.75 31.8 30 "TiO2,Sr(NO3)2,Y2O3,Ca(NO3)2,Cu(NO3)2,HgO" 1 "two-step solid state rection,orecursor(Ti0.2 Sr2 Ca1-xYx Cu2Oz)-addition of HgO-mixture-pellet-seal in quartz tube-heat(900C,6H+10H)-siow cool to RT" (Hg0.8Ti0.2)Sr2(Ca1-xYx)Cu2O6+z: a new series of mercury-based 1212 superconductors 1996 "Saha Institute of Nuclear Physics,1/AF Bidhannagar, Calcutta-700 064, India" Supercond.Sci.Technol.9(1996)706 7341 SST0090706 second Tc=52K "(Hg,Ti)Sr2(Ca,Y)Cu2O6" Hg0.8Ti0.2Sr2Ca0.5Y0.5Cu2O6+z Hg 0.8 Ti 0.2 Sr 2 Ca 0.5 Y 0.5 Cu 2 O 6+z 1 1996 2 Hg1212 3.824 11.901 K 39.1 82 60.55 21.9 10 "TiO2,Sr(NO3)2,Y2O3,Ca(NO3)2,Cu(NO3)2,HgO" 1 "two-step solid state rection,orecursor(Ti0.2 Sr2 Ca1-xYx Cu2Oz)-addition of HgO-mixture-pellet-seal in quartz tube-heat(900C,6H+10H)-siow cool to RT" (Hg0.8Ti0.2)Sr2(Ca1-xYx)Cu2O6+z: a new series of mercury-based 1212 superconductors 1996 "Saha Institute of Nuclear Physics,1/AF Bidhannagar, Calcutta-700 064, India" Supercond.Sci.Technol.9(1996)706 7342 SST0090706 second Tc=47K "(Hg,Ti)Sr2(Ca,Y)Cu2O6" Hg0.8Ti0.2Sr2Ca0.4Y0.6Cu2O6+z Hg 0.8 Ti 0.2 Sr 2 Ca 0.4 Y 0.6 Cu 2 O 6+z 1 1996 2 Hg1212 3.828 11.888 K 28.7 81.3 55 21.7 16 "TiO2,Sr(NO3)2,Y2O3,Ca(NO3)2,Cu(NO3)2,HgO" 1 "two-step solid state rection,orecursor(Ti0.2 Sr2 Ca1-xYx Cu2Oz)-addition of HgO-mixture-pellet-seal in quartz tube-heat(900C,6H+10H)-siow cool to RT" (Hg0.8Ti0.2)Sr2(Ca1-xYx)Cu2O6+z: a new series of mercury-based 1212 superconductors 1996 "Saha Institute of Nuclear Physics,1/AF Bidhannagar, Calcutta-700 064, India" Supercond.Sci.Technol.9(1996)706 7343 SST0090093 "(Bi,Pb)2Sr2CaCu2O8" Bi1.7Pb0.3Sr2Ca1Cu2O8.05 Bi 1.7 Pb 0.3 Sr 2 Ca 1 Cu 2 O z 8.05 1996 2 Bi2212 K 102 80.5 80.5 1 "ANN(450C,2H in vacuum)" "Systematics of the physical properties of Bi1.7Pb0.3Sr2(Ca,Nd)1Cu2Oy compounds" 1996 "Department of Physics,Osmania University, Hyderabad 500007, India" Supercond.Sci.Technol.9(1996)93 7344 SST0090093 "(Bi,Pb)2Sr2(Ca,Nd)Cu2O8" Bi1.7Pb0.3Sr2Ca0.99Nd0.01Cu2O8.03 Bi 1.7 Pb 0.3 Sr 2 Ca 0.99 Nd 0.01 Cu 2 O z 8.03 1996 2 Bi2212 K 102 82.5 82.5 1 "ANN(450C,2H in vacuum)" "Systematics of the physical properties of Bi1.7Pb0.3Sr2(Ca,Nd)1Cu2Oy compounds" 1996 "Department of Physics,Osmania University, Hyderabad 500007, India" Supercond.Sci.Technol.9(1996)93 7345 SST0090093 "(Bi,Pb)2Sr2(Ca,Nd)Cu2O8" Bi1.7Pb0.3Sr2Ca0.98Nd0.02Cu2O8.05 Bi 1.7 Pb 0.3 Sr 2 Ca 0.98 Nd 0.02 Cu 2 O z 8.05 1996 2 Bi2212 K 97 80.89 80.89 1 "ANN(450C,2H in vacuum)" "Systematics of the physical properties of Bi1.7Pb0.3Sr2(Ca,Nd)1Cu2Oy compounds" 1996 "Department of Physics,Osmania University, Hyderabad 500007, India" Supercond.Sci.Technol.9(1996)93 7346 SST0090093 "(Bi,Pb)2Sr2(Ca,Nd)Cu2O8" Bi1.7Pb0.3Sr2Ca0.96Y0.04Cu2O8.06 Bi 1.7 Pb 0.3 Sr 2 Ca 0.96 Y 0.04 Cu 2 O z 8.06 1996 2 Bi2212 K 93 78.5 78.5 1 "ANN(450C,2H in vacuum)" "Systematics of the physical properties of Bi1.7Pb0.3Sr2(Ca,Nd)1Cu2Oy compounds" 1996 "Department of Physics,Osmania University, Hyderabad 500007, India" Supercond.Sci.Technol.9(1996)93 7347 SST0090093 "(Bi,Pb)2Sr2(Ca,Nd)Cu2O8" Bi1.7Pb0.3Sr2Ca0.94Nd0.06Cu2O8.1 Bi 1.7 Pb 0.3 Sr 2 Ca 0.94 Nd 0.06 Cu 2 O z 8.1 1996 2 Bi2212 K 90 81.27 81.27 1 "ANN(450C,2H in vacuum)" "Systematics of the physical properties of Bi1.7Pb0.3Sr2(Ca,Nd)1Cu2Oy compounds" 1996 "Department of Physics,Osmania University, Hyderabad 500007, India" Supercond.Sci.Technol.9(1996)93 7348 SST0090093 "(Bi,Pb)2Sr2(Ca,Nd)Cu2O8" Bi1.7Pb0.3Sr2Ca0.92Nd0.08Cu2O8.16 Bi 1.7 Pb 0.3 Sr 2 Ca 0.92 Nd 0.08 Cu 2 O z 8.16 1996 2 Bi2212 K 88 84.11 84.11 1 "ANN(450C,2H in vacuum)" "Systematics of the physical properties of Bi1.7Pb0.3Sr2(Ca,Nd)1Cu2Oy compounds" 1996 "Department of Physics,Osmania University, Hyderabad 500007, India" Supercond.Sci.Technol.9(1996)93 7349 SST0090093 "(Bi,Pb)2Sr2(Ca,Nd)Cu2O8" Bi1.7Pb0.3Sr2Ca0.9Nd0.1Cu2O8.27 Bi 1.7 Pb 0.3 Sr 2 Ca 0.9 Nd 0.1 Cu 2 O z 8.27 1996 2 Bi2212 K 84 76.67 76.67 1 "ANN(450C,2H in vacuum)" "Systematics of the physical properties of Bi1.7Pb0.3Sr2(Ca,Nd)1Cu2Oy compounds" 1996 "Department of Physics,Osmania University, Hyderabad 500007, India" Supercond.Sci.Technol.9(1996)93 7350 CEM1250117 metallic "(Pr,Sr)8Cu8O20" Pr5.2Sr2.8Cu8O20 Pr 5.2 Sr 2.8 Cu 8 O 20 1996 P4/mbm 127 10.8 3.805 K 13 3.4 "CuO,Pr6O11,Nd2O3,SrCO3" "moxture-pellet-heat(1273K,40H in flowing O2 in alumina crucible)-Q to RT-heat(1273K,20H in 20% O2+80%Ar,under 100MPa using HIP)" "(RE1-xSrx)8Cu8O20(RE=Pr,ND) Synthesized under a High Pressure of Oxygen, Po2=20 MPa" 1996 "Institute for Materials Research, Tohoku University, Katahira 2-1-1, Aoba-ku, Sendai 980-77, Japan" J.Solid State Chem.125(1996)117 7351 CEM1250117 "(Nd,Sr)8Cu8O20" Nd4.8Sr3.2Cu8O20 Nd 4.8 Sr 3.2 Cu 8 O 20 1996 P4/mbm 127 10.796 3.784 K 13 7 "CuO,Pr6O11,Nd2O3,SrCO3" "moxture-pellet-heat(1273K,40H in flowing O2 in alumina crucible)-Q to RT-heat(1273K,20H in 20% O2+80%Ar,under 100MPa using HIP)" "(RE1-xSrx)8Cu8O20(RE=Pr,ND) Synthesized under a High Pressure of Oxygen, Po2=20 MPa" 1996 "Institute for Materials Research, Tohoku University, Katahira 2-1-1, Aoba-ku, Sendai 980-77, Japan" J.Solid State Chem.125(1996)117 7352 SST0090161 "grain size=1-10 micron,intergranulor Hc1=11Oe" "(Y,Sm)Ba2Cu3O7" Y0.5Sm0.5Ba2Cu3O7-z Y 0.5 Sm 0.5 Ba 2 Cu 3 O 7-z 1996 Y123 K 92 92 141 "liquid mix technique, fire(950C,20H)-ANN(450C,2weeks in flowing O2)" "Magnetic flux penetration and creep in a ceramic(Y,Sm)Ba2Cu3O7 superconductor" 1996 "Institut de Cie'ncia de Materials de Barcelona, CSIC, Campus Universitat Auto'noma de Barcelona,08193 Bellaterra, Spain" Supercond.Sci.Technol.9(1996)161 7353 SUP0100059 "(Er,Ca)Ba2(Cu,Co)3O7" Er0.76Ca0.24Ba2Cu2.76Co0.24O6.92 Er 0.76 Ca 0.24 Ba 2 Cu 2.76 Co 0.24 O z 6.92 1 1997 3 Y123 3.824 3.824 11.611 K 81 84 87 87 84 "BaCO3,CuO,Co3O4,CaCO3,SrO" "mixture-heat(940C,24H in air)-pellet-SIN(940C,24H in air)-ANN(550C,24H in O2 flow)-slow cool to RT(1C/min)" Effect of Sr and Sr-Ca Substitution on the Superconductivity of (Er0.76Ca0.24)Ba2(Cu2.76Co0.24)Oz 1997 "Department of Physics,Saurashtra University, Rajkot-360 005, India" "J.Superconductivity,Vol,10(1997)59" 7354 SUP0100059 "(Er,Ca)(Ba,Sr)2(Cu,Co)3O7" Er0.76Ca0.24Ba1.8Sr0.2Cu2.76Co0.24O6.91 Er 0.76 Ca 0.24 Ba 1.8 Sr 0.2 Cu 2.76 Co 0.24 O z 6.91 1 1997 3 Y123 3.76 3.832 11.787 K 76 81 85 77 81 "BaCO3,CuO,Co3O4,CaCO3,SrO" "mixture-heat(940C,24H in air)-pellet-SIN(940C,24H in air)-ANN(550C,24H in O2 flow)-slow cool to RT(1C/min)" Effect of Sr and Sr-Ca Substitution on the Superconductivity of (Er0.76Ca0.24)Ba2(Cu2.76Co0.24)Oz 1997 "Department of Physics,Saurashtra University, Rajkot-360 005, India" "J.Superconductivity,Vol,10(1997)59" 7355 SUP0100059 "(Er,Ca)(Ba,Sr)2(Cu,Co)3O7" Er0.76Ca0.24Ba1.6Sr0.4Cu2.76Co0.24O6.88 Er 0.76 Ca 0.24 Ba 1.6 Sr 0.4 Cu 2.76 Co 0.24 O z 6.88 1 1997 3 Y123 3.833 3.895 11.61 K 74 77 80 70 77 "BaCO3,CuO,Co3O4,CaCO3,SrO" "mixture-heat(940C,24H in air)-pellet-SIN(940C,24H in air)-ANN(550C,24H in O2 flow)-slow cool to RT(1C/min)" Effect of Sr and Sr-Ca Substitution on the Superconductivity of (Er0.76Ca0.24)Ba2(Cu2.76Co0.24)Oz 1997 "Department of Physics,Saurashtra University, Rajkot-360 005, India" "J.Superconductivity,Vol,10(1997)59" 7356 SUP0100059 "(Er,Ca)(Ba,Sr)2(Cu,Co)3O7" Er0.76Ca0.24Ba1.4Sr0.6Cu2.76Co0.24O6.84 Er 0.76 Ca 0.24 Ba 1.4 Sr 0.6 Cu 2.76 Co 0.24 O z 6.84 1 1997 3 Y123 3.84 3.902 11.585 K 54 64 74 54 64 "BaCO3,CuO,Co3O4,CaCO3,SrO" "mixture-heat(940C,24H in air)-pellet-SIN(940C,24H in air)-ANN(550C,24H in O2 flow)-slow cool to RT(1C/min)" Effect of Sr and Sr-Ca Substitution on the Superconductivity of (Er0.76Ca0.24)Ba2(Cu2.76Co0.24)Oz 1997 "Department of Physics,Saurashtra University, Rajkot-360 005, India" "J.Superconductivity,Vol,10(1997)59" 7357 SUP0100059 "(Er,Ca)(Ba,Sr)2(Cu,Co)3O7" Er0.64Ca0.36Ba1.4Sr0.6Cu2.76Co0.24O6.8 Er 0.64 Ca 0.36 Ba 1.4 Sr 0.6 Cu 2.76 Co 0.24 O z 6.8 1 1997 3 Y123 3.847 3.846 11.611 K 48 48 "BaCO3,CuO,Co3O4,CaCO3,SrO" "mixture-heat(940C,24H in air)-pellet-SIN(940C,24H in air)-ANN(550C,24H in O2 flow)-slow cool to RT(1C/min)" Effect of Sr and Sr-Ca Substitution on the Superconductivity of (Er0.76Ca0.24)Ba2(Cu2.76Co0.24)Oz 1997 "Department of Physics,Saurashtra University, Rajkot-360 005, India" "J.Superconductivity,Vol,10(1997)59" 7358 SUP0100059 "(Er,Ca)(Ba,Sr)2(Cu,Co)3O7" Er0.52Ca0.48Ba1.4Sr0.6Cu2.76Co0.24O6.77 Er 0.52 Ca 0.48 Ba 1.4 Sr 0.6 Cu 2.76 Co 0.24 O z 6.77 1 1997 3 Y123 3.844 3.832 11.63 K 54 54 "BaCO3,CuO,Co3O4,CaCO3,SrO" "mixture-heat(940C,24H in air)-pellet-SIN(940C,24H in air)-ANN(550C,24H in O2 flow)-slow cool to RT(1C/min)" Effect of Sr and Sr-Ca Substitution on the Superconductivity of (Er0.76Ca0.24)Ba2(Cu2.76Co0.24)Oz 1997 "Department of Physics,Saurashtra University, Rajkot-360 005, India" "J.Superconductivity,Vol,10(1997)59" 7359 SUP0100045 LaBa2Cu3O7 La1Ba2Cu3Oz La 1 Ba 2 Cu 3 O z 1997 3 Y123 3.922 3.942 11.822 K 70.34 70.34 "CuO,Y2O3,Fe2O3,BaCO3" 1 "mixture-heat(930-910C,24H in air)-FC-pellet-SIN(930-910C,24H in flowing O2)-ANN(350C,24H)-FC" A Structural Transition of Fe-Doped Superconducting Cuprates 1997 "Department of Physics and National Laboratory of Solid State Microstructure, Nanjing University,Nanjing 210093, Peoples Republic of China" "J.Superconductivity,Vol.10,(1997)45" 7360 SUP0100045 "LaBa2(Cu,Fe)3O7" La1Ba2Cu2.97Fe0.03Oz La 1 Ba 2 Cu 2.97 Fe 0.03 O z 1997 3 Y123 3.925 3.935 11.821 K 55.23 55.23 "CuO,Y2O3,Fe2O3,BaCO3" 1 "mixture-heat(930-910C,24H in air)-FC-pellet-SIN(930-910C,24H in flowing O2)-ANN(350C,24H)-FC" A Structural Transition of Fe-Doped Superconducting Cuprates 1997 "Department of Physics and National Laboratory of Solid State Microstructure, Nanjing University,Nanjing 210093, Peoples Republic of China" "J.Superconductivity,Vol.10,(1997)45" 7361 SUP0100045 "LaBa2(Cu,Fe)3O7" La1Ba2Cu2.94Fe0.06Oz La 1 Ba 2 Cu 2.94 Fe 0.06 O z 1997 2 Y123 3.929 11.812 K 35.9 35.9 "CuO,Y2O3,Fe2O3,BaCO3" 1 "mixture-heat(930-910C,24H in air)-FC-pellet-SIN(930-910C,24H in flowing O2)-ANN(350C,24H)-FC" A Structural Transition of Fe-Doped Superconducting Cuprates 1997 "Department of Physics and National Laboratory of Solid State Microstructure, Nanjing University,Nanjing 210093, Peoples Republic of China" "J.Superconductivity,Vol.10,(1997)45" 7362 SUP0100045 "LaBa2(Cu,Fe)3O7" La1Ba2Cu2.9Fe0.1Oz La 1 Ba 2 Cu 2.9 Fe 0.1 O z 1997 2 Y123 3.934 11.83 K "CuO,Y2O3,Fe2O3,BaCO3" 1 "mixture-heat(930-910C,24H in air)-FC-pellet-SIN(930-910C,24H in flowing O2)-ANN(350C,24H)-FC" A Structural Transition of Fe-Doped Superconducting Cuprates 1997 "Department of Physics and National Laboratory of Solid State Microstructure, Nanjing University,Nanjing 210093, Peoples Republic of China" "J.Superconductivity,Vol.10,(1997)45" 7363 SUP0100045 "LaBa2(Cu,Fe)3O7" La1Ba2Cu2.25Fe0.75Oz La 1 Ba 2 Cu 2.25 Fe 0.75 O z 1997 3 Y123 3.913 3.944 11.933 K "CuO,Y2O3,Fe2O3,BaCO3" 1 "mixture-heat(930-910C,24H in air)-FC-pellet-SIN(930-910C,24H in flowing O2)-ANN(350C,24H)-FC" A Structural Transition of Fe-Doped Superconducting Cuprates 1997 "Department of Physics and National Laboratory of Solid State Microstructure, Nanjing University,Nanjing 210093, Peoples Republic of China" "J.Superconductivity,Vol.10,(1997)45" 7364 SST0090529 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+z Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 1 1996 2 Bi2212 5.41 30.984 K TP7364 "Bi2O3,SrCO3,CaCO3,CeO2,CuO" 1 "mixture-CAL(800C,13H in air)-pellet-CAL(820C,8H + 840C,12.5H+860C,15H in air with intermediate grindings)-FC to RT" Thermoelectric power of the Bi2Sr2Ca1-xCexCu2O8+y system 1996 "School of Science and Engineering, Teikyo University, 1-1 Toyosatodai, Utsunomiya 320, Japan" Supercond.Sci.Technol.9(1996)529 7365 SST0090529 "Bi2Sr2(Ca,Ce)Cu2O8" Bi2Sr2Ca0.95Ce0.05Cu2O8+z Bi 2 Sr 2 Ca 0.95 Ce 0.05 Cu 2 O 8+z 1 1996 2 Bi2212 5.415 30.932 K TP7365 "Bi2O3,SrCO3,CaCO3,CeO2,CuO" 1 "mixture-CAL(800C,13H in air)-pellet-CAL(820C,8H + 840C,12.5H+860C,15H in air with intermediate grindings)-FC to RT" Thermoelectric power of the Bi2Sr2Ca1-xCexCu2O8+y system 1996 "School of Science and Engineering, Teikyo University, 1-1 Toyosatodai, Utsunomiya 320, Japan" Supercond.Sci.Technol.9(1996)529 7366 SST0090529 "Bi2Sr2(Ca,Ce)Cu2O8" Bi2Sr2Ca0.9Ce0.1Cu2O8+z Bi 2 Sr 2 Ca 0.9 Ce 0.1 Cu 2 O 8+z 1 1996 2 Bi2212 5.418 30.878 K TP7366 "Bi2O3,SrCO3,CaCO3,CeO2,CuO" 1 "mixture-CAL(800C,13H in air)-pellet-CAL(820C,8H + 840C,12.5H+860C,15H in air with intermediate grindings)-FC to RT" Thermoelectric power of the Bi2Sr2Ca1-xCexCu2O8+y system 1996 "School of Science and Engineering, Teikyo University, 1-1 Toyosatodai, Utsunomiya 320, Japan" Supercond.Sci.Technol.9(1996)529 7367 SST0090529 "Bi2Sr2(Ca,Ce)Cu2O8" Bi2Sr2Ca0.8Ce0.2Cu2O8+z Bi 2 Sr 2 Ca 0.8 Ce 0.2 Cu 2 O 8+z 1 1996 2 Bi2212 5.426 30.529 K TP7367 "Bi2O3,SrCO3,CaCO3,CeO2,CuO" 1 "mixture-CAL(800C,13H in air)-pellet-CAL(820C,8H + 840C,12.5H+860C,15H in air with intermediate grindings)-FC to RT" Thermoelectric power of the Bi2Sr2Ca1-xCexCu2O8+y system 1996 "School of Science and Engineering, Teikyo University, 1-1 Toyosatodai, Utsunomiya 320, Japan" Supercond.Sci.Technol.9(1996)529 7368 SST0090529 "Bi2Sr2(Ca,Ce)Cu2O8" Bi2Sr2Ca0.6Ce0.4Cu2O8+z Bi 2 Sr 2 Ca 0.6 Ce 0.4 Cu 2 O 8+z 1 1996 2 Bi2212 5.434 30.125 K TP7368 "Bi2O3,SrCO3,CaCO3,CeO2,CuO" 1 "mixture-CAL(800C,13H in air)-pellet-CAL(820C,8H + 840C,12.5H+860C,15H in air with intermediate grindings)-FC to RT" Thermoelectric power of the Bi2Sr2Ca1-xCexCu2O8+y system 1996 "School of Science and Engineering, Teikyo University, 1-1 Toyosatodai, Utsunomiya 320, Japan" Supercond.Sci.Technol.9(1996)529 7369 PHC2780107 semiconductor "Ysr2(Cu,B)3O7" Y1Sr2Cu2.5B0.5Oz Y 1 Sr 2 Cu 2.5 B 0.5 O z 1997 2 1212 3.826 10.984 K 5 "Y2O3,SrCO3,BaCO3,CuO,H3BO3,S" 1 "mixture-heat(950C,20H)-mix with S powder-SIN(1040C,or 1010C,20H in air)-slow cool to RT-heat another 20H" "The effects of sulphur substitution on Y(Ba,Sr)2Cu2.5B0.5Oz systems" 1997 4 "National Laboratory for Superconductivity, Institute of Physics, Academia Sinica, Beijing 100080, China" "Physica.C,278(1997)107-112" 7370 PHC2780107 semiconductor "YSr2(Cu,B,S)3O7" Y1Sr2Cu2.5B0.4S0.1Oz Y 1 Sr 2 Cu 2.5 B 0.4 S 0.1 O z 1997 2 1212 3.825 11.052 K 5 "Y2O3,SrCO3,BaCO3,CuO,H3BO3,S" 1 "mixture-heat(950C,20H)-mix with S powder-SIN(1040C,or 1010C,20H in air)-slow cool to RT-heat another 20H" "The effects of sulphur substitution on Y(Ba,Sr)2Cu2.5B0.5Oz systems" 1997 4 "National Laboratory for Superconductivity, Institute of Physics, Academia Sinica, Beijing 100080, China" "Physica.C,278(1997)107-112" 7371 PHC2780107 semiconductor "YSr2(Cu,B,S)3O7" Y1Sr2Cu2.5B0.3S0.2Oz Y 1 Sr 2 Cu 2.5 B 0.3 S 0.2 O z 1997 2 1212 3.833 11.108 K 5 "Y2O3,SrCO3,BaCO3,CuO,H3BO3,S" 1 "mixture-heat(950C,20H)-mix with S powder-SIN(1040C,or 1010C,20H in air)-slow cool to RT-heat another 20H" "The effects of sulphur substitution on Y(Ba,Sr)2Cu2.5B0.5Oz systems" 1997 4 "National Laboratory for Superconductivity, Institute of Physics, Academia Sinica, Beijing 100080, China" "Physica.C,278(1997)107-112" 7372 PHC2780107 semiconductor "YSr2(Cu,B,S)3O7" Y1Sr2Cu2.5B0.2S0.3Oz Y 1 Sr 2 Cu 2.5 B 0.2 S 0.3 O z 1997 2 1212 3.837 11.164 K 5 "Y2O3,SrCO3,BaCO3,CuO,H3BO3,S" 1 "mixture-heat(950C,20H)-mix with S powder-SIN(1040C,or 1010C,20H in air)-slow cool to RT-heat another 20H" "The effects of sulphur substitution on Y(Ba,Sr)2Cu2.5B0.5Oz systems" 1997 4 "National Laboratory for Superconductivity, Institute of Physics, Academia Sinica, Beijing 100080, China" "Physica.C,278(1997)107-112" 7373 PHC2780107 semoconductor "YSr2(Cu,B,S)3O7" Y1Sr2Cu2.5B0.1S0.4Oz Y 1 Sr 2 Cu 2.5 B 0.1 S 0.4 O z 1997 2 1212 3.839 11.189 K 5 "Y2O3,SrCO3,BaCO3,CuO,H3BO3,S" 1 "mixture-heat(950C,20H)-mix with S powder-SIN(1040C,or 1010C,20H in air)-slow cool to RT-heat another 20H" "The effects of sulphur substitution on Y(Ba,Sr)2Cu2.5B0.5Oz systems" 1997 4 "National Laboratory for Superconductivity, Institute of Physics, Academia Sinica, Beijing 100080, China" "Physica.C,278(1997)107-112" 7374 PHC2780107 "Y(Ba,Sr)(Cu,B)3Oz" Y1Ba1Sr1Cu2.5B0.5Oz Y 1 Ba 1 Sr 1 Cu 2.5 B 0.5 O z 1997 2 1212 3.848 11.281 K 41.2 41.2 "Y2O3,SrCO3,BaCO3,CuO,H3BO3,S" 1 "mixture-heat(950C,20H)-mix with S powder-SIN(1040C,or 1010C,20H in air)-slow cool to RT-heat another 20H" "The effects of sulphur substitution on Y(Ba,Sr)2Cu2.5B0.5Oz systems" 1997 4 "National Laboratory for Superconductivity, Institute of Physics, Academia Sinica, Beijing 100080, China" "Physica.C,278(1997)107-112" 7375 PHC2780107 "Y(Ba,Sr)(Cu,B,S)3Oz" Y1Ba1Sr1Cu2.5B0.1S0.4Oz Y 1 Ba 1 Sr 1 Cu 2.5 B 0.1 S 0.4 O z 1997 2 1212 3.833 11.483 K 44 44 "Y2O3,SrCO3,BaCO3,CuO,H3BO3,S" 1 "mixture-heat(950C,20H)-mix with S powder-SIN(1040C,or 1010C,20H in air)-slow cool to RT-heat another 20H" "The effects of sulphur substitution on Y(Ba,Sr)2Cu2.5B0.5Oz systems" 1997 4 "National Laboratory for Superconductivity, Institute of Physics, Academia Sinica, Beijing 100080, China" "Physica.C,278(1997)107-112" 7376 PHC2780107 "Y(Ba,Sr)(Cu,B,S)3Oz" Y1Ba1Sr1Cu2.5S0.5Oz Y 1 Ba 1 Sr 1 Cu 2.5 S 0.5 O z 1997 2 1212 3.834 11.518 K 50.9 50.9 "Y2O3,SrCO3,BaCO3,CuO,H3BO3,S" 1 "mixture-heat(950C,20H)-mix with S powder-SIN(1040C,or 1010C,20H in air)-slow cool to RT-heat another 20H" "The effects of sulphur substitution on Y(Ba,Sr)2Cu2.5B0.5Oz systems" 1997 4 "National Laboratory for Superconductivity, Institute of Physics, Academia Sinica, Beijing 100080, China" "Physica.C,278(1997)107-112" 7377 PHC2780107 "Y(Ba,Sr)(Cu,B,S)3Oz" Y1Ba1Sr1Cu2.5B0.2S0.3Oz Y 1 Ba 1 Sr 1 Cu 2.5 B 0.2 S 0.3 O z 1997 2 1212 3.838 11.426 K 25 25 "Y2O3,SrCO3,BaCO3,CuO,H3BO3,S" 1 "mixture-heat(950C,20H)-mix with S powder-SIN(1040C,or 1010C,20H in air)-slow cool to RT-heat another 20H" "The effects of sulphur substitution on Y(Ba,Sr)2Cu2.5B0.5Oz systems" 1997 4 "National Laboratory for Superconductivity, Institute of Physics, Academia Sinica, Beijing 100080, China" "Physica.C,278(1997)107-112" 7378 PHC2780107 smiconductor "Y(Ba,Sr)(Cu,B,S)Oz" Y1Ba1Sr1Cu2.5B0.3S0.2Oz Y 1 Ba 1 Sr 1 Cu 2.5 B 0.3 S 0.2 O z 1997 2 1212 3.842 11.362 K 50 "Y2O3,SrCO3,BaCO3,CuO,H3BO3,S" 1 "mixture-heat(950C,20H)-mix with S powder-SIN(1040C,or 1010C,20H in air)-slow cool to RT-heat another 20H" "The effects of sulphur substitution on Y(Ba,Sr)2Cu2.5B0.5Oz systems" 1997 4 "National Laboratory for Superconductivity, Institute of Physics, Academia Sinica, Beijing 100080, China" "Physica.C,278(1997)107-112" 7379 PHC2780107 "Y(Sr,Ba)2(Cu,B,S)3)Oz" Y1Sr0.5Ba1.5Cu2.5B0.1S0.4Oz Y 1 Sr 0.5 Ba 1.5 Cu 2.5 B 0.1 S 0.4 O z 1997 1212 3.847 11.533 K 56.5 56.5 "The effects of sulphur substitution on Y(Ba,Sr)2Cu2.5B0.5Oz systems" 1997 4 "National Laboratory for Superconductivity, Institute of Physics, Academia Sinica, Beijing 100080, China" "Physica.C,278(1997)107-112" 7380 PHC2780107 "Y(Sr,Ba)2(Cu,B,S)2Oz" Y1Sr0.5Ba1.5Cu2.5S0.5Oz Y 1 Sr 0.5 Ba 1.5 Cu 2.5 S 0.5 O z 1997 1212 3.853 11.582 K 75.6 75.6 "The effects of sulphur substitution on Y(Ba,Sr)2Cu2.5B0.5Oz systems" 1997 4 "National Laboratory for Superconductivity, Institute of Physics, Academia Sinica, Beijing 100080, China" "Physica.C,278(1997)107-112" 7381 PR05111753 films by laser ablation. "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.8Fe0.2Oz Y 1 Ba 2 Cu 2.8 Fe 0.2 O z 4 1995 Y123 K 57 57 "defined as R/Rn=0.5,extraporete linearly to OK" 26.8 0.48 "films were deposited on LaAlO3(001) by pulsed excimen laser ablation, annealed at 500-650C for 1H" Resistivity transitions in apploed mpplied magnetic fields in epitaxial thin films of Fe-and Zn-doped YBa2Cu3O7-z 1995 5 "Phys.Rev.B,51(1995)11753" "Fe, Zn, Y, Ba, Cu, O" 7382 PR05111753 films by laser ablation. "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.8Zn0.2Oz Y 1 Ba 2 Cu 2.8 Zn 0.2 O z 4 1995 Y123 K 51.7 51.7 50.4 "defined as R/Rn=0.5,extraporete linearly to OK" 0.98 "films were deposited on LaAlO3(001) by pulsed excimen laser ablation, annealed at 500-650C for 1H" Resistivity transitions in apploed mpplied magnetic fields in epitaxial thin films of Fe-and Zn-doped YBa2Cu3O7-z 1995 5 "Phys.Rev.B,51(1995)11753" "Fe, Zn, Y, Ba, Cu, O" 7383 PHC2780113 "c-axis oriented film,d=3000A" YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 5 1997 Y123 K 87 1 87 "defined as R/Rn=0.5,extraporate linearly to OK" 5.6 1.78 0.178 "using inverted cylindrical DC magnetron sputtering,films were deposited on MgO(100)sulstrates,T(sub)=770C,oxygenayed in-situ at 450C for 40min." Thermally activated flux motion in YBa2(Cu1-xZnx)3O7-8 epitaxial thin films: influence of magnetic field and Zn doping 1997 4 "Universite' Libre de Bruxelles, CP-233, Bd, du Triomphe, B1050 Bruxelles, Belgium" "Physica.C,278(1997)113-121" 7384 PHC2780113 "c-axis oriented film,d=3000A" "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.94Zn0.06O7-z Y 1 Ba 2 Cu 2.94 Zn 0.06 O 7-z 1997 Y123 K 73 3 73 "defined as R/Rn=0.5,extraporate linearly to OK" 6.3 1.8 0.366 "using inverted cylindrical DC magnetron sputtering,films were deposited on MgO(100)sulstrates,T(sub)=770C,oxygenayed in-situ at 450C for 40min." Thermally activated flux motion in YBa2(Cu1-xZnx)3O7-8 epitaxial thin films: influence of magnetic field and Zn doping 1997 4 "Universite' Libre de Bruxelles, CP-233, Bd, du Triomphe, B1050 Bruxelles, Belgium" "Physica.C,278(1997)113-121" 7385 PHC2780113 "c-axis oriented film,d=3000A" "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.88Zn0.12O7-z Y 1 Ba 2 Cu 2.88 Zn 0.12 O 7-z 1997 Y123 K 60 5 60 "defined as R/Rn=0.5,extraporate linearly to OK" 6.6 1.5 0.497 "using inverted cylindrical DC magnetron sputtering,films were deposited on MgO(100)sulstrates,T(sub)=770C,oxygenayed in-situ at 450C for 40min." Thermally activated flux motion in YBa2(Cu1-xZnx)3O7-8 epitaxial thin films: influence of magnetic field and Zn doping 1997 4 "Universite' Libre de Bruxelles, CP-233, Bd, du Triomphe, B1050 Bruxelles, Belgium" "Physica.C,278(1997)113-121" 7386 PHC2780039 "(Gd,Ce)2CuO4" Gd1.85Ce0.15Cu1O4 Gd 1.85 Ce 0.15 Cu 1 O 4 1 1997 158 153 T' 3.905 K 1 "Weak ferromagnetism and superconductivity in (Gd,R)1.85Ce0.15CuO4 with R=Pr,Nd, and Sm" 1997 4 "Department of Chemistry, Peking University, Beijing, People's Republic of China" "Physica.C,278(1997)39-42" 7387 PHC2780039 "(Gd,Pr,Ce)2CuO4" Gd1.75Pr0.1Ce0.15Cu1O4 Gd 1.75 Pr 0.1 Ce 0.15 Cu 1 O 4 1997 165 154 T' 3.907 11.841 K 1 "Weak ferromagnetism and superconductivity in (Gd,R)1.85Ce0.15CuO4 with R=Pr,Nd, and Sm" 1997 4 "Department of Chemistry, Peking University, Beijing, People's Republic of China" "Physica.C,278(1997)39-42" 7388 PHC2780039 "(Gd,Pr,Ce)2CuO4" Gd1.55Pr0.3Ce0.15Cu1O4 Gd 1.55 Pr 0.3 Ce 0.15 Cu 1 O 4 1997 144 145 T' 3.911 11.873 K 1 "Weak ferromagnetism and superconductivity in (Gd,R)1.85Ce0.15CuO4 with R=Pr,Nd, and Sm" 1997 4 "Department of Chemistry, Peking University, Beijing, People's Republic of China" "Physica.C,278(1997)39-42" 7389 PHC2780039 "(Gd,Nd,Ce)2CuO4" Gd1.65Nd0.2Ce0.15Cu1O4 Gd 1.65 Nd 0.2 Ce 0.15 Cu 1 O 4 1997 148 140 T' 3.912 11.864 K 1 "Weak ferromagnetism and superconductivity in (Gd,R)1.85Ce0.15CuO4 with R=Pr,Nd, and Sm" 1997 4 "Department of Chemistry, Peking University, Beijing, People's Republic of China" "Physica.C,278(1997)39-42" 7390 PHC2780039 "(Gd,Nd,Ce)2CuO4" Gd1.5Nd0.35Ce0.15Cu1O4 Gd 1.5 Nd 0.35 Ce 0.15 Cu 1 O 4 1997 119 97 T' 3.915 11.883 K 1 "Weak ferromagnetism and superconductivity in (Gd,R)1.85Ce0.15CuO4 with R=Pr,Nd, and Sm" 1997 4 "Department of Chemistry, Peking University, Beijing, People's Republic of China" "Physica.C,278(1997)39-42" 7391 PHC2780039 "(Gd,Sm,Ce)2CuO4" Gd1.55Sm0.3Ce0.15Cu1O4 Gd 1.55 Sm 0.3 Ce 0.15 Cu 1 O 4 1 1997 154 152 T' 3.906 11.846 K 1 "Weak ferromagnetism and superconductivity in (Gd,R)1.85Ce0.15CuO4 with R=Pr,Nd, and Sm" 1997 4 "Department of Chemistry, Peking University, Beijing, People's Republic of China" "Physica.C,278(1997)39-42" 7392 PHC2780039 "(Gd,Sm,Ce)2CuO4" Gd1.3Sm0.55Ce0.15Cu1O4 Gd 1.3 Sm 0.55 Ce 0.15 Cu 1 O 4 1 1997 149 144 T' 3.907 11.851 K 1 "Weak ferromagnetism and superconductivity in (Gd,R)1.85Ce0.15CuO4 with R=Pr,Nd, and Sm" 1997 4 "Department of Chemistry, Peking University, Beijing, People's Republic of China" "Physica.C,278(1997)39-42" 7393 PHC2780039 "(Gd,Sm,Ce)2CuO4" Gd1.1Sm0.75Ce0.15Cu1O4 Gd 1.1 Sm 0.75 Ce 0.15 Cu 1 O 4 1 1997 127 T' 3.91 11.858 K 1 "Weak ferromagnetism and superconductivity in (Gd,R)1.85Ce0.15CuO4 with R=Pr,Nd, and Sm" 1997 4 "Department of Chemistry, Peking University, Beijing, People's Republic of China" "Physica.C,278(1997)39-42" 7394 PHC2780011 PPenet=1850A by Hao's model Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+z Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 3 1997 Bi2212 K 82 82 4.5 2220 "self-flux method, se Physica C 225(1994)235" Growth and superconductivity of Bi2Sr2Ca1-xYxCu2O8+z single crystals in the Tc optimum region 1997 4 "Laboratoire CRISMAT. ISMRA et Universite' de Caen, UMR 6508, associee' au CNRS, 6 Bd du Marechal Juin, 14050 Caen cedex, France" "Physica.C,278(1997)11-22" 7395 PHC2780011 ppenet=1580A by Hao's model "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.79Y0.21Cu2O8+z Bi 2 Sr 2 Ca 0.79 Y 0.21 Cu 2 O 8+z 3 1997 Bi2212 K 89.4 89.4 2.5 1900 "self-flux method, se Physica C 225(1994)235" Growth and superconductivity of Bi2Sr2Ca1-xYxCu2O8+z single crystals in the Tc optimum region 1997 4 "Laboratoire CRISMAT. ISMRA et Universite' de Caen, UMR 6508, associee' au CNRS, 6 Bd du Marechal Juin, 14050 Caen cedex, France" "Physica.C,278(1997)11-22" 7396 PHC2780011 ppenet=2150A by Hao's model "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.72Y0.28Cu2O8+z Bi 2 Sr 2 Ca 0.72 Y 0.28 Cu 2 O 8+z 3 1997 Bi2212 K 91.5 91.5 3.7 2590 "self-flux method, se Physica C 225(1994)235" Growth and superconductivity of Bi2Sr2Ca1-xYxCu2O8+z single crystals in the Tc optimum region 1997 4 "Laboratoire CRISMAT. ISMRA et Universite' de Caen, UMR 6508, associee' au CNRS, 6 Bd du Marechal Juin, 14050 Caen cedex, France" "Physica.C,278(1997)11-22" 7397 PHC2780011 ppenet=2470A by Hao's model "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.64Y0.36Cu2O8+z Bi 2 Sr 2 Ca 0.64 Y 0.36 Cu 2 O 8+z 3 1997 Bi2212 K 88 88 1.7 2980 "self-flux method, se Physica C 225(1994)235" Growth and superconductivity of Bi2Sr2Ca1-xYxCu2O8+z single crystals in the Tc optimum region 1997 4 "Laboratoire CRISMAT. ISMRA et Universite' de Caen, UMR 6508, associee' au CNRS, 6 Bd du Marechal Juin, 14050 Caen cedex, France" "Physica.C,278(1997)11-22" 7398 PHC2770119 "(Hg,(VO4))Ba2CuOz" Hg0.7V0.3Ba2Cu1O3.4+z Hg 0.7 V 0.3 Ba 2 Cu 1 O 3.4+z 1997 2 Hg1201 K 70 70 48 1 "mixture=sealed in quartz tube-heat(720C,16H)-Q to RT" "The 1201 superconductors Hg1-y(VO4)y(Ba,Sr)2CuO4-2y+z: evidence for VO4 tetrahedra" 1997 4 "Laboratoire CRISMAT,CNRS URA 1318,ISMRA et Universite' de Caen, Bd Marechal Juin, 14050 Caen Cedex, France" "Physica.C,277(1997)119-132" 7399 PHC2770119 "(Hg,VO4)(Ba,Sr)2CuOz" Hg0.7V0.3Ba1.75Sr0.25Cu1O4.6+z Hg 0.7 V 0.3 Ba 1.75 Sr 0.25 Cu 1 O 4.6+z 1997 2 Hg1201 K 65 65 44 1 "mixture=sealed in quartz tube-heat(720C,16H)-Q to RT" "The 1201 superconductors Hg1-y(VO4)y(Ba,Sr)2CuO4-2y+z: evidence for VO4 tetrahedra" 1997 4 "Laboratoire CRISMAT,CNRS URA 1318,ISMRA et Universite' de Caen, Bd Marechal Juin, 14050 Caen Cedex, France" "Physica.C,277(1997)119-132" 7400 PHC2770119 "(Hg,VO4)(Ba,Sr)2CuOz" Hg0.7V0.3Ba1.5Sr0.5Cu1O4.6+z Hg 0.7 V 0.3 Ba 1.5 Sr 0.5 Cu 1 O 4.6+z 1997 2 Hg1201 K 65 65 50 1 "mixture=sealed in quartz tube-heat(720C,16H)-Q to RT" "The 1201 superconductors Hg1-y(VO4)y(Ba,Sr)2CuO4-2y+z: evidence for VO4 tetrahedra" 1997 4 "Laboratoire CRISMAT,CNRS URA 1318,ISMRA et Universite' de Caen, Bd Marechal Juin, 14050 Caen Cedex, France" "Physica.C,277(1997)119-132" 7401 PHC2770119 "(Hg,VO4)(Ba,Sr)2CuOz" Hg0.7V0.3Ba1.25Sr0.75Cu1O4.6+z Hg 0.7 V 0.3 Ba 1.25 Sr 0.75 Cu 1 O 4.6+z 1997 2 Hg1201 K 55 55 45 1 "mixture=sealed in quartz tube-heat(720C,16H)-Q to RT" "The 1201 superconductors Hg1-y(VO4)y(Ba,Sr)2CuO4-2y+z: evidence for VO4 tetrahedra" 1997 4 "Laboratoire CRISMAT,CNRS URA 1318,ISMRA et Universite' de Caen, Bd Marechal Juin, 14050 Caen Cedex, France" "Physica.C,277(1997)119-132" 7402 PHC2770119 "(Hg,VO4)(Ba,Sr)2CuOz" Hg0.7V0.3Ba1Sr1Cu1O4.6+z Hg 0.7 V 0.3 Ba 1 Sr 1 Cu 1 O 4.6+z 1997 2 Hg1201 K 45 45 39 1 "mixture=sealed in quartz tube-heat(720C,16H)-Q to RT" "The 1201 superconductors Hg1-y(VO4)y(Ba,Sr)2CuO4-2y+z: evidence for VO4 tetrahedra" 1997 4 "Laboratoire CRISMAT,CNRS URA 1318,ISMRA et Universite' de Caen, Bd Marechal Juin, 14050 Caen Cedex, France" "Physica.C,277(1997)119-132" 7403 PHC2770119 annealed in Ar "(Hg,VO4)Ba2CuOz" Hg0.7V0.3Ba2Cu1O4.6+z Hg 0.7 V 0.3 Ba 2 Cu 1 O 4.6+z 1997 Hg1201 K 95 95 52 "mixture-sealed in quartz tube-heat(720C,16H)-Q to RT-ANN(400C,72H in Ar flow)" "The 1201 superconductors Hg1-y(VO4)y(Ba,Sr)2CuO4-2y+z: evidence for VO4 tetrahedra" 1997 4 "Laboratoire CRISMAT,CNRS URA 1318,ISMRA et Universite' de Caen, Bd Marechal Juin, 14050 Caen Cedex, France" "Physica.C,277(1997)119-132" 7404 PHC2770119 annealed in Ar "(Hg,VO3)(Ba,Sr)2CuOz" Hg0.7V0.3Ba1.75Sr0.25Cu1O4.6+z Hg 0.7 V 0.3 Ba 1.75 Sr 0.25 Cu 1 O 4.6+z 1997 Hg1201 K 90 90 60 "mixture-sealed in quartz tube-heat(720C,16H)-Q to RT-ANN(400C,72H in Ar flow)" "The 1201 superconductors Hg1-y(VO4)y(Ba,Sr)2CuO4-2y+z: evidence for VO4 tetrahedra" 1997 4 "Laboratoire CRISMAT,CNRS URA 1318,ISMRA et Universite' de Caen, Bd Marechal Juin, 14050 Caen Cedex, France" "Physica.C,277(1997)119-132" 7405 PHC2770119 annealed in Ar "(Hg,VO4)(Ba,Sr)2CuOz" Hg0.7V0.3Ba1.5Sr0.5Cu1O4.6+z Hg 0.7 V 0.3 Ba 1.5 Sr 0.5 Cu 1 O 4.6+z 1997 Hg1201 K 85 85 67 "mixture-sealed in quartz tube-heat(720C,16H)-Q to RT-ANN(400C,72H in Ar flow)" "The 1201 superconductors Hg1-y(VO4)y(Ba,Sr)2CuO4-2y+z: evidence for VO4 tetrahedra" 1997 4 "Laboratoire CRISMAT,CNRS URA 1318,ISMRA et Universite' de Caen, Bd Marechal Juin, 14050 Caen Cedex, France" "Physica.C,277(1997)119-132" 7406 PHC2770119 annealed in Ar "(Hg,VO4)(Ba,Sr)2CuOz" Hg0.7V0.3Ba1.25Sr0.75Cu1O4.6+z Hg 0.7 V 0.3 Ba 1.25 Sr 0.75 Cu 1 O 4.6+z 1997 Hg1201 K 75 75 64 "mixture-sealed in quartz tube-heat(720C,16H)-Q to RT-ANN(400C,72H in Ar flow)" "The 1201 superconductors Hg1-y(VO4)y(Ba,Sr)2CuO4-2y+z: evidence for VO4 tetrahedra" 1997 4 "Laboratoire CRISMAT,CNRS URA 1318,ISMRA et Universite' de Caen, Bd Marechal Juin, 14050 Caen Cedex, France" "Physica.C,277(1997)119-132" 7407 PHC2770119 annealed in Ar "(Hg,VO4)(Ba,Sr)2CuO2" Hg0.7V0.3Ba1Sr1Cu1O4.6+z Hg 0.7 V 0.3 Ba 1 Sr 1 Cu 1 O 4.6+z 1997 Hg1201 K 65 65 68 "mixture-sealed in quartz tube-heat(720C,16H)-Q to RT-ANN(400C,72H in Ar flow)" "The 1201 superconductors Hg1-y(VO4)y(Ba,Sr)2CuO4-2y+z: evidence for VO4 tetrahedra" 1997 4 "Laboratoire CRISMAT,CNRS URA 1318,ISMRA et Universite' de Caen, Bd Marechal Juin, 14050 Caen Cedex, France" "Physica.C,277(1997)119-132" 7408 PHC2770024 "(Cu,W)Sr2YCu2O7" Cu0.8W0.2Sr2Y1Cu2O7.3 Cu 0.8 W 0.2 Sr 2 Y 1 Cu 2 O 7.3 7.3 1997 2 Cu1212 P4/mmm 3.802 11.497 K 74 77 77 "mixture-SIN(990C)-ANN(700C,200 atm O2)" Optimized synthesis and properties of chemically stabilized CuSr2YCu2O7 1997 4 "Physics Department, Northern Illinois University, Dekalb, IL 60115, USA" "Physica.C,277(1997)24-35" 7409 PHC2770024 "(Cu,Mo)Sr2YCu2" Cu0.8Mo0.2Sr2Y1Cu2O7.3 Cu 0.8 Mo 0.2 Sr 2 Y 1 Cu 2 O 7.3 7.3 1997 2 Cu1212 P4/mmm 3.801 11.486 K 65 65 "mixture-SIN(990C)-ANN(700C,200 atm O2)" Optimized synthesis and properties of chemically stabilized CuSr2YCu2O7 1997 4 "Physics Department, Northern Illinois University, Dekalb, IL 60115, USA" "Physica.C,277(1997)24-35" 7410 PHC2770024 "(Cu,Re)Sr2YCu2O7" Cu0.85Re0.15Sr2Y1Cu2O7.3 Cu 0.85 Re 0.15 Sr 2 Y 1 Cu 2 O 7.3 7.3 1997 2 Cu1212 P4/mmm 3.8 11.475 K 69 69 "mixture-SIN(990C)-ANN(700C,200 atm O2)" Optimized synthesis and properties of chemically stabilized CuSr2YCu2O7 1997 4 "Physics Department, Northern Illinois University, Dekalb, IL 60115, USA" "Physica.C,277(1997)24-35" 7411 PHC2770024 "(Cu,W)Sr2(Y,Ca)Cu2O7" Cu2.8W0.2Sr2Y0.9Ca0.1Oz Cu 2.8 W 0.2 Sr 2 Y 0.9 Ca 0.1 O z 1997 Cu1212 K 75 76 76 "mixture-SIN(990C)-ANN(700C,200 atm O2)" Optimized synthesis and properties of chemically stabilized CuSr2YCu2O7 1997 4 "Physics Department, Northern Illinois University, Dekalb, IL 60115, USA" "Physica.C,277(1997)24-35" 7412 PHC2770024 "(Cu,Mo)Sr2(Y,Ca)Cu2O7" Cu2.8Mo0.2Sr2Y0.9Ca0.1Oz Cu 2.8 Mo 0.2 Sr 2 Y 0.9 Ca 0.1 O z 1997 Cu1212 K 73 71 71 "mixture-SIN(990C)-ANN(700C,200 atm O2)" Optimized synthesis and properties of chemically stabilized CuSr2YCu2O7 1997 4 "Physics Department, Northern Illinois University, Dekalb, IL 60115, USA" "Physica.C,277(1997)24-35" 7413 PHC2770024 "(Cu,Re)Sr2(Y,Ca)Cu2O7" Cu2.85Re0.15Sr2Y0.9Ca0.1Oz Cu 2.85 Re 0.15 Sr 2 Y 0.9 Ca 0.1 O z 1997 Cu1212 K 75 73 73 "mixture-SIN(990C)-ANN(700C,200 atm O2)" Optimized synthesis and properties of chemically stabilized CuSr2YCu2O7 1997 4 "Physics Department, Northern Illinois University, Dekalb, IL 60115, USA" "Physica.C,277(1997)24-35" 7414 PHC2770252 insulator Pb2Ba2Cu2TaO8Cl Pb2Ba2Cu2Ta1O8Cl Pb 2 Ba 2 Cu 2 Ta 1 O 8Cl 1997 2 P4/mmm 3.951 15.608 K "PbO,PbCl2,Ba(NO3)2,Ta2O5(or Nb2O5),CuO" "mixture-preheat(550C,650C,12H in air)-pellet-CAL(700C,24H in air)-quickly cooled to RT" "Synthesis and structure of layered cuprates contaning Pb2Cl as separating layer, Pb2Ba2Cu2MO8Cl(M=Ta,Nb)" 1997 4 "Department of Applied Chemistry, University of Science and Technology of China, Hefei, Anhui 230026, China" "Physica.C,277(1997)252-256" 7415 PHC2770252 insulator Pb2Ba2Cu2NbO8Cl Pb2Ba2Cu2Nb1O8Cl Pb 2 Ba 2 Cu 2 Nb 1 O 8Cl 1997 2 P4/mmm 3.954 15.571 K "PbO,PbCl2,Ba(NO3)2,Ta2O5(or Nb2O5),CuO" "mixture-preheat(550C,650C,12H in air)-pellet-CAL(700C,24H in air)-quickly cooled to RT" "Synthesis and structure of layered cuprates contaning Pb2Cl as separating layer, Pb2Ba2Cu2MO8Cl(M=Ta,Nb)" 1997 4 "Department of Applied Chemistry, University of Science and Technology of China, Hefei, Anhui 230026, China" "Physica.C,277(1997)252-256" 7416 PHC2770265 CaLaBaCu3O7 Ca1La1Ba1Cu3O7 Ca 1 La 1 Ba 1 Cu 3 O 7 1 1997 2 Y123 A 3.869 11.645 K 69 69 "La2O3,BaCO3,CaCO3,CuO,Fe2O3" 1 "mixture-fire(975C,12H)-Q to RT-heat(975C,12H in air)-FC to RT-pellet-ANN(575C,24H in O2 flow)-FC to RT" "Structure, superconductivuty and normal state magnetism of CaLaBaCu3-xFeO7 superconductor, 0.0%$x%$0.24" 1997 4 "Departmento de Fisica, Universidad Federal de Pernambuco, 50670-901 Recife PE, Brazil" "Physica.C,277(1997)265-270" 7417 PHC2770265 "CaLaBa(Cu,Fe)3O7" Ca1La1Ba1Cu2.97Fe0.03O7 Ca 1 La 1 Ba 1 Cu 2.97 Fe 0.03 O 7 1 1997 emu/mole 0.00074 emu.K/mol 3.25 myu-B/Fe 5.09 5.6 2 Y123 A 3.866 11.643 K 49 49 "La2O3,BaCO3,CaCO3,CuO,Fe2O3" 1 "mixture-fire(975C,12H)-Q to RT-heat(975C,12H in air)-FC to RT-pellet-ANN(575C,24H in O2 flow)-FC to RT" "Structure, superconductivuty and normal state magnetism of CaLaBaCu3-xFeO7 superconductor, 0.0%$x%$0.24" 1997 4 "Departmento de Fisica, Universidad Federal de Pernambuco, 50670-901 Recife PE, Brazil" "Physica.C,277(1997)265-270" 7418 PHC2770265 "CaLaBa(Cu,Fe)3O7" Ca1La1Ba1Cu2.94Fe0.06O7 Ca 1 La 1 Ba 1 Cu 2.94 Fe 0.06 O 7 1 1997 emu/mole 0.00039 emu.K/mol 2.58 myu-B/Fe 4.53 1.96 2 Y123 A 3.864 11.64 K 44 44 "La2O3,BaCO3,CaCO3,CuO,Fe2O3" 1 "mixture-fire(975C,12H)-Q to RT-heat(975C,12H in air)-FC to RT-pellet-ANN(575C,24H in O2 flow)-FC to RT" "Structure, superconductivuty and normal state magnetism of CaLaBaCu3-xFeO7 superconductor, 0.0%$x%$0.24" 1997 4 "Departmento de Fisica, Universidad Federal de Pernambuco, 50670-901 Recife PE, Brazil" "Physica.C,277(1997)265-270" 7419 PHC2770265 "CaLaBa(Cu,Fe)3O7" Ca1La1Ba1Cu2.88Fe0.12O7 Ca 1 La 1 Ba 1 Cu 2.88 Fe 0.12 O 7 1 1997 emu/mole 0.00082 emu.K/mol 0.97 myu-B/Fe 2.79 5.76 2 Y123 A 3.863 11.638 K 28 28 "La2O3,BaCO3,CaCO3,CuO,Fe2O3" 1 "mixture-fire(975C,12H)-Q to RT-heat(975C,12H in air)-FC to RT-pellet-ANN(575C,24H in O2 flow)-FC to RT" "Structure, superconductivuty and normal state magnetism of CaLaBaCu3-xFeO7 superconductor, 0.0%$x%$0.24" 1997 4 "Departmento de Fisica, Universidad Federal de Pernambuco, 50670-901 Recife PE, Brazil" "Physica.C,277(1997)265-270" 7420 PHC2770265 "CaLaBa(Cu,Fe)O7" Ca1La1Ba1Cu2.76Fe0.24O7 Ca 1 La 1 Ba 1 Cu 2.76 Fe 0.24 O 7 1997 emu/mole 1.51 3.37 1.42 2 Y123 3.862 11.635 K 22 22 "La2O3,BaCO3,CaCO3,CuO,Fe2O3" 1 "mixture-fire(975C,12H)-Q to RT-heat(975C,12H in air)-FC to RT-pellet-ANN(575C,24H in O2 flow)-FC to RT" "Structure, superconductivuty and normal state magnetism of CaLaBaCu3-xFeO7 superconductor, 0.0%$x%$0.24" 1997 4 "Departmento de Fisica, Universidad Federal de Pernambuco, 50670-901 Recife PE, Brazil" "Physica.C,277(1997)265-270" 7421 CEM1230313 semiconductor "(Pb,Pb)(Sr,Ho)2(Ho,Ce)2Cu2Oz" Pb1Sr1.8Ho1.6Ce0.6Cu2Oz Pb 1 Sr 1.8 Ho 1.6 Ce 0.6 Cu 2 O z 1 1996 2 Pb1222 3.837 29.189 K "PbO,CdO,SrCO3,Ho2O3,CeO2,CuO" 1 "mixture-heat(830C,24H in air)-pellet-SIN(850C,10H in air)-slow cool to RT (30C/H)" Synthesis and Crystal Structure of New Pb-Based Copper Oxides (Pb0.5M0.5) (Sr0.9Ho0.1) (Ho0.7Ce0.3)2Cu2Oy(M=Pb and Cd) 1996 "National Laboratory for Superconductivity, Institute of Physics Academia Sinica, Beijing 100080, People's Republic of China" J.Solid State Chem.123(1996)313 7422 CEM1230313 semiconductor "(Pb,Cd)(Sr,Ho)2(Ho,Ce)2Cu2Oz" Pb0.5Cd0.5Ho1.6Ce0.6Cu2Oz Pb 0.5 Cd 0.5 Ho 1.6 Ce 0.6 Cu 2 O z 1 1996 2 Pb1222 3.817 29.337 K "PbO,CdO,SrCO3,Ho2O3,CeO2,CuO" 1 "mixture-heat(830C,24H in air)-pellet-SIN(850C,10H in air)-slow cool to RT (30C/H)" Synthesis and Crystal Structure of New Pb-Based Copper Oxides (Pb0.5M0.5) (Sr0.9Ho0.1) (Ho0.7Ce0.3)2Cu2Oy(M=Pb and Cd) 1996 "National Laboratory for Superconductivity, Institute of Physics Academia Sinica, Beijing 100080, People's Republic of China" J.Solid State Chem.123(1996)313 7423 CEM1230313 semiconductor "(Pb,Cu)(Sr,Ho)2(Ho,Ce)2Cu2Oz" Pb0.5Ho1.6Ce0.6Cu2.5Oz Pb 0.5 Ho 1.6 Ce 0.6 Cu 2.5 O z 1 1996 2 Pb1222 3.83 29.081 K "PbO,CdO,SrCO3,Ho2O3,CeO2,CuO" 1 "mixture-heat(830C,24H in air)-pellet-SIN(850C,10H in air)-slow cool to RT (30C/H)" Synthesis and Crystal Structure of New Pb-Based Copper Oxides (Pb0.5M0.5) (Sr0.9Ho0.1) (Ho0.7Ce0.3)2Cu2Oy(M=Pb and Cd) 1996 "National Laboratory for Superconductivity, Institute of Physics Academia Sinica, Beijing 100080, People's Republic of China" J.Solid State Chem.123(1996)313 7424 CEM1210319 "(La,Ca)8(Cu,Ni)8O20" La5.8Ca2.2Cu6Ni2O20 La 5.8 Ca 2.2 Cu 6 Ni 2 O 20 1996 2 10.688 3.86 "(8,8,20) structure" K 4 1.11 "La2O3,CaCO3,CuO,NiO" 1 "mixture-fire(1000C, in air)-heat(1025C in O2)" Stabilization of the 8-8-20 Structure-Type in La8-xCaxCu8-xNiyO20 1996 "AT & T Bell Laboratories, Murray Hill, new Jersey, 07974" J.Solid State Chem.121(1996)319 7425 CEM1210319 "(La,Ca)8(Cu,Ni)8O20" La6Ca2Cu6Ni2O20 La 6 Ca 2 Cu 6 Ni 2 O 20 1996 2 10.706 3.864 "(8,8,20) structure" K 4 0.95 "La2O3,CaCO3,CuO,NiO" 1 "mixture-fire(1000C, in air)-heat(1025C in O2)" Stabilization of the 8-8-20 Structure-Type in La8-xCaxCu8-xNiyO20 1996 "AT & T Bell Laboratories, Murray Hill, new Jersey, 07974" J.Solid State Chem.121(1996)319 7426 CEM1210319 "(La,Ca)8(Cu,Ni)8O20" La6.1Ca1.9Cu6Ni2O20 La 6.1 Ca 1.9 Cu 6 Ni 2 O 20 1996 2 10.7 3.866 "(8,8,20) structure" K 4 0.95 "La2O3,CaCO3,CuO,NiO" 1 "mixture-fire(1000C, in air)-heat(1025C in O2)" Stabilization of the 8-8-20 Structure-Type in La8-xCaxCu8-xNiyO20 1996 "AT & T Bell Laboratories, Murray Hill, new Jersey, 07974" J.Solid State Chem.121(1996)319 7427 CEM1210319 "(La,Ca)8(Cu,Ni)8O20" La6.4Ca1.6Cu6Ni2O20 La 6.4 Ca 1.6 Cu 6 Ni 2 O 20 1996 2 10.719 3.863 "(8,8,20) structure" K 4 0.91 "La2O3,CaCO3,CuO,NiO" 1 "mixture-fire(1000C, in air)-heat(1025C in O2)" Stabilization of the 8-8-20 Structure-Type in La8-xCaxCu8-xNiyO20 1996 "AT & T Bell Laboratories, Murray Hill, new Jersey, 07974" J.Solid State Chem.121(1996)319 7428 CEM1210319 "(La,Ca)8(Cu,Ni)8O20" La6.7Ca1.3Cu6Ni2O20 La 6.7 Ca 1.3 Cu 6 Ni 2 O 20 1996 2 10.739 3.853 "(8,8,20) structure" K 4 2.63 "La2O3,CaCO3,CuO,NiO" 1 "mixture-fire(1000C, in air)-heat(1025C in O2)" Stabilization of the 8-8-20 Structure-Type in La8-xCaxCu8-xNiyO20 1996 "AT & T Bell Laboratories, Murray Hill, new Jersey, 07974" J.Solid State Chem.121(1996)319 7429 CEM1210319 "(La,Ca)8(Cu,Ni)8O20" La7Ca1Cu6Ni2O20 La 7 Ca 1 Cu 6 Ni 2 O 20 1996 2 10.749 3.866 "(8,8,20) structure" K 4 2.86 "La2O3,CaCO3,CuO,NiO" 1 "mixture-fire(1000C, in air)-heat(1025C in O2)" Stabilization of the 8-8-20 Structure-Type in La8-xCaxCu8-xNiyO20 1996 "AT & T Bell Laboratories, Murray Hill, new Jersey, 07974" J.Solid State Chem.121(1996)319 7430 CEM1210319 structure=8-8-20 "(La,Ca)8(Cu,Ni)8O20" La6.4Ca1.6Cu6.5Ni1.5O20 La 6.4 Ca 1.6 Cu 6.5 Ni 1.5 O 20 1 1996 2 10.719 3.862 "(8,8,20) structure" K 4 "La2O3,CaCO3,CuO,NiO" 1 "mixture-fire(1000C, in air)-heat(1025C in O2)" Stabilization of the 8-8-20 Structure-Type in La8-xCaxCu8-xNiyO20 1996 "AT & T Bell Laboratories, Murray Hill, new Jersey, 07974" J.Solid State Chem.121(1996)319 7431 CEM1210319 structure=8-8-20 "(La,Ca)8(Cu,Ni)8O20" La6.4Ca1.6Ni7Ni1O20 La 6.4 Ca 1.6 Ni 7 Ni 1 O 20 1 1996 2 10.746 3.863 "(8,8,20) structure" K 4 1.67 "La2O3,CaCO3,CuO,NiO" 1 "mixture-fire(1000C, in air)-heat(1025C in O2)" Stabilization of the 8-8-20 Structure-Type in La8-xCaxCu8-xNiyO20 1996 "AT & T Bell Laboratories, Murray Hill, new Jersey, 07974" J.Solid State Chem.121(1996)319 7432 CEM1210319 structure=8-8-20 "(La,Ca)8(Cu,Ni)8O20" La6.4Ca1.6Cu7.5Ni0.5O20 La 6.4 Ca 1.6 Cu 7.5 Ni 0.5 O 20 1 1996 2 10.804 3.847 "(8,8,20) structure" K 4 2.38 "La2O3,CaCO3,CuO,NiO" 1 "mixture-fire(1000C, in air)-heat(1025C in O2)" Stabilization of the 8-8-20 Structure-Type in La8-xCaxCu8-xNiyO20 1996 "AT & T Bell Laboratories, Murray Hill, new Jersey, 07974" J.Solid State Chem.121(1996)319 7433 CEM1210066 HgBa2CuOz Hg1Ba2Cu1Oz Hg 1 Ba 2 Cu 1 O z 1 1996 2 Hg1201 3.869 9.467 K 4 "precursor(Ba2CuOz)-mixed with HgO,BaSO4,CuO in glove box-heat(920C, 0.6H)" The Replacement of [HgO2]2- by the Tetrahedral Sulfate Anion [SO4]2- in the Hg-1201 Superconductor 1996 "Laboratoir'e de Cristallograplie, CNRS-UJF, BP 166, 38042 Grenodle Cedex 09, France" J.Solid State Chem.121(1996)66 7434 CEM1210066 "(Hg,S)Ba2CuOz" Hg0.95S0.05Ba2Cu1Oz Hg 0.95 S 0.05 Ba 2 Cu 1 O z 1 1996 2 Hg1201 3.882 9.395 K 4 "precursor(Ba2CuOz)-mixed with HgO,BaSO4,CuO in glove box-heat(920C, 0.6H)" The Replacement of [HgO2]2- by the Tetrahedral Sulfate Anion [SO4]2- in the Hg-1201 Superconductor 1996 "Laboratoir'e de Cristallograplie, CNRS-UJF, BP 166, 38042 Grenodle Cedex 09, France" J.Solid State Chem.121(1996)66 7435 CEM1210066 "(Hg,S)Ba2CuOz" Hg0.9S0.1Ba2Cu1Oz Hg 0.9 S 0.1 Ba 2 Cu 1 O z 1 1996 2 Hg1201 3.889 9.355 K 41 41 "precursor(Ba2CuOz)-mixed with HgO,BaSO4,CuO in glove box-heat(920C, 0.6H)" The Replacement of [HgO2]2- by the Tetrahedral Sulfate Anion [SO4]2- in the Hg-1201 Superconductor 1996 "Laboratoir'e de Cristallograplie, CNRS-UJF, BP 166, 38042 Grenodle Cedex 09, France" J.Solid State Chem.121(1996)66 7436 CEM1210066 "(Hg,S)Ba2CuOz" Hg0.85S0.15Ba2Cu1Oz Hg 0.85 S 0.15 Ba 2 Cu 1 O z 1 1996 2 Hg1201 3.901 9.305 K 62 62 "precursor(Ba2CuOz)-mixed with HgO,BaSO4,CuO in glove box-heat(920C, 0.6H)" The Replacement of [HgO2]2- by the Tetrahedral Sulfate Anion [SO4]2- in the Hg-1201 Superconductor 1996 "Laboratoir'e de Cristallograplie, CNRS-UJF, BP 166, 38042 Grenodle Cedex 09, France" J.Solid State Chem.121(1996)66 7437 CEM1210066 "(Hg,S)Ba2CuOz" Hg0.8S0.2Ba2Cu1Oz Hg 0.8 S 0.2 Ba 2 Cu 1 O z 1 1996 2 Hg1201 3.904 9.289 K 65 65 "precursor(Ba2CuOz)-mixed with HgO,BaSO4,CuO in glove box-heat(920C, 0.6H)" The Replacement of [HgO2]2- by the Tetrahedral Sulfate Anion [SO4]2- in the Hg-1201 Superconductor 1996 "Laboratoir'e de Cristallograplie, CNRS-UJF, BP 166, 38042 Grenodle Cedex 09, France" J.Solid State Chem.121(1996)66 7438 CEM1210066 "(Hg,S)Ba2CuOz" Hg0.75S0.25Ba2Cu1Oz Hg 0.75 S 0.25 Ba 2 Cu 1 O z 1996 2 Hg1201 3.901 9.3 K 63 63 "precursor(Ba2CuOz)-mixed with HgO,BaSO4,CuO in glove box-heat(920C, 0.6H)" The Replacement of [HgO2]2- by the Tetrahedral Sulfate Anion [SO4]2- in the Hg-1201 Superconductor 1996 "Laboratoir'e de Cristallograplie, CNRS-UJF, BP 166, 38042 Grenodle Cedex 09, France" J.Solid State Chem.121(1996)66 7439 CEM1210066 "(Hg,S)Ba2CuOz" Hg0.7S0.3Ba2Cu1Oz Hg 0.7 S 0.3 Ba 2 Cu 1 O z 1996 2 Hg1201 3.907 9.265 K 73 73 "precursor(Ba2CuOz)-mixed with HgO,BaSO4,CuO in glove box-heat(920C, 0.6H)" The Replacement of [HgO2]2- by the Tetrahedral Sulfate Anion [SO4]2- in the Hg-1201 Superconductor 1996 "Laboratoir'e de Cristallograplie, CNRS-UJF, BP 166, 38042 Grenodle Cedex 09, France" J.Solid State Chem.121(1996)66 7440 CEM1210066 "(Hg,S)Ba2CuOz" Hg0.5S0.5Ba2Cu1Oz Hg 0.5 S 0.5 Ba 2 Cu 1 O z 1996 2 Hg1201 3.907 9.276 K 71 71 "precursor(Ba2CuOz)-mixed with HgO,BaSO4,CuO in glove box-heat(920C, 0.6H)" The Replacement of [HgO2]2- by the Tetrahedral Sulfate Anion [SO4]2- in the Hg-1201 Superconductor 1996 "Laboratoir'e de Cristallograplie, CNRS-UJF, BP 166, 38042 Grenodle Cedex 09, France" J.Solid State Chem.121(1996)66 7441 CEM1210066 "(Hg,S)Ba2CuOz" Hg0.85S0.15Ba2Cu1Oz Hg 0.85 S 0.15 Ba 2 Cu 1 O z 1996 2 Hg1201 3.906 9.304 K 77 77 "ANN(250C,10H in Ar flow)" The Replacement of [HgO2]2- by the Tetrahedral Sulfate Anion [SO4]2- in the Hg-1201 Superconductor 1996 "Laboratoir'e de Cristallograplie, CNRS-UJF, BP 166, 38042 Grenodle Cedex 09, France" J.Solid State Chem.121(1996)66 7442 CEM1210066 HgBa2CuOz Hg1Ba2Cu1Oz Hg 1 Ba 2 Cu 1 O z 1996 2 Hg1201 3.88 9.504 K 88 88 "ANN(250C,10H in Ar flow)" The Replacement of [HgO2]2- by the Tetrahedral Sulfate Anion [SO4]2- in the Hg-1201 Superconductor 1996 "Laboratoir'e de Cristallograplie, CNRS-UJF, BP 166, 38042 Grenodle Cedex 09, France" J.Solid State Chem.121(1996)66 7443 JMR0111120 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.99Zn0.01O6+z Y 1 Ba 2 Cu 2.99 Zn 0.01 O 6+z 3 1996 Y123 K 89 89 "solte-rich liquid-crystal pulling method, oxygenation (500C, in O2)" Zn doping in YBCO single crystal by the solute-rich liquid-crystal pulling method 1996 "Superconductivity Research Laboratory,ISTEC, 1-10-13 Shinonome Koto-Ku, Tokyo 135, Japan" J.Mater.Res.11(1996)1120 7444 JMR0111120 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.979Zn0.021O6+z Y 1 Ba 2 Cu 2.979 Zn 0.021 O 6+z 3 1996 Y123 K 83 83 "solte-rich liquid-crystal pulling method, oxygenation (500C, in O2)" Zn doping in YBCO single crystal by the solute-rich liquid-crystal pulling method 1996 "Superconductivity Research Laboratory,ISTEC, 1-10-13 Shinonome Koto-Ku, Tokyo 135, Japan" J.Mater.Res.11(1996)1120 7445 JMR0111120 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.954Zn0.047O6+z Y 1 Ba 2 Cu 2.954 Zn 0.047 O 6+z 3 1996 Y123 K 74 74 "solte-rich liquid-crystal pulling method, oxygenation (500C, in O2)" Zn doping in YBCO single crystal by the solute-rich liquid-crystal pulling method 1996 "Superconductivity Research Laboratory,ISTEC, 1-10-13 Shinonome Koto-Ku, Tokyo 135, Japan" J.Mater.Res.11(1996)1120 7446 JMR0111120 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.913Zn0.087O6+z Y 1 Ba 2 Cu 2.913 Zn 0.087 O 6+z 3 1996 Y123 K 57 57 "solte-rich liquid-crystal pulling method, oxygenation (500C, in O2)" Zn doping in YBCO single crystal by the solute-rich liquid-crystal pulling method 1996 "Superconductivity Research Laboratory,ISTEC, 1-10-13 Shinonome Koto-Ku, Tokyo 135, Japan" J.Mater.Res.11(1996)1120 7447 JTL0630826 NdBa2Cu3O7 Nd1Ba2Cu3O6.67 Nd 1 Ba 2 Cu 3 O 6.67 6.67 1996 2 Y123 K 29 29 not superconducting at 1 atm. it become superconducting at 1GPa holding 92H. Appeararance of superconductivity in the tetragonal ceramic NdBa2Cu3O6.67 as a result of oxygen ordering under pressure 1996 "Donetsk Physicotechnical Institute, Ukrainian National Academy of Sciences, 340114 Donetsk, Ukraine" JETP Lett.63(1996)826 7448 JTL0630561 "hydorogenation rise Tc by 2K, Tc(La1.8Sr0.2CuO4)=30K" "(La,Sr)2Cu(H,O)4" H0.2La1.8Sr0.2Cu1O4 H 0.2 La 1.8 Sr 0.2 Cu 1 O 4 1996 T K 32 32 "La1.8Sr0.2CuO4 by solid state reaction, hydrogenation by ditect reaction with H2 gas (160C,600 Torr)" Spin-lattice relaxation and Knight shift on protons in the hydrogen-doped superconducting system H0.2La1.8Sr0.2CuO4 1996 "Kazan Physicotechnical Institute, Kazan Science Center of the Russian Academy of Sciences, 420029 Kazan, Russia" JETP Lett.63(1996)560 7449 JAC24000L4 semiconductor "(Bi,Cd)Sr2YCu2O7" Bi0.5Cd0.5Sr2Y1Cu2O7-z Bi 0.5 Cd 0.5 Sr 2 Y 1 Cu 2 O 7-z 1996 2 1212 P4/mmm 3.812 11.91 K 77 "Bi2o3,CdO,SrO,CuO,R2O3" 1 "mixture-pellet-fire(1173K,36H in air)-SIN(1223K, 36H in air)" "Sithesis and characterization of single Bi-O layered cuprate (Bi,Cd)Sr2YCu2O7-z" 1996 "Institute of Physics, Chinese Academy of Sciences,Beijing 100080, People's Repblic of China" J.Alloys Compd240(1996)L4 7450 MPL0100619 CaBaLaCu3O7 Ca1La1Ba1Cu3O7 Ca 1 La 1 Ba 1 Cu 3 O 7 1996 Y123 K 70 70 1 "mixture-ANN(400C,12H in air)-cool to RT" NORMAL STATE MAGNETISM OF Zn-DOPED AND OXYGEN DEFICIENT CaLaBaCu3O7 SUPERCONDUCTOR 1996 "Depto. de Fisica, Universidade Federal de Pernambuco, 50670-901, Recife, PE, Brasil" Mod.Phys.Lett.B(1996)619 7451 MPL0100619 "CaBaLa(Cu,Zn)3O7" Ca1La1Ba1Cu2.97Zn0.03O7 Ca 1 La 1 Ba 1 Cu 2.97 Zn 0.03 O 7 1996 emu/mol 0.00027 emu.K/mol 0.016 myu-B/mol 0.36 20 Y123 K 60 60 1 "mixture-ANN(400C,12H in air)-cool to RT" NORMAL STATE MAGNETISM OF Zn-DOPED AND OXYGEN DEFICIENT CaLaBaCu3O7 SUPERCONDUCTOR 1996 "Depto. de Fisica, Universidade Federal de Pernambuco, 50670-901, Recife, PE, Brasil" Mod.Phys.Lett.B(1996)619 7452 MPL0100619 "CaBaLa(Cu,Zn)3O7" Ca1La1Ba1Cu2.85Zn0.045O7 Ca 1 La 1 Ba 1 Cu 2.85 Zn 0.045 O 7 1996 emu/mol 0.00024 emu.K/mol 0.035 myu-B/mol 0.53 3.5 Y123 K 55 55 1 "mixture-ANN(400C,12H in air)-cool to RT" NORMAL STATE MAGNETISM OF Zn-DOPED AND OXYGEN DEFICIENT CaLaBaCu3O7 SUPERCONDUCTOR 1996 "Depto. de Fisica, Universidade Federal de Pernambuco, 50670-901, Recife, PE, Brasil" Mod.Phys.Lett.B(1996)619 7453 MPL0100619 "CaBaLa(Cu,Zn)3O7" Ca1La1Ba1Cu2.91Zn0.09O7 Ca 1 La 1 Ba 1 Cu 2.91 Zn 0.09 O 7 1996 emu/mol 0.00023 emu.K/mol 0.039 myu-B/mol 0.56 15 Y123 K 20 20 1 "mixture-ANN(400C,12H in air)-cool to RT" NORMAL STATE MAGNETISM OF Zn-DOPED AND OXYGEN DEFICIENT CaLaBaCu3O7 SUPERCONDUCTOR 1996 "Depto. de Fisica, Universidade Federal de Pernambuco, 50670-901, Recife, PE, Brasil" Mod.Phys.Lett.B(1996)619 7454 MPL0100619 "CaBaLa(Cu,Zn)3O7" Ca1La1Ba1Cu2.88Zn0.12O7 Ca 1 La 1 Ba 1 Cu 2.88 Zn 0.12 O 7 1996 emu/mol 0.00022 emu.K/mol 0.047 myu-B/mol 0.61 15 Y123 K 14 14 1 "mixture-ANN(400C,12H in air)-cool to RT" NORMAL STATE MAGNETISM OF Zn-DOPED AND OXYGEN DEFICIENT CaLaBaCu3O7 SUPERCONDUCTOR 1996 "Depto. de Fisica, Universidade Federal de Pernambuco, 50670-901, Recife, PE, Brasil" Mod.Phys.Lett.B(1996)619 7455 MPL0100619 CaBaLaCu3O7 Ca1Ba1La1Cu3O7 Ca 1 Ba 1 La 1 Cu 3 O 7 1996 emu/mol 0.00019 emu.K/mol 0.045 myu-B/mol 0.6 18.6 Y123 K 47 47 "ANN(400C, 12H in air)-Q to LN2" NORMAL STATE MAGNETISM OF Zn-DOPED AND OXYGEN DEFICIENT CaLaBaCu3O7 SUPERCONDUCTOR 1996 "Depto. de Fisica, Universidade Federal de Pernambuco, 50670-901, Recife, PE, Brasil" Mod.Phys.Lett.B(1996)619 7456 MPL0100609 "(Pb,V)2Sr2(Ca,Y)Cu3Oz" Pb2Sr2Ca0.5Y0.5Cu3Oz Pb 2 Sr 2 Ca 0.5 Y 0.5 Cu 3 O z 1 1996 3 Pb3212 5.408 5.382 15.77 K 63 71 75 71 46 "PbO,V2O3,Cr2O3,SrO,Y2O3,CaO,CuO" 1 "precursor(Sr2Ca0.5Y0.5Cu3Oz)+(PbO,V2O3 or Cr2O3)-pellet-SIN(900C,5H in air)-Q to RT-ANN(800C,2.5H+700C,24H in N2)" "EFFECTS OF V-OR Cr-DOPING ON PHASE FORMATION, ELECTRIC PROPERTIES AND SUPERCONDUCTIVITY OF THE 3212-TYPE PHASE PBb2Sr2(Ca0.5Y0.5)Cu3Oz" 1996 "Structural Reserch Laboratory, University of Science ? Technology of China (USTC),Academia Sinica, Hefei, 230026, China" Mad.Phys.Lett.B10(1996)609 7457 MPL0100609 "(Pb,V)2Sr2(Ca,Y)Cu3Oz" Pb1.8V0.2Sr2Ca0.5Y0.5Cu3Oz Pb 1.8 V 0.2 Sr 2 Ca 0.5 Y 0.5 Cu 3 O z 1 1996 3 Pb3212 5.397 5.37 15.72 K 54 "PbO,V2O3,Cr2O3,SrO,Y2O3,CaO,CuO" 1 "precursor(Sr2Ca0.5Y0.5Cu3Oz)+(PbO,V2O3 or Cr2O3)-pellet-SIN(900C,5H in air)-Q to RT-ANN(800C,2.5H+700C,24H in N2)" "EFFECTS OF V-OR Cr-DOPING ON PHASE FORMATION, ELECTRIC PROPERTIES AND SUPERCONDUCTIVITY OF THE 3212-TYPE PHASE PBb2Sr2(Ca0.5Y0.5)Cu3Oz" 1996 "Structural Reserch Laboratory, University of Science ? Technology of China (USTC),Academia Sinica, Hefei, 230026, China" Mad.Phys.Lett.B10(1996)609 7458 MPL0100609 "(Pb,V)2Sr2(Ca,Y)Cu3Oz" Pb1.6V0.4Sr2Ca0.5Y0.5Cu3Oz Pb 1.6 V 0.4 Sr 2 Ca 0.5 Y 0.5 Cu 3 O z 1 1996 3 Pb3212 5.401 5.372 15.68 K 93 "PbO,V2O3,Cr2O3,SrO,Y2O3,CaO,CuO" 1 "precursor(Sr2Ca0.5Y0.5Cu3Oz)+(PbO,V2O3 or Cr2O3)-pellet-SIN(900C,5H in air)-Q to RT-ANN(800C,2.5H+700C,24H in N2)" "EFFECTS OF V-OR Cr-DOPING ON PHASE FORMATION, ELECTRIC PROPERTIES AND SUPERCONDUCTIVITY OF THE 3212-TYPE PHASE PBb2Sr2(Ca0.5Y0.5)Cu3Oz" 1996 "Structural Reserch Laboratory, University of Science ? Technology of China (USTC),Academia Sinica, Hefei, 230026, China" Mad.Phys.Lett.B10(1996)609 7459 MPL0100609 "(Pb,V)2Sr2(Ca,Y)Cu3Oz" Pb1.4V0.6Sr2Ca0.5Y0.5Cu3Oz Pb 1.4 V 0.6 Sr 2 Ca 0.5 Y 0.5 Cu 3 O z 1 1996 3 Pb3212 5.403 5.35 15.7 K 40 75 40 720 "PbO,V2O3,Cr2O3,SrO,Y2O3,CaO,CuO" 1 "precursor(Sr2Ca0.5Y0.5Cu3Oz)+(PbO,V2O3 or Cr2O3)-pellet-SIN(900C,5H in air)-Q to RT-ANN(800C,2.5H+700C,24H in N2)" "EFFECTS OF V-OR Cr-DOPING ON PHASE FORMATION, ELECTRIC PROPERTIES AND SUPERCONDUCTIVITY OF THE 3212-TYPE PHASE PBb2Sr2(Ca0.5Y0.5)Cu3Oz" 1996 "Structural Reserch Laboratory, University of Science ? Technology of China (USTC),Academia Sinica, Hefei, 230026, China" Mad.Phys.Lett.B10(1996)609 7460 MPL0100609 "(Pb,Cr)2Sr2(Ca,Y)Cu3Oz" Pb1.8Cr0.2Sr2Ca0.5Y0.5Cu3Oz Pb 1.8 Cr 0.2 Sr 2 Ca 0.5 Y 0.5 Cu 3 O z 1 1996 3 Pb3212 5.412 5.358 15.7 K 47 "PbO,V2O3,Cr2O3,SrO,Y2O3,CaO,CuO" 1 "precursor(Sr2Ca0.5Y0.5Cu3Oz)+(PbO,V2O3 or Cr2O3)-pellet-SIN(900C,5H in air)-Q to RT-ANN(800C,2.5H+700C,24H in N2)" "EFFECTS OF V-OR Cr-DOPING ON PHASE FORMATION, ELECTRIC PROPERTIES AND SUPERCONDUCTIVITY OF THE 3212-TYPE PHASE PBb2Sr2(Ca0.5Y0.5)Cu3Oz" 1996 "Structural Reserch Laboratory, University of Science ? Technology of China (USTC),Academia Sinica, Hefei, 230026, China" Mad.Phys.Lett.B10(1996)609 7461 MPL0100609 "(Pb,Cr)2Sr2(Ca,Y)Cu3Oz" Pb1.6Cr0.4Sr2Ca0.5Y0.5Cu3Oz Pb 1.6 Cr 0.4 Sr 2 Ca 0.5 Y 0.5 Cu 3 O z 1 1996 3 Pb3212 5.401 5.35 15.7 K 110 "PbO,V2O3,Cr2O3,SrO,Y2O3,CaO,CuO" 1 "precursor(Sr2Ca0.5Y0.5Cu3Oz)+(PbO,V2O3 or Cr2O3)-pellet-SIN(900C,5H in air)-Q to RT-ANN(800C,2.5H+700C,24H in N2)" "EFFECTS OF V-OR Cr-DOPING ON PHASE FORMATION, ELECTRIC PROPERTIES AND SUPERCONDUCTIVITY OF THE 3212-TYPE PHASE PBb2Sr2(Ca0.5Y0.5)Cu3Oz" 1996 "Structural Reserch Laboratory, University of Science ? Technology of China (USTC),Academia Sinica, Hefei, 230026, China" Mad.Phys.Lett.B10(1996)609 7462 MPL0100609 "(Pb,Cr)2Sr2(Ca,Y)Cu3Oz" Pb1.4Cr0.6Sr2Ca0.5Y0.5Cu3Oz Pb 1.4 Cr 0.6 Sr 2 Ca 0.5 Y 0.5 Cu 3 O z 1 1996 3 Pb3212 5.397 5.339 15.69 K 45 67 75 67 220 "PbO,V2O3,Cr2O3,SrO,Y2O3,CaO,CuO" 1 "precursor(Sr2Ca0.5Y0.5Cu3Oz)+(PbO,V2O3 or Cr2O3)-pellet-SIN(900C,5H in air)-Q to RT-ANN(800C,2.5H+700C,24H in N2)" "EFFECTS OF V-OR Cr-DOPING ON PHASE FORMATION, ELECTRIC PROPERTIES AND SUPERCONDUCTIVITY OF THE 3212-TYPE PHASE PBb2Sr2(Ca0.5Y0.5)Cu3Oz" 1996 "Structural Reserch Laboratory, University of Science ? Technology of China (USTC),Academia Sinica, Hefei, 230026, China" Mad.Phys.Lett.B10(1996)609 7463 MPL0100573 "inpurity phares=YB2CuO5,unknown.,no phase transition up to 80 kbay" "(Yb,Sr)Ba2Cu3O7" Yb0.8Sr0.2Ba2Cu3O7-z Yb 0.8 Sr 0.2 Ba 2 Cu 3 O 7-z 1996 2 Y123 3.813 11.705 K 68 68 "Yb2O3,SrCO3,BaCO3,CuO" 1 "mixture-SIN()930C,19H-cool to RT" "SYNTHESIS, CHARACTERISATION AND HIGH PRESSURE STUDIES OF Yb0.8Sr0.2Ba2Cu3O7-y SUPERCONDUCTOR" 1996 "Department of Physics, Anna University, Madras 600 025, India" Mod.Phys.Lett.B10(1996)573 7464 MPL0100029 Ba5Cu3Oz Ba5Cu3Oz Ba 5 Cu 3 O z 1 1996 3 8.664 8.931 9.072 K 5 "BaCO3,CuO" 1 "mixture-CAL(930C,10H in air)-pellet-SIN(940C,24H in air)-FC" SYNTHESIS AND CHARACTERISATION OF Ba5Cu3Oy 1996 "Department of Physics,Bharathidasan Govt. College for Women, Pondicherry, India" Mod.Phys.Lett.B10(1996)29 7465 PR05308651 "(Bi,Pb)2Sr2Ca(Cu,Fe)2O8" Bi1.8Pb0.2Sr2Ca1Cu1.98Fe0.02O8 Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 1.98 Fe 0.02 O 8 1 1996 emu/mol 0.00015 emu/mol 0.05857 myu-B/mol 4.84 Bi2212 K 54.8 54.8 "Bi2O3,PbO,SrO,CaO,CuO,Fe2O3" 1 "mixture-CAL(800C,24H in air)-SIN(845C,80H in air)four times (reground,sintering)" Comparison of the low-temperature specific heat of Fe- and Co-doped Bi1.8Pb0.2Sr2Ca(Cu1-xMx)2O8(M=Fe or Co): Anomolously enhanced electronic contribution due to Fe doping 1996 4 "Department of Physics, University of Alberta, Edomonton, Alberta, Canada T6G2JI" "Phys.Rev.B,53(1996)8651" "Bi, Pb, Sr, Ca, Cu, Fe, Co, O" 7466 PR05308651 "(Bi,Pb)2Sr2Ca(Cu,Fe)2O8" Bi1.8Pb0.2Sr2Ca1Cu1.96Fe0.04O8 Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 1.96 Fe 0.04 O 8 1 1996 emu/mol 0.000186 emu/mol 0.106 myu-B/mol 4.6 Bi2212 K 48.5 48.5 "Bi2O3,PbO,SrO,CaO,CuO,Fe2O3" 1 "mixture-CAL(800C,24H in air)-SIN(845C,80H in air)four times (reground,sintering)" Comparison of the low-temperature specific heat of Fe- and Co-doped Bi1.8Pb0.2Sr2Ca(Cu1-xMx)2O8(M=Fe or Co): Anomolously enhanced electronic contribution due to Fe doping 1996 4 "Department of Physics, University of Alberta, Edomonton, Alberta, Canada T6G2JI" "Phys.Rev.B,53(1996)8651" "Bi, Pb, Sr, Ca, Cu, Fe, Co, O" 7467 PR05308651 "(Bi,Pb)2Sr2Ca(Cu,Fe)2O8" Bi1.8Pb0.2Sr2Ca1Cu1.92Fe0.08O8 Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 1.92 Fe 0.08 O 8 1 1996 emu/mol 0.00023 emu/mol 0.2079 myu-B/mol 4.56 Bi2212 K 33.8 33.8 "Bi2O3,PbO,SrO,CaO,CuO,Fe2O3" 1 "mixture-CAL(800C,24H in air)-SIN(845C,80H in air)four times (reground,sintering)" Comparison of the low-temperature specific heat of Fe- and Co-doped Bi1.8Pb0.2Sr2Ca(Cu1-xMx)2O8(M=Fe or Co): Anomolously enhanced electronic contribution due to Fe doping 1996 4 "Department of Physics, University of Alberta, Edomonton, Alberta, Canada T6G2JI" "Phys.Rev.B,53(1996)8651" "Bi, Pb, Sr, Ca, Cu, Fe, Co, O" 7468 PR05308651 "(Bi,Pb)2Sr2Ca(Cu,Fe)2O8" Bi1.8Pb0.2Sr2Ca1Cu1.88Fe0.12O8 Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 1.88 Fe 0.12 O 8 1 1996 emu/mol 0.00039 emu/mol 279.3 myu-B/mol 4.31 Bi2212 K 30.9 30.9 "Bi2O3,PbO,SrO,CaO,CuO,Fe2O3" 1 "mixture-CAL(800C,24H in air)-SIN(845C,80H in air)four times (reground,sintering)" Comparison of the low-temperature specific heat of Fe- and Co-doped Bi1.8Pb0.2Sr2Ca(Cu1-xMx)2O8(M=Fe or Co): Anomolously enhanced electronic contribution due to Fe doping 1996 4 "Department of Physics, University of Alberta, Edomonton, Alberta, Canada T6G2JI" "Phys.Rev.B,53(1996)8651" "Bi, Pb, Sr, Ca, Cu, Fe, Co, O" 7469 PR05308651 "(Bi,Pb)2Sr2Ca(Cu,Fe)2O8" Bi1.8Pb0.2Sr2Ca1Cu1.84Fe0.16O8 Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 1.84 Fe 0.16 O 8 1 1996 emu/mol 0.00047 emu/mol 0.35 myu-B/mol 4.18 Bi2212 K 26.1 26.1 "Bi2O3,PbO,SrO,CaO,CuO,Fe2O3" 1 "mixture-CAL(800C,24H in air)-SIN(845C,80H in air)four times (reground,sintering)" Comparison of the low-temperature specific heat of Fe- and Co-doped Bi1.8Pb0.2Sr2Ca(Cu1-xMx)2O8(M=Fe or Co): Anomolously enhanced electronic contribution due to Fe doping 1996 4 "Department of Physics, University of Alberta, Edomonton, Alberta, Canada T6G2JI" "Phys.Rev.B,53(1996)8651" "Bi, Pb, Sr, Ca, Cu, Fe, Co, O" 7470 PR05308651 "(Bi,Pb)2Sr2Ca(Cu,Co)2O8" Bi1.8Pb0.2Sr2Ca1Cu1.96Co0.04O8 Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 1.96 Co 0.04 O 8 1 1996 emu/mol 0.000152 emu/mol 0.0826 myu-B/mol 4.06 Bi2212 K 50.7 50.7 12.6 "Bi2O3,PbO,SrO,CaO,CuO,Fe2O3" 1 "mixture-CAL(800C,24H in air)-SIN(845C,80H in air)four times (reground,sintering)" Comparison of the low-temperature specific heat of Fe- and Co-doped Bi1.8Pb0.2Sr2Ca(Cu1-xMx)2O8(M=Fe or Co): Anomolously enhanced electronic contribution due to Fe doping 1996 4 "Department of Physics, University of Alberta, Edomonton, Alberta, Canada T6G2JI" "Phys.Rev.B,53(1996)8651" "Bi, Pb, Sr, Ca, Cu, Fe, Co, O" 7471 PR05308651 "(Bu,Pb)2Sr2Ca(Cu,Co)2O8" Bi1.8Pb0.2Sr2Ca1Cu1.94Co0.06O8 Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 1.94 Co 0.06 O 8 1 1996 emu/mol 0.000218 emu/mol 0.1055 myu-B/mol 3.75 Bi2212 K 48.6 48.6 15.6 "Bi2O3,PbO,SrO,CaO,CuO,Fe2O3" 1 "mixture-CAL(800C,24H in air)-SIN(845C,80H in air)four times (reground,sintering)" Comparison of the low-temperature specific heat of Fe- and Co-doped Bi1.8Pb0.2Sr2Ca(Cu1-xMx)2O8(M=Fe or Co): Anomolously enhanced electronic contribution due to Fe doping 1996 4 "Department of Physics, University of Alberta, Edomonton, Alberta, Canada T6G2JI" "Phys.Rev.B,53(1996)8651" "Bi, Pb, Sr, Ca, Cu, Fe, Co, O" 7472 PR05308651 "(Bi,Pb)2Sr2Ca(Cu,Co)2O8" Bi1.8Pb0.2Sr2Ca1Cu1.92Co0.08O8 Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 1.92 Co 0.08 O 8 1 1996 emu/mol 0.000267 emu/mol 0.1315 myu-B/mol 3.62 Bi2212 K 43 43 24.7 "Bi2O3,PbO,SrO,CaO,CuO,Fe2O3" 1 "mixture-CAL(800C,24H in air)-SIN(845C,80H in air)four times (reground,sintering)" Comparison of the low-temperature specific heat of Fe- and Co-doped Bi1.8Pb0.2Sr2Ca(Cu1-xMx)2O8(M=Fe or Co): Anomolously enhanced electronic contribution due to Fe doping 1996 4 "Department of Physics, University of Alberta, Edomonton, Alberta, Canada T6G2JI" "Phys.Rev.B,53(1996)8651" "Bi, Pb, Sr, Ca, Cu, Fe, Co, O" 7473 PR05308651 "(Bi,Pb)2Sr2Ca(Cu,Co)2O8" Bi1.8Pb0.2Sr2Ca1Cu1.88Co0.12O8 Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 1.88 Co 0.12 O 8 1 1996 emu/mol 0.00038 emu/mol 0.1715 myu-B/mol 3.38 Bi2212 K 38.8 38.8 18.3 "Bi2O3,PbO,SrO,CaO,CuO,Fe2O3" 1 "mixture-CAL(800C,24H in air)-SIN(845C,80H in air)four times (reground,sintering)" Comparison of the low-temperature specific heat of Fe- and Co-doped Bi1.8Pb0.2Sr2Ca(Cu1-xMx)2O8(M=Fe or Co): Anomolously enhanced electronic contribution due to Fe doping 1996 4 "Department of Physics, University of Alberta, Edomonton, Alberta, Canada T6G2JI" "Phys.Rev.B,53(1996)8651" "Bi, Pb, Sr, Ca, Cu, Fe, Co, O" 7474 PR05308651 "(Bi,Pb)2Sr2Ca(Cu,Co)2O8" Bi1.8Pb0.2Sr2Ca1Cu1.84Co0.16O8 Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 1.84 Co 0.16 O 8 1 1996 emu/mol 0.00042 emu/mol 0.228 myu-B/mol 3.38 Bi2212 K 35.8 35.8 18.4 "Bi2O3,PbO,SrO,CaO,CuO,Fe2O3" 1 "mixture-CAL(800C,24H in air)-SIN(845C,80H in air)four times (reground,sintering)" Comparison of the low-temperature specific heat of Fe- and Co-doped Bi1.8Pb0.2Sr2Ca(Cu1-xMx)2O8(M=Fe or Co): Anomolously enhanced electronic contribution due to Fe doping 1996 4 "Department of Physics, University of Alberta, Edomonton, Alberta, Canada T6G2JI" "Phys.Rev.B,53(1996)8651" "Bi, Pb, Sr, Ca, Cu, Fe, Co, O" 7475 PHC2660104 HgBa2Ca3Cu4O10 Hg1Ba2Ca3Cu4O10+z Hg 1 Ba 2 Ca 3 Cu 4 O 10+z 3 1996 Hg1234 K 124 130 127 HIR7475 RH7475 "high-pressure synthosis technique, see physica C.234(1994)10" Electrical resistivity and Hall effect of single crystal HgBa2Ca3Cu4O10+z 1996 7 "Laboratorium fu""r Fesko""rperphysik, ETH-Zu""rich, 8093 Z""urich, Swezerland" "Physica.C,266(1996)104-108" "Hg, Ba, Ca, Cu, O" 7476 PHC2420197 YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 4 1995 Y123 K 92 92 analyzing microwave absorption data 165 "films prepared by the laser ablation on MgO, thickness=5000A" Corrreation of static magnetization and microwave absorption measurements on superconducting films of YBa2Cu3O7-x 1995 2 "Northeastern University,Boston,Massachusetts 02115,USA" "Physica C.,242(1995)197-204" 7477 JPM0060399 Kappa=100 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1994 3 Bi2212 A2aa 5.41 5.412 30.88 K 92.4 92.4 48 156 67.9 0.95 22 2210 Magnetization scaling below Tc in BiSrCaCuO and TlBaCaCuO superconducting ceramics 1994 "Universite' de Gene've, Departement de Physique de la Matie're, 24 Quai Emest Ansermet, CH01211 Gene've 4 , Swizerland" J. Phys.Condens.Matter 6(1994)L399-L404 7478 JPM0060399 Kappa=95 Tl2Ba2CuO6 Tl2Ba2Cu1O6 Tl 2 Ba 2 Cu 1 O 6 1994 2 Tl2201 I4/mmm 3.87 23.226 K 92.1 92.1 108 43.2 0.64 27.6 2630 Magnetization scaling below Tc in BiSrCaCuO and TlBaCaCuO superconducting ceramics 1994 "Universite' de Gene've, Departement de Physique de la Matie're, 24 Quai Emest Ansermet, CH01211 Gene've 4 , Swizerland" J. Phys.Condens.Matter 6(1994)L399-L404 7479 JPM0060399 Kappa=94 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O8 Tl 2 Ba 2 Ca 1 Cu 2 O 8 1994 2 Tl2212 I4/mmm 3.855 29.328 K 108.7 108.7 206 79.7 0.99 1910 Magnetization scaling below Tc in BiSrCaCuO and TlBaCaCuO superconducting ceramics 1994 "Universite' de Gene've, Departement de Physique de la Matie're, 24 Quai Emest Ansermet, CH01211 Gene've 4 , Swizerland" J. Phys.Condens.Matter 6(1994)L399-L404 7480 CRY0340057 "not S/C,P=1,2,3, in THCFIG, are for sintering temperature=1100,1000,950C, respectively" YBaCuO5 Y2Ba1Cu1O5 Y 2 Ba 1 Cu 1 O 5 1 1994 Y211 K THC7480 "Y2O3,BaCO3,CuO" 1 "mixture-CAL(900C,15H in air)-pellet-SIN(950-1100C,15H in air)" Thermal conductivity of YBCO(123) and YBCO(211) mixed crystals prepared by MMTG 1994 "Department of Materials Science and Technology, Faculty of Engineering, Iwate University, 4-3-5, Ueda, Morioka 020, Japan" Cryogenics.34(1994)57 7481 CRY0340057 "P=1 for ab-plane, P=2 for c-axis in THC Fig" YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 1994 Y123 K 90 90 THC7481 "modified melt texture growth(MMTG),(123):(211)=1:0.4, PT powder was added (0.5 at %) in order to make(211) phase disperse finely." Thermal conductivity of YBCO(123) and YBCO(211) mixed crystals prepared by MMTG 1994 "Department of Materials Science and Technology, Faculty of Engineering, Iwate University, 4-3-5, Ueda, Morioka 020, Japan" Cryogenics.34(1994)57 7482 PHC2460145 Hg0.7V0.3Sr1.8La0.2Cu1O4+z Hg 0.7 V 0.3 Sr 1.8 La 0.2 Cu 1 O 4+z 1995 K 41.3 41.3 -7.44 2.57 "V2O5,Sr(NO3)2,La2O3,CuO,HgO" "mixture(V,Sr,La,Cu,O)-heat(750C,3H)-preunrsor +HgO-sealed in evaquated quartq tube-heat(880C,8H)-Q to RT" "Seebeck coefficient and electrical-resisivity measurements for semiconducting anitiferromagnetic YBa2Cu3Oz,up to 1000 K Evidence for phonon drag and storng electron-phonon coupling" 1995 4 "URA 446,Laboratoire des Composes Non-Stoechiomeriques,Batiment 415,Universite Paris-Sud,91405 Orsay Cedex,France" "Physica C.,246(1995)145-155" 7483 PHC2640145 Hg0.7V0.3Sr1.7La0.3Cu1O4+z Hg 0.7 V 0.3 Sr 1.7 La 0.3 Cu 1 O 4+z 1996 K 49.7 49.7 -6.25 1.53 "V2O5,Sr(NO3)2,La2O3,CuO,HgO" "mixture(V,Sr,La,Cu,O)-heat(750C,3H)-preunrsor +HgO-sealed in evaquated quartq tube-heat(880C,8H)-Q to RT" Anew mercury-based high-Tc cuprate Hg0.7 V0.3 Sr2-x Lax CuO4+z 1996 6 "Saha Lnstitute of Nuclear Physics,I/AF Bidhannagar, Calcutta-700064, India" "Physica.C,264(1996)145-153" "Hg, V, Sr, La, Cu, O" 7484 PHC2640145 Hg0.7V0.3Sr1.6La0.4Cu1O4+z Hg 0.7 V 0.3 Sr 1.6 La 0.4 Cu 1 O 4+z 1996 K 47.1 47.1 -5.29 1.66 "V2O5,Sr(NO3)2,La2O3,CuO,HgO" "mixture(V,Sr,La,Cu,O)-heat(750C,3H)-preunrsor +HgO-sealed in evaquated quartq tube-heat(880C,8H)-Q to RT" Anew mercury-based high-Tc cuprate Hg0.7 V0.3 Sr2-x Lax CuO4+z 1996 6 "Saha Lnstitute of Nuclear Physics,I/AF Bidhannagar, Calcutta-700064, India" "Physica.C,264(1996)145-153" "Hg, V, Sr, La, Cu, O" 7485 PHC2640145 Hg0.7V0.3Sr1.5La0.5Cu1O4+z Hg 0.7 V 0.3 Sr 1.5 La 0.5 Cu 1 O 4+z 1996 K 49.7 49.7 -5.34 2.05 "V2O5,Sr(NO3)2,La2O3,CuO,HgO" "mixture(V,Sr,La,Cu,O)-heat(750C,3H)-preunrsor +HgO-sealed in evaquated quartq tube-heat(880C,8H)-Q to RT" Anew mercury-based high-Tc cuprate Hg0.7 V0.3 Sr2-x Lax CuO4+z 1996 6 "Saha Lnstitute of Nuclear Physics,I/AF Bidhannagar, Calcutta-700064, India" "Physica.C,264(1996)145-153" "Hg, V, Sr, La, Cu, O" 7486 PHC2640145 Hg0.7V0.3Sr1.4La0.6Cu1O4+z Hg 0.7 V 0.3 Sr 1.4 La 0.6 Cu 1 O 4+z 1996 K 48.8 48.8 -4.55 2.96 "V2O5,Sr(NO3)2,La2O3,CuO,HgO" "mixture(V,Sr,La,Cu,O)-heat(750C,3H)-preunrsor +HgO-sealed in evaquated quartq tube-heat(880C,8H)-Q to RT" Anew mercury-based high-Tc cuprate Hg0.7 V0.3 Sr2-x Lax CuO4+z 1996 6 "Saha Lnstitute of Nuclear Physics,I/AF Bidhannagar, Calcutta-700064, India" "Physica.C,264(1996)145-153" "Hg, V, Sr, La, Cu, O" 7487 PHC2640145 Hg0.7V0.3Sr1.3La0.7Cu1O4+z Hg 0.7 V 0.3 Sr 1.3 La 0.7 Cu 1 O 4+z 1996 K 51.8 51.8 -3.59 3.74 "V2O5,Sr(NO3)2,La2O3,CuO,HgO" "mixture(V,Sr,La,Cu,O)-heat(750C,3H)-preunrsor +HgO-sealed in evaquated quartq tube-heat(880C,8H)-Q to RT" Anew mercury-based high-Tc cuprate Hg0.7 V0.3 Sr2-x Lax CuO4+z 1996 6 "Saha Lnstitute of Nuclear Physics,I/AF Bidhannagar, Calcutta-700064, India" "Physica.C,264(1996)145-153" "Hg, V, Sr, La, Cu, O" 7488 PHC2640145 Hg0.7V0.3Sr1.2La0.8Cu1O4+z Hg 0.7 V 0.3 Sr 1.2 La 0.8 Cu 1 O 4+z 1996 K 49.7 49.7 -4.56 4.78 "V2O5,Sr(NO3)2,La2O3,CuO,HgO" "mixture(V,Sr,La,Cu,O)-heat(750C,3H)-preunrsor +HgO-sealed in evaquated quartq tube-heat(880C,8H)-Q to RT" Anew mercury-based high-Tc cuprate Hg0.7 V0.3 Sr2-x Lax CuO4+z 1996 6 "Saha Lnstitute of Nuclear Physics,I/AF Bidhannagar, Calcutta-700064, India" "Physica.C,264(1996)145-153" "Hg, V, Sr, La, Cu, O" 7489 PRL0690680 YBa2Cu3O7 Y1Ba2Cu3O6.346 Y 1 Ba 2 Cu 3 O z 6.346 3 1992 Y123 K 12.3 12.3 K/GPa 7.16 "self flux method, typical size=1.2*1.1*0.26 mm3, c-axis is tho shortist." PRESSURE DEPENDENCE OF TC AND CHARGE TRANSFER IN YBA2CU3OX (6.35<-X<-7) SINGLE CRYSTALS 1992 7 PHYS.REV.LETT.69(1992)680 "Y,BA,CU,O" 7490 PRL0690680 YBa2Cu3O7 Y1Ba2Cu3O6.409 Y 1 Ba 2 Cu 3 O z 6.409 3 1992 Y123 K 26 26 K/GPa 4.38 "self flux method, typical size=1.2*1.1*0.26 mm3, c-axis is tho shortist." PRESSURE DEPENDENCE OF TC AND CHARGE TRANSFER IN YBA2CU3OX (6.35<-X<-7) SINGLE CRYSTALS 1992 7 PHYS.REV.LETT.69(1992)680 "Y,BA,CU,O" 7491 PRL0690680 YBa2Cu3O7 Y1Ba2Cu3O6.55 Y 1 Ba 2 Cu 3 O z 6.55 3 1992 Y123 K 54.1 54.1 K/GPa 3.99 "self flux method, typical size=1.2*1.1*0.26 mm3, c-axis is tho shortist." PRESSURE DEPENDENCE OF TC AND CHARGE TRANSFER IN YBA2CU3OX (6.35<-X<-7) SINGLE CRYSTALS 1992 7 PHYS.REV.LETT.69(1992)680 "Y,BA,CU,O" 7492 PRL0690680 YBa2Cu3O7 Y1Ba2Cu3O6.6 Y 1 Ba 2 Cu 3 O z 6.6 3 1992 Y123 K 58.4 58.4 K/GPa 4.54 "self flux method, typical size=1.2*1.1*0.26 mm3, c-axis is tho shortist." PRESSURE DEPENDENCE OF TC AND CHARGE TRANSFER IN YBA2CU3OX (6.35<-X<-7) SINGLE CRYSTALS 1992 7 PHYS.REV.LETT.69(1992)680 "Y,BA,CU,O" 7493 PRL0690680 YBa2Cu3O7 Y1Ba2Cu3O6.72 Y 1 Ba 2 Cu 3 O z 6.72 3 1992 Y123 K 80.7 80.7 K/GPa 4.46 "self flux method, typical size=1.2*1.1*0.26 mm3, c-axis is tho shortist." PRESSURE DEPENDENCE OF TC AND CHARGE TRANSFER IN YBA2CU3OX (6.35<-X<-7) SINGLE CRYSTALS 1992 7 PHYS.REV.LETT.69(1992)680 "Y,BA,CU,O" 7494 PRL0690680 YBa2Cu3O7 Y1Ba2Cu3O6.74 Y 1 Ba 2 Cu 3 O z 6.74 3 1992 Y123 K 82.6 82.6 K/GPa 4.03 "self flux method, typical size=1.2*1.1*0.26 mm3, c-axis is tho shortist." PRESSURE DEPENDENCE OF TC AND CHARGE TRANSFER IN YBA2CU3OX (6.35<-X<-7) SINGLE CRYSTALS 1992 7 PHYS.REV.LETT.69(1992)680 "Y,BA,CU,O" 7495 PRL0690680 YBa2Cu3O7 Y1Ba2Cu3O6.78 Y 1 Ba 2 Cu 3 O z 6.78 3 1992 Y123 K 88.1 88.1 K/GPa 4.07 "self flux method, typical size=1.2*1.1*0.26 mm3, c-axis is tho shortist." PRESSURE DEPENDENCE OF TC AND CHARGE TRANSFER IN YBA2CU3OX (6.35<-X<-7) SINGLE CRYSTALS 1992 7 PHYS.REV.LETT.69(1992)680 "Y,BA,CU,O" 7496 PRL0690680 YBa2Cu3O7 Y1Ba2Cu3O4.86 Y 1 Ba 2 Cu 3 O z 4.86 3 1992 Y123 K 93.2 93.2 K/GPa 1.72 "self flux method, typical size=1.2*1.1*0.26 mm3, c-axis is tho shortist." PRESSURE DEPENDENCE OF TC AND CHARGE TRANSFER IN YBA2CU3OX (6.35<-X<-7) SINGLE CRYSTALS 1992 7 PHYS.REV.LETT.69(1992)680 "Y,BA,CU,O" 7497 PRL0690680 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O z 7 3 1992 Y123 K 94.3 94.3 K/GPa 0.62 "self flux method, typical size=1.2*1.1*0.26 mm3, c-axis is tho shortist." PRESSURE DEPENDENCE OF TC AND CHARGE TRANSFER IN YBA2CU3OX (6.35<-X<-7) SINGLE CRYSTALS 1992 7 PHYS.REV.LETT.69(1992)680 "Y,BA,CU,O" 7498 SUP0090097 "Y(Sr,Ba)2(Cu,B)3Oz" Y1Sr1Ba1Cu2.5B0.5Oz Y 1 Sr 1 Ba 1 Cu 2.5 B 0.5 O z 1996 Y123 K 25 25 "Y2O3,SrCO3,Y2(SO4)3.8H2O,H3BO3,SrSeO4" "mixture-heat(1000-1065C,14H in O2)-ANN(425C,24H in 250 bar O2)" "Analysis of oxyanion (BO3(3-), CO3(2-), SO4(2-), PO4(3-), SeO4(4-)) substitution in Y123 compounds studied by X-ray photoelectron spectroscopy" 1996 "Institute of Metal Physics, Russian Academy of Sciences, Ural Division, 620219 Yekaterinburg, GSP-170, Russia" "J.Superconductivity,9(1996)97" 7499 SUP0090097 not SC "(Y,Ce,Sr)Sr2(Cu,S)3Oz" Y1.4Ce0.5Sr2.1Cu2.75S0.25Oz Y 1.4 Ce 0.5 Sr 2.1 Cu 2.75 S 0.25 O z 1996 Y123 K 5 20 "Y2O3,SrCO3,Y2(SO4)3.8H2O,H3BO3,SrSeO4" "mixture-heat(1000-1065C,14H in O2)-ANN(425C,24H in 250 bar O2)" "Analysis of oxyanion (BO3(3-), CO3(2-), SO4(2-), PO4(3-), SeO4(4-)) substitution in Y123 compounds studied by X-ray photoelectron spectroscopy" 1996 "Institute of Metal Physics, Russian Academy of Sciences, Ural Division, 620219 Yekaterinburg, GSP-170, Russia" "J.Superconductivity,9(1996)97" 7500 SUP0090097 "(Y,Ce)Sr2(Cu,Se)3Oz" Y1.5Ce0.5Sr2Cu2Se1Oz Y 1.5 Ce 0.5 Sr 2 Cu 2 Se 1 O z 1996 Y123 K 5 "Y2O3,SrCO3,Y2(SO4)3.8H2O,H3BO3,SrSeO4" "mixture-heat(1000-1065C,14H in O2)-ANN(425C,24H in 250 bar O2)" "Analysis of oxyanion (BO3(3-), CO3(2-), SO4(2-), PO4(3-), SeO4(4-)) substitution in Y123 compounds studied by X-ray photoelectron spectroscopy" 1996 "Institute of Metal Physics, Russian Academy of Sciences, Ural Division, 620219 Yekaterinburg, GSP-170, Russia" "J.Superconductivity,9(1996)97" 7501 SUP0090097 not S/C "(Y,Sr)Sr2(Cu,C)3O7" Y0.86Sr2.14Cu2.6C0.4O7 Y 0.86 Sr 2.14 Cu 2.6 C 0.4 O 7 1996 Y123 K 5 "Y2O3,SrCO3,CuO" "mixture-heat(1273K, in air)-heat(1273K,2H in O2+CO2)-Q to RT" "Analysis of oxyanion (BO3(3-), CO3(2-), SO4(2-), PO4(3-), SeO4(4-)) substitution in Y123 compounds studied by X-ray photoelectron spectroscopy" 1996 "Institute of Metal Physics, Russian Academy of Sciences, Ural Division, 620219 Yekaterinburg, GSP-170, Russia" "J.Superconductivity,9(1996)97" 7502 SUP0090097 "(Y,Ca)(Sr,Ba)2(Cu,B)3Oz" Y0.85Ca0.15Sr1Ba1Cu2.5B0.5Oz Y 0.85 Ca 0.15 Sr 1 Ba 1 Cu 2.5 B 0.5 O z 1996 Y123 K 36 36 "mixture-heat(1000-1065C, 14H in O2)" "Analysis of oxyanion (BO3(3-), CO3(2-), SO4(2-), PO4(3-), SeO4(4-)) substitution in Y123 compounds studied by X-ray photoelectron spectroscopy" 1996 "Institute of Metal Physics, Russian Academy of Sciences, Ural Division, 620219 Yekaterinburg, GSP-170, Russia" "J.Superconductivity,9(1996)97" 7503 SUP0090097 "(Y,Ca)(Sr,Ba)2(Cu,B)3Oz" Y0.85Ca0.15Sr0.5Ba1.5Cu2.5B0.5Oz Y 0.85 Ca 0.15 Sr 0.5 Ba 1.5 Cu 2.5 B 0.5 O z 1996 Y123 K 55 55 "mixture-heat(1000-1065C, 14H in O2)" "Analysis of oxyanion (BO3(3-), CO3(2-), SO4(2-), PO4(3-), SeO4(4-)) substitution in Y123 compounds studied by X-ray photoelectron spectroscopy" 1996 "Institute of Metal Physics, Russian Academy of Sciences, Ural Division, 620219 Yekaterinburg, GSP-170, Russia" "J.Superconductivity,9(1996)97" 7504 SUP0090097 Y1.4Ce0.5Sr2.1Cu2.75S0.25Oz Y 1.4 Ce 0.5 Sr 2.1 Cu 2.75 S 0.25 O z 1996 K 20 20 HP treatment "Analysis of oxyanion (BO3(3-), CO3(2-), SO4(2-), PO4(3-), SeO4(4-)) substitution in Y123 compounds studied by X-ray photoelectron spectroscopy" 1996 "Institute of Metal Physics, Russian Academy of Sciences, Ural Division, 620219 Yekaterinburg, GSP-170, Russia" "J.Superconductivity,9(1996)97" 7505 PHC2750299 NdBa2Cu3O7 Nd1Ba2Cu3Oz Nd 1 Ba 2 Cu 3 O z 1 1997 3 Y123 3.857 3.916 11.755 K 98.7 98.7 "powder mixture from metal acetates-mixture-CAL(780-860C,2-20H in 0,1 or 1% O2 in N2)-ANN(450C,5H in O2)" "Relationship of solubility parameter (X), power properties and phase formation in the Nd1+xBa2-xCu3O6.5+z/2+z system" 1997 2 "Chemical Engineering Department,Crown Center for Superconductivity, Technion, Haifa 32000, Israel" "Physica.C,275(1997)299-310" 7506 PHC2750299 "Nd(Ba,Nd)2Cu3O7" Nd1.05Ba1.95Cu3Oz Nd 1.05 Ba 1.95 Cu 3 O z 1 1997 3 Y123 3.861 3.911 11.748 K 98.6 98.6 "powder mixture from metal acetates-mixture-CAL(780-860C,2-20H in 0,1 or 1% O2 in N2)-ANN(450C,5H in O2)" "Relationship of solubility parameter (X), power properties and phase formation in the Nd1+xBa2-xCu3O6.5+z/2+z system" 1997 2 "Chemical Engineering Department,Crown Center for Superconductivity, Technion, Haifa 32000, Israel" "Physica.C,275(1997)299-310" 7507 PHC2750299 "Nd(Ba,Nd)2Cu3O7" Nd1.1Ba1.9Cu3Oz Nd 1.1 Ba 1.9 Cu 3 O z 1 1997 3 Y123 3.862 3.896 11.739 K 98.3 98.3 "powder mixture from metal acetates-mixture-CAL(780-860C,2-20H in 0,1 or 1% O2 in N2)-ANN(450C,5H in O2)" "Relationship of solubility parameter (X), power properties and phase formation in the Nd1+xBa2-xCu3O6.5+z/2+z system" 1997 2 "Chemical Engineering Department,Crown Center for Superconductivity, Technion, Haifa 32000, Israel" "Physica.C,275(1997)299-310" 7508 PHC2750299 "Nd(Ba,Nd)2Cu3O7" Nd1.15Ba1.85Cu3Oz Nd 1.15 Ba 1.85 Cu 3 O z 1 1997 3 Y123 3.867 3.89 11.724 K 94 94 "powder mixture from metal acetates-mixture-CAL(780-860C,2-20H in 0,1 or 1% O2 in N2)-ANN(450C,5H in O2)" "Relationship of solubility parameter (X), power properties and phase formation in the Nd1+xBa2-xCu3O6.5+z/2+z system" 1997 2 "Chemical Engineering Department,Crown Center for Superconductivity, Technion, Haifa 32000, Israel" "Physica.C,275(1997)299-310" 7509 PHC2750299 "Nd(Ba,Nd)2Cu3O7" Nd1.2Ba1.8Cu3Oz Nd 1.2 Ba 1.8 Cu 3 O z 1 1997 3 Y123 3.881 3.888 11.719 K 96.1 96.1 "powder mixture from metal acetates-mixture-CAL(780-860C,2-20H in 0,1 or 1% O2 in N2)-ANN(450C,5H in O2)" "Relationship of solubility parameter (X), power properties and phase formation in the Nd1+xBa2-xCu3O6.5+z/2+z system" 1997 2 "Chemical Engineering Department,Crown Center for Superconductivity, Technion, Haifa 32000, Israel" "Physica.C,275(1997)299-310" 7510 PHC2750299 "Nd(Ba,Nd)2Cu3O7" Nd1.25Ba1.75Cu3Oz Nd 1.25 Ba 1.75 Cu 3 O z 1 1997 3 Y123 3.887 3.887 11.714 K 97.4 97.4 "powder mixture from metal acetates-mixture-CAL(780-860C,2-20H in 0,1 or 1% O2 in N2)-ANN(450C,5H in O2)" "Relationship of solubility parameter (X), power properties and phase formation in the Nd1+xBa2-xCu3O6.5+z/2+z system" 1997 2 "Chemical Engineering Department,Crown Center for Superconductivity, Technion, Haifa 32000, Israel" "Physica.C,275(1997)299-310" 7511 PHC2750279 "Bi2Sr2(Ca,Ce)Cu2O8+z" Bi2Sr2Ca0.9Ce0.1Cu2O8+z Bi 2 Sr 2 Ca 0.9 Ce 0.1 Cu 2 O 8+z 3 1997 3 Bi2212 5.393 5.4 30.949 K 90 90 "Bi2O3,SrCO3,CaCO3,CuO,CeO2" 5 "mixture(nominal 2:2:1:2)-heat 750C-kept 10H-heat(1000,1020,1050C for 15H)-cool to 830C (2C/H)" Growth and characterization of superconducting Bi2Sr2Ca(1-x)CexCu2O8+z single crystals 1997 2 "Crystal Growth Centre, Anna University, Madras 600 025, India" "Physica.C,275(1997)279-283" 7512 PHC2750279 "Bi2Sr2(Ca,Ce)Cu2O8+z" Bi2Sr2Ca0.8Ce0.2Cu2O8+z Bi 2 Sr 2 Ca 0.8 Ce 0.2 Cu 2 O 8+z 3 1997 3 Bi2212 5.417 5.42 30.866 K 81 81 "Bi2O3,SrCO3,CaCO3,CuO,CeO2" 5 "mixture(nominal 2:2:1:2)-heat 750C-kept 10H-heat(1000,1020,1050C for 15H)-cool to 830C (2C/H)" Growth and characterization of superconducting Bi2Sr2Ca(1-x)CexCu2O8+z single crystals 1997 2 "Crystal Growth Centre, Anna University, Madras 600 025, India" "Physica.C,275(1997)279-283" 7513 PHC2750279 "Bi2Sr2(Ca,Ce)Cu2O8+z" Bi2Sr2Ca0.7Ce0.3Cu2O8+z Bi 2 Sr 2 Ca 0.7 Ce 0.3 Cu 2 O 8+z 3 1997 3 Bi2212 5.42 5.428 30.849 K 78 78 "Bi2O3,SrCO3,CaCO3,CuO,CeO2" 5 "mixture(nominal 2:2:1:2)-heat 750C-kept 10H-heat(1000,1020,1050C for 15H)-cool to 830C (2C/H)" Growth and characterization of superconducting Bi2Sr2Ca(1-x)CexCu2O8+z single crystals 1997 2 "Crystal Growth Centre, Anna University, Madras 600 025, India" "Physica.C,275(1997)279-283" 7514 PHC2750279 "Bi2Sr2(Ca,Ce)Cu2O8+z" Bi2Sr2Ca0.6Ce0.4Cu2O8+z Bi 2 Sr 2 Ca 0.6 Ce 0.4 Cu 2 O 8+z 3 1997 3 Bi2212 5.427 5.436 30.762 K 71 71 "Bi2O3,SrCO3,CaCO3,CuO,CeO2" 5 "mixture(nominal 2:2:1:2)-heat 750C-kept 10H-heat(1000,1020,1050C for 15H)-cool to 830C (2C/H)" Growth and characterization of superconducting Bi2Sr2Ca(1-x)CexCu2O8+z single crystals 1997 2 "Crystal Growth Centre, Anna University, Madras 600 025, India" "Physica.C,275(1997)279-283" 7515 PHC2750279 "Bi2Sr2(Ca,Ce)Cu2O8+z" Bi2Sr2Ca0.5Ce0.5Cu2O8+z Bi 2 Sr 2 Ca 0.5 Ce 0.5 Cu 2 O 8+z 3 1997 3 Bi2212 5.436 5.448 30.693 K 60 60 "Bi2O3,SrCO3,CaCO3,CuO,CeO2" 5 "mixture(nominal 2:2:1:2)-heat 750C-kept 10H-heat(1000,1020,1050C for 15H)-cool to 830C (2C/H)" Growth and characterization of superconducting Bi2Sr2Ca(1-x)CexCu2O8+z single crystals 1997 2 "Crystal Growth Centre, Anna University, Madras 600 025, India" "Physica.C,275(1997)279-283" 7516 EPL0330153 "d=1200A, surface resistance=10m ohm" YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 4 1996 K 86 86 microwave transmission 3400 films are epitaxially grown by laser ablation on MgO Linear temperature variation of the penetration depth in YBa2Cu3O7-delta thin films 1996 1 "Laboratoire de Physique de la Matiere Condensee, Ecole Normale Superieure 24 rue Lhomond-75231 Paris Cedex 05, France" "Europhys.Lett.,33(1996)153-158" 7517 EPL0330153 "d=1000A, surface resistance=0.27m Ohm, good quarity" YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 4 1996 K 92 92 microwave transmission 1570 films are epitaxially grown by laser ablation on MgO Linear temperature variation of the penetration depth in YBa2Cu3O7-delta thin films 1996 1 "Laboratoire de Physique de la Matiere Condensee, Ecole Normale Superieure 24 rue Lhomond-75231 Paris Cedex 05, France" "Europhys.Lett.,33(1996)153-158" 7518 PRL0740598 "PENET(a)=1600A, PENET(b)=1000A" YBa2Cu3O7 Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O z 6.95 3 1995 Y123 K 93.5 0.2 93.5 from Reflectance 1600 single crystal was grown under high oxygen pressure. In-Plane Anisotropy of the Penetration Depth in YBa2Cu3O7-x and YBa2Cu4O8 Superconductors 1995 1 "Department of Physics and Astronomy,McMaster University,Hamilton,Ontario,Canada L8S 4M1" "Phys.Rev.Lett.,74(1995)0598" "Y,Ba,Cu,O" 7519 PRL0740598 "PENET(a)=2000A, PENET(b)=800A" YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 3 1995 Y124 K 80 0.5 80 Kramers-Kronig relation 2000 single crystal was grown under high oxygen pressure In-Plane Anisotropy of the Penetration Depth in YBa2Cu3O7-x and YBa2Cu4O8 Superconductors 1995 1 "Department of Physics and Astronomy,McMaster University,Hamilton,Ontario,Canada L8S 4M1" "Phys.Rev.Lett.,74(1995)0598" "Y,Ba,Cu,O" 7520 PHC1851089 YBa2Cu3O7 Y1Ba2Cu3O6.97 Y 1 Ba 2 Cu 3 O z 6.97 1 1991 Y123 K 89.5 89.5 muon spin rotation 1300 MOUN-SPIN ROTARION (microSR)STUDY OF THE TEMPERATURE DEPENDENCE OF THE LONDON PETRATION DEPTH IN COPPER OXIDE SUPERCONDUCTORS 1991 "Physik-Institut der Universitat Zurich, CH-8001 Zurich" Physica C 185-189(1991)1089 7521 PHC1851089 YBa2Cu3O7 Y1Ba2Cu3O6.556 Y 1 Ba 2 Cu 3 O z 6.556 1 1991 Y123 K 59.4 59.4 muon spin rotation 2200 MOUN-SPIN ROTARION (microSR)STUDY OF THE TEMPERATURE DEPENDENCE OF THE LONDON PETRATION DEPTH IN COPPER OXIDE SUPERCONDUCTORS 1991 "Physik-Institut der Universitat Zurich, CH-8001 Zurich" Physica C 185-189(1991)1089 7522 PHC1851089 YBa2Cu3O7 Y1Ba2Cu3O6.516 Y 1 Ba 2 Cu 3 O z 6.516 1 1991 Y123 K 57.7 57.7 muon spin rotation 2500 MOUN-SPIN ROTARION (microSR)STUDY OF THE TEMPERATURE DEPENDENCE OF THE LONDON PETRATION DEPTH IN COPPER OXIDE SUPERCONDUCTORS 1991 "Physik-Institut der Universitat Zurich, CH-8001 Zurich" Physica C 185-189(1991)1089 7523 PHC1851089 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1991 Y124 K 80.2 80.2 muon spin rotation 1600 MOUN-SPIN ROTARION (microSR)STUDY OF THE TEMPERATURE DEPENDENCE OF THE LONDON PETRATION DEPTH IN COPPER OXIDE SUPERCONDUCTORS 1991 "Physik-Institut der Universitat Zurich, CH-8001 Zurich" Physica C 185-189(1991)1089 7524 PHC1851089 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1 1991 Bi2212 K 86.4 86.4 mon spin rotation 2100 MOUN-SPIN ROTARION (microSR)STUDY OF THE TEMPERATURE DEPENDENCE OF THE LONDON PETRATION DEPTH IN COPPER OXIDE SUPERCONDUCTORS 1991 "Physik-Institut der Universitat Zurich, CH-8001 Zurich" Physica C 185-189(1991)1089 7525 PHC2240263 optimal oxygen content YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1994 3 Y123 Pmmm 3.817 3.885 11.685 K 92.3 92.3 41 27.9 "curve fitting to M(H,T)" 275 4.12 calculated from Hc2(0) 10.9 "from magnetization, WHH model" 1450 Reversible magnetization below Tc in high-quality superconducting ceramics 1994 5 Physica C 224 (1994)263-276 "Tl,Y,Ba,Cu,O,Bi,Sr,Cu" 7526 PHC2240263 optimal oxygen content YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1994 3 Y123 Pmmm 3.817 3.886 11.679 K 91.7 91.7 68 321 "curve fitting to M(H,T)" 290 4.5 calculated from Hc2(0) 10.6 "from magnetization,WHH model" 1360 Reversible magnetization below Tc in high-quality superconducting ceramics 1994 5 Physica C 224 (1994)263-276 "Tl,Y,Ba,Cu,O,Bi,Sr,Cu" 7527 PHC2240263 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1994 3 Y124 Ammm 3.843 3.871 27.242 K 80.1 80.1 39 166 "curve fitting to M(H,T)" 89 1.52 calculated from Hc2(0) 19.3 "from magnetization,WHH model" 1970 Reversible magnetization below Tc in high-quality superconducting ceramics 1994 5 Physica C 224 (1994)263-276 "Tl,Y,Ba,Cu,O,Bi,Sr,Cu" 7528 PHC2240263 optimal oxygen content YBa4Cu7O14 Y2Ba4Cu7O14 Y 2 Ba 4 Cu 7 O 14 1 1994 3 Y247 3.832 3.877 50.6 K 94.2 94.2 45 225 "curve fitting to M(H,T)" 114 1.76 calculated from Hc2(0) 16.9 "from magnetization,WHH model" 1930 Reversible magnetization below Tc in high-quality superconducting ceramics 1994 5 Physica C 224 (1994)263-276 "Tl,Y,Ba,Cu,O,Bi,Sr,Cu" 7529 PHC2240263 optimal oxygen content Y2Ba4Cu7O14 Y2Ba4Cu7O14 Y 2 Ba 4 Cu 7 O 14 1 1994 3 Y247 3.831 3.877 50.591 K 94.8 94.8 36 "curve fitting to M(H,T)" 127 1.89 calculated from HC2(0) 16.1 "from magnetization,WHH model" 1860 Reversible magnetization below Tc in high-quality superconducting ceramics 1994 5 Physica C 224 (1994)263-276 "Tl,Y,Ba,Cu,O,Bi,Sr,Cu" 7530 PHC2240263 optimal oxygen content Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1 1994 3 Bi2212 A2aa 5.409 5.411 30.9 K 93.7 93.7 32 "curve fitting to M(H,T)" 160 "curve fitting to M(H,T)" 58.3 0.82 calculated from Hc2(0) 23.8 2770 Reversible magnetization below Tc in high-quality superconducting ceramics 1994 5 Physica C 224 (1994)263-276 "Tl,Y,Ba,Cu,O,Bi,Sr,Cu" 7531 PHC2240263 optimal oxygen content Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1 1994 3 Bi2212 A2aa 5.41 5.412 30.88 K 92.4 92.4 48 "curve fitting to M(H,T)" 156 "curve fitting to M(H,T)" 67.9 0.95 calculated from Hc2(0) 22 "from magnetization,WHH model" 2490 Reversible magnetization below Tc in high-quality superconducting ceramics 1994 5 Physica C 224 (1994)263-276 "Tl,Y,Ba,Cu,O,Bi,Sr,Cu" 7532 PHC2240263 optimal oxygen content TlBa2CuO6 Tl2Ba2Cu1O6 Tl 2 Ba 2 Cu 1 O 6 1 1994 2 Tl2201 I4/mmm 3.87 23.226 K 92.1 92.1 61 "curve fitting to M(H,T)" 108 "curve fitting to M(H,T)" 43.2 0.64 calculated from Hc2(0) 27.6 "from magnetization,WHH model" 2880 Reversible magnetization below Tc in high-quality superconducting ceramics 1994 5 Physica C 224 (1994)263-276 "Tl,Y,Ba,Cu,O,Bi,Sr,Cu" 7533 PHC2240263 optimal oxygen content TlBa2CuO6 Tl2Ba2Cu1O6 Tl 2 Ba 2 Cu 1 O 6 1 1994 2 Tl2201 I4/mmm 3.871 23.224 K 92.1 92.1 63 "curve fitting to M(H,T)" 139 "curve fitting to M(H,T)" 46.7 0.66 calculated from Hc2(0) 26.5 "from magnetization,WHH model" 2550 Reversible magnetization below Tc in high-quality superconducting ceramics 1994 5 Physica C 224 (1994)263-276 "Tl,Y,Ba,Cu,O,Bi,Sr,Cu" 7534 PHC2240263 optimal oxygen content TlBa2CaCu2O8 Tl2Ba2Ca1Cu2O8 Tl 2 Ba 2 Ca 1 Cu 2 O 8 1 1994 2 Tl2212 I4/mmm 3.855 29.328 K 108.7 108.7 45 "curve fitting to M(H,T)" 206 "curve fitting to M(H,T)" 79.7 0.99 calculated from Hc2(0) 20.3 "from magnetization,WHH model" 1970 Reversible magnetization below Tc in high-quality superconducting ceramics 1994 5 Physica C 224 (1994)263-276 "Tl,Y,Ba,Cu,O,Bi,Sr,Cu" 7535 PR05106035 c-axis grain-aligned sample with 12-20 micron single crystals. Hc(0)=5225 Oe YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1995 Y124 K 81.8 81.8 "clean limit,G-L parametes" 220 "using clem-Hao thory,M(T),WHHthory" 58.1 1.02 from Hc2 23.8 1880 "mixture-heat(900C in air )-high pressure(1050C,12H in 20%O2-Ar(600 atm O2))-RT(1.5C/min)" "Reversible magnetization, critical, fields, and vortex structure in grain-aligned YBa2Cu4O8" 1995 3 "Ames Laboratory, U.S. Department of Enargy and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B,51(1995)6035" 7536 PR0428710 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1990 cm3/g Bi2212 K 85 0.8 85 91 calculated from Pcohere 280 calculated from susceptibility 10.9 self-flux method by heating 950C and slowly cooling MAGNETIC-SUSCEPTIBILITY ANISOTROPY OF SINGLE-CRYSTAL BI2SR2CACU2O8 1990 11 "SUSCEPTIBILITY ,SINGLE CRYSTAL ,ANISOTROPIES" "AMES LABORATORY, UNITED STATES DEPARTMENT OF ENERGY AND DEPARTMENT OF PHYSICS, IOWA STATE UNIVERSITY, AMES,IOWA 50011" "PHYS.REV.B,42(1990)8710" "BI,SR,CA,CU,O" 7537 SSC1010129 Ba1Pb0.75Bi0.25O3 Ba 1 Pb 0.75 Bi 0.25 O 3 1 1997 BPBO K 12 12 "BaCO3,PbO,Bi2O3,CeO2" "mixture-heat(800C, overnight in air)-heat(850C,20H)-bar-SIN(900C,24H in O2 flow)-slow cool to RT" "Transport properties of the Ce-doped Ba(Pb,Bi)O3 system" 1997 "Leiden Institure of Chemistry, Gorlaeus Laboratories, Leiden University, P.O. Box 9502,2300 RA Leiden, The Netherlands" "Solid State Commun., 101(1997)129" 7538 SSC1010129 R=RO * exp(TO/T)^(r) R=1/4 Ba1Pb0.7Ce0.05Ni0.25O3 Ba 1 Pb 0.7 Ce 0.05 Ni 0.25 O 3 1 1997 K 4 "BaCO3,PbO,Bi2O3,CeO2" "mixture-heat(800C, overnight in air)-heat(850C,20H)-bar-SIN(900C,24H in O2 flow)-slow cool to RT" "Transport properties of the Ce-doped Ba(Pb,Bi)O3 system" 1997 "Leiden Institure of Chemistry, Gorlaeus Laboratories, Leiden University, P.O. Box 9502,2300 RA Leiden, The Netherlands" "Solid State Commun., 101(1997)129" 7539 SSC1010129 Ba1Pb0.65Ce0.1Bi0.25O3 Ba 1 Pb 0.65 Ce 0.1 Bi 0.25 O 3 1 1997 K 4 "BaCO3,PbO,Bi2O3,CeO2" "mixture-heat(800C, overnight in air)-heat(850C,20H)-bar-SIN(900C,24H in O2 flow)-slow cool to RT" "Transport properties of the Ce-doped Ba(Pb,Bi)O3 system" 1997 "Leiden Institure of Chemistry, Gorlaeus Laboratories, Leiden University, P.O. Box 9502,2300 RA Leiden, The Netherlands" "Solid State Commun., 101(1997)129" 7540 SUP0100013 "(La,Sr)2CuO4" La1.85Sr0.15Cu1Oz La 1.85 Sr 0.15 Cu 1 O z 1 1997 2 T 3.771 13.212 K 38.2 38.2 "La2O3,SrCO3,CuO,MO" 1 "mixture-heat (1000C,12H in air)-pellet SIN(1000-1180C,1 day in O2 flow)-cool to 600C-ANN(600C,1day)" "Two-dimensional hole localization induced by Zn, Ni, and Mg dopings in Cu sites in La1.85Sr0.15Cu1-xMxOy" 1997 "J.Superconductivity , 10(1997)13" 7541 SUP0100013 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.95Zn0.05Oz La 1.85 Sr 0.15 Cu 0.95 Zn 0.05 O z 1 1997 2 T 3.778 13.201 K 10 "La2O3,SrCO3,CuO,MO" 1 "mixture-heat (1000C,12H in air)-pellet SIN(1000-1180C,1 day in O2 flow)-cool to 600C-ANN(600C,1day)" "Two-dimensional hole localization induced by Zn, Ni, and Mg dopings in Cu sites in La1.85Sr0.15Cu1-xMxOy" 1997 "J.Superconductivity , 10(1997)13" 7542 SUP0100013 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.9Zn0.1Oz La 1.85 Sr 0.15 Cu 0.9 Zn 0.1 O z 1 1997 2 T 3.784 13.17 K 10 "La2O3,SrCO3,CuO,MO" 1 "mixture-heat (1000C,12H in air)-pellet SIN(1000-1180C,1 day in O2 flow)-cool to 600C-ANN(600C,1day)" "Two-dimensional hole localization induced by Zn, Ni, and Mg dopings in Cu sites in La1.85Sr0.15Cu1-xMxOy" 1997 "J.Superconductivity , 10(1997)13" 7543 SUP0100013 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.8Zn0.2Oz La 1.85 Sr 0.15 Cu 0.8 Zn 0.2 O z 1 1997 3 T 3.797 3.803 13.145 K 10 "La2O3,SrCO3,CuO,MO" 1 "mixture-heat (1000C,12H in air)-pellet SIN(1000-1180C,1 day in O2 flow)-cool to 600C-ANN(600C,1day)" "Two-dimensional hole localization induced by Zn, Ni, and Mg dopings in Cu sites in La1.85Sr0.15Cu1-xMxOy" 1997 "J.Superconductivity , 10(1997)13" 7544 SUP0100013 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.7Zn0.3Oz La 1.85 Sr 0.15 Cu 0.7 Zn 0.3 O z 1 1997 3 T 3.806 3.821 13.122 K 10 "La2O3,SrCO3,CuO,MO" 1 "mixture-heat (1000C,12H in air)-pellet SIN(1000-1180C,1 day in O2 flow)-cool to 600C-ANN(600C,1day)" "Two-dimensional hole localization induced by Zn, Ni, and Mg dopings in Cu sites in La1.85Sr0.15Cu1-xMxOy" 1997 "J.Superconductivity , 10(1997)13" 7545 SUP0100013 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.99Zn0.01Oz La 1.85 Sr 0.15 Cu 0.99 Zn 0.01 O z 1 1997 3 T K 10 "La2O3,SrCO3,CuO,MO" 1 "mixture-heat (1000C,12H in air)-pellet SIN(1000-1180C,1 day in O2 flow)-cool to 600C-ANN(600C,1day)" "Two-dimensional hole localization induced by Zn, Ni, and Mg dopings in Cu sites in La1.85Sr0.15Cu1-xMxOy" 1997 "J.Superconductivity , 10(1997)13" 7546 SUP0100013 "(La,Sr)2(Cu,Mg))O4" La1.85Sr0.15Cu0.99Mg0.01Oz La 1.85 Sr 0.15 Cu 0.99 Mg 0.01 O z 1 1997 2 T K 30 30 "La2O3,SrCO3,CuO,MO" 1 "mixture-heat (1000C,12H in air)-pellet SIN(1000-1180C,1 day in O2 flow)-cool to 600C-ANN(600C,1day)" "Two-dimensional hole localization induced by Zn, Ni, and Mg dopings in Cu sites in La1.85Sr0.15Cu1-xMxOy" 1997 "J.Superconductivity , 10(1997)13" 7547 SUP0100013 "(La,Sr)2(Cu,Mg)O4" La1.85Sr0.15Cu0.98Mg0.02Oz La 1.85 Sr 0.15 Cu 0.98 Mg 0.02 O z 1 1997 2 T K 15.9 15.9 "La2O3,SrCO3,CuO,MO" 1 "mixture-heat (1000C,12H in air)-pellet SIN(1000-1180C,1 day in O2 flow)-cool to 600C-ANN(600C,1day)" "Two-dimensional hole localization induced by Zn, Ni, and Mg dopings in Cu sites in La1.85Sr0.15Cu1-xMxOy" 1997 "J.Superconductivity , 10(1997)13" 7548 SUP0100013 "(La,Sr)2(Cu,Mg)O4" La1.85Sr0.15Cu0.97Mg0.03Oz La 1.85 Sr 0.15 Cu 0.97 Mg 0.03 O z 1 1997 2 T K 10 "La2O3,SrCO3,CuO,MO" 1 "mixture-heat (1000C,12H in air)-pellet SIN(1000-1180C,1 day in O2 flow)-cool to 600C-ANN(600C,1day)" "Two-dimensional hole localization induced by Zn, Ni, and Mg dopings in Cu sites in La1.85Sr0.15Cu1-xMxOy" 1997 "J.Superconductivity , 10(1997)13" 7549 SUP0100013 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.99Ni0.01Oz La 1.85 Sr 0.15 Cu 0.99 Ni 0.01 O z 1 1997 2 T K 32.1 32.1 "La2O3,SrCO3,CuO,MO" 1 "mixture-heat (1000C,12H in air)-pellet SIN(1000-1180C,1 day in O2 flow)-cool to 600C-ANN(600C,1day)" "Two-dimensional hole localization induced by Zn, Ni, and Mg dopings in Cu sites in La1.85Sr0.15Cu1-xMxOy" 1997 "J.Superconductivity , 10(1997)13" 7550 SUP0100013 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.98Ni0.02Oz La 1.85 Sr 0.15 Cu 0.98 Ni 0.02 O z 1 1997 2 T K 28 28 "La2O3,SrCO3,CuO,MO" 1 "mixture-heat (1000C,12H in air)-pellet SIN(1000-1180C,1 day in O2 flow)-cool to 600C-ANN(600C,1day)" "Two-dimensional hole localization induced by Zn, Ni, and Mg dopings in Cu sites in La1.85Sr0.15Cu1-xMxOy" 1997 "J.Superconductivity , 10(1997)13" 7551 SUP0100013 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.97Ni0.03Oz La 1.85 Sr 0.15 Cu 0.97 Ni 0.03 O z 1 1997 2 T K 21.9 21.9 "La2O3,SrCO3,CuO,MO" 1 "mixture-heat (1000C,12H in air)-pellet SIN(1000-1180C,1 day in O2 flow)-cool to 600C-ANN(600C,1day)" "Two-dimensional hole localization induced by Zn, Ni, and Mg dopings in Cu sites in La1.85Sr0.15Cu1-xMxOy" 1997 "J.Superconductivity , 10(1997)13" 7552 SUP0100013 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.96Ni0.04Oz La 1.85 Sr 0.15 Cu 0.96 Ni 0.04 O z 1 1997 2 T K 16.1 16.1 "La2O3,SrCO3,CuO,MO" 1 "mixture-heat (1000C,12H in air)-pellet SIN(1000-1180C,1 day in O2 flow)-cool to 600C-ANN(600C,1day)" "Two-dimensional hole localization induced by Zn, Ni, and Mg dopings in Cu sites in La1.85Sr0.15Cu1-xMxOy" 1997 "J.Superconductivity , 10(1997)13" 7553 PHC2290209 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1994 Bi2212 K 85.1 84.5 85.1 2.1 283 travelling solvent floating zone method Specific heat up to 14 tesla magnetization of a Bi2Sr2CaCu2O8 single crystal: Thermodynamics of a 2D superconductor 1994 8 "Physica C, 229(1994)209-230" "Bi,Sr,Ca,Cu,O" 7554 PHC1670598 Ca2CuO3 Ca2Cu1O3 Ca 2 Cu 1 O 3 1990 K 1.63 516 specific heat "SPECIFIC HEAT OF THE HIGH-TC SUPERCONDUCTOR (BI,PB)2SR2CA2CU3O10, AND RELATED PHASES CA2CUO3 AND (CA0.86SR0.14)CUO2 FROM 0.4TO 20K" 1990 "CSIRO DIVIDION OF APPLIED PHYSICS, LINDFIELD, 2070 AUSTRALIA" "PHYSICA C,167(1990)598" "CA,CU,O,SR" 7555 PHC1670598 "(Ca,Sr)CuO4" Ca0.86Sr0.14Cu1O4 Ca 0.86 Sr 0.14 Cu 1 O 4 1990 IL K gamma=zero 479 specific heat "SPECIFIC HEAT OF THE HIGH-TC SUPERCONDUCTOR (BI,PB)2SR2CA2CU3O10, AND RELATED PHASES CA2CUO3 AND (CA0.86SR0.14)CUO2 FROM 0.4TO 20K" 1990 "CSIRO DIVIDION OF APPLIED PHYSICS, LINDFIELD, 2070 AUSTRALIA" "PHYSICA C,167(1990)598" "CA,CU,O,SR" 7556 PHC1670598 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1990 Bi2212 K 1.74 246 specific heat "SPECIFIC HEAT OF THE HIGH-TC SUPERCONDUCTOR (BI,PB)2SR2CA2CU3O10, AND RELATED PHASES CA2CUO3 AND (CA0.86SR0.14)CUO2 FROM 0.4TO 20K" 1990 "CSIRO DIVIDION OF APPLIED PHYSICS, LINDFIELD, 2070 AUSTRALIA" "PHYSICA C,167(1990)598" "CA,CU,O,SR" 7557 PHC1670598 Bi1.6Pb0.4Sr1.6Ca2Cu3Oz Bi 1.6 Pb 0.4 Sr 1.6 Ca 2 Cu 3 O z 1990 Bi2223 K 3.18 276 specific heat "SPECIFIC HEAT OF THE HIGH-TC SUPERCONDUCTOR (BI,PB)2SR2CA2CU3O10, AND RELATED PHASES CA2CUO3 AND (CA0.86SR0.14)CUO2 FROM 0.4TO 20K" 1990 "CSIRO DIVIDION OF APPLIED PHYSICS, LINDFIELD, 2070 AUSTRALIA" "PHYSICA C,167(1990)598" "CA,CU,O,SR" 7558 PHC1670598 "Bi2223 phase>90%imprity=Bi2212, Ca2CuO3Ca2PbO4" Bi1.6Pb0.4Sr2Ca2.5Cu3.5Oz Bi 1.6 Pb 0.4 Sr 2 Ca 2.5 Cu 3.5 O z 1990 Bi2223 K 8.41 284 specific heat "mixture-react(800+830C+840C,14H)-disc-SIN(859C,60H in aire)-cool to 700C(3C/min)-cool to 400C(1.5C/min)-ANN(2H in O2flow)" "SPECIFIC HEAT OF THE HIGH-TC SUPERCONDUCTOR (BI,PB)2SR2CA2CU3O10, AND RELATED PHASES CA2CUO3 AND (CA0.86SR0.14)CUO2 FROM 0.4TO 20K" 1990 "CSIRO DIVIDION OF APPLIED PHYSICS, LINDFIELD, 2070 AUSTRALIA" "PHYSICA C,167(1990)598" "CA,CU,O,SR" 7559 PHC1670598 "equal % of Bi2212,Bi2223 impurity=Ca2CuO3,Ca2PbO4" Bi1.6Pb0.4Sr2Ca2.5Cu3.5Oz Bi 1.6 Pb 0.4 Sr 2 Ca 2.5 Cu 3.5 O z 1990 K 10.14 283 specific heat "mixture-react(800+830C+840C, 14H)-disc-SIN(855C,48H in air)-furnace cool in O2 flow" "SPECIFIC HEAT OF THE HIGH-TC SUPERCONDUCTOR (BI,PB)2SR2CA2CU3O10, AND RELATED PHASES CA2CUO3 AND (CA0.86SR0.14)CUO2 FROM 0.4TO 20K" 1990 "CSIRO DIVIDION OF APPLIED PHYSICS, LINDFIELD, 2070 AUSTRALIA" "PHYSICA C,167(1990)598" "CA,CU,O,SR" 7560 PHC1670598 virtually single phase Bi16Pb0.4Sr2Ca2.5Cu3.5Oz Bi 16 Pb 0.4 Sr 2 Ca 2.5 Cu 3.5 O z 1990 Bi2223 K gamma=zero 274 specific heat two step process "SPECIFIC HEAT OF THE HIGH-TC SUPERCONDUCTOR (BI,PB)2SR2CA2CU3O10, AND RELATED PHASES CA2CUO3 AND (CA0.86SR0.14)CUO2 FROM 0.4TO 20K" 1990 "CSIRO DIVIDION OF APPLIED PHYSICS, LINDFIELD, 2070 AUSTRALIA" "PHYSICA C,167(1990)598" "CA,CU,O,SR" 7561 PHC1560292 Bi2Sr2CaCu2O8 Bi2.1Sr2Ca1Cu2O8+z Bi 2.1 Sr 2 Ca 1 Cu 2 O 8+z 1 1988 Bi2212 K 78 89 89 4 260 specific heat 1 "mixture-heat (790C,4H)-press to pellet-SIN(860C,5H in air)-Q to liq, N2" SPECIFIC HEATAND RESISTIVITY OF THE HIGH-TC SUPERCONDUCTOR BI2SR2CACU2O8+X FROM 0.4 TO 20K: EVIDENCE FOR A T-TERM 1988 "PHYSICA C,156(1988)292" 7562 PR03912267 Bi2Sr2CuO6 Bi2Sr2Cu1O6 Bi 2 Sr 2 Cu 1 O 6 1989 Bi2201 K 12.5 12.5 26 0.35 212 specific heat "Bi2O3,SrO2,(CaCO3),CuO" 1 mixture-heat (950C)-slow cool to 700C-FC Specific heat of Bi2Sr2CuO6 and Bi2Sr2CaCu2O8 in the superconducting state 1989 6 "Department of Physics, The Ohio State University, Columbus, Ohio 43210-1106" "Phys.Rev.B,39(1989)12267" 7563 PR03912267 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1989 Bi2212 K 84 84 26 0.6 171 specific heat mixture-heat(850C) Specific heat of Bi2Sr2CuO6 and Bi2Sr2CaCu2O8 in the superconducting state 1989 6 "Department of Physics, The Ohio State University, Columbus, Ohio 43210-1106" "Phys.Rev.B,39(1989)12267" 7564 PR05600802 Gruneizen parameter=0.79 Bi2Sr2CaCu2O8 Bi2Sr1.8Ca1.2Cu2O8 Bi 2 Sr 1.8 Ca 1.2 Cu 2 O 8 1 1997 Bi2212 K 79.5 79.5 288 analyzing thermal expansion See Phys.Rev.B 54(1996)R6885 Superconducting fluctuations in the thermal conductivity of Bi2Sr2CaCu2O8 and DyBa2Cu3O7-x materials 1997 7 "SUPRAS, Institute of Physics B5, University of Lie'ge, B400-4000 Lie'ge, Belgium" "Phys.Rev,B56(1997)802" 7565 PR05600802 Gruneizen parameter=2.35 DyBa2Cu3O7 Dy1Ba2Cu3O7-z Dy 1 Ba 2 Cu 3 O 7-z 1997 Y123 K 83.8 83.8 394 analyzing thermal expansion "magnetic field melt-texturing technique,all processes are under the magnetic field, ANN(400C, 1Day)" Superconducting fluctuations in the thermal conductivity of Bi2Sr2CaCu2O8 and DyBa2Cu3O7-x materials 1997 7 "SUPRAS, Institute of Physics B5, University of Lie'ge, B400-4000 Lie'ge, Belgium" "Phys.Rev,B56(1997)802" 7566 SSC1010617 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 1 1997 3 Bi2212 K 63 63 1 See Jpm.J.Apple.Phys.34(1995)5592 STUDY OF NORMALISED RESISTANCE AND THERMOPOWER OF A HOLE DOPED Bi2-xCdxSr2CaCu2Oy (x=0.0-0.8) SUPERCONDUCTING SYSTEM 1997 "Department of Solid State Physics, Indian Association for the Cultivation of Science, Calcutta-700 032, India" Solid State Commun.101(1997)617-620 7567 SSC1010617 "(Bi,Cd)2Sr2CaCu2O8" Bi1.9Cd0.1Sr2Ca1Cu2Oz Bi 1.9 Cd 0.1 Sr 2 Ca 1 Cu 2 O z 1 1997 3 Bi2212 K 60 60 1 See Jpm.J.Apple.Phys.34(1995)5592 STUDY OF NORMALISED RESISTANCE AND THERMOPOWER OF A HOLE DOPED Bi2-xCdxSr2CaCu2Oy (x=0.0-0.8) SUPERCONDUCTING SYSTEM 1997 "Department of Solid State Physics, Indian Association for the Cultivation of Science, Calcutta-700 032, India" Solid State Commun.101(1997)617-620 7568 SSC1010617 "(Bi,Cd)2Sr2CaCu2O8" Bi1.8Cd0.2Sr2Ca1Cu2Oz Bi 1.8 Cd 0.2 Sr 2 Ca 1 Cu 2 O z 1 1997 3 Bi2212 K 58 58 1 See Jpm.J.Apple.Phys.34(1995)5592 STUDY OF NORMALISED RESISTANCE AND THERMOPOWER OF A HOLE DOPED Bi2-xCdxSr2CaCu2Oy (x=0.0-0.8) SUPERCONDUCTING SYSTEM 1997 "Department of Solid State Physics, Indian Association for the Cultivation of Science, Calcutta-700 032, India" Solid State Commun.101(1997)617-620 7569 SSC1010617 "(Bi,Cd)2Sr2CaCu2O8" Bi1.7Cd0.3Sr2Ca1Cu2Oz Bi 1.7 Cd 0.3 Sr 2 Ca 1 Cu 2 O z 1 1997 3 Bi2212 K 53 53 1 See Jpm.J.Apple.Phys.34(1995)5592 STUDY OF NORMALISED RESISTANCE AND THERMOPOWER OF A HOLE DOPED Bi2-xCdxSr2CaCu2Oy (x=0.0-0.8) SUPERCONDUCTING SYSTEM 1997 "Department of Solid State Physics, Indian Association for the Cultivation of Science, Calcutta-700 032, India" Solid State Commun.101(1997)617-620 7570 SSC1010617 "CdO,SrCuO2 phases detected by XRD" "(Bi,Cd)2Sr2CaCu2O8" Bi1.5Cd0.5Sr2Ca1Cu2Oz Bi 1.5 Cd 0.5 Sr 2 Ca 1 Cu 2 O z 1997 3 Bi2212 K 45 45 1 See Jpm.J.Apple.Phys.34(1995)5592 STUDY OF NORMALISED RESISTANCE AND THERMOPOWER OF A HOLE DOPED Bi2-xCdxSr2CaCu2Oy (x=0.0-0.8) SUPERCONDUCTING SYSTEM 1997 "Department of Solid State Physics, Indian Association for the Cultivation of Science, Calcutta-700 032, India" Solid State Commun.101(1997)617-620 7571 SSC1010617 "CdO,SrCuO2 phases detected by XRD" "(Bi,Cd)2Sr2CaCu2O8" Bi1.4Cd0.6Sr2Ca1Cu2Oz Bi 1.4 Cd 0.6 Sr 2 Ca 1 Cu 2 O z 1997 3 Bi2212 K 34 34 1 See Jpm.J.Apple.Phys.34(1995)5592 STUDY OF NORMALISED RESISTANCE AND THERMOPOWER OF A HOLE DOPED Bi2-xCdxSr2CaCu2Oy (x=0.0-0.8) SUPERCONDUCTING SYSTEM 1997 "Department of Solid State Physics, Indian Association for the Cultivation of Science, Calcutta-700 032, India" Solid State Commun.101(1997)617-620 7572 SSC1010617 "CdO,SrCuO2 phases detected by XRD" "(Bi,Cd)2Sr2CaCu2O8" Bi1.2Cd0.2Sr2Ca1Cu2Oz Bi 1.2 Cd 0.2 Sr 2 Ca 1 Cu 2 O z 1997 3 Bi2212 K 10 1 See Jpm.J.Apple.Phys.34(1995)5592 STUDY OF NORMALISED RESISTANCE AND THERMOPOWER OF A HOLE DOPED Bi2-xCdxSr2CaCu2Oy (x=0.0-0.8) SUPERCONDUCTING SYSTEM 1997 "Department of Solid State Physics, Indian Association for the Cultivation of Science, Calcutta-700 032, India" Solid State Commun.101(1997)617-620 7573 SSC1010849 "(Tl,Sn)2Ba2Cu(F,O)6" Tl1.9Sm0.1Ba2Cu1FOz Tl 1.9 Sm 0.1 Ba 2 Cu 1 F O z 1 1997 2 Tl2201 I4/mmm 3.867 23.22 K 97 100 98.5 "0.95Tl2O3+0.1SmO2+1.4BaO2+0.6BaF2+CuO,SIN(860C,30min)-FC" EFFECTS OF FLUORINE SUBSTTUTION IN SUPERCONDUCTING TlBa2CuO6+_ delta 1997 "Department of Physics,University of Kansas, Lawrence, Kansas 66045, USA" Solid State Commun.101(1997)849-853 7574 PR05605631 "TbSr2(Cu,Mo)3O7" Tb1Sr2Cu2.69Mo0.31O7 Tb 1 Sr 2 Cu 2.69 Mo 0.31 O 7 1 1997 9.13 7.66 5.4 3 Y123 Pmmm 3.827 3.825 11.553 K 32 37 34.5 "Tb4O7,SrCO3,MoO3,CuO" 1 "mixture-pellet-heat(1020C,3H in O2)-slow cool to RT in flowing O2" "Superconductivity, magnetic fluctuations, and magnetic order in TbSr2Cu2,69Mo0.31O7" 1997 9 "Department of Physics, National Central University, Chung-Li, Taiwan 32054, Republic of China" "Phys.Rev.B,56(1997)5631" 7575 PR05605654 ab-plane THC by steady-state method YBa2Cu3Oz Y1Ba2Cu3O6.06 Y 1 Ba 2 Cu 3 O 7-z 6.06 3 1997 Y123 K 10 "self flux method-annealed with 10g polycrystal(same z) in sealed quortz tube (600C,12H)" In-plane thermal conductivity and Lorenz number in YBa2Cu3O7-y 1997 9 "Department of Superconductivity, The University of Tokyo, Bunkyo-ku, Tokyo 113, Japan" "Phys.Rev.B,56(1997)5654" 7576 PR05605654 ab-plane THC by steady-state method YBa2Cu3Oz Y1Ba2Cu3O6.19 Y 1 Ba 2 Cu 3 O 7-z 6.19 3 1997 Y123 K 10 "self flux method-annealed with 10g polycrystal(same z) in sealed quortz tube (600C,12H)" In-plane thermal conductivity and Lorenz number in YBa2Cu3O7-y 1997 9 "Department of Superconductivity, The University of Tokyo, Bunkyo-ku, Tokyo 113, Japan" "Phys.Rev.B,56(1997)5654" 7577 PR05605654 ab-plane THC by steady-state method YBa2Cu3Oz Y1Ba2Cu3O6.25 Y 1 Ba 2 Cu 3 O 7-z 6.25 3 1997 Y123 K 10 "self flux method-annealed with 10g polycrystal(same z) in sealed quortz tube (600C,12H)" In-plane thermal conductivity and Lorenz number in YBa2Cu3O7-y 1997 9 "Department of Superconductivity, The University of Tokyo, Bunkyo-ku, Tokyo 113, Japan" "Phys.Rev.B,56(1997)5654" 7578 PR05605654 ab-plane THC by steady-state method YBa2Cu3Oz Y1Ba2Cu3O6.34 Y 1 Ba 2 Cu 3 O 7-z 6.34 3 1997 Y123 K 10 "self flux method-annealed with 10g polycrystal(same z) in sealed quortz tube (600C,12H)" In-plane thermal conductivity and Lorenz number in YBa2Cu3O7-y 1997 9 "Department of Superconductivity, The University of Tokyo, Bunkyo-ku, Tokyo 113, Japan" "Phys.Rev.B,56(1997)5654" 7579 PR05605654 ab-plane THC by steady-state method YBa2Cu3Oz Y1Ba2Cu3O6.68 Y 1 Ba 2 Cu 3 O 7-z 6.68 3 1997 Y123 K 63 63 "self flux method-annealed with 10g polycrystal(same z) in sealed quortz tube (600C,12H)" In-plane thermal conductivity and Lorenz number in YBa2Cu3O7-y 1997 9 "Department of Superconductivity, The University of Tokyo, Bunkyo-ku, Tokyo 113, Japan" "Phys.Rev.B,56(1997)5654" 7580 PR05605654 ab-plane THC by steady-state method YBa2Cu3Oz Y1Ba2Cu3O6.93 Y 1 Ba 2 Cu 3 O 7-z 6.93 3 1997 Y123 K 92 92 "self flux method-annealed with 10g polycrystal(same z) in sealed quortz tube (600C,12H)" In-plane thermal conductivity and Lorenz number in YBa2Cu3O7-y 1997 9 "Department of Superconductivity, The University of Tokyo, Bunkyo-ku, Tokyo 113, Japan" "Phys.Rev.B,56(1997)5654" 7581 PR05605654 ab-plane THC by steady-state method "YBa2(Cu,Zn)Oz" Y1Ba2Cu2.97Zn0.03O6.93 Y 1 Ba 2 Cu 2.97 Zn 0.03 O z 6.93 3 1997 Y123 K 80 80 "self flux method-annealed with 10g polycrystal(same z) in sealed quortz tube (600C,12H)" In-plane thermal conductivity and Lorenz number in YBa2Cu3O7-y 1997 9 "Department of Superconductivity, The University of Tokyo, Bunkyo-ku, Tokyo 113, Japan" "Phys.Rev.B,56(1997)5654" 7582 PRL0792113 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.214 Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 8.214 3 1997 Bi2212 K 70 70 crystals were grown by the traveling solvent floating zone method under mixed gas flow(20%O2+80%Ar). Anistropic Resistivites of Precisely Oxygen Controlled Single-Crystal Bi2Sr2CaCu2O8+delta: Systematic Study on 1997 9 "Phys. Rev. Lett., 79(1997)2113" 7583 PRL0792113 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.216 Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 8.216 3 1997 Bi2212 K 78 78 crystals were grown by the traveling solvent floating zone method under mixed gas flow(20%O2+80%Ar). Anistropic Resistivites of Precisely Oxygen Controlled Single-Crystal Bi2Sr2CaCu2O8+delta: Systematic Study on 1997 9 "Phys. Rev. Lett., 79(1997)2113" 7584 PRL0792113 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.22 Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 8.22 3 1997 Bi2212 K 82 82 crystals were grown by the traveling solvent floating zone method under mixed gas flow(20%O2+80%Ar). Anistropic Resistivites of Precisely Oxygen Controlled Single-Crystal Bi2Sr2CaCu2O8+delta: Systematic Study on 1997 9 "Phys. Rev. Lett., 79(1997)2113" 7585 PRL0792113 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.23 Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 8.23 3 1997 Bi2212 K 86 86 crystals were grown by the traveling solvent floating zone method under mixed gas flow(20%O2+80%Ar). Anistropic Resistivites of Precisely Oxygen Controlled Single-Crystal Bi2Sr2CaCu2O8+delta: Systematic Study on 1997 9 "Phys. Rev. Lett., 79(1997)2113" 7586 PRL0792113 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.24 Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 8.24 3 1997 Bi2212 K 88 88 crystals were grown by the traveling solvent floating zone method under mixed gas flow(20%O2+80%Ar). Anistropic Resistivites of Precisely Oxygen Controlled Single-Crystal Bi2Sr2CaCu2O8+delta: Systematic Study on 1997 9 "Phys. Rev. Lett., 79(1997)2113" 7587 PRL0792113 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.25 Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 8.25 3 1997 Bi2212 K 89 89 crystals were grown by the traveling solvent floating zone method under mixed gas flow(20%O2+80%Ar). Anistropic Resistivites of Precisely Oxygen Controlled Single-Crystal Bi2Sr2CaCu2O8+delta: Systematic Study on 1997 9 "Phys. Rev. Lett., 79(1997)2113" 7588 PRL0792113 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.26 Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 8.26 3 1997 Bi2212 K 86 86 crystals were grown by the traveling solvent floating zone method under mixed gas flow(20%O2+80%Ar). Anistropic Resistivites of Precisely Oxygen Controlled Single-Crystal Bi2Sr2CaCu2O8+delta: Systematic Study on 1997 9 "Phys. Rev. Lett., 79(1997)2113" 7589 PRL0792113 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.27 Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 8.27 3 1997 Bi2212 K 84 84 crystals were grown by the traveling solvent floating zone method under mixed gas flow(20%O2+80%Ar). Anistropic Resistivites of Precisely Oxygen Controlled Single-Crystal Bi2Sr2CaCu2O8+delta: Systematic Study on 1997 9 "Phys. Rev. Lett., 79(1997)2113" 7590 PRL0792113 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.28 Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 8.28 3 1997 Bi2212 K 81 81 crystals were grown by the traveling solvent floating zone method under mixed gas flow(20%O2+80%Ar). Anistropic Resistivites of Precisely Oxygen Controlled Single-Crystal Bi2Sr2CaCu2O8+delta: Systematic Study on 1997 9 "Phys. Rev. Lett., 79(1997)2113" 7591 PR05605512 "Nd(Ba,Nd)2Cu3O7" Nd1.05Ba1.95Cu3O7+z Nd 1.05 Ba 1.95 Cu 3 O 7+z 1997 Y123 K 91.9 91.9 1 "Soppression of superconductivity in the R(ba1-zRz)2Cu3O7+delta (R=Pr,Nd) system" 1997 9 "Ames Laboratory, U.S. Department of Enargy, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B,56(1997)5512" 7592 PR05605512 "Nd(Ba,Nd)2Cu3O7" Nd1.15Ba1.85Cu3O7+z Nd 1.15 Ba 1.85 Cu 3 O 7+z 1997 Y123 K 67.1 67.1 1 "Soppression of superconductivity in the R(ba1-zRz)2Cu3O7+delta (R=Pr,Nd) system" 1997 9 "Ames Laboratory, U.S. Department of Enargy, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B,56(1997)5512" 7593 PR05605512 "Nd(Ba,Nd)2Cu3O7" Nd1.25Ba1.75Cu3O7+z Nd 1.25 Ba 1.75 Cu 3 O 7+z 1997 Y123 K 43.8 43.8 1 "Soppression of superconductivity in the R(ba1-zRz)2Cu3O7+delta (R=Pr,Nd) system" 1997 9 "Ames Laboratory, U.S. Department of Enargy, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B,56(1997)5512" 7594 PR05605512 "Nd(Ba,Nd)2Cu3O7" Nd1.3Ba1.7Cu3O7+z Nd 1.3 Ba 1.7 Cu 3 O 7+z 1997 Y123 K 33.8 33.8 1 "Soppression of superconductivity in the R(ba1-zRz)2Cu3O7+delta (R=Pr,Nd) system" 1997 9 "Ames Laboratory, U.S. Department of Enargy, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B,56(1997)5512" 7595 PR05605512 "Nd(Ba,Nd)2Cu3O7" Nd1.4Ba1.6Cu3O7+z Nd 1.4 Ba 1.6 Cu 3 O 7+z 1997 Y123 K 7.9 7.9 1 "Soppression of superconductivity in the R(ba1-zRz)2Cu3O7+delta (R=Pr,Nd) system" 1997 9 "Ames Laboratory, U.S. Department of Enargy, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B,56(1997)5512" 7601 PR05602824 RESRT at 275K NdBa2Cu3O7 Nd1Ba2Cu3O7-z Nd 1 Ba 2 Cu 3 O 7-z 1 1997 3 Y123 3.862 3.912 11.748 K 93.4 1.1 93.4 mOhm.cm 1.092 "Nd2O3,BaCO3,CuO,ThO2,CaCO3" 1 "Pellet-CAL(three times at 900,920,920C)-ANN(460C, 3 days in flowing O2)-cool to RT(12C/H)" Neutron-diffraction studies and bond valence sums of charge neutrally doped Nd1-2xCaxThxBa2Cu3O7-delta 1997 8 "Solid State Physics, the Royal Institute of Technology, S-100 44 Stockholm, Sweden" "Phys.Rev.B,56(1997)2824" 7602 PR05602824 RESRT is at 275K "(Nd,Ca,Th)Ba2Cu3O7" Nd0.97Ca0.015Th0.015Ba2Cu3O7-z Nd 0.97 Ca 0.015 Th 0.015 Ba 2 Cu 3 O 7-z 1 1997 3 Y123 3.864 3.911 11.741 K 90.4 1.4 90.4 mOhm.cm 1.25 "Nd2O3,BaCO3,CuO,ThO2,CaCO3" 1 "Pellet-CAL(three times at 900,920,920C)-ANN(460C, 3 days in flowing O2)-cool to RT(12C/H)" Neutron-diffraction studies and bond valence sums of charge neutrally doped Nd1-2xCaxThxBa2Cu3O7-delta 1997 8 "Solid State Physics, the Royal Institute of Technology, S-100 44 Stockholm, Sweden" "Phys.Rev.B,56(1997)2824" 7603 PR05602824 RESRT is at 275 K "(Nd,Ca,Th)Ba2Cu3O7" Nd0.94Ca0.03Th0.03Ba2Cu3O7-z Nd 0.94 Ca 0.03 Th 0.03 Ba 2 Cu 3 O 7-z 1 1997 3 Y123 3.867 3.912 11.736 K 86.8 2.6 86.8 mOhm.cm 1.32 "Nd2O3,BaCO3,CuO,ThO2,CaCO3" 1 "Pellet-CAL(three times at 900,920,920C)-ANN(460C, 3 days in flowing O2)-cool to RT(12C/H)" Neutron-diffraction studies and bond valence sums of charge neutrally doped Nd1-2xCaxThxBa2Cu3O7-delta 1997 8 "Solid State Physics, the Royal Institute of Technology, S-100 44 Stockholm, Sweden" "Phys.Rev.B,56(1997)2824" 7604 PR05602824 RESRT is at 275 K "(Nd,Ca,Th)Ba2Cu3O7" Nd0.9Ca0.05Th0.05Ba2Cu3O7-z Nd 0.9 Ca 0.05 Th 0.05 Ba 2 Cu 3 O 7-z 1 1997 3 Y123 3.868 3.91 11.73 K 81.8 6.2 81.8 mOhm.cm 1.69 "Nd2O3,BaCO3,CuO,ThO2,CaCO3" 1 "Pellet-CAL(three times at 900,920,920C)-ANN(460C, 3 days in flowing O2)-cool to RT(12C/H)" Neutron-diffraction studies and bond valence sums of charge neutrally doped Nd1-2xCaxThxBa2Cu3O7-delta 1997 8 "Solid State Physics, the Royal Institute of Technology, S-100 44 Stockholm, Sweden" "Phys.Rev.B,56(1997)2824" 7605 PR05602824 RESRT is at 275 K "(Nd,Ca,Th)Ba2Cu3O7" Nd0.8Ca0.1Th0.1Ba2Cu3O7-z Nd 0.8 Ca 0.1 Th 0.1 Ba 2 Cu 3 O 7-z 1 1997 3 Y123 3.868 3.91 11.732 K 73.4 9.8 73.4 mOhm.cm 2.02 "Nd2O3,BaCO3,CuO,ThO2,CaCO3" 1 "Pellet-CAL(three times at 900,920,920C)-ANN(460C, 3 days in flowing O2)-cool to RT(12C/H)" Neutron-diffraction studies and bond valence sums of charge neutrally doped Nd1-2xCaxThxBa2Cu3O7-delta 1997 8 "Solid State Physics, the Royal Institute of Technology, S-100 44 Stockholm, Sweden" "Phys.Rev.B,56(1997)2824" 7606 PR05602383 Nominal conposition "(Bi,Pb)Sr2Ca3(Cu,Si)4O12" Bi1.6Pb0.4Sr2Ca3Cu4O12-z Bi 1.6 Pb 0.4 Sr 2 Ca 3 Cu 4 O 12-z 1 1997 Bi2223 K 110 110 "Bi2O3,PbO,SrCO3,CaCO3,CuO,Si" 1 "mixture-CAL(800C,20H)-pellet-SIN(850C,140H in air)-FC to RT" Electron-phonon contribution to thermopower in Si-doped superconducting Bi Compounds 1997 8 "Departamento de F'isica, Universidad Nacional de Colobia, A.A. 67904, Santafe' de Bogota', Colombia" "Phys.Rev.B,56(1997)2383" 7607 PR05602383 Nominal conposition "(Bi,Pb)Sr2Ca3(Cu,Si)4O12" Bi1.6Pb0.4Sr2Ca3Cu3.92Si0.08O12-z Bi 1.6 Pb 0.4 Sr 2 Ca 3 Cu 3.92 Si 0.08 O 12-z 1 1997 Bi2223 K 110 110 "Bi2O3,PbO,SrCO3,CaCO3,CuO,Si" 1 "mixture-CAL(800C,20H)-pellet-SIN(850C,140H in air)-FC to RT" Electron-phonon contribution to thermopower in Si-doped superconducting Bi Compounds 1997 8 "Departamento de F'isica, Universidad Nacional de Colobia, A.A. 67904, Santafe' de Bogota', Colombia" "Phys.Rev.B,56(1997)2383" 7608 PR05602383 Nominal conposition "(Bi,Pb)Sr2Ca3(Cu,Si)4O12" Bi1.6Pb0.4Sr2Ca3Cu3.88Si0.12O12-z Bi 1.6 Pb 0.4 Sr 2 Ca 3 Cu 3.88 Si 0.12 O 12-z 1 1997 Bi2223 K 110 110 "Bi2O3,PbO,SrCO3,CaCO3,CuO,Si" 1 "mixture-CAL(800C,20H)-pellet-SIN(850C,140H in air)-FC to RT" Electron-phonon contribution to thermopower in Si-doped superconducting Bi Compounds 1997 8 "Departamento de F'isica, Universidad Nacional de Colobia, A.A. 67904, Santafe' de Bogota', Colombia" "Phys.Rev.B,56(1997)2383" 7609 PR05602383 2212+2223 phase and SiO2 "(Bi,Pb)Sr2Ca3(Cu,Si)4O12" Bi1.6Pb0.4Sr2Ca3Cu3.86Si0.14O12-z Bi 1.6 Pb 0.4 Sr 2 Ca 3 Cu 3.86 Si 0.14 O 12-z 2 1997 K 110 110 "Bi2O3,PbO,SrCO3,CaCO3,CuO,Si" 1 "mixture-CAL(800C,20H)-pellet-SIN(850C,140H in air)-FC to RT" Electron-phonon contribution to thermopower in Si-doped superconducting Bi Compounds 1997 8 "Departamento de F'isica, Universidad Nacional de Colobia, A.A. 67904, Santafe' de Bogota', Colombia" "Phys.Rev.B,56(1997)2383" 7610 PR05602383 Nominal conposition "(Bi,Pb)Sr2Ca3(Cu,Si)4O12" Bi1.6Pb0.4Sr2Ca3Cu3.5Si0.5O12-z Bi 1.6 Pb 0.4 Sr 2 Ca 3 Cu 3.5 Si 0.5 O 12-z 1 1997 Bi2223 K 110 110 "Bi2O3,PbO,SrCO3,CaCO3,CuO,Si" 1 "mixture-CAL(800C,20H)-pellet-SIN(850C,140H in air)-FC to RT" Electron-phonon contribution to thermopower in Si-doped superconducting Bi Compounds 1997 8 "Departamento de F'isica, Universidad Nacional de Colobia, A.A. 67904, Santafe' de Bogota', Colombia" "Phys.Rev.B,56(1997)2383" 7611 PR05605144 "(Eu,,Ce)2Sr2Cu2NbO10" Eu1.5Ce0.5Sr2Cu2Nb1O9.955 Eu 1.5 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10-z 9.955 1997 RSCNO K 21 21 "See Phys.Rev.B,55(1997)3297" "Superconductivity and magnetism in (R1.5-xPrxCe0.5)Sr2Cu2NdO10-delta(R=Nd,Sm,Eu): Criteria for modeling the suppression of superconductivity by Pr in high-Tc cuprates" 1997 9 "Department Physics, University of California, Davis, Davis, California 95616" "Phys.Rev.B,56(1997)5144" 7612 PR05605144 "(Eu,Pr,Ce)2Sr2Cu2NbO10" Eu1.45Pr0.05Ce0.5Sr2Cu2Nb1O10=z Eu 1.45 Pr 0.05 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10=z 1997 RSCNO K 21.4 21.4 "See Phys.Rev.B,55(1997)3297" "Superconductivity and magnetism in (R1.5-xPrxCe0.5)Sr2Cu2NdO10-delta(R=Nd,Sm,Eu): Criteria for modeling the suppression of superconductivity by Pr in high-Tc cuprates" 1997 9 "Department Physics, University of California, Davis, Davis, California 95616" "Phys.Rev.B,56(1997)5144" 7613 PR05605144 "(Eu,Pr,Ce)2Sr2Cu2NbO10" Eu1.4Pr0.1Ce0.5Sr2Cu2Nb1O10-z Eu 1.4 Pr 0.1 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10-z 1997 RSCNO K 18.4 18.4 "See Phys.Rev.B,55(1997)3297" "Superconductivity and magnetism in (R1.5-xPrxCe0.5)Sr2Cu2NdO10-delta(R=Nd,Sm,Eu): Criteria for modeling the suppression of superconductivity by Pr in high-Tc cuprates" 1997 9 "Department Physics, University of California, Davis, Davis, California 95616" "Phys.Rev.B,56(1997)5144" 7614 PR05605144 "(Eu,Pr,Ce)2SrCu2NbO10" Eu1.35Pr0.15Ce0.5Sr2Cu2Nb1O10-z Eu 1.35 Pr 0.15 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10-z 1997 RSCNO K 18 18 "See Phys.Rev.B,55(1997)3297" "Superconductivity and magnetism in (R1.5-xPrxCe0.5)Sr2Cu2NdO10-delta(R=Nd,Sm,Eu): Criteria for modeling the suppression of superconductivity by Pr in high-Tc cuprates" 1997 9 "Department Physics, University of California, Davis, Davis, California 95616" "Phys.Rev.B,56(1997)5144" 7615 PR05605144 "(Eu,Pr,Ce)2Sr2Cu2NbO10" Eu1.3Pr0.2Ce0.5Sr2Cu2Nb1O10-z Eu 1.3 Pr 0.2 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10-z 1997 RSCNO K 13.4 13.4 "See Phys.Rev.B,55(1997)3297" "Superconductivity and magnetism in (R1.5-xPrxCe0.5)Sr2Cu2NdO10-delta(R=Nd,Sm,Eu): Criteria for modeling the suppression of superconductivity by Pr in high-Tc cuprates" 1997 9 "Department Physics, University of California, Davis, Davis, California 95616" "Phys.Rev.B,56(1997)5144" 7616 PR05605144 "(Eu,Pr,Ce)2Sr2Cu2NbO10" Eu1.25Pr0.25Ce0.5Sr2Cu2Nb1O10-z Eu 1.25 Pr 0.25 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10-z 1997 RSCNO K 7.8 7.8 "See Phys.Rev.B,55(1997)3297" "Superconductivity and magnetism in (R1.5-xPrxCe0.5)Sr2Cu2NdO10-delta(R=Nd,Sm,Eu): Criteria for modeling the suppression of superconductivity by Pr in high-Tc cuprates" 1997 9 "Department Physics, University of California, Davis, Davis, California 95616" "Phys.Rev.B,56(1997)5144" 7617 PR05605144 "(Eu,Pr,Ce)2Sr2Cu2NbO10" Eu1.23Pr0.27Ce0.5Sr2Cu2Nb1O10-z Eu 1.23 Pr 0.27 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10-z 1997 RSCNO K 2.9 2.9 "See Phys.Rev.B,55(1997)3297" "Superconductivity and magnetism in (R1.5-xPrxCe0.5)Sr2Cu2NdO10-delta(R=Nd,Sm,Eu): Criteria for modeling the suppression of superconductivity by Pr in high-Tc cuprates" 1997 9 "Department Physics, University of California, Davis, Davis, California 95616" "Phys.Rev.B,56(1997)5144" 7618 PR05605144 "(Nd,Ce)2Sr2Cu2O10" Nd1.5Ce0.5Sr2Cu2Nb1O10-z Nd 1.5 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10-z 1997 RSCNO K 24 24 "See Phys.Rev.B,55(1997)3297" "Superconductivity and magnetism in (R1.5-xPrxCe0.5)Sr2Cu2NdO10-delta(R=Nd,Sm,Eu): Criteria for modeling the suppression of superconductivity by Pr in high-Tc cuprates" 1997 9 "Department Physics, University of California, Davis, Davis, California 95616" "Phys.Rev.B,56(1997)5144" 7619 PR05605144 "(Nd,Pr,Ce)2Sr2Cu2NbO10" Nd1Pr0.5Ce0.5Sr2Cu2Nb1O10-z Nd 1 Pr 0.5 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10-z 1997 RSCNO K 20.5 20.5 "See Phys.Rev.B,55(1997)3297" "Superconductivity and magnetism in (R1.5-xPrxCe0.5)Sr2Cu2NdO10-delta(R=Nd,Sm,Eu): Criteria for modeling the suppression of superconductivity by Pr in high-Tc cuprates" 1997 9 "Department Physics, University of California, Davis, Davis, California 95616" "Phys.Rev.B,56(1997)5144" 7620 PR05605144 "(Nd,Pr,Ce)2Sr2Cu2NbO10" Nd1.4Pr0.1Ce0.5Sr2Cu2Nb1O10-z Nd 1.4 Pr 0.1 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10-z 1997 RSCNO K 17.2 17.2 "See Phys.Rev.B,55(1997)3297" "Superconductivity and magnetism in (R1.5-xPrxCe0.5)Sr2Cu2NdO10-delta(R=Nd,Sm,Eu): Criteria for modeling the suppression of superconductivity by Pr in high-Tc cuprates" 1997 9 "Department Physics, University of California, Davis, Davis, California 95616" "Phys.Rev.B,56(1997)5144" 7621 PR05605144 "(Nd,Pr,Ce)2Sr2NbO10" Nd1.35Pr0.15Ce0.5Sr2Cu2Nb1O10-z Nd 1.35 Pr 0.15 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10-z 1997 RSCNO K 11.3 11.3 "See Phys.Rev.B,55(1997)3297" "Superconductivity and magnetism in (R1.5-xPrxCe0.5)Sr2Cu2NdO10-delta(R=Nd,Sm,Eu): Criteria for modeling the suppression of superconductivity by Pr in high-Tc cuprates" 1997 9 "Department Physics, University of California, Davis, Davis, California 95616" "Phys.Rev.B,56(1997)5144" 7622 PR05605144 "(Nd,Pr,Ce)2sr2Cu2NdO10" Nd1.3Pr0.2Ce0.5Sr2Cu2Nb1O10-z Nd 1.3 Pr 0.2 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10-z 1997 RSCNO K 4.4 4.4 "See Phys.Rev.B,55(1997)3297" "Superconductivity and magnetism in (R1.5-xPrxCe0.5)Sr2Cu2NdO10-delta(R=Nd,Sm,Eu): Criteria for modeling the suppression of superconductivity by Pr in high-Tc cuprates" 1997 9 "Department Physics, University of California, Davis, Davis, California 95616" "Phys.Rev.B,56(1997)5144" 7623 PR05605144 "(Sm,Ce)2Sr2Cu2NbO10" Sm1.5Ce0.5Sr2Cu2Nb1O10-z Sm 1.5 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10-z 1997 RSCNO K 26 26 "See Phys.Rev.B,55(1997)3297" "Superconductivity and magnetism in (R1.5-xPrxCe0.5)Sr2Cu2NdO10-delta(R=Nd,Sm,Eu): Criteria for modeling the suppression of superconductivity by Pr in high-Tc cuprates" 1997 9 "Department Physics, University of California, Davis, Davis, California 95616" "Phys.Rev.B,56(1997)5144" 7624 PR05605144 "(Sm,Pr,Ce)2SrCu2NbO10" Sm1.45Pr0.05Ce0.5Sr2Cu2Nb1O10-z Sm 1.45 Pr 0.05 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10-z 1997 RSCNO K 25.2 25.2 "See Phys.Rev.B,55(1997)3297" "Superconductivity and magnetism in (R1.5-xPrxCe0.5)Sr2Cu2NdO10-delta(R=Nd,Sm,Eu): Criteria for modeling the suppression of superconductivity by Pr in high-Tc cuprates" 1997 9 "Department Physics, University of California, Davis, Davis, California 95616" "Phys.Rev.B,56(1997)5144" 7625 PR05605144 "(Sm,Pr,Ce)2Sr2Cu2NbO10" Sm1.4Pr0.1Ce0.5Sr2Cu2Nb1O10-z Sm 1.4 Pr 0.1 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10-z 1997 RSCNO K 22.8 22.8 "See Phys.Rev.B,55(1997)3297" "Superconductivity and magnetism in (R1.5-xPrxCe0.5)Sr2Cu2NdO10-delta(R=Nd,Sm,Eu): Criteria for modeling the suppression of superconductivity by Pr in high-Tc cuprates" 1997 9 "Department Physics, University of California, Davis, Davis, California 95616" "Phys.Rev.B,56(1997)5144" 7626 PR05605144 "(Sm,Pr,Ce)2Sr2Cu2O10" Sm0.35Pr0.15Ce0.5Sr2Cu2Nb1O10-z Sm 0.35 Pr 0.15 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10-z 1997 RSCNO K 17.6 17.6 "See Phys.Rev.B,55(1997)3297" "Superconductivity and magnetism in (R1.5-xPrxCe0.5)Sr2Cu2NdO10-delta(R=Nd,Sm,Eu): Criteria for modeling the suppression of superconductivity by Pr in high-Tc cuprates" 1997 9 "Department Physics, University of California, Davis, Davis, California 95616" "Phys.Rev.B,56(1997)5144" 7627 PR05605144 "(Sm,Pr,Ce)2Sr2Cu2NbO10" Sm1.3Pr0.2Ce0.5Sr2Cu2Nb1O10-z Sm 1.3 Pr 0.2 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10-z 1997 RSCNO K 12.8 12.8 "See Phys.Rev.B,55(1997)3297" "Superconductivity and magnetism in (R1.5-xPrxCe0.5)Sr2Cu2NdO10-delta(R=Nd,Sm,Eu): Criteria for modeling the suppression of superconductivity by Pr in high-Tc cuprates" 1997 9 "Department Physics, University of California, Davis, Davis, California 95616" "Phys.Rev.B,56(1997)5144" 7628 PR05605144 "(Sm,Pr,Ce)2Sr2Cu2NbO10" Sm1.25Pr0.25Ce0.5Sr2Cu2Nb1O10-z Sm 1.25 Pr 0.25 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10-z 1997 RSCNO K 2.7 2.7 "See Phys.Rev.B,55(1997)3297" "Superconductivity and magnetism in (R1.5-xPrxCe0.5)Sr2Cu2NdO10-delta(R=Nd,Sm,Eu): Criteria for modeling the suppression of superconductivity by Pr in high-Tc cuprates" 1997 9 "Department Physics, University of California, Davis, Davis, California 95616" "Phys.Rev.B,56(1997)5144" 7629 PR05412535 G-L parameter=76. Anisotropy factor=12.3 by effective mass. YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 3 1996 Y124 K 78.8 3 78.8 T torque. WHH theory 90 3.5 76.8 T/K 1.86 19 anisotropie 3D London model for torque data. 1430 crystal was grown in Y2O3 crucible using high-pressure technique Angle-dependent reversible magnetic torque in singl-crystalline Y2Ba4Cu8O16 1996 11 "Physik-Institut, University of Zu""rich,Winterthurerstasse 190,8057 Zu""rich, Swizerland" "Phys.Rev.B,54(1996)12535" 7630 PR05403610 C-axis oriented film as-prepared "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4+z Nd 1.85 Ce 0.15 Cu 1 O 4+z 1996 T' K 22 22 analysis of fluctuation coductivity 8 0.37 64 by pulsed laser deposition in N2O Magnetoresistivity of thin films of the electron-doped high-Tc superconductor Nd1.85Ce0.15 CuO4+_ z 1996 8 "Department of Phsics and Institute for pure and Applisd Physical Sciences, University of California, San Diego,La Jolla, California 92093-0360" "Phys.Rev.B,54(1996)3610" 7631 PHC2890280 "(Lu,Ca)Ba2Cu3O7" Lu0.9Ca0.1Ba2Cu3O6+z Lu 0.9 Ca 0.1 Ba 2 Cu 3 O 6+z 1997 Y123 K 18 18 "Lu2o3,CaCO3,BaCO3,CuO" 1 "mixture-CAL(900C,48H)-grind-fire(905C,24H+910C,24H)-pellet-SIN(905C,48H)-ANN(920C,24H in Ar flow)-cool to 450C(1C/min)-ANN(12H)-cool to RT(1C/min)" Superconductivity in Lu1-xCaxBa2Cu3O6+delta: holes generated by Ca 1997 10 "Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai400 005, India" "Physica.C,289(1997)280-290" 7632 PHC2890280 "(La,Ca)Ba2Cu3O7" Lu0.8Ca0.2Ba2Cu3O6.13 Lu 0.8 Ca 0.2 Ba 2 Cu 3 O 6+z 6.13 1997 2 Y123 3.851 11.778 K 41 2 41 "Lu2o3,CaCO3,BaCO3,CuO" 1 "mixture-CAL(900C,48H)-grind-fire(905C,24H+910C,24H)-pellet-SIN(905C,48H)-ANN(920C,24H in Ar flow)-cool to 450C(1C/min)-ANN(12H)-cool to RT(1C/min)" Superconductivity in Lu1-xCaxBa2Cu3O6+delta: holes generated by Ca 1997 10 "Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai400 005, India" "Physica.C,289(1997)280-290" 7633 PHC2890280 "(Lu,Ca)Ba2Cu3O7" Lu0.7Ca0.3Ba2Cu3O6.15 Lu 0.7 Ca 0.3 Ba 2 Cu 3 O 6+z 6.15 1997 2 Y123 P4/mmm 3.829 11.728 K 58 2 58 "Lu2o3,CaCO3,BaCO3,CuO" 1 "mixture-CAL(900C,48H)-grind-fire(905C,24H+910C,24H)-pellet-SIN(905C,48H)-ANN(920C,24H in Ar flow)-cool to 450C(1C/min)-ANN(12H)-cool to RT(1C/min)" Superconductivity in Lu1-xCaxBa2Cu3O6+delta: holes generated by Ca 1997 10 "Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai400 005, India" "Physica.C,289(1997)280-290" 7634 PHC2890280 "(Lu,Ca)Ba2Cu3O7" Lu0.6Ca0.4Ba2Cu3O6+z Lu 0.6 Ca 0.4 Ba 2 Cu 3 O 6+z 1997 Y123 K 74 74 "Lu2o3,CaCO3,BaCO3,CuO" 1 "mixture-CAL(900C,48H)-grind-fire(905C,24H+910C,24H)-pellet-SIN(905C,48H)-ANN(920C,24H in Ar flow)-cool to 450C(1C/min)-ANN(12H)-cool to RT(1C/min)" Superconductivity in Lu1-xCaxBa2Cu3O6+delta: holes generated by Ca 1997 10 "Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai400 005, India" "Physica.C,289(1997)280-290" 7635 PHC2890280 Lu0.8Ca0.2Ba2Cu3O6.54 Lu 0.8 Ca 0.2 Ba 2 Cu 3 O 6+z 6.54 1997 Y123 K 65 65 "ANN(920C,24H in air)" Superconductivity in Lu1-xCaxBa2Cu3O6+delta: holes generated by Ca 1997 10 "Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai400 005, India" "Physica.C,289(1997)280-290" 7636 PHC2890280 Lu0.7Ca0.3Ba2Cu3O6.4 Lu 0.7 Ca 0.3 Ba 2 Cu 3 O 6+z 6.4 1997 2 Y123 3.852 11.774 K 68 68 "ANN(920C,24H in air)" Superconductivity in Lu1-xCaxBa2Cu3O6+delta: holes generated by Ca 1997 10 "Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai400 005, India" "Physica.C,289(1997)280-290" 7637 PHC2890280 Lu0.8Ca0.2Ba2Cu3O6.81 Lu 0.8 Ca 0.2 Ba 2 Cu 3 O 6+z 6.81 1997 3 Y123 3.883 3.815 11.66 K 52 52 "ANN(400C,4H in O2)" Superconductivity in Lu1-xCaxBa2Cu3O6+delta: holes generated by Ca 1997 10 "Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai400 005, India" "Physica.C,289(1997)280-290" 7638 PHC2890280 Lu0.7Ca0.3Ba2Cu3O6.78 Lu 0.7 Ca 0.3 Ba 2 Cu 3 O 6+z 6.78 1997 3 Y123 3.875 3.814 11.661 K 54 54 "ANN(400C,4H in O2)" Superconductivity in Lu1-xCaxBa2Cu3O6+delta: holes generated by Ca 1997 10 "Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai400 005, India" "Physica.C,289(1997)280-290" 7639 PHC2890280 Lu0.8Ca0.2Ba2Cu3O6.68 Lu 0.8 Ca 0.2 Ba 2 Cu 3 O 6+z 6.68 1997 Y123 K 78 2 78 "ANN(920C,24H in air)-Q to RT" Superconductivity in Lu1-xCaxBa2Cu3O6+delta: holes generated by Ca 1997 10 "Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai400 005, India" "Physica.C,289(1997)280-290" 7640 PHC2890280 Lu0.7Ca0.3Ba2Cu3O6.62 Lu 0.7 Ca 0.3 Ba 2 Cu 3 O 6+z 6.62 1997 3 Y123 3.877 3.817 11.707 K 80 2 80 "ANN(920C,24H in air)-Q to RT" Superconductivity in Lu1-xCaxBa2Cu3O6+delta: holes generated by Ca 1997 10 "Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai400 005, India" "Physica.C,289(1997)280-290" 7641 PHC2890280 Lu0.8Ca0.2Ba2Cu3O6.91 Lu 0.8 Ca 0.2 Ba 2 Cu 3 O 6+z 6.91 1997 3 Y123 3.882 3.81 11.665 K 48 48 "ANN(920C,24H in O2)" Superconductivity in Lu1-xCaxBa2Cu3O6+delta: holes generated by Ca 1997 10 "Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai400 005, India" "Physica.C,289(1997)280-290" 7642 PHC2890280 Lu0.7Ca0.3Ba2Cu3O6.88 Lu 0.7 Ca 0.3 Ba 2 Cu 3 O 6+z 6.88 1997 3 Y123 Pmmm 3.806 3.861 11.654 K 45 45 "ANN(920C,24H in O2)" Superconductivity in Lu1-xCaxBa2Cu3O6+delta: holes generated by Ca 1997 10 "Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai400 005, India" "Physica.C,289(1997)280-290" 7643 JP00900901 "EuBa2(Cu,Co)3O7" Eu1Ba2Cu2.7Co0.3Oz Eu 1 Ba 2 Cu 2.7 Co 0.3 O z 1 1997 Y123 K 30 36 33 1 Standard Solid State recetion The insulating-to-superconducting transition in europium high-temperature superconducting ceramics 1997 "Tel Aviv University, School of Physics and Astronomy, Raymond and Beverly Sackler Faculty of Exact Sciences, Ramat Aviv 69978, Israel" J.Phys.:Cond.Matter 9(1997)901-912 7644 JP00900901 "EuBa2(Cu,Co)3O7" Eu1Ba2Cu2.65Co0.35Oz Eu 1 Ba 2 Cu 2.65 Co 0.35 O z 1 1997 Y123 K 4.2 15 9.6 1 Standard Solid State recetion The insulating-to-superconducting transition in europium high-temperature superconducting ceramics 1997 "Tel Aviv University, School of Physics and Astronomy, Raymond and Beverly Sackler Faculty of Exact Sciences, Ramat Aviv 69978, Israel" J.Phys.:Cond.Matter 9(1997)901-912 7645 JP00900901 "EuBa2(Cu,Co)3O7" Eu1Ba2Cu2.6Co0.4Oz Eu 1 Ba 2 Cu 2.6 Co 0.4 O z 1 1997 Y123 K 15 1 Standard Solid State recetion The insulating-to-superconducting transition in europium high-temperature superconducting ceramics 1997 "Tel Aviv University, School of Physics and Astronomy, Raymond and Beverly Sackler Faculty of Exact Sciences, Ramat Aviv 69978, Israel" J.Phys.:Cond.Matter 9(1997)901-912 7646 JP00900901 "EuBa2(Cu,Co)3O7" Eu1Ba2Cu2.5Co0.5Oz Eu 1 Ba 2 Cu 2.5 Co 0.5 O z 1 1997 Y123 K 15 1 Standard Solid State recetion The insulating-to-superconducting transition in europium high-temperature superconducting ceramics 1997 "Tel Aviv University, School of Physics and Astronomy, Raymond and Beverly Sackler Faculty of Exact Sciences, Ramat Aviv 69978, Israel" J.Phys.:Cond.Matter 9(1997)901-912 7647 SSC0761261 TlSr2CaCu2Oz Tl1Sr2Ca1Cu2Oz Tl 1 Sr 2 Ca 1 Cu 2 O z 1990 Tl1212 K 7.15 "mixrure-pellet-wrapped in Au foil-SIN(950C,3H in flowing Oz)-cool to RT(5C/min)" SUPERCONDUCTIVITY UP TO 105K IN THE NEW HIGH-TC TL-V-SR-CA-CU-O AND TL-V-SR-CA-Y-CU-O SYSTEMS 1990 12 "IRC IN SUPERCONDUCTIVITY, UNIVERSITY OF CAMBRIDGE, MADINGLEY ROAD, CAMBRIDGE CB3 0HE, U.K." "SOLID STATE COMMUN.,76(1990)1261" "TL,V,SR,CA,CU,O,Y" 7648 SSC0761261 "(Tl,V)Sr2CaCu2Oz" Tl0.5V0.5Sr2Ca1Cu2Oz Tl 0.5 V 0.5 Sr 2 Ca 1 Cu 2 O z 1990 Tl1212 3.801 12.017 K 57 110 83.5 3.2 "mixrure-pellet-wrapped in Au foil-SIN(950C,3H in flowing Oz)-cool to RT(5C/min)" SUPERCONDUCTIVITY UP TO 105K IN THE NEW HIGH-TC TL-V-SR-CA-CU-O AND TL-V-SR-CA-Y-CU-O SYSTEMS 1990 12 "IRC IN SUPERCONDUCTIVITY, UNIVERSITY OF CAMBRIDGE, MADINGLEY ROAD, CAMBRIDGE CB3 0HE, U.K." "SOLID STATE COMMUN.,76(1990)1261" "TL,V,SR,CA,CU,O,Y" 7649 SSC0761261 "(Tl,V)Sr2(Ca,Y)Cu2Oz" Tl0.5V0.5Sr2Ca0.8Y0.2Cu2Oz Tl 0.5 V 0.5 Sr 2 Ca 0.8 Y 0.2 Cu 2 O z 1990 Tl1212 K 87 100 110 100 17.4 "mixrure-pellet-wrapped in Au foil-SIN(950C,3H in flowing Oz)-cool to RT(5C/min)" SUPERCONDUCTIVITY UP TO 105K IN THE NEW HIGH-TC TL-V-SR-CA-CU-O AND TL-V-SR-CA-Y-CU-O SYSTEMS 1990 12 "IRC IN SUPERCONDUCTIVITY, UNIVERSITY OF CAMBRIDGE, MADINGLEY ROAD, CAMBRIDGE CB3 0HE, U.K." "SOLID STATE COMMUN.,76(1990)1261" "TL,V,SR,CA,CU,O,Y" 7650 JSC1320073 Nd2Ba4Cu7O14 Nd2Ba4Cu7O14.525 Nd 2 Ba 4 Cu 7 O 14+z 14.525 1 1997 3 Y247 3.893 3.901 50.68 K 66 66 "R2O3,Ba(NO3)2,CuO,Pr6O11" "mixture-Al2O3 cricible-heat(900-920C, in O2 flow)-Q to RT-wrapped in Aufoil-heat(980-990 C,24H in 25bar O2)-ANN(300-320C,30H in 120-130 bar O2)" "The High-Pressure Synthesis and Characterization of Some Praseodymium-Substituted Rare-Earth-Based R2Ba4Cu7O14+delta (R=Nd,Eu,Tm)" 1997 "Department of Applied Chemistry, National Chiao-Tung University, Hsinchu 300, Taiwan, Republic of China" J.Solid State Chem.132(1997)73-77 7651 JSC1320073 "(Nd,Pr)2Ba4Cu7O14" Nd1.8Pr0.2Ba4Cu7O14.587 Nd 1.8 Pr 0.2 Ba 4 Cu 7 O 14+z 14.587 1 1997 3 Y247 3.896 3.904 50.709 K 56 56 "R2O3,Ba(NO3)2,CuO,Pr6O11" "mixture-Al2O3 cricible-heat(900-920C, in O2 flow)-Q to RT-wrapped in Aufoil-heat(980-990 C,24H in 25bar O2)-ANN(300-320C,30H in 120-130 bar O2)" "The High-Pressure Synthesis and Characterization of Some Praseodymium-Substituted Rare-Earth-Based R2Ba4Cu7O14+delta (R=Nd,Eu,Tm)" 1997 "Department of Applied Chemistry, National Chiao-Tung University, Hsinchu 300, Taiwan, Republic of China" J.Solid State Chem.132(1997)73-77 7652 JSC1320073 "(Nd,Pr)2Ba4Cu7O14" Nd1.6Pr0.4Ba4Cu7O14.603 Nd 1.6 Pr 0.4 Ba 4 Cu 7 O 14+z 14.603 1 1997 3 Y247 3.9 3.907 50.749 K 48 48 "R2O3,Ba(NO3)2,CuO,Pr6O11" "mixture-Al2O3 cricible-heat(900-920C, in O2 flow)-Q to RT-wrapped in Aufoil-heat(980-990 C,24H in 25bar O2)-ANN(300-320C,30H in 120-130 bar O2)" "The High-Pressure Synthesis and Characterization of Some Praseodymium-Substituted Rare-Earth-Based R2Ba4Cu7O14+delta (R=Nd,Eu,Tm)" 1997 "Department of Applied Chemistry, National Chiao-Tung University, Hsinchu 300, Taiwan, Republic of China" J.Solid State Chem.132(1997)73-77 7653 JSC1320073 "(Nd,Pr)2Ba4Cu7O14" Nd1.4Pr0.6Ba4Cu7O14.541 Nd 1.4 Pr 0.6 Ba 4 Cu 7 O 14+z 14.541 1 1997 3 Y247 3.902 3.908 50.77 K 41 41 "R2O3,Ba(NO3)2,CuO,Pr6O11" "mixture-Al2O3 cricible-heat(900-920C, in O2 flow)-Q to RT-wrapped in Aufoil-heat(980-990 C,24H in 25bar O2)-ANN(300-320C,30H in 120-130 bar O2)" "The High-Pressure Synthesis and Characterization of Some Praseodymium-Substituted Rare-Earth-Based R2Ba4Cu7O14+delta (R=Nd,Eu,Tm)" 1997 "Department of Applied Chemistry, National Chiao-Tung University, Hsinchu 300, Taiwan, Republic of China" J.Solid State Chem.132(1997)73-77 7654 JSC1320073 Eu2Ba4Cu7O14 Eu2Ba4Cu7O14.671 Eu 2 Ba 4 Cu 7 O 14+z 14.671 1 1997 3 Y247 3.864 3.897 50.571 K 75 75 "R2O3,Ba(NO3)2,CuO,Pr6O11" "mixture-Al2O3 cricible-heat(900-920C, in O2 flow)-Q to RT-wrapped in Aufoil-heat(980-990 C,24H in 25bar O2)-ANN(300-320C,30H in 120-130 bar O2)" "The High-Pressure Synthesis and Characterization of Some Praseodymium-Substituted Rare-Earth-Based R2Ba4Cu7O14+delta (R=Nd,Eu,Tm)" 1997 "Department of Applied Chemistry, National Chiao-Tung University, Hsinchu 300, Taiwan, Republic of China" J.Solid State Chem.132(1997)73-77 7655 JSC1320073 "(Eu,Pr)2Ba4Cu7O14" Eu1.8Pr0.2Ba4Cu7O14.779 Eu 1.8 Pr 0.2 Ba 4 Cu 7 O 14+z 14.779 1 1997 3 Y247 3.868 3.896 50.608 K 68 68 "R2O3,Ba(NO3)2,CuO,Pr6O11" "mixture-Al2O3 cricible-heat(900-920C, in O2 flow)-Q to RT-wrapped in Aufoil-heat(980-990 C,24H in 25bar O2)-ANN(300-320C,30H in 120-130 bar O2)" "The High-Pressure Synthesis and Characterization of Some Praseodymium-Substituted Rare-Earth-Based R2Ba4Cu7O14+delta (R=Nd,Eu,Tm)" 1997 "Department of Applied Chemistry, National Chiao-Tung University, Hsinchu 300, Taiwan, Republic of China" J.Solid State Chem.132(1997)73-77 7656 JSC1320073 "(Eu,Pr)2Ba4Cu7O14" Eu1.6Pr0.4Ba4Cu7O14.761 Eu 1.6 Pr 0.4 Ba 4 Cu 7 O 14+z 14.761 1 1997 3 Y247 3.868 3.892 50.646 K 63 63 "R2O3,Ba(NO3)2,CuO,Pr6O11" "mixture-Al2O3 cricible-heat(900-920C, in O2 flow)-Q to RT-wrapped in Aufoil-heat(980-990 C,24H in 25bar O2)-ANN(300-320C,30H in 120-130 bar O2)" "The High-Pressure Synthesis and Characterization of Some Praseodymium-Substituted Rare-Earth-Based R2Ba4Cu7O14+delta (R=Nd,Eu,Tm)" 1997 "Department of Applied Chemistry, National Chiao-Tung University, Hsinchu 300, Taiwan, Republic of China" J.Solid State Chem.132(1997)73-77 7657 JSC1320073 "(Eu,Pr)2Ba4Cu7O14" Eu1.4Pr0.6Ba4Cu7O14.632 Eu 1.4 Pr 0.6 Ba 4 Cu 7 O 14+z 14.632 1 1997 3 Y247 3.869 3.891 50.677 K 58 58 "R2O3,Ba(NO3)2,CuO,Pr6O11" "mixture-Al2O3 cricible-heat(900-920C, in O2 flow)-Q to RT-wrapped in Aufoil-heat(980-990 C,24H in 25bar O2)-ANN(300-320C,30H in 120-130 bar O2)" "The High-Pressure Synthesis and Characterization of Some Praseodymium-Substituted Rare-Earth-Based R2Ba4Cu7O14+delta (R=Nd,Eu,Tm)" 1997 "Department of Applied Chemistry, National Chiao-Tung University, Hsinchu 300, Taiwan, Republic of China" J.Solid State Chem.132(1997)73-77 7658 JSC1320073 "(Eu,Pr)2Ba4Cu7O14" Eu1.2Pr0.8Ba4Cu7O14.788 Eu 1.2 Pr 0.8 Ba 4 Cu 7 O 14+z 14.788 1 1997 3 Y247 3.871 3.89 50.699 K 52 52 "R2O3,Ba(NO3)2,CuO,Pr6O11" "mixture-Al2O3 cricible-heat(900-920C, in O2 flow)-Q to RT-wrapped in Aufoil-heat(980-990 C,24H in 25bar O2)-ANN(300-320C,30H in 120-130 bar O2)" "The High-Pressure Synthesis and Characterization of Some Praseodymium-Substituted Rare-Earth-Based R2Ba4Cu7O14+delta (R=Nd,Eu,Tm)" 1997 "Department of Applied Chemistry, National Chiao-Tung University, Hsinchu 300, Taiwan, Republic of China" J.Solid State Chem.132(1997)73-77 7659 JSC1320073 Tm2Ba4Cu7O14 Tm2Ba4Cu7O14.732 Tm 2 Ba 4 Cu 7 O 14+z 14.732 1 1997 3 Y247 3.835 3.879 50.419 K 88 88 "R2O3,Ba(NO3)2,CuO,Pr6O11" "mixture-Al2O3 cricible-heat(900-920C, in O2 flow)-Q to RT-wrapped in Aufoil-heat(980-990 C,24H in 25bar O2)-ANN(300-320C,30H in 120-130 bar O2)" "The High-Pressure Synthesis and Characterization of Some Praseodymium-Substituted Rare-Earth-Based R2Ba4Cu7O14+delta (R=Nd,Eu,Tm)" 1997 "Department of Applied Chemistry, National Chiao-Tung University, Hsinchu 300, Taiwan, Republic of China" J.Solid State Chem.132(1997)73-77 7660 JSC1320073 "(Tm,Pr)2Ba4Cu7O14" Tm1.8Pr0.2Ba4Cu7O14.725 Tm 1.8 Pr 0.2 Ba 4 Cu 7 O 14+z 14.725 1 1997 3 Y247 3.837 3.881 50.471 K 76 76 "R2O3,Ba(NO3)2,CuO,Pr6O11" "mixture-Al2O3 cricible-heat(900-920C, in O2 flow)-Q to RT-wrapped in Aufoil-heat(980-990 C,24H in 25bar O2)-ANN(300-320C,30H in 120-130 bar O2)" "The High-Pressure Synthesis and Characterization of Some Praseodymium-Substituted Rare-Earth-Based R2Ba4Cu7O14+delta (R=Nd,Eu,Tm)" 1997 "Department of Applied Chemistry, National Chiao-Tung University, Hsinchu 300, Taiwan, Republic of China" J.Solid State Chem.132(1997)73-77 7661 JSC1320073 "(Tm,Pr)2Ba4Cu7O14" Tm1.6Pr0.4Ba4Cu7O14.722 Tm 1.6 Pr 0.4 Ba 4 Cu 7 O 14+z 14.722 1 1997 3 Y247 3.849 3.883 50.498 K 68 68 "R2O3,Ba(NO3)2,CuO,Pr6O11" "mixture-Al2O3 cricible-heat(900-920C, in O2 flow)-Q to RT-wrapped in Aufoil-heat(980-990 C,24H in 25bar O2)-ANN(300-320C,30H in 120-130 bar O2)" "The High-Pressure Synthesis and Characterization of Some Praseodymium-Substituted Rare-Earth-Based R2Ba4Cu7O14+delta (R=Nd,Eu,Tm)" 1997 "Department of Applied Chemistry, National Chiao-Tung University, Hsinchu 300, Taiwan, Republic of China" J.Solid State Chem.132(1997)73-77 7662 JSC1320073 "(Tm,Pr)2Ba4Cu7O14" Tm1.4Pr0.6Ba4Cu7O14.667 Tm 1.4 Pr 0.6 Ba 4 Cu 7 O 14+z 14.667 1 1997 3 Y247 3.853 3.886 50.53 K 60 60 "R2O3,Ba(NO3)2,CuO,Pr6O11" "mixture-Al2O3 cricible-heat(900-920C, in O2 flow)-Q to RT-wrapped in Aufoil-heat(980-990 C,24H in 25bar O2)-ANN(300-320C,30H in 120-130 bar O2)" "The High-Pressure Synthesis and Characterization of Some Praseodymium-Substituted Rare-Earth-Based R2Ba4Cu7O14+delta (R=Nd,Eu,Tm)" 1997 "Department of Applied Chemistry, National Chiao-Tung University, Hsinchu 300, Taiwan, Republic of China" J.Solid State Chem.132(1997)73-77 7663 JSC1320073 "(Tm,Pr)2Ba4Cu7O14" Tm1.2Pr0.8Ba4Cu7O14.652 Tm 1.2 Pr 0.8 Ba 4 Cu 7 O 14+z 14.652 1 1997 3 Y247 3.856 3.887 50.567 K 50 50 "R2O3,Ba(NO3)2,CuO,Pr6O11" "mixture-Al2O3 cricible-heat(900-920C, in O2 flow)-Q to RT-wrapped in Aufoil-heat(980-990 C,24H in 25bar O2)-ANN(300-320C,30H in 120-130 bar O2)" "The High-Pressure Synthesis and Characterization of Some Praseodymium-Substituted Rare-Earth-Based R2Ba4Cu7O14+delta (R=Nd,Eu,Tm)" 1997 "Department of Applied Chemistry, National Chiao-Tung University, Hsinchu 300, Taiwan, Republic of China" J.Solid State Chem.132(1997)73-77 7664 JP00901105 "optimum(845C,240H in O2)" Bi2Sr2Ca2Cu3O10 Bi2Sr2Ca2Cu3O1 Bi 2 Sr 2 Ca 2 Cu 3 O 10+z 1 1 1997 2 Bi2223 5.393 37.112 K 108 114 114 6 114 138000 "Bi2O3,V2O5,SrCO3,CaCO3,CuO" 1 "two step reaction, precursor(Bi-Sr-Ca-Cu-O) mixed with V2O5-pellet-sealed in evacuated quartz ampoule-SIN( )-ANN(600C in air)" A structural transformation and its effect on the physical properties of the V-substituted Bi2Sr2Ca2Cu3O10+y system 1997 "Inonu Universitesi, Fen Edebiyat Fakultesi, Fizik Bolumu, 44069 Malatya, Turkey" J.Phys.:Cond.Matter 9(1997)1105-1121 7665 JP00901105 "optimum(850C,80H in O2)" "(Bi,V)2Sr2Ca2Cu3O10" Bi1.8V0.2Sr2Ca2Cu3O2 Bi 1.8 V 0.2 Sr 2 Ca 2 Cu 3 O 10+z 2 2 1997 2 Bi2223 5.413 30.701 K 92 112 20 112 111000 "Bi2O3,V2O5,SrCO3,CaCO3,CuO" 1 "two step reaction, precursor(Bi-Sr-Ca-Cu-O) mixed with V2O5-pellet-sealed in evacuated quartz ampoule-SIN( )-ANN(600C in air)" A structural transformation and its effect on the physical properties of the V-substituted Bi2Sr2Ca2Cu3O10+y system 1997 "Inonu Universitesi, Fen Edebiyat Fakultesi, Fizik Bolumu, 44069 Malatya, Turkey" J.Phys.:Cond.Matter 9(1997)1105-1121 7666 JP00901105 "optimum(850C,70H in O2)" "(Bi,V)2Sr2Ca2Cu3O10" Bi1.6V0.4Sr2Ca2Cu3O10+z Bi 1.6 V 0.4 Sr 2 Ca 2 Cu 3 O 10+z 2 1997 2 Bi2223 5.446 30.018 K 83 92 9 92 97000 "Bi2O3,V2O5,SrCO3,CaCO3,CuO" 1 "two step reaction, precursor(Bi-Sr-Ca-Cu-O) mixed with V2O5-pellet-sealed in evacuated quartz ampoule-SIN( )-ANN(600C in air)" A structural transformation and its effect on the physical properties of the V-substituted Bi2Sr2Ca2Cu3O10+y system 1997 "Inonu Universitesi, Fen Edebiyat Fakultesi, Fizik Bolumu, 44069 Malatya, Turkey" J.Phys.:Cond.Matter 9(1997)1105-1121 7667 JP00901105 "optimum(845C,,60H in O2)" "(Bi,V)2Sr2Ca2Cu3O10" Bi1.4V0.6Sr2Ca2Cu3O10+z Bi 1.4 V 0.6 Sr 2 Ca 2 Cu 3 O 10+z 2 1997 3 Bi2223 5.99 5.476 29.871 K 67 67 11 67 71000 "Bi2O3,V2O5,SrCO3,CaCO3,CuO" 1 "two step reaction, precursor(Bi-Sr-Ca-Cu-O) mixed with V2O5-pellet-sealed in evacuated quartz ampoule-SIN( )-ANN(600C in air)" A structural transformation and its effect on the physical properties of the V-substituted Bi2Sr2Ca2Cu3O10+y system 1997 "Inonu Universitesi, Fen Edebiyat Fakultesi, Fizik Bolumu, 44069 Malatya, Turkey" J.Phys.:Cond.Matter 9(1997)1105-1121 7668 JP00901105 "optimum(840C,55H in O2)" "(Bi,V)2Sr2Ca2Cu3O10" Bi1.2V0.8Sr2Ca2Cu3O10+z Bi 1.2 V 0.8 Sr 2 Ca 2 Cu 3 O 10+z 2 1997 3 Bi2223 6.215 5.49 28.437 K 30 30 30 30 34000 "Bi2O3,V2O5,SrCO3,CaCO3,CuO" 1 "two step reaction, precursor(Bi-Sr-Ca-Cu-O) mixed with V2O5-pellet-sealed in evacuated quartz ampoule-SIN( )-ANN(600C in air)" A structural transformation and its effect on the physical properties of the V-substituted Bi2Sr2Ca2Cu3O10+y system 1997 "Inonu Universitesi, Fen Edebiyat Fakultesi, Fizik Bolumu, 44069 Malatya, Turkey" J.Phys.:Cond.Matter 9(1997)1105-1121 7669 JP00901105 "optimum(840C,40H in O2)" "(Bi,V)2Sr2Ca2Cu3O10" Bi1V1Sr2Ca2Cu3O10+z Bi 1 V 1 Sr 2 Ca 2 Cu 3 O 10+z 2 1997 3 Bi2223 6.219 5.495 28.432 K 15 15 "Bi2O3,V2O5,SrCO3,CaCO3,CuO" 1 "two step reaction, precursor(Bi-Sr-Ca-Cu-O) mixed with V2O5-pellet-sealed in evacuated quartz ampoule-SIN( )-ANN(600C in air)" A structural transformation and its effect on the physical properties of the V-substituted Bi2Sr2Ca2Cu3O10+y system 1997 "Inonu Universitesi, Fen Edebiyat Fakultesi, Fizik Bolumu, 44069 Malatya, Turkey" J.Phys.:Cond.Matter 9(1997)1105-1121 7670 JSC1300319 Sr2Cu2MnO2S2 Sr2Cu2Mn1S2O2 Sr 2 Cu 2 Mn 1 S 2 O 2 1997 5.3 -28 29.5 2 I4/mmm 4.002 17.131 K "SrS,Mn(Zn),CuO" 1 "mixture-pellet-sealed in evacuated quartz tube-heat (920C,24H)-FC to RT" "Unusual Layered Transition-Metal Oxysulfides: Sr2Cu2MO2S2 (M=Mn,Zn)" 1997 "Department of Physics and Texas Center for Superconductivity, University of Houston, Texas 77204-5932" J.Solid State Chem.130(1997)319-321 7671 JSC1300319 Sr2Cu2ZnO2S2 Sr2Cu2Zn1S2O2 Sr 2 Cu 2 Zn 1 S 2 O 2 1997 2 I4/mmm 4.008 17.72 K "SrS,Mn(Zn),CuO" 1 "mixture-pellet-sealed in evacuated quartz tube-heat (920C,24H)-FC to RT" "Unusual Layered Transition-Metal Oxysulfides: Sr2Cu2MO2S2 (M=Mn,Zn)" 1997 "Department of Physics and Texas Center for Superconductivity, University of Houston, Texas 77204-5932" J.Solid State Chem.130(1997)319-321 7672 JSC1300154 "impurity phase=Sr2CuTa2Oz, insulator" Pb2Sr2Cu2TaO8Cl Pb2Sr2Cu2Ta1Cl1O8 Pb 2 Sr 2 Cu 2 Ta 1 Cl 1 O 8 1997 P4/mmm 3.892 15.383 K "PbO,PbCl2,Sr(NO3)2,TaO5,CuO" "nixture-heat (500+550+600+650C in air for 12H each with intermittent grindings)-pellet-SIN(700C, 24H in air)-FC to RT" "Pb2Sr2Cu2TaO8Cl, a new Layered Cuprate with HematoPhanite Structure" 1997 "Department of Applied Chemistry, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Solid State Chem.130(1997)154-156 7673 JSC1290360 insulator Ba4CuLiO4Cl4 Ba4Cu1Li1Cl4O4 Ba 4 Cu 1 Li 1 Cl 4 O 4 1997 2 T I4/mmm 4.156 16.125 K 1 "The reactions were carried out in a flowing, CO2 free, O2 at 700-800C, for 24H-FC to RT" "New Cu(III) Oxychlorides in the Ba-Cu-M-O-Cl (M=Li,Na) System" 1997 "CNR, Institute of Structural Chemistry, University of Parma, Italy" J.Solid State Chem.129(1997)360-362 7674 JSC1290360 sharp transition in susceptibility was observed around 250C insulator Ba4CuNaO4Cl4 Ba4Cu1Na1Cl4O4 Ba 4 Cu 1 Na 1 Cl 4 O 4 1 1997 2 T I4/mmm 4.218 16.157 K 1 "The reactions were carried out in a flowing, CO2 free, O2 at 700-800C, for 24H-FC to RT" "New Cu(III) Oxychlorides in the Ba-Cu-M-O-Cl (M=Li,Na) System" 1997 "CNR, Institute of Structural Chemistry, University of Parma, Italy" J.Solid State Chem.129(1997)360-362 7675 JSC1280169 "(La,Sr)2(Cu,Mn)O4" La1.9Sr0.1Cu0.95Mn0.05O4 La 1.9 Sr 0.1 Cu 0.95 Mn 0.05 O z 4 1997 2 T 3.794 13.146 K 10 0.5 "La2O3,SrCO3,CuO,Mn(C2O4).2H2O" "decomposition(600C,6H)-mixture-pellet-SIN(1150C,48H)" "New La2CuO4 Derivatives La2-2xSr2xCu1-xMxO4(M=Ti,Mn,Fe, or Ru): A Study of Linear Cu-O-M Electronic Interaction in Two Dimensions" 1997 "Solid State and Structural Chemistry Unit, Indian Institute of Science, Bangalore 560 012, India" J.Solid State Chem.128(1997)169-175 7676 JSC1280169 "(La,Sr)2(Cu,Mn)O4" La1.8Sr0.2Cu0.9Mn0.1O4.01 La 1.8 Sr 0.2 Cu 0.9 Mn 0.1 O z 4.01 1997 2 T 3.793 13.139 K 10 10 "La2O3,SrCO3,CuO,Mn(C2O4).2H2O" "decomposition(600C,6H)-mixture-pellet-SIN(1150C,48H)" "New La2CuO4 Derivatives La2-2xSr2xCu1-xMxO4(M=Ti,Mn,Fe, or Ru): A Study of Linear Cu-O-M Electronic Interaction in Two Dimensions" 1997 "Solid State and Structural Chemistry Unit, Indian Institute of Science, Bangalore 560 012, India" J.Solid State Chem.128(1997)169-175 7677 JSC1280169 "(La,Sr)2(Cu,Mn)O4" La1Sr1Cu0.5Mn0.5O3.99 La 1 Sr 1 Cu 0.5 Mn 0.5 O z 3.99 1997 2 T 3.807 12.745 K 10 4400 "La2O3,SrCO3,CuO,Mn(C2O4).2H2O" "decomposition(600C,6H)-mixture-pellet-SIN(1150C,48H)" "New La2CuO4 Derivatives La2-2xSr2xCu1-xMxO4(M=Ti,Mn,Fe, or Ru): A Study of Linear Cu-O-M Electronic Interaction in Two Dimensions" 1997 "Solid State and Structural Chemistry Unit, Indian Institute of Science, Bangalore 560 012, India" J.Solid State Chem.128(1997)169-175 7678 JSC1280169 "(La,Sr)2(Cu,Ru)O4" La1.9Sr0.1Cu0.95Ru0.05O4 La 1.9 Sr 0.1 Cu 0.95 Ru 0.05 O z 4 1997 2 T 3.794 13.179 K 10 0.19 "La2O3,SrCO3,CuO,(TiO2,RuO2)" "mixture-heat(1150C,48H)" "New La2CuO4 Derivatives La2-2xSr2xCu1-xMxO4(M=Ti,Mn,Fe, or Ru): A Study of Linear Cu-O-M Electronic Interaction in Two Dimensions" 1997 "Solid State and Structural Chemistry Unit, Indian Institute of Science, Bangalore 560 012, India" J.Solid State Chem.128(1997)169-175 7679 JSC1280169 "(La,Sr)2(Cu,Ru)O4" La1.8Sr0.2Cu0.9Ru0.1O3.99 La 1.8 Sr 0.2 Cu 0.9 Ru 0.1 O z 3.99 1997 2 T 3.795 13.175 K 10 1.5 "La2O3,SrCO3,CuO,(TiO2,RuO2)" "mixture-heat(1150C,48H)" "New La2CuO4 Derivatives La2-2xSr2xCu1-xMxO4(M=Ti,Mn,Fe, or Ru): A Study of Linear Cu-O-M Electronic Interaction in Two Dimensions" 1997 "Solid State and Structural Chemistry Unit, Indian Institute of Science, Bangalore 560 012, India" J.Solid State Chem.128(1997)169-175 7680 JSC1280169 "(La,Sr)2(Cu,Ti)O4" La1Sr1Cu0.5Ti0.5Oz La 1 Sr 1 Cu 0.5 Ti 0.5 O z 1997 2 T 3.818 13.003 K 10 650 "La2O3,SrCO3,CuO,(TiO2,RuO2)" "mixture-heat(1150C,48H)" "New La2CuO4 Derivatives La2-2xSr2xCu1-xMxO4(M=Ti,Mn,Fe, or Ru): A Study of Linear Cu-O-M Electronic Interaction in Two Dimensions" 1997 "Solid State and Structural Chemistry Unit, Indian Institute of Science, Bangalore 560 012, India" J.Solid State Chem.128(1997)169-175 7681 JSC1280169 "(La,Sr)2(Cu,Fe)O4" La1.9Sr0.1Cu0.95Fe0.05O4 La 1.9 Sr 0.1 Cu 0.95 Fe 0.05 O z 4 1997 2 T 3.795 13.164 K 10 14 Fe(C2O4).2H2O "decomposition(600C,6H)-mixture-pellet-SIN(1150C,48H)" "New La2CuO4 Derivatives La2-2xSr2xCu1-xMxO4(M=Ti,Mn,Fe, or Ru): A Study of Linear Cu-O-M Electronic Interaction in Two Dimensions" 1997 "Solid State and Structural Chemistry Unit, Indian Institute of Science, Bangalore 560 012, India" J.Solid State Chem.128(1997)169-175 7682 JSC1280169 "(La,Sr)2(Cu,Fe)O4" La0.8Sr0.2Cu0.9Fe0.1O4 La 0.8 Sr 0.2 Cu 0.9 Fe 0.1 O z 4 1997 2 T 3.787 13.173 K 10 Fe(C2O4).2H2O "decomposition(600C,6H)-mixture-pellet-SIN(1150C,48H)" "New La2CuO4 Derivatives La2-2xSr2xCu1-xMxO4(M=Ti,Mn,Fe, or Ru): A Study of Linear Cu-O-M Electronic Interaction in Two Dimensions" 1997 "Solid State and Structural Chemistry Unit, Indian Institute of Science, Bangalore 560 012, India" J.Solid State Chem.128(1997)169-175 7683 JSC1280169 "(La,Sr)2(Cu,Fe)O4" La1.7Sr0.3Cu0.85Fe0.15O4 La 1.7 Sr 0.3 Cu 0.85 Fe 0.15 O z 4 1997 2 T 3.782 13.169 K 10 2.3 Fe(C2O4).2H2O "decomposition(600C,6H)-mixture-pellet-SIN(1150C,48H)" "New La2CuO4 Derivatives La2-2xSr2xCu1-xMxO4(M=Ti,Mn,Fe, or Ru): A Study of Linear Cu-O-M Electronic Interaction in Two Dimensions" 1997 "Solid State and Structural Chemistry Unit, Indian Institute of Science, Bangalore 560 012, India" J.Solid State Chem.128(1997)169-175 7684 JSC1280169 "(La,Sr)2(Cu,Fe)O4" La1.6Sr0.4Cu0.8Fe0.2O4 La 1.6 Sr 0.4 Cu 0.8 Fe 0.2 O z 4 1997 2 T 3.784 13.168 K 10 5.5 Fe(C2O4).2H2O "decomposition(600C,6H)-mixture-pellet-SIN(1150C,48H)" "New La2CuO4 Derivatives La2-2xSr2xCu1-xMxO4(M=Ti,Mn,Fe, or Ru): A Study of Linear Cu-O-M Electronic Interaction in Two Dimensions" 1997 "Solid State and Structural Chemistry Unit, Indian Institute of Science, Bangalore 560 012, India" J.Solid State Chem.128(1997)169-175 7685 JSC1280169 "(La,Sr)2(Cu,Fe)O4" La1.5Sr0.5Cu1.5Fe0.5O3.94 La 1.5 Sr 0.5 Cu 1.5 Fe 0.5 O z 3.94 1997 2 T 3.786 13.166 K 10 Fe(C2O4).2H2O "decomposition(600C,6H)-mixture-pellet-SIN(1150C,48H)" "New La2CuO4 Derivatives La2-2xSr2xCu1-xMxO4(M=Ti,Mn,Fe, or Ru): A Study of Linear Cu-O-M Electronic Interaction in Two Dimensions" 1997 "Solid State and Structural Chemistry Unit, Indian Institute of Science, Bangalore 560 012, India" J.Solid State Chem.128(1997)169-175 7686 JSC1280169 "(La,Sr)2(Cu,Fe)O4" La1Sr1Cu0.5Fe0.5O3.9 La 1 Sr 1 Cu 0.5 Fe 0.5 O z 3.9 1997 2 T 3.802 12.956 K 10 270 Fe(C2O4).2H2O "decomposition(600C,6H)-mixture-pellet-SIN(1150C,48H)" "New La2CuO4 Derivatives La2-2xSr2xCu1-xMxO4(M=Ti,Mn,Fe, or Ru): A Study of Linear Cu-O-M Electronic Interaction in Two Dimensions" 1997 "Solid State and Structural Chemistry Unit, Indian Institute of Science, Bangalore 560 012, India" J.Solid State Chem.128(1997)169-175 7687 JSC1280169 "(La,Sr)2(Cu,Fe)O4" La0.5Sr1.5Cu0.25Fe0.75O3.8 La 0.5 Sr 1.5 Cu 0.25 Fe 0.75 O Z 3.8 1997 2 T 3.832 12.678 K 10 Fe(C2O4).2H2O "decomposition(600C,6H)-mixture-pellet-SIN(1150C,48H)" "New La2CuO4 Derivatives La2-2xSr2xCu1-xMxO4(M=Ti,Mn,Fe, or Ru): A Study of Linear Cu-O-M Electronic Interaction in Two Dimensions" 1997 "Solid State and Structural Chemistry Unit, Indian Institute of Science, Bangalore 560 012, India" J.Solid State Chem.128(1997)169-175 7688 JSC1280310 Gd(Ba)2Cu4O8 Gd1Ba2Cu4O8 Gd 1 Ba 2 Cu 4 O 8 1 1997 3 Y124 K 73.1 73.1 "See J Am. Ceram, Soc. 76(1993)1618" Strontium Substitution in Superconducting RBa2Cu4O8 (R=Gd and Ho) Compound 1997 "Department of Industrial Chemistry, Faculty of Engineering, Tokyo Metropolitan University, 1-1 Minami-Osawa, Hachioji, Tokyo 192-03, Japan" J.Solid State Chem.128(1997)310-312 7689 JSC1280310 "Gd(Sr,Ba)2Cu4O8" Gd1Sr0.1Ba1.9Cu4O8 Gd 1 Sr 0.1 Ba 1.9 Cu 4 O 8 1 1997 3 Y124 K 73.5 73.5 "See J Am. Ceram, Soc. 76(1993)1618" Strontium Substitution in Superconducting RBa2Cu4O8 (R=Gd and Ho) Compound 1997 "Department of Industrial Chemistry, Faculty of Engineering, Tokyo Metropolitan University, 1-1 Minami-Osawa, Hachioji, Tokyo 192-03, Japan" J.Solid State Chem.128(1997)310-312 7690 JSC1280310 "Gd(Sr,Ba)2Cu4O8" Gd1Sr1.8Ba0.2Cu4O8 Gd 1 Sr 1.8 Ba 0.2 Cu 4 O 8 1 1997 3 Y124 K 73.1 73.1 "See J Am. Ceram, Soc. 76(1993)1618" Strontium Substitution in Superconducting RBa2Cu4O8 (R=Gd and Ho) Compound 1997 "Department of Industrial Chemistry, Faculty of Engineering, Tokyo Metropolitan University, 1-1 Minami-Osawa, Hachioji, Tokyo 192-03, Japan" J.Solid State Chem.128(1997)310-312 7691 JSC1280310 Ho(Ba)2Cu4O8 Ho1Ba2Cu4O8 Ho 1 Ba 2 Cu 4 O 8 1 1997 3 Y124 K 68.5 68.5 "See J Am. Ceram, Soc. 76(1993)1618" Strontium Substitution in Superconducting RBa2Cu4O8 (R=Gd and Ho) Compound 1997 "Department of Industrial Chemistry, Faculty of Engineering, Tokyo Metropolitan University, 1-1 Minami-Osawa, Hachioji, Tokyo 192-03, Japan" J.Solid State Chem.128(1997)310-312 7692 JSC1280310 "Ho(Ba,Sr)2Cu4O8" Ho1Sr0.2Ba1.8Cu4O8 Ho 1 Sr 0.2 Ba 1.8 Cu 4 O 8 1 1997 3 Y124 K 68.8 68.8 "See J Am. Ceram, Soc. 76(1993)1618" Strontium Substitution in Superconducting RBa2Cu4O8 (R=Gd and Ho) Compound 1997 "Department of Industrial Chemistry, Faculty of Engineering, Tokyo Metropolitan University, 1-1 Minami-Osawa, Hachioji, Tokyo 192-03, Japan" J.Solid State Chem.128(1997)310-312 7693 JSC1280310 "HO(Ba,Sr)2Cu4O8" Ho1Sr0.4Ba1.6Cu4O8 Ho 1 Sr 0.4 Ba 1.6 Cu 4 O 8 1 1997 3 Y124 K 68.1 68.1 "See J Am. Ceram, Soc. 76(1993)1618" Strontium Substitution in Superconducting RBa2Cu4O8 (R=Gd and Ho) Compound 1997 "Department of Industrial Chemistry, Faculty of Engineering, Tokyo Metropolitan University, 1-1 Minami-Osawa, Hachioji, Tokyo 192-03, Japan" J.Solid State Chem.128(1997)310-312 7694 JSC1280310 "Ho(Ba,Sr)2Cu4O8" Ho1Sr0.6Ba1.4Cu4O8 Ho 1 Sr 0.6 Ba 1.4 Cu 4 O 8 1 1997 3 Y124 K 68.3 68.3 "See J Am. Ceram, Soc. 76(1993)1618" Strontium Substitution in Superconducting RBa2Cu4O8 (R=Gd and Ho) Compound 1997 "Department of Industrial Chemistry, Faculty of Engineering, Tokyo Metropolitan University, 1-1 Minami-Osawa, Hachioji, Tokyo 192-03, Japan" J.Solid State Chem.128(1997)310-312 7695 JCG1710409 semiconducting Pr1.06Ba1.93Cu2.95Mg0.05O7-z by ICP "Pr(Ba,Pr)2Cu3O7" Pr1.06Ba1.94Cu3O7-z Pr 1.06 Ba 1.94 Cu 3 O 7-z 3 1997 Y123 K 15 "by inproved top seeded crystal pulling method, starting materials are Pr:Ba:Cu: =5:30:65 forx=0.06,=5:28:67 for x=0.14,=5:24:71 for x=0.29" Control of Pr for Ba substitution in PBCO single crystals by the crystal polling method 1997 "SRL-ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "J.Cryst.Growth,171(1997)409-414" 7696 JCG1710409 semiconducting Pr1.14Ba1.88Cu2.94Mg0.04O7-z by ICP "Pr(Ba,Pr)2Cu3O7" Pr1.14Ba1.86Cu3O7-z Pr 1.14 Ba 1.86 Cu 3 O 7-z 3 1997 2 Y123 3.907 11.768 K 25 "by inproved top seeded crystal pulling method, starting materials are Pr:Ba:Cu: =5:30:65 forx=0.06,=5:28:67 for x=0.14,=5:24:71 for x=0.29" Control of Pr for Ba substitution in PBCO single crystals by the crystal polling method 1997 "SRL-ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "J.Cryst.Growth,171(1997)409-414" 7697 JCG1710409 semiconducting Pr1.29Ba1.67Cu2.95Mg0.05O7-z by ICP "Pr(Ba,Pr)2Cu3O7" Pr1.29Ba1.71Cu3O7-z Pr 1.29 Ba 1.71 Cu 3 O 7-z 3 1997 Y123 K 60 "by inproved top seeded crystal pulling method, starting materials are Pr:Ba:Cu: =5:30:65 forx=0.06,=5:28:67 for x=0.14,=5:24:71 for x=0.29" Control of Pr for Ba substitution in PBCO single crystals by the crystal polling method 1997 "SRL-ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "J.Cryst.Growth,171(1997)409-414" 7698 JCG1710380 anisotropy factor=19.9 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 3 1997 Y123 K "SQUID,not in detarls" 238 4729 "flux method, flux-BaCuO2+CuO, starting materials-al2ao3 crucible-heat(Tmax=1050C)-slow cool-renove flux-ANN(420C,7days oxygenation)" Growth and characterization of (Y1-xPrx)Ba2Cu3O7-delta single crystals 1997 "Physikalisches Institut, RWTH Aachen, D-52056 Aachen, Germany" "J.Cryst.Growth,171(1997)380-386" 7699 JCG1710380 anisotropy factor=47.3 Y0.87Pr0.13Ba2Cu3O7-z Y 0.87 Pr 0.13 Ba 2 Cu 3 O 7-z 3 1997 K "SQUID,not in detarls" 55 2594 "flux method, flux-BaCuO2+CuO, starting materials-al2ao3 crucible-heat(Tmax=1050C)-slow cool-renove flux-ANN(420C,7days oxygenation)" Growth and characterization of (Y1-xPrx)Ba2Cu3O7-delta single crystals 1997 "Physikalisches Institut, RWTH Aachen, D-52056 Aachen, Germany" "J.Cryst.Growth,171(1997)380-386" 7700 JCG1710380 anisotropy factor=82.3 Y0.73Pr0.27Ba2Cu3O7-z Y 0.73 Pr 0.27 Ba 2 Cu 3 O 7-z 3 1997 K "SQUID, not in detarls" 17 1399 "flux method, flux-BaCuO2+CuO, starting materials-al2ao3 crucible-heat(Tmax=1050C)-slow cool-renove flux-ANN(420C,7days oxygenation)" Growth and characterization of (Y1-xPrx)Ba2Cu3O7-delta single crystals 1997 "Physikalisches Institut, RWTH Aachen, D-52056 Aachen, Germany" "J.Cryst.Growth,171(1997)380-386" 7701 JCG1710380 anisotropy factor=95.8 Y0.59Pr0.41Ba2Cu3O7-z Y 0.59 Pr 0.41 Ba 2 Cu 3 O 7-z 3 1997 K "SQUID,not in detarls" 15 1422 "flux method, flux-BaCuO2+CuO, starting materials-al2ao3 crucible-heat(Tmax=1050C)-slow cool-renove flux-ANN(420C,7days oxygenation)" Growth and characterization of (Y1-xPrx)Ba2Cu3O7-delta single crystals 1997 "Physikalisches Institut, RWTH Aachen, D-52056 Aachen, Germany" "J.Cryst.Growth,171(1997)380-386" 7702 JCG1710380 Y0.51Pr0.49Ba2Cu3O7-z Y 0.51 Pr 0.49 Ba 2 Cu 3 O 7-z 3 1997 K "flux method, flux-BaCuO2+CuO, starting materials-al2ao3 crucible-heat(Tmax=1050C)-slow cool-renove flux-ANN(420C,7days oxygenation)" Growth and characterization of (Y1-xPrx)Ba2Cu3O7-delta single crystals 1997 "Physikalisches Institut, RWTH Aachen, D-52056 Aachen, Germany" "J.Cryst.Growth,171(1997)380-386" 7703 JCG1710380 Y0.41Pr0.59Ba2Cu3O7-z Y 0.41 Pr 0.59 Ba 2 Cu 3 O 7-z 3 1997 K "flux method, flux-BaCuO2+CuO, starting materials-al2ao3 crucible-heat(Tmax=1050C)-slow cool-renove flux-ANN(420C,7days oxygenation)" Growth and characterization of (Y1-xPrx)Ba2Cu3O7-delta single crystals 1997 "Physikalisches Institut, RWTH Aachen, D-52056 Aachen, Germany" "J.Cryst.Growth,171(1997)380-386" 7704 JCG1710380 Y0.21Pr0.79Ba2Cu3O7-z Y 0.21 Pr 0.79 Ba 2 Cu 3 O 7-z 3 1997 K "flux method, flux-BaCuO2+CuO, starting materials-al2ao3 crucible-heat(Tmax=1050C)-slow cool-renove flux-ANN(420C,7days oxygenation)" Growth and characterization of (Y1-xPrx)Ba2Cu3O7-delta single crystals 1997 "Physikalisches Institut, RWTH Aachen, D-52056 Aachen, Germany" "J.Cryst.Growth,171(1997)380-386" 7705 JIM0380745 "as-grown,not s/c." Ndba2Cu3O7 Nd1Ba2Cu3O7-z Nd 1 Ba 2 Cu 3 O 7-z 3 1997 Y123 K 10 20 grown by the top-seedad solution-growth method In-Plane and Out-of-Plane Thermal Conductivities of a Large Single Crystal of NdBa2Cu3O7-x Prepared by the Top-Seeded Solution-Growth Method 1997 "Faculty of Engineering, Iwate University, 4-3-5 Ueda, Morioka 020, Japan" "Materials Transactions,JIM38(1997)745-748" 7706 JIM0380745 NdBa2Cu3O7 Nd1Ba2Cu3O7-z Nd 1 Ba 2 Cu 3 O 7-z 3 1997 Y123 K 94 94 "top-seedad solution-growth method-ANN(34C,1 mouth in O2 flow of 0.1 MPa)" In-Plane and Out-of-Plane Thermal Conductivities of a Large Single Crystal of NdBa2Cu3O7-x Prepared by the Top-Seeded Solution-Growth Method 1997 "Faculty of Engineering, Iwate University, 4-3-5 Ueda, Morioka 020, Japan" "Materials Transactions,JIM38(1997)745-748" 7707 JP00901451 "inpurity phase=CaHgO2, BaCuO2" HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8+z Hg 1 Ba 2 Ca 2 Cu 3 O 8+z 1997 2 Hg1223 3.855 15.842 K 110 110 "precursor(Ba2Ca2Cu3O7)+HgO+PbO-mixture-pellet-sealed in vacum tube-heat(850C,4C/min)-hold IOH-cool to 200C at 4C/min-hold(2H)-ANN(240C,10H in O2)" The crystal structure of the superconductor HgBa2Ca2Cu3O8+delta with Pb substitution 1997 "National Laboratory of Solid State Microstrutures, Institute of Solid State, and Centre for Advanced Studies in Science and Technology of Microstructures,Nanging University,Nanjing 210093,People's Repblic of China" J.Phys.;Cond.Matter9(1997)1451-1460 7708 JP00901451 "inpurity phase=CaHgO2, BaCuO2" "(Hg,Pb)Ba2Ca2Cu3O8" Hg0.9Pb0.1Ba2Ca2Cu3O8+z Hg 0.9 Pb 0.1 Ba 2 Ca 2 Cu 3 O 8+z 1997 2 Hg1223 3.85 15.836 K "precursor(Ba2Ca2Cu3O7)+HgO+PbO-mixture-pellet-sealed in vacum tube-heat(850C,4C/min)-hold IOH-cool to 200C at 4C/min-hold(2H)-ANN(240C,10H in O2)" The crystal structure of the superconductor HgBa2Ca2Cu3O8+delta with Pb substitution 1997 "National Laboratory of Solid State Microstrutures, Institute of Solid State, and Centre for Advanced Studies in Science and Technology of Microstructures,Nanging University,Nanjing 210093,People's Repblic of China" J.Phys.;Cond.Matter9(1997)1451-1460 7709 JP00901451 "inpurity phase=CaHgO2, BaCuO2" "(Hg,Pb)Ba2Ca2Cu3O8" Hg0.8Pb0.2Ba2Ca2Cu3O8+z Hg 0.8 Pb 0.2 Ba 2 Ca 2 Cu 3 O 8+z 1997 2 Hg1223 3.848 15.831 K "precursor(Ba2Ca2Cu3O7)+HgO+PbO-mixture-pellet-sealed in vacum tube-heat(850C,4C/min)-hold IOH-cool to 200C at 4C/min-hold(2H)-ANN(240C,10H in O2)" The crystal structure of the superconductor HgBa2Ca2Cu3O8+delta with Pb substitution 1997 "National Laboratory of Solid State Microstrutures, Institute of Solid State, and Centre for Advanced Studies in Science and Technology of Microstructures,Nanging University,Nanjing 210093,People's Repblic of China" J.Phys.;Cond.Matter9(1997)1451-1460 7710 JP00901451 "inpurity phase-CaHgO2, BaCuO2" "(Hg,Pb)Ba2Ca2Cu3O8" Hg0.7Pb0.3Ba2Ca2Cu3O8+z Hg 0.7 Pb 0.3 Ba 2 Ca 2 Cu 3 O 8+z 1997 2 Hg1223 3.842 15.824 K 135 143 143 "precursor(Ba2Ca2Cu3O7)+HgO+PbO-mixture-pellet-sealed in vacum tube-heat(850C,4C/min)-hold IOH-cool to 200C at 4C/min-hold(2H)-ANN(240C,10H in O2)" The crystal structure of the superconductor HgBa2Ca2Cu3O8+delta with Pb substitution 1997 "National Laboratory of Solid State Microstrutures, Institute of Solid State, and Centre for Advanced Studies in Science and Technology of Microstructures,Nanging University,Nanjing 210093,People's Repblic of China" J.Phys.;Cond.Matter9(1997)1451-1460 7711 JP00901451 "inpurity phase=CaHgO2, BaCuO2" "(Hg,Pb)Ba2Ca2Cu3O8" Hg0.6Pb0.4Ba2Ca2Cu3O8+z Hg 0.6 Pb 0.4 Ba 2 Ca 2 Cu 3 O 8+z 1997 2 Hg1223 3.842 15.818 K "precursor(Ba2Ca2Cu3O7)+HgO+PbO-mixture-pellet-sealed in vacum tube-heat(850C,4C/min)-hold IOH-cool to 200C at 4C/min-hold(2H)-ANN(240C,10H in O2)" The crystal structure of the superconductor HgBa2Ca2Cu3O8+delta with Pb substitution 1997 "National Laboratory of Solid State Microstrutures, Institute of Solid State, and Centre for Advanced Studies in Science and Technology of Microstructures,Nanging University,Nanjing 210093,People's Repblic of China" J.Phys.;Cond.Matter9(1997)1451-1460 7712 JP00901451 "inpurity phase=CaHgO2, BaCuO2" "(Hg,Pb)Ba2Ca2Cu3O8" Hg0.5Pb0.5Ba2Ca2Cu3O8+z Hg 0.5 Pb 0.5 Ba 2 Ca 2 Cu 3 O 8+z 1997 2 Hg1223 3.84 15.822 K "precursor(Ba2Ca2Cu3O7)+HgO+PbO-mixture-pellet-sealed in vacum tube-heat(850C,4C/min)-hold IOH-cool to 200C at 4C/min-hold(2H)-ANN(240C,10H in O2)" The crystal structure of the superconductor HgBa2Ca2Cu3O8+delta with Pb substitution 1997 "National Laboratory of Solid State Microstrutures, Institute of Solid State, and Centre for Advanced Studies in Science and Technology of Microstructures,Nanging University,Nanjing 210093,People's Repblic of China" J.Phys.;Cond.Matter9(1997)1451-1460 7713 JP00900075 S/C "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1Oz Nd 1.85 Ce 0.15 Cu 1 O z 1997 T' K "Nd2O3,CaCO3,CuO" "mixture-fire(1000C,20H+1120C,20H)-precursor (Nd1.85-xCaxCuOz)+CeO2-mixture-pellet-SIN(1120C,20H)-Q to RT" Anomalies in thermoelectric power at 200 K in the calcium-doped NdCeCuO system 1997 "Structure Research Laboratory, University of Science and Technology of China, Academia Sinica, Hefei, Anhui 230026, People's Republic of China" J.Phys.;Cond.Matter9(1997)L75-L82 7714 JP00900075 S/C(116) peak in XRD patlern split to two peaks at about 200K "(Nd,Ce,Ca)2CuO4" Nd1.75Ce0.15Ca0.1Cu1Oz Nd 1.75 Ce 0.15 Ca 0.1 Cu 1 O z 1 1997 T' 3.939 12.043 K "Nd2O3,CaCO3,CuO" "mixture-fire(1000C,20H+1120C,20H)-precursor (Nd1.85-xCaxCuOz)+CeO2-mixture-pellet-SIN(1120C,20H)-Q to RT" Anomalies in thermoelectric power at 200 K in the calcium-doped NdCeCuO system 1997 "Structure Research Laboratory, University of Science and Technology of China, Academia Sinica, Hefei, Anhui 230026, People's Republic of China" J.Phys.;Cond.Matter9(1997)L75-L82 7715 JP00900075 S/C "(Nd,Ca)2CuO4" Nd1.55Ce0.15Ca0.3Cu1Oz Nd 1.55 Ce 0.15 Ca 0.3 Cu 1 O z 1997 T' K "Nd2O3,CaCO3,CuO" "mixture-fire(1000C,20H+1120C,20H)-precursor (Nd1.85-xCaxCuOz)+CeO2-mixture-pellet-SIN(1120C,20H)-Q to RT" Anomalies in thermoelectric power at 200 K in the calcium-doped NdCeCuO system 1997 "Structure Research Laboratory, University of Science and Technology of China, Academia Sinica, Hefei, Anhui 230026, People's Republic of China" J.Phys.;Cond.Matter9(1997)L75-L82 7716 JP00900075 not s/c Nd2CuO4 Nd2Cu1O4+z Nd 2 Cu 1 O 4+z 1997 T' K "Nd2O3,CaCO3,CuO" "mixture-fire(1000C,20H+11OC, in air)-ANN(950C,in N2)" Anomalies in thermoelectric power at 200 K in the calcium-doped NdCeCuO system 1997 "Structure Research Laboratory, University of Science and Technology of China, Academia Sinica, Hefei, Anhui 230026, People's Republic of China" J.Phys.;Cond.Matter9(1997)L75-L82 7717 JP00900075 not s/c "(Nd,Ca)2CuO4" Nd1.85Ca0.15Cu1O4+z Nd 1.85 Ca 0.15 Cu 1 O 4+z 1997 T' K "Nd2O3,CaCO3,CuO" "mixture-fire(1000C,20H+11OC, in air)-ANN(950C,in N2)" Anomalies in thermoelectric power at 200 K in the calcium-doped NdCeCuO system 1997 "Structure Research Laboratory, University of Science and Technology of China, Academia Sinica, Hefei, Anhui 230026, People's Republic of China" J.Phys.;Cond.Matter9(1997)L75-L82 7718 JP00905137 "Bi2(Sr,La)2CuOz" Bi2Sr1.65La0.35Cu1Oz Bi 2 Sr 1.65 La 0.35 Cu 1 O z 1 1997 Bi2201 5.357 5.379 24.549 K 19.4 34.5 26.95 1 "mixture-preheat(820C,24H in air)-heat(830C,1day in air)-pellet-SIN(840-860C,2days in air)-Q to RT in air-ANN(550C,3H in P(O2)=10E-5 atm)" A study on the transport properties in the Bi2-xPbxSr1.65La0.35CuOy system 1997 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.;Cond.Matter9(1997)5137-5144 7719 JP00905137 "(Bi,Pb)2(Sr,La)2CuOz" Bi1.9Pb0.1Sr1.65La0.35Cu1Oz Bi 1.9 Pb 0.1 Sr 1.65 La 0.35 Cu 1 O z 1 1997 Bi2201 5.369 5.367 24.536 K 23.8 37.6 30.7 1 "mixture-preheat(820C,24H in air)-heat(830C,1day in air)-pellet-SIN(840-860C,2days in air)-Q to RT in air-ANN(550C,3H in P(O2)=10E-5 atm)" A study on the transport properties in the Bi2-xPbxSr1.65La0.35CuOy system 1997 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.;Cond.Matter9(1997)5137-5144 7720 JP00905137 "(Bi,Pb)2(Sr,La)2CuOz" Bi1.8Pb0.2Sr1.65La0.35Cu1Oz Bi 1.8 Pb 0.2 Sr 1.65 La 0.35 Cu 1 O z 1 1997 Bi2201 5.358 24.529 K 30.9 42.7 36.8 1 "mixture-preheat(820C,24H in air)-heat(830C,1day in air)-pellet-SIN(840-860C,2days in air)-Q to RT in air-ANN(550C,3H in P(O2)=10E-5 atm)" A study on the transport properties in the Bi2-xPbxSr1.65La0.35CuOy system 1997 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.;Cond.Matter9(1997)5137-5144 7721 JP00905137 "(Bi,Pb)2(Sr,La)2CuOz" Bi1.7Pb0.3Sr1.65La0.35Cu1Oz Bi 1.7 Pb 0.3 Sr 1.65 La 0.35 Cu 1 O z 1 1997 Bi2201 5.367 5.344 24.52 K 31.8 43.7 37.75 1 "mixture-preheat(820C,24H in air)-heat(830C,1day in air)-pellet-SIN(840-860C,2days in air)-Q to RT in air-ANN(550C,3H in P(O2)=10E-5 atm)" A study on the transport properties in the Bi2-xPbxSr1.65La0.35CuOy system 1997 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.;Cond.Matter9(1997)5137-5144 7722 JP00905137 "(Bi,Pb)2(Sr,La)2CuOz" Bi1.6Pb0.4Sr1.65La0.35Cu1Oz Bi 1.6 Pb 0.4 Sr 1.65 La 0.35 Cu 1 O z 1 1997 Bi2201 5.361 5.31 24.501 K 35.8 44.8 40.3 1 "mixture-preheat(820C,24H in air)-heat(830C,1day in air)-pellet-SIN(840-860C,2days in air)-Q to RT in air-ANN(550C,3H in P(O2)=10E-5 atm)" A study on the transport properties in the Bi2-xPbxSr1.65La0.35CuOy system 1997 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.;Cond.Matter9(1997)5137-5144 7723 JP00905137 "(Bi,Pb)2(Sr,La)2CuOz" Bi1.4Pb0.6Sr1.65La0.35Cu1Oz Bi 1.4 Pb 0.6 Sr 1.65 La 0.35 Cu 1 O z 1997 Bi2201 5.381 5.267 24.471 K 37 45 41 1 "mixture-preheat(820C,24H in air)-heat(830C,1day in air)-pellet-SIN(840-860C,2days in air)-Q to RT in air-ANN(550C,3H in P(O2)=10E-5 atm)" A study on the transport properties in the Bi2-xPbxSr1.65La0.35CuOy system 1997 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.;Cond.Matter9(1997)5137-5144 7724 JP00905137 "Bi2(Sr,La)2CuOz" Bi2Sr1.65La0.35Cu1Oz Bi 2 Sr 1.65 La 0.35 Cu 1 O z 1 1997 Bi2201 5.379 5.377 24.468 K 25.3 33.4 29.35 1 "mixture-preheat (820C,24H in air)-heat (830C, in air)-pellet-SIN (840-860C, 2days in air)-Q to RT in air" A study on the transport properties in the Bi2-xPbxSr1.65La0.35CuOy system 1997 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.;Cond.Matter9(1997)5137-5144 7725 JP00905137 "(Bi,Pb)2(Sr,La)2CuOz" Bi1.9Pb0.1Sr1.65La0.35Cu1Oz Bi 1.9 Pb 0.1 Sr 1.65 La 0.35 Cu 1 O z 1 1997 Bi2201 5.381 5.377 24.459 K 25.8 34.3 30.05 1 "mixture-preheat (820C,24H in air)-heat (830C, in air)-pellet-SIN (840-860C, 2days in air)-Q to RT in air" A study on the transport properties in the Bi2-xPbxSr1.65La0.35CuOy system 1997 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.;Cond.Matter9(1997)5137-5144 7726 JP00905137 "(Bi,Pb)2(Sr,La)2CuOz" Bi1.8Pb0.2Sr1.65La0.35Cu1Oz Bi 1.8 Pb 0.2 Sr 1.65 La 0.35 Cu 1 O z 1 1997 Bi2201 5.385 5.362 24.459 K 26.3 35.5 30.9 1 "mixture-preheat (820C,24H in air)-heat (830C, in air)-pellet-SIN (840-860C, 2days in air)-Q to RT in air" A study on the transport properties in the Bi2-xPbxSr1.65La0.35CuOy system 1997 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.;Cond.Matter9(1997)5137-5144 7727 JP00905137 "(Bi,Pb)2(Sr,La)2CuOz" Bi1.7Pb0.3Sr1.65La0.35Cu1Oz Bi 1.7 Pb 0.3 Sr 1.65 La 0.35 Cu 1 O z 1 1997 Bi2201 5.387 5.335 24.448 K 26.7 35.4 31.05 1 "mixture-preheat (820C,24H in air)-heat (830C, in air)-pellet-SIN (840-860C, 2days in air)-Q to RT in air" A study on the transport properties in the Bi2-xPbxSr1.65La0.35CuOy system 1997 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.;Cond.Matter9(1997)5137-5144 7728 JP00905137 "(Bi,Pb)2(Sr,La)2CuOz" Bi1.6Pb0.4Sr1.65La0.35Cu1Oz Bi 1.6 Pb 0.4 Sr 1.65 La 0.35 Cu 1 O z 1 1997 Bi2201 5.388 5.303 24.444 K 22.2 31.5 26.85 1 "mixture-preheat (820C,24H in air)-heat (830C, in air)-pellet-SIN (840-860C, 2days in air)-Q to RT in air" A study on the transport properties in the Bi2-xPbxSr1.65La0.35CuOy system 1997 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.;Cond.Matter9(1997)5137-5144 7729 JP00905137 "(Bi,Pb)2(Sr,La)2CuOz" Bi1.4Pb0.6Sr1.65La0.35Cu1Oz Bi 1.4 Pb 0.6 Sr 1.65 La 0.35 Cu 1 O z 1997 Bi2201 5.4 5.278 24.421 K 20.1 30.3 25.2 1 "mixture-preheat (820C,24H in air)-heat (830C, in air)-pellet-SIN (840-860C, 2days in air)-Q to RT in air" A study on the transport properties in the Bi2-xPbxSr1.65La0.35CuOy system 1997 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.;Cond.Matter9(1997)5137-5144 7730 PHC2880057 La3.5Ca2Ba3.5Cu7O16.415 La 3.5 Ca 2 Ba 3.5 Cu 7 O z 16.415 1 1997 2 La3137 3.909 11.718 K 22.4 "R2O3,BaCO3,CuO,CaCO3" 1 "mixture-heat (950C,24H in air)-pellet-SIN(940-960C,12H in N2 and O2)-ANN(500C,12H in O2 flow)-cool to RT(1C/mm)" "Superconductivity of the La3.5-x-yRyCa2xBa3.5-xCu7Oz system (R=Gd, Nd and Dy)" 1997 8 "Department of Physics, Saurashtra University, Rajkpt 3600 005, India" "Physica.C,288(1997)57-63" 7731 PHC2880057 La3.3Gd0.1Ca0.2Ba3.4Cu7O16.449 La 3.3 Gd 0.1 Ca 0.2 Ba 3.4 Cu 7 O z 16.449 1 1997 2 La3137 3.905 11.713 K 18.5 "R2O3,BaCO3,CuO,CaCO3" 1 "mixture-heat (950C,24H in air)-pellet-SIN(940-960C,12H in N2 and O2)-ANN(500C,12H in O2 flow)-cool to RT(1C/mm)" "Superconductivity of the La3.5-x-yRyCa2xBa3.5-xCu7Oz system (R=Gd, Nd and Dy)" 1997 8 "Department of Physics, Saurashtra University, Rajkpt 3600 005, India" "Physica.C,288(1997)57-63" 7732 PHC2880057 La3.1Gd0.2Ca0.4Ba3.3Cu7O16.473 La 3.1 Gd 0.2 Ca 0.4 Ba 3.3 Cu 7 O z 16.473 1 1997 2 La3137 3.892 11.667 K 31 48 55 33 48 7.9 "R2O3,BaCO3,CuO,CaCO3" 1 "mixture-heat (950C,24H in air)-pellet-SIN(940-960C,12H in N2 and O2)-ANN(500C,12H in O2 flow)-cool to RT(1C/mm)" "Superconductivity of the La3.5-x-yRyCa2xBa3.5-xCu7Oz system (R=Gd, Nd and Dy)" 1997 8 "Department of Physics, Saurashtra University, Rajkpt 3600 005, India" "Physica.C,288(1997)57-63" 7733 PHC2880057 La2.9Gd0.3Ca0.6Ba3.2Cu0.3O16.503 La 2.9 Gd 0.3 Ca 0.6 Ba 3.2 Cu 0.3 O z 16.503 1 1997 2 La3137 3.888 11.659 K 45 58 70 46 58 5.5 "R2O3,BaCO3,CuO,CaCO3" 1 "mixture-heat (950C,24H in air)-pellet-SIN(940-960C,12H in N2 and O2)-ANN(500C,12H in O2 flow)-cool to RT(1C/mm)" "Superconductivity of the La3.5-x-yRyCa2xBa3.5-xCu7Oz system (R=Gd, Nd and Dy)" 1997 8 "Department of Physics, Saurashtra University, Rajkpt 3600 005, India" "Physica.C,288(1997)57-63" 7734 PHC2880057 La2.7Gd0.4Ca0.8Ba3.1Cu7O16.537 La 2.7 Gd 0.4 Ca 0.8 Ba 3.1 Cu 7 O z 16.537 1 1997 2 La3137 3.871 11.644 K 69 74 78 71 74 2.5 "R2O3,BaCO3,CuO,CaCO3" 1 "mixture-heat (950C,24H in air)-pellet-SIN(940-960C,12H in N2 and O2)-ANN(500C,12H in O2 flow)-cool to RT(1C/mm)" "Superconductivity of the La3.5-x-yRyCa2xBa3.5-xCu7Oz system (R=Gd, Nd and Dy)" 1997 8 "Department of Physics, Saurashtra University, Rajkpt 3600 005, India" "Physica.C,288(1997)57-63" 7735 PHC2880057 La2.5Gd0.5Ca1Ba3Cu7O16.359 La 2.5 Gd 0.5 Ca 1 Ba 3 Cu 7 O z 16.359 1 1997 2 La3137 3.869 11.63 K 78 80 82 80 4.3 "R2O3,BaCO3,CuO,CaCO3" 1 "mixture-heat (950C,24H in air)-pellet-SIN(940-960C,12H in N2 and O2)-ANN(500C,12H in O2 flow)-cool to RT(1C/mm)" "Superconductivity of the La3.5-x-yRyCa2xBa3.5-xCu7Oz system (R=Gd, Nd and Dy)" 1997 8 "Department of Physics, Saurashtra University, Rajkpt 3600 005, India" "Physica.C,288(1997)57-63" 7736 PHC2880057 La2.3Gd0.6Ca1.2Ba2.9Cu7O16.543 La 2.3 Gd 0.6 Ca 1.2 Ba 2.9 Cu 7 O z 16.543 1 1997 2 La3137 3.866 11.609 K 79 80 82 80 80 4.2 "R2O3,BaCO3,CuO,CaCO3" 1 "mixture-heat (950C,24H in air)-pellet-SIN(940-960C,12H in N2 and O2)-ANN(500C,12H in O2 flow)-cool to RT(1C/mm)" "Superconductivity of the La3.5-x-yRyCa2xBa3.5-xCu7Oz system (R=Gd, Nd and Dy)" 1997 8 "Department of Physics, Saurashtra University, Rajkpt 3600 005, India" "Physica.C,288(1997)57-63" 7737 PHC2880057 La2.1Gd0.7Ca1.4Ba2.8Cu0.7O16.471 La 2.1 Gd 0.7 Ca 1.4 Ba 2.8 Cu 0.7 O z 16.471 1 1997 2 La3137 3.863 11.604 K 77 79 81 79 6 "R2O3,BaCO3,CuO,CaCO3" 1 "mixture-heat (950C,24H in air)-pellet-SIN(940-960C,12H in N2 and O2)-ANN(500C,12H in O2 flow)-cool to RT(1C/mm)" "Superconductivity of the La3.5-x-yRyCa2xBa3.5-xCu7Oz system (R=Gd, Nd and Dy)" 1997 8 "Department of Physics, Saurashtra University, Rajkpt 3600 005, India" "Physica.C,288(1997)57-63" 7738 PHC2880057 La3.3Nd0.1Ca0.2Ba3.4Cu7Oz La 3.3 Nd 0.1 Ca 0.2 Ba 3.4 Cu 7 O z 1 1997 La3137 K 18.4 "R2O3,BaCO3,CuO,CaCO3" 1 "mixture-heat (950C,24H in air)-pellet-SIN(940-960C,12H in N2 and O2)-ANN(500C,12H in O2 flow)-cool to RT(1C/mm)" "Superconductivity of the La3.5-x-yRyCa2xBa3.5-xCu7Oz system (R=Gd, Nd and Dy)" 1997 8 "Department of Physics, Saurashtra University, Rajkpt 3600 005, India" "Physica.C,288(1997)57-63" 7739 PHC2880057 La2.9Nd0.3Ca0.6Ba3.2Cu7Oz La 2.9 Nd 0.3 Ca 0.6 Ba 3.2 Cu 7 O z 1 1997 La3137 K 47 58 68 58 10.6 "R2O3,BaCO3,CuO,CaCO3" 1 "mixture-heat (950C,24H in air)-pellet-SIN(940-960C,12H in N2 and O2)-ANN(500C,12H in O2 flow)-cool to RT(1C/mm)" "Superconductivity of the La3.5-x-yRyCa2xBa3.5-xCu7Oz system (R=Gd, Nd and Dy)" 1997 8 "Department of Physics, Saurashtra University, Rajkpt 3600 005, India" "Physica.C,288(1997)57-63" 7740 PHC2880057 La2.7Nd0.4Ca0.8Ba3.1Cu7Oz La 2.7 Nd 0.4 Ca 0.8 Ba 3.1 Cu 7 O z 1 1997 La3137 K 73 76 79 76 7.2 "R2O3,BaCO3,CuO,CaCO3" 1 "mixture-heat (950C,24H in air)-pellet-SIN(940-960C,12H in N2 and O2)-ANN(500C,12H in O2 flow)-cool to RT(1C/mm)" "Superconductivity of the La3.5-x-yRyCa2xBa3.5-xCu7Oz system (R=Gd, Nd and Dy)" 1997 8 "Department of Physics, Saurashtra University, Rajkpt 3600 005, India" "Physica.C,288(1997)57-63" 7741 PHC2880057 La2.5Nd0.5Ca1Ba3Cu7Oz La 2.5 Nd 0.5 Ca 1 Ba 3 Cu 7 O z 1 1997 La3137 K 78 80 81 80 5.6 "R2O3,BaCO3,CuO,CaCO3" 1 "mixture-heat (950C,24H in air)-pellet-SIN(940-960C,12H in N2 and O2)-ANN(500C,12H in O2 flow)-cool to RT(1C/mm)" "Superconductivity of the La3.5-x-yRyCa2xBa3.5-xCu7Oz system (R=Gd, Nd and Dy)" 1997 8 "Department of Physics, Saurashtra University, Rajkpt 3600 005, India" "Physica.C,288(1997)57-63" 7742 PHC2880057 La2.1Nd0.7Ca1.4Ba2.8Cu7Oz La 2.1 Nd 0.7 Ca 1.4 Ba 2.8 Cu 7 O z 1 1997 La3137 K 77 79 82 79 5.8 "R2O3,BaCO3,CuO,CaCO3" 1 "mixture-heat (950C,24H in air)-pellet-SIN(940-960C,12H in N2 and O2)-ANN(500C,12H in O2 flow)-cool to RT(1C/mm)" "Superconductivity of the La3.5-x-yRyCa2xBa3.5-xCu7Oz system (R=Gd, Nd and Dy)" 1997 8 "Department of Physics, Saurashtra University, Rajkpt 3600 005, India" "Physica.C,288(1997)57-63" 7743 PHC2880057 La2.5Dy0.5Ca1Ba3Cu7Oz La 2.5 Dy 0.5 Ca 1 Ba 3 Cu 7 O z 1 1997 La3137 K 78 80 82 80 5.2 "R2O3,BaCO3,CuO,CaCO3" 1 "mixture-heat (950C,24H in air)-pellet-SIN(940-960C,12H in N2 and O2)-ANN(500C,12H in O2 flow)-cool to RT(1C/mm)" "Superconductivity of the La3.5-x-yRyCa2xBa3.5-xCu7Oz system (R=Gd, Nd and Dy)" 1997 8 "Department of Physics, Saurashtra University, Rajkpt 3600 005, India" "Physica.C,288(1997)57-63" 7744 SUP0100231 "inprity phase=Li2CuO2, Y2Ba2CuO5" YBa2Cu3LixO7 Y1Ba2Cu3Li0.02O7-z Y 1 Ba 2 Cu 3 Li 0.02 O 7-z 1997 3 Y123 K 91.18 91.18 kA/m "Y2O3,CuO,BaCO3,LiOH" "mixture-heat(890C,20H in flowing O2)-grind-pellet-SIN(936C,16H in flowing O2)" The Effect of liOH Addition to the Superconducting Properties of YBa2Cu3O7-x 1997 "National Institute of Research and Development for Materials Physics, Bucharest-Magurele, P.O. Box MG7, Romania" "J.Superconductivity,10(1997)231" 7745 SUP0100231 "impurity phase=LiCuO2,Y2BaCuO5" YBa2Cu3LixO7 Y1Ba2Cu3Li0.08O7-z Y 1 Ba 2 Cu 3 Li 0.08 O 7-z 1997 3 Y123 K 89.2 89.2 kA/m "Y2O3,CuO,BaCO3,LiOH" "mixture-heat(890C,20H in flowing O2)-grind-pellet-SIN(936C,16H in flowing O2)" The Effect of liOH Addition to the Superconducting Properties of YBa2Cu3O7-x 1997 "National Institute of Research and Development for Materials Physics, Bucharest-Magurele, P.O. Box MG7, Romania" "J.Superconductivity,10(1997)231" 7746 SUP0100231 "impurity phase=Li2CuO2,Y2BaCuO5" YBa2Cu3LixO7 Y1Ba2Cu3Li0.1O7-z Y 1 Ba 2 Cu 3 Li 0.1 O 7-z 1997 3 Y123 K 88.91 88.91 kA/m "Y2O3,CuO,BaCO3,LiOH" "mixture-heat(890C,20H in flowing O2)-grind-pellet-SIN(936C,16H in flowing O2)" The Effect of liOH Addition to the Superconducting Properties of YBa2Cu3O7-x 1997 "National Institute of Research and Development for Materials Physics, Bucharest-Magurele, P.O. Box MG7, Romania" "J.Superconductivity,10(1997)231" 7747 SUP0100231 "imprity phase=Li2CuO2,Y2Ba2CuO5" YBa2Cu3LixO7 Y1Ba2Cu3Li0.3O7-z Y 1 Ba 2 Cu 3 Li 0.3 O 7-z 1997 3 Y123 K 86 86 "Y2O3,CuO,BaCO3,LiOH" "mixture-heat(890C,20H in flowing O2)-grind-pellet-SIN(936C,16H in flowing O2)" The Effect of liOH Addition to the Superconducting Properties of YBa2Cu3O7-x 1997 "National Institute of Research and Development for Materials Physics, Bucharest-Magurele, P.O. Box MG7, Romania" "J.Superconductivity,10(1997)231" 7748 SUP0100231 "impurity phase=Li2CuO2,YBa2CuO5" YBa2Cu3LixO7 Y1Ba2Cu3Li0.5O7-z Y 1 Ba 2 Cu 3 Li 0.5 O 7-z 1997 3 Y123 K 83.79 83.79 "Y2O3,CuO,BaCO3,LiOH" "mixture-heat(890C,20H in flowing O2)-grind-pellet-SIN(936C,16H in flowing O2)" The Effect of liOH Addition to the Superconducting Properties of YBa2Cu3O7-x 1997 "National Institute of Research and Development for Materials Physics, Bucharest-Magurele, P.O. Box MG7, Romania" "J.Superconductivity,10(1997)231" 7749 SUP0100159 "(La,Sr)2(Cu,Mg)O4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1997 2 T 3.771 13.217 K 37.8 37.8 19.8 "La2O3,SrCO3,CuO,MgO" 1 "mixture-heat(1000C,12H in air)-grind-pellet-SIN(1150C,24H in O2 flow)-ANN (600C,24H in O2 flow)-FC to RT" Structure Studies of La1.85Sr0.15CuO4 Doped with Ng at High Doping Level 1997 "National Laboratory of Solid State Microstructures, and Center for Advanced Studies in Science and Technology of Microstructures,nanjing University, Nanjing 210093, China" "J.Superconductivity,(1997)159" 7750 SUP0100159 "(La,Sr)2(Cu,Mg)O4" La1.85Sr0.15Cu0.95Mg0.05O4 La 1.85 Sr 0.15 Cu 0.95 Mg 0.05 O 4 1 1997 2 T 3.777 13.198 K 24.1 "La2O3,SrCO3,CuO,MgO" 1 "mixture-heat(1000C,12H in air)-grind-pellet-SIN(1150C,24H in O2 flow)-ANN (600C,24H in O2 flow)-FC to RT" Structure Studies of La1.85Sr0.15CuO4 Doped with Ng at High Doping Level 1997 "National Laboratory of Solid State Microstructures, and Center for Advanced Studies in Science and Technology of Microstructures,nanjing University, Nanjing 210093, China" "J.Superconductivity,(1997)159" 7751 SUP0100159 "(La,Sr)2(Cu,Mg)O4" La1.85Sr0.15Cu0.9Mg0.1O4 La 1.85 Sr 0.15 Cu 0.9 Mg 0.1 O 4 1997 2 T 3.779 13.16 K 29.6 29.6 30.4 "La2O3,SrCO3,CuO,MgO" 1 "mixture-heat(1000C,12H in air)-grind-pellet-SIN(1150C,24H in O2 flow)-ANN (600C,24H in O2 flow)-FC to RT" Structure Studies of La1.85Sr0.15CuO4 Doped with Ng at High Doping Level 1997 "National Laboratory of Solid State Microstructures, and Center for Advanced Studies in Science and Technology of Microstructures,nanjing University, Nanjing 210093, China" "J.Superconductivity,(1997)159" 7752 SUP0100159 "(La,Sr)2(Cu,Mg)O4" La1.85Sr0.15Cu0.8Mg0.2O4 La 1.85 Sr 0.15 Cu 0.8 Mg 0.2 O 4 1 1997 2 T 3.786 13.192 K 15.6 15.6 250 "La2O3,SrCO3,CuO,MgO" 1 "mixture-heat(1000C,12H in air)-grind-pellet-SIN(1150C,24H in O2 flow)-ANN (600C,24H in O2 flow)-FC to RT" Structure Studies of La1.85Sr0.15CuO4 Doped with Ng at High Doping Level 1997 "National Laboratory of Solid State Microstructures, and Center for Advanced Studies in Science and Technology of Microstructures,nanjing University, Nanjing 210093, China" "J.Superconductivity,(1997)159" 7753 SUP0100159 "(La,Sr)2(Cu,Mg)O4" La1.85Sr0.15Cu0.7Mg0.3O4 La 1.85 Sr 0.15 Cu 0.7 Mg 0.3 O 4 1 1997 2 T 3.812 13.082 K "La2O3,SrCO3,CuO,MgO" 1 "mixture-heat(1000C,12H in air)-grind-pellet-SIN(1150C,24H in O2 flow)-ANN (600C,24H in O2 flow)-FC to RT" Structure Studies of La1.85Sr0.15CuO4 Doped with Ng at High Doping Level 1997 "National Laboratory of Solid State Microstructures, and Center for Advanced Studies in Science and Technology of Microstructures,nanjing University, Nanjing 210093, China" "J.Superconductivity,(1997)159" 7754 MPL0080251 (ZnPc)Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2Zn0.01C0.32H0.16N0.08Oz Bi 2 Sr 2 Ca 1 Cu 2 Zn 0.01 C 0.32 H 0.16 N 0.08 O z 1994 Bi2212 K 68.3 68.3 "Pc=C32H16N8,ZnPc molecule were intercalated by varying exposure time, single crystal+ZnPc in sealed Pyrex tube-heat(490C)" CONTRIBUTION OF INTERBLOCK COUPLING TO Tc IN HIGH-Tc BI OXDES 1994 "Institute for Molecular Science, Myodaiji, Okazaki 444, Japan" Mod.Phys.Lett.B 8(1994)251-259 7755 MPL0080251 (ZnPc)Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2Zn0.02C0.64H0.32N0.16Oz Bi 2 Sr 2 Ca 1 Cu 2 Zn 0.02 C 0.64 H 0.32 N 0.16 O z 1994 K 65.1 65.1 "Pc=C32H16N8,ZnPc molecule were intercalated by varying exposure time, single crystal+ZnPc in sealed Pyrex tube-heat(490C)" CONTRIBUTION OF INTERBLOCK COUPLING TO Tc IN HIGH-Tc BI OXDES 1994 "Institute for Molecular Science, Myodaiji, Okazaki 444, Japan" Mod.Phys.Lett.B 8(1994)251-259 7756 MPL0080251 (ZnPc)Bi2Sr2Ca2Cu3Oz Bi2Sr2Ca2Cu3Zn0.009C0.288H0.144N0.72Oz Bi 2 Sr 2 Ca 2 Cu 3 Zn 0.009 C 0.288 H 0.144 N 0.72 O z 1994 Bi2223 K 92.9 92.9 "Pc=C32H16N8,ZnPc molecule were intercalated by varying exposure time, single crystal+ZnPc in sealed Pyrex tube-heat(490C)" CONTRIBUTION OF INTERBLOCK COUPLING TO Tc IN HIGH-Tc BI OXDES 1994 "Institute for Molecular Science, Myodaiji, Okazaki 444, Japan" Mod.Phys.Lett.B 8(1994)251-259 7757 MPL0080251 (ZnPc)Bi2Sr2Ca2Cu3Oz Bi2Sr2Ca2Cu3Zn0.013C0.416H0.208N0.104Oz Bi 2 Sr 2 Ca 2 Cu 3 Zn 0.013 C 0.416 H 0.208 N 0.104 O z 1994 K 91 91 "Pc=C32H16N8,ZnPc molecule were intercalated by varying exposure time, single crystal+ZnPc in sealed Pyrex tube-heat(490C)" CONTRIBUTION OF INTERBLOCK COUPLING TO Tc IN HIGH-Tc BI OXDES 1994 "Institute for Molecular Science, Myodaiji, Okazaki 444, Japan" Mod.Phys.Lett.B 8(1994)251-259 7758 MPL0080251 (ZnPc)Bi2Sr2Ca2Cu3Oz Bi2Sr2Ca2Cu3Zn0.017C0.544H0.272N0.136Oz Bi 2 Sr 2 Ca 2 Cu 3 Zn 0.017 C 0.544 H 0.272 N 0.136 O z 1994 K 87.1 87.1 "Pc=C32H16N8,ZnPc molecule were intercalated by varying exposure time, single crystal+ZnPc in sealed Pyrex tube-heat(490C)" CONTRIBUTION OF INTERBLOCK COUPLING TO Tc IN HIGH-Tc BI OXDES 1994 "Institute for Molecular Science, Myodaiji, Okazaki 444, Japan" Mod.Phys.Lett.B 8(1994)251-259 7759 MPL0080251 (ZnPc)Bi2Sr2Ca2Cu3Oz Bi2Sr2Ca2Cu3Zn0.02C0.64H0.32N0.16Oz Bi 2 Sr 2 Ca 2 Cu 3 Zn 0.02 C 0.64 H 0.32 N 0.16 O z 1994 K 79.8 79.8 "Pc=C32H16N8,ZnPc molecule were intercalated by varying exposure time, single crystal+ZnPc in sealed Pyrex tube-heat(490C)" CONTRIBUTION OF INTERBLOCK COUPLING TO Tc IN HIGH-Tc BI OXDES 1994 "Institute for Molecular Science, Myodaiji, Okazaki 444, Japan" Mod.Phys.Lett.B 8(1994)251-259 7760 JMR0122907 NdBa2Cu3Oz Nd1Ba2Cu3O6.95 Nd 1 Ba 2 Cu 3 O Z 6.95 1997 Y123 3.865 3.9167 11.754 K 89 89 The thermopower of Nd1+xBa2-xCu3Oy in a comparative study of effects of Ba-site doping versus chain-Cu-site doping 1997 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa, 32000, Israel" J.Mater.Res.12(1997)2907 7761 JMR0122907 "Nd(Ba,Nd)2Cu3Oz" Nd1.1Ba1.9Cu3O6.96 Nd 1.1 Ba 1.9 Cu 3 O Z 6.96 1997 Y123 3.8614 3.9144 11.7378 K 87.6 87.6 The thermopower of Nd1+xBa2-xCu3Oy in a comparative study of effects of Ba-site doping versus chain-Cu-site doping 1997 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa, 32000, Israel" J.Mater.Res.12(1997)2907 7762 JMR0122907 "Nd(Ba,Nd)2Cu3Oz" Nd1.15Ba1.85Cu3O6.96 Nd 1.15 Ba 1.85 Cu 3 O Z 6.96 1997 Y123 3.8703 3.9077 11.7192 K 76.8 76.8 The thermopower of Nd1+xBa2-xCu3Oy in a comparative study of effects of Ba-site doping versus chain-Cu-site doping 1997 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa, 32000, Israel" J.Mater.Res.12(1997)2907 7763 JMR0122907 "Nd(Ba,Nd)2Cu3Oz" Nd1.25Ba1.75Cu3O6.99 Nd 1.25 Ba 1.75 Cu 3 O Z 6.99 1997 Y123 3.889 11.6871 K 52.7 52.7 The thermopower of Nd1+xBa2-xCu3Oy in a comparative study of effects of Ba-site doping versus chain-Cu-site doping 1997 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa, 32000, Israel" J.Mater.Res.12(1997)2907 7764 JMR0122907 "Nd(Ba,Nd)2Cu3Oz" Nd1.35Ba1.65Cu3O7.02 Nd 1.35 Ba 1.65 Cu 3 O Z 7.02 1997 Y123 3.8881 11.6643 K 35.9 35.9 The thermopower of Nd1+xBa2-xCu3Oy in a comparative study of effects of Ba-site doping versus chain-Cu-site doping 1997 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa, 32000, Israel" J.Mater.Res.12(1997)2907 7765 JMR0122907 "Nd(Ba,Nd)2Cu3Oz" Nd1.45Ba1.55Cu3O7.08 Nd 1.45 Ba 1.55 Cu 3 O Z 7.08 1997 Y123 3.885 11.6244 K 26.5 26.5 The thermopower of Nd1+xBa2-xCu3Oy in a comparative study of effects of Ba-site doping versus chain-Cu-site doping 1997 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa, 32000, Israel" J.Mater.Res.12(1997)2907 7766 JMR0122907 "Nd(Ba,Nd)2Cu3Oz" Nd1.5Ba1.5Cu3O7.12 Nd 1.5 Ba 1.5 Cu 3 O Z 7.12 1997 Y123 3.8855 11.6097 K 15.4 15.4 The thermopower of Nd1+xBa2-xCu3Oy in a comparative study of effects of Ba-site doping versus chain-Cu-site doping 1997 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa, 32000, Israel" J.Mater.Res.12(1997)2907 7767 MPL0110311 "Pb2Sr2(Y,Ca)Cu3O8Fx" Pb2Sr2Y0.5Ca0.5Cu3O8.1882 Pb 2 Sr 2 Y 0.5 Ca 0.5 Cu 3 O 8-X 8.1882 1997 3 Pb3212 5.395 5.318 15.731 K 22 62 62 "Y2O3,CuO,CaCO3,SrCO3,PbO,PbF2" "Pb2Sr2Y0.5Ca0.5Cu3Oz was made by sintering(860C,14H)-mixed with PbO+PbF2-pellet-SIN(920C,2H in N2)-SIN(860C)-Q to RT in N2" STRUCTURE AND PROPERTIES OF SUBSTITUTION OF FLUORINE FOR APICAL OXYGEN IN Pb2Sr2Y0.5Ca0.5Cu3O8+delta SUPERCONDUCTOR 1997 "Deparment of Chemistry and Chemical Engineering, Hunan University, Changsha 410082, P. R. China" "Mod.Phys.Lett.B,11(1997)311-321" 7768 MPL0110311 "Pb2Sr2(Y,Ca)Cu3O8Fx" Pb2Sr2Y0.5Ca0.5Cu3F0.253O7.9858 Pb 2 Sr 2 Y 0.5 Ca 0.5 Cu 3 F 0.253 O 8-X 7.9858 1997 3 Pb3212 5.391 5.119 15.727 K 23 68 68 "Y2O3,CuO,CaCO3,SrCO3,PbO,PbF2" "Pb2Sr2Y0.5Ca0.5Cu3Oz was made by sintering(860C,14H)-mixed with PbO+PbF2-pellet-SIN(920C,2H in N2)-SIN(860C)-Q to RT in N2" STRUCTURE AND PROPERTIES OF SUBSTITUTION OF FLUORINE FOR APICAL OXYGEN IN Pb2Sr2Y0.5Ca0.5Cu3O8+delta SUPERCONDUCTOR 1997 "Deparment of Chemistry and Chemical Engineering, Hunan University, Changsha 410082, P. R. China" "Mod.Phys.Lett.B,11(1997)311-321" 7769 MPL0110311 "Pb2Sr2(Y,Ca)Cu3O8Fx" Pb2Sr2Y0.5Ca0.5Cu3F0.5612O7.649 Pb 2 Sr 2 Y 0.5 Ca 0.5 Cu 3 F 0.5612 O 8-X 7.649 1997 3 Pb3212 5.385 5.105 15.718 K 38 72 72 "Y2O3,CuO,CaCO3,SrCO3,PbO,PbF2" "Pb2Sr2Y0.5Ca0.5Cu3Oz was made by sintering(860C,14H)-mixed with PbO+PbF2-pellet-SIN(920C,2H in N2)-SIN(860C)-Q to RT in N2" STRUCTURE AND PROPERTIES OF SUBSTITUTION OF FLUORINE FOR APICAL OXYGEN IN Pb2Sr2Y0.5Ca0.5Cu3O8+delta SUPERCONDUCTOR 1997 "Deparment of Chemistry and Chemical Engineering, Hunan University, Changsha 410082, P. R. China" "Mod.Phys.Lett.B,11(1997)311-321" 7770 MPL0110311 "Pb2Sr2(Y,Ca)Cu3O8Fx" Pb2Sr2Y0.5Ca0.5Cu3F0.8115O7.3458 Pb 2 Sr 2 Y 0.5 Ca 0.5 Cu 3 F 0.8115 O 8-X 7.3458 1997 3 Pb3212 5.38 5.098 15.701 K 52 78 78 "Y2O3,CuO,CaCO3,SrCO3,PbO,PbF2" "Pb2Sr2Y0.5Ca0.5Cu3Oz was made by sintering(860C,14H)-mixed with PbO+PbF2-pellet-SIN(920C,2H in N2)-SIN(860C)-Q to RT in N2" STRUCTURE AND PROPERTIES OF SUBSTITUTION OF FLUORINE FOR APICAL OXYGEN IN Pb2Sr2Y0.5Ca0.5Cu3O8+delta SUPERCONDUCTOR 1997 "Deparment of Chemistry and Chemical Engineering, Hunan University, Changsha 410082, P. R. China" "Mod.Phys.Lett.B,11(1997)311-321" 7771 MPL0110311 "Pb2Sr2(Y,Ca)Cu3O8Fx" Pb2Sr2Y0.5Ca0.5Cu3F1.0031O7.2608 Pb 2 Sr 2 Y 0.5 Ca 0.5 Cu 3 F 1.0031 O 8-X 7.2608 1997 3 Pb3212 5.376 5.096 15.685 K 45 73 73 "Y2O3,CuO,CaCO3,SrCO3,PbO,PbF2" "Pb2Sr2Y0.5Ca0.5Cu3Oz was made by sintering(860C,14H)-mixed with PbO+PbF2-pellet-SIN(920C,2H in N2)-SIN(860C)-Q to RT in N2" STRUCTURE AND PROPERTIES OF SUBSTITUTION OF FLUORINE FOR APICAL OXYGEN IN Pb2Sr2Y0.5Ca0.5Cu3O8+delta SUPERCONDUCTOR 1997 "Deparment of Chemistry and Chemical Engineering, Hunan University, Changsha 410082, P. R. China" "Mod.Phys.Lett.B,11(1997)311-321" 7772 PHC2620021 optimal oxygen condition HgBa2Ca3Cu4Oz Hg1Ba2Ca3Cu4OZ Hg 1 Ba 2 Ca 3 Cu 4 O Z 1 1996 2 Hg1234 3.852 19.01 K 123 123 "HgO,BaO,CaO,CuO" "precursor(Ba-Ca-Cu-O)-HgO-seculed in quartz tube(0223+1223)-heat(800C,4H)-ANN(300C,30H in flowing O2)" Synthesis of HgBa2Ca3Cu4Oy under ambient pressure 1996 "Superconductivity reserch Laboratory,ISTEC, 10-13 Shinonome 1-Chome, Koto-ku, Tokyo 135, Japan" "Physica.C,262(1996)21-26" 7773 SCI2711255 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8-X Bi 2 Sr 2 Ca 1 Cu 2 O 8-X 1996 Bi2212 K 92 92 17 4.3 9 Ar-anneald Doping-Induced Change of Superconducting Gap Anisotropy in Bi2Sr2Ca1Cu2O8+delta 1996 3 "Applied superconductivity Center, University of Wisconsin, Madison, Wl 53706, USA" Science 271(1996)1255 7774 SCI2711255 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8-X Bi 2 Sr 2 Ca 1 Cu 2 O 8-X 1996 Bi2212 K 85 85 22 6 9 O2-anneald Doping-Induced Change of Superconducting Gap Anisotropy in Bi2Sr2Ca1Cu2O8+delta 1996 3 "Applied superconductivity Center, University of Wisconsin, Madison, Wl 53706, USA" Science 271(1996)1255 7775 SST0100502 "(Pb,Cd)LaSrCuO5" Pb0.5Cd0.5La1Sr1Cu1O5-Z Pb 0.5 Cd 0.5 La 1 Sr 1 Cu 1 O 5-Z 1 1997 2 M1201 3.757 8.89 K 35 35 -4 mOhm.cm 4.9 "metal-EDTA complex-dry(500C, in air in muflle furnace-mixture-CAL(750-900C, 0.5-96H in air)-FC to RT" Magnetic and electrical transport properties of (Pb0.5Cd0.5)(La2-xSrx)CuO5-delta 1997 "Supercoductivity Group, BICC Cables Ltd, Technology Centre, Wrexham LL13 9XP, UK" Supercond.Sci.Technol.10(1997)502-506 7776 SST0100502 "(Pb,Cd)LaSrCuO5" Pb0.5Cd0.5La0.9Sr1.1Cu1O5-Z Pb 0.5 Cd 0.5 La 0.9 Sr 1.1 Cu 1 O 5-Z 1 1997 2 M1201 K 12 12 -6 mOhm.cm 2.7 "metal-EDTA complex-dry(500C, in air in muflle furnace-mixture-CAL(750-900C, 0.5-96H in air)-FC to RT" Magnetic and electrical transport properties of (Pb0.5Cd0.5)(La2-xSrx)CuO5-delta 1997 "Supercoductivity Group, BICC Cables Ltd, Technology Centre, Wrexham LL13 9XP, UK" Supercond.Sci.Technol.10(1997)502-506 7777 SST0100502 "(Pb,Cd)LaSrCuO5" Pb0.5Cd0.5La0.8Sr1.2Cu1O5-Z Pb 0.5 Cd 0.5 La 0.8 Sr 1.2 Cu 1 O 5-Z 1 1997 2 M1201 K 4.2 -6.2 mOhm.cm 1.9 "metal-EDTA complex-dry(500C, in air in muflle furnace-mixture-CAL(750-900C, 0.5-96H in air)-FC to RT" Magnetic and electrical transport properties of (Pb0.5Cd0.5)(La2-xSrx)CuO5-delta 1997 "Supercoductivity Group, BICC Cables Ltd, Technology Centre, Wrexham LL13 9XP, UK" Supercond.Sci.Technol.10(1997)502-506 7778 SST0100502 "(Pb,Cd)LaSrCuO5" Pb0.5Cd0.5La1.1Sr0.9Cu1O5-Z Pb 0.5 Cd 0.5 La 1.1 Sr 0.9 Cu 1 O 5-Z 1 1997 2 M1201 K 37 37 "metal-EDTA complex-dry(500C, in air in muflle furnace-mixture-CAL(750-900C, 0.5-96H in air)-FC to RT" Magnetic and electrical transport properties of (Pb0.5Cd0.5)(La2-xSrx)CuO5-delta 1997 "Supercoductivity Group, BICC Cables Ltd, Technology Centre, Wrexham LL13 9XP, UK" Supercond.Sci.Technol.10(1997)502-506 7779 SST0100663 211 and othor phases "(Nd,Eu,Gd)Ba2Cu3O7" Nd0.33Eu0.33Gd0.33Ba2Cu3OZ Nd 0.33 Eu 0.33 Gd 0.33 Ba 2 Cu 3 O Z 2 1997 3.909 3.856 11.724 K 94.1 94.1 "OCMG process, mixture-preheat (950C,15H in 0.1%O2-99.9%Ar gas flow)-pellet-OCMG process, see text" Effect of mixing three rare-earth elements on the superconducting properties of REBa2Cu3Oy 1997 "International Superconductivity Technology Center,Supercoductivity Reserch Laboratory, 1-16-25, Shibaura, Minato-Ku, Tokyo 105, Japan" Supercond.Sci.Technol.10(1997)663-670 7780 SST0100663 "(Nd,Sm,Gd)Ba2Cu3O7" Nd0.33Sm0.33Gd0.33Ba2Cu3OZ Nd 0.33 Sm 0.33 Gd 0.33 Ba 2 Cu 3 O Z 2 1997 3.906 3.851 11.727 K 93.1 93.1 "OCMG process, mixture-preheat (950C,15H in 0.1%O2-99.9%Ar gas flow)-pellet-OCMG process, see text" Effect of mixing three rare-earth elements on the superconducting properties of REBa2Cu3Oy 1997 "International Superconductivity Technology Center,Supercoductivity Reserch Laboratory, 1-16-25, Shibaura, Minato-Ku, Tokyo 105, Japan" Supercond.Sci.Technol.10(1997)663-670 7781 SST0100663 "(Nd,Sm,Eu)Ba2Cu3O7" Nd0.33Sm0.33Eu0.33Ba2Cu3OZ Nd 0.33 Sm 0.33 Eu 0.33 Ba 2 Cu 3 O Z 2 1997 3.905 3.852 11.728 K 95.3 95.3 "OCMG process, mixture-preheat (950C,15H in 0.1%O2-99.9%Ar gas flow)-pellet-OCMG process, see text" Effect of mixing three rare-earth elements on the superconducting properties of REBa2Cu3Oy 1997 "International Superconductivity Technology Center,Supercoductivity Reserch Laboratory, 1-16-25, Shibaura, Minato-Ku, Tokyo 105, Japan" Supercond.Sci.Technol.10(1997)663-670 7782 SST0100663 "(Sm,Eu,Gd)Ba2Cu3O7" Sm0.33Eu0.33Gd0.33Ba2Cu3OZ Sm 0.33 Eu 0.33 Gd 0.33 Ba 2 Cu 3 O Z 2 1997 3.901 3.85 11.711 K 93.1 93.1 "OCMG process, mixture-preheat (950C,15H in 0.1%O2-99.9%Ar gas flow)-pellet-OCMG process, see text" Effect of mixing three rare-earth elements on the superconducting properties of REBa2Cu3Oy 1997 "International Superconductivity Technology Center,Supercoductivity Reserch Laboratory, 1-16-25, Shibaura, Minato-Ku, Tokyo 105, Japan" Supercond.Sci.Technol.10(1997)663-670 7783 MPL0110323 LaCaBaCu3O7 La1Ca1Ba1Cu3O7 La 1 Ca 1 Ba 1 Cu 3 O 7 1997 2 Y123 3.869 11.645 K 69 69 "Pr6O11,La2O3,BaCO3,CaCO3,CuO" 1 "mixture-heart(975C-995C)-SIN(975-995C)-ANN(575C, 24H)" SUPERCONDUCTIVITY AND MAGNETIC ORDERING OF Pr IN CaLa1-xPrxBaCu3O7 SYSTEM 1997 "Depto. de Fisica, Univ. federal de Pernambuco, 50670-901, Recife, RE, Brasil" "Mod.Phys.Lett.B,11(1997)323-331" 7784 MPL0110323 "(La,Ca)CaBaCu3O7" La0.7Pr0.3Ca1Ba1Cu3O7 La 0.7 Pr 0.3 Ca 1 Ba 1 Cu 3 O 7 1997 0.00039 1.55 3.51 -14.4 2 Y123 3.866 11.632 K 40 40 "Pr6O11,La2O3,BaCO3,CaCO3,CuO" 1 "mixture-heart(975C-995C)-SIN(975-995C)-ANN(575C, 24H)" SUPERCONDUCTIVITY AND MAGNETIC ORDERING OF Pr IN CaLa1-xPrxBaCu3O7 SYSTEM 1997 "Depto. de Fisica, Univ. federal de Pernambuco, 50670-901, Recife, RE, Brasil" "Mod.Phys.Lett.B,11(1997)323-331" 7785 MPL0110323 "(La,Ca)CaBaCu3O7" La0.3Pr0.7Ca1Ba1Cu3O7 La 0.3 Pr 0.7 Ca 1 Ba 1 Cu 3 O 7 1997 0.00096 1.19 3.07 -17.8 4 2 Y123 3.872 11.621 K 4.2 "Pr6O11,La2O3,BaCO3,CaCO3,CuO" 1 "mixture-heart(975C-995C)-SIN(975-995C)-ANN(575C, 24H)" SUPERCONDUCTIVITY AND MAGNETIC ORDERING OF Pr IN CaLa1-xPrxBaCu3O7 SYSTEM 1997 "Depto. de Fisica, Univ. federal de Pernambuco, 50670-901, Recife, RE, Brasil" "Mod.Phys.Lett.B,11(1997)323-331" 7786 MPL0110323 "(La,Ca)CaBaCu3O7" Pr1Ca1Ba1Cu3O7 Pr 1 Ca 1 Ba 1 Cu 3 O 7 1997 0.00041 1.46 3.4 -27.4 8 2 Y123 3.875 11.603 K 4.2 "Pr6O11,La2O3,BaCO3,CaCO3,CuO" 1 "mixture-heart(975C-995C)-SIN(975-995C)-ANN(575C, 24H)" SUPERCONDUCTIVITY AND MAGNETIC ORDERING OF Pr IN CaLa1-xPrxBaCu3O7 SYSTEM 1997 "Depto. de Fisica, Univ. federal de Pernambuco, 50670-901, Recife, RE, Brasil" "Mod.Phys.Lett.B,11(1997)323-331" 7787 JMR0122866 "behaviour of Jc(H) depends on the heat treatment, Some showed peak efect" NdBa2cu3O7 Nd1Ba2Cu3O7 Nd 1 Ba 2 Cu 3 O 7 3 1997 Y123 K 96 96 "TSSG method, cuptal was grown in P(O2)=0.01 atm. Then annealed at 340C for 200H, furnace cool to RT" Fabrication of NdBCO single crystal oxide superconductor with enhanced superconductive properties 1997 "Departament of Metallurgy, Graduate School of Engineering, The University of Tokyo,7-3-1, Hongo, Bunkyo-ku, Tokyo 113, Japan" J.Mater.Res.12(1997)2866 7788 JMR0122526 "(Pr,Ce,Sr)2CuO4" Pr1.79Ce0.15Sr0.06Cu1O3.94 Pr 1.79 Ce 0.15 Sr 0.06 Cu 1 O 4+Z 3.94 1997 T' 3.96 12.16 K 21 21 see text Phase indentification and superconductivity transitions in Sr-doped Pr1.85Ce0.15CuO4+delta 1997 "Departament de Quimica Inorganica, Facultad de Quimicas, Universidad Complutense, 28040 Madrid, Spain" J.Mater.Res.12(1997)2526 7789 JMR0122526 "(Pr,Ce,Sr)2CuO4" Pr1.74Ce0.15Sr0.11Cu1O3.96 Pr 1.74 Ce 0.15 Sr 0.11 Cu 1 O 4+Z 3.96 1997 T' K 18 18 see text Phase indentification and superconductivity transitions in Sr-doped Pr1.85Ce0.15CuO4+delta 1997 "Departament de Quimica Inorganica, Facultad de Quimicas, Universidad Complutense, 28040 Madrid, Spain" J.Mater.Res.12(1997)2526 7790 JMR0122526 "(Pr,Ce)2CuO4" Pr1.9Ce0.1Cu1O3.98 Pr 1.9 Ce 0.1 Cu 1 O 4 3.98 1997 T' K 9 9 see text Phase indentification and superconductivity transitions in Sr-doped Pr1.85Ce0.15CuO4+delta 1997 "Departament de Quimica Inorganica, Facultad de Quimicas, Universidad Complutense, 28040 Madrid, Spain" J.Mater.Res.12(1997)2526 7791 JMR0122526 "(Pr,Ce)2CuO4" Pr1.87Ce0.13Cu1O3.99 Pr 1.87 Ce 0.13 Cu 1 O 4 3.99 1997 T' K 16 16 see text Phase indentification and superconductivity transitions in Sr-doped Pr1.85Ce0.15CuO4+delta 1997 "Departament de Quimica Inorganica, Facultad de Quimicas, Universidad Complutense, 28040 Madrid, Spain" J.Mater.Res.12(1997)2526 7792 MPL0110593 EuBa2Cu3O7 Eu1Ba2Cu3O7-Z Eu 1 Ba 2 Cu 3 O 7-Z 1997 Y123 3.8268 K "mixture-CAL(1073K,4H in air)-pellet-SIN(1223K,7Hin O2)-cool to 773K(3K/min)-hold(773K, 1H)-FC" STRUCTURAL AND MAGNETIC CHARACTERISTICS OF (Eu1-xCax)Ba2Cu3O7-delta HIGH-Tc SUPERCONDUCTORS 1997 "%aBabes-Boyai%a University, Faculty of Physics, Kogalniceanu 1, Cluj-Nopoca, 3400, Romania" "Mod.Phys.Lett.B,11(1997)593-597" 7793 MPL0110593 "(Eu,Ga)Ba2Cu3O7" Eu0.09Ga0.01Ba2Cu3O7-Z Eu 0.09 Ga 0.01 Ba 2 Cu 3 O 7-Z 1997 Y123 3.8321 K "mixture-CAL(1073K,4H in air)-pellet-SIN(1223K,7Hin O2)-cool to 773K(3K/min)-hold(773K, 1H)-FC" STRUCTURAL AND MAGNETIC CHARACTERISTICS OF (Eu1-xCax)Ba2Cu3O7-delta HIGH-Tc SUPERCONDUCTORS 1997 "%aBabes-Boyai%a University, Faculty of Physics, Kogalniceanu 1, Cluj-Nopoca, 3400, Romania" "Mod.Phys.Lett.B,11(1997)593-597" 7794 MPL0110593 "(Eu,Ga)Ba2Cu3O7" Eu0.08Ga0.02Ba2Cu3O7-Z Eu 0.08 Ga 0.02 Ba 2 Cu 3 O 7-Z 1997 Y123 3.8362 K "mixture-CAL(1073K,4H in air)-pellet-SIN(1223K,7Hin O2)-cool to 773K(3K/min)-hold(773K, 1H)-FC" STRUCTURAL AND MAGNETIC CHARACTERISTICS OF (Eu1-xCax)Ba2Cu3O7-delta HIGH-Tc SUPERCONDUCTORS 1997 "%aBabes-Boyai%a University, Faculty of Physics, Kogalniceanu 1, Cluj-Nopoca, 3400, Romania" "Mod.Phys.Lett.B,11(1997)593-597" 7795 MPL0110593 "(Eu,Ga)Ba2Cu3O7" Eu0.07Ga0.03Ba2Cu3O7-Z Eu 0.07 Ga 0.03 Ba 2 Cu 3 O 7-Z 1997 Y123 3.8403 K "mixture-CAL(1073K,4H in air)-pellet-SIN(1223K,7Hin O2)-cool to 773K(3K/min)-hold(773K, 1H)-FC" STRUCTURAL AND MAGNETIC CHARACTERISTICS OF (Eu1-xCax)Ba2Cu3O7-delta HIGH-Tc SUPERCONDUCTORS 1997 "%aBabes-Boyai%a University, Faculty of Physics, Kogalniceanu 1, Cluj-Nopoca, 3400, Romania" "Mod.Phys.Lett.B,11(1997)593-597" 7796 MPL0110593 "(Eu,Ga)Ba2Cu3O7" Eu0.04Ga0.06Ba2Cu3O7-Z Eu 0.04 Ga 0.06 Ba 2 Cu 3 O 7-Z 1997 Y123 3.8504 K "mixture-CAL(1073K,4H in air)-pellet-SIN(1223K,7Hin O2)-cool to 773K(3K/min)-hold(773K, 1H)-FC" STRUCTURAL AND MAGNETIC CHARACTERISTICS OF (Eu1-xCax)Ba2Cu3O7-delta HIGH-Tc SUPERCONDUCTORS 1997 "%aBabes-Boyai%a University, Faculty of Physics, Kogalniceanu 1, Cluj-Nopoca, 3400, Romania" "Mod.Phys.Lett.B,11(1997)593-597" 7797 MPL0110593 "(Eu,Ga)Ba2Cu3O7" Eu0.01Ga0.09Ba2Cu3O7-Z Eu 0.01 Ga 0.09 Ba 2 Cu 3 O 7-Z 1997 Y123 3.8605 K "mixture-CAL(1073K,4H in air)-pellet-SIN(1223K,7Hin O2)-cool to 773K(3K/min)-hold(773K, 1H)-FC" STRUCTURAL AND MAGNETIC CHARACTERISTICS OF (Eu1-xCax)Ba2Cu3O7-delta HIGH-Tc SUPERCONDUCTORS 1997 "%aBabes-Boyai%a University, Faculty of Physics, Kogalniceanu 1, Cluj-Nopoca, 3400, Romania" "Mod.Phys.Lett.B,11(1997)593-597" 7798 MPL0080251 (ZnPc)Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2Zn0.03C0.96H0.48N0.24Oz Bi 2 Sr 2 Ca 1 Cu 2 Zn 0.03 C 0.96 H 0.48 N 0.24 O z 1994 Bi2212 K 61.6 61.6 "Pc=C32H16N8,ZnPc molecule were intercalated by varying exposure time, single crystal+ZnPc in sealed Pyrex tube-heat(490C)" CONTRIBUTION OF INTERBLOCK COUPLING TO Tc IN HIGH-Tc BI OXDES 1994 "Institute for Molecular Science, Myodaiji, Okazaki 444, Japan" Mod.Phys.Lett.B 8(1994)251-259 7799 MPL0080251 (ZnPc)Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2Zn0.035C1.12H0.56N0.28Oz Bi 2 Sr 2 Ca 1 Cu 2 Zn 0.035 C 1.12 H 0.56 N 0.28 O z 1994 Bi2212 K 60.6 60.6 "Pc=C32H16N8,ZnPc molecule were intercalated by varying exposure time, single crystal+ZnPc in sealed Pyrex tube-heat(490C)" CONTRIBUTION OF INTERBLOCK COUPLING TO Tc IN HIGH-Tc BI OXDES 1994 "Institute for Molecular Science, Myodaiji, Okazaki 444, Japan" Mod.Phys.Lett.B 8(1994)251-259 7800 MPL0080251 (ZnPc)Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2Zn0.05C1.6H0.8N0.4Oz Bi 2 Sr 2 Ca 1 Cu 2 Zn 0.05 C 1.6 H 0.8 N 0.4 O z 1994 Bi2212 K 55.5 55.5 "Pc=C32H16N8,ZnPc molecule were intercalated by varying exposure time, single crystal+ZnPc in sealed Pyrex tube-heat(490C)" CONTRIBUTION OF INTERBLOCK COUPLING TO Tc IN HIGH-Tc BI OXDES 1994 "Institute for Molecular Science, Myodaiji, Okazaki 444, Japan" Mod.Phys.Lett.B 8(1994)251-259 7801 MPL0080251 (ZnPc)Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2Zn0.067C2.144H1.072N0.536Oz Bi 2 Sr 2 Ca 1 Cu 2 Zn 0.067 C 2.144 H 1.072 N 0.536 O z 1994 Bi2212 K 45.3 45.3 "Pc=C32H16N8,ZnPc molecule were intercalated by varying exposure time, single crystal+ZnPc in sealed Pyrex tube-heat(490C)" CONTRIBUTION OF INTERBLOCK COUPLING TO Tc IN HIGH-Tc BI OXDES 1994 "Institute for Molecular Science, Myodaiji, Okazaki 444, Japan" Mod.Phys.Lett.B 8(1994)251-259 7802 JMR0122526 "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O3.98 Pr 1.85 Ce 0.15 Cu 1 O 4 3.98 1997 T' K 18 18 see text Phase indentification and superconductivity transitions in Sr-doped Pr1.85Ce0.15CuO4+delta 1997 "Departament de Quimica Inorganica, Facultad de Quimicas, Universidad Complutense, 28040 Madrid, Spain" J.Mater.Res.12(1997)2526 7803 JMR0122526 "(Pr,Ce)2CuO4" Pr1.83Ce0.17Cu1O3.99 Pr 1.83 Ce 0.17 Cu 1 O 4 3.99 1997 T' K 13 13 see text Phase indentification and superconductivity transitions in Sr-doped Pr1.85Ce0.15CuO4+delta 1997 "Departament de Quimica Inorganica, Facultad de Quimicas, Universidad Complutense, 28040 Madrid, Spain" J.Mater.Res.12(1997)2526 7804 JJP0360473 "Y(La,Ba)2Cu3Oz" Y1La0.2Ba1.8Cu3O7.06 Y 1 La 0.2 Ba 1.8 Cu 3 O z 7.06 1997 3 Y123 3.889 3.825 11.638 K 48.9 48.9 7 "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7805 JJP0360473 "Y(La,Ba)2Cu3Oz" Y1La0.2Ba1.8Cu3O7.16 Y 1 La 0.2 Ba 1.8 Cu 3 O z 7.16 1997 3 Y123 3.882 3.839 11.632 K 61.7 61.7 11 "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7806 JJP0360473 "Y(La,Ba)2Cu3Oz" Y1La0.2Ba1.8Cu3O7.26 Y 1 La 0.2 Ba 1.8 Cu 3 O z 7.26 1997 3 Y123 3.876 3.846 11.625 K 67.6 67.6 14 "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7807 JJP0360473 "Y(La,Ba)2Cu3Oz" Y1La0.2Ba1.8Cu3O7.36 Y 1 La 0.2 Ba 1.8 Cu 3 O z 7.36 1997 3 Y123 3.863 3.851 11.608 K 89.1 89.1 19 "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7808 JJP0360473 "Y(La,Ba)2Cu3Oz" Y1La0.2Ba1.8Cu3O7.46 Y 1 La 0.2 Ba 1.8 Cu 3 O z 7.46 1997 2 Y123 3.86 11.608 K 89.8 89.8 19 "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7809 JJP0360473 "Y(La,Ba)2Cu3Oz" Y1La0.2Ba1.8Cu3O7.49 Y 1 La 0.2 Ba 1.8 Cu 3 O z 7.49 1997 2 Y123 3.86 11.595 K 90.4 90.4 20 "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7810 JJP0360473 "Y(La,Ba)2Cu3Oz" Y1La0.2Ba1.8Cu3O7.57 Y 1 La 0.2 Ba 1.8 Cu 3 O z 7.57 1997 2 Y123 3.861 11.595 K 89.6 89.6 21 "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7811 JJP0360473 "Y(La,Ba)2Cu3Oz" Y1La0.2Ba1.8Cu3O7.62 Y 1 La 0.2 Ba 1.8 Cu 3 O z 7.62 1997 2 Y123 3.86 11.595 K 87.9 87.9 25 "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7812 JJP0360473 "Y(La,Ba)2Cu3Oz" Y1La0.2Ba1.8Cu3O7.64 Y 1 La 0.2 Ba 1.8 Cu 3 O z 7.64 1997 2 Y123 3.862 11.601 K 88.1 88.1 26 "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7813 JJP0360473 "Y(La,Ba)2Cu3Oz" Y1La0.2Ba1.8Cu3O7.74 Y 1 La 0.2 Ba 1.8 Cu 3 O z 7.74 1997 2 Y123 3.861 11.597 K 89.1 89.1 26 "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7814 JJP0360473 "Y(La,Ba)2Cu3Oz" Y1La0.2Ba1.8Cu3O7.77 Y 1 La 0.2 Ba 1.8 Cu 3 O z 7.77 1997 2 Y123 3.866 11.595 K 89.8 89.8 26 "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7815 JJP0360473 "Y(La,Ba)2Cu3Oz" Y1La0.2Ba1.8Cu3O7.79 Y 1 La 0.2 Ba 1.8 Cu 3 O z 7.79 1997 2 Y123 3.86 11.59 K 90.4 90.4 27 "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7816 JJP0360473 "La(Ba,La)2Cu3Oz" La1.2Ba1.8Cu3O7.2 La 1.2 Ba 1.8 Cu 3 O z 7.2 1997 3 Y123 3.924 3.913 11.745 K 27 27 "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7817 JJP0360473 "La(Ba,La)2Cu3Oz" La1.2Ba1.8Cu3O7.3 La 1.2 Ba 1.8 Cu 3 O z 7.3 1997 3 Y123 3.927 3.918 11.741 K 27 27 "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7818 JJP0360473 "La(Ba,La)2Cu3Oz" La1.2Ba1.8Cu3O7.35 La 1.2 Ba 1.8 Cu 3 O z 7.35 1997 3 Y123 3.93 3.917 11.717 K 4.2 "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7819 JJP0360473 "La(Ba,La)2Cu3Oz" La1.2Ba1.8Cu3O7.4 La 1.2 Ba 1.8 Cu 3 O z 7.4 1997 3 Y123 3.933 3.922 11.711 K "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7820 JJP0360473 "La(Ba,La)2Cu3Oz" La1.2Ba1.8Cu3O7.45 La 1.2 Ba 1.8 Cu 3 O z 7.45 1997 3 Y123 3.928 3.917 11.726 K "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7821 JJP0360473 "La(Ba,La)2Cu3Oz" La1.2Ba1.8Cu3O7.5 La 1.2 Ba 1.8 Cu 3 O z 7.5 1997 3 Y123 3.925 3.913 11.745 K "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7822 JJP0360473 "La(Ba,La)2Cu3O8" La1.2Ba1.8Cu3O7.6 La 1.2 Ba 1.8 Cu 3 O z 7.6 1997 3 Y123 3.925 3.913 11.74 K "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7823 JJP0360473 "La(Ba,La)2Cu3O8" La1.2Ba1.8Cu3O7.7 La 1.2 Ba 1.8 Cu 3 O z 7.7 1997 3 Y123 3.924 3.914 11.715 K "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7824 JJP0360473 "La(Ba,La)2Cu3Oz" La1.2Ba1.8Cu3O7.8 La 1.2 Ba 1.8 Cu 3 O z 7.8 1997 3 Y123 3.925 3.921 11.716 K "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7825 JJP0360473 "La(Ba,La)2Cu3Oz" La1.2Ba1.8Cu3O7.9 La 1.2 Ba 1.8 Cu 3 O z 7.9 1997 2 Y123 3.925 11.704 K "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7826 JJP0360473 "La(Ba,La)2Cu3Oz" La1.2Ba1.8Cu3O7.98 La 1.2 Ba 1.8 Cu 3 O z 7.98 1997 2 Y123 3.929 11.704 K "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7827 JJP0360473 "La(Ba,La)2Cu3Oz" La1.2Ba1.8Cu3O8 La 1.2 Ba 1.8 Cu 3 O z 8 1997 2 Y123 3.935 11.698 K "pellet+KClO4-capsuled in Au tube-heat (1150C,2H,5.5 Pa)" Tc of Overdoped YLa0.2Ba1.8Cu3O7.06+y and La1.2Ba1.8Cu3O7.2+y 1997 4 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)473-475 7828 JJP0361374 "(Y,Pr)Ba2Cu3Oz" Y0.8Pr0.2Ba2Cu3O7 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7+z 7 1997 3 Y123 3.898 3.834 11.673 K 58.7 58.7 see text High-Oxygen-Pressure Synthesis of Superconducting Y0.8Pr0.2Ba2Cu3O8 1997 10 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)1374-1375 7829 JJP0361374 "(Y,Pr)Ba2Cu3Oz" Y0.8Pr0.2Ba2Cu3O7.1 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7+z 7.1 1997 3 Y123 3.896 3.841 11.665 K 57.6 57.6 see text High-Oxygen-Pressure Synthesis of Superconducting Y0.8Pr0.2Ba2Cu3O8 1997 10 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)1374-1375 7830 JJP0361374 "(Y,Pr)Ba2Cu3Oz" Y0.8Pr0.2Ba2Cu3O7.2 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7+z 7.2 1997 3 Y123 3.891 3.846 11.654 K 63.3 63.3 see text High-Oxygen-Pressure Synthesis of Superconducting Y0.8Pr0.2Ba2Cu3O8 1997 10 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)1374-1375 7831 JJP0361374 "(Y,Pr)Ba2Cu3Oz" Y0.8Pr0.2Ba2Cu3O7.3 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7+z 7.3 1997 3 Y123 3.873 3.861 11.638 K 62.6 62.6 see text High-Oxygen-Pressure Synthesis of Superconducting Y0.8Pr0.2Ba2Cu3O8 1997 10 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)1374-1375 7832 JJP0361374 "(Y,Pr)Ba2Cu3Oz" Y0.8Pr0.2Ba2Cu3O7.4 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7+z 7.4 1997 2 Y123 3.87 11.635 K 59.8 59.8 see text High-Oxygen-Pressure Synthesis of Superconducting Y0.8Pr0.2Ba2Cu3O8 1997 10 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)1374-1375 7833 JJP0361374 "(Y,Pr)Ba2Cu3Oz" Y0.8Pr0.2Ba2Cu3O7.5 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7+z 7.5 1997 2 Y123 3.868 11.641 K 62.9 62.9 see text High-Oxygen-Pressure Synthesis of Superconducting Y0.8Pr0.2Ba2Cu3O8 1997 10 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)1374-1375 7834 JJP0361374 "(Y,Pr)Ba2Cu3Oz" Y0.8Pr0.2Ba2Cu3O7.55 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7+z 7.55 1997 2 Y123 3.869 11.639 K 68.3 68.3 see text High-Oxygen-Pressure Synthesis of Superconducting Y0.8Pr0.2Ba2Cu3O8 1997 10 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)1374-1375 7835 JJP0361374 "(Y,Pr)Ba2Cu3Oz" Y0.8Pr0.2Ba2Cu3O7.6 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7+z 7.6 1997 2 Y123 3.87 11.637 K 66.5 66.5 see text High-Oxygen-Pressure Synthesis of Superconducting Y0.8Pr0.2Ba2Cu3O8 1997 10 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)1374-1375 7836 JJP0361374 "(Y,Pr)Ba2Cu3Oz" Y0.8Pr0.2Ba2Cu3O7.65 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7+z 7.65 1997 2 Y123 3.873 11.629 K 66.5 66.5 see text High-Oxygen-Pressure Synthesis of Superconducting Y0.8Pr0.2Ba2Cu3O8 1997 10 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)1374-1375 7837 JJP0361374 "(Y,Pr)Ba2Cu3Oz" Y0.8Pr0.2Ba2Cu3O7.67 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7+z 7.67 1997 2 Y123 3.868 11.631 K 67.5 67.5 see text High-Oxygen-Pressure Synthesis of Superconducting Y0.8Pr0.2Ba2Cu3O8 1997 10 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)1374-1375 7838 JJP0361374 "(Y,Pr)Ba2Cu3Oz" Y0.8Pr0.2Ba2Cu3O7.79 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7+z 7.79 1997 2 Y123 3.868 11.629 K 65.4 65.4 see text High-Oxygen-Pressure Synthesis of Superconducting Y0.8Pr0.2Ba2Cu3O8 1997 10 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)1374-1375 7839 JJP0361374 "(Y,Pr)Ba2Cu3Oz" Y0.8Pr0.2Ba2Cu3O8.04 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7+z 8.04 1997 2 Y123 3.873 11.627 K 64.4 64.4 see text High-Oxygen-Pressure Synthesis of Superconducting Y0.8Pr0.2Ba2Cu3O8 1997 10 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)1374-1375 7840 JJP0361374 "(Y,Pr)Ba2Cu3Oz" Y0.8Pr0.2Ba2Cu3O8.06 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7+z 8.06 1997 2 Y123 3.875 11.623 K 65.8 65.8 see text High-Oxygen-Pressure Synthesis of Superconducting Y0.8Pr0.2Ba2Cu3O8 1997 10 "Faculty of General Education, Kogakuin University, 1-24-2 Nishi-Shinjuku, Tokyo 163-91, Japan" Japanese J.Appl.Phys.Lett.36(1997)1374-1375 7841 JSC1270064 Pb1.75Ca0.2Y1Sr2Cu3O8+z Pb 1.75 Ca 0.2 Y 1 Sr 2 Cu 3 O 8+z 1996 K 45 45 "precursor(Sr-Ca-Y-Cu-O)+PbO+Cr2O3-mix-almina crucible-sealed in sill ca tube (10E-2Torr)-heat(1173K,10H)-Q to RT" "Substitution of Chromium for Univalent Copper in Superconducting Pb2Sr2(Ca,Y)Cu3O8+delta" 1996 "Laboratoire CRISMAT, CNRS URA 1318, ISMRA et Universite' de Caen, Bd. du Marechal Juin, 14050 Caen Cedex, France" J.Soild State Chem.127(1996)64-71 7842 JSC1270064 Pb1.75Ca0.2Y1Sr2Cu2.85Cr0.15O8+z Pb 1.75 Ca 0.2 Y 1 Sr 2 Cu 2.85 Cr 0.15 O 8+z 1996 Cmmm 5.386 5.42 15.72 K 35 35 "precursor(Sr-Ca-Y-Cu-O)+PbO+Cr2O3-mix-almina crucible-sealed in sill ca tube (10E-2Torr)-heat(1173K,10H)-Q to RT" "Substitution of Chromium for Univalent Copper in Superconducting Pb2Sr2(Ca,Y)Cu3O8+delta" 1996 "Laboratoire CRISMAT, CNRS URA 1318, ISMRA et Universite' de Caen, Bd. du Marechal Juin, 14050 Caen Cedex, France" J.Soild State Chem.127(1996)64-71 7843 JSC1270064 Pb1.75Ca0.2Y0.8Sr2Cu3O8+z Pb 1.75 Ca 0.2 Y 0.8 Sr 2 Cu 3 O 8+z 1996 K 75 75 "precursor(Sr-Ca-Y-Cu-O)+PbO+Cr2O3-mix-almina crucible-sealed in sill ca tube (10E-2Torr)-heat(1173K,10H)-Q to RT" "Substitution of Chromium for Univalent Copper in Superconducting Pb2Sr2(Ca,Y)Cu3O8+delta" 1996 "Laboratoire CRISMAT, CNRS URA 1318, ISMRA et Universite' de Caen, Bd. du Marechal Juin, 14050 Caen Cedex, France" J.Soild State Chem.127(1996)64-71 7844 JSC1270064 Pb1.75Ca0.2Y0.8Sr2Cu2.85Cr0.15O8+z Pb 1.75 Ca 0.2 Y 0.8 Sr 2 Cu 2.85 Cr 0.15 O 8+z 1996 K 65 65 "precursor(Sr-Ca-Y-Cu-O)+PbO+Cr2O3-mix-almina crucible-sealed in sill ca tube (10E-2Torr)-heat(1173K,10H)-Q to RT" "Substitution of Chromium for Univalent Copper in Superconducting Pb2Sr2(Ca,Y)Cu3O8+delta" 1996 "Laboratoire CRISMAT, CNRS URA 1318, ISMRA et Universite' de Caen, Bd. du Marechal Juin, 14050 Caen Cedex, France" J.Soild State Chem.127(1996)64-71 7845 JSC1270056 fully oxygenated YBa2Cu3O7 Y1Ba2Cu3Oz Y 1 Ba 2 Cu 3 O z 1 1996 3 Y123 3.814 3.881 11.67 K 90.1 90.1 "ANN(400C,2 days or longer, in O2)" A Neutron Diffraction Study of Ca Doped and Oxygen Deficient YBa2Cu3O7-delta 1996 "Department of Inorganic Chemistry, Chalmers University of Technology and University of Goteborg, Sweden" J.Solid State Chem.127(1996)56-63 7846 JSC1270056 fully oxygenated "(Y,Ca)Ba2Cu3Oz" Y0.9Ca0.1Ba2Cu3Oz Y 0.9 Ca 0.1 Ba 2 Cu 3 O z 1 1996 3 Y123 3.817 3.878 11.679 K 85.2 85.2 "ANN(400C,2 days or longer, in O2)" A Neutron Diffraction Study of Ca Doped and Oxygen Deficient YBa2Cu3O7-delta 1996 "Department of Inorganic Chemistry, Chalmers University of Technology and University of Goteborg, Sweden" J.Solid State Chem.127(1996)56-63 7847 JSC1270056 fully oxygenated "(Y,Ca)Ba2Cu3Oz" Y0.8Ca0.2Ba2Cu3Oz Y 0.8 Ca 0.2 Ba 2 Cu 3 O z 1 1996 3 Y123 3.825 3.879 11.693 K 80.9 80.9 "ANN(400C,2 days or longer, in O2)" A Neutron Diffraction Study of Ca Doped and Oxygen Deficient YBa2Cu3O7-delta 1996 "Department of Inorganic Chemistry, Chalmers University of Technology and University of Goteborg, Sweden" J.Solid State Chem.127(1996)56-63 7848 JSC1270056 partially oxidiqed YBa2Cu3Oz Y1Ba2Cu3Oz Y 1 Ba 2 Cu 3 O z 1 1996 3 Y123 3.828 3.881 11.723 K 63.1 63.1 "heat (900C in air)-cool to 520C (180C/h)-ANN(520C, 3 days, in 2% O2-Ar gas)-Q to LN2" A Neutron Diffraction Study of Ca Doped and Oxygen Deficient YBa2Cu3O7-delta 1996 "Department of Inorganic Chemistry, Chalmers University of Technology and University of Goteborg, Sweden" J.Solid State Chem.127(1996)56-63 7849 JSC1270056 partially oxidiqed "(Y,Ca)Ba2Cu3Oz" Y0.9Ca0.1Ba2Cu3O6.5 Y 0.9 Ca 0.1 Ba 2 Cu 3 O z 6.5 1 1996 3 Y123 3.834 3.878 11.745 K 79.3 79.3 "heat (900C in air)-cool to 520C (180C/h)-ANN(520C, 3 days, in 2% O2-Ar gas)-Q to LN2" A Neutron Diffraction Study of Ca Doped and Oxygen Deficient YBa2Cu3O7-delta 1996 "Department of Inorganic Chemistry, Chalmers University of Technology and University of Goteborg, Sweden" J.Solid State Chem.127(1996)56-63 7850 JSC1270056 partially oxidiqed "(Y,Ca)Ba2Cu3O3" Y0.8Ca0.2Ba2Cu3Oz Y 0.8 Ca 0.2 Ba 2 Cu 3 O z 1 1996 3 Y123 3.839 3.868 11.764 K 77.5 77.5 "heat (900C in air)-cool to 520C (180C/h)-ANN(520C, 3 days, in 2% O2-Ar gas)-Q to LN2" A Neutron Diffraction Study of Ca Doped and Oxygen Deficient YBa2Cu3O7-delta 1996 "Department of Inorganic Chemistry, Chalmers University of Technology and University of Goteborg, Sweden" J.Solid State Chem.127(1996)56-63 7851 JSC1270056 partially oxidiqed "(Y,Ca)Ba2Cu3Oz" Y0.8Ca0.2Ba2Cu3O6.5 Y 0.8 Ca 0.2 Ba 2 Cu 3 O z 6.5 1 1996 K 84.8 84.8 "heat (900C in air)-cool to 520C (180C/h)-ANN(520C, 3 days, in 2% O2-Ar gas)-Q to LN2" A Neutron Diffraction Study of Ca Doped and Oxygen Deficient YBa2Cu3O7-delta 1996 "Department of Inorganic Chemistry, Chalmers University of Technology and University of Goteborg, Sweden" J.Solid State Chem.127(1996)56-63 7852 JSC1270056 fully reduced YBa2Cu3Oz Y1Ba2Cu3O6.03 Y 1 Ba 2 Cu 3 O z 6.03 1 1996 2 Y123 3.859 11.827 K 10 1 "ANN(640C, in Ar)" A Neutron Diffraction Study of Ca Doped and Oxygen Deficient YBa2Cu3O7-delta 1996 "Department of Inorganic Chemistry, Chalmers University of Technology and University of Goteborg, Sweden" J.Solid State Chem.127(1996)56-63 7853 JSC1270056 fully redused "(Y,Ca)Ba2Cu3Oz" Y0.9Ca0.1Ba2Cu3O6.03 Y 0.9 Ca 0.1 Ba 2 Cu 3 O z 6.03 1 1996 2 Y123 3.857 11.835 K 19.8 19.8 1 "ANN(640C, in Ar)" A Neutron Diffraction Study of Ca Doped and Oxygen Deficient YBa2Cu3O7-delta 1996 "Department of Inorganic Chemistry, Chalmers University of Technology and University of Goteborg, Sweden" J.Solid State Chem.127(1996)56-63 7854 JSC1270056 fully reduced "(Y,Ca)Ba2Cu3Oz" Y0.8Ca0.2Ba2Cu3O6.03 Y 0.8 Ca 0.2 Ba 2 Cu 3 O z 6.03 1 1996 2 Y123 3.854 11.83 K 43.5 43.5 1 "ANN(640C, in Ar)" A Neutron Diffraction Study of Ca Doped and Oxygen Deficient YBa2Cu3O7-delta 1996 "Department of Inorganic Chemistry, Chalmers University of Technology and University of Goteborg, Sweden" J.Solid State Chem.127(1996)56-63 7855 APJ0366306 91% Hg1212 "(Hg,V)Sr2(Ca,Nd)Cu2Oz" Hg0.65V0.35Sr2Ca0.45Nd0.55Cu2Oz Hg 0.65 V 0.35 Sr 2 Ca 0.45 Nd 0.55 Cu 2 O z 2 1997 2 K 30 80 55 "Precursor(V0.35Sr2(Ca,Nd)Cu2Oz)+(Hg,V)Sr2(Ca,Nd)Cu2Oz pellet-sealed in evacuated silica tube-heat(850C,10H)-RT(in 10H)-ANN(350C,24H in O2-flow)-Q to RT" "Synthesis, Structure and Superconductivity of (Hg0.65V0.35)Sr2(Ca1-xNdx)Cu2Oz" 1997 10 "Institute of Materials Science, University of Tsukuba, Tsukuba, Ibaraki 305, Japan" Japanese J. Appl.Phys.36(1997)6306-6310 7856 APJ0366306 94% Hg1212 "(Hg,V)sr2(Ca,Nd)Cu2Oz" Hg0.65V0.35Sr2Ca0.55Nd0.45Cu2O6.8 Hg 0.65 V 0.35 Sr 2 Ca 0.55 Nd 0.45 Cu 2 O z 6.8 2 1997 2 K 38 96 67 "Precursor(V0.35Sr2(Ca,Nd)Cu2Oz)+(Hg,V)Sr2(Ca,Nd)Cu2Oz pellet-sealed in evacuated silica tube-heat(850C,10H)-RT(in 10H)-ANN(350C,24H in O2-flow)-Q to RT" "Synthesis, Structure and Superconductivity of (Hg0.65V0.35)Sr2(Ca1-xNdx)Cu2Oz" 1997 10 "Institute of Materials Science, University of Tsukuba, Tsukuba, Ibaraki 305, Japan" Japanese J. Appl.Phys.36(1997)6306-6310 7857 APJ0366306 90% Hg1212 "(Hg,V)Sr2(Ca,Nd)Cu2Oz" Hg0.65V0.35Sr2Ca0.65Nd0.35Cu2Oz Hg 0.65 V 0.35 Sr 2 Ca 0.65 Nd 0.35 Cu 2 O z 2 1997 2 K 58 105 81.5 "Precursor(V0.35Sr2(Ca,Nd)Cu2Oz)+(Hg,V)Sr2(Ca,Nd)Cu2Oz pellet-sealed in evacuated silica tube-heat(850C,10H)-RT(in 10H)-ANN(350C,24H in O2-flow)-Q to RT" "Synthesis, Structure and Superconductivity of (Hg0.65V0.35)Sr2(Ca1-xNdx)Cu2Oz" 1997 10 "Institute of Materials Science, University of Tsukuba, Tsukuba, Ibaraki 305, Japan" Japanese J. Appl.Phys.36(1997)6306-6310 7858 APJ0366306 79% Hg1212 "(Hg,V)Sr2(Ca,Nd)Cu2Oz" Hg0.65V0.35Sr2Ca0.75Nd0.25Cu2Oz Hg 0.65 V 0.35 Sr 2 Ca 0.75 Nd 0.25 Cu 2 O z 2 1997 2 K 75 103 89 "Precursor(V0.35Sr2(Ca,Nd)Cu2Oz)+(Hg,V)Sr2(Ca,Nd)Cu2Oz pellet-sealed in evacuated silica tube-heat(850C,10H)-RT(in 10H)-ANN(350C,24H in O2-flow)-Q to RT" "Synthesis, Structure and Superconductivity of (Hg0.65V0.35)Sr2(Ca1-xNdx)Cu2Oz" 1997 10 "Institute of Materials Science, University of Tsukuba, Tsukuba, Ibaraki 305, Japan" Japanese J. Appl.Phys.36(1997)6306-6310 7859 PHC2890153 befor fluorination HgBa2CuO4 Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1997 2 Hg1201 3.881 9.522 K 91 91 1 "mixture-pellet-wrapped in Ag foil-seal in quartz tube in air-heat(650+800C,10H)" Fluorination of mercury-based high-temperature superconductors 1997 10 "School of Chemistry, University of Biermingham, Edgbaston, Birmingham B15 2TT, UK" "Physica.C,289(1997)153-160" 7860 PHC2890153 before fluorination HgBa2CuO4 Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1997 2 Hg1201 3.921 9.611 K 35 35 prepared under reducing condition Fluorination of mercury-based high-temperature superconductors 1997 10 "School of Chemistry, University of Biermingham, Edgbaston, Birmingham B15 2TT, UK" "Physica.C,289(1997)153-160" 7861 PHC2890153 befor fluorination HgBa2CaCu2O6 Hg1Ba2Ca1Cu2O6+z Hg 1 Ba 2 Ca 1 Cu 2 O 6+z 1997 2 Hg1212 3.87 12.721 K 120 120 1 "mixture-pellet-wrapped in Ag foil-seal in quartz tube in air-heat(650+800C,10H)" Fluorination of mercury-based high-temperature superconductors 1997 10 "School of Chemistry, University of Biermingham, Edgbaston, Birmingham B15 2TT, UK" "Physica.C,289(1997)153-160" 7862 PHC2890153 befor fluorination HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8+z Hg 1 Ba 2 Ca 2 Cu 3 O 8+z 1997 2 Hg1223 3.855 15.826 K 115 115 1 "mixture-pellet-wrapped in Ag foil-seal in quartz tube in air-heat(650+800C,10H)" Fluorination of mercury-based high-temperature superconductors 1997 10 "School of Chemistry, University of Biermingham, Edgbaston, Birmingham B15 2TT, UK" "Physica.C,289(1997)153-160" 7863 PHC2890153 F-content was nit determined "HgBa2Cu(O,F)4" Hg1Ba2Cu1FO4+z Hg 1 Ba 2 Cu 1 F O 4+z 1997 2 Hg1201 3.862 9.472 K 97 97 1 prepured under reducing condition+fluorinated by F2 gas flow Fluorination of mercury-based high-temperature superconductors 1997 10 "School of Chemistry, University of Biermingham, Edgbaston, Birmingham B15 2TT, UK" "Physica.C,289(1997)153-160" 7864 PHC2890153 F-Content was not determined "HgBa2Cu(O,F)4" Hg1Ba2Cu1FO4+z Hg 1 Ba 2 Cu 1 F O 4+z 1997 2 Hg1201 3.64 9.453 K 97 97 1 prepured under reducing condition+fluorinated by F2 gas flow Fluorination of mercury-based high-temperature superconductors 1997 10 "School of Chemistry, University of Biermingham, Edgbaston, Birmingham B15 2TT, UK" "Physica.C,289(1997)153-160" 7865 PHC2890153 F-content was not determined "HgBa2CaCu2(O,F)6" Hg1Ba2Ca1Cu2FO6+z Hg 1 Ba 2 Ca 1 Cu 2 F O 6+z 1997 2 Hg1212 3.847 12.604 K 128 128 prepured under reducing condition+fluorinated by CuF2 and AgF2 Fluorination of mercury-based high-temperature superconductors 1997 10 "School of Chemistry, University of Biermingham, Edgbaston, Birmingham B15 2TT, UK" "Physica.C,289(1997)153-160" 7866 PHC2890153 F-content was not determined "HgBa2Ca2Cu3(O,F)8" Hg1Ba2Ca2Cu3FO8+z Hg 1 Ba 2 Ca 2 Cu 3 F O 8+z 1997 2 Hg1223 3.848 15.792 K 135 135 prepured under reducing condition+fluorinated by CuF2 and AgF2 Fluorination of mercury-based high-temperature superconductors 1997 10 "School of Chemistry, University of Biermingham, Edgbaston, Birmingham B15 2TT, UK" "Physica.C,289(1997)153-160" 7867 PHC2890153 HgBa2Ca3Cu4Oz Hg1Ba2Ca3Cu4Oz Hg 1 Ba 2 Ca 3 Cu 4 O z 1997 Hg1234 K 111 111 "high pressure synthesis, precursor(Ba2Ca3Cu4Oz)+HgO,CaO,CuO-mixture-in Au capsile-pressure(18Kbar)-heat(920C,4H)-FC to RT" Fluorination of mercury-based high-temperature superconductors 1997 10 "School of Chemistry, University of Biermingham, Edgbaston, Birmingham B15 2TT, UK" "Physica.C,289(1997)153-160" 7868 PHC2890153 "HgBa2Ca3Cu4(O,F)z" Hg1Ba2Ca3Cu4FOz Hg 1 Ba 2 Ca 3 Cu 4 F O z 1997 Hg1234 K 114 114 prepured under reducing condition+fluorination using CuF2 Fluorination of mercury-based high-temperature superconductors 1997 10 "School of Chemistry, University of Biermingham, Edgbaston, Birmingham B15 2TT, UK" "Physica.C,289(1997)153-160" 7869 PHC2890153 "85% Hg1245, 15% Hg1234" HgBa2Ca4Cu5Oz Hg1Ba2Ca4Cu5Oz Hg 1 Ba 2 Ca 4 Cu 5 O z 1997 Hg1245 K 98 98 "high pressure synthesis, precursor(Ba2Ca3Cu4Oz)+HgO,CaO,CuO-mixture-in Au capsile-pressure(18Kbar)-heat(920C,4H)-FC to RT" Fluorination of mercury-based high-temperature superconductors 1997 10 "School of Chemistry, University of Biermingham, Edgbaston, Birmingham B15 2TT, UK" "Physica.C,289(1997)153-160" 7870 PHC2890153 "85% Hg1245, 15% Hg1234" "HgBa2Ca4Cu5(O,F)z" Hg1Ba2Ca4Cu5FOz Hg 1 Ba 2 Ca 4 Cu 5 F O z 1997 Hg1245 K 109 109 prepured under reducing condition+fluorination using CuF2 Fluorination of mercury-based high-temperature superconductors 1997 10 "School of Chemistry, University of Biermingham, Edgbaston, Birmingham B15 2TT, UK" "Physica.C,289(1997)153-160" 7871 APL0712370 TlBa2Ca2Cu3O9 Tl1Ba2Ca2Cu3O9 Tl 1 Ba 2 Ca 2 Cu 3 O 9 1 1997 2 Tl1223 3.853 15.913 K 110 110 1 "mixture-alumina crueible-quartz tube(10E-2 Torr)-heat(820-850C,5H and hold 4-6H)-slow cool to RT" Significantly enhanced flux pinning in the Bi-substituted TlBa2Ca2Cu3Oy system 1997 10 "Department of Physics, Campus Box 390, University of Colorado, Boulder, Colorado 80309-0390" Appl.Phys.Lett.71(1997)2370 7872 APL0712370 "(Tl,Bi)Ba2Ca2Cu3O9" Tl0.8Bi0.2Ba2Ca2Cu3O9 Tl 0.8 Bi 0.2 Ba 2 Ca 2 Cu 3 O 9 1 1997 2 Tl1223 3.846 15.816 K 116 116 1 "mixture-alumina crueible-quartz tube(10E-2 Torr)-heat(820-850C,5H and hold 4-6H)-slow cool to RT" Significantly enhanced flux pinning in the Bi-substituted TlBa2Ca2Cu3Oy system 1997 10 "Department of Physics, Campus Box 390, University of Colorado, Boulder, Colorado 80309-0390" Appl.Phys.Lett.71(1997)2370 7873 JSC1270315 (Ca2CuO2Cl2)m(Gd2Ca2Cu2O6Cl2)n not s/c Ca4Gd2Cu3O8Cl4 Ca4Gd2Cu3Cl4O8 Ca 4 Gd 2 Cu 3 Cl 4 O 8 1 1996 2 I4/mmm 3.886 41.827 K "precursor-mixture-alumine crucible-CAL(700C,2H in air)-press-SIN(750C or 800C, 12H)" "New Copper Oxychlorides Ca4Ln2Cu3O8Cl4, First Members of the Intergrowth Series (Ca2O2Cl2)m(Ln2Ca2Cu2O6Cl2)n(Ln=Gd,Sm)" 1996 "Laboratoire CRISMAT, ISMRA et Universite' de Caen, URA 1318 associee' au CNRS, Boulevard du Mare'chal Juin, 14050 Caen Cedex, France" J.Solid State Chem.127(1996)315-324 7874 JSC1270315 (Ca2CuO2Cl2)m(SmCa2Cu2O6Cl2)n not s/c Ca4Sm2Cu3O8Cl4 Ca4Sm2Cu3Cl4O8 Ca 4 Sm 2 Cu 3 Cl 4 O 8 1 1996 2 I4/mmm 3.888 41.825 K "precursor-mixture-alumine crucible-CAL(700C,2H in air)-press-SIN(750C or 800C, 12H)" "New Copper Oxychlorides Ca4Ln2Cu3O8Cl4, First Members of the Intergrowth Series (Ca2O2Cl2)m(Ln2Ca2Cu2O6Cl2)n(Ln=Gd,Sm)" 1996 "Laboratoire CRISMAT, ISMRA et Universite' de Caen, URA 1318 associee' au CNRS, Boulevard du Mare'chal Juin, 14050 Caen Cedex, France" J.Solid State Chem.127(1996)315-324 7875 JP00900307 YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 1997 Y123 K "Fe2O3, Y2O3, BaCO3, CuO" "mixture-SIN(925-1000C,2days in air)-wrapped in Au-foil-SIN(915C,24H in 27MPa O2)-slow cool to RT(1C/min)" "Metal (M) dopant centred local structures, high-pressure synthesis and bulk superconductivity in YBa2(Cu1-xMx)3O7-delta: M =Fe, Co, Ni" 1997 "Department of Electrical, Computer Engineering and Computer Science, University of Cincinnati, OH 45221-0030, USA" J.Phys.:Cond.Matter9(1997)307-313 7876 JP00900307 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.85Fe0.15O7-z Y 1 Ba 2 Cu 2.85 Fe 0.15 O 7-z 1 1997 2 Y123 K "Fe2O3, Y2O3, BaCO3, CuO" "mixture-SIN(925-1000C,2days in air)-wrapped in Au-foil-SIN(915C,24H in 27MPa O2)-slow cool to RT(1C/min)" "Metal (M) dopant centred local structures, high-pressure synthesis and bulk superconductivity in YBa2(Cu1-xMx)3O7-delta: M =Fe, Co, Ni" 1997 "Department of Electrical, Computer Engineering and Computer Science, University of Cincinnati, OH 45221-0030, USA" J.Phys.:Cond.Matter9(1997)307-313 7877 JP00900307 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.7Fe0.3O7-z Y 1 Ba 2 Cu 2.7 Fe 0.3 O 7-z 1 1997 2 Y123 K "Fe2O3, Y2O3, BaCO3, CuO" "mixture-SIN(925-1000C,2days in air)-wrapped in Au-foil-SIN(915C,24H in 27MPa O2)-slow cool to RT(1C/min)" "Metal (M) dopant centred local structures, high-pressure synthesis and bulk superconductivity in YBa2(Cu1-xMx)3O7-delta: M =Fe, Co, Ni" 1997 "Department of Electrical, Computer Engineering and Computer Science, University of Cincinnati, OH 45221-0030, USA" J.Phys.:Cond.Matter9(1997)307-313 7878 JP00900307 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.25Fe0.45O7-z Y 1 Ba 2 Cu 2.25 Fe 0.45 O 7-z 1 1997 2 Y123 K "Fe2O3, Y2O3, BaCO3, CuO" "mixture-SIN(925-1000C,2days in air)-wrapped in Au-foil-SIN(915C,24H in 27MPa O2)-slow cool to RT(1C/min)" "Metal (M) dopant centred local structures, high-pressure synthesis and bulk superconductivity in YBa2(Cu1-xMx)3O7-delta: M =Fe, Co, Ni" 1997 "Department of Electrical, Computer Engineering and Computer Science, University of Cincinnati, OH 45221-0030, USA" J.Phys.:Cond.Matter9(1997)307-313 7879 JP00900307 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.4Fe0.6O7-z Y 1 Ba 2 Cu 2.4 Fe 0.6 O 7-z 1 1997 2 Y123 K "Fe2O3, Y2O3, BaCO3, CuO" "mixture-SIN(925-1000C,2days in air)-wrapped in Au-foil-SIN(915C,24H in 27MPa O2)-slow cool to RT(1C/min)" "Metal (M) dopant centred local structures, high-pressure synthesis and bulk superconductivity in YBa2(Cu1-xMx)3O7-delta: M =Fe, Co, Ni" 1997 "Department of Electrical, Computer Engineering and Computer Science, University of Cincinnati, OH 45221-0030, USA" J.Phys.:Cond.Matter9(1997)307-313 7880 JP00900307 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.25Fe0.75O7-z Y 1 Ba 2 Cu 2.25 Fe 0.75 O 7-z 1997 K "Fe2O3, Y2O3, BaCO3, CuO" "mixture-SIN(925-1000C,2days in air)-wrapped in Au-foil-SIN(915C,24H in 27MPa O2)-slow cool to RT(1C/min)" "Metal (M) dopant centred local structures, high-pressure synthesis and bulk superconductivity in YBa2(Cu1-xMx)3O7-delta: M =Fe, Co, Ni" 1997 "Department of Electrical, Computer Engineering and Computer Science, University of Cincinnati, OH 45221-0030, USA" J.Phys.:Cond.Matter9(1997)307-313 7881 JP00900307 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.1Fe0.9O7-z Y 1 Ba 2 Cu 2.1 Fe 0.9 O 7-z 1997 K "Fe2O3, Y2O3, BaCO3, CuO" "mixture-SIN(925-1000C,2days in air)-wrapped in Au-foil-SIN(915C,24H in 27MPa O2)-slow cool to RT(1C/min)" "Metal (M) dopant centred local structures, high-pressure synthesis and bulk superconductivity in YBa2(Cu1-xMx)3O7-delta: M =Fe, Co, Ni" 1997 "Department of Electrical, Computer Engineering and Computer Science, University of Cincinnati, OH 45221-0030, USA" J.Phys.:Cond.Matter9(1997)307-313 7882 JP00900307 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.85Co0.15O7-z Y 1 Ba 2 Cu 2.85 Co 0.15 O 7-z 1 1997 2 Y123 K "Fe2O3, Y2O3, BaCO3, CuO" "mixture-SIN(925-1000C,2days in air)-wrapped in Au-foil-SIN(915C,24H in 27MPa O2)-slow cool to RT(1C/min)" "Metal (M) dopant centred local structures, high-pressure synthesis and bulk superconductivity in YBa2(Cu1-xMx)3O7-delta: M =Fe, Co, Ni" 1997 "Department of Electrical, Computer Engineering and Computer Science, University of Cincinnati, OH 45221-0030, USA" J.Phys.:Cond.Matter9(1997)307-313 7883 JP00900307 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.7Co0.3O7-z Y 1 Ba 2 Cu 2.7 Co 0.3 O 7-z 1 1997 2 Y123 K "Fe2O3, Y2O3, BaCO3, CuO" "mixture-SIN(925-1000C,2days in air)-wrapped in Au-foil-SIN(915C,24H in 27MPa O2)-slow cool to RT(1C/min)" "Metal (M) dopant centred local structures, high-pressure synthesis and bulk superconductivity in YBa2(Cu1-xMx)3O7-delta: M =Fe, Co, Ni" 1997 "Department of Electrical, Computer Engineering and Computer Science, University of Cincinnati, OH 45221-0030, USA" J.Phys.:Cond.Matter9(1997)307-313 7884 JP00900307 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.55Co0.45O7-z Y 1 Ba 2 Cu 2.55 Co 0.45 O 7-z 1 1997 2 Y123 K "Fe2O3, Y2O3, BaCO3, CuO" "mixture-SIN(925-1000C,2days in air)-wrapped in Au-foil-SIN(915C,24H in 27MPa O2)-slow cool to RT(1C/min)" "Metal (M) dopant centred local structures, high-pressure synthesis and bulk superconductivity in YBa2(Cu1-xMx)3O7-delta: M =Fe, Co, Ni" 1997 "Department of Electrical, Computer Engineering and Computer Science, University of Cincinnati, OH 45221-0030, USA" J.Phys.:Cond.Matter9(1997)307-313 7885 JP00900307 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.4Co0.6O7-z Y 1 Ba 2 Cu 2.4 Co 0.6 O 7-z 1 1997 2 Y123 K "Fe2O3, Y2O3, BaCO3, CuO" "mixture-SIN(925-1000C,2days in air)-wrapped in Au-foil-SIN(915C,24H in 27MPa O2)-slow cool to RT(1C/min)" "Metal (M) dopant centred local structures, high-pressure synthesis and bulk superconductivity in YBa2(Cu1-xMx)3O7-delta: M =Fe, Co, Ni" 1997 "Department of Electrical, Computer Engineering and Computer Science, University of Cincinnati, OH 45221-0030, USA" J.Phys.:Cond.Matter9(1997)307-313 7886 JP00900307 "YBa2(Cu,Ni)3Oz" Y1Ba2Cu2.925Ni0.075O7-z Y 1 Ba 2 Cu 2.925 Ni 0.075 O 7-z 1 1997 3 Y123 K "Fe2O3, Y2O3, BaCO3, CuO" "mixture-SIN(925-1000C,2days in air)-wrapped in Au-foil-SIN(915C,24H in 27MPa O2)-slow cool to RT(1C/min)" "Metal (M) dopant centred local structures, high-pressure synthesis and bulk superconductivity in YBa2(Cu1-xMx)3O7-delta: M =Fe, Co, Ni" 1997 "Department of Electrical, Computer Engineering and Computer Science, University of Cincinnati, OH 45221-0030, USA" J.Phys.:Cond.Matter9(1997)307-313 7887 JP00900307 "YBa2(Cu,Ni)3Oz" Y1Ba2Cu2.85Ni0.15O7-z Y 1 Ba 2 Cu 2.85 Ni 0.15 O 7-z 1 1997 3 Y123 K "Fe2O3, Y2O3, BaCO3, CuO" "mixture-SIN(925-1000C,2days in air)-wrapped in Au-foil-SIN(915C,24H in 27MPa O2)-slow cool to RT(1C/min)" "Metal (M) dopant centred local structures, high-pressure synthesis and bulk superconductivity in YBa2(Cu1-xMx)3O7-delta: M =Fe, Co, Ni" 1997 "Department of Electrical, Computer Engineering and Computer Science, University of Cincinnati, OH 45221-0030, USA" J.Phys.:Cond.Matter9(1997)307-313 7888 JP00900307 "YBa2(Cu,Ni)3Oz" Y1Ba2Cu2.775Ni0.225O7-z Y 1 Ba 2 Cu 2.775 Ni 0.225 O 7-z 1 1997 3 Y123 K "Fe2O3, Y2O3, BaCO3, CuO" "mixture-SIN(925-1000C,2days in air)-wrapped in Au-foil-SIN(915C,24H in 27MPa O2)-slow cool to RT(1C/min)" "Metal (M) dopant centred local structures, high-pressure synthesis and bulk superconductivity in YBa2(Cu1-xMx)3O7-delta: M =Fe, Co, Ni" 1997 "Department of Electrical, Computer Engineering and Computer Science, University of Cincinnati, OH 45221-0030, USA" J.Phys.:Cond.Matter9(1997)307-313 7889 JP00900307 "YBa2(Cu,Ni)3Oz" Y1Ba2Cu2.7Ni0.3O7-z Y 1 Ba 2 Cu 2.7 Ni 0.3 O 7-z 1 1997 3 Y123 K "Fe2O3, Y2O3, BaCO3, CuO" "mixture-SIN(925-1000C,2days in air)-wrapped in Au-foil-SIN(915C,24H in 27MPa O2)-slow cool to RT(1C/min)" "Metal (M) dopant centred local structures, high-pressure synthesis and bulk superconductivity in YBa2(Cu1-xMx)3O7-delta: M =Fe, Co, Ni" 1997 "Department of Electrical, Computer Engineering and Computer Science, University of Cincinnati, OH 45221-0030, USA" J.Phys.:Cond.Matter9(1997)307-313 7890 NAT3640315 Sr2Cu3 Sr2Cu1O3.1 Sr 2 Cu 1 O 3.1 3.1 1 1993 2 T 3.764 12.548 K 70 70 22 "Sr2CuO3,CuO" "(mixture+K Cl O4)-Au capeule-pressure(6GPa)-heat(1073-1173K,30min)-400K-RT" A new family of copper oxide superconductors Srn+1CunO2n+1+delta stabilized at high pressure 1993 7 "Institute for Chemical Research, Kyoto Univercity, Uji, Kyoto-fu 611, Japan" Nature 364(1993)315-317 7891 NAT3640315 Sr3Cu2O5 Sr3Cu2O5+z Sr 3 Cu 2 O 5+z 1993 2 3.9 21 K 100 100 4 "Sr2CuO3,CuO" "(mixture+K Cl O4)-Au capeule-pressure(6GPa)-heat(1073-1173K,30min)-400K-RT" A new family of copper oxide superconductors Srn+1CunO2n+1+delta stabilized at high pressure 1993 7 "Institute for Chemical Research, Kyoto Univercity, Uji, Kyoto-fu 611, Japan" Nature 364(1993)315-317 7892 PRL0712315 Bi2Sr2CuOz Bi2Sr2Cu1Oz Bi 2 Sr 2 Cu 1 O z 1993 Bi2201 K 12 19 15.5 WHH fitting 3.8 0.29 55 Anomalous Temperature Dependence of the Upper Critical Magnetic Field in Bi-Sr-Cu-O 1993 10 "Naval Research Laboratory, Washington, D.C. 20375-5000" "Phys.Rev.Lett.,71(1993)2315" 7893 PHC2980066 all nost single phase YBa2Cu3Oz Y1Ba2Cu3O8 Y 1 Ba 2 Cu 3 O 8 1 1998 3 Y123 3.826 3.887 11.682 K 92 95.5 93 93 "Y2O3, Nd2O3, BaCO3, CuO" "mixture-CAL(970C,12H in air)-SIN(960C,12H in air)-ANN(500C,10H in flowing O2)-RT(1C/min)" Influence of Nd at Ba-sites on superconductivity of YBa2-x NdxCu3Oy 1998 3 "Department of Physics, The University of Hong Kong Pokfulam Road, Hong Kong, China" "Physica.C,298(1998)66-72" 7894 PHC2980066 "Y(Ba,Nd)2Cu3Oz" Y1Ba1.95Nd0.05Cu3Oz Y 1 Ba 1.95 Nd 0.05 Cu 3 O z 1 1998 2 Y123 3.843 11.701 K 92 95 92.5 92.5 "Y2O3, Nd2O3, BaCO3, CuO" "mixture-CAL(970C,12H in air)-SIN(960C,12H in air)-ANN(500C,10H in flowing O2)-RT(1C/min)" Influence of Nd at Ba-sites on superconductivity of YBa2-x NdxCu3Oy 1998 3 "Department of Physics, The University of Hong Kong Pokfulam Road, Hong Kong, China" "Physica.C,298(1998)66-72" 7895 PHC2980066 "Y(Ba,Nd)2Cu3Oz" Y1Ba1.9Nd0.1Cu3Oz Y 1 Ba 1.9 Nd 0.1 Cu 3 O z 1 1998 2 Y123 3.859 11.659 K 92.5 95.5 93 93 "Y2O3, Nd2O3, BaCO3, CuO" "mixture-CAL(970C,12H in air)-SIN(960C,12H in air)-ANN(500C,10H in flowing O2)-RT(1C/min)" Influence of Nd at Ba-sites on superconductivity of YBa2-x NdxCu3Oy 1998 3 "Department of Physics, The University of Hong Kong Pokfulam Road, Hong Kong, China" "Physica.C,298(1998)66-72" 7896 PHC2980066 "Y(Ba,Nd)2Cu3Oz" Y1Ba1.85Nd0.15Cu3Oz Y 1 Ba 1.85 Nd 0.15 Cu 3 O z 1 1998 2 Y123 3.847 11.737 K 91.5 95 92 92 "Y2O3, Nd2O3, BaCO3, CuO" "mixture-CAL(970C,12H in air)-SIN(960C,12H in air)-ANN(500C,10H in flowing O2)-RT(1C/min)" Influence of Nd at Ba-sites on superconductivity of YBa2-x NdxCu3Oy 1998 3 "Department of Physics, The University of Hong Kong Pokfulam Road, Hong Kong, China" "Physica.C,298(1998)66-72" 7897 PHC2980066 "Y(Ba,Nd)2Cu3Oz" Y1Ba1.8Nd0.2Cu3Oz Y 1 Ba 1.8 Nd 0.2 Cu 3 O z 1 1998 2 Y123 3.854 11.684 K 92.5 95 92 92 "Y2O3, Nd2O3, BaCO3, CuO" "mixture-CAL(970C,12H in air)-SIN(960C,12H in air)-ANN(500C,10H in flowing O2)-RT(1C/min)" Influence of Nd at Ba-sites on superconductivity of YBa2-x NdxCu3Oy 1998 3 "Department of Physics, The University of Hong Kong Pokfulam Road, Hong Kong, China" "Physica.C,298(1998)66-72" 7898 PHC2980066 "Y(Ba,Nd)2Cu3Oz" Y1Ba1.75Nd0.25Cu3Oz Y 1 Ba 1.75 Nd 0.25 Cu 3 O z 1 1998 2 Y123 3.845 11.732 K 94 96 93 93 "Y2O3, Nd2O3, BaCO3, CuO" "mixture-CAL(970C,12H in air)-SIN(960C,12H in air)-ANN(500C,10H in flowing O2)-RT(1C/min)" Influence of Nd at Ba-sites on superconductivity of YBa2-x NdxCu3Oy 1998 3 "Department of Physics, The University of Hong Kong Pokfulam Road, Hong Kong, China" "Physica.C,298(1998)66-72" 7899 PHC2980066 "Y(Ba,Nd)2Cu3Oz" Y1Ba1.7Nd0.3Cu3Oz Y 1 Ba 1.7 Nd 0.3 Cu 3 O z 1 1998 2 Y123 3.845 11.709 K 83 95 85 85 "Y2O3, Nd2O3, BaCO3, CuO" "mixture-CAL(970C,12H in air)-SIN(960C,12H in air)-ANN(500C,10H in flowing O2)-RT(1C/min)" Influence of Nd at Ba-sites on superconductivity of YBa2-x NdxCu3Oy 1998 3 "Department of Physics, The University of Hong Kong Pokfulam Road, Hong Kong, China" "Physica.C,298(1998)66-72" 7900 PHC2980066 "Y(Ba,Nd)2Cu3Oz" Y1Ba1.65Nd0.35Cu3Oz Y 1 Ba 1.65 Nd 0.35 Cu 3 O z 1 1998 2 Y123 3.855 11.732 K 86 95 88 88 "Y2O3, Nd2O3, BaCO3, CuO" "mixture-CAL(970C,12H in air)-SIN(960C,12H in air)-ANN(500C,10H in flowing O2)-RT(1C/min)" Influence of Nd at Ba-sites on superconductivity of YBa2-x NdxCu3Oy 1998 3 "Department of Physics, The University of Hong Kong Pokfulam Road, Hong Kong, China" "Physica.C,298(1998)66-72" 7901 PHC2980066 "Y(Ba,Nd)2Cu3Oz" Y1Ba1.6Nd0.4Cu3Oz Y 1 Ba 1.6 Nd 0.4 Cu 3 O z 1 1998 K 85 95 86 86 "Y2O3, Nd2O3, BaCO3, CuO" "mixture-CAL(970C,12H in air)-SIN(960C,12H in air)-ANN(500C,10H in flowing O2)-RT(1C/min)" Influence of Nd at Ba-sites on superconductivity of YBa2-x NdxCu3Oy 1998 3 "Department of Physics, The University of Hong Kong Pokfulam Road, Hong Kong, China" "Physica.C,298(1998)66-72" 7902 PHC2980066 "Y(Ba,Nd)2Cu3Oz" Y1Ba1.5Nd0.5Cu3Oz Y 1 Ba 1.5 Nd 0.5 Cu 3 O z 1 1998 K 30 30 "Y2O3, Nd2O3, BaCO3, CuO" "mixture-CAL(970C,12H in air)-SIN(960C,12H in air)-ANN(500C,10H in flowing O2)-RT(1C/min)" Influence of Nd at Ba-sites on superconductivity of YBa2-x NdxCu3Oy 1998 3 "Department of Physics, The University of Hong Kong Pokfulam Road, Hong Kong, China" "Physica.C,298(1998)66-72" 7903 NAT3640315 all nost single phase Sr2CuO3 Sr2Cu1O3.1 Sr 2 Cu 1 O 3+z 3.1 1 1993 2 Sr0201 3.764 12.548 K 4 70 80 70 70 22 "Sr2CuO3, CuO" mixture-Au capsule-press isostatically to 6GPa-heat to 1073-1173K and hold(30min)-drop to 400K in a flow second-to RT in a minute A new family of copper oxide superconductors Srn+1CunO2n+1+delta stabilized at high pressure 1993 7 "Institute for Chemical Research, Kyoto Univercity, Uji, Kyoto-fu 611, Japan" Nature 364(1993)315-317 7904 NAT3640315 Sr2CaCu2O5 Sr2.1Ca0.9Cu2O5+z Sr 2.1 Ca 0.9 Cu 2 O 5+z 2 1993 Sr0212 K 90 100 100 100 "Sr2CuO3, CuO" mixture-Au capsule-press isostatically to 6GPa-heat to 1073-1173K and hold(30min)-drop to 400K in a flow second-to RT in a minute A new family of copper oxide superconductors Srn+1CunO2n+1+delta stabilized at high pressure 1993 7 "Institute for Chemical Research, Kyoto Univercity, Uji, Kyoto-fu 611, Japan" Nature 364(1993)315-317 7905 PHC2530254 "inpurity phases=CaHgO2, BaCuO2, major phase=Hg-1212 nominal composition" HgBa2Ca2Cu3Oz Hg1Ba2Ca2Cu3Oz Hg 1 Ba 2 Ca 2 Cu 3 O z 1995 2 Hg1212 3.862 12.708 K 92 110.3 110.3 44 "precursor(Ba-Ca-Cu-O)-CAL(900C,24H in O2 flow)-(mixed with HgO, CuF2)-sealed(quartz tube)-SIN(800C,10H)-FC" effect of F-doping in the H-Ba-Ca-Cu-O system 1995 11 "Department of Physics, Hunan Narmal University, Changsha, Hunan 410006, P.R. China" "Physica C,253(1995)254-258" "Hg, Ba, Ca, Cu, O, F" 7906 PHC2530254 "major phase=Hg1212, nominal composition" "HgBa2Ca2Cu3(Fe,O)z" Hg1Ba2Ca2Cu3Oz Hg 1 Ba 2 Ca 2 Cu 3 O z 1 1995 2 Hg1212 3.857 12.647 K 126 126 68 "precursor(Ba-Ca-Cu-O)-CAL(900C,24H in O2 flow)-(mixed with HgO, CuF2)-sealed(quartz tube)-SIN(800C,10H)-FC" effect of F-doping in the H-Ba-Ca-Cu-O system 1995 11 "Department of Physics, Hunan Narmal University, Changsha, Hunan 410006, P.R. China" "Physica C,253(1995)254-258" "Hg, Ba, Ca, Cu, O, F" 7907 PHC2530254 "HgBa2Ca2Cu3(Fe,O)z" Hg1Ba2Ca2Cu3F0.1Oz Hg 1 Ba 2 Ca 2 Cu 3 F 0.1 O z 1995 Hg1223 K 127.4 127.4 "precursor(Ba-Ca-Cu-O)-CAL(900C,24H in O2 flow)-(mixed with HgO, CuF2)-sealed(quartz tube)-SIN(800C,10H)-FC" effect of F-doping in the H-Ba-Ca-Cu-O system 1995 11 "Department of Physics, Hunan Narmal University, Changsha, Hunan 410006, P.R. China" "Physica C,253(1995)254-258" "Hg, Ba, Ca, Cu, O, F" 7908 PHC2530254 "HgBa2Ca2Cu3(Fe,O)z" Hg1Ba2Ca2Cu3F0.2Oz Hg 1 Ba 2 Ca 2 Cu 3 F 0.2 O z 1995 Hg1223 K 128.4 128.4 "precursor(Ba-Ca-Cu-O)-CAL(900C,24H in O2 flow)-(mixed with HgO, CuF2)-sealed(quartz tube)-SIN(800C,10H)-FC" effect of F-doping in the H-Ba-Ca-Cu-O system 1995 11 "Department of Physics, Hunan Narmal University, Changsha, Hunan 410006, P.R. China" "Physica C,253(1995)254-258" "Hg, Ba, Ca, Cu, O, F" 7909 PHC2530254 "HgBa2Ca2Cu3(O,Fe)" Hg1Ba2Ca2Cu3Fe0.3Oz Hg 1 Ba 2 Ca 2 Cu 3 Fe 0.3 O z 1995 Hg1223 K 128.5 128.5 "precursor(Ba-Ca-Cu-O)-CAL(900C,24H in O2 flow)-(mixed with HgO, CuF2)-sealed(quartz tube)-SIN(800C,10H)-FC" effect of F-doping in the H-Ba-Ca-Cu-O system 1995 11 "Department of Physics, Hunan Narmal University, Changsha, Hunan 410006, P.R. China" "Physica C,253(1995)254-258" "Hg, Ba, Ca, Cu, O, F" 7910 PHC2160237 "Cu-O=1.815A, Cu-O(2)=2.01A" "(Pb,Hg)(Sr,La)2CuO5" Pb0.5Hg0.5Sr1.2La0.8Cu1O5-z Pb 0.5 Hg 0.5 Sr 1.2 La 0.8 Cu 1 O 5-z 1 1993 1201 P4/mmm 123 3.791 8.691 K 17 24 38 32 24 32.3 "Pb O, Hg O, Sr O, Cu O" mixture-pellet-wrapped in Au foil-quartz tube(O2=10E-4 Torr)-heat to 930C(5C/min)-hold(12H)-RT(5C/min) "SUPERCONDUCTIVITY UP TO 32 K IN A NEW FAMILY OF THE HG-CONTAINING (PB,HG)(SR,LA)2CUO5-Z (1201) SYSTEM" 1993 11 "PHYSICA C,216(1993)237" "PB,HG,SR,LA,CU,O" 7911 PHC2350075 magnetic transition at 9.5K "(Tm,Ca)2CuO4" Tm1.83Ca0.17Cu1O4 Tm 1.83 Ca 0.17 Cu 1 O 4 1994 T' K 30 30 "New synthesis, structural features and superconductivity" 1994 "National Laboratory for Superconductivity, Institute of Physics Academia Sinica, Beijing 100 080, China" Physica.C235(1994)75-78 7912 PHC2350075 diamagnetism appears at 30K but not sharp transition "(Ba,K)PbO3" Ba0.9K0.1Pb1O3 Ba 0.9 K 0.1 Pb 1 O 3 1994 ABO3 4.26 4.293 K 30 30 "Ba: K: Pb =1.5: 50: 1, mixture was melt at 250C in a Teflon crucible, crystal was grown by electro-crystalliqation" "New synthesis, structural features and superconductivity" 1994 "National Laboratory for Superconductivity, Institute of Physics Academia Sinica, Beijing 100 080, China" Physica.C235(1994)75-78 7913 SSC1050037 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1998 T K 36.5 5 36.5 1 standard solid state reaction. TWO REGIMES BEHAVIOR IN THE RESISTIVITY OF THE La1.85Sr0.15Cu1-xLixO4 SYSTEM: A SIGNATURE OF DIFFERENT ELECTRONIC STATES FOR HOLES 1998 "Laboratorio de Superconductivited, Facultad de Fisica-IMRE, Universidad de La Habana, San Lazaro y L, 10400, Ciudad Habana, Cuba" Solid State Commun.105(1998)37-40 7914 SSC1050037 "(La,Sr)2(Cu,Li)O4" La1.85Sr0.15Cu0.98Li0.02O4 La 1.85 Sr 0.15 Cu 0.98 Li 0.02 O 4 1998 T K 36.5 5 36.5 1 standard solid state reaction. TWO REGIMES BEHAVIOR IN THE RESISTIVITY OF THE La1.85Sr0.15Cu1-xLixO4 SYSTEM: A SIGNATURE OF DIFFERENT ELECTRONIC STATES FOR HOLES 1998 "Laboratorio de Superconductivited, Facultad de Fisica-IMRE, Universidad de La Habana, San Lazaro y L, 10400, Ciudad Habana, Cuba" Solid State Commun.105(1998)37-40 7915 SSC1050037 "(La,Sr)2(Cu,Li)O4" La1.85Sr0.15Cu0.97Li0.03O4 La 1.85 Sr 0.15 Cu 0.97 Li 0.03 O 4 1998 T K 33.5 7 33.5 1 standard solid state reaction. TWO REGIMES BEHAVIOR IN THE RESISTIVITY OF THE La1.85Sr0.15Cu1-xLixO4 SYSTEM: A SIGNATURE OF DIFFERENT ELECTRONIC STATES FOR HOLES 1998 "Laboratorio de Superconductivited, Facultad de Fisica-IMRE, Universidad de La Habana, San Lazaro y L, 10400, Ciudad Habana, Cuba" Solid State Commun.105(1998)37-40 7916 SSC1050037 "(La,Sr)2(Cu,Li)O4" La1.85Sr0.15Cu0.95Li0.05O4 La 1.85 Sr 0.15 Cu 0.95 Li 0.05 O 4 1998 T K 27.2 7 27.2 1 standard solid state reaction. TWO REGIMES BEHAVIOR IN THE RESISTIVITY OF THE La1.85Sr0.15Cu1-xLixO4 SYSTEM: A SIGNATURE OF DIFFERENT ELECTRONIC STATES FOR HOLES 1998 "Laboratorio de Superconductivited, Facultad de Fisica-IMRE, Universidad de La Habana, San Lazaro y L, 10400, Ciudad Habana, Cuba" Solid State Commun.105(1998)37-40 7917 PR0459951 Nd2CuO4 Nd2Cu1O4 Nd 2 Cu 1 O 4 1 1992 T' K "Nd2O3, CuO, NdF3" "mixture-CAL(860C,10H in 20%O2-Ar gas flow)-press-pellet-SIN(1100C,14H in 1%O2-Ar gas flow)-ANN(910,14H in N2 flow)-cool to RT(5C/min)" Hall and thermoelectric-power coefficients of superconducting Nd2CuO4-xFx 1992 5 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 10-13 Shinonome 1-chome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,45(1992)9951" 7918 PR0459951 "Nd2Cu(O,F)4" Nd2Cu1F0.1O3.9 Nd 2 Cu 1 F 0.1 O 3.9 1 1992 T' K "Nd2O3, CuO, NdF3" "mixture-CAL(860C,10H in 20%O2-Ar gas flow)-press-pellet-SIN(1100C,14H in 1%O2-Ar gas flow)-ANN(910,14H in N2 flow)-cool to RT(5C/min)" Hall and thermoelectric-power coefficients of superconducting Nd2CuO4-xFx 1992 5 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 10-13 Shinonome 1-chome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,45(1992)9951" 7919 PR0459951 "Nd2Cu(O,F)4" Nd2Cu1F0.12O3.88 Nd 2 Cu 1 F 0.12 O 3.88 1 1992 T' K "Nd2O3, CuO, NdF3" "mixture-CAL(860C,10H in 20%O2-Ar gas flow)-press-pellet-SIN(1100C,14H in 1%O2-Ar gas flow)-ANN(910,14H in N2 flow)-cool to RT(5C/min)" Hall and thermoelectric-power coefficients of superconducting Nd2CuO4-xFx 1992 5 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 10-13 Shinonome 1-chome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,45(1992)9951" 7920 PR0459951 "Nd2Cu(O,F)4" Nd2Cu1F0.16O3.84 Nd 2 Cu 1 F 0.16 O 3.84 1 1992 T' K "Nd2O3, CuO, NdF3" "mixture-CAL(860C,10H in 20%O2-Ar gas flow)-press-pellet-SIN(1100C,14H in 1%O2-Ar gas flow)-ANN(910,14H in N2 flow)-cool to RT(5C/min)" Hall and thermoelectric-power coefficients of superconducting Nd2CuO4-xFx 1992 5 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 10-13 Shinonome 1-chome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,45(1992)9951" 7921 PR0459951 "Nd2Cu(O,F)4" Nd2Cu1F0.18O3.82 Nd 2 Cu 1 F 0.18 O 3.82 1 1992 T' K "Nd2O3, CuO, NdF3" "mixture-CAL(860C,10H in 20%O2-Ar gas flow)-press-pellet-SIN(1100C,14H in 1%O2-Ar gas flow)-ANN(910,14H in N2 flow)-cool to RT(5C/min)" Hall and thermoelectric-power coefficients of superconducting Nd2CuO4-xFx 1992 5 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 10-13 Shinonome 1-chome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,45(1992)9951" 7922 PR0459951 "Nd2Cu(O,F)4" Nd2Cu1O4 Nd 2 Cu 1 O 4 1 1992 T' K 27 27 "Nd2O3, CuO, NdF3" "mixture-CAL(860C,10H in 20%O2-Ar gas flow)-press-pellet-SIN(1100C,14H in 1%O2-Ar gas flow)-ANN(910,14H in N2 flow)-cool to RT(5C/min)" Hall and thermoelectric-power coefficients of superconducting Nd2CuO4-xFx 1992 5 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 10-13 Shinonome 1-chome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,45(1992)9951" 7923 PR0459951 "Nd2Cu(O,F)4" Nd2Cu1F0.22O3.78 Nd 2 Cu 1 F 0.22 O 3.78 1 1992 T' K 22 27 24.5 "Nd2O3, CuO, NdF3" "mixture-CAL(860C,10H in 20%O2-Ar gas flow)-press-pellet-SIN(1100C,14H in 1%O2-Ar gas flow)-ANN(910,14H in N2 flow)-cool to RT(5C/min)" Hall and thermoelectric-power coefficients of superconducting Nd2CuO4-xFx 1992 5 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 10-13 Shinonome 1-chome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,45(1992)9951" 7924 PR0459951 "Nd2Cu(O,F)4" Nd2Cu1F0.24O3.76 Nd 2 Cu 1 F 0.24 O 3.76 1 1992 T' K 27 27 "Nd2O3, CuO, NdF3" "mixture-CAL(860C,10H in 20%O2-Ar gas flow)-press-pellet-SIN(1100C,14H in 1%O2-Ar gas flow)-ANN(910,14H in N2 flow)-cool to RT(5C/min)" Hall and thermoelectric-power coefficients of superconducting Nd2CuO4-xFx 1992 5 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 10-13 Shinonome 1-chome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,45(1992)9951" 7925 PR0459951 "Nd2Cu(O,F)4" Nd2Cu1F0.3O3.7 Nd 2 Cu 1 F 0.3 O 3.7 1 1992 T' K 27 27 "Nd2O3, CuO, NdF3" "mixture-CAL(860C,10H in 20%O2-Ar gas flow)-press-pellet-SIN(1100C,14H in 1%O2-Ar gas flow)-ANN(910,14H in N2 flow)-cool to RT(5C/min)" Hall and thermoelectric-power coefficients of superconducting Nd2CuO4-xFx 1992 5 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 10-13 Shinonome 1-chome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,45(1992)9951" 7926 PHC2680095 quench "(Pb,Cu)(Sr,La)CuOz" Pb0.6Cu0.4Sr1La1Cu1O5.05 Pb 0.6 Cu 0.4 Sr 1 La 1 Cu 1 O z 5.05 1996 2 Pb1201 3.774 8.691 K 37.6 37.6 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7927 PHC2680095 quench "(Pb,Cu)(Sr,La)CuOz" Pb0.6Cu0.4Sr1La1Cu1O5.06 Pb 0.6 Cu 0.4 Sr 1 La 1 Cu 1 O z 5.06 1996 2 Pb1201 3.776 8.687 K 37.8 37.8 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7928 PHC2680095 quench "(Pb,Cu)(Sr,La)CuOz" Pb0.6Cu0.4Sr1La1Cu1O5.09 Pb 0.6 Cu 0.4 Sr 1 La 1 Cu 1 O z 5.09 1996 2 Pb1201 3.776 8.688 K 36.7 36.7 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7929 PHC2680095 quench "(Pb,Cu)(Sr,La)CuOz" Pb0.6Cu0.4Sr1La1Cu1O5.12 Pb 0.6 Cu 0.4 Sr 1 La 1 Cu 1 O z 5.12 1996 2 Pb1201 3.777 8.665 K 35.9 35.9 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7930 PHC2680095 quench "(Pb,Cu)(Sr,La)CuOz" Pb0.6Cu0.4Sr1La1Cu1O5.15 Pb 0.6 Cu 0.4 Sr 1 La 1 Cu 1 O z 5.15 1996 2 Pb1201 3.784 8.668 K 32 32 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7931 PHC2680095 HIP "(Pb,Cu)(Sr,La)CuOz" Pb0.6Cu0.4Sr1La1Cu1O5.19 Pb 0.6 Cu 0.4 Sr 1 La 1 Cu 1 O z 5.19 1996 2 Pb1201 3.788 8.662 K 25.1 25.1 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7932 PHC2680095 HIP "(Pb,Cu)(Sr,La)CuOz" Pb0.6Cu0.4Sr1La1Cu1O5.21 Pb 0.6 Cu 0.4 Sr 1 La 1 Cu 1 O z 5.21 1996 2 Pb1201 3.795 8.637 K 25.1 25.1 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7933 PHC2680095 quench "(Pb,Cu)(Sr,La)2CuOz" Pb0.6Cu0.4Sr1.1La0.9Cu1O5.07 Pb 0.6 Cu 0.4 Sr 1.1 La 0.9 Cu 1 O z 5.07 1996 Pb1201 K 33.9 33.9 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7934 PHC2680095 quench "(Pb,Cu)(Sr,La)2CuOz" Pb0.6Cu0.4Sr1.1La0.9Cu1O5.12 Pb 0.6 Cu 0.4 Sr 1.1 La 0.9 Cu 1 O z 5.12 1996 Pb1201 K 31 31 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7935 PHC2680095 as-sintered "(Pb,Cu)(Sr,La)2CuOz" Pb0.6Cu0.4Sr1.1La0.9Cu1O5.18 Pb 0.6 Cu 0.4 Sr 1.1 La 0.9 Cu 1 O z 5.18 1996 Pb1201 K 28 28 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7936 PHC2680095 HIP "(Pb,Cu)(sr,La)2CuOz" Pb0.6Cu0.4Sr1.1La0.9Cu1O5.19 Pb 0.6 Cu 0.4 Sr 1.1 La 0.9 Cu 1 O z 5.19 1996 Pb1201 K 25 25 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7937 PHC2680095 quench "(Pb,Cu)(Sr,La)2CuOz" Pb0.6Cu0.4Sr0.8La1.2Cu1O5.06 Pb 0.6 Cu 0.4 Sr 0.8 La 1.2 Cu 1 O z 5.06 1996 Pb1201 K 28.7 28.7 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7938 PHC2680095 quench "(Pb,Cu)(Sr,La)2CuOz" Pb0.6Cu0.4Sr0.8La1.2Cu1O5.11 Pb 0.6 Cu 0.4 Sr 0.8 La 1.2 Cu 1 O z 5.11 1996 Pb1201 K 34.8 34.8 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7939 PHC2680095 HIP "(Pb,Cu)(Sr,La)2CuOz" Pb0.6Cu0.4Sr0.8La1.2Cu1O5.29 Pb 0.6 Cu 0.4 Sr 0.8 La 1.2 Cu 1 O z 5.29 1996 Pb1201 K 25.2 25.2 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7940 PHC2680095 as-sintered "(Pb,Cu)(Sr,La)2CuOz" Pb0.6Cu0.4Sr0.8La1.2Cu1O5.28 Pb 0.6 Cu 0.4 Sr 0.8 La 1.2 Cu 1 O z 5.28 1996 Pb1201 K 28.1 28.1 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7941 PHC2680095 quench "(Pb,Cu)(Sr,La)2CuOz" Pb0.6Cu0.4Sr0.9La1.1Cu1O5.06 Pb 0.6 Cu 0.4 Sr 0.9 La 1.1 Cu 1 O z 5.06 1996 Pb1201 K 37.6 37.6 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7942 PHC2680095 quench "(Pb,Cu)(Sr,La)2CuOz" Pb0.6Cu0.4Sr0.9La1.1Cu1O5.18 Pb 0.6 Cu 0.4 Sr 0.9 La 1.1 Cu 1 O z 5.18 1996 Pb1201 K 31.6 31.6 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7943 PHC2680095 as-sintered "(Pb,Cu)(Sr,La)2CuOz" Pb0.6Cu0.4Sr0.9La1.1Cu1O5.24 Pb 0.6 Cu 0.4 Sr 0.9 La 1.1 Cu 1 O z 5.24 1996 Pb1201 K 27.8 27.8 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7944 PHC2680095 quench "(Pb,Cu)(Sr,La)2CuOz" Pb0.5Cu0.5Sr1La1Cu1O5.03 Pb 0.5 Cu 0.5 Sr 1 La 1 Cu 1 O z 5.03 1996 Pb1201 3.778 8.676 K 36.7 36.7 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7945 PHC2680095 quench "(Pb,Cu)(Sr,La)2CuOz" Pb0.5Cu0.5Sr1La1Cu1O5.05 Pb 0.5 Cu 0.5 Sr 1 La 1 Cu 1 O z 5.05 1996 Pb1201 3.772 8.688 K 36.7 36.7 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7946 PHC2680095 quench "(Pb,Cu)(Sr,La)2CuOz" Pb0.5Cu0.5Sr1La1Cu1O5.1 Pb 0.5 Cu 0.5 Sr 1 La 1 Cu 1 O z 5.1 1996 Pb1201 3.778 8.666 K 31.9 31.9 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7947 PHC2680095 as-sintered "(Pb,Cu)(Sr,La)2CuOz" Pb0.5Cu0.5Sr1La1Cu1O5.15 Pb 0.5 Cu 0.5 Sr 1 La 1 Cu 1 O z 5.15 1996 Pb1201 3.789 8.649 K 28 28 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7948 PHC2680095 HIP "(Pb,Cu)(Sr,La)2CuOz" Pb0.5Cu0.5Sr1La1Cu1O5.19 Pb 0.5 Cu 0.5 Sr 1 La 1 Cu 1 O z 5.19 1996 Pb1201 3.791 8.627 K 24.1 24.1 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7949 PHC2680095 quench "(Pb,Cu)(Sr,La)2CuOz" Pb0.5Cu0.5Sr0.8La1.2Cu1O5.01 Pb 0.5 Cu 0.5 Sr 0.8 La 1.2 Cu 1 O z 5.01 1996 Pb1201 3.772 8.684 K 38.7 38.7 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7950 PHC2680095 quench "(Pb,Cu)(Sr,La)2CuOz" Pb0.5Cu0.5Sr0.8La1.2Cu1O5.1 Pb 0.5 Cu 0.5 Sr 0.8 La 1.2 Cu 1 O z 5.1 1996 Pb1201 3.783 8.673 K 34.9 34.9 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7951 PHC2680095 as-sintered "(Pb,Cu)(Sr,La)2CuOz" Pb0.5Cu0.5Sr0.8La1.2Cu1O5.16 Pb 0.5 Cu 0.5 Sr 0.8 La 1.2 Cu 1 O z 5.16 1996 Pb1201 3.791 8.651 K 28 28 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7952 PHC2680095 HIP "(Pb,Cu)(Sr,La)2CuOz" Pb0.5Cu0.5Sr0.8La1.2Cu1O5.25 Pb 0.5 Cu 0.5 Sr 0.8 La 1.2 Cu 1 O z 5.25 1996 Pb1201 3.799 8.632 K 25.2 25.2 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7953 PHC2680095 quench "(Pb,Cu)(Sr,La)2CuOz" Pb0.5Cu0.5Sr0.9La1.1Cu1O5.02 Pb 0.5 Cu 0.5 Sr 0.9 La 1.1 Cu 1 O z 5.02 1996 Pb1201 3.771 8.688 K 38.5 38.5 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7954 PHC2680095 quench "(Pb,Cu)(Sr,La)2CuOz" Pb0.5Cu0.5Sr0.9La1.1Cu1O5.08 Pb 0.5 Cu 0.5 Sr 0.9 La 1.1 Cu 1 O z 5.08 1996 Pb1201 3.78 8.679 K 37.7 37.7 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7955 PHC2680095 as-sintered "(Pb,Cu)(Sr,La)2CuOz" Pb0.5Cu0.5Sr0.9La1.1Cu1O5.16 Pb 0.5 Cu 0.5 Sr 0.9 La 1.1 Cu 1 O z 5.16 1996 Pb1201 3.79 8.652 K 28.1 28.1 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7956 PHC2680095 HIP "(Pb,Cu)(Sr,La)2CuOz" Pb0.5Cu0.5Sr0.9La1.1Cu1O5.22 Pb 0.5 Cu 0.5 Sr 0.9 La 1.1 Cu 1 O z 5.22 1996 Pb1201 3.79 8.609 K 24.9 24.9 "PbO, SrCO3, La2O2, CuO" 1 "mixture-CAL(800C,5H in air)-pellet-SIN(1010-1015C,1.7-2.0H in O2 flow)-FC, HIP or quench" "Valence analysis of Pb and Cu and superconductivity of(Pb,Cu)(Sr,La)2CuOy" 1996 "Institute for Materials Research,Tohoku University,Katahira,Apba-ku,Sendai 98-77, Japan" "Physica.C,268(1996)95-99" "Pb, Cu, Sr, La, Cu, O" 7957 PHC2530254 "HgBa2Ca2Cu3(O,Fe)" Hg1Ba2Ca2Cu3Fe0.5Oz Hg 1 Ba 2 Ca 2 Cu 3 Fe 0.5 O z 1995 Hg1223 K 128.2 128.2 "precursor(Ba-Ca-Cu-O)-CAL(900C,24H in O2 flow)-(mixed with HgO, CuF2)-sealed(quartz tube)-SIN(800C,10H)-FC" effect of F-doping in the H-Ba-Ca-Cu-O system 1995 11 "Department of Physics, Hunan Narmal University, Changsha, Hunan 410006, P.R. China" "Physica C,253(1995)254-258" "Hg, Ba, Ca, Cu, O, F" 7958 PHC2530254 "HgBa2Ca2Cu3(O,Fe)" Hg1Ba2Ca2Cu3Fe0.6Oz Hg 1 Ba 2 Ca 2 Cu 3 Fe 0.6 O z 1995 Hg1223 K 130 130 "precursor(Ba-Ca-Cu-O)-CAL(900C,24H in O2 flow)-(mixed with HgO, CuF2)-sealed(quartz tube)-SIN(800C,10H)-FC" effect of F-doping in the H-Ba-Ca-Cu-O system 1995 11 "Department of Physics, Hunan Narmal University, Changsha, Hunan 410006, P.R. China" "Physica C,253(1995)254-258" "Hg, Ba, Ca, Cu, O, F" 7959 PHC2530254 "HgBa2Ca2Cu3(O,Fe)" Hg1Ba2Ca2Cu3Fe0.8Oz Hg 1 Ba 2 Ca 2 Cu 3 Fe 0.8 O z 1995 Hg1223 K 128.4 128.4 "precursor(Ba-Ca-Cu-O)-CAL(900C,24H in O2 flow)-(mixed with HgO, CuF2)-sealed(quartz tube)-SIN(800C,10H)-FC" effect of F-doping in the H-Ba-Ca-Cu-O system 1995 11 "Department of Physics, Hunan Narmal University, Changsha, Hunan 410006, P.R. China" "Physica C,253(1995)254-258" "Hg, Ba, Ca, Cu, O, F" 7960 PHC2530254 "HgBa2Ca2Cu3(O,Fe)" Hg1Ba2Ca2Cu3Fe1Oz Hg 1 Ba 2 Ca 2 Cu 3 Fe 1 O z 1995 Hg1223 K 125.2 125.2 "precursor(Ba-Ca-Cu-O)-CAL(900C,24H in O2 flow)-(mixed with HgO, CuF2)-sealed(quartz tube)-SIN(800C,10H)-FC" effect of F-doping in the H-Ba-Ca-Cu-O system 1995 11 "Department of Physics, Hunan Narmal University, Changsha, Hunan 410006, P.R. China" "Physica C,253(1995)254-258" "Hg, Ba, Ca, Cu, O, F" 7961 PHC3000017 "Cu(Ba,Sr)2YbCu2O6" Ba1.6Sr0.4Yb1Cu3O6.96 Ba 1.6 Sr 0.4 Yb 1 Cu 3 O 6+z 6.96 1998 3 Cu1212 3.789 3.867 11.59 K 82 82 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7962 PHC3000017 "Cu(Ba,Sr)2YbCu2O6" Ba1.6Sr0.4Yb1Cu3O6.8 Ba 1.6 Sr 0.4 Yb 1 Cu 3 O 6+z 6.8 1998 3 Cu1212 3.795 3.872 11.6 K 81 81 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7963 PHC3000017 "Cu(Ba,Sr)2YbCu2O6" Ba1.6Sr0.4Yb1Cu3O6.75 Ba 1.6 Sr 0.4 Yb 1 Cu 3 O 6+z 6.75 1998 3 Cu1212 3.803 3.864 11.63 K 60 60 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7964 PHC3000017 "Cu(Ba,Sr)2YbCu2O6" Ba1.6Sr0.4Yb1Cu3O6.64 Ba 1.6 Sr 0.4 Yb 1 Cu 3 O 6+z 6.64 1998 3 Cu1212 3.806 3.858 11.64 K 47 47 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7965 PHC3000017 "Cu(Ba,Sr)2YbCu2O6" Ba1.6Sr0.4Yb1Cu3O6.53 Ba 1.6 Sr 0.4 Yb 1 Cu 3 O 6+z 6.53 1998 3 Cu1212 3.817 3.851 11.67 K 34 34 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7966 PHC3000017 "Cu(Ba,Sr)2YbCu2O6" Ba1.6Sr0.4Yb1Cu3O6.48 Ba 1.6 Sr 0.4 Yb 1 Cu 3 O 6+z 6.48 1998 2 Cu1212 3.833 11.68 K 10 10 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7967 PHC3000017 "Cu(Ba,Sr)2YbCu2O6" Ba1.6Sr0.4Yb1Cu3O6.42 Ba 1.6 Sr 0.4 Yb 1 Cu 3 O 6+z 6.42 1998 2 Cu1212 3.836 11.7 K 5 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7968 PHC3000017 "Cu(Ba,Sr)2YbCu2O6" Ba1.6Sr0.4Yb1Cu3O6.26 Ba 1.6 Sr 0.4 Yb 1 Cu 3 O 6+z 6.26 1998 2 Cu1212 3.835 11.73 K 5 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7969 PHC3000017 "Cu(Ba,Sr)2YbCu2O6" Ba1.6Sr0.4Yb1Cu3O6.15 Ba 1.6 Sr 0.4 Yb 1 Cu 3 O 6+z 6.15 1998 2 Cu1212 3.834 11.74 K 5 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7970 PHC3000017 "Cu(Ba,Sr)2YbCu2O6" Ba1.6Sr0.4Yb1Cu3O5.97 Ba 1.6 Sr 0.4 Yb 1 Cu 3 O 6+z 5.97 1998 2 Cu1212 3.834 11.73 K 5 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7971 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.95Ca0.05Cu3O6.8 Ba 1.6 Sr 0.4 Yb 0.95 Ca 0.05 Cu 3 O 6+z 6.8 1998 3 Cu1212 3.792 3.862 11.61 K 80 80 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7972 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.95Ca0.05Cu3O6.76 Ba 1.6 Sr 0.4 Yb 0.95 Ca 0.05 Cu 3 O 6+z 6.76 1998 3 Cu1212 3.8 3.864 11.62 K 80 80 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7973 PHC3000017 "Cu(Ba,Sr)2(YB,Ca)Cu2O6" Ba1.6Sr0.4Yb0.95Ca0.05Cu3O6.58 Ba 1.6 Sr 0.4 Yb 0.95 Ca 0.05 Cu 3 O 6+z 6.58 1998 3 Cu1212 3.813 3.863 11.66 K 55 55 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7974 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.95Ca0.05Cu3O6.56 Ba 1.6 Sr 0.4 Yb 0.95 Ca 0.05 Cu 3 O 6+z 6.56 1998 2 Cu1212 3.835 11.69 K 30 30 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7975 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.95Ca0.05Cu3O6.33 Ba 1.6 Sr 0.4 Yb 0.95 Ca 0.05 Cu 3 O 6+z 6.33 1998 2 Cu1212 3.836 11.7 K 5 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7976 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.95Ca0.05Cu3O6.21 Ba 1.6 Sr 0.4 Yb 0.95 Ca 0.05 Cu 3 O 6+z 6.21 1998 2 Cu1212 3.833 11.73 K 5 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7977 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.95Ca0.05Cu3O6.07 Ba 1.6 Sr 0.4 Yb 0.95 Ca 0.05 Cu 3 O 6+z 6.07 1998 2 Cu1212 3.837 11.75 K 5 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7978 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.95Ca0.05Cu3O6 Ba 1.6 Sr 0.4 Yb 0.95 Ca 0.05 Cu 3 O 6+z 6 1998 2 Cu1212 3.836 11.74 K 5 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7979 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.9Ca0.1Cu3O6.03 Ba 1.6 Sr 0.4 Yb 0.9 Ca 0.1 Cu 3 O 6+z 6.03 1998 2 Cu1212 3.832 11.72 K 5 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7980 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.85Ca0.15Cu3O6.83 Ba 1.6 Sr 0.4 Yb 0.85 Ca 0.15 Cu 3 O 6+z 6.83 1998 3 Cu1212 3.795 3.857 11.61 K 76 76 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7981 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.85Ca0.15Cu3O6.6 Ba 1.6 Sr 0.4 Yb 0.85 Ca 0.15 Cu 3 O 6+z 6.6 1998 3 Cu1212 3.816 3.862 11.67 K 61 61 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7982 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.85Ca0.15Cu3O6.36 Ba 1.6 Sr 0.4 Yb 0.85 Ca 0.15 Cu 3 O 6+z 6.36 1998 2 Cu1212 3.833 11.7 K 19 19 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7983 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.85Ca0.15Cu3O6.17 Ba 1.6 Sr 0.4 Yb 0.85 Ca 0.15 Cu 3 O 6+z 6.17 1998 2 Cu1212 3.831 11.73 K 5 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7984 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.85Ca0.15CaO6.22 Ba 1.6 Sr 0.4 Yb 0.85 Ca 0.15 Ca O 6+z 6.22 1998 2 Cu1212 3.831 11.73 K 5 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7985 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.85Ca0.15Cu3O6.01 Ba 1.6 Sr 0.4 Yb 0.85 Ca 0.15 Cu 3 O 6+z 6.01 1998 2 Cu1212 3.829 11.73 K 5 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7986 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.75Ca0.25Cu3O6.68 Ba 1.6 Sr 0.4 Yb 0.75 Ca 0.25 Cu 3 O 6+z 6.68 1998 3 Cu1212 3.801 3.857 11.6 K 74 74 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7987 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.75Ca0.25Cu3O6.51 Ba 1.6 Sr 0.4 Yb 0.75 Ca 0.25 Cu 3 O 6+z 6.51 1998 Cu1212 K 66 66 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7988 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.75Ca0.25Cu3O6.3 Ba 1.6 Sr 0.4 Yb 0.75 Ca 0.25 Cu 3 O 6+z 6.3 1998 2 Cu1212 3.835 11.71 K 34 34 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7989 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.75Ca0.25Cu3O6.19 Ba 1.6 Sr 0.4 Yb 0.75 Ca 0.25 Cu 3 O 6+z 6.19 1998 2 Cu1212 3.82 11.72 K 25 25 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7990 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.75Ca0.25Cu3O6.19 Ba 1.6 Sr 0.4 Yb 0.75 Ca 0.25 Cu 3 O 6+z 6.19 1998 2 Cu1212 3.831 11.73 K 23 23 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7991 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.75Ca0.25Cu3O6 Ba 1.6 Sr 0.4 Yb 0.75 Ca 0.25 Cu 3 O 6+z 6 1998 2 Cu1212 3.833 11.72 K 22 22 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7992 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.65Ca0.35Cu3O6.63 Ba 1.6 Sr 0.4 Yb 0.65 Ca 0.35 Cu 3 O 6+z 6.63 1998 3 Cu1212 3.806 3.855 11.62 K 77 77 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7993 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.65Ca0.35Cu3O6.53 Ba 1.6 Sr 0.4 Yb 0.65 Ca 0.35 Cu 3 O 6+z 6.53 1998 3 Cu1212 3.816 3.857 11.65 K 78 78 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7994 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.65Ca0.35Cu3O6.52 Ba 1.6 Sr 0.4 Yb 0.65 Ca 0.35 Cu 3 O 6+z 6.52 1998 3 Cu1212 3.827 3.848 11.66 K 79 79 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7995 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.65Ca0.35Cu3O6.45 Ba 1.6 Sr 0.4 Yb 0.65 Ca 0.35 Cu 3 O 6+z 6.45 1998 2 Cu1212 3.835 11.68 K 73 73 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7996 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.65Ca0.35Cu2O6.4 Ba 1.6 Sr 0.4 Yb 0.65 Ca 0.35 Cu 2 O 6+z 6.4 1998 2 Cu1212 3.838 11.69 K 61 61 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7997 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.65Ca0.35Cu3O6.28 Ba 1.6 Sr 0.4 Yb 0.65 Ca 0.35 Cu 3 O 6+z 6.28 1998 2 Cu1212 3.837 11.72 K 51 51 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7998 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.8Ca0.2Cu3O6.04 Ba 1.6 Sr 0.4 Yb 0.8 Ca 0.2 Cu 3 O 6+z 6.04 1998 2 Cu1212 3.83 11.72 K 13 13 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 7999 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.7Ca0.3Cu3O6 Ba 1.6 Sr 0.4 Yb 0.7 Ca 0.3 Cu 3 O 6+z 6 1998 2 Cu1212 3.83 11.74 K 41 41 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 8000 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Cu1Ba1.6Sr0.4Yb0.65Ca0.35Cu2O6.15 Cu 1 Ba 1.6 Sr 0.4 Yb 0.65 Ca 0.35 Cu 2 O 6+z 6.15 1998 2 Cu1212 3.834 11.73 K 48 48 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 8001 PHC3000017 "Cu(Ba,Ca)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.65Ca0.35Cu3O6.15 Ba 1.6 Sr 0.4 Yb 0.65 Ca 0.35 Cu 3 O 6+z 6.15 1998 2 Cu1212 3.835 11.73 K 49 49 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 8002 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.65Ca0.35Cu3O6.04 Ba 1.6 Sr 0.4 Yb 0.65 Ca 0.35 Cu 3 O 6+z 6.04 1998 2 Cu1212 3.832 11.73 K 50 50 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 8003 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.6Ca0.4Cu3O6.61 Ba 1.6 Sr 0.4 Yb 0.6 Ca 0.4 Cu 3 O 6+z 6.61 1998 3 Cu1212 3.807 3.856 11.61 K 76 76 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 8004 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.6Ca0.4Cu3O6.36 Ba 1.6 Sr 0.4 Yb 0.6 Ca 0.4 Cu 3 O 6+z 6.36 1998 2 Cu1212 3.839 11.67 K 75 75 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 8005 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.6Ca0.4Cu3O6.25 Ba 1.6 Sr 0.4 Yb 0.6 Ca 0.4 Cu 3 O 6+z 6.25 1998 2 Cu1212 3.838 11.71 K 53 53 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 8006 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.6Ca0.4Cu3O6.14 Ba 1.6 Sr 0.4 Yb 0.6 Ca 0.4 Cu 3 O 6+z 6.14 1998 2 Cu1212 3.835 11.72 K 47 47 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 8007 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.6Ca0.4Cu3O6.14 Ba 1.6 Sr 0.4 Yb 0.6 Ca 0.4 Cu 3 O 6+z 6.14 1998 2 Cu1212 3.834 11.73 K 46 46 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 8008 PHC3000017 "Cu(Ba,Sr)2(Yb,Ca)Cu2O6" Ba1.6Sr0.4Yb0.6Ca0.4Cu3O6.04 Ba 1.6 Sr 0.4 Yb 0.6 Ca 0.4 Cu 3 O 6+z 6.04 1998 2 Cu1212 3.835 11.72 K 47 47 "Yb2O3, CaCO3, BaCO3, SrCO3, CuO" 1 "mixture-CAL(in air)-SIN(900-940C, in air)-ANN(400C, 24H in O2 flow), or ANN(in Ar flow)" "Investigation of different hole-doping routes in Cu(Ba,Sr)2(Yb1-xCax)Cu2O6+z" 1998 5 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226, Japan" "Physica.C,300(1998)17-25" 8009 PHC2980049 HgBa2Ca2Cu3Oz Hg0.75Ba2.07Ca2.07Cu3.11O8.136 Hg 0.75 Ba 2.07 Ca 2.07 Cu 3.11 O z 8.136 1998 Hg1223 K 132.9 132.9 "mixture((HgO+3CuO):(BaO+CuO)=1.00:2.00)-pellet-sealed in quartz tube-heat(625-660C,12-48H)" Chemical thermodynamics of Hg1201 and Hg1223 phases 1998 3 "Department of Industrial Chemistry, Faculty of Science and Technology, Science University of Tokyo, 2641 Yamazaki, Noda-shi, chiba 278, Japan" "Physica.C,298(1998)49-58" 8010 PHC2980049 HgBa2CuOz Hg0.92Ba2.05Cu1.03O4.044 Hg 0.92 Ba 2.05 Cu 1.03 O z 4.044 1998 Hg1201 K 90.7 90.7 "HgO, CuO, BaO2" "mixture(Hg:Ba:Cu=1.05:2.00:1.00)-pellet-seald in quartz tube-heat(800C,30-150min)-Q to RT" Chemical thermodynamics of Hg1201 and Hg1223 phases 1998 3 "Department of Industrial Chemistry, Faculty of Science and Technology, Science University of Tokyo, 2641 Yamazaki, Noda-shi, chiba 278, Japan" "Physica.C,298(1998)49-58" 8011 PHC3000033 "Bi2Sr2Ca(Cu,K)2O8" Bi2Sr2Ca1Cu1.95K0.5O8+z Bi 2 Sr 2 Ca 1 Cu 1.95 K 0.5 O 8+z 1 1998 Bi2212 5.41 5.42 30.76 K 85 85 "ESR meamrement, Brandt' model." 2670 "sol-gel method, ANN(840C,12H)" Magnetic penetration depth in K-doped Bi-2212 Bi2Sr2CaCu2-xKO8+delta: ESR study 1998 5 "School of Physics, University of Hyderabad, P.O. Central University, Hyderabad 500 046, India" "Physica.C,300(1998)33-37" 8012 PHC300033 "Bi2Sr2Ca(Cu,K)2O8" Bi2Sr2Ca1Cu1.4K0.6O8+z Bi 2 Sr 2 Ca 1 Cu 1.4 K 0.6 O 8+z 1998 Bi2212 5.4 5.43 30.72 K 87 87 "ESR meamrement, Brandt' model." 2209 "sol-gel method, ANN(840C,12H)" Magnetic penetration depth in K-doped Bi-2212 Bi2Sr2CaCu2-xKxO8+delta: ESR study 1998 "School of Physics, University of Hyderabad, P.O. Central University, Hyderabad 500 046, India" Physica C300(1998)33-37 8013 PHC3000033 "Bi2Sr2Ca(Cu,K)2O8" Bi2Sr2Ca1Cu1.3K0.7O8+z Bi 2 Sr 2 Ca 1 Cu 1.3 K 0.7 O 8+z 1 1998 Bi2212 5.42 5.41 30.69 K 93 93 "ESR meamrement, Brandt' model." 1906 "sol-gel method, ANN(840C,12H)" Magnetic penetration depth in K-doped Bi-2212 Bi2Sr2CaCu2-xKO8+delta: ESR study 1998 5 "School of Physics, University of Hyderabad, P.O. Central University, Hyderabad 500 046, India" "Physica.C,300(1998)33-37" 8014 PHC3000071 Ag-prepured HgBa2Ca4Cu5Oz Hg1Ba2Ca4Cu5Oz Hg 1 Ba 2 Ca 4 Cu 5 O z 2 1998 2 Hg1245 3.848 22.149 K 100 100 "High pressure synthesis, pressure, atmosphere, temperature, ratio of BaO/BaO2, are variables" Synthesis and characterization of overdoped Hg-1234 and Hg-1245 phases; the universal behavior of Tc variation in the HgBa2Can-1CunO2n+2+delta series 1998 5 "Department of Chemistry, Moscow State University, 119899, Moscow, Russian Federation" "Physica.C,300(1998)71-76" 8015 PHC3000071 "N2-flow, 300C, 2OH" HgBa2Ca4Cu5Oz Hg1Ba2Ca4Cu5Oz Hg 1 Ba 2 Ca 4 Cu 5 O z 2 1998 2 Hg1245 3.853 22.181 K 85 85 "High pressure synthesis, pressure, atmosphere, temperature, ratio of BaO/BaO2, are variables" Synthesis and characterization of overdoped Hg-1234 and Hg-1245 phases; the universal behavior of Tc variation in the HgBa2Can-1CunO2n+2+delta series 1998 5 "Department of Chemistry, Moscow State University, 119899, Moscow, Russian Federation" "Physica.C,300(1998)71-76" 8016 PHC3000071 "O2-flow, 300C, 50H" HgBa2Ca4Cu5Oz Hg1Ba2Ca4Cu5Oz Hg 1 Ba 2 Ca 4 Cu 5 O z 2 1998 2 Hg1245 3.852 22.161 K 106 106 "High pressure synthesis, pressure, atmosphere, temperature, ratio of BaO/BaO2, are variables" Synthesis and characterization of overdoped Hg-1234 and Hg-1245 phases; the universal behavior of Tc variation in the HgBa2Can-1CunO2n+2+delta series 1998 5 "Department of Chemistry, Moscow State University, 119899, Moscow, Russian Federation" "Physica.C,300(1998)71-76" 8017 PHC3000071 "P(O2)=2000 bar, 300C, 10H" HgBa2Ca4Cu5Oz Hg1Ba2Ca4Cu5Oz Hg 1 Ba 2 Ca 4 Cu 5 O z 2 1998 2 Hg1245 8.503 22.157 K 111 111 "High pressure synthesis, pressure, atmosphere, temperature, ratio of BaO/BaO2, are variables" Synthesis and characterization of overdoped Hg-1234 and Hg-1245 phases; the universal behavior of Tc variation in the HgBa2Can-1CunO2n+2+delta series 1998 5 "Department of Chemistry, Moscow State University, 119899, Moscow, Russian Federation" "Physica.C,300(1998)71-76" 8018 PHC3000071 As-prepared HgBa2Ca3Cu4Oz Hg1Ba2Ca3Cu4Oz Hg 1 Ba 2 Ca 3 Cu 4 O z 2 1998 2 Hg1234 3.845 19.001 K 116 116 "High pressure synthesis, pressure, atmosphere, temperature, ratio of BaO/BaO2, are variables" Synthesis and characterization of overdoped Hg-1234 and Hg-1245 phases; the universal behavior of Tc variation in the HgBa2Can-1CunO2n+2+delta series 1998 5 "Department of Chemistry, Moscow State University, 119899, Moscow, Russian Federation" "Physica.C,300(1998)71-76" 8019 PHC3000071 "N2-flow, 300, 20H" HgBa2Ca3Cu4Oz Hg1Ba2Ca3Cu4Oz Hg 1 Ba 2 Ca 3 Cu 4 O z 2 1998 2 Hg1234 3.8532 19.003 K 95 95 "High pressure synthesis, pressure, atmosphere, temperature, ratio of BaO/BaO2, are variables" Synthesis and characterization of overdoped Hg-1234 and Hg-1245 phases; the universal behavior of Tc variation in the HgBa2Can-1CunO2n+2+delta series 1998 5 "Department of Chemistry, Moscow State University, 119899, Moscow, Russian Federation" "Physica.C,300(1998)71-76" 8020 PHC3000071 "O2-flow, 300C, 50H" HgBa2Ca3Cu4Oz Hg1Ba2Ca3Cu4Oz Hg 1 Ba 2 Ca 3 Cu 4 O z 2 1998 2 Hg1234 3.852 19.009 K 116 116 "High pressure synthesis, pressure, atmosphere, temperature, ratio of BaO/BaO2, are variables" Synthesis and characterization of overdoped Hg-1234 and Hg-1245 phases; the universal behavior of Tc variation in the HgBa2Can-1CunO2n+2+delta series 1998 5 "Department of Chemistry, Moscow State University, 119899, Moscow, Russian Federation" "Physica.C,300(1998)71-76" 8021 PHC3000071 "P(O2)=2000 bar, 300C, 10H" HgBa2Ca3Cu4Oz Hg1Ba2Ca3Cu4Oz Hg 1 Ba 2 Ca 3 Cu 4 O z 2 1998 2 Hg1234 3.851 19.011 K 125 125 "High pressure synthesis, pressure, atmosphere, temperature, ratio of BaO/BaO2, are variables" Synthesis and characterization of overdoped Hg-1234 and Hg-1245 phases; the universal behavior of Tc variation in the HgBa2Can-1CunO2n+2+delta series 1998 5 "Department of Chemistry, Moscow State University, 119899, Moscow, Russian Federation" "Physica.C,300(1998)71-76" 8022 PHC2130026 Sr2CuO2CO3 type. "(La,Ba)2CuO2(BO3)" La1Ba1Cu1B1O5 La 1 Ba 1 Cu 1 B 1 O 5 1993 2 3.941 7.504 K 4.2 "THE SYNTHESIS AND CHARACTERIZATION OF A NEW FAMILY OF SINGLE LAYER CUPRATES LNBACUO2BO3 (LN=LA,PR,ND,SM,EU AND GD)" 1993 8 "PHYSICA C,213(1993)26" "R,BA,CU,O,B" 8023 PHC2130026 Sr2CuO2CO3 type "(Pr,Ba)2CuO2(BO3)" Pr1Ba1Cu1B1O5 Pr 1 Ba 1 Cu 1 B 1 O 5 1993 2 3.915 7.453 K 4.2 "THE SYNTHESIS AND CHARACTERIZATION OF A NEW FAMILY OF SINGLE LAYER CUPRATES LNBACUO2BO3 (LN=LA,PR,ND,SM,EU AND GD)" 1993 8 "PHYSICA C,213(1993)26" "R,BA,CU,O,B" 8024 PHC2130026 Sr2CuO2CO3 type "(Nd,Ba)2CuO2(BO3)" Nd1Ba1Cu1B1O5 Nd 1 Ba 1 Cu 1 B 1 O 5 1993 2 3.905 7.438 K 4.2 "THE SYNTHESIS AND CHARACTERIZATION OF A NEW FAMILY OF SINGLE LAYER CUPRATES LNBACUO2BO3 (LN=LA,PR,ND,SM,EU AND GD)" 1993 8 "PHYSICA C,213(1993)26" "R,BA,CU,O,B" 8025 PHC2130026 Sr2CuO2CO3 type "(Sm,Ba)2CuO2(BO3)" Sm1Ba1Cu1B1O5 Sm 1 Ba 1 Cu 1 B 1 O 5 1993 2 3.891 7.416 K 4.2 "THE SYNTHESIS AND CHARACTERIZATION OF A NEW FAMILY OF SINGLE LAYER CUPRATES LNBACUO2BO3 (LN=LA,PR,ND,SM,EU AND GD)" 1993 8 "PHYSICA C,213(1993)26" "R,BA,CU,O,B" 8026 PHC2130026 Sr2CuO2CO3 type "(Eu,Ba)2CuO2(BO3)" Eu1Ba1Cu1B1O5 Eu 1 Ba 1 Cu 1 B 1 O 5 1993 2 3.881 7.395 K 4.2 "THE SYNTHESIS AND CHARACTERIZATION OF A NEW FAMILY OF SINGLE LAYER CUPRATES LNBACUO2BO3 (LN=LA,PR,ND,SM,EU AND GD)" 1993 8 "PHYSICA C,213(1993)26" "R,BA,CU,O,B" 8027 PHC2130026 Sr2CuO2CO3 type "(Gd,Ba)2CuO2(BO3)" Gd1Ba1Cu1B1O5 Gd 1 Ba 1 Cu 1 B 1 O 5 1993 2 3.874 7.395 K 4.2 "THE SYNTHESIS AND CHARACTERIZATION OF A NEW FAMILY OF SINGLE LAYER CUPRATES LNBACUO2BO3 (LN=LA,PR,ND,SM,EU AND GD)" 1993 8 "PHYSICA C,213(1993)26" "R,BA,CU,O,B" 8028 PHC2080193 "Au thors say, Tc(onset)=45-60 for optimum composition" "(Y,Sr,Ca)Sr2(Cu,SO4)3Oz" Y0.74Ca0.16Sr2.1Cu2.78S0.22O7 Y 0.74 Ca 0.16 Sr 2.1 Cu 2.78 S 0.22 O 7 1993 3 Y123 3.825 3.843 11.26 K 25 25 1 "mixture-heat (1065C,14H in O2)-pellet-heat (1065C,14H in O2)-FC to RT" COPPER OXIDE SUPERCONDUCTORS CONTAINING SULPHATE AND PHOSPHATEGROUPS 1993 4 "PHYSICA C,208(1993)193" "Y,SR,CU,S,O,BA" 8029 PHC2080116 unit cell-2a*b*2c YCaBa4Cu5(NO3)0.3(CO3)0.7O11 Y1Ca1Ba4Cu5N0.3C0.7O14 Y 1 Ca 1 Ba 4 Cu 5 N 0.3 C 0.7 O 14 1993 3 Y123 3.879 3.885 11.536 K 82 82 15 "mixture-bar-in an evacuated ampoule-heat(900C,24H)-FC to RT" "INTRODUCTION OF NITRATE GROUPS IN THE ""123""STRUCTURE" 1993 4 "PHYSICA C,208(1993)116" "Y,CA,BA,CU,N,C,O" 8030 PHC2080149 "as-synthesized, Tl1201+Sr2CuO2CO3" "(Tl,Bi)Sr4Cu2(CO3)O7" Tl0.5Bi0.5Sr4Cu2C1O10 Tl 0.5 Bi 0.5 Sr 4 Cu 2 C 1 O 10 1993 P4/mmm 3.831 16.518 K 55 55 "Tl2O3, Bi2O3, SrCO3, Sr2CuO3, SrO2, CuO" "mixture-bar-in alumina crucible-seal (evacuated quartz tube)-heat(860C,6H)-Q to RT" A 55 K SUPERCONDUCTING COPPER OXYCARBONATE: TL1-XBIXSR4CU2CO3O7 1993 4 "PHYSICA C,208(1993)149" "TL,BI,SR,CU,C,O" 8031 PHC2080149 annealed in Ar/H2 at 290C for 15min "(Tl,Bi)Sr4Cu2(CO3)O7" Tl0.5Bi0.5Sr4Cu2C1O10 Tl 0.5 Bi 0.5 Sr 4 Cu 2 C 1 O 10 1993 K 52 52 "Tl2O3, Bi2O3, SrCO3, Sr2CuO3, SrO2, CuO" "mixture-bar-in alumina crucible-seal (evacuated quartz tube)-heat(860C,6H)-Q to RT" A 55 K SUPERCONDUCTING COPPER OXYCARBONATE: TL1-XBIXSR4CU2CO3O7 1993 4 "PHYSICA C,208(1993)149" "TL,BI,SR,CU,C,O" 8032 PHC2080149 annealed in Ar/H2 at 290C for 75 min "(Tl,Bi)Sr4Cu2(CO3)O7" Tl0.7Bi0.3Sr4Cu2C1O10 Tl 0.7 Bi 0.3 Sr 4 Cu 2 C 1 O 10 1993 K 50 50 "Tl2O3, Bi2O3, SrCO3, Sr2CuO3, SrO2, CuO" "mixture-bar-in alumina crucible-seal (evacuated quartz tube)-heat(860C,6H)-Q to RT" A 55 K SUPERCONDUCTING COPPER OXYCARBONATE: TL1-XBIXSR4CU2CO3O7 1993 4 "PHYSICA C,208(1993)149" "TL,BI,SR,CU,C,O" 8033 PHC2080149 "as-synthesized, Tl1201+Sr2CuO2CO3" "(Tl,Bi)Sr4Cu2(CO3)O7" Tl0.7Bi0.3Sr4Cu2C1O10 Tl 0.7 Bi 0.3 Sr 4 Cu 2 C 1 O 10 1993 K 48 48 "Tl2O3, Bi2O3, SrCO3, Sr2CuO3, SrO2, CuO" "mixture-bar-in alumina crucible-seal (evacuated quartz tube)-heat(860C,6H)-Q to RT" A 55 K SUPERCONDUCTING COPPER OXYCARBONATE: TL1-XBIXSR4CU2CO3O7 1993 4 "PHYSICA C,208(1993)149" "TL,BI,SR,CU,C,O" 8034 PHC2080121 intergrowth (Bi2Sr2CuO6+Sr2CuO2CO3) Bi2Sr4Cu2CO3O8 Bi2Sr4Cu2C1O11 Bi 2 Sr 4 Cu 2 C 1 O 11 1993 3 5.466 5.46 39.5 K 30 30 5 1 "Bi2O3:SrCO3:CuO=1:4:2, mixture-heat(700C,48H+800C,2H in air)-Q to RT" THE BISMUTH OXYCARBONATE BI2SR4CU2CO3O8. 1993 4 "PHYSICA C,208(1993)121" "BI,SR,CU,C,O" 8035 PHC2070065 Y4Sr8Cu11CO3O25 Y4Sr8Cu11C1O28 Y 4 Sr 8 Cu 11 C 1 O 28 1993 3 Bm2m 15.311 3.851 22.371 K 4 "ORDERED SUBSTITUTION OF ""CO3""GROUPS FOR CUO4 SQUARE GROUPS IN THE ""123"" STRUCTURE" 1993 3 "PHYSICA C,207(1993)65" "C,O,CU,Y,SR" 8036 PHC2050219 as-prepared Tl0.5Pb0.5Sr4Cu2C7.75O23.25 Tl 0.5 Pb 0.5 Sr 4 Cu 2 C 7.75 O 23.25 1993 2 P4/mmm 3.824 16.516 K 23 23 45 "Tl2O3, PbO2, SrO2, CuO, Sr2CuO3, C+SrCO3" "mixture-press into bars-alumina crucible-seal in quartz ampoule-heat(900C,6H)-Q to RT" A 70 K SUPERCONDUCTOR 1993 2 "PHYSICA C,205(1993)219" "TL,PB,SR,CU,C,O" 8037 PHC2050219 "annealing in H2/Ar atmosphese(290C,15min)" Tl0.5Pb0.5Sr4Cu2C7.75O23.25 Tl 0.5 Pb 0.5 Sr 4 Cu 2 C 7.75 O 23.25 1993 K 63 63 50 "Tl2O3, PbO2, SrO2, CuO, Sr2CuO3, C+SrCO3" "mixture-press into bars-alumina crucible-seal in quartz ampoule-heat(900C,6H)-Q to RT" A 70 K SUPERCONDUCTOR 1993 2 "PHYSICA C,205(1993)219" "TL,PB,SR,CU,C,O" 8038 PHC2050219 as-prepared Tl0.5Pb0.5Sr4Cu2C7O21 Tl 0.5 Pb 0.5 Sr 4 Cu 2 C 7 O 21 1993 K 60 60 70 "Tl2O3, PbO2, SrO2, CuO, Sr2CuO3, C+SrCO3" "mixture-press into bars-alumina crucible-seal in quartz ampoule-heat(900C,6H)-Q to RT" A 70 K SUPERCONDUCTOR 1993 2 "PHYSICA C,205(1993)219" "TL,PB,SR,CU,C,O" 8039 PHC2050219 "annealing in H2/Ar atmosphese(290C, 15min)" Tl0.5Pb0.5Sr4Cu2C7O21 Tl 0.5 Pb 0.5 Sr 4 Cu 2 C 7 O 21 1993 K 70 70 70 "Tl2O3, PbO2, SrO2, CuO, Sr2CuO3, C+SrCO3" "mixture-press into bars-alumina crucible-seal in quartz ampoule-heat(900C,6H)-Q to RT" A 70 K SUPERCONDUCTOR 1993 2 "PHYSICA C,205(1993)219" "TL,PB,SR,CU,C,O" 8040 NAT3570313 about 10% of C are replaced by Cu atoms. "(Ba,Sr)2CuO2(CO3)" Ba1.1Sr0.9Cu1.1C0.9O4.9+z Ba 1.1 Sr 0.9 Cu 1.1 C 0.9 O 4.9+z 1992 2 5.564 7.857 K 26 40 26 26 20 "BaCO3, SrCO3, CuO" "mixture-CAL(800,20H +850C, 100H in air)-HIP(1000C, 50H in 20%O2+80%Ar, P=250 atm)" A NEW COPPER OXIDE SUPERCONDUCTOR CONTAINING CARBON 1992 5 NATURE 357(1992)313 8041 SSC0900435 IR spectrum shows BO3(3-)ion "YSr(Cu,(BO3))3O7" Y1Sr2Cu2.75B0.25Oz Y 1 Sr 2 Cu 2.75 B 0.25 O z 1994 2 Y123 3.816 10.985 K 10 "Y2O3, BaO2, SrCO3, CaCO3, CuO, H3BO3" "miture-heat(1273K,16H in air)-SIN(1273K,16H in air)-FC to RT" SUPERCONDUCTING BORATE DERIVATIVES OF 123 CUPRATES 1994 "Solid State and Structural chenistry Un 1t Bangalore-560-012, India" Solid State Commun.90(1994)435-437 8042 SSC0900435 IR spectrum shows BO3(3-)ion. "Y(SrBa)2(Cu,(BO3))3O7" Y1Sr1.75Ba0.25Cu2.75B0.25Oz Y 1 Sr 1.75 Ba 0.25 Cu 2.75 B 0.25 O z 1994 2 Y123 3.819 11.266 K 10 "Y2O3, BaO2, SrCO3, CaCO3, CuO, H3BO3" "miture-heat(1273K,16H in air)-SIN(1273K,16H in air)-FC to RT" SUPERCONDUCTING BORATE DERIVATIVES OF 123 CUPRATES 1994 "Solid State and Structural chenistry Un 1t Bangalore-560-012, India" Solid State Commun.90(1994)435-437 8043 SSC0900435 IR spectrum "Y(Sr,Ba)2(Cu,(BO3))3O7" Y1Sr1.5Ba5Cu2.75B0.25Oz Y 1 Sr 1.5 Ba 5 Cu 2.75 B 0.25 O z 1994 2 Y123 3.826 11.33 K 10 "Y2O3, BaO2, SrCO3, CaCO3, CuO, H3BO3" "miture-heat(1273K,16H in air)-SIN(1273K,16H in air)-FC to RT" SUPERCONDUCTING BORATE DERIVATIVES OF 123 CUPRATES 1994 "Solid State and Structural chenistry Un 1t Bangalore-560-012, India" Solid State Commun.90(1994)435-437 8044 SSC0900435 IR spectrum shows BO(3-)ion "Y(Sr,Ba)2(Cu,(BO3))3O7" Y1Sr1.25Ba0.75Cu2.75B0.25Oz Y 1 Sr 1.25 Ba 0.75 Cu 2.75 B 0.25 O z 1994 2 Y123 3.834 11.34 K 10 "Y2O3, BaO2, SrCO3, CaCO3, CuO, H3BO3" "miture-heat(1273K,16H in air)-SIN(1273K,16H in air)-FC to RT" SUPERCONDUCTING BORATE DERIVATIVES OF 123 CUPRATES 1994 "Solid State and Structural chenistry Un 1t Bangalore-560-012, India" Solid State Commun.90(1994)435-437 8045 SSC0900435 IR spectrum shows BO3(3-) ion. "Y(Sr,Ba)2(Cu,(BO3))3O7" Y1Sr1Ba1Cu2.75B0.25Oz Y 1 Sr 1 Ba 1 Cu 2.75 B 0.25 O z 1994 2 Y123 3.836 11.354 K 35 35 "Y2O3, BaO2, SrCO3, CaCO3, CuO, H3BO3" "miture-heat(1273K,16H in air)-SIN(1273K,16H in air)-FC to RT" SUPERCONDUCTING BORATE DERIVATIVES OF 123 CUPRATES 1994 "Solid State and Structural chenistry Un 1t Bangalore-560-012, India" Solid State Commun.90(1994)435-437 8046 SSC0900435 "(Y,Ca)(Sr,Ba)2(Cu,BO3)3O7" Y0.5Ca0.5Sr1Ba1Cu2.75B0.25Oz Y 0.5 Ca 0.5 Sr 1 Ba 1 Cu 2.75 B 0.25 O z 1994 2 Y123 3.836 11.305 K 50 50 "Y2O3, BaO2, SrCO3, CaCO3, CuO, H3BO3" "miture-heat(1273K,16H in air)-SIN(1273K,16H in air)-FC to RT" SUPERCONDUCTING BORATE DERIVATIVES OF 123 CUPRATES 1994 "Solid State and Structural chenistry Un 1t Bangalore-560-012, India" Solid State Commun.90(1994)435-437 8047 PHC2170027 Bi2Sr2CuOz+Sr2CuO2CO3 intergrowth Bi2Sr4Cu2(CO3)O8 Bi2Sr4Cu2C1O11-z Bi 2 Sr 4 Cu 2 C 1 O 11-z 1993 Bi2201 K 32 32 "mixture-pellet-sealed in quartz tube-heat(800C,6H)-Q to RT" LEAD SUBSTITUTION IN THE 30 K-SUPERCONDUCTOR BI2SR4-YCU2CO3O8-Z 1993 11 "PHYSICA C,217(1993)27" "BI,SR,CU,C,O" 8048 PHC2170027 S/C may be due to the trace of Bi2Sr4Cu2CO3O8 "(Bi,Pb)2Sr3.5Cu2(CO3))8" Bi1.5Pb0.5Sr3.5Cu2C1O11-z Bi 1.5 Pb 0.5 Sr 3.5 Cu 2 C 1 O 11-z 1993 3 5.468 5.427 39.53 K 1 "ANN(600C, 12H in P(O2)=20 bar)" LEAD SUBSTITUTION IN THE 30 K-SUPERCONDUCTOR BI2SR4-YCU2CO3O8-Z 1993 11 "PHYSICA C,217(1993)27" "BI,SR,CU,C,O" 8049 PHC2080351 "(Y,Ca)(Sr,Ba)2(Cu,CO3)3Oz" Y0.5Ca0.5Sr0.7Ba1.3Cu2.6C0.4O7-z Y 0.5 Ca 0.5 Sr 0.7 Ba 1.3 Cu 2.6 C 0.4 O 7-z 1 1993 2 M1212 3.863 11.457 K 79 79 1 "mixture-pellet-fire(940-960C,3OH in almina crucible, in 99% O2+1% CO2 gas flow)-reground-pellet-fire in the same condition-ANN(800C,30H in O2)" "SUPERCONDUCTOR WITH TC UP TO 80 K IN THE COMPOUND (LN,CA)(SR,BA)2(C,CU)CU2O7-Z" 1993 4 "PHYSICA C,208(1993)351" "R,CA,SR,BA,C,CU,O" 8050 PHC2080351 resistivity at 4.2K=about 0.7 mohm.cm "(Pr,Ca)(Sr,Ba)2(Cu,CO3)3Oz" Pr0.5Ca0.5Sr0.7Ba1.3Cu2.6C0.4O7-z Pr 0.5 Ca 0.5 Sr 0.7 Ba 1.3 Cu 2.6 C 0.4 O 7-z 1 1993 2 M1212 3.885 11.529 K 30 30 1 1 "mixture-pellet-fire(940-960C,3OH in almina crucible, in 99% O2+1% CO2 gas flow)-reground-pellet-fire in the same condition-ANN(800C,30H in O2)" "SUPERCONDUCTOR WITH TC UP TO 80 K IN THE COMPOUND (LN,CA)(SR,BA)2(C,CU)CU2O7-Z" 1993 4 "PHYSICA C,208(1993)351" "R,CA,SR,BA,C,CU,O" 8051 PHC2080351 "(Nd,Ca)(Sr,Ba)2(Cu,CO3)3Oz" Nd0.5Ca0.5Sr0.7Ba1.3Cu2.6C0.4O7-z Nd 0.5 Ca 0.5 Sr 0.7 Ba 1.3 Cu 2.6 C 0.4 O 7-z 1 1993 2 M1212 3.885 11.553 K 74 74 1 "mixture-pellet-fire(940-960C,3OH in almina crucible, in 99% O2+1% CO2 gas flow)-reground-pellet-fire in the same condition-ANN(800C,30H in O2)" "SUPERCONDUCTOR WITH TC UP TO 80 K IN THE COMPOUND (LN,CA)(SR,BA)2(C,CU)CU2O7-Z" 1993 4 "PHYSICA C,208(1993)351" "R,CA,SR,BA,C,CU,O" 8052 PHC2080351 "(Sm,Ca)(Sr,Ba)2(Cu,CO3)3Oz" Sm0.5Ca0.5Sr0.7Ba1.3Cu2.6C0.4O7-z Sm 0.5 Ca 0.5 Sr 0.7 Ba 1.3 Cu 2.6 C 0.4 O 7-z 1 1993 2 M1212 3.876 11.516 K 77 77 1 "mixture-pellet-fire(940-960C,3OH in almina crucible, in 99% O2+1% CO2 gas flow)-reground-pellet-fire in the same condition-ANN(800C,30H in O2)" "SUPERCONDUCTOR WITH TC UP TO 80 K IN THE COMPOUND (LN,CA)(SR,BA)2(C,CU)CU2O7-Z" 1993 4 "PHYSICA C,208(1993)351" "R,CA,SR,BA,C,CU,O" 8053 PHC2080351 "(Eu,Ca)(Sr,Ba)2(Cu,CO3)3Oz" Eu1.5Pr0.5Sr0.7Ba1.3Cu2.6C0.4O7-z Eu 1.5 Pr 0.5 Sr 0.7 Ba 1.3 Cu 2.6 C 0.4 O 7-z 1 1993 2 M1212 3.874 11.493 K 78 78 1 "mixture-pellet-fire(940-960C,3OH in almina crucible, in 99% O2+1% CO2 gas flow)-reground-pellet-fire in the same condition-ANN(800C,30H in O2)" "SUPERCONDUCTOR WITH TC UP TO 80 K IN THE COMPOUND (LN,CA)(SR,BA)2(C,CU)CU2O7-Z" 1993 4 "PHYSICA C,208(1993)351" "R,CA,SR,BA,C,CU,O" 8054 PHC2080351 "(Gd,Ca)(Sr,Ba)2(Cu,CO3)3Oz" Gd0.5Ca0.5Sr0.7Ba1.3Cu2.6C0.4O7-z Gd 0.5 Ca 0.5 Sr 0.7 Ba 1.3 Cu 2.6 C 0.4 O 7-z 1 1993 2 M1212 3.872 11.492 K 78 78 1 "mixture-pellet-fire(940-960C,3OH in almina crucible, in 99% O2+1% CO2 gas flow)-reground-pellet-fire in the same condition-ANN(800C,30H in O2)" "SUPERCONDUCTOR WITH TC UP TO 80 K IN THE COMPOUND (LN,CA)(SR,BA)2(C,CU)CU2O7-Z" 1993 4 "PHYSICA C,208(1993)351" "R,CA,SR,BA,C,CU,O" 8055 PHC2080351 "(Dy,Ca)(Sr,Ba)2(Cu,CO3)3Oz" Dy0.5Ca0.5Sr0.7Ba1.3Cu2.6C0.4O7-z Dy 0.5 Ca 0.5 Sr 0.7 Ba 1.3 Cu 2.6 C 0.4 O 7-z 1 1993 2 M1212 3.867 11.469 K 78 78 1 "mixture-pellet-fire(940-960C,3OH in almina crucible, in 99% O2+1% CO2 gas flow)-reground-pellet-fire in the same condition-ANN(800C,30H in O2)" "SUPERCONDUCTOR WITH TC UP TO 80 K IN THE COMPOUND (LN,CA)(SR,BA)2(C,CU)CU2O7-Z" 1993 4 "PHYSICA C,208(1993)351" "R,CA,SR,BA,C,CU,O" 8056 PHC2080351 "(Ho,Ca)(Sr,Ba)2(Cu,CO3)3Oz" Ho0.5Ca0.5Sr0.7Ba1.3Cu2.6C0.4O7-z Ho 0.5 Ca 0.5 Sr 0.7 Ba 1.3 Cu 2.6 C 0.4 O 7-z 1 1993 2 M1212 3.865 11.45 K 79 79 1 "mixture-pellet-fire(940-960C,3OH in almina crucible, in 99% O2+1% CO2 gas flow)-reground-pellet-fire in the same condition-ANN(800C,30H in O2)" "SUPERCONDUCTOR WITH TC UP TO 80 K IN THE COMPOUND (LN,CA)(SR,BA)2(C,CU)CU2O7-Z" 1993 4 "PHYSICA C,208(1993)351" "R,CA,SR,BA,C,CU,O" 8057 PHC2080351 "(Er,Ca)(Sr,Ba)2(Cu,CO3)3Oz" Er0.5Ca0.5Sr0.7Ba1.3Cu2.6C0.4O7-z Er 0.5 Ca 0.5 Sr 0.7 Ba 1.3 Cu 2.6 C 0.4 O 7-z 1 1993 2 M1212 3.845 11.45 K 80 80 30 1 "mixture-pellet-fire(940-960C,3OH in almina crucible, in 99% O2+1% CO2 gas flow)-reground-pellet-fire in the same condition-ANN(800C,30H in O2)" "SUPERCONDUCTOR WITH TC UP TO 80 K IN THE COMPOUND (LN,CA)(SR,BA)2(C,CU)CU2O7-Z" 1993 4 "PHYSICA C,208(1993)351" "R,CA,SR,BA,C,CU,O" 8058 PHC2080351 "(Tm,Ca)(Sr,Ba)2(Cu,CO3)3Oz" Tm0.5Ca0.5Sr0.7Ba1.3Cu2.6C0.4O7-z Tm 0.5 Ca 0.5 Sr 0.7 Ba 1.3 Cu 2.6 C 0.4 O 7-z 1 1993 2 M1212 3.858 11.44 K 79 79 1 "mixture-pellet-fire(940-960C,3OH in almina crucible, in 99% O2+1% CO2 gas flow)-reground-pellet-fire in the same condition-ANN(800C,30H in O2)" "SUPERCONDUCTOR WITH TC UP TO 80 K IN THE COMPOUND (LN,CA)(SR,BA)2(C,CU)CU2O7-Z" 1993 4 "PHYSICA C,208(1993)351" "R,CA,SR,BA,C,CU,O" 8059 PHC2080351 "(Yb,Ca)(Sr,Ba)2(Cu,CO3)3OZ" Yb0.5Ca0.5Sr0.7Ba1.3Cu2.6C0.4O7-z Yb 0.5 Ca 0.5 Sr 0.7 Ba 1.3 Cu 2.6 C 0.4 O 7-z 1 1993 2 M1212 3.853 11.447 K 78 78 1 "mixture-pellet-fire(940-960C,3OH in almina crucible, in 99% O2+1% CO2 gas flow)-reground-pellet-fire in the same condition-ANN(800C,30H in O2)" "SUPERCONDUCTOR WITH TC UP TO 80 K IN THE COMPOUND (LN,CA)(SR,BA)2(C,CU)CU2O7-Z" 1993 4 "PHYSICA C,208(1993)351" "R,CA,SR,BA,C,CU,O" 8060 PHC2080351 "(Lu,Ca)(Sr,Ba)2(Cu,CO3)3Oz" Lu0.5Ca0.5Sr0.7Ba1.3Cu2.6C0.4O7-z Lu 0.5 Ca 0.5 Sr 0.7 Ba 1.3 Cu 2.6 C 0.4 O 7-z 1 1993 2 M1212 3.849 11.481 K 77 77 1 "mixture-pellet-fire(940-960C,3OH in almina crucible, in 99% O2+1% CO2 gas flow)-reground-pellet-fire in the same condition-ANN(800C,30H in O2)" "SUPERCONDUCTOR WITH TC UP TO 80 K IN THE COMPOUND (LN,CA)(SR,BA)2(C,CU)CU2O7-Z" 1993 4 "PHYSICA C,208(1993)351" "R,CA,SR,BA,C,CU,O" 8061 PHC2130014 1065C "(Y,Ca,Sr)(Sr)2(Cu,SO4)3Oz" Y0.74Ca0.16Sr2.1Cu2.78S0.22O7 Y 0.74 Ca 0.16 Sr 2.1 Cu 2.78 S 0.22 O 7 1993 Y123 3.825 3.844 11.244 K 34.9 34.9 "Y2O3, Y2(SO4)3.8H2O, SrCO3, BaCO3, CuO" 1 "mixture-heat(930-1065C,14H in O2)-pellet-heat(930-1065C,14H in O2)-slow cool to RT" "SUPERCONDUCTIVITY IN THE SYSTEM (Y,CA,SR)(BA,SR)2(CU3-Z(SO4)ZOX" 1993 8 "PHYSICA C,213(1993)14" "Y,CA,SR,BA,CU,S,O" 8062 PHC2130014 1050C "(Y,Ca,Sr)(Sr,Ba)2(Cu,SO4)3Oz" Y0.74Ca0.16Sr1.6Ba0.5Cu2.78S0.22O7 Y 0.74 Ca 0.16 Sr 1.6 Ba 0.5 Cu 2.78 S 0.22 O 7 1993 Y123 3.827 11.439 K 54.9 54.9 "Y2O3, Y2(SO4)3.8H2O, SrCO3, BaCO3, CuO" 1 "mixture-heat(930-1065C,14H in O2)-pellet-heat(930-1065C,14H in O2)-slow cool to RT" "SUPERCONDUCTIVITY IN THE SYSTEM (Y,CA,SR)(BA,SR)2(CU3-Z(SO4)ZOX" 1993 8 "PHYSICA C,213(1993)14" "Y,CA,SR,BA,CU,S,O" 8063 PHC2130014 1000C "(Y,Ca,Sr)(Sr,Ba)2(Cu,SO4)3Oz" Y0.74Ca0.16Sr1.1Ba1Cu2.78S0.22O7 Y 0.74 Ca 0.16 Sr 1.1 Ba 1 Cu 2.78 S 0.22 O 7 1993 Y123 3.833 11.534 K 75.1 75.1 "Y2O3, Y2(SO4)3.8H2O, SrCO3, BaCO3, CuO" 1 "mixture-heat(930-1065C,14H in O2)-pellet-heat(930-1065C,14H in O2)-slow cool to RT" "SUPERCONDUCTIVITY IN THE SYSTEM (Y,CA,SR)(BA,SR)2(CU3-Z(SO4)ZOX" 1993 8 "PHYSICA C,213(1993)14" "Y,CA,SR,BA,CU,S,O" 8064 PHC2130014 960C "(Y,Ca,Sr)(Sr,Ba)2(Cu,SO4)3Oz" Y0.74Ca0.16Sr0.6Ba1.5Cu2.78S0.22O7 Y 0.74 Ca 0.16 Sr 0.6 Ba 1.5 Cu 2.78 S 0.22 O 7 1993 Y123 3.85 11.622 K 77.9 77.9 "Y2O3, Y2(SO4)3.8H2O, SrCO3, BaCO3, CuO" 1 "mixture-heat(930-1065C,14H in O2)-pellet-heat(930-1065C,14H in O2)-slow cool to RT" "SUPERCONDUCTIVITY IN THE SYSTEM (Y,CA,SR)(BA,SR)2(CU3-Z(SO4)ZOX" 1993 8 "PHYSICA C,213(1993)14" "Y,CA,SR,BA,CU,S,O" 8065 PHC2130014 1065C "(Y,Sr)Sr2(Cu,SO4)3Oz" Y0.84Sr2.16Cu2.78S0.22O7 Y 0.84 Sr 2.16 Cu 2.78 S 0.22 O 7 1993 Y123 K 45 45 "Y2O3, Y2(SO4)3.8H2O, SrCO3, BaCO3, CuO" 1 "mixture-heat(930-1065C,14H in O2)-pellet-heat(930-1065C,14H in O2)-slow cool to RT" "SUPERCONDUCTIVITY IN THE SYSTEM (Y,CA,SR)(BA,SR)2(CU3-Z(SO4)ZOX" 1993 8 "PHYSICA C,213(1993)14" "Y,CA,SR,BA,CU,S,O" 8066 PHC2130014 1000C "(Y,Sr)(Sr,Ba)2(Cu,SO4)3Oz" Y0.84Sr1.16Ba1Cu2.78S0.22O7 Y 0.84 Sr 1.16 Ba 1 Cu 2.78 S 0.22 O 7 1993 Y123 K 78.1 78.1 "Y2O3, Y2(SO4)3.8H2O, SrCO3, BaCO3, CuO" 1 "mixture-heat(930-1065C,14H in O2)-pellet-heat(930-1065C,14H in O2)-slow cool to RT" "SUPERCONDUCTIVITY IN THE SYSTEM (Y,CA,SR)(BA,SR)2(CU3-Z(SO4)ZOX" 1993 8 "PHYSICA C,213(1993)14" "Y,CA,SR,BA,CU,S,O" 8067 PHC2690001 HgBa2Ca2Cu3Oz Hg1Ba2Ca2Cu3Oz Hg 1 Ba 2 Ca 2 Cu 3 O z 1996 Hg1223 K 120 135 132 135 HIR8067 "substrate=(100)Y0.15Zr0.85O1.93, gel-covered substrate were calcined at 900C to from the precursor B2Ca2Cu3Oz,-heat(870C,1.5H with Hg in quartz tube)" Giant mass anisotropy and high critical current in Hg-1223 superconducting films 1996 "Department of Materials and Interfaces,The Weizmann Institute of Science, Rehovot, Israel" "Physica.C,269(1996)1-4" "Hg, Ba, Cu, O, Ca" 8068 PHC2290183 superlatlice=a*4a*2C. was found "(Ca,Sr)3Cu2COz" Ca0.9Sr2.1Cu2C0.75Oz Ca 0.9 Sr 2.1 Cu 2 C 0.75 O z 1994 2 3.851 10.941 K 92 92 92 20 2 "mixture+KclO3-seal in Au capsule-press(6GPa)-heat (1473K,30min)-Q to RT" High-ressure synthesis of an oxide carbonate superconductor with a Tc of 92K in the Ca-Sr-Cu-C-O system 1994 "Institute for Chemical research, Kyoto University, Uji, Kyoto-fu 611, Japan" "Physica.C,229(1994)183-187" 8069 PHC2270245 "(BO3)(Sr,Nd)2CuO2/(BO3)Sr2NdCu2O4, B-1201/B-1212, Cu valence=2.0, insulator" Nd2Sr3Cu3O6(BO3)2 Nd2Sr3Cu3B2O12 Nd 2 Sr 3 Cu 3 B 2 O 12 1994 2 P4/nnc 7.767 35.828 K 5 "H3BO3, CuO, Nd2O3, SrCO3" "mixture-pellet-CAL(650C,12H in O2 flow)-pellet-heat(1030C, 12-24H in 1 atm O2)-Q to RT" Preparation and crystal structure of Nd2Sr3Cu3O6(BO3)2 1994 7 "Physica C, 227(1994)245-253" "Nd,Sr,Cu,O,B" 8070 PHC2270309 "as-synthesized, not S/C" "Y(Ba,Sr)2(Cu,BO3)3Oz" Y1Ba1Sr1Cu2.5B0.5Oz Y 1 Ba 1 Sr 1 Cu 2.5 B 0.5 O z 1 1994 2 Y123 3.85 11.266 K 5 "Y2CO3, SrCO3, BaCO3, CuO, H3BO3" "mixture-heat(1000C,14H in O2)-pellet-heat(1000C 14H in O2)-slow cool to RT" Borate substitution in YSrBaCu3O7 studied by X-ray emission spectroscopy 1994 7 "Physica C, 227(1994)309-312" "Y,Sr,Ba,Cu,O,B" 8071 PHC2270309 "nneal(425C, 24H in 250 bar O2)" "Y(Ba,Sr)2(Cu,BO3)3Oz" Y1Ba1Sr1Cu2.5B0.5Oz Y 1 Ba 1 Sr 1 Cu 2.5 B 0.5 O z 1 1994 Y123 K 25 25 "Y2CO3, SrCO3, BaCO3, CuO, H3BO3" "mixture-heat(1000C,14H in O2)-pellet-heat(1000C 14H in O2)-slow cool to RT" Borate substitution in YSrBaCu3O7 studied by X-ray emission spectroscopy 1994 7 "Physica C, 227(1994)309-312" "Y,Sr,Ba,Cu,O,B" 8072 PHC2200373 IR shows PO4(3-) "(Y,Ca)Sr(Cu,PO4)3Oz" Y0.7Ca0.3Sr2Cu2.8P0.2O0.8+z Y 0.7 Ca 0.3 Sr 2 Cu 2.8 P 0.2 O 0.8+z 1994 2 Y123 3.824 11.36 K 37 37 "Y2O3, CaCO3, BaCO3/SrCO3, CuO, NH4H2PO4" "mixture-heart(1273-1338K, 16H in O2 flow)-heat(1273-1338K, 16H in O2 flow)-slow cool to RT" Oxyanion derivatives of cuprate superconductors: Superonducting 123 phosphates 1994 2 "Physica C, 220(1994)373-376" "Y,Ca,Ba,Sr,Cu,P,O" 8073 PHC2200373 IR shows PO4(3-) "Y(Ba,Sr)2(Cu,PO4)3Oz" Y1Ba1Sr1Cu2.8P0.2O4+z Y 1 Ba 1 Sr 1 Cu 2.8 P 0.2 O 4+z 1994 2 Y123 3.844 11.48 K 47 47 "Y2O3, CaCO3, BaCO3/SrCO3, CuO, NH4H2PO4" "mixture-heart(1273-1338K, 16H in O2 flow)-heat(1273-1338K, 16H in O2 flow)-slow cool to RT" Oxyanion derivatives of cuprate superconductors: Superonducting 123 phosphates 1994 2 "Physica C, 220(1994)373-376" "Y,Ca,Ba,Sr,Cu,P,O" 8074 PHC2200373 IR shows PO4(3-) "(Y,Ca)(Ba,Sr)2(Cu,PO4)3Oz" Y0.7Ca0.3Ba1Sr1Cu2.8P0.2O0.8+z Y 0.7 Ca 0.3 Ba 1 Sr 1 Cu 2.8 P 0.2 O 0.8+z 1994 2 Y123 3.832 11.5 K 68 68 "Y2O3, CaCO3, BaCO3/SrCO3, CuO, NH4H2PO4" "mixture-heart(1273-1338K, 16H in O2 flow)-heat(1273-1338K, 16H in O2 flow)-slow cool to RT" Oxyanion derivatives of cuprate superconductors: Superonducting 123 phosphates 1994 2 "Physica C, 220(1994)373-376" "Y,Ca,Ba,Sr,Cu,P,O" 8075 PHC2200373 IR shows PO4(3-) "YSr2(Cu,PO4)3Oz" Y1Sr2Cu2.8P0.2O0.8+z Y 1 Sr 2 Cu 2.8 P 0.2 O 0.8+z 1994 3 Y123 3.824 3.843 11.35 K 23 "Y2O3, CaCO3, BaCO3/SrCO3, CuO, NH4H2PO4" "mixture-heart(1273-1338K, 16H in O2 flow)-heat(1273-1338K, 16H in O2 flow)-slow cool to RT" Oxyanion derivatives of cuprate superconductors: Superonducting 123 phosphates 1994 2 "Physica C, 220(1994)373-376" "Y,Ca,Ba,Sr,Cu,P,O" 8076 PHC2980049 HgBa2Ca2Cu3Oz Hg0.75Ba2.07Ca2.07Cu3.11O8.15 Hg 0.75 Ba 2.07 Ca 2.07 Cu 3.11 O z 8.15 1998 Hg1223 K 134.7 134.7 "mixture((HgO+3CuO):(BaO+CuO)=1.00:2.00)-pellet-sealed in quartz tube-heat(625-660C,12-48H)" Chemical thermodynamics of Hg1201 and Hg1223 phases 1998 3 "Department of Industrial Chemistry, Faculty of Science and Technology, Science University of Tokyo, 2641 Yamazaki, Noda-shi, chiba 278, Japan" "Physica.C,298(1998)49-58" 8077 PHC2980049 HgBa2Ca2Cu3Oz Hg0.75Ba2.07Ca2.07Cu3.11O8.16 Hg 0.75 Ba 2.07 Ca 2.07 Cu 3.11 O z 8.16 1998 Hg1223 K 134.2 134.2 "mixture((HgO+3CuO):(BaO+CuO)=1.00:2.00)-pellet-sealed in quartz tube-heat(625-660C,12-48H)" Chemical thermodynamics of Hg1201 and Hg1223 phases 1998 3 "Department of Industrial Chemistry, Faculty of Science and Technology, Science University of Tokyo, 2641 Yamazaki, Noda-shi, chiba 278, Japan" "Physica.C,298(1998)49-58" 8078 PHC2980049 HgBa2Ca2Cu3Oz Hg0.75Ba2.07Ca2.07Cu3.11O8.187 Hg 0.75 Ba 2.07 Ca 2.07 Cu 3.11 O z 8.187 1998 Hg1223 K 135.4 135.4 "mixture((HgO+3CuO):(BaO+CuO)=1.00:2.00)-pellet-sealed in quartz tube-heat(625-660C,12-48H)" Chemical thermodynamics of Hg1201 and Hg1223 phases 1998 3 "Department of Industrial Chemistry, Faculty of Science and Technology, Science University of Tokyo, 2641 Yamazaki, Noda-shi, chiba 278, Japan" "Physica.C,298(1998)49-58" 8079 PHC2980049 HgBa2Ca2Cu3Oz Hg0.75Ba2.07Ca2.07Cu3.11O8.208 Hg 0.75 Ba 2.07 Ca 2.07 Cu 3.11 O z 8.208 1998 Hg1223 K 135.8 135.8 "mixture((HgO+3CuO):(BaO+CuO)=1.00:2.00)-pellet-sealed in quartz tube-heat(625-660C,12-48H)" Chemical thermodynamics of Hg1201 and Hg1223 phases 1998 3 "Department of Industrial Chemistry, Faculty of Science and Technology, Science University of Tokyo, 2641 Yamazaki, Noda-shi, chiba 278, Japan" "Physica.C,298(1998)49-58" 8080 PHC2980049 HgBa2Ca2Cu3Oz Hg0.75Ba2.07Ca2.07Cu3.11O8.223 Hg 0.75 Ba 2.07 Ca 2.07 Cu 3.11 O z 8.223 1998 Hg1223 K 133.4 133.4 "mixture((HgO+3CuO):(BaO+CuO)=1.00:2.00)-pellet-sealed in quartz tube-heat(625-660C,12-48H)" Chemical thermodynamics of Hg1201 and Hg1223 phases 1998 3 "Department of Industrial Chemistry, Faculty of Science and Technology, Science University of Tokyo, 2641 Yamazaki, Noda-shi, chiba 278, Japan" "Physica.C,298(1998)49-58" 8081 PHC2980049 HgBa2CuOz Hg0.92Ba2.05Cu1.03O4.05 Hg 0.92 Ba 2.05 Cu 1.03 O z 4.05 1998 Hg1201 K 93.8 93.8 "HgO, CuO, BaO2" "mixture(Hg:Ba:Cu=1.05:2.00:1.00)-pellet-seald in quartz tube-heat(800C,30-150min)-Q to RT" Chemical thermodynamics of Hg1201 and Hg1223 phases 1998 3 "Department of Industrial Chemistry, Faculty of Science and Technology, Science University of Tokyo, 2641 Yamazaki, Noda-shi, chiba 278, Japan" "Physica.C,298(1998)49-58" 8082 PHC2980049 HgBa2CuOz Hg0.92Ba2.05Cu1.03O4.058 Hg 0.92 Ba 2.05 Cu 1.03 O z 4.058 1998 Hg1201 K 92.1 92.1 "HgO, CuO, BaO2" "mixture(Hg:Ba:Cu=1.05:2.00:1.00)-pellet-seald in quartz tube-heat(800C,30-150min)-Q to RT" Chemical thermodynamics of Hg1201 and Hg1223 phases 1998 3 "Department of Industrial Chemistry, Faculty of Science and Technology, Science University of Tokyo, 2641 Yamazaki, Noda-shi, chiba 278, Japan" "Physica.C,298(1998)49-58" 8083 PHC2980049 HgBa2CuOz Hg0.92Ba2.05Cu1.03O4.062 Hg 0.92 Ba 2.05 Cu 1.03 O z 4.062 1998 Hg1201 K 96.5 96.5 "HgO, CuO, BaO2" "mixture(Hg:Ba:Cu=1.05:2.00:1.00)-pellet-seald in quartz tube-heat(800C,30-150min)-Q to RT" Chemical thermodynamics of Hg1201 and Hg1223 phases 1998 3 "Department of Industrial Chemistry, Faculty of Science and Technology, Science University of Tokyo, 2641 Yamazaki, Noda-shi, chiba 278, Japan" "Physica.C,298(1998)49-58" 8084 PHC2980049 HgBa2CuOz Hg0.92Ba2.05Cu1.03O4.063 Hg 0.92 Ba 2.05 Cu 1.03 O z 4.063 1998 Hg1201 K 93.4 93.4 "HgO, CuO, BaO2" "mixture(Hg:Ba:Cu=1.05:2.00:1.00)-pellet-seald in quartz tube-heat(800C,30-150min)-Q to RT" Chemical thermodynamics of Hg1201 and Hg1223 phases 1998 3 "Department of Industrial Chemistry, Faculty of Science and Technology, Science University of Tokyo, 2641 Yamazaki, Noda-shi, chiba 278, Japan" "Physica.C,298(1998)49-58" 8085 PHC2980049 HgBa2CuOz Hg0.92Ba2.05Cu1.03O4.065 Hg 0.92 Ba 2.05 Cu 1.03 O z 4.065 1998 Hg1201 K 91.6 91.6 "HgO, CuO, BaO2" "mixture(Hg:Ba:Cu=1.05:2.00:1.00)-pellet-seald in quartz tube-heat(800C,30-150min)-Q to RT" Chemical thermodynamics of Hg1201 and Hg1223 phases 1998 3 "Department of Industrial Chemistry, Faculty of Science and Technology, Science University of Tokyo, 2641 Yamazaki, Noda-shi, chiba 278, Japan" "Physica.C,298(1998)49-58" 8086 PHC2980049 HgBa2CuOz Hg0.92Ba2.05Cu1.03O4.079 Hg 0.92 Ba 2.05 Cu 1.03 O z 4.079 1998 Hg1201 K 79.2 79.2 "HgO, CuO, BaO2" "mixture(Hg:Ba:Cu=1.05:2.00:1.00)-pellet-seald in quartz tube-heat(800C,30-150min)-Q to RT" Chemical thermodynamics of Hg1201 and Hg1223 phases 1998 3 "Department of Industrial Chemistry, Faculty of Science and Technology, Science University of Tokyo, 2641 Yamazaki, Noda-shi, chiba 278, Japan" "Physica.C,298(1998)49-58" 8087 PHC2980049 HgBa2CuOz Hg0.92Ba2.05Cu1.03O4.087 Hg 0.92 Ba 2.05 Cu 1.03 O z 4.087 1998 Hg1201 K 70.3 70.3 "HgO, CuO, BaO2" "mixture(Hg:Ba:Cu=1.05:2.00:1.00)-pellet-seald in quartz tube-heat(800C,30-150min)-Q to RT" Chemical thermodynamics of Hg1201 and Hg1223 phases 1998 3 "Department of Industrial Chemistry, Faculty of Science and Technology, Science University of Tokyo, 2641 Yamazaki, Noda-shi, chiba 278, Japan" "Physica.C,298(1998)49-58" 8088 PHC2980049 HgBa2CuOz Hg0.92Ba2.05Cu1.03O4.103 Hg 0.92 Ba 2.05 Cu 1.03 O z 4.103 1998 Hg1201 K 63.6 63.6 "HgO, CuO, BaO2" "mixture(Hg:Ba:Cu=1.05:2.00:1.00)-pellet-seald in quartz tube-heat(800C,30-150min)-Q to RT" Chemical thermodynamics of Hg1201 and Hg1223 phases 1998 3 "Department of Industrial Chemistry, Faculty of Science and Technology, Science University of Tokyo, 2641 Yamazaki, Noda-shi, chiba 278, Japan" "Physica.C,298(1998)49-58" 8089 PHC2130026 Sr2CuO2CO3 type "(Tb,Ba)2CuO2(BO3)" Tb1Ba1Cu1B1O5 Tb 1 Ba 1 Cu 1 B 1 O 5 1993 3.869 7.387 K 4.2 "THE SYNTHESIS AND CHARACTERIZATION OF A NEW FAMILY OF SINGLE LAYER CUPRATES LNBACUO2BO3 (LN=LA,PR,ND,SM,EU AND GD)" 1993 8 "PHYSICA C,213(1993)26" "R,BA,CU,O,B" 8090 JSC1320163 not S/C "(Hg,Lu)2Ba2LuCu2Ox" Hg1.5Ba2.1Lu1.5Cu2OZ Hg 1.5 Ba 2.1 Lu 1.5 Cu 2 O Z 1997 2 Hg2212 3.846 28.853 K 4.5 "BaO2,R2O3,CuO" "mixture-heart(835C,24H in O2)-precursor(Ba2RCu2Oz)+1.75HgO-wraped in Au+capsule-heat(18Kbar,920C,2H)" "Synthesis, Structural, and Magnetic Characterization of New Hg2Ba2LnCu2O8-delta Phases with Ln=Nd-Gd, Dy-Lu" 1997 "Laboratoire de Cristallographie, CNRS, BP 166, 38042 Grenoble Cedex 09, France" "J.Solid State Chem.132,(1997)163-172" 8091 JSC1320163 not S/C "(Hg,Yb)2Ba2YbCu2Ox" Hg1.6Ba1.96Yb1.4Cu2.08OZ Hg 1.6 Ba 1.96 Yb 1.4 Cu 2.08 O Z 1997 2 Hg2212 3.849 28.79 K 4.5 "BaO2,R2O3,CuO" "mixture-heart(835C,24H in O2)-precursor(Ba2RCu2Oz)+1.75HgO-wraped in Au+capsule-heat(18Kbar,920C,2H)" "Synthesis, Structural, and Magnetic Characterization of New Hg2Ba2LnCu2O8-delta Phases with Ln=Nd-Gd, Dy-Lu" 1997 "Laboratoire de Cristallographie, CNRS, BP 166, 38042 Grenoble Cedex 09, France" "J.Solid State Chem.132,(1997)163-172" 8092 JSC1320163 not S/C "(Hg,Er)2Ba2ErCu2Ox" Hg1.54Ba1.98Er1.43Cu2.1OZ Hg 1.54 Ba 1.98 Er 1.43 Cu 2.1 O Z 1997 2 Hg2212 3.8582 28.872 K 4.5 "BaO2,R2O3,CuO" "mixture-heart(835C,24H in O2)-precursor(Ba2RCu2Oz)+1.75HgO-wraped in Au+capsule-heat(18Kbar,920C,2H)" "Synthesis, Structural, and Magnetic Characterization of New Hg2Ba2LnCu2O8-delta Phases with Ln=Nd-Gd, Dy-Lu" 1997 "Laboratoire de Cristallographie, CNRS, BP 166, 38042 Grenoble Cedex 09, France" "J.Solid State Chem.132,(1997)163-172" 8093 JSC1320163 not S/C "(Hg,Gd)2Ba2GdCu2Oz" Hg1.7Ba2Gd1.3Cu2.05OZ Hg 1.7 Ba 2 Gd 1.3 Cu 2.05 O Z 1997 2 Hg2212 3.8811 28.895 K 4.5 "BaO2,R2O3,CuO" "mixture-heart(835C,24H in O2)-precursor(Ba2RCu2Oz)+1.75HgO-wraped in Au+capsule-heat(18Kbar,920C,2H)" "Synthesis, Structural, and Magnetic Characterization of New Hg2Ba2LnCu2O8-delta Phases with Ln=Nd-Gd, Dy-Lu" 1997 "Laboratoire de Cristallographie, CNRS, BP 166, 38042 Grenoble Cedex 09, France" "J.Solid State Chem.132,(1997)163-172" 8094 JSC1320163 not S/C "(Hg,Nd)2Ba2NdCu2Oz" Hg1.9Ba1.8Nd1.3Cu2.6OZ Hg 1.9 Ba 1.8 Nd 1.3 Cu 2.6 O Z 1997 2 Hg2212 3.9021 28.986 K 4.5 "BaO2,R2O3,CuO" "mixture-heart(835C,24H in O2)-precursor(Ba2RCu2Oz)+1.75HgO-wraped in Au+capsule-heat(18Kbar,920C,2H)" "Synthesis, Structural, and Magnetic Characterization of New Hg2Ba2LnCu2O8-delta Phases with Ln=Nd-Gd, Dy-Lu" 1997 "Laboratoire de Cristallographie, CNRS, BP 166, 38042 Grenoble Cedex 09, France" "J.Solid State Chem.132,(1997)163-172" 8095 PHC3000033 Bi2Sr2Ca1Cu1.5K0.5O8+z Bi 2 Sr 2 Ca 1 Cu 1.5 K 0.5 O 8+z 1998 5.41 5.42 30.76 K 85 85 A 2670 meV 36.5 Magnetic penetration depth in K-doped Bi-2212 Bi2Sr2CaCu2-xKO8+delta: ESR study 1998 5 "School of Physics, University of Hyderabad, P.O. Central University, Hyderabad 500 046, India" "Physica.C,300(1998)33-37" 8096 PHC3000033 Bi2Sr2Ca1Cu1.4K0.6O8+z Bi 2 Sr 2 Ca 1 Cu 1.4 K 0.6 O 8+z 1998 5.4 5.43 30.72 K 87 87 A 2209 meV 38.2 Magnetic penetration depth in K-doped Bi-2212 Bi2Sr2CaCu2-xKO8+delta: ESR study 1998 5 "School of Physics, University of Hyderabad, P.O. Central University, Hyderabad 500 046, India" "Physica.C,300(1998)33-37" 8097 PHC3000033 Bi2Sr2Ca1Cu1.3K0.7O8+z Bi 2 Sr 2 Ca 1 Cu 1.3 K 0.7 O 8+z 1998 5.42 5.41 30.69 K 93 93 A 1906 meV 40.4 Magnetic penetration depth in K-doped Bi-2212 Bi2Sr2CaCu2-xKO8+delta: ESR study 1998 5 "School of Physics, University of Hyderabad, P.O. Central University, Hyderabad 500 046, India" "Physica.C,300(1998)33-37" 8098 PHC3000141 "(Hg,Re)Ba2Ca2Cu3O8" Hg0.97Re0.03Ba2Ca2Cu3O8+z Hg 0.97 Re 0.03 Ba 2 Ca 2 Cu 3 O 8+z 1998 2 Hg1223 3.8531 15.6677 K 130 20 130 "(mix and CAL without Hg-,Re-oxde)-(mix with HgO,ReO2)-Al2O3 crucible in eacuated quartz anple-melt-growth" Flux growth of Hg1-xRexBa2Can-1CunO2n+2+delta single crystals by self-atmosphere 1998 5 "Max-Planck-Institut fur festkorperforschung, Heisenbergstr. 1, D-70569, Stuttgart, Germany" "Physica.C,300(1998)141-150" 8099 PHC3000141 "(Hg,Re)Ba2CaCu2O6" Hg0.9Re0.1Ba2Ca1Cu2O6+z Hg 0.9 Re 0.1 Ba 2 Ca 1 Cu 2 O 6+z 1998 2 Hg1223 3.8634 12.7723 K 120 22 120 "(mix and CAL without Hg-,Re-oxde)-(mix with HgO,ReO2)-Al2O3 crucible in eacuated quartz anple-melt-growth" Flux growth of Hg1-xRexBa2Can-1CunO2n+2+delta single crystals by self-atmosphere 1998 5 "Max-Planck-Institut fur festkorperforschung, Heisenbergstr. 1, D-70569, Stuttgart, Germany" "Physica.C,300(1998)141-150" 8100 PHC3000217 sintering time=65H "Bi2(Sr,Hg)2CaCu2O8" Bi2Sr1.7Hg0.3Ca1Cu2Oz Bi 2 Sr 1.7 Hg 0.3 Ca 1 Cu 2 O z 1 1998 Bi2212 K 60 85 72.5 "Bi2O3,SrCO3,CuO,CaCO3,HgO" 1 "mixture-CAL-press-pellet-SIN(820C,65 or 89H in air" Effect of Hg addition on synthesis of Bi-based superconductors 1998 5 "Superconductivity Research Laboratory, Department of Physics, Barkatullah University, Bhopal-462 026, India" "Physica.C,300(1998)217-224" 8101 PHC3000217 sintering time=89H "Bi2(Sr,Hg)2CaCu2O8" Bi2Sr1.7Hg0.3Ca1Cu2Oz Bi 2 Sr 1.7 Hg 0.3 Ca 1 Cu 2 O z 1 1998 Bi2212 K 72 90 81 "Bi2O3,SrCO3,CuO,CaCO3,HgO" 1 "mixture-CAL-press-pellet-SIN(820C,65 or 89H in air" Effect of Hg addition on synthesis of Bi-based superconductors 1998 5 "Superconductivity Research Laboratory, Department of Physics, Barkatullah University, Bhopal-462 026, India" "Physica.C,300(1998)217-224" 8102 PHC3000217 sintering time=65H "Bi2(Sr,Hg)2Ca2Cu3O10" Bi2Sr1.7Hg0.3Ca2Cu3Oz Bi 2 Sr 1.7 Hg 0.3 Ca 2 Cu 3 O z 1 1998 Bi2223 K 64 85 74.5 "Bi2O3,SrCO3,CuO,CaCO3,HgO" 1 "mixture-CAL-press-pellet-SIN(820C,65 or 89H in air" Effect of Hg addition on synthesis of Bi-based superconductors 1998 5 "Superconductivity Research Laboratory, Department of Physics, Barkatullah University, Bhopal-462 026, India" "Physica.C,300(1998)217-224" 8103 PHC3000217 sintering time=89H "Bi2(Sr,Hg)2Ca2Cu3O10" Bi2Sr1.7Hg0.3Ca2Cu3Oz Bi 2 Sr 1.7 Hg 0.3 Ca 2 Cu 3 O z 1 1998 Bi2223 K 92 130 111 "Bi2O3,SrCO3,CuO,CaCO3,HgO" 1 "mixture-CAL-press-pellet-SIN(820C,65 or 89H in air" Effect of Hg addition on synthesis of Bi-based superconductors 1998 5 "Superconductivity Research Laboratory, Department of Physics, Barkatullah University, Bhopal-462 026, India" "Physica.C,300(1998)217-224" 8104 PHC3000281 notS/C "Ga(Sr,Ca)2(Yb,Ca)Cu2O7" Ga1Sr1.8Ca0.2Yb0.8Ca0.4Cu2O6.984 Ga 1 Sr 1.8 Ca 0.2 Yb 0.8 Ca 0.4 Cu 2 O z 6.984 1998 Ga1212 22.661 5.451 5.413 K 5 "Ga2O3,SrCO3,CaCO3,Yb2O3,CuO" 1 "mixture-heat(935C,10H in air)-(985-990C,48-72H)-pellet-ANN(600C,10H in air)" "Superconductivity, Ca content and oxygen deficiency of Ga(Sr,Ca)2(Yb,Ca)Cu2O7" 1998 5 "National Institute for Research in Inorganic Materials, 1-1 Namiki, Tsukuba 305, Japan" "Physica.C,300(1998)281-286" 8105 PHC3000281 HIPed sample notS/C "Ga(Sr,Ca)2(Yb,Ca)Cu2O7" Ga1Sr1.8Ca0.2Yb0.8Ca0.4Cu2O6.994 Ga 1 Sr 1.8 Ca 0.2 Yb 0.8 Ca 0.4 Cu 2 O z 6.994 1998 Ga1212 22.671 5.452 5.408 K 5 "Ga2O3,SrCO3,CaCO3,Yb2O3,CuO" 1 "mixture-heat(935C,10H in air)-(985-990C,48-72H)-pellet-ANN(600C,10H in air)" "Superconductivity, Ca content and oxygen deficiency of Ga(Sr,Ca)2(Yb,Ca)Cu2O7" 1998 5 "National Institute for Research in Inorganic Materials, 1-1 Namiki, Tsukuba 305, Japan" "Physica.C,300(1998)281-286" 8106 PHC3000281 "Ga(Sr,Ca)2(Yb,Ca)Cu2O7" Ga1Sr1.8Ca0.2Yb0.78Ca0.42Cu2Oz Ga 1 Sr 1.8 Ca 0.2 Yb 0.78 Ca 0.42 Cu 2 O z 1998 Ga1212 22.654 5.448 5.419 K 20 20 "Ga2O3,SrCO3,CaCO3,Yb2O3,CuO" 1 "mixture-heat(935C,10H in air)-(985-990C,48-72H)-pellet-ANN(600C,10H in air)" "Superconductivity, Ca content and oxygen deficiency of Ga(Sr,Ca)2(Yb,Ca)Cu2O7" 1998 5 "National Institute for Research in Inorganic Materials, 1-1 Namiki, Tsukuba 305, Japan" "Physica.C,300(1998)281-286" 8107 PHC3000281 HIPed sample "Ga(Sr,Ca)2(Yb,Ca)Cu2O7" Ga1Sr1.8Ca0.2Yb0.75Ca0.45Cu2Oz Ga 1 Sr 1.8 Ca 0.2 Yb 0.75 Ca 0.45 Cu 2 O z 1998 Ga1212 22.659 5.449 5.42 K 52 52 "Ga2O3,SrCO3,CaCO3,Yb2O3,CuO" 1 "mixture-heat(935C,10H in air)-(985-990C,48-72H)-pellet-ANN(600C,10H in air)" "Superconductivity, Ca content and oxygen deficiency of Ga(Sr,Ca)2(Yb,Ca)Cu2O7" 1998 5 "National Institute for Research in Inorganic Materials, 1-1 Namiki, Tsukuba 305, Japan" "Physica.C,300(1998)281-286" 8156 PHC3010029 LaBa2Cu3O7 La1Ba2Cu3OZ La 1 Ba 2 Cu 3 O Z 1998 3 Y123 3.9014 3.9294 11.789 K 70.3 70.3 "La2O3, BaCO3, Fe2O3, CuO" 1 "mixture-Alumina crucible-heat(930C,1day in air)-pellet-heat(930C,1 day)-ANN(350C,1 day)-RT" Structural anomalies in LaBa2Cu3Ox cuprates with iron substitution 1998 5 "National Laboratory of Solid State Microstructures, Institute of Solid State Physics, Nanjing University, Nanjing 210093, China" "Physica.C,301(1998)29-38" 8157 PHC3010029 "LaBa2(Cu,Fe)3O7" La1Ba2Cu2.97Fe0.03OZ La 1 Ba 2 Cu 2.97 Fe 0.03 O Z 1998 3 Y123 3.917 3.9205 11.7828 K 55.2 55.2 "La2O3, BaCO3, Fe2O3, CuO" 1 "mixture-Alumina crucible-heat(930C,1day in air)-pellet-heat(930C,1 day)-ANN(350C,1 day)-RT" Structural anomalies in LaBa2Cu3Ox cuprates with iron substitution 1998 5 "National Laboratory of Solid State Microstructures, Institute of Solid State Physics, Nanjing University, Nanjing 210093, China" "Physica.C,301(1998)29-38" 8158 PHC3010029 "LaBa2(Cu,Fe)3O7" La1Ba2Cu2.94Fe0.06OZ La 1 Ba 2 Cu 2.94 Fe 0.06 O Z 1998 2 Y123 3.9212 11.778 K 35.9 35.9 "La2O3, BaCO3, Fe2O3, CuO" 1 "mixture-Alumina crucible-heat(930C,1day in air)-pellet-heat(930C,1 day)-ANN(350C,1 day)-RT" Structural anomalies in LaBa2Cu3Ox cuprates with iron substitution 1998 5 "National Laboratory of Solid State Microstructures, Institute of Solid State Physics, Nanjing University, Nanjing 210093, China" "Physica.C,301(1998)29-38" 8159 PHC3010029 "LaBa2(Cu,Fe)3O7" La1Ba2Cu2.9Fe0.1OZ La 1 Ba 2 Cu 2.9 Fe 0.1 O Z 1998 2 Y123 3.9236 11.772 K 10 10 "La2O3, BaCO3, Fe2O3, CuO" 1 "mixture-Alumina crucible-heat(930C,1day in air)-pellet-heat(930C,1 day)-ANN(350C,1 day)-RT" Structural anomalies in LaBa2Cu3Ox cuprates with iron substitution 1998 5 "National Laboratory of Solid State Microstructures, Institute of Solid State Physics, Nanjing University, Nanjing 210093, China" "Physica.C,301(1998)29-38" 8160 PHC3010029 "LaBa2(Cu,Fe)3O7" La1Ba2Cu2.85Fe0.15OZ La 1 Ba 2 Cu 2.85 Fe 0.15 O Z 1998 2 Y123 3.9272 11.764 K 10 "La2O3, BaCO3, Fe2O3, CuO" 1 "mixture-Alumina crucible-heat(930C,1day in air)-pellet-heat(930C,1 day)-ANN(350C,1 day)-RT" Structural anomalies in LaBa2Cu3Ox cuprates with iron substitution 1998 5 "National Laboratory of Solid State Microstructures, Institute of Solid State Physics, Nanjing University, Nanjing 210093, China" "Physica.C,301(1998)29-38" 8161 PHC3010029 "LaBa2(Cu,Fe)3O7" La1Ba2Cu2.75Fe0.25OZ La 1 Ba 2 Cu 2.75 Fe 0.25 O Z 1998 3 Y123 3.9173 3.9332 11.788 K 10 "La2O3, BaCO3, Fe2O3, CuO" 1 "mixture-Alumina crucible-heat(930C,1day in air)-pellet-heat(930C,1 day)-ANN(350C,1 day)-RT" Structural anomalies in LaBa2Cu3Ox cuprates with iron substitution 1998 5 "National Laboratory of Solid State Microstructures, Institute of Solid State Physics, Nanjing University, Nanjing 210093, China" "Physica.C,301(1998)29-38" 8162 PHC3010029 "LaBa2(Cu,Fe)3O7" La1Ba2Cu2.5Fe0.5OZ La 1 Ba 2 Cu 2.5 Fe 0.5 O Z 1998 3 Y123 3.9166 3.9361 11.791 K 10 "La2O3, BaCO3, Fe2O3, CuO" 1 "mixture-Alumina crucible-heat(930C,1day in air)-pellet-heat(930C,1 day)-ANN(350C,1 day)-RT" Structural anomalies in LaBa2Cu3Ox cuprates with iron substitution 1998 5 "National Laboratory of Solid State Microstructures, Institute of Solid State Physics, Nanjing University, Nanjing 210093, China" "Physica.C,301(1998)29-38" 8163 PHC3010029 "LaBa2(Cu,Fe)3O7" La1Ba2Cu2.4Fe0.6OZ La 1 Ba 2 Cu 2.4 Fe 0.6 O Z 1998 3 Y123 3.9141 3.9373 11.803 K 10 "La2O3, BaCO3, Fe2O3, CuO" 1 "mixture-Alumina crucible-heat(930C,1day in air)-pellet-heat(930C,1 day)-ANN(350C,1 day)-RT" Structural anomalies in LaBa2Cu3Ox cuprates with iron substitution 1998 5 "National Laboratory of Solid State Microstructures, Institute of Solid State Physics, Nanjing University, Nanjing 210093, China" "Physica.C,301(1998)29-38" 8164 PHC3010029 "LaBa2(Cu,Fe)3O7" La1Ba2Cu2Fe1OZ La 1 Ba 2 Cu 2 Fe 1 O Z 1998 3 Y123 3.924 3.9392 11.817 K 10 "La2O3, BaCO3, Fe2O3, CuO" 1 "mixture-Alumina crucible-heat(930C,1day in air)-pellet-heat(930C,1 day)-ANN(350C,1 day)-RT" Structural anomalies in LaBa2Cu3Ox cuprates with iron substitution 1998 5 "National Laboratory of Solid State Microstructures, Institute of Solid State Physics, Nanjing University, Nanjing 210093, China" "Physica.C,301(1998)29-38" 8165 PHC3010029 "LaBa2(Cu,Fe)3O7" La1Ba2Cu1.875Fe1.125OZ La 1 Ba 2 Cu 1.875 Fe 1.125 O Z 1998 3 Y123 3.9314 3.9407 11.822 K 10 "La2O3, BaCO3, Fe2O3, CuO" 1 "mixture-Alumina crucible-heat(930C,1day in air)-pellet-heat(930C,1 day)-ANN(350C,1 day)-RT" Structural anomalies in LaBa2Cu3Ox cuprates with iron substitution 1998 5 "National Laboratory of Solid State Microstructures, Institute of Solid State Physics, Nanjing University, Nanjing 210093, China" "Physica.C,301(1998)29-38" 8166 PHC3010029 "LaBa2(Cu,Fe)3O7" La1Ba2Cu1.5Fe1.5OZ La 1 Ba 2 Cu 1.5 Fe 1.5 O Z 1998 3 3.9454 3.9539 11.833 K 10 "La2O3, BaCO3, Fe2O3, CuO" 1 "mixture-Alumina crucible-heat(930C,1day in air)-pellet-heat(930C,1 day)-ANN(350C,1 day)-RT" Structural anomalies in LaBa2Cu3Ox cuprates with iron substitution 1998 5 "National Laboratory of Solid State Microstructures, Institute of Solid State Physics, Nanjing University, Nanjing 210093, China" "Physica.C,301(1998)29-38" 8167 PHC3010029 "LaBa2(Cu,Fe)3O7" La1Ba2Cu1.125Fe1.875OZ La 1 Ba 2 Cu 1.125 Fe 1.875 O Z 1998 2 3.9519 11.832 K 10 "La2O3, BaCO3, Fe2O3, CuO" 1 "mixture-Alumina crucible-heat(930C,1day in air)-pellet-heat(930C,1 day)-ANN(350C,1 day)-RT" Structural anomalies in LaBa2Cu3Ox cuprates with iron substitution 1998 5 "National Laboratory of Solid State Microstructures, Institute of Solid State Physics, Nanjing University, Nanjing 210093, China" "Physica.C,301(1998)29-38" 8168 PHC3010029 "LaBa2(Cu,Fe)3O7" La1Ba2Cu1Fe2OZ La 1 Ba 2 Cu 1 Fe 2 O Z 1998 2 3.9496 11.838 K 10 "La2O3, BaCO3, Fe2O3, CuO" 1 "mixture-Alumina crucible-heat(930C,1day in air)-pellet-heat(930C,1 day)-ANN(350C,1 day)-RT" Structural anomalies in LaBa2Cu3Ox cuprates with iron substitution 1998 5 "National Laboratory of Solid State Microstructures, Institute of Solid State Physics, Nanjing University, Nanjing 210093, China" "Physica.C,301(1998)29-38" 8169 PHC3010029 "LaBa2(Cu,Fe)3O7" La1Ba2Cu0.75Fe2.25OZ La 1 Ba 2 Cu 0.75 Fe 2.25 O Z 1998 2 3.9538 11.849 K 10 "La2O3, BaCO3, Fe2O3, CuO" 1 "mixture-Alumina crucible-heat(930C,1day in air)-pellet-heat(930C,1 day)-ANN(350C,1 day)-RT" Structural anomalies in LaBa2Cu3Ox cuprates with iron substitution 1998 5 "National Laboratory of Solid State Microstructures, Institute of Solid State Physics, Nanjing University, Nanjing 210093, China" "Physica.C,301(1998)29-38" 8170 PHC3010315 YBa2Cu4O8 Y1Ba2Cu4O8+Z Y 1 Ba 2 Cu 4 O 8+Z 1998 3 Y124 3.8407 3.8701 27.231 K 77 77 "Y2O3,BaCO3,CuO,Fe2O3" "mixture-diluted in 10ml of 96% nitric acid-dry-heat-(700C, in air)-CAL-mix with soduim nitvate-pellet-heat(800C,20H in O2flow-RT(0.5C/min))" Site occupancy and Tc degradation in iron substituted YBa2(Cu1-xFex)4O8+delta 1998 6 "Instituto de Investigaciones en Materiales, UNAM, 04510 Me'xico D.F., Mexico" "Physica.C,301(1998)315-325" 8171 PHC3010315 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.975Fe0.025O8+Z Y 1 Ba 2 Cu 3.975 Fe 0.025 O 8+Z 1998 3 Y124 3.8417 3.8727 27.21 K 66 66 "Y2O3,BaCO3,CuO,Fe2O3" "mixture-diluted in 10ml of 96% nitric acid-dry-heat-(700C, in air)-CAL-mix with soduim nitvate-pellet-heat(800C,20H in O2flow-RT(0.5C/min))" Site occupancy and Tc degradation in iron substituted YBa2(Cu1-xFex)4O8+delta 1998 6 "Instituto de Investigaciones en Materiales, UNAM, 04510 Me'xico D.F., Mexico" "Physica.C,301(1998)315-325" 8172 PHC3010315 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.95Fe0.05O8+Z Y 1 Ba 2 Cu 3.95 Fe 0.05 O 8+Z 1998 3 Y124 3.8419 3.8734 27.208 K 51 51 "Y2O3,BaCO3,CuO,Fe2O3" "mixture-diluted in 10ml of 96% nitric acid-dry-heat-(700C, in air)-CAL-mix with soduim nitvate-pellet-heat(800C,20H in O2flow-RT(0.5C/min))" Site occupancy and Tc degradation in iron substituted YBa2(Cu1-xFex)4O8+delta 1998 6 "Instituto de Investigaciones en Materiales, UNAM, 04510 Me'xico D.F., Mexico" "Physica.C,301(1998)315-325" 8173 PHC3010315 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.925Fe0.075O8+Z Y 1 Ba 2 Cu 3.925 Fe 0.075 O 8+Z 1998 3 Y124 3.8428 3.8736 27.2 K 35 35 "Y2O3,BaCO3,CuO,Fe2O3" "mixture-diluted in 10ml of 96% nitric acid-dry-heat-(700C, in air)-CAL-mix with soduim nitvate-pellet-heat(800C,20H in O2flow-RT(0.5C/min))" Site occupancy and Tc degradation in iron substituted YBa2(Cu1-xFex)4O8+delta 1998 6 "Instituto de Investigaciones en Materiales, UNAM, 04510 Me'xico D.F., Mexico" "Physica.C,301(1998)315-325" 8174 PHC3010315 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.9Fe0.1O8+Z Y 1 Ba 2 Cu 3.9 Fe 0.1 O 8+Z 1998 3 Y124 3.8438 3.8743 27.192 K 10 10 "Y2O3,BaCO3,CuO,Fe2O3" "mixture-diluted in 10ml of 96% nitric acid-dry-heat-(700C, in air)-CAL-mix with soduim nitvate-pellet-heat(800C,20H in O2flow-RT(0.5C/min))" Site occupancy and Tc degradation in iron substituted YBa2(Cu1-xFex)4O8+delta 1998 6 "Instituto de Investigaciones en Materiales, UNAM, 04510 Me'xico D.F., Mexico" "Physica.C,301(1998)315-325" 8175 PHC3010315 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.8Fe0.2O8+Z Y 1 Ba 2 Cu 3.8 Fe 0.2 O 8+Z 1998 3 Y124 3.8464 3.8705 29.159 K "Y2O3,BaCO3,CuO,Fe2O3" "mixture-diluted in 10ml of 96% nitric acid-dry-heat-(700C, in air)-CAL-mix with soduim nitvate-pellet-heat(800C,20H in O2flow-RT(0.5C/min))" Site occupancy and Tc degradation in iron substituted YBa2(Cu1-xFex)4O8+delta 1998 6 "Instituto de Investigaciones en Materiales, UNAM, 04510 Me'xico D.F., Mexico" "Physica.C,301(1998)315-325" 8176 PHC3010155 Cu-valence=2.26 YBa4Cu7O15 Y2Ba4Cu7O15 Y 2 Ba 4 Cu 7 O 15 1 1998 3 Y247 3.8364 3.8791 50.386 K 80 80 "CuO, YBa2Cu3O6" mixture-heat(950Cunder zokbar O2) Effect of fluorination on the structure and superconducting properties of Y2Ba4CuO14+delta phases 1998 6 "Department of chemistry, Moscow State University, 119899 Moscow, Russian Federation" "Physica.C,301(1998)155-164" 8177 PHC3010155 Cu-valence=2.02 YBa4Cu7O14 Y2Ba4Cu7O14 Y 2 Ba 4 Cu 7 O 14 1 1998 3 Y247 3.849 3.8693 50.794 K 30 30 "CuO, YBa2Cu3O6" "mixture-heat(950C,under 20 kbar O2)-ANN(625C,10H in Ar fiow P(O2)=10E-3 atm)" Effect of fluorination on the structure and superconducting properties of Y2Ba4CuO14+delta phases 1998 6 "Department of chemistry, Moscow State University, 119899 Moscow, Russian Federation" "Physica.C,301(1998)155-164" 8178 PHC3010155 YBa4Cu7O14:XeF2=1:0.6 two phase "Y2Ba4Cu7(F,O)15" Y2Ba4Cu7F0.6OZ Y 2 Ba 4 Cu 7 F 0.6 O Z 2 1998 3 Y247 3.8499 3.8769 50.664 K 40 40 "YBa4Cu7O14+XeF2-mixture-Ni crucible-sealed in Cu yubes-heat(300C,30H)" Effect of fluorination on the structure and superconducting properties of Y2Ba4CuO14+delta phases 1998 6 "Department of chemistry, Moscow State University, 119899 Moscow, Russian Federation" "Physica.C,301(1998)155-164" 8179 PHC3010155 "YBa4Cu7O14:XeF2=1:1.2, Cu-valence=2.10" "Y2Ba4Cu7(F,O)15" Y2Ba4Cu7F1.2OZ Y 2 Ba 4 Cu 7 F 1.2 O Z 1 1998 3 Y247 3.8572 3.8777 51.775 K 56 56 "YBa4Cu7O14+XeF2-mixture-Ni crucible-sealed in Cu yubes-heat(300C,30H)" Effect of fluorination on the structure and superconducting properties of Y2Ba4CuO14+delta phases 1998 6 "Department of chemistry, Moscow State University, 119899 Moscow, Russian Federation" "Physica.C,301(1998)155-164" 8180 PHC3010155 "YBa4Cu7O14:XeF2=1:1.7, Cu-valence=2.11" "Y2Ba4Cu7(F,O)15" Y2Ba4Cu7F1.7OZ Y 2 Ba 4 Cu 7 F 1.7 O Z 1 1998 3 Y247 3.8576 3.878 51.962 K 62 62 "YBa4Cu7O14+XeF2-mixture-Ni crucible-sealed in Cu yubes-heat(300C,30H)" Effect of fluorination on the structure and superconducting properties of Y2Ba4CuO14+delta phases 1998 6 "Department of chemistry, Moscow State University, 119899 Moscow, Russian Federation" "Physica.C,301(1998)155-164" 8181 PHC3010048 LaBaCaCu3O7 La1Ba1Ca1Cu3O7 La 1 Ba 1 Ca 1 Cu 3 O 7 1998 2 1113 3.869 11.645 K 69 69 1 "mixture-fire(975-995C)-ANN(575C,24H)" "Synthesis, structural aspects and superconductivity of La1-xRExBaCaCu3O7 with RE=Nd,Dy,Sm and Pr" 1998 5 "National Physical Laboratory, Krishnan Marg, New Delhi 110012, India" "Physica.C,301(1998)48-54" 8182 PHC3010048 "(La,Nd)BaCaCu3O7" La0.75Nd0.25Ba1Ca1Cu3O7 La 0.75 Nd 0.25 Ba 1 Ca 1 Cu 3 O 7 1998 2 1113 3.866 11.642 K 55 55 1 "mixture-fire(975-995C)-ANN(575C,24H)" "Synthesis, structural aspects and superconductivity of La1-xRExBaCaCu3O7 with RE=Nd,Dy,Sm and Pr" 1998 5 "National Physical Laboratory, Krishnan Marg, New Delhi 110012, India" "Physica.C,301(1998)48-54" 8183 PHC3010048 NdBaCaCu3O7 Nd1Ba1Ca1Cu3O7 Nd 1 Ba 1 Ca 1 Cu 3 O 7 1998 2 1113 3.862 11.623 K 33 33 1 "mixture-fire(975-995C)-ANN(575C,24H)" "Synthesis, structural aspects and superconductivity of La1-xRExBaCaCu3O7 with RE=Nd,Dy,Sm and Pr" 1998 5 "National Physical Laboratory, Krishnan Marg, New Delhi 110012, India" "Physica.C,301(1998)48-54" 8184 PHC3010048 "(La,Sm)BaCaCu3O7" La0.75Sm0.25Ba1Ca1Cu3O7 La 0.75 Sm 0.25 Ba 1 Ca 1 Cu 3 O 7 1998 2 1113 3.865 11.632 K 71 71 1 "mixture-fire(975-995C)-ANN(575C,24H)" "Synthesis, structural aspects and superconductivity of La1-xRExBaCaCu3O7 with RE=Nd,Dy,Sm and Pr" 1998 5 "National Physical Laboratory, Krishnan Marg, New Delhi 110012, India" "Physica.C,301(1998)48-54" 8185 PHC3010048 "(La,Sm)BaCaCu3O7" La0.5Sm0.5Ba1Ca1Cu3O7 La 0.5 Sm 0.5 Ba 1 Ca 1 Cu 3 O 7 1998 2 1113 3.866 11.621 K 66 66 1 "mixture-fire(975-995C)-ANN(575C,24H)" "Synthesis, structural aspects and superconductivity of La1-xRExBaCaCu3O7 with RE=Nd,Dy,Sm and Pr" 1998 5 "National Physical Laboratory, Krishnan Marg, New Delhi 110012, India" "Physica.C,301(1998)48-54" 8186 PHC3010048 "(La,Sm)BaCaCu3O7" La0.25Sm0.75Ba1Ca1Cu3O7 La 0.25 Sm 0.75 Ba 1 Ca 1 Cu 3 O 7 1998 2 1113 3.862 11.601 K 65 65 1 "mixture-fire(975-995C)-ANN(575C,24H)" "Synthesis, structural aspects and superconductivity of La1-xRExBaCaCu3O7 with RE=Nd,Dy,Sm and Pr" 1998 5 "National Physical Laboratory, Krishnan Marg, New Delhi 110012, India" "Physica.C,301(1998)48-54" 8187 PHC3010048 "(La,Pr)BaCaCu3O7" La0.8Pr0.2Ba1Ca1Cu3O7 La 0.8 Pr 0.2 Ba 1 Ca 1 Cu 3 O 7 1 1998 2 1113 3.867 11.639 K 52 52 1 "mixture-fire(975-995C)-ANN(575C,24H)" "Synthesis, structural aspects and superconductivity of La1-xRExBaCaCu3O7 with RE=Nd,Dy,Sm and Pr" 1998 5 "National Physical Laboratory, Krishnan Marg, New Delhi 110012, India" "Physica.C,301(1998)48-54" 8188 PHC3010048 "(La,Pr)BaCaCu3O7" La0.6Pr0.6Ba1Ca1Cu3O7 La 0.6 Pr 0.6 Ba 1 Ca 1 Cu 3 O 7 1 1998 2 1113 3.866 11.63 K 28 28 1 "mixture-fire(975-995C)-ANN(575C,24H)" "Synthesis, structural aspects and superconductivity of La1-xRExBaCaCu3O7 with RE=Nd,Dy,Sm and Pr" 1998 5 "National Physical Laboratory, Krishnan Marg, New Delhi 110012, India" "Physica.C,301(1998)48-54" 8189 PHC3010048 "(La,Pr)BaCaCu3O7" La0.4Pr0.4Ba1Ca1Cu3O7 La 0.4 Pr 0.4 Ba 1 Ca 1 Cu 3 O 7 1 1998 2 1113 3.87 11.624 K 14 14 1 "mixture-fire(975-995C)-ANN(575C,24H)" "Synthesis, structural aspects and superconductivity of La1-xRExBaCaCu3O7 with RE=Nd,Dy,Sm and Pr" 1998 5 "National Physical Laboratory, Krishnan Marg, New Delhi 110012, India" "Physica.C,301(1998)48-54" 8190 SSC1080425 "(La,Ca)2CaCu2O6" La1.82Ca1.18Cu2O6 La 1.82 Ca 1.18 Cu 2 O 6 1998 2126 K 55 55 IRREVERSIBILITY FIELDS AND CRITICAL CURRENTS FOR PURE AND Y-SUBSTITUTED La1.82Ca1.18Cu2O6 SUPERCONDUCTORS 1998 "Physics Department,Nortern Illinois University, Dekalb, IL 60115, U.S.A." Solid State Commun.108(1998)425 8191 PHC3010048 "(La,Dy)BaCaCu3O7" La0.75Dy0.25Ba1Ca1Cu3O7 La 0.75 Dy 0.25 Ba 1 Ca 1 Cu 3 O 7 1 1998 3.862 11.623 K 56 56 1 "mixture-fire(975-995C)-ANN(575C,24H)" "Synthesis, structural aspects and superconductivity of La1-xRExBaCaCu3O7 with RE=Nd,Dy,Sm and Pr" 1998 5 "National Physical Laboratory, Krishnan Marg, New Delhi 110012, India" "Physica.C,301(1998)48-54" 8192 PHC3010048 "(La,Dy)BaCaCu3O7" La0.5Dy0.5Ba1Ca1Cu3O7 La 0.5 Dy 0.5 Ba 1 Ca 1 Cu 3 O 7 1 1998 3.86 11.606 K 55 55 1 "mixture-fire(975-995C)-ANN(575C,24H)" "Synthesis, structural aspects and superconductivity of La1-xRExBaCaCu3O7 with RE=Nd,Dy,Sm and Pr" 1998 5 "National Physical Laboratory, Krishnan Marg, New Delhi 110012, India" "Physica.C,301(1998)48-54" 8193 PHC3010048 "(La,Dy)BaCaCu3O7" La0.25Dy0.75Ba1Ca1Cu3O7 La 0.25 Dy 0.75 Ba 1 Ca 1 Cu 3 O 7 2 1998 K 59 59 1 "mixture-fire(975-995C)-ANN(575C,24H)" "Synthesis, structural aspects and superconductivity of La1-xRExBaCaCu3O7 with RE=Nd,Dy,Sm and Pr" 1998 5 "National Physical Laboratory, Krishnan Marg, New Delhi 110012, India" "Physica.C,301(1998)48-54" 8194 PHC3020010 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1998 3 Y124 3.8441 3.8727 27.2381 K 75 75 "Pr6O11, Y2O3, BaO2, CuO" mixture-pellet-CAL(850-900C in air)-pellet-SIN by O2-HIP Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8195 PHC3020010 "(Y,Pr)Ba2Cu4O8" Y0.9Pr0.1Ba2Cu4O8 Y 0.9 Pr 0.1 Ba 2 Cu 4 O 8 1 1998 emu/g 0.0000004 myu-B/Pr 2.45 8.5 3 Y124 3.841 3.8727 K 66 66 "Pr6O11, Y2O3, BaO2, CuO" mixture-pellet-CAL(850-900C in air)-pellet-SIN by O2-HIP Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8196 PHC3020010 "(Y,Pr)Ba2Cu4O8" Y0.8Pr0.2Ba2Cu4O8 Y 0.8 Pr 0.2 Ba 2 Cu 4 O 8 1 1998 emu/g 0.0000005 myu-B/Pr 2.6 3.8 3 Y124 3.8449 3.8766 27.2112 K 60 60 "Pr6O11, Y2O3, BaO2, CuO" mixture-pellet-CAL(850-900C in air)-pellet-SIN by O2-HIP Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8197 PHC3020010 "(Y,Pr)Ba2Cu4O8" Y0.7Pr0.3Ba2Cu4O8 Y 0.7 Pr 0.3 Ba 2 Cu 4 O 8 1 1998 emu/g 0.000000618 myu-B/Pr 2.61 3.3 3 Y124 3.8495 3.8774 27.205 K 61 61 "Pr6O11, Y2O3, BaO2, CuO" mixture-pellet-CAL(850-900C in air)-pellet-SIN by O2-HIP Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8198 PHC3020010 "(Y,Pr)Ba2Cu4O8" Y0.6Pr0.4Ba2Cu4O8 Y 0.6 Pr 0.4 Ba 2 Cu 4 O 8 1 1998 emu/g 0.00000021 myu-B/Pr 2.5 2.58 3 Y124 3.8557 3.8821 27.2181 K 54 54 "Pr6O11, Y2O3, BaO2, CuO" mixture-pellet-CAL(850-900C in air)-pellet-SIN by O2-HIP Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8199 PHC3020010 "(Y,Pr)Ba2Cu4O8" Y0.5Pr0.5Ba2Cu4O8 Y 0.5 Pr 0.5 Ba 2 Cu 4 O 8 1 1998 emu/g 0.0000007 myu-B/Pr 2.65 2.83 3 Y124 3.8588 3.8883 27.2404 K 50 50 "Pr6O11, Y2O3, BaO2, CuO" mixture-pellet-CAL(850-900C in air)-pellet-SIN by O2-HIP Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8200 PHC3020010 "(Y,Pr)Ba2Cu4O8" Y0.4Pr0.6Ba2Cu4O8 Y 0.4 Pr 0.6 Ba 2 Cu 4 O 8 1 1998 emu/g 0.00000084 myu-B/Pr 2.63 7.9 3 Y124 3.8635 3.889 27.2412 K 40 40 "Pr6O11, Y2O3, BaO2, CuO" mixture-pellet-CAL(850-900C in air)-pellet-SIN by O2-HIP Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8201 PHC3020010 "(Y,Pr)Ba2Cu4O8" Y0.3Pr0.7Ba2Cu4O8 Y 0.3 Pr 0.7 Ba 2 Cu 4 O 8 1998 emu/g 0.00000096 myu-B/Pr 2.72 10 3 Y124 3.8673 3.8921 27.265 K 20 20 "Pr6O11, Y2O3, BaO2, CuO" mixture-pellet-CAL(850-900C in air)-pellet-SIN by high pressure O2 technique Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8202 PHC3020010 "(Y,Pr)Ba2Cu4O8" Y0.2Pr0.8Ba2Cu4O8 Y 0.2 Pr 0.8 Ba 2 Cu 4 O 8 1998 emu/g 0.00000096 myu-B/Pr 2.7 10.5 3 Y124 3.8751 3.8968 27.2719 K 4.2 "Pr6O11, Y2O3, BaO2, CuO" mixture-pellet-CAL(850-900C in air)-pellet-SIN by high pressure O2 technique Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8203 PHC3020010 "(Y,Pr)Ba2Cu4O8" Y0.1Pr0.9Ba2Cu4O8 Y 0.1 Pr 0.9 Ba 2 Cu 4 O 8 1998 emu/g 0.00000156 myu-B/Pr 2.66 11.8 3 Y124 3.8797 3.9006 27.2927 K 4.2 "Pr6O11, Y2O3, BaO2, CuO" mixture-pellet-CAL(850-900C in air)-pellet-SIN by high pressure O2 technique Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8204 PHC3020010 "(Y,Pr)Ba2Cu4O8" Pr1Ba2Cu4O8 Pr 1 Ba 2 Cu 4 O 8 1998 emu/g 0.00000129 myu-B/Pr 2.67 7.3 3 Y124 3.8851 3.9037 27.3173 K 4.2 "Pr6O11, Y2O3, BaO2, CuO" mixture-pellet-CAL(850-900C in air)-pellet-SIN by high pressure O2 technique Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8205 PHC3020010 YBa4Cu7O15 Y2Ba4Cu7O15-Z Y 2 Ba 4 Cu 7 O 15-Z 1998 3 Y247 3.8426 3.8779 50.6168 K 84 84 "Pr6O11, Y2O3, BaO2, CuO" "high pressure oxyges technique SIN(980C, P(O2)=9 atm)" Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8206 PHC3020010 "(Y,Pr)2Ba4Cu7O15" Y1.8Pr0.2Ba4Cu7O15-Z Y 1.8 Pr 0.2 Ba 4 Cu 7 O 15-Z 1998 emu/g 0.00000047 myu-B/Pr 3.2 18.9 3 Y247 3.839 3.8772 50.4991 K 70 70 "Pr6O11, Y2O3, BaO2, CuO" "high pressure oxyges technique SIN(980C, P(O2)=9 atm)" Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8207 PHC3020010 "(Y,Pr)2Ba4Cu7O15" Y1.6Pr0.4Ba4Cu7O15-Z Y 1.6 Pr 0.4 Ba 4 Cu 7 O 15-Z 1998 emu/g 0.00000036 myu-B/Pr 2.81 8.3 3 Y247 3.8426 3.8829 50.58 K 74 74 "Pr6O11, Y2O3, BaO2, CuO" "high pressure oxyges technique SIN(980C, P(O2)=9 atm)" Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8208 PHC3020010 "(Y,Pr)2Ba4Cu7O15" Y1.4Pr0.6Ba4Cu7O15-Z Y 1.4 Pr 0.6 Ba 4 Cu 7 O 15-Z 1998 emu/g 0.00000043 myu-B/Pr 2.81 6.5 3 Y247 3.8355 3.8844 50.5756 K 63 63 "Pr6O11, Y2O3, BaO2, CuO" "high pressure oxyges technique SIN(980C, P(O2)=9 atm)" Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8209 PHC3020010 "(Y,Pr)2Ba4Cu7O15" Y1.2Pr0.8Ba4Cu7O15-Z Y 1.2 Pr 0.8 Ba 4 Cu 7 O 15-Z 1998 emu/g 0.00000042 myu-B/Pr 2.9 7 3 Y247 3.8541 3.8858 50.5726 K 57 57 "Pr6O11, Y2O3, BaO2, CuO" "high pressure oxyges technique SIN(980C, P(O2)=9 atm)" Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8210 PHC3020010 "(Y,Pr)2Ba4Cu7O15" Y1Pr1Ba4Cu7O15-Z Y 1 Pr 1 Ba 4 Cu 7 O 15-Z 1998 emu/g 0.00000055 myu-B/Pr 2.92 13 3 Y247 3.8527 3.8829 50.5932 K 44 44 "Pr6O11, Y2O3, BaO2, CuO" "high pressure oxyges technique SIN(980C, P(O2)=9 atm)" Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8211 PHC3020010 "(Y,Pr)2Ba4Cu7O15" Y0.8Pr1.2Ba4Cu7O15-Z Y 0.8 Pr 1.2 Ba 4 Cu 7 O 15-Z 1998 emu/g 0.00000063 myu-B/Pr 2.97 9.3 3 Y247 3.8613 3.8923 50.5947 K 33 33 "Pr6O11, Y2O3, BaO2, CuO" "high pressure oxyges technique SIN(980C, P(O2)=9 atm)" Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8212 PHC3020010 "(Y,Pr)2Ba4Cu7O15" Y0.6Pr1.4Ba4Cu7O15-Z Y 0.6 Pr 1.4 Ba 4 Cu 7 O 15-Z 1998 emu/g 0.000001 myu-B/Pr 2.78 11.7 3 Y247 3.8721 3.9002 50.6271 K 10 10 "Pr6O11, Y2O3, BaO2, CuO" "high pressure oxyges technique SIN(980C, P(O2)=6 atm)" Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8213 PHC3020010 "(Y,Pr)2Ba4Cu7O15" Y0.4Pr1.6Ba4Cu7O15-Z Y 0.4 Pr 1.6 Ba 4 Cu 7 O 15-Z 1998 emu/g 0.00000123 myu-B/Pr 2.63 7.9 3 Y247 3.8786 3.9009 50.655 K 4.2 "Pr6O11, Y2O3, BaO2, CuO" "high pressure oxyges technique SIN(980C, P(O2)=6 atm)" Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8214 PHC3020010 "(Y,Pr)2Ba4Cu7O15" Y0.2Pr1.8Ba4Cu7O15-Z Y 0.2 Pr 1.8 Ba 4 Cu 7 O 15-Z 1998 emu/g 0.00000132 myu-B/Pr 2.63 7.1 3 Y247 3.8808 3.9002 50.6388 K 4.2 "Pr6O11, Y2O3, BaO2, CuO" "high pressure oxyges technique SIN(980C, P(O2)=6 atm)" Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8215 PHC3020010 "(Y,Pr)2Ba4Cu7O15" Pr2Ba4Cu7O15-Z Pr 2 Ba 4 Cu 7 O 15-Z 1998 emu/g 0.00000101 myu-B/Pr 2.92 15.4 3 Y247 3.8815 3.9009 50.6403 K 4.2 "Pr6O11, Y2O3, BaO2, CuO" "high pressure oxyges technique SIN(980C, P(O2)=6 atm)" Synthesis and superonducting properties of (Y1-xPrx)Ba2Cu4O8 and (Y1-xPrx)2Ba4Cu7O15-y compounds 1998 6 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-01, JApan" "Physica.C,302(1998)10-22" 8216 PHC3010017 Tc is defined as maximun ds/dT YBa2Cu3Oz Y1Ba2Cu3O6.765 Y 1 Ba 2 Cu 3 O 6.765 1 1998 Y123 K 75.8 75.8 TP8216 "Z=6.765 sample-ANN(175C,10H in H2 gas under 100 Torr" The change of Tc(onset) in YBa2Cu3O7-y due to hydrogenation 1998 5 "W. Trzebiatowski Institute for Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 937,50-950 Wroclaw 2, Poland" "Physica.C,301(1998)17-22" 8217 PHC3010017 Tc is defined as maximun ds/dT YBa2Cu3HxOz Y1Ba2Cu3H0.1O6.765 Y 1 Ba 2 Cu 3 H 0.1 O 6.765 1 1998 Y123 K 73 73 TP8217 "Z=6.765 sample-ANN(175C,10H in H2 gas under 100 Torr" The change of Tc(onset) in YBa2Cu3O7-y due to hydrogenation 1998 5 "W. Trzebiatowski Institute for Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 937,50-950 Wroclaw 2, Poland" "Physica.C,301(1998)17-22" 8218 PHC3010017 Tc is defined as maximun ds/dT YBa2Cu3HxOz Y1Ba2Cu3H0.24O6.765 Y 1 Ba 2 Cu 3 H 0.24 O 6.765 1 1998 Y123 K 68 68 TP8218 "Z=6.765 sample-ANN(175C,10H in H2 gas under 100 Torr" The change of Tc(onset) in YBa2Cu3O7-y due to hydrogenation 1998 5 "W. Trzebiatowski Institute for Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 937,50-950 Wroclaw 2, Poland" "Physica.C,301(1998)17-22" 8219 PHC3010017 YBa2Cu3Oz Y1Ba2Cu3O6.795 Y 1 Ba 2 Cu 3 O 6.795 1 1998 Y123 K 82.5 82.5 TP8219 "Z=6.795 sample-predried(100C,30 min, in vac)-closed in capsule with H2 gas (<500 Torr)-ANN(200C,48H)-slow cool to RT" The change of Tc(onset) in YBa2Cu3O7-y due to hydrogenation 1998 5 "W. Trzebiatowski Institute for Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 937,50-950 Wroclaw 2, Poland" "Physica.C,301(1998)17-22" 8220 PHC3010017 YBa2Cu3HxOz Y1Ba2Cu3H0.1O6.795 Y 1 Ba 2 Cu 3 H 0.1 O 6.795 1 1998 Y123 K 75 75 TP8220 "Z=6.795 sample-predried(100C,30 min, in vac)-closed in capsule with H2 gas (<500 Torr)-ANN(200C,48H)-slow cool to RT" The change of Tc(onset) in YBa2Cu3O7-y due to hydrogenation 1998 5 "W. Trzebiatowski Institute for Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 937,50-950 Wroclaw 2, Poland" "Physica.C,301(1998)17-22" 8221 PHC3010017 YBa2Cu3HxOz Y1Ba2Cu3H0.2O6.795 Y 1 Ba 2 Cu 3 H 0.2 O 6.795 1 1998 Y123 K 72.5 72.5 TP8221 "Z=6.795 sample-predried(100C,30 min, in vac)-closed in capsule with H2 gas (<500 Torr)-ANN(200C,48H)-slow cool to RT" The change of Tc(onset) in YBa2Cu3O7-y due to hydrogenation 1998 5 "W. Trzebiatowski Institute for Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 937,50-950 Wroclaw 2, Poland" "Physica.C,301(1998)17-22" 8222 PHC3020137 "HIP at 1080C, sub phase=CuTl1234" "(Cu,Tl)Ba2Ca2Cu3O11" Cu0.25Tl0.75Ba2Ca2Cu3O11-Z Cu 0.25 Tl 0.75 Ba 2 Ca 2 Cu 3 O 11-Z 1998 Cu1223 K 108 108 "precursor(Ba2CaCu2Oz,Ba2Ca2Cu3Oz,Ba2Ca3Cu4Oz)+Tl2O3-mixture-packing(Au capsule)-HIP" "Synthesis of Cu1-xTlxBa2Ca2Cu3O11-y(x~0,7) superconductor by hot press" 1998 6 "Electrotechnical Laboratories, 1-1-4 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Physica.C,302(1998)137-142" 8223 PHC3020137 "HIP at 1000C, sub phase=CuTl1234" "(Cu,Tl)Ba2Ca2Cu3O11" Cu0.25Tl0.75Ba2Ca2Cu3O11-Z Cu 0.25 Tl 0.75 Ba 2 Ca 2 Cu 3 O 11-Z 1998 Cu1223 K 121 121 "precursor(Ba2CaCu2Oz,Ba2Ca2Cu3Oz,Ba2Ca3Cu4Oz)+Tl2O3-mixture-packing(Au capsule)-HIP" "Synthesis of Cu1-xTlxBa2Ca2Cu3O11-y(x~0,7) superconductor by hot press" 1998 6 "Electrotechnical Laboratories, 1-1-4 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Physica.C,302(1998)137-142" 8224 PHC3020137 "HIP at 1030C, sub phase=CuTl1234" "(Cu,Tl)Ba2Ca2Cu3O11" Cu0.25Tl0.75Ba2Ca2Cu3O11-Z Cu 0.25 Tl 0.75 Ba 2 Ca 2 Cu 3 O 11-Z 1998 Cu1223 K 117 117 "precursor(Ba2CaCu2Oz,Ba2Ca2Cu3Oz,Ba2Ca3Cu4Oz)+Tl2O3-mixture-packing(Au capsule)-HIP" "Synthesis of Cu1-xTlxBa2Ca2Cu3O11-y(x~0,7) superconductor by hot press" 1998 6 "Electrotechnical Laboratories, 1-1-4 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Physica.C,302(1998)137-142" 8225 PHC3030001 "(Cu,Ti)Sr2(Y,Ce)2Cu2Oz" Cu0.75Ti0.25Sr2Y1.3Ce0.7Cu2O8.71 Cu 0.75 Ti 0.25 Sr 2 Y 1.3 Ce 0.7 Cu 2 O Z 8.71 1998 2 Cu1222 3.8163 28.595 K 21 21 "mixture-pellet-heat(1000C,20H in air)-SIN(1050C,10H in O2)-ANN(700C,20H under high pressure(100kgf/cm2)O2)" "A new Superconductor with 1222 structure (Cu1-xMx)Sr2(Y1-yCey)2Cu2Odelta(M=Ti,V,Cr,Fe,Co,Ga,Ge,Mo,Ce,W and Re)" 1998 7 "Department of Physics, Aoyama-gakuin University, Setagaya-ku, Tokyo 157, Japan" "Physica.C,303(1998)1-10" 8226 PHC3030001 "(Cu,V)Sr2(Y,Ce)2Cu2Oz" Cu0.75V0.25Sr2Y1.3Ce0.7Cu2O8.77 Cu 0.75 V 0.25 Sr 2 Y 1.3 Ce 0.7 Cu 2 O Z 8.77 1998 2 Cu1222 3.826 28.2914 K 24.5 24.5 "mixture-pellet-heat(1000C,20H in air)-SIN(1050C,10H in O2)-ANN(700C,20H under high pressure(100kgf/cm2)O2)" "A new Superconductor with 1222 structure (Cu1-xMx)Sr2(Y1-yCey)2Cu2Odelta(M=Ti,V,Cr,Fe,Co,Ga,Ge,Mo,Ce,W and Re)" 1998 7 "Department of Physics, Aoyama-gakuin University, Setagaya-ku, Tokyo 157, Japan" "Physica.C,303(1998)1-10" 8227 PHC3030001 "(Cu,Cr)Sr2(Y,Ce)2Cu2Oz" Cu0.75Cr0.25Sr2Y1.3Ce0.7Cu2O8.87 Cu 0.75 Cr 0.25 Sr 2 Y 1.3 Ce 0.7 Cu 2 O Z 8.87 1998 2 Cu1222 3.8366 28.154 K 8 8 "mixture-pellet-heat(1000C,20H in air)-SIN(1050C,10H in O2)-ANN(700C,20H under high pressure(100kgf/cm2)O2)" "A new Superconductor with 1222 structure (Cu1-xMx)Sr2(Y1-yCey)2Cu2Odelta(M=Ti,V,Cr,Fe,Co,Ga,Ge,Mo,Ce,W and Re)" 1998 7 "Department of Physics, Aoyama-gakuin University, Setagaya-ku, Tokyo 157, Japan" "Physica.C,303(1998)1-10" 8228 PHC3030001 "(Cu,Fe)Sr2(Y,Ce)2Cu2Oz" Cu0.75Fe0.25Sr2Y1.3Ce0.7Cu2O8.49 Cu 0.75 Fe 0.25 Sr 2 Y 1.3 Ce 0.7 Cu 2 O Z 8.49 1998 2 Cu1222 3.8065 28.433 K 4.2 "mixture-pellet-heat(1000C,20H in air)-SIN(1050C,10H in O2)-ANN(700C,20H under high pressure(100kgf/cm2)O2)" "A new Superconductor with 1222 structure (Cu1-xMx)Sr2(Y1-yCey)2Cu2Odelta(M=Ti,V,Cr,Fe,Co,Ga,Ge,Mo,Ce,W and Re)" 1998 7 "Department of Physics, Aoyama-gakuin University, Setagaya-ku, Tokyo 157, Japan" "Physica.C,303(1998)1-10" 8229 PHC3030001 "(Cu,Co)Sr2(Y,Ce)2Cu2Oz" Cu0.75Co0.25Sr2Y1.3Ce0.7Cu2O8.43 Cu 0.75 Co 0.25 Sr 2 Y 1.3 Ce 0.7 Cu 2 O Z 8.43 1998 2 Cu1222 3.8077 28.468 K 24 24 "mixture-pellet-heat(1000C,20H in air)-SIN(1050C,10H in O2)-ANN(700C,20H under high pressure(100kgf/cm2)O2)" "A new Superconductor with 1222 structure (Cu1-xMx)Sr2(Y1-yCey)2Cu2Odelta(M=Ti,V,Cr,Fe,Co,Ga,Ge,Mo,Ce,W and Re)" 1998 7 "Department of Physics, Aoyama-gakuin University, Setagaya-ku, Tokyo 157, Japan" "Physica.C,303(1998)1-10" 8230 PHC3030001 "(Cu,Ga,)Sr2(Y,Ce)2Cu2Oz" Cu0.75Ga0.25Sr2Y1.3Ce0.7Cu2O8.6 Cu 0.75 Ga 0.25 Sr 2 Y 1.3 Ce 0.7 Cu 2 O Z 8.6 1998 2 Cu1222 3.8179 28.649 K 12 12 "mixture-pellet-heat(1000C,20H in air)-SIN(1050C,10H in O2)-ANN(700C,20H under high pressure(100kgf/cm2)O2)" "A new Superconductor with 1222 structure (Cu1-xMx)Sr2(Y1-yCey)2Cu2Odelta(M=Ti,V,Cr,Fe,Co,Ga,Ge,Mo,Ce,W and Re)" 1998 7 "Department of Physics, Aoyama-gakuin University, Setagaya-ku, Tokyo 157, Japan" "Physica.C,303(1998)1-10" 8231 PHC3030001 "(Cu,Ge)Sr2(Y,Ce)2Cu2Oz" Cu0.75Ge0.25Sr2Y1.3Ce0.7Cu2O8.59 Cu 0.75 Ge 0.25 Sr 2 Y 1.3 Ce 0.7 Cu 2 O Z 8.59 1998 2 Cu1222 3.8131 28.458 K 17.5 17.5 "mixture-pellet-heat(1000C,20H in air)-SIN(1050C,10H in O2)-ANN(700C,20H under high pressure(100kgf/cm2)O2)" "A new Superconductor with 1222 structure (Cu1-xMx)Sr2(Y1-yCey)2Cu2Odelta(M=Ti,V,Cr,Fe,Co,Ga,Ge,Mo,Ce,W and Re)" 1998 7 "Department of Physics, Aoyama-gakuin University, Setagaya-ku, Tokyo 157, Japan" "Physica.C,303(1998)1-10" 8232 PHC3030001 "(Cu,Mo)Sr2(Y,Ce)2Cu2Oz" Cu0.75Mo0.25Sr2Y1.3Ce0.7Cu2O8.76 Cu 0.75 Mo 0.25 Sr 2 Y 1.3 Ce 0.7 Cu 2 O Z 8.76 1998 2 Cu1222 3.8143 28.522 K 4.2 "mixture-pellet-heat(1000C,20H in air)-SIN(1050C,10H in O2)-ANN(700C,20H under high pressure(100kgf/cm2)O2)" "A new Superconductor with 1222 structure (Cu1-xMx)Sr2(Y1-yCey)2Cu2Odelta(M=Ti,V,Cr,Fe,Co,Ga,Ge,Mo,Ce,W and Re)" 1998 7 "Department of Physics, Aoyama-gakuin University, Setagaya-ku, Tokyo 157, Japan" "Physica.C,303(1998)1-10" 8233 PHC3030001 "(Cu,Ce)Sr2(Y,Ce)2Cu2Oz" Cu0.75Ce0.25Sr2Y1.3Ce0.7Cu2O8.91 Cu 0.75 Ce 0.25 Sr 2 Y 1.3 Ce 0.7 Cu 2 O Z 8.91 1998 2 Cu1222 3.8198 29.107 K 10 10 "mixture-pellet-heat(1000C,20H in air)-SIN(1050C,10H in O2)-ANN(700C,20H under high pressure(100kgf/cm2)O2)" "A new Superconductor with 1222 structure (Cu1-xMx)Sr2(Y1-yCey)2Cu2Odelta(M=Ti,V,Cr,Fe,Co,Ga,Ge,Mo,Ce,W and Re)" 1998 7 "Department of Physics, Aoyama-gakuin University, Setagaya-ku, Tokyo 157, Japan" "Physica.C,303(1998)1-10" 8234 PHC3030001 "(Cu,W)Sr2(Y,Ce)2Cu2Oz" Cu0.75W0.25Sr2Y1.3Ce0.7Cu2O8.81 Cu 0.75 W 0.25 Sr 2 Y 1.3 Ce 0.7 Cu 2 O Z 8.81 1998 2 Cu1222 3.8102 28.395 K 31.5 31.5 "mixture-pellet-heat(1000C,20H in air)-SIN(1050C,10H in O2)-ANN(700C,20H under high pressure(100kgf/cm2)O2)" "A new Superconductor with 1222 structure (Cu1-xMx)Sr2(Y1-yCey)2Cu2Odelta(M=Ti,V,Cr,Fe,Co,Ga,Ge,Mo,Ce,W and Re)" 1998 7 "Department of Physics, Aoyama-gakuin University, Setagaya-ku, Tokyo 157, Japan" "Physica.C,303(1998)1-10" 8235 PHC3030001 "(Cu,Re)Sr2(Y,Ce)2Cu2Oz" Cu0.75Re0.25Sr2Y1.3Ce0.7Cu2O9.06 Cu 0.75 Re 0.25 Sr 2 Y 1.3 Ce 0.7 Cu 2 O Z 9.06 1998 2 Cu1222 3.8159 28.371 K 33.5 33.5 "mixture-pellet-heat(1000C,20H in air)-SIN(1050C,10H in O2)-ANN(700C,20H under high pressure(100kgf/cm2)O2)" "A new Superconductor with 1222 structure (Cu1-xMx)Sr2(Y1-yCey)2Cu2Odelta(M=Ti,V,Cr,Fe,Co,Ga,Ge,Mo,Ce,W and Re)" 1998 7 "Department of Physics, Aoyama-gakuin University, Setagaya-ku, Tokyo 157, Japan" "Physica.C,303(1998)1-10" 8236 PHC3030001 "ANN(1000C,20H under high pressure(100Kgf/cm2)O2)" "(Cu,Mo)Sr2(Y,Ce)2Cu2Oz" Cu0.75Mo0.25Sr2Y1.3Ce0.7Cu2OZ Cu 0.75 Mo 0.25 Sr 2 Y 1.3 Ce 0.7 Cu 2 O Z 1998 2 Cu1222 K 40 40 "mixture-pellet-heat(1000C,20H in air)-SIN(1050C,10H in O2)-ANN(700C,20H under high pressure(100kgf/cm2)O2)" "A new Superconductor with 1222 structure (Cu1-xMx)Sr2(Y1-yCey)2Cu2Odelta(M=Ti,V,Cr,Fe,Co,Ga,Ge,Mo,Ce,W and Re)" 1998 7 "Department of Physics, Aoyama-gakuin University, Setagaya-ku, Tokyo 157, Japan" "Physica.C,303(1998)1-10" 8237 PHC3030001 "(Cu,Re)Sr2(Y,Ce)2Cu2Oz" Cu0.85Re0.15Sr2Y1.5Ce0.5Cu2OZ Cu 0.85 Re 0.15 Sr 2 Y 1.5 Ce 0.5 Cu 2 O Z 1998 Cu1222 K 43 43 "mixture-pellet-heat(1000C,20H in air)-SIN(1050C,10H in O2)-ANN(700C,20H under high pressure(100kgf/cm2)O2)" "A new Superconductor with 1222 structure (Cu1-xMx)Sr2(Y1-yCey)2Cu2Odelta(M=Ti,V,Cr,Fe,Co,Ga,Ge,Mo,Ce,W and Re)" 1998 7 "Department of Physics, Aoyama-gakuin University, Setagaya-ku, Tokyo 157, Japan" "Physica.C,303(1998)1-10" 8238 PHC3020325 "(Bi,Pb)2Sr2(Eu,Ce)2Cu2Oz" Bi1.6Pb0.4Sr2Eu1.65Ce0.35Cu2OZ Bi 1.6 Pb 0.4 Sr 2 Eu 1.65 Ce 0.35 Cu 2 O Z 1 1998 3 Bi2222 5.4532 17.9582 K 31.5 31.5 "Bi2O3, PbP, SrCO3, Eu2O3, CeO2, CuO" "mixture-pellet-heat(900C,16H in air)-pellet-SIN(990C,16H in O2)-RT(0.3C/min)" Superconductivity and stuructural change in the (Bi2-yPby)Sr2(Eu2-xCex)Cu2Oz system 1998 7 "Department of Physics, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu, Shizuoka 431-3192, Japan" "Physica.C,302(1998)325-330" 8239 PHC3020325 "(Bi,Pb)2Sr2(Eu,Ce)2Cu2Oz" Bi1.55Pb0.45Sr2Eu1.65Ce0.35Cu2OZ Bi 1.55 Pb 0.45 Sr 2 Eu 1.65 Ce 0.35 Cu 2 O Z 1 1998 3 Bi2222 5.4517 17.9701 K 33 33 "Bi2O3, PbP, SrCO3, Eu2O3, CeO2, CuO" "mixture-pellet-heat(900C,16H in air)-pellet-SIN(990C,16H in O2)-RT(0.3C/min)" Superconductivity and stuructural change in the (Bi2-yPby)Sr2(Eu2-xCex)Cu2Oz system 1998 7 "Department of Physics, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu, Shizuoka 431-3192, Japan" "Physica.C,302(1998)325-330" 8240 PHC3020325 "(Bi,Pb)2Sr2(Eu,Ce)2Cu2Oz" Bi1.5Pb0.5Sr2Eu1.65Ce0.35Cu2OZ Bi 1.5 Pb 0.5 Sr 2 Eu 1.65 Ce 0.35 Cu 2 O Z 1 1998 3 Bi2222 5.4469 17.982 K 33 33 22 "Bi2O3, PbP, SrCO3, Eu2O3, CeO2, CuO" "mixture-pellet-heat(900C,16H in air)-pellet-SIN(990C,16H in O2)-RT(0.3C/min)" Superconductivity and stuructural change in the (Bi2-yPby)Sr2(Eu2-xCex)Cu2Oz system 1998 7 "Department of Physics, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu, Shizuoka 431-3192, Japan" "Physica.C,302(1998)325-330" 8241 PHC3020325 "(Bi,Pb)2Sr2(Eu,Ce)2Cu2Oz" Bi1.45Pb0.55Sr2Eu1.65Ce0.35Cu2OZ Bi 1.45 Pb 0.55 Sr 2 Eu 1.65 Ce 0.35 Cu 2 O Z 1 1998 3 Bi2222 5.446 17.978 K 34 34 "Bi2O3, PbP, SrCO3, Eu2O3, CeO2, CuO" "mixture-pellet-heat(900C,16H in air)-pellet-SIN(990C,16H in O2)-RT(0.3C/min)" Superconductivity and stuructural change in the (Bi2-yPby)Sr2(Eu2-xCex)Cu2Oz system 1998 7 "Department of Physics, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu, Shizuoka 431-3192, Japan" "Physica.C,302(1998)325-330" 8242 PHC3020325 "(Bi,Pb)2Sr2(Eu,Ce)2Cu2Oz" Bi1.4Pb0.6Sr2Eu1.65Ce0.35Cu2OZ Bi 1.4 Pb 0.6 Sr 2 Eu 1.65 Ce 0.35 Cu 2 O Z 1 1998 3 Bi2222 5.4408 5.4469 17.978 K 35 35 "Bi2O3, PbP, SrCO3, Eu2O3, CeO2, CuO" "mixture-pellet-heat(900C,16H in air)-pellet-SIN(990C,16H in O2)-RT(0.3C/min)" Superconductivity and stuructural change in the (Bi2-yPby)Sr2(Eu2-xCex)Cu2Oz system 1998 7 "Department of Physics, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu, Shizuoka 431-3192, Japan" "Physica.C,302(1998)325-330" 8243 PHC3020325 "(Bi,Pb)2Sr2(Eu,Ce)2Cu2Oz" Bi1.3Pb0.7Sr2Eu1.65Ce0.35Cu2OZ Bi 1.3 Pb 0.7 Sr 2 Eu 1.65 Ce 0.35 Cu 2 O Z 1 1998 3 Bi2222 5.4278 5.4521 17.9801 K 37 37 "Bi2O3, PbP, SrCO3, Eu2O3, CeO2, CuO" "mixture-pellet-heat(900C,16H in air)-pellet-SIN(990C,16H in O2)-RT(0.3C/min)" Superconductivity and stuructural change in the (Bi2-yPby)Sr2(Eu2-xCex)Cu2Oz system 1998 7 "Department of Physics, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu, Shizuoka 431-3192, Japan" "Physica.C,302(1998)325-330" 8244 PHC3020325 "(Bi,Pb)2Sr2(Eu,Ce)2Cu2Oz" Bi1.2Pb0.8Sr2Eu1.65Ce0.35Cu2OZ Bi 1.2 Pb 0.8 Sr 2 Eu 1.65 Ce 0.35 Cu 2 O Z 1 1998 3 Bi2222 5.414 5.456 17.98 K 38.5 38.5 "Bi2O3, PbP, SrCO3, Eu2O3, CeO2, CuO" "mixture-pellet-heat(900C,16H in air)-pellet-SIN(990C,16H in O2)-RT(0.3C/min)" Superconductivity and stuructural change in the (Bi2-yPby)Sr2(Eu2-xCex)Cu2Oz system 1998 7 "Department of Physics, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu, Shizuoka 431-3192, Japan" "Physica.C,302(1998)325-330" 8245 PHC3020325 "(Bi,Pb)2Sr2(Eu,Ce)2Cu2Oz" Bi1.1Pb0.9Sr2Eu1.65Ce0.35Cu2OZ Bi 1.1 Pb 0.9 Sr 2 Eu 1.65 Ce 0.35 Cu 2 O Z 1 1998 3 Bi2222 5.4132 5.4587 17.978 K 38 38 "Bi2O3, PbP, SrCO3, Eu2O3, CeO2, CuO" "mixture-pellet-heat(900C,16H in air)-pellet-SIN(990C,16H in O2)-RT(0.3C/min)" Superconductivity and stuructural change in the (Bi2-yPby)Sr2(Eu2-xCex)Cu2Oz system 1998 7 "Department of Physics, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu, Shizuoka 431-3192, Japan" "Physica.C,302(1998)325-330" 8246 PHC3020244 "(Cu,Cr)Sr2Ca5Cu6Oz" Cu6.5Sr2Ca5Cr0.5O15.17 Cu 6.5 Sr 2 Ca 5 Cr 0.5 O Z 15.17 1 1998 2 Cu1256 3.8651 24.192 K 32 32 New series of high-Tc Cr-based superconductors 1998 6 "National Institute Research in Inorganic Materials, Namiki1-1, Tsukuba, Ibaraki, 305-0044, Japan" "Physica.C,302(1998)244-256" 8247 PHC3020244 "(Cu,Cr)Sr2Ca6Cu7Oz" Cu7.5Sr2Ca6Cr0.5O17.1 Cu 7.5 Sr 2 Ca 6 Cr 0.5 O Z 17.1 2 1998 2 Cu1267 3.8667 27.602 K 10 10 New series of high-Tc Cr-based superconductors 1998 6 "National Institute Research in Inorganic Materials, Namiki1-1, Tsukuba, Ibaraki, 305-0044, Japan" "Physica.C,302(1998)244-256" 8248 PHC3020244 "(Cu,Cr)Sr2Ca7Cu8Oz" Cu8.5Sr2Ca7Cr0.5O19.05 Cu 8.5 Sr 2 Ca 7 Cr 0.5 O Z 19.05 1 1998 2 Cu1278 3.868 30.6 K 4.2 New series of high-Tc Cr-based superconductors 1998 6 "National Institute Research in Inorganic Materials, Namiki1-1, Tsukuba, Ibaraki, 305-0044, Japan" "Physica.C,302(1998)244-256" 8249 PHC3020244 "(Cu,Cr)Sr2Ca8Cu9Oz" Cu9.5Sr2Ca8Cr0.5O21.05 Cu 9.5 Sr 2 Ca 8 Cr 0.5 O Z 21.05 1 1998 2 Cu1289 3.868 33.97 K 4.2 New series of high-Tc Cr-based superconductors 1998 6 "National Institute Research in Inorganic Materials, Namiki1-1, Tsukuba, Ibaraki, 305-0044, Japan" "Physica.C,302(1998)244-256" 8250 PHC3020244 "(Cu,Cr)Sr2CuOz" Cu1.5Sr2Cr0.5O5.3 Cu 1.5 Sr 2 Cr 0.5 O Z 5.3 1 1998 2 Cu1201 3.9061 8.193 K 4.2 New series of high-Tc Cr-based superconductors 1998 6 "National Institute Research in Inorganic Materials, Namiki1-1, Tsukuba, Ibaraki, 305-0044, Japan" "Physica.C,302(1998)244-256" 8251 PHC3020244 "(Cu,Cr)Sr2CaCu2Oz" Cu2.5Sr2Ca1Cr0.5O7.5 Cu 2.5 Sr 2 Ca 1 Cr 0.5 O Z 7.5 1 1998 2 Cu1212 3.8669 11.396 K 81 81 New series of high-Tc Cr-based superconductors 1998 6 "National Institute Research in Inorganic Materials, Namiki1-1, Tsukuba, Ibaraki, 305-0044, Japan" "Physica.C,302(1998)244-256" 8252 PHC3020244 "(Cu,Cr)Sr2Ca2Cu3Oz" Cu3.5Sr2Ca2Cr0.5O9.55 Cu 3.5 Sr 2 Ca 2 Cr 0.5 O Z 9.55 1 1998 2 Cu1223 3.8577 14.575 K 103 103 New series of high-Tc Cr-based superconductors 1998 6 "National Institute Research in Inorganic Materials, Namiki1-1, Tsukuba, Ibaraki, 305-0044, Japan" "Physica.C,302(1998)244-256" 8253 PHC3020244 "(Cu,Cr)Sr2Ca3Cu4Oz" Cu4.5Sr2Ca3Cr0.5O11.45 Cu 4.5 Sr 2 Ca 3 Cr 0.5 O Z 11.45 1 1998 2 Cu1234 3.8593 17.776 K 71 71 New series of high-Tc Cr-based superconductors 1998 6 "National Institute Research in Inorganic Materials, Namiki1-1, Tsukuba, Ibaraki, 305-0044, Japan" "Physica.C,302(1998)244-256" 8254 PHC3020244 "(Cu,Cr)Sr2Ca4Cu5Oz" Cu5.5Sr2Ca4Cr0.5O13.35 Cu 5.5 Sr 2 Ca 4 Cr 0.5 O Z 13.35 1 1998 2 Cu1245 3.8614 20.975 K 65 65 New series of high-Tc Cr-based superconductors 1998 6 "National Institute Research in Inorganic Materials, Namiki1-1, Tsukuba, Ibaraki, 305-0044, Japan" "Physica.C,302(1998)244-256" 8255 PHC3030041 "Sr2Cu(O,Cl)4" Sr2Cu1Cl1.2O4. Sr 2 Cu 1 Cl 1.2 O 4 1 1998 2 201 3.928 15.57 K uV/K 43 TP8255 High pressure synthesis of SrCuO2+delta' compounds 1998 7 "Superconductivity Research Laboratory, ISTEC, 10-13 Shinonome, 1-Chome Koto-ku, Tikyo 135-0062, Japan" "Physica.c,303(1998)41-46" 8256 MRB0330825 not s/c "(La,Sr)2(Ca,Pr)Cu2O6" La1.6Sr0.4Ca0.5Pr0.5Cu2O6-Z La 1.6 Sr 0.4 Ca 0.5 Pr 0.5 Cu 2 O 6-Z 1 1998 2 2126 I4/mmm 3.839 19.54 3 K 10 "La2O3, SrCO3, CaCO3, CuO" "mixture-CAL(800-900C, 15-20H, in air)-pellet-SIN(980-1030C,40H)-slow cooling to RT" "Rare-earth substituted 212-type compounds (La,Sr)2CaCu2O6." 1998 "Mat. Res. Bull., 33(1998)825" 8257 MRB0330825 not s/c "(La,Sr)2(Ca,Eu)Cu2O6" La1.6Sr0.4Ca0.5Eu0.5Cu2O6-Z La 1.6 Sr 0.4 Ca 0.5 Eu 0.5 Cu 2 O 6-Z 1 1998 2 2126 I4/mmm 3.837 19.55 3 K 10 "La2O3, SrCO3, CaCO3, CuO" "mixture-CAL(800-900C, 15-20H, in air)-pellet-SIN(980-1030C,40H)-slow cooling to RT" "Rare-earth substituted 212-type compounds (La,Sr)2CaCu2O6." 1998 "Mat. Res. Bull., 33(1998)825" 8258 MRB0330825 not s/c "(La,Sr)2(Ca,Gd)Cu2O6" La1.6Sr0.4Ca0.5Gd0.5Cu2O6-Z La 1.6 Sr 0.4 Ca 0.5 Gd 0.5 Cu 2 O 6-Z 1 1998 2 2126 I4/mmm 3.827 19.5 3 K 10 "La2O3, SrCO3, CaCO3, CuO" "mixture-CAL(800-900C, 15-20H, in air)-pellet-SIN(980-1030C,40H)-slow cooling to RT" "Rare-earth substituted 212-type compounds (La,Sr)2CaCu2O6." 1998 "Mat. Res. Bull., 33(1998)825" 8259 MRB0330825 not s/c "(La,Sr)2(Ca,Tb)Cu2O6" La1.6Sr0.4Ca0.5Tb0.5Cu2O6-Z La 1.6 Sr 0.4 Ca 0.5 Tb 0.5 Cu 2 O 6-Z 1 1998 2126 I4/mmm 3.829 19.53 3 K 10 "La2O3, SrCO3, CaCO3, CuO" "mixture-CAL(800-900C, 15-20H, in air)-pellet-SIN(980-1030C,40H)-slow cooling to RT" "Rare-earth substituted 212-type compounds (La,Sr)2CaCu2O6." 1998 "Mat. Res. Bull., 33(1998)825" 8260 MRB0330825 not s/c "(La,Sr)2(Ca,Y)Cu2O6" La1.6Sr0.4Ca0.5Yb0.5Cu2O6-Z La 1.6 Sr 0.4 Ca 0.5 Yb 0.5 Cu 2 O 6-Z 1 1998 2126 I4/mmm 3.82 19.5 3 K 10 "La2O3, SrCO3, CaCO3, CuO" "mixture-CAL(800-900C, 15-20H, in air)-pellet-SIN(980-1030C,40H)-slow cooling to RT" "Rare-earth substituted 212-type compounds (La,Sr)2CaCu2O6." 1998 "Mat. Res. Bull., 33(1998)825" 8261 MRB0330825 not s/c "(La,Sr)2(Ca,Er)Cu2O6" La1.6Sr0.4Ca0.5Er0.5Cu2O6-Z La 1.6 Sr 0.4 Ca 0.5 Er 0.5 Cu 2 O 6-Z 1 1998 2126 I4/mmm 3.831 19.54 3 K 10 "La2O3, SrCO3, CaCO3, CuO" "mixture-CAL(800-900C, 15-20H, in air)-pellet-SIN(980-1030C,40H)-slow cooling to RT" "Rare-earth substituted 212-type compounds (La,Sr)2CaCu2O6." 1998 "Mat. Res. Bull., 33(1998)825" 8262 MRB0330825 not s/c "(La,Sr)2(Ca,Tm)Cu2O6" La1.6Sr0.4Ca0.5Tm0.5Cu2O6-Z La 1.6 Sr 0.4 Ca 0.5 Tm 0.5 Cu 2 O 6-Z 1 1998 2126 I4/mmm 3.825 19.53 3 K 10 "La2O3, SrCO3, CaCO3, CuO" "mixture-CAL(800-900C, 15-20H, in air)-pellet-SIN(980-1030C,40H)-slow cooling to RT" "Rare-earth substituted 212-type compounds (La,Sr)2CaCu2O6." 1998 "Mat. Res. Bull., 33(1998)825" 8263 MRB0330825 not s/c "(La,Sr)2(Ca,La)Cu2O6" La1.6Sr0.4Ca0.6La0.4Cu2O6-Z La 1.6 Sr 0.4 Ca 0.6 La 0.4 Cu 2 O 6-Z 1 1998 2 2126 I4/mmm 3.839 19.65 3 K 10 "La2O3, SrCO3, CaCO3, CuO" "mixture-CAL(800-900C, 15-20H, in air)-pellet-SIN(980-1030C,40H)-slow cooling to RT" "Rare-earth substituted 212-type compounds (La,Sr)2CaCu2O6." 1998 "Mat. Res. Bull., 33(1998)825" 8264 MRB0330825 not s/c "(La,Sr)2(Ca,Nd)Cu2O6" La1.6Sr0.4Ca0.6Nd0.4Cu2O6-Z La 1.6 Sr 0.4 Ca 0.6 Nd 0.4 Cu 2 O 6-Z 1 1998 2 2126 I4/mmm 3.836 19.56 3 K 10 "La2O3, SrCO3, CaCO3, CuO" "mixture-CAL(800-900C, 15-20H, in air)-pellet-SIN(980-1030C,40H)-slow cooling to RT" "Rare-earth substituted 212-type compounds (La,Sr)2CaCu2O6." 1998 "Mat. Res. Bull., 33(1998)825" 8265 MRB0330825 not s/c "(La,Sr)2(Ca,Sm)Cu2O6" La1.6Sr0.4Ca0.6Sm0.4Cu2O6-Z La 1.6 Sr 0.4 Ca 0.6 Sm 0.4 Cu 2 O 6-Z 1 1998 2 2126 I4/mmm 3.835 19.55 3 K 10 "La2O3, SrCO3, CaCO3, CuO" "mixture-CAL(800-900C, 15-20H, in air)-pellet-SIN(980-1030C,40H)-slow cooling to RT" "Rare-earth substituted 212-type compounds (La,Sr)2CaCu2O6." 1998 "Mat. Res. Bull., 33(1998)825" 8266 MRB0330825 not s/c "(La,Sr)2(Ca,Dy)Cu2O6" La1.6Sr0.4Ca0.6Dy0.4Cu2O6-Z La 1.6 Sr 0.4 Ca 0.6 Dy 0.4 Cu 2 O 6-Z 1 1998 2 2126 I4/mmm 3.828 19.51 3 K 10 "La2O3, SrCO3, CaCO3, CuO" "mixture-CAL(800-900C, 15-20H, in air)-pellet-SIN(980-1030C,40H)-slow cooling to RT" "Rare-earth substituted 212-type compounds (La,Sr)2CaCu2O6." 1998 "Mat. Res. Bull., 33(1998)825" 8267 MRB0330825 not s/c "(La,Sr)2(Ca,Ho)Cu2O6" La1.6Sr0.4Ca0.6Ho0.4Cu2O6-Z La 1.6 Sr 0.4 Ca 0.6 Ho 0.4 Cu 2 O 6-Z 1 1998 2 2126 I4/mmm 3.833 19.56 3 K 10 "La2O3, SrCO3, CaCO3, CuO" "mixture-CAL(800-900C, 15-20H, in air)-pellet-SIN(980-1030C,40H)-slow cooling to RT" "Rare-earth substituted 212-type compounds (La,Sr)2CaCu2O6." 1998 "Mat. Res. Bull., 33(1998)825" 8268 MRB0330825 not s/c "(La,Sr)2(Ca,Yb)Cu2O6" La1.6Sr0.4Ca0.6Yb0.4Cu2O6-Z La 1.6 Sr 0.4 Ca 0.6 Yb 0.4 Cu 2 O 6-Z 1 1998 2 2126 I4/mmm 3.821 19.5 3 K 10 "La2O3, SrCO3, CaCO3, CuO" "mixture-CAL(800-900C, 15-20H, in air)-pellet-SIN(980-1030C,40H)-slow cooling to RT" "Rare-earth substituted 212-type compounds (La,Sr)2CaCu2O6." 1998 "Mat. Res. Bull., 33(1998)825" 8269 MRB0331241 "La(Ba,Sr)2Cu3O7" La1Ba1.5Sr0.5Cu3O7-Z La 1 Ba 1.5 Sr 0.5 Cu 3 O 7-Z 1 1998 2 Y123 3.8932 11.759 3 K 52.4 8.8 52.4 mOhm.cm 9.76 "La2O3, SrCO3, BaCO3, CuO" "mixture-CAL(950C, 14H, in air)-pellet-SIN(960C,12H,in N2 flow)-slow cool to 400C(5C/min)-ANN(400C,12H in O2 flow)-cool to RT" "Series of R(Ba,Sr)2Cu3Oz compounds with fixed Ba and Sr content and different rare-earth replacement R" 1998 "Mat. Res. Bull., 33(1998)1241" 8270 MRB0331241 "Nd(Ba,Sr)2Cu3O7" Nd1Ba1.5Sr0.5Cu3O7-Z Nd 1 Ba 1.5 Sr 0.5 Cu 3 O 7-Z 1 1998 2 Y123 3.8887 11.689 3 K 56.4 10.2 56.4 mOhm.cm 6.7 "La2O3, SrCO3, BaCO3, CuO" "mixture-CAL(950C, 14H, in air)-pellet-SIN(960C,12H,in N2 flow)-slow cool to 400C(5C/min)-ANN(400C,12H in O2 flow)-cool to RT" "Series of R(Ba,Sr)2Cu3Oz compounds with fixed Ba and Sr content and different rare-earth replacement R" 1998 "Mat. Res. Bull., 33(1998)1241" 8271 MRB0331241 "Sm(Ba,Sr)2Cu3O7" Sm1Ba1.5Sr0.5Cu3O7-Z Sm 1 Ba 1.5 Sr 0.5 Cu 3 O 7-Z 1 1998 3 Y123 3.8424 3.8836 11.657 3 K 70.7 8.3 70.7 mOhm.cm 3.37 "La2O3, SrCO3, BaCO3, CuO" "mixture-CAL(950C, 14H, in air)-pellet-SIN(960C,12H,in N2 flow)-slow cool to 400C(5C/min)-ANN(400C,12H in O2 flow)-cool to RT" "Series of R(Ba,Sr)2Cu3Oz compounds with fixed Ba and Sr content and different rare-earth replacement R" 1998 "Mat. Res. Bull., 33(1998)1241" 8272 MRB0331241 "Eu(Ba,Sr)2Cu3O7" Eu1Ba1.5Sr0.5Cu3O7-Z Eu 1 Ba 1.5 Sr 0.5 Cu 3 O 7-Z 1 1998 3 Y123 3.8361 3.883 11.655 3 K 76.8 6.4 76.8 mOhm.cm 4.03 "La2O3, SrCO3, BaCO3, CuO" "mixture-CAL(950C, 14H, in air)-pellet-SIN(960C,12H,in N2 flow)-slow cool to 400C(5C/min)-ANN(400C,12H in O2 flow)-cool to RT" "Series of R(Ba,Sr)2Cu3Oz compounds with fixed Ba and Sr content and different rare-earth replacement R" 1998 "Mat. Res. Bull., 33(1998)1241" 8273 MRB0331241 "Gd(Ba,Sr)2Cu3O7" Gd1Ba1.5Sr0.5Cu3O7-Z Gd 1 Ba 1.5 Sr 0.5 Cu 3 O 7-Z 1 1998 3 Y123 3.8285 3.8782 11.654 3 K 85.6 1.7 85.6 mOhm.cm 2.92 "La2O3, SrCO3, BaCO3, CuO" "mixture-CAL(950C, 14H, in air)-pellet-SIN(960C,12H,in N2 flow)-slow cool to 400C(5C/min)-ANN(400C,12H in O2 flow)-cool to RT" "Series of R(Ba,Sr)2Cu3Oz compounds with fixed Ba and Sr content and different rare-earth replacement R" 1998 "Mat. Res. Bull., 33(1998)1241" 8274 MRB0331241 "Dy(Ba,Sr)2Cu3O7" Dy1Ba1.5Sr0.5Cu3O7-Z Dy 1 Ba 1.5 Sr 0.5 Cu 3 O 7-Z 1 1998 3 Y123 3.8068 3.8743 11.632 3 K 86.5 1.1 86.5 mOhm.cm 2.25 "La2O3, SrCO3, BaCO3, CuO" "mixture-CAL(950C, 14H, in air)-pellet-SIN(960C,12H,in N2 flow)-slow cool to 400C(5C/min)-ANN(400C,12H in O2 flow)-cool to RT" "Series of R(Ba,Sr)2Cu3Oz compounds with fixed Ba and Sr content and different rare-earth replacement R" 1998 "Mat. Res. Bull., 33(1998)1241" 8275 MRB0331241 "Ho(Ba,Sr)2Cu3O7" Ho1Ba1.5Sr0.5Cu3O7-Z Ho 1 Ba 1.5 Sr 0.5 Cu 3 O 7-Z 1 1998 3 Y123 3.8042 3.8739 11.61 3 K 86.8 1.5 86.8 mOhm.cm 1.43 "La2O3, SrCO3, BaCO3, CuO" "mixture-CAL(950C, 14H, in air)-pellet-SIN(960C,12H,in N2 flow)-slow cool to 400C(5C/min)-ANN(400C,12H in O2 flow)-cool to RT" "Series of R(Ba,Sr)2Cu3Oz compounds with fixed Ba and Sr content and different rare-earth replacement R" 1998 "Mat. Res. Bull., 33(1998)1241" 8276 MRB0331241 "Y(Ba,Sr)2Cu3O7" Y1Ba1.5Sr0.5Cu3O7-Z Y 1 Ba 1.5 Sr 0.5 Cu 3 O 7-Z 1 1998 3 Y123 3.7976 3.8725 11.606 3 K 87.4 2.3 87.4 mOhm.cm 1.32 "La2O3, SrCO3, BaCO3, CuO" "mixture-CAL(950C, 14H, in air)-pellet-SIN(960C,12H,in N2 flow)-slow cool to 400C(5C/min)-ANN(400C,12H in O2 flow)-cool to RT" "Series of R(Ba,Sr)2Cu3Oz compounds with fixed Ba and Sr content and different rare-earth replacement R" 1998 "Mat. Res. Bull., 33(1998)1241" 8277 SUP0110123 "reduced sample,Tc=61K for as-sintered" "TlSr2Ba2Cu2(CO3,NO3)O7" Tl1Sr2Ba2Cu2C2.7N0.3O7 Tl 1 Sr 2 Ba 2 Cu 2 C 2.7 N 0.3 O 7 1 1998 3 Tl1222 Ammm 3.921 30.397 16.725 3 K 49 49 "Tl2O3, SrO2, Sr2CuO3, BaCuO2, SrCO3, CuO" "mixture-plased in alumina tubes-sealed in evacuated quartz ampoules-fire(850C,48H)-Q in air" The Effect of Nitrates on Thallium based Oxycarbonate Superconductors 1998 "School of Chemistry, University of Birmingham, Edgbaston, Birmingham, B15 2, UK" "J.Superconductivity,11(1998)123" 8278 SUP0110123 "reduced sample,Tc=61K for as-sintered" "TlSr2Ba2Cu2(CO3,NO3)O7" Tl1Sr2Ba2Cu2C2.4N0.6O7 Tl 1 Sr 2 Ba 2 Cu 2 C 2.4 N 0.6 O 7 1998 3 Tl1222 Ammm 3.921 30.937 16.725 3 K 49 49 "Tl2O3, SrO2, Sr2CuO3, BaCuO2, SrCO3, CuO" "mixture-plased in alumina tubes-sealed in evacuated quartz ampoules-fire(850C,48H)-Q in air" The Effect of Nitrates on Thallium based Oxycarbonate Superconductors 1998 "School of Chemistry, University of Birmingham, Edgbaston, Birmingham, B15 2, UK" "J.Superconductivity,11(1998)123" 8279 SUP0110123 "reduced sample,Tc=40K for as-sintered sample" "(Tl,Pb)Sr4Cu2(CO3,NO3)O7" Tl0.5Pb0.5Sr4Cu2C0.9N0.1O7 Tl 0.5 Pb 0.5 Sr 4 Cu 2 C 0.9 N 0.1 O 7 1 1998 Tl1222 3.821 16.503 "inpurity phase=SrCO3, (Tl,Pb)Sr2CuO5" K 76 76 "Tl2O3, SrO2, Sr2CuO3, BaCuO2, SrCO3, CuO" "mixture-plased in alumina tubes-sealed in evacuated quartz ampoules-fire(850C,48H)-Q in air" The Effect of Nitrates on Thallium based Oxycarbonate Superconductors 1998 "School of Chemistry, University of Birmingham, Edgbaston, Birmingham, B15 2, UK" "J.Superconductivity,11(1998)123" 8280 SUP0110123 "reduced sample,Tc=28K for as-sintered sample" "(Tl,Pb)Sr4Cu2(CO3,NO3)O7" Tl0.5Pb0.5Sr4Cu2C0.7N0.3O7 Tl 0.5 Pb 0.5 Sr 4 Cu 2 C 0.7 N 0.3 O 7 1 1998 Tl1222 3.821 16.503 "inpurity phase=SrCO3, (Tl,Pb)Sr2CuO5" K 70 70 "Tl2O3, SrO2, Sr2CuO3, BaCuO2, SrCO3, CuO" "mixture-plased in alumina tubes-sealed in evacuated quartz ampoules-fire(850C,48H)-Q in air" The Effect of Nitrates on Thallium based Oxycarbonate Superconductors 1998 "School of Chemistry, University of Birmingham, Edgbaston, Birmingham, B15 2, UK" "J.Superconductivity,11(1998)123" 8281 SUP0110123 "reduced sample,Tc=24K for as-sintered sample" "(Tl,Pb)Sr4Cu2(CO3,NO3)O7" Tl0.5Pb0.5Sr4Cu2C0.5N0.5O7 Tl 0.5 Pb 0.5 Sr 4 Cu 2 C 0.5 N 0.5 O 7 1998 Tl1222 3.821 16.503 K 70 70 "Tl2O3, SrO2, Sr2CuO3, BaCuO2, SrCO3, CuO" "mixture-plased in alumina tubes-sealed in evacuated quartz ampoules-fire(850C,48H)-Q in air" The Effect of Nitrates on Thallium based Oxycarbonate Superconductors 1998 "School of Chemistry, University of Birmingham, Edgbaston, Birmingham, B15 2, UK" "J.Superconductivity,11(1998)123" 8282 SUP0110159 thickness=0.6 micron "(Tl,Bi)(Sr,Ba)2Ca2Cu3O9" Tl0.78Bi0.22Sr1.6Ba0.4Ca2Cu3O9-Z Tl 0.78 Bi 0.22 Sr 1.6 Ba 0.4 Ca 2 Cu 3 O 9-Z 4 1998 Tl1223 K 106 110 108 100000 "two-step. Film by laser ablation, ANN(780-800C,40-60 min,in Ar flow" 17 YSZ Tl1.8Bi0.22Sr1.6Ba0.4Ca2.2Cu3.3O10.5 Epitaxial Film Growth of Tl0.78Bi0.22Sr1.6Ba0.4Ca2Cu3O9 on Rolling Assisted Biaxially Textured Nickel Substrates with YSZ and CeO2Buffer Layers 1998 "Materials Synthesis Laboratory, Department of Chemistry and New York State Institute on Superconductivity, State University of NewYork, Buffalo, NY 14260-3000" "J.Superconductivity,11(1998)159" 8283 SUP0110141 inpurity=Li2CuO2 "(Hg,Cr)Sr2CuO4" Hg0.7Cr0.3Sr2Cu1O4+Z Hg 0.7 Cr 0.3 Sr 2 Cu 1 O 4+Z 2 1998 Hg1201 P4/mmm A 3.8439 8.6978 3 K 63 63 2 55 "Cr2O3, SrCO3, CuO, HgO" "precursor(Cr-Sr-Cu-O)-mixed with HgO-wrap in Au foil-seal in quartz ampoule-heat(880C,8H)-Q to RT-ANN(in O2 flow)" Synthe sis and Structure of Hg1-xCrxSr2CuO4+delta Mercurocuprates 1998 "School of Chemistry, University of Birmingham, Edgbaston, Birmingham, B15 2TT, UK" "J.Superconductivity,11(1998)141" 8284 SUP0100231 inpurity=Li2CuO2 YBa2Cu3(Li)O7 Y1Ba2Cu3Li0.02O7 Y 1 Ba 2 Cu 3 Li 0.02 O 7 1 1997 Y123 K 91.18 91.18 Oe deviation from linear region in M vs H 78.5 77 "Y2O3, BaCO3, CuO,LiOH" "Fire(890C,20H, in O2 flow)-press into bar-SIN(936C,16H)" The Effect of liOH Addition to the Superconducting Properties of YBa2Cu3O7-x 1997 "National Institute of Research and Development for Materials Physics, Bucharest-Magurele, P.O. Box MG7, Romania" "J.Superconductivity,10(1997)231" 8285 SUP0100231 inpurity=Li2CuO2 YBa2Cu3(Li)O7 Y1Ba2Cu3Li0.08O7 Y 1 Ba 2 Cu 3 Li 0.08 O 7 1 1997 Y123 K 89.2 89.2 33.7 77 "Y2O3, BaCO3, CuO,LiOH" "Fire(890C,20H, in O2 flow)-press into bar-SIN(936C,16H)" The Effect of liOH Addition to the Superconducting Properties of YBa2Cu3O7-x 1997 "National Institute of Research and Development for Materials Physics, Bucharest-Magurele, P.O. Box MG7, Romania" "J.Superconductivity,10(1997)231" 8286 SUP0100231 YBa2Cu3(Li)O7 Y1Ba2Cu3Li0.1O7 Y 1 Ba 2 Cu 3 Li 0.1 O 7 1 1997 K 88.91 88.91 47.9 77 "Y2O3, BaCO3, CuO,LiOH" "Fire(890C,20H, in O2 flow)-press into bar-SIN(936C,16H)" The Effect of liOH Addition to the Superconducting Properties of YBa2Cu3O7-x 1997 "National Institute of Research and Development for Materials Physics, Bucharest-Magurele, P.O. Box MG7, Romania" "J.Superconductivity,10(1997)231" 8287 SUP0100231 "inpurity phases=Y2BaCuO5, CuO, Cu2O" YBa2Cu3(Li)O7 Y1Ba2Cu3Li0.3O7 Y 1 Ba 2 Cu 3 Li 0.3 O 7 1 1997 K 86 86 "Y2O3, BaCO3, CuO,LiOH" "Fire(890C,20H, in O2 flow)-press into bar-SIN(936C,16H)" The Effect of liOH Addition to the Superconducting Properties of YBa2Cu3O7-x 1997 "National Institute of Research and Development for Materials Physics, Bucharest-Magurele, P.O. Box MG7, Romania" "J.Superconductivity,10(1997)231" 8288 SUP0100231 "inpurity phases=CuO, Li2CuO2" YBa2Cu3(Li)O7 Y1Ba2Cu3Li0.5O7 Y 1 Ba 2 Cu 3 Li 0.5 O 7 1 1997 K 83.79 83.79 "Y2O3, BaCO3, CuO,LiOH" "Fire(890C,20H, in O2 flow)-press into bar-SIN(936C,16H)" The Effect of liOH Addition to the Superconducting Properties of YBa2Cu3O7-x 1997 "National Institute of Research and Development for Materials Physics, Bucharest-Magurele, P.O. Box MG7, Romania" "J.Superconductivity,10(1997)231" 8289 SUP0110059 HgBa2CuO4+z Hg1Ba2Cu1O4.08 Hg 1 Ba 2 Cu 1 O 4 4.08 1 1998 2 Hg1201 3.8928 9.5528 2 K 96 96 2 75 "BaO, CuO, HgO" "mixture(Hg:Ba:Cu=1.1:2:1)-press-(in alumina crucible)-seal in quartz ampoule(7Pa)-SIN(780C.10H)-oxygenation(350C,10H)" Nautron and Raman Scattering Studies of HgBa2CuO4+delta 1998 5 "Department of Physics and Astronomy, University of Nebraska, Lincoln, NE 68588, USA" "J.Superconductivity,11(1998)59" 8290 PHC3000033 "Bi2Sr2Ca(Cu,K)2O8" Bi2Sr2Ca1Cu1.4K0.6O8+Z Bi 2 Sr 2 Ca 1 Cu 1.4 K 0.6 O 8+Z 1 1998 3 Bi2212 5.41 5.42 30.76 K 85 85 A x-band ESR 2670 "sol-gel method, final annealing(840C,12H)" Magnetic penetration depth in K-doped Bi-2212 Bi2Sr2CaCu2-xKO8+delta: ESR study 1998 5 "School of Physics, University of Hyderabad, P.O. Central University, Hyderabad 500 046, India" "Physica.C,300(1998)33-37" 8291 PHC3000033 "Bi2Sr2Ca(Cu,K)2O8" Bi2Sr2Ca1Cu1.3K0.7O8+Z Bi 2 Sr 2 Ca 1 Cu 1.3 K 0.7 O 8+Z 1 1998 3 Bi2212 5.4 5.43 30.72 K 87 87 A x-band ESR 2209 "sol-gel method, final annealing(840C,12H)" Magnetic penetration depth in K-doped Bi-2212 Bi2Sr2CaCu2-xKO8+delta: ESR study 1998 5 "School of Physics, University of Hyderabad, P.O. Central University, Hyderabad 500 046, India" "Physica.C,300(1998)33-37" 8292 PHC3000033 "Bi2Sr2Ca(Cu,K)2O8" Bi2Sr2Ca1Cu1.2K0.8O8+Z Bi 2 Sr 2 Ca 1 Cu 1.2 K 0.8 O 8+Z 1 1998 3 Bi2212 5.42 5.41 30.69 K 93 93 A x-band ESR 1906 "sol-gel method, final annealing(840C,12H)" Magnetic penetration depth in K-doped Bi-2212 Bi2Sr2CaCu2-xKO8+delta: ESR study 1998 5 "School of Physics, University of Hyderabad, P.O. Central University, Hyderabad 500 046, India" "Physica.C,300(1998)33-37" 8293 PHC3070265 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.218 Bi 2 Sr 2 Ca 1 Cu 2 O 8 8.218 3 1998 Bi2212 K 70 70 A "reversible M-H curve,Londoneq" 3480 cristals were grown from Bi-rich melts by a directional solidification method with Bi:Sr:Ca:Cu:-2.4:2:1:2 Correlation between Tc and ns/m* in Bi2Sr2CaCu2O8+delta single crystals 1998 10 "ddepartment of Material Science and Engineering, University of Science and Technology of China, Hefei 230026, China" "Physica.C,307(1998)265-270" 8294 SSC1050155 YBa2Cu3O7 Y1Ba2Cu3O7+Z Y 1 Ba 2 Cu 3 O 7+Z 4 1998 Y123 K 90 A micro ware dielectric resonator 2700 by laser ablation THERMAL FLUCTUATION OF THE ORDER PARAMETER SYMMETRY IN HIGH Tc SUPERCONDUCTORS REVEALED FROM THE PENETRATION DEPTH MEASUREMENT 1998 "Department of Physics, National Tsing Hua University, Hsinchu Taiwan" Solid State Commun.105(1998)155-159 8295 SSC1060231 5wt% Ag-doped YBCO Ag-YBa2Cu3O7 Y1Ba2Cu3O7+Z Y 1 Ba 2 Cu 3 O 7+Z 4 1998 Y123 K 89.5 0.5 89.5 A microweve velocity 1400 "pulse laser ablation using Ag-doped YBCO target, thickness-0.5mm" MICROWAVE PENETRATION DEPTH MEASUREMENTS OF Ag-YBa2Cu3O7-delta THIN FILMS 1998 "Tata Institute of Fundamental Research, Homi Bhabha Road, Munbai-400 005, India" Solid State Commun.106(1998)231-234 8296 PRL0812140 Hg layer-Hg0.8Cu0.2 by EDX "(Hg,Cu)Ba2CuO4+z" Hg0.8Ba2Cu1.2O4+Z Hg 0.8 Ba 2 Cu 1.2 O 4+Z 3 1998 Hg1201 K microm direct measurement of vortex 8 precursor(Ba-Cu-O)+HgO-Almina crucible-sealed in silica tube-heat(48H) c-Axis Penetration Depth of Hg-1201 Single Crystals 1998 9 "IBM T.J. Watson Research Center, P.O. Box 278, Yorktown Heights, New York 10598" Phy.Rev.Lett81(1998)2140 8297 PHC2970103 anisotropy=75 HgBa2CuO4+z Hg1Ba2Cu1O4.049 Hg 1 Ba 2 Cu 1 O 4+Z 4.049 3 1998 Hg1201 K 70 70 A 33 A 2160 as-grown samples were annealed in Ar Doping dependence of superconducting parameters in HgBa2CuO4+delta single crystals 1998 3 "Physik-Institut der Universitat Zurich, CH08057 Zurich, Swizerland" "Physica.C,297(1998)103-110" 8298 PHC2970103 anisotropy=64 HgBa2CuO4 Hg1Ba2Cu1O4.055 Hg 1 Ba 2 Cu 1 O 4+Z 4.055 3 1998 Hg1201 K 78.2 78.2 A 34 A 1610 as-grown samples were annealed in Ar Doping dependence of superconducting parameters in HgBa2CuO4+delta single crystals 1998 3 "Physik-Institut der Universitat Zurich, CH08057 Zurich, Swizerland" "Physica.C,297(1998)103-110" 8299 PHC2970103 anisotropy=46 HgBa2CuO4+z Hg1Ba2Cu1O4.066 Hg 1 Ba 2 Cu 1 O 4+Z 4.066 3 1998 Hg1201 K 88.5 88.5 A 23 A 1530 as-grown samples were annealed in Ar Doping dependence of superconducting parameters in HgBa2CuO4+delta single crystals 1998 3 "Physik-Institut der Universitat Zurich, CH08057 Zurich, Swizerland" "Physica.C,297(1998)103-110" 8300 PHC2970103 anisotropy=27 HgBa2CuO4+z Hg1Ba2Cu1O4.096 Hg 1 Ba 2 Cu 1 O 4+Z 4.096 3 1998 Hg1201 K 95.6 95.6 A 20 A 1450 as-grown samples were annealed in O2 Doping dependence of superconducting parameters in HgBa2CuO4+delta single crystals 1998 3 "Physik-Institut der Universitat Zurich, CH08057 Zurich, Swizerland" "Physica.C,297(1998)103-110" 8301 PHC2970103 anisotropy=26.6 HgBa2CuO4+z Hg1Ba2Cu1O4.097 Hg 1 Ba 2 Cu 1 O 4+Z 4.097 3 1998 Hg1201 K 95.3 95.3 A 20 A 1650 as-grown samples were annealed in O2 Doping dependence of superconducting parameters in HgBa2CuO4+delta single crystals 1998 3 "Physik-Institut der Universitat Zurich, CH08057 Zurich, Swizerland" "Physica.C,297(1998)103-110" 8302 PHC2970103 anisotropy=26.7 HgBa2CuO4+z Hg1Ba2Cu1O4.1 Hg 1 Ba 2 Cu 1 O 4+Z 4.1 3 1998 Hg1201 K 94.1 94.1 A 22 A 1580 as-grown samples were annealed in O2 Doping dependence of superconducting parameters in HgBa2CuO4+delta single crystals 1998 3 "Physik-Institut der Universitat Zurich, CH08057 Zurich, Swizerland" "Physica.C,297(1998)103-110" 8303 PHC2970103 anisotropy=25.5 HgBa2CuO4+z Hg1Ba2Cu1O4.101 Hg 1 Ba 2 Cu 1 O 4+Z 4.101 3 1998 Hg1201 K 93.4 93.4 1.5 A 18 A 1560 as-grown samples were annealed in O2 Doping dependence of superconducting parameters in HgBa2CuO4+delta single crystals 1998 3 "Physik-Institut der Universitat Zurich, CH08057 Zurich, Swizerland" "Physica.C,297(1998)103-110" 8304 PHC2970103 anisotropy=25.0 HgBa2CuO4 Hg1Ba2Cu1O4.103 Hg 1 Ba 2 Cu 1 O 4+Z 4.103 3 1998 Hg1201 K 92.5 92.5 A 20 A 1390 as-grown samples were annealed in O2 Doping dependence of superconducting parameters in HgBa2CuO4+delta single crystals 1998 3 "Physik-Institut der Universitat Zurich, CH08057 Zurich, Swizerland" "Physica.C,297(1998)103-110" 8305 PHC2970103 anisotropy=25.1 HgBa2CuO4 Hg1Ba2Cu1O4.105 Hg 1 Ba 2 Cu 1 O 4+Z 4.105 3 1998 Hg1201 K 90.9 90.9 A 17 A 1560 as grown sample Doping dependence of superconducting parameters in HgBa2CuO4+delta single crystals 1998 3 "Physik-Institut der Universitat Zurich, CH08057 Zurich, Swizerland" "Physica.C,297(1998)103-110" 8306 PHC2970103 anisotropy=22.6 HgBa2CuO4 Hg1Ba2Cu1O4.108 Hg 1 Ba 2 Cu 1 O 4+Z 4.108 3 1998 Hg1201 K 89.1 89.1 A 18 A 1770 as-grown samples were annealed in O2 Doping dependence of superconducting parameters in HgBa2CuO4+delta single crystals 1998 3 "Physik-Institut der Universitat Zurich, CH08057 Zurich, Swizerland" "Physica.C,297(1998)103-110" 8307 MRB0331241 "R(Ba,Sr)2CuO7" La1Ba1.5Sr0.5Cu3O7-Z La 1 Ba 1.5 Sr 0.5 Cu 3 O 7-Z 1 1998 2 Y123 3.8982 11.759 3 K 52.4 8.8 52.4 "mOhm,cm" 9.76 "R2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(950C,14H in air)-pellet-SIN(960C,12H, in N2 flow)-slow cool to 400C(5C/min)-ANN(400C,12H in O2 flow)-cool to RT" "Series of R(Ba,Sr)2Cu3Oz compounds with fixed Ba and Sr content and different rare-earth replacement R" 1998 "Mat. Res. Bull., 33(1998)1241" 8308 MRB0331241 "R(Ba,Sr)2CuO7" Nd1Ba1.5Sr0.5Cu3O7-Z Nd 1 Ba 1.5 Sr 0.5 Cu 3 O 7-Z 1 1998 2 Y123 3.8887 11.689 3 K 56.4 10.2 56.4 "mOhm,cm" 6.7 "R2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(950C,14H in air)-pellet-SIN(960C,12H, in N2 flow)-slow cool to 400C(5C/min)-ANN(400C,12H in O2 flow)-cool to RT" "Series of R(Ba,Sr)2Cu3Oz compounds with fixed Ba and Sr content and different rare-earth replacement R" 1998 "Mat. Res. Bull., 33(1998)1241" 8309 MRB0331241 "R(Ba,Sr)2CuO7" Sm1Ba1.5Sr0.5Cu3O7-Z Sm 1 Ba 1.5 Sr 0.5 Cu 3 O 7-Z 1 1998 3 Y123 3.8424 3.8836 11.657 3 K 70.7 8.3 70.7 "mOhm,cm" 3.37 "R2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(950C,14H in air)-pellet-SIN(960C,12H, in N2 flow)-slow cool to 400C(5C/min)-ANN(400C,12H in O2 flow)-cool to RT" "Series of R(Ba,Sr)2Cu3Oz compounds with fixed Ba and Sr content and different rare-earth replacement R" 1998 "Mat. Res. Bull., 33(1998)1241" 8310 MRB0331241 "R(Ba,Sr)2CuO7" Eu1Ba1.5Sr0.5Cu3O7-Z Eu 1 Ba 1.5 Sr 0.5 Cu 3 O 7-Z 1 1998 3 Y123 3.8361 3.883 11.655 3 K 76.8 6.4 76.8 "mOhm,cm" 4.03 "R2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(950C,14H in air)-pellet-SIN(960C,12H, in N2 flow)-slow cool to 400C(5C/min)-ANN(400C,12H in O2 flow)-cool to RT" "Series of R(Ba,Sr)2Cu3Oz compounds with fixed Ba and Sr content and different rare-earth replacement R" 1998 "Mat. Res. Bull., 33(1998)1241" 8311 MRB0331241 "R(Ba,Sr)2CuO7" Gd1Ba1.5Sr0.5Cu3O7-Z Gd 1 Ba 1.5 Sr 0.5 Cu 3 O 7-Z 1 1998 3 Y123 3.8285 3.8782 11.654 3 K 85.6 1.7 85.6 "mOhm,cm" 2.92 "R2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(950C,14H in air)-pellet-SIN(960C,12H, in N2 flow)-slow cool to 400C(5C/min)-ANN(400C,12H in O2 flow)-cool to RT" "Series of R(Ba,Sr)2Cu3Oz compounds with fixed Ba and Sr content and different rare-earth replacement R" 1998 "Mat. Res. Bull., 33(1998)1241" 8312 MRB0331241 "R(Ba,Sr)2CuO7" Dy1Ba1.5Sr0.5Cu3O7-Z Dy 1 Ba 1.5 Sr 0.5 Cu 3 O 7-Z 1 1998 3 Y123 3.8068 3.8743 11.632 3 K 86.5 1.1 86.5 "mOhm,cm" 2.25 "R2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(950C,14H in air)-pellet-SIN(960C,12H, in N2 flow)-slow cool to 400C(5C/min)-ANN(400C,12H in O2 flow)-cool to RT" "Series of R(Ba,Sr)2Cu3Oz compounds with fixed Ba and Sr content and different rare-earth replacement R" 1998 "Mat. Res. Bull., 33(1998)1241" 8313 MRB0331241 "R(Ba,Sr)2CuO7" Ho1Ba1.5Sr0.5Cu3O7-Z Ho 1 Ba 1.5 Sr 0.5 Cu 3 O 7-Z 1 1998 3 Y123 3.8042 3.8739 11.61 3 K 86.8 1.5 86.8 "mOhm,cm" 1.43 "R2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(950C,14H in air)-pellet-SIN(960C,12H, in N2 flow)-slow cool to 400C(5C/min)-ANN(400C,12H in O2 flow)-cool to RT" "Series of R(Ba,Sr)2Cu3Oz compounds with fixed Ba and Sr content and different rare-earth replacement R" 1998 "Mat. Res. Bull., 33(1998)1241" 8314 MRB0331241 "R(Ba,Sr)2CuO7" Y1Ba1.5Sr0.5Cu3O7-Z Y 1 Ba 1.5 Sr 0.5 Cu 3 O 7-Z 1 1998 3 Y123 3.7976 3.8725 11.606 3 K 87.4 2.3 87.4 "mOhm,cm" 1.32 "R2O3,SrCO3,BaCO3,CuO" 1 "mixture-CAL(950C,14H in air)-pellet-SIN(960C,12H, in N2 flow)-slow cool to 400C(5C/min)-ANN(400C,12H in O2 flow)-cool to RT" "Series of R(Ba,Sr)2Cu3Oz compounds with fixed Ba and Sr content and different rare-earth replacement R" 1998 "Mat. Res. Bull., 33(1998)1241" 8315 PMB0710151 glass transion=426K Bi4Sr3Ca3Cu4Oz Bi4Sr3Ca3Cu4OZ Bi 4 Sr 3 Ca 3 Cu 4 O Z 6 1995 5.82 4334 K 70 428 electrical conductivity "Bi2O3,SrCO3,CaCO3,CuO,PbO" 9 "melt(1100C,2H)-Q to RT, details see Phys.Rev,B48(1992)11075" Dielectric properties of semiconducting Bi4-nPbnSr3Ca3Cu3Cu4Ox (O peak gapene=7.5, for B<1g> gapene=8.5" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 3 1996 Bi2212 K 90 90 6.2 4 self-flux method Superconducting Gap Anisotropy vs Doping Level in High-Tc Cuprates 1996 "Code 6650, Naval Research Laboratory, Washington, D.C. 20375" Phys.Rev.Lett.77(1996)727 8550 JIC0430662 "mine phase=50.28%, Cu2O=2.95%, Nd2CuO4=6069%(Nd,Sr)3Cu2O6=1.38%, SrCu2O2=3.01%, SrCuO2=30.69%" "(Sr,Nd)CuO2-z" Sr0.91Nd0.09Cu1O1.98 Sr 0.91 Nd 0.09 Cu 1 O 2-Z 1.98 2 1998 CaCuO2 P4/mmm 3.9276 3.4252 K 4.2 "mixture of Nd, Cu, Ca, Sr-oxides, CaLL-SIN(860-900C, 8H in air)-pellet-SIN(780-1100C,5-7GPa, 5-30 min in chamber)" 1998 J.Inorg.Chem.43(1998)662 8551 JIC0430662 "mine phase=93%, Cu2O=1.34%, CuO=2.36%, SrCu2O4=3.3%" "(Sr,Nd)CuO2-z" Sr0.86Nd0.14Cu1O2 Sr 0.86 Nd 0.14 Cu 1 O 2-Z 2 2 1998 CaCuO2 P4/mmm 3.9388 3.3851 K 40 40 "mixture of Nd, Cu, Ca, Sr-oxides, CaLL-SIN(860-900C, 8H in air)-pellet-SIN(780-1100C,5-7GPa, 5-30 min in chamber)" 1998 J.Inorg.Chem.43(1998)662 8552 JIC0430662 "mine phase=98.54%, Cu2O=1.46%" "(Sr,Nd)CuO2-z" Sr0.83Nd0.17Cu1O2 Sr 0.83 Nd 0.17 Cu 1 O 2-Z 2 2 1998 CaCuO2 P4/mmm 3.9425 3.3862 K 35 35 "mixture of Nd, Cu, Ca, Sr-oxides, CaLL-SIN(860-900C, 8H in air)-pellet-SIN(780-1100C,5-7GPa, 5-30 min in chamber)" 1998 J.Inorg.Chem.43(1998)662 8553 JIC0430662 "mine phase=48.26%, Sr2Cu2O4=9.18%, SrCu2O2=34.56%" "(Sr,Nd)CuO2-z" Sr0.81Nd0.19Cu1O2 Sr 0.81 Nd 0.19 Cu 1 O 2-Z 2 2 1998 CaCuO2 P4/mmm 3.9387 3.3904 K 18 18 "mixture of Nd, Cu, Ca, Sr-oxides, CaLL-SIN(860-900C, 8H in air)-pellet-SIN(780-1100C,5-7GPa, 5-30 min in chamber)" 1998 J.Inorg.Chem.43(1998)662 8554 JIC0430662 "mine phase=83.01%, Cu2O=8.73%, (Nd,Sr)3CuO6=1.38%, unknown phase." "(Sr,Nd)CuO2-z" Sr0.87Nd0.13Cu1O1.95 Sr 0.87 Nd 0.13 Cu 1 O 2-Z 1.95 2 1998 CaCuO2 P4/mmm 3.9337 3.407 K 4.2 "mixture of Nd, Cu, Ca, Sr-oxides, CaLL-SIN(860-900C, 8H in air)-pellet-SIN(780-1100C,5-7GPa, 5-30 min in chamber)" 1998 J.Inorg.Chem.43(1998)662 8555 JIC0430662 "mine phase=94.43%, Cu2O=0.56%, Sr2Cu2O4=5.01%" "(Sr,Nd)CuO2-z" Sr0.84Nd0.16Cu1O2.01 Sr 0.84 Nd 0.16 Cu 1 O 2-Z 2.01 1998 CaCuO2 P4/mmm 3.9405 3.3911 K 40 40 "mixture of Nd, Cu, Ca, Sr-oxides, CaLL-SIN(860-900C, 8H in air)-pellet-SIN(780-1100C,5-7GPa, 5-30 min in chamber)" 1998 J.Inorg.Chem.43(1998)662 8558 EPL0410207 "Im the fig, P=1:Hc2 defined by magneto tunneling, P=2:Hc2defined R/Rn=0.9 in resistive trasition, P=3: Hirr" "(Ba,K)BiO3" Ba0.54K0.46Bi1O3 Ba 0.54 K 0.46 Bi 1 O 3 3 1998 BKBO K 23 23 1.7 3.9 3.9 1 electrochemical caystallization Upper Critical Field in Ba1-xKxBiO3: Magnetotransport us. Magnetotunneling 1998 "Institute of Experimental Physics, Slovak Academy of Sciences, Sk-04353 Kosice, Slovakia" Europhys.Let.41(1998)207 8559 LTP1051237 K-content estimated from Tc-x(Phys.Rev.B41(1990)4126) "(Ba,K)BiO3" Ba0.5K0.5Bi1O3 Ba 0.5 K 0.5 Bi 1 O 3 3 1996 BKBO K 20 20 defied as tunneling conductance=zero 12.3 electrochemical caystallization Upper Critical Field of Ba1-xKxBiO3 Measured by Magnetotunneling Spectroscopy 1996 "Institute of Experimental Physics, Slovak Academy of Sciences, Sk-04353 Kosice, Slovakia" J.Low Temp.Phys.105(1996)1237 8560 PHC3080009 as-synthesized CuBa2Ca2Cu3O8 Cu4Ba2Ca2O8+Z Cu 4 Ba 2 Ca 2 O 8+Z 1998 Cu1223 3.861 14.76 K 67 67 "BaCuO2, Ca2CuO3, CuO" "precursor mixture-packed into Au capsule-high pressure synthesis(1000-1200C,30min, 5GPa)-Q to RT" Optimization of the synthesis and tuning the oxygen content of the CuBa2Ca2Cu3O8+delta(Cu-1223:P) superconductor 1998 11 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Physica.C,308(1998)" 8561 PHC3080009 Ar-annealed at 300C CuBa2Ca2Cu3O8 Cu4Ba2Ca2O8+Z Cu 4 Ba 2 Ca 2 O 8+Z 1998 Cu1223 3.863 14.77 K 78 78 "BaCuO2, Ca2CuO3, CuO" "precursor mixture-packed into Au capsule-high pressure synthesis(1000-1200C,30min, 5GPa)-Q to RT" Optimization of the synthesis and tuning the oxygen content of the CuBa2Ca2Cu3O8+delta(Cu-1223:P) superconductor 1998 11 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Physica.C,308(1998)" 8562 PHC3080009 Ar-annealed at 320C CuBa2Ca2Cu3O8 Cu4Ba2Ca2O8+Z Cu 4 Ba 2 Ca 2 O 8+Z 1998 Cu1223 3.867 14.78 K 82 82 "BaCuO2, Ca2CuO3, CuO" "precursor mixture-packed into Au capsule-high pressure synthesis(1000-1200C,30min, 5GPa)-Q to RT" Optimization of the synthesis and tuning the oxygen content of the CuBa2Ca2Cu3O8+delta(Cu-1223:P) superconductor 1998 11 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Physica.C,308(1998)" 8563 PHC3080009 Ar-annealed at 340C CuBa2Ca2Cu3O8 Cu4Ba2Ca2O8+Z Cu 4 Ba 2 Ca 2 O 8+Z 1998 Cu1223 3.866 14.8 K 100 100 "BaCuO2, Ca2CuO3, CuO" "precursor mixture-packed into Au capsule-high pressure synthesis(1000-1200C,30min, 5GPa)-Q to RT" Optimization of the synthesis and tuning the oxygen content of the CuBa2Ca2Cu3O8+delta(Cu-1223:P) superconductor 1998 11 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Physica.C,308(1998)" 8564 PHC3080009 Ar-annealed at 360C CuBa2Ca2Cu3O8 Cu4Ba2Ca2O8+Z Cu 4 Ba 2 Ca 2 O 8+Z 1998 2 Cu1223 3.867 K 110 110 "BaCuO2, Ca2CuO3, CuO" "precursor mixture-packed into Au capsule-high pressure synthesis(1000-1200C,30min, 5GPa)-Q to RT" Optimization of the synthesis and tuning the oxygen content of the CuBa2Ca2Cu3O8+delta(Cu-1223:P) superconductor 1998 11 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Physica.C,308(1998)" 8565 PHC3080009 Ar-annealed at 400C CuBa2Ca2Cu3O8 Cu4Ba2Ca2O8+Z Cu 4 Ba 2 Ca 2 O 8+Z 1998 2 Cu1223 3.867 K 118 118 "BaCuO2, Ca2CuO3, CuO" "precursor mixture-packed into Au capsule-high pressure synthesis(1000-1200C,30min, 5GPa)-Q to RT" Optimization of the synthesis and tuning the oxygen content of the CuBa2Ca2Cu3O8+delta(Cu-1223:P) superconductor 1998 11 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Physica.C,308(1998)" 8566 PHC3080009 Ar-annealed at 420C CuBa2Ca2Cu3O8 Cu4Ba2Ca2O8+Z Cu 4 Ba 2 Ca 2 O 8+Z 1998 2 Cu1223 3.867 K 118 118 "BaCuO2, Ca2CuO3, CuO" "precursor mixture-packed into Au capsule-high pressure synthesis(1000-1200C,30min, 5GPa)-Q to RT" Optimization of the synthesis and tuning the oxygen content of the CuBa2Ca2Cu3O8+delta(Cu-1223:P) superconductor 1998 11 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Physica.C,308(1998)" 8567 LTP1051359 "(Hg,Re)Ba2Ca2Cu3Oz" Hg0.75Re0.25Ba2Ca2Cu3OZ Hg 0.75 Re 0.25 Ba 2 Ca 2 Cu 3 O Z 1996 2 Hg1223 3.8519 15.6843 K "precuresor(Re-Ba-Ca-Cu-O)+HgO-mixture-pellet-sealed(quartz ampule)-SIN(670-860C,5-55H)-Q to RT" Chemical Doping and Improved Flux Pinning in Hg-based Superconductors 1996 "Department of Superconductivity, University of Tokyo, Tokyo, 113, Japan" J.Low Temp.Phys.105(1996)1359 8568 LTP1051359 "as-prepared, Hirr defined as Jc=1000A/cm2" "(Hg,Re)Ba2Ca2Cu3Oz" Hg0.9Re0.1Ba2Ca2Cu3OZ Hg 0.9 Re 0.1 Ba 2 Ca 2 Cu 3 O Z 1996 2 Hg1223 K 135 135 "precuresor(Re-Ba-Ca-Cu-O)+HgO-mixture-pellet-sealed(quartz ampule)-SIN(670-860C,5-55H)-Q to RT" Chemical Doping and Improved Flux Pinning in Hg-based Superconductors 1996 "Department of Superconductivity, University of Tokyo, Tokyo, 113, Japan" J.Low Temp.Phys.105(1996)1359 8569 LTP1051359 "O2-annealed, Hirr defined as Jc=1000A/Cm2" "(Hg,Re)Ba2Ca2Cu3Oz" Hg0.9Re0.1Ba2Ca2Cu3OZ Hg 0.9 Re 0.1 Ba 2 Ca 2 Cu 3 O Z 1996 2 Hg1223 K 128 128 "precuresor(Re-Ba-Ca-Cu-O)+HgO-mixture-pellet-sealed(quartz ampule)-SIN(670-860C,5-55H)-Q to RT" Chemical Doping and Improved Flux Pinning in Hg-based Superconductors 1996 "Department of Superconductivity, University of Tokyo, Tokyo, 113, Japan" J.Low Temp.Phys.105(1996)1359 8570 LTP1051359 "O2-annealed, Hirr defined as Jc=1000A/Cm2" "(Hg,Re)Ba2Ca2Cu3Oz" Hg0.8Re0.2Ba2Ca2Cu3OZ Hg 0.8 Re 0.2 Ba 2 Ca 2 Cu 3 O Z 1996 2 Hg1223 K 133 133 "precuresor(Re-Ba-Ca-Cu-O)+HgO-mixture-pellet-sealed(quartz ampule)-SIN(670-860C,5-55H)-Q to RT" Chemical Doping and Improved Flux Pinning in Hg-based Superconductors 1996 "Department of Superconductivity, University of Tokyo, Tokyo, 113, Japan" J.Low Temp.Phys.105(1996)1359 8571 PHC3090161 "optimally doped, H//c-axis" HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8+Z Hg 1 Ba 2 Ca 2 Cu 3 O 8+Z 3 1998 Hg1223 K 130 130 "Influence of Re substitution on the flux pinning in (Hg,Re)Ba2Ca2Cu3O8+delta single crystals" 1998 12 "Institute of Physics , Polish Academy of Siences, Al. Lothkow 32/46, PL 02-668 Warsaw, Poland" "Physica C,309(1998)161-169" 8572 PHC3090161 "underdoped, H//c-axis" HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8+Z Hg 1 Ba 2 Ca 2 Cu 3 O 8+Z 3 1998 Hg1223 K 120 120 "Influence of Re substitution on the flux pinning in (Hg,Re)Ba2Ca2Cu3O8+delta single crystals" 1998 12 "Institute of Physics , Polish Academy of Siences, Al. Lothkow 32/46, PL 02-668 Warsaw, Poland" "Physica C,309(1998)161-169" 8573 PHC3090161 "optimally doped, H//c-axis" HgBa2Ca2Cu3O8 Hg0.77Re0.23Ba2Ca2Cu3O8+Z Hg 0.77 Re 0.23 Ba 2 Ca 2 Cu 3 O 8+Z 3 1998 Hg1223 K 130 130 "Influence of Re substitution on the flux pinning in (Hg,Re)Ba2Ca2Cu3O8+delta single crystals" 1998 12 "Institute of Physics , Polish Academy of Siences, Al. Lothkow 32/46, PL 02-668 Warsaw, Poland" "Physica C,309(1998)161-169" 8574 PHC3090208 TlSr2CuO5 Tl1Sr2Cu1O5 Tl 1 Sr 2 Cu 1 O 5 1998 Tl1201 K 15 "mixture-pellet-SIN(950C,10H)-cool to 650C-keep(650C,6H)" "New Tl 2201(Tl,Cr)2Sr2CuO6+ -delta phase material" 1998 12 "Midwest Superconductivity, 1315 Wakarusa Drive, Lawrence, KS 66049, USA" "Physica C,309(1998)208-214" 8575 PHC3090208 "Tl(Sr,Cr)2CuO5" Tl1Sr1.9Cr0.1Cu1O5 Tl 1 Sr 1.9 Cr 0.1 Cu 1 O 5 1998 Tl1201 K 30 45 37.5 "mixture-pellet-SIN(950C,10H)-cool to 650C-keep(650C,6H)" "New Tl 2201(Tl,Cr)2Sr2CuO6+ -delta phase material" 1998 12 "Midwest Superconductivity, 1315 Wakarusa Drive, Lawrence, KS 66049, USA" "Physica C,309(1998)208-214" 8576 PHC3090208 "Tl(Sr,Cr)2CuO5" Tl1Sr1.8Cr0.2Cu1O5 Tl 1 Sr 1.8 Cr 0.2 Cu 1 O 5 1998 Tl1201 K 43 43 "mixture-pellet-SIN(950C,10H)-cool to 650C-keep(650C,6H)" "New Tl 2201(Tl,Cr)2Sr2CuO6+ -delta phase material" 1998 12 "Midwest Superconductivity, 1315 Wakarusa Drive, Lawrence, KS 66049, USA" "Physica C,309(1998)208-214" 8577 PHC3090208 "Tl(Sr,Cr)2CuO5" Tl1Sr1.7Cr0.3Cu1O5 Tl 1 Sr 1.7 Cr 0.3 Cu 1 O 5 1998 Tl1201 K 47 47 "mixture-pellet-SIN(950C,10H)-cool to 650C-keep(650C,6H)" "New Tl 2201(Tl,Cr)2Sr2CuO6+ -delta phase material" 1998 12 "Midwest Superconductivity, 1315 Wakarusa Drive, Lawrence, KS 66049, USA" "Physica C,309(1998)208-214" 8578 PHC3090208 "Tl(Sr,Cr)2CuO5" Tl1Sr1.6Cr0.4Cu1O5 Tl 1 Sr 1.6 Cr 0.4 Cu 1 O 5 1998 Tl1201 K 48 48 "mixture-pellet-SIN(950C,10H)-cool to 650C-keep(650C,6H)" "New Tl 2201(Tl,Cr)2Sr2CuO6+ -delta phase material" 1998 12 "Midwest Superconductivity, 1315 Wakarusa Drive, Lawrence, KS 66049, USA" "Physica C,309(1998)208-214" 8579 PHC3090208 "nominal(Tl1201),XRD shows Tl2201 phase, posltion of Cr is not determined" Tl1Sr1.7Cr0.3Cu1O5 Tl 1 Sr 1.7 Cr 0.3 Cu 1 O 5 1998 Tl2201 3.7598 23.4565 K 76 76 sintered at 980C "New Tl 2201(Tl,Cr)2Sr2CuO6+ -delta phase material" 1998 12 "Midwest Superconductivity, 1315 Wakarusa Drive, Lawrence, KS 66049, USA" "Physica C,309(1998)208-214" 8580 PHC3090105 "Jc is plotted, P=1 for H=5KOe and P=2 for H=40KOe" HxBi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 3 1998 3 Bi2212 5.37 5.4 30.75 K 87.5 87.5 "single crystal-ANN(700C,3days,in 90%Ar+10% O2)-hydrogenated electrohemically(KOH solution)" Superconducting properties of hydrogenated Bi2Sr2CaCu2O8+delta single crystals 1998 12 "Institut fur Experimentalphysik IV, Ruhr-Universitat, 44780. Bochum, Germany" "Physica C,309(1998)105-112" 8581 PHC3090105 "mayb phase separation(H-rich and H-poor), H:intersticial site. P=1 for H=5KOe and P=2 for H=40KOe" HxBi2Sr2CaCu2Oz H1Bi2Sr2Ca1Cu2OZ H 1 Bi 2 Sr 2 Ca 1 Cu 2 O Z 3 1998 3 Bi2212 5.4 5.46 30.75 K 87.5 87.5 "single crystal-ANN(700C,3days,in 90%Ar+10% O2)-hydrogenated electrohemically(KOH solution)" Superconducting properties of hydrogenated Bi2Sr2CaCu2O8+delta single crystals 1998 12 "Institut fur Experimentalphysik IV, Ruhr-Universitat, 44780. Bochum, Germany" "Physica C,309(1998)105-112" 8582 PHC3090049 as-grown "(Tl,Pb)(Sr,Ba)2CaCu2Oz" Tl0.6Pb0.4Sr1.7Ba0.3Ca1Cu2OZ Tl 0.6 Pb 0.4 Sr 1.7 Ba 0.3 Ca 1 Cu 2 O Z 3 1998 Tl1212 12.0824 K 89 89 "precursor+Tl2O3-heat(960C,0.5H in alumina crucible-cool to 720C(15C/H)-cool to RT (50C/H)" Magnetization studies of Tl0.6Pb0.4Sr1.7Ba0.3CaCu2Oy single crystals 1998 12 "Department of Physics and Astronomy, University of Southampton, Southampton, SO17 IBJ, UK" "Physica C,309(1998)49-55" 8583 PHC3090049 "after annealing(500bar N2,500C,2H), then cool to RT(60C/H)" "(Tl,Pb)(Sr,Ba)2CaCu2Oz" Tl0.6Pb0.4Sr1.7Ba0.3Ca1Cu2OZ Tl 0.6 Pb 0.4 Sr 1.7 Ba 0.3 Ca 1 Cu 2 O Z 3 1998 Tl1212 12.178 K 89 89 "precursor+Tl2O3-heat(960C,0.5H in alumina crucible-cool to 720C(15C/H)-cool to RT (50C/H)" Magnetization studies of Tl0.6Pb0.4Sr1.7Ba0.3CaCu2Oy single crystals 1998 12 "Department of Physics and Astronomy, University of Southampton, Southampton, SO17 IBJ, UK" "Physica C,309(1998)49-55" 8584 PHC3090025 YBa2Cu3Oz Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 1 1998 3 Y123 3.827 3.8876 11.677 K standard solid state reaction method Microstrutural variations of YBa2Cu3Oy doped with Ca at high doping level 1998 12 "National Laboratory of State Microstructures, Department of Pysics, Institute of Solid State Physics, and Center for Advanced studies in Science and Technology of Microstructures, University, Nanjing 210093, China" "Physica C,309(1998)25-32" 8585 PHC3090025 "(Y,Ca)Ba2Cu3Oz" Y0.95Ca0.05Ba2Cu3OZ Y 0.95 Ca 0.05 Ba 2 Cu 3 O Z 1 1998 3 Y123 3.826 3.8853 11.679 K standard solid state reaction method Microstrutural variations of YBa2Cu3Oy doped with Ca at high doping level 1998 12 "National Laboratory of State Microstructures, Department of Pysics, Institute of Solid State Physics, and Center for Advanced studies in Science and Technology of Microstructures, University, Nanjing 210093, China" "Physica C,309(1998)25-32" 8586 PHC3090025 "(Y,Ca)Ba2Cu3Oz" Y0.9Ca0.1Ba2Cu3OZ Y 0.9 Ca 0.1 Ba 2 Cu 3 O Z 1 1998 3 Y123 3.8301 3.8843 11.674 K standard solid state reaction method Microstrutural variations of YBa2Cu3Oy doped with Ca at high doping level 1998 12 "National Laboratory of State Microstructures, Department of Pysics, Institute of Solid State Physics, and Center for Advanced studies in Science and Technology of Microstructures, University, Nanjing 210093, China" "Physica C,309(1998)25-32" 8587 PHC3090025 "(Y,Ca)Ba2Cu3Oz" Y0.85Ca0.15Ba2Cu3OZ Y 0.85 Ca 0.15 Ba 2 Cu 3 O Z 1 1998 3 Y123 3.8318 3.8766 11.684 K standard solid state reaction method Microstrutural variations of YBa2Cu3Oy doped with Ca at high doping level 1998 12 "National Laboratory of State Microstructures, Department of Pysics, Institute of Solid State Physics, and Center for Advanced studies in Science and Technology of Microstructures, University, Nanjing 210093, China" "Physica C,309(1998)25-32" 8588 PHC3090025 "(Y,Ca)Ba2Cu3Oz" Y1.8Ca0.2Ba2Cu3OZ Y 1.8 Ca 0.2 Ba 2 Cu 3 O Z 1 1998 3 Y123 3.8307 3.878 11.693 K standard solid state reaction method Microstrutural variations of YBa2Cu3Oy doped with Ca at high doping level 1998 12 "National Laboratory of State Microstructures, Department of Pysics, Institute of Solid State Physics, and Center for Advanced studies in Science and Technology of Microstructures, University, Nanjing 210093, China" "Physica C,309(1998)25-32" 8589 PHC3090025 "(Y,Ca)Ba2Cu3Oz" Y0.65Ca0.35Ba2Cu3OZ Y 0.65 Ca 0.35 Ba 2 Cu 3 O Z 1 1998 3 Y123 3.8358 3.8761 11.692 K standard solid state reaction method Microstrutural variations of YBa2Cu3Oy doped with Ca at high doping level 1998 12 "National Laboratory of State Microstructures, Department of Pysics, Institute of Solid State Physics, and Center for Advanced studies in Science and Technology of Microstructures, University, Nanjing 210093, China" "Physica C,309(1998)25-32" 8590 PHC3090025 "(Y,Ca)Ba2Cu3Oz" Y0.5Ca0.5Ba2Cu3OZ Y 0.5 Ca 0.5 Ba 2 Cu 3 O Z 1 1998 3 Y123 3.824 3.8782 11.704 K 77 77 standard solid state reaction method Microstrutural variations of YBa2Cu3Oy doped with Ca at high doping level 1998 12 "National Laboratory of State Microstructures, Department of Pysics, Institute of Solid State Physics, and Center for Advanced studies in Science and Technology of Microstructures, University, Nanjing 210093, China" "Physica C,309(1998)25-32" 8591 PRL0824918 YBa2Cu3O7 Y1Ba2Cu3O6.94 Y 1 Ba 2 Cu 3 O 7-Z 6.94 1999 Y123 K 93 93 crystals were grown by the self-flux method in Y or Ca stabilized ZrO2 crucibles "Superconducting Gap deltac, the Pseudogap deltap, and Pair Fluctuations above Tc in Overdoped Y1-xCaxBa2Cu3O7-delta from Femtosecond time-Domain Spectroscopy" 1999 "Jozef Stefan Institute, Jamova 39, 1001 Ljubljana, Slovenia" Phys.Rev.Lett.82(1999)4918 8592 PRL0824918 "(Y,Ca)Ba2Cu3O7" Y0.984Ca0.016Ba2Cu3O6.986 Y 0.984 Ca 0.016 Ba 2 Cu 3 O 7-Z 6.986 1999 Y123 K 89.5 89.5 crystals were grown by the self-flux method in Y or Ca stabilized ZrO2 crucibles "Superconducting Gap deltac, the Pseudogap deltap, and Pair Fluctuations above Tc in Overdoped Y1-xCaxBa2Cu3O7-delta from Femtosecond time-Domain Spectroscopy" 1999 "Jozef Stefan Institute, Jamova 39, 1001 Ljubljana, Slovenia" Phys.Rev.Lett.82(1999)4918 8593 PRL0824918 "(Y,Ca)Ba2Cu3O7" Y0.899Ca0.101Ba2Cu3O6.943 Y 0.899 Ca 0.101 Ba 2 Cu 3 O 7-Z 6.943 1999 Y123 K 83 83 crystals were grown by the self-flux method in Y or Ca stabilized ZrO2 crucibles "Superconducting Gap deltac, the Pseudogap deltap, and Pair Fluctuations above Tc in Overdoped Y1-xCaxBa2Cu3O7-delta from Femtosecond time-Domain Spectroscopy" 1999 "Jozef Stefan Institute, Jamova 39, 1001 Ljubljana, Slovenia" Phys.Rev.Lett.82(1999)4918 8594 PRL0824918 "(Y,Ca)Ba2Cu3O7" Y0.868Ca0.132Ba2Cu3O6.928 Y 0.868 Ca 0.132 Ba 2 Cu 3 O 7-Z 6.928 1999 Y123 K 75 75 crystals were grown by the self-flux method in Y or Ca stabilized ZrO2 crucibles "Superconducting Gap deltac, the Pseudogap deltap, and Pair Fluctuations above Tc in Overdoped Y1-xCaxBa2Cu3O7-delta from Femtosecond time-Domain Spectroscopy" 1999 "Jozef Stefan Institute, Jamova 39, 1001 Ljubljana, Slovenia" Phys.Rev.Lett.82(1999)4918 8595 PRL0824930 electrochemical crystallizatio Ba1K1Bi1O3 Ba 1 K 1 Bi 1 O 3 1999 BKBO K 23.3 23.3 16 45 reversible M-H region 3600 K-content was estimated from Tc-x(by Asada) "Small Angle Neutron Scattering and Magnetization Measurements in the Cubic (K, Ba)BiO3 Superconductor" 1999 "Laboratoire d'Etudes des Propriete's Electroniques des Solides, Centre National de la Recherche Scientifique, BP 166, 38042 Grenoble Cedex 9, France" Phys.Rev.Lett.82(1999)4930 8596 SSC1060673 "compositions of Cs,Sr are not described" "(Cs,Sr)(Bi,Pb)O3" Cs1Sr1Bi0.25Pb0.75O3 Cs 1 Sr 1 Bi 0.25 Pb 0.75 O 3 2 1998 ABO3 K 7.5 7.5 polycrystal prepared by decomposing stoichiometric mixture of 0.1 M aqueous constituent metal-EDTA solutions OBSERVATION OF SUPERCONDUCTIVITY IN THE Cs-Sr-Bi-Pb-O SYSTEM 1998 "Metal Manufactures Ltd., High Temperature Superconductor Facility, Australian Technology Park, Eveleigh NSW 1430, Australia" Solid State Commun.106(1998)673 8597 SCI2801589 "I-intercalation, interlayer distance=15.7" "I-Bi2(Sr,Ca)2CaCu2Oz" I1Bi2Sr1.5Ca1.5Cu2OZ I 1 Bi 2 Sr 1.5 Ca 1.5 Cu 2 O Z 1998 Bi2212 K 63.2 63.2 intercalation technique High-Tc Superconductors in the Two-Dimensional Limit: [(Py-CnH2n+1)2Hgl4]-Bi2Sr2Cam-1CuOy(m=1 and 2) 1998 6 "Department of Chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" Science.280(1998)1589 8598 SCI2801589 "HgI2-intercalation, interlayer distance=19.6" "HgI2-Bi2(Sr,Ca)2CaCu2Oz" Hg1I2Bi2Sr1.5Ca1.5Cu2OZ Hg 1 I 2 Bi 2 Sr 1.5 Ca 1.5 Cu 2 O Z 1998 Bi2212 K 68 68 intercalation technique High-Tc Superconductors in the Two-Dimensional Limit: [(Py-CnH2n+1)2Hgl4]-Bi2Sr2Cam-1CuOy(m=1 and 2) 1998 6 "Department of Chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" Science.280(1998)1589 8599 SCI2801589 "intercalation-[(Py-CnH2n+1)2HgI4], bisalkylpyridinium tetraiodomercurate. Interlayer distance=A 26.1A" "[(Py-CnH2n+1)2HgI4]Bi2(Sr,Ca)2CaCu2Oz" Py2C1H24Hg1I4Bi2Sr1.5Ca1.5Cu2OZ Py 2 C 1 H 24 Hg 1 I 4 Bi 2 Sr 1.5 Ca 1.5 Cu 2 O Z 1998 Bi2212 K 81 81 HgI2-intercalated Bi-2212(m-1)-(solvent-mediated) reaction between HgI2 tntercalates and alkylpyridinium iodide High-Tc Superconductors in the Two-Dimensional Limit: [(Py-CnH2n+1)2Hgl4]-Bi2Sr2Cam-1CuOy(m=1 and 2) 1998 6 "Department of Chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" Science.280(1998)1589 8600 SCI2801589 "intercalation-[(Py-CnH2n+1)2HgI4], bisalkylpyridinium tetraiodomercurate. Interlayer distance=A 27.1A" "[(Py-CnH2n+1)2HgI4]Bi2(Sr,Ca)2CaCu2Oz" Py2C2H26Hg1I4Bi2Sr1.5Ca1.5Cu2OZ Py 2 C 2 H 26 Hg 1 I 4 Bi 2 Sr 1.5 Ca 1.5 Cu 2 O Z 1998 Bi2212 K 82 82 HgI2-intercalated Bi-2212(m-1)-(solvent-mediated) reaction between HgI2 tntercalates and alkylpyridinium iodide High-Tc Superconductors in the Two-Dimensional Limit: [(Py-CnH2n+1)2Hgl4]-Bi2Sr2Cam-1CuOy(m=1 and 2) 1998 6 "Department of Chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" Science.280(1998)1589 8601 SCI2801589 "intercalation-[(Py-CnH2n+1)2HgI4], bisalkylpyridinium tetraiodomercurate. Interlayer distance=A 28.8A" "[(Py-CnH2n+1)2HgI4]Bi2(Sr,Ca)2CaCu2Oz" Py2C4H210Hg1I4Bi2Sr1.5Ca1.5Cu2OZ Py 2 C 4 H 210 Hg 1 I 4 Bi 2 Sr 1.5 Ca 1.5 Cu 2 O Z 1998 Bi2212 K 82 82 HgI2-intercalated Bi-2212(m-1)-(solvent-mediated) reaction between HgI2 tntercalates and alkylpyridinium iodide High-Tc Superconductors in the Two-Dimensional Limit: [(Py-CnH2n+1)2Hgl4]-Bi2Sr2Cam-1CuOy(m=1 and 2) 1998 6 "Department of Chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" Science.280(1998)1589 8602 SCI2801589 "intercalation-[(Py-CnH2n+1)2HgI4], bisalkylpyridinium tetraiodomercurate. Interlayer distance=A 33.2A" "[(Py-CnH2n+1)2HgI4]Bi2(Sr,Ca)2CaCu2Oz" Py2C6H214Hg1I4Bi2Sr1.5Ca1.5Cu2OZ Py 2 C 6 H 214 Hg 1 I 4 Bi 2 Sr 1.5 Ca 1.5 Cu 2 O Z 1998 Bi2212 K 81.2 81.2 HgI2-intercalated Bi-2212(m-1)-(solvent-mediated) reaction between HgI2 tntercalates and alkylpyridinium iodide High-Tc Superconductors in the Two-Dimensional Limit: [(Py-CnH2n+1)2Hgl4]-Bi2Sr2Cam-1CuOy(m=1 and 2) 1998 6 "Department of Chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" Science.280(1998)1589 8603 SCI2801589 "intercalation-[(Py-CnH2n+1)2HgI4], bisalkylpyridinium tetraiodomercurate. Interlayer distance=A 38.0A" "[(Py-CnH2n+1)2HgI4]Bi2(Sr,Ca)2CaCu2Oz" Py2C8H218Hg1I4Bi2Sr1.5Ca1.5Cu2OZ Py 2 C 8 H 218 Hg 1 I 4 Bi 2 Sr 1.5 Ca 1.5 Cu 2 O Z 1998 Bi2212 K 82 82 HgI2-intercalated Bi-2212(m-1)-(solvent-mediated) reaction between HgI2 tntercalates and alkylpyridinium iodide High-Tc Superconductors in the Two-Dimensional Limit: [(Py-CnH2n+1)2Hgl4]-Bi2Sr2Cam-1CuOy(m=1 and 2) 1998 6 "Department of Chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" Science.280(1998)1589 8604 SCI2801589 "intercalation-[(Py-CnH2n+1)2HgI4], bisalkylpyridinium tetraiodomercurate. Interlayer distance=A 42.9A" "[(Py-CnH2n+1)2HgI4]Bi2(Sr,Ca)2CaCu2Oz" Py2C10H224Hg1I4Bi2Sr1.5Ca1.5Cu2OZ Py 2 C 10 H 224 Hg 1 I 4 Bi 2 Sr 1.5 Ca 1.5 Cu 2 O Z 1998 Bi2212 K 81.2 81.2 HgI2-intercalated Bi-2212(m-1)-(solvent-mediated) reaction between HgI2 tntercalates and alkylpyridinium iodide High-Tc Superconductors in the Two-Dimensional Limit: [(Py-CnH2n+1)2Hgl4]-Bi2Sr2Cam-1CuOy(m=1 and 2) 1998 6 "Department of Chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" Science.280(1998)1589 8605 SCI2801589 "intercalation-[(Py-CnH2n+1)2HgI4], bisalkylpyridinium tetraiodomercurate. Interlayer distance=A 48.1A" "[(Py-CnH2n+1)2HgI4]Bi2(Sr,Ca)2CaCu2Oz" Py2C12H226Hg1I4Bi2Sr1.5Ca1.5Cu2OZ Py 2 C 12 H 226 Hg 1 I 4 Bi 2 Sr 1.5 Ca 1.5 Cu 2 O Z 1998 Bi2212 K 82.2 82.2 HgI2-intercalated Bi-2212(m-1)-(solvent-mediated) reaction between HgI2 tntercalates and alkylpyridinium iodide High-Tc Superconductors in the Two-Dimensional Limit: [(Py-CnH2n+1)2Hgl4]-Bi2Sr2Cam-1CuOy(m=1 and 2) 1998 6 "Department of Chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" Science.280(1998)1589 8606 SCI2801589 "intercalation-(Py-CnH2n+1)2HgI4, bisalkylpyridinium tetraiodomercurate. Interlayer distance= 23.08A" "[(Py-CnH2n+1)2HgI4]0.35Bi2(Sr,La)2CuOz" Py2C2H24Hg1I4Bi2Sr1.6La0.4Cu1OZ Py 2 C 2 H 24 Hg 1 I 4 Bi 2 Sr 1.6 La 0.4 Cu 1 O Z 1998 Bi2201 K 28.1 28.1 HgI2-intercalated Bi-2212(m-1)-(solvent-mediated) reaction between HgI2 tntercalates and alkylpyridinium iodide High-Tc Superconductors in the Two-Dimensional Limit: [(Py-CnH2n+1)2Hgl4]-Bi2Sr2Cam-1CuOy(m=1 and 2) 1998 6 "Department of Chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" Science.280(1998)1589 8607 SCI2801589 "intercalation-(Py-CnH2n+1)2HgI4, bisalkylpyridinium tetraiodomercurate. Interlayer distance= 25.27 A" "[(Py-CnH2n+1)2HgI4]0.35Bi2(Sr,La)2CuOz" Py2C8H210Hg1I4Bi2Sr1.6La0.4Cu1OZ Py 2 C 8 H 210 Hg 1 I 4 Bi 2 Sr 1.6 La 0.4 Cu 1 O Z 1998 Bi2201 K 27.6 27.6 HgI2-intercalated Bi-2212(m-1)-(solvent-mediated) reaction between HgI2 tntercalates and alkylpyridinium iodide High-Tc Superconductors in the Two-Dimensional Limit: [(Py-CnH2n+1)2Hgl4]-Bi2Sr2Cam-1CuOy(m=1 and 2) 1998 6 "Department of Chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" Science.280(1998)1589 8608 SCI2801589 "intercalation-(Py-CnH2n+1)2HgI4, bisalkylpyridinium tetraiodomercurate. Interlayer distance= 34.07A" "[(Py-CnH2n+1)2HgI4]0.35Bi2(Sr,La)2CuOz" Py2C16H218Hg1I4Bi2Sr1.6La0.4Cu1OZ Py 2 C 16 H 218 Hg 1 I 4 Bi 2 Sr 1.6 La 0.4 Cu 1 O Z 1998 Bi2201 K 28.1 28.1 HgI2-intercalated Bi-2212(m-1)-(solvent-mediated) reaction between HgI2 tntercalates and alkylpyridinium iodide High-Tc Superconductors in the Two-Dimensional Limit: [(Py-CnH2n+1)2Hgl4]-Bi2Sr2Cam-1CuOy(m=1 and 2) 1998 6 "Department of Chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" Science.280(1998)1589 8609 SCI2801589 "intercalation-(Py-CnH2n+1)2HgI4, bisalkylpyridinium tetraiodomercurate. Interlayer distance= 43.08 A" "[(Py-CnH2n+1)2HgI4]0.35Bi2(Sr,La)2CuOz" Py2C24H226Hg1I4Bi2Sr1.6La0.4Cu1OZ Py 2 C 24 H 226 Hg 1 I 4 Bi 2 Sr 1.6 La 0.4 Cu 1 O Z 1998 Bi2201 K 28 28 HgI2-intercalated Bi-2212(m-1)-(solvent-mediated) reaction between HgI2 tntercalates and alkylpyridinium iodide High-Tc Superconductors in the Two-Dimensional Limit: [(Py-CnH2n+1)2Hgl4]-Bi2Sr2Cam-1CuOy(m=1 and 2) 1998 6 "Department of Chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" Science.280(1998)1589 8610 SCI2801589 I-intercalation. interlayer distance=15.8 "IBi2(Sr,La)2CuOz" I1Bi2Sr1.6La0.4Cu1OZ I 1 Bi 2 Sr 1.6 La 0.4 Cu 1 O Z 1998 Bi2201 K 22.1 22.1 intercalation technique High-Tc Superconductors in the Two-Dimensional Limit: [(Py-CnH2n+1)2Hgl4]-Bi2Sr2Cam-1CuOy(m=1 and 2) 1998 6 "Department of Chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" Science.280(1998)1589 8611 SCI2801589 HgI2-intercalation. interlayer distance=19.3 "HgI2Bi2(Sr,La)2CuOz" Hg1I2Bi2Sr1.6La0.4Cu1OZ Hg 1 I 2 Bi 2 Sr 1.6 La 0.4 Cu 1 O Z 1998 Bi2201 K 22.1 22.1 intercalation technique High-Tc Superconductors in the Two-Dimensional Limit: [(Py-CnH2n+1)2Hgl4]-Bi2Sr2Cam-1CuOy(m=1 and 2) 1998 6 "Department of Chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" Science.280(1998)1589 8612 PLA2400253 TlBa2Ca2Cu3Oz Tl2Ba2Ca2Cu3OZ Tl 2 Ba 2 Ca 2 Cu 3 O Z 4 1998 Tl2223 K 118 127 122.5 "precursor film(Ba2Ca2CdxCu3Oz)on MgO-(film in Pt box and Tl2O3,precursor bulk)-sealed quartz-ANN(890C)" Cadmium induced growth of 2223 phase and Tc enhancement in TBCCO high Tc thin films 1998 4 Cadmium induced growth of 2223 phase and Tc enhancement in TBCCO high Tc thin films "Phys.Lett.A,240(1998)253" 8613 PLA2400253 TlBa2CdxCu3Oz Tl2Ba2Ca2Cd0.1Cu3OZ Tl 2 Ba 2 Ca 2 Cd 0.1 Cu 3 O Z 4 1998 Tl2223 K 120 127 123.5 "precursor film(Ba2Ca2CdxCu3Oz)on MgO-(film in Pt box and Tl2O3,precursor bulk)-sealed quartz-ANN(890C)" Cadmium induced growth of 2223 phase and Tc enhancement in TBCCO high Tc thin films 1998 4 Cadmium induced growth of 2223 phase and Tc enhancement in TBCCO high Tc thin films "Phys.Lett.A,240(1998)253" 8614 PLA2400253 TlBa2CdxCu3Oz Tl2Ba2Ca2Cd0.2Cu3OZ Tl 2 Ba 2 Ca 2 Cd 0.2 Cu 3 O Z 4 1998 Tl2223 35.715 K 124 127 125.5 112000 "precursor film(Ba2Ca2CdxCu3Oz)on MgO-(film in Pt box and Tl2O3,precursor bulk)-sealed quartz-ANN(890C)" Cadmium induced growth of 2223 phase and Tc enhancement in TBCCO high Tc thin films 1998 4 Cadmium induced growth of 2223 phase and Tc enhancement in TBCCO high Tc thin films "Phys.Lett.A,240(1998)253" 8615 PLA2400253 TlBa2CdxCu3Oz Tl2Ba2Ca2Cd0.3Cu3OZ Tl 2 Ba 2 Ca 2 Cd 0.3 Cu 3 O Z 4 1998 Tl2223 K 121 127 124 "precursor film(Ba2Ca2CdxCu3Oz)on MgO-(film in Pt box and Tl2O3,precursor bulk)-sealed quartz-ANN(890C)" Cadmium induced growth of 2223 phase and Tc enhancement in TBCCO high Tc thin films 1998 4 Cadmium induced growth of 2223 phase and Tc enhancement in TBCCO high Tc thin films "Phys.Lett.A,240(1998)253" 8616 PLA2450158 S/C is shown in ESR. Granular superconductor structure model is shown "(Gd,Ce)2Sr2Cu2TiO10" Gd1.4Ce0.6Sr2Cu2Ti1O10 Gd 1.4 Ce 0.6 Sr 2 Cu 2 Ti 1 O 10 1 1998 K 11 3 11 same as PhysicaC 176(1991)19. Details are not shown in the paper Observation of predicted superconductivity in Gd1.4Ce0.6Sr2Cu2TiOx with x=10 1998 8 "Department of Physics,University of Notre, Dame, Notre Dame, IN 46556, USA" "Phys.Lett.A,245(1998)158" 8617 PHC3200009 gap=19-25 meV Tl2Ba2CuO3 Tl2Ba2Cu1O6 Tl 2 Ba 2 Cu 1 O 6 3 1999 2 Tl2201 K 86 86 1 crystal was grown by flux method. Cleared surface is used for tunneling Tunneling spectroscopy of Tl2Ba2CuO6 1999 7 "Science and Technology Center for Superconductivity and Materials Science Division, Argonne National Laboratory, Argonne, IL 60439, USA" "Physia C,320(1999)9-20" 8618 PHC3200087 NaBa2Cu3Oz Nd1Ba2Cu3O6.98 Nd 1 Ba 2 Cu 3 O Z 6.98 1 1999 3 Y123 3.8594 3.9163 11.7276 K 89 91 93 91 91 "Nd2O3, BaCO3, CuO, La2O3, " 1 "SIN(930C, in air)-ANN(500C,24H in O2 flow)-RT(1C/min)" Influence of hole-filling by La and hole-doping by Ca on the superconductivity of NdBa2Cu3O7-delta 1999 7 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physia C,320(1999)87-95" 8619 PHC3200087 "Nd(Ba, La)2Cu3Oz" Nd1Ba1.9La0.1O6.86 Nd 1 Ba 1.9 La 0.1 O Z 6.86 1 1999 3 Y123 3.8663 3.9161 11.7414 K 79 83.5 88 84 83.5 "Nd2O3, BaCO3, CuO, La2O3, " 1 "SIN(930C, in air)-ANN(500C,24H in O2 flow)-RT(1C/min)" Influence of hole-filling by La and hole-doping by Ca on the superconductivity of NdBa2Cu3O7-delta 1999 7 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physia C,320(1999)87-95" 8620 PHC3200087 "Nd(Ba, La)2Cu3Oz" Nd1Ba1.8La0.2O6.81 Nd 1 Ba 1.8 La 0.2 O Z 6.81 1 1999 3 Y123 3.8644 3.913 11.7422 K 72 78.5 85 79 78.5 "Nd2O3, BaCO3, CuO, La2O3, " 1 "SIN(930C, in air)-ANN(500C,24H in O2 flow)-RT(1C/min)" Influence of hole-filling by La and hole-doping by Ca on the superconductivity of NdBa2Cu3O7-delta 1999 7 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physia C,320(1999)87-95" 8621 PHC3200087 "Nd(Ba, La)2Cu3Oz" Nd1Ba1.7La0.3O6.77 Nd 1 Ba 1.7 La 0.3 O Z 6.77 1 1999 3 Y123 3.8896 3.8943 11.7012 K 48 57.5 66 57 57.5 "Nd2O3, BaCO3, CuO, La2O3, " 1 "SIN(930C, in air)-ANN(500C,24H in O2 flow)-RT(1C/min)" Influence of hole-filling by La and hole-doping by Ca on the superconductivity of NdBa2Cu3O7-delta 1999 7 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physia C,320(1999)87-95" 8622 PHC3200087 "Nd(Ba, La)2Cu3Oz" Nd1Ba1.65La0.35O6.69 Nd 1 Ba 1.65 La 0.35 O Z 6.69 1 1999 3 Y123 3.8868 3.8919 11.6958 K 24 36.5 49 36 36.5 "Nd2O3, BaCO3, CuO, La2O3, " 1 "SIN(930C, in air)-ANN(500C,24H in O2 flow)-RT(1C/min)" Influence of hole-filling by La and hole-doping by Ca on the superconductivity of NdBa2Cu3O7-delta 1999 7 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physia C,320(1999)87-95" 8623 PHC3200087 "Nd(Ba, La)2Cu3Oz" Nd1Ba1.6La0.4O6.68 Nd 1 Ba 1.6 La 0.4 O Z 6.68 1 1999 3 Y123 3.8914 3.8941 11.6698 K 37 37 "Nd2O3, BaCO3, CuO, La2O3, " 1 "SIN(930C, in air)-ANN(500C,24H in O2 flow)-RT(1C/min)" Influence of hole-filling by La and hole-doping by Ca on the superconductivity of NdBa2Cu3O7-delta 1999 7 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physia C,320(1999)87-95" 8624 PHC3200087 not S/C "Nd(Ba, La)2Cu3Oz" Nd1Ba1.5La0.5O6.64 Nd 1 Ba 1.5 La 0.5 O Z 6.64 1 1999 3 Y123 3.8871 3.8908 11.6575 K "Nd2O3, BaCO3, CuO, La2O3, " 1 "SIN(930C, in air)-ANN(500C,24H in O2 flow)-RT(1C/min)" Influence of hole-filling by La and hole-doping by Ca on the superconductivity of NdBa2Cu3O7-delta 1999 7 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physia C,320(1999)87-95" 8625 PHC3200087 "Nd(Ba, Ca)(Ba,La)2Cu3Oz" Nd0.9Ca0.1Ba0.6La0.4Cu3O6.7 Nd 0.9 Ca 0.1 Ba 0.6 La 0.4 Cu 3 O Z 6.7 1 1999 3 Y123 3.8769 3.9222 11.6601 K 46 54.5 63 52 54.5 "Nd2O3, BaCO3, CuO, La2O3, " 1 "SIN(930C, in air)-ANN(500C,24H in O2 flow)-RT(1C/min)" Influence of hole-filling by La and hole-doping by Ca on the superconductivity of NdBa2Cu3O7-delta 1999 7 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physia C,320(1999)87-95" 8626 PHC3200087 "Nd(Ba, Ca)(Ba,La)2Cu3Oz" Nd0.8Ca0.2Ba0.6La0.4Cu3O6.72 Nd 0.8 Ca 0.2 Ba 0.6 La 0.4 Cu 3 O Z 6.72 1 1999 3 Y123 3.8661 3.9131 11.6655 K 68 72 76 71 72 "Nd2O3, BaCO3, CuO, La2O3, " 1 "SIN(930C, in air)-ANN(500C,24H in O2 flow)-RT(1C/min)" Influence of hole-filling by La and hole-doping by Ca on the superconductivity of NdBa2Cu3O7-delta 1999 7 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physia C,320(1999)87-95" 8627 PHC3200087 "Nd(Ba, Ca)(Ba,La)2Cu3Oz" Nd0.7Ca0.3Ba0.6La0.4Cu3O6.79 Nd 0.7 Ca 0.3 Ba 0.6 La 0.4 Cu 3 O Z 6.79 1 1999 3 Y123 3.8637 3.9116 11.7096 K 71 75 79 76 75 "Nd2O3, BaCO3, CuO, La2O3, " 1 "SIN(930C, in air)-ANN(500C,24H in O2 flow)-RT(1C/min)" Influence of hole-filling by La and hole-doping by Ca on the superconductivity of NdBa2Cu3O7-delta 1999 7 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physia C,320(1999)87-95" 8628 PHC3200087 "Nd(Ba, Ca)(Ba,La)2Cu3Oz" Nd0.6Ca0.4Ba0.6La0.4Cu3O6.83 Nd 0.6 Ca 0.4 Ba 0.6 La 0.4 Cu 3 O Z 6.83 1 1999 3 Y123 3.8611 3.9226 11.6983 K 78 84 90 83 84 "Nd2O3, BaCO3, CuO, La2O3, " 1 "SIN(930C, in air)-ANN(500C,24H in O2 flow)-RT(1C/min)" Influence of hole-filling by La and hole-doping by Ca on the superconductivity of NdBa2Cu3O7-delta 1999 7 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physia C,320(1999)87-95" 8629 PHC3200087 "Nd(Ba, Ca)(Ba,La)2Cu3Oz" Nd0.5Ca0.5Ba0.6La0.4Cu3O6.77 Nd 0.5 Ca 0.5 Ba 0.6 La 0.4 Cu 3 O Z 6.77 1 1999 3 Y123 3.8641 3.9207 11.6995 K 75 80.5 86 80 80.5 "Nd2O3, BaCO3, CuO, La2O3, " 1 "SIN(930C, in air)-ANN(500C,24H in O2 flow)-RT(1C/min)" Influence of hole-filling by La and hole-doping by Ca on the superconductivity of NdBa2Cu3O7-delta 1999 7 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physia C,320(1999)87-95" 8630 PHC3200087 "Nd(Ba, Ca)(Ba,La)2Cu3Oz" Nd0.4Ca0.6Ba0.6La0.4Cu3O6.71 Nd 0.4 Ca 0.6 Ba 0.6 La 0.4 Cu 3 O Z 6.71 1 1999 3 Y123 3.8791 3.9307 11.6817 K 74 78.5 83 78 78.5 "Nd2O3, BaCO3, CuO, La2O3, " 1 "SIN(930C, in air)-ANN(500C,24H in O2 flow)-RT(1C/min)" Influence of hole-filling by La and hole-doping by Ca on the superconductivity of NdBa2Cu3O7-delta 1999 7 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physia C,320(1999)87-95" 8631 PHC3200173 HoBa2Cu3O7-z Ho1Ba2Cu3O7-Z Ho 1 Ba 2 Cu 3 O 7-Z 1999 Y123 K 90.7 1.5 90.7 1 "ANN(450C, in O2 flow)" Trapping mechanism of superconductivity suppression induced by Pr substitution in the Ho1-xPrxBa2Cu3O7-delta system 1999 7 "Institute of Physics, Jagiellonian University, Reymonta 4, 30-059 Krakow, Poland" "Physica C,320(1999)173-182" 8632 PHC3200173 "(Ho,Pr)Ba2Cu3Oz" Ho0.95Pr0.05Ba2Cu3O7-Z Ho 0.95 Pr 0.05 Ba 2 Cu 3 O 7-Z 1999 Y123 K 60.5 60.5 1 "ANN(450C, in O2 flow)" Trapping mechanism of superconductivity suppression induced by Pr substitution in the Ho1-xPrxBa2Cu3O7-delta system 1999 7 "Institute of Physics, Jagiellonian University, Reymonta 4, 30-059 Krakow, Poland" "Physica C,320(1999)173-182" 8633 PHC3200173 "(Ho,Pr)Ba2Cu3Oz" Ho0.9Pr0.1Ba2Cu3O7-Z Ho 0.9 Pr 0.1 Ba 2 Cu 3 O 7-Z 1999 Y123 K 86.7 86.7 1 "ANN(450C, in O2 flow)" Trapping mechanism of superconductivity suppression induced by Pr substitution in the Ho1-xPrxBa2Cu3O7-delta system 1999 7 "Institute of Physics, Jagiellonian University, Reymonta 4, 30-059 Krakow, Poland" "Physica C,320(1999)173-182" 8634 PHC3200173 "(Ho,Pr)Ba2Cu3Oz" Ho0.85Pr0.15Ba2Cu3O7-Z Ho 0.85 Pr 0.15 Ba 2 Cu 3 O 7-Z 1999 Y123 K 81.2 2 81.2 1 "ANN(450C, in O2 flow)" Trapping mechanism of superconductivity suppression induced by Pr substitution in the Ho1-xPrxBa2Cu3O7-delta system 1999 7 "Institute of Physics, Jagiellonian University, Reymonta 4, 30-059 Krakow, Poland" "Physica C,320(1999)173-182" 8635 PHC3200173 "(Ho,Pr)Ba2Cu3Oz" Ho0.8Pr0.2Ba2Cu3O7-Z Ho 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1999 Y123 K 75.6 75.6 1 "ANN(450C, in O2 flow)" Trapping mechanism of superconductivity suppression induced by Pr substitution in the Ho1-xPrxBa2Cu3O7-delta system 1999 7 "Institute of Physics, Jagiellonian University, Reymonta 4, 30-059 Krakow, Poland" "Physica C,320(1999)173-182" 8636 PHC3200173 "(Ho,Pr)Ba2Cu3Oz" Ho0.75Pr0.25Ba2Cu3O7-Z Ho 0.75 Pr 0.25 Ba 2 Cu 3 O 7-Z 1999 Y123 K 67.5 67.5 1 "ANN(450C, in O2 flow)" Trapping mechanism of superconductivity suppression induced by Pr substitution in the Ho1-xPrxBa2Cu3O7-delta system 1999 7 "Institute of Physics, Jagiellonian University, Reymonta 4, 30-059 Krakow, Poland" "Physica C,320(1999)173-182" 8637 PHC3200173 "(Ho,Pr)Ba2Cu3O7" Ho0.7Pr0.3Ba2Cu3O7-Z Ho 0.7 Pr 0.3 Ba 2 Cu 3 O 7-Z 1999 Y123 K 60 4.4 60 1 "ANN(450C, in O2 flow)" Trapping mechanism of superconductivity suppression induced by Pr substitution in the Ho1-xPrxBa2Cu3O7-delta system 1999 7 "Institute of Physics, Jagiellonian University, Reymonta 4, 30-059 Krakow, Poland" "Physica C,320(1999)173-182" 8638 PHC3200173 "(Ho,Pr)Ba2Cu3O7" Ho0.65Pr0.35Ba2Cu3O7-Z Ho 0.65 Pr 0.35 Ba 2 Cu 3 O 7-Z 1999 Y123 K 53.4 53.4 1 "ANN(450C, in O2 flow)" Trapping mechanism of superconductivity suppression induced by Pr substitution in the Ho1-xPrxBa2Cu3O7-delta system 1999 7 "Institute of Physics, Jagiellonian University, Reymonta 4, 30-059 Krakow, Poland" "Physica C,320(1999)173-182" 8639 PHC3200173 "(Ho,Pr)Ba2Cu3O7" Ho0.6Pr0.4Ba2Cu3O7-Z Ho 0.6 Pr 0.4 Ba 2 Cu 3 O 7-Z 1999 Y123 K 44 44 1 "ANN(450C, in O2 flow)" Trapping mechanism of superconductivity suppression induced by Pr substitution in the Ho1-xPrxBa2Cu3O7-delta system 1999 7 "Institute of Physics, Jagiellonian University, Reymonta 4, 30-059 Krakow, Poland" "Physica C,320(1999)173-182" 8640 PHC3200173 "(Ho,Pr)Ba2Cu3O7" Ho0.55Pr0.45Ba2Cu3O7-Z Ho 0.55 Pr 0.45 Ba 2 Cu 3 O 7-Z 1999 Y123 K 39.8 5.6 39.8 1 "ANN(450C, in O2 flow)" Trapping mechanism of superconductivity suppression induced by Pr substitution in the Ho1-xPrxBa2Cu3O7-delta system 1999 7 "Institute of Physics, Jagiellonian University, Reymonta 4, 30-059 Krakow, Poland" "Physica C,320(1999)173-182" 8641 PHC3200173 "(Ho,Pr)Ba2Cu3O7" Ho0.5Pr0.5Ba2Cu3O7-Z Ho 0.5 Pr 0.5 Ba 2 Cu 3 O 7-Z 1999 Y123 K 28.3 28.3 1 "ANN(450C, in O2 flow)" Trapping mechanism of superconductivity suppression induced by Pr substitution in the Ho1-xPrxBa2Cu3O7-delta system 1999 7 "Institute of Physics, Jagiellonian University, Reymonta 4, 30-059 Krakow, Poland" "Physica C,320(1999)173-182" 8642 PHC3200173 "(Ho,Pr)Ba2Cu3O7" Ho0.48Pr0.52Ba2Cu3O7-Z Ho 0.48 Pr 0.52 Ba 2 Cu 3 O 7-Z 1999 Y123 K 25.8 25.8 1 "ANN(450C, in O2 flow)" Trapping mechanism of superconductivity suppression induced by Pr substitution in the Ho1-xPrxBa2Cu3O7-delta system 1999 7 "Institute of Physics, Jagiellonian University, Reymonta 4, 30-059 Krakow, Poland" "Physica C,320(1999)173-182" 8643 PHC3200173 "(Ho,Pr)Ba2Cu3O7" Ho0.45Pr0.55Ba2Cu3O7-Z Ho 0.45 Pr 0.55 Ba 2 Cu 3 O 7-Z 1999 Y123 K 20.7 10.3 20.7 1 "ANN(450C, in O2 flow)" Trapping mechanism of superconductivity suppression induced by Pr substitution in the Ho1-xPrxBa2Cu3O7-delta system 1999 7 "Institute of Physics, Jagiellonian University, Reymonta 4, 30-059 Krakow, Poland" "Physica C,320(1999)173-182" 8644 PHC3200173 "(Ho,Pr)Ba2Cu3O7" Ho0.43Pr0.57Ba2Cu3O7-Z Ho 0.43 Pr 0.57 Ba 2 Cu 3 O 7-Z 1999 Y123 K 9.51 13.5 9.51 1 "ANN(450C, in O2 flow)" Trapping mechanism of superconductivity suppression induced by Pr substitution in the Ho1-xPrxBa2Cu3O7-delta system 1999 7 "Institute of Physics, Jagiellonian University, Reymonta 4, 30-059 Krakow, Poland" "Physica C,320(1999)173-182" 8645 PHC3200173 "(Ho,Pr)Ba2Cu3O7" Ho0.4Pr0.6Ba2Cu3O7-Z Ho 0.4 Pr 0.6 Ba 2 Cu 3 O 7-Z 1999 Y123 K 1 "ANN(450C, in O2 flow)" Trapping mechanism of superconductivity suppression induced by Pr substitution in the Ho1-xPrxBa2Cu3O7-delta system 1999 7 "Institute of Physics, Jagiellonian University, Reymonta 4, 30-059 Krakow, Poland" "Physica C,320(1999)173-182" 8646 PHC3200206 "(Y,Ca)BaCu3Oz" Y0.8Ca0.2Ba2Cu3OZ Y 0.8 Ca 0.2 Ba 2 Cu 3 O Z 1 1999 3 Y123 3.879 3.8295 11.6819 K 75.1 75.1 "Y2O3, CaO, La2O3, BaCO3, CuO" 1 "mixture-CAL(950C,16H in air)-SIN(950C,20H in air)-pellet-SIN(950C,20H in air)-ANN(350C,25H in O2 flow)-RT" Effect on sturucture and superconductivity for La and Ca codoping in YBa2Cu3Oy cuprates 1999 7 "National Laboratory of Solid State Microstructures, Department of Physics, Institute of Solid State Physics, and Center for Advanced" "Physica C,320(1999)206-212" 8647 PHC3200206 "(Y,Ca)(Ba,La)2Cu3Oz" Y0.8Ca0.2Ba0.95La0.05Cu3OZ Y 0.8 Ca 0.2 Ba 0.95 La 0.05 Cu 3 O Z 1 1999 3 Y123 3.8776 3.8285 11.6846 K 77.5 77.5 "Y2O3, CaO, La2O3, BaCO3, CuO" 1 "mixture-CAL(950C,16H in air)-SIN(950C,20H in air)-pellet-SIN(950C,20H in air)-ANN(350C,25H in O2 flow)-RT" Effect on sturucture and superconductivity for La and Ca codoping in YBa2Cu3Oy cuprates 1999 7 "National Laboratory of Solid State Microstructures, Department of Physics, Institute of Solid State Physics, and Center for Advanced" "Physica C,320(1999)206-212" 8648 PHC3200206 "(Y,Ca)(Ba,La)2Cu3Oz" Y0.8Ca0.2Ba0.9La0.1Cu3OZ Y 0.8 Ca 0.2 Ba 0.9 La 0.1 Cu 3 O Z 1 1999 3 Y123 3.8769 3.8268 11.6782 K 80.7 80.7 "Y2O3, CaO, La2O3, BaCO3, CuO" 1 "mixture-CAL(950C,16H in air)-SIN(950C,20H in air)-pellet-SIN(950C,20H in air)-ANN(350C,25H in O2 flow)-RT" Effect on sturucture and superconductivity for La and Ca codoping in YBa2Cu3Oy cuprates 1999 7 "National Laboratory of Solid State Microstructures, Department of Physics, Institute of Solid State Physics, and Center for Advanced" "Physica C,320(1999)206-212" 8650 PHC3200206 "(Y,Ca)(Ba,La)2Cu3Oz" Y0.8Ca0.2Ba0.85La0.15Cu3OZ Y 0.8 Ca 0.2 Ba 0.85 La 0.15 Cu 3 O Z 1 1999 3 Y123 3.8754 3.8246 11.6708 K 81.4 81.4 "Y2O3, CaO, La2O3, BaCO3, CuO" 1 "mixture-CAL(950C,16H in air)-SIN(950C,20H in air)-pellet-SIN(950C,20H in air)-ANN(350C,25H in O2 flow)-RT" Effect on sturucture and superconductivity for La and Ca codoping in YBa2Cu3Oy cuprates 1999 7 "National Laboratory of Solid State Microstructures, Department of Physics, Institute of Solid State Physics, and Center for Advanced" "Physica C,320(1999)206-212" 8651 PHC3200206 "(Y,Ca)(Ba,La)2Cu3Oz" Y0.8Ca0.2Ba0.8La0.2Cu3OZ Y 0.8 Ca 0.2 Ba 0.8 La 0.2 Cu 3 O Z 1 1999 3 Y123 3.8731 3.8249 11.6602 K 82.1 82.1 "Y2O3, CaO, La2O3, BaCO3, CuO" 1 "mixture-CAL(950C,16H in air)-SIN(950C,20H in air)-pellet-SIN(950C,20H in air)-ANN(350C,25H in O2 flow)-RT" Effect on sturucture and superconductivity for La and Ca codoping in YBa2Cu3Oy cuprates 1999 7 "National Laboratory of Solid State Microstructures, Department of Physics, Institute of Solid State Physics, and Center for Advanced" "Physica C,320(1999)206-212" 8652 PHC3200206 "(Y,Ca)(Ba,La)2Cu3Oz" Y0.8Ca0.2Ba0.75La0.25Cu3OZ Y 0.8 Ca 0.2 Ba 0.75 La 0.25 Cu 3 O Z 1 1999 3 Y123 3.8679 3.8244 11.6447 K 75.1 75.1 "Y2O3, CaO, La2O3, BaCO3, CuO" 1 "mixture-CAL(950C,16H in air)-SIN(950C,20H in air)-pellet-SIN(950C,20H in air)-ANN(350C,25H in O2 flow)-RT" Effect on sturucture and superconductivity for La and Ca codoping in YBa2Cu3Oy cuprates 1999 7 "National Laboratory of Solid State Microstructures, Department of Physics, Institute of Solid State Physics, and Center for Advanced" "Physica C,320(1999)206-212" 8653 PHC3200206 "(Y,Ca)(Ba,La)2Cu3Oz" Y0.8Ca0.2Ba0.7La0.3Cu3OZ Y 0.8 Ca 0.2 Ba 0.7 La 0.3 Cu 3 O Z 1 1999 3 Y123 3.8649 3.8285 11.6355 K 74.1 74.1 "Y2O3, CaO, La2O3, BaCO3, CuO" 1 "mixture-CAL(950C,16H in air)-SIN(950C,20H in air)-pellet-SIN(950C,20H in air)-ANN(350C,25H in O2 flow)-RT" Effect on sturucture and superconductivity for La and Ca codoping in YBa2Cu3Oy cuprates 1999 7 "National Laboratory of Solid State Microstructures, Department of Physics, Institute of Solid State Physics, and Center for Advanced" "Physica C,320(1999)206-212" 8654 PHC3200206 "(Y,Ca)(Ba,La)2Cu3Oz" Y0.8Ca0.2Ba0.6La0.4Cu3OZ Y 0.8 Ca 0.2 Ba 0.6 La 0.4 Cu 3 O Z 1 1999 3 Y123 3.8533 3.8426 11.6091 K 62.3 62.3 "Y2O3, CaO, La2O3, BaCO3, CuO" 1 "mixture-CAL(950C,16H in air)-SIN(950C,20H in air)-pellet-SIN(950C,20H in air)-ANN(350C,25H in O2 flow)-RT" Effect on sturucture and superconductivity for La and Ca codoping in YBa2Cu3Oy cuprates 1999 7 "National Laboratory of Solid State Microstructures, Department of Physics, Institute of Solid State Physics, and Center for Advanced" "Physica C,320(1999)206-212" 8655 PHC3200206 "(Y,Ca)(Ba,La)2Cu3Oz" Y0.8Ca0.2Ba0.5La0.5Cu3OZ Y 0.8 Ca 0.2 Ba 0.5 La 0.5 Cu 3 O Z 1 1999 3 Y123 3.8509 3.846 11.6587 K 59.8 59.8 "Y2O3, CaO, La2O3, BaCO3, CuO" 1 "mixture-CAL(950C,16H in air)-SIN(950C,20H in air)-pellet-SIN(950C,20H in air)-ANN(350C,25H in O2 flow)-RT" Effect on sturucture and superconductivity for La and Ca codoping in YBa2Cu3Oy cuprates 1999 7 "National Laboratory of Solid State Microstructures, Department of Physics, Institute of Solid State Physics, and Center for Advanced" "Physica C,320(1999)206-212" 8656 PHC3200245 YBa2(Cu)3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1999 Y123 K 90.5 90.5 Suppression of antiferromagnetic spin fluctuation in Zn-substituted YBa2Cu3O7 1999 7 "Department of Physics, Kpnkuk University, 93-1 Mo-Jin-Dong Kwang-Jin-Ku, Seoul 143-701, South Korea" "Physica C,320(1999)245-252" 8657 PHC3200245 "YBa2(Cu,Zn)3O7" Y1Cu2.99Zn0.01O7 Y 1 Cu 2.99 Zn 0.01 O 7 1 1999 Y123 K 86.6 86.6 Suppression of antiferromagnetic spin fluctuation in Zn-substituted YBa2Cu3O7 1999 7 "Department of Physics, Kpnkuk University, 93-1 Mo-Jin-Dong Kwang-Jin-Ku, Seoul 143-701, South Korea" "Physica C,320(1999)245-252" 8658 PHC3200245 "YBa2(Cu,Zn)3O7" Y1Cu2.98Zn0.02O7 Y 1 Cu 2.98 Zn 0.02 O 7 1 1999 Y123 K 84.5 84.5 Suppression of antiferromagnetic spin fluctuation in Zn-substituted YBa2Cu3O7 1999 7 "Department of Physics, Kpnkuk University, 93-1 Mo-Jin-Dong Kwang-Jin-Ku, Seoul 143-701, South Korea" "Physica C,320(1999)245-252" 8659 PHC3200245 "YBa2(Cu,Zn)3O7" Y1Cu2.97Zn0.03O7 Y 1 Cu 2.97 Zn 0.03 O 7 1 1999 Y123 K 81.5 81.5 Suppression of antiferromagnetic spin fluctuation in Zn-substituted YBa2Cu3O7 1999 7 "Department of Physics, Kpnkuk University, 93-1 Mo-Jin-Dong Kwang-Jin-Ku, Seoul 143-701, South Korea" "Physica C,320(1999)245-252" 8660 PHC3200277 as-synthesized "(Hg,Tl)2Ba2Ca2Cu3Oz" Hg1.2Tl0.8Ba2Ca2Cu3OZ Hg 1.2 Tl 0.8 Ba 2 Ca 2 Cu 3 O Z 1999 Hg2223 K 52 52 HIR8660 TP8660 "high pressure synthesis(6GPa, 1373K)" "Thermoelectric power and irreversibility field of (Hg,Tl)2Ba2Can-1CunOy (n=2-5) superconductors" 1999 7 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Physica C,320(1999)277-284" 8661 PHC3200277 as-synthesized "(Hg,Tl)2Ba2Ca3Cu4Oz" Hg1.2Tl0.8Ba2Ca3Cu4OZ Hg 1.2 Tl 0.8 Ba 2 Ca 3 Cu 4 O Z 1999 Hg2234 K 110 110 TP8661 "high pressure synthesis(6GPa, 1373K)" "Thermoelectric power and irreversibility field of (Hg,Tl)2Ba2Can-1CunOy (n=2-5) superconductors" 1999 7 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Physica C,320(1999)277-284" 8662 PHC3200277 as-synthesized "(Hg,Tl)2Ba2CaCu24Oz" Hg1Tl1Ba2Ca1Cu2OZ Hg 1 Tl 1 Ba 2 Ca 1 Cu 2 O Z 1999 Hg2212 K 35 35 TP8662 "high pressure synthesis(6GPa, 1273K)" "Thermoelectric power and irreversibility field of (Hg,Tl)2Ba2Can-1CunOy (n=2-5) superconductors" 1999 7 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Physica C,320(1999)277-284" 8663 PHC3200277 as-synthesized "(Hg,Tl)2Ba2Ca4Cu5Oz" Hg1Tl1Ba2Ca4Cu5OZ Hg 1 Tl 1 Ba 2 Ca 4 Cu 5 O Z 1999 Hg2245 K 90 90 TP8663 "high pressure synthesis(6GPa, 1273K)" "Thermoelectric power and irreversibility field of (Hg,Tl)2Ba2Can-1CunOy (n=2-5) superconductors" 1999 7 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Physica C,320(1999)277-284" 8664 PHC3190181 "La3(La,Ba)Ba3Cu3Oz" La3.5Ba3.5Cu7O16.415 La 3.5 Ba 3.5 Cu 7 O Z 16.415 1 1999 2 3137 3.91 11.684 K 0 0 "La2O3, Y2O3, BaCO3, CuO, CaCO3" 1 "CAL(950C,24H)-pellet-SIN(940-960C,12H in N2+O2 gas)-ANN(500C,12H,in O2 flow)-RT(1C/min)" Structural studies of the superconducting La3.5-x-yYyCa2xBa3.5-xCu7Oz system 1999 6 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physia C,319(1999)181-188" 8665 PHC3190181 "La3(La,Y,Ca,Ba)ba3Cu7Oz" La3.1Y0.2Ca0.4Ba3.3Cu7O16.529 La 3.1 Y 0.2 Ca 0.4 Ba 3.3 Cu 7 O Z 16.529 1 1999 2 3137 3.894 11.659 K 55 55 "La2O3, Y2O3, BaCO3, CuO, CaCO3" 1 "CAL(950C,24H)-pellet-SIN(940-960C,12H in N2+O2 gas)-ANN(500C,12H,in O2 flow)-RT(1C/min)" Structural studies of the superconducting La3.5-x-yYyCa2xBa3.5-xCu7Oz system 1999 6 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physia C,319(1999)181-188" 8666 PHC3190181 "La3(La,Y,Ca,Ba)ba3Cu7Oz" La5.8Y0.4Ca0.8Ba3.1Cu7O16.548 La 5.8 Y 0.4 Ca 0.8 Ba 3.1 Cu 7 O Z 16.548 1 1999 2 3137 3.873 11.623 K 74 74 "La2O3, Y2O3, BaCO3, CuO, CaCO3" 1 "CAL(950C,24H)-pellet-SIN(940-960C,12H in N2+O2 gas)-ANN(500C,12H,in O2 flow)-RT(1C/min)" Structural studies of the superconducting La3.5-x-yYyCa2xBa3.5-xCu7Oz system 1999 6 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physia C,319(1999)181-188" 8667 PHC3190181 "La3(La,Y,Ca,Ba)ba3Cu7Oz" La2.5Y0.5Ca1Ba3Cu7O16.552 La 2.5 Y 0.5 Ca 1 Ba 3 Cu 7 O Z 16.552 1 1999 2 3137 3.862 11.601 K 80 80 "La2O3, Y2O3, BaCO3, CuO, CaCO3" 1 "CAL(950C,24H)-pellet-SIN(940-960C,12H in N2+O2 gas)-ANN(500C,12H,in O2 flow)-RT(1C/min)" Structural studies of the superconducting La3.5-x-yYyCa2xBa3.5-xCu7Oz system 1999 6 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physia C,319(1999)181-188" 8668 PHC3190181 "La3(La,Y,Ca,Ba)ba3Cu7Oz" La2.1Y0.7Ca1.4Ba2.8Cu7O16.433 La 2.1 Y 0.7 Ca 1.4 Ba 2.8 Cu 7 O Z 16.433 1 1999 2 3137 3.839 11.493 K 79 79 "La2O3, Y2O3, BaCO3, CuO, CaCO3" 1 "CAL(950C,24H)-pellet-SIN(940-960C,12H in N2+O2 gas)-ANN(500C,12H,in O2 flow)-RT(1C/min)" Structural studies of the superconducting La3.5-x-yYyCa2xBa3.5-xCu7Oz system 1999 6 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physia C,319(1999)181-188" 8669 PHC3190209 "(Hg,Bi)Sr2Ca2Cu3Oz" Hg0.8Bi0.2Sr2Ca2Cu3O8.35 Hg 0.8 Bi 0.2 Sr 2 Ca 2 Cu 3 O 8.35 8.35 1 1999 2 Hg1223 3.8067 15.2993 K 102 102 14 "precursor(SrCuO2, Ca2CuO3)-mixed with HgO, Bi2O3-Au capsule-high pressure synthesis(6GPa,1000C)" High-prssure synthesis and heat treatments of (Hg1-xBix)Sr2Ca2Cu3Oy 1999 6 "Superconductivity Research Laboratory, ISTEC, 10-13, Shinpnpme 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "Physia C,319(1999)209-218" 8670 PHC3190209 "(Hg,Bi)Sr2Ca2Cu3Oz" Hg0.7Bi0.3Sr2Ca2Cu3O8.35 Hg 0.7 Bi 0.3 Sr 2 Ca 2 Cu 3 O 8.35 8.35 1 1999 2 Hg1223 3.8185 15.2911 K 107 107 43 "precursor(SrCuO2, Ca2CuO3)-mixed with HgO, Bi2O3-Au capsule-high pressure synthesis(6GPa,1000C)" High-prssure synthesis and heat treatments of (Hg1-xBix)Sr2Ca2Cu3Oy 1999 6 "Superconductivity Research Laboratory, ISTEC, 10-13, Shinpnpme 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "Physia C,319(1999)209-218" 8671 PHC3190209 "(Hg,Bi)Sr2Ca2Cu3Oz" Hg0.5Bi0.5Sr2Ca2Cu3O8.35 Hg 0.5 Bi 0.5 Sr 2 Ca 2 Cu 3 O 8.35 8.35 1 1999 2 Hg1223 3.826 15.2534 K 107 107 33 "precursor(SrCuO2, Ca2CuO3)-mixed with HgO, Bi2O3-Au capsule-high pressure synthesis(6GPa,1000C)" High-prssure synthesis and heat treatments of (Hg1-xBix)Sr2Ca2Cu3Oy 1999 6 "Superconductivity Research Laboratory, ISTEC, 10-13, Shinpnpme 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "Physia C,319(1999)209-218" 8672 PHC3190209 "(Hg,Bi)Sr2Ca2Cu3Oz" Hg0.7Bi0.3Sr2Ca2Cu3O8.15 Hg 0.7 Bi 0.3 Sr 2 Ca 2 Cu 3 O Z 8.15 1999 Hg1223 K 108 108 "precursor(SrCuO2, Ca2CuO3)-mixed with HgO, Bi2O3-Au capsule-high pressure synthesis(6GPa,1000C)" High-prssure synthesis and heat treatments of (Hg1-xBix)Sr2Ca2Cu3Oy 1999 6 "Superconductivity Research Laboratory, ISTEC, 10-13, Shinpnpme 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "Physia C,319(1999)209-218" 8673 PHC3190209 "(Hg,Bi)Sr2Ca2Cu3Oz" Hg0.7Bi0.3Sr2Ca2Cu3O8.65 Hg 0.7 Bi 0.3 Sr 2 Ca 2 Cu 3 O Z 8.65 1999 Hg1223 K 104 104 "precursor(SrCuO2, Ca2CuO3)-mixed with HgO, Bi2O3-Au capsule-high pressure synthesis(6GPa,1000C)" High-prssure synthesis and heat treatments of (Hg1-xBix)Sr2Ca2Cu3Oy 1999 6 "Superconductivity Research Laboratory, ISTEC, 10-13, Shinpnpme 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "Physia C,319(1999)209-218" 8674 PHC3190209 annealed at 400C in Ar "(Hg,Bi)Sr2Ca2Cu3Oz" Hg0.7Bi0.3Sr2Ca2Cu3O8.15 Hg 0.7 Bi 0.3 Sr 2 Ca 2 Cu 3 O Z 8.15 1999 Hg1223 K 112 112 "precursor(SrCuO2, Ca2CuO3)-mixed with HgO, Bi2O3-Au capsule-high pressure synthesis(6GPa,1000C)" High-prssure synthesis and heat treatments of (Hg1-xBix)Sr2Ca2Cu3Oy 1999 6 "Superconductivity Research Laboratory, ISTEC, 10-13, Shinpnpme 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "Physia C,319(1999)209-218" 8675 PHC3160113 NdBaCaCu3O7 Nd1Ba1Ca1Cu3O7 Nd 1 Ba 1 Ca 1 Cu 3 O 7 1 1999 2 1113 3.866 11.6237 K 37 37 "Nd2O3, Pr6O11, BaCO3, CaCO3, CuO" 1 "CAL(975C,40H)-SIN(980C,24H in O2 flow)" Suppression of superconductivity with Pr substitution in Nd1-xPrxBaCaCuO7 system 1999 5 "Instituto de Fisica 'Gleb Wataghin', UNICAMP, 13083-970, Campinas, SP, Brazil" "Physica C,316(1999)113-118" 8676 PHC3160113 "(Nd,Pr)BaCaCu3O7" Nd0.9Pr0.1Ba1Ca1Cu3O7 Nd 0.9 Pr 0.1 Ba 1 Ca 1 Cu 3 O 7 1 1999 1113 K 35 35 "Nd2O3, Pr6O11, BaCO3, CaCO3, CuO" 1 "CAL(975C,40H)-SIN(980C,24H in O2 flow)" Suppression of superconductivity with Pr substitution in Nd1-xPrxBaCaCuO7 system 1999 5 "Instituto de Fisica 'Gleb Wataghin', UNICAMP, 13083-970, Campinas, SP, Brazil" "Physica C,316(1999)113-118" 8677 PHC3160113 "(Nd,Pr)BaCaCu3O7" Nd0.75Pr0.25Ba1Ca1Cu3O7 Nd 0.75 Pr 0.25 Ba 1 Ca 1 Cu 3 O 7 1 1999 1113 K 26 26 "Nd2O3, Pr6O11, BaCO3, CaCO3, CuO" 1 "CAL(975C,40H)-SIN(980C,24H in O2 flow)" Suppression of superconductivity with Pr substitution in Nd1-xPrxBaCaCuO7 system 1999 5 "Instituto de Fisica 'Gleb Wataghin', UNICAMP, 13083-970, Campinas, SP, Brazil" "Physica C,316(1999)113-118" 8678 PHC3160113 "(Nd,Pr)BaCaCu3O7" Nd0.65Pr0.35Ba1Ca1Cu3O7 Nd 0.65 Pr 0.35 Ba 1 Ca 1 Cu 3 O 7 1 1999 1113 K 10 10 "Nd2O3, Pr6O11, BaCO3, CaCO3, CuO" 1 "CAL(975C,40H)-SIN(980C,24H in O2 flow)" Suppression of superconductivity with Pr substitution in Nd1-xPrxBaCaCuO7 system 1999 5 "Instituto de Fisica 'Gleb Wataghin', UNICAMP, 13083-970, Campinas, SP, Brazil" "Physica C,316(1999)113-118" 8679 PHC3160113 "(Nd,Pr)BaCaCu3O7" Nd0.5Pr0.5Ba1Ca1Cu3O7 Nd 0.5 Pr 0.5 Ba 1 Ca 1 Cu 3 O 7 1 1999 1113 K 5 "Nd2O3, Pr6O11, BaCO3, CaCO3, CuO" 1 "CAL(975C,40H)-SIN(980C,24H in O2 flow)" Suppression of superconductivity with Pr substitution in Nd1-xPrxBaCaCuO7 system 1999 5 "Instituto de Fisica 'Gleb Wataghin', UNICAMP, 13083-970, Campinas, SP, Brazil" "Physica C,316(1999)113-118" 8680 PHC3160021 YBa2Cu3Oz Y1Ba2Cu3O6.41 Y 1 Ba 2 Cu 3 O Z 6.41 3 1999 Y123 K 10.1 10.1 6.2 Pressure dependence of Tc in strongly underdoped YBa2Cu3O6.41 as a function of pressure-temperature history 1999 5 "Department of aPhysics, Washington University, C.B. 1105, One Brookings Drive, St. Louis, MO 63130 USA" "Physica C,316(1999)21-26" 8681 PHC3120061 "(La,K)2CuO4" La1.86K0.14Cu1O3.97 La 1.86 K 0.14 Cu 1 O 4-Z 3.97 1 1999 2 T 14/mmm 3.7683 13.259 K 33 33 "La2O3:CuO=0.9:1, with excess KOH, heat(390-720C)" "Correlation between synthesis, stoichiometry, structure and superconductivity of La2-xKxCuO4-delta" 1999 1 "Technische Universitat Berlin, Institut fur Anorganische und Analytische Chemie, Strasse des 17. Juni 135, D-10623 Berlin, Germany" "Physica.C,312(1998)61-70" 8682 PHC3120289 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 1 1999 Bi2212 K 82 82 1.27 TP8682 1.56 "mixture-CAL(800C,24H)-Q to RT-pellet-heat(880C,20min)-Q to RT-heat(830C, 24H)-Q to RT" Thermoelectric power of the Bi2Sr2Ca1-xTbxCu2Oy system 1999 2 "School of Physics, University of Hyderabad, Central University PO, Hyderabad-500 046, India" "Physica.C,312(1998)289-298" 8683 PHC3120289 "Bi2Sr2(Ca,Tb)Cu2O8" Bi2Sr2Ca0.9Tb0.1Cu2OZ Bi 2 Sr 2 Ca 0.9 Tb 0.1 Cu 2 O Z 1 1999 Bi2212 K 92 92 1.55 TP8683 3.22 "mixture-CAL(800C,24H)-Q to RT-pellet-heat(880C,20min)-Q to RT-heat(830C, 24H)-Q to RT" Thermoelectric power of the Bi2Sr2Ca1-xTbxCu2Oy system 1999 2 "School of Physics, University of Hyderabad, Central University PO, Hyderabad-500 046, India" "Physica.C,312(1998)289-298" 8684 PHC3120289 "Bi2Sr2(Ca,Tb)Cu2O8" Bi2Sr2Ca0.8Tb0.2Cu2Oz Bi 2 Sr 2 Ca 0.8 Tb 0.2 Cu 2 O z 1 1999 Bi2212 K 83 83 3.11 TP8684 9.27 "mixture-CAL(800C,24H)-Q to RT-pellet-heat(880C,20min)-Q to RT-heat(830C, 24H)-Q to RT" Thermoelectric power of the Bi2Sr2Ca1-xTbxCu2Oy system 1999 2 "School of Physics, University of Hyderabad, Central University PO, Hyderabad-500 046, India" "Physica.C,312(1998)289-298" 8685 PHC3120289 "Bi2Sr2(Ca,Tb)Cu2O8" Bi2Sr2Ca0.6Tb0.4Cu2Oz Bi 2 Sr 2 Ca 0.6 Tb 0.4 Cu 2 O z 1 1999 Bi2212 K 33 33 10.8 TP8685 11.25 "mixture-CAL(800C,24H)-Q to RT-pellet-heat(880C,20min)-Q to RT-heat(830C, 24H)-Q to RT" Thermoelectric power of the Bi2Sr2Ca1-xTbxCu2Oy system 1999 2 "School of Physics, University of Hyderabad, Central University PO, Hyderabad-500 046, India" "Physica.C,312(1998)289-298" 8686 PHC3120289 semiconductor "Bi2Sr2(Ca,Tb)Cu2O8" Bi2Sr2Ca0.5Tb0.5Cu2Oz Bi 2 Sr 2 Ca 0.5 Tb 0.5 Cu 2 O z 1 1999 Bi2212 K 5 33.7 TP8686 "mixture-CAL(800C,24H)-Q to RT-pellet-heat(880C,20min)-Q to RT-heat(830C, 24H)-Q to RT" Thermoelectric power of the Bi2Sr2Ca1-xTbxCu2Oy system 1999 2 "School of Physics, University of Hyderabad, Central University PO, Hyderabad-500 046, India" "Physica.C,312(1998)289-298" 8687 PHC3120289 semiconductor "Bi2Sr2(Ca,Tb)Cu2O8" Bi2Sr2Ca0.4Tb0.6Cu2Oz Bi 2 Sr 2 Ca 0.4 Tb 0.6 Cu 2 O z 1 1999 Bi2212 K 42.5 TP8687 "mixture-CAL(800C,24H)-Q to RT-pellet-heat(880C,20min)-Q to RT-heat(830C, 24H)-Q to RT" Thermoelectric power of the Bi2Sr2Ca1-xTbxCu2Oy system 1999 2 "School of Physics, University of Hyderabad, Central University PO, Hyderabad-500 046, India" "Physica.C,312(1998)289-298" 8688 PHC3150215 YBa2Cu3O7 Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 1 1999 3 Y123 3.8193 3.884 11.681 K 91 91.8 1.2 91.8 16.2 "Y2O3, La2O3, BaCO3, CuO" 1 "mixture-CAL(950C,16H in air)-SIN(950C,16H in air)-ANN(450C,16H in flowing O2)" The influence of La substitution for Ba in YBa2Cu3Oy cuprates 1999 4 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,315(1999)215-222" 8689 PHC3150215 "Y(Ba,La)2Cu3O7" Y1Ba1.95La0.05Cu3OZ Y 1 Ba 1.95 La 0.05 Cu 3 O Z 1 1999 3 Y123 3.8185 3.8837 11.6767 K 91 82.2 1.7 82.2 8.64 "Y2O3, La2O3, BaCO3, CuO" 1 "mixture-CAL(950C,16H in air)-SIN(950C,16H in air)-ANN(450C,16H in flowing O2)" The influence of La substitution for Ba in YBa2Cu3Oy cuprates 1999 4 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,315(1999)215-222" 8690 PHC3150215 "Y(Ba,La)2Cu3O7" Y1Ba1.9La0.1Cu3OZ Y 1 Ba 1.9 La 0.1 Cu 3 O Z 1 1999 3 Y123 3.8181 3.8858 11.6654 K 89.3 91 2.5 91 2.64 "Y2O3, La2O3, BaCO3, CuO" 1 "mixture-CAL(950C,16H in air)-SIN(950C,16H in air)-ANN(450C,16H in flowing O2)" The influence of La substitution for Ba in YBa2Cu3Oy cuprates 1999 4 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,315(1999)215-222" 8691 PHC3150215 "Y(Ba,La)2Cu3O7" Y1Ba1.85La0.15Cu3OZ Y 1 Ba 1.85 La 0.15 Cu 3 O Z 1 1999 3 Y123 3.8189 3.8837 11.6612 K 89.2 89.7 1.3 89.7 9.12 "Y2O3, La2O3, BaCO3, CuO" 1 "mixture-CAL(950C,16H in air)-SIN(950C,16H in air)-ANN(450C,16H in flowing O2)" The influence of La substitution for Ba in YBa2Cu3Oy cuprates 1999 4 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,315(1999)215-222" 8692 PHC3150215 "Y(Ba,La)2Cu3O7" Y1Ba1.8La0.2Cu3OZ Y 1 Ba 1.8 La 0.2 Cu 3 O Z 1 1999 3 Y123 3.8221 3.8851 11.6426 K 86.8 89.2 5 89.2 8 "Y2O3, La2O3, BaCO3, CuO" 1 "mixture-CAL(950C,16H in air)-SIN(950C,16H in air)-ANN(450C,16H in flowing O2)" The influence of La substitution for Ba in YBa2Cu3Oy cuprates 1999 4 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,315(1999)215-222" 8693 PHC3150215 "Y(Ba,La)2Cu3O7" Y1Ba1.75La0.25Cu3OZ Y 1 Ba 1.75 La 0.25 Cu 3 O Z 1 1999 3 Y123 3.8245 3.8807 11.6324 K 83.7 88.5 8.8 88.5 5.52 "Y2O3, La2O3, BaCO3, CuO" 1 "mixture-CAL(950C,16H in air)-SIN(950C,16H in air)-ANN(450C,16H in flowing O2)" The influence of La substitution for Ba in YBa2Cu3Oy cuprates 1999 4 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,315(1999)215-222" 8694 PHC3150215 "Y(Ba,La)2Cu3O7" Y1Ba1.7La0.3Cu3OZ Y 1 Ba 1.7 La 0.3 Cu 3 O Z 1 1999 3 Y123 3.8326 3.8746 11.6167 K 73 83.2 16.6 83.2 6.16 "Y2O3, La2O3, BaCO3, CuO" 1 "mixture-CAL(950C,16H in air)-SIN(950C,16H in air)-ANN(450C,16H in flowing O2)" The influence of La substitution for Ba in YBa2Cu3Oy cuprates 1999 4 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,315(1999)215-222" 8695 PHC3150215 "Y(Ba,La)2Cu3O7" Y1Ba1.6La0.4Cu3OZ Y 1 Ba 1.6 La 0.4 Cu 3 O Z 1 1999 3 Y123 3.85 3.8589 11.5958 K 41.5 55.2 27 55.2 9.84 "Y2O3, La2O3, BaCO3, CuO" 1 "mixture-CAL(950C,16H in air)-SIN(950C,16H in air)-ANN(450C,16H in flowing O2)" The influence of La substitution for Ba in YBa2Cu3Oy cuprates 1999 4 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,315(1999)215-222" 8696 PHC3150215 "Y(Ba,La)2Cu3O7" Y1Ba1.5La0.5Cu3OZ Y 1 Ba 1.5 La 0.5 Cu 3 O Z 1 1999 3 Y123 3.8554 11.568 K 22 36.8 33.2 36.8 23.8 "Y2O3, La2O3, BaCO3, CuO" 1 "mixture-CAL(950C,16H in air)-SIN(950C,16H in air)-ANN(450C,16H in flowing O2)" The influence of La substitution for Ba in YBa2Cu3Oy cuprates 1999 4 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,315(1999)215-222" 8697 PHC3150227 CaBa2Ca2Cu3O9-z Ca2Ba2Cu3O9-Z Ca 2 Ba 2 Cu 3 O 9-Z 1999 2 Ca1223 3.85 16.5 K 107 107 high-pressure synthesis. Steps were taker to minimiqe the possibility of C-contamination Observation and identification of a 107 K superconducting family in the CaBa2Ca2Cu3O9-delta system 1999 4 "Texas Center for Superconductivity at the University of Houston, TX 77204-5932, USA" "Physica C,315(1999)227-234" 8698 PHC2540131 "two step transition(110K,75K), 110K due to B1234 phase " BSr2Ca2Cu3O9 B1Sr2Ca2Cu3O9 B 1 Sr 2 Ca 2 Cu 3 O 9 1995 2 B1223 3.821 13.854 K 75 75 "SrCuO2, SrO2, Ca2CuO3, B2O3, CuO" "mixture-seal in Au capsule-high-P synthesis(1200-1300C, 1H, 6GPa)-Q to RT" "New series of oxide superconductors, BSr2Can-1CunO2n+3 (n=3-5), prepared at high pressure" 1995 11 "National Institute for Reserch in Inorganic Materials, 1-1 Namiki, Tshukuba, Ibaraki, 305, Japan" "Physica C,254(1995)131-136" "B, Sr, Ca, Cu, O" 8699 PHC2540131 "two step transition(110K,85K), 110K due to B1234 phase " BSr2Ca4Cu5O13 B1Sr2Ca4Cu5O13 B 1 Sr 2 Ca 4 Cu 5 O 13 1995 B1245 3.837 20.22 K 85 85 "SrCuO2, SrO2, Ca2CuO3, B2O3, CuO" "mixture-seal in Au capsule-high-P synthesis(1200-1300C, 1H, 6GPa)-Q to RT" "New series of oxide superconductors, BSr2Can-1CunO2n+3 (n=3-5), prepared at high pressure" 1995 11 "National Institute for Reserch in Inorganic Materials, 1-1 Namiki, Tshukuba, Ibaraki, 305, Japan" "Physica C,254(1995)131-136" "B, Sr, Ca, Cu, O" 8700 PHC2410137 BSr2Ca3CuO11 B1Sr2Ca3Cu4O11 B 1 Sr 2 Ca 3 Cu 4 O 11 1995 2 B1234 3.8359 17.082 K 110 110 "SrCuO2, Ca2CuO3, SrO2, CuO, B2O3" "mixture-seal in Au capsule-high pressure synthesis(1200, 1H, 6GPa)" "New oxyborate superconductor,BSr2Ca3Cu4O11(Tc=110K) prepared at high pressure" 1995 1 "National Instiute for Research in Inorganic Materials(NIRIM),1-1 Namiki,Tsukuba,Ibaraki,305 Japan" "Physica C.,241(1995)137-141" "B,Sr,Ca,Cu,O" 8701 PHC2240069 "(Cu,C)Ba2Ca2Cu3O9" Cu0.5C0.5Ba2Ca2Cu3O9 Cu 0.5 C 0.5 Ba 2 Ca 2 Cu 3 O 9 1994 2 CuC1223 3.859 14.766 K 67 67 "precursor(Ba2CaCu2O5)+CaCuO3+Ag2O-seal in Au capsule-high pressure synthesis(1200C, 1H 5GPa)" "New oxycarbonate superconductors (Cu0.5C0.5)Ba2Can-1CunO2n+3 (n=3,4) prepared at high pressure" 1994 "Physica C, 224(1994)69-74" "Cu,C,Ba,Ca,O" 8702 PHC2240069 "(Cu,C)Ba2Ca3Cu4O11" Cu0.5C0.5Ba2Ca3Cu4O11 Cu 0.5 C 0.5 Ba 2 Ca 3 Cu 4 O 11 1994 2 CuC1224 3.855 17.93 K 117 117 "precursor(Ba2CaCu2O5)+CaCuO3+Ag2O-seal in Au capsule-high pressure synthesis(1200C, 1H 5GPa)" "New oxycarbonate superconductors (Cu0.5C0.5)Ba2Can-1CunO2n+3 (n=3,4) prepared at high pressure" 1994 "Physica C, 224(1994)69-74" "Cu,C,Ba,Ca,O" 8703 PHC2880185 CCa2CaCu2O7 C1Ca3Cu2O7.1 C 1 Ca 3 Cu 2 O 7+Z 7.1 1997 C1212 3.842 10.336 K 25 50 47 47 "CuO, CaCO3, Ca2CuO3, CaO2" "mixture-seal in Au capsule-high pressure synthesis(1275, 1H, 6GPa)" High-pressure synthesis of a new oxycarbonate superconductor CCa3Cu2O7+Delta 1997 9 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Physica C,288(1997)185-189" 8704 PHC2880185 not s/c CCa2CaCu2O7 C1Ca3Cu2O7 C 1 Ca 3 Cu 2 O 7+Z 7 1997 K 4.2 "CuO, CaCO3, Ca2CuO3, CaO2" "mixture-seal in Au capsule-high pressure synthesis(1275, 1H, 6GPa)" High-pressure synthesis of a new oxycarbonate superconductor CCa3Cu2O7+Delta 1997 9 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Physica C,288(1997)185-189" 8705 PHC2880185 not s/c CCa2CaCu2O7 C1Ca3Cu2O7.2 C 1 Ca 3 Cu 2 O 7+Z 7.2 1997 K 4.2 "CuO, CaCO3, Ca2CuO3, CaO2" "mixture-seal in Au capsule-high pressure synthesis(1275, 1H, 6GPa)" High-pressure synthesis of a new oxycarbonate superconductor CCa3Cu2O7+Delta 1997 9 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Physica C,288(1997)185-189" 8706 PHC2880185 "(Cu,C)Ca2CaCu2Oz" Cu0.25C0.75Ca3Cu2O6.85 Cu 0.25 C 0.75 Ca 3 Cu 2 O Z 6.85 1997 C1212 K 47 47 "CuO, CaCO3, Ca2CuO3, CaO2" "mixture-seal in Au capsule-high pressure synthesis(1275, 1H, 6GPa)" High-pressure synthesis of a new oxycarbonate superconductor CCa3Cu2O7+Delta 1997 9 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Physica C,288(1997)185-189" 8707 PHC2880185 "(Cu,C)Ca2CaCu2Oz" Cu0.5C0.5Ca3Cu2O6.6 Cu 0.5 C 0.5 Ca 3 Cu 2 O Z 6.6 1997 C1212 K 57 57 "CuO, CaCO3, Ca2CuO3, CaO2" "mixture-seal in Au capsule-high pressure synthesis(1275, 1H, 6GPa)" High-pressure synthesis of a new oxycarbonate superconductor CCa3Cu2O7+Delta 1997 9 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Physica C,288(1997)185-189" 8708 PHC2880185 not s/c volume faction=nearly zero "(Cu,C)Ca2CaCu2Oz" Cu0.75C0.25Ca3Cu2O6.5 Cu 0.75 C 0.25 Ca 3 Cu 2 O Z 6.5 1997 C1212 K "CuO, CaCO3, Ca2CuO3, CaO2" "mixture-seal in Au capsule-high pressure synthesis(1275, 1H, 6GPa)" High-pressure synthesis of a new oxycarbonate superconductor CCa3Cu2O7+Delta 1997 9 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Physica C,288(1997)185-189" 8709 PHC2740048 "(Ge,Cu)Sr2(Ca,Y)3Cu4O11" Ge0.3Cu0.7Sr2Ca2.9Y0.1Cu4O11.1 Ge 0.3 Cu 0.7 Sr 2 Ca 2.9 Y 0.1 Cu 4 O 11.1 2 1997 2 M1234 3.8411 17.733 K 89 89 high pressure synthesis "New high-Tc superconductors(GezCu1-z)Sr2Can-1-xYxCunOy (n=4,6) prepared at high pressure" 1997 1 "National Institute for Research in Inorganic Materials(NIRIM),1-1 Namiki,Ibaraki 305, Japan" "Physica.C,274(1997)48-54" 8710 PHC2740048 "(G,Cu)Sr2Ca5Cu6Oz" Ge0.3Cu0.7Sr2Ca3Cu4O11.05 Ge 0.3 Cu 0.7 Sr 2 Ca 3 Cu 4 O 11.05 1997 M1256 3.8496 24.183 K 7 7 high pressure synthesis "New high-Tc superconductors(GezCu1-z)Sr2Can-1-xYxCunOy (n=4,6) prepared at high pressure" 1997 1 "National Institute for Research in Inorganic Materials(NIRIM),1-1 Namiki,Ibaraki 305, Japan" "Physica.C,274(1997)48-54" 8711 PHC2730072 "z=nominal, two step trasition(82K,112K),impurity=Cu1234" Cu0.5P0.5Sr2Ca2Cu3O9.25 Cu 0.5 P 0.5 Sr 2 Ca 2 Cu 3 O Z 9.25 1996 Cu1245 K 82 82 "high pressure synthesis(1250-1300C,1H,5-6 Gpa)P-source=Ca3(PO4)2" "New series of oxyphosphate superconductors (Cu0.5P0.5)Sr2(Ca,Y)n-1CunOy [(Cu,P)-12(n-1)n,n=3-6] prepared under high pressure" 1996 12 "National Institute for Research in Inorganic Materials(NIRIM),1-1 Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica.C,273(1996)72-82" 8712 PHC2730072 z=nominal Cu0.5P0.5Sr2Ca1.9Y0.1Cu3O9.3 Cu 0.5 P 0.5 Sr 2 Ca 1.9 Y 0.1 Cu 3 O Z 9.3 1996 Cu1234 K 84 84 "high pressure synthesis(1250-1300C,1H,5-6 Gpa)P-source=Ca3(PO4)2" "New series of oxyphosphate superconductors (Cu0.5P0.5)Sr2(Ca,Y)n-1CunOy [(Cu,P)-12(n-1)n,n=3-6] prepared under high pressure" 1996 12 "National Institute for Research in Inorganic Materials(NIRIM),1-1 Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica.C,273(1996)72-82" 8713 PHC2730072 z=nominal Cu0.5P0.5Sr2Ca1.8Y0.2Cu3O9.35 Cu 0.5 P 0.5 Sr 2 Ca 1.8 Y 0.2 Cu 3 O Z 9.35 1996 Cu1234 K 70 70 "high pressure synthesis(1250-1300C,1H,5-6 Gpa)P-source=Ca3(PO4)2" "New series of oxyphosphate superconductors (Cu0.5P0.5)Sr2(Ca,Y)n-1CunOy [(Cu,P)-12(n-1)n,n=3-6] prepared under high pressure" 1996 12 "National Institute for Research in Inorganic Materials(NIRIM),1-1 Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica.C,273(1996)72-82" 8714 PHC2730072 "z=nominal, two step trasition(50K,64K),impurity=Cu1223" Cu0.5P0.5Sr2Ca1.7Y0.3Cu3O9.4 Cu 0.5 P 0.5 Sr 2 Ca 1.7 Y 0.3 Cu 3 O Z 9.4 1996 Cu1212 K 50 50 "high pressure synthesis(1250-1300C,1H,5-6 Gpa)P-source=Ca3(PO4)2" "New series of oxyphosphate superconductors (Cu0.5P0.5)Sr2(Ca,Y)n-1CunOy [(Cu,P)-12(n-1)n,n=3-6] prepared under high pressure" 1996 12 "National Institute for Research in Inorganic Materials(NIRIM),1-1 Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica.C,273(1996)72-82" 8715 PHC2730072 z=nominal Cu0.5P0.5Sr2Ca1.9Y0.1Cu3O9.4 Cu 0.5 P 0.5 Sr 2 Ca 1.9 Y 0.1 Cu 3 O Z 9.4 1996 Cu1234 K 84 84 "high pressure synthesis(1250-1300C,1H,5-6 Gpa)P-source=Ca3(PO4)2" "New series of oxyphosphate superconductors (Cu0.5P0.5)Sr2(Ca,Y)n-1CunOy [(Cu,P)-12(n-1)n,n=3-6] prepared under high pressure" 1996 12 "National Institute for Research in Inorganic Materials(NIRIM),1-1 Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica.C,273(1996)72-82" 8716 PHC2730072 z=nominal "(Cu,P)Sr2(Ca,Y)2Cu3Oz" Cu0.5P0.5Sr2Ca1.8Y0.2Cu3O9.25 Cu 0.5 P 0.5 Sr 2 Ca 1.8 Y 0.2 Cu 3 O Z 9.25 1996 Cu1223 K 72 72 "high pressure synthesis(1250-1300C,1H,5-6 Gpa)P-source=Ca3(PO4)2" "New series of oxyphosphate superconductors (Cu0.5P0.5)Sr2(Ca,Y)n-1CunOy [(Cu,P)-12(n-1)n,n=3-6] prepared under high pressure" 1996 12 "National Institute for Research in Inorganic Materials(NIRIM),1-1 Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica.C,273(1996)72-82" 8717 PHC2730072 z=nominal value "(Cu,P)Sr2(Ca,Y)2Cu3Oz" Cu0.5P0.5Sr2Ca1.8Y0.2Cu3O9.45 Cu 0.5 P 0.5 Sr 2 Ca 1.8 Y 0.2 Cu 3 O Z 9.45 1996 Cu1223 K 74 74 "high pressure synthesis(1250-1300C,1H,5-6 Gpa)P-source=Ca3(PO4)2" "New series of oxyphosphate superconductors (Cu0.5P0.5)Sr2(Ca,Y)n-1CunOy [(Cu,P)-12(n-1)n,n=3-6] prepared under high pressure" 1996 12 "National Institute for Research in Inorganic Materials(NIRIM),1-1 Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica.C,273(1996)72-82" 8718 PHC2730072 z=nominal value "(Cu,P)Sr2(Ca,Y)2Cu3Oz" Cu0.5P0.5Sr2Ca1.8Y0.2Cu3O9.55 Cu 0.5 P 0.5 Sr 2 Ca 1.8 Y 0.2 Cu 3 O Z 9.55 1996 Cu1223 K 80 80 "high pressure synthesis(1250-1300C,1H,5-6 Gpa)P-source=Ca3(PO4)2" "New series of oxyphosphate superconductors (Cu0.5P0.5)Sr2(Ca,Y)n-1CunOy [(Cu,P)-12(n-1)n,n=3-6] prepared under high pressure" 1996 12 "National Institute for Research in Inorganic Materials(NIRIM),1-1 Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica.C,273(1996)72-82" 8719 PHC2730072 z=nominal value "(Cu,P)Sr2(Ca,Y)2Cu3Oz" Cu0.5P0.5Sr2Ca1.8Y0.2Cu3O9.25 Cu 0.5 P 0.5 Sr 2 Ca 1.8 Y 0.2 Cu 3 O Z 9.25 1996 Cu1223 K 68 68 "high pressure synthesis(1250-1300C,1H,5-6 Gpa)P-source=Ca2P2O7" "New series of oxyphosphate superconductors (Cu0.5P0.5)Sr2(Ca,Y)n-1CunOy [(Cu,P)-12(n-1)n,n=3-6] prepared under high pressure" 1996 12 "National Institute for Research in Inorganic Materials(NIRIM),1-1 Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica.C,273(1996)72-82" 8720 PHC2730072 z=nominal value "(Cu,P)Sr2(Ca,Y)2Cu3Oz" Cu0.5P0.5Sr2Ca1.8Y0.2Cu3O9.35 Cu 0.5 P 0.5 Sr 2 Ca 1.8 Y 0.2 Cu 3 O Z 9.35 1996 Cu1223 K 72 72 "high pressure synthesis(1250-1300C,1H,5-6 Gpa)P-source=Ca2P2O7" "New series of oxyphosphate superconductors (Cu0.5P0.5)Sr2(Ca,Y)n-1CunOy [(Cu,P)-12(n-1)n,n=3-6] prepared under high pressure" 1996 12 "National Institute for Research in Inorganic Materials(NIRIM),1-1 Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica.C,273(1996)72-82" 8721 PHC2730072 z=nominal value "(Cu,P)Sr2(Ca,Y)2Cu3Oz" Cu0.5P0.5Sr2Ca1.8Y0.2Cu3O9.45 Cu 0.5 P 0.5 Sr 2 Ca 1.8 Y 0.2 Cu 3 O Z 9.45 1996 Cu1223 K 76 76 "high pressure synthesis(1250-1300C,1H,5-6 Gpa)P-source=Ca2P2O7" "New series of oxyphosphate superconductors (Cu0.5P0.5)Sr2(Ca,Y)n-1CunOy [(Cu,P)-12(n-1)n,n=3-6] prepared under high pressure" 1996 12 "National Institute for Research in Inorganic Materials(NIRIM),1-1 Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica.C,273(1996)72-82" 8722 PHC2730072 z=nominal value "(Cu,P)Sr2(Ca,Y)2Cu3Oz" Cu0.5P0.5Sr2Ca1.8Y0.2Cu3O9.55 Cu 0.5 P 0.5 Sr 2 Ca 1.8 Y 0.2 Cu 3 O Z 9.55 1996 Cu1223 K 80 80 "high pressure synthesis(1250-1300C,1H,5-6 Gpa)P-source=Ca2P2O7" "New series of oxyphosphate superconductors (Cu0.5P0.5)Sr2(Ca,Y)n-1CunOy [(Cu,P)-12(n-1)n,n=3-6] prepared under high pressure" 1996 12 "National Institute for Research in Inorganic Materials(NIRIM),1-1 Namiki, Tsukuba, Ibaraki, 305 Japan" "Physica.C,273(1996)72-82" 8723 PHC1730009 La2CuO4 La2Cu1O4+Z La 2 Cu 1 O 4+Z 1 1991 T K 33 35 35 116.1 TP8723 "La2O3, CuO" "mixture-heat(950C,20H)-pellet-heat(1100C,26H)-ANN(550C,24H in O2)-slow cool" CHARACTERISTICS OF MIXED PHASE SUPERCONDUCTIVITY IN OXYGENATEDLA2CUO4+Z 1991 1 "HLH.WILLS PHYSICS LABORATORY, UNIVERSITY OF BRISTOL BS8 1TL, UK" "PHYSICA C,173(1991)9" "LA,CU,O" 8724 APJ0375535 impurity phase=5-10% B1Sr2Ca2Cu3O2N+3 B 1 Sr 2 Ca 2 Cu 3 O 2N+3 1998 B1223 K 75 75 HIR8724 JC8724 "high pressure synthesis(1250C,6GPa)" "Anisotropy in Magnetic Hysteresis of BSr2Can-1CunO2n+3(n=3,4,5,) superconductors" 1998 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba,Ibaraki 305-0044, Japan" Jpn.J.Appl.Phys.37(1998)5535 8725 APJ0375535 B1Sr2Ca3Cu4O2N+3 B 1 Sr 2 Ca 3 Cu 4 O 2N+3 1 1998 B1234 K 110 110 JC8725 "high pressure synthesis(1250C,6GPa)" "Anisotropy in Magnetic Hysteresis of BSr2Can-1CunO2n+3(n=3,4,5,) superconductors" 1998 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba,Ibaraki 305-0044, Japan" Jpn.J.Appl.Phys.37(1998)5535 8726 APJ0375535 B1Sr2Ca4Cu5O2N+3 B 1 Sr 2 Ca 4 Cu 5 O 2N+3 1 1998 B1245 K 85 85 JC8726 "high pressure synthesis(1250C,6GPa)" "Anisotropy in Magnetic Hysteresis of BSr2Can-1CunO2n+3(n=3,4,5,) superconductors" 1998 "National Institute for Research in Inorganic Materials(NIRIM), 1-1 Namiki, Tsukuba,Ibaraki 305-0044, Japan" Jpn.J.Appl.Phys.37(1998)5535 8727 PR05400572 not s/c La2CuO4 La2Cu1O4.02 La 2 Cu 1 O 4+Z 4.02 1996 250 T K polycrystalline La2CuO4+z were prepared by electrochemically oxidizing. Phase separasion and oxygen diffusion in electrochemically oxidized La2CuO4+: A static magnetic susceptibility study 1996 7 "Center for Materials Science and Engineering, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139" "Phys.Rev.B,54(1996)572" 8728 PR05400572 "phase separation,z=4.06 phase is superconducting at 34K" La2CuO4 La2Cu1O4.03 La 2 Cu 1 O 4+Z 4.03 1996 250 T K 34 34 polycrystalline La2CuO4+z were prepared by electrochemically oxidizing. Phase separasion and oxygen diffusion in electrochemically oxidized La2CuO4+: A static magnetic susceptibility study 1996 7 "Center for Materials Science and Engineering, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139" "Phys.Rev.B,54(1996)572" 8729 PR05400572 "phase separation,z=4.06 phase is superconducting at 34K" La2CuO4 La2Cu1O4.044 La 2 Cu 1 O 4+Z 4.044 1996 240 T K 34 34 polycrystalline La2CuO4+z were prepared by electrochemically oxidizing. Phase separasion and oxygen diffusion in electrochemically oxidized La2CuO4+: A static magnetic susceptibility study 1996 7 "Center for Materials Science and Engineering, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139" "Phys.Rev.B,54(1996)572" 8730 PR05400572 nearly one phase(Tc=34K) La2CuO4 La2Cu1O4.065 La 2 Cu 1 O 4+Z 4.065 1996 T K 34 34 polycrystalline La2CuO4+z were prepared by electrochemically oxidizing. Phase separasion and oxygen diffusion in electrochemically oxidized La2CuO4+: A static magnetic susceptibility study 1996 7 "Center for Materials Science and Engineering, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139" "Phys.Rev.B,54(1996)572" 8731 PR05400572 high Tc phase La2CuO4 La2Cu1O4.11 La 2 Cu 1 O 4+Z 4.11 1996 T K 42 42 polycrystalline La2CuO4+z were prepared by electrochemically oxidizing. Phase separasion and oxygen diffusion in electrochemically oxidized La2CuO4+: A static magnetic susceptibility study 1996 7 "Center for Materials Science and Engineering, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139" "Phys.Rev.B,54(1996)572" 8732 PR0414062 phase separation temperatre=280K La2CuO4 La2Cu1O4.032 La 2 Cu 1 O 4+Z 4.032 1990 T K 30 35 30 56.1 TP8732 "crystal was grown from CuO rich La2O3-CuO melt in a Pt crucible. ANN(575C,12H in 3K bar O2)-cool(100C/h)" PHASE SEPARATION IN A HIGH-PRESSURE-OXYGENATED LA2CUO4+Z CRYSTAL: EVIDENCE FROM ANISOTROPIC ELECTRONIC TRANSPORT AND MAGNETIC SUSCEPTIBILITY 1990 3 "SUSCEPTIBILITY ,RESISTIVITY ,THERMOELECTRIC POWER,SINGLE CRYSTAL ,PHASE-SEPARATION" "LOS ALAMOS NATIONAL LABORATORY, LOS ALAMOS, NEW MEXICO 87545" "PHYS.REV.B,41(1990)4062" "LA,CU,O" 8733 JJP0380283 Tox=250C. Tox is the temperature where O3 gas suply is stopped during the post-growth cooling. PbSr2CuO5+z Pb1Sr2Cu1O5+Z Pb 1 Sr 2 Cu 1 O 5+Z 4 1999 Pb1201 K 4.2 films were grown by MBE. Substrate=LaAlO3(001) New Superconducting PbSr2CuO5+delta Prepared by a Novel Low-Temperature Synthetic Route Using Molecular Beam Epitaxy 1999 9 "NTT Basic Research Laboratories, 3-1 Wakamiya, Morinosato, Atsugi-shi, Kanagawa 243-0198, Japan" Jpn.J.Appl.Phys.Lett.38(1999)L283-L285 8734 JJP0380283 Tox=325C. Tox is the temperature where O3 gas suply is stopped during the post-growth cooling. PbSr2CuO5+z Pb1Sr2Cu1O5+Z Pb 1 Sr 2 Cu 1 O 5+Z 4 1999 Pb1201 K 20 20 films were grown by MBE. Substrate=LaAlO3(001) New Superconducting PbSr2CuO5+delta Prepared by a Novel Low-Temperature Synthetic Route Using Molecular Beam Epitaxy 1999 9 "NTT Basic Research Laboratories, 3-1 Wakamiya, Morinosato, Atsugi-shi, Kanagawa 243-0198, Japan" Jpn.J.Appl.Phys.Lett.38(1999)L283-L285 8735 JJP0380283 Tox=480C. Tox is the temperature where O3 gas suply is stopped during the post-growth cooling. PbSr2CuO5+z Pb1Sr2Cu1O5+Z Pb 1 Sr 2 Cu 1 O 5+Z 4 1999 Pb1201 K 40 40 films were grown by MBE. Substrate=LaAlO3(001) New Superconducting PbSr2CuO5+delta Prepared by a Novel Low-Temperature Synthetic Route Using Molecular Beam Epitaxy 1999 9 "NTT Basic Research Laboratories, 3-1 Wakamiya, Morinosato, Atsugi-shi, Kanagawa 243-0198, Japan" Jpn.J.Appl.Phys.Lett.38(1999)L283-L285 8736 JJP0380283 Tox=500C. Tox is the temperature where O3 gas suply is stopped during the post-growth cooling. PbSr2CuO5+z Pb1Sr2Cu1O5+Z Pb 1 Sr 2 Cu 1 O 5+Z 4 1999 Pb1201 K 40 40 films were grown by MBE. Substrate=LaAlO3(001) New Superconducting PbSr2CuO5+delta Prepared by a Novel Low-Temperature Synthetic Route Using Molecular Beam Epitaxy 1999 9 "NTT Basic Research Laboratories, 3-1 Wakamiya, Morinosato, Atsugi-shi, Kanagawa 243-0198, Japan" Jpn.J.Appl.Phys.Lett.38(1999)L283-L285 8737 PHC3150059 YBa2Cu3O7 Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 1 1999 3.818 3.884 11.687 K 90.2 90.2 1 "mixture-CAL(950C,24H in O2flow)-SIN(950C, 24H in O2flow)- RT(1C/min)" Comparison of Tc-depression of Pr at Y- and Ba-sites in YBa2Cu3Oy 1999 4 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,315(1999)59-65" 8738 PHC3150059 "Y(Ba,Pr)2Cu3O7" Y1Ba1.95Pr0.05Cu3OZ Y 1 Ba 1.95 Pr 0.05 Cu 3 O Z 1 1999 K 88.1 88.1 1 "mixture-CAL(950C,24H in O2flow)-SIN(950C, 24H in O2flow)- RT(1C/min)" Comparison of Tc-depression of Pr at Y- and Ba-sites in YBa2Cu3Oy 1999 4 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,315(1999)59-65" 8739 PHC3150059 "Y(Ba,Pr)2Cu3O7" Y1Ba1.9Pr0.1Cu3OZ Y 1 Ba 1.9 Pr 0.1 Cu 3 O Z 1 1999 K 83.3 83.3 1 "mixture-CAL(950C,24H in O2flow)-SIN(950C, 24H in O2flow)- RT(1C/min)" Comparison of Tc-depression of Pr at Y- and Ba-sites in YBa2Cu3Oy 1999 4 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,315(1999)59-65" 8740 PHC3150059 "Y(Ba,Pr)2Cu3O7" Y1Ba1.85Pr0.15Cu3OZ Y 1 Ba 1.85 Pr 0.15 Cu 3 O Z 1 1999 3.823 3.888 11.677 K 76.1 76.1 1 "mixture-CAL(950C,24H in O2flow)-SIN(950C, 24H in O2flow)- RT(1C/min)" Comparison of Tc-depression of Pr at Y- and Ba-sites in YBa2Cu3Oy 1999 4 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,315(1999)59-65" 8741 PHC3150059 "Y(Ba,Pr)2Cu3O7" Y1Ba1.8Pr0.2Cu3OZ Y 1 Ba 1.8 Pr 0.2 Cu 3 O Z 1 1999 K 67 67 1 "mixture-CAL(950C,24H in O2flow)-SIN(950C, 24H in O2flow)- RT(1C/min)" Comparison of Tc-depression of Pr at Y- and Ba-sites in YBa2Cu3Oy 1999 4 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,315(1999)59-65" 8742 PHC3150059 "Y(Ba,Pr)2Cu3O7" Y1Ba1.75Pr0.25Cu3OZ Y 1 Ba 1.75 Pr 0.25 Cu 3 O Z 1 1999 K 51.9 51.9 1 "mixture-CAL(950C,24H in O2flow)-SIN(950C, 24H in O2flow)- RT(1C/min)" Comparison of Tc-depression of Pr at Y- and Ba-sites in YBa2Cu3Oy 1999 4 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,315(1999)59-65" 8743 PHC3130001 crystals were irradiated at RT. With 2.5 MeV/amu <84>Kr-ion. This irradiation did not influence the Tc value "(Y,Tm)Ba2Cu3O7" Y0.14Tm0.85Ba2Cu3O7 Y 0.14 Tm 0.85 Ba 2 Cu 3 O 7 1 1999 Y123 K 91 91 HIR8743 self-flux method using ZrO2:Y crucible "Critical currents, pinning forces and irreversibility fields in (YxTm1-x)Ba2Cu3O7 single crystals with columnar defects in fields up to 50T" 1999 2 "Laboratorium voor Vaste-Stoffysica en Magnetisme, Katholieke Universiteit Leuven, Celestijnenlaan 200D, B-3001, Leuven, Belgium" "Physica C,313(1999)1-10" 8744 PHC3130041 "(La,Y)3CaBa3(Cu,Fe)7Oz" La2.5Y0.5Ca1Ba3Cu7Fe7O16.574 La 2.5 Y 0.5 Ca 1 Ba 3 Cu 7 Fe 7 O Z 16.574 1999 3137 3.8628 11.6047 K 79 80 81 80 80 1 "mixture-heat (950,24H in air)-pellet-SIN(940-960C,12H in O2+Ar)-ANN(500C,12H in O2 flow-RT(1C/min)" Superconducting properties of the Fe-substituted La2.5T0.5CaBa3(Cu1-xFex)7Oz perovskite 1999 2 "Department of Physics, Saurashtra University Road, Rajkot 360 005, India" "Physica C,313(1999)41-48" 8745 PHC3130041 "(La,Y)3CaBa3(Cu,Fe)7Oz" La2.5Y0.5Ca1Ba3Cu6.86Fe0.14O16.578 La 2.5 Y 0.5 Ca 1 Ba 3 Cu 6.86 Fe 0.14 O Z 16.578 1999 3137 3.8892 11.6047 K 73 77 80 75 77 1 "mixture-heat (950,24H in air)-pellet-SIN(940-960C,12H in O2+Ar)-ANN(500C,12H in O2 flow-RT(1C/min)" Superconducting properties of the Fe-substituted La2.5T0.5CaBa3(Cu1-xFex)7Oz perovskite 1999 2 "Department of Physics, Saurashtra University Road, Rajkot 360 005, India" "Physica C,313(1999)41-48" 8746 PHC3130041 "(La,Y)3CaBa3(Cu,Fe)7Oz" La2.5Y0.5Ca1Ba3Cu6.72Fe0.28O16.592 La 2.5 Y 0.5 Ca 1 Ba 3 Cu 6.72 Fe 0.28 O Z 16.592 1999 3137 3.8815 11.6281 K 66 70 74 67.5 70 1 "mixture-heat (950,24H in air)-pellet-SIN(940-960C,12H in O2+Ar)-ANN(500C,12H in O2 flow-RT(1C/min)" Superconducting properties of the Fe-substituted La2.5T0.5CaBa3(Cu1-xFex)7Oz perovskite 1999 2 "Department of Physics, Saurashtra University Road, Rajkot 360 005, India" "Physica C,313(1999)41-48" 8747 PHC3130041 "(La,Y)3CaBa3(Cu,Fe)7Oz" La2.5Y0.5Ca1Ba3Cu6.58Fe0.42O16.599 La 2.5 Y 0.5 Ca 1 Ba 3 Cu 6.58 Fe 0.42 O Z 16.599 1999 3137 3.8694 11.6047 K 62 68 73 63 68 1 "mixture-heat (950,24H in air)-pellet-SIN(940-960C,12H in O2+Ar)-ANN(500C,12H in O2 flow-RT(1C/min)" Superconducting properties of the Fe-substituted La2.5T0.5CaBa3(Cu1-xFex)7Oz perovskite 1999 2 "Department of Physics, Saurashtra University Road, Rajkot 360 005, India" "Physica C,313(1999)41-48" 8748 PHC3130041 "(La,Y)3CaBa3(Cu,Fe)7Oz" La2.5Y0.5Ca1Ba3Cu6.44Fe0.56O16.617 La 2.5 Y 0.5 Ca 1 Ba 3 Cu 6.44 Fe 0.56 O Z 16.617 1999 3137 3.8727 11.6031 K 50 58 66 50 58 Superconducting properties of the Fe-substituted La2.5T0.5CaBa3(Cu1-xFex)7Oz perovskite 1999 2 "Department of Physics, Saurashtra University Road, Rajkot 360 005, India" "Physica C,313(1999)41-48" 8749 PHC3130041 "(La,Y)3CaBa3(Cu,Fe)7Oz" La2.5Y0.5Ca1Ba3Cu6.3Fe0.7O16.627 La 2.5 Y 0.5 Ca 1 Ba 3 Cu 6.3 Fe 0.7 O Z 16.627 1999 3137 3.8694 11.6125 K 41 51 60 41 51 Superconducting properties of the Fe-substituted La2.5T0.5CaBa3(Cu1-xFex)7Oz perovskite 1999 2 "Department of Physics, Saurashtra University Road, Rajkot 360 005, India" "Physica C,313(1999)41-48" 8750 PHC3130041 "(La,Y)3CaBa3(Cu,Fe)7Oz" La2.5Y0.5Ca1Ba3Cu6.16Fe0.84O16.634 La 2.5 Y 0.5 Ca 1 Ba 3 Cu 6.16 Fe 0.84 O Z 16.634 1999 3137 K 31 41 50 31.5 41 Superconducting properties of the Fe-substituted La2.5T0.5CaBa3(Cu1-xFex)7Oz perovskite 1999 2 "Department of Physics, Saurashtra University Road, Rajkot 360 005, India" "Physica C,313(1999)41-48" 8751 PHC3130041 "(La,Y)3CaBa3(Cu,Fe)7Oz" La2.5Y0.5Ca1Ba3Cu5.95Fe1.05O16.64 La 2.5 Y 0.5 Ca 1 Ba 3 Cu 5.95 Fe 1.05 O Z 16.64 1999 3137 K 10 Superconducting properties of the Fe-substituted La2.5T0.5CaBa3(Cu1-xFex)7Oz perovskite 1999 2 "Department of Physics, Saurashtra University Road, Rajkot 360 005, India" "Physica C,313(1999)41-48" 8752 PHC3130049 "Ca(Ba,Nd)2Cu3O7" Y1Ba1.8Nd0.2Cu3OZ Y 1 Ba 1.8 Nd 0.2 Cu 3 O Z 1999 3 Y123 3.8873 3.8284 11.6748 K 89.9 90.8 1.4 90.8 1 "ANN(450C,1000 min in O2 flow)" Structure and transport properties in calcium-doped YBa1.8Nd0.2Cu3Oy cuprates 1999 2 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,313(1999)49-57" 8753 PHC3130049 "(Y,Ca)(Ba,Nd)2Cu3O7" Y0.95Ca0.05Ba1.8Nd0.2Cu3OZ Y 0.95 Ca 0.05 Ba 1.8 Nd 0.2 Cu 3 O Z 1999 3 Y123 3.8842 3.8273 11.6716 K 84.2 87 2.8 87 1 "ANN(450C,1000 min in O2 flow)" Structure and transport properties in calcium-doped YBa1.8Nd0.2Cu3Oy cuprates 1999 2 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,313(1999)49-57" 8754 PHC3130049 "(Y,Ca)(Ba,Nd)2Cu3O7" Y0.9Ca0.1Ba1.8Nd0.2Cu3OZ Y 0.9 Ca 0.1 Ba 1.8 Nd 0.2 Cu 3 O Z 1999 3 Y123 3.878 3.8314 11.6714 K 81.3 84.6 3.6 84.6 1 "ANN(450C,1000 min in O2 flow)" Structure and transport properties in calcium-doped YBa1.8Nd0.2Cu3Oy cuprates 1999 2 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,313(1999)49-57" 8755 PHC3130049 "(Y,Ca)(Ba,Nd)2Cu3O7" Y0.85Ca0.15Ba1.8Nd0.2Cu3OZ Y 0.85 Ca 0.15 Ba 1.8 Nd 0.2 Cu 3 O Z 1999 3 Y123 3.878 3.8322 11.6715 K 80.6 84.5 4.6 84.5 1 "ANN(450C,1000 min in O2 flow)" Structure and transport properties in calcium-doped YBa1.8Nd0.2Cu3Oy cuprates 1999 2 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,313(1999)49-57" 8756 PHC3130049 "(Y,Ca)(Ba,Nd)2Cu3O7" Y0.8Ca0.2Ba1.8Nd0.2Cu3OZ Y 0.8 Ca 0.2 Ba 1.8 Nd 0.2 Cu 3 O Z 1999 3 Y123 3.8817 3.8347 11.6668 K 81.3 85.8 6.4 85.8 1 "ANN(450C,1000 min in O2 flow)" Structure and transport properties in calcium-doped YBa1.8Nd0.2Cu3Oy cuprates 1999 2 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,313(1999)49-57" 8757 PHC3130049 "(Y,Ca)(Ba,Nd)2Cu3O7" Y0.75Ca0.25Ba1.8Nd0.2Cu3OZ Y 0.75 Ca 0.25 Ba 1.8 Nd 0.2 Cu 3 O Z 1999 Y123 3.8775 3.8335 11.6791 K 80.4 81.5 2.8 81.5 1 "ANN(450C,1000 min in O2 flow)" Structure and transport properties in calcium-doped YBa1.8Nd0.2Cu3Oy cuprates 1999 2 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,313(1999)49-57" 8758 PHC3130049 "(Y,Ca)(Ba,Nd)2Cu3O7" Y0.7Ca0.3Ba1.8Nd0.2Cu3OZ Y 0.7 Ca 0.3 Ba 1.8 Nd 0.2 Cu 3 O Z 1999 Y123 3.8786 3.836 11.6814 K 77.6 78.7 1 78.7 1 "ANN(450C,1000 min in O2 flow)" Structure and transport properties in calcium-doped YBa1.8Nd0.2Cu3Oy cuprates 1999 2 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,313(1999)49-57" 8759 PHC3130049 "(Y,Ca)(Ba,Nd)2Cu3O7" Y0.6Ca0.4Ba1.8Nd0.2Cu3OZ Y 0.6 Ca 0.4 Ba 1.8 Nd 0.2 Cu 3 O Z 1999 Y123 3.8783 3.8349 11.6798 K 76.8 81.5 3.6 81.5 1 "ANN(450C,1000 min in O2 flow)" Structure and transport properties in calcium-doped YBa1.8Nd0.2Cu3Oy cuprates 1999 2 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,313(1999)49-57" 8760 PHC3130049 "(Y,Ca)(Ba,Nd)2Cu3O7" Y0.5Ca0.5Ba1.8Nd0.2Cu3OZ Y 0.5 Ca 0.5 Ba 1.8 Nd 0.2 Cu 3 O Z 1999 Y123 3.8698 3.8617 11.748 K 34 34 1 "ANN(450C,1000 min in O2 flow)" Structure and transport properties in calcium-doped YBa1.8Nd0.2Cu3Oy cuprates 1999 2 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,313(1999)49-57" 8761 PHC3130079 "(Y,Ca)BaCu3O7" Y0.8Ca0.2Ba2Cu3OZ Y 0.8 Ca 0.2 Ba 2 Cu 3 O Z 1999 3 Y123 3.8801 3.8264 11.6874 K 74 74 1 "ANN(350C,25H in O2 flow)" Superconductivity and structural changes in Y0.8Ca0.2Ba2-xNdxCu3Oy cuprates with x=< 0.50 1999 2 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,313(1999)79-86" 8762 PHC3130079 "(Y,Ca)(Ba,Nd)2Cu3O7" Y0.8Ca0.2Ba1.95Nd0.05Cu3OZ Y 0.8 Ca 0.2 Ba 1.95 Nd 0.05 Cu 3 O Z 1999 3 Y123 3.8826 3.8271 11.6822 K 76 76 1 "ANN(350C,25H in O2 flow)" Superconductivity and structural changes in Y0.8Ca0.2Ba2-xNdxCu3Oy cuprates with x=< 0.50 1999 2 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,313(1999)79-86" 8763 PHC3130079 "(Y,Ca)(Ba,Nd)2Cu3O7" Y0.8Ca0.2Ba1.9Nd0.1Cu3OZ Y 0.8 Ca 0.2 Ba 1.9 Nd 0.1 Cu 3 O Z 1999 3 Y123 3.8818 3.8259 11.6804 K 79 79 1 "ANN(350C,25H in O2 flow)" Superconductivity and structural changes in Y0.8Ca0.2Ba2-xNdxCu3Oy cuprates with x=< 0.50 1999 2 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,313(1999)79-86" 8764 PHC3130079 "(Y,Ca)(Ba,Nd)2Cu3O7" Y0.8Ca0.2Ba1.85Nd0.15Cu3OZ Y 0.8 Ca 0.2 Ba 1.85 Nd 0.15 Cu 3 O Z 1999 3 Y123 3.8829 3.8259 11.68 K 83 83 1 "ANN(350C,25H in O2 flow)" Superconductivity and structural changes in Y0.8Ca0.2Ba2-xNdxCu3Oy cuprates with x=< 0.50 1999 2 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,313(1999)79-86" 8765 PHC3130079 "(Y,Ca)(Ba,Nd)2Cu3O7" Y0.8Ca0.2Ba0.8Nd0.2Cu3OZ Y 0.8 Ca 0.2 Ba 0.8 Nd 0.2 Cu 3 O Z 1999 3 Y123 3.8833 3.8253 11.6746 K 73 73 1 "ANN(350C,25H in O2 flow)" Superconductivity and structural changes in Y0.8Ca0.2Ba2-xNdxCu3Oy cuprates with x=< 0.50 1999 2 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,313(1999)79-86" 8766 PHC3130079 "(Y,Ca)(Ba,Nd)2Cu3O7" Y0.8Ca0.2Ba1.75Nd0.25Cu3OZ Y 0.8 Ca 0.2 Ba 1.75 Nd 0.25 Cu 3 O Z 1999 3 Y123 3.8803 3.826 11.6611 K 69 69 1 "ANN(350C,25H in O2 flow)" Superconductivity and structural changes in Y0.8Ca0.2Ba2-xNdxCu3Oy cuprates with x=< 0.50 1999 2 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,313(1999)79-86" 8767 PHC3130079 "(Y,Ca)(Ba,Nd)2Cu3O7" Y0.8Ca0.2Ba1.7Nd0.3Cu3OZ Y 0.8 Ca 0.2 Ba 1.7 Nd 0.3 Cu 3 O Z 1999 3 Y123 3.8789 3.8283 11.6591 K 63 63 1 "ANN(350C,25H in O2 flow)" Superconductivity and structural changes in Y0.8Ca0.2Ba2-xNdxCu3Oy cuprates with x=< 0.50 1999 2 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,313(1999)79-86" 8768 PHC3130079 "(Y,Ca)(Ba,Nd)2Cu3O7" Y0.8Ca0.2Ba1.6Nd0.4Cu3OZ Y 0.8 Ca 0.2 Ba 1.6 Nd 0.4 Cu 3 O Z 1999 3 Y123 3.8668 3.8386 11.6381 K 58 58 1 "ANN(350C,25H in O2 flow)" Superconductivity and structural changes in Y0.8Ca0.2Ba2-xNdxCu3Oy cuprates with x=< 0.50 1999 2 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,313(1999)79-86" 8769 PHC3130079 "(Y,Ca)(Ba,Nd)2Cu3O7" Y0.8Ca0.2Ba1.5Nd0.5Cu3OZ Y 0.8 Ca 0.2 Ba 1.5 Nd 0.5 Cu 3 O Z 1999 3 Y123 3.8753 3.8495 11.6156 K 32 32 1 "ANN(350C,25H in O2 flow)" Superconductivity and structural changes in Y0.8Ca0.2Ba2-xNdxCu3Oy cuprates with x=< 0.50 1999 2 "Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China" "Physica C,313(1999)79-86" 8770 PSS0411363 YBa2Cu3Oz Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O Z 6.95 1 1999 3 Y123 3.818 3.89 11.666 3 K 91 91 microV/P 0 TP8770 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8771 PSS0411363 "(Y,Ca)Ba2(Cu,Co)3Oz" Y0.95Ca0.05Ba2Cu2.95Co0.05O6.96 Y 0.95 Ca 0.05 Ba 2 Cu 2.95 Co 0.05 O Z 6.96 1 1999 3 Y123 3.83 3.89 11.668 3 K 88 88 microV/P 2 TP8771 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8772 PSS0411363 "(Y,Ca)Ba2(Cu,Co)3Oz" Y0.9Ca0.1Ba2Cu2.9Co0.1O6.95 Y 0.9 Ca 0.1 Ba 2 Cu 2.9 Co 0.1 O Z 6.95 1 1999 3 Y123 3.862 3.87 11.673 3 K 88 88 microV/P 4 TP8772 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8773 PSS0411363 "(Y,Ca)Ba2(Cu,Co)3Oz" Y0.85Ca0.15Ba2Cu2.85Co0.15O6.97 Y 0.85 Ca 0.15 Ba 2 Cu 2.85 Co 0.15 O Z 6.97 1 1999 3 Y123 3.864 3.868 11.676 3 K 86 86 microV/P 5.5 TP8773 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8774 PSS0411363 "(Y,Ca)Ba2(Cu,Co)3Oz" Y0.8Ca0.2Ba2Cu2.8Co0.2O6.98 Y 0.8 Ca 0.2 Ba 2 Cu 2.8 Co 0.2 O Z 6.98 1 1999 2 Y123 3.865 11.695 3 K 82.5 82.5 microV/P 5.5 TP8774 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8775 PSS0411363 "(Y,Ca)Ba2(Cu,Co)3Oz" Y0.75Ca0.25Ba2Cu2.75Co0.25O7 Y 0.75 Ca 0.25 Ba 2 Cu 2.75 Co 0.25 O Z 7 1 1999 2 Y123 3.867 11.689 3 K 82.5 82.5 microV/P 5.5 TP8775 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8776 PSS0411363 "(Y,Ca)Ba2(Cu,Co)3Oz" Y0.7Ca0.3Ba2Cu2.7Co0.3O7.02 Y 0.7 Ca 0.3 Ba 2 Cu 2.7 Co 0.3 O Z 7.02 1 1999 2 Y123 3.866 11.698 3 K 82 82 microV/P 5.5 TP8776 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8777 PSS0411363 YBa2Cu3Oz Y1Ba2Cu3O6.82 Y 1 Ba 2 Cu 3 O Z 6.82 1 1999 3 Y123 3.826 3.89 11.702 3 K 85 85 microV/P 6.5 TP8777 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)-ANN(Oxygen-deficient atmosphere, 450C, 2H)" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8778 PSS0411363 "(Y,Ca)Ba2(Cu,Co)3Oz" Y0.95Ca0.05Ba2Cu2.95Co0.05O6.84 Y 0.95 Ca 0.05 Ba 2 Cu 2.95 Co 0.05 O Z 6.84 1 1999 3 Y123 3.837 3.88 11.711 3 K 72.5 72.5 microV/P 14 TP8778 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)-ANN(Oxygen-deficient atmosphere, 450C, 2H)" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8779 PSS0411363 "(Y,Ca)Ba2(Cu,Co)3Oz" Y0.9Ca0.1Ba2Cu2.9Co0.1O6.84 Y 0.9 Ca 0.1 Ba 2 Cu 2.9 Co 0.1 O Z 6.84 1 1999 2 Y123 3.863 11.711 3 K 69.5 69.5 microV/P 16.5 TP8779 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)-ANN(Oxygen-deficient atmosphere, 450C, 2H)" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8780 PSS0411363 "(Y,Ca)Ba2(Cu,Co)3Oz" Y0.85Ca0.15Ba2Cu2.85Co0.15O6.83 Y 0.85 Ca 0.15 Ba 2 Cu 2.85 Co 0.15 O Z 6.83 1 1999 2 Y123 3.864 11.716 3 K 67.5 67.5 microV/P 19 TP8780 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)-ANN(Oxygen-deficient atmosphere, 450C, 2H)" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8781 PSS0411363 "(Y,Ca)Ba2(Cu,Co)3Oz" Y0.8Ca0.2Ba2Cu2.8Co0.2O6.83 Y 0.8 Ca 0.2 Ba 2 Cu 2.8 Co 0.2 O Z 6.83 1 1999 2 Y123 3.868 11.72 3 K 69 69 microV/P 21 TP8781 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)-ANN(Oxygen-deficient atmosphere, 450C, 2H)" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8782 PSS0411363 "(Y,Ca)Ba2(Cu,Co)3Oz" Y0.75Ca0.25Ba2Cu2.75Co0.25O6.82 Y 0.75 Ca 0.25 Ba 2 Cu 2.75 Co 0.25 O Z 6.82 1 1999 2 Y123 3.868 11.715 3 K 67.5 67.5 microV/P 19 TP8782 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)-ANN(Oxygen-deficient atmosphere, 450C, 2H)" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8783 PSS0411363 "(Y,Ca)Ba2(Cu,Co)3Oz" Y0.7Ca0.3Ba2Cu2.7Co0.3O6.84 Y 0.7 Ca 0.3 Ba 2 Cu 2.7 Co 0.3 O Z 6.84 1 1999 2 Y123 3.868 11.714 3 K 70 70 microV/P 14.9 TP8783 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)-ANN(Oxygen-deficient atmosphere, 450C, 2H)" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8784 PSS0411363 YBa2Cu3O7 Y1Ba2Cu3O6.74 Y 1 Ba 2 Cu 3 O Z 6.74 1 1999 3 Y123 3.824 3.896 11.704 3 K 79.5 79.5 microV/P 9 TP8784 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)-ANN(475C,2H in Oxygen-deficient atmosphere, )" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8785 PSS0411363 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.95Ca0.05Ba2Cu2.95Co0.05O6.75 Y 0.95 Ca 0.05 Ba 2 Cu 2.95 Co 0.05 O Z 6.75 1 1999 3 Y123 3.836 3.886 11.71 3 K 64 64 microV/P 22 TP8785 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)-ANN(475C,2H in Oxygen-deficient atmosphere, )" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8786 PSS0411363 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.9Ca0.1Ba2Cu2.9Co0.1O6.76 Y 0.9 Ca 0.1 Ba 2 Cu 2.9 Co 0.1 O Z 6.76 1 1999 2 Y123 3.864 11.713 3 K 57.5 57.5 microV/P 24 TP8786 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)-ANN(475C,2H in Oxygen-deficient atmosphere, )" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8787 PSS0411363 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.85Ca0.15Ba2Cu2.85Co0.15O6.78 Y 0.85 Ca 0.15 Ba 2 Cu 2.85 Co 0.15 O Z 6.78 1 1999 2 Y123 3.865 11.717 3 K 57.5 57.5 microV/P 25 TP8787 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)-ANN(475C,2H in Oxygen-deficient atmosphere, )" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8788 PSS0411363 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.8Ca0.2Ba2Cu2.8Co0.2O6.78 Y 0.8 Ca 0.2 Ba 2 Cu 2.8 Co 0.2 O Z 6.78 1 1999 2 Y123 3.866 11.73 3 K 55.5 55.5 microV/P 21.5 TP8788 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)-ANN(475C,2H in Oxygen-deficient atmosphere, )" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8789 PSS0411363 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.75Ca0.25Ba2Cu2.75Co0.25O6.8 Y 0.75 Ca 0.25 Ba 2 Cu 2.75 Co 0.25 O Z 6.8 1 1999 2 Y123 3.868 11.73 3 K 61 61 microV/P 15 TP8789 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)-ANN(475C,2H in Oxygen-deficient atmosphere, )" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8790 PSS0411363 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.7Ca0.3Ba2Cu2.7Co0.3O6.78 Y 0.7 Ca 0.3 Ba 2 Cu 2.7 Co 0.3 O Z 6.78 1 1999 2 Y123 3.87 11.725 3 K 59 59 microV/P 15 TP8790 1 "pellet-ANN(450C,6H+400C,10H in O2 flow)-ANN(475C,2H in Oxygen-deficient atmosphere, )" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1363 8791 PSS0411165 Debye Temp=382K for low temperature analysis. gamma is for H=0 T. "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4-z Pr 1.85 Ce 0.15 Cu 1 O 4-z 1 1999 2 T' K 18 18 40 SP8791 mj/mole.K2 1.4 550 "Pr2O3, CeO, CuO" 3 "mixture-CAL(950C,14H in air)-pellet-CAL(1100C,18H in air)-cool to RT(20C/min)-ANN(920C,7H in 0.0001 Torr)-cool to RT(10C/min)" 1999 Fizika tverdogo tera (Phys. Of the Solid State) 41(1999)1165 8792 JSC1350017 SrCuO2F2-z Sr2Cu1F2O2 Sr 2 Cu 1 F 2 O 2 3 1998 T K 46 46 "precursor-fluorination(using F2 or MF2(M=Zn,Cu,Ag,Ni)" "Superconducting Sr2-xAxCuO2F2+delta(A=Ca,Ba): Synthetic Pathways and Associated Structural Rearrangements" 1998 "School of Chemistry, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kingdom; and School of Physics and Space Research, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kingdom" J.Solid State Chem.135(1998)17-27 8793 JSC1350017 "(Sr,Ba)2CuO2F2-z" Sr1.4Ba0.6Cu1F2O2 Sr 1.4 Ba 0.6 Cu 1 F 2 O 2 3 1998 T K 64 64 "precursor-fluorination(using F2 or MF2(M=Zn,Cu,Ag,Ni)" "Superconducting Sr2-xAxCuO2F2+delta(A=Ca,Ba): Synthetic Pathways and Associated Structural Rearrangements" 1998 "School of Chemistry, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kingdom; and School of Physics and Space Research, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kingdom" J.Solid State Chem.135(1998)17-27 8794 PRL0822792 untwinned crystal. anisotropy factor < a>/ = 1.18. < c>/< a> = 4.5 YBa2Cu3O7 Y1Ba2Cu3O4 Y 1 Ba 2 Cu 3 O 4 3 1999 Y123 K 92 92 1380 ANN(490C in flowing O2) Flux-Line Lattice Structures in Untwinned YBa2Cu3O7-delta 1999 3 "School of Physics and Astronomy, University of Birmingham, Birmingham B15 2TT, United Kingdom" Phys.Rev.Lett.82(1989)2792 8800 PHC3130058 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 1 1999 3 Bi2212 K -3.21 TP8800 SIN(860-920C). Sintering temperature increases as increasing x The electronic structure and transport properties of BiSr2-xLaxCaCu2Oy(x=0.0-0.8) 1999 2 "Structure Research Laboratory, USTC, Hefei, Anhui 230026, China" "Physica C,313(1999)58-64" 8801 PHC3130058 "Bi2(Sr,La)2CaCu2O8" Bi2Sr1.8La0.2Ca1Cu2OZ Bi 2 Sr 1.8 La 0.2 Ca 1 Cu 2 O Z 1 1999 3 Bi2212 K 4.57 TP8801 SIN(860-920C). Sintering temperature increases as increasing x The electronic structure and transport properties of BiSr2-xLaxCaCu2Oy(x=0.0-0.8) 1999 2 "Structure Research Laboratory, USTC, Hefei, Anhui 230026, China" "Physica C,313(1999)58-64" 8802 PHC3130058 "Bi2(Sr,La)2CaCu2O8" Bi2Sr1.6La0.4Ca1Cu2OZ Bi 2 Sr 1.6 La 0.4 Ca 1 Cu 2 O Z 1 1999 3 Bi2212 K 11.6 TP8802 SIN(860-920C). Sintering temperature increases as increasing x The electronic structure and transport properties of BiSr2-xLaxCaCu2Oy(x=0.0-0.8) 1999 2 "Structure Research Laboratory, USTC, Hefei, Anhui 230026, China" "Physica C,313(1999)58-64" 8803 PHC3130058 "Bi2(Sr,La)2CaCu2O8" Bi2Sr1.4La0.6Ca1Cu2OZ Bi 2 Sr 1.4 La 0.6 Ca 1 Cu 2 O Z 1 1999 3 Bi2212 K 20 TP8803 SIN(860-920C). Sintering temperature increases as increasing x The electronic structure and transport properties of BiSr2-xLaxCaCu2Oy(x=0.0-0.8) 1999 2 "Structure Research Laboratory, USTC, Hefei, Anhui 230026, China" "Physica C,313(1999)58-64" 8804 PHC3130058 "Bi2(Sr,La)2CaCu2O8" Bi2Sr1.3La0.7Ca1Cu2OZ Bi 2 Sr 1.3 La 0.7 Ca 1 Cu 2 O Z 1 1999 3 Bi2212 K 37.6 TP8804 SIN(860-920C). Sintering temperature increases as increasing x The electronic structure and transport properties of BiSr2-xLaxCaCu2Oy(x=0.0-0.8) 1999 2 "Structure Research Laboratory, USTC, Hefei, Anhui 230026, China" "Physica C,313(1999)58-64" 8805 PHC3130058 "Bi2(Sr,La)2CaCu2O8" Bi2Sr1.2La0.8Ca1Cu2OZ Bi 2 Sr 1.2 La 0.8 Ca 1 Cu 2 O Z 1 1999 3 Bi2212 K 51.1 TP8805 SIN(860-920C). Sintering temperature increases as increasing x The electronic structure and transport properties of BiSr2-xLaxCaCu2Oy(x=0.0-0.8) 1999 2 "Structure Research Laboratory, USTC, Hefei, Anhui 230026, China" "Physica C,313(1999)58-64" 8806 PHC3140125 "(Tl,Pb)(Sr,Ba)2Ca2Cu3Oz" Tl0.5Pb0.5Sr1.6Ba0.4Ca2Cu3OZ Tl 0.5 Pb 0.5 Sr 1.6 Ba 0.4 Ca 2 Cu 3 O Z 2 1999 Tl1223 15.478 K 120 120 "CuO,Sr(NO3)2,CaO,BaO2CuF2,PbO,TlO3" "precursor was mixed writh xCuF2+0.5PbO+0.35Tl2O3. Heat(980C,10min)" Effect of fluorine on the phase formation and superconducting properties of Tl-1223 superconductors 1999 3 "Physics Department, King Fahd University of Petroleum and Minerals, Dhahran, 31261, Saudi Arabia" "Physica C,314(1999)125-132" 8807 PHC3140125 "(Tl,Pb)(Sr,Ba)2Ca2Cu3(F,O)z" Tl0.5Pb0.5Sr1.6Ba0.4Ca2Cu3F0.1OZ Tl 0.5 Pb 0.5 Sr 1.6 Ba 0.4 Ca 2 Cu 3 F 0.1 O Z 2 1999 Tl1223 15.4631 K 120.5 120.5 "CuO,Sr(NO3)2,CaO,BaO2CuF2,PbO,TlO3" "precursor was mixed writh xCuF2+0.5PbO+0.35Tl2O3. Heat(980C,10min)" Effect of fluorine on the phase formation and superconducting properties of Tl-1223 superconductors 1999 3 "Physics Department, King Fahd University of Petroleum and Minerals, Dhahran, 31261, Saudi Arabia" "Physica C,314(1999)125-132" 8809 PHC3140125 "(Tl,Pb)(Sr,Ba)2Ca2Cu3(F,O)z" Tl0.5Pb0.5Sr1.6Ba0.4Ca2Cu3F2.2OZ Tl 0.5 Pb 0.5 Sr 1.6 Ba 0.4 Ca 2 Cu 3 F 2.2 O Z 2 1999 Tl1223 15.4704 K 121 121 "CuO,Sr(NO3)2,CaO,BaO2CuF2,PbO,TlO3" "precursor was mixed writh xCuF2+0.5PbO+0.35Tl2O3. Heat(980C,10min)" Effect of fluorine on the phase formation and superconducting properties of Tl-1223 superconductors 1999 3 "Physics Department, King Fahd University of Petroleum and Minerals, Dhahran, 31261, Saudi Arabia" "Physica C,314(1999)125-132" 8810 PHC3140125 "(Tl,Pb)(Sr,Ba)2Ca2Cu3(F,O)z" Tl0.5Pb0.5Sr1.6Ba0.4Ca2Cu3F3OZ Tl 0.5 Pb 0.5 Sr 1.6 Ba 0.4 Ca 2 Cu 3 F 3 O Z 2 1999 Tl1223 15.4611 K 123.5 123.5 "CuO,Sr(NO3)2,CaO,BaO2CuF2,PbO,TlO3" "precursor was mixed writh xCuF2+0.5PbO+0.35Tl2O3. Heat(980C,10min)" Effect of fluorine on the phase formation and superconducting properties of Tl-1223 superconductors 1999 3 "Physics Department, King Fahd University of Petroleum and Minerals, Dhahran, 31261, Saudi Arabia" "Physica C,314(1999)125-132" 8811 PHC3140196 "as-grown,optimal O-content" "(Hg,Cu)Ba2CuOz" Hg0.8Ba2Cu1.2O4+Z Hg 0.8 Ba 2 Cu 1.2 O 4+Z 3 1999 2 Hg1201 3.8827 9.5274 K 97 97 160 2.4 HIR8811 A 14.3 A magnetization 1620 O-content is controlled by post annealing under O2 mosphere "Effect of underdoping on the superconductivity of (Hg,Cu)Ba2CuO4+delta '1201' single crystals" 1999 3 "Laboratire CRISMAT, UMR 6508 associee au CNRS, ISMRA et Universite de Caen, 6, Boulevard du Marechal Juin, 14050 Caen Cedex, France" "Physica C,314(1999)196-204" 8812 PHC3140196 "400C,12H in O2" "(Hg,Cu)Ba2CuOz" Hg0.8Ba2Cu1.2O4+Z Hg 0.8 Ba 2 Cu 1.2 O 4+Z 3 1999 2 Hg1201 3.8884 9.5372 K 80 80 O-content is controlled by post annealing under O2 mosphere "Effect of underdoping on the superconductivity of (Hg,Cu)Ba2CuO4+delta '1201' single crystals" 1999 3 "Laboratire CRISMAT, UMR 6508 associee au CNRS, ISMRA et Universite de Caen, 6, Boulevard du Marechal Juin, 14050 Caen Cedex, France" "Physica C,314(1999)196-204" 8813 PHC3140196 "500C,12H in O2" "(Hg,Cu)Ba2CuOz" Hg0.8Ba2Cu1.2O4+Z Hg 0.8 Ba 2 Cu 1.2 O 4+Z 3 1999 2 Hg1201 3.8896 9.5347 K 75 75 HIR8813 A magnetization 2350 O-content is controlled by post annealing under O2 mosphere "Effect of underdoping on the superconductivity of (Hg,Cu)Ba2CuO4+delta '1201' single crystals" 1999 3 "Laboratire CRISMAT, UMR 6508 associee au CNRS, ISMRA et Universite de Caen, 6, Boulevard du Marechal Juin, 14050 Caen Cedex, France" "Physica C,314(1999)196-204" 8814 PHC3140196 "500C,18H in O2" "(Hg,Cu)Ba2CuOz" Hg0.8Ba2Cu1.2O4+Z Hg 0.8 Ba 2 Cu 1.2 O 4+Z 3 1999 Hg1201 K 55 55 O-content is controlled by post annealing under O2 mosphere "Effect of underdoping on the superconductivity of (Hg,Cu)Ba2CuO4+delta '1201' single crystals" 1999 3 "Laboratire CRISMAT, UMR 6508 associee au CNRS, ISMRA et Universite de Caen, 6, Boulevard du Marechal Juin, 14050 Caen Cedex, France" "Physica C,314(1999)196-204" 8815 PHC3140196 "(HG,Cu)Ba2CuOz" Hg0.8Ba2Cu1.2O4+Z Hg 0.8 Ba 2 Cu 1.2 O 4+Z 3 1999 Hg1201 K 92 92 114 1.8 HIR8815 A 17 A Magnetization 1960 O-content is controlled by post annealing under O2 mosphere "Effect of underdoping on the superconductivity of (Hg,Cu)Ba2CuO4+delta '1201' single crystals" 1999 3 "Laboratire CRISMAT, UMR 6508 associee au CNRS, ISMRA et Universite de Caen, 6, Boulevard du Marechal Juin, 14050 Caen Cedex, France" "Physica C,314(1999)196-204" 8816 PHC3140196 "(HG,Cu)Ba2CuOz" Hg0.8Ba2Cu1.2O4+Z Hg 0.8 Ba 2 Cu 1.2 O 4+Z 3 1999 Hg1201 K 85 85 67 1.1 A 22 A Magnetization 2130 O-content is controlled by post annealing under O2 mosphere "Effect of underdoping on the superconductivity of (Hg,Cu)Ba2CuO4+delta '1201' single crystals" 1999 3 "Laboratire CRISMAT, UMR 6508 associee au CNRS, ISMRA et Universite de Caen, 6, Boulevard du Marechal Juin, 14050 Caen Cedex, France" "Physica C,314(1999)196-204" 8817 PHC3140196 "(HG,Cu)Ba2CuOz" Hg0.8Ba2Cu1.2O4+Z Hg 0.8 Ba 2 Cu 1.2 O 4+Z 3 1999 Hg1201 K 62 62 A Magnetization 2830 O-content is controlled by post annealing under O2 mosphere "Effect of underdoping on the superconductivity of (Hg,Cu)Ba2CuO4+delta '1201' single crystals" 1999 3 "Laboratire CRISMAT, UMR 6508 associee au CNRS, ISMRA et Universite de Caen, 6, Boulevard du Marechal Juin, 14050 Caen Cedex, France" "Physica C,314(1999)196-204" 8818 PR05614275 La2CuO4 La2Cu1O4+Z La 2 Cu 1 O 4+Z 3 1997 T K 33 33 micron.m FIR 21 "TSFZ method. O-content,maybe,=4+0.06. oxdization " "Far-infrared reflectivity along the c axis in La2CuO4+delta, La1.89Ca1.11Cu2O4+delta, and Nd2CuO4-xFx single crystals" 1997 2 "NTT Basic Research Laboratories, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-01, Japan" "Phys.Rev.B,56(1992)R14275" 8819 PR05614275 "(La,Ca)2CaCu2O6" La1.89Ca1.1Cu2O6+Z La 1.89 Ca 1.1 Cu 2 O 6+Z 3 1997 2126 K 47 47 micron.m FIR measurement 13 CuO flux method. Oxdization by high O2 pressure "Far-infrared reflectivity along the c axis in La2CuO4+delta, La1.89Ca1.11Cu2O4+delta, and Nd2CuO4-xFx single crystals" 1997 2 "NTT Basic Research Laboratories, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-01, Japan" "Phys.Rev.B,56(1992)R14275" 8820 PR05614275 F-content not measured. "Nd2Cu(O,F)4" Nd2Cu1FO4-X Nd 2 Cu 1 F O 4-X 3 1997 T' K 21 21 micron.m FIR 32 CuO flux method. Oxdization by anealing in Ar "Far-infrared reflectivity along the c axis in La2CuO4+delta, La1.89Ca1.11Cu2O4+delta, and Nd2CuO4-xFx single crystals" 1997 2 "NTT Basic Research Laboratories, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-01, Japan" "Phys.Rev.B,56(1992)R14275" 8821 PR05911672 "ANN(0.2% O2,500C)" Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 3 1999 Bi2212 K 89 89 micron. M Josephson plasma self-flux method in alumina crucible. Oxidized at 500C for 100 in O2-atmosplere Josephson plasma frequencies in overdoped Bi2Sr2CaCu2O8+delta 1999 5 "NTT Basic Research Laboratories, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B,59(1999)R11672" 8822 PR05911672 "ANN(1 atm O2,500C)" Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 3 1999 Bi2212 K 85 85 micron. M Josephson plasma 77 self-flux method in alumina crucible. Oxidized at 500C for 100 in O2-atmosplere Josephson plasma frequencies in overdoped Bi2Sr2CaCu2O8+delta 1999 5 "NTT Basic Research Laboratories, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B,59(1999)R11672" 8823 PR05911672 "ANN(9 atm O2,500C)" Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 3 1999 Bi2212 K 79 79 micron. M Josephson plasma 48 self-flux method in alumina crucible. Oxidized at 500C for 100 in O2-atmosplere Josephson plasma frequencies in overdoped Bi2Sr2CaCu2O8+delta 1999 5 "NTT Basic Research Laboratories, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B,59(1999)R11672" 8824 PR05911672 "ANN(150 atm O2,500C)" Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 3 1999 Bi2212 K 71 71 micron. M Josephson plasma 35 self-flux method in alumina crucible. Oxidized at 500C for 100 in O2-atmosplere Josephson plasma frequencies in overdoped Bi2Sr2CaCu2O8+delta 1999 5 "NTT Basic Research Laboratories, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B,59(1999)R11672" 8825 PHC3210001 "Hc2,Hirr were determined by specific heat. Ac-calorimetry" DyBa2Cu3O7 Dy1Ba2Cu3O7 Dy 1 Ba 2 Cu 3 O 7 3 1999 Y123 K 91.05 91.05 144 2.3 HC8825 "self-flux method ussing YSZ, annealed at 450C, 72H in 100 bar O2." Specific heat of a DyBa2Cu3O7-y single crystal in magnetic fields up to T 1999 8 "Department of Physics and Astronomy, University of Leeds, Leeds LS2 9JT, England, UK" "Physica C,321(1999)1-11" 8826 PRL0813519 "Sm(La,Sr)CuOz" Sm1La0.8Sr0.2Cu1O3.95 Sm 1 La 0.8 Sr 0.2 Cu 1 O 4-Z 3.95 1 1998 T* K 28.8 28.8 "oxidization by HIP(900C, 50H in 100-400 atm O2)" Double Josephson Plasma Resonance in T* Phase SmLa1-xSrxCuO4-delta 1998 10 "NTT Basic Research Laboratories, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" Phys.Rev.Lett.81(1989)3519 8827 PRL0813519 "Sm(La,Sr)CuOz" Sm1La0.8Sr0.2Cu1O3.945 Sm 1 La 0.8 Sr 0.2 Cu 1 O 4-Z 3.945 1 1998 T* K 26 26 "oxidization by HIP(900C, 50H in 100-400 atm O2)" Double Josephson Plasma Resonance in T* Phase SmLa1-xSrxCuO4-delta 1998 10 "NTT Basic Research Laboratories, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" Phys.Rev.Lett.81(1989)3519 8828 PRL0813519 "Sm(La,Sr)CuOz" Sm1La0.8Sr0.2Cu1O3.94 Sm 1 La 0.8 Sr 0.2 Cu 1 O 4-Z 3.94 1 1998 T* K 24.6 24.6 "oxidization by HIP(900C, 50H in 100-400 atm O2)" Double Josephson Plasma Resonance in T* Phase SmLa1-xSrxCuO4-delta 1998 10 "NTT Basic Research Laboratories, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" Phys.Rev.Lett.81(1989)3519 8829 PRL0813519 "Sm(La,Sr)CuOz" Sm1La0.8Sr0.2Cu1O3.925 Sm 1 La 0.8 Sr 0.2 Cu 1 O 4-Z 3.925 1 1998 T* K 19.6 19.6 "oxidization by HIP(900C, 50H in 100-400 atm O2)" Double Josephson Plasma Resonance in T* Phase SmLa1-xSrxCuO4-delta 1998 10 "NTT Basic Research Laboratories, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" Phys.Rev.Lett.81(1989)3519 8830 ETP1161723 "c-axis oriented film. D=5500A,not s/c" "(Nd,Ce)2CuO4" Nd1.88Ce0.12Cu1O4-Z Nd 1.88 Ce 0.12 Cu 1 O 4-Z 5 1999 T' K 5 Hall coeflicient mOhm.cm 1.02 "details,see Physica C180(1991)69" 1999 Zhurnal experimental'noi I teoreticheskoi fiziki (J.Exp. Th. Ph.) 116(1999)1723 8831 ETP1161723 "c-axis oriented film. D=5500A,not s/c" "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-Z Nd 1.85 Ce 0.15 Cu 1 O 4-Z 5 1999 T' K 20 20 Hall coeflicient 5.5 1.4 0.424 "details,see Physica C180(1991)69" 1999 Zhurnal experimental'noi I teoreticheskoi fiziki (J.Exp. Th. Ph.) 116(1999)1723 8832 ETP1161723 "c-axis oriented film. D=5000A,not s/c" "(Nd,Ce)2CuO4" Nd1.83Ce0.17Cu1O4-Z Nd 1.83 Ce 0.17 Cu 1 O 4-Z 5 1999 T' K 12 12 0.296 "details,see Physica C180(1991)69" 1999 Zhurnal experimental'noi I teoreticheskoi fiziki (J.Exp. Th. Ph.) 116(1999)1723 8833 ETP1161723 "c-axis oriented film. D=5700A,not s/c" "(Nd,Ce)2CuO4" Nd1.82Ce0.18Cu1O4-Z Nd 1.82 Ce 0.18 Cu 1 O 4-Z 5 1999 T' K 6 6 Hall coeflicient 4 1.4 0.235 "details,see Physica C180(1991)69" 1999 Zhurnal experimental'noi I teoreticheskoi fiziki (J.Exp. Th. Ph.) 116(1999)1723 8834 ETP1161723 "c-axis oriented film. D=4000A,not s/c" "(Nd,Ce)2CuO4" Nd1.8Ce0.2Cu1O4-Z Nd 1.8 Ce 0.2 Cu 1 O 4-Z 5 1999 T' K 1.3 1.3 Hall coeflicient 2.2 1.4 0.1 "details,see Physica C180(1991)69" 1999 Zhurnal experimental'noi I teoreticheskoi fiziki (J.Exp. Th. Ph.) 116(1999)1723 8835 PSS0391520 YBa2Cu3O7 Y1Ba2Cu3O6.96 Y 1 Ba 2 Cu 3 O Z 6.96 1 1997 3 Y123 3.815 3.881 11.667 K 88 88 "standard solid state sintering. ANN(450C,2H in O2 flow)-slow cool to RT" "Thermopower measurements in (Y,Pr)Ba2Cu3Oz samples with Pr contents 0 - 0.6" 1997 "Institute of Silicate Chemistry, Saint-Petrsburg, Russia" Fizika tverdogo tela(Phys. Of the Solid State) 39(1997)1520 8836 PSS0391520 "(Y,Pr)Ba2Cu3O7" Y0.95Pr0.05Ba2Cu3O6.96 Y 0.95 Pr 0.05 Ba 2 Cu 3 O Z 6.96 1 1997 3 Y123 3.822 3.883 11.684 K 87.5 87.5 TP8836 "standard solid state sintering. ANN(450C,2H in O2 flow)-slow cool to RT" "Thermopower measurements in (Y,Pr)Ba2Cu3Oz samples with Pr contents 0 - 0.6" 1997 "Institute of Silicate Chemistry, Saint-Petrsburg, Russia" Fizika tverdogo tela(Phys. Of the Solid State) 39(1997)1520 8837 PSS0391520 "(Y,Pr)Ba2Cu3O7" Y0.9Pr0.1Ba2Cu3O6.96 Y 0.9 Pr 0.1 Ba 2 Cu 3 O Z 6.96 1 1997 3 Y123 3.823 3.89 11.67 K 83 83 TP8837 "standard solid state sintering. ANN(450C,2H in O2 flow)-slow cool to RT" "Thermopower measurements in (Y,Pr)Ba2Cu3Oz samples with Pr contents 0 - 0.6" 1997 "Institute of Silicate Chemistry, Saint-Petrsburg, Russia" Fizika tverdogo tela(Phys. Of the Solid State) 39(1997)1520 8838 PSS0391520 "(Y,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O6.96 Y 0.8 Pr 0.2 Ba 2 Cu 3 O Z 6.96 1 1997 3 Y123 3.826 3.895 11.674 K 70 70 TP8838 "standard solid state sintering. ANN(450C,2H in O2 flow)-slow cool to RT" "Thermopower measurements in (Y,Pr)Ba2Cu3Oz samples with Pr contents 0 - 0.6" 1997 "Institute of Silicate Chemistry, Saint-Petrsburg, Russia" Fizika tverdogo tela(Phys. Of the Solid State) 39(1997)1520 8839 PSS0391520 "(Y,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3O6.96 Y 0.7 Pr 0.3 Ba 2 Cu 3 O Z 6.96 1 1997 3 Y123 3.831 3.897 11.666 K 57 57 TP8839 "standard solid state sintering. ANN(450C,2H in O2 flow)-slow cool to RT" "Thermopower measurements in (Y,Pr)Ba2Cu3Oz samples with Pr contents 0 - 0.6" 1997 "Institute of Silicate Chemistry, Saint-Petrsburg, Russia" Fizika tverdogo tela(Phys. Of the Solid State) 39(1997)1520 8840 PSS0391520 "(Y,Pr)Ba2Cu3O7" Y0.6Pr0.4Ba2Cu3O6.96 Y 0.6 Pr 0.4 Ba 2 Cu 3 O Z 6.96 1 1997 3 Y123 3.836 3.899 11.667 K 32 32 TP8840 "standard solid state sintering. ANN(450C,2H in O2 flow)-slow cool to RT" "Thermopower measurements in (Y,Pr)Ba2Cu3Oz samples with Pr contents 0 - 0.6" 1997 "Institute of Silicate Chemistry, Saint-Petrsburg, Russia" Fizika tverdogo tela(Phys. Of the Solid State) 39(1997)1520 8841 PSS0391520 "(Y,Pr)Ba2Cu3O7" Y0.5Pr0.5Ba2Cu3O6.96 Y 0.5 Pr 0.5 Ba 2 Cu 3 O Z 6.96 1 1997 3 Y123 3.838 3.908 11.675 K 12 12 TP8841 "standard solid state sintering. ANN(450C,2H in O2 flow)-slow cool to RT" "Thermopower measurements in (Y,Pr)Ba2Cu3Oz samples with Pr contents 0 - 0.6" 1997 "Institute of Silicate Chemistry, Saint-Petrsburg, Russia" Fizika tverdogo tela(Phys. Of the Solid State) 39(1997)1520 8842 PSS0391520 not/sc. "(Y,Pr)Ba2Cu3O7" Y0.4Pr0.6Ba2Cu3O6.96 Y 0.4 Pr 0.6 Ba 2 Cu 3 O Z 6.96 1 1997 3 Y123 3.846 3.911 11.686 K 5 TP8842 "standard solid state sintering. ANN(450C,2H in O2 flow)-slow cool to RT" "Thermopower measurements in (Y,Pr)Ba2Cu3Oz samples with Pr contents 0 - 0.6" 1997 "Institute of Silicate Chemistry, Saint-Petrsburg, Russia" Fizika tverdogo tela(Phys. Of the Solid State) 39(1997)1520 8843 BMS0210463 O-content by iodometry. "La(Ba,La)2Cu3O7" La1.5Ba1.5Cu3O6.55 La 1.5 Ba 1.5 Cu 3 O Z 6.55 1 1998 2 Y123 3.826 11.753 3 K 5 "SIN(950C,12H in O2)-slow cool to RT-ANN(500C,24H in O2 flow)-slow cool to RT(1C/min)" 1998 "Saurashira Univ., India" Bul. Mat. Sci. (Indian Acad. Sci.) 21(1998)463 8844 BMS0210463 O-content by iodometry. "La(Ba,La,Ca)2Cu3O7" La1.4Ba1.5Ca0.1Cu3O6.59 La 1.4 Ba 1.5 Ca 0.1 Cu 3 O Z 6.59 1 1998 2 Y123 3.908 11.736 3 K 5 "SIN(950C,12H in O2)-slow cool to RT-ANN(500C,24H in O2 flow)-slow cool to RT(1C/min)" 1998 "Saurashira Univ., India" Bul. Mat. Sci. (Indian Acad. Sci.) 21(1998)463 8845 BMS0210463 O-content by iodometry. "La(Ba,La,Ca)2Cu3O7" La1.35Ba1.5Ca0.15Cu3O6.67 La 1.35 Ba 1.5 Ca 0.15 Cu 3 O Z 6.67 1 1998 2 Y123 3.899 11.732 3 K 43 43 "SIN(950C,12H in O2)-slow cool to RT-ANN(500C,24H in O2 flow)-slow cool to RT(1C/min)" 1998 "Saurashira Univ., India" Bul. Mat. Sci. (Indian Acad. Sci.) 21(1998)463 8846 BMS0210463 O-content by iodometry. "La(Ba,La,Ca)2Cu3O7" La1.3Ba1.5Ca0.2Cu3O6.72 La 1.3 Ba 1.5 Ca 0.2 Cu 3 O Z 6.72 1 1998 2 Y123 3.891 11.726 3 K 48 48 "SIN(950C,12H in O2)-slow cool to RT-ANN(500C,24H in O2 flow)-slow cool to RT(1C/min)" 1998 "Saurashira Univ., India" Bul. Mat. Sci. (Indian Acad. Sci.) 21(1998)463 8847 BMS0210463 O-content by iodometry. "La(Ba,La,Ca)2Cu3O7" La1.25Ba1.5Ca0.25Cu3O6.74 La 1.25 Ba 1.5 Ca 0.25 Cu 3 O Z 6.74 1 1998 2 Y123 3.888 11.72 3 K 70 70 "SIN(950C,12H in O2)-slow cool to RT-ANN(500C,24H in O2 flow)-slow cool to RT(1C/min)" 1998 "Saurashira Univ., India" Bul. Mat. Sci. (Indian Acad. Sci.) 21(1998)463 8848 BMS0210463 O-content by iodometry. "La(Ba,La,Ca)2Cu3O7" La1.65Ba1.5Ca0.35Cu3O6.79 La 1.65 Ba 1.5 Ca 0.35 Cu 3 O Z 6.79 1 1998 2 Y123 3.885 11.703 3 K 72 72 "SIN(950C,12H in O2)-slow cool to RT-ANN(500C,24H in O2 flow)-slow cool to RT(1C/min)" 1998 "Saurashira Univ., India" Bul. Mat. Sci. (Indian Acad. Sci.) 21(1998)463 8849 BMS0210463 O-content by iodometry. "La(Ba,La,Ca)2Cu3O7" La1.1Ba1.5Ca0.4Cu3O6.82 La 1.1 Ba 1.5 Ca 0.4 Cu 3 O Z 6.82 1 1998 2 Y123 3.884 11.693 3 K 70 72 72 "SIN(950C,12H in O2)-slow cool to RT-ANN(500C,24H in O2 flow)-slow cool to RT(1C/min)" 1998 "Saurashira Univ., India" Bul. Mat. Sci. (Indian Acad. Sci.) 21(1998)463 8850 BMS0210463 O-content by iodometry. "La(Ba,La,Ca)2Cu3O7" La1.05Ba1.5Ca0.45Cu3O6.81 La 1.05 Ba 1.5 Ca 0.45 Cu 3 O Z 6.81 1 1998 2 Y123 3.881 11.686 3 K 71 74 74 "SIN(950C,12H in O2)-slow cool to RT-ANN(500C,24H in O2 flow)-slow cool to RT(1C/min)" 1998 "Saurashira Univ., India" Bul. Mat. Sci. (Indian Acad. Sci.) 21(1998)463 8851 BMS0210463 O-content by iodometry. "La(Ba,La,Ca)2Cu3O7" La1Ba1.5Ca0.5Cu3O6.85 La 1 Ba 1.5 Ca 0.5 Cu 3 O Z 6.85 1 1998 2 Y123 3.878 11.666 3 K 74 76 76 "SIN(950C,12H in O2)-slow cool to RT-ANN(500C,24H in O2 flow)-slow cool to RT(1C/min)" 1998 "Saurashira Univ., India" Bul. Mat. Sci. (Indian Acad. Sci.) 21(1998)463 8852 BMS0210463 O-content by iodometry. "La(Ba,La,Ca)2Cu3O7" La0.9Ba1.5Ca0.6Cu3O6.74 La 0.9 Ba 1.5 Ca 0.6 Cu 3 O Z 6.74 1 1998 2 Y123 3.899 11.701 3 K 70 73 73 "SIN(950C,12H in O2)-slow cool to RT-ANN(500C,24H in O2 flow)-slow cool to RT(1C/min)" 1998 "Saurashira Univ., India" Bul. Mat. Sci. (Indian Acad. Sci.) 21(1998)463 8853 BMS0210463 "La(Ba,Ca)2Cu3O7" La1Ba1.4Ca0.6Cu3O6.9 La 1 Ba 1.4 Ca 0.6 Cu 3 O Z 6.9 1 1998 2 Y123 3.874 11.654 3 K 74 76 74 "SIN(950C,12H in O2)-slow cool to RT-ANN(500C,24H in O2 flow)-slow cool to RT(1C/min)" 1998 "Saurashira Univ., India" Bul. Mat. Sci. (Indian Acad. Sci.) 21(1998)463 8854 BMS0210463 "La(Ba,Ca)2Cu3O7" La1Ba1.3Ca0.7Cu3O6.92 La 1 Ba 1.3 Ca 0.7 Cu 3 O Z 6.92 1 1998 2 Y123 3.867 11.64 3 K 73 76 73 "SIN(950C,12H in O2)-slow cool to RT-ANN(500C,24H in O2 flow)-slow cool to RT(1C/min)" 1998 "Saurashira Univ., India" Bul. Mat. Sci. (Indian Acad. Sci.) 21(1998)463 8855 BMS0210463 "La(Ba,Ca)2Cu3O7" La1Ba1.2Ca0.8Cu3O6.95 La 1 Ba 1.2 Ca 0.8 Cu 3 O Z 6.95 1 1998 2 Y123 3.863 11.631 3 K 74 75 74 "SIN(950C,12H in O2)-slow cool to RT-ANN(500C,24H in O2 flow)-slow cool to RT(1C/min)" 1998 "Saurashira Univ., India" Bul. Mat. Sci. (Indian Acad. Sci.) 21(1998)463 8856 BMS0210463 "La(Ba,Ca)2Cu3O7" La1Ba1.1Ca0.9Cu3O7.02 La 1 Ba 1.1 Ca 0.9 Cu 3 O Z 7.02 1 1998 2 Y123 3.858 11.613 3 K 75 77 75 "SIN(950C,12H in O2)-slow cool to RT-ANN(500C,24H in O2 flow)-slow cool to RT(1C/min)" 1998 "Saurashira Univ., India" Bul. Mat. Sci. (Indian Acad. Sci.) 21(1998)463 8857 BMS0210463 "La(Ba,Ca)2Cu3O7" La1Ba1Ca1Cu3O6.99 La 1 Ba 1 Ca 1 Cu 3 O Z 6.99 1 1998 2 Y123 3.85 11.56 3 K 75 78 75 "SIN(950C,12H in O2)-slow cool to RT-ANN(500C,24H in O2 flow)-slow cool to RT(1C/min)" 1998 "Saurashira Univ., India" Bul. Mat. Sci. (Indian Acad. Sci.) 21(1998)463 8858 BMS0210463 "La(Ba,Ca)2Cu3O7" La1Ba0.9Ca1.1Cu3O7.05 La 1 Ba 0.9 Ca 1.1 Cu 3 O Z 7.05 1 1998 2 Y123 3.824 11.483 3 K 71 72 71 "SIN(950C,12H in O2)-slow cool to RT-ANN(500C,24H in O2 flow)-slow cool to RT(1C/min)" 1998 "Saurashira Univ., India" Bul. Mat. Sci. (Indian Acad. Sci.) 21(1998)463 8859 BMS0210463 "La(Ba,Ca)2Cu3O7" La1Ba0.8Ca1.2Cu3O7.11 La 1 Ba 0.8 Ca 1.2 Cu 3 O Z 7.11 1 1998 2 Y123 3.803 11.419 3 K 60 66 60 "SIN(950C,12H in O2)-slow cool to RT-ANN(500C,24H in O2 flow)-slow cool to RT(1C/min)" 1998 "Saurashira Univ., India" Bul. Mat. Sci. (Indian Acad. Sci.) 21(1998)463 8860 PRL0804293 1*1*0.1mm3 "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4+Z Pr 1.85 Ce 0.15 Cu 1 O 4+Z 3 1998 T' K 23.2 23.2 T 10 56 A calculated from coherence 850 mOhm.cm 0.4 General Features of Quantum Creep in High-Tc Superconductors 1998 5 "Institute COMPAS and Faculty of Physics and Astronomy, Vrije Universiteit, Amsterdam, The Netherlands" Phys.Rev.Lett.80(1989)4293 8861 PRL0804293 "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4+Z Pr 1.85 Ce 0.15 Cu 1 O 4+Z 1998 T' K 12.1 12.1 T 6 73 A calculated from coherence 900 mOhm.cm 0.8 General Features of Quantum Creep in High-Tc Superconductors 1998 5 "Institute COMPAS and Faculty of Physics and Astronomy, Vrije Universiteit, Amsterdam, The Netherlands" Phys.Rev.Lett.80(1989)4293 8862 PR04510071 G-L=39 YBa2Cu3Oz Y1Ba2Cu3O6.37 Y 1 Ba 2 Cu 3 O Z 6.37 3 1992 Y123 K 13.5 13.5 4 A 91 A 3550 no description High anisotropy ans a dimensionality crossover in the irreversibility behavior of oxygen-deficient YBa2Cu3O7-y 1992 5 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439" "Phys.Rev.B,45(1992)10071" 8863 PR04510071 G-L=36 YBa2Cu3Oz Y1Ba2Cu3O6.38 Y 1 Ba 2 Cu 3 O Z 6.38 3 1992 Y123 K 10.1 10.1 3.9 92 3350 no description High anisotropy ans a dimensionality crossover in the irreversibility behavior of oxygen-deficient YBa2Cu3O7-y 1992 5 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439" "Phys.Rev.B,45(1992)10071" 8864 PR04510071 G-L=49 YBa2Cu3Oz Y1Ba2Cu3O6.38 Y 1 Ba 2 Cu 3 O Z 6.38 3 1992 Y123 K 11.3 11.3 7 69 3360 no description High anisotropy ans a dimensionality crossover in the irreversibility behavior of oxygen-deficient YBa2Cu3O7-y 1992 5 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439" "Phys.Rev.B,45(1992)10071" 8865 PR04510071 G-L=65 YBa2Cu3Oz Y1Ba2Cu3O6.38 Y 1 Ba 2 Cu 3 O Z 6.38 3 1992 Y123 K 15.4 15.4 14 49 3130 no description High anisotropy ans a dimensionality crossover in the irreversibility behavior of oxygen-deficient YBa2Cu3O7-y 1992 5 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439" "Phys.Rev.B,45(1992)10071" 8866 PR04510071 G-L=74 YBa2Cu3Oz Y1Ba2Cu3O6.38 Y 1 Ba 2 Cu 3 O Z 6.38 3 1992 Y123 K 17 17 19 42 3100 no description High anisotropy ans a dimensionality crossover in the irreversibility behavior of oxygen-deficient YBa2Cu3O7-y 1992 5 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439" "Phys.Rev.B,45(1992)10071" 8867 PR04510071 G-L=62 YBa2Cu3Oz Y1Ba2Cu3O6.43 Y 1 Ba 2 Cu 3 O Z 6.43 3 1992 Y123 K 35 35 25 36 2260 no description High anisotropy ans a dimensionality crossover in the irreversibility behavior of oxygen-deficient YBa2Cu3O7-y 1992 5 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439" "Phys.Rev.B,45(1992)10071" 8868 PR04510071 G-L=65 YBa2Cu3Oz Y1Ba2Cu3O6.45 Y 1 Ba 2 Cu 3 O Z 6.45 3 1992 Y123 K 31.5 31.5 40 A 34 A 2260 no description High anisotropy ans a dimensionality crossover in the irreversibility behavior of oxygen-deficient YBa2Cu3O7-y 1992 5 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439" "Phys.Rev.B,45(1992)10071" 8869 PR04510071 G-L=53 YBa2Cu3Oz Y1Ba2Cu3O6.45 Y 1 Ba 2 Cu 3 O Z 6.45 3 1992 Y123 K 33.5 33.5 26 A 36 1920 no description High anisotropy ans a dimensionality crossover in the irreversibility behavior of oxygen-deficient YBa2Cu3O7-y 1992 5 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439" "Phys.Rev.B,45(1992)10071" 8870 PR04510071 G-L=51 YBa2Cu3Oz Y1Ba2Cu3O6.45 Y 1 Ba 2 Cu 3 O Z 6.45 3 1992 Y123 K 35.7 35.7 26 36 1830 no description High anisotropy ans a dimensionality crossover in the irreversibility behavior of oxygen-deficient YBa2Cu3O7-y 1992 5 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439" "Phys.Rev.B,45(1992)10071" 8871 PR04510071 G-L=65 YBa2Cu3Oz Y1Ba2Cu3O6.45 Y 1 Ba 2 Cu 3 O Z 6.45 3 1992 Y123 K 39.9 39.9 28 29 1880 no description High anisotropy ans a dimensionality crossover in the irreversibility behavior of oxygen-deficient YBa2Cu3O7-y 1992 5 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439" "Phys.Rev.B,45(1992)10071" 8872 PR04510071 G-L=64 YBa2Cu3Oz Y1Ba2Cu3O6.52 Y 1 Ba 2 Cu 3 O Z 6.52 3 1992 Y123 K 55 55 39 29 1850 no description High anisotropy ans a dimensionality crossover in the irreversibility behavior of oxygen-deficient YBa2Cu3O7-y 1992 5 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439" "Phys.Rev.B,45(1992)10071" 8873 PR04510071 G-L=67 YBa2Cu3Oz Y1Ba2Cu3O6.52 Y 1 Ba 2 Cu 3 O Z 6.52 3 1992 Y123 K 55 55 40 29 1940 no description High anisotropy ans a dimensionality crossover in the irreversibility behavior of oxygen-deficient YBa2Cu3O7-y 1992 5 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439" "Phys.Rev.B,45(1992)10071" 8874 PRL0653441 thickness= YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 4 1990 Y123 K 89.9 89.9 A culculated from inductance L 2000 mOhm.cm 0.33 "films were grown epitaxally on LaAlO3 by coevaporation of Cu,Y,BaF2 in O2, ANN(850C in O2)" Metallic and Superconducting Surfaces of YBa2Cu3O7 Probed by Electrostatic Charge Modulation of Epitaxial Films 1990 12 "AT&T Bell Laboratories, Murray Hill, New Jersey 07974" Phys.Rev.Lett.65(1989)3441 8875 PRL0653441 thickness= YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 4 1990 Y123 K 90.1 90.1 culculated from inductance L 1800 0.27 "films were grown epitaxally on LaAlO3 by coevaporation of Cu,Y,BaF2 in O2, ANN(850C in O2)" Metallic and Superconducting Surfaces of YBa2Cu3O7 Probed by Electrostatic Charge Modulation of Epitaxial Films 1990 12 "AT&T Bell Laboratories, Murray Hill, New Jersey 07974" Phys.Rev.Lett.65(1989)3441 8876 PRL0653441 thickness= YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 4 1990 Y123 K 91.4 91.4 culculated from inductance L 1800 0.194 "films were grown epitaxally on LaAlO3 by coevaporation of Cu,Y,BaF2 in O2, ANN(850C in O2)" Metallic and Superconducting Surfaces of YBa2Cu3O7 Probed by Electrostatic Charge Modulation of Epitaxial Films 1990 12 "AT&T Bell Laboratories, Murray Hill, New Jersey 07974" Phys.Rev.Lett.65(1989)3441 8877 PRL0653441 thickness= YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 4 1990 Y123 K 90.2 90.2 culculated from inductance L 1700 0.27 "films were grown epitaxally on LaAlO3 by coevaporation of Cu,Y,BaF2 in O2, ANN(850C in O2)" Metallic and Superconducting Surfaces of YBa2Cu3O7 Probed by Electrostatic Charge Modulation of Epitaxial Films 1990 12 "AT&T Bell Laboratories, Murray Hill, New Jersey 07974" Phys.Rev.Lett.65(1989)3441 8878 PRL0653441 thickness= YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 4 1990 Y123 K 90.2 90.2 2500 0.418 "films were grown epitaxally on LaAlO3 by coevaporation of Cu,Y,BaF2 in O2, ANN(850C in O2)" Metallic and Superconducting Surfaces of YBa2Cu3O7 Probed by Electrostatic Charge Modulation of Epitaxial Films 1990 12 "AT&T Bell Laboratories, Murray Hill, New Jersey 07974" Phys.Rev.Lett.65(1989)3441 8879 PRL0620217 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1989 Y123 K 89.7 0.2 89.7 A suseptibility 1400 "See J. Cryst, Growth 85(1987)593" Direct Measurement of the Temperature-Dependent Magnetic Penetration Depth in Y-Ba-Cu-O Crystals 1989 1 "IBM Tomas J. Watson Research center, Yorktown Heights, New York10598-0218" Phys.Rev.Lett.62(1989)217 8880 PRL0621908 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1989 Y123 K 92.5 92.5 "M(H,T)curve and WHH theory" 674 122 10.5 1.9 HC8880 16.4 3 crystals were grown by a partial melting method. J. Cryst. Growth 85(4987)593 Magnetic Measurements of the Upper Critical Field of YBa2Cu3O7-delta Single Crystals 1989 4 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439" Phys.Rev.Lett.62(1989)1908 8881 PHC3210183 "(Pb,V)Sr2(Ca,Er)Cu2Oz" Pb0.5V0.5Sr2Ca0.9Er0.1Cu2OZ Pb 0.5 V 0.5 Sr 2 Ca 0.9 Er 0.1 Cu 2 O Z 1 1999 Pb1212 K 5 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8882 PHC3210183 "(Pb,V)Sr2(Ca,Er)Cu2Oz" Pb0.5V0.5Sr2Ca0.7Er0.3Cu2OZ Pb 0.5 V 0.5 Sr 2 Ca 0.7 Er 0.3 Cu 2 O Z 1 1999 Pb1212 K 56.5 56.5 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8883 PHC3210183 "(Pb,V)Sr2(Ca,Er)Cu2Oz" Pb0.5V0.5Sr2Ca0.65Er0.35Cu2OZ Pb 0.5 V 0.5 Sr 2 Ca 0.65 Er 0.35 Cu 2 O Z 1 1999 Pb1212 K 50.7 50.7 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8884 PHC3210183 "(Pb,V)Sr2(Ca,Er)Cu2Oz" Pb0.5V0.5Sr2Ca0.6Er0.6Cu2OZ Pb 0.5 V 0.5 Sr 2 Ca 0.6 Er 0.6 Cu 2 O Z 1 1999 Pb1212 K 43.8 43.8 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8885 PHC3210183 "(Pb,V)Sr2(Ca,Er)Cu2Oz" Pb0.5V0.5Sr2Ca0.5Er0.5Cu2OZ Pb 0.5 V 0.5 Sr 2 Ca 0.5 Er 0.5 Cu 2 O Z 1 1999 Pb1212 K 22.3 22.3 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8886 PHC3210183 "(Pb,V)Sr2(Ca,Er)Cu2Oz" Pb0.5V0.5Sr2Ca0.4Er0.6Cu2OZ Pb 0.5 V 0.5 Sr 2 Ca 0.4 Er 0.6 Cu 2 O Z 1 1999 Pb1212 K 5 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8887 PHC3210183 "(Pb,V)Sr2(Ca,Er)Cu2Oz" Pb0.6V0.4Sr2Ca0.7Er0.3Cu2OZ Pb 0.6 V 0.4 Sr 2 Ca 0.7 Er 0.3 Cu 2 O Z 1 1999 Pb1212 K 58.8 58.8 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8888 PHC3210183 "(Pb,V)Sr2(Ca,Er)Cu2Oz" Pb0.6V0.4Sr2Ca0.65Er0.35Cu2OZ Pb 0.6 V 0.4 Sr 2 Ca 0.65 Er 0.35 Cu 2 O Z 1 1999 2 Pb1212 3.8097 11.8381 K 64.1 64.1 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8889 PHC3210183 "(Pb,V)Sr2(Ca,Er)Cu2Oz" Pb0.6V0.4Sr2Ca0.6Er0.6Cu2OZ Pb 0.6 V 0.4 Sr 2 Ca 0.6 Er 0.6 Cu 2 O Z 1 1999 2 Pb1212 3.8079 11.8316 K 62 62 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8890 PHC3210183 "(Pb,V)Sr2(Ca,Er)Cu2Oz" Pb0.6V0.4Sr2Ca0.5Er0.5Cu2OZ Pb 0.6 V 0.4 Sr 2 Ca 0.5 Er 0.5 Cu 2 O Z 1 1999 Pb1212 K 38.4 38.4 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8891 PHC3210183 "(Pb,V)Sr2(Ca,Er)Cu2Oz" Pb0.7V0.3Sr2Ca0.7Er0.3Cu2OZ Pb 0.7 V 0.3 Sr 2 Ca 0.7 Er 0.3 Cu 2 O Z 1 1999 Pb1212 K 58.8 58.8 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8892 PHC3210183 "(Pb,V)Sr2(Ca,Er)Cu2Oz" Pb0.7V0.3Sr2Ca0.65Er0.35Cu2OZ Pb 0.7 V 0.3 Sr 2 Ca 0.65 Er 0.35 Cu 2 O Z 1 1999 Pb1212 K 58.1 58.1 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8893 PHC3210183 "(Pb,V)Sr2(Ca,Er)Cu2Oz" Pb0.7V0.3Sr2Ca0.6Er0.4Cu2OZ Pb 0.7 V 0.3 Sr 2 Ca 0.6 Er 0.4 Cu 2 O Z 1 1999 Pb1212 K 58.8 58.8 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8894 PHC3210183 "(Pb,V)Sr2(Ca,Er)Cu2Oz" Pb0.7V0.3Sr2Ca0.5Er0.5Cu2OZ Pb 0.7 V 0.3 Sr 2 Ca 0.5 Er 0.5 Cu 2 O Z 1 1999 Pb1212 K 16.6 16.6 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8895 PHC3210183 "(Pb,V)Sr2(Ca,Lu)Cu2Oz" Pb0.6V0.4Sr2Ca0.65Lu0.35Cu2OZ Pb 0.6 V 0.4 Sr 2 Ca 0.65 Lu 0.35 Cu 2 O Z 1 1999 2 Pb1212 3.8035 11.8239 K 63.6 63.6 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8896 PHC3210183 "(Pb,V)Sr2(Ca,Dy)Cu2Oz" Pb0.6V0.4Sr2Ca0.65Dy0.35Cu2OZ Pb 0.6 V 0.4 Sr 2 Ca 0.65 Dy 0.35 Cu 2 O Z 1 1999 2 Pb1212 3.8079 11.8406 K 56.6 56.6 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8897 PHC3210183 "(Pb,V)Sr2(Ca,Gd)Cu2Oz" Pb0.6V0.4Sr2Ca0.65Gd0.35Cu2OZ Pb 0.6 V 0.4 Sr 2 Ca 0.65 Gd 0.35 Cu 2 O Z 1 1999 2 Pb1212 3.8267 11.8619 K 36.6 36.6 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8898 PHC3210183 "(Pb,V)Sr2(Ca,Sm)Cu2Oz" Pb0.6V0.4Sr2Ca0.65Sm0.35Cu2OZ Pb 0.6 V 0.4 Sr 2 Ca 0.65 Sm 0.35 Cu 2 O Z 1 1999 2 Pb1212 3.8311 11.8768 K 25.5 25.5 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8899 PHC3210183 "(Pb,V)Sr2(Ca,Lu)Cu2Oz" Pb0.6V0.4Sr2Ca0.6Lu0.4Cu2OZ Pb 0.6 V 0.4 Sr 2 Ca 0.6 Lu 0.4 Cu 2 O Z 1 1999 2 Pb1212 3.8009 11.8187 K 62.6 62.6 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8900 PHC3210183 "(Pb,V)Sr2(Ca,Dy)Cu2Oz" Pb0.6V0.4Sr2Ca0.6Dy0.4Cu2OZ Pb 0.6 V 0.4 Sr 2 Ca 0.6 Dy 0.4 Cu 2 O Z 1 1999 2 Pb1212 3.8167 11.8484 K 53.6 53.6 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8901 PHC3210183 "(Pb,V)Sr2(Ca,Gd)Cu2Oz" Pb0.6V0.4Sr2Ca0.6Gd0.4Cu2OZ Pb 0.6 V 0.4 Sr 2 Ca 0.6 Gd 0.4 Cu 2 O Z 1 1999 2 Pb1212 3.8299 11.8768 K 33.1 33.1 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8902 PHC3210183 "(Pb,V)Sr2(Ca,Sm)Cu2Oz" Pb0.6V0.4Sr2Ca0.6Sm0.4Cu2OZ Pb 0.6 V 0.4 Sr 2 Ca 0.6 Sm 0.4 Cu 2 O Z 1 1999 2 Pb1212 3.8311 11.8858 K 20.5 20.5 "SIN(995-997C,4H in flowing O2)-ANN(800C,12H in O2)-Q to LN2" "Ion size effect on Tc in (Pb,V)Sr2(Ca,R)Cu2Oz(R=Sm, Gd, Dy, Er and Lu) systems" 1999 8 "Department of Physics, Kangwon National University Chunchon 200-701, South Korea" "Physica C,321(1999)183-190" 8903 PHC3210199 "Tc(z) is shown in TCFIG,T1 value is Tc(max)" "(Ca,La)(Ba,La)2Cu3O7" Ca0.1La0.9Ba1.65La0.35Cu3O7.15 Ca 0.1 La 0.9 Ba 1.65 La 0.35 Cu 3 O Z 7.15 1999 Y123 K 57 57 TC8903 1 "See Phys.Rev.B,48(1993)532" Transport measurements in the 1-2-3 system CLBLCO in both the oxygen-underdoped and-overdoped regions 1999 8 "Department of Physics and Crown Center for Superconductivity, Technion, Israel Institute of Technology, 32000 Haifa, Israel" "Physica C,321(1999)199-206" 8904 PHC3210199 "Tc(z) is shown in TCFIG,T1 value is Tc(max)" "(Ca,La)(Ba,La)2Cu3O7" Ca0.2La0.8Ba1.55La0.45Cu3O7.16 Ca 0.2 La 0.8 Ba 1.55 La 0.45 Cu 3 O Z 7.16 1999 Y123 K 68 68 TC8904 1 "See Phys.Rev.B,48(1993)532" Transport measurements in the 1-2-3 system CLBLCO in both the oxygen-underdoped and-overdoped regions 1999 8 "Department of Physics and Crown Center for Superconductivity, Technion, Israel Institute of Technology, 32000 Haifa, Israel" "Physica C,321(1999)199-206" 8905 PHC3210199 "Tc(z) is shown in TCFIG,T1 value is Tc(max)" "(Ca,La)(Ba,La)2Cu3O7" Ca0.3La0.7Ba1.45La0.55Cu3O7.16 Ca 0.3 La 0.7 Ba 1.45 La 0.55 Cu 3 O Z 7.16 1999 Y123 K 76 76 TC8905 1 "See Phys.Rev.B,48(1993)532" Transport measurements in the 1-2-3 system CLBLCO in both the oxygen-underdoped and-overdoped regions 1999 8 "Department of Physics and Crown Center for Superconductivity, Technion, Israel Institute of Technology, 32000 Haifa, Israel" "Physica C,321(1999)199-206" 8906 PHC3210199 "Tc(z) is shown in TCFIG,T1 value is Tc(max)" "(Ca,La)(Ba,La)2Cu3O7" Ca0.4La0.6Ba1.35La0.65Cu3O7.15 Ca 0.4 La 0.6 Ba 1.35 La 0.65 Cu 3 O Z 7.15 1999 Y123 K 80 80 TC8906 5.91 TP8906 1 "See Phys.Rev.B,48(1993)532" Transport measurements in the 1-2-3 system CLBLCO in both the oxygen-underdoped and-overdoped regions 1999 8 "Department of Physics and Crown Center for Superconductivity, Technion, Israel Institute of Technology, 32000 Haifa, Israel" "Physica C,321(1999)199-206" 8907 PHC3210199 "Tc(z) is shown in TCFIG,T1 value is Tc(max)" "(Ca,La)(Ba,La)2(Cu,Ni)3Oz" Ca0.4La0.6Ba1.35La0.65Cu2.955Ni0.045OZ Ca 0.4 La 0.6 Ba 1.35 La 0.65 Cu 2.955 Ni 0.045 O Z 1999 K 71.3 71.3 TC8907 1 "See Phys.Rev.B,48(1993)532" Transport measurements in the 1-2-3 system CLBLCO in both the oxygen-underdoped and-overdoped regions 1999 8 "Department of Physics and Crown Center for Superconductivity, Technion, Israel Institute of Technology, 32000 Haifa, Israel" "Physica C,321(1999)199-206" 8908 PHC3210199 "Tc(z) is shown in TCFIG,T1 value is Tc(max)" "(Ca,La)(Ba,La)2(Cu,Ni)3Oz" Ca0.4La0.6Ba1.35La0.65Cu2.925Ni0.075OZ Ca 0.4 La 0.6 Ba 1.35 La 0.65 Cu 2.925 Ni 0.075 O Z 1999 K 63.8 63.8 TC8908 1 "See Phys.Rev.B,48(1993)532" Transport measurements in the 1-2-3 system CLBLCO in both the oxygen-underdoped and-overdoped regions 1999 8 "Department of Physics and Crown Center for Superconductivity, Technion, Israel Institute of Technology, 32000 Haifa, Israel" "Physica C,321(1999)199-206" 8909 PHC3210199 "Tc(z) is shown in TCFIG,T1 value is Tc(max)" "(Ca,La)(Ba,La)2(Cu,Ni)3Oz" Ca0.4La0.6Ba1.35La0.65Cu2.85Ni0.15OZ Ca 0.4 La 0.6 Ba 1.35 La 0.65 Cu 2.85 Ni 0.15 O Z 1999 K 45.7 45.7 TC8909 1 "See Phys.Rev.B,48(1993)532" Transport measurements in the 1-2-3 system CLBLCO in both the oxygen-underdoped and-overdoped regions 1999 8 "Department of Physics and Crown Center for Superconductivity, Technion, Israel Institute of Technology, 32000 Haifa, Israel" "Physica C,321(1999)199-206" 8910 PHC3210199 "Tc(z) is shown in TCFIG,T1 value is Tc(max)" "(Ca,La)(Ba,La)2(Cu,Ni)3Oz" Ca0.4La0.6Ba1.35La0.65Cu2.76Ni0.24OZ Ca 0.4 La 0.6 Ba 1.35 La 0.65 Cu 2.76 Ni 0.24 O Z 1999 K 23.6 23.6 TC8910 1 "See Phys.Rev.B,48(1993)532" Transport measurements in the 1-2-3 system CLBLCO in both the oxygen-underdoped and-overdoped regions 1999 8 "Department of Physics and Crown Center for Superconductivity, Technion, Israel Institute of Technology, 32000 Haifa, Israel" "Physica C,321(1999)199-206" 8911 PHC3210199 "Tc(z) is shown in TCFIG,T1 value is Tc(max)" "(Ca,La)(Ba,La)2(Cu,Ni)3Oz" Ca0.4La0.6Ba1.35La0.65Cu2.7Ni0.3OZ Ca 0.4 La 0.6 Ba 1.35 La 0.65 Cu 2.7 Ni 0.3 O Z 1999 K 16.5 16.5 TC8911 1 "See Phys.Rev.B,48(1993)532" Transport measurements in the 1-2-3 system CLBLCO in both the oxygen-underdoped and-overdoped regions 1999 8 "Department of Physics and Crown Center for Superconductivity, Technion, Israel Institute of Technology, 32000 Haifa, Israel" "Physica C,321(1999)199-206" 8912 PHC3220009 "(Hg,Cr)Sr2Ca1Cu2Oz" Hg0.7Cr0.3Sr2Ca1Cu2OZ Hg 0.7 Cr 0.3 Sr 2 Ca 1 Cu 2 O Z 1999 Hg1212 3.8451 11.9355 K 80 80 "high pressure synthesis (1000C,6GPa)" Synthesis of superconducting (Hg0.7Cr0.3)Sr2Can-1CunOy(n=2-5) using high-pressure technique 1999 9 "Superconductivity Research Laboratory, ISTEC, 10-13 Shinonome 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "Physica C,322(1999)9-18" 8913 PHC3220009 "(Hg,Cr)Sr2Ca2Cu3Oz" Hg0.7Cr0.3Sr2Ca2Cu3OZ Hg 0.7 Cr 0.3 Sr 2 Ca 2 Cu 3 O Z 1999 Hg1223 3.8494 15.1613 K 98 98 "high pressure synthesis (1000C,6GPa)" Synthesis of superconducting (Hg0.7Cr0.3)Sr2Can-1CunOy(n=2-5) using high-pressure technique 1999 9 "Superconductivity Research Laboratory, ISTEC, 10-13 Shinonome 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "Physica C,322(1999)9-18" 8914 PHC3220009 "(Hg,Cr)Sr2Ca3Cu4Oz" Hg0.7Cr0.3Sr2Ca3Cu4OZ Hg 0.7 Cr 0.3 Sr 2 Ca 3 Cu 4 O Z 1999 Hg1234 3.8583 18.2258 K 64 64 "high pressure synthesis (1000C,6GPa)" Synthesis of superconducting (Hg0.7Cr0.3)Sr2Can-1CunOy(n=2-5) using high-pressure technique 1999 9 "Superconductivity Research Laboratory, ISTEC, 10-13 Shinonome 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "Physica C,322(1999)9-18" 8915 PHC3220009 "(Hg,Cr)Sr2Ca4Cu5Oz" Hg0.7Cr0.3Sr2Ca4Cu5OZ Hg 0.7 Cr 0.3 Sr 2 Ca 4 Cu 5 O Z 1999 Hg1245 3.861 21.2903 K 45 45 "high pressure synthesis (1000C,6GPa)" Synthesis of superconducting (Hg0.7Cr0.3)Sr2Can-1CunOy(n=2-5) using high-pressure technique 1999 9 "Superconductivity Research Laboratory, ISTEC, 10-13 Shinonome 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "Physica C,322(1999)9-18" 8916 PHC3160069 "(Cu,Cr)Sr2Ca1Cu2Oz" Cu2.5Cr0.5Sr2Ca1OZ Cu 2.5 Cr 0.5 Sr 2 Ca 1 O Z 1999 Cu1212 K HIR8916 See Physica C 302(1998)244 "Critical current densities of high-Tc superconductors (Cu,Cr)Sr2Can-1CunO2n+3(n=2,3) prepared under high pressure" 1999 5 "National Institute for Research in Inorganic Materials, Namiki 1-1, Tsukuba, Ibaraki, 305-0044 Japan" "Physica C,316(1999)69-76" 8917 PHC3160069 "(Cu,Cr)Sr2Ca2Cu3Oz" Cu3.5Cr0.5Sr2Ca2OZ Cu 3.5 Cr 0.5 Sr 2 Ca 2 O Z 1999 Cu1223 K HIR8917 See Physica C 302(1998)244 "Critical current densities of high-Tc superconductors (Cu,Cr)Sr2Can-1CunO2n+3(n=2,3) prepared under high pressure" 1999 5 "National Institute for Research in Inorganic Materials, Namiki 1-1, Tsukuba, Ibaraki, 305-0044 Japan" "Physica C,316(1999)69-76" 8918 PHC3240015 O-content=nominel TlSr2Ca2Cu3Oz Tl1Sr2Ca2Cu3O9.4 Tl 1 Sr 2 Ca 2 Cu 3 O Z 9.4 1 1999 2 Tl1223 3.813 15.24 K 86 86 HIR8918 -0.56 TP8918 "Tl2O3, SrO2, CaO, CuO, Cu" "high pressure synthesis (1100C,4H,6GPa) in Au capsule" Synthesis and characterization of asingle-phase TlSr2Ca2Cu3Oy 1999 10 "Superconductivity Research Laboratory, ISTC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Physica C,324(1999)15-20" 8919 PHC3240133 YBa2Cu3O7 Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 1 1999 Y123 11.6922 K 90.7 90.7 using Au2O3 for Au Miscibility of Au and Cu in superconducting YBa2(Cu1-xAu)O7-delta for 0< x <0.15 1999 11 "Physics Department , Purdue University, West Lafayette, IN 47907-1396, USA" "Physica C,324(1999)133-136" 8920 PHC3240133 "YBa2(Cu,Au)3O7" Y1Ba2Cu2.85Au0.15OZ Y 1 Ba 2 Cu 2.85 Au 0.15 O Z 1 1999 Y123 11.7552 K 92.3 92.3 using Au2O3 for Au Miscibility of Au and Cu in superconducting YBa2(Cu1-xAu)O7-delta for 0< x <0.15 1999 11 "Physics Department , Purdue University, West Lafayette, IN 47907-1396, USA" "Physica C,324(1999)133-136" 8921 PHC3240133 "YBa2(Cu,Au)3O7" Y1Ba2Cu2.7Au0.3OZ Y 1 Ba 2 Cu 2.7 Au 0.3 O Z 1 1999 Y123 11.7734 K 84.2 87.8 91 87.8 using Au2O3 for Au Miscibility of Au and Cu in superconducting YBa2(Cu1-xAu)O7-delta for 0< x <0.15 1999 11 "Physics Department , Purdue University, West Lafayette, IN 47907-1396, USA" "Physica C,324(1999)133-136" 8922 PHC3240133 "YBa2(Cu,Au)3O7" Y1Ba2Cu2.55Au0.45OZ Y 1 Ba 2 Cu 2.55 Au 0.45 O Z 1 1999 Y123 11.8339 K 68.7 71.8 75 71.8 using Au2O3 for Au Miscibility of Au and Cu in superconducting YBa2(Cu1-xAu)O7-delta for 0< x <0.15 1999 11 "Physics Department , Purdue University, West Lafayette, IN 47907-1396, USA" "Physica C,324(1999)133-136" 8923 PHC3240193 nominal 0 % Mn Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 1999 Bi2212 30.8258 K 83.7 83.7 self-flux method Growth of superconducting Bi2Sr2Ca(Cu1-xMn)2Oy single crystals 1999 11 "Department of Materials Science and Engineering, University of Science and Technology of China, Hefei 230026, People's republic of China" "Physica C,324(1999)193-197" 8924 PHC3240193 nominal 1 % Mn "Bi2Sr2Ca(Cu,Mn)2Oz" Bi2Sr2Ca1Cu1.54Au0.46OZ Bi 2 Sr 2 Ca 1 Cu 1.54 Au 0.46 O Z 1999 Bi2212 30.7887 K 74.7 74.7 self-flux method Growth of superconducting Bi2Sr2Ca(Cu1-xMn)2Oy single crystals 1999 11 "Department of Materials Science and Engineering, University of Science and Technology of China, Hefei 230026, People's republic of China" "Physica C,324(1999)193-197" 8925 PHC3240193 nominal 2 % Mn "Bi2Sr2Ca(Cu,Mn)2Oz" Bi2Sr2Ca1Cu1.2Au0.8OZ Bi 2 Sr 2 Ca 1 Cu 1.2 Au 0.8 O Z 1999 Bi2212 30.7793 K 73.2 73.2 self-flux method Growth of superconducting Bi2Sr2Ca(Cu1-xMn)2Oy single crystals 1999 11 "Department of Materials Science and Engineering, University of Science and Technology of China, Hefei 230026, People's republic of China" "Physica C,324(1999)193-197" 8926 PHC3240193 nominal 5 % Mn "Bi2Sr2Ca(Cu,Mn)2Oz" Bi2Sr2Ca1Cu0.2Au1.8OZ Bi 2 Sr 2 Ca 1 Cu 0.2 Au 1.8 O Z 1999 Bi2212 30.7749 K 70.1 70.1 self-flux method Growth of superconducting Bi2Sr2Ca(Cu1-xMn)2Oy single crystals 1999 11 "Department of Materials Science and Engineering, University of Science and Technology of China, Hefei 230026, People's republic of China" "Physica C,324(1999)193-197" 8927 PHC3240193 nominal 8 % Mn "Bi2Sr2Ca(Cu,Mn)2Oz" Bi2Sr2Ca1Cu-1.7Au3.7OZ Bi 2 Sr 2 Ca 1 Cu -1.7 Au 3.7 O Z 1999 Bi2212 30.7716 K 63 63 self-flux method Growth of superconducting Bi2Sr2Ca(Cu1-xMn)2Oy single crystals 1999 11 "Department of Materials Science and Engineering, University of Science and Technology of China, Hefei 230026, People's republic of China" "Physica C,324(1999)193-197" 8928 PHC3250153 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 3 1999 Bi2212 3.0914 K 85.6 85.6 "self-flux method, Bi2Sr2(Ca,La)Cu2O8+z +20.2Bi2O3" Effect of La-doping on growth and superconductivity of Bi-2212 crystals 1999 11 "Institut fur Angewandte Physik, Universitat Hamburg, Jungiustrasse 11, 20355 Humburg, Germany" "Physica C,325(1999)153-158" 8929 PHC3250153 "Bi2Sr2(Ca,La)Cu2O8" Bi2Sr2Ca0.975La0.025Cu2O8+Z Bi 2 Sr 2 Ca 0.975 La 0.025 Cu 2 O 8+Z 3 1999 Bi2212 3.0818 K 73.5 73.5 "self-flux method, Bi2Sr2(Ca,La)Cu2O8+z +20.2Bi2O3" Effect of La-doping on growth and superconductivity of Bi-2212 crystals 1999 11 "Institut fur Angewandte Physik, Universitat Hamburg, Jungiustrasse 11, 20355 Humburg, Germany" "Physica C,325(1999)153-158" 8930 PHC3250153 "Bi2Sr2(Ca,La)Cu2O8" Bi2Sr2Ca0.95La0.05Cu2O8+Z Bi 2 Sr 2 Ca 0.95 La 0.05 Cu 2 O 8+Z 3 1999 Bi2212 3.686 K 64.4 64.4 "self-flux method, Bi2Sr2(Ca,La)Cu2O8+z +20.2Bi2O3" Effect of La-doping on growth and superconductivity of Bi-2212 crystals 1999 11 "Institut fur Angewandte Physik, Universitat Hamburg, Jungiustrasse 11, 20355 Humburg, Germany" "Physica C,325(1999)153-158" 8931 PHC3250153 "Bi2Sr2(Ca,La)Cu2O8" Bi2Sr2Ca0.925La0.075Cu2O8+Z Bi 2 Sr 2 Ca 0.925 La 0.075 Cu 2 O 8+Z 3 1999 Bi2212 3.641 K 57.6 57.6 "self-flux method, Bi2Sr2(Ca,La)Cu2O8+z +20.2Bi2O3" Effect of La-doping on growth and superconductivity of Bi-2212 crystals 1999 11 "Institut fur Angewandte Physik, Universitat Hamburg, Jungiustrasse 11, 20355 Humburg, Germany" "Physica C,325(1999)153-158" 8932 PHC3250153 "Bi2Sr2(Ca,La)Cu2O8" Bi2Sr2Ca0.8La0.2Cu2O8+Z Bi 2 Sr 2 Ca 0.8 La 0.2 Cu 2 O 8+Z 3 1999 Bi2212 3.0586 K 29.6 29.6 "self-flux method, Bi2Sr2(Ca,La)Cu2O8+z +20.2Bi2O3" Effect of La-doping on growth and superconductivity of Bi-2212 crystals 1999 11 "Institut fur Angewandte Physik, Universitat Hamburg, Jungiustrasse 11, 20355 Humburg, Germany" "Physica C,325(1999)153-158" 8933 PHC3250153 "Bi2Sr2(Ca,La)Cu2O8" Bi2Sr2Ca0.75La0.25Cu2O8+Z Bi 2 Sr 2 Ca 0.75 La 0.25 Cu 2 O 8+Z 3 1999 Bi2212 3.568 K 17.4 17.4 "self-flux method, Bi2Sr2(Ca,La)Cu2O8+z +20.2Bi2O3" Effect of La-doping on growth and superconductivity of Bi-2212 crystals 1999 11 "Institut fur Angewandte Physik, Universitat Hamburg, Jungiustrasse 11, 20355 Humburg, Germany" "Physica C,325(1999)153-158" 8934 PHC3250041 as-prepared sample. O-content by structural analysis. "(Hg,Mo)Ba2CuOz" Hg0.75Mo0.25Ba2Cu1O4.59 Hg 0.75 Mo 0.25 Ba 2 Cu 1 O 4+Z 4.59 1 1999 2 Hg1201 3.883 9.3547 K 12 12 precursor(Mo-Ba-Cu-O)+HgO "Synthesis, structure and superconductivity of Hg0.75Mo0.25Ba2CuO4+delta" 1999 11 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche, Parco Area delle Scienze 37A, 43010 Fantanini, Parma, Italy" "Physica C,325(1999)41-48" 8935 PHC3250041 annealed sample. O-content by structural analysis. "(Hg,Mo)Ba2CuOz" Hg0.75Mo0.25Ba2Cu1O4.51 Hg 0.75 Mo 0.25 Ba 2 Cu 1 O 4+Z 4.51 1 1999 2 Hg1201 3.8875 9.3592 K 40 40 "as-grown sample-ANN(350C, in Ar)" "Synthesis, structure and superconductivity of Hg0.75Mo0.25Ba2CuO4+delta" 1999 11 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche, Parco Area delle Scienze 37A, 43010 Fantanini, Parma, Italy" "Physica C,325(1999)41-48" 8936 EPL0450387 "two-leg ladder. incommensulate structure. [A2Cu2O3]m[CuO2]n, (m,n) = (5,7)" "(Sr,Ca,Bi,Y,Pb)10Cu17O29" Sr3.1Ca5.9Bi0.4Y0.3Pb0.3Cu16.7O29 Sr 3.1 Ca 5.9 Bi 0.4 Y 0.3 Pb 0.3 Cu 16.7 O 29 3 1999 LAD 11.316 12.763 19.491 K 80 80 1 80 A 45 micron m 0.7 "self-flux method, heat(1100C)-cool to 900C(1C/h) needle-like samples were grown" "Superconductivity in two-leg spin ladders[A2Cu2O3]5[CuO2]7 (A=Sr,Ca,Bi,Y,Pb)" 1999 "Moscow State University-119899 Moscow, Russia" Europhys.Lett.45(1999)387-392 8937 EPL0460787 "twinned crystal, Lindemann constant=0.16" NdBa2Cu3O7 Nd1Ba2Cu3O7-Z Nd 1 Ba 2 Cu 3 O 7-Z 3 1999 Y123 K 95.65 95.65 T 287 T/K 3 HIR8937 resistance kink (1st order) "melt-process, atmosphere=0.03% O2+Ar during growth " Flux lattice melting in twinned NdBa2Cu3O7-y single crystals 1999 "Superconductivity Research Laboratory, ISTEC,10-13 Shinonome 1-Chome, Koto-ku, Tokyo 135-0062, Japan" Europhys.Lett.46(1999)787-793 8938 PRL0722263 anisotropy factor=24.6 "(La,Sr)2CuO4" La1.91Sr0.09Cu1O4 La 1.91 Sr 0.09 Cu 1 O 4 3 1994 T K 27.9 27.9 um surface impedance 0.75 17.4 details of sample preparation are not described Anisotropic Penetration Depth in La2-xSrxCuO4 1994 4 "Department of Applied Physics,The University of Tokyo,7-3-1 Hongo,Bunkyo-ko,Tokyo 113,Japan" "Phys.Rev.Lett.,72(1994)2263" 8939 PRL0722263 anisotropy factor=21. "(La,Sr)2CuO4" La1.88Sr0.12Cu1O4 La 1.88 Sr 0.12 Cu 1 O 4 3 1994 T K 32 32 um surface impedance 0.54 11 details of sample preparation are not described Anisotropic Penetration Depth in La2-xSrxCuO4 1994 4 "Department of Applied Physics,The University of Tokyo,7-3-1 Hongo,Bunkyo-ko,Tokyo 113,Japan" "Phys.Rev.Lett.,72(1994)2263" 8940 PRL0722263 anisotropy factor=14 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 3 1994 T K 35.1 35.1 um surface impedance 0.41 5.5 details of sample preparation are not described Anisotropic Penetration Depth in La2-xSrxCuO4 1994 4 "Department of Applied Physics,The University of Tokyo,7-3-1 Hongo,Bunkyo-ko,Tokyo 113,Japan" "Phys.Rev.Lett.,72(1994)2263" 8941 PRL0722263 anisotropy factor=12.1. "(La,Sr)2CuO4" La1.82Sr0.18Cu1O4 La 1.82 Sr 0.18 Cu 1 O 4 3 1994 T K 32.2 32.2 um surface impedance 0.17 2.03 details of sample preparation are not described Anisotropic Penetration Depth in La2-xSrxCuO4 1994 4 "Department of Applied Physics,The University of Tokyo,7-3-1 Hongo,Bunkyo-ko,Tokyo 113,Japan" "Phys.Rev.Lett.,72(1994)2263" 8942 PRL0722263 anisotropy factor=11.5. "(La,Sr)2CuO4" La1.81Sr0.19Cu1O4 La 1.81 Sr 0.19 Cu 1 O 4 3 1994 T K 29.1 29.1 um surface impedance 0.26 2.96 details of sample preparation are not described Anisotropic Penetration Depth in La2-xSrxCuO4 1994 4 "Department of Applied Physics,The University of Tokyo,7-3-1 Hongo,Bunkyo-ko,Tokyo 113,Japan" "Phys.Rev.Lett.,72(1994)2263" 8943 JSC1420205 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1999 Bi2212 K TP8943 conventional solid state reaction "Anomalous Thermoelectric Power Behaviors of lodine Intercalated (Bi,Pb)2Sr2Can-1CunO2n+4+delta Superconductors (n=2 and 3)" 1999 "Department of Chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" J.Solid State Chem.142(1999)199-205 8944 JSC1420205 I-concentration unknown. Tc estimated from TPFIG IBi2Sr2CaCu2O8 I1Bi2Sr2Ca1Cu2O8 I 1 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1999 Bi2212 K TP8944 prestine and iodine were sealed and heat at 180C for 1h. "Anomalous Thermoelectric Power Behaviors of lodine Intercalated (Bi,Pb)2Sr2Can-1CunO2n+4+delta Superconductors (n=2 and 3)" 1999 "Department of Chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" J.Solid State Chem.142(1999)199-205 8945 JSC1420205 Pb-concentration unknown. Tc estimated from TPFIG "(Bi,Pb)2Sr2Ca2Cu3Oz" Bi1.7Pb0.3Sr2Ca2Cu3OZ Bi 1.7 Pb 0.3 Sr 2 Ca 2 Cu 3 O Z 1999 Bi2223 K TP8945 conventional solid state reaction "Anomalous Thermoelectric Power Behaviors of lodine Intercalated (Bi,Pb)2Sr2Can-1CunO2n+4+delta Superconductors (n=2 and 3)" 1999 "Department of Chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" J.Solid State Chem.142(1999)199-205 8946 JSC1420205 Pb- and I-concentrations unknown. Tc estimated from TPFIG "I(Bi,Pb)2Sr2Ca2Cu3Oz" I1Bi1.7Pb0.3Sr2Ca2Cu3OZ I 1 Bi 1.7 Pb 0.3 Sr 2 Ca 2 Cu 3 O Z 1999 Bi2223 K TP8946 prestine and iodine were sealed and heat at 150C for 10h. "Anomalous Thermoelectric Power Behaviors of lodine Intercalated (Bi,Pb)2Sr2Can-1CunO2n+4+delta Superconductors (n=2 and 3)" 1999 "Department of Chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" J.Solid State Chem.142(1999)199-205 8947 JAP0858299 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 3 1999 Bi2212 5.41 30.88 K 80 80 mT Tochihara analysis 3.7 0.1 self flux method. Lower critical fields of Bi2Sr2CaCu2O8+d and YBa2Cu3O7-d single crystals 1999 6 "Dpartment of Mathematics and Physics, National Defense Academy, Yokosuka 239-8686, Japan" J.Apple.Phys.85(1999)8299 8948 JAP0858299 YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 3 1999 Y123 3.81 3.88 11.67 K 89 89 mT Tochihara analysis 18 2.7 self flux method. Lower critical fields of Bi2Sr2CaCu2O8+d and YBa2Cu3O7-d single crystals 1999 6 "Dpartment of Mathematics and Physics, National Defense Academy, Yokosuka 239-8686, Japan" J.Apple.Phys.85(1999)8299 8949 JMR0140334 not s/c GdBa4Cu3O8.5 Gd1Ba4Cu3O8.5+Z Gd 1 Ba 4 Cu 3 O 8.5+Z 1 1999 Y143 8.16528 K 5 "R:Ba:Cu=1:4:3, SIN(950C,24H in O2 flow)" Synthesis and crystal chemistry of the new compounds GdBa4Cu3O8.5+delta and DyBa4Cu3O8.5+delta 1999 2 "Mail Stop K763, Materials Science and Technology Division, Los Alamos National Laboratory, Los Alamos, new Mexico 87545" J.Mater.Les.14(1999)334 8950 JMR0140334 not s/c DyBa4Cu3O8.5 Dy1Ba4Cu3O8.5+Z Dy 1 Ba 4 Cu 3 O 8.5+Z 1 1999 Y143 8.1081 K 5 "R:Ba:Cu=1:4:3, SIN(950C,24H in O2 flow)" Synthesis and crystal chemistry of the new compounds GdBa4Cu3O8.5+delta and DyBa4Cu3O8.5+delta 1999 2 "Mail Stop K763, Materials Science and Technology Division, Los Alamos National Laboratory, Los Alamos, new Mexico 87545" J.Mater.Les.14(1999)334 8951 JSC1430277 size=0.25*0.18*0.02 mm3 "(Hg,Re)Ba2Ca5Cu6Oz" Hg0.75Re0.22Ba2Ca5Cu6OZ Hg 0.75 Re 0.22 Ba 2 Ca 5 Cu 6 O Z 3 1999 5.721 Hg1256 3.8542 25.162 K 100 100 gas-phase high-pressure technique Structure and Properties of 1256 and 1267 Type Hg1-xRexBa2Can-1CunO2n+2+4x+delta Single Crystals 1999 "Laboratorium fur Festkorperphysik, ETH Honggerberg, 8093 Zurich, Swizerland" J.Solid State Chem.143(1999)277-284 8952 JSC1430277 not twinned "(Hg,Re)Ba2Ca6Cu7Oz" Hg0.75Re0.22Ba2Ca6Cu7OZ Hg 0.75 Re 0.22 Ba 2 Ca 6 Cu 7 O Z 3 1999 Hg1267 3.8514 28.388 K 84 84 gas-phase high-pressure technique Structure and Properties of 1256 and 1267 Type Hg1-xRexBa2Can-1CunO2n+2+4x+delta Single Crystals 1999 "Laboratorium fur Festkorperphysik, ETH Honggerberg, 8093 Zurich, Swizerland" J.Solid State Chem.143(1999)277-284 8953 JSC1440405 "(Sr,K)2Bi2O7" Sr1.6K1.4Bi2O7 Sr 1.6 K 1.4 Bi 2 O 7 1999 2 I4/mmm 4.1549 21.8273 K 1.5 "high O2-pressure technique. mixture of (Sr2Bi2O5,KO2,Bi2O3)-heat(300-450C, 20H, 40-80bar O2)" "A New Layered Bismuthate (Sr,K)3Bi2O7: Synthesis and Crystal Structure" 1999 "Department of Chemistry, Moscow State University, Moscow 119899, Russia" J.Solid State Chem.144(1999)405-408 8954 PHC2650171 "(La,Ca)2CaCu2O6" La1.85Nd0Ca1.15Cu2O5.99 La 1.85 Nd 0 Ca 1.15 Cu 2 O 6-Z 5.99 1 1996 2 2126 3.823 19.419 K 20 23 25 23 1 "SIN (1080C,12H in O2 flow)-ANN (1100C, 50H in 30 atm O2)" Temperature dependence of Hall angle in superconducting La1.85-xNdxCa1.15Cu2O6-z 1996 7 "Department o Inorganic Materials,Fculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro.Tokyo 152, Japan" "Physica.C,265(1996)171-177" "La, Nd, Ca, Cu, O" 8955 PHC2650171 "(La,Nd,Ca)2CaCu2O6" La1.8Nd0.05Ca1.15Cu2O6-Z La 1.8 Nd 0.05 Ca 1.15 Cu 2 O 6-Z 1 1996 2 2126 3.822 19.405 K 15 19 23 19 1 "SIN (1080C,12H in O2 flow)-ANN (1100C, 50H in 30 atm O2)" Temperature dependence of Hall angle in superconducting La1.85-xNdxCa1.15Cu2O6-z 1996 7 "Department o Inorganic Materials,Fculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro.Tokyo 152, Japan" "Physica.C,265(1996)171-177" "La, Nd, Ca, Cu, O" 8956 PHC2650171 "(La,Nd,Ca)2CaCu2O6" La1.75Nd0.1Ca1.15Cu2O6-Z La 1.75 Nd 0.1 Ca 1.15 Cu 2 O 6-Z 1 1996 2 2126 3.824 19.4 K 12 15 19 15 1 "SIN (1080C,12H in O2 flow)-ANN (1100C, 50H in 30 atm O2)" Temperature dependence of Hall angle in superconducting La1.85-xNdxCa1.15Cu2O6-z 1996 7 "Department o Inorganic Materials,Fculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro.Tokyo 152, Japan" "Physica.C,265(1996)171-177" "La, Nd, Ca, Cu, O" 8957 PHC2650171 "(La,Nd,Ca)2CaCu2O6" La1.7Nd0.15Ca1.15Cu2O6-Z La 1.7 Nd 0.15 Ca 1.15 Cu 2 O 6-Z 1 1996 2 2126 3.822 19.396 K 8 11 14 11 1 "SIN (1080C,12H in O2 flow)-ANN (1100C, 50H in 30 atm O2)" Temperature dependence of Hall angle in superconducting La1.85-xNdxCa1.15Cu2O6-z 1996 7 "Department o Inorganic Materials,Fculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro.Tokyo 152, Japan" "Physica.C,265(1996)171-177" "La, Nd, Ca, Cu, O" 8958 PHC2650171 "(La,Nd,Ca)2CaCu2O6" La1.65Nd0.2Ca1.15Cu2O5.99 La 1.65 Nd 0.2 Ca 1.15 Cu 2 O 6-Z 5.99 1 1996 2 2126 3.824 19.382 K 5 9 5 1 "SIN (1080C,12H in O2 flow)-ANN (1100C, 50H in 30 atm O2)" Temperature dependence of Hall angle in superconducting La1.85-xNdxCa1.15Cu2O6-z 1996 7 "Department o Inorganic Materials,Fculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro.Tokyo 152, Japan" "Physica.C,265(1996)171-177" "La, Nd, Ca, Cu, O" 8959 PHC2650171 "(La,Nd,Ca)2CaCu2O6" La1.45Nd0.4Ca1.15Cu2O5.98 La 1.45 Nd 0.4 Ca 1.15 Cu 2 O 6-Z 5.98 1 1996 2 2126 3.823 19.347 K 4.2 1 "SIN (1080C,12H in O2 flow)-ANN (1100C, 50H in 30 atm O2)" Temperature dependence of Hall angle in superconducting La1.85-xNdxCa1.15Cu2O6-z 1996 7 "Department o Inorganic Materials,Fculty of Engineering,Tokyo Institute of Technology,2-12-1 O-okayama,Meguro.Tokyo 152, Japan" "Physica.C,265(1996)171-177" "La, Nd, Ca, Cu, O" 8960 JSC1350017 "F-content is described as 2tz, but not measured." Sr2Cu(O2F2) Sr2Cu1F2O2 Sr 2 Cu 1 F 2 O 2 1 1998 T K 46 46 fluori nation (using metal difluoride) "Superconducting Sr2-xAxCuO2F2+delta(A=Ca,Ba): Synthetic Pathways and Associated Structural Rearrangements" 1998 "School of Chemistry, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kingdom; and School of Physics and Space Research, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kingdom" J.Solid State Chem.135(1998)17-27 8961 JSC1350017 "F-content is described as 2tz, but not measured." "(Sr,Ba)2Cu(O2,F2)" Sr1.4Ba0.6Cu1F2O2 Sr 1.4 Ba 0.6 Cu 1 F 2 O 2 1 1998 T K 64 64 fluori nation (using metal difluoride) "Superconducting Sr2-xAxCuO2F2+delta(A=Ca,Ba): Synthetic Pathways and Associated Structural Rearrangements" 1998 "School of Chemistry, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kingdom; and School of Physics and Space Research, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kingdom" J.Solid State Chem.135(1998)17-27 8962 PHC2170287 "impuriy= (Ba,Sr)2CuO3" "TlSr2(Sr,Ba)2Cu2(CO3)Oz" Tl1Sr3Ba1Cu2Co3OZ Tl 1 Sr 3 Ba 1 Cu 2 Co 3 O Z 1 1993 Tl1223 K 44 52.2 52.2 "Tl2O3, Sr2CuO2(CO3), BaO2, CuO" "mixture-SIN( 930-950C, 0.5H in gas flow(99% O2+1% CO2) -Q to RT." Incommensurate and commensurate superstructures in the oxycarbonate superconductor TlSr4-xBaxCu2(CO3)Oy (y=2) 1993 11 "National Institute for Research in Inorganic Materials,Tsukuba,Japan" "Physica C, 217(1993)287" "Tl,Sr,Ba,Cu,C,O" 8963 PHC2170287 "impuriy= (Ba,Sr)2CuO3" "TlSr2(Sr,Ba)2Cu2(CO3)Oz" Tl1Sr2.5Ba1.5Cu2Co3OZ Tl 1 Sr 2.5 Ba 1.5 Cu 2 Co 3 O Z 1 1993 Tl1223 K 59 64 64 "Tl2O3, Sr2CuO2(CO3), BaO2, CuO" "mixture-SIN( 930-950C, 0.5H in gas flow(99% O2+1% CO2) -Q to RT." Incommensurate and commensurate superstructures in the oxycarbonate superconductor TlSr4-xBaxCu2(CO3)Oy (y=2) 1993 11 "National Institute for Research in Inorganic Materials,Tsukuba,Japan" "Physica C, 217(1993)287" "Tl,Sr,Ba,Cu,C,O" 8964 PHC2170287 "impuriy= (Ba,Sr)2CuO3" "TlSr2(Sr,Ba)2Cu2(CO3)Oz" Tl1Sr2Ba2Cu2Co3OZ Tl 1 Sr 2 Ba 2 Cu 2 Co 3 O Z 1 1993 Tl1223 K 67.4 69 73 69 "Tl2O3, Sr2CuO2(CO3), BaO2, CuO" "mixture-SIN( 930-950C, 0.5H in gas flow(99% O2+1% CO2) -Q to RT." Incommensurate and commensurate superstructures in the oxycarbonate superconductor TlSr4-xBaxCu2(CO3)Oy (y=2) 1993 11 "National Institute for Research in Inorganic Materials,Tsukuba,Japan" "Physica C, 217(1993)287" "Tl,Sr,Ba,Cu,C,O" 8965 PHC2170287 "impuriy= (Ba,Sr)2CuO3" "TlSr2(Sr,Ba)2Cu2(CO3)Oz" Tl1Sr1.5Ba2.5Cu2Co3OZ Tl 1 Sr 1.5 Ba 2.5 Cu 2 Co 3 O Z 1 1993 Tl1223 K 59 64 64 "Tl2O3, Sr2CuO2(CO3), BaO2, CuO" "mixture-SIN( 930-950C, 0.5H in gas flow(99% O2+1% CO2) -Q to RT." Incommensurate and commensurate superstructures in the oxycarbonate superconductor TlSr4-xBaxCu2(CO3)Oy (y=2) 1993 11 "National Institute for Research in Inorganic Materials,Tsukuba,Japan" "Physica C, 217(1993)287" "Tl,Sr,Ba,Cu,C,O" 8966 PHC2070065 "n=4 for(Y,Ca)nSr2nCu3n-1CO3O7n-3 series not s/c" Y4Sr8Cu11(CO3)O25 Y4Sr8Cu11C1O28 Y 4 Sr 8 Cu 11 C 1 O 28 1993 Bm2m 15.311 3.851 22.371 K 4 1 nominal composition=YSr2Cu3O7 "ORDERED SUBSTITUTION OF ""CO3""GROUPS FOR CUO4 SQUARE GROUPS IN THE ""123"" STRUCTURE" 1993 3 "PHYSICA C,207(1993)65" "C,O,CU,Y,SR" 8967 PHC2080116 lattice parameters show subcell parameters "(Y,Ca)2Ba4Cu5(NO3,CO3)O11" Y1Ca1Ba4Cu5N0.3C0.7O14 Y 1 Ca 1 Ba 4 Cu 5 N 0.3 C 0.7 O 14 1993 3.879 3.885 11.536 K 82 82 15 1 "mixture-pellet-( evacuated ampoule) heat (900C,24H)-FC to RT" "INTRODUCTION OF NITRATE GROUPS IN THE ""123""STRUCTURE" 1993 4 "PHYSICA C,208(1993)116" "Y,CA,BA,CU,N,C,O" 8968 PHC2200310 "impurity phase= BaCuO2, Tl-1223/Ag tape" TlBa2Ca2Cu3O9 Tl1Ba2Ca2Cu3O9+Z Tl 1 Ba 2 Ca 2 Cu 3 O 9+Z 1994 Tl1223 K 103 103 HIR8968 1 nominal Tl:Ba:Ca:Cu= 2.12:2:2:3 "Granularity, microstructure, and flux creep in TlBa2Ca2Cu3O9+z superconducting powder and silver-sheathed tapes" 1994 2 "Physica C, 220(1994)310-322" "Tl,Ba,Ca,Cu,O" 8969 PHC2080226 "(Sr,Ca)CuO2" Sr0.6Ca0.333Cu1O2.15 Sr 0.6 Ca 0.333 Cu 1 O 2+Z 2.15 1993 IL K 82 82 "(Sr-Ca-Cu-O) samples were prepared using a high-pressure synthesis. oxidize using KClO3 or KClO4 For Z>=2.10, IL phase decomposed to others." HIGH-PRESSURE SYNTHESIS OF SUPERCONDUCTING SR-CA-CU-O SAMPLES 1993 4 "PHYSICA C,208(1993)226" "SR,CA,CU,O" 8970 PHC2080226 "(Sr,Ca)CuO2" Sr0.6Ca0.333Cu1O2.2 Sr 0.6 Ca 0.333 Cu 1 O 2+Z 2.2 1993 IK K 98 98 "(Sr-Ca-Cu-O) samples were prepared using a high-pressure synthesis. oxidize using KClO3 or KClO4 For Z>=2.10, IL phase decomposed to others." HIGH-PRESSURE SYNTHESIS OF SUPERCONDUCTING SR-CA-CU-O SAMPLES 1993 4 "PHYSICA C,208(1993)226" "SR,CA,CU,O" 8971 PR04714654 "(Sr,La)CuO2" Sr0.9La0.1Cu1O2 Sr 0.9 La 0.1 Cu 1 O 2 1993 2 IL P4/mmm 3.95 3.409 K 42 42 "SrCO3, La2O3, CuO" "mixture-heat (950C,48H) -(boronitride capsule) -high pressure synthesis (950C,1H at 5 GPa) -ANN (500C,20H at 5 GPa)" STRUCTURE OF SUPERCONDUCTING SR0.9LA0.1CUO2 (TC=42K) FROM NEUTRON POWDER DIFFRACTION 1993 6 "PHYS.REV.B,47(1993)14654" 8972 NAT3560775 "impurity phase=CuO+unknown phase, second Tc=75K" "(Sr,Ca)CuO2" Sr0.7Ca0.3Cu1O2 Sr 0.7 Ca 0.3 Cu 1 O 2 1992 2 IL 3.902 3.35 K 35 110 110 110 "mixture-heat (1273K, 0.5H at 6GPa using anvil-tyre apparatus) -oxidize using KClO4" Superconductivity at 110 K in the infinite-layer compound(Sr1-xCax)1-yCuO2 1992 "Nature, 356(1992)775-776" 8973 PR06000610 Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 1999 Sr2RuO4 K 0.616 0.616 TC8973 T using Hc2(O)=-0.68(dHc2/dT)*Tc. 0.0137 HC8973 A esimated using Hc2(O) values. 1514 "floating-zone image turnace, 15% excess Ru as flux, melted in 10% O2+ 90% Ar wuth total of 3 bar, Tc depends on the feed speed." Suppression of superconductivity in Sr2RuO4 caused by defects 1999 7 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 60(1999)610-615" 8974 PR06000610 Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 1999 Sr2RuO4 K 0.954 0.954 TC8973 T using Hc2(O)=-0.68(dHc2/dT)*Tc. 0.0231 HC8974 A esimated using Hc2(O) values. 1158 "floating-zone image turnace, 15% excess Ru as flux, melted in 10% O2+ 90% Ar wuth total of 3 bar, Tc depends on the feed speed." Suppression of superconductivity in Sr2RuO4 caused by defects 1999 7 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 60(1999)610-615" 8975 PR06000610 Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 1999 Sr2RuO4 K 1.201 1.201 TC8973 T using Hc2(O)=-0.68(dHc2/dT)*Tc. 0.0378 HC8975 A esimated using Hc2(O) values. 920 "floating-zone image turnace, 15% excess Ru as flux, melted in 10% O2+ 90% Ar wuth total of 3 bar, Tc depends on the feed speed." Suppression of superconductivity in Sr2RuO4 caused by defects 1999 7 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 60(1999)610-615" 8976 PR06000610 Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 1999 Sr2RuO4 K 1.242 1.242 TC8973 T using Hc2(O)=-0.68(dHc2/dT)*Tc. 0.0465 HC8976 A esimated using Hc2(O) values. 821 "floating-zone image turnace, 15% excess Ru as flux, melted in 10% O2+ 90% Ar wuth total of 3 bar, Tc depends on the feed speed." Suppression of superconductivity in Sr2RuO4 caused by defects 1999 7 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 60(1999)610-615" 8977 PR06000610 Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 1999 Sr2RuO4 K 1.398 1.398 T using Hc2(O)=-0.68(dHc2/dT)*Tc. 0.053 HC8977 A esimated using Hc2(O) values. 752 "floating-zone image turnace, 15% excess Ru as flux, melted in 10% O2+ 90% Ar wuth total of 3 bar, Tc depends on the feed speed." Suppression of superconductivity in Sr2RuO4 caused by defects 1999 7 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 60(1999)610-615" 8978 PR06000610 Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 1999 Sr2RuO4 K 1.489 1.489 T using Hc2(O)=-0.68(dHc2/dT)*Tc. 0.0623 HC8978 A esimated using Hc2(O) values. 683 "floating-zone image turnace, 15% excess Ru as flux, melted in 10% O2+ 90% Ar wuth total of 3 bar, Tc depends on the feed speed." Suppression of superconductivity in Sr2RuO4 caused by defects 1999 7 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 60(1999)610-615" 8979 PR06000687 "single phase is not s/c, semiconducting" "(Bi,Cu)Sr2YCu2O7" Bi0.33Cu2.67Sr2Y1O6.88 Bi 0.33 Cu 2.67 Sr 2 Y 1 O Z 6.88 1 1999 2 M1212 P4/mmm 3.8135 11.705 K 5 1 "mixture-CAL(850-900C, 5-10H in air) -pellet - SIN(980C, 20-60H in air) -Q to RT-ANN(500C, 8H in O2 flow)" Superconductivity above 30 K in ((Bi-xMox)0.33Cu0.67)Sr2YCu2Oy:Appearance of superconductivity by transfer of holes from a block layer to a CuO2 layer 1999 7 "Graduate School of Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992, Japan" "Phys.Rev.B, 60(1999)687-697" 8980 PR06000687 "(Bi,Mo,Cu)Sr2YCu2Oz" Bi0.264Mo0.066Cu2.67Sr2Y1O7.09 Bi 0.264 Mo 0.066 Cu 2.67 Sr 2 Y 1 O Z 7.09 1 1999 M1212 3.8123 11.6753 K 5 1 "mixture-CAL(850-900C, 5-10H in air) -pellet - SIN(980C, 20-60H in air) -Q to RT-ANN(500C, 8H in O2 flow)" Superconductivity above 30 K in ((Bi-xMox)0.33Cu0.67)Sr2YCu2Oy:Appearance of superconductivity by transfer of holes from a block layer to a CuO2 layer 1999 7 "Graduate School of Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992, Japan" "Phys.Rev.B, 60(1999)687-697" 8981 PR06000687 "(Bi,Mo,Cu)Sr2YCu2Oz" Bi0.198Mo0.132Cu2.67Sr2Y1O7.18 Bi 0.198 Mo 0.132 Cu 2.67 Sr 2 Y 1 O Z 7.18 1 1999 M1212 3.8113 11.6235 K 5 1 "mixture-CAL(850-900C, 5-10H in air) -pellet - SIN(980C, 20-60H in air) -Q to RT-ANN(500C, 8H in O2 flow)" Superconductivity above 30 K in ((Bi-xMox)0.33Cu0.67)Sr2YCu2Oy:Appearance of superconductivity by transfer of holes from a block layer to a CuO2 layer 1999 7 "Graduate School of Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992, Japan" "Phys.Rev.B, 60(1999)687-697" 8982 PR06000687 "(Bi,Mo,Cu)Sr2YCu2Oz" Bi0.165Mo0.165Cu2.67Sr2Y1O7.21 Bi 0.165 Mo 0.165 Cu 2.67 Sr 2 Y 1 O Z 7.21 1 1999 M1212 3.8123 11.6025 K 5 1 "mixture-CAL(850-900C, 5-10H in air) -pellet - SIN(980C, 20-60H in air) -Q to RT-ANN(500C, 8H in O2 flow)" Superconductivity above 30 K in ((Bi-xMox)0.33Cu0.67)Sr2YCu2Oy:Appearance of superconductivity by transfer of holes from a block layer to a CuO2 layer 1999 7 "Graduate School of Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992, Japan" "Phys.Rev.B, 60(1999)687-697" 8983 PR06000687 "(Bi,Mo,Cu)Sr2YCu2Oz" Bi0.1485Mo0.1815Cu2.67Sr2Y1O7.21 Bi 0.1485 Mo 0.1815 Cu 2.67 Sr 2 Y 1 O Z 7.21 1 1999 M1212 3.8138 11.5938 K 20.6 20.6 1 "mixture-CAL(850-900C, 5-10H in air) -pellet - SIN(980C, 20-60H in air) -Q to RT-ANN(500C, 8H in O2 flow)" Superconductivity above 30 K in ((Bi-xMox)0.33Cu0.67)Sr2YCu2Oy:Appearance of superconductivity by transfer of holes from a block layer to a CuO2 layer 1999 7 "Graduate School of Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992, Japan" "Phys.Rev.B, 60(1999)687-697" 8984 PR06000687 "(Bi,Mo,Cu)Sr2YCu2Oz" Bi0.132Mo0.198Cu2.67Sr2Y1O7.2 Bi 0.132 Mo 0.198 Cu 2.67 Sr 2 Y 1 O Z 7.2 1 1999 M1212 3.812 11.5852 K 29 29 1 "mixture-CAL(850-900C, 5-10H in air) -pellet - SIN(980C, 20-60H in air) -Q to RT-ANN(500C, 8H in O2 flow)" Superconductivity above 30 K in ((Bi-xMox)0.33Cu0.67)Sr2YCu2Oy:Appearance of superconductivity by transfer of holes from a block layer to a CuO2 layer 1999 7 "Graduate School of Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992, Japan" "Phys.Rev.B, 60(1999)687-697" 8985 PR06000687 "(Bi,Mo,Cu)Sr2YCu2Oz" Bi0.1155Mo0.2145Cu2.67Sr2Y1O7.25 Bi 0.1155 Mo 0.2145 Cu 2.67 Sr 2 Y 1 O Z 7.25 1 1999 M1212 3.8155 11.5753 K 1 "mixture-CAL(850-900C, 5-10H in air) -pellet - SIN(980C, 20-60H in air) -Q to RT-ANN(500C, 8H in O2 flow)" Superconductivity above 30 K in ((Bi-xMox)0.33Cu0.67)Sr2YCu2Oy:Appearance of superconductivity by transfer of holes from a block layer to a CuO2 layer 1999 7 "Graduate School of Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992, Japan" "Phys.Rev.B, 60(1999)687-697" 8986 PR06000687 "(Bi,Mo,Cu)Sr2YCu2Oz" Bi0.099Mo0.231Cu2.67Sr2Y1OZ Bi 0.099 Mo 0.231 Cu 2.67 Sr 2 Y 1 O Z 1 1999 M1212 K 1 "mixture-CAL(850-900C, 5-10H in air) -pellet - SIN(980C, 20-60H in air) -Q to RT-ANN(500C, 8H in O2 flow)" Superconductivity above 30 K in ((Bi-xMox)0.33Cu0.67)Sr2YCu2Oy:Appearance of superconductivity by transfer of holes from a block layer to a CuO2 layer 1999 7 "Graduate School of Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992, Japan" "Phys.Rev.B, 60(1999)687-697" 8987 PR06000687 "(Bi,Mo,Cu)Sr2YCu2Oz" Bi0Mo0.33Cu2.67Sr2Y1O7.41 Bi 0 Mo 0.33 Cu 2.67 Sr 2 Y 1 O Z 7.41 1 1999 M1212 3.8132 11.5222 K 30 33 33 1 "mixture-CAL(850-900C, 5-10H in air) -pellet - SIN(980C, 20-60H in air) -Q to RT-ANN(500C, 8H in O2 flow)" Superconductivity above 30 K in ((Bi-xMox)0.33Cu0.67)Sr2YCu2Oy:Appearance of superconductivity by transfer of holes from a block layer to a CuO2 layer 1999 7 "Graduate School of Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992, Japan" "Phys.Rev.B, 60(1999)687-697" 8988 PR06000687 "(Bi,Mo,Cu)Sr2YCu2Oz" Bi0.066Mo0.264Cu2.67Sr2Y1O7.32 Bi 0.066 Mo 0.264 Cu 2.67 Sr 2 Y 1 O Z 7.32 1 1999 M1212 3.8125 11.5469 K 31 31 1 "mixture-CAL(850-900C, 5-10H in air) -pellet - SIN(980C, 20-60H in air) -Q to RT-ANN(500C, 8H in O2 flow)" Superconductivity above 30 K in ((Bi-xMox)0.33Cu0.67)Sr2YCu2Oy:Appearance of superconductivity by transfer of holes from a block layer to a CuO2 layer 1999 7 "Graduate School of Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992, Japan" "Phys.Rev.B, 60(1999)687-697" 8989 SUP0110143 grain size=10*10*2 micron. "(Tl,Pb)Sr2Ca2Cu3Oz" Tl0.5Pb0.5Sr2Ca2Cu3OZ Tl 0.5 Pb 0.5 Sr 2 Ca 2 Cu 3 O Z 1998 3.76 Tl1223 K 119 119 HIR8989 "precursor (Sr2Ca2Cu3Oz)+ Tl2O3, Pb3O4, LiO- pellet- SIN(940C, 5H in O2) - ANN(860C, 2H+ 800C, 24H in air)" "Enhancement of microstructrual and magnetic properties by Li-doping in Tl, Pb-1223 superconductors" 1998 "J.Supercond, 11(1998)143-144" 8990 SUP0110143 grain size=30*30*6 micron. "(Tl,Pb)Sr2Ca2Cu3LixOz" Tl0.5Pb0.5Sr2Ca2Cu3Li0.2OZ Tl 0.5 Pb 0.5 Sr 2 Ca 2 Cu 3 Li 0.2 O Z 1998 4.88 Tl1223 K 117 117 HIR8990 "precursor (Sr2Ca2Cu3Oz)+ Tl2O3, Pb3O4, LiO- pellet- SIN(940C, 5H in O2) - ANN(860C, 2H+ 800C, 24H in air)" "Enhancement of microstructrual and magnetic properties by Li-doping in Tl, Pb-1223 superconductors" 1998 "J.Supercond, 11(1998)143-144" 8991 PHB1651335 The low temperature linear term in specitic heat = 4.9mj/mole. K2 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1990 Y124 K 81.9 81.9 mj/mol. K2 12 350 from specific heat at high temperature. synthesized under 85 bar O2 at 1000C SPECIFIC HEAT OF THE SUPERCONDUCTOR YBA2CU4O8 FROM 1.5 TO 300K 1990 8 "DEPARTEMENT DE PHYSIQUE DE LA MATIERE CONDENSEE, UNIVERSITE DEGENEVE CH-1211 GENEVE 4, SWITZERLAND" "PHYSICA B,165(1990)1335" "Y,BA,CU,O" 8992 PR05407481 thin film "(La,Sr)2CuO4" La1.88Sr0.12Cu1O4 La 1.88 Sr 0.12 Cu 1 O 4 5 1996 T 13.172 K 16.4 16.4 A mutual inductance and fluctuation model. 8020 The films were grown on SrTiO3 using sequential MBE Variation of the in-plane penetration depth ab a function of doping in La2-xSrxCuO4 z thin films on SrTiO3: Implications for the overdoped state 1996 9 "IBM reserch Division,Zurich reserch Laboratory, 8803 Ru""schlikon, Swizerland" "Phys.Rev.B,54(1996)7481" 8993 PR05407481 thin film "(La,Sr)2CuO4" La1.84Sr0.16Cu1O4 La 1.84 Sr 0.16 Cu 1 O 4 5 1996 T 13.182 K 22.6 22.6 A mutual inductance and fluctuation model. 6580 The films were grown on SrTiO3 using sequential MBE Variation of the in-plane penetration depth ab a function of doping in La2-xSrxCuO4 z thin films on SrTiO3: Implications for the overdoped state 1996 9 "IBM reserch Division,Zurich reserch Laboratory, 8803 Ru""schlikon, Swizerland" "Phys.Rev.B,54(1996)7481" 8994 PR05407481 thin film "(La,Sr)2CuO4" La1.83Sr0.17Cu1O4 La 1.83 Sr 0.17 Cu 1 O 4 5 1996 T 13.198 K 21 21 A mutual inductance and fluctuation model. 7060 The films were grown on SrTiO3 using sequential MBE Variation of the in-plane penetration depth ab a function of doping in La2-xSrxCuO4 z thin films on SrTiO3: Implications for the overdoped state 1996 9 "IBM reserch Division,Zurich reserch Laboratory, 8803 Ru""schlikon, Swizerland" "Phys.Rev.B,54(1996)7481" 8995 EPL0480073 "substrate=LaAlO3, d=900A" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 4 1999 Y123 K 91.3 91.3 A sub milimeter wave transmission 2040 magnetron sputtering Universal relationship between the penetration depth and the mormal-state conductivity in YBaCuO 1999 10 "Institut fur Physik, Universitat Augsburg-86135 Augsburg, Germany" "Europhys Lett,48(1999)73-78" 8996 EPL0480073 "substrate=NdGaO3, d=750A" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 4 1999 Y123 K 89 89 A sub milimeter wave transmission 2150 magnetron sputtering Universal relationship between the penetration depth and the mormal-state conductivity in YBaCuO 1999 10 "Institut fur Physik, Universitat Augsburg-86135 Augsburg, Germany" "Europhys Lett,48(1999)73-78" 8997 EPL0480073 "substrate=NdGaO3, d=700A" YBa2Cu3O7 Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 4 1999 Y123 K 91 91 A sub milimeter wave transmission 2920 laser ablation Universal relationship between the penetration depth and the mormal-state conductivity in YBaCuO 1999 10 "Institut fur Physik, Universitat Augsburg-86135 Augsburg, Germany" "Europhys Lett,48(1999)73-78" 8998 EPL0490086 "composition Bi2Sr1.9CaCu1.8O8+z by EDAX, tunneling by break-junction technique." Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 3 2000 3 Bi2212 5.41 5.55 30.81 K 88.5 88.5 meV 22.5 5.91 1 self-flux method. The pseudogap in Bi2Sr2CaCu2O8+x single crystals from tunneling measurements: A possible evidence for the Cooper pairs above Tc 2000 1 "Universite Libre de Bruxelles,Service de Physique des Solides CP233, Blvd.du Triomphe, B-1050 Brussels, Belgium" "Europhys Lett,49(2000)86-91" 8999 EPL0470715 penetration depth(ab)=8000-10000A estimated from microwave impedance measurement "(La,Nd,Sr)2CuO4" La1.45Nd0.4Sr0.15Cu1O4 La 1.45 Nd 0.4 Sr 0.15 Cu 1 O 4 3 1999 T K 12 12 A microwave impedance 8000 traveling-solvent floating-zone method. In-plane charge dynamics in La1.6-xNd0.4SrxCuO4: Absence of a charge gap in the spin/charge ordered state 1999 9 "Superconductivity Research Laboratory,ISTEC-Tokyo 135-0062, Japan" "Europhys Lett,47(1999)715-721" 9000 PR05802956 "single cryotal 0.4*0.3*0.1 mm3, dTc/dp by resistivity measurement. d(TP300)/dp=0.2uV/K. kbar" "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.96Ni0.04O8 Y 1 Ba 2 Cu 3.96 Ni 0.04 O 8 3 1998 Y124 K 57 57 k/kbar 1.2 high temperature-high pressure synthesis(600 bar Oz) Anomalous transport properties in a YBa2Cu4O8 crystal 1998 8 Anomalous transport properties in a YBa2Cu4O8 crystal "Phys.Rev.B,58(1998)R2956" 9001 PR05911668 "crystal(0.2*0.1*0.1 mm3), resistivity anisotropy=6" YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 3 1999 Y124 K 82 0.5 82 "flux method in Y2O3 crucibles, Ar/O2 mixture at 2000 bars with partial O2 pressure of 400 bars" Melting of the vortex lattice in YBa2Cu4O8 in parallel fields 1999 5 "Institute for Solid State Physics, University of Tokyo, Roppongi 7-22-1, Tokyo 106-8666, Japan" "Phys.Rev.B, 59(1999)R11668-R11671" 9002 PR05911563 "crystal(1.16*0.54*0.36 mm3), G-L parameter=55, anisotropy factor=5.9, Lindeman const.=0.16" NdBa2Cu3O7 Nd1Ba2Cu3O7-Z Nd 1 Ba 2 Cu 3 O 7-Z 3 1999 Y123 K 95.56 0.3 95.56 287 3 1 "self-flux method, 0.03%O2-Ar, ANN(320C, 300H)" First-order vortex lattice melting in twinned NdBa2Cu307-y single crystals 1999 5 "Superconductivity Research Laboratory, ISTEC, 10-13 Shinonome, 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "Phys.Rev.B, 59(1999)11563-11567" 9003 PR05911679 "84%O(18), isotope effect using T3 value" RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 1 1999 Ru1212 K 35 46 40.5 0.12 O 1 "annealed(1060C, 7days in flowing O2)" Oxygen isotope effects on the critical and Curie temperatures and Raman modes in the ferromagnetic superconductor RuSr2GdCu2O8 1999 5 "School of Chemical and Physical Sciences, Victoria University of Wellington, P.O. Box 600, Wellington, New Zealand" "Phys.Rev.B, 59(1999)R11679-R11682" 9004 PHC2821407 "nearly single phase., Beta(lattice term)=2.17mj/mol.K3" PrBa2Cu4O8 Pr1Ba2Cu4O8 Pr 1 Ba 2 Cu 4 O 8 1 1997 17 Y124 3.879 3.902 27.28 K 4.2 mj/mol.K2 205 specitic heat calculated by Asada using data. nitric pyrolysis method at ambient oxygen pressure Thermal properties of PrBa2Cu4O8 prepared at ambient oxygen pressure 1997 "Physica C, 282-287 (1997) 1407-1408" 9005 PHC2821413 Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 1997 Sr2RuO4 K 1.2 1.2 mj/mol.K 18.8 mj/mol.K2 40.9 specitic heat by floating zone method Pairing symmetry of superconducting Sr2RuO4 from specific heat measurements 1997 "Physica C, 282-287 (1997) 1413-1414" 9006 PHC2821423 "(Tl,Pb)(Sr,Ba)2Ca2Cu3Oz" Tl0.58Pb0.4Sr1.6Ba0.4Ca2Cu3OZ Tl 0.58 Pb 0.4 Sr 1.6 Ba 0.4 Ca 2 Cu 3 O Z 1 1997 Tl1223 K 110 110 mj/mol.K 30 mj/mol.K2 25 specitic heat "See Supercond. Sci. Technol, 8(1995)894" "Specific heat and electron photoemission of Pb- and Bi- doped Tl-(Ba,Sr)-Ca-Cu-O (1223) high-temperature superconductors" 1997 "Physica C, 282-287 (1997) 1423-1424" 9007 PHC2821423 "(Tl,Bi)(Sr,Ba)2Ca2Cu3Oz" Tl0.79Bi0.25Sr1.6Ba0.4Ca2Cu3OZ Tl 0.79 Bi 0.25 Sr 1.6 Ba 0.4 Ca 2 Cu 3 O Z 1 1997 Tl1223 K 115 115 mj/mol.K 23 mj/mol.K2 27 specitic heat "See Supercond. Sci. Technol, 8(1995)894" "Specific heat and electron photoemission of Pb- and Bi- doped Tl-(Ba,Sr)-Ca-Cu-O (1223) high-temperature superconductors" 1997 "Physica C, 282-287 (1997) 1423-1424" 9008 PHC2821423 "(Tl,Bi)(Sr,Ba)2Ca2Cu3Oz" Tl0.74Bi0.3Sr1.8Ba0.2Ca2Cu3OZ Tl 0.74 Bi 0.3 Sr 1.8 Ba 0.2 Ca 2 Cu 3 O Z 1 1997 Tl1223 K 120 120 mj/mol.K 28 mj/mol.K2 16 specitic heat "See Supercond. Sci. Technol, 8(1995)894" "Specific heat and electron photoemission of Pb- and Bi- doped Tl-(Ba,Sr)-Ca-Cu-O (1223) high-temperature superconductors" 1997 "Physica C, 282-287 (1997) 1423-1424" 9009 PHC2821403 Gd(3+) ordering temperature by specitic heat measurement GdBa2Cu4O8 Gd1Ba2Cu4O8 Gd 1 Ba 2 Cu 4 O 8 1 1997 2.2 Y124 K 74 74 "coprecipitation method, CAL(800C, 1atm O2 flow)-SIN(815C,10days in 1atm O2 flow), single pase by XRD" Magnetic field dependence of low temperature heat capacities of GdBa2Cu4O8 1997 "Physica C, 282-287 (1997) 1403-1404" 9010 PHC2821419 specitic heat by relaxation method "(Bi,Pb)2Sr2CuOz" Bi1.8Pb0.3Sr1.9Cu1OZ Bi 1.8 Pb 0.3 Sr 1.9 Cu 1 O Z 1 1997 Bi2201 K 1.5 mj/mol.K2 8.75 specitic heat 1 solid state reaction Anomalous electronic specific heat of Bi1.8Pb0.3Sr1.9CuOz 1997 "Physica C, 282-287 (1997)1419-1420" 9011 PHC2821419 "delte C=17.20 mj/mol.K, delta-C/gama.Tc=0.6" "(Bi,Pb)2Sr2CuOz" Bi1.8Pb0.3Sr1.9Cu1OZ Bi 1.8 Pb 0.3 Sr 1.9 Cu 1 O Z 1 1997 Bi2201 K 4.7 4.7 mj/mol.K2 6.1 specitic heat solid state reaction-ANN in Ar Anomalous electronic specific heat of Bi1.8Pb0.3Sr1.9CuOz 1997 "Physica C, 282-287 (1997)1419-1420" 9012 PHC2821415 "(Bi,Pb)2Sr2CaCu2O8" Bi1.8Pb0.2Sr2Ca1Cu2O8 Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 2 O 8 1 1997 Bi2212 K 67 67 uJ/K2.g 1.01 specitic heat 298 specitic heat 1 "as-grown, furnace cool." The relations of specific heat anomaly with variation of oxygen content in BiSrCaCuO(2212) 1997 "Physica C, 282-287 (1997)1415-1416" 9013 PHC2821415 "(Bi,Pb)2Sr2CaCu2O8" Bi1.8Pb0.2Sr2Ca1Cu2O8 Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 2 O 8 1 1997 Bi2212 K 92 92 uJ/K2.g 1.015 specitic heat 296.7 specitic heat "ANN (550C, 0.5H in E-5 atm O2)" The relations of specific heat anomaly with variation of oxygen content in BiSrCaCuO(2212) 1997 "Physica C, 282-287 (1997)1415-1416" 9014 PHC2821415 "(Bi,Pb)2Sr2CaCu2O8" Bi1.8Pb0.2Sr2Ca1Cu2O8 Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 2 O 8 1 1997 Bi2212 K 80 80 uJ/K2.g 0.978 specitic heat 295.6 specitic heat "ANN (550C, 2.5H in E-5 atm O2)-ANN(550C, 2.5H in E-8 atm O2)" The relations of specific heat anomaly with variation of oxygen content in BiSrCaCuO(2212) 1997 "Physica C, 282-287 (1997)1415-1416" 9015 PHC2821415 "(Bi,Pb)2Sr2CaCu2O8" Bi1.8Pb0.2Sr2Ca1Cu2O8 Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 2 O 8 1 1997 Bi2212 K 81 81 uJ/K2.g 1.087 specitic heat 303.5 specitic heat "ANN (550C, 5H in E-5 atm O2)-ANN (550C, 10H in E-8 atm O2)" The relations of specific heat anomaly with variation of oxygen content in BiSrCaCuO(2212) 1997 "Physica C, 282-287 (1997)1415-1416" 9016 PRO5407462 untwinned single erystal Lu1Ba2Cu3O7-Z Lu 1 Ba 2 Cu 3 O 7-Z 3 1996 Y123 K 90.7 93 91.85 mj/mol.K2 13.1 temperature range 0.6Yb(3+)is doped oxygent control for different annealing condition" Local Fields in YBa2Cu3O7-delta measured on 170Yb3+ Mossbauer probes. I. Volume and surface penetration lengths 1999 10 "DRECAM-SPEC, Centre d'Etudes de Saclay, 91191 Gift sur Yvette, France" "Physica C,323(1999)1-11" 9022 PHC3230001 optimal doping "(Y,Yb)Ba2Cu3Oz" Y0.975Yb0.025Ba2Cu3OZ Y 0.975 Yb 0.025 Ba 2 Cu 3 O Z 1 1999 Y123 K 92 92 nm "Mossbauer measurement,ppenet calculate from pemet." 160 130 "For Mossbawer mesurement,<170>Yb(3+)is doped oxygent control for different annealing condition" Local Fields in YBa2Cu3O7-delta measured on 170Yb3+ Mossbauer probes. I. Volume and surface penetration lengths 1999 10 "DRECAM-SPEC, Centre d'Etudes de Saclay, 91191 Gift sur Yvette, France" "Physica C,323(1999)1-11" 9023 PHC3230001 overdoing "(Y,Yb)Ba2Cu3Oz" Y0.975Yb0.025Ba2Cu3OZ Y 0.975 Yb 0.025 Ba 2 Cu 3 O Z 1 1999 Y123 K 88 88 nm "Mossbauer measurement,ppenet calculate from pemet." 134 109 "For Mossbawer mesurement,<170>Yb(3+)is doped oxygent control for different annealing condition" Local Fields in YBa2Cu3O7-delta measured on 170Yb3+ Mossbauer probes. I. Volume and surface penetration lengths 1999 10 "DRECAM-SPEC, Centre d'Etudes de Saclay, 91191 Gift sur Yvette, France" "Physica C,323(1999)1-11" 9024 PHC3230001 Ca-doping "(Y,Yb,Ca)Ba2Cu3Oz" Y0.78Yb0.02Ca0.2Ba2Cu3OZ Y 0.78 Yb 0.02 Ca 0.2 Ba 2 Cu 3 O Z 1 1999 Y123 K nm "Mossbauer measurement,ppenet calculate from pemet." 118 96 "For Mossbawer mesurement,<170>Yb(3+)is doped oxygent control for different annealing condition" Local Fields in YBa2Cu3O7-delta measured on 170Yb3+ Mossbauer probes. I. Volume and surface penetration lengths 1999 10 "DRECAM-SPEC, Centre d'Etudes de Saclay, 91191 Gift sur Yvette, France" "Physica C,323(1999)1-11" 9025 PHC2351761 "T2 defined as specific heat maximum point,susceptibity(200K)= -8.6 E-8 emu/g" Bi2Sr2CaCu2Oz Bi2.12Sr1.71Ca1.22Cu1.95OZ Bi 2.12 Sr 1.71 Ca 1.22 Cu 1.95 O Z 3 1994 Bi2212 K 85.1 84.55 85.1 mj/mol.K2 2.1 linear term at very low tempperatures 283 by the travelling solvent floating zone method Anisotropic specific heat of a Bi2Sr2CaCu2O8 single crystal in magnetic fields up to 14 T 1994 "Physica C, 235-240 (1994) 1761-1762" 9026 PHC2821381 underdoped sample Hg1Ba2Cu1O4.02 Hg 1 Ba 2 Cu 1 O 4+Z 4.02 1 1997 Hg1201 K 72 72 "See Physica C, 255(1995)173" Magnetic properties and NMR investigations of the Hg-based cuprate Hg-1201 1997 "Physica C, 282-287 (1997)1381-1382" 9027 PHC2821381 optimal doping Hg1Ba2Cu1O4.08 Hg 1 Ba 2 Cu 1 O 4+Z 4.08 1 1997 Hg1201 K 96 96 HIR9027 "See Physica C, 255(1995)173" Magnetic properties and NMR investigations of the Hg-based cuprate Hg-1201 1997 "Physica C, 282-287 (1997)1381-1382" 9028 PHC3250109 "(Hg,Sb)Ba2Ca2Cu3O8" Hg0.95Sb0.05Ba2Ca2Cu3O8+Z Hg 0.95 Sb 0.05 Ba 2 Ca 2 Cu 3 O 8+Z 1 1999 Hg1223 K 132 132 HIR9028 JC9028 "precursor(Sb0.05Ba2Ca2Cu3Oz)+Hg2O,Hg vapour dittussion process" Oinprovement of critical current density in Sb-doped HgBa2Ca2Cu3O8+delta superconductor prepared Hg vapour diffusion process 1999 11 "Department of Physics and Materials Science, City University of Hong Kong, Hong Kong people's republic of China" "Physica C,325(1999)109-117" 9029 PRL0732484 "untwinned sample,Temperatau dependence of peretratiou depth //a-and //b-axis were meamre I by susface impedance, //a- = 1600A, //b- = 1030A" YBa2Cu3O7 Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O 6.95 6.95 3 1994 Y123 K 93.4 0.25 93.4 Crystals were grown by a flux methed Measurement of the ab Plane Anisotropy of Microwave Surface Impendance of Untwinned YBa2Cu3O6.95 Single Crystals 1994 10 "Department of Physics,University of British Columbia,Vancouver,British Columbia Canada V6T 1Z1" "Phys.Rev.Lett.,73(1994)2484" "Y,Ba,Cu,O" 9030 PR04611019 Tl2Ba2CuO6 Tl2Ba2Cu1O6.164 Tl 2 Ba 2 Cu 1 O 6+Z 6.164 3 1992 2 Tl2201 I4/mmm 3.864 23.165 K 0 0 Crystals were grown by slow cooling method using KCl flux TRANSPORT AND STRUCTURAL STUDY OF TL2BA2CUO6+Z SINGLE CRYSTALSPREPARED BY THE KCL FLUX METHOD 1992 11 "FUNDAMENTAL RESEARCH LABORATORIES, NEC CORPORATION, TSUKUBA" "PHYS.REV.B,46(1992)11019" "TL,BA,CU,O" 9031 PR04611019 Tl2Ba2CuO6 Tl2Ba2Cu1O6+Z Tl 2 Ba 2 Cu 1 O 6+Z 3 1992 Tl2201 K 10 10 RH9031 Crystals were grown by slow cooling method using KCl flux TRANSPORT AND STRUCTURAL STUDY OF TL2BA2CUO6+Z SINGLE CRYSTALSPREPARED BY THE KCL FLUX METHOD 1992 11 "FUNDAMENTAL RESEARCH LABORATORIES, NEC CORPORATION, TSUKUBA" "PHYS.REV.B,46(1992)11019" "TL,BA,CU,O" 9032 PR04611019 Tl2Ba2CuO6 Tl2Ba2Cu1O6.056 Tl 2 Ba 2 Cu 1 O 6+Z 6.056 3 1992 2 Tl2201 3.867 23.21 K 40 40 Crystals were grown by slow cooling method using KCl flux TRANSPORT AND STRUCTURAL STUDY OF TL2BA2CUO6+Z SINGLE CRYSTALSPREPARED BY THE KCL FLUX METHOD 1992 11 "FUNDAMENTAL RESEARCH LABORATORIES, NEC CORPORATION, TSUKUBA" "PHYS.REV.B,46(1992)11019" "TL,BA,CU,O" 9033 PR04611019 Tl2Ba2CuO6 Tl2Ba2Cu1O6+Z Tl 2 Ba 2 Cu 1 O 6+Z 3 1992 Tl2201 K 50 50 RH9033 Crystals were grown by slow cooling method using KCl flux TRANSPORT AND STRUCTURAL STUDY OF TL2BA2CUO6+Z SINGLE CRYSTALSPREPARED BY THE KCL FLUX METHOD 1992 11 "FUNDAMENTAL RESEARCH LABORATORIES, NEC CORPORATION, TSUKUBA" "PHYS.REV.B,46(1992)11019" "TL,BA,CU,O" 9034 PHC1900062 "ANN(350C,in latw O2)" Tl2Ba2CuO6 Tl2Ba2Cu1O6+Z Tl 2 Ba 2 Cu 1 O 6+Z 3 1991 Tl2201 K 4.2 RH9034 Crystals were grown by slow cooling method using KCl flux SYNTHESIS AND PHYSICAL PROPERTIES OF TL2BA2CUO6+Z SINGLE CRYSTAL 1991 12 "PHYSICA C,190(1991)62" "TL,BA,CU,O" 9035 PHC1900062 "ANN(300C,in air)" Tl2Ba2CuO6 Tl2Ba2Cu1O6+Z Tl 2 Ba 2 Cu 1 O 6+Z 3 1991 Tl2201 K 10 10 Crystals were grown by slow cooling method using KCl flux SYNTHESIS AND PHYSICAL PROPERTIES OF TL2BA2CUO6+Z SINGLE CRYSTAL 1991 12 "PHYSICA C,190(1991)62" "TL,BA,CU,O" 9036 PHC1900062 "ANN(450C,in air)" Tl2Ba2CuO6 Tl2Ba2Cu1O6+Z Tl 2 Ba 2 Cu 1 O 6+Z 3 1991 Tl2201 K 75 75 Crystals were grown by slow cooling method using KCl flux SYNTHESIS AND PHYSICAL PROPERTIES OF TL2BA2CUO6+Z SINGLE CRYSTAL 1991 12 "PHYSICA C,190(1991)62" "TL,BA,CU,O" 9037 PHC2180024 "pressure by diamond anvil upto 13 Gpa,maximum Tc= 133K at 4.2 Gpa" Tl2Ba2Ca2Cu3O10 Tl2Ba2Ca2Cu3O10+Z Tl 2 Ba 2 Ca 2 Cu 3 O 10+Z 1 1993 Tl2223 K 125.1 128.5 128.5 K/Gpa 1.75 mv/K 2 The sample consists of a single grain. Composition=Tl1.6Ba2Ca2.4Cu3O10+z Superconductivity at 133K in Tl2Ba2Ca2Cu3O10+x under high pressure 1993 12 "Department of Physics and Astronomy,Free University,Amsterdam,The Netherland" "Physica C, 218(1993)24" "Tl,Ba,Ca,Cu,O" 9038 PHC2180001 "maximum Tc = 150K at 12.Gpa , Presssure by cubic anvil" HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8+Z Hg 1 Ba 2 Ca 2 Cu 3 O 8+Z 1 1993 Tl1223 K 134 134 K/Gpa 2 "HgO,BaO,CaO,CuO" 1 "nominal (HgBa2CaCu3Oz)-heat(700C,1H)-ANN(300C,6H in flowing O2)" Large nhancement of Tc in the 134K superconductor HgBa2Ca2Cu3Oy under high pressure 1993 12 "synthesis,high pressure" "Institute for solid state Physics, University of Tokyo,Roppongi,Tokyo,Japan" "Physica C, 218(1993)1" "Hg,Ba,Cu,Ca,O" 9039 PHC2351493 Tc is defined as T3. dTc/dP is estimated from the figure. Tc(max)=109.5K HgBa2CuO4 Hg1Ba2Cu1O4+Z Hg 1 Ba 2 Cu 1 O 4+Z 1994 Hg1201 K 92.5 92.5 TC9039 K/Gpa 1.2 23.1 See Nature 362(1993)226 Universal enhancement of Tc under high pressure in HgBa2Cam-1CumO2m+2+z 1994 "Physica C, 235-240 (1994) 1493-1494" 9040 PHC2351493 Tc is defined as T3. dTc/dP is estimated from the figure. Tc(max)=137.7K HgBa2CaCu2O6 Hg1Ba2Ca1Cu2O6+Z Hg 1 Ba 2 Ca 1 Cu 2 O 6+Z 1994 Hg1212 K 116 116 TC9040 K/Gpa 1.75 29.3 See Nature 362(1993)226 Universal enhancement of Tc under high pressure in HgBa2Cam-1CumO2m+2+z 1994 "Physica C, 235-240 (1994) 1493-1494" 9041 PHC2351493 Tc is defined as T3. dTc/dP is estimated from the figure. Tc(max)=147K HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8+Z Hg 1 Ba 2 Ca 2 Cu 3 O 8+Z 1994 Hg1223 K 123 123 TC9041 K/Gpa 3 31.2 See Nature 362(1993)226 Universal enhancement of Tc under high pressure in HgBa2Cam-1CumO2m+2+z 1994 "Physica C, 235-240 (1994) 1493-1494" 9042 PHC2351493 Tc is defined as T3. dTc/dP is estimated from the figure. Tc(max)=151.3K "(Hg,Pb)Ba2Ca2Cu3O8" Hg0.9Pb0.1Ba2Ca2Cu3O8+Z Hg 0.9 Pb 0.1 Ba 2 Ca 2 Cu 3 O 8+Z 1994 Hg1223 K 130 130 TC9042 K/Gpa 3.3 10.6 See Nature 362(1993)226 Universal enhancement of Tc under high pressure in HgBa2Cam-1CumO2m+2+z 1994 "Physica C, 235-240 (1994) 1493-1494" 9043 PHC2351493 Tc is defined as T3. dTc/dP is estimated from the figure. Tc(max)=145K "(Hg,Pb)Ba2Ca2Cu3O8" Hg0.8Pb0.2Ba2Ca2Cu3O8+Z Hg 0.8 Pb 0.2 Ba 2 Ca 2 Cu 3 O 8+Z 1994 Hg1223 K 132 132 TC9043 K/Gpa 3 8 See Nature 362(1993)226 Universal enhancement of Tc under high pressure in HgBa2Cam-1CumO2m+2+z 1994 "Physica C, 235-240 (1994) 1493-1494" 9044 JAC2520076 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1997 3 Y124 3.8452 3.8666 27.2417 K 77.5 77.5 "Polymerized complex method. See Physica C, 173(1991)377" "Structure and superconductivity in Y1-xLnxBa2-ySryCu4O8 (Ln=Lu, Tb, Gd, Pr, Ce); the influence of ionic size and valency" 1997 "Dept. of Inorganic Chemistry, Chalmers Univ. of Technology and Univ. of Goteborg, Goteborg, Sweden" "J.Alloys and Compounds, 252(1997)76-82" "Y,Ba,Cu,O,Lu,Tb,Gd,Pr,Ce,Sr" 9045 JAC2520076 "(Y,Tb)Ba2Cu4O8" Y0.9Tb0.1Ba2Cu4O8 Y 0.9 Tb 0.1 Ba 2 Cu 4 O 8 1 1997 3 Y124 A 3.8459 3.8702 27.2521 K 78 78 "Polymerized complex method. See Physica C, 173(1991)377" "Structure and superconductivity in Y1-xLnxBa2-ySryCu4O8 (Ln=Lu, Tb, Gd, Pr, Ce); the influence of ionic size and valency" 1997 "Dept. of Inorganic Chemistry, Chalmers Univ. of Technology and Univ. of Goteborg, Goteborg, Sweden" "J.Alloys and Compounds, 252(1997)76-82" "Y,Ba,Cu,O,Lu,Tb,Gd,Pr,Ce,Sr" 9046 JAC2520076 "(Y,Ce)Ba2Cu4O8" Y0.9Ce0.1Ba2Cu4O8 Y 0.9 Ce 0.1 Ba 2 Cu 4 O 8 1 1997 3 Y124 A 3.8456 3.8747 27.2191 K 38 38 "Polymerized complex method. See Physica C, 173(1991)377" "Structure and superconductivity in Y1-xLnxBa2-ySryCu4O8 (Ln=Lu, Tb, Gd, Pr, Ce); the influence of ionic size and valency" 1997 "Dept. of Inorganic Chemistry, Chalmers Univ. of Technology and Univ. of Goteborg, Goteborg, Sweden" "J.Alloys and Compounds, 252(1997)76-82" "Y,Ba,Cu,O,Lu,Tb,Gd,Pr,Ce,Sr" 9047 JAC2520076 "(Y,Pr)Ba2Cu4O8" Y0.9Pr0.1Ba2Cu4O8 Y 0.9 Pr 0.1 Ba 2 Cu 4 O 8 1 1997 3 Y124 A 3.8446 3.8696 27.2321 K 75 75 "Polymerized complex method. See Physica C, 173(1991)377" "Structure and superconductivity in Y1-xLnxBa2-ySryCu4O8 (Ln=Lu, Tb, Gd, Pr, Ce); the influence of ionic size and valency" 1997 "Dept. of Inorganic Chemistry, Chalmers Univ. of Technology and Univ. of Goteborg, Goteborg, Sweden" "J.Alloys and Compounds, 252(1997)76-82" "Y,Ba,Cu,O,Lu,Tb,Gd,Pr,Ce,Sr" 9048 JAC2520076 "(Y,Lu)Ba2Cu4O8" Y0.76Lu0.24Ba2Cu4O8 Y 0.76 Lu 0.24 Ba 2 Cu 4 O 8 1 1997 3 Y124 A 3.8409 3.864 27.2108 K "Polymerized complex method. See Physica C, 173(1991)377" "Structure and superconductivity in Y1-xLnxBa2-ySryCu4O8 (Ln=Lu, Tb, Gd, Pr, Ce); the influence of ionic size and valency" 1997 "Dept. of Inorganic Chemistry, Chalmers Univ. of Technology and Univ. of Goteborg, Goteborg, Sweden" "J.Alloys and Compounds, 252(1997)76-82" "Y,Ba,Cu,O,Lu,Tb,Gd,Pr,Ce,Sr" 9049 JAC2520076 "Y(Ba,Sr)2Cu4O8" Y1Ba1.75Sr0.25Cu4O8 Y 1 Ba 1.75 Sr 0.25 Cu 4 O 8 1 1997 3 Y124 A 3.8376 3.8643 27.1883 K "Polymerized complex method. See Physica C, 173(1991)377" "Structure and superconductivity in Y1-xLnxBa2-ySryCu4O8 (Ln=Lu, Tb, Gd, Pr, Ce); the influence of ionic size and valency" 1997 "Dept. of Inorganic Chemistry, Chalmers Univ. of Technology and Univ. of Goteborg, Goteborg, Sweden" "J.Alloys and Compounds, 252(1997)76-82" "Y,Ba,Cu,O,Lu,Tb,Gd,Pr,Ce,Sr" 9050 JAC2520076 "(Y,Lu)(Ba,Sr)2Cu4O8" Y0.52Lu0.48Ba1.75Sr0.25Cu4O8 Y 0.52 Lu 0.48 Ba 1.75 Sr 0.25 Cu 4 O 8 1 1997 3 Y124 A 3.824 3.8601 27.1662 K "Polymerized complex method. See Physica C, 173(1991)377" "Structure and superconductivity in Y1-xLnxBa2-ySryCu4O8 (Ln=Lu, Tb, Gd, Pr, Ce); the influence of ionic size and valency" 1997 "Dept. of Inorganic Chemistry, Chalmers Univ. of Technology and Univ. of Goteborg, Goteborg, Sweden" "J.Alloys and Compounds, 252(1997)76-82" "Y,Ba,Cu,O,Lu,Tb,Gd,Pr,Ce,Sr" 9051 PHC2160124 "Ba(Ca,Cd)LaCu3Oz" Ba1Ca0.7Cd0.3La1Cu3OZ Ba 1 Ca 0.7 Cd 0.3 La 1 Cu 3 O Z 1993 2 1113 A 11.6243 K 55.4 55.4 See PREPID=4509 "REPLACING CA BY CD IN THE TETRAGONAL SUPERCONDUCTING SERIES BACAXCD1-XLACU3OY,0<-X<-1" 1993 10 "PHYSICA C,216(1993)124" "BA,CA,CD,LA,CU,O" 9052 PHC2160124 "Ba(Ca,Cd)LaCu3Oz" Ba1Ca0.75Cd0.25La1Cu3OZ Ba 1 Ca 0.75 Cd 0.25 La 1 Cu 3 O Z 1993 2 1113 A 11.62 K 60.6 60.6 See PREPID=4509 "REPLACING CA BY CD IN THE TETRAGONAL SUPERCONDUCTING SERIES BACAXCD1-XLACU3OY,0<-X<-1" 1993 10 "PHYSICA C,216(1993)124" "BA,CA,CD,LA,CU,O" 9053 PHC2160124 "Ba(Ca,Cd)LaCu3Oz" Ba1Ca0.8Cd0.2La1Cu3OZ Ba 1 Ca 0.8 Cd 0.2 La 1 Cu 3 O Z 1993 2 1113 A 11.6087 K 65.3 65.3 See PREPID=4509 "REPLACING CA BY CD IN THE TETRAGONAL SUPERCONDUCTING SERIES BACAXCD1-XLACU3OY,0<-X<-1" 1993 10 "PHYSICA C,216(1993)124" "BA,CA,CD,LA,CU,O" 9054 PHC2160124 "Ba(Ca,Cd)LaCu3Oz" Ba1Ca0.9Cd0.1La1Cu3OZ Ba 1 Ca 0.9 Cd 0.1 La 1 Cu 3 O Z 1993 2 1113 A 11.6 K 74 74 See PREPID=4509 "REPLACING CA BY CD IN THE TETRAGONAL SUPERCONDUCTING SERIES BACAXCD1-XLACU3OY,0<-X<-1" 1993 10 "PHYSICA C,216(1993)124" "BA,CA,CD,LA,CU,O" 9055 PHC2160124 BaCaLaCu3Oz Ba1Ca1La1Cu3OZ Ba 1 Ca 1 La 1 Cu 3 O Z 1993 2 1113 A 11.5887 K 80 80 See PREPID=4509 "REPLACING CA BY CD IN THE TETRAGONAL SUPERCONDUCTING SERIES BACAXCD1-XLACU3OY,0<-X<-1" 1993 10 "PHYSICA C,216(1993)124" "BA,CA,CD,LA,CU,O" 9056 JAP0785212 "(Yb,Pr)Ba2Cu3O7" Yb0.8Pr0.2Ba2Cu3O7-Z Yb 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1995 3 Y123 A 3.8203 3.8542 11.7312 K 83.6 83.6 1 standard solid state reaction method "Ion size effect on normal state resistivity in (R0.8Pr0.2)Ba2Cu3O7-z (R=Sm,Eu, Gd, Dy, Ho, Er, Tm, and Yb) systems" 1995 10 "Department of Physics, Chung Yuan Christian University, Chungli,Taiwan" "J.Appl.Phys., 78(1995)5212" 9057 JAP0785212 "(Tm,Pr)Ba2Cu3O7" Tm0.8Pr0.2Ba2Cu3O7-Z Tm 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1995 3 Y123 A 3.8254 3.8575 11.7349 K 80.9 80.9 1 standard solid state reaction method "Ion size effect on normal state resistivity in (R0.8Pr0.2)Ba2Cu3O7-z (R=Sm,Eu, Gd, Dy, Ho, Er, Tm, and Yb) systems" 1995 10 "Department of Physics, Chung Yuan Christian University, Chungli,Taiwan" "J.Appl.Phys., 78(1995)5212" 9058 JAP0785212 "(Er,Pr)Ba2Cu3O7" Er0.8Pr0.2Ba2Cu3O7-Z Er 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1995 3 Y123 A 3.8269 3.8606 11.7393 K 78.5 78.5 1 standard solid state reaction method "Ion size effect on normal state resistivity in (R0.8Pr0.2)Ba2Cu3O7-z (R=Sm,Eu, Gd, Dy, Ho, Er, Tm, and Yb) systems" 1995 10 "Department of Physics, Chung Yuan Christian University, Chungli,Taiwan" "J.Appl.Phys., 78(1995)5212" 9059 JAP0785212 "(Ho,Pr)Ba2Cu3O7" Ho0.8Pr0.2Ba2Cu3O7-Z Ho 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1995 3 Y123 A 3.8301 3.8651 11.741 K 74.1 74.1 1 standard solid state reaction method "Ion size effect on normal state resistivity in (R0.8Pr0.2)Ba2Cu3O7-z (R=Sm,Eu, Gd, Dy, Ho, Er, Tm, and Yb) systems" 1995 10 "Department of Physics, Chung Yuan Christian University, Chungli,Taiwan" "J.Appl.Phys., 78(1995)5212" 9060 JAP0785212 "(Dy,Pr)Ba2Cu3O7" Dy0.8Pr0.2Ba2Cu3O7-Z Dy 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1995 3 Y123 A 3.8312 3.8704 11.7854 K 69.1 69.1 1 standard solid state reaction method "Ion size effect on normal state resistivity in (R0.8Pr0.2)Ba2Cu3O7-z (R=Sm,Eu, Gd, Dy, Ho, Er, Tm, and Yb) systems" 1995 10 "Department of Physics, Chung Yuan Christian University, Chungli,Taiwan" "J.Appl.Phys., 78(1995)5212" 9061 JAP0785212 "(Gd,Pr)Ba2Cu3O7" Gd0.8Pr0.2Ba2Cu3O7-Z Gd 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1995 3 Y123 A 3.8484 3.8828 11.793 K 66.8 66.8 1 standard solid state reaction method "Ion size effect on normal state resistivity in (R0.8Pr0.2)Ba2Cu3O7-z (R=Sm,Eu, Gd, Dy, Ho, Er, Tm, and Yb) systems" 1995 10 "Department of Physics, Chung Yuan Christian University, Chungli,Taiwan" "J.Appl.Phys., 78(1995)5212" 9062 JAP0785212 "(Eu,Pr)Ba2Cu3O7" Eu0.8Pr0.2Ba2Cu3O7-Z Eu 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1995 3 Y123 A 3.8493 3.8958 11.8003 K 64 64 1 standard solid state reaction method "Ion size effect on normal state resistivity in (R0.8Pr0.2)Ba2Cu3O7-z (R=Sm,Eu, Gd, Dy, Ho, Er, Tm, and Yb) systems" 1995 10 "Department of Physics, Chung Yuan Christian University, Chungli,Taiwan" "J.Appl.Phys., 78(1995)5212" 9063 JAP0785212 "(Sm,Pr)Ba2Cu3O7" Sm0.8Pr0.2Ba2Cu3O7-Z Sm 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1995 3 Y123 A 3.8541 3.8991 11.8038 K 52.6 52.6 1 standard solid state reaction method "Ion size effect on normal state resistivity in (R0.8Pr0.2)Ba2Cu3O7-z (R=Sm,Eu, Gd, Dy, Ho, Er, Tm, and Yb) systems" 1995 10 "Department of Physics, Chung Yuan Christian University, Chungli,Taiwan" "J.Appl.Phys., 78(1995)5212" 9064 JAP0785212 "(Nd,Pr)Ba2Cu3O7" Nd0.8Pr0.2Ba2Cu3O7-Z Nd 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 1 1995 3 Y123 A 3.8637 3.8993 11.806 K 40.9 40.9 1 standard solid state reaction method "Ion size effect on normal state resistivity in (R0.8Pr0.2)Ba2Cu3O7-z (R=Sm,Eu, Gd, Dy, Ho, Er, Tm, and Yb) systems" 1995 10 "Department of Physics, Chung Yuan Christian University, Chungli,Taiwan" "J.Appl.Phys., 78(1995)5212" 9065 PHC2910025 GdBa2Cu3O7 Gd1Ba2Cu3O6.969 Gd 1 Ba 2 Cu 3 O Z 6.969 1 1997 3 Y123 A 3.8387 3.8968 11.6979 K 91 91 "Gd2O3,BaCO3, CuO, MoO3,CaO" 1 "mixture - heat(950C, 24H in air in Pt crucible) - pellet - SIN(950C, 24H) - ANN(450C, 12H in O2 flow) - slow cool to RT (1 C/min)" Effect of Mo and Mo-Ca substitution on the superconductivity of GdBa2Cu3O7-delta 1997 11 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physica.C,291(1997)25-33" 9066 PHC2910025 "(Gd,Mo)Ba2Cu3O7" Gd0.95Mo0.05Ba2Cu3O6.948 Gd 0.95 Mo 0.05 Ba 2 Cu 3 O Z 6.948 1 1997 3 Y123 A 3.8461 3.903 11.7015 K 82.4 82.4 "Gd2O3,BaCO3, CuO, MoO3,CaO" 1 "mixture - heat(950C, 24H in air in Pt crucible) - pellet - SIN(950C, 24H) - ANN(450C, 12H in O2 flow) - slow cool to RT (1 C/min)" Effect of Mo and Mo-Ca substitution on the superconductivity of GdBa2Cu3O7-delta 1997 11 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physica.C,291(1997)25-33" 9067 PHC2910025 "(Gd,Mo)Ba2Cu3O7" Gd0.9Mo0.1Ba2Cu3O6.907 Gd 0.9 Mo 0.1 Ba 2 Cu 3 O Z 6.907 1 1997 3 Y123 A 3.8844 3.8782 11.7126 K 65.9 65.9 "Gd2O3,BaCO3, CuO, MoO3,CaO" 1 "mixture - heat(950C, 24H in air in Pt crucible) - pellet - SIN(950C, 24H) - ANN(450C, 12H in O2 flow) - slow cool to RT (1 C/min)" Effect of Mo and Mo-Ca substitution on the superconductivity of GdBa2Cu3O7-delta 1997 11 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physica.C,291(1997)25-33" 9068 PHC2910025 "(Gd,Mo)Ba2Cu3O7" Gd0.85Mo0.15Ba2Cu3O6.855 Gd 0.85 Mo 0.15 Ba 2 Cu 3 O Z 6.855 1 1997 3 Y123 A 3.8795 3.8881 11.7312 K 59.2 59.2 "Gd2O3,BaCO3, CuO, MoO3,CaO" 1 "mixture - heat(950C, 24H in air in Pt crucible) - pellet - SIN(950C, 24H) - ANN(450C, 12H in O2 flow) - slow cool to RT (1 C/min)" Effect of Mo and Mo-Ca substitution on the superconductivity of GdBa2Cu3O7-delta 1997 11 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physica.C,291(1997)25-33" 9069 PHC2910025 "(Gd,Mo)Ba2Cu3O7" Gd0.8Mo0.2Ba2Cu3O6.807 Gd 0.8 Mo 0.2 Ba 2 Cu 3 O Z 6.807 1 1997 3 Y123 A 3.9376 3.9451 11.6571 K 52.5 52.5 "Gd2O3,BaCO3, CuO, MoO3,CaO" 1 "mixture - heat(950C, 24H in air in Pt crucible) - pellet - SIN(950C, 24H) - ANN(450C, 12H in O2 flow) - slow cool to RT (1 C/min)" Effect of Mo and Mo-Ca substitution on the superconductivity of GdBa2Cu3O7-delta 1997 11 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physica.C,291(1997)25-33" 9070 PHC2910025 "(Gd,Ca,Mo)Ba2Cu3O7" Gd0.8Ca0.05Mo0.15Ba2Cu3O6.651 Gd 0.8 Ca 0.05 Mo 0.15 Ba 2 Cu 3 O Z 6.651 1 1997 3 Y123 A 3.8504 3.897 11.6697 K 66.1 66.1 "Gd2O3,BaCO3, CuO, MoO3,CaO" 1 "mixture - heat(950C, 24H in air in Pt crucible) - pellet - SIN(950C, 24H) - ANN(450C, 12H in O2 flow) - slow cool to RT (1 C/min)" Effect of Mo and Mo-Ca substitution on the superconductivity of GdBa2Cu3O7-delta 1997 11 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physica.C,291(1997)25-33" 9071 PHC2910025 "(Gd,Ca,Mo)Ba2Cu3O7" Gd0.75Ca0.1Mo0.15Ba2Cu3O6.671 Gd 0.75 Ca 0.1 Mo 0.15 Ba 2 Cu 3 O Z 6.671 1 1997 3 Y123 A 3.8565 3.8929 11.7183 K 75.1 75.1 "Gd2O3,BaCO3, CuO, MoO3,CaO" 1 "mixture - heat(950C, 24H in air in Pt crucible) - pellet - SIN(950C, 24H) - ANN(450C, 12H in O2 flow) - slow cool to RT (1 C/min)" Effect of Mo and Mo-Ca substitution on the superconductivity of GdBa2Cu3O7-delta 1997 11 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physica.C,291(1997)25-33" 9072 PHC2910025 "(Gd,Ca,Mo)Ba2Cu3O7" Gd0.7Ca0.15Mo0.15Ba2Cu3O6.716 Gd 0.7 Ca 0.15 Mo 0.15 Ba 2 Cu 3 O Z 6.716 1 1997 3 Y123 A 3.8473 3.8939 11.7 K 86.3 86.3 "Gd2O3,BaCO3, CuO, MoO3,CaO" 1 "mixture - heat(950C, 24H in air in Pt crucible) - pellet - SIN(950C, 24H) - ANN(450C, 12H in O2 flow) - slow cool to RT (1 C/min)" Effect of Mo and Mo-Ca substitution on the superconductivity of GdBa2Cu3O7-delta 1997 11 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physica.C,291(1997)25-33" 9073 PHC2910025 "(Gd,Ca,Mo)Ba2Cu3O7" Gd0.65Ca0.2Mo0.15Ba2Cu3O6.818 Gd 0.65 Ca 0.2 Mo 0.15 Ba 2 Cu 3 O Z 6.818 1 1997 3 Y123 A 3.8494 3.897 11.694 K 84.1 84.1 "Gd2O3,BaCO3, CuO, MoO3,CaO" 1 "mixture - heat(950C, 24H in air in Pt crucible) - pellet - SIN(950C, 24H) - ANN(450C, 12H in O2 flow) - slow cool to RT (1 C/min)" Effect of Mo and Mo-Ca substitution on the superconductivity of GdBa2Cu3O7-delta 1997 11 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physica.C,291(1997)25-33" 9074 PHC2910025 "(Gd,Ca,Mo)Ba2Cu3O7" Gd0.6Ca0.25Mo0.15Ba2Cu3O6.761 Gd 0.6 Ca 0.25 Mo 0.15 Ba 2 Cu 3 O Z 6.761 1 1997 3 Y123 A 3.8392 3.9061 11.697 K 83.7 83.7 "Gd2O3,BaCO3, CuO, MoO3,CaO" 1 "mixture - heat(950C, 24H in air in Pt crucible) - pellet - SIN(950C, 24H) - ANN(450C, 12H in O2 flow) - slow cool to RT (1 C/min)" Effect of Mo and Mo-Ca substitution on the superconductivity of GdBa2Cu3O7-delta 1997 11 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physica.C,291(1997)25-33" 9075 PHC2910025 "(Gd,Ca,Mo)Ba2Cu3O7" Gd0.55Ca0.3Mo0.15Ba2Cu3O6.626 Gd 0.55 Ca 0.3 Mo 0.15 Ba 2 Cu 3 O Z 6.626 1 1997 3 Y123 A 3.8433 3.8949 11.7273 K 80.7 80.7 "Gd2O3,BaCO3, CuO, MoO3,CaO" 1 "mixture - heat(950C, 24H in air in Pt crucible) - pellet - SIN(950C, 24H) - ANN(450C, 12H in O2 flow) - slow cool to RT (1 C/min)" Effect of Mo and Mo-Ca substitution on the superconductivity of GdBa2Cu3O7-delta 1997 11 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physica.C,291(1997)25-33" 9076 PHC2910025 "(Gd,Ca,Mo)Ba2Cu3O7" Gd0.5Ca0.35Mo0.15Ba2Cu3O6.586 Gd 0.5 Ca 0.35 Mo 0.15 Ba 2 Cu 3 O Z 6.586 1 1997 3 Y123 A 3.8352 3.8959 11.703 K 77.7 77.7 "Gd2O3,BaCO3, CuO, MoO3,CaO" 1 "mixture - heat(950C, 24H in air in Pt crucible) - pellet - SIN(950C, 24H) - ANN(450C, 12H in O2 flow) - slow cool to RT (1 C/min)" Effect of Mo and Mo-Ca substitution on the superconductivity of GdBa2Cu3O7-delta 1997 11 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physica.C,291(1997)25-33" 9077 PHC2910025 "(Gd,Ca,Mo)Ba2Cu3O7" Gd0.45Ca0.4Mo0.15Ba2Cu3O6.537 Gd 0.45 Ca 0.4 Mo 0.15 Ba 2 Cu 3 O Z 6.537 1 1997 3 Y123 A 3.8392 3.898 11.697 K 73 73 "Gd2O3,BaCO3, CuO, MoO3,CaO" 1 "mixture - heat(950C, 24H in air in Pt crucible) - pellet - SIN(950C, 24H) - ANN(450C, 12H in O2 flow) - slow cool to RT (1 C/min)" Effect of Mo and Mo-Ca substitution on the superconductivity of GdBa2Cu3O7-delta 1997 11 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Physica.C,291(1997)25-33" 9078 PHC1950035 "(Pb,Cu)Sr2(Ca,Y)Cu2O7" Pb0.7Sr2Ca0.5Y0.5Cu2.3O7-Z Pb 0.7 Sr 2 Ca 0.5 Y 0.5 Cu 2.3 O 7-Z 1 1992 Pb1212 K 34 40 55 45 40 50 mOhm.cm 27.8 1 "mixture - alumina crucible in quartz - heat(880C, 12H) - Q to RT - wrapped in Au foil - ANN(970C. 3H in O2) - cool to RT (2 C/min)" "AN ENHANCEMENT OF TC,FROM 45 K TO 70 K,VIA CD SUBSTITUTION IN(PB,CU)SR2(CA,Y)CU2O7-Z" 1992 5 "PHYSICA C,195(1992)35" "CD,PB,CU,SR,CA,Y,O" 9079 PHC1950035 "(Pb,Cd)Sr2(Ca,Y)Cu2O7" Pb0.5Cd0.5Sr2Ca0.5Y0.5Cu2O7-Z Pb 0.5 Cd 0.5 Sr 2 Ca 0.5 Y 0.5 Cu 2 O 7-Z 1 1992 2 Pb1212 p4/mmm A 3.8195 11.9543 K 58 65 78 70 65 50 mOhm.cm 14.6 1 "mixture - alumina crucible in quartz - heat(880C, 12H) - Q to RT - wrapped in Au foil - ANN(970C. 3H in O2) - cool to RT (2 C/min)" "AN ENHANCEMENT OF TC,FROM 45 K TO 70 K,VIA CD SUBSTITUTION IN(PB,CU)SR2(CA,Y)CU2O7-Z" 1992 5 "PHYSICA C,195(1992)35" "CD,PB,CU,SR,CA,Y,O" 9080 PHC3340295 Young's modulus using 200 kHz LiNbO3 piezoelectric oscilator. O-T transition=913K. ErBa2Cu3Oz Er1Ba2Cu3O6.95 Er 1 Ba 2 Cu 3 O z 6.95 1 2000 3 Y123 A 3.819 3.887 11.677 K 1 solid state reaction "Internal friction of RBa2Cu3Oy (R=Y, Er, Ho, Dy, Sm and Nd) at 200 kHz near orthorhombic-to-tetragonal phase transition" 2000 6 "Nagoya Institute of Technology, CRL, Tajimi, Gifu 507-0071, Japan" "Physica C,334(2000)295-300" 9081 PHC3340295 Young's modulus using 200 kHz LiNbO3 piezoelectric oscilator. O-T transition=907 K HoBa2Cu3Oz Ho1Ba2Cu3O6.87 Ho 1 Ba 2 Cu 3 O z 6.87 1 2000 3 Y123 A 3.824 3.89 11.682 K 1 solid state reaction "Internal friction of RBa2Cu3Oy (R=Y, Er, Ho, Dy, Sm and Nd) at 200 kHz near orthorhombic-to-tetragonal phase transition" 2000 6 "Nagoya Institute of Technology, CRL, Tajimi, Gifu 507-0071, Japan" "Physica C,334(2000)295-300" 9082 PHC3340295 Young's modulus using 200 kHz LiNbO3 piezoelectric oscilator.O-T transition=913 K. YBa2Cu3Oz Y1Ba2Cu3O6.91 Y 1 Ba 2 Cu 3 O z 6.91 1 2000 3 Y123 A 3.824 3.891 11.681 K 1 solid state reaction "Internal friction of RBa2Cu3Oy (R=Y, Er, Ho, Dy, Sm and Nd) at 200 kHz near orthorhombic-to-tetragonal phase transition" 2000 6 "Nagoya Institute of Technology, CRL, Tajimi, Gifu 507-0071, Japan" "Physica C,334(2000)295-300" 9083 PHC3340295 Young's modulus using 200 kHz LiNbO3 piezoelectric oscilator. O-T transition=900 K. DyBa2Cu3Oz Dy1Ba2Cu3O6.94 Dy 1 Ba 2 Cu 3 O z 6.94 1 2000 3 Y123 A 3.829 3.892 11.692 K 1 solid state reaction "Internal friction of RBa2Cu3Oy (R=Y, Er, Ho, Dy, Sm and Nd) at 200 kHz near orthorhombic-to-tetragonal phase transition" 2000 6 "Nagoya Institute of Technology, CRL, Tajimi, Gifu 507-0071, Japan" "Physica C,334(2000)295-300" 9084 PHC3340295 Young's modulus using 200 kHz LiNbO3 piezoelectric oscilator. O-T transition=871 K. SmBa2Cu3Oz Sm1Ba2Cu3O7.06 Sm 1 Ba 2 Cu 3 O z 7.06 1 2000 3 Y123 A 3.852 3.909 11.719 K 1 solid state reaction "Internal friction of RBa2Cu3Oy (R=Y, Er, Ho, Dy, Sm and Nd) at 200 kHz near orthorhombic-to-tetragonal phase transition" 2000 6 "Nagoya Institute of Technology, CRL, Tajimi, Gifu 507-0071, Japan" "Physica C,334(2000)295-300" 9085 PHC3340295 Young's modulus using 200 kHz LiNbO3 piezoelectric oscilator. O-T transition=834 K. NdBa2Cu3Oz Nd1Ba2Cu3O6.87 Nd 1 Ba 2 Cu 3 O z 6.87 1 2000 3 Y123 A 3.869 3.921 11.746 K 1 solid state reaction "Internal friction of RBa2Cu3Oy (R=Y, Er, Ho, Dy, Sm and Nd) at 200 kHz near orthorhombic-to-tetragonal phase transition" 2000 6 "Nagoya Institute of Technology, CRL, Tajimi, Gifu 507-0071, Japan" "Physica C,334(2000)295-300" 9086 PHC3340237 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 3 2000 Bi2212 K 90.4 90.4 Crystals were grown from Bi2O3-rich melt in Al2O3 crucible The comparable effects on transport properties in Bi2Sr2Ca1-xPrxCu2Oy and Bi2Sr2Ca1-xYxCu2Oy single crystals 2000 6 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C,334(2000)237-242" 9087 PHC3340237 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.95Pr0.05Cu2Oz Bi 2 Sr 2 Ca 0.95 Pr 0.05 Cu 2 O z 3 2000 Bi2212 K 91.1 91.1 Crystals were grown from Bi2O3-rich melt in Al2O3 crucible The comparable effects on transport properties in Bi2Sr2Ca1-xPrxCu2Oy and Bi2Sr2Ca1-xYxCu2Oy single crystals 2000 6 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C,334(2000)237-242" 9088 PHC3340237 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.87Pr0.13Cu2Oz Bi 2 Sr 2 Ca 0.87 Pr 0.13 Cu 2 O z 3 2000 Bi2212 K 88.9 88.9 Crystals were grown from Bi2O3-rich melt in Al2O3 crucible The comparable effects on transport properties in Bi2Sr2Ca1-xPrxCu2Oy and Bi2Sr2Ca1-xYxCu2Oy single crystals 2000 6 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C,334(2000)237-242" 9089 PHC3340237 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.78Pr0.22Cu2Oz Bi 2 Sr 2 Ca 0.78 Pr 0.22 Cu 2 O z 3 2000 Bi2212 K 85.5 85.5 Crystals were grown from Bi2O3-rich melt in Al2O3 crucible The comparable effects on transport properties in Bi2Sr2Ca1-xPrxCu2Oy and Bi2Sr2Ca1-xYxCu2Oy single crystals 2000 6 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C,334(2000)237-242" 9090 PHC3340237 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.6Pr0.4Cu2Oz Bi 2 Sr 2 Ca 0.6 Pr 0.4 Cu 2 O z 3 2000 Bi2212 K 81.6 81.6 Crystals were grown from Bi2O3-rich melt in Al2O3 crucible The comparable effects on transport properties in Bi2Sr2Ca1-xPrxCu2Oy and Bi2Sr2Ca1-xYxCu2Oy single crystals 2000 6 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C,334(2000)237-242" 9091 PHC3340237 not s/c "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.5Pr0.5Cu2Oz Bi 2 Sr 2 Ca 0.5 Pr 0.5 Cu 2 O z 3 2000 Bi2212 K 5 Crystals were grown from Bi2O3-rich melt in Al2O3 crucible The comparable effects on transport properties in Bi2Sr2Ca1-xPrxCu2Oy and Bi2Sr2Ca1-xYxCu2Oy single crystals 2000 6 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C,334(2000)237-242" 9092 PHC3340237 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.89Y0.11Cu2Oz Bi 2 Sr 2 Ca 0.89 Y 0.11 Cu 2 O z 3 2000 Bi2212 K 87.6 87.6 Crystals were grown from Bi2O3-rich melt in Al2O3 crucible The comparable effects on transport properties in Bi2Sr2Ca1-xPrxCu2Oy and Bi2Sr2Ca1-xYxCu2Oy single crystals 2000 6 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C,334(2000)237-242" 9093 PHC3340237 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.8Y0.2Cu2Oz Bi 2 Sr 2 Ca 0.8 Y 0.2 Cu 2 O z 3 2000 Bi2212 K 82 82 Crystals were grown from Bi2O3-rich melt in Al2O3 crucible The comparable effects on transport properties in Bi2Sr2Ca1-xPrxCu2Oy and Bi2Sr2Ca1-xYxCu2Oy single crystals 2000 6 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C,334(2000)237-242" 9094 PHC3340237 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.69Y0.31Cu2Oz Bi 2 Sr 2 Ca 0.69 Y 0.31 Cu 2 O z 3 2000 Bi2212 K 70.8 70.8 Crystals were grown from Bi2O3-rich melt in Al2O3 crucible The comparable effects on transport properties in Bi2Sr2Ca1-xPrxCu2Oy and Bi2Sr2Ca1-xYxCu2Oy single crystals 2000 6 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C,334(2000)237-242" 9095 PHC3340237 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.59Y0.41Cu2Oz Bi 2 Sr 2 Ca 0.59 Y 0.41 Cu 2 O z 3 2000 Bi2212 K 56.1 56.1 Crystals were grown from Bi2O3-rich melt in Al2O3 crucible The comparable effects on transport properties in Bi2Sr2Ca1-xPrxCu2Oy and Bi2Sr2Ca1-xYxCu2Oy single crystals 2000 6 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C,334(2000)237-242" 9096 PHC3340141 as-prepared. Ferromag below curie temp. "(Eu,Ce)2RuSr2Cu2O10" Eu1.5Ce0.5Ru1Sr2Cu2O10 Eu 1.5 Ce 0.5 Ru 1 Sr 2 Cu 2 O 10 2000 122 Ru1222 A 3.846 28.72 K 32 32 "Eu2O3,CeO2,SrCO3,Ru,CuO" 1 "mixture-heat(1000C,1 day in flowing O2)-pellet-SIN(1050C,72H in O2)-FC to RT" Tuning of the superconducting and ferromagnetic behavior by oxygen and hydrogen in Eu1.5Ce0.5RuSr2Cu2O10-z 2000 6 "Racah Institute of Physics, The Hebrew University, Jerusalem, 91904, Israel" "Physica C,334(2000)141-151" 9097 PHC3340141 ANN(22 atm O2) "(Eu,Ce)2RuSr2Cu2O10" Eu1.5Ce0.5Ru1Sr2Cu2O10 Eu 1.5 Ce 0.5 Ru 1 Sr 2 Cu 2 O 10 2000 Ru1222 K 38 38 "Eu2O3,CeO2,SrCO3,Ru,CuO" 1 "mixture-heat(1000C,1 day in flowing O2)-pellet-SIN(1050C,72H in O2)-FC to RT" Tuning of the superconducting and ferromagnetic behavior by oxygen and hydrogen in Eu1.5Ce0.5RuSr2Cu2O10-z 2000 6 "Racah Institute of Physics, The Hebrew University, Jerusalem, 91904, Israel" "Physica C,334(2000)141-151" 9098 PHC3340141 ANN at 75 atm O2. Ferromag below curie temp. "(Eu,Ce)2RuSr2Cu2O10" Eu1.5Ce0.5Ru1Sr2Cu2O10 Eu 1.5 Ce 0.5 Ru 1 Sr 2 Cu 2 O 10 2000 168 Ru1222 K 46 46 "Eu2O3,CeO2,SrCO3,Ru,CuO" 1 "mixture-heat(1000C,1 day in flowing O2)-pellet-SIN(1050C,72H in O2)-FC to RT" Tuning of the superconducting and ferromagnetic behavior by oxygen and hydrogen in Eu1.5Ce0.5RuSr2Cu2O10-z 2000 6 "Racah Institute of Physics, The Hebrew University, Jerusalem, 91904, Israel" "Physica C,334(2000)141-151" 9099 PHC3340141 ANN at 150 atm O2. Ferromag below curie temp. "(Eu,Ce)2RuSr2Cu2O10" Eu1.5Ce0.5Ru1Sr2Cu2O10 Eu 1.5 Ce 0.5 Ru 1 Sr 2 Cu 2 O 10 2000 225 Ru1222 K 49 49 "Eu2O3,CeO2,SrCO3,Ru,CuO" 1 "mixture-heat(1000C,1 day in flowing O2)-pellet-SIN(1050C,72H in O2)-FC to RT" Tuning of the superconducting and ferromagnetic behavior by oxygen and hydrogen in Eu1.5Ce0.5RuSr2Cu2O10-z 2000 6 "Racah Institute of Physics, The Hebrew University, Jerusalem, 91904, Israel" "Physica C,334(2000)141-151" 9100 PHC3340141 Hydrogen atoms occupy intersticial site. Ferromag below curie temp. Resistivity and SQUID show no s/c. "(Eu,Ce)2RuSr2Cu2O10H0.07" Eu1.5Ce0.5Ru1Sr2Cu2H0.07O10 Eu 1.5 Ce 0.5 Ru 1 Sr 2 Cu 2 H 0.07 O 10 2000 225 Ru1222 K "Eu2O3,CeO2,SrCO3,Ru,CuO" 1 "mixture-heat(1000C,1 day in flowing O2)-pellet-SIN(1050C,72H in O2)-FC to RT" Tuning of the superconducting and ferromagnetic behavior by oxygen and hydrogen in Eu1.5Ce0.5RuSr2Cu2O10-z 2000 6 "Racah Institute of Physics, The Hebrew University, Jerusalem, 91904, Israel" "Physica C,334(2000)141-151" 9101 PHC3340025 growth axis is normal to c-axis "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 3 2000 T A 3.773 13.233 K 39 39 floating zone method under 8 atm O2 pressure Angular dependence of the specific heat of La1.85Sr0.15CuO4 in superconducting mixed state 2000 6 "Russian Research Centre ""Kurchatov Institute"", Superconductivity and Solid State Physics Institute, Kurchatov Sq. 1, 123182 Moscow, Russia" "Physica C,334(2000)25-32" 9102 PHC3340015 not s/c "(Nd,Sr,Ho)2CuO4" Nd1.2Sr0.4Ho0.4Cu1O4-z Nd 1.2 Sr 0.4 Ho 0.4 Cu 1 O 4-z 2000 T* A 3.8321 12.4984 K 4 "as-grown sample-ANN(500C,1day,20bar O2)-ANN(500C,1 day, 1400 bar O2)-ANN(800C, 18 H, 1800 bar O2)" "T*-type substituted neodymium cuprates Nd1.2Sr0.8xY(Ho, Er, Yb)xCuO4-z: crystal chemistry and electrical conductivity" 2000 6 "Centre de Recherche sur la Matiere Divisee, UMR CNRS-Universite, 1B rue de la Ferollerie, 45071 Orleans Cedex 2, France" "Physica C,334(2000)15-24" 9103 PHC3340015 not s/c "(Nd,Sr,Y)2CuO4" Nd1.2Sr0.35Y0.45Cu1O4-z Nd 1.2 Sr 0.35 Y 0.45 Cu 1 O 4-z 2000 T* K 4 "as-grown sample-ANN(500C,1day,20bar O2)-ANN(500C,1 day, 1400 bar O2)-ANN(800C, 18 H, 1800 bar O2)" "T*-type substituted neodymium cuprates Nd1.2Sr0.8xY(Ho, Er, Yb)xCuO4-z: crystal chemistry and electrical conductivity" 2000 6 "Centre de Recherche sur la Matiere Divisee, UMR CNRS-Universite, 1B rue de la Ferollerie, 45071 Orleans Cedex 2, France" "Physica C,334(2000)15-24" 9104 PHC3340015 not s/c "(Nd,Sr,Ho)2CuO4" Nd1.2Sr0.37Ho0.43Cu1O4-z Nd 1.2 Sr 0.37 Ho 0.43 Cu 1 O 4-z 2000 T* K 4 "as-grown sample-ANN(500C,1day,20bar O2)-ANN(500C,1 day, 1400 bar O2)-ANN(800C, 18 H, 1800 bar O2)" "T*-type substituted neodymium cuprates Nd1.2Sr0.8xY(Ho, Er, Yb)xCuO4-z: crystal chemistry and electrical conductivity" 2000 6 "Centre de Recherche sur la Matiere Divisee, UMR CNRS-Universite, 1B rue de la Ferollerie, 45071 Orleans Cedex 2, France" "Physica C,334(2000)15-24" 9105 PHC3340015 not s/c "(Nd,Sr,Er)2CuO4" Nd1.2Sr0.4Er0.4Cu1O4-z Nd 1.2 Sr 0.4 Er 0.4 Cu 1 O 4-z 2000 T* K 4 "as-grown sample-ANN(500C,1day,20bar O2)-ANN(500C,1 day, 1400 bar O2)-ANN(800C, 18 H, 1800 bar O2)" "T*-type substituted neodymium cuprates Nd1.2Sr0.8xY(Ho, Er, Yb)xCuO4-z: crystal chemistry and electrical conductivity" 2000 6 "Centre de Recherche sur la Matiere Divisee, UMR CNRS-Universite, 1B rue de la Ferollerie, 45071 Orleans Cedex 2, France" "Physica C,334(2000)15-24" 9106 PHC3310045 not s/c PrBa2Cu3O7 Pr1Ba2Cu3O7 Pr 1 Ba 2 Cu 3 O 7 1 2000 emu/mol 0 myu-B/Pr 2.88 -3.6 Y123 K 4.2 solid state reaction "Insulator-metal transition by the substitution of Ho, Y or Ca for Pr in PrBa2Cu3O7-z" 2000 4 "Institute of Physics, Jagellonian University, Reymonta 4, 30-059 Cracow, Poland" Physica C.331(2000)45-56 9107 PHC3310045 not s/c PrBa2Cu3O6 Pr1Ba2Cu3O6 Pr 1 Ba 2 Cu 3 O 6 1 2000 emu/mol 0 myu-B/Pr 2.82 0.7 Y123 K 4.2 solid state reaction "Insulator-metal transition by the substitution of Ho, Y or Ca for Pr in PrBa2Cu3O7-z" 2000 4 "Institute of Physics, Jagellonian University, Reymonta 4, 30-059 Cracow, Poland" Physica C.331(2000)45-56 9108 PHC3310045 not s/c "(Pr,Ca)Ba2Cu3O7" Pr0.7Ca0.3Ba2Cu3O7 Pr 0.7 Ca 0.3 Ba 2 Cu 3 O 7 1 2000 emu/mol 0.00061 myu-B/Pr 3.01 0.6 Y123 K 4.2 solid state reaction "Insulator-metal transition by the substitution of Ho, Y or Ca for Pr in PrBa2Cu3O7-z" 2000 4 "Institute of Physics, Jagellonian University, Reymonta 4, 30-059 Cracow, Poland" Physica C.331(2000)45-56 9109 SSC1140533 P-induced SC. ladder plane is ac plane. Hc2(0)=3.2T if calculated from dHc2dT and using WHH theory. Measurement carried out at p=4.8 Gpa. "(Sr,Ca)14Cu24O41" Sr2.5Ca11.5Cu24O41 Sr 2.5 Ca 11.5 Cu 24 O 41 3 2000 LAD K 5 0 5 HC9109 Traveling solvent floating zone method under 10 atm O2. Upper critical field of the spin ladder system Sr2.5Ca11.5Cu24O41 2000 5 "Departement de Recherche Fondamentale sur la Matiere Condensee, SPSMS/LCP, CEA/Grenoble, 17 rue des Martyrs, 38054 Grenoble Cedex 9, France" "Solid State Commun.,114(2000)533-536" 9110 PHC3360131 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 3 2000 Bi2212 A 30.849 K 84 84 Single crystals were grown by a self-flux method. Cooling rate from melting point to end temperature is 1 C/h. Growth and characterization of Bi2Sr2Ca1-xGdxCu2Oy single crystals by self-flux method 2000 7 "Department of Materials Science and Engineering, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Physica C,336(2000)131-136" 9111 PHC3360131 "Bi2Sr2(Ca,Gd)Cu2O8" Bi2Sr2Ca0.91Gd0.09Cu2Oz Bi 2 Sr 2 Ca 0.91 Gd 0.09 Cu 2 O z 3 2000 Bi2212 A 30.774 K 87 87 Single crystals were grown by a self-flux method. Cooling rate from melting point to end temperature is 1 C/h. Growth and characterization of Bi2Sr2Ca1-xGdxCu2Oy single crystals by self-flux method 2000 7 "Department of Materials Science and Engineering, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Physica C,336(2000)131-136" 9112 PHC3360131 "Bi2Sr2(Ca,Gd)Cu2O8" Bi2Sr2Ca0.81Gd0.19Cu2Oz Bi 2 Sr 2 Ca 0.81 Gd 0.19 Cu 2 O z 3 2000 Bi2212 A 30.657 K 83 83 Single crystals were grown by a self-flux method. Cooling rate from melting point to end temperature is 1 C/h. Growth and characterization of Bi2Sr2Ca1-xGdxCu2Oy single crystals by self-flux method 2000 7 "Department of Materials Science and Engineering, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Physica C,336(2000)131-136" 9113 PHC3360131 "Bi2Sr2(Ca,Gd)Cu2O8" Bi2Sr2Ca0.68Gd0.32Cu2Oz Bi 2 Sr 2 Ca 0.68 Gd 0.32 Cu 2 O z 3 2000 Bi2212 A 30.562 K 78 78 Single crystals were grown by a self-flux method. Cooling rate from melting point to end temperature is 1 C/h. Growth and characterization of Bi2Sr2Ca1-xGdxCu2Oy single crystals by self-flux method 2000 7 "Department of Materials Science and Engineering, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Physica C,336(2000)131-136" 9114 PHC3360131 "Bi2Sr2(Ca,Gd)Cu2O8" Bi2Sr2Ca0.59Gd0.41Cu2Oz Bi 2 Sr 2 Ca 0.59 Gd 0.41 Cu 2 O z 3 2000 Bi2212 A 30.496 K 63.1 63.1 Single crystals were grown by a self-flux method. Cooling rate from melting point to end temperature is 1 C/h. Growth and characterization of Bi2Sr2Ca1-xGdxCu2Oy single crystals by self-flux method 2000 7 "Department of Materials Science and Engineering, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Physica C,336(2000)131-136" 9115 JSC0920386 not s/c "(Ca,Sr)EuCuO3Cl" Ca0.8Sr0.2Eu1Cu1Cl1O3 Ca 0.8 Sr 0.2 Eu 1 Cu 1 Cl 1 O 3 1991 2 T* A 3.898 13.515 K 4.2 "CuO,Ln2O3,SrO,CaO,SrCl2,CaCl2" 1 "pellet-SIN(820C,18H)" "Synthesis,Structure, and Properties of a New T* Structure Copper-Oxychloride of MLnCuO3Cl (M=Ca,Sr and Ln=Nd,Sm,Eu,Gd)" 1991 5 "Rutgers,The State University of New Jersey, Piscataway, New Jersey 08855" "J.Solid State Chem.,92(1991)386-400" 9116 JSC0920386 not s/c CaEuCuO3Cl Ca1Eu1Cu1Cl1O3 Ca 1 Eu 1 Cu 1 Cl 1 O 3 1991 2 T* A 3.892 13.405 K 4.2 "CuO,Ln2O3,SrO,CaO,SrCl2,CaCl2" 1 "pellet-SIN(820C,18H)" "Synthesis,Structure, and Properties of a New T* Structure Copper-Oxychloride of MLnCuO3Cl (M=Ca,Sr and Ln=Nd,Sm,Eu,Gd)" 1991 5 "Rutgers,The State University of New Jersey, Piscataway, New Jersey 08855" "J.Solid State Chem.,92(1991)386-400" 9117 JSC0920386 not s/c "(Ca,Sr)GdCuO3Cl" Ca0.79Sr0.21Gd1Cu1Cl1O3 Ca 0.79 Sr 0.21 Gd 1 Cu 1 Cl 1 O 3 1991 2 T* A 3.893 13.517 K 4.2 "CuO,Ln2O3,SrO,CaO,SrCl2,CaCl2" 1 "pellet-SIN(820C,18H)" "Synthesis,Structure, and Properties of a New T* Structure Copper-Oxychloride of MLnCuO3Cl (M=Ca,Sr and Ln=Nd,Sm,Eu,Gd)" 1991 5 "Rutgers,The State University of New Jersey, Piscataway, New Jersey 08855" "J.Solid State Chem.,92(1991)386-400" 9118 JSC0920386 not s/c CaGdCuO3Cl Ca1Gd1Cu1Cl1O3 Ca 1 Gd 1 Cu 1 Cl 1 O 3 1991 2 T* A 3.888 13.389 K 4.2 "CuO,Ln2O3,SrO,CaO,SrCl2,CaCl2" 1 "pellet-SIN(820C,18H)" "Synthesis,Structure, and Properties of a New T* Structure Copper-Oxychloride of MLnCuO3Cl (M=Ca,Sr and Ln=Nd,Sm,Eu,Gd)" 1991 5 "Rutgers,The State University of New Jersey, Piscataway, New Jersey 08855" "J.Solid State Chem.,92(1991)386-400" 9119 JSC0920386 not s/c SrNdCuO3Cl Sr1Nd1Cu1Cl1O3 Sr 1 Nd 1 Cu 1 Cl 1 O 3 1991 2 T* A 3.956 13.88 K 4.2 "CuO,Ln2O3,SrO,CaO,SrCl2,CaCl2" 1 "pellet-SIN(820C,18H)" "Synthesis,Structure, and Properties of a New T* Structure Copper-Oxychloride of MLnCuO3Cl (M=Ca,Sr and Ln=Nd,Sm,Eu,Gd)" 1991 5 "Rutgers,The State University of New Jersey, Piscataway, New Jersey 08855" "J.Solid State Chem.,92(1991)386-400" 9120 JSC0920386 not s/c "(Ca,Sr)NdCuO3Cl" Ca0.72Sr0.28Nd1Cu1Cl1O3 Ca 0.72 Sr 0.28 Nd 1 Cu 1 Cl 1 O 3 1991 -10 2 T* A 3.926 13.665 K 4.2 "CuO,Ln2O3,SrO,CaO,SrCl2,CaCl2" 1 "pellet-SIN(820C,18H)" "Synthesis,Structure, and Properties of a New T* Structure Copper-Oxychloride of MLnCuO3Cl (M=Ca,Sr and Ln=Nd,Sm,Eu,Gd)" 1991 5 "Rutgers,The State University of New Jersey, Piscataway, New Jersey 08855" "J.Solid State Chem.,92(1991)386-400" 9121 JSC0920386 not s/c "(Ca,Sr)SmCuO3Cl" Ca0.78Sr0.22Sm1Cu1Cl1O3 Ca 0.78 Sr 0.22 Sm 1 Cu 1 Cl 1 O 3 1991 2 T* A 3.91 13.559 K 4.2 "CuO,Ln2O3,SrO,CaO,SrCl2,CaCl2" 1 "pellet-SIN(820C,18H)" "Synthesis,Structure, and Properties of a New T* Structure Copper-Oxychloride of MLnCuO3Cl (M=Ca,Sr and Ln=Nd,Sm,Eu,Gd)" 1991 5 "Rutgers,The State University of New Jersey, Piscataway, New Jersey 08855" "J.Solid State Chem.,92(1991)386-400" 9122 JSC0920386 not s/c CaSmCuO3Cl Ca1Sm1Cu1Cl1O3 Ca 1 Sm 1 Cu 1 Cl 1 O 3 1991 -5.3 2 T* A 3.901 13.43 K 4.2 "CuO,Ln2O3,SrO,CaO,SrCl2,CaCl2" 1 "pellet-SIN(820C,18H)" "Synthesis,Structure, and Properties of a New T* Structure Copper-Oxychloride of MLnCuO3Cl (M=Ca,Sr and Ln=Nd,Sm,Eu,Gd)" 1991 5 "Rutgers,The State University of New Jersey, Piscataway, New Jersey 08855" "J.Solid State Chem.,92(1991)386-400" 9123 PHC3360033 not s/c "(Li,Cu)Sr2YCu2Oz" Li0.33Sr2Y1Cu2.67Oz Li 0.33 Sr 2 Y 1 Cu 2.67 O z 2 2000 M1212 K 20 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9124 PHC3360033 not s/c "(Co,Cu)Sr2YCu2Oz" Co0.33Sr2Y1Cu2.67Oz Co 0.33 Sr 2 Y 1 Cu 2.67 O z 1 2000 M1212 K 20 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9125 PHC3360033 not s/c "(Ni,Cu)Sr2YCu2Oz" Ni0.33Sr2Y1Cu2.67Oz Ni 0.33 Sr 2 Y 1 Cu 2.67 O z 2 2000 M1212 K 20 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9126 PHC3360033 not s/c "(Zn,Cu)Sr2YCu2Oz" Zn0.33Sr2Y1Cu2.67Oz Zn 0.33 Sr 2 Y 1 Cu 2.67 O z 2000 M1212 K 20 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9127 PHC3360033 not s/c "(Pd,Cu)Sr2YCu2Oz" Pd0.33Sr2Y1Cu2.67Oz Pd 0.33 Sr 2 Y 1 Cu 2.67 O z 2000 M1212 K 20 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9128 PHC3360033 not s/c "(Al,Cu)Sr2YCu2Oz" Al0.33Sr2Y1Cu2.67Oz Al 0.33 Sr 2 Y 1 Cu 2.67 O z 1 2000 M1212 K 20 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9129 PHC3360033 "(Fe,Cu)Sr2YCu2Oz" Fe0.33Sr2Y1Cu2.67Oz Fe 0.33 Sr 2 Y 1 Cu 2.67 O z 1 2000 M1212 K 30 30 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9130 PHC3360033 "(Ga,Cu)Sr2YCu2Oz" Ga0.33Sr2Y1Cu2.67Oz Ga 0.33 Sr 2 Y 1 Cu 2.67 O z 1 2000 M1212 K 25 25 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9131 PHC3360033 not s/c "(Cr,Cu)Sr2YCu2Oz" Cr0.33Sr2Y1Cu2.67Oz Cr 0.33 Sr 2 Y 1 Cu 2.67 O z 1 2000 M1212 K 20 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9132 PHC3360033 not s/c "(In,Cu)Sr2YCu2Oz" In0.33Sr2Y1Cu2.67Oz In 0.33 Sr 2 Y 1 Cu 2.67 O z 2000 M1212 K 20 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9133 PHC3360033 not s/c "(Bi,Cu)Sr2YCu2Oz" Bi0.33Sr2Y1Cu2.67Oz Bi 0.33 Sr 2 Y 1 Cu 2.67 O z 1 2000 M1212 K 20 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9134 PHC3360033 not s/c "(Se,Cu)Sr2YCu2Oz" Se0.33Sr2Y1Cu2.67Oz Se 0.33 Sr 2 Y 1 Cu 2.67 O z 1 2000 M1212 K 20 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9135 PHC3360033 not s/c "(Ge,Cu)Sr2YCu2Oz" Ge0.33Sr2Y1Cu2.67Oz Ge 0.33 Sr 2 Y 1 Cu 2.67 O z 1 2000 M1212 K 20 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9136 PHC3360033 "(Ti,Cu)Sr2YCu2Oz" Ti0.33Sr2Y1Cu2.67Oz Ti 0.33 Sr 2 Y 1 Cu 2.67 O z 1 2000 M1212 K 26 26 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9137 PHC3360033 not s/c "(Ru,Cu)Sr2YCu2Oz" Ru0.33Sr2Y1Cu2.67Oz Ru 0.33 Sr 2 Y 1 Cu 2.67 O z 2000 M1212 K 20 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9138 PHC3360033 not s/c "(Pt,Cu)Sr2YCu2Oz" Pt0.33Sr2Y1Cu2.67Oz Pt 0.33 Sr 2 Y 1 Cu 2.67 O z 2000 M1212 K 20 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9139 PHC3360033 not s/c "(Sn,Cu)Sr2YCu2Oz" Sn0.33Sr2Y1Cu2.67Oz Sn 0.33 Sr 2 Y 1 Cu 2.67 O z 2000 M1212 K 20 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9140 PHC3360033 not s/c "(Zr,Cu)Sr2YCu2Oz" Zr0.33Sr2Y1Cu2.67Oz Zr 0.33 Sr 2 Y 1 Cu 2.67 O z 2000 M1212 K 20 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9141 PHC3360033 not s/c "(V,Cu)Sr2YCu2Oz" V0.33Sr2Y1Cu2.67Oz V 0.33 Sr 2 Y 1 Cu 2.67 O z 1 2000 M1212 K 20 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9142 PHC3360033 not s/c "(Nb,Cu)Sr2YCu2Oz" Nb0.33Sr2Y1Cu2.67Oz Nb 0.33 Sr 2 Y 1 Cu 2.67 O z 2000 M1212 K 20 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9143 PHC3360033 not s/c "(Ta,Cu)Sr2YCu2Oz" Ta0.33Sr2Y1Cu2.67Oz Ta 0.33 Sr 2 Y 1 Cu 2.67 O z 2000 M1212 K 20 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9144 PHC3360033 "(Mo,Cu)Sr2YCu2Oz" Mo0.33Sr2Y1Cu2.67Oz Mo 0.33 Sr 2 Y 1 Cu 2.67 O z 1 2000 M1212 K 35 35 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9145 PHC3360033 "(W,Cu)Sr2YCu2Oz" W0.33Sr2Y1Cu2.67Oz W 0.33 Sr 2 Y 1 Cu 2.67 O z 1 2000 M1212 K 28 28 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9146 PHC3360033 "(Re,Cu)Sr2YCu2Oz" Re0.33Sr2Y1Cu2.67Oz Re 0.33 Sr 2 Y 1 Cu 2.67 O z 1 2000 M1212 K 33 33 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9147 PHC3360033 not s/c "(Os,Cu)Sr2YCu2Oz" Os0.33Sr2Y1Cu2.67Oz Os 0.33 Sr 2 Y 1 Cu 2.67 O z 2000 M1212 K 20 "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9148 PHC3360033 "Susceptibility anomalies at 56,96,108,160,197 K are found. Resistivity drop at about 60K, but not s/c" "(As,Cu)Sr2YCu2Oz" As0.33Sr2Y1Cu2.67O6.88 As 0.33 Sr 2 Y 1 Cu 2.67 O z 6.88 2000 2 M1212 P4/mmm A 3.829 11.47 K "pellet-SIN(850-1000C,10H, in air)-Q to RT" Synthesis of (M0.33Cu0.67)Sr2YCu2Oy: a novel layered cuprate with a block layer of (As0.33Cu0.67)O0.88 2000 7 "Graduate School of Science and Engineering, Yamagata University, 4-3-16, Jonan, Yonezawa, Yamagata 992-8510, Japan" "Physica C,336(2000)33-42" 9150 SSC1130121 z-values by iodometric titration. Grain size about 6-9 micron. Specific heat by ac calorimeter. Tc=43 K. dC/Tc=7.35 mj/mol.K2 La2CuO4 La2Cu1O4.093 La 2 Cu 1 O 4+z 4.093 1999 3 T K 45 45 mj/mol.K 320 "solid state reaction-electro chemical oxidation (330K, 72H)" Observation of specific heat jump in La2CuO4.093 due to superconducting transition 1999 12 "Faculty of Science, Himeji Institute of Technology, Kamigori-cho, Ako-gun, Hyogo 678-1297, Japan" "Solid State Commun.,113(1999)121-124" 9151 PHC3340289 not s/c La2CuOz La2Cu1O3.998 La 2 Cu 1 O 4+z 3.998 1 2000 3 T K RH9151 as-grown Hall effect in electrochemically oxidized La2CuO4+z and (La1-xSrx)2CuO4+z 2000 6 "Faculty of Science, Himeji Institute of Technology, 3-2-1, Kouto, Kamigori-cho, Ako-gun, Hyogo 678-1297, Japan " "Phisica C, 334(2000)289" 9152 PHC3340289 La2CuOz La2Cu1O4.068 La 2 Cu 1 O 4+z 4.068 1 2000 T K 36 36 RH9152 "electro-chemical oxidation(333K, 24H)" Hall effect in electrochemically oxidized La2CuO4+z and (La1-xSrx)2CuO4+z 2000 6 "Faculty of Science, Himeji Institute of Technology, 3-2-1, Kouto, Kamigori-cho, Ako-gun, Hyogo 678-1297, Japan " "Phisica C, 334(2000)289" 9153 PHC3340289 second Tc=32 K La2CuOz La2Cu1O4.093 La 2 Cu 1 O 4+z 4.093 1 2000 3 T K 45 45 RH9153 "electro-chemical oxidation(333K, 72H)" Hall effect in electrochemically oxidized La2CuO4+z and (La1-xSrx)2CuO4+z 2000 6 "Faculty of Science, Himeji Institute of Technology, 3-2-1, Kouto, Kamigori-cho, Ako-gun, Hyogo 678-1297, Japan " "Phisica C, 334(2000)289" 9154 PHC3340289 "(La,Sr)2CuOz" La1.9Sr0.1Cu1O3.997 La 1.9 Sr 0.1 Cu 1 O 4+z 3.997 1 2000 2 T K 32 32 as-grown Hall effect in electrochemically oxidized La2CuO4+z and (La1-xSrx)2CuO4+z 2000 6 "Faculty of Science, Himeji Institute of Technology, 3-2-1, Kouto, Kamigori-cho, Ako-gun, Hyogo 678-1297, Japan " "Phisica C, 334(2000)289" 9155 PHC3340289 second Tc=32 K "(La,Sr)2CuOz" La1.9Sr0.1Cu1O4.018 La 1.9 Sr 0.1 Cu 1 O 4+z 4.018 1 2000 T K 40 40 "electro-chemical oxidation(333K, 24H)" Hall effect in electrochemically oxidized La2CuO4+z and (La1-xSrx)2CuO4+z 2000 6 "Faculty of Science, Himeji Institute of Technology, 3-2-1, Kouto, Kamigori-cho, Ako-gun, Hyogo 678-1297, Japan " "Phisica C, 334(2000)289" 9156 PHC3340289 second Tc=32 K "(La,Sr)2CuOz" La1.9Sr0.1Cu1O4.023 La 1.9 Sr 0.1 Cu 1 O 4+z 4.023 1 2000 2 T K 40 40 "electro-chemical oxidation(333K, 72H)" Hall effect in electrochemically oxidized La2CuO4+z and (La1-xSrx)2CuO4+z 2000 6 "Faculty of Science, Himeji Institute of Technology, 3-2-1, Kouto, Kamigori-cho, Ako-gun, Hyogo 678-1297, Japan " "Phisica C, 334(2000)289" 9157 PHC3360143 Tl2Ba2CaCu2Oz Tl2Ba2Ca1Cu2Oz Tl 2 Ba 2 Ca 1 Cu 2 O z 3 2000 Tl2212 A 3.8509 29.372 K 105 105 HIR9157 Single crystals were grown from stoichiometric mixture. "New Tl/Hg-2212 and -2223 superconducting crystals: growth, structures and superconductivity" 2000 7 "Laboratoire CRISMAT, UMR 6508, CNRS, ISMRA et Universite de Caen, 6 Boulevard du Marechal Juin, 14050 Caen Cedex, France" "Physica C,336(2000)143-150" 9158 PHC3360143 Compositions are Tl1.68Hg0.32Ba2Ca0.9Tl0.1Cu2Oz by EDS analysis. "(Tl,Hg)2Ba2CaCu2Oz" Tl1.7Hg0.3Ba2Ca1Cu2Oz Tl 1.7 Hg 0.3 Ba 2 Ca 1 Cu 2 O z 3 2000 Tl2212 A K 108 108 HIR9158 Single crystals were grown from (Tl1.7Hg0.3)-2212. "New Tl/Hg-2212 and -2223 superconducting crystals: growth, structures and superconductivity" 2000 7 "Laboratoire CRISMAT, UMR 6508, CNRS, ISMRA et Universite de Caen, 6 Boulevard du Marechal Juin, 14050 Caen Cedex, France" "Physica C,336(2000)143-150" 9159 PHC3360143 Tl2Ba2Ca2Cu3Oz Tl2Ba2Ca2Cu3Oz Tl 2 Ba 2 Ca 2 Cu 3 O z 3 2000 Tl2223 A 3.8472 35.836 K 123 123 HIR9159 Single crystals were grown from stoichiometric mixture. "New Tl/Hg-2212 and -2223 superconducting crystals: growth, structures and superconductivity" 2000 7 "Laboratoire CRISMAT, UMR 6508, CNRS, ISMRA et Universite de Caen, 6 Boulevard du Marechal Juin, 14050 Caen Cedex, France" "Physica C,336(2000)143-150" 9160 PHC3360143 Compositions are Tl1.46Hg0.54Ba2Ca2Cu3Oz by EDS analysis. "(Tl,Hg)2Ba2Ca2Cu3Oz" Tl1.4Hg0.6Ba2Ca2Cu3Oz Tl 1.4 Hg 0.6 Ba 2 Ca 2 Cu 3 O z 3 2000 Tl2223 A K 118 118 HIR9160 Single crystals were grown from (Tl1.4Hg0.6)-2223. "New Tl/Hg-2212 and -2223 superconducting crystals: growth, structures and superconductivity" 2000 7 "Laboratoire CRISMAT, UMR 6508, CNRS, ISMRA et Universite de Caen, 6 Boulevard du Marechal Juin, 14050 Caen Cedex, France" "Physica C,336(2000)143-150" 9161 PHC3340289 "(La,Sr)2CuOz" La1.85Sr0.15Cu1O3.998 La 1.85 Sr 0.15 Cu 1 O 4+z 3.998 1 2000 2 T K 37 37 RH9161 as-grown Hall effect in electrochemically oxidized La2CuO4+z and (La1-xSrx)2CuO4+z 2000 6 "Faculty of Science, Himeji Institute of Technology, 3-2-1, Kouto, Kamigori-cho, Ako-gun, Hyogo 678-1297, Japan " "Phisica C, 334(2000)289" 9162 PHC3340289 "(La,Sr)2CuOz" La1.85Sr0.15Cu1O4.022 La 1.85 Sr 0.15 Cu 1 O 4+z 4.022 1 2000 T K 40 40 "electro-chemical oxidation(333K, 24H)" Hall effect in electrochemically oxidized La2CuO4+z and (La1-xSrx)2CuO4+z 2000 6 "Faculty of Science, Himeji Institute of Technology, 3-2-1, Kouto, Kamigori-cho, Ako-gun, Hyogo 678-1297, Japan " "Phisica C, 334(2000)289" 9163 PHC3340289 "(La,Sr)2CuOz" La1.85Sr0.15Cu1O4.03 La 1.85 Sr 0.15 Cu 1 O 4+z 4.03 1 2000 2 T K 40 40 "electro-chemical oxidation(333K, 72H)" Hall effect in electrochemically oxidized La2CuO4+z and (La1-xSrx)2CuO4+z 2000 6 "Faculty of Science, Himeji Institute of Technology, 3-2-1, Kouto, Kamigori-cho, Ako-gun, Hyogo 678-1297, Japan " "Phisica C, 334(2000)289" 9165 APJ0393366 "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4 Pr 1.85 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.953 12.129 K 17 17 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9166 APJ0393366 "(Pr,Y,Ce)2CuO4" Pr1.8315Y0.0185Ce0.15Cu1O4 Pr 1.8315 Y 0.0185 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.952 12.126 K 16 16 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9167 APJ0393366 "(Pr,Y,Ce)2CuO4" Pr1.7945Y0.0555Ce0.15Cu1O4 Pr 1.7945 Y 0.0555 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.95 12.11 K 15 15 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9168 APJ0393366 "(Pr,Y,Ce)2CuO4" Pr1.7575Y0.0925Ce0.15Cu1O4 Pr 1.7575 Y 0.0925 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.948 12.105 K 14.5 14.5 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9169 APJ0393366 "(Pr,Y,Ce)2CuO4" Pr1.665Y0.185Ce0.15Cu1O4 Pr 1.665 Y 0.185 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.944 12.069 K 13 13 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9170 APJ0393366 "(Pr,Y,Ce)2CuO4" Pr1.5725Y0.2775Ce0.15Cu1O4 Pr 1.5725 Y 0.2775 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.94 12.046 K 11 11 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9171 APJ0393366 "(Pr,Y,Ce)2CuO4" Pr1.48Y0.37Ce0.15Cu1O4 Pr 1.48 Y 0.37 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.936 12.022 K 9.5 9.5 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9172 APJ0393366 not s/c "(Pr,Y,Ce)2CuO4" Pr1.295Y0.555Ce0.15Cu1O4 Pr 1.295 Y 0.555 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.937 12.023 K 2 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9173 APJ0393366 "(Nd,Ce)2CuO4" Nd1.85Y0.15Cu1O4 Nd 1.85 Y 0.15 Cu 1 O 4 1 2000 2 T' A 3.939 12.053 K 21 21 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9174 APJ0393366 "(Nd,Y,Ce)2CuO4" Nd1.8315Y0.0185Ce0.15Cu1O4 Nd 1.8315 Y 0.0185 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.938 12.04 K 20 20 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9175 APJ0393366 "(Nd,Y,Ce)2CuO4" Nd1.7945Y0.0555Ce0.15Cu1O4 Nd 1.7945 Y 0.0555 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.935 12.025 K 19 19 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9176 APJ0393366 "(Nd,Y,Ce)2CuO4" Nd1.7575Y0.0925Ce0.15Cu1O4 Nd 1.7575 Y 0.0925 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.934 12.014 K 18 18 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9177 APJ0393366 "(Nd,Y,Ce)2CuO4" Nd1.665Y0.185Ce0.15Cu1O4 Nd 1.665 Y 0.185 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.929 11.999 K 16 16 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9178 APJ0393366 "(Nd,Y,Ce)2CuO4" Nd1.5725Y0.2775Ce0.15Cu1O4 Nd 1.5725 Y 0.2775 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.926 11.983 K 10.5 10.5 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9179 APJ0393366 not s/c "(Nd,Y,Ce)2CuO4" Nd1.48Y0.37Ce0.15Cu1O4 Nd 1.48 Y 0.37 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.922 11.953 K 5 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9180 APJ0393366 not s/c "(Nd,Y,Ce)2CuO4" Nd1.295Y0.555Ce0.15Cu1O4 Nd 1.295 Y 0.555 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.922 11.961 K 5 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9181 APJ0393366 "(Sm,Ce)2CuO4" Sm1.85Ce0.15Cu1O4 Sm 1.85 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.912 11.874 K 17 17 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9182 APJ0393366 "(Sm,Y,Ce)2CuO4" Sm1.80375Y0.04625Ce0.15Cu1O4 Sm 1.80375 Y 0.04625 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.91 11.868 K 15 15 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9183 APJ0393366 "(Sm,Y,Ce)2CuO4" Sm1.7575Y0.0925Ce0.15Cu1O4 Sm 1.7575 Y 0.0925 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.909 11.865 K 14 14 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9184 APJ0393366 "(Sm,Y,Ce)2CuO4" Sm1.71125Y0.13875Ce0.15Cu1O4 Sm 1.71125 Y 0.13875 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.907 11.852 K 12 12 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9185 APJ0393366 "(Sm,Y,Ce)2CuO4" Sm1.665Y0.185Ce0.15Cu1O4 Sm 1.665 Y 0.185 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.906 11.845 K 10 10 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9186 APJ0393366 not s/c "(Sm,Y,Ce)2CuO4" Sm1.5725Y0.2775Ce0.15Cu1O4 Sm 1.5725 Y 0.2775 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.905 11.838 K 5 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9187 APJ0393366 "(Eu,Ce)2CuO4" Eu1.85Ce0.15Cu1O4 Eu 1.85 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.901 11.826 K 7.5 7.5 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9188 APJ0393366 "(Eu,Y,Ce)2CuO4" Eu1.80375Y0.04625Ce0.15Cu1O4 Eu 1.80375 Y 0.04625 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.9 11.816 K 5 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9189 APJ0393366 "(Eu,Y,Ce)2CuO4" Eu1.7575Y0.0925Ce0.15Cu1O4 Eu 1.7575 Y 0.0925 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.9 11.81 K 5 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9190 APJ0393366 "(Eu,Y,Ce)2CuO4" Eu1.71125Y0.13875Ce0.15Cu1O4 Eu 1.71125 Y 0.13875 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.899 11.809 K 5 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9191 APJ0393366 "(Eu,Y,Ce)2CuO4" Eu1.665Y0.185Ce0.15Cu1O4 Eu 1.665 Y 0.185 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.897 11.807 K 5 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9192 APJ0393366 "(Eu,Y,Ce)2CuO4" Eu1.5725Y0.2775Ce0.15Cu1O4 Eu 1.5725 Y 0.2775 Ce 0.15 Cu 1 O 4 1 2000 2 T' A 3.896 11.806 K 5 "Pr6O11,Nd2O3,Sm2O3,Eu2O3,CeO2,CuO" 1 "mixture-heat(900C,24H in air)-pellet-heat(1000C, 48H, in air)-Q to RT-ANN(850C-950C,2H in air)" "Structural and Magnetic Properties of (R1-xYx)1.85Ce0.15CuO4 (R=Pr, Nd, Sm and Eu)" 2000 6 "Department of Electrical Engineering, Southern Taiwan University of Technology, Tainan 710, Taiwan, R.O.C." "Jpn J.Appl.Phys., 39(2000)3366-3370" 9193 JPC0128231 "(La,Sr)2(Cu,Fe)O4" La1.85Sr0.15Cu1Oz La 1.85 Sr 0.15 Cu 1 O z 2000 T K 38 38 1 mixture-CAL(1000C)-pellet-SIN(1030-1100C)-FC to RT Different effects of Fe and Ga doping on Tc between the Bi2201 system and the La214 system 2000 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "J.Phys. C, 12(2000)8231-8238" 9194 JPC0128231 "(La,Sr)2(Cu,Fe)O4" La1.845Sr0.155Cu0.995Fe0.005Oz La 1.845 Sr 0.155 Cu 0.995 Fe 0.005 O z 2000 T K 30 30 1 mixture-CAL(1000C)-pellet-SIN(1030-1100C)-FC to RT Different effects of Fe and Ga doping on Tc between the Bi2201 system and the La214 system 2000 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "J.Phys. C, 12(2000)8231-8238" 9195 JPC0128231 "(La,Sr)2(Cu,Fe)O4" La1.84Sr0.16Cu0.99Fe0.01Oz La 1.84 Sr 0.16 Cu 0.99 Fe 0.01 O z 2000 T K 20 20 1 mixture-CAL(1000C)-pellet-SIN(1030-1100C)-FC to RT Different effects of Fe and Ga doping on Tc between the Bi2201 system and the La214 system 2000 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "J.Phys. C, 12(2000)8231-8238" 9196 JPC0128231 "(La,Sr)2(Cu,Fe)O4" La1.837Sr0.163Cu0.987Fe0.013Oz La 1.837 Sr 0.163 Cu 0.987 Fe 0.013 O z 2000 T K 12.8 12.8 1 mixture-CAL(1000C)-pellet-SIN(1030-1100C)-FC to RT Different effects of Fe and Ga doping on Tc between the Bi2201 system and the La214 system 2000 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "J.Phys. C, 12(2000)8231-8238" 9197 JPC0128231 "(La,Sr)2(Cu,Ga)O4" La1.845Sr0.155Cu0.995Ga0.005Oz La 1.845 Sr 0.155 Cu 0.995 Ga 0.005 O z 2000 T K 32 32 1 mixture-CAL(1000C)-pellet-SIN(1030-1100C)-FC to RT Different effects of Fe and Ga doping on Tc between the Bi2201 system and the La214 system 2000 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "J.Phys. C, 12(2000)8231-8238" 9198 JPC0128231 "(La,Sr)2(Cu,Ga)O4" La1.84Sr0.16Cu0.99Ga0.01Oz La 1.84 Sr 0.16 Cu 0.99 Ga 0.01 O z 2000 T K 26 26 1 mixture-CAL(1000C)-pellet-SIN(1030-1100C)-FC to RT Different effects of Fe and Ga doping on Tc between the Bi2201 system and the La214 system 2000 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "J.Phys. C, 12(2000)8231-8238" 9199 JPC0128231 "(La,Sr)2(Cu,Ga)O4" La1.83Sr0.17Cu0.98Ga0.02Oz La 1.83 Sr 0.17 Cu 0.98 Ga 0.02 O z 2000 T K 13 13 1 mixture-CAL(1000C)-pellet-SIN(1030-1100C)-FC to RT Different effects of Fe and Ga doping on Tc between the Bi2201 system and the La214 system 2000 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "J.Phys. C, 12(2000)8231-8238" 9200 JPC0128231 "(Bi,Pb)2(Sr,La)2(Cu,Fe)Oz" Bi1.8Pb0.2Sr1.6La0.4Cu1Oz Bi 1.8 Pb 0.2 Sr 1.6 La 0.4 Cu 1 O z 1 2000 Bi2201 K 31.2 31.2 1 "mixture-CAL(800-850C,40H, in air)-pellet-SIN(880C)-FC to RT" Different effects of Fe and Ga doping on Tc between the Bi2201 system and the La214 system 2000 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "J.Phys. C, 12(2000)8231-8238" 9201 JPC0128231 "(Bi,Pb)2(Sr,La)2(Cu,Fe)Oz" Bi1.8Pb0.2Sr1.62La0.38Cu0.98Fe0.02Oz Bi 1.8 Pb 0.2 Sr 1.62 La 0.38 Cu 0.98 Fe 0.02 O z 1 2000 Bi2201 K 21.1 21.1 1 "mixture-CAL(800-850C,40H, in air)-pellet-SIN(880C)-FC to RT" Different effects of Fe and Ga doping on Tc between the Bi2201 system and the La214 system 2000 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "J.Phys. C, 12(2000)8231-8238" 9202 JPC0128231 "(Bi,Pb)2(Sr,La)2(Cu,Fe)Oz" Bi1.8Pb0.2Sr1.63La0.37Cu0.97Fe0.03Oz Bi 1.8 Pb 0.2 Sr 1.63 La 0.37 Cu 0.97 Fe 0.03 O z 1 2000 Bi2201 K 13 13 1 "mixture-CAL(800-850C,40H, in air)-pellet-SIN(880C)-FC to RT" Different effects of Fe and Ga doping on Tc between the Bi2201 system and the La214 system 2000 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "J.Phys. C, 12(2000)8231-8238" 9203 JPC0128231 "(Bi,Pb)2(Sr,La)2(Cu,Ga)Oz" Bi1.8Pb0.2Sr1.61La0.39Cu0.99Ga0.01Oz Bi 1.8 Pb 0.2 Sr 1.61 La 0.39 Cu 0.99 Ga 0.01 O z 1 2000 Bi2201 K 21.8 21.8 1 "mixture-CAL(800-850C,40H, in air)-pellet-SIN(880C)-FC to RT" Different effects of Fe and Ga doping on Tc between the Bi2201 system and the La214 system 2000 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "J.Phys. C, 12(2000)8231-8238" 9204 JPC0128231 "(Bi,Pb)2(Sr,La)2(Cu,Ga)Oz" Bi1.8Pb0.2Sr1.62La0.38Cu0.98Ga0.02Oz Bi 1.8 Pb 0.2 Sr 1.62 La 0.38 Cu 0.98 Ga 0.02 O z 1 2000 Bi2201 K 12 12 1 "mixture-CAL(800-850C,40H, in air)-pellet-SIN(880C)-FC to RT" Different effects of Fe and Ga doping on Tc between the Bi2201 system and the La214 system 2000 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "J.Phys. C, 12(2000)8231-8238" 9205 APL0763795 EDX gives Bi:Pb:Sr:Ca:Cu:Cr=1.65:0.79:2.1:1:1.96:0.01. For Hirr H//c-axis. "(Bi,Pb)2Sr2Ca(Cu,Cr)2O8" Bi1.6Pb0.8Sr2Ca1Cu1.99Cr0.01Oz Bi 1.6 Pb 0.8 Sr 2 Ca 1 Cu 1.99 Cr 0.01 O z 3 2000 Bi2212 A 30.794 K 68 2 68 HIR9205 self-flux method. Annealed at 500C in air for 5 days Improved flux pinning and anomalous magnetization peak in heavily overdoped Bi2-xPbxSr2CaCu2-yCryO8 +z single crystals 2000 6 "Laboratory of Internal Friction and Defects in Solids, Institute of Solid State Physics, Chinese Academy of Science, Hefei 230031, China" "Appl.Phys.Lett.,76(2000)3795-3797" 9206 APL0763795 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 2000 Bi2212 K 88 88 HIR9206 self-flux method. Annealed at 500C in air for 5 days Improved flux pinning and anomalous magnetization peak in heavily overdoped Bi2-xPbxSr2CaCu2-yCryO8 +z single crystals 2000 6 "Laboratory of Internal Friction and Defects in Solids, Institute of Solid State Physics, Chinese Academy of Science, Hefei 230031, China" "Appl.Phys.Lett.,76(2000)3795-3797" 9207 PRL0844192 Tc was measured by torque magnetometer. Isotope effect on penetration depth was measured but values of xi were not given. "(La,Sr)2CuO4" La1.92Sr0.08Cu1O4 La 1.92 Sr 0.08 Cu 1 O 4 3 2000 T K 19.6 19.6 0.47 O 97 1.13 Floating zone method. Oxygen substitution by diffusion process in O<16> or O<18> atmosphere. Oxygen-Isotope Effect on the In-Plane Penetration Depth in Underdoped La2-xSrxCuO4 Single Crystals 2000 5 "Physik-Institut der Universitut Z?rich, Winterthurerstrasse 190, CH-8057 Z?rich, Switzerland" "Phys.Rev.Lett., 84(2000)4192-4195" 9208 PRL0844192 Tc was measured by torque magnetometer. Isotope effect on penetration depth was measured but values of xi were not given. "(La,Sr)2CuO4" La1.914Sr0.086Cu1O4 La 1.914 Sr 0.086 Cu 1 O 4 3 2000 T K 22.25 22.25 0.4 O 97 1.07 Floating zone method. Oxygen substitution by diffusion process in O<16> or O<18> atmosphere. Oxygen-Isotope Effect on the In-Plane Penetration Depth in Underdoped La2-xSrxCuO4 Single Crystals 2000 5 "Physik-Institut der Universitut Z?rich, Winterthurerstrasse 190, CH-8057 Z?rich, Switzerland" "Phys.Rev.Lett., 84(2000)4192-4195" 9209 PRL0800377 Isotope effect of Tc by M(T). Isotope effect of pseudo gap onset temp T* by Y<89> NMR. T* is no isotope effect. YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1998 Y124 K 81.8 81.8 0.076 O 90 "High-pressure synthesis (945C, 60 bar O2)-ANN(O<18> or O<16> atmosphere, 760C, 4H)" Absence of an Isotope Effect in the Pseudogap in YBa2Cu4O8 as Determined by Hugh-Resolution 89Y NMR 1998 1 "New Zealand Institute for Industrial Research, P.O. Box 31310, Lower Hutt, New zealand" "Phys.Rev.Lett.,80(1998)377-380" 9210 PRL0815912 Isotope effect on Tc and pseudo gap onset temp. T* by Cu-NQR. Alpha for T* is 0.061. YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1998 Y124 K 81 81 0.056 O 88 0.47 "Y-124 by solid state reaction - ANN(725C, 1.3 bar O2 in a sealed ampoule)" Isotope Dependence of the Spin Gap in YBa2Cu4O8 as Determined by Cu NQR Relaxation 1998 12 "Physik-Institut, Universitut Zurich, CH-8057 Zurich, Switzerland" "Phys.Rev.Lett., 81(1998)5912-5915" 9211 PRL0841990 Pseudogap onset temp. T* = 170 K for O<16> sample. T* = 220 K for O<18> sample. HoBa2Cu4O8 Ho1Ba2Cu4O8 Ho 1 Ba 2 Cu 4 O 8 2000 Y124 K 79 79 0.005 O 75 0.5 O<16> sample was prepared by a high O2 pressure solid reaction process. O<18> substitution was performed by diffusion process. Large Isotope Effect on the Pseudogap in the High-Temperature Superconductor HoBa2Cu4O8 2000 2 "Laboratory for Neutron Scattering, ETH Zurich and PSI Villigen, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.Lett., 84(2000)1990-1993" 9212 PR05815208 YBa2Cu3O7 Y1Ba2Cu3O6.98 Y 1 Ba 2 Cu 3 O 7-z 6.98 1 1998 Y123 K 92 92 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9213 PR05815208 "Y(Ba,Sr)2Cu3O7" Y1Ba1.96Sr0.04Cu3O6.98 Y 1 Ba 1.96 Sr 0.04 Cu 3 O 7-z 6.98 1 1998 Y123 K 91.8 91.8 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9214 PR05815208 "Y(Ba,Sr)2Cu3O7" Y1Ba1.8Sr0.2Cu3O6.98 Y 1 Ba 1.8 Sr 0.2 Cu 3 O 7-z 6.98 1 1998 Y123 K 89 89 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9215 PR05815208 "Y(Ba,Sr)2Cu3O7" Y1Ba1.5Sr0.5Cu3O6.98 Y 1 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.98 1 1998 Y123 K 86 86 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9216 PR05815208 "Y(Ba,Sr)2Cu3O7" Y1Ba1.3Sr0.7Cu3O6.98 Y 1 Ba 1.3 Sr 0.7 Cu 3 O 7-z 6.98 1 1998 Y123 K 84.5 84.5 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9217 PR05815208 "Y(Ba,Sr)2Cu3O7" Y1Ba1Sr1Cu3O6.98 Y 1 Ba 1 Sr 1 Cu 3 O 7-z 6.98 1 1998 Y123 K 83.6 83.6 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9218 PR05815208 "Y(Ba,Sr)2Cu3O7" Y1Ba0.74Sr1.26Cu3O6.98 Y 1 Ba 0.74 Sr 1.26 Cu 3 O 7-z 6.98 1 1998 Y123 K 80.5 80.5 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9219 PR05815208 "Y(Ba,Sr)2Cu3O7" Y1Ba0.5Sr1.5Cu3O6.98 Y 1 Ba 0.5 Sr 1.5 Cu 3 O 7-z 6.98 1 1998 Y123 K 78 78 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9220 PR05815208 YBa2Cu3O7 Y1Ba2Cu3O6.72 Y 1 Ba 2 Cu 3 O 7-z 6.72 1 1998 Y123 K 64.6 64.6 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9221 PR05815208 YBa2Cu3O7 Y1Ba2Cu3O6.75 Y 1 Ba 2 Cu 3 O 7-z 6.75 1 1998 Y123 K 76.6 76.6 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9222 PR05815208 YBa2Cu3O7 Y1Ba2Cu3O6.8 Y 1 Ba 2 Cu 3 O 7-z 6.8 1 1998 Y123 K 88.3 88.3 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9223 PR05815208 YBa2Cu3O7 Y1Ba2Cu3O6.85 Y 1 Ba 2 Cu 3 O 7-z 6.85 1 1998 Y123 K 89 89 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9224 PR05815208 YBa2Cu3O7 Y1Ba2Cu3O6.89 Y 1 Ba 2 Cu 3 O 7-z 6.89 1 1998 Y123 K 92.1 92.1 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9225 PR05815208 YBa2Cu3O7 Y1Ba2Cu3O6.93 Y 1 Ba 2 Cu 3 O 7-z 6.93 1 1998 Y123 K 93.1 93.1 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9226 PR05815208 YBa2Cu3O7 Y1Ba2Cu3O6.96 Y 1 Ba 2 Cu 3 O 7-z 6.96 1 1998 Y123 K 91.4 91.4 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9227 PR05815208 "Y(Ba,Sr)2Cu3Oz" Y1Ba1.5Sr0.5Cu3O6.75 Y 1 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.75 1 1998 Y123 K 49.9 49.9 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9228 PR05815208 "Y(Ba,Sr)2Cu3Oz" Y1Ba1.5Sr0.5Cu3O6.85 Y 1 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.85 1 1998 Y123 K 72.9 72.9 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9229 PR05815208 "Y(Ba,Sr)2Cu3Oz" Y1Ba1.5Sr0.5Cu3O6.9 Y 1 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.9 1 1998 Y123 K 86.3 86.3 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9230 PR05815208 "Y(Ba,Sr)2Cu3Oz" Y1Ba1.5Sr0.5Cu3O6.91 Y 1 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.91 1 1998 Y123 K 86.3 86.3 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9231 PR05815208 "Y(Ba,Sr)2Cu3Oz" Y1Ba1.5Sr0.5Cu3O6.95 Y 1 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.95 1 1998 Y123 K 85.9 85.9 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9232 PR05815208 YBaSrCu3Oz Y1Ba1Sr1Cu3O6.83 Y 1 Ba 1 Sr 1 Cu 3 O 7-z 6.83 1 1998 Y123 K 58.5 58.5 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9233 PR05815208 YBaSrCu3Oz Y1Ba1Sr1Cu3O6.88 Y 1 Ba 1 Sr 1 Cu 3 O 7-z 6.88 1 1998 Y123 K 75.6 75.6 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9234 PR05815208 YBaSrCu3Oz Y1Ba1Sr1Cu3O6.93 Y 1 Ba 1 Sr 1 Cu 3 O 7-z 6.93 1 1998 Y123 K 80.8 80.8 See PREPID=19254 Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 9235 PR05914099 Density is calculated from lattice parameters RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 1 1999 133 6.7 2 Ru1212 A 3.84 11.57 K 16 16 1 TP9235 "RuO2,SrCO3,Gd2O3,CuO" 1 "mixture-SIN(1010C, flowing N2)-Sr2GdRuO6 add Cu2O-react(1050C,10H in O2 flow) on MgO single crystal" Coexistence of ferromagnetism and superconductivity in the hybrid ruthenate-cuprate compound RuSr2GdCu2O8 studied by muon spin rotation and dc magnetization 1999 6 "Max-Planck-Institut fur Festkorperforschung, Heisenbergstrasse 1, D-70569 Stuttgart, Germany" "Phys.Rev.B, 59(1999)14099-14107" 9236 PHC3380025 average grain size = 3.0+-0.5 micron meter CuBa2YbCu2Oz Ba2Yb1Cu3O6+z Ba 2 Yb 1 Cu 3 O 6+z 1 2000 3 Cu1212 A 3.795 3.879 11.61 K 90.1 90.1 HIR9236 1 "mixture-CAL(900-940C,60H)-ANN(300C,48H in O2)" Effects of Sr substitution on the magnetic-field irreversibility in superconductive Cu(Ba1ySry)2YbCu2O6+z 2000 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Physica C, 338(2000)25-28" 9237 PHC3380025 "Cu(Ba,Sr)2YbCu2Oz" Ba1.8Sr0.2Yb1Cu3O6+z Ba 1.8 Sr 0.2 Yb 1 Cu 3 O 6+z 1 2000 3 Cu1212 A 3.792 3.872 11.6 K 85.6 85.6 HIR9237 1 "mixture-CAL(900-940C,60H)-ANN(300C,48H in O2)" Effects of Sr substitution on the magnetic-field irreversibility in superconductive Cu(Ba1ySry)2YbCu2O6+z 2000 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Physica C, 338(2000)25-28" 9238 PHC3380025 "Cu(Ba,Sr)2YbCu2Oz" Ba1.6Sr0.4Yb1Cu3O6+z Ba 1.6 Sr 0.4 Yb 1 Cu 3 O 6+z 1 2000 3 Cu1212 A 3.789 3.865 11.59 K 79.5 79.5 HIR9238 1 "mixture-CAL(900-940C,60H)-ANN(300C,48H in O2)" Effects of Sr substitution on the magnetic-field irreversibility in superconductive Cu(Ba1ySry)2YbCu2O6+z 2000 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Physica C, 338(2000)25-28" 9239 PHC3380025 "Cu(Ba,Sr)2YbCu2Oz" Ba1.4Sr0.6Yb1Cu3O6+z Ba 1.4 Sr 0.6 Yb 1 Cu 3 O 6+z 1 2000 3 Cu1212 A 3.785 3.859 11.56 K 77.9 77.9 HIR9239 1 "mixture-CAL(900-940C,60H)-ANN(300C,48H in O2)" Effects of Sr substitution on the magnetic-field irreversibility in superconductive Cu(Ba1ySry)2YbCu2O6+z 2000 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Physica C, 338(2000)25-28" 9240 PHC3380025 "Cu(Ba,Sr)2YbCu2Oz" Ba1.2Sr0.8Yb1Cu3O6+z Ba 1.2 Sr 0.8 Yb 1 Cu 3 O 6+z 1 2000 3 Cu1212 A 3.78 3.853 11.53 K 78.5 78.5 HIR9240 1 "mixture-CAL(900-940C,60H)-ANN(300C,48H in O2)" Effects of Sr substitution on the magnetic-field irreversibility in superconductive Cu(Ba1ySry)2YbCu2O6+z 2000 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Physica C, 338(2000)25-28" 9241 PHC3380025 CuBa2YbCu2Oz Ba2Yb1Cu3O6.66 Ba 2 Yb 1 Cu 3 O 6+z 6.66 1 2000 3 Cu1212 A 3.814 3.873 11.7 K 65.3 65.3 HIR9241 1 "mixture-CAL(900-940C,60H, in O2)-ANN(400C, in Ar)" Effects of Sr substitution on the magnetic-field irreversibility in superconductive Cu(Ba1ySry)2YbCu2O6+z 2000 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Physica C, 338(2000)25-28" 9242 PHC3380025 "Cu(Ba,Sr)2YbCu2Oz" Ba1.8Sr0.2Yb1Cu3O6.61 Ba 1.8 Sr 0.2 Yb 1 Cu 3 O 6+z 6.61 1 2000 3 Cu1212 A 3.81 3.868 11.67 K 56.7 56.7 HIR9242 1 "mixture-CAL(900-940C,60H, in O2)-ANN(400C, in Ar)" Effects of Sr substitution on the magnetic-field irreversibility in superconductive Cu(Ba1ySry)2YbCu2O6+z 2000 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Physica C, 338(2000)25-28" 9243 PHC3380025 "Cu(Ba,Sr)2YbCu2Oz" Ba1.6Sr0.4Yb1Cu3O6.69 Ba 1.6 Sr 0.4 Yb 1 Cu 3 O 6+z 6.69 1 2000 3 Cu1212 A 3.806 3.861 11.65 K 48.9 48.9 HIR9243 1 "mixture-CAL(900-940C,60H, in O2)-ANN(400C, in Ar)" Effects of Sr substitution on the magnetic-field irreversibility in superconductive Cu(Ba1ySry)2YbCu2O6+z 2000 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Physica C, 338(2000)25-28" 9244 PHC3380025 "Cu(Ba,Sr)2YbCu2Oz" Ba1.4Sr0.6Yb1Cu3O6.66 Ba 1.4 Sr 0.6 Yb 1 Cu 3 O 6+z 6.66 1 2000 3 Cu1212 A 3.802 3.852 11.62 K 43.1 43.1 HIR9244 1 "mixture-CAL(900-940C,60H, in O2)-ANN(400C, in Ar)" Effects of Sr substitution on the magnetic-field irreversibility in superconductive Cu(Ba1ySry)2YbCu2O6+z 2000 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Physica C, 338(2000)25-28" 9245 PHC3380025 "Cu(Ba,Sr)2YbCu2Oz" Ba1.2Sr0.8Yb1Cu3O6.61 Ba 1.2 Sr 0.8 Yb 1 Cu 3 O 6+z 6.61 1 2000 3 Cu1212 A 3.801 3.851 11.59 K 36.7 36.7 HIR9245 1 "mixture-CAL(900-940C,60H, in O2)-ANN(400C, in Ar)" Effects of Sr substitution on the magnetic-field irreversibility in superconductive Cu(Ba1ySry)2YbCu2O6+z 2000 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Physica C, 338(2000)25-28" 9246 PHC2030240 "(La,Ba)2CuO4" La1.934Ba0.066Cu1O4 La 1.934 Ba 0.066 Cu 1 O 4 1992 T K 22.6 22.6 "La2O3,BaCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9247 PHC2030240 "(La,Ba)2CuO4" La1.93Ba0.07Cu1O4 La 1.93 Ba 0.07 Cu 1 O 4 1992 T K 23.4 23.4 "La2O3,BaCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9248 PHC2030240 "(La,Ba)2CuO4" La1.92Ba0.08Cu1O4 La 1.92 Ba 0.08 Cu 1 O 4 1992 T K 26 26 "La2O3,BaCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9249 PHC2030240 "(La,Ba)2CuO4" La1.897Ba0.103Cu1O4 La 1.897 Ba 0.103 Cu 1 O 4 1992 T K 14.5 14.5 "La2O3,BaCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9250 PHC2030240 "(La,Ba)2CuO4" La1.892Ba0.108Cu1O4 La 1.892 Ba 0.108 Cu 1 O 4 1992 T K 10.7 10.7 "La2O3,BaCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9251 PHC2030240 "(La,Ba)2CuO4" La1.89Ba0.11Cu1O4 La 1.89 Ba 0.11 Cu 1 O 4 1992 T K 5.4 5.4 "La2O3,BaCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9252 PHC2030240 "(La,Ba)2CuO4" La1.875Ba0.125Cu1O4 La 1.875 Ba 0.125 Cu 1 O 4 1992 T K 4.2 "La2O3,BaCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9253 PHC2030240 "(La,Ba)2CuO4" La1.86Ba0.14Cu1O4 La 1.86 Ba 0.14 Cu 1 O 4 1992 T K 12.7 12.7 "La2O3,BaCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9254 PHC2030240 "(La,Ba)2CuO4" La1.84Ba0.16Cu1O4 La 1.84 Ba 0.16 Cu 1 O 4 1992 T K 26.1 26.1 "La2O3,BaCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9255 PHC2030240 "(La,Ba)2CuO4" La1.82Ba0.18Cu1O4 La 1.82 Ba 0.18 Cu 1 O 4 1992 T K 24.2 24.2 "La2O3,BaCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9256 PHC2030240 "(La,Ba)2CuO4" La1.78Ba0.22Cu1O4 La 1.78 Ba 0.22 Cu 1 O 4 1992 T K 5.4 5.4 "La2O3,BaCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9257 PHC2030240 Tc measured at p=20 kbar "(La,Ba)2CuO4" La1.92Ba0.08Cu1O4 La 1.92 Ba 0.08 Cu 1 O 4 1992 T K 30.9 30.9 "La2O3,BaCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9258 PHC2030240 Tc measured at p=20 kbar "(La,Ba)2CuO4" La1.895Ba0.105Cu1O4 La 1.895 Ba 0.105 Cu 1 O 4 1992 T K 33.1 33.1 "La2O3,BaCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9259 PHC2030240 Tc measured at p=20 kbar "(La,Ba)2CuO4" La1.89Ba0.11Cu1O4 La 1.89 Ba 0.11 Cu 1 O 4 1992 T K 32.3 32.3 "La2O3,BaCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9260 PHC2030240 Tc measured at p=20 kbar "(La,Ba)2CuO4" La1.884Ba0.116Cu1O4 La 1.884 Ba 0.116 Cu 1 O 4 1992 T K 21.8 21.8 "La2O3,BaCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9261 PHC2030240 Tc measured at p=20 kbar "(La,Ba)2CuO4" La1.881Ba0.119Cu1O4 La 1.881 Ba 0.119 Cu 1 O 4 1992 T K 9.3 9.3 "La2O3,BaCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9262 PHC2030240 Tc measured at p=20 kbar "(La,Ba)2CuO4" La1.877Ba0.123Cu1O4 La 1.877 Ba 0.123 Cu 1 O 4 1992 T K 23.6 23.6 "La2O3,BaCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9263 PHC2030240 Tc measured at p=20 kbar "(La,Ba)2CuO4" La1.86Ba0.14Cu1O4 La 1.86 Ba 0.14 Cu 1 O 4 1992 T K 30.1 30.1 "La2O3,BaCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9264 PHC2030240 Tc measured at p=20 kbar "(La,Ba)2CuO4" La1.84Ba0.16Cu1O4 La 1.84 Ba 0.16 Cu 1 O 4 1992 T K 29.3 29.3 "La2O3,BaCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9265 PHC2030240 "(La,Sr)2CuO4" La1.92Sr0.08Cu1O4 La 1.92 Sr 0.08 Cu 1 O 4 1992 T K 27.1 27.1 "La2O3,SrCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9266 PHC2030240 "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 1992 T K 31.8 31.8 "La2O3,SrCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9267 PHC2030240 "(La,Sr)2CuO4" La1.883Sr0.117Cu1O4 La 1.883 Sr 0.117 Cu 1 O 4 1992 T K 31.6 31.6 "La2O3,SrCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9268 PHC2030240 "(La,Sr)2CuO4" La1.868Sr0.132Cu1O4 La 1.868 Sr 0.132 Cu 1 O 4 1992 T K 34.4 34.4 "La2O3,SrCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9269 PHC2030240 "(La,Sr)2CuO4" La1.847Sr0.153Cu1O4 La 1.847 Sr 0.153 Cu 1 O 4 1992 T K 37.6 37.6 "La2O3,SrCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9270 PHC2030240 "(La,Sr)2CuO4" La1.828Sr0.172Cu1O4 La 1.828 Sr 0.172 Cu 1 O 4 1992 T K 37.5 37.5 "La2O3,SrCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9271 PHC2030240 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1992 T K 33 33 "La2O3,SrCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9272 PHC2030240 "(La,Sr)2CuO4" La1.78Sr0.22Cu1O4 La 1.78 Sr 0.22 Cu 1 O 4 1992 T K 21.3 21.3 "La2O3,SrCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9273 PHC2030240 Tc measured at p=20 kbar "(La,Sr)2CuO4" La1.92Sr0.08Cu1O4 La 1.92 Sr 0.08 Cu 1 O 4 1992 T K 29.6 29.6 "La2O3,SrCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9274 PHC2030240 Tc measured at p=20 kbar "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 1992 T K 34.1 34.1 "La2O3,SrCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9275 PHC2030240 Tc measured at p=20 kbar "(La,Sr)2CuO4" La1.883Sr0.117Cu1O4 La 1.883 Sr 0.117 Cu 1 O 4 1992 T K 34.4 34.4 "La2O3,SrCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9276 PHC2030240 Tc measured at p=20 kbar "(La,Sr)2CuO4" La1.868Sr0.132Cu1O4 La 1.868 Sr 0.132 Cu 1 O 4 1992 T K 36.6 36.6 "La2O3,SrCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9277 PHC2030240 Tc measured at p=20 kbar "(La,Sr)2CuO4" La1.847Sr0.153Cu1O4 La 1.847 Sr 0.153 Cu 1 O 4 1992 T K 40.9 40.9 "La2O3,SrCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9278 PHC2030240 Tc measured at p=20 kbar "(La,Sr)2CuO4" La1.828Sr0.172Cu1O4 La 1.828 Sr 0.172 Cu 1 O 4 1992 T K 41.2 41.2 "La2O3,SrCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9279 PHC2030240 Tc measured at p=20 kbar "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1992 T K 33.3 33.3 "La2O3,SrCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9280 PHC2030240 Tc measured at p=20 kbar "(La,Sr)2CuO4" La1.78Sr0.22Cu1O4 La 1.78 Sr 0.22 Cu 1 O 4 1992 T K 22.1 22.1 "La2O3,SrCO3,CuO" 1 "PRESSURE EFFECTS ON SUPERCONDUCTIVITY AND STRUCTURAL PHASE TRANSITIONS IN LA2-XMXCUO4 (M=BA,SR)" 1992 12 "PHYSICA C,203(1992)240" "LA,BA,SR,CU,O" 9281 PR05606288 "(La,Ba)2CuO4" La1.89Ba0.11Cu1O4 La 1.89 Ba 0.11 Cu 1 O 4 1 1997 T K 11.9 11.9 K/kbar 1 1 "SIN(1050C)-ANN(900C, 1 atm O2)" Electron-lattice coupling and stripe formation in La2-xBaxCuO4 1997 9 "Center for Materials Science & Engineering, ETC 9.102, University of Texas at Austin, Austin, Texas 78712-1063" "Phys.Rev.B, 56(1997)6288-6294" 9282 PR05606288 "(La,Ba)2CuO4" La1.88Ba0.12Cu1O4 La 1.88 Ba 0.12 Cu 1 O 4 1 1997 T K 4.2 1 "SIN(1050C)-ANN(900C, 1 atm O2)" Electron-lattice coupling and stripe formation in La2-xBaxCuO4 1997 9 "Center for Materials Science & Engineering, ETC 9.102, University of Texas at Austin, Austin, Texas 78712-1063" "Phys.Rev.B, 56(1997)6288-6294" 9283 PR05606288 "(La,Ba)2CuO4" La1.875Ba0.125Cu1O4 La 1.875 Ba 0.125 Cu 1 O 4 1 1997 T K 4.2 1 "SIN(1050C)-ANN(900C, 1 atm O2)" Electron-lattice coupling and stripe formation in La2-xBaxCuO4 1997 9 "Center for Materials Science & Engineering, ETC 9.102, University of Texas at Austin, Austin, Texas 78712-1063" "Phys.Rev.B, 56(1997)6288-6294" 9284 PR05606288 "(La,Ba)2CuO4" La1.87Ba0.13Cu1O4 La 1.87 Ba 0.13 Cu 1 O 4 1 1997 T K 4.2 1 "SIN(1050C)-ANN(900C, 1 atm O2)" Electron-lattice coupling and stripe formation in La2-xBaxCuO4 1997 9 "Center for Materials Science & Engineering, ETC 9.102, University of Texas at Austin, Austin, Texas 78712-1063" "Phys.Rev.B, 56(1997)6288-6294" 9285 PR05606288 "(La,Ba)2CuO4" La1.86Ba0.14Cu1O4 La 1.86 Ba 0.14 Cu 1 O 4 1 1997 T K 7.4 7.4 TC9285 K/kbar 2.4 1 "SIN(1050C)-ANN(900C, 1 atm O2)" Electron-lattice coupling and stripe formation in La2-xBaxCuO4 1997 9 "Center for Materials Science & Engineering, ETC 9.102, University of Texas at Austin, Austin, Texas 78712-1063" "Phys.Rev.B, 56(1997)6288-6294" 9286 PR0465686 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 1992 3 Bi2212 A 5.41 5.38 30.68 K 76.1 76.1 "Bi2O3,SrCO3,CaCO3,Ga2O3,CuO" 1 "mixture-CAL(800C,12H)-FC-pellet-SIN(845C,72H)-FC" SUPERCONDUCTING AND SEMICONDUCTING PROPERTIES OF THE BI2SR2CA1-XGAXCU2OY SYSTEM 1992 9 "X-RAY-DIFFRACTION ,RESISTIVITY ,SUSCEPTIBILITY" "DEPARTMENT OF PHYSICS AND ASTRONOMY, MCMASTER UNIVERSITY, CANADA" "PHYS.REV.B,46(1992)5686" "BI,SR,CA,GA,CU,O" 9287 PR0465686 "Bi2Sr2(Ca,Ga)Cu2O8" Bi2Sr2Ca0.9Ga0.1Cu2Oz Bi 2 Sr 2 Ca 0.9 Ga 0.1 Cu 2 O z 1992 Bi2212 K 76.1 76.1 "Bi2O3,SrCO3,CaCO3,Ga2O3,CuO" 1 "mixture-CAL(800C,12H)-FC-pellet-SIN(845C,72H)-FC" SUPERCONDUCTING AND SEMICONDUCTING PROPERTIES OF THE BI2SR2CA1-XGAXCU2OY SYSTEM 1992 9 "X-RAY-DIFFRACTION ,RESISTIVITY ,SUSCEPTIBILITY" "DEPARTMENT OF PHYSICS AND ASTRONOMY, MCMASTER UNIVERSITY, CANADA" "PHYS.REV.B,46(1992)5686" "BI,SR,CA,GA,CU,O" 9288 PR0465686 "Bi2Sr2(Ca,Ga)Cu2O8" Bi2Sr2Ca0.8Ga0.2Cu2Oz Bi 2 Sr 2 Ca 0.8 Ga 0.2 Cu 2 O z 1992 Bi2212 K 76.1 76.1 "Bi2O3,SrCO3,CaCO3,Ga2O3,CuO" 1 "mixture-CAL(800C,12H)-FC-pellet-SIN(845C,72H)-FC" SUPERCONDUCTING AND SEMICONDUCTING PROPERTIES OF THE BI2SR2CA1-XGAXCU2OY SYSTEM 1992 9 "X-RAY-DIFFRACTION ,RESISTIVITY ,SUSCEPTIBILITY" "DEPARTMENT OF PHYSICS AND ASTRONOMY, MCMASTER UNIVERSITY, CANADA" "PHYS.REV.B,46(1992)5686" "BI,SR,CA,GA,CU,O" 9289 PR0465686 "Bi2Sr2(Ca,Ga)Cu2O8" Bi2Sr2Ca0.7Ga0.3Cu2Oz Bi 2 Sr 2 Ca 0.7 Ga 0.3 Cu 2 O z 1992 Bi2212 K 76.1 76.1 "Bi2O3,SrCO3,CaCO3,Ga2O3,CuO" 1 "mixture-CAL(800C,12H)-FC-pellet-SIN(845C,72H)-FC" SUPERCONDUCTING AND SEMICONDUCTING PROPERTIES OF THE BI2SR2CA1-XGAXCU2OY SYSTEM 1992 9 "X-RAY-DIFFRACTION ,RESISTIVITY ,SUSCEPTIBILITY" "DEPARTMENT OF PHYSICS AND ASTRONOMY, MCMASTER UNIVERSITY, CANADA" "PHYS.REV.B,46(1992)5686" "BI,SR,CA,GA,CU,O" 9290 PR0465686 "Bi2Sr2(Ca,Ga)Cu2O8" Bi2Sr2Ca0.5Ga0.5Cu2Oz Bi 2 Sr 2 Ca 0.5 Ga 0.5 Cu 2 O z 1992 Bi2212 K 76.1 76.1 "Bi2O3,SrCO3,CaCO3,Ga2O3,CuO" 1 "mixture-CAL(800C,12H)-FC-pellet-SIN(845C,72H)-FC" SUPERCONDUCTING AND SEMICONDUCTING PROPERTIES OF THE BI2SR2CA1-XGAXCU2OY SYSTEM 1992 9 "X-RAY-DIFFRACTION ,RESISTIVITY ,SUSCEPTIBILITY" "DEPARTMENT OF PHYSICS AND ASTRONOMY, MCMASTER UNIVERSITY, CANADA" "PHYS.REV.B,46(1992)5686" "BI,SR,CA,GA,CU,O" 9291 PR0465686 R does not go to zero even at 5K "Bi2Sr2(Ca,Ga)Cu2O8" Bi2Sr2Ca0.4Ga0.6Cu2Oz Bi 2 Sr 2 Ca 0.4 Ga 0.6 Cu 2 O z 1992 Bi2212 K 5 "Bi2O3,SrCO3,CaCO3,Ga2O3,CuO" 1 "mixture-CAL(800C,12H)-FC-pellet-SIN(845C,72H)-FC" SUPERCONDUCTING AND SEMICONDUCTING PROPERTIES OF THE BI2SR2CA1-XGAXCU2OY SYSTEM 1992 9 "X-RAY-DIFFRACTION ,RESISTIVITY ,SUSCEPTIBILITY" "DEPARTMENT OF PHYSICS AND ASTRONOMY, MCMASTER UNIVERSITY, CANADA" "PHYS.REV.B,46(1992)5686" "BI,SR,CA,GA,CU,O" 9292 PR0465686 semiconductive Bi2Sr2GaCu2O8 Bi2Sr2Ga1Cu2Oz Bi 2 Sr 2 Ga 1 Cu 2 O z 1992 3 Bi2212 A 5.43 5.39 24.48 K 5 "Bi2O3,SrCO3,CaCO3,Ga2O3,CuO" 1 "mixture-CAL(800C,12H)-FC-pellet-SIN(845C,72H)-FC" SUPERCONDUCTING AND SEMICONDUCTING PROPERTIES OF THE BI2SR2CA1-XGAXCU2OY SYSTEM 1992 9 "X-RAY-DIFFRACTION ,RESISTIVITY ,SUSCEPTIBILITY" "DEPARTMENT OF PHYSICS AND ASTRONOMY, MCMASTER UNIVERSITY, CANADA" "PHYS.REV.B,46(1992)5686" "BI,SR,CA,GA,CU,O" 9293 SSC0730341 "(Nd,Sm,Ce)2CuO4" Nd1.75Sm0.1Ce0.15Cu1O3.972 Nd 1.75 Sm 0.1 Ce 0.15 Cu 1 O z 3.972 1990 2 T' A 3.9454 12.079 K 22.2 22.2 "CeO2,Nd2O3,La2O3,Sm2O3,CuO" 1 "mixture-pellet-heat(950C,12H in air)-FC-pellet-SIN(1080C,12H,in air)-FC-ANN(900C,12H in air)-Q to RT" RELATION BETWEEN TC AND CU-O BOND LENGTH WITHIN THE BASAL PLANE OF CE0.15ND1.85-XMXCUO4-Y (M=LA AND SM) AND CE0.15PR1.85CUO4-Y 1990 "OXYGEN CONTENT ,SUSCEPTIBILITY ,SUBSTITUTIONS ,CU-O BOND" "INSTITUTE FOR MATERIALS RESEARCH, TOHOKU UNIVERSITY, KATAHIRA,AOBA-KU, SENDAI 980, JAPAN" "SOLID STATE COMMUN,73(1990)341" "CE,ND,CU,O,LA,SM,PR" 9294 SSC0730341 "(Nd,Sm,Ce)2CuO4" Nd1.65Sm0.2Ce0.15Cu1O3.971 Nd 1.65 Sm 0.2 Ce 0.15 Cu 1 O z 3.971 1990 2 T' A 3.9438 12.068 K 21.6 21.6 "CeO2,Nd2O3,La2O3,Sm2O3,CuO" 1 "mixture-pellet-heat(950C,12H in air)-FC-pellet-SIN(1080C,12H,in air)-FC-ANN(900C,12H in air)-Q to RT" RELATION BETWEEN TC AND CU-O BOND LENGTH WITHIN THE BASAL PLANE OF CE0.15ND1.85-XMXCUO4-Y (M=LA AND SM) AND CE0.15PR1.85CUO4-Y 1990 "OXYGEN CONTENT ,SUSCEPTIBILITY ,SUBSTITUTIONS ,CU-O BOND" "INSTITUTE FOR MATERIALS RESEARCH, TOHOKU UNIVERSITY, KATAHIRA,AOBA-KU, SENDAI 980, JAPAN" "SOLID STATE COMMUN,73(1990)341" "CE,ND,CU,O,LA,SM,PR" 9295 SSC0730341 "(Nd,Sm,Ce)2CuO4" Nd1.55Sm0.3Ce0.15Cu1O3.972 Nd 1.55 Sm 0.3 Ce 0.15 Cu 1 O z 3.972 1990 2 T' A 3.9411 12.055 K 21.8 21.8 "CeO2,Nd2O3,La2O3,Sm2O3,CuO" 1 "mixture-pellet-heat(950C,12H in air)-FC-pellet-SIN(1080C,12H,in air)-FC-ANN(900C,12H in air)-Q to RT" RELATION BETWEEN TC AND CU-O BOND LENGTH WITHIN THE BASAL PLANE OF CE0.15ND1.85-XMXCUO4-Y (M=LA AND SM) AND CE0.15PR1.85CUO4-Y 1990 "OXYGEN CONTENT ,SUSCEPTIBILITY ,SUBSTITUTIONS ,CU-O BOND" "INSTITUTE FOR MATERIALS RESEARCH, TOHOKU UNIVERSITY, KATAHIRA,AOBA-KU, SENDAI 980, JAPAN" "SOLID STATE COMMUN,73(1990)341" "CE,ND,CU,O,LA,SM,PR" 9296 SSC0730341 "(Nd,La,Ce)2CuO4" Nd1.85Ce0.15Cu1O3.971 Nd 1.85 Ce 0.15 Cu 1 O z 3.971 1990 2 T' A 3.9465 12.092 K 21.6 21.6 "CeO2,Nd2O3,La2O3,Sm2O3,CuO" 1 "mixture-pellet-heat(950C,12H in air)-FC-pellet-SIN(1080C,12H,in air)-FC-ANN(900C,12H in air)-Q to RT" RELATION BETWEEN TC AND CU-O BOND LENGTH WITHIN THE BASAL PLANE OF CE0.15ND1.85-XMXCUO4-Y (M=LA AND SM) AND CE0.15PR1.85CUO4-Y 1990 "OXYGEN CONTENT ,SUSCEPTIBILITY ,SUBSTITUTIONS ,CU-O BOND" "INSTITUTE FOR MATERIALS RESEARCH, TOHOKU UNIVERSITY, KATAHIRA,AOBA-KU, SENDAI 980, JAPAN" "SOLID STATE COMMUN,73(1990)341" "CE,ND,CU,O,LA,SM,PR" 9297 SSC0730341 "(Nd,La,Ce)2CuO4" Nd1.55La0.3Ce0.15Cu1Oz Nd 1.55 La 0.3 Ce 0.15 Cu 1 O z 1990 2 T' A 3.9578 12.145 K 19.6 19.6 "CeO2,Nd2O3,La2O3,Sm2O3,CuO" 1 "mixture-pellet-heat(950C,12H in air)-FC-pellet-SIN(1080C,12H,in air)-FC-ANN(900C,12H in air)-Q to RT" RELATION BETWEEN TC AND CU-O BOND LENGTH WITHIN THE BASAL PLANE OF CE0.15ND1.85-XMXCUO4-Y (M=LA AND SM) AND CE0.15PR1.85CUO4-Y 1990 "OXYGEN CONTENT ,SUSCEPTIBILITY ,SUBSTITUTIONS ,CU-O BOND" "INSTITUTE FOR MATERIALS RESEARCH, TOHOKU UNIVERSITY, KATAHIRA,AOBA-KU, SENDAI 980, JAPAN" "SOLID STATE COMMUN,73(1990)341" "CE,ND,CU,O,LA,SM,PR" 9298 SSC0730341 "(Nd,La,Ce)2CuO4" Nd1.05La0.8Ce0.15Cu1Oz Nd 1.05 La 0.8 Ce 0.15 Cu 1 O z 1990 2 T' A 3.9751 12.241 K 16.3 16.3 "CeO2,Nd2O3,La2O3,Sm2O3,CuO" 1 "mixture-pellet-heat(950C,12H in air)-FC-pellet-SIN(1080C,12H,in air)-FC-ANN(900C,12H in air)-Q to RT" RELATION BETWEEN TC AND CU-O BOND LENGTH WITHIN THE BASAL PLANE OF CE0.15ND1.85-XMXCUO4-Y (M=LA AND SM) AND CE0.15PR1.85CUO4-Y 1990 "OXYGEN CONTENT ,SUSCEPTIBILITY ,SUBSTITUTIONS ,CU-O BOND" "INSTITUTE FOR MATERIALS RESEARCH, TOHOKU UNIVERSITY, KATAHIRA,AOBA-KU, SENDAI 980, JAPAN" "SOLID STATE COMMUN,73(1990)341" "CE,ND,CU,O,LA,SM,PR" 9299 SSC0730341 "(Nd,La,Ce)2CuO4" Nd0.85La1Ce0.15Cu1Oz Nd 0.85 La 1 Ce 0.15 Cu 1 O z 1990 2 T' A 3.9827 12.273 K 14.9 14.9 "CeO2,Nd2O3,La2O3,Sm2O3,CuO" 1 "mixture-pellet-heat(950C,12H in air)-FC-pellet-SIN(1080C,12H,in air)-FC-ANN(900C,12H in air)-Q to RT" RELATION BETWEEN TC AND CU-O BOND LENGTH WITHIN THE BASAL PLANE OF CE0.15ND1.85-XMXCUO4-Y (M=LA AND SM) AND CE0.15PR1.85CUO4-Y 1990 "OXYGEN CONTENT ,SUSCEPTIBILITY ,SUBSTITUTIONS ,CU-O BOND" "INSTITUTE FOR MATERIALS RESEARCH, TOHOKU UNIVERSITY, KATAHIRA,AOBA-KU, SENDAI 980, JAPAN" "SOLID STATE COMMUN,73(1990)341" "CE,ND,CU,O,LA,SM,PR" 9300 PRL0851738 T(NQR)=130 K "(La,Nd,Sr)2CuO4" La1.52Nd0.4Sr0.08Cu1O4 La 1.52 Nd 0.4 Sr 0.08 Cu 1 O 4 3 2000 19.9 T K 6.62 6.62 traveling solvent floating zone method Local Magnetic Order vs Superconductivity in a Layered Cuprate 2000 8 "Department of Superconductivity, School of Engineering, University of Tokyo, 2-11-16 Yayoi, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett., 85(2000)1739-" 9301 PRL0851738 charge order temp by X-ray=64.9K. T(NQR)=90 K "(La,Nd,Sr)2CuO4" La1.5Nd0.4Sr0.1Cu1O4 La 1.5 Nd 0.4 Sr 0.1 Cu 1 O 4 3 2000 45 T K 6.62 6.62 traveling solvent floating zone method Local Magnetic Order vs Superconductivity in a Layered Cuprate 2000 8 "Department of Superconductivity, School of Engineering, University of Tokyo, 2-11-16 Yayoi, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett., 85(2000)1739-" 9302 PRL0851738 charge order temp by X-ray=68.9K. T(NQR)=69.5 K "(La,Nd,Sr)2CuO4" La1.48Nd0.4Sr0.12Cu1O4 La 1.48 Nd 0.4 Sr 0.12 Cu 1 O 4 3 2000 55 T K 2.65 2.65 traveling solvent floating zone method Local Magnetic Order vs Superconductivity in a Layered Cuprate 2000 8 "Department of Superconductivity, School of Engineering, University of Tokyo, 2-11-16 Yayoi, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett., 85(2000)1739-" 9303 PRL0851738 charge order temp by X-ray=59K. T(NQR)=59.6 K "(La,Nd,Sr)2CuO4" La1.45Nd0.4Sr0.15Cu1O4 La 1.45 Nd 0.4 Sr 0.15 Cu 1 O 4 3 2000 44.4 T K 10.6 10.6 traveling solvent floating zone method Local Magnetic Order vs Superconductivity in a Layered Cuprate 2000 8 "Department of Superconductivity, School of Engineering, University of Tokyo, 2-11-16 Yayoi, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett., 85(2000)1739-" 9304 PRL0851738 T(NQR)=38.4K "(La,Nd,Sr)2CuO4" La1.4Nd0.4Sr0.2Cu1O4 La 1.4 Nd 0.4 Sr 0.2 Cu 1 O 4 3 2000 16.6 T K 13.9 13.9 traveling solvent floating zone method Local Magnetic Order vs Superconductivity in a Layered Cuprate 2000 8 "Department of Superconductivity, School of Engineering, University of Tokyo, 2-11-16 Yayoi, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett., 85(2000)1739-" 9305 PRL0851738 T(NQR)=39.1 K "(La,Nd,Sr)2CuO4" La1.35Nd0.4Sr0.25Cu1O4 La 1.35 Nd 0.4 Sr 0.25 Cu 1 O 4 3 2000 1.32 T K traveling solvent floating zone method Local Magnetic Order vs Superconductivity in a Layered Cuprate 2000 8 "Department of Superconductivity, School of Engineering, University of Tokyo, 2-11-16 Yayoi, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett., 85(2000)1739-" 9306 PHB2841085 "(Cu,Tl)Ba2Ca2Cu3O10" Tl0.5Ba2Ca2Cu3.5O10-z Tl 0.5 Ba 2 Ca 2 Cu 3.5 O 10-z 2000 Tl1223 K 132 132 "samples were prepared at 850 C under 4 Gpa. ANN(400-600C,12H in flowing N2). AgO was added as a oxidizer." Selective reduction for hole-doping in Cu1-xTlx-1223 (Cu1-xTlxBa2Ca2Cu3O10-y) system with Tc>132K 2000 "Electrotechnical Laboratory, 1-1-4 Umezono,Tsukuba,Ibaraki, Japan" "Physica B, 284-288(2000)1085-1086" 9307 JPS0690170 "(Y,Pr)Ba2Cu3Oz" Y0.6Pr0.4Ba2Cu3O6.95 Y 0.6 Pr 0.4 Ba 2 Cu 3 O 6+z 6.95 1 2000 Y123 K 37 37 TC9307 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9308 JPS0690170 "(Y,Pr)Ba2Cu3Oz" Y0.6Pr0.4Ba2Cu3O6.85 Y 0.6 Pr 0.4 Ba 2 Cu 3 O 6+z 6.85 1 2000 Y123 K 27.8 27.8 TC9308 RH9308 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9309 JPS0690170 "(Y,Pr)Ba2Cu3Oz" Y0.6Pr0.4Ba2Cu3O6.61 Y 0.6 Pr 0.4 Ba 2 Cu 3 O 6+z 6.61 1 2000 Y123 K 26 26 TC9309 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9310 JPS0690170 "(Y,Pr)Ba2Cu3Oz" Y0.6Pr0.4Ba2Cu3O6.66 Y 0.6 Pr 0.4 Ba 2 Cu 3 O 6+z 6.66 1 2000 Y123 K 25.4 25.4 TC9310 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9311 JPS0690170 "(Y,Pr)Ba2Cu3Oz" Y0.6Pr0.4Ba2Cu3O6.76 Y 0.6 Pr 0.4 Ba 2 Cu 3 O 6+z 6.76 1 2000 Y123 K 23.7 23.7 TC9311 TP9311 RH9311 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9312 JPS0690170 "(Y,Pr)Ba2Cu3Oz" Y0.6Pr0.4Ba2Cu3O6.53 Y 0.6 Pr 0.4 Ba 2 Cu 3 O 6+z 6.53 1 2000 Y123 K 15 15 TC9312 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9313 JPS0690170 not s/c "(Y,Pr)Ba2Cu3Oz" Y0.6Pr0.4Ba2Cu3O6.45 Y 0.6 Pr 0.4 Ba 2 Cu 3 O 6+z 6.45 1 2000 Y123 K 4.2 TC9313 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9314 JPS0690170 YBa2Cu3Oz Y1Ba2Cu3O6.45 Y 1 Ba 2 Cu 3 O 6+z 6.45 1 2000 Y123 K 33 33 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9315 JPS0690170 YBa2Cu3Oz Y1Ba2Cu3O6.53 Y 1 Ba 2 Cu 3 O 6+z 6.53 1 2000 Y123 K 50.3 50.3 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9316 JPS0690170 YBa2Cu3Oz Y1Ba2Cu3O6.61 Y 1 Ba 2 Cu 3 O 6+z 6.61 1 2000 Y123 K 55.5 55.5 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9317 JPS0690170 YBa2Cu3Oz Y1Ba2Cu3O6.66 Y 1 Ba 2 Cu 3 O 6+z 6.66 1 2000 Y123 K 56.7 56.7 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9318 JPS0690170 YBa2Cu3Oz Y1Ba2Cu3O6.71 Y 1 Ba 2 Cu 3 O 6+z 6.71 1 2000 Y123 K 59 59 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9319 JPS0690170 YBa2Cu3Oz Y1Ba2Cu3O6.76 Y 1 Ba 2 Cu 3 O 6+z 6.76 1 2000 Y123 K 63 63 TP9319 RH9319 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9320 JPS0690170 YBa2Cu3Oz Y1Ba2Cu3O6.85 Y 1 Ba 2 Cu 3 O 6+z 6.85 1 2000 Y123 K 87.9 87.9 TP9320 RH9320 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9321 JPS0690170 YBa2Cu3Oz Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O 6+z 6.95 1 2000 Y123 K 90.2 90.2 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9322 JPS0690170 "(Y,Pr)Ba2Cu3Oz" Y0.5Pr0.5Ba2Cu3O6.45 Y 0.5 Pr 0.5 Ba 2 Cu 3 O 6+z 6.45 1 2000 Y123 K 4.2 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9323 JPS0690170 "(Y,Pr)Ba2Cu3Oz" Y0.5Pr0.5Ba2Cu3O6.53 Y 0.5 Pr 0.5 Ba 2 Cu 3 O 6+z 6.53 1 2000 Y123 K 5.2 5.2 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9324 JPS0690170 "(Y,Pr)Ba2Cu3Oz" Y0.5Pr0.5Ba2Cu3O6.61 Y 0.5 Pr 0.5 Ba 2 Cu 3 O 6+z 6.61 1 2000 Y123 K 4.6 4.6 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9325 JPS0690170 not zero resistance "(Y,Pr)Ba2Cu3Oz" Y0.5Pr0.5Ba2Cu3O6.66 Y 0.5 Pr 0.5 Ba 2 Cu 3 O 6+z 6.66 1 2000 Y123 K 3.5 3.5 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9326 JPS0690170 not zero resistance "(Y,Pr)Ba2Cu3Oz" Y0.5Pr0.5Ba2Cu3O6.71 Y 0.5 Pr 0.5 Ba 2 Cu 3 O 6+z 6.71 1 2000 Y123 K 4 4 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9327 JPS0690170 not zero resistance "(Y,Pr)Ba2Cu3Oz" Y0.5Pr0.5Ba2Cu3O6.76 Y 0.5 Pr 0.5 Ba 2 Cu 3 O 6+z 6.76 1 2000 Y123 K 4 4 TP9327 RH9327 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9328 JPS0690170 not zero resistance "(Y,Pr)Ba2Cu3Oz" Y0.5Pr0.5Ba2Cu3O6.85 Y 0.5 Pr 0.5 Ba 2 Cu 3 O 6+z 6.85 1 2000 Y123 K 4 4 TP9328 RH9328 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9329 JPS0690170 "(Y,Pr)Ba2Cu3Oz" Y0.5Pr0.5Ba2Cu3O6.95 Y 0.5 Pr 0.5 Ba 2 Cu 3 O 6+z 6.95 1 2000 Y123 K 12.7 12.7 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9330 JPS0690170 not s/c "(Y,Pr)Ba2Cu3Oz" Y0.4Pr0.6Ba2Cu3O6.85 Y 0.4 Pr 0.6 Ba 2 Cu 3 O 6+z 6.85 1 2000 Y123 K 4.2 TP9330 RH9330 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9331 JPS0690170 not s/c "(Y,Pr)Ba2Cu3Oz" Y0.4Pr0.6Ba2Cu3O6.76 Y 0.4 Pr 0.6 Ba 2 Cu 3 O 6+z 6.76 1 2000 Y123 K 4.2 TP9331 RH9331 "Y2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(880C,12H in air)-pellet-SIN(910C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9332 JPS0690170 "(Sm,Pr)Ba2Cu3Oz" Sm0.8Pr0.2Ba2Cu3O6.55 Sm 0.8 Pr 0.2 Ba 2 Cu 3 O 6+z 6.55 1 2000 Y123 K "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9333 JPS0690170 "(Sm,Pr)Ba2Cu3Oz" Sm0.8Pr0.2Ba2Cu3O6.65 Sm 0.8 Pr 0.2 Ba 2 Cu 3 O 6+z 6.65 1 2000 Y123 K 21 21 TC9333 "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9334 JPS0690170 "(Sm,Pr)Ba2Cu3Oz" Sm0.8Pr0.2Ba2Cu3O6.7 Sm 0.8 Pr 0.2 Ba 2 Cu 3 O 6+z 6.7 1 2000 Y123 K 25.6 25.6 TC9334 "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9335 JPS0690170 "(Sm,Pr)Ba2Cu3Oz" Sm0.8Pr0.2Ba2Cu3O6.75 Sm 0.8 Pr 0.2 Ba 2 Cu 3 O 6+z 6.75 1 2000 Y123 K 23.4 23.4 TC9335 "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9336 JPS0690170 "(Sm,Pr)Ba2Cu3Oz" Sm0.8Pr0.2Ba2Cu3O6.85 Sm 0.8 Pr 0.2 Ba 2 Cu 3 O 6+z 6.85 1 2000 Y123 K 26 26 TC9336 "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9337 JPS0690170 "(Sm,Pr)Ba2Cu3Oz" Sm0.8Pr0.2Ba2Cu3O6.95 Sm 0.8 Pr 0.2 Ba 2 Cu 3 O 6+z 6.95 1 2000 Y123 K 41 41 TC9337 "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9338 JPS0690170 SmBa2Cu3Oz Sm1Ba2Cu3O6.55 Sm 1 Ba 2 Cu 3 O 6+z 6.55 1 2000 Y123 K 12.8 12.8 "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9339 JPS0690170 SmBa2Cu3Oz Sm1Ba2Cu3O6.65 Sm 1 Ba 2 Cu 3 O 6+z 6.65 1 2000 Y123 K 32.8 32.8 "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9340 JPS0690170 SmBa2Cu3Oz Sm1Ba2Cu3O6.75 Sm 1 Ba 2 Cu 3 O 6+z 6.75 1 2000 Y123 K 38.4 38.4 "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9341 JPS0690170 SmBa2Cu3Oz Sm1Ba2Cu3O6.85 Sm 1 Ba 2 Cu 3 O 6+z 6.85 1 2000 Y123 K 54.7 54.7 "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9342 JPS0690170 SmBa2Cu3Oz Sm1Ba2Cu3O6.95 Sm 1 Ba 2 Cu 3 O 6+z 6.95 1 2000 Y123 K 79.4 79.4 "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9343 JPS0690170 "(Sm,Pr)Ba2Cu3Oz" Sm0.9Pr0.1Ba2Cu3O6.55 Sm 0.9 Pr 0.1 Ba 2 Cu 3 O 6+z 6.55 1 2000 Y123 K 12.2 12.2 "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9344 JPS0690170 "(Sm,Pr)Ba2Cu3Oz" Sm0.9Pr0.1Ba2Cu3O6.65 Sm 0.9 Pr 0.1 Ba 2 Cu 3 O 6+z 6.65 1 2000 Y123 K 30.6 30.6 "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9345 JPS0690170 "(Sm,Pr)Ba2Cu3Oz" Sm0.9Pr0.1Ba2Cu3O6.75 Sm 0.9 Pr 0.1 Ba 2 Cu 3 O 6+z 6.75 1 2000 Y123 K 36.3 36.3 "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9346 JPS0690170 "(Sm,Pr)Ba2Cu3Oz" Sm0.9Pr0.1Ba2Cu3O6.85 Sm 0.9 Pr 0.1 Ba 2 Cu 3 O 6+z 6.85 1 2000 Y123 K 42.2 42.2 "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9347 JPS0690170 "(Sm,Pr)Ba2Cu3Oz" Sm0.9Pr0.1Ba2Cu3O6.95 Sm 0.9 Pr 0.1 Ba 2 Cu 3 O 6+z 6.95 1 2000 Y123 K 57.5 57.5 "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9348 JPS0690170 not s/c "(Sm,Pr)Ba2Cu3Oz" Sm0.7Pr0.3Ba2Cu3O6.55 Sm 0.7 Pr 0.3 Ba 2 Cu 3 O 6+z 6.55 1 2000 Y123 K "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9349 JPS0690170 "(Sm,Pr)Ba2Cu3Oz" Sm0.7Pr0.3Ba2Cu3O6.65 Sm 0.7 Pr 0.3 Ba 2 Cu 3 O 6+z 6.65 1 2000 Y123 K 10.6 10.6 "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9350 JPS0690170 "(Sm,Pr)Ba2Cu3Oz" Sm0.7Pr0.3Ba2Cu3O6.75 Sm 0.7 Pr 0.3 Ba 2 Cu 3 O 6+z 6.75 1 2000 Y123 K 6.6 6.6 "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9351 JPS0690170 "(Sm,Pr)Ba2Cu3Oz" Sm0.7Pr0.3Ba2Cu3O6.8 Sm 0.7 Pr 0.3 Ba 2 Cu 3 O 6+z 6.8 1 2000 Y123 K 5 5 "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9352 JPS0690170 not zero-resistance "(Sm,Pr)Ba2Cu3Oz" Sm0.7Pr0.3Ba2Cu3O6.85 Sm 0.7 Pr 0.3 Ba 2 Cu 3 O 6+z 6.85 1 2000 Y123 K 4.4 4.4 "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9353 JPS0690170 "(Sm,Pr)Ba2Cu3Oz" Sm0.7Pr0.3Ba2Cu3O6.95 Sm 0.7 Pr 0.3 Ba 2 Cu 3 O 6+z 6.95 1 2000 Y123 K 23.1 23.1 "Sm2O3,Pr6O11,BaCO3,CuO" 1 "mixture-heat(900C,12H in air)-pellet-SIN(925C,24H in air)-FC. O-control by annealing at proper temperature then quench." On the Anomalous Oxygen-Number Dependence of the Superconducting Transition Temperature of R1-xPrxBa2Cu3O6+y (R=Y and Sm) 2000 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc. Jpn, 69(2000)170-177" 9354 JMR0151076 compo.=nominal values (Bi3Pb)Sr3Ca3Cu4Oz Bi3Pb1Sr3Ca3Cu4Oz Bi 3 Pb 1 Sr 3 Ca 3 Cu 4 O z 2000 Bi4334 K 78 110 94 uV/K 0.28 TP9354 mOhm.cm 27.17 "Bi2O3,PbO,CaCO3,SrO3,CuO,Cr2O3" 1 "precursor(Bi3PbSr3Ca3(Cu1-xCrx)4Oz)-melt(1100-1200C in Pt crucible)-Q to form glassy precursor-ANN(840C,24H in air)" Effect of Cr doping on the electrical conductivity and Seebeck coefficient in the superconductors obtained from the Bi-Pb-Sr-Ca-Cu-Cr-O-type glassy precursors by annealing 2000 5 "olid State Physics Department, Indian Association for the Cultivation of Science, Calcutta-700032, India" "J.Mater.Res., 15(2000)1076-1082" 9355 JMR0151076 compo.=nominal values "(Bi3Pb)Sr3Ca3(Cu,Cr)4Oz" Bi3Pb1Sr3Ca3Cu3.8Cr0.2Oz Bi 3 Pb 1 Sr 3 Ca 3 Cu 3.8 Cr 0.2 O z 2000 Bi4334 K 46 69 57.5 uV/K 2.6 TP9355 mOhm.cm 30.08 "Bi2O3,PbO,CaCO3,SrO3,CuO,Cr2O3" 1 "precursor(Bi3PbSr3Ca3(Cu1-xCrx)4Oz)-melt(1100-1200C in Pt crucible)-Q to form glassy precursor-ANN(840C,24H in air)" Effect of Cr doping on the electrical conductivity and Seebeck coefficient in the superconductors obtained from the Bi-Pb-Sr-Ca-Cu-Cr-O-type glassy precursors by annealing 2000 5 "olid State Physics Department, Indian Association for the Cultivation of Science, Calcutta-700032, India" "J.Mater.Res., 15(2000)1076-1082" 9356 JMR0151076 compo.=nominal values "(Bi3Pb)Sr3Ca3(Cu,Cr)4Oz" Bi3Pb1Sr3Ca3Cu3.6Cr0.4Oz Bi 3 Pb 1 Sr 3 Ca 3 Cu 3.6 Cr 0.4 O z 2000 Bi4334 K 27 68 47.5 uV/K 6.61 TP9356 mOhm.cm 42.69 "Bi2O3,PbO,CaCO3,SrO3,CuO,Cr2O3" 1 "precursor(Bi3PbSr3Ca3(Cu1-xCrx)4Oz)-melt(1100-1200C in Pt crucible)-Q to form glassy precursor-ANN(840C,24H in air)" Effect of Cr doping on the electrical conductivity and Seebeck coefficient in the superconductors obtained from the Bi-Pb-Sr-Ca-Cu-Cr-O-type glassy precursors by annealing 2000 5 "olid State Physics Department, Indian Association for the Cultivation of Science, Calcutta-700032, India" "J.Mater.Res., 15(2000)1076-1082" 9357 JMR0151076 compo.=nominal values. R not to zero. "(Bi3Pb)Sr3Ca3(Cu,Cr)4Oz" Bi3Pb1Sr3Ca3Cu3.2Cr0.8Oz Bi 3 Pb 1 Sr 3 Ca 3 Cu 3.2 Cr 0.8 O z 2000 Bi4334 K 60 60 uV/K 6.92 TP9357 mOhm.cm 150.07 "Bi2O3,PbO,CaCO3,SrO3,CuO,Cr2O3" 1 "precursor(Bi3PbSr3Ca3(Cu1-xCrx)4Oz)-melt(1100-1200C in Pt crucible)-Q to form glassy precursor-ANN(840C,24H in air)" Effect of Cr doping on the electrical conductivity and Seebeck coefficient in the superconductors obtained from the Bi-Pb-Sr-Ca-Cu-Cr-O-type glassy precursors by annealing 2000 5 "olid State Physics Department, Indian Association for the Cultivation of Science, Calcutta-700032, India" "J.Mater.Res., 15(2000)1076-1082" 9358 JPS0632314 "(La,Ba)2CuO4" La1.92Ba0.08Cu1O4 La 1.92 Ba 0.08 Cu 1 O 4 1994 T K 25 25 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9359 JPS0632314 "(La,Ba)2CuO4" La1.9Ba0.1Cu1O4 La 1.9 Ba 0.1 Cu 1 O 4 1994 T K 26 26 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9360 JPS0632314 "(La,Ba)2CuO4" La1.89Ba0.11Cu1O4 La 1.89 Ba 0.11 Cu 1 O 4 1994 T K 18.8 18.8 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9361 JPS0632314 "(La,Ba)2CuO4" La1.885Ba0.115Cu1O4 La 1.885 Ba 0.115 Cu 1 O 4 1994 T K 13.9 13.9 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9362 JPS0632314 "(La,Ba)2CuO4" La1.875Ba0.125Cu1O4 La 1.875 Ba 0.125 Cu 1 O 4 1994 T K 8.9 8.9 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9363 JPS0632314 "(La,Ba)2CuO4" La1.865Ba0.135Cu1O4 La 1.865 Ba 0.135 Cu 1 O 4 1994 T K 5.98 5.98 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9364 JPS0632314 "(La,Ba)2CuO4" La1.86Ba0.14Cu1O4 La 1.86 Ba 0.14 Cu 1 O 4 1994 T K 9.96 9.96 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9365 JPS0632314 "(La,Ba)2CuO4" La1.855Ba0.145Cu1O4 La 1.855 Ba 0.145 Cu 1 O 4 1994 T K 13 13 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9366 JPS0632314 "(La,Ba)2CuO4" La1.845Ba0.155Cu1O4 La 1.845 Ba 0.155 Cu 1 O 4 1994 T K 26 26 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9367 JPS0632314 "(La,Ba)2CuO4" La1.84Ba0.16Cu1O4 La 1.84 Ba 0.16 Cu 1 O 4 1994 T K 27 27 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9368 JPS0632314 "(La,Ba)2CuO4" La1.83Ba0.17Cu1O4 La 1.83 Ba 0.17 Cu 1 O 4 1994 T K 26.9 26.9 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9369 JPS0632314 "(La,Ba)2CuO4" La1.82Ba0.18Cu1O4 La 1.82 Ba 0.18 Cu 1 O 4 1994 T K 22 22 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9370 JPS0632314 "(La,Ba)2CuO4" La1.8Ba0.2Cu1O4 La 1.8 Ba 0.2 Cu 1 O 4 1994 T K 17.9 17.9 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9371 JPS0632314 "(La,Nd,Ba)2CuO4" La1.83Nd0.1Ba0.07Cu1O4 La 1.83 Nd 0.1 Ba 0.07 Cu 1 O 4 1994 T K 16 16 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9372 JPS0632314 "(La,Nd,Ba)2CuO4" La1.8Nd0.1Ba0.1Cu1O4 La 1.8 Nd 0.1 Ba 0.1 Cu 1 O 4 1994 T K 22 22 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9373 JPS0632314 "(La,Nd,Ba)2CuO4" La1.79Nd0.1Ba0.11Cu1O4 La 1.79 Nd 0.1 Ba 0.11 Cu 1 O 4 1994 T K 13 13 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9374 JPS0632314 "(La,Nd,Ba)2CuO4" La1.75Nd0.1Ba0.15Cu1O4 La 1.75 Nd 0.1 Ba 0.15 Cu 1 O 4 1994 T K 12 12 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9375 JPS0632314 "(La,Nd,Ba)2CuO4" La1.74Nd0.1Ba0.16Cu1O4 La 1.74 Nd 0.1 Ba 0.16 Cu 1 O 4 1994 T K 16.9 16.9 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9376 JPS0632314 "(La,Nd,Ba)2CuO4" La1.72Nd0.1Ba0.18Cu1O4 La 1.72 Nd 0.1 Ba 0.18 Cu 1 O 4 1994 T K 19.8 19.8 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9377 JPS0632314 "(La,Nd,Ba)2CuO4" La1.72Nd0.2Ba0.08Cu1O4 La 1.72 Nd 0.2 Ba 0.08 Cu 1 O 4 1994 T K 16.9 16.9 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9378 JPS0632314 "(La,Nd,Ba)2CuO4" La1.7Nd0.2Ba0.1Cu1O4 La 1.7 Nd 0.2 Ba 0.1 Cu 1 O 4 1994 T K 15 15 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9379 JPS0632314 "(La,Nd,Ba)2CuO4" La1.69Nd0.2Ba0.11Cu1O4 La 1.69 Nd 0.2 Ba 0.11 Cu 1 O 4 1994 T K 8.2 8.2 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9380 JPS0632314 "(La,Nd,Ba)2CuO4" La1.64Nd0.2Ba0.16Cu1O4 La 1.64 Nd 0.2 Ba 0.16 Cu 1 O 4 1994 T K 12 12 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9381 JPS0632314 "(La,Nd,Ba)2CuO4" La1.62Nd0.2Ba0.18Cu1O4 La 1.62 Nd 0.2 Ba 0.18 Cu 1 O 4 1994 T K 14.9 14.9 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9382 JPS0632314 "(La,Nd,Ba)2CuO4" La1.6Nd0.2Ba0.2Cu1O4 La 1.6 Nd 0.2 Ba 0.2 Cu 1 O 4 1994 T K 11 11 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9383 JPS0632314 "(La,Nd,Ba)2CuO4" La1.52Nd0.4Ba0.08Cu1O4 La 1.52 Nd 0.4 Ba 0.08 Cu 1 O 4 1994 T K 11 11 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9384 JPS0632314 "(La,Nd,Ba)2CuO4" La1.5Nd0.4Ba0.1Cu1O4 La 1.5 Nd 0.4 Ba 0.1 Cu 1 O 4 1994 T K 9.95 9.95 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9385 JPS0632314 "(La,Nd,Ba)2CuO4" La1.475Nd0.4Ba0.125Cu1O4 La 1.475 Nd 0.4 Ba 0.125 Cu 1 O 4 1994 T K 5 10 7.5 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9386 JPS0632314 "(La,Nd,Sr)2CuO4" La1.475Nd0.4Sr0.125Cu1O4 La 1.475 Nd 0.4 Sr 0.125 Cu 1 O 4 1994 T K uV/K 35.18 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9387 JPS0632314 "(La,Nd,Sr)2CuO4" La1.45Nd0.4Sr0.15Cu1O4 La 1.45 Nd 0.4 Sr 0.15 Cu 1 O 4 1994 T K uV/K 23.04 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9388 JPS0632314 "(La,Nd,Sr)2CuO4" La1.44Nd0.4Sr0.16Cu1O4 La 1.44 Nd 0.4 Sr 0.16 Cu 1 O 4 1994 T K uV/K 15.36 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9389 JPS0632314 "(La,Nd,Sr)2CuO4" La1.42Nd0.4Sr0.18Cu1O4 La 1.42 Nd 0.4 Sr 0.18 Cu 1 O 4 1994 T K uV/K 12.68 "La2O3,Nd2O3,BaCO3,SrCO3,CuO" 1 "mixture-heat(930C,20h)-pellet-SIN(1100C,20h)-FC" "Relationship between the Structural Transitions and the Low Temperature Electronic State of (La,Nd)2-xMxCuO4 (M=Ba, Sr; x~1/8)" 1994 6 "Department of Physics, Faculty of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc. Jpn, 63(1994)2314-2223" 9500 PRL0850405 NMR studies were done for this sample. TlSr2CaCu2O7 Tl1Sr2Ca1Cu2O6.8 Tl 1 Sr 2 Ca 1 Cu 2 O 7-Z 6.8 3 2000 Tl1212 K 68 68 T calculated from WHH theory. Hc2 by susceptibility 43 T/K 0.89 "See Phys.Rev.B.,45(1992)5553" Superconducting Fluctuations and the Pseudogap in the Slightly Overdoped High-Tc Superconductor TlSr2CaCu2O6.8: High Magnetic Field NMR Studies 2000 7 "Department of Physical Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.Lett., 85(2000)405-408" 9501 PRL0851116 NdBa2Cu3O7 Nd1Ba2Cu3O7-Z Nd 1 Ba 2 Cu 3 O 7-Z 4 2000 Y123 A 11.755 K 85 85 A Microwave. By fitting using two fluid approx. 2400 Film was deposited by dc magnetron sputtering from Nd1.09Ba1.91Cu3O7 target Role of Nd/Ba Disorder on the Penetration Depth of Nd1 + xBa2-xCu3O7+z Thin Films 2000 7 "INFM and Dipartimento di Scienze Fisiche, Universit? di Napoli Federico II, I-80125 Napoli, Italy" "Phys.Rev.Lett., 85(2000)1116-1119" 9502 PRL0851116 "Nd(Nd,Ba)2Cu3O7" Nd1.04Ba1.96Cu3O7-Z Nd 1.04 Ba 1.96 Cu 3 O 7-Z 4 2000 Y123 A 11.74 K 86 86 A Microwave. By fitting using two fluid approx. 2300 Film was deposited by dc magnetron sputtering from Nd1.12Ba1.88Cu3O7 target Role of Nd/Ba Disorder on the Penetration Depth of Nd1 + xBa2-xCu3O7+z Thin Films 2000 7 "INFM and Dipartimento di Scienze Fisiche, Universit? di Napoli Federico II, I-80125 Napoli, Italy" "Phys.Rev.Lett., 85(2000)1116-1119" 9503 PRL0851116 "Nd(Nd,Ba)2Cu3O7" Nd1.2Ba1.8Cu3O7-Z Nd 1.2 Ba 1.8 Cu 3 O 7-Z 4 2000 Y123 A 11.705 K 56 56 A Microwave. By fitting using two fluid approx. 3800 Film was deposited by pulsed lase deposition from Nd1Ba2Cu3O7 target on (100)LaAlO3. Role of Nd/Ba Disorder on the Penetration Depth of Nd1 + xBa2-xCu3O7+z Thin Films 2000 7 "INFM and Dipartimento di Scienze Fisiche, Universit? di Napoli Federico II, I-80125 Napoli, Italy" "Phys.Rev.Lett., 85(2000)1116-1119" 9504 PRL0850638 "Bi2(Sr,La)2CuO6" Bi2Sr1.77La0.23Cu1O6+Z Bi 2 Sr 1.77 La 0.23 Cu 1 O 6+Z 3 2000 Bi2201 K 28 28 TC9504 Crystals were grown by floating zone method. Samples were annealed in flowing oxygen at 650C for 48hs. Metal-to-Insulator Crossover in the Low-Temperature Normal State of Bi2Sr2-xLaxCuO6 +z 2000 7 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.Lett., 85(2000)638-641" 9505 PRL0850638 "Bi2(Sr,La)2CuO6" Bi2Sr1.61La0.39Cu1O6+Z Bi 2 Sr 1.61 La 0.39 Cu 1 O 6+Z 3 2000 Bi2201 K 38.8 38.8 RH9505 Crystals were grown by floating zone method. Samples were annealed in flowing oxygen at 650C for 48hs. Metal-to-Insulator Crossover in the Low-Temperature Normal State of Bi2Sr2-xLaxCuO6 +z 2000 7 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.Lett., 85(2000)638-641" 9506 PRL0850638 "Bi2(Sr,La)2CuO6" Bi2Sr1.34La0.66Cu1O6+Z Bi 2 Sr 1.34 La 0.66 Cu 1 O 6+Z 3 2000 Bi2201 K 22 22 Crystals were grown by floating zone method. Samples were annealed in flowing oxygen at 650C for 48hs. Metal-to-Insulator Crossover in the Low-Temperature Normal State of Bi2Sr2-xLaxCuO6 +z 2000 7 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.Lett., 85(2000)638-641" 9507 PRL0850638 "Bi2(Sr,La)2CuO6" Bi2Sr1.27La0.73Cu1O6+Z Bi 2 Sr 1.27 La 0.73 Cu 1 O 6+Z 3 2000 Bi2201 K 14 14 RH9507 Crystals were grown by floating zone method. Samples were annealed in flowing oxygen at 650C for 48hs. Metal-to-Insulator Crossover in the Low-Temperature Normal State of Bi2Sr2-xLaxCuO6 +z 2000 7 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.Lett., 85(2000)638-641" 9508 PRL0850638 "Bi2(Sr,La)2CuO6" Bi2Sr1.24La0.76Cu1O6+Z Bi 2 Sr 1.24 La 0.76 Cu 1 O 6+Z 3 2000 Bi2201 K 12.1 12.1 Crystals were grown by floating zone method. Samples were annealed in flowing oxygen at 650C for 48hs. Metal-to-Insulator Crossover in the Low-Temperature Normal State of Bi2Sr2-xLaxCuO6 +z 2000 7 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.Lett., 85(2000)638-641" 9509 PRL0850638 "Bi2(Sr,La)2CuO6" Bi2Sr1.16La0.84Cu1O6+Z Bi 2 Sr 1.16 La 0.84 Cu 1 O 6+Z 3 2000 Bi2201 K 1.82 1.82 RH9509 Crystals were grown by floating zone method. Samples were annealed in flowing oxygen at 650C for 48hs. Metal-to-Insulator Crossover in the Low-Temperature Normal State of Bi2Sr2-xLaxCuO6 +z 2000 7 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.Lett., 85(2000)638-641" 9510 PR0455553 TlSr2CaCu2Oz Tl1Sr2Ca1Cu2O6.8 Tl 1 Sr 2 Ca 1 Cu 2 O 7-Z 6.8 1 1992 Tl1212 A 3.7956 12.1252 K 68 68 "Tl2O3,SrO,CaO,CuO" "mixture-pellet-sealed in Au crucible-SIN(900C, several days in O2)-ANN(350-550C, 5h, in Ar)" SUPERCONDUCTOR-TO-METAL TRANSITION CAUSED BY OXYGEN NONSTOICHIOMETRY IN TLSR2CACU2O7-Z HAVING A CU-O PYRAMIDAL LAYER 1992 3 "PHYS.REV.B,45(1992)5553" "TL,SR,CA,CU,O" 9511 PR0455553 TlSr2CaCu2Oz Tl1Sr2Ca1Cu2O6.82 Tl 1 Sr 2 Ca 1 Cu 2 O 7-Z 6.82 1 1992 Tl1212 A 3.793 12.1198 K "Tl2O3,SrO,CaO,CuO" "mixture-pellet-sealed in Au crucible-SIN(900C, several days in O2)-ANN(350-550C, 5h, in Ar)" SUPERCONDUCTOR-TO-METAL TRANSITION CAUSED BY OXYGEN NONSTOICHIOMETRY IN TLSR2CACU2O7-Z HAVING A CU-O PYRAMIDAL LAYER 1992 3 "PHYS.REV.B,45(1992)5553" "TL,SR,CA,CU,O" 9512 PR0455553 TlSr2CaCu2Oz Tl1Sr2Ca1Cu2O6.825 Tl 1 Sr 2 Ca 1 Cu 2 O 7-Z 6.825 1 1992 Tl1212 A K 40 40 "Tl2O3,SrO,CaO,CuO" "mixture-pellet-sealed in Au crucible-SIN(900C, several days in O2)-ANN(350-550C, 5h, in Ar)" SUPERCONDUCTOR-TO-METAL TRANSITION CAUSED BY OXYGEN NONSTOICHIOMETRY IN TLSR2CACU2O7-Z HAVING A CU-O PYRAMIDAL LAYER 1992 3 "PHYS.REV.B,45(1992)5553" "TL,SR,CA,CU,O" 9513 PR0455553 TlSr2CaCu2Oz Tl1Sr2Ca1Cu2O6.837 Tl 1 Sr 2 Ca 1 Cu 2 O 7-Z 6.837 1 1992 Tl1212 A K 31.5 31.5 "Tl2O3,SrO,CaO,CuO" "mixture-pellet-sealed in Au crucible-SIN(900C, several days in O2)-ANN(350-550C, 5h, in Ar)" SUPERCONDUCTOR-TO-METAL TRANSITION CAUSED BY OXYGEN NONSTOICHIOMETRY IN TLSR2CACU2O7-Z HAVING A CU-O PYRAMIDAL LAYER 1992 3 "PHYS.REV.B,45(1992)5553" "TL,SR,CA,CU,O" 9514 PR0455553 TlSr2CaCu2Oz Tl1Sr2Ca1Cu2O6.85 Tl 1 Sr 2 Ca 1 Cu 2 O 7-Z 6.85 1 1992 Tl1212 A 3.7901 12.115 K 24 24 "Tl2O3,SrO,CaO,CuO" "mixture-pellet-sealed in Au crucible-SIN(900C, several days in O2)-ANN(350-550C, 5h, in Ar)" SUPERCONDUCTOR-TO-METAL TRANSITION CAUSED BY OXYGEN NONSTOICHIOMETRY IN TLSR2CACU2O7-Z HAVING A CU-O PYRAMIDAL LAYER 1992 3 "PHYS.REV.B,45(1992)5553" "TL,SR,CA,CU,O" 9515 PR0455553 TlSr2CaCu2Oz Tl1Sr2Ca1Cu2O6.862 Tl 1 Sr 2 Ca 1 Cu 2 O 7-Z 6.862 1 1992 Tl1212 A K 15.2 15.2 "Tl2O3,SrO,CaO,CuO" "mixture-pellet-sealed in Au crucible-SIN(900C, several days in O2)-ANN(350-550C, 5h, in Ar)" SUPERCONDUCTOR-TO-METAL TRANSITION CAUSED BY OXYGEN NONSTOICHIOMETRY IN TLSR2CACU2O7-Z HAVING A CU-O PYRAMIDAL LAYER 1992 3 "PHYS.REV.B,45(1992)5553" "TL,SR,CA,CU,O" 9516 PR0455553 TlSr2CaCu2Oz Tl1Sr2Ca1Cu2O6.88 Tl 1 Sr 2 Ca 1 Cu 2 O 7-Z 6.88 1 1992 Tl1212 A 3.7848 12.113 K 0 0 "Tl2O3,SrO,CaO,CuO" "mixture-pellet-sealed in Au crucible-SIN(900C, several days in O2)-ANN(350-550C, 5h, in Ar)" SUPERCONDUCTOR-TO-METAL TRANSITION CAUSED BY OXYGEN NONSTOICHIOMETRY IN TLSR2CACU2O7-Z HAVING A CU-O PYRAMIDAL LAYER 1992 3 "PHYS.REV.B,45(1992)5553" "TL,SR,CA,CU,O" 9517 JJP0301155 SrNb2Oz Sr1Nb2Oz Sr 1 Nb 2 O z 1991 A K 11.5 11.5 1.6 "La2O3,SrCO3,NbO2" 1 "mixture-sealed in silica tube with Zr plate-heat(1100C, 24h)-FC" "A NEW NON-CU-OXIDE SUPERCONDUCTOR: (SR1-XLNX)NB2O6-Y (LN:LA,ND,PR AND CE)" 1991 7 "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,6-16-1 CHITOSEDAI,SETAGAYA,TOKYO 157" "JJAP LETT.,30(1991)1155" "SR,LA,ND,PR,CE,NB,O" 9518 JJP0301155 "(Sr,Nd)Nb2Oz" Sr0.9Nd0.1Nb2Oz Sr 0.9 Nd 0.1 Nb 2 O z 1991 A 11 7.683 5.585 K 11.5 11.5 14 "La2O3,SrCO3,NbO2" 1 "mixture-sealed in silica tube with Zr plate-heat(1100C, 24h)-FC" "A NEW NON-CU-OXIDE SUPERCONDUCTOR: (SR1-XLNX)NB2O6-Y (LN:LA,ND,PR AND CE)" 1991 7 "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,6-16-1 CHITOSEDAI,SETAGAYA,TOKYO 157" "JJAP LETT.,30(1991)1155" "SR,LA,ND,PR,CE,NB,O" 9519 JJP0301155 CaNb2Oz Ca1Nb2Oz Ca 1 Nb 2 O z 1991 K 11 11 "La2O3,SrCO3,NbO2" 1 "mixture-sealed in silica tube with Zr plate-heat(1100C, 24h)-FC" "A NEW NON-CU-OXIDE SUPERCONDUCTOR: (SR1-XLNX)NB2O6-Y (LN:LA,ND,PR AND CE)" 1991 7 "DEPARTMENT OF PHYSICS,AOYAMA-GAKUIN UNIVERSITY,6-16-1 CHITOSEDAI,SETAGAYA,TOKYO 157" "JJAP LETT.,30(1991)1155" "SR,LA,ND,PR,CE,NB,O" 9520 SUP0110437 Hc1(77K)=2.6 mT. Hc2(77K)=9T. Cohere(77K)=60A. "(Bi,Pb)2Sr2CaCu2Oz" Bi1.75Pb0.25Sr2Ca1Cu2.3Oz Bi 1.75 Pb 0.25 Sr 2 Ca 1 Cu 2.3 O z 1998 Bi2212 K 85 85 A 18 A 5400 The Effects of Substitution of Sn for Cu in Bi1.75Pb0.25Sr2CaCu2.3-xSnxSnxOy 1998 "Department of Physics and National Laboratory of Solid State Microstrutures, Nanjing University, Nanjing 210093, P.R. China" "J.Superconductivity,11(1998)437" 9521 SUP0110437 Hc1(77K)=2.0 mT. Hc2(77K)=9T. Cohere(77K)=100A. "(Bi,Pb)2Sr2Ca(Cu,Sn)2Oz" Bi1.75Pb0.25Sr2Ca1Cu2.25Sn0.05Oz Bi 1.75 Pb 0.25 Sr 2 Ca 1 Cu 2.25 Sn 0.05 O z 1998 Bi2212 K 86 86 A 6000 The Effects of Substitution of Sn for Cu in Bi1.75Pb0.25Sr2CaCu2.3-xSnxSnxOy 1998 "Department of Physics and National Laboratory of Solid State Microstrutures, Nanjing University, Nanjing 210093, P.R. China" "J.Superconductivity,11(1998)437" 9522 SUP0110437 Bi-2223 phase=15% "(Bi,Pb)2Sr2Ca(Cu,Sn)2Oz" Bi1.75Pb0.25Sr2Ca1Cu2.15Sn0.15Oz Bi 1.75 Pb 0.25 Sr 2 Ca 1 Cu 2.15 Sn 0.15 O z 1998 K 106.6 106.6 The Effects of Substitution of Sn for Cu in Bi1.75Pb0.25Sr2CaCu2.3-xSnxSnxOy 1998 "Department of Physics and National Laboratory of Solid State Microstrutures, Nanjing University, Nanjing 210093, P.R. China" "J.Superconductivity,11(1998)437" 9523 SUP0110437 Bi-2223 phase=20% "(Bi,Pb)2Sr2Ca(Cu,Sn)2Oz" Bi1.75Pb0.25Sr2Ca1Cu2.1Sn0.2Oz Bi 1.75 Pb 0.25 Sr 2 Ca 1 Cu 2.1 Sn 0.2 O z 1998 K 105 105 The Effects of Substitution of Sn for Cu in Bi1.75Pb0.25Sr2CaCu2.3-xSnxSnxOy 1998 "Department of Physics and National Laboratory of Solid State Microstrutures, Nanjing University, Nanjing 210093, P.R. China" "J.Superconductivity,11(1998)437" 9524 SUP0110437 Bi-2223 phase=45% "(Bi,Pb)2Sr2Ca(Cu,Sn)2Oz" Bi1.75Pb0.25Sr2Ca1Cu1.9Sn0.4Oz Bi 1.75 Pb 0.25 Sr 2 Ca 1 Cu 1.9 Sn 0.4 O z 1998 K 99 99 The Effects of Substitution of Sn for Cu in Bi1.75Pb0.25Sr2CaCu2.3-xSnxSnxOy 1998 "Department of Physics and National Laboratory of Solid State Microstrutures, Nanjing University, Nanjing 210093, P.R. China" "J.Superconductivity,11(1998)437" 9525 SUP0110455 NdBa2Cu3O7 Nd1Ba2Cu3O6.82 Nd 1 Ba 2 Cu 3 O 7-z 6.82 1 1998 Y123 A 3.855 3.913 11.741 K 95 95 7 1 conventional solid state reaction "The Superconducting and Normal-State Transport Properties in Pure, Pr-Doped, and Ca-Doped NdBa2Cu3O7-y" 1998 "Materials Science Center and Department of Physics, National Tsing Hua University Hsinchu, Taiwan, Republic of China." "J.Superconductivity,11(1998)455" 9526 SUP0110455 "(Nd,Ca)Ba2Cu3O7" Nd0.9Ca0.1Ba2Cu3O6.63 Nd 0.9 Ca 0.1 Ba 2 Cu 3 O 7-z 6.63 1 1998 Y123 A 3.854 3.911 11.723 K 84.5 84.5 7 1 conventional solid state reaction "The Superconducting and Normal-State Transport Properties in Pure, Pr-Doped, and Ca-Doped NdBa2Cu3O7-y" 1998 "Materials Science Center and Department of Physics, National Tsing Hua University Hsinchu, Taiwan, Republic of China." "J.Superconductivity,11(1998)455" 9527 SUP0110455 "(Nd,Pr)Ba2Cu3O7" Nd0.8Pr0.2Ba2Cu3O6.81 Nd 0.8 Pr 0.2 Ba 2 Cu 3 O 7-z 6.81 1 1998 Y123 A 3.855 3.92 11.748 K 50 50 7 1 conventional solid state reaction "The Superconducting and Normal-State Transport Properties in Pure, Pr-Doped, and Ca-Doped NdBa2Cu3O7-y" 1998 "Materials Science Center and Department of Physics, National Tsing Hua University Hsinchu, Taiwan, Republic of China." "J.Superconductivity,11(1998)455" 9528 SUP0110285 GdBa2Cu3O7 Gd1Ba2Cu3O6.94 Gd 1 Ba 2 Cu 3 O 7-z 6.94 1 1998 Y123 K 90.8 90.8 1 conventional solid state reaction. Oz determined by iodmetric method. "Effect of M and M-Ca Substitution on the Structure and Superconductivity of GdBa2Cu3O7-delta [M=Mo, Hf]" 1998 "Department of Physics, Saurashtra University, Rajkot-360 005, India" "J.Superconductivity,11(1998)285" 9529 SUP0110285 "(Gd,Hf)Ba2Cu3O7" Gd0.95Hf0.05Ba2Cu3O6.91 Gd 0.95 Hf 0.05 Ba 2 Cu 3 O 7-z 6.91 1 1998 Y123 K 86.9 86.9 1 conventional solid state reaction. Oz determined by iodmetric method. "Effect of M and M-Ca Substitution on the Structure and Superconductivity of GdBa2Cu3O7-delta [M=Mo, Hf]" 1998 "Department of Physics, Saurashtra University, Rajkot-360 005, India" "J.Superconductivity,11(1998)285" 9530 SUP0110285 "(Gd,Hf)Ba2Cu3O7" Gd0.9Hf0.1Ba2Cu3O6.88 Gd 0.9 Hf 0.1 Ba 2 Cu 3 O 7-z 6.88 1 1998 Y123 K 84.2 84.2 1 conventional solid state reaction. Oz determined by iodmetric method. "Effect of M and M-Ca Substitution on the Structure and Superconductivity of GdBa2Cu3O7-delta [M=Mo, Hf]" 1998 "Department of Physics, Saurashtra University, Rajkot-360 005, India" "J.Superconductivity,11(1998)285" 9531 SUP0110285 "(Gd,Hf)Ba2Cu3O7" Gd0.85Hf0.15Ba2Cu3O6.84 Gd 0.85 Hf 0.15 Ba 2 Cu 3 O 7-z 6.84 1 1998 Y123 K 81.8 81.8 1 conventional solid state reaction. Oz determined by iodmetric method. "Effect of M and M-Ca Substitution on the Structure and Superconductivity of GdBa2Cu3O7-delta [M=Mo, Hf]" 1998 "Department of Physics, Saurashtra University, Rajkot-360 005, India" "J.Superconductivity,11(1998)285" 9532 SUP0110285 "(Gd,Hf)Ba2Cu3O7" Gd0.8Hf0.2Ba2Cu3O6.79 Gd 0.8 Hf 0.2 Ba 2 Cu 3 O 7-z 6.79 1 1998 Y123 K 79.5 79.5 1 conventional solid state reaction. Oz determined by iodmetric method. "Effect of M and M-Ca Substitution on the Structure and Superconductivity of GdBa2Cu3O7-delta [M=Mo, Hf]" 1998 "Department of Physics, Saurashtra University, Rajkot-360 005, India" "J.Superconductivity,11(1998)285" 9533 SUP0110285 "(Gd,Ca,Hf)Ba2Cu3O7" Gd0.8Ca0.05Hf0.15Ba2Cu3O6.86 Gd 0.8 Ca 0.05 Hf 0.15 Ba 2 Cu 3 O 7-z 6.86 1 1998 Y123 K 80.6 80.6 1 conventional solid state reaction. Oz determined by iodmetric method. "Effect of M and M-Ca Substitution on the Structure and Superconductivity of GdBa2Cu3O7-delta [M=Mo, Hf]" 1998 "Department of Physics, Saurashtra University, Rajkot-360 005, India" "J.Superconductivity,11(1998)285" 9534 SUP0110285 "(Gd,Ca,Hf)Ba2Cu3O7" Gd0.75Ca0.1Hf0.15Ba2Cu3O6.89 Gd 0.75 Ca 0.1 Hf 0.15 Ba 2 Cu 3 O 7-z 6.89 1 1998 Y123 K 82.7 82.7 1 conventional solid state reaction. Oz determined by iodmetric method. "Effect of M and M-Ca Substitution on the Structure and Superconductivity of GdBa2Cu3O7-delta [M=Mo, Hf]" 1998 "Department of Physics, Saurashtra University, Rajkot-360 005, India" "J.Superconductivity,11(1998)285" 9535 SUP0110285 "(Gd,Ca,Hf)Ba2Cu3O7" Gd0.7Ca0.15Hf0.15Ba2Cu3O6.93 Gd 0.7 Ca 0.15 Hf 0.15 Ba 2 Cu 3 O 7-z 6.93 1 1998 Y123 K 83.8 83.8 1 conventional solid state reaction. Oz determined by iodmetric method. "Effect of M and M-Ca Substitution on the Structure and Superconductivity of GdBa2Cu3O7-delta [M=Mo, Hf]" 1998 "Department of Physics, Saurashtra University, Rajkot-360 005, India" "J.Superconductivity,11(1998)285" 9536 SUP0110285 "(Gd,Ca,Hf)Ba2Cu3O7" Gd0.65Ca0.2Hf0.15Ba2Cu3O6.96 Gd 0.65 Ca 0.2 Hf 0.15 Ba 2 Cu 3 O 7-z 6.96 1 1998 Y123 K 86.3 86.3 1 conventional solid state reaction. Oz determined by iodmetric method. "Effect of M and M-Ca Substitution on the Structure and Superconductivity of GdBa2Cu3O7-delta [M=Mo, Hf]" 1998 "Department of Physics, Saurashtra University, Rajkot-360 005, India" "J.Superconductivity,11(1998)285" 9537 SUP0110285 "(Gd,Ca,Hf)Ba2Cu3O7" Gd0.6Ca0.25Hf0.15Ba2Cu3O7 Gd 0.6 Ca 0.25 Hf 0.15 Ba 2 Cu 3 O 7-z 7 1 1998 Y123 K 81.3 81.3 1 conventional solid state reaction. Oz determined by iodmetric method. "Effect of M and M-Ca Substitution on the Structure and Superconductivity of GdBa2Cu3O7-delta [M=Mo, Hf]" 1998 "Department of Physics, Saurashtra University, Rajkot-360 005, India" "J.Superconductivity,11(1998)285" 9538 SUP0110285 "(Gd,Ca,Hf)Ba2Cu3O7" Gd0.55Ca0.35Hf0.15Ba2Cu3O7.06 Gd 0.55 Ca 0.35 Hf 0.15 Ba 2 Cu 3 O 7-z 7.06 1 1998 Y123 K 76 76 1 conventional solid state reaction. Oz determined by iodmetric method. "Effect of M and M-Ca Substitution on the Structure and Superconductivity of GdBa2Cu3O7-delta [M=Mo, Hf]" 1998 "Department of Physics, Saurashtra University, Rajkot-360 005, India" "J.Superconductivity,11(1998)285" 9539 SUP0110285 "(Gd,Ca,Hf)Ba2Cu3O7" Gd0.45Ca0.4Hf0.15Ba2Cu3O7.08 Gd 0.45 Ca 0.4 Hf 0.15 Ba 2 Cu 3 O 7-z 7.08 1 1998 Y123 K 71.9 71.9 1 conventional solid state reaction. Oz determined by iodmetric method. "Effect of M and M-Ca Substitution on the Structure and Superconductivity of GdBa2Cu3O7-delta [M=Mo, Hf]" 1998 "Department of Physics, Saurashtra University, Rajkot-360 005, India" "J.Superconductivity,11(1998)285" 9540 SSC0780967 "(Ba,K)BiO3" Ba0.62K0.38Bi1O3 Ba 0.62 K 0.38 Bi 1 O 3 3 1991 BKBO A 4.2832 K 21.5 21.5 single crystals were prepared by electrorytic oxidation. Mixture(KOH:Ba(OH).8H2O:Bi2O3=70:1:1). Bath temp=210C in air ELECTROCHEMICAL SYNTHESIS AND CHARACTERIZATION OF SUPERCONDUCTING BA1-XKXBIO3 SINGLE CRYSTALS 1991 6 "L.E.P.E.S.,CERS,ASSOCIE A L'UNIVERSITE J.FOURIER,BP 166,38042GRANOBLE CEDEX,FRANCE" "SOLID STATE COMMUN.,78(1991)967" "BA,K,BI,O" 9541 SSC0780967 "(Ba,K)BiO3" Ba0.57K0.43Bi1O3 Ba 0.57 K 0.43 Bi 1 O 3 3 1991 BKBO A 4.2788 K 21.2 21.2 single crystals were prepared by electrorytic oxidation. Mixture(KOH:Ba(OH).8H2O:Bi2O3=70:1:1). Bath temp=210C in air ELECTROCHEMICAL SYNTHESIS AND CHARACTERIZATION OF SUPERCONDUCTING BA1-XKXBIO3 SINGLE CRYSTALS 1991 6 "L.E.P.E.S.,CERS,ASSOCIE A L'UNIVERSITE J.FOURIER,BP 166,38042GRANOBLE CEDEX,FRANCE" "SOLID STATE COMMUN.,78(1991)967" "BA,K,BI,O" 9542 SSC0780967 "(Ba,K)BiO3" Ba0.54K0.46Bi1O3 Ba 0.54 K 0.46 Bi 1 O 3 3 1991 BKBO A 4.2775 K 19 19 single crystals were prepared by electrorytic oxidation. Mixture(KOH:Ba(OH).8H2O:Bi2O3=70:1:1). Bath temp=210C in air ELECTROCHEMICAL SYNTHESIS AND CHARACTERIZATION OF SUPERCONDUCTING BA1-XKXBIO3 SINGLE CRYSTALS 1991 6 "L.E.P.E.S.,CERS,ASSOCIE A L'UNIVERSITE J.FOURIER,BP 166,38042GRANOBLE CEDEX,FRANCE" "SOLID STATE COMMUN.,78(1991)967" "BA,K,BI,O" 9543 SSC0780967 "(Ba,K)BiO3" Ba0.52K0.48Bi1O3 Ba 0.52 K 0.48 Bi 1 O 3 3 1991 BKBO A 4.2772 K 18.7 18.7 single crystals were prepared by electrorytic oxidation. Mixture(KOH:Ba(OH).8H2O:Bi2O3=70:1:1). Bath temp=210C in air ELECTROCHEMICAL SYNTHESIS AND CHARACTERIZATION OF SUPERCONDUCTING BA1-XKXBIO3 SINGLE CRYSTALS 1991 6 "L.E.P.E.S.,CERS,ASSOCIE A L'UNIVERSITE J.FOURIER,BP 166,38042GRANOBLE CEDEX,FRANCE" "SOLID STATE COMMUN.,78(1991)967" "BA,K,BI,O" 9544 SSC0780967 "(Ba,K)BiO3" Ba0.5K0.5Bi1O3 Ba 0.5 K 0.5 Bi 1 O 3 3 1991 BKBO A 4.2661 K 16.5 16.5 single crystals were prepared by electrorytic oxidation. Mixture(KOH:Ba(OH).8H2O:Bi2O3=70:1:1). Bath temp=210C in air ELECTROCHEMICAL SYNTHESIS AND CHARACTERIZATION OF SUPERCONDUCTING BA1-XKXBIO3 SINGLE CRYSTALS 1991 6 "L.E.P.E.S.,CERS,ASSOCIE A L'UNIVERSITE J.FOURIER,BP 166,38042GRANOBLE CEDEX,FRANCE" "SOLID STATE COMMUN.,78(1991)967" "BA,K,BI,O" 9545 PHC2670270 "(Ba,K)BiO3" Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 3 1996 BKBO K 31.2 31.2 T 30 starting material (Ba:K:Bi=1:1.2:75). Flux method using KOH flux. Short time study of the fishtail effect in Ba0.6K0.4BiO3 single crystals 1996 "Laboratoire d""Etudes des Proprie'te's Electroniques des Solides-CNRS,B.P. 166,38042 Grenoble-Cedex, France" "Physica.C,267(1996)270-278" "Ba, K, Bi, O" 9546 PHC2670270 "(Ba,K)BiO3" Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 3 1996 BKBO K 29.1 29.1 T 25 starting material (Ba:K:Bi=1:1.2:75). Flux method using KOH flux. Short time study of the fishtail effect in Ba0.6K0.4BiO3 single crystals 1996 "Laboratoire d""Etudes des Proprie'te's Electroniques des Solides-CNRS,B.P. 166,38042 Grenoble-Cedex, France" "Physica.C,267(1996)270-278" "Ba, K, Bi, O" 9547 PR06114370 HgBa2CuO4 Hg1Ba2Cu1O4.01 Hg 1 Ba 2 Cu 1 O 4+z 4.01 1 2000 Hg1201 K 61 61 1 mixture(Ba2CuO3+z + HgO) Magnetic flux dynamics and structural features in fluorinated HgBa2CuO4 as probed by <19>F NMR 2000 6 "Department of Physics, Moscow State University, 119899 Moscow, Russia" "Phys.Rev.B,61(2000)14370-14373" 9548 PR06114370 F-content not given HgBa2CuO4Fx Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1 2000 Hg1201 A 3.8828 9.523 K 97 97 HgBa2CuO4-heat treatment(150C under 0.1 XeF2) Magnetic flux dynamics and structural features in fluorinated HgBa2CuO4 as probed by <19>F NMR 2000 6 "Department of Physics, Moscow State University, 119899 Moscow, Russia" "Phys.Rev.B,61(2000)14370-14373" 9549 PR06114370 F-content not given HgBa2CuO4Fx Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1 2000 Hg1201 A 3.8825 9.51 K 96 96 HgBa2CuO4-heat treatment(200C under 0.3 XeF2) Magnetic flux dynamics and structural features in fluorinated HgBa2CuO4 as probed by <19>F NMR 2000 6 "Department of Physics, Moscow State University, 119899 Moscow, Russia" "Phys.Rev.B,61(2000)14370-14373" 9550 PR06114815 "(Ba,K)BiO3" Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 3 2000 BKBO K 29 29 single crystals were grown using electrochemical synthesis. Electronic transport in Ba1-xKxBiO3 single crystals 2000 6 "Department of Physics and Condensed Matter Research Institute, Seoul National University, Seoul 151-742, Korea" "Phys.Rev.B,61(2000)14815-14820" 9551 PR06114815 "(Ba,K)BiO3" Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 3 2000 BKBO K 27 27 single crystals were grown using electrochemical synthesis. Electronic transport in Ba1-xKxBiO3 single crystals 2000 6 "Department of Physics and Condensed Matter Research Institute, Seoul National University, Seoul 151-742, Korea" "Phys.Rev.B,61(2000)14815-14820" 9552 PR06114804 G-L parameter=106 "(Ba,Pb)BiO3" Ba1Pb0.75Bi0.25O3 Ba 1 Pb 0.75 Bi 0.25 O 3 1 2000 BPBO K 11.6 11.6 mT estimated from Hc 0.97 T 5.2 T/K 0.65 A 66 A 7000 1 Determination of irreversibility fields and superconducting parameters in BaPb0.75Bi0.25O3 2000 6 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing 100080, People's Republic of China" "Phys.Rev.B,61(2000)14804-14809" 9553 PR06114795 as-grown YBa2Cu3O7 Y1Ba2Cu3O6.8 Y 1 Ba 2 Cu 3 O 7-z 6.8 3 2000 Y123 K 83.1 83.1 "Fishtail effect in the magnetization of superconducting RBa2Cu3O7-z (R = Y,Nd,Yb) and Y2Ba4Cu8O16 single crystals" 2000 6 "Atominstitut der Osterreichischen Universitaten, A-1020 Vienna, Austria" "Phys.Rev.B,61(2000)" 9554 PR06114795 "neutron irradiation, fluence=1.0E+20 /m2" YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 3 2000 Y123 K 83.1 83.1 "Fishtail effect in the magnetization of superconducting RBa2Cu3O7-z (R = Y,Nd,Yb) and Y2Ba4Cu8O16 single crystals" 2000 6 "Atominstitut der Osterreichischen Universitaten, A-1020 Vienna, Austria" "Phys.Rev.B,61(2000)" 9555 PR06114795 "neutron irradiation, fluence=1.0E+21 /m2" YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 3 2000 Y123 K 82.6 82.6 "Fishtail effect in the magnetization of superconducting RBa2Cu3O7-z (R = Y,Nd,Yb) and Y2Ba4Cu8O16 single crystals" 2000 6 "Atominstitut der Osterreichischen Universitaten, A-1020 Vienna, Austria" "Phys.Rev.B,61(2000)" 9556 PR06114795 "neutron irradiation, fluence=5.0E+20 /m2" YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 3 2000 Y123 K 81.1 81.1 "Fishtail effect in the magnetization of superconducting RBa2Cu3O7-z (R = Y,Nd,Yb) and Y2Ba4Cu8O16 single crystals" 2000 6 "Atominstitut der Osterreichischen Universitaten, A-1020 Vienna, Austria" "Phys.Rev.B,61(2000)" 9557 PRL0854787 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.22 Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 8.22 2000 Bi2212 K 82 82 meV 19.75 5.6 no description Discriminating the Superconducting Gap from the Pseudogap in Bi2Sr2CaCu2O8+z by Interlayer Tunneling Spectroscopy 2000 11 "Department of Electronic Science and Engineering, Kyoto University, Kyoto 606-8501, Japan" "Phys.Rev.Lett.,85(2000)4787-4790" 9558 PRL0854787 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.24 Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 8.24 2000 Bi2212 K 88 88 meV 19.5 5.15 no description Discriminating the Superconducting Gap from the Pseudogap in Bi2Sr2CaCu2O8+z by Interlayer Tunneling Spectroscopy 2000 11 "Department of Electronic Science and Engineering, Kyoto University, Kyoto 606-8501, Japan" "Phys.Rev.Lett.,85(2000)4787-4790" 9559 PRL0854787 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.25 Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 8.25 2000 Bi2212 K 89 89 meV 19.25 5.03 no description Discriminating the Superconducting Gap from the Pseudogap in Bi2Sr2CaCu2O8+z by Interlayer Tunneling Spectroscopy 2000 11 "Department of Electronic Science and Engineering, Kyoto University, Kyoto 606-8501, Japan" "Phys.Rev.Lett.,85(2000)4787-4790" 9560 PRL0854787 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.28 Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 8.28 2000 Bi2212 K 81 81 meV 11.25 3.27 no description Discriminating the Superconducting Gap from the Pseudogap in Bi2Sr2CaCu2O8+z by Interlayer Tunneling Spectroscopy 2000 11 "Department of Electronic Science and Engineering, Kyoto University, Kyoto 606-8501, Japan" "Phys.Rev.Lett.,85(2000)4787-4790" 9561 EPL0520584 Tc(max)=111.7K (at 10 kbar) TlBa2CaCu2O8 Tl2Ba2Ca1Cu2O8 Tl 2 Ba 2 Ca 1 Cu 2 O 8 3 2000 Tl2212 K 111 111 K/kbar 0.17 10 no description Crossovers in the out-of-plane resistivity of superconducting Tl2Ba2CaCu2O8 single crystals 2000 "Departement de Physique, Ecole Polytechnique Federale de Lausanne CH-1015 Lausanne, Switzerland" "Europhys. Lett., 52 (2000)584" 9562 APL0774202 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 2000 Bi2212 K 89.5 89.5 A 2690 "floating zone. See Physica C, 177(1991)79" Measurements of the absolute value of the penetration depth in high-Tc superconductors using a low-Tc superconductive coating 2000 "Loomis Laboratory of Physics, University of Illinois at Urbana-Champaign, 1110 West Green Street, Urbana, Illinois 61801" "Appl.Phys.Lett., 77(2000)4202" 9563 APL0774202 "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4 Pr 1.85 Ce 0.15 Cu 1 O 4 3 2000 T' K 22.5 22.5 A 2790 "directional solidification technique. See Phys.Rev.B, 50(1994)523" Measurements of the absolute value of the penetration depth in high-Tc superconductors using a low-Tc superconductive coating 2000 "Loomis Laboratory of Physics, University of Illinois at Urbana-Champaign, 1110 West Green Street, Urbana, Illinois 61801" "Appl.Phys.Lett., 77(2000)4202" 9564 APL0774202 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 3 2000 Y123 K 93 93 A 1390 Measurements of the absolute value of the penetration depth in high-Tc superconductors using a low-Tc superconductive coating 2000 "Loomis Laboratory of Physics, University of Illinois at Urbana-Champaign, 1110 West Green Street, Urbana, Illinois 61801" "Appl.Phys.Lett., 77(2000)4202" 9565 NAT3900148 stability limit of K is about 60% in this method "(Sr,K)BiO3" Sr0.4K0.6Bi1O3 Sr 0.4 K 0.6 Bi 1 O 3 1997 BKBO I4/mcm A 5.9419 8.4394 K 12 12 40 "mixture(Sr2Bi2O5, Bi2O3, KO2)-high pressure synthesis(2GPa, 700C, 1h, Pt crucible)" Discovery of a second family of bismuth-oxide-based superconductors 1997 "CNRS, Grenoble,France" "Nature, 390(1997)148" 9566 NAT3900148 preliminary study "(Sr,Rb)BiO3" Sr0.5Rb0.5Bi1O3 Sr 0.5 Rb 0.5 Bi 1 O 3 1997 BKBO K 13 13 6 "mixture(Sr2Bi2O5, Bi2O3, Rb2O)-high pressure synthesis(2GPa, 700C, 1h, Pt crucible)" Discovery of a second family of bismuth-oxide-based superconductors 1997 "CNRS, Grenoble,France" "Nature, 390(1997)148" 9567 PR06211977 60% O<18>. Delta-Tc=-0.32 K "(Sr,K)BiO3" Sr0.4K0.6Bi1O3 Sr 0.4 K 0.6 Bi 1 O 3 2000 BKBO A 5.9418 8.4394 K 11.18 11.18 0.37 O 60 "Sr2Bi2O5-ground-mixture(Sr2Bi2O5, Bi2O3, KO2)-packed(Au capsules)-HIP(2GPa, 700C, 0.5h)" Large oxygen-isotope effect in Sr0.4K0.6BiO3: Evidence for phonon-mediated superconductivity 2000 10 "Physik-Institut der Universitat Zurich, CH-8057 Zurich, Switzerland" "Phys.Rev.B,62(2000)11977-11980" 9568 PR06211977 80% O<18>. Delta-Tc = -0.50 K "(Sr,K)BiO3" Sr0.4K0.6Bi1O3 Sr 0.4 K 0.6 Bi 1 O 3 2000 BKBO K 11 11 0.42 O 80 "Sr2Bi2O5-ground-mixture(Sr2Bi2O5, Bi2O3, KO2)-packed(Au capsules)-HIP(2GPa, 700C, 0.5h)" Large oxygen-isotope effect in Sr0.4K0.6BiO3: Evidence for phonon-mediated superconductivity 2000 10 "Physik-Institut der Universitat Zurich, CH-8057 Zurich, Switzerland" "Phys.Rev.B,62(2000)11977-11980" 9569 PR06211977 100% O<16> "(Sr,K)BiO3" Sr0.4K0.6Bi1O3 Sr 0.4 K 0.6 Bi 1 O 3 2000 BKBO K 11.5 11.5 "Sr2Bi2O5-ground-mixture(Sr2Bi2O5, Bi2O3, KO2)-packed(Au capsules)-HIP(2GPa, 700C, 0.5h)" Large oxygen-isotope effect in Sr0.4K0.6BiO3: Evidence for phonon-mediated superconductivity 2000 10 "Physik-Institut der Universitat Zurich, CH-8057 Zurich, Switzerland" "Phys.Rev.B,62(2000)11977-11980" 9570 JPS0682206 Anti-ferromagnet under ambient pressure Sr2.5Ca11.5Cu24O41 Sr2.5Ca11.5Cu24O41 Sr 2.5 Ca 11.5 Cu 24 O 41 3 1999 2.2 LAD K traveling-solvent-floating zone method Antiferromagnetic Ordering in the Spin Singlet State of the Ladder/Chain Material: Sr2.5Ca11.5Cu24O41 1999 "Department of Physics, Aoyama-Gakuin University, Setagaya-ku, Tokyo 157-8572" J.Phys.Soc. Jpn 68(2000)2206 9571 JPS0691602 specific heat was measured by thermal relaxation calorimeter "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 3 2000 T K 28.5 28.5 crystals were grown by a traveling-solvent floating zone method Quasiparticle Density of States of Clean and Dirty d-Wave Superconductors: Mixed-State Specific Heat of La 2-xSrxCuO 4 Single Crystals 2000 "Department of Advanced Materials Science, University of Tokyo, 7-3-1 Hongo, Tokyo 113-0033" J.Phys.Soc. Jpn 69(2000)1602 9572 JPS0691602 specific heat was measured by thermal relaxation calorimeter "(La,Sr)2CuO4" La1.84Sr0.16Cu1O4 La 1.84 Sr 0.16 Cu 1 O 4 3 2000 T K 37 37 crystals were grown by a traveling-solvent floating zone method Quasiparticle Density of States of Clean and Dirty d-Wave Superconductors: Mixed-State Specific Heat of La 2-xSrxCuO 4 Single Crystals 2000 "Department of Advanced Materials Science, University of Tokyo, 7-3-1 Hongo, Tokyo 113-0033" J.Phys.Soc. Jpn 69(2000)1602 9573 JPS0691602 specific heat was measured by thermal relaxation calorimeter "(La,Sr)2CuO4" La1.81Sr0.19Cu1O4 La 1.81 Sr 0.19 Cu 1 O 4 3 2000 T K 32 32 crystals were grown by a traveling-solvent floating zone method Quasiparticle Density of States of Clean and Dirty d-Wave Superconductors: Mixed-State Specific Heat of La 2-xSrxCuO 4 Single Crystals 2000 "Department of Advanced Materials Science, University of Tokyo, 7-3-1 Hongo, Tokyo 113-0033" J.Phys.Soc. Jpn 69(2000)1602 9574 PR06211989 carrier p=0.05. P estimated from Tc using Tallon's eq. "Bi2(Sr,La)2CuOz" Bi2Sr1.6La0.4Cu1Oz Bi 2 Sr 1.6 La 0.4 Cu 1 O z 4 2000 Bi2201 K 0 0 E-3 cm3/C 4.61 Thin films were grown by rf magnetron sputtering . Oxygen controled by annealing. Temperature dependence of the Hall effect in single-layer and bilayer Bi2Sr2Can-1CunOy thin films at various oxygen contents 2000 10 "Laboratoire de Physique des Solides, Ratiment 510, Universite Paris-Sud, 91405 Orsay Cedex, France" "Phys.Rev.B,62(2000)11989-11992" 9575 PR06211989 carrier p=0.06.P estimated from Tc using Tallon's eq. "Bi2(Sr,La)2CuOz" Bi2Sr1.6La0.4Cu1Oz Bi 2 Sr 1.6 La 0.4 Cu 1 O z 4 2000 Bi2201 K 4.8 4.8 E-3 cm3/C 4.11 Thin films were grown by rf magnetron sputtering . Oxygen controled by annealing. Temperature dependence of the Hall effect in single-layer and bilayer Bi2Sr2Can-1CunOy thin films at various oxygen contents 2000 10 "Laboratoire de Physique des Solides, Ratiment 510, Universite Paris-Sud, 91405 Orsay Cedex, France" "Phys.Rev.B,62(2000)11989-11992" 9576 PR06211989 carrier p=0.07.P estimated from Tc using Tallon's eq. "Bi2(Sr,La)2CuOz" Bi2Sr1.6La0.4Cu1Oz Bi 2 Sr 1.6 La 0.4 Cu 1 O z 4 2000 Bi2201 K 9.1 9.1 E-3 cm3/C 3.75 Thin films were grown by rf magnetron sputtering . Oxygen controled by annealing. Temperature dependence of the Hall effect in single-layer and bilayer Bi2Sr2Can-1CunOy thin films at various oxygen contents 2000 10 "Laboratoire de Physique des Solides, Ratiment 510, Universite Paris-Sud, 91405 Orsay Cedex, France" "Phys.Rev.B,62(2000)11989-11992" 9577 PR06211989 carrier p=0.1.P estimated from Tc using Tallon's eq. "Bi2(Sr,La)2CuOz" Bi2Sr1.6La0.4Cu1Oz Bi 2 Sr 1.6 La 0.4 Cu 1 O z 4 2000 Bi2201 K 19.4 19.4 E-3 cm3/C 3.2 Thin films were grown by rf magnetron sputtering . Oxygen controled by annealing. Temperature dependence of the Hall effect in single-layer and bilayer Bi2Sr2Can-1CunOy thin films at various oxygen contents 2000 10 "Laboratoire de Physique des Solides, Ratiment 510, Universite Paris-Sud, 91405 Orsay Cedex, France" "Phys.Rev.B,62(2000)11989-11992" 9578 PR06211989 carrier p=0.12. P estimated from Tc using Tallon's eq. "Bi2(Sr,La)2CuOz" Bi2Sr1.6La0.4Cu1Oz Bi 2 Sr 1.6 La 0.4 Cu 1 O z 4 2000 Bi2201 K 23.9 23.9 E-3 cm3/C 2.59 Thin films were grown by rf magnetron sputtering . Oxygen controled by annealing. Temperature dependence of the Hall effect in single-layer and bilayer Bi2Sr2Can-1CunOy thin films at various oxygen contents 2000 10 "Laboratoire de Physique des Solides, Ratiment 510, Universite Paris-Sud, 91405 Orsay Cedex, France" "Phys.Rev.B,62(2000)11989-11992" 9579 PR06211989 carrier p=0.14. P estimated from Tc using Tallon's eq. "Bi2(Sr,La)2CuOz" Bi2Sr1.6La0.4Cu1Oz Bi 2 Sr 1.6 La 0.4 Cu 1 O z 4 2000 Bi2201 K 26.7 26.7 E-3 cm3/C 2.14 Thin films were grown by rf magnetron sputtering . Oxygen controled by annealing. Temperature dependence of the Hall effect in single-layer and bilayer Bi2Sr2Can-1CunOy thin films at various oxygen contents 2000 10 "Laboratoire de Physique des Solides, Ratiment 510, Universite Paris-Sud, 91405 Orsay Cedex, France" "Phys.Rev.B,62(2000)11989-11992" 9580 PR06211989 carrier p=0.16. P estimated from Tc using Tallon's eq. "Bi2(Sr,La)2CuOz" Bi2Sr1.6La0.4Cu1Oz Bi 2 Sr 1.6 La 0.4 Cu 1 O z 4 2000 Bi2201 K 27.6 27.6 E-3 cm3/C 1.9 Thin films were grown by rf magnetron sputtering . Oxygen controled by annealing. Temperature dependence of the Hall effect in single-layer and bilayer Bi2Sr2Can-1CunOy thin films at various oxygen contents 2000 10 "Laboratoire de Physique des Solides, Ratiment 510, Universite Paris-Sud, 91405 Orsay Cedex, France" "Phys.Rev.B,62(2000)11989-11992" 9581 PR06211989 carrier p=0.19. P estimated from Tc using Tallon's eq. "Bi2(Sr,La)2CuOz" Bi2Sr1.6La0.4Cu1Oz Bi 2 Sr 1.6 La 0.4 Cu 1 O z 4 2000 Bi2201 K 25.5 25.5 E-3 cm3/C 1.55 Thin films were grown by rf magnetron sputtering . Oxygen controled by annealing. Temperature dependence of the Hall effect in single-layer and bilayer Bi2Sr2Can-1CunOy thin films at various oxygen contents 2000 10 "Laboratoire de Physique des Solides, Ratiment 510, Universite Paris-Sud, 91405 Orsay Cedex, France" "Phys.Rev.B,62(2000)11989-11992" 9582 PR06211989 carrier p=0.20. P estimated from Tc using Tallon's eq. "Bi2(Sr,La)2CuOz" Bi2Sr1.6La0.4Cu1Oz Bi 2 Sr 1.6 La 0.4 Cu 1 O z 4 2000 Bi2201 K 24 24 E-3 cm3/C 1.25 Thin films were grown by rf magnetron sputtering . Oxygen controled by annealing. Temperature dependence of the Hall effect in single-layer and bilayer Bi2Sr2Can-1CunOy thin films at various oxygen contents 2000 10 "Laboratoire de Physique des Solides, Ratiment 510, Universite Paris-Sud, 91405 Orsay Cedex, France" "Phys.Rev.B,62(2000)11989-11992" 9583 PR06211989 carrier p=0.24. P estimated from Tc using Tallon's eq. "Bi2(Sr,La)2CuOz" Bi2Sr1.6La0.4Cu1Oz Bi 2 Sr 1.6 La 0.4 Cu 1 O z 4 2000 Bi2201 K 13 13 E-3 cm3/C 1.1 Thin films were grown by rf magnetron sputtering . Oxygen controled by annealing. Temperature dependence of the Hall effect in single-layer and bilayer Bi2Sr2Can-1CunOy thin films at various oxygen contents 2000 10 "Laboratoire de Physique des Solides, Ratiment 510, Universite Paris-Sud, 91405 Orsay Cedex, France" "Phys.Rev.B,62(2000)11989-11992" 9584 PR06211989 carrier p=0.05. P estimated from Tc using Tallon's eq. Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 4 2000 Bi2212 K 0 0 E-3 cm3/C 3.01 Thin films were grown by rf magnetron sputtering . Oxygen controled by annealing. Temperature dependence of the Hall effect in single-layer and bilayer Bi2Sr2Can-1CunOy thin films at various oxygen contents 2000 10 "Laboratoire de Physique des Solides, Ratiment 510, Universite Paris-Sud, 91405 Orsay Cedex, France" "Phys.Rev.B,62(2000)11989-11992" 9585 PR06211989 carrier p=0.06. P estimated from Tc using Tallon's eq. Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 4 2000 Bi2212 K 14.6 14.6 E-3 cm3/C 2.91 Thin films were grown by rf magnetron sputtering . Oxygen controled by annealing. Temperature dependence of the Hall effect in single-layer and bilayer Bi2Sr2Can-1CunOy thin films at various oxygen contents 2000 10 "Laboratoire de Physique des Solides, Ratiment 510, Universite Paris-Sud, 91405 Orsay Cedex, France" "Phys.Rev.B,62(2000)11989-11992" 9586 PR06211989 carrier p=0.07. P estimated from Tc using Tallon's eq. Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 4 2000 Bi2212 K 27.8 27.8 E-3 cm3/C 2.62 Thin films were grown by rf magnetron sputtering . Oxygen controled by annealing. Temperature dependence of the Hall effect in single-layer and bilayer Bi2Sr2Can-1CunOy thin films at various oxygen contents 2000 10 "Laboratoire de Physique des Solides, Ratiment 510, Universite Paris-Sud, 91405 Orsay Cedex, France" "Phys.Rev.B,62(2000)11989-11992" 9587 PR06211989 carrier p=0.09. P estimated from Tc using Tallon's eq. Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 4 2000 Bi2212 K 50 50 E-3 cm3/C 2.27 Thin films were grown by rf magnetron sputtering . Oxygen controled by annealing. Temperature dependence of the Hall effect in single-layer and bilayer Bi2Sr2Can-1CunOy thin films at various oxygen contents 2000 10 "Laboratoire de Physique des Solides, Ratiment 510, Universite Paris-Sud, 91405 Orsay Cedex, France" "Phys.Rev.B,62(2000)11989-11992" 9588 PR06211989 carrier p=0.12. P estimated from Tc using Tallon's eq. Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 4 2000 Bi2212 K 72.9 72.9 E-3 cm3/C 1.996 Thin films were grown by rf magnetron sputtering . Oxygen controled by annealing. Temperature dependence of the Hall effect in single-layer and bilayer Bi2Sr2Can-1CunOy thin films at various oxygen contents 2000 10 "Laboratoire de Physique des Solides, Ratiment 510, Universite Paris-Sud, 91405 Orsay Cedex, France" "Phys.Rev.B,62(2000)11989-11992" 9589 PR06211989 carrier p=0.16. P estimated from Tc using Tallon's eq. Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 4 2000 Bi2212 K 84 84 E-3 cm3/C 1.3 Thin films were grown by rf magnetron sputtering . Oxygen controled by annealing. Temperature dependence of the Hall effect in single-layer and bilayer Bi2Sr2Can-1CunOy thin films at various oxygen contents 2000 10 "Laboratoire de Physique des Solides, Ratiment 510, Universite Paris-Sud, 91405 Orsay Cedex, France" "Phys.Rev.B,62(2000)11989-11992" 9590 PR06211989 carrier p=0.23. P estimated from Tc using Tallon's eq. Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 4 2000 Bi2212 K 50 50 E-3 cm3/C 0.97 Thin films were grown by rf magnetron sputtering . Oxygen controled by annealing. Temperature dependence of the Hall effect in single-layer and bilayer Bi2Sr2Can-1CunOy thin films at various oxygen contents 2000 10 "Laboratoire de Physique des Solides, Ratiment 510, Universite Paris-Sud, 91405 Orsay Cedex, France" "Phys.Rev.B,62(2000)11989-11992" 9591 P063014504 "overdoped, ANN(300C). Anisotropy factor r=107" Bi2Sr2CaCu2O8 Bi2.1Sr1.9Ca1Cu2O8+z Bi 2.1 Sr 1.9 Ca 1 Cu 2 O 8+z 3 2001 Bi2212 K 71.5 71.5 A fitting to decoupling theory 1640 "as-grown-ANN(380C,1 week, in O2)" Continuity and temperature dependence of the vortex-phase boundary of Bi2Sr2CaCu2O8 + z 2001 "Electrotechnical Laboratory, Tsukuba, Ibaraki 305-8568, Japan" "Phys.Rev.B,63(2001)014504" 9592 P063014504 as-grown. Anisotropy factor r=178 Bi2Sr2CaCu2O8 Bi2.1Sr1.9Ca1Cu2O8+z Bi 2.1 Sr 1.9 Ca 1 Cu 2 O 8+z 3 2001 Bi2212 K 90.5 90.5 A fitting to decoupling theory 1930 "TSFZ method, as-grown" Continuity and temperature dependence of the vortex-phase boundary of Bi2Sr2CaCu2O8 + z 2001 "Electrotechnical Laboratory, Tsukuba, Ibaraki 305-8568, Japan" "Phys.Rev.B,63(2001)014504" 9593 P063014504 "underdoped, ANN(730C), Anisotropy factor r=236" Bi2Sr2CaCu2O8 Bi2.2Sr1.8Ca1Cu2O8+z Bi 2.2 Sr 1.8 Ca 1 Cu 2 O 8+z 3 2001 Bi2212 K 80.5 80.5 A fitting to decoupling theory 2520 "as-grown-ANN(730C,1 day in air)-Q to LN2" Continuity and temperature dependence of the vortex-phase boundary of Bi2Sr2CaCu2O8 + z 2001 "Electrotechnical Laboratory, Tsukuba, Ibaraki 305-8568, Japan" "Phys.Rev.B,63(2001)014504" 9594 P063054501 Y(BaSr)Cu3O7 Y1Ba1Sr1Cu3O7+z Y 1 Ba 1 Sr 1 Cu 3 O 7+z 1 2001 3 Y123 K 81 81 HIR9594 "mixture-fire(880-960C, several days)-ANN(high O2 pressure)" "Increase of the superconducting Tc, irreversibility fields, and critical currents in tetragonal YBaSrCu3-xMoxO7 + d" 2001 "Physics Department, Northern Illinois University, DeKalb, Illinois 60115" "Phys.Rev.B,63(2001)054501" 9595 P063054501 "Y(BaSr)(Cu,Mo)3O7" Y1Ba1Sr1Cu2.95Mo0.05O7.07 Y 1 Ba 1 Sr 1 Cu 2.95 Mo 0.05 O 7+z 7.07 1 2001 3 Y123 A 3.8263 3.8126 11.5558 K 85 85 HIR9595 "mixture-fire(880-960C, several days)-ANN(high O2 pressure)" "Increase of the superconducting Tc, irreversibility fields, and critical currents in tetragonal YBaSrCu3-xMoxO7 + d" 2001 "Physics Department, Northern Illinois University, DeKalb, Illinois 60115" "Phys.Rev.B,63(2001)054501" 9596 P063054501 "Y(BaSr)(Cu,Mo)3O7" Y1Ba1Sr1Cu2.9Mo0.1O7.16 Y 1 Ba 1 Sr 1 Cu 2.9 Mo 0.1 O 7+z 7.16 1 2001 2 Y123 A 3.8221 11.5754 K 86 86 HIR9596 "mixture-fire(880-960C, several days)-ANN(high O2 pressure)" "Increase of the superconducting Tc, irreversibility fields, and critical currents in tetragonal YBaSrCu3-xMoxO7 + d" 2001 "Physics Department, Northern Illinois University, DeKalb, Illinois 60115" "Phys.Rev.B,63(2001)054501" 9597 P063054501 "Y(BaSr)(Cu,Mo)3O7" Y1Ba1Sr1Cu2.8Mo0.2O7.3 Y 1 Ba 1 Sr 1 Cu 2.8 Mo 0.2 O 7+z 7.3 1 2001 2 Y123 A 3.8307 11.5984 K 68 68 "mixture-fire(880-960C, several days)-ANN(high O2 pressure)" "Increase of the superconducting Tc, irreversibility fields, and critical currents in tetragonal YBaSrCu3-xMoxO7 + d" 2001 "Physics Department, Northern Illinois University, DeKalb, Illinois 60115" "Phys.Rev.B,63(2001)054501" 9598 P063014508 HgBa2CuO4 Hg1Ba2Cu1O4.15 Hg 1 Ba 2 Cu 1 O 4+z 4.15 2001 2 Hg1201 A 3.88 9.527 K 97.2 97.2 "mixture(Ba2CuO3,ReO3,HgO)-heat(300C, in O2)" "Oxygen content, thermodynamic stability, and superconductivity of Hg1-xRexBa2CuO4 + z" 2001 "Phys.Rev.B,63(2001)014508" 9599 P063014508 "(Hg,Re)Ba2CuO4" Hg0.95Re0.05Ba2Cu1O4.37 Hg 0.95 Re 0.05 Ba 2 Cu 1 O 4+z 4.37 2001 2 Hg1201 A 3.872 9.464 K 96 96 "mixture(Ba2CuO3,ReO3,HgO)-heat(300C, in O2)" "Oxygen content, thermodynamic stability, and superconductivity of Hg1-xRexBa2CuO4 + z" 2001 "Phys.Rev.B,63(2001)014508" 9600 P063014508 "(Hg,Re)Ba2CuO4" Hg0.9Re0.1Ba2Cu1O4.42 Hg 0.9 Re 0.1 Ba 2 Cu 1 O 4+z 4.42 2001 2 Hg1201 A 3.872 9.42 K 95 95 "mixture(Ba2CuO3,ReO3,HgO)-heat(300C, in O2)" "Oxygen content, thermodynamic stability, and superconductivity of Hg1-xRexBa2CuO4 + z" 2001 "Phys.Rev.B,63(2001)014508" 9601 P063014508 "(Hg,Re)Ba2CuO4" Hg0.85Re0.15Ba2Cu1O4.58 Hg 0.85 Re 0.15 Ba 2 Cu 1 O 4+z 4.58 2001 2 Hg1201 A 3.876 9.39 K 35 35 "mixture(Ba2CuO3,ReO3,HgO)-heat(300C, in O2)" "Oxygen content, thermodynamic stability, and superconductivity of Hg1-xRexBa2CuO4 + z" 2001 "Phys.Rev.B,63(2001)014508" 9602 P063014508 optimum oxygen HgBa2CuO4 Hg1Ba2Cu1O4.162 Hg 1 Ba 2 Cu 1 O 4+z 4.162 2001 Hg1201 K 97.4 97.4 optimization in oxygen content "Oxygen content, thermodynamic stability, and superconductivity of Hg1-xRexBa2CuO4 + z" 2001 "Phys.Rev.B,63(2001)014508" 9603 P063014508 optimum oxygen "(Hg,Re)Ba2CuO4" Hg0.95Re0.05Ba2Cu1O4.372 Hg 0.95 Re 0.05 Ba 2 Cu 1 O 4+z 4.372 2001 Hg1201 K 97 97 optimization in oxygen content "Oxygen content, thermodynamic stability, and superconductivity of Hg1-xRexBa2CuO4 + z" 2001 "Phys.Rev.B,63(2001)014508" 9604 P063014508 optimum oxygen "(Hg,Re)Ba2CuO4" Hg0.9Re0.1Ba2Cu1O4.425 Hg 0.9 Re 0.1 Ba 2 Cu 1 O 4+z 4.425 2001 Hg1201 K 96.8 96.8 optimization in oxygen content "Oxygen content, thermodynamic stability, and superconductivity of Hg1-xRexBa2CuO4 + z" 2001 "Phys.Rev.B,63(2001)014508" 9605 P063014508 optimum oxygen "(Hg,Re)Ba2CuO4" Hg0.85Re0.15Ba2Cu1O4.525 Hg 0.85 Re 0.15 Ba 2 Cu 1 O 4+z 4.525 2001 Hg1201 K 96.3 96.3 optimization in oxygen content "Oxygen content, thermodynamic stability, and superconductivity of Hg1-xRexBa2CuO4 + z" 2001 "Phys.Rev.B,63(2001)014508" 9606 JPS0680694 "R=R0+A*T2 for T<30K. G-L =55 for H//a, =2.7 for H//c" Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 1999 Sr2RuO4 K 1.49 1.49 Oe 10 50 T 1.5 0.075 A 660 33 um 0.18 3.7 Intrinsic Superconducting Parameters of Sr2RuO4 1999 "epartment of Physics, Kyoto University, Kyoto 606-8502" J.Phys.Soc. Jpn 68(1999)694 9607 LTP1050927 "anisotropy factor=180. other Ni-content sample were described in Phys.Rev.Lett., 80(1998)1968" "Bi2Sr2Ca(Cu,Ni)2O8" Bi2Sr2Ca1Cu1.988Ni0.012O8 Bi 2 Sr 2 Ca 1 Cu 1.988 Ni 0.012 O 8 3 1996 Bi2212 K 87.1 98 92.55 traveling-solvent-floating zone method (TSFZ) Ni-doping effect on the anisotropic resistivity in Bi2Sr2Ca(Cu1-xNix)2Oy single crystals 1996 "Institute of Applied Physics and Cryogenics Center, Univ. of Tsukuba, Japan" "J.Low Temp.Phys., 105(1996)927" 9608 PRL0862122 anisotropy factor(Rc/Rab at 100K)=600 "Sm(La,Sr)CuO4" Sm1La0.85Sr0.15Cu1O3.98 Sm 1 La 0.85 Sr 0.15 Cu 1 O 4-z 3.98 3 2001 T* K 30 30 um far-infrared reflectivity spectra 25 Transverse Josephson Plasma Mode in T* Phase SmLa1-xSrxCuO4-z Single Crystals 2001 "NTT Basic Research Laboratories, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.Lett., 86(2001)2122" 9609 PRL0862122 anisotropy factor(Rc/Rab at 100K)=1000 "Sm(La,Sr)CuO4" Sm1La0.8Sr0.2Cu1O3.94 Sm 1 La 0.8 Sr 0.2 Cu 1 O 4-z 3.94 3 2001 T* K 25 25 um far-infrared reflectivity spectra 35 Transverse Josephson Plasma Mode in T* Phase SmLa1-xSrxCuO4-z Single Crystals 2001 "NTT Basic Research Laboratories, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.Lett., 86(2001)2122" 9610 PRL0860496 anisotropy factor(Rc/Rab at 100K)=1000 YBa2Cu3Oz Y1Ba2Cu3O6.2 Y 1 Ba 2 Cu 3 O 7-z 6.2 3 2001 Y123 K 4.2 RH9610 single crystals were grown in a yttria crucible by self-flux method. Z controlled by ANN in O2. Superconductor-to-Insulator Transition and Transport Properties of Underdoped YBa2Cu3Oy Crystals 2001 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi Kanagawa 243-0198, Japan" "Phys.Rev.Lett., 86(2001)496" 9611 PRL0860496 anisotropy factor(Rc/Rab at 100K)=1000 YBa2Cu3Oz Y1Ba2Cu3O6.25 Y 1 Ba 2 Cu 3 O 7-z 6.25 3 2001 Y123 K 4.2 RH9611 single crystals were grown in a yttria crucible by self-flux method. Z controlled by ANN in O2. Superconductor-to-Insulator Transition and Transport Properties of Underdoped YBa2Cu3Oy Crystals 2001 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi Kanagawa 243-0198, Japan" "Phys.Rev.Lett., 86(2001)496" 9612 PRL0860496 anisotropy factor(Rc/Rab at 100K)=1000 YBa2Cu3Oz Y1Ba2Cu3O6.28 Y 1 Ba 2 Cu 3 O 7-z 6.28 3 2001 Y123 K 4.2 single crystals were grown in a yttria crucible by self-flux method. Z controlled by ANN in O2. Superconductor-to-Insulator Transition and Transport Properties of Underdoped YBa2Cu3Oy Crystals 2001 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi Kanagawa 243-0198, Japan" "Phys.Rev.Lett., 86(2001)496" 9613 PRL0860496 anisotropy factor(Rc/Rab at 100K)=1000 YBa2Cu3Oz Y1Ba2Cu3O6.4 Y 1 Ba 2 Cu 3 O 7-z 6.4 3 2001 Y123 K 35.8 35.8 RH9613 single crystals were grown in a yttria crucible by self-flux method. Z controlled by ANN in O2. Superconductor-to-Insulator Transition and Transport Properties of Underdoped YBa2Cu3Oy Crystals 2001 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi Kanagawa 243-0198, Japan" "Phys.Rev.Lett., 86(2001)496" 9614 PRL0860496 anisotropy factor(Rc/Rab at 100K)=1000 YBa2Cu3Oz Y1Ba2Cu3O6.45 Y 1 Ba 2 Cu 3 O 7-z 6.45 3 2001 Y123 K 47.3 47.3 RH9614 single crystals were grown in a yttria crucible by self-flux method. Z controlled by ANN in O2. Superconductor-to-Insulator Transition and Transport Properties of Underdoped YBa2Cu3Oy Crystals 2001 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi Kanagawa 243-0198, Japan" "Phys.Rev.Lett., 86(2001)496" 9615 PRL0860496 anisotropy factor(Rc/Rab at 100K)=1000 YBa2Cu3Oz Y1Ba2Cu3O6.5 Y 1 Ba 2 Cu 3 O 7-z 6.5 3 2001 Y123 K 58.8 58.8 RH9615 single crystals were grown in a yttria crucible by self-flux method. Z controlled by ANN in O2. Superconductor-to-Insulator Transition and Transport Properties of Underdoped YBa2Cu3Oy Crystals 2001 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi Kanagawa 243-0198, Japan" "Phys.Rev.Lett., 86(2001)496" 9616 PRL0860496 anisotropy factor(Rc/Rab at 100K)=50 YBa2Cu3Oz Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 7-z 6.9 3 2001 Y123 K 92 92 RH9616 single crystals were grown in a yttria crucible by self-flux method. Z controlled by ANN in O2. Superconductor-to-Insulator Transition and Transport Properties of Underdoped YBa2Cu3Oy Crystals 2001 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi Kanagawa 243-0198, Japan" "Phys.Rev.Lett., 86(2001)496" 9617 PRL0860500 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 3 2001 T K 35.6 35.6 c-Axis Optical Response in the Static Stripe Ordered Phase of the Cuprates 2001 "Superconductivity Research Laboratory, ISTEC, Tokyo 135-0062, Japan" "Phys.Rev.Lett., 86(2001)500" 9618 PRL0860500 "(La,Nd,Sr)2CuO4" La1.75Nd0.1Sr0.15Cu1O4 La 1.75 Nd 0.1 Sr 0.15 Cu 1 O 4 3 2001 T K 31.7 31.7 c-Axis Optical Response in the Static Stripe Ordered Phase of the Cuprates 2001 "Superconductivity Research Laboratory, ISTEC, Tokyo 135-0062, Japan" "Phys.Rev.Lett., 86(2001)500" 9619 PRL0860500 LTO-LTT phase transition at (20-0) K "(La,Nd,Sr)2CuO4" La1.73Nd0.12Sr0.15Cu1O4 La 1.73 Nd 0.12 Sr 0.15 Cu 1 O 4 3 2001 T K 26.3 26.3 c-Axis Optical Response in the Static Stripe Ordered Phase of the Cuprates 2001 "Superconductivity Research Laboratory, ISTEC, Tokyo 135-0062, Japan" "Phys.Rev.Lett., 86(2001)500" 9620 PRL0860500 LTO-LTT phase transition at 44 K "(La,Nd,Sr)2CuO4" La1.65Nd0.2Sr0.15Cu1O4 La 1.65 Nd 0.2 Sr 0.15 Cu 1 O 4 3 2001 T K 20 20 c-Axis Optical Response in the Static Stripe Ordered Phase of the Cuprates 2001 "Superconductivity Research Laboratory, ISTEC, Tokyo 135-0062, Japan" "Phys.Rev.Lett., 86(2001)500" 9621 PRL0860500 LTO-LTT phase transition at 74 K "(La,Nd,Sr)2CuO4" La1.45Nd0.4Sr0.15Cu1O4 La 1.45 Nd 0.4 Sr 0.15 Cu 1 O 4 3 2001 T K 9.8 9.8 c-Axis Optical Response in the Static Stripe Ordered Phase of the Cuprates 2001 "Superconductivity Research Laboratory, ISTEC, Tokyo 135-0062, Japan" "Phys.Rev.Lett., 86(2001)500" 9622 JPS0700437 THC by a steady-state method Sr14Cu24O41 Sr14Cu24O41 Sr 14 Cu 24 O 41 3 2001 LAD K THC9622 TSFZ method Spin Gap and Hole Pairing in the Spin-Ladder Cuprate Sr14-xAxCu24O41 (A=Ca and La) Studied by the Thermal Conductivity 2001 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579" "J.Phys.Soc.jpn , 70(2001)437" 9623 JPS0700437 THC by a steady-state method "(Sr,La)14Cu24O41" Sr13La1Cu24O41 Sr 13 La 1 Cu 24 O 41 3 2001 LAD K THC9623 TSFZ method Spin Gap and Hole Pairing in the Spin-Ladder Cuprate Sr14-xAxCu24O41 (A=Ca and La) Studied by the Thermal Conductivity 2001 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579" "J.Phys.Soc.jpn , 70(2001)437" 9624 JPS0700437 THC by a steady-state method "(Sr,La)14Cu24O41" Sr11La3Cu24O41 Sr 11 La 3 Cu 24 O 41 3 2001 LAD K THC9624 TSFZ method Spin Gap and Hole Pairing in the Spin-Ladder Cuprate Sr14-xAxCu24O41 (A=Ca and La) Studied by the Thermal Conductivity 2001 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579" "J.Phys.Soc.jpn , 70(2001)437" 9625 JPS0700437 THC by a steady-state method "(Sr,La)14Cu24O41" Sr9La5Cu24O41 Sr 9 La 5 Cu 24 O 41 3 2001 LAD K THC9625 TSFZ method Spin Gap and Hole Pairing in the Spin-Ladder Cuprate Sr14-xAxCu24O41 (A=Ca and La) Studied by the Thermal Conductivity 2001 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579" "J.Phys.Soc.jpn , 70(2001)437" 9628 JPS0700437 THC by a steady-state method "(Sr,Ca)14Cu24O41" Sr12.5Ca1.5Cu24O41 Sr 12.5 Ca 1.5 Cu 24 O 41 3 2001 LAD K THC9628 TSFZ method Spin Gap and Hole Pairing in the Spin-Ladder Cuprate Sr14-xAxCu24O41 (A=Ca and La) Studied by the Thermal Conductivity 2001 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579" "J.Phys.Soc.jpn , 70(2001)437" 9629 JPS0700437 THC by a steady-state method "(Sr,Ca)14Cu24O41" Sr11Ca3Cu24O41 Sr 11 Ca 3 Cu 24 O 41 3 2001 LAD K THC9629 TSFZ method Spin Gap and Hole Pairing in the Spin-Ladder Cuprate Sr14-xAxCu24O41 (A=Ca and La) Studied by the Thermal Conductivity 2001 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579" "J.Phys.Soc.jpn , 70(2001)437" 9630 JPS0700437 THC by a steady-state method "(Sr,Ca)14Cu24O41" Sr8Ca6Cu24O41 Sr 8 Ca 6 Cu 24 O 41 3 2001 LAD K THC9630 TSFZ method Spin Gap and Hole Pairing in the Spin-Ladder Cuprate Sr14-xAxCu24O41 (A=Ca and La) Studied by the Thermal Conductivity 2001 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579" "J.Phys.Soc.jpn , 70(2001)437" 9631 JPS0700437 THC by a steady-state method "(Sr,Ca)14Cu24O41" Sr5Ca9Cu24O41 Sr 5 Ca 9 Cu 24 O 41 3 2001 LAD K THC9631 TSFZ method Spin Gap and Hole Pairing in the Spin-Ladder Cuprate Sr14-xAxCu24O41 (A=Ca and La) Studied by the Thermal Conductivity 2001 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579" "J.Phys.Soc.jpn , 70(2001)437" 9632 PHC3510078 dc susceptibility shows Tc=340K PbCO3.2PbO+Ag2O Pb2C1Ag2O6 Pb 2 C 1 Ag 2 O 6 2001 K 310 323 333 340 323 "(PbCO3.2PbO+Ag2O) - press - heat(330C, 24h in 5 bar CO2) - heat(24h in CO2+O2)" PbCO3.2PbO + Ag2O and PbCO3.PbO + Ag2O(PACO) systems: route for novel superconductors 2001 "A.Volta Applied Ceramics (AVAC), Zagrev,Croatia" "Physica C, 351(2001)78-81" 9633 JPS0700333 Meissner state not observed. Resistivity = zero at 23 K. M(T) and NED shows magnetic Curie-T = 149 K. RuSr2YCu2O8 Ru1Sr2Y1Cu2O8 Ru 1 Sr 2 Y 1 Cu 2 O 8 1 2001 per Ru 0.96 149 Ru1212 A 3.843 11.555 K 24 46 35 "SrCO3,Y2O3,CuO,Ru" 1 "precursor(Sr2YRuO6)+CuO. Mixture - sealed in Au - SIN(1300C, 0.5h under 5.5 Gpa) - ANN(600C, 40h in 200 kgf/cm2 (Ar:O2=80:20)" Coexistence of Superconductivity and (Anti-)Ferromagnetism in RuSr2YCu2O8 2001 "Department of Physics, Aoyama-Gakuin University, Setagaya-ku, Tokyo 157-8572" "J.Phys.Soc.Jpn, 70(2001)333-336" 9634 PHC3510245 "THC300=THC150, TP300=TP200" YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 2001 Y124 K 78 78 mW/cm.K 45.8 uV/K 5.35 mOhm.cm 2.59 high pressure O2-gas technique Thermal transport of Pr substituted YBa2Cu4O8 compounds with CuO double chains 2001 "Faculty of Engineering, Iwate University, Ueda 4-3-5, Morioka 020 8551, Japan" "Physica C, 351(2001)245" 9635 PHC3510245 "THC300=THC150, TP300=TP200" "(Y,Pr)Ba2Cu4O8" Y0.3Pr0.7Ba2Cu4O8 Y 0.3 Pr 0.7 Ba 2 Cu 4 O 8 1 2001 Y124 K 20 20 mW/cm.K 47.3 uV/K 22.8 mOhm.cm 1 high pressure O2-gas technique Thermal transport of Pr substituted YBa2Cu4O8 compounds with CuO double chains 2001 "Faculty of Engineering, Iwate University, Ueda 4-3-5, Morioka 020 8551, Japan" "Physica C, 351(2001)245" 9636 PHC3510245 "THC300=THC150, TP300=TP200" "(Y,Pr)Ba2Cu4O8" Y0.2Pr0.8Ba2Cu4O8 Y 0.2 Pr 0.8 Ba 2 Cu 4 O 8 1 2001 Y124 K 5 mW/cm.K 32.3 uV/K 28.1 mOhm.cm 3 high pressure O2-gas technique Thermal transport of Pr substituted YBa2Cu4O8 compounds with CuO double chains 2001 "Faculty of Engineering, Iwate University, Ueda 4-3-5, Morioka 020 8551, Japan" "Physica C, 351(2001)245" 9637 PHC3510245 "THC300=THC150, TP300=TP200" "(Y,Pr)Ba2Cu4O8" Y0.1Pr0.9Ba2Cu4O8 Y 0.1 Pr 0.9 Ba 2 Cu 4 O 8 1 2001 Y124 K 5 mW/cm.K 37 uV/K 47.2 mOhm.cm 3.4 high pressure O2-gas technique Thermal transport of Pr substituted YBa2Cu4O8 compounds with CuO double chains 2001 "Faculty of Engineering, Iwate University, Ueda 4-3-5, Morioka 020 8551, Japan" "Physica C, 351(2001)245" 9638 PHC3510245 "THC300=THC150, TP300=TP200" "(Y,Pr)Ba2Cu4O8" Pr1Ba2Cu4O8 Pr 1 Ba 2 Cu 4 O 8 1 2001 Y124 K 5 mW/cm.K 23.6 uV/K 64.6 mOhm.cm 0.6 high pressure O2-gas technique Thermal transport of Pr substituted YBa2Cu4O8 compounds with CuO double chains 2001 "Faculty of Engineering, Iwate University, Ueda 4-3-5, Morioka 020 8551, Japan" "Physica C, 351(2001)245" 9639 PHC1910211 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+z Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 1 1992 Bi2212 K 75.5 75.5 0.03 O 90 0.27 "Bi2O3,SrCO3,CaO,Y2O3,CuO" 1 DEPENDENCE OF THE OXYGEN ISOTOPE EFFECT UPON HOLE DENSITY IN BI2SR2CA1-XYXCU2O8+Z AND Y1-XCAXBA2CU4O8 1992 2 "PHYSICA C,191(1992)211" "BI,SR,CA,Y,CU,O,BA" 9640 PHC1910211 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.937Y0.063Cu2O8+z Bi 2 Sr 2 Ca 0.937 Y 0.063 Cu 2 O 8+z 1 1992 Bi2212 K 78 78 0.012 O 90 0.11 "Bi2O3,SrCO3,CaO,Y2O3,CuO" 1 DEPENDENCE OF THE OXYGEN ISOTOPE EFFECT UPON HOLE DENSITY IN BI2SR2CA1-XYXCU2O8+Z AND Y1-XCAXBA2CU4O8 1992 2 "PHYSICA C,191(1992)211" "BI,SR,CA,Y,CU,O,BA" 9641 PHC1910211 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.875Y0.125Cu2O8+z Bi 2 Sr 2 Ca 0.875 Y 0.125 Cu 2 O 8+z 1 1992 Bi2212 K 77.1 77.1 O 90 "Bi2O3,SrCO3,CaO,Y2O3,CuO" 1 DEPENDENCE OF THE OXYGEN ISOTOPE EFFECT UPON HOLE DENSITY IN BI2SR2CA1-XYXCU2O8+Z AND Y1-XCAXBA2CU4O8 1992 2 "PHYSICA C,191(1992)211" "BI,SR,CA,Y,CU,O,BA" 9642 PHC1910211 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.75Y0.25Cu2O8+z Bi 2 Sr 2 Ca 0.75 Y 0.25 Cu 2 O 8+z 1 1992 Bi2212 K 71.3 71.3 0.065 O 90 0.54 "Bi2O3,SrCO3,CaO,Y2O3,CuO" 1 DEPENDENCE OF THE OXYGEN ISOTOPE EFFECT UPON HOLE DENSITY IN BI2SR2CA1-XYXCU2O8+Z AND Y1-XCAXBA2CU4O8 1992 2 "PHYSICA C,191(1992)211" "BI,SR,CA,Y,CU,O,BA" 9643 PHC1910211 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.65Y0.35Cu2O8+z Bi 2 Sr 2 Ca 0.65 Y 0.35 Cu 2 O 8+z 1 1992 Bi2212 K 45.2 45.2 0.109 O 90 0.58 "Bi2O3,SrCO3,CaO,Y2O3,CuO" 1 DEPENDENCE OF THE OXYGEN ISOTOPE EFFECT UPON HOLE DENSITY IN BI2SR2CA1-XYXCU2O8+Z AND Y1-XCAXBA2CU4O8 1992 2 "PHYSICA C,191(1992)211" "BI,SR,CA,Y,CU,O,BA" 9645 PHC1910211 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.55Y0.45Cu2O8+z Bi 2 Sr 2 Ca 0.55 Y 0.45 Cu 2 O 8+z 1 1992 Bi2212 K 22.1 22.1 O 90 "Bi2O3,SrCO3,CaO,Y2O3,CuO" 1 DEPENDENCE OF THE OXYGEN ISOTOPE EFFECT UPON HOLE DENSITY IN BI2SR2CA1-XYXCU2O8+Z AND Y1-XCAXBA2CU4O8 1992 2 "PHYSICA C,191(1992)211" "BI,SR,CA,Y,CU,O,BA" 9646 PHC1910211 "(Y,Ca)Ba2Cu4O8" Y0.975Ca0.025Ba2Cu4O8 Y 0.975 Ca 0.025 Ba 2 Cu 4 O 8 1 1992 Y124 K 79.5 79.5 0.083 O 90 0.77 "Y2O3,BaO2,CaO,CuO" 1 "high O2 pressure synthesis. For x>0.1, (Ba,Ca)2Cu3+z phase increasing" DEPENDENCE OF THE OXYGEN ISOTOPE EFFECT UPON HOLE DENSITY IN BI2SR2CA1-XYXCU2O8+Z AND Y1-XCAXBA2CU4O8 1992 2 "PHYSICA C,191(1992)211" "BI,SR,CA,Y,CU,O,BA" 9647 PHC1910211 "(Y,Ca)Ba2Cu4O8" Y0.95Ca0.05Ba2Cu4O8 Y 0.95 Ca 0.05 Ba 2 Cu 4 O 8 1 1992 Y124 K 82.2 82.2 0.062 O 90 0.62 "Y2O3,BaO2,CaO,CuO" 1 "high O2 pressure synthesis. For x>0.1, (Ba,Ca)2Cu3+z phase increasing" DEPENDENCE OF THE OXYGEN ISOTOPE EFFECT UPON HOLE DENSITY IN BI2SR2CA1-XYXCU2O8+Z AND Y1-XCAXBA2CU4O8 1992 2 "PHYSICA C,191(1992)211" "BI,SR,CA,Y,CU,O,BA" 9648 PHC1910211 "(Y,Ca)Ba2Cu4O8" Y0.925Ca0.075Ba2Cu4O8 Y 0.925 Ca 0.075 Ba 2 Cu 4 O 8 1 1992 Y124 K 83.8 83.8 0.051 O 90 0.5 "Y2O3,BaO2,CaO,CuO" 1 "high O2 pressure synthesis. For x>0.1, (Ba,Ca)2Cu3+z phase increasing" DEPENDENCE OF THE OXYGEN ISOTOPE EFFECT UPON HOLE DENSITY IN BI2SR2CA1-XYXCU2O8+Z AND Y1-XCAXBA2CU4O8 1992 2 "PHYSICA C,191(1992)211" "BI,SR,CA,Y,CU,O,BA" 9649 PHC1910211 "(Y,Ca)Ba2Cu4O8" Y0.9Ca0.1Ba2Cu4O8 Y 0.9 Ca 0.1 Ba 2 Cu 4 O 8 1 1992 Y124 K 88.9 88.9 0.023 O 90 0.24 "Y2O3,BaO2,CaO,CuO" 1 "high O2 pressure synthesis. For x>0.1, (Ba,Ca)2Cu3+z phase increasing" DEPENDENCE OF THE OXYGEN ISOTOPE EFFECT UPON HOLE DENSITY IN BI2SR2CA1-XYXCU2O8+Z AND Y1-XCAXBA2CU4O8 1992 2 "PHYSICA C,191(1992)211" "BI,SR,CA,Y,CU,O,BA" 9650 PHC1910211 "(Y,Ca)Ba2Cu4O8" Y0.8Ca0.2Ba2Cu4O8 Y 0.8 Ca 0.2 Ba 2 Cu 4 O 8 1 1992 Y124 K 85.6 85.6 0.047 O 90 0.47 "Y2O3,BaO2,CaO,CuO" 1 "high O2 pressure synthesis. For x>0.1, (Ba,Ca)2Cu3+z phase increasing" DEPENDENCE OF THE OXYGEN ISOTOPE EFFECT UPON HOLE DENSITY IN BI2SR2CA1-XYXCU2O8+Z AND Y1-XCAXBA2CU4O8 1992 2 "PHYSICA C,191(1992)211" "BI,SR,CA,Y,CU,O,BA" 9651 PHC1910211 "(Y,Ca)Ba2Cu4O8" Y0.75Ca0.25Ba2Cu4O8 Y 0.75 Ca 0.25 Ba 2 Cu 4 O 8 1992 Y124 K 82.9 82.9 O 90 "Y2O3,BaO2,CaO,CuO" 1 "high O2 pressure synthesis. For x>0.1, (Ba,Ca)2Cu3+z phase increasing" DEPENDENCE OF THE OXYGEN ISOTOPE EFFECT UPON HOLE DENSITY IN BI2SR2CA1-XYXCU2O8+Z AND Y1-XCAXBA2CU4O8 1992 2 "PHYSICA C,191(1992)211" "BI,SR,CA,Y,CU,O,BA" 9652 PHC1910211 "(Y,Ca)Ba2Cu4O8" Y0.7Ca0.3Ba2Cu4O8 Y 0.7 Ca 0.3 Ba 2 Cu 4 O 8 1992 Y124 K 79.5 79.5 0.074 O 90 0.69 "Y2O3,BaO2,CaO,CuO" 1 "high O2 pressure synthesis. For x>0.1, (Ba,Ca)2Cu3+z phase increasing" DEPENDENCE OF THE OXYGEN ISOTOPE EFFECT UPON HOLE DENSITY IN BI2SR2CA1-XYXCU2O8+Z AND Y1-XCAXBA2CU4O8 1992 2 "PHYSICA C,191(1992)211" "BI,SR,CA,Y,CU,O,BA" 9653 PRL0864100 NeelT by NED. Having large correlation length (100A) YBa2Cu3O6.5 Y1Ba2Cu3O6.5 Y 1 Ba 2 Cu 3 O 7-z 6.5 3 2001 310 Y123 K 55 55 top seed melt texturing method Antiferromagnetic Ordering in Superconducting YBa2Cu3O6.5 2001 "Phys.Rev.Lett., 86(2001)4100" 9654 SST0131356 "fully oxygenated, Hirr(77K)=13.1T" NdBa2Cu3Oz Nd1Ba2Cu3O7-z Nd 1 Ba 2 Cu 3 O 7-z 3 2000 Y123 K 95.85 95.85 um 0.167 0.84 15000 slow cooling method Effect of oxygen-induced disorder on magnetic flux dynamics and critical current in a NdBa2Cu3O7-d single crystal 2000 "Supercond. Sci. Technol.,13(2000)1356-1362" 9655 SST0131356 "oxygen deficient crystal, Hirr(77K)=7T" NdBa2Cu3Oz Nd1Ba2Cu3O7-z Nd 1 Ba 2 Cu 3 O 7-z 3 2000 Y123 K 94.2 94.2 um 0.187 1.21 32000 slow cooling method Effect of oxygen-induced disorder on magnetic flux dynamics and critical current in a NdBa2Cu3O7-d single crystal 2000 "Supercond. Sci. Technol.,13(2000)1356-1362" 9656 SST0131302 "(Tl,Pb)(Sr,Ba)Ca2Cu3Oz" Tl0.52Pb0.5Sr0.8Ba0.2Ca2Cu3Oz Tl 0.52 Pb 0.5 Sr 0.8 Ba 0.2 Ca 2 Cu 3 O z 2000 4.2 Tl1223 K 115 115 790 1 precursor + PbO + Tl2O3 Uranium-doped thallium-1223 superconductors 2000 "Supercond. Sci. Technol.,13( 2000)1302-1305" 9657 SST0131302 "(Tl,Pb)(Sr,Ba)Ca2(Cu3,U)Oz" Tl0.54Pb0.5Sr0.8Ba0.2Ca2Cu3U0.005Oz Tl 0.54 Pb 0.5 Sr 0.8 Ba 0.2 Ca 2 Cu 3 U 0.005 O z 2000 4.34 Tl1223 K 114 114 810 1 precursor + PbO + Tl2O3 Uranium-doped thallium-1223 superconductors 2000 "Supercond. Sci. Technol.,13( 2000)1302-1305" 9658 SST0131302 "(Tl,Pb)(Sr,Ba)Ca2(Cu3,U)Oz" Tl0.54Pb0.5Sr0.8Ba0.2Ca2Cu3U0.01Oz Tl 0.54 Pb 0.5 Sr 0.8 Ba 0.2 Ca 2 Cu 3 U 0.01 O z 2000 4.44 Tl1223 K 113 113 840 1 precursor + PbO + Tl2O3 Uranium-doped thallium-1223 superconductors 2000 "Supercond. Sci. Technol.,13( 2000)1302-1305" 9659 SST0131302 "(Tl,Pb)(Sr,Ba)Ca2(Cu3,U)Oz" Tl0.51Pb0.5Sr0.8Ba0.2Ca2Cu3U0.02Oz Tl 0.51 Pb 0.5 Sr 0.8 Ba 0.2 Ca 2 Cu 3 U 0.02 O z 2000 4.89 Tl1223 K 114 114 980 1 precursor + PbO + Tl2O3 Uranium-doped thallium-1223 superconductors 2000 "Supercond. Sci. Technol.,13( 2000)1302-1305" 9660 SST0131302 "(Tl,Pb)(Sr,Ba)Ca2(Cu3,U)Oz" Tl0.5Pb0.5Sr0.8Ba0.2Ca2Cu3U0.04Oz Tl 0.5 Pb 0.5 Sr 0.8 Ba 0.2 Ca 2 Cu 3 U 0.04 O z 2000 4.48 Tl1223 K 114 114 810 1 precursor + PbO + Tl2O3 Uranium-doped thallium-1223 superconductors 2000 "Supercond. Sci. Technol.,13( 2000)1302-1305" 9661 SST0131302 two step transition "(Tl,Pb)(Sr,Ba)Ca2(Cu3,U)Oz" Tl0.53Pb0.5Sr0.8Ba0.2Ca2Cu3U0.08Oz Tl 0.53 Pb 0.5 Sr 0.8 Ba 0.2 Ca 2 Cu 3 U 0.08 O z 2000 4.34 Tl1223 K 107 107 365 1 precursor + PbO + Tl2O3 Uranium-doped thallium-1223 superconductors 2000 "Supercond. Sci. Technol.,13( 2000)1302-1305" 9662 SST0131302 two step transition "(Tl,Pb)(Sr,Ba)Ca2(Cu3,U)Oz" Tl0.5Pb0.5Sr0.8Ba0.2Ca2Cu3U0.2Oz Tl 0.5 Pb 0.5 Sr 0.8 Ba 0.2 Ca 2 Cu 3 U 0.2 O z 2000 4.37 Tl1223 K 103 103 280 1 precursor + PbO + Tl2O3 Uranium-doped thallium-1223 superconductors 2000 "Supercond. Sci. Technol.,13( 2000)1302-1305" 9663 P063184504 "anisotropy factor=100, parameters obtained by fitting of Koshelev theory(PRL 76(1996)1340)" "(Bi,Pb)2Sr2(Ca,Y)Cu2O8" Bi1.64Pb0.36Sr2Ca0.79Y0.21Cu2O8+z Bi 1.64 Pb 0.36 Sr 2 Ca 0.79 Y 0.21 Cu 2 O 8+z 3 2001 Bi2212 K 86 2 86 A Koshelev theory for resistivity 20 A Koshelev theory for resistivity 2000 mOhm.cm 0.3 250 self flux method Experimental evidence of the decoupling line in (Bi1.64Pb0.36)Sr2(Ca0.79Y0.21)Cu2O8+z single crystals by resistivity measurements 2001 "Phys.Rev.B, 63(2001)184504" 9664 SSC1140107 La2CuOz La2Cu1O4.0625 La 2 Cu 1 O 4+z 4.0625 2000 T A 5.3593 5.3786 13.2087 K 17 17 uV/K 48 electrochemical oxydation Superconducting phase with Tc of 17 K in La2CuO4+ z 2000 "National Laboratory for Superconductivity, Institute of Physics and Center for Condensed Matter Physics, Beijing 100080, People's Republic of China" "Solid State Commun., 114(2000)107" 9665 SSC1140107 "two phases (32K phase , 17K phase)" La2CuOz La2Cu1O4.08 La 2 Cu 1 O 4+z 4.08 2000 T A 5.3338 5.4346 13.227 K 32 32 electrochemical oxydation Superconducting phase with Tc of 17 K in La2CuO4+ z 2000 "National Laboratory for Superconductivity, Institute of Physics and Center for Condensed Matter Physics, Beijing 100080, People's Republic of China" "Solid State Commun., 114(2000)107" 9667 IMP0141567 Tc = intragranular Tc. "(Bi,Pb)2(Sr,Ba)2(Ca,Er)2Cu3Oz" Bi1.6Pb0.4Sr1.8Ba0.2Ca1Cu3Oz Bi 1.6 Pb 0.4 Sr 1.8 Ba 0.2 Ca 1 Cu 3 O z 1 2000 2 Bi2223 K 109.3 109.3 1 solid state reaction. Electrical andmagnetic properties of bulk (Bi1.6Pb0.4)(Sr1.8Ba0.2)(Ca1-xErx)2Cu3Oy superconducting system 2000 "Faculty of Physics, University of Babes-Bolyoi, Romania" "Int'l.J.Mod.Phys., 14(2000)1567" 9668 IMP0141567 Tc = intragranular Tc. Bi2212 phase exist by XRD. "(Bi,Pb)2(Sr,Ba)2Ca2Cu3Oz" Bi1.6Pb0.4Sr1.8Ba0.2Ca1.99Er0.01Cu3Oz Bi 1.6 Pb 0.4 Sr 1.8 Ba 0.2 Ca 1.99 Er 0.01 Cu 3 O z 2000 2 Bi2223 K 107.6 107.6 1 solid state reaction. Electrical andmagnetic properties of bulk (Bi1.6Pb0.4)(Sr1.8Ba0.2)(Ca1-xErx)2Cu3Oy superconducting system 2000 "Faculty of Physics, University of Babes-Bolyoi, Romania" "Int'l.J.Mod.Phys., 14(2000)1567" 9669 IMP0141567 Tc = intragranular Tc. Bi2212 phase exist by XRD. "(Bi,Pb)2(Sr,Ba)2(Ca,Er)2Cu3Oz" Bi1.6Pb0.4Sr1.8Ba0.2Ca1.98Er0.02Cu3Oz Bi 1.6 Pb 0.4 Sr 1.8 Ba 0.2 Ca 1.98 Er 0.02 Cu 3 O z 2000 2 Bi2223 K 107 107 1 solid state reaction. Electrical andmagnetic properties of bulk (Bi1.6Pb0.4)(Sr1.8Ba0.2)(Ca1-xErx)2Cu3Oy superconducting system 2000 "Faculty of Physics, University of Babes-Bolyoi, Romania" "Int'l.J.Mod.Phys., 14(2000)1567" 9670 IMP0141567 Tc = intragranular Tc. Bi2212 phase exist by XRD. "(Bi,Pb)2(Sr,Ba)2(Ca,Er)2Cu3Oz" Bi1.6Pb0.4Sr1.8Ba0.2Ca1.97Er0.03Cu3Oz Bi 1.6 Pb 0.4 Sr 1.8 Ba 0.2 Ca 1.97 Er 0.03 Cu 3 O z 2000 2 Bi2223 K 106 106 1 solid state reaction. Electrical andmagnetic properties of bulk (Bi1.6Pb0.4)(Sr1.8Ba0.2)(Ca1-xErx)2Cu3Oy superconducting system 2000 "Faculty of Physics, University of Babes-Bolyoi, Romania" "Int'l.J.Mod.Phys., 14(2000)1567" 9671 IMP0141567 Tc = intragranular Tc. Bi2212 phase exist by XRD. "(Bi,Pb)2(Sr,Ba)2(Ca,Er)2Cu3Oz" Bi1.6Pb0.4Sr1.8Ba0.2Ca1.96Er0.04Cu3Oz Bi 1.6 Pb 0.4 Sr 1.8 Ba 0.2 Ca 1.96 Er 0.04 Cu 3 O z 2000 2 Bi2223 K 105.5 105.5 1 solid state reaction. Electrical andmagnetic properties of bulk (Bi1.6Pb0.4)(Sr1.8Ba0.2)(Ca1-xErx)2Cu3Oy superconducting system 2000 "Faculty of Physics, University of Babes-Bolyoi, Romania" "Int'l.J.Mod.Phys., 14(2000)1567" 9672 JAC2250586 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1995 3 Y124 A 3.8538 3.8745 27.267 K 78 78 sol-gel method Sol-gel synthesis and characterization of superconducting (Y1-xEux)Ba2(Cu1-y<57>Fey)4O8 samples 1995 "Laboratory of Inorganic and Analytical Chemistry, Helsinki University of Technology, Finland" "J.Alloys Compd., 225(1995)586" 9673 JAC2250586 "(Y,Eu)Ba2Cu4O8" Y0.75Eu0.25Ba2Cu4O8 Y 0.75 Eu 0.25 Ba 2 Cu 4 O 8 1 1995 3 Y124 A 3.8648 3.8861 27.29 K 78 78 sol-gel method Sol-gel synthesis and characterization of superconducting (Y1-xEux)Ba2(Cu1-y<57>Fey)4O8 samples 1995 "Laboratory of Inorganic and Analytical Chemistry, Helsinki University of Technology, Finland" "J.Alloys Compd., 225(1995)586" 9674 JAC2250586 "(Y,Eu)Ba2Cu4O8" Y0.5Eu0.5Ba2Cu4O8 Y 0.5 Eu 0.5 Ba 2 Cu 4 O 8 1 1995 3 Y124 A 3.8743 3.893 27.292 K 77 77 sol-gel method Sol-gel synthesis and characterization of superconducting (Y1-xEux)Ba2(Cu1-y<57>Fey)4O8 samples 1995 "Laboratory of Inorganic and Analytical Chemistry, Helsinki University of Technology, Finland" "J.Alloys Compd., 225(1995)586" 9675 JAC2250586 "(Y,Eu)Ba2Cu4O8" Y0.25Eu0.75Ba2Cu4O8 Y 0.25 Eu 0.75 Ba 2 Cu 4 O 8 1 1995 3 Y124 A 3.8745 3.8921 27.292 K 75 75 sol-gel method Sol-gel synthesis and characterization of superconducting (Y1-xEux)Ba2(Cu1-y<57>Fey)4O8 samples 1995 "Laboratory of Inorganic and Analytical Chemistry, Helsinki University of Technology, Finland" "J.Alloys Compd., 225(1995)586" 9676 JAC2250586 EuBa2Cu4O8 Eu1Ba2Cu4O8 Eu 1 Ba 2 Cu 4 O 8 1 1995 3 Y124 A 3.882 3.8951 27.271 K 74 74 sol-gel method Sol-gel synthesis and characterization of superconducting (Y1-xEux)Ba2(Cu1-y<57>Fey)4O8 samples 1995 "Laboratory of Inorganic and Analytical Chemistry, Helsinki University of Technology, Finland" "J.Alloys Compd., 225(1995)586" 9677 JAC2250586 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.96Fe0.04O8 Y 1 Ba 2 Cu 3.96 Fe 0.04 O 8 1 1995 3 Y124 A 3.8623 3.8823 27.21 K 73 73 sol-gel method Sol-gel synthesis and characterization of superconducting (Y1-xEux)Ba2(Cu1-y<57>Fey)4O8 samples 1995 "Laboratory of Inorganic and Analytical Chemistry, Helsinki University of Technology, Finland" "J.Alloys Compd., 225(1995)586" 9678 JAC2250586 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.92Fe0.08O8 Y 1 Ba 2 Cu 3.92 Fe 0.08 O 8 1 1995 3 Y124 A 3.8792 3.9084 27.138 K 70 70 sol-gel method Sol-gel synthesis and characterization of superconducting (Y1-xEux)Ba2(Cu1-y<57>Fey)4O8 samples 1995 "Laboratory of Inorganic and Analytical Chemistry, Helsinki University of Technology, Finland" "J.Alloys Compd., 225(1995)586" 9679 JAC2250586 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.88Fe0.12O8 Y 1 Ba 2 Cu 3.88 Fe 0.12 O 8 1 1995 3 Y124 A 3.8718 3.9113 27.131 K 65 65 sol-gel method Sol-gel synthesis and characterization of superconducting (Y1-xEux)Ba2(Cu1-y<57>Fey)4O8 samples 1995 "Laboratory of Inorganic and Analytical Chemistry, Helsinki University of Technology, Finland" "J.Alloys Compd., 225(1995)586" 9680 JAC2250586 Y124 + Y123 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.84Fe0.16O8 Y 1 Ba 2 Cu 3.84 Fe 0.16 O 8 1995 3 Y124 A 3.8678 3.8865 27.981 K 61 61 sol-gel method Sol-gel synthesis and characterization of superconducting (Y1-xEux)Ba2(Cu1-y<57>Fey)4O8 samples 1995 "Laboratory of Inorganic and Analytical Chemistry, Helsinki University of Technology, Finland" "J.Alloys Compd., 225(1995)586" 9681 ZPB1020037 not s/c "Sr2Y(Ru,Cu)O6" Sr2Y1Ru0.97Cu0.03O6 Sr 2 Y 1 Ru 0.97 Cu 0.03 O 6 1997 3 2116 A 5.7548 5.7852 8.1728 K 1 "mixture-CAL(1000C, several days in air)-SIN(1390C, 12h in O2)-ANN(1330C-1400C)" Anomalous magnetic and superconducting properties in a Ru-based double perovskite 1997 "Materials Science Center and Department of Physics, Hsinchu, Taiwan, ROC" "Z.Phys.B, 102(1997)37" 9682 ZPB1020037 "Sr2Y(Ru,Cu)O6" Sr2Y1Ru0.96Cu0.04O6 Sr 2 Y 1 Ru 0.96 Cu 0.04 O 6 1997 2116 K 5.1 5.1 1 "mixture-CAL(1000C, several days in air)-SIN(1390C, 12h in O2)-ANN(1330C-1400C)" Anomalous magnetic and superconducting properties in a Ru-based double perovskite 1997 "Materials Science Center and Department of Physics, Hsinchu, Taiwan, ROC" "Z.Phys.B, 102(1997)37" 9683 ZPB1020037 "Sr2Y(Ru,Cu)O6" Sr2Y1Ru0.95Cu0.05O6 Sr 2 Y 1 Ru 0.95 Cu 0.05 O 6 1997 3 2116 A 5.7551 5.7841 8.1729 K 11.9 11.9 1 "mixture-CAL(1000C, several days in air)-SIN(1390C, 12h in O2)-ANN(1330C-1400C)" Anomalous magnetic and superconducting properties in a Ru-based double perovskite 1997 "Materials Science Center and Department of Physics, Hsinchu, Taiwan, ROC" "Z.Phys.B, 102(1997)37" 9684 ZPB1020037 "Sr2Y(Ru,Cu)O6" Sr2Y1Ru0.92Cu0.08O6 Sr 2 Y 1 Ru 0.92 Cu 0.08 O 6 1997 2116 K 17.6 17.6 1 "mixture-CAL(1000C, several days in air)-SIN(1390C, 12h in O2)-ANN(1330C-1400C)" Anomalous magnetic and superconducting properties in a Ru-based double perovskite 1997 "Materials Science Center and Department of Physics, Hsinchu, Taiwan, ROC" "Z.Phys.B, 102(1997)37" 9685 ZPB1020037 "Sr2Y(Ru,Cu)O6" Sr2Y1Ru0.9Cu0.1O6 Sr 2 Y 1 Ru 0.9 Cu 0.1 O 6 1997 3 2116 A 5.7555 5.7868 8.1737 K 20.4 20.4 1 "mixture-CAL(1000C, several days in air)-SIN(1390C, 12h in O2)-ANN(1330C-1400C)" Anomalous magnetic and superconducting properties in a Ru-based double perovskite 1997 "Materials Science Center and Department of Physics, Hsinchu, Taiwan, ROC" "Z.Phys.B, 102(1997)37" 9686 ZPB1020037 "Sr2Y(Ru,Cu)O6" Sr2Y1Ru0.8Cu0.2O6 Sr 2 Y 1 Ru 0.8 Cu 0.2 O 6 1997 2116 K 23 23 1 "mixture-CAL(1000C, several days in air)-SIN(1390C, 12h in O2)-ANN(1330C-1400C)" Anomalous magnetic and superconducting properties in a Ru-based double perovskite 1997 "Materials Science Center and Department of Physics, Hsinchu, Taiwan, ROC" "Z.Phys.B, 102(1997)37" 9687 ZPB1020037 "Sr2Y(Ru,Cu)O6" Sr2Y1Ru0.5Cu0.5O6 Sr 2 Y 1 Ru 0.5 Cu 0.5 O 6 1997 2116 K 61.5 61.5 1 "mixture-CAL(1000C, several days in air)-SIN(1390C, 12h in O2)-ANN(1330C-1400C)" Anomalous magnetic and superconducting properties in a Ru-based double perovskite 1997 "Materials Science Center and Department of Physics, Hsinchu, Taiwan, ROC" "Z.Phys.B, 102(1997)37" 9688 EPJ0150649 anomaly in magnetization appears at 23 K due to Ru-ordering. "Sr2Y(Ru,Cu)O6" Sr2Y1Ru0.5Cu0.5O6 Sr 2 Y 1 Ru 0.5 Cu 0.5 O 6 2000 2116 K 45 45 15 45 "SrCO3,Y2O3,CuO,RuO2" 1 mixture-CAL(1000C in air) Magnetism and superconductivity in Sr2YRu1-uCuuO6 and magnetism in Ba2GdRu1-uCuuO6 2000 "Physics Department, University of Notre Dame, Notre Dame, IN 46556, USA" "Euro.Phys.J. B, 15(2000)649" 9689 EPJ0150649 Two magnetic transitions at 48 K(Ru sublattice ordering) and 12.5 K(Gd sublattice ordering). Not s/c "Ba2Gd(Ru,Cu)O6" Ba2Gd1Ru0.9Cu0.1O6 Ba 2 Gd 1 Ru 0.9 Cu 0.1 O 6 2000 2116 K 4.2 "SrCO3,Y2O3,CuO,RuO2" 1 mixture-CAL(1000C in air) Magnetism and superconductivity in Sr2YRu1-uCuuO6 and magnetism in Ba2GdRu1-uCuuO6 2000 "Physics Department, University of Notre Dame, Notre Dame, IN 46556, USA" "Euro.Phys.J. B, 15(2000)649" 9690 P063144514 magnitude of isotope effect depends on Tc. Alpha derived from curve fitting using alpha(Tc) Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 2001 T K 1.5 1.5 0.18 O single crystals were grown by FZ method Sign reversal of the oxygen isotope effect on Tc in Sr2RuO4 2001 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 63(2001)144514" 9691 P063144514 alpha is negative Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 2001 T K 1.35 1.35 ISO9691 -0.04 O single crystals were grown by FZ method Sign reversal of the oxygen isotope effect on Tc in Sr2RuO4 2001 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 63(2001)144514" 9692 SST0080079 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1995 cm3.K/mol 0.000233 cm3.K/mol 0.03 15.4 3 Y124 A 3.8538 3.8745 27.267 K 78 78 sol-gel method Iron substitution effects in YBa2Cu4O8 synthesized by the sol-gel technique 1995 "Supercond.Sci.Tecknol., 8(1995)79" 9693 SST0080079 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.96Fe0.04O8 Y 1 Ba 2 Cu 3.96 Fe 0.04 O 8 1995 cm3.K/mol 0.000275 cm3.K/mol 0.18 7.6 3 Y124 A 3.8623 3.8823 27.21 K 73 73 sol-gel method Iron substitution effects in YBa2Cu4O8 synthesized by the sol-gel technique 1995 "Supercond.Sci.Tecknol., 8(1995)79" 9694 SST0080079 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.92Fe0.08O8 Y 1 Ba 2 Cu 3.92 Fe 0.08 O 8 1995 cm3.K/mol 0.000445 cm3.K/mol 0.34 -0.6 3 Y124 A 3.8792 3.9084 27.138 K 70 70 sol-gel method Iron substitution effects in YBa2Cu4O8 synthesized by the sol-gel technique 1995 "Supercond.Sci.Tecknol., 8(1995)79" 9695 SST0080079 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.88Fe0.12O8 Y 1 Ba 2 Cu 3.88 Fe 0.12 O 8 1995 cm3.K/mol 0.000375 cm3.K/mol 0.43 -12.3 3 Y124 A 3.8718 3.9113 27.131 K 65 65 sol-gel method Iron substitution effects in YBa2Cu4O8 synthesized by the sol-gel technique 1995 "Supercond.Sci.Tecknol., 8(1995)79" 9696 SST0080079 "YBa2(Cu,Fe)4O8" Y1Ba2Cu3.84Fe0.16O8 Y 1 Ba 2 Cu 3.84 Fe 0.16 O 8 1995 3 Y124 A 3.8678 3.8865 27.981 K 61 61 sol-gel method Iron substitution effects in YBa2Cu4O8 synthesized by the sol-gel technique 1995 "Supercond.Sci.Tecknol., 8(1995)79" 9697 P063132502 underdoped sample. Gap by ARPES. "(Bi,Pb)2Sr2CuO6" Bi1.8Pb0.38Sr2.01Cu1O6-z Bi 1.8 Pb 0.38 Sr 2.01 Cu 1 O 6-z 3 2001 Bi2201 K 19 19 meV 14 9 TSFZ method. Oxygen content controlled by annealing (500 - 600C) Fermi surface and superconducting gap in superstructure-free Bi1.80Pb0.38Sr2.01CuO6-z 2001 "Department of Physics, Tohoku University, 980-8578 Sendai, Japan" "Phys.Rev.B, 63(2001)132502" 9698 PRL0692276 Hc2 by torque method. Anisotropy factor > 150 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1992 Bi2212 K 84.7 84.7 T torque 22 A 1100 TSFZ method Magnetic anisotropy of a Bi2Sr2CaCu2Ox single crystal 1992 "Kamerlingh Onnes Laboratory, Leiden University, 2300 RA Leiden, The Netherlands" "Phys.Rev.Lett., 69(1992)2276" 9699 PHC2820073 "R(H) was measured, but not analyzed" "Sr2Y(Ru,Cu)O6" Sr2Y1Ru0.9Cu1O6-z Sr 2 Y 1 Ru 0.9 Cu 1 O 6-z 1997 2116 K 25 60 85 60 "SrCO3,RuO2,Y2O3,CuO" 1 mixture-CAL(1000C)-SIN(1380C in 30%Ar + 70%O2) Superconductivity in Ru-based double perovskite - The possible existence of a new superconducting pairing state 1997 "Physica C, 282(1997)73" 9700 PHC2820073 "R(H) was measured, but not analyzed" "Ba2Y(Ru,Cu)O6" Ba2Y1Ru0.9Cu0.1O6-z Ba 2 Y 1 Ru 0.9 Cu 0.1 O 6-z 1997 2116 K 30 100 65 "BaCO3,RuO2,Y2O3,CuO" 1 mixture-CAL(1000C)-SIN(1460C in 30%Ar + 70%O2) Superconductivity in Ru-based double perovskite - The possible existence of a new superconducting pairing state 1997 "Physica C, 282(1997)73" 9701 PHC2920225 "(Pb2Cu)Sr2(Eu,Ca)Cu2O8" Pb2Sr2Eu0.95Ca0.05Cu3O8.1 Pb 2 Sr 2 Eu 0.95 Ca 0.05 Cu 3 O 8 8.1 1 1997 Pb3212 K 59 59 1 "mixture-CAL(720C,50h in air). In this sample system oxygen content shows two values (8.1 or 9.8)" Annealing characteristics and calcium doping effects in the superconducting Pb2CuSr2[Eu1-xCax]Cu2O8+delta system 1997 12 "Laboratory of Inorganic and Analytical Chemistry, Helsinki University of Technology, P.O. Box 6100, FIN-02015 Helsinki, Finland" "Physica.C,292(1997)225-232" 9702 PHC2920225 "(Pb2Cu)Sr2(Eu,Ca)Cu2O8" Pb2Sr2Eu0.9Ca0.1Cu3O8.1 Pb 2 Sr 2 Eu 0.9 Ca 0.1 Cu 3 O 8 8.1 1 1997 Pb3212 K 69 69 1 "mixture-CAL(720C,50h in air). In this sample system oxygen content shows two values (8.1 or 9.8)" Annealing characteristics and calcium doping effects in the superconducting Pb2CuSr2[Eu1-xCax]Cu2O8+delta system 1997 12 "Laboratory of Inorganic and Analytical Chemistry, Helsinki University of Technology, P.O. Box 6100, FIN-02015 Helsinki, Finland" "Physica.C,292(1997)225-232" 9703 PHC2920225 "(Pb2Cu)Sr2(Eu,Ca)Cu2O8" Pb2Sr2Eu0.85Ca0.15Cu3O8.1 Pb 2 Sr 2 Eu 0.85 Ca 0.15 Cu 3 O 8 8.1 1 1997 Pb3212 K 71 71 1 "mixture-CAL(720C,50h in air). In this sample system oxygen content shows two values (8.1 or 9.8)" Annealing characteristics and calcium doping effects in the superconducting Pb2CuSr2[Eu1-xCax]Cu2O8+delta system 1997 12 "Laboratory of Inorganic and Analytical Chemistry, Helsinki University of Technology, P.O. Box 6100, FIN-02015 Helsinki, Finland" "Physica.C,292(1997)225-232" 9704 PHC2920225 "(Pb2Cu)Sr2(Eu,Ca)Cu2O8" Pb2Sr2Eu0.8Ca0.2Cu3O8.1 Pb 2 Sr 2 Eu 0.8 Ca 0.2 Cu 3 O 8 8.1 1 1997 Pb3212 K 73 73 1 "mixture-CAL(720C,50h in air). In this sample system oxygen content shows two values (8.1 or 9.8)" Annealing characteristics and calcium doping effects in the superconducting Pb2CuSr2[Eu1-xCax]Cu2O8+delta system 1997 12 "Laboratory of Inorganic and Analytical Chemistry, Helsinki University of Technology, P.O. Box 6100, FIN-02015 Helsinki, Finland" "Physica.C,292(1997)225-232" 9705 PHC2920225 "(Pb2Cu)Sr2(Eu,Ca)Cu2O8" Pb2Sr2Eu0.75Ca0.25Cu3O8.1 Pb 2 Sr 2 Eu 0.75 Ca 0.25 Cu 3 O 8 8.1 1 1997 Pb3212 K 74 74 1 "mixture-CAL(720C,50h in air). In this sample system oxygen content shows two values (8.1 or 9.8)" Annealing characteristics and calcium doping effects in the superconducting Pb2CuSr2[Eu1-xCax]Cu2O8+delta system 1997 12 "Laboratory of Inorganic and Analytical Chemistry, Helsinki University of Technology, P.O. Box 6100, FIN-02015 Helsinki, Finland" "Physica.C,292(1997)225-232" 9706 PHC2920225 small amount of Sr2PbO4 "(Pb2Cu)Sr2(Eu,Ca)Cu2O8" Pb2Sr2Eu0.7Ca0.3Cu3O8.1 Pb 2 Sr 2 Eu 0.7 Ca 0.3 Cu 3 O 8 8.1 1 1997 Pb3212 K 73 73 1 "mixture-CAL(720C,50h in air). In this sample system oxygen content shows two values (8.1 or 9.8)" Annealing characteristics and calcium doping effects in the superconducting Pb2CuSr2[Eu1-xCax]Cu2O8+delta system 1997 12 "Laboratory of Inorganic and Analytical Chemistry, Helsinki University of Technology, P.O. Box 6100, FIN-02015 Helsinki, Finland" "Physica.C,292(1997)225-232" 9707 PHC2920225 small amount of Sr2PbO4 "(Pb2Cu)Sr2(Eu,Ca)Cu2O8" Pb2Sr2Eu0.65Ca0.35Cu3O8.1 Pb 2 Sr 2 Eu 0.65 Ca 0.35 Cu 3 O 8 8.1 1 1997 Pb3212 K 71 71 1 "mixture-CAL(720C,50h in air). In this sample system oxygen content shows two values (8.1 or 9.8)" Annealing characteristics and calcium doping effects in the superconducting Pb2CuSr2[Eu1-xCax]Cu2O8+delta system 1997 12 "Laboratory of Inorganic and Analytical Chemistry, Helsinki University of Technology, P.O. Box 6100, FIN-02015 Helsinki, Finland" "Physica.C,292(1997)225-232" 9708 P063212507 hole/Cu p=0.19 RuSr2EuCu2O8 Ru1Sr2Eu1Cu2O8 Ru 1 Sr 2 Eu 1 Cu 2 O 8 2001 Ru1212 K 35 35 "ANN(1060C, 7 days in O2)" Determination of Ru valence from x-ray absorption near-edge structure in RuSr2GdCu2O8-type superconductors 2001 "Department of Chemistry, National Taiwan University, Taipei, Taiwan, Republic of China" "Phys.Rev.B, 63(2001)212507" 9709 P063212507 hole/Cu p=0.2 RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 2001 Ru1212 K 48 48 "ANN(1060C, 7 days in O2)" Determination of Ru valence from x-ray absorption near-edge structure in RuSr2GdCu2O8-type superconductors 2001 "Department of Chemistry, National Taiwan University, Taipei, Taiwan, Republic of China" "Phys.Rev.B, 63(2001)212507" 9710 P063212507 hole/Cu p=0.23 "RuSr2(Gd,Dy)Cu2O8" Ru1Sr2Gd0.6Dy0.4Cu2O8 Ru 1 Sr 2 Gd 0.6 Dy 0.4 Cu 2 O 8 2001 Ru1212 K 58 58 "ANN(1060C, 7 days in O2)" Determination of Ru valence from x-ray absorption near-edge structure in RuSr2GdCu2O8-type superconductors 2001 "Department of Chemistry, National Taiwan University, Taipei, Taiwan, Republic of China" "Phys.Rev.B, 63(2001)212507" 9711 P063212507 hole/Cu p=0.14 "Ru(Sr,Ba)2GdCu2O8" Ru1Sr1.6Ba0.4Gd1Cu2O8 Ru 1 Sr 1.6 Ba 0.4 Gd 1 Cu 2 O 8 2001 Ru1212 K 34 44 39 "ANN(1060C, 7 days in O2)" Determination of Ru valence from x-ray absorption near-edge structure in RuSr2GdCu2O8-type superconductors 2001 "Department of Chemistry, National Taiwan University, Taipei, Taiwan, Republic of China" "Phys.Rev.B, 63(2001)212507" 9712 P063224512 impurity phase=SrRuO8 RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8+z Ru 1 Sr 2 Gd 1 Cu 2 O 8+z 1 2001 Ru1212 4/mmm A 3.8375 11.5623 K 45 45 "RuO2,SrCO3,Gd2O3,CuO" 1 "mixture-CAL(920C,in air)-pellet-ANN(970C, in O2 flow)-SIN(1060C, 10h, in 600bar O2)" Superconductivity in Ru1-xSr2GdCu2 + xO8-y compounds 2001 "Department of Physics, Northern Illinois University, DeKalb, Illinois 60115" "Phys.Rev.B, 63(2001)224512" 9713 P063224512 impurity phase=SrRuO8 "(Ru,Cu)Sr2GdCu2O8" Ru0.9Sr2Gd1Cu2.1O8+z Ru 0.9 Sr 2 Gd 1 Cu 2.1 O 8+z 1 2001 Ru1212 4/mmm 3.8353 11.5362 K 65 65 "RuO2,SrCO3,Gd2O3,CuO" 1 "mixture-CAL(920C,in air)-pellet-ANN(970C, in O2 flow)-SIN(1060C, 10h, in 600bar O2)" Superconductivity in Ru1-xSr2GdCu2 + xO8-y compounds 2001 "Department of Physics, Northern Illinois University, DeKalb, Illinois 60115" "Phys.Rev.B, 63(2001)224512" 9714 P063224512 impurity phase=SrRuO8 "(Ru,Cu)Sr2GdCu2O8" Ru0.8Sr2Gd1Cu2.2O8+z Ru 0.8 Sr 2 Gd 1 Cu 2.2 O 8+z 1 2001 Ru1212 4/mmm 3.8278 11.5263 K 70 70 "RuO2,SrCO3,Gd2O3,CuO" 1 "mixture-CAL(920C,in air)-pellet-ANN(970C, in O2 flow)-SIN(1060C, 10h, in 600bar O2)" Superconductivity in Ru1-xSr2GdCu2 + xO8-y compounds 2001 "Department of Physics, Northern Illinois University, DeKalb, Illinois 60115" "Phys.Rev.B, 63(2001)224512" 9715 P063224512 impurity phase=SrRuO8 "(Ru,Cu)Sr2GdCu2O8" Ru0.7Sr2Gd1Cu2.3O8+z Ru 0.7 Sr 2 Gd 1 Cu 2.3 O 8+z 1 2001 Ru1212 4/mmm 3.827 11.512 K 72 72 "RuO2,SrCO3,Gd2O3,CuO" 1 "mixture-CAL(920C,in air)-pellet-ANN(970C, in O2 flow)-SIN(1060C, 10h, in 600bar O2)" Superconductivity in Ru1-xSr2GdCu2 + xO8-y compounds 2001 "Department of Physics, Northern Illinois University, DeKalb, Illinois 60115" "Phys.Rev.B, 63(2001)224512" 9716 P063224512 impurity phase=SrRuO8 "(Ru,Cu)Sr2GdCu2O8" Ru0.6Sr2Gd1Cu2.4O8+z Ru 0.6 Sr 2 Gd 1 Cu 2.4 O 8+z 1 2001 Ru1212 4/mmm 3.8238 11.5066 K 72 72 "RuO2,SrCO3,Gd2O3,CuO" 1 "mixture-CAL(920C,in air)-pellet-ANN(970C, in O2 flow)-SIN(1060C, 10h, in 600bar O2)" Superconductivity in Ru1-xSr2GdCu2 + xO8-y compounds 2001 "Department of Physics, Northern Illinois University, DeKalb, Illinois 60115" "Phys.Rev.B, 63(2001)224512" 9717 P063224512 impurity phase=SrRuO8 "(Ru,Cu)Sr2GdCu2O8" Ru0.25Sr2Gd1Cu2.75O8+z Ru 0.25 Sr 2 Gd 1 Cu 2.75 O 8+z 1 2001 Ru1212 4/mmm 3.8197 11.4581 K 62 62 "RuO2,SrCO3,Gd2O3,CuO" 1 "mixture-CAL(920C,in air)-pellet-ANN(970C, in O2 flow)-SIN(1060C, 10h, in 600bar O2)" Superconductivity in Ru1-xSr2GdCu2 + xO8-y compounds 2001 "Department of Physics, Northern Illinois University, DeKalb, Illinois 60115" "Phys.Rev.B, 63(2001)224512" 9718 P063214504 "gamma(in mj/mol-Sm.K2), debye-T estimated from specific heat(100-350C)." "(Sm,Ce)2CuO4" Sm1.85Ce0.15Cu1O4-z Sm 1.85 Ce 0.15 Cu 1 O 4-z 3 2001 per mol 0.36 -6.4 4.7 T' K 16.5 16.5 103.2 219 1 "flux method. As-grown crystals -ANN(880C,16h in an inert gas)-Q" 2001 "Phys.Rev.B, 63(2001)224504" 9719 PHC3490289 RuSr2GdCu2Oz Ru1Sr2Gd1Cu2Oz Ru 1 Sr 2 Gd 1 Cu 2 O z 1 2001 Ru1212 A 3.838 11.559 K 22 45 33.5 1 "SIN(1050C, 72h in flowing O2)" "Preparation, structure and superconductivity of Ru1222 and Ta-doped Ru1212" 2001 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C, 349(2001)289" 9720 PHC3490289 "(Ru,Ta)Sr2GdCu2Oz" Ru0.95Ta0.05Sr2Gd1Cu2Oz Ru 0.95 Ta 0.05 Sr 2 Gd 1 Cu 2 O z 1 2001 Ru1212 A 3.839 11.565 K 10 35 22.5 1 "SIN(1050C, 72h in flowing O2)" "Preparation, structure and superconductivity of Ru1222 and Ta-doped Ru1212" 2001 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C, 349(2001)289" 9721 PHC3490289 not s/c "(Ru,Ta)Sr2GdCu2Oz" Ru0.85Ta0.15Sr2Gd1Cu2Oz Ru 0.85 Ta 0.15 Sr 2 Gd 1 Cu 2 O z 1 2001 Ru1212 A 3.843 11.573 K 4 1 "SIN(1050C, 24h in flowing O2)" "Preparation, structure and superconductivity of Ru1222 and Ta-doped Ru1212" 2001 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C, 349(2001)289" 9722 PHC3490289 higher oxygen content "RuSr2(Gd,Ce)Cu2Oz" Ru1Sr2Gd1.4Ce0.6Cu2Oz Ru 1 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O z 1 2001 Ru1222 A 3.844 28.615 K 35 45 40 1 ANN(high O2 pressure) "Preparation, structure and superconductivity of Ru1222 and Ta-doped Ru1212" 2001 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C, 349(2001)289" 9723 PHC3490317 "Tl(Sr,Th)2CaCu2O7" Tl1Sr1.75Th0.25Ca1Cu2O7 Tl 1 Sr 1.75 Th 0.25 Ca 1 Cu 2 O 7 1 2001 Tl1212 p4/mmm A 3.801 12.099 K 51.6 51.6 "mixture-CAL(800-850C, 24h)-pellet-wrapped in Au foil-SIN(950C, 1 atm O2)" Preparation and magnetic relaxation of Th-doped TlSr2CaCu2O7 superconductors 2001 "Department of Physics, National Chung Cheng University, 160 San-Hsing, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica C, 349(2001)317" 9724 PHC3490317 "Tl(Sr,Th)2CaCu2O7" Tl1Sr1.65Th0.35Ca1Cu2O7 Tl 1 Sr 1.65 Th 0.35 Ca 1 Cu 2 O 7 1 2001 Tl1212 A K 55.3 55.3 "mixture-CAL(800-850C, 24h)-pellet-wrapped in Au foil-SIN(950C, 1 atm O2)" Preparation and magnetic relaxation of Th-doped TlSr2CaCu2O7 superconductors 2001 "Department of Physics, National Chung Cheng University, 160 San-Hsing, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica C, 349(2001)317" 9725 PHC3490317 "TlSr2(Ca,Th)Cu2O7" Tl1Sr2Ca0.75Th0.25Cu2O7 Tl 1 Sr 2 Ca 0.75 Th 0.25 Cu 2 O 7 1 2001 Tl1212 A 3.8 12.094 K 52.5 52.5 "mixture-CAL(800-850C, 24h)-pellet-wrapped in Au foil-SIN(950C, 1 atm O2)" Preparation and magnetic relaxation of Th-doped TlSr2CaCu2O7 superconductors 2001 "Department of Physics, National Chung Cheng University, 160 San-Hsing, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica C, 349(2001)317" 9726 PHC3490317 "TlSr2(Ca,Th)Cu2O7" Tl1Sr2Ca0.65Th0.35Cu2O7 Tl 1 Sr 2 Ca 0.65 Th 0.35 Cu 2 O 7 1 2001 Tl1212 A K 55.3 55.3 "mixture-CAL(800-850C, 24h)-pellet-wrapped in Au foil-SIN(950C, 1 atm O2)" Preparation and magnetic relaxation of Th-doped TlSr2CaCu2O7 superconductors 2001 "Department of Physics, National Chung Cheng University, 160 San-Hsing, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica C, 349(2001)317" 9727 PHC3110297 "Tl(Sr,Gd)2CaCu2O7" Tl1Sr1.5Gd0.5Ca1Cu2O7 Tl 1 Sr 1.5 Gd 0.5 Ca 1 Cu 2 O 7 1 1999 Tl1212 A 3.805 12.026 K 84 79 79 1 "mixture-CAL(800-850C, 24h)-pellet-sealed in quartz tube 1 atm O2 -SIN(950C, 2h)-Q to RT" Magnetic and superconducting properties of Tl(Sr1.5R0.5)CaCu2O7-delta compounds 1999 1 "Department of Physics, National cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica.C,311(1998)297-302" 9728 PHC3110297 "Tl(Sr,Tb)2CaCu2O7" Tl1Sr1.5Tb0.5Ca1Cu2O7 Tl 1 Sr 1.5 Tb 0.5 Ca 1 Cu 2 O 7 1 1999 Tl1212 A 3.796 12.014 K 83 80 80 1 "mixture-CAL(800-850C, 24h)-pellet-sealed in quartz tube 1 atm O2 -SIN(950C, 2h)-Q to RT" Magnetic and superconducting properties of Tl(Sr1.5R0.5)CaCu2O7-delta compounds 1999 1 "Department of Physics, National cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica.C,311(1998)297-302" 9729 PHC3110297 "Tl(Sr,Dy)2CaCu2O7" Tl1Sr1.5Dy0.5Ca1Cu2O7 Tl 1 Sr 1.5 Dy 0.5 Ca 1 Cu 2 O 7 1 1999 Tl1212 A 3.795 12.001 K 80 80 80 1 "mixture-CAL(800-850C, 24h)-pellet-sealed in quartz tube 1 atm O2 -SIN(950C, 2h)-Q to RT" Magnetic and superconducting properties of Tl(Sr1.5R0.5)CaCu2O7-delta compounds 1999 1 "Department of Physics, National cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica.C,311(1998)297-302" 9730 PHC3110297 "Tl(Sr,Ho)2CaCu2O7" Tl1Sr1.5Ho0.5Ca1Cu2O7 Tl 1 Sr 1.5 Ho 0.5 Ca 1 Cu 2 O 7 1 1999 Tl1212 A 3.794 11.996 K 82 80 80 1 "mixture-CAL(800-850C, 24h)-pellet-sealed in quartz tube 1 atm O2 -SIN(950C, 2h)-Q to RT" Magnetic and superconducting properties of Tl(Sr1.5R0.5)CaCu2O7-delta compounds 1999 1 "Department of Physics, National cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica.C,311(1998)297-302" 9731 PHC3110297 "Tl(Sr,Er)2CaCu2O7" Tl1Sr1.5Er0.5Ca1Cu2O7 Tl 1 Sr 1.5 Er 0.5 Ca 1 Cu 2 O 7 1 1999 Tl1212 A 3.787 11.997 K 73 78 78 1 "mixture-CAL(800-850C, 24h)-pellet-sealed in quartz tube 1 atm O2 -SIN(950C, 2h)-Q to RT" Magnetic and superconducting properties of Tl(Sr1.5R0.5)CaCu2O7-delta compounds 1999 1 "Department of Physics, National cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica.C,311(1998)297-302" 9732 PHC3110297 "Tl(Sr,Tm)2CaCu2O7" Tl1Sr1.5Tm0.5Ca1Cu2O7 Tl 1 Sr 1.5 Tm 0.5 Ca 1 Cu 2 O 7 1 1999 Tl1212 A 3.785 11.983 K 83 84 84 1 "mixture-CAL(800-850C, 24h)-pellet-sealed in quartz tube 1 atm O2 -SIN(950C, 2h)-Q to RT" Magnetic and superconducting properties of Tl(Sr1.5R0.5)CaCu2O7-delta compounds 1999 1 "Department of Physics, National cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica.C,311(1998)297-302" 9733 PHC3110297 "Tl(Sr,Yb)2CaCu2O7" Tl1Sr1.5Yb0.5Ca1Cu2O7 Tl 1 Sr 1.5 Yb 0.5 Ca 1 Cu 2 O 7 1 1999 Tl1212 A 3.783 11.981 K 81 84 84 1 "mixture-CAL(800-850C, 24h)-pellet-sealed in quartz tube 1 atm O2 -SIN(950C, 2h)-Q to RT" Magnetic and superconducting properties of Tl(Sr1.5R0.5)CaCu2O7-delta compounds 1999 1 "Department of Physics, National cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica.C,311(1998)297-302" 9734 PHC3110297 "Tl(Sr,La)2CaCu2O7" Tl1Sr1.5La0.5Ca1Cu2O7 Tl 1 Sr 1.5 La 0.5 Ca 1 Cu 2 O 7 1 1999 Tl1212 A 3.807 12.071 K 87 90 90 1 "mixture-CAL(800-850C, 24h)-pellet-sealed in quartz tube 1 atm O2 -SIN(950C, 2h)-Q to RT" Magnetic and superconducting properties of Tl(Sr1.5R0.5)CaCu2O7-delta compounds 1999 1 "Department of Physics, National cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica.C,311(1998)297-302" 9735 PHC3110297 "Tl(Sr,Ce)2CaCu2O7" Tl1Sr1.5Ce0.5Ca1Cu2O7 Tl 1 Sr 1.5 Ce 0.5 Ca 1 Cu 2 O 7 1 1999 Tl1212 A 3.808 12.027 K 5 5 1 "mixture-CAL(800-850C, 24h)-pellet-sealed in quartz tube 1 atm O2 -SIN(950C, 2h)-Q to RT" Magnetic and superconducting properties of Tl(Sr1.5R0.5)CaCu2O7-delta compounds 1999 1 "Department of Physics, National cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica.C,311(1998)297-302" 9736 PHC3110297 "Tl(Sr,Pr)2CaCu2O7" Tl1Sr1.5Pr0.5Ca1Cu2O7 Tl 1 Sr 1.5 Pr 0.5 Ca 1 Cu 2 O 7 1 1999 Tl1212 A 3.809 12.047 K 87 88 88 1 "mixture-CAL(800-850C, 24h)-pellet-sealed in quartz tube 1 atm O2 -SIN(950C, 2h)-Q to RT" Magnetic and superconducting properties of Tl(Sr1.5R0.5)CaCu2O7-delta compounds 1999 1 "Department of Physics, National cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica.C,311(1998)297-302" 9737 PHC3110297 "Tl(Sr,Nd)2CaCu2O7" Tl1Sr1.5Nd0.5Ca1Cu2O7 Tl 1 Sr 1.5 Nd 0.5 Ca 1 Cu 2 O 7 1 1999 Tl1212 A 3.809 12.046 K 87 88 88 1 "mixture-CAL(800-850C, 24h)-pellet-sealed in quartz tube 1 atm O2 -SIN(950C, 2h)-Q to RT" Magnetic and superconducting properties of Tl(Sr1.5R0.5)CaCu2O7-delta compounds 1999 1 "Department of Physics, National cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica.C,311(1998)297-302" 9738 PHC3110297 "Tl(Sr,Sm)2CaCu2O7" Tl1Sr1.5Sm0.5Ca1Cu2O7 Tl 1 Sr 1.5 Sm 0.5 Ca 1 Cu 2 O 7 1 1999 Tl1212 A 3.803 12.031 K 82 86 86 1 "mixture-CAL(800-850C, 24h)-pellet-sealed in quartz tube 1 atm O2 -SIN(950C, 2h)-Q to RT" Magnetic and superconducting properties of Tl(Sr1.5R0.5)CaCu2O7-delta compounds 1999 1 "Department of Physics, National cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica.C,311(1998)297-302" 9739 PHC3110297 "Tl(Sr,Eu)2CaCu2O7" Tl1Sr1.5Eu0.5Ca1Cu2O7 Tl 1 Sr 1.5 Eu 0.5 Ca 1 Cu 2 O 7 1 1999 Tl1212 A 3.801 12.024 K 86 88 88 1 "mixture-CAL(800-850C, 24h)-pellet-sealed in quartz tube 1 atm O2 -SIN(950C, 2h)-Q to RT" Magnetic and superconducting properties of Tl(Sr1.5R0.5)CaCu2O7-delta compounds 1999 1 "Department of Physics, National cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica.C,311(1998)297-302" 9740 PHC3110297 "Tl(Sr,Lu)2CaCu2O7" Tl1Sr1.5Lu0.5Ca1Cu2O7 Tl 1 Sr 1.5 Lu 0.5 Ca 1 Cu 2 O 7 1 1999 Tl1212 A 3.782 11.98 K 82 82 82 1 "mixture-CAL(800-850C, 24h)-pellet-sealed in quartz tube 1 atm O2 -SIN(950C, 2h)-Q to RT" Magnetic and superconducting properties of Tl(Sr1.5R0.5)CaCu2O7-delta compounds 1999 1 "Department of Physics, National cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica.C,311(1998)297-302" 9741 PHC3110187 "composition by EPMA. Bi,Pb,Y,Al entered from crucible and flux. Cu-site large deficiency. Semicon-like." "(Sr,Ca)10Cu17O29" Ca5.9Sr3.5Bi0.3Y0.1Pb0.1Al0.1Cu15.1O29 Ca 5.9 Sr 3.5 Bi 0.3 Y 0.1 Pb 0.1 Al 0.1 Cu 15.1 O 29 3 1999 LAD A 11.316 12.763 19.49 K 70 80 75 um fitting 2.5 0.6 self-flux method "Magnetic and superconducting properties of doped (Sr,Ca)10Cu17O29-type single crystals" 1999 1 "Institute Physics, Polish Academy of Sciences, AL. Lotniko'w 32/46, 02-668 Warsaw, Poland" "Physica.C,311(1998)187-196" 9742 PHC3500105 "(Ru,Ce)(Sr,Eu)2(Eu,Ce)2Cu2O10" Ru0.92Ce0.58Sr1.7Eu1.8Cu2O10 Ru 0.92 Ce 0.58 Sr 1.7 Eu 1.8 Cu 2 O 10 2001 Ru1222 A 3.8424 28.559 K 12 40 26 1 "ANN(1040C, 48h, in O2)-ANN(1000C, 72h, in 1 Gpa O2)" "Crystal structure of Ru(Sr,Gd)2(Gd,Sr)Cu2O8 and Ru(Sr,Eu)2(Eu,Ce)2Cu2O10 phases" 2001 "Department of Solid State Physics and Chemistry, M.V. Lomonosov State Academy of Fine Chemical Technology, Moscow 117571, Russian Federation" "Physica C, 350(2001)105" 9743 PHC3500024 RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 2001 132 Ru1212 A 3.8375 11.563 K 35 46 35 35 1 "ANN(1010C, in Ar flow)-ANN(1030C-1060C in O2 flow)-slow cool to 500C-Q to RT-ANN(1065C, 600 atm O2-slow cool to RT" Effect of Ce doping on the superconducting and magnetic properties of RuSr2GdCu2O8 2001 "Department of Physics, Northern Illinois University, 218 Faraday Hall, DeKalb, IL 60115, USA" "Physica C, 350(2001)24" 9744 PHC3500024 "RuSr2(Gd,Ce)Cu2O8" Ru1Sr2Gd0.98Ce0.02Cu2O8 Ru 1 Sr 2 Gd 0.98 Ce 0.02 Cu 2 O 8 2001 136 Ru1212 A 3.8387 11.5621 K 13 36 13 13 1 "ANN(1010C, in Ar flow)-ANN(1030C-1060C in O2 flow)-slow cool to 500C-Q to RT-ANN(1065C, 600 atm O2-slow cool to RT" Effect of Ce doping on the superconducting and magnetic properties of RuSr2GdCu2O8 2001 "Department of Physics, Northern Illinois University, 218 Faraday Hall, DeKalb, IL 60115, USA" "Physica C, 350(2001)24" 9745 PHC3500024 not s/c "RuSr2(Gd,Ce)Cu2O8" Ru1Sr2Gd0.95Ce0.05Cu2O8 Ru 1 Sr 2 Gd 0.95 Ce 0.05 Cu 2 O 8 2001 145 Ru1212 A 3.8406 11.5703 K 5 1 "ANN(1010C, in Ar flow)-ANN(1030C-1060C in O2 flow)-slow cool to 500C-Q to RT-ANN(1065C, 600 atm O2-slow cool to RT" Effect of Ce doping on the superconducting and magnetic properties of RuSr2GdCu2O8 2001 "Department of Physics, Northern Illinois University, 218 Faraday Hall, DeKalb, IL 60115, USA" "Physica C, 350(2001)24" 9746 PHC3500024 SrRuO3 second phase detected "RuSr2(Gd,Ca)Cu2O8" Ru1Sr2Gd0.9Ca0.1Cu2O8 Ru 1 Sr 2 Gd 0.9 Ca 0.1 Cu 2 O 8 2001 Ru1212 A K 61 61 1 "ANN(1010C, in Ar flow)-ANN(1030C-1060C in O2 flow)-slow cool to 500C-Q to RT-ANN(1065C, 600 atm O2-slow cool to RT" Effect of Ce doping on the superconducting and magnetic properties of RuSr2GdCu2O8 2001 "Department of Physics, Northern Illinois University, 218 Faraday Hall, DeKalb, IL 60115, USA" "Physica C, 350(2001)24" 9747 PHC3110246 EuBaSrCu3O7 Eu1Ba2Cu3O7 Eu 1 Ba 2 Cu 3 O 7 1999 Y123 A 3.8021 3.8453 11.5821 K 84.4 84.4 1 "mixture-CAL(1225K,24h)-pellet-SIN(1250C,78 h)-ANN(1100C,12h in flowing Ar)-ANN(725K,72h in O2)-cool to RT(1C/min)" Structural and superconducting properties of Ru1-xPrxBaSrCu3O7-delta 1999 1 "Chemistry Division, Bhabha Atomic Research Center, Bombay 400 0085, India" "Physica.C,311(1998)246-252" 9748 PHC3110246 "(Eu,Pr)BaSrCu3O7" Eu0.9Pr0.1Ba2Cu3O7 Eu 0.9 Pr 0.1 Ba 2 Cu 3 O 7 1999 Y123 A 3.8305 3.8463 11.6157 K 68.3 68.3 1 "mixture-CAL(1225K,24h)-pellet-SIN(1250C,78 h)-ANN(1100C,12h in flowing Ar)-ANN(725K,72h in O2)-cool to RT(1C/min)" Structural and superconducting properties of Ru1-xPrxBaSrCu3O7-delta 1999 1 "Chemistry Division, Bhabha Atomic Research Center, Bombay 400 0085, India" "Physica.C,311(1998)246-252" 9749 PHC3110246 "(Eu,Pr)BaSrCu3O7" Eu0.8Pr0.2Ba2Cu3O7 Eu 0.8 Pr 0.2 Ba 2 Cu 3 O 7 1999 Y123 A 3.8551 11.6106 K 63 63 1 "mixture-CAL(1225K,24h)-pellet-SIN(1250C,78 h)-ANN(1100C,12h in flowing Ar)-ANN(725K,72h in O2)-cool to RT(1C/min)" Structural and superconducting properties of Ru1-xPrxBaSrCu3O7-delta 1999 1 "Chemistry Division, Bhabha Atomic Research Center, Bombay 400 0085, India" "Physica.C,311(1998)246-252" 9750 PHC3110246 "(Eu,Pr)BaSrCu3O7" Eu0.7Pr0.3Ba2Cu3O7 Eu 0.7 Pr 0.3 Ba 2 Cu 3 O 7 1999 Y123 A 3.8579 11.598 K 53.8 53.8 1 "mixture-CAL(1225K,24h)-pellet-SIN(1250C,78 h)-ANN(1100C,12h in flowing Ar)-ANN(725K,72h in O2)-cool to RT(1C/min)" Structural and superconducting properties of Ru1-xPrxBaSrCu3O7-delta 1999 1 "Chemistry Division, Bhabha Atomic Research Center, Bombay 400 0085, India" "Physica.C,311(1998)246-252" 9751 PHC3110246 "(Eu,Pr)BaSrCu3O7" Eu0.6Pr0.4Ba2Cu3O7 Eu 0.6 Pr 0.4 Ba 2 Cu 3 O 7 1999 Y123 A 3.8596 11.5989 K 37.8 37.8 1 "mixture-CAL(1225K,24h)-pellet-SIN(1250C,78 h)-ANN(1100C,12h in flowing Ar)-ANN(725K,72h in O2)-cool to RT(1C/min)" Structural and superconducting properties of Ru1-xPrxBaSrCu3O7-delta 1999 1 "Chemistry Division, Bhabha Atomic Research Center, Bombay 400 0085, India" "Physica.C,311(1998)246-252" 9752 PHC3110246 "(Eu,Pr)BaSrCu3O7" Eu0.5Pr0.5Ba2Cu3O7 Eu 0.5 Pr 0.5 Ba 2 Cu 3 O 7 1999 Y123 A 3.8586 11.5938 K 26.7 26.7 1 "mixture-CAL(1225K,24h)-pellet-SIN(1250C,78 h)-ANN(1100C,12h in flowing Ar)-ANN(725K,72h in O2)-cool to RT(1C/min)" Structural and superconducting properties of Ru1-xPrxBaSrCu3O7-delta 1999 1 "Chemistry Division, Bhabha Atomic Research Center, Bombay 400 0085, India" "Physica.C,311(1998)246-252" 9753 PHC3110246 "(Eu,Pr)BaSrCu3O7" Eu0.4Pr0.6Ba2Cu3O7 Eu 0.4 Pr 0.6 Ba 2 Cu 3 O 7 1999 Y123 A 3.8649 11.5959 K 4 1 "mixture-CAL(1225K,24h)-pellet-SIN(1250C,78 h)-ANN(1100C,12h in flowing Ar)-ANN(725K,72h in O2)-cool to RT(1C/min)" Structural and superconducting properties of Ru1-xPrxBaSrCu3O7-delta 1999 1 "Chemistry Division, Bhabha Atomic Research Center, Bombay 400 0085, India" "Physica.C,311(1998)246-252" 9754 PHC3510329 carbonate-free samples. Optimally doped sample. Precise component=Hg0.970Ba2CuO4.059(CO3)0.0088 by NED. HgBa2CuO4 Hg1Ba2Cu1O4.09 Hg 1 Ba 2 Cu 1 O 4+z 4.09 1 2001 Hg1201 A 3.8817 9.5339 K 97 98 98 TC9754 80 "HgO,BaO,CuO" 1 using carbon free materials Superconducting and structural properties of nearly carbonate-free HgBa2CuO4+z 2001 "Superconductivity Research Laboratory, International Superconductivity Technology Center (ISTEC), 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Physica C, 351(2001)329" 9755 PHC3510363 pseudogap temp. not shown numerically HoNbO3 Ho1Nb1O3-z Ho 1 Nb 1 O 3-z 2001 per Ho 9 ABO3 K 15 15 "chemical reaction, then heat treatment." On the superconducting and magnetic properties of HoNbO3-z and EuNbO3-z complex oxides 2001 "Institute of Solid State Physics, 142432, Chernogolovka, Moscow, Russia" "Physica C, 351(2001)363" 9756 PHC3510363 pseudogap temp. not shown numerically EuNbO3 Eu1Nb1O3-z Eu 1 Nb 1 O 3-z 2001 per Eu 6.5 4.4 ABO3 K 6 6 "chemical reaction, then heat treatment." On the superconducting and magnetic properties of HoNbO3-z and EuNbO3-z complex oxides 2001 "Institute of Solid State Physics, 142432, Chernogolovka, Moscow, Russia" "Physica C, 351(2001)363" 9757 PHC3510402 pseudogap temp. not shown numerically Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 3 2001 Bi2212 K 90.38 3.2 90.38 crystals were grown from a Bi2O3-rich melt in Al2O3 crucibles. The detailed transport property of the underdoped Bi-2212 system in 2001 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C, 351(2001)402" 9758 PHC3510402 pseudogap temp. not shown numerically "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.97Y0.03Cu2Oz Bi 2 Sr 2 Ca 0.97 Y 0.03 Cu 2 O z 3 2001 Bi2212 K 87.56 3.9 87.56 crystals were grown from a Bi2O3-rich melt in Al2O3 crucibles. The detailed transport property of the underdoped Bi-2212 system in 2001 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C, 351(2001)402" 9759 PHC3510402 pseudogap temp. not shown numerically "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.95Y0.05Cu2Oz Bi 2 Sr 2 Ca 0.95 Y 0.05 Cu 2 O z 3 2001 Bi2212 K 82 6.2 82 crystals were grown from a Bi2O3-rich melt in Al2O3 crucibles. The detailed transport property of the underdoped Bi-2212 system in 2001 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C, 351(2001)402" 9760 PHC3510402 pseudogap temp. not shown numerically "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.92Y0.08Cu2Oz Bi 2 Sr 2 Ca 0.92 Y 0.08 Cu 2 O z 3 2001 Bi2212 K 70.78 6.85 70.78 crystals were grown from a Bi2O3-rich melt in Al2O3 crucibles. The detailed transport property of the underdoped Bi-2212 system in 2001 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C, 351(2001)402" 9761 PHC3510402 pseudogap temp. not shown numerically "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.89Y0.11Cu2Oz Bi 2 Sr 2 Ca 0.89 Y 0.11 Cu 2 O z 3 2001 Bi2212 K 56.1 5.5 56.1 crystals were grown from a Bi2O3-rich melt in Al2O3 crucibles. The detailed transport property of the underdoped Bi-2212 system in 2001 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C, 351(2001)402" 9762 PHC3510402 "Bi2(Sr,La)2CaCu2O8" Bi2Sr1.9La0.1Ca1Cu2Oz Bi 2 Sr 1.9 La 0.1 Ca 1 Cu 2 O z 1 2001 Bi2212 K 88.67 4.8 88.67 uV/K 2.11 TP9762 not shown The detailed transport property of the underdoped Bi-2212 system in 2001 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C, 351(2001)402" 9763 PHC3510402 pseudogap temp.=160K "Bi2(Sr,La)2CaCu2O8" Bi2Sr1.8La0.2Ca1Cu2Oz Bi 2 Sr 1.8 La 0.2 Ca 1 Cu 2 O z 1 2001 Bi2212 K 85.3 7.3 85.3 uV/K 4.21 TP9763 not shown The detailed transport property of the underdoped Bi-2212 system in 2001 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C, 351(2001)402" 9764 PHC3510402 pseudogap temp.=190K "Bi2(Sr,La)2CaCu2O8" Bi2Sr1.7La0.3Ca1Cu2Oz Bi 2 Sr 1.7 La 0.3 Ca 1 Cu 2 O z 1 2001 Bi2212 K 76.3 9.4 76.3 uV/K 6.84 TP9764 not shown The detailed transport property of the underdoped Bi-2212 system in 2001 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C, 351(2001)402" 9765 PHC3510402 pseudogap temp.=220K "Bi2(Sr,La)2CaCu2O8" Bi2Sr1.6La0.4Ca1Cu2Oz Bi 2 Sr 1.6 La 0.4 Ca 1 Cu 2 O z 1 2001 Bi2212 K 60.73 10.7 60.73 uV/K 10.92 TP9765 not shown The detailed transport property of the underdoped Bi-2212 system in 2001 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Physica C, 351(2001)402" 9766 PHC3530060 optimally doped oxygen Tl2Ba2CuO6 Tl2Ba2Cu1O6+z Tl 2 Ba 2 Cu 1 O 6+z 3 2001 Tl2201 K 88.9 88.9 K/Gpa 1.7 See Physica C 199(1992)50. Not annealing Influence of oxygen doping on the sign of the slope of Tc vs pressure curves in Tl2Ba2CuO6+x 2001 "Institute of Solid State Physics, Russian Academy of Sciences, Chernogolovka Moscow District, 142432 Russia" "Physica C, 353(2001)60" 9767 PHC3530060 overdoped but O-content not measured Tl2Ba2CuO6 Tl2Ba2Cu1O6+z Tl 2 Ba 2 Cu 1 O 6+z 3 2001 Tl2201 K 40 40 K/Gpa -4.3 See Physica C 199(1992)50. Not annealing Influence of oxygen doping on the sign of the slope of Tc vs pressure curves in Tl2Ba2CuO6+x 2001 "Institute of Solid State Physics, Russian Academy of Sciences, Chernogolovka Moscow District, 142432 Russia" "Physica C, 353(2001)60" 9768 PHC3530077 NdBa2Cu3O7 Nd1Ba2Cu3O7-z Nd 1 Ba 2 Cu 3 O 7-z 1 2001 Y123 A 11.7539 K 93.3 2.3 93.3 TP9768 1 "ANN(460C, 3days in flowing O2)-cool to RT(12 C/h)" Thermoelectric power and resistivity of Nd1-xPrxBa2Cu3O7- z 2001 "Solid State Physics, Royal Institute of Technology, SE-100 44 Stockholm, Sweden" "Physica C, 353(2001)77" 9769 PHC3530077 "(Nd,Pr)Ba2Cu3O7" Nd0.95Pr0.05Ba2Cu3O7-z Nd 0.95 Pr 0.05 Ba 2 Cu 3 O 7-z 1 2001 Y123 A 11.7514 K 84.4 4 84.4 TP9769 1 "ANN(460C, 3days in flowing O2)-cool to RT(12 C/h)" Thermoelectric power and resistivity of Nd1-xPrxBa2Cu3O7- z 2001 "Solid State Physics, Royal Institute of Technology, SE-100 44 Stockholm, Sweden" "Physica C, 353(2001)77" 9770 PHC3530077 "(Nd,Pr)Ba2Cu3O7" Nd0.9Pr0.1Ba2Cu3O7-z Nd 0.9 Pr 0.1 Ba 2 Cu 3 O 7-z 1 2001 Y123 A 11.7437 K 73 5.3 73 TP9770 1 "ANN(460C, 3days in flowing O2)-cool to RT(12 C/h)" Thermoelectric power and resistivity of Nd1-xPrxBa2Cu3O7- z 2001 "Solid State Physics, Royal Institute of Technology, SE-100 44 Stockholm, Sweden" "Physica C, 353(2001)77" 9771 PHC3530077 "(Nd,Pr)Ba2Cu3O7" Nd0.85Pr0.15Ba2Cu3O7-z Nd 0.85 Pr 0.15 Ba 2 Cu 3 O 7-z 1 2001 Y123 A 11.7435 K 59.7 4.4 59.7 TP9771 1 "ANN(460C, 3days in flowing O2)-cool to RT(12 C/h)" Thermoelectric power and resistivity of Nd1-xPrxBa2Cu3O7- z 2001 "Solid State Physics, Royal Institute of Technology, SE-100 44 Stockholm, Sweden" "Physica C, 353(2001)77" 9772 PHC3390245 NdBa2Cu3O7 Nd1Ba2Cu3O7-z Nd 1 Ba 2 Cu 3 O 7-z 1 2000 Y123 A 3.8719 3.9215 11.7399 K 92.81 92.81 uV/K 8.93 TP9772 "ANN(460C, 3days in flowing O2)-cool to RT(12 C/h)" Thermoelectric power and resistivity of Nd1-xCaxBa2Cu3Oy and Nd1-xLaxBa2Cu3Oy 2000 "Solid State Physics, Royal Institute of Technology, SE-100 44 Stockholm, Sweden" "Physica C, 339(2000)245" 9773 PHC3390245 "(Nd,Ca)Ba2Cu3" Nd0.97Ca0.03Ba2Cu3O7-z Nd 0.97 Ca 0.03 Ba 2 Cu 3 O 7-z 1 2000 Y123 A 3.8674 3.917 11.7423 K 90.36 90.36 uV/K 4.96 TP9773 "ANN(460C, 3days in flowing O2)-cool to RT(12 C/h)" Thermoelectric power and resistivity of Nd1-xCaxBa2Cu3Oy and Nd1-xLaxBa2Cu3Oy 2000 "Solid State Physics, Royal Institute of Technology, SE-100 44 Stockholm, Sweden" "Physica C, 339(2000)245" 9774 PHC3390245 "(Nd,Ca)Ba2Cu3" Nd0.94Ca0.06Ba2Cu3O7-z Nd 0.94 Ca 0.06 Ba 2 Cu 3 O 7-z 1 2000 Y123 A 3.8652 3.9104 11.751 K 88 88 uV/K 4.86 TP9774 "ANN(460C, 3days in flowing O2)-cool to RT(12 C/h)" Thermoelectric power and resistivity of Nd1-xCaxBa2Cu3Oy and Nd1-xLaxBa2Cu3Oy 2000 "Solid State Physics, Royal Institute of Technology, SE-100 44 Stockholm, Sweden" "Physica C, 339(2000)245" 9775 PHC3390245 "(Nd,Ca)Ba2Cu3" Nd0.9Ca0.1Ba2Cu3O7-z Nd 0.9 Ca 0.1 Ba 2 Cu 3 O 7-z 1 2000 Y123 A 3.8607 3.9044 11.751 K 85.34 85.34 uV/K 4.22 TP9775 "ANN(460C, 3days in flowing O2)-cool to RT(12 C/h)" Thermoelectric power and resistivity of Nd1-xCaxBa2Cu3Oy and Nd1-xLaxBa2Cu3Oy 2000 "Solid State Physics, Royal Institute of Technology, SE-100 44 Stockholm, Sweden" "Physica C, 339(2000)245" 9776 PHC3390245 "(Nd,La)Ba2Cu3" Nd0.95La0.05Ba2Cu3O7-z Nd 0.95 La 0.05 Ba 2 Cu 3 O 7-z 1 2000 Y123 A 3.8686 3.9174 11.7441 K 91.78 91.78 uV/K 10.3 TP9776 "ANN(460C, 3days in flowing O2)-cool to RT(12 C/h)" Thermoelectric power and resistivity of Nd1-xCaxBa2Cu3Oy and Nd1-xLaxBa2Cu3Oy 2000 "Solid State Physics, Royal Institute of Technology, SE-100 44 Stockholm, Sweden" "Physica C, 339(2000)245" 9777 PHC3390245 "(Nd,La)Ba2Cu3" Nd0.9La0.1Ba2Cu3O7-z Nd 0.9 La 0.1 Ba 2 Cu 3 O 7-z 1 2000 Y123 A 3.868 3.9092 11.754 K 91.09 91.09 uV/K 10.98 TP9777 "ANN(460C, 3days in flowing O2)-cool to RT(12 C/h)" Thermoelectric power and resistivity of Nd1-xCaxBa2Cu3Oy and Nd1-xLaxBa2Cu3Oy 2000 "Solid State Physics, Royal Institute of Technology, SE-100 44 Stockholm, Sweden" "Physica C, 339(2000)245" 9778 PHC3390245 "(Nd,La)Ba2Cu3" Nd0.85La0.15Ba2Cu3O7-z Nd 0.85 La 0.15 Ba 2 Cu 3 O 7-z 1 2000 Y123 A 3.868 3.9086 11.7561 K 89.21 89.21 uV/K 11.02 TP9778 "ANN(460C, 3days in flowing O2)-cool to RT(12 C/h)" Thermoelectric power and resistivity of Nd1-xCaxBa2Cu3Oy and Nd1-xLaxBa2Cu3Oy 2000 "Solid State Physics, Royal Institute of Technology, SE-100 44 Stockholm, Sweden" "Physica C, 339(2000)245" 9779 PHC3530200 TlSr2Ca2Cu3Oz Tl1Sr2Ca2Cu3Oz Tl 1 Sr 2 Ca 2 Cu 3 O z 1 2001 Tl1223 A 3.8121 15.2384 K 86 86 HIR9779 -0.4 TP9779 "high pressure synthesis(1100C, 1h, p=6GPa)-Q to RT" "Doping states and irreversibility fields of high-pressure-synthesized (Tl,Cu)Sr2Ca2Cu3Oy superconductors" 2001 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Physica C, 353(2001)200" 9780 PHC3530200 "(Tl,Cu)Sr2Ca2Cu3Oz" Tl0.8Sr2Ca2Cu3.2Oz Tl 0.8 Sr 2 Ca 2 Cu 3.2 O z 1 2001 Tl1223 A 3.81 15.2679 K 92 92 "high pressure synthesis(1100C, 1h, p=6GPa)-Q to RT" "Doping states and irreversibility fields of high-pressure-synthesized (Tl,Cu)Sr2Ca2Cu3Oy superconductors" 2001 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Physica C, 353(2001)200" 9781 PHC3530200 "(Tl,Cu)Sr2Ca2Cu3Oz" Tl0.6Sr2Ca2Cu3.4Oz Tl 0.6 Sr 2 Ca 2 Cu 3.4 O z 1 2001 Tl1223 A 3.8073 15.281 K 73 73 HIR9781 -3.52 TP9781 "high pressure synthesis(1100C, 1h, p=6GPa)-Q to RT" "Doping states and irreversibility fields of high-pressure-synthesized (Tl,Cu)Sr2Ca2Cu3Oy superconductors" 2001 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Physica C, 353(2001)200" 9782 PHC3530200 "(Tl,Cu)Sr2Ca2Cu3Oz" Tl0.4Sr2Ca2Cu3.6Oz Tl 0.4 Sr 2 Ca 2 Cu 3.6 O z 1 2001 Tl1223 A 3.8073 15.3118 K 71 71 "high pressure synthesis(1100C, 1h, p=6GPa)-Q to RT" "Doping states and irreversibility fields of high-pressure-synthesized (Tl,Cu)Sr2Ca2Cu3Oy superconductors" 2001 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Physica C, 353(2001)200" 9783 PHC3530200 "ANN(350C, 20h, in Ar flow)" "(Tl,Cu)Sr2Ca2Cu3Oz" Tl0.6Sr2Ca2Cu3.4Oz Tl 0.6 Sr 2 Ca 2 Cu 3.4 O z 1 2001 Tl1223 A K 94 94 HIR9783 -0.04 TP9783 "high pressure synthesis(1100C, 1h, p=6GPa)-Q to RT" "Doping states and irreversibility fields of high-pressure-synthesized (Tl,Cu)Sr2Ca2Cu3Oy superconductors" 2001 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Physica C, 353(2001)200" 9784 PHC3530213 over-doped. two counterelectrode(Au) on ab-plane Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 3 2001 Bi2212 K 87 87 meV 26 8.2 melt(1253K)-cool to 1078K(0.6K/h) Superconducting energy gap of underdoped and overdoped Bi2Sr2CaCu2O8 2001 "Department of Applied Physics, Science University of Tokyo, 1-3 Kagurazaka, Shinjuku-ku, Tokyo 162-8601, Japan" "Physica C, 353(2001)213" 9785 PHC3530213 two counterelectrode(Au) on ab-plane Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 3 2001 Bi2212 K 92 92 meV 35 8.9 melt(1253K)-cool to 1078K(0.6K/h) Superconducting energy gap of underdoped and overdoped Bi2Sr2CaCu2O8 2001 "Department of Applied Physics, Science University of Tokyo, 1-3 Kagurazaka, Shinjuku-ku, Tokyo 162-8601, Japan" "Physica C, 353(2001)213" 9786 PHC3530213 two counterelectrode(Au) on ab-plane Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 3 2001 Bi2212 K 87 87 meV 45 12 melt(1253K)-cool to 1078K(0.6K/h) Superconducting energy gap of underdoped and overdoped Bi2Sr2CaCu2O8 2001 "Department of Applied Physics, Science University of Tokyo, 1-3 Kagurazaka, Shinjuku-ku, Tokyo 162-8601, Japan" "Physica C, 353(2001)213" 9787 PHC3530213 two counterelectrode(Au) on ab-plane Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 3 2001 Bi2212 K 84 84 meV 32 8.8 melt(1253K)-cool to 1078K(0.6K/h) Superconducting energy gap of underdoped and overdoped Bi2Sr2CaCu2O8 2001 "Department of Applied Physics, Science University of Tokyo, 1-3 Kagurazaka, Shinjuku-ku, Tokyo 162-8601, Japan" "Physica C, 353(2001)213" 9788 PHC3530213 two counterelectrode(Au) on ab-plane Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 3 2001 Bi2212 K 82 82 meV 33.5 9.4 melt(1253K)-cool to 1078K(0.6K/h) Superconducting energy gap of underdoped and overdoped Bi2Sr2CaCu2O8 2001 "Department of Applied Physics, Science University of Tokyo, 1-3 Kagurazaka, Shinjuku-ku, Tokyo 162-8601, Japan" "Physica C, 353(2001)213" 9789 SUP0130121 "(La,Pb)2CuOz" La1.5Pb0.5Cu1Oz La 1.5 Pb 0.5 Cu 1 O z 2000 T A 5.348 5.3662 13.2193 K 15 15 8 "precursor(La1.5SrxCuOz)+PbO - sealed in quartz tube-heat(900C)-ANN(450C, 24h, 20 bar O2)-slow cool to RT" "Synthesis, structure, and superconductivity of (La1.5Pb0.5-xSrx)CuOz" 2000 "SRL, Shinonome,Koto-ku, Tokyo,Japan" "J.Supercond., 13(2000)121" 9790 SUP0130121 "(La,Pb,Sr)2CuOz" La1.5Pb0.47Sr0.03Cu1Oz La 1.5 Pb 0.47 Sr 0.03 Cu 1 O z 2000 T A 3.7895 13.2064 K 22 22 5 "precursor(La1.5SrxCuOz)+PbO - sealed in quartz tube-heat(900C)-ANN(450C, 24h, 20 bar O2)-slow cool to RT" "Synthesis, structure, and superconductivity of (La1.5Pb0.5-xSrx)CuOz" 2000 "SRL, Shinonome,Koto-ku, Tokyo,Japan" "J.Supercond., 13(2000)121" 9791 SUP0130121 "(La,Pb,Sr)2CuOz" La1.5Pb0.45Sr0.05Cu1Oz La 1.5 Pb 0.45 Sr 0.05 Cu 1 O z 2000 T A 3.7863 13.2086 K 27 27 19 "precursor(La1.5SrxCuOz)+PbO - sealed in quartz tube-heat(900C)-ANN(450C, 24h, 20 bar O2)-slow cool to RT" "Synthesis, structure, and superconductivity of (La1.5Pb0.5-xSrx)CuOz" 2000 "SRL, Shinonome,Koto-ku, Tokyo,Japan" "J.Supercond., 13(2000)121" 9792 SUP0130121 "(La,Pb,Sr)2CuOz" La1.5Pb0.42Sr0.08Cu1Oz La 1.5 Pb 0.42 Sr 0.08 Cu 1 O z 2000 T A 3.784 13.2078 K 34 34 17 "precursor(La1.5SrxCuOz)+PbO - sealed in quartz tube-heat(900C)-ANN(450C, 24h, 20 bar O2)-slow cool to RT" "Synthesis, structure, and superconductivity of (La1.5Pb0.5-xSrx)CuOz" 2000 "SRL, Shinonome,Koto-ku, Tokyo,Japan" "J.Supercond., 13(2000)121" 9793 SUP0130121 "(La,Pb,Sr)2CuOz" La1.5Pb0.4Sr0.1Cu1Oz La 1.5 Pb 0.4 Sr 0.1 Cu 1 O z 2000 T A 3.7818 13.2095 K 36 36 18 "precursor(La1.5SrxCuOz)+PbO - sealed in quartz tube-heat(900C)-ANN(450C, 24h, 20 bar O2)-slow cool to RT" "Synthesis, structure, and superconductivity of (La1.5Pb0.5-xSrx)CuOz" 2000 "SRL, Shinonome,Koto-ku, Tokyo,Japan" "J.Supercond., 13(2000)121" 9794 SUP0130121 "(La,Pb,Sr)2CuOz" La1.5Pb0.35Sr0.15Cu1Oz La 1.5 Pb 0.35 Sr 0.15 Cu 1 O z 2000 T A 3.7802 13.212 K 38 38 38 "precursor(La1.5SrxCuOz)+PbO - sealed in quartz tube-heat(900C)-ANN(450C, 24h, 20 bar O2)-slow cool to RT" "Synthesis, structure, and superconductivity of (La1.5Pb0.5-xSrx)CuOz" 2000 "SRL, Shinonome,Koto-ku, Tokyo,Japan" "J.Supercond., 13(2000)121" 9795 SUP0130137 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+z Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 1 2000 Bi2212 K 85.05 85.05 "SIN(910-940C, 30-70h)" Substitution effect of Sn for Cu in the Bi2Sr2CaCu2-xSnxO8+z system 2000 "Technical Physics Department, Peking University, Beijing,China" "J.Supercond., 13(2000)137" 9796 SUP0130137 XPS shows Sn enters with (2+) state "Bi2Sr2Ca(Cu,Sn)2O8" Bi2Sr2Ca1Cu1.9Sn0.1O8+z Bi 2 Sr 2 Ca 1 Cu 1.9 Sn 0.1 O 8+z 1 2000 Bi2212 K 84.82 84.82 "SIN(910-940C, 30-70h)" Substitution effect of Sn for Cu in the Bi2Sr2CaCu2-xSnxO8+z system 2000 "Technical Physics Department, Peking University, Beijing,China" "J.Supercond., 13(2000)137" 9797 SUP0130137 XPS shows Sn enters with (2+) state "Bi2Sr2Ca(Cu,Sn)2O8" Bi2Sr2Ca1Cu1.8Sn0.2O8+z Bi 2 Sr 2 Ca 1 Cu 1.8 Sn 0.2 O 8+z 1 2000 Bi2212 K 84.5 84.5 "SIN(910-940C, 30-70h)" Substitution effect of Sn for Cu in the Bi2Sr2CaCu2-xSnxO8+z system 2000 "Technical Physics Department, Peking University, Beijing,China" "J.Supercond., 13(2000)137" 9798 SUP0130137 XPS shows Sn enters with (2+) state "Bi2Sr2Ca(Cu,Sn)2O8" Bi2Sr2Ca1Cu1.7Sn0.3O8+z Bi 2 Sr 2 Ca 1 Cu 1.7 Sn 0.3 O 8+z 1 2000 Bi2212 K 83.76 83.76 "SIN(910-940C, 30-70h)" Substitution effect of Sn for Cu in the Bi2Sr2CaCu2-xSnxO8+z system 2000 "Technical Physics Department, Peking University, Beijing,China" "J.Supercond., 13(2000)137" 9799 SUP0130137 XPS shows Sn enters with (2+) state "Bi2Sr2Ca(Cu,Sn)2O8" Bi2Sr2Ca1Cu1.6Sn0.4O8+z Bi 2 Sr 2 Ca 1 Cu 1.6 Sn 0.4 O 8+z 1 2000 Bi2212 K 82.34 82.34 "SIN(910-940C, 30-70h)" Substitution effect of Sn for Cu in the Bi2Sr2CaCu2-xSnxO8+z system 2000 "Technical Physics Department, Peking University, Beijing,China" "J.Supercond., 13(2000)137" 9800 SUP0130137 XPS shows Sn enters with (2+) state "Bi2Sr2Ca(Cu,Sn)2O8" Bi2Sr2Ca1Cu1.5Sn0.5O8+z Bi 2 Sr 2 Ca 1 Cu 1.5 Sn 0.5 O 8+z 1 2000 Bi2212 K 80.31 80.31 "SIN(910-940C, 30-70h)" Substitution effect of Sn for Cu in the Bi2Sr2CaCu2-xSnxO8+z system 2000 "Technical Physics Department, Peking University, Beijing,China" "J.Supercond., 13(2000)137" 9801 SUP0130137 XPS shows Sn enters with (2+) state "Bi2Sr2Ca(Cu,Sn)2O8" Bi2Sr2Ca1Cu1.3Sn0.7O8+z Bi 2 Sr 2 Ca 1 Cu 1.3 Sn 0.7 O 8+z 1 2000 Bi2212 K 77 "SIN(910-940C, 30-70h)" Substitution effect of Sn for Cu in the Bi2Sr2CaCu2-xSnxO8+z system 2000 "Technical Physics Department, Peking University, Beijing,China" "J.Supercond., 13(2000)137" 9802 SUP0130137 XPS shows Sn enters with (2+) state "Bi2Sr2Ca(Cu,Sn)2O8" Bi2Sr2Ca1Cu1Sn1O8+z Bi 2 Sr 2 Ca 1 Cu 1 Sn 1 O 8+z 1 2000 Bi2212 K 77 "SIN(910-940C, 30-70h)" Substitution effect of Sn for Cu in the Bi2Sr2CaCu2-xSnxO8+z system 2000 "Technical Physics Department, Peking University, Beijing,China" "J.Supercond., 13(2000)137" 9803 SUP0130569 conventional solid state reacted sample is not s/c. "(Cd,Bi,Pb)Sr2YCu2O7" Cd0.67Bi0.23Pb0.1Sr2Y1Cu2O7-z Cd 0.67 Bi 0.23 Pb 0.1 Sr 2 Y 1 Cu 2 O 7-z 2000 1212 P4/mmm A 3.797 11.968 K 20 35 27.5 "ANN(1175K, under 5 Mpa O2)" Effect of high-pressure oxygen annealing in inducing superconductivity in calcium-free 1212-type cuprate (Cd0.67Bi0.23Pb0.10)YSr2Cu2O7-z 2000 "Novel Materials and Structural Chemistry Division, Bhabha Atomic Research Centre, Mumbai, India" "J.Supercond., 13(2000)569" 9804 SUP0130603 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+z Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 1 2000 Bi2212 K 84.7 84.7 "SIN(910-940C, 30-70h)" Substitution effect of Pr for Ca in Bi2Sr2CaCu2O8+z system 2000 "Nanjing University, Nanjing, China" "J.Supercond., 13(2000)603" 9805 SUP0130603 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.8Pr0.2Cu2O8+z Bi 2 Sr 2 Ca 0.8 Pr 0.2 Cu 2 O 8+z 1 2000 Bi2212 K 69.4 69.4 "SIN(910-940C, 30-70h)" Substitution effect of Pr for Ca in Bi2Sr2CaCu2O8+z system 2000 "Nanjing University, Nanjing, China" "J.Supercond., 13(2000)603" 9806 SUP0130603 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.6Pr0.4Cu2O8+z Bi 2 Sr 2 Ca 0.6 Pr 0.4 Cu 2 O 8+z 1 2000 Bi2212 K 43.5 43.5 "SIN(910-940C, 30-70h)" Substitution effect of Pr for Ca in Bi2Sr2CaCu2O8+z system 2000 "Nanjing University, Nanjing, China" "J.Supercond., 13(2000)603" 9807 SUP0130603 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.4Pr0.6Cu2O8+z Bi 2 Sr 2 Ca 0.4 Pr 0.6 Cu 2 O 8+z 1 2000 Bi2212 K 4.8 4.8 "SIN(910-940C, 30-70h)" Substitution effect of Pr for Ca in Bi2Sr2CaCu2O8+z system 2000 "Nanjing University, Nanjing, China" "J.Supercond., 13(2000)603" 9808 SUP0130653 YBa2Cu3O7 Y1Ba2Cu3Oz Y 1 Ba 2 Cu 3 O z 1 2000 Y123 A 3.8856 3.8211 11.6869 K 91.9 91.9 "SIN(950C)-ANN(450C,12h, in flowing O2)" Comparison of superconductivity and structure for YBa2Cu3Oy with potassium and sodium doping 2000 "Nanjing University, Nanjing, China" "J.Supercond., 13(2000)653" 9809 SUP0130653 "Y(Ba,Na)2Cu3O7" Y1Ba1.95Na0.05Cu3Oz Y 1 Ba 1.95 Na 0.05 Cu 3 O z 1 2000 Y123 A 3.8824 3.8182 11.6774 K 91.4 91.4 "SIN(950C)-ANN(450C,12h, in flowing O2)" Comparison of superconductivity and structure for YBa2Cu3Oy with potassium and sodium doping 2000 "Nanjing University, Nanjing, China" "J.Supercond., 13(2000)653" 9810 SUP0130653 "Y(Ba,Na)2Cu3O7" Y1Ba1.9Na0.1Cu3Oz Y 1 Ba 1.9 Na 0.1 Cu 3 O z 1 2000 Y123 A 3.8763 3.8155 11.6609 K 88.4 88.4 "SIN(950C)-ANN(450C,12h, in flowing O2)" Comparison of superconductivity and structure for YBa2Cu3Oy with potassium and sodium doping 2000 "Nanjing University, Nanjing, China" "J.Supercond., 13(2000)653" 9811 SUP0130653 "Y(Ba,Na)2Cu3O7" Y1Ba1.85Na0.15Cu3Oz Y 1 Ba 1.85 Na 0.15 Cu 3 O z 1 2000 Y123 A 3.8719 3.8101 11.6538 K 90.3 90.3 "SIN(950C)-ANN(450C,12h, in flowing O2)" Comparison of superconductivity and structure for YBa2Cu3Oy with potassium and sodium doping 2000 "Nanjing University, Nanjing, China" "J.Supercond., 13(2000)653" 9812 SUP0130653 "Y(Ba,Na)2Cu3O7" Y1Ba1.8Na0.2Cu3Oz Y 1 Ba 1.8 Na 0.2 Cu 3 O z 1 2000 Y123 A 3.8684 3.8073 11.6483 K 90.8 90.8 "SIN(950C)-ANN(450C,12h, in flowing O2)" Comparison of superconductivity and structure for YBa2Cu3Oy with potassium and sodium doping 2000 "Nanjing University, Nanjing, China" "J.Supercond., 13(2000)653" 9813 SUP0130653 "Y(Ba,K)2Cu3O7" Y1Ba1.95K0.05Cu3Oz Y 1 Ba 1.95 K 0.05 Cu 3 O z 1 2000 Y123 A 3.8802 3.8159 11.657 K 91.4 91.4 "SIN(950C)-ANN(450C,12h, in flowing O2)" Comparison of superconductivity and structure for YBa2Cu3Oy with potassium and sodium doping 2000 "Nanjing University, Nanjing, China" "J.Supercond., 13(2000)653" 9814 SUP0130653 "Y(Ba,K)2Cu3O7" Y1Ba1.9K0.1Cu3Oz Y 1 Ba 1.9 K 0.1 Cu 3 O z 1 2000 Y123 A 3.8744 3.8127 11.6534 K 77.3 77.3 "SIN(950C)-ANN(450C,12h, in flowing O2)" Comparison of superconductivity and structure for YBa2Cu3Oy with potassium and sodium doping 2000 "Nanjing University, Nanjing, China" "J.Supercond., 13(2000)653" 9815 SUP0130653 "Y(Ba,K)2Cu3O7" Y1Ba1.85K0.15Cu3Oz Y 1 Ba 1.85 K 0.15 Cu 3 O z 1 2000 Y123 A 3.8753 3.8129 11.6558 K 64.4 64.4 "SIN(950C)-ANN(450C,12h, in flowing O2)" Comparison of superconductivity and structure for YBa2Cu3Oy with potassium and sodium doping 2000 "Nanjing University, Nanjing, China" "J.Supercond., 13(2000)653" 9816 SUP0130653 "Y(Ba,K)2Cu3O7" Y1Ba1.8K0.2Cu3Oz Y 1 Ba 1.8 K 0.2 Cu 3 O z 1 2000 Y123 A 3.8761 3.8133 11.6598 K 71 71 "SIN(950C)-ANN(450C,12h, in flowing O2)" Comparison of superconductivity and structure for YBa2Cu3Oy with potassium and sodium doping 2000 "Nanjing University, Nanjing, China" "J.Supercond., 13(2000)653" 9817 SUP0130037 not s/c La2Ba2Cu4Oz La2Ba2Cu4O9.348 La 2 Ba 2 Cu 4 O z 9.348 1 2000 2 K 5 "SIN(950C, 12h, in O2)-ANN(500C, 24h, in O2 flow)" "Role of calcium in the evolution of superconductivity in a (La2-xRx)Ba2(CayCu4+y)Oz (R=Y, Er, Gd) system" 2000 "Department of Physics,Saurashtra University, Rajkot, India" "J.Supercond., 13(2000)37" 9818 SUP0130037 "(La,Er)2Ba2CaxCu4+xOz" La1.9Er0.1Ba2Ca0.2Cu4.2O9.85 La 1.9 Er 0.1 Ba 2 Ca 0.2 Cu 4.2 O z 9.85 1 2000 2 K 18 18 "SIN(950C, 12h, in O2)-ANN(500C, 24h, in O2 flow)" "Role of calcium in the evolution of superconductivity in a (La2-xRx)Ba2(CayCu4+y)Oz (R=Y, Er, Gd) system" 2000 "Department of Physics,Saurashtra University, Rajkot, India" "J.Supercond., 13(2000)37" 9819 SUP0130037 "(La,Er)2Ba2CaxCu4+xOz" La1.8Er0.2Ba2Ca0.4Cu4.4O10.371 La 1.8 Er 0.2 Ba 2 Ca 0.4 Cu 4.4 O z 10.371 1 2000 2 K 40 40 "SIN(950C, 12h, in O2)-ANN(500C, 24h, in O2 flow)" "Role of calcium in the evolution of superconductivity in a (La2-xRx)Ba2(CayCu4+y)Oz (R=Y, Er, Gd) system" 2000 "Department of Physics,Saurashtra University, Rajkot, India" "J.Supercond., 13(2000)37" 9820 SUP0130037 "(La,Er)2Ba2CaxCu4+xOz" La1.75Er0.25Ba2Ca0.5Cu4.5O10.662 La 1.75 Er 0.25 Ba 2 Ca 0.5 Cu 4.5 O z 10.662 1 2000 2 K 66 66 "SIN(950C, 12h, in O2)-ANN(500C, 24h, in O2 flow)" "Role of calcium in the evolution of superconductivity in a (La2-xRx)Ba2(CayCu4+y)Oz (R=Y, Er, Gd) system" 2000 "Department of Physics,Saurashtra University, Rajkot, India" "J.Supercond., 13(2000)37" 9821 SUP0130037 "(La,Er)2Ba2CaxCu4+xOz" La1.7Er0.3Ba2Ca0.6Cu4.6O10.92 La 1.7 Er 0.3 Ba 2 Ca 0.6 Cu 4.6 O z 10.92 1 2000 2 K 70 70 "SIN(950C, 12h, in O2)-ANN(500C, 24h, in O2 flow)" "Role of calcium in the evolution of superconductivity in a (La2-xRx)Ba2(CayCu4+y)Oz (R=Y, Er, Gd) system" 2000 "Department of Physics,Saurashtra University, Rajkot, India" "J.Supercond., 13(2000)37" 9822 SUP0130037 "(La,Er)2Ba2CaxCu4+xOz" La1.65Er0.35Ba2Ca0.7Cu4.7O11.166 La 1.65 Er 0.35 Ba 2 Ca 0.7 Cu 4.7 O z 11.166 1 2000 2 K 71 71 "SIN(950C, 12h, in O2)-ANN(500C, 24h, in O2 flow)" "Role of calcium in the evolution of superconductivity in a (La2-xRx)Ba2(CayCu4+y)Oz (R=Y, Er, Gd) system" 2000 "Department of Physics,Saurashtra University, Rajkot, India" "J.Supercond., 13(2000)37" 9823 SUP0130037 "(La,Er)2Ba2CaxCu4+xOz" La1.6Er0.4Ba2Ca0.8Cu4.8O11.424 La 1.6 Er 0.4 Ba 2 Ca 0.8 Cu 4.8 O z 11.424 1 2000 2 K 76 76 "SIN(950C, 12h, in O2)-ANN(500C, 24h, in O2 flow)" "Role of calcium in the evolution of superconductivity in a (La2-xRx)Ba2(CayCu4+y)Oz (R=Y, Er, Gd) system" 2000 "Department of Physics,Saurashtra University, Rajkot, India" "J.Supercond., 13(2000)37" 9824 SUP0130037 "(La,Er)2Ba2CaxCu4+xOz" La1.55Er0.45Ba2Ca0.9Cu4.9O11.664 La 1.55 Er 0.45 Ba 2 Ca 0.9 Cu 4.9 O z 11.664 1 2000 2 K 76 76 "SIN(950C, 12h, in O2)-ANN(500C, 24h, in O2 flow)" "Role of calcium in the evolution of superconductivity in a (La2-xRx)Ba2(CayCu4+y)Oz (R=Y, Er, Gd) system" 2000 "Department of Physics,Saurashtra University, Rajkot, India" "J.Supercond., 13(2000)37" 9825 SUP0130037 "(La,Er)2Ba2CaxCu4+xOz" La1.5Er0.5Ba2Ca1Cu5O11.907 La 1.5 Er 0.5 Ba 2 Ca 1 Cu 5 O z 11.907 1 2000 2 K 78 78 "SIN(950C, 12h, in O2)-ANN(500C, 24h, in O2 flow)" "Role of calcium in the evolution of superconductivity in a (La2-xRx)Ba2(CayCu4+y)Oz (R=Y, Er, Gd) system" 2000 "Department of Physics,Saurashtra University, Rajkot, India" "J.Supercond., 13(2000)37" 9826 SUP0130037 "(La,Er)2Ba2CaxCu4+xOz" La1Er1Ba2Ca2Cu6O14.122 La 1 Er 1 Ba 2 Ca 2 Cu 6 O z 14.122 1 2000 2 K 79 79 "SIN(950C, 12h, in O2)-ANN(500C, 24h, in O2 flow)" "Role of calcium in the evolution of superconductivity in a (La2-xRx)Ba2(CayCu4+y)Oz (R=Y, Er, Gd) system" 2000 "Department of Physics,Saurashtra University, Rajkot, India" "J.Supercond., 13(2000)37" 9827 SUP0130037 "(La,Gd)2Ba2CaxCu4+xOz" La1.9Gd0.1Ba2Ca0.2Cu4.2O9.839 La 1.9 Gd 0.1 Ba 2 Ca 0.2 Cu 4.2 O z 9.839 1 2000 2 K 15 15 "SIN(950C, 12h, in O2)-ANN(500C, 24h, in O2 flow)" "Role of calcium in the evolution of superconductivity in a (La2-xRx)Ba2(CayCu4+y)Oz (R=Y, Er, Gd) system" 2000 "Department of Physics,Saurashtra University, Rajkot, India" "J.Supercond., 13(2000)37" 9828 SUP0130037 "(La,Gd)2Ba2CaxCu4+xOz" La1.8Gd0.2Ba2Ca0.4Cu4.4O10.344 La 1.8 Gd 0.2 Ba 2 Ca 0.4 Cu 4.4 O z 10.344 1 2000 2 K 39 39 "SIN(950C, 12h, in O2)-ANN(500C, 24h, in O2 flow)" "Role of calcium in the evolution of superconductivity in a (La2-xRx)Ba2(CayCu4+y)Oz (R=Y, Er, Gd) system" 2000 "Department of Physics,Saurashtra University, Rajkot, India" "J.Supercond., 13(2000)37" 9829 SUP0130037 "(La,Gd)2Ba2CaxCu4+xOz" La1.7Gd0.3Ba2Ca0.6Cu4.6O10.9 La 1.7 Gd 0.3 Ba 2 Ca 0.6 Cu 4.6 O z 10.9 1 2000 2 K 64 64 "SIN(950C, 12h, in O2)-ANN(500C, 24h, in O2 flow)" "Role of calcium in the evolution of superconductivity in a (La2-xRx)Ba2(CayCu4+y)Oz (R=Y, Er, Gd) system" 2000 "Department of Physics,Saurashtra University, Rajkot, India" "J.Supercond., 13(2000)37" 9830 SUP0130037 "(La,Gd)2Ba2CaxCu4+xOz" La1.6Gd0.4Ba2Ca0.8Cu4.8O11.401 La 1.6 Gd 0.4 Ba 2 Ca 0.8 Cu 4.8 O z 11.401 1 2000 2 K 76 76 "SIN(950C, 12h, in O2)-ANN(500C, 24h, in O2 flow)" "Role of calcium in the evolution of superconductivity in a (La2-xRx)Ba2(CayCu4+y)Oz (R=Y, Er, Gd) system" 2000 "Department of Physics,Saurashtra University, Rajkot, India" "J.Supercond., 13(2000)37" 9831 SUP0130037 "(La,Gd)2Ba2CaxCu4+xOz" La1.5Gd0.5Ba2Ca1Cu5O11.892 La 1.5 Gd 0.5 Ba 2 Ca 1 Cu 5 O z 11.892 1 2000 2 K 79 79 "SIN(950C, 12h, in O2)-ANN(500C, 24h, in O2 flow)" "Role of calcium in the evolution of superconductivity in a (La2-xRx)Ba2(CayCu4+y)Oz (R=Y, Er, Gd) system" 2000 "Department of Physics,Saurashtra University, Rajkot, India" "J.Supercond., 13(2000)37" 9832 SUP0130037 "(La,Gd)2Ba2CaxCu4+xOz" La1Gd1Ba2Ca2Cu6O14.1 La 1 Gd 1 Ba 2 Ca 2 Cu 6 O z 14.1 1 2000 2 K 79 79 "SIN(950C, 12h, in O2)-ANN(500C, 24h, in O2 flow)" "Role of calcium in the evolution of superconductivity in a (La2-xRx)Ba2(CayCu4+y)Oz (R=Y, Er, Gd) system" 2000 "Department of Physics,Saurashtra University, Rajkot, India" "J.Supercond., 13(2000)37" 9833 P063064505 high quarity sample. Thermal conductivity measured in the field for various orientations Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 2001 Sr2RuO4 K 1.44 1.44 THC9833 Thermal conductivity of superconducting Sr2RuO4 in oriented magnetic fields 2001 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 63(2001)064505" 9834 P064094515 Raman shift measured "RuSr2(Gd,Ce)2Cu2O10" Ru1Sr2Gd1.6Ce0.4Cu2O10+z Ru 1 Sr 2 Gd 1.6 Ce 0.4 Cu 2 O 10+z 1 2001 Ru1222 A 3.84 28.58 K 18.5 43.3 30.9 uV/K 35.8 TP9834 1 "final heat treatment (1060C, 7days in flowing O2) - cool to RT (4C/min)" "Raman transport and magnetization study of the RuSr2R2-xCexCu2O10+z (R = Gd, Eu) high-temperature superconducting cuprates" 2001 "Industrial Research Limited, P.O. Box 31310, Lower Hutt, New Zealand" "Phys.Rev.B, 64(2001)094515" 9835 P064094515 Raman shift measured "RuSr2(Gd,Ce)2Cu2O10" Ru1Sr2Gd1.5Ce0.5Cu2O10+z Ru 1 Sr 2 Gd 1.5 Ce 0.5 Cu 2 O 10+z 1 2001 Ru1222 A 3.84 28.58 K 29.1 44.8 36.95 uV/K 32.6 1 "final heat treatment (1060C, 7days in flowing O2) - cool to RT (4C/min)" "Raman transport and magnetization study of the RuSr2R2-xCexCu2O10+z (R = Gd, Eu) high-temperature superconducting cuprates" 2001 "Industrial Research Limited, P.O. Box 31310, Lower Hutt, New Zealand" "Phys.Rev.B, 64(2001)094515" 9836 P064094515 Raman shift measured "RuSr2(Gd,Ce)2Cu2O10" Ru1Sr2Gd1.4Ce0.6Cu2O10+z Ru 1 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O 10+z 1 2001 Ru1222 A 3.84 28.58 K 34.7 49.9 42.3 uV/K 24.2 TP9836 1 "final heat treatment (1060C, 7days in flowing O2) - cool to RT (4C/min)" "Raman transport and magnetization study of the RuSr2R2-xCexCu2O10+z (R = Gd, Eu) high-temperature superconducting cuprates" 2001 "Industrial Research Limited, P.O. Box 31310, Lower Hutt, New Zealand" "Phys.Rev.B, 64(2001)094515" 9837 P064094515 Raman shift measured "RuSr2(Gd,Ce)2Cu2O10" Ru1Sr2Gd1.3Ce0.7Cu2O10+z Ru 1 Sr 2 Gd 1.3 Ce 0.7 Cu 2 O 10+z 1 2001 Ru1222 A 3.84 28.58 K 32.1 47.9 40 uV/K 23.2 1 "final heat treatment (1060C, 7days in flowing O2) - cool to RT (4C/min)" "Raman transport and magnetization study of the RuSr2R2-xCexCu2O10+z (R = Gd, Eu) high-temperature superconducting cuprates" 2001 "Industrial Research Limited, P.O. Box 31310, Lower Hutt, New Zealand" "Phys.Rev.B, 64(2001)094515" 9838 P064094515 Raman shift measured "RuSr2(Gd,Ce)2Cu2O10" Ru1Sr2Gd1.2Ce0.8Cu2O10+z Ru 1 Sr 2 Gd 1.2 Ce 0.8 Cu 2 O 10+z 1 2001 Ru1222 A 3.84 28.58 K 21 45.3 33.15 uV/K 29.5 TP9838 1 "final heat treatment (1060C, 7days in flowing O2) - cool to RT (4C/min)" "Raman transport and magnetization study of the RuSr2R2-xCexCu2O10+z (R = Gd, Eu) high-temperature superconducting cuprates" 2001 "Industrial Research Limited, P.O. Box 31310, Lower Hutt, New Zealand" "Phys.Rev.B, 64(2001)094515" 9839 P064094515 Raman shift measured "RuSr2(Eu,Ce)2Cu2O10" Ru1Sr2Eu1.4Ce0.6Cu2O10+z Ru 1 Sr 2 Eu 1.4 Ce 0.6 Cu 2 O 10+z 1 2001 Ru1222 K 26 49 37.5 uV/K 30 TP9839 1 "final heat treatment (1060C, 7days in flowing O2) - cool to RT (4C/min)" "Raman transport and magnetization study of the RuSr2R2-xCexCu2O10+z (R = Gd, Eu) high-temperature superconducting cuprates" 2001 "Industrial Research Limited, P.O. Box 31310, Lower Hutt, New Zealand" "Phys.Rev.B, 64(2001)094515" 9840 P064064508 coexistence of s/c and magnetic order. Ceramic sample RuSr2EuCu2O8 Ru1Sr2Eu1Cu2O8 Ru 1 Sr 2 Eu 1 Cu 2 O 8 1 2001 132 Ru1212 K 12 32 32 uV/K 73 "RuO2,Eu2O3,CuO,SrCO3" 1 "SIN(1010C,10h, in flowing O2)-SIN(1050C,10h, in flowing O2)-SIN(1055C,10h, in flowing O2)" Transport and microwave study of superconducting and magnetic RuSr2EuCu2O8 2001 "Department of Physics, Faculty of Science, University of Zagreb, P.O. Box 331, HR-10002 Zagreb, Croatia" "Phys.Rev.B, 64(2001)064508" 9841 P064064502 re-entrant s/c. R start to increase at 5 K. K-content = 0.45-0.6 by EDX. "(Sr,K)BiO3" Sr0.4K0.6Bi1O3 Sr 0.4 K 0.6 Bi 1 O 3 1 2001 BKBO A 5.94 8.43 K 10.1 12.5 11.3 "(Sr2Bi2O5+KO2+Bi2O3) - sealed in Au capsule - HIP(p=2 Gpa, 700C, 60 min)" Observation of anomalous reentrant superconductivity in Sr1-xKxBiO3 2001 "Department of Physics and Condensed Matter Research Institute, Seoul National University, Seoul 151-742, Korea" "Phys.Rev.B, 64(2001)064502" 9842 P064064502 re-entrant s/c. R start to increase at 8 K. K-content = 0.45-0.6 by EDX. "(Sr,K)BiO3" Sr0.4K0.6Bi1O3 Sr 0.4 K 0.6 Bi 1 O 3 1 2001 BKBO K 10.5 12.6 11.55 "(Sr2Bi2O5+KO2+Bi2O3) - sealed in Au capsule - HIP(p=2 Gpa, 700C, 60 min)" Observation of anomalous reentrant superconductivity in Sr1-xKxBiO3 2001 "Department of Physics and Condensed Matter Research Institute, Seoul National University, Seoul 151-742, Korea" "Phys.Rev.B, 64(2001)064502" 9843 PHC3540363 Bi2Sr2CaCu2O8 Bi2.1Sr2.1Ca0.8Cu2Oz Bi 2.1 Sr 2.1 Ca 0.8 Cu 2 O z 1 2001 Bi2212 K 88 88 "Bi2O3,SrCO3,CaCO3,CuO,NiS" 1 "mixture-CAL(800C,40h)-SIN(850C,100h in air)- cool to 500C(1 C/min) - RT" Structural and magnetic properties of NiS doped Bi-2212 superconductors 2001 "Departamento de Fisica, Universidade Federal de Pernambuco, Av. Prof. Luis de Barros Freire s/n, 50670-901 Recife, PE, Brazil" "Physica C, 354(2001)363" 9844 PHC3540363 partial substitution of NiS for CuO "Bi1Sr2Ca(CuO,NiS)2O8" Bi2.1Sr2.1Ca0.8Cu1.98Ni0.02S0.02Oz Bi 2.1 Sr 2.1 Ca 0.8 Cu 1.98 Ni 0.02 S 0.02 O z 1 2001 Bi2212 K 80 80 "Bi2O3,SrCO3,CaCO3,CuO,NiS" 1 "mixture-CAL(800C,40h)-SIN(850C,100h in air)- cool to 500C(1 C/min) - RT" Structural and magnetic properties of NiS doped Bi-2212 superconductors 2001 "Departamento de Fisica, Universidade Federal de Pernambuco, Av. Prof. Luis de Barros Freire s/n, 50670-901 Recife, PE, Brazil" "Physica C, 354(2001)363" 9845 PHC3540363 partial substitution of NiS for CuO "Bi1Sr2Ca(CuO,NiS)2O8" Bi2.1Sr2.1Ca0.8Cu1.9Ni0.1S0.1Oz Bi 2.1 Sr 2.1 Ca 0.8 Cu 1.9 Ni 0.1 S 0.1 O z 1 2001 Bi2212 K 78 78 "Bi2O3,SrCO3,CaCO3,CuO,NiS" 1 "mixture-CAL(800C,40h)-SIN(850C,100h in air)- cool to 500C(1 C/min) - RT" Structural and magnetic properties of NiS doped Bi-2212 superconductors 2001 "Departamento de Fisica, Universidade Federal de Pernambuco, Av. Prof. Luis de Barros Freire s/n, 50670-901 Recife, PE, Brazil" "Physica C, 354(2001)363" 9846 PHC3540363 partial substitution of NiS for CuO "Bi1Sr2Ca(CuO,NiS)2O8" Bi2.1Sr2.1Ca0.8Cu1.8Ni0.2S0.2Oz Bi 2.1 Sr 2.1 Ca 0.8 Cu 1.8 Ni 0.2 S 0.2 O z 1 2001 Bi2212 K 78 78 "Bi2O3,SrCO3,CaCO3,CuO,NiS" 1 "mixture-CAL(800C,40h)-SIN(850C,100h in air)- cool to 500C(1 C/min) - RT" Structural and magnetic properties of NiS doped Bi-2212 superconductors 2001 "Departamento de Fisica, Universidade Federal de Pernambuco, Av. Prof. Luis de Barros Freire s/n, 50670-901 Recife, PE, Brazil" "Physica C, 354(2001)363" 9847 P064092510 compositions are nominal values. Gapene calculated from gap(77.3K)=32 meV using BCS dependency. "(Bi,Pb)2Sr2Ca2Cu3O10" Bi1.9Pb0.5Sr2Ca2Cu3O10+z Bi 1.9 Pb 0.5 Sr 2 Ca 2 Cu 3 O 10+z 2001 Bi2223 K 110 110 meV 38.5 8.1 1 1 conventional solid state reaction "Tunneling spectroscopy of the normal-state gap in (Bi, Pb)2Sr2Ca2Cu3O10+z" 2001 "Faculty of Integrated Arts and Sciences, and Graduate School of Advanced Sciences of Matter, Hiroshima University, Higashi-Hiroshima 739-8521, Japan" "Phys.Rev.B, 64(2001)092510" 9848 P064094518 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 3 2001 Y124 Ammm A 3.8402 3.8702 27.2283 K 77.7 77.7 crystals were grown by flux method. Synthesis in high O2 pressure P(O2) = 900 bar "Influence of Sr substitution on the structure, charge distribution, and critical temperature of Y(Ba1-xSrx)2Cu4O8 single crystals" 2001 "Solid State Physics Laboratory, ETH 8093 Zurich, Switzerland" "Phys.Rev.B, 64(2001)094518" 9849 P064094518 Tc not shown "Y(Ba,Sr)2Cu4O8" Y1Ba1.78Sr0.22Cu4O8 Y 1 Ba 1.78 Sr 0.22 Cu 4 O 8 3 2001 Y124 Ammm A 3.8299 3.8676 27.1707 K crystals were grown by flux method. Synthesis in high O2 pressure P(O2) = 900 bar "Influence of Sr substitution on the structure, charge distribution, and critical temperature of Y(Ba1-xSrx)2Cu4O8 single crystals" 2001 "Solid State Physics Laboratory, ETH 8093 Zurich, Switzerland" "Phys.Rev.B, 64(2001)094518" 9850 P064094518 Tc not shown "Y(Ba,Sr)2Cu4O8" Y1Ba1.68Sr0.32Cu4O8 Y 1 Ba 1.68 Sr 0.32 Cu 4 O 8 3 2001 Y124 Ammm A 3.8232 3.8644 27.1387 K crystals were grown by flux method. Synthesis in high O2 pressure P(O2) = 900 bar "Influence of Sr substitution on the structure, charge distribution, and critical temperature of Y(Ba1-xSrx)2Cu4O8 single crystals" 2001 "Solid State Physics Laboratory, ETH 8093 Zurich, Switzerland" "Phys.Rev.B, 64(2001)094518" 9851 P064094518 Tc not shown "Y(Ba,Sr)2Cu4O8" Y1Ba1.38Sr0.62Cu4O8 Y 1 Ba 1.38 Sr 0.62 Cu 4 O 8 3 2001 Y124 Ammm A 3.8086 3.8601 27.0588 K crystals were grown by flux method. Synthesis in high O2 pressure P(O2) = 900 bar "Influence of Sr substitution on the structure, charge distribution, and critical temperature of Y(Ba1-xSrx)2Cu4O8 single crystals" 2001 "Solid State Physics Laboratory, ETH 8093 Zurich, Switzerland" "Phys.Rev.B, 64(2001)094518" 9852 P064094518 Tc defined as intersect of M=0 and line with thehighest dM/dT "Y(Ba,Sr)2Cu4O8" Y1Ba1.76Sr0.24Cu4O8 Y 1 Ba 1.76 Sr 0.24 Cu 4 O 8 3 2001 Y124 K 76 76 crystals were grown by flux method. Synthesis in high O2 pressure P(O2) = 900 bar "Influence of Sr substitution on the structure, charge distribution, and critical temperature of Y(Ba1-xSrx)2Cu4O8 single crystals" 2001 "Solid State Physics Laboratory, ETH 8093 Zurich, Switzerland" "Phys.Rev.B, 64(2001)094518" 9853 P064094518 Tc defined as intersect of M=0 and line with thehighest dM/dT "Y(Ba,Sr)2Cu4O8" Y1Ba1.46Sr0.54Cu4O8 Y 1 Ba 1.46 Sr 0.54 Cu 4 O 8 3 2001 Y124 K 79.5 79.5 crystals were grown by flux method. Synthesis in high O2 pressure P(O2) = 900 bar "Influence of Sr substitution on the structure, charge distribution, and critical temperature of Y(Ba1-xSrx)2Cu4O8 single crystals" 2001 "Solid State Physics Laboratory, ETH 8093 Zurich, Switzerland" "Phys.Rev.B, 64(2001)094518" 9854 P064094518 Tc defined as intersect of M=0 and line with thehighest dM/dT "Y(Ba,Sr)2Cu4O8" Y1Ba1.4Sr0.6Cu4O8 Y 1 Ba 1.4 Sr 0.6 Cu 4 O 8 3 2001 Y124 K 80.5 80.5 crystals were grown by flux method. Synthesis in high O2 pressure P(O2) = 900 bar "Influence of Sr substitution on the structure, charge distribution, and critical temperature of Y(Ba1-xSrx)2Cu4O8 single crystals" 2001 "Solid State Physics Laboratory, ETH 8093 Zurich, Switzerland" "Phys.Rev.B, 64(2001)094518" 9855 P064094518 Tc defined as intersect of M=0 and line with thehighest dM/dT YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 2001 Y124 K 80.5 80.5 "high pressure synthesis (P(O2)=450 bar, 100C, 40h)" "Influence of Sr substitution on the structure, charge distribution, and critical temperature of Y(Ba1-xSrx)2Cu4O8 single crystals" 2001 "Solid State Physics Laboratory, ETH 8093 Zurich, Switzerland" "Phys.Rev.B, 64(2001)094518" 9856 P064094518 Tc defined as intersect of M=0 and line with thehighest dM/dT "Y(Ba,Sr)2Cu4O8" Y1Ba1.8Sr0.2Cu4O8 Y 1 Ba 1.8 Sr 0.2 Cu 4 O 8 1 2001 Y124 K 79.8 79.8 "high pressure synthesis (P(O2)=450 bar, 100C, 40h)" "Influence of Sr substitution on the structure, charge distribution, and critical temperature of Y(Ba1-xSrx)2Cu4O8 single crystals" 2001 "Solid State Physics Laboratory, ETH 8093 Zurich, Switzerland" "Phys.Rev.B, 64(2001)094518" 9857 P064094518 Tc defined as intersect of M=0 and line with thehighest dM/dT "Y(Ba,Sr)2Cu4O8" Y1Ba1.6Sr0.4Cu4O8 Y 1 Ba 1.6 Sr 0.4 Cu 4 O 8 1 2001 Y124 K 80.5 80.5 "high pressure synthesis (P(O2)=450 bar, 100C, 40h)" "Influence of Sr substitution on the structure, charge distribution, and critical temperature of Y(Ba1-xSrx)2Cu4O8 single crystals" 2001 "Solid State Physics Laboratory, ETH 8093 Zurich, Switzerland" "Phys.Rev.B, 64(2001)094518" 9858 P064094518 Tc defined as intersect of M=0 and line with thehighest dM/dT "Y(Ba,Sr)2Cu4O8" Y1Ba1.4Sr0.6Cu4O8 Y 1 Ba 1.4 Sr 0.6 Cu 4 O 8 1 2001 Y124 K 81.2 81.2 "high pressure synthesis (P(O2)=450 bar, 100C, 40h)" "Influence of Sr substitution on the structure, charge distribution, and critical temperature of Y(Ba1-xSrx)2Cu4O8 single crystals" 2001 "Solid State Physics Laboratory, ETH 8093 Zurich, Switzerland" "Phys.Rev.B, 64(2001)094518" 9859 P064134502 "In figure Hp= the first peak, Hsp = the second peak in M-H curve, Hirr = irreversible field." "(Sm,La,Sr)2CuO4" Sm1La0.8Sr0.2Cu1O4 Sm 1 La 0.8 Sr 0.2 Cu 1 O 4 3 2001 T* K 24 24 HIR9859 "TSFZ method. As-grown - ANN(600C,7d in 200 bar O2)-ANN(300C, 3d)-cool to RT(25C/h)" Peak effects and the solid vortex phase of a T*-phase SmLa0.8Sr0.2CuO4-z single crystal 2001 "Van der Waals-Zeeman Instituut, Universiteit van Amsterdam, Valckenierstraat 65, 1018 XE, Amsterdam, The Netherlands" "Phys.Rev.B, 64(2001)134502" 9860 MAT0107309 " Hc2(0) using WHH theory. Hall effect, specific heat were measured. Delta-C/gamma*Tc = 1.29" Cd2Re2O7 Cd2Re2O7 Cd 2 Re 2 O 7 3 2001 pyrochlore A 10.2244 K 1.15 1.47 1.31 T "resistivity, using WHH theory" 0.5 T/K resistivity 0.62 HIR9860 A from Hc2(0) 240 SP9860 mj/mol.K 37.9 mj/mol.K2 29.6 from SP 397 from SP vapor transport method Superconductivity in the correlated pyrochlore Cd2Re2O7 2001 "Solid State Devision, Oak Ridge National Lab, TN,USA" "ccond-mat/0107309 (Phys.Rev.B,64(2001)180503)" 9861 MAT0109050 The 1st order structural phase transition at 200 K. Thermal expansion coeff. Alpha = 4.9 E-6 /K at RT Cd2Re2O7 Cd2Re2O7 Cd 2 Re 2 O 7 3 2001 pyrochlore A 10.226 K 1 1 "heat in silica tube (900C, 72h)" Structural phase transition in the superconducting pyrochlore oxide Cd2Re2O7 2001 ccond-mat/0109050 9862 MAT0106521 "gamma from J.Chem.Phys., 71(1979)5287" Cd2Re2O7 Cd2Re2O7 Cd 2 Re 2 O 7 1 2001 pyrochlore A 10.221 K 1.1 1.1 T "resistivity, using WHH theory" 0.8 HIR9862 mj/mol.K2 26.6 Superconductivity in a pyrochlore oxide Cd2Re2O7 2001 ccond-mat/0106521 9863 JJP0400262 magnetic relaxation studied. "(Tl,Pb)(sr,Nd)2CaCu2O7" Tl0.5Pb0.5Sr1.84Nd0.16Ca1Cu2O7 Tl 0.5 Pb 0.5 Sr 1.84 Nd 0.16 Ca 1 Cu 2 O 7 1 2001 Tl1212 A 3.815 12.112 K 102 105 3 102 "Tl2O3,PbO2,Nd2O3,SrCO3,CaCO3,CuO" 1 "precursor(Sr1.84Nd0.16CaCu2Oz)+(Tl2O3+PbO2)-mix-wrap in Au foil-sealed qualtz tube-heat(950C,2h)-Q to RT" Magnetic-Relaxation Behavior of (Tl0.5Pb0.5)(Sr1.84Nd0.16)CaCu2O7 Superconducting Material 2001 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, R.O.C." "Jpn. J. Appl. Phys. , 40 (2001) L262-L265" 9864 EPJ0200189 high quality twinned crystal YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 3 2001 Y123 K 90.5 0.6 90.5 THC9864 RH9864 flux method Thermal conductivity and thermal Hall effect in Bi- and Y-based high-Tc superconductors 2001 "Eur. Phys. J. B, 20 (2001) 189-208" 9865 EPJ0200189 not optimal oxygen content Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 2001 Bi2212 K 80 80 THC9865 RH9865 flux method Thermal conductivity and thermal Hall effect in Bi- and Y-based high-Tc superconductors 2001 "Eur. Phys. J. B, 20 (2001) 189-208" 9866 SST0140504 composition (Tl:Ba:Ca:Cu=1.11:2.02:1.84:3.03) by SEM-EDX TlBa2Ca2Cu3Oz Tl1Ba2Ca2Cu3Oz Tl 1 Ba 2 Ca 2 Cu 3 O z 1 2001 Tl1223 A 3.85 15.881 K 130 130 "high pressure synthesis (850C, 3.5 Gpa) - ANN(700C,1h in N2)" Study on enhancement of Tc (>= 130 K) in TlBa2Ca2Cu3Oy superconductors 2001 "Supercond. Sci. Technol., 14 ( 2001 )504-510" 9867 JEL0600440 multiphase(Nb+fcc+Ba4Nb2O9). Average compositions=Ba0.6Nb0.8O1.1 by AES for x=0.33 sample in BaxNbO2-z. Ba0.5Nb1O2-z Ba 0.5 Nb 1 O 2-z 2 1994 K 17.5 22 19.75 "Nb,BaO2" "mixture-pellet-heat(500C, air, in quartz tube)" Superconductivity above 20K in barium-niobium-oxide compounds 1994 "Institute of Solid State Physics, Russian Academy of Science, Moscow, Russia" "JETP Lett., 60(1994)440" 9868 JEL0600440 Ba0.25Nb1O2-z Ba 0.25 Nb 1 O 2-z 2 1994 K 17.5 18.6 18.05 "Nb,BaO2" "mixture-pellet-heat(500C, air, in quartz tube)" Superconductivity above 20K in barium-niobium-oxide compounds 1994 "Institute of Solid State Physics, Russian Academy of Science, Moscow, Russia" "JETP Lett., 60(1994)440" 9873 JAP0897657 "(La,Nd)2CaBa2Cu5Oz" La1.7Nd0.3Ca0.6Ba2Cu4.6O11.892 La 1.7 Nd 0.3 Ca 0.6 Ba 2 Cu 4.6 O 10+z 11.892 1 2001 2125 P4/mmm A 3.8735 11.6686 K 78 78 1 solid state reaction "Structural and superconducting properties of La2-xRxBa2CayCu4+yO10+z (R=Nd,Gd; y=2x) system" 2001 "Department of Physics,Saurashtra University,Rajkot, Gujarat,India" "J.Appl.Phys., 89(2001)7657" 9874 JAP0897657 "(La,Nd)2CaBa2Cu5Oz" La1.6Nd0.4Ca0.8Ba2Cu4.8O10+z La 1.6 Nd 0.4 Ca 0.8 Ba 2 Cu 4.8 O 10+z 1 2001 2125 P4/mmm K 70 70 1 solid state reaction "Structural and superconducting properties of La2-xRxBa2CayCu4+yO10+z (R=Nd,Gd; y=2x) system" 2001 "Department of Physics,Saurashtra University,Rajkot, Gujarat,India" "J.Appl.Phys., 89(2001)7657" 9875 JAP0897657 "(La,Nd)2CaBa2Cu5Oz" La1.5Nd0.5Ca1Ba2Cu5O11.872 La 1.5 Nd 0.5 Ca 1 Ba 2 Cu 5 O 10+z 11.872 1 2001 2125 P4/mmm A 3.8742 11.6569 K 78 78 1 solid state reaction "Structural and superconducting properties of La2-xRxBa2CayCu4+yO10+z (R=Nd,Gd; y=2x) system" 2001 "Department of Physics,Saurashtra University,Rajkot, Gujarat,India" "J.Appl.Phys., 89(2001)7657" 9876 JAP0897657 T1 estimated by extraporating R(T) to low temperature "(La,Gd)2CaBa2Cu5Oz" La1.9Gd0.1Ca0.2Ba2Cu4.2O10+z La 1.9 Gd 0.1 Ca 0.2 Ba 2 Cu 4.2 O 10+z 1 2001 2125 K 22 22 1 solid state reaction "Structural and superconducting properties of La2-xRxBa2CayCu4+yO10+z (R=Nd,Gd; y=2x) system" 2001 "Department of Physics,Saurashtra University,Rajkot, Gujarat,India" "J.Appl.Phys., 89(2001)7657" 9877 JAP0897657 "(La,Gd)2CaBa2Cu5Oz" La1.7Gd0.3Ca0.6Ba2Cu4.6O10+z La 1.7 Gd 0.3 Ca 0.6 Ba 2 Cu 4.6 O 10+z 1 2001 2125 K 64 64 1 solid state reaction "Structural and superconducting properties of La2-xRxBa2CayCu4+yO10+z (R=Nd,Gd; y=2x) system" 2001 "Department of Physics,Saurashtra University,Rajkot, Gujarat,India" "J.Appl.Phys., 89(2001)7657" 9878 JAP0897657 "(La,Gd)2CaBa2Cu5Oz" La1.6Gd0.4Ca0.8Ba2Cu4.8O10+z La 1.6 Gd 0.4 Ca 0.8 Ba 2 Cu 4.8 O 10+z 1 2001 2125 K 77 77 1 solid state reaction "Structural and superconducting properties of La2-xRxBa2CayCu4+yO10+z (R=Nd,Gd; y=2x) system" 2001 "Department of Physics,Saurashtra University,Rajkot, Gujarat,India" "J.Appl.Phys., 89(2001)7657" 9879 JAP0897657 "(La,Gd)2CaBa2Cu5Oz" La1.5Gd0.5Ca1Ba2Cu5O10+z La 1.5 Gd 0.5 Ca 1 Ba 2 Cu 5 O 10+z 1 2001 2125 K 80 80 1 solid state reaction "Structural and superconducting properties of La2-xRxBa2CayCu4+yO10+z (R=Nd,Gd; y=2x) system" 2001 "Department of Physics,Saurashtra University,Rajkot, Gujarat,India" "J.Appl.Phys., 89(2001)7657" 9880 PHB2810924 not s/c "La2(La,Ba)Ba2Cu5Oz" La2.5Ba2.5Cu5O11.82 La 2.5 Ba 2.5 Cu 5 O 10+z 11.82 1 2000 2125 K 10 1 solid state reaction Dependence of superconductivity on hole concentration (Psh) in La-2125 perovskite system 2000 "Department of Physics,Saurashtra University,Rajkot, Gujarat,India" "Physica B, 281(2000)924" 9881 PHB2810924 "La2(La,Ba,Yb,Ca)Ba2Cu5Oz" La2.3Yb0.1Ba2.3Ca0.2Cu5O11.805 La 2.3 Yb 0.1 Ba 2.3 Ca 0.2 Cu 5 O 10+z 11.805 1 2000 2125 K 25 25 1 solid state reaction Dependence of superconductivity on hole concentration (Psh) in La-2125 perovskite system 2000 "Department of Physics,Saurashtra University,Rajkot, Gujarat,India" "Physica B, 281(2000)924" 9882 PHB2810924 "La2(La,Ba,Yb,Ca)Ba2Cu5Oz" La2.1Yb0.2Ba2.1Ca0.4Cu5O11.802 La 2.1 Yb 0.2 Ba 2.1 Ca 0.4 Cu 5 O 10+z 11.802 1 2000 2125 K 47 47 1 solid state reaction Dependence of superconductivity on hole concentration (Psh) in La-2125 perovskite system 2000 "Department of Physics,Saurashtra University,Rajkot, Gujarat,India" "Physica B, 281(2000)924" 9883 PHB2810924 "La2(La,Ba,Yb,Ca)Ba2Cu5Oz" La1.9Yb0.3Ba1.9Ca0.6Cu5O11.797 La 1.9 Yb 0.3 Ba 1.9 Ca 0.6 Cu 5 O 10+z 11.797 1 2000 2125 K 60 60 1 solid state reaction Dependence of superconductivity on hole concentration (Psh) in La-2125 perovskite system 2000 "Department of Physics,Saurashtra University,Rajkot, Gujarat,India" "Physica B, 281(2000)924" 9884 PHB2810924 "La2(La,Ba,Yb,Ca)Ba2Cu5Oz" La1.7Yb0.4Ba1.7Ca0.8Cu5O11.795 La 1.7 Yb 0.4 Ba 1.7 Ca 0.8 Cu 5 O 10+z 11.795 1 2000 2125 K 76 76 1 solid state reaction Dependence of superconductivity on hole concentration (Psh) in La-2125 perovskite system 2000 "Department of Physics,Saurashtra University,Rajkot, Gujarat,India" "Physica B, 281(2000)924" 9885 PHB2810924 "La2(La,Ba,Yb,Ca)Ba2Cu5Oz" La1.5Yb0.5Ba1.5Ca1Cu5O11.785 La 1.5 Yb 0.5 Ba 1.5 Ca 1 Cu 5 O 10+z 11.785 1 2000 2125 K 76 76 1 solid state reaction Dependence of superconductivity on hole concentration (Psh) in La-2125 perovskite system 2000 "Department of Physics,Saurashtra University,Rajkot, Gujarat,India" "Physica B, 281(2000)924" 9886 PHB2810924 "La2(La,Ba,Yb,Ca)Ba2Cu5Oz" La1.3Yb0.6Ba1.3Ca1.2Cu5O11.74 La 1.3 Yb 0.6 Ba 1.3 Ca 1.2 Cu 5 O 10+z 11.74 1 2000 2125 K 73 73 1 solid state reaction Dependence of superconductivity on hole concentration (Psh) in La-2125 perovskite system 2000 "Department of Physics,Saurashtra University,Rajkot, Gujarat,India" "Physica B, 281(2000)924" 9887 PHB2810924 "La2(La,Ba,Yb,Ca)Ba2Cu5Oz" La1.1Yb0.7Ba1.1Ca1.4Cu5O11.692 La 1.1 Yb 0.7 Ba 1.1 Ca 1.4 Cu 5 O 10+z 11.692 1 2000 2125 K 70 70 1 solid state reaction Dependence of superconductivity on hole concentration (Psh) in La-2125 perovskite system 2000 "Department of Physics,Saurashtra University,Rajkot, Gujarat,India" "Physica B, 281(2000)924" 9888 PHB2590538 "(La,Y)2CaBa2Cu5Oz" La1.9Y0.1Ba2Ca0.2Cu4.2Oz La 1.9 Y 0.1 Ba 2 Ca 0.2 Cu 4.2 O z 1 1999 2125 K 21 21 1 solid state reaction Correlation between hole concentration and Tc in (La2-xYx)Ba2(CayCu4+y)Oz superconductors 1999 "Department of Physics,Saurashtra University,Rajkot, Gujarat,India" "Physica B, 259(1999)538" 9889 PHB2590538 "(La,Y)2CaBa2Cu5Oz" La1.8Y0.2Ba2Ca0.4Cu4.4Oz La 1.8 Y 0.2 Ba 2 Ca 0.4 Cu 4.4 O z 1 1999 2125 K 42 42 1 solid state reaction Correlation between hole concentration and Tc in (La2-xYx)Ba2(CayCu4+y)Oz superconductors 1999 "Department of Physics,Saurashtra University,Rajkot, Gujarat,India" "Physica B, 259(1999)538" 9890 PHB2590538 "(La,Y)2CaBa2Cu5Oz" La1.7Y0.3Ba2Ca0.6Cu4.6Oz La 1.7 Y 0.3 Ba 2 Ca 0.6 Cu 4.6 O z 1 1999 2125 K 65 65 1 solid state reaction Correlation between hole concentration and Tc in (La2-xYx)Ba2(CayCu4+y)Oz superconductors 1999 "Department of Physics,Saurashtra University,Rajkot, Gujarat,India" "Physica B, 259(1999)538" 9891 PHB2590538 "(La,Y)2CaBa2Cu5Oz" La1.6Y0.4Ba2Ca0.8Cu4.8Oz La 1.6 Y 0.4 Ba 2 Ca 0.8 Cu 4.8 O z 1 1999 2125 K 78 78 1 solid state reaction Correlation between hole concentration and Tc in (La2-xYx)Ba2(CayCu4+y)Oz superconductors 1999 "Department of Physics,Saurashtra University,Rajkot, Gujarat,India" "Physica B, 259(1999)538" 9892 PHB2590538 "(La,Y)2CaBa2Cu5Oz" La1.5Y0.5Ba2Ca1Cu5Oz La 1.5 Y 0.5 Ba 2 Ca 1 Cu 5 O z 1 1999 2125 K 78 78 1 solid state reaction Correlation between hole concentration and Tc in (La2-xYx)Ba2(CayCu4+y)Oz superconductors 1999 "Department of Physics,Saurashtra University,Rajkot, Gujarat,India" "Physica B, 259(1999)538" 9893 SUP0140341 re-entrant s/c. re-entrant at 5K. Resistive transition under magnetic fields shows sample dependency "(Sr,K)BiO3" Sr0.4K0.6Bi1O3 Sr 0.4 K 0.6 Bi 1 O 3 1 2001 BKBO A 5.94 8.43 K 10.1 12.5 11.3 "Sr2Bi2O5,KO2,Bi2O3" "mixture-sealed in Au capsule-high pressure systhesis(2GPa, 20-60 min, 700C)" Anomalous reentrant resistance phenomena in superconducting Sr1-xKxBiO3: Recovery of superconductivity with electric or magnetic field 2001 "Seoul National University,Seoul,Korea" "J.Supercond., 14(2001)341" 9894 SUP0140397 O-content by iodometry "(La,Y)3CaBa3Cu7Oz" La2.5Y0.5Ca1Ba3Cu7O16.574 La 2.5 Y 0.5 Ca 1 Ba 3 Cu 7 O z 16.574 1 2001 3137 A 3.8609 11.642 K 79 80 81 80 80 "La2O3,Y2O3,BaCO3,CuO,CaCO3,Fe2O3" 1 "mixture-heat(950C,24h in Pt crucible)-pellet-SIN(940C-960C,12h in O2 and N2)-ANN(500C,12h in O2 flow)-slow cool to RT(1C/min)" Structural studies of the superconducting La2.5Y0.5CaBa3(Cu1-xFex)7Oz (0<=x<=0.1) perovskite system by neutron diffraction 2001 "Saurashtra University,Rajkot,India" "J.Supercond., 14(2001)397" 9895 SUP0140397 O-content by iodometry "(La,Y)3CaBa3(Cu,Fe)7Oz" La2.5Y0.5Ca1Ba3Cu6.86Fe0.14O16.578 La 2.5 Y 0.5 Ca 1 Ba 3 Cu 6.86 Fe 0.14 O z 16.578 1 2001 3137 A 3.869 11.6697 K 73 77 80 75 77 "La2O3,Y2O3,BaCO3,CuO,CaCO3,Fe2O3" 1 "mixture-heat(950C,24h in Pt crucible)-pellet-SIN(940C-960C,12h in O2 and N2)-ANN(500C,12h in O2 flow)-slow cool to RT(1C/min)" Structural studies of the superconducting La2.5Y0.5CaBa3(Cu1-xFex)7Oz (0<=x<=0.1) perovskite system by neutron diffraction 2001 "Saurashtra University,Rajkot,India" "J.Supercond., 14(2001)397" 9896 SUP0140397 O-content by iodometry "(La,Y)3CaBa3(Cu,Fe)7Oz" La2.5Y0.5Ca1Ba3Cu6.58Fe0.42O16.599 La 2.5 Y 0.5 Ca 1 Ba 3 Cu 6.58 Fe 0.42 O z 16.599 1 2001 3137 A 3.8707 11.6225 K 62 68 73 63 68 "La2O3,Y2O3,BaCO3,CuO,CaCO3,Fe2O3" 1 "mixture-heat(950C,24h in Pt crucible)-pellet-SIN(940C-960C,12h in O2 and N2)-ANN(500C,12h in O2 flow)-slow cool to RT(1C/min)" Structural studies of the superconducting La2.5Y0.5CaBa3(Cu1-xFex)7Oz (0<=x<=0.1) perovskite system by neutron diffraction 2001 "Saurashtra University,Rajkot,India" "J.Supercond., 14(2001)397" 9897 SUP0140397 O-content by iodometry "(La,Y)3CaBa3(Cu,Fe)7Oz" La2.5Y0.5Ca1Ba3Cu6.3Fe0.7O16.627 La 2.5 Y 0.5 Ca 1 Ba 3 Cu 6.3 Fe 0.7 O z 16.627 1 2001 3137 A 3.8772 11.6318 K 41 51 60 41 51 "La2O3,Y2O3,BaCO3,CuO,CaCO3,Fe2O3" 1 "mixture-heat(950C,24h in Pt crucible)-pellet-SIN(940C-960C,12h in O2 and N2)-ANN(500C,12h in O2 flow)-slow cool to RT(1C/min)" Structural studies of the superconducting La2.5Y0.5CaBa3(Cu1-xFex)7Oz (0<=x<=0.1) perovskite system by neutron diffraction 2001 "Saurashtra University,Rajkot,India" "J.Supercond., 14(2001)397" 9898 JAP0897663 LaBa2Cu3O7 La1Ba2Cu3O7 La 1 Ba 2 Cu 3 O 7 1 2001 Y123 K 89.6 89.6 "pellet-SIN(920-960C,1d in flowing Ar)-ANN(400C,2d in flowing O2)" Coexistence of superconductivity and antiferromagnetism in the La1-xPrxBa2Cu3O7 system 2001 "Department of Physics and National Laboratory of Solid State Microstructures, Nanjing University, Nanjing 210093, People's Republic of China" "J.Appl.Phys., 89(2001)7663" 9899 JAP0897663 "(La,Pr)Ba2Cu3O7" La0.9Pr0.1Ba2Cu3O7 La 0.9 Pr 0.1 Ba 2 Cu 3 O 7 1 2001 Y123 K 68.3 68.3 "pellet-SIN(920-960C,1d in flowing Ar)-ANN(400C,2d in flowing O2)" Coexistence of superconductivity and antiferromagnetism in the La1-xPrxBa2Cu3O7 system 2001 "Department of Physics and National Laboratory of Solid State Microstructures, Nanjing University, Nanjing 210093, People's Republic of China" "J.Appl.Phys., 89(2001)7663" 9900 JAP0897663 "(La,Pr)Ba2Cu3O7" La0.8Pr0.2Ba2Cu3O7 La 0.8 Pr 0.2 Ba 2 Cu 3 O 7 1 2001 5.8 Y123 K 59.8 59.8 "pellet-SIN(920-960C,1d in flowing Ar)-ANN(400C,2d in flowing O2)" Coexistence of superconductivity and antiferromagnetism in the La1-xPrxBa2Cu3O7 system 2001 "Department of Physics and National Laboratory of Solid State Microstructures, Nanjing University, Nanjing 210093, People's Republic of China" "J.Appl.Phys., 89(2001)7663" 9901 JAP0897663 "(La,Pr)Ba2Cu3O7" La0.7Pr0.3Ba2Cu3O7 La 0.7 Pr 0.3 Ba 2 Cu 3 O 7 1 2001 10.8 Y123 K 57.1 57.1 SP9901 "pellet-SIN(920-960C,1d in flowing Ar)-ANN(400C,2d in flowing O2)" Coexistence of superconductivity and antiferromagnetism in the La1-xPrxBa2Cu3O7 system 2001 "Department of Physics and National Laboratory of Solid State Microstructures, Nanjing University, Nanjing 210093, People's Republic of China" "J.Appl.Phys., 89(2001)7663" 9902 JAP0897663 "(La,Pr)Ba2Cu3O7" La0.6Pr0.4Ba2Cu3O7 La 0.6 Pr 0.4 Ba 2 Cu 3 O 7 1 2001 12.7 Y123 K 54.8 54.8 "pellet-SIN(920-960C,1d in flowing Ar)-ANN(400C,2d in flowing O2)" Coexistence of superconductivity and antiferromagnetism in the La1-xPrxBa2Cu3O7 system 2001 "Department of Physics and National Laboratory of Solid State Microstructures, Nanjing University, Nanjing 210093, People's Republic of China" "J.Appl.Phys., 89(2001)7663" 9903 JAP0897663 "(La,Pr)Ba2Cu3O7" La0.5Pr0.5Ba2Cu3O7 La 0.5 Pr 0.5 Ba 2 Cu 3 O 7 1 2001 13.5 Y123 K 51.7 51.7 "pellet-SIN(920-960C,1d in flowing Ar)-ANN(400C,2d in flowing O2)" Coexistence of superconductivity and antiferromagnetism in the La1-xPrxBa2Cu3O7 system 2001 "Department of Physics and National Laboratory of Solid State Microstructures, Nanjing University, Nanjing 210093, People's Republic of China" "J.Appl.Phys., 89(2001)7663" 9904 JAP0897663 "(La,Pr)Ba2Cu3O7" La0.4Pr0.6Ba2Cu3O7 La 0.4 Pr 0.6 Ba 2 Cu 3 O 7 1 2001 14.7 Y123 K "pellet-SIN(920-960C,1d in flowing Ar)-ANN(400C,2d in flowing O2)" Coexistence of superconductivity and antiferromagnetism in the La1-xPrxBa2Cu3O7 system 2001 "Department of Physics and National Laboratory of Solid State Microstructures, Nanjing University, Nanjing 210093, People's Republic of China" "J.Appl.Phys., 89(2001)7663" 9905 JAP0897663 "(La,Pr)Ba2Cu3O7" La0.3Pr0.7Ba2Cu3O7 La 0.3 Pr 0.7 Ba 2 Cu 3 O 7 1 2001 15.4 Y123 K "pellet-SIN(920-960C,1d in flowing Ar)-ANN(400C,2d in flowing O2)" Coexistence of superconductivity and antiferromagnetism in the La1-xPrxBa2Cu3O7 system 2001 "Department of Physics and National Laboratory of Solid State Microstructures, Nanjing University, Nanjing 210093, People's Republic of China" "J.Appl.Phys., 89(2001)7663" 9906 JAP0897663 "(La,Pr)Ba2Cu3O7" La0.2Pr0.8Ba2Cu3O7 La 0.2 Pr 0.8 Ba 2 Cu 3 O 7 1 2001 16.2 Y123 K "pellet-SIN(920-960C,1d in flowing Ar)-ANN(400C,2d in flowing O2)" Coexistence of superconductivity and antiferromagnetism in the La1-xPrxBa2Cu3O7 system 2001 "Department of Physics and National Laboratory of Solid State Microstructures, Nanjing University, Nanjing 210093, People's Republic of China" "J.Appl.Phys., 89(2001)7663" 9907 JAP0897663 "(La,Pr)Ba2Cu3O7" La0.1Pr0.9Ba2Cu3O7 La 0.1 Pr 0.9 Ba 2 Cu 3 O 7 1 2001 17.4 Y123 K "pellet-SIN(920-960C,1d in flowing Ar)-ANN(400C,2d in flowing O2)" Coexistence of superconductivity and antiferromagnetism in the La1-xPrxBa2Cu3O7 system 2001 "Department of Physics and National Laboratory of Solid State Microstructures, Nanjing University, Nanjing 210093, People's Republic of China" "J.Appl.Phys., 89(2001)7663" 9908 JAP0897663 PrBa2Cu3O7 Pr1Ba2Cu3O7 Pr 1 Ba 2 Cu 3 O 7 1 2001 17.8 Y123 K "pellet-SIN(920-960C,1d in flowing Ar)-ANN(400C,2d in flowing O2)" Coexistence of superconductivity and antiferromagnetism in the La1-xPrxBa2Cu3O7 system 2001 "Department of Physics and National Laboratory of Solid State Microstructures, Nanjing University, Nanjing 210093, People's Republic of China" "J.Appl.Phys., 89(2001)7663" 9909 JPS0700644 NQR measurement "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.964Ni0.036O8 Y 1 Ba 2 Cu 3.964 Ni 0.036 O 8 1 2001 Y124 K 63 63 1 high-oxygen-pressure technique "Magnetic correlation near impurities in YBa2(Cu1-xMx)4O8 (M=Ni,Zn) via Cu nuclear spin-lattice relaxation" 2001 "SRL-ISTEC, Shinonome,Koto-ku, Tokyo,Japan" "J.Phys.Soc.Jpn, 70(2001)644" 9910 JPS0700644 NQR measurement "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.98Zn0.02O8 Y 1 Ba 2 Cu 3.98 Zn 0.02 O 8 1 2001 Y124 K 68 68 1 high-oxygen-pressure technique "Magnetic correlation near impurities in YBa2(Cu1-xMx)4O8 (M=Ni,Zn) via Cu nuclear spin-lattice relaxation" 2001 "SRL-ISTEC, Shinonome,Koto-ku, Tokyo,Japan" "J.Phys.Soc.Jpn, 70(2001)644" 9911 JPS0700644 NQR measurement "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.96Zn0.04O8 Y 1 Ba 2 Cu 3.96 Zn 0.04 O 8 1 2001 Y124 K 56 56 1 high-oxygen-pressure technique "Magnetic correlation near impurities in YBa2(Cu1-xMx)4O8 (M=Ni,Zn) via Cu nuclear spin-lattice relaxation" 2001 "SRL-ISTEC, Shinonome,Koto-ku, Tokyo,Japan" "J.Phys.Soc.Jpn, 70(2001)644" 9912 PHB2810909 Annealed at 300C in O2 flow "(Y,La)Ba2Cu3O7" Y0.625La0.375Ba2Cu3O7-z Y 0.625 La 0.375 Ba 2 Cu 3 O 7-z 1 2000 Y123 K 85.2 85.2 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9913 PHB2810909 Annealed at 300C in O2 flow "(Y,La,Pr)Ba2Cu3O7" Y0.5625La0.3375Pr0.1Ba2Cu3O7-z Y 0.5625 La 0.3375 Pr 0.1 Ba 2 Cu 3 O 7-z 1 2000 Y123 K 63.7 63.7 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9914 PHB2810909 Annealed at 300C in O2 flow "(Y,La,Pr)Ba2Cu3O7" Y0.5La0.3Pr0.2Ba2Cu3O7-z Y 0.5 La 0.3 Pr 0.2 Ba 2 Cu 3 O 7-z 1 2000 Y123 K 44.8 44.8 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9915 PHB2810909 Annealed at 300C in O2 flow "(Y,La,Pr)Ba2Cu3O7" Y0.4375La0.2625Pr0.3Ba2Cu3O7-z Y 0.4375 La 0.2625 Pr 0.3 Ba 2 Cu 3 O 7-z 1 2000 Y123 K 28.9 28.9 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9916 PHB2810909 quenched from 500C "(Y,La)Ba2Cu3O7" Y0.625La0.375Ba2Cu3O7-z Y 0.625 La 0.375 Ba 2 Cu 3 O 7-z 1 2000 Y123 K 50 50 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9917 PHB2810909 quenched from 500C "(Y,La,Pr)Ba2Cu3O7" Y0.5625La0.3375Pr0.1Ba2Cu3O7-z Y 0.5625 La 0.3375 Pr 0.1 Ba 2 Cu 3 O 7-z 1 2000 Y123 K 40 40 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9918 PHB2810909 quenched from 500C "(Y,La,Pr)Ba2Cu3O7" Y0.5La0.3Pr0.2Ba2Cu3O7-z Y 0.5 La 0.3 Pr 0.2 Ba 2 Cu 3 O 7-z 1 2000 Y123 K 21 21 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9919 PHB2810909 quenched from 500C "(Y,La,Pr)Ba2Cu3O7" Y0.4375La0.2625Pr0.3Ba2Cu3O7-z Y 0.4375 La 0.2625 Pr 0.3 Ba 2 Cu 3 O 7-z 1 2000 Y123 K 0 0 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9920 PHB2810909 GdBa2Cu3O7 Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O 7-z 6.95 1 2000 Y123 K 92.2 92.2 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9921 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.9Pr0.1Ba2Cu3O6.95 Y 0.9 Pr 0.1 Ba 2 Cu 3 O 7-z 6.95 1 2000 Y123 K 78.5 78.5 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9922 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O6.95 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7-z 6.95 1 2000 Y123 K 58.5 58.5 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9923 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3O6.95 Y 0.7 Pr 0.3 Ba 2 Cu 3 O 7-z 6.95 1 2000 Y123 K 39.3 39.3 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9924 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.65Pr0.35Ba2Cu3O6.95 Y 0.65 Pr 0.35 Ba 2 Cu 3 O 7-z 6.95 1 2000 Y123 K 33 33 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9925 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.6Pr0.4Ba2Cu3O6.95 Y 0.6 Pr 0.4 Ba 2 Cu 3 O 7-z 6.95 1 2000 Y123 K 20.4 20.4 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9926 PHB2810909 GdBa2Cu3O7 Y1Ba2Cu3O6.85 Y 1 Ba 2 Cu 3 O 7-z 6.85 1 2000 Y123 K 84.4 84.4 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9927 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.9Pr0.1Ba2Cu3O6.85 Y 0.9 Pr 0.1 Ba 2 Cu 3 O 7-z 6.85 1 2000 Y123 K 61.5 61.5 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9928 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O6.85 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7-z 6.85 1 2000 Y123 K 45.2 45.2 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9929 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3O6.85 Y 0.7 Pr 0.3 Ba 2 Cu 3 O 7-z 6.85 1 2000 Y123 K 27.4 27.4 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9930 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.65Pr0.35Ba2Cu3O6.85 Y 0.65 Pr 0.35 Ba 2 Cu 3 O 7-z 6.85 1 2000 Y123 K 16.3 16.3 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9931 PHB2810909 GdBa2Cu3O7 Y1Ba2Cu3O6.75 Y 1 Ba 2 Cu 3 O 7-z 6.75 1 2000 Y123 K 61.1 61.1 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9932 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.9Pr0.1Ba2Cu3O6.75 Y 0.9 Pr 0.1 Ba 2 Cu 3 O 7-z 6.75 1 2000 Y123 K 52.2 52.2 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9933 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O6.75 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7-z 6.75 1 2000 Y123 K 41.5 41.5 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9934 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3O6.75 Y 0.7 Pr 0.3 Ba 2 Cu 3 O 7-z 6.75 1 2000 Y123 K 25.2 25.2 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9935 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.65Pr0.35Ba2Cu3O6.75 Y 0.65 Pr 0.35 Ba 2 Cu 3 O 7-z 6.75 1 2000 Y123 K 6.3 6.3 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9936 PHB2810909 GdBa2Cu3O7 Y1Ba2Cu3O6.6 Y 1 Ba 2 Cu 3 O 7-z 6.6 1 2000 Y123 K 49.6 49.6 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9937 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.9Pr0.1Ba2Cu3O6.6 Y 0.9 Pr 0.1 Ba 2 Cu 3 O 7-z 6.6 1 2000 Y123 K 44.1 44.1 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9938 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O6.6 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7-z 6.6 1 2000 Y123 K 37 37 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9939 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3O6.6 Y 0.7 Pr 0.3 Ba 2 Cu 3 O 7-z 6.6 1 2000 Y123 K 28.5 28.5 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9940 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.65Pr0.35Ba2Cu3O6.6 Y 0.65 Pr 0.35 Ba 2 Cu 3 O 7-z 6.6 1 2000 Y123 K 21.5 21.5 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9941 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.6Pr0.4Ba2Cu3O6.6 Y 0.6 Pr 0.4 Ba 2 Cu 3 O 7-z 6.6 1 2000 Y123 K 0 0 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9942 PHB2810909 GdBa2Cu3O7 Y1Ba2Cu3O6.5 Y 1 Ba 2 Cu 3 O 7-z 6.5 1 2000 Y123 K 31.1 31.1 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9943 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.9Pr0.1Ba2Cu3O6.5 Y 0.9 Pr 0.1 Ba 2 Cu 3 O 7-z 6.5 1 2000 Y123 K 21.1 21.1 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9944 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O6.5 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7-z 6.5 1 2000 Y123 K 11.1 11.1 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9945 PHB2810909 "(Gd,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3O6.5 Y 0.7 Pr 0.3 Ba 2 Cu 3 O 7-z 6.5 1 2000 Y123 K 0 0 1 solid state reaction-Q into L-N2 from high temperature. O-content by annealing in O2. Rare-earth ionic radius dependence of superconductivity in Pe-substituted and oxygen deficient R1-xPrxBa2Cu3O7-z 2000 "Tokushima University,Tokushima,Japan" "Physica B, 281(2000)909" 9946 P064144524 "x=0.11 determined by ICP-AES. Z=4.00 by iodometry. Phase transition = 256K(THT to OMT), = 53K(OMT to TLT)" "(La,Ba)2CuO4" La1.89Ba0.11Cu1O4 La 1.89 Ba 0.11 Cu 1 O 4 4 3 2001 T A 5.4378 5.4756 15.7902 K 17.8 10.2 17.8 TP9946 RH9946 TSFZ method "Crystal growth, transport properties, and crystal structure of the single-crystal La2-xBaxCuO4 (x = 0.11)" 2001 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai, Japan" "Phys.Rev.B, 64(2001)144524" 9947 P064144521 not s/c Pb2Sr2CmCu3O8 Pb2Sr2Cm1Cu3O8 Pb 2 Sr 2 Cm 1 Cu 3 O 8 1 2001 8.7 18 Pb3212 A 5.4253 5.4605 15.8055 K 5 1 Cm<248> is a man-made radioactive isotope. Electronic and magnetic properties of Cm in Pb2Sr2Cm1-xCaxCu3O8 (x = 0.0 and 0.5) 2001 "Chemistry Division, Argonne National Laboratory, Argonne, Illinois 60439 ,USA" "Phys.Rev.B, 64(2001)144521" 9948 P064144521 not s/c. no indication of magnetic ordering of Cm. "Pb2Sr2(Cm,Ca)Cu3O8" Pb2Sr2Cm0.5Ca0.5Cu3O8 Pb 2 Sr 2 Cm 0.5 Ca 0.5 Cu 3 O 8 1 2001 Pb3212 K 5 1 Cm<248> is a man-made radioactive isotope. Electronic and magnetic properties of Cm in Pb2Sr2Cm1-xCaxCu3O8 (x = 0.0 and 0.5) 2001 "Chemistry Division, Argonne National Laboratory, Argonne, Illinois 60439 ,USA" "Phys.Rev.B, 64(2001)144521" 9949 PHB2810918 sp-heat measured for 1.51GPa "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1994 2 T K 36 33.6 36 K/GPa 1 TP10112 Oxides 1 SIN(at 1030-1100C for 1week with Intermittent Grinding.)SIN(at 1050C)ANN(900C for 1month) FC Superconductor-to-metal transition in overdoped La2-xSrxCuO4 1994 4 "Phys.Rev.B, 49(1994)9084" "La,Sr,Cu,O" 10113 PR04909084 dTc/dp=0.5 K/GPa for p>1GPa "(La,Sr)2CuO4" La1.82Sr0.18Cu1O4 La 1.82 Sr 0.18 Cu 1 O 4 1 1994 2 T K 34.6 33.2 34.6 K/GPa 0.95 Oxides 1 SIN(at 1030-1100C for 1week with Intermittent Grinding.)SIN(at 1050C)ANN(900C for 1month) FC Superconductor-to-metal transition in overdoped La2-xSrxCuO4 1994 4 "Phys.Rev.B, 49(1994)9084" "La,Sr,Cu,O" 10114 PR04909084 dTc/dp=0.8 K/GPa for p>1GPa "(La,Sr)2CuO4" La1.81Sr0.19Cu1O4 La 1.81 Sr 0.19 Cu 1 O 4 1 1994 2 T K 32.1 30.8 32.1 K/GPa 0.3 TP10114 Oxides 1 SIN(at 1030-1100C for 1week with Intermittent Grinding.)SIN(at 1050C)ANN(900C for 1month) FC Superconductor-to-metal transition in overdoped La2-xSrxCuO4 1994 4 "Phys.Rev.B, 49(1994)9084" "La,Sr,Cu,O" 10115 PR04909084 dTc/dp=1.1K/GPa for p>1GPa "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1 1994 2 T K 30.5 28 30.5 K/GPa 0.001 Oxides 1 SIN(at 1030-1100C for 1week with Intermittent Grinding.)SIN(at 1050C)ANN(900C for 1month) FC Superconductor-to-metal transition in overdoped La2-xSrxCuO4 1994 4 "Phys.Rev.B, 49(1994)9084" "La,Sr,Cu,O" 10116 PR04909084 dTc/dp=0.4 K/GPa for p>1GPa "(La,Sr)2CuO4" La1.79Sr0.21Cu1O4 La 1.79 Sr 0.21 Cu 1 O 4 1 1994 2 T K K/GPa Oxides 1 SIN(at 1030-1100C for 1week with Intermittent Grinding.)SIN(at 1050C)ANN(900C for 1month) FC Superconductor-to-metal transition in overdoped La2-xSrxCuO4 1994 4 "Phys.Rev.B, 49(1994)9084" "La,Sr,Cu,O" 10117 PR04909084 dTc/dp=0.5K/GPa for p>1GPa "(La,Sr)2CuO4" La1.78Sr0.22Cu1O4 La 1.78 Sr 0.22 Cu 1 O 4 1 1994 2 T K K/GPa Oxides 1 SIN(at 1030-1100C for 1week with Intermittent Grinding.)SIN(at 1050C)ANN(900C for 1month) FC Superconductor-to-metal transition in overdoped La2-xSrxCuO4 1994 4 "Phys.Rev.B, 49(1994)9084" "La,Sr,Cu,O" 10118 PR04909084 dTc/dp=0 for p>1GPa "(La,Sr)2CuO4" La1.77Sr0.23Cu1O4 La 1.77 Sr 0.23 Cu 1 O 4 1 1994 3 T K 21.3 18 21.3 K/GPa Oxides 1 SIN(at 1030-1100C for 1week with Intermittent Grinding.)SIN(at 1050C)ANN(900C for 1month) FC Superconductor-to-metal transition in overdoped La2-xSrxCuO4 1994 4 "Phys.Rev.B, 49(1994)9084" "La,Sr,Cu,O" 10119 PR04909084 dTc/dp=0 for p>1GPa "(La,Sr)2CuO4" La1.76Sr0.24Cu1O4 La 1.76 Sr 0.24 Cu 1 O 4 1 1994 3 T K 20 16 20 K/GPa Oxides 1 SIN(at 1030-1100C for 1week with Intermittent Grinding.)SIN(at 1050C)ANN(900C for 1month) FC Superconductor-to-metal transition in overdoped La2-xSrxCuO4 1994 4 "Phys.Rev.B, 49(1994)9084" "La,Sr,Cu,O" 10120 PR04909084 dTc/dp=0 for p>1GPa "(La,Sr)2CuO4" La1.75Sr0.25Cu1O4 La 1.75 Sr 0.25 Cu 1 O 4 1 1994 3 T K K/GPa Oxides 1 SIN(at 1030-1100C for 1week with Intermittent Grinding.)SIN(at 1050C)ANN(900C for 1month) FC Superconductor-to-metal transition in overdoped La2-xSrxCuO4 1994 4 "Phys.Rev.B, 49(1994)9084" "La,Sr,Cu,O" 10121 PR04909084 dTc/dp is for p<1GPa "(La,Sr)2CuO4" La1.74Sr0.26Cu1O4 La 1.74 Sr 0.26 Cu 1 O 4 1 1994 3 T K 9 7 9 K/GPa 0.1 Oxides 1 SIN(at 1030-1100C for 1week with Intermittent Grinding.)SIN(at 1050C)ANN(900C for 1month) FC Superconductor-to-metal transition in overdoped La2-xSrxCuO4 1994 4 "Phys.Rev.B, 49(1994)9084" "La,Sr,Cu,O" 10122 PR04909084 dTc/dp is for p<1GPa "(La,Sr)2CuO4" La1.73Sr0.27Cu1O4 La 1.73 Sr 0.27 Cu 1 O 4 1 1994 3 T K 12 7 12 K/GPa Oxides 1 SIN(at 1030-1100C for 1week with Intermittent Grinding.)SIN(at 1050C)ANN(900C for 1month) FC Superconductor-to-metal transition in overdoped La2-xSrxCuO4 1994 4 "Phys.Rev.B, 49(1994)9084" "La,Sr,Cu,O" 10123 PR04909898 GL parameter=130 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+d Bi 2 Sr 2 Ca 1 Cu 2 O 8+d 3 1994 3 Bi2212 Amma A 5.375 5.395 30.65 3 K 82.5 84 84 T/K 2.17 A 16.9 A 2200 m.ohm.cm 0.5 "Bi2O3,SrCO3,CaCo3,CuO,Fe2O3" 10 CAL(800C in air)SINANN (800C in an atmosphere of 8% O2 and 92% Ar) "Superconductivity in Bi2Sr2CaCu2O8+z single crystals doped with Fe,Ni, and Zn" 1994 4 "Phys.Rev.B, 49(1994)9898" "Bi,Sr,Ca,Cu,O,Fe,Ni,Zn" 10124 PR04909898 GL parameter=120 "Bi2Sr2Ca(Cu,Fe)2O8" Bi2Sr2Ca1Cu1.994Fe0.006O8+d Bi 2 Sr 2 Ca 1 Cu 1.994 Fe 0.006 O 8+d 3 1994 3 Bi2212 Amma A 5.375 5.39 30.64 3 K 82.5 81.5 81.5 T/K 1.25 A 22 A 2640 m.ohm.cm 0.71 "Bi2O3,SrCO3,CaCo3,CuO,Fe2O3" 10 CAL(800C in air)SINANN (800C in an atmosphere of 8% O2 and 92% Ar) "Superconductivity in Bi2Sr2CaCu2O8+z single crystals doped with Fe,Ni, and Zn" 1994 4 "Phys.Rev.B, 49(1994)9898" "Bi,Sr,Ca,Cu,O,Fe,Ni,Zn" 10125 PR04909898 "Bi2Sr2Ca(Cu,Fe)2O8" Bi2Sr2Ca1Cu1.982Fe0.018O8+d Bi 2 Sr 2 Ca 1 Cu 1.982 Fe 0.018 O 8+d 3 1994 3 Bi2212 K 71.5 71.5 A 2670 "Bi2O3,SrCO3,CaCo3,CuO,Fe2O3" 10 CAL(800C in air)SINANN (800C in an atmosphere of 8% O2 and 92% Ar) "Superconductivity in Bi2Sr2CaCu2O8+z single crystals doped with Fe,Ni, and Zn" 1994 4 "Phys.Rev.B, 49(1994)9898" "Bi,Sr,Ca,Cu,O,Fe,Ni,Zn" 10126 PR04909898 "Bi2Sr2Ca(Cu,Fe)2O8" Bi2Sr2Ca1Cu1.977Fe0.023O8+d Bi 2 Sr 2 Ca 1 Cu 1.977 Fe 0.023 O 8+d 3 1994 3 Bi2212 K 66 66 m.ohm.cm 3.46 "Bi2O3,SrCO3,CaCo3,CuO,Fe2O3" 10 CAL(800C in air)SINANN (800C in an atmosphere of 8% O2 and 92% Ar) "Superconductivity in Bi2Sr2CaCu2O8+z single crystals doped with Fe,Ni, and Zn" 1994 4 "Phys.Rev.B, 49(1994)9898" "Bi,Sr,Ca,Cu,O,Fe,Ni,Zn" 10127 PR04909898 "Bi2Sr2Ca(Cu,Fe)2O8" Bi2Sr2Ca1Cu1.954Fe0.046O8+d Bi 2 Sr 2 Ca 1 Cu 1.954 Fe 0.046 O 8+d 3 1994 3 Bi2212 Amma A 5.4 5.425 30.68 3 K 69.5 69.5 A 3460 "Bi2O3,SrCO3,CaCo3,CuO,Fe2O3" 10 CAL(800C in air)SINANN (800C in an atmosphere of 8% O2 and 92% Ar) "Superconductivity in Bi2Sr2CaCu2O8+z single crystals doped with Fe,Ni, and Zn" 1994 4 "Phys.Rev.B, 49(1994)9898" "Bi,Sr,Ca,Cu,O,Fe,Ni,Zn" 10128 PR04909898 "Bi2Sr2Ca(Cu,Fe)2O8" Bi2Sr2Ca1Cu1.91Fe0.09O8+d Bi 2 Sr 2 Ca 1 Cu 1.91 Fe 0.09 O 8+d 3 1994 3 Bi2212 K 69.5 69.5 "Bi2O3,SrCO3,CaCo3,CuO,Fe2O3" 10 CAL(800C in air)SINANN (800C in an atmosphere of 8% O2 and 92% Ar) "Superconductivity in Bi2Sr2CaCu2O8+z single crystals doped with Fe,Ni, and Zn" 1994 4 "Phys.Rev.B, 49(1994)9898" "Bi,Sr,Ca,Cu,O,Fe,Ni,Zn" 10129 PR04909898 GL parameter=218 "Bi2Sr2Ca(Cu,Ni)2O8" Bi2Sr2Ca1Cu1.991Ni0.009O8+d Bi 2 Sr 2 Ca 1 Cu 1.991 Ni 0.009 O 8+d 3 1994 3 Bi2212 Amma A 5.375 5.425 30.58 3 K 82.5 79.5 79.5 T/K 3.57 A 12.1 A 2640 m.ohm.cm 0.78 "Bi2O3,SrCO3,CaCO3,CuO,NiO" 10 CAL(800C in air)SINANN(800C in an atomosphere of 8% O2 and 92% Ar "Superconductivity in Bi2Sr2CaCu2O8+z single crystals doped with Fe,Ni, and Zn" 1994 4 "Phys.Rev.B, 49(1994)9898" "Bi,Sr,Ca,Cu,O,Fe,Ni,Zn" 10130 PR04909898 GL parameter=219 "Bi2Sr2Ca(Cu,Ni)2O8" Bi2Sr2Ca1Cu1.983Ni0.017O8+d Bi 2 Sr 2 Ca 1 Cu 1.983 Ni 0.017 O 8+d 3 1994 3 Bi2212 Amma A 5.375 5.42 30.59 3 K 79 75.5 75.5 T/K A 11.8 A 2590 m.ohm.cm 0.71 "Bi2O3,SrCO3,CaCO3,CuO,NiO" 10 CAL(800C in air)SINANN(800C in an atomosphere of 8% O2 and 92% Ar "Superconductivity in Bi2Sr2CaCu2O8+z single crystals doped with Fe,Ni, and Zn" 1994 4 "Phys.Rev.B, 49(1994)9898" "Bi,Sr,Ca,Cu,O,Fe,Ni,Zn" 10131 PR04909898 "Bi2Sr2Ca(Cu,Ni)2O8" Bi2Sr2Ca1Cu1.982Ni0.018O8+d Bi 2 Sr 2 Ca 1 Cu 1.982 Ni 0.018 O 8+d 3 1994 3 Bi2212 Amma A 5.365 5.445 30.555 3 K 72.5 74 74 "Bi2O3,SrCO3,CaCO3,CuO,NiO" 10 CAL(800C in air)SINANN(800C in an atomosphere of 8% O2 and 92% Ar "Superconductivity in Bi2Sr2CaCu2O8+z single crystals doped with Fe,Ni, and Zn" 1994 4 "Phys.Rev.B, 49(1994)9898" "Bi,Sr,Ca,Cu,O,Fe,Ni,Zn" 10132 PR04909898 GL parameter=211 "Bi2Sr2Ca(Cu,Zn)2O8" Bi2Sr2Ca1Cu1.998Zn0.002O8+d Bi 2 Sr 2 Ca 1 Cu 1.998 Zn 0.002 O 8+d 3 1994 3 Bi2212 Amma A 5.37 5.405 30.635 3 K 80.5 83 83 T/K 4.54 A 12.9 A 2720 m.ohm.cm 0.62 "Bi2O3,SrCO3,CaCO3,CuO,ZnO" 10 CAL(800C in aie)SINANN(800C in an atmosphere of 8% O2 and 92% Ar) "Superconductivity in Bi2Sr2CaCu2O8+z single crystals doped with Fe,Ni, and Zn" 1994 4 "Phys.Rev.B, 49(1994)9898" "Bi,Sr,Ca,Cu,O,Fe,Ni,Zn" 10133 PR04909898 "Bi2Sr2Ca(Cu,Zn)2O8" Bi2Sr2Ca1Cu1.996Zn0.004O8+d Bi 2 Sr 2 Ca 1 Cu 1.996 Zn 0.004 O 8+d 3 1994 3 Bi2212 Amma A 5.38 5.395 30.8 3 K 82.5 82.5 "Bi2O3,SrCO3,CaCO3,CuO,ZnO" 10 CAL(800C in aie)SINANN(800C in an atmosphere of 8% O2 and 92% Ar) "Superconductivity in Bi2Sr2CaCu2O8+z single crystals doped with Fe,Ni, and Zn" 1994 4 "Phys.Rev.B, 49(1994)9898" "Bi,Sr,Ca,Cu,O,Fe,Ni,Zn" 10134 PR04909150 DyBa2Cu4O8 Dy1Ba2Cu4O8 Dy 1 Ba 2 Cu 4 O 8 3 1994 K 73.6 73.6 73.6 2 See Physica C 193 (1992) 64. "Magnetic anisotropy in single-crystal rare-earth-doped RBa2Cu4O8 (R=Y,Dy,Gd,Ho,Er,Tm,Yb)" 1994 4 "Phys.Rev.B, 49(1994)9150" "Ba,Cu,O,Y,Dy,Gd,Ho,Er,Tm,Yb" 10135 PR04909150 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 3 1994 K 80 80 80 2 See Physica C 193 (1992) 64. "Magnetic anisotropy in single-crystal rare-earth-doped RBa2Cu4O8 (R=Y,Dy,Gd,Ho,Er,Tm,Yb)" 1994 4 "Phys.Rev.B, 49(1994)9150" "Ba,Cu,O,Y,Dy,Gd,Ho,Er,Tm,Yb" 10136 PR04909150 GdBa2Cu4O8 Gd1Ba2Cu4O8 Gd 1 Ba 2 Cu 4 O 8 3 1994 K 74.7 74.7 74.7 2 See Physica C 193 (1992) 64. "Magnetic anisotropy in single-crystal rare-earth-doped RBa2Cu4O8 (R=Y,Dy,Gd,Ho,Er,Tm,Yb)" 1994 4 "Phys.Rev.B, 49(1994)9150" "Ba,Cu,O,Y,Dy,Gd,Ho,Er,Tm,Yb" 10137 PR04909150 HoBa2Cu4O8 Ho1Ba2Cu4O8 Ho 1 Ba 2 Cu 4 O 8 3 1994 K 79 79 79 2 See Physica C 193 (1992) 64. "Magnetic anisotropy in single-crystal rare-earth-doped RBa2Cu4O8 (R=Y,Dy,Gd,Ho,Er,Tm,Yb)" 1994 4 "Phys.Rev.B, 49(1994)9150" "Ba,Cu,O,Y,Dy,Gd,Ho,Er,Tm,Yb" 10138 PR04909150 ErBa2Cu4O8 Er1Ba2Cu4O8 Er 1 Ba 2 Cu 4 O 8 3 1994 K 80 80 80 2 See Physica C 193 (1992) 64. "Magnetic anisotropy in single-crystal rare-earth-doped RBa2Cu4O8 (R=Y,Dy,Gd,Ho,Er,Tm,Yb)" 1994 4 "Phys.Rev.B, 49(1994)9150" "Ba,Cu,O,Y,Dy,Gd,Ho,Er,Tm,Yb" 10139 PR04909150 TmBa2Cu4O8 Tm1Ba2Cu4O8 Tm 1 Ba 2 Cu 4 O 8 3 1994 K 79.9 79.9 79.9 3 See Physica C 193 (1992) 64. "Magnetic anisotropy in single-crystal rare-earth-doped RBa2Cu4O8 (R=Y,Dy,Gd,Ho,Er,Tm,Yb)" 1994 4 "Phys.Rev.B, 49(1994)9150" "Ba,Cu,O,Y,Dy,Gd,Ho,Er,Tm,Yb" 10140 PR04909150 YbBa2Cu4O8 Yb1Ba2Cu4O8 Yb 1 Ba 2 Cu 4 O 8 3 1994 K 78.8 78.8 78.8 2 See Physica C 193 (1992) 64. "Magnetic anisotropy in single-crystal rare-earth-doped RBa2Cu4O8 (R=Y,Dy,Gd,Ho,Er,Tm,Yb)" 1994 4 "Phys.Rev.B, 49(1994)9150" "Ba,Cu,O,Y,Dy,Gd,Ho,Er,Tm,Yb" 10141 PR04909097 "(La,Sr)2CuO4" La1.925Sr0.075Cu1O4+d La 1.925 Sr 0.075 Cu 1 O 4+d 3 1994 K 23 23 1 m.ohm.cm 1.6 2.7 Magnetoresistance in the normal state of La1.925Sr0.075CuO4+delta 1994 4 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545" "Phys.Rev.B,49(1994)9097" 10142 PR04909248 "(La,Sr,Pr)2CuO4" La1.07Pr0.85Sr0.08Cu1O4 La 1.07 Pr 0.85 Sr 0.08 Cu 1 O 4 1994 K 9 9 9 See Physica C 208 (1993) 217. Disappearance of superconductivity in overdoped La1.15-xPr0.85SrxCuO4 and the orthorhombic-tetragonal phase boundary 1994 4 "Phys.Rev.B, 49(1994)9248" "La,Pr,Sr,Cu,O" 10143 PR04909248 "(La,Sr,Pr)2CuO4" La1.04Pr0.85Sr0.11Cu1O4 La 1.04 Pr 0.85 Sr 0.11 Cu 1 O 4 1994 K 17 17 17 See Physica C 208 (1993) 217. Disappearance of superconductivity in overdoped La1.15-xPr0.85SrxCuO4 and the orthorhombic-tetragonal phase boundary 1994 4 "Phys.Rev.B, 49(1994)9248" "La,Pr,Sr,Cu,O" 10144 PR04909248 "(La,Sr,Pr)2CuO4" La1.03Pr0.85Sr0.12Cu1O4 La 1.03 Pr 0.85 Sr 0.12 Cu 1 O 4 1994 K 18 18 18 See Physica C 208 (1993) 217. Disappearance of superconductivity in overdoped La1.15-xPr0.85SrxCuO4 and the orthorhombic-tetragonal phase boundary 1994 4 "Phys.Rev.B, 49(1994)9248" "La,Pr,Sr,Cu,O" 10145 PR04909248 "(La,Sr,Pr)2CuO4" La1.02Pr0.85Sr0.13Cu1O4 La 1.02 Pr 0.85 Sr 0.13 Cu 1 O 4 1994 K 22 22 22 See Physica C 208 (1993) 217. Disappearance of superconductivity in overdoped La1.15-xPr0.85SrxCuO4 and the orthorhombic-tetragonal phase boundary 1994 4 "Phys.Rev.B, 49(1994)9248" "La,Pr,Sr,Cu,O" 10146 PR04909248 "(La,Sr,Pr)2CuO4" La1.01Pr0.85Sr0.14Cu1O4 La 1.01 Pr 0.85 Sr 0.14 Cu 1 O 4 1994 K 25 25 25 See Physica C 208 (1993) 217. Disappearance of superconductivity in overdoped La1.15-xPr0.85SrxCuO4 and the orthorhombic-tetragonal phase boundary 1994 4 "Phys.Rev.B, 49(1994)9248" "La,Pr,Sr,Cu,O" 10147 PR04909248 "(La,Sr,Pr)2CuO4" La1Pr0.85Sr0.15Cu1O4 La 1 Pr 0.85 Sr 0.15 Cu 1 O 4 1994 K 28 28 28 See Physica C 208 (1993) 217. Disappearance of superconductivity in overdoped La1.15-xPr0.85SrxCuO4 and the orthorhombic-tetragonal phase boundary 1994 4 "Phys.Rev.B, 49(1994)9248" "La,Pr,Sr,Cu,O" 10148 PR04909248 "(La,Sr,Pr)2CuO4" La0.97Pr0.85Sr0.18Cu1O4 La 0.97 Pr 0.85 Sr 0.18 Cu 1 O 4 1994 K 28 28 28 See Physica C 208 (1993) 217. Disappearance of superconductivity in overdoped La1.15-xPr0.85SrxCuO4 and the orthorhombic-tetragonal phase boundary 1994 4 "Phys.Rev.B, 49(1994)9248" "La,Pr,Sr,Cu,O" 10149 PR04909248 "(La,Sr,Pr)2CuO4" La0.95Pr0.85Sr0.2Cu1O4 La 0.95 Pr 0.85 Sr 0.2 Cu 1 O 4 1994 K 27 27 27 See Physica C 208 (1993) 217. Disappearance of superconductivity in overdoped La1.15-xPr0.85SrxCuO4 and the orthorhombic-tetragonal phase boundary 1994 4 "Phys.Rev.B, 49(1994)9248" "La,Pr,Sr,Cu,O" 10150 PR04909248 "(La,Sr,Pr)2CuO4" La0.92Pr0.85Sr0.23Cu1O4 La 0.92 Pr 0.85 Sr 0.23 Cu 1 O 4 1994 K 17 17 17 See Physica C 208 (1993) 217. Disappearance of superconductivity in overdoped La1.15-xPr0.85SrxCuO4 and the orthorhombic-tetragonal phase boundary 1994 4 "Phys.Rev.B, 49(1994)9248" "La,Pr,Sr,Cu,O" 10151 PR04909248 "(La,Sr,Pr)2CuO4" La0.9Pr0.85Sr0.25Cu1O4 La 0.9 Pr 0.85 Sr 0.25 Cu 1 O 4 1994 K 10 10 10 See Physica C 208 (1993) 217. Disappearance of superconductivity in overdoped La1.15-xPr0.85SrxCuO4 and the orthorhombic-tetragonal phase boundary 1994 4 "Phys.Rev.B, 49(1994)9248" "La,Pr,Sr,Cu,O" 10152 PR04909924 YBa2Cu3O7 Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 3 1994 Y123 K 90 0.5 90 1 A Microwave Self-Resonant Technique and Electron Paramagnetic Resonance Technique. 25 8 A Microwave Self-Resonant Technique. 1800 mic.ohm.cm 300 2 Stoichiometric YBCO (99.999% pure). Target is (100)-oriented MgO.The thickness is about 500A. "Measurements of surface impedance, London penetration depth, and coherence length in Y-Ba-Cu-O films at microwave frequencies" 1994 4 "Northeastern University, Boston, Massachusetts 02115" "Phys.Rev.B,49(1994)9924" 10153 PR04910043 YBa2Cu3O7 Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 3 1994 Y123 K 92.3 92.3 A 9 1 mJ/cm3.K 45 "Y:Ba:Cu+Zn = 1:4:9-11. Well-decarbonated ceramic powder is heated to 1050C, then FC(3C/h, in air) below 900C, ANN(in flowing O2, at 500C, for100h) and FC (3C/h) to room temperature." Normal and superconductive properties of Zn-substituted single-crystal YBa2(Cu1-xZnx)3O7-z 1994 4 "Phys.Rev.B, 49(1994)10043" "Y,Ba,Cu,Zn,O" 10154 PR04910043 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.979Zn0.021O7-d Y 1 Ba 2 Cu 2.979 Zn 0.021 O 7-d 3 1994 Y123 K 84 84 A 10 1.2 mJ/cm3.K 41 "Y:Ba:Cu+Zn = 1:4:9-11. Well-decarbonated ceramic powder is heated to 1050C, then FC(3C/h, in air) below 900C, ANN(in flowing O2, at 500C, for100h) and FC (3C/h) to room temperature." Normal and superconductive properties of Zn-substituted single-crystal YBa2(Cu1-xZnx)3O7-z 1994 4 "Phys.Rev.B, 49(1994)10043" "Y,Ba,Cu,Zn,O" 10155 PR04910043 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.954Zn0.047O7-d Y 1 Ba 2 Cu 2.954 Zn 0.047 O 7-d 3 1994 Y123 K 73.8 73.8 A 13 1.8 mJ/cm3.K 36 "Y:Ba:Cu+Zn = 1:4:9-11. Well-decarbonated ceramic powder is heated to 1050C, then FC(3C/h, in air) below 900C, ANN(in flowing O2, at 500C, for100h) and FC (3C/h) to room temperature." Normal and superconductive properties of Zn-substituted single-crystal YBa2(Cu1-xZnx)3O7-z 1994 4 "Phys.Rev.B, 49(1994)10043" "Y,Ba,Cu,Zn,O" 10156 PR04910043 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.91Zn0.09O7-d Y 1 Ba 2 Cu 2.91 Zn 0.09 O 7-d 3 1994 Y123 K 57.5 57.5 A 14.5 2.2 mJ/cm3.K 20.5 "Y:Ba:Cu+Zn = 1:4:9-11. Well-decarbonated ceramic powder is heated to 1050C, then FC(3C/h, in air) below 900C, ANN(in flowing O2, at 500C, for100h) and FC (3C/h) to room temperature." Normal and superconductive properties of Zn-substituted single-crystal YBa2(Cu1-xZnx)3O7-z 1994 4 "Phys.Rev.B, 49(1994)10043" "Y,Ba,Cu,Zn,O" 10157 PR04909168 YBa2Cu3O7 Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 1 1994 5.4 Y123 K 90.83 91.83 1 91.33 2 85 m.ohm.cm 1.2 See PRB 48 (1992) 3423. ac susceptibility near the superconducting transition in polycrystalline YBa2Cu3O7-delta 1994 4 "Laboratory for Low Temperature Physics, Department of Physics and Astronomy, University of Massachusetts, Amherst, Massachusetts 01003" "Phys.Rev.B,49(1994)9168" 10158 PR04909168 YBa2Cu3O7 Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 1 1994 5.1 Y123 K 90.5 91.65 1 91.075 2 85 m.ohm.cm 1 See PRB 48 (1992) 3423. ac susceptibility near the superconducting transition in polycrystalline YBa2Cu3O7-delta 1994 4 "Laboratory for Low Temperature Physics, Department of Physics and Astronomy, University of Massachusetts, Amherst, Massachusetts 01003" "Phys.Rev.B,49(1994)9168" 10159 PR04909168 YBa2Cu3O7 Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 1 1994 5.4 Y123 K 92.42 1 92.42 2 85 m.ohm.cm 1.2 See PRB 48 (1992) 3423. ac susceptibility near the superconducting transition in polycrystalline YBa2Cu3O7-delta 1994 4 "Laboratory for Low Temperature Physics, Department of Physics and Astronomy, University of Massachusetts, Amherst, Massachusetts 01003" "Phys.Rev.B,49(1994)9168" 10160 PR04912206 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1994 Y123 K 92.12 1 92.12 mic.ohm.m 14.33 "Y2O3,BaCO3,CuO" 1 "SIN(930C,24h) - ANN(O2,900C to 600C at 1C/h, Dwell 12h, to 300C at 0.5C/h, to R.T.)" Excess conductivity and pair-breaking effects in YBa2Cu3O7 and Bi2Sr2Ca1-xYxCu2O8+z systems 1994 5 "Phys.Rev.B, 49(1994)12206" "Y,Ba,Cu,O,Bi,Sr,Ca" 10161 PR04912206 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 4 1994 Y123 K 86.4 1 86.4 mic.ohm.m 1.11 17 by Laser Ablation Method. Substrate is SrTiO3. Excess conductivity and pair-breaking effects in YBa2Cu3O7 and Bi2Sr2Ca1-xYxCu2O8+z systems 1994 5 "Phys.Rev.B, 49(1994)12206" "Y,Ba,Cu,O,Bi,Sr,Ca" 10162 PR04912206 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+y Bi 2 Sr 2 Ca 1 Cu 2 O 8+y 1 1994 Bi2212 K 85.7 4 85.7 mic.ohm.m 60.16 "Bi2O3, Sr2CaCu2O8 precursor" 1 matrix precursor method. Reacting Bi2O3 to Sr2CaCu2O8 in the Presence of O2 at 900~950C Excess conductivity and pair-breaking effects in YBa2Cu3O7 and Bi2Sr2Ca1-xYxCu2O8+z systems 1994 5 "Phys.Rev.B, 49(1994)12206" "Y,Ba,Cu,O,Bi,Sr,Ca" 10163 PR04912206 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+y Bi 2 Sr 2 Ca 1 Cu 2 O 8+y 1 1994 Bi2212 K 63.58 6 63.58 mic.ohm.m 22.2 "Bi2O3, Sr2CaCu2O8 precursor" 1 matrix precursor method. Reacting Bi2O3 to Sr2CaCu2O8 in the Presence of O2 at 900~950C Excess conductivity and pair-breaking effects in YBa2Cu3O7 and Bi2Sr2Ca1-xYxCu2O8+z systems 1994 5 "Phys.Rev.B, 49(1994)12206" "Y,Ba,Cu,O,Bi,Sr,Ca" 10164 PR04912206 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+y Bi 2 Sr 2 Ca 1 Cu 2 O 8+y 1 1994 Bi2212 K 50.33 9 50.33 mic.ohm.m 36.17 "Bi2O3, Sr2CaCu2O8 precursor" 1 matrix precursor method. Reacting Bi2O3 to Sr2CaCu2O8 in the Presence of O2 at 900~950C Excess conductivity and pair-breaking effects in YBa2Cu3O7 and Bi2Sr2Ca1-xYxCu2O8+z systems 1994 5 "Phys.Rev.B, 49(1994)12206" "Y,Ba,Cu,O,Bi,Sr,Ca" 10165 PR04912322 "(Hg,Pb)Ba2Ca2Cu3O9" Hg0.66Pb0.33Ba2Ca2Cu3Oy Hg 0.66 Pb 0.33 Ba 2 Ca 2 Cu 3 O y 1 1994 2 Hg1223 A 3.849 15.86 3 K 130 138 132 8 132 50 1 "Percursor SIN(oxygen,900C,16h) - MIX(Prec.:HgO:PbO2=1:0.8:0.2) - Wrapped( in Gold foil) - loaded(in a quartz-tube at 1e-1 torr O2) - SIN(to 800C for 2~5h,hold at 800C for 2h,to 30C for 6H)" Superconductivity above 130K in the Hg-Pb-Ba-Ca-Cu-O system 1994 5 "Phys.Rev.B, 49(1994)12322" "Hg,Ba,Pb,Ca,Cu,O" 10166 PR04913075 HgBa2CuO4 Hg1Ba2Cu1O4+d Hg 1 Ba 2 Cu 1 O 4+d 1 1994 GPa 104 Hg1201 A 3.874 9.503 3 Lattice const. was measured by Energy-Dispersive X-Ray DIffraction. K 90 94 4 92 K/GPa 1.4 20 "In detail,see Nature 364 ,(1993) 129" Volume dependence of the superconducting transition temperature for the high-temperature superconductor HgBa2CuO4+z 1994 5 "Phys.Rev.B, 49(1994)13075" "Hg,Ba,Cu,O" 10167 PR04913119 Bi2Sr2CuO6 Bi2.1Sr1.9Cu1Oy Bi 2.1 Sr 1.9 Cu 1 O y 1 1994 Bi2201 A K "Bi2O3,SrCO3,CuO powder" 1 "SIN(800C,12h -> 820C,12h,in air) - SIN(850~870C,15h,in air)" Bi2+xSr2-xCuOy(0.10%$x%$0.40) studied by photoemission and inverse-photoemission spectroscopy 1994 5 "Research Institute of Electronics, Shizuoka University, Hamamatsu 432, Japan" "Phys.Rev.B,49(1994)13119" 10168 PR04913119 Bi2Sr2CuO6 Bi2.15Sr1.85Cu1Oy Bi 2.15 Sr 1.85 Cu 1 O y 1 1994 Bi2201 A K "Bi2O3,SrCO3,CuO powder" 1 "SIN(800C,12h -> 820C,12h,in air) - SIN(850~870C,15h,in air)" Bi2+xSr2-xCuOy(0.10%$x%$0.40) studied by photoemission and inverse-photoemission spectroscopy 1994 5 "Research Institute of Electronics, Shizuoka University, Hamamatsu 432, Japan" "Phys.Rev.B,49(1994)13119" 10169 PR04913119 Bi2Sr2CuO6 Bi2.2Sr1.8Cu1Oy Bi 2.2 Sr 1.8 Cu 1 O y 1 1994 Bi2201 A K "Bi2O3,SrCO3,CuO powder" 1 "SIN(800C,12h -> 820C,12h,in air) - SIN(850~870C,15h,in air)" Bi2+xSr2-xCuOy(0.10%$x%$0.40) studied by photoemission and inverse-photoemission spectroscopy 1994 5 "Research Institute of Electronics, Shizuoka University, Hamamatsu 432, Japan" "Phys.Rev.B,49(1994)13119" 10170 PR04913119 Bi2Sr2CuO6 Bi2.25Sr1.75Cu1Oy Bi 2.25 Sr 1.75 Cu 1 O y 1 1994 Bi2201 A K "Bi2O3,SrCO3,CuO powder" 1 "SIN(800C,12h -> 820C,12h,in air) - SIN(850~870C,15h,in air)" Bi2+xSr2-xCuOy(0.10%$x%$0.40) studied by photoemission and inverse-photoemission spectroscopy 1994 5 "Research Institute of Electronics, Shizuoka University, Hamamatsu 432, Japan" "Phys.Rev.B,49(1994)13119" 10172 PR04913119 Bi2Sr2CuO6 Bi2.3Sr1.7Cu1Oy Bi 2.3 Sr 1.7 Cu 1 O y 1 1994 Bi2201 A K "Bi2O3,SrCO3,CuO powder" 1 "SIN(800C,12h -> 820C,12h,in air) - SIN(850~870C,15h,in air)" Bi2+xSr2-xCuOy(0.10%$x%$0.40) studied by photoemission and inverse-photoemission spectroscopy 1994 5 "Research Institute of Electronics, Shizuoka University, Hamamatsu 432, Japan" "Phys.Rev.B,49(1994)13119" 10173 PR04913119 Bi2Sr2CuO6 Bi2.35Sr1.65Cu1Oy Bi 2.35 Sr 1.65 Cu 1 O y 1 1994 Bi2201 A K "Bi2O3,SrCO3,CuO powder" 1 "SIN(800C,12h -> 820C,12h,in air) - SIN(850~870C,15h,in air)" Bi2+xSr2-xCuOy(0.10%$x%$0.40) studied by photoemission and inverse-photoemission spectroscopy 1994 5 "Research Institute of Electronics, Shizuoka University, Hamamatsu 432, Japan" "Phys.Rev.B,49(1994)13119" 10174 PR04913119 Bi2Sr2CuO6 Bi2.4Sr1.6Cu1Oy Bi 2.4 Sr 1.6 Cu 1 O y 1 1994 Bi2201 A K "Bi2O3,SrCO3,CuO powder" 1 "SIN(800C,12h -> 820C,12h,in air) - SIN(850~870C,15h,in air)" Bi2+xSr2-xCuOy(0.10%$x%$0.40) studied by photoemission and inverse-photoemission spectroscopy 1994 5 "Research Institute of Electronics, Shizuoka University, Hamamatsu 432, Japan" "Phys.Rev.B,49(1994)13119" 10175 PR04913123 "Tl(Ba,Sr)LaCuO5" Tl1Ba0.6Sr0.4La1Cu1O5 Tl 1 Ba 0.6 Sr 0.4 La 1 Cu 1 O 5 1 1994 2 Tl1201 P4/mmm A 3.821 8.901 3 K 20 20 See Phys.Rev.B 46 (1992) 6622 Possible overdoping in TlSrLaCuO5 and superconductivity in TlBaLaCuO5 by isovalent-cation substitution 1994 5 "Phys.Rev.B, 49(1994)13123" "Tl,Sr,Ba,La,Cu,O" 10176 PR04913123 "Tl(Ba,Sr)LaCuO5" Tl1Ba0.3Sr0.7La1Cu1O5 Tl 1 Ba 0.3 Sr 0.7 La 1 Cu 1 O 5 1 1994 2 Tl1201 P4/mmm A 3.794 8.885 3 K 30 30 See Phys.Rev.B 46 (1992) 6622 Possible overdoping in TlSrLaCuO5 and superconductivity in TlBaLaCuO5 by isovalent-cation substitution 1994 5 "Phys.Rev.B, 49(1994)13123" "Tl,Sr,Ba,La,Cu,O" 10177 PR04913123 "Tl(Sr,Ca)LaCuO5" Tl1Sr1La1Cu1O5 Tl 1 Sr 1 La 1 Cu 1 O 5 1 1994 2 Tl1201 P4/mmm A 3.779 8.864 3 K 32 32 See Phys.Rev.B 46 (1992) 6622 Possible overdoping in TlSrLaCuO5 and superconductivity in TlBaLaCuO5 by isovalent-cation substitution 1994 5 "Phys.Rev.B, 49(1994)13123" "Tl,Sr,Ba,La,Cu,O" 10178 PR04913123 "Tl(Sr,Ca)LaCuO5" Tl1Sr0.7Ca0.3La1Cu1O5 Tl 1 Sr 0.7 Ca 0.3 La 1 Cu 1 O 5 1 1994 2 Tl1201 P4/mmm A 3.761 8.807 3 K 32 32 See Phys.Rev.B 46 (1992) 6622 Possible overdoping in TlSrLaCuO5 and superconductivity in TlBaLaCuO5 by isovalent-cation substitution 1994 5 "Phys.Rev.B, 49(1994)13123" "Tl,Sr,Ba,La,Cu,O" 10179 PR04913123 "Tl(Sr,Ca)LaCuO5" Tl1Sr0.4Ca0.6La1Cu1O5 Tl 1 Sr 0.4 Ca 0.6 La 1 Cu 1 O 5 1 1994 2 Tl1201 P4/mmm A 3.753 8.737 3 K 26 26 See Phys.Rev.B 46 (1992) 6622 Possible overdoping in TlSrLaCuO5 and superconductivity in TlBaLaCuO5 by isovalent-cation substitution 1994 5 "Phys.Rev.B, 49(1994)13123" "Tl,Sr,Ba,La,Cu,O" 10180 PR04913123 "Tl(Ba,Ca)LaCuO5" Tl1Ba0.8Ca0.2La1Cu1O5 Tl 1 Ba 0.8 Ca 0.2 La 1 Cu 1 O 5 1 1994 2 Tl1201 P4/mmm A 3.827 8.948 3 K See Phys.Rev.B 46 (1992) 6622 Possible overdoping in TlSrLaCuO5 and superconductivity in TlBaLaCuO5 by isovalent-cation substitution 1994 5 "Phys.Rev.B, 49(1994)13123" "Tl,Sr,Ba,La,Cu,O" 10181 PR04913123 "Tl(Ba,Sr)LaCuO5" Tl1Ba1La1Cu1O5 Tl 1 Ba 1 La 1 Cu 1 O 5 1 1994 2 Tl1201 P4/mmm A 3.852 8.993 3 K See Phys.Rev.B 46 (1992) 6622 Possible overdoping in TlSrLaCuO5 and superconductivity in TlBaLaCuO5 by isovalent-cation substitution 1994 5 "Phys.Rev.B, 49(1994)13123" "Tl,Sr,Ba,La,Cu,O" 10182 PR04913123 "Tl(Ba,Ca)LaCuO5" Tl1Ba0.6Ca0.4La1Cu1O5 Tl 1 Ba 0.6 Ca 0.4 La 1 Cu 1 O 5 1 1994 2 Tl1201 P4/mmm A 3.817 8.885 3 K 14 14 See Phys.Rev.B 46 (1992) 6622 Possible overdoping in TlSrLaCuO5 and superconductivity in TlBaLaCuO5 by isovalent-cation substitution 1994 5 "Phys.Rev.B, 49(1994)13123" "Tl,Sr,Ba,La,Cu,O" 10183 PR04913123 "Tl(Ba,Ca)LaCuO5" Tl1Ba0.4Ca0.6La1Cu1O5 Tl 1 Ba 0.4 Ca 0.6 La 1 Cu 1 O 5 1 1994 2 Tl1201 P4/mmm A 3.79 8.815 3 K 16 16 See Phys.Rev.B 46 (1992) 6622 Possible overdoping in TlSrLaCuO5 and superconductivity in TlBaLaCuO5 by isovalent-cation substitution 1994 5 "Phys.Rev.B, 49(1994)13123" "Tl,Sr,Ba,La,Cu,O" 10184 PR04913123 "Tl(Ba,Ca)LaCuO5" Tl1Ba0.2Ca0.8La1Cu1O5 Tl 1 Ba 0.2 Ca 0.8 La 1 Cu 1 O 5 1 1994 2 Tl1201 P4/mmm A 3.766 8.75 3 K 13 13 See Phys.Rev.B 46 (1992) 6622 Possible overdoping in TlSrLaCuO5 and superconductivity in TlBaLaCuO5 by isovalent-cation substitution 1994 5 "Phys.Rev.B, 49(1994)13123" "Tl,Sr,Ba,La,Cu,O" 10185 PR04913137 DTCDP is the value of c-axis stress dependence of Tc.For a-axis DTCDP=7.0 K/GPa . for b-axis DTCDP=5.9 K/GPa. DTCDP estimated from thermal expansion coefficient "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 3 1994 T K 28.5 28.5 K/GPa -13.8 7 "by TSFZ method. In detail,See Phys.Rev.B 47 (1993) 8369" Uniaxial pressure dependence of Tc from high-resolution dilatometry of untwinned La2-xSrxCuO4 single crystals 1994 5 "Phys.Rev.B, 49(1994)13137" "La,Sr,Cu,O" 10186 PR04913137 DTCDP is the value of c-axis stress dependence of Tc.For a-axis DTCDP=2.5 K/GPa . for b-axis DTCDP=4.9 K/GPa. DTCDP estimated from thermal expansion coefficient. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 3 1994 T K 36 36 K/GPa -6.8 7 "by TSFZ method. In detail,See Phys.Rev.B 47 (1993) 8369" Uniaxial pressure dependence of Tc from high-resolution dilatometry of untwinned La2-xSrxCuO4 single crystals 1994 5 "Phys.Rev.B, 49(1994)13137" "La,Sr,Cu,O" 10187 PR04913137 DTCDP is the value of c-axis stress dependence of Tc. For a-axis DTCDP=1.2 K/GPa . for b-axis DTCDP=8.1 K/GPa. DTCDP estimated from thermal expansion coefficient "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 3 1994 T K 29.5 29.5 K/GPa -9.4 7 "by TSFZ method. In detail,See Phys.Rev.B 47 (1993) 8369" Uniaxial pressure dependence of Tc from high-resolution dilatometry of untwinned La2-xSrxCuO4 single crystals 1994 5 "Phys.Rev.B, 49(1994)13137" "La,Sr,Cu,O" 10188 PR04913184 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+y Bi 2 Sr 2 Ca 1 Cu 2 O 8+y 4 1994 Bi2212 K 87 87 400000 16 "On SrTiO3 substrates. In detail , See Physica C 215 (1993) 123" Thermally activated flux movement and critical transort current density in epitaxial Bi2Sr2CaCu2O8+delta films 1994 5 "Technische Hochschule Darmstadt, Institut fur Festko""rperphysick, Hochschulstrasse 8,64289 Darmstadt, Germany" "Phys.Rev.B,49(1994)13184" 10189 PR04913184 Bi2Sr2CaCu2O8 Bi2.05Sr2Ca1Cu1.99Zn0.01O8+y Bi 2.05 Sr 2 Ca 1 Cu 1.99 Zn 0.01 O 8+y 4 1994 Bi2212 K 300000 16 Bi2.05Sr2.00Ca1.00(Cu0.995Zn0.005)2O8+y "On SrTiO3 substrates. In detail, See Physica C 215 (1993) 123" Thermally activated flux movement and critical transort current density in epitaxial Bi2Sr2CaCu2O8+delta films 1994 5 "Technische Hochschule Darmstadt, Institut fur Festko""rperphysick, Hochschulstrasse 8,64289 Darmstadt, Germany" "Phys.Rev.B,49(1994)13184" 10190 PR04915928 "(Ca,La)(Ba,La)2Cu3O7" Ca0.4La1.25Ba1.35Cu3O6.875 Ca 0.4 La 1.25 Ba 1.35 Cu 3 O 7 6.875 1 1994 2 Y123 A 3.878 11.711 3 K m.ohm.cm 3.8 1 "MIX(in N2)-Fire(1 day,in air) 3times-SIN(in flowing O2 at 970C)In detail,see Physca C 217,217(1993)" Variation of Tc and resistivity in charge-compensated (CaxLa1-x)(Ba1.75-xLa0.25+x)Cu3Oy 1994 6 "Department of Physics and Crown Center for Superconductivity, Technion Israel Institute of Technology, Haifa 32000, Israel" "Phys.Rev.B,49(1994)15928" 10191 PR04915928 "(Ca,La)(Ba,La)2Cu3O7" Ca0.4La1.25Ba1.35Cu3O6.99 Ca 0.4 La 1.25 Ba 1.35 Cu 3 O 7 6.99 1 1994 2 Y123 A 3.876 11.679 3 K 45 38 6 38 m.ohm.cm 1.8 1 "MIX(in N2)-Fire(1 day,in air) 3times-SIN(in flowing O2 at 970C)In detail,see Physca C 217,217(1993)" Variation of Tc and resistivity in charge-compensated (CaxLa1-x)(Ba1.75-xLa0.25+x)Cu3Oy 1994 6 "Department of Physics and Crown Center for Superconductivity, Technion Israel Institute of Technology, Haifa 32000, Israel" "Phys.Rev.B,49(1994)15928" 10192 PR04915928 "(Ca,La)(Ba,La)2Cu3O7" Ca0.4La1.25Ba1.35Cu3O7.055 Ca 0.4 La 1.25 Ba 1.35 Cu 3 O 7 7.055 1 1994 2 Y123 A 3.875 11.669 3 K 64 57 4.5 57 TC10192 m.ohm.cm 1.5 1 "MIX(in N2)-Fire(1 day,in air) 3times-SIN(in flowing O2 at 970C)In detail,see Physca C 217,217(1993)" Variation of Tc and resistivity in charge-compensated (CaxLa1-x)(Ba1.75-xLa0.25+x)Cu3Oy 1994 6 "Department of Physics and Crown Center for Superconductivity, Technion Israel Institute of Technology, Haifa 32000, Israel" "Phys.Rev.B,49(1994)15928" 10193 PR04915928 "(Ca,La)(Ba,La)2Cu3O7" Ca0.4La1.25Ba1.35Cu3O7.135 Ca 0.4 La 1.25 Ba 1.35 Cu 3 O 7 7.135 1 1994 2 Y123 A 3.872 11.635 3 K 80 76 2 76 m.ohm.cm 1.1 1 "MIX(in N2)-Fire(1 day,in air) 3times-SIN(in flowing O2 at 970C)In detail,see Physca C 217,217(1993)" Variation of Tc and resistivity in charge-compensated (CaxLa1-x)(Ba1.75-xLa0.25+x)Cu3Oy 1994 6 "Department of Physics and Crown Center for Superconductivity, Technion Israel Institute of Technology, Haifa 32000, Israel" "Phys.Rev.B,49(1994)15928" 10194 PR04915928 "(Ca,La)(Ba,La)2Cu3O7" Ca0.1La1.25Ba1.65Cu3O6.88 Ca 0.1 La 1.25 Ba 1.65 Cu 3 O 7 6.88 1 1994 2 Y123 A 3.909 11.761 3 K m.ohm.cm 1 "MIX(in N2)-Fire(1 day,in air) 3times-SIN(in flowing O2 at 970C)In detail,see Physca C 217,217(1993)" Variation of Tc and resistivity in charge-compensated (CaxLa1-x)(Ba1.75-xLa0.25+x)Cu3Oy 1994 6 "Department of Physics and Crown Center for Superconductivity, Technion Israel Institute of Technology, Haifa 32000, Israel" "Phys.Rev.B,49(1994)15928" 10195 PR04915928 "(Ca,La)(Ba,La)2Cu3O7" Ca0.1La1.25Ba1.65Cu3O6.985 Ca 0.1 La 1.25 Ba 1.65 Cu 3 O 7 6.985 1 1994 2 Y123 A 3.905 11.739 3 K 16 5 6 5 m.ohm.cm 4.2 1 "MIX(in N2)-Fire(1 day,in air) 3times-SIN(in flowing O2 at 970C)In detail,see Physca C 217,217(1993)" Variation of Tc and resistivity in charge-compensated (CaxLa1-x)(Ba1.75-xLa0.25+x)Cu3Oy 1994 6 "Department of Physics and Crown Center for Superconductivity, Technion Israel Institute of Technology, Haifa 32000, Israel" "Phys.Rev.B,49(1994)15928" 10196 PR04915928 "(Ca,La)(Ba,La)2Cu3O7" Ca0.1La1.25Ba1.65Cu3O7.06 Ca 0.1 La 1.25 Ba 1.65 Cu 3 O 7 7.06 1 1994 2 Y123 A 3.903 11.72 3 K 47 38 4 38 TC10196 m.ohm.cm 3 1 "MIX(in N2)-Fire(1 day,in air) 3times-SIN(in flowing O2 at 970C)In detail,see Physca C 217,217(1993)" Variation of Tc and resistivity in charge-compensated (CaxLa1-x)(Ba1.75-xLa0.25+x)Cu3Oy 1994 6 "Department of Physics and Crown Center for Superconductivity, Technion Israel Institute of Technology, Haifa 32000, Israel" "Phys.Rev.B,49(1994)15928" 10197 PR04916000 "(La,Sr)2(Cu,Zn)O4" La1.84Sr0.16Cu0.99Zn0.01O4 La 1.84 Sr 0.16 Cu 0.99 Zn 0.01 O 4 1 1994 emu/g emu.K/g K 28.8 28.8 "La2O3,SrCO3,CuO,ZnO" 1 SIN(in O2 for 24h at 1000-1075C)-refire-COOL(to 600C)-ANN(for24h) Magnetic properties and electronic conduction of superconducting La2-xSrxCuO4 1994 6 "Phys.Rev.B, 49(1994)1600" "La,Sr,Cu,O" 10198 PR04916000 "(La,Sr)2(Cu,Zn)O4" La1.84Sr0.16Cu0.98Zn0.02O4 La 1.84 Sr 0.16 Cu 0.98 Zn 0.02 O 4 1 1994 emu/g emu.K/g K 18.6 18.6 "La2O3,SrCO3,CuO,ZnO" 1 SIN(in O2 for 24h at 1000-1075C)-refire-COOL(to 600C)-ANN(for24h) Magnetic properties and electronic conduction of superconducting La2-xSrxCuO4 1994 6 "Phys.Rev.B, 49(1994)1600" "La,Sr,Cu,O" 10199 PR04916000 "(La,Sr)2(Cu,Zn)O4" La1.84Sr0.16Cu0.97Zn0.03O4 La 1.84 Sr 0.16 Cu 0.97 Zn 0.03 O 4 1 1994 K 7.85 7.85 "La2O3,SrCO3,CuO,ZnO" 1 SIN(in O2 for 24h at 1000-1075C)-refire-COOL(to 600C)-ANN(for24h) Magnetic properties and electronic conduction of superconducting La2-xSrxCuO4 1994 6 "Phys.Rev.B, 49(1994)1600" "La,Sr,Cu,O" 10200 PR04916000 "(La,Sr)2(Cu,Zn)O4" La1.84Sr0.16Cu0.96Zn0.04O4 La 1.84 Sr 0.16 Cu 0.96 Zn 0.04 O 4 1 1994 emu/g emu.K/g K 4.2 "La2O3,SrCO3,CuO,ZnO" 1 SIN(in O2 for 24h at 1000-1075C)-refire-COOL(to 600C)-ANN(for24h) Magnetic properties and electronic conduction of superconducting La2-xSrxCuO4 1994 6 "Phys.Rev.B, 49(1994)1600" "La,Sr,Cu,O" 10201 PR04916000 "(La,Sr)2(Cu,Zn)O4" La1.84Sr0.16Cu0.95Zn0.05O4 La 1.84 Sr 0.16 Cu 0.95 Zn 0.05 O 4 1 1994 emu/g emu.K/g K 4.2 "La2O3,SrCO3,CuO,ZnO" 1 SIN(in O2 for 24h at 1000-1075C)-refire-COOL(to 600C)-ANN(for24h) Magnetic properties and electronic conduction of superconducting La2-xSrxCuO4 1994 6 "Phys.Rev.B, 49(1994)1600" "La,Sr,Cu,O" 10202 PR04916000 "(La,Sr)2(Cu,Zn)O4" La1.84Sr0.16Cu1O4 La 1.84 Sr 0.16 Cu 1 O 4 1 1994 emu/g emu.K/g K 39.3 39.3 "La2O3,SrCO3,CuO,ZnO" 1 SIN(in O2 for 24h at 1000-1075C)-refire-COOL(to 600C)-ANN(for24h) Magnetic properties and electronic conduction of superconducting La2-xSrxCuO4 1994 6 "Phys.Rev.B, 49(1994)1600" "La,Sr,Cu,O" 10203 PR04916000 "(La,Sr)2(Cu,Zn)O4" La1.78Sr0.22Cu0.99Zn0.01O4 La 1.78 Sr 0.22 Cu 0.99 Zn 0.01 O 4 1 1994 emu/g emu.K/g K 18.3 18.3 "La2O3,SrCO3,CuO,ZnO" 1 SIN(in O2 for 24h at 1000-1075C)-refire-COOL(to 600C)-ANN(for24h) Magnetic properties and electronic conduction of superconducting La2-xSrxCuO4 1994 6 "Phys.Rev.B, 49(1994)1600" "La,Sr,Cu,O" 10204 PR04916000 "(La,Sr)2(Cu,Zn)O4" La1.78Sr0.22Cu0.98Zn0.02O4 La 1.78 Sr 0.22 Cu 0.98 Zn 0.02 O 4 1 1994 emu/g K 9.6 9.6 "La2O3,SrCO3,CuO,ZnO" 1 SIN(in O2 for 24h at 1000-1075C)-refire-COOL(to 600C)-ANN(for24h) Magnetic properties and electronic conduction of superconducting La2-xSrxCuO4 1994 6 "Phys.Rev.B, 49(1994)1600" "La,Sr,Cu,O" 10205 PR04916000 "(La,Sr)2(Cu,Zn)O4" La1.78Sr0.22Cu0.97Zn0.03O4 La 1.78 Sr 0.22 Cu 0.97 Zn 0.03 O 4 1 1994 emu/g emu.K/g K 3.3 3.3 "La2O3,SrCO3,CuO,ZnO" 1 SIN(in O2 for 24h at 1000-1075C)-refire-COOL(to 600C)-ANN(for24h) Magnetic properties and electronic conduction of superconducting La2-xSrxCuO4 1994 6 "Phys.Rev.B, 49(1994)1600" "La,Sr,Cu,O" 10206 PR04916000 "(La,Sr)2(Cu,Zn)O4" La1.78Sr0.22Cu0.96Zn0.04O4 La 1.78 Sr 0.22 Cu 0.96 Zn 0.04 O 4 1 1994 emu/g emu.K/g K 4.2 "La2O3,SrCO3,CuO,ZnO" 1 SIN(in O2 for 24h at 1000-1075C)-refire-COOL(to 600C)-ANN(for24h) Magnetic properties and electronic conduction of superconducting La2-xSrxCuO4 1994 6 "Phys.Rev.B, 49(1994)1600" "La,Sr,Cu,O" 10207 PR04916000 "(La,Sr)2(Cu,Zn)O4" La1.78Sr0.22Cu1O4 La 1.78 Sr 0.22 Cu 1 O 4 1 1994 emu/g emu.K/g K 25.9 25.9 "La2O3,SrCO3,CuO,ZnO" 1 SIN(in O2 for 24h at 1000-1075C)-refire-COOL(to 600C)-ANN(for24h) Magnetic properties and electronic conduction of superconducting La2-xSrxCuO4 1994 6 "Phys.Rev.B, 49(1994)1600" "La,Sr,Cu,O" 10208 PR04915416 HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8+d Hg 1 Ba 2 Ca 2 Cu 3 O 8+d 1 1994 Hg1223 K 132 132 132 meV 48 8.5 "Ba(NO3)3,Ca(*NO3)2,Ca(NO3)2,4H2O" 1 "precursor (pellet Ba-Ca-Cu-O) -MIX(in N2 ,HgO) - SIN(in quartz tubes,Hg vapor pressure 200atm)" Energy gap of the high-Tc superconductor HgBa2Ca2Cu3O8+z determined by point-contact spectroscopy 1994 6 "Phys.Rev.B, 49(1994)15416" "Hg,Ba,Ca,Cu,O" 10209 PR04916082 LaCuO2 La1Cu1O2.54 La 1 Cu 1 O z 2.54 1 1994 IL K mJ/mol.K2 281 1 "In details, see J.Solid State Chem. 104,437(1993)" Ground states of a triangular copper oxide system 1994 6 "ATT Bell Laboratories, 600 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.B,49(1994)16082" 10210 PR04916082 LaCuO2 La1Cu1O2.64 La 1 Cu 1 O z 2.64 1 1994 IL K mJ/mol.K2 6.5 284 1 "In details, see J.Solid State Chem. 104,437(1993)" Ground states of a triangular copper oxide system 1994 6 "ATT Bell Laboratories, 600 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.B,49(1994)16082" 10211 PR04916082 "(Y,Ca)CuO2" Y0.99Ca0.01Cu1O2.58 Y 0.99 Ca 0.01 Cu 1 O z 2.58 1 1994 IL K 324 1 "In details, see J.Solid State Chem. 104,437(1993)" Ground states of a triangular copper oxide system 1994 6 "ATT Bell Laboratories, 600 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.B,49(1994)16082" 10212 PR04916082 "(Y,Ca)CuO2" Y0.99Ca0.01Cu1O2.65 Y 0.99 Ca 0.01 Cu 1 O z 2.65 1 1994 IL K mJ/mol.K2 1.3 317 1 "In details, see J.Solid State Chem. 104,437(1993)" Ground states of a triangular copper oxide system 1994 6 "ATT Bell Laboratories, 600 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.B,49(1994)16082" 10213 PR04916082 YCuO2 Y1Cu1O2.55 Y 1 Cu 1 O z 2.55 1 1994 IL K 375 1 "In details, see J.Solid State Chem. 104,437(1993)" Ground states of a triangular copper oxide system 1994 6 "ATT Bell Laboratories, 600 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.B,49(1994)16082" 10214 PR04916082 "(Y,Ca)CuO2" Y0.99Ca0.01Cu1O2.5 Y 0.99 Ca 0.01 Cu 1 O z 2.5 1 1994 IL K 370 1 "In details, see J.Solid State Chem. 104,437(1993)" Ground states of a triangular copper oxide system 1994 6 "ATT Bell Laboratories, 600 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.B,49(1994)16082" 10215 PR04915299 HgBa2CuO4 Hg1Ba2Cu1O4 Hg 1 Ba 2 Cu 1 O 4 1 1994 GPa 65.4 2 Hg1201 A 3.878 9.516 3 K 1 "Vapor Solid Reaction TechniqueIn details,see Nature 365,323(1993)" "Compressibility of the HgBa2Can-1CunO2n+2+z (n=1,2,3) high-temperature superconductors" 1994 6 "Phys.Rev.B, 49(1994)15299" "Hg,Ba,Ca,Cu,O" 10216 PR04915299 HgBa2CaCu2O6 Hg1Ba2Ca1Cu2O6 Hg 1 Ba 2 Ca 1 Cu 2 O 6 1 1994 GPa 91.6 2 Hg1212 A 3.855 12.609 3 K 1 "Vapor Solid Reaction TechniqueIn details,see Nature 365,323(1993)" "Compressibility of the HgBa2Can-1CunO2n+2+z (n=1,2,3) high-temperature superconductors" 1994 6 "Phys.Rev.B, 49(1994)15299" "Hg,Ba,Ca,Cu,O" 10217 PR04915299 HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8 Hg 1 Ba 2 Ca 2 Cu 3 O 8 1 1994 GPa 83.8 2 Hg1223 A 3.854 15.742 3 K 1 "Vapor Solid Reaction TechniqueIn details,see Nature 365,323(1993)" "Compressibility of the HgBa2Can-1CunO2n+2+z (n=1,2,3) high-temperature superconductors" 1994 6 "Phys.Rev.B, 49(1994)15299" "Hg,Ba,Ca,Cu,O" 10218 PR04915959 "NdGaO3 substrate, thickness = 1 micron meter, Jc defined as voltage criterion 2 micro-V/mm" Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 5 1994 Bi2212 K 82.4 3 82.4 1800 8 "substrate(NdGaO3), Film thickness 1 micrometer" Scaling in the angular dependence of the critical current and temperature-dependent anisotropy ratio in Bi2Sr2CaCu2O8 1994 6 "Phys.Rev.B, 49(1994)15959" "Bi,Sr,Ca,Cu,O" 10219 PR05001244 "TlSr2(Lu,Ca)Cu2Oy" Tl0.97Sr2.04Lu0.94Cu2.05Oy Tl 0.97 Sr 2.04 Lu 0.94 Cu 2.05 O y 1 1994 2 P4/mmm A 3.796 11.975 3 K "CaO, CuO, Tl2O3, Lu2O3, SrO" 1 "Dry (at 350C for 5h in flowing O2). Press. SIN (890-940C for 1-5h, 2-3times). ANN (350C for 10h in flowing O2)." Normal-state magnetic susceptibility in TlSr2(Lu1-xCax)Cu2Oz from the underdoped to the overdoped regime 1994 7 "Phys.Rev.B, 50(1994)1244" "Tl,Sr,Lu,Ca,Cu,O" 10220 PR05001244 "TlSr2(Lu,Ca)Cu2Oy" Tl0.97Sr1.99Lu0.9Ca0.12Cu2.02Oy Tl 0.97 Sr 1.99 Lu 0.9 Ca 0.12 Cu 2.02 O y 1 1994 2 P4/mmm A 3.793 11.994 3 K 39 39 "CaO, CuO, Tl2O3, Lu2O3, SrO" 1 "Dry (at 350C for 5h in flowing O2). Press. SIN (890-940C for 1-5h, 2-3times). ANN (350C for 10h in flowing O2)." Normal-state magnetic susceptibility in TlSr2(Lu1-xCax)Cu2Oz from the underdoped to the overdoped regime 1994 7 "Phys.Rev.B, 50(1994)1244" "Tl,Sr,Lu,Ca,Cu,O" 10221 PR05001244 "TlSr2(Lu,Ca)Cu2Oy" Tl1.04Sr1.98Lu0.78Ca0.22Cu1.98Oy Tl 1.04 Sr 1.98 Lu 0.78 Ca 0.22 Cu 1.98 O y 1 1994 2 P4/mmm A 3.792 12.01 3 K 72 72 "CaO, CuO, Tl2O3, Lu2O3, SrO" 1 "Dry (at 350C for 5h in flowing O2). Press. SIN (890-940C for 1-5h, 2-3times). ANN (350C for 10h in flowing O2)." Normal-state magnetic susceptibility in TlSr2(Lu1-xCax)Cu2Oz from the underdoped to the overdoped regime 1994 7 "Phys.Rev.B, 50(1994)1244" "Tl,Sr,Lu,Ca,Cu,O" 10222 PR05001244 "TlSr2(Lu,Ca)Cu2Oy" Tl0.98Sr2.05Lu0.68Ca0.26Cu2.03Oy Tl 0.98 Sr 2.05 Lu 0.68 Ca 0.26 Cu 2.03 O y 1 1994 2 P4/mmm A 3.79 12.02 3 K 69 69 "CaO, CuO, Tl2O3, Lu2O3, SrO" 1 "Dry (at 350C for 5h in flowing O2). Press. SIN (890-940C for 1-5h, 2-3times). ANN (350C for 10h in flowing O2)." Normal-state magnetic susceptibility in TlSr2(Lu1-xCax)Cu2Oz from the underdoped to the overdoped regime 1994 7 "Phys.Rev.B, 50(1994)1244" "Tl,Sr,Lu,Ca,Cu,O" 10223 PR05001244 "TlSr2(Lu,Ca)Cu2Oy" Tl0.99Sr2.03Lu0.57Ca0.36Cu2.05Oy Tl 0.99 Sr 2.03 Lu 0.57 Ca 0.36 Cu 2.05 O y 1 1994 2 P4/mmm A 3.788 12.02 3 K 64 64 "CaO, CuO, Tl2O3, Lu2O3, SrO" 1 "Dry (at 350C for 5h in flowing O2). Press. SIN (890-940C for 1-5h, 2-3times). ANN (350C for 10h in flowing O2)." Normal-state magnetic susceptibility in TlSr2(Lu1-xCax)Cu2Oz from the underdoped to the overdoped regime 1994 7 "Phys.Rev.B, 50(1994)1244" "Tl,Sr,Lu,Ca,Cu,O" 10224 PR05001244 "TlSr2(Lu,Ca)Cu2Oy" Tl1.01Sr2.02Lu0.49Ca0.47Cu2.03Oy Tl 1.01 Sr 2.02 Lu 0.49 Ca 0.47 Cu 2.03 O y 1 1994 2 P4/mmm A 3.788 12.045 3 K 46 46 "CaO, CuO, Tl2O3, Lu2O3, SrO" 1 "Dry (at 350C for 5h in flowing O2). Press. SIN (890-940C for 1-5h, 2-3times). ANN (350C for 10h in flowing O2)." Normal-state magnetic susceptibility in TlSr2(Lu1-xCax)Cu2Oz from the underdoped to the overdoped regime 1994 7 "Phys.Rev.B, 50(1994)1244" "Tl,Sr,Lu,Ca,Cu,O" 10225 PR05001244 "TlSr2(Lu,Ca)Cu2Oy" Tl1.05Sr2.02Lu0.42Ca0.53Cu1.98Oy Tl 1.05 Sr 2.02 Lu 0.42 Ca 0.53 Cu 1.98 O y 1 1994 2 P4/mmm A 3.785 12.059 3 K 30 30 "CaO, CuO, Tl2O3, Lu2O3, SrO" 1 "Dry (at 350C for 5h in flowing O2). Press. SIN (890-940C for 1-5h, 2-3times). ANN (350C for 10h in flowing O2)." Normal-state magnetic susceptibility in TlSr2(Lu1-xCax)Cu2Oz from the underdoped to the overdoped regime 1994 7 "Phys.Rev.B, 50(1994)1244" "Tl,Sr,Lu,Ca,Cu,O" 10226 PR05001244 "TlSr2(Lu,Ca)Cu2Oy" Tl1.07Sr2.04Lu0.29Ca0.61Cu1.99Oy Tl 1.07 Sr 2.04 Lu 0.29 Ca 0.61 Cu 1.99 O y 1 1994 2 P4/mmm A 3.784 12.076 3 K 9 9 "CaO, CuO, Tl2O3, Lu2O3, SrO" 1 "Dry (at 350C for 5h in flowing O2). Press. SIN (890-940C for 1-5h, 2-3times). ANN (350C for 10h in flowing O2)." Normal-state magnetic susceptibility in TlSr2(Lu1-xCax)Cu2Oz from the underdoped to the overdoped regime 1994 7 "Phys.Rev.B, 50(1994)1244" "Tl,Sr,Lu,Ca,Cu,O" 10227 PR05001244 "TlSr2(Lu,Ca)Cu2Oy" Tl1Sr2Lu0.2Ca0.8Cu2Oy Tl 1 Sr 2 Lu 0.2 Ca 0.8 Cu 2 O y 1 1994 2 P4/mmm A 3.782 12.092 3 K "CaO, CuO, Tl2O3, Lu2O3, SrO" 1 "Dry (at 350C for 5h in flowing O2). Press. SIN (890-940C for 1-5h, 2-3times). ANN (350C for 10h in flowing O2)." Normal-state magnetic susceptibility in TlSr2(Lu1-xCax)Cu2Oz from the underdoped to the overdoped regime 1994 7 "Phys.Rev.B, 50(1994)1244" "Tl,Sr,Lu,Ca,Cu,O" 10228 PR05001244 "TlSr2(Lu,Ca)Cu2Oy" Tl1.25Sr1.99Ca0.77Cu1.99Oy Tl 1.25 Sr 1.99 Ca 0.77 Cu 1.99 O y 1 1994 2 P4/mmm A 3.783 12.116 3 K "CaO, CuO, Tl2O3, Lu2O3, SrO" 1 "Dry (at 350C for 5h in flowing O2). Press. SIN (890-940C for 1-5h, 2-3times). ANN (350C for 10h in flowing O2)." Normal-state magnetic susceptibility in TlSr2(Lu1-xCax)Cu2Oz from the underdoped to the overdoped regime 1994 7 "Phys.Rev.B, 50(1994)1244" "Tl,Sr,Lu,Ca,Cu,O" 10229 PR05001244 Ar Annealed (500C for 5h) Sample. "TlSr2(Lu,Ca)Cu2Oy" Tl0.97Sr1.99Lu0.9Ca0.12Cu2.02Oy Tl 0.97 Sr 1.99 Lu 0.9 Ca 0.12 Cu 2.02 O y 1 1994 2 P4/mmm A 3.797 11.989 3 K 6 6 "CaO, CuO, Tl2O3, Lu2O3, SrO" 1 "Dry (at 350C for 5h in flowing O2). Press. SIN (890-940C for 1-5h, 2-3times). ANN (350C for 10h in flowing O2)." Normal-state magnetic susceptibility in TlSr2(Lu1-xCax)Cu2Oz from the underdoped to the overdoped regime 1994 7 "Phys.Rev.B, 50(1994)1244" "Tl,Sr,Lu,Ca,Cu,O" 10230 PR05001244 Ar Annealed (500C for 5h) Sample. "TlSr2(Lu,Ca)Cu2Oy" Tl1.04Sr1.98Lu0.78Ca0.22Cu1.98Oy Tl 1.04 Sr 1.98 Lu 0.78 Ca 0.22 Cu 1.98 O y 1 1994 2 P4/mmm A 3.796 12.002 3 K 31 31 "CaO, CuO, Tl2O3, Lu2O3, SrO" 1 "Dry (at 350C for 5h in flowing O2). Press. SIN (890-940C for 1-5h, 2-3times). ANN (350C for 10h in flowing O2)." Normal-state magnetic susceptibility in TlSr2(Lu1-xCax)Cu2Oz from the underdoped to the overdoped regime 1994 7 "Phys.Rev.B, 50(1994)1244" "Tl,Sr,Lu,Ca,Cu,O" 10231 PR05001244 Ar Annealed (500C for 5h) Sample. "TlSr2(Lu,Ca)Cu2Oy" Tl0.98Sr2.05Lu0.68Ca0.26Cu2.03Oy Tl 0.98 Sr 2.05 Lu 0.68 Ca 0.26 Cu 2.03 O y 1 1994 2 P4/mmm A 3.797 12.015 3 K 42 42 "CaO, CuO, Tl2O3, Lu2O3, SrO" 1 "Dry (at 350C for 5h in flowing O2). Press. SIN (890-940C for 1-5h, 2-3times). ANN (350C for 10h in flowing O2)." Normal-state magnetic susceptibility in TlSr2(Lu1-xCax)Cu2Oz from the underdoped to the overdoped regime 1994 7 "Phys.Rev.B, 50(1994)1244" "Tl,Sr,Lu,Ca,Cu,O" 10232 PR05001244 Ar Annealed (500C for 5h) Sample. "TlSr2(Lu,Ca)Cu2Oy" Tl0.99Sr2.03Lu0.57Ca0.36Cu2.05Oy Tl 0.99 Sr 2.03 Lu 0.57 Ca 0.36 Cu 2.05 O y 1 1994 2 P4/mmm A 3.796 12.021 3 K 62 62 "CaO, CuO, Tl2O3, Lu2O3, SrO" 1 "Dry (at 350C for 5h in flowing O2). Press. SIN (890-940C for 1-5h, 2-3times). ANN (350C for 10h in flowing O2)." Normal-state magnetic susceptibility in TlSr2(Lu1-xCax)Cu2Oz from the underdoped to the overdoped regime 1994 7 "Phys.Rev.B, 50(1994)1244" "Tl,Sr,Lu,Ca,Cu,O" 10233 PR05001244 Ar Annealed (500C for 5h) Sample. "TlSr2(Lu,Ca)Cu2Oy" Tl1.01Sr2Lu0.49Ca0.47Cu2.03Oy Tl 1.01 Sr 2 Lu 0.49 Ca 0.47 Cu 2.03 O y 1 1994 2 P4/mmm A 3.793 12.035 3 K 81 81 "CaO, CuO, Tl2O3, Lu2O3, SrO" 1 "Dry (at 350C for 5h in flowing O2). Press. SIN (890-940C for 1-5h, 2-3times). ANN (350C for 10h in flowing O2)." Normal-state magnetic susceptibility in TlSr2(Lu1-xCax)Cu2Oz from the underdoped to the overdoped regime 1994 7 "Phys.Rev.B, 50(1994)1244" "Tl,Sr,Lu,Ca,Cu,O" 10234 PR05001244 Ar Annealed (500C for 5h) Sample. "TlSr2(Lu,Ca)Cu2Oy" Tl1.05Sr2.02Lu0.42Ca0.53Cu1.98Oy Tl 1.05 Sr 2.02 Lu 0.42 Ca 0.53 Cu 1.98 O y 1 1994 2 P4/mmm A 3.791 12.057 3 K 84 84 "CaO, CuO, Tl2O3, Lu2O3, SrO" 1 "Dry (at 350C for 5h in flowing O2). Press. SIN (890-940C for 1-5h, 2-3times). ANN (350C for 10h in flowing O2)." Normal-state magnetic susceptibility in TlSr2(Lu1-xCax)Cu2Oz from the underdoped to the overdoped regime 1994 7 "Phys.Rev.B, 50(1994)1244" "Tl,Sr,Lu,Ca,Cu,O" 10235 PR05001244 Ar Annealed (500C for 5h) Sample. "TlSr2(Lu,Ca)Cu2Oy" Tl1.07Sr2.04Lu0.29Ca0.61Cu1.99Oy Tl 1.07 Sr 2.04 Lu 0.29 Ca 0.61 Cu 1.99 O y 1 1994 2 P4/mmm A 3.792 12.075 3 K 77 77 "CaO, CuO, Tl2O3, Lu2O3, SrO" 1 "Dry (at 350C for 5h in flowing O2). Press. SIN (890-940C for 1-5h, 2-3times). ANN (350C for 10h in flowing O2)." Normal-state magnetic susceptibility in TlSr2(Lu1-xCax)Cu2Oz from the underdoped to the overdoped regime 1994 7 "Phys.Rev.B, 50(1994)1244" "Tl,Sr,Lu,Ca,Cu,O" 10236 PR05001244 Ar Annealed (500C for 5h) Sample. "TlSr2(Lu,Ca)Cu2Oy" Tl1.25Sr1.99Ca0.77Cu1.99Oy Tl 1.25 Sr 1.99 Ca 0.77 Cu 1.99 O y 1 1994 2 P4/mmm A 3.793 12.122 3 K 70 70 "CaO, CuO, Tl2O3, Lu2O3, SrO" 1 "Dry (at 350C for 5h in flowing O2). Press. SIN (890-940C for 1-5h, 2-3times). ANN (350C for 10h in flowing O2)." Normal-state magnetic susceptibility in TlSr2(Lu1-xCax)Cu2Oz from the underdoped to the overdoped regime 1994 7 "Phys.Rev.B, 50(1994)1244" "Tl,Sr,Lu,Ca,Cu,O" 10237 PR05000517 The Sample is c-axis-aligned poly crystal. HgBa2Ca2Cu3O8+d Hg1Ba2CaCu3O8+d Hg 1 Ba 2 Ca Cu 3 O 8+d 1 1994 5.8 2 A 3.852 15.792 3 K "Ba2Co3, CaCO3, CuO, HgO" 1 Precursor material Ba2Ca3Cu3O7 and CuO: CAL (930C for 20h in O2).Mixing with HgO. SIN (850C for 1h under 5GPa). ANN (300C for 5h in O2). Anisotropy of the magnetic properties of c-axis-aligned Hg Ba2Ca2Cu3O8+delta powders 1994 7 "Electrotechnical Laboratory, 1-1-4 Umezono, Tsukuba, Ibaraki 305, Japan" "Phys.Rev.B,50(1994)517" 10238 PR05000594 "(Y,Ca)Ba2Cu3Oz" Y1Ba2Cu3O6.65 Y 1 Ba 2 Cu 3 O z 6.65 1 1994 3 Y123 A 3.834 3.87 11.694 3 K 57 57 3 "Y2O3, CuO, BaCO3, CaCO3" 1 "ANN (12h for 400C in Ar), FC" Role of Ca in enhancing the superconductivity of YBaCu3O7-y 1994 7 "Tata Institute of Fundemental Research, Bombay 400005, India" "Phys.Rev.B,50(1994)594" 10239 PR05000594 "(Y,Ca)Ba2Cu3Oz" Y0.95Ca0.05Ba2Cu3O6.7 Y 0.95 Ca 0.05 Ba 2 Cu 3 O z 6.7 1 1994 3 Y123 A 3.839 3.869 11.733 3 K 70 70 3 "Y2O3, CuO, BaCO3, CaCO3" 1 "ANN (12h for 400C in Ar), FC" Role of Ca in enhancing the superconductivity of YBaCu3O7-y 1994 7 "Tata Institute of Fundemental Research, Bombay 400005, India" "Phys.Rev.B,50(1994)594" 10240 PR05000594 "(Y,Ca)Ba2Cu3Oz" Y0.9Ca0.1Ba2Cu3O6.7 Y 0.9 Ca 0.1 Ba 2 Cu 3 O z 6.7 1 1994 3 Y123 A 3.832 3.874 11.746 3 K 75 75 3 "Y2O3, CuO, BaCO3, CaCO3" 1 "ANN (12h for 400C in Ar), FC" Role of Ca in enhancing the superconductivity of YBaCu3O7-y 1994 7 "Tata Institute of Fundemental Research, Bombay 400005, India" "Phys.Rev.B,50(1994)594" 10241 PR05000594 "(Y,Ca)Ba2Cu3Oz" Y0.85Ca0.15Ba2Cu3O6.71 Y 0.85 Ca 0.15 Ba 2 Cu 3 O z 6.71 1 1994 3 Y123 A 3.837 3.867 11.756 3 K 78 78 3 "Y2O3, CuO, BaCO3, CaCO3" 1 "ANN (12h for 400C in Ar), FC" Role of Ca in enhancing the superconductivity of YBaCu3O7-y 1994 7 "Tata Institute of Fundemental Research, Bombay 400005, India" "Phys.Rev.B,50(1994)594" 10242 PR05001171 YBa2Cu4O8 Y1Ba2Cu4O7.95 Y 1 Ba 2 Cu 4 O 7.95 1 1994 K 82 82 1 "See Physica C 204, 147 (1993)." Infrared-active phonons and the superconducting gap of Tc-reduced double-chain YBa2Cu4O8 superconductors 1994 7 "Phys.Rev.B, 50(1994)1171" "Y,Ba,Cu,O" 10243 PR05001171 "(Y,Pr)Ba2Cu4O8" Y0.8Pr0.2Ba2Cu4O7.95 Y 0.8 Pr 0.2 Ba 2 Cu 4 O 7.95 1 1994 K 74 74 1 "See Physica C 204, 147 (1993)." Infrared-active phonons and the superconducting gap of Tc-reduced double-chain YBa2Cu4O8 superconductors 1994 7 "Phys.Rev.B, 50(1994)1171" "Y,Ba,Cu,O" 10244 PR05001171 "(Y,Pr)Ba2Cu4O8" Y0.6Pr0.4Ba2Cu4O7.95 Y 0.6 Pr 0.4 Ba 2 Cu 4 O 7.95 1 1994 K 63 63 6.6 1 "See Physica C 204, 147 (1993)." Infrared-active phonons and the superconducting gap of Tc-reduced double-chain YBa2Cu4O8 superconductors 1994 7 "Phys.Rev.B, 50(1994)1171" "Y,Ba,Cu,O" 10245 PR05001171 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.985Zn0.015O7.95 Y 1 Ba 2 Cu 3.985 Zn 0.015 O 7.95 1 1994 K 70 70 1 "See Physica C 204, 147 (1993)." Infrared-active phonons and the superconducting gap of Tc-reduced double-chain YBa2Cu4O8 superconductors 1994 7 "Phys.Rev.B, 50(1994)1171" "Y,Ba,Cu,O" 10246 PR05001171 "YBa2(Cu,Zn)4O8" Y1Ba2Cu0.95Zn0.05O7.95 Y 1 Ba 2 Cu 0.95 Zn 0.05 O 7.95 1 1994 K 46 46 8.2 1 "See Physica C 204, 147 (1993)." Infrared-active phonons and the superconducting gap of Tc-reduced double-chain YBa2Cu4O8 superconductors 1994 7 "Phys.Rev.B, 50(1994)1171" "Y,Ba,Cu,O" 10247 PR05001171 "YBa2(Cu,Zn)4O8" Y1Ba2Cu0.97Zn0.03O7.95 Y 1 Ba 2 Cu 0.97 Zn 0.03 O 7.95 1 1994 K 59 59 1 "See Physica C 204, 147 (1993)." Infrared-active phonons and the superconducting gap of Tc-reduced double-chain YBa2Cu4O8 superconductors 1994 7 "Phys.Rev.B, 50(1994)1171" "Y,Ba,Cu,O" 10248 PR05001171 "Y(Ba,Sr)2Cu4O8" Y1Ba1.8Sr0.2Cu4O7.95 Y 1 Ba 1.8 Sr 0.2 Cu 4 O 7.95 1 1994 K 82 82 1 "See Physica C 204, 147 (1993)." Infrared-active phonons and the superconducting gap of Tc-reduced double-chain YBa2Cu4O8 superconductors 1994 7 "Phys.Rev.B, 50(1994)1171" "Y,Ba,Cu,O" 10249 PR05001171 "Y(Ba,Sr)2Cu4O8" Y1Ba1.6Sr0.4Cu4O7.95 Y 1 Ba 1.6 Sr 0.4 Cu 4 O 7.95 1 1994 K 82 82 1 "See Physica C 204, 147 (1993)." Infrared-active phonons and the superconducting gap of Tc-reduced double-chain YBa2Cu4O8 superconductors 1994 7 "Phys.Rev.B, 50(1994)1171" "Y,Ba,Cu,O" 10250 PR05001171 "Y(Ba,Sr)2Cu4O8" Y1Ba1.4Sr0.6Cu4O7.95 Y 1 Ba 1.4 Sr 0.6 Cu 4 O 7.95 1 1994 K 82 82 1 "See Physica C 204, 147 (1993)." Infrared-active phonons and the superconducting gap of Tc-reduced double-chain YBa2Cu4O8 superconductors 1994 7 "Phys.Rev.B, 50(1994)1171" "Y,Ba,Cu,O" 10251 PR05001178 YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 5 1994 Y123 K 90.4 90.4 A Determined from Microwave Data. 20 A Determined from Microwave Data. 1700 12000000 16 "See J.Appl. Phys. 75, 393 (1994)." Frequency dependence of the surface impedance of YBa2Cu3O7-z thin films in a dc magnetic field: Investigation of vortex dynamics 1994 7 "Phys.Rev.B, 50(1994)1178" "Y,Ba,Cu,O" 10252 PR05001178 YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 5 1994 Y123 K 90.3 90.3 A Determined from Microwave Data. 20 A Determined from Microwave Data 1700 2700000 mic.ohm.cm 4.22 16 "See J.Appl. Phys. 75, 393 (1994)." Frequency dependence of the surface impedance of YBa2Cu3O7-z thin films in a dc magnetic field: Investigation of vortex dynamics 1994 7 "Phys.Rev.B, 50(1994)1178" "Y,Ba,Cu,O" 10253 PR05001223 "YbBa2(Cu,Ga)O7-y" Yb1Ba2Cu3O7-y Yb 1 Ba 2 Cu 3 O 7-y 1 1994 3 Y123 3 K 90 90 90 "Yb2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10254 PR05001223 "YbBa2(Cu,Ga)O7-y" Yb1Ba2Cu2.95Ga0.05O7-y Yb 1 Ba 2 Cu 2.95 Ga 0.05 O 7-y 1 1994 3 Y123 3 K 90 90 90 "Yb2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10255 PR05001223 "YbBa2(Cu,Ga)O7-y" Yb1Ba2Cu2.9Ga0.1O7-y Yb 1 Ba 2 Cu 2.9 Ga 0.1 O 7-y 1 1994 3 Y123 3 K 90 90 90 "Yb2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10256 PR05001223 "YbBa2(Cu,Ga)O7-y" Yb1Ba2Cu2.85Ga0.15O7-y Yb 1 Ba 2 Cu 2.85 Ga 0.15 O 7-y 1 1994 3 Y123 3 K 90 90 90 "Yb2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10257 PR05001223 "YbBa2(Cu,Ga)O7-y" Yb1Ba2Cu2.8Ga0.2O7-y Yb 1 Ba 2 Cu 2.8 Ga 0.2 O 7-y 1 1994 3 Y123 3 K 90 90 90 "Yb2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10258 PR05001223 "YbBa2(Cu,Ga)O7-y" Yb1Ba2Cu2.7Ga0.3O7-y Yb 1 Ba 2 Cu 2.7 Ga 0.3 O 7-y 1 1994 3 Y123 3 K 90 90 90 "Yb2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10259 PR05001223 "NdBa2(Cu,Ga)O7-y" Nd1Ba2Cu3O6.76 Nd 1 Ba 2 Cu 3 O 6.76 1 1994 3 Y123 3 K 94 93 94 "Nd2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10260 PR05001223 "NdBa2(Cu,Ga)O7-y" Nd1Ba2Cu2.95Ga0.05O6.59 Nd 1 Ba 2 Cu 2.95 Ga 0.05 O 6.59 1 1994 2 Y123 3 K 53 53 53 "Nd2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10261 PR05001223 "NdBa2(Cu,Ga)O7-y" Nd1Ba2Cu2.9Ga0.1O6.61 Nd 1 Ba 2 Cu 2.9 Ga 0.1 O 6.61 1 1994 2 Y123 3 K 38 38 38 "Nd2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10262 PR05001223 "NdBa2(Cu,Ga)O7-y" Nd1Ba2Cu2.85Ga0.15O6.62 Nd 1 Ba 2 Cu 2.85 Ga 0.15 O 6.62 1 1994 2 Y123 3 K 23 23 "Nd2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10263 PR05001223 "NdBa2(Cu,Ga)O7-y" Nd1Ba2Cu2.8Ga0.2O6.63 Nd 1 Ba 2 Cu 2.8 Ga 0.2 O 6.63 1 1994 2 Y123 3 K "Nd2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10264 PR05001223 "NdBa2(Cu,Ga)O7-y" Nd1Ba2Cu2.7Ga0.3O6.68 Nd 1 Ba 2 Cu 2.7 Ga 0.3 O 6.68 1 1994 2 Y123 3 K "Nd2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10265 PR05001223 "ErBa2(Cu,Ga)O7-y" Er1Ba2Cu3O6.85 Er 1 Ba 2 Cu 3 O 6.85 1 1994 3 Y123 3 K 93 91 93 "Er2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10266 PR05001223 "ErBa2(Cu,Ga)O7-y" Er1Ba2Cu2.95Ga0.05O6.75 Er 1 Ba 2 Cu 2.95 Ga 0.05 O 6.75 1 1994 3 Y123 3 K 90 87 90 "Er2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10267 PR05001223 "ErBa2(Cu,Ga)O7-y" Er1Ba2Cu2.9Ga0.1O6.78 Er 1 Ba 2 Cu 2.9 Ga 0.1 O 6.78 1 1994 3 Y123 3 K 86 82 86 "Er2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10268 PR05001223 "ErBa2(Cu,Ga)O7-y" Er1Ba2Cu2.85Ga0.15O6.69 Er 1 Ba 2 Cu 2.85 Ga 0.15 O 6.69 1 1994 3 Y123 3 K 82 82 "Er2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10269 PR05001223 "ErBa2(Cu,Ga)O7-y" Er1Ba2Cu2.8Ga0.2O7-y Er 1 Ba 2 Cu 2.8 Ga 0.2 O 7-y 1 1994 2 Y123 3 K 81 82 81 "Er2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10270 PR05001223 "ErBa2(Cu,Ga)O7-y" Er1Ba2Cu2.7Ga0.3O7-y Er 1 Ba 2 Cu 2.7 Ga 0.3 O 7-y 1 1994 2 Y123 3 K 80 80 "Er2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10271 PR05001223 "YBa2(Cu,Ga)O7-y" Y1Ba2Cu3O6.82 Y 1 Ba 2 Cu 3 O 6.82 1 1994 3 Y123 3 K 93 91 93 "Y2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10272 PR05001223 "YBa2(Cu,Ga)O7-y" Y1Ba2Cu2.95Ga0.05O6.69 Y 1 Ba 2 Cu 2.95 Ga 0.05 O 6.69 1 1994 3 Y123 3 K 88 89 88 "Y2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10273 PR05001223 "YBa2(Cu,Ga)O7-y" Y1Ba2Cu2.9Ga0.1O6.8 Y 1 Ba 2 Cu 2.9 Ga 0.1 O 6.8 1 1994 3 Y123 3 K 81 82 81 "Y2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10274 PR05001223 "YBa2(Cu,Ga)O7-y" Y1Ba2Cu2.85Ga0.15O7-y Y 1 Ba 2 Cu 2.85 Ga 0.15 O 7-y 1 1994 2 Y123 3 K 78 78 "Y2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10275 PR05001223 "YBa2(Cu,Ga)O7-y" Y1Ba2Cu2.8Ga0.2O7-y Y 1 Ba 2 Cu 2.8 Ga 0.2 O 7-y 1 1994 2 Y123 3 K 68 72 68 "Y2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10276 PR05001223 "YBa2(Cu,Ga)O7-y" Y1Ba2Cu2.7Ga0.3O7-y Y 1 Ba 2 Cu 2.7 Ga 0.3 O 7-y 1 1994 2 Y123 3 K 70 70 "Y2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10277 PR05001223 "DyBa2(Cu,Ga)O7-y" Dy1Ba2Cu3O6.75 Dy 1 Ba 2 Cu 3 O 6.75 1 1994 3 Y123 3 K 94 92 94 "Dy2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10278 PR05001223 "DyBa2(Cu,Ga)O7-y" Dy1Ba2Cu2.95Ga0.05O6.69 Dy 1 Ba 2 Cu 2.95 Ga 0.05 O 6.69 1 1994 3 Y123 3 K 83 81 83 "Dy2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10279 PR05001223 "DyBa2(Cu,Ga)O7-y" Dy1Ba2Cu2.9Ga0.1O6.7 Dy 1 Ba 2 Cu 2.9 Ga 0.1 O 6.7 1 1994 2 Y123 3 K 68 68 68 "Dy2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10280 PR05001223 "DyBa2(Cu,Ga)O7-y" Dy1Ba2Cu2.85Ga0.15O6.74 Dy 1 Ba 2 Cu 2.85 Ga 0.15 O 6.74 1 1994 2 Y123 3 K "Dy2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10281 PR05001223 "DyBa2(Cu,Ga)O7-y" Dy1Ba2Cu2.8Ga0.2O6.78 Dy 1 Ba 2 Cu 2.8 Ga 0.2 O 6.78 1 1994 2 Y123 3 K 50 42 50 "Dy2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10282 PR05001223 "DyBa2(Cu,Ga)O7-y" Dy1Ba2Cu2.7Ga0.3O6.77 Dy 1 Ba 2 Cu 2.7 Ga 0.3 O 6.77 1 1994 2 Y123 3 K 39 39 "Dy2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10283 PR05001223 "GdBa2(Cu,Ga)O7-y" Gd1Ba2Cu3O7-y Gd 1 Ba 2 Cu 3 O 7-y 1 1994 K 94 93 94 "Gd2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10284 PR05001223 "GdBa2(Cu,Ga)O7-y" Gd1Ba2Cu2.9Ga0.1O7-y Gd 1 Ba 2 Cu 2.9 Ga 0.1 O 7-y 1 1994 K 62 62 "Gd2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10285 PR05001223 "GdBa2(Cu,Ga)O7-y" Gd1Ba2Cu2.7Ga0.3O7-y Gd 1 Ba 2 Cu 2.7 Ga 0.3 O 7-y 1 1994 K 21 21 "Gd2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10286 PR05001223 "EuBa2(Cu,Ga)O7-y" Eu1Ba2Cu3O6.82 Eu 1 Ba 2 Cu 3 O 6.82 1 1994 3 Y123 3 K 94 93 94 "Eu2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10287 PR05001223 "EuBa2(Cu,Ga)O7-y" Eu1Ba2Cu2.95Ga0.05O6.78 Eu 1 Ba 2 Cu 2.95 Ga 0.05 O 6.78 1 1994 2 Y123 3 K 79 75 79 "Eu2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10288 PR05001223 "EuBa2(Cu,Ga)O7-y" Eu1Ba2Cu2.9Ga0.1O6.74 Eu 1 Ba 2 Cu 2.9 Ga 0.1 O 6.74 1 1994 2 Y123 3 K 52 55 52 "Eu2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10289 PR05001223 "EuBa2(Cu,Ga)O7-y" Eu1Ba2Cu2.85Ga0.15O6.76 Eu 1 Ba 2 Cu 2.85 Ga 0.15 O 6.76 1 1994 2 Y123 3 K 43 43 "Eu2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10290 PR05001223 "EuBa2(Cu,Ga)O7-y" Eu1Ba2Cu2.8Ga0.2O6.63 Eu 1 Ba 2 Cu 2.8 Ga 0.2 O 6.63 1 1994 2 Y123 3 K 14 22 14 "Eu2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10291 PR05001223 "EuBa2(Cu,Ga)O7-y" Eu1Ba2Cu2.7Ga0.3O6.69 Eu 1 Ba 2 Cu 2.7 Ga 0.3 O 6.69 1 1994 2 Y123 3 K "Eu2O3, BaCO3, CuO, Ga2O3" 1 "CAL(in air at 910C for 24h), SIN (in flowing O2 at 930C for 50h),FC (to 680C in 5H and Maintain for 10h), FC(in 3h to 400C and Maintain for 10h), FC" "Substitution of Ga for Cu in RBa2Cu3-x GaxO7-z systems (R=Yb,Er,Y,Dy,Gd,Eu, and Nd)" 1994 7 "Phys.Rev.B, 50(1994)1223" "Yb,Er,Y,Gd,Dy,Eu,Nd,Ba,Ga,Cu,O" 10292 PR05001237 "(Bi,Pb)2Sr2Ca2Cu3O10" Bi1.65Pb0.35Sr2Ca2Cu3O10 Bi 1.65 Pb 0.35 Sr 2 Ca 2 Cu 3 O 10 2 1994 2 A 5.411 37.246 K 108.6 108.6 "Bi2O3, PbO, SrCO3, CaCO3, CuO" 1 "Raw Materials were dissolved in 1:1 HNO3, then drived at 120C. PRE (at 760C for 6h), ground, CAL (at 810C for 12h), Cool, Press into pellets, SIN (at 850C for 360h), FCL" "Properties and structure of the F-doped (Bi,Pb)-Sr-Ca-Cu-O superconductor" 1994 7 "Phys.Rev.B, 50(1994)1237" "Bi,Pb,Sr,Ca,Cu,O,F" 10293 PR05001237 "(Bi,Pb)2Sr2Ca2Cu3(O,F)y" Bi1.65Pb0.35Sr2Ca2Cu3FOz Bi 1.65 Pb 0.35 Sr 2 Ca 2 Cu 3 F O z 2 1994 2 A 5.357 36.951 K 116.4 117.2 117.2 "Bi2O3, PbO, SrCO3, CaCO3, CuF2" 1 "Heat (450C/h to 680C, 12C/h to 750C 750C for 12h), ground, press, SIN (790C for 10h, 835C for 160-180h), quench in air." "Properties and structure of the F-doped (Bi,Pb)-Sr-Ca-Cu-O superconductor" 1994 7 "Phys.Rev.B, 50(1994)1237" "Bi,Pb,Sr,Ca,Cu,O,F" 10294 PR05000426 Y2Ba4Cu7O15 Y2Ba4Cu7O15.1 Y 2 Ba 4 Cu 7 O 15.1 1 1994 A 3.834 3.879 50.61 3 K 92.8 92.8 1 "CAL (in O2 at 20bar pressure at 1020C for 12h) twice, ANN (in 100bar O2 at 300C for 3days)." Charge-carrier density and interplane coupling in Y2Ba4Cu7O15: A Cu NMR-NQR study 1994 7 "Physik-Institut, Universita""t Zu""rich, CH-8057 Zu""rich, Switzerland" "Phys.Rev.B,50(1994)426" 10295 PR05001290 YBa2Cu3OzFx Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1994 K 91 91 "See Supercond. Sci. Technol. 2, 35 (1989).Fluorinated by Flowing Diluted NF3 Gas (3% in N2) at 300C." NMR study of the <89>Y resonance in fluorinated YBa2Cu3Oz 1994 7 "Phys.Rev.B, 50(1994)1290" "Y,Ba,Cu,O,F" 10296 PR05001290 YBa2Cu3OzFx Y1Ba2Cu3F0.1O7 Y 1 Ba 2 Cu 3 F 0.1 O 7 1994 K 91 91 "See Supercond. Sci. Technol. 2, 35 (1989).Fluorinated by Flowing Diluted NF3 Gas (3% in N2) at 300C." NMR study of the <89>Y resonance in fluorinated YBa2Cu3Oz 1994 7 "Phys.Rev.B, 50(1994)1290" "Y,Ba,Cu,O,F" 10297 PR05001290 YBa2Cu3OzFx Y1Ba2Cu3F0.2O7 Y 1 Ba 2 Cu 3 F 0.2 O 7 1994 K 91 91 "See Supercond. Sci. Technol. 2, 35 (1989).Fluorinated by Flowing Diluted NF3 Gas (3% in N2) at 300C." NMR study of the <89>Y resonance in fluorinated YBa2Cu3Oz 1994 7 "Phys.Rev.B, 50(1994)1290" "Y,Ba,Cu,O,F" 10298 PR05001290 YBa2Cu3OzFx Y1Ba2Cu3O6.7 Y 1 Ba 2 Cu 3 O 6.7 1994 K 62.5 62.5 "See Supercond. Sci. Technol. 2, 35 (1989).Fluorinated by Flowing Diluted NF3 Gas (3% in N2) at 300C." NMR study of the <89>Y resonance in fluorinated YBa2Cu3Oz 1994 7 "Phys.Rev.B, 50(1994)1290" "Y,Ba,Cu,O,F" 10299 PR05001290 YBa2Cu3OzFx Y1Ba2Cu3F0.1O6.7 Y 1 Ba 2 Cu 3 F 0.1 O 6.7 1994 K 71 71 "See Supercond. Sci. Technol. 2, 35 (1989).Fluorinated by Flowing Diluted NF3 Gas (3% in N2) at 300C." NMR study of the <89>Y resonance in fluorinated YBa2Cu3Oz 1994 7 "Phys.Rev.B, 50(1994)1290" "Y,Ba,Cu,O,F" 10300 PR05004154 Powder. YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 6 1994 3 Y124 A 3.854 3.874 27.267 3 K 78 78 "By an acetatetartrate sol-gel method. MIX(Y2O3,Eu2O3 dissolved in Cu(CH3COO)2.H2O,Ba(CH3COO)2 ) ...In detail,see text." Europium substitution effects in superconducting YBa2Cu4O8 synthesized under one atomosphere oxygen pressure 1994 8 "Phys.Rev.B, 50(1994)4154" "Y,Ba,Cu,O" 10301 PR05004154 powder. "(Y,Eu)Ba2Cu4O8" Y0.75Eu0.25Ba2Cu4O8 Y 0.75 Eu 0.25 Ba 2 Cu 4 O 8 6 1994 3 Y124 A 3.865 3.886 27.29 3 K 78 78 "By an acetatetartrate sol-gel method. MIX(Y2O3,Eu2O3 dissolved in Cu(CH3COO)2.H2O,Ba(CH3COO)2 ) ...In detail,see text." Europium substitution effects in superconducting YBa2Cu4O8 synthesized under one atomosphere oxygen pressure 1994 8 "Phys.Rev.B, 50(1994)4154" "Y,Ba,Cu,O" 10302 PR05004154 powder. "(Y,Eu)Ba2Cu4O8" Y0.5Eu0.5Ba2Cu4O8 Y 0.5 Eu 0.5 Ba 2 Cu 4 O 8 6 1994 3 Y124 A 3.874 3.893 27.292 3 K 77 77 "By an acetatetartrate sol-gel method. MIX(Y2O3,Eu2O3 dissolved in Cu(CH3COO)2.H2O,Ba(CH3COO)2 ) ...In detail,see text." Europium substitution effects in superconducting YBa2Cu4O8 synthesized under one atomosphere oxygen pressure 1994 8 "Phys.Rev.B, 50(1994)4154" "Y,Ba,Cu,O" 10303 PR05004154 powder. "(Y,Eu)Ba2Cu4O8" Y0.25Eu0.75Ba2Cu4O8 Y 0.25 Eu 0.75 Ba 2 Cu 4 O 8 6 1994 3 Y124 A 3.874 3.892 27.292 3 K 75 75 "By an acetatetartrate sol-gel method. MIX(Y2O3,Eu2O3 dissolved in Cu(CH3COO)2.H2O,Ba(CH3COO)2 ) ...In detail,see text." Europium substitution effects in superconducting YBa2Cu4O8 synthesized under one atomosphere oxygen pressure 1994 8 "Phys.Rev.B, 50(1994)4154" "Y,Ba,Cu,O" 10304 PR05004154 powder. "(Y,Eu)Ba2Cu4O8" Eu1Ba2Cu4O8 Eu 1 Ba 2 Cu 4 O 8 6 1994 3 Y124 A 3.882 3.895 27.27 3 K 74 74 "By an acetatetartrate sol-gel method. MIX(Y2O3,Eu2O3 dissolved in Cu(CH3COO)2.H2O,Ba(CH3COO)2 ) ...In detail,see text." Europium substitution effects in superconducting YBa2Cu4O8 synthesized under one atomosphere oxygen pressure 1994 8 "Phys.Rev.B, 50(1994)4154" "Y,Ba,Cu,O" 10305 PR05004154 powder. EuBa2Cu4O8 Eu1Ba2Cu4O8 Eu 1 Ba 2 Cu 4 O 8 6 1994 3 Y124 A 3.88 3.892 27.25 3 K 5 By LiF flux process. Europium substitution effects in superconducting YBa2Cu4O8 synthesized under one atomosphere oxygen pressure 1994 8 "Phys.Rev.B, 50(1994)4154" "Y,Ba,Cu,O" 10306 PR05004168 La2CuO4 La2Cu1O4.017 La 2 Cu 1 O 4 4.017 1 1994 T K 34.7 39 34.7 K/kBar 0.07 1.84 TP10306 1 "CAL(La2O3 powder,at 980C) - SIN(1030-1100C,1 week, in Air)then, electrochemical insertion of Oxygen in KOH." Effect of pressure and quenching on superconductive La2CuO4+z (0 1000C 20h)-RT pellet was broken in half,and the halves were subjected to the 16Oxygen and 18Oxygen isotope diffusion." Sizable oxygen isotope effects in the electron-doped Pr1.85Ce0.15CuO4-y 1994 8 "Moris Research Inc., 1918 University Avenue, Berkeley, California 94704" "Phys.Rev.B,50(1994)3454" 10340 PR05003209 "(Bi,Pb)2Sr2Ca2Cu3(O,F)10" Bi1.7Pb0.3Sr2Ca2Cu3O10 Bi 1.7 Pb 0.3 Sr 2 Ca 2 Cu 3 O 10 1 1994 Bi2223 K 106.5 106.5 "Bi2O3,PbO,SrCaO3,CaCO3,CuO,CuF2" 1 "MIXIn detail. Mod.Phys.Lett. B 6,943(1992)" Oxygen deficiencies in the F-doped Bi2-xPbxSr2Ca2Cu3O10 superconductors studied by positron annihilation 1994 8 "Department of Physics, Wuhan University, Wuhan 430072, People's Republic of China" "Phys.Rev.B,50(1994)3209" 10341 PR05003209 "(Bi,Pb)2Sr2Ca2Cu3(O,F)10" Bi1.7Pb0.3Sr2Ca2Cu3F0.2O9.8 Bi 1.7 Pb 0.3 Sr 2 Ca 2 Cu 3 F 0.2 O z 9.8 1 1994 Bi2223 K 111 111 "Bi2O3,PbO,SrCaO3,CaCO3,CuO,CuF2" 1 "MIXIn detail. Mod.Phys.Lett. B 6,943(1992)" Oxygen deficiencies in the F-doped Bi2-xPbxSr2Ca2Cu3O10 superconductors studied by positron annihilation 1994 8 "Department of Physics, Wuhan University, Wuhan 430072, People's Republic of China" "Phys.Rev.B,50(1994)3209" 10342 PR05003209 "(Bi,Pb)2Sr2Ca2Cu3(O,F)10" Bi1.7Pb0.3Sr2Ca2Cu3F0.5O9.5 Bi 1.7 Pb 0.3 Sr 2 Ca 2 Cu 3 F 0.5 O z 9.5 1 1994 Bi2223 K 113 113 "Bi2O3,PbO,SrCaO3,CaCO3,CuO,CuF2" 1 "MIXIn detail. Mod.Phys.Lett. B 6,943(1992)" Oxygen deficiencies in the F-doped Bi2-xPbxSr2Ca2Cu3O10 superconductors studied by positron annihilation 1994 8 "Department of Physics, Wuhan University, Wuhan 430072, People's Republic of China" "Phys.Rev.B,50(1994)3209" 10343 PR05003209 "(Bi,Pb)2Sr2Ca2Cu3(O,F)10" Bi1.7Pb0.3Sr2Ca2Cu3F0.8O9.2 Bi 1.7 Pb 0.3 Sr 2 Ca 2 Cu 3 F 0.8 O z 9.2 1 1994 Bi2223 K 117.6 117.6 "Bi2O3,PbO,SrCaO3,CaCO3,CuO,CuF2" 1 "MIXIn detail. Mod.Phys.Lett. B 6,943(1992)" Oxygen deficiencies in the F-doped Bi2-xPbxSr2Ca2Cu3O10 superconductors studied by positron annihilation 1994 8 "Department of Physics, Wuhan University, Wuhan 430072, People's Republic of China" "Phys.Rev.B,50(1994)3209" 10344 PR05003221 powder La2CuO4 La2CuO4 La 2 Cu O 4 6 1994 GPa 122 3 T A 5.356 5.404 13.149 3 K "In detail,Phys.Rev. B 49,4163(1994)x=0.10 sample ANN( 700C in flowing oxygen,-> slow cooling to RT)x=0.0 sample ANN( 700C in flowing N2,-> quench)" Structural effects of hydrostatic pressure in orthorhombic La2-xSrxCuO4 1994 8 "Phys.Rev.B, 50(1994)3221" "La,Sr,Cu,O" 10345 PR05003221 powder "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 6 1994 GPa 147 3 T K "In detail,Phys.Rev. B 49,4163(1994)x=0.10 sample ANN( 700C in flowing oxygen,-> slow cooling to RT)x=0.0 sample ANN( 700C in flowing N2,-> quench)" Structural effects of hydrostatic pressure in orthorhombic La2-xSrxCuO4 1994 8 "Phys.Rev.B, 50(1994)3221" "La,Sr,Cu,O" 10346 PR05003246 "This is Sample A. ANN(300C,14H in O2)" HgBa2CaCu2O6 Hg1Ba2Ca1Cu2O6+d Hg 1 Ba 2 Ca 1 Cu 2 O 6+d 1 1994 Hg1212 K 124 124 m.ohm.cm 70 RH10346 1 "See Physica C 216,21 (1993)Difference between Sample A and B is anneal condition.A:ANN(300C,14h,in O2) B:ANN(300C,1.5h,in O2)" Hall-effect measurements of HgBa2CaCu2O6+z 1994 8 "Phys.Rev.B, 50(1994)3246" "Hg,Ba,Ca,Cu,O" 10347 PR05003246 "This is Sample B. ANN(300C,1.5H in O2)" HgBa2CaCu2O6 Hg1Ba2Ca1Cu2O6+d Hg 1 Ba 2 Ca 1 Cu 2 O 6+d 1 1994 Hg1212 K 124 124 m.ohm.cm 30 RH10347 1 "See Physica C 216,21 (1993)Difference between Sample A and B is anneal condition.A:ANN(300C,14h,in O2) B:ANN(300C,1.5h,in O2)" Hall-effect measurements of HgBa2CaCu2O6+z 1994 8 "Phys.Rev.B, 50(1994)3246" "Hg,Ba,Ca,Cu,O" 10348 PR05003288 Pb2Sr2PrCu3O8 Pb2Sr2Pr1Cu3O8 Pb 2 Sr 2 Pr 1 Cu 3 O 8 8 1 1994 6 3 Pb3212 Cmmm A 5.454 5.486 15.823 3 K SP10348 mJ/mol.K2 200 m.ohm.cm 530 "SrCO3,Pr2O3,CuO (Sr:Pr:Cu=2:1:3)" 1 "MIX-CAL(930C,in air)-MIX(Sr2PrCu3Ox + PbO)-SIN(750C,12h,in air)" Magnetic and Calorimetric studies of anomalous Pr antiferromagnetic ordering in orthorhombic Pb2Sr2PrCu3O8 1994 8 "Phys.Rev.B, 50(1994)3288" "Pb,Sr,Pr,Cu,O" 10349 PR05003288 Pb2Sr2PrCu3O9 Pb2Sr2Pr1Cu3O9 Pb 2 Sr 2 Pr 1 Cu 3 O 9 9 1 1994 3 Pb3212 Cmmm A 5.507 5.51 15.881 3 K "SrCO3,Pr2O3,CuO (Sr:Pr:Cu=2:1:3)" 1 "MIX-CAL(930C,in air)-MIX(Sr2PrCu3Ox + PbO)-SIN(750C,12h,in air)" Magnetic and Calorimetric studies of anomalous Pr antiferromagnetic ordering in orthorhombic Pb2Sr2PrCu3O8 1994 8 "Phys.Rev.B, 50(1994)3288" "Pb,Sr,Pr,Cu,O" 10350 PR05003337 Sample number is #1. YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 4 1994 Y123 A K 87.5 87.5 A by mutual inductance of concentric solenoid coil 1700 on SrTiO3 substrates. by laser ablaion method.Preparation of #1-#3 samples is same . Crossover in temperature dependence of penetration depth ramda(T) in superconducting YBa2Cu3O7-z films 1994 8 "Phys.Rev.B, 50(1994)3337" "Y,Ba,Cu,O" 10351 PR05003337 Sample number is #2. YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 4 1994 Y123 K 88.3 88.3 A by mutual inductance of concentric solenoid coil. 1710 on SrTiO3 substrates. by laser ablaion method.Preparation of #1-#3 samples is same . Crossover in temperature dependence of penetration depth ramda(T) in superconducting YBa2Cu3O7-z films 1994 8 "Phys.Rev.B, 50(1994)3337" "Y,Ba,Cu,O" 10352 PR05003337 Sample number is #3. YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 4 1994 Y123 K 86.7 86.7 A by mutual inductance of concentric solenoid coil. 1630 on SrTiO3 substrates. by laser ablaion method.Preparation of #1-#3 samples is same . Crossover in temperature dependence of penetration depth ramda(T) in superconducting YBa2Cu3O7-z films 1994 8 "Phys.Rev.B, 50(1994)3337" "Y,Ba,Cu,O" 10353 PR05203071 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-d Nd 1.85 Ce 0.15 Cu 1 O 4-d 5 1995 T' A 12.08 K 18.2 21.6 18.2 T 6.3 mic.ohm.cm 170 740 1200A thick. c-axis oriented. The substrate is SrTiO3. PR05203071 1995 8 "Institut fu""r Physik, Universita""t Augsburg, Memminger Strasse 6, D-86135 Augsburg, Germany" "Phys.Rev.B,52(1995)3071" 10354 PR05204427 "Tl(Ba,Sr)LaCuO5+d" Tl1Sr1La1Cu1O5.09 Tl 1 Sr 1 La 1 Cu 1 O 5+d 5.09 1 1995 2 Tl1201 P4/mmm A 3.76 8.804 4 K 30 30 "See Phys. Rev. B 46, 6622 (1992)." Rodox mechanism for the generation of holes in TlBa1-xSrxLaCuO5+z:A neutron-diffraction study 1995 8 "Phys.Rev.B,52(1995)4427" "Tl, Ba, Sr, La, Cu, O" 10355 PR05204427 "Tl(Ba,Sr)LaCuO5+d" Tl1Ba0.3Sr0.7La1Cu1O5.11 Tl 1 Ba 0.3 Sr 0.7 La 1 Cu 1 O 5+d 5.11 1 1995 2 Tl1201 P4/mmm A 3.787 8.853 4 K 25 25 "See Phys. Rev. B 46, 6622 (1992)." Rodox mechanism for the generation of holes in TlBa1-xSrxLaCuO5+z:A neutron-diffraction study 1995 8 "Phys.Rev.B,52(1995)4427" "Tl, Ba, Sr, La, Cu, O" 10356 PR05204427 "Tl(Ba,Sr)LaCuO5+d" Tl1Ba0.6Sr0.4La1Cu1O5.16 Tl 1 Ba 0.6 Sr 0.4 La 1 Cu 1 O 5+d 5.16 1 1995 2 Tl1201 P4/mmm A 3.805 8.915 4 K 22 22 "See Phys. Rev. B 46, 6622 (1992)." Rodox mechanism for the generation of holes in TlBa1-xSrxLaCuO5+z:A neutron-diffraction study 1995 8 "Phys.Rev.B,52(1995)4427" "Tl, Ba, Sr, La, Cu, O" 10357 PR05204427 Electrical resistance measurement shows that the sample is a semiconductor. "Tl(Ba,Sr)LaCuO5+d" Tl1Ba1La1Cu1O5.17 Tl 1 Ba 1 La 1 Cu 1 O 5+d 5.17 1 1995 2 Tl1201 P4/mmm A 3.845 8.993 4 K "See Phys. Rev. B 46, 6622 (1992)." Rodox mechanism for the generation of holes in TlBa1-xSrxLaCuO5+z:A neutron-diffraction study 1995 8 "Phys.Rev.B,52(1995)4427" "Tl, Ba, Sr, La, Cu, O" 10358 PR05203756 The sample is c-axis aligned.anisotropy factor=4.4 HgBa2Ca2Cu3Oy Hg1Ba2Ca2Cu3Oy Hg 1 Ba 2 Ca 2 Cu 3 O y 1 1995 Hg1223 K 135 135 Oe Calculate from magnetisation data. 100 339 T Calculate from magnetisation data. 390 88 A Calculate from magnetisation data. 19.3 4.4 A Calculate from magnetisation data. 1540 6800 "HgO, BaO, CaO, CuO" SIN (at 665C for 100h)ANN (at 300C in flowing oxygen for 12h) Superconducting-state thermodynamic parameters and anisotropy of HgBa2Can-1CunOy by reversible magnetization measurements 1995 8 "Phys.Rev.B,52(1995)3756" "Hg, Ba, Ca, Cu, O" 10359 PR05203756 The sample is c-axis aligned. anisotropy factor=4.0 HgBa2CaCu2Oy Hg1Ba2Ca1Cu2Oy Hg 1 Ba 2 Ca 1 Cu 2 O y 1 1995 Hg1212 K 127 127 Oe Calculate from magnetisation data. 65 208 T Calculate from magnetisation data. 455 113 A Calculate from magnetisation data. 16.6 4.1 A Calculate from magnetisation data. 2050 8250 "HgO, BaO, CaO, CuO" SIN (at 625C for 24h)ANN (at 300C in flowing oxygen for 12h) Superconducting-state thermodynamic parameters and anisotropy of HgBa2Can-1CunOy by reversible magnetization measurements 1995 8 "Phys.Rev.B,52(1995)3756" "Hg, Ba, Ca, Cu, O" 10360 PR05203756 The sample is c-axis aligned. anisotropy factor=1.8 HgBa2CuOy Hg1Ba2Cu1Oy Hg 1 Ba 2 Cu 1 O y 1 1995 Hg1201 K 96 96 Oe Calculate from magnetisation data. 82 129 T Calculate from magnetisation data. 125 72 A Calculate from magnetisation data. 21.1 12.1 A Calculate from magnetisation data. 2600 4540 "HgO, BaO, CuO" SIN (at 650C for 1h)ANN (at 300C in flowing oxygen for 12h) Superconducting-state thermodynamic parameters and anisotropy of HgBa2Can-1CunOy by reversible magnetization measurements 1995 8 "Phys.Rev.B,52(1995)3756" "Hg, Ba, Ca, Cu, O" 10361 PR05203711 YBa2Cu3O7-d Y1Ba2Cu3O6.3 Y 1 Ba 2 Cu 3 O 6.3 1 1995 5.56 GPa 95.2 GPa 37.3 GPa 70.8 0.276 K "Y2O3, BaCO3, CuO" 1 "SIN (for 4h at 935C in dry,CO2-free air)ANN (for 16h at 648C in 0.1% oxygen/balance air)" Elastik and nonlinear acoustic properties of YBa2Cu3O7-x ceramics with different oxygen contents 1995 8 "Phys.Rev.B52,(1995)3711" "Y, Ba, Cu, O" 10362 PR05203711 YBa2Cu3O7-d Y1Ba2Cu3O6.6 Y 1 Ba 2 Cu 3 O 6.6 1 1995 5.365 GPa 97.9 GPa 40.1 GPa 58.5 0.221 K "Y2O3, BaCO3, CuO" 1 "SIN (for 4h at 935C in dry,CO2-free air)ANN(for 16h at 521C in 0.1% oxygen/balance air)" Elastik and nonlinear acoustic properties of YBa2Cu3O7-x ceramics with different oxygen contents 1995 8 "Phys.Rev.B52,(1995)3711" "Y, Ba, Cu, O" 10363 PR05203711 YBa2Cu3O7-d Y1Ba2Cu3O6.94 Y 1 Ba 2 Cu 3 O 6.94 1 1995 5.47 GPa 65.3 GPa 26.4 GPa 41.4 0.237 K 1 The samples used in this study were sintered disks of high quality with diameters between 10 and 25 mm. Elastik and nonlinear acoustic properties of YBa2Cu3O7-x ceramics with different oxygen contents 1995 8 "Phys.Rev.B52,(1995)3711" "Y, Ba, Cu, O" 10364 PR05203742 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 1 1995 2 T' 3 K 22.5 22.5 1 CAL (in air for 24h at 1000C)SIN (at 1100C for 18h)ANN (for 36h under flowing nitrogen gas) "Magnetism of Ni, and Zn in Nd1.85Ce0.15CuO4: Cmparison of experiment and theory" 1995 8 "Phys.Rev.B,52(1995)3742" "Fe, Ni, Zn, Nd, Ce, Cu, O" 10365 PR05203742 "(Nd,Ce)2(Cu,Ni)O4" Nd1.85Ce0.15Cu0.999Ni0.001O4 Nd 1.85 Ce 0.15 Cu 0.999 Ni 0.001 O 4 1 1995 2 T' 3 K 20 20 1 CAL (in air for 24h at 1000C)SIN (at 1100C for 18h)ANN (for 36h under flowing nitrogen gas) "Magnetism of Ni, and Zn in Nd1.85Ce0.15CuO4: Cmparison of experiment and theory" 1995 8 "Phys.Rev.B,52(1995)3742" "Fe, Ni, Zn, Nd, Ce, Cu, O" 10366 PR05203742 "(Nd,Ce)2(Cu,Ni)O4" Nd1.85Ce0.15Cu0.997Ni0.003O4 Nd 1.85 Ce 0.15 Cu 0.997 Ni 0.003 O 4 1 1995 2 T' 3 K 16 16 1 CAL (in air for 24h at 1000C)SIN (at 1100C for 18h)ANN (for 36h under flowing nitrogen gas) "Magnetism of Ni, and Zn in Nd1.85Ce0.15CuO4: Cmparison of experiment and theory" 1995 8 "Phys.Rev.B,52(1995)3742" "Fe, Ni, Zn, Nd, Ce, Cu, O" 10367 PR05203742 "(Nd,Ce)2(Cu,Ni)O4" Nd1.85Ce0.15Cu0.995Ni0.005O4 Nd 1.85 Ce 0.15 Cu 0.995 Ni 0.005 O 4 1 1995 2 T' 3 K 12 12 1 CAL (in air for 24h at 1000C)SIN (at 1100C for 18h)ANN (for 36h under flowing nitrogen gas) "Magnetism of Ni, and Zn in Nd1.85Ce0.15CuO4: Cmparison of experiment and theory" 1995 8 "Phys.Rev.B,52(1995)3742" "Fe, Ni, Zn, Nd, Ce, Cu, O" 10368 PR05203742 "(Nd,Ce)2(Cu,Ni)O4" Nd1.85Ce0.15Cu0.993Ni0.007O4 Nd 1.85 Ce 0.15 Cu 0.993 Ni 0.007 O 4 1 1995 2 T' 3 K 8 8 1 CAL (in air for 24h at 1000C)SIN (at 1100C for 18h)ANN (for 36h under flowing nitrogen gas) "Magnetism of Ni, and Zn in Nd1.85Ce0.15CuO4: Cmparison of experiment and theory" 1995 8 "Phys.Rev.B,52(1995)3742" "Fe, Ni, Zn, Nd, Ce, Cu, O" 10369 PR05203742 "(Nd,Ce)2(Cu,Ni)O4" Nd1.85Ce0.15Cu0.993Ni0.007O4 Nd 1.85 Ce 0.15 Cu 0.993 Ni 0.007 O 4 1 1995 2 T' 3 K 5.5 5.5 1 CAL (in air for 24h at 1000C)SIN (at 1100C for 18h)ANN (for 36h under flowing nitrogen gas) "Magnetism of Ni, and Zn in Nd1.85Ce0.15CuO4: Cmparison of experiment and theory" 1995 8 "Phys.Rev.B,52(1995)3742" "Fe, Ni, Zn, Nd, Ce, Cu, O" 10370 PR05203742 "(Nd,Ce)2(Cu,Ni)O4" Nd1.85Ce0.15Cu0.992Ni0.009O4 Nd 1.85 Ce 0.15 Cu 0.992 Ni 0.009 O 4 1 1995 2 T' 3 K 1 CAL (in air for 24h at 1000C)SIN (at 1100C for 18h)ANN (for 36h under flowing nitrogen gas) "Magnetism of Ni, and Zn in Nd1.85Ce0.15CuO4: Cmparison of experiment and theory" 1995 8 "Phys.Rev.B,52(1995)3742" "Fe, Ni, Zn, Nd, Ce, Cu, O" 10371 PR05203742 "(Nd,Ce)2(Cu,Fe)O4" Nd1.85Ce0.15Cu0.998Fe0.002O4 Nd 1.85 Ce 0.15 Cu 0.998 Fe 0.002 O 4 1 1995 2 T' 3 K 19.5 19.5 1 CAL (in air for 24h at 900C)SIN (at 1100C for 18h)ANN (for 36h under flowing gas) "Magnetism of Ni, and Zn in Nd1.85Ce0.15CuO4: Cmparison of experiment and theory" 1995 8 "Phys.Rev.B,52(1995)3742" "Fe, Ni, Zn, Nd, Ce, Cu, O" 10372 PR05203742 "(Nd,Ce)2(Cu,Fe)O4" Nd1.85Ce0.15Cu0.995Fe0.005O4 Nd 1.85 Ce 0.15 Cu 0.995 Fe 0.005 O 4 1 1995 2 T' 3 K 16.5 16.5 1 CAL (in air for 24h at 900C)SIN (at 1100C for 18h)ANN (for 36h under flowing gas) "Magnetism of Ni, and Zn in Nd1.85Ce0.15CuO4: Cmparison of experiment and theory" 1995 8 "Phys.Rev.B,52(1995)3742" "Fe, Ni, Zn, Nd, Ce, Cu, O" 10373 PR05203742 "(Nd,Ce)2(Cu,Fe)O4" Nd1.85Ce0.15Cu0.99Fe0.01O4 Nd 1.85 Ce 0.15 Cu 0.99 Fe 0.01 O 4 1 1995 2 T' 3 K 13 13 1 CAL (in air for 24h at 900C)SIN (at 1100C for 18h)ANN (for 36h under flowing gas) "Magnetism of Ni, and Zn in Nd1.85Ce0.15CuO4: Cmparison of experiment and theory" 1995 8 "Phys.Rev.B,52(1995)3742" "Fe, Ni, Zn, Nd, Ce, Cu, O" 10374 PR05203742 "(Nd,Ce)2(Cu,Fe)O4" Nd1.85Ce0.15Cu0.985Fe0.015O4 Nd 1.85 Ce 0.15 Cu 0.985 Fe 0.015 O 4 1 1995 2 T' 3 K 6.5 6.5 1 CAL (in air for 24h at 900C)SIN (at 1100C for 18h)ANN (for 36h under flowing gas) "Magnetism of Ni, and Zn in Nd1.85Ce0.15CuO4: Cmparison of experiment and theory" 1995 8 "Phys.Rev.B,52(1995)3742" "Fe, Ni, Zn, Nd, Ce, Cu, O" 10375 PR05203742 "(Nd,Ce)2(Cu,Zn)O4" Nd1.85Ce0.15Cu0.995Zn0.005O4 Nd 1.85 Ce 0.15 Cu 0.995 Zn 0.005 O 4 1 1995 2 T' 3 K 18 18 1 CAL (in air for 24h at 1100C)SIN (at 1100C for 18h)ANN (for 36h under flowing nitrogen gas) "Magnetism of Ni, and Zn in Nd1.85Ce0.15CuO4: Cmparison of experiment and theory" 1995 8 "Phys.Rev.B,52(1995)3742" "Fe, Ni, Zn, Nd, Ce, Cu, O" 10376 PR05203742 "(Nd,Ce)2(Cu,Zn)O4" Nd1.85Ce0.15Cu0.99Zn0.01O4 Nd 1.85 Ce 0.15 Cu 0.99 Zn 0.01 O 4 1 1995 2 T' 3 K 15.5 15.5 1 CAL (in air for 24h at 1100C)SIN (at 1100C for 18h)ANN (for 36h under flowing nitrogen gas) "Magnetism of Ni, and Zn in Nd1.85Ce0.15CuO4: Cmparison of experiment and theory" 1995 8 "Phys.Rev.B,52(1995)3742" "Fe, Ni, Zn, Nd, Ce, Cu, O" 10377 PR05203742 "(Nd,Ce)2(Cu,Zn)O4" Nd1.85Ce0.15Cu0.987Zn0.013O4 Nd 1.85 Ce 0.15 Cu 0.987 Zn 0.013 O 4 1 1995 2 T' 3 K 14.5 14.5 1 CAL (in air for 24h at 1100C)SIN (at 1100C for 18h)ANN (for 36h under flowing nitrogen gas) "Magnetism of Ni, and Zn in Nd1.85Ce0.15CuO4: Cmparison of experiment and theory" 1995 8 "Phys.Rev.B,52(1995)3742" "Fe, Ni, Zn, Nd, Ce, Cu, O" 10378 PR05203742 "(Nd,Ce)2(Cu,Zn)O4" Nd1.85Ce0.15Cu0.985Zn0.015O4 Nd 1.85 Ce 0.15 Cu 0.985 Zn 0.015 O 4 1 1995 2 T' 3 K 14 14 1 CAL (in air for 24h at 1100C)SIN (at 1100C for 18h)ANN (for 36h under flowing nitrogen gas) "Magnetism of Ni, and Zn in Nd1.85Ce0.15CuO4: Cmparison of experiment and theory" 1995 8 "Phys.Rev.B,52(1995)3742" "Fe, Ni, Zn, Nd, Ce, Cu, O" 10379 PR05203742 "(Nd,Ce)2(Cu,Zn)O4" Nd1.85Ce0.15Cu0.98Zn0.02O4 Nd 1.85 Ce 0.15 Cu 0.98 Zn 0.02 O 4 1 1995 2 T' 3 K 13 13 1 CAL (in air for 24h at 1100C)SIN (at 1100C for 18h)ANN (for 36h under flowing nitrogen gas) "Magnetism of Ni, and Zn in Nd1.85Ce0.15CuO4: Cmparison of experiment and theory" 1995 8 "Phys.Rev.B,52(1995)3742" "Fe, Ni, Zn, Nd, Ce, Cu, O" 10380 PR05203742 "(Nd,Ce)2(Cu,Zn)O4" Nd1.85Ce0.15Cu0.975Zn0.025O4 Nd 1.85 Ce 0.15 Cu 0.975 Zn 0.025 O 4 1 1995 2 T' 3 K 12 12 1 CAL (in air for 24h at 1100C)SIN (at 1100C for 18h)ANN (for 36h under flowing nitrogen gas) "Magnetism of Ni, and Zn in Nd1.85Ce0.15CuO4: Cmparison of experiment and theory" 1995 8 "Phys.Rev.B,52(1995)3742" "Fe, Ni, Zn, Nd, Ce, Cu, O" 10381 PR05203742 "(Nd,Ce)2(Cu,Zn)O4" Nd1.85Ce0.15Cu0.97Zn0.03O4 Nd 1.85 Ce 0.15 Cu 0.97 Zn 0.03 O 4 1 1995 2 T' 3 K 11 11 1 CAL (in air for 24h at 1100C)SIN (at 1100C for 18h)ANN (for 36h under flowing nitrogen gas) "Magnetism of Ni, and Zn in Nd1.85Ce0.15CuO4: Cmparison of experiment and theory" 1995 8 "Phys.Rev.B,52(1995)3742" "Fe, Ni, Zn, Nd, Ce, Cu, O" 10382 PR05203742 "(Nd,Ce)2(Cu,Zn)O4" Nd1.85Ce0.15Cu0.96Zn0.04O4 Nd 1.85 Ce 0.15 Cu 0.96 Zn 0.04 O 4 1 1995 2 T' 3 K 9.5 9.5 1 CAL (in air for 24h at 1100C)SIN (at 1100C for 18h)ANN (for 36h under flowing nitrogen gas) "Magnetism of Ni, and Zn in Nd1.85Ce0.15CuO4: Cmparison of experiment and theory" 1995 8 "Phys.Rev.B,52(1995)3742" "Fe, Ni, Zn, Nd, Ce, Cu, O" 10383 PR05203742 "(Nd,Ce)2(Cu,Zn)O4" Nd1.85Ce0.15Cu0.95Zn0.05O4 Nd 1.85 Ce 0.15 Cu 0.95 Zn 0.05 O 4 1 1995 2 T' 3 K 8 8 1 CAL (in air for 24h at 1100C)SIN (at 1100C for 18h)ANN (for 36h under flowing nitrogen gas) "Magnetism of Ni, and Zn in Nd1.85Ce0.15CuO4: Cmparison of experiment and theory" 1995 8 "Phys.Rev.B,52(1995)3742" "Fe, Ni, Zn, Nd, Ce, Cu, O" 10384 PR05203884 "YBa2(Cu,Zn)3O7-y" Y1Ba2Cu3O6.63 Y 1 Ba 2 Cu 3 O 7-y 6.63 3 1995 K 62 62 mic.ohm.cm 80 280000 540 50000 m3/C 2.20E-09 "CuO, BaO" Effect of Zn doping on charge transport in YBa2Cu3O7-y 1995 8 "Phys.Rev.B,52(1995)R3884" "Zn, Y, Ba, Cu, O" 10385 PR05203884 "YBa2(Cu,Zn)3O7-y" Y1Ba2Cu2.97Zn0.03O6.63 Y 1 Ba 2 Cu 2.97 Zn 0.03 O 7-y 6.63 3 1995 K 40 40 mic.ohm.cm 190 660 m3/C 2.50E-09 RH10385 "CuO, BaO" Effect of Zn doping on charge transport in YBa2Cu3O7-y 1995 8 "Phys.Rev.B,52(1995)R3884" "Zn, Y, Ba, Cu, O" 10386 PR05203884 "YBa2(Cu,Zn)3O7-y" Y1Ba2Cu2.94Zn0.06O6.63 Y 1 Ba 2 Cu 2.94 Zn 0.06 O 7-y 6.63 3 1995 K 20 20 mic.ohm.cm 250 250000 800 60000 m3/C 2.60E-09 RH10386 "CuO, BaO" Effect of Zn doping on charge transport in YBa2Cu3O7-y 1995 8 "Phys.Rev.B,52(1995)R3884" "Zn, Y, Ba, Cu, O" 10387 PR05203884 "YBa2(Cu,Zn)3O7-y" Y1Ba2Cu2.91Zn0.09O6.63 Y 1 Ba 2 Cu 2.91 Zn 0.09 O 7-y 6.63 3 1995 K mic.ohm.cm 400 430 920 "CuO, BaO" Effect of Zn doping on charge transport in YBa2Cu3O7-y 1995 8 "Phys.Rev.B,52(1995)R3884" "Zn, Y, Ba, Cu, O" 10388 PR05203884 "YBa2(Cu,Zn)3O7-y" Y1Ba2Cu2.91Zn0.09O6.63 Y 1 Ba 2 Cu 2.91 Zn 0.09 O 7-y 6.63 3 1995 K mic.ohm.cm 520 470 970 "CuO, BaO" Effect of Zn doping on charge transport in YBa2Cu3O7-y 1995 8 "Phys.Rev.B,52(1995)R3884" "Zn, Y, Ba, Cu, O" 10389 PR05203884 "YBa2(Cu,Zn)3O7-y" Y1Ba2Cu2.88Zn0.12O6.63 Y 1 Ba 2 Cu 2.88 Zn 0.12 O 7-y 6.63 3 1995 K mic.ohm.cm 740 570 1110 m3/C 2.80E-09 RH10389 "CuO, BaO" Effect of Zn doping on charge transport in YBa2Cu3O7-y 1995 8 "Phys.Rev.B,52(1995)R3884" "Zn, Y, Ba, Cu, O" 10390 PR05203884 "YBa2(Cu,Zn)3O7-y" Y1Ba2Cu3O6.03 Y 1 Ba 2 Cu 3 O 7-y 6.03 3 1995 K 92 92 mic.ohm.cm m3/C 6.00E-10 RH10390 "CuO, BaO" Effect of Zn doping on charge transport in YBa2Cu3O7-y 1995 8 "Phys.Rev.B,52(1995)R3884" "Zn, Y, Ba, Cu, O" 10391 PR05203884 "YBa2(Cu,Zn)3O7-y" Y1Ba2Cu2.94Zn0.06O6.03 Y 1 Ba 2 Cu 2.94 Zn 0.06 O 7-y 6.03 3 1995 K mic.ohm.cm m3/C 8.00E-10 RH10391 "CuO, BaO" Effect of Zn doping on charge transport in YBa2Cu3O7-y 1995 8 "Phys.Rev.B,52(1995)R3884" "Zn, Y, Ba, Cu, O" 10400 PR05007234 YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 5 1994 K by laser ablation method.BaF2 post-annealing process. Sign reversals in the vortex-state Hall effect in Y-Ba-Cu-O: Correlations with the normal-state Seebeck coefficient 1994 9 "Phys.Rev.B,50 (1994) 7234-7237" "Y,Ba,Cu,O" 10401 PR05006402 "Tl(Ba,La)2CuO5" Tl1Ba1La1Cu1O5 Tl 1 Ba 1 La 1 Cu 1 O 5 1 1994 K "BaCO3,La2O3,CuO,Tl2O3" 1 "CAL(precursor,950-980,20-30h) - MIX(Tl2O3 + precursor, Tl:BaLaCuO=1.2 : 1)-SIN(890C-910C,10-15h)" Preparation and transport properties of single-phase TlBa1+xLa1-XCuO5(0 ANN(600C,12h,quartz tube with 10g YBCO po" Interplace charge transport in YBa2Cu3O7-y: Spin-gap effect on in-place and out-of-plane resistivity 1994 9 "Phys.Rev.B,50 (1994) 6534" "Y,Ba,Cu,O" 10408 PR05006534 YBa2Cu3O7-d Y1Ba2Cu3O6.78 Y 1 Ba 2 Cu 3 O 6.78 3 1994 K 82 2 82 5 "Y2O3 crucible, untwined crystal is obtained by picking up as-grown twin free cryatals or by applying uniaxial stress on the twinned cryatal. oxygen content -> ANN(600C,12h,quartz tube with 10g YBCO po" Interplace charge transport in YBa2Cu3O7-y: Spin-gap effect on in-place and out-of-plane resistivity 1994 9 "Phys.Rev.B,50 (1994) 6534" "Y,Ba,Cu,O" 10409 PR05006534 YBa2Cu3O7-d Y1Ba2Cu3O6.88 Y 1 Ba 2 Cu 3 O 6.88 3 1994 K 92 1 92 5 "Y2O3 crucible, untwined crystal is obtained by picking up as-grown twin free cryatals or by applying uniaxial stress on the twinned cryatal. oxygen content -> ANN(600C,12h,quartz tube with 10g YBCO po" Interplace charge transport in YBa2Cu3O7-y: Spin-gap effect on in-place and out-of-plane resistivity 1994 9 "Phys.Rev.B,50 (1994) 6534" "Y,Ba,Cu,O" 10410 PR05006534 YBa2Cu3O7-d Y1Ba2Cu3O6.93 Y 1 Ba 2 Cu 3 O 6.93 3 1994 K 92 1 92 5 "Y2O3 crucible, untwined crystal is obtained by picking up as-grown twin free cryatals or by applying uniaxial stress on the twinned cryatal. oxygen content -> ANN(600C,12h,quartz tube with 10g YBCO po" Interplace charge transport in YBa2Cu3O7-y: Spin-gap effect on in-place and out-of-plane resistivity 1994 9 "Phys.Rev.B,50 (1994) 6534" "Y,Ba,Cu,O" 10411 PR05007099 Temperature of substrate is 593C for this sample. YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 5 1994 K 16 Y:Ba:Cu = 1.05:2.00:3.85 by rf magnetron sputtering only. MgO substrate.Film thickness is 1500A. Systematic study of the growth-temperature dependence pf structural disorder and superconductivity in YBa2Cu3O7-z thin films 1994 9 "Phys.Rev.B,50 (1994) 7099" "Y,Ba,Cu,O" 10412 PR05007099 Temperature of substrate is 604C for this sample. YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 5 1994 K 16 Y:Ba:Cu = 1.05:2.00:3.85 by rf magnetron sputtering only. MgO substrate.Film thickness is 1500A. Systematic study of the growth-temperature dependence pf structural disorder and superconductivity in YBa2Cu3O7-z thin films 1994 9 "Phys.Rev.B,50 (1994) 7099" "Y,Ba,Cu,O" 10413 PR05007099 Temperature of substrate is 608C for this sample. YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 5 1994 K 16 Y:Ba:Cu = 1.05:2.00:3.85 by rf magnetron sputtering only. MgO substrate.Film thickness is 1500A. Systematic study of the growth-temperature dependence pf structural disorder and superconductivity in YBa2Cu3O7-z thin films 1994 9 "Phys.Rev.B,50 (1994) 7099" "Y,Ba,Cu,O" 10414 PR05007099 Temperature of substrate is 630C for this sample. YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 5 1994 K 16 Y:Ba:Cu = 1.05:2.00:3.85 by rf magnetron sputtering only. MgO substrate.Film thickness is 1500A. Systematic study of the growth-temperature dependence pf structural disorder and superconductivity in YBa2Cu3O7-z thin films 1994 9 "Phys.Rev.B,50 (1994) 7099" "Y,Ba,Cu,O" 10415 PR05007099 Temperature of substrate is 671C for this sample. YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 5 1994 K 16 Y:Ba:Cu = 1.05:2.00:3.85 by rf magnetron sputtering only. MgO substrate.Film thickness is 1500A. Systematic study of the growth-temperature dependence pf structural disorder and superconductivity in YBa2Cu3O7-z thin films 1994 9 "Phys.Rev.B,50 (1994) 7099" "Y,Ba,Cu,O" 10416 PR05007099 Temperature of substrate is 706C for this sample. YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 5 1994 K 16 Y:Ba:Cu = 1.05:2.00:3.85 by rf magnetron sputtering only. MgO substrate.Film thickness is 1500A. Systematic study of the growth-temperature dependence pf structural disorder and superconductivity in YBa2Cu3O7-z thin films 1994 9 "Phys.Rev.B,50 (1994) 7099" "Y,Ba,Cu,O" 10417 PR05007099 Temperature of substrate is 725C for this sample. YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 5 1994 K 16 Y:Ba:Cu = 1.05:2.00:3.85 by rf magnetron sputtering only. MgO substrate.Film thickness is 1500A. Systematic study of the growth-temperature dependence pf structural disorder and superconductivity in YBa2Cu3O7-z thin films 1994 9 "Phys.Rev.B,50 (1994) 7099" "Y,Ba,Cu,O" 10418 PR05006534 abres = for parallel to a-axis YBa2Cu3O7 Y1Ba2Cu3O6.68 Y 1 Ba 2 Cu 3 O z 6.68 3 1994 Y123 K 63 3 63 m.ohm.cm 0.7 50 5 "Y2O3 crucible,untwinned crystal by picking up as-grown twin free crystal or applying uniaxial stress, oxygen content by ANN(600C,12H in quartz tube with 10g YBCO polycrystalline)" Interplace charge transport in YBa2Cu3O7-y: Spin-gap effect on in-place and out-of-plane resistivity 1994 9 "Phys.Rev.B,50 (1994) 6534" "Y,Ba,Cu,O" 10419 PR05006534 abres = for parallel to a-axis YBa2Cu3O7 Y1Ba2Cu3O6.78 Y 1 Ba 2 Cu 3 O z 6.78 3 1994 Y123 K 82 2 82 m.ohm.cm 0.48 22 5 "Y2O3 crucible,untwinned crystal by picking up as-grown twin free crystal or applying uniaxial stress, oxygen content by ANN(600C,12H in quartz tube with 10g YBCO polycrystalline)" Interplace charge transport in YBa2Cu3O7-y: Spin-gap effect on in-place and out-of-plane resistivity 1994 9 "Phys.Rev.B,50 (1994) 6534" "Y,Ba,Cu,O" 10420 PR05006534 abres = for //a-axis YBa2Cu3O7 Y1Ba2Cu3O6.88 Y 1 Ba 2 Cu 3 O z 6.88 3 1994 Y123 K 92 1 92 m.ohm.cm 0.31 10 5 "Y2O3 crucible,untwinned crystal by picking up as-grown twin free crystal or applying uniaxial stress, oxygen content by ANN(600C,12H in quartz tube with 10g YBCO polycrystalline)" Interplace charge transport in YBa2Cu3O7-y: Spin-gap effect on in-place and out-of-plane resistivity 1994 9 "Phys.Rev.B,50 (1994) 6534" "Y,Ba,Cu,O" 10421 PR05006534 abres = for //a-axis YBa2Cu3O7 Y1Ba2Cu3O6.93 Y 1 Ba 2 Cu 3 O z 6.93 3 1994 Y123 K 92 1 92 m.ohm.cm 0.22 5.2 5 "Y2O3 crucible,untwinned crystal by picking up as-grown twin free crystal or applying uniaxial stress, oxygen content by ANN(600C,12H in quartz tube with 10g YBCO polycrystalline)" Interplace charge transport in YBa2Cu3O7-y: Spin-gap effect on in-place and out-of-plane resistivity 1994 9 "Phys.Rev.B,50 (1994) 6534" "Y,Ba,Cu,O" 10422 PR05006402 Tl:Ba:La:Cu=0.98:1.01:0.99:1.00 by EPMA "Tl(Ba,La)2CuO5" Tl1Ba1La1Cu1O5 Tl 1 Ba 1 La 1 Cu 1 O 5 1 1994 2 Tl1201 p4/mmm 123 A 3.85 9.025 K 4.2 m3/C RH10422 1 "precursor(BaCO3,La2O3,CuO)-CAL(950-980C,20-30H)-MIX(Tl2O3 and precursor, Tl:BaLaCuO=1.2:1)-SIN(890C-910C,10-15H)" Preparation and transport properties of single-phase TlBa1+xLa1-XCuO5(08 " HgBa2Ca2Cu3O8+d Hg1Ba2Ca2Cu3O8+d Hg 1 Ba 2 Ca 2 Cu 3 O 8+d 2 1995 Hg1223 K 133.5 133.5 Oe 50 280 T 1150 149 T/K 12.1 1.6 A Hao and Clem analysis using magnetization curve. 15 1.9 A Hao and Clem analysis using magnetization curve. 1700 13000 "HgO, BaO, CaO, CuO" 1 "See Physica C 222, 7 (1994).The sample is aligned in a 5T field" Equilibrium superconducting properties of grain-aligned HgBa2Ca2Cu3O8+z 1995 5 "Phys.Rev.B,51(1995)11767" "Hg, Ba, Ca, Cu, O" 11700 PR05200541 YBa2Cu3O7 Y1Ba2Cu3O6.97 Y 1 Ba 2 Cu 3 O 6.97 1 1995 Y123 K 91.3 8 91.3 A by muon-SR 1300 1 The samples used in this study were sintered disks of high quality with diameters between 10 and 25 mm. Mnoun-spin rotation studies of the temperature dependence of the magnetic penetration depth in the YBa2Cu3Ox family and related compounds 1995 7 "Phys.Rav.B,52(1995)541" "Y, Ba, Cu, O" 11701 PR05200541 YBa2Cu3O7 Y1Ba2Cu3O6.962 Y 1 Ba 2 Cu 3 O 6.962 1 1995 Y123 K 92.1 7 92.1 A by muon-SR 1350 1 The samples used in this study were sintered disks of high quality with diameters between 10 and 25 mm. Mnoun-spin rotation studies of the temperature dependence of the magnetic penetration depth in the YBa2Cu3Ox family and related compounds 1995 7 "Phys.Rav.B,52(1995)541" "Y, Ba, Cu, O" 11702 PR05200541 YBa2Cu3O7 Y1Ba2Cu3O6.955 Y 1 Ba 2 Cu 3 O 6.955 1 1995 Y123 K 91.8 7 91.8 nm A by muon-SR 1400 1 The samples used in this study were sintered disks of high quality with diameters between 10 and 25 mm. Mnoun-spin rotation studies of the temperature dependence of the magnetic penetration depth in the YBa2Cu3Ox family and related compounds 1995 7 "Phys.Rav.B,52(1995)541" "Y, Ba, Cu, O" 11703 PR05200541 YBa2Cu3O7 Y1Ba2Cu3O6.906 Y 1 Ba 2 Cu 3 O 6.906 1 1995 Y123 K 92.4 11 92.4 A by muon-SR 1600 1 The samples used in this study were sintered disks of high quality with diameters between 10 and 25 mm. Mnoun-spin rotation studies of the temperature dependence of the magnetic penetration depth in the YBa2Cu3Ox family and related compounds 1995 7 "Phys.Rav.B,52(1995)541" "Y, Ba, Cu, O" 11704 PR05200541 YBa2Cu3O7 Y1Ba2Cu3O6.828 Y 1 Ba 2 Cu 3 O 6.828 1 1995 Y123 K 88 9 88 A by muon-SR 1800 1 The samples used in this study were sintered disks of high quality with diameters between 10 and 25 mm. Mnoun-spin rotation studies of the temperature dependence of the magnetic penetration depth in the YBa2Cu3Ox family and related compounds 1995 7 "Phys.Rav.B,52(1995)541" "Y, Ba, Cu, O" 11705 PR05200541 YBa2Cu3O7 Y1Ba2Cu3O6.773 Y 1 Ba 2 Cu 3 O 6.773 1 1995 Y123 K 71.2 16 71.2 A by muon-SR 2100 1 The samples used in this study were sintered disks of high quality with diameters between 10 and 25 mm. Mnoun-spin rotation studies of the temperature dependence of the magnetic penetration depth in the YBa2Cu3Ox family and related compounds 1995 7 "Phys.Rav.B,52(1995)541" "Y, Ba, Cu, O" 11706 PR05200541 YBa2Cu3O7 Y1Ba2Cu3O6.702 Y 1 Ba 2 Cu 3 O 6.702 1 1995 Y123 K 69 13 69 A by muon-SR 2100 1 The samples used in this study were sintered disks of high quality with diameters between 10 and 25 mm. Mnoun-spin rotation studies of the temperature dependence of the magnetic penetration depth in the YBa2Cu3Ox family and related compounds 1995 7 "Phys.Rav.B,52(1995)541" "Y, Ba, Cu, O" 11707 PR05200541 YBa2Cu3O7 Y1Ba2Cu3O6.666 Y 1 Ba 2 Cu 3 O 6.666 1 1995 Y123 K 60.5 17 60.5 A by muon-SR 2250 1 The samples used in this study were sintered disks of high quality with diameters between 10 and 25 mm. Mnoun-spin rotation studies of the temperature dependence of the magnetic penetration depth in the YBa2Cu3Ox family and related compounds 1995 7 "Phys.Rav.B,52(1995)541" "Y, Ba, Cu, O" 11708 PR05200541 YBa2Cu3O7 Y1Ba2Cu3O6.602 Y 1 Ba 2 Cu 3 O 6.602 1 1995 Y123 K 59.4 17 59.4 A by muon-SR 2200 1 The samples used in this study were sintered disks of high quality with diameters between 10 and 25 mm. Mnoun-spin rotation studies of the temperature dependence of the magnetic penetration depth in the YBa2Cu3Ox family and related compounds 1995 7 "Phys.Rav.B,52(1995)541" "Y, Ba, Cu, O" 11709 PR05200541 YBa2Cu3O7 Y1Ba2Cu3O6.556 Y 1 Ba 2 Cu 3 O 6.556 1 1995 Y123 K 58.5 8 58.5 A by muon-SR 2250 1 The samples used in this study were sintered disks of high quality with diameters between 10 and 25 mm. Mnoun-spin rotation studies of the temperature dependence of the magnetic penetration depth in the YBa2Cu3Ox family and related compounds 1995 7 "Phys.Rav.B,52(1995)541" "Y, Ba, Cu, O" 11710 PR05200541 YBa2Cu3O7 Y1Ba2Cu3O6.546 Y 1 Ba 2 Cu 3 O 6.546 1 1995 Y123 K 59.4 12 59.4 A by muon-SR 2550 1 The samples used in this study were sintered disks of high quality with diameters between 10 and 25 mm. Mnoun-spin rotation studies of the temperature dependence of the magnetic penetration depth in the YBa2Cu3Ox family and related compounds 1995 7 "Phys.Rav.B,52(1995)541" "Y, Ba, Cu, O" 11711 PR05200541 YBa2Cu3O7 Y1Ba2Cu3O6.516 Y 1 Ba 2 Cu 3 O 6.516 1 1995 Y123 K 58.7 12 58.7 A by muon-SR 2500 1 The samples used in this study were sintered disks of high quality with diameters between 10 and 25 mm. Mnoun-spin rotation studies of the temperature dependence of the magnetic penetration depth in the YBa2Cu3Ox family and related compounds 1995 7 "Phys.Rav.B,52(1995)541" "Y, Ba, Cu, O" 11712 PR05200541 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1995 Y124 K 82 4 82 A by muon-SR 1600 1 The samples used in this study were sintered disks of high quality with diameters between 10 and 25 mm. Mnoun-spin rotation studies of the temperature dependence of the magnetic penetration depth in the YBa2Cu3Ox family and related compounds 1995 7 "Phys.Rav.B,52(1995)541" "Y, Ba, Cu, O" 11713 PR05200541 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+d Bi 2 Sr 2 Ca 1 Cu 2 O 8+d 1 1995 Bi2212 K 83.5 18 83.5 A by muon-SR 2050 1 The samples used in this study were sintered disks of high quality with diameters between 10 and 25 mm. Mnoun-spin rotation studies of the temperature dependence of the magnetic penetration depth in the YBa2Cu3Ox family and related compounds 1995 7 "Phys.Rav.B,52(1995)541" "Y, Ba, Cu, O" 11714 PR05200727 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+d Bi 2 Sr 2 Ca 1 Cu 2 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11715 PR05200727 "Bi2Sr2Ca(Cu,Co)2O8" Bi2Sr2Ca1Cu1.99Co0.01O8+d Bi 2 Sr 2 Ca 1 Cu 1.99 Co 0.01 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11716 PR05200727 "Bi2Sr2Ca(Cu,Co)2O8" Bi2Sr2Ca1Cu1.98Co0.02O8+d Bi 2 Sr 2 Ca 1 Cu 1.98 Co 0.02 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11717 PR05200727 "Bi2Sr2Ca(Cu,Co)2O8" Bi2Sr2Ca1Cu1.96Co0.04O8+d Bi 2 Sr 2 Ca 1 Cu 1.96 Co 0.04 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11718 PR05200727 "Bi2Sr2Ca(Cu,Co)2O8" Bi2Sr2Ca1Cu1.92Co0.08O8+d Bi 2 Sr 2 Ca 1 Cu 1.92 Co 0.08 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11719 PR05200727 "Bi2Sr2Ca(Cu,Co)2O8" Bi2Sr2Ca1Cu1.88Co0.12O8+d Bi 2 Sr 2 Ca 1 Cu 1.88 Co 0.12 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11720 PR05200727 "Bi2Sr2Ca(Cu,Co)2O8" Bi2Sr2Ca1Cu1.84Co0.16O8+d Bi 2 Sr 2 Ca 1 Cu 1.84 Co 0.16 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11721 PR05200727 "Bi2Sr2Ca(Cu,Co)2O8" Bi2Sr2Ca1Cu1.8Co0.2O8+d Bi 2 Sr 2 Ca 1 Cu 1.8 Co 0.2 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11722 PR05200727 "Bi2Sr2Ca(Cu,Fe)2O8" Bi2Sr2Ca1Cu1.98Fe0.02O8+d Bi 2 Sr 2 Ca 1 Cu 1.98 Fe 0.02 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11723 PR05200727 "Bi2Sr2Ca(Cu,Fe)2O8" Bi2Sr2Ca1Cu1.96Fe0.04O8+d Bi 2 Sr 2 Ca 1 Cu 1.96 Fe 0.04 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11724 PR05200727 "Bi2Sr2Ca(Cu,Fe)2O8" Bi2Sr2Ca1Cu1.92Fe0.08O8+d Bi 2 Sr 2 Ca 1 Cu 1.92 Fe 0.08 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11725 PR05200727 "Bi2Sr2Ca(Cu,Fe)2O8" Bi2Sr2Ca1Cu1.88Fe0.12O8+d Bi 2 Sr 2 Ca 1 Cu 1.88 Fe 0.12 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11726 PR05200727 "Bi2Sr2Ca(Cu,Fe)2O8" Bi2Sr2Ca1Cu1.84Fe0.16O8+d Bi 2 Sr 2 Ca 1 Cu 1.84 Fe 0.16 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11727 PR05200727 "Bi2Sr2Ca(Cu,Fe)2O8" Bi2Sr2Ca1Cu1.8Fe0.2O8+d Bi 2 Sr 2 Ca 1 Cu 1.8 Fe 0.2 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11728 PR05200727 "Bi2Sr2Ca(Cu,Ni)2O8" Bi2Sr2Ca1Cu1.99Ni0.01O8+d Bi 2 Sr 2 Ca 1 Cu 1.99 Ni 0.01 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11729 PR05200727 "Bi2Sr2Ca(Cu,Ni)2O8" Bi2Sr2Ca1Cu1.98Ni0.02O8+d Bi 2 Sr 2 Ca 1 Cu 1.98 Ni 0.02 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11730 PR05200727 "Bi2Sr2Ca(Cu,Ni)2O8" Bi2Sr2Ca1Cu1.97Ni0.03O8+d Bi 2 Sr 2 Ca 1 Cu 1.97 Ni 0.03 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11731 PR05200727 "Bi2Sr2Ca(Cu,Ni)2O8" Bi2Sr2Ca1Cu1.96Ni0.04O8+d Bi 2 Sr 2 Ca 1 Cu 1.96 Ni 0.04 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11732 PR05200727 "Bi2Sr2Ca(Cu,Ni)2O8" Bi2Sr2Ca1Cu1.92Ni0.08O8+d Bi 2 Sr 2 Ca 1 Cu 1.92 Ni 0.08 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11733 PR05200727 "Bi2Sr2Ca(Cu,Zn)2O8" Bi2Sr2Ca1Cu1.99Zn0.01O8+d Bi 2 Sr 2 Ca 1 Cu 1.99 Zn 0.01 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11734 PR05200727 "Bi2Sr2Ca(Cu,Zn)2O8" Bi2Sr2Ca1Cu1.98Zn0.02O8+d Bi 2 Sr 2 Ca 1 Cu 1.98 Zn 0.02 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11735 PR05200727 "Bi2Sr2Ca(Cu,Zn)2O8" Bi2Sr2Ca1Cu1.97Zn0.03O8+d Bi 2 Sr 2 Ca 1 Cu 1.97 Zn 0.03 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11736 PR05200727 "Bi2Sr2Ca(Cu,Zn)2O8" Bi2Sr2Ca1Cu1.96Zn0.04O8+d Bi 2 Sr 2 Ca 1 Cu 1.96 Zn 0.04 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11737 PR05200727 "Bi2Sr2Ca(Cu,Zn)2O8" Bi2Sr2Ca1Cu1.92Zn0.08O8+d Bi 2 Sr 2 Ca 1 Cu 1.92 Zn 0.08 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11738 PR05200727 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.7Y0.3Cu2O8+d Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 2 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11739 PR05200727 "Bi2Sr2(Ca,Y)(Cu,Co)2O8" Bi2Sr2Ca0.7Y0.3Cu1.99Co0.01O8+d Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 1.99 Co 0.01 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11740 PR05200727 "Bi2Sr2(Ca,Y)(Cu,Co)2O8" Bi2Sr2Ca0.7Y0.3Cu1.98Co0.02O8+d Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 1.98 Co 0.02 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11741 PR05200727 "Bi2Sr2(Ca,Y)(Cu,Co)2O8" Bi2Sr2Ca0.7Y0.3Cu1.96Co0.04O8+d Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 1.96 Co 0.04 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11742 PR05200727 "Bi2Sr2(Ca,Y)(Cu,Co)2O8" Bi2Sr2Ca0.7Y0.3Cu1.92Co0.08O8+d Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 1.92 Co 0.08 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11743 PR05200727 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.7Y0.3Cu1.99Zn0.01O8+d Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 1.99 Zn 0.01 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11744 PR05200727 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.7Y0.3Cu1.98Zn0.02O8+d Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 1.98 Zn 0.02 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11745 PR05200727 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.7Y0.3Cu1.96Zn0.04O8+d Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 1.96 Zn 0.04 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11746 PR05200727 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.7Y0.3Cu1.88Zn0.12O8+d Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 1.88 Zn 0.12 O 8+d 1 1995 Bi2212 K 1 "Bi:Sr:[Ca,Y]:[Cu,Mo] = 2:2:1:2The value of d was changed by ANN(O2 or N2 gas,350-600C,24h)" Clear distinction between the underdoped and overdoped regime in the Tc suppression of Cu-site-substituted high-Tc cuprates 1995 7 "Department of Applied Physics,Faculty of Engineering,Tohoku University,Aramaki Aova-ku,Sendai 980,Japan" "Phys.Rev.B,52(1995)R727" 11747 PR05201362 "(Lu,Ce,Ca)Ba2Cu3O7" Lu0.9Ce0.05Ca0.05Ba2Cu3O7-d Lu 0.9 Ce 0.05 Ca 0.05 Ba 2 Cu 3 O 7-d 4 1995 Y123 K 81 81 "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11748 PR05201362 "(Lu,Ce,Ca)Ba2Cu3O7" Lu0.8Ce0.1Ca0.1Ba2Cu3O7-d Lu 0.8 Ce 0.1 Ca 0.1 Ba 2 Cu 3 O 7-d 4 1995 Y123 K 74 74 "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11749 PR05201362 "(Lu,Ce,Ca)Ba2Cu3O7" Lu0.8Ce0.15Ca0.05Ba2Cu3O7-d Lu 0.8 Ce 0.15 Ca 0.05 Ba 2 Cu 3 O 7-d 4 1995 Y123 K 63 63 "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11750 PR05201362 "(Lu,Ce,Ca)Ba2Cu3O7" Lu0.75Ce0.15Ca0.1Ba2Cu3O7-d Lu 0.75 Ce 0.15 Ca 0.1 Ba 2 Cu 3 O 7-d 4 1995 Y123 K 69 69 "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11751 PR05201362 "(Lu,Ce,Ca)Ba2Cu3O7" Lu0.7Ce0.15Ca0.15Ba2Cu3O7-d Lu 0.7 Ce 0.15 Ca 0.15 Ba 2 Cu 3 O 7-d 4 1995 Y123 K 58 58 "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11752 PR05201362 LuBa2Cu3O7 Lu1Ba2Cu3O7-d Lu 1 Ba 2 Cu 3 O 7-d 4 1995 Y123 K 88 88 "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11753 PR05201362 "(Lu,Pr)Ba2Cu3O7" Lu0.93Pr0.07Ba2Cu3O7-d Lu 0.93 Pr 0.07 Ba 2 Cu 3 O 7-d 4 1995 Y123 K 85 85 "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11754 PR05201362 "(Lu,Pr,Ca)Ba2Cu3O7" Lu0.9Pr0.05Ca0.05Ba2Cu3O7-d Lu 0.9 Pr 0.05 Ca 0.05 Ba 2 Cu 3 O 7-d 4 1995 Y123 K 82 82 "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11755 PR05201362 "(Lu,Pr)Ba2Cu3O7" Lu0.9Pr0.1Ba2Cu3O7-d Lu 0.9 Pr 0.1 Ba 2 Cu 3 O 7-d 4 1995 Y123 K 83 83 "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11756 PR05201362 "(Lu,Pr,Ca)Ba2Cu3O7" Lu0.8Pr0.1Ca0.1Ba2Cu3O7-d Lu 0.8 Pr 0.1 Ca 0.1 Ba 2 Cu 3 O 7-d 4 1995 Y123 K 78 78 "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11757 PR05201362 "(Lu,Pr)Ba2Cu3O7" Lu0.8Pr0.2Ba2Cu3O7-d Lu 0.8 Pr 0.2 Ba 2 Cu 3 O 7-d 4 1995 Y123 K 79 79 "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11758 PR05201362 "(Lu,Pr,Ca)Ba2Cu3O7" Lu0.7Pr0.2Ca0.1Ba2Cu3O7-d Lu 0.7 Pr 0.2 Ca 0.1 Ba 2 Cu 3 O 7-d 4 1995 Y123 K 76 76 "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11759 PR05201362 "(Lu,Pr)Ba2Cu3O7" Lu0.7Pr0.3Ba2Cu3O7-d Lu 0.7 Pr 0.3 Ba 2 Cu 3 O 7-d 4 1995 Y123 K 70 70 "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11760 PR05201362 "(Lu,Pr,Ca)Ba2Cu3O7" Lu0.6Pr0.3Ca0.1Ba2Cu3O7-d Lu 0.6 Pr 0.3 Ca 0.1 Ba 2 Cu 3 O 7-d 4 1995 Y123 K 74 74 "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11761 PR05201362 "(Lu,Pr)Ba2Cu3O7" Lu0.6Pr0.4Ba2Cu3O7 Lu 0.6 Pr 0.4 Ba 2 Cu 3 O 7 4 1995 Y123 K 54 54 "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11762 PR05201362 "(Lu,Pr,Ca)Ba2Cu3O7" Lu0.5Pr0.4Ca0.1Ba2Cu3O7-d Lu 0.5 Pr 0.4 Ca 0.1 Ba 2 Cu 3 O 7-d 4 1995 Y123 K 57 57 "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11763 PR05201362 "(Lu,Pr)Ba2Cu3O7" Lu0.5Pr0.5Ba2Cu3O7-d Lu 0.5 Pr 0.5 Ba 2 Cu 3 O 7-d 4 1995 Y123 K 37 37 "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11764 PR05201362 "(Lu,Pr)Ba2Cu3O7" Lu0.55Pr0.45Ba2Cu3O7-d Lu 0.55 Pr 0.45 Ba 2 Cu 3 O 7-d 4 1995 Y123 K 24 24 "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11765 PR05201362 "(Lu,Tb)Ba2Cu3O7" Lu0.9Tb0.1Ba2Cu3O7-d Lu 0.9 Tb 0.1 Ba 2 Cu 3 O 7-d 4 1995 Y123 K "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11766 PR05201362 "(Lu,Tb)Ba2Cu3O7" Lu0.8Tb0.2Ba2Cu3O7-d Lu 0.8 Tb 0.2 Ba 2 Cu 3 O 7-d 4 1995 Y123 K "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11767 PR05201362 "(Lu,Tb)Ba2Cu3O7" Lu0.7Tb0.3Ba2Cu3O7-d Lu 0.7 Tb 0.3 Ba 2 Cu 3 O 7-d 4 1995 Y123 K "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11768 PR05201362 "(Lu,Tb)Ba2Cu3O7" Lu0.5Tb0.5Ba2Cu3O7-d Lu 0.5 Tb 0.5 Ba 2 Cu 3 O 7-d 4 1995 Y123 K 3000000 "pulsed laser ablation technique.In detail, see Phys. Rev. B 46 14242 (1992)" "Structural stability of LuBa2Cu3O7-z and superconductivity in thin films of Lu1-xMxBa2Cu3O7-z(M=Pr, Tb, and Ce)" 1995 7 "Phys.Rev.B,52(1995)1362" "Lu, Ba, Cu, O, Pr, Tb, Ce" 11769 PR05201389 Sr2PrNbCu2O8 Sr2Pr1Nb1Cu2O8-d Sr 2 Pr 1 Nb 1 Cu 2 O 8-d 1 1995 emu/mol 0.00087 myu-B/mol 3.02 -12.8 2.3 2112 nm 0.551 2.336 4 K "Nb2O5,Ta2O5,Pr6O11,Nd2O3,Sm2O3,Eu2O3" "continuition from RAWMAT : Gd2O3,SrCO3,CuO.CAL(air,900) - pelletized - ANNANN(air,1000C,18h)" "Synthesis and characterization of compounds Sr2RMCu2O8-z (R=Pr, Nd, Sm, Eu, Gd; M =Nb, Ta)" 1995 7 "Phys.Rev.B,52(1995)1389" "Sr, Pr, Nd, Sm, Em, Eu, GD, Nb, Ta, Cu, O" 11770 PR05201389 Sr2NdNbCu2O8 Sr2Nd1Nb1Cu2O8-d Sr 2 Nd 1 Nb 1 Cu 2 O 8-d 1 1995 emu/mol 0.00202 myu-B/mol 3.1 -13 2112 nm 0.55 2.336 4 K "Nb2O5,Ta2O5,Pr6O11,Nd2O3,Sm2O3,Eu2O3" "continuition from RAWMAT : Gd2O3,SrCO3,CuO.CAL(air,900) - pelletized - ANNANN(air,1000C,18h)" "Synthesis and characterization of compounds Sr2RMCu2O8-z (R=Pr, Nd, Sm, Eu, Gd; M =Nb, Ta)" 1995 7 "Phys.Rev.B,52(1995)1389" "Sr, Pr, Nd, Sm, Em, Eu, GD, Nb, Ta, Cu, O" 11771 PR05201389 Sr2SmNbCu2O8 Sr2Sm1Nb1Cu2O8-d Sr 2 Sm 1 Nb 1 Cu 2 O 8-d 1 1995 emu/mol 0.00113 myu-B/mol 0.68 -5.8 2112 nm 0.548 2.327 4 K "Nb2O5,Ta2O5,Pr6O11,Nd2O3,Sm2O3,Eu2O3" "continuition from RAWMAT : Gd2O3,SrCO3,CuO.CAL(air,900) - pelletized - ANNANN(air,1000C,18h)" "Synthesis and characterization of compounds Sr2RMCu2O8-z (R=Pr, Nd, Sm, Eu, Gd; M =Nb, Ta)" 1995 7 "Phys.Rev.B,52(1995)1389" "Sr, Pr, Nd, Sm, Em, Eu, GD, Nb, Ta, Cu, O" 11772 PR05201389 Sr2EuNbCu2O8 Sr2Eu1Nb1Cu2O8-d Sr 2 Eu 1 Nb 1 Cu 2 O 8-d 1 1995 emu/mol 0.00099 myu-B/mol 0.44 -5.8 2112 nm 0.547 2.326 4 K "Nb2O5,Ta2O5,Pr6O11,Nd2O3,Sm2O3,Eu2O3" "continuition from RAWMAT : Gd2O3,SrCO3,CuO.CAL(air,900) - pelletized - ANNANN(air,1000C,18h)" "Synthesis and characterization of compounds Sr2RMCu2O8-z (R=Pr, Nd, Sm, Eu, Gd; M =Nb, Ta)" 1995 7 "Phys.Rev.B,52(1995)1389" "Sr, Pr, Nd, Sm, Em, Eu, GD, Nb, Ta, Cu, O" 11773 PR05201389 Sr2GdNbCu2O8 Sr2Gd1Nb1Cu2O8-d Sr 2 Gd 1 Nb 1 Cu 2 O 8-d 1 1995 emu/mol 0.0001 myu-B/mol 7.97 -3.6 2.18 2112 nm 0.55 2.345 4 K "Nb2O5,Ta2O5,Pr6O11,Nd2O3,Sm2O3,Eu2O3" "continuition from RAWMAT : Gd2O3,SrCO3,CuO.CAL(air,900) - pelletized - ANNANN(air,1000C,18h)" "Synthesis and characterization of compounds Sr2RMCu2O8-z (R=Pr, Nd, Sm, Eu, Gd; M =Nb, Ta)" 1995 7 "Phys.Rev.B,52(1995)1389" "Sr, Pr, Nd, Sm, Em, Eu, GD, Nb, Ta, Cu, O" 11774 PR05201389 Sr2PrTaCu2O8 Sr2Pr1Ta1Cu2O8-d Sr 2 Pr 1 Ta 1 Cu 2 O 8-d 1 1995 emu/mol 0.00091 myu-B/mol 2.89 -12 2.2 2112 nm 0.549 2.342 4 K "Nb2O5,Ta2O5,Pr6O11,Nd2O3,Sm2O3,Eu2O3" "continuition from RAWMAT : Gd2O3,SrCO3,CuO.CAL(air,900) - pelletized - ANNANN(air,1000C,18h)" "Synthesis and characterization of compounds Sr2RMCu2O8-z (R=Pr, Nd, Sm, Eu, Gd; M =Nb, Ta)" 1995 7 "Phys.Rev.B,52(1995)1389" "Sr, Pr, Nd, Sm, Em, Eu, GD, Nb, Ta, Cu, O" 11775 PR05201389 Sr2NdTaCu2O8 Sr2Nd1Ta1Cu2O8-d Sr 2 Nd 1 Ta 1 Cu 2 O 8-d 1 1995 emu/mol 0.00161 myu-B/mol 2.87 -14 2112 nm 0.548 2.337 4 K "Nb2O5,Ta2O5,Pr6O11,Nd2O3,Sm2O3,Eu2O3" "continuition from RAWMAT : Gd2O3,SrCO3,CuO.CAL(air,900) - pelletized - ANNANN(air,1000C,18h)" "Synthesis and characterization of compounds Sr2RMCu2O8-z (R=Pr, Nd, Sm, Eu, Gd; M =Nb, Ta)" 1995 7 "Phys.Rev.B,52(1995)1389" "Sr, Pr, Nd, Sm, Em, Eu, GD, Nb, Ta, Cu, O" 11776 PR05201389 Sr2SmTaCu2O8 Sr2Sm1Ta1Cu2O8-d Sr 2 Sm 1 Ta 1 Cu 2 O 8-d 1 1995 emu/mol 0.00122 myu-B/mol 0.66 -5 2112 nm 0.547 2.333 4 K "Nb2O5,Ta2O5,Pr6O11,Nd2O3,Sm2O3,Eu2O3" "continuition from RAWMAT : Gd2O3,SrCO3,CuO.CAL(air,900) - pelletized - ANNANN(air,1000C,18h)" "Synthesis and characterization of compounds Sr2RMCu2O8-z (R=Pr, Nd, Sm, Eu, Gd; M =Nb, Ta)" 1995 7 "Phys.Rev.B,52(1995)1389" "Sr, Pr, Nd, Sm, Em, Eu, GD, Nb, Ta, Cu, O" 11777 PR05201389 Sr2EuTaCu2O8 Sr2Eu1Ta1Cu2O8-d Sr 2 Eu 1 Ta 1 Cu 2 O 8-d 1 1995 emu/mol 0.00103 myu-B/mol 0.43 -7 2112 nm 0.457 2.332 4 K "Nb2O5,Ta2O5,Pr6O11,Nd2O3,Sm2O3,Eu2O3" "continuition from RAWMAT : Gd2O3,SrCO3,CuO.CAL(air,900) - pelletized - ANNANN(air,1000C,18h)" "Synthesis and characterization of compounds Sr2RMCu2O8-z (R=Pr, Nd, Sm, Eu, Gd; M =Nb, Ta)" 1995 7 "Phys.Rev.B,52(1995)1389" "Sr, Pr, Nd, Sm, Em, Eu, GD, Nb, Ta, Cu, O" 11778 PR05201389 Sr2GdTaCu2O8 Sr2Gd1Ta1Cu2O8-d Sr 2 Gd 1 Ta 1 Cu 2 O 8-d 1 1995 emu/mol 0.0001 myu-B/mol 8.03 -2.8 2.18 2112 K "Nb2O5,Ta2O5,Pr6O11,Nd2O3,Sm2O3,Eu2O3" "continuition from RAWMAT : Gd2O3,SrCO3,CuO.CAL(air,900) - pelletized - ANNANN(air,1000C,18h)" "Synthesis and characterization of compounds Sr2RMCu2O8-z (R=Pr, Nd, Sm, Eu, Gd; M =Nb, Ta)" 1995 7 "Phys.Rev.B,52(1995)1389" "Sr, Pr, Nd, Sm, Em, Eu, GD, Nb, Ta, Cu, O" 11779 PR05200570 dTc/dP(ab) is writted in SUPERCONDUCTIVITY section.dTc/dP(c) is -6.6 K/GPa "(La,Sr)2CuO4" La1.91Sr0.09Cu1O4 La 1.91 Sr 0.09 Cu 1 O 4 3 1995 T K 25.8 K/GPa 3.2 mJ/mole.K 134 See Nature 337.21 (1989) Unconventional lattice stiffening in superconducting La2-xSrxCuO4 single crystals 1995 7 "Phys.Rev.B,52(1995)570" "La, Sr, Cu, O" 11780 PR05200570 dTc/dP(ab) is writted in SUPERCONDUCTIVITY section.dTc/dP(c) is -6.5 K/GPa "(La,Sr)2CuO4" La1.86Sr0.14Cu1O4 La 1.86 Sr 0.14 Cu 1 O 4 3 1995 T K 35 K/GPa 3.8 mJ/mole.K 336 See Nature 337.21 (1989) Unconventional lattice stiffening in superconducting La2-xSrxCuO4 single crystals 1995 7 "Phys.Rev.B,52(1995)570" "La, Sr, Cu, O" 11781 PR05200570 dTc/dP(ab) is writted in SUPERCONDUCTIVITY section.dTc/dP(c) is -5.4 K/GPa "(La,Sr)2CuO4" La1.81Sr0.19Cu1O4 La 1.81 Sr 0.19 Cu 1 O 4 3 1995 T K 38.7 K/GPa 2.9 mJ/mole.K 293 See Nature 337.21 (1989) Unconventional lattice stiffening in superconducting La2-xSrxCuO4 single crystals 1995 7 "Phys.Rev.B,52(1995)570" "La, Sr, Cu, O" 11782 PR05201347 "(La,Ca)2NiO4" La1.67Ca0.33Ni1O4 La 1.67 Ca 0.33 Ni 1 O 4 1 1995 T A 3.818 12.58 3 K 1 "see P.R.B 49,7088 (1994)" "Structural aspects of pressure-dependent hole ordering in La1.67M0.33Nio4 ( M=Ca, Sr, or, Ba)" 1995 7 "Phys.Rev.B,52(1995)1347" "La, Ca, Sr, Ba, Ni, O" 11783 PR05201347 "(La,Sr)2NiO4" La1.67Sr0.33Ni1O4 La 1.67 Sr 0.33 Ni 1 O 4 1 1995 T A K 1 "see P.R.B 49,7088 (1994)" "Structural aspects of pressure-dependent hole ordering in La1.67M0.33Nio4 ( M=Ca, Sr, or, Ba)" 1995 7 "Phys.Rev.B,52(1995)1347" "La, Ca, Sr, Ba, Ni, O" 11784 PR05201347 "(La,Ba)2NiO4" La1.67Ba0.33Ni1O4 La 1.67 Ba 0.33 Ni 1 O 4 1 1995 T A 3.847 12.81 3 K 1 "see P.R.B 49,7088 (1994)" "Structural aspects of pressure-dependent hole ordering in La1.67M0.33Nio4 ( M=Ca, Sr, or, Ba)" 1995 7 "Phys.Rev.B,52(1995)1347" "La, Ca, Sr, Ba, Ni, O" 11785 PR05201320 "ErBa2(Cu,Fe)3O7" Er1Ba2Cu2.985Fe0.015O7-d Er 1 Ba 2 Cu 2.985 Fe 0.015 O 7-d 1 1995 5 Y123 K 88.5 88.7 88.7 1 "CAL(910C,24h) - SIN(935C,24h,flow O2) - SIN(600C,8h)- COOL(R.T.)" Low-field ac-susceptibility study of flux creep in metal-substituted ErBa2Cu3O7-z 1995 7 "Peys.Rev.B,52(1995)1320" "Er, Ba, Cu, O" 11786 PR05201320 "ErBa2(Cu,Co)3O7" Er1Ba2Cu2.985Co0.015O7-d Er 1 Ba 2 Cu 2.985 Co 0.015 O 7-d 1 1995 4.6 Y123 K 89.1 89 89 1 "CAL(910C,24h) - SIN(935C,24h,flow O2) - SIN(600C,8h)- COOL(R.T.)" Low-field ac-susceptibility study of flux creep in metal-substituted ErBa2Cu3O7-z 1995 7 "Peys.Rev.B,52(1995)1320" "Er, Ba, Cu, O" 11787 PR05201320 "ErBa2(Cu,Ni)3O7" Er1Ba2Cu2.985Ni0.015O7-d Er 1 Ba 2 Cu 2.985 Ni 0.015 O 7-d 1 1995 4.9 Y123 K 89.9 89.8 89.8 1 "CAL(910C,24h) - SIN(935C,24h,flow O2) - SIN(600C,8h)- COOL(R.T.)" Low-field ac-susceptibility study of flux creep in metal-substituted ErBa2Cu3O7-z 1995 7 "Peys.Rev.B,52(1995)1320" "Er, Ba, Cu, O" 11788 PR05201320 "ErBa2(Cu,Ga)3O7" Er1Ba2Cu2.985Ga0.015O7-d Er 1 Ba 2 Cu 2.985 Ga 0.015 O 7-d 1 1995 5 Y123 K 89.8 89.5 89.5 1 "CAL(910C,24h) - SIN(935C,24h,flow O2) - SIN(600C,8h)- COOL(R.T.)" Low-field ac-susceptibility study of flux creep in metal-substituted ErBa2Cu3O7-z 1995 7 "Peys.Rev.B,52(1995)1320" "Er, Ba, Cu, O" 11789 PR05201320 ErBa2Cu3O7 Er1Ba2Cu3O7-d Er 1 Ba 2 Cu 3 O 7-d 1 1995 4.6 Y123 K 92.8 92.5 92.5 1 "CAL(910C,24h) - SIN(935C,24h,flow O2) - SIN(600C,8h)- COOL(R.T.)" Low-field ac-susceptibility study of flux creep in metal-substituted ErBa2Cu3O7-z 1995 7 "Peys.Rev.B,52(1995)1320" "Er, Ba, Cu, O" 11790 PR05200071 "(Y,Tb)Ba2Cu3O7" Y0.9Tb0.1Ba2Cu3O7 Y 0.9 Tb 0.1 Ba 2 Cu 3 O 7 3 1995 Y123 K 91 1.2 91 5 "In detail, see Ph.D Thesis, Department of Physics, Temple Univ., 1992Annealing process : ANN(450C, high-pressure O2)" Evidence of unusual hybridization: Electrical resistivity and specific heat of Y1-xTbxBa2Cu3O7 single crystals 1995 7 "National High Magnetic Field Laboratory, Florida State University, Tallahassee, Florida 32306-4005" "Phys.Rev.B,52(1995)71" 11791 PR05200071 "(Y,Tb)Ba2Cu3O7" Y0.68Tb0.32Ba2Cu3O7 Y 0.68 Tb 0.32 Ba 2 Cu 3 O 7 3 1995 Y123 K 91 1.2 91 5 "In detail, see Ph.D Thesis, Department of Physics, Temple Univ., 1992Annealing process : ANN(450C, high-pressure O2)" Evidence of unusual hybridization: Electrical resistivity and specific heat of Y1-xTbxBa2Cu3O7 single crystals 1995 7 "National High Magnetic Field Laboratory, Florida State University, Tallahassee, Florida 32306-4005" "Phys.Rev.B,52(1995)71" 11792 PR05200462 As-prepared HgBa2CuO4 Hg1Ba2Cu1O4.18 Hg 1 Ba 2 Cu 1 O 4.18 1 1995 Hg1201 A 3.881 9.528 3 K 95 95 1 "see Meng et al. Physica C 216,21 (1993)About annealing condition, see material comments." Oxygen dependens of the crystal structure of HgBa2CuO4+z and its relation tosuperconductivity 1995 7 "Phys.Rev.B,52(1995)462" "Hg, Ba, Cu, O" 11793 PR05200462 ANN(vacuum) HgBa2CuO4 Hg1Ba2Cu1O4.08 Hg 1 Ba 2 Cu 1 O 4.08 1 1995 Hg1201 A 3.893 9.528 3 K 53 53 1 "see Meng et al. Physica C 216,21 (1993)About annealing condition, see material comments." Oxygen dependens of the crystal structure of HgBa2CuO4+z and its relation tosuperconductivity 1995 7 "Phys.Rev.B,52(1995)462" "Hg, Ba, Cu, O" 11794 PR05200462 Reannealing a previous material(No.11793) in Oxygen. HgBa2CuO4 Hg1Ba2Cu1O4.18 Hg 1 Ba 2 Cu 1 O 4.18 1 1995 Hg1201 A 3.881 9.528 3 K 94 94 1 "see Meng et al. Physica C 216,21 (1993)About annealing condition, see material comments." Oxygen dependens of the crystal structure of HgBa2CuO4+z and its relation tosuperconductivity 1995 7 "Phys.Rev.B,52(1995)462" "Hg, Ba, Cu, O" 11795 PR05200462 Reannealing a previous material(No.11794) in vaccum. HgBa2CuO4 Hg1Ba2Cu1O4.04 Hg 1 Ba 2 Cu 1 O 4.04 1 1995 Hg1201 A 3.896 9.533 3 K 1 "see Meng et al. Physica C 216,21 (1993)About annealing condition, see material comments." Oxygen dependens of the crystal structure of HgBa2CuO4+z and its relation tosuperconductivity 1995 7 "Phys.Rev.B,52(1995)462" "Hg, Ba, Cu, O" 11796 PR05200462 Reannealing a previous material(No.11795) in high pressure Oxygen. HgBa2CuO4 Hg1Ba2Cu1O4.23 Hg 1 Ba 2 Cu 1 O 4.23 1 1995 Hg1201 A 3.876 9.517 3 K 30 30 1 "see Meng et al. Physica C 216,21 (1993)About annealing condition, see material comments." Oxygen dependens of the crystal structure of HgBa2CuO4+z and its relation tosuperconductivity 1995 7 "Phys.Rev.B,52(1995)462" "Hg, Ba, Cu, O" 11797 PR05200462 As prepared in high pressure oxygen. HgBa2CuO4 Hg1Ba2Cu1O4.21 Hg 1 Ba 2 Cu 1 O 4.21 1 1995 Hg1201 A 3.877 9.522 3 K 80 80 1 "see Meng et al. Physica C 216,21 (1993)About annealing condition, see material comments." Oxygen dependens of the crystal structure of HgBa2CuO4+z and its relation tosuperconductivity 1995 7 "Phys.Rev.B,52(1995)462" "Hg, Ba, Cu, O" 11800 PR05207030 DyBa2Cu3O7 Dy1Ba2Cu3O7-d Dy 1 Ba 2 Cu 3 O 7-d 1 1995 Y123 K 76.3 76.3 THC11800 1 "SIN(several times, air, 900C)-press-SIN(3 times, 12h,20% argon, total pressure 3kbar, 1050C)" Evidence for the shift of the transition temperature in RBa2Cu4O8 by thermal-coductivity measurements 1995 9 "Phys.Rev.B,52(1995)R7030" "Dy, Gd, Eu, Ba, Cu,O" 11801 PR05207030 GdBa2Cu3O7 Gd1Ba2Cu3O7-d Gd 1 Ba 2 Cu 3 O 7-d 1 1995 Y123 K 73.1 73.1 THC11801 1 "SIN(several times, air, 900C)-press-SIN(3 times, 12h,20% argon, total pressure 3kbar, 1050C)" Evidence for the shift of the transition temperature in RBa2Cu4O8 by thermal-coductivity measurements 1995 9 "Phys.Rev.B,52(1995)R7030" "Dy, Gd, Eu, Ba, Cu,O" 11802 PR05207030 EuBa2Cu3O7 Eu1Ba2Cu3O7-d Eu 1 Ba 2 Cu 3 O 7-d 1 1995 Y123 K 68 68 THC11802 1 "SIN(several times, air, 900C)-press-SIN(3 times, 12h,20% argon, total pressure 3kbar, 1050C)" Evidence for the shift of the transition temperature in RBa2Cu4O8 by thermal-coductivity measurements 1995 9 "Phys.Rev.B,52(1995)R7030" "Dy, Gd, Eu, Ba, Cu,O" 11803 PR05206840 "86%O(18), deltaTc=1.5K" "(La,Sr)2CuO4" La1.895Sr0.105Cu1O4 La 1.895 Sr 0.105 Cu 1 O 4 1 1995 T K 26.3 26.3 0.5 O 86 1.5 15.5 "La2O3,SrCO3,CuO" 1 "MIX-Press(Pellet)-SIN(air,1000C,70h with 3 intermediate grindings)-ANN(air,900C,12h)Half pellets were subjected to 16O and 18O isotope diffusion.Diffusion(40h,900C,18O2 gas)" Oxygen isotope effect mass of caarriers from magnetik measurements on La2-xSrxCuO4 1995 9 "Phys.Rev.B,52(1995)6840" "La, Sr, Cu, O" 11804 PR05206840 "90%O(18), deltaTc=1.6K" "(La,Sr)2CuO4" La1.89Sr0.11Cu1O4 La 1.89 Sr 0.11 Cu 1 O 4 1 1995 T K 24.5 24.5 0.54 O 90 1.6 14 "La2O3,SrCO3,CuO" 1 "MIX-Press(Pellet)-SIN(air,1000C,70h with 3 intermediate grindings)-ANN(air,900C,12h)Half pellets were subjected to 16O and 18O isotope diffusion.Diffusion(40h,900C,18O2 gas)" Oxygen isotope effect mass of caarriers from magnetik measurements on La2-xSrxCuO4 1995 9 "Phys.Rev.B,52(1995)6840" "La, Sr, Cu, O" 11805 PR05206840 "85%O(18), deltaTc=2.6K" "(La,Sr)2CuO4" La1.885Sr0.115Cu1O4 La 1.885 Sr 0.115 Cu 1 O 4 1 1995 T K 24.7 24.7 0.9 O 85 2.6 12.1 "La2O3,SrCO3,CuO" 1 "MIX-Press(Pellet)-SIN(air,1000C,70h with 3 intermediate grindings)-ANN(air,900C,12h)Half pellets were subjected to 16O and 18O isotope diffusion.Diffusion(40h,900C,18O2 gas)" Oxygen isotope effect mass of caarriers from magnetik measurements on La2-xSrxCuO4 1995 9 "Phys.Rev.B,52(1995)6840" "La, Sr, Cu, O" 11806 PR05207656 "(Nd,Ce)2CuO4" Nd1.86Ce0.14Cu1O4-y Nd 1.86 Ce 0.14 Cu 1 O 4-y 1 1995 emu/mol Nd 0.000479 emu.K/mol 1.49 myu-B/Nd 3.46 -41.2 T' K 1 "High temperature solid state reaction (see Physica C 167,53 (1990))ANN(as-prepared samples, 850C, 6h, 10e-5 mbar)" "Magnetic susceptibility, specific heat, and crystal-field effects in neodymium cuprate superconductors" 1995 9 "Phys.Rev.B,52(1995)7656" 11807 PR05207656 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-y Nd 1.85 Ce 0.15 Cu 1 O 4-y 1 1995 emu/mol Nd 0.000482 emu.K/mol 1.48 myu-B/Nd 3.44 -43 T' K 1 "High temperature solid state reaction (see Physica C 167,53 (1990))ANN(as-prepared samples, 850C, 6h, 10e-5 mbar)" "Magnetic susceptibility, specific heat, and crystal-field effects in neodymium cuprate superconductors" 1995 9 "Phys.Rev.B,52(1995)7656" 11808 PR05207656 "(Nd,Ce)2CuO4" Nd1.84Ce0.16Cu1O4-y Nd 1.84 Ce 0.16 Cu 1 O 4-y 1 1995 emu/mol Nd 0.000432 emu.K/mol 1.29 myu-B/Nd 3.21 -38 T' K 1 "High temperature solid state reaction (see Physica C 167,53 (1990))ANN(as-prepared samples, 850C, 6h, 10e-5 mbar)" "Magnetic susceptibility, specific heat, and crystal-field effects in neodymium cuprate superconductors" 1995 9 "Phys.Rev.B,52(1995)7656" 11809 PR05207656 "(Nd,Ce)2CuO4" Nd1.82Ce0.18Cu1O4-y Nd 1.82 Ce 0.18 Cu 1 O 4-y 1 1995 emu/mol Nd 0.001 emu.K/mol 1.32 myu-B/Nd 3.25 -48 T' K 1 "High temperature solid state reaction (see Physica C 167,53 (1990))ANN(as-prepared samples, 850C, 6h, 10e-5 mbar)" "Magnetic susceptibility, specific heat, and crystal-field effects in neodymium cuprate superconductors" 1995 9 "Phys.Rev.B,52(1995)7656" 11810 PR05207656 NdBa2Cu3O7 Nd1Ba2Cu3O7-y Nd 1 Ba 2 Cu 3 O 7-y 1 1995 emu/mol Nd 0.0013 emu.K/mol 1.22 myu-B/Nd 3.13 -29.2 Y123 K mJ/molK2 8.1 351 1 "See Phys. Rev. B 48, 16727 (1993)" "Magnetic susceptibility, specific heat, and crystal-field effects in neodymium cuprate superconductors" 1995 9 "Phys.Rev.B,52(1995)7656" 11811 PR05207656 "NeBa2(Cu,Zn)3O7" Nd1Ba2Cu2.98Zn0.02O7-d Nd 1 Ba 2 Cu 2.98 Zn 0.02 O 7-d 1 1995 emu/mol Nd 0.0021 emu.K/mol 1.08 myu-B/Nd 2.94 -23 Y123 K 1 "See Phys. Rev. B 48, 16727 (1993)" "Magnetic susceptibility, specific heat, and crystal-field effects in neodymium cuprate superconductors" 1995 9 "Phys.Rev.B,52(1995)7656" 11812 PR05207647 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+y Bi 2 Sr 2 Ca 1 Cu 2 O 8+y 3 1995 Bi2212 A 5.4 5.4 30.97 1 K 85 92 95 10 92 TP11812 "Bi2O3,CaCO3,SrCO3,CuO" 7 "MIX-SIN(860C,O2,24h, 2 times)-Press-SIN(865C,air,24h)FZ: pulling rate;first 80 mm/h, second 1 mm/h (2bars air)" Mixed-state thermoelectric and thermomagnetic effects of a Bi2Sr2CaCu2O8+z single crystal 1995 9 "Phys.Rev.B,52(1995)7647" "Bi, Sr, Ca, Cu,O" 11813 PR05207046 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 3 1995 T' K 24 24 "c-axis oriented 20 micron single crystal (details, see Physica C 177, 79 (1991))" "Anisotropy, pinning, and the mixed-state Hall effect" 1995 9 "Phys.Rev.B,52(1995)R7046" 11814 PR05207046 c-axis oriented film (5000A). Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O8 Tl 2 Ba 2 Ca 1 Cu 2 O 8 4 1995 Tl2212 K 104 104 10000000 Laser ablation method. "Anisotropy, pinning, and the mixed-state Hall effect" 1995 9 "Phys.Rev.B,52(1995)R7046" 11815 PR05207046 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 4 1995 Y123 K 92 92 Laser ablation method. "Anisotropy, pinning, and the mixed-state Hall effect" 1995 9 "Phys.Rev.B,52(1995)R7046" 11816 PR05207619 YBa2Cu3O7 Y1Ba2Cu3O6 Y 1 Ba 2 Cu 3 O 6 1 1995 2 Y123 A 3.847 11.795 3 K 2.97E+17 "Y2O3,BaCO3,CuO" 1 "CAL(2h,970C)-Quench(air)-Press(pellet)-SIN(2h,970C)-Quench(air)-Heat(vaccum)-Heat(NF3,320C)" Charge transfer in YBa2Cu3O6 doped with fluorine: Infrared reflectance and Raman scattering studies 1995 9 "Laboratoire de Physique des Solides, CNRS URA 154, Universite' Pierre et Marie Curie, Tour 13, E2, 4 Place Jussieu, 75252 Paris, Case 79, Cedex 05, France" "Phys.Rev.B,52(1995)7619" 11817 PR05207619 YBa2Cu3O7Fx Y1Ba2Cu3F0.17O6 Y 1 Ba 2 Cu 3 F 0.17 O 6 1 1995 2 Y123 A 3.857 11.801 3 K 4.50E+17 "Y2O3,BaCO3,CuO" 1 "CAL(2h,970C)-Quench(air)-Press(pellet)-SIN(2h,970C)-Quench(air)-Heat(vaccum)-Heat(NF3,320C)" Charge transfer in YBa2Cu3O6 doped with fluorine: Infrared reflectance and Raman scattering studies 1995 9 "Laboratoire de Physique des Solides, CNRS URA 154, Universite' Pierre et Marie Curie, Tour 13, E2, 4 Place Jussieu, 75252 Paris, Case 79, Cedex 05, France" "Phys.Rev.B,52(1995)7619" 11818 PR05207619 YBa2Cu3O7Fx Y1Ba2Cu3F0.38O6 Y 1 Ba 2 Cu 3 F 0.38 O 6 1 1995 2 Y123 A 3.86 11.772 3 K "Y2O3,BaCO3,CuO" 1 "CAL(2h,970C)-Quench(air)-Press(pellet)-SIN(2h,970C)-Quench(air)-Heat(vaccum)-Heat(NF3,320C)" Charge transfer in YBa2Cu3O6 doped with fluorine: Infrared reflectance and Raman scattering studies 1995 9 "Laboratoire de Physique des Solides, CNRS URA 154, Universite' Pierre et Marie Curie, Tour 13, E2, 4 Place Jussieu, 75252 Paris, Case 79, Cedex 05, France" "Phys.Rev.B,52(1995)7619" 11819 PR05207619 YBa2Cu3O7Fx Y1Ba2Cu3F0.76O6 Y 1 Ba 2 Cu 3 F 0.76 O 6 1 1995 2 Y123 A 3.863 11.745 3 K 35 35 3.36E+19 "Y2O3,BaCO3,CuO" 1 "CAL(2h,970C)-Quench(air)-Press(pellet)-SIN(2h,970C)-Quench(air)-Heat(vaccum)-Heat(NF3,320C)" Charge transfer in YBa2Cu3O6 doped with fluorine: Infrared reflectance and Raman scattering studies 1995 9 "Laboratoire de Physique des Solides, CNRS URA 154, Universite' Pierre et Marie Curie, Tour 13, E2, 4 Place Jussieu, 75252 Paris, Case 79, Cedex 05, France" "Phys.Rev.B,52(1995)7619" 11820 PR05207619 YBa2Cu3O7Fx Y1Ba2Cu3F1.11O6 Y 1 Ba 2 Cu 3 F 1.11 O 6 1 1995 2 Y123 A 3.867 11.739 3 K 45 45 9.78E+19 "Y2O3,BaCO3,CuO" 1 "CAL(2h,970C)-Quench(air)-Press(pellet)-SIN(2h,970C)-Quench(air)-Heat(vaccum)-Heat(NF3,320C)" Charge transfer in YBa2Cu3O6 doped with fluorine: Infrared reflectance and Raman scattering studies 1995 9 "Laboratoire de Physique des Solides, CNRS URA 154, Universite' Pierre et Marie Curie, Tour 13, E2, 4 Place Jussieu, 75252 Paris, Case 79, Cedex 05, France" "Phys.Rev.B,52(1995)7619" 11821 PR05207619 YBa2Cu3O7Fx Y1Ba2Cu3F1.26O6 Y 1 Ba 2 Cu 3 F 1.26 O 6 1 1995 2 Y123 A 3.868 11.715 3 K 55 55 1.19E+20 "Y2O3,BaCO3,CuO" 1 "CAL(2h,970C)-Quench(air)-Press(pellet)-SIN(2h,970C)-Quench(air)-Heat(vaccum)-Heat(NF3,320C)" Charge transfer in YBa2Cu3O6 doped with fluorine: Infrared reflectance and Raman scattering studies 1995 9 "Laboratoire de Physique des Solides, CNRS URA 154, Universite' Pierre et Marie Curie, Tour 13, E2, 4 Place Jussieu, 75252 Paris, Case 79, Cedex 05, France" "Phys.Rev.B,52(1995)7619" 11822 PR05207619 YBa2Cu3O7Fx Y1Ba2Cu3F1.46O6 Y 1 Ba 2 Cu 3 F 1.46 O 6 1 1995 2 Y123 A 3.871 11.709 3 K 55 55 2.05E+20 "Y2O3,BaCO3,CuO" 1 "CAL(2h,970C)-Quench(air)-Press(pellet)-SIN(2h,970C)-Quench(air)-Heat(vaccum)-Heat(NF3,320C)" Charge transfer in YBa2Cu3O6 doped with fluorine: Infrared reflectance and Raman scattering studies 1995 9 "Laboratoire de Physique des Solides, CNRS URA 154, Universite' Pierre et Marie Curie, Tour 13, E2, 4 Place Jussieu, 75252 Paris, Case 79, Cedex 05, France" "Phys.Rev.B,52(1995)7619" 11823 PR05207034 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1995 Y124 K 80 80 "Y2O3,La(NO3)3.6H2O,Ba(NO3)2,CuO,ZnO" 1 "SIN(6h,930C)-SIN(48h,940C)-SIN(48h,940C,O2,6MPa)" 89 Y NMR study of Zn-induced local moments and pair breaking Y(Ba1-yLay)2(Cu1-xZnx)4O8 1995 9 "Phys.Rev.B,52(1995)R7034" "Y, Ba, La, Cu, Zn, O" 11824 PR05207034 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.972Zn0.028O8 Y 1 Ba 2 Cu 3.972 Zn 0.028 O 8 1 1995 Y124 K 63 63 "Y2O3,La(NO3)3.6H2O,Ba(NO3)2,CuO,ZnO" 1 "SIN(6h,930C)-SIN(48h,940C)-SIN(48h,940C,O2,6MPa)" 89 Y NMR study of Zn-induced local moments and pair breaking Y(Ba1-yLay)2(Cu1-xZnx)4O8 1995 9 "Phys.Rev.B,52(1995)R7034" "Y, Ba, La, Cu, Zn, O" 11825 PR05207034 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.95Zn0.05O8 Y 1 Ba 2 Cu 3.95 Zn 0.05 O 8 1 1995 Y124 K 47.5 47.5 "Y2O3,La(NO3)3.6H2O,Ba(NO3)2,CuO,ZnO" 1 "SIN(6h,930C)-SIN(48h,940C)-SIN(48h,940C,O2,6MPa)" 89 Y NMR study of Zn-induced local moments and pair breaking Y(Ba1-yLay)2(Cu1-xZnx)4O8 1995 9 "Phys.Rev.B,52(1995)R7034" "Y, Ba, La, Cu, Zn, O" 11826 PR05207034 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.924Zn0.076O8 Y 1 Ba 2 Cu 3.924 Zn 0.076 O 8 1 1995 Y124 K 30.1 30.1 "Y2O3,La(NO3)3.6H2O,Ba(NO3)2,CuO,ZnO" 1 "SIN(6h,930C)-SIN(48h,940C)-SIN(48h,940C,O2,6MPa)" 89 Y NMR study of Zn-induced local moments and pair breaking Y(Ba1-yLay)2(Cu1-xZnx)4O8 1995 9 "Phys.Rev.B,52(1995)R7034" "Y, Ba, La, Cu, Zn, O" 11827 PR05207034 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.9Zn0.1O8 Y 1 Ba 2 Cu 3.9 Zn 0.1 O 8 1 1995 Y124 K 11.5 11.5 "Y2O3,La(NO3)3.6H2O,Ba(NO3)2,CuO,ZnO" 1 "SIN(6h,930C)-SIN(48h,940C)-SIN(48h,940C,O2,6MPa)" 89 Y NMR study of Zn-induced local moments and pair breaking Y(Ba1-yLay)2(Cu1-xZnx)4O8 1995 9 "Phys.Rev.B,52(1995)R7034" "Y, Ba, La, Cu, Zn, O" 11828 PR05207034 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.85Zn0.15O8 Y 1 Ba 2 Cu 3.85 Zn 0.15 O 8 1 1995 Y124 K 4.2 "Y2O3,La(NO3)3.6H2O,Ba(NO3)2,CuO,ZnO" 1 "SIN(6h,930C)-SIN(48h,940C)-SIN(48h,940C,O2,6MPa)" 89 Y NMR study of Zn-induced local moments and pair breaking Y(Ba1-yLay)2(Cu1-xZnx)4O8 1995 9 "Phys.Rev.B,52(1995)R7034" "Y, Ba, La, Cu, Zn, O" 11829 PR05207034 "Y(Ba,La)2Cu4O8" Y1Ba1.9La0.1Cu3O8 Y 1 Ba 1.9 La 0.1 Cu 3 O 8 1 1995 Y124 K 64 64 "Y2O3,La(NO3)3.6H2O,Ba(NO3)2,CuO,ZnO" 1 "SIN(6h,930C)-SIN(48h,940C)-SIN(48h,940C,O2,6MPa)" 89 Y NMR study of Zn-induced local moments and pair breaking Y(Ba1-yLay)2(Cu1-xZnx)4O8 1995 9 "Phys.Rev.B,52(1995)R7034" "Y, Ba, La, Cu, Zn, O" 11830 PR05207034 "Y(Ba,La)2(Cu,Zn)4O8" Y1Ba1.9La0.1Cu3.972Zn0.028O8 Y 1 Ba 1.9 La 0.1 Cu 3.972 Zn 0.028 O 8 1 1995 Y124 K 48.7 48.7 "Y2O3,La(NO3)3.6H2O,Ba(NO3)2,CuO,ZnO" 1 "SIN(6h,930C)-SIN(48h,940C)-SIN(48h,940C,O2,6MPa)" 89 Y NMR study of Zn-induced local moments and pair breaking Y(Ba1-yLay)2(Cu1-xZnx)4O8 1995 9 "Phys.Rev.B,52(1995)R7034" "Y, Ba, La, Cu, Zn, O" 11831 PR05207034 "Y(Ba,La)2(Cu,Zn)4O8" Y1Ba1.9La0.1Cu3.95Zn0.05O8 Y 1 Ba 1.9 La 0.1 Cu 3.95 Zn 0.05 O 8 1 1995 Y124 K 33.3 33.3 "Y2O3,La(NO3)3.6H2O,Ba(NO3)2,CuO,ZnO" 1 "SIN(6h,930C)-SIN(48h,940C)-SIN(48h,940C,O2,6MPa)" 89 Y NMR study of Zn-induced local moments and pair breaking Y(Ba1-yLay)2(Cu1-xZnx)4O8 1995 9 "Phys.Rev.B,52(1995)R7034" "Y, Ba, La, Cu, Zn, O" 11832 PR05207034 "Y(Ba,La)2(Cu,Zn)4O8" Y1Ba1.9La0.1Cu3.93Zn0.07O8 Y 1 Ba 1.9 La 0.1 Cu 3.93 Zn 0.07 O 8 1 1995 Y124 K 17.8 17.8 "Y2O3,La(NO3)3.6H2O,Ba(NO3)2,CuO,ZnO" 1 "SIN(6h,930C)-SIN(48h,940C)-SIN(48h,940C,O2,6MPa)" 89 Y NMR study of Zn-induced local moments and pair breaking Y(Ba1-yLay)2(Cu1-xZnx)4O8 1995 9 "Phys.Rev.B,52(1995)R7034" "Y, Ba, La, Cu, Zn, O" 11833 PR05207034 "Y(Ba,La)2Cu4O8" Y1Ba1.8La0.2Cu4O8 Y 1 Ba 1.8 La 0.2 Cu 4 O 8 1 1995 Y124 K 44 44 "Y2O3,La(NO3)3.6H2O,Ba(NO3)2,CuO,ZnO" 1 "SIN(6h,930C)-SIN(48h,940C)-SIN(48h,940C,O2,6MPa)" 89 Y NMR study of Zn-induced local moments and pair breaking Y(Ba1-yLay)2(Cu1-xZnx)4O8 1995 9 "Phys.Rev.B,52(1995)R7034" "Y, Ba, La, Cu, Zn, O" 11834 PR05207034 "Y(Ba,La)2(Cu,Zn)4O8" Y1Ba1.8La0.2Cu3.97Zn0.03O8 Y 1 Ba 1.8 La 0.2 Cu 3.97 Zn 0.03 O 8 1 1995 Y124 K 16.2 16.2 "Y2O3,La(NO3)3.6H2O,Ba(NO3)2,CuO,ZnO" 1 "SIN(6h,930C)-SIN(48h,940C)-SIN(48h,940C,O2,6MPa)" 89 Y NMR study of Zn-induced local moments and pair breaking Y(Ba1-yLay)2(Cu1-xZnx)4O8 1995 9 "Phys.Rev.B,52(1995)R7034" "Y, Ba, La, Cu, Zn, O" 11835 PR05206854 HgBa2CuO4 Hg1Ba2Cu1O4.07 Hg 1 Ba 2 Cu 1 O 4.07 1 1995 Hg1201 K 45 45 K/GPa 1.9 "Controlled solid-vapor reaction.MIX(BaO,CuO)-SIN(930C,24h,Ar:O=4:1)-Precursor(Ba2CuOx)React(Ba2CuOx,Hg,in sealed quartz tube,810C,8h).About controlling oxygen contents d, see text." Pressure effect on the Tc of HgBa2CuO4+z with 0.07%$z%$0.39 1995 9 "Phys.Rev.B,52(1995)6854" "Hg, Ba, Cu, O" 11836 PR05206854 HgBa2CuO4 Hg1Ba2Cu1O4.12 Hg 1 Ba 2 Cu 1 O 4.12 1 1995 Hg1201 K 74 74 K/GPa 2.29 "Controlled solid-vapor reaction.MIX(BaO,CuO)-SIN(930C,24h,Ar:O=4:1)-Precursor(Ba2CuOx)React(Ba2CuOx,Hg,in sealed quartz tube,810C,8h).About controlling oxygen contents d, see text." Pressure effect on the Tc of HgBa2CuO4+z with 0.07%$z%$0.39 1995 9 "Phys.Rev.B,52(1995)6854" "Hg, Ba, Cu, O" 11837 PR05206854 HgBa2CuO4 Hg1Ba2Cu1O4.19 Hg 1 Ba 2 Cu 1 O 4.19 1 1995 Hg1201 K 95 95 K/GPa 1.94 "Controlled solid-vapor reaction.MIX(BaO,CuO)-SIN(930C,24h,Ar:O=4:1)-Precursor(Ba2CuOx)React(Ba2CuOx,Hg,in sealed quartz tube,810C,8h).About controlling oxygen contents d, see text." Pressure effect on the Tc of HgBa2CuO4+z with 0.07%$z%$0.39 1995 9 "Phys.Rev.B,52(1995)6854" "Hg, Ba, Cu, O" 11838 PR05206854 HgBa2CuO4 Hg1Ba2Cu1O4.22 Hg 1 Ba 2 Cu 1 O 4.22 1 1995 Hg1201 K 97 97 K/GPa 2.03 "Controlled solid-vapor reaction.MIX(BaO,CuO)-SIN(930C,24h,Ar:O=4:1)-Precursor(Ba2CuOx)React(Ba2CuOx,Hg,in sealed quartz tube,810C,8h).About controlling oxygen contents d, see text." Pressure effect on the Tc of HgBa2CuO4+z with 0.07%$z%$0.39 1995 9 "Phys.Rev.B,52(1995)6854" "Hg, Ba, Cu, O" 11839 PR05206854 HgBa2CuO4 Hg1Ba2Cu1O4.27 Hg 1 Ba 2 Cu 1 O 4.27 1 1995 Hg1201 K 91 91 K/GPa 1.45 "Controlled solid-vapor reaction.MIX(BaO,CuO)-SIN(930C,24h,Ar:O=4:1)-Precursor(Ba2CuOx)React(Ba2CuOx,Hg,in sealed quartz tube,810C,8h).About controlling oxygen contents d, see text." Pressure effect on the Tc of HgBa2CuO4+z with 0.07%$z%$0.39 1995 9 "Phys.Rev.B,52(1995)6854" "Hg, Ba, Cu, O" 11840 PR05206854 HgBa2CuO4 Hg1Ba2Cu1O4.3 Hg 1 Ba 2 Cu 1 O 4.3 1 1995 Hg1201 K 81 81 K/GPa -0.101 "Controlled solid-vapor reaction.MIX(BaO,CuO)-SIN(930C,24h,Ar:O=4:1)-Precursor(Ba2CuOx)React(Ba2CuOx,Hg,in sealed quartz tube,810C,8h).About controlling oxygen contents d, see text." Pressure effect on the Tc of HgBa2CuO4+z with 0.07%$z%$0.39 1995 9 "Phys.Rev.B,52(1995)6854" "Hg, Ba, Cu, O" 11841 PR05206854 HgBa2CuO4 Hg1Ba2Cu1O4.31 Hg 1 Ba 2 Cu 1 O 4.31 1 1995 Hg1201 K 78 78 K/GPa 0.39 "Controlled solid-vapor reaction.MIX(BaO,CuO)-SIN(930C,24h,Ar:O=4:1)-Precursor(Ba2CuOx)React(Ba2CuOx,Hg,in sealed quartz tube,810C,8h).About controlling oxygen contents d, see text." Pressure effect on the Tc of HgBa2CuO4+z with 0.07%$z%$0.39 1995 9 "Phys.Rev.B,52(1995)6854" "Hg, Ba, Cu, O" 11842 PR05206854 HgBa2CuO4 Hg1Ba2Cu1O4.34 Hg 1 Ba 2 Cu 1 O 4.34 1 1995 Hg1201 K 59 59 K/GPa 1.06 "Controlled solid-vapor reaction.MIX(BaO,CuO)-SIN(930C,24h,Ar:O=4:1)-Precursor(Ba2CuOx)React(Ba2CuOx,Hg,in sealed quartz tube,810C,8h).About controlling oxygen contents d, see text." Pressure effect on the Tc of HgBa2CuO4+z with 0.07%$z%$0.39 1995 9 "Phys.Rev.B,52(1995)6854" "Hg, Ba, Cu, O" 11843 PR05206854 HgBa2CuO4 Hg1Ba2Cu1O4.36 Hg 1 Ba 2 Cu 1 O 4.36 1 1995 Hg1201 K 56 56 K/GPa 1.28 "Controlled solid-vapor reaction.MIX(BaO,CuO)-SIN(930C,24h,Ar:O=4:1)-Precursor(Ba2CuOx)React(Ba2CuOx,Hg,in sealed quartz tube,810C,8h).About controlling oxygen contents d, see text." Pressure effect on the Tc of HgBa2CuO4+z with 0.07%$z%$0.39 1995 9 "Phys.Rev.B,52(1995)6854" "Hg, Ba, Cu, O" 11844 PR05206854 HgBa2CuO4 Hg1Ba2Cu1O4.37 Hg 1 Ba 2 Cu 1 O 4.37 1 1995 Hg1201 K 40 40 K/GPa 0.994 "Controlled solid-vapor reaction.MIX(BaO,CuO)-SIN(930C,24h,Ar:O=4:1)-Precursor(Ba2CuOx)React(Ba2CuOx,Hg,in sealed quartz tube,810C,8h).About controlling oxygen contents d, see text." Pressure effect on the Tc of HgBa2CuO4+z with 0.07%$z%$0.39 1995 9 "Phys.Rev.B,52(1995)6854" "Hg, Ba, Cu, O" 11845 PR05206854 HgBa2CuO4 Hg1Ba2Cu1O4.39 Hg 1 Ba 2 Cu 1 O 4.39 1 1995 Hg1201 K 26 26 K/GPa 0.612 "Controlled solid-vapor reaction.MIX(BaO,CuO)-SIN(930C,24h,Ar:O=4:1)-Precursor(Ba2CuOx)React(Ba2CuOx,Hg,in sealed quartz tube,810C,8h).About controlling oxygen contents d, see text." Pressure effect on the Tc of HgBa2CuO4+z with 0.07%$z%$0.39 1995 9 "Phys.Rev.B,52(1995)6854" "Hg, Ba, Cu, O" 11846 PR05207006 "(La,Ca)MnO3" La0.79Ca0.21Mn1O3 La 0.79 Ca 0.21 Mn 1 O 3 1 1995 203.3 K "La2O3,CaCO3,MnO2" 1 "SIN(1050C,20h)-reground-SIN(1300C,20h)-This step repeat 2 times.-SIN(1350C,air)" Substantial pressure effects on the electricai resistivity and ferromagnetic transition temperature 1995 9 "Phys.Rev.B,52(1995)R7006" "La, Ca, Mn, O" 11847 PR05207006 "(La,Ca)MnO3" La0.67Ca0.33Mn1O3 La 0.67 Ca 0.33 Mn 1 O 3 1 1995 267.2 K "La2O3,CaCO3,MnO2" 1 "SIN(1050C,20h)-reground-SIN(1300C,20h)-This step repeat 2 times.-SIN(1350C,air)" Substantial pressure effects on the electricai resistivity and ferromagnetic transition temperature 1995 9 "Phys.Rev.B,52(1995)R7006" "La, Ca, Mn, O" 11848 PR05207006 "(La,Ca)MnO3" La0.6Ca0.4Mn1O3 La 0.6 Ca 0.4 Mn 1 O 3 1 1995 271.3 K "La2O3,CaCO3,MnO2" 1 "SIN(1050C,20h)-reground-SIN(1300C,20h)-This step repeat 2 times.-SIN(1350C,air)" Substantial pressure effects on the electricai resistivity and ferromagnetic transition temperature 1995 9 "Phys.Rev.B,52(1995)R7006" "La, Ca, Mn, O" 11900 PR05209736 Pb2Sr2TbCu3O8 Pb2Sr2Tb1Cu3O8 Pb 2 Sr 2 Tb 1 Cu 3 O 8 1 1995 emu/mol 0.0006 myu-B/mol 9.7 -21 Pb3212 K "PbO,Tb4O7,Y2O3,CuO,CaO,SrCO3" 1 "MIX-pelletizing-SIN(830C,20h)-COOL(R.T.)" Oxidation state and magnetic properties of Pb2Sr2Tb1-xYxCu3O8 1995 10 "Chemistry Division, Argonne National Laboratory, Argonne, Illinois 60439-4831" "Phys.Rev.B,52(1995)9736" 11901 PR05209736 "Pb2Sr2(Tb,Y)Cu3O8" Pb2Sr2Tb0.1Y0.9Cu3O8 Pb 2 Sr 2 Tb 0.1 Y 0.9 Cu 3 O 8 1 1995 emu/mol 0.006 myu-B/mol 10.1 -1.9 Pb3212 K "PbO,Tb4O7,Y2O3,CuO,CaO,SrCO3" 1 "MIX-pelletizing-SIN(830C,20h)-COOL(R.T.)" Oxidation state and magnetic properties of Pb2Sr2Tb1-xYxCu3O8 1995 10 "Chemistry Division, Argonne National Laboratory, Argonne, Illinois 60439-4831" "Phys.Rev.B,52(1995)9736" 11902 PR05209736 "Pb2Sr2(Tb,Y)Cu3O8" Pb2Sr2Tb0.05Y0.95Cu3O8 Pb 2 Sr 2 Tb 0.05 Y 0.95 Cu 3 O 8 1 1995 emu/mol 0.007 myu-B/mol 9.7 -1 Pb3212 K "PbO,Tb4O7,Y2O3,CuO,CaO,SrCO3" 1 "MIX-pelletizing-SIN(830C,20h)-COOL(R.T.)" Oxidation state and magnetic properties of Pb2Sr2Tb1-xYxCu3O8 1995 10 "Chemistry Division, Argonne National Laboratory, Argonne, Illinois 60439-4831" "Phys.Rev.B,52(1995)9736" 11903 PR05209736 "Pb2Sr2(Tb,Y)Cu3O8" Pb2Sr2Tb0.02Y0.98Cu3O8 Pb 2 Sr 2 Tb 0.02 Y 0.98 Cu 3 O 8 1 1995 emu/mol 0.003 myu-B/mol 9.8 -0.9 Pb3212 K "PbO,Tb4O7,Y2O3,CuO,CaO,SrCO3" 1 "MIX-pelletizing-SIN(830C,20h)-COOL(R.T.)" Oxidation state and magnetic properties of Pb2Sr2Tb1-xYxCu3O8 1995 10 "Chemistry Division, Argonne National Laboratory, Argonne, Illinois 60439-4831" "Phys.Rev.B,52(1995)9736" 11904 PR05210569 YBa2Cu3O6.95 Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O 6.95 3 1995 Y123 K 93.5 0.25 93.5 T "Calculated from the result of muon spin rotation measurement.The fitting function has the form, c(1" 77 A "calculated from the result of muon spin rotation measurement.The fitting function has the form, c(1-" 19 "calculated from the result of muon spin rotation measurement.The fitting function has the form, c(1-" 1500 5 "See Physica C 195, 51 (1992)." Ginzburg-Landau parameter in YBaCu3O6.95 below the irreversibility temperature as measured by %*+SR in high magnetic fields 1995 10 "TRIUMF, Candian Institute for Advanced Reserch and Department of Physics, University of British Columbia, Vancouver, British Colombia, Canada V6T 1Z1" "Phys.Rev.B,52(1995)10569" 11905 PR05210610 "(Y,Ce)Sr2Cu2FeO8+d" Y1.5Ce0.5Sr2Cu2Fe1O8+d Y 1.5 Ce 0.5 Sr 2 Cu 2 Fe 1 O 8+d 1 1995 micro.B/Mo 1.9 -7 25 I4/mmm A 3.819 28.075 3 K "Y2O3, CeO2, SrCO3, CuO, Fe2O3" 1 CAL(at 1070C for 25h in air)SIN(at 1120C for 6days)QuenchANN (at 500C under flowing oxygen)FNC (under flowing oxygen) "Structural, Mo""ssbauer and Raman studies of the (Y, Ce)2Sr2Cu2FeO8+y conpound" 1995 10 "Phys.Rev.B,52(1995)10610" "Y, Ce, Sr, Cu, Fe, O" 11906 PR05210610 "(Y,Ce)2Sr2Cu2FeO8+d" Y1.5Ce0.5Sr2Cu2Fe1O8+d Y 1.5 Ce 0.5 Sr 2 Cu 2 Fe 1 O 8+d 1 1995 micro.B/Mo 3.22 10 9 I4/mmm A 3.815 28.292 3 K "Y2O3, CeO2, SrCO3, CuO, Fe2O3" 1 CAL (at 1070C for 24h in air)SIN (at 1120C for 6days)QuenchANN (at 500C under flowing oxygen)ANN (at 500C under flowing Ar for a day)FNC (under flowing Ar) "Structural, Mo""ssbauer and Raman studies of the (Y, Ce)2Sr2Cu2FeO8+y conpound" 1995 10 "Phys.Rev.B,52(1995)10610" "Y, Ce, Sr, Cu, Fe, O" 11907 PR05210452 "(Pb,Cu)2(Ba,Sr)2PrCu2O8" Pb1Cu3Ba1Sr1Pr1O8 Pb 1 Cu 3 Ba 1 Sr 1 Pr 1 O 8 1 1995 micro.B/Mo 8.06 -2.31 2.3 2 Pb2212 I4/mmm A 3.878 27.594 3 K SP11907 ohm.cm 746 "BaCO3, SrCO3, R2O3(R=Pr,Gd,Y), CuO, PbO" 1 "BaCO3, SrCO3, R2O3 and CuO with the ratio Ba:Sr:R:Cu+1:1:1:3 were mixed.CAL(at 920CC in air with intermediate grinding)CAL (at 730C for 24h)SIN (at 825-830C in flowing Ar for 3days)Quench" "Observation of Pr and Gd ordering in the 2212-type compounds (Pb0.5Cu0.5)2(Ba0.5Sr0.5)2RCu2O8(r=Pr, Gd)" 1995 10 "Phys.Rev.B,52(1995)10452" "Pr, Gd, Pb, Cu, Ba, Sr, O" 11908 PR05210452 "(Pb,Cu)2(Ba,Sr)2GdCu2O8" Pb1Cu3Ba1Sr1Gd1O8 Pb 1 Cu 3 Ba 1 Sr 1 Gd 1 O 8 1 1995 2 Pb2212 I4/mmm A 3.854 27.457 3 K SP11908 "BaCO3, SrCO3, R2O3(R=Pr,Gd,Y), CuO, PbO" 1 "BaCO3, SrCO3, R2O3 and CuO with the ratio Ba:Sr:R:Cu+1:1:1:3 were mixed.CAL(at 920CC in air with intermediate grinding)CAL (at 730C for 24h)SIN (at 825-830C in flowing Ar for 3days)Quench" "Observation of Pr and Gd ordering in the 2212-type compounds (Pb0.5Cu0.5)2(Ba0.5Sr0.5)2RCu2O8(r=Pr, Gd)" 1995 10 "Phys.Rev.B,52(1995)10452" "Pr, Gd, Pb, Cu, Ba, Sr, O" 11909 PR05210452 "(Pb,Cu)2(Ba,Sr)2YCu2O8" Pb1Cu3Ba1Sr1Y1O8 Pb 1 Cu 3 Ba 1 Sr 1 Y 1 O 8 1 1995 2 Pb1212 I4/mmm A 3.83 27.45 3 K SP11909 ohm.cm 6.26 "BaCO3, SrCO3, R2O3(R=Pr,Gd,Y), CuO, PbO" 1 "BaCO3, SrCO3, R2O3 and CuO with the ratio Ba:Sr:R:Cu+1:1:1:3 were mixed.CAL(at 920CC in air with intermediate grinding)CAL (at 730C for 24h)SIN (at 825-830C in flowing Ar for 3days)Quench" "Observation of Pr and Gd ordering in the 2212-type compounds (Pb0.5Cu0.5)2(Ba0.5Sr0.5)2RCu2O8(r=Pr, Gd)" 1995 10 "Phys.Rev.B,52(1995)10452" "Pr, Gd, Pb, Cu, Ba, Sr, O" 11910 PR05210504 "(Yb,Pr)(Ba,Sr)2Cu3O7-d" Yb1Ba1.7Sr0.3Cu3O6.9 Yb 1 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.9 1 1995 3 A 3.794 3.87 11.6 3 K 81 81 m.ohm.cm 0.5 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11911 PR05210504 "(Yb,Pr)(Ba,Sr)2Cu3O7-d" Yb0.95Pr0.05Ba1.7Sr0.3Cu3O6.91 Yb 0.95 Pr 0.05 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.91 1 1995 3 A 3.792 3.867 11.589 K 81 81 m.ohm.cm 0.66 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11912 PR05210504 "(Yb,Pr)(Ba,Sr)2Cu3O7-d" Yb0.9Pr0.1Ba1.7Sr0.3Cu3O6.9 Yb 0.9 Pr 0.1 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.9 1 1995 3 A 3.794 3.863 11.593 3 K 81 81 m.ohm.cm 1.18 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11913 PR05210504 "(Yb,Pr)(Ba,Sr)2Cu3O7-d" Yb0.85Pr0.15Ba1.7Sr0.3Cu3O6.91 Yb 0.85 Pr 0.15 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.91 1 1995 3 A 3.796 3.869 11.608 3 K 80 80 m.ohm.cm 1.51 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11914 PR05210504 "(Yb,Pr)(Ba,Sr)2Cu3O7-d" Yb0.8Pr0.2Ba1.7Sr0.3Cu3O6.92 Yb 0.8 Pr 0.2 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.92 1 1995 3 A 3.797 3.869 11.617 3 K 76 76 m.ohm.cm 0.85 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11915 PR05210504 "(Yb,Pr)(Ba,Sr)2Cu3O7-d" Yb0.75Pr0.25Ba1.7Sr0.3Cu3O6.92 Yb 0.75 Pr 0.25 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.92 1 1995 3 A 3.8 3.869 11.619 3 K 71 71 m.ohm.cm 0.95 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11916 PR05210504 "(Yb,Pr)(Ba,Sr)2Cu3O7-d" Yb0.7Pr0.3Ba1.7Sr0.3Cu3O6.93 Yb 0.7 Pr 0.3 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.93 1 1995 3 A 3.803 3.869 11.628 3 K 63 63 m.ohm.cm 0.55 1.25 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11917 PR05210504 "(Yb,Pr)(Ba,Sr)2Cu3O7-d" Yb0.65Pr0.35Ba1.7Sr0.3Cu3O6.95 Yb 0.65 Pr 0.35 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.95 1 1995 3 A 3.804 3.87 11.635 3 K 55 55 m.ohm.cm 1.3 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11918 PR05210504 "(Yb,Pr)(Ba,Sr)2Cu3O7-d" Yb0.6Pr0.4Ba1.7Sr0.3Cu3O6.93 Yb 0.6 Pr 0.4 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.93 1 1995 3 A 3.815 3.874 11.652 3 K 46 46 m.ohm.cm 0.7 1.36 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11919 PR05210504 "(Yb,Pr)(Ba,Sr)2Cu3O7-d" Yb0.55Pr0.45Ba1.7Sr0.3Cu3O6.88 Yb 0.55 Pr 0.45 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.88 1 1995 3 A 3.815 3.868 11.65 3 K 41 41 m.ohm.cm 1.6 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11920 PR05210504 "(Yb,Pr)(Ba,Sr)2Cu3O7-d" Yb0.5Pr0.5Ba1.7Sr0.3Cu3O6.93 Yb 0.5 Pr 0.5 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.93 1 1995 3 A 3.815 3.873 11.655 3 K 30 30 m.ohm.cm 0.85 1.51 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11921 PR05210504 "(Yb,Pr)(Ba,Sr)2Cu3O7-d" Yb0.45Pr0.55Ba1.7Sr0.3Cu3O6.91 Yb 0.45 Pr 0.55 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.91 1 1995 3 A 3.819 3.875 11.662 3 K 15 15 m.ohm.cm 1.1 1.49 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11922 PR05210504 "(Yb,Pr)(Ba,Sr)2Cu3O7-d" Yb0.4Pr0.6Ba1.7Sr0.3Cu3O6.87 Yb 0.4 Pr 0.6 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.87 1 1995 3 A 3.826 3.873 11.674 3 K m.ohm.cm 2.15 2.31 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11923 PR05210504 "(Yb,Pr)(Ba,Sr)2Cu3O7-d" Yb0.3Pr0.7Ba1.7Sr0.3Cu3O6.91 Yb 0.3 Pr 0.7 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.91 1 1995 3 A 3.83 3.882 11.67 3 K m.ohm.cm 4.5 3.51 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11924 PR05210504 "(Yb,Pr)(Ba,Sr)2Cu3O7-d" Yb0.2Pr0.8Ba1.7Sr0.3Cu3O6.92 Yb 0.2 Pr 0.8 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.92 1 1995 3 A 3.837 3.881 11.716 3 K m.ohm.cm 4.41 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11925 PR05210504 "(Yb,Pr)(Ba,Sr)2Cu3O7-d" Yb0.1Pr0.9Ba1.7Sr0.3Cu3O6.88 Yb 0.1 Pr 0.9 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.88 1 1995 3 A 3.855 3.883 11.721 3 K m.ohm.cm 7.32 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11926 PR05210504 "Pr(Ba,Sr)2Cu3O7" Pr1Ba1.7Sr0.3Cu3O6.87 Pr 1 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.87 1 1995 3 A 3.861 3.89 11.722 3 K m.ohm.cm 13.6 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11927 PR05210504 "Lu(Ba,Sr)2Cu3O7-d" Lu1Ba1.7Sr0.3Cu3O7-d Lu 1 Ba 1.7 Sr 0.3 Cu 3 O 7-d 2 1995 3 A 3.79 3.868 11.64 3 K 79 79 m.ohm.cm 1.02 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11928 PR05210504 "(Lu,Pr)(Ba,Sr)2Cu3O7-d" Lu0.9Pr0.1Ba1.7Sr0.3Cu3O6.95 Lu 0.9 Pr 0.1 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.95 1 1995 3 A 3.794 3.869 11.609 3 K 79 79 m.ohm.cm 0.78 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11929 PR05210504 "(Lu,Pr)(Ba,Sr)2Cu3O7-d" Lu0.85Pr0.15Ba1.7Sr0.3Cu3O6.91 Lu 0.85 Pr 0.15 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.91 1 1995 3 A 3.794 3.868 11.609 3 K 77 77 m.ohm.cm 0.88 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11930 PR05210504 "(Lu,Pr)(Ba,Sr)2Cu3O7-d" Lu0.8Pr0.2Ba1.7Sr0.3Cu3O6.93 Lu 0.8 Pr 0.2 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.93 1 1995 3 A 3.795 3.87 11.611 3 K 75 75 m.ohm.cm 0.71 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11931 PR05210504 "(Lu,Pr)(Ba,Sr)2Cu3O7-d" Lu0.75Pr0.25Ba1.7Sr0.3Cu3O6.9 Lu 0.75 Pr 0.25 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.9 1 1995 3 A 3.797 3.872 11.613 3 K 66 66 m.ohm.cm 0.82 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11932 PR05210504 "(Lu,Pr)(Ba,Sr)2Cu3O7-d" Lu0.7Pr0.3Ba1.7Sr0.3Cu3O6.89 Lu 0.7 Pr 0.3 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.89 1 1995 3 A 3.799 3.871 11.618 3 K 61 61 m.ohm.cm 1.11 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11933 PR05210504 "(Lu,Pr)(Ba,Sr)2Cu3O7-d" Lu0.65Pr0.35Ba1.7Sr0.3Cu3O6.93 Lu 0.65 Pr 0.35 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.93 1 1995 3 A 3.807 3.876 11.622 3 K 52 52 m.ohm.cm 1.25 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11934 PR05210504 "(Lu,Pr)(Ba,Sr)2Cu3O7-d" Lu0.6Pr0.4Ba1.7Sr0.3Cu3O6.91 Lu 0.6 Pr 0.4 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.91 1 1995 3 A 3.812 3.877 11.625 3 K 47 47 m.ohm.cm 1.79 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11935 PR05210504 "(Lu,Pr)(Ba,Sr)2Cu3O7-d" Lu0.55Pr0.45Ba1.7Sr0.3Cu3O6.92 Lu 0.55 Pr 0.45 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.92 1 1995 3 A 3.811 3.875 11.635 3 K 35 35 m.ohm.cm 1.49 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11936 PR05210504 "(Lu,Pr)(Ba,Sr)2Cu3O7-d" Lu0.5Pr0.5Ba1.7Sr0.3Cu3O6.92 Lu 0.5 Pr 0.5 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.92 1 1995 3 A 3.813 3.874 11.643 3 K 20 20 m.ohm.cm 1.85 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11937 PR05210504 "(Lu,Pr)(Ba,Sr)2Cu3O7-d" Lu0.45Pr0.55Ba1.7Sr0.3Cu3O6.91 Lu 0.45 Pr 0.55 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.91 1 1995 3 A 3.823 3.878 11.661 3 K m.ohm.cm 2.26 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11938 PR05210504 "(Lu,Pr)(Ba,Sr)2Cu3O7-d" Lu0.4Pr0.6Ba1.7Sr0.3Cu3O6.93 Lu 0.4 Pr 0.6 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.93 1 1995 3 A 3.825 3.878 11.664 3 K m.ohm.cm 2.94 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11939 PR05210504 "(Lu,Pr)(Ba,Sr)2Cu3O7-d" Lu0.3Pr0.7Ba1.7Sr0.3Cu3O6.9 Lu 0.3 Pr 0.7 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.9 1 1995 3 A 3.833 3.875 11.674 3 K m.ohm.cm 4.3 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11940 PR05210504 "(Lu,Pr)(Ba,Sr)2Cu3O7-d" Lu0.2Pr0.8Ba1.7Sr0.3Cu3O6.88 Lu 0.2 Pr 0.8 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.88 1 1995 3 A 3.846 3.883 11.693 3 K m.ohm.cm 6.4 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11941 PR05210504 "(Lu,Pr)(Ba,Sr)2Cu3O7-d" Lu0.1Pr0.9Ba1.7Sr0.3Cu3O6.89 Lu 0.1 Pr 0.9 Ba 1.7 Sr 0.3 Cu 3 O 7-d 6.89 1 1995 3 A 3.856 3.887 11.705 3 K m.ohm.cm 13.6 1 CAL (at 900C for 24h)CAL (at 910-920C for 48h with intermittent grindings)SIN (at 930C for 24h)ANN (at 900C for 24h and at 600C for 48h in flowing oxygen)FNC Suppression of superconductivity in the L-1-xPrxBa1.7Sr0.3Cu3O7(L=Yb and Lu) sistem: Obsrvation of the hole localization effect 1995 10 "Phys.Rev.B,52(1995)10504" "Yb, Lu< Pr, Ba, Sr, Cu, O" 11942 PR05210474 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1995 4.746 3 A 3.81 3.88 11.65 3 K 86 2 86 m.ohm.cm 0.79 "Y2O3, BaCO3, CuO, ZnO" 1 CAL (at 900C for 16h in air)SIN (at 950C for 24h in air)FNCANN (at 450C for 12h) Magnetic and transport properties of Zn-doped YBa2Cu3O7 in the normal state 1995 10 "Phys.Rev.B,52(1995)10474" "Y, Ba, Ca, O, Zn" 11943 PR05210474 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.94Zn0.06O7 Y 1 Ba 2 Cu 2.94 Zn 0.06 O 7 1 1995 5.358 3 A 3.81 3.88 11.64 3 K 64.9 3 64.9 m.ohm.cm 0.63 1.39 "Y2O3, BaCO3, CuO, ZnO" 1 CAL (at 900C for 16h in air)SIN (at 950C for 24h in air)FNCANN (at 450C for 12h) Magnetic and transport properties of Zn-doped YBa2Cu3O7 in the normal state 1995 10 "Phys.Rev.B,52(1995)10474" "Y, Ba, Ca, O, Zn" 11944 PR05210474 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.91Zn0.09O7 Y 1 Ba 2 Cu 2.91 Zn 0.09 O 7 1 1995 emu.K/G.g 32 35.8 5.101 3 Y123 A 3.82 3.88 11.65 3 K 56.9 3.4 56.9 m.ohm.cm 1.13 2.16 "Y2O3, BaCO3, CuO, ZnO" 1 CAL (at 900C for 16h in air)SIN (at 950C for 24h in air)FNCANN (at 450C for 12h) Magnetic and transport properties of Zn-doped YBa2Cu3O7 in the normal state 1995 10 "Phys.Rev.B,52(1995)10474" "Y, Ba, Ca, O, Zn" 11945 PR05210474 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.85Zn0.15O7 Y 1 Ba 2 Cu 2.85 Zn 0.15 O 7 1 1995 emu.K/G.g 83 23.9 5.044 3 Y123 A 3.81 3.88 11.64 3 K 43.2 3.8 43.2 m.ohm.cm 1.4 2.52 "Y2O3, BaCO3, CuO, ZnO" 1 CAL (at 900C for 16h in air)SIN (at 950C for 24h in air)FNCANN (at 450C for 12h) Magnetic and transport properties of Zn-doped YBa2Cu3O7 in the normal state 1995 10 "Phys.Rev.B,52(1995)10474" "Y, Ba, Ca, O, Zn" 11946 PR05210474 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.76Zn0.24O7 Y 1 Ba 2 Cu 2.76 Zn 0.24 O 7 1 1995 emu.K/G.g 140 6.6 5.266 3 Y123 A 3.81 3.88 11.64 3 K 13 5.2 13 m.ohm.cm 4.74 6.48 "Y2O3, BaCO3, CuO, ZnO" 1 CAL (at 900C for 16h in air)SIN (at 950C for 24h in air)FNCANN (at 450C for 12h) Magnetic and transport properties of Zn-doped YBa2Cu3O7 in the normal state 1995 10 "Phys.Rev.B,52(1995)10474" "Y, Ba, Ca, O, Zn" 11947 PR05210474 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.7Zn0.3O7 Y 1 Ba 2 Cu 2.7 Zn 0.3 O 7 1 1995 emu.K/G.g 206 -1.7 5.68 3 Y123 A 3.82 3.89 11.66 3 K "Y2O3, BaCO3, CuO, ZnO" 1 CAL (at 900C for 16h in air)SIN (at 950C for 24h in air)FNCANN (at 450C for 12h) Magnetic and transport properties of Zn-doped YBa2Cu3O7 in the normal state 1995 10 "Phys.Rev.B,52(1995)10474" "Y, Ba, Ca, O, Zn" 11948 PR05210474 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.979Zn0.021O7 Y 1 Ba 2 Cu 2.979 Zn 0.021 O 7 1 1995 4.971 3 Y123 A 3.81 3.88 11.65 3 K 80.2 3.8 80.2 "Y2O3, BaCO3, CuO, ZnO" 1 CAL (at 900C for 16h in air)SIN (at 950C for 24h in air)FNCANN (at 450C for 12h) Magnetic and transport properties of Zn-doped YBa2Cu3O7 in the normal state 1995 10 "Phys.Rev.B,52(1995)10474" "Y, Ba, Ca, O, Zn" 11949 PR05210474 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.97Zn0.03O7 Y 1 Ba 2 Cu 2.97 Zn 0.03 O 7 1 1995 5.407 3 Y123 A 3.81 3.88 11.65 3 K 77 3 77 m.ohm.cm 1.1 "Y2O3, BaCO3, CuO, ZnO" 1 CAL (at 900C for 16h in air)SIN (at 950C for 24h in air)FNCANN (at 450C for 12h) Magnetic and transport properties of Zn-doped YBa2Cu3O7 in the normal state 1995 10 "Phys.Rev.B,52(1995)10474" "Y, Ba, Ca, O, Zn" 11950 PR05210474 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.88Zn0.12O7 Y 1 Ba 2 Cu 2.88 Zn 0.12 O 7 1 1995 5.69 3 Y123 A 3.81 3.88 11.64 3 K 52 3.2 52 "Y2O3, BaCO3, CuO, ZnO" 1 CAL (at 900C for 16h in air)SIN (at 950C for 24h in air)FNCANN (at 450C for 12h) Magnetic and transport properties of Zn-doped YBa2Cu3O7 in the normal state 1995 10 "Phys.Rev.B,52(1995)10474" "Y, Ba, Ca, O, Zn" 11951 PR05210474 "YBa2(Cu,Zn)3O7" Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1 1995 emu.K/G.g 4.608 3 Y123 A 3.82 3.88 11.66 3 K 88 0.9 88 m.ohm.cm 1.44 "Y2O3, BaCO3, CuO, ZnO" 1 CAL (at 920C for 15h in air)CAL (at 900C for 10h in air)SIN (at 950C for 20h in air)FNCANN (at 350C for 10h). Magnetic and transport properties of Zn-doped YBa2Cu3O7 in the normal state 1995 10 "Phys.Rev.B,52(1995)10474" "Y, Ba, Ca, O, Zn" 11952 PR05210474 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.993Zn0.007O7 Y 1 Ba 2 Cu 2.993 Zn 0.007 O 7 1 1995 emu.K/G.g 1 4.513 3 Y123 A 3.81 3.88 11.65 3 K 84 3.4 84 "Y2O3, BaCO3, CuO, ZnO" 1 CAL (at 920C for 15h in air)CAL (at 900C for 10h in air)SIN (at 950C for 20h in air)FNCANN (at 350C for 10h). Magnetic and transport properties of Zn-doped YBa2Cu3O7 in the normal state 1995 10 "Phys.Rev.B,52(1995)10474" "Y, Ba, Ca, O, Zn" 11953 PR05210474 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.985Zn0.015O7 Y 1 Ba 2 Cu 2.985 Zn 0.015 O 7 1 1995 emu.K/G.g 3 4.758 3 Y123 A 3.822 3.89 11.66 3 K 80 1.9 80 m.ohm.cm 1.55 "Y2O3, BaCO3, CuO, ZnO" 1 CAL (at 920C for 15h in air)CAL (at 900C for 10h in air)SIN (at 950C for 20h in air)FNCANN (at 350C for 10h). Magnetic and transport properties of Zn-doped YBa2Cu3O7 in the normal state 1995 10 "Phys.Rev.B,52(1995)10474" "Y, Ba, Ca, O, Zn" 11954 PR05210474 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.97Zn0.03O7 Y 1 Ba 2 Cu 2.97 Zn 0.03 O 7 1 1995 emu.K/G.g 18 61 4.277 3 Y123 A 3.81 3.88 11.65 3 K 76 2.2 76 m.ohm.cm 1.66 "Y2O3, BaCO3, CuO, ZnO" 1 CAL (at 920C for 15h in air)CAL (at 900C for 10h in air)SIN (at 950C for 20h in air)FNCANN (at 350C for 10h). Magnetic and transport properties of Zn-doped YBa2Cu3O7 in the normal state 1995 10 "Phys.Rev.B,52(1995)10474" "Y, Ba, Ca, O, Zn" 11955 PR05210474 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.955Zn0.045O7 Y 1 Ba 2 Cu 2.955 Zn 0.045 O 7 1 1995 emu.K/G.g 52 42 4.457 3 Y123 A 3.81 3.88 11.65 3 K 70.1 2.1 70.1 "Y2O3, BaCO3, CuO, ZnO" 1 CAL (at 920C for 15h in air)CAL (at 900C for 10h in air)SIN (at 950C for 20h in air)FNCANN (at 350C for 10h). Magnetic and transport properties of Zn-doped YBa2Cu3O7 in the normal state 1995 10 "Phys.Rev.B,52(1995)10474" "Y, Ba, Ca, O, Zn" 11956 PR05210474 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.82Zn0.18O7 Y 1 Ba 2 Cu 2.82 Zn 0.18 O 7 1 1995 emu.K/G.g 188 22 5.086 3 Y123 A 3.81 3.89 11.64 3 K 38.4 5.7 38.4 "Y2O3, BaCO3, CuO, ZnO" 1 CAL (at 910C for 12h in air) 2timesSIN (at 950C for 20h in air)FNCANN (at 400C for 20h) Magnetic and transport properties of Zn-doped YBa2Cu3O7 in the normal state 1995 10 "Phys.Rev.B,52(1995)10474" "Y, Ba, Ca, O, Zn" 11957 PR05210474 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.79Zn0.21O7 Y 1 Ba 2 Cu 2.79 Zn 0.21 O 7 1 1995 emu.K/G.g 223 12.8 4.821 3 Y123 A 3.82 3.89 11.64 3 K 24.2 6.5 24.2 "Y2O3, BaCO3, CuO, ZnO" 1 CAL (at 910C for 12h in air) 2timesSIN (at 950C for 20h in air)FNCANN (at 400C for 20h) Magnetic and transport properties of Zn-doped YBa2Cu3O7 in the normal state 1995 10 "Phys.Rev.B,52(1995)10474" "Y, Ba, Ca, O, Zn" 12000 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.1Ba1.65La1.25Cu3O6.38 Ca 0.1 Ba 1.65 La 1.25 Cu 3 O 6.38 1 1995 2 Y123 3.904 11.822 K "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12001 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.1Ba1.65La1.25Cu3O6.42 Ca 0.1 Ba 1.65 La 1.25 Cu 3 O 6.42 1 1995 2 Y123 3.905 11.816 K "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12002 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.1Ba1.65La1.25Cu3O6.5 Ca 0.1 Ba 1.65 La 1.25 Cu 3 O 6.5 1 1995 2 Y123 3.907 11.813 K "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12003 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.1Ba1.65La1.25Cu3O6.63 Ca 0.1 Ba 1.65 La 1.25 Cu 3 O 6.63 1 1995 2 Y123 3.911 11.792 K "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12004 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.1Ba1.65La1.25Cu3O6.71 Ca 0.1 Ba 1.65 La 1.25 Cu 3 O 6.71 1 1995 2 Y123 3.911 11.78 K "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12005 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.1Ba1.65La1.25Cu3O6.8 Ca 0.1 Ba 1.65 La 1.25 Cu 3 O 6.8 1 1995 2 Y123 3.912 11.768 K "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12006 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.1Ba1.65La1.25Cu3O6.89 Ca 0.1 Ba 1.65 La 1.25 Cu 3 O 6.89 1 1995 2 Y123 3.908 11.76 K "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12007 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.1Ba1.65La1.25Cu3O6.98 Ca 0.1 Ba 1.65 La 1.25 Cu 3 O 6.98 1 1995 2 Y123 3.905 11.737 K 8 8 "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12008 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.1Ba1.65La1.25Cu3O7.06 Ca 0.1 Ba 1.65 La 1.25 Cu 3 O 7.06 1 1995 2 Y123 3.903 11.72 K 41.9 41.9 "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12009 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.4Ba1.35La1.25Cu3O6.43 Ca 0.4 Ba 1.35 La 1.25 Cu 3 O 6.43 1 1995 2 Y123 3.887 11.762 K "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12010 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.4Ba1.35La1.25Cu3O6.5 Ca 0.4 Ba 1.35 La 1.25 Cu 3 O 6.5 1 1995 2 Y123 3.884 11.76 K "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12011 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.4Ba1.35La1.25Cu3O6.61 Ca 0.4 Ba 1.35 La 1.25 Cu 3 O 6.61 1 1995 2 Y123 3.883 11.744 K "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12012 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.4Ba1.35La1.25Cu3O6.69 Ca 0.4 Ba 1.35 La 1.25 Cu 3 O 6.69 1 1995 2 Y123 3.88 11.723 K "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12013 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.4Ba1.35La1.25Cu3O6.78 Ca 0.4 Ba 1.35 La 1.25 Cu 3 O 6.78 1 1995 2 Y123 3.878 11.718 K "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12014 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.4Ba1.35La1.25Cu3O6.87 Ca 0.4 Ba 1.35 La 1.25 Cu 3 O 6.87 1 1995 2 Y123 3.878 11.709 K "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12015 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.4Ba1.35La1.25Cu3O6.98 Ca 0.4 Ba 1.35 La 1.25 Cu 3 O 6.98 1 1995 2 Y123 3.876 11.679 K 40.1 40.1 "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12016 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.4Ba1.35La1.25Cu3O7.05 Ca 0.4 Ba 1.35 La 1.25 Cu 3 O 7.05 1 1995 2 Y123 3.875 11.669 K 60 60 "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12017 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.4Ba1.35La1.25Cu3O7.14 Ca 0.4 Ba 1.35 La 1.25 Cu 3 O 7.14 1 1995 2 Y123 3.873 11.637 K 78.8 78.8 "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12018 PR05212982 "(Ca,La)(Ba,Nd)2Cu3O7" Ca0.1Ba1.65Nd1.25Cu3O6.67 Ca 0.1 Ba 1.65 Nd 1.25 Cu 3 O 6.67 1 1995 2 Y123 3.887 11.687 K "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12019 PR05212982 "(Ca,La)(Ba,Nd)2Cu3O7" Ca0.1Ba1.65Nd1.25Cu3O6.84 Ca 0.1 Ba 1.65 Nd 1.25 Cu 3 O 6.84 1 1995 2 Y123 3.885 11.663 K "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12020 PR05212982 "(Ca,La)(Ba,Nd)2Cu3O7" Ca0.1Ba1.65Nd1.25Cu3O6.96 Ca 0.1 Ba 1.65 Nd 1.25 Cu 3 O 6.96 1 1995 2 Y123 3.882 11.655 K "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12021 PR05212982 "(Ca,La)(Ba,Nd)2Cu3O7" Ca0.1Ba1.65Nd1.25Cu3O7.03 Ca 0.1 Ba 1.65 Nd 1.25 Cu 3 O 7.03 1 1995 2 Y123 3.882 11.652 K "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12022 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.4Ba1.15La1.45Cu3O7.02 Ca 0.4 Ba 1.15 La 1.45 Cu 3 O 7.02 1 1995 2 Y123 3.874 11.637 K 4.2 "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12023 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.4Ba1.15La1.45Cu3O7.08 Ca 0.4 Ba 1.15 La 1.45 Cu 3 O 7.08 1 1995 2 Y123 3.873 11.631 K 4.2 "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12024 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.4Ba1.15La1.45Cu3O7.12 Ca 0.4 Ba 1.15 La 1.45 Cu 3 O 7.12 1 1995 2 Y123 3.874 11.629 K 7.6 7.6 "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12025 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.4Ba1.15La1.45Cu3O7.21 Ca 0.4 Ba 1.15 La 1.45 Cu 3 O 7.21 1 1995 2 Y123 3.871 11.617 K 43.9 43.9 "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12026 PR05212982 "(Ca,La)(Ba,La)2Cu3O7" Ca0.4Ba1.15La1.45Cu3O7.23 Ca 0.4 Ba 1.15 La 1.45 Cu 3 O 7.23 1 1995 2 Y123 3.873 K 52.8 52.8 "La2O3,Nd2O3,CuO,BaCO3,CaCO3" 1 "MIX-SIN(16-20h,air,930-950C for La,Nd and Q=7.25, 950-980C for La and Q=7.35,7.45)-This step is repeated 3-4 times.-and more processes.In details, see text." "Relationship between superconductor and metal-insulator transitions in a large class of tetragonal 1:2:3 cuprates Ca-R-Ba-Cu-O (R=La, Nd)" 1995 11 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000,Israel" "Phys.Rev.B,52(1995)12982" "Ca, La, Nd, Ba, Cu, O" 12027 PR05213006 "PrBa2(Cu,Zn)3O7" Pr1Ba2Cu2.925Zn0.075O7-d Pr 1 Ba 2 Cu 2.925 Zn 0.075 O 7-d 1 1995 Bohr magne 2.95 16 Y123 K "Pr6O11,BaCO3,CuO,ZnO,Ga2O3" 1 "MIX-SIN(930C, 24h)-this process was repeated at least 3 times." "Structural, magnetic, ahd heat-capacity studies on Zn- and Ga-substituted PrBa2Cu3O7-z" 1995 11 "Tata Institute of Fundamental Research, Bombay 400005, India" "Phys.Rev.B,52(1995)13006" "Pr, Ba, Cu, O, Zn, Ga" 12028 PR05213006 "PrBa2(Cu,Zn)3O7" Pr1Ba2Cu2.85Zn0.15O7-d Pr 1 Ba 2 Cu 2.85 Zn 0.15 O 7-d 1 1995 Bohr magne 2.77 17 Y123 K "Pr6O11,BaCO3,CuO,ZnO,Ga2O3" 1 "MIX-SIN(930C, 24h)-this process was repeated at least 3 times." "Structural, magnetic, ahd heat-capacity studies on Zn- and Ga-substituted PrBa2Cu3O7-z" 1995 11 "Tata Institute of Fundamental Research, Bombay 400005, India" "Phys.Rev.B,52(1995)13006" "Pr, Ba, Cu, O, Zn, Ga" 12029 PR05213006 "PrBa2(Cu,Zn)3O7" Pr1Ba2Cu2.7Zn0.3O7-d Pr 1 Ba 2 Cu 2.7 Zn 0.3 O 7-d 1 1995 Bohr magne 2.98 16 Y123 A 3.882 3.917 11.702 4 K "Pr6O11,BaCO3,CuO,ZnO,Ga2O3" 1 "MIX-SIN(930C, 24h)-this process was repeated at least 3 times." "Structural, magnetic, ahd heat-capacity studies on Zn- and Ga-substituted PrBa2Cu3O7-z" 1995 11 "Tata Institute of Fundamental Research, Bombay 400005, India" "Phys.Rev.B,52(1995)13006" "Pr, Ba, Cu, O, Zn, Ga" 12030 PR05213006 PrBa2Cu3O7 Pr1Ba2Cu3O7-d Pr 1 Ba 2 Cu 3 O 7-d 1 1995 Bohr magne 2.85 17 Y123 Pmmm A 3.86 3.925 11.707 4 K "Pr6O11,BaCO3,CuO,ZnO,Ga2O3" 1 "MIX-SIN(930C, 24h)-this process was repeated at least 3 times." "Structural, magnetic, ahd heat-capacity studies on Zn- and Ga-substituted PrBa2Cu3O7-z" 1995 11 "Tata Institute of Fundamental Research, Bombay 400005, India" "Phys.Rev.B,52(1995)13006" "Pr, Ba, Cu, O, Zn, Ga" 12031 PR05213006 "PrBa2(Cu,Ga)3O7" Pr1Ba2Cu2.925Ga0.075O7-d Pr 1 Ba 2 Cu 2.925 Ga 0.075 O 7-d 1 1995 Bohr magne 3.03 16 Y123 K "Pr6O11,BaCO3,CuO,ZnO,Ga2O3" 1 "MIX-SIN(930C, 24h)-this process was repeated at least 3 times." "Structural, magnetic, ahd heat-capacity studies on Zn- and Ga-substituted PrBa2Cu3O7-z" 1995 11 "Tata Institute of Fundamental Research, Bombay 400005, India" "Phys.Rev.B,52(1995)13006" "Pr, Ba, Cu, O, Zn, Ga" 12032 PR05213006 "PrBa2(Cu,Ga)3O7" Pr1Ba2Cu2.85Ga0.15O7-d Pr 1 Ba 2 Cu 2.85 Ga 0.15 O 7-d 1 1995 Bohr magne 2.77 15 Y123 K "Pr6O11,BaCO3,CuO,ZnO,Ga2O3" 1 "MIX-SIN(930C, 24h)-this process was repeated at least 3 times." "Structural, magnetic, ahd heat-capacity studies on Zn- and Ga-substituted PrBa2Cu3O7-z" 1995 11 "Tata Institute of Fundamental Research, Bombay 400005, India" "Phys.Rev.B,52(1995)13006" "Pr, Ba, Cu, O, Zn, Ga" 12033 PR05213006 "PrBa2(Cu,Ga)3O7" Pr1Ba2Cu2.7Ga0.3O7-d Pr 1 Ba 2 Cu 2.7 Ga 0.3 O 7-d 1 1995 Bohr magne 2.77 14 2 Y123 P4/mmm A 3.901 11.671 4 K "Pr6O11,BaCO3,CuO,ZnO,Ga2O3" 1 "MIX-SIN(930C, 24h)-this process was repeated at least 3 times." "Structural, magnetic, ahd heat-capacity studies on Zn- and Ga-substituted PrBa2Cu3O7-z" 1995 11 "Tata Institute of Fundamental Research, Bombay 400005, India" "Phys.Rev.B,52(1995)13006" "Pr, Ba, Cu, O, Zn, Ga" 12034 PR05213563 LaNiO3 La1Ni1O3 La 1 Ni 1 O 3 1 1995 Rbar3c A 5.457 5.457 13.146 3 K "R2O3,Ni(NO3)2-6H2O,Ca(NO3)2,etc" "liquid mix technique. Raw mat. were solved in acid.Decompose(600C)-SIN(800C,air,several hours)-SIN(1000C,200bar,O2,12h)-COOL(R.T.)" Influence of carrier injection on the metal-insulator transion in electron- and hole-doped R1-xAxNiO3 perovskites 1995 11 "Institute de Ciencia de Barcelona, Consejo Superior de Investigaciones Cienti'ficas, E-08193 Bellaterra, Spain" "Phys.Rev.B,52(1995)13563" "Sr, Ca, Th, Ce, Ni, O, R" 12035 PR05213563 "(La,Sr)NiO3" La0.9Sr0.1Ni1O3 La 0.9 Sr 0.1 Ni 1 O 3 1 1995 Rbar3c A 5.446 5.446 13.16 3 K "R2O3,Ni(NO3)2-6H2O,Ca(NO3)2,etc" "liquid mix technique. Raw mat. were solved in acid.Decompose(600C)-SIN(800C,air,several hours)-SIN(1000C,200bar,O2,12h)-COOL(R.T.)" Influence of carrier injection on the metal-insulator transion in electron- and hole-doped R1-xAxNiO3 perovskites 1995 11 "Institute de Ciencia de Barcelona, Consejo Superior de Investigaciones Cienti'ficas, E-08193 Bellaterra, Spain" "Phys.Rev.B,52(1995)13563" "Sr, Ca, Th, Ce, Ni, O, R" 12036 PR05213563 "(La,Th)NiO3" La0.9Th0.1Ni1O3 La 0.9 Th 0.1 Ni 1 O 3 1 1995 Rbar3c A 5.456 5.456 13.155 3 K "R2O3,Ni(NO3)2-6H2O,Ca(NO3)2,etc" "liquid mix technique. Raw mat. were solved in acid.Decompose(600C)-SIN(800C,air,several hours)-SIN(1000C,200bar,O2,12h)-COOL(R.T.)" Influence of carrier injection on the metal-insulator transion in electron- and hole-doped R1-xAxNiO3 perovskites 1995 11 "Institute de Ciencia de Barcelona, Consejo Superior de Investigaciones Cienti'ficas, E-08193 Bellaterra, Spain" "Phys.Rev.B,52(1995)13563" "Sr, Ca, Th, Ce, Ni, O, R" 12037 PR05213563 NdNiO3 Nd1Ni1O3 Nd 1 Ni 1 O 3 1 1995 Pbnm A 5.339 5.377 7.608 3 K "R2O3,Ni(NO3)2-6H2O,Ca(NO3)2,etc" "liquid mix technique. Raw mat. were solved in acid.Decompose(600C)-SIN(800C,air,several hours)-SIN(1000C,200bar,O2,12h)-COOL(R.T.)" Influence of carrier injection on the metal-insulator transion in electron- and hole-doped R1-xAxNiO3 perovskites 1995 11 "Institute de Ciencia de Barcelona, Consejo Superior de Investigaciones Cienti'ficas, E-08193 Bellaterra, Spain" "Phys.Rev.B,52(1995)13563" "Sr, Ca, Th, Ce, Ni, O, R" 12038 PR05213563 "(Nd,Sr)NiO3" Nd0.99Sr0.01Ni1O3 Nd 0.99 Sr 0.01 Ni 1 O 3 1 1995 Pbnm A 5.393 5.375 7.607 3 K "R2O3,Ni(NO3)2-6H2O,Ca(NO3)2,etc" "liquid mix technique. Raw mat. were solved in acid.Decompose(600C)-SIN(800C,air,several hours)-SIN(1000C,200bar,O2,12h)-COOL(R.T.)" Influence of carrier injection on the metal-insulator transion in electron- and hole-doped R1-xAxNiO3 perovskites 1995 11 "Institute de Ciencia de Barcelona, Consejo Superior de Investigaciones Cienti'ficas, E-08193 Bellaterra, Spain" "Phys.Rev.B,52(1995)13563" "Sr, Ca, Th, Ce, Ni, O, R" 12039 PR05213563 "(Nd,Sr)NiO3" Nd0.98Sr0.02Ni1O3 Nd 0.98 Sr 0.02 Ni 1 O 3 1 1995 Pbnm A 5.39 5.374 7.607 3 K "R2O3,Ni(NO3)2-6H2O,Ca(NO3)2,etc" "liquid mix technique. Raw mat. were solved in acid.Decompose(600C)-SIN(800C,air,several hours)-SIN(1000C,200bar,O2,12h)-COOL(R.T.)" Influence of carrier injection on the metal-insulator transion in electron- and hole-doped R1-xAxNiO3 perovskites 1995 11 "Institute de Ciencia de Barcelona, Consejo Superior de Investigaciones Cienti'ficas, E-08193 Bellaterra, Spain" "Phys.Rev.B,52(1995)13563" "Sr, Ca, Th, Ce, Ni, O, R" 12040 PR05213563 "(Nd,Sr)NiO3" Nd0.97Sr0.03Ni1O3 Nd 0.97 Sr 0.03 Ni 1 O 3 1 1995 Pbnm A 5.397 5.366 7.601 3 K "R2O3,Ni(NO3)2-6H2O,Ca(NO3)2,etc" "liquid mix technique. Raw mat. were solved in acid.Decompose(600C)-SIN(800C,air,several hours)-SIN(1000C,200bar,O2,12h)-COOL(R.T.)" Influence of carrier injection on the metal-insulator transion in electron- and hole-doped R1-xAxNiO3 perovskites 1995 11 "Institute de Ciencia de Barcelona, Consejo Superior de Investigaciones Cienti'ficas, E-08193 Bellaterra, Spain" "Phys.Rev.B,52(1995)13563" "Sr, Ca, Th, Ce, Ni, O, R" 12041 PR05213563 "(Nd,Sr)NiO3" Nd0.95Sr0.05Ni1O3 Nd 0.95 Sr 0.05 Ni 1 O 3 1 1995 Pbnm A 5.395 5.367 7.612 3 K "R2O3,Ni(NO3)2-6H2O,Ca(NO3)2,etc" "liquid mix technique. Raw mat. were solved in acid.Decompose(600C)-SIN(800C,air,several hours)-SIN(1000C,200bar,O2,12h)-COOL(R.T.)" Influence of carrier injection on the metal-insulator transion in electron- and hole-doped R1-xAxNiO3 perovskites 1995 11 "Institute de Ciencia de Barcelona, Consejo Superior de Investigaciones Cienti'ficas, E-08193 Bellaterra, Spain" "Phys.Rev.B,52(1995)13563" "Sr, Ca, Th, Ce, Ni, O, R" 12042 PR05213563 "(Nd,Sr)NiO3" Nd0.9Sr0.1Ni1O3 Nd 0.9 Sr 0.1 Ni 1 O 3 1 1995 Pbnm A 5.401 5.364 7.617 3 K "R2O3,Ni(NO3)2-6H2O,Ca(NO3)2,etc" "liquid mix technique. Raw mat. were solved in acid.Decompose(600C)-SIN(800C,air,several hours)-SIN(1000C,200bar,O2,12h)-COOL(R.T.)" Influence of carrier injection on the metal-insulator transion in electron- and hole-doped R1-xAxNiO3 perovskites 1995 11 "Institute de Ciencia de Barcelona, Consejo Superior de Investigaciones Cienti'ficas, E-08193 Bellaterra, Spain" "Phys.Rev.B,52(1995)13563" "Sr, Ca, Th, Ce, Ni, O, R" 12043 PR05213563 "(Nd,Ca)NiO3" Nd0.99Ca0.01Ni1O3 Nd 0.99 Ca 0.01 Ni 1 O 3 1 1995 Pbnm A 5.39 5.376 7.606 3 K "R2O3,Ni(NO3)2-6H2O,Ca(NO3)2,etc" "liquid mix technique. Raw mat. were solved in acid.Decompose(600C)-SIN(800C,air,several hours)-SIN(1000C,200bar,O2,12h)-COOL(R.T.)" Influence of carrier injection on the metal-insulator transion in electron- and hole-doped R1-xAxNiO3 perovskites 1995 11 "Institute de Ciencia de Barcelona, Consejo Superior de Investigaciones Cienti'ficas, E-08193 Bellaterra, Spain" "Phys.Rev.B,52(1995)13563" "Sr, Ca, Th, Ce, Ni, O, R" 12044 PR05213563 "(Nd,Ca)NiO3" Nd0.98Ca0.02Ni1O3 Nd 0.98 Ca 0.02 Ni 1 O 3 1 1995 Pbnm A 5.39 5.373 7.604 3 K "R2O3,Ni(NO3)2-6H2O,Ca(NO3)2,etc" "liquid mix technique. Raw mat. were solved in acid.Decompose(600C)-SIN(800C,air,several hours)-SIN(1000C,200bar,O2,12h)-COOL(R.T.)" Influence of carrier injection on the metal-insulator transion in electron- and hole-doped R1-xAxNiO3 perovskites 1995 11 "Institute de Ciencia de Barcelona, Consejo Superior de Investigaciones Cienti'ficas, E-08193 Bellaterra, Spain" "Phys.Rev.B,52(1995)13563" "Sr, Ca, Th, Ce, Ni, O, R" 12045 PR05213563 "(Nd,Ca)NiO3" Nd0.97Ca0.03Ni1O3 Nd 0.97 Ca 0.03 Ni 1 O 3 1 1995 Pbnm A 5.39 5.37 7.602 3 K "R2O3,Ni(NO3)2-6H2O,Ca(NO3)2,etc" "liquid mix technique. Raw mat. were solved in acid.Decompose(600C)-SIN(800C,air,several hours)-SIN(1000C,200bar,O2,12h)-COOL(R.T.)" Influence of carrier injection on the metal-insulator transion in electron- and hole-doped R1-xAxNiO3 perovskites 1995 11 "Institute de Ciencia de Barcelona, Consejo Superior de Investigaciones Cienti'ficas, E-08193 Bellaterra, Spain" "Phys.Rev.B,52(1995)13563" "Sr, Ca, Th, Ce, Ni, O, R" 12046 PR05213563 "(Nd,Ca)NiO3" Nd0.95Ca0.05Ni1O3 Nd 0.95 Ca 0.05 Ni 1 O 3 1 1995 Pbnm A 5.393 5.37 7.605 3 K "R2O3,Ni(NO3)2-6H2O,Ca(NO3)2,etc" "liquid mix technique. Raw mat. were solved in acid.Decompose(600C)-SIN(800C,air,several hours)-SIN(1000C,200bar,O2,12h)-COOL(R.T.)" Influence of carrier injection on the metal-insulator transion in electron- and hole-doped R1-xAxNiO3 perovskites 1995 11 "Institute de Ciencia de Barcelona, Consejo Superior de Investigaciones Cienti'ficas, E-08193 Bellaterra, Spain" "Phys.Rev.B,52(1995)13563" "Sr, Ca, Th, Ce, Ni, O, R" 12047 PR05213563 "(Nd,Ca)NiO3" Nd0.9Ca0.1Ni1O3 Nd 0.9 Ca 0.1 Ni 1 O 3 1 1995 Pbnm A 5.397 5.369 7.61 3 K "R2O3,Ni(NO3)2-6H2O,Ca(NO3)2,etc" "liquid mix technique. Raw mat. were solved in acid.Decompose(600C)-SIN(800C,air,several hours)-SIN(1000C,200bar,O2,12h)-COOL(R.T.)" Influence of carrier injection on the metal-insulator transion in electron- and hole-doped R1-xAxNiO3 perovskites 1995 11 "Institute de Ciencia de Barcelona, Consejo Superior de Investigaciones Cienti'ficas, E-08193 Bellaterra, Spain" "Phys.Rev.B,52(1995)13563" "Sr, Ca, Th, Ce, Ni, O, R" 12048 PR05213563 "(Nd,Th)NiO3" Nd0.97Th0.03Ni1O3 Nd 0.97 Th 0.03 Ni 1 O 3 1 1995 Pbnm A 5.388 5.389 7.611 3 K "R2O3,Ni(NO3)2-6H2O,Ca(NO3)2,etc" "liquid mix technique. Raw mat. were solved in acid.Decompose(600C)-SIN(800C,air,several hours)-SIN(1000C,200bar,O2,12h)-COOL(R.T.)" Influence of carrier injection on the metal-insulator transion in electron- and hole-doped R1-xAxNiO3 perovskites 1995 11 "Institute de Ciencia de Barcelona, Consejo Superior de Investigaciones Cienti'ficas, E-08193 Bellaterra, Spain" "Phys.Rev.B,52(1995)13563" "Sr, Ca, Th, Ce, Ni, O, R" 12049 PR05213563 "(Nd,Th)NiO3" Nd0.95Th0.05Ni1O3 Nd 0.95 Th 0.05 Ni 1 O 3 1 1995 Pbnm A 5.391 5.389 7.617 3 K "R2O3,Ni(NO3)2-6H2O,Ca(NO3)2,etc" "liquid mix technique. Raw mat. were solved in acid.Decompose(600C)-SIN(800C,air,several hours)-SIN(1000C,200bar,O2,12h)-COOL(R.T.)" Influence of carrier injection on the metal-insulator transion in electron- and hole-doped R1-xAxNiO3 perovskites 1995 11 "Institute de Ciencia de Barcelona, Consejo Superior de Investigaciones Cienti'ficas, E-08193 Bellaterra, Spain" "Phys.Rev.B,52(1995)13563" "Sr, Ca, Th, Ce, Ni, O, R" 12050 PR05213563 "(Nd,Th)NiO3" Nd0.92Th0.08Ni1O3 Nd 0.92 Th 0.08 Ni 1 O 3 1 1995 Pbnm A 5.393 5.393 7.62 3 K "R2O3,Ni(NO3)2-6H2O,Ca(NO3)2,etc" "liquid mix technique. Raw mat. were solved in acid.Decompose(600C)-SIN(800C,air,several hours)-SIN(1000C,200bar,O2,12h)-COOL(R.T.)" Influence of carrier injection on the metal-insulator transion in electron- and hole-doped R1-xAxNiO3 perovskites 1995 11 "Institute de Ciencia de Barcelona, Consejo Superior de Investigaciones Cienti'ficas, E-08193 Bellaterra, Spain" "Phys.Rev.B,52(1995)13563" "Sr, Ca, Th, Ce, Ni, O, R" 12051 PR05213563 "(Nd,Th)NiO3" Nd0.9Th0.1Ni1O3 Nd 0.9 Th 0.1 Ni 1 O 3 1 1995 Pbnm A 5.392 5.395 7.62 3 K "R2O3,Ni(NO3)2-6H2O,Ca(NO3)2,etc" "liquid mix technique. Raw mat. were solved in acid.Decompose(600C)-SIN(800C,air,several hours)-SIN(1000C,200bar,O2,12h)-COOL(R.T.)" Influence of carrier injection on the metal-insulator transion in electron- and hole-doped R1-xAxNiO3 perovskites 1995 11 "Institute de Ciencia de Barcelona, Consejo Superior de Investigaciones Cienti'ficas, E-08193 Bellaterra, Spain" "Phys.Rev.B,52(1995)13563" "Sr, Ca, Th, Ce, Ni, O, R" 12052 PR05213134 YBa2Cu3O7 Y1Ba2Cu3O6.05 Y 1 Ba 2 Cu 3 O 6.05 3 1995 K THC12052 ohm.cm 5 "See Physica C 201,233 (1992)" Anomalous phonon damping and thermal coductivity in insulating cuprates 1995 11 "Physics Department, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,52(1995)R13134" "Y, Ba, Cu, O, Pr" 12053 PR05213134 YBa2Cu3O7 Y1Ba2Cu3O6.07 Y 1 Ba 2 Cu 3 O 6.07 3 1995 K ohm.cm 4.5 5 "See Physica C 201,233 (1992)" Anomalous phonon damping and thermal coductivity in insulating cuprates 1995 11 "Physics Department, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,52(1995)R13134" "Y, Ba, Cu, O, Pr" 12054 PR05213134 YBa2Cu3O7 Y1Ba2Cu3O6.08 Y 1 Ba 2 Cu 3 O 6.08 3 1995 K THC12054 ohm.cm 0.3 5 "See Physica C 201,233 (1992)" Anomalous phonon damping and thermal coductivity in insulating cuprates 1995 11 "Physics Department, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,52(1995)R13134" "Y, Ba, Cu, O, Pr" 12055 PR05213134 YBa2Cu3O7 Y1Ba2Cu3O6.11 Y 1 Ba 2 Cu 3 O 6.11 3 1995 K THC12055 ohm.cm 0.03 5 "See Physica C 201,233 (1992)" Anomalous phonon damping and thermal coductivity in insulating cuprates 1995 11 "Physics Department, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,52(1995)R13134" "Y, Ba, Cu, O, Pr" 12056 PR05213134 YBa2Cu3O7 Pr1Ba2Cu3O6.05 Pr 1 Ba 2 Cu 3 O 6.05 3 1995 K 5 "See Physica C 201,233 (1992)" Anomalous phonon damping and thermal coductivity in insulating cuprates 1995 11 "Physics Department, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,52(1995)R13134" "Y, Ba, Cu, O, Pr" 12057 PR05212883 "(Tl,Pb)Sr2(Ca,Y)Cu2O7" Tl0.5Pb0.5Sr2Ca0.7Y0.3Cu2O7 Tl 0.5 Pb 0.5 Sr 2 Ca 0.7 Y 0.3 Cu 2 O 7 1 1995 Tl1212 P4/mmm A 3.81 12.066 3 K "CaCO3,Y2O3,SrCO3,CuO,Tl2O3,PbO" 1 "Precursor(fired,CaCO3 Y2O3 SrCO3 CuO,970C,12h,air)-MIX(Tl2O3 PbO precursor)-pelletizing-Wrap(gold foils)-SIN(950C,3h,flow O2)" Electron-spin-resonance studies of the hole-doping effect on (TL0.5Pb0.5) Sr2(Ca1-xYx)Cu2O7 high-T superconductors 1995 11 "Department of Physics, National Tsing Hua University, Hsinchu, Taiwan, Republic of China" "Phys.Rev.B,52(1995)12883" "Tl, Pb, Sr, Ca, Y, Cu, O" 12060 L094037007 Tc from In-NQR. Tc(max)=0.8 K at P=2.1 GPa. energy gap is independent pf P. dTc/dP estimated from Tc(P) figure. CeIrIn5 Ce1Ir1In5 Ce 1 Ir 1 In 5 3 2005 HoCoGa5 HoCoGa5 K 0.4 0.4 K/GPa 0.19 2.5 6 self flux method Enhancing the Superconducting Transition Temperature of the Heavy Fermion Compound CeIrIn5 in the Absence of Spin Correlations 2005 "Department of Materials Engineering Science, Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka, Japan" "Phys.Rev.Lett., 94(2005)037007" 12061 L094047001 CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2005 HoCoGa5 HoCoGa5 K 2.3 2.3 T NQR 4.9 MMHC12061 using In-flux. Superconductivity in CeCoIn5-xSnx: Veil over an Ordered State or Novel Quantum Critical Point? 2005 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 94(2005)047001" 12062 L094047001 "CeCo(In,Sn)5" Ce1Co1In4.97Sn0.03 Ce 1 Co 1 In 4.97 Sn 0.03 3 2005 HoCoGa5 HoCoGa5 K 1.86 1.86 T NQR 4.8 using In-flux. Superconductivity in CeCoIn5-xSnx: Veil over an Ordered State or Novel Quantum Critical Point? 2005 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 94(2005)047001" 12063 L094047001 "CeCo(In,Sn)5" Ce1Co1In4.94Sn0.06 Ce 1 Co 1 In 4.94 Sn 0.06 3 2005 HoCoGa5 HoCoGa5 K 1.57 1.57 T NQR 3.8 using In-flux. Superconductivity in CeCoIn5-xSnx: Veil over an Ordered State or Novel Quantum Critical Point? 2005 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 94(2005)047001" 12064 L094047001 "CeCo(In,Sn)5" Ce1Co1In4.88Sn0.12 Ce 1 Co 1 In 4.88 Sn 0.12 3 2005 HoCoGa5 HoCoGa5 K 0.93 0.93 T NQR 2.54 using In-flux. Superconductivity in CeCoIn5-xSnx: Veil over an Ordered State or Novel Quantum Critical Point? 2005 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 94(2005)047001" 12065 L093156802 Anisotropic energy gap (2*gap/kTc) = 2.78 for I//c. = 0.64 for I//a. YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 3 2004 LuNi2B2C YNi2B2C K 14.6 14.6 2.78 1 TSFZ method using image furnace. Evidence of Gap Anisotropy in Superconducting YNi2B2C Using Directional Point-Contact Spectroscopy 2004 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai, India" "Phys.Rev.Lett., 93(2004)1568002" 12066 L093157004 hydrostatic pressure. PENET and GAPENE are almost pressure independent. RbOs2O6 Rb1Os2O6 Rb 1 Os 2 O 6 2004 pyrochlore K 6.3 6.3 K/GPa 0.9 A "susceptibility, muon-SR" 2300 3.72 13 Pressure Effects on the Transition Temperature and the Magnetic Field Penetration Depth in the Pyrochlore Superconductor RbOs2O6 2004 "Laboratory for Neutron Scattering, Eidgenossische Technische Hochschule, Zurich, Switzerland, and Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.Lett., 93(2004)157004" 12067 L093247007 Co-valence determined using redox titration. The amount of H2O not given. Tc vs Co-valence were measured. Nax(H3O)zCO2:yH2O Na0.35Co1H2.6O3.3 Na 0.35 Co 1 H 2.6 O 3.3 1 2004 K 4.8 4.8 "Na2CO3,Co3O4,Na" Na-deintercalated materials were in H2O or D2O container Revised Superconducting Phase Diagram of Hole-Doped Nax(H3O)zCoO2:yH2O 2004 "Hahn-Meitner-Institut, Glienicker Strasse 100, Berlin D-14109, Germany" "Phys.Rev.Lett., 93(2004)247007" 12068 L094047006 pseudogap measured by NMR Bi2Sr2CuO6.36 Bi2Sr2Cu1O6.36 Bi 2 Sr 2 Cu 1 O 6+z 6.36 3 2005 Bi2201 K 8 8 "Bi2O3,SrCO3,La2O3,CuO" TSFZ method Critical Point and the Nature of the Pseudogap of Single-Layered Copper-Oxide Bi2Sr2-xLaxCuO6+z Superconductors 2005 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.Lett., 94(2005)047006" 12069 L094047006 pseudogap measured by NMR "Bi2(Sr,La)2CuO6" Bi2Sr1.6La0.4Cu1O6 Bi 2 Sr 1.6 La 0.4 Cu 1 O 6 3 2005 Bi2201 K 32 32 MMTC12069 "Bi2O3,SrCO3,La2O3,CuO" TSFZ method Critical Point and the Nature of the Pseudogap of Single-Layered Copper-Oxide Bi2Sr2-xLaxCuO6+z Superconductors 2005 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.Lett., 94(2005)047006" 12070 L094097002 structure = dhcp Am(I) Am1 Am 1 2005 element K 0.62 0.62 Superconductivity in the Americium Metal as a Function of Pressure: Probing the Mott Transition 2005 "European Commission, Joint Research Centre, Institute for Transuranium, Elements Postfach 2340, 76125 Karlsruhe, Germany" "Phys.Rev.Lett., 94(2005)097002" 12071 L094097002 "structure=fcc. Tc(P) estimated from Fig.2 using V(P) in Phys.Rev.Lett., 85(2000)2961." Am(II) Am1 Am 1 2005 element K 2.2 2.2 MMTC12071 MMHC12071 Superconductivity in the Americium Metal as a Function of Pressure: Probing the Mott Transition 2005 "European Commission, Joint Research Centre, Institute for Transuranium, Elements Postfach 2340, 76125 Karlsruhe, Germany" "Phys.Rev.Lett., 94(2005)097002" 12072 L094097002 structure=Pnma. Am(IV) Am1 Am 1 2005 element K 1.5 1.5 K/GPa -0.15 Superconductivity in the Americium Metal as a Function of Pressure: Probing the Mott Transition 2005 "European Commission, Joint Research Centre, Institute for Transuranium, Elements Postfach 2340, 76125 Karlsruhe, Germany" "Phys.Rev.Lett., 94(2005)097002" 12073 SST0180041 "epitaxial film, d=800 A. Figure shows substrate temperature dependence of Tc." "(Pr,Ca)Ba2Cu3O7" Pr0.5Ca0.5Ba2Cu3O7-z Pr 0.5 Ca 0.5 Ba 2 Cu 3 O 7-z 5 2005 Y123 K 37 6 37 TC12073 T "WHH theory, resistivity" 47.1 T/K resistivity 1.73 Epitaxial films were grown on SrTiO3 using pulsed-laser ablation. Growth and superconducting transition of Pr1-xCaxBa2Cu3O7-z (X=0.5) epitaxial thin films 2005 "National Laboratory for Superconductivity, Institute of Physics and Center for Condensed Matter Physics, Chinese Academy of Sciences, Beijing, China" "Supercond.Sci.Technol., 18(2005)41" 12074 SST0180277 "XRD, IR, resistivity, SUS were measured." "(La,Sr)2(Cu,Co)O4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 4 1 2005 T K 37 37 conventional solid state reaction "Superconductivity, magnetic susceptibility and electrical resistivity of the double-doped La1.85-xSr0.15+xCu1-xCoxO4 (0= given in discussion. (dC/gamma*Tc) = 2.9. Curie-Weiss behavior for Tc 100. gamma estimated from (dC/Tc) = 92.7 mJ/mol-Os.K2 assuming (dTc/gamma*Tc)=1.43. unknown peak in SP-heat at 7.4 K. KOsO6 K1Os2O6 K 1 Os 2 O 6 3 2005 pyrochlore K 9.53 0.1 9.53 T/K resistivity 4.3 mJ/mol.K2 64.8 SP-heat KOsO4 firstly prepared from K2O and Os. (KOsO4+Os+AgO) - heat(673K in sealed quartz tube. Second Anomaly in the Specific Heat of beta-Pyrochlore Oxide Superconductor KOs2O6 2005 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba, Japan" "J.Phys.Soc.Jpn, 74(2005)1682" 12276 PHC4230119 94%Bi2223+6%Bi2212 "(Bi,Sr)2Sr2Ca2Cu3Oz" Bi1.6Pb0.4Sr2Ca2Cu3Oz Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 3 O z 2 2005 Bi2223 A 5.431 37.236 K 106.8 106.8 "Bi2O3,PbO,SrCO3,CaO,Sm2O3,CuO" "mixture - CAL(800-850C,24h) - pellet SIN(860-950C,200h) - cool to RT(3C/min or 5C/min)" Structural and physical properties of Sm-doped Bi1.6Pb0.4Sr2Ca2-xSmxCu3Oy superconductors 2005 " Department of Physics, Faculty of Arts and Sciences, Abant Izzet Baysal University, 14280 Bolu, Turkey" "Physica C, 423(2005)119" 12277 PHC4230119 92%Bi2223+8%Bi2212 "(Bi,Sr)2Sr2(Ca,Sm)2Cu3Oz" Bi1.6Pb0.4Sr2Ca1.9995Sm0.0005Cu3Oz Bi 1.6 Pb 0.4 Sr 2 Ca 1.9995 Sm 0.0005 Cu 3 O z 2 2005 Bi2223 A 5.416 37.206 K 102 102 "Bi2O3,PbO,SrCO3,CaO,Sm2O3,CuO" "mixture - CAL(800-850C,24h) - pellet SIN(860-950C,200h) - cool to RT(3C/min or 5C/min)" Structural and physical properties of Sm-doped Bi1.6Pb0.4Sr2Ca2-xSmxCu3Oy superconductors 2005 " Department of Physics, Faculty of Arts and Sciences, Abant Izzet Baysal University, 14280 Bolu, Turkey" "Physica C, 423(2005)119" 12278 PHC4230119 83%Bi2223+17%Bi2212 "(Bi,Sr)2Sr2(Ca,Sm)2Cu3Oz" Bi1.6Pb0.4Sr2Ca1.999Sm0.001Cu3Oz Bi 1.6 Pb 0.4 Sr 2 Ca 1.999 Sm 0.001 Cu 3 O z 2 2005 Bi2223 A 5.418 37.197 K 97.1 97.1 "Bi2O3,PbO,SrCO3,CaO,Sm2O3,CuO" "mixture - CAL(800-850C,24h) - pellet SIN(860-950C,200h) - cool to RT(3C/min or 5C/min)" Structural and physical properties of Sm-doped Bi1.6Pb0.4Sr2Ca2-xSmxCu3Oy superconductors 2005 " Department of Physics, Faculty of Arts and Sciences, Abant Izzet Baysal University, 14280 Bolu, Turkey" "Physica C, 423(2005)119" 12279 PHC4230119 79%Bi2223+21%Bi2212 "(Bi,Sr)2Sr2(Ca,Sm)2Cu3Oz" Bi1.6Pb0.4Sr2Ca1.995Sm0.005Cu3Oz Bi 1.6 Pb 0.4 Sr 2 Ca 1.995 Sm 0.005 Cu 3 O z 2 2005 Bi2223 A 5.421 37.19 K 93.3 93.3 "Bi2O3,PbO,SrCO3,CaO,Sm2O3,CuO" "mixture - CAL(800-850C,24h) - pellet SIN(860-950C,200h) - cool to RT(3C/min or 5C/min)" Structural and physical properties of Sm-doped Bi1.6Pb0.4Sr2Ca2-xSmxCu3Oy superconductors 2005 " Department of Physics, Faculty of Arts and Sciences, Abant Izzet Baysal University, 14280 Bolu, Turkey" "Physica C, 423(2005)119" 12280 PHC4230119 74%Bi2223+26%Bi2212 "(Bi,Sr)2Sr2(Ca,Sm)2Cu3Oz" Bi1.6Pb0.4Sr2Ca1.99Sm0.01Cu3Oz Bi 1.6 Pb 0.4 Sr 2 Ca 1.99 Sm 0.01 Cu 3 O z 2 2005 Bi2223 A 5.424 37.181 K 84.8 84.8 "Bi2O3,PbO,SrCO3,CaO,Sm2O3,CuO" "mixture - CAL(800-850C,24h) - pellet SIN(860-950C,200h) - cool to RT(3C/min or 5C/min)" Structural and physical properties of Sm-doped Bi1.6Pb0.4Sr2Ca2-xSmxCu3Oy superconductors 2005 " Department of Physics, Faculty of Arts and Sciences, Abant Izzet Baysal University, 14280 Bolu, Turkey" "Physica C, 423(2005)119" 12281 PHC4230119 "(Bi,Sr)2Sr2(Ca,Sm)2Cu3Oz" Bi1.6Pb0.4Sr2Ca1.9Sm0.1Cu3Oz Bi 1.6 Pb 0.4 Sr 2 Ca 1.9 Sm 0.1 Cu 3 O z 1 2005 Bi2212 A 5.431 30.741 K 70 70 "Bi2O3,PbO,SrCO3,CaO,Sm2O3,CuO" "mixture - CAL(800-850C,24h) - pellet SIN(860-950C,200h) - cool to RT(3C/min or 5C/min)" Structural and physical properties of Sm-doped Bi1.6Pb0.4Sr2Ca2-xSmxCu3Oy superconductors 2005 " Department of Physics, Faculty of Arts and Sciences, Abant Izzet Baysal University, 14280 Bolu, Turkey" "Physica C, 423(2005)119" 12282 PHC4230119 "(Bi,Sr)2Sr2(Ca,Sm)2Cu3Oz" Bi1.6Pb0.4Sr2Ca1.5Sm0.5Cu3Oz Bi 1.6 Pb 0.4 Sr 2 Ca 1.5 Sm 0.5 Cu 3 O z 1 2005 Bi2212 A 5.443 30.651 K 28 28 "Bi2O3,PbO,SrCO3,CaO,Sm2O3,CuO" "mixture - CAL(800-850C,24h) - pellet SIN(860-950C,200h) - cool to RT(3C/min or 5C/min)" Structural and physical properties of Sm-doped Bi1.6Pb0.4Sr2Ca2-xSmxCu3Oy superconductors 2005 " Department of Physics, Faculty of Arts and Sciences, Abant Izzet Baysal University, 14280 Bolu, Turkey" "Physica C, 423(2005)119" 12283 PHC4230119 "(Bi,Sr)2Sr2(Ca,Sm)2Cu3Oz" Bi1.6Pb0.4Sr2Ca1Sm1Cu3Oz Bi 1.6 Pb 0.4 Sr 2 Ca 1 Sm 1 Cu 3 O z 1 2005 Bi2212 A 5.464 30.323 K 21 "Bi2O3,PbO,SrCO3,CaO,Sm2O3,CuO" "mixture - CAL(800-850C,24h) - pellet SIN(860-950C,200h) - cool to RT(3C/min or 5C/min)" Structural and physical properties of Sm-doped Bi1.6Pb0.4Sr2Ca2-xSmxCu3Oy superconductors 2005 " Department of Physics, Faculty of Arts and Sciences, Abant Izzet Baysal University, 14280 Bolu, Turkey" "Physica C, 423(2005)119" 12284 PHC4230119 "(Bi,Sr)2Sr2(Ca,Sm)2Cu3Oz" Bi1.6Pb0.4Sr2Ca0.5Sm1.5Cu3Oz Bi 1.6 Pb 0.4 Sr 2 Ca 0.5 Sm 1.5 Cu 3 O z 1 2005 Bi2212 A 5.468 30.278 K 21 "Bi2O3,PbO,SrCO3,CaO,Sm2O3,CuO" "mixture - CAL(800-850C,24h) - pellet SIN(860-950C,200h) - cool to RT(3C/min or 5C/min)" Structural and physical properties of Sm-doped Bi1.6Pb0.4Sr2Ca2-xSmxCu3Oy superconductors 2005 " Department of Physics, Faculty of Arts and Sciences, Abant Izzet Baysal University, 14280 Bolu, Turkey" "Physica C, 423(2005)119" 12285 P072014504 hole conc = 0.22. chemical compo. obtained by EDX. hole conc from L3-absorption edge. "Bi2(Sr,La)2CuO6" Bi1.95Sr1.92La0.1Cu1.03O6+z Bi 1.95 Sr 1.92 La 0.1 Cu 1.03 O 6+z 1 2005 Bi2201 K 8.5 8.5 "Bi2O3,La2O3,CuO,SrCO" 1 "standard sintering method. SIN(890C), SIN(800C for no La), in air" Evolution of the density of states at the Fermi level of Bi2-yPbySr2-xLaxCuO6+z and Bi2Sr2-xLaxCuO6+z cuprates with hole doping 2005 "Humboldt Universitat, Institut fur Physik, Newtonstrasse 15, 12489 Berlin, Germany" "Phys.Rev.B, 72(2005)014504" 12286 P072014504 hole conc = 0.20. chemical compo. obtained by EDX. hole conc from L3-absorption edge. "Bi2(Sr,La)2CuO6" Bi2.02Sr1.82La0.15Cu1.02O6+z Bi 2.02 Sr 1.82 La 0.15 Cu 1.02 O 6+z 1 2005 Bi2201 K 11 11 "Bi2O3,La2O3,CuO,SrCO" 1 "standard sintering method. SIN(890C), SIN(800C for no La), in air" Evolution of the density of states at the Fermi level of Bi2-yPbySr2-xLaxCuO6+z and Bi2Sr2-xLaxCuO6+z cuprates with hole doping 2005 "Humboldt Universitat, Institut fur Physik, Newtonstrasse 15, 12489 Berlin, Germany" "Phys.Rev.B, 72(2005)014504" 12287 P072014504 hole conc = 0.19. chemical compo. obtained by EDX. hole conc from L3-absorption edge. "Bi2(Sr,La)2CuO6" Bi1.93Sr1.85La0.23Cu0.99O6+z Bi 1.93 Sr 1.85 La 0.23 Cu 0.99 O 6+z 1 2005 Bi2201 K 15 15 "Bi2O3,La2O3,CuO,SrCO" 1 "standard sintering method. SIN(890C), SIN(800C for no La), in air" Evolution of the density of states at the Fermi level of Bi2-yPbySr2-xLaxCuO6+z and Bi2Sr2-xLaxCuO6+z cuprates with hole doping 2005 "Humboldt Universitat, Institut fur Physik, Newtonstrasse 15, 12489 Berlin, Germany" "Phys.Rev.B, 72(2005)014504" 12288 P072014504 hole conc = 0.17. chemical compo. obtained by EDX. hole conc from L3-absorption edge. "Bi2(Sr,La)2CuO6" Bi1.96Sr1.66La0.31Cu1.01O6+z Bi 1.96 Sr 1.66 La 0.31 Cu 1.01 O 6+z 1 2005 Bi2201 K 17 17 "Bi2O3,La2O3,CuO,SrCO" 1 "standard sintering method. SIN(890C), SIN(800C for no La), in air" Evolution of the density of states at the Fermi level of Bi2-yPbySr2-xLaxCuO6+z and Bi2Sr2-xLaxCuO6+z cuprates with hole doping 2005 "Humboldt Universitat, Institut fur Physik, Newtonstrasse 15, 12489 Berlin, Germany" "Phys.Rev.B, 72(2005)014504" 12289 P072014504 hole conc = 0.17. chemical compo. obtained by EDX. hole conc from L3-absorption edge. "Bi2(Sr,La)2CuO6" Bi1.99Sr1.66La0.33Cu1.01O6+z Bi 1.99 Sr 1.66 La 0.33 Cu 1.01 O 6+z 1 2005 Bi2201 K 18.5 18.5 "Bi2O3,La2O3,CuO,SrCO" 1 "standard sintering method. SIN(890C), SIN(800C for no La), in air" Evolution of the density of states at the Fermi level of Bi2-yPbySr2-xLaxCuO6+z and Bi2Sr2-xLaxCuO6+z cuprates with hole doping 2005 "Humboldt Universitat, Institut fur Physik, Newtonstrasse 15, 12489 Berlin, Germany" "Phys.Rev.B, 72(2005)014504" 12290 P072014504 hole conc = 0.19. chemical compo. obtained by EDX. hole conc from L3-absorption edge. "Bi2(Sr,La)2CuO6" Bi1.91Sr1.69La0.4Cu0.98O6+z Bi 1.91 Sr 1.69 La 0.4 Cu 0.98 O 6+z 1 2005 Bi2201 K 16 16 "Bi2O3,La2O3,CuO,SrCO" 1 "standard sintering method. SIN(890C), SIN(800C for no La), in air" Evolution of the density of states at the Fermi level of Bi2-yPbySr2-xLaxCuO6+z and Bi2Sr2-xLaxCuO6+z cuprates with hole doping 2005 "Humboldt Universitat, Institut fur Physik, Newtonstrasse 15, 12489 Berlin, Germany" "Phys.Rev.B, 72(2005)014504" 12291 P072014504 hole conc = 0.15. chemical compo. obtained by EDX. hole conc from L3-absorption edge. "Bi2(Sr,La)2CuO6" Bi1.97Sr1.56La0.45Cu1.02O6+z Bi 1.97 Sr 1.56 La 0.45 Cu 1.02 O 6+z 1 2005 Bi2201 K 13 13 "Bi2O3,La2O3,CuO,SrCO" 1 "standard sintering method. SIN(890C), SIN(800C for no La), in air" Evolution of the density of states at the Fermi level of Bi2-yPbySr2-xLaxCuO6+z and Bi2Sr2-xLaxCuO6+z cuprates with hole doping 2005 "Humboldt Universitat, Institut fur Physik, Newtonstrasse 15, 12489 Berlin, Germany" "Phys.Rev.B, 72(2005)014504" 12292 P072014504 hole conc = 0.12. chemical compo. obtained by EDX. hole conc from L3-absorption edge. "Bi2(Sr,La)2CuO6" Bi1.97Sr1.44La0.56Cu1.04O6+z Bi 1.97 Sr 1.44 La 0.56 Cu 1.04 O 6+z 1 2005 Bi2201 K 8 8 "Bi2O3,La2O3,CuO,SrCO" 1 "standard sintering method. SIN(890C), SIN(800C for no La), in air" Evolution of the density of states at the Fermi level of Bi2-yPbySr2-xLaxCuO6+z and Bi2Sr2-xLaxCuO6+z cuprates with hole doping 2005 "Humboldt Universitat, Institut fur Physik, Newtonstrasse 15, 12489 Berlin, Germany" "Phys.Rev.B, 72(2005)014504" 12293 P072014504 hole conc = 0.07. chemical compo. obtained by EDX. hole conc from L3-absorption edge. "Bi2(Sr,La)2CuO6" Bi1.98Sr1.21La0.78Cu1.03O6+z Bi 1.98 Sr 1.21 La 0.78 Cu 1.03 O 6+z 1 2005 Bi2201 K 4 "Bi2O3,La2O3,CuO,SrCO" 1 "standard sintering method. SIN(890C), SIN(800C for no La), in air" Evolution of the density of states at the Fermi level of Bi2-yPbySr2-xLaxCuO6+z and Bi2Sr2-xLaxCuO6+z cuprates with hole doping 2005 "Humboldt Universitat, Institut fur Physik, Newtonstrasse 15, 12489 Berlin, Germany" "Phys.Rev.B, 72(2005)014504" 12294 P072014504 hole conc = 0.19. chemical compo. obtained by EDX. hole conc from L3-absorption edge. Bi2Sr2CuO6 Bi2.03Sr1.72Cu1.25O6+z Bi 2.03 Sr 1.72 Cu 1.25 O 6+z 1 2005 Bi2201 K 6 6 "Bi2O3,La2O3,CuO,SrCO" 1 "standard sintering method. SIN(890C), SIN(800C for no La), in air" Evolution of the density of states at the Fermi level of Bi2-yPbySr2-xLaxCuO6+z and Bi2Sr2-xLaxCuO6+z cuprates with hole doping 2005 "Humboldt Universitat, Institut fur Physik, Newtonstrasse 15, 12489 Berlin, Germany" "Phys.Rev.B, 72(2005)014504" 12300 PR05315245 YbBa2Cu3O7 Yb1Ba2Cu3O7-y Yb 1 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 A 3.877 3.801 11.646 3 K 91.3 1.5 91.3 K/GPa "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12301 PR05315245 "YbBa2(Cu,Zn)3O7" Yb1Ba2Cu2.99Zn0.01O7-y Yb 1 Ba 2 Cu 2.99 Zn 0.01 O 7-y 1 1996 3 Y123 A 3.869 3.801 11.656 3 K 87.8 87.8 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12302 PR05315245 "YbBa2(Cu,Zn)3O7" Yb1Ba2Cu2.98Zn0.02O7-y Yb 1 Ba 2 Cu 2.98 Zn 0.02 O 7-y 1 1996 3 Y123 A 3.875 3.803 11.651 3 K 83.3 2.6 83.3 m.ohm.cm 0.85 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12303 PR05315245 "YbBa2(Cu,Zn)3O7" Yb1Ba2Cu2.96Zn0.04O7-y Yb 1 Ba 2 Cu 2.96 Zn 0.04 O 7-y 1 1996 3 Y123 A 3.881 3.808 11.656 3 K 73.9 3.6 73.9 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12304 PR05315245 "YbBa2(Cu,Zn)3O7" Yb1Ba2Cu2.94Zn0.06O7-y Yb 1 Ba 2 Cu 2.94 Zn 0.06 O 7-y 1 1996 3 Y123 A 3.882 3.805 11.654 3 K 72.1 4.2 72.1 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12305 PR05315245 "YbBa2(Cu,Zn)3O7" Yb1Ba2Cu2.92Zn0.08O7-y Yb 1 Ba 2 Cu 2.92 Zn 0.08 O 7-y 1 1996 3 Y123 A 3.879 3.809 11.66 3 K 70.6 3.5 70.6 m.ohm.cm 1.284 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12306 PR05315245 ErBa2Cu3O7 Er1Ba2Cu3O7-y Er 1 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 A 3.878 3.809 11.655 3 K 93.1 0.4 93.1 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12307 PR05315245 "ErBa2(Cu,Zn)3O7" Er1Ba2Cu2.99Zn0.01O7-y Er 1 Ba 2 Cu 2.99 Zn 0.01 O 7-y 1 1996 3 Y123 A 3.879 3.808 11.659 3 K 89.8 89.8 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12308 PR05315245 "ErBa2(Cu,Zn)3O7" Er1Ba2Cu2.98Zn0.02O7-y Er 1 Ba 2 Cu 2.98 Zn 0.02 O 7-y 1 1996 3 Y123 A 3.876 3.805 11.647 3 K 84.8 1.5 84.8 m.ohm.cm 0.807 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12309 PR05315245 "ErBa2(Cu,Zn)3O7" Er1Ba2Cu2.96Zn0.04O7-y Er 1 Ba 2 Cu 2.96 Zn 0.04 O 7-y 1 1996 3 Y123 A 3.876 3.808 11.652 3 K 76.3 2.4 76.3 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12310 PR05315245 "ErBa2(Cu,Zn)3O7" Er1Ba2Cu2.94Zn0.06O7-y Er 1 Ba 2 Cu 2.94 Zn 0.06 O 7-y 1 1996 3 Y123 A 3.88 3.809 11.649 3 K 68.3 2.1 68.3 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12311 PR05315245 "ErBa2(Cu,Zn)3O7" Er1Ba2Cu2.92Zn0.08O7-y Er 1 Ba 2 Cu 2.92 Zn 0.08 O 7-y 1 1996 3 Y123 A 3.876 3.807 11.65 3 K 62.7 2.2 62.7 m.ohm.cm 0.983 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12312 PR05315245 "ErBa2(Cu,Zn)3O7" Er1Ba2Cu2.9Zn0.1O7-y Er 1 Ba 2 Cu 2.9 Zn 0.1 O 7-y 1 1996 3 Y123 A 3.877 3.808 11.65 3 K 60.4 3.7 60.4 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12313 PR05315245 "ErBa2(Cu,Zn)3O7" Er1Ba2Cu2.85Zn0.15O7-y Er 1 Ba 2 Cu 2.85 Zn 0.15 O 7-y 1 1996 3 Y123 A 3.879 3.808 11.659 3 K 52.4 3.7 52.4 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12314 PR05315245 YBa2Cu3O7 Y1Ba2Cu3O7-y Y 1 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 A 3.886 3.818 11.669 3 K 93.4 0.4 93.4 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12315 PR05315245 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.99Zn0.01O7-y Y 1 Ba 2 Cu 2.99 Zn 0.01 O 7-y 1 1996 3 Y123 A 3.886 3.818 11.665 3 K 88.6 88.6 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12316 PR05315245 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.98Zn0.02O7-y Y 1 Ba 2 Cu 2.98 Zn 0.02 O 7-y 1 1996 3 Y123 A 3.888 3.82 11.665 3 K 84.8 1.7 84.8 m.ohm.cm 0.781 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12317 PR05315245 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.96Zn0.04O7-y Y 1 Ba 2 Cu 2.96 Zn 0.04 O 7-y 1 1996 3 Y123 A 3.886 3.817 11.664 3 K 75.1 2.6 75.1 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12318 PR05315245 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.94Zn0.06O7-y Y 1 Ba 2 Cu 2.94 Zn 0.06 O 7-y 1 1996 3 Y123 A 3.886 3.817 11.063 3 K 69.2 2.7 69.2 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12319 PR05315245 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.92Zn0.08O7-y Y 1 Ba 2 Cu 2.92 Zn 0.08 O 7-y 1 1996 3 Y123 A 3.886 3.817 11.666 3 K 62.1 2.8 62.1 m.ohm.cm 1.06 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12320 PR05315245 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.9Zn0.1O7-y Y 1 Ba 2 Cu 2.9 Zn 0.1 O 7-y 1 1996 3 Y123 A 3.886 3.818 11.667 3 K 60.1 3.9 60.1 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12321 PR05315245 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.85Zn0.15O7-y Y 1 Ba 2 Cu 2.85 Zn 0.15 O 7-y 1 1996 3 Y123 A 3.887 3.818 11.666 3 K 55.1 2.8 55.1 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12322 PR05315245 DyBa2Cu3O7 Dy1Ba2Cu3O7-y Dy 1 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 A 3.894 3.836 11.684 3 K 95.1 2.4 95.1 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12323 PR05315245 "DyBa2(Cu,Zn)3O7" Dy1Ba2Cu2.99Zn0.01O7-y Dy 1 Ba 2 Cu 2.99 Zn 0.01 O 7-y 1 1996 3 Y123 A 3.889 3.826 11.673 3 K 89.5 89.5 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12324 PR05315245 "DyBa2(Cu,Zn)3O7" Dy1Ba2Cu2.98Zn0.02O7-y Dy 1 Ba 2 Cu 2.98 Zn 0.02 O 7-y 1 1996 3 Y123 A 3.895 3.829 11.672 3 K 84.8 3 84.8 m.ohm.cm 0.887 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12325 PR05315245 "DyBa2(CuZ,n)3O7" Dy1Ba2Cu2.96Zn0.04O7-y Dy 1 Ba 2 Cu 2.96 Zn 0.04 O 7-y 1 1996 3 Y123 A 3.887 3.821 11.674 3 K 76.8 3.2 76.8 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12326 PR05315245 "DyBa2(Cu,Zn)3O7" Dy1Ba2Cu2.94Zn0.06O7-y Dy 1 Ba 2 Cu 2.94 Zn 0.06 O 7-y 1 1996 3 Y123 A 3.886 3.823 11.677 3 K 68.8 3.1 68.8 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12327 PR05315245 "DyBa2(Cu,Zn)3O7" Dy1Ba2Cu2.92Zn0.08O7-y Dy 1 Ba 2 Cu 2.92 Zn 0.08 O 7-y 1 1996 3 Y123 A 3.885 3.821 11.68 3 K 60.6 3.1 60.6 m.ohm.cm 1.108 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12328 PR05315245 "DyBa2(Cu,Zn)3O7" Dy1Ba2Cu2.9Zn0.1O7-y Dy 1 Ba 2 Cu 2.9 Zn 0.1 O 7-y 1 1996 3 Y123 A 3.887 3.822 11.676 3 K 56.3 4 56.3 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12329 PR05315245 "DyBa2(Cu,Zn)3O7" Dy1Ba2Cu2.85Zn0.15O7-y Dy 1 Ba 2 Cu 2.85 Zn 0.15 O 7-y 1 1996 3 Y123 A 3.887 3.829 11.699 3 K 51.5 4.5 51.5 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12330 PR05315245 GdBa2Cu3O7 Gd1Ba2Cu3O7-y Gd 1 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 A 3.898 3.838 11.703 3 K 94.8 1.5 94.8 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12331 PR05315245 "GdBa2(Cu,Zn)3O7" Gd1Ba2Cu2.99Zn0.01O7-y Gd 1 Ba 2 Cu 2.99 Zn 0.01 O 7-y 1 1996 3 Y123 A 3.906 3.842 11.703 3 K 89.8 89.8 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12332 PR05315245 "GdBa2(Cu,Zn)3O7" Gd1Ba2Cu2.98Zn0.02O7-y Gd 1 Ba 2 Cu 2.98 Zn 0.02 O 7-y 1 1996 3 Y123 A 3.908 3.847 11.716 3 K 86.3 3 86.3 m.ohm.cm 0.956 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12333 PR05315245 "GdBa2(Cu,Zn)3O7" Gd1Ba2Cu2.96Zn0.04O7-y Gd 1 Ba 2 Cu 2.96 Zn 0.04 O 7-y 1 1996 3 Y123 A 3.909 3.844 11.717 3 K 72.7 4.5 72.7 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12334 PR05315245 "GdBa2(Cu,Zn)3O7" Gd1Ba2Cu2.94Zn0.06O7-y Gd 1 Ba 2 Cu 2.94 Zn 0.06 O 7-y 1 1996 3 Y123 A 3.908 3.845 11.722 3 K 65.9 8 65.9 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12335 PR05315245 "GdBa2(Cu,Zn)3O7" Gd1Ba2Cu2.92Zn0.08O7-y Gd 1 Ba 2 Cu 2.92 Zn 0.08 O 7-y 1 1996 3 Y123 A 3.907 3.847 11.722 3 K 55.9 8.3 55.9 m.ohm.cm 1.224 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12336 PR05315245 "GdBa2(Cu,Zn)3O7" Gd1Ba2Cu2.9Zn0.1O7-y Gd 1 Ba 2 Cu 2.9 Zn 0.1 O 7-y 1 1996 3 Y123 A 3.909 3.844 11.722 3 K 49.2 8.9 49.2 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12337 PR05315245 "GdBa2(Cu,Zn)3O7" Gd1Ba2Cu2.85Zn0.15O7-y Gd 1 Ba 2 Cu 2.85 Zn 0.15 O 7-y 1 1996 3 Y123 A 3.909 3.847 11.727 3 K 42.4 9.6 42.4 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12338 PR05315245 EuBa2Cu3O7 Eu1Ba2Cu3O7-y Eu 1 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 A 3.897 3.84 11.709 3 K 94.5 3 94.5 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12339 PR05315245 "EuBa2(Cu,Zn)3O7" Eu1Ba2Cu2.99Zn0.01O7-y Eu 1 Ba 2 Cu 2.99 Zn 0.01 O 7-y 1 1996 3 Y123 A 3.892 3.834 11.714 3 K 91.3 91.3 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12340 PR05315245 "EuBa2(Cu,Zn)3O7" Eu1Ba2Cu2.98Zn0.02O7-y Eu 1 Ba 2 Cu 2.98 Zn 0.02 O 7-y 1 1996 3 Y123 A 3.898 3.839 11.718 3 K 86.3 4.3 86.3 m.ohm.cm 1.355 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12341 PR05315245 "EuBa2(Cu,Zn)3O7" Eu1Ba2Cu2.96Zn0.04O7-y Eu 1 Ba 2 Cu 2.96 Zn 0.04 O 7-y 1 1996 3 Y123 A 3.899 3.839 11.716 3 K 74.8 8 74.8 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12342 PR05315245 "EuBa2(Cu,Zn)3O7" Eu1Ba2Cu2.94Zn0.06O7-y Eu 1 Ba 2 Cu 2.94 Zn 0.06 O 7-y 1 1996 3 Y123 A 3.9 3.84 11.716 3 K 65.9 11.1 65.9 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12343 PR05315245 "EuBa2(Cu,Zn)3O7" Eu1Ba2Cu2.92Zn0.08O7-y Eu 1 Ba 2 Cu 2.92 Zn 0.08 O 7-y 1 1996 3 Y123 A 3.902 3.843 11.717 3 K 54.1 13.2 54.1 m.ohm.cm 1.602 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12344 PR05315245 "EuBa2(Cu,Zn)3O7" Eu1Ba2Cu2.9Zn0.1O7-y Eu 1 Ba 2 Cu 2.9 Zn 0.1 O 7-y 1 1996 3 Y123 A 3.896 3.839 11.717 3 K 47.4 14.2 47.4 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12345 PR05315245 "EuBa2(Cu,Zn)3O7" Eu1Ba2Cu2.85Zn0.15O7-y Eu 1 Ba 2 Cu 2.85 Zn 0.15 O 7-y 1 1996 3 Y123 A 3.9 3.84 11.719 3 K 33.6 14.5 33.6 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12346 PR05315245 SmBa2Cu3O7 Sm1Ba2Cu3O7-y Sm 1 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 A 3.903 3.849 11.732 3 K 95.1 2 95.1 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12347 PR05315245 "SmBa2(Cu,Zn)3O7" Sm1Ba2Cu2.99Zn0.01O7-y Sm 1 Ba 2 Cu 2.99 Zn 0.01 O 7-y 1 1996 3 Y123 A 3.905 3.849 11.737 3 K 91.3 91.3 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12348 PR05315245 "SmBa2(Cu,Zn)3O7" Sm1Ba2Cu2.98Zn0.02O7-y Sm 1 Ba 2 Cu 2.98 Zn 0.02 O 7-y 1 1996 3 Y123 A 3.906 3.848 11.736 3 K 86.3 5.9 86.3 m.ohm.cm 1.709 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12349 PR05315245 "SmBa2(Cu,Zn)3O7" Sm1Ba2Cu2.96Zn0.04O7-y Sm 1 Ba 2 Cu 2.96 Zn 0.04 O 7-y 1 1996 3 Y123 A 3.906 3.851 11.733 3 K 74.5 6.8 74.5 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12350 PR05315245 "SmBa2(Cu,Zn)3O7" Sm1Ba2Cu2.94Zn0.06O7-y Sm 1 Ba 2 Cu 2.94 Zn 0.06 O 7-y 1 1996 3 Y123 A 3.907 3.85 11.736 3 K 65.6 8.7 65.6 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12351 PR05315245 "SmBa2(Cu,Zn)3O7" Sm1Ba2Cu2.92Zn0.08O7-y Sm 1 Ba 2 Cu 2.92 Zn 0.08 O 7-y 1 1996 3 Y123 A 3.903 3.848 11.737 3 K 52.1 12 52.1 m.ohm.cm 1.86 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12352 PR05315245 "SmBa2(Cu,Zn)3O7" Sm1Ba2Cu2.9Zn0.1O7-y Sm 1 Ba 2 Cu 2.9 Zn 0.1 O 7-y 1 1996 3 Y123 A 3.909 3.853 11.737 3 K 43.6 17.4 43.6 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12353 PR05315245 "SmBa2(Cu,Zn)3O7" Sm1Ba2Cu2.85Zn0.15O7-y Sm 1 Ba 2 Cu 2.85 Zn 0.15 O 7-y 1 1996 3 Y123 A 3.913 3.856 11.735 3 K 31.8 18.6 31.8 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12354 PR05315245 NdBa2Cu3O7 Nd1Ba2Cu3O7-y Nd 1 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 A 3.918 3.861 11.773 3 K 95.1 2.4 95.1 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12355 PR05315245 "NdBa2(Cu,Zn)3O7" Nd1Ba2Cu2.99Zn0.01O7-y Nd 1 Ba 2 Cu 2.99 Zn 0.01 O 7-y 1 1996 3 Y123 A 3.913 3.863 11.774 3 K 94.5 94.5 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12356 PR05315245 "NdBa2(Cu,Zn)3O7" Nd1Ba2Cu2.98Zn0.02O7-y Nd 1 Ba 2 Cu 2.98 Zn 0.02 O 7-y 1 1996 3 Y123 A 3.915 3.86 11.774 3 K 86 10.3 86 m.ohm.cm 4.464 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12357 PR05315245 "NdBa2(Cu,Zn)3O7" Nd1Ba2Cu2.96Zn0.04O7-y Nd 1 Ba 2 Cu 2.96 Zn 0.04 O 7-y 1 1996 3 Y123 A 3.917 3.862 11.779 3 K 72.7 10.8 72.7 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12358 PR05315245 "NdBa2(Cu,Zn)3O7" Nd1Ba2Cu2.94Zn0.06O7-y Nd 1 Ba 2 Cu 2.94 Zn 0.06 O 7-y 1 1996 3 Y123 A 3.91 3.86 11.77 3 K 64.1 17.6 64.1 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12359 PR05315245 "NdBa2(Cu,Zn)3O7" Nd1Ba2Cu2.92Zn0.08O7-y Nd 1 Ba 2 Cu 2.92 Zn 0.08 O 7-y 1 1996 3 Y123 A 3.915 3.857 11.788 3 K 36.6 24.7 36.6 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12360 PR05315245 "NdBa2(Cu,Zn)3O7" Nd1Ba2Cu2.9Zn0.1O7-y Nd 1 Ba 2 Cu 2.9 Zn 0.1 O 7-y 1 1996 3 Y123 A 3.916 3.859 11.78 3 K 25 26.4 25 "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12361 PR05315245 "NdBa2(Cu,Zn)3O7" Nd1Ba2Cy2.85Zn0.15O7-y Nd 1 Ba 2 Cy 2.85 Zn 0.15 O 7-y 1 1996 3 Y123 A 3.917 3.859 11.773 3 K "R2O3,BaCO3,CuO,ZnO" 1 "R=Yb,Er,Y,Dy,Gd,Eu,Sm,NdMIX(R2O3,BaCO3,CuO,ZnO)-Calcine(915C,24h)-Reground-Press(4kbar,5*30*1mm^3)-SIN(925-930C(except R=Yb at 920C),72h in Oxygen flow)-ANN(680C,10h)-ANN(400C,10h)-Cool(10h in Oxygen" "Rare-earth ion size effect on resistivity, susceptibility, and superconductivity of RBa2Cu3-xZnxO7-y (R=Yb, Er, Y, Dy, Gd, Eu, Sm, and Nd)" 1996 6 "Institut F""ur Schicht-und Ionentechnik, forschungszentrum Ju""lich Gesellschaft mit beschra""nkter Haftung,Postfach 1913,D-53425 Ju""lich Germay" "Phys.Rev.53,(1996)15245" "R, Ba, Cu, Zn, O" 12362 PR05315272 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1996 Bi2212 3 K 93 93 nm 0.8 nm 180 "Bi2O3,Sr(OH)2*8H2O,CaCO3,CuO" 9 "mix(Bi2O3,Sr(OH)2*8H2O,CaCO3,CuO)-sin(780C in alumina crucible)-sin(840C 12h)-transfered to a rotary conical gold crucible-heated to 980C-hold(2h)-cooled to 870C(0.67C/h)-cooled to 600C(25C/h)" Thermal fluctuation effects on the magnetization above and below the superconducting transition in Bi2Sr2CaCu2O8 in the weak magnetic field limit 1996 6 "Laboratorio de Fisica de Materiales, Facultad de Fisica, Universidad de Compostela, 15706 Spain" "Phys.Rev.B,53(1996)15272" 12363 PR05315272 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1996 Bi2212 K 99 99 nm 1 nm 170 "Bi2O3,Sr(OH)2*8H2O,CaCO3,CuO" 9 "mix(Bi2O3,Sr(OH)2*8H2O,CaCO3,CuO)-sin(780C in alumina crucible)-sin(840C 12h)-transfered to a rotary conical gold crucible-heated to 980C-hold(2h)-cooled to 870C(0.67C/h)-cooled to 600C(25C/h)" Thermal fluctuation effects on the magnetization above and below the superconducting transition in Bi2Sr2CaCu2O8 in the weak magnetic field limit 1996 6 "Laboratorio de Fisica de Materiales, Facultad de Fisica, Universidad de Compostela, 15706 Spain" "Phys.Rev.B,53(1996)15272" 12364 PR05314637 SmBa2Cu3O7+-Z Sm1Ba2Cu3O6.92 Sm 1 Ba 2 Cu 3 O 7-Z 6.92 1 1996 3 3.833 3.901 11.688 3 K 90 91 90 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12365 PR05314637 "SmBa2(Cu,Fe)3Oz" Sm1Ba2Cu2.98Fe0.02O6.76 Sm 1 Ba 2 Cu 2.98 Fe 0.02 O 7-z 6.76 1 1996 3 3.856 3.898 11.694 3 K 84 89 84 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12366 PR05314637 "SmBa2(Cu,Fe)3O7" Sm1Ba2Cu2.96Fe0.04O6.81 Sm 1 Ba 2 Cu 2.96 Fe 0.04 O 7-z 6.81 1 1996 3 3.867 3.901 11.7 3 K 78 77 78 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12367 PR05314637 "SmBa2(Cu,Fe)3O7" Sm1Ba2Cu2.94Fe0.06O7-z Sm 1 Ba 2 Cu 2.94 Fe 0.06 O 7-z 1 1996 3 3.873 3.902 11.697 3 K 71 77 71 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12368 PR05314637 "SmBa2(Cu,Fe)3O7" Sm1Ba2Cu2.92Fe0.08O7-z Sm 1 Ba 2 Cu 2.92 Fe 0.08 O 7-z 1 1996 3 3.885 3.899 11.688 3 K 68 75 68 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12369 PR05314637 "SmBa2(Cu,Fe)3O7" Sm1Ba2Cu2.9Fe0.1O6.89 Sm 1 Ba 2 Cu 2.9 Fe 0.1 O 7-z 6.89 1 1996 2 3.888 11.691 3 K 66 72 66 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12370 PR05314637 "SmBa2(Cu,Fe)3O7" Sm1Ba2Cu2.8Fe0.2O6.96 Sm 1 Ba 2 Cu 2.8 Fe 0.2 O 7-z 6.96 1 1996 2 Y123 3.89 11.685 3 K 47 49 47 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12371 PR05314637 "SmBa2(Cu,Fe)3O7" Sm1Ba2Cu2.7Fe0.3O7-z Sm 1 Ba 2 Cu 2.7 Fe 0.3 O 7-z 1 1996 2 3.892 11.688 3 K 23 23 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12372 PR05314637 "SmBa2(Cu,Fe)3O7" Sm1Ba2Cu2.6Fe0.4O7-z Sm 1 Ba 2 Cu 2.6 Fe 0.4 O 7-z 1 1996 2 3.892 11.694 3 K "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12373 PR05314637 DyBa2Cu3O7 Dy1Ba2Cu3O6.84 Dy 1 Ba 2 Cu 3 O 7-z 6.84 1 1996 3 3.816 3.881 11.664 3 K 90 92 90 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12374 PR05314637 "DyBa2(Cu,Fe)3O7" Dy1Ba2Cu2.98Fe0.02O6.88 Dy 1 Ba 2 Cu 2.98 Fe 0.02 O 77-z 6.88 1 1996 3 3.82 3.882 11.672 3 K 88 90 88 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12375 PR05314637 "DyBa2(Cu,Fe)3O7" Dy1Ba2Cu2.96Fe0.04O6.89 Dy 1 Ba 2 Cu 2.96 Fe 0.04 O 7-z 6.89 1 1996 3 3.824 3.877 11.664 3 K 82 88 82 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12376 PR05314637 "DyBa2(Cu,Fe)3O7" Dy1Ba2Cu2.94Fe0.06O6.88 Dy 1 Ba 2 Cu 2.94 Fe 0.06 O 7-z 6.88 1 1996 3 3.841 3.865 11.664 3 K 78 86 78 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12377 PR05314637 "DyBa2(Cu,Fe)3O7" Dy1Ba2Cu2.92Fe0.08O7-z Dy 1 Ba 2 Cu 2.92 Fe 0.08 O 7-z 1 1996 2 3.856 11.668 3 K 74 78 74 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12378 PR05314637 "DyBa2(Cu,Fe)3O7" Dy1Ba2Cu2.9Fe0.1O6.84 Dy 1 Ba 2 Cu 2.9 Fe 0.1 O 7-z 6.84 1 1996 2 3.857 11.668 3 K 70 73 70 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12379 PR05314637 "DyBa2(Cu,Fe)3O7" Dy1Ba2Cu2.8Fe0.2O6.93 Dy 1 Ba 2 Cu 2.8 Fe 0.2 O 7-z 6.93 1 1996 2 3.863 11.657 3 K 58 59 58 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12380 PR05314637 "DyBa2(Cu,Fe)3O7" Dy1Ba2Cu2.7Fe0.3O6.96 Dy 1 Ba 2 Cu 2.7 Fe 0.3 O 7-z 6.96 1 1996 2 3.867 11.657 3 K 10 45 10 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12381 PR05314637 "DyBa2(Cu,Fe)3O7" Dy1Ba2Cu2.6Fe0.4O7.09 Dy 1 Ba 2 Cu 2.6 Fe 0.4 O 7-z 7.09 1 1996 2 3.864 11.634 3 K "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12382 PR05314637 SmBa2Cu3O7 Sm1Ba2Cu3O6.89 Sm 1 Ba 2 Cu 3 O 7-z 6.89 1 1996 3 3.831 3.904 11.702 3 K 90 91 90 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12383 PR05314637 "SmBa2(Cu,Fe)3O7" Sm1Ba2Cu2.98Ni0.02O7-z Sm 1 Ba 2 Cu 2.98 Ni 0.02 O 7-z 1 1996 3 3.841 3.901 11.698 3 K 83 88 83 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12384 PR05314637 SmBa2Cu2.96Fe0.04O7+-Z Sm1Ba2Cu2.96Ni0.04O6.88 Sm 1 Ba 2 Cu 2.96 Ni 0.04 O 7-z 6.88 1 1996 3 3.84 3.899 11.702 3 K 83 88 83 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12385 PR05314637 "SmBa2(Cu,Ni)3O7" Sm1Ba2Cu2.94Ni0.06O7-z Sm 1 Ba 2 Cu 2.94 Ni 0.06 O 7-z 1 1996 3 3.858 3.898 11.698 3 K 76 84 76 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12386 PR05314637 Tc not shown. "SmBa2(Cu,Ni)3O7" Sm1Ba2Cu2.92Ni0.08O7-z Sm 1 Ba 2 Cu 2.92 Ni 0.08 O 7-z 1 1996 3 3 K "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12387 PR05314637 "SmBa2(Cu,Ni)3O7" Sm1Ba2Cu2.9Ni0.1O7-z Sm 1 Ba 2 Cu 2.9 Ni 0.1 O 7-z 1 1996 3 3 K 72 78 72 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12388 PR05314637 "SmBa2(Cu,Ni)3O7" Sm1Ba2Cu2.8Ni0.2O7-z Sm 1 Ba 2 Cu 2.8 Ni 0.2 O 7-z 1 1996 3 3.871 3.9 11.685 3 K 50 53 50 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12389 PR05314637 "SmBa2(Cu,Ni)3O7" Sm1Ba2Cu2.7Ni0.3O6.97 Sm 1 Ba 2 Cu 2.7 Ni 0.3 O 7-z 6.97 1 1996 3 3.867 3.9 11.668 3 K 24 47 24 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12390 PR05314637 "SmBa2(Cu,Ni)3O7" Sm1Ba2Cu2.6Ni0.4O7-z Sm 1 Ba 2 Cu 2.6 Ni 0.4 O 7-z 1 1996 3 3.873 3.895 11.675 3 K "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12391 PR05314637 DyBa2Cu3O7 Dy1Ba2Cu3O6.68 Dy 1 Ba 2 Cu 3 O 7-z 6.68 1 1996 3 3.814 3.88 11.56 3 K 90 92 90 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12392 PR05314637 "DyBa2(Cu,Ni)3O7" Dy1Ba2Cu2.98Ni0.02O6.72 Dy 1 Ba 2 Cu 2.98 Ni 0.02 O 7-z 6.72 1 1996 3 3.818 3.886 11.558 3 K 83 88 83 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12393 PR05314637 "DyBa2(Cu,Ni)3O7" Dy1Ba2Cu2.96Ni0.04O6.73 Dy 1 Ba 2 Cu 2.96 Ni 0.04 O 7-z 6.73 1 1996 3 3.822 3.887 11.558 3 K 82 86 82 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12394 PR05314637 "DyBa2(Cu,Ni)3O7" Dy1Ba2Cu2.94Ni0.06O6.72 Dy 1 Ba 2 Cu 2.94 Ni 0.06 O 7-z 6.72 1 1996 3 3.815 3.886 11.55 3 K 81 86 81 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12395 PR05314637 "DyBa2(Cu,Ni)3O7" Dy1Ba2Cu2.92Ni0.08O7-z Dy 1 Ba 2 Cu 2.92 Ni 0.08 O 7-z 1 1996 3 3.821 3.885 11.553 3 K 77 80 77 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12396 PR05314637 "DyBa2(Cu,Ni)3O7" Dy1Ba2Cu2.9Ni0.1O6.74 Dy 1 Ba 2 Cu 2.9 Ni 0.1 O 7-z 6.74 1 1996 3 3.821 3.888 11.555 3 K 67 79 67 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12397 PR05314637 "DyBa2(Cu,Ni)3O7" Dy1Ba2Cu2.8Ni0.2O6.83 Dy 1 Ba 2 Cu 2.8 Ni 0.2 O 7-z 6.83 1 1996 3 3.818 3.886 11.553 3 K 63 68 63 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12398 PR05314637 "DyBa2(Cu,Ni)3O7" Dy1Ba2Cu2.7Ni0.3O7-z Dy 1 Ba 2 Cu 2.7 Ni 0.3 O 7-z 1 1996 3 3.826 3.882 11.558 3 K 54 55 54 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12399 PR05314637 "DyBa2(Cu,Ni)3O7" Dy1Ba2Cu2.6Ni0.4O6.83 Dy 1 Ba 2 Cu 2.6 Ni 0.4 O 7-z 6.83 1 1996 3 K 31 50 31 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12400 PR05314637 SmBa2Cu3O7 Sm1Ba2Cu3O6.82 Sm 1 Ba 2 Cu 3 O 7-z 6.82 1 1996 3 3.833 3.905 11.686 3 K 90 91 90 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12401 PR05314637 "SmBa2(Cu,Zn)3O7" Sm1Ba2Cu2.98Zn0.02O6.82 Sm 1 Ba 2 Cu 2.98 Zn 0.02 O 7-z 6.82 1 1996 3 3.841 3.903 11.697 3 K 81 83 81 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12402 PR05314637 "SmBa2(Cu,Zn)3O7" Sm1Ba2Cu2.96Zn0.04O6.83 Sm 1 Ba 2 Cu 2.96 Zn 0.04 O 7-z 6.83 1 1996 3 3.844 3.903 11.694 3 K 70 68 70 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12403 PR05314637 "SmBa2(Cu,Zn)3O7" Sm1Ba2Cu2.94Zn0.06O6.85 Sm 1 Ba 2 Cu 2.94 Zn 0.06 O 7-z 6.85 1 1996 3 3.84 3.902 11.684 3 K 59 60 59 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12404 PR05314637 "SmBa2(Cu,Zn)3O7" Sm1Ba2Cu2.92Zn0.08O6.85 Sm 1 Ba 2 Cu 2.92 Zn 0.08 O 7-z 6.85 1 1996 3 3.841 3.902 11.701 3 K 49 47 49 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12405 PR05314637 "SmBa2(Cu,Zn)3O7" Sm1Ba2Cu2.9Zn0.1O6.83 Sm 1 Ba 2 Cu 2.9 Zn 0.1 O 7-z 6.83 1 1996 3 3.84 3.899 11.658 3 K 29 49 29 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12406 PR05314637 "SmBa2(Cu,Zn)3O7" Sm1Ba2Cu2.8Zn0.2O6.83 Sm 1 Ba 2 Cu 2.8 Zn 0.2 O 7-z 6.83 1 1996 3 3.87 3.894 11.694 3 K "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12407 PR05314637 "SmBa2(Cu,Zn)3O7" Sm1Ba2Cu2.7Zn0.3O7-z Sm 1 Ba 2 Cu 2.7 Zn 0.3 O 7-z 1 1996 3 3.873 3.894 11.686 3 K "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12408 PR05314637 "SmBa2(Cu,Zn)3O7" Sm1Ba2Cu2.6Zn0.4O6.9 Sm 1 Ba 2 Cu 2.6 Zn 0.4 O 7-z 6.9 1 1996 3 3.875 3.89 11.658 3 K "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12409 PR05314637 DyBa2Cu3O7 Dy1Ba2Cu3O6.79 Dy 1 Ba 2 Cu 3 O 7-z 6.79 1 1996 3 3.813 3.879 3 K 90 92 90 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12410 PR05314637 "DyBa2(Cu,Zn)3O7" Dy1Ba2Cu2.98Zn0.02O6.87 Dy 1 Ba 2 Cu 2.98 Zn 0.02 O 7-z 6.87 1 1996 3 3.812 3.881 3 K 81 84 81 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12411 PR05314637 "DyBa2(Cu,Zn)3O7" Dy1Ba2Cu2.96Zn0.04O6.9 Dy 1 Ba 2 Cu 2.96 Zn 0.04 O 7-z 6.9 1 1996 3 3.813 3.882 3 K 70 76 70 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12412 PR05314637 "DyBa2(Cu,Zn)3O7" Dy1Ba2Cu2.94Zn0.06O6.9 Dy 1 Ba 2 Cu 2.94 Zn 0.06 O 7-z 6.9 1 1996 3 3.818 3.884 3 K 62 71 62 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12413 PR05314637 "DyBa2(Cu,Zn)3O7" Dy1Ba2Cu2.92Zn0.08O7-z Dy 1 Ba 2 Cu 2.92 Zn 0.08 O 7-z 1 1996 3 3 K "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12414 PR05314637 "DyBa2(Cu,Zn)3O7" Dy1Ba2Cu2.9Zn0.1O6.96 Dy 1 Ba 2 Cu 2.9 Zn 0.1 O 7-z 6.96 1 1996 3 3.833 3.886 3 K 44 56 44 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12415 PR05314637 "DyBa2(Cu,Zn)3O7" Dy1Ba2Cu2.8Zn0.2O6.95 Dy 1 Ba 2 Cu 2.8 Zn 0.2 O 7-z 6.95 1 1996 3 3.825 3.886 3 K 13 25 13 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12416 PR05314637 "DyBa2(Cu,Zn)3O7" Dy1Ba2Cu2.7Zn0.3O6.99 Dy 1 Ba 2 Cu 2.7 Zn 0.3 O 7-z 6.99 1 1996 3 3.834 3.89 3 K "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12417 PR05314637 "DyBa2(Cu,Zn)3O7" Dy1Ba2Cu2.6Zn0.4O6.95 Dy 1 Ba 2 Cu 2.6 Zn 0.4 O 7-z 6.95 1 1996 3 3.823 3.882 3 K "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12419 PR05314637 "SmBa2(Cu,Zn)3O7" Sm1Ba2Cu2.8Zn0.2O6.82 Sm 1 Ba 2 Cu 2.8 Zn 0.2 O 7-z 6.82 1 1996 K m.ohm.cm 2.6 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12420 PR05314637 "SmBa2(Cu,Zn)3O7" Sm0.9Ca0.1Ba2Cu2.8Zn0.2O6.85 Sm 0.9 Ca 0.1 Ba 2 Cu 2.8 Zn 0.2 O 7-z 6.85 1 1996 K 39 48 42 7 42 m.ohm.cm 1.8 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12421 PR05314637 "SmBa2(Cu,Zn)3O7" Sm0.8Ca0.2Ba2Cu2.8Zn0.2O6.87 Sm 0.8 Ca 0.2 Ba 2 Cu 2.8 Zn 0.2 O 7-z 6.87 1 1996 K 36 41 45 4 45 m.ohm.cm 1.6 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12422 PR05314637 "DyBa2(Cu,Zn)3O7" Dy1Ba2Cu2.7Zn0.3O6.9 Dy 1 Ba 2 Cu 2.7 Zn 0.3 O 7-z 6.9 1 1996 K m.ohm.cm 5.1 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12423 PR05314637 "(Dy,Ca)Ba2(Cu,Zn)3O7" Dy0.9Ca0.1Ba2Cu2.7Zn0.3O6.72 Dy 0.9 Ca 0.1 Ba 2 Cu 2.7 Zn 0.3 O 7-z 6.72 1 1996 K 13 19 21 5 21 m.ohm.cm 3.3 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12424 PR05314637 "(Dy,Ca)Ba2(Cu,Zn)3O7" Dy0.8Ca0.2Ba2Cu2.7Zn0.3O6.78 Dy 0.8 Ca 0.2 Ba 2 Cu 2.7 Zn 0.3 O 7-z 6.78 1 1996 K 30 22 28 7 28 m.ohm.cm 2.1 "R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO" 1 "mix(R2O3(R=Sm,Dy),BaCO3,CuO,Fe2O3/NiO/ZnO)-sin(920C,24h-940C,24h)-press into pellet-sin(940C,24h)-O2 anenal(900C,24h-600C,24h)" "Effect of 3d ion substitution in the RBa2Cu3-xMxO7(R=Sm,Dy; M=Fe,Ni and Zn) system: Implications of R ion dependence and disorder" 1996 6 "Materials Science Research Centre,Institute of Technology, Madras 600 036, India" "Phys.Rev.B,53(1996)14637" "Sm, Dy, Ba, Cu, Fe, Ni, Zn, O" 12425 PR05314631 "(Ca,La)(Ba,La)2Cu3Oz" Ca0.4La0.6Ba1.35La0.65Cu3Oy Ca 0.4 La 0.6 Ba 1.35 La 0.65 Cu 3 O y 1996 2 Y123 K 79.1 79.1 K/GPa 2.1 "D.Goldschmidt,G.M.Reisner,Y.Direktovitch,A.Knizhnik,E.Gartstein,G.Kimmel,and Y.Eckstein,Phys.Rev.B 48,532(1993)D.Goldschmidt,A.Knizhnik,Y.Direktovitch,G.M.Reisner,and Y.Eckstein,ibid.49,15928(1994)" Pressure dependence of Tc in cuprate superconductors: Application to (CaxLa1-x)(Ba1.75-xLa0.25+x)Cu3Oy 1996 6 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000, Israel" "Phys.Rev.B,53(1996)14631" "Ca, La, Ba, Cu, O" 12426 PR05314631 "(Ca,La)(Ba,La)2Cu3Oz" Ca0.4La0.6Ba1.35La0.65Cu3Oy Ca 0.4 La 0.6 Ba 1.35 La 0.65 Cu 3 O y 1996 2 Y123 K 74.4 74.4 K/GPa 3.7 "D.Goldschmidt,G.M.Reisner,Y.Direktovitch,A.Knizhnik,E.Gartstein,G.Kimmel,and Y.Eckstein,Phys.Rev.B 48,532(1993)D.Goldschmidt,A.Knizhnik,Y.Direktovitch,G.M.Reisner,and Y.Eckstein,ibid.49,15928(1994)" Pressure dependence of Tc in cuprate superconductors: Application to (CaxLa1-x)(Ba1.75-xLa0.25+x)Cu3Oy 1996 6 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000, Israel" "Phys.Rev.B,53(1996)14631" "Ca, La, Ba, Cu, O" 12427 PR05314631 "(Ca,La)(Ba,La)2Cu3Oz" Ca0.1La0.9Ba1.65La0.35Cu3Oy Ca 0.1 La 0.9 Ba 1.65 La 0.35 Cu 3 O y 1996 2 Y123 K 45.4 45.4 K/GPa 4.7 "D.Goldschmidt,G.M.Reisner,Y.Direktovitch,A.Knizhnik,E.Gartstein,G.Kimmel,and Y.Eckstein,Phys.Rev.B 48,532(1993)D.Goldschmidt,A.Knizhnik,Y.Direktovitch,G.M.Reisner,and Y.Eckstein,ibid.49,15928(1994)" Pressure dependence of Tc in cuprate superconductors: Application to (CaxLa1-x)(Ba1.75-xLa0.25+x)Cu3Oy 1996 6 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000, Israel" "Phys.Rev.B,53(1996)14631" "Ca, La, Ba, Cu, O" 12428 PR05314631 "(Ca,La)(Ba,La)2Cu3Oz" Ca0.2La0.8Ba1.55La0.45Cu3Oy Ca 0.2 La 0.8 Ba 1.55 La 0.45 Cu 3 O y 1996 2 Y123 K 54 54 K/GPa 4.7 "D.Goldschmidt,G.M.Reisner,Y.Direktovitch,A.Knizhnik,E.Gartstein,G.Kimmel,and Y.Eckstein,Phys.Rev.B 48,532(1993)D.Goldschmidt,A.Knizhnik,Y.Direktovitch,G.M.Reisner,and Y.Eckstein,ibid.49,15928(1994)" Pressure dependence of Tc in cuprate superconductors: Application to (CaxLa1-x)(Ba1.75-xLa0.25+x)Cu3Oy 1996 6 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000, Israel" "Phys.Rev.B,53(1996)14631" "Ca, La, Ba, Cu, O" 12429 PR05314631 "((Ca,La)(Ba,La)2Cu3Oz" Ca0.2La0.8Ba1.55La0.45Cu3Oy Ca 0.2 La 0.8 Ba 1.55 La 0.45 Cu 3 O y 1996 2 Y123 K 28.1 28.1 K/GPa 4.6 "D.Goldschmidt,G.M.Reisner,Y.Direktovitch,A.Knizhnik,E.Gartstein,G.Kimmel,and Y.Eckstein,Phys.Rev.B 48,532(1993)D.Goldschmidt,A.Knizhnik,Y.Direktovitch,G.M.Reisner,and Y.Eckstein,ibid.49,15928(1994)" Pressure dependence of Tc in cuprate superconductors: Application to (CaxLa1-x)(Ba1.75-xLa0.25+x)Cu3Oy 1996 6 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000, Israel" "Phys.Rev.B,53(1996)14631" "Ca, La, Ba, Cu, O" 12430 PR05314631 "(Ca,La)(Ba,La)2Cu3Oz" Ca0.2La0.8Ba1.55La0.45Cu3Oy Ca 0.2 La 0.8 Ba 1.55 La 0.45 Cu 3 O y 1996 2 Y123 K 15 15 K/GPa 5.6 "D.Goldschmidt,G.M.Reisner,Y.Direktovitch,A.Knizhnik,E.Gartstein,G.Kimmel,and Y.Eckstein,Phys.Rev.B 48,532(1993)D.Goldschmidt,A.Knizhnik,Y.Direktovitch,G.M.Reisner,and Y.Eckstein,ibid.49,15928(1994)" Pressure dependence of Tc in cuprate superconductors: Application to (CaxLa1-x)(Ba1.75-xLa0.25+x)Cu3Oy 1996 6 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000, Israel" "Phys.Rev.B,53(1996)14631" "Ca, La, Ba, Cu, O" 12431 PR05314631 "(Ca,La)(Ba,La)2Cu3Oz" Ca0.4La0.6Ba1.35La0.65Cu3Oy Ca 0.4 La 0.6 Ba 1.35 La 0.65 Cu 3 O y 1996 2 Y123 K 79.4 79.4 K/GPa 1.37 "D.Goldschmidt,G.M.Reisner,Y.Direktovitch,A.Knizhnik,E.Gartstein,G.Kimmel,and Y.Eckstein,Phys.Rev.B 48,532(1993)D.Goldschmidt,A.Knizhnik,Y.Direktovitch,G.M.Reisner,and Y.Eckstein,ibid.49,15928(1994)" Pressure dependence of Tc in cuprate superconductors: Application to (CaxLa1-x)(Ba1.75-xLa0.25+x)Cu3Oy 1996 6 "Department of Physics and Crown Center for Superconductivity, Technion, Haifa 32000, Israel" "Phys.Rev.B,53(1996)14631" "Ca, La, Ba, Cu, O" 12450 P072014504 hole conc = 0.22. chemical compo. obtained by EDX. hole conc from L3-absorption edge. "(Bi,Pb)2Sr2CuO6" Bi1.83Pb0.19Sr1.92Cu1.06O6+z Bi 1.83 Pb 0.19 Sr 1.92 Cu 1.06 O 6+z 1 2005 Bi2201 K 12 12 "Bi2O3,La2O3,CuO,SrCO" 1 "standard sintering method. SIN(890C), SIN(800C for no La), in air. ANN(550C,5h in vac)" Evolution of the density of states at the Fermi level of Bi2-yPbySr2-xLaxCuO6+z and Bi2Sr2-xLaxCuO6+z cuprates with hole doping 2005 "Humboldt Universitat, Institut fur Physik, Newtonstrasse 15, 12489 Berlin, Germany" "Phys.Rev.B, 72(2005)014504" 12451 P072014504 hole conc = 0.19. chemical compo. obtained by EDX. hole conc from L3-absorption edge. "(Bi,Pb)2(Sr,La)2CuO6" Bi1.69Pb0.3Sr1.92La0.16Cu1.08O6+z Bi 1.69 Pb 0.3 Sr 1.92 La 0.16 Cu 1.08 O 6+z 1 2005 Bi2201 K 24 24 "Bi2O3,La2O3,CuO,SrCO" 1 "standard sintering method. SIN(890C), SIN(800C for no La), in air. ANN(550C,5h in vac)" Evolution of the density of states at the Fermi level of Bi2-yPbySr2-xLaxCuO6+z and Bi2Sr2-xLaxCuO6+z cuprates with hole doping 2005 "Humboldt Universitat, Institut fur Physik, Newtonstrasse 15, 12489 Berlin, Germany" "Phys.Rev.B, 72(2005)014504" 12452 P072014504 hole conc = 0.16. chemical compo. obtained by EDX. hole conc from L3-absorption edge. "(Bi,Pb)2(Sr,La)2CuO6" Bi1.61Pb0.3Sr1.65La0.36Cu1.08O6+z Bi 1.61 Pb 0.3 Sr 1.65 La 0.36 Cu 1.08 O 6+z 1 2005 Bi2201 K 34 34 "Bi2O3,La2O3,CuO,SrCO" 1 "standard sintering method. SIN(890C), SIN(800C for no La), in air. ANN(550C,5h in vac)" Evolution of the density of states at the Fermi level of Bi2-yPbySr2-xLaxCuO6+z and Bi2Sr2-xLaxCuO6+z cuprates with hole doping 2005 "Humboldt Universitat, Institut fur Physik, Newtonstrasse 15, 12489 Berlin, Germany" "Phys.Rev.B, 72(2005)014504" 12453 P072014504 hole conc = 0.12. chemical compo. obtained by EDX. hole conc from L3-absorption edge. "(Bi,Pb)2(Sr,La)2CuO6" Bi1.66Pb0.34Sr1.52La0.4Cu1.1O6+z Bi 1.66 Pb 0.34 Sr 1.52 La 0.4 Cu 1.1 O 6+z 1 2005 Bi2201 K 21 21 "Bi2O3,La2O3,CuO,SrCO" 1 "standard sintering method. SIN(890C), SIN(800C for no La), in air. ANN(550C,5h in vac)" Evolution of the density of states at the Fermi level of Bi2-yPbySr2-xLaxCuO6+z and Bi2Sr2-xLaxCuO6+z cuprates with hole doping 2005 "Humboldt Universitat, Institut fur Physik, Newtonstrasse 15, 12489 Berlin, Germany" "Phys.Rev.B, 72(2005)014504" 12454 P072014504 hole conc = 0.15. chemical compo. obtained by EDX. hole conc from L3-absorption edge. "(Bi,Pb)2(Sr,La)2CuO6" Bi1.63Pb0.34Sr1.53La0.41Cu1.01O6+z Bi 1.63 Pb 0.34 Sr 1.53 La 0.41 Cu 1.01 O 6+z 1 2005 Bi2201 K 31 31 "Bi2O3,La2O3,CuO,SrCO" 1 "standard sintering method. SIN(890C), SIN(800C for no La), in air. ANN(550C,5h in vac)" Evolution of the density of states at the Fermi level of Bi2-yPbySr2-xLaxCuO6+z and Bi2Sr2-xLaxCuO6+z cuprates with hole doping 2005 "Humboldt Universitat, Institut fur Physik, Newtonstrasse 15, 12489 Berlin, Germany" "Phys.Rev.B, 72(2005)014504" 12455 P072014504 hole conc = 0.12 chemical compo. obtained by EDX. hole conc from L3-absorption edge. "(Bi,Pb)2(Sr,La)2CuO6" Bi1.6Pb0.43Sr1.39La0.5Cu1.09O6+z Bi 1.6 Pb 0.43 Sr 1.39 La 0.5 Cu 1.09 O 6+z 1 2005 Bi2201 K 5 5 "Bi2O3,La2O3,CuO,SrCO" 1 "standard sintering method. SIN(890C), SIN(800C for no La), in air. ANN(550C,5h in vac)" Evolution of the density of states at the Fermi level of Bi2-yPbySr2-xLaxCuO6+z and Bi2Sr2-xLaxCuO6+z cuprates with hole doping 2005 "Humboldt Universitat, Institut fur Physik, Newtonstrasse 15, 12489 Berlin, Germany" "Phys.Rev.B, 72(2005)014504" 12456 P072014504 hole conc = 0.10. chemical compo. obtained by EDX. hole conc from L3-absorption edge. "(Bi,Pb)2(Sr,La)2CuO6" Bi1.69Pb0.3Sr1.35La0.55Cu1.09O6+z Bi 1.69 Pb 0.3 Sr 1.35 La 0.55 Cu 1.09 O 6+z 1 2005 Bi2201 K 4 "Bi2O3,La2O3,CuO,SrCO" 1 "standard sintering method. SIN(890C), SIN(800C for no La), in air. ANN(550C,5h in vac)" Evolution of the density of states at the Fermi level of Bi2-yPbySr2-xLaxCuO6+z and Bi2Sr2-xLaxCuO6+z cuprates with hole doping 2005 "Humboldt Universitat, Institut fur Physik, Newtonstrasse 15, 12489 Berlin, Germany" "Phys.Rev.B, 72(2005)014504" 12457 P072014504 hole conc = 0.11. chemical compo. obtained by EDX. hole conc from L3-absorption edge. "(Bi,Pb)2(Sr,La)2CuO6" Bi1.69Pb0.3Sr1.31La0.58Cu1.12O6+z Bi 1.69 Pb 0.3 Sr 1.31 La 0.58 Cu 1.12 O 6+z 1 2005 Bi2201 K 4 "Bi2O3,La2O3,CuO,SrCO" 1 "standard sintering method. SIN(890C), SIN(800C for no La), in air. ANN(550C,5h in vac)" Evolution of the density of states at the Fermi level of Bi2-yPbySr2-xLaxCuO6+z and Bi2Sr2-xLaxCuO6+z cuprates with hole doping 2005 "Humboldt Universitat, Institut fur Physik, Newtonstrasse 15, 12489 Berlin, Germany" "Phys.Rev.B, 72(2005)014504" 12458 P072014504 hole conc = 0.06. chemical compo. obtained by EDX. hole conc from L3-absorption edge. "(Bi,Pb)2(Sr,La)2CuO6" Bi1.73Pb0.27Sr1.27La0.64Cu1.09O6+z Bi 1.73 Pb 0.27 Sr 1.27 La 0.64 Cu 1.09 O 6+z 1 2005 Bi2201 K 4 "Bi2O3,La2O3,CuO,SrCO" 1 "standard sintering method. SIN(890C), SIN(800C for no La), in air. ANN(550C,5h in vac)" Evolution of the density of states at the Fermi level of Bi2-yPbySr2-xLaxCuO6+z and Bi2Sr2-xLaxCuO6+z cuprates with hole doping 2005 "Humboldt Universitat, Institut fur Physik, Newtonstrasse 15, 12489 Berlin, Germany" "Phys.Rev.B, 72(2005)014504" 12500 PR05302245 "Bi2Sr2(Ca,Ce)Cu2O8" Bi2Sr2Ca1Cu2O8+y Bi 2 Sr 2 Ca 1 Cu 2 O 8+y 1 1996 3 Bi2212 A 5.402 5.427 30.804 3 K 95 95 Effect of substituting Ce at the Ca site on the high-temperature superconductor Bi2Sr2CaCu2O8+z 1996 2 "Tata Institute of Fundamental Research, Homi Bhabha Road, Bombay 400005, India" "Phys.Rev.B,53(1996)2245" "Bi, Sr, Ca, Cu, O, Ce" 12501 PR05302245 "Bi2Sr2(Ca,Ce)Cu2O8" Bi2Sr2Ca0.9Ce0.1Cu2O8+y Bi 2 Sr 2 Ca 0.9 Ce 0.1 Cu 2 O 8+y 1 1996 3 Bi2212 A 5.406 5.427 30.715 3 K 52 52 Effect of substituting Ce at the Ca site on the high-temperature superconductor Bi2Sr2CaCu2O8+z 1996 2 "Tata Institute of Fundamental Research, Homi Bhabha Road, Bombay 400005, India" "Phys.Rev.B,53(1996)2245" "Bi, Sr, Ca, Cu, O, Ce" 12502 PR05302245 "Bi2Sr2(Ca,Ce)Cu2O8" Bi2Sr2Ca0.8Ce0.2Cu2O8+y Bi 2 Sr 2 Ca 0.8 Ce 0.2 Cu 2 O 8+y 1 1996 3 Bi2212 A 5.415 5.427 30.649 3 K 25 25 Effect of substituting Ce at the Ca site on the high-temperature superconductor Bi2Sr2CaCu2O8+z 1996 2 "Tata Institute of Fundamental Research, Homi Bhabha Road, Bombay 400005, India" "Phys.Rev.B,53(1996)2245" "Bi, Sr, Ca, Cu, O, Ce" 12503 PR05302245 "Bi2Sr2(Ca,Ce)Cu2O8" Bi2Sr2Ca0.75Ce0.25Cu2O8+y Bi 2 Sr 2 Ca 0.75 Ce 0.25 Cu 2 O 8+y 1 1996 3 Bi2212 A 5.422 5.421 30.524 3 K 5 Effect of substituting Ce at the Ca site on the high-temperature superconductor Bi2Sr2CaCu2O8+z 1996 2 "Tata Institute of Fundamental Research, Homi Bhabha Road, Bombay 400005, India" "Phys.Rev.B,53(1996)2245" "Bi, Sr, Ca, Cu, O, Ce" 12504 PR05302245 "Bi2Sr2(Ca,Ce)Cu2O8" Bi2Sr2Ca0.7Ce0.3Cu2O8+y Bi 2 Sr 2 Ca 0.7 Ce 0.3 Cu 2 O 8+y 1 1996 3 Bi2212 A 5.423 5.423 30.466 3 K 5 Effect of substituting Ce at the Ca site on the high-temperature superconductor Bi2Sr2CaCu2O8+z 1996 2 "Tata Institute of Fundamental Research, Homi Bhabha Road, Bombay 400005, India" "Phys.Rev.B,53(1996)2245" "Bi, Sr, Ca, Cu, O, Ce" 12505 PR05302245 "Bi2Sr2(Ca,Ce)Cu2O8" Bi2Sr2Ca0.6Ce0.4Cu2O8+y Bi 2 Sr 2 Ca 0.6 Ce 0.4 Cu 2 O 8+y 1 1996 3 Bi2212 A 5.429 5.432 30.404 3 K 5 Effect of substituting Ce at the Ca site on the high-temperature superconductor Bi2Sr2CaCu2O8+z 1996 2 "Tata Institute of Fundamental Research, Homi Bhabha Road, Bombay 400005, India" "Phys.Rev.B,53(1996)2245" "Bi, Sr, Ca, Cu, O, Ce" 12506 PR05302245 "Bi2Sr2(Ca,Ce)Cu2O8" Bi2Sr2Ca0.5Ce0.5Cu2O8+y Bi 2 Sr 2 Ca 0.5 Ce 0.5 Cu 2 O 8+y 1 1996 3 Bi2212 A 5.432 5.433 30.375 3 K 5 Effect of substituting Ce at the Ca site on the high-temperature superconductor Bi2Sr2CaCu2O8+z 1996 2 "Tata Institute of Fundamental Research, Homi Bhabha Road, Bombay 400005, India" "Phys.Rev.B,53(1996)2245" "Bi, Sr, Ca, Cu, O, Ce" 12507 PR05302781 SmBa2Cu3O7-y Sm1Ba2Cu3O6.95 Sm 1 Ba 2 Cu 3 O 6.95 1 1996 3 Y123 A 3.846 3.911 11.73 3 K 95 95 SP12507 micro.V/K 6.1 TP12507 m.ohm.cm 2.5 "BaCO3,Sm2O3,CuO" 1 "MIX(BaCO3,Sm2O3,CuO) - calcine(900C,overnight) - reground - press into pellets - SIN(930C,several days,with intermediate grindings) - HEAT(800C,5h,in flowing oxygen) - COOL(15C/h)" SmBa2Cu3O7-z ceramics processed under oxygen pressure of 250 bar: Enhancement of intragrain superconducting properties 1996 2 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O. box 937, 50-950 Wroctaw 2, Poland" "Phys.Rev.B,53(1996)2781" "Sm, Ba, Cu, O" 12508 PR05302781 SmBa2Cu3O7-y Sm1Ba2Cu3O6.9 Sm 1 Ba 2 Cu 3 O 6.9 1 1996 3 Y123 A 3.845 3.907 11.727 3 K SP12508 micro.V/K -0.8 TP12508 m.ohm.cm 14 "BaCO3,Sm2O3,CuO" 1 "MIX(BaCO3,Sm2O3,CuO) - calcine(900C,overnight) - reground - press into pellets - SIN(930C,several days,with intermediate grindings) - HEAT(800C,5h,in flowing oxygen) - COOL(15C/h)- ANN(450C,250bar,in" SmBa2Cu3O7-z ceramics processed under oxygen pressure of 250 bar: Enhancement of intragrain superconducting properties 1996 2 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O. box 937, 50-950 Wroctaw 2, Poland" "Phys.Rev.B,53(1996)2781" "Sm, Ba, Cu, O" 12509 PR05302781 SmBa2Cu3O7-y Sm1Ba2Cu3O7 Sm 1 Ba 2 Cu 3 O 7 1 1996 3 Y123 A 3.845 3.91 11.721 3 K 96 96 SP12509 micro.V/K -1.5 TP12509 m.ohm.cm 15 "BaCO3,Sm2O3,CuO" 1 "MIX(BaCO3,Sm2O3,CuO) - calcine(900C,overnight) - reground - press into pellets - SIN(930C,several days,with intermediate grindings) - HEAT(800C,5h,in flowing oxygen) - COOL(15C/h)- ANN(500C,250bar,in" SmBa2Cu3O7-z ceramics processed under oxygen pressure of 250 bar: Enhancement of intragrain superconducting properties 1996 2 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O. box 937, 50-950 Wroctaw 2, Poland" "Phys.Rev.B,53(1996)2781" "Sm, Ba, Cu, O" 12510 PR05302811 HgBa2CuO4+delta Hg1Ba2Cu1O4.16 Hg 1 Ba 2 Cu 1 O 4.16 1 1996 Hg1201 K 88 88 A 1/lambda^2 vs T plot from reversible M at FIG.2.Then it was extrapolated by 1-(T/Tc)^2 fit. 1990 1 "The oxygen content delta of the samples was altered by heating the samples under different O2-partial pressures at about 300C.Ditails have been published elsewhere;Q. Xiong et al., Phys. Rev. B 50,103" variation of the temperature dependence of the penetration depth in HgBa2CuO4+z with oxidation 1996 2 "Department of Physics and the texas Center for Superconductivity, University of Houston, Houston, texas 77204-5932" "Phys.Rev.B,53(1996)2811" "Hg, Ba, Cu, O" 12511 PR05302811 HgBa2CuO4+delta Hg1Ba2Cu1O4.23 Hg 1 Ba 2 Cu 1 O 4.23 1 1996 Hg1201 K 97 97 A 1/lambda^2 vs T plot from reversible M at FIG.2.Then it was extrapolated by 1-(T/Tc)^2 fit. 1670 1 "The oxygen content delta of the samples was altered by heating the samples under different O2-partial pressures at about 300C.Ditails have been published elsewhere;Q. Xiong et al., Phys. Rev. B 50,103" variation of the temperature dependence of the penetration depth in HgBa2CuO4+z with oxidation 1996 2 "Department of Physics and the texas Center for Superconductivity, University of Houston, Houston, texas 77204-5932" "Phys.Rev.B,53(1996)2811" "Hg, Ba, Cu, O" 12512 PR05302811 HgBa2CuO4+delta Hg1Ba2Cu1O4.28 Hg 1 Ba 2 Cu 1 O 4.28 1 1996 Hg1201 K 88 88 A 1/lambda^2 vs T plot from London model or Bulaevskii model at FIG.2.Then it was extrapolated by 1-(T 1710 1 "The oxygen content delta of the samples was altered by heating the samples under different O2-partial pressures at about 300C.Ditails have been published elsewhere;Q. Xiong et al., Phys. Rev. B 50,103" variation of the temperature dependence of the penetration depth in HgBa2CuO4+z with oxidation 1996 2 "Department of Physics and the texas Center for Superconductivity, University of Houston, Houston, texas 77204-5932" "Phys.Rev.B,53(1996)2811" "Hg, Ba, Cu, O" 12513 PR05302999 anisotropy factor = 30. HgBa2Ca2Cu3Oz Hg1Ba2Ca2Cu3OZ Hg 1 Ba 2 Ca 2 Cu 3 O Z 1 1996 Hg1223 K 134.5 134.5 A ac susceptibility 2100 61000 "HgO,BaO,CaO,CuO" 1 "mix(HgO,BaO,CaO,CuO)-pelletize-fire(750C,10h)-heat(300C,flowing O2)-magnetically allign the the samples" Anisotropic magnetic penetration depth of grain-aligned HgBa2Ca2Cu3O8+delta 1996 2 "Interdisciplinary research Centre in Superconductivity, University of Cambridge, Madingley Road, Cambridge, CB3 OHE, United Kingdom" "Phys.Rev.B,53(1996)R2999" 12514 PR05303003 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 1 1996 T' I4/mmm A 3.947 12.075 3 K 20 20 The satndard solid-state reacttion Increased Phase-breaking scattering rate in Zn-doped TBa2Cu3O7-z 1996 2 "Department of Solid State Physics, institute of Technology, S-100 44 Stockholm, Sweden" "Phys.Rev.B,53(1996)R3003" "Zn, Y, Ba, Cu, O" 12515 PR05303003 "(Nd,Tb,Ce)2CuO4" Nd1.665Tb0.185Ce0.15Cu1O4 Nd 1.665 Tb 0.185 Ce 0.15 Cu 1 O 4 1 1996 T' I4/mmm A 3.942 12.05 3 K 13.5 13.5 The satndard solid-state reacttion Increased Phase-breaking scattering rate in Zn-doped TBa2Cu3O7-z 1996 2 "Department of Solid State Physics, institute of Technology, S-100 44 Stockholm, Sweden" "Phys.Rev.B,53(1996)R3003" "Zn, Y, Ba, Cu, O" 12516 PR05302975 "(Nd,Tb,Ce)2CuO4" Nd1.48Tb0.38Ce0.15Cu1O4 Nd 1.48 Tb 0.38 Ce 0.15 Cu 1 O 4 1 1996 T' I4/mmm A 3.935 12 3 K 8 8 The satndard solid-state reacttion Structural distortion and superconductivity in (Nd1-xTbx)1.85Ce0.15CuO4 1996 2 "Forschungszentrum Karlsruhe, Institut fu""r Nukleare Festko""rpephysik, D-76021 Kalsruhe, Germany" "Phys.Rev.B,53(1996)R2975" "Nd, Tb, Ce, Cu, O" 12517 PR05302975 "YBa2(Cu,Zn)3OZ" Y1Ba2Cu0.27Zn0.03OZ Y 1 Ba 2 Cu 0.27 Zn 0.03 O Z 3 1996 Y123 K 85.6 0.2 85.6 A 14 2 "Y2O3,CuO,BaCO3,ZnO" 5 "mix(Y2O3,CuO,BaCO3,ZnO)-crystal growing by a self-flux method-O2 anneal(450C,a few days)" Structural distortion and superconductivity in (Nd1-xTbx)1.85Ce0.15CuO4 1996 2 "Forschungszentrum Karlsruhe, Institut fu""r Nukleare Festko""rpephysik, D-76021 Kalsruhe, Germany" "Phys.Rev.B,53(1996)R2975" "Nd, Tb, Ce, Cu, O" 12518 PR05302975 "YBa2(Cu,Zn)3OZ" Y1Ba2Cu2.895Zn0.105OZ Y 1 Ba 2 Cu 2.895 Zn 0.105 O Z 3 1996 Y123 K 70 1.5 70 A 15 1.5 "Y2O3,CuO,BaCO3,ZnO" 5 "mix(Y2O3,CuO,BaCO3,ZnO)-crystal growing by a self-flux method-O2 anneal(450C,a few days)" Structural distortion and superconductivity in (Nd1-xTbx)1.85Ce0.15CuO4 1996 2 "Forschungszentrum Karlsruhe, Institut fu""r Nukleare Festko""rpephysik, D-76021 Kalsruhe, Germany" "Phys.Rev.B,53(1996)R2975" "Nd, Tb, Ce, Cu, O" 12600 PR05306034 "as-grown sample, THCFIG(p=1) for in-plane conductivity, p=2 for out-of-plane" YBa2Cu3O7-y Y1Ba2Cu3O7-y Y 1 Ba 2 Cu 3 O 7-y 3 1996 Y123 K 60 60 mW/K.cm "prepared by a modified Czochralski method called the solute rich liquid crystal pulling methed, which are reported in""Y. Yamada and Y. Shiohara. Physica C 217, 182(1993)" In-plane and out-of-plane thermal conductivity of a large single crystal of YBa2Cu3O7-x 1996 3 "Faculty of Engineering, Iwate University, 4-3-5 Ueda 020, Japan" "Phys.Rev.B,53(1996)R6034" "Y, Ba, Cu, O" 12601 PR05306034 "3 days annealed sample, THCFIG(p=1) for in-plane conductivity, p=2 for out-of-plane" YBa2Cu3O7-y Y1Ba2Cu3O7-y Y 1 Ba 2 Cu 3 O 7-y 3 1996 Y123 K 92.7 92.7 mW/K.cm "prepared by a modified Czochralski method called the solute rich liquid crystal pulling methed, which are reported in""Y. Yamada and Y. Shiohara. Physica C 217, 182(1993)-ANN(in oxygen flow, 520C, for" In-plane and out-of-plane thermal conductivity of a large single crystal of YBa2Cu3O7-x 1996 3 "Faculty of Engineering, Iwate University, 4-3-5 Ueda 020, Japan" "Phys.Rev.B,53(1996)R6034" "Y, Ba, Cu, O" 12602 PR05306034 "1 week annealed sample, THCFIG(p=1) for in-plane conductivity, p=2 for out-of-plane" YBa2Cu3O7-y Y1Ba2Cu3O7-y Y 1 Ba 2 Cu 3 O 7-y 3 1996 Y123 K 92.7 92.7 mW/K.cm "prepared by a modified Czochralski method called the solute rich liquid crystal pulling methed, which are reported in""Y. Yamada and Y. Shiohara. Physica C 217, 182(1993)-ANN(in oxygen flow, 520C, for" In-plane and out-of-plane thermal conductivity of a large single crystal of YBa2Cu3O7-x 1996 3 "Faculty of Engineering, Iwate University, 4-3-5 Ueda 020, Japan" "Phys.Rev.B,53(1996)R6034" "Y, Ba, Cu, O" 12603 PR05306034 "2 weeks annealed sample, THCFIG(p=1) for in-plane conductivity, p=2 for out-of-plane" YBa2Cu3O7-y Y1Ba2Cu3O7-y Y 1 Ba 2 Cu 3 O 7-y 3 1996 Y123 K 92.7 92.7 mW/K.cm "prepared by a modified Czochralski method called the solute rich liquid crystal pulling methed, which are reported in""Y. Yamada and Y. Shiohara. Physica C 217, 182(1993)-ANN(in oxygen flow, 520C, for" In-plane and out-of-plane thermal conductivity of a large single crystal of YBa2Cu3O7-x 1996 3 "Faculty of Engineering, Iwate University, 4-3-5 Ueda 020, Japan" "Phys.Rev.B,53(1996)R6034" "Y, Ba, Cu, O" 12604 PR05305170 "nearly single phase. The possibility of the existence of minor phase of (Cu1-xCx)Ba2Ca3Cu4O11-y is not excluded. We, however, believe this situation would not affect our thermoelectric power result." CuBa2Ca3Cu4O11-y Ba2Ca3Cu5O11-y Ba 2 Ca 3 Cu 5 O 11-y 1 1996 2 Cu1234 A 3.859 18 K 115.9 115.9 micro.V/K -3.4 m.ohm.cm 5.2 "BaO2, CaO, CuO" 1 "MIX(BaO2,CaO,CuO with stoichiometric composition)-Synthesize(950C,5GPa,1h)detailed in C. -Q. Jin et al, Physica C 223, 238(1994)" Thermoelectric power of high-pressure synthesized CuBa2Ca3Cu4O11-z 1996 3 "Superconductivity research Laboratory, ISTEC, 10-13, Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,53(1996)5170" "Cu, Ba, Ca, Cu, O" 12605 PR05305170 "nearly single phase The possibility of the exitence of minor phase of (Cu1-xCx)Ba2Ca3Cu4O11-y is not excluded. We, however, believe this situation would not affect our thermoelectric power result." CuBa2Ca3Cu4O11-y Ba2Ca3Cu5O11-y Ba 2 Ca 3 Cu 5 O 11-y 1 1996 Cu1234 K micro.V/K 3.8 m.ohm.cm 16 "BaO2, CaO, CuO" 1 "MIX(BaO2,CaO,CuO with stoichiometric composition)-Synthesize(950C,5GPa,1h)detailed in C. -Q. Jin et al, Physica C 223, 238(1994)" Thermoelectric power of high-pressure synthesized CuBa2Ca3Cu4O11-z 1996 3 "Superconductivity research Laboratory, ISTEC, 10-13, Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,53(1996)5170" "Cu, Ba, Ca, Cu, O" 12606 PR05305848 Tl2Ba2CuO6 Tl2Ba2Cu1O6+y Tl 2 Ba 2 Cu 1 O 6+y 1996 Tl2201 K 15 15 m3/C 0.000000001 "outlined in R. S. Liu, S. D. Hughes, R. J. Angel, T. P. Hackwell, A. P. Mackenzie, and P .P. Edwards, Physica C 198, 203(1992)Y. Shimakawa, Physica C 204,247(1993)M. A. G. Aranda, D. C. Sinclair, A. P" Normal-state magnetotransport in superconducting Tl2Ba2CuO6+z to millikelvin temperatures 1996 3 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madingley Road, Cambridge CB3 OHE, United Kingdom" "Phys.Rev.B,53(1996)5848" "Tl, Ba, Cu, O" 12607 PR05305848 Tl2Ba2CuO6+y Tl2Ba2Cu1O6+y Tl 2 Ba 2 Cu 1 O 6+y 1996 K 11 11 "outlined in R. S. Liu, S. D. Hughes, R. J. Angel, T. P. Hackwell, A. P. Mackenzie, and P .P. Edwards, Physica C 198, 203(1992)Y. Shimakawa, Physica C 204,247(1993)M. A. G. Aranda, D. C. Sinclair, A. P" Normal-state magnetotransport in superconducting Tl2Ba2CuO6+z to millikelvin temperatures 1996 3 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madingley Road, Cambridge CB3 OHE, United Kingdom" "Phys.Rev.B,53(1996)5848" "Tl, Ba, Cu, O" 12608 PR05305856 GdBa2Cu3O7 Gd1Ba2Cu3O7-y Gd 1 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 A 3.832 3.894 11.7 3 K "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12609 PR05305856 "GdBa2(Cu,Ni)3O7" Gd1Ba2Cu2.925Ni0.075O7-y Gd 1 Ba 2 Cu 2.925 Ni 0.075 O 7-y 1 1996 3 Y123 A 3.846 3.9 11.698 3 K "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12610 PR05305856 "GdBa2(Cu,Ni)3O7" Gd1Ba2Cu2.85Ni0.15O7-y Gd 1 Ba 2 Cu 2.85 Ni 0.15 O 7-y 1 1996 3 Y123 A 3.844 3.9 11.692 3 K "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12611 PR05305856 "GdBa2(Cu,Ni)3O7" Gd1Ba2Cu2.775Ni0.225O7-y Gd 1 Ba 2 Cu 2.775 Ni 0.225 O 7-y 1 1996 3 Y123 A 3.842 3.897 11.686 3 K "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12612 PR05305856 "GdBa2(Cu,Ni)3O7" Gd1Ba2Cu2.7Ni0.3O7-y Gd 1 Ba 2 Cu 2.7 Ni 0.3 O 7-y 1 1996 3 Y123 A 3.868 3.912 11.737 3 K "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12613 PR05305856 "GdBa2(Cu,Ni)3O7" Gd1Ba2Cu2.55Ni0.45O7-y Gd 1 Ba 2 Cu 2.55 Ni 0.45 O 7-y 1 1996 3 Y123 A 3.889 3.911 11.734 3 K "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12614 PR05305856 GdBa2Cu3O7 Gd1Ba2Cu3O7-y Gd 1 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 A 3.832 3.894 11.7 3 K "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12615 PR05305856 "GdBa2(Cu,Fe)3O7" Gd1Ba2Cu2.925Fe0.075O7-y Gd 1 Ba 2 Cu 2.925 Fe 0.075 O 7-y 1 1996 3 Y123 A 3.847 3.895 11.64 3 K "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12616 PR05305856 "GdBa2(Cu,Fe)3O7" Gd1Ba2Cu2.85Fe0.15O7-y Gd 1 Ba 2 Cu 2.85 Fe 0.15 O 7-y 1 1996 3 Y123 A 3.845 3.885 11.67 3 K "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12617 PR05305856 "GdBa2(Cu,Fe)3O7" Gd1Ba2Cu2.775Fe0.225O7-y Gd 1 Ba 2 Cu 2.775 Fe 0.225 O 7-y 1 1996 3 Y123 A 3.862 3.886 11.61 3 K "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12618 PR05305856 "GdBa2(Cu,Fe)3O7" Gd1Ba2Cu2.7Fe0.3O7-y Gd 1 Ba 2 Cu 2.7 Fe 0.3 O 7-y 1 1996 2 Y123 A 3.889 3.889 11.676 3 K "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12619 PR05305856 "GdBa2(Cu,Fe)3O7" Gd1Ba2Cu2.55Fe0.45O7-z Gd 1 Ba 2 Cu 2.55 Fe 0.45 O 7-z 1 1996 3 Y123 A 3.892 3.892 11.676 3 K "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12620 PR05305856 NdBa2Cu3O7 Nd1Ba2Cu3O7-y Nd 1 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 K 90 90 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12621 PR05305856 "NdBa2(Cu,Ni)3O7" Nd1Ba2Cu2.925Ni0.075O7-y Nd 1 Ba 2 Cu 2.925 Ni 0.075 O 7-y 1 1996 3 Y123 K 80 80 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12622 PR05305856 "NdBa2(Cu,Ni)3O7" Nd1Ba2Cu2.85Ni0.15O7-y Nd 1 Ba 2 Cu 2.85 Ni 0.15 O 7-y 1 1996 3 Y123 K 75 75 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12623 PR05305856 "NdBa2(Cu,Ni)3O7" Nd1Ba2Cu2.775Ni0.225O7-y Nd 1 Ba 2 Cu 2.775 Ni 0.225 O 7-y 1 1996 3 Y123 K 72 72 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12624 PR05305856 "NdBa2(Cu,Ni)3O7" Nd1Ba2Cu2.7Ni0.3O7-y Nd 1 Ba 2 Cu 2.7 Ni 0.3 O 7-y 1 1996 3 Y123 K 62 62 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12625 PR05305856 "NdBa2(Cu,Ni)3O7" Nd1Ba2Cu2.55Ni0.45O7-y Nd 1 Ba 2 Cu 2.55 Ni 0.45 O 7-y 1 1996 3 Y123 K 46 46 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12626 PR05305856 YBa2Cu3O7 Y1Ba2Cu3O7-y Y 1 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 K 90 90 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12627 PR05305856 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.925Ni0.075O7-y Y 1 Ba 2 Cu 2.925 Ni 0.075 O 7-y 1 1996 3 Y123 K 80 80 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12628 PR05305856 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.85Ni0.15O7-y Y 1 Ba 2 Cu 2.85 Ni 0.15 O 7-y 1 1996 3 Y123 K 73 73 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12629 PR05305856 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.775Ni0.225O7-y Y 1 Ba 2 Cu 2.775 Ni 0.225 O 7-y 1 1996 3 Y123 K 68 68 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12630 PR05305856 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.7Ni0.3O7-y Y 1 Ba 2 Cu 2.7 Ni 0.3 O 7-y 1 1996 3 Y123 K 60 60 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12631 PR05305856 "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.55Ni0.45O7-y Y 1 Ba 2 Cu 2.55 Ni 0.45 O 7-y 1 1996 3 Y123 K 45 45 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12632 PR05305856 HoBa2Cu3O7 Ho1Ba2Cu3O7-y Ho 1 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 K 90 90 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12633 PR05305856 "HoBa2(Cu,Ni)3O7" Ho1Ba2Cu2.925Ni0.075O7-y Ho 1 Ba 2 Cu 2.925 Ni 0.075 O 7-y 1 1996 3 Y123 K 90 90 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12634 PR05305856 "HoBa2(Cu,Ni)3O7" Ho1Ba2Cu2.85No0.15O7-y Ho 1 Ba 2 Cu 2.85 No 0.15 O 7-y 1 1996 3 Y123 K 85 85 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12635 PR05305856 "HoBa2(Cu,Ni)3O7" Ho1Ba2Cu2.775Ni0.225O7-y Ho 1 Ba 2 Cu 2.775 Ni 0.225 O 7-y 1 1996 3 Y123 K 84 84 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12636 PR05305856 "HoBa2(Cu,Ni)3O7" Ho1Ba2Cu2.7Ni0.3O7-y Ho 1 Ba 2 Cu 2.7 Ni 0.3 O 7-y 1 1996 3 Y123 K 78 78 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12637 PR05305856 "HoBa2(Cu,Ni)3O7" Ho1Ba2Cu2.55Ni0.45O7-y Ho 1 Ba 2 Cu 2.55 Ni 0.45 O 7-y 1 1996 3 Y123 K 75 75 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12638 PR05305856 TmBa2Cu3O7 Tm1Ba2Cu3O7-y Tm 1 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 K 90 90 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12639 PR05305856 "TmBa2(Cu,Ni)3O7" Tm1Ba2Cu2.925Ni0.075O7-y Tm 1 Ba 2 Cu 2.925 Ni 0.075 O 7-y 1 1996 3 Y123 K 86 86 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12640 PR05305856 "TmBa2(Cu,Ni)3O7" Tm1Ba2Cu2.85Ni0.15O7-y Tm 1 Ba 2 Cu 2.85 Ni 0.15 O 7-y 1 1996 3 Y123 K 84 84 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12641 PR05305856 "TmBa2(Cu,Ni)3O7" Tm1Ba2Cu2.775Ni0.225O7-y Tm 1 Ba 2 Cu 2.775 Ni 0.225 O 7-y 1 1996 3 Y123 K 82 82 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12642 PR05305856 "TmBa2(Cu,Ni)3O7" Tm1Ba2Cu2.7Ni0.3O7-y Tm 1 Ba 2 Cu 2.7 Ni 0.3 O 7-y 1 1996 3 Y123 K 80 80 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12643 PR05305856 "TmBa2(Cu,Ni)3O7" Tm1Ba2Cu2.55Ni0.45O7-y Tm 1 Ba 2 Cu 2.55 Ni 0.45 O 7-y 1 1996 3 Y123 K 80 80 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12644 PR05305856 NdBa2Cu3O7 Nd1Ba2Cu3O7-y Nd 1 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 K 90 90 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12645 PR05305856 "NdBa2(Cu,Fe)3O7" Nd1Ba2Cu2.925Fe0.075O7-y Nd 1 Ba 2 Cu 2.925 Fe 0.075 O 7-y 1 1996 3 Y123 K 66 66 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12646 PR05305856 "NdBa2(Cu,Fe)3O7" Nd1Ba2Cu2.85Fe0.15O7-y Nd 1 Ba 2 Cu 2.85 Fe 0.15 O 7-y 1 1996 3 Y123 K 57 57 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12647 PR05305856 "NdBa2(Cu,Fe)3O7" Nd1Ba2Cu2.775Fe0.225O7-y Nd 1 Ba 2 Cu 2.775 Fe 0.225 O 7-y 1 1996 3 Y123 K 46 46 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12648 PR05305856 "NdBa2(Cu,Fe)3O7" Nd1Ba2Cu2.7Fe0.3O7-y Nd 1 Ba 2 Cu 2.7 Fe 0.3 O 7-y 1 1996 2 Y123 K 24 24 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12649 PR05305856 "NdBa2(Cu,Fe)3O7" Nd1Ba2Cu2.55Fe0.45O7-y Nd 1 Ba 2 Cu 2.55 Fe 0.45 O 7-y 1 1996 3 Y123 K 4.2 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12650 PR05305856 YBa2Cu3O7 Y1Ba2Cu3O7-y Y 1 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 K 90 90 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12651 PR05305856 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.925Fe0.075O7-y Y 1 Ba 2 Cu 2.925 Fe 0.075 O 7-y 1 1996 3 Y123 K 88 88 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12652 PR05305856 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.775Fe0.225O7-y Y 1 Ba 2 Cu 2.775 Fe 0.225 O 7-y 1 1996 3 Y123 K 63 63 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12653 PR05305856 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.7Fe0.3O7-y Y 1 Ba 2 Cu 2.7 Fe 0.3 O 7-y 1 1996 2 Y123 K 35 35 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12654 PR05305856 "YBa2(Cu,Fe)3O7" Y1Ba2Cu2.55Fe0.45O7-y Y 1 Ba 2 Cu 2.55 Fe 0.45 O 7-y 1 1996 3 Y123 K 4.2 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12655 PR05305856 HoBa2Cu3O7 Ho1Ba2Cu3O7-y Ho 1 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 K 90 90 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12656 PR05305856 "HoBa2(Cu,Fe)3O7" Ho1Ba2Cu2.925Fe0.075O7-y Ho 1 Ba 2 Cu 2.925 Fe 0.075 O 7-y 1 1996 3 Y123 K 88 88 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12657 PR05305856 "HoBa2(Cu,Fe)3O7" Ho1Ba2Cu2.85Fe0.15O7-y Ho 1 Ba 2 Cu 2.85 Fe 0.15 O 7-y 1 1996 3 Y123 K 85 85 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12658 PR05305856 "HoBa2(Cu,Fe)3O7" Ho1Ba2Cu2.775Fe0.225O7-y Ho 1 Ba 2 Cu 2.775 Fe 0.225 O 7-y 1 1996 3 Y123 K 64 64 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12659 PR05305856 "HoBa2(Cu,Fe)3O7" Ho1Ba2Cu2.7Fe0.3O7-y Ho 1 Ba 2 Cu 2.7 Fe 0.3 O 7-y 1 1996 2 Y123 K 41 41 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12660 PR05305856 "HoBa2(Cu,Fe)3O7" Ho1Ba2Cu2.55Fe0.45O7-y Ho 1 Ba 2 Cu 2.55 Fe 0.45 O 7-y 1 1996 3 Y123 K 4.2 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12661 PR05305856 TmBa2Cu3O7 Tm1Ba2Cu3O7-y Tm 1 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 K 90 90 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12662 PR05305856 "TmBa2(Cu,Fe)3O7" Tm1Ba2Cu2.925Fe0.075O7-y Tm 1 Ba 2 Cu 2.925 Fe 0.075 O 7-y 1 1996 3 Y123 K 89 89 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12663 PR05305856 "TmBa2(Cu,Fe)3O7" Tm1Ba2Cu2.85Fe0.15O7-y Tm 1 Ba 2 Cu 2.85 Fe 0.15 O 7-y 1 1996 3 Y123 K 86 86 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12664 PR05305856 "TmBa2(Cu,Fe)3O7" Tm1Ba2Cu2.7Fe0.3O7-y Tm 1 Ba 2 Cu 2.7 Fe 0.3 O 7-y 1 1996 2 Y123 K 77 77 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12665 PR05305856 "TmBa2(Cu,Fe)3O7" Tm1Ba2Cu2.55Fe0.45O7-y Tm 1 Ba 2 Cu 2.55 Fe 0.45 O 7-y 1 1996 3 Y123 K 55 55 "R2O3,BaCO3,CuO,NiO,Fe2O3" 1 "MIX(in stoichiometric ratios) - SYN(air,920C,2days,with intermediate grinding) - ANN(air,940C,with intermediate grinding) - ANN(450C,1-2 days,in oxygen flow) - Cool(slow)" "Influence of rare-earth ionic radius on the properties of Ni- and Fe-substituted RBa2(Cu1-xMx)3O7-x systems (R=Y,Nd,Eu,Gd,Ho,Tm;M=Ni,Fe)" 1996 3 "Institute for High Pressure Physics, Russian Academy of Sciences, Moscow regin,142092, Russia" "Phys.Rev.B,53(1996)5856" "R, Ba, Cu, Ni, Fe, O" 12666 PR05305610 "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O3.98 Pr 1.85 Ce 0.15 Cu 1 O 3.98 1 1996 T' nm 0.396 0.396 1.214 3 K 18 18 kA/m "Pr6O11,CeO2,CuO" 1 "mix(Pr6O11,CeO2,CuO)-heat(900C,12h)-fire(1100C,7days with three intermediate grindings) and quench-reduce(950C,12h in Ar) and quench" Tunneling spectroscopy of the superconducting energy gap in RNi2B2C (R=Y and Lu) 1996 "faculty of Integrated Arts and Sciences, Hiroshima University, Higashi-Hiroshima 739, Japan" "Phys.Rev.B,53(1996)5640" 12667 PR05305839 "(Yb,Pr)Ba2Cu3O7" Yb0.8Pr0.2Ba2Cu3O7-y Yb 0.8 Pr 0.2 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 K 84 84 m.ohm.cm 0.8 m3/C 5.00E-10 "R2O3,Pr6O11,BaCO3,CuO" 1 "MIX(R2O3,Pr6O11,BaCO3,CuO,in stoichiometric) - ground - Calcine(915C,24h,in air, Al2O3 crucible) - Cool(slow) - press(3 tons/cm2, into pellets) - Heat(925-935C,3 days,in flowing oxygen) - ANN(680C, 10" "Ion-size effect on normal-state transport properties in R0.8Pr0.2Ba2Cu3O7-y systems (R=Yb, Er, Dy, Gd, Eu, and Nd)" 1996 3 "Department of Physics, National Tsing Hua University, Hsinchu, Taiwan, Republic of China" "Phys.Rev.B,53(1996)5839" "Yb, Er, Dy, Gd, Eu, Nd, Pr, Ba, Cu, O" 12668 PR05305839 "(Er,Pr)Ba2Cu3O7" Er0.8Pr0.2Ba2Cu3O7-y Er 0.8 Pr 0.2 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 K 78 78 m.ohm.cm 1 m3/C 7.00E-10 "R2O3,Pr6O11,BaCO3,CuO" 1 "MIX(R2O3,Pr6O11,BaCO3,CuO,in stoichiometric) - ground - Calcine(915C,24h,in air, Al2O3 crucible) - Cool(slow) - press(3 tons/cm2, into pellets) - Heat(925-935C,3 days,in flowing oxygen) - ANN(680C, 10" "Ion-size effect on normal-state transport properties in R0.8Pr0.2Ba2Cu3O7-y systems (R=Yb, Er, Dy, Gd, Eu, and Nd)" 1996 3 "Department of Physics, National Tsing Hua University, Hsinchu, Taiwan, Republic of China" "Phys.Rev.B,53(1996)5839" "Yb, Er, Dy, Gd, Eu, Nd, Pr, Ba, Cu, O" 12669 PR05305839 "(Dy,Pr)Ba2Cu3O7" Dy0.8Pr0.2Ba2Cu3O7-y Dy 0.8 Pr 0.2 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 K 72 72 m.ohm.cm 1.1 m3/C 8.00E-10 "R2O3,Pr6O11,BaCO3,CuO" 1 "MIX(R2O3,Pr6O11,BaCO3,CuO,in stoichiometric) - ground - Calcine(915C,24h,in air, Al2O3 crucible) - Cool(slow) - press(3 tons/cm2, into pellets) - Heat(925-935C,3 days,in flowing oxygen) - ANN(680C, 10" "Ion-size effect on normal-state transport properties in R0.8Pr0.2Ba2Cu3O7-y systems (R=Yb, Er, Dy, Gd, Eu, and Nd)" 1996 3 "Department of Physics, National Tsing Hua University, Hsinchu, Taiwan, Republic of China" "Phys.Rev.B,53(1996)5839" "Yb, Er, Dy, Gd, Eu, Nd, Pr, Ba, Cu, O" 12670 PR05305839 "(Gd,Pr)Ba2Cu3O7" Gd0.8Pr0.2Ba2Cu3O7-y Gd 0.8 Pr 0.2 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 K 67 67 m.ohm.cm 1.3 m3/C 8.00E-10 "R2O3,Pr6O11,BaCO3,CuO" 1 "MIX(R2O3,Pr6O11,BaCO3,CuO,in stoichiometric) - ground - Calcine(915C,24h,in air, Al2O3 crucible) - Cool(slow) - press(3 tons/cm2, into pellets) - Heat(925-935C,3 days,in flowing oxygen) - ANN(680C, 10" "Ion-size effect on normal-state transport properties in R0.8Pr0.2Ba2Cu3O7-y systems (R=Yb, Er, Dy, Gd, Eu, and Nd)" 1996 3 "Department of Physics, National Tsing Hua University, Hsinchu, Taiwan, Republic of China" "Phys.Rev.B,53(1996)5839" "Yb, Er, Dy, Gd, Eu, Nd, Pr, Ba, Cu, O" 12671 PR05305839 "(Eu,Pr)Ba2Cu3O7" Eu0.8Pr0.2Ba2Cu3O7-y Eu 0.8 Pr 0.2 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 K 59 59 m.ohm.cm 1.4 m3/C 0.000000001 "R2O3,Pr6O11,BaCO3,CuO" 1 "MIX(R2O3,Pr6O11,BaCO3,CuO,in stoichiometric) - ground - Calcine(915C,24h,in air, Al2O3 crucible) - Cool(slow) - press(3 tons/cm2, into pellets) - Heat(925-935C,3 days,in flowing oxygen) - ANN(680C, 10" "Ion-size effect on normal-state transport properties in R0.8Pr0.2Ba2Cu3O7-y systems (R=Yb, Er, Dy, Gd, Eu, and Nd)" 1996 3 "Department of Physics, National Tsing Hua University, Hsinchu, Taiwan, Republic of China" "Phys.Rev.B,53(1996)5839" "Yb, Er, Dy, Gd, Eu, Nd, Pr, Ba, Cu, O" 12672 PR05305839 "(Nd,Pr)Ba2Cu3O7" Nd0.8Pr0.2Ba2Cu3O7-y Nd 0.8 Pr 0.2 Ba 2 Cu 3 O 7-y 1 1996 3 Y123 K 49 49 ohm.cm 1.7 m3/C 0.000000001 "R2O3,Pr6O11,BaCO3,CuO" 1 "MIX(R2O3,Pr6O11,BaCO3,CuO,in stoichiometric) - ground - Calcine(915C,24h,in air, Al2O3 crucible) - Cool(slow) - press(3 tons/cm2, into pellets) - Heat(925-935C,3 days,in flowing oxygen) - ANN(680C, 10" "Ion-size effect on normal-state transport properties in R0.8Pr0.2Ba2Cu3O7-y systems (R=Yb, Er, Dy, Gd, Eu, and Nd)" 1996 3 "Department of Physics, National Tsing Hua University, Hsinchu, Taiwan, Republic of China" "Phys.Rev.B,53(1996)5839" "Yb, Er, Dy, Gd, Eu, Nd, Pr, Ba, Cu, O" 12700 PR05308604 "EuSr2(Cu,Re)3Oz" Eu1Sr2Cu2.85Re0.25Oy Eu 1 Sr 2 Cu 2.85 Re 0.25 O y 1 1996 2 Y123 A 3.836 3.836 11.51 3 K 12 1 "Prepare polycrystalline compounds of RSr2Cu2.85Re0.15Oy(R=lanthanides,Y)Calcine(1000C,12h)-Regrind-Pelletize-Sinter(flowing O2,1055C,(980C for Tm))-Cool(to 500C,1C/min)-anneal(10h)-Cool(to room temper" Strong rare-earth size dependence of Tc in RSr2Cu2.85Re0.15Oz 1996 4 "Department of Chemistry, Indian Institute of Technology,Powai, Bombay 400 076, India" "Phys.Rev.B,53(1996)8604" "R, Sr, Cu, Re, O" 12701 PR05308604 "GdSr2(Cu,Re)3Oz" Gd1Sr2Cu2.85Re0.15Oy Gd 1 Sr 2 Cu 2.85 Re 0.15 O y 1 1996 3 Y123 A 3.83 3.833 11.511 3 K 25 25 1 "Prepare polycrystalline compounds of RSr2Cu2.85Re0.15Oy(R=lanthanides,Y)Calcine(1000C,12h)-Regrind-Pelletize-Sinter(flowing O2,1055C,(980C for Tm))-Cool(to 500C,1C/min)-anneal(10h)-Cool(to room temper" Strong rare-earth size dependence of Tc in RSr2Cu2.85Re0.15Oz 1996 4 "Department of Chemistry, Indian Institute of Technology,Powai, Bombay 400 076, India" "Phys.Rev.B,53(1996)8604" "R, Sr, Cu, Re, O" 12702 PR05308604 "TbSr2(Cu,Re)3Oz" Tb1Sr2Cu2.85Re0.15Oy Tb 1 Sr 2 Cu 2.85 Re 0.15 O y 1 1996 3 Y123 A 3.822 3.826 11.507 3 K 22 30 26 1 "Prepare polycrystalline compounds of RSr2Cu2.85Re0.15Oy(R=lanthanides,Y)Calcine(1000C,12h)-Regrind-Pelletize-Sinter(flowing O2,1055C,(980C for Tm))-Cool(to 500C,1C/min)-anneal(10h)-Cool(to room temper" Strong rare-earth size dependence of Tc in RSr2Cu2.85Re0.15Oz 1996 4 "Department of Chemistry, Indian Institute of Technology,Powai, Bombay 400 076, India" "Phys.Rev.B,53(1996)8604" "R, Sr, Cu, Re, O" 12703 PR05308604 "DySr2(Cu,Re)3Oz" Dy1Sr2Cu2.85Re0.15Oy Dy 1 Sr 2 Cu 2.85 Re 0.15 O y 1 1996 3 Y123 A 3.812 3.819 11.502 3 K 27 37 32 1 "Prepare polycrystalline compounds of RSr2Cu2.85Re0.15Oy(R=lanthanides,Y)Calcine(1000C,12h)-Regrind-Pelletize-Sinter(flowing O2,1055C,(980C for Tm))-Cool(to 500C,1C/min)-anneal(10h)-Cool(to room temper" Strong rare-earth size dependence of Tc in RSr2Cu2.85Re0.15Oz 1996 4 "Department of Chemistry, Indian Institute of Technology,Powai, Bombay 400 076, India" "Phys.Rev.B,53(1996)8604" "R, Sr, Cu, Re, O" 12704 PR05308604 "HoSr2(Cu,Re)3Oz" Ho1Sr2Cu2.85Re0.15Oy Ho 1 Sr 2 Cu 2.85 Re 0.15 O y 1 1996 3 Y123 A 3.807 3.822 11.501 3 K 42 51 46.5 1 "Prepare polycrystalline compounds of RSr2Cu2.85Re0.15Oy(R=lanthanides,Y)Calcine(1000C,12h)-Regrind-Pelletize-Sinter(flowing O2,1055C,(980C for Tm))-Cool(to 500C,1C/min)-anneal(10h)-Cool(to room temper" Strong rare-earth size dependence of Tc in RSr2Cu2.85Re0.15Oz 1996 4 "Department of Chemistry, Indian Institute of Technology,Powai, Bombay 400 076, India" "Phys.Rev.B,53(1996)8604" "R, Sr, Cu, Re, O" 12705 PR05308604 "ErSr2(Cu,Re)3Oz" Er1Sr2Cu2.85Re0.15OY Er 1 Sr 2 Cu 2.85 Re 0.15 O Y 1 1996 3 Y123 A 3.806 3.822 11.5 3 K 43 51 47 1 "Prepare polycrystalline compounds of RSr2Cu2.85Re0.15Oy(R=lanthanides,Y)Calcine(1000C,12h)-Regrind-Pelletize-Sinter(flowing O2,1055C,(980C for Tm))-Cool(to 500C,1C/min)-anneal(10h)-Cool(to room temper" Strong rare-earth size dependence of Tc in RSr2Cu2.85Re0.15Oz 1996 4 "Department of Chemistry, Indian Institute of Technology,Powai, Bombay 400 076, India" "Phys.Rev.B,53(1996)8604" "R, Sr, Cu, Re, O" 12706 PR05308604 "TmSr2(Cu,Re)3Oz" Tm1Sr2Cu2.85Re0.15Oy Tm 1 Sr 2 Cu 2.85 Re 0.15 O y 1 1996 3 Y123 A 3.806 3.81 11.51 3 K 23 37 30 1 "Prepare polycrystalline compounds of RSr2Cu2.85Re0.15Oy(R=lanthanides,Y)Calcine(1000C,12h)-Regrind-Pelletize-Sinter(flowing O2,1055C,(980C for Tm))-Cool(to 500C,1C/min)-anneal(10h)-Cool(to room temper" Strong rare-earth size dependence of Tc in RSr2Cu2.85Re0.15Oz 1996 4 "Department of Chemistry, Indian Institute of Technology,Powai, Bombay 400 076, India" "Phys.Rev.B,53(1996)8604" "R, Sr, Cu, Re, O" 12707 PR05308604 "YSr2(Cu,Re)3Oz" Y1Sr2Cu2.85Re0.15Oy Y 1 Sr 2 Cu 2.85 Re 0.15 O y 1 1996 3 Y123 A 3.803 3.819 11.516 3 K 41 47 44 1 "Prepare polycrystalline compounds of RSr2Cu2.85Re0.15Oy(R=lanthanides,Y)Calcine(1000C,12h)-Regrind-Pelletize-Sinter(flowing O2,1055C,(980C for Tm))-Cool(to 500C,1C/min)-anneal(10h)-Cool(to room temper" Strong rare-earth size dependence of Tc in RSr2Cu2.85Re0.15Oz 1996 4 "Department of Chemistry, Indian Institute of Technology,Powai, Bombay 400 076, India" "Phys.Rev.B,53(1996)8604" "R, Sr, Cu, Re, O" 12708 PR05309460 This sample is grain-aligned. "HgBa2(Ca,Sr)Cu2O6" Hg1Ba2Ca0.86Sr0.14Cu2O6-Z Hg 1 Ba 2 Ca 0.86 Sr 0.14 Cu 2 O 6-Z 1 1996 2 Hg1212 P4/mmm A 3.858 3.858 12.665 3 K 116 116 Oe BCS clean limit T BCS clean limit 170.4 T/K 2.01 A BCS clean limit 13.9 2 A BCS clean limit 1913 "Ba2CuO3+x,Ca1-xSrxCuO2,HgO" 1 "Mix(Ba2CuO3+x,Ca1-xSrxCuO2,HgO)-Pelletize-Place inside an alumina tube and Seal under vacuum-Heat(to 860C,8h)-Sinter(860C,10h)-Cool(to room temperature,8h" Three-dimensional superconducting behavior and thermodynamic parameters of HgBa2Ca0.86Sr0.14Cu2O6-z 1996 4 "Department of Physics, Pohang University of Science and Technology, pohang 790-784, South Korea" "Phys.Rev.B,53(1996)9460" "Hg, Ba, Ca, Sr, Cu, O" 12709 PR05308902 Bi2Sr2CuO6 Bi2Sr2Cu1O6O6 Bi 2 Sr 2 Cu 1 O 6 O 6 3 1996 Bi2201 K 2 m.ohm.cm 6.4 10 "Bi2O3,SrCO3,CuO" 5 "Mix(Bi2O3,SrCO3,CuO)-React(950C,4h)-Cool(1C/h)" Transport properties of Bi2Sr2cuO6 single crystals: Possibility of interplane coupling in the weakly localized regime 1996 4 "Department of Applied Physics, Hokkaido University, Sapporo 060, Japan" "Phys.Rev.B,53(1996)R8902" "Bi, Sr, Cu, O" 12800 PR05311976 YBa2Cu3O7 Y1Ba2Cu3O6.96 Y 1 Ba 2 Cu 3 O 6.96 1 1996 Y123 K 88.9 88.9 K/GPa -0.27 micro.V/K 0.1 1 Pressure dependence of thermopower in YBa2Cu3O6.96 and YBa2Cu4O8 1996 5 "Center for Materials Science and Engineering, ETC 9.102,University of Texas at Austin, Texas 78712" "Phys.Rev.B,53(1996)R11976" "Y, Ba, Cu, O" 12801 PR05311976 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1996 Y124 K 62 62 K/GPa 6.6 micro.V/K 7.1 1 Pressure dependence of thermopower in YBa2Cu3O6.96 and YBa2Cu4O8 1996 5 "Center for Materials Science and Engineering, ETC 9.102,University of Texas at Austin, Texas 78712" "Phys.Rev.B,53(1996)R11976" "Y, Ba, Cu, O" 12802 PR05312416 This sample is grain-aligned. Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 1 1996 Bi2212 A 30.6 3 K 85 85 A Hao-Clem model 9.5 A Hao-Clem model 2438 1 Effect of HgI2 intercalation on Bi2Sr2CaCu2Oy: Interlayer coupling effect 1996 5 "Department of physics, pohang University of Science and Technology,San 31 Hyojadong, Pohang, Kyugbuk, 790-784,Republic of Korea" "Phys.Rev.B,53(1996)12416" "Bi, Sr, Ca, Cu, Hg, I" 12803 PR05312416 (HgI2)0.5Bi2Sr2CaCu2Oz Hg0.5I1Bi2Sr2Ca1Cu2OZ Hg 0.5 I 1 Bi 2 Sr 2 Ca 1 Cu 2 O Z 1996 Bi2212 A 44.9 3 K 82 82 A Hao-Clem model 8.6 A Hao-Clem model 3197 1 "The polycrystalline Bi2212 pellet and mercuric iodine (mole ratio of 1:5),together with free iodine (1.5 atm) were heated in an evacurated Pyrex tube." Effect of HgI2 intercalation on Bi2Sr2CaCu2Oy: Interlayer coupling effect 1996 5 "Department of physics, pohang University of Science and Technology,San 31 Hyojadong, Pohang, Kyugbuk, 790-784,Republic of Korea" "Phys.Rev.B,53(1996)12416" "Bi, Sr, Ca, Cu, Hg, I" 12804 PR05311855 YbBa2Cu3O9.97 Yb1Ba2Cu3O6.97 Yb 1 Ba 2 Cu 3 O 6.97 1 1996 Y123 K 88 88 K/GPa -0.5 1 Polycrystals were prepared by the standard solid-state reaction technique.All samples are annealed in flowing oxgen at 400 Cfor 8 hours. Pressure effect on Tc for (Yb1-xPrx)Ba2Cu3O7 1996 5 "Department of Physics,National Taiwan University, Taipei, Taiwan,republic of China" "Phys.Rev.B,53(1996)11855" "Yb, Pr, Ba, Cu, O" 12805 PR05311855 "(Yb,Pr)Ba2Cu3O7" Yb0.995Pr0.05Ba2Cu3O6.97 Yb 0.995 Pr 0.05 Ba 2 Cu 3 O 6.97 1 1996 Y123 K 89.5 89.5 K/GPa 0.2 1 Polycrystals were prepared by the standard solid-state reaction technique.All samples are annealed in flowing oxgen at 400 Cfor 8 hours. Pressure effect on Tc for (Yb1-xPrx)Ba2Cu3O7 1996 5 "Department of Physics,National Taiwan University, Taipei, Taiwan,republic of China" "Phys.Rev.B,53(1996)11855" "Yb, Pr, Ba, Cu, O" 12806 PR05311855 "(Yb,Pr)Ba2Cu3O7" Yb0.925Pr0.075Ba2Cu3O6.97 Yb 0.925 Pr 0.075 Ba 2 Cu 3 O 6.97 1 1996 Y123 K 89 89 K/GPa 0.35 1 Polycrystals were prepared by the standard solid-state reaction technique.All samples are annealed in flowing oxgen at 400 Cfor 8 hours. Pressure effect on Tc for (Yb1-xPrx)Ba2Cu3O7 1996 5 "Department of Physics,National Taiwan University, Taipei, Taiwan,republic of China" "Phys.Rev.B,53(1996)11855" "Yb, Pr, Ba, Cu, O" 12807 PR05311855 "(Yb,Pr)Ba2Cu3O7" Yb0.9Pr0.1Ba2Cu3O6.97 Yb 0.9 Pr 0.1 Ba 2 Cu 3 O 6.97 1 1996 Y123 K 88.5 88.5 K/GPa 0.45 1 Polycrystals were prepared by the standard solid-state reaction technique.All samples are annealed in flowing oxgen at 400 Cfor 8 hours. Pressure effect on Tc for (Yb1-xPrx)Ba2Cu3O7 1996 5 "Department of Physics,National Taiwan University, Taipei, Taiwan,republic of China" "Phys.Rev.B,53(1996)11855" "Yb, Pr, Ba, Cu, O" 12808 PR05311855 "(Yb,Pr)Ba2Cu3O7" Yb0.85Pr0.15Ba2Cu3O6.97 Yb 0.85 Pr 0.15 Ba 2 Cu 3 O 6.97 1 1996 Y123 K 86.5 86.5 K/GPa 1 Polycrystals were prepared by the standard solid-state reaction technique.All samples are annealed in flowing oxgen at 400 Cfor 8 hours. Pressure effect on Tc for (Yb1-xPrx)Ba2Cu3O7 1996 5 "Department of Physics,National Taiwan University, Taipei, Taiwan,republic of China" "Phys.Rev.B,53(1996)11855" "Yb, Pr, Ba, Cu, O" 12809 PR05311855 "(Yb,Pr)Ba2Cu3O7" Yb0.8Pr0.2Ba2Cu3O6.97 Yb 0.8 Pr 0.2 Ba 2 Cu 3 O 6.97 1 1996 Y123 K 82 82 K/GPa -0.55 1 Polycrystals were prepared by the standard solid-state reaction technique.All samples are annealed in flowing oxgen at 400 Cfor 8 hours. Pressure effect on Tc for (Yb1-xPrx)Ba2Cu3O7 1996 5 "Department of Physics,National Taiwan University, Taipei, Taiwan,republic of China" "Phys.Rev.B,53(1996)11855" "Yb, Pr, Ba, Cu, O" 12810 PR05311855 "(Yb,Pr)Ba2Cu3O7" Yb0.7Pr0.3Ba2Cu3O6.97 Yb 0.7 Pr 0.3 Ba 2 Cu 3 O 6.97 1 1996 Y123 K 73.5 73.5 K/GPa -1.75 1 Polycrystals were prepared by the standard solid-state reaction technique.All samples are annealed in flowing oxgen at 400 Cfor 8 hours. Pressure effect on Tc for (Yb1-xPrx)Ba2Cu3O7 1996 5 "Department of Physics,National Taiwan University, Taipei, Taiwan,republic of China" "Phys.Rev.B,53(1996)11855" "Yb, Pr, Ba, Cu, O" 12811 PR05312410 "Bi2(Sr,La)2CuOz" Bi2Sr1.8La0.2Cu1Oz Bi 2 Sr 1.8 La 0.2 Cu 1 O z 1 1996 Bi2201 A 5.376 5.372 24.536 3 K "Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO" 1 "Mix(Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO)-Heat(810-850C,36h)-Pelletize-Sin(885-930C,in flowing oxgen)" "Modulation structure in Bi2Sr1.8La0.2Cu1-xMxOy (M=Fe, Co, Ni, and Zn)" 1996 5 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui,230026,People's Republic of China" "Phys.Rev.B,53(1996)12410" "Bi, Sr, La, Cu, O, Fe, Co, Ni, Zn" 12812 PR05312410 "Bi2(Sr,La)2(Cu,Co)Oz" Bi2Sr1.8La0.2Cu0.8Co0.2Oz Bi 2 Sr 1.8 La 0.2 Cu 0.8 Co 0.2 O z 1 1996 Bi2201 A 5.395 5.378 24.196 3 K "Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO" 1 "Mix(Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO)-Heat(810-850C,36h)-Pelletize-Sin(885-930C,in flowing oxgen)" "Modulation structure in Bi2Sr1.8La0.2Cu1-xMxOy (M=Fe, Co, Ni, and Zn)" 1996 5 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui,230026,People's Republic of China" "Phys.Rev.B,53(1996)12410" "Bi, Sr, La, Cu, O, Fe, Co, Ni, Zn" 12813 PR05312410 "Bi2(Sr,La)2(Cu,Co)Oz" Bi2Sr1.8La0.2Cu0.6Co0.4Oz Bi 2 Sr 1.8 La 0.2 Cu 0.6 Co 0.4 O z 1 1996 Bi2201 A 5.414 5.399 24.015 3 K "Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO" 1 "Mix(Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO)-Heat(810-850C,36h)-Pelletize-Sin(885-930C,in flowing oxgen)" "Modulation structure in Bi2Sr1.8La0.2Cu1-xMxOy (M=Fe, Co, Ni, and Zn)" 1996 5 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui,230026,People's Republic of China" "Phys.Rev.B,53(1996)12410" "Bi, Sr, La, Cu, O, Fe, Co, Ni, Zn" 12814 PR05312410 "Bi2(Sr,La)2(Cu,Co)Oz" Bi2Sr1.8La0.2Cu0.4Co0.6Oz Bi 2 Sr 1.8 La 0.2 Cu 0.4 Co 0.6 O z 1 1996 Bi2201 A 5.416 5.403 23.695 3 K "Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO" 1 "Mix(Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO)-Heat(810-850C,36h)-Pelletize-Sin(885-930C,in flowing oxgen)" "Modulation structure in Bi2Sr1.8La0.2Cu1-xMxOy (M=Fe, Co, Ni, and Zn)" 1996 5 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui,230026,People's Republic of China" "Phys.Rev.B,53(1996)12410" "Bi, Sr, La, Cu, O, Fe, Co, Ni, Zn" 12815 PR05312410 "Bi2(Sr,La)2(Cu,Co)Oz" Bi2Sr1.8La0.2Cu0.2Co0.8Oz Bi 2 Sr 1.8 La 0.2 Cu 0.2 Co 0.8 O z 1 1996 Bi2201 A 5.436 5.425 23.383 3 K "Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO" 1 "Mix(Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO)-Heat(810-850C,36h)-Pelletize-Sin(885-930C,in flowing oxgen)" "Modulation structure in Bi2Sr1.8La0.2Cu1-xMxOy (M=Fe, Co, Ni, and Zn)" 1996 5 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui,230026,People's Republic of China" "Phys.Rev.B,53(1996)12410" "Bi, Sr, La, Cu, O, Fe, Co, Ni, Zn" 12816 PR05312410 "Bi2(Sr,La)2CoOz" Bi2Sr1.8La0.2Co1Oz Bi 2 Sr 1.8 La 0.2 Co 1 O z 1 1996 Bi2201 A 5.458 5.435 23.306 3 K "Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO" 1 "Mix(Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO)-Heat(810-850C,36h)-Pelletize-Sin(885-930C,in flowing oxgen)" "Modulation structure in Bi2Sr1.8La0.2Cu1-xMxOy (M=Fe, Co, Ni, and Zn)" 1996 5 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui,230026,People's Republic of China" "Phys.Rev.B,53(1996)12410" "Bi, Sr, La, Cu, O, Fe, Co, Ni, Zn" 12817 PR05312410 "Bi2(Sr,La)(Cu,Fe)Oz" Bi2Sr1.8La0.2Cu0.8Fe0.2Oz Bi 2 Sr 1.8 La 0.2 Cu 0.8 Fe 0.2 O z 1 1996 Bi2201 A 5.385 5.376 24.17 3 K "Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO" 1 "Mix(Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO)-Heat(810-850C,36h)-Pelletize-Sin(885-930C,in flowing oxgen)" "Modulation structure in Bi2Sr1.8La0.2Cu1-xMxOy (M=Fe, Co, Ni, and Zn)" 1996 5 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui,230026,People's Republic of China" "Phys.Rev.B,53(1996)12410" "Bi, Sr, La, Cu, O, Fe, Co, Ni, Zn" 12818 PR05312410 "Bi2(Sr,La)2(Cu,Fe)Oz" Bi2Sr1.8La0.2Cu0.7Fe0.3Oz Bi 2 Sr 1.8 La 0.2 Cu 0.7 Fe 0.3 O z 1 1996 Bi2201 A 5.396 5.384 23.917 3 K "Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO" 1 "Mix(Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO)-Heat(810-850C,36h)-Pelletize-Sin(885-930C,in flowing oxgen)" "Modulation structure in Bi2Sr1.8La0.2Cu1-xMxOy (M=Fe, Co, Ni, and Zn)" 1996 5 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui,230026,People's Republic of China" "Phys.Rev.B,53(1996)12410" "Bi, Sr, La, Cu, O, Fe, Co, Ni, Zn" 12819 PR05312410 "Bi2(Sr,La)2(Cu,Fe)Oz" BiSr1.8La0.2Cu0.6Fe0.4Oz Bi 1 Sr 1.8 La 0.2 Cu 0.6 Fe 0.4 O z 1 1996 Bi2201 A 5.416 5.396 23.828 3 K "Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO" 1 "Mix(Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO)-Heat(810-850C,36h)-Pelletize-Sin(885-930C,in flowing oxgen)" "Modulation structure in Bi2Sr1.8La0.2Cu1-xMxOy (M=Fe, Co, Ni, and Zn)" 1996 5 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui,230026,People's Republic of China" "Phys.Rev.B,53(1996)12410" "Bi, Sr, La, Cu, O, Fe, Co, Ni, Zn" 12820 PR05312410 "Bi2(Sr,La)2(Cu,Fe)Oz" Bi2Sr1.8La0.2Cu0.5Fe0.5Oz Bi 2 Sr 1.8 La 0.2 Cu 0.5 Fe 0.5 O z 1 1996 Bi2201 A 5.432 5.413 23.704 3 K "Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO" 1 "Mix(Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO)-Heat(810-850C,36h)-Pelletize-Sin(885-930C,in flowing oxgen)" "Modulation structure in Bi2Sr1.8La0.2Cu1-xMxOy (M=Fe, Co, Ni, and Zn)" 1996 5 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui,230026,People's Republic of China" "Phys.Rev.B,53(1996)12410" "Bi, Sr, La, Cu, O, Fe, Co, Ni, Zn" 12821 PR05312410 "Bi2(Sr,La)2(Cu,Ni)Oz" Bi2Sr1.8La0.2Cu0.98Ni0.02Oz Bi 2 Sr 1.8 La 0.2 Cu 0.98 Ni 0.02 O z 1 1996 Bi2201 A 5.379 5.373 24.53 3 K "Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO" 1 "Mix(Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO)-Heat(810-850C,36h)-Pelletize-Sin(885-930C,in flowing oxgen)" "Modulation structure in Bi2Sr1.8La0.2Cu1-xMxOy (M=Fe, Co, Ni, and Zn)" 1996 5 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui,230026,People's Republic of China" "Phys.Rev.B,53(1996)12410" "Bi, Sr, La, Cu, O, Fe, Co, Ni, Zn" 12822 PR05312410 "Bi2(Sr,La)2(Cu,Ni)Oz" Bi2Sr1.8La0.2Cu0.96Ni0.04Oz Bi 2 Sr 1.8 La 0.2 Cu 0.96 Ni 0.04 O z 1 1996 Bi2201 A 5.382 5.375 24.522 3 K "Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO" 1 "Mix(Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO)-Heat(810-850C,36h)-Pelletize-Sin(885-930C,in flowing oxgen)" "Modulation structure in Bi2Sr1.8La0.2Cu1-xMxOy (M=Fe, Co, Ni, and Zn)" 1996 5 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui,230026,People's Republic of China" "Phys.Rev.B,53(1996)12410" "Bi, Sr, La, Cu, O, Fe, Co, Ni, Zn" 12823 PR05312410 "Bi2(Sr,La)2(Cu,Ni)Oz" Bi2Sr1.8La0.2Cu0.94Ni0.06Oz Bi 2 Sr 1.8 La 0.2 Cu 0.94 Ni 0.06 O z 1 1996 Bi2201 A 5.384 5.378 24.485 3 K "Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO" 1 "Mix(Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO)-Heat(810-850C,36h)-Pelletize-Sin(885-930C,in flowing oxgen)" "Modulation structure in Bi2Sr1.8La0.2Cu1-xMxOy (M=Fe, Co, Ni, and Zn)" 1996 5 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui,230026,People's Republic of China" "Phys.Rev.B,53(1996)12410" "Bi, Sr, La, Cu, O, Fe, Co, Ni, Zn" 12824 PR05312410 "Bi2(Sr,La)2(Cu,Ni)Oz" Bi2Sr1.8La0.2Cu0.92Ni0.08Oz Bi 2 Sr 1.8 La 0.2 Cu 0.92 Ni 0.08 O z 1 1996 Bi2201 A 5.387 5.38 24.403 3 K "Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO" 1 "Mix(Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO)-Heat(810-850C,36h)-Pelletize-Sin(885-930C,in flowing oxgen)" "Modulation structure in Bi2Sr1.8La0.2Cu1-xMxOy (M=Fe, Co, Ni, and Zn)" 1996 5 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui,230026,People's Republic of China" "Phys.Rev.B,53(1996)12410" "Bi, Sr, La, Cu, O, Fe, Co, Ni, Zn" 12825 PR05312410 "Bi2(Sr,La)(Cu,Ni)Oz" Bi2Sr1.8La0.2Cu0.9Ni0.1Oz Bi 2 Sr 1.8 La 0.2 Cu 0.9 Ni 0.1 O z 1 1996 Bi2201 A 5.396 5.39 24.389 3 K "Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO" 1 "Mix(Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO)-Heat(810-850C,36h)-Pelletize-Sin(885-930C,in flowing oxgen)" "Modulation structure in Bi2Sr1.8La0.2Cu1-xMxOy (M=Fe, Co, Ni, and Zn)" 1996 5 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui,230026,People's Republic of China" "Phys.Rev.B,53(1996)12410" "Bi, Sr, La, Cu, O, Fe, Co, Ni, Zn" 12826 PR05312410 "Bi2(Sr,La)2(Cu,Zn)Oz" Bi2Sr1.8La0.2Cu0.98Zn0.02Oz Bi 2 Sr 1.8 La 0.2 Cu 0.98 Zn 0.02 O z 1 1996 Bi2201 A 5.378 5.373 25.515 3 K "Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO" 1 "Mix(Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO)-Heat(810-850C,36h)-Pelletize-Sin(885-930C,in flowing oxgen)" "Modulation structure in Bi2Sr1.8La0.2Cu1-xMxOy (M=Fe, Co, Ni, and Zn)" 1996 5 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui,230026,People's Republic of China" "Phys.Rev.B,53(1996)12410" "Bi, Sr, La, Cu, O, Fe, Co, Ni, Zn" 12827 PR05312410 "Bi2(Sr,La)(Cu,Zn)Oz" Bi2Sr1.8La0.2Cu0.96Zn0.04Oz Bi 2 Sr 1.8 La 0.2 Cu 0.96 Zn 0.04 O z 1 1996 Bi2201 A 5.384 5.376 24.493 3 K "Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO" 1 "Mix(Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO)-Heat(810-850C,36h)-Pelletize-Sin(885-930C,in flowing oxgen)" "Modulation structure in Bi2Sr1.8La0.2Cu1-xMxOy (M=Fe, Co, Ni, and Zn)" 1996 5 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui,230026,People's Republic of China" "Phys.Rev.B,53(1996)12410" "Bi, Sr, La, Cu, O, Fe, Co, Ni, Zn" 12828 PR05312410 "Bi2(Sr,La)(Cu,Zn)Oz" Bi2Sr1.8La0.2Cu0.94Zn0.06Oz Bi 2 Sr 1.8 La 0.2 Cu 0.94 Zn 0.06 O z 1 1996 Bi2201 A 5.386 5.377 24.394 3 K "Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO" 1 "Mix(Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO)-Heat(810-850C,36h)-Pelletize-Sin(885-930C,in flowing oxgen)" "Modulation structure in Bi2Sr1.8La0.2Cu1-xMxOy (M=Fe, Co, Ni, and Zn)" 1996 5 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui,230026,People's Republic of China" "Phys.Rev.B,53(1996)12410" "Bi, Sr, La, Cu, O, Fe, Co, Ni, Zn" 12829 PR05312410 "Bi2(Sr,La)(Cu,Zn)Oz" Bi2Sr1.8La0.2Cu0.92Zn0.08Oz Bi 2 Sr 1.8 La 0.2 Cu 0.92 Zn 0.08 O z 1 1996 Bi2201 A 5.389 5.379 24.38 3 K "Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO" 1 "Mix(Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO)-Heat(810-850C,36h)-Pelletize-Sin(885-930C,in flowing oxgen)" "Modulation structure in Bi2Sr1.8La0.2Cu1-xMxOy (M=Fe, Co, Ni, and Zn)" 1996 5 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui,230026,People's Republic of China" "Phys.Rev.B,53(1996)12410" "Bi, Sr, La, Cu, O, Fe, Co, Ni, Zn" 12830 PR05312410 "Bi2(Sr,La)2(Cu,Zn)Oz" Bi2Sr1.8La0.2Cu0.9Zn0.1Oz Bi 2 Sr 1.8 La 0.2 Cu 0.9 Zn 0.1 O z 1 1996 Bi2201 K "Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO" 1 "Mix(Bi2O3,SrCO3,La2O3,Fe2O3,NiO,ZnO,CuO)-Heat(810-850C,36h)-Pelletize-Sin(885-930C,in flowing oxgen)" "Modulation structure in Bi2Sr1.8La0.2Cu1-xMxOy (M=Fe, Co, Ni, and Zn)" 1996 5 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui,230026,People's Republic of China" "Phys.Rev.B,53(1996)12410" "Bi, Sr, La, Cu, O, Fe, Co, Ni, Zn" 12831 PR05311340 "(Pr,Ca)Sr2(Cu,Mo)3O7" Pr0.95Ca0.05Sr2Cu2.7Mo0.3O7-z Pr 0.95 Ca 0.05 Sr 2 Cu 2.7 Mo 0.3 O 7-z 1 1996 2 Y123 P4/mmm K 17 17 1 All polycrystalline samples were prepared by the solid-state rreaction method. Occurrence of superconductivity in Ca-and Sr-doped PrSr2Cu2.7Mo0.3O7-z 1996 5 "Department of Electrical Engineering, National Sun Yat-Sen University, Kaohsiung, Taiwan 80424, Republic of China" "Phys.Rev.B,53(1996)11340" "Ca, Pr, Sr, Cu, Mo, O" 12832 PR05311340 "(Pr,Ca)Sr2(Cu,Mo)3O7" Pr0.9Ca0.1Sr2Cu2.7Mo0.3O7-z Pr 0.9 Ca 0.1 Sr 2 Cu 2.7 Mo 0.3 O 7-z 1 1996 Bohr magne 3.52 2 Y123 P4/mmm A 3.857 3.857 11.624 3 K 8 17 24 20 17 mJ/Pr mol 227 1 All polycrystalline samples were prepared by the solid-state rreaction method. Occurrence of superconductivity in Ca-and Sr-doped PrSr2Cu2.7Mo0.3O7-z 1996 5 "Department of Electrical Engineering, National Sun Yat-Sen University, Kaohsiung, Taiwan 80424, Republic of China" "Phys.Rev.B,53(1996)11340" "Ca, Pr, Sr, Cu, Mo, O" 12833 PR05311340 "(Pr,Ca)Sr2(Cu,Mo)3O7" Pr0.85Ca0.15Sr2Cu2.7Mo0.3O7-z Pr 0.85 Ca 0.15 Sr 2 Cu 2.7 Mo 0.3 O 7-z 1 1996 2 Y123 P4/mmm K 8 16 24 16 1 All polycrystalline samples were prepared by the solid-state rreaction method. Occurrence of superconductivity in Ca-and Sr-doped PrSr2Cu2.7Mo0.3O7-z 1996 5 "Department of Electrical Engineering, National Sun Yat-Sen University, Kaohsiung, Taiwan 80424, Republic of China" "Phys.Rev.B,53(1996)11340" "Ca, Pr, Sr, Cu, Mo, O" 12834 PR05311340 "(Pr,Sr)Sr2(Cu,Mo))3O7" Pr0.95Sr2.05Cu2.7Mo0.3O7-z Pr 0.95 Sr 2.05 Cu 2.7 Mo 0.3 O 7-z 1 1996 2 Y123 P4/mmm K 13 20 13 1 All polycrystalline samples were prepared by the solid-state rreaction method. Occurrence of superconductivity in Ca-and Sr-doped PrSr2Cu2.7Mo0.3O7-z 1996 5 "Department of Electrical Engineering, National Sun Yat-Sen University, Kaohsiung, Taiwan 80424, Republic of China" "Phys.Rev.B,53(1996)11340" "Ca, Pr, Sr, Cu, Mo, O" 12835 PR05311340 "(Pr,Sr)Sr2(Cu,Mo)3O7" Pr0.9Sr2.1Cu2.7Mo0.3O7-z Pr 0.9 Sr 2.1 Cu 2.7 Mo 0.3 O 7-z 1 1996 Bohr magne 3.52 2 Y123 P4/mmm A 3.863 3.863 11.624 3 K 13 17 25 17 mJ/Pr mol 221 1 All polycrystalline samples were prepared by the solid-state rreaction method. Occurrence of superconductivity in Ca-and Sr-doped PrSr2Cu2.7Mo0.3O7-z 1996 5 "Department of Electrical Engineering, National Sun Yat-Sen University, Kaohsiung, Taiwan 80424, Republic of China" "Phys.Rev.B,53(1996)11340" "Ca, Pr, Sr, Cu, Mo, O" 12836 PR05311340 "(Pr,Sr)Sr2(Cu,Mo)3O7" Pr0.85Sr2.15Cu2.7Mo0.3O7-z Pr 0.85 Sr 2.15 Cu 2.7 Mo 0.3 O 7-z 1 1996 2 Y123 P4/mmm K 15 17 25 17 1 All polycrystalline samples were prepared by the solid-state rreaction method. Occurrence of superconductivity in Ca-and Sr-doped PrSr2Cu2.7Mo0.3O7-z 1996 5 "Department of Electrical Engineering, National Sun Yat-Sen University, Kaohsiung, Taiwan 80424, Republic of China" "Phys.Rev.B,53(1996)11340" "Ca, Pr, Sr, Cu, Mo, O" 12837 PR05311340 "(Pr,Sr)Sr2(Cu,Mo)3O7" Pr0.8Sr2.2Cu2.7Mo0.3O7-z Pr 0.8 Sr 2.2 Cu 2.7 Mo 0.3 O 7-z 1 1996 2 Y123 P4/mmm K 15 21 28 21 1 All polycrystalline samples were prepared by the solid-state rreaction method. Occurrence of superconductivity in Ca-and Sr-doped PrSr2Cu2.7Mo0.3O7-z 1996 5 "Department of Electrical Engineering, National Sun Yat-Sen University, Kaohsiung, Taiwan 80424, Republic of China" "Phys.Rev.B,53(1996)11340" "Ca, Pr, Sr, Cu, Mo, O" 12838 PR05311340 "PrSr2(Cu,Mo)3O7" Pr1Sr2Cu2.7Mo0.3O7-z Pr 1 Sr 2 Cu 2.7 Mo 0.3 O 7-z 1 1996 Bohr magne 3.05 2 Y123 P4/mmm A 3.858 3.858 11.616 3 K mJ/Pr mol 212 1 All polycrystalline samples were prepared by the solid-state rreaction method. Occurrence of superconductivity in Ca-and Sr-doped PrSr2Cu2.7Mo0.3O7-z 1996 5 "Department of Electrical Engineering, National Sun Yat-Sen University, Kaohsiung, Taiwan 80424, Republic of China" "Phys.Rev.B,53(1996)11340" "Ca, Pr, Sr, Cu, Mo, O" 12839 PR05311825 Pb0.26Bi1.74Sr1.85Ca0.9Cu1.95Oz Pb 0.26 Bi 1.74 Sr 1.85 Ca 0.9 Cu 1.95 O z 3 1996 Bi2212 K 68 68 A Hao-Clem model 1900 5 "Grow by a self-flux method in almina crucibles-Anneal (in O2 300bar,440C,4-8days)" Temperature and doping dependence of the penetrasion depth in Bi2Sr2CaCu2O8+z 1996 5 "Walther-Mei%!ner-Institut,Walther-Mei%!ner-Strasse 8, D-85748 Garching, Germany" "Phys.Rev.B,53(1996)11825" "Bi, Sr, Ca, Cu, O" 12840 PR05311825 Pb0.38Bi1.75Sr1.75Ca1.1Cu2Oz Pb 0.38 Bi 1.75 Sr 1.75 Ca 1.1 Cu 2 O z 3 1996 Bi2212 K 89 89 A Hao-Clem model 2200 5 "Grow by a self-flux method in almina crucibles-Anneal(in Ar(sample no. 12841),in O2(sample no. 12842),550-650C,4-8days)" Temperature and doping dependence of the penetrasion depth in Bi2Sr2CaCu2O8+z 1996 5 "Walther-Mei%!ner-Institut,Walther-Mei%!ner-Strasse 8, D-85748 Garching, Germany" "Phys.Rev.B,53(1996)11825" "Bi, Sr, Ca, Cu, O" 12841 PR05311825 Pb0.38Bi1.75Sr1.75Ca1.1Cu2Oz Pb 0.38 Bi 1.75 Sr 1.75 Ca 1.1 Cu 2 O z 3 1996 Bi2212 K 87 87 A Hao-Clem model 2300 5 "Grow by a self-flux method in almina crucibles-Anneal(in Ar(sample no. 12841),in O2(sample no. 12842),550-650C,4-8days)" Temperature and doping dependence of the penetrasion depth in Bi2Sr2CaCu2O8+z 1996 5 "Walther-Mei%!ner-Institut,Walther-Mei%!ner-Strasse 8, D-85748 Garching, Germany" "Phys.Rev.B,53(1996)11825" "Bi, Sr, Ca, Cu, O" 12842 PR05311825 Pb0.38Bi1.75Sr1.75Ca1.1Cu2Oz Pb 0.38 Bi 1.75 Sr 1.75 Ca 1.1 Cu 2 O z 3 1996 Bi2212 K 71.5 71.5 A Hao-Clem model 2000 5 "Grow by a self-flux method in almina crucibles-Anneal(in Ar(sample no. 12841),in O2(sample no. 12842),550-650C,4-8days)" Temperature and doping dependence of the penetrasion depth in Bi2Sr2CaCu2O8+z 1996 5 "Walther-Mei%!ner-Institut,Walther-Mei%!ner-Strasse 8, D-85748 Garching, Germany" "Phys.Rev.B,53(1996)11825" "Bi, Sr, Ca, Cu, O" 12843 PR05311825 Bi2.1Sr1.9Ca0.74Cu2Oz Bi 2.1 Sr 1.9 Ca 0.74 Cu 2 O z 3 1996 Bi2212 K 88 88 A Hao-Clem model 2700 5 "Grow by a self-flux method in gold crucibles-Anneal in O2(sample no. 12844),550-650C,4-8days)" Temperature and doping dependence of the penetrasion depth in Bi2Sr2CaCu2O8+z 1996 5 "Walther-Mei%!ner-Institut,Walther-Mei%!ner-Strasse 8, D-85748 Garching, Germany" "Phys.Rev.B,53(1996)11825" "Bi, Sr, Ca, Cu, O" 12844 PR05311825 Bi2.1Sr1.9Ca0.74Cu2Oz Bi 2.1 Sr 1.9 Ca 0.74 Cu 2 O z 3 1996 Bi2212 K 80 80 A Hao-Clem model 2250 5 "Grow by a self-flux method in gold crucibles-Anneal in O2(sample no. 12844),550-650C,4-8days)" Temperature and doping dependence of the penetrasion depth in Bi2Sr2CaCu2O8+z 1996 5 "Walther-Mei%!ner-Institut,Walther-Mei%!ner-Strasse 8, D-85748 Garching, Germany" "Phys.Rev.B,53(1996)11825" "Bi, Sr, Ca, Cu, O" 12845 PR05311825 Bi2.1Sr1.7Ca1.1Cu2Oz Bi 2.1 Sr 1.7 Ca 1.1 Cu 2 O z 3 1996 Bi2212 K 94 94 A Hao-Clem model 2050 5 "Grow by a self flux method in gold crucibles-Anneal(in Ar(sample no.12846),in O2(sample no.12847,550-650C,4-8days)" Temperature and doping dependence of the penetrasion depth in Bi2Sr2CaCu2O8+z 1996 5 "Walther-Mei%!ner-Institut,Walther-Mei%!ner-Strasse 8, D-85748 Garching, Germany" "Phys.Rev.B,53(1996)11825" "Bi, Sr, Ca, Cu, O" 12846 PR05311825 Bi2.1Sr1.7Ca1.1Cu2OZ Bi 2.1 Sr 1.7 Ca 1.1 Cu 2 O Z 3 1996 Bi2212 K 80 80 A Hao-Clem model 2700 5 "Grow by a self flux method in gold crucibles-Anneal(in Ar(sample no.12846),in O2(sample no.12847,550-650C,4-8days)" Temperature and doping dependence of the penetrasion depth in Bi2Sr2CaCu2O8+z 1996 5 "Walther-Mei%!ner-Institut,Walther-Mei%!ner-Strasse 8, D-85748 Garching, Germany" "Phys.Rev.B,53(1996)11825" "Bi, Sr, Ca, Cu, O" 12847 PR05311825 Bi2.1Sr1.7Ca1.1Cu2OZ Bi 2.1 Sr 1.7 Ca 1.1 Cu 2 O Z 3 1996 Bi2212 K 85.5 85.5 A Hao-Clem model 1950 5 "Grow by a self flux method in gold crucibles-Anneal(in Ar(sample no.12846),in O2(sample no.12847,550-650C,4-8days)" Temperature and doping dependence of the penetrasion depth in Bi2Sr2CaCu2O8+z 1996 5 "Walther-Mei%!ner-Institut,Walther-Mei%!ner-Strasse 8, D-85748 Garching, Germany" "Phys.Rev.B,53(1996)11825" "Bi, Sr, Ca, Cu, O" 12848 PR05311324 "(La,Sr)2CuO4" La1.885Sr0.115Cu1O4 La 1.885 Sr 0.115 Cu 1 O 4 1 1996 T K 29.5 29.5 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12849 PR05311324 "(La,Nd,Sr)2CuO4" La1.845Nd0.04Sr0.115Cu1O4 La 1.845 Nd 0.04 Sr 0.115 Cu 1 O 4 1 1996 T K 28.5 28.5 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12850 PR05311324 "(La,Nd,Sr)2CuO4" La1.805Nd0.08Sr0.115Cu1O4 La 1.805 Nd 0.08 Sr 0.115 Cu 1 O 4 1 1996 T K 27.5 27.5 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12851 PR05311324 "(La,Nd,Sr)2CuO4" La1.785Nd0.1Sr0.115Cu1O4 La 1.785 Nd 0.1 Sr 0.115 Cu 1 O 4 1 1996 T K 27 27 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12852 PR05311324 "(La,Nd,Sr)2CuO4" La1.76Nd0.125Sr0.115Cu1O4 La 1.76 Nd 0.125 Sr 0.115 Cu 1 O 4 1 1996 T K 25.5 25.5 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12853 PR05311324 "(La,Nd,Sr)2CuO4" La1.745Nd0.14Sr0.115Cu1O4 La 1.745 Nd 0.14 Sr 0.115 Cu 1 O 4 1 1996 T K 17.5 17.5 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12854 PR05311324 "(La,Nd,Sr)2CuO4" La1.735Nd0.15Sr0.115Cu1O4 La 1.735 Nd 0.15 Sr 0.115 Cu 1 O 4 1 1996 T K 16.5 16.5 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12855 PR05311324 "(La,Nd,Sr)2CuO4" La1.685Nd0.2Sr0.115Cu1O4 La 1.685 Nd 0.2 Sr 0.115 Cu 1 O 4 1 1996 T K 11 11 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12856 PR05311324 "(La,Sr)2CuO4" La1.875Sr0.125Cu1O4 La 1.875 Sr 0.125 Cu 1 O 4 1 1996 T K 32 32 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12857 PR05311324 "(La,Nd,Sr)2CuO4" La1.835Nd0.04Sr0.125Cu1O4 La 1.835 Nd 0.04 Sr 0.125 Cu 1 O 4 1 1996 T K 32 32 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12858 PR05311324 "(La,Nd,Sr)2CuO4" La1.795Nd0.08Sr0.125Cu1O4 La 1.795 Nd 0.08 Sr 0.125 Cu 1 O 4 1 1996 T K 29.5 29.5 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12859 PR05311324 "(La,Nd,Sr)2CuO4" La1.775Nd0.1Sr0.125Cu1O4 La 1.775 Nd 0.1 Sr 0.125 Cu 1 O 4 1 1996 T K 27 27 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12860 PR05311324 "(La,Nd,Sr)2CuO4" La1.75Nd0.125Sr0.125Cu1O4 La 1.75 Nd 0.125 Sr 0.125 Cu 1 O 4 1 1996 T K 17.5 17.5 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12861 PR05311324 "(La,Nd,Sr)2CuO4" La1.735Nd0.14Sr0.125Cu1O4 La 1.735 Nd 0.14 Sr 0.125 Cu 1 O 4 1 1996 T K 15 15 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12862 PR05311324 "(La,Nd,Sr)2CuO4" La1.725Nd0.15Sr0.125Cu1O4 La 1.725 Nd 0.15 Sr 0.125 Cu 1 O 4 1 1996 T K 12.5 12.5 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12863 PR05311324 "(La,Nd,Sr)2CuO4" La1.675Nd0.2Sr0.125Cu1O4 La 1.675 Nd 0.2 Sr 0.125 Cu 1 O 4 1 1996 T K 10.5 10.5 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12864 PR05311324 "(La,Nd,Sr)2CuO4" La1.575Nd0.3Sr0.125Cu1O4 La 1.575 Nd 0.3 Sr 0.125 Cu 1 O 4 1 1996 T K 9 9 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12865 PR05311324 "(La,Nd,Sr)2CuO4" La1.775Nd0.125Sr0.1Cu1O4 La 1.775 Nd 0.125 Sr 0.1 Cu 1 O 4 1 1996 T K 26 26 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12866 PR05311324 "(La,Nd,Sr)2CuO4" La1.765Nd0.125Sr0.11Cu1O4 La 1.765 Nd 0.125 Sr 0.11 Cu 1 O 4 1 1996 T K 26 26 mW/K.cm 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12867 PR05311324 "(La,Nd,Sr)2CuO4" La1.76Nd0.125Sr0.115Cu1O4 La 1.76 Nd 0.125 Sr 0.115 Cu 1 O 4 1 1996 T K 25.5 25.5 mW/K.cm 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12868 PR05311324 "(La,Nd,Sr)2CuO4" La1.75Nd0.125Sr0.125Cu1O4 La 1.75 Nd 0.125 Sr 0.125 Cu 1 O 4 1 1996 T K 17.5 17.5 mW/K.cm 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12869 PR05311324 "(La,Nd,Sr)2CuO4" La1.74Nd0.125Sr0.135Cu1O4 La 1.74 Nd 0.125 Sr 0.135 Cu 1 O 4 1 1996 T K 21 21 mW/K.cm 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12870 PR05311324 "(La,Nd,Sr)2CuO4" La1.725Nd0.125Sr0.15Cu1O4 La 1.725 Nd 0.125 Sr 0.15 Cu 1 O 4 1 1996 T K 33.5 33.5 mW/K.cm 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12871 PR05311324 "(La,Nd,Sr)2CuO4" La1.715Nd0.125Sr0.16Cu1O4 La 1.715 Nd 0.125 Sr 0.16 Cu 1 O 4 1 1996 T K 35 35 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12872 PR05311324 "(La,Nd,Sr)2CuO4" La1.695Nd0.125Sr0.18Cu1O4 La 1.695 Nd 0.125 Sr 0.18 Cu 1 O 4 1 1996 T K mW/K.cm 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 12873 PR05311324 "(La,Nd,Sr)2CuO4" La1.675Nd0.125Sr0.2Cu1O4 La 1.675 Nd 0.125 Sr 0.2 Cu 1 O 4 1 1996 T K mW/K.cm 1 see Phys. Soc Jpn 63 (1994) 2314 Suppression of the superconcting transition temperature Tc around x-0.115 in La2-xSrxCuO4 1996 5 "Institute for Materials Research, Tohoku University, Sendai 980, Japan" "Phys.Rev.B,53(1996)11324" "La, Sr, Cu, O" 13000 PR05503410 Bi2Sr2CaCu2O8 Bi2Sr1.9Ca1Cu1.8O8+y Bi 2 Sr 1.9 Ca 1 Cu 1.8 O 8+y 3 1997 Bi2212 K 85 85 meV 26 7 5 self-flux (Al2O3 or ZrO2 crucibles) Superconducting order parameter in partially substituted Bi2Sr2CaCu2O8+x single crystals as measured by the tunneling effect 1997 2 "Universite' Libre de Bruxelles, Service de Physique des Solides, CP233, Boulevard du Triomphe, B-1050 Brussels, Belgium" "Phys.Rev.B,55(1997)R3410" 13001 PR05503410 "Bi2Sr2Ca(Cu,Ni)2O8" Bi2Sr1.95Ca0.95Cu2.01Ni0.04O8+y Bi 2 Sr 1.95 Ca 0.95 Cu 2.01 Ni 0.04 O 8+y 3 1997 Bi2212 K 75 75 meV 38.5 11.9 5 self-flux (Al2O3 or ZrO2 crucibles) Superconducting order parameter in partially substituted Bi2Sr2CaCu2O8+x single crystals as measured by the tunneling effect 1997 2 "Universite' Libre de Bruxelles, Service de Physique des Solides, CP233, Boulevard du Triomphe, B-1050 Brussels, Belgium" "Phys.Rev.B,55(1997)R3410" 13002 PR05503410 "Bi2Sr2Ca(Cu,Zn)2O8" Bi2Sr2Ca1Cu1.98Zn0.02O8+y Bi 2 Sr 2 Ca 1 Cu 1.98 Zn 0.02 O 8+y 3 1997 Bi2212 K 79 79 meV 25 5 self-flux (Al2O3 or ZrO2 crucibles) Superconducting order parameter in partially substituted Bi2Sr2CaCu2O8+x single crystals as measured by the tunneling effect 1997 2 "Universite' Libre de Bruxelles, Service de Physique des Solides, CP233, Boulevard du Triomphe, B-1050 Brussels, Belgium" "Phys.Rev.B,55(1997)R3410" 13003 PR05503390 "(Y,Pr)Ba2Cu3O7" Y0.87Pr0.13Ba2Cu3O7-d Y 0.87 Pr 0.13 Ba 2 Cu 3 O 7-d 3 1997 Y123 K 85 85 m.ohm.cm 0.12 100 "Ref. L. M. Paulius, B. W. Lee, M. B. Maple, and P. K. Tsai, Physica C 230,255(1994)" Nonmonotonic evolution of out-of-plane resistivity with Pr doping in Y1-xPrxBa2Cu3O7-delta single crystals 1997 2 "Department of Physics, Kent State University, Kent, Ohio 44242" "Phys.Rev.B,55(1997)R3390" 13004 PR05503390 "(Y,Pr)Ba2Cu3O7" Y0.78Pr0.22Ba2Cu3O7-d Y 0.78 Pr 0.22 Ba 2 Cu 3 O 7-d 3 1997 Y123 K 70 70 m.ohm.cm 0.12 50 0.26 65 "Ref. L. M. Paulius, B. W. Lee, M. B. Maple, and P. K. Tsai, Physica C 230,255(1994)" Nonmonotonic evolution of out-of-plane resistivity with Pr doping in Y1-xPrxBa2Cu3O7-delta single crystals 1997 2 "Department of Physics, Kent State University, Kent, Ohio 44242" "Phys.Rev.B,55(1997)R3390" 13005 PR05503390 "(Y,Pr)Ba2Cu3O7" Y0.58Pr0.42Ba2Cu3O7-d Y 0.58 Pr 0.42 Ba 2 Cu 3 O 7-d 3 1997 Y123 K 40 40 m.ohm.cm 0.23 185 0.51 100 "Ref. L. M. Paulius, B. W. Lee, M. B. Maple, and P. K. Tsai, Physica C 230,255(1994)" Nonmonotonic evolution of out-of-plane resistivity with Pr doping in Y1-xPrxBa2Cu3O7-delta single crystals 1997 2 "Department of Physics, Kent State University, Kent, Ohio 44242" "Phys.Rev.B,55(1997)R3390" 13006 PR05503390 "(Y,Pr)Ba2Cu3O7" Y0.47Pr0.53Ba2Cu3O7-d Y 0.47 Pr 0.53 Ba 2 Cu 3 O 7-d 3 1997 K 8 8 m.ohm.cm 0.5 155 0.7 65 "Ref. L. M. Paulius, B. W. Lee, M. B. Maple, and P. K. Tsai, Physica C 230,255(1994)" Nonmonotonic evolution of out-of-plane resistivity with Pr doping in Y1-xPrxBa2Cu3O7-delta single crystals 1997 2 "Department of Physics, Kent State University, Kent, Ohio 44242" "Phys.Rev.B,55(1997)R3390" 13007 PR05503390 non-superconductor "(Y,Pr)Ba2Cu3O7" Y0.45Pr0.55Ba2Cu3O7-d Y 0.45 Pr 0.55 Ba 2 Cu 3 O 7-d 3 1997 Y123 K m.ohm.cm 2.9 500 0.75 140 1.18 40 "Ref. L. M. Paulius, B. W. Lee, M. B. Maple, and P. K. Tsai, Physica C 230,255(1994)" Nonmonotonic evolution of out-of-plane resistivity with Pr doping in Y1-xPrxBa2Cu3O7-delta single crystals 1997 2 "Department of Physics, Kent State University, Kent, Ohio 44242" "Phys.Rev.B,55(1997)R3390" 13008 PR05503374 magnetic superconductor "(Eu,Ce)2RuSr2Cu2O10" Eu1.4Ce0.6Ru1Sr2Cu2O10-d Eu 1.4 Ce 0.6 Ru 1 Sr 2 Cu 2 O 10-d 1 1997 122.1 2 Ru1222 I4/mmm A 3.846 2.85 3 K 32 32 meV 9 1 Coexistence of magnetism and superconductivity in R1.4Ce0.6RuSr2Cu2O10-z (R=Eu and Gd) 1997 2 "Racah Institute of Physics,The Hebrew University, Jerusalem, 91904, Israel" "Phys.Rev.B,55(1997)R3374" 13009 PR05503374 magnetic superconductor "(Gd,Ce)2RuSr2Cu2O10" Gd1.4Ce0.6Ru1Sr2Cu2O10-d Gd 1.4 Ce 0.6 Ru 1 Sr 2 Cu 2 O 10-d 1 1997 180.5 2 M2212 I4/mmm A 3.844 28.621 3 K 42 42 meV 7.7 1 Coexistence of magnetism and superconductivity in R1.4Ce0.6RuSr2Cu2O10-z (R=Eu and Gd) 1997 2 "Racah Institute of Physics,The Hebrew University, Jerusalem, 91904, Israel" "Phys.Rev.B,55(1997)R3374" 13010 PR05503929 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O8 Tl 2 Ba 2 Ca 1 Cu 2 O 8 3 1997 Tl2212 K 103 103 T/K 2.6 "A. Maignan et al. Physica 219,407(1994)M. Ledesert et al. Physica C232.387(1994)" Scaling behavior of conductivity and nagnetization in high-temperature superconductors 1997 2 "Universite' de Tours, LEMA(Laboratoire d'Electrodynamique des Materiaux Avance's), UFR de Sciences, Parc Grandmont, 37200 Tours, France" "Phys.Rev.B,55(1997)3929" 13011 PR05503929 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 3 1997 Y123 K 92 92 T/K 1.9 "MTG techniqueM. P. Delamare et al. Physica C262,381(1996)" Scaling behavior of conductivity and nagnetization in high-temperature superconductors 1997 2 "Universite' de Tours, LEMA(Laboratoire d'Electrodynamique des Materiaux Avance's), UFR de Sciences, Parc Grandmont, 37200 Tours, France" "Phys.Rev.B,55(1997)3929" 13012 PR05503929 "(Tl,Bi)Si2CaCu2O7" Tl1Bi1Sr2Ca1Cu2O7 Tl 1 Bi 1 Sr 2 Ca 1 Cu 2 O 7 3 1997 Tl1212 K 86 86 T/K 2.2 "A. Maignan et al. Physica 219,407(1994)M. Ledesert et al. Physica C232.387(1994)" Scaling behavior of conductivity and nagnetization in high-temperature superconductors 1997 2 "Universite' de Tours, LEMA(Laboratoire d'Electrodynamique des Materiaux Avance's), UFR de Sciences, Parc Grandmont, 37200 Tours, France" "Phys.Rev.B,55(1997)3929" 13013 PR05503954 twin sample YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 3 1997 Y123 K 93.1 0.2 93.1 SP13013 mJ/molK2 3.23 5 Specific heat of YBa2Cu3O7-z 1997 2 "Departments of Physics and Applied Physics, Stanford University, Stanford, California 94305" "Phys.Rev.B,55(1997)3954" 13014 PR05503954 un-twin sample YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 3 1997 Y123 K SP13014 mJ/molK2 2.2 5 Specific heat of YBa2Cu3O7-z 1997 2 "Departments of Physics and Applied Physics, Stanford University, Stanford, California 94305" "Phys.Rev.B,55(1997)3954" 13015 PR05503954 un-twin sample YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 3 1997 Y123 K SP13015 mJ/molK2 2 5 Specific heat of YBa2Cu3O7-z 1997 2 "Departments of Physics and Applied Physics, Stanford University, Stanford, California 94305" "Phys.Rev.B,55(1997)3954" 13016 PR05503954 un-twin sample YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 3 1997 Y123 K SP13016 mJ/molK2 1.2 5 Specific heat of YBa2Cu3O7-z 1997 2 "Departments of Physics and Applied Physics, Stanford University, Stanford, California 94305" "Phys.Rev.B,55(1997)3954" 13017 PR05503954 twin sample YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 3 1997 Y123 K mJ/molK2 3 5 Specific heat of YBa2Cu3O7-z 1997 2 "Departments of Physics and Applied Physics, Stanford University, Stanford, California 94305" "Phys.Rev.B,55(1997)3954" 13018 PR05503954 un-twin sample YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 3 1997 Y123 K SP13018 mJ/molK2 2.4 5 Specific heat of YBa2Cu3O7-z 1997 2 "Departments of Physics and Applied Physics, Stanford University, Stanford, California 94305" "Phys.Rev.B,55(1997)3954" 13019 PR05503297 non-superconductorsurpressed by Pr's antferromagnetic order "(Pr,Ce)2Sr2NbCu2O10" Pr1.5Ce0.5Sr2Cu2Nb1O10-d Pr 1.5 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10-d 1 1997 emu/cc emu.K/cc 0.011 16.94 2 M2212 I4/mmm A 3.887 28.762 3 K SP13019 1 "Pr and Cu magnetism in (Pr1.5Ce0.5)Sr2Cu2MO10-delta (M=Nb,Ta): Correlations with a suppression of superconductivity" 1997 2 "Department of Physics, University of California, Davis, California 95616" "Phys.Rev.B,55(1997)3297" 13020 PR05503297 non-superconductorsurpressed by Pr's antferromagnetic order "(Pr,Ce)2Sr2NbCu2O10" Pr1.5Ce0.5Sr2Cu2Nb1O10-d Pr 1.5 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10-d 1 1997 emu/cc emu.K/cc 0.011 15.4 2 M2212 I4/mmm A 3.892 28.846 3 K 1 deoxygenated Ar-gas (700C 2days) "Pr and Cu magnetism in (Pr1.5Ce0.5)Sr2Cu2MO10-delta (M=Nb,Ta): Correlations with a suppression of superconductivity" 1997 2 "Department of Physics, University of California, Davis, California 95616" "Phys.Rev.B,55(1997)3297" 13021 PR05503297 non-superconductorsurpressed by Pr's antferromagnetic order "(Pr,Ce)2Sr2TaCu2O10" Pr1.5Ce0.5Sr2Cu2Ta1O10-d Pr 1.5 Ce 0.5 Sr 2 Cu 2 Ta 1 O 10-d 1 1997 emu/cc emu.K/cc 0.012 19.1 2 M1222 I4/mmm A 3.885 28.844 3 K 1 "Pr and Cu magnetism in (Pr1.5Ce0.5)Sr2Cu2MO10-delta (M=Nb,Ta): Correlations with a suppression of superconductivity" 1997 2 "Department of Physics, University of California, Davis, California 95616" "Phys.Rev.B,55(1997)3297" 13022 PR05503297 non-superconductorsurpressed by Pr's antferromagnetic order "(Pr,Ce)2Sr2TaCu2O10" Pr1.5Ce0.5Sr2Cu2Ta1O10-d Pr 1.5 Ce 0.5 Sr 2 Cu 2 Ta 1 O 10-d 1 1997 emu/cc emu.K/cc 0.011 16.2 2 M1222 I4/mmm A 3.89 28.91 3 K 1 deoxygenated Ar-gas (700C 2days) "Pr and Cu magnetism in (Pr1.5Ce0.5)Sr2Cu2MO10-delta (M=Nb,Ta): Correlations with a suppression of superconductivity" 1997 2 "Department of Physics, University of California, Davis, California 95616" "Phys.Rev.B,55(1997)3297" 13023 PR05503297 non-superconductorsurpressed by Pr's antferromagnetic order "(Eu,Ce)Sr2NbCu2O10" Eu1.5Ce0.5Sr2Cu2Nb1O10-d Eu 1.5 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10-d 1 1997 2 M2212 I4/mmm A 3.866 28.756 3 K SP13023 mJ/molK2 4.669 405.1 1 "Pr and Cu magnetism in (Pr1.5Ce0.5)Sr2Cu2MO10-delta (M=Nb,Ta): Correlations with a suppression of superconductivity" 1997 2 "Department of Physics, University of California, Davis, California 95616" "Phys.Rev.B,55(1997)3297" 13024 PR05503966 HgBa2CuO4+z Hg1Ba2Cu1O4.06 Hg 1 Ba 2 Cu 1 O 4.06 1 1997 2 Hg1201 A 3.886 9.532 4 K 71 71 "HgO,Ba2CuO3+x" 1 Annealed 24 hours Ar flow 350C Precision neutron-diffraction study of the high-Tc superconductor HgBa2CuO4+delta 1997 2 "JINR, FLNP, 141980 Dubna, Russia" "Phys.Rev.B,55(1997)3966" 13025 PR05503966 HgBa2CuO4+z Hg1Ba2Cu1O4.19 Hg 1 Ba 2 Cu 1 O 4.19 1 1997 2 Hg1201 A 3.88 9.524 4 K 83 83 "HgO,Ba2CuO3+x" 1 Annealed 24 hours high O2 pressure 250C Precision neutron-diffraction study of the high-Tc superconductor HgBa2CuO4+delta 1997 2 "JINR, FLNP, 141980 Dubna, Russia" "Phys.Rev.B,55(1997)3966" 13026 PR05503966 HgBa2CuO4+z Hg1Ba2Cu1O4.12 Hg 1 Ba 2 Cu 1 O 4.12 1 1997 2 Hg1201 A 3.885 9.526 4 K 98 98 "HgO,Ba2CuO3+x" 1 Annealed 24 hours O2 flow 250C Precision neutron-diffraction study of the high-Tc superconductor HgBa2CuO4+delta 1997 2 "JINR, FLNP, 141980 Dubna, Russia" "Phys.Rev.B,55(1997)3966" 13027 PR05503966 HgBa2CuO4 Hg1Ba2Cu1O4+x Hg 1 Ba 2 Cu 1 O 4+x 2 1997 2 Hg1201 A 3.885 9.52 4 K 96 96 "HgO,Ba2CuO3+x" 1 Annealed 24 hours O2 flow 250C Precision neutron-diffraction study of the high-Tc superconductor HgBa2CuO4+delta 1997 2 "JINR, FLNP, 141980 Dubna, Russia" "Phys.Rev.B,55(1997)3966" 13028 PR05503935 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-d Nd 1.85 Ce 0.15 Cu 1 O 4-d 2 1997 2 T' A 3.955 12.124 3 K 17 26 24 24 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13029 PR05503935 "(Nd,La,Ce)2CuO4" Nd1.65La0.2Ce0.15Cu1O4-d Nd 1.65 La 0.2 Ce 0.15 Cu 1 O 4-d 2 1997 2 T' A 3.963 12.157 3 K 12 26 23 23 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13030 PR05503935 "(Nd,La,Ce)2CuO4" Nd1.35La0.5Ce0.15Cu1O4-d Nd 1.35 La 0.5 Ce 0.15 Cu 1 O 4-d 2 1997 2 T' A 3.97 12.209 3 K 26 18 18 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13031 PR05503935 "(Nd,La,Ce)2CuO4" Nd1.15La0.7Ce0.15Cu1O4-d Nd 1.15 La 0.7 Ce 0.15 Cu 1 O 4-d 2 1997 2 T' A 3.979 12.249 3 K 26 18 18 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13032 PR05503935 "(Nd,La,Ce)2CuO4" Nd0.9La0.95Ce0.15Cu1O4-d Nd 0.9 La 0.95 Ce 0.15 Cu 1 O 4-d 2 1997 2 T' A 3.979 12.267 3 K 26 26 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13033 PR05503935 "(Nd,La,Ce)2CuO4" Nd0.85La1Ce0.15Cu1O4-d Nd 0.85 La 1 Ce 0.15 Cu 1 O 4-d 2 1997 2 T' A 3.983 12.3 3 K 26 15 15 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13034 PR05503935 "(Nd,La,Ce)2CuO4" Nd0.75La1.1Ce0.15Cu1O4-d Nd 0.75 La 1.1 Ce 0.15 Cu 1 O 4-d 2 1997 2 T' A 3.983 12.303 3 K 26 10 10 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13035 PR05503935 "(Nd,La,Ce)2CuO4" Nd0.8La1.1Ce0.1Cu1O4-d Nd 0.8 La 1.1 Ce 0.1 Cu 1 O 4-d 2 1997 2 T' A 3.982 12.317 3 K 15 27 23 23 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13036 PR05503935 "(Nd,La,Ce)2CuO4" Nd0.78La1.1Ce0.12Cu1O4-d Nd 0.78 La 1.1 Ce 0.12 Cu 1 O 4-d 2 1997 2 T' A 3.987 12.299 3 K 10 26 17 17 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13037 PR05503935 "(Nd,La,Ce)2CuO4" Nd0.65La1.1Ce0.25Cu1O4-d Nd 0.65 La 1.1 Ce 0.25 Cu 1 O 4-d 2 1997 2 T' A 3.987 12.234 3 K 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13038 PR05503935 "(Nd,La,Ce)2CuO4" Nd0.65La1.2Ce0.15Cu1O4-d Nd 0.65 La 1.2 Ce 0.15 Cu 1 O 4-d 2 1997 2 T' A 3.988 12.283 3 K 26 26 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13039 PR05503935 "(Nd,La,Ce)2CuO4" Nd0.55La1.3Ce0.15Cu1O4-d Nd 0.55 La 1.3 Ce 0.15 Cu 1 O 4-d 2 1997 2 T' A 3.995 12.307 3 K 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13040 PR05503935 "(Nd,La,Ce)2CuO4" Nd0.5La1.3Ce0.2Cu1O4-d Nd 0.5 La 1.3 Ce 0.2 Cu 1 O 4-d 2 1997 2 T' A 3.994 12.289 3 K 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13041 PR05503935 "(Nd,La,Ce)2CuO4" Nd0.45La1.3Ce0.25Cu1O4-d Nd 0.45 La 1.3 Ce 0.25 Cu 1 O 4-d 2 1997 2 T' A 3.995 12.271 3 K 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13042 PR05503935 "(Nd,La,Ce)2CuO4" Nd0.45La1.4Ce0.15Cu1O4-d Nd 0.45 La 1.4 Ce 0.15 Cu 1 O 4-d 2 1997 2 T' A 3.994 12.286 3 K 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13043 PR05503935 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-d Nd 1.85 Ce 0.15 Cu 1 O 4-d 2 1997 2 T' A 3.955 12.124 3 K 17 26 23 23 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13044 PR05503935 "(Nd,La,Ce)2CuO4" Nd1.66La0.2Ce0.14Cu1O4-d Nd 1.66 La 0.2 Ce 0.14 Cu 1 O 4-d 2 1997 2 T' A 3.961 12.162 3 K 13 26 23 23 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13045 PR05503935 "(Nd,La,Ce)2CuO4" Nd1.47La0.4Ce0.13Cu1O4-d Nd 1.47 La 0.4 Ce 0.13 Cu 1 O 4-d 2 1997 2 T' A 3.965 12.179 3 K 13 26 22 22 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13046 PR05503935 "(Nd,La,Ce)2CuO4" Nd1.22La0.6Ce0.12Cu1O4-d Nd 1.22 La 0.6 Ce 0.12 Cu 1 O 4-d 2 1997 2 T' A 3.969 12.212 3 K 14 26 23 23 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13047 PR05503935 "(Nd,La,Ce)2CuO4" Nd1.09La0.8Ce0.11Cu1O4-d Nd 1.09 La 0.8 Ce 0.11 Cu 1 O 4-d 2 1997 2 T' A 3.974 12.268 3 K 13 26 24 24 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13048 PR05503935 "(Nd,La,Ce)2CuO4" Nd0.9La1Ce0.1Cu1O4-d Nd 0.9 La 1 Ce 0.1 Cu 1 O 4-d 2 1997 2 T' A 3.98 12.311 3 K 15 26 23 23 1 Mixed - Sintered 1000C in Air - Pelletized - Sintered 1050C 24h in Air - Sintered 1050C 12h Flowing Dry N2 Relationship between the lattice parameter and superconductivity in the 2-1-4 series n-type cuprates 1997 2 "National Laboratory for Superconductivity, Institute of Physics, and the Center of Condensed Matter Physics, chinese Academy of Sciences,Beijing, 100800,People's Republic of China" "Phys.Rev.B,55(1996)3935" 13049 PR05503155 YBa2Cu3Oz Y1Ba2Cu3O6.86 Y 1 Ba 2 Cu 3 O 6.86 1 1997 3 Y123 K W/K.m 3.45 micro.V/K 3.65 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13050 PR05503155 YBa2Cu3Oz Y1Ba2Cu2O6.92 Y 1 Ba 2 Cu 2 O 6.92 1 1997 3 Y123 K W/K.m 3.9 micro.V/K 0.53 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13051 PR05503155 YBa2Cu3Oz Y1Ba2Cu3O6.67 Y 1 Ba 2 Cu 3 O 6.67 1 1997 3 Y123 K W/K.m 3.1 micro.V/K 11.5 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13052 PR05503155 YBa2Cu3Oz Y1Ba2Cu3O6.65 Y 1 Ba 2 Cu 3 O 6.65 1 1997 3 Y123 K W/K.m 3.2 micro.V/K 12.7 TP13052 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13053 PR05503155 YBa2Cu3Oz Y1Ba2Cu3O6.58 Y 1 Ba 2 Cu 3 O 6.58 1 1997 3 Y123 K W/K.m 2.9 micro.V/K 22.6 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13054 PR05503155 YBa2Cu3Oz Y1Ba2Cu3O6.55 Y 1 Ba 2 Cu 3 O 6.55 1 1997 3 Y123 K W/K.m 3 micro.V/K 29.8 TP13054 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13055 PR05503155 YBa2Cu3Oz Y1Ba2Cu3O6.43 Y 1 Ba 2 Cu 3 O 6.43 1 1997 3 Y123 K W/K.m 2.9 micro.V/K 49.1 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13056 PR05503155 YBa2Cu3Oz Y1Ba2Cu3O6.41 Y 1 Ba 2 Cu 3 O 6.41 1 1997 3 Y123 K W/K.m 3 micro.V/K 60.5 TP13056 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13057 PR05503155 YBa2Cu3Oz Y1Ba2Cu3O6.28 Y 1 Ba 2 Cu 3 O 6.28 1 1997 2 Y123 K W/K.m micro.V/K 118 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13058 PR05503155 YBa2Cu3Oz Y1Ba2Cu3O6.28 Y 1 Ba 2 Cu 3 O 6.28 1 1997 2 Y123 K W/K.m 3.7 THC13058 micro.V/K 119 TP13058 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13059 PR05503155 YBa2Cu3O6.24 Y1Ba2Cu3O6.24 Y 1 Ba 2 Cu 3 O 6.24 1 1997 2 Y123 K W/K.m 2.55 THC13059 micro.V/K 144 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13060 PR05503155 YBa2Cu3O6.20 Y1Ba2Cu3O6.2 Y 1 Ba 2 Cu 3 O 6.2 1 1997 2 Y123 K W/K.m 3.1 THC13060 micro.V/K 186 TP13060 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13061 PR05503155 YBa2Cu3O6.20 Y1Ba2Cu3O6.2 Y 1 Ba 2 Cu 3 O 6.2 1 1997 2 Y123 K W/K.m 2.85 THC13061 micro.V/K 188 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13062 PR05503155 YBa2Cu3O6.17 Y1Ba2Cu3O6.17 Y 1 Ba 2 Cu 3 O 6.17 1 1997 2 Y123 K W/K.m 3.3 THC13062 micro.V/K 222 TP13062 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13063 PR05503155 YBa2Cu3O6.21 Y1Ba2Cu3O6.21 Y 1 Ba 2 Cu 3 O 6.21 1 1997 2 Y123 K W/K.m 2.65 THC13063 micro.V/K 169 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13064 PR05503155 YBa2Cu3O6.18 Y1Ba2Cu3O6.18 Y 1 Ba 2 Cu 3 O 6.18 1 1997 2 Y123 K W/K.m 3.3 micro.V/K 209 TP13064 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13065 PR05503155 YBa2Cu3O6.05 Y1Ba2Cu3O6.05 Y 1 Ba 2 Cu 3 O 6.05 1 1997 2 Y123 K W/K.m 4.4 THC13065 micro.V/K 584 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13066 PR05503155 YBa2Cu3O6.07 Y1Ba2Cu3O6.07 Y 1 Ba 2 Cu 3 O 6.07 1 1997 2 Y123 K W/K.m 4.8 THC13066 micro.V/K 534 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13067 PR05503155 YBa2Cu3O6.86 Y1Ba2Cu3O6.86 Y 1 Ba 2 Cu 3 O 6.86 1 1997 3 Y123 K W/K.m 3.6 THC13067 micro.V/K 3.75 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13068 PR05503155 YBa2Cu3O6.85 Y1Ba2Cu3O6.85 Y 1 Ba 2 Cu 3 O 6.85 1 1997 3 Y123 K W/K.m 4.5 THC13068 micro.V/K 4 TP13068 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13069 PR05503155 YBa2Cu3O6.81 Y1Ba2Cu3O6.81 Y 1 Ba 2 Cu 3 O 6.81 1 1997 3 Y123 K W/K.m 3.3 THC13069 micro.V/K 6.9 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13070 PR05503155 YBa2Cu3O6.81 Y12Ba2Cu3O6.81 Y 12 Ba 2 Cu 3 O 6.81 1 1997 3 Y123 K W/K.m 3.8 THC13070 micro.V/K 6.69 TP13070 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13071 PR05503155 YBa2Cu3O6.79 Y1Ba2Cu3O6.79 Y 1 Ba 2 Cu 3 O 6.79 1 1997 3 Y123 K W/K.m 3.1 THC13071 micro.V/K 8.7 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 13072 PR05503155 YBa2Cu3O6.80 Y1Ba2Cu3O6.8 Y 1 Ba 2 Cu 3 O 6.8 1 1997 3 Y123 K W/K.m 3.2 THC13072 micro.V/K 8.05 TP13072 "R. K. Siddique, Physica C 228, 365 (1994)J. D. Jorgensen et al., Phys. Rev. B 41, 1863 (1990)" Thermal transport in YBa2Cu3O6+x: Doping dependence across the phase diagram 1997 2 "Department of Physics, University of Miami, Coral Gables, Florida 33124" "Phys.Rev.B,55(1997)3155" 14000 PR05506612 HgBa2CaCu2O6.10 Hg1Ba2Ca1Cu2O6.1 Hg 1 Ba 2 Ca 1 Cu 2 O 6.1 1 1997 2 Hg1212 A 3.864 12.712 3 K 93 93 ohm.cm "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665C 49-100h - Annealed with Zr "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14001 PR05506612 HgBa2CaCu2O6.10 Hg1Ba2Ca1Cu2O6.1 Hg 1 Ba 2 Ca 1 Cu 2 O 6.1 1 1997 2 Hg1212 A K 92 92 mic.V/K 29.7 m.ohm.cm 270 "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665C 49-100h - Annealed with Zr "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14002 PR05506612 HgBa2CaCu2O6.13 Hg1Ba2Ca1Cu2O6.13 Hg 1 Ba 2 Ca 1 Cu 2 O 6.13 1 1997 2 Hg1212 A 3.862 12.698 3 K 102 102 ohm.cm "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665C 49-100h - Annealed with Zr "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14003 PR05506612 HgBa2CaCu2O6.14 Hg1Ba2Ca1Cu2O6.14 Hg 1 Ba 2 Ca 1 Cu 2 O 6.14 1 1997 2 Hg1212 A 3.86 12.69 3 K 105 105 ohm.cm "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665C 49-100h - Annealed with Zr "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14004 PR05506612 HgBa2CaCu2O6.16 Hg1Ba2Ca1Cu2O6.16 Hg 1 Ba 2 Ca 1 Cu 2 O 6.16 1 1997 2 Hg1212 A K 121 121 mic.V/K 11.7 m.ohm.cm 105 "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665C 49-100h - Annealed with Zr "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14005 PR05506612 HgBa2CaCu2O6.19 Hg1Ba2Ca1Cu2O6.19 Hg 1 Ba 2 Ca 1 Cu 2 O 6.19 1 1997 2 Hg1212 A 3.86 12.703 3 K 122 122 ohm.cm "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665C 49-100h - Annealed with Zr "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14006 PR05506612 HgBa2CaCu2O6.21 Hg1Ba2Ca1Cu2O6.21 Hg 1 Ba 2 Ca 1 Cu 2 O 6.21 1 1997 2 Hg1212 A 3.86 12.693 3 K 127 127 mic.V/K 4.8 m.ohm.cm 90 "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665C 49-100h - As sintered "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14007 PR05506612 HgBa2CaCu2O6.24 Hg1Ba2Ca1Cu2O6.24 Hg 1 Ba 2 Ca 1 Cu 2 O 6.24 1 1997 2 Hg1212 A K 122 122 mic.V/K -1.9 m.ohm.cm 45 "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665C 49-100h - Annealed in O2 "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14008 PR05506612 HgBa2CaCu2O6.24 Hg1Ba2Ca1Cu2O6.24 Hg 1 Ba 2 Ca 1 Cu 2 O 6.24 1 1997 2 Hg1212 A 3.855 12.684 3 K 121 121 ohm.cm "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665C 49-100h - Annealed in O2 "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14009 PR05506612 HgBa2CaCu2O6.27 Hg1Ba2Ca1Cu2O6.27 Hg 1 Ba 2 Ca 1 Cu 2 O 6.27 1 1997 2 Hg1212 A 3.854 12.681 3 K 110 110 ohm.cm "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665C 49-100h - Annealed in O2 "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14010 PR05506612 HgBa2CaCu2O6.30 Hg1Ba2Ca1Cu2O6.3 Hg 1 Ba 2 Ca 1 Cu 2 O 6.3 1 1997 2 Hg1212 A 3.853 12.675 3 K 100 100 ohm.cm "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665C 49-100h - Annealed in O2 "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14011 PR05506612 HgBa2CaCu2O6.30 Hg1Ba2Ca1Cu2O6.3 Hg 1 Ba 2 Ca 1 Cu 2 O 6.3 1 1997 2 Hg1212 A K 100 100 mic.V/K -4.4 m.ohm.cm 45 "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665C 49-100h - Annealed in O2 "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14012 PR05506612 HgBa2CaCu2O6.31 Hg1Ba2Ca1Cu2O6.31 Hg 1 Ba 2 Ca 1 Cu 2 O 6.31 1 1997 2 Hg1212 A 3.853 12.683 3 K 98 98 ohm.cm "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665C 49-100h - Annealed in O2 "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14013 PR05506612 HgBa2Ca2Cu3O8.17 Hg1Ba2Ca2Cu3O8.17 Hg 1 Ba 2 Ca 2 Cu 3 O 8.17 1 1997 2 Hg1223 A K 94 94 mic.V/K 41 m.ohm.cm 160 "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665-710C 100h - Annealed with Zr "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14014 PR05506612 HgBa2Ca2Cu3O8.17 Hg1Ba2Ca2Cu3O8.17 Hg 1 Ba 2 Ca 2 Cu 3 O 8.17 1 1997 2 Hg1223 A K 98 98 ohm.cm "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665-710C 100h - Annealed with Zr "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14015 PR05506612 HgBa2Ca2Cu3O8.16 Hg1Ba2Ca2Cu3O8.16 Hg 1 Ba 2 Ca 2 Cu 3 O 8.16 1 1997 2 Hg1223 A 3.886 15.887 3 K 101 101 ohm.cm "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665-710C 100h - Annealed with Zr "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14016 PR05506612 HgBa2Ca2Cu3O8.20 Hg1Ba2Ca2Cu3O8.2 Hg 1 Ba 2 Ca 2 Cu 3 O 8.2 1 1997 2 Hg1223 A 3.858 15.873 3 K 105 105 ohm.cm "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665-710C 100h - Annealed with Zr "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14017 PR05506612 HgBa2Ca2Cu3O8.20 Hg1Ba2Ca2Cu3O8.2 Hg 1 Ba 2 Ca 2 Cu 3 O 8.2 1 1997 2 Hg1223 A K 104 104 mic.V/K 33.8 m.ohm.cm 55 "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665-710C 100h - Annealed with Zr "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14018 PR05506612 HgBa2Ca2Cu3O8.25 Hg1Ba2Ca2Cu3O8.25 Hg 1 Ba 2 Ca 2 Cu 3 O 8.25 1 1997 2 Hg1223 A 3.854 15.855 3 K 132 132 mic.V/K 11.4 m.ohm.cm 35 "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665-710C 100h - As sintered "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14019 PR05506612 HgBa2Ca2Cu3O8.29 Hg1Ba2Ca2Cu3O8.29 Hg 1 Ba 2 Ca 2 Cu 3 O 8.29 1 1997 2 Hg1223 A 3.854 15.855 3 K 135 135 ohm.cm "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665-710C 100h - Annealed in O2 "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14020 PR05506612 HgBa2Ca2Cu3O8.29 Hg1Ba2Ca2Cu3O8.29 Hg 1 Ba 2 Ca 2 Cu 3 O 8.29 1 1997 2 Hg1223 A K 135 135 mic.V/K 5.2 m.ohm.cm 20 "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665-710C 100h - Annealed in O2 "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14021 PR05506612 HgBa2Ca2Cu3O8.30 Hg1Ba2Ca2Cu3O8.3 Hg 1 Ba 2 Ca 2 Cu 3 O 8.3 1 1997 2 Hg1223 A 3.854 15.865 3 K 134 134 ohm.cm "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665-710C 100h - Annealed in O2 "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14022 PR05506612 HgBa2Ca2Cu3O8.30 Hg1Ba2Ca2Cu3O8.3 Hg 1 Ba 2 Ca 2 Cu 3 O 8.3 1 1997 2 Hg1223 A K 133 133 mic.V/K 1.9 m.ohm.cm 20 "HgO,BaO,CaO,CuO" 1 Mixed - Pelletized - Sintered 665-710C 100h - Annealed in O2 "Dependence of Tc and transport properties on the Cu valence in HgBa2Can-1CunO2(n+1)+delta(n=2,3) superconductors" 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6612" 14023 PR055R6145 "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4-z Pr 1.85 Ce 0.15 Cu 1 O 4-z 5 1997 2 T' I4/mmm K 22.5 22 1.1 22.5 m.ohm.cm 0.77 0.0365 16 Pulsed Laser Deposition 200mTorr(N2O) Deposition Rate 0.3A/PulseSubstrate LaAlO3 Substrate Temperature 700 to 840 C] Concentration range for superconductivity in high-quality Pr2-xCexCuO4-y thin films 1997 3 "Center for SUperconductivity Research, department of Physics, University of maryland, College Park, Maryland 20742" "Phys.Rev.B,55(1997)R6145" 14024 PR055R6145 not superconductor "(Pr,Ce)2CuO4" Pr1.9Ce0.1Cu1O4-y Pr 1.9 Ce 0.1 Cu 1 O 4-y 5 1997 2 T' I4/mmm K m.ohm.cm 0.77 0.552 1.24 16 Pulsed Laser Deposition 200mTorr(N2O) Deposition Rate 0.3A/PulseSubstrate LaAlO3 Substrate Temperature 700 to 840 C] Concentration range for superconductivity in high-quality Pr2-xCexCuO4-y thin films 1997 3 "Center for SUperconductivity Research, department of Physics, University of maryland, College Park, Maryland 20742" "Phys.Rev.B,55(1997)R6145" 14025 PR05505674 (HgBr2)0.5Bi2Sr2CaCu2Oy Hg0.5Br1Bi2Ca1Cu2OY Hg 0.5 Br 1 Bi 2 Ca 1 Cu 2 O Y 3 1997 I4/mmm A 43.2 1 K 7 Traveling solvent floating zone methordand Intercalated HgBr2 Raman spectroscopic evidence on molecular mercuric bromide in the two-dimensional lattice of (HgBr2)0.5Bi2Sr2CaCu2Oy 1997 3 "Department Chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" "Phys.Rev.B,55(1997)5674" 14026 PR05506051 YBa2Cu3Oz Y1Ba2Cu3O6.5 Y 1 Ba 2 Cu 3 O 6.5 3 1997 Y123 K m.ohm.cm 9.1 "Ba2Cu5O8,Y2BaCuO5" "CZ method Y2O3crucible Ref. Y,Ymada et al,Phys. C 217,182 1993" Optical study of c-axis charge dynamics in YBa2Cu3Oy: Carrier self-confinement in the normal and the superconducting states 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, Shinonome 1-10-13, Koto-Ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6051" 14027 PR05506051 YBa2Cu3Oz Y1Ba2Cu3O6.6 Y 1 Ba 2 Cu 3 O 6.6 3 1997 Y123 K 2 m.ohm.cm 7.2 "Ba2Cu5O8,Y2BaCuO5" "CZ method Y2O3crucible Ref. Y,Ymada et al,Phys. C 217,182 1993" Optical study of c-axis charge dynamics in YBa2Cu3Oy: Carrier self-confinement in the normal and the superconducting states 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, Shinonome 1-10-13, Koto-Ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6051" 14028 PR05506051 YBa2Cu3Oz Y1Ba2Cu3O6.7 Y 1 Ba 2 Cu 3 O 6.7 3 1997 Y123 K m.ohm.cm 5 "Ba2Cu5O8,Y2BaCuO5" "CZ method Y2O3crucible Ref. Y,Ymada et al,Phys. C 217,182 1993" Optical study of c-axis charge dynamics in YBa2Cu3Oy: Carrier self-confinement in the normal and the superconducting states 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, Shinonome 1-10-13, Koto-Ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6051" 14029 PR05506051 YBa2Cu3Oz Y1Ba2Cu3O6.8 Y 1 Ba 2 Cu 3 O 6.8 3 1997 Y123 K 92 92 m.ohm.cm 3.5 "Ba2Cu5O8,Y2BaCuO5" "CZ method Y2O3crucible Ref. Y,Ymada et al,Phys. C 217,182 1993" Optical study of c-axis charge dynamics in YBa2Cu3Oy: Carrier self-confinement in the normal and the superconducting states 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, Shinonome 1-10-13, Koto-Ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6051" 14030 PR05506051 YBa2Cu3Oz Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 6.9 3 1997 Y123 K 88 0.5 88 m.ohm.cm 4 "Ba2Cu5O8,Y2BaCuO5" "CZ method Y2O3crucible Ref. Y,Ymada et al,Phys. C 217,182 1993" Optical study of c-axis charge dynamics in YBa2Cu3Oy: Carrier self-confinement in the normal and the superconducting states 1997 3 "Superconductivity Reserch Laboratory, International Superconductivity Technology Center, Shinonome 1-10-13, Koto-Ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)6051" 14031 PR05506584 DyNi2B2C Dy1Ni2B2C1 Dy 1 Ni 2 B 2 C 1 1 1997 Bohr magne 8.479 10.6 2 I4/mmm A 3.534 10.488 3 2 K arc melting method (Ar atomosphere) Magnet order and crystal structure in the superconducting RNi2B2C materials 1997 3 "Reactor Radiation, National Institute of Standards and Technology, Gaithersburg, maryland 20899" "Phys.Rev.B,55(1997)6584" 14032 PR05506584 HoNi2B2C Ho1Ni2B2C1 Ho 1 Ni 2 B 2 C 1 1 1997 Bohr magne 8.62 8.5 2 I4/mmm A 3.518 10.528 3 2 K arc melting method (Ar atomosphere) Magnet order and crystal structure in the superconducting RNi2B2C materials 1997 3 "Reactor Radiation, National Institute of Standards and Technology, Gaithersburg, maryland 20899" "Phys.Rev.B,55(1997)6584" 14033 PR05506584 ErNi2B2C Er1Ni2B2C1 Er 1 Ni 2 B 2 C 1 1 1997 Bohr magne 7.19 6.8 2 I4/mmm A 3.502 10.558 3 2 K arc melting method (Ar atomosphere) Magnet order and crystal structure in the superconducting RNi2B2C materials 1997 3 "Reactor Radiation, National Institute of Standards and Technology, Gaithersburg, maryland 20899" "Phys.Rev.B,55(1997)6584" 14034 PR05506584 TmNi2B2C Tm1Ni2B2C1 Tm 1 Ni 2 B 2 C 1 1 1997 Bohr magne 3.78 1.53 2 I4/mmm A 3.487 10.586 3 6 K arc melting method (Ar atomosphere) Magnet order and crystal structure in the superconducting RNi2B2C materials 1997 3 "Reactor Radiation, National Institute of Standards and Technology, Gaithersburg, maryland 20899" "Phys.Rev.B,55(1997)6584" 14035 PR05506584 not Superconductor YbNi2B2C Yb1Ni2B2C1 Yb 1 Ni 2 B 2 C 1 1 1997 2 I4/mmm A 3.478 10.607 3 2 K Solid State Reaction (High Vapor Pressure) Magnet order and crystal structure in the superconducting RNi2B2C materials 1997 3 "Reactor Radiation, National Institute of Standards and Technology, Gaithersburg, maryland 20899" "Phys.Rev.B,55(1997)6584" 14036 PR05506584 YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 1 1997 2 I4/mmm 2 K arc melting method (Ar atomosphere) Magnet order and crystal structure in the superconducting RNi2B2C materials 1997 3 "Reactor Radiation, National Institute of Standards and Technology, Gaithersburg, maryland 20899" "Phys.Rev.B,55(1997)6584" 14037 PR05506584 not Superconductor CeNi2B2C Ce1Ni2B2C1 Ce 1 Ni 2 B 2 C 1 1 1997 2 I4/mmm A 3.638 10.227 3 2 K arc melting method (Ar atomosphere) Magnet order and crystal structure in the superconducting RNi2B2C materials 1997 3 "Reactor Radiation, National Institute of Standards and Technology, Gaithersburg, maryland 20899" "Phys.Rev.B,55(1997)6584" 14038 PR05506584 not Superconductor PrNi2B2C Pr1Ni2B2C1 Pr 1 Ni 2 B 2 C 1 1 1997 Bohr magne 0.813 4 2 I4/mmm A 3.707 9.999 3 6 K arc melting method (Ar atomosphere) Magnet order and crystal structure in the superconducting RNi2B2C materials 1997 3 "Reactor Radiation, National Institute of Standards and Technology, Gaithersburg, maryland 20899" "Phys.Rev.B,55(1997)6584" 14039 PR05506584 NdNi2B2C Nd1Ni2B2C1 Nd 1 Ni 2 B 2 C 1 1 1997 Bohr magne 2.107 4.78 2 I4/mmm A 3.678 10.081 3 2 K arc melting method (Ar atomosphere) Magnet order and crystal structure in the superconducting RNi2B2C materials 1997 3 "Reactor Radiation, National Institute of Standards and Technology, Gaithersburg, maryland 20899" "Phys.Rev.B,55(1997)6584" 14040 PR05506584 not Superconductor TbNi2B2C Tb1Ni2B2C1 Tb 1 Ni 2 B 2 C 1 1 1997 Bohr magne 7.78 15.4 2 I4/mmm A 3.554 10.435 3 2 K arc melting method (Ar atomosphere) Magnet order and crystal structure in the superconducting RNi2B2C materials 1997 3 "Reactor Radiation, National Institute of Standards and Technology, Gaithersburg, maryland 20899" "Phys.Rev.B,55(1997)6584" 15000 PR05509125 Bi2Sr2Ca2Cu2O8+y Bi2Sr2Ca1Cu2O8+y Bi 2 Sr 2 Ca 1 Cu 2 O 8+y 3 1997 Bi2212 A 5.41 5.42 30.96 1 1/K at Room Temperature K 90 90 "Ref. J.Kobayashi et al.,Phys. Rev. B53 11784(1996)" Thermal expansion of superconducting Bi2Sr2CaCu2O8 1997 4 "Kagami Memorial Laboratory for Materials Science and Technology, Waseda University, 2-8-26 Nishi-Waseda, Shinjuku-ku, Tokyo 169, Japan" "Phys.Rev.B,55(1997)9125" 15001 PR05509160 detwin "(Pr,Y)Ba2Cu3O6.91" Pr0.8Y0.2Ba2Cu3O6.91 Pr 0.8 Y 0.2 Ba 2 Cu 3 O 6.91 3 1997 Y123 A 3.868 3.926 11.708 2 1 K "Ref. A.Erb et al., J.Cryst. Growth 132,389(1993)Ref. A.Erb et al., J.Cryst. Growth 137,487(1993)Ref. A.Erb et al., Physica C 245,245 (1995)" X-ray absorption spectroscopy of detwinned PrxY1-xBa2Cu3O7-y single crystals: Electronic structure and hole distribution 1997 4 "Forschungszentrum Karlsruhe, INFP, P.O. Box 3640, D-76021 Karlsruhe, Germany" "Phys.Rev.B,55(1997)9160" 15002 PR05509160 detwin YBa2Cu3O6.91 Y1Ba2Cu3O6.91 Y 1 Ba 2 Cu 3 O 6.91 3 1997 Y123 A 3.819 3.884 11.681 2 1 K "Ref. A.Erb et al., J.Cryst. Growth 132,389(1993)Ref. A.Erb et al., J.Cryst. Growth 137,487(1993)Ref. A.Erb et al., Physica C 245,245 (1995)" X-ray absorption spectroscopy of detwinned PrxY1-xBa2Cu3O7-y single crystals: Electronic structure and hole distribution 1997 4 "Forschungszentrum Karlsruhe, INFP, P.O. Box 3640, D-76021 Karlsruhe, Germany" "Phys.Rev.B,55(1997)9160" 15003 PR05508529 textured Bi2Sr2CaCu2O8+y Bi2Sr2Ca1Cu2O8+y Bi 2 Sr 2 Ca 1 Cu 2 O 8+y 3 1997 Bi2212 K 82.9 89.9 108.2 25.3 89.9 K/GPa 2 sinter forging methordtextured Electrical resistance under pressure in textured Bi2Sr2CaCu2O8+y: Enhancement of the energy gap and thermodynamic fluctuations 1997 4 "Schools of Physics and Materials Science, University of Bath, Claverton Down, Bath BA2 7AY, United Kingdom" "Phys.Rev.B,55(1997)8529" 15004 PR05509130 "(Bi,Pb)2(Sr,La,Pb)2CuOz" Bi1.9Pb0.2Sr1.8La0.1Cu1Oz Bi 1.9 Pb 0.2 Sr 1.8 La 0.1 Cu 1 O z 1 1997 3 Bi2201 A 5.359 5.37 24.563 3 K "Bi2O3,PbO,SrCO3,La2O3,CuO" 1 mixed - preheated in air 820-830C 40h - pelletized - sintered in air 870-910C 60h - quenched in air Relation of the superstructure modulation and extra-oxygen local-structural distortion in Bi2.1-yPbySr1.9-xLaxCuOz 1997 4 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, Peple's Republic of China" "Phys.Rev.B,55(1997)9130" 15005 PR05509130 "(Bi,Pb)2(Sr,La,Pb)2CuOz" Bi1.9Pb0.2Sr1.7La0.2Cu1Oz Bi 1.9 Pb 0.2 Sr 1.7 La 0.2 Cu 1 O z 1 1997 3 Bi2201 A 5.368 5.38 24.494 3 K "Bi2O3,PbO,SrCO3,La2O3,CuO" 1 mixed - preheated in air 820-830C 40h - pelletized - sintered in air 870-910C 60h - quenched in air Relation of the superstructure modulation and extra-oxygen local-structural distortion in Bi2.1-yPbySr1.9-xLaxCuOz 1997 4 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, Peple's Republic of China" "Phys.Rev.B,55(1997)9130" 15006 PR05509130 "(Bi,Pb)2(Sr,La,Pb)2CuOz" Bi1.9Pb0.2Sr1.55La0.35Cu1Oz Bi 1.9 Pb 0.2 Sr 1.55 La 0.35 Cu 1 O z 1 1997 3 Bi2201 A 5.382 5.393 24.47 3 K "Bi2O3,PbO,SrCO3,La2O3,CuO" 1 mixed - preheated in air 820-830C 40h - pelletized - sintered in air 870-910C 60h - quenched in air Relation of the superstructure modulation and extra-oxygen local-structural distortion in Bi2.1-yPbySr1.9-xLaxCuOz 1997 4 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, Peple's Republic of China" "Phys.Rev.B,55(1997)9130" 15007 PR05509130 "(Bi,Pb)2(Sr,La,Pb)2CuOz" Bi1.9Pb0.2Sr1.4La0.5Cu1Oz Bi 1.9 Pb 0.2 Sr 1.4 La 0.5 Cu 1 O z 1 1997 3 Bi2201 A 5.388 5.398 24.326 3 K "Bi2O3,PbO,SrCO3,La2O3,CuO" 1 mixed - preheated in air 820-830C 40h - pelletized - sintered in air 870-910C 60h - quenched in air Relation of the superstructure modulation and extra-oxygen local-structural distortion in Bi2.1-yPbySr1.9-xLaxCuOz 1997 4 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, Peple's Republic of China" "Phys.Rev.B,55(1997)9130" 15008 PR05509130 "(Bi,Pb)2(Sr,La,Pb)2CuOz" Bi1.9Pb0.2Sr1.2La0.7Cu1Oz Bi 1.9 Pb 0.2 Sr 1.2 La 0.7 Cu 1 O z 1 1997 3 Bi2201 A 5.401 5.438 24.259 3 K "Bi2O3,PbO,SrCO3,La2O3,CuO" 1 mixed - preheated in air 820-830C 40h - pelletized - sintered in air 870-910C 60h - quenched in air Relation of the superstructure modulation and extra-oxygen local-structural distortion in Bi2.1-yPbySr1.9-xLaxCuOz 1997 4 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, Peple's Republic of China" "Phys.Rev.B,55(1997)9130" 15009 PR05509130 "(Bi,Pb)2(Sr,La,Pb)2CuOz" Bi1.9Pb0.2Sr0.9La1Cu1Oz Bi 1.9 Pb 0.2 Sr 0.9 La 1 Cu 1 O z 1 1997 3 Bi2201 A 5.427 5.458 23.914 3 K "Bi2O3,PbO,SrCO3,La2O3,CuO" 1 mixed - preheated in air 820-830C 40h - pelletized - sintered in air 870-910C 60h - quenched in air Relation of the superstructure modulation and extra-oxygen local-structural distortion in Bi2.1-yPbySr1.9-xLaxCuOz 1997 4 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, Peple's Republic of China" "Phys.Rev.B,55(1997)9130" 15010 PR05509130 "(Bi,Pb)2(Sr,La,Pb)2CuOz" Bi1.7Pb0.4Sr1.8La0.1Cu1Oz Bi 1.7 Pb 0.4 Sr 1.8 La 0.1 Cu 1 O z 1 1997 3 Bi2201 A 5.355 5.362 24.473 3 K "Bi2O3,PbO,SrCO3,La2O3,CuO" 1 mixed - preheated in air 820-830C 40h - pelletized - sintered in air 870-910C 60h - quenched in air Relation of the superstructure modulation and extra-oxygen local-structural distortion in Bi2.1-yPbySr1.9-xLaxCuOz 1997 4 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, Peple's Republic of China" "Phys.Rev.B,55(1997)9130" 15011 PR05509130 "(Bi,Pb)2(Sr,La,Pb)2CuOz" Bi1.7Pb0.4Sr1.7La0.2Cu1Oz Bi 1.7 Pb 0.4 Sr 1.7 La 0.2 Cu 1 O z 1 1997 3 Bi2201 A 5.358 5.368 24.444 3 K "Bi2O3,PbO,SrCO3,La2O3,CuO" 1 mixed - preheated in air 820-830C 40h - pelletized - sintered in air 870-910C 60h - quenched in air Relation of the superstructure modulation and extra-oxygen local-structural distortion in Bi2.1-yPbySr1.9-xLaxCuOz 1997 4 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, Peple's Republic of China" "Phys.Rev.B,55(1997)9130" 15012 PR05509130 "(Bi,Pb)2(Sr,La,Pb)2CuOz" Bi1.7Pb0.4Sr1.55La0.35Cu1Oz Bi 1.7 Pb 0.4 Sr 1.55 La 0.35 Cu 1 O z 1 1997 3 Bi2201 A 5.359 5.354 24.435 3 K "Bi2O3,PbO,SrCO3,La2O3,CuO" 1 mixed - preheated in air 820-830C 40h - pelletized - sintered in air 870-910C 60h - quenched in air Relation of the superstructure modulation and extra-oxygen local-structural distortion in Bi2.1-yPbySr1.9-xLaxCuOz 1997 4 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, Peple's Republic of China" "Phys.Rev.B,55(1997)9130" 15013 PR05509130 "(Bi,Pb)2(Sr,La,Pb)2CuOz" Bi1.7Pb0.4Sr1.4La0.5Cu1Oz Bi 1.7 Pb 0.4 Sr 1.4 La 0.5 Cu 1 O z 1 1997 3 Bi2201 A 5.363 5.366 24.314 3 K "Bi2O3,PbO,SrCO3,La2O3,CuO" 1 mixed - preheated in air 820-830C 40h - pelletized - sintered in air 870-910C 60h - quenched in air Relation of the superstructure modulation and extra-oxygen local-structural distortion in Bi2.1-yPbySr1.9-xLaxCuOz 1997 4 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, Peple's Republic of China" "Phys.Rev.B,55(1997)9130" 15014 PR05509130 "(Bi,Pb)2(Sr,La,Pb)2CuOz" Bi1.7Pb0.4Sr1.2La0.7Cu1Oz Bi 1.7 Pb 0.4 Sr 1.2 La 0.7 Cu 1 O z 1 1997 3 Bi2201 A 5.423 5.4 24.165 3 K "Bi2O3,PbO,SrCO3,La2O3,CuO" 1 mixed - preheated in air 820-830C 40h - pelletized - sintered in air 870-910C 60h - quenched in air Relation of the superstructure modulation and extra-oxygen local-structural distortion in Bi2.1-yPbySr1.9-xLaxCuOz 1997 4 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, Peple's Republic of China" "Phys.Rev.B,55(1997)9130" 15015 PR05509130 "(Bi,Pb)2(Sr,La,Pb)2CuOz" Bi1.7Pb0.4Sr0.9La1Cu1Oz Bi 1.7 Pb 0.4 Sr 0.9 La 1 Cu 1 O z 1 1997 3 Bi2201 A 5.44 5.447 24.129 3 K "Bi2O3,PbO,SrCO3,La2O3,CuO" 1 mixed - preheated in air 820-830C 40h - pelletized - sintered in air 870-910C 60h - quenched in air Relation of the superstructure modulation and extra-oxygen local-structural distortion in Bi2.1-yPbySr1.9-xLaxCuOz 1997 4 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, Peple's Republic of China" "Phys.Rev.B,55(1997)9130" 15016 PR05508674 HgBa2Ca2Cu3O8+y Hg1Ba2Ca2Cu3O8+y Hg 1 Ba 2 Ca 2 Cu 3 O 8+y 3 1997 2 Hg1223 K 110.4 1.2 110.4 mJ/mole.K 1200 "D. Colsoon et al., Physica C 233, 231 (1994)" Field dependence of the specific heat of single-crystal HgBa2Ca2Cu3O8+delta 1997 4 "De'partement de Recherche Fondamentale sur la Matie're Condense'e, laboratoire de Cryophysique,Commissariat a' l'Energie Atomique-Grenoble,17 rue des Martyrs,38054 Grenoble Cedex 9, France" "Phys.Rev.B,55(1997)R8674" 16000 PR05512005 Er2Ba4Cu7O14.92 Er2Ba4Cu7O14.92 Er 2 Ba 4 Cu 7 O 14.92 1 1997 0.54 3 Y247 Ammm A 3.826 3.866 50.368 3 K 89 89 11 "P. Berastegui et al., J. Appl. Phys. 73, 2424 (1993)" Long-range magnetic order of the Er ions in Er2Ba4Cu7O14.92 1997 5 "Laboratory for Neutron Scattering, Eidgenossische Hochschule Zurich and Paul Scherrer Institut, CH-5232 Villigen PSI, Swizerland" "Phys.Rev.B,55(1997)R12005" 16001 PR05512776 HgBa2CuO4+y Hg1Ba2Cu1O4+y Hg 1 Ba 2 Cu 1 O 4+y 1 1997 emu/g -0.005 2 Hg1201 A 3.871 9.493 3 K 91 91 A microwave 15000 "HgO,Ba2CuO3.3,CuO" 1 "Mixed - Pelletized - Heated 1 atm air in quartz tube to 800C 4h, at 800C 8h, to R.T. 8h" "Synthesis, structure, and properties of the high-temperature superconductor HgBa2CuO4+delta" 1997 5 "School of Chemistry, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kindom" "Phys.Rev.B,55(1997)12776" 16002 PR05512776 Hg0.95Ba2CuO4+y Hg0.95Ba2Cu1O4+y Hg 0.95 Ba 2 Cu 1 O 4+y 1 1997 2 Hg1201 A 3.868 9.484 3 K 89.5 89.5 "HgO,Ba2CuO3.3,CuO" 1 "Mixed - Pelletized - Heated 1 atm air in quartz tube to 800C 4h, at 800C 8h, to R.T. 8h" "Synthesis, structure, and properties of the high-temperature superconductor HgBa2CuO4+delta" 1997 5 "School of Chemistry, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kindom" "Phys.Rev.B,55(1997)12776" 16003 PR05512776 "(Hg,Cu)Ba2CuO4" Hg0.95Ba2Cu1.05O4+y Hg 0.95 Ba 2 Cu 1.05 O 4+y 1 1997 emu/g -0.01 2 Hg1201 A 3.873 9.494 3 K 95.2 95.2 "HgO,Ba2CuO3.3,CuO" 1 "Mixed - Pelletized - Heated 1 atm air in quartz tube to 800C 4h, at 800C 8h, to R.T. 8h" "Synthesis, structure, and properties of the high-temperature superconductor HgBa2CuO4+delta" 1997 5 "School of Chemistry, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kindom" "Phys.Rev.B,55(1997)12776" 16004 PR05512776 Hg0.90Ba2CuO4 Hg0.9Ba2Cu1O4+y Hg 0.9 Ba 2 Cu 1 O 4+y 1 1997 2 Hg1201 A 3.876 9.502 3 K 96 96 "HgO,Ba2CuO3.3,CuO" 1 "Mixed - Pelletized - Heated 1 atm air in quartz tube to 800C 4h, at 800C 8h, to R.T. 8h" "Synthesis, structure, and properties of the high-temperature superconductor HgBa2CuO4+delta" 1997 5 "School of Chemistry, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kindom" "Phys.Rev.B,55(1997)12776" 16005 PR05512776 "(Hg,Cu)Ba2CuO4" Hg0.9Ba2Cu1.05O4+y Hg 0.9 Ba 2 Cu 1.05 O 4+y 1 1997 2 Hg1201 A 3.872 9.496 3 K 96 96 "HgO,Ba2CuO3.3,CuO" 1 "Mixed - Pelletized - Heated 1 atm air in quartz tube to 800C 4h, at 800C 8h, to R.T. 8h" "Synthesis, structure, and properties of the high-temperature superconductor HgBa2CuO4+delta" 1997 5 "School of Chemistry, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kindom" "Phys.Rev.B,55(1997)12776" 16006 PR05512776 "(Hg,Cu)Ba2CuO4" Hg0.9Ba2Cu1.1O4+y Hg 0.9 Ba 2 Cu 1.1 O 4+y 1 1997 emu/g -0.014 2 Hg1201 A 3.874 9.499 3 K 95.3 95.3 A microwave 6000 "HgO,Ba2CuO3.3,CuO" 1 "Mixed - Pelletized - Heated 1 atm air in quartz tube to 800C 4h, at 800C 8h, to R.T. 8h" "Synthesis, structure, and properties of the high-temperature superconductor HgBa2CuO4+delta" 1997 5 "School of Chemistry, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kindom" "Phys.Rev.B,55(1997)12776" 16007 PR05512776 Hg0.85Ba2CuO4 Hg0.85Ba2Cu1O4+y Hg 0.85 Ba 2 Cu 1 O 4+y 1 1997 2 Hg1201 A 3.87 9.492 3 K 93 93 "HgO,Ba2CuO3.3,CuO" 1 "Mixed - Pelletized - Heated 1 atm air in quartz tube to 800C 4h, at 800C 8h, to R.T. 8h" "Synthesis, structure, and properties of the high-temperature superconductor HgBa2CuO4+delta" 1997 5 "School of Chemistry, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kindom" "Phys.Rev.B,55(1997)12776" 16008 PR05512776 "(Hg,Cu)Ba2CuO4" Hg0.85Ba2Cu1.05O4+y Hg 0.85 Ba 2 Cu 1.05 O 4+y 1 1997 2 Hg1201 A 3.872 9.497 3 K 95.5 95.5 "HgO,Ba2CuO3.3,CuO" 1 "Mixed - Pelletized - Heated 1 atm air in quartz tube to 800C 4h, at 800C 8h, to R.T. 8h" "Synthesis, structure, and properties of the high-temperature superconductor HgBa2CuO4+delta" 1997 5 "School of Chemistry, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kindom" "Phys.Rev.B,55(1997)12776" 16009 PR05512776 "(Hg,Cu)Ba2CuO4" Hg0.85Ba2Cu1.1O4+y Hg 0.85 Ba 2 Cu 1.1 O 4+y 1 1997 2 Hg1201 A 3.874 9.497 3 K 94.5 94.5 "HgO,Ba2CuO3.3,CuO" 1 "Mixed - Pelletized - Heated 1 atm air in quartz tube to 800C 4h, at 800C 8h, to R.T. 8h" "Synthesis, structure, and properties of the high-temperature superconductor HgBa2CuO4+delta" 1997 5 "School of Chemistry, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kindom" "Phys.Rev.B,55(1997)12776" 16010 PR05512776 "(Hg,Cu)Ba2CuO4" Hg0.85Ba2Cu1.15O4+y Hg 0.85 Ba 2 Cu 1.15 O 4+y 1 1997 emu/g -0.012 2 Hg1201 A 3.872 9.495 3 K 95.5 95.5 "HgO,Ba2CuO3.3,CuO" 1 "Mixed - Pelletized - Heated 1 atm air in quartz tube to 800C 4h, at 800C 8h, to R.T. 8h" "Synthesis, structure, and properties of the high-temperature superconductor HgBa2CuO4+delta" 1997 5 "School of Chemistry, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kindom" "Phys.Rev.B,55(1997)12776" 16011 PR05512776 Hg0.80Ba2CuO4 Hg0.8Ba2Cu1O4+y Hg 0.8 Ba 2 Cu 1 O 4+y 1 1997 2 Hg1201 A 3.873 9.499 3 K 94.5 94.5 "HgO,Ba2CuO3.3,CuO" 1 "Mixed - Pelletized - Heated 1 atm air in quartz tube to 800C 4h, at 800C 8h, to R.T. 8h" "Synthesis, structure, and properties of the high-temperature superconductor HgBa2CuO4+delta" 1997 5 "School of Chemistry, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kindom" "Phys.Rev.B,55(1997)12776" 16012 PR05512776 "(Hg,Cu)Ba2CuO4" Hg0.8Ba2Cu1.05O4+y Hg 0.8 Ba 2 Cu 1.05 O 4+y 1 1997 2 Hg1201 A 3.87 9.492 3 K 95.8 95.8 "HgO,Ba2CuO3.3,CuO" 1 "Mixed - Pelletized - Heated 1 atm air in quartz tube to 800C 4h, at 800C 8h, to R.T. 8h" "Synthesis, structure, and properties of the high-temperature superconductor HgBa2CuO4+delta" 1997 5 "School of Chemistry, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kindom" "Phys.Rev.B,55(1997)12776" 16013 PR05512776 "(Hg,Cu)Ba2CuO4" Hg0.8Ba2Cu1.1O4+y Hg 0.8 Ba 2 Cu 1.1 O 4+y 1 1997 2 Hg1201 A 3.872 9.494 3 K 94.3 94.3 "HgO,Ba2CuO3.3,CuO" 1 "Mixed - Pelletized - Heated 1 atm air in quartz tube to 800C 4h, at 800C 8h, to R.T. 8h" "Synthesis, structure, and properties of the high-temperature superconductor HgBa2CuO4+delta" 1997 5 "School of Chemistry, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kindom" "Phys.Rev.B,55(1997)12776" 16014 PR05512776 "(Hg,Cu)Ba2CuO4" Hg0.8Ba2Cu1.15O4+y Hg 0.8 Ba 2 Cu 1.15 O 4+y 1 1997 2 Hg1201 A 3.875 9.502 3 K 93.2 93.2 "HgO,Ba2CuO3.3,CuO" 1 "Mixed - Pelletized - Heated 1 atm air in quartz tube to 800C 4h, at 800C 8h, to R.T. 8h" "Synthesis, structure, and properties of the high-temperature superconductor HgBa2CuO4+delta" 1997 5 "School of Chemistry, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kindom" "Phys.Rev.B,55(1997)12776" 16015 PR05512776 "(Hg,Cu)Ba2CuO4" Hg0.8Ba2Cu1.2O4+y Hg 0.8 Ba 2 Cu 1.2 O 4+y 1 1997 emu/g -0.009 2 Hg1201 A 3.87 9.49 3 K 95.4 95.4 A microwave 11000 "HgO,Ba2CuO3.3,CuO" 1 "Mixed - Pelletized - Heated 1 atm air in quartz tube to 800C 4h, at 800C 8h, to R.T. 8h" "Synthesis, structure, and properties of the high-temperature superconductor HgBa2CuO4+delta" 1997 5 "School of Chemistry, The University of Birmingham, Edgbaston, Birmingham, B15 2TT, United Kindom" "Phys.Rev.B,55(1997)12776" 16016 PR05511789 twin sampleValue at H=0 and T=0 Yba2Cu3O6.95 Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O 6.95 3 1997 Y123 K 93.2 0.25 93.2 A mSR 1155 "Ref. J.E.Sonier et al.,Phys.Rev.Lett. 72,724(1994)ref.R.Liang et al.,Physica C 195,51(1992)" Magnetic field dependence of the London penetration depth in the vortex state of YBa2Cu3O6.95 1997 5 "Department of Physics, Virginia State University, Petersburg, Virginia 23806" "Phys.Rev.B,55(1997)11789" 16017 PR05511832 "(Tl,Pb)Sr2CaCu2O7" Tl0.5Pb0.5Sr2Ca1Cu2O7 Tl 0.5 Pb 0.5 Sr 2 Ca 1 Cu 2 O 7 1 1997 2 Tl1212 P4/mmm 3 1 K 78.4 78.4 K/GPa -0.4 "CaCO3,Y2O3,SrCO3,CuO,Tl2O3,PbO" 1 "Precursor:CaCO3,Y2O3,SrCO3,CuO calcined 970C 12hour in airPrecursor mixed with Tl2O3+PbO (950C 3hour) in O2 flow" Pressure dependence of the superconducting critical temperature of the Tl0.5Pb0.5Sr2Ca1-xYxCu2O7 system 1997 5 "Department of Physics and Astronomy, Free University, De Boelelaan 1081, 1081 HV Amsterdam, The Netherland" "Phys.Rev.B,55(1997)11832" 16018 PR05511832 "(Tl,Pb)Sr2(Ca,Y)Cu2O7" Tl0.5Pb0.5Sr2Ca0.9Y0.1Cu2O7 Tl 0.5 Pb 0.5 Sr 2 Ca 0.9 Y 0.1 Cu 2 O 7 1 1997 2 Tl1212 P4/mmm 3 1 K 99.3 99.3 K/GPa 0.77 "CaCO3,Y2O3,SrCO3,CuO,Tl2O3,PbO" 1 "Precursor:CaCO3,Y2O3,SrCO3,CuO calcined 970C 12hour in airPrecursor mixed with Tl2O3+PbO (950C 3hour) in O2 flow" Pressure dependence of the superconducting critical temperature of the Tl0.5Pb0.5Sr2Ca1-xYxCu2O7 system 1997 5 "Department of Physics and Astronomy, Free University, De Boelelaan 1081, 1081 HV Amsterdam, The Netherland" "Phys.Rev.B,55(1997)11832" 16019 PR05511832 "(Tl,Pb)Sr2(Ca,Y)Cu2O7" Tl0.5Pb0.5Sr2Ca0.8Y0.2Cu2O7 Tl 0.5 Pb 0.5 Sr 2 Ca 0.8 Y 0.2 Cu 2 O 7 1 1997 2 Tl1212 P4/mmm 3 1 K 105.2 105.2 K/GPa 1.5 "CaCO3,Y2O3,SrCO3,CuO,Tl2O3,PbO" 1 "Precursor:CaCO3,Y2O3,SrCO3,CuO calcined 970C 12hour in airPrecursor mixed with Tl2O3+PbO (950C 3hour) in O2 flow" Pressure dependence of the superconducting critical temperature of the Tl0.5Pb0.5Sr2Ca1-xYxCu2O7 system 1997 5 "Department of Physics and Astronomy, Free University, De Boelelaan 1081, 1081 HV Amsterdam, The Netherland" "Phys.Rev.B,55(1997)11832" 16020 PR05511832 "(Tl,Pb)Sr2(Ca,Y)Cu2O7" Tl0.5Pb0.5Sr2Ca0.65Y0.35Cu2O7 Tl 0.5 Pb 0.5 Sr 2 Ca 0.65 Y 0.35 Cu 2 O 7 1 1997 2 Tl1212 P4/mmm 3 1 K 92 92 K/GPa 1.1 "CaCO3,Y2O3,SrCO3,CuO,Tl2O3,PbO" 1 "Precursor:CaCO3,Y2O3,SrCO3,CuO calcined 970C 12hour in airPrecursor mixed with Tl2O3+PbO (950C 3hour) in O2 flow" Pressure dependence of the superconducting critical temperature of the Tl0.5Pb0.5Sr2Ca1-xYxCu2O7 system 1997 5 "Department of Physics and Astronomy, Free University, De Boelelaan 1081, 1081 HV Amsterdam, The Netherland" "Phys.Rev.B,55(1997)11832" 17000 PR05514152 Bi2Sr2CuO6 Bi2Sr2Cu1O6 Bi 2 Sr 2 Cu 1 O 6 3 1997 2 Bi2201 A 5.36 5.37 24.64 1 K 7.5 2 7.5 "Precursor dissolved in liquied KCl,and in cavity(840-850C)Temperature Gradient(2-3K/cm)" In-plane optical response of Bi2sr2CuO6 1997 6 "Material Science Center, Laboratory of Solid State Physics, University of Groningen, Nijenborgh 4, 9747 AG Groningen, The Netherlands" "Phys.Rev.B,55(1997)14152" 17001 PR05514761 "(La,Nd,Sr)2CuO4" La1.55Nd0.3Sr0.15Cu1O4 La 1.55 Nd 0.3 Sr 0.15 Cu 1 O 4 1 1997 26 K 1 Magnetic order in La1.85-xNdxSr0.15CuO4 with 0.30%$x%$0.60 1997 6 "Institut fur Metallphysik und Nukleare Festkorperphysik, Technische Universtat Braunschweig, Germany" "Phys.Rev.B,55(1997)R14761" 17002 PR05514761 "(La,Nd,Sr)2CuO4" La1.4Nd0.45Sr0.15Cu1O4 La 1.4 Nd 0.45 Sr 0.15 Cu 1 O 4 1 1997 30 K 1 Magnetic order in La1.85-xNdxSr0.15CuO4 with 0.30%$x%$0.60 1997 6 "Institut fur Metallphysik und Nukleare Festkorperphysik, Technische Universtat Braunschweig, Germany" "Phys.Rev.B,55(1997)R14761" 17003 PR05514761 "(La,Nd,Sr)2CuO4" La1.35Nd0.5Sr0.15Cu1O4 La 1.35 Nd 0.5 Sr 0.15 Cu 1 O 4 1 1997 26 K 1 Magnetic order in La1.85-xNdxSr0.15CuO4 with 0.30%$x%$0.60 1997 6 "Institut fur Metallphysik und Nukleare Festkorperphysik, Technische Universtat Braunschweig, Germany" "Phys.Rev.B,55(1997)R14761" 17004 PR05514761 "(La,Nd,Sr)2CuO4" La1.25Nd0.6Sr0.15Cu1O4 La 1.25 Nd 0.6 Sr 0.15 Cu 1 O 4 1 1997 29 K 1 Magnetic order in La1.85-xNdxSr0.15CuO4 with 0.30%$x%$0.60 1997 6 "Institut fur Metallphysik und Nukleare Festkorperphysik, Technische Universtat Braunschweig, Germany" "Phys.Rev.B,55(1997)R14761" 17005 PR05514581 cooled in furnace "(Bi,Pb)2Sr2CuO6" Bi1.8Pb0.2Sr2Cu1O6+y Bi 1.8 Pb 0.2 Sr 2 Cu 1 O 6+y 1 1997 2 Bi2201 K micro.V/K -11.2 m.ohm.cm 1.6 2.9 1 cooled in furnace Normal-state spin gap of Bi-based superconductors 1997 6 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,55(1997)14581" 17006 PR05514581 "Annealed in N2, 700C, 2.5h " "(Bi,Pb)2Sr2CuO6" Bi1.8Pb0.2Sr2Cu1O6+y Bi 1.8 Pb 0.2 Sr 2 Cu 1 O 6+y 1 1997 2 Bi2201 K micro.V/K -7 m.ohm.cm 2.5 4.3 1 annealed N2 700C 2.5h Normal-state spin gap of Bi-based superconductors 1997 6 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,55(1997)14581" 17007 PR05514581 "annealed in O2, 10E-5 atm, 550C, 2.5h " "(Bi,Pb)2Sr2CuO6" Bi1.8Pb0.2Sr2Cu1O6+y Bi 1.8 Pb 0.2 Sr 2 Cu 1 O 6+y 1 1997 2 Bi2201 K 20 20 micro.V/K -3.6 m.ohm.cm 4.8 4.6 5.7 1 annealed O2 10^{-5}atm 550C 2.5h Normal-state spin gap of Bi-based superconductors 1997 6 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,55(1997)14581" 17008 PR05514581 annealed O2 10E-5 atm 630C 2.5h "(Bi,Pb)2Sr2CuO6" Bi1.8Pb0.2Sr2Cu1O6+y Bi 1.8 Pb 0.2 Sr 2 Cu 1 O 6+y 1 1997 2 Bi2201 K 20 20 micro.V/K -2.2 m.ohm.cm 5.6 5.3 6.4 1 annealed O2 10^{-5}atm 630C 2.5h Normal-state spin gap of Bi-based superconductors 1997 6 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,55(1997)14581" 17009 PR05514581 "annealed O2 10E-5 atm, 630C, 2.5h + 650C 1.5h + 10E-8 atm 650C 2h " "(Bi,Pb)2Sr2CuO6" Bi1.8Pb0.2Sr2Cu1O6+y Bi 1.8 Pb 0.2 Sr 2 Cu 1 O 6+y 1 1997 2 Bi2201 K 14 14 micro.V/K -1.8 m.ohm.cm 39 51 32 1 annealed O2 10^{-5}atm 630C 2.5h + 650C 1.5h + 10^{-8}atm 650C 2h Normal-state spin gap of Bi-based superconductors 1997 6 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,55(1997)14581" 17010 PR05514581 "(Bi,Pb)2Sr2CaCu2O8" Bi1.8Pb0.2Sr2Ca1Cu2O8+y Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 2 O 8+y 1 1997 2 Bi2212 K 67 67 micro.V/K -5 m.ohm.cm 1 0.8 2.1 1 cooled in furnace Normal-state spin gap of Bi-based superconductors 1997 6 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,55(1997)14581" 17011 PR05514581 "(Bi,Pb)2Sr2CaCu2O8" Bi1.8Pb0.2Sr2Ca1Cu2O8+y Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 2 O 8+y 1 1997 2 Bi2212 K 78 78 micro.V/K -2 m.ohm.cm 2.7 3.2 1 quenched in air Normal-state spin gap of Bi-based superconductors 1997 6 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,55(1997)14581" 17012 PR05514581 "(Bi,Pb)2Sr2CaCu2O8" Bi1.8Pb0.2Sr2Ca1Cu2O8+y Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 2 O 8+y 1 1997 2 Bi2212 K 92 92 micro.V/K 2 m.ohm.cm 6.7 5.3 1 annealed O2 10^{-5}atm 550C 0.5h Normal-state spin gap of Bi-based superconductors 1997 6 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,55(1997)14581" 17013 PR05514581 "(Bi,Pb)2Sr2CaCu2O8" Bi1.8Pb0.2Sr2Ca1Cu2O8+y Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 2 O 8+y 1 1997 2 Bi2212 K 80 80 micro.V/K 5.5 m.ohm.cm 57 33 1 annealed O2 10^{-5}atm 550C 2.5h + 10^{-8}atm 550C 2.5h Normal-state spin gap of Bi-based superconductors 1997 6 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,55(1997)14581" 17014 PR05514581 "(Bi,Pb)2Sr2CaCu2O8" Bi1.8Pb0.2Sr2Ca1Cu2O8+y Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 2 O 8+y 1 1997 2 Bi2212 K 81 81 micro.V/K 6 m.ohm.cm 76 49 1 annealed O2 10^{-5}atm 550C 5h + 10^{-8}atm 550C 10h Normal-state spin gap of Bi-based superconductors 1997 6 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,55(1997)14581" 17015 PR05514733 substrate = BaZrO3 YBa2Cu3O6.95 Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O 6.95 3 1997 3 Y123 K 93.4 93.4 A "microwave, cavity" 1000 1 grown in BaZrO3 crucible Microwave response of YBa2Cu3O6.95 crystals: Evidence for a multicomponent order parameter 1997 6 "Department of Physics, Northeastern University, 360 Huntington Avenue. Boston, Massachsetts 02115" "Phys.Rev.B,55(1997)R14773" 17016 PR05514733 substrate = YSZ YBa2Cu3O6.95 Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O 6.95 3 1997 3 Y123 K A "microwave, cavity" 1400 1 grown in yttria-stabilized zirconia crucible Microwave response of YBa2Cu3O6.95 crystals: Evidence for a multicomponent order parameter 1997 6 "Department of Physics, Northeastern University, 360 Huntington Avenue. Boston, Massachsetts 02115" "Phys.Rev.B,55(1997)R14773" 17017 PR05514632 Bi2Sr2CaCu2O8+y Bi2Sr2Ca1Cu2O8+y Bi 2 Sr 2 Ca 1 Cu 2 O 8+y 1 1997 3 Bi2212 A 5.39 5.397 30.768 4 "In this paper, temperature dependence of lattice parameters is reported.But their temperature depandence is not linear.So da/aT etc. aren't listed." K 7 Temperature-dependent changes in the sturucture of high-quality polycrystallin Bi2Sr2CaCu2O8+x material 1997 6 "Advanced Electronic Materials Group, School of Physics, University of NSW, Sydney NSW 2052, Australia" "Phys.Rev.B,55(1997)14632" 17018 PR05515300 YBa2Cu3O6.92 Y1Ba2Cu3O6.92 Y 1 Ba 2 Cu 3 O 6.92 3 1997 3 Y123 K 90 90 m.ohm.cm 0.03 m3/C 3.00E-10 -3.00E-10 crystal-pulling techniqueannealed O2 flow 400C 10days Anisotropic Hal mobility in slightly overdoped YBa2Cu3O6.92 from magnetoresistance and Hall-coefficient measurements 1997 6 "Superconductivity Research Laboratory, International Superconductivity Technology, Center 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,55(1997)15300" 17019 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O6.79 La 1 Ba 1.5 Ca 0.5 Cu 3 O 6.79 1 1997 336 K 40 40 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17020 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O7.011 La 1 Ba 1.5 Ca 0.5 Cu 3 O 7.011 1 1997 336 K 78 78 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17021 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O7.079 La 1 Ba 1.5 Ca 0.5 Cu 3 O 7.079 1 1997 336 K 76 76 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17022 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O7.112 La 1 Ba 1.5 Ca 0.5 Cu 3 O 7.112 1 1997 336 K 72 72 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17023 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O7.16 La 1 Ba 1.5 Ca 0.5 Cu 3 O 7.16 1 1997 336 K 56 56 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17024 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.1Ba1.5Ca0.4Cu3O6.76 La 1.1 Ba 1.5 Ca 0.4 Cu 3 O 6.76 1 1997 336 K 34 34 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17025 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.1Ba1.5Ca0.4Cu3O6.97 La 1.1 Ba 1.5 Ca 0.4 Cu 3 O 6.97 1 1997 336 K 70 70 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17026 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.1Ba1.5Ca0.4Cu3O7.06 La 1.1 Ba 1.5 Ca 0.4 Cu 3 O 7.06 1 1997 336 K 79 79 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17027 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.1Ba1.5Ca0.4Cu3O7.06 La 1.1 Ba 1.5 Ca 0.4 Cu 3 O 7.06 1 1997 336 K 79 79 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17028 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.1Ba1.5Ca0.4Cu3O7.11 La 1.1 Ba 1.5 Ca 0.4 Cu 3 O 7.11 1 1997 336 K 77 77 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17029 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.1Ba1.5Ca0.4Cu3O7.123 La 1.1 Ba 1.5 Ca 0.4 Cu 3 O 7.123 1 1997 336 K 76 76 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17030 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.1Ba1.5Ca0.4Cu3O7.17 La 1.1 Ba 1.5 Ca 0.4 Cu 3 O 7.17 1 1997 336 K 70 70 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17031 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.1Ba1.5Ca0.4Cu3O7.25 La 1.1 Ba 1.5 Ca 0.4 Cu 3 O 7.25 1 1997 336 K 35 35 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17032 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.2Ba1.5Ca0.3Cu3O6.72 La 1.2 Ba 1.5 Ca 0.3 Cu 3 O 6.72 1 1997 336 K 27 27 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17033 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.2Ba1.5Ca0.3Cu3O6.93 La 1.2 Ba 1.5 Ca 0.3 Cu 3 O 6.93 1 1997 336 K 60 60 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17034 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.2Ba1.5Ca0.3Cu3O7.06 La 1.2 Ba 1.5 Ca 0.3 Cu 3 O 7.06 1 1997 336 K 75.2 75.2 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17035 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.3Ba1.5Ca0.2Cu3O6.7 La 1.3 Ba 1.5 Ca 0.2 Cu 3 O 6.7 1 1997 336 K 20 20 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17036 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.3Ba1.5Ca0.2Cu3O6.92 La 1.3 Ba 1.5 Ca 0.2 Cu 3 O 6.92 1 1997 336 K 45 45 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17037 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.3Ba1.5Ca0.2Cu3O6.94 La 1.3 Ba 1.5 Ca 0.2 Cu 3 O 6.94 1 1997 336 K 52 52 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17038 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.4Ba1.5Ca0.1Cu3O6.688 La 1.4 Ba 1.5 Ca 0.1 Cu 3 O 6.688 1 1997 336 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17039 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.4Ba1.5Ca0.1Cu3O6.903 La 1.4 Ba 1.5 Ca 0.1 Cu 3 O 6.903 1 1997 336 K 25 25 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17040 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.4Ba1.5Ca0.1Cu3O6.943 La 1.4 Ba 1.5 Ca 0.1 Cu 3 O 6.943 1 1997 336 K 40 40 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17041 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.4Ba1.5Ca0.1Cu3O6.982 La 1.4 Ba 1.5 Ca 0.1 Cu 3 O 6.982 1 1997 336 K 51 51 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17042 PR05515228 "(La,Ba)3Cu3O6" La1.5Ba1.5Cu3O6.657 La 1.5 Ba 1.5 Cu 3 O 6.657 1 1997 336 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17043 PR05515228 "(La,Ba)3Cu3O6" La1.5Ba1.5Cu3O6.884 La 1.5 Ba 1.5 Cu 3 O 6.884 1 1997 336 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17044 PR05515228 "(La,Ba)3Cu3O6" La1.5Ba1.5Cu3O7.021 La 1.5 Ba 1.5 Cu 3 O 7.021 1 1997 336 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17045 PR05515228 "(La,Ba)3Cu3O6" La1.5Ba1.5Cu3O7.078 La 1.5 Ba 1.5 Cu 3 O 7.078 1 1997 336 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17046 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.5Ba1.4Ca0.1Cu3O6.912 La 1.5 Ba 1.4 Ca 0.1 Cu 3 O 6.912 1 1997 336 K 11 11 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17047 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.5Ba1.4Ca0.1Cu3O6.912 La 1.5 Ba 1.4 Ca 0.1 Cu 3 O 6.912 1 1997 336 K 16 16 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17048 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.5Ba1.4Ca0.1Cu3O6.932 La 1.5 Ba 1.4 Ca 0.1 Cu 3 O 6.932 1 1997 336 K 25 25 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17049 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.5Ba1.4Ca0.1Cu3O6.964 La 1.5 Ba 1.4 Ca 0.1 Cu 3 O 6.964 1 1997 336 K 35 35 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17050 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.5Ba1.3Ca0.2Cu3O6.897 La 1.5 Ba 1.3 Ca 0.2 Cu 3 O 6.897 1 1997 336 K 16 16 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17051 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.5Ba1.3Ca0.2Cu3O6.918 La 1.5 Ba 1.3 Ca 0.2 Cu 3 O 6.918 1 1997 336 K 25 25 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17052 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.5Ba1.3Ca0.2Cu3O6.957 La 1.5 Ba 1.3 Ca 0.2 Cu 3 O 6.957 1 1997 336 K 35 35 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17053 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.5Ba1.3Ca0.2Cu3O7.002 La 1.5 Ba 1.3 Ca 0.2 Cu 3 O 7.002 1 1997 336 K 16 16 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17054 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.5Ba1.1Ca0.4Cu3O6.764 La 1.5 Ba 1.1 Ca 0.4 Cu 3 O 6.764 1 1997 336 K 25 25 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17055 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.5Ba1.1Ca0.4Cu3O6.969 La 1.5 Ba 1.1 Ca 0.4 Cu 3 O 6.969 1 1997 336 K 40 40 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17056 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.5Ba1.1Ca0.4Cu3O7.05 La 1.5 Ba 1.1 Ca 0.4 Cu 3 O 7.05 1 1997 336 K 55 55 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17057 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.5Ba1.1Ca0.4Cu3O7.082 La 1.5 Ba 1.1 Ca 0.4 Cu 3 O 7.082 1 1997 336 K 62 62 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17058 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.5Ba1Ca0.5Cu3O6.801 La 1.5 Ba 1 Ca 0.5 Cu 3 O 6.801 1 1997 336 K 30 30 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17059 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.5Ba1Ca0.5Cu3O6.981 La 1.5 Ba 1 Ca 0.5 Cu 3 O 6.981 1 1997 336 K 50 50 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17060 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.5Ba1Ca0.5Cu3O7.126 La 1.5 Ba 1 Ca 0.5 Cu 3 O 7.126 1 1997 336 K 67 67 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17061 PR05515228 "(La,Ba,Ca)3Cu3O6" La1.5Ba1Ca0.5Cu3O7.195 La 1.5 Ba 1 Ca 0.5 Cu 3 O 7.195 1 1997 336 K 74 74 La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17062 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O7.1 La 1 Ba 1.5 Ca 0.5 Cu 3 O 7.1 1 1997 2 336 A 3.881 11.71 4 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17063 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O7.12 La 1 Ba 1.5 Ca 0.5 Cu 3 O 7.12 1 1997 2 336 A 3.88 11.704 4 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17064 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O7.14 La 1 Ba 1.5 Ca 0.5 Cu 3 O 7.14 1 1997 2 336 A 3.88 11.763 4 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17065 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O7.16 La 1 Ba 1.5 Ca 0.5 Cu 3 O 7.16 1 1997 2 336 A 3.879 11.703 4 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17066 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O7.18 La 1 Ba 1.5 Ca 0.5 Cu 3 O 7.18 1 1997 2 336 A 3.879 11.698 4 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17067 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O7.02 La 1 Ba 1.5 Ca 0.5 Cu 3 O 7.02 1 1997 2 336 A 3.885 11.74 4 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17068 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O7.14 La 1 Ba 1.5 Ca 0.5 Cu 3 O 7.14 1 1997 2 336 A 3.881 11.71 3 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17069 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O7.12 La 1 Ba 1.5 Ca 0.5 Cu 3 O 7.12 1 1997 2 336 A 3.883 11.717 3 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17070 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O7.08 La 1 Ba 1.5 Ca 0.5 Cu 3 O 7.08 1 1997 2 336 A 3.885 11.728 3 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17071 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O6.86 La 1 Ba 1.5 Ca 0.5 Cu 3 O 6.86 1 1997 2 336 A 3.897 11.786 3 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17072 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O6.8 La 1 Ba 1.5 Ca 0.5 Cu 3 O 6.8 1 1997 2 336 A 3.9 11.805 3 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17073 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O6.76 La 1 Ba 1.5 Ca 0.5 Cu 3 O 6.76 1 1997 336 A 3.903 11.814 3 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17074 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O6.68 La 1 Ba 1.5 Ca 0.5 Cu 3 O 6.68 1 1997 2 336 A 3.907 11.838 3 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17075 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O6.6 La 1 Ba 1.5 Ca 0.5 Cu 3 O 6.6 1 1997 2 336 A 3.91 11.864 3 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17076 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O6.52 La 1 Ba 1.5 Ca 0.5 Cu 3 O 6.52 1 1997 2 336 A 3.915 11.886 3 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 17077 PR05515228 "(La,Ba,Ca)3Cu3O6" La1Ba1.5Ca0.5Cu3O6.46 La 1 Ba 1.5 Ca 0.5 Cu 3 O 6.46 1 1997 2 336 A 3.918 11.901 3 K La2O3;CaCO3;BaCO3;CuO 1 "La2O3 dried 1000C;CuO2(700C) CaCO3,BaCO3(200C)" High-pressure oxidation of the tetragonal La1.5-xBa1.5+x-yCayCu3Oz superconductors 1997 6 "Department of Chemistry, University of Aberdeen, Meston Walk, Aberdeen AB24 3UE, Scotland, United Kingdom" "Phys.Rev.B,55(1997)15228" 18100 PR05703650 HgBa2CuO4 Hg1Ba2Cu1O4+y Hg 1 Ba 2 Cu 1 O 4+y 1 1998 Hg1201 K 97 97 meV 33 7.9 1 m.ohm.cm 20 vapor/solid reaction technique Quasiparticle tunneling spectra of the high-Tc mercury cuprates: Implications of the d-wave two-dimensional van Hove scenario 1998 2 "Department of Applied Physics, Columbia University, New York, New York 10027" "Phys.Rev.B,57(1998)3650-3662" 18101 PR05703650 HgBa2CaCu2O6 Hg1Ba2Ca1Cu2O6+y Hg 1 Ba 2 Ca 1 Cu 2 O 6+y 5 1998 Hg1212 K 122 123 123 123 meV 50 9.5 1 m.ohm.cm 0.4 laser-ablation (100) SrTiO3 substrate Quasiparticle tunneling spectra of the high-Tc mercury cuprates: Implications of the d-wave two-dimensional van Hove scenario 1998 2 "Department of Applied Physics, Columbia University, New York, New York 10027" "Phys.Rev.B,57(1998)3650-3662" 18102 PR05703650 HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8+y Hg 1 Ba 2 Ca 2 Cu 3 O 8+y 1 1998 Hg1223 K 135 135 meV 75 13 1 m.ohm.cm 20 vapor/solid reaction technique Quasiparticle tunneling spectra of the high-Tc mercury cuprates: Implications of the d-wave two-dimensional van Hove scenario 1998 2 "Department of Applied Physics, Columbia University, New York, New York 10027" "Phys.Rev.B,57(1998)3650-3662" 18103 PR05703683 "(Sm,Ce)2CuO4" Sm1.85Ce0.15Cu1O4-y Sm 1.85 Ce 0.15 Cu 1 O 4-y 1 1998 T' K 14.5 27.5 21 T/K 0.38 11 "Ref[2]:R. F. Jardim et al., Phys. Rev. B50 10080(1994)" Observation of granular superconductivity in polycrystalline Sm2-xCexCuO4-y 1998 2 "Physics Department, University of Notre Dame, Indiana 46556" "Phys.Rev.B,57(1998)3638" 18104 PR05703683 "(Sm,Ce)2CuO4" Sm1.84Ce0.16Cu1O4-y Sm 1.84 Ce 0.16 Cu 1 O 4-y 1 1998 T' K 18.2 18.2 11 "Ref[2]:R. F. Jardim et al., Phys. Rev. B50 10080(1994)" Observation of granular superconductivity in polycrystalline Sm2-xCexCuO4-y 1998 2 "Physics Department, University of Notre Dame, Indiana 46556" "Phys.Rev.B,57(1998)3638" 18105 PR05703683 "(Sm,Ce)2CuO4" Sm1.83Ce0.17Cu1O4-y Sm 1.83 Ce 0.17 Cu 1 O 4-y 1 1998 T' K 12 12 11 "Ref[2]:R. F. Jardim et al., Phys. Rev. B50 10080(1994)" Observation of granular superconductivity in polycrystalline Sm2-xCexCuO4-y 1998 2 "Physics Department, University of Notre Dame, Indiana 46556" "Phys.Rev.B,57(1998)3638" 18106 PR05703683 "(Sm,Ce)2CuO4" Sm1.82Ce0.18Cu1O4-y Sm 1.82 Ce 0.18 Cu 1 O 4-y 1 1998 T' K 8.8 8.8 11 "Ref[2]:R. F. Jardim et al., Phys. Rev. B50 10080(1994)" Observation of granular superconductivity in polycrystalline Sm2-xCexCuO4-y 1998 2 "Physics Department, University of Notre Dame, Indiana 46556" "Phys.Rev.B,57(1998)3638" 18107 PR05703245 Tl2Ba2CuO6 Tl2Ba2Cu1O6 Tl 2 Ba 2 Cu 1 O 6 3 1998 Tl2201 K 91 91 meV 21 "Ref[16]:R. Mogilaevsky et al., Physica C 250 15 (1995)" Evidence of dx2-y2 symmetry in the tunneling conductance density of states of Tl2Ba2CuO6 1998 2 "Illinois Institute of Technology, Chicago, Illinois 60616" "Phys.Rev.B,57(1998)R3245" 18200 PR05706121 HgBa2Ca3Cu4O10 Hg1Ba2Ca3Cu4O10+d Hg 1 Ba 2 Ca 3 Cu 4 O 10+d 1 1998 6 Hg1234 P4/mmm A 3.852 18.988 K 125 6 125 T BCS Clean Limit 205 T/K Hao-Clem model 2.2 A BCS clean Limit 12.7 A BCS clean Limit 157 "In High PressureRef[9]:T. I. Dyuzheva et al., J. Alloys, Compd. 223 74 (1995)" Enhanced anisotropic nature of HgBa2Ca3Cu4O10+delta 1998 3 "Department of Physics, Pohang University of Science and Technology, Pohang 790-784, Republic of Krea" "Phys.Rev.B,57(1998)6121" 18201 PR05706121 HgBa2Ca3Cu4O10 Hg1Ba2Ca3Cu4O10+d Hg 1 Ba 2 Ca 3 Cu 4 O 10+d 1 1998 6 Hg1234 P4/mmm A 3.852 18.988 K 125 6 125 T BCS dirty limit 195 T/K 2D scaling function 2.4 A BCS dirty Limit 13 A BCS dirty Limit 172 "In High PressureRef[9]:T. I. Dyuzheva et al., J. Alloys, Compd. 223 74 (1995)" Enhanced anisotropic nature of HgBa2Ca3Cu4O10+delta 1998 3 "Department of Physics, Pohang University of Science and Technology, Pohang 790-784, Republic of Krea" "Phys.Rev.B,57(1998)6121" 18202 PR05705535 Pb2Sr2YCu3O8 Pb2Sr2Y1Cu3O8+d Pb 2 Sr 2 Y 1 Cu 3 O 8+d 1 1998 3 Pb3212 A 5.394 5.434 15.725 K "PbO,Y2O3,CuO,CaO,SrCO3" 1 "sintered 830C,20hour argon/oxygen=98%/2%" Structural disorder in the Pb2Sr2Y1-xCaxCu3O8+delta cuprates 1998 3 "Swiss Light Source Project, Paul Scherrer Institute, CH-5232 Villigen PSI, Swizerland" "Phys.Rev.B,57(1998)5535" 18203 PR05705535 "Pb2Sr2(Y,Ca)Cu3O8" Pb2Sr2Y0.5Ca0.5Cu3O8+d Pb 2 Sr 2 Y 0.5 Ca 0.5 Cu 3 O 8+d 1 1998 3 Pb3212 A 5.379 5.419 15.737 K 70 70 "PbO,Y2O3,CuO,CaO,SrCO3" 1 "sintered 830C,20hour argon/oxygen=98%/2%" Structural disorder in the Pb2Sr2Y1-xCaxCu3O8+delta cuprates 1998 3 "Swiss Light Source Project, Paul Scherrer Institute, CH-5232 Villigen PSI, Swizerland" "Phys.Rev.B,57(1998)5535" 18204 PR05705630 "(Hg,Au)Ba2Ca2Cu3O8" Hg0.7Au0.3Ba2Ca2Cu3O8+y Hg 0.7 Au 0.3 Ba 2 Ca 2 Cu 3 O 8+y 6 1998 Hg1223 "3,5" K K/GPa 0.8 1 "1.Ba(2)Ca(n-1)Cu(n)O(x) ANN 900-925C 72h 2.mix with gold and mercury oxide 3,submit 1.8GPa 950C 1.6h" Overdoped Hg1-xAuxBa2Ca2Cu3O8+x and the origin of the intrinsic increase of Tc under pressure in mercury cuprates 1998 3 "EPM-Matformag and Centre de Recherches sur les Tres Basses Temperatures, CNRS, BP 166, 38042 Grenoble Cedex 9, France" "Phys.Rev.B,57(1998)R5630" 18205 PR05705082 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+y Bi 2 Sr 2 Ca 1 Cu 2 O 8+y 1 1998 2 Bi2212 A 5.406 30.84 3 K 78.6 78.6 m.ohm.cm 0.6 2 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO" 1 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO ground - sintered in air 850C 12h 3times - pelletized - calcined 850-930C 72h" Superconductivity and Raman scattering in Bi2Sr2Ca1-xPrxCu2Oy 1998 3 "Structural Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,57(1998)5082" 18206 PR05705082 BI2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+y Bi 2 Sr 2 Ca 1 Cu 2 O 8+y 1 1998 2 Bi2212 K 71.4 71.4 m.ohm.cm 0.3 1.2 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO" 1 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO ground - sintered in air 850C 12h 3times - pelletized - calcined 850-930C 72h - annealed in oxygen" Superconductivity and Raman scattering in Bi2Sr2Ca1-xPrxCu2Oy 1998 3 "Structural Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,57(1998)5082" 18207 PR05705082 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.8Pr0.2Cu2O8+y Bi 2 Sr 2 Ca 0.8 Pr 0.2 Cu 2 O 8+y 1 1998 2 Bi2212 A 5.418 30.76 3 K 83 83 m.ohm.cm 1.3 3 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO" 1 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO ground - sintered in air 850C 12h 3times - pelletized - calcined 850-930C 72h" Superconductivity and Raman scattering in Bi2Sr2Ca1-xPrxCu2Oy 1998 3 "Structural Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,57(1998)5082" 18208 PR05705082 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.8Pr0.2Cu2O8+y Bi 2 Sr 2 Ca 0.8 Pr 0.2 Cu 2 O 8+y 1 1998 2 Bi2212 K 87.1 87.1 m.ohm.cm 0.5 1.6 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO" 1 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO ground - sintered in air 850C 12h 3times - pelletized - calcined 850-930C 72h - annealed in oxygen" Superconductivity and Raman scattering in Bi2Sr2Ca1-xPrxCu2Oy 1998 3 "Structural Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,57(1998)5082" 18209 PR05705082 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.6Pr0.4Cu2O8+y Bi 2 Sr 2 Ca 0.6 Pr 0.4 Cu 2 O 8+y 1 1998 2 Bi2212 A 5.427 30.71 3 K 58 58 m.ohm.cm 1.7 3.7 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO" 1 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO ground - sintered in air 850C 12h 3times - pelletized - calcined 850-930C 72h" Superconductivity and Raman scattering in Bi2Sr2Ca1-xPrxCu2Oy 1998 3 "Structural Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,57(1998)5082" 18210 PR05705082 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.6Pr0.4Cu2O8+y Bi 2 Sr 2 Ca 0.6 Pr 0.4 Cu 2 O 8+y 1 1998 2 Bi2212 K 62.5 62.5 m.ohm.cm 1.5 3.5 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO" 1 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO ground - sintered in air 850C 12h 3times - pelletized - calcined 850-930C 72h - annealed in oxygen" Superconductivity and Raman scattering in Bi2Sr2Ca1-xPrxCu2Oy 1998 3 "Structural Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,57(1998)5082" 18211 PR05705082 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.55Pr0.45Cu2O8+y Bi 2 Sr 2 Ca 0.55 Pr 0.45 Cu 2 O 8+y 1 1998 2 Bi2212 A 5.442 30.55 3 K 9.8 9.8 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO" 1 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO ground - sintered in air 850C 12h 3times - pelletized - calcined 850-930C 72h" Superconductivity and Raman scattering in Bi2Sr2Ca1-xPrxCu2Oy 1998 3 "Structural Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,57(1998)5082" 18212 PR05705082 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.5Pr0.5Cu2O8+y Bi 2 Sr 2 Ca 0.5 Pr 0.5 Cu 2 O 8+y 1 1998 2 Bi2212 A 5.452 30.41 3 K 25.9 25.9 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO" 1 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO ground - sintered in air 850C 12h 3times - pelletized - calcined 850-930C 72h" Superconductivity and Raman scattering in Bi2Sr2Ca1-xPrxCu2Oy 1998 3 "Structural Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,57(1998)5082" 18213 PR05705082 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.4Pr0.6Cu2O8+y Bi 2 Sr 2 Ca 0.4 Pr 0.6 Cu 2 O 8+y 1 1998 3 Bi2212 A 5.458 5.449 30.37 3 K 15 m.ohm.cm 7.7 8.1 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO" 1 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO ground - sintered in air 850C 12h 3times - pelletized - calcined 850-930C 72h" Superconductivity and Raman scattering in Bi2Sr2Ca1-xPrxCu2Oy 1998 3 "Structural Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,57(1998)5082" 18214 PR05705082 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.4Pr0.6Cu2O8+y Bi 2 Sr 2 Ca 0.4 Pr 0.6 Cu 2 O 8+y 1 1998 3 Bi2212 K 15 m.ohm.cm 13.8 13.8 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO" 1 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO ground - sintered in air 850C 12h 3times - pelletized - calcined 850-930C 72h - annealed in oxygen" Superconductivity and Raman scattering in Bi2Sr2Ca1-xPrxCu2Oy 1998 3 "Structural Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,57(1998)5082" 18215 PR05705082 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.2Pr0.8Cu2O8+y Bi 2 Sr 2 Ca 0.2 Pr 0.8 Cu 2 O 8+y 1 1998 3 Bi2212 A 5.465 5.447 30.34 3 K "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO" 1 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO ground - sintered in air 850C 12h 3times - pelletized - calcined 850-930C 72h" Superconductivity and Raman scattering in Bi2Sr2Ca1-xPrxCu2Oy 1998 3 "Structural Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,57(1998)5082" 18216 PR05705082 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.2Pr0.8Cu2O8+y Bi 2 Sr 2 Ca 0.2 Pr 0.8 Cu 2 O 8+y 1 1998 3 Bi2212 K "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO" 1 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO ground - sintered in air 850C 12h 3times - pelletized - calcined 850-930C 72h - annealed in oxygen" Superconductivity and Raman scattering in Bi2Sr2Ca1-xPrxCu2Oy 1998 3 "Structural Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,57(1998)5082" 18217 PR05705082 Bi2Sr2PrCu2O8+y Bi2Sr2Pr1Cu2O8+y Bi 2 Sr 2 Pr 1 Cu 2 O 8+y 1 1998 3 Bi2212 A 5.468 5.447 30.3 3 K "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO" 1 "Bi2O3, SrCO3, CaCO3, Pr6O11, CuO ground - sintered in air 850C 12h 3times - pelletized - calcined 850-930C 72h" Superconductivity and Raman scattering in Bi2Sr2Ca1-xPrxCu2Oy 1998 3 "Structural Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B,57(1998)5082" 18218 PR05706165 Superconductivity doesn't appear. La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 3 1998 T K Doping dependence of the spatially modulated dynamical spin correlations and the superconducting-transition temperature in La2-xSrxCuO4 1998 3 "Department of Physics, Tohoku University, Aramaki Aoba, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)6165" 18219 PR05706165 Superconductivity doesn't appear. "(La,Sr)2CuO4" La1.96Sr0.04Cu1O4 La 1.96 Sr 0.04 Cu 1 O 4 3 1998 T A 13.172 3 K Doping dependence of the spatially modulated dynamical spin correlations and the superconducting-transition temperature in La2-xSrxCuO4 1998 3 "Department of Physics, Tohoku University, Aramaki Aoba, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)6165" 18220 PR05706165 "(La,Sr)2CuO4" La1.94Sr0.06Cu1O4 La 1.94 Sr 0.06 Cu 1 O 4 3 1998 T A 13.189 3 K 14 14 7 "Heat treatment under 1bar O2 flow 900C, 100h" Doping dependence of the spatially modulated dynamical spin correlations and the superconducting-transition temperature in La2-xSrxCuO4 1998 3 "Department of Physics, Tohoku University, Aramaki Aoba, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)6165" 18221 PR05706165 "(La,Sr)2CuO4" La1.92Sr0.08Cu1O4 La 1.92 Sr 0.08 Cu 1 O 4 3 1998 T A 13.2 3 K 24 24 7 "Heat treatment under 1bar O2 flow 900C, 100h" Doping dependence of the spatially modulated dynamical spin correlations and the superconducting-transition temperature in La2-xSrxCuO4 1998 3 "Department of Physics, Tohoku University, Aramaki Aoba, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)6165" 18222 PR05706165 "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 3 1998 T K 29 29 7 "Heat treatment under 1bar O2 flow 900C, 100h" Doping dependence of the spatially modulated dynamical spin correlations and the superconducting-transition temperature in La2-xSrxCuO4 1998 3 "Department of Physics, Tohoku University, Aramaki Aoba, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)6165" 18223 PR05706165 "(La,Sr)2CuO4" La1.88Sr0.12Cu1O4 La 1.88 Sr 0.12 Cu 1 O 4 3 1998 T A 13.23 3 K 34 34 7 "Heat treatment under 1bar O2 flow 900C, 100h" Doping dependence of the spatially modulated dynamical spin correlations and the superconducting-transition temperature in La2-xSrxCuO4 1998 3 "Department of Physics, Tohoku University, Aramaki Aoba, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)6165" 18224 PR05706165 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 3 1998 T A 13.24 3 K 38 38 7 "Heat treatment under 1bar O2 flow 900C, 100h" Doping dependence of the spatially modulated dynamical spin correlations and the superconducting-transition temperature in La2-xSrxCuO4 1998 3 "Department of Physics, Tohoku University, Aramaki Aoba, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)6165" 18225 PR05706165 "(La,Sr)2CuO4" La1.82Sr0.18Cu1O4 La 1.82 Sr 0.18 Cu 1 O 4 3 1998 T A 13.249 3 K 37 37 7 "Heat treatment under 1bar O2 flow 900C, 100h" Doping dependence of the spatially modulated dynamical spin correlations and the superconducting-transition temperature in La2-xSrxCuO4 1998 3 "Department of Physics, Tohoku University, Aramaki Aoba, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)6165" 18226 PR05706165 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 3 1998 T A 13.248 3 K 32 32 7 "Heat treatment under 1bar O2 flow 900C, 100h" Doping dependence of the spatially modulated dynamical spin correlations and the superconducting-transition temperature in La2-xSrxCuO4 1998 3 "Department of Physics, Tohoku University, Aramaki Aoba, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)6165" 18227 PR05706165 "(La,Sr)2CuO4" La1.75Sr0.25Cu1O4 La 1.75 Sr 0.25 Cu 1 O 4 3 1998 T A 13.26 3 K 16 16 7 "Heat treatment under 1bar O2 flow 900C, 100h" Doping dependence of the spatially modulated dynamical spin correlations and the superconducting-transition temperature in La2-xSrxCuO4 1998 3 "Department of Physics, Tohoku University, Aramaki Aoba, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)6165" 18228 PR05706165 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 3 1998 T K 38 38 Doping dependence of the spatially modulated dynamical spin correlations and the superconducting-transition temperature in La2-xSrxCuO4 1998 3 "Department of Physics, Tohoku University, Aramaki Aoba, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)6165" 18229 PR05706165 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O3.993 La 1.85 Sr 0.15 Cu 1 O 3.993 3 1998 T K 20 20 7 Deoxygenated by anneal Doping dependence of the spatially modulated dynamical spin correlations and the superconducting-transition temperature in La2-xSrxCuO4 1998 3 "Department of Physics, Tohoku University, Aramaki Aoba, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)6165" 18230 PR05706165 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O3.987 La 1.85 Sr 0.15 Cu 1 O 3.987 3 1998 T K 12 12 7 Deoxygenated by anneal Doping dependence of the spatially modulated dynamical spin correlations and the superconducting-transition temperature in La2-xSrxCuO4 1998 3 "Department of Physics, Tohoku University, Aramaki Aoba, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)6165" 18231 PR05706165 Superconductivity doesn't appear. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O3.98 La 1.85 Sr 0.15 Cu 1 O 3.98 3 1998 T K 7 Deoxygenated by anneal Doping dependence of the spatially modulated dynamical spin correlations and the superconducting-transition temperature in La2-xSrxCuO4 1998 3 "Department of Physics, Tohoku University, Aramaki Aoba, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)6165" 18299 PR05710923 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1998 Y124 K W/K.M 6.3 m.ohm.cm 0.062 0.407 "sinter cold-pressed(at high O2, 1000C). Details see J.Appl.Phys. 76(1994)3673" Thermal conductivity of polycrystalline YBa2Cu4O8 from 10 to 300K 1998 5 "Oak Ridge National Laboratory, P.O. Box 2008, Oak Ridge, Tennessee 37831-6116" "Phys.Rev.B,57(1998)10923" 18300 PR05707986 high quality single crystal. substrate = YSZ. YBa2Cu3O6.95 Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O 6.95 3 1998 Y123 K 92.4 92.4 A surface impedance by 10GHz cavity using hot finger technique 1400 5 Crucible:YSZ(yttria-stabilized zirconia)O2 anneal 100bar 20h 700C Systematics of two-component superconductivity in YBa2Cu3O6.95 from microwave measurements of high-quality single crystals 1998 4 "Department of Physics, Northeastern university, 360 Huntington Avenue, Boston, Massachusetts 02115" "Phys.Rev.B,57(1998)7986" 18301 PR05707986 high quality single crystal. substrate = BaZrO3 YBa2Cu3O6.95 Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O 6.95 3 1998 Y123 K 93.4 93.4 A surface impedance by 10GHz cavity using hot finger technique 1000 5 Crucible:BZO(BaZrO3)O2 anneal 100bar 20h 700C Systematics of two-component superconductivity in YBa2Cu3O6.95 from microwave measurements of high-quality single crystals 1998 4 "Department of Physics, Northeastern university, 360 Huntington Avenue, Boston, Massachusetts 02115" "Phys.Rev.B,57(1998)7986" 18302 PR05708667 "(B,C)(Sr,Ba)2Ca2Cu3O9" B0.6C0.4Sr0.5Ba1.5Ca2Cu3O9 B 0.6 C 0.4 Sr 0.5 Ba 1.5 Ca 2 Cu 3 O 9 1 1998 C1223 P4/mmm A 3.862 14.135 K 119 7 119 T clean limit 136 A clean limit 15.6 A clean limit 2140 "Ba2Ca2Cu3O7,Sr2Ca2Cu3O7,B2O3,Ag2CO3" 1 "Ref[4]A. Iyo et al., Czech. J. Phys. 46,1481(1996)Precursor:calcined flow O2 1atmSample:calcined 1100C 3hour 4.5GPa" Interlayer coupling and superconducting properties of the triple-layer compound B0.6C0.4(Sr0.25Ba0.75)2Ca2Cu3O9 1998 4 "Department of Physics, Pohang University of Science and Technology, Pohang 790-784, Republic of Korea" "Phys.Rev.B,57(1998)8667" 18303 PR05708667 "(B,C)(Sr,Ba)2Ca2Cu3O9" B0.6C0.4Sr0.5Ba1.5Ca2Cu3O9 B 0.6 C 0.4 Sr 0.5 Ba 1.5 Ca 2 Cu 3 O 9 1 1998 C1223 P4/mmm A 3.862 14.135 K 119 7 119 T dirty limit 130 A dirty limit 16 A dirty limit 2370 "Ba2Ca2Cu3O7,Sr2Ca2Cu3O7,B2O3,Ag2CO3" 1 "Ref[4]A. Iyo et al., Czech. J. Phys. 46,1481(1996)Precursor:calcined flow O2 1atmSample:calcined 1100C 3hour 4.5GPa" Interlayer coupling and superconducting properties of the triple-layer compound B0.6C0.4(Sr0.25Ba0.75)2Ca2Cu3O9 1998 4 "Department of Physics, Pohang University of Science and Technology, Pohang 790-784, Republic of Korea" "Phys.Rev.B,57(1998)8667" 18304 PR05708680 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-z Nd 1.85 Ce 0.15 Cu 1 O 4-z 3 1998 T K 17.5 17.5 meV 2.2 1 7 "Ref[25]:K. Oka et al.,Jpn. J. Appl.Phys.,Part 1 28,937 (1989)Traveling-Solvent floating Zoneanneal O2 1E-4atm 1000C 4days" Tunneling spectroscopy of superconducting Nd1.85Ce0.15CuO4-delta 1998 4 "Electrotechnical Laboratory, Umezono, tsukuba, Ibaraki 305, Japan" "Phys.Rev.B,57(1998)8680" 18305 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.45Y0.55Cu2O8+d Bi 2 Sr 2 Ca 0.45 Y 0.55 Cu 2 O 8+d 1 1998 Bi2212 K 9.91 9.91 -2.5 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18306 PR05707491 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.5Y0.5Cu2O8+d Bi 2 Sr 2 Ca 0.5 Y 0.5 Cu 2 O 8+d 1 1998 Bi2212 K 34.9 34.9 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18307 PR05707491 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.55Y0.45Cu2O8+d Bi 2 Sr 2 Ca 0.55 Y 0.45 Cu 2 O 8+d 1 1998 Bi2212 K 50.4 50.4 5 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18308 PR05707491 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.6Y0.4Cu2O8+d Bi 2 Sr 2 Ca 0.6 Y 0.4 Cu 2 O 8+d 1 1998 Bi2212 K 65.5 65.5 11 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18309 PR05707491 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.62Y0.38Cu2O8+d Bi 2 Sr 2 Ca 0.62 Y 0.38 Cu 2 O 8+d 1 1998 Bi2212 K 72.4 72.4 16.5 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18310 PR05707491 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.65Y0.35Cu2O8+d Bi 2 Sr 2 Ca 0.65 Y 0.35 Cu 2 O 8+d 1 1998 Bi2212 K 80 80 25 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18311 PR05707491 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.68Y0.32Cu2O8+d Bi 2 Sr 2 Ca 0.68 Y 0.32 Cu 2 O 8+d 1 1998 Bi2212 K 81.9 81.9 36.5 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18312 PR05707491 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.7Y0.3Cu2O8+d Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 2 O 8+d 1 1998 Bi2212 K 87.5 87.5 2 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18313 PR05707491 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.75Y0.25Cu2O8+d Bi 2 Sr 2 Ca 0.75 Y 0.25 Cu 2 O 8+d 1 1998 Bi2212 K 87.9 87.9 5 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18314 PR05707491 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.8Y0.2Cu2O8+d Bi 2 Sr 2 Ca 0.8 Y 0.2 Cu 2 O 8+d 1 1998 Bi2212 K 86.6 86.6 12 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18315 PR05707491 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.85Y0.15Cu2O8+d Bi 2 Sr 2 Ca 0.85 Y 0.15 Cu 2 O 8+d 1 1998 Bi2212 K 84 84 15 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18316 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.5Y0.5Cu1.98Zn0.02O8+d Bi 2 Sr 2 Ca 0.5 Y 0.5 Cu 1.98 Zn 0.02 O 8+d 1 1998 Bi2212 K 16.4 16.4 22.5 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18317 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.55Y0.45Cu1.98Zn0.02O8+d Bi 2 Sr 2 Ca 0.55 Y 0.45 Cu 1.98 Zn 0.02 O 8+d 1 1998 Bi2212 K 34.5 34.5 35.5 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18318 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.6Y0.4Cu1.98Zn0.02O8+d Bi 2 Sr 2 Ca 0.6 Y 0.4 Cu 1.98 Zn 0.02 O 8+d 1 1998 Bi2212 K 53 53 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18319 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.62Y0.38Cu1.98Zn0.02O8+d Bi 2 Sr 2 Ca 0.62 Y 0.38 Cu 1.98 Zn 0.02 O 8+d 1 1998 Bi2212 K 58.2 58.2 5 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18320 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.65Y0.35Cu1.98Zn0.02O8+d Bi 2 Sr 2 Ca 0.65 Y 0.35 Cu 1.98 Zn 0.02 O 8+d 1 1998 Bi2212 K 65.5 65.5 7.5 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18321 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.67Y0.33Cu1.98Zn0.02O8+d Bi 2 Sr 2 Ca 0.67 Y 0.33 Cu 1.98 Zn 0.02 O 8+d 1 1998 Bi2212 K 71.1 71.1 11 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18322 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.7Y0.3Cu1.98Zn0.02O8+d Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 1.98 Zn 0.02 O 8+d 1 1998 Bi2212 K 74.6 74.6 15.5 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18323 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.75Y0.25Cu1.98Zn0.02O8+d Bi 2 Sr 2 Ca 0.75 Y 0.25 Cu 1.98 Zn 0.02 O 8+d 1 1998 Bi2212 K 78.5 78.5 28 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18324 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.8Y0.2Cu1.98Zn0.02O8+d Bi 2 Sr 2 Ca 0.8 Y 0.2 Cu 1.98 Zn 0.02 O 8+d 1 1998 Bi2212 K 77.6 77.6 35 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18325 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.85Y0.15Cu1.98Zn0.02O8+d Bi 2 Sr 2 Ca 0.85 Y 0.15 Cu 1.98 Zn 0.02 O 8+d 1 1998 Bi2212 K 77.2 77.2 11 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18326 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.5Y0.5Cu1.96Zn0.04O8+d Bi 2 Sr 2 Ca 0.5 Y 0.5 Cu 1.96 Zn 0.04 O 8+d 1 1998 Bi2212 K 4.2 16 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18327 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.55Y0.45Cu1.96Zn0.04O8+d Bi 2 Sr 2 Ca 0.55 Y 0.45 Cu 1.96 Zn 0.04 O 8+d 1 1998 Bi2212 K 19 19 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18328 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.6Y0.4Cu1.96Zn0.04O8+d Bi 2 Sr 2 Ca 0.6 Y 0.4 Cu 1.96 Zn 0.04 O 8+d 1 1998 Bi2212 K 33.6 33.6 22.5 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18329 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.65Y0.35Cu1.96Zn0.04O8+d Bi 2 Sr 2 Ca 0.65 Y 0.35 Cu 1.96 Zn 0.04 O 8+d 1 1998 Bi2212 K 47.8 47.8 12.5 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18330 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.66Y0.34Cu1.96Zn0.04O8+d Bi 2 Sr 2 Ca 0.66 Y 0.34 Cu 1.96 Zn 0.04 O 8+d 1 1998 Bi2212 K 51.3 51.3 19 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18331 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.67Y0.33Cu1.96Zn0.04O8+d Bi 2 Sr 2 Ca 0.67 Y 0.33 Cu 1.96 Zn 0.04 O 8+d 1 1998 Bi2212 K 51.7 51.7 40.5 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18332 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.69Y0.31Cu1.96Zn0.04O8+d Bi 2 Sr 2 Ca 0.69 Y 0.31 Cu 1.96 Zn 0.04 O 8+d 1 1998 Bi2212 K 52.6 52.6 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18333 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.7Y0.3Cu1.96Zn0.04O8+d Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 1.96 Zn 0.04 O 8+d 1 1998 Bi2212 K 54.3 54.3 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18334 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.72Y0.28Cu1.96Zn0.04O8+d Bi 2 Sr 2 Ca 0.72 Y 0.28 Cu 1.96 Zn 0.04 O 8+d 1 1998 Bi2212 K 70.3 70.3 22.5 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18335 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.75Y0.25Cu1.96Zn0.04O8+d Bi 2 Sr 2 Ca 0.75 Y 0.25 Cu 1.96 Zn 0.04 O 8+d 1 1998 Bi2212 K 75.4 75.4 25.5 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18336 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.8Y0.2Cu1.96Zn0.04O8+d Bi 2 Sr 2 Ca 0.8 Y 0.2 Cu 1.96 Zn 0.04 O 8+d 1 1998 Bi2212 K 75 75 30 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18337 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.85Y0.15Cu1.96Zn0.04O8+d Bi 2 Sr 2 Ca 0.85 Y 0.15 Cu 1.96 Zn 0.04 O 8+d 1 1998 Bi2212 K 71.6 71.6 16 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18338 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.5Y0.5Cu1.95Zn0.05O8+d Bi 2 Sr 2 Ca 0.5 Y 0.5 Cu 1.95 Zn 0.05 O 8+d 1 1998 Bi2212 K 4.2 19 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18339 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.55Y0.45Cu1.95Zn0.05O8+d Bi 2 Sr 2 Ca 0.55 Y 0.45 Cu 1.95 Zn 0.05 O 8+d 1 1998 Bi2212 K 19 19 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18340 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.6Y0.4Cu1.95Zn0.05O8+d Bi 2 Sr 2 Ca 0.6 Y 0.4 Cu 1.95 Zn 0.05 O 8+d 1 1998 Bi2212 K 29.3 29.3 39 m.ohm.cm "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18341 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.65Y0.35Cu1.95Zn0.05O8+z Bi 2 Sr 2 Ca 0.65 Y 0.35 Cu 1.95 Zn 0.05 O 8+z 1 1998 Bi2212 K 42.7 42.7 "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18342 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.66Y0.34Cu1.95Zn0.05O8+z Bi 2 Sr 2 Ca 0.66 Y 0.34 Cu 1.95 Zn 0.05 O 8+z 1 1998 Bi2212 K 43.1 43.1 "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18343 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.67Y0.33Cu1.95Zn0.05O8+z Bi 2 Sr 2 Ca 0.67 Y 0.33 Cu 1.95 Zn 0.05 O 8+z 1 1998 Bi2212 K 37.5 37.5 "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18344 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.69Y0.31Cu1.95Zn0.05O8+z Bi 2 Sr 2 Ca 0.69 Y 0.31 Cu 1.95 Zn 0.05 O 8+z 1 1998 Bi2212 K 32.8 32.8 "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18345 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.7Y0.3Cu1.95Zn0.05O8+z Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 1.95 Zn 0.05 O 8+z 1 1998 Bi2212 K 48.7 48.7 "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18346 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.73Y0.27Cu1.95Zn0.05O8+z Bi 2 Sr 2 Ca 0.73 Y 0.27 Cu 1.95 Zn 0.05 O 8+z 1 1998 Bi2212 K 45.7 45.7 "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18347 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.75Y0.25Cu1.95Zn0.05O8+z Bi 2 Sr 2 Ca 0.75 Y 0.25 Cu 1.95 Zn 0.05 O 8+z 1 1998 Bi2212 K 49.1 49.1 "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18348 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.8Y0.2Cu1.95Zn0.05O8+z Bi 2 Sr 2 Ca 0.8 Y 0.2 Cu 1.95 Zn 0.05 O 8+z 1 1998 Bi2212 K 75 75 "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18349 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.85Y0.15Cu1.95Zn0.05O8+z Bi 2 Sr 2 Ca 0.85 Y 0.15 Cu 1.95 Zn 0.05 O 8+z 1 1998 Bi2212 K 65.1 65.1 "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18350 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.55Y0.45Cu1.94Zn0.06O8+z Bi 2 Sr 2 Ca 0.55 Y 0.45 Cu 1.94 Zn 0.06 O 8+z 1 1998 Bi2212 K 11.6 11.6 "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18351 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.6Y0.4Cu1.94Zn0.06O8+z Bi 2 Sr 2 Ca 0.6 Y 0.4 Cu 1.94 Zn 0.06 O 8+z 1 1998 Bi2212 K 26.3 26.3 "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18352 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.62Y0.38Cu1.94Zn0.06O8+z Bi 2 Sr 2 Ca 0.62 Y 0.38 Cu 1.94 Zn 0.06 O 8+z 1 1998 Bi2212 K 41.8 41.8 "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18353 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.65Y0.35Cu1.94Zn0.06O8+z Bi 2 Sr 2 Ca 0.65 Y 0.35 Cu 1.94 Zn 0.06 O 8+z 1 1998 Bi2212 K 31 31 "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18354 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.66Y0.34Cu1.94Zn0.06O8+z Bi 2 Sr 2 Ca 0.66 Y 0.34 Cu 1.94 Zn 0.06 O 8+z 1 1998 Bi2212 K 18.1 18.1 "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18355 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.68Y0.32Cu1.94Zn0.06O8+z Bi 2 Sr 2 Ca 0.68 Y 0.32 Cu 1.94 Zn 0.06 O 8+z 1 1998 Bi2212 K 29.3 29.3 "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18356 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.7Y0.3Cu1.94Zn0.06O8+z Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 1.94 Zn 0.06 O 8+z 1 1998 Bi2212 K 29.3 29.3 "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18357 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.73Y0.27Cu1.94Zn0.06O8+z Bi 2 Sr 2 Ca 0.73 Y 0.27 Cu 1.94 Zn 0.06 O 8+z 1 1998 Bi2212 K 40.1 40.1 "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18358 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.75Y0.25Cu1.94Zn0.06O8+z Bi 2 Sr 2 Ca 0.75 Y 0.25 Cu 1.94 Zn 0.06 O 8+z 1 1998 Bi2212 K 36.6 36.6 "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18359 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.8Y0.2Cu1.94Zn0.06O8+z Bi 2 Sr 2 Ca 0.8 Y 0.2 Cu 1.94 Zn 0.06 O 8+z 1 1998 Bi2212 K 70.2 70.2 "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18360 PR05707491 "Bi2Sr2(Ca,Y)(Cu,Zn)2O8" Bi2Sr2Ca0.85Y0.15Cu1.94Zn0.06O8+z Bi 2 Sr 2 Ca 0.85 Y 0.15 Cu 1.94 Zn 0.06 O 8+z 1 1998 Bi2212 K 59.5 59.5 "Bi2O3,SrCO3,CaCO3,Y2O3,CuO,ZnO" 1 "prefire 800C 12h Airpress,sintered 860-880C 24hour" Anomalous suppression of superconductivity in Zn-substituted Bi2Sr2Ca1-xYx(Cu1-yZny)2O8+dlta 1998 4 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aramaki Aoba, Aoba-ku, Sendai 980-77, Japan" "Phys.Rev.B,57(1998)7491" 18500 PR05713872 YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 3 1998 Y123 K 91 91 m.ohm.cm 0.13 0.49 mic. Ohm c 0.4 1.3 5.5 "Ref. [23]; Th. Worf et al., J. Cryst. Growth 96, 1010 (1989)and annealed at 350C in Ar" Hall effect of YBa2Cu3O7-delta single crystals 1998 6 "Phys. Rev. B, 57(1998)13872" 18501 PR05713872 YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 3 1998 Y123 K 90.5 90.5 m.ohm.cm 0.23 mic. Ohm c 0.8 2.3 5.5 "Ref. [23]; Th. Worf et al., J. Cryst. Growth 96, 1010 (1989)and annealed at 350C in Ar" Hall effect of YBa2Cu3O7-delta single crystals 1998 6 "Phys. Rev. B, 57(1998)13872" 18502 PR05713872 YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 3 1998 Y123 K 84 84 m.ohm.cm 0.31 mic. Ohm c 3.8 5.5 "Ref. [23]; Th. Worf et al., J. Cryst. Growth 96, 1010 (1989)and annealed at 350C in Ar" Hall effect of YBa2Cu3O7-delta single crystals 1998 6 "Phys. Rev. B, 57(1998)13872" 18503 PR05713872 YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 3 1998 Y123 K 78 78 m.ohm.cm 0.26 0.93 mic. Ohm c 1.8 5 5.5 "Ref. [23]; Th. Worf et al., J. Cryst. Growth 96, 1010 (1989)and annealed at 350C in Ar" Hall effect of YBa2Cu3O7-delta single crystals 1998 6 "Phys. Rev. B, 57(1998)13872" 18504 PR05713872 YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 3 1998 Y123 K 72 72 m.ohm.cm 0.58 1.06 mic. Ohm c 1.9 6.9 5.5 "Ref. [23]; Th. Worf et al., J. Cryst. Growth 96, 1010 (1989)and annealed at 350C in Ar" Hall effect of YBa2Cu3O7-delta single crystals 1998 6 "Phys. Rev. B, 57(1998)13872" 18505 PR05713872 YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 3 1998 Y123 K 53 53 m.ohm.cm 0.68 mic. Ohm c 8.6 5.5 "Ref. [23]; Th. Worf et al., J. Cryst. Growth 96, 1010 (1989)and annealed at 350C in Ar" Hall effect of YBa2Cu3O7-delta single crystals 1998 6 "Phys. Rev. B, 57(1998)13872" 18506 PR05713872 YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 3 1998 Y123 K 39 39 m.ohm.cm 1.13 1.3 mic. Ohm c 3.7 15.2 5.5 "Ref. [23]; Th. Worf et al., J. Cryst. Growth 96, 1010 (1989)and annealed at 350C in Ar" Hall effect of YBa2Cu3O7-delta single crystals 1998 6 "Phys. Rev. B, 57(1998)13872" 18507 PR05714084 growth direction:c axis YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 5 1998 Y123 K 84 84 T T=1.6K 240 1.6 16 pulse laser abrationsubstrate:MgO(001) 5 Transport measurements of in-plane critical fields in YBa2Cu3O7-delta to 300 T 1998 6 "National pulsed Magnet Laboratory and Semiconductor Nanofabrication Facility, School of Physics, Yuniversity of New South Wales, Sydney 2052, Australia " "Phys.Rev.B,57(1998)R14084" 18508 PR05713922 HgBa2CaCu2O6+d Hg1Ba2Ca1Cu2O6+d Hg 1 Ba 2 Ca 1 Cu 2 O 6+d 1 1998 Hg1212 A 3.861 12.701 3 3 K 11 precursor Ba-Ca-Cu-Osolution:tartaric acid decompsed: Vac. 850C mixed HgOreact in silica tube 800C 30h and O2 Anneal 300C 6hour Pressure effect in the Hg-based superconducyors: A structural study 1998 6 "Department of Physics, Chalmers University of Technology, S-41296 Gothenburg, Sweden" "Phys.Rev.B,57(1998)13922" 18509 PR05713922 HgBa2Ca2Cu3O8+d Hg1Ba2Ca2Cu3O8+d Hg 1 Ba 2 Ca 2 Cu 3 O 8+d 1 1998 Hg1223 A 3.857 15.857 3 3 K 11 precursor Ba-Ca-Cu-Osolution:tartaric acid decompsed: Vac. 850C mixed HgOreact in silica tube 800C 30h and O2 Anneal 300C 6hour Pressure effect in the Hg-based superconducyors: A structural study 1998 6 "Department of Physics, Chalmers University of Technology, S-41296 Gothenburg, Sweden" "Phys.Rev.B,57(1998)13922" 18510 PR05713422 d-wave BCS model YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 1 1998 Y123 K 92 92 um susceptibility 0.14 1.26 K 405 "Y2O3, BaCO3, CuO" 1 d=0.0 anneal O2 1atm 380C 24h d=0.3 anneal O2 1atm 650C 12hd=0.43 anneal 0.2% O2/N2 1atm 550C 12h Systematic behavior of the in-plane penetration depth in d-wave cuprates 1998 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madingley Road, Cambrige, CB3 OHE, United Kingdom" "Phys.Rev.B,57(1998)13422" 18511 PR05713422 d-wave BCS model YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 1 1998 Y123 K 66 66 um susceptibility 0.21 4.53 K 280 "Y2O3, BaCO3, CuO" 1 d=0.0 anneal O2 1atm 380C 24h d=0.3 anneal O2 1atm 650C 12hd=0.43 anneal 0.2% O2/N2 1atm 550C 12h Systematic behavior of the in-plane penetration depth in d-wave cuprates 1998 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madingley Road, Cambrige, CB3 OHE, United Kingdom" "Phys.Rev.B,57(1998)13422" 18512 PR05713422 d-wave BCS model YBa2Cu3O7-d Y1Ba2Cu3O7-d Y 1 Ba 2 Cu 3 O 7-d 1 1998 Y123 K 57 57 um susceptibility 0.28 7.17 K 220 "Y2O3, BaCO3, CuO" 1 d=0.0 anneal O2 1atm 380C 24h d=0.3 anneal O2 1atm 650C 12hd=0.43 anneal 0.2% O2/N2 1atm 550C 12h Systematic behavior of the in-plane penetration depth in d-wave cuprates 1998 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madingley Road, Cambrige, CB3 OHE, United Kingdom" "Phys.Rev.B,57(1998)13422" 18513 PR05714470 Superconductor Bi1.8Pb0.3Sr1.9CuOy Bi1.8Pb0.3Sr1.9CuOy Bi 1.8 Pb 0.3 Sr 1.9 Cu O y 1 1998 A 5.382 5.326 24.627 K 4.7 4.7 mJ/mole.K 17.2 mJ/molK2 6 m.ohm.cm 3.3 5.45 "Bi2O3, PbO2, SrCO3, CuO" 1 mixed 2h clacined 815C 8h sintered 840C 30h air Specific-heat anomaly of overdoped Bi1.8Pb0.3Sr1.9CuOy 1998 6 "Department of Applied Physics, Hokkaido University, Sapporo 060, Japan" "Phys.Rev.B,57(1998)14470" 18514 PR05714470 Normal Bi1.8Pb0.3Sr1.9CuOy Bi1.8Pb0.3Sr1.9CuOy Bi 1.8 Pb 0.3 Sr 1.9 Cu O y 1 1998 A 5.382 5.326 24.627 K mJ/molK2 8.7 m.ohm.cm 1.3 2.85 "Bi2O3, PbO2, SrCO3, CuO" 1 mixed 2h clacined 815C 8h sintered 840C 30h airannealed 450C 700h Ar Specific-heat anomaly of overdoped Bi1.8Pb0.3Sr1.9CuOy 1998 6 "Department of Applied Physics, Hokkaido University, Sapporo 060, Japan" "Phys.Rev.B,57(1998)14470" 18600 PR05800611 "(La,Sr)2CuO4" La1.91Sr0.09Cu1O4 La 1.91 Sr 0.09 Cu 1 O 4 3 1998 T K 30 30 m.ohm.cm 520 870 300 7 Out-of-plane magnetoresistance of La2-xSrxCuO4: Evidence for intraplanar scatterrire in the c-axis transport 1998 7 "Interdisciplinary Research Centre for Superconductivity, University of Cambridge, Madingley Road, Cambridge, CB3 OHE, United Kingdom" "Phys.Rev.B,57(1998)R611" 18601 PR05800611 "(La,Sr)2CuO4" La1.86Sr0.14Cu1O4 La 1.86 Sr 0.14 Cu 1 O 4 3 1998 T K 40 40 m.ohm.cm 100 115 110 7 Out-of-plane magnetoresistance of La2-xSrxCuO4: Evidence for intraplanar scatterrire in the c-axis transport 1998 7 "Interdisciplinary Research Centre for Superconductivity, University of Cambridge, Madingley Road, Cambridge, CB3 OHE, United Kingdom" "Phys.Rev.B,57(1998)R611" 18602 PR05800611 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 3 1998 T K 42 42 m.ohm.cm 65 70 78 7 Out-of-plane magnetoresistance of La2-xSrxCuO4: Evidence for intraplanar scatterrire in the c-axis transport 1998 7 "Interdisciplinary Research Centre for Superconductivity, University of Cambridge, Madingley Road, Cambridge, CB3 OHE, United Kingdom" "Phys.Rev.B,57(1998)R611" 18603 PR05800611 "(La,Sr)2CuO4" La1.75Sr0.25Cu1O4 La 1.75 Sr 0.25 Cu 1 O 4 3 1998 T K 6 6 m.ohm.cm 10 5 35 7 Out-of-plane magnetoresistance of La2-xSrxCuO4: Evidence for intraplanar scatterrire in the c-axis transport 1998 7 "Interdisciplinary Research Centre for Superconductivity, University of Cambridge, Madingley Road, Cambridge, CB3 OHE, United Kingdom" "Phys.Rev.B,57(1998)R611" 18604 PR05800619 PrBa2Cu3O6.6 Pr1Ba2Cu3O6.6 Pr 1 Ba 2 Cu 3 O 6.6 3 1998 3 Y123 A 3.883 3.948 11.823 1 K 56.5 63.5 60 K/GPa 7.4 m.ohm.cm 0.6 0.62 0.4 7 Unusually large Tc enhancement in superconducting PrBa2Cu3Ox under pressure 1998 7 "National research Institute for Metals, 1-2-1 Sengen, Tsukuba 305, Japan" "Phys.Rev.B,57(1998)R619" 18605 PR05800619 PrBa2Cu3O6.8 Pr1Ba2Cu3O6.8 Pr 1 Ba 2 Cu 3 O 6.8 3 1998 3 Y123 K 81 4 81 K/GPa 3.8 7 Unusually large Tc enhancement in superconducting PrBa2Cu3Ox under pressure 1998 7 "National research Institute for Metals, 1-2-1 Sengen, Tsukuba 305, Japan" "Phys.Rev.B,57(1998)R619" 18606 PR05801068 pure PrBa2Cu3O7 Pr1Ba2Cu3O7 Pr 1 Ba 2 Cu 3 O 7 5 1998 Y123 A 11.71 K m.ohm.cm 8000 70 pulsed laser deposition. substrate:LaAlO3 Electrical transport properties of highly doped PrBa2-xSrxCu3O7 thin films prepared by pulsed laser deposition 1998 7 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.REv.B,58(1998)1068" 18607 PR05801068 amount of impurity : 4 % PrBa2Cu3O7 Pr1Ba2Cu3O7 Pr 1 Ba 2 Cu 3 O 7 5 1998 Y123 K m.ohm.cm 400 15 pulsed laser deposition. substrate:LaAlO3 Electrical transport properties of highly doped PrBa2-xSrxCu3O7 thin films prepared by pulsed laser deposition 1998 7 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.REv.B,58(1998)1068" 18608 PR05801068 amount of impurity : 12 % PrBa2Cu3O7 Pr1Ba2Cu3O7 Pr 1 Ba 2 Cu 3 O 7 5 1998 Y123 K m.ohm.cm 9 6 2.5 pulsed laser deposition. substrate:LaAlO3 Electrical transport properties of highly doped PrBa2-xSrxCu3O7 thin films prepared by pulsed laser deposition 1998 7 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.REv.B,58(1998)1068" 18609 PR05801068 "Pr(Ba,Sr)2Cu3O7" Pr1Ba0.7Sr1.3Cu3O7 Pr 1 Ba 0.7 Sr 1.3 Cu 3 O 7 5 1998 Y123 A 11.653 K m.ohm.cm 220 12 pulsed laser deposition. substrate : LaAlO3.substrate temperature : 780 C Electrical transport properties of highly doped PrBa2-xSrxCu3O7 thin films prepared by pulsed laser deposition 1998 7 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.REv.B,58(1998)1068" 18610 PR05801068 "Pr(Ba,Sr)2Cu3O7" Pr1Ba0.7Sr1.3Cu3O7 Pr 1 Ba 0.7 Sr 1.3 Cu 3 O 7 5 1998 Y123 K m.ohm.cm 30 8 pulsed laser deposition. substrate : LaAlO3.substrate temperature : 760 C Electrical transport properties of highly doped PrBa2-xSrxCu3O7 thin films prepared by pulsed laser deposition 1998 7 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.REv.B,58(1998)1068" 18611 PR05801068 "Pr(Ba,Sr)2Cu3O7" Pr1Ba0.7Sr1.3Cu3O7 Pr 1 Ba 0.7 Sr 1.3 Cu 3 O 7 5 1998 Y123 A 11.621 K m.ohm.cm 200 10 5 pulsed laser deposition. substrate : LaAlO3.substrate temperature : 740 C Electrical transport properties of highly doped PrBa2-xSrxCu3O7 thin films prepared by pulsed laser deposition 1998 7 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.REv.B,58(1998)1068" 18612 PR05801068 "Pr(Ba,Sr)2Cu3O7" Pr1Ba0.7Sr1.3Cu3O7 Pr 1 Ba 0.7 Sr 1.3 Cu 3 O 7 5 1998 Y123 K m.ohm.cm 110 6 5 pulsed laser deposition. substrate : LaAlO3.substrate temperature : 660 C Electrical transport properties of highly doped PrBa2-xSrxCu3O7 thin films prepared by pulsed laser deposition 1998 7 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.REv.B,58(1998)1068" 18613 PR05801068 "Pr(Ba,Sr)2Cu3O7" Pr1Ba0.4Sr1.6Cu3O7 Pr 1 Ba 0.4 Sr 1.6 Cu 3 O 7 5 1998 Y123 A 11.588 K m.ohm.cm 30 6.8 3.8 pulsed laser deposition. substrate : LaAlO3.substrate temperature : 760 C Electrical transport properties of highly doped PrBa2-xSrxCu3O7 thin films prepared by pulsed laser deposition 1998 7 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.REv.B,58(1998)1068" 18614 PR05801068 "Pr(Ba,Sr)2Cu3O7" Pr1Ba0.4Sr1.6Cu3O7 Pr 1 Ba 0.4 Sr 1.6 Cu 3 O 7 5 1998 Y123 A 11.576 K m.ohm.cm 10 4.2 3.2 pulsed laser deposition. substrate : LaAlO3.substrate temperature : 740 C Electrical transport properties of highly doped PrBa2-xSrxCu3O7 thin films prepared by pulsed laser deposition 1998 7 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.REv.B,58(1998)1068" 18615 PR05801068 "Pr(Ba,Sr)2Cu3O7" Pr1Ba0.4Sr1.6Cu3O7 Pr 1 Ba 0.4 Sr 1.6 Cu 3 O 7 5 1998 Y123 K m.ohm.cm 5.5 3.3 2.8 pulsed laser deposition. substrate : LaAlO3.substrate temperature : 720 C Electrical transport properties of highly doped PrBa2-xSrxCu3O7 thin films prepared by pulsed laser deposition 1998 7 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.REv.B,58(1998)1068" 18616 PR05801000 Bi2Sr2Ca1Cu2O8 Bi2Sr2Ca1Cu2O8+d Bi 2 Sr 2 Ca 1 Cu 2 O 8+d 3 1998 Bi2212 1 K 86 86 A Shown in fig6 .(ab-plain) Deteminated HC1 and ref11. 1800 "Bi2O3,SrCO3,CaCO3,Pr6O11,CuO" 5 "The off-stoichiometric ratio were mixed,ground,and calcined in air for 1 day. The reacted powders with excess Bi2O3 included as a flux were thenused for crystal growth .And post post annealed 360 in a" Effect of Pr scattering on the penetration depth lambda ab in Bi2Sr2Ca1-xPrxCu2O8+delta single crystals 1998 7 "Department of Physics, National Tsing Hua University, Hsinchu 300, Taiwan and Structure Research Laboratory, University of Science and Technology of China, Anhui 230026, China" "Phys.Rev.B,58(1998)1000" 18617 PR05801000 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.89Pr0.11Cu2O8+d Bi 2 Sr 2 Ca 0.89 Pr 0.11 Cu 2 O 8+d 3 1998 Bi2212 1 K 88 88 A Shown in fig6.(ab-plain)Determinated HC1 and ref11. 2200 "Bi2O3,SrCO3,CaCO3,Pr6O11,CuO" 5 "The off-stoichiometric ratio were mixed,ground,and calcined in air for 1 day. The reacted powders with excess Bi2O3 included as a flux were thenused for crystal growth .And post post annealed 360 in a" Effect of Pr scattering on the penetration depth lambda ab in Bi2Sr2Ca1-xPrxCu2O8+delta single crystals 1998 7 "Department of Physics, National Tsing Hua University, Hsinchu 300, Taiwan and Structure Research Laboratory, University of Science and Technology of China, Anhui 230026, China" "Phys.Rev.B,58(1998)1000" 18618 PR05801000 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.83Pr0.17Cu2O8+d Bi 2 Sr 2 Ca 0.83 Pr 0.17 Cu 2 O 8+d 3 1998 Bi2212 1 K 84 84 A shown in fig6(ab-plain).Determinated HC1 and ref11. 2500 "Bi2O3,SrCO3,CaCO3,Pr6O11,CuO" 5 "The off-stoichiometric ratio were mixed,ground,and calcined in air for 1 day. The reacted powders with excess Bi2O3 included as a flux were thenused for crystal growth .And post post annealed 360 in a" Effect of Pr scattering on the penetration depth lambda ab in Bi2Sr2Ca1-xPrxCu2O8+delta single crystals 1998 7 "Department of Physics, National Tsing Hua University, Hsinchu 300, Taiwan and Structure Research Laboratory, University of Science and Technology of China, Anhui 230026, China" "Phys.Rev.B,58(1998)1000" 18619 PR05801000 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.72Pr0.28Cu2O8+d Bi 2 Sr 2 Ca 0.72 Pr 0.28 Cu 2 O 8+d 3 1998 Bi2212 A 5.435 5.439 30.701 1 K 71 71 A Shown in fig6.(ab-plain)Determinated HC1 and ref11 2900 "Bi2O3,SrCO3,CaCO3,Pr6O11,CuO" 5 "The off-stoichiometric ratio were mixed,ground,and calcined in air for 1 day. The reacted powders with excess Bi2O3 included as a flux were thenused for crystal growth .And post post annealed 360 in a" Effect of Pr scattering on the penetration depth lambda ab in Bi2Sr2Ca1-xPrxCu2O8+delta single crystals 1998 7 "Department of Physics, National Tsing Hua University, Hsinchu 300, Taiwan and Structure Research Laboratory, University of Science and Technology of China, Anhui 230026, China" "Phys.Rev.B,58(1998)1000" 18800 PR05805856 La2CuO4 La2Cu1O4.012 La 2 Cu 1 O 4.012 1 1998 3 T A 5.3632 5.4162 13.179 K 32 32 1 Solid state reaction anneal O2 100C 650bar Superconducting properties in La2CuO4+delta with excess oxygen 1998 9 "Department of Material Science, Faculty of Science, Himeji Institute of Technology, 1475-2, Kanaji, Kamigori-cho, Ako-gun, Hyogo, 678-1297, Japan" "Phys.Rev.B,58(1998)5856" 18801 PR05805856 La2CuO4 La2Cu1O4.022 La 2 Cu 1 O 4.022 1 1998 3 T A 5.3446 5.4334 13.252 K 42 42 1 Solid state reaction anneal O2 100C 650bar electronical oxidation 333K 72h (in KOH) Superconducting properties in La2CuO4+delta with excess oxygen 1998 9 "Department of Material Science, Faculty of Science, Himeji Institute of Technology, 1475-2, Kanaji, Kamigori-cho, Ako-gun, Hyogo, 678-1297, Japan" "Phys.Rev.B,58(1998)5856" 18802 PR05805226 Tl2Ba2CUO6 Tl2Ba2Cu1O6+Z Tl 2 Ba 2 Cu 1 O 6+Z 1 1998 4 Tl2201 A 5.4389 5.50414 23.1569 3 K 1 "Ref[12]:A. C. Larson et al., Los Alamos National Laboratory report No. LA-UR-86-748 (1987) 600atm 600C O2 anneal" Phase transitions in the TlBa2CuO6+delta superconductor 1998 9 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madinley Road, Cambridge, CB3 OHE, United Kingdom" "Phys.Rev.B,58(1998)5226" 18803 PR05805226 Tl2Ba2CUO6 Tl2Ba2Cu1O6+Z Tl 2 Ba 2 Cu 1 O 6+Z 1 1998 4 Tl2201 A 5.44746 5.50517 23.1556 3 K 1 "Ref[12]:A. C. Larson et al., Los Alamos National Laboratory report No. LA-UR-86-748 (1987) As prepare" Phase transitions in the TlBa2CuO6+delta superconductor 1998 9 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madinley Road, Cambridge, CB3 OHE, United Kingdom" "Phys.Rev.B,58(1998)5226" 18804 PR05805226 Tl2Ba2CUO6 Tl2Ba2Cu1O6+Z Tl 2 Ba 2 Cu 1 O 6+Z 1 1998 4 Tl2201 A 5.44663 5.50424 23.1517 3 K 24 24 1 "Ref[12]:A. C. Larson et al., Los Alamos National Laboratory report No. LA-UR-86-748 (1987) 200C Ar anneal" Phase transitions in the TlBa2CuO6+delta superconductor 1998 9 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madinley Road, Cambridge, CB3 OHE, United Kingdom" "Phys.Rev.B,58(1998)5226" 18805 PR05805226 Tl2Ba2CUO6 Tl2Ba2Cu1O6+Z Tl 2 Ba 2 Cu 1 O 6+Z 1 1998 4 Tl2201 A 5.45092 5.50119 23.1645 3 K 25 25 1 "Ref[12]:A. C. Larson et al., Los Alamos National Laboratory report No. LA-UR-86-748 (1987) 450C Ar Anneal" Phase transitions in the TlBa2CuO6+delta superconductor 1998 9 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madinley Road, Cambridge, CB3 OHE, United Kingdom" "Phys.Rev.B,58(1998)5226" 18806 PR05805831 "(La,Sr)2CuO4" La1.87Sr0.13Cu1O4 La 1.87 Sr 0.13 Cu 1 O 4 4 1 1998 560 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18807 PR05805831 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 4 1 1998 450 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18808 PR05805831 "(La,Sr)2CuO4" La1.83Sr0.17Cu1O4 La 1.83 Sr 0.17 Cu 1 O 4 4 1 1998 300 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18809 PR05805831 "(La,Sr)2CuO4" La1.81Sr0.19Cu1O4 La 1.81 Sr 0.19 Cu 1 O 4 4 1 1998 185 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18810 PR05805831 "(La,Sr)2CuO4" La1.795Sr0.205Cu1O4 La 1.795 Sr 0.205 Cu 1 O 4 4 1 1998 130 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18811 PR05805831 "(La,Sr)2CuO4" La1.86Sr0.14Cu1O4 La 1.86 Sr 0.14 Cu 1 O 4 4 1 1998 emuK/g 0 500 T 1 K 37 37 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18812 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.86Sr0.14Cu0.995Ni0.005O4 La 1.86 Sr 0.14 Cu 0.995 Ni 0.005 O 4 4 1 1998 emuK/g 0 507 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18813 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.86Sr0.14Cu0.99Ni0.01O4 La 1.86 Sr 0.14 Cu 0.99 Ni 0.01 O 4 4 1 1998 emuK/g 0 515 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18814 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.86Sr0.14Cu0.98Ni0.02O4 La 1.86 Sr 0.14 Cu 0.98 Ni 0.02 O 4 4 1 1998 emuK/g 0.0000022 514 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18815 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.86Sr0.14Cu0.97Ni0.03O4 La 1.86 Sr 0.14 Cu 0.97 Ni 0.03 O 4 4 1 1998 emuK/g 0.0000035 525 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18816 PR05805831 "(La,Sr)2CuO4" La1.84Sr0.16Cu1O4 La 1.84 Sr 0.16 Cu 1 O 4 4 1 1998 emuK/g 0 350 T 1 K mJ/K2mole 0 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18817 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.84Sr0.16Cu0.99Ni0.01O4 La 1.84 Sr 0.16 Cu 0.99 Ni 0.01 O 4 4 1 1998 395 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18818 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.84Sr0.16Cu0.985Ni0.015O4 La 1.84 Sr 0.16 Cu 0.985 Ni 0.015 O 4 4 1 1998 420 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18819 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.84Sr0.16Cu0.98Ni0.02O4 La 1.84 Sr 0.16 Cu 0.98 Ni 0.02 O 4 4 1 1998 420 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18820 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.84Sr0.16Cu0.97Ni0.03O4 La 1.84 Sr 0.16 Cu 0.97 Ni 0.03 O 4 4 1 1998 420 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18821 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.84Sr0.16Cu0.96Ni0.04O4 La 1.84 Sr 0.16 Cu 0.96 Ni 0.04 O 4 4 1 1998 425 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18822 PR05805831 "(La,Sr)2CuO4" La1.82Sr0.18Cu1O4 La 1.82 Sr 0.18 Cu 1 O 4 4 1 1998 emuK/g 0 230 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18823 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.82Sr0.18Cu0.99Ni0.01O4 La 1.82 Sr 0.18 Cu 0.99 Ni 0.01 O 4 4 1 1998 emuK/g 0 265 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18824 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.82Sr0.18Cu0.98Ni0.02O4 La 1.82 Sr 0.18 Cu 0.98 Ni 0.02 O 4 4 1 1998 emuK/g 0 325 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18825 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.82Sr0.18Cu0.975Ni0.025O4 La 1.82 Sr 0.18 Cu 0.975 Ni 0.025 O 4 4 1 1998 emuK/g 0.0000012 330 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18826 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.82Sr0.18Cu0.97Ni0.03O4 La 1.82 Sr 0.18 Cu 0.97 Ni 0.03 O 4 4 1 1998 emuK/g 0.0000028 350 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18827 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.835Sr0.165Cu0.995Ni0.005O4 La 1.835 Sr 0.165 Cu 0.995 Ni 0.005 O 4 4 1 1998 T 1 K 33 33 mJ/K2mole 4.25 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18828 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.83Sr0.17Cu0.99Ni0.01O4 La 1.83 Sr 0.17 Cu 0.99 Ni 0.01 O 4 4 1 1998 T 1 K 29 29 mJ/K2mole 0.85 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18829 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.825Sr0.175Cu0.985Ni0.015O4 La 1.825 Sr 0.175 Cu 0.985 Ni 0.015 O 4 4 1 1998 T 1 K 25 25 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18830 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.82Sr0.18Cu0.97Ni0.03O4 La 1.82 Sr 0.18 Cu 0.97 Ni 0.03 O 4 4 1 1998 emuK/g 0.0000042 355 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18831 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.82Sr0.18Cu0.96Ni0.04O4 La 1.82 Sr 0.18 Cu 0.96 Ni 0.04 O 4 4 1 1998 360 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18832 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.82Sr0.18Cu0.95Ni0.05O4 La 1.82 Sr 0.18 Cu 0.95 Ni 0.05 O 4 4 1 1998 360 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18833 PR05805831 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 4 1 1998 130 T 1 K 22 22 mJ/K2mole 0 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18834 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.8Sr0.2Cu0.995Ni0.005O4 La 1.8 Sr 0.2 Cu 0.995 Ni 0.005 O 4 4 1 1998 165 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18835 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.8Sr0.2Cu0.99Ni0.01O4 La 1.8 Sr 0.2 Cu 0.99 Ni 0.01 O 4 4 1 1998 170 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18836 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.8Sr0.2Cu0.985Ni0.015O4 La 1.8 Sr 0.2 Cu 0.985 Ni 0.015 O 4 4 1 1998 210 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18837 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.8Sr0.2Cu0.98Ni0.02O4 La 1.8 Sr 0.2 Cu 0.98 Ni 0.02 O 4 4 1 1998 210 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18838 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.8Sr0.2Cu0.975Ni0.025O4 La 1.8 Sr 0.2 Cu 0.975 Ni 0.025 O 4 4 1 1998 250 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18839 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.8Sr0.2Cu0.97Ni0.03O4 La 1.8 Sr 0.2 Cu 0.97 Ni 0.03 O 4 4 1 1998 300 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18840 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.8Sr0.2Cu0.96Ni0.04O4 La 1.8 Sr 0.2 Cu 0.96 Ni 0.04 O 4 4 1 1998 310 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18841 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.8Sr0.2Cu0.95Ni0.05O4 La 1.8 Sr 0.2 Cu 0.95 Ni 0.05 O 4 4 1 1998 325 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18842 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.8Sr0.2Cu0.94Ni0.06O4 La 1.8 Sr 0.2 Cu 0.94 Ni 0.06 O 4 4 1 1998 345 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18843 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.8Sr0.2Cu0.93Ni0.07O4 La 1.8 Sr 0.2 Cu 0.93 Ni 0.07 O 4 4 1 1998 350 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18844 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.795Sr0.205Cu0.995Ni0.005O4 La 1.795 Sr 0.205 Cu 0.995 Ni 0.005 O 4 4 1 1998 T 1 K mJ/K2mole 0.88 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18845 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.79Sr0.21Cu0.99Ni0.01O4 La 1.79 Sr 0.21 Cu 0.99 Ni 0.01 O 4 4 1 1998 T 1 K mJ/K2mole 1.32 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18846 PR05805831 "(La,Sr)2CuO4" La1.78Sr0.22Cu1O4 La 1.78 Sr 0.22 Cu 1 O 4 4 1 1998 130 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18847 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.78Sr0.22Cu0.99Ni0.01O4 La 1.78 Sr 0.22 Cu 0.99 Ni 0.01 O 4 4 1 1998 140 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18848 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.78Sr0.22Cu0.985Ni0.015O4 La 1.78 Sr 0.22 Cu 0.985 Ni 0.015 O 4 4 1 1998 150 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18849 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.78Sr0.22Cu0.98Ni0.02O4 La 1.78 Sr 0.22 Cu 0.98 Ni 0.02 O 4 4 1 1998 170 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18850 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.78Sr0.22Cu0.97Ni0.03O4 La 1.78 Sr 0.22 Cu 0.97 Ni 0.03 O 4 4 1 1998 200 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18851 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.78Sr0.22Cu0.96Ni0.04O4 La 1.78 Sr 0.22 Cu 0.96 Ni 0.04 O 4 4 1 1998 245 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18852 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.78Sr0.22Cu0.955Ni0.045O4 La 1.78 Sr 0.22 Cu 0.955 Ni 0.045 O 4 4 1 1998 260 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18853 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.78Sr0.22Cu0.95Ni0.05O4 La 1.78 Sr 0.22 Cu 0.95 Ni 0.05 O 4 4 1 1998 270 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18854 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.78Sr0.22Cu0.94Ni0.06O4 La 1.78 Sr 0.22 Cu 0.94 Ni 0.06 O 4 4 1 1998 285 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18855 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.78Sr0.22Cu0.93Ni0.07O4 La 1.78 Sr 0.22 Cu 0.93 Ni 0.07 O 4 4 1 1998 300 T 1 K "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18856 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.78Sr0.22Cu0.92Ni0.08O4 La 1.78 Sr 0.22 Cu 0.92 Ni 0.08 O 4 4 1 1998 300 T 1 K 21 21 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18857 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.775Sr0.225Cu0.995Ni0.005O4 La 1.775 Sr 0.225 Cu 0.995 Ni 0.005 O 4 4 1 1998 T 1 K 21 21 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18858 PR05805831 "(La,Sr)2(Cu,Ni)O4" La1.77Sr0.23Cu0.99Ni0.01O4 La 1.77 Sr 0.23 Cu 0.99 Ni 0.01 O 4 4 1 1998 T 1 K 18 18 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18859 PR05805831 "(La,Sr)2CuO4" La1.99Sr0.01Cu1O4 La 1.99 Sr 0.01 Cu 1 O 4 4 1 1998 T 1 K A 46 mJ/K2mole 0 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18860 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.99Sr0.01Cu0.996Zn0.004O4 La 1.99 Sr 0.01 Cu 0.996 Zn 0.004 O 4 4 1 1998 T 1 K A 46 mJ/K2mole 1.8 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18861 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.99Sr0.01Cu0.992Zn0.008O4 La 1.99 Sr 0.01 Cu 0.992 Zn 0.008 O 4 4 1 1998 T 1 K A 46 mJ/K2mole 2.8 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18862 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.99Sr0.01Cu0.988Zn0.012O4 La 1.99 Sr 0.01 Cu 0.988 Zn 0.012 O 4 4 1 1998 T 1 K A 46 mJ/K2mole 3.5 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18863 PR05805831 "(La,Sr)2CuO4" La1.86Sr0.14Cu1O4 La 1.86 Sr 0.14 Cu 1 O 4 4 1 1998 T 1 K A 39 mJ/K2mole 0 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18864 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.86Sr0.14Cu0.9975Zn0.0025O4 La 1.86 Sr 0.14 Cu 0.9975 Zn 0.0025 O 4 4 1 1998 T 1 K A 39 mJ/K2mole 1.5 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18865 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.86Sr0.14Cu0.995Zn0.005O4 La 1.86 Sr 0.14 Cu 0.995 Zn 0.005 O 4 4 1 1998 T 1 K A 39 mJ/K2mole 2.25 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18866 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.86Sr0.14Cu0.994Zn0.006O4 La 1.86 Sr 0.14 Cu 0.994 Zn 0.006 O 4 4 1 1998 T 1 K A 39 mJ/K2mole 2.6 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18867 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.86Sr0.14Cu0.99Zn0.01O4 La 1.86 Sr 0.14 Cu 0.99 Zn 0.01 O 4 4 1 1998 T 1 K A 39 mJ/K2mole 3.8 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18868 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.86Sr0.14Cu0.985Zn0.015O4 La 1.86 Sr 0.14 Cu 0.985 Zn 0.015 O 4 4 1 1998 T 1 K A 39 mJ/K2mole 4.6 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18869 PR05805831 "(La,Sr)2CuO4" La1.84Sr0.16Cu1O4 La 1.84 Sr 0.16 Cu 1 O 4 4 1 1998 T 1 K A 36.5 mJ/K2mole 0 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18870 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.84Sr0.16Cu0.9975Zn0.0025O4 La 1.84 Sr 0.16 Cu 0.9975 Zn 0.0025 O 4 4 1 1998 T 1 K A 36.5 mJ/K2mole 1.65 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18871 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.84Sr0.16Cu0.995Zn0.005O4 La 1.84 Sr 0.16 Cu 0.995 Zn 0.005 O 4 4 1 1998 T 1 K A 36.5 mJ/K2mole 3.4 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18872 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.84Sr0.16Cu0.99Zn0.01O4 La 1.84 Sr 0.16 Cu 0.99 Zn 0.01 O 4 4 1 1998 T 1 K A 36.5 mJ/K2mole 5 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18873 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.84Sr0.16Cu0.985Zn0.015O4 La 1.84 Sr 0.16 Cu 0.985 Zn 0.015 O 4 4 1 1998 T 1 K A 36.5 mJ/K2mole 6.7 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18874 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.84Sr0.16Cu0.98Zn0.02O4 La 1.84 Sr 0.16 Cu 0.98 Zn 0.02 O 4 4 1 1998 T 1 K A 36.5 mJ/K2mole 8.25 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18875 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.84Sr0.16Cu0.975Zn0.025O4 La 1.84 Sr 0.16 Cu 0.975 Zn 0.025 O 4 4 1 1998 T 1 K A 36.5 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18876 PR05805831 "(La,Sr)2CuO4" La1.82Sr0.18Cu1O4 La 1.82 Sr 0.18 Cu 1 O 4 4 1 1998 T 1 K A 34.5 mJ/K2mole 0 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18877 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.82Sr0.18Cu0.995Zn0.005O4 La 1.82 Sr 0.18 Cu 0.995 Zn 0.005 O 4 4 1 1998 T 1 K A 34.5 mJ/K2mole 3.8 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18878 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.82Sr0.18Cu0.99Zn0.01O4 La 1.82 Sr 0.18 Cu 0.99 Zn 0.01 O 4 4 1 1998 T 1 K A 34.5 mJ/K2mole 5.6 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18879 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.82Sr0.18Cu0.985Zn0.015O4 La 1.82 Sr 0.18 Cu 0.985 Zn 0.015 O 4 4 1 1998 T 1 K A 34.5 mJ/K2mole 7.5 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18880 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.82Sr0.18Cu0.98Zn0.02O4 La 1.82 Sr 0.18 Cu 0.98 Zn 0.02 O 4 4 1 1998 T 1 K A 34.5 mJ/K2mole 8.1 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18881 PR05805831 "(La,Sr)2CuO4" La1.78Sr0.22Cu1O4 La 1.78 Sr 0.22 Cu 1 O 4 4 1 1998 T 1 K 22 22 mJ/K2mole 0 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18882 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.78Sr0.22Cu0.9975Zn0.0025O4 La 1.78 Sr 0.22 Cu 0.9975 Zn 0.0025 O 4 4 1 1998 T 1 K 20 20 mJ/K2mole 4.5 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18883 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.78Sr0.22Cu0.995Zn0.005O4 La 1.78 Sr 0.22 Cu 0.995 Zn 0.005 O 4 4 1 1998 T 1 K 19 19 mJ/K2mole 5.6 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18884 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.78Sr0.22Cu0.993Zn0.007O4 La 1.78 Sr 0.22 Cu 0.993 Zn 0.007 O 4 4 1 1998 T 1 K 18 18 mJ/K2mole 6.3 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18885 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.78Sr0.22Cu0.99Zn0.01O4 La 1.78 Sr 0.22 Cu 0.99 Zn 0.01 O 4 4 1 1998 T 1 K 15 15 mJ/K2mole 7.7 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18886 PR05805831 "(La,Sr)2(Cu,Zn)O4" La1.78Sr0.22Cu0.985Zn0.015O4 La 1.78 Sr 0.22 Cu 0.985 Zn 0.015 O 4 4 1 1998 T 1 K 10 10 mJ/K2mole 9.1 "La2O3,SrCo3,CuO and (NiO or ZnO) powdersf high purity at 1050 C - 1150 C in an oxygen atomosphere followed by annealing in an oxygen atomosphereat 600 C for 24 h." Contrasting Ni- and Zn-subsutitution effects on magnetic properties and superconductivity in La2-xSrxCuO4 1998 9 "Department of Physics, Hokkaido University, Sapporo 0600810, Japan" "Phys.Rev.B,58(1998)5831" 18887 PR05805960 underdope Bi2Sr2CaCuO8 Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 3 1998 Bi2212 K 79 3 79 Annealing at 600 C under P(O2)= 4.67e-4 atm for one day at 400C Pseudogap behavior in single-crystal Bi2Sr2CaCu2O8+delta probed by Cu NMR 1998 9 "Department of Physics Science, Graduate school of Engineering Science, Osaka University, Toyonaka, Osaka 560, Japan" "Phys.Rev.B,58(1998)R5960" 18888 PR05805960 overdope Bi2Sr2CaCuO8 Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 3 1998 Bi2212 K 77 3 77 Annealing at 600 C under P(O2)= 2.1 atm for one day at 400C Pseudogap behavior in single-crystal Bi2Sr2CaCu2O8+delta probed by Cu NMR 1998 9 "Department of Physics Science, Graduate school of Engineering Science, Osaka University, Toyonaka, Osaka 560, Japan" "Phys.Rev.B,58(1998)R5960" 18889 PR05805226 Tl2Ba2CUO6 Tl2Ba2Cu1O6+Z Tl 2 Ba 2 Cu 1 O 6+Z 1 1998 4 Tl2201 F112/m A 5.4559 5.49672 23.1901 3 K 38 38 1 "Ref[12]:A. C. Larson et al., Los Alamos National Laboratory report No. LA-UR-86-748 (1987) 500C Ar Anneal" Phase transitions in the TlBa2CuO6+delta superconductor 1998 9 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madinley Road, Cambridge, CB3 OHE, United Kingdom" "Phys.Rev.B,58(1998)5226" 18890 PR05805226 Tl2Ba2CUO6 Tl2Ba2Cu1O6+Z Tl 2 Ba 2 Cu 1 O 6+Z 1 1998 4 Tl2201 F112/m A 5.45842 5.49889 23.2003 3 K 50 50 1 "Ref[12]:A. C. Larson et al., Los Alamos National Laboratory report No. LA-UR-86-748 (1987) 550C Ar Anneal" Phase transitions in the TlBa2CuO6+delta superconductor 1998 9 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madinley Road, Cambridge, CB3 OHE, United Kingdom" "Phys.Rev.B,58(1998)5226" 18891 PR05805226 Tl2Ba2CUO6 Tl2Ba2Cu1O6+Z Tl 2 Ba 2 Cu 1 O 6+Z 1 1998 4 Tl2201 F112/m A 5.46289 5.49777 23.2127 3 K 68 68 1 "Ref[12]:A. C. Larson et al., Los Alamos National Laboratory report No. LA-UR-86-748 (1987) 600C Ar Anneal" Phase transitions in the TlBa2CuO6+delta superconductor 1998 9 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madinley Road, Cambridge, CB3 OHE, United Kingdom" "Phys.Rev.B,58(1998)5226" 18892 PR05805226 Tl2Ba2CUO6 Tl2Ba2Cu1O6+Z Tl 2 Ba 2 Cu 1 O 6+Z 1 1998 4 Tl2201 A 5.46457 5.49509 23.2174 3 K 79 79 1 "Ref[12]:A. C. Larson et al., Los Alamos National Laboratory report No. LA-UR-86-748 (1987) 650C Ar Anneal" Phase transitions in the TlBa2CuO6+delta superconductor 1998 9 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madinley Road, Cambridge, CB3 OHE, United Kingdom" "Phys.Rev.B,58(1998)5226" 18893 PR05805226 Tl2Ba2CUO6 Tl2Ba2Cu1O6+Z Tl 2 Ba 2 Cu 1 O 6+Z 1 1998 4 Tl2201 A 5.4663 5.49201 23.2231 3 K 90 90 1 "Ref[12]:A. C. Larson et al., Los Alamos National Laboratory report No. LA-UR-86-748 (1987) 700C Ar Anneal" Phase transitions in the TlBa2CuO6+delta superconductor 1998 9 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madinley Road, Cambridge, CB3 OHE, United Kingdom" "Phys.Rev.B,58(1998)5226" 18894 PR05806650 Tl2Ba2CaCu2Oz Tl2Ba2Ca1Cu2OZ Tl 2 Ba 2 Ca 1 Cu 2 O Z 5 1998 Tl2212 K 100 100 microm micro wave(hair pin resonator) 0.26 "Ref[12]M. M. Eddy et al., U. S. Patent 5,476,836 (1995); 5,508,255 (1996)" MgO 6000A Thick Microwave loss and intermodulation in Tl2Ba2CaCu2Oy thin films 1998 9 "Superconductor Technologie, Inc., Santa Barbara, California 93111-2310" "Phys.Rev.B,58(1998)6650" 18900 PR05808937 YBaCu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1998 Y124 K 81 81 1 "atO260barRef[2]:G.V.M.Williamsetal.,Rhys.Rev.B52,7034(1995);54,9532(1996)" Muon-spin-rotation study of Zn-induced magnetic moments in cuprate high-Tc superconductors 1998 "Phys. Rev. B, 58(1998)R8937" 18901 PR05808937 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.925Zn0.075O8 Y 1 Ba 2 Cu 3.925 Zn 0.075 O 8 1 1998 Y124 K 25 25 1 "atO260barRef[2]:G.V.M.Williamsetal.,Rhys.Rev.B52,7034(1995);54,9532(1996)" Muon-spin-rotation study of Zn-induced magnetic moments in cuprate high-Tc superconductors 1998 "Phys. Rev. B, 58(1998)R8937" 18902 PR05808901 overdoped Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 3 1998 Bi2212 K 85 85 8.2 "inairRef[20]:D.M.Mitzietal.,Phys.RevB41,6564(1990)" ab-plane tunneling spectroscopy of underdoped Bi2Sr2CaCu2Oy 1998 "Phys. Rev. B, 58(1998)R8901" 18903 PR05808901 underdoped Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 3 1998 Bi2212 K 70 70 12.6 "inairRef[20]:D.M.Mitzietal.,Phys.RevB41,6564(1990)" ab-plane tunneling spectroscopy of underdoped Bi2Sr2CaCu2Oy 1998 "Phys. Rev. B, 58(1998)R8901" 18904 PR05809504 "CuBa2(Ca,Mg)3Cu4O12-z" Ba2Ca2.85Mg0.15Cu5O12-z Ba 2 Ca 2.85 Mg 0.15 Cu 5 O 12-z 1 1998 Cu1234 P4/mmm A 3.855 17.954 3 K 116.6 116.6 T 127 86 A 19.2 13.2 mOhmcm 7.61 /CuO2 0.5 "BaCO3,CaCO3,CuO,MgO" 1 precursormixedAgO(o.2molfrac.)mixedAgCO3(0.2molfrac.)at3.5GPaat1000CinAucapsule Superconductivity in the Mg-doped CuBa2Ca3Cu4O12-y system 1998 10 "Electrotechnical Laboratory, 1-1-4, Umezono, Tsukuba, Ibaraki 305, Japan" "Phys.Rev.B, 58(1998)9504" 18905 PR05809504 "CuBa2(Ca,Mg)3Cu4O12-z" Ba2Ca2.7Mg0.3Cu5O12-z Ba 2 Ca 2.7 Mg 0.3 Cu 5 O 12-z 1 1998 Cu1234 P4/mmm A 3.848 17.907 3 K 116.4 116.4 T 103 74 A 20 14.2 mOhmcm 7.05 /CuO2 0.47 "BaCO3,CaCO3,CuO,MgO" 1 precursormixedAgO(o.2molfrac.)mixedAgCO3(0.2molfrac.)at3.5GPaat1000CinAucapsule Superconductivity in the Mg-doped CuBa2Ca3Cu4O12-y system 1998 10 "Electrotechnical Laboratory, 1-1-4, Umezono, Tsukuba, Ibaraki 305, Japan" "Phys.Rev.B, 58(1998)9504" 18906 PR05809504 "CuBa2(Ca,Mg)3Cu4O12-z" Ba2Ca2.4Mg0.6Cu5O12-z Ba 2 Ca 2.4 Mg 0.6 Cu 5 O 12-z 1 1998 Cu1234 P4/mmm A 3.848 17.907 3 K 116.8 116.8 T 115 80 A 20 14 mOhmcm 7.86 /CuO2 0.53 "BaCO3,CaCO3,CuO,MgO" 1 precursormixedAgO(o.2molfrac.)mixedAgCO3(0.2molfrac.)at3.5GPaat1000CinAucapsule Superconductivity in the Mg-doped CuBa2Ca3Cu4O12-y system 1998 10 "Electrotechnical Laboratory, 1-1-4, Umezono, Tsukuba, Ibaraki 305, Japan" "Phys.Rev.B, 58(1998)9504" 18907 PR05809504 "CuBa2(Ca,Mg)3Cu4O12-z" Ba2Ca2.01Mg0.99Cu5O12-z Ba 2 Ca 2.01 Mg 0.99 Cu 5 O 12-z 1 1998 Cu1234 P4/mmm A 3.847 17.917 3 K 116.6 116.6 T 110 79 A 20 14.5 mOhmcm 7.19 /CuO2 0.34 "BaCO3,CaCO3,CuO,MgO" 1 precursormixedAgO(o.2molfrac.)mixedAgCO3(0.2molfrac.)at3.5GPaat1000CinAucapsule Superconductivity in the Mg-doped CuBa2Ca3Cu4O12-y system 1998 10 "Electrotechnical Laboratory, 1-1-4, Umezono, Tsukuba, Ibaraki 305, Japan" "Phys.Rev.B, 58(1998)9504" 18908 PR05809504 CuBa2Ca3Cu4O12-z Ba2Ca3Cu5O12-z Ba 2 Ca 3 Cu 5 O 12-z 1 1998 Cu1234 P4/mmm A 3.856 17.993 3 K 117.5 117.5 T 195 121 A 16 10 mOhmcm 5.4 /CuO2 0.36 "BaCO3,CaCO3,CuO,MgO" 1 precursormixedAgO(o.2molfrac.)mixedAgCO3(0.2molfrac.)at3.5GPaat1000CinAucapsule Superconductivity in the Mg-doped CuBa2Ca3Cu4O12-y system 1998 10 "Electrotechnical Laboratory, 1-1-4, Umezono, Tsukuba, Ibaraki 305, Japan" "Phys.Rev.B, 58(1998)9504" 18909 PR05809536 HgBaCuO4+z Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 3 1998 Hg1201 P4/mmm A 3.888 9.538 1 K 95 95 T/K "Calculated in fig.7,from 86K to 95K." -0.44 "Thealuminacruciblewas1100Candplacedinatempuraturegradientofabout10K/cm,thebottombeingatthehighertempurature.Annialingfor3daysat400Cfollowedby2daysat350C." Irreversibility line in superconducting HgBa2CuO4+delta single crystals 1998 "Phys. Rev. B, 58(1998)9536" 19100 PR05811153 DyBa2Cu3O7 Dy1Ba2Cu3O7 Dy 1 Ba 2 Cu 3 O 7 7 3 1998 Y123 K 91 91 J/K2gat 0.0052 1gat=1/13mol=56.90g mV/K -2.6 5 using BaZrO3 crusible. 100bar O2 anneal 330C 230h Specific heat peaks observed up to 16 T on the melting line of vortex Matter in DyBa2Cu3O7 1998 "Departement de Physique de la Matiere Condensee, Universite de Geneve, CH-1211 Geneve 4, Swizerland" "Phys.Rev.B,58(1999)11153" 19101 PR05811201 KClO3:YSCO=0.45 YSr2Cu3Oz Y1Sr2Cu3O7.5 Y 1 Sr 2 Cu 3 O 7.5 7.5 2 1998 2 Y123 A 3.795 11.38 K 62.5 62.5 K/GPa 3 "Y2O3,SrO,CuO" 1 anneal 980C 60h flow O2 in Alumina crusible. KClO3 and YSr2Cu3O6.5 are pressed 3GPa 1000-1050C 2-8h High-Temperature superconduting YSr2Cu3O7.5 under pressure 1998 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5932" "Phys.Rev.B,58(1999)11201" 19102 PR05812427 Glassy sample (Bi3Pb)Sr3Ca3Cu4Ox Bi3Pb1Sr3Ca3Cu4OX Bi 3 Pb 1 Sr 3 Ca 3 Cu 4 O X 2 1998 6.76 4334 K 80 80 408 Resistivity microV/K 0.02 TP19102 1 "Ref21, Rapid quenching Tech., anneal 840C 40h air" "depression of superconductivity and the phonon-drag effect in glass-ceramic superconductors obtained by annealing the Fe-doped(Bi,Pb)4Sr3Ca3Cu4-mFemOx glassy precursor" 1998 "Department of Solid State Physics, Indian Association for the Cultivation of Science, Calcutta-700032, India" "Phys.Rev.B,58(1999)12427" 19103 PR05812427 Glassy sample "(Bi3Pb)Sr3Ca3(Cu,Fe)4Ox" Bi3Pb1Sr3Ca3Cu3.98Fe0.02OX Bi 3 Pb 1 Sr 3 Ca 3 Cu 3.98 Fe 0.02 O X 2 1998 6.59 4334 K 58 80 69 416 Resistivity microV/K 1 TP19103 1 "Ref21, Rapid quenching Tech., anneal 840C 40h air" "depression of superconductivity and the phonon-drag effect in glass-ceramic superconductors obtained by annealing the Fe-doped(Bi,Pb)4Sr3Ca3Cu4-mFemOx glassy precursor" 1998 "Department of Solid State Physics, Indian Association for the Cultivation of Science, Calcutta-700032, India" "Phys.Rev.B,58(1999)12427" 19104 PR05812427 Glassy sample "(Bi3Pb)Sr3Ca3(Cu,Fe)4Ox" Bi3Pb1Sr3Ca3Cu3.96Fe0.04OX Bi 3 Pb 1 Sr 3 Ca 3 Cu 3.96 Fe 0.04 O X 2 1998 6.08 4334 K 28 65 46.5 470 Resistivity microV/K -2.65 TP19104 1 "Ref21, Rapid quenching Tech., anneal 840C 40h air" "depression of superconductivity and the phonon-drag effect in glass-ceramic superconductors obtained by annealing the Fe-doped(Bi,Pb)4Sr3Ca3Cu4-mFemOx glassy precursor" 1998 "Department of Solid State Physics, Indian Association for the Cultivation of Science, Calcutta-700032, India" "Phys.Rev.B,58(1999)12427" 19105 PR05812427 Glassy sample "(Bi3Pb)Sr3Ca3(Cu,Fe)4Ox" Bi3Pb1Sr3Ca3Cu3.95Fe0.05OX Bi 3 Pb 1 Sr 3 Ca 3 Cu 3.95 Fe 0.05 O X 2 1998 5.94 4334 K 20 55 37.5 476 Resistivity microV/K -0.12 TP19105 1 "Ref21, Rapid quenching Tech., anneal 840C 40h air" "depression of superconductivity and the phonon-drag effect in glass-ceramic superconductors obtained by annealing the Fe-doped(Bi,Pb)4Sr3Ca3Cu4-mFemOx glassy precursor" 1998 "Department of Solid State Physics, Indian Association for the Cultivation of Science, Calcutta-700032, India" "Phys.Rev.B,58(1999)12427" 19106 PR05812427 Glassy sample "(Bi3Pb)Sr3Ca3(Cu,Fe)4Ox" Bi3Pb1Sr3Ca3Cu3.94Fe0.06OX Bi 3 Pb 1 Sr 3 Ca 3 Cu 3.94 Fe 0.06 O X 2 1998 5.8 4334 K 523 Resistivity 1 "Ref21, Rapid quenching Tech., anneal 840C 40h air" "depression of superconductivity and the phonon-drag effect in glass-ceramic superconductors obtained by annealing the Fe-doped(Bi,Pb)4Sr3Ca3Cu4-mFemOx glassy precursor" 1998 "Department of Solid State Physics, Indian Association for the Cultivation of Science, Calcutta-700032, India" "Phys.Rev.B,58(1999)12427" 19201 PR05815116 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu1O4+Z La 1.85 Sr 0.15 Cu 1 O 4+Z 6 1998 T A 3.771 13.21 K "La2O3,SrCO3,CuO,Ni2O3" standard ceramic tchniques. La2O3 was dried at 900 C mixture powder was ground and preheated in air at 1020-1250 C for 20h with an intermediate grinding.And it was reground and pressed.. anneal:1050-1320 C for 24h then cooleddown to and kept 800 C in the furnance for a day. Transport mechanism in La1.85Sr0.15Cu1-xNixO4+z (0=< x =< 1) 1998 12 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, China" "Phys.Rev.B,58(1998)15116" 19202 PR05815116 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.99Ni0.01O4+Z La 1.85 Sr 0.15 Cu 0.99 Ni 0.01 O 4+Z 6 1998 T K 29 29 1 mohmcm 1.3 1.1 3 "La2O3,SrCO3,CuO,Ni2O3" standard ceramic tchniques. La2O3 was dried at 900 C mixture powder was ground and preheated in air at 1020-1250 C for 20h with an intermediate grinding.And it was reground and pressed.. anneal:1050-1320 C for 24h then cooleddown to and kept 800 C in the furnance for a day. Transport mechanism in La1.85Sr0.15Cu1-xNixO4+z (0=< x =< 1) 1998 12 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, China" "Phys.Rev.B,58(1998)15116" 19203 PR05815116 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.98Ni0.02O4+Z La 1.85 Sr 0.15 Cu 0.98 Ni 0.02 O 4+Z 6 1998 T K 31 31 1 mohmcm 2 1.5 4 "La2O3,SrCO3,CuO,Ni2O3" standard ceramic tchniques. La2O3 was dried at 900 C mixture powder was ground and preheated in air at 1020-1250 C for 20h with an intermediate grinding.And it was reground and pressed.. anneal:1050-1320 C for 24h then cooleddown to and kept 800 C in the furnance for a day. Transport mechanism in La1.85Sr0.15Cu1-xNixO4+z (0=< x =< 1) 1998 12 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, China" "Phys.Rev.B,58(1998)15116" 19204 PR05815116 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.97Ni0.03O4+Z La 1.85 Sr 0.15 Cu 0.97 Ni 0.03 O 4+Z 6 1998 T K 28 28 1 mohmcm 3.1 2.9 6.4 "La2O3,SrCO3,CuO,Ni2O3" standard ceramic tchniques. La2O3 was dried at 900 C mixture powder was ground and preheated in air at 1020-1250 C for 20h with an intermediate grinding.And it was reground and pressed.. anneal:1050-1320 C for 24h then cooleddown to and kept 800 C in the furnance for a day. Transport mechanism in La1.85Sr0.15Cu1-xNixO4+z (0=< x =< 1) 1998 12 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, China" "Phys.Rev.B,58(1998)15116" 19205 PR05815116 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.96Ni0.04O4+Z La 1.85 Sr 0.15 Cu 0.96 Ni 0.04 O 4+Z 6 1998 T K mohmcm 4.2 7.3 "La2O3,SrCO3,CuO,Ni2O3" standard ceramic tchniques. La2O3 was dried at 900 C mixture powder was ground and preheated in air at 1020-1250 C for 20h with an intermediate grinding.And it was reground and pressed.. anneal:1050-1320 C for 24h then cooleddown to and kept 800 C in the furnance for a day. Transport mechanism in La1.85Sr0.15Cu1-xNixO4+z (0=< x =< 1) 1998 12 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, China" "Phys.Rev.B,58(1998)15116" 19206 PR05815116 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.95Ni0.05O4+Z La 1.85 Sr 0.15 Cu 0.95 Ni 0.05 O 4+Z 6 1998 T A 3.773 13.19 K "La2O3,SrCO3,CuO,Ni2O3" standard ceramic tchniques. La2O3 was dried at 900 C mixture powder was ground and preheated in air at 1020-1250 C for 20h with an intermediate grinding.And it was reground and pressed.. anneal:1050-1320 C for 24h then cooleddown to and kept 800 C in the furnance for a day. Transport mechanism in La1.85Sr0.15Cu1-xNixO4+z (0=< x =< 1) 1998 12 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, China" "Phys.Rev.B,58(1998)15116" 19207 PR05815116 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.9Ni0.1O4+Z La 1.85 Sr 0.15 Cu 0.9 Ni 0.1 O 4+Z 6 1998 T A 3.777 13.16 K mohmcm 50 20 "La2O3,SrCO3,CuO,Ni2O3" standard ceramic tchniques. La2O3 was dried at 900 C mixture powder was ground and preheated in air at 1020-1250 C for 20h with an intermediate grinding.And it was reground and pressed.. anneal:1050-1320 C for 24h then cooleddown to and kept 800 C in the furnance for a day. Transport mechanism in La1.85Sr0.15Cu1-xNixO4+z (0=< x =< 1) 1998 12 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, China" "Phys.Rev.B,58(1998)15116" 19208 PR05815116 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.8Ni0.2O4+Z La 1.85 Sr 0.15 Cu 0.8 Ni 0.2 O 4+Z 6 1998 T A 3.785 13.12 K mohmcm 6000 80 "La2O3,SrCO3,CuO,Ni2O3" standard ceramic tchniques. La2O3 was dried at 900 C mixture powder was ground and preheated in air at 1020-1250 C for 20h with an intermediate grinding.And it was reground and pressed.. anneal:1050-1320 C for 24h then cooleddown to and kept 800 C in the furnance for a day. Transport mechanism in La1.85Sr0.15Cu1-xNixO4+z (0=< x =< 1) 1998 12 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, China" "Phys.Rev.B,58(1998)15116" 19209 PR05815116 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.7Ni0.3O4+Z La 1.85 Sr 0.15 Cu 0.7 Ni 0.3 O 4+Z 6 1998 T A 3.79 13.05 K mohmcm 20000 100 "La2O3,SrCO3,CuO,Ni2O3" standard ceramic tchniques. La2O3 was dried at 900 C mixture powder was ground and preheated in air at 1020-1250 C for 20h with an intermediate grinding.And it was reground and pressed.. anneal:1050-1320 C for 24h then cooleddown to and kept 800 C in the furnance for a day. Transport mechanism in La1.85Sr0.15Cu1-xNixO4+z (0=< x =< 1) 1998 12 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, China" "Phys.Rev.B,58(1998)15116" 19210 PR05815116 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.5Ni0.5O4+Z La 1.85 Sr 0.15 Cu 0.5 Ni 0.5 O 4+Z 6 1998 T A 3.798 12.97 K mohmcm 900000 200 "La2O3,SrCO3,CuO,Ni2O3" standard ceramic tchniques. La2O3 was dried at 900 C mixture powder was ground and preheated in air at 1020-1250 C for 20h with an intermediate grinding.And it was reground and pressed.. anneal:1050-1320 C for 24h then cooleddown to and kept 800 C in the furnance for a day. Transport mechanism in La1.85Sr0.15Cu1-xNixO4+z (0=< x =< 1) 1998 12 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, China" "Phys.Rev.B,58(1998)15116" 19211 PR05815116 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.2Ni0.8O4+Z La 1.85 Sr 0.15 Cu 0.2 Ni 0.8 O 4+Z 6 1998 T A 3.831 12.78 K mohmcm 1000000 500 "La2O3,SrCO3,CuO,Ni2O3" standard ceramic tchniques. La2O3 was dried at 900 C mixture powder was ground and preheated in air at 1020-1250 C for 20h with an intermediate grinding.And it was reground and pressed.. anneal:1050-1320 C for 24h then cooleddown to and kept 800 C in the furnance for a day. Transport mechanism in La1.85Sr0.15Cu1-xNixO4+z (0=< x =< 1) 1998 12 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, China" "Phys.Rev.B,58(1998)15116" 19212 PR05815116 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Ni1O4+Z La 1.85 Sr 0.15 Ni 1 O 4+Z 6 1998 T A 3.849 12.74 K mohmcm 20000000 4000 "La2O3,SrCO3,CuO,Ni2O3" standard ceramic tchniques. La2O3 was dried at 900 C mixture powder was ground and preheated in air at 1020-1250 C for 20h with an intermediate grinding.And it was reground and pressed.. anneal:1050-1320 C for 24h then cooleddown to and kept 800 C in the furnance for a day. Transport mechanism in La1.85Sr0.15Cu1-xNixO4+z (0=< x =< 1) 1998 12 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, China" "Phys.Rev.B,58(1998)15116" 19213 PR05814219 anneal 500 C O2 1000 atm Bi2Sr2CaCu2O8+Z Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 3 1998 Bi2212 A 30.58 1 K 78 78 mohmmm 2.1 2 3.2 3 5 Anisotropic resistivities of single-crystal Bi2Sr2CaCu2O8+delta with different oxygen content 1998 12 "Structural Research Laboratory and Department of Physics, University of Science and Technology China, Hofei 230026, People's Republic of China" "Phys.Rev.B,58(1998)14219" 19214 PR05814219 anneal 500 C O2 10 atm Bi2Sr2CaCu2O8+Z Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 3 1998 Bi2212 A 30.61 1 K 80 80 mohmmm 2.6 10 4 4 5 Anisotropic resistivities of single-crystal Bi2Sr2CaCu2O8+delta with different oxygen content 1998 12 "Structural Research Laboratory and Department of Physics, University of Science and Technology China, Hofei 230026, People's Republic of China" "Phys.Rev.B,58(1998)14219" 19215 PR05814219 anneal 500 C O2 1 atm Bi2Sr2CaCu2O8+Z Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 3 1998 Bi2212 A 30.72 1 K 85 85 mohmmm 3.2 23 5 5 5 Anisotropic resistivities of single-crystal Bi2Sr2CaCu2O8+delta with different oxygen content 1998 12 "Structural Research Laboratory and Department of Physics, University of Science and Technology China, Hofei 230026, People's Republic of China" "Phys.Rev.B,58(1998)14219" 19216 PR05814219 anneal 500 C O2 0.001 atm Bi2Sr2CaCu2O8+Z Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 3 1998 Bi2212 A 30.92 1 K 89 89 mohmmm 3.8 40 7.8 8 5 Anisotropic resistivities of single-crystal Bi2Sr2CaCu2O8+delta with different oxygen content 1998 12 "Structural Research Laboratory and Department of Physics, University of Science and Technology China, Hofei 230026, People's Republic of China" "Phys.Rev.B,58(1998)14219" 19217 PR05814219 annial 500 C O2 0.001 atm Bi2Sr2CaCu2O8+Z Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 3 1998 Bi2212 A 30.98 1 K 81 81 mohmmm 4.1 49 11.7 10 5 Anisotropic resistivities of single-crystal Bi2Sr2CaCu2O8+delta with different oxygen content 1998 12 "Structural Research Laboratory and Department of Physics, University of Science and Technology China, Hofei 230026, People's Republic of China" "Phys.Rev.B,58(1998)14219" 19218 PR05814219 anneal 500 C O2 0.001 atm Bi2Sr2CaCu2O8+Z Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 3 1998 Bi2212 A 31.09 1 K 76 76 mohmmm 4.5 72 12.2 10 5 Anisotropic resistivities of single-crystal Bi2Sr2CaCu2O8+delta with different oxygen content 1998 12 "Structural Research Laboratory and Department of Physics, University of Science and Technology China, Hofei 230026, People's Republic of China" "Phys.Rev.B,58(1998)14219" 19219 PR05814581 LaAlO3 substrate. anisotropy factor = 6.4 YBa2Cu3O7z Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 5 1998 Y123 3 K 87 87 1 A micro wave 14.4 A micro wave 1300 ref[27-29] Anisotropic renormalized fluctuations in the microwave resistivity in YBa2Cu3O7-delta 1998 12 "Dipartiment di Fisica 'E. Amaldi', Unita INFM, and Diparitimento di Ingegneria Elettronica, Universita 'Roma Tre' Via della Vasca Navale 84, 00146 Pome, Italy" "Phys.Rev.B,58(1998)14581" 19220 PR05814581 LaAlO3 substrate. anisotropy factor = 5 YBa2Cu3O7z Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 5 1998 Y123 3 K 87 87 1 A micro wave 17.5 A micro wave 1300 ref[27-29] Anisotropic renormalized fluctuations in the microwave resistivity in YBa2Cu3O7-delta 1998 12 "Dipartiment di Fisica 'E. Amaldi', Unita INFM, and Diparitimento di Ingegneria Elettronica, Universita 'Roma Tre' Via della Vasca Navale 84, 00146 Pome, Italy" "Phys.Rev.B,58(1998)14581" 19221 PR05814581 LaAlO3 substrate?Banisotropy factor = 5.4 YBa2Cu3O7z Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 5 1998 Y123 3 K 87 87 1 A micro wave 16.5 A micro wave 1500 ref[27-29] Anisotropic renormalized fluctuations in the microwave resistivity in YBa2Cu3O7-delta 1998 12 "Dipartiment di Fisica 'E. Amaldi', Unita INFM, and Diparitimento di Ingegneria Elettronica, Universita 'Roma Tre' Via della Vasca Navale 84, 00146 Pome, Italy" "Phys.Rev.B,58(1998)14581" 19222 PR05814581 LaAlO3 substrate?Banisotropy factor = 6.6 YBa2Cu3O7z Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 5 1998 Y123 K 84 84 1 A micro wave 14.3 A micro wave 1500 ref[27-29] Anisotropic renormalized fluctuations in the microwave resistivity in YBa2Cu3O7-delta 1998 12 "Dipartiment di Fisica 'E. Amaldi', Unita INFM, and Diparitimento di Ingegneria Elettronica, Universita 'Roma Tre' Via della Vasca Navale 84, 00146 Pome, Italy" "Phys.Rev.B,58(1998)14581" 19223 PR05814581 SrTiO3 substrate?Banisotropy factor = 6.3 YBa2Cu3O7z Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 5 1998 Y123 K 90 90 1 A micro wave 15 A micro wave 1100 ref[27-29] Anisotropic renormalized fluctuations in the microwave resistivity in YBa2Cu3O7-delta 1998 12 "Dipartiment di Fisica 'E. Amaldi', Unita INFM, and Diparitimento di Ingegneria Elettronica, Universita 'Roma Tre' Via della Vasca Navale 84, 00146 Pome, Italy" "Phys.Rev.B,58(1998)14581" 19224 PR05814753 "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 6 1998 T K 33 3 33 1 mJ/molK2 5 ref[9][10] Magnetic-field dependence of the low-temperature specific heat of La2-xSrxCuO4 1998 12 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 804, Taiwan, Republic of China" "Phys.Rev.B,58(1998)R14753" 19225 PR05814753 "(La,Sr)2CuO4" La1.84Sr0.16Cu1O4 La 1.84 Sr 0.16 Cu 1 O 4 6 1998 T K 39 3 39 1 mJ/molK2 10 ref[9][10] Magnetic-field dependence of the low-temperature specific heat of La2-xSrxCuO4 1998 12 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 804, Taiwan, Republic of China" "Phys.Rev.B,58(1998)R14753" 19226 PR05814753 "(La,Sr)2CuO4" La1.78Sr0.22Cu1O4 La 1.78 Sr 0.22 Cu 1 O 4 6 1998 T K 29 3 29 1 mJ/molK2 12 ref[9][10] Magnetic-field dependence of the low-temperature specific heat of La2-xSrxCuO4 1998 12 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 804, Taiwan, Republic of China" "Phys.Rev.B,58(1998)R14753" 19227 PR05815231 asgrown Bi2Sr2CaCu2O8+z Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 6 1998 Bi2212 K 82 4 82 1 A frame work of London mode (ref[23])from mesured lisothermal magnetization vs Mt(H). Fit ref[24] 2220 ohmcm 6 ref[18] anneal 100bar 540 C 12h Doping dependence of the in-plane penetration depth and fishtail in Bi2Sr2Ca1-xYxCu2O8+delta single crystals 1998 12 "Laboratoire CRISMAT, CNRS UMR 6508, ISMRA et Universite de Unite Mixte de Recherche(UMR 6508) associee au CNRS, 6 Bd du Marechal Juin, 14050 Caen Cedex, France" "Phys.Rev.B,58(1998)15231" 19228 PR05815231 annealed Bi2Sr2CaCu2O8+z Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 6 1998 Bi2212 K 73 73 1 A frame work of London mode (ref[23])from mesured lisothermal magnetization vs Mt(H). Fit ref[24] 2590 ohmcm 0.9 ref[18] anneal 100bar 540 C 12h Doping dependence of the in-plane penetration depth and fishtail in Bi2Sr2Ca1-xYxCu2O8+delta single crystals 1998 12 "Laboratoire CRISMAT, CNRS UMR 6508, ISMRA et Universite de Unite Mixte de Recherche(UMR 6508) associee au CNRS, 6 Bd du Marechal Juin, 14050 Caen Cedex, France" "Phys.Rev.B,58(1998)15231" 19229 PR05815231 asgrown "Bi2Sr2(Ca,Y)Cu2O8+z" Bi2Sr2Ca0.79Y0.21Cu2O8+Z Bi 2 Sr 2 Ca 0.79 Y 0.21 Cu 2 O 8+Z 6 1998 Bi2212 K 90 4 90 1 A frame work of London mode (ref[23])from mesured lisothermal magnetization vs Mt(H). Fit ref[24] 1900 ohmcm 4 ref[18] anneal 100bar 540 C 12h Doping dependence of the in-plane penetration depth and fishtail in Bi2Sr2Ca1-xYxCu2O8+delta single crystals 1998 12 "Laboratoire CRISMAT, CNRS UMR 6508, ISMRA et Universite de Unite Mixte de Recherche(UMR 6508) associee au CNRS, 6 Bd du Marechal Juin, 14050 Caen Cedex, France" "Phys.Rev.B,58(1998)15231" 19230 PR05815231 annealed "Bi2Sr2(Ca,Y)Cu2O8+z" Bi2Sr2Ca0.79Y0.21Cu2O8+Z Bi 2 Sr 2 Ca 0.79 Y 0.21 Cu 2 O 8+Z 6 1998 Bi2212 K 77 77 1 A frame work of London mode (ref[23])from mesured lisothermal magnetization vs Mt(H). Fit ref[24] 2300 ref[18] anneal 100bar 540 C 12h Doping dependence of the in-plane penetration depth and fishtail in Bi2Sr2Ca1-xYxCu2O8+delta single crystals 1998 12 "Laboratoire CRISMAT, CNRS UMR 6508, ISMRA et Universite de Unite Mixte de Recherche(UMR 6508) associee au CNRS, 6 Bd du Marechal Juin, 14050 Caen Cedex, France" "Phys.Rev.B,58(1998)15231" 19231 PR05815231 asgrown "Bi2Sr2(Ca,Y)Cu2O8+z" Bi2Sr2Ca0.72Y0.28Cu2O8+Z Bi 2 Sr 2 Ca 0.72 Y 0.28 Cu 2 O 8+Z 6 1998 Bi2212 K 91 4 91 1 A frame work of London mode (ref[23])from mesured lisothermal magnetization vs Mt(H). Fit ref[24] 2590 ohmcm 3.2 ref[18] anneal 100bar 540 C 12h Doping dependence of the in-plane penetration depth and fishtail in Bi2Sr2Ca1-xYxCu2O8+delta single crystals 1998 12 "Laboratoire CRISMAT, CNRS UMR 6508, ISMRA et Universite de Unite Mixte de Recherche(UMR 6508) associee au CNRS, 6 Bd du Marechal Juin, 14050 Caen Cedex, France" "Phys.Rev.B,58(1998)15231" 19232 PR05815231 annealed "Bi2Sr2(Ca,Y)Cu2O8+z" Bi2Sr2Ca0.72Y0.28Cu2O8+Z Bi 2 Sr 2 Ca 0.72 Y 0.28 Cu 2 O 8+Z 6 1998 Bi2212 K 81 81 1 A frame work of London mode (ref[23])from mesured lisothermal magnetization vs Mt(H). Fit ref[24] 2280 ref[18] anneal 100bar 540 C 12h Doping dependence of the in-plane penetration depth and fishtail in Bi2Sr2Ca1-xYxCu2O8+delta single crystals 1998 12 "Laboratoire CRISMAT, CNRS UMR 6508, ISMRA et Universite de Unite Mixte de Recherche(UMR 6508) associee au CNRS, 6 Bd du Marechal Juin, 14050 Caen Cedex, France" "Phys.Rev.B,58(1998)15231" 19233 PR05815231 asgrown "Bi2Sr2(Ca,Y)Cu2O8+z" Bi2Sr2Ca0.64Y0.36Cu2O8+Z Bi 2 Sr 2 Ca 0.64 Y 0.36 Cu 2 O 8+Z 6 1998 Bi2212 K 88 4 88 1 A frame work of London mode (ref[23])from mesured lisothermal magnetization vs Mt(H). Fit ref[24] 2980 ohmcm 0.4 ref[18] anneal 100bar 540 C 12h Doping dependence of the in-plane penetration depth and fishtail in Bi2Sr2Ca1-xYxCu2O8+delta single crystals 1998 12 "Laboratoire CRISMAT, CNRS UMR 6508, ISMRA et Universite de Unite Mixte de Recherche(UMR 6508) associee au CNRS, 6 Bd du Marechal Juin, 14050 Caen Cedex, France" "Phys.Rev.B,58(1998)15231" 19234 PR05815231 annealed "Bi2Sr2(Ca,Y)Cu2O8+z" Bi2Sr2Ca0.64Y0.36Cu2O8+Z Bi 2 Sr 2 Ca 0.64 Y 0.36 Cu 2 O 8+Z 6 1998 Bi2212 K 88 88 1 ref[18] anneal 100bar 540 C 12h Doping dependence of the in-plane penetration depth and fishtail in Bi2Sr2Ca1-xYxCu2O8+delta single crystals 1998 12 "Laboratoire CRISMAT, CNRS UMR 6508, ISMRA et Universite de Unite Mixte de Recherche(UMR 6508) associee au CNRS, 6 Bd du Marechal Juin, 14050 Caen Cedex, France" "Phys.Rev.B,58(1998)15231" 19235 PR05815231 asgrown "Bi2Sr2(Ca,Y)Cu2O8+z" Bi2Sr2Ca0.57Y0.43Cu2O8+Z Bi 2 Sr 2 Ca 0.57 Y 0.43 Cu 2 O 8+Z 6 1998 Bi2212 K 86 15 86 1 ref[18] anneal 100bar 540 C 12h Doping dependence of the in-plane penetration depth and fishtail in Bi2Sr2Ca1-xYxCu2O8+delta single crystals 1998 12 "Laboratoire CRISMAT, CNRS UMR 6508, ISMRA et Universite de Unite Mixte de Recherche(UMR 6508) associee au CNRS, 6 Bd du Marechal Juin, 14050 Caen Cedex, France" "Phys.Rev.B,58(1998)15231" 19236 PR05814617 Al-contamination(1-2%). grown in Al2O3 crusible YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 3 1998 Y124 K 72 72 THC19236 high pressure flux method ref[11] Anisotropic in-plane thermal conductivity of single-crystal YBa2Cu4O8 1998 12 "Physics Department, University, of Miami Coral Gables, Florida 33124" "Phys.Rev.B,58(1998)14617" 19237 PR05814617 Al-contamination(1-2%). grown in Al2O3 crusible YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 3 1998 Y124 K 72 72 THC19237 high pressure flux method ref[11] Anisotropic in-plane thermal conductivity of single-crystal YBa2Cu4O8 1998 12 "Physics Department, University, of Miami Coral Gables, Florida 33124" "Phys.Rev.B,58(1998)14617" 19238 PR05814617 grown in Y2O3 crusible YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 3 1998 Y124 K 80 80 THC19238 high pressure flux method ref[11] Anisotropic in-plane thermal conductivity of single-crystal YBa2Cu4O8 1998 12 "Physics Department, University, of Miami Coral Gables, Florida 33124" "Phys.Rev.B,58(1998)14617" 19239 PR05815238 "(La,Lu)Ba2Cu3Oz" La0.5Lu0.5Ba2Cu3OZ La 0.5 Lu 0.5 Ba 2 Cu 3 O Z 6 1998 Y123 A 3.848 3.9047 11.729 3 K 87 87 "Polycrystallic ceramic.Solid-state reaction tequnique. Mixed powder calcinenated at 920 C and regrond,repressed and further thermally treated (four times)at 940, 960,980,990 C in oxgen atomosphere." anneal 950 C 44 h He atomosphere.The sumple furnance cooed to 500 C and annealed 24h.The process has been repeated until the amount of BaCuO2 was asymptotically reduced to constant varue. Phaseseparation and onternal strains in the mixed La0.5R0.5Ba2Cu3Oy compounds (R=rare-earth element) 1998 12 "Solid State Physics Section, Department of Physics, University of Athens, GR-157 84 Athens, Greece" "Phys.Rev.B,58(1998)15238" 19240 PR05815238 "(La,Yb)Ba2Cu3Oz" La0.5Yb0.5Ba2Cu3OZ La 0.5 Yb 0.5 Ba 2 Cu 3 O Z 6 1998 Y123 A 3.8405 3.9012 11.712 3 K 81 81 "Polycrystallic ceramic.Solid-state reaction tequnique. Mixed powder calcinenated at 920 C and regrond,repressed and further thermally treated (four times)at 940, 960,980,990 C in oxgen atomosphere." anneal 950 C 44 h He atomosphere.The sumple furnance cooed to 500 C and annealed 24h.The process has been repeated until the amount of BaCuO2 was asymptotically reduced to constant varue. Phaseseparation and onternal strains in the mixed La0.5R0.5Ba2Cu3Oy compounds (R=rare-earth element) 1998 12 "Solid State Physics Section, Department of Physics, University of Athens, GR-157 84 Athens, Greece" "Phys.Rev.B,58(1998)15238" 19241 PR05815238 "(La,Tm)Ba2Cu3Oz" La0.5Tm0.5Ba2Cu3OZ La 0.5 Tm 0.5 Ba 2 Cu 3 O Z 6 1998 Y123 A 3.844 3.9039 11.726 3 K 84 84 "Polycrystallic ceramic.Solid-state reaction tequnique. Mixed powder calcinenated at 920 C and regrond,repressed and further thermally treated (four times)at 940, 960,980,990 C in oxgen atomosphere." anneal 950 C 44 h He atomosphere.The sumple furnance cooed to 500 C and annealed 24h.The process has been repeated until the amount of BaCuO2 was asymptotically reduced to constant varue. Phaseseparation and onternal strains in the mixed La0.5R0.5Ba2Cu3Oy compounds (R=rare-earth element) 1998 12 "Solid State Physics Section, Department of Physics, University of Athens, GR-157 84 Athens, Greece" "Phys.Rev.B,58(1998)15238" 19242 PR05815238 "(La,Er)Ba2Cu3Oz" La0.5Er0.5Ba2Cu3OZ La 0.5 Er 0.5 Ba 2 Cu 3 O Z 6 1998 Y123 A 3.8477 3.9066 11.732 3 K 87 87 "Polycrystallic ceramic.Solid-state reaction tequnique. Mixed powder calcinenated at 920 C and regrond,repressed and further thermally treated (four times)at 940, 960,980,990 C in oxgen atomosphere." anneal 950 C 44 h He atomosphere.The sumple furnance cooed to 500 C and annealed 24h.The process has been repeated until the amount of BaCuO2 was asymptotically reduced to constant varue. Phaseseparation and onternal strains in the mixed La0.5R0.5Ba2Cu3Oy compounds (R=rare-earth element) 1998 12 "Solid State Physics Section, Department of Physics, University of Athens, GR-157 84 Athens, Greece" "Phys.Rev.B,58(1998)15238" 19243 PR05815238 "(La,Ho)Ba2Cu3Oz" La0.5Ho0.5Ba2Cu3OZ La 0.5 Ho 0.5 Ba 2 Cu 3 O Z 6 1998 Y123 A 3.8522 3.9099 11.746 3 K 87 87 "Polycrystallic ceramic.Solid-state reaction tequnique. Mixed powder calcinenated at 920 C and regrond,repressed and further thermally treated (four times)at 940, 960,980,990 C in oxgen atomosphere." anneal 950 C 44 h He atomosphere.The sumple furnance cooed to 500 C and annealed 24h.The process has been repeated until the amount of BaCuO2 was asymptotically reduced to constant varue. Phaseseparation and onternal strains in the mixed La0.5R0.5Ba2Cu3Oy compounds (R=rare-earth element) 1998 12 "Solid State Physics Section, Department of Physics, University of Athens, GR-157 84 Athens, Greece" "Phys.Rev.B,58(1998)15238" 19244 PR05815238 "(La,Y)Ba2Cu3Oz" La0.5Y0.5Ba2Cu3OZ La 0.5 Y 0.5 Ba 2 Cu 3 O Z 6 1998 Y123 A 3.8393 3.9057 11.719 3 K 84 84 "Polycrystallic ceramic.Solid-state reaction tequnique. Mixed powder calcinenated at 920 C and regrond,repressed and further thermally treated (four times)at 940, 960,980,990 C in oxgen atomosphere." anneal 950 C 44 h He atomosphere.The sumple furnance cooed to 500 C and annealed 24h.The process has been repeated until the amount of BaCuO2 was asymptotically reduced to constant varue. Phaseseparation and onternal strains in the mixed La0.5R0.5Ba2Cu3Oy compounds (R=rare-earth element) 1998 12 "Solid State Physics Section, Department of Physics, University of Athens, GR-157 84 Athens, Greece" "Phys.Rev.B,58(1998)15238" 19245 PR05815238 "(La,Dy)Ba2Cu3Oz" La0.5Dy0.5Ba2Cu3OZ La 0.5 Dy 0.5 Ba 2 Cu 3 O Z 6 1998 Y123 A 3.9618 3.9183 11.752 3 K 90 90 "Polycrystallic ceramic.Solid-state reaction tequnique. Mixed powder calcinenated at 920 C and regrond,repressed and further thermally treated (four times)at 940, 960,980,990 C in oxgen atomosphere." anneal 950 C 44 h He atomosphere.The sumple furnance cooed to 500 C and annealed 24h.The process has been repeated until the amount of BaCuO2 was asymptotically reduced to constant varue. Phaseseparation and onternal strains in the mixed La0.5R0.5Ba2Cu3Oy compounds (R=rare-earth element) 1998 12 "Solid State Physics Section, Department of Physics, University of Athens, GR-157 84 Athens, Greece" "Phys.Rev.B,58(1998)15238" 19246 PR05815238 "(La,Gd)Ba2Cu3Oz" La0.5Gd0.5Ba2Cu3OZ La 0.5 Gd 0.5 Ba 2 Cu 3 O Z 6 1998 Y123 A 3.8545 3.9129 11.756 3 K 88 88 "Polycrystallic ceramic.Solid-state reaction tequnique. Mixed powder calcinenated at 920 C and regrond,repressed and further thermally treated (four times)at 940, 960,980,990 C in oxgen atomosphere." anneal 950 C 44 h He atomosphere.The sumple furnance cooed to 500 C and annealed 24h.The process has been repeated until the amount of BaCuO2 was asymptotically reduced to constant varue. Phaseseparation and onternal strains in the mixed La0.5R0.5Ba2Cu3Oy compounds (R=rare-earth element) 1998 12 "Solid State Physics Section, Department of Physics, University of Athens, GR-157 84 Athens, Greece" "Phys.Rev.B,58(1998)15238" 19247 PR05815238 "(La,Eu)Ba2Cu3Oz" La0.5Eu0.5Ba2Cu3OZ La 0.5 Eu 0.5 Ba 2 Cu 3 O Z 6 1998 Y123 A 3.8664 3.9175 11.779 3 K 88 88 "Polycrystallic ceramic.Solid-state reaction tequnique. Mixed powder calcinenated at 920 C and regrond,repressed and further thermally treated (four times)at 940, 960,980,990 C in oxgen atomosphere." anneal 950 C 44 h He atomosphere.The sumple furnance cooed to 500 C and annealed 24h.The process has been repeated until the amount of BaCuO2 was asymptotically reduced to constant varue. Phaseseparation and onternal strains in the mixed La0.5R0.5Ba2Cu3Oy compounds (R=rare-earth element) 1998 12 "Solid State Physics Section, Department of Physics, University of Athens, GR-157 84 Athens, Greece" "Phys.Rev.B,58(1998)15238" 19248 PR05815238 "(La,Sm)Ba2Cu3Oz" La0.5Sm0.5Ba2Cu3OZ La 0.5 Sm 0.5 Ba 2 Cu 3 O Z 6 1998 Y123 A 3.8685 3.9203 11.784 3 K 90 90 "Polycrystallic ceramic.Solid-state reaction tequnique. Mixed powder calcinenated at 920 C and regrond,repressed and further thermally treated (four times)at 940, 960,980,990 C in oxgen atomosphere." anneal 950 C 44 h He atomosphere.The sumple furnance cooed to 500 C and annealed 24h.The process has been repeated until the amount of BaCuO2 was asymptotically reduced to constant varue. Phaseseparation and onternal strains in the mixed La0.5R0.5Ba2Cu3Oy compounds (R=rare-earth element) 1998 12 "Solid State Physics Section, Department of Physics, University of Athens, GR-157 84 Athens, Greece" "Phys.Rev.B,58(1998)15238" 19249 PR05815238 "(La,Nd)Ba2Cu3Oz" La0.5Nd0.5Ba2Cu3OZ La 0.5 Nd 0.5 Ba 2 Cu 3 O Z 6 1998 Y123 A 3.8759 3.9263 11.767 3 K 90 90 "Polycrystallic ceramic.Solid-state reaction tequnique. Mixed powder calcinenated at 920 C and regrond,repressed and further thermally treated (four times)at 940, 960,980,990 C in oxgen atomosphere." anneal 950 C 44 h He atomosphere.The sumple furnance cooed to 500 C and annealed 24h.The process has been repeated until the amount of BaCuO2 was asymptotically reduced to constant varue. Phaseseparation and onternal strains in the mixed La0.5R0.5Ba2Cu3Oy compounds (R=rare-earth element) 1998 12 "Solid State Physics Section, Department of Physics, University of Athens, GR-157 84 Athens, Greece" "Phys.Rev.B,58(1998)15238" 19250 PR05815238 "(La,Pr)Ba2Cu3Oz" La0.5Pr0.5Ba2Cu3OZ La 0.5 Pr 0.5 Ba 2 Cu 3 O Z 6 1998 Y123 A 3.8763 3.9207 11.741 3 K 94 0.3 94 1 A 12.9 "Polycrystallic ceramic.Solid-state reaction tequnique. Mixed powder calcinenated at 920 C and regrond,repressed and further thermally treated (four times)at 940, 960,980,990 C in oxgen atomosphere." anneal 950 C 44 h He atomosphere.The sumple furnance cooed to 500 C and annealed 24h.The process has been repeated until the amount of BaCuO2 was asymptotically reduced to constant varue. Phaseseparation and onternal strains in the mixed La0.5R0.5Ba2Cu3Oy compounds (R=rare-earth element) 1998 12 "Solid State Physics Section, Department of Physics, University of Athens, GR-157 84 Athens, Greece" "Phys.Rev.B,58(1998)15238" 19251 PR05814548 O2 flow 500 C for 7 days YBa2Cu3Oz Y1Ba2Cu3O6.93 Y 1 Ba 2 Cu 3 O 7-Z 6.93 3 1998 Y123 K 93 0.3 93 1 T/K 2.1 A 13.2 uohmcm 73 5 Phase diagram of optimally doped YBa2Cu3O7-delta: Effect of oxygen stoichiometry 1998 12 "Physics Department, Southampton University, Southampton, SO17 1BJ United Kingdom" "Phys.Rev.B,58(1998)14548" 19252 PR05814548 O2 flow 525 C for 7 days YBa2Cu3Oz Y1Ba2Cu3O6.91 Y 1 Ba 2 Cu 3 O 7-Z 6.91 3 1998 Y123 K 93 0.3 93 1 T/K 2.04 A 12.5 uohmcm 56 5 Phase diagram of optimally doped YBa2Cu3O7-delta: Effect of oxygen stoichiometry 1998 12 "Physics Department, Southampton University, Southampton, SO17 1BJ United Kingdom" "Phys.Rev.B,58(1998)14548" 19253 PR05814548 O2 flow 475 C for 7 days YBa2Cu3Oz Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O 7-Z 6.95 3 1998 Y123 K T/K 2.27 uohmcm 63 5 Phase diagram of optimally doped YBa2Cu3O7-delta: Effect of oxygen stoichiometry 1998 12 "Physics Department, Southampton University, Southampton, SO17 1BJ United Kingdom" "Phys.Rev.B,58(1998)14548" 19254 PR05815208 A YBa2Cu3Oz Y1Ba2Cu3O6.94 Y 1 Ba 2 Cu 3 O 7-Z 6.94 6 1998 Y123 K 90.5 92.5 90.5 100 "Y2O3,CuO,BaCO3,SrCO3(SrO2 x=0.75,1)" solid-state reaction .sintered in air at 950 C for 80-100h with several inter mediate cooling and grindings. "anneal:in flowing oxygen at 880C for 2h,cooled at 30 C/h down to 480 C and maintained at this temperature for 50-100h before being cooled down to room temperature." Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 19255 PR05815208 G YBa2Cu3Oz Y1Ba2Cu3O6.87 Y 1 Ba 2 Cu 3 O 7-Z 6.87 6 1998 Y123 K 93.5 93.5 93.5 100 "Y2O3,CuO,BaCO3,SrCO3(SrO2 x=0.75,1)" solid-state reaction .sintered in air at 950 C for 80-100h with several inter mediate cooling and grindings. "SrO2 pellet: sealed in in a Pyrex ampoule together with zirconium foil .The ampoule were evacurated down to to 10-5 torr,heated to 440 C for 50-100h and cooled down to room temperature." Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 19256 PR05815208 R YBa2Cu3Oz Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 7-Z 6.9 6 1998 Y123 K 92.6 92.4 92.6 100 "Y2O3,CuO,BaCO3,SrCO3(SrO2 x=0.75,1)" solid-state reaction .sintered in air at 950 C for 80-100h with several inter mediate cooling and grindings. anneal:Pressing powder sintered in air 950C overnight and cooled at rate of 100 C/h down to room temperature Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 19257 PR05815208 A "Y(Ba,Sr)2Cu3Oz" Y1Ba1.5Sr0.5Cu3O6.96 Y 1 Ba 1.5 Sr 0.5 Cu 3 O 7-Z 6.96 6 1998 Y123 A 3.799 3.87 11.621 K 89 87.2 89 98 "Y2O3,CuO,BaCO3,SrCO3(SrO2 x=0.75,1)" solid-state reaction .sintered in air at 950 C for 80-100h with several inter mediate cooling and grindings. "anneal:in flowing oxygen at 880C for 2h,cooled at 30 C/h down to 480 C and maintained at this temperature for 50-100h before being cooled down to room temperature." Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 19258 PR05815208 A "Y(Ba,Sr)2Cu3Oz" Y1Ba1Sr1Cu3O6.98 Y 1 Ba 1 Sr 1 Cu 3 O 7-Z 6.98 6 1998 Y123 A 3.784 3.853 11.562 K 82 83 82 100 "Y2O3,CuO,BaCO3,SrCO3(SrO2 x=0.75,1)" solid-state reaction .sintered in air at 950 C for 80-100h with several inter mediate cooling and grindings. "anneal:in flowing oxygen at 880C for 2h,cooled at 30 C/h down to 480 C and maintained at this temperature for 50-100h before being cooled down to room temperature." Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 19259 PR05815208 A "Y(Ba,Sr)2Cu3Oz" Y1Ba1Sr1Cu3O6.96 Y 1 Ba 1 Sr 1 Cu 3 O 7-Z 6.96 6 1998 Y123 A 3.785 3.853 11.562 K 83.5 83.5 83.5 100 "Y2O3,CuO,BaCO3,SrCO3(SrO2 x=0.75,1)" solid-state reaction .sintered in air at 950 C for 80-100h with several inter mediate cooling and grindings. "anneal:in flowing oxygen at 880C for 2h,cooled at 30 C/h down to 480 C and maintained at this temperature for 50-100h before being cooled down to room temperature." Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 19260 PR05815208 R "Y(Ba,Sr)2Cu3Oz" Y1Ba1Sr1Cu3O6.8 Y 1 Ba 1 Sr 1 Cu 3 O 7-Z 6.8 6 1998 Y123 A 3.801 3.85 11.574 K 51.5 45.5 51.5 62 "Y2O3,CuO,BaCO3,SrCO3(SrO2 x=0.75,1)" solid-state reaction .sintered in air at 950 C for 80-100h with several inter mediate cooling and grindings. anneal:Pressing powder sintered in air 950C overnight and cooled at rate of 100 C/h down to room temperature Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 19261 PR05815208 G "Y(Ba,Sr)2Cu3Oz" Y1Ba1Sr1Cu3O6.685 Y 1 Ba 1 Sr 1 Cu 3 O 7-Z 6.685 6 1998 Y123 A 3.817 3.841 11.584 K 34 34.2 34 51 "Y2O3,CuO,BaCO3,SrCO3(SrO2 x=0.75,1)" solid-state reaction .sintered in air at 950 C for 80-100h with several inter mediate cooling and grindings. "SrO2 pellet: sealed in in a Pyrex ampoule together with zirconium foil .The ampoule were evacurated down to to 10-5 torr,heated to 440 C for 50-100h and cooled down to room temperature." Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 19262 PR05815208 A "Y(Ba,Sr)2Cu3Oz" Y1Ba0.75Sr1.25Cu3O6.91 Y 1 Ba 0.75 Sr 1.25 Cu 3 O 7-Z 6.91 6 1998 Y123 K 80 81 80 84 "Y2O3,CuO,BaCO3,SrCO3(SrO2 x=0.75,1)" solid-state reaction .sintered in air at 950 C for 80-100h with several inter mediate cooling and grindings. "anneal:in flowing oxygen at 880C for 2h,cooled at 30 C/h down to 480 C and maintained at this temperature for 50-100h before being cooled down to room temperature." Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 19263 PR05815208 A "Y(Ba,Sr)2Cu3Oz" Y1Ba0.75Sr1.25Cu3O6.94 Y 1 Ba 0.75 Sr 1.25 Cu 3 O 7-Z 6.94 6 1998 Y123 A 3.783 3.845 11.539 K 74 81.2 74 81.5 "Y2O3,CuO,BaCO3,SrCO3(SrO2 x=0.75,1)" solid-state reaction .sintered in air at 950 C for 80-100h with several inter mediate cooling and grindings. "anneal:in flowing oxygen at 880C for 2h,cooled at 30 C/h down to 480 C and maintained at this temperature for 50-100h before being cooled down to room temperature." Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 19264 PR05815208 A "Y(Ba,Sr)2Cu3Oz" Y1Ba0.5Sr1.5Cu3OZ Y 1 Ba 0.5 Sr 1.5 Cu 3 O Z 6 1998 Y123 K 80 81 80 21 "Y2O3,CuO,BaCO3,SrCO3(SrO2 x=0.75,1)" solid-state reaction .sintered in air at 950 C for 80-100h with several inter mediate cooling and grindings. "anneal:in flowing oxygen at 880C for 2h,cooled at 30 C/h down to 480 C and maintained at this temperature for 50-100h before being cooled down to room temperature." Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 19265 PR05815208 R "Y(Ba,Sr)2Cu3Oz" Y1Ba0.5Sr1.5Cu3OZ Y 1 Ba 0.5 Sr 1.5 Cu 3 O Z 6 1998 Y123 K 75 81 75 18 "Y2O3,CuO,BaCO3,SrCO3(SrO2 x=0.75,1)" solid-state reaction .sintered in air at 950 C for 80-100h with several inter mediate cooling and grindings. anneal:Pressing powder sintered in air 950C overnight and cooled at rate of 100 C/h down to room temperature Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 19266 PR05815208 S "Y(Ba,Sr)2Cu3Oz" Y1Ba0.5Sr1.5Cu3OZ Y 1 Ba 0.5 Sr 1.5 Cu 3 O Z 6 1998 Y123 K 78 81 78 16 "Y2O3,CuO,BaCO3,SrCO3(SrO2 x=0.75,1)" solid-state reaction .sintered in air at 950 C for 80-100h with several inter mediate cooling and grindings. SrO2 pellet: sealed 10-5 torr and heat up to 600 C for 2h and cooled down to 500 C maintained at temperature for 10h and cooled down to room temperature Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 19267 PR05815208 "ANN(480C, in flowing O2). not s/c. multi-phase sample. " YSr2Cu3Oz Y1Sr2Cu3OZ Y 1 Sr 2 Cu 3 O Z 6 1998 Y123 K "Y2O3,CuO,BaCO3,SrCO3(SrO2 x=0.75,1)" solid-state reaction .sintered in air at 950 C for 80-100h with several inter mediate cooling and grindings. "anneal:in flowing oxygen at 880C for 2h,cooled at 30 C/h down to 480 C and maintained at this temperature for 50-100h before being cooled down to room temperature." Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 19268 PR05815208 As-grown sample. multi-phase. not s/c. YSr2Cu3Oz Y1Sr2Cu3OZ Y 1 Sr 2 Cu 3 O Z 6 1998 Y123 K "Y2O3,CuO,BaCO3,SrCO3(SrO2 x=0.75,1)" solid-state reaction .sintered in air at 950 C for 80-100h with several inter mediate cooling and grindings. anneal:Pressing powder sintered in air 950C overnight and cooled at rate of 100 C/h down to room temperature Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 19269 PR05815208 "ANN(480C, in flowing O2) + ANN(500C, in 20-30 atm O2). multi-phase sample. not s/c. " YSr2Cu3Oz Y1Sr2Cu3OZ Y 1 Sr 2 Cu 3 O Z 6 1998 Y123 K "Y2O3,CuO,BaCO3,SrCO3(SrO2 x=0.75,1)" solid-state reaction .sintered in air at 950 C for 80-100h with several inter mediate cooling and grindings. SrO2 pellet: sealed 10-5 torr and heat up to 600 C for 2h and cooled down to 500 C maintained at temperature for 10h and cooled down to room temperature Structural and electronic effects of Sr substitution for Ba in Y(Ba1-xSrx)2Cu3Ow at verying w 1998 12 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche , Via Chiavari 18/A, 43100 Parma, Italy" "Phys.Rev.B,58(1998)15208" 19300 PR05900641 film thickness=3600A "(La,Sr)2CuO4" La1.865Sr0.135Cu1O4 La 1.865 Sr 0.135 Cu 1 O 4 5 1999 T K 31 31 A mutual inductance 5900 mOhmcm 1.6 5 Crucible:YSZ(yttria-stabilized zirconia)O2 anneal 100bar 20h 700C Magnetic penetration depth in superconducting La2-xSrxCuO4 films 1999 1 "Department of Physics, Ohio State University, Columbus, Ohio 43210-1106" "Phys.Rev.B,59(1999)641" 19301 PR05900641 film thickness=2700 A. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 5 1999 T K 30.5 30.5 A mutual inductance 4500 mOhmcm 1.1 5 Crucible:YSZ(yttria-stabilized zirconia)O2 anneal 100bar 20h 700C Magnetic penetration depth in superconducting La2-xSrxCuO4 films 1999 1 "Department of Physics, Ohio State University, Columbus, Ohio 43210-1106" "Phys.Rev.B,59(1999)641" 19302 PR05900641 film thickness=5000 A. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 5 1999 T K 27.5 27.5 A mutual inductance 6000 mOhmcm 5 Crucible:YSZ(yttria-stabilized zirconia)O2 anneal 100bar 20h 700C Magnetic penetration depth in superconducting La2-xSrxCuO4 films 1999 1 "Department of Physics, Ohio State University, Columbus, Ohio 43210-1106" "Phys.Rev.B,59(1999)641" 19303 PR05900641 film thickness=1200 A. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 5 1999 T K 27 27 A mutual inductance 6600 mOhmcm 5 Crucible:YSZ(yttria-stabilized zirconia)O2 anneal 100bar 20h 700C Magnetic penetration depth in superconducting La2-xSrxCuO4 films 1999 1 "Department of Physics, Ohio State University, Columbus, Ohio 43210-1106" "Phys.Rev.B,59(1999)641" 19304 PR05900641 film thickness=1120 A. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 5 1999 T K 27 27 A mutual inductance 7400 mOhmcm 5 Crucible:YSZ(yttria-stabilized zirconia)O2 anneal 100bar 20h 700C Magnetic penetration depth in superconducting La2-xSrxCuO4 films 1999 1 "Department of Physics, Ohio State University, Columbus, Ohio 43210-1106" "Phys.Rev.B,59(1999)641" 19305 PR05900641 film thickness=1200 A. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 5 1999 T K 23 23 A mutual inductance 7600 mOhmcm 5 Crucible:YSZ(yttria-stabilized zirconia)O2 anneal 100bar 20h 700C Magnetic penetration depth in superconducting La2-xSrxCuO4 films 1999 1 "Department of Physics, Ohio State University, Columbus, Ohio 43210-1106" "Phys.Rev.B,59(1999)641" 19306 PR05900641 film thickness=900 A. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 5 1999 T K 25 25 A mutual inductance 8400 mOhmcm 5 Crucible:YSZ(yttria-stabilized zirconia)O2 anneal 100bar 20h 700C Magnetic penetration depth in superconducting La2-xSrxCuO4 films 1999 1 "Department of Physics, Ohio State University, Columbus, Ohio 43210-1106" "Phys.Rev.B,59(1999)641" 19307 PR05900641 film thickness=3400 A. "(La,Sr)2CuO4" La1.825Sr0.175Cu1O4 La 1.825 Sr 0.175 Cu 1 O 4 5 1999 T K 24 24 A mutual inductance 6000 mOhmcm 0.8 5 Crucible:YSZ(yttria-stabilized zirconia)O2 anneal 100bar 20h 700C Magnetic penetration depth in superconducting La2-xSrxCuO4 films 1999 1 "Department of Physics, Ohio State University, Columbus, Ohio 43210-1106" "Phys.Rev.B,59(1999)641" 19308 PR05900641 film thickness=5000 A. "(La,Sr)2CuO4" La1.825Sr0.175Cu1O4 La 1.825 Sr 0.175 Cu 1 O 4 5 1999 T K 27.5 27.5 A mutual inductance 7000 mOhmcm 5 Crucible:YSZ(yttria-stabilized zirconia)O2 anneal 100bar 20h 700C Magnetic penetration depth in superconducting La2-xSrxCuO4 films 1999 1 "Department of Physics, Ohio State University, Columbus, Ohio 43210-1106" "Phys.Rev.B,59(1999)641" 19309 PR05901377 non-SC "BaY(Cu,Fe)O5+z" Ba1Y1Cu0.5Fe0.5O5+D Ba 1 Y 1 Cu 0.5 Fe 0.5 O 5+D 1 1999 112 A 3.8796 7.66537 3 K "BaCO3,La2O3,Y2O3,CuO,Fe2O3" 1 calcined 900C 12h grind sinter 1000C 24h 5GPa 1200C 30min "Layered (Cu,Fe) oxides of double perovskite structure. II. Extension of solid solubility of copper in (Ba,La)Y(Cu0.5+xFe0.5-x)2O5+delta vin high-pressure heat treatment" 1999 1 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B,59(1999)1377" 19310 PR05901377 non-SC "(Ba,La)Y(Cu,Fe)O5+z" Ba0.8La0.2Y1Cu0.6Fe0.4O5+D Ba 0.8 La 0.2 Y 1 Cu 0.6 Fe 0.4 O 5+D 1 1999 112 A 3.8673 7.6497 3 K "BaCO3,La2O3,Y2O3,CuO,Fe2O3" 1 calcined 900C 12h grind sinter 1000C 24h 5GPa 1200C 30min "Layered (Cu,Fe) oxides of double perovskite structure. II. Extension of solid solubility of copper in (Ba,La)Y(Cu0.5+xFe0.5-x)2O5+delta vin high-pressure heat treatment" 1999 1 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B,59(1999)1377" 19311 PR05901377 non-SC "(Ba,La)Y(Cu,Fe)O5+z" Ba0.6La0.4Y1Cu0.7Fe0.3O5+D Ba 0.6 La 0.4 Y 1 Cu 0.7 Fe 0.3 O 5+D 1 1999 112 A 3.8981 7.624 3 K "BaCO3,La2O3,Y2O3,CuO,Fe2O3" 1 calcined 900C 12h grind sinter 1000C 24h 5GPa 1200C 30min "Layered (Cu,Fe) oxides of double perovskite structure. II. Extension of solid solubility of copper in (Ba,La)Y(Cu0.5+xFe0.5-x)2O5+delta vin high-pressure heat treatment" 1999 1 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B,59(1999)1377" 19312 PR05900192 semi-conductive La2CuO4 La2Cu1O4+Z La 2 Cu 1 O 4+Z 1 1999 T K microV/K 210 TP19312 mOhmcm 320 75 1 solid state reaction Thermopower of high-Tc cuprates 1999 1 "Phys.Rev.B, 59(1999)192" 19313 PR05900192 semi-conductive Nd2CuO4 Nd2Cu1O4-Y Nd 2 Cu 1 O 4-Y 1 1999 T' K microV/K -360 TP19313 mOhmcm 1200 150 1 solid state reaction Thermopower of high-Tc cuprates 1999 1 "Phys.Rev.B, 59(1999)192" 19314 PR05900192 "Bi2(Sr,La)2CuO6" Bi2Sr1.9La0.1Cu1O6+Z Bi 2 Sr 1.9 La 0.1 Cu 1 O 6+Z 1 1999 Bi2201 K 8 8 microV/K -16 TP19314 1 solid state reaction Thermopower of high-Tc cuprates 1999 1 "Phys.Rev.B, 59(1999)192" 19315 PR05900192 "Bi2(Sr,La)2CuO6" Bi2Sr1.8La0.2Cu1O6+Z Bi 2 Sr 1.8 La 0.2 Cu 1 O 6+Z 1 1999 Bi2201 K 12 12 microV/K -14 TP19315 1 solid state reaction Thermopower of high-Tc cuprates 1999 1 "Phys.Rev.B, 59(1999)192" 19316 PR05900192 "Bi2(Sr,La)2CuO6" Bi2Sr1.7La0.3Cu1O6+Z Bi 2 Sr 1.7 La 0.3 Cu 1 O 6+Z 1 1999 Bi2201 K 19 19 microV/K -13 TP19316 1 solid state reaction Thermopower of high-Tc cuprates 1999 1 "Phys.Rev.B, 59(1999)192" 19317 PR05900192 "Bi2(Sr,La)2CuO6" Bi2Sr1.6La0.4Cu1O6+Z Bi 2 Sr 1.6 La 0.4 Cu 1 O 6+Z 1 1999 Bi2201 K 20 20 microV/K -12 TP19317 1 solid state reaction Thermopower of high-Tc cuprates 1999 1 "Phys.Rev.B, 59(1999)192" 19318 PR05900192 "Bi2(Sr,La)2CuO6" Bi2Sr1.5La0.5Cu1O6+Z Bi 2 Sr 1.5 La 0.5 Cu 1 O 6+Z 1 1999 Bi2201 K 21 21 microV/K -6 TP19318 1 solid state reaction Thermopower of high-Tc cuprates 1999 1 "Phys.Rev.B, 59(1999)192" 19319 PR05900192 "Bi2(Sr,La)2CuO6" Bi2Sr1.4La0.6Cu1O6+Z Bi 2 Sr 1.4 La 0.6 Cu 1 O 6+Z 1 1999 Bi2201 K 11 11 microV/K 1 solid state reaction Thermopower of high-Tc cuprates 1999 1 "Phys.Rev.B, 59(1999)192" 19320 PR05900192 "Bi2(Sr,La)2CuO6" Bi2Sr1.3La0.7Cu1O6+Z Bi 2 Sr 1.3 La 0.7 Cu 1 O 6+Z 1 1999 Bi2201 K 10 10 microV/K 6 TP19320 1 solid state reaction Thermopower of high-Tc cuprates 1999 1 "Phys.Rev.B, 59(1999)192" 19321 PR05900192 "Bi2(Sr,La)2CuO6" Bi2Sr1.2La0.8Cu1O6+Z Bi 2 Sr 1.2 La 0.8 Cu 1 O 6+Z 1 1999 Bi2201 K microV/K 1 solid state reaction Thermopower of high-Tc cuprates 1999 1 "Phys.Rev.B, 59(1999)192" 19322 PR05900203 TlBa2CaCu2O7-D Tl1Ba2Ca1Cu2O7-D Tl 1 Ba 2 Ca 1 Cu 2 O 7-D 5 1999 Tl1212 A 12.66 1 K 93 93 10000000 20000 "High quality c-oriented thin file Ref[13]:D. Lepez et al., Phys. Rev. Lett. 79,4258(1997) Ref[14]:D. Lepez et al., Phys. Rev Lett. 76,4034(1996)" Giant Tc shift in HgBa2CaCu2O6+delta and TlBa2CaCu2O7-delta superconductors due to Hg-Tl exchange 1999 1 "Department of Physics and Astronomy, University of Kansas, Lawrence, Kansas 66045-2151" "Phys.Rev.B,59(1999)203" 19323 PR05900203 TlBa2CaCu2O7-D Tl1Ba2Ca1Cu2O7-D Tl 1 Ba 2 Ca 1 Cu 2 O 7-D 5 1999 Tl1212 A 12.66 1 K 92 92 10000000 20000 "High quality c-oriented thin file Ref[13]:D. Lepez et al., Phys. Rev. Lett. 79,4258(1997) Ref[14]:D. Lepez et al., Phys. Rev Lett. 76,4034(1996)" Giant Tc shift in HgBa2CaCu2O6+delta and TlBa2CaCu2O7-delta superconductors due to Hg-Tl exchange 1999 1 "Department of Physics and Astronomy, University of Kansas, Lawrence, Kansas 66045-2151" "Phys.Rev.B,59(1999)203" 19324 PR05900203 HgBa2CaCu2O6+D Hg1Ba2Ca1Cu2O6+D Hg 1 Ba 2 Ca 1 Cu 2 O 6+D 5 1999 Hg1212 A 12.67 1 K 122 122 24000000 2500000 "High quality c-oriented thin file Ref[13]:D. Lepez et al., Phys. Rev. Lett. 79,4258(1997) Ref[14]:D. Lepez et al., Phys. Rev Lett. 76,4034(1996)" Giant Tc shift in HgBa2CaCu2O6+delta and TlBa2CaCu2O7-delta superconductors due to Hg-Tl exchange 1999 1 "Department of Physics and Astronomy, University of Kansas, Lawrence, Kansas 66045-2151" "Phys.Rev.B,59(1999)203" 19325 PR05900203 HgBa2CaCu2O6+D Hg1Ba2Ca1Cu2O6+D Hg 1 Ba 2 Ca 1 Cu 2 O 6+D 5 1999 Hg1212 A 12.67 1 K 120 120 24000000 2500000 "High quality c-oriented thin file Ref[13]:D. Lepez et al., Phys. Rev. Lett. 79,4258(1997) Ref[14]:D. Lepez et al., Phys. Rev Lett. 76,4034(1996)" Giant Tc shift in HgBa2CaCu2O6+delta and TlBa2CaCu2O7-delta superconductors due to Hg-Tl exchange 1999 1 "Department of Physics and Astronomy, University of Kansas, Lawrence, Kansas 66045-2151" "Phys.Rev.B,59(1999)203" 19326 PR05900203 HgBa2CaCu2O6+D Hg1Ba2Ca1Cu2O6+D Hg 1 Ba 2 Ca 1 Cu 2 O 6+D 5 1999 Hg1212 A 12.67 1 K 123 123 24000000 2500000 "High quality c-oriented thin file Ref[13]:D. Lepez et al., Phys. Rev. Lett. 79,4258(1997) Ref[14]:D. Lepez et al., Phys. Rev Lett. 76,4034(1996)" Giant Tc shift in HgBa2CaCu2O6+delta and TlBa2CaCu2O7-delta superconductors due to Hg-Tl exchange 1999 1 "Department of Physics and Astronomy, University of Kansas, Lawrence, Kansas 66045-2151" "Phys.Rev.B,59(1999)203" 19327 PR05900725 "(La,Sr)2CuO4" La1.983Sr0.017Cu1O4 La 1.983 Sr 0.017 Cu 1 O 4 1 1999 124 T K 1 "Ref[9]:M. Breuer et al., Physica C208,217(1993) anneal 72h 625C(N2)" Mobility of holes and suppression of antiferromagnetic order in La2-xSrxCuO4 1999 1 "II. Physikalisches Institut, Universitat zu Koln, D-50937 Koln, Germany" "Phys.Rev.B,59(1999)R725" 19328 PR05900725 "(La,Sr)2(Cu,Zn)O4" La1.983Sr0.017Cu0.95Zn0.05O4 La 1.983 Sr 0.017 Cu 0.95 Zn 0.05 O 4 1 1999 142 T K 1 "Ref[9]:M. Breuer et al., Physica C208,217(1993) anneal 72h 625C(N2)" Mobility of holes and suppression of antiferromagnetic order in La2-xSrxCuO4 1999 1 "II. Physikalisches Institut, Universitat zu Koln, D-50937 Koln, Germany" "Phys.Rev.B,59(1999)R725" 19329 PR05900725 "(La,Sr)2(Cu,Zn)O4" La1.983Sr0.017Cu0.9Zn0.1O4 La 1.983 Sr 0.017 Cu 0.9 Zn 0.1 O 4 1 1999 126 T K 1 "Ref[9]:M. Breuer et al., Physica C208,217(1993) anneal 72h 625C(N2)" Mobility of holes and suppression of antiferromagnetic order in La2-xSrxCuO4 1999 1 "II. Physikalisches Institut, Universitat zu Koln, D-50937 Koln, Germany" "Phys.Rev.B,59(1999)R725" 19330 PR05900725 "(La,Sr)2(Cu,Zn)O4" La1.983Sr0.017Cu0.85Zn0.15O4 La 1.983 Sr 0.017 Cu 0.85 Zn 0.15 O 4 1 1999 110 T K 1 "Ref[9]:M. Breuer et al., Physica C208,217(1993) anneal 72h 625C(N2)" Mobility of holes and suppression of antiferromagnetic order in La2-xSrxCuO4 1999 1 "II. Physikalisches Institut, Universitat zu Koln, D-50937 Koln, Germany" "Phys.Rev.B,59(1999)R725" 19331 PR05900725 "(La,Sr)2(Cu,Zn)O4" La1.983Sr0.017Cu0.8Zn0.2O4 La 1.983 Sr 0.017 Cu 0.8 Zn 0.2 O 4 1 1999 72 T K 1 "Ref[9]:M. Breuer et al., Physica C208,217(1993) anneal 72h 625C(N2)" Mobility of holes and suppression of antiferromagnetic order in La2-xSrxCuO4 1999 1 "II. Physikalisches Institut, Universitat zu Koln, D-50937 Koln, Germany" "Phys.Rev.B,59(1999)R725" 19332 PR05900725 "(La,Sr)2(Cu,Zn)O4" La1.983Sr0.017Cu0.75Zn0.25O4 La 1.983 Sr 0.017 Cu 0.75 Zn 0.25 O 4 1 1999 31 T K 1 "Ref[9]:M. Breuer et al., Physica C208,217(1993) anneal 72h 625C(N2)" Mobility of holes and suppression of antiferromagnetic order in La2-xSrxCuO4 1999 1 "II. Physikalisches Institut, Universitat zu Koln, D-50937 Koln, Germany" "Phys.Rev.B,59(1999)R725" 19333 PR05900725 La2CuO4 La2Sr0Cu1Zn0O4 La 2 Sr 0 Cu 1 Zn 0 O 4 1 1999 280 T K 1 "Ref[9]:M. Breuer et al., Physica C208,217(1993) anneal 72h 625C(N2)" Mobility of holes and suppression of antiferromagnetic order in La2-xSrxCuO4 1999 1 "II. Physikalisches Institut, Universitat zu Koln, D-50937 Koln, Germany" "Phys.Rev.B,59(1999)R725" 19334 PR05900725 "La2(Cu,Zn)O4" La2Sr0Cu0.95Zn0.05O4 La 2 Sr 0 Cu 0.95 Zn 0.05 O 4 1 1999 231 T K 1 "Ref[9]:M. Breuer et al., Physica C208,217(1993) anneal 72h 625C(N2)" Mobility of holes and suppression of antiferromagnetic order in La2-xSrxCuO4 1999 1 "II. Physikalisches Institut, Universitat zu Koln, D-50937 Koln, Germany" "Phys.Rev.B,59(1999)R725" 19335 PR05900725 "La2(Cu,Zn)O4" La2Sr0Cu0.9Zn0.1O4 La 2 Sr 0 Cu 0.9 Zn 0.1 O 4 1 1999 180 T K 1 "Ref[9]:M. Breuer et al., Physica C208,217(1993) anneal 72h 625C(N2)" Mobility of holes and suppression of antiferromagnetic order in La2-xSrxCuO4 1999 1 "II. Physikalisches Institut, Universitat zu Koln, D-50937 Koln, Germany" "Phys.Rev.B,59(1999)R725" 19336 PR05900725 "La2(Cu,Zn)O4" La2Sr0Cu0.85Zn0.15O4 La 2 Sr 0 Cu 0.85 Zn 0.15 O 4 1 1999 152 T K 1 "Ref[9]:M. Breuer et al., Physica C208,217(1993) anneal 72h 625C(N2)" Mobility of holes and suppression of antiferromagnetic order in La2-xSrxCuO4 1999 1 "II. Physikalisches Institut, Universitat zu Koln, D-50937 Koln, Germany" "Phys.Rev.B,59(1999)R725" 19337 PR05900725 "La2(Cu,Zn)O4" La2Sr0Cu0.8Zn0.2O4 La 2 Sr 0 Cu 0.8 Zn 0.2 O 4 1 1999 112 T K 1 "Ref[9]:M. Breuer et al., Physica C208,217(1993) anneal 72h 625C(N2)" Mobility of holes and suppression of antiferromagnetic order in La2-xSrxCuO4 1999 1 "II. Physikalisches Institut, Universitat zu Koln, D-50937 Koln, Germany" "Phys.Rev.B,59(1999)R725" 19338 PR05900725 "La2(Cu,Zn)O4" La2Sr0Cu0.75Zn0.25O4 La 2 Sr 0 Cu 0.75 Zn 0.25 O 4 1 1999 75 T K 1 "Ref[9]:M. Breuer et al., Physica C208,217(1993) anneal 72h 625C(N2)" Mobility of holes and suppression of antiferromagnetic order in La2-xSrxCuO4 1999 1 "II. Physikalisches Institut, Universitat zu Koln, D-50937 Koln, Germany" "Phys.Rev.B,59(1999)R725" 19339 PR05901491 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1999 T K 36 36 microV/K mOhmcm 0.71 1.8 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19340 PR05901491 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1 1999 T K 30 26 30 microV/K 7.8 mOhmcm 0.36 1.2 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19341 PR05901491 "(La,Sr)2CuO4" La1.79Sr0.21Cu1O4 La 1.79 Sr 0.21 Cu 1 O 4 1 1999 T K 27 25 27 microV/K 6.1 mOhmcm 0.31 1.02 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19342 PR05901491 "(La,Sr)2CuO4" La1.78Sr0.22Cu1O4 La 1.78 Sr 0.22 Cu 1 O 4 1 1999 T K 21 22 21 microV/K 5.9 mOhmcm 0.6 1 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19343 PR05901491 "(La,Sr)2CuO4" La1.77Sr0.23Cu1O4 La 1.77 Sr 0.23 Cu 1 O 4 1 1999 T K 21 20 21 microV/K 2.8 mOhmcm 0.52 0.88 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19344 PR05901491 "(La,Sr)2CuO4" La1.76Sr0.24Cu1O4 La 1.76 Sr 0.24 Cu 1 O 4 1 1999 T K 16 15 16 microV/K 1.1 mOhmcm 0.3 0.74 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19345 PR05901491 "(La,Sr)2CuO4" La1.74Sr0.26Cu1O4 La 1.74 Sr 0.26 Cu 1 O 4 1 1999 T K 13 12 13 microV/K mOhmcm 0.14 0.54 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19346 PR05901491 "(La,Sr)2(Cu,Zn)O4" La1.82Sr0.18Cu0.995Zn0.005O4 La 1.82 Sr 0.18 Cu 0.995 Zn 0.005 O 4 1 1999 T K 30 28 30 microV/K 9 mOhmcm 0.43 1.2 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19347 PR05901491 "(La,Sr)2(Cu,Zn)O4" La1.81Sr0.19Cu0.995Zn0.005O4 La 1.81 Sr 0.19 Cu 0.995 Zn 0.005 O 4 1 1999 T K 29 25 29 microV/K 7 mOhmcm 0.44 1.2 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19348 PR05901491 "(La,Sr)2(Cu,Zn)O4" La1.8Sr0.2Cu0.995Zn0.005O4 La 1.8 Sr 0.2 Cu 0.995 Zn 0.005 O 4 1 1999 T K 19.5 19.5 19.5 microV/K 5.7 mOhmcm 0.8 0.91 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19349 PR05901491 "(La,Sr)2(Cu,Zn)O4" La1.79Sr0.21Cu0.995Zn0.005O4 La 1.79 Sr 0.21 Cu 0.995 Zn 0.005 O 4 1 1999 T K 20 20 20 microV/K 5.7 mOhmcm 0.98 1.12 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19350 PR05901491 "(La,Sr)2(Cu,Zn)O4" La1.78Sr0.22Cu0.995Zn0.005O4 La 1.78 Sr 0.22 Cu 0.995 Zn 0.005 O 4 1 1999 T K 20 19.5 20 microV/K 2.1 mOhmcm 0.22 0.61 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19351 PR05901491 "(La,Sr)2(Cu,Zn)O4" La1.77Sr0.23Cu0.995Zn0.005O4 La 1.77 Sr 0.23 Cu 0.995 Zn 0.005 O 4 1 1999 T K 18 16 18 microV/K 1.5 mOhmcm 0.41 0.84 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19352 PR05901491 "(La,Sr)2(Cu,Zn)O4" La1.76Sr0.24Cu0.995Zn0.005O4 La 1.76 Sr 0.24 Cu 0.995 Zn 0.005 O 4 1 1999 T K 13 12 13 microV/K 0.5 mOhmcm 0.26 0.68 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19353 PR05901491 "(La,Sr)2(Cu,Zn)O4" La1.83Sr0.17Cu0.99Zn0.01O4 La 1.83 Sr 0.17 Cu 0.99 Zn 0.01 O 4 1 1999 T K 25 24 25 microV/K 9.2 mOhmcm 0.73 1.7 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19354 PR05901491 "(La,Sr)2(Cu,Zn)O4" La1.82Sr0.18Cu0.99Zn0.01O4 La 1.82 Sr 0.18 Cu 0.99 Zn 0.01 O 4 1 1999 T K 25 24 25 microV/K 7.5 mOhmcm 0.52 1.51 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19355 PR05901491 "(La,Sr)2(Cu,Zn)O4" La1.815Sr0.185Cu0.99Zn0.01O4 La 1.815 Sr 0.185 Cu 0.99 Zn 0.01 O 4 1 1999 T K 24 24 microV/K mOhmcm 0.52 0.99 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19356 PR05901491 "(La,Sr)2(Cu,Zn)O4" La1.81Sr0.19Cu0.99Zn0.01O4 La 1.81 Sr 0.19 Cu 0.99 Zn 0.01 O 4 1 1999 T K 19 19 19 microV/K 6.5 mOhmcm 1.03 1.15 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19357 PR05901491 "(La,Sr)2(Cu,Zn)O4" La1.805Sr0.195Cu0.99Zn0.01O4 La 1.805 Sr 0.195 Cu 0.99 Zn 0.01 O 4 1 1999 T K 20 20 microV/K mOhmcm 0.95 1.4 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19358 PR05901491 "(La,Sr)2(Cu,Zn)O4" La1.8Sr0.2Cu0.99Zn0.01O4 La 1.8 Sr 0.2 Cu 0.99 Zn 0.01 O 4 1 1999 T K 21 20 21 microV/K 3.8 mOhmcm 0.6 1.44 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19359 PR05901491 "(La,Sr)2(Cu,Zn)O4" La1.79Sr0.21Cu0.99Zn0.01O4 La 1.79 Sr 0.21 Cu 0.99 Zn 0.01 O 4 1 1999 T K 20 19 20 microV/K 2.5 mOhmcm 0.96 1 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19360 PR05901491 "(La,Sr)2(Cu,Zn)O4" La1.78Sr0.22Cu0.99Zn0.01O4 La 1.78 Sr 0.22 Cu 0.99 Zn 0.01 O 4 1 1999 T K 17 14 17 microV/K 0.5 mOhmcm 0.23 0.72 "La2O3, SrCO3,CuO,ZnO" 1 solid state reaction mixed prefire 900C air 12h sinter 750C 3h 1050C 24h 500C 72h O2flow "Anomalies of Tc, resistivity, and thermoelectric power in the overdoped region of La2-xSrxCu1-yZnyO4" 1999 1 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Phys.Rev.B,59(1999)1491" 19400 PR05904504 Polycrystalline sample "(Er,Pr)Ba2Cu3O7-z" Er0.8Pr0.2Ba2Cu3O7-Z Er 0.8 Pr 0.2 Ba 2 Cu 3 O 7-Z 6 1999 Y123 A 3.817 3.884 11.67 3 K 80 80 m-ohmcm 1.1 "R2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "thepowders were reground and pressed under 40kg/cm3 into pellets, which were sintered flowing oxgen at 930 C for 30h followed by slow cooling to 680 C for 8h and slowly cooled to 450 C for 30h" "thepowders were reground and pressed under 40kg/cm3 into pellets, which were sintered flowing oxgen at 930 C for 30h followed by slow cooling to 680 C for 8h and slowly cooled to 450 C for 30h" "Ion-size effect on superconducting transition temperature Tc in R1-x-yPrxCayBa2Cu3O7-z systems (R=Er, Dy, Gd, Eu, Sm, and Nd)" 1999 2 "Department of Physics, National Tsing Hua University, Hsinchu, 300, Taiwan, Republic of China" "Phys.Rev.B,59(1999)4504" 19401 PR05904504 Polycrystalline sample "(Er,Pr,Ca)Ba2Cu3O7-z" Er0.75Pr0.2Ca0.05Ba2Cu3O7-Z Er 0.75 Pr 0.2 Ca 0.05 Ba 2 Cu 3 O 7-Z 1 1999 Y123 A 3.82 3.883 11.672 3 K 80 80 "R2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "thepowders were reground and pressed under 40kg/cm3 into pellets, which were sintered flowing oxgen at 930 C for 30h followed by slow cooling to 680 C for 8h and slowly cooled to 450 C for 30h" "thepowders were reground and pressed under 40kg/cm3 into pellets, which were sintered flowing oxgen at 930 C for 30h followed by slow cooling to 680 C for 8h and slowly cooled to 450 C for 30h" "Ion-size effect on superconducting transition temperature Tc in R1-x-yPrxCayBa2Cu3O7-z systems (R=Er, Dy, Gd, Eu, Sm, and Nd)" 1999 2 "Department of Physics, National Tsing Hua University, Hsinchu, 300, Taiwan, Republic of China" "Phys.Rev.B,59(1999)4504" 19402 PR05904504 Polycrystalline sample "(Er,Pr,Ca)Ba2Cu3O7-z" Er0.7Pr0.2Ca0.1Ba2Cu3O7-Z Er 0.7 Pr 0.2 Ca 0.1 Ba 2 Cu 3 O 7-Z 1 1999 Y123 A 3.8205 3.882 11.67 3 K 78 78 m-ohmcm 0.78 "R2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "thepowders were reground and pressed under 40kg/cm3 into pellets, which were sintered flowing oxgen at 930 C for 30h followed by slow cooling to 680 C for 8h and slowly cooled to 450 C for 30h" "thepowders were reground and pressed under 40kg/cm3 into pellets, which were sintered flowing oxgen at 930 C for 30h followed by slow cooling to 680 C for 8h and slowly cooled to 450 C for 30h" "Ion-size effect on superconducting transition temperature Tc in R1-x-yPrxCayBa2Cu3O7-z systems (R=Er, Dy, Gd, Eu, Sm, and Nd)" 1999 2 "Department of Physics, National Tsing Hua University, Hsinchu, 300, Taiwan, Republic of China" "Phys.Rev.B,59(1999)4504" 19403 PR05904504 Polycrystalline sample "(Er,Pr,Ca)Ba2Cu3O7-z" Er0.6Pr0.2Ca0.2Ba2Cu3O7-Z Er 0.6 Pr 0.2 Ca 0.2 Ba 2 Cu 3 O 7-Z 1 1999 Y123 A 3.82 3.879 11.665 3 K 74 74 m-ohmcm 0.52 "R2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "thepowders were reground and pressed under 40kg/cm3 into pellets, which were sintered flowing oxgen at 930 C for 30h followed by slow cooling to 680 C for 8h and slowly cooled to 450 C for 30h" "thepowders were reground and pressed under 40kg/cm3 into pellets, which were sintered flowing oxgen at 930 C for 30h followed by slow cooling to 680 C for 8h and slowly cooled to 450 C for 30h" "Ion-size effect on superconducting transition temperature Tc in R1-x-yPrxCayBa2Cu3O7-z systems (R=Er, Dy, Gd, Eu, Sm, and Nd)" 1999 2 "Department of Physics, National Tsing Hua University, Hsinchu, 300, Taiwan, Republic of China" "Phys.Rev.B,59(1999)4504" 19404 PR05904504 Polycrystalline sample "(Er,Pr,Ca)Ba2Cu3O7-z" Er0.5Pr0.2Ca0.3Ba2Cu3O7-Z Er 0.5 Pr 0.2 Ca 0.3 Ba 2 Cu 3 O 7-Z 1 1999 Y123 A 3.824 3.876 11.688 3 K 71 71 m-ohmcm 0.37 "R2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "thepowders were reground and pressed under 40kg/cm3 into pellets, which were sintered flowing oxgen at 930 C for 30h followed by slow cooling to 680 C for 8h and slowly cooled to 450 C for 30h" "thepowders were reground and pressed under 40kg/cm3 into pellets, which were sintered flowing oxgen at 930 C for 30h followed by slow cooling to 680 C for 8h and slowly cooled to 450 C for 30h" "Ion-size effect on superconducting transition temperature Tc in R1-x-yPrxCayBa2Cu3O7-z systems (R=Er, Dy, Gd, Eu, Sm, and Nd)" 1999 2 "Department of Physics, National Tsing Hua University, Hsinchu, 300, Taiwan, Republic of China" "Phys.Rev.B,59(1999)4504" 19405 PR05904504 Polycrystalline sample "(Er,Pr)Ba2Cu3O7-z" Er0.9Pr0.1Ba2Cu3O7-Z Er 0.9 Pr 0.1 Ba 2 Cu 3 O 7-Z 1 1999 Y123 K 80 80 m-ohmcm 0.75 "R2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "thepowders were reground and pressed under 40kg/cm3 into pellets, which were sintered flowing oxgen at 930 C for 30h followed by slow cooling to 680 C for 8h and slowly cooled to 450 C for 30h" "thepowders were reground and pressed under 40kg/cm3 into pellets, which were sintered flowing oxgen at 930 C for 30h followed by slow cooling to 680 C for 8h and slowly cooled to 450 C for 30h" "Ion-size effect on superconducting transition temperature Tc in R1-x-yPrxCayBa2Cu3O7-z systems (R=Er, Dy, Gd, Eu, Sm, and Nd)" 1999 2 "Department of Physics, National Tsing Hua University, Hsinchu, 300, Taiwan, Republic of China" "Phys.Rev.B,59(1999)4504" 19406 PR05904504 Polycrystalline sample "(Er,Pr,Ca)Ba2Cu3O7-z" Er0.85Pr0.1Ca0.05Ba2Cu3O7-Z Er 0.85 Pr 0.1 Ca 0.05 Ba 2 Cu 3 O 7-Z 1 1999 Y123 K 82 82 m-ohmcm 0.41 "R2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "thepowders were reground and pressed under 40kg/cm3 into pellets, which were sintered flowing oxgen at 930 C for 30h followed by slow cooling to 680 C for 8h and slowly cooled to 450 C for 30h" "thepowders were reground and pressed under 40kg/cm3 into pellets, which were sintered flowing oxgen at 930 C for 30h followed by slow cooling to 680 C for 8h and slowly cooled to 450 C for 30h" "Ion-size effect on superconducting transition temperature Tc in R1-x-yPrxCayBa2Cu3O7-z systems (R=Er, Dy, Gd, Eu, Sm, and Nd)" 1999 2 "Department of Physics, National Tsing Hua University, Hsinchu, 300, Taiwan, Republic of China" "Phys.Rev.B,59(1999)4504" 19407 PR05904504 Polycrystalline sample "(Er,Pr,Ca)Ba2Cu3O7-z" Er0.8Pr0.1Ca0.1Ba2Cu3O7-Z Er 0.8 Pr 0.1 Ca 0.1 Ba 2 Cu 3 O 7-Z 1 1999 Y123 K 77 77 m-ohmcm 0.47 "R2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "thepowders were reground and pressed under 40kg/cm3 into pellets, which were sintered flowing oxgen at 930 C for 30h followed by slow cooling to 680 C for 8h and slowly cooled to 450 C for 30h" "thepowders were reground and pressed under 40kg/cm3 into pellets, which were sintered flowing oxgen at 930 C for 30h followed by slow cooling to 680 C for 8h and slowly cooled to 450 C for 30h" "Ion-size effect on superconducting transition temperature Tc in R1-x-yPrxCayBa2Cu3O7-z systems (R=Er, Dy, Gd, Eu, Sm, and Nd)" 1999 2 "Department of Physics, National Tsing Hua University, Hsinchu, 300, Taiwan, Republic of China" "Phys.Rev.B,59(1999)4504" 19408 PR05904504 Polycrystalline sample "(Er,Pr,Ca)Ba2Cu3O7-z" Er0.7Pr0.1Ca0.2Ba2Cu3O7-Z Er 0.7 Pr 0.1 Ca 0.2 Ba 2 Cu 3 O 7-Z 1 1999 Y123 K 73 73 m-ohmcm 0.58 "R2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "thepowders were reground and pressed under 40kg/cm3 into pellets, which were sintered flowing oxgen at 930 C for 30h followed by slow cooling to 680 C for 8h and slowly cooled to 450 C for 30h" "thepowders were reground and pressed under 40kg/cm3 into pellets, which were sintered flowing oxgen at 930 C for 30h followed by slow cooling to 680 C for 8h and slowly cooled to 450 C for 30h" "Ion-size effect on superconducting transition temperature Tc in R1-x-yPrxCayBa2Cu3O7-z systems (R=Er, Dy, Gd, Eu, Sm, and Nd)" 1999 2 "Department of Physics, National Tsing Hua University, Hsinchu, 300, Taiwan, Republic of China" "Phys.Rev.B,59(1999)4504" 19409 PR05903827 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 5 1999 T K 43 43 K/Kbar 0.23 m-ohmcm 100 56 390 Optimal superconductivity in La2-xSrCuO4 1999 2 "Texas Materials Science, University of Texas at Austin, Texas 78712" "Phys.Rev.B,59(1999)3827" 19410 PR05903948 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.919Zn0.081O6.7 Y 1 Ba 2 Cu 2.919 Zn 0.081 O Z 6.7 3 1999 Y123 K 17 17 m-ohmcm 330 310 845 5 anneal:500-600 C 1-2days together with sintered blocks Zdetermined by ICP method and the waight of the sintered block. X determined by ICP method (error of less than +-0.1%) anneal:500-600 C 1-2days together with sintered blocks Zdetermined by ICP method and the waight of the sintered block. X determined by ICP method (error of less than +-0.1%) Charge localization from local destruction of antiferromagnetic correlation in Zn-doped YBa2Cu3O7-delta 1999 2 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,59(1999)R3948" 19411 PR05903948 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.931Zn0.069O6.7 Y 1 Ba 2 Cu 2.931 Zn 0.069 O Z 6.7 3 1999 Y123 K 28 28 m-ohmcm 250 255 790 5 anneal:500-600 C 1-2days together with sintered blocks Zdetermined by ICP method and the waight of the sintered block. X determined by ICP method (error of less than +-0.1%) anneal:500-600 C 1-2days together with sintered blocks Zdetermined by ICP method and the waight of the sintered block. X determined by ICP method (error of less than +-0.1%) Charge localization from local destruction of antiferromagnetic correlation in Zn-doped YBa2Cu3O7-delta 1999 2 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,59(1999)R3948" 19412 PR05903948 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.961Zn0.039O6.7 Y 1 Ba 2 Cu 2.961 Zn 0.039 O Z 6.7 3 1999 Y123 K 38 38 m-ohmcm 180 130 680 5 anneal:500-600 C 1-2days together with sintered blocks Zdetermined by ICP method and the waight of the sintered block. X determined by ICP method (error of less than +-0.1%) anneal:500-600 C 1-2days together with sintered blocks Zdetermined by ICP method and the waight of the sintered block. X determined by ICP method (error of less than +-0.1%) Charge localization from local destruction of antiferromagnetic correlation in Zn-doped YBa2Cu3O7-delta 1999 2 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,59(1999)R3948" 19413 PR05903948 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.931Zn0.069O6.6 Y 1 Ba 2 Cu 2.931 Zn 0.069 O Z 6.6 3 1999 Y123 K 20 20 m-ohmcm 320 290 1050 5 anneal:500-600 C 1-2days together with sintered blocks Zdetermined by ICP method and the waight of the sintered block. X determined by ICP method (error of less than +-0.1%) anneal:500-600 C 1-2days together with sintered blocks Zdetermined by ICP method and the waight of the sintered block. X determined by ICP method (error of less than +-0.1%) Charge localization from local destruction of antiferromagnetic correlation in Zn-doped YBa2Cu3O7-delta 1999 2 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,59(1999)R3948" 19414 PR05903948 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.931Zn0.069O6.5 Y 1 Ba 2 Cu 2.931 Zn 0.069 O Z 6.5 3 1999 Y123 K m-ohmcm 670 1490 5 anneal:500-600 C 1-2days together with sintered blocks Zdetermined by ICP method and the waight of the sintered block. X determined by ICP method (error of less than +-0.1%) anneal:500-600 C 1-2days together with sintered blocks Zdetermined by ICP method and the waight of the sintered block. X determined by ICP method (error of less than +-0.1%) Charge localization from local destruction of antiferromagnetic correlation in Zn-doped YBa2Cu3O7-delta 1999 2 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,59(1999)R3948" 19415 PR05903948 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.919Zn0.081O6.75 Y 1 Ba 2 Cu 2.919 Zn 0.081 O Z 6.75 3 1999 Y123 K 20 20 m-ohmcm 250 245 590 5 anneal:500-600 C 1-2days together with sintered blocks Zdetermined by ICP method and the waight of the sintered block. X determined by ICP method (error of less than +-0.1%) anneal:500-600 C 1-2days together with sintered blocks Zdetermined by ICP method and the waight of the sintered block. X determined by ICP method (error of less than +-0.1%) Charge localization from local destruction of antiferromagnetic correlation in Zn-doped YBa2Cu3O7-delta 1999 2 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,59(1999)R3948" 19416 PR05903948 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.919Zn0.081O6.8 Y 1 Ba 2 Cu 2.919 Zn 0.081 O Z 6.8 3 1999 Y123 K 24 24 m-ohmcm 200 185 430 5 anneal:500-600 C 1-2days together with sintered blocks Zdetermined by ICP method and the waight of the sintered block. X determined by ICP method (error of less than +-0.1%) anneal:500-600 C 1-2days together with sintered blocks Zdetermined by ICP method and the waight of the sintered block. X determined by ICP method (error of less than +-0.1%) Charge localization from local destruction of antiferromagnetic correlation in Zn-doped YBa2Cu3O7-delta 1999 2 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,59(1999)R3948" 19417 PR05903948 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.919Zn0.081O6.83 Y 1 Ba 2 Cu 2.919 Zn 0.081 O Z 6.83 3 1999 Y123 K 28 28 m-ohmcm 180 150 395 5 anneal:500-600 C 1-2days together with sintered blocks Zdetermined by ICP method and the waight of the sintered block. X determined by ICP method (error of less than +-0.1%) anneal:500-600 C 1-2days together with sintered blocks Zdetermined by ICP method and the waight of the sintered block. X determined by ICP method (error of less than +-0.1%) Charge localization from local destruction of antiferromagnetic correlation in Zn-doped YBa2Cu3O7-delta 1999 2 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,59(1999)R3948" 19418 PR05904390 YBa2Cu3O7-d Y1Ba2Cu3O7-Z Y 1 Ba 2 Cu 3 O 7-Z 5 1999 Y123 K 89.5 0.5 89.5 nm micro wave 160 6.4 Optimal conductivity in YBa2Cu3O7-delta thin films 1999 2 "Institut fur Physik, Universitat Augsburg, D-86135 Augsburg, Germany" "Phys.Rev.B,59(1999)4390" 19419 PR05903870 "Nd(Ba,Nd)2Cu3O6+z" Nd1Ba2Cu3O6.09 Nd 1 Ba 2 Cu 3 O Z 6.09 3 1999 376 Y123 A 3.898 11.882 1 K 90.5 1.5 90.5 "slow-cooling method(ref33) The grouth was in air at pressure of 70 mbar. X=0(x=0.08) sample was started at 1283K(1313K) and cooling rate 0.8K/h(1K/h) .anneal in 1 bar O2 873-673K , 500-600h" "slow-cooling method(ref33) The grouth was in air at pressure of 70 mbar. X=0(x=0.08) sample was started at 1283K(1313K) and cooling rate 0.8K/h(1K/h) .anneal in 1 bar O2 873-673K , 500-600h" Antiferromagnetic ordering states of oxygen-deficient NdBa2Cu3O6+delta and Nd1+yBa2-yCu3O6+x single crystals 1999 2 "Forschungszentrum Kalsruhe, INFP and ITP, P.O. Box 3640, D-76021 Kaelsruhe, Germany" "Phys.Rev.B,59(1999)3870" 19420 PR05903870 "Nd(Ba,Nd)2Cu3O6+z" Nd1Ba2Cu3O6.23 Nd 1 Ba 2 Cu 3 O Z 6.23 3 1999 289 Y123 A 3.9 11.79 1 K 60.5 1.5 60.5 "slow-cooling method(ref33) The grouth was in air at pressure of 70 mbar. X=0(x=0.08) sample was started at 1283K(1313K) and cooling rate 0.8K/h(1K/h) .anneal in 1 bar O2 873-673K , 500-600h" "slow-cooling method(ref33) The grouth was in air at pressure of 70 mbar. X=0(x=0.08) sample was started at 1283K(1313K) and cooling rate 0.8K/h(1K/h) .anneal in 1 bar O2 873-673K , 500-600h" Antiferromagnetic ordering states of oxygen-deficient NdBa2Cu3O6+delta and Nd1+yBa2-yCu3O6+x single crystals 1999 2 "Forschungszentrum Kalsruhe, INFP and ITP, P.O. Box 3640, D-76021 Kaelsruhe, Germany" "Phys.Rev.B,59(1999)3870" 19421 PR05903870 "Nd(Ba,Nd)2Cu3O6+z" Nd1.08Ba1.92Cu3O6.17 Nd 1.08 Ba 1.92 Cu 3 O Z 6.17 3 1999 385 Y123 A 3.89 11.814 1 K 77.5 1.5 77.5 "slow-cooling method(ref33) The grouth was in air at pressure of 70 mbar. X=0(x=0.08) sample was started at 1283K(1313K) and cooling rate 0.8K/h(1K/h) .anneal in 1 bar O2 873-673K , 500-600h" "slow-cooling method(ref33) The grouth was in air at pressure of 70 mbar. X=0(x=0.08) sample was started at 1283K(1313K) and cooling rate 0.8K/h(1K/h) .anneal in 1 bar O2 873-673K , 500-600h" Antiferromagnetic ordering states of oxygen-deficient NdBa2Cu3O6+delta and Nd1+yBa2-yCu3O6+x single crystals 1999 2 "Forschungszentrum Kalsruhe, INFP and ITP, P.O. Box 3640, D-76021 Kaelsruhe, Germany" "Phys.Rev.B,59(1999)3870" 19422 PR05903385 PrBa2Cu4O8 Pr1Ba2Cu4O8 Pr 1 Ba 2 Cu 4 O 8 1 1999 Y124 K m-ohmcm 0.33 0.65 0.7 Solid state reaction tecnique(ref2) Solid state reaction tecnique(ref2) Pressure effect on quasi-one-dimensional charge transport in PrBa2Cu4O8: Magnetotransport study 1999 2 "Superconductivity Research Laboratory, International Superconductivity Technology Cenyer, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Phys.Rev.B,59(1999)3385" 19501 PR05906635 grain aligned sample. anisotropy factor = 4.8 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 8 1 1999 Y124 1 K 81.5 81.5 A ac susceptibility 1270 6150 at 935 C in oxygen 6MPa pressure the nitrate being first decomposed by slow heating to 710 C in air and it was racted as die-pressed pellets for 96h with intermediate milling and plletizing every 16h Effects of the Cu-O chains on the anisotropic penetration depth of YBa2Cu4O8 1999 "IRC in Superconductivity, University of Cambridge, Nadingley Road, Cambridge CB3 OHE, United Kingdom" "Phys.Rev.B,59(1999)R6635" 19502 PR05907209 HgBa2CuO4+Z Hg1Ba2Cu1O4.06 Hg 1 Ba 2 Cu 1 O 4+Z 4.06 1999 Hg1201 A 3.88723 9.5372 A/Ma -12.27 -48 K 75 75 anneald in argon flow at 350 C Structure of HgBa2CuO4+delta(0.06)" "HgSr2(La,Ca,Ce)Cu2O6" Hg1Sr2La0.3Ca0.5Ce0.2Cu2O6+z Hg 1 Sr 2 La 0.3 Ca 0.5 Ce 0.2 Cu 2 O 6+z 1 1995 2 Hg1212 A 3.855 11.77 1 K 81 81 "R,Ce,Cu and Hg oxides,Sr(CO3)2" 1 "precursor(R-Ce-O)-addition of HgO-pellet-heat(750C,4GPa, 5min) in high-pressure chamber of the RtoroidRtype." 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20105 SOV0010003 "Single phase HgSr2(La,Ca,Ce)Cu2O6(structure 1212,in which Hg-O bond is along<110>)" "HgSr2(La,Ca,Ce)Cu2O6" Hg1Sr2La0.3Ca0.4Ce0.3Cu2O6+z Hg 1 Sr 2 La 0.3 Ca 0.4 Ce 0.3 Cu 2 O 6+z 1 1995 2 Hg1212 A 3.826 12.08 1 K 4.2 "R,Ce,Cu and Hg oxides,Sr(CO3)2" 1 "precursor(R-Ce-O)-addition of HgO-pellet-heat(750C,4GPa, 5min) in high-pressure chamber of the RtoroidRtype." 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20106 SOV0010003 "Two-phase sample:1)HgSr2(La,Ca)Cu2O6(phase1212) and 2)Hg(La,Sr)Cu2O4(phase 1201)." "HgSr2(La,Ca)Cu2O6" Hg1Sr2La0.5Ca0.5Cu2O6+z Hg 1 Sr 2 La 0.5 Ca 0.5 Cu 2 O 6+z 2 1995 2 Hg1212 A 3.395 12.36 1 K 54 54 "R,Ce,Cu and Hg oxides,Sr(CO3)2" 1 "precursor(R-Ce-O)-addition of HgO-pellet-heat(750C,4GPa, 5min) in high-pressure chamber of the RtoroidRtype." 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20107 SOV0010003 Single phase HgSr2CaCu2O6(structure 1201) HgSr2CaCu2O6 Hg1Sr2Ca1Cu2O6+z Hg 1 Sr 2 Ca 1 Cu 2 O 6+z 1 1995 2 Hg1201 A 3.867 8.64 1 K 4.2 "Cu and Hg oxides,Sr(CO3)2" 1 "precursor(Sr-Ca-Cu-O)-addition of HgO-pellet-heat(800C,SGPa,5min) in high-pressure chamber of the RtoriedR type." 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20108 SOV0010003 "Two-phase sample:1)(Hg,Cu)Sr2LaCu2O6(phase1212,)(Hg-Cu)-O bond along <100>) and 2)HgSr2LaCu2O6 (phase 1212,Hg-O bond along<110>)with LATA=3.873(3) ATC=12.40(8)" HgSr2LaCu2O6 Hg1Sr2La1Cu2O6+z Hg 1 Sr 2 La 1 Cu 2 O 6+z 2 1995 2 Hg1212 A 3.834 11.56 1 K 28 28 "La,Cu and Hg oxides,Sr(CO3)2" 1 "precursor(La-Cu-Ca-O)-addition of HgO-pellet-heat (850C,4Gpa,5min) in high-pressure chamber of the RtoridR type" 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20109 SOV0010003 "Two-phase sample:1)HgSr2(La,Ca)Cu2O6(phase1212 withHg-O bond along<110>) and 2)HgSr2(La,Ca)Cu2O6(phase 1212 with Hg-O or(Hg,Cu)-O bond along)with LATA=3.845(5), LATC=11.73(4)." "HgSr2(La,Ca)Cu2O6" Hg1Sr2La0.5Ca0.5Cu2O6+z Hg 1 Sr 2 La 0.5 Ca 0.5 Cu 2 O 6+z 2 1995 2 Hg1212 A 3.884 12.23 1 K 51 51 "R,Ce,Cu and Hg oxides,Sr(CO3)2" 1 "precursor(R-Ce-O)-addition of HgO-pellet-heat(750C,4GPa, 5min) in high-pressure chamber of the RtoroidRtype." 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20110 SOV0010003 "Single phase HgSr2(La,Ca)Cu2O6(structure 1212,in which Hg-O bond is along<110>)" "HgSr2(La,Ca)Cu2O6" Hg1Sr2La0.5Ca0.5Cu2O6+z Hg 1 Sr 2 La 0.5 Ca 0.5 Cu 2 O 6+z 1 1995 2 Hg1212 A 3.857 12.17 1 K 4.2 "La,Cu and Hg Oxides,Sr(CO3)2" 1 "precursor(La-Cu-Sr-O)+ HgO-pellet heat treatment (750C,4Gpa,15min) in high-pressure chamber of the RtoroidR type" 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20111 SOV0010003 "Single phase HgSr2(Pr,Ce)Cu2O6(structure 1212,in wich Hg-O bond is along<110>)" "HgSr2(Pr,Ce)Cu2O6" Hg1Sr2Pr0.333Ce0.667Cu2O6+z Hg 1 Sr 2 Pr 0.333 Ce 0.667 Cu 2 O 6+z 1 1995 2 Hg1212 A 3.856 12.2 1 K 4.2 "Pr,Ce,Cu and Hg oxides,Sr(CO3)2" 1 "precursor(Pr-Ce-Cu-Sr-O)+HgO-pellet heat treatment(750C, 3 GPa, 5min)in high-pressure chamber of the RtoroidR type." 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20112 SOV0010003 "Multiphase sample with Hg1212,Hg2212,CeO2,CuO" "HgSr2(Pr,Ce)Cu2O6" Hg1Sr2Pr0.333Ce0.667Cu2O6+z Hg 1 Sr 2 Pr 0.333 Ce 0.667 Cu 2 O 6+z 2 1995 2 Hg1212 A 3.857 12.23 K 40 40 "Pr,Ce,Cu and Hg oxides Sr(CO3)2" 1 "precursor (Pr-Ce-Cu-Sr-O)+ HgO-pellet heat treatment(800C,3.5 GPa, 5min)in high-pressure chamber of the RtoroidR type" 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20113 SOV0010003 "Single phase HgSr2(Nd,Ce)Cu2O6(structure 1212,in which Hg-O bond is along<110>)" "Hgsr2(Nd,Ce)Cu2O6" Hg1Sr2Nd0.333Ce0.667Cu2O6+z Hg 1 Sr 2 Nd 0.333 Ce 0.667 Cu 2 O 6+z 1 1995 2 Hg1212 A 3.859 12.189 1 K 4.2 "R,Ce,Cu and Hg oxides,Sr(CO3)2" 1 "precursor(R-Ce-O)-addition of HgO-pellet-heat(750C,4GPa, 5min) in high-pressure chamber of the RtoroidRtype." 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20114 SOV0010003 "Single phase HgSr2(Nd,Ce)Cu2O6(structure 1212,in wichi Hg-O bond is along<110>)" "HgSr2(Nd,Ce)Cu2O6" Hg1Sr2Nd0.333Ce2Cu2O6+z Hg 1 Sr 2 Nd 0.333 Ce 2 Cu 2 O 6+z 2 1995 2 Hg1212 A 3.834 12.14 1 K 4.2 "La,Ce,Cu and Hg oxides,Sr(CO3)21" 1 "precursor(La-Ce,-Cu-O)-addition of HgO-pellet-heat(850C,3GPa,5min) in high-pressure chamber of the RtoroidR type." 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20115 SOV0010003 "Two-phase sample:1)HgSr2(Nd,Ca)Cu2O6(structure 1212,in which Hg-O bond is along <110>;2)Hg2Sr4(Nd,Ca)Cu2OZ(phase2212)or Hg2Sr4(Nd,Ca)3Cu5OZ(phase2435)withLATA=3.853(2),LATC=14.00(5)2=28.00(5)." "HgSr2(Nd,Ca)Cu2O6" Hg1Sr2Nd0.925Ca0.075Cu2O6+z Hg 1 Sr 2 Nd 0.925 Ca 0.075 Cu 2 O 6+z 2 1995 2 Hg1212 A 3.855 12.07 1 K 56 56 "R,Ce,Cu and Hg oxides,Sr(CO3)2" 1 "precursor(R-Ce-O)-addition of HgO-pellet-heat(750C,4GPa, 5min) in high-pressure chamber of the RtoroidRtype." 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20116 SOV0010003 "Single phase HgSr2(Nd,Ca,Ce)Cu2O6(structure 1212,in which Hg-O bond is along<110>)" "HgSr2(Nd,Ca,Ce)Cu2O6" Hg1Sr2Nd0.3Ca0.5Ce0.2Cu2O6+z Hg 1 Sr 2 Nd 0.3 Ca 0.5 Ce 0.2 Cu 2 O 6+z 1 1995 2 Hg1212 A 3.831 12.08 1 K 4.2 "R,Ce,Cu and Hg oxides,Sr(CO3)2" 1 "precursor (R-Ce-Cu-Sr-O)+HgO-pellet heat treatment(800C,3 GPa,5min)in high-pressure chamber of the RtoriedR type" 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20117 SOV0010003 "Two-phase sample:1)HgSr2(Sm,Ce)Cu2O6(Phase 1212 withHg-O bond along<110>)and 2)HgSr2(Sm,Ce)Cu2O6([hase1212**with Hg-O) or(Hg,Cu)-O bond along)withLATA=3.827(7),LATC=11.73(4)" "HgSr2(Sm,Ce)Cu2O6" Hg1Sr2Sm0.333Ce0.667Cu2O6+z Hg 1 Sr 2 Sm 0.333 Ce 0.667 Cu 2 O 6+z 2 1995 2 Hg1212 A 3.853 12.18 1 K 40 40 "R,Ce,Cu and Hg oxides,Sr(CO3)2" 1 "precursor(R-Ce-O)-addition of HgO-pellet-heat(750C,4GPa, 5min) in high-pressure chamber of the RtoroidRtype." 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20118 SOV0010003 "Two-phase sample:1)HgSr2(Sm,Ce)Cu2O6(structure1212,in which hg-O bond is along<110>;2) Hg2Sr4(Sm,Ce)Cu2OZ (phase2212)or Hg2Sr4(Nd,Ca)3Cu5OZ(phase2435)withLATA=3.845(5), LATC=14.10(5) 2=28.20(5)" "HgSr2(Sm,Ce)Cu2O6" Hg1Sr2Sm0.667Ce0.333Cu2O6+z Hg 1 Sr 2 Sm 0.667 Ce 0.333 Cu 2 O 6+z 2 1995 2 Hg1212 A 3.842 12.04 1 K 4.2 "R,Ce,Cu and Hg oxides,Sr(CO3)2" 1 "precursor(R-Ce-O)-addition of HgO-pellet-heat(750C,4GPa, 5min) in high-pressure chamber of the RtoroidRtype." 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20119 SOV0010003 "Single phase HgSr2(Eu,Ca)Cu2O6(structure 1212,in wich Hg-O bond is along<110>)" "HgSr2(Eu,Ca)Cu2O6" Hg1Sr2Eu0.5Ca0.5Cu2O6+z Hg 1 Sr 2 Eu 0.5 Ca 0.5 Cu 2 O 6+z 1 1995 2 Hg1212 A 3.835 12.03 1 K 4.2 "R,Ce,Cu and Hg oxides,Sr(CO3)2" 1 "precursor(R-Ce-O)-addition of HgO-pellet-heat(750C,4GPa, 5min) in high-pressure chamber of the RtoroidRtype." 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20120 SOV0010003 "Single phase HgSr2(Gd,Ce)Cu2O6 (structure 1212,in which Hg-O bond is along<110>)" "HgSr2(Gd,Ce)Cu2O6" Hg1Sr2Gd0.667Ce0.333Cu2O6+z Hg 1 Sr 2 Gd 0.667 Ce 0.333 Cu 2 O 6+z 1 1995 2 Hg1212 A 3.833 11.99 1 K 4.2 "R,Ce,Cu and Hg oxides,Sr(CO3)2" 1 "precursor(R-Ce-O)-addition of HgO-pellet-heat(750C,4GPa, 5min) in high-pressure chamber of the RtoroidRtype." 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20121 SOV0010003 Structure not indicated in the paper. "HgSr2(Tb,Ce)Cu2O6" Hg1Sr2Tp0.333Ce0.667Cu2O6+z Hg 1 Sr 2 Tp 0.333 Ce 0.667 Cu 2 O 6+z 1 1995 A 3.8 11.99 1 K 4.2 "R,Ce,Cu and Hg oxides,Sr(CO3)2" 1 "precursor(R-Ce-O)-addition of HgO-pellet-heat(750C,4GPa, 5min) in high-pressure chamber of the RtoroidRtype." 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20122 SOV0010003 "Single phase HgSr2(Dy,Ce)Cu2O6(structure 1212,in which Hg-O bond is along<110>)" "HgSr2(Dy,Ce)Cu2O6" Hg1Sr2Dy0.667Ce0.333Cu2O6+z Hg 1 Sr 2 Dy 0.667 Ce 0.333 Cu 2 O 6+z 1 1995 2 Hg1212 A 3.825 12.02 1 K 4.2 "R,Ce,Cu and Hg oxides,Sr(CO3)2" 1 "precursor(R-Ce-O)-addition of HgO-pellet-heat(750C,4GPa, 5min) in high-pressure chamber of the RtoroidRtype." 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20123 SOV0010003 "Single phase Hg(Sr,Y)(Y,Ce)Cu2O6(structure 1212,in which Hg-O bond is along<110>)" "Hg(Sr,Y)(Y,Ce)Cu2O6" Hg1Sr0.85Y0.9Ce0.25Cu2O6+z Hg 1 Sr 0.85 Y 0.9 Ce 0.25 Cu 2 O 6+z 1 1995 2 Hg1212 A 3.815 12.04 1 K 4.2 "R,Ce,Cu and Hg oxides,Sr(CO3)2" 1 "precursor(R-Ce-O)-addition of HgO-pellet-heat(750C,4GPa, 5min) in high-pressure chamber of the RtoroidRtype." 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20124 SOV0010003 "Single phase HgSr2(Ho,Ce)Cu2O6(structure 1212,in which Hg-O bond is along<110>)" "HgSr2(Ho,Ce)Cu206" Hg1Sr2Ho0.333Ce0.667Cu2O6=z Hg 1 Sr 2 Ho 0.333 Ce 0.667 Cu 2 O 6=z 1 1995 2 Hg1212 A 3.833 11.93 1 K 72 72 "R,Ce,Cu and Hg oxides,Sr(CO3)2" 1 "precursor(R-Ce-O)-addition of HgO-pellet-heat(750C,4GPa, 5min) in high-pressure chamber of the RtoroidRtype." 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20125 SOV0010003 "Single phase HgSr2(Ho,Ce)Cu2O6(structure 1212,in which Hg-O bond is along<110>)" "HgSr2(Ho,Ce)Cu2O6" Hg1Sr2Ho0.667Ce0.333Cu2O6+z Hg 1 Sr 2 Ho 0.667 Ce 0.333 Cu 2 O 6+z 1 1995 2 Hg1212 A 3.834 12.08 1 K 4.2 "R,Ce,Cu and Hg oxides,Sr(CO3)2" 1 "precursor (R-Ce-Cu-Sr-O)+HgO-pellet heat treatment(800C,3 GPa,5min)in high-pressure chamber of the RtoriedR type" 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20126 SOV0010003 "Single phase HgSr2(Ho,Ce)Cu2O6(structure 1212,in which Hg-O bond is along<110>)" "HgSr2(Ho,Ce)Cu2O6" Hg1Sr2Ho0.667Ce0.333Cu2O6+z Hg 1 Sr 2 Ho 0.667 Ce 0.333 Cu 2 O 6+z 1 1995 2 Hg1212 A 3.81 12.04 1 K 4.2 "R,Ce,Cu and Hg oxides, Sr(CO3)2" 1 "precursor(R-Ce-Cu-O)-addition of HgO-pellet-heat(750C,3.5GPa,5min)in high pressure chamber of the RtoroidR type." 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20127 SOV0010003 "Single phase HgSr2(Ho,Ce)Cu2O6(structure 1212,in which Hg-O bond is along<110>)" "HgSr2(Ho,Ce)Cu2O6" Hg1Sr2Ho0.667Ce0.333Cu2O6+z Hg 1 Sr 2 Ho 0.667 Ce 0.333 Cu 2 O 6+z 1 1995 2 Hg1212 A 3.816 12.02 1 K 4.2 "R,Ce,Cu and Hg oxides Sr(CO3)2" 1 "precursor(R-Ce-Cu-Sr-O)+HgO-pellet-heat treatment(700C,4GPa,5min) in high-pressure chamber of the RtoroidR type." 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20128 SOV0010003 "Single phase HgSr2(Ho,Ce)Cu2O6(structure 1212,in which Hg-O bond is along<110>)" "HgSr2(Ho,Ce)Cu2O6" Hg1Sr2Ho0.667Ce0.333Cu2O6+z Hg 1 Sr 2 Ho 0.667 Ce 0.333 Cu 2 O 6+z 1 1995 2 Hg1212 A 3.821 11.98 1 K 4.2 "R,Ce,Cu and Hg oxides,Sr(CO3)2" 1 "precursor(R-Ce-O)-addition of HgO-pellet-heat(750C,4GPa, 5min) in high-pressure chamber of the RtoroidRtype." 1995 "SC:PhChT(Sverkhprovodimost'fizika,khimiya,tekhnika), 8(1995)325-334" 20129 SOV0010025 YBa2Cu3O7 Y0.19Ba1.99Cu2.85O7-z Y 0.19 Ba 1.99 Cu 2.85 O 7-z 1 1995 Y123 A 11.682 1 1-phase(123)sample K 94.5 94.5 94.5 3 "CuO,Y2O3,BaCO3" 1 "mixture-CAL(900C,26H)-SIN(950C,45-70H)-slow cooling(10deg.min)-additional holding at 400C(10-20H)." 1995 "Sverkhprovodimost':fizika,khimiya,tekhnika, 8(1995)702-708" 20130 SOV0010025 "1-phase(123)sample with substitution by cations Sc,Sr and V, (1-x)YBa2Cu3O7-x(ScSr2V3O11)," Y1.27Ba1.89Cu2.82Sc0.01Sr0.13V0.07O7-z Y 1.27 Ba 1.89 Cu 2.82 Sc 0.01 Sr 0.13 V 0.07 O 7-z 1 1995 Y123 A 11.675 1 K 96 3 "BaCO3,SrCO3" 1 (1-x)YBa2Cu3O7+x(ScSr2V3O11) and PREPID=20129 1995 "Sverkhprovodimost':fizika,khimiya,tekhnika, 8(1995)702-708" 20131 SOV0010025 "1-phase(123)sample with substitution by cations Sc,Sr and V, (1-x)YBa2Cu3O7-x(ScSr2V3O11)," Y1.04Ba1.84Cu2.28Sc0.01Sr0.17V0.04O7-z Y 1.04 Ba 1.84 Cu 2.28 Sc 0.01 Sr 0.17 V 0.04 O 7-z 1 1995 Y123 A 11.672 1 K 108 3 "BaCO3,SrCO3" 1 (1-x)YBa2Cu3O7+x(ScSr2V3O11) and PREPID=20129 1995 "Sverkhprovodimost':fizika,khimiya,tekhnika, 8(1995)702-708" 20132 SOV0010025 "(1-x)YBa2Cu3O7-x(ScSr2V3O11), x=0.10" Y1.04Ba1.75Cu2.79Sc0.01Sr0.27V0.04O7-z Y 1.04 Ba 1.75 Cu 2.79 Sc 0.01 Sr 0.27 V 0.04 O 7-z 1 1995 Y123 A 11.667 1 K 91 3 "BaCO3,SrCO3" 1 (1-x)YBa2Cu3O7+x(ScSr2V3O11) and PREPID=20129 1995 "Sverkhprovodimost':fizika,khimiya,tekhnika, 8(1995)702-708" 20133 JMC0050701 "(Hg,Mn)Ba2CuO4" Hg0.8Mn0.2Ba2Cu1O4.2 Hg 0.8 Mn 0.2 Ba 2 Cu 1 O 4+z 4.2 1995 2 Hg1201 3.89 9.343 K 91 91 "BaO,CaO,HgO,MnO2(Nd2O5,GeO2)" "mixture-heat in silica tube(800C,12H),for details see PhysicaC,241(1995)1" 1995 "J.Mater.Chem., 5(1995)701-703" 20134 JMC0050701 "(Hg,Nb)Ba2CuO4" Hg0.8Nd0.2Ba2Cu1O4.3 Hg 0.8 Nd 0.2 Ba 2 Cu 1 O 4+z 4.3 1995 2 Hg1201 3.885 9.461 K 77 77 "BaO,CaO,HgO,MnO2(Nd2O5,GeO2)" "mixture-heat in silica tube(800C,12H),for details see PhysicaC,241(1995)1" 1995 "J.Mater.Chem., 5(1995)701-703" 20135 JMC0050701 "(Hg,Mn)Ba2CaCu2O6" Hg0.8Mn0.2Ba2Ca1Cu2O6.2 Hg 0.8 Mn 0.2 Ba 2 Ca 1 Cu 2 O 6+z 6.2 1995 2 Hg1212 3.869 12.48 K 114 114 "BaO,CaO,HgO,MnO2(Nd2O5,GeO2)" "mixture-heat in silica tube(800C,12H),for details see PhysicaC,241(1995)1" 1995 "J.Mater.Chem., 5(1995)701-703" 20136 JMC0050701 "(Hg,Ge)Ba2CaCu2O6" Hg0.8Ge0.2Ba2Ca1Cu2O6.2 Hg 0.8 Ge 0.2 Ba 2 Ca 1 Cu 2 O 6+z 6.2 1995 2 Hg1212 3.857 12.599 K 124 124 "BaO,CaO,HgO,MnO2(Nd2O5,GeO2)" "mixture-heat in silica tube(800C,12H),for details see PhysicaC,241(1995)1" 1995 "J.Mater.Chem., 5(1995)701-703" 20137 JMC0050701 "(Hg,Nd)Ba2Ca2Cu3O8" Hg0.8Nd0.2Ba2Ca2Cu3O8.3 Hg 0.8 Nd 0.2 Ba 2 Ca 2 Cu 3 O 8+z 8.3 1995 Hg1223 3.852 15.794 K 128 128 "BaO,CaO,HgO,MnO2(Nd2O5,GeO2)" "mixture-heat in silica tube(800C,12H),for details see PhysicaC,241(1995)1" 1995 "J.Mater.Chem., 5(1995)701-703" 20138 IEE0430306 "T(sub)=690C, single crystal thin film(350nm)" YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 5 1995 K 88 88 170 2000000 17 "slectron beam coevaporation,substrate=(100)MgO with butter layer(10-20nm) of MgO, then ANN(500C,1bar,0.5H,in O2 )" 1995 "IEEE, 43(1995)306-314" "Transactions on Microwave Theory and Technique," 20139 PSS1870067 "YSr2(Cu,Al,Mo)3O7" Y1Sr2Cu2.8Al0.1Mo0.1O6+z Y 1 Sr 2 Cu 2.8 Al 0.1 Mo 0.1 O 6+z 1 1995 2 Y123 3.802 11.475 K 18 18 "Y2O3,SrCO3,Al(OH)3,CuO,MoO3(WO3)" 1 "mixture-CAL(950C,12-18H)-pellet-heat(980C,16-24H)-ANN(450C,60-72H in O2)" "Strong Depression of Superconductivity in Al-Doped YSr2Cu2.8M0.2O6+z (M = Mo, W)" 1995 "Physica Status Solidi(b), 187(1995) K67-K69" 20140 PSS1870067 "YSr2(Cu,Al,W)3O7" Y1Sr2Cu2.8Al0.1W0.1O6+z Y 1 Sr 2 Cu 2.8 Al 0.1 W 0.1 O 6+z 1 1995 2 Y123 3.802 11.475 K 17 17 "Y2O3,SrCO3,Al(OH)3,CuO,MoO3(WO3)" 1 "mixture-CAL(950C,12-18H)-pellet-heat(980C,16-24H)-ANN(450C,60-72H in O2)" "Strong Depression of Superconductivity in Al-Doped YSr2Cu2.8M0.2O6+z (M = Mo, W)" 1995 "Physica Status Solidi(b), 187(1995) K67-K69" 20141 PSS1870067 "YSr2(Cu,Mo,W)3O7" Y1Sr2Cu2.8Mo0.1W0.1O6+z Y 1 Sr 2 Cu 2.8 Mo 0.1 W 0.1 O 6+z 1 1995 2 Y123 3.805 11.52 K 32 32 "Y2O3,SrCO3,Al(OH)3,CuO,MoO3(WO3)" 1 "mixture-CAL(950C,12-18H)-pellet-heat(980C,16-24H)-ANN(450C,60-72H in O2)" "Strong Depression of Superconductivity in Al-Doped YSr2Cu2.8M0.2O6+z (M = Mo, W)" 1995 "Physica Status Solidi(b), 187(1995) K67-K69" 20142 PSS1470119 "substrate=(100)SrTiO3,thickness=100nm." YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 5 1995 3 Y123 11.675 K 90 90 1000000 19 "by laserabiation, for details see Physica.C,213(1993)145" Transport characteristics and structural analysis of YBa2Cu3O7-z thin films implanted with argon ions 1995 "Physica Status Solidi(a), 147(1995)119-128" 20143 PSS1470119 "substrate=(100)SrTiO3, thickness=100nm. Arion fluence=5.0E=11/cm2" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 5 1995 3 Y123 11.675 K 89 89 19 "by laserabiation, for details see Physica.C,213(1993)145" Transport characteristics and structural analysis of YBa2Cu3O7-z thin films implanted with argon ions 1995 "Physica Status Solidi(a), 147(1995)119-128" 20144 PSS1470119 substrate=(100)SrTiO3 thickness=100nm Arion fluence=5.0E+12/cm2 YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 5 1995 3 Y123 11.681 K 82 82 19 "bylaser ablation,Ar-ion(100keV) inplantation at RT" Transport characteristics and structural analysis of YBa2Cu3O7-z thin films implanted with argon ions 1995 "Physica Status Solidi(a), 147(1995)119-128" 20145 PSS1470119 "substrate=(100)SrTiO3, thickness=100nm, Arionfluence=5.0E+13/cm2" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 5 1995 3 Y123 11.75 K 19 "bylaser ablation,Ar-ion(100keV) inplantation at RT" Transport characteristics and structural analysis of YBa2Cu3O7-z thin films implanted with argon ions 1995 "Physica Status Solidi(a), 147(1995)119-128" 20146 PSS1470119 "substrate=(100)SrTiO3, thickness=100nm, Arionfluence=1.0E+14/cm2" YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 5 1995 11.789 K 4 19 "by laserabiation, for details see Physica.C,213(1993)145" Transport characteristics and structural analysis of YBa2Cu3O7-z thin films implanted with argon ions 1995 "Physica Status Solidi(a), 147(1995)119-128" 20147 PSS1470221 YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 2 1995 Y123 K 92 0.2 92 2000000 3000 1 standard solid state sintering "Investigations on Flux Creep and Jc(T,B) Behavior in Y1-xEuxBa2Cu3O7-z" 1995 "Physica Status Solidi(a), 147(1995)221-227" 20148 PSS1470221 "(Y,Eu)Ba2Cu3O7" Y0.9Eu0.1Ba2Cu3O7-z Y 0.9 Eu 0.1 Ba 2 Cu 3 O 7-z 2 1995 Y123 K 92 0.2 92 5000000 1000 1 standard solid state sintering "Investigations on Flux Creep and Jc(T,B) Behavior in Y1-xEuxBa2Cu3O7-z" 1995 "Physica Status Solidi(a), 147(1995)221-227" 20149 SOV0010022 HoBa2Cu3Oz Ho1Ba2Cu3Oz Ho 1 Ba 2 Cu 3 O z 5 1996 Y123 K 92 3 92 calculated from normal resistivity 16 from normal resistivity 690 0.07 17 "laser evaporation on SrTiO3 sulstrate, c-axis perpendiculer to substrate" 1996 "Fizika tverdogo tela, 38(1996)1969-1985" 20150 SOV0010022 HoBa2Cu3Oz Ho1Ba2Cu3Oz Ho 1 Ba 2 Cu 3 O z 5 1996 Y123 K 50 50 9 2600 1.1 17 "laser evaporation on SrTiO3 sulstrate, c-axis perpendiculer to substrate" 1996 "Fizika tverdogo tela, 38(1996)1969-1985" 20151 SOV0010027 "AC resistivity impurity phase=Nd OF,Cu2O" "Nd2Cu(O,F)4" Nd2Cu1F0.1O4 Nd 2 Cu 1 F 0.1 O 4 1 1996 2 T' 3.917 12.09 K 6 6 "Nd2O3,CuO,NdOF" 1 "mixture-press into pellet-ANN(900C; 10-15H in air)-ANN(950-1000C,10-15H in to presence of Ni foil)" 1996 "Zhurnal neorganicheskoy khimii, 41(1996)889-902" 20152 SOV0010027 AC resistivity "Nd2Cu(O,F)4" Nd2Cu1F0.2O4 Nd 2 Cu 1 F 0.2 O 4 1 1996 2 T' 3.917 12.09 K 13 13 "Nd2O3,CuO,NdOF" 1 "mixture-press into pellet-ANN(900C; 10-15H in air)-ANN(950-1000C,10-15H in to presence of Ni foil)" 1996 "Zhurnal neorganicheskoy khimii, 41(1996)889-902" 20153 SOV0010027 AC resistivity "Nd2Cu(O,F)4" Nd2Cu1F0.3O4 Nd 2 Cu 1 F 0.3 O 4 1 1996 2 T' 3.917 12.09 K 19 19 "Nd2O3,CuO,NdOF" 1 "mixture-press into pellet-ANN(900C; 10-15H in air)-ANN(950-1000C,10-15H in to presence of Ni foil)" 1996 "Zhurnal neorganicheskoy khimii, 41(1996)889-902" 20154 SOV0010027 AC resistivity "Nd2Cu(O,F)4" Nd2Cu1F0.4O4 Nd 2 Cu 1 F 0.4 O 4 1 1996 2 T' 3.917 12.09 K 23 23 "Nd2O3,CuO,NdOF" 1 "mixture-press into pellet-ANN(900C; 10-15H in air)-ANN(950-1000C,10-15H in to presence of Ni foil)" 1996 "Zhurnal neorganicheskoy khimii, 41(1996)889-902" 20155 SOV0010027 AC resistivity "Nd2Cu(O,F)4" Nd2Cu1F0.5O4 Nd 2 Cu 1 F 0.5 O 4 1 1996 2 T' 3.917 12.09 K 18 18 "Nd2O3,CuO,NdOF" 1 "mixture-press into pellet-ANN(900C; 10-15H in air)-ANN(950-1000C,10-15H in to presence of Ni foil)" 1996 "Zhurnal neorganicheskoy khimii, 41(1996)889-902" 20156 SOV0010028 whisker Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2.3O8+z Bi 2 Sr 2 Ca 1 Cu 2.3 O 8+z 6 1996 3 Bi2212 5.39 5.34 30.62 K 60 60 "Bi2O3,SrCO3,CaCO3,CuO" "amorphous precursor was prepared by melt-quench method,whisker growth condition(820-860C,50-120H,O2 flow(0,05-0.5l/min))" 1996 "Zhurnal neorganicheskoykhimii, 41(1996)921-926" 20157 SOV0010028 whisker Bi2Sr2CaCu2O8 Bi2Sr2Ca1.2Cu3.22O8 Bi 2 Sr 2 Ca 1.2 Cu 3.22 O 8 6 1996 3 Bi2212 K 70 70 "Bi2O3,SrCO3,CaCO3,CuO" "amorphous precursor was prepared by melt-quench method,whisker growth condition(820-860C,50-120H,O2 flow(0,05-0.5l/min))" 1996 "Zhurnal neorganicheskoykhimii, 41(1996)921-926" 20158 SOV0010028 whisker Bi2Sr2CaCu2O8 Bi2.13Sr1.21Ca1.32Cu2.22O8+z Bi 2.13 Sr 1.21 Ca 1.32 Cu 2.22 O 8+z 6 1996 3 Bi2212 K 90 90 "Bi2O3,SrCO3,CaCO3,CuO" "amorphous precursor was prepared by melt-quench method,whisker growth condition(820-860C,50-120H,O2 flow(0,05-0.5l/min))" 1996 "Zhurnal neorganicheskoykhimii, 41(1996)921-926" 20159 SOV0010028 whisker Bi2Sr1.37Ca1.31Cu2.22O8+z Bi 2 Sr 1.37 Ca 1.31 Cu 2.22 O 8+z 6 1996 3 Bi2212 K 85 102 93.5 "Bi2O3,SrCO3,CaCO3,CuO" "amorphous precursor was prepared by melt-quench method,whisker growth condition(820-860C,50-120H,O2 flow(0,05-0.5l/min))" 1996 "Zhurnal neorganicheskoykhimii, 41(1996)921-926" 20160 SOV0010028 whisker Bi1.99Sr1.52Ca1.34Cu1.86Pb0.15O8+z Bi 1.99 Sr 1.52 Ca 1.34 Cu 1.86 Pb 0.15 O 8+z 6 1996 3 Bi2212 K 60 60 "Bi2O3,SrCO3,CaCO3,CuO" "amorphous precursor was prepared by melt-quench method,whisker growth condition(820-860C,50-120H,O2 flow(0,05-0.5l/min))" 1996 "Zhurnal neorganicheskoykhimii, 41(1996)921-926" 20161 SOV0010028 whisker Bi2.1Sr1.45Ca1.21Cu2Pb0.09O8+z Bi 2.1 Sr 1.45 Ca 1.21 Cu 2 Pb 0.09 O 8+z 6 1996 3 Bi2212 K 60 60 "Bi2O3,SrCO3,CaCO3,CuO" "amorphous precursor was prepared by melt-quench method,whisker growth condition(820-860C,50-120H,O2 flow(0,05-0.5l/min))" 1996 "Zhurnal neorganicheskoykhimii, 41(1996)921-926" 20162 SOV0010030 "Bi2(Ba,In)2Cu6O6" Bi2Ba1.8In1.2Cu1O6+z Bi 2 Ba 1.8 In 1.2 Cu 1 O 6+z 1 1996 3 Bi2201 4.351 4.634 21.596 K 95 23 95 "Bi2O3,BaCO3,CuO,In2O3(PbO,RuO2)" 1 "mixture-SIN(650C,45H)-grinding-heat(730C,30H in almina crucible-ANN(730C,5H in O2 flow))-FC to RT in O2 flow" 1996 "Neorganicheskie materialy, 32(1996)851-854" 20163 SOV0010030 "Bi2(Ba,Pb)2CuO6" Bi2Ba1.8Pb0.2Cu1O6+z Bi 2 Ba 1.8 Pb 0.2 Cu 1 O 6+z 1 1996 3 Bi2201 4.344 4.616 21.417 K 95 13 95 "Bi2O3,BaCO3,CuO,In2O3(PbO,RuO2)" 1 "mixture-SIN(650C,45H)-grinding-heat(730C,30H in almina crucible-ANN(730C,5H in O2 flow))-FC to RT in O2 flow" 1996 "Neorganicheskie materialy, 32(1996)851-854" 20164 SOV0010030 "Bi2(Ba,Ru)2CuO6" Bi2Ba1.8Ru0.2Cu1O6+z Bi 2 Ba 1.8 Ru 0.2 Cu 1 O 6+z 1 1996 4.316 4.623 21.445 K 95 4 95 "Bi2O3,BaCO3,CuO,In2O3(PbO,RuO2)" 1 "mixture-SIN(650C,45H)-grinding-heat(730C,30H in almina crucible-ANN(730C,5H in O2 flow))-FC to RT in O2 flow" 1996 "Neorganicheskie materialy, 32(1996)851-854" 20165 SOV0010030 not S/C BiBa2CuO6 Bi2Ba2Cu1O6+z Bi 2 Ba 2 Cu 1 O 6+z 1 1996 3 4.322 4.642 21.38 K "Bi2O3,BaCO3,CuO,In2O3(PbO,RuO2)" 1 "mixture-SIN(650C,45H)-grinding-heat(730C,30H in almina crucible-ANN(730C,5H in O2 flow))-FC to RT in O2 flow" 1996 "Neorganicheskie materialy, 32(1996)851-854" 20166 SOV0010031 Hci(4.2K)=6.3Oe "Y(Ba,Sr)2Cu3Oz" Y1Ba1.5Sr0.5Cu3Oz Y 1 Ba 1.5 Sr 0.5 Cu 3 O z 1 1996 Y123 K 11 11 K/GPa 6.2 7.4 "mixture-heat(800C,2H in air)-grinding-heat(955C,5H+650C, 2H in O2 flow)-pellet-SIN(955C,17H in O2 flow)-step cooling (650C,4H+570C,1H+430C,4H+340C,15H)-ANN(400-810C in N2 flow)" 1996 "Fizika tverdogo tela (Solid State Physics), 38(1996)1998-2011" 20167 SOV0010031 "Y(Ba,Sr)2Cu3Oz" Y1Ba1.5Sr0.5Cu3Oz Y 1 Ba 1.5 Sr 0.5 Cu 3 O z 1 1996 Y123 K 42 42 K/GPa 5.4 "mixture-heat(800C,2H in air)-grinding-heat(955C,5H+650C, 2H in O2 flow)-pellet-SIN(955C,17H in O2 flow)-step cooling (650C,4H+570C,1H+430C,4H+340C,15H)-ANN(400-810C in N2 flow)" 1996 "Fizika tverdogo tela (Solid State Physics), 38(1996)1998-2011" 20168 SOV0010031 "Y(Ba,Sr)2Cu3Oz" Y1Ba1.5Sr0.5Cu3Oz Y 1 Ba 1.5 Sr 0.5 Cu 3 O z 1996 Y123 K 47 47 K/GPa 5.3 210 "mixture-heat(800C,2H in air)-grinding-heat(955C,5H+650C, 2H in O2 flow)-pellet-SIN(955C,17H in O2 flow)-step cooling (650C,4H+570C,1H+430C,4H+340C,15H)-ANN(400-810C in N2 flow)" 1996 "Fizika tverdogo tela (Solid State Physics), 38(1996)1998-2011" 20169 SOV0010031 "Y(Ba,Sr)2Cu3Oz" YBa1.5Sr0.5Cu3Oz Y 1 Ba 1.5 Sr 0.5 Cu 3 O z 1996 Y123 K 90 90 K/GPa 2 560 "mixture-heat(800C,2H in air)-grinding-heat(955C,5H+650C, 2H in O2 flow)-pellet-SIN(955C,17H in O2 flow)-step cooling (650C,4H+570C,1H+430C,4H+340C,15H)-ANN(400-810C in N2 flow)" 1996 "Fizika tverdogo tela (Solid State Physics), 38(1996)1998-2011" 20170 SOV0010032 R is not zero at 4.2K "Gd(Ba,Sr)2Cu3Oz" Gd1Ba1.5Sr0.5Cu3O6.63 Gd 1 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.63 1 1996 Y123 K 18 18 18 K/GPa 6.6 "Gd2O3,CuO, Ba(NO3)2,Sr(NO3)2" 1 "mixture-heat(900-950C,in O2 flow)-pellet-SIN(955C,12H in O2 flow)-cool to RT(1K/min)-ANN(400-810C,in N2 flow for Oz control)" 1996 "Fizika tverdogo tela, 38(1996)827-838" 20171 SOV0010032 Hci(4.2K)=250Oe "Gd(Ba,Sr)2Cu3Oz" Gd1Ba1.5Sr0.5Cu3O6.72 Gd 1 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.72 1 1996 Y123 K 32 32 32 K/GPa 5.8 deviation from linearity in M-H curve 254 "Gd2O3,CuO, Ba(NO3)2,Sr(NO3)2" 1 "mixture-heat(900-950C,in O2 flow)-pellet-SIN(955C,12H in O2 flow)-cool to RT(1K/min)-ANN(400-810C,in N2 flow for Oz control)" 1996 "Fizika tverdogo tela, 38(1996)827-838" 20172 SOV0010032 Hci(4.2K)=500Oe "Gd(Ba,Sr)2Cu3Oz" Gd1Ba1.5Sr0.5Cu3O6.93 Gd 1 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.93 1 1996 Y123 K 82 82 82 K/GPa 2 deviation from linearity in M-H curve 501 "Gd2O3,CuO, Ba(NO3)2,Sr(NO3)2" 1 "mixture-heat(900-950C,in O2 flow)-pellet-SIN(955C,12H in O2 flow)-cool to RT(1K/min)-ANN(400-810C,in N2 flow for Oz control)" 1996 "Fizika tverdogo tela, 38(1996)827-838" 20173 SOV0010032 "Gd(Ba,Sr)2Cu3Oz" Gd1Ba1Sr1Cu3O6.77 Gd 1 Ba 1 Sr 1 Cu 3 O 7-z 6.77 1 1996 Y123 K 4 4 4 "Gd2O3,CuO, Ba(NO3)2,Sr(NO3)2" 1 "mixture-heat(900-950C,in O2 flow)-pellet-SIN(955C,12H in O2 flow)-cool to RT(1K/min)-ANN(400-810C,in N2 flow for Oz control)" 1996 "Fizika tverdogo tela, 38(1996)827-838" 20174 SOV0010032 "Gd(Ba,Sr)2Cu3Oz" Gd1Ba1Sr1Cu3O6.93 Gd 1 Ba 1 Sr 1 Cu 3 O 7-z 6.93 1 1996 Y123 K 83 83 83 K/GPa 5.8 "Gd2O3,CuO, Ba(NO3)2,Sr(NO3)2" 1 "mixture-heat(900-950C,in O2 flow)-pellet-SIN(955C,12H in O2 flow)-cool to RT(1K/min)-ANN(400-810C,in N2 flow for Oz control)" 1996 "Fizika tverdogo tela, 38(1996)827-838" 20175 SOV0010034 "Y(Ba,La)2Cu3Oz" Y1Ba1.5La0.5Cu3O7.22 Y 1 Ba 1.5 La 0.5 Cu 3 O 7+z 7.22 1 1995 Y123 K 32 36.6 17.2 36.6 40.5 1 "mixture-SIN(950C)-pellet-ANN(920-950C)-ANN(450C,in O2 flow)-slow cooling to RT" 1995 "Fizika tverdogo tela, 37(1995)1990-2001" 20176 SOV0010034 "(Y,Ca)(Ba,La)2Cu3Oz" Y0.9Ca0.1Ba1.5La0.5Cu3O7.19 Y 0.9 Ca 0.1 Ba 1.5 La 0.5 Cu 3 O 7+z 7.19 1 1995 Y123 K 51.7 57.9 14.2 57.9 21 TP20176 1 "mixture-SIN(950C)-pellet-ANN(920-950C)-ANN(450C,in O2 flow)-slow cooling to RT" 1995 "Fizika tverdogo tela, 37(1995)1990-2001" 20177 SOV0010034 "(Y,La)(Ba,La)2Cu3Oz" Y0.8Ca0.2Ba1.5La0.5Cu3O7.13 Y 0.8 Ca 0.2 Ba 1.5 La 0.5 Cu 3 O 7+z 7.13 1 1995 Y123 K 67.9 73 9.7 73 19.2 TP20177 1 "mixture-SIN(950C)-pellet-ANN(920-950C)-ANN(450C,in O2 flow)-slow cooling to RT" 1995 "Fizika tverdogo tela, 37(1995)1990-2001" 20178 SOV0010034 "(Y,Ca)(Ba,La)2Cu3Oz" Y0.6Ca0.4Ba1.5La0.5Cu3O7.01 Y 0.6 Ca 0.4 Ba 1.5 La 0.5 Cu 3 O 7+z 7.01 1 1995 Y123 K 80.2 82.4 4.2 82.4 6.2 TP20178 1 "mixture-SIN(950C)-pellet-ANN(920-950C)-ANN(450C,in O2 flow)-slow cooling to RT" 1995 "Fizika tverdogo tela, 37(1995)1990-2001" 20179 SOV0010034 "(Y,Ca)(Ba,La)2Cu3Oz" Y0.5Ca0.5Ba1.5La0.5Cu3O6.96 Y 0.5 Ca 0.5 Ba 1.5 La 0.5 Cu 3 O 7+z 6.96 1 1995 Y123 K 78.9 82.5 2.1 82.5 4.2 TP20179 1 "mixture-SIN(950C)-pellet-ANN(920-950C)-ANN(450C,in O2 flow)-slow cooling to RT" 1995 "Fizika tverdogo tela, 37(1995)1990-2001" 20180 SOV0010034 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.75Co0.25O7.06 Y 1 Ba 2 Cu 2.75 Co 0.25 O 7+z 7.06 1 1995 Y123 K 60.2 66.2 19.1 66.2 33 TP20180 1 "mixture-SIN(950C)-pellet-ANN(920-950C)-ANN(450C,in O2 flow)-slow cooling to RT" 1995 "Fizika tverdogo tela, 37(1995)1990-2001" 20181 SOV0010034 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.95Ca0.05Ba2Cu2.75Co0.25O7.06 Y 0.95 Ca 0.05 Ba 2 Cu 2.75 Co 0.25 O 7+z 7.06 1 1995 Y123 K 67.9 75.1 8.6 75.1 29 TP20181 1 "mixture-SIN(950C)-pellet-ANN(920-950C)-ANN(450C,in O2 flow)-slow cooling to RT" 1995 "Fizika tverdogo tela, 37(1995)1990-2001" 20182 SOV0010034 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.9Ca0.1Ba2Cu2.75Co0.25O7.03 Y 0.9 Ca 0.1 Ba 2 Cu 2.75 Co 0.25 O 7+z 7.03 1 1995 Y123 K 71.9 76.9 8 76.9 19.5 TP20182 1 "mixture-SIN(950C)-pellet-ANN(920-950C)-ANN(450C,in O2 flow)-slow cooling to RT" 1995 "Fizika tverdogo tela, 37(1995)1990-2001" 20183 SOV0010034 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.85Ca0.15Ba2Cu2.75Co0.25O7.01 Y 0.85 Ca 0.15 Ba 2 Cu 2.75 Co 0.25 O 7+z 7.01 1 1995 Y123 K 77.9 80.6 5.4 80.6 10.8 TP20183 1 "mixture-SIN(950C)-pellet-ANN(920-950C)-ANN(450C,in O2 flow)-slow cooling to RT" 1995 "Fizika tverdogo tela, 37(1995)1990-2001" 20184 SOV0010034 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.8Ca0.2Ba2Cu2.75Co0.25O7.01 Y 0.8 Ca 0.2 Ba 2 Cu 2.75 Co 0.25 O 7+z 7.01 1 1995 Y123 K 78.6 82.2 4 82.2 7.7 TP20184 1 "mixture-SIN(950C)-pellet-ANN(920-950C)-ANN(450C,in O2 flow)-slow cooling to RT" 1995 "Fizika tverdogo tela, 37(1995)1990-2001" 20185 SOV0010034 "(Y,Ca)Ba2(Cu,Co)3O7" Y0.75Ca0.25Ba2Cu2.75Co0.25O6.98 Y 0.75 Ca 0.25 Ba 2 Cu 2.75 Co 0.25 O 7+z 6.98 1 1995 Y123 K 80.6 82.4 3.6 82.4 5.1 TP20185 1 "mixture-SIN(950C)-pellet-ANN(920-950C)-ANN(450C,in O2 flow)-slow cooling to RT" 1995 "Fizika tverdogo tela, 37(1995)1990-2001" 20186 SOV0010035 BiSr2CaCu2O8 Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 1 1995 Bi2212 K 60 61 4 61 -3.8 TP20186 1.9 mixture-CAL-SIN(750C)-press into pellet-ANN(850-860C) 1995 "Fizika tverdogo tela, 37(1995)2152-2162" 20187 SOV0010035 "(Bi,Pb)2Sr2CaCu2O8" Bi1.34Pb0.66Sr2Ca1Cu2Oz Bi 1.34 Pb 0.66 Sr 2 Ca 1 Cu 2 O z 1 1995 Bi2212 K 71.2 72.2 3.5 72.2 -2.8 TP20187 2 mixture-CAL-SIN(750C)-press into pellet-ANN(850-860C) 1995 "Fizika tverdogo tela, 37(1995)2152-2162" 20188 SOV0010035 "(Bi,Pb)2Sr2CaCu2O8" Bi1.86Pb0.14Sr2Ca1Cu2Oz Bi 1.86 Pb 0.14 Sr 2 Ca 1 Cu 2 O z 1 1995 Bi2212 K 61 65 5.5 65 -5.3 0.83 mixture-CAL-SIN(750C)-press into pellet-ANN(850-860C) 1995 "Fizika tverdogo tela, 37(1995)2152-2162" 20189 SOV0010035 "(Bi,Pb)2Sr2CaCu2O8" Bi1.8Pb0.2Sr2Ca1Cu2Oz Bi 1.8 Pb 0.2 Sr 2 Ca 1 Cu 2 O z 1 1995 Bi2212 K 56.3 60.7 7.2 60.7 -5.5 TP20189 1.3 mixture-CAL-SIN(750C)-press into pellet-ANN(850-860C) 1995 "Fizika tverdogo tela, 37(1995)2152-2162" 20190 SOV0010035 "(Bi,Pb)2Sr2Ca2Cu3Oz" Bi1.34Pb0.66Sr2Ca2Cu3Oz Bi 1.34 Pb 0.66 Sr 2 Ca 2 Cu 3 O z 1 1995 Bi2223 K 99 108.9 7.6 108.9 1.9 TP20190 1.7 mixture-CAL-SIN(750C)-press into pellet-ANN(850-860C) 1995 "Fizika tverdogo tela, 37(1995)2152-2162" 20191 SOV0010035 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2Oz Bi 2 Sr 2 Ca 1 Cu 2 O z 1 1995 Bi2212 K 74.2 84.2 84.2 -3.8 2.5 1.60E-09 mixture-CAL-SIN(750C)-press into pellet-ANN(850-860C) 1995 "Fizika tverdogo tela, 37(1995)2152-2162" 20192 SOV0010035 "Bi2Sr2(Ca,Nd)Cu2O8" Bi2Sr2Ca0.9Nd0.1Cu2Oz Bi 2 Sr 2 Ca 0.9 Nd 0.1 Cu 2 O z 1 1995 Bi2212 K 73.3 83.3 83.3 -2 2.6 2.50E-09 mixture-CAL-SIN(750C)-press into pellet-ANN(850-860C) 1995 "Fizika tverdogo tela, 37(1995)2152-2162" 20193 SOV0010035 "Bi2Sr2(Ca,Nd)Cu2O8" Bi2Sr2Ca0.8Nd0.2Cu2Oz Bi 2 Sr 2 Ca 0.8 Nd 0.2 Cu 2 O z 1 1995 Bi2212 K 71.2 82 82 3.9 2.9 3.90E-09 mixture-CAL-SIN(750C)-press into pellet-ANN(850-860C) 1995 "Fizika tverdogo tela, 37(1995)2152-2162" 20194 SOV0010035 "Bi2Sr2(Ca,Nd)Cu2O8" Bi2Sr2Ca0.7Nd0.3Cu2Oz Bi 2 Sr 2 Ca 0.7 Nd 0.3 Cu 2 O z 1 1995 Bi2212 K 67 80.2 80.2 7.9 3.5 6.50E-09 mixture-CAL-SIN(750C)-press into pellet-ANN(850-860C) 1995 "Fizika tverdogo tela, 37(1995)2152-2162" 20195 SOV0010035 "Bi2Sr2(Ca,Nd)Cu2O8" Bi2Sr2Ca0.6Nd0.4Cu2Oz Bi 2 Sr 2 Ca 0.6 Nd 0.4 Cu 2 O z 1 1995 Bi2212 K 54.4 68.6 68.6 18.2 5.5 8.80E-09 mixture-CAL-SIN(750C)-press into pellet-ANN(850-860C) 1995 "Fizika tverdogo tela, 37(1995)2152-2162" 20196 SOV0010035 "Bi2Sr2(Ca,Nd)Cu2O8" Bi2Sr2Ca0.5Nd0.5Cu2Oz Bi 2 Sr 2 Ca 0.5 Nd 0.5 Cu 2 O z 1 1995 Bi2212 K 29 42.4 42.4 27.5 11.7 1.12E-08 mixture-CAL-SIN(750C)-press into pellet-ANN(850-860C) 1995 "Fizika tverdogo tela, 37(1995)2152-2162" 20197 SOV0010035 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.9Y0.1Cu2Oz Bi 2 Sr 2 Ca 0.9 Y 0.1 Cu 2 O z 1 1995 Bi2212 K 66.9 78.9 78.9 -3.5 TP20197 3.1 2.80E-09 mixture-CAL-SIN(750C)-press into pellet-ANN(850-860C) 1995 "Fizika tverdogo tela, 37(1995)2152-2162" 20198 SOV0010035 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.8Y0.2Cu2Oz Bi 2 Sr 2 Ca 0.8 Y 0.2 Cu 2 O z 1 1995 Bi2212 K 64.2 76.2 76.2 3.1 TP20198 3.8 4.20E-09 mixture-CAL-SIN(750C)-press into pellet-ANN(850-860C) 1995 "Fizika tverdogo tela, 37(1995)2152-2162" 20199 SOV0010035 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.7Y0.3Cu2Oz Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 2 O z 1 1995 Bi2212 K 53.3 70.5 70.5 12.6 TP20199 5.3 6.50E-09 mixture-CAL-SIN(750C)-press into pellet-ANN(850-860C) 1995 "Fizika tverdogo tela, 37(1995)2152-2162" 20200 SOV0010035 "Bi2Sr2(Ca,Y)Cu28" Bi2Sr2Ca0.6Y0.4Cu2Oz Bi 2 Sr 2 Ca 0.6 Y 0.4 Cu 2 O z 1 1995 Bi2212 K 34.3 53.1 53.1 28 TP20200 7.7 1.01E-08 mixture-CAL-SIN(750C)-press into pellet-ANN(850-860C) 1995 "Fizika tverdogo tela, 37(1995)2152-2162" 20201 SOV0010035 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.5Y0.5Cu2Oz Bi 2 Sr 2 Ca 0.5 Y 0.5 Cu 2 O z 1 1995 Bi2212 K 12.2 31.5 31.5 40.3 TP20201 12.5 1.28E-08 mixture-CAL-SIN(750C)-press into pellet-ANN(850-860C) 1995 "Fizika tverdogo tela, 37(1995)2152-2162" 20202 SOV0010036 super structure was detected YBa2Cu3O7 Y1Ba1.8Cu3Oz Y 1 Ba 1.8 Cu 3 O z 1997 3 Y123 Pmmm 3.822 3.894 11.674 K 94 3 94 1 "mixture-SIN(700C,7H)-grinding-(900C,45H)-slow-cool(from 900 to 50C,16H), all process in air" 1997 "Neorganicheskiematerialy, 33(1997)728-731" 20203 SOV0010036 super structure was detected YBa2Cu3O7 Y1Ba1.9Cu3Oz Y 1 Ba 1.9 Cu 3 O z 1997 3 Y123 Pmmm 3.816 3.887 11.623 K 96 3 96 1 "mixture-SIN(700C,7H)-grinding-(900C,45H)-slow-cool(from 900 to 50C,16H), all process in air" 1997 "Neorganicheskiematerialy, 33(1997)728-731" 20204 SOV0010036 super structure was detected YBa2Cu3O7 Y1Ba2Cu3Oz Y 1 Ba 2 Cu 3 O z 1997 3 Y123 Pmmm 3.817 3.889 11.667 K 97 7 97 1 "mixture-SIN(700C,7H)-grinding-(900C,45H)-slow-cool(from 900 to 50C,16H), all process in air" 1997 "Neorganicheskiematerialy, 33(1997)728-731" 20205 SOV0010036 super structure was detected YBa2Cu3O7 Y1Ba2.1Cu3Oz Y 1 Ba 2.1 Cu 3 O z 1997 3 Y123 Pmmm 3.818 3.886 11.627 K 96 9 96 1 "mixture-SIN(700C,7H)-grinding-(900C,45H)-slow-cool(from 900 to 50C,16H), all process in air" 1997 "Neorganicheskiematerialy, 33(1997)728-731" 20206 SOV0010036 super structure was detected YBa2Cu3O7 Y1Ba2.2Cu3Oz Y 1 Ba 2.2 Cu 3 O z 1997 3 Y123 Pmmm 3.83 3.891 11.682 K 96 11 96 1 "mixture-SIN(700C,7H)-grinding-(900C,45H)-slow-cool(from 900 to 50C,16H), all process in air" 1997 "Neorganicheskiematerialy, 33(1997)728-731" 20207 SOV0010037 super structure was detected YBa2Cu3O7 Y0.8Ba2Cu3O6.44 Y 0.8 Ba 2 Cu 3 O z 6.44 1 1997 3 Y123 Pmmm 3.818 3.883 11.629 K 96 5.5 96 1 "mixture-SIN(700C,7H)-grinding-(900C,45H)-slow-cool(from 900 to 50C,16H), all process in air" 1997 "Neorganicheskie materialy, 33(1997)732-736" 20208 SOV0010037 super structure was detected YBa2Cu2Cu3O7 Y0.9Ba2Cu3O6.58 Y 0.9 Ba 2 Cu 3 O z 6.58 1 1997 3 Y123 Pmmm 3.817 3.881 11.639 K 93.4 4.2 93.4 1 "mixture-SIN(700C,7H)-grinding-(900C,45H)-slow-cool(from 900 to 50C,16H), all process in air" 1997 "Neorganicheskie materialy, 33(1997)732-736" 20209 SOV0010037 super structure was detected YBa2Cu3O7 Y1Ba2Cu3O6.69 Y 1 Ba 2 Cu 3 O z 6.69 1 1997 3 Y123 Pmmm 3.817 3.889 11.667 K 97 2 97 1 "mixture-SIN(700C,7H)-grinding-(900C,45H)-slow-cool(from 900 to 50C,16H), all process in air" 1997 "Neorganicheskie materialy, 33(1997)732-736" 20210 SOV0010037 super structure was detected YBa2Cu3O7 Y1.1Ba2Cu3O6.87 Y 1.1 Ba 2 Cu 3 O z 6.87 1 1997 3 Y123 Pmmm 3.819 3.889 11.667 K 95.9 4.5 95.9 1 "mixture-SIN(700C,7H)-grinding-(900C,45H)-slow-cool(from 900 to 50C,16H), all process in air" 1997 "Neorganicheskie materialy, 33(1997)732-736" 20211 SOV0010037 super structure was detected YBa2Cu3O7 Y1.2Ba2Cu3O6.98 Y 1.2 Ba 2 Cu 3 O z 6.98 1 1997 3 Y123 Pmmm 3.827 3.894 11.756 K 93.4 2.4 93.4 1 "mixture-SIN(700C,7H)-grinding-(900C,45H)-slow-cool(from 900 to 50C,16H), all process in air" 1997 "Neorganicheskie materialy, 33(1997)732-736" 20212 SOV0010043 Superconductor "(Pb,Cu)(Sr,Ca)2(Y,Ca)Cu2Oz" Pb0.63Cu0.27Sr2Y0.79Ca0.21Cu2Oz Pb 0.63 Cu 0.27 Sr 2 Y 0.79 Ca 0.21 Cu 2 O z 1 1997 1212 3.821 11.841 K "PbO,SrCO3,CaCO3,Y2O3,CuO,(CdO)" 1 "precursor(without Pb)-qrinding under acetine-heat(760C,12H in air)-mix with Pb-fire(800C,10H+910C,40H)" 1997 "Zurnal neorganisheskoy khimii, 42(1997)181-183" "Pb,Cu,Sr,Y,Ca,O" 20213 SOV0010043 Superconductor "(Pb,Cu)(Sr,Ca)2(Y,Ca)Cu2Oz" Pb0.63Cu0.27Sr1.9Ca0.31Y0.79Cu2Oz Pb 0.63 Cu 0.27 Sr 1.9 Ca 0.31 Y 0.79 Cu 2 O z 1 1997 1212 3.821 11.839 K "PbO,SrCO3,CaCO3,Y2O3,CuO,(CdO)" 1 "precursor(without Pb)-qrinding under acetine-heat(760C,12H in air)-mix with Pb-fire(800C,10H+910C,40H)" 1997 "Zurnal neorganisheskoy khimii, 42(1997)181-183" "Pb,Cu,Sr,Y,Ca,O" 20214 SOV0010043 Superconductor "(Pb,Cu)(Sr,Ca)2(Y,Ca)Cu2Oz" Pb0.63Cu0.27Sr1.8Ca0.41Y0.79Cu2Oz Pb 0.63 Cu 0.27 Sr 1.8 Ca 0.41 Y 0.79 Cu 2 O z 1 1997 1212 3.82 11.835 K "PbO,SrCO3,CaCO3,Y2O3,CuO,(CdO)" 1 "precursor(without Pb)-qrinding under acetine-heat(760C,12H in air)-mix with Pb-fire(800C,10H+910C,40H)" 1997 "Zurnal neorganisheskoy khimii, 42(1997)181-183" "Pb,Cu,Sr,Y,Ca,O" 20215 SOV0010043 Superconductor "(Pb,Cu)(Sr,Ca)2(Y,Ca)Cu2O" Pb0.63Cu0.27Sr1.7Ca0.51Y0.79Cu2Oz Pb 0.63 Cu 0.27 Sr 1.7 Ca 0.51 Y 0.79 Cu 2 O z 1 1997 1212 3.82 11.832 K "PbO,SrCO3,CaCO3,Y2O3,CuO,(CdO)" 1 "precursor(without Pb)-qrinding under acetine-heat(760C,12H in air)-mix with Pb-fire(800C,10H+910C,40H)" 1997 "Zurnal neorganisheskoy khimii, 42(1997)181-183" "Pb,Cu,Sr,Y,Ca,O" 20216 SOV0010043 Superconductor "(Pb,Cu)(Sr,Ca)2(Y,Ca)Cu2Oz" Pb0.63Cu0.27Sr1.6Ca0.61Y0.79Cu2Oz Pb 0.63 Cu 0.27 Sr 1.6 Ca 0.61 Y 0.79 Cu 2 O z 1 1997 1212 3.819 11.83 K "PbO,SrCO3,CaCO3,Y2O3,CuO,(CdO)" 1 "precursor(without Pb)-qrinding under acetine-heat(760C,12H in air)-mix with Pb-fire(800C,10H+910C,40H)" 1997 "Zurnal neorganisheskoy khimii, 42(1997)181-183" "Pb,Cu,Sr,Y,Ca,O" 20217 SOV0010043 Superconductor "(Pb,Cu)(Sr,Ca)2(Y,Ca)CuOz" Pb0.63Cu0.27Sr1.5Ca0.71Y0.79Cu2Oz Pb 0.63 Cu 0.27 Sr 1.5 Ca 0.71 Y 0.79 Cu 2 O z 1 1997 1212 3.819 11.828 K "PbO,SrCO3,CaCO3,Y2O3,CuO,(CdO)" 1 "precursor(without Pb)-qrinding under acetine-heat(760C,12H in air)-mix with Pb-fire(800C,10H+910C,40H)" 1997 "Zurnal neorganisheskoy khimii, 42(1997)181-183" "Pb,Cu,Sr,Y,Ca,O" 20218 SOV0010043 Superconductor "(Pb,Cu)(Sr,Cd)2(Y,Ca)Cu2Oz" Pb0.63Cu2.27Sr1.9Cd0.1Y0.79Ca0.21Oz Pb 0.63 Cu 2.27 Sr 1.9 Cd 0.1 Y 0.79 Ca 0.21 O z 1 1997 1212 3.819 11.871 K 35 55 45 "PbO,SrCO3,CaCO3,Y2O3,CuO,(CdO)" 1 "precursor(without Pb)-qrinding under acetine-heat(760C,12H in air)-mix with Pb-fire(800C,10H+910C,40H)" 1997 "Zurnal neorganisheskoy khimii, 42(1997)181-183" "Pb,Cu,Sr,Y,Ca,O" 20219 SOV0010043 Superconductor "(Pb,Cu)(Sr,Cd)2(Y,Ca)Cu2Oz" Pb0.63Cu2.27Sr1.8Cd0.2Y0.79Ca0.21Oz Pb 0.63 Cu 2.27 Sr 1.8 Cd 0.2 Y 0.79 Ca 0.21 O z 1 1997 1212 3.817 11.904 K 35 55 45 "PbO,SrCO3,CaCO3,Y2O3,CuO,(CdO)" 1 "precursor(without Pb)-qrinding under acetine-heat(760C,12H in air)-mix with Pb-fire(800C,10H+910C,40H)" 1997 "Zurnal neorganisheskoy khimii, 42(1997)181-183" "Pb,Cu,Sr,Y,Ca,O" 20220 SOV0010043 Superconductor "(Pb,cu)(Sr,Cd)2(Y,Ca)Cu2Oz" Pb0.63Cu2.27Sr1.75Cd0.25Y0.79Ca0.21Oz Pb 0.63 Cu 2.27 Sr 1.75 Cd 0.25 Y 0.79 Ca 0.21 O z 1 1997 1212 3.816 11.917 K 35 55 45 "PbO,SrCO3,CaCO3,Y2O3,CuO,(CdO)" 1 "precursor(without Pb)-qrinding under acetine-heat(760C,12H in air)-mix with Pb-fire(800C,10H+910C,40H)" 1997 "Zurnal neorganisheskoy khimii, 42(1997)181-183" "Pb,Cu,Sr,Y,Ca,O" 20221 SOV0010043 Superconductor "(Pb,Cu)(Sr,Cd)2(Y,Ca)Cu2Oz" Pb0.63Cu2.27Sr1.7Cd0.3Y0.79Ca0.21Oz Pb 0.63 Cu 2.27 Sr 1.7 Cd 0.3 Y 0.79 Ca 0.21 O z 1 1997 1212 3.815 11.928 K 35 55 45 "PbO,SrCO3,CaCO3,Y2O3,CuO,(CdO)" 1 "precursor(without Pb)-qrinding under acetine-heat(760C,12H in air)-mix with Pb-fire(800C,10H+910C,40H)" 1997 "Zurnal neorganisheskoy khimii, 42(1997)181-183" "Pb,Cu,Sr,Y,Ca,O" 20222 SOV0010043 Superconductor "(Pb,Cu)(Sr,Cd)2(Y,Ca)Cu2Oz" Pb0.63Cu2.27Sr0.65Cd0.35Y0.79Ca0.21Oz Pb 0.63 Cu 2.27 Sr 0.65 Cd 0.35 Y 0.79 Ca 0.21 O z 1 1997 1212 3.814 11.938 K 35 55 45 "PbO,SrCO3,CaCO3,Y2O3,CuO,(CdO)" 1 "precursor(without Pb)-qrinding under acetine-heat(760C,12H in air)-mix with Pb-fire(800C,10H+910C,40H)" 1997 "Zurnal neorganisheskoy khimii, 42(1997)181-183" "Pb,Cu,Sr,Y,Ca,O" 20223 SOV0010043 Superconductor "(Pb,Cu)(Sr,Cd)2(Y,Ca)Cu2Oz" Pb0.63Cu2.27Sr1.6Cd0.4Y0.79Ca0.21Oz Pb 0.63 Cu 2.27 Sr 1.6 Cd 0.4 Y 0.79 Ca 0.21 O z 1 1997 1212 3.813 11.944 K 35 55 45 "PbO,SrCO3,CaCO3,Y2O3,CuO,(CdO)" 1 "precursor(without Pb)-qrinding under acetine-heat(760C,12H in air)-mix with Pb-fire(800C,10H+910C,40H)" 1997 "Zurnal neorganisheskoy khimii, 42(1997)181-183" "Pb,Cu,Sr,Y,Ca,O" 20224 SOV0010043 Superconductor "(Pb,Cu)(Sr,Cd)2(Y,Ca)Cu2Oz" Pb0.63Cu2.27Sr1.5Cd0.5Y0.79Ca0.21Oz Pb 0.63 Cu 2.27 Sr 1.5 Cd 0.5 Y 0.79 Ca 0.21 O z 1 1997 1212 3.812 11.952 K 35 55 45 "PbO,SrCO3,CaCO3,Y2O3,CuO,(CdO)" 1 "precursor(without Pb)-qrinding under acetine-heat(760C,12H in air)-mix with Pb-fire(800C,10H+910C,40H)" 1997 "Zurnal neorganisheskoy khimii, 42(1997)181-183" "Pb,Cu,Sr,Y,Ca,O" 20225 SOV0010043 TK 4K "(Pb,Cu)Sr2(Y,Ca)Cu2Oz" Pb0.63Cu2.27Sr2Y0.79Ca0.21Oz Pb 0.63 Cu 2.27 Sr 2 Y 0.79 Ca 0.21 O z 3 1997 1212 3.82 11.84 K 4 65 34.5 "See J.Cryst.Growth 126(1993)471, melt in Pt crucible-heat(1000-1020C)-slow cool (0.5C/H) to 950C" 1997 "Zurnal neorganisheskoy khimii, 42(1997)181-183" "Pb,Cu,Sr,Y,Ca,O" 20226 SOV0010043 Tl<4K "(Pb,Cu)(Sr,Ca)2(Y,Ca)Cu2Oz" Pb0.63Cu2.27Sr1.79Ca0.21Y0.79Ca0.21Oz Pb 0.63 Cu 2.27 Sr 1.79 Ca 0.21 Y 0.79 Ca 0.21 O z 3 1997 2 1212 3.819 11.834 K 4 65 34.5 "See J.Cryst.Growth 126(1993)471, melt in Pt crucible-heat(1000-1020C)-slow cool (0.5C/H) to 950C" 1997 "Zurnal neorganisheskoy khimii, 42(1997)181-183" "Pb,Cu,Sr,Y,Ca,O" 20227 SOV0010043 "(Pb,Cu)(Sr,Cd)2(Y,Ca)Cu2Oz" Pb0.63Cu2.27Sr1.79Cd0.21Y0.79Ca0.21Oz Pb 0.63 Cu 2.27 Sr 1.79 Cd 0.21 Y 0.79 Ca 0.21 O z 3 1997 2 1212 3.815 11.905 K 52 81 66.5 "See J.Cryst.Growth 126(1993)471, melt in Pt crucible-heat(1000-1020C)-slow cool (0.5C/H) to 950C" 1997 "Zurnal neorganisheskoy khimii, 42(1997)181-183" "Pb,Cu,Sr,Y,Ca,O" 20228 SOV0010042 dielectric "(La,Sr)2CuO4" La1.95Sr0.05Cu1O4 La 1.95 Sr 0.05 Cu 1 O 4 1 1997 T K mJ/K2fu 4.3 1 1997 "Fizika tverdogo tela, 39(1997)1000-1004" "La,Sr,Cu,O,Ba" 20229 SOV0010042 "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 1 1997 T K mJ/K2fu 2 1 1997 "Fizika tverdogo tela, 39(1997)1000-1004" "La,Sr,Cu,O,Ba" 20230 SOV0010042 "(La,Sr)2CuO4" La1.87Sr0.13Cu1O4 La 1.87 Sr 0.13 Cu 1 O 4 1 1997 T K mJ/K2fu 3.2 1 1997 "Fizika tverdogo tela, 39(1997)1000-1004" "La,Sr,Cu,O,Ba" 20231 SOV0010042 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1997 T K mJ/K2fu 4.4 1 1997 "Fizika tverdogo tela, 39(1997)1000-1004" "La,Sr,Cu,O,Ba" 20232 SOV0010039 HgBa2CuO4 Hg1Ba2Cu1O4.01 Hg 1 Ba 2 Cu 1 O 4 4.01 1 1997 Hg1201 P4/mmm 3.892 9.529 3 K 61 61 "see Physica C,271(1996)197, heat(800C,12H)-cool to 650C(1.5C/min)-Q to mater-heat(330C,18H in 1.0E-2 torr)" 1997 preprint JINR E14-97-234(1997) "Joint Institute of Nuclear Research, Dubna, Moscow Region" 20233 SOV0010039 HgBa2CuO4Fx Hg1Ba2Cu1FO4 Hg 1 Ba 2 Cu 1 F O 4 1 1997 Hg1201 P4/mmm 3.883 9.523 3 K 97 97 "fluorination F Hg1201 : XeF2=1 : 0.1-heat(150C,15H in N2-filled tube)" 1997 preprint JINR E14-97-234(1997) "Joint Institute of Nuclear Research, Dubna, Moscow Region" 20234 SOV0010039 HgBa2CuO4Fx Hg1Ba2Cu1FO4 Hg 1 Ba 2 Cu 1 F O 4 1 1997 Hg1201 P4/mmm 3.881 9.511 3 K 97 97 "fluorination=Hg1201 : XeF2=1 :0.3-heat(200C,15H in N2-filled tube)" 1997 preprint JINR E14-97-234(1997) "Joint Institute of Nuclear Research, Dubna, Moscow Region" 20235 SOV0010039 HgBa2CuO4Fx Hg1Ba2Cu1FO4 Hg 1 Ba 2 Cu 1 F O 4 1 1997 Hg1201 P4/mmm 3.876 9.494 3 K 96 96 "fluorination=Hg1201 : XeF2=1 : 0.5-heat(200C,15H in N2-filled tube)" 1997 preprint JINR E14-97-234(1997) "Joint Institute of Nuclear Research, Dubna, Moscow Region" 20236 SOV0010039 HgBa2CuO4Fx Hg1Ba2Cu1FO4 Hg 1 Ba 2 Cu 1 F O 4 1 1997 2 Hg1201 P4/mmm 3.873 9.489 3 K 90 90 "fluorination=reduced Hg1201 : XeF2=1 : 0.4,-heat(200C,20H in N2 filled tube)" 1997 preprint JINR E14-97-234(1997) "Joint Institute of Nuclear Research, Dubna, Moscow Region" 20237 SOV0010039 HgBa2CuO4Fx Hg1Ba2Cu1FO4 Hg 1 Ba 2 Cu 1 F O 4 1 1997 2 Hg1201 P4/mmm 3.872 9.482 3 K 88 88 "fluorination=reduced Hg1201 : XeF2=1 : 0.3-heat(200C, 30H in N2filled tube)" 1997 preprint JINR E14-97-234(1997) "Joint Institute of Nuclear Research, Dubna, Moscow Region" 20238 SOV0010039 HgBa2CuO4Fx Hg1Ba2Cu1FO4 Hg 1 Ba 2 Cu 1 F O 4 1 1997 2 Hg1201 P4/mmm 3.868 9.459 3 K 78 78 "fluorination=reduced Hg1201 : XeF2=1 : 1-heat(200C,50H in N2-filled tube)" 1997 preprint JINR E14-97-234(1997) "Joint Institute of Nuclear Research, Dubna, Moscow Region" 20239 SOV0010041 "Spheat(P=1 : H=O, H//c-axis, P=2 : H=8T, H//c-axis, P=3 : H=0,H//ab, P=4 : H=8T, H//ab), y=(C-Cb)/T, where Cb is normal state specific heat calculated by LSM. " "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 3 1997 2 T 3.773 13.233 K 39.2 39.2 0.5 39.2 T "resistive transitin 50%,linear extraporation" 120 40 4.37 1.45 6 30 7 "Zone melting by rediation heating.,See Physica C,256(1996)371" 1997 "Zhurnal experimental'noy i teoreticheskoy fiziki, 112(1997)1386-1395" 20240 SOV0010047 YBa2Cu3O7 Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O z 6.95 1 1998 3 Y123 3.822 3.885 11.67 K 87.3 89.7 3 88.5 micro.V/K 0.8 1.7 3.8 1 "ANN(450C,2H in O2 flow)-slow cooling to RT (2C/min)" 1998 Fizika tverdogo tela (Solid State Physics) 40(1998)17 "Y,Ba,La,Cu,O" 20241 SOV0010047 "Y(Ba,La)2Cu3O7" Y1Ba1.95La0.05Cu3O6.98 Y 1 Ba 1.95 La 0.05 Cu 3 O z 6.98 1 1998 3 Y123 3.82 3.894 11.655 K 88.8 89.8 1.1 89.3 1.3 1.5 3.5 1 "ANN(450C,2H in O2 flow)-slow cooling to RT (2C/min)" 1998 Fizika tverdogo tela (Solid State Physics) 40(1998)17 "Y,Ba,La,Cu,O" 20242 SOV0010047 "Y(Ba,La)2Cu3O7" Y1Ba1.9La0.1Cu3O6.99 Y 1 Ba 1.9 La 0.1 Cu 3 O z 6.99 1 1998 3 Y123 3.823 3.895 11.65 K 89.5 91.2 3.2 90.35 6.3 0.7 1.6 1 "ANN(450C,2H in O2 flow)-slow cooling to RT (2C/min)" 1998 Fizika tverdogo tela (Solid State Physics) 40(1998)17 "Y,Ba,La,Cu,O" 20243 SOV0010047 "Y(Ba,La)2Cu3O7" Y1Ba1.8La0.2Cu3O7.03 Y 1 Ba 1.8 La 0.2 Cu 3 O z 7.03 1 1998 3 Y123 3.819 3.89 11.65 K 86.9 90.5 5.8 88.7 9.3 1.4 2.9 1 "ANN(450C,2H in O2 flow)-slow cooling to RT (2C/min)" 1998 Fizika tverdogo tela (Solid State Physics) 40(1998)17 "Y,Ba,La,Cu,O" 20244 SOV0010047 "Y(ba,La)2Cu3O7" Y1Ba1.7La0.3Cu3O7.1 Y 1 Ba 1.7 La 0.3 Cu 3 O z 7.1 1 1998 3 Y123 3.838 3.879 11.64 K 76.8 84.2 8.7 80.5 16.6 2.1 4.2 1 "ANN(450C,2H in O2 flow)-slow cooling to RT (2C/min)" 1998 Fizika tverdogo tela (Solid State Physics) 40(1998)17 "Y,Ba,La,Cu,O" 20245 SOV0010047 "Y(Ba,La)2Cu3)7" Y1Ba1.6La0.4Cu3O7.14 Y 1 Ba 1.6 La 0.4 Cu 3 O z 7.14 1 1998 2 Y123 3.857 11.6 K 62.8 73.5 10.9 68.15 18.5 1.5 2.9 1 "ANN(450C,2H in O2 flow)-slow cooling to RT (2C/min)" 1998 Fizika tverdogo tela (Solid State Physics) 40(1998)17 "Y,Ba,La,Cu,O" 20246 SOV0010047 "Y(Ba,La)2Cu3O7" Y1Ba1.5La0.5Cu3O7.17 Y 1 Ba 1.5 La 0.5 Cu 3 O z 7.17 1 1998 2 Y123 3.853 11.58 K 50.9 57.3 11.6 54.1 39.7 2.8 4.8 1 "ANN(450C,2H in O2 flow)-slow cooling to RT (2C/min)" 1998 Fizika tverdogo tela (Solid State Physics) 40(1998)17 "Y,Ba,La,Cu,O" 20247 SOV0010048 YBa2Cu3O7 Y1Ba2Cu3O6.965 Y 1 Ba 2 Cu 3 O z 6.965 1 1997 3 Y123 3.815 3.881 11.667 K 88.5 88.5 "Y2O3, CuO, Ba2CO3, Pr2O3" 1 "mixture-pellet (500MPa)-heat(900-950C, in air)-ANN(450C,2H in O2 flow)-slow cool to RT" 1997 Fizika tverdogo tela (Solid State Physics) 39(1997)1520-1525 "Y,Pr,Ba,Cu,O" 20248 SOV0010048 "(Y,Pr)Ba2Cu3O7" Y0.95Pr0.05Ba2Cu3O6.965 Y 0.95 Pr 0.05 Ba 2 Cu 3 O z 6.965 1 1997 3 Y123 3.822 3.883 11.684 K 88 88 "Y2O3, CuO, Ba2CO3, Pr2O3" 1 "mixture-pellet (500MPa)-heat(900-950C, in air)-ANN(450C,2H in O2 flow)-slow cool to RT" 1997 Fizika tverdogo tela (Solid State Physics) 39(1997)1520-1525 "Y,Pr,Ba,Cu,O" 20249 SOV0010048 "(Y,Pr)Ba2Cu3O7" Y0.9Pr0.1Ba2Cu3O6.965 Y 0.9 Pr 0.1 Ba 2 Cu 3 O z 6.965 1 1997 3 Y123 3.823 3.89 11.67 K 85 85 "Y2O3, CuO, Ba2CO3, Pr2O3" 1 "mixture-pellet (500MPa)-heat(900-950C, in air)-ANN(450C,2H in O2 flow)-slow cool to RT" 1997 Fizika tverdogo tela (Solid State Physics) 39(1997)1520-1525 "Y,Pr,Ba,Cu,O" 20250 SOV0010048 "(Y,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O6.965 Y 0.8 Pr 0.2 Ba 2 Cu 3 O z 6.965 1 1997 3 Y123 3.826 3.895 11.674 K 70 70 "Y2O3, CuO, Ba2CO3, Pr2O3" 1 "mixture-pellet (500MPa)-heat(900-950C, in air)-ANN(450C,2H in O2 flow)-slow cool to RT" 1997 Fizika tverdogo tela (Solid State Physics) 39(1997)1520-1525 "Y,Pr,Ba,Cu,O" 20251 SOV0010048 "(Y,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3O6.965 Y 0.7 Pr 0.3 Ba 2 Cu 3 O z 6.965 1 1997 3 Y123 3.831 3.897 11.666 K 55 55 "Y2O3, CuO, Ba2CO3, Pr2O3" 1 "mixture-pellet (500MPa)-heat(900-950C, in air)-ANN(450C,2H in O2 flow)-slow cool to RT" 1997 Fizika tverdogo tela (Solid State Physics) 39(1997)1520-1525 "Y,Pr,Ba,Cu,O" 20252 SOV0010048 "(Y,Pr)Ba2Cu3O7" Y0.6Pr0.4Ba2Cu3O6.965 Y 0.6 Pr 0.4 Ba 2 Cu 3 O z 6.965 1 1997 3 Y123 3.836 3.899 11.667 K 35 35 "Y2O3, CuO, Ba2CO3, Pr2O3" 1 "mixture-pellet (500MPa)-heat(900-950C, in air)-ANN(450C,2H in O2 flow)-slow cool to RT" 1997 Fizika tverdogo tela (Solid State Physics) 39(1997)1520-1525 "Y,Pr,Ba,Cu,O" 20253 SOV0010048 "(Y,Pr)ba2Cu3O7" Y0.5Pr0.5Ba2Cu3O6.965 Y 0.5 Pr 0.5 Ba 2 Cu 3 O z 6.965 1 1997 3 Y123 3.838 3.908 11.675 K 10 10 "Y2O3, CuO, Ba2CO3, Pr2O3" 1 "mixture-pellet (500MPa)-heat(900-950C, in air)-ANN(450C,2H in O2 flow)-slow cool to RT" 1997 Fizika tverdogo tela (Solid State Physics) 39(1997)1520-1525 "Y,Pr,Ba,Cu,O" 20254 SOV0010048 "(Y,Pr)Ba2Cu3O7" Y0.4Pr0.6Ba2Cu3O6.965 Y 0.4 Pr 0.6 Ba 2 Cu 3 O z 6.965 1 1997 3 Y123 3.846 3.911 11.686 K 4.2 "Y2O3, CuO, Ba2CO3, Pr2O3" 1 "mixture-pellet (500MPa)-heat(900-950C, in air)-ANN(450C,2H in O2 flow)-slow cool to RT" 1997 Fizika tverdogo tela (Solid State Physics) 39(1997)1520-1525 "Y,Pr,Ba,Cu,O" 20255 SOV0010049 YBa2Cu3O7 Y1Ba2Cu3Oz Y 1 Ba 2 Cu 3 O z 1 1997 3 Y123 3.824 3.891 11.667 K 90 90 3 11 "Sol-gel method with ethylenglycol as gel, SIN(940C,2H in O2)-ANN(910C,20H)-slow cool to 20C(17H)" 1997 "Zhurnal technicheskoy fiziki , 67(1997)31-34" 20256 SOV0010049 unknown phases exist YBa2Cu3O7 Y1Ba2Cu2.85Au0.15Oz Y 1 Ba 2 Cu 2.85 Au 0.15 O z 1 1997 3 Y123 3.822 3.899 11.705 K 90 90 3 11 "Sol-gel method with ethylenglycol as gel, SIN(940C,2H in O2)-ANN(910C,20H)-slow cool to 20C(17H)" 1997 "Zhurnal technicheskoy fiziki , 67(1997)31-34" 20257 SOV0010049 YBa2Cu3O7 Y1Ba2Cu2.7Au0.3Oz Y 1 Ba 2 Cu 2.7 Au 0.3 O z 1 1997 3 Y123 3.821 3.901 11.734 K 88 88 3 11 "Sol-gel method with ethylenglycol as gel, SIN(940C,2H in O2)-ANN(910C,20H)-slow cool to 20C(17H)" 1997 "Zhurnal technicheskoy fiziki , 67(1997)31-34" 20258 SOV0010050 "main phase=Bi2212, minor=Bi2223, inprity=Bi2201, Ca2PbO4, LAT and Tc, for Bi2223, Jc77=16.7A" Bi1.7Pb0.3Sr2Ca2Cu3Oz Bi 1.7 Pb 0.3 Sr 2 Ca 2 Cu 3 O z 2 1996 2 Bi2223 5.391 36.826 K 105.1 112 108.55 "Pb,Cu,Bi-oxide,Ca,Sr-cosbonate" 1 "CAL(770-860C, in air)-several step annealing" 1996 "Pis'ma v Zhurnal Technicheskoy Fiziki, 22(1996)48-53" "Bi,Sr,Ca,Cu,O,Pb,Cs" 20259 SOV0010050 "main=Bi2212, minor=Bi2223, LAT and Tc for Bi2223, Jc77=56.0A" Bi1.7Pb3Sr2Ca2Cu3Cs0.1Oz Bi 1.7 Pb 3 Sr 2 Ca 2 Cu 3 Cs 0.1 O z 2 1996 2 Bi2223 5.405 36.938 K 106.1 112 109.05 "Pb,Cu,Bi-oxide,Ca,Sr-cosbonate" 1 "CAL(770-860C, in air)-several step annealing" 1996 "Pis'ma v Zhurnal Technicheskoy Fiziki, 22(1996)48-53" "Bi,Sr,Ca,Cu,O,Pb,Cs" 20260 SOV0010050 "mixture of Bi2212 and Bi2223, LAT and Tc for Bi2223, Jc77=60.9A" Bi1.7Pb0.3Sr2Ca2Cu3Cs0.2Oz Bi 1.7 Pb 0.3 Sr 2 Ca 2 Cu 3 Cs 0.2 O z 2 1996 2 Bi2223 5.403 37.112 K 105.3 112 108.65 "Pb,Cu,Bi-oxide,Ca,Sr-cosbonate" 1 "CAL(770-860C, in air)-several step annealing" 1996 "Pis'ma v Zhurnal Technicheskoy Fiziki, 22(1996)48-53" "Bi,Sr,Ca,Cu,O,Pb,Cs" 20261 SOV0010050 "mixture of Bi2212 and Bi2223, LAT and Tc for Bi2223, Jc77=60.9A" Bi1.7Pb0.3Sr2Ca2Cu3Cs0.3Oz Bi 1.7 Pb 0.3 Sr 2 Ca 2 Cu 3 Cs 0.3 O z 2 1996 2 Bi2223 5.398 37.062 K 106 112 109 "Pb,Cu,Bi-oxide,Ca,Sr-cosbonate" 1 "CAL(770-860C, in air)-several step annealing" 1996 "Pis'ma v Zhurnal Technicheskoy Fiziki, 22(1996)48-53" "Bi,Sr,Ca,Cu,O,Pb,Cs" 20262 SOV0010050 "practically single phase, Jc77=48.0A" Bi1.7Pb0.3Sr2Ca2Cu3Cs0.4Oz Bi 1.7 Pb 0.3 Sr 2 Ca 2 Cu 3 Cs 0.4 O z 1 1996 2 Bi2223 5.385 37 K 102.6 112 107.3 "Pb,Cu,Bi-oxide,Ca,Sr-cosbonate" 1 "CAL(770-860C, in air)-several step annealing" 1996 "Pis'ma v Zhurnal Technicheskoy Fiziki, 22(1996)48-53" "Bi,Sr,Ca,Cu,O,Pb,Cs" 20263 SOV0010050 "practically single phase, Jc77=36.0A" Bi1.7Pb0.3Sr2Ca2Cu3Cs0.5Oz Bi 1.7 Pb 0.3 Sr 2 Ca 2 Cu 3 Cs 0.5 O z 1 1996 2 Bi2223 5.387 37.042 K 105.1 112 108.55 "Pb,Cu,Bi-oxide,Ca,Sr-cosbonate" 1 "CAL(770-860C, in air)-several step annealing" 1996 "Pis'ma v Zhurnal Technicheskoy Fiziki, 22(1996)48-53" "Bi,Sr,Ca,Cu,O,Pb,Cs" 20264 SOV0010050 "practically single phase, Jc77=48.0A" Bi1.7Pb0.3Sr2Ca2Cu3Cs0.6Oz Bi 1.7 Pb 0.3 Sr 2 Ca 2 Cu 3 Cs 0.6 O z 1 1996 2 Bi2223 5.387 37.018 K 104 112 108 "Pb,Cu,Bi-oxide,Ca,Sr-cosbonate" 1 "CAL(770-860C, in air)-several step annealing" 1996 "Pis'ma v Zhurnal Technicheskoy Fiziki, 22(1996)48-53" "Bi,Sr,Ca,Cu,O,Pb,Cs" 20265 SOV0010050 "practically single phase, Jc77=128.0A" Bi1.7Pb0.3Sr2Ca2Cu3Cs0.7Oz Bi 1.7 Pb 0.3 Sr 2 Ca 2 Cu 3 Cs 0.7 O z 1 1996 2 Bi2223 5.393 37.062 K 105.9 112 108.95 "Pb,Cu,Bi-oxide,Ca,Sr-cosbonate" 1 "CAL(770-860C, in air)-several step annealing" 1996 "Pis'ma v Zhurnal Technicheskoy Fiziki, 22(1996)48-53" "Bi,Sr,Ca,Cu,O,Pb,Cs" 20266 SOV0010050 "practically single phase, Jc77=41.7A" Bi1.7Pb0.3Sr2Ca2Cu3Cs0.8Oz Bi 1.7 Pb 0.3 Sr 2 Ca 2 Cu 3 Cs 0.8 O z 1 1996 Bi2223 5.382 36.959 K 105 112 108.5 "Pb,Cu,Bi-oxide,Ca,Sr-cosbonate" 1 "CAL(770-860C, in air)-several step annealing" 1996 "Pis'ma v Zhurnal Technicheskoy Fiziki, 22(1996)48-53" "Bi,Sr,Ca,Cu,O,Pb,Cs" 20267 SOV0010050 "minor single phase, Jc77=36.0A" Bi0.7Pb0.3Sr2Ca2Cu3Cs0.9Oz Bi 0.7 Pb 0.3 Sr 2 Ca 2 Cu 3 Cs 0.9 O z 2 1996 Bi2223 5.39 37 K 105.9 112 108.95 "Pb,Cu,Bi-oxide,Ca,Sr-cosbonate" 1 "CAL(770-860C, in air)-several step annealing" 1996 "Pis'ma v Zhurnal Technicheskoy Fiziki, 22(1996)48-53" "Bi,Sr,Ca,Cu,O,Pb,Cs" 20268 SOV0010050 "minor phase=Bi2212, Jc77=26.9A" Bi1.7Pb0.3Sr2Ca2Cu3Cs1Oz Bi 1.7 Pb 0.3 Sr 2 Ca 2 Cu 3 Cs 1 O z 2 1996 Bi2223 5.393 37.055 K 105 112 108.5 "Pb,Cu,Bi-oxide,Ca,Sr-cosbonate" 1 "CAL(770-860C, in air)-several step annealing" 1996 "Pis'ma v Zhurnal Technicheskoy Fiziki, 22(1996)48-53" "Bi,Sr,Ca,Cu,O,Pb,Cs" 20269 SOV0010117 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1995 3 Y124 Ammm 3.839 3.869 27.343 K 80 80 "Y2O3, BaCu2O3" 1 "mixture-SIN(1085K, in O2 flow), see Physica C 182(1991)67" 1995 "Philosoph. Mag. B, 71(1995)1137-1143" "Y,Ba,Cu,O,Ce" 20270 SOV0010117 "(Y,Ce,Ca)Ba2Cu4O8" Y0.8Ce0.1Ca0.1Ba2Cu4O8 Y 0.8 Ce 0.1 Ca 0.1 Ba 2 Cu 4 O 8 1 1995 3 Y124 Ammm 3.841 3.87 27.188 K 63 63 "Y2O3, BaCu2O3, CeO2, Ca(NO3)" 1 "mixture-SIN(1085K, in O2 flow), see Physica C 182(1991)67 4H2O" 1995 "Philosoph. Mag. B, 71(1995)1137-1143" "Y,Ba,Cu,O,Ce" 20271 SOV0010125 "semiconductor, not s/c" "(Cd,Fe)Sr2YCu2O7" Cd0.5Fe0.5Sr2Y1Cu2O7-z Cd 0.5 Fe 0.5 Sr 2 Y 1 Cu 2 O 7-z 1 1995 2 1212 P4/mmm 3.809 11.423 K "CdO, SrCO3, Y2O3, CuO, Fe2O3(Co2O3)" "mixture-heat(840C,24H in air)-pellet-SIN(920C,40H in air)-FC" 1995 "Physica Status Solidi(a), 152(1995)355-359" 20272 SOV0010125 "semiconductor, not s/c" "(Cd,Co)Sr2YCu2O7" Cd0.5Co0.5Sr2Y1Cu2O7-z Cd 0.5 Co 0.5 Sr 2 Y 1 Cu 2 O 7-z 1 1995 2 1212 P4/mmm 3.816 11.435 K "CdO, SrCO3, Y2O3, CuO, Fe2O3(Co2O3)" "mixture-heat(840C,24H in air)-pellet-SIN(920C,40H in air)-FC" 1995 "Physica Status Solidi(a), 152(1995)355-359" 20273 SOV0010119 "Hg1223>75% volume, inpurity phase=CaHgO2,Hg1234, Ba2Ca2Cu3Oz" HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8.28 Hg 1 Ba 2 Ca 2 Cu 3 O 8 8.28 2 1995 2 Hg1223 P4/mmm 3.852 15.842 K 118 119 118.5 "BaO, CaO, CuO, HgO" "precursor(Ba2Ca2Cu3Oz)+HgO, ANN(750C,10H)-rapid cool to RT(5min)" 1995 "Physica Status Solidi(a), 152(1995)477-483" 20274 SOV0010119 "Hg1223>75% volume,inpurity phase=CaHgO2,Hg1234,Ba2Ca2Cu3Oz" HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8.35 Hg 1 Ba 2 Ca 2 Cu 3 O 8 8.35 2 1995 2 Hg1223 P4/mmm 3.852 15.842 K 133 135 134 "BaO, CaO, CuO, HgO" "precursor(Ba2Ca2Cu3Oz)+ HgO, ANN(300C,8H in O2 flow)-vapid cool to RT" 1995 "Physica Status Solidi(a), 152(1995)477-483" 20275 SOV0010120 TC by AC Susceptibility "(Nd,Pr)Ba2Cu3O7" Nd0.7Pr0.3Ba2Cu3O6.95 Nd 0.7 Pr 0.3 Ba 2 Cu 3 O z 6.95 1 1995 3 Y123 3.876 3.964 11.789 3 K 5 "Nd2O3, Pr2O3, BaCO3, CuO" 1 "mixture-CAL(950C,12-18H in air)-grind-pellet-heat(980C,16-24H in air)-ANN(450C,72H in O2)-FC to RT" 1995 "Mat.Res.Bull., 38(1995)1363-1370" 20276 SOV0010120 TC by AC Susceptibility "(Nd,Pr)(Ba,Sr)2Cu3O7" Nd0.7Pr0.3Ba1.85Sr0.15Cu3Oz Nd 0.7 Pr 0.3 Ba 1.85 Sr 0.15 Cu 3 O z 1 1995 3 Y123 3.874 3.961 11.782 3 K 5 "Nd2O3, Pr2O3, BaCO3, CuO" 1 "mixture-CAL(950C,12-18H in air)-grind-pellet-heat(980C,16-24H in air)-ANN(450C,72H in O2)-FC to RT" 1995 "Mat.Res.Bull., 38(1995)1363-1370" 20277 SOV0010120 TC by AC Susceptibility "(Nd,Pr)(Ba,Sr)2Cu3O7" Nd0.7Pr0.3Ba1.75Sr0.25Cu3Oz Nd 0.7 Pr 0.3 Ba 1.75 Sr 0.25 Cu 3 O z 1 1995 3 Y123 3.867 3.951 11.749 3 K 24 24 "Nd2O3, Pr2O3, BaCO3, CuO" 1 "mixture-CAL(950C,12-18H in air)-grind-pellet-heat(980C,16-24H in air)-ANN(450C,72H in O2)-FC to RT" 1995 "Mat.Res.Bull., 38(1995)1363-1370" 20278 SOV0010120 "(Nd,Pr)(Ba,Sr)2Cu3O7" Nd0.7Pr0.3Ba1.5Sr0.5Cu3Oz Nd 0.7 Pr 0.3 Ba 1.5 Sr 0.5 Cu 3 O z 1 1995 3 Y123 3.884 3.925 11.733 3 K 26 26 "Nd2O3, Pr2O3, BaCO3, CuO" 1 "mixture-CAL(950C,12-18H in air)-grind-pellet-heat(980C,16-24H in air)-ANN(450C,72H in O2)-FC to RT" 1995 "Mat.Res.Bull., 38(1995)1363-1370" 20279 SOV0010120 "(Nd,Pr)(Ba,Sr)2Cu3O7" Nd0.7Pr0.3Ba1.25Sr0.75Cu3Oz Nd 0.7 Pr 0.3 Ba 1.25 Sr 0.75 Cu 3 O z 1 1995 2 Y123 3.903 11.731 3 K 27 27 "Nd2O3, Pr2O3, BaCO3, CuO" 1 "mixture-CAL(950C,12-18H in air)-grind-pellet-heat(980C,16-24H in air)-ANN(450C,72H in O2)-FC to RT" 1995 "Mat.Res.Bull., 38(1995)1363-1370" 20280 SOV0010120 "(Nd,Pr)(Ba,Sr)2Cu3O7" Nd0.7Pr0.3Ba1.15Sr0.85Cu3Oz Nd 0.7 Pr 0.3 Ba 1.15 Sr 0.85 Cu 3 O z 1 1995 2 Y123 3.899 11.69 3 K 29 29 "Nd2O3, Pr2O3, BaCO3, CuO" 1 "mixture-CAL(950C,12-18H in air)-grind-pellet-heat(980C,16-24H in air)-ANN(450C,72H in O2)-FC to RT" 1995 "Mat.Res.Bull., 38(1995)1363-1370" 20281 SOV0010120 "(Nd,Pr)(Ba,Sr)2Cu3O7" Nd0.7Pr0.3Ba1Sr1Cu3O6.87 Nd 0.7 Pr 0.3 Ba 1 Sr 1 Cu 3 O z 6.87 1 1995 2 Y123 3.901 11.674 3 K 34 34 "Nd2O3, Pr2O3, BaCO3, CuO" 1 "mixture-CAL(950C,12-18H in air)-grind-pellet-heat(980C,16-24H in air)-ANN(450C,72H in O2)-FC to RT" 1995 "Mat.Res.Bull., 38(1995)1363-1370" 20282 SOV0010120 "(Nd,Pr)BaCu3O7" Nd0.7Pr0.3Ba2Cu3O6.95 Nd 0.7 Pr 0.3 Ba 2 Cu 3 O 7-z 6.95 1 1995 3 Y123 3.866 3.957 11.757 3 K 5 "Nd2O3, Pr2O3, BaCO3, CuO" 1 "mixture-CAL(950C,12-18H in air)-grind-pellet-heat(980C,16-24H in air)-heat(850C,24H in Ar)-FC to RT-heat(450C,72H in O2)-FC to RT" 1995 "Mat.Res.Bull., 38(1995)1363-1370" 20283 SOV0010120 "(Nd,Pr)(Ba,Sr)2Cu3O7" Nd0.7Pr0.3Ba1.85Sr0.15Cu3O7-z Nd 0.7 Pr 0.3 Ba 1.85 Sr 0.15 Cu 3 O 7-z 1 1995 3 Y123 3.865 3.954 11.755 3 K 5 "Nd2O3, Pr2O3, BaCO3, CuO" 1 "mixture-CAL(950C,12-18H in air)-grind-pellet-heat(980C,16-24H in air)-heat(850C,24H in Ar)-FC to RT-heat(450C,72H in O2)-FC to RT" 1995 "Mat.Res.Bull., 38(1995)1363-1370" 20284 SOV0010120 "(Nd,Pr)(Ba,Sr)2Cu3O7" Nd0.7Pr0.3Ba1.75Sr0.25Cu3O7-z Nd 0.7 Pr 0.3 Ba 1.75 Sr 0.25 Cu 3 O 7-z 1 1995 3 Y123 3.863 3.95 11.742 3 K 26 "Nd2O3, Pr2O3, BaCO3, CuO" 1 "mixture-CAL(950C,12-18H in air)-grind-pellet-heat(980C,16-24H in air)-heat(850C,24H in Ar)-FC to RT-heat(450C,72H in O2)-FC to RT" 1995 "Mat.Res.Bull., 38(1995)1363-1370" 20285 SOV0010120 "(Nd,Pr)(Ba,Sr)2Cu3O7" Nd0.7Pr0.3Ba1.5Sr0.5Cu3O7-z Nd 0.7 Pr 0.3 Ba 1.5 Sr 0.5 Cu 3 O 7-z 1 1995 3 Y123 3.88 3.929 11.73 3 K 29 "Nd2O3, Pr2O3, BaCO3, CuO" 1 "mixture-CAL(950C,12-18H in air)-grind-pellet-heat(980C,16-24H in air)-heat(850C,24H in Ar)-FC to RT-heat(450C,72H in O2)-FC to RT" 1995 "Mat.Res.Bull., 38(1995)1363-1370" 20286 SOV0010120 "(Nd,Pr)(Ba,Sr)2Cu3O7" Nd0.7Pr0.3Ba1.25Sr0.75Cu3O7-z Nd 0.7 Pr 0.3 Ba 1.25 Sr 0.75 Cu 3 O 7-z 1 1995 3 Y123 3.887 3.905 11.71 3 K 34 34 "Nd2O3, Pr2O3, BaCO3, CuO" 1 "mixture-CAL(950C,12-18H in air)-grind-pellet-heat(980C,16-24H in air)-heat(850C,24H in Ar)-FC to RT-heat(450C,72H in O2)-FC to RT" 1995 "Mat.Res.Bull., 38(1995)1363-1370" 20287 SOV0010120 "(Nd,Pr)(Ba,Sr)2Cu3O7" Nd0.7Pr0.3Ba1.15Sr0.85Cu3O7-z Nd 0.7 Pr 0.3 Ba 1.15 Sr 0.85 Cu 3 O 7-z 1 1995 2 Y123 3.891 11.701 3 K 38 38 "Nd2O3, Pr2O3, BaCO3, CuO" 1 "mixture-CAL(950C,12-18H in air)-grind-pellet-heat(980C,16-24H in air)-heat(850C,24H in Ar)-FC to RT-heat(450C,72H in O2)-FC to RT" 1995 "Mat.Res.Bull., 38(1995)1363-1370" 20288 SOV0010120 "(Nd,Pr)(Ba,Sr)2Cu3O7" Nd0.7Pr0.3Ba1Sr1Cu3O7-z Nd 0.7 Pr 0.3 Ba 1 Sr 1 Cu 3 O 7-z 1 1995 2 Y123 3.888 11.695 3 K 44 44 "Nd2O3, Pr2O3, BaCO3, CuO" 1 "mixture-CAL(950C,12-18H in air)-grind-pellet-heat(980C,16-24H in air)-heat(850C,24H in Ar)-FC to RT-heat(450C,72H in O2)-FC to RT" 1995 "Mat.Res.Bull., 38(1995)1363-1370" 20289 SOV0010121 not superconducting HgBa2CuO4 Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 1 1995 2 Hg1201 3.868 9.47 K 4 "BaO2, CuO, HgO" "precursor(Ba2CuOz)+HgO+CuO in Ar-filled dry box-SIN(920C, 0.6H, P=18 Kbar)" 1995 "Mat.Res.Bull., 30(1995)1463-1470" 20290 SOV0010121 dominent phase=HgBa4Cu2CO3Cz Tc due to Hg1201(minor phase) "(Hg,C)Ba2CuO4" Hg0.5C0.5Ba2Cu1O4+z Hg 0.5 C 0.5 Ba 2 Cu 1 O 4+z 2 1995 2 Hg1201 3.927 8.676 K 63 63 "BaO2, CuO, HgO, BaCO3" "precursor(Ba2CuOz)+HgO+CuO in Ar-filled dry box-SIN(920C,0.6H, P=18Kbar)" 1995 "Mat.Res.Bull., 30(1995)1463-1470" 20291 SOV0010121 CBa2CuO4 C1Ba2Cu1O4+z C 1 Ba 2 Cu 1 O 4+z 1995 2 Hg1201 4.004 7.909 K 4 "BaO2, CuO, BaCO3" "precursor(Ba2CuOz)+CuO+BaCO3 in Ar-filled dry box-SIN(920C, 2H, P=40Kbar)" 1995 "Mat.Res.Bull., 30(1995)1463-1470" 20292 SOV0010130 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1995 Y124 K 80 80 "see Phys.Rev.B,41(1990)6616" Positron lifetime measurements in Ca-substituted Y-124 ceramics 1995 "Materials Lett., 25(1995)91-96" 20293 SOV0010130 "(Y,Ca)Ba2Cu4O8" Y0.95Ca0.05Ba2Cu4O8 Y 0.95 Ca 0.05 Ba 2 Cu 4 O 8 1 1995 Y124 K 87.2 87.2 "see Phys.Rev.B,41(1990)6616" Positron lifetime measurements in Ca-substituted Y-124 ceramics 1995 "Materials Lett., 25(1995)91-96" 20294 SOV0010130 "(Y,Ca)Ba2Cu4O8" Y0.9Ca0.1Ba2Cu4O8 Y 0.9 Ca 0.1 Ba 2 Cu 4 O 8 1 1995 Y124 K 89.5 89.5 "see Phys.Rev.B,41(1990)6616" Positron lifetime measurements in Ca-substituted Y-124 ceramics 1995 "Materials Lett., 25(1995)91-96" 20295 SOV0010130 "(Y,Ca)Ba2Cu4O8" Y0.88Ca0.12Ba2Cu4O8 Y 0.88 Ca 0.12 Ba 2 Cu 4 O 8 1 1995 Y124 K 88.5 88.5 "see Phys.Rev.B,41(1990)6616" Positron lifetime measurements in Ca-substituted Y-124 ceramics 1995 "Materials Lett., 25(1995)91-96" 20296 SOV0010130 "(Y,Ca)Ba2Cu4O8" Y0.85Ca0.15Ba2Cu4O8 Y 0.85 Ca 0.15 Ba 2 Cu 4 O 8 1 1995 Y124 K 87.8 87.8 "see Phys.Rev.B,41(1990)6616" Positron lifetime measurements in Ca-substituted Y-124 ceramics 1995 "Materials Lett., 25(1995)91-96" 20297 SOV0010051 "(Bi,Pb)2Sr2Ca2Cu3O10" Bi1.6Pb0.4Sr2Ca2Cu3Oz Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 3 O z 2 1998 Bi2223 5.411 37.115 K 109.8 109.8 "PbO,CuO,Bi2O3,CaCO3,SrCO3,PbF2,K2CO3" 1 "mixture-CAL(750C,16H)-pellet-ANN(820-827,69.5H)-pellet-SIN(838C,190H)slow cool to RT" 1998 "Pis'ma v Zhurnal Technicheskoy Fiziki, 24(1998)8-15" 20298 SOV0010051 "(Bi,Pb)2Sr2Ca2Cu3(F,O)10" Bi1.6Pb0.4Sr2Ca2Cu3F0.8Oz-0.8 Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 3 F 0.8 O z-0.8 2 1998 Bi2223 5.406 37.083 K 109.9 109.9 "PbO,CuO,Bi2O3,CaCO3,SrCO3,PbF2,K2CO3" 1 "mixture-CAL(750C,16H)-pellet-ANN(820-827,69.5H)-pellet-SIN(838C,190H)slow cool to RT" 1998 "Pis'ma v Zhurnal Technicheskoy Fiziki, 24(1998)8-15" 20299 SOV0010051 "(Bi,Pb)2(Sr,K)2Ca2Cu3(F,O)10" Bi1.6Pb0.4Sr1.98K0.02Ca2Cu3F0.8OZ-0.8 Bi 1.6 Pb 0.4 Sr 1.98 K 0.02 Ca 2 Cu 3 F 0.8 O Z-0.8 2 1998 Bi2223 5.399 37.019 K 106.6 106.6 "PbO,CuO,Bi2O3,CaCO3,SrCO3,PbF2,K2CO3" 1 "mixture-CAL(750C,16H)-pellet-ANN(820-827,69.5H)-pellet-SIN(838C,190H)slow cool to RT" 1998 "Pis'ma v Zhurnal Technicheskoy Fiziki, 24(1998)8-15" 20300 SOV0010051 "(Bi,Pb)2(Sr,K)2Ca2Cu3(F,O)10" Bi1.6Pb0.4Sr1.95K0.05Ca2Cu3F0.8Oz-0.8 Bi 1.6 Pb 0.4 Sr 1.95 K 0.05 Ca 2 Cu 3 F 0.8 O z-0.8 2 1998 Bi2223 5.398 36.972 K 105.6 105.6 "PbO,CuO,Bi2O3,CaCO3,SrCO3,PbF2,K2CO3" 1 "mixture-CAL(750C,16H)-pellet-ANN(820-827,69.5H)-pellet-SIN(838C,190H)slow cool to RT" 1998 "Pis'ma v Zhurnal Technicheskoy Fiziki, 24(1998)8-15" 20301 SOV0010128 "Tl1212(63 vol,%)+CuO(32%) and<5% impurity" Tl1.15Sr1.6Ba0.4Ca2Cu3Ag0.4Oz Tl 1.15 Sr 1.6 Ba 0.4 Ca 2 Cu 3 Ag 0.4 O z 1995 Tl1212 K 36 36 "SrCO3,BaCO3,CaCO3,CuO,AgNO3,Tl2O3" "precursor(Sr-Ba-Ca-Cu-Ag-O)-mix with Tl2O3-press-wrapped in Au foil-heat(929C,2H in O2Flow)-cool to RT(4-5H)" 1995 "Mater.Res.Bull., 30(1995)1243-1248" 20302 SOV0010128 "Tl1212(73vol,%)+CuO(32%)and <5%impurity" Tl0.115Pb0.104Sr1.6Ba0.4Ca2Cu3Ag0.4Oz Tl 0.115 Pb 0.104 Sr 1.6 Ba 0.4 Ca 2 Cu 3 Ag 0.4 O z 2 1995 Tl1212 K 88 88 "SrCO3,BaCO3,CaCO3,CuO,AgNO3,Tl2O3" "precursor(Sr-Ba-Ca-Cu-Ag-O)-mix with Tl2O3-press-wrapped in Au foil-heat(929C,2H in O2Flow)-cool to RT(4-5H)" 1995 "Mater.Res.Bull., 30(1995)1243-1248" 20303 SOV0010128 Tl1212(67vol%)+Cuo(28%)and<5% impurity Tl0.23Ca0.92Sr1.6Ba0.4Ca2Cu3Ag0.4Oz Tl 0.23 Ca 0.92 Sr 1.6 Ba 0.4 Ca 2 Cu 3 Ag 0.4 O z 2 1995 Tl1223 K 98 98 "SrCO3,BaCO3,CaCO3,CuO,AgNO3,Tl2O3" "precursor(Sr-Ba-Ca-Cu-Ag-O)-mix with Tl2O3-press-wrapped in Au foil-heat(929C,2H in O2Flow)-cool to RT(4-5H)" 1995 "Mater.Res.Bull., 30(1995)1243-1248" 20304 SOV0010128 "Tl,Pb 1212(95vol, %)" Tl0.345Pb0.805Sr1.6Ba0.4Ca2Cu3Ag0.4Oz Tl 0.345 Pb 0.805 Sr 1.6 Ba 0.4 Ca 2 Cu 3 Ag 0.4 O z 2 1995 Tl1223 P4/mmm 3.824 15.421 K 106 106 "SrCO3,BaCO3,CaCO3,CuO,AgNO3,Tl2O3" "precursor(Sr-Ba-Ca-Cu-Ag-O)-mix with Tl2O3-press-wrapped in Au foil-heat(929C,2H in O2Flow)-cool to RT(4-5H)" 1995 "Mater.Res.Bull., 30(1995)1243-1248" 20305 SOV0010128 Tl0.46Pb0.69Sr1.6Ba0.4Ca2Cu3Ag0.4Oz Tl 0.46 Pb 0.69 Sr 1.6 Ba 0.4 Ca 2 Cu 3 Ag 0.4 O z 1995 Tl1223 P4/mmm 3.818 15.341 K 112 112 "SrCO3,BaCO3,CaCO3,CuO,AgNO3,Tl2O3" "precursor(Sr-Ba-Ca-Cu-Ag-O)-mix with Tl2O3-press-wrapped in Au foil-heat(929C,2H in O2Flow)-cool to RT(4-5H)" 1995 "Mater.Res.Bull., 30(1995)1243-1248" 20306 SOV0010128 "Tl,Pb 1223(95vol %)" Tl0.575Pb0.575Sr1.6Ba0.4Ca2Cu3Ag0.4Oz Tl 0.575 Pb 0.575 Sr 1.6 Ba 0.4 Ca 2 Cu 3 Ag 0.4 O z 2 1995 Tl1223 P4/mmm 3.82 15.348 K 116 116 "SrCO3,BaCO3,CaCO3,CuO,AgNO3,Tl2O3" "precursor(Sr-Ba-Ca-Cu-Ag-O)-mix with Tl2O3-press-wrapped in Au foil-heat(929C,2H in O2Flow)-cool to RT(4-5H)" 1995 "Mater.Res.Bull., 30(1995)1243-1248" 20307 SOV0010128 "Tl,Pb 1212(45 vol%)+Tl,Pb1223(44%)+CaPbO4(6%)" Tl0.69Pb0.46Sr1.6Ba0.4Ca2Cu3Ag0.4Oz Tl 0.69 Pb 0.46 Sr 1.6 Ba 0.4 Ca 2 Cu 3 Ag 0.4 O z 2 1995 K 119 119 "SrCO3,BaCO3,CaCO3,CuO,AgNO3,Tl2O3" "precursor(Sr-Ba-Ca-Cu-Ag-O)-mix with Tl2O3-press-wrapped in Au foil-heat(929C,2H in O2Flow)-cool to RT(4-5H)" 1995 "Mater.Res.Bull., 30(1995)1243-1248" 20308 SOV0010128 "Tl,Pb 1212(80 vol %)+Ca2PbO4(15%)" Tl0.805Pb0.345Sr1.6Ba0.4Ca2Cu3Ag0.4Oz Tl 0.805 Pb 0.345 Sr 1.6 Ba 0.4 Ca 2 Cu 3 Ag 0.4 O z 1995 Tl1212 K 96 96 "SrCO3,BaCO3,CaCO3,CuO,AgNO3,Tl2O3" "precursor(Sr-Ba-Ca-Cu-Ag-O)-mix with Tl2O3-press-wrapped in Au foil-heat(929C,2H in O2Flow)-cool to RT(4-5H)" 1995 "Mater.Res.Bull., 30(1995)1243-1248" 20309 SOV0010128 "Tl,Pb 1212(63vol %)+Ca2PbO4(32%)" Tl0.92Pb0.23Sr1.6Ba0.4Ca2Cu3Ag0.4Oz Tl 0.92 Pb 0.23 Sr 1.6 Ba 0.4 Ca 2 Cu 3 Ag 0.4 O z 2 1995 Tl1212 K 80 80 "SrCO3,BaCO3,CaCO3,CuO,AgNO3,Tl2O3" "precursor(Sr-Ba-Ca-Cu-Ag-O)-mix with Tl2O3-press-wrapped in Au foil-heat(929C,2H in O2Flow)-cool to RT(4-5H)" 1995 "Mater.Res.Bull., 30(1995)1243-1248" 20310 SOV0010126 glas temp. TG=426 Bi4Sr3Ca3Cu4OZ Bi 4 Sr 3 Ca 3 Cu 4 O Z 6 1995 5.82 K 70 70 428 calculated from resistivity "Bi2O3, SrCo3, CaCO3, CuO, PbO" "mixture-preheat(500C,5H)-regrinding-heat(1100C,2H)Q to RT, details see Phys.Rev.B,48(1992)11075" "Investigation of dielectric properties of (Bi,Pb)4Sr3Ca3Cu4Oz for different content of Pb dopant" 1995 "Indian Assoc. for Cultivation of Sci. Calcutta, India" "Philos. Magazine B, 71(1995)151-162" 20311 SOV0010126 glas temp. TG=415 Bi3.9Pb0.1Sr3Ca3Cu4OZ Bi 3.9 Pb 0.1 Sr 3 Ca 3 Cu 4 O Z 6 1995 7 K 72 72 420 calculated from resistivity "Bi2O3, SrCo3, CaCO3, CuO, PbO" "mixture-preheat(500C,5H)-regrinding-heat(1100C,2H)Q to RT, details see Phys.Rev.B,48(1992)11075" "Investigation of dielectric properties of (Bi,Pb)4Sr3Ca3Cu4Oz for different content of Pb dopant" 1995 "Indian Assoc. for Cultivation of Sci. Calcutta, India" "Philos. Magazine B, 71(1995)151-162" 20312 SOV0010126 glas temp. TG=408 Bi3.5Pb0.5Sr3Ca3Cu4OZ Bi 3.5 Pb 0.5 Sr 3 Ca 3 Cu 4 O Z 6 1995 6.9 K 73.5 73.5 412 calculated from resistivity "Bi2O3, SrCo3, CaCO3, CuO, PbO" "mixture-preheat(500C,5H)-regrinding-heat(1100C,2H)Q to RT, details see Phys.Rev.B,48(1992)11075" "Investigation of dielectric properties of (Bi,Pb)4Sr3Ca3Cu4Oz for different content of Pb dopant" 1995 "Indian Assoc. for Cultivation of Sci. Calcutta, India" "Philos. Magazine B, 71(1995)151-162" 20313 SOV0010126 glas temp. TG=402 Bi1Pb1Sr3Ca3Cu4OZ Bi 1 Pb 1 Sr 3 Ca 3 Cu 4 O Z 6 1995 6.76 K 78.5 78.5 408 calculated from resistivity "Bi2O3, SrCo3, CaCO3, CuO, PbO" "mixture-preheat(500C,5H)-regrinding-heat(1100C,2H)Q to RT, details see Phys.Rev.B,48(1992)11075" "Investigation of dielectric properties of (Bi,Pb)4Sr3Ca3Cu4Oz for different content of Pb dopant" 1995 "Indian Assoc. for Cultivation of Sci. Calcutta, India" "Philos. Magazine B, 71(1995)151-162" 20314 PSS0410389 YBa2Cu3O7 Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O 7-Z 6.95 1 1999 3 Y123 3.822 3.885 11.67 K 88 88 microV/T "standard solid state sintering, final processing (450C,10H, in O2 flow)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20315 PSS0410389 "Y(Ba,La)2Cu3O7" Y1Ba1.95La0.05Cu3O6.98 Y 1 Ba 1.95 La 0.05 Cu 3 O 7-Z 6.98 1 1999 3 Y123 3.82 3.894 11.655 K 90 90 "standard solid state sintering, final processing (450C,10H, in O2 flow)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20316 PSS0410389 "Y(Ba,La)2Cu3O7" Y1Ba1.9La0.1Cu3O6.99 Y 1 Ba 1.9 La 0.1 Cu 3 O 7-Z 6.99 1 1999 3 Y123 3.823 3.895 11.63 K 91 91 "standard solid state sintering, final processing (450C,10H, in O2 flow)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20317 PSS0410389 "Y(Ba,La)2Cu3O7" Y1Ba1.8La0.2Cu3O7.03 Y 1 Ba 1.8 La 0.2 Cu 3 O 7-Z 7.03 1 1999 3 Y123 3.819 3.89 11.65 K 89 89 "standard solid state sintering, final processing (450C,10H, in O2 flow)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20318 PSS0410389 "Y(Ba,La)2Cu3O7" Y1Ba1.7La0.3Cu3O7.1 Y 1 Ba 1.7 La 0.3 Cu 3 O 7-Z 7.1 1 1999 3 Y123 3.828 3.879 11.64 K 80 80 "standard solid state sintering, final processing (450C,10H, in O2 flow)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20319 PSS0410389 "Y(Ba,La)2Cu3O7" Y1Ba1.6La0.4Cu3O7.14 Y 1 Ba 1.6 La 0.4 Cu 3 O 7-Z 7.14 1 1999 2 Y123 3.857 11.6 K 70 70 microV/T "standard solid state sintering, final processing (450C,10H, in O2 flow)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20320 PSS0410389 "Y(Ba,La)2Cu3O7" Y1Ba1.5La0.5Cu3O7.17 Y 1 Ba 1.5 La 0.5 Cu 3 O 7-Z 7.17 1 1999 2 Y123 3.853 11.58 K 57 57 "standard solid state sintering, final processing (450C,10H, in O2 flow)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20321 PSS0410389 "Y(Ba,La)2Cu3O7" Y1Ba2Cu3O6.86 Y 1 Ba 2 Cu 3 O 7-Z 6.86 1 1999 3 Y123 3.822 3.885 11.67 K 84 84 "standard solid state sintering, final processing (450C,10H, in O2 flow), ANN(450C,2H, in vacuum)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20322 PSS0410389 "Y(Ba,La)2Cu3O7" Y1Ba1.95La0.05Cu3O6.89 Y 1 Ba 1.95 La 0.05 Cu 3 O 7-Z 6.89 1999 3 Y123 3.82 3.894 11.655 K 86 86 "standard solid state sintering, final processing (450C,10H, in O2 flow), ANN(450C,2H, in vacuum)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20323 PSS0410389 "Y(Ba,La)2Cu3O7" Y1Ba1.9La0.1Cu3O6.92 Y 1 Ba 1.9 La 0.1 Cu 3 O 7-Z 6.92 1999 3 Y123 3.823 3.895 11.63 K 87 87 "standard solid state sintering, final processing (450C,10H, in O2 flow), ANN(450C,2H, in vacuum)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20324 PSS0410389 Y1Ba1.8La0.2Cu3O6.96 Y 1 Ba 1.8 La 0.2 Cu 3 O 7-Z 6.96 1999 3 Y123 3.819 3.89 11.65 K 78 78 microV/T "standard solid state sintering, final processing (450C,10H, in O2 flow), ANN(450C,2H, in vacuum)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20325 PSS0410389 Y1Ba1.7La0.3Cu3O7.02 Y 1 Ba 1.7 La 0.3 Cu 3 O 7-Z 7.02 1999 3 Y123 3.828 3.879 11.64 K 77 77 "standard solid state sintering, final processing (450C,10H, in O2 flow), ANN(450C,2H, in vacuum)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20326 PSS0410389 Y1Ba1.6La0.4Cu3O7.04 Y 1 Ba 1.6 La 0.4 Cu 3 O 7-Z 7.04 1999 2 Y123 3.857 11.6 K 59 59 "standard solid state sintering, final processing (450C,10H, in O2 flow), ANN(450C,2H, in vacuum)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20327 PSS0410389 Y1Ba1.5La0.5Cu3O7.06 Y 1 Ba 1.5 La 0.5 Cu 3 O 7-Z 7.06 1999 2 Y123 3.853 11.58 K 22 22 "standard solid state sintering, final processing (450C,10H, in O2 flow), ANN(450C,2H, in vacuum)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20328 PSS0410389 "YBa2(Cu,Co)3O7" Y1Ba1.95Cu2.95Co0.05O7 Y 1 Ba 1.95 Cu 2.95 Co 0.05 O 7-Z 7 1 1999 3 Y123 3.831 3.889 11.682 K 90 90 microV/T "standard solid state sintering, final processing (450C,10H, in O2 flow)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20329 PSS0410389 "YBa2(Cu,Co)3O7" Y1Ba1.9Cu2.9Co0.1O7.02 Y 1 Ba 1.9 Cu 2.9 Co 0.1 O 7-Z 7.02 1 1999 3 Y123 3.865 3.872 11.661 K 89 89 "standard solid state sintering, final processing (450C,10H, in O2 flow)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20330 PSS0410389 "YBa2(Cu,Co)3O7" Y1Ba1.85Cu2.85Co0.15O7.04 Y 1 Ba 1.85 Cu 2.85 Co 0.15 O 7-Z 7.04 1 1999 2 Y123 3.869 11.676 K 79 79 "standard solid state sintering, final processing (450C,10H, in O2 flow)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20331 PSS0410389 "YBa2(Cu,Co)3O7" Y1Ba1.8Cu2.8Co0.2O7.05 Y 1 Ba 1.8 Cu 2.8 Co 0.2 O 7-Z 7.05 1 1999 2 Y123 3.872 11.669 K 70 70 "standard solid state sintering, final processing (450C,10H, in O2 flow)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20332 PSS0410389 "YBa2(Cu,Co)3O7" Y1Ba1.75Cu2.75Co0.25O7.06 Y 1 Ba 1.75 Cu 2.75 Co 0.25 O 7-Z 7.06 1 1999 2 Y123 3.874 11.666 K 63 63 "standard solid state sintering, final processing (450C,10H, in O2 flow)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20333 PSS0410389 Y1Ba1.95Cu2.95Co0.05O6.9 Y 1 Ba 1.95 Cu 2.95 Co 0.05 O 7-Z 6.9 1999 3 Y123 3.831 3.889 11.682 K 70 70 microV/T "standard solid state sintering, final processing (450C,10H, in O2 flow), ANN(450C,2H, in vacuum)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20334 PSS0410389 Y1Ba1.9Cu2.9Co0.1O6.92 Y 1 Ba 1.9 Cu 2.9 Co 0.1 O 7-Z 6.92 1999 3 Y123 3.865 3.872 11.661 K 66 66 "standard solid state sintering, final processing (450C,10H, in O2 flow), ANN(450C,2H, in vacuum)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20335 PSS0410389 Y1Ba1.85Cu2.85Co0.15O6.94 Y 1 Ba 1.85 Cu 2.85 Co 0.15 O 7-Z 6.94 1999 2 Y123 3.869 11.676 K 55 55 "standard solid state sintering, final processing (450C,10H, in O2 flow), ANN(450C,2H, in vacuum)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20336 PSS0410389 Y1Ba1.8Cu2.8Co0.2O6.95 Y 1 Ba 1.8 Cu 2.8 Co 0.2 O 7-Z 6.95 1999 2 Y123 3.872 11.669 K 43 43 "standard solid state sintering, final processing (450C,10H, in O2 flow), ANN(450C,2H, in vacuum)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 20337 PSS0410389 Y1Ba1.75Cu2.75Co0.25O6.95 Y 1 Ba 1.75 Cu 2.75 Co 0.25 O 7-Z 6.95 1999 2 Y123 3.874 11.666 K 25 25 "standard solid state sintering, final processing (450C,10H, in O2 flow), ANN(450C,2H, in vacuum)" 1999 "State Technical University and Inst. Silicate Chem., Saint-Petersburg" [Fizika tverdogo tela(Phys.of the Solid State)] 41(1999)389 24000 PR05700632 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1998 Y124 K 80.5 80.5 "Y2O3,BaCO3,NiO,ZnO,CuO" 1 calcined (860C 12h) sintererd 880-920C 12hatm:Ar+20%O2 high-ozygen-pressure(at 1000C-1100C)Pressed Temperature dependence of the phonon frequencies and linewidths of YBa2(Cu1-xMx)4O8 for M=Ni and Zn 1998 1 "Superconductivity Research Laboratory, International Supercoductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,57(1998)632" 24001 PR05700632 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.996Ni0.004O8 Y 1 Ba 2 Cu 3.996 Ni 0.004 O 8 1 1998 Y124 K 78 78 "Y2O3,BaCO3,NiO,ZnO,CuO" 1 calcined (860C 12h) sintererd 880-920C 12hatm:Ar+20%O2 high-ozygen-pressure(at 1000C-1100C)Pressed Temperature dependence of the phonon frequencies and linewidths of YBa2(Cu1-xMx)4O8 for M=Ni and Zn 1998 1 "Superconductivity Research Laboratory, International Supercoductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,57(1998)632" 24002 PR05700632 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.98Ni0.02O8 Y 1 Ba 2 Cu 3.98 Ni 0.02 O 8 1 1998 Y124 K 63.1 63.1 "Y2O3,BaCO3,NiO,ZnO,CuO" 1 calcined (860C 12h) sintererd 880-920C 12hatm:Ar+20%O2 high-ozygen-pressure(at 1000C-1100C)Pressed Temperature dependence of the phonon frequencies and linewidths of YBa2(Cu1-xMx)4O8 for M=Ni and Zn 1998 1 "Superconductivity Research Laboratory, International Supercoductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,57(1998)632" 24003 PR05700632 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.96Ni0.04O8 Y 1 Ba 2 Cu 3.96 Ni 0.04 O 8 1 1998 Y124 K 44 44 "Y2O3,BaCO3,NiO,ZnO,CuO" 1 calcined (860C 12h) sintererd 880-920C 12hatm:Ar+20%O2 high-ozygen-pressure(at 1000C-1100C)Pressed Temperature dependence of the phonon frequencies and linewidths of YBa2(Cu1-xMx)4O8 for M=Ni and Zn 1998 1 "Superconductivity Research Laboratory, International Supercoductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,57(1998)632" 24004 PR05700632 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.92Ni0.08O8 Y 1 Ba 2 Cu 3.92 Ni 0.08 O 8 1 1998 Y124 K 14.7 14.7 "Y2O3,BaCO3,NiO,ZnO,CuO" 1 calcined (860C 12h) sintererd 880-920C 12hatm:Ar+20%O2 high-ozygen-pressure(at 1000C-1100C)Pressed Temperature dependence of the phonon frequencies and linewidths of YBa2(Cu1-xMx)4O8 for M=Ni and Zn 1998 1 "Superconductivity Research Laboratory, International Supercoductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,57(1998)632" 24005 PR05700632 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.992Zn0.008O8 Y 1 Ba 2 Cu 3.992 Zn 0.008 O 8 1 1998 Y124 K 66.1 66.1 "Y2O3,BaCO3,NiO,ZnO,CuO" 1 calcined (860C 12h) sintererd 880-920C 12hatm:Ar+20%O2 high-ozygen-pressure(at 1000C-1100C)Pressed Temperature dependence of the phonon frequencies and linewidths of YBa2(Cu1-xMx)4O8 for M=Ni and Zn 1998 1 "Superconductivity Research Laboratory, International Supercoductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,57(1998)632" 24006 PR05700632 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.98Zn0.02O8 Y 1 Ba 2 Cu 3.98 Zn 0.02 O 8 1 1998 Y124 K 47 47 "Y2O3,BaCO3,NiO,ZnO,CuO" 1 calcined (860C 12h) sintererd 880-920C 12hatm:Ar+20%O2 high-ozygen-pressure(at 1000C-1100C)Pressed Temperature dependence of the phonon frequencies and linewidths of YBa2(Cu1-xMx)4O8 for M=Ni and Zn 1998 1 "Superconductivity Research Laboratory, International Supercoductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,57(1998)632" 24007 PR05700632 "YBa2(Cu,Zn)4O8" Y1Ba2Cu3.96Zn0.04O8 Y 1 Ba 2 Cu 3.96 Zn 0.04 O 8 1 1998 Y124 K 16 16 "Y2O3,BaCO3,NiO,ZnO,CuO" 1 calcined (860C 12h) sintererd 880-920C 12hatm:Ar+20%O2 high-ozygen-pressure(at 1000C-1100C)Pressed Temperature dependence of the phonon frequencies and linewidths of YBa2(Cu1-xMx)4O8 for M=Ni and Zn 1998 1 "Superconductivity Research Laboratory, International Supercoductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Phys.Rev.B,57(1998)632" 24008 PR05700550 "(Eu,Ce)2NbSr2Cu2O10" Eu1.4Ce0.6Nb1Sr2Cu2O10-d Eu 1.4 Ce 0.6 Nb 1 Sr 2 Cu 2 O 10-d 1 1998 2 Nb1222 I4/mmm A 3.866 28.72 3 K 21 21 "Eu2O3,SrCO3,Nb2O5,CuO" 1 preheated at 1000C 1day flowing O2sintered at 1120C 72hour Reversible effect of hydrogen on superconductivity and weak ferromagnetism in Eu1.4Ce0.6MSr2Cu2O10-delta(M=Nb and Ru) 1998 1 "Racah Institute of Physics, The Hebrew University, Jerusalem, 91904, Israel" "Phys.Rev.B,57(1998)550-555" 24009 PR05700550 "(Eu,Ce)2RuSr2Cu2O10" Eu1.4Ce0.6Ru1Sr2Cu2O10-d Eu 1.4 Ce 0.6 Ru 1 Sr 2 Cu 2 O 10-d 1 1998 122 2 Ru2122 I4/mmm A 3.846 28.5 3 K 32 32 "Eu2O3,CeO2,SrCO3,Ru,CuO" 1 preheated at 1000C 1day flowing O2sintered at 1050C 72h Reversible effect of hydrogen on superconductivity and weak ferromagnetism in Eu1.4Ce0.6MSr2Cu2O10-delta(M=Nb and Ru) 1998 1 "Racah Institute of Physics, The Hebrew University, Jerusalem, 91904, Israel" "Phys.Rev.B,57(1998)550-555" 24010 PR05701259 HgBa2CuO4 Hg1Ba2Cu1O4+d Hg 1 Ba 2 Cu 1 O 4+d 1 1998 2 Hg1201 P4/mmm A 3.887 9.489 3 Fig2 K 92 92 "HgO,Tl2O3,BaCuO3+x,Ce0.86Sr0.14CuO2" 1 "refer to N.H.Hur et al.,Mater. Res. Bull. 29,959(1994)or N.H.Hur et al.,PhysicaC 241,1,(1995)" In situ temperature-dependent x-ray-absorption spectroscopic studies for the mercury-based superconductors 1998 1 "Department of chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" "Phys.Reve,B57(1998)1259" 24011 PR05701259 "HgBa2(Ca,Sr)Cu2O6" Hg1Ba2Ca0.86Sr0.14Cu2O6+d Hg 1 Ba 2 Ca 0.86 Sr 0.14 Cu 2 O 6+d 1 1998 2 Hg1212 P4/mmm A 3.858 12.665 3 Fig2 K 120 120 "HgO,Tl2O3,BaCuO3+x,Ce0.86Sr0.14CuO2" 1 "refer to N.H.Hur et al.,Mater. Res. Bull. 29,959(1994)or N.H.Hur et al.,PhysicaC 241,1,(1995)" In situ temperature-dependent x-ray-absorption spectroscopic studies for the mercury-based superconductors 1998 1 "Department of chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" "Phys.Reve,B57(1998)1259" 24012 PR05701259 "(Hg,Tl)Ba2(Ca,Sr)Cu2O6" Hg0.5Tl0.5Ba2Ca0.86Sr0.14Cu2O6+d Hg 0.5 Tl 0.5 Ba 2 Ca 0.86 Sr 0.14 Cu 2 O 6+d 1 1998 2 Hg1212 P4/mmm A 3.85 12.654 3 Fig2 K 122 122 "HgO,Tl2O3,BaCuO3+x,Ce0.86Sr0.14CuO2" 1 "refer to N.H.Hur et al.,Mater. Res. Bull. 29,959(1994)or N.H.Hur et al.,PhysicaC 241,1,(1995)" In situ temperature-dependent x-ray-absorption spectroscopic studies for the mercury-based superconductors 1998 1 "Department of chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" "Phys.Reve,B57(1998)1259" 24013 PR05701259 "HgBa2(Ca,Sr)2Cu3O8" Hg1Ba2Ca1.72Sr0.28Cu3O8+d Hg 1 Ba 2 Ca 1.72 Sr 0.28 Cu 3 O 8+d 1 1998 2 Hg1223 P4/mmm A 3.865 16.032 3 Fig2 K 126 126 "HgO,Tl2O3,BaCuO3+x,Ce0.86Sr0.14CuO2" 1 "refer to N.H.Hur et al.,Mater. Res. Bull. 29,959(1994)or N.H.Hur et al.,PhysicaC 241,1,(1995)" In situ temperature-dependent x-ray-absorption spectroscopic studies for the mercury-based superconductors 1998 1 "Department of chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" "Phys.Reve,B57(1998)1259" 24014 PR05701259 "(Hg,Tl)Ba2(Ca,Sr)2Cu3O8" Hg0.5Tl0.5Ba2Ca1.72Sr0.28Cu3O8+d Hg 0.5 Tl 0.5 Ba 2 Ca 1.72 Sr 0.28 Cu 3 O 8+d 1 1998 2 Hg1223 P4/mmm A 3.865 15.957 3 Fig2 K 128 128 "HgO,Tl2O3,BaCuO3+x,Ce0.86Sr0.14CuO2" 1 "refer to N.H.Hur et al.,Mater. Res. Bull. 29,959(1994)or N.H.Hur et al.,PhysicaC 241,1,(1995)" In situ temperature-dependent x-ray-absorption spectroscopic studies for the mercury-based superconductors 1998 1 "Department of chemistry, Center for Molecular Catalysis, College of Natural Sciences, Seoul National University, Seoul 151-742, Korea" "Phys.Reve,B57(1998)1259" 24015 PR05700613 "P-induced SC. Pcrit = 3 GPa. Tc, s/c properties, resistivity measured at 3GPa" "(Sr,Ca)14Cu24O41" Sr0.4Ca13.6Cu24O41+z Sr 0.4 Ca 13.6 Cu 24 O 41+z 1 1998 LAD A 11.26 12.426 27.38 3 A/K %/GPa 0.08 0.73 0.22 K 10 0 10 TC24015 ohm.cm 0.033 0.033 0.026 "SrCO3, CaCO3, CuO" 1 "mixed - calcined 950C, 4 days, in air - heated 1200C, 24h, in 20% O2 + 80% Ar gas, P=2000kgf/cm2" Structural and electrical properties under high pressure for the superconducting spin-ladder system Sr0.4Ca13.6Cu24O41+delta 1998 1 "National Institute for research in Inorganic Materials (NIRIM), 1-1 Namiki, Tsukuba, Ibaraki 305 Japan" "Phys.Rev.B,57(1998)613-621" 24100 SST0140504 composition (Tl:Ba:Ca:Cu = 1.01:2.01:1.90:3.09) by SEM-EDX TlBa2Ca2Cu3Oz Tl0.75Ba2Ca2Cu3Oz Tl 0.75 Ba 2 Ca 2 Cu 3 O z 2001 Tl1223 A 3.85 15.885 K 131 131 "high-pressure synthesis(850C,3.5 GPa) - ANN(700C,1h, in N2)" Study on enhancement of Tc (>= 130 K) in TlBa2Ca2Cu3Oy superconductors 2001 "Supercond. Sci. Technol., 14 ( 2001 )504-510" 24101 SST0140504 composition (Tl:Ba:Ca:Cu = 1.05:1.99:1.96:3.00) by SEM-EDX TlBa2Ca2Cu3Oz Tl0.75Ba2Ca2Cu3Oz Tl 0.75 Ba 2 Ca 2 Cu 3 O z 2001 Tl1223 A 3.851 15.889 K 133.5 133.5 "high-pressure synthesis(950C,3.5 GPa) - ANN(700C,1h, in N2)" Study on enhancement of Tc (>= 130 K) in TlBa2Ca2Cu3Oy superconductors 2001 "Supercond. Sci. Technol., 14 ( 2001 )504-510" 24102 SST0140504 composition (Tl:Ba:Ca:Cu = 1.12:1.93:1.91:3.05) by SEM-EDX TlBa2Ca2Cu3Oz Tl1Ba2Ca2Cu3Oz Tl 1 Ba 2 Ca 2 Cu 3 O z 2001 Tl1223 A 3.852 15.841 K 122 122 "high-pressure synthesis(950C,3.5 GPa) - ANN(700C,1h, in N2)" Study on enhancement of Tc (>= 130 K) in TlBa2Ca2Cu3Oy superconductors 2001 "Supercond. Sci. Technol., 14 ( 2001 )504-510" 24103 SST0140504 composition (Tl:Ba:Ca:Cu = 1.03:1.93:1.73:3.31) by SEM-EDX TlBa2Ca2Cu3Oz Tl1Ba2Ca2Cu3C0.2Oz Tl 1 Ba 2 Ca 2 Cu 3 C 0.2 O z 2001 Tl1223 A 3.856 15.865 K 123.5 123.5 "high-pressure synthesis(850C,3.5 GPa) - ANN(700C,1h, in N2)" Study on enhancement of Tc (>= 130 K) in TlBa2Ca2Cu3Oy superconductors 2001 "Supercond. Sci. Technol., 14 ( 2001 )504-510" 24104 PHC3570324 composition (Tl:Ba:Ca:Cu = 1.05:1.99:1.96:3.00) by SEM-EDX TlBa2Ca2Cu3Oz Tl0.75Ba2Ca2Cu3C0.02Oz Tl 0.75 Ba 2 Ca 2 Cu 3 C 0.02 O z 2001 Tl1223 A 3.85 15.9 K 133.5 133.5 "mixture(precursor(Ba2Can-1CunC0.02Oz),Tl2O3,CuO,AgO) - high-pressure synthesis(950C, 3.5 GPa) - ANN(700C,1h inN2)" High-pressure synthesis of TlBa2Can-1CunOy (n=3 and 4) with Tc=133.5 K(n=3) and 127 K(n=4) 2001 "National Institute of AdvancedIndustrial Science and Technology(AIST) and CREST, Tsukuba central2, Umezono,Ibaraki,Japan" "Physica C, 357(2001)324" 24105 PHC3570324 composition (Tl:Ba:Ca:Cu = 1.05:1.99:2.96:4.00) by SEM-EDX TlBa2Ca3Cu4Oz Tl0.75Ba2Ca2Cu3C0.02Oz Tl 0.75 Ba 2 Ca 2 Cu 3 C 0.02 O z 2001 Tl1234 A 3.85 19.1 K 127 127 "mixture(precursor(Ba2Can-1CunC0.02Oz),Tl2O3,CuO,AgO) - high-pressure synthesis(950C, 3.5 GPa) - ANN(700C,1h inN2)" High-pressure synthesis of TlBa2Can-1CunOy (n=3 and 4) with Tc=133.5 K(n=3) and 127 K(n=4) 2001 "National Institute of AdvancedIndustrial Science and Technology(AIST) and CREST, Tsukuba central2, Umezono,Ibaraki,Japan" "Physica C, 357(2001)324" 30000 PR06003680 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 1 1999 Bi2212 3 K 78 78 3 uV/K -6.81 TP30000 mohmcm 0.33 0.4 0.9 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30001 PR06003680 "Bi2Sr2Ca(Cu,Co)2Oz" Bi2Sr2Ca1Cu1.96Co0.04OZ Bi 2 Sr 2 Ca 1 Cu 1.96 Co 0.04 O Z 1 1999 Bi2212 3 K 69 69 3 uV/K -5.28 TP30001 mohmcm 0.62 0.65 1.1 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30002 PR06003680 "Bi2Sr2Ca(Cu,Co)2Oz" Bi2Sr2Ca1Cu1.92Co0.08OZ Bi 2 Sr 2 Ca 1 Cu 1.92 Co 0.08 O Z 1 1999 Bi2212 3 K 62 62 3 uV/K -4.47 TP30002 mohmcm 0.8 0.77 1.85 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30003 PR06003680 "Bi2Sr2Ca(Cu,Co)2Oz" Bi2Sr2Ca1Cu1.88Co0.12OZ Bi 2 Sr 2 Ca 1 Cu 1.88 Co 0.12 O Z 1 1999 Bi2212 3 K 58 58 3 uV/K -3.69 TP30003 mohmcm 1.1 1.05 1.65 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30004 PR06003680 "Bi2Sr2Ca(Cu,Co)2Oz" Bi2Sr2Ca1Cu1.84Co0.16OZ Bi 2 Sr 2 Ca 1 Cu 1.84 Co 0.16 O Z 1 1999 Bi2212 3 K 51 51 3 uV/K -2.37 TP30004 mohmcm 1.55 1.5 1.8 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30005 PR06003680 "Bi2Sr2(Ca,Y)Cu2Oz" Bi2Sr2Ca0.8Y0.2Cu2OZ Bi 2 Sr 2 Ca 0.8 Y 0.2 Cu 2 O Z 1 1999 Bi2212 3 K 89 89 3 uV/K 2.23 TP30005 mohmcm 0.95 1.6 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30006 PR06003680 "Bi2Sr2(Ca,Y)(Cu,Co)2Oz" Bi2Sr2Ca0.8Y0.2Cu1.96Co0.04OZ Bi 2 Sr 2 Ca 0.8 Y 0.2 Cu 1.96 Co 0.04 O Z 1 1999 Bi2212 3 K 78 78 3 uV/K 4.2 TP30006 mohmcm 1.45 1.4 2.1 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30007 PR06003680 "Bi2Sr2(Ca,Y)(Cu,Co)2Oz" Bi2Sr2Ca0.8Y0.2Cu1.92Co0.08OZ Bi 2 Sr 2 Ca 0.8 Y 0.2 Cu 1.92 Co 0.08 O Z 1 1999 Bi2212 3 K 66 66 3 uV/K 7.48 TP30007 mohmcm 2.6 2.6 2.45 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30008 PR06003680 "Bi2Sr2(Ca,Y)(Cu,Co)2Oz" Bi2Sr2Ca0.8Y0.2Cu1.88Co0.12OZ Bi 2 Sr 2 Ca 0.8 Y 0.2 Cu 1.88 Co 0.12 O Z 1 1999 Bi2212 3 K 48 48 3 uV/K 10.1 TP30008 mohmcm 5.2 7.4 3.8 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30009 PR06003680 "Bi2Sr2(Ca,Y)(Cu,Co)2Oz" Bi2Sr2Ca0.8Y0.2Cu1.84Co0.16OZ Bi 2 Sr 2 Ca 0.8 Y 0.2 Cu 1.84 Co 0.16 O Z 1 1999 Bi2212 3 K 35 35 3 uV/K 12.8 TP30009 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30010 PR06003680 "Bi2Sr2(Ca,Y)Cu2Oz" Bi2Sr2Ca0.7Y0.3Cu2OZ Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 2 O Z 1 1999 Bi2212 3 K 92 92 3 uV/K 6.28 TP30010 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30011 PR06003680 "Bi2Sr2(Ca,Y)(Cu,Co)2Oz" Bi2Sr2Ca0.7Y0.3Cu1.96Co0.04OZ Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 1.96 Co 0.04 O Z 1 1999 Bi2212 3 K 79 79 3 uV/K 8.16 TP30011 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30012 PR06003680 "Bi2Sr2(Ca,Y)(Cu,Co)2Oz" Bi2Sr2Ca0.7Y0.3Cu1.92Co0.08OZ Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 1.92 Co 0.08 O Z 1 1999 Bi2212 3 K 41 41 3 uV/K 11.3 TP30012 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30013 PR06003680 "Bi2Sr2(Ca,Y)(Cu,Co)2Oz" Bi2Sr2Ca0.7Y0.3Cu1.88Co0.12OZ Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 1.88 Co 0.12 O Z 1 1999 Bi2212 3 K 12 12 3 uV/K 16.1 TP30013 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30014 PR06003680 "Bi2Sr2(Ca,Y)(Cu,Co)2Oz" Bi2Sr2Ca0.7Y0.3Cu1.84Co0.16OZ Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 1.84 Co 0.16 O Z 1 1999 Bi2212 3 K 0 0 3 uV/K 20.4 TP30014 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30015 PR06003680 "Bi2Sr2(Ca,Y)Cu2Oz" Bi2Sr2Ca0.6Y0.4Cu2OZ Bi 2 Sr 2 Ca 0.6 Y 0.4 Cu 2 O Z 1 1999 Bi2212 3 K 79 79 3 uV/K 16.4 TP30015 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30016 PR06003680 "Bi2Sr2(Ca,Y)(Cu,Co)2Oz" Bi2Sr2Ca0.6Y0.4Cu1.96Co0.04OZ Bi 2 Sr 2 Ca 0.6 Y 0.4 Cu 1.96 Co 0.04 O Z 1 1999 Bi2212 3 K 38 38 3 uV/K 19.9 TP30016 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30017 PR06003680 "Bi2Sr2(Ca,Y)(Cu,Co)2Oz" Bi2Sr2Ca0.6Y0.4Cu1.92Co0.08OZ Bi 2 Sr 2 Ca 0.6 Y 0.4 Cu 1.92 Co 0.08 O Z 1 1999 Bi2212 3 K 9 9 3 uV/K 21.9 TP30017 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30018 PR06003680 "Bi2Sr2(Ca,Y)(Cu,Co)2Oz" Bi2Sr2Ca0.6Y0.4Cu1.88Co0.12OZ Bi 2 Sr 2 Ca 0.6 Y 0.4 Cu 1.88 Co 0.12 O Z 1 1999 Bi2212 3 K 0 0 3 uV/K 25.7 TP30018 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30019 PR06003680 "Bi2Sr2(Ca,Y)(Cu,Co)2Oz" Bi2Sr2Ca0.6Y0.4Cu1.84Co0.16OZ Bi 2 Sr 2 Ca 0.6 Y 0.4 Cu 1.84 Co 0.16 O Z 1 1999 Bi2212 3 K 0 0 3 uV/K 29 TP30019 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30020 PR06003680 "Bi2Sr2(Ca,Y)Cu2Oz" Bi2Sr2Ca0.6Y0.4Cu2OZ Bi 2 Sr 2 Ca 0.6 Y 0.4 Cu 2 O Z 1 1999 Bi2212 3 K uV/K 36.7 TP30020 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30021 PR06003680 "Bi2Sr2(Ca,Y)(Cu,Co)2Oz" Bi2Sr2Ca0.5Y0.5Cu1.96Co0.04OZ Bi 2 Sr 2 Ca 0.5 Y 0.5 Cu 1.96 Co 0.04 O Z 1 1999 Bi2212 3 K uV/K 38.4 TP30021 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30022 PR06003680 "Bi2Sr2(Ca,Y)(Cu,Co)2Oz" Bi2Sr2Ca0.5Y0.5Cu1.92Co0.08OZ Bi 2 Sr 2 Ca 0.5 Y 0.5 Cu 1.92 Co 0.08 O Z 1 1999 Bi2212 3 K uV/K 44.3 TP30022 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30023 PR06003680 "Bi2Sr2(Ca,Y)(Cu,Co)2Oz" Bi2Sr2Ca0.5Y0.5Cu1.88Co0.12OZ Bi 2 Sr 2 Ca 0.5 Y 0.5 Cu 1.88 Co 0.12 O Z 1 1999 Bi2212 3 K uV/K 58.2 TP30023 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30024 PR06003680 "Bi2Sr2(Ca,Y)(Cu,Co)2Oz" Bi2Sr2Ca0.5Y0.5Cu1.84Co0.16OZ Bi 2 Sr 2 Ca 0.5 Y 0.5 Cu 1.84 Co 0.16 O Z 1 1999 Bi2212 3 K uV/K 61.6 TP30024 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30025 PR06003680 "Bi2Sr2(Ca,Y)Cu2Oz" Bi2Sr2Ca0.58Y0.42Cu2OZ Bi 2 Sr 2 Ca 0.58 Y 0.42 Cu 2 O Z 1 1999 Bi2212 3 K uV/K 17.5 TP30025 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30026 PR06003680 "Bi2Sr2(Ca,Y)Cu2Oz" Bi2Sr2Ca0.56Y0.44Cu2OZ Bi 2 Sr 2 Ca 0.56 Y 0.44 Cu 2 O Z 1 1999 Bi2212 3 K uV/K 22.3 TP30026 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30027 PR06003680 "Bi2Sr2(Ca,Y)Cu2Oz" Bi2Sr2Ca0.54Y0.46Cu2OZ Bi 2 Sr 2 Ca 0.54 Y 0.46 Cu 2 O Z 1 1999 Bi2212 3 K uV/K 1 Stoichometric amount of oxides and carbonates were mixed throughly and then reacted in air for several days with intermediate grindings. The heat temperature was 860C-900C Variation of Tc and transport properties of the Co-doped Bi2Sr2Ca1-xYxCu2O8 system 1999 8 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Calcutta 700 064, India" "Phys.Rev.B,60(1999)3680" 30028 PR06004378 "Cu(Ba,Sr)2YbCu2Oz" Bi1.6Sr0.4Yb1Cu3O6.225 Bi 1.6 Sr 0.4 Yb 1 Cu 3 O 6.225 6.225 1 1999 Cu1212 P4/mmm 3.8334 11.736 3 Oxigen concentrations determined by powder nutron K 5 "Yb2O3,BaCO3,SrCO3,CuO" ref[14]. Mixed powder sintered in air at 900-940 C and annealing in O2 at 350-400C for 48h aneeal: in air atomosphere 800 C Ca-substitution and O-doping effects in superconducting Cu(Ba0.8Sr0.2)2(Yb1-xCax)Cu2O6+z obtained from neutron diffraction refinements 1999 8 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B,60(1999)4378" 30029 PR06004378 "Cu(Ba,Sr)2YbCu2Oz" Bi1.6Sr0.4Yb1Cu3O6.201 Bi 1.6 Sr 0.4 Yb 1 Cu 3 O 6.201 6.201 1 1999 Cu1212 P4/mmm 3.8342 11.743 3 Oxigen concentrations determined by powder nutron K 5 "Yb2O3,BaCO3,SrCO3,CuO" ref[14]. Mixed powder sintered in air at 900-940 C and annealing in O2 at 350-400C for 48h aneeal: in air atomosphere 750 C Ca-substitution and O-doping effects in superconducting Cu(Ba0.8Sr0.2)2(Yb1-xCax)Cu2O6+z obtained from neutron diffraction refinements 1999 8 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B,60(1999)4378" 30030 PR06004378 "Cu(Ba,Sr)2YbCu2Oz" Bi1.6Sr0.4Yb1Cu3O6.248 Bi 1.6 Sr 0.4 Yb 1 Cu 3 O 6.248 6.248 1 1999 Cu1212 P4/mmm 3.8355 11.718 3 Oxigen concentrations determined by powder nutron K 5 "Yb2O3,BaCO3,SrCO3,CuO" ref[14]. Mixed powder sintered in air at 900-940 C and annealing in O2 at 350-400C for 48h aneeal: in air atomosphere 550 C Ca-substitution and O-doping effects in superconducting Cu(Ba0.8Sr0.2)2(Yb1-xCax)Cu2O6+z obtained from neutron diffraction refinements 1999 8 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B,60(1999)4378" 30031 PR06004378 "Cu(Ba,Sr)2YbCu2Oz" Bi1.6Sr0.4Yb1Cu3O6.35 Bi 1.6 Sr 0.4 Yb 1 Cu 3 O 6.35 6.35 1 1999 Cu1212 Pmmm 3.8172 3.8465 11.667 3 Oxigen concentrations determined by powder nutron K 37 37 "Yb2O3,BaCO3,SrCO3,CuO" ref[14]. Mixed powder sintered in air at 900-940 C and annealing in O2 at 350-400C for 48h aneeal: in air atomosphere 480 C Ca-substitution and O-doping effects in superconducting Cu(Ba0.8Sr0.2)2(Yb1-xCax)Cu2O6+z obtained from neutron diffraction refinements 1999 8 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B,60(1999)4378" 30032 PR06004378 "Cu(Ba,Sr)2YbCu2Oz" Bi1.6Sr0.4Yb1Cu3O6.817 Bi 1.6 Sr 0.4 Yb 1 Cu 3 O 6.817 6.817 1 1999 Cu1212 Pmmm 3.804 3.8583 11.637 3 Oxigen concentrations determined by powder nutron K 55 55 "Yb2O3,BaCO3,SrCO3,CuO" ref[14]. Mixed powder sintered in air at 900-940 C and annealing in O2 at 350-400C for 48h aneeal: in air atomosphere 380 C Ca-substitution and O-doping effects in superconducting Cu(Ba0.8Sr0.2)2(Yb1-xCax)Cu2O6+z obtained from neutron diffraction refinements 1999 8 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B,60(1999)4378" 30033 PR06004378 "Cu(Ba,Sr)2YbCu2Oz" Bi1.6Sr0.4Yb1Cu3O6.999 Bi 1.6 Sr 0.4 Yb 1 Cu 3 O 6.999 6.999 1 1999 Cu1212 Pmmm 3.7934 3.8615 11.614 3 Oxigen concentrations determined by powder nutron K 82 82 "Yb2O3,BaCO3,SrCO3,CuO" ref[14]. Mixed powder sintered in air at 900-940 C and annealing in O2 at 350-400C for 48h no aneeal Ca-substitution and O-doping effects in superconducting Cu(Ba0.8Sr0.2)2(Yb1-xCax)Cu2O6+z obtained from neutron diffraction refinements 1999 8 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B,60(1999)4378" 30034 PR06004378 "Cu(Ba,Sr)2(Yb,Ca)Cu2Oz" Bi1.6Sr0.4Yb0.9Ca0.1Cu3O6.104 Bi 1.6 Sr 0.4 Yb 0.9 Ca 0.1 Cu 3 O 6.104 6.104 1 1999 Cu1212 P4/mmm 3.8314 11.745 3 Oxigen concentrations determined by powder nutron K 5 "Yb2O3,BaCO3,SrCO3,CuO" ref[14]. Mixed powder sintered in air at 900-940 C and annealing in O2 at 350-400C for 48h aneeal: in air atomosphere 800 C Ca-substitution and O-doping effects in superconducting Cu(Ba0.8Sr0.2)2(Yb1-xCax)Cu2O6+z obtained from neutron diffraction refinements 1999 8 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B,60(1999)4378" 30035 PR06004378 "Cu(Ba,Sr)2(Yb,Ca)Cu2Oz" Bi1.6Sr0.4Yb0.8Ca0.2Cu3O6.166 Bi 1.6 Sr 0.4 Yb 0.8 Ca 0.2 Cu 3 O 6.166 6.166 1 1999 Cu1212 P4/mmm 3.8272 11.735 3 Oxigen concentrations determined by powder nutron K 5 "Yb2O3,BaCO3,SrCO3,CuO" ref[14]. Mixed powder sintered in air at 900-940 C and annealing in O2 at 350-400C for 48h aneeal: in air atomosphere 800 C Ca-substitution and O-doping effects in superconducting Cu(Ba0.8Sr0.2)2(Yb1-xCax)Cu2O6+z obtained from neutron diffraction refinements 1999 8 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B,60(1999)4378" 30036 PR06004378 "Cu(Ba,Sr)2(Yb,Ca)Cu2Oz" Bi1.6Sr0.4Yb0.75Ca0.25Cu3O6.072 Bi 1.6 Sr 0.4 Yb 0.75 Ca 0.25 Cu 3 O 6.072 6.072 1 1999 Cu1212 P4/mmm 3.832 11.736 3 Oxigen concentrations determined by powder nutron K 27 27 "Yb2O3,BaCO3,SrCO3,CuO" ref[14]. Mixed powder sintered in air at 900-940 C and annealing in O2 at 350-400C for 48h aneeal: in air atomosphere 800 C Ca-substitution and O-doping effects in superconducting Cu(Ba0.8Sr0.2)2(Yb1-xCax)Cu2O6+z obtained from neutron diffraction refinements 1999 8 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B,60(1999)4378" 30037 PR06004378 "Cu(Ba,Sr)2(Yb,Ca)Cu2Oz" Bi1.6Sr0.4Yb0.65Ca0.35Cu3O6.075 Bi 1.6 Sr 0.4 Yb 0.65 Ca 0.35 Cu 3 O 6.075 6.075 1 1999 Cu1212 P4/mmm 3.8334 11.734 3 Oxigen concentrations determined by powder nutron K 43 43 "Yb2O3,BaCO3,SrCO3,CuO" ref[14]. Mixed powder sintered in air at 900-940 C and annealing in O2 at 350-400C for 48h aneeal: in air atomosphere 800 C Ca-substitution and O-doping effects in superconducting Cu(Ba0.8Sr0.2)2(Yb1-xCax)Cu2O6+z obtained from neutron diffraction refinements 1999 8 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B,60(1999)4378" 30100 PR06006991 in-plane Hall coeff. "Bi2(Sr,La)2CuO6" Bi2Sr1.76La0.24Cu1O6 Bi 2 Sr 1.76 La 0.24 Cu 1 O 6 3 1999 La concentrations determined by ICP K 24 24 3 uohmcm 100 60 330 cm3/C 1.1 RH30100 "Floating zone method. See Phys.Rev.Lett., 75(1995)4662" Nonuniversal power law of the Hall scattering rate in a single-layer cuprate Bi2Sr2-xLaxCuO6 1999 9 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,60(1999)R6991" 30101 PR06006991 in-plane Hall coeff. "Bi2(Sr,La)2CuO6" Bi2Sr1.7La0.3Cu1O6 Bi 2 Sr 1.7 La 0.3 Cu 1 O 6 3 1999 Bi2201 La concentrations determined by ICP K 30 30 3 uohmcm 120 70 390 cm3/C 1.35 RH30101 "Floating zone method. See Phys.Rev.Lett., 75(1995)4662" Nonuniversal power law of the Hall scattering rate in a single-layer cuprate Bi2Sr2-xLaxCuO6 1999 9 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,60(1999)R6991" 30102 PR06006991 in-plane Hall coeff. "Bi2(Sr,La)2CuO6" Bi2Sr1.56La0.44Cu1O6 Bi 2 Sr 1.56 La 0.44 Cu 1 O 6 3 1999 Bi2201 La concentrations determined by ICP K 33 33 3 uohmcm 140 70 480 cm3/C 1.63 RH30102 "Floating zone method. See Phys.Rev.Lett., 75(1995)4662" Nonuniversal power law of the Hall scattering rate in a single-layer cuprate Bi2Sr2-xLaxCuO6 1999 9 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,60(1999)R6991" 30103 PR06006991 in-plane Hall coeff. "Bi2(Sr,La)2CuO6" Bi2Sr1.43La0.57Cu1O6 Bi 2 Sr 1.43 La 0.57 Cu 1 O 6 3 1999 Bi2201 La concentrations determined by ICP K 28.5 28.5 3 uohmcm 190 100 630 cm3/C 2.09 RH30103 "Floating zone method. See Phys.Rev.Lett., 75(1995)4662" Nonuniversal power law of the Hall scattering rate in a single-layer cuprate Bi2Sr2-xLaxCuO6 1999 9 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,60(1999)R6991" 30104 PR06006991 in-plane Hall coeff. "Bi2(Sr,La)2CuO6" Bi2Sr1.34La0.66Cu1O6 Bi 2 Sr 1.34 La 0.66 Cu 1 O 6 3 1999 Bi2201 La concentrations determined by ICP K 20 20 3 uohmcm 390 250 1000 cm3/C 2.99 RH30104 "Floating zone method. See Phys.Rev.Lett., 75(1995)4662" Nonuniversal power law of the Hall scattering rate in a single-layer cuprate Bi2Sr2-xLaxCuO6 1999 9 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,60(1999)R6991" 30105 PR06007512 oxygen content=8.0 - 7.99. Ferromagnetic(Tm=134K) and s/c (Tc=20K for as-grown and Tc=37K for annealed) RuSr2GdCu2Oz Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O Z 8 1 1999 134 M1212 P4/mmm 3 A/T 0.0000277 0.000831 K 37 37 3 "RuO2,SrCO3,Gd2O3,CuO" decomposed 960 C in air and flowing nitrogen at 1010 C for 10h followed by reaction in flowing oxygen at 1050 C and 1055 C for 10h and 1060 C in oxygen for 7 days. Structure and microstructure of the ferromagnetic superconductor RuSr2GdCu2O8 1999 9 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madingley Road, Cambrige CB3 OHE United Kingdom" "Phys.Rev.B,60(1999)7512" 30200 PR06009845 Poly crystall "(Bi,Pb)2Sr2Ca3Cu4Oz" Bi1.6Pb0.4Sr2Ca3Cu4OZ Bi 1.6 Pb 0.4 Sr 2 Ca 3 Cu 4 O Z 1 1999 Bi2234 3 K 108 108 3 uV/K 1.06 mohmcm 0.053 "BiO2,PbO,SrO3,CaCO3,CuO,AgNO3" 1 preheated 800 C for 20 h pressed 9 ton/cm2 after sintered at 850 C for 14 h in air pressed 0 ton/cm2 Thermodynamic fluctuations and the thermalectric coeffcient in (Bi1.6Pb0.4)Sr2Ca3(Cu1-xAg)4O12+delta superconductors 1999 10 "Department of Physics, Universidad Nacional de Colombia, Bogota, Colombia" "Phys.Rev.B,60(1999)9845" 30201 PR06009845 Poly crystall "(Bi,Pb)2Sr2Ca3(Cu,Ag)4Oz" Bi1.6Pb0.4Sr2Ca3Cu3.996Ag0.004OZ Bi 1.6 Pb 0.4 Sr 2 Ca 3 Cu 3.996 Ag 0.004 O Z 1 1999 Bi2234 3 K 108.4 108.4 3 uV/K 0.815 mohmcm 0.027 "BiO2,PbO,SrO3,CaCO3,CuO,AgNO3" 1 preheated 800 C for 20 h pressed 9 ton/cm2 after sintered at 850 C for 14 h in air pressed 0 ton/cm2 Thermodynamic fluctuations and the thermalectric coeffcient in (Bi1.6Pb0.4)Sr2Ca3(Cu1-xAg)4O12+delta superconductors 1999 10 "Department of Physics, Universidad Nacional de Colombia, Bogota, Colombia" "Phys.Rev.B,60(1999)9845" 30202 PR06009845 Poly crystall "(Bi,Pb)2Sr2Ca3(Cu,Ag)4Oz" Bi1.6Pb0.4Sr2Ca3Cu3.984Ag0.016OZ Bi 1.6 Pb 0.4 Sr 2 Ca 3 Cu 3.984 Ag 0.016 O Z 1 1999 Bi2234 3 K 108.4 108.4 3 uV/K 0.84 mohmcm 0.021 "BiO2,PbO,SrO3,CaCO3,CuO,AgNO3" 1 preheated 800 C for 20 h pressed 9 ton/cm2 after sintered at 850 C for 14 h in air pressed 0 ton/cm2 Thermodynamic fluctuations and the thermalectric coeffcient in (Bi1.6Pb0.4)Sr2Ca3(Cu1-xAg)4O12+delta superconductors 1999 10 "Department of Physics, Universidad Nacional de Colombia, Bogota, Colombia" "Phys.Rev.B,60(1999)9845" 30203 PR06009845 Poly crystall "(Bi,Pb)2Sr2Ca3(Cu,Ag)4Oz" Bi1.6Pb0.4Sr2Ca3Cu3.98Ag0.02OZ Bi 1.6 Pb 0.4 Sr 2 Ca 3 Cu 3.98 Ag 0.02 O Z 1 1999 Bi2234 3 K 107.5 107.5 3 uV/K 0.82 mohmcm 0.017 "BiO2,PbO,SrO3,CaCO3,CuO,AgNO3" 1 preheated 800 C for 20 h pressed 9 ton/cm2 after sintered at 850 C for 14 h in air pressed 0 ton/cm2 Thermodynamic fluctuations and the thermalectric coeffcient in (Bi1.6Pb0.4)Sr2Ca3(Cu1-xAg)4O12+delta superconductors 1999 10 "Department of Physics, Universidad Nacional de Colombia, Bogota, Colombia" "Phys.Rev.B,60(1999)9845" 30204 PR06009845 Poly crystall "(Bi,Pb)2Sr2Ca3(Cu,Ag)4Oz" Bi1.6Pb0.4Sr2Ca3Cu3.96Ag0.04OZ Bi 1.6 Pb 0.4 Sr 2 Ca 3 Cu 3.96 Ag 0.04 O Z 1 1999 Bi2234 3 K 107.5 107.5 3 uV/K 0.804 mohmcm 0.011 "BiO2,PbO,SrO3,CaCO3,CuO,AgNO3" 1 preheated 800 C for 20 h pressed 9 ton/cm2 after sintered at 850 C for 14 h in air pressed 0 ton/cm2 Thermodynamic fluctuations and the thermalectric coeffcient in (Bi1.6Pb0.4)Sr2Ca3(Cu1-xAg)4O12+delta superconductors 1999 10 "Department of Physics, Universidad Nacional de Colombia, Bogota, Colombia" "Phys.Rev.B,60(1999)9845" 30205 PR06009845 Poly crystall "(Bi,Pb)2Sr2Ca3(Cu,Ag)4Oz" Bi1.6Pb0.4Sr2Ca3Cu3.92Ag0.08OZ Bi 1.6 Pb 0.4 Sr 2 Ca 3 Cu 3.92 Ag 0.08 O Z 1 1999 Bi2234 3 K 108.2 108.2 3 uV/K 0.811 mohmcm 0.018 "BiO2,PbO,SrO3,CaCO3,CuO,AgNO3" 1 preheated 800 C for 20 h pressed 9 ton/cm2 after sintered at 850 C for 14 h in air pressed 0 ton/cm2 Thermodynamic fluctuations and the thermalectric coeffcient in (Bi1.6Pb0.4)Sr2Ca3(Cu1-xAg)4O12+delta superconductors 1999 10 "Department of Physics, Universidad Nacional de Colombia, Bogota, Colombia" "Phys.Rev.B,60(1999)9845" 30206 PR06009845 Poly crystall "(Bi,Pb)2Sr2Ca3(Cu,Ag)4Oz" Bi1.6Pb0.4Sr2Ca3Cu3.6Ag0.4OZ Bi 1.6 Pb 0.4 Sr 2 Ca 3 Cu 3.6 Ag 0.4 O Z 1 1999 Bi2234 3 K 107.3 107.3 3 uV/K 0.851 mohmcm 0.05 "BiO2,PbO,SrO3,CaCO3,CuO,AgNO3" 1 preheated 800 C for 20 h pressed 9 ton/cm2 after sintered at 850 C for 14 h in air pressed 0 ton/cm2 Thermodynamic fluctuations and the thermalectric coeffcient in (Bi1.6Pb0.4)Sr2Ca3(Cu1-xAg)4O12+delta superconductors 1999 10 "Department of Physics, Universidad Nacional de Colombia, Bogota, Colombia" "Phys.Rev.B,60(1999)9845" 30207 PR06010489 1um particle size. As-grown YBa2Cu3Oz Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 6.9 6.9 1 1999 Y123 A 3.82 3.85 11.68 3 K 92 92 1 as-grown Role of bromine in restoring superconductivity in YBa2Cu3Oy 1999 10 "Department of Physics and Institute of Materials Science, University of Connecticut, Storrs, Connecticut 06269" "Phys.Rev.B,60(1999)10489" 30208 PR06010489 "1um particle size, ANN(260 C, 0.5h in Br2)" YBa2Cu3Oz Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 6.9 6.9 1 1999 Y123 K 92 92 1 anneal: in Br2 260 C 0.5h Role of bromine in restoring superconductivity in YBa2Cu3Oy 1999 10 "Department of Physics and Institute of Materials Science, University of Connecticut, Storrs, Connecticut 06269" "Phys.Rev.B,60(1999)10489" 30209 PR06010489 "1um particle size, ANN(450 C, 4h in He)" YBa2Cu3Oz Y1Ba2Cu3O6.6 Y 1 Ba 2 Cu 3 O 6.6 6.6 1 1999 Y123 A 3.83 3.86 11.74 3 K 60 60 1 anneal: in He 450 C 4h Role of bromine in restoring superconductivity in YBa2Cu3Oy 1999 10 "Department of Physics and Institute of Materials Science, University of Connecticut, Storrs, Connecticut 06269" "Phys.Rev.B,60(1999)10489" 30210 PR06010489 "1um particle size, ANN(450C, 4H inHe)+ANN(260C, 0.5H in Br2)" YBa2Cu3Oz Y1Ba2Cu3O6.6 Y 1 Ba 2 Cu 3 O 6.6 6.6 1 1999 Y123 A 3.82 3.88 11.6 3 K 92 92 1 anneal: in He 450 C 4h and in Br2 260 C 0.5h Role of bromine in restoring superconductivity in YBa2Cu3Oy 1999 10 "Department of Physics and Institute of Materials Science, University of Connecticut, Storrs, Connecticut 06269" "Phys.Rev.B,60(1999)10489" 30211 PR06010489 "1um particle size, ANN(700 C, 4h in He)" YBa2Cu3Oz Y1Ba2Cu3O6.1 Y 1 Ba 2 Cu 3 O 6.1 6.1 1 1999 Y123 A 3.84 3.85 11.77 3 K 0 0 1 anneal: in He 700 C 4h Role of bromine in restoring superconductivity in YBa2Cu3Oy 1999 10 "Department of Physics and Institute of Materials Science, University of Connecticut, Storrs, Connecticut 06269" "Phys.Rev.B,60(1999)10489" 30212 PR06010489 "1um particle size, ANN(700 C, 4h in He)+ANN(260 C, 0.25h in Br2)" YBa2Cu3Oz Y1Ba2Cu3O6.1 Y 1 Ba 2 Cu 3 O 6.1 6.1 1 1999 Y123 A 3.82 3.87 11.7 3 K 92 92 1 anneal: in He 700 C 4h and in Br2 260 C 0.5h Role of bromine in restoring superconductivity in YBa2Cu3Oy 1999 10 "Department of Physics and Institute of Materials Science, University of Connecticut, Storrs, Connecticut 06269" "Phys.Rev.B,60(1999)10489" 30213 PR06010489 "1um particle size, ANN(675 C, 8h in He)" YBa2Cu3Oz Y1Ba2Cu3O6.2 Y 1 Ba 2 Cu 3 O 6.2 6.2 1 1999 Y123 K 1 anneal: in He 675 C 8h Role of bromine in restoring superconductivity in YBa2Cu3Oy 1999 10 "Department of Physics and Institute of Materials Science, University of Connecticut, Storrs, Connecticut 06269" "Phys.Rev.B,60(1999)10489" 30214 PR06010489 "1um particle size, ANN(675 C, 8h in He)+ANN(260 C, 0.5h in vac)" YBa2Cu3Oz Y1Ba2Cu3O6.2 Y 1 Ba 2 Cu 3 O 6.2 6.2 1 1999 Y123 K 1 anneal: in He 675 C 8h and vac 260 C 0.5h Role of bromine in restoring superconductivity in YBa2Cu3Oy 1999 10 "Department of Physics and Institute of Materials Science, University of Connecticut, Storrs, Connecticut 06269" "Phys.Rev.B,60(1999)10489" 30215 PR06010489 "1um particle size, ANN(450 C, 8h in He)+ANN(560 C, 4h in O2)" YBa2Cu3Oz Y1Ba2Cu3O6.6 Y 1 Ba 2 Cu 3 O 6.6 6.6 1 1999 Y123 K 92 92 1 anneal: in He 450 C 4h and in O2 560 C 4h Role of bromine in restoring superconductivity in YBa2Cu3Oy 1999 10 "Department of Physics and Institute of Materials Science, University of Connecticut, Storrs, Connecticut 06269" "Phys.Rev.B,60(1999)10489" 30216 PR06010489 "20um particle size, as-grown" YBa2Cu3Oz Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 6.9 6.9 1 1999 Y123 K 93 93 1 Role of bromine in restoring superconductivity in YBa2Cu3Oy 1999 10 "Department of Physics and Institute of Materials Science, University of Connecticut, Storrs, Connecticut 06269" "Phys.Rev.B,60(1999)10489" 30217 PR06010489 "20um particle size, ANN(450 C, 4h in He)" YBa2Cu3Oz Y1Ba2Cu3O6.6 Y 1 Ba 2 Cu 3 O 6.6 6.6 1 1999 Y123 K 69 69 1 anneal: in He 450 C 4h Role of bromine in restoring superconductivity in YBa2Cu3Oy 1999 10 "Department of Physics and Institute of Materials Science, University of Connecticut, Storrs, Connecticut 06269" "Phys.Rev.B,60(1999)10489" 30218 PR06010489 "20um particle size, ANN(450C, 4H inHe)+ANN(260C, 0.5H in Br2)" YBa2Cu3Oz Y1Ba2Cu3O6.6 Y 1 Ba 2 Cu 3 O 6.6 6.6 1 1999 Y123 K 92 92 1 anneal: in He 450 C 4h and in Br2 260 C 0.5h Role of bromine in restoring superconductivity in YBa2Cu3Oy 1999 10 "Department of Physics and Institute of Materials Science, University of Connecticut, Storrs, Connecticut 06269" "Phys.Rev.B,60(1999)10489" 30219 PR06010489 "20um particle size, ANN(750 C, 5h in He)" YBa2Cu3Oz Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 1 1999 Y123 K 1 anneal: in He 750 C 5h Role of bromine in restoring superconductivity in YBa2Cu3Oy 1999 10 "Department of Physics and Institute of Materials Science, University of Connecticut, Storrs, Connecticut 06269" "Phys.Rev.B,60(1999)10489" 30220 PR06010489 "20um particle size, ANN(750 C, 5h in He)+ANN(260 C, 0.25h in Br2)" YBa2Cu3Oz Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 1 1999 Y123 K 93 93 1 anneal: in He 750 C 5h and in Br2 260 C 0.25h Role of bromine in restoring superconductivity in YBa2Cu3Oy 1999 10 "Department of Physics and Institute of Materials Science, University of Connecticut, Storrs, Connecticut 06269" "Phys.Rev.B,60(1999)10489" 30221 PR06010489 "40um particle size, as-grown" YBa2Cu3Oz Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 6.9 6.9 1 1999 Y123 K 93 93 1 Role of bromine in restoring superconductivity in YBa2Cu3Oy 1999 10 "Department of Physics and Institute of Materials Science, University of Connecticut, Storrs, Connecticut 06269" "Phys.Rev.B,60(1999)10489" 30222 PR06010489 "40um particle size, ANN(450 C, 4h in He)" YBa2Cu3Oz Y1Ba2Cu3O6.7 Y 1 Ba 2 Cu 3 O 6.7 6.7 1 1999 Y123 K 80 80 1 anneal: in He 450 C 4h Role of bromine in restoring superconductivity in YBa2Cu3Oy 1999 10 "Department of Physics and Institute of Materials Science, University of Connecticut, Storrs, Connecticut 06269" "Phys.Rev.B,60(1999)10489" 30223 PR06010489 "40um particle size, ANN(450 C, 4h in He)+ANN(260 C, 0.5h in Br2)" YBa2Cu3Oz Y1Ba2Cu3O6.7 Y 1 Ba 2 Cu 3 O 6.7 6.7 1 1999 Y123 K 93 93 1 anneal: in He 450 C 4h and in Br2 260 C 0.5h Role of bromine in restoring superconductivity in YBa2Cu3Oy 1999 10 "Department of Physics and Institute of Materials Science, University of Connecticut, Storrs, Connecticut 06269" "Phys.Rev.B,60(1999)10489" 30224 PR06010489 "30um particle size, as-grown" YBa2Cu3Oz Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 6.9 6.9 1 1999 Y123 K 92 92 1 Role of bromine in restoring superconductivity in YBa2Cu3Oy 1999 10 "Department of Physics and Institute of Materials Science, University of Connecticut, Storrs, Connecticut 06269" "Phys.Rev.B,60(1999)10489" 30225 PR06010489 "30um particle size, ANN(260 C, 24h in Br2)" YBa2Cu3Oz Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 6.9 6.9 1 1999 Y123 K 92 92 1 anneal: in Br2 260 C 24h Role of bromine in restoring superconductivity in YBa2Cu3Oy 1999 10 "Department of Physics and Institute of Materials Science, University of Connecticut, Storrs, Connecticut 06269" "Phys.Rev.B,60(1999)10489" 30226 PR06010489 "30um particle size, ANN(700 C, 4 h, in He)+ANN(260 C, 24 h, in Br2)" YBa2Cu3Oz Y1Ba2Cu3O6.1 Y 1 Ba 2 Cu 3 O 6.1 6.1 1 1999 Y123 K 90 90 1 anneal: in He 700 C 4h and in Br2 260 C 24h Role of bromine in restoring superconductivity in YBa2Cu3Oy 1999 10 "Department of Physics and Institute of Materials Science, University of Connecticut, Storrs, Connecticut 06269" "Phys.Rev.B,60(1999)10489" 30300 PR06012475 "They disscussed about NHC2 compared with magnetic Fields at which the resistivity equals 10, 50, 80, 90% of the normal state resistivity." "(La,Sr)2CuO4" La1.92Sr0.08Cu1O4 La 1.92 Sr 0.08 Cu 1 O 4 3 1999 T K T Magnetic Fields at which the resistivity equals 50% of the normal state resistivity. 19.3 7 Traveling-solvent floating-zone method. ref 15. Resistive upper critical fields and irreversibility lines of optimally doped high-Tc cuprates 1999 11 "Bell Laboratories, Lucent Technologies, 700 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.B,60(1999)12475" 30301 PR06012475 "They disscussed about NHC2 compared with magnetic Fields at which the resistivity equals 10, 50, 80, 90% of the normal state resistivity." "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 3 1999 T K T Magnetic Fields at which the resistivity equals 50% of the normal state resistivity. 48.3 7 Traveling-solvent floating-zone method. ref 15. Resistive upper critical fields and irreversibility lines of optimally doped high-Tc cuprates 1999 11 "Bell Laboratories, Lucent Technologies, 700 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.B,60(1999)12475" 30302 PR06012475 "They disscussed about NHC2 compared with magnetic Fields at which the resistivity equals 10, 50, 80, 90% of the normal state resistivity." "(La,Sr)2CuO4" La1.83Sr0.17Cu1O4 La 1.83 Sr 0.17 Cu 1 O 4 3 1999 T K T Magnetic Fields at which the resistivity equals 50% of the normal state resistivity. 51.5 7 Traveling-solvent floating-zone method. ref 15. Resistive upper critical fields and irreversibility lines of optimally doped high-Tc cuprates 1999 11 "Bell Laboratories, Lucent Technologies, 700 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.B,60(1999)12475" 30303 PR06012475 "They disscussed about NHC2 compared with magnetic Fields at which the resistivity equals 10, 50, 80, 90% of the normal state resistivity." Bi2Sr2Ca1Cu2O8 Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 3 1999 Bi2212 K T Magnetic Fields at which the resistivity equals 50% of the normal state resistivity. 57.1 7 Floating method. Heat treated insealed quartz tubes to tune to the near-optimum doping. Resistive upper critical fields and irreversibility lines of optimally doped high-Tc cuprates 1999 11 "Bell Laboratories, Lucent Technologies, 700 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.B,60(1999)12475" 30304 PR06012475 "They disscussed about NHC2 compared with magnetic Fields at which the resistivity equals 10, 50, 80, 90% of the normal state resistivity." YBa2Cu3O7 Y1Ba2Cu3O7-D Y 1 Ba 2 Cu 3 O 7-D 3 1999 Y123 K T Magnetic Fields at which the resistivity equals 50% of the normal state resistivity. 19 5 Flux method in zirconia crucibles and annealed in sealed quartz tubes to tune the oxyzen content to optimal doping. Resistive upper critical fields and irreversibility lines of optimally doped high-Tc cuprates 1999 11 "Bell Laboratories, Lucent Technologies, 700 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.B,60(1999)12475" 30305 PR06012495 Bi2Sr2Ca1Cu2O8 Bi2Sr2Ca1Cu2O8+D Bi 2 Sr 2 Ca 1 Cu 2 O 8+D 3 1999 Bi2212 K 82 82 5 "ref 25,29" Sample analysis method: EDS. Ref25. Magnetotransport in Bi2Sr2Ca1-xYxCu2O8+delta single crystal: From the underdoped to the overdoped regime 1999 11 "Laboratoire CRISMAT, UMR 6508, ISMRA et Universite' de Caen, 6 Boulevard du Marechal Juin, 14050 Caen Cedex, France" "Phys.Rev.B,60(1999)12495" 30306 PR06012495 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.8Y0.2Cu2O8+D Bi 2 Sr 2 Ca 0.8 Y 0.2 Cu 2 O 8+D 3 1999 Bi2212 K 87.5 87.5 5 "ref 25,29" Sample analysis method: EDS. Ref25. Magnetotransport in Bi2Sr2Ca1-xYxCu2O8+delta single crystal: From the underdoped to the overdoped regime 1999 11 "Laboratoire CRISMAT, UMR 6508, ISMRA et Universite' de Caen, 6 Boulevard du Marechal Juin, 14050 Caen Cedex, France" "Phys.Rev.B,60(1999)12495" 30307 PR06012495 "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.57Y0.43Cu2O8+D Bi 2 Sr 2 Ca 0.57 Y 0.43 Cu 2 O 8+D 3 1999 Bi2212 K 84.8 84.8 5 "ref 25,29" Sample analysis method: EDS. Ref25. Magnetotransport in Bi2Sr2Ca1-xYxCu2O8+delta single crystal: From the underdoped to the overdoped regime 1999 11 "Laboratoire CRISMAT, UMR 6508, ISMRA et Universite' de Caen, 6 Boulevard du Marechal Juin, 14050 Caen Cedex, France" "Phys.Rev.B,60(1999)12495" 30308 PR06012495 "(Bi,Pb)2Sr2(Ca,Y)Cu2O8" Bi1.6Pb0.4Sr2Ca0.8Y0.2Cu2O8+D Bi 1.6 Pb 0.4 Sr 2 Ca 0.8 Y 0.2 Cu 2 O 8+D 3 1999 Bi2212 K 81.3 81.3 5 "ref 25,29" Sample analysis method: EDS. Ref25. Magnetotransport in Bi2Sr2Ca1-xYxCu2O8+delta single crystal: From the underdoped to the overdoped regime 1999 11 "Laboratoire CRISMAT, UMR 6508, ISMRA et Universite' de Caen, 6 Boulevard du Marechal Juin, 14050 Caen Cedex, France" "Phys.Rev.B,60(1999)12495" 30309 PR06013094 "They measured MT and MH of each sample, then calculated thermodynamic parameters by using Hao-Clem model(ref 16)." "(Hg,Pb)Ba2Ca2Cu3Oz" Hg0.7Pb0.3Ba2Ca2Cu3OY Hg 0.7 Pb 0.3 Ba 2 Ca 2 Cu 3 O Y 6 1999 Hg1223 A 15.9 3 K 127 127 T Hao & Clem model 128 T/K Hao & Clem model 1.4 HIR30309 A Hao & Clem model 16 nm Hao & Clem model 191 "BaCO3, SrCo3, CaCo3, CuO, HgO, PbO" 1 ref 10 "To aligne c-axis, the powder was ground down to around 20 micro meter amd mixed with epoxy, then cured in a magnetic field of 7 T for 10 h at room temperature." Effects of subsutitution on dimensiinality and superconducting properties of Hg0.7Pb0.3Ba2Ca2Cu3Oy 1999 "National Creative Research Initiative Center for Superconductivity, Department of Physics, Pohang University of Science and Technology, Pohang 790-784, Korea" "Phys.Rev.B,60(1999)13094" 30310 PR06013094 "They measured MT and MH of each sample, then calculated thermodynamic parameters by using Hao-Clem model(ref 16)." "(Hg,Pb)Sr2Ca2Cu3Oz" Hg0.7Pb0.3Sr2Ca2Cu3OY Hg 0.7 Pb 0.3 Sr 2 Ca 2 Cu 3 O Y 6 1999 Hg1223 A 15.2 3 K 110 110 T Hao & Clem model 226 T/K Hao & Clem model 2.8 HIR30310 A Hao & Clem model 12 nm Hao & Clem model 169 "BaCO3, SrCo3, CaCo3, CuO, HgO, PbO" 1 ref 10 "To aligne c-axis, the powder was ground down to around 20 micro meter amd mixed with epoxy, then cured in a magnetic field of 7 T for 10 h at room temperature." Effects of subsutitution on dimensiinality and superconducting properties of Hg0.7Pb0.3Ba2Ca2Cu3Oy 1999 "National Creative Research Initiative Center for Superconductivity, Department of Physics, Pohang University of Science and Technology, Pohang 790-784, Korea" "Phys.Rev.B,60(1999)13094" 30400 PR06014605 RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 6 1999 138 2 Ru1212 A 3.8387 11.562 3 K 36 36 6.9 4.3 "RuO2, SnO2, SrCO3, Gd2O3, CuO" 1 "Ground and pelleted before pre-reaction in air at 1000 C for 3 days, then reground, repelleted, and heated at 1050 C in flowing oxygen for a further 3 days and, slow cooled to room temperature." Tuning of the ferromagnetic and superconducting transitions by tin-doping in RuSr2GdCu2O8 1999 12 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madingley Road, Cambridge CB3 OHE, United Kingdom" "Phys.Rev.B,60(1999)14605" 30401 PR06014605 "(Ru,Sn)Sr2GdCu2O8" Ru0.9Sn0.1Sr2Gd1Cu2O8 Ru 0.9 Sn 0.1 Sr 2 Gd 1 Cu 2 O 8 6 1999 112 2 Ru1212 A 3.8359 11.5609 3 K 39 39 mOhm.cm 7.4 4.5 "RuO2, SnO2, SrCO3, Gd2O3, CuO" 1 "Ground and pelleted before pre-reaction in air at 1000 C for 3 days, then reground, repelleted, and heated at 1050 C in flowing oxygen for a further 3 days and, slow cooled to room temperature." Tuning of the ferromagnetic and superconducting transitions by tin-doping in RuSr2GdCu2O8 1999 12 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madingley Road, Cambridge CB3 OHE, United Kingdom" "Phys.Rev.B,60(1999)14605" 30402 PR06014605 "(Ru,Sn)Sr2GdCu2O8" Ru0.8Sn0.2Sr2Gd1Cu2O8 Ru 0.8 Sn 0.2 Sr 2 Gd 1 Cu 2 O 8 6 1999 95 2 Ru1212 A 3.8375 11.5575 3 K 48 48 mOhm.cm 2.8 2 "RuO2, SnO2, SrCO3, Gd2O3, CuO" 1 "Ground and pelleted before pre-reaction in air at 1000 C for 3 days, then reground, repelleted, and heated at 1050 C in flowing oxygen for a further 3 days and, slow cooled to room temperature." Tuning of the ferromagnetic and superconducting transitions by tin-doping in RuSr2GdCu2O8 1999 12 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madingley Road, Cambridge CB3 OHE, United Kingdom" "Phys.Rev.B,60(1999)14605" 30403 PR06014605 "(Ru,Sn)Sr2GdCu2O8" Ru0.7Sn0.3Sr2Gd1Cu2O8 Ru 0.7 Sn 0.3 Sr 2 Gd 1 Cu 2 O 8 6 1999 87 2 Ru1212 A 3.8379 11.5552 3 K 39 39 mOhm.cm 3.7 2.3 "RuO2, SnO2, SrCO3, Gd2O3, CuO" 1 "Ground and pelleted before pre-reaction in air at 1000 C for 3 days, then reground, repelleted, and heated at 1050 C in flowing oxygen for a further 3 days and, slow cooled to room temperature." Tuning of the ferromagnetic and superconducting transitions by tin-doping in RuSr2GdCu2O8 1999 12 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madingley Road, Cambridge CB3 OHE, United Kingdom" "Phys.Rev.B,60(1999)14605" 30404 PR06014605 "(Ru,Sn)Sr2GdCu2O8" Ru0.6Sn0.4Sr2Gd1Cu2O8 Ru 0.6 Sn 0.4 Sr 2 Gd 1 Cu 2 O 8 6 1999 78 2 Ru1212 A 3.8396 11.5525 3 K 31 31 mOhm.cm 6.6 3.4 "RuO2, SnO2, SrCO3, Gd2O3, CuO" 1 "Ground and pelleted before pre-reaction in air at 1000 C for 3 days, then reground, repelleted, and heated at 1050 C in flowing oxygen for a further 3 days and, slow cooled to room temperature." Tuning of the ferromagnetic and superconducting transitions by tin-doping in RuSr2GdCu2O8 1999 12 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madingley Road, Cambridge CB3 OHE, United Kingdom" "Phys.Rev.B,60(1999)14605" 30405 PR06014872 "(La,Sr)2CuO4" La1.975Sr0.025Cu1O4 La 1.975 Sr 0.025 Cu 1 O 4 6 1999 3 T A 5.35 5.39 13.16 3 K 4.2 uV/K 237 E-9m3/C 14.9 "La2O3, SrCO3, CuO" 1 "Mixed and prefired in air at 950 C for 24 h, then remixed, pressed and sintered at 1000 C for 60 h, and regrounded, pelletized and refired at 1050 C for 72 h in air under pressure of 1 bar." "Normal-state Ettingshausen, Seebeck, and Hall effects in La2-xSrxCuO4" 1999 12 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 1410, 50-950 Wrochaw, Poland" "Phys.Rev.B,60(1999)14872" 30406 PR06014872 "(La,Sr)2CuO4" La1.95Sr0.05Cu1O4 La 1.95 Sr 0.05 Cu 1 O 4 6 1999 3 T A 5.349 5.379 13.18 3 K 4.2 uV/K 158 E-9m3/C 10.5 "La2O3, SrCO3, CuO" 1 "Mixed and prefired in air at 950 C for 24 h, then remixed, pressed and sintered at 1000 C for 60 h, and regrounded, pelletized and refired at 1050 C for 72 h in air under pressure of 1 bar." "Normal-state Ettingshausen, Seebeck, and Hall effects in La2-xSrxCuO4" 1999 12 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 1410, 50-950 Wrochaw, Poland" "Phys.Rev.B,60(1999)14872" 30407 PR06014872 "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 6 1999 2 T A 5.351 13.21 3 K 29 29 uV/K 68.3 E-9m3/C 3.67 "La2O3, SrCO3, CuO" 1 "Mixed and prefired in air at 950 C for 24 h, then remixed, pressed and sintered at 1000 C for 60 h, and regrounded, pelletized and refired at 1050 C for 72 h in air under pressure of 1 bar." "Normal-state Ettingshausen, Seebeck, and Hall effects in La2-xSrxCuO4" 1999 12 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 1410, 50-950 Wrochaw, Poland" "Phys.Rev.B,60(1999)14872" 30408 PR06014872 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 6 1999 2 T A 5.342 13.23 3 K 36 36 uV/K 29.5 E-9m3/C 1.75 "La2O3, SrCO3, CuO" 1 "Mixed and prefired in air at 950 C for 24 h, then remixed, pressed and sintered at 1000 C for 60 h, and regrounded, pelletized and refired at 1050 C for 72 h in air under pressure of 1 bar." "Normal-state Ettingshausen, Seebeck, and Hall effects in La2-xSrxCuO4" 1999 12 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 1410, 50-950 Wrochaw, Poland" "Phys.Rev.B,60(1999)14872" 30409 PR06014872 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 6 1999 2 T A 5.333 13.24 3 K 30 30 uV/K 10.1 E-9m3/C 0.642 "La2O3, SrCO3, CuO" 1 "Mixed and prefired in air at 950 C for 24 h, then remixed, pressed and sintered at 1000 C for 60 h, and regrounded, pelletized and refired at 1050 C for 72 h in air under pressure of 1 bar." "Normal-state Ettingshausen, Seebeck, and Hall effects in La2-xSrxCuO4" 1999 12 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 1410, 50-950 Wrochaw, Poland" "Phys.Rev.B,60(1999)14872" 30410 PR06014872 "(La,Sr)2CuO4" La1.75Sr0.25Cu1O4 La 1.75 Sr 0.25 Cu 1 O 4 6 1999 2 T A 5.326 13.25 3 K 18 18 uV/K 1.54 E-9m3/C 0.172 "La2O3, SrCO3, CuO" 1 "Mixed and prefired in air at 950 C for 24 h, then remixed, pressed and sintered at 1000 C for 60 h, and regrounded, pelletized and refired at 1050 C for 72 h in air under pressure of 1 bar." "Normal-state Ettingshausen, Seebeck, and Hall effects in La2-xSrxCuO4" 1999 12 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 1410, 50-950 Wrochaw, Poland" "Phys.Rev.B,60(1999)14872" 30411 PR06014872 "(La,Sr)2CuO4" La1.7Sr0.3Cu1O4 La 1.7 Sr 0.3 Cu 1 O 4 6 1999 2 T A 5.325 13.25 3 K 10 10 uV/K 1.16 E-9m3/C 0.106 "La2O3, SrCO3, CuO" 1 "Mixed and prefired in air at 950 C for 24 h, then remixed, pressed and sintered at 1000 C for 60 h, and regrounded, pelletized and refired at 1050 C for 72 h in air under pressure of 1 bar." "Normal-state Ettingshausen, Seebeck, and Hall effects in La2-xSrxCuO4" 1999 12 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 1410, 50-950 Wrochaw, Poland" "Phys.Rev.B,60(1999)14872" 30412 PR06014872 "(La,Sr)2CuO4" La1.65Sr0.35Cu1O4 La 1.65 Sr 0.35 Cu 1 O 4 6 1999 2 T A 5.317 13.26 3 K 4.2 uV/K 3.95 E-9m3/C -0.182 "La2O3, SrCO3, CuO" 1 "Mixed and prefired in air at 950 C for 24 h, then remixed, pressed and sintered at 1000 C for 60 h, and regrounded, pelletized and sintered in oxygen under the pressure of 300 bar at 1000 C for 48 h." "Normal-state Ettingshausen, Seebeck, and Hall effects in La2-xSrxCuO4" 1999 12 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 1410, 50-950 Wrochaw, Poland" "Phys.Rev.B,60(1999)14872" 30413 PR06015035 Optimally doped sample. YBa2Cu3O7 Y1Ba2Cu3O7-D Y 1 Ba 2 Cu 3 O 7-D 3 1999 Y123 K 93.1 93.1 K/GPa 0.8 "We grew high-quality large single crystals of Y-123 using a crystal pulling technique and detwinned them(ref.(9)), then cut and annealed in flowing O2 atmosphere for two weeks at 480 C." Pressure effects on anisotropic resistivity in detwinned YBa2CuO7-delta:Unconventional carrier doping 1999 12 "Superconductivity Reaearch Laboratory, Intrnational Superconductivity Technology Center, Shinonome 1-10-13, Koto-ku, Tokyo 135-0062, Japan" "Phys.Rev.B,60(1999)R15035" 30414 PR06015035 Over doped sample YBa2Cu3O7 Y1Ba2Cu3O7-D Y 1 Ba 2 Cu 3 O 7-D 3 1999 Y123 K 88.2 88.2 K/GPa -0.3 "We grew high-quality large single crystals of Y-123 using a crystal pulling technique and detwinned them(ref.(9)), then cut and annealed in flowing O2 atmosphere for two weeks at 340 C." Pressure effects on anisotropic resistivity in detwinned YBa2CuO7-delta:Unconventional carrier doping 1999 12 "Superconductivity Reaearch Laboratory, Intrnational Superconductivity Technology Center, Shinonome 1-10-13, Koto-ku, Tokyo 135-0062, Japan" "Phys.Rev.B,60(1999)R15035" 30415 PR06015055 YBa2Cu3O7 Y1Ba2Cu3O6.78 Y 1 Ba 2 Cu 3 O Z 6.78 3 1999 Y123 K 69.2 69.2 uOhm.cm 61.4 321.8 RH30415 5 The final oxygen content is confirmed by iodometric titration. The actual Zn concentration in the crystals is measured with ICP spectrometry with an error in z of less than 0.001. The final oxygen content is confirmed by iodometric titration. The actual Zn concentration in the crystals is measured with ICP spectrometry with an error in z of less than 0.001. Hall effect in Zn-doped YBa2Cu3O7-delta revisited: Hall angle the pseudogap 1999 12 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,60(1999)R15055" 30416 PR06015055 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.982Zn0.018O6.78 Y 1 Ba 2 Cu 2.982 Zn 0.018 O Z 6.78 3 1999 Y123 K 56 56 uOhm.cm 85.2 340.9 RH30416 5 The final oxygen content is confirmed by iodometric titration. The actual Zn concentration in the crystals is measured with ICP spectrometry with an error in z of less than 0.001. The final oxygen content is confirmed by iodometric titration. The actual Zn concentration in the crystals is measured with ICP spectrometry with an error in z of less than 0.001. Hall effect in Zn-doped YBa2Cu3O7-delta revisited: Hall angle the pseudogap 1999 12 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,60(1999)R15055" 30417 PR06015055 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.961Zn0.039O6.78 Y 1 Ba 2 Cu 2.961 Zn 0.039 O Z 6.78 3 1999 Y123 K 42.9 42.9 uOhm.cm 130.9 371.6 RH30417 5 The final oxygen content is confirmed by iodometric titration. The actual Zn concentration in the crystals is measured with ICP spectrometry with an error in z of less than 0.001. The final oxygen content is confirmed by iodometric titration. The actual Zn concentration in the crystals is measured with ICP spectrometry with an error in z of less than 0.001. Hall effect in Zn-doped YBa2Cu3O7-delta revisited: Hall angle the pseudogap 1999 12 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,60(1999)R15055" 30418 PR06015379 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 3 1999 T' K 21 1 21 HIR30418 M-H curve 7 "Grown by a flux method using pure Y 2 O 3 crucibles(ref.(19)). Annealing the crystals with pure YBCO powders in air at 575 C for 37 h, and subsequent quenching to room temperature." Annealed in flowing N2 gas at 900 C for 30 h andsubsequently quenched to room temperature. Vortex state in a Nd1.85Ce0.15CuO4-delta single crystal 1999 12 "Van der Waals-Zeeman Institut, Universiteit van Amsterdam, Valckenierstraat 65 1018 XE. Amsterdom, The Netherlands" "Phys.Rev.B,60(1999)15379" 30500 PR06100627 YBa2Cu3O7-z Y1Ba2Cu3O7-D Y 1 Ba 2 Cu 3 O 7-D 3 2000 Y123 K Ohmcm 0.00011 0.28 0.00054 0.06 5 "ref[8]:Y. Fukuzumi et al., Phys. Rev. Lett. 76, 684(1996)" Zn-doping effect on the c-axis charge dynamics of underdoped high-Tc cuprates 2000 1 "Department of Superconductivity, University of Tokyo, Yayoi 2-11-16, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B,61(2000)627-633" 30501 PR06100627 "YBa2(Cu,Zn)3O7-z" Y1Ba2Cu2.99Zn0.01O7-D Y 1 Ba 2 Cu 2.99 Zn 0.01 O 7-D 3 2000 Y123 K Ohmcm 0.00019 0.27 0.00066 0.06 5 "ref[8]:Y. Fukuzumi et al., Phys. Rev. Lett. 76, 684(1996)" Zn-doping effect on the c-axis charge dynamics of underdoped high-Tc cuprates 2000 1 "Department of Superconductivity, University of Tokyo, Yayoi 2-11-16, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B,61(2000)627-633" 30502 PR06100627 "YBa2(Cu,Zn)3O7-z" Y1Ba2Cu2.98Zn0.02O7-D Y 1 Ba 2 Cu 2.98 Zn 0.02 O 7-D 3 2000 Y123 K Ohmcm 0.00028 0.27 0.0008 0.06 5 "ref[8]:Y. Fukuzumi et al., Phys. Rev. Lett. 76, 684(1996)" Zn-doping effect on the c-axis charge dynamics of underdoped high-Tc cuprates 2000 1 "Department of Superconductivity, University of Tokyo, Yayoi 2-11-16, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B,61(2000)627-633" 30503 PR06100627 "YBa2(Cu,Zn)3O7-z" Y1Ba2Cu2.97Zn0.03O7-D Y 1 Ba 2 Cu 2.97 Zn 0.03 O 7-D 3 2000 Y123 K Ohmcm 0.00042 0.25 0.00092 0.06 5 "ref[8]:Y. Fukuzumi et al., Phys. Rev. Lett. 76, 684(1996)" Zn-doping effect on the c-axis charge dynamics of underdoped high-Tc cuprates 2000 1 "Department of Superconductivity, University of Tokyo, Yayoi 2-11-16, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B,61(2000)627-633" 30504 PR06100627 "YBa2(Cu,Zn)3O7-z" Y1Ba2Cu2.96Zn0.04O7-D Y 1 Ba 2 Cu 2.96 Zn 0.04 O 7-D 3 2000 Y123 K Ohmcm 0.00059 0.00122 5 "ref[8]:Y. Fukuzumi et al., Phys. Rev. Lett. 76, 684(1996)" Zn-doping effect on the c-axis charge dynamics of underdoped high-Tc cuprates 2000 1 "Department of Superconductivity, University of Tokyo, Yayoi 2-11-16, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B,61(2000)627-633" 30505 PR06100627 La1.8Sr0.2Cu1O4 La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 3 2000 T K 31.4 32.9 33.9 32.9 Ohmcm 0.00006 0.017 0.00025 0.038 7 "ref[15]:M. Mizuhashi et al., Phys. Rev. B52,R3884(1995)" Zn-doping effect on the c-axis charge dynamics of underdoped high-Tc cuprates 2000 1 "Department of Superconductivity, University of Tokyo, Yayoi 2-11-16, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B,61(2000)627-633" 30506 PR06100627 "(La,Sr)2(Cu,Zn)O4" La1.8Sr0.2Cu0.99Zn0.01O4 La 1.8 Sr 0.2 Cu 0.99 Zn 0.01 O 4 3 2000 T K 25.7 26.4 27.1 26.4 Ohmcm 0.0007 0.019 0.000255 0.04 7 "ref[15]:M. Mizuhashi et al., Phys. Rev. B52,R3884(1995)" Zn-doping effect on the c-axis charge dynamics of underdoped high-Tc cuprates 2000 1 "Department of Superconductivity, University of Tokyo, Yayoi 2-11-16, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B,61(2000)627-633" 30507 PR06100627 "(La,Sr)2(Cu,Zn)O4" La1.8Sr0.2Cu0.98Zn0.02O4 La 1.8 Sr 0.2 Cu 0.98 Zn 0.02 O 4 3 2000 T K 16.8 17.5 20.7 17.5 Ohmcm 0.00085 0.019 0.00027 0.041 7 "ref[15]:M. Mizuhashi et al., Phys. Rev. B52,R3884(1995)" Zn-doping effect on the c-axis charge dynamics of underdoped high-Tc cuprates 2000 1 "Department of Superconductivity, University of Tokyo, Yayoi 2-11-16, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B,61(2000)627-633" 30508 PR06100627 "(La,Sr)2(Cu,Zn)O4" La1.8Sr0.2Cu0.96Zn0.04O4 La 1.8 Sr 0.2 Cu 0.96 Zn 0.04 O 4 3 2000 T K 4.6 4.6 Ohmcm 0.00135 0.022 0.00032 0.045 7 "ref[15]:M. Mizuhashi et al., Phys. Rev. B52,R3884(1995)" Zn-doping effect on the c-axis charge dynamics of underdoped high-Tc cuprates 2000 1 "Department of Superconductivity, University of Tokyo, Yayoi 2-11-16, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B,61(2000)627-633" 30509 PR06100627 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 3 2000 T K 35.1 35.1 36.5 35.1 Ohmcm 0.00011 0.07 0.0004 0.085 7 "ref[15]:M. Mizuhashi et al., Phys. Rev. B52,R3884(1995)" Zn-doping effect on the c-axis charge dynamics of underdoped high-Tc cuprates 2000 1 "Department of Superconductivity, University of Tokyo, Yayoi 2-11-16, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B,61(2000)627-633" 30510 PR06100627 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.99Zn0.01O4 La 1.85 Sr 0.15 Cu 0.99 Zn 0.01 O 4 3 2000 T K 29.1 29.4 31.6 29.4 Ohmcm 0.00023 0.075 0.00052 0.085 7 "ref[15]:M. Mizuhashi et al., Phys. Rev. B52,R3884(1995)" Zn-doping effect on the c-axis charge dynamics of underdoped high-Tc cuprates 2000 1 "Department of Superconductivity, University of Tokyo, Yayoi 2-11-16, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B,61(2000)627-633" 30511 PR06100627 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.98Zn0.02O4 La 1.85 Sr 0.15 Cu 0.98 Zn 0.02 O 4 3 2000 T K 12.4 13.8 16.3 13.8 Ohmcm 0.00031 0.08 0.00062 0.09 7 "ref[15]:M. Mizuhashi et al., Phys. Rev. B52,R3884(1995)" Zn-doping effect on the c-axis charge dynamics of underdoped high-Tc cuprates 2000 1 "Department of Superconductivity, University of Tokyo, Yayoi 2-11-16, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B,61(2000)627-633" 30512 PR06100627 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.97Zn0.03O4 La 1.85 Sr 0.15 Cu 0.97 Zn 0.03 O 4 3 2000 T K 2.1 3.2 2.1 Ohmcm 0.00039 0.09 0.00072 0.09 7 "ref[15]:M. Mizuhashi et al., Phys. Rev. B52,R3884(1995)" Zn-doping effect on the c-axis charge dynamics of underdoped high-Tc cuprates 2000 1 "Department of Superconductivity, University of Tokyo, Yayoi 2-11-16, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B,61(2000)627-633" 30513 PR06100627 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.96Zn0.04O4 La 1.85 Sr 0.15 Cu 0.96 Zn 0.04 O 4 3 2000 T K Ohmcm 0.00045 0.12 0.000785 0.095 7 "ref[15]:M. Mizuhashi et al., Phys. Rev. B52,R3884(1995)" Zn-doping effect on the c-axis charge dynamics of underdoped high-Tc cuprates 2000 1 "Department of Superconductivity, University of Tokyo, Yayoi 2-11-16, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B,61(2000)627-633" 30514 PR06100741 dTc/dp = 2.0 K/GPa when pressure changed at T<200K YBa2Cu3Oz Y1Ba2Cu3O6.41 Y 1 Ba 2 Cu 3 O 6.41 6.41 3 2000 Y123 K 13.5 13.5 K/GPa 20.1 5 Y:Ba:Cu=5:27:68 Au crusible cooling rate 0.3 to 1 C/h Pressure dependence of Tc to 17 Gpa with and without relaxation effects in superconducting YBa2Cu3Ox 2000 1 "Department of Phycics, Washington University, Campus Box 1105, One Brookings Drive, St. Louis, Missouri 63130" "Phys.Rev.B,61(2000)741-749" 30515 PR06100741 dTc/dp = 2.1 K/GPa when pressure changed at T<200K YBa2Cu3Oz Y1Ba2Cu3O6.41 Y 1 Ba 2 Cu 3 O 6.41 6.41 3 2000 Y123 K 17.1 17.1 TC30515 K/GPa 20 5 Y:Ba:Cu=5:27:68 Au crusible cooling rate 0.3 to 1 C/h Pressure dependence of Tc to 17 Gpa with and without relaxation effects in superconducting YBa2Cu3Ox 2000 1 "Department of Phycics, Washington University, Campus Box 1105, One Brookings Drive, St. Louis, Missouri 63130" "Phys.Rev.B,61(2000)741-749" 30516 PR06100741 dTc/dp = 2.3 K/GPa when pressure changed at T<200K YBa2Cu3Oz Y1Ba2Cu3O6.45 Y 1 Ba 2 Cu 3 O 6.45 6.45 3 2000 Y123 K 34.4 34.4 K/GPa 13 5 Y:Ba:Cu=5:27:68 Au crusible cooling rate 0.3 to 1 C/h Pressure dependence of Tc to 17 Gpa with and without relaxation effects in superconducting YBa2Cu3Ox 2000 1 "Department of Phycics, Washington University, Campus Box 1105, One Brookings Drive, St. Louis, Missouri 63130" "Phys.Rev.B,61(2000)741-749" 30517 PR06100741 dTc/dp = 7.1 K/GPa when pressure changed at T<200K YBa2Cu3Oz Y1Ba2Cu3O6.66 Y 1 Ba 2 Cu 3 O 6.66 6.66 3 2000 Y123 K 64.2 64.2 K/GPa 9.3 5 Y:Ba:Cu=5:27:68 Au crusible cooling rate 0.3 to 1 C/h Pressure dependence of Tc to 17 Gpa with and without relaxation effects in superconducting YBa2Cu3Ox 2000 1 "Department of Phycics, Washington University, Campus Box 1105, One Brookings Drive, St. Louis, Missouri 63130" "Phys.Rev.B,61(2000)741-749" 30518 PR06100741 dTc/dp = 0.24 K/GPa when pressure changed at T<200K YBa2Cu3Oz Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O 6.95 6.95 3 2000 Y123 K 92.5 92.5 K/GPa 0.24 5 Y:Ba:Cu=5:27:68 Au crusible cooling rate 0.3 to 1 C/h Pressure dependence of Tc to 17 Gpa with and without relaxation effects in superconducting YBa2Cu3Ox 2000 1 "Department of Phycics, Washington University, Campus Box 1105, One Brookings Drive, St. Louis, Missouri 63130" "Phys.Rev.B,61(2000)741-749" 30519 PR06101500 Ca5.84Sr4.02Bi0.14Cu15.84O29 Ca5.84Sr4.02Bi0.14Cu15.84O29 Ca 5.84 Sr 4.02 Bi 0.14 Cu 15.84 O 29 3 2000 A 11.346 12.809 19.52 1 K 72 72 6.5 5 "Bi2CuO4, BaCuO2 flux at 960C" d-wave superconductivity of the hole-doped (SrCa)10Cu17O29 ladder compound 2000 1 "Instytut Fizyki Polskiej Akademii Nauk, Al. Lotnikow 32, 02-668 Warszawa, Poland" "Phys.Rev.B,61(2000)1500-1505" 30520 PR06101500 Bi2Sr2Ca1Cu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1 2000 Bi2212 K 7.5 1 30-40kbar anneal at 845C d-wave superconductivity of the hole-doped (SrCa)10Cu17O29 ladder compound 2000 1 "Instytut Fizyki Polskiej Akademii Nauk, Al. Lotnikow 32, 02-668 Warszawa, Poland" "Phys.Rev.B,61(2000)1500-1505" 30521 PR06101473 Sample A "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 2000 T K mJ/Kmol 1.8 in different laboratories Evidence for line nodes in the energy gap for (La1.85Sr0.15)CuO4 from low-temperature specific-heat measurements 2000 1 "Department of Chemistry, University of California and Lawrence Berkeley National Laboratory, Berkeley, California 94720" "Phys.Rev.B,61(2000)1473-1476" 30522 PR06101473 Sample B "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 2000 T K mJ/Kmol 1.2 in different laboratories Evidence for line nodes in the energy gap for (La1.85Sr0.15)CuO4 from low-temperature specific-heat measurements 2000 1 "Department of Chemistry, University of California and Lawrence Berkeley National Laboratory, Berkeley, California 94720" "Phys.Rev.B,61(2000)1473-1476" 30523 PR06100689 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2OY Bi 2 Sr 2 Ca 1 Cu 2 O Y 5 2000 Bi2212 K meV 20 1000000 "Bi,Sr,Ca,Su" 17 MBE method p=2.5E-3Pa 10% Ozonejet MgO(100) Nonequilibrium microwave emission due to tunnel injection of quasiparticles into a high-Tc Bi2Sr2CaCu2Oy superconductor 2000 1 "Department of Applied Physics and CREST, Tokyo Institute of Technology, 2-12-1 Oh-okayama, Meguro-ku, Tokyo 152-8551, Japan" "Phys.Rev.B,61(2000)689-693" 30524 PR06101548 "Pr(Pr,Ba)2Cu3O7-z" Pr1.05Ca0Ba1.95Cu3O7-D Pr 1.05 Ca 0 Ba 1.95 Cu 3 O 7-D 1 2000 Y123 A 3.863 3.918 11.65 3 K "Pr6O11,BaCO3CaCO3,CuO" 1 calcined CO2-free air for 24-48h Valence determination as a function of doping in PrBa2Cu3O7 2000 1 "Swiss Light Source, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B,61(2000)1548-1554" 30525 PR06101548 "Pr(Ca,Ba)2Cu3O7-z" Pr1Ca0.05Ba1.95Cu3O7-D Pr 1 Ca 0.05 Ba 1.95 Cu 3 O 7-D 1 2000 Y123 A 3.8413 3.9168 11.6547 3 K "Pr6O11,BaCO3CaCO3,CuO" 1 calcined CO2-free air for 24-48h Valence determination as a function of doping in PrBa2Cu3O7 2000 1 "Swiss Light Source, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B,61(2000)1548-1554" 30526 PR06101548 "(Pr,Ca)(Ca,Ba)2Cu3O7-z" Pr0.95Ca0.1Ba1.95Cu3O7-D Pr 0.95 Ca 0.1 Ba 1.95 Cu 3 O 7-D 1 2000 Y123 A 3.8358 3.9094 11.6449 3 K "Pr6O11,BaCO3CaCO3,CuO" 1 calcined CO2-free air for 24-48h Valence determination as a function of doping in PrBa2Cu3O7 2000 1 "Swiss Light Source, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B,61(2000)1548-1554" 30527 PR06101548 "(Pr,Ca)(Ca,Ba)2Cu3O7-z" Pr0.9Ca0.15Ba1.95Cu3O7-D Pr 0.9 Ca 0.15 Ba 1.95 Cu 3 O 7-D 1 2000 Y123 A 3.848 3.9 11.748 3 K "Pr6O11,BaCO3CaCO3,CuO" 1 calcined CO2-free air for 24-48h Valence determination as a function of doping in PrBa2Cu3O7 2000 1 "Swiss Light Source, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B,61(2000)1548-1554" 30528 PR06101548 "(Pr,Ca)(Ca,Ba)2Cu3O7-z" Pr0.85Ca0.2Ba1.95Cu3O7-D Pr 0.85 Ca 0.2 Ba 1.95 Cu 3 O 7-D 1 2000 Y123 A 3.848 3.896 11.733 3 K "Pr6O11,BaCO3CaCO3,CuO" 1 calcined CO2-free air for 24-48h Valence determination as a function of doping in PrBa2Cu3O7 2000 1 "Swiss Light Source, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B,61(2000)1548-1554" 30529 PR06100107 plate La2CuO4 La1Cu1O4 La 1 Cu 1 O 4 3 2000 T K 23 23 TC30529 K/GPa 3 7 TSFZ Role of two-dimensional electronic state in superconductivity in La2-xSrxCuO4 2000 1 "Department of Quantum Matter, ADSM, Hiroshima University, Higashi-Hiroshima 739-8526, Japan" "Phys.Rev.B,61(2000)107-110" 30530 PR06100107 stick "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 3 2000 T K 23 23 TC30530 K/GPa -0.8 7 TSFZ Role of two-dimensional electronic state in superconductivity in La2-xSrxCuO4 2000 1 "Department of Quantum Matter, ADSM, Hiroshima University, Higashi-Hiroshima 739-8526, Japan" "Phys.Rev.B,61(2000)107-110" 30531 PR06100107 plate "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 3 2000 T K 38 38 TC30531 K/GPa 5 7 TSFZ Role of two-dimensional electronic state in superconductivity in La2-xSrxCuO4 2000 1 "Department of Quantum Matter, ADSM, Hiroshima University, Higashi-Hiroshima 739-8526, Japan" "Phys.Rev.B,61(2000)107-110" 30600 PR06103604 beta(lattice term of SP) = 0.392 mJ/mol.K4 YBa2Cu3Oz Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O 6.95 6.95 3 2000 Y123 K 93 93 SP30600 mJ/mol.K2 3 SP 403 SP 5 "See Phys.Rev.B, 50(1994)4051" The Zn concentration was determined by Tc of the crystals to powder samples with knowm Zn concentration and annealed at the same conditions. Details is in ref.4. Specific heat of Zn-doped YBa2Cu3O6.95: Possible evidence for Kondo screening in the superconducting state 2000 2 "Department of Applied Physics and Department of Physics, Stanford University, Stanford, California 94305" "Phys.Rev.B,61(2000)3604-3609" 30601 PR06103604 beta(lattice term of SP) = 0.308 mJ/mol.K4 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.9955Zn0.0045O6.95 Y 1 Ba 2 Cu 2.9955 Zn 0.0045 O 6.95 6.95 3 2000 Y123 K 90 90 SP30601 mJ/mol.K2 4.3 SP 5 "See Phys.Rev.B, 50(1994)4051" The Zn concentration was determined by Tc of the crystals to powder samples with knowm Zn concentration and annealed at the same conditions. Details is in ref.4. Specific heat of Zn-doped YBa2Cu3O6.95: Possible evidence for Kondo screening in the superconducting state 2000 2 "Department of Applied Physics and Department of Physics, Stanford University, Stanford, California 94305" "Phys.Rev.B,61(2000)3604-3609" 30602 PR06103604 beta(lattice term of SP) = 0.284 mJ/mol.K4 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.9907Zn0.0093O6.95 Y 1 Ba 2 Cu 2.9907 Zn 0.0093 O 6.95 6.95 3 2000 Y123 K 88 88 SP30602 mJ/mol.K2 5.8 SP 5 "See Phys.Rev.B, 50(1994)4051" The Zn concentration was determined by Tc of the crystals to powder samples with knowm Zn concentration and annealed at the same conditions. Details is in ref.4. Specific heat of Zn-doped YBa2Cu3O6.95: Possible evidence for Kondo screening in the superconducting state 2000 2 "Department of Applied Physics and Department of Physics, Stanford University, Stanford, California 94305" "Phys.Rev.B,61(2000)3604-3609" 30603 PR06103604 beta(lattice term of SP) = 0.274 mJ/mol.K4 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.97Zn0.03O6.95 Y 1 Ba 2 Cu 2.97 Zn 0.03 O 6.95 6.95 3 2000 Y123 K 81 81 SP30603 mJ/mol.K2 11.7 SP 454 SP 5 "See Phys.Rev.B, 50(1994)4051" The Zn concentration was determined by Tc of the crystals to powder samples with knowm Zn concentration and annealed at the same conditions. Details is in ref.4. Specific heat of Zn-doped YBa2Cu3O6.95: Possible evidence for Kondo screening in the superconducting state 2000 2 "Department of Applied Physics and Department of Physics, Stanford University, Stanford, California 94305" "Phys.Rev.B,61(2000)3604-3609" 30604 PR06103808 anisotropy factor=21.3. Tc derivation is described in ref.18. "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 1 2000 T K 30.3 30.3 um The low field ac susceptibility technique. ref.13. 0.28 5.9 1 ref.19 c-axis superfluid response and pseudogap in high-Tc superconductors 2000 2 "Cavendish Laboratory and Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.B,61(2000)R3808-R3810" 30605 PR06103808 anisotropy factor=15. Tc derivation is described in ref.18. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 2000 T K 38.4 38.4 um The low field ac susceptibility technique. ref.13. 0.26 3.8 1 ref.19 c-axis superfluid response and pseudogap in high-Tc superconductors 2000 2 "Cavendish Laboratory and Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.B,61(2000)R3808-R3810" 30606 PR06103808 anisotropy factor=12.9. Tc derivation is described in ref.18. "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1 2000 T K 35.2 35.2 um The low field ac susceptibility technique. ref.13. 0.197 2.45 1 ref.19 c-axis superfluid response and pseudogap in high-Tc superconductors 2000 2 "Cavendish Laboratory and Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.B,61(2000)R3808-R3810" 30607 PR06103808 anisotropy factor=12.1. Tc derivation is described in ref.18. "(La,Sr)2CuO4" La1.78Sr0.22Cu1O4 La 1.78 Sr 0.22 Cu 1 O 4 1 2000 T K 28.1 28.1 um The low field ac susceptibility technique. ref.13. 0.193 2.28 1 ref.19 c-axis superfluid response and pseudogap in high-Tc superconductors 2000 2 "Cavendish Laboratory and Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.B,61(2000)R3808-R3810" 30608 PR06103808 anisotropy factor=12.4. Tc derivation is described in ref.18. "(La,Sr)2CuO4" La1.76Sr0.24Cu1O4 La 1.76 Sr 0.24 Cu 1 O 4 1 2000 T K 20 20 um The low field ac susceptibility technique. ref.13. 0.194 2.37 1 ref.19 c-axis superfluid response and pseudogap in high-Tc superconductors 2000 2 "Cavendish Laboratory and Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.B,61(2000)R3808-R3810" 30609 PR06103808 Tc derivation is described in ref.19. HgBa2CuO4+z Hg1Ba2Cu1O4.1 Hg 1 Ba 2 Cu 1 O 4+Z 4.1 1 2000 Hg1201 K 60 60 um The low field ac susceptibility technique. ref.13. 8.475 1 ref.18 c-axis superfluid response and pseudogap in high-Tc superconductors 2000 2 "Cavendish Laboratory and Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.B,61(2000)R3808-R3810" 30610 PR06104314 YBa2Cu3O7-z Y1Ba2Cu3O6.93 Y 1 Ba 2 Cu 3 O 7-Z 6.93 1 2000 Y123 A 3.819 3.888 11.693 3 K 90.5 90.5 1 "Y2O3, BaCO3, CuO, NiO" 1 The powder mixture was calcined at 860-920 C for 3 days.The calcined powders were pelletized and sinterd at 970 C for 2 days in flowing oxgen gas and then cooled at arate of 100 C/h. Control of Tc for Ni-substituted YBa2Cu3O7-z by annealing treatments 2000 2 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Phys.Rev.B,61(2000)4314-4318" 30611 PR06104314 "YBa2(Cu,Ni)3O7-z" Y1Ba2Cu2.98Ni0.02O6.95 Y 1 Ba 2 Cu 2.98 Ni 0.02 O 7-Z 6.95 1 2000 Y123 A 3.819 3.887 11.69 3 K 87.5 87.5 1 "Y2O3, BaCO3, CuO, NiO" 1 The powder mixture was calcined at 860-920 C for 3 days.The calcined powders were pelletized and sinterd at 970 C for 2 days in flowing oxgen gas and then cooled at arate of 100 C/h. Control of Tc for Ni-substituted YBa2Cu3O7-z by annealing treatments 2000 2 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Phys.Rev.B,61(2000)4314-4318" 30612 PR06104314 "YBa2(Cu,Ni)3O7-z" Y1Ba2Cu2.95Ni0.05O6.94 Y 1 Ba 2 Cu 2.95 Ni 0.05 O 7-Z 6.94 1 2000 Y123 A 3.822 3.885 11.683 3 K 85 85 1 "Y2O3, BaCO3, CuO, NiO" 1 The powder mixture was calcined at 860-920 C for 3 days.The calcined powders were pelletized and sinterd at 970 C for 2 days in flowing oxgen gas and then cooled at arate of 100 C/h. Control of Tc for Ni-substituted YBa2Cu3O7-z by annealing treatments 2000 2 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Phys.Rev.B,61(2000)4314-4318" 30613 PR06104314 "YBa2(Cu,Ni)3O7-z" Y1Ba2Cu2.9Ni0.1O6.92 Y 1 Ba 2 Cu 2.9 Ni 0.1 O 7-Z 6.92 1 2000 Y123 A 3.821 3.885 11.68 3 K 80 80 1 "Y2O3, BaCO3, CuO, NiO" 1 The powder mixture was calcined at 860-920 C for 3 days.The calcined powders were pelletized and sinterd at 970 C for 2 days in flowing oxgen gas and then cooled at arate of 100 C/h. Control of Tc for Ni-substituted YBa2Cu3O7-z by annealing treatments 2000 2 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Phys.Rev.B,61(2000)4314-4318" 30614 PR06104314 YBa2Cu3O7-z Y1Ba2Cu3O6.93 Y 1 Ba 2 Cu 3 O 7-Z 6.93 1 2000 Y123 A 3.82 3.888 11.692 3 K 91 91 1 "Y2O3, BaCO3, CuO, NiO" 1 "Synthsized as PREPNUM 30610.Then annealed at 800 C for 3 days in flowing N2 gas, and quenched.Finally oxgenated at 550 C for 18 days inflowing O2 gas and slowly cooled at a rate of 50C/h." Control of Tc for Ni-substituted YBa2Cu3O7-z by annealing treatments 2000 2 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Phys.Rev.B,61(2000)4314-4318" 30615 PR06104314 "YBa2(Cu,Ni)3O7-z" Y1Ba2Cu2.98Ni0.02O6.94 Y 1 Ba 2 Cu 2.98 Ni 0.02 O 7-Z 6.94 1 2000 Y123 A 3.819 3.887 11.689 3 K 86 86 1 "Y2O3, BaCO3, CuO, NiO" 1 "Synthsized as PREPNUM 30610.Then annealed at 800 C for 3 days in flowing N2 gas, and quenched.Finally oxgenated at 550 C for 18 days inflowing O2 gas and slowly cooled at a rate of 50C/h." Control of Tc for Ni-substituted YBa2Cu3O7-z by annealing treatments 2000 2 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Phys.Rev.B,61(2000)4314-4318" 30616 PR06104314 "YBa2(Cu,Ni)3O7-z" Y1Ba2Cu2.95Ni0.05O6.93 Y 1 Ba 2 Cu 2.95 Ni 0.05 O 7-Z 6.93 1 2000 Y123 A 3.821 3.886 11.685 3 K 80 80 1 "Y2O3, BaCO3, CuO, NiO" 1 "Synthsized as PREPNUM 30610.Then annealed at 800 C for 3 days in flowing N2 gas, and quenched.Finally oxgenated at 550 C for 18 days inflowing O2 gas and slowly cooled at a rate of 50C/h." Control of Tc for Ni-substituted YBa2Cu3O7-z by annealing treatments 2000 2 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Phys.Rev.B,61(2000)4314-4318" 30617 PR06104314 "YBa2(Cu,Ni)3O7-z" Y1Ba2Cu2.9Ni0.1O6.93 Y 1 Ba 2 Cu 2.9 Ni 0.1 O 7-Z 6.93 1 2000 Y123 A 3.821 3.884 11.678 3 K 70 70 1 "Y2O3, BaCO3, CuO, NiO" 1 "Synthsized as PREPNUM 30610.Then annealed at 800 C for 3 days in flowing N2 gas, and quenched.Finally oxgenated at 550 C for 18 days inflowing O2 gas and slowly cooled at a rate of 50C/h." Control of Tc for Ni-substituted YBa2Cu3O7-z by annealing treatments 2000 2 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Phys.Rev.B,61(2000)4314-4318" 30618 PR06104314 "YBa2(Cu,Ni)3O7-z" Y1Ba2Cu2.9Ni0.1O6.95 Y 1 Ba 2 Cu 2.9 Ni 0.1 O 7-Z 6.95 1 2000 Y123 A 3.822 3.884 11.678 3 K 70 70 1 "Y2O3, BaCO3, CuO, NiO" 1 "Synthsized as PREPNUM 30610.Then annealed at 800 C for 14 days in flowing N2 gas, and quenched.Finally oxgenated at 550 C for 18 days inflowing O2 gas and slowly cooled at a rate of 50C/h." Control of Tc for Ni-substituted YBa2Cu3O7-z by annealing treatments 2000 2 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Phys.Rev.B,61(2000)4314-4318" 30619 PR06104314 "YBa2(Cu,Ni)3O7-z" Y1Ba2Cu2.9Ni0.1O6.93 Y 1 Ba 2 Cu 2.9 Ni 0.1 O 7-Z 6.93 1 2000 Y123 A 3.821 3.885 11.679 3 K 75 75 1 "Y2O3, BaCO3, CuO, NiO" 1 "Synthsized as PREPNUM 30610.Then annealed at 800 C for 3 days in air, and quenched.Finally oxgenated at 550 C for 18 days inflowing O2 gas and slowly cooled at a rate of 50C/h." Control of Tc for Ni-substituted YBa2Cu3O7-z by annealing treatments 2000 2 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Phys.Rev.B,61(2000)4314-4318" 30620 PR06104314 "YBa2(Cu,Ni)3O7-z" Y1Ba2Cu2.9Ni0.1O6.92 Y 1 Ba 2 Cu 2.9 Ni 0.1 O 7-Z 6.92 1 2000 Y123 A 3.823 3.884 11.679 3 K 81 81 1 "Y2O3, BaCO3, CuO, NiO" 1 "Synthsized as PREPNUM 30610.Then annealed at 1000 C for 3 days in a gas of p(O2)=400 atm, and quenched.Finally oxgenated at 550 C for 18 days inflowing O2 gas and slowly cooled at a rate of 50C/h." Control of Tc for Ni-substituted YBa2Cu3O7-z by annealing treatments 2000 2 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Phys.Rev.B,61(2000)4314-4318" 30700 PR06106303 "(Eu,Ce)Sr2CuTiO10" Eu1.5Ce0.5Sr2Cu1Ti1O10 Eu 1.5 Ce 0.5 Sr 2 Cu 1 Ti 1 O 10 6 2000 A 3.863 28.5 1 K 22 22 1 3.7 "Eu2O3, CeO2, TiO2, SrCO3, CuO" The mixed powder into pellets and preheated at 1000 C for 24h in flowing O2 at 1atm. Sinterd at 1050 C for 72 h in a slightly pressurized and furnance cooled. Observation of superconductivity in Eu1.5Ce0.5Sr2Cu2TiO10 2000 3 "Department of Physics, University of Notre Dame, Notre Dame, Indiana 46556" "Phys.Rev.B,61(2000)6303-6306" 30701 PR06106327 Resistivity is the a-axis direction varue. PrBa2Cu4O8 Pr1Ba2Cu4O8 Pr 1 Ba 2 Cu 4 O 8 3 2000 Pr124 A 3.8811 3.9 27.42 1 K mohmcm 3.8 7.6 "PrOx, BaO, CuO" 5 High Presure flix method with P(O2) 11atm in MgO crusible.Heat profile is FIG# at Ts = 1020 C Growth and anisotropic resistivity of PrBa2Cu4O8 and Pr2Ba4Cu7O15-y single crystals: A direct probe of metallic Cu-O double chains 2000 3 "Department of Crystalline Materials Science, Nagoya University, Furo-cho, Chikusa-ku Nagoya 464-8603, Japan" "Phys.Rev.B,61(2000)6327-6333" 30702 PR06106327 Pr2Ba4Cu7O15-z Pr2Ba4Cu7O15-Z Pr 2 Ba 4 Cu 7 O 15-Z 3 2000 Pr247 A 3.864 3.9 50.28 1 K "PrOx, BaO, CuO" 5 High Presure flix method with P(O2) 11atm in Al2O3 crusible.Heat profile is FIG# at Ts = 1020 C The starting compositio is determined by ternary diagram in FIG 1. Growth and anisotropic resistivity of PrBa2Cu4O8 and Pr2Ba4Cu7O15-y single crystals: A direct probe of metallic Cu-O double chains 2000 3 "Department of Crystalline Materials Science, Nagoya University, Furo-cho, Chikusa-ku Nagoya 464-8603, Japan" "Phys.Rev.B,61(2000)6327-6333" 30703 PR06106334 "(Pb2Cu)Sr2(Dy,Ce)3Cu2O12" Pb2Sr2Dy0.84Ce0.5Cu3O12 Pb 2 Sr 2 Dy 0.84 Ce 0.5 Cu 3 O 12 5 2000 Pb3232 A 21.39 1 K uV/K ohmcm 0.3 0.11 0.077 "Pb, Sr, Ca, Dy or Eu, Ce, Cu metals" 16 Metals were evaporated from the effsion cells onto a SrTiO3(001) surface.The growth temperature was 873-1073 K. sample thickness is 39.5-80.7 nm "Transport properties of separated pairs of CuO2 planes in (Pb2Cu)Sr2DyxCen-x-zCu2O2n+6 (n=3,5) epitaxial films" 2000 3 "Advanced Materials & Devices Laboratory, Corporate Research & Development Center, Toshiba Corporation, 1, Komukai Toshiba-cho, Saiwai-ku, Kawasaki 212-8582, Japan" "Phys.Rev.B,61(2000)6334-6342" 30704 PR06106334 "(Pb2Cu)Sr2(Dy,Ce)3Cu2O12" Pb2Sr2Dy1Ce1.36Cu3O12 Pb 2 Sr 2 Dy 1 Ce 1.36 Cu 3 O 12 5 2000 Pb3232 A 21.39 1 K uV/K TP30704 ohmcm 1 0.97 0.06 "Pb, Sr, Ca, Dy or Eu, Ce, Cu metals" 16 Metals were evaporated from the effsion cells onto a SrTiO3(001) surface.The growth temperature was 873-1073 K. sample thickness is 39.5-80.7 nm "Transport properties of separated pairs of CuO2 planes in (Pb2Cu)Sr2DyxCen-x-zCu2O2n+6 (n=3,5) epitaxial films" 2000 3 "Advanced Materials & Devices Laboratory, Corporate Research & Development Center, Toshiba Corporation, 1, Komukai Toshiba-cho, Saiwai-ku, Kawasaki 212-8582, Japan" "Phys.Rev.B,61(2000)6334-6342" 30705 PR06106334 "(Pb2Cu)Sr2(Dy,Ce)3Cu2O12" Pb2Sr2Dy1.44Ce0.93Cu3O12 Pb 2 Sr 2 Dy 1.44 Ce 0.93 Cu 3 O 12 5 2000 Pb3232 A 21.38 1 K uV/K TP30705 ohmcm 1 0.96 0.05 "Pb, Sr, Ca, Dy or Eu, Ce, Cu metals" 16 Metals were evaporated from the effsion cells onto a SrTiO3(001) surface.The growth temperature was 873-1073 K. sample thickness is 39.5-80.7 nm "Transport properties of separated pairs of CuO2 planes in (Pb2Cu)Sr2DyxCen-x-zCu2O2n+6 (n=3,5) epitaxial films" 2000 3 "Advanced Materials & Devices Laboratory, Corporate Research & Development Center, Toshiba Corporation, 1, Komukai Toshiba-cho, Saiwai-ku, Kawasaki 212-8582, Japan" "Phys.Rev.B,61(2000)6334-6342" 30706 PR06106334 "(Pb2Cu)Sr2(Dy,Ce)5Cu2O16" Pb2Sr2Dy0.97Ce4.16Cu3O16 Pb 2 Sr 2 Dy 0.97 Ce 4.16 Cu 3 O 16 5 2000 Pb3252 A 26.83 1 K uV/K TP30706 ohmcm 0.26 0.12 0.074 "Pb, Sr, Ca, Dy or Eu, Ce, Cu metals" 16 Metals were evaporated from the effsion cells onto a SrTiO3(001) surface.The growth temperature was 873-1073 K. sample thickness is 39.5-80.7 nm "Transport properties of separated pairs of CuO2 planes in (Pb2Cu)Sr2DyxCen-x-zCu2O2n+6 (n=3,5) epitaxial films" 2000 3 "Advanced Materials & Devices Laboratory, Corporate Research & Development Center, Toshiba Corporation, 1, Komukai Toshiba-cho, Saiwai-ku, Kawasaki 212-8582, Japan" "Phys.Rev.B,61(2000)6334-6342" 30707 PR06106334 "(Pb2Cu)Sr2(Dy,Ce)5Cu2O16" Pb2Sr2Dy1.48Ce2.74Cu3O16 Pb 2 Sr 2 Dy 1.48 Ce 2.74 Cu 3 O 16 5 2000 Pb3252 A 26.88 1 K uV/K ohmcm 0.7 2.3 11 "Pb, Sr, Ca, Dy or Eu, Ce, Cu metals" 16 Metals were evaporated from the effsion cells onto a SrTiO3(001) surface.The growth temperature was 873-1073 K. sample thickness is 39.5-80.7 nm "Transport properties of separated pairs of CuO2 planes in (Pb2Cu)Sr2DyxCen-x-zCu2O2n+6 (n=3,5) epitaxial films" 2000 3 "Advanced Materials & Devices Laboratory, Corporate Research & Development Center, Toshiba Corporation, 1, Komukai Toshiba-cho, Saiwai-ku, Kawasaki 212-8582, Japan" "Phys.Rev.B,61(2000)6334-6342" 30708 PR06106334 "(Pb2Cu)Sr2(Dy,Ce)5Cu2O16" Pb2Sr2Dy186Ce2.79Cu3O16 Pb 2 Sr 2 Dy 186 Ce 2.79 Cu 3 O 16 5 2000 Pb3252 A 26.88 1 K uV/K TP30708 ohmcm 1.2 4.8 1.4 "Pb, Sr, Ca, Dy or Eu, Ce, Cu metals" 16 Metals were evaporated from the effsion cells onto a SrTiO3(001) surface.The growth temperature was 873-1073 K. sample thickness is 39.5-80.7 nm "Transport properties of separated pairs of CuO2 planes in (Pb2Cu)Sr2DyxCen-x-zCu2O2n+6 (n=3,5) epitaxial films" 2000 3 "Advanced Materials & Devices Laboratory, Corporate Research & Development Center, Toshiba Corporation, 1, Komukai Toshiba-cho, Saiwai-ku, Kawasaki 212-8582, Japan" "Phys.Rev.B,61(2000)6334-6342" 30709 PR06106401 RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 6 2000 133 2 Ru1212 P4/mmm A 3.83599 11.5628 4 K 35 35 "RuO2, SrCO3,160Gd2O3,CuO" The mixture was decomposed at 960 C in air and in a flowing N2 1atm at 1010 C.The material was reground and reacted in a flowing O2 for 10 h at 1050 C.finally it cooled slowly/ Crystal and magnetic structure of ferromagnetic superconducting RuSr2GdCu2O8 2000 3 "Department of Physics, Northern Illinois University, DeKalb, Illinois 60115" "Phys.Rev.B,61(2000)6401-6407" 30710 PR06106401 RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 6 2000 133 2 Ru1212 P4/mbm A 5.42495 11.5626 4 O1:See Table1 caption. K 35 35 "RuO2, SrCO3,160Gd2O3,CuO" The mixture was decomposed at 960 C in air and in a flowing N2 1atm at 1010 C.The material was reground and reacted in a flowing O2 for 10 h at 1050 C.finally it cooled slowly/ Crystal and magnetic structure of ferromagnetic superconducting RuSr2GdCu2O8 2000 3 "Department of Physics, Northern Illinois University, DeKalb, Illinois 60115" "Phys.Rev.B,61(2000)6401-6407" 30711 PR06106401 RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 6 2000 133 2 Ru1212 P4/mbm A 5.42491 11.5628 4 "O1,O1':See Table1 caption." K 35 35 "RuO2, SrCO3,160Gd2O3,CuO" The mixture was decomposed at 960 C in air and in a flowing N2 1atm at 1010 C.The material was reground and reacted in a flowing O2 for 10 h at 1050 C.finally it cooled slowly/ Crystal and magnetic structure of ferromagnetic superconducting RuSr2GdCu2O8 2000 3 "Department of Physics, Northern Illinois University, DeKalb, Illinois 60115" "Phys.Rev.B,61(2000)6401-6407" 30712 PR06106408 "(Cu,C)Ba2Ca2Cu3Oz" C0.5Ba2Ca2Cu3.5OZ C 0.5 Ba 2 Ca 2 Cu 3.5 O Z 3 2000 "(Cu,C)1223" A 3.858 14.78 1 K 67.4 67 67 3 K/Gpa -0.7 uV/K TP30712 "BaO, CaO,CuO Ba:Ca:Cu=2:1.5:3.5" 1 The mixedpowder were calcined in Al2O3 crusible at 650-900 C for 40-48 h inflowing O2 with severalintermittent grindings. as-synthesized (Cu0.5C0.5)Ba2Cam-1CumOx for m=3 nd 4 under hydrostatic pressure 2000 3 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5932" "Phys.Rev.B,61(2000)6408-6412" 30713 PR06106408 "(Cu,C)Ba2Ca2Cu3Oz" C0.5Ba2Ca2Cu3.5OZ C 0.5 Ba 2 Ca 2 Cu 3.5 O Z 3 2000 "(Cu,C)1223" A 3.858 14.78 1 K 88 88 88 3 K/Gpa -0.3 uV/K TP30713 "BaO, CaO,CuO Ba:Ca:Cu=2:1.5:3.5" The mixedpowder were calcined in Al2O3 crusible at 650-900 C for 40-48 h inflowing O2 with severalintermittent grindings. 350C for 48 h in Argas (Cu0.5C0.5)Ba2Cam-1CumOx for m=3 nd 4 under hydrostatic pressure 2000 3 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5932" "Phys.Rev.B,61(2000)6408-6412" 30714 PR06106408 "(Cu,C)Ba2Ca2Cu3Oz" C0.5Ba2Ca2Cu3.5OZ C 0.5 Ba 2 Ca 2 Cu 3.5 O Z 3 2000 "(Cu,C)1223" A 3.858 14.78 1 K 107 107 107 3 K/Gpa 0.9 uV/K TP30714 "BaO, CaO,CuO Ba:Ca:Cu=2:1.5:3.5" The mixedpowder were calcined in Al2O3 crusible at 650-900 C for 40-48 h inflowing O2 with severalintermittent grindings. 450 C for 48 h in Argas (Cu0.5C0.5)Ba2Cam-1CumOx for m=3 nd 4 under hydrostatic pressure 2000 3 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5932" "Phys.Rev.B,61(2000)6408-6412" 30715 PR06106408 "(Cu,C)Ba2Ca2Cu3Oz" C0.5Ba2Ca2Cu3.5OZ C 0.5 Ba 2 Ca 2 Cu 3.5 O Z 3 2000 "(Cu,C)1223" A 3.858 14.78 1 K 115.7 118 118 3 K/Gpa 1.2 uV/K "BaO, CaO,CuO Ba:Ca:Cu=2:1.5:3.5" The mixedpowder were calcined in Al2O3 crusible at 650-900 C for 40-48 h inflowing O2 with severalintermittent grindings. 550 C for 48 h in Argas (Cu0.5C0.5)Ba2Cam-1CumOx for m=3 nd 4 under hydrostatic pressure 2000 3 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5932" "Phys.Rev.B,61(2000)6408-6412" 30716 PR06106408 "(Cu,C)Ba2Ca3Cu4Oz" C0.5Ba2Ca3Cu4.5OZ C 0.5 Ba 2 Ca 3 Cu 4.5 O Z 3 2000 "(Cu,C)1234" A 3.857 17.89 1 K 115 112 112 3 K/Gpa 0.65 uV/K TP30716 "BaO, CaO,CuO" The mixedpowder were calcined in Al2O3 crusible at 650-900 C for 40-48 h inflowing O2 with severalintermittent grindings. as-synthesized (Cu0.5C0.5)Ba2Cam-1CumOx for m=3 nd 4 under hydrostatic pressure 2000 3 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5932" "Phys.Rev.B,61(2000)6408-6412" 30717 PR06106408 "(Cu,C)Ba2Ca3Cu4Oz" C0.5Ba2Ca3Cu4.5OZ C 0.5 Ba 2 Ca 3 Cu 4.5 O Z 3 2000 "(Cu,C)1234" A 3.857 17.89 1 K 111 111 uV/K TP30717 "BaO, CaO,CuO" The mixedpowder were calcined in Al2O3 crusible at 650-900 C for 40-48 h inflowing O2 with severalintermittent grindings. 400 C for 48 h in Argas (Cu0.5C0.5)Ba2Cam-1CumOx for m=3 nd 4 under hydrostatic pressure 2000 3 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5932" "Phys.Rev.B,61(2000)6408-6412" 30718 PR06106408 "(Cu,C)Ba2Ca3Cu4Oz" C0.5Ba2Ca3Cu4.5OZ C 0.5 Ba 2 Ca 3 Cu 4.5 O Z 3 2000 "(Cu,C)1234" A 3.857 17.89 1 K 108 108 uV/K TP30718 "BaO, CaO,CuO" The mixedpowder were calcined in Al2O3 crusible at 650-900 C for 40-48 h inflowing O2 with severalintermittent grindings. 500C for 48 h in Argas (Cu0.5C0.5)Ba2Cam-1CumOx for m=3 nd 4 under hydrostatic pressure 2000 3 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5932" "Phys.Rev.B,61(2000)6408-6412" 30719 PR06106408 "(Cu,C)Ba2Ca3Cu4Oz" C0.5Ba2Ca3Cu4.5OZ C 0.5 Ba 2 Ca 3 Cu 4.5 O Z 3 2000 "(Cu,C)1234" A 3.857 17.89 1 K 99 102 102 3 K/Gpa 0.75 uV/K TP30719 "BaO, CaO,CuO" The mixedpowder were calcined in Al2O3 crusible at 650-900 C for 40-48 h inflowing O2 with severalintermittent grindings. 600 C for 24 h in Argas (Cu0.5C0.5)Ba2Cam-1CumOx for m=3 nd 4 under hydrostatic pressure 2000 3 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5932" "Phys.Rev.B,61(2000)6408-6412" 30720 PR06106471 grain size: 0.5-2 um RuSr2GdCu2Oz Ru1Sr2Gd1Cu2OZ Ru 1 Sr 2 Gd 1 Cu 2 O Z 6 2000 132 Ru1212 K 20 50 35 3 mohmcm 6.7 7.3 10.7 "RuO2, SrCO3,160Gd2O3,CuO" "The mixed powder warm up first in flowing N2 at 1010 K then successively in flowing O2 at 1050 C,1055 C and 1060 C. Samples were slow-cooled after each 10h reaction." Heat capacity and transport studies of the ferromagnetic superconductor RuSr2GdCu2O8 2000 3 "Industrial Research Ltd., P.O.Box 31310, Lower Hutt, New Zealand" "Phys.Rev.B,61(2000)R6471-R6474" 30721 PR06106471 grain size: 2-10 um RuSr2GdCu2Oz Ru1Sr2Gd1Cu2OZ Ru 1 Sr 2 Gd 1 Cu 2 O Z 6 2000 132 Ru1212 K 36 45.1 50 45.1 3 uV/K 73 TP30721 mohmcm 2.5 2.3 4.9 "RuO2, SrCO3,160Gd2O3,CuO" "The mixed powder warm up first in flowing N2 at 1010 K then successively in flowing O2 at 1050 C,1055 C and 1060 C. Samples were slow-cooled after each 10h reaction." Heat capacity and transport studies of the ferromagnetic superconductor RuSr2GdCu2O8 2000 3 "Industrial Research Ltd., P.O.Box 31310, Lower Hutt, New Zealand" "Phys.Rev.B,61(2000)R6471-R6474" 30722 PR06106471 grain size: 2-10 um "RuSr2Gd(Cu,Zn)2Oz" Ru1Sr2Gd1Cu1.99Zn0.01OZ Ru 1 Sr 2 Gd 1 Cu 1.99 Zn 0.01 O Z 6 2000 Ru1212 K 37 46 37 3 TP30722 mohmcm 8.6 8.6 12.5 "RuO2, SrCO3,160Gd2O3,CuO" "The mixed powder warm up first in flowing N2 at 1010 K then successively in flowing O2 at 1050 C,1055 C and 1060 C. Samples were slow-cooled after each 10h reaction." Heat capacity and transport studies of the ferromagnetic superconductor RuSr2GdCu2O8 2000 3 "Industrial Research Ltd., P.O.Box 31310, Lower Hutt, New Zealand" "Phys.Rev.B,61(2000)R6471-R6474" 30723 PR06106471 grain size: 2-10 um "RuSr2Gd(Cu,Zn)2Oz" Ru1Sr2Gd1Cu1.98Zn0.02OZ Ru 1 Sr 2 Gd 1 Cu 1.98 Zn 0.02 O Z 6 2000 Ru1212 K 30 40 30 3 mohmcm 8 10.8 13 "RuO2, SrCO3,160Gd2O3,CuO" "The mixed powder warm up first in flowing N2 at 1010 K then successively in flowing O2 at 1050 C,1055 C and 1060 C. Samples were slow-cooled after each 10h reaction." Heat capacity and transport studies of the ferromagnetic superconductor RuSr2GdCu2O8 2000 3 "Industrial Research Ltd., P.O.Box 31310, Lower Hutt, New Zealand" "Phys.Rev.B,61(2000)R6471-R6474" 30724 PR06106471 grain size: 2-10 um "RuSr2Gd(Cu,Zn)2Oz" Ru1Sr2Gd1Cu1.96Zn0.04OZ Ru 1 Sr 2 Gd 1 Cu 1.96 Zn 0.04 O Z 6 2000 Ru1212 K 12.8 25 12.8 3 mohmcm 32 46 22 "RuO2, SrCO3,160Gd2O3,CuO" "The mixed powder warm up first in flowing N2 at 1010 K then successively in flowing O2 at 1050 C,1055 C and 1060 C. Samples were slow-cooled after each 10h reaction." Heat capacity and transport studies of the ferromagnetic superconductor RuSr2GdCu2O8 2000 3 "Industrial Research Ltd., P.O.Box 31310, Lower Hutt, New Zealand" "Phys.Rev.B,61(2000)R6471-R6474" 30800 PR06109707 "In this system, superconducting gap in the outer CuO2 planes does not fully develop below Tc=117K but below Tc2=60K Which is messured by NMR in this paper." "(Cu,C)Ba2Ca3Cu4O12+x" Cu4.6C0.4Ba2Ca3O12+Z Cu 4.6 C 0.4 Ba 2 Ca 3 O 12+Z 1 2000 Cu1234 3 K 117 117 13 1 High-pressure synthesis technique. Ref.7. Effect of carrier distribution on superconducting characteristics of the multilayered high-Tc cuprate (Cu0.6C0.4)Ba2Ca3Cu4O12+y : <63>Cu-NMR study 2000 4 "Department of Physical Science, Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.B,61(2000)9707-9710" 30801 PR06109269 In this paper PPNET is determined by eq.:lc=c/wps. wps is c-axis plasma frequency. "(Bi,Pb)2(Sr,Pb)2CaCu2Oz" Bi1.6Pb0.6Sr1.8Ca1Cu2OZ Bi 1.6 Pb 0.6 Sr 1.8 Ca 1 Cu 2 O Z 3 2000 Bi2212 K 65 5 65 13 um 12.6 7 "ref 7,8. Annealed at 400C for 72h in asealed quartz tube with pure oxgen gas of the effective pressure P=2.1atm." Bi:Pb:Sr:Ca:Cu=1.76:0.46:1.89:1.02:2.0 by ICP. Observation of the Josephson plasma reflectivity edge in the infrared region in Bi-based superconducting cuprates 2000 4 "Department of Applied Chemistry, University of Tokyo, Hongo 7-3-1, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B,61(2000)R9269-R9272" 30900 PR06111317 HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8+Z Hg 1 Ba 2 Ca 2 Cu 3 O 8+Z 5 2000 Hg1223 K 131 2 131 3 T/K 2 HIR30900 ohmcm 62 16 Sample were grown with re-doped Ba2Ca2Cu3Oz precursor powder by using plused-laser deposition followed by post annealing of Hg. The asgrown film on (100) SrTiO3. 340 C O2 annealing Vortex phase diagram of HgBa2Ca2Cu3O8+z thin films from magnetoresistance measurements 2000 5 "National Creative Research Initiative Center for Superconductivity and Department of Physics, Pohang University of Science and Technology, Pohang 790-784, Republic of Korea" "Phys.Rev.B,61(2000)11317-11320" 30901 PR06111321 "Bi2(Sr,La)2CuO6" Bi2Sr1.9La0.1Cu1O6+Z Bi 2 Sr 1.9 La 0.1 Cu 1 O 6+Z 1 2000 Bi2201 3 K 20 20 3 TP30901 ohmcm 0.011 0.02 0.02 0.035 1 asgrown Unusual Tc variation with hole concentration in Bi2Sr2-xLaxCuO6+z 2000 5 "Department of Physics and Institute of Basic Sciences, Sungkyunkwan University, Suwon 440-746, Korea" "Phys.Rev.B,61(2000)11321-11323" 30902 PR06111321 "Bi2(Sr,La)2CuO6" Bi2Sr1.7La0.3Cu1O6+Z Bi 2 Sr 1.7 La 0.3 Cu 1 O 6+Z 1 2000 Bi2201 3 K 28 28 3 TP30902 ohmcm 0.021 0.02 0.042 1 asgrown Unusual Tc variation with hole concentration in Bi2Sr2-xLaxCuO6+z 2000 5 "Department of Physics and Institute of Basic Sciences, Sungkyunkwan University, Suwon 440-746, Korea" "Phys.Rev.B,61(2000)11321-11323" 30903 PR06111321 "Bi2(Sr,La)2CuO6" Bi2Sr1.5La0.5Cu1O6+Z Bi 2 Sr 1.5 La 0.5 Cu 1 O 6+Z 1 2000 Bi2201 3 K 28 28 3 TP30903 ohmcm 0.037 0.032 0.065 1 asgrown Unusual Tc variation with hole concentration in Bi2Sr2-xLaxCuO6+z 2000 5 "Department of Physics and Institute of Basic Sciences, Sungkyunkwan University, Suwon 440-746, Korea" "Phys.Rev.B,61(2000)11321-11323" 30904 PR06111321 "Bi2(Sr,La)2CuO6" Bi2Sr1.3La0.7Cu1O6+Z Bi 2 Sr 1.3 La 0.7 Cu 1 O 6+Z 1 2000 Bi2201 3 K 20 20 3 TP30904 ohmcm 0.04 0.07 0.8 0.08 1 asgrown Unusual Tc variation with hole concentration in Bi2Sr2-xLaxCuO6+z 2000 5 "Department of Physics and Institute of Basic Sciences, Sungkyunkwan University, Suwon 440-746, Korea" "Phys.Rev.B,61(2000)11321-11323" 30905 PR06111321 "Bi2(Sr,La)2CuO6" Bi2Sr1.2La0.8Cu1O6+Z Bi 2 Sr 1.2 La 0.8 Cu 1 O 6+Z 1 2000 Bi2201 3 K TP30905 ohmcm 0.75 0.28 0.21 1 asgrown Unusual Tc variation with hole concentration in Bi2Sr2-xLaxCuO6+z 2000 5 "Department of Physics and Institute of Basic Sciences, Sungkyunkwan University, Suwon 440-746, Korea" "Phys.Rev.B,61(2000)11321-11323" 30906 PR06111321 "Bi2(Sr,La)2CuO6" Bi2Sr1.9La0.1Cu1O6+Z Bi 2 Sr 1.9 La 0.1 Cu 1 O 6+Z 1 2000 Bi2201 3 K ohmcm 0.98 0.082 0.1 1 in vacuum for 6h at 400 C Unusual Tc variation with hole concentration in Bi2Sr2-xLaxCuO6+z 2000 5 "Department of Physics and Institute of Basic Sciences, Sungkyunkwan University, Suwon 440-746, Korea" "Phys.Rev.B,61(2000)11321-11323" 30907 PR06111321 "Bi2(Sr,La)2CuO6" Bi2Sr1.9La0.1Cu1O6+Z Bi 2 Sr 1.9 La 0.1 Cu 1 O 6+Z 1 2000 Bi2201 3 K ohmcm 0.14 0.12 0.13 1 in vacuum for 6h at 500 C Unusual Tc variation with hole concentration in Bi2Sr2-xLaxCuO6+z 2000 5 "Department of Physics and Institute of Basic Sciences, Sungkyunkwan University, Suwon 440-746, Korea" "Phys.Rev.B,61(2000)11321-11323" 30908 PR06111321 "Bi2(Sr,La)2CuO6" Bi2Sr1.9La0.1Cu1O6+Z Bi 2 Sr 1.9 La 0.1 Cu 1 O 6+Z 1 2000 Bi2201 3 K ohmcm 0.47 0.29 0.23 1 in vacuum for 6h at 600 C Unusual Tc variation with hole concentration in Bi2Sr2-xLaxCuO6+z 2000 5 "Department of Physics and Institute of Basic Sciences, Sungkyunkwan University, Suwon 440-746, Korea" "Phys.Rev.B,61(2000)11321-11323" 30909 PR06111332 film composition:Bi1.79Pr0.2Ca2.64Cu1.59 "Bi2(Pr,Ca)2(Ca,Pr)Cu2O8" Bi2Pr0.2Ca2.8Cu2O8+Z Bi 2 Pr 0.2 Ca 2.8 Cu 2 O 8+Z 4 2000 Bi2212 30.02 1 K 65 72.5 80 72.5 3 mohmcm 1.2 1.3 1.9 The laser ablation method..Pellets were heated at 820 C for 10 h in air and powder placed in a chamber at of 10E-7 Torr and ahated by a pulused KeE excima laser Impact of Pr doping on superconductivity in Bi2PrxCa3-xCu2O8+z 2000 5 "Department of Physics, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu, Shizuoka 431 3192, Japan" "Phys.Rev.B,61(2000)11332-11335" 30910 PR06111332 film composition:Bi1.65Pr0.3Ca2.53Cu1.71 "Bi2(Pr,Ca)2(Ca,Pr)Cu2O8" Bi2Pr0.3Ca2.7Cu2O8+Z Bi 2 Pr 0.3 Ca 2.7 Cu 2 O 8+Z 4 2000 Bi2212 29.97 1 K 57 67 77 67 3 mohmcm 1.4 1.4 2.1 The laser ablation method..Pellets were heated at 820 C for 10 h in air and powder placed in a chamber at of 10E-7 Torr and ahated by a pulused KeE excima laser Impact of Pr doping on superconductivity in Bi2PrxCa3-xCu2O8+z 2000 5 "Department of Physics, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu, Shizuoka 431 3192, Japan" "Phys.Rev.B,61(2000)11332-11335" 30911 PR06111332 film composition:Bi1.79Pr0.4Ca2.82Cu1.77 "Bi2(Pr,Ca)2(Ca,Pr)Cu2O8" Bi2Pr0.4Ca2.6Cu2O8+Z Bi 2 Pr 0.4 Ca 2.6 Cu 2 O 8+Z 4 2000 Bi2212 29.95 1 K 20 37.5 55 37.5 3 mohmcm 1.7 1.5 2.4 The laser ablation method..Pellets were heated at 820 C for 10 h in air and powder placed in a chamber at of 10E-7 Torr and ahated by a pulused KeE excima laser Impact of Pr doping on superconductivity in Bi2PrxCa3-xCu2O8+z 2000 5 "Department of Physics, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu, Shizuoka 431 3192, Japan" "Phys.Rev.B,61(2000)11332-11335" 30912 PR06111332 film composition:Bi1.91Pr0.5Ca2.43Cu1.81 "Bi2(Pr,Ca)2(Ca,Pr)Cu2O8" Bi2Pr0.5Ca2.5Cu2O8+Z Bi 2 Pr 0.5 Ca 2.5 Cu 2 O 8+Z 4 2000 Bi2212 29.92 1 K 15 30 45 30 3 mohmcm 4.3 4.8 4.6 The laser ablation method..Pellets were heated at 820 C for 10 h in air and powder placed in a chamber at of 10E-7 Torr and ahated by a pulused KeE excima laser Impact of Pr doping on superconductivity in Bi2PrxCa3-xCu2O8+z 2000 5 "Department of Physics, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu, Shizuoka 431 3192, Japan" "Phys.Rev.B,61(2000)11332-11335" 30913 PR06111332 film composition:Bi1.57Pr0.6Ca2.09Cu1.56 "Bi2(Pr,Ca)2(Ca,Pr)Cu2O8" Bi2Pr0.6Ca2.4Cu2O8+Z Bi 2 Pr 0.6 Ca 2.4 Cu 2 O 8+Z 4 2000 Bi2212 29.94 1 K mohmcm 7 6.1 The laser ablation method..Pellets were heated at 820 C for 10 h in air and powder placed in a chamber at of 10E-7 Torr and ahated by a pulused KeE excima laser Impact of Pr doping on superconductivity in Bi2PrxCa3-xCu2O8+z 2000 5 "Department of Physics, Hamamatsu University School of Medicine, Handa-cho, Hamamatsu, Shizuoka 431 3192, Japan" "Phys.Rev.B,61(2000)11332-11335" 30914 PR06111752 ErBa2Cu3Oz Er1Ba2Cu3O6.93 Er 1 Ba 2 Cu 3 O 6.93 6 2000 Y123 3.816 3.886 11.683 3 K 91 91 3 mohmcm 0.5 0.9 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30915 PR06111752 "ErBa2(Cu,Zn)3Oz" Er1Ba2Cu2.97Zn0.03O6.93 Er 1 Ba 2 Cu 2.97 Zn 0.03 O Z 6.93 6 2000 Y123 3.814 3.882 11.684 3 K 81 81 3 mohmcm 0.75 1.25 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30916 PR06111752 "ErBa2(Cu,Zn)3Oz" Er1Ba2Cu2.94Zn0.06O6.92 Er 1 Ba 2 Cu 2.94 Zn 0.06 O Z 6.92 6 2000 Y123 3.813 3.887 11.683 3 K 69 69 3 mohmcm 0.95 0.85 1.5 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30917 PR06111752 "ErBa2(Cu,Zn)3Oz" Er1Ba2Cu2.88Zn0.12O6.92 Er 1 Ba 2 Cu 2.88 Zn 0.12 O Z 6.92 6 2000 Y123 3.819 3.881 11.689 3 K 52 52 3 mohmcm 1.3 1.15 2.1 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30918 PR06111752 "ErBa2(Cu,Zn)3Oz" Er1Ba2Cu2.82Zn0.18O6.91 Er 1 Ba 2 Cu 2.82 Zn 0.18 O Z 6.91 6 2000 Y123 3.818 3.884 11.689 3 K 50 50 3 mohmcm 1.45 1.4 2.8 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30919 PR06111752 "ErBa2(Cu,Zn)3Oz" Er1Ba2Cu2.76Zn0.24O6.89 Er 1 Ba 2 Cu 2.76 Zn 0.24 O Z 6.89 6 2000 Y123 3.821 3.88 11.69 3 K 36 36 3 mohmcm 2.3 2.2 3.3 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30920 PR06111752 "ErBa2(Cu,Zn)3Oz" Er1Ba2Cu2.7Zn0.3O6.86 Er 1 Ba 2 Cu 2.7 Zn 0.3 O Z 6.86 6 2000 Y123 3.829 3.876 11.699 3 K 32 32 3 mohmcm 2.85 2.75 3.9 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30921 PR06111752 "ErBa2(Cu,Zn)3Oz" Er1Ba2Cu2.64Zn0.03O6.82 Er 1 Ba 2 Cu 2.64 Zn 0.03 O Z 6.82 6 2000 Y123 3.834 3.854 11.701 3 K mohmcm 3.4 4 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30922 PR06111752 "ErBa2(Cu,Zn)3Oz" Er1Ba2Cu2.55Zn0.45O6.8 Er 1 Ba 2 Cu 2.55 Zn 0.45 O Z 6.8 6 2000 Y123 3.838 3.848 11.705 3 K mohmcm 4.05 4.25 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30923 PR06111752 "ErBa2(Cu,Fe)3Oz" Er1Ba2Cu2.97Fe0.03O6.94 Er 1 Ba 2 Cu 2.97 Fe 0.03 O Z 6.94 6 2000 Y123 3.836 3.867 11.683 3 K 88 88 3 mohmcm 0.8 1.7 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30924 PR06111752 "ErBa2(Cu,Zn,Fe)3Oz" Er1Ba2Cu2.94Zn0.03Fe0.03O6.94 Er 1 Ba 2 Cu 2.94 Zn 0.03 Fe 0.03 O Z 6.94 6 2000 Y123 3.838 3.86 11.682 3 K 76 76 3 mohmcm 1.4 2 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30925 PR06111752 "ErBa2(Cu,Zn,Fe)3Oz" Er1Ba2Cu2.91Zn0.06Fe0.03O6.93 Er 1 Ba 2 Cu 2.91 Zn 0.06 Fe 0.03 O Z 6.93 6 2000 Y123 3.834 3.865 11.683 3 K 63 63 3 mohmcm 2.2 2.1 3.1 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30926 PR06111752 "ErBa2(Cu,Zn,Fe)3Oz" Er1Ba2Cu2.85Zn0.12Fe0.03O6.94 Er 1 Ba 2 Cu 2.85 Zn 0.12 Fe 0.03 O Z 6.94 6 2000 Y123 3.839 3.863 11.683 3 K 50 50 3 mohmcm 2.8 2.6 3.8 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30927 PR06111752 "ErBa2(Cu,Zn,Fe)3Oz" Er1Ba2Cu2.78Zn0.18Fe0.03O6.93 Er 1 Ba 2 Cu 2.78 Zn 0.18 Fe 0.03 O Z 6.93 6 2000 Y123 3.84 3.859 11.686 3 K 46 46 3 mohmcm 3.05 3 4.5 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30928 PR06111752 "ErBa2(Cu,Zn,Fe)3Oz" Er1Ba2Cu2.73Zn0.24Fe0.03O6.92 Er 1 Ba 2 Cu 2.73 Zn 0.24 Fe 0.03 O Z 6.92 6 2000 Y123 3.836 3.858 11.688 3 K 43 43 3 mohmcm 3.3 3.2 5.4 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30929 PR06111752 "ErBa2(Cu,Zn,Fe)3Oz" Er1Ba2Cu2.67Zn0.3Fe0.03O6.88 Er 1 Ba 2 Cu 2.67 Zn 0.3 Fe 0.03 O Z 6.88 6 2000 Y123 3.842 3.856 11.689 3 K mohmcm 5.5 6 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30930 PR06111752 "ErBa2(Cu,Zn,Fe)3Oz" Er1Ba2Cu2.61Zn0.36Fe0.03O6.85 Er 1 Ba 2 Cu 2.61 Zn 0.36 Fe 0.03 O Z 6.85 6 2000 Y123 3.85 3.855 11.69 3 K mohmcm 6.8 7 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30931 PR06111752 "ErBa2(Cu,Fe)3Oz" Er1Ba2Cu2.91Fe0.09O6.96 Er 1 Ba 2 Cu 2.91 Fe 0.09 O Z 6.96 6 2000 Y123 3.854 3.854 11.681 3 K 83 83 3 mohmcm 1.5 2.7 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30932 PR06111752 "ErBa2(Cu,Zn,Fe)3Oz" Er1Ba2Cu2.88Zn0.03Fe0.09O6.95 Er 1 Ba 2 Cu 2.88 Zn 0.03 Fe 0.09 O Z 6.95 6 2000 Y123 3.859 3.859 11.681 3 K 65 65 3 mohmcm 2.4 2.8 3.05 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30933 PR06111752 "ErBa2(Cu,Zn,Fe)3Oz" Er1Ba2Cu2.85Zn0.06Fe0.09O6.96 Er 1 Ba 2 Cu 2.85 Zn 0.06 Fe 0.09 O Z 6.96 6 2000 Y123 3.856 3.856 11.68 3 K 46 46 3 mohmcm 3.4 3.3 4.3 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30934 PR06111752 "ErBa2(Cu,Zn,Fe)3Oz" Er1Ba2Cu2.79Zn0.12Fe0.09O6.95 Er 1 Ba 2 Cu 2.79 Zn 0.12 Fe 0.09 O Z 6.95 6 2000 Y123 3.863 3.863 11.68 3 K 42 42 3 mohmcm 4 4 4.8 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30935 PR06111752 "ErBa2(Cu,Zn,Fe)3Oz" Er1Ba2Cu2.73Zn0.18Fe0.09O6.94 Er 1 Ba 2 Cu 2.73 Zn 0.18 Fe 0.09 O Z 6.94 6 2000 Y123 3.86 3.86 11.678 3 K 37 37 3 mohmcm 6.1 6.2 6.3 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30936 PR06111752 "ErBa2(Cu,Zn,Fe)3Oz" Er1Ba2Cu2.67Zn0.24Fe0.09O6.94 Er 1 Ba 2 Cu 2.67 Zn 0.24 Fe 0.09 O Z 6.94 6 2000 Y123 3.861 3.861 11.6775 3 K 32 32 3 mohmcm 7.2 7.4 8.2 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30937 PR06111752 "ErBa2(Cu,Zn,Fe)3Oz" Er1Ba2Cu2.61Zn0.3Fe0.09O6.9 Er 1 Ba 2 Cu 2.61 Zn 0.3 Fe 0.09 O Z 6.9 6 2000 Y123 3.857 3.857 11.67 3 K mohmcm 10.7 10.5 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30938 PR06111752 "ErBa2(Cu,Fe)3Oz" Er1Ba2Cu2.82Fe0.18O6.97 Er 1 Ba 2 Cu 2.82 Fe 0.18 O Z 6.97 6 2000 Y123 3.853 3.853 11.68 3 K 72 72 3 mohmcm 3.4 3.5 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30939 PR06111752 "ErBa2(Cu,Zn,Fe)3Oz" Er1Ba2Cu2.79Zn0.03Fe0.18O6.97 Er 1 Ba 2 Cu 2.79 Zn 0.03 Fe 0.18 O Z 6.97 6 2000 Y123 3.853 3.853 11.683 3 K 44 44 3 mohmcm 5.5 5.8 5.8 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30940 PR06111752 "ErBa2(Cu,Zn,Fe)3Oz" Er1Ba2Cu2.76Zn0.06Fe0.18O6.97 Er 1 Ba 2 Cu 2.76 Zn 0.06 Fe 0.18 O Z 6.97 6 2000 Y123 3.856 3.856 11.684 3 K 25 25 3 mohmcm 7.6 7.8 7.8 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30941 PR06111752 "ErBa2(Cu,Zn,Fe)3Oz" Er1Ba2Cu2.7Zn0.12Fe0.18O6.95 Er 1 Ba 2 Cu 2.7 Zn 0.12 Fe 0.18 O Z 6.95 6 2000 Y123 3.856 3.856 11.683 3 K 23 23 3 mohmcm 8 9.5 8.5 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30942 PR06111752 "ErBa2(Cu,Zn,Fe)3Oz" Er1Ba2Cu2.64Zn0.18Fe0.18O6.95 Er 1 Ba 2 Cu 2.64 Zn 0.18 Fe 0.18 O Z 6.95 6 2000 Y123 3.851 3.851 11.684 3 K 21 21 3 mohmcm 12.5 14 12.3 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30943 PR06111752 "ErBa2(Cu,Zn,Fe)3Oz" Er1Ba2Cu2.58Zn0.24Fe0.18O6.94 Er 1 Ba 2 Cu 2.58 Zn 0.24 Fe 0.18 O Z 6.94 6 2000 Y123 3.854 3.854 11.686 3 K mohmcm 15 14.3 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30944 PR06111752 "ErBa2(Cu,Zn,Fe)3Oz" Er1Ba2Cu2.52Zn0.3Fe0.18O6.91 Er 1 Ba 2 Cu 2.52 Zn 0.3 Fe 0.18 O Z 6.91 6 2000 Y123 3.851 3.851 11.689 3 K mohmcm 20 17.4 "Er2O3,BaCO3,CuO,ZnO,FeO3" 1 "The mixed sample calcined at 920 C in air for period of 16-20 h.After four intermediate grindings and calcination in air the material was crushed, ground, pelletized and sintered in O2 for 36h at 960C" intervening for 24 h at 600 C Correlation between superconducting critical temperature and normal-state resistivity parameters from the codoped ErBa2Cu3-x-yZnxFeyO7-z system 2000 5 "National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India" "Phys.Rev.B,61(2000)11752-11761" 30945 PR06111762 YBa2Cu3Oz Y1Ba2Cu3O6.25 Y 1 Ba 2 Cu 3 O Z 6.25 1 2000 Y123 3.8711 3.8711 11.807 3 K The powder loaded in to steel die and uniaxially pressed at 1000 lb and placed into a tube furnance under 1 atm of flowing O2 at 800 C and raise to 960 C for 72 h and quenched.The cycle was repeated. annealing condition in ref 23 "Possible charge inhomogeneities in the CuO2 planes of YBa2Cu3O6+x (x=0.25, 0.45, 0.65, 0.94) from pulsed neutron diffraction" 2000 5 "Department of Physics and Astronomy and Center for Fundamental Materials Research, Michigan State University, East Lansing, Michigan 48824-1116" "Phys.Rev.B,61(2000)11762-11768" 30946 PR06111762 YBa2Cu3Oz Y1Ba2Cu3O6.45 Y 1 Ba 2 Cu 3 O Z 6.45 1 2000 Y123 3.8556 3.884 11.749 3 K The powder loaded in to steel die and uniaxially pressed at 1000 lb and placed into a tube furnance under 1 atm of flowing O2 at 800 C and raise to 960 C for 72 h and quenched.The cycle was repeated. annealing condition in ref 23 "Possible charge inhomogeneities in the CuO2 planes of YBa2Cu3O6+x (x=0.25, 0.45, 0.65, 0.94) from pulsed neutron diffraction" 2000 5 "Department of Physics and Astronomy and Center for Fundamental Materials Research, Michigan State University, East Lansing, Michigan 48824-1116" "Phys.Rev.B,61(2000)11762-11768" 30947 PR06111762 YBa2Cu3Oz Y1Ba2Cu3O6.65 Y 1 Ba 2 Cu 3 O Z 6.65 1 2000 Y123 3.8364 3.8965 11.724 3 K The powder loaded in to steel die and uniaxially pressed at 1000 lb and placed into a tube furnance under 1 atm of flowing O2 at 800 C and raise to 960 C for 72 h and quenched.The cycle was repeated. annealing condition in ref 23 "Possible charge inhomogeneities in the CuO2 planes of YBa2Cu3O6+x (x=0.25, 0.45, 0.65, 0.94) from pulsed neutron diffraction" 2000 5 "Department of Physics and Astronomy and Center for Fundamental Materials Research, Michigan State University, East Lansing, Michigan 48824-1116" "Phys.Rev.B,61(2000)11762-11768" 30948 PR06111762 YBa2Cu3Oz Y1Ba2Cu3O6.94 Y 1 Ba 2 Cu 3 O Z 6.94 1 2000 Y123 3.8256 3.8944 11.693 3 K The powder loaded in to steel die and uniaxially pressed at 1000 lb and placed into a tube furnance under 1 atm of flowing O2 at 800 C and raise to 960 C for 72 h and quenched.The cycle was repeated. annealing condition in ref 23 "Possible charge inhomogeneities in the CuO2 planes of YBa2Cu3O6+x (x=0.25, 0.45, 0.65, 0.94) from pulsed neutron diffraction" 2000 5 "Department of Physics and Astronomy and Center for Fundamental Materials Research, Michigan State University, East Lansing, Michigan 48824-1116" "Phys.Rev.B,61(2000)11762-11768" 30950 PR06112420 optimal YBa2Cu3O6+X Y1Ba2Cu3O6+Z Y 1 Ba 2 Cu 3 O 6+Z 1 2000 Y123 K 91.1 91.1 T MH curve 100 67 T/K MH curve 1.2 "oriented powder Ref[32]:P. Manca et al., Nuovo Cimento D 19, 1009 (1997)" Superconducting fluctuations and anomalous diamagnetism in underdoped YBa2Cu3O6+x from magnetization and <63>Cu NMR-NQR relaxation measurements 2000 5 "Department of Physics ""A.Volta,"" Unita INFM di Pavia-Via Bassi, 6 I-27100 Pavia, Italy" "Phys.Rev.B,61(2000)12420-12426" 30951 PR06112420 underdope disordered YBa2Cu3O6+X Y1Ba2Cu3O6.66 Y 1 Ba 2 Cu 3 O Z 6.66 1 2000 Y123 K 63.32 63.32 T MH curve 70 T/K MH curve 1.05 "oriented powder Ref[32]:P. Manca et al., Nuovo Cimento D 19, 1009 (1997)" Superconducting fluctuations and anomalous diamagnetism in underdoped YBa2Cu3O6+x from magnetization and <63>Cu NMR-NQR relaxation measurements 2000 5 "Department of Physics ""A.Volta,"" Unita INFM di Pavia-Via Bassi, 6 I-27100 Pavia, Italy" "Phys.Rev.B,61(2000)12420-12426" 30952 PR06112420 underdope chain-ordered YBa2Cu3O6+X Y1Ba2Cu3O6.66 Y 1 Ba 2 Cu 3 O Z 6.66 1 2000 Y123 K 64.5 64.5 T MH curve 65 45 T/K MH curve 1.1 "oriented powder Ref[32]:P. Manca et al., Nuovo Cimento D 19, 1009 (1997)" Superconducting fluctuations and anomalous diamagnetism in underdoped YBa2Cu3O6+x from magnetization and <63>Cu NMR-NQR relaxation measurements 2000 5 "Department of Physics ""A.Volta,"" Unita INFM di Pavia-Via Bassi, 6 I-27100 Pavia, Italy" "Phys.Rev.B,61(2000)12420-12426" 30953 PR06112420 underdope chain-ordered YBa2Cu3O6+X Y1Ba2Cu3O6.66 Y 1 Ba 2 Cu 3 O Z 6.66 1 2000 Y123 K 64.2 64.2 T MH curve T/K MH curve 1 "oriented powder Ref[32]:P. Manca et al., Nuovo Cimento D 19, 1009 (1997)" Superconducting fluctuations and anomalous diamagnetism in underdoped YBa2Cu3O6+x from magnetization and <63>Cu NMR-NQR relaxation measurements 2000 5 "Department of Physics ""A.Volta,"" Unita INFM di Pavia-Via Bassi, 6 I-27100 Pavia, Italy" "Phys.Rev.B,61(2000)12420-12426" 30954 PR06111769 As prepared HgBa2CuO4 Hg1Ba2Cu1O4+Z Hg 1 Ba 2 Cu 1 O 4+Z 1 2000 Hg1201 P4/mmm A 3.8785 9.4998 1 K 1 precursor at 18kbar 1193K precursor Ba2CuOy+HgO ; anneal 523K 1bar Ar 24h; Local Oz probing in the high-Tc superconductor HgBa2CuO4+z 2000 5 "CERN-EP/SC, CH-1211 Geneva 23, Switzerland" "Phys.Rev.B,61(2000)11769-11775" 30955 PR06111769 1st Exp. HgBa2CuO4 Hg1Ba2Cu1O4+Z Hg 1 Ba 2 Cu 1 O 4+Z 1 2000 Hg1201 P4/mmm A 3.8801 9.502 1 K 88 1 precursor at 18kbar 1193K precursor Ba2CuOy+HgO ; anneal 523K 1bar Ar 24h; 490K 220 min Ar Local Oz probing in the high-Tc superconductor HgBa2CuO4+z 2000 5 "CERN-EP/SC, CH-1211 Geneva 23, Switzerland" "Phys.Rev.B,61(2000)11769-11775" 30956 PR06111769 3rd Exp. HgBa2CuO4 Hg1Ba2Cu1O4+Z Hg 1 Ba 2 Cu 1 O 4+Z 1 2000 Hg1201 P4/mmm A 3.882 9.506 1 K 1 precursor at 18kbar 1193K precursor Ba2CuOy+HgO ; anneal 523K 1bar Ar 24h; 490K 180 min Ar Local Oz probing in the high-Tc superconductor HgBa2CuO4+z 2000 5 "CERN-EP/SC, CH-1211 Geneva 23, Switzerland" "Phys.Rev.B,61(2000)11769-11775" 30957 PR06111769 2nd Exp. HgBa2CuO4 Hg1Ba2Cu1O4+Z Hg 1 Ba 2 Cu 1 O 4+Z 1 2000 Hg1201 P4/mmm A 3.8768 9.4981 1 K 1 precursor at 18kbar 1193K precursor Ba2CuOy+HgO ; anneal 523K 1bar Ar 24h; 490K 200 min O2 Local Oz probing in the high-Tc superconductor HgBa2CuO4+z 2000 5 "CERN-EP/SC, CH-1211 Geneva 23, Switzerland" "Phys.Rev.B,61(2000)11769-11775" 30958 PR06111769 4th Exp. HgBa2CuO4 Hg1Ba2Cu1O4+Z Hg 1 Ba 2 Cu 1 O 4+Z 1 2000 Hg1201 P4/mmm A 3.8758 9.495 1 K 1 precursor at 18kbar 1193K precursor Ba2CuOy+HgO ; anneal 523K 1bar Ar 24h; 490K 240 min O2 Local Oz probing in the high-Tc superconductor HgBa2CuO4+z 2000 5 "CERN-EP/SC, CH-1211 Geneva 23, Switzerland" "Phys.Rev.B,61(2000)11769-11775" 30959 PR06112404 SmBa2Cu3Oz Sm1Ba-1Cu3O6.94 Sm 1 Ba -1 Cu 3 O Z 6.94 1 2000 Y123 A 3.847 3.902 11.735 3 K 86.3 86.3 microV/K 5 TP30959 950C 24h 2-3 times Anneal flow O2 450C 24h Effect of praseodymium on the normal-state and superconducting properties of RBa2Cu3Oy: A comparative study of the role of the Pr ion on R and Ba sites 2000 5 "Department of Semiconductor Physics and Nanoelectronics, St. Petersburg State Technical University, 29 Polytekhnicheskaya, St. Petersburg 195 251, Russia" "Phys.Rev.B,61(2000)12404-12411" 30960 PR06112404 "Sm(Ba,Pr)2Cu3Oz" Sm1Ba1.9Pr0.1Cu3O6.99 Sm 1 Ba 1.9 Pr 0.1 Cu 3 O Z 6.99 1 2000 Y123 A 3.853 3.9 11.7 3 K 56.4 56.4 microV/K 20 TP30960 950C 24h 2-3 times Anneal flow O2 450C 24h Effect of praseodymium on the normal-state and superconducting properties of RBa2Cu3Oy: A comparative study of the role of the Pr ion on R and Ba sites 2000 5 "Department of Semiconductor Physics and Nanoelectronics, St. Petersburg State Technical University, 29 Polytekhnicheskaya, St. Petersburg 195 251, Russia" "Phys.Rev.B,61(2000)12404-12411" 30961 PR06112404 "Sm(Ba,Pr)2Cu3Oz" Sm1Ba1.85Pr0.15Cu3O7.02 Sm 1 Ba 1.85 Pr 0.15 Cu 3 O Z 7.02 1 2000 Y123 A 3.85 3.898 11.69 3 K 35 35 microV/K 28 TP30961 950C 24h 2-3 times Anneal flow O2 450C 24h Effect of praseodymium on the normal-state and superconducting properties of RBa2Cu3Oy: A comparative study of the role of the Pr ion on R and Ba sites 2000 5 "Department of Semiconductor Physics and Nanoelectronics, St. Petersburg State Technical University, 29 Polytekhnicheskaya, St. Petersburg 195 251, Russia" "Phys.Rev.B,61(2000)12404-12411" 30962 PR06112404 "Sm(Ba,Pr)2Cu3Oz" Sm1Ba1.8Pr0.2Cu3O7.04 Sm 1 Ba 1.8 Pr 0.2 Cu 3 O Z 7.04 1 2000 Y123 A 3.862 3.888 11.665 3 K 26.5 26.5 microV/K 36 TP30962 950C 24h 2-3 times Anneal flow O2 450C 24h Effect of praseodymium on the normal-state and superconducting properties of RBa2Cu3Oy: A comparative study of the role of the Pr ion on R and Ba sites 2000 5 "Department of Semiconductor Physics and Nanoelectronics, St. Petersburg State Technical University, 29 Polytekhnicheskaya, St. Petersburg 195 251, Russia" "Phys.Rev.B,61(2000)12404-12411" 30963 PR06112404 not s/c "Sm(Ba,Pr)2Cu3Oz" Sm1Ba1.7Pr0.3Cu3O7.07 Sm 1 Ba 1.7 Pr 0.3 Cu 3 O Z 7.07 1 2000 Y123 A 3.878 3.883 11.63 3 K 4.2 microV/K 90 TP30963 950C 24h 2-3 times Anneal flow O2 450C 24h Effect of praseodymium on the normal-state and superconducting properties of RBa2Cu3Oy: A comparative study of the role of the Pr ion on R and Ba sites 2000 5 "Department of Semiconductor Physics and Nanoelectronics, St. Petersburg State Technical University, 29 Polytekhnicheskaya, St. Petersburg 195 251, Russia" "Phys.Rev.B,61(2000)12404-12411" 30964 PR06112404 not s/c "Sm(Ba,Pr)2Cu3Oz" Sm1Ba1.65Pr0.35Cu3O7.1 Sm 1 Ba 1.65 Pr 0.35 Cu 3 O Z 7.1 1 2000 Y123 A 3.875 3.875 11.625 3 K 4.2 microV/K 120 TP30964 950C 24h 2-3 times Anneal flow O2 450C 24h Effect of praseodymium on the normal-state and superconducting properties of RBa2Cu3Oy: A comparative study of the role of the Pr ion on R and Ba sites 2000 5 "Department of Semiconductor Physics and Nanoelectronics, St. Petersburg State Technical University, 29 Polytekhnicheskaya, St. Petersburg 195 251, Russia" "Phys.Rev.B,61(2000)12404-12411" 31000 PR06114956 nominal x=0.2. hole p=0.18 "Bi2(Sr,La)2CuO6" Bi2Sr1.77La0.23Cu1O6+Z Bi 2 Sr 1.77 La 0.23 Cu 1 O 6+Z 3 2000 Bi2201 5 K 31.5 31.5 1 uV/K -13.7 RH31000 7 ref.6.All the crystals are annealed in flowing oxygen at 650 C for 48 h. The actual La concentration are determined by ICP and EPMA Carrier concentrations in Bi2Sr2-zLazCuO6 +z single crystals and their relation to the Hall coefficient and thermopower 2000 6 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,61,(2000)R14956-R14959" 31001 PR06114956 nominal x=0.4. hole p=0.16 "Bi2(Sr,La)2CuO6" Bi2Sr1.61La0.39Cu1O6+D Bi 2 Sr 1.61 La 0.39 Cu 1 O 6+D 3 2000 Bi2201 5 K 36 36 1 uV/K -3.84 RH31001 7 ref.6.All the crystals are annealed in flowing oxygen at 650 C for 48 h. The actual La concentration are determined by ICP and EPMA Carrier concentrations in Bi2Sr2-zLazCuO6 +z single crystals and their relation to the Hall coefficient and thermopower 2000 6 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,61,(2000)R14956-R14959" 31002 PR06114956 nominal x=0.5. hole p=0.15 "Bi2(Sr,La)2CuO6" Bi2Sr1.51La0.49Cu1O6+D Bi 2 Sr 1.51 La 0.49 Cu 1 O 6+D 3 2000 Bi2201 5 K 33.5 33.5 1 uV/K 2.74 7 ref.6.All the crystals are annealed in flowing oxygen at 650 C for 48 h. The actual La concentration are determined by ICP and EPMA Carrier concentrations in Bi2Sr2-zLazCuO6 +z single crystals and their relation to the Hall coefficient and thermopower 2000 6 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,61,(2000)R14956-R14959" 31003 PR06114956 hole p=0.14 "Bi2(Sr,La)2CuO6" Bi2Sr1.49La0.51Cu1O6+D Bi 2 Sr 1.49 La 0.51 Cu 1 O 6+D 3 2000 Bi2201 5 K 28.5 28.5 1 uV/K 3.29 7 ref.6.All the crystals are annealed in flowing oxygen at 650 C for 48 h. The actual La concentration are determined by ICP and EPMA Carrier concentrations in Bi2Sr2-zLazCuO6 +z single crystals and their relation to the Hall coefficient and thermopower 2000 6 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,61,(2000)R14956-R14959" 31004 PR06114956 nominal x=0.6. hole p=0.13 "Bi2(Sr,La)2CuO6" Bi2Sr1.34La0.66Cu1O6+D Bi 2 Sr 1.34 La 0.66 Cu 1 O 6+D 3 2000 Bi2201 5 K 24 24 1 uV/K 13.1 7 ref.6.All the crystals are annealed in flowing oxygen at 650 C for 48 h. The actual La concentration are determined by ICP and EPMA Carrier concentrations in Bi2Sr2-zLazCuO6 +z single crystals and their relation to the Hall coefficient and thermopower 2000 6 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,61,(2000)R14956-R14959" 31005 PR06114956 nominal x=0.7. hole p=0.12 from thermopower. "Bi2(Sr,La)2CuO6" Bi2Sr1.27La0.73Cu1O6+D Bi 2 Sr 1.27 La 0.73 Cu 1 O 6+D 3 2000 Bi2201 5 K 17 17 1 V/K 21.9 RH31005 7 ref.6.All the crystals are annealed in flowing oxygen at 650 C for 48 h. The actual La concentration are determined by ICP and EPMA Carrier concentrations in Bi2Sr2-zLazCuO6 +z single crystals and their relation to the Hall coefficient and thermopower 2000 6 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,61,(2000)R14956-R14959" 31006 PR06114956 nominal x=0.8. hole p=0.10 from thermopower. "Bi2(Sr,La)2CuO6" Bi2Sr1.16La0.84Cu1O6+D Bi 2 Sr 1.16 La 0.84 Cu 1 O 6+D 3 2000 Bi2201 5 K uV/K 43.3 RH31006 7 ref.6.All the crystals are annealed in flowing oxygen at 650 C for 48 h. The actual La concentration are determined by ICP and EPMA Carrier concentrations in Bi2Sr2-zLazCuO6 +z single crystals and their relation to the Hall coefficient and thermopower 2000 6 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,61,(2000)R14956-R14959" 31007 PR06114956 nominal x=1.0. hole p=0.03 from thermopower. "Bi2(Sr,La)2CuO6" Bi2Sr0.98La1.02Cu1O6+D Bi 2 Sr 0.98 La 1.02 Cu 1 O 6+D 3 2000 Bi2201 5 K uV/K 125.5 RH31007 7 ref.6.All the crystals are annealed in flowing oxygen at 650 C for 48 h. The actual La concentration are determined by ICP and EPMA Carrier concentrations in Bi2Sr2-zLazCuO6 +z single crystals and their relation to the Hall coefficient and thermopower 2000 6 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,61,(2000)R14956-R14959" 31008 PR06114960 RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 6 2000 145 Ru1212 K 45 45 2 1 ref.7. Evidence for a bulk Meissner state in the ferromagnetic superconductor RuSr2GdCu2O8 from dc magnetization 2000 6 "Max-Planck-Institut fur Festkorperforschung, Heisenbergstrasse 1, D-70569 Stuttgart, Germany" "Phys.Rev.B,61,(2000)R14960-R14963" 31009 PR06115436 "(Bi,Pb)2(Sr,La)2CuOz" Bi1.8Pb0.2Sr2Cu1OY Bi 1.8 Pb 0.2 Sr 2 Cu 1 O Y 2 2000 Bi2201 3 K 15.2 2.38 15.2 1 "Bi2O3, PbO, SrCO3, La2O3, CuO." 1 (Grownd and calsined at 900 C for 12 h in air.)*2. Pressed into pellets and sinterd inair at925 C for 24 h. Then annealed at 600 C for 17 h and furnace cooled to room temperature. Superconductivity and the valence state of the Sr site in defective Bi1.8Pb0.2Sr2CuOy 2000 6 "Structure Research Laboratory, University of Science and Technology of China, Hefei, 230026 Anhui, People's Republic of China" "Phys.Rev.B,61,(2000)15436-15441" 31010 PR06115436 "(Bi,Pb)2(Sr,La)2CuOz" Bi1.8Pb0.2Sr1.9La0.1Cu1OY Bi 1.8 Pb 0.2 Sr 1.9 La 0.1 Cu 1 O Y 2 2000 Bi2201 3 K 20.2 2.697 20.2 1 mOHMcm 0.7 1.9 "Bi2O3, PbO, SrCO3, La2O3, CuO." 1 (Grownd and calsined at 900 C for 12 h in air.)*2. Pressed into pellets and sinterd inair at925 C for 24 h. Then annealed at 600 C for 17 h and furnace cooled to room temperature. Superconductivity and the valence state of the Sr site in defective Bi1.8Pb0.2Sr2CuOy 2000 6 "Structure Research Laboratory, University of Science and Technology of China, Hefei, 230026 Anhui, People's Republic of China" "Phys.Rev.B,61,(2000)15436-15441" 31011 PR06115436 "(Bi,Pb)2(Sr,La)2CuOz" Bi1.8Pb0.2Sr1.8La0.2Cu1OY Bi 1.8 Pb 0.2 Sr 1.8 La 0.2 Cu 1 O Y 2 2000 Bi2201 3 K 21.2 2.807 21.2 1 mOHMcm 0.9 2.1 "Bi2O3, PbO, SrCO3, La2O3, CuO." 1 (Grownd and calsined at 900 C for 12 h in air.)*2. Pressed into pellets and sinterd inair at925 C for 24 h. Then annealed at 600 C for 17 h and furnace cooled to room temperature. Superconductivity and the valence state of the Sr site in defective Bi1.8Pb0.2Sr2CuOy 2000 6 "Structure Research Laboratory, University of Science and Technology of China, Hefei, 230026 Anhui, People's Republic of China" "Phys.Rev.B,61,(2000)15436-15441" 31012 PR06115436 "(Bi,Pb)2(Sr,La)2CuOz" Bi1.8Pb0.2Sr1.7La0.3Cu1OY Bi 1.8 Pb 0.2 Sr 1.7 La 0.3 Cu 1 O Y 2 2000 Bi2201 3 K 27.4 3.108 27.4 1 mOHMcm 1.3 2.7 "Bi2O3, PbO, SrCO3, La2O3, CuO." 1 (Grownd and calsined at 900 C for 12 h in air.)*2. Pressed into pellets and sinterd inair at925 C for 24 h. Then annealed at 600 C for 17 h and furnace cooled to room temperature. Superconductivity and the valence state of the Sr site in defective Bi1.8Pb0.2Sr2CuOy 2000 6 "Structure Research Laboratory, University of Science and Technology of China, Hefei, 230026 Anhui, People's Republic of China" "Phys.Rev.B,61,(2000)15436-15441" 31013 PR06115436 "(Bi,Pb)2(Sr,La)2CuOz" Bi1.8Pb0.2Sr1.55La0.45Cu1OY Bi 1.8 Pb 0.2 Sr 1.55 La 0.45 Cu 1 O Y 2 2000 Bi2201 3 K 28.3 2.957 28.3 1 mOHMcm 1.8 4 "Bi2O3, PbO, SrCO3, La2O3, CuO." 1 (Grownd and calsined at 900 C for 12 h in air.)*2. Pressed into pellets and sinterd inair at925 C for 24 h. Then annealed at 600 C for 17 h and furnace cooled to room temperature. Superconductivity and the valence state of the Sr site in defective Bi1.8Pb0.2Sr2CuOy 2000 6 "Structure Research Laboratory, University of Science and Technology of China, Hefei, 230026 Anhui, People's Republic of China" "Phys.Rev.B,61,(2000)15436-15441" 31014 PR06115436 "(Bi,Pb)2(Sr,La)2CuOz" Bi1.8Pb0.2Sr1.45La0.55Cu1OY Bi 1.8 Pb 0.2 Sr 1.45 La 0.55 Cu 1 O Y 2 2000 Bi2201 3 K 28.6 3.086 28.6 1 mOHMcm 2.3 4.8 "Bi2O3, PbO, SrCO3, La2O3, CuO." 1 (Grownd and calsined at 900 C for 12 h in air.)*2. Pressed into pellets and sinterd inair at925 C for 24 h. Then annealed at 600 C for 17 h and furnace cooled to room temperature. Superconductivity and the valence state of the Sr site in defective Bi1.8Pb0.2Sr2CuOy 2000 6 "Structure Research Laboratory, University of Science and Technology of China, Hefei, 230026 Anhui, People's Republic of China" "Phys.Rev.B,61,(2000)15436-15441" 31015 PR06115436 "(Bi,Pb)2(Sr,La)2CuOz" Bi1.8Pb0.2Sr1.4La0.6Cu1OY Bi 1.8 Pb 0.2 Sr 1.4 La 0.6 Cu 1 O Y 2 2000 Bi2201 3 K 28.3 3.128 28.3 1 mOHMcm 3 6.2 "Bi2O3, PbO, SrCO3, La2O3, CuO." 1 (Grownd and calsined at 900 C for 12 h in air.)*2. Pressed into pellets and sinterd inair at925 C for 24 h. Then annealed at 600 C for 17 h and furnace cooled to room temperature. Superconductivity and the valence state of the Sr site in defective Bi1.8Pb0.2Sr2CuOy 2000 6 "Structure Research Laboratory, University of Science and Technology of China, Hefei, 230026 Anhui, People's Republic of China" "Phys.Rev.B,61,(2000)15436-15441" 31016 PR06115436 "(Bi,Pb)2(Sr,La)2CuOz" Bi1.8Pb0.2Sr1.35La0.65Cu1OY Bi 1.8 Pb 0.2 Sr 1.35 La 0.65 Cu 1 O Y 2 2000 Bi2201 3 K 27.8 3.198 27.8 1 mOHMcm 6.2 9.2 "Bi2O3, PbO, SrCO3, La2O3, CuO." 1 (Grownd and calsined at 900 C for 12 h in air.)*2. Pressed into pellets and sinterd inair at925 C for 24 h. Then annealed at 600 C for 17 h and furnace cooled to room temperature. Superconductivity and the valence state of the Sr site in defective Bi1.8Pb0.2Sr2CuOy 2000 6 "Structure Research Laboratory, University of Science and Technology of China, Hefei, 230026 Anhui, People's Republic of China" "Phys.Rev.B,61,(2000)15436-15441" 31017 PR06115436 "(Bi,Pb)2(Sr,La)2CuOz" Bi1.8Pb0.2Sr1.25La0.75Cu1OY Bi 1.8 Pb 0.2 Sr 1.25 La 0.75 Cu 1 O Y 2 2000 Bi2201 3 K 26.9 3.173 26.9 1 mOHMcm 12.7 13.9 "Bi2O3, PbO, SrCO3, La2O3, CuO." 1 (Grownd and calsined at 900 C for 12 h in air.)*2. Pressed into pellets and sinterd inair at925 C for 24 h. Then annealed at 600 C for 17 h and furnace cooled to room temperature. Superconductivity and the valence state of the Sr site in defective Bi1.8Pb0.2Sr2CuOy 2000 6 "Structure Research Laboratory, University of Science and Technology of China, Hefei, 230026 Anhui, People's Republic of China" "Phys.Rev.B,61,(2000)15436-15441" 31018 PR06115436 "(Bi,Pb)2(Sr,La)2CuOz" Bi1.8Pb0.2Sr1.2La0.8Cu1OY Bi 1.8 Pb 0.2 Sr 1.2 La 0.8 Cu 1 O Y 2 2000 Bi2201 3 K 24.9 3.119 24.9 1 mOHMcm 17.7 17.6 "Bi2O3, PbO, SrCO3, La2O3, CuO." 1 (Grownd and calsined at 900 C for 12 h in air.)*2. Pressed into pellets and sinterd inair at925 C for 24 h. Then annealed at 600 C for 17 h and furnace cooled to room temperature. Superconductivity and the valence state of the Sr site in defective Bi1.8Pb0.2Sr2CuOy 2000 6 "Structure Research Laboratory, University of Science and Technology of China, Hefei, 230026 Anhui, People's Republic of China" "Phys.Rev.B,61,(2000)15436-15441" 31019 PR06115454 "(Hg,Re)Ba2Ca2Cu3O8" Hg1Ba2Ca2Cu3O8+D Hg 1 Ba 2 Ca 2 Cu 3 O 8+D 2 2000 "Hg,Re-1223" A 3.8542 15.8359 3 K "Ba2Ca2Cu3O7+d,ReO2,HgO" 1 "Ba2Ca2Cu3O7+d and ReO2 heated at 930C for 10h,annealed in Ar(90%)-O2(10%) gas,then mixed with HgO,prepared by TBA(ref.14) with ff=0.7g/cm3,heated at 860C for 10h." Effect of hydrostatic pressure on HgBa2Ca2Cu3O8 +z superconductor doped with Re 2000 6 "Centro Brasilero de Pesquisas Fisicas, Rio de Janeiro, RJ 22290-180, Brazil" "Phys.Rev.B,61,(2000)15454-15461" 31020 PR06115454 "(Hg,Re)Ba2Ca2Cu3O8" Hg0.95Re0.05Ba2Ca2Cu3O8+D Hg 0.95 Re 0.05 Ba 2 Ca 2 Cu 3 O 8+D 2 2000 "Hg,Re-1223" A 3.85366 15.7424 3 K 132.52 132.52 2 "Ba2Ca2Cu3O7+d,ReO2,HgO" 1 "Ba2Ca2Cu3O7+d and ReO2 heated at 930C for 10h,annealed in Ar(90%)-O2(10%) gas,then mixed with HgO,prepared by TBA(ref.14) with ff=0.7g/cm3,heated at 860C for 10h." Effect of hydrostatic pressure on HgBa2Ca2Cu3O8 +z superconductor doped with Re 2000 6 "Centro Brasilero de Pesquisas Fisicas, Rio de Janeiro, RJ 22290-180, Brazil" "Phys.Rev.B,61,(2000)15454-15461" 31021 PR06115454 "(Hg,Re)Ba2Ca2Cu3O8" Hg0.9Re0.1Ba2Ca2Cu3O8+D Hg 0.9 Re 0.1 Ba 2 Ca 2 Cu 3 O 8+D 2 2000 "Hg,Re-1223" A 3.85132 15.6922 3 K 132.62 132.62 2 "Ba2Ca2Cu3O7+d,ReO2,HgO" 1 "Ba2Ca2Cu3O7+d and ReO2 heated at 930C for 10h,annealed in Ar(90%)-O2(10%) gas,then mixed with HgO,prepared by TBA(ref.14) with ff=0.7g/cm3,heated at 860C for 10h." Effect of hydrostatic pressure on HgBa2Ca2Cu3O8 +z superconductor doped with Re 2000 6 "Centro Brasilero de Pesquisas Fisicas, Rio de Janeiro, RJ 22290-180, Brazil" "Phys.Rev.B,61,(2000)15454-15461" 31022 PR06115454 "(Hg,Re)Ba2Ca2Cu3O8" Hg0.85Re0.15Ba2Ca2Cu3O8+D Hg 0.85 Re 0.15 Ba 2 Ca 2 Cu 3 O 8+D 2 2000 "Hg,Re-1223" A 3.85635 15.6973 3 K 132.92 132.92 2 "Ba2Ca2Cu3O7+d,ReO2,HgO" 1 "Ba2Ca2Cu3O7+d and ReO2 heated at 930C for 10h,annealed in Ar(90%)-O2(10%) gas,then mixed with HgO,prepared by TBA(ref.14) with ff=0.7g/cm3,heated at 860C for 10h." Effect of hydrostatic pressure on HgBa2Ca2Cu3O8 +z superconductor doped with Re 2000 6 "Centro Brasilero de Pesquisas Fisicas, Rio de Janeiro, RJ 22290-180, Brazil" "Phys.Rev.B,61,(2000)15454-15461" 31023 PR06115454 "(Hg,Re)Ba2Ca2Cu3O8" Hg0.82Re0.18Ba2Ca2Cu3O8+D Hg 0.82 Re 0.18 Ba 2 Ca 2 Cu 3 O 8+D 2 2000 "Hg,Re-1223" A 3.85196 15.6863 3 K 133.12 3 133.12 2 K/Gpa 6.82 "Ba2Ca2Cu3O7+d,ReO2,HgO" 1 "Ba2Ca2Cu3O7+d and ReO2 heated at 930C for 10h,annealed in Ar(90%)-O2(10%) gas,then mixed with HgO,prepared by TBA(ref.14) with ff=0.7g/cm3,heated at 860C for 10h." Effect of hydrostatic pressure on HgBa2Ca2Cu3O8 +z superconductor doped with Re 2000 6 "Centro Brasilero de Pesquisas Fisicas, Rio de Janeiro, RJ 22290-180, Brazil" "Phys.Rev.B,61,(2000)15454-15461" 31024 PR06115454 "(Hg,Re)Ba2Ca2Cu3O8" Hg0.8Re0.2Ba2Ca2Cu3O8+D Hg 0.8 Re 0.2 Ba 2 Ca 2 Cu 3 O 8+D 2 2000 "Hg,Re-1223" A 3.85343 15.6843 3 K 133.12 133.12 2 "Ba2Ca2Cu3O7+d,ReO2,HgO" 1 "Ba2Ca2Cu3O7+d and ReO2 heated at 930C for 10h,annealed in Ar(90%)-O2(10%) gas,then mixed with HgO,prepared by TBA(ref.14) with ff=0.7g/cm3,heated at 860C for 10h." Effect of hydrostatic pressure on HgBa2Ca2Cu3O8 +z superconductor doped with Re 2000 6 "Centro Brasilero de Pesquisas Fisicas, Rio de Janeiro, RJ 22290-180, Brazil" "Phys.Rev.B,61,(2000)15454-15461" 31025 PR06115454 "(Hg,Re)Ba2Ca2Cu3O8" Hg0.75Re0.25Ba2Ca2Cu3O8+D Hg 0.75 Re 0.25 Ba 2 Ca 2 Cu 3 O 8+D 2 2000 "Hg,Re-1223" A 3.85488 15.7104 3 K 132.72 132.72 2 "Ba2Ca2Cu3O7+d,ReO2,HgO" 1 "Ba2Ca2Cu3O7+d and ReO2 heated at 930C for 10h,annealed in Ar(90%)-O2(10%) gas,then mixed with HgO,prepared by TBA(ref.14) with ff=0.7g/cm3,heated at 860C for 10h." Effect of hydrostatic pressure on HgBa2Ca2Cu3O8 +z superconductor doped with Re 2000 6 "Centro Brasilero de Pesquisas Fisicas, Rio de Janeiro, RJ 22290-180, Brazil" "Phys.Rev.B,61,(2000)15454-15461" 31026 PR06114350 "(La,Sr)2CuO4" La1.78Sr0.22Cu1O4 La 1.78 Sr 0.22 Cu 1 O 4 2 2000 T 3 K 28.7 28.7 1 "La2O3,SrCO3,CuO.ref.5." 1 Impurity scattering effects on the low-temperature specific heat of d-wave superconductors 2000 6 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 804, Taiwan, Republic of China" "Phys.Rev.B,61,(2000)14350-14353" 31027 PR06114350 "(La,Sr)2(Cu,Ni)O4" La1.78Sr0.22Cu0.99Ni0.01O4 La 1.78 Sr 0.22 Cu 0.99 Ni 0.01 O 4 2 2000 T 3 K 21.2 21.2 1 "La2O3,SrCO3,CuO.ref.5." 1 Impurity scattering effects on the low-temperature specific heat of d-wave superconductors 2000 6 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 804, Taiwan, Republic of China" "Phys.Rev.B,61,(2000)14350-14353" 31028 PR06114350 "(La,Sr)2(Cu,Ni)O4" La1.78Sr0.22Cu0.98Ni0.02O4 La 1.78 Sr 0.22 Cu 0.98 Ni 0.02 O 4 2 2000 T 3 K 17.4 17.4 1 "La2O3,SrCO3,CuO.ref.5." 1 Impurity scattering effects on the low-temperature specific heat of d-wave superconductors 2000 6 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 804, Taiwan, Republic of China" "Phys.Rev.B,61,(2000)14350-14353" 31029 PR06114825 The oxygen content was determined from precision iodometric titration method(ref.29). PrBa2Cu3O7+z Pr1Ba2Cu3O6.88 Pr 1 Ba 2 Cu 3 O 7-Z 6.88 2 2000 18 3 Y123 Pmmm A 3.827 3.927 11.709 3 K 2 mOHMcm 34 "Pr6O11,BaCO3,CuO." 1 "Mixed and calcined between 850C and 910C in air for 2days, then pressed into pellets and sintered in flowing Ar gas at 900-940C for 1day,finally annealed in flowing O2 gas at 400C for 1day." Variation of anomalous Pr ordering and crystal symmetry for the oxygenated Pr1 + xBa2-xCu3O7 + y system 2000 6 "Department of Physics, National Tsing Hua University, Hsinchu 300, Taiwan" "Phys.Rev.B,61,(2000)14825-14832" 31030 PR06114825 The oxygen content was determined from precision iodometric titration method(ref.29). "Pr(Ba,Pr)2Cu3O7+z" Pr1.1Ba1.9Cu3O6.93 Pr 1.1 Ba 1.9 Cu 3 O 7-Z 6.93 2 2000 17 3 Y123 Pmmm A 3.876 3.918 11.688 3 K 2 "Pr6O11,BaCO3,CuO." 1 "Mixed and calcined between 850C and 910C in air for 2days, then pressed into pellets and sintered in flowing Ar gas at 900-940C for 1day,finally annealed in flowing O2 gas at 400C for 1day." Variation of anomalous Pr ordering and crystal symmetry for the oxygenated Pr1 + xBa2-xCu3O7 + y system 2000 6 "Department of Physics, National Tsing Hua University, Hsinchu 300, Taiwan" "Phys.Rev.B,61,(2000)14825-14832" 31031 PR06114825 Specific heat was measured. The oxygen content was determined from precision iodometric titration method(ref.29). "Pr(Ba,Pr)2Cu3O7+z" Pr1.2Ba1.8Cu3O7 Pr 1.2 Ba 1.8 Cu 3 O 7-Z 7 2 2000 15.5 3 Y123 Pmmm A 3.88793 3.90523 11.66619 3 K 2 mOHMcm 54 "Pr6O11,BaCO3,CuO." 1 "Mixed and calcined between 850C and 910C in air for 2days, then pressed into pellets and sintered in flowing Ar gas at 900-940C for 1day,finally annealed in flowing O2 gas at 400C for 1day." Variation of anomalous Pr ordering and crystal symmetry for the oxygenated Pr1 + xBa2-xCu3O7 + y system 2000 6 "Department of Physics, National Tsing Hua University, Hsinchu 300, Taiwan" "Phys.Rev.B,61,(2000)14825-14832" 31032 PR06114825 The oxygen content was determined from precision iodometric titration method(ref.29). "Pr(Ba,Pr)2Cu3O7+z" Pr1.3Ba1.7Cu3O7.05 Pr 1.3 Ba 1.7 Cu 3 O 7-Z 7.05 2 2000 13.5 3 Y123 Pmmm A 3.892 3.898 11.643 3 K 2 "Pr6O11,BaCO3,CuO." 1 "Mixed and calcined between 850C and 910C in air for 2days, then pressed into pellets and sintered in flowing Ar gas at 900-940C for 1day,finally annealed in flowing O2 gas at 400C for 1day." Variation of anomalous Pr ordering and crystal symmetry for the oxygenated Pr1 + xBa2-xCu3O7 + y system 2000 6 "Department of Physics, National Tsing Hua University, Hsinchu 300, Taiwan" "Phys.Rev.B,61,(2000)14825-14832" 31033 PR06114825 The oxygen content was determined from precision iodometric titration method(ref.29). "Pr(Ba,Pr)2Cu3O7+z" Pr1.4Ba1.6Cu3O7.11 Pr 1.4 Ba 1.6 Cu 3 O 7-Z 7.11 2 2000 12 2 Y123 P/4mmm A 3.894 11.634 3 K 2 "Pr6O11,BaCO3,CuO." 1 "Mixed and calcined between 850C and 910C in air for 2days, then pressed into pellets and sintered in flowing Ar gas at 900-940C for 1day,finally annealed in flowing O2 gas at 400C for 1day." Variation of anomalous Pr ordering and crystal symmetry for the oxygenated Pr1 + xBa2-xCu3O7 + y system 2000 6 "Department of Physics, National Tsing Hua University, Hsinchu 300, Taiwan" "Phys.Rev.B,61,(2000)14825-14832" 31034 PR06114825 Specific heat was measured. The oxygen content was determined from precision iodometric titration method(ref.29). "Pr(Ba,Pr)2Cu3O7+z" Pr1.5Ba1.5Cu3O7.19 Pr 1.5 Ba 1.5 Cu 3 O 7-Z 7.19 2 2000 10.5 2 Y123 P/4mmm A 3.89163 11.61779 3 K 2 mOHMcm 456 "Pr6O11,BaCO3,CuO." 1 "Mixed and calcined between 850C and 910C in air for 2days, then pressed into pellets and sintered in flowing Ar gas at 900-940C for 1day,finally annealed in flowing O2 gas at 400C for 1day." Variation of anomalous Pr ordering and crystal symmetry for the oxygenated Pr1 + xBa2-xCu3O7 + y system 2000 6 "Department of Physics, National Tsing Hua University, Hsinchu 300, Taiwan" "Phys.Rev.B,61,(2000)14825-14832" 31035 PR06114825 The oxygen content was determined from precision iodometric titration method(ref.29). "Pr(Ba,Pr)2Cu3O7+z" Pr1.6Ba1.4Cu3O7.23 Pr 1.6 Ba 1.4 Cu 3 O 7-Z 7.23 2 2000 8 2 Y123 P/4mmm A 3.888 11.601 3 K 2 "Pr6O11,BaCO3,CuO." 1 "Mixed and calcined between 850C and 910C in air for 2days, then pressed into pellets and sintered in flowing Ar gas at 900-940C for 1day,finally annealed in flowing O2 gas at 400C for 1day." Variation of anomalous Pr ordering and crystal symmetry for the oxygenated Pr1 + xBa2-xCu3O7 + y system 2000 6 "Department of Physics, National Tsing Hua University, Hsinchu 300, Taiwan" "Phys.Rev.B,61,(2000)14825-14832" 31036 PR06114825 Specific heat was measured.The oxygen content was determined from precision iodometric titration method(ref.29). "Pr(Ba,Pr)2Cu3O7+z" Pr1.7Ba1.3Cu3O7.25 Pr 1.7 Ba 1.3 Cu 3 O 7-Z 7.25 2 2000 5.5 3 Y123 Cmmm A 5.48853 5.4903 11.57759 3 K 2 "Pr6O11,BaCO3,CuO." 1 "Mixed and calcined between 850C and 910C in air for 2days, then pressed into pellets and sintered in flowing Ar gas at 900-940C for 1day,finally annealed in flowing O2 gas at 400C for 1day." Variation of anomalous Pr ordering and crystal symmetry for the oxygenated Pr1 + xBa2-xCu3O7 + y system 2000 6 "Department of Physics, National Tsing Hua University, Hsinchu 300, Taiwan" "Phys.Rev.B,61,(2000)14825-14832" 31037 PR06114825 The oxygen content was determined from precision iodometric titration method(ref.29). "Pr(Ba,Pr)2Cu3O7+z" Pr1.8Ba1.2Cu3O7.27 Pr 1.8 Ba 1.2 Cu 3 O 7-Z 7.27 2 2000 2.2 3 Y123 Cmmm A 5.477 5.484 11.547 3 K 2 "Pr6O11,BaCO3,CuO." 1 "Mixed and calcined between 850C and 910C in air for 2days, then pressed into pellets and sintered in flowing Ar gas at 900-940C for 1day,finally annealed in flowing O2 gas at 400C for 1day." Variation of anomalous Pr ordering and crystal symmetry for the oxygenated Pr1 + xBa2-xCu3O7 + y system 2000 6 "Department of Physics, National Tsing Hua University, Hsinchu 300, Taiwan" "Phys.Rev.B,61,(2000)14825-14832" 31038 PR06114825 The oxygen content was determined from precision iodometric titration method(ref.29). "Pr(Ba,Pr)2Cu3O7+z" Pr1.9Ba1.1Cu3O7.29 Pr 1.9 Ba 1.1 Cu 3 O 7-Z 7.29 2 2000 3 Y123 Cmmm A 5.469 5.476 11.52 3 K 2 "Pr6O11,BaCO3,CuO." 1 "Mixed and calcined between 850C and 910C in air for 2days, then pressed into pellets and sintered in flowing Ar gas at 900-940C for 1day,finally annealed in flowing O2 gas at 400C for 1day." Variation of anomalous Pr ordering and crystal symmetry for the oxygenated Pr1 + xBa2-xCu3O7 + y system 2000 6 "Department of Physics, National Tsing Hua University, Hsinchu 300, Taiwan" "Phys.Rev.B,61,(2000)14825-14832" 31039 PR06114825 The oxygen content was determined from precision iodometric titration method(ref.29). "Pr(Ba,Pr)2Cu3O7+z" Pr2Ba1Cu3O7.31 Pr 2 Ba 1 Cu 3 O 7-Z 7.31 2 2000 3 Y123 Cmmm A 5.46 5.469 11.496 3 K 2 "Pr6O11,BaCO3,CuO." 1 "Mixed and calcined between 850C and 910C in air for 2days, then pressed into pellets and sintered in flowing Ar gas at 900-940C for 1day,finally annealed in flowing O2 gas at 400C for 1day." Variation of anomalous Pr ordering and crystal symmetry for the oxygenated Pr1 + xBa2-xCu3O7 + y system 2000 6 "Department of Physics, National Tsing Hua University, Hsinchu 300, Taiwan" "Phys.Rev.B,61,(2000)14825-14832" 31100 PR06200615 under-doped HgBa2CuO4+z Hg1Ba2Cu1O4+Z Hg 1 Ba 2 Cu 1 O 4+Z 6 2000 Hg1201 K 72 72 uV/K 16 "HgO(99%), BaO, CuO(3N)" 1 BaO was purified from BaCO3(99.997%) in vacaum at 1050C. post annealed condition: for 1week in 1 atm of Ar at 350 C Photoemission study of electronic states in HgBa2CuO4 +z with various doping levels 2000 7 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Phys.Rev.B,62,(2000)615-621" 31101 PR06200615 under-doped HgBa2CuO4+z Hg1Ba2Cu1O4+Z Hg 1 Ba 2 Cu 1 O 4+Z 6 2000 Hg1201 K 83 83 uV/K 11 "HgO(99%), BaO, CuO(3N)" 1 BaO was purified from BaCO3(99.997%) in vacaum at 1050C. post annealed condition: for 1week in 1 atm of Ar at 300 C Photoemission study of electronic states in HgBa2CuO4 +z with various doping levels 2000 7 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Phys.Rev.B,62,(2000)615-621" 31102 PR06200615 optimal-doped HgBa2CuO4+z Hg1Ba2Cu1O4+Z Hg 1 Ba 2 Cu 1 O 4+Z 6 2000 Hg1201 K 97 97 uV/K 3 "HgO(99%), BaO, CuO(3N)" 1 BaO was purified from BaCO3(99.997%) in vacaum at 1050C. post annealed condition: for 1week in 1 atm of O2 at 300 C Photoemission study of electronic states in HgBa2CuO4 +z with various doping levels 2000 7 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Phys.Rev.B,62,(2000)615-621" 31103 PR06200615 over-doped HgBa2CuO4+z Hg1Ba2Cu1O4+Z Hg 1 Ba 2 Cu 1 O 4+Z 6 2000 Hg1201 K 92 92 uV/K 0 "HgO(99%), BaO, CuO(3N)" 1 BaO was purified from BaCO3(99.997%) in vacaum at 1050C. post annealed condition: for 3week in 1 atm of O2 at 260 C Photoemission study of electronic states in HgBa2CuO4 +z with various doping levels 2000 7 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Phys.Rev.B,62,(2000)615-621" 31104 PR06200615 over-doped HgBa2CuO4+z Hg1Ba2Cu1O4+Z Hg 1 Ba 2 Cu 1 O 4+Z 6 2000 Hg1201 K 86 86 uV/K -2 "HgO(99%), BaO, CuO(3N)" 1 BaO was purified from BaCO3(99.997%) in vacaum at 1050C. post annealed condition: for 3week in 1 atm of O2 at 240 C Photoemission study of electronic states in HgBa2CuO4 +z with various doping levels 2000 7 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Phys.Rev.B,62,(2000)615-621" 31105 PR06200626 Bi2Sr2CaCu2O8+z Bi2Sr2Ca1Cu2O8+Z Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 3 2000 Bi2212 K 92.4 92.4 2 W/km uohmcm 65 225 7 Zn-doped crystals are turned to the optimumdoping by annealing at 750C for 48h. The contain of Zn was determined by ICP. Temperature- and magnetic-field-dependent thermal conductivity of pure and Zn-doped Bi2Sr2CaCu2O8+z single crystals 2000 7 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,62,(2000)626-630" 31106 PR06200626 "Bi2Sr2Ca(Cu,Zn)2O8+z" Bi2Sr2Ca1Cu1.988Zn0.012O8+Z Bi 2 Sr 2 Ca 1 Cu 1.988 Zn 0.012 O 8+Z 3 2000 Bi2212 K 84.5 1.5 84.5 2 W/km uohmcm 80 315 7 Zn-doped crystals are turned to the optimumdoping by annealing at 750C for 48h. The contain of Zn was determined by ICP. Temperature- and magnetic-field-dependent thermal conductivity of pure and Zn-doped Bi2Sr2CaCu2O8+z single crystals 2000 7 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B,62,(2000)626-630" 31107 PR06200622 Annealing at 350C. TP300= at 290K. "Bi2(Sr,Bi)2CuO6+z" Bi2.1Sr1.9Cu1O6+Z Bi 2.1 Sr 1.9 Cu 1 O 6+Z 3 2000 Bi2201 3 K 0 0 1 uV/K -12.9 annealing condition: under air at 350C Dragging excitation characteristics from thermoelectric power in Bi2(Sr2-yLay)CuO6 +z single crystals 2000 7 "Departement de Physique, Universite de Versailles St. Quentin, 45 Avenue des Etats-Unis, 78035 Versailles, France" "Phys.Rev.B,62,(2000)622-625" 31108 PR06200622 Annealing at 680C. TP300= at 290K. "Bi2(Sr,Bi)2CuO6" Bi2.1Sr1.9Cu1O6+Z Bi 2.1 Sr 1.9 Cu 1 O 6+Z 3 2000 Bi2201 3 K 0 0 1 uV/K -9.6 annealing condition: under air at 680C Dragging excitation characteristics from thermoelectric power in Bi2(Sr2-yLay)CuO6 +z single crystals 2000 7 "Departement de Physique, Universite de Versailles St. Quentin, 45 Avenue des Etats-Unis, 78035 Versailles, France" "Phys.Rev.B,62,(2000)622-625" 31109 PR06200622 Annealing at 350C. TP300= at 290K. "Bi2(Sr,Bi,La)2CuO6" Bi2.1Sr1.74La0.16Cu1O6+Z Bi 2.1 Sr 1.74 La 0.16 Cu 1 O 6+Z 3 2000 Bi2201 3 K 7.5 7.5 1 uV/K -9.21 annealing condition: under air at 350C Dragging excitation characteristics from thermoelectric power in Bi2(Sr2-yLay)CuO6 +z single crystals 2000 7 "Departement de Physique, Universite de Versailles St. Quentin, 45 Avenue des Etats-Unis, 78035 Versailles, France" "Phys.Rev.B,62,(2000)622-625" 31110 PR06200622 Annealing at 450 - 480 C. TP300= at 290 K. "Bi2(Sr,Bi,La)2CuO6" Bi2.1Sr1.74La0.16Cu1O6+Z Bi 2.1 Sr 1.74 La 0.16 Cu 1 O 6+Z 3 2000 Bi2201 3 K 9.03 9.03 1 uV/K -7.09 annealing condition: under air at 450C-480C Dragging excitation characteristics from thermoelectric power in Bi2(Sr2-yLay)CuO6 +z single crystals 2000 7 "Departement de Physique, Universite de Versailles St. Quentin, 45 Avenue des Etats-Unis, 78035 Versailles, France" "Phys.Rev.B,62,(2000)622-625" 31111 PR06200622 Annealing at 350C. TP300= at 290K. "Bi2(Sr,Bi,La)2CuO6" Bi2.1Sr1.63La0.27Cu1O6+Z Bi 2.1 Sr 1.63 La 0.27 Cu 1 O 6+Z 3 2000 Bi2201 3 K 15.1 15.1 1 uV/K -5.24 annealing condition: under air at 350C Dragging excitation characteristics from thermoelectric power in Bi2(Sr2-yLay)CuO6 +z single crystals 2000 7 "Departement de Physique, Universite de Versailles St. Quentin, 45 Avenue des Etats-Unis, 78035 Versailles, France" "Phys.Rev.B,62,(2000)622-625" 31112 PR06200622 Annealing at 450-480 C. TP300= at 290K. "Bi2(Sr,Bi,La)2CuO6" Bi2.1Sr1.63La0.27Cu1O6+Z Bi 2.1 Sr 1.63 La 0.27 Cu 1 O 6+Z 3 2000 Bi2201 3 K 14.1 14.1 1 uV/K -3.79 annealing condition: under air at 450C-480C Dragging excitation characteristics from thermoelectric power in Bi2(Sr2-yLay)CuO6 +z single crystals 2000 7 "Departement de Physique, Universite de Versailles St. Quentin, 45 Avenue des Etats-Unis, 78035 Versailles, France" "Phys.Rev.B,62,(2000)622-625" 31113 PR06200622 Annealing at 350C. TP300= at 290K. "Bi2(Sr,Bi,La)2CuO6" Bi2.1Sr1.58La0.32Cu1O6+Z Bi 2.1 Sr 1.58 La 0.32 Cu 1 O 6+Z 3 2000 Bi2201 3 K 15 15 1 uV/K -5.24 annealing condition: under air at 350C Dragging excitation characteristics from thermoelectric power in Bi2(Sr2-yLay)CuO6 +z single crystals 2000 7 "Departement de Physique, Universite de Versailles St. Quentin, 45 Avenue des Etats-Unis, 78035 Versailles, France" "Phys.Rev.B,62,(2000)622-625" 31114 PR06200622 Annealing at 450-480C. TP300= at 290K. "Bi2(Sr,Bi,La)2CuO6" Bi2.1Sr1.58La0.32Cu1O6+Z Bi 2.1 Sr 1.58 La 0.32 Cu 1 O 6+Z 3 2000 Bi2201 3 K 13.5 13.5 1 uV/K -3.79 annealing condition: under air at 450C-480C Dragging excitation characteristics from thermoelectric power in Bi2(Sr2-yLay)CuO6 +z single crystals 2000 7 "Departement de Physique, Universite de Versailles St. Quentin, 45 Avenue des Etats-Unis, 78035 Versailles, France" "Phys.Rev.B,62,(2000)622-625" 31115 PR06200622 Annealing at 550-580C. TP300= at 290K. "Bi2(Sr,Bi,La)2CuO6" Bi2.1Sr1.55La0.32Cu1O6+Z Bi 2.1 Sr 1.55 La 0.32 Cu 1 O 6+Z 3 2000 Bi2201 3 K 12.1 12.1 1 uV/K -1.67 annealing condition: under air at 550C-580C Dragging excitation characteristics from thermoelectric power in Bi2(Sr2-yLay)CuO6 +z single crystals 2000 7 "Departement de Physique, Universite de Versailles St. Quentin, 45 Avenue des Etats-Unis, 78035 Versailles, France" "Phys.Rev.B,62,(2000)622-625" 31116 PR06200622 Annealing at 350C. TP300= at 290K. "Bi2(Sr,Bi,La)2CuO6" Bi2.1Sr1.55La0.35Cu1O6+Z Bi 2.1 Sr 1.55 La 0.35 Cu 1 O 6+Z 3 2000 Bi2201 3 K 12 12 1 uV/K 1.63 annealing condition: under air at 350C Dragging excitation characteristics from thermoelectric power in Bi2(Sr2-yLay)CuO6 +z single crystals 2000 7 "Departement de Physique, Universite de Versailles St. Quentin, 45 Avenue des Etats-Unis, 78035 Versailles, France" "Phys.Rev.B,62,(2000)622-625" 31117 PR06200622 Annealing at 550-580C. TP300= at 290K. "Bi2(Sr,Bi,La)2CuO6" Bi2.1Sr1.55La0.35Cu1O6+Z Bi 2.1 Sr 1.55 La 0.35 Cu 1 O 6+Z 3 2000 Bi2201 3 K 8 8 1 uV/K 4.27 annealing condition: under air at 450C-480C Dragging excitation characteristics from thermoelectric power in Bi2(Sr2-yLay)CuO6 +z single crystals 2000 7 "Departement de Physique, Universite de Versailles St. Quentin, 45 Avenue des Etats-Unis, 78035 Versailles, France" "Phys.Rev.B,62,(2000)622-625" 31118 PR06200622 Annealing at 680C. TP300= at 290K. "Bi2(Sr,Bi,La)2CuO6" Bi2.1Sr1.55La0.35Cu1O6+Z Bi 2.1 Sr 1.55 La 0.35 Cu 1 O 6+Z 3 2000 Bi2201 3 K 5.95 5.95 1 uV/K 6 annealing condition: under air at 550C-580C Dragging excitation characteristics from thermoelectric power in Bi2(Sr2-yLay)CuO6 +z single crystals 2000 7 "Departement de Physique, Universite de Versailles St. Quentin, 45 Avenue des Etats-Unis, 78035 Versailles, France" "Phys.Rev.B,62,(2000)622-625" 31119 PR06200622 Annealing at 350C. TP300= at 290K. "Bi2(Sr,Bi,La)2CuO6" Bi2.1Sr1.37La0.53Cu1O6+Z Bi 2.1 Sr 1.37 La 0.53 Cu 1 O 6+Z 3 2000 Bi2201 3 K 18.1 18.1 1 uV/K 1.5 annealing condition: under air at 350C Dragging excitation characteristics from thermoelectric power in Bi2(Sr2-yLay)CuO6 +z single crystals 2000 7 "Departement de Physique, Universite de Versailles St. Quentin, 45 Avenue des Etats-Unis, 78035 Versailles, France" "Phys.Rev.B,62,(2000)622-625" 31120 PR06200622 Annealing at 450-480C. TP300= at 290K. "Bi2(Sr,Bi,La)2CuO6" Bi2.1Sr1.37La0.53Cu1O6+Z Bi 2.1 Sr 1.37 La 0.53 Cu 1 O 6+Z 3 2000 Bi2201 3 K 17.1 17.1 1 uV/K 4.41 annealing condition: under air at 450C-480C Dragging excitation characteristics from thermoelectric power in Bi2(Sr2-yLay)CuO6 +z single crystals 2000 7 "Departement de Physique, Universite de Versailles St. Quentin, 45 Avenue des Etats-Unis, 78035 Versailles, France" "Phys.Rev.B,62,(2000)622-625" 31121 PR06200622 Annealing at 680C. TP300= at 290K. "Bi2(Sr,Bi,La)2CuO6" Bi2.1Sr1.37La0.53Cu1O6+Z Bi 2.1 Sr 1.37 La 0.53 Cu 1 O 6+Z 3 2000 Bi2201 3 K 12.3 12.3 1 uV/K 12.5 annealing condition: under air at 680C Dragging excitation characteristics from thermoelectric power in Bi2(Sr2-yLay)CuO6 +z single crystals 2000 7 "Departement de Physique, Universite de Versailles St. Quentin, 45 Avenue des Etats-Unis, 78035 Versailles, France" "Phys.Rev.B,62,(2000)622-625" 31122 PR06200622 Annealing at 350 C. TP300= at 290K. "Bi2(Sr,Bi,La)2CuO6" Bi2.1Sr1.15La0.75Cu1O6+Z Bi 2.1 Sr 1.15 La 0.75 Cu 1 O 6+Z 3 2000 Bi2201 3 K 15.1 15.1 1 uV/K 16.7 annealing condition: under air at 350C Dragging excitation characteristics from thermoelectric power in Bi2(Sr2-yLay)CuO6 +z single crystals 2000 7 "Departement de Physique, Universite de Versailles St. Quentin, 45 Avenue des Etats-Unis, 78035 Versailles, France" "Phys.Rev.B,62,(2000)622-625" 31123 PR06200622 Annealing at 680C. TP300= at 290K. "Bi2(Sr,Bi,La)2CuO6" Bi2.1Sr1.15La0.75Cu1O6+Z Bi 2.1 Sr 1.15 La 0.75 Cu 1 O 6+Z 3 2000 Bi2201 3 K 0 0 1 uV/K 25.3 annealing condition: under air at 680C Dragging excitation characteristics from thermoelectric power in Bi2(Sr2-yLay)CuO6 +z single crystals 2000 7 "Departement de Physique, Universite de Versailles St. Quentin, 45 Avenue des Etats-Unis, 78035 Versailles, France" "Phys.Rev.B,62,(2000)622-625" 31124 PR06200799 "(La,Ba)2CuO4" La1.95Ba0.05Cu1O4+Z La 1.95 Ba 0.05 Cu 1 O 4+Z 5 2000 T K mohmcm 4.5 8 electron-beam coevaporation method LSAO substrates Absence of 1/8 anomaly in strained thin films of La2-xBaxCuO4 +z 2000 7 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B,62,(2000)R799-R802" 31125 PR06200799 "(La,Ba)2CuO4" La1.925Ba0.075Cu1O4+Z La 1.925 Ba 0.075 Cu 1 O 4+Z 5 2000 T K 34 34 1 mohmcm 0.35 0.3 1.2 electron-beam coevaporation method LSAO substrates Absence of 1/8 anomaly in strained thin films of La2-xBaxCuO4 +z 2000 7 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B,62,(2000)R799-R802" 31126 PR06200799 "(La,Ba)2CuO4" La1.9Ba0.1Cu1O4+Z La 1.9 Ba 0.1 Cu 1 O 4+Z 5 2000 T K 38 38 1 mohmcm 0.23 0.2 0.8 electron-beam coevaporation method LSAO substrates Absence of 1/8 anomaly in strained thin films of La2-xBaxCuO4 +z 2000 7 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B,62,(2000)R799-R802" 31127 PR06200799 "(La,Ba)2CuO4" La1.89Ba0.11Cu1O4+Z La 1.89 Ba 0.11 Cu 1 O 4+Z 5 2000 T K 38 38 1 mohmcm 0.3 0.2 0.95 electron-beam coevaporation method LSAO substrates Absence of 1/8 anomaly in strained thin films of La2-xBaxCuO4 +z 2000 7 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B,62,(2000)R799-R802" 31128 PR06200799 "(La,Ba)2CuO4" La1.88Ba0.12Cu1O4+Z La 1.88 Ba 0.12 Cu 1 O 4+Z 5 2000 T K 39 39 1 mohmcm 0.2 0.12 0.7 electron-beam coevaporation method LSAO substrates Absence of 1/8 anomaly in strained thin films of La2-xBaxCuO4 +z 2000 7 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B,62,(2000)R799-R802" 31129 PR06200799 "(La,Ba)2CuO4" La1.875Ba0.125Cu1O4+Z La 1.875 Ba 0.125 Cu 1 O 4+Z 5 2000 T K 6 6 1 mohmcm 0.8 1 2 electron-beam coevaporation method STO substrates Absence of 1/8 anomaly in strained thin films of La2-xBaxCuO4 +z 2000 7 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B,62,(2000)R799-R802" 31130 PR06200799 "(La,Ba)2CuO4" La1.875Ba0.125Cu1O4+Z La 1.875 Ba 0.125 Cu 1 O 4+Z 5 2000 T K 40 40 1 mohmcm 0.2 0.15 0.6 electron-beam coevaporation method LSAO substrates Absence of 1/8 anomaly in strained thin films of La2-xBaxCuO4 +z 2000 7 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B,62,(2000)R799-R802" 31131 PR06200799 "(La,Ba)2CuO4" La1.87Ba0.13Cu1O4+Z La 1.87 Ba 0.13 Cu 1 O 4+Z 5 2000 T K 41 41 1 mohmcm 0.13 0.1 0.58 electron-beam coevaporation method LSAO substrates Absence of 1/8 anomaly in strained thin films of La2-xBaxCuO4 +z 2000 7 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B,62,(2000)R799-R802" 31132 PR06200799 "(La,Ba)2CuO4" La1.86Ba0.14Cu1O4+Z La 1.86 Ba 0.14 Cu 1 O 4+Z 5 2000 T K 42 42 1 mohmcm 0.12 0.1 0.52 electron-beam coevaporation method LSAO substrates Absence of 1/8 anomaly in strained thin films of La2-xBaxCuO4 +z 2000 7 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B,62,(2000)R799-R802" 31133 PR06200799 "(La,Ba)2CuO4" La1.85Ba0.15Cu1O4+Z La 1.85 Ba 0.15 Cu 1 O 4+Z 5 2000 T K 8 8 1 mohmcm 0.38 0.42 1 electron-beam coevaporation method STO substrates Absence of 1/8 anomaly in strained thin films of La2-xBaxCuO4 +z 2000 7 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B,62,(2000)R799-R802" 31134 PR06200799 "(La,Ba)2CuO4" La1.85Ba0.15Cu1O4+Z La 1.85 Ba 0.15 Cu 1 O 4+Z 5 2000 T K 43 43 1 mohmcm 0.1 0.05 0.45 electron-beam coevaporation method LSAO substrates Absence of 1/8 anomaly in strained thin films of La2-xBaxCuO4 +z 2000 7 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B,62,(2000)R799-R802" 31135 PR06200799 "(La,Ba)2CuO4" La1.8Ba0.2Cu1O4+Z La 1.8 Ba 0.2 Cu 1 O 4+Z 5 2000 T K 38 38 1 mohmcm 0.08 0.05 0.35 electron-beam coevaporation method LSAO substrates Absence of 1/8 anomaly in strained thin films of La2-xBaxCuO4 +z 2000 7 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B,62,(2000)R799-R802" 31136 PR06200799 "(La,Ba)2CuO4" La1.75Ba0.25Cu1O4+Z La 1.75 Ba 0.25 Cu 1 O 4+Z 5 2000 T K 29 29 1 mohmcm 0.05 0.055 0.23 electron-beam coevaporation method LSAO substrates Absence of 1/8 anomaly in strained thin films of La2-xBaxCuO4 +z 2000 7 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B,62,(2000)R799-R802" 31137 PR06200799 "(La,Ba)2CuO4" La1.7Ba0.3Cu1O4+Z La 1.7 Ba 0.3 Cu 1 O 4+Z 5 2000 T K 16 16 1 mohmcm 0.07 0.03 0.23 electron-beam coevaporation method LSAO substrates Absence of 1/8 anomaly in strained thin films of La2-xBaxCuO4 +z 2000 7 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B,62,(2000)R799-R802" 31138 PR06200799 "(La,Ba)2CuO4" La1.65Ba0.35Cu1O4+Z La 1.65 Ba 0.35 Cu 1 O 4+Z 5 2000 T K mohmcm 0.135 0.16 0.31 electron-beam coevaporation method LSAO substrates Absence of 1/8 anomaly in strained thin films of La2-xBaxCuO4 +z 2000 7 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B,62,(2000)R799-R802" 31139 PR06201244 "(Pr,Ce)2Sr2Cu2NbO10" Pr1.5Ce0.5Sr2Cu2Nb1O10 Pr 1.5 Ce 0.5 Sr 2 Cu 2 Nb 1 O 10 6 2000 Nb1222 A 3.97 28.75 K 28 28 Detection of the nearly invisible defect that disrupts bulk superconductivity in Pr1.5Ce0.5Sr2Cu2NbO10 2000 7 "Department of Physics, University of Notre Dame, Notre Dame, Indiana 46556" "Phys.Rev.B,62,(2000)1244-1251" 31140 PR06201350 NdBa2Cu3O7-z Nd1Ba2Cu3O7-Z Nd 1 Ba 2 Cu 3 O 7-Z 3 2000 Y123 K 93.8 93.8 2 ref 28 sample were grown under the same oxgen partial pressure of 0.1 % and fully oxygenated at 300 C for 150 h "Flux pinning by Nd4Ba2Cu2O10 inclusions in NdBa2Cu3O7-z superconductors: A combined effect of point, interface, and delta kappa pinning at elevated temperatures" 2000 7 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-16-25, Shibaura, Minato-ku, Tokyo 105-0023, Japan" "Phys.Rev.B,62,(2000)1350-1360" 31141 PR06201350 Nd4Ba2Cu2O10 inclusions (10 mol%) NdBa2Cu3O7-z Nd1Ba2Cu3O7-Z Nd 1 Ba 2 Cu 3 O 7-Z 2000 Y123 K 94.5 94.5 2 ref 29 sample were grown under the same oxgen partial pressure of 0.1 % and fully oxygenated at 300 C for 150 h "Flux pinning by Nd4Ba2Cu2O10 inclusions in NdBa2Cu3O7-z superconductors: A combined effect of point, interface, and delta kappa pinning at elevated temperatures" 2000 7 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-16-25, Shibaura, Minato-ku, Tokyo 105-0023, Japan" "Phys.Rev.B,62,(2000)1350-1360" 31142 PR06201350 Nd4Ba2Cu2O10 (10 mol%) + Pt (0.5 wtl%) + CeO2 (1.0 wt%) inclusions NdBa2Cu3O7-z Nd1Ba2Cu3O7-Z Nd 1 Ba 2 Cu 3 O 7-Z 2000 Y123 K 94.5 94.5 2 ref 30 sample were grown under the same oxgen partial pressure of 0.1 % and fully oxygenated at 300 C for 150 h "Flux pinning by Nd4Ba2Cu2O10 inclusions in NdBa2Cu3O7-z superconductors: A combined effect of point, interface, and delta kappa pinning at elevated temperatures" 2000 7 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-16-25, Shibaura, Minato-ku, Tokyo 105-0023, Japan" "Phys.Rev.B,62,(2000)1350-1360" 31143 PR06201350 Nd4Ba2Cu2O10 inclusions (20 mol%) NdBa2Cu3O7-z Nd1Ba2Cu3O7-Z Nd 1 Ba 2 Cu 3 O 7-Z 2000 Y123 K 94.5 94.5 2 ref 29 sample were grown under the same oxgen partial pressure of 0.1 % and fully oxygenated at 300 C for 150 h "Flux pinning by Nd4Ba2Cu2O10 inclusions in NdBa2Cu3O7-z superconductors: A combined effect of point, interface, and delta kappa pinning at elevated temperatures" 2000 7 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-16-25, Shibaura, Minato-ku, Tokyo 105-0023, Japan" "Phys.Rev.B,62,(2000)1350-1360" 31144 PR06201350 Nd4Ba2Cu2O10 inclusions (30 mol%) NdBa2Cu3O7-z Nd1Ba2Cu3O7-Z Nd 1 Ba 2 Cu 3 O 7-Z 2000 Y123 K 95 95 2 ref 29 sample were grown under the same oxgen partial pressure of 0.1 % and fully oxygenated at 300 C for 150 h "Flux pinning by Nd4Ba2Cu2O10 inclusions in NdBa2Cu3O7-z superconductors: A combined effect of point, interface, and delta kappa pinning at elevated temperatures" 2000 7 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-16-25, Shibaura, Minato-ku, Tokyo 105-0023, Japan" "Phys.Rev.B,62,(2000)1350-1360" 31145 PR06201387 PDHC2DT in fig5 "Bi2(Sr,La)2CuO6+z" Bi2Sr1.75La0.25Cu1O6+Z Bi 2 Sr 1.75 La 0.25 Cu 1 O 6+Z 3 2000 Bi2201 K 27.5 27.5 1 T/K uV/K 1.38 anneal condition: in flowing Ar gas at 680 C for 15h Giant dissipation peak and current effect of in-plane resistance in Bi2Sr2-xLaxCuO6 + y single crystals under magnetic fields 2000 7 "National Laboratory for Superconductivity, Institute of Physics and Center for Condensed Matter Physics, Chinese Academy of Sciences, P. O. Box 603, Beijing 100080, People's Republic of China" "Phys.Rev.B,62,(2000)1387-1391" 31200 PR06204148 HgBa2CuO4 Hg1Ba2Cu1O4.05 Hg 1 Ba 2 Cu 1 O 4+Z 4.05 1 2000 Hg1201 K 73.5 73.5 84.4 1 Synthesized by the sealed quartz tube technique(ref.21). The oxygen content was modified by different treatments under oxygen pressures within the range 180 and 1.7*10^-9 atm(ref.21). The oxygen content was determined bu thermogravimetric and neutron diffraction analyses(ref.21). Distinguishable effects of oxygen and rhenium in HgBa2CuO4 +z superconductors 2000 8 "Institut de Ci?ncia de Materials de Barcelona, Consejo Superior de Investigaciones Cient?ficas, Campus de la UAB, 08193 Bellaterra, Spain" "Phys.Rev.B, 62(2000)4148-4153" 31201 PR06204148 HgBa2CuO4 Hg1Ba2Cu1O4.15 Hg 1 Ba 2 Cu 1 O 4+Z 4.15 1 2000 Hg1201 K 96.8 96.8 92.3 1 Synthesized by the sealed quartz tube technique(ref.21). The oxygen content was modified by different treatments under oxygen pressures within the range 180 and 1.7*10^-9 atm(ref.21). The oxygen content was determined bu thermogravimetric and neutron diffraction analyses(ref.21). Distinguishable effects of oxygen and rhenium in HgBa2CuO4 +z superconductors 2000 8 "Institut de Ci?ncia de Materials de Barcelona, Consejo Superior de Investigaciones Cient?ficas, Campus de la UAB, 08193 Bellaterra, Spain" "Phys.Rev.B, 62(2000)4148-4153" 31202 PR06204148 HgBa2CuO4 Hg1Ba2Cu1O4.18 Hg 1 Ba 2 Cu 1 O 4+Z 4.18 1 2000 Hg1201 K 96.6 96.6 64 1 Synthesized by the sealed quartz tube technique(ref.21). The oxygen content was modified by different treatments under oxygen pressures within the range 180 and 1.7*10^-9 atm(ref.21). The oxygen content was determined bu thermogravimetric and neutron diffraction analyses(ref.21). Distinguishable effects of oxygen and rhenium in HgBa2CuO4 +z superconductors 2000 8 "Institut de Ci?ncia de Materials de Barcelona, Consejo Superior de Investigaciones Cient?ficas, Campus de la UAB, 08193 Bellaterra, Spain" "Phys.Rev.B, 62(2000)4148-4153" 31203 PR06204148 HgBa2CuO4 Hg1Ba2Cu1O4.2 Hg 1 Ba 2 Cu 1 O 4+Z 4.2 1 2000 Hg1201 K 94.2 94.2 50 1 Synthesized by the sealed quartz tube technique(ref.21). The oxygen content was modified by different treatments under oxygen pressures within the range 180 and 1.7*10^-9 atm(ref.21). The oxygen content was determined bu thermogravimetric and neutron diffraction analyses(ref.21). Distinguishable effects of oxygen and rhenium in HgBa2CuO4 +z superconductors 2000 8 "Institut de Ci?ncia de Materials de Barcelona, Consejo Superior de Investigaciones Cient?ficas, Campus de la UAB, 08193 Bellaterra, Spain" "Phys.Rev.B, 62(2000)4148-4153" 31204 PR06204148 "(Hg,Re)Ba2CuO4" Hg0.9Re0.1Ba2Cu1O4.33 Hg 0.9 Re 0.1 Ba 2 Cu 1 O 4+Z 4.33 1 2000 Hg1201 K 87.2 87.2 45.4 1 Synthesized by the sealed quartz tube technique(ref.21). The oxygen content was modified by different treatments under oxygen pressures within the range 180 and 1.7*10^-9 atm(ref.21). The oxygen content was determined bu thermogravimetric and neutron diffraction analyses(ref.21). Distinguishable effects of oxygen and rhenium in HgBa2CuO4 +z superconductors 2000 8 "Institut de Ci?ncia de Materials de Barcelona, Consejo Superior de Investigaciones Cient?ficas, Campus de la UAB, 08193 Bellaterra, Spain" "Phys.Rev.B, 62(2000)4148-4153" 31205 PR06204148 "(Hg,Re)Ba2CuO4" Hg0.9Re0.1Ba2Cu1O4.35 Hg 0.9 Re 0.1 Ba 2 Cu 1 O 4+Z 4.35 1 2000 Hg1201 K 90.5 90.5 43.8 1 Synthesized by the sealed quartz tube technique(ref.21). The oxygen content was modified by different treatments under oxygen pressures within the range 180 and 1.7*10^-9 atm(ref.21). The oxygen content was determined bu thermogravimetric and neutron diffraction analyses(ref.21). Distinguishable effects of oxygen and rhenium in HgBa2CuO4 +z superconductors 2000 8 "Institut de Ci?ncia de Materials de Barcelona, Consejo Superior de Investigaciones Cient?ficas, Campus de la UAB, 08193 Bellaterra, Spain" "Phys.Rev.B, 62(2000)4148-4153" 31206 PR06204148 "(Hg,Re)Ba2CuO4" Hg0.9Re0.1Ba2Cu1O4.41 Hg 0.9 Re 0.1 Ba 2 Cu 1 O 4+Z 4.41 1 2000 Hg1201 K 94.5 94.5 52.5 1 Synthesized by the sealed quartz tube technique(ref.21). The oxygen content was modified by different treatments under oxygen pressures within the range 180 and 1.7*10^-9 atm(ref.21). The oxygen content was determined bu thermogravimetric and neutron diffraction analyses(ref.21). Distinguishable effects of oxygen and rhenium in HgBa2CuO4 +z superconductors 2000 8 "Institut de Ci?ncia de Materials de Barcelona, Consejo Superior de Investigaciones Cient?ficas, Campus de la UAB, 08193 Bellaterra, Spain" "Phys.Rev.B, 62(2000)4148-4153" 31207 PR06204148 "(Hg,Re)Ba2CuO4" Hg0.9Re0.1Ba2Cu1O4.42 Hg 0.9 Re 0.1 Ba 2 Cu 1 O 4+Z 4.42 1 2000 Hg1201 K 93.8 93.8 39.5 1 Synthesized by the sealed quartz tube technique(ref.21). The oxygen content was modified by different treatments under oxygen pressures within the range 180 and 1.7*10^-9 atm(ref.21). The oxygen content was determined bu thermogravimetric and neutron diffraction analyses(ref.21). Distinguishable effects of oxygen and rhenium in HgBa2CuO4 +z superconductors 2000 8 "Institut de Ci?ncia de Materials de Barcelona, Consejo Superior de Investigaciones Cient?ficas, Campus de la UAB, 08193 Bellaterra, Spain" "Phys.Rev.B, 62(2000)4148-4153" 31208 PR06204148 "(Hg,Re)Ba2CuO4" Hg0.85Re0.15Ba2Cu1O4.49 Hg 0.85 Re 0.15 Ba 2 Cu 1 O 4+Z 4.49 1 2000 Hg1201 K 93.7 93.7 45.6 1 Synthesized by the sealed quartz tube technique(ref.21). The oxygen content was modified by different treatments under oxygen pressures within the range 180 and 1.7*10^-9 atm(ref.21). The oxygen content was determined bu thermogravimetric and neutron diffraction analyses(ref.21). Distinguishable effects of oxygen and rhenium in HgBa2CuO4 +z superconductors 2000 8 "Institut de Ci?ncia de Materials de Barcelona, Consejo Superior de Investigaciones Cient?ficas, Campus de la UAB, 08193 Bellaterra, Spain" "Phys.Rev.B, 62(2000)4148-4153" 31209 PR06204148 "(Hg,Re)Ba2CuO4" Hg0.85Re0.15Ba2Cu1O4.52 Hg 0.85 Re 0.15 Ba 2 Cu 1 O 4+Z 4.52 1 2000 Hg1201 K 94.8 94.8 39.8 1 Synthesized by the sealed quartz tube technique(ref.21). The oxygen content was modified by different treatments under oxygen pressures within the range 180 and 1.7*10^-9 atm(ref.21). The oxygen content was determined bu thermogravimetric and neutron diffraction analyses(ref.21). Distinguishable effects of oxygen and rhenium in HgBa2CuO4 +z superconductors 2000 8 "Institut de Ci?ncia de Materials de Barcelona, Consejo Superior de Investigaciones Cient?ficas, Campus de la UAB, 08193 Bellaterra, Spain" "Phys.Rev.B, 62(2000)4148-4153" 31211 PR06204148 "(Hg,Re)Ba2CuO4" Hg0.85Re0.15Ba2Cu1O4.55 Hg 0.85 Re 0.15 Ba 2 Cu 1 O 4+Z 4.55 1 2000 Hg1201 K 93.7 93.7 59.4 1 Synthesized by the sealed quartz tube technique(ref.21). The oxygen content was modified by different treatments under oxygen pressures within the range 180 and 1.7*10^-9 atm(ref.21). The oxygen content was determined bu thermogravimetric and neutron diffraction analyses(ref.21). Distinguishable effects of oxygen and rhenium in HgBa2CuO4 +z superconductors 2000 8 "Institut de Ci?ncia de Materials de Barcelona, Consejo Superior de Investigaciones Cient?ficas, Campus de la UAB, 08193 Bellaterra, Spain" "Phys.Rev.B, 62(2000)4148-4153" 31212 PR06204148 "(Hg,Re)Ba2CuO4" Hg0.85Re0.15Ba2Cu1O4.58 Hg 0.85 Re 0.15 Ba 2 Cu 1 O 4+Z 4.58 1 2000 Hg1201 K 34.7 34.7 56.8 1 Synthesized by the sealed quartz tube technique(ref.21). The oxygen content was modified by different treatments under oxygen pressures within the range 180 and 1.7*10^-9 atm(ref.21). The oxygen content was determined bu thermogravimetric and neutron diffraction analyses(ref.21). Distinguishable effects of oxygen and rhenium in HgBa2CuO4 +z superconductors 2000 8 "Institut de Ci?ncia de Materials de Barcelona, Consejo Superior de Investigaciones Cient?ficas, Campus de la UAB, 08193 Bellaterra, Spain" "Phys.Rev.B, 62(2000)4148-4153" 31220 PR06204148 "(Hg,Re)Ba2CuO4" Hg0.85Re0.15Ba2Cu1O4.53 Hg 0.85 Re 0.15 Ba 2 Cu 1 O 4+Z 4.53 1 2000 Hg1201 K 96.3 96.3 52.3 1 Synthesized by the sealed quartz tube technique(ref.21). The oxygen content was modified by different treatments under oxygen pressures within the range 180 and 1.7*10^-9 atm(ref.21). The oxygen content was determined bu thermogravimetric and neutron diffraction analyses(ref.21). Distinguishable effects of oxygen and rhenium in HgBa2CuO4 +z superconductors 2000 8 "Institut de Ci?ncia de Materials de Barcelona, Consejo Superior de Investigaciones Cient?ficas, Campus de la UAB, 08193 Bellaterra, Spain" "Phys.Rev.B, 62(2000)4148-4153" 31300 PR06205989 La2CuO4 La2Cu1O4.03 La 2 Cu 1 O 4+Z 4.03 6 2000 T A 5.396 5.356 13.144 3 K "La2O3, SrO, CuO" 1 "mixtures were calcined at 970 C for 20 h reground, then pressed into pellets and sintered at 90 C for 20 h. The pellets were heated in fllowing O2 at 450 C for 10 h and furnance cool." Band spectrum transformation and Tc variation in the La2-xSrxCuOy system in the underdoped and overdoped regimes 2000 9 "Department of Semiconductor Physics and Nanoelectronics, St. Petersburg State Technical University, 29 Polytekhnicheskaya, St.Petersburg, 195251, Russia" "Phys.Rev.B,62(2000)5989-5996" 31301 PR06205989 "(La,Sr)2CuO4" La1.95Sr0.05Cu1O4.02 La 1.95 Sr 0.05 Cu 1 O 4+Z 4.02 6 2000 T A 5.371 5.369 13.219 3 K uV/K 95.6 TP31301 "La2O3, SrO, CuO" 1 "mixtures were calcined at 970 C for 20 h reground, then pressed into pellets and sintered at 90 C for 20 h. The pellets were heated in fllowing O2 at 450 C for 10 h and furnance cool." Band spectrum transformation and Tc variation in the La2-xSrxCuOy system in the underdoped and overdoped regimes 2000 9 "Department of Semiconductor Physics and Nanoelectronics, St. Petersburg State Technical University, 29 Polytekhnicheskaya, St.Petersburg, 195251, Russia" "Phys.Rev.B,62(2000)5989-5996" 31302 PR06205989 "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4.01 La 1.9 Sr 0.1 Cu 1 O 4+Z 4.01 6 2000 T A 5.35 5.35 13.22 3 K 29 29 3 uV/K 42 TP31302 "La2O3, SrO, CuO" 1 "mixtures were calcined at 970 C for 20 h reground, then pressed into pellets and sintered at 90 C for 20 h. The pellets were heated in fllowing O2 at 450 C for 10 h and furnance cool." Band spectrum transformation and Tc variation in the La2-xSrxCuOy system in the underdoped and overdoped regimes 2000 9 "Department of Semiconductor Physics and Nanoelectronics, St. Petersburg State Technical University, 29 Polytekhnicheskaya, St.Petersburg, 195251, Russia" "Phys.Rev.B,62(2000)5989-5996" 31303 PR06205989 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O3.99 La 1.85 Sr 0.15 Cu 1 O 4+Z 3.99 6 2000 T A 5.34 5.34 13.237 3 K 33 33 3 uV/K 14.9 TP31303 "La2O3, SrO, CuO" 1 "mixtures were calcined at 970 C for 20 h reground, then pressed into pellets and sintered at 90 C for 20 h. The pellets were heated in fllowing O2 at 450 C for 10 h and furnance cool." Band spectrum transformation and Tc variation in the La2-xSrxCuOy system in the underdoped and overdoped regimes 2000 9 "Department of Semiconductor Physics and Nanoelectronics, St. Petersburg State Technical University, 29 Polytekhnicheskaya, St.Petersburg, 195251, Russia" "Phys.Rev.B,62(2000)5989-5996" 31304 PR06205989 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O3.95 La 1.8 Sr 0.2 Cu 1 O 4+Z 3.95 6 2000 T A 5.335 5.335 13.246 3 K 29 29 3 uV/K 8.1 TP31304 "La2O3, SrO, CuO" 1 "mixtures were calcined at 970 C for 20 h reground, then pressed into pellets and sintered at 90 C for 20 h. The pellets were heated in fllowing O2 at 450 C for 10 h and furnance cool." Band spectrum transformation and Tc variation in the La2-xSrxCuOy system in the underdoped and overdoped regimes 2000 9 "Department of Semiconductor Physics and Nanoelectronics, St. Petersburg State Technical University, 29 Polytekhnicheskaya, St.Petersburg, 195251, Russia" "Phys.Rev.B,62(2000)5989-5996" 31305 PR06205989 "(La,Sr)2CuO4" La1.75Sr0.25Cu1O3.93 La 1.75 Sr 0.25 Cu 1 O 4+Z 3.93 6 2000 T A 5.33 5.33 13.26 3 K 15 15 3 uV/K -0.5 TP31305 "La2O3, SrO, CuO" 1 "mixtures were calcined at 970 C for 20 h reground, then pressed into pellets and sintered at 90 C for 20 h. The pellets were heated in fllowing O2 at 450 C for 10 h and furnance cool." Band spectrum transformation and Tc variation in the La2-xSrxCuOy system in the underdoped and overdoped regimes 2000 9 "Department of Semiconductor Physics and Nanoelectronics, St. Petersburg State Technical University, 29 Polytekhnicheskaya, St.Petersburg, 195251, Russia" "Phys.Rev.B,62(2000)5989-5996" 31306 PR06205989 "(La,Sr)2CuO4" La1.7Sr0.3Cu1O3.9 La 1.7 Sr 0.3 Cu 1 O 4+Z 3.9 6 2000 T A 5.331 5.331 13.261 3 K uV/K 0.98 TP31306 "La2O3, SrO, CuO" 1 "mixtures were calcined at 970 C for 20 h reground, then pressed into pellets and sintered at 90 C for 20 h. The pellets were heated in fllowing O2 at 450 C for 10 h and furnance cool." Band spectrum transformation and Tc variation in the La2-xSrxCuOy system in the underdoped and overdoped regimes 2000 9 "Department of Semiconductor Physics and Nanoelectronics, St. Petersburg State Technical University, 29 Polytekhnicheskaya, St.Petersburg, 195251, Russia" "Phys.Rev.B,62(2000)5989-5996" 31307 PR06206754 "(La,Sr)3Mn2O7" La1.4Sr1.6Mn2O7 La 1.4 Sr 1.6 Mn 2 O 7 6 2000 60 Sr3Ti2O7 1/4mmm A 3.87 20.21 K uV/K -2.57 TP31307 ohmcm 6.5 6.5 "CaO, SrCO3, MnO2, La2O3" 1 The mixture were calcined at 1000 C and 1340 C in air. And it was pressed into plates which were sinterd at 1380 C for 20h. Two-dimensional magnetic correlation and transport behavior of layered manganite La1.4Sr1.6Mn2-xCuxO7 2000 9 "Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B,62(2000)6754-6760" 31308 PR06206754 "(La,Sr)3(Mn,Cu)2O7" La1.4Sr1.6Mn1.95Cu0.05O7 La 1.4 Sr 1.6 Mn 1.95 Cu 0.05 O 7 6 2000 Sr3Ti2O7 K ohmcm 140 "CaO, SrCO3, MnO2, La2O3" 1 The mixture were calcined at 1000 C and 1340 C in air. And it was pressed into plates which were sinterd at 1380 C for 20h. Two-dimensional magnetic correlation and transport behavior of layered manganite La1.4Sr1.6Mn2-xCuxO7 2000 9 "Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B,62(2000)6754-6760" 31309 PR06206754 "(La,Sr)3(Mn,Cu)2O7" La1.4Sr1.6Mn1.9Cu0.1O7 La 1.4 Sr 1.6 Mn 1.9 Cu 0.1 O 7 6 2000 Sr3Ti2O7 1/4mmm K ohmcm 200 "CaO, SrCO3, MnO2, La2O3" 1 The mixture were calcined at 1000 C and 1340 C in air. And it was pressed into plates which were sinterd at 1380 C for 20h. Two-dimensional magnetic correlation and transport behavior of layered manganite La1.4Sr1.6Mn2-xCuxO7 2000 9 "Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B,62(2000)6754-6760" 31310 PR06206754 "(La,Sr)3(Mn,Cu)2O7" La1.4Sr1.6Mn1.6Cu0.4O7 La 1.4 Sr 1.6 Mn 1.6 Cu 0.4 O 7 6 2000 Sr3Ti2O7 1/4mmm K ohmcm "CaO, SrCO3, MnO2, La2O3" 1 The mixture were calcined at 1000 C and 1340 C in air. And it was pressed into plates which were sinterd at 1380 C for 20h. Two-dimensional magnetic correlation and transport behavior of layered manganite La1.4Sr1.6Mn2-xCuxO7 2000 9 "Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B,62(2000)6754-6760" 31311 PR06206761 YBa2Cu3Oz Y1Ba2Cu3O6.4 Y 1 Ba 2 Cu 3 O 7-Z 6.4 3 2000 Y123 K 35 35 3 "Y2O3, BaCO3, CuO, ZnO" 1 The mixture were sintered at 900 C for 12 h in air and materials were mixed pelletized and sintered in air at 930 C 24 h. Post annealing was in O2 at 500 C for 24h. The Oxygen content was determined by iodometric titration. Anomalous muon-spin relaxation in the Zn-substituted YBa2Cu3-2yZn2yO7-z around the hole concentration of 1/8 per Cu 2000 9 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai, Miyagi 980-8579, Japan" "Phys.Rev.B,62(2000)6761-6765" 31312 PR06206761 YBa2Cu3-xZnxOz Y1Ba2Cu3O6.56 Y 1 Ba 2 Cu 3 O 7-Z 6.56 3 2000 Y123 K 59 59 3 "Y2O3, BaCO3, CuO, ZnO" 1 The mixture were sintered at 900 C for 12 h in air and materials were mixed pelletized and sintered in air at 930 C 24 h. Post annealing was in O2 at 500 C for 24h. The Oxygen content was determined by iodometric titration. Anomalous muon-spin relaxation in the Zn-substituted YBa2Cu3-2yZn2yO7-z around the hole concentration of 1/8 per Cu 2000 9 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai, Miyagi 980-8579, Japan" "Phys.Rev.B,62(2000)6761-6765" 31313 PR06206761 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu3O6.65 Y 1 Ba 2 Cu 3 O 7-Z 6.65 3 2000 Y123 K 67 67 3 "Y2O3, BaCO3, CuO, ZnO" 1 The mixture were sintered at 900 C for 12 h in air and materials were mixed pelletized and sintered in air at 930 C 24 h. Post annealing was in O2 at 500 C for 24h. The Oxygen content was determined by iodometric titration. Anomalous muon-spin relaxation in the Zn-substituted YBa2Cu3-2yZn2yO7-z around the hole concentration of 1/8 per Cu 2000 9 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai, Miyagi 980-8579, Japan" "Phys.Rev.B,62(2000)6761-6765" 31314 PR06206761 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu3O6.73 Y 1 Ba 2 Cu 3 O 7-Z 6.73 3 2000 Y123 K 78 78 3 "Y2O3, BaCO3, CuO, ZnO" 1 The mixture were sintered at 900 C for 12 h in air and materials were mixed pelletized and sintered in air at 930 C 24 h. Post annealing was in O2 at 500 C for 24h. The Oxygen content was determined by iodometric titration. Anomalous muon-spin relaxation in the Zn-substituted YBa2Cu3-2yZn2yO7-z around the hole concentration of 1/8 per Cu 2000 9 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai, Miyagi 980-8579, Japan" "Phys.Rev.B,62(2000)6761-6765" 31315 PR06206761 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.95Zn0.05O6.47 Y 1 Ba 2 Cu 2.95 Zn 0.05 O 7-Z 6.47 3 2000 Y123 K 18 18 3 "Y2O3, BaCO3, CuO, ZnO" 1 The mixture were sintered at 900 C for 12 h in air and materials were mixed pelletized and sintered in air at 930 C 24 h. Post annealing was in O2 at 500 C for 24h. The Oxygen content was determined by iodometric titration. Anomalous muon-spin relaxation in the Zn-substituted YBa2Cu3-2yZn2yO7-z around the hole concentration of 1/8 per Cu 2000 9 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai, Miyagi 980-8579, Japan" "Phys.Rev.B,62(2000)6761-6765" 31316 PR06206761 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.95Zn0.05O6.52 Y 1 Ba 2 Cu 2.95 Zn 0.05 O 7-Z 6.52 3 2000 Y123 K 23 23 3 "Y2O3, BaCO3, CuO, ZnO" 1 The mixture were sintered at 900 C for 12 h in air and materials were mixed pelletized and sintered in air at 930 C 24 h. Post annealing was in O2 at 500 C for 24h. The Oxygen content was determined by iodometric titration. Anomalous muon-spin relaxation in the Zn-substituted YBa2Cu3-2yZn2yO7-z around the hole concentration of 1/8 per Cu 2000 9 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai, Miyagi 980-8579, Japan" "Phys.Rev.B,62(2000)6761-6765" 31317 PR06206761 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.95Zn0.05O6.56 Y 1 Ba 2 Cu 2.95 Zn 0.05 O 7-Z 6.56 3 2000 Y123 K 24 24 3 "Y2O3, BaCO3, CuO, ZnO" 1 The mixture were sintered at 900 C for 12 h in air and materials were mixed pelletized and sintered in air at 930 C 24 h. Post annealing was in O2 at 500 C for 24h. The Oxygen content was determined by iodometric titration. Anomalous muon-spin relaxation in the Zn-substituted YBa2Cu3-2yZn2yO7-z around the hole concentration of 1/8 per Cu 2000 9 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai, Miyagi 980-8579, Japan" "Phys.Rev.B,62(2000)6761-6765" 31318 PR06206761 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.95Zn0.05O6.62 Y 1 Ba 2 Cu 2.95 Zn 0.05 O 7-Z 6.62 3 2000 Y123 K 21 21 3 "Y2O3, BaCO3, CuO, ZnO" 1 The mixture were sintered at 900 C for 12 h in air and materials were mixed pelletized and sintered in air at 930 C 24 h. Post annealing was in O2 at 500 C for 24h. The Oxygen content was determined by iodometric titration. Anomalous muon-spin relaxation in the Zn-substituted YBa2Cu3-2yZn2yO7-z around the hole concentration of 1/8 per Cu 2000 9 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai, Miyagi 980-8579, Japan" "Phys.Rev.B,62(2000)6761-6765" 31319 PR06206761 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.95Zn0.05O6.63 Y 1 Ba 2 Cu 2.95 Zn 0.05 O 7-Z 6.63 3 2000 Y123 K 25 25 3 "Y2O3, BaCO3, CuO, ZnO" 1 The mixture were sintered at 900 C for 12 h in air and materials were mixed pelletized and sintered in air at 930 C 24 h. Post annealing was in O2 at 500 C for 24h. The Oxygen content was determined by iodometric titration. Anomalous muon-spin relaxation in the Zn-substituted YBa2Cu3-2yZn2yO7-z around the hole concentration of 1/8 per Cu 2000 9 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai, Miyagi 980-8579, Japan" "Phys.Rev.B,62(2000)6761-6765" 31320 PR06206761 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.95Zn0.05O6.69 Y 1 Ba 2 Cu 2.95 Zn 0.05 O 7-Z 6.69 3 2000 Y123 K 25 25 3 "Y2O3, BaCO3, CuO, ZnO" 1 The mixture were sintered at 900 C for 12 h in air and materials were mixed pelletized and sintered in air at 930 C 24 h. Post annealing was in O2 at 500 C for 24h. The Oxygen content was determined by iodometric titration. Anomalous muon-spin relaxation in the Zn-substituted YBa2Cu3-2yZn2yO7-z around the hole concentration of 1/8 per Cu 2000 9 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai, Miyagi 980-8579, Japan" "Phys.Rev.B,62(2000)6761-6765" 31321 PR06206761 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.95Zn0.05O6.7 Y 1 Ba 2 Cu 2.95 Zn 0.05 O 7-Z 6.7 3 2000 Y123 K 25 25 3 "Y2O3, BaCO3, CuO, ZnO" 1 The mixture were sintered at 900 C for 12 h in air and materials were mixed pelletized and sintered in air at 930 C 24 h. Post annealing was in O2 at 500 C for 24h. The Oxygen content was determined by iodometric titration. Anomalous muon-spin relaxation in the Zn-substituted YBa2Cu3-2yZn2yO7-z around the hole concentration of 1/8 per Cu 2000 9 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai, Miyagi 980-8579, Japan" "Phys.Rev.B,62(2000)6761-6765" 31322 PR06206761 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.95Zn0.05O6.72 Y 1 Ba 2 Cu 2.95 Zn 0.05 O 7-Z 6.72 3 2000 Y123 K 35 35 3 "Y2O3, BaCO3, CuO, ZnO" 1 The mixture were sintered at 900 C for 12 h in air and materials were mixed pelletized and sintered in air at 930 C 24 h. Post annealing was in O2 at 500 C for 24h. The Oxygen content was determined by iodometric titration. Anomalous muon-spin relaxation in the Zn-substituted YBa2Cu3-2yZn2yO7-z around the hole concentration of 1/8 per Cu 2000 9 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai, Miyagi 980-8579, Japan" "Phys.Rev.B,62(2000)6761-6765" 31323 PR06206761 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.95Zn0.05O6.75 Y 1 Ba 2 Cu 2.95 Zn 0.05 O 7-Z 6.75 3 2000 Y123 K 48 48 3 "Y2O3, BaCO3, CuO, ZnO" 1 The mixture were sintered at 900 C for 12 h in air and materials were mixed pelletized and sintered in air at 930 C 24 h. Post annealing was in O2 at 500 C for 24h. The Oxygen content was determined by iodometric titration. Anomalous muon-spin relaxation in the Zn-substituted YBa2Cu3-2yZn2yO7-z around the hole concentration of 1/8 per Cu 2000 9 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai, Miyagi 980-8579, Japan" "Phys.Rev.B,62(2000)6761-6765" 31324 PR06206761 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.95Zn0.05O6.8 Y 1 Ba 2 Cu 2.95 Zn 0.05 O 7-Z 6.8 3 2000 Y123 K 60 60 3 "Y2O3, BaCO3, CuO, ZnO" 1 The mixture were sintered at 900 C for 12 h in air and materials were mixed pelletized and sintered in air at 930 C 24 h. Post annealing was in O2 at 500 C for 24h. The Oxygen content was determined by iodometric titration. Anomalous muon-spin relaxation in the Zn-substituted YBa2Cu3-2yZn2yO7-z around the hole concentration of 1/8 per Cu 2000 9 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai, Miyagi 980-8579, Japan" "Phys.Rev.B,62(2000)6761-6765" 32000 PRL0760122 T2Ba2CuOz Tl2Ba2Cu1O6 Tl 2 Ba 2 Cu 1 O 7-Z 6 3 1996 Tl2201 K 25 25 mohmcm 0.03 40 0.02 30 0.18 220 5 self-flux method in almina crucibles seald with gold foil anneal: in flowing O2 at 720 K for three days before in O2 for 10 min at 740 K Angular Dependence of the c-axis Normal State Magnetoresistance in Single Crystal Tl2Ba2CuO6 1996 1 "Interdisciplinary Research Centre in Superconductivity, University of Cambridge, Madingley Road, Cambridge, CB3 OHE, United Kingdom" "Phys.Rev.Lett.,76(1996)122" 32001 PRL0760684 YBa2Cu3Oz Y1Ba2Cu3O6.63 Y 1 Ba 2 Cu 3 O 7-Z 6.63 3 1996 Y123 K 76 76 3 mohmcm 0.1 0.1 0.55 5 self-flux method ( CuO-BaO ) anneal: ref[9] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32002 PRL0760684 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.97Zn0.03O6.63 Y 1 Ba 2 Cu 2.97 Zn 0.03 O 7-Z 6.63 3 1996 Y123 K 45 45 3 mohmcm 0.2 0.15 0.68 5 self-flux method ( CuO-BaO ) anneal: ref[9] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32003 PRL0760684 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.94Zn0.06O6.63 Y 1 Ba 2 Cu 2.94 Zn 0.06 O 7-Z 6.63 3 1996 Y123 K 30 30 3 mohmcm 0.25 0.2 0.7 5 self-flux method ( CuO-BaO ) anneal: ref[9] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32004 PRL0760684 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.91Zn0.09O6.63 Y 1 Ba 2 Cu 2.91 Zn 0.09 O 7-Z 6.63 3 1996 Y123 K mohmcm 0.4 0.42 0.82 5 self-flux method ( CuO-BaO ) anneal: ref[9] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32005 PRL0760684 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.91Zn0.09O6.63 Y 1 Ba 2 Cu 2.91 Zn 0.09 O 7-Z 6.63 3 1996 Y123 K mohmcm 0.5 0.46 0.86 5 self-flux method ( CuO-BaO ) anneal: ref[9] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32006 PRL0760684 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.88Zn0.12O6.63 Y 1 Ba 2 Cu 2.88 Zn 0.12 O 7-Z 6.63 3 1996 Y123 K mohmcm 0.6 0.55 0.91 5 self-flux method ( CuO-BaO ) anneal: ref[9] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32007 PRL0760684 YBa2Cu3Oz Y1Ba2Cu3O6.93 Y 1 Ba 2 Cu 3 O 7-Z 6.93 3 1996 Y123 K 90 90 3 mohmcm 0.04 0.18 5 self-flux method ( CuO-BaO ) anneal: ref[9] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32008 PRL0760684 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.97Zn0.03O6.93 Y 1 Ba 2 Cu 2.97 Zn 0.03 O 7-Z 6.93 3 1996 Y123 K 82 82 3 mohmcm 0.06 0.21 5 self-flux method ( CuO-BaO ) anneal: ref[9] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32009 PRL0760684 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.94Zn0.06O6.93 Y 1 Ba 2 Cu 2.94 Zn 0.06 O 7-Z 6.93 3 1996 Y123 K 75 75 3 mohmcm 0.1 0.08 0.26 5 self-flux method ( CuO-BaO ) anneal: ref[9] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32010 PRL0760684 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.91Zn0.09O6.93 Y 1 Ba 2 Cu 2.91 Zn 0.09 O 7-Z 6.93 3 1996 Y123 K 55 55 3 mohmcm 0.15 0.12 0.33 5 self-flux method ( CuO-BaO ) anneal: ref[9] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32011 PRL0760684 YBa2Cu3Oz Y1Ba2Cu3O6.68 Y 1 Ba 2 Cu 3 O 7-Z 6.68 3 1996 Y123 K 15 15 3 mohmcm 0.08 0.08 0.42 5 self-flux method ( CuO-BaO ) anneal: ref[9] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32012 PRL0760684 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.94Zn0.06O6.68 Y 1 Ba 2 Cu 2.94 Zn 0.06 O 7-Z 6.68 3 1996 Y123 K 25 25 3 mohmcm 0.24 0.22 0.65 5 self-flux method ( CuO-BaO ) anneal: ref[9] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32013 PRL0760684 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.91Zn0.09O6.68 Y 1 Ba 2 Cu 2.91 Zn 0.09 O 7-Z 6.68 3 1996 Y123 K 60 60 3 mohmcm 0.36 0.32 0.85 5 self-flux method ( CuO-BaO ) anneal: ref[9] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32014 PRL0760684 YBa2Cu3Oz Y1Ba2Cu3O6.73 Y 1 Ba 2 Cu 3 O 7-Z 6.73 3 1996 Y123 K 62 62 3 mohmcm 0.08 0.08 0.35 5 self-flux method ( CuO-BaO ) anneal: ref[9] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32015 PRL0760684 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.94Zn0.06O6.73 Y 1 Ba 2 Cu 2.94 Zn 0.06 O 7-Z 6.73 3 1996 Y123 K 35 35 3 mohmcm 0.2 0.18 0.52 5 self-flux method ( CuO-BaO ) anneal: ref[9] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32016 PRL0760684 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.91Zn0.09O6.73 Y 1 Ba 2 Cu 2.91 Zn 0.09 O 7-Z 6.73 3 1996 Y123 K 25 25 3 mohmcm 0.3 0.25 0.65 5 self-flux method ( CuO-BaO ) anneal: ref[9] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32017 PRL0760684 YBa2Cu3Oz Y1Ba2Cu3O6.83 Y 1 Ba 2 Cu 3 O 7-Z 6.83 3 1996 Y123 K 90 90 3 mohmcm 0.06 0.27 5 self-flux method ( CuO-BaO ) anneal: ref[9] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32018 PRL0760684 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.94Zn0.06O6.83 Y 1 Ba 2 Cu 2.94 Zn 0.06 O 7-Z 6.83 3 1996 Y123 K 55 55 3 mohmcm 0.15 0.14 0.42 5 self-flux method ( CuO-BaO ) anneal: ref[9] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32019 PRL0760684 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.91Zn0.09O6.83 Y 1 Ba 2 Cu 2.91 Zn 0.09 O 7-Z 6.83 3 1996 Y123 K 45 45 3 mohmcm 0.22 0.2 0.5 5 self-flux method ( CuO-BaO ) anneal: ref[9] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32020 PRL0760684 "(La,Sr)2(Cu,Zn)Oz" La1.9Sr0.1Cu0.98Zn0.02O4 La 1.9 Sr 0.1 Cu 0.98 Zn 0.02 O 4 3 1996 T K mohmcm 0.75 0.45 0.98 7 TSFZ method ref[8] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32021 PRL0760684 "(La,Sr)2(Cu,Zn)Oz" La1.85Sr0.15Cu0.98Zn0.02O4 La 1.85 Sr 0.15 Cu 0.98 Zn 0.02 O 4 3 1996 T K 20 20 3 mohmcm 0.25 0.23 0.62 7 TSFZ method ref[8] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32022 PRL0760684 "(La,Sr)2(Cu,Zn)Oz" La1.7Sr0.3Cu0.98Zn0.02O4 La 1.7 Sr 0.3 Cu 0.98 Zn 0.02 O 4 3 1996 T K mohmcm 0.05 0.06 0.2 7 TSFZ method ref[8] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32023 PRL0760684 "(La,Sr)2CuOz" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 3 1996 T K 27 27 3 mohmcm 0.25 0.18 0.6 7 TSFZ method ref[8] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32024 PRL0760684 "(La,Sr)2CuOz" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 3 1996 T K 37 37 3 mohmcm 0.1 0.04 0.4 7 TSFZ method ref[8] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32025 PRL0760684 "(La,Sr)2CuOz" La1.7Sr0.3Cu1O4 La 1.7 Sr 0.3 Cu 1 O 4 3 1996 T K mohmcm 0.04 0.18 7 TSFZ method ref[8] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32026 PRL0760684 "(La,Sr)2(Cu,Zn)Oz" La1.85Sr0.15Cu0.995Zn0.005O4 La 1.85 Sr 0.15 Cu 0.995 Zn 0.005 O 4 3 1996 T K 30 30 3 mohmcm 0.15 0.1 0.48 7 TSFZ method ref[8] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32027 PRL0760684 "(La,Sr)2(Cu,Zn)Oz" La1.85Sr0.15Cu0.99Zn0.01O4 La 1.85 Sr 0.15 Cu 0.99 Zn 0.01 O 4 3 1996 T K 28 28 3 mohmcm 0.18 0.12 0.53 7 TSFZ method ref[8] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32028 PRL0760684 "(La,Sr)2(Cu,Zn)Oz" La1.85Sr0.15Cu0.985Zn0.015O4 La 1.85 Sr 0.15 Cu 0.985 Zn 0.015 O 4 3 1996 T K 22 22 3 mohmcm 0.2 0.15 0.53 7 TSFZ method ref[8] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32029 PRL0760684 "(La,Sr)2(Cu,Zn)Oz" La1.85Sr0.15Cu0.96Zn0.04O4 La 1.85 Sr 0.15 Cu 0.96 Zn 0.04 O 4 3 1996 T K mohmcm 0.62 0.68 7 TSFZ method ref[8] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32030 PRL0760684 "(La,Sr)2CuOz" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 3 1996 T K 32 32 3 mohmcm 0.06 0.04 0.25 7 TSFZ method ref[8] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32031 PRL0760684 "(La,Sr)2(Cu,Zn)Oz" La1.8Sr0.2Cu0.99Zn0.01O4 La 1.8 Sr 0.2 Cu 0.99 Zn 0.01 O 4 3 1996 T K 27 27 3 mohmcm 0.07 0.048 0.26 7 TSFZ method ref[8] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32032 PRL0760684 "(La,Sr)2(Cu,Zn)Oz" La1.8Sr0.2Cu0.98Zn0.02O4 La 1.8 Sr 0.2 Cu 0.98 Zn 0.02 O 4 3 1996 T K 22 22 3 mohmcm 0.09 0.052 0.275 7 TSFZ method ref[8] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32033 PRL0760684 "(La,Sr)2(Cu,Zn)Oz" La1.8Sr0.2Cu0.96Zn0.04O4 La 1.8 Sr 0.2 Cu 0.96 Zn 0.04 O 4 3 1996 T K mohmcm 0.07 0.13 0.32 7 TSFZ method ref[8] Universal Superconductor-Insulator Transition and Tc Depression in Zn-Substituted High-Tc Cuprates in the Underdoped Regime 1996 1 "Department of Superconductivity, University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,76(1996)1074" 32034 PRL0761348 "(La,Ca,Nd)2CuOz" La1.75Ca0.15Nd0.1Cu1O4 La 1.75 Ca 0.15 Nd 0.1 Cu 1 O 4 1 1996 T 4 K 30.5 30.5 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32035 PRL0761348 "(La,Ca,Nd)2CuOz" La1.65Ca0.15Nd0.2Cu1O4 La 1.65 Ca 0.15 Nd 0.2 Cu 1 O 4 1 1996 T 4 K 30 30 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32036 PRL0761348 "(La,Ca,Nd)2CuOz" La1.55Ca0.15Nd0.3Cu1O4 La 1.55 Ca 0.15 Nd 0.3 Cu 1 O 4 1 1996 T 4 K 28 28 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32037 PRL0761348 "(La,Ca,Nd)2CuOz" La1.45Ca0.15Nd0.4Cu1O4 La 1.45 Ca 0.15 Nd 0.4 Cu 1 O 4 1 1996 T 4 K 27.5 27.5 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32038 PRL0761348 "(La,Ca,Nd)2CuOz" La1.35Ca0.15Nd0.5Cu1O4 La 1.35 Ca 0.15 Nd 0.5 Cu 1 O 4 1 1996 T 4 K 26 26 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32039 PRL0761348 "(La,Ca,Nd)2CuOz" La1.25Ca0.15Nd0.6Cu1O4 La 1.25 Ca 0.15 Nd 0.6 Cu 1 O 4 1 1996 T 4 K 25 25 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32040 PRL0761348 "(La,Ca,Nd)2CuOz" La1.05Ca0.15Nd0.8Cu1O4 La 1.05 Ca 0.15 Nd 0.8 Cu 1 O 4 1 1996 T 4 K 24.5 24.5 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32041 PRL0761348 "(La,Ca,Nd)2CuOz" La0.85Ca0.15Nd1Cu1O4 La 0.85 Ca 0.15 Nd 1 Cu 1 O 4 1 1996 T 4 K 23 23 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32042 PRL0761348 "(La,Ca)2CuOz" La1.92Ca0.08Cu1O4 La 1.92 Ca 0.08 Cu 1 O 4 1 1996 T 4 K 16 16 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32043 PRL0761348 "(La,Ca)2CuOz" La1.91Ca0.09Cu1O4 La 1.91 Ca 0.09 Cu 1 O 4 1 1996 T 4 K 20 20 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32044 PRL0761348 "(La,Ca)2CuOz" La1.9Ca0.1Cu1O4 La 1.9 Ca 0.1 Cu 1 O 4 1 1996 T 4 K 22 22 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32045 PRL0761348 "(La,Ca)2CuOz" La1.89Ca0.11Cu1O4 La 1.89 Ca 0.11 Cu 1 O 4 1 1996 T 4 K 23 23 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32046 PRL0761348 "(La,Ca)2CuOz" La1.885Ca0.115Cu1O4 La 1.885 Ca 0.115 Cu 1 O 4 1 1996 T 4 K 23 23 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32047 PRL0761348 "(La,Ca)2CuOz" La1.88Ca0.12Cu1O4 La 1.88 Ca 0.12 Cu 1 O 4 1 1996 T 4 K 24 24 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32048 PRL0761348 "(La,Ca)2CuOz" La1.875Ca0.125Cu1O4 La 1.875 Ca 0.125 Cu 1 O 4 1 1996 T 4 K 26 26 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32049 PRL0761348 "(La,Ca)2CuOz" La1.87Ca0.13Cu1O4 La 1.87 Ca 0.13 Cu 1 O 4 1 1996 T 4 K 28 28 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32050 PRL0761348 "(La,Ca)2CuOz" La1.86Ca0.14Cu1O4 La 1.86 Ca 0.14 Cu 1 O 4 1 1996 T 4 K 32 32 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32051 PRL0761348 "(La,Ca)2CuOz" La1.85Ca0.15Cu1O4 La 1.85 Ca 0.15 Cu 1 O 4 1 1996 T 4 K 34 34 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32052 PRL0761348 "(La,Ca)2CuOz" La1.84Ca0.16Cu1O4 La 1.84 Ca 0.16 Cu 1 O 4 1 1996 T 4 K 34 34 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32053 PRL0761348 "(La,Ca)2CuOz" La1.83Ca0.17Cu1O4 La 1.83 Ca 0.17 Cu 1 O 4 1 1996 T 4 K 34 34 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32054 PRL0761348 "(La,Ca)2CuOz" La1.82Ca0.18Cu1O4 La 1.82 Ca 0.18 Cu 1 O 4 1 1996 T 4 K 33 33 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32055 PRL0761348 "(La,Ca)2CuOz" La1.81Ca0.19Cu1O4 La 1.81 Ca 0.19 Cu 1 O 4 1 1996 T 4 K 32 32 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32056 PRL0761348 "(La,Ca)2CuOz" La1.8Ca0.2Cu1O4 La 1.8 Ca 0.2 Cu 1 O 4 1 1996 T 4 K 30 30 3 ref[8] "Dependence of Superconducting Transition Temperature on Doping and Structural Distortion of the CuO2 Planes in La2-xMxCuO4 (M=Nd,Ca,Sr)" 1996 2 "Physics Department ,Northern Illinois University, DeKalb,Illinois 60115" "Phys.Rev.Lett.,76(1996)1348" 32057 PRL0770928 YBa2Cu3Oz Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 5 1996 Y123 K 80 80 mohmcm 40 60 ref[8] c-Axis Conductivity and Intrinsic Josephson Effects in YBa2Cu3O7-z 1996 7 "Physik Department E10, Technische Universitat Munchen, 85747 Garching, Germany" "Phys.Rev.Lett.,77(1996)928" 32058 PRL0770928 YBa2Cu3Oz Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 5 1996 Y123 K 53 53 mohmcm 140 150 ref[8] c-Axis Conductivity and Intrinsic Josephson Effects in YBa2Cu3O7-z 1996 7 "Physik Department E10, Technische Universitat Munchen, 85747 Garching, Germany" "Phys.Rev.Lett.,77(1996)928" 32059 PRL0770928 YBa2Cu3Oz Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 5 1996 Y123 K 45 45 mohmcm 360 400 190 ref[8] c-Axis Conductivity and Intrinsic Josephson Effects in YBa2Cu3O7-z 1996 7 "Physik Department E10, Technische Universitat Munchen, 85747 Garching, Germany" "Phys.Rev.Lett.,77(1996)928" 32060 PRL0770928 YBa2Cu3Oz Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 5 1996 Y123 K 42 42 mohmcm 550 580 210 ref[8] c-Axis Conductivity and Intrinsic Josephson Effects in YBa2Cu3O7-z 1996 7 "Physik Department E10, Technische Universitat Munchen, 85747 Garching, Germany" "Phys.Rev.Lett.,77(1996)928" 32061 PRL0771378 Sr14Cu24O41 Sr14Cu24O41 Sr 14 Cu 24 O 41 41 6 1996 LAD K mohmcm 250 "SrCO3, CaCO3, LaO3, CuO" ref[14] "Hole Doping of the CuO2 Chains in (La,Sr,Ca)14Cu24O41" 1996 8 "AT&T Bell Laboratoried, Murray Hill, New Jersey 07974" "Phys.Rev.Lett.,77(1996)1378" 32062 PRL0771378 "(Sr,Ca)14Cu24O41" Sr12Ca2Cu24O41 Sr 12 Ca 2 Cu 24 O 41 41 6 1996 LAD K mohmcm 1000000000 100 "SrCO3, CaCO3, LaO3, CuO" ref[14] "Hole Doping of the CuO2 Chains in (La,Sr,Ca)14Cu24O41" 1996 8 "AT&T Bell Laboratoried, Murray Hill, New Jersey 07974" "Phys.Rev.Lett.,77(1996)1378" 32063 PRL0771378 "(Sr,Ca)14Cu24O41" Sr10Ca4Cu24O41 Sr 10 Ca 4 Cu 24 O 41 41 6 1996 LAD K mohmcm 6395000 32 "SrCO3, CaCO3, LaO3, CuO" ref[14] "Hole Doping of the CuO2 Chains in (La,Sr,Ca)14Cu24O41" 1996 8 "AT&T Bell Laboratoried, Murray Hill, New Jersey 07974" "Phys.Rev.Lett.,77(1996)1378" 32064 PRL0771378 "(Sr,Ca)14Cu24O41" Sr8Ca6Cu24O41 Sr 8 Ca 6 Cu 24 O 41 41 6 1996 LAD K mohmcm 15850 20 "SrCO3, CaCO3, LaO3, CuO" ref[14] "Hole Doping of the CuO2 Chains in (La,Sr,Ca)14Cu24O41" 1996 8 "AT&T Bell Laboratoried, Murray Hill, New Jersey 07974" "Phys.Rev.Lett.,77(1996)1378" 32065 PRL0771378 "(Sr,Ca)14Cu24O41" Sr6Ca8Cu24O41 Sr 6 Ca 8 Cu 24 O 41 41 6 1996 LAD K mohmcm 630 10 "SrCO3, CaCO3, LaO3, CuO" ref[14] "Hole Doping of the CuO2 Chains in (La,Sr,Ca)14Cu24O41" 1996 8 "AT&T Bell Laboratoried, Murray Hill, New Jersey 07974" "Phys.Rev.Lett.,77(1996)1378" 32066 PRL0771378 "(Sr,Ca)14Cu24O41" Sr4Ca10Cu24O41 Sr 4 Ca 10 Cu 24 O 41 41 6 1996 LAD K mohmcm 25118000 200 10 "SrCO3, CaCO3, LaO3, CuO" ref[14] "Hole Doping of the CuO2 Chains in (La,Sr,Ca)14Cu24O41" 1996 8 "AT&T Bell Laboratoried, Murray Hill, New Jersey 07974" "Phys.Rev.Lett.,77(1996)1378" 32067 PRL0771837 "Bi2Sr2(Ca,Pr)Cu2Oz" Bi2Sr2Ca0.3Pr0.7Cu2OZ Bi 2 Sr 2 Ca 0.3 Pr 0.7 Cu 2 O Z 1 1996 Bi2212 K mohmcm 300000 200 60 ref[9] "Coexistence of Superconductivity and Localization in Bi2Sr2(Caz,Pr1-z)Cu2O8+y" 1996 8 "II. Physikalisches Institut der Rheinisch-Westfalische Technische Hochschule Aachen, D-52056 Aachen, Germany" "Phys.Rev.Lett.,77(1996)1837" 32068 PRL0771837 "Bi2Sr2(Ca,Pr)Cu2Oz" Bi2Sr2Ca0.4Pr0.6Cu2OZ Bi 2 Sr 2 Ca 0.4 Pr 0.6 Cu 2 O Z 1 1996 Bi2212 K mohmcm 300 30 18 ref[9] "Coexistence of Superconductivity and Localization in Bi2Sr2(Caz,Pr1-z)Cu2O8+y" 1996 8 "II. Physikalisches Institut der Rheinisch-Westfalische Technische Hochschule Aachen, D-52056 Aachen, Germany" "Phys.Rev.Lett.,77(1996)1837" 32069 PRL0771837 "Bi2Sr2(Ca,Pr)Cu2Oz" Bi2Sr2Ca0.5Pr0.5Cu2OZ Bi 2 Sr 2 Ca 0.5 Pr 0.5 Cu 2 O Z 1 1996 Bi2212 K mohmcm 40 15 12 ref[9] "Coexistence of Superconductivity and Localization in Bi2Sr2(Caz,Pr1-z)Cu2O8+y" 1996 8 "II. Physikalisches Institut der Rheinisch-Westfalische Technische Hochschule Aachen, D-52056 Aachen, Germany" "Phys.Rev.Lett.,77(1996)1837" 32070 PRL0771837 "Bi2Sr2(Ca,Pr)Cu2Oz" Bi2Sr2Ca0.6Pr0.4Cu2OZ Bi 2 Sr 2 Ca 0.6 Pr 0.4 Cu 2 O Z 1 1996 Bi2212 K 25 25 3 mohmcm 8 4 9 ref[9] "Coexistence of Superconductivity and Localization in Bi2Sr2(Caz,Pr1-z)Cu2O8+y" 1996 8 "II. Physikalisches Institut der Rheinisch-Westfalische Technische Hochschule Aachen, D-52056 Aachen, Germany" "Phys.Rev.Lett.,77(1996)1837" 32071 PRL0771837 "Bi2Sr2(Ca,Pr)Cu2Oz" Bi2Sr2Ca0.7Pr0.3Cu2OZ Bi 2 Sr 2 Ca 0.7 Pr 0.3 Cu 2 O Z 1 1996 Bi2212 K 74 74 3 mohmcm 2.2 3 ref[9] "Coexistence of Superconductivity and Localization in Bi2Sr2(Caz,Pr1-z)Cu2O8+y" 1996 8 "II. Physikalisches Institut der Rheinisch-Westfalische Technische Hochschule Aachen, D-52056 Aachen, Germany" "Phys.Rev.Lett.,77(1996)1837" 32072 PRL0771837 "Bi2Sr2(Ca,Pr)Cu2Oz" Bi2Sr2Ca0.9Pr0.1Cu2OZ Bi 2 Sr 2 Ca 0.9 Pr 0.1 Cu 2 O Z 1 1996 Bi2212 K 77 77 3 mohmcm 1.1 2 ref[9] "Coexistence of Superconductivity and Localization in Bi2Sr2(Caz,Pr1-z)Cu2O8+y" 1996 8 "II. Physikalisches Institut der Rheinisch-Westfalische Technische Hochschule Aachen, D-52056 Aachen, Germany" "Phys.Rev.Lett.,77(1996)1837" 32073 PRL0772065 A Bi2Sr2-xLaxCuOz Bi2Sr1.95La0.05Cu1OZ Bi 2 Sr 1.95 La 0.05 Cu 1 O Z 3 1996 Bi2201 K 13 13 3 mohmcm 2.6 3200 2.5 5200 ref[14] Metallic In-Plane and Divergent Out-of-Plane Resistivity of a High-Tc Cuprate in the Zero-Temperature Limit 1996 9 "Bell Laboratories, Lucent Technologies, 700 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.Lett.,77(1996)2065" 32074 PRL0772065 B Bi2Sr2-xLaxCuOz Bi2Sr1.95La0.05Cu1OZ Bi 2 Sr 1.95 La 0.05 Cu 1 O Z 3 1996 Bi2201 K 13 13 3 mohmcm 0.4 1200 0.3 2000 ref[14] Metallic In-Plane and Divergent Out-of-Plane Resistivity of a High-Tc Cuprate in the Zero-Temperature Limit 1996 9 "Bell Laboratories, Lucent Technologies, 700 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.Lett.,77(1996)2065" 32075 PRL0772065 C Bi2Sr2-xLaxCuOz Bi2Sr1.95La0.05Cu1OZ Bi 2 Sr 1.95 La 0.05 Cu 1 O Z 3 1996 Bi2201 K 14 14 3 mohmcm 0.09 1800 0.08 4000 ref[14] Metallic In-Plane and Divergent Out-of-Plane Resistivity of a High-Tc Cuprate in the Zero-Temperature Limit 1996 9 "Bell Laboratories, Lucent Technologies, 700 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys.Rev.Lett.,77(1996)2065" 32076 PRL0774253 a-axis resistivity YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 3 1996 Y124 K 81 81 K/kbar 0.58 uV/K TP32076 uohmcm 250 1450 ref[6] Transport Properties of a YBa2Cu4O8 Crystal under High Pressure 1996 11 "Center for Material Science and Engineering, University of Texas at Austin, Austin, Texas 78712" "Phys.Rev.Lett.,77(1996)4253" 32100 PRL0781976 detwined YBa2Cu3Oz Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 7-Z 6.9 3 1997 Y123 K 93.8 0.2 93.8 3 W/mK THC32100 5 self-decanting flux method[6] anneal: for 240h at 500 C in O2 flow and quenched. Anisotropy of Heat Conduction in YBa2Cu3O6.9 : A Probe of Chain Superconductivity 1997 5 "Department of Physics, McGill University, 3600 University Street, Montreal, Quebec, Canada H3A 2T8" "Phys.Rev.Lett.,78(1997)1976" 32101 PRL0782624 YBa2Cu3Oz Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 7-Z 6.9 3 1997 Y123 K 93 93 mW/Kcm THC32101 5 self-flux method[14] Angular Position of Nodes in the Superconducting Gap of YBCO 1997 3 "Laboratoire de Physique des Solides (associe au CNRS), Universite Paris-Sud, 91405 Orsay, France" "Phys.Rev.Lett.,78(1997)2624" 32102 PRL0783757 asgrown HgBa2CuOz Hg1Ba2Cu1OZ Hg 1 Ba 2 Cu 1 O Z 6 1997 Hg1201 K 89 89 single step gold amalgamation technique [9] anneal: 300 C in O2 at 0.3 bar for one or two days <17>O NMR Evidence for a Pseudogap in the Monolayer HgBa2CuO4+z 1997 5 "LPS, URA2 CNRS, 91405 Orsay Cedex, France" "Phys.Rev.Lett.,78(1997)3757" 32103 PRL0783757 underdoped HgBa2CuOz Hg1Ba2Cu1OZ Hg 1 Ba 2 Cu 1 O Z 6 1997 Hg1201 K 75 75 single step gold amalgamation technique [9] anneal: 450 C in N2 at 1 atm <17>O NMR Evidence for a Pseudogap in the Monolayer HgBa2CuO4+z 1997 5 "LPS, URA2 CNRS, 91405 Orsay Cedex, France" "Phys.Rev.Lett.,78(1997)3757" 32104 PRL0784833 detwined YBa2Cu3Oz Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 3 1997 Y123 K 92 92 mJ/molK2 55 "ref[5, 6]" Anisotropic Latent Heat of Vortex-Lattice Melting in Untwinned YBa2Cu3O7-z 1997 6 "Lawrence Berkeley National Laboratory and Department of Chemistry, University of California, Berkeley, California 94720" "Phys.Rev.Lett.,78(1997)4833" 32105 PRL0792113 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.2135 Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 8.2135 3 1997 Bi2212 K 70 70 3 mohmcm 0.3 52000 0.91 8000 7 TSFZ method under a mixed gas O2(20%)+Ar(80%) flow Z was obtained by a thermogravimetric measurements {P(O2) > 10e-4 atm} Anistropic Resistivites of Precisely Oxygen Controlled Single-Crystal Bi2Sr2CaCu2O8+delta: Systematic Study on 1997 9 "Phys. Rev. Lett., 79(1997)2113" 32106 PRL0792113 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.217 Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 8.217 3 1997 Bi2212 K 3 mohmcm 0.26 39500 0.82 7000 7 TSFZ method under a mixed gas O2(20%)+Ar(80%) flow Z was obtained by a thermogravimetric measurements {P(O2) > 10e-4 atm} Anistropic Resistivites of Precisely Oxygen Controlled Single-Crystal Bi2Sr2CaCu2O8+delta: Systematic Study on 1997 9 "Phys. Rev. Lett., 79(1997)2113" 32107 PRL0792113 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.22 Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 8.22 3 1997 Bi2212 K 3 mohmcm 0.25 29500 0.64 6000 7 TSFZ method under a mixed gas O2(20%)+Ar(80%) flow Z was obtained by a thermogravimetric measurements {P(O2) > 10e-4 atm} Anistropic Resistivites of Precisely Oxygen Controlled Single-Crystal Bi2Sr2CaCu2O8+delta: Systematic Study on 1997 9 "Phys. Rev. Lett., 79(1997)2113" 32108 PRL0792113 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.224 Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 8.224 3 1997 Bi2212 K 89 89 3 mohmcm 0.2 19000 0.52 5000 7 TSFZ method under a mixed gas O2(20%)+Ar(80%) flow Z was obtained by a thermogravimetric measurements {P(O2) > 10e-4 atm} Anistropic Resistivites of Precisely Oxygen Controlled Single-Crystal Bi2Sr2CaCu2O8+delta: Systematic Study on 1997 9 "Phys. Rev. Lett., 79(1997)2113" 32109 PRL0792113 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.245 Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 8.245 3 1997 Bi2212 K 90 90 3 mohmcm 0.15 0.44 7 TSFZ method under a mixed gas O2(20%)+Ar(80%) flow Z was obtained by a thermogravimetric measurements {P(O2) > 10e-4 atm} Anistropic Resistivites of Precisely Oxygen Controlled Single-Crystal Bi2Sr2CaCu2O8+delta: Systematic Study on 1997 9 "Phys. Rev. Lett., 79(1997)2113" 32110 PRL0792113 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.255 Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 8.255 3 1997 Bi2212 K 3 mohmcm 0.13 0.37 7 TSFZ method under a mixed gas O2(20%)+Ar(80%) flow Z was obtained by a thermogravimetric measurements {P(O2) > 10e-4 atm} Anistropic Resistivites of Precisely Oxygen Controlled Single-Crystal Bi2Sr2CaCu2O8+delta: Systematic Study on 1997 9 "Phys. Rev. Lett., 79(1997)2113" 32111 PRL0792113 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.26 Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 8.26 3 1997 Bi2212 K 3 mohmcm 0.12 6000 0.33 3000 7 TSFZ method under a mixed gas O2(20%)+Ar(80%) flow Z was obtained by a thermogravimetric measurements {P(O2) > 10e-4 atm} Anistropic Resistivites of Precisely Oxygen Controlled Single-Crystal Bi2Sr2CaCu2O8+delta: Systematic Study on 1997 9 "Phys. Rev. Lett., 79(1997)2113" 32112 PRL0792113 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.27 Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 8.27 3 1997 Bi2212 K 84 84 3 mohmcm 0.09 4000 0.25 2200 7 TSFZ method under a mixed gas O2(20%)+Ar(80%) flow Z was obtained by a thermogravimetric measurements {P(O2) > 10e-4 atm} Anistropic Resistivites of Precisely Oxygen Controlled Single-Crystal Bi2Sr2CaCu2O8+delta: Systematic Study on 1997 9 "Phys. Rev. Lett., 79(1997)2113" 32113 PRL0790483 YBa2Cu3Oz Y1Ba2Cu3O6 Y 1 Ba 2 Cu 3 O Z 6 3 1997 Y123 K mW/K2cm THC32113 "ref[5, 6] Zn:Cu = 1.5x:1-x x = 0, 0.006, 0.02, 0.03" anneal : at 800 C in He gas for 64h Universal Heat Conduction in YBa2Cu3O6.9 1997 7 "Department of Physics, McGill University, Montreal, Quebec, Canada H3A 2T8" "Phys.Rev.Lett.,79(1997)483" 32114 PRL0790483 YBa2Cu3Oz Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 7-Z 6.9 3 1997 Y123 K 93.6 93.6 mW/K2cm THC32114 "ref[5, 6] Zn:Cu = 1.5x:1-x x = 0, 0.006, 0.02, 0.03" anneal : at 800 C in He gas for 64h Universal Heat Conduction in YBa2Cu3O6.9 1997 7 "Department of Physics, McGill University, Montreal, Quebec, Canada H3A 2T8" "Phys.Rev.Lett.,79(1997)483" 32115 PRL0790483 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.982Zn0.018O6.9 Y 1 Ba 2 Cu 2.982 Zn 0.018 O 7-Z 6.9 3 1997 Y123 K 89.2 89.2 mW/K2cm THC32115 "ref[5, 6] Zn:Cu = 1.5x:1-x x = 0, 0.006, 0.02, 0.03" anneal : at 800 C in He gas for 64h Universal Heat Conduction in YBa2Cu3O6.9 1997 7 "Department of Physics, McGill University, Montreal, Quebec, Canada H3A 2T8" "Phys.Rev.Lett.,79(1997)483" 32116 PRL0790483 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.94Zn0.06O6.9 Y 1 Ba 2 Cu 2.94 Zn 0.06 O 7-Z 6.9 3 1997 Y123 K 80 80 mW/K2cm THC32116 "ref[5, 6] Zn:Cu = 1.5x:1-x x = 0, 0.006, 0.02, 0.03" anneal : at 800 C in He gas for 64h Universal Heat Conduction in YBa2Cu3O6.9 1997 7 "Department of Physics, McGill University, Montreal, Quebec, Canada H3A 2T8" "Phys.Rev.Lett.,79(1997)483" 32117 PRL0790483 "YBa2(Cu,Zn)3Oz" Y1Ba2Cu2.91Zn0.09O6.9 Y 1 Ba 2 Cu 2.91 Zn 0.09 O 7-Z 6.9 3 1997 Y123 K 74.6 74.6 mW/K2cm THC32117 "ref[5, 6] Zn:Cu = 1.5x:1-x x = 0, 0.006, 0.02, 0.03" anneal : at 800 C in He gas for 64h Universal Heat Conduction in YBa2Cu3O6.9 1997 7 "Department of Physics, McGill University, Montreal, Quebec, Canada H3A 2T8" "Phys.Rev.Lett.,79(1997)483" 32205 PRL0800385 reduced HgBa2CuOz Hg1Ba2Cu1O4 Hg 1 Ba 2 Cu 1 O 4 1 1998 Hg1201 A 3.8915 9.529 K 61 61 Ba2CuO3+z +HgO synthesized [7]. reduced sample Effect of Fluorination on the Structure and Superconducting Properties of the Hg-1201 Phase 1998 1 "Department of Chemistry, Moscow State University, 119899 Moscow, Russia" "Phys.Rev.Lett.,80(1998)385-388" 32206 PRL0800385 "fluorination(150C,15h)" HgBa2CuOzF0.1 Hg1Ba2Cu1O4 Hg 1 Ba 2 Cu 1 O 4 1 1998 Hg1201 A 3.8828 9.523 K 97 97 Ba2CuO3+z +HgO synthesized [7]. M=0.1 anneal: 150C for 15h (M is the molar ratio of XeF2 to Hg1201) Effect of Fluorination on the Structure and Superconducting Properties of the Hg-1201 Phase 1998 1 "Department of Chemistry, Moscow State University, 119899 Moscow, Russia" "Phys.Rev.Lett.,80(1998)385-388" 32207 PRL0800385 "fluorination(200C,15h)" HgBa2CuOzF0.3 Hg1Ba2Cu1O4 Hg 1 Ba 2 Cu 1 O 4 1 1998 Hg1201 A 3.8825 9.51 K 97 97 Ba2CuO3+z +HgO synthesized [7]. M=0.3 anneal: 200C for 15h (M is the molar ratio of XeF2 to Hg1201) Effect of Fluorination on the Structure and Superconducting Properties of the Hg-1201 Phase 1998 1 "Department of Chemistry, Moscow State University, 119899 Moscow, Russia" "Phys.Rev.Lett.,80(1998)385-388" 32208 PRL0800385 "fluorination(200C,15h)" HgBa2CuOzF0.5 Hg1Ba2Cu1O4 Hg 1 Ba 2 Cu 1 O 4 1 1998 Hg1201 A 3.8788 9.498 K 96 96 Ba2CuO3+z +HgO synthesized [7]. M=0.5 anneal: 200C for 15h (M is the molar ratio of XeF2 to Hg1201) Effect of Fluorination on the Structure and Superconducting Properties of the Hg-1201 Phase 1998 1 "Department of Chemistry, Moscow State University, 119899 Moscow, Russia" "Phys.Rev.Lett.,80(1998)385-388" 32209 PRL0800385 "fluorination(200C,20h)" HgBa2CuOzF0.4 Hg1Ba2Cu1O4 Hg 1 Ba 2 Cu 1 O 4 1 1998 Hg1201 A 3.8742 9.493 K 80 80 Ba2CuO3+z +HgO synthesized [7]. M=0.4 anneal: 200C for 20h (M is the molar ratio of XeF2 to Hg1201) Effect of Fluorination on the Structure and Superconducting Properties of the Hg-1201 Phase 1998 1 "Department of Chemistry, Moscow State University, 119899 Moscow, Russia" "Phys.Rev.Lett.,80(1998)385-388" 32210 PRL0800385 "fluorination(200C,30h)" HgBa2CuOzF0.3 Hg1Ba2Cu1O4 Hg 1 Ba 2 Cu 1 O 4 1 1998 Hg1201 A 3.8721 9.482 K 80 80 Ba2CuO3+z +HgO synthesized [7]. M=0.3 anneal: 200C for 30h (M is the molar ratio of XeF2 to Hg1201) Effect of Fluorination on the Structure and Superconducting Properties of the Hg-1201 Phase 1998 1 "Department of Chemistry, Moscow State University, 119899 Moscow, Russia" "Phys.Rev.Lett.,80(1998)385-388" 32211 PRL0800385 "fluorination(200C,50h)" HgBa2CuOzF1.0 Hg1Ba2Cu1O4 Hg 1 Ba 2 Cu 1 O 4 1 1998 Hg1201 A 3.8679 9.459 K Ba2CuO3+z +HgO synthesized [7]. M=1.0 anneal: 200C for 50h (M is the molar ratio of XeF2 to Hg1201) Effect of Fluorination on the Structure and Superconducting Properties of the Hg-1201 Phase 1998 1 "Department of Chemistry, Moscow State University, 119899 Moscow, Russia" "Phys.Rev.Lett.,80(1998)385-388" 32212 PRL0800841 PrBa2Cu3Oz Pr1Ba2Cu3OZ Pr 1 Ba 2 Cu 3 O Z 3 1998 Y123 K mohmcm 666.67 50000 6.67 1428 1.25 8.33 ref[12] Two-Dimentional Localization and Superconductor-Insulator Transition in Strongly Underdoped Single Craystals of Y1-xPrxBa2Cu3O7-delta 1998 1 "Department of Physics, Kent State University, Kent, Ohio 44242" "Phys.Rev.Lett.,80(1998)841-844" 32213 PRL0801074 PrBa2Cu3Oz Pr1Ba2Cu3OZ Pr 1 Ba 2 Cu 3 O Z 3 1998 3 Y123 Pmmm A 3.872 3.931 11.772 1 K 80 80 3 K/Gpa 3.9 "Pr5O11, BaCO3, CuO (4N)" 7 "Pr:Ba:Cu=1.05:1.95:2.96, TSFZ method [13,14] in 0.1%O2+Ar flow gas" anneal: in a-Al2O3 crucible at 850 C for 24 h and then 550 C for 77h in O2 flow Superconducting PrBa2Cu3Ox 1998 1 "Electrotechnical Laboratory, 1-1-4 Umezono, Tsukuba, Ibaraki 305, Japan" "Phys.Rev.Lett.,80(1998)1074-1077" 32214 PRL0801968 Anisotropy factor = 248 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 1998 Bi2212 K 89 89 W/K2m THC32214 7 TSFZ method [8] Low-Temperature Anomaly in Thermal Conductivity of Bi2Sr2Ca(Cu1-xNix)2O8: Second Superconducting Phase? 1998 1 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545" "Phys.Rev.Lett.,80(1998)1968-1971" 32215 PRL0801968 "Ni-content estimated from earlier report (J.Low Temp.Phys., 105(1996)927). Anisotropy factor = 148." "Bi2Sr2Ca(Cu,Ni)2Oz" Bi2Sr2Ca1Cu1.98Ni0.02O8 Bi 2 Sr 2 Ca 1 Cu 1.98 Ni 0.02 O 8 3 1998 Bi2212 K 78 78 W/K2m THC32215 7 TSFZ method [8] Low-Temperature Anomaly in Thermal Conductivity of Bi2Sr2Ca(Cu1-xNix)2O8: Second Superconducting Phase? 1998 1 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545" "Phys.Rev.Lett.,80(1998)1968-1971" 32216 PRL0801968 "Ni-content estimated from earlier report (J.Low Temp.Phys., 105(1996)927). Anisotropy factor = 126." "Bi2Sr2Ca(Cu,Ni)2Oz" Bi2Sr2Ca1Cu1.97Ni0.03O8 Bi 2 Sr 2 Ca 1 Cu 1.97 Ni 0.03 O 8 3 1998 Bi2212 K 77 77 W/K2m THC32216 7 TSFZ method [8] Low-Temperature Anomaly in Thermal Conductivity of Bi2Sr2Ca(Cu1-xNix)2O8: Second Superconducting Phase? 1998 1 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545" "Phys.Rev.Lett.,80(1998)1968-1971" 32217 PRL0801968 "Ni-content estimated from earlier report (J.Low Temp.Phys., 105(1996)927). Anisotropy factor = 79." "Bi2Sr2Ca(Cu,Ni)2Oz" Bi2Sr2Ca1Cu1.952Ni0.048O8 Bi 2 Sr 2 Ca 1 Cu 1.952 Ni 0.048 O 8 3 1998 Bi2212 K 74 74 W/K2m THC32217 7 TSFZ method [8] Low-Temperature Anomaly in Thermal Conductivity of Bi2Sr2Ca(Cu1-xNix)2O8: Second Superconducting Phase? 1998 1 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545" "Phys.Rev.Lett.,80(1998)1968-1971" 32223 PRL0805192 "(Y,Ca)Ba2Cu3Oz" Y0.97Ca0.03Ba2Cu3O6 Y 0.97 Ca 0.03 Ba 2 Cu 3 O 7-Z 6 3 1998 Y123 K 0 0 Site-Specific X-Ray Absorption Spectroscopy of Y1-xCaxBa2Cu3O7-y : Overdoping and Role of Apical Oxygen for High Temperature Superconductivity 1998 6 "Forschungszentrum Karlsruhe, INFP, P.O. Box 3640, D-76021 Karlsruhe, Federal Republic of Germany" "Phys.Rev.Lett.,80(1998)5192-5195" 32224 PRL0805192 "(Y,Ca)Ba2Cu3Oz" Y0.88Ca0.12Ba2Cu3O6 Y 0.88 Ca 0.12 Ba 2 Cu 3 O 7-Z 6 3 1998 Y123 K 0 0 Site-Specific X-Ray Absorption Spectroscopy of Y1-xCaxBa2Cu3O7-y : Overdoping and Role of Apical Oxygen for High Temperature Superconductivity 1998 6 "Forschungszentrum Karlsruhe, INFP, P.O. Box 3640, D-76021 Karlsruhe, Federal Republic of Germany" "Phys.Rev.Lett.,80(1998)5192-5195" 32225 PRL0805192 "(Y,Ca)Ba2Cu3Oz" Y0.77Ca0.23Ba2Cu3O6 Y 0.77 Ca 0.23 Ba 2 Cu 3 O 7-Z 6 3 1998 Y123 K 0 0 Site-Specific X-Ray Absorption Spectroscopy of Y1-xCaxBa2Cu3O7-y : Overdoping and Role of Apical Oxygen for High Temperature Superconductivity 1998 6 "Forschungszentrum Karlsruhe, INFP, P.O. Box 3640, D-76021 Karlsruhe, Federal Republic of Germany" "Phys.Rev.Lett.,80(1998)5192-5195" 32226 PRL0805192 YBa2Cu3Oz Y1Ba2Cu3O6.5 Y 1 Ba 2 Cu 3 O 7-Z 6.5 3 1998 Y123 K 55 55 Site-Specific X-Ray Absorption Spectroscopy of Y1-xCaxBa2Cu3O7-y : Overdoping and Role of Apical Oxygen for High Temperature Superconductivity 1998 6 "Forschungszentrum Karlsruhe, INFP, P.O. Box 3640, D-76021 Karlsruhe, Federal Republic of Germany" "Phys.Rev.Lett.,80(1998)5192-5195" 32227 PRL0805192 YBa2Cu3Oz Y1Ba2Cu3O6.91 Y 1 Ba 2 Cu 3 O 7-Z 6.91 3 1998 Y123 K 92 92 Site-Specific X-Ray Absorption Spectroscopy of Y1-xCaxBa2Cu3O7-y : Overdoping and Role of Apical Oxygen for High Temperature Superconductivity 1998 6 "Forschungszentrum Karlsruhe, INFP, P.O. Box 3640, D-76021 Karlsruhe, Federal Republic of Germany" "Phys.Rev.Lett.,80(1998)5192-5195" 32228 PRL0805192 "(Y,Ca)Ba2Cu3Oz" Y0.9Ca0.1Ba2Cu3O6.91 Y 0.9 Ca 0.1 Ba 2 Cu 3 O 7-Z 6.91 3 1998 Y123 K 78 78 Site-Specific X-Ray Absorption Spectroscopy of Y1-xCaxBa2Cu3O7-y : Overdoping and Role of Apical Oxygen for High Temperature Superconductivity 1998 6 "Forschungszentrum Karlsruhe, INFP, P.O. Box 3640, D-76021 Karlsruhe, Federal Republic of Germany" "Phys.Rev.Lett.,80(1998)5192-5195" 32229 PRL0811090 P-induced SC. Superconducting transition shows under high pressure. Tc=9K at 4.5 Gpa. "(Sr,Ca)14Cu24O41" Sr3.5Ca11.5Cu24O41 Sr 3.5 Ca 11.5 Cu 24 O 41 41 3 1998 LAD K 9 0 9 mohmcm 0.33 7.5 0.9 7 TSFZ method under O2 gas at 10 atm. Pressure-Induced Dimensional Crossover and Superconductivity in the Hole-Doped Two-Leg LadderCompound Sr14-xCaxCu24O41 1998 8 "Department of Physics, Aoyama-Gakuin University, Chitosedai, Setagaya-ku, Tokyo 157, Japan" "Phys.Rev.Lett.,81(1998)1090-1093" 32231 PRL0812542 {110}STM YBa2Cu3Oz Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 3 1998 Y123 K 90 1 90 meV 27 7 Crystal-pulling technique[18] anneal: for 2week in O2 gas and reannealed in ultrapure O2 gas at 450C for 24h followed by slow cooling "Directional Tunneling and Andreev Reflection on YBa2Cu3O7-z Single Crystals : Predominance of d-Wave Pairing Symmetry Verified with the Generalized Blonder, Tinkham, and Klapwijk Theory" 1998 9 "Department of Physics, California Institute of Technology, Pasadena, California 91125" "Phys.Rev.Lett.,81(1998)2542-2545" 32232 PRL0812542 {110}point contuct YBa2Cu3Oz Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 3 1998 Y123 K 90 1 90 meV 27 7 Crystal-pulling technique[18] anneal: for 2week in O2 gas and reannealed in ultrapure O2 gas at 450C for 24h followed by slow cooling "Directional Tunneling and Andreev Reflection on YBa2Cu3O7-z Single Crystals : Predominance of d-Wave Pairing Symmetry Verified with the Generalized Blonder, Tinkham, and Klapwijk Theory" 1998 9 "Department of Physics, California Institute of Technology, Pasadena, California 91125" "Phys.Rev.Lett.,81(1998)2542-2545" 32233 PRL0812542 {100}STM YBa2Cu3Oz Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 3 1998 Y123 K 90 1 90 meV 29 7.5 Crystal-pulling technique[18] anneal: for 2week in O2 gas and reannealed in ultrapure O2 gas at 450C for 24h followed by slow cooling "Directional Tunneling and Andreev Reflection on YBa2Cu3O7-z Single Crystals : Predominance of d-Wave Pairing Symmetry Verified with the Generalized Blonder, Tinkham, and Klapwijk Theory" 1998 9 "Department of Physics, California Institute of Technology, Pasadena, California 91125" "Phys.Rev.Lett.,81(1998)2542-2545" 32234 PRL0812542 {100}point contuct YBa2Cu3Oz Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 3 1998 Y123 K 90 1 90 meV 28 7.2 Crystal-pulling technique[18] anneal: for 2week in O2 gas and reannealed in ultrapure O2 gas at 450C for 24h followed by slow cooling "Directional Tunneling and Andreev Reflection on YBa2Cu3O7-z Single Crystals : Predominance of d-Wave Pairing Symmetry Verified with the Generalized Blonder, Tinkham, and Klapwijk Theory" 1998 9 "Department of Physics, California Institute of Technology, Pasadena, California 91125" "Phys.Rev.Lett.,81(1998)2542-2545" 32235 PRL0812542 {001}STM YBa2Cu3Oz Y1Ba2Cu3OZ Y 1 Ba 2 Cu 3 O Z 3 1998 Y123 K 90 1 90 meV 19 4.9 Crystal-pulling technique[18] anneal: for 2week in O2 gas and reannealed in ultrapure O2 gas at 450C for 24h followed by slow cooling "Directional Tunneling and Andreev Reflection on YBa2Cu3O7-z Single Crystals : Predominance of d-Wave Pairing Symmetry Verified with the Generalized Blonder, Tinkham, and Klapwijk Theory" 1998 9 "Department of Physics, California Institute of Technology, Pasadena, California 91125" "Phys.Rev.Lett.,81(1998)2542-2545" 32236 PRL0814720 "(Pr,Ce)2CuOz" Pr1.87Ce0.13Cu1OZ Pr 1.87 Ce 0.13 Cu 1 O Z 5 1998 T' K 12 12 uohmcm 440 470 16 "ref[14, 15]" Insulator-Metal Crossover near Optimal Doping in Pr2-xCexCuO4: Anomalous Normal-State Low 1998 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.Rev.Lett.,81(1998)4720-4723" 32237 PRL0814720 "(Pr,Ce)2CuOz" Pr1.86Ce0.13Cu1OZ Pr 1.86 Ce 0.13 Cu 1 O Z 5 1998 T' K 20 20 uohmcm 130 120 16 "ref[14, 15]" Insulator-Metal Crossover near Optimal Doping in Pr2-xCexCuO4: Anomalous Normal-State Low 1998 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.Rev.Lett.,81(1998)4720-4723" 32238 PRL0814720 "(Pr,Ce)2CuOz" Pr1.85Ce0.14Cu1OZ Pr 1.85 Ce 0.14 Cu 1 O Z 5 1998 T' K 21 21 uohmcm 68 16 "ref[14, 15]" Insulator-Metal Crossover near Optimal Doping in Pr2-xCexCuO4: Anomalous Normal-State Low 1998 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.Rev.Lett.,81(1998)4720-4723" 32239 PRL0814720 "(Pr,Ce)2CuOz" Pr1.83Ce0.15Cu1OZ Pr 1.83 Ce 0.15 Cu 1 O Z 5 1998 T' K 15 15 uohmcm 49 16 "ref[14, 15]" Insulator-Metal Crossover near Optimal Doping in Pr2-xCexCuO4: Anomalous Normal-State Low 1998 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.Rev.Lett.,81(1998)4720-4723" 32240 PRL0814720 "(Pr,Ce)2CuOz" Pr1.8Ce0.17Cu1OZ Pr 1.8 Ce 0.17 Cu 1 O Z 5 1998 T' K 10 10 uohmcm 32 16 "ref[14, 15]" Insulator-Metal Crossover near Optimal Doping in Pr2-xCexCuO4: Anomalous Normal-State Low 1998 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.Rev.Lett.,81(1998)4720-4723" 32241 PRL0814720 Pr2CuOz Pr2Cu1OZ Pr 2 Cu 1 O Z 5 1998 T' K 0 0 16 "ref[14, 15]" Insulator-Metal Crossover near Optimal Doping in Pr2-xCexCuO4: Anomalous Normal-State Low 1998 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.Rev.Lett.,81(1998)4720-4723" 32242 PRL0814720 "(Pr,Ce)2CuOz" Pr1.95Ce0.05Cu1OZ Pr 1.95 Ce 0.05 Cu 1 O Z 5 1998 T' K 0 0 16 "ref[14, 15]" Insulator-Metal Crossover near Optimal Doping in Pr2-xCexCuO4: Anomalous Normal-State Low 1998 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.Rev.Lett.,81(1998)4720-4723" 32243 PRL0814720 "(Pr,Ce)2CuOz" Pr1.9Ce0.1Cu1OZ Pr 1.9 Ce 0.1 Cu 1 O Z 5 1998 T' K 0 0 16 "ref[14, 15]" Insulator-Metal Crossover near Optimal Doping in Pr2-xCexCuO4: Anomalous Normal-State Low 1998 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.Rev.Lett.,81(1998)4720-4723" 32244 PRL0814720 "(Pr,Ce)2CuOz" Pr1.84Ce0.16Cu1OZ Pr 1.84 Ce 0.16 Cu 1 O Z 5 1998 T' K 16 16 16 "ref[14, 15]" Insulator-Metal Crossover near Optimal Doping in Pr2-xCexCuO4: Anomalous Normal-State Low 1998 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.Rev.Lett.,81(1998)4720-4723" 32245 PRL0814720 "(Pr,Ce)2CuOz" Pr1.82Ce0.18Cu1OZ Pr 1.82 Ce 0.18 Cu 1 O Z 5 1998 T' K 13 13 16 "ref[14, 15]" Insulator-Metal Crossover near Optimal Doping in Pr2-xCexCuO4: Anomalous Normal-State Low 1998 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.Rev.Lett.,81(1998)4720-4723" 32246 PRL0814720 "(Pr,Ce)2CuO4" Pr1.77Ce0.23Cu1OZ Pr 1.77 Ce 0.23 Cu 1 O Z 5 1998 T' K 0 0 16 "ref[14, 15]" Insulator-Metal Crossover near Optimal Doping in Pr2-xCexCuO4: Anomalous Normal-State Low 1998 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742" "Phys.Rev.Lett.,81(1998)4720-4723" 32247 PRL0815636 quench TmBa2Cu3Oz Tm1Ba2Cu3O6.37 Tm 1 Ba 2 Cu 3 O 7-Z 6.37 1998 35 Y123 K mohmcm 0.6 1700 2 1350 5 ref[12] anneal:ref[10] Normal-State Resistivity Anisotropy in Underdoped RBa2Cu3O6+x Crystals 1998 12 "Institute of Inorganic Chemistry, Siberian Branch of RAS, Lavrentyeva-3, 630090 Novosibirsk, Russia" "Phys.Rev.Lett.,81(1998)5636-5639" 32248 PRL0815636 not quench TmBa2Cu3Oz Tm1Ba2Cu3O6.37 Tm 1 Ba 2 Cu 3 O 7-Z 6.37 1998 60 Y123 K mohmcm 0.4 1280 1.6 650 5 ref[12] anneal:ref[10] Normal-State Resistivity Anisotropy in Underdoped RBa2Cu3O6+x Crystals 1998 12 "Institute of Inorganic Chemistry, Siberian Branch of RAS, Lavrentyeva-3, 630090 Novosibirsk, Russia" "Phys.Rev.Lett.,81(1998)5636-5639" 32249 PRL0815636 TmBa2Cu3Oz Tm1Ba2Cu3O6.41 Tm 1 Ba 2 Cu 3 O 7-Z 6.41 1998 Y123 K 19 19 mohmcm 1350 1120 830 5 ref[12] anneal:ref[10] Normal-State Resistivity Anisotropy in Underdoped RBa2Cu3O6+x Crystals 1998 12 "Institute of Inorganic Chemistry, Siberian Branch of RAS, Lavrentyeva-3, 630090 Novosibirsk, Russia" "Phys.Rev.Lett.,81(1998)5636-5639" 32250 PRL0815636 TmBa2Cu3Oz Tm1Ba2Cu3O6.44 Tm 1 Ba 2 Cu 3 O 7-Z 6.44 1998 Y123 K 28 28 mohmcm 1030 100 420 5 ref[12] anneal:ref[10] Normal-State Resistivity Anisotropy in Underdoped RBa2Cu3O6+x Crystals 1998 12 "Institute of Inorganic Chemistry, Siberian Branch of RAS, Lavrentyeva-3, 630090 Novosibirsk, Russia" "Phys.Rev.Lett.,81(1998)5636-5639" 32251 PRL0815636 TmBa2Cu3Oz Tm1Ba2Cu3O6.49 Tm 1 Ba 2 Cu 3 O 7-Z 6.49 1998 Y123 K 50 50 mohmcm 700 750 250 5 ref[12] anneal:ref[10] Normal-State Resistivity Anisotropy in Underdoped RBa2Cu3O6+x Crystals 1998 12 "Institute of Inorganic Chemistry, Siberian Branch of RAS, Lavrentyeva-3, 630090 Novosibirsk, Russia" "Phys.Rev.Lett.,81(1998)5636-5639" 32300 PRL0820410 "Bi2(Sr,La)2CuOz" Bi2Sr1.75La0.25Cu1OZ Bi 2 Sr 1.75 La 0.25 Cu 1 O Z 3 1999 Bi2201 K 27 27 -1 5 using CuO as flux Josephson-Coupling Origin for the Upward Curvature of the Pseudo-Upper-Critical Field in Bi2Sr2-xLaxCuO6+z Crystals 1999 1 "National Laboratory for Superconductivity, Institute of Physics and Center for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100080, People's Republic of China" "Phys.Rev.Lett.,82(1999)410-413" 32301 PRL0821313 "(Sr,Ca)14Cu24O41" Sr6Ca8Cu24O41 Sr 6 Ca 8 Cu 24 O 41 41 3 1999 LAD K mohmcm 0.4 21 1.9 ref[9] Pseudogap and Collective Mode in the Optical Conductivity Spectra of Hole-Doped Ladders in Sr14-xCaxCu24O41 1999 2 "Department of Superconductivity, The University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,82(1999)1313-1316" 32302 PRL0821313 "(Sr,Ca)14Cu24O41" Sr3Ca11Cu24O41 Sr 3 Ca 11 Cu 24 O 41 41 3 1999 LAD K mohmcm 12 0.9 ref[9] Pseudogap and Collective Mode in the Optical Conductivity Spectra of Hole-Doped Ladders in Sr14-xCaxCu24O41 1999 2 "Department of Superconductivity, The University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,82(1999)1313-1316" 32303 PRL0821546 YBa2Cu3OZ Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7-Z 7 3 1999 Y123 K 87.8 87.8 mJ/K.mol 5004 mJ/mol.K2 3.08 linear term below Tc 191 "Specific Heat of YBa2Cu3O7-z , 0<=z<=0.2 : Concentrations of Paramagnetic Centers and Values of Other Parameters as Functions of z" 1999 2 "Department of Chemistry, University of California and Lawrence Berkeley National Laboratory, Berkeley, California 94720" "Phys.Rev.Lett.,82(1999)1546-1549" 32304 PRL0821546 YBa2Cu3OZ Y1Ba2Cu3O6.98 Y 1 Ba 2 Cu 3 O 7-Z 6.98 3 1999 Y123 K 90.3 90.3 mJ/K.mol 4966 mJ/mol.K2 2.97 linear term below Tc 175 "Specific Heat of YBa2Cu3O7-z , 0<=z<=0.2 : Concentrations of Paramagnetic Centers and Values of Other Parameters as Functions of z" 1999 2 "Department of Chemistry, University of California and Lawrence Berkeley National Laboratory, Berkeley, California 94720" "Phys.Rev.Lett.,82(1999)1546-1549" 32305 PRL0821546 YBa2Cu3OZ Y1Ba2Cu3O6.96 Y 1 Ba 2 Cu 3 O 7-Z 6.96 3 1999 Y123 K 91.8 91.8 mJ/K.mol 4957 mJ/mol.K2 2.79 linear term below Tc 173 "Specific Heat of YBa2Cu3O7-z , 0<=z<=0.2 : Concentrations of Paramagnetic Centers and Values of Other Parameters as Functions of z" 1999 2 "Department of Chemistry, University of California and Lawrence Berkeley National Laboratory, Berkeley, California 94720" "Phys.Rev.Lett.,82(1999)1546-1549" 32306 PRL0821546 YBa2Cu3OZ Y1Ba2Cu3O6.94 Y 1 Ba 2 Cu 3 O 7-Z 6.94 3 1999 Y123 K 93.5 93.5 mJ/K.mol 4768 mJ/mol.K2 2.68 linear term below Tc 172 "Specific Heat of YBa2Cu3O7-z , 0<=z<=0.2 : Concentrations of Paramagnetic Centers and Values of Other Parameters as Functions of z" 1999 2 "Department of Chemistry, University of California and Lawrence Berkeley National Laboratory, Berkeley, California 94720" "Phys.Rev.Lett.,82(1999)1546-1549" 32307 PRL0821546 YBa2Cu3OZ Y1Ba2Cu3O6.91 Y 1 Ba 2 Cu 3 O 7-Z 6.91 3 1999 Y123 K 95.2 95.2 mJ/K.mol 4284 mJ/mol.K2 2.71 linear term below Tc 173 "Specific Heat of YBa2Cu3O7-z , 0<=z<=0.2 : Concentrations of Paramagnetic Centers and Values of Other Parameters as Functions of z" 1999 2 "Department of Chemistry, University of California and Lawrence Berkeley National Laboratory, Berkeley, California 94720" "Phys.Rev.Lett.,82(1999)1546-1549" 32308 PRL0821546 YBa2Cu3OZ Y1Ba2Cu3O6.87 Y 1 Ba 2 Cu 3 O 7-Z 6.87 3 1999 Y123 K 95.2 95.2 mJ/K.mol 3522 mJ/mol.K2 3.32 linear term below Tc 176 "Specific Heat of YBa2Cu3O7-z , 0<=z<=0.2 : Concentrations of Paramagnetic Centers and Values of Other Parameters as Functions of z" 1999 2 "Department of Chemistry, University of California and Lawrence Berkeley National Laboratory, Berkeley, California 94720" "Phys.Rev.Lett.,82(1999)1546-1549" 32309 PRL0821546 YBa2Cu3OZ Y1Ba2Cu3O6.82 Y 1 Ba 2 Cu 3 O 7-Z 6.82 3 1999 Y123 K 89.9 89.9 mJ/K.mol 1800 mJ/mol.K2 3.87 linear term below Tc 179 "Specific Heat of YBa2Cu3O7-z , 0<=z<=0.2 : Concentrations of Paramagnetic Centers and Values of Other Parameters as Functions of z" 1999 2 "Department of Chemistry, University of California and Lawrence Berkeley National Laboratory, Berkeley, California 94720" "Phys.Rev.Lett.,82(1999)1546-1549" 32310 PRL0823148 Bi2Sr2CaCu2OZ Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 3 1999 Bi2212 K 88.4 88.4 K/GPa 1.69 Interlayer Coupling and Superconducting Critical Temperature of Bi2Sr1.5La0.5CuO6+z and Bi2Sr2CaCu2O8+z : Incommensurate Effects of Pressure 1999 4 "Department of Microelectronics and Nanoscience, Chalmers University of Technology and Goteborg University, S-41296 Goteborg, Sweden" "Phys.Rev.Lett.,82(1999)3148-3151" 32311 PRL0823148 "Bi2(Sr,La)2CuOz" Bi2Sr1.5La0.5Cu1OZ Bi 2 Sr 1.5 La 0.5 Cu 1 O Z 3 1999 Bi2201 K 8.2 8.2 K/GPa 0.47 Interlayer Coupling and Superconducting Critical Temperature of Bi2Sr1.5La0.5CuO6+z and Bi2Sr2CaCu2O8+z : Incommensurate Effects of Pressure 1999 4 "Department of Microelectronics and Nanoscience, Chalmers University of Technology and Goteborg University, S-41296 Goteborg, Sweden" "Phys.Rev.Lett.,82(1999)3148-3151" 32312 PRL0824300 "(La,Sr)2CuO4" La1.93Sr0.07Cu1O4 La 1.93 Sr 0.07 Cu 1 O 4 1999 T K 19 19 standard solid state reactions [17] <63>Cu NQR Measurement of Stripe Order Parameter in La2-xSrxCuO4 1999 5 "Department of Physics and Center for Materials Science and Engineering, M.I.T., Cambridge, Massachusetts 02139" "Phys.Rev.Lett.,82(1999)4300-4303" 32313 PRL0824300 "(La,Sr)2CuO4" La1.91Sr0.09Cu1O4 La 1.91 Sr 0.09 Cu 1 O 4 1999 T K 29 29 standard solid state reactions [17] <63>Cu NQR Measurement of Stripe Order Parameter in La2-xSrxCuO4 1999 5 "Department of Physics and Center for Materials Science and Engineering, M.I.T., Cambridge, Massachusetts 02139" "Phys.Rev.Lett.,82(1999)4300-4303" 32314 PRL0824300 "(La,Sr)2CuO4" La1.885Sr0.115Cu1O4 La 1.885 Sr 0.115 Cu 1 O 4 1999 T K 31 31 standard solid state reactions [17] <63>Cu NQR Measurement of Stripe Order Parameter in La2-xSrxCuO4 1999 5 "Department of Physics and Center for Materials Science and Engineering, M.I.T., Cambridge, Massachusetts 02139" "Phys.Rev.Lett.,82(1999)4300-4303" 32315 PRL0824300 "(La,Sr)2CuO4" La1.875Sr0.125Cu1O4 La 1.875 Sr 0.125 Cu 1 O 4 1999 T K 31 31 standard solid state reactions [17] <63>Cu NQR Measurement of Stripe Order Parameter in La2-xSrxCuO4 1999 5 "Department of Physics and Center for Materials Science and Engineering, M.I.T., Cambridge, Massachusetts 02139" "Phys.Rev.Lett.,82(1999)4300-4303" 32316 PRL0824300 "(La,Sr)2CuO4" La1.865Sr0.135Cu1O4 La 1.865 Sr 0.135 Cu 1 O 4 1999 T K 35 35 standard solid state reactions [17] <63>Cu NQR Measurement of Stripe Order Parameter in La2-xSrxCuO4 1999 5 "Department of Physics and Center for Materials Science and Engineering, M.I.T., Cambridge, Massachusetts 02139" "Phys.Rev.Lett.,82(1999)4300-4303" 32317 PRL0824300 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1999 T K 38 38 standard solid state reactions [17] <63>Cu NQR Measurement of Stripe Order Parameter in La2-xSrxCuO4 1999 5 "Department of Physics and Center for Materials Science and Engineering, M.I.T., Cambridge, Massachusetts 02139" "Phys.Rev.Lett.,82(1999)4300-4303" 32318 PRL0825120 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1OZ Nd 1.85 Ce 0.15 Cu 1 O Z 3 1999 150 T' K 7 TSFZ method in O2 atmosphere of 4 atm anneal: Ar gas for 100h at 1000 C and subsequently in O2 for 50 h at 500 C Anomalous Pseudogap Formation in a Nonsuperconducting Crystal of Nd1.85Ce0.15CuO4+y : Implication of Charge Ordering 1999 6 "Department of Applied Physics, University of Tokyo, Tokyo 113-8656, Japan" "Phys.Rev.Lett.,82(1999)5120-5123" 32319 PRL0825361 over doped: The superconducting gap is estimated by the interlayer tunneling spectroscopy experiments. Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 3 1999 Bi2212 K 87.1 87.1 meV 50 7 TSFZ method [6] anneal : at 600 C for 100 h Interlayer Tunneling Spectroscopy for Slightly Overdoped Bi2Sr2CaCu2O8+z 1999 6 "NTT Basic Research Laboratories, Nippon Telegraph and Telephone Corporation, 162 Tokai, Ibaraki 319-1193, Japan" "Phys.Rev.Lett.,82(1999)5361-5364" 32320 PRL0831018 optimal doped: The superconducting gap is estimated by SIS tunneling conductances. Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 3 1999 Bi2212 K 95 95 meV 35 7 a slightly modified FZ method [2] Predominantly Superconducting Origin of Large Energy Gaps in Underdoped Bi2Sr2CaCu2O8+z from Tunneling Spectroscopy 1999 8 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439" "Phys.Rev.Lett.,83(1999)1018-1021" 32321 PRL0831018 over doped: The superconducting gap is estimated by SIS tunneling conductances. Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 3 1999 Bi2212 K 62 62 meV 17 7 a slightly modified FZ method [2] Predominantly Superconducting Origin of Large Energy Gaps in Underdoped Bi2Sr2CaCu2O8+z from Tunneling Spectroscopy 1999 8 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439" "Phys.Rev.Lett.,83(1999)1018-1021" 32322 PRL0831018 under doped: The superconducting gap is estimated by SIS tunneling conductances. Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 3 1999 Bi2212 K 70 70 meV 50 7 a slightly modified FZ method [2] Predominantly Superconducting Origin of Large Energy Gaps in Underdoped Bi2Sr2CaCu2O8+z from Tunneling Spectroscopy 1999 8 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439" "Phys.Rev.Lett.,83(1999)1018-1021" 32323 PRL0831419 YBa2Cu3Oz Y1Ba2Cu3O6.32 Y 1 Ba 2 Cu 3 O 7-Z 6.32 3 1999 205 Y123 K mohmcm 3.5 1.3 4950 3.5 2600 5 Magnetoresistance in Heavily Underdoped YBa2Cu3O6+x : Antiferromagnetic Correlations and Normal-State Transport 1999 8 "Central Research Institute of Electric Power Industry, 2-11-1 Iwato-kita, Komae, Tokyo 201-8511, Japan" "Phys.Rev.Lett.,83(1999)1419-1422" 32324 PRL0831419 YBa2Cu3Oz Y1Ba2Cu3O6.33 Y 1 Ba 2 Cu 3 O 7-Z 6.33 3 1999 160 Y123 K mohmcm 3700 2000 5 Magnetoresistance in Heavily Underdoped YBa2Cu3O6+x : Antiferromagnetic Correlations and Normal-State Transport 1999 8 "Central Research Institute of Electric Power Industry, 2-11-1 Iwato-kita, Komae, Tokyo 201-8511, Japan" "Phys.Rev.Lett.,83(1999)1419-1422" 32325 PRL0831419 YBa2Cu3Oz Y1Ba2Cu3O6.35 Y 1 Ba 2 Cu 3 O 7-Z 6.35 3 1999 77 Y123 K mohmcm 6100 2500 1400 5 Magnetoresistance in Heavily Underdoped YBa2Cu3O6+x : Antiferromagnetic Correlations and Normal-State Transport 1999 8 "Central Research Institute of Electric Power Industry, 2-11-1 Iwato-kita, Komae, Tokyo 201-8511, Japan" "Phys.Rev.Lett.,83(1999)1419-1422" 32326 PRL0832254 The superconducting gap is estimated by photoemission spectroscopy. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O Z 4 3 1999 T K 38 38 meV 8 7 TSFZ method anneal: under O2 flow at 900 C for 50 h Pseudogap of Optimally Doped La1.85Sr0.15CuO4 Observed by Ultrahigh-Resolution Photoemission Spectroscopy 1999 9 "Department of Physics, Tohoku University, Sendai 980-8578, Japan" "Phys.Rev.Lett.,83(1999)2254-2257" 32327 PRL0832644 "(Nd,Ce)2CuOz" Nd1.85Ce0.15Cu1OZ Nd 1.85 Ce 0.15 Cu 1 O Z 5 1999 emuK/mol 0.2 2 T' K 24 24 meV 3 Anomalous Low Temperature Behavior of Superconducting Nd1.85Ce0.15CuO4-y 1999 9 "II. Physikalisches Institut, Universitat zu Koln, Zulpicher Strasse 77, D-50937 Koln, Germany" "Phys.Rev.Lett.,83(1999)2644-2647" 32328 PRL0833289 "(La,Sr,Ba)2CuOz" La1.85Sr0.038Ba0.112Cu1O4 La 1.85 Sr 0.038 Ba 0.112 Cu 1 O Z 4 1999 T A 3.78905 13.2979 K 32 32 Oxygen contents were determined by iodometric titration. Systematic Cation Disorder Effects in L1.85M0.15CuO4 Superconductors 1999 10 "Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, United Kingdom and the Interdisciplinary Research Centre in Superconductivity, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett.,83(1999)3289-3292" 32329 PRL0833289 "(La,Nd,Sr,Ba)2CuOz" La1.842Nd0.008Sr0.036Ba0.114Cu1O3.98 La 1.842 Nd 0.008 Sr 0.036 Ba 0.114 Cu 1 O Z 3.98 1999 T A 3.78524 13.2829 K 31.7 31.7 Oxygen contents were determined by iodometric titration. Systematic Cation Disorder Effects in L1.85M0.15CuO4 Superconductors 1999 10 "Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, United Kingdom and the Interdisciplinary Research Centre in Superconductivity, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett.,83(1999)3289-3292" 32330 PRL0833289 "(La,Nd,Sr,Ba)2CuOz" La1.812Nd0.038Sr0.026Ba0.124Cu1O4 La 1.812 Nd 0.038 Sr 0.026 Ba 0.124 Cu 1 O Z 4 1999 T A 3.78607 13.2868 K 31.1 31.1 Oxygen contents were determined by iodometric titration. Systematic Cation Disorder Effects in L1.85M0.15CuO4 Superconductors 1999 10 "Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, United Kingdom and the Interdisciplinary Research Centre in Superconductivity, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett.,83(1999)3289-3292" 32331 PRL0833289 "(La,Nd,Sr,Ba)2CuOz" La1.776Nd0.074Sr0.014Ba0.136Cu1O4.03 La 1.776 Nd 0.074 Sr 0.014 Ba 0.136 Cu 1 O Z 4.03 1999 T A 3.78627 13.2817 K 30 30 Oxygen contents were determined by iodometric titration. Systematic Cation Disorder Effects in L1.85M0.15CuO4 Superconductors 1999 10 "Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, United Kingdom and the Interdisciplinary Research Centre in Superconductivity, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett.,83(1999)3289-3292" 32332 PRL0833289 "(La,Nd,Ba)2CuOz" La1.736Nd0.116Ba0.15Cu1O4.03 La 1.736 Nd 0.116 Ba 0.15 Cu 1 O Z 4.03 1999 T A 3.78601 13.28 K 29 29 Oxygen contents were determined by iodometric titration. Systematic Cation Disorder Effects in L1.85M0.15CuO4 Superconductors 1999 10 "Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, United Kingdom and the Interdisciplinary Research Centre in Superconductivity, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett.,83(1999)3289-3292" 32333 PRL0833289 "(La,Sr)2CuOz" La1.85Sr0.15Cu1O4.01 La 1.85 Sr 0.15 Cu 1 O Z 4.01 1999 T A 3.7773 13.2378 K 35.4 36 36 3 Oxygen contents were determined by iodometric titration. Systematic Cation Disorder Effects in L1.85M0.15CuO4 Superconductors 1999 10 "Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, United Kingdom and the Interdisciplinary Research Centre in Superconductivity, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett.,83(1999)3289-3292" 32334 PRL0833289 "(La,Sr,Ca,Ba)2CuOz" La1.85Sr0.12Ca0.016Ba0.014Cu1O3.99 La 1.85 Sr 0.12 Ca 0.016 Ba 0.014 Cu 1 O Z 3.99 1999 T A 3.778 13.2357 K 31.5 34.1 34.1 3 Oxygen contents were determined by iodometric titration. Systematic Cation Disorder Effects in L1.85M0.15CuO4 Superconductors 1999 10 "Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, United Kingdom and the Interdisciplinary Research Centre in Superconductivity, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett.,83(1999)3289-3292" 32335 PRL0833289 "(La,Sr,Ca,Ba)2CuOz" La1.85Sr0.09Ca0.034Ba0.026Cu1O3.99 La 1.85 Sr 0.09 Ca 0.034 Ba 0.026 Cu 1 O Z 3.99 1999 T A 3.7783 13.2302 K 31.3 32.2 32.2 3 Oxygen contents were determined by iodometric titration. Systematic Cation Disorder Effects in L1.85M0.15CuO4 Superconductors 1999 10 "Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, United Kingdom and the Interdisciplinary Research Centre in Superconductivity, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett.,83(1999)3289-3292" 32336 PRL0833289 "(La,Sr,Ca,Ba)2CuOz" La1.85Sr0.06Ca0.05Ba0.04Cu1O3.99 La 1.85 Sr 0.06 Ca 0.05 Ba 0.04 Cu 1 O Z 3.99 1999 T A 3.7796 13.2272 K 26.2 30 30 3 Oxygen contents were determined by iodometric titration. Systematic Cation Disorder Effects in L1.85M0.15CuO4 Superconductors 1999 10 "Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, United Kingdom and the Interdisciplinary Research Centre in Superconductivity, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett.,83(1999)3289-3292" 32337 PRL0833289 "(La,Sr,Ca,Ba)2CuOz" La1.85Sr0.016Ca0.074Ba0.06Cu1O4.01 La 1.85 Sr 0.016 Ca 0.074 Ba 0.06 Cu 1 O Z 4.01 1999 T A 3.7838 13.239 K 24.9 25.4 25.4 3 Oxygen contents were determined by iodometric titration. Systematic Cation Disorder Effects in L1.85M0.15CuO4 Superconductors 1999 10 "Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, United Kingdom and the Interdisciplinary Research Centre in Superconductivity, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett.,83(1999)3289-3292" 32338 PRL0833289 "(La,Nd,Ca,Ba)2CuOz" La1.8Nd0.05Ca0.074Ba0.076Cu1O4.01 La 1.8 Nd 0.05 Ca 0.074 Ba 0.076 Cu 1 O Z 4.01 1999 T A 13.2242 13.2242 K 17.3 23.7 23.7 3 Oxygen contents were determined by iodometric titration. Systematic Cation Disorder Effects in L1.85M0.15CuO4 Superconductors 1999 10 "Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, United Kingdom and the Interdisciplinary Research Centre in Superconductivity, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett.,83(1999)3289-3292" 32339 PRL0833289 "(La,Nd,Ca,Ba)2CuOz" La1.75Nd0.1Ca0.064Ba0.086Cu1O4.03 La 1.75 Nd 0.1 Ca 0.064 Ba 0.086 Cu 1 O Z 4.03 1999 T A 13.2158 5.344 13.2158 K 16 20.6 20.6 3 Oxygen contents were determined by iodometric titration. Systematic Cation Disorder Effects in L1.85M0.15CuO4 Superconductors 1999 10 "Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, United Kingdom and the Interdisciplinary Research Centre in Superconductivity, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett.,83(1999)3289-3292" 32340 PRL0833289 "(La,Nd,Ca,Ba)2CuOz" La1.7Nd0.15Ca0.056Ba0.094Cu1O4.02 La 1.7 Nd 0.15 Ca 0.056 Ba 0.094 Cu 1 O Z 4.02 1999 T A 13.2141 5.344 13.2141 K 3 Oxygen contents were determined by iodometric titration. Systematic Cation Disorder Effects in L1.85M0.15CuO4 Superconductors 1999 10 "Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, United Kingdom and the Interdisciplinary Research Centre in Superconductivity, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett.,83(1999)3289-3292" 32341 PRL0833289 "(La,Nd,Ca)2CuOz" La1.798Nd0.052Ca0.15Cu1O3.96 La 1.798 Nd 0.052 Ca 0.15 Cu 1 O Z 3.96 1999 T A 5.34472 5.33694 13.1778 K 31.6 31.6 Oxygen contents were determined by iodometric titration. Systematic Cation Disorder Effects in L1.85M0.15CuO4 Superconductors 1999 10 "Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, United Kingdom and the Interdisciplinary Research Centre in Superconductivity, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett.,83(1999)3289-3292" 32342 PRL0833289 "(La,Nd,Ca,Ba)2CuOz" La1.736Nd0.114Ca0.138Ba0.012Cu1O4.02 La 1.736 Nd 0.114 Ca 0.138 Ba 0.012 Cu 1 O Z 4.02 1999 T A 5.3473 5.33619 13.1708 K 29.4 29.4 Oxygen contents were determined by iodometric titration. Systematic Cation Disorder Effects in L1.85M0.15CuO4 Superconductors 1999 10 "Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, United Kingdom and the Interdisciplinary Research Centre in Superconductivity, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett.,83(1999)3289-3292" 32343 PRL0833289 "(La,Nd,Ca,Ba)2CuOz" La1.65Nd0.2Ca0.122Ba0.028Cu1O3.99 La 1.65 Nd 0.2 Ca 0.122 Ba 0.028 Cu 1 O Z 3.99 1999 T A 5.35276 5.33529 13.1597 K 27.1 27.1 Oxygen contents were determined by iodometric titration. Systematic Cation Disorder Effects in L1.85M0.15CuO4 Superconductors 1999 10 "Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, United Kingdom and the Interdisciplinary Research Centre in Superconductivity, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett.,83(1999)3289-3292" 32344 PRL0833289 "(La,Nd,Ca,Ba)2CuOz" La1.562Nd0.288Ca0.106Ba0.044Cu1O3.98 La 1.562 Nd 0.288 Ca 0.106 Ba 0.044 Cu 1 O Z 3.98 1999 T A 5.35706 5.33389 13.1492 K 23 23 Oxygen contents were determined by iodometric titration. Systematic Cation Disorder Effects in L1.85M0.15CuO4 Superconductors 1999 10 "Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, United Kingdom and the Interdisciplinary Research Centre in Superconductivity, Madingley Road, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett.,83(1999)3289-3292" 32345 PRL0834156 detwinned YBa2Cu3Oz Y1Ba2Cu3O6.95 Y 1 Ba 2 Cu 3 O 7-Z 6.95 3 1999 Y123 K 93.2 93.2 A uSR 83 Field Induced Reduction of the Low-Temperature Superfluid Density in YBa2Cu3O6.95 1999 10 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545" "Phys.Rev.Lett.,83(1999)4156-4159" 32346 PRL0834381 "YBa2(Cu,Li)3Oz" Y1Ba2Cu2.97Li0.03O7-Z Y 1 Ba 2 Cu 2.97 Li 0.03 O 7-Z 3 1999 Y123 K 86 86 "Y2O3, BaO2, CuO, Li2CO3" 1 Z=6.6 samples were performed at fixed temperature ranging from 340 C to 450 C under vacuum. Spinless Impurities in High-Tc Cuprates: Kondo-Like Behavior 1999 11 "Laboratoire de Physique des Solides, UMR 8502, Universiti Paris-Sud, 91405 Orsay, France" "Phys.Rev.Lett.,83(1999)4381-4384" 32347 PRL0834381 "YBa2(Cu,Li)3Oz" Y1Ba2Cu2.94Li0.06O7-Z Y 1 Ba 2 Cu 2.94 Li 0.06 O 7-Z 3 1999 Y123 K 78 78 "Y2O3, BaO2, CuO, Li2CO3" 1 Z=6.6 samples were performed at fixed temperature ranging from 340 C to 450 C under vacuum. Spinless Impurities in High-Tc Cuprates: Kondo-Like Behavior 1999 11 "Laboratoire de Physique des Solides, UMR 8502, Universiti Paris-Sud, 91405 Orsay, France" "Phys.Rev.Lett.,83(1999)4381-4384" 32348 PRL0834381 "YBa2(Cu,Li)3Oz" Y1Ba2Cu2.79Li0.21O7-Z Y 1 Ba 2 Cu 2.79 Li 0.21 O 7-Z 3 1999 Y123 K 53 53 "Y2O3, BaO2, CuO, Li2CO3" 1 Z=6.6 samples were performed at fixed temperature ranging from 340 C to 450 C under vacuum. Spinless Impurities in High-Tc Cuprates: Kondo-Like Behavior 1999 11 "Laboratoire de Physique des Solides, UMR 8502, Universiti Paris-Sud, 91405 Orsay, France" "Phys.Rev.Lett.,83(1999)4381-4384" 32349 PRL0834381 "YBa2(Cu,Li)3Oz" Y1Ba2Cu2.97Li0.03O6.6 Y 1 Ba 2 Cu 2.97 Li 0.03 O 7-Z 6.6 3 1999 Y123 K 41 41 "Y2O3, BaO2, CuO, Li2CO3" 1 Z=6.6 samples were performed at fixed temperature ranging from 340 C to 450 C under vacuum. Spinless Impurities in High-Tc Cuprates: Kondo-Like Behavior 1999 11 "Laboratoire de Physique des Solides, UMR 8502, Universiti Paris-Sud, 91405 Orsay, France" "Phys.Rev.Lett.,83(1999)4381-4384" 32350 PRL0834381 "YBa2(Cu,Li)3Oz" Y1Ba2Cu2.94Li0.06O6.6 Y 1 Ba 2 Cu 2.94 Li 0.06 O 7-Z 6.6 3 1999 Y123 K 26 26 "Y2O3, BaO2, CuO, Li2CO3" 1 Z=6.6 samples were performed at fixed temperature ranging from 340 C to 450 C under vacuum. Spinless Impurities in High-Tc Cuprates: Kondo-Like Behavior 1999 11 "Laboratoire de Physique des Solides, UMR 8502, Universiti Paris-Sud, 91405 Orsay, France" "Phys.Rev.Lett.,83(1999)4381-4384" 32400 PRL0840155 c-axis oriented film. thickness=5000 - 9000A. "(La,Sr)2CuO4" La1.85Sr0.15Cu1OZ La 1.85 Sr 0.15 Cu 1 O Z 5 2000 T K A 9800 16 LaSrAlO4 substrates Metallic Nonsuperconducting Phase and D-Wave Superconductivity in Zn-Substituted La1.85Sr0.15CuO4 2000 1 "Institute of Physics, Polish Academy of Sciences, 02 668 Warsaw, Poland" "Phys.Rev.Lett.,84(2000)155-158" 32401 PRL0840155 c-axis oriented film. thickness=5000 - 9000A. "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.99Zn0.01OZ La 1.85 Sr 0.15 Cu 0.99 Zn 0.01 O Z 5 2000 T K A 10000 16 LaSrAlO4 substrates Metallic Nonsuperconducting Phase and D-Wave Superconductivity in Zn-Substituted La1.85Sr0.15CuO4 2000 1 "Institute of Physics, Polish Academy of Sciences, 02 668 Warsaw, Poland" "Phys.Rev.Lett.,84(2000)155-158" 32402 PRL0840155 c-axis oriented film. thickness=5000 - 9000A. "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.975Zn0.025OZ La 1.85 Sr 0.15 Cu 0.975 Zn 0.025 O Z 5 2000 T K A 16000 16 LaSrAlO4 substrates Metallic Nonsuperconducting Phase and D-Wave Superconductivity in Zn-Substituted La1.85Sr0.15CuO4 2000 1 "Institute of Physics, Polish Academy of Sciences, 02 668 Warsaw, Poland" "Phys.Rev.Lett.,84(2000)155-158" 32403 PRL0840155 c-axis oriented film. thickness=5000 - 9000A. "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.97Zn0.03OZ La 1.85 Sr 0.15 Cu 0.97 Zn 0.03 O Z 5 2000 T K A Penetration depth is obtained by the mutal inductance of coil detailed (ref[6]). 19300 16 LaSrAlO4 substrates Metallic Nonsuperconducting Phase and D-Wave Superconductivity in Zn-Substituted La1.85Sr0.15CuO4 2000 1 "Institute of Physics, Polish Academy of Sciences, 02 668 Warsaw, Poland" "Phys.Rev.Lett.,84(2000)155-158" 32404 PRL0840155 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.945Zn0.055OZ La 1.85 Sr 0.15 Cu 0.945 Zn 0.055 O Z 5 2000 T K mohmcm 0.3 0.6 0.5 1.2 16 LaSrAlO4 substrates Metallic Nonsuperconducting Phase and D-Wave Superconductivity in Zn-Substituted La1.85Sr0.15CuO4 2000 1 "Institute of Physics, Polish Academy of Sciences, 02 668 Warsaw, Poland" "Phys.Rev.Lett.,84(2000)155-158" 32405 PRL0840155 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.92Zn0.08OZ La 1.85 Sr 0.15 Cu 0.92 Zn 0.08 O Z 5 2000 T K mohmcm 0.6 0.6 1 16 LaSrAlO4 substrates Metallic Nonsuperconducting Phase and D-Wave Superconductivity in Zn-Substituted La1.85Sr0.15CuO4 2000 1 "Institute of Physics, Polish Academy of Sciences, 02 668 Warsaw, Poland" "Phys.Rev.Lett.,84(2000)155-158" 32406 PRL0840155 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.9Zn0.1OZ La 1.85 Sr 0.15 Cu 0.9 Zn 0.1 O Z 5 2000 T K mohmcm 0.8 0.75 1.3 16 LaSrAlO4 substrates Metallic Nonsuperconducting Phase and D-Wave Superconductivity in Zn-Substituted La1.85Sr0.15CuO4 2000 1 "Institute of Physics, Polish Academy of Sciences, 02 668 Warsaw, Poland" "Phys.Rev.Lett.,84(2000)155-158" 32407 PRL0840155 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.88Zn0.12OZ La 1.85 Sr 0.15 Cu 0.88 Zn 0.12 O Z 5 2000 T K 35.2 35.2 mohmcm 1.5 1.4 2.2 16 LaSrAlO4 substrates Metallic Nonsuperconducting Phase and D-Wave Superconductivity in Zn-Substituted La1.85Sr0.15CuO4 2000 1 "Institute of Physics, Polish Academy of Sciences, 02 668 Warsaw, Poland" "Phys.Rev.Lett.,84(2000)155-158" 32408 PRL0841587 anisotropy factor = 530 for p = 0 GPa from Hirr using curve fitting. = 130 for 2.5 GPa. Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2OZ Bi 2 Sr 2 Ca 1 Cu 2 O Z 3 2000 Bi2212 K 86.3 86.3 A 2080 5 self-flux method Bi:Sr:Ca:Cu=2:2:1:2 Pressure Dependence of the Irreversibility Line in Bi2Sr2CaCu2O8+z : Role of Anisotropy in Flux-Line Formation 2000 2 "Catholic University of America, Washington, D.C. 20064" "Phys.Rev.Lett.,84(2000)1587-1590" 32409 PRL0845612 "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 1 2000 T 3 K 33 3 33 mJ/molK2 1.54 "La2O3, SrCO3, CuO(5N)" ref[7] Depression of Quasiparticle Density of States at Zero Energy in La1.9Sr0.1Cu1-xZnxO4 2000 6 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 804, Taiwan, Republic of China" "Phys.Rev.Lett.,84(2000)5612-5615" 32410 PRL0845612 "(La,Sr)2(Cu,Zn)O4" La1.9Sr0.1Cu0.99Zn0.01O4 La 1.9 Sr 0.1 Cu 0.99 Zn 0.01 O 4 1 2000 T 3 K 14 4 14 mJ/molK2 5.5 "La2O3, SrCO3, CuO(5N)" ref[7] Depression of Quasiparticle Density of States at Zero Energy in La1.9Sr0.1Cu1-xZnxO4 2000 6 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 804, Taiwan, Republic of China" "Phys.Rev.Lett.,84(2000)5612-5615" 32411 PRL0845612 "(La,Sr)2(Cu,Zn)O4" La1.9Sr0.1Cu0.98Zn0.02O4 La 1.9 Sr 0.1 Cu 0.98 Zn 0.02 O 4 1 2000 T 3 K 2 2 mJ/molK2 6 "La2O3, SrCO3, CuO(5N)" ref[7] Depression of Quasiparticle Density of States at Zero Energy in La1.9Sr0.1Cu1-xZnxO4 2000 6 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 804, Taiwan, Republic of China" "Phys.Rev.Lett.,84(2000)5612-5615" 32412 PRL0850638 "Bi2(Sr,La)2CuOz" Bi2Sr1.77La0.23Cu1OZ Bi 2 Sr 1.77 La 0.23 Cu 1 O Z 3 2000 Bi2201 K 29.5 29.5 3 mohmcm 0.13 0.1 0.38 7 anneal: 650 C for 48h at O2 flow Metal-to-Insulator Crossover in the Low-Temperature Normal State of Bi2Sr2-xLaxCuO6 +z 2000 7 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.Lett., 85(2000)638-641" 32413 PRL0850638 "Bi2(Sr,La)2CuOz" Bi2Sr1.61La0.39Cu1OZ Bi 2 Sr 1.61 La 0.39 Cu 1 O Z 3 2000 Bi2201 K 37 37 3 mohmcm 0.18 0.15 0.5 RH32413 7 anneal: 650 C for 48h at O2 flow Metal-to-Insulator Crossover in the Low-Temperature Normal State of Bi2Sr2-xLaxCuO6 +z 2000 7 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.Lett., 85(2000)638-641" 32414 PRL0850638 "Bi2(Sr,La)2CuOz" Bi2Sr1.34La0.66Cu1OZ Bi 2 Sr 1.34 La 0.66 Cu 1 O Z 3 2000 Bi2201 K 23 23 3 mohmcm 0.31 0.24 0.95 7 anneal: 650 C for 48h at O2 flow Metal-to-Insulator Crossover in the Low-Temperature Normal State of Bi2Sr2-xLaxCuO6 +z 2000 7 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.Lett., 85(2000)638-641" 32415 PRL0850638 "Bi2(Sr,La)2CuOz" Bi2Sr1.27La0.73Cu1OZ Bi 2 Sr 1.27 La 0.73 Cu 1 O Z 3 2000 Bi2201 K 14 14 3 mohmcm 0.5 0.32 1.2 RH32415 7 anneal: 650 C for 48h at O2 flow Metal-to-Insulator Crossover in the Low-Temperature Normal State of Bi2Sr2-xLaxCuO6 +z 2000 7 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.Lett., 85(2000)638-641" 32416 PRL0850638 "Bi2(Sr,La)2CuOz" Bi2Sr1.24La0.76Cu1OZ Bi 2 Sr 1.24 La 0.76 Cu 1 O Z 3 2000 Bi2201 K 13 13 3 mohmcm 0.7 0.58 1.45 7 anneal: 650 C for 48h at O2 flow Metal-to-Insulator Crossover in the Low-Temperature Normal State of Bi2Sr2-xLaxCuO6 +z 2000 7 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.Lett., 85(2000)638-641" 32417 PRL0850638 "Bi2(Sr,La)2CuOz" Bi2Sr1.16La0.84Cu1OZ Bi 2 Sr 1.16 La 0.84 Cu 1 O Z 3 2000 Bi2201 K 3 3 3 mohmcm 0.91 0.94 1.55 RH32417 7 anneal: 650 C for 48h at O2 flow Metal-to-Insulator Crossover in the Low-Temperature Normal State of Bi2Sr2-xLaxCuO6 +z 2000 7 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.Lett., 85(2000)638-641" 32418 PRL0845848 optimal Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.25 Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 8.25 3 2000 Bi2212 K 92 92 3 ohmcm 6.8 3.1 7 anneal: at 600 C for 20-30h slowly cooled to 300-400 C Pseudogap in Bi2Sr2CaCu2O8+z Studied by Measuring Anisotropic Susceptibilities and Out-of-Plane Transport 2000 6 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-Shi, Kanagawa 243-0198, Japan" "Phys.Rev.Lett.,84(2000)5848-5851" 32419 PRL0845848 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.26 Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 8.26 3 2000 Bi2212 K 90 90 3 ohmcm 4.6 2.6 7 anneal: at 600 C for 20-30h slowly cooled to 300-400 C Pseudogap in Bi2Sr2CaCu2O8+z Studied by Measuring Anisotropic Susceptibilities and Out-of-Plane Transport 2000 6 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-Shi, Kanagawa 243-0198, Japan" "Phys.Rev.Lett.,84(2000)5848-5851" 32420 PRL0845848 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.27 Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 8.27 3 2000 Bi2212 K 87 87 3 ohmcm 2.8 2 7 anneal: at 600 C for 20-30h slowly cooled to 300-400 C Pseudogap in Bi2Sr2CaCu2O8+z Studied by Measuring Anisotropic Susceptibilities and Out-of-Plane Transport 2000 6 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-Shi, Kanagawa 243-0198, Japan" "Phys.Rev.Lett.,84(2000)5848-5851" 32421 PRL0845848 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.28 Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 8.28 3 2000 Bi2212 K 80 80 3 ohmcm 1.8 1.5 7 anneal: at 600 C for 20-30h slowly cooled to 300-400 C Pseudogap in Bi2Sr2CaCu2O8+z Studied by Measuring Anisotropic Susceptibilities and Out-of-Plane Transport 2000 6 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-Shi, Kanagawa 243-0198, Japan" "Phys.Rev.Lett.,84(2000)5848-5851" 32422 PRL0845848 Bi2Sr2CaCu2Oz Bi2Sr2Ca1Cu2O8.3 Bi 2 Sr 2 Ca 1 Cu 2 O 8+Z 8.3 3 2000 Bi2212 K 70 70 3 ohmcm 0.6 0.9 7 anneal: 400 atm at 500 C for 50 h Pseudogap in Bi2Sr2CaCu2O8+z Studied by Measuring Anisotropic Susceptibilities and Out-of-Plane Transport 2000 6 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-Shi, Kanagawa 243-0198, Japan" "Phys.Rev.Lett.,84(2000)5848-5851" 32423 PRL0854590 Neel temperature was determined by uSR measurements. "(La,Eu)2CuO4" La1.8Eu0.2Cu1O4 La 1.8 Eu 0.2 Cu 1 O 4 2000 300 T K "ref[9,11,12]" "From Antiferromagnetic Order to Static Magnetic Stripes: The Phase Diagram of (La,Eu)2-xSrxCuO4" 2000 10 "Institut for Metallphysik und Nukleare Festkorperphysik, TU Braunschweig, D-38106 Braunschweig, Germany" "Phys.Rev.Lett.,85(2000)4590-4593" 32424 PRL0854590 Neel temperature was determined by uSR measurements. "(La,Eu,Sr)2CuO4" La1.836Eu0.2Sr0.014Cu1O4 La 1.836 Eu 0.2 Sr 0.014 Cu 1 O 4 2000 190 T K "ref[9,11,12]" "From Antiferromagnetic Order to Static Magnetic Stripes: The Phase Diagram of (La,Eu)2-xSrxCuO4" 2000 10 "Institut for Metallphysik und Nukleare Festkorperphysik, TU Braunschweig, D-38106 Braunschweig, Germany" "Phys.Rev.Lett.,85(2000)4590-4593" 32425 PRL0854590 Neel temperature was determined by uSR measurements. "(La,Eu,Sr)2CuO4" La1.835Eu0.2Sr0.015Cu1O4 La 1.835 Eu 0.2 Sr 0.015 Cu 1 O 4 2000 160 T K "ref[9,11,12]" "From Antiferromagnetic Order to Static Magnetic Stripes: The Phase Diagram of (La,Eu)2-xSrxCuO4" 2000 10 "Institut for Metallphysik und Nukleare Festkorperphysik, TU Braunschweig, D-38106 Braunschweig, Germany" "Phys.Rev.Lett.,85(2000)4590-4593" 32426 PRL0854590 Neel temperature was determined by uSR measurements. "(La,Eu,Sr)2CuO4" La1.832Eu0.2Sr0.018Cu1O4 La 1.832 Eu 0.2 Sr 0.018 Cu 1 O 4 2000 130 T K "ref[9,11,12]" "From Antiferromagnetic Order to Static Magnetic Stripes: The Phase Diagram of (La,Eu)2-xSrxCuO4" 2000 10 "Institut for Metallphysik und Nukleare Festkorperphysik, TU Braunschweig, D-38106 Braunschweig, Germany" "Phys.Rev.Lett.,85(2000)4590-4593" 32427 PRL0854590 Neel temperature was determined by uSR measurements. "(La,Eu,Sr)2CuO4" La1.83Eu0.2Sr0.02Cu1O4 La 1.83 Eu 0.2 Sr 0.02 Cu 1 O 4 2000 10 T K "ref[9,11,12]" "From Antiferromagnetic Order to Static Magnetic Stripes: The Phase Diagram of (La,Eu)2-xSrxCuO4" 2000 10 "Institut for Metallphysik und Nukleare Festkorperphysik, TU Braunschweig, D-38106 Braunschweig, Germany" "Phys.Rev.Lett.,85(2000)4590-4593" 32428 PRL0854590 Neel temperature was determined by uSR measurements. "(La,Eu,Sr)2CuO4" La1.82Eu0.2Sr0.03Cu1O4 La 1.82 Eu 0.2 Sr 0.03 Cu 1 O 4 2000 9 T K "ref[9,11,12]" "From Antiferromagnetic Order to Static Magnetic Stripes: The Phase Diagram of (La,Eu)2-xSrxCuO4" 2000 10 "Institut for Metallphysik und Nukleare Festkorperphysik, TU Braunschweig, D-38106 Braunschweig, Germany" "Phys.Rev.Lett.,85(2000)4590-4593" 32429 PRL0854590 Neel temperature was determined by uSR measurements. "(La,Eu,Sr)2CuO4" La1.81Eu0.2Sr0.04Cu1O4 La 1.81 Eu 0.2 Sr 0.04 Cu 1 O 4 2000 7 T K "ref[9,11,12]" "From Antiferromagnetic Order to Static Magnetic Stripes: The Phase Diagram of (La,Eu)2-xSrxCuO4" 2000 10 "Institut for Metallphysik und Nukleare Festkorperphysik, TU Braunschweig, D-38106 Braunschweig, Germany" "Phys.Rev.Lett.,85(2000)4590-4593" 32430 PRL0854590 Neel temperature was determined by uSR measurements. "(La,Eu,Sr)2CuO4" La1.77Eu0.2Sr0.08Cu1O4 La 1.77 Eu 0.2 Sr 0.08 Cu 1 O 4 2000 6 T K "ref[9,11,12]" "From Antiferromagnetic Order to Static Magnetic Stripes: The Phase Diagram of (La,Eu)2-xSrxCuO4" 2000 10 "Institut for Metallphysik und Nukleare Festkorperphysik, TU Braunschweig, D-38106 Braunschweig, Germany" "Phys.Rev.Lett.,85(2000)4590-4593" 32431 PRL0854590 Neel temperature was determined by uSR measurements. "(La,Eu,Sr)2CuO4" La1.76Eu0.2Sr0.09Cu1O4 La 1.76 Eu 0.2 Sr 0.09 Cu 1 O 4 2000 14 T K "ref[9,11,12]" "From Antiferromagnetic Order to Static Magnetic Stripes: The Phase Diagram of (La,Eu)2-xSrxCuO4" 2000 10 "Institut for Metallphysik und Nukleare Festkorperphysik, TU Braunschweig, D-38106 Braunschweig, Germany" "Phys.Rev.Lett.,85(2000)4590-4593" 32432 PRL0854590 Neel temperature was determined by uSR measurements. "(La,Eu,Sr)2CuO4" La1.75Eu0.2Sr0.1Cu1O4 La 1.75 Eu 0.2 Sr 0.1 Cu 1 O 4 2000 15 T K "ref[9,11,12]" "From Antiferromagnetic Order to Static Magnetic Stripes: The Phase Diagram of (La,Eu)2-xSrxCuO4" 2000 10 "Institut for Metallphysik und Nukleare Festkorperphysik, TU Braunschweig, D-38106 Braunschweig, Germany" "Phys.Rev.Lett.,85(2000)4590-4593" 32433 PRL0854590 Neel temperature was determined by uSR measurements. "(La,Eu,Sr)2CuO4" La1.73Eu0.2Sr0.12Cu1O4 La 1.73 Eu 0.2 Sr 0.12 Cu 1 O 4 2000 25 T K "ref[9,11,12]" "From Antiferromagnetic Order to Static Magnetic Stripes: The Phase Diagram of (La,Eu)2-xSrxCuO4" 2000 10 "Institut for Metallphysik und Nukleare Festkorperphysik, TU Braunschweig, D-38106 Braunschweig, Germany" "Phys.Rev.Lett.,85(2000)4590-4593" 32434 PRL0854590 Neel temperature was determined by uSR measurements. "(La,Eu,Sr)2CuO4" La1.7Eu0.2Sr0.15Cu1O4 La 1.7 Eu 0.2 Sr 0.15 Cu 1 O 4 2000 24 T K "ref[9,11,12]" "From Antiferromagnetic Order to Static Magnetic Stripes: The Phase Diagram of (La,Eu)2-xSrxCuO4" 2000 10 "Institut for Metallphysik und Nukleare Festkorperphysik, TU Braunschweig, D-38106 Braunschweig, Germany" "Phys.Rev.Lett.,85(2000)4590-4593" 32435 PRL0854590 Neel temperature was determined by uSR measurements. "(La,Eu,Sr)2CuO4" La1.67Eu0.2Sr0.18Cu1O4 La 1.67 Eu 0.2 Sr 0.18 Cu 1 O 4 2000 22 T K "ref[9,11,12]" "From Antiferromagnetic Order to Static Magnetic Stripes: The Phase Diagram of (La,Eu)2-xSrxCuO4" 2000 10 "Institut for Metallphysik und Nukleare Festkorperphysik, TU Braunschweig, D-38106 Braunschweig, Germany" "Phys.Rev.Lett.,85(2000)4590-4593" 32436 PRL0854590 Neel temperature was determined by uSR measurements. "(La,Eu,Sr)2CuO4" La1.65Eu0.2Sr0.2Cu1O4 La 1.65 Eu 0.2 Sr 0.2 Cu 1 O 4 2000 8 T K "ref[9,11,12]" "From Antiferromagnetic Order to Static Magnetic Stripes: The Phase Diagram of (La,Eu)2-xSrxCuO4" 2000 10 "Institut for Metallphysik und Nukleare Festkorperphysik, TU Braunschweig, D-38106 Braunschweig, Germany" "Phys.Rev.Lett.,85(2000)4590-4593" 32441 PRL0853696 Tc from surface resistance "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1OZ Pr 1.85 Ce 0.15 Cu 1 O Z 3 2000 T' K 19 1.5 19 A 295 1.89 1 Microwave Electrodynamics of Electron-Doped Cuprate Superconductors 2000 10 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742-4111" "Phys.Rev.Lett.,85(2000)3696-3699" 32442 PRL0853696 Tc from surface resistance "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1OZ Pr 1.85 Ce 0.15 Cu 1 O Z 3 2000 T' K 19 1.7 19 A 390 1.37 1 Microwave Electrodynamics of Electron-Doped Cuprate Superconductors 2000 10 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742-4111" "Phys.Rev.Lett.,85(2000)3696-3699" 32443 PRL0853696 Film. Tc from ac susceptibility "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1OZ Pr 1.85 Ce 0.15 Cu 1 O Z 5 2000 T' K 20 0.5 20 A 2660 1.62 1 Microwave Electrodynamics of Electron-Doped Cuprate Superconductors 2000 10 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland 20742-4111" "Phys.Rev.Lett.,85(2000)3696-3699" 33000 PHC2600117 "(Nd,Gd,Ce)2CuO4" Nd1.665Gd0.185Ce0.15Cu1O4 Nd 1.665 Gd 0.185 Ce 0.15 Cu 1 O 4 1996 T' A 3.938 12.045 K 15.8 21.6 19 19 "mixture-heat(1000C,48h, in air)-air quench to RT - oxygen reduction(850 - 950C, 2h in air)" "Ionic-size effect on the structure and Tc of T'-(R1-xR'x)1.85Ce0.15CuO4 (R=Pr,Nd,Sm and Eu;R'=Gd and Y)" 1996 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 80424,Taiwan" "Physica.C,260(1996)117-124" 33001 PHC2600117 "(Nd,Gd,Ce)2CuO4" Nd1.48Gd0.37Ce0.15Cu1O4 Nd 1.48 Gd 0.37 Ce 0.15 Cu 1 O 4 1996 T' A 3.93 11.995 K 14.9 20.4 18 18 "mixture-heat(1000C,48h, in air)-air quench to RT - oxygen reduction(850 - 950C, 2h in air)" "Ionic-size effect on the structure and Tc of T'-(R1-xR'x)1.85Ce0.15CuO4 (R=Pr,Nd,Sm and Eu;R'=Gd and Y)" 1996 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 80424,Taiwan" "Physica.C,260(1996)117-124" 33002 PHC2600117 "(Nd,Gd,Ce)2CuO4" Nd1.295Gd0.555Ce0.15Cu1O4 Nd 1.295 Gd 0.555 Ce 0.15 Cu 1 O 4 1996 T' A 3.924 11.968 K 12.3 19.1 17 17 "mixture-heat(1000C,48h, in air)-air quench to RT - oxygen reduction(850 - 950C, 2h in air)" "Ionic-size effect on the structure and Tc of T'-(R1-xR'x)1.85Ce0.15CuO4 (R=Pr,Nd,Sm and Eu;R'=Gd and Y)" 1996 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 80424,Taiwan" "Physica.C,260(1996)117-124" 33003 PHC2600117 "(Nd,Gd,Ce)2CuO4" Nd1.11Gd0.74Ce0.15Cu1O4 Nd 1.11 Gd 0.74 Ce 0.15 Cu 1 O 4 1996 T' A 3.92 11.938 K 11.2 18.1 15 15 "mixture-heat(1000C,48h, in air)-air quench to RT - oxygen reduction(850 - 950C, 2h in air)" "Ionic-size effect on the structure and Tc of T'-(R1-xR'x)1.85Ce0.15CuO4 (R=Pr,Nd,Sm and Eu;R'=Gd and Y)" 1996 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 80424,Taiwan" "Physica.C,260(1996)117-124" 33004 PHC2600117 "(Nd,Gd,Ce)2CuO4" Nd0.925Gd0.925Ce0.15Cu1O4 Nd 0.925 Gd 0.925 Ce 0.15 Cu 1 O 4 1996 T' A 3.915 11.911 K 9.5 16.7 13 13 "mixture-heat(1000C,48h, in air)-air quench to RT - oxygen reduction(850 - 950C, 2h in air)" "Ionic-size effect on the structure and Tc of T'-(R1-xR'x)1.85Ce0.15CuO4 (R=Pr,Nd,Sm and Eu;R'=Gd and Y)" 1996 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 80424,Taiwan" "Physica.C,260(1996)117-124" 33005 PHC2600117 "(Nd,Gd,Ce)2CuO4" Nd0.74Gd1.11Ce0.15Cu1O4 Nd 0.74 Gd 1.11 Ce 0.15 Cu 1 O 4 1996 T' A 3.911 11.885 K 13.9 12 12 "mixture-heat(1000C,48h, in air)-air quench to RT - oxygen reduction(850 - 950C, 2h in air)" "Ionic-size effect on the structure and Tc of T'-(R1-xR'x)1.85Ce0.15CuO4 (R=Pr,Nd,Sm and Eu;R'=Gd and Y)" 1996 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 80424,Taiwan" "Physica.C,260(1996)117-124" 33006 PHC2600117 not s/c "(Nd,Gd,Ce)2CuO4" Nd0.555Gd1.295Ce0.15Cu1O4 Nd 0.555 Gd 1.295 Ce 0.15 Cu 1 O 4 1996 T' A 3.911 11.891 K "mixture-heat(1000C,48h, in air)-air quench to RT - oxygen reduction(850 - 950C, 2h in air)" "Ionic-size effect on the structure and Tc of T'-(R1-xR'x)1.85Ce0.15CuO4 (R=Pr,Nd,Sm and Eu;R'=Gd and Y)" 1996 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 80424,Taiwan" "Physica.C,260(1996)117-124" 33007 PHC2600117 "(Sm,Gd,Ce)2CuO4" Sm1.7575Gd0.0925Ce0.15Cu1O4 Sm 1.7575 Gd 0.0925 Ce 0.15 Cu 1 O 4 1996 T' A 3.911 11.868 K 14.8 18 15 15 "mixture-heat(1000C,48h, in air)-air quench to RT - oxygen reduction(850 - 950C, 2h in air)" "Ionic-size effect on the structure and Tc of T'-(R1-xR'x)1.85Ce0.15CuO4 (R=Pr,Nd,Sm and Eu;R'=Gd and Y)" 1996 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 80424,Taiwan" "Physica.C,260(1996)117-124" 33008 PHC2600117 "(Sm,Gd,Ce)2CuO4" Sm1.665Gd0.185Ce0.15Cu1O4 Sm 1.665 Gd 0.185 Ce 0.15 Cu 1 O 4 1996 T' A 3.907 11.858 K 12.3 17.3 13 13 "mixture-heat(1000C,48h, in air)-air quench to RT - oxygen reduction(850 - 950C, 2h in air)" "Ionic-size effect on the structure and Tc of T'-(R1-xR'x)1.85Ce0.15CuO4 (R=Pr,Nd,Sm and Eu;R'=Gd and Y)" 1996 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 80424,Taiwan" "Physica.C,260(1996)117-124" 33009 PHC2600117 "(Sm,Gd,Ce)2CuO4" Sm1.48Gd0.37Ce0.15Cu1O4 Sm 1.48 Gd 0.37 Ce 0.15 Cu 1 O 4 1996 T' A 3.906 11.849 K 10.8 15.3 10.5 10.5 "mixture-heat(1000C,48h, in air)-air quench to RT - oxygen reduction(850 - 950C, 2h in air)" "Ionic-size effect on the structure and Tc of T'-(R1-xR'x)1.85Ce0.15CuO4 (R=Pr,Nd,Sm and Eu;R'=Gd and Y)" 1996 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 80424,Taiwan" "Physica.C,260(1996)117-124" 33010 PHC2600117 "(Sm,Gd,Ce)2CuO4" Sm1.295Gd0.555Ce0.15Cu1O4 Sm 1.295 Gd 0.555 Ce 0.15 Cu 1 O 4 1996 T' A 3.905 11.843 K 11.9 8.5 8.5 "mixture-heat(1000C,48h, in air)-air quench to RT - oxygen reduction(850 - 950C, 2h in air)" "Ionic-size effect on the structure and Tc of T'-(R1-xR'x)1.85Ce0.15CuO4 (R=Pr,Nd,Sm and Eu;R'=Gd and Y)" 1996 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 80424,Taiwan" "Physica.C,260(1996)117-124" 33011 PHC2600117 "(Sm,Gd,Ce)2CuO4" Sm1.11Gd0.74Ce0.15Cu1O4 Sm 1.11 Gd 0.74 Ce 0.15 Cu 1 O 4 1996 T' A 3.904 11.837 K "mixture-heat(1000C,48h, in air)-air quench to RT - oxygen reduction(850 - 950C, 2h in air)" "Ionic-size effect on the structure and Tc of T'-(R1-xR'x)1.85Ce0.15CuO4 (R=Pr,Nd,Sm and Eu;R'=Gd and Y)" 1996 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 80424,Taiwan" "Physica.C,260(1996)117-124" 33012 PHC2600117 "(Sm,Gd,Ce)2CuO4" Sm0.925Gd0.925Ce0.15Cu1O4 Sm 0.925 Gd 0.925 Ce 0.15 Cu 1 O 4 1996 T' A 3.902 11.831 K "mixture-heat(1000C,48h, in air)-air quench to RT - oxygen reduction(850 - 950C, 2h in air)" "Ionic-size effect on the structure and Tc of T'-(R1-xR'x)1.85Ce0.15CuO4 (R=Pr,Nd,Sm and Eu;R'=Gd and Y)" 1996 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 80424,Taiwan" "Physica.C,260(1996)117-124" 33013 PHC2600117 "(Sm,Gd,Ce)2CuO4" Sm0.74Gd1.11Ce0.15Cu1O4 Sm 0.74 Gd 1.11 Ce 0.15 Cu 1 O 4 1996 T' A 3.903 11.833 K "mixture-heat(1000C,48h, in air)-air quench to RT - oxygen reduction(850 - 950C, 2h in air)" "Ionic-size effect on the structure and Tc of T'-(R1-xR'x)1.85Ce0.15CuO4 (R=Pr,Nd,Sm and Eu;R'=Gd and Y)" 1996 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 80424,Taiwan" "Physica.C,260(1996)117-124" 33014 PHC2600117 "(Eu,Gd,Ce)2CuO4" Eu1.7575Gd0.0925Ce0.15Cu1O4 Eu 1.7575 Gd 0.0925 Ce 0.15 Cu 1 O 4 1996 T' A 3.9 11.819 K 9.1 4.7 4.7 "mixture-heat(1000C,48h, in air)-air quench to RT - oxygen reduction(850 - 950C, 2h in air)" "Ionic-size effect on the structure and Tc of T'-(R1-xR'x)1.85Ce0.15CuO4 (R=Pr,Nd,Sm and Eu;R'=Gd and Y)" 1996 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 80424,Taiwan" "Physica.C,260(1996)117-124" 33015 PHC2600117 "(Eu,Gd,Ce)2CuO4" Eu1.665Gd0.185Ce0.15Cu1O4 Eu 1.665 Gd 0.185 Ce 0.15 Cu 1 O 4 1996 T' A 3.899 11.811 K "mixture-heat(1000C,48h, in air)-air quench to RT - oxygen reduction(850 - 950C, 2h in air)" "Ionic-size effect on the structure and Tc of T'-(R1-xR'x)1.85Ce0.15CuO4 (R=Pr,Nd,Sm and Eu;R'=Gd and Y)" 1996 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 80424,Taiwan" "Physica.C,260(1996)117-124" 33016 PHC2600117 "(Eu,Gd,Ce)2CuO4" Eu1.5725Gd0.2775Ce0.15Cu1O4 Eu 1.5725 Gd 0.2775 Ce 0.15 Cu 1 O 4 1996 T' A 3.899 11.81 K "mixture-heat(1000C,48h, in air)-air quench to RT - oxygen reduction(850 - 950C, 2h in air)" "Ionic-size effect on the structure and Tc of T'-(R1-xR'x)1.85Ce0.15CuO4 (R=Pr,Nd,Sm and Eu;R'=Gd and Y)" 1996 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 80424,Taiwan" "Physica.C,260(1996)117-124" 33017 PHC2600117 "(Eu,Gd,Ce)2CuO4" Eu1.48Gd0.37Ce0.15Cu1O4 Eu 1.48 Gd 0.37 Ce 0.15 Cu 1 O 4 1996 T' A 3.898 11.809 K "mixture-heat(1000C,48h, in air)-air quench to RT - oxygen reduction(850 - 950C, 2h in air)" "Ionic-size effect on the structure and Tc of T'-(R1-xR'x)1.85Ce0.15CuO4 (R=Pr,Nd,Sm and Eu;R'=Gd and Y)" 1996 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 80424,Taiwan" "Physica.C,260(1996)117-124" 33018 PHC2600117 "(Eu,Gd,Ce)2CuO4" Eu1.80375Gd0.04625Ce0.15Cu1O4 Eu 1.80375 Gd 0.04625 Ce 0.15 Cu 1 O 4 1996 T' A K 10.2 5.7 5.7 "mixture-heat(1000C,48h, in air)-air quench to RT - oxygen reduction(850 - 950C, 2h in air)" "Ionic-size effect on the structure and Tc of T'-(R1-xR'x)1.85Ce0.15CuO4 (R=Pr,Nd,Sm and Eu;R'=Gd and Y)" 1996 "Department of Physics, National Sun Yat-Sen University, Kaohsiung 80424,Taiwan" "Physica.C,260(1996)117-124" 33019 PHC3550023 EuBa2Cu3O7 Eu1Ba2Cu3O6.9 Eu 1 Ba 2 Cu 3 O z 6.9 1 2001 Y123 A 3.823 3.8922 11.627 K 92 93 94 94 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33020 PHC3550023 "(Eu,Pr)Ba2Cu3O7" Eu0.9Pr0.1Ba2Cu3O6.78 Eu 0.9 Pr 0.1 Ba 2 Cu 3 O z 6.78 1 2001 Y123 A 3.8447 3.9089 11.5915 K 81 82 83 83 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33021 PHC3550023 "(Eu,Pr)Ba2Cu3O7" Eu0.8Pr0.2Ba2Cu3O6.7 Eu 0.8 Pr 0.2 Ba 2 Cu 3 O z 6.7 1 2001 Y123 A 3.8702 3.9093 11.5361 K 65 67 65 65 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33022 PHC3550023 "(Eu,Pr)Ba2Cu3O7" Eu0.7Pr0.3Ba2Cu3O6.66 Eu 0.7 Pr 0.3 Ba 2 Cu 3 O z 6.66 1 2001 Y123 A 3.8521 3.902 11.6118 K 40 60 41 41 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33023 PHC3550023 not s/c "(Eu,Pr)Ba2Cu3O7" Eu0.6Pr0.4Ba2Cu3O6.64 Eu 0.6 Pr 0.4 Ba 2 Cu 3 O z 6.64 1 2001 Y123 A 3.8562 3.9056 11.5313 K 20 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33024 PHC3550023 "Eu(Ba,Pr)2Cu3O7" Eu1Ba1.9Pr0.1Cu3O6.75 Eu 1 Ba 1.9 Pr 0.1 Cu 3 O z 6.75 1 2001 Y123 A 3.7914 3.8757 11.6856 K 66 70 73 73 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33025 PHC3550023 "Eu(Ba,Pr)2Cu3O7" Eu1Ba1.8Pr0.2Cu3O6.69 Eu 1 Ba 1.8 Pr 0.2 Cu 3 O z 6.69 1 2001 Y123 A 3.8165 3.8771 11.7386 K 31 44 46 46 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33026 PHC3550023 R not to zero at 20 K. "Eu(Ba,Pr)2Cu3O7" Eu1Ba1.7Pr0.3Cu3O6.59 Eu 1 Ba 1.7 Pr 0.3 Cu 3 O z 6.59 1 2001 Y123 A 3.8025 3.8989 11.8318 K 20 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33027 PHC3550023 not s/c "Eu(Ba,Pr)2Cu3O7" Eu1Ba1.6Pr0.4Cu3O6.51 Eu 1 Ba 1.6 Pr 0.4 Cu 3 O z 6.51 1 2001 Y123 A 3.8245 3.9082 11.7335 K 20 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33028 PHC3550023 not s/c "(Eu,Pr)(Ba,Sr)2Cu3Oz" Eu0.6Pr0.4Ba1.9Sr0.1Cu3O6.84 Eu 0.6 Pr 0.4 Ba 1.9 Sr 0.1 Cu 3 O z 6.84 1 2001 Y123 A 3.8174 3.8603 11.7962 K 20 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33029 PHC3550023 not s/c "(Eu,Pr)(Ba,Sr)2Cu3Oz" Eu0.6Pr0.4Ba1.8Sr0.2Cu3O6.88 Eu 0.6 Pr 0.4 Ba 1.8 Sr 0.2 Cu 3 O z 6.88 1 2001 Y123 A 3.8321 3.9 11.6943 K 20 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33030 PHC3550023 "(Eu,Pr)(Ba,Sr)2Cu3Oz" Eu0.6Pr0.4Ba1.7Sr0.3Cu3O6.93 Eu 0.6 Pr 0.4 Ba 1.7 Sr 0.3 Cu 3 O z 6.93 1 2001 Y123 A 3.8303 3.898 11.6706 K 20 27 28 28 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33031 PHC3550023 "(Eu,Pr)(Ba,Sr)2Cu3Oz" Eu0.6Pr0.4Ba1.6Sr0.4Cu3O7 Eu 0.6 Pr 0.4 Ba 1.6 Sr 0.4 Cu 3 O z 7 1 2001 Y123 A 3.8483 3.9026 11.6313 K 21 29 29 29 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33032 PHC3550023 "(Eu,Pr)(Ba,Sr)2Cu3Oz" Eu0.6Pr0.4Ba1.5Sr0.5Cu3O6.89 Eu 0.6 Pr 0.4 Ba 1.5 Sr 0.5 Cu 3 O z 6.89 1 2001 Y123 A 3.8395 3.9084 11.6945 K 21 32 34 34 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33033 PHC3550023 not s/c "Eu(Ba,Pr,Sr)2Cu3O7" Eu1Ba1.6Pr0.3Sr0.1Cu3O6.71 Eu 1 Ba 1.6 Pr 0.3 Sr 0.1 Cu 3 O z 6.71 1 2001 Y123 A 3.8271 3.9186 11.7492 K 20 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33034 PHC3550023 "Eu(Ba,Pr,Sr)2Cu3O7" Eu1Ba1.5Pr0.3Sr0.2Cu3O6.81 Eu 1 Ba 1.5 Pr 0.3 Sr 0.2 Cu 3 O z 6.81 1 2001 Y123 A 3.8255 3.916 11.6113 K 20 27 28 28 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33035 PHC3550023 "Eu(Ba,Pr,Sr)2Cu3O7" Eu1Ba1.4Pr0.3Sr0.3Cu3O6.92 Eu 1 Ba 1.4 Pr 0.3 Sr 0.3 Cu 3 O z 6.92 1 2001 Y123 A 3.8116 3.9031 11.707 K 21 30 29 29 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33036 PHC3550023 "Eu(Ba,Pr,Sr)2Cu3O7" Eu1Ba1.3Pr0.3Sr0.4Cu3O7 Eu 1 Ba 1.3 Pr 0.3 Sr 0.4 Cu 3 O z 7 1 2001 Y123 A 3.8014 3.8981 11.6771 K 21 31 30 30 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33037 PHC3550023 "Eu(Ba,Pr,Sr)2Cu3O7" Eu1Ba1.2Pr0.3Sr0.5Cu3O6.89 Eu 1 Ba 1.2 Pr 0.3 Sr 0.5 Cu 3 O z 6.89 1 2001 Y123 A 3.8165 3.9068 11.7431 K 21 33 32 32 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33038 PHC3550023 R not to zero at 20 K. "(Eu,Sr)(Ba,Pr)2Cu3O7" Eu0.9Sr0.1Ba1.6Pr0.1Cu3O6.58 Eu 0.9 Sr 0.1 Ba 1.6 Pr 0.1 Cu 3 O z 6.58 1 2001 Y123 A 3.8437 3.8828 11.642 K 30 32 32 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33039 PHC3550023 "(Eu,Sr)(Ba,Pr)2Cu3O7" Eu0.8Sr0.2Ba1.6Pr0.1Cu3O6.78 Eu 0.8 Sr 0.2 Ba 1.6 Pr 0.1 Cu 3 O z 6.78 1 2001 Y123 A 3.8444 3.8753 11.6443 K 24 50 51 51 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33040 PHC3550023 "(Eu,Sr)(Ba,Pr)2Cu3O7" Eu0.7Sr0.3Ba1.6Pr0.1Cu3O6.91 Eu 0.7 Sr 0.3 Ba 1.6 Pr 0.1 Cu 3 O z 6.91 1 2001 Y123 A 3.8374 3.8657 11.6919 K 28 52 54 54 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33041 PHC3550023 "(Eu,Sr)(Ba,Pr)2Cu3O7" Eu0.6Sr0.4Ba1.6Pr0.1Cu3O7.06 Eu 0.6 Sr 0.4 Ba 1.6 Pr 0.1 Cu 3 O z 7.06 1 2001 Y123 A 3.8151 3.8919 11.8929 K 27 49 50 50 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33042 PHC3550023 "(Eu,Sr)(Ba,Pr)2Cu3O7" Eu0.5Sr0.5Ba1.6Pr0.1Cu3O7.07 Eu 0.5 Sr 0.5 Ba 1.6 Pr 0.1 Cu 3 O z 7.07 1 2001 Y123 A 3.8085 3.8925 11.7019 K 20 40 42 42 1 "mixture-SIN(950C,12h inO2)-ANN(500C,24h in O2 flow)-slow cooling to RT(1C/min)" Effect of Sr-substitution on the restitution of superconductivity in Pr-substituted at rare earth and Ba-site in EuBa2Cu3Oz 2001 "Department of Physics, Saurashtra University, University Road, Rajkot 360 005, India" "Physica C, 355(2001)23" 33043 PHC3550267 "Jc(5K,5T)=61500 A/cm2. Jc(50K,5T)=1200 A/cm2" CuBa2YCu2O7 Y1Ba2Cu3O6.91 Y 1 Ba 2 Cu 3 O z 6.91 2001 Y123 K 93 93 93 "SIN(930C,80h)-cool to RT (100C/h) as-prepared." Effects of Re substitution on the structure and superconductivity of Cu1-xRexBa2YCu2Ow 2001 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche, Parco Area delle Scienze 37A, Fontanini-Parma, Italy" "Physica C, 355(2001)267" 33044 PHC3550267 "impurity phase=Y2BaCuO5,BaCuO2,CaO. Total impurity phase less than 2%. Tirr(1T)=77 K. Tirr(5T)=42 K." "(Cu,Re)Ba2YCu2O7" Y1Re0.05Ba2Cu2.95O6.94 Y 1 Re 0.05 Ba 2 Cu 2.95 O z 6.94 1 2001 Cu1212 K 86 88 88 "SIN(930C,80h)-cool to RT (100C/h) as-prepared." Effects of Re substitution on the structure and superconductivity of Cu1-xRexBa2YCu2Ow 2001 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche, Parco Area delle Scienze 37A, Fontanini-Parma, Italy" "Physica C, 355(2001)267" 33045 PHC3550267 "(Cu,Re)Ba2YCu2O7" Y1Re0.1Ba2Cu2.9O7 Y 1 Re 0.1 Ba 2 Cu 2.9 O z 7 2001 Cu1212 K 70.5 91.5 91.5 "SIN(930C,80h)-cool to RT (100C/h) as-prepared." Effects of Re substitution on the structure and superconductivity of Cu1-xRexBa2YCu2Ow 2001 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche, Parco Area delle Scienze 37A, Fontanini-Parma, Italy" "Physica C, 355(2001)267" 33046 PHC3550267 impurity phase = YBa2ReO6 "(Cu,Re)Ba2YCu2O7" Y1Re0.15Ba2Cu2.85O7.07 Y 1 Re 0.15 Ba 2 Cu 2.85 O z 7.07 2001 Cu1212 K 60 91.5 91.5 "SIN(930C,80h)-cool to RT (100C/h) as-prepared." Effects of Re substitution on the structure and superconductivity of Cu1-xRexBa2YCu2Ow 2001 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche, Parco Area delle Scienze 37A, Fontanini-Parma, Italy" "Physica C, 355(2001)267" 33047 PHC3550267 CuBa2YCu2O7 Y1Ba2Cu3O6.96 Y 1 Ba 2 Cu 3 O z 6.96 2001 Y123 K 92.5 92 92 "(as-grown)-heat(880C,2h in flowing O2)-cool to 480C(30C/h)-ANN(480C,50-100h)-RT" Effects of Re substitution on the structure and superconductivity of Cu1-xRexBa2YCu2Ow 2001 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche, Parco Area delle Scienze 37A, Fontanini-Parma, Italy" "Physica C, 355(2001)267" 33048 PHC3550267 "(Cu,Re)Ba2YCu2O7" Y1Re0.05Ba2Cu2.95O7.02 Y 1 Re 0.05 Ba 2 Cu 2.95 O z 7.02 2001 Cu1212 K 93 92 92 "(as-grown)-heat(880C,2h in flowing O2)-cool to 480C(30C/h)-ANN(480C,50-100h)-RT" Effects of Re substitution on the structure and superconductivity of Cu1-xRexBa2YCu2Ow 2001 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche, Parco Area delle Scienze 37A, Fontanini-Parma, Italy" "Physica C, 355(2001)267" 33049 PHC3550267 "Jc(5K,5T)=23300 A/cm2. Jc(50K,5T)=68 A/cm2. Tirr(1T)=77 K. Tirr(5T)=41 K." "(Cu,Re)Ba2YCu2O7" Y1Re0.1Ba2Cu2.9O7.08 Y 1 Re 0.1 Ba 2 Cu 2.9 O z 7.08 2001 Cu1212 A 3.8419 3.8765 11.6913 K 89 90 90 "(as-grown)-heat(880C,2h in flowing O2)-cool to 480C(30C/h)-ANN(480C,50-100h)-RT" Effects of Re substitution on the structure and superconductivity of Cu1-xRexBa2YCu2Ow 2001 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche, Parco Area delle Scienze 37A, Fontanini-Parma, Italy" "Physica C, 355(2001)267" 33050 PHC3550267 "(Cu,Re)Ba2YCu2O7" Y1Re0.15Ba2Cu2.85O7.13 Y 1 Re 0.15 Ba 2 Cu 2.85 O z 7.13 2001 Cu1212 K 85 90 90 "(as-grown)-heat(880C,2h in flowing O2)-cool to 480C(30C/h)-ANN(480C,50-100h)-RT" Effects of Re substitution on the structure and superconductivity of Cu1-xRexBa2YCu2Ow 2001 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche, Parco Area delle Scienze 37A, Fontanini-Parma, Italy" "Physica C, 355(2001)267" 33051 PHC3550267 CuBa2YCu2O7 Y1Ba2Cu3O6.96 Y 1 Ba 2 Cu 3 O z 6.96 2001 Y123 K 91 92 92 "(as-grown sample+KClO3)-(sealed quartz tube)-heat(480C,12h)-cool to RT(100C/h)" Effects of Re substitution on the structure and superconductivity of Cu1-xRexBa2YCu2Ow 2001 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche, Parco Area delle Scienze 37A, Fontanini-Parma, Italy" "Physica C, 355(2001)267" 33052 PHC3550267 "(Cu,Re)Ba2YCu2O7" Y1Re0.05Ba2Cu2.95O7.04 Y 1 Re 0.05 Ba 2 Cu 2.95 O z 7.04 2001 Cu1212 K 92.5 92 92 "(as-grown sample+KClO3)-(sealed quartz tube)-heat(480C,12h)-cool to RT(100C/h)" Effects of Re substitution on the structure and superconductivity of Cu1-xRexBa2YCu2Ow 2001 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche, Parco Area delle Scienze 37A, Fontanini-Parma, Italy" "Physica C, 355(2001)267" 33053 PHC3550267 "(Cu,Re)Ba2YCu2O7" Y1Re0.1Ba2Cu2.9O7.09 Y 1 Re 0.1 Ba 2 Cu 2.9 O z 7.09 2001 Cu1212 K 91 91 91 "(as-grown sample+KClO3)-(sealed quartz tube)-heat(480C,12h)-cool to RT(100C/h)" Effects of Re substitution on the structure and superconductivity of Cu1-xRexBa2YCu2Ow 2001 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche, Parco Area delle Scienze 37A, Fontanini-Parma, Italy" "Physica C, 355(2001)267" 33054 PHC3550267 "(Cu,Re)Ba2YCu2O7" Y1Re0.15Ba2Cu2.85O7.17 Y 1 Re 0.15 Ba 2 Cu 2.85 O z 7.17 2001 Cu1212 K 85 91 91 "(as-grown sample+KClO3)-(sealed quartz tube)-heat(480C,12h)-cool to RT(100C/h)" Effects of Re substitution on the structure and superconductivity of Cu1-xRexBa2YCu2Ow 2001 "Istituto Materiali Speciali per Elettronica e Magnetismo del Consiglio Nazionale delle Ricerche, Parco Area delle Scienze 37A, Fontanini-Parma, Italy" "Physica C, 355(2001)267" 33055 PHC3560012 "(K,La)BiO3" K0.9La0.1Bi1O3 K 0.9 La 0.1 Bi 1 O 3 2001 BKBO A 4.2121 K 5.74 5.74 "KO2,La2O3,Bi2O3,CaO,Ca6Bi6O15" "mixture-Au capsule-press(5-6 Gpa)-heat(800-1100C,7min)-hold 1h-cool to RT" "Extended range of superconducting bismuthates K1-xAxBiO3 (A=La, Bi, and Ca)" 2001 "SRL, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Physica C, 356(2001)12" 33056 PHC3560012 "(K,La)BiO3" K0.85La0.15Bi1O3 K 0.85 La 0.15 Bi 1 O 3 2001 BKBO A 4.2133 K 10.25 10.25 "KO2,La2O3,Bi2O3,CaO,Ca6Bi6O15" "mixture-Au capsule-press(5-6 Gpa)-heat(800-1100C,7min)-hold 1h-cool to RT" "Extended range of superconducting bismuthates K1-xAxBiO3 (A=La, Bi, and Ca)" 2001 "SRL, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Physica C, 356(2001)12" 33057 PHC3560012 "(K,La)BiO3" K0.8La0.2Bi1O3 K 0.8 La 0.2 Bi 1 O 3 2001 BKBO A 4.2155 K 12.2 12.2 "KO2,La2O3,Bi2O3,CaO,Ca6Bi6O15" "mixture-Au capsule-press(5-6 Gpa)-heat(800-1100C,7min)-hold 1h-cool to RT" "Extended range of superconducting bismuthates K1-xAxBiO3 (A=La, Bi, and Ca)" 2001 "SRL, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Physica C, 356(2001)12" 33058 PHC3560012 "(K,La)BiO3" K0.75La0.25Bi1O3 K 0.75 La 0.25 Bi 1 O 3 2001 BKBO A 4.2167 K 12.2 12.2 "KO2,La2O3,Bi2O3,CaO,Ca6Bi6O15" "mixture-Au capsule-press(5-6 Gpa)-heat(800-1100C,7min)-hold 1h-cool to RT" "Extended range of superconducting bismuthates K1-xAxBiO3 (A=La, Bi, and Ca)" 2001 "SRL, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Physica C, 356(2001)12" 33059 PHC3560012 "(K,Bi)BiO3" K0.95Bi1.05O3 K 0.95 Bi 1.05 O 3 2001 BKBO A 4.2201 K 6 6 "synthesized at 900C, p=5GPa" "Extended range of superconducting bismuthates K1-xAxBiO3 (A=La, Bi, and Ca)" 2001 "SRL, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Physica C, 356(2001)12" 33060 PHC3560012 "(K,Bi)BiO3" K0.9Bi1.1O3 K 0.9 Bi 1.1 O 3 2001 BKBO A 4.2225 K 6.5 6.5 TC33060 "synthesized at 900C, p=5GPa" "Extended range of superconducting bismuthates K1-xAxBiO3 (A=La, Bi, and Ca)" 2001 "SRL, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Physica C, 356(2001)12" 33061 PHC3560012 "(K,Bi)BiO3" K0.85Bi1.15O3 K 0.85 Bi 1.15 O 3 2001 BKBO A 4.2245 K 7.4 7.4 "synthesized at 900C, p=5GPa" "Extended range of superconducting bismuthates K1-xAxBiO3 (A=La, Bi, and Ca)" 2001 "SRL, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Physica C, 356(2001)12" 33062 PHC3560012 "(K,Bi)BiO3" K0.8Bi1.2O3 K 0.8 Bi 1.2 O 3 2001 BKBO A 4.228 K 8.7 8.7 "synthesized at 900C, p=5GPa" "Extended range of superconducting bismuthates K1-xAxBiO3 (A=La, Bi, and Ca)" 2001 "SRL, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Physica C, 356(2001)12" 33063 PHC3560012 0.1 derived from muon-SR of poly sample. carrier p=0.075(under-doped) HgBa2CuO4+z Hg1Ba2Cu1O4.1 Hg 1 Ba 2 Cu 1 O 4+Z 4.1 1 1999 Hg1201 K 60 60 um muon-SR 0.194 controlled solid-vapor reaction Effects of carrier concentration on the superfluid density of high-Tc cuprates 1999 "IRC in Superconductivity, University of Cambridge, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.B, 60(1999)14617" 33303 PR06014617 penet derived from muon-SR of poly sample. carrier p=0.22 (over-doped) HgBa2CuO4+z Hg1Ba2Cu1O4.37 Hg 1 Ba 2 Cu 1 O 4+Z 4.37 1 1999 Hg1201 K 35 35 um muon-SR 0.148 controlled solid-vapor reaction Effects of carrier concentration on the superfluid density of high-Tc cuprates 1999 "IRC in Superconductivity, University of Cambridge, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.B, 60(1999)14617" 33304 PRL0792320 >95% Hg1201. c-axis aligned grains(ave. size = 4 micron). anisotropy = 7.95. HgBa2CuO4 Hg1Ba2Cu1O4+Z Hg 1 Ba 2 Cu 1 O 4+Z 1997 Hg1201 K 93 93 um ac-susceptibility 0.171 1.36 single step technique Probing the Order Parameter and the c-Axis Coupling of High-Tc Cuprates by Penetration Depth Measurements 1997 "IRC in Superconductivity, University of Cambridge, Madingley Road, Cambridge, CB3 OHE, United Kingdom" "Phys.Rev.Lett., 79(1997)2320" 33305 PRL0792320 >90% Hg1223. c-axis aligned grains(ave. size = 10 micron). anisotropy = 34.5 HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8+z Hg 1 Ba 2 Ca 2 Cu 3 O 8+z 1997 Hg1223 K 134.5 134.5 um ac-susceptibility 0.177 6.1 single step technique Probing the Order Parameter and the c-Axis Coupling of High-Tc Cuprates by Penetration Depth Measurements 1997 "IRC in Superconductivity, University of Cambridge, Madingley Road, Cambridge, CB3 OHE, United Kingdom" "Phys.Rev.Lett., 79(1997)2320" 33306 PRL0792320 YBa2Cu3O7-z Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7-z 7 1997 Y123 K 92 92 um ac-susceptibility 1.26 "fully oxygenated, ANN(380C, 24h, in O2) - slow cool to RT" Probing the Order Parameter and the c-Axis Coupling of High-Tc Cuprates by Penetration Depth Measurements 1997 "IRC in Superconductivity, University of Cambridge, Madingley Road, Cambridge, CB3 OHE, United Kingdom" "Phys.Rev.Lett., 79(1997)2320" 33307 PRL0792320 YBa2Cu3O7-z Y1Ba2Cu3O6.57 Y 1 Ba 2 Cu 3 O 7-z 6.57 1997 Y123 K 55 55 um ac-susceptibility 7.17 "ANN(550C, 12h, in 0.2%O2/N2) - Q to LN2" Probing the Order Parameter and the c-Axis Coupling of High-Tc Cuprates by Penetration Depth Measurements 1997 "IRC in Superconductivity, University of Cambridge, Madingley Road, Cambridge, CB3 OHE, United Kingdom" "Phys.Rev.Lett., 79(1997)2320" 33308 PR04906392 thickness=3000A. gap in meV. "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 5 1994 T' K 17.2 17.2 um surface impedance 0.36 2.3 3.1 7 laser ablation in N2O atmosphere on (100)LaAlO3 substrate. Temperature dependence of the penetration depth in Nd1.85Ce0.15CuO4-z superconducting thin films 1994 "Phys.Rev.B, 49(1994)6392" 33309 PR05000523 substrate=LaAlO3 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 5 1994 T' K 21 21 A 72 A surface impedance 1300 4 7 pulse laser deposition in N2O atmosphere on YSZ buffer layer (1000A). Electrodynamics of Nd1.85Ce0.15CuO4: Comparison with Nb and YBa2Cu3O7-z 1994 "University of Maryland, USA" "Phys.Rev.B, 50(1994)523" 33310 PR05000523 substrate=Al2O3 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 5 1994 T' K 21.5 21.5 A 80 A surface impedance 760 4.06 7 pulse laser deposition in N2O atmosphere on YSZ buffer layer (1000A). Electrodynamics of Nd1.85Ce0.15CuO4: Comparison with Nb and YBa2Cu3O7-z 1994 "University of Maryland, USA" "Phys.Rev.B, 50(1994)523" 33311 PR05000523 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 3 1994 T' K 21.5 21.5 A 80 A surface impedance 1250 3.9 7 directional solidification technique. Electrodynamics of Nd1.85Ce0.15CuO4: Comparison with Nb and YBa2Cu3O7-z 1994 "University of Maryland, USA" "Phys.Rev.B, 50(1994)523" 33312 PLA2880105 "ANN(650C, 6h, in O2). mechanical properties were calculated from ultrasonic velocity." DyBaSrCu3O7 Dy1Ba1Sr1Cu3O7-z Dy 1 Ba 1 Sr 1 Cu 3 O 7-z 1 2001 6.8 GPa 134 GPa 54 GPa 87 3 Y123 A 3.801 3.85 11.549 K 82 82 448 mOhm.cm 0.29 1 solid state reaction Elastic properties of superconducting and non-superconducting DyBaSrCu3O7-z 2001 "School of Applied Physics, Universiti Kebangsaan Malaysia, Bangi, Selangor, Malaysia" "Physics Lett., A, 288(2001)105" 33313 PLA2880105 "ANN(920C, 1h, in N2). mechanical properties were calculated from ultrasonic velocity." DyBaSrCu3O7 Dy1Ba1Sr1Cu3O7-z Dy 1 Ba 1 Sr 1 Cu 3 O 7-z 1 2001 6.58 GPa 110 GPa 43 GPa 78 2 Y123 A 3.836 11.614 K 402 kOhm.cm 3.37 1 solid state reaction Elastic properties of superconducting and non-superconducting DyBaSrCu3O7-z 2001 "School of Applied Physics, Universiti Kebangsaan Malaysia, Bangi, Selangor, Malaysia" "Physics Lett., A, 288(2001)105" 33314 P065094518 Hirr defined as Jc = 50 A/cm2. YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 3 2002 Y124 K 78.1 78.1 HIR33314 high pressure synthesis Critical currents and order-disorder phase transition in the vortex states of YBa2Cu4O8 with chemically introduced disorder 2002 "Solid State Physics Laboratory ETH, CH 8093-Zurich, Switzerland" "Phys.Rev.B, 65(2002)94518" 33315 P065094518 Hirr defined as Jc = 50 A/cm2. "Y(Ba,Sr)2Cu4O8" Y1Ba1.8Sr0.2Cu4O8 Y 1 Ba 1.8 Sr 0.2 Cu 4 O 8 3 2002 Y124 K 76.5 76.5 HIR33315 high pressure synthesis Critical currents and order-disorder phase transition in the vortex states of YBa2Cu4O8 with chemically introduced disorder 2002 "Solid State Physics Laboratory ETH, CH 8093-Zurich, Switzerland" "Phys.Rev.B, 65(2002)94518" 33316 P065094518 Hirr defined as Jc = 50 A/cm2. "Y(Ba,Sr)2Cu4O8" Y1Ba1.65Sr0.35Cu4O8 Y 1 Ba 1.65 Sr 0.35 Cu 4 O 8 3 2002 Y124 K 80.8 80.8 HIR33316 high pressure synthesis Critical currents and order-disorder phase transition in the vortex states of YBa2Cu4O8 with chemically introduced disorder 2002 "Solid State Physics Laboratory ETH, CH 8093-Zurich, Switzerland" "Phys.Rev.B, 65(2002)94518" 33317 P065094518 Hirr defined as Jc = 50 A/cm2. "Y(Ba,Sr)2Cu4O8" Y1Ba1.6Sr0.4Cu4O8 Y 1 Ba 1.6 Sr 0.4 Cu 4 O 8 3 2002 Y124 K 81.4 81.4 HIR33317 high pressure synthesis Critical currents and order-disorder phase transition in the vortex states of YBa2Cu4O8 with chemically introduced disorder 2002 "Solid State Physics Laboratory ETH, CH 8093-Zurich, Switzerland" "Phys.Rev.B, 65(2002)94518" 33318 P065094518 Hirr defined as Jc = 50 A/cm2. "Y(Ba,Sr)2Cu4O8" Y1Ba1.36Sr0.64Cu4O8 Y 1 Ba 1.36 Sr 0.64 Cu 4 O 8 3 2002 Y124 K 81 81 HIR33318 high pressure synthesis Critical currents and order-disorder phase transition in the vortex states of YBa2Cu4O8 with chemically introduced disorder 2002 "Solid State Physics Laboratory ETH, CH 8093-Zurich, Switzerland" "Phys.Rev.B, 65(2002)94518" 33319 P065104506 "(Sm,Ce)2CuO4" Sm1.85Ce0.15Cu1O3.97 Sm 1.85 Ce 0.15 Cu 1 O 4-z 3.97 3 2002 5 T' I4/mmm A 3.9199 11.906 K 21.8 21.8 "R2O3,CeO2,CuO" 1 "mixture in Pt crucible - heat(1200-1300C)-cool to (1000-1120), 1 C/h, then ANN(950C, in flowing Ar)" Superconductivity and magnetism of Sm1.85-xGdxCe0.15CuO4-d and Gd2-yCeyCuO4-d crystals 2002 "College of Science and Engineering, Aoyama Gakuin University Chitosedai, Setagaya, Tokyo, Japan" "Phys.Rev.B, 65(2002)104506" 33320 P065104506 "(Sm,Gd,Ce)2CuO4" Sm1.75Gd0.1Ce0.15Cu1O3.97 Sm 1.75 Gd 0.1 Ce 0.15 Cu 1 O 4-z 3.97 3 2002 4.64 T' I4/mmm A 3.9191 11.899 K 21.4 21.4 "R2O3,CeO2,CuO" 1 "mixture in Pt crucible - heat(1200-1300C)-cool to (1000-1120), 1 C/h, then ANN(950C, in flowing Ar)" Superconductivity and magnetism of Sm1.85-xGdxCe0.15CuO4-d and Gd2-yCeyCuO4-d crystals 2002 "College of Science and Engineering, Aoyama Gakuin University Chitosedai, Setagaya, Tokyo, Japan" "Phys.Rev.B, 65(2002)104506" 33321 P065104506 "(Sm,Gd,Ce)2CuO4" Sm1.65Gd0.2Ce0.15Cu1O3.97 Sm 1.65 Gd 0.2 Ce 0.15 Cu 1 O 4-z 3.97 3 2002 4.41 T' I4/mmm A 3.9179 11.897 K 21 21 "R2O3,CeO2,CuO" 1 "mixture in Pt crucible - heat(1200-1300C)-cool to (1000-1120), 1 C/h, then ANN(950C, in flowing Ar)" Superconductivity and magnetism of Sm1.85-xGdxCe0.15CuO4-d and Gd2-yCeyCuO4-d crystals 2002 "College of Science and Engineering, Aoyama Gakuin University Chitosedai, Setagaya, Tokyo, Japan" "Phys.Rev.B, 65(2002)104506" 33322 P065104506 "(Sm,Gd,Ce)2CuO4" Sm1.55Gd0.3Ce0.15Cu1O3.97 Sm 1.55 Gd 0.3 Ce 0.15 Cu 1 O 4-z 3.97 3 2002 4.26 T' I4/mmm A 3.9167 11.889 K 20.2 20.2 "R2O3,CeO2,CuO" 1 "mixture in Pt crucible - heat(1200-1300C)-cool to (1000-1120), 1 C/h, then ANN(950C, in flowing Ar)" Superconductivity and magnetism of Sm1.85-xGdxCe0.15CuO4-d and Gd2-yCeyCuO4-d crystals 2002 "College of Science and Engineering, Aoyama Gakuin University Chitosedai, Setagaya, Tokyo, Japan" "Phys.Rev.B, 65(2002)104506" 33323 P065104506 "(Sm,Gd,Ce)2CuO4" Sm1.45Gd0.4Ce0.15Cu1O3.97 Sm 1.45 Gd 0.4 Ce 0.15 Cu 1 O 4-z 3.97 3 2002 4.18 T' I4/mmm A 3.9159 11.884 K 19.2 19.2 "R2O3,CeO2,CuO" 1 "mixture in Pt crucible - heat(1200-1300C)-cool to (1000-1120), 1 C/h, then ANN(950C, in flowing Ar)" Superconductivity and magnetism of Sm1.85-xGdxCe0.15CuO4-d and Gd2-yCeyCuO4-d crystals 2002 "College of Science and Engineering, Aoyama Gakuin University Chitosedai, Setagaya, Tokyo, Japan" "Phys.Rev.B, 65(2002)104506" 33324 P065104506 "(Sm,Gd,Ce)2CuO4" Sm1.35Gd0.5Ce0.15Cu1O3.97 Sm 1.35 Gd 0.5 Ce 0.15 Cu 1 O 4-z 3.97 3 2002 T' I4/mmm A 3.9143 11.878 K 18.8 18.8 "R2O3,CeO2,CuO" 1 "mixture in Pt crucible - heat(1200-1300C)-cool to (1000-1120), 1 C/h, then ANN(950C, in flowing Ar)" Superconductivity and magnetism of Sm1.85-xGdxCe0.15CuO4-d and Gd2-yCeyCuO4-d crystals 2002 "College of Science and Engineering, Aoyama Gakuin University Chitosedai, Setagaya, Tokyo, Japan" "Phys.Rev.B, 65(2002)104506" 33325 P065104506 "(Sm,Gd,Ce)2CuO4" Sm1.25Gd0.6Ce0.15Cu1O3.97 Sm 1.25 Gd 0.6 Ce 0.15 Cu 1 O 4-z 3.97 3 2002 3.5 T' I4/mmm A 3.9131 11.875 K 16.8 16.8 "R2O3,CeO2,CuO" 1 "mixture in Pt crucible - heat(1200-1300C)-cool to (1000-1120), 1 C/h, then ANN(950C, in flowing Ar)" Superconductivity and magnetism of Sm1.85-xGdxCe0.15CuO4-d and Gd2-yCeyCuO4-d crystals 2002 "College of Science and Engineering, Aoyama Gakuin University Chitosedai, Setagaya, Tokyo, Japan" "Phys.Rev.B, 65(2002)104506" 33326 P065104506 "(Sm,Gd,Ce)2CuO4" Sm1.15Gd0.7Ce0.15Cu1O3.97 Sm 1.15 Gd 0.7 Ce 0.15 Cu 1 O 4-z 3.97 3 2002 T' I4/mmm A 3.9123 11.87 K 16.8 16.8 "R2O3,CeO2,CuO" 1 "mixture in Pt crucible - heat(1200-1300C)-cool to (1000-1120), 1 C/h, then ANN(950C, in flowing Ar)" Superconductivity and magnetism of Sm1.85-xGdxCe0.15CuO4-d and Gd2-yCeyCuO4-d crystals 2002 "College of Science and Engineering, Aoyama Gakuin University Chitosedai, Setagaya, Tokyo, Japan" "Phys.Rev.B, 65(2002)104506" 33327 P065104506 "(Sm,Gd,Ce)2CuO4" Sm1.05Gd0.8Ce0.15Cu1O3.97 Sm 1.05 Gd 0.8 Ce 0.15 Cu 1 O 4-z 3.97 3 2002 2.97 T' I4/mmm A 3.9107 11.863 K 15 15 "R2O3,CeO2,CuO" 1 "mixture in Pt crucible - heat(1200-1300C)-cool to (1000-1120), 1 C/h, then ANN(950C, in flowing Ar)" Superconductivity and magnetism of Sm1.85-xGdxCe0.15CuO4-d and Gd2-yCeyCuO4-d crystals 2002 "College of Science and Engineering, Aoyama Gakuin University Chitosedai, Setagaya, Tokyo, Japan" "Phys.Rev.B, 65(2002)104506" 33328 P065104506 "(Sm,Gd,Ce)2CuO4" Sm0.85Gd1Ce0.15Cu1O3.97 Sm 0.85 Gd 1 Ce 0.15 Cu 1 O 4-z 3.97 3 2002 2.66 T' I4/mmm A 3.9087 11.854 K 11.3 11.3 "R2O3,CeO2,CuO" 1 "mixture in Pt crucible - heat(1200-1300C)-cool to (1000-1120), 1 C/h, then ANN(950C, in flowing Ar)" Superconductivity and magnetism of Sm1.85-xGdxCe0.15CuO4-d and Gd2-yCeyCuO4-d crystals 2002 "College of Science and Engineering, Aoyama Gakuin University Chitosedai, Setagaya, Tokyo, Japan" "Phys.Rev.B, 65(2002)104506" 33329 P065104506 "(Sm,Gd,Ce)2CuO4" Sm0.75Gd1.1Ce0.15Cu1O3.97 Sm 0.75 Gd 1.1 Ce 0.15 Cu 1 O 4-z 3.97 3 2002 T' I4/mmm A 3.9067 11.852 K 9.6 9.6 "R2O3,CeO2,CuO" 1 "mixture in Pt crucible - heat(1200-1300C)-cool to (1000-1120), 1 C/h, then ANN(950C, in flowing Ar)" Superconductivity and magnetism of Sm1.85-xGdxCe0.15CuO4-d and Gd2-yCeyCuO4-d crystals 2002 "College of Science and Engineering, Aoyama Gakuin University Chitosedai, Setagaya, Tokyo, Japan" "Phys.Rev.B, 65(2002)104506" 33330 P065104523 "not s/c. Curie-T in DB is for H//ab. Curie-T for H//c is 2.5K. optical conductivity, specific heat were measured." "Sr2(Ru,Ti)O4" Sr2Ru0.9Ti0.1O4 Sr 2 Ru 0.9 Ti 0.1 O 4 3 2002 -100 A 3.8744 12.7163 K 0.3 single crystals were grown by floating zone method "Transport, magnetic, thermodynamic, and optical properties in Ti-doped Sr2RuO4" 2002 "Experimentalphysik V, Elektronische Korrelationen und Magnetismus, Institut fur Physik, Universitat Augsburg, Augsburg, Germany" "Phys.Rev.B, 65(2002)104523" 33331 P065104523 "not s/c. Curie-T in DB is for H//ab. Curie-T for H//c is 5.8K. optical conductivity, specific heat were measured." "Sr2(Ru,Ti)O4" Sr2Ru0.8Ti0.2O4 Sr 2 Ru 0.8 Ti 0.2 O 4 3 2002 -58 A 3.8775 12.7008 K 0.3 single crystals were grown by floating zone method "Transport, magnetic, thermodynamic, and optical properties in Ti-doped Sr2RuO4" 2002 "Experimentalphysik V, Elektronische Korrelationen und Magnetismus, Institut fur Physik, Universitat Augsburg, Augsburg, Germany" "Phys.Rev.B, 65(2002)104523" 33332 PHC3570393 Li-intercalated layered niobium oxide LixRbCa2Nb3O10 Li0.34Rb1Ca2Nb3O10 Li 0.34 Rb 1 Ca 2 Nb 3 O 10 1 2001 A 7.7206 K 3.54 3.54 "AB2Nb3O10 (A=K,Rb,Cs), (B=Ca,Sr) were prepared by solid state reaction, then Li-intercalation by three electrode cell." "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393" 33333 PHC3570393 Li-intercalated layered niobium oxide LixRbCa2Nb3O10 Li0.46Rb1Ca2Nb3O10 Li 0.46 Rb 1 Ca 2 Nb 3 O 10 1 2001 K 3.54 3.54 "AB2Nb3O10 (A=K,Rb,Cs), (B=Ca,Sr) were prepared by solid state reaction, then Li-intercalation by three electrode cell." "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393" 33334 PHC3570393 Li-intercalated layered niobium oxide LixRbCa2Nb3O10 Li0.62Rb1Ca2Nb3O10 Li 0.62 Rb 1 Ca 2 Nb 3 O 10 1 2001 K 2.71 2.71 "AB2Nb3O10 (A=K,Rb,Cs), (B=Ca,Sr) were prepared by solid state reaction, then Li-intercalation by three electrode cell." "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393" 33335 PHC3570393 Li-intercalated layered niobium oxide. not s/c LixRbCa2Nb3O10 Li0.17Rb1Ca2Nb3O10 Li 0.17 Rb 1 Ca 2 Nb 3 O 10 1 2001 K 2 "AB2Nb3O10 (A=K,Rb,Cs), (B=Ca,Sr) were prepared by solid state reaction, then Li-intercalation by three electrode cell." "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393" 33336 PHC3570393 Li-intercalated layered niobium oxide LixRbSr2Nb3O10 Li0.34Rb1Sr2Nb3O10 Li 0.34 Rb 1 Sr 2 Nb 3 O 10 1 2001 A 7.794 K 6.03 6.03 "AB2Nb3O10 (A=K,Rb,Cs), (B=Ca,Sr) were prepared by solid state reaction, then Li-intercalation by three electrode cell." "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393" 33337 PHC3570393 Li-intercalated layered niobium oxide LixKCa2Nb3O10 Li0.34K1Ca2Nb3O10 Li 0.34 K 1 Ca 2 Nb 3 O 10 1 2001 A 7.7343 K 5.39 5.39 "AB2Nb3O10 (A=K,Rb,Cs), (B=Ca,Sr) were prepared by solid state reaction, then Li-intercalation by three electrode cell." "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393" 33338 PHC3570393 Li-intercalated layered niobium oxide. not s/c LixCsCa2Nb3O10 Li0.17Cs1Ca2Nb3O10 Li 0.17 Cs 1 Ca 2 Nb 3 O 10 1 2001 K 2 "AB2Nb3O10 (A=K,Rb,Cs), (B=Ca,Sr) were prepared by solid state reaction, then Li-intercalation by three electrode cell." "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393" 33339 PHC3570393 Li-intercalated layered niobium oxide LixCsCa2Nb3O10 Li0.34Cs1Ca2Nb3O10 Li 0.34 Cs 1 Ca 2 Nb 3 O 10 1 2001 7.7469 K 5.4 5.4 "AB2Nb3O10 (A=K,Rb,Cs), (B=Ca,Sr) were prepared by solid state reaction, then Li-intercalation by three electrode cell." "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393" 33340 PHC3570393 Li-intercalated layered niobium oxide LixCsCa2Nb3O10 Li0.46Cs1Ca2Nb3O10 Li 0.46 Cs 1 Ca 2 Nb 3 O 10 1 2001 K 5.31 5.31 "AB2Nb3O10 (A=K,Rb,Cs), (B=Ca,Sr) were prepared by solid state reaction, then Li-intercalation by three electrode cell." "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393" 33341 PHC3570393 Li-intercalated layered niobium oxide LixCsCa2Nb3O10 Li0.62Cs1Ca2Nb3O10 Li 0.62 Cs 1 Ca 2 Nb 3 O 10 1 2001 K 4.71 4.71 "AB2Nb3O10 (A=K,Rb,Cs), (B=Ca,Sr) were prepared by solid state reaction, then Li-intercalation by three electrode cell." "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393" 33342 PHC3570393 Li-intercalated layered niobium oxide LixCsCa2Nb3O10 Li0.28Cs1Ca2Nb3O10 Li 0.28 Cs 1 Ca 2 Nb 3 O 10 1 2001 K 5.51 5.51 "AB2Nb3O10 (A=K,Rb,Cs), (B=Ca,Sr) were prepared by solid state reaction, then Li-intercalation by three electrode cell." "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393" 33343 P065104505 "ANN(400C,in vac). hole conc p=0.052." HgBa2CuOz Hg1Ba2Cu1O4.032 Hg 1 Ba 2 Cu 1 O 4+z 4.032 1 2002 Hg1201 K 36 36 uV/K 84.9 TP33343 "HgO,BaO,CuO,ZnO" 1 "mixture - sealed in quartz - heat(930C, 20h) - Q to water - small pieces - ANN" Effects of Zn substitution on the superconductivity and pseudogap in HgBa2CuO4+d with various doping levels 2002 "Superconductivity Research Laboratory, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo , Japan" "Phys.Rev.B, 65(2002)104505" 33344 P065104505 "ANN(350C,in vac). hole conc p=0.062." HgBa2CuOz Hg1Ba2Cu1O4.033 Hg 1 Ba 2 Cu 1 O 4+z 4.033 1 2002 Hg1201 K 48 48 uV/K 66.3 TP33344 "HgO,BaO,CuO,ZnO" 1 "mixture - sealed in quartz - heat(930C, 20h) - Q to water - small pieces - ANN" Effects of Zn substitution on the superconductivity and pseudogap in HgBa2CuO4+d with various doping levels 2002 "Superconductivity Research Laboratory, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo , Japan" "Phys.Rev.B, 65(2002)104505" 33345 P065104505 "ANN(450C,in Ar). hole conc p=0.082." HgBa2CuOz Hg1Ba2Cu1O4.043 Hg 1 Ba 2 Cu 1 O 4+z 4.043 1 2002 Hg1201 K 72 72 uV/K 29.2 TP33345 "HgO,BaO,CuO,ZnO" 1 "mixture - sealed in quartz - heat(930C, 20h) - Q to water - small pieces - ANN" Effects of Zn substitution on the superconductivity and pseudogap in HgBa2CuO4+d with various doping levels 2002 "Superconductivity Research Laboratory, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo , Japan" "Phys.Rev.B, 65(2002)104505" 33346 P065104505 "ANN(300C,in Ar). hole conc p=0.103." HgBa2CuOz Hg1Ba2Cu1O4.052 Hg 1 Ba 2 Cu 1 O 4+z 4.052 1 2002 Hg1201 K 82 82 uV/K 13.3 TP33346 "HgO,BaO,CuO,ZnO" 1 "mixture - sealed in quartz - heat(930C, 20h) - Q to water - small pieces - ANN" Effects of Zn substitution on the superconductivity and pseudogap in HgBa2CuO4+d with various doping levels 2002 "Superconductivity Research Laboratory, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo , Japan" "Phys.Rev.B, 65(2002)104505" 33347 P065104505 "ANN(300C,in 0.01 %O2). hole conc p=0.123." HgBa2CuOz Hg1Ba2Cu1O4.058 Hg 1 Ba 2 Cu 1 O 4+z 4.058 1 2002 Hg1201 K 89 89 uV/K 7.2 TP33347 "HgO,BaO,CuO,ZnO" 1 "mixture - sealed in quartz - heat(930C, 20h) - Q to water - small pieces - ANN" Effects of Zn substitution on the superconductivity and pseudogap in HgBa2CuO4+d with various doping levels 2002 "Superconductivity Research Laboratory, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo , Japan" "Phys.Rev.B, 65(2002)104505" 33348 P065104505 "ANN(00C,in 100 %O2). hole conc p=0.132." HgBa2CuOz Hg1Ba2Cu1O4.047 Hg 1 Ba 2 Cu 1 O 4+z 4.047 1 2002 Hg1201 K 95 95 uV/K 4.3 TP33348 "HgO,BaO,CuO,ZnO" 1 "mixture - sealed in quartz - heat(930C, 20h) - Q to water - small pieces - ANN" Effects of Zn substitution on the superconductivity and pseudogap in HgBa2CuO4+d with various doping levels 2002 "Superconductivity Research Laboratory, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo , Japan" "Phys.Rev.B, 65(2002)104505" 33349 P065104505 "ANN(300C,in 5 atm O2). hole conc p=0.168." HgBa2CuOz Hg1Ba2Cu1O4.081 Hg 1 Ba 2 Cu 1 O 4+z 4.081 1 2002 Hg1201 K 98 98 uV/K 0.6 TP33349 "HgO,BaO,CuO,ZnO" 1 "mixture - sealed in quartz - heat(930C, 20h) - Q to water - small pieces - ANN" Effects of Zn substitution on the superconductivity and pseudogap in HgBa2CuO4+d with various doping levels 2002 "Superconductivity Research Laboratory, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo , Japan" "Phys.Rev.B, 65(2002)104505" 33350 P065104505 "ANN(400C,in vac). hole conc p=0.052." "HgBa2(Cu,Zn)Oz" Hg1Ba2Cu0.97Zn0.03O4.032 Hg 1 Ba 2 Cu 0.97 Zn 0.03 O 4+z 4.032 1 2002 Hg1201 K 2 uV/K 79.4 TP33350 "HgO,BaO,CuO,ZnO" 1 "mixture - sealed in quartz - heat(850C, 20h) - Q to water - small pieces - ANN" Effects of Zn substitution on the superconductivity and pseudogap in HgBa2CuO4+d with various doping levels 2002 "Superconductivity Research Laboratory, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo , Japan" "Phys.Rev.B, 65(2002)104505" 33351 P065104505 "ANN(350C,in vac). hole conc p=0.061." "HgBa2(Cu,Zn)Oz" Hg1Ba2Cu0.97Zn0.03O4.027 Hg 1 Ba 2 Cu 0.97 Zn 0.03 O 4+z 4.027 1 2002 Hg1201 K 28 28 uV/K 66.6 TP33351 "HgO,BaO,CuO,ZnO" 1 "mixture - sealed in quartz - heat(850C, 20h) - Q to water - small pieces - ANN" Effects of Zn substitution on the superconductivity and pseudogap in HgBa2CuO4+d with various doping levels 2002 "Superconductivity Research Laboratory, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo , Japan" "Phys.Rev.B, 65(2002)104505" 33352 P065104505 "ANN(450C,in Ar). hole conc p=0.086." "HgBa2(Cu,Zn)Oz" Hg1Ba2Cu0.97Zn0.03O4.043 Hg 1 Ba 2 Cu 0.97 Zn 0.03 O 4+z 4.043 1 2002 Hg1201 K 53 53 uV/K 25.9 TP33352 "HgO,BaO,CuO,ZnO" 1 "mixture - sealed in quartz - heat(850C, 20h) - Q to water - small pieces - ANN" Effects of Zn substitution on the superconductivity and pseudogap in HgBa2CuO4+d with various doping levels 2002 "Superconductivity Research Laboratory, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo , Japan" "Phys.Rev.B, 65(2002)104505" 33353 P065104505 "ANN(300C,in Ar). hole conc p=0.107." "HgBa2(Cu,Zn)Oz" Hg1Ba2Cu0.97Zn0.03O4.052 Hg 1 Ba 2 Cu 0.97 Zn 0.03 O 4+z 4.052 1 2002 Hg1201 K 69 69 uV/K 12.3 TP33353 "HgO,BaO,CuO,ZnO" 1 "mixture - sealed in quartz - heat(850C, 20h) - Q to water - small pieces - ANN" Effects of Zn substitution on the superconductivity and pseudogap in HgBa2CuO4+d with various doping levels 2002 "Superconductivity Research Laboratory, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo , Japan" "Phys.Rev.B, 65(2002)104505" 33354 P065104505 "ANN(300C,in 0.01 %O2). hole conc p=0.118." "HgBa2(Cu,Zn)Oz" Hg1Ba2Cu0.97Zn0.03O4.063 Hg 1 Ba 2 Cu 0.97 Zn 0.03 O 4+z 4.063 1 2002 Hg1201 K 75 75 uV/K 7.5 TP33354 "HgO,BaO,CuO,ZnO" 1 "mixture - sealed in quartz - heat(850C, 20h) - Q to water - small pieces - ANN" Effects of Zn substitution on the superconductivity and pseudogap in HgBa2CuO4+d with various doping levels 2002 "Superconductivity Research Laboratory, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo , Japan" "Phys.Rev.B, 65(2002)104505" 33355 P065104505 "ANN(00C,in 100 %O2). hole conc p=0.141." "HgBa2(Cu,Zn)Oz" Hg1Ba2Cu0.97Zn0.03O4.073 Hg 1 Ba 2 Cu 0.97 Zn 0.03 O 4+z 4.073 1 2002 Hg1201 K 82 82 uV/K 3.4 TP33355 "HgO,BaO,CuO,ZnO" 1 "mixture - sealed in quartz - heat(850C, 20h) - Q to water - small pieces - ANN" Effects of Zn substitution on the superconductivity and pseudogap in HgBa2CuO4+d with various doping levels 2002 "Superconductivity Research Laboratory, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo , Japan" "Phys.Rev.B, 65(2002)104505" 33356 P065104505 "ANN(300C,in 5 atm O2). hole conc p=0.153." "HgBa2(Cu,Zn)Oz" Hg1Ba2Cu0.97Zn0.03O4.081 Hg 1 Ba 2 Cu 0.97 Zn 0.03 O 4+z 4.081 1 2002 Hg1201 K 83 83 uV/K 2 TP33356 "HgO,BaO,CuO,ZnO" 1 "mixture - sealed in quartz - heat(850C, 20h) - Q to water - small pieces - ANN" Effects of Zn substitution on the superconductivity and pseudogap in HgBa2CuO4+d with various doping levels 2002 "Superconductivity Research Laboratory, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo , Japan" "Phys.Rev.B, 65(2002)104505" 33357 SSC1030215 4 weeks Li-intercalation. Li-content not known. LixKCa2Nb3O10 K1Ca2Nb3O10 K 1 Ca 2 Nb 3 O 10 1997 K 1 1 Li-intercalation using the n-butyl Li n-hexane solution. Superconducting properties of layered perovskite KCa2Nb3O10 and KLaNb2O7 1997 "ISSP, University of Tokyo, Roppongi,Minato-ku, Japan" "Solid State Commun., 103(1997)215" 33358 SSC1030215 5 weeks Li-intercalation sample shows no s/c. Li-content not known. LixKLaNb2O7 K1La1Nb2O7 K 1 La 1 Nb 2 O 7 1997 K 0.5 Li-intercalation using the n-butyl Li n-hexane solution. Superconducting properties of layered perovskite KCa2Nb3O10 and KLaNb2O7 1997 "ISSP, University of Tokyo, Roppongi,Minato-ku, Japan" "Solid State Commun., 103(1997)215" 33359 PHC3570256 "CDW,SDW measured by NED. LTO-to-LTT transition temperature=37.2 K." "(La,Ba,Sr)2CuO4" La1.875Ba0.075Sr0.05Cu1O4 La 1.875 Ba 0.075 Sr 0.05 Cu 1 O 4 3 2001 T K 9.6 9.6 Traveling-solvent floating zone method Effect of structural symmetry on the magnetic and superconducting properties in La1.875Ba0.125-xSrxCuO4 2001 "Institute for Chemical Research, Kyoto University, Gokasho, Uji, Japan" "Physica C, 357-360(2001)256" 33360 PHC3570256 "CDW,SDW measured by NED. LTO-to-LTT transition temperature=35 K." "(La,Ba,Sr)2CuO4" La1.875Ba0.065Sr0.06Cu1O4 La 1.875 Ba 0.065 Sr 0.06 Cu 1 O 4 3 2001 T A 3.7842 13.2584 K 10.4 10.4 Traveling-solvent floating zone method Effect of structural symmetry on the magnetic and superconducting properties in La1.875Ba0.125-xSrxCuO4 2001 "Institute for Chemical Research, Kyoto University, Gokasho, Uji, Japan" "Physica C, 357-360(2001)256" 33361 PHC3570256 "CDW,SDW measured by NED. LTO-to-LTT transition temperature=31.5 K." "(La,Ba,Sr)2CuO4" La1.875Ba0.05Sr0.075Cu1O4 La 1.875 Ba 0.05 Sr 0.075 Cu 1 O 4 3 2001 T A 3.7847 13.2555 K 13.5 13.5 Traveling-solvent floating zone method Effect of structural symmetry on the magnetic and superconducting properties in La1.875Ba0.125-xSrxCuO4 2001 "Institute for Chemical Research, Kyoto University, Gokasho, Uji, Japan" "Physica C, 357-360(2001)256" 33362 PHC3570256 "CDW,SDW measured by NED. LTO-to-LTT transition temperature=30.2 K." "(La,Ba,Sr)2CuO4" La1.875Ba0.04Sr0.085Cu1O4 La 1.875 Ba 0.04 Sr 0.085 Cu 1 O 4 3 2001 T A 3.7834 13.2503 K 31.7 31.7 Traveling-solvent floating zone method Effect of structural symmetry on the magnetic and superconducting properties in La1.875Ba0.125-xSrxCuO4 2001 "Institute for Chemical Research, Kyoto University, Gokasho, Uji, Japan" "Physica C, 357-360(2001)256" 33363 PHC3570256 "CDW,SDW measured by NED. " "(La,Ba,Sr)2CuO4" La1.875Ba0.025Sr0.1Cu1O4 La 1.875 Ba 0.025 Sr 0.1 Cu 1 O 4 3 2001 T A 3.7823 13.2423 K 30.2 30.2 Traveling-solvent floating zone method Effect of structural symmetry on the magnetic and superconducting properties in La1.875Ba0.125-xSrxCuO4 2001 "Institute for Chemical Research, Kyoto University, Gokasho, Uji, Japan" "Physica C, 357-360(2001)256" 33364 PHC3570256 "CDW,SDW measured by NED. " "(La,Ba,Sr)2CuO4" La1.875Ba0.005Sr0.12Cu1O4 La 1.875 Ba 0.005 Sr 0.12 Cu 1 O 4 3 2001 T K 31.1 31.1 Traveling-solvent floating zone method Effect of structural symmetry on the magnetic and superconducting properties in La1.875Ba0.125-xSrxCuO4 2001 "Institute for Chemical Research, Kyoto University, Gokasho, Uji, Japan" "Physica C, 357-360(2001)256" 33365 PHC3570039 Hirr for H//c. YBa2Cu3O7-z Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 3 2001 Y123 K 93 93 HIR33365 Single crystals were grown by a pulling method. ANN in O2-flow. Q to L-N2. Impurity content by ICP. Zn/Ni substitution effects on vortex states of underdoped YBa2Cu3Oy 2001 "SRL, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo, Japan" "Physica C, 357-360(2001)39" 33366 PHC3570039 Hirr for H//c. YBa2Cu3O7-z Y1Ba2Cu3O6.6 Y 1 Ba 2 Cu 3 O 7-z 6.6 3 2001 Y123 K 58.2 58.2 HIR33366 Single crystals were grown by a pulling method. ANN in O2-flow. Q to L-N2. Impurity content by ICP. Zn/Ni substitution effects on vortex states of underdoped YBa2Cu3Oy 2001 "SRL, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo, Japan" "Physica C, 357-360(2001)39" 33367 PHC3570039 Hirr for H//c. "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.97Ni0.03O7-z Y 1 Ba 2 Cu 2.97 Ni 0.03 O 7-z 3 2001 Y123 K 87 87 HIR33367 Single crystals were grown by a pulling method. ANN in O2-flow. Q to L-N2. Impurity content by ICP. Zn/Ni substitution effects on vortex states of underdoped YBa2Cu3Oy 2001 "SRL, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo, Japan" "Physica C, 357-360(2001)39" 33368 PHC3570039 Hirr for H//c. "YBa2(Cu,Ni)3O7" Y1Ba2Cu2.91Ni0.09O7-z Y 1 Ba 2 Cu 2.91 Ni 0.09 O 7-z 3 2001 Y123 K 76 76 HIR33368 Single crystals were grown by a pulling method. ANN in O2-flow. Q to L-N2. Impurity content by ICP. Zn/Ni substitution effects on vortex states of underdoped YBa2Cu3Oy 2001 "SRL, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo, Japan" "Physica C, 357-360(2001)39" 33369 PHC3570039 Hirr for H//c. "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.988Zn0.012O7-z Y 1 Ba 2 Cu 2.988 Zn 0.012 O 7-z 3 2001 Y123 K 85 85 HIR33369 Single crystals were grown by a pulling method. ANN in O2-flow. Q to L-N2. Impurity content by ICP. Zn/Ni substitution effects on vortex states of underdoped YBa2Cu3Oy 2001 "SRL, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo, Japan" "Physica C, 357-360(2001)39" 33370 PHC3570039 Hirr for H//c. "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.982Zn0.018O7-z Y 1 Ba 2 Cu 2.982 Zn 0.018 O 7-z 3 2001 Y123 K 82 82 HIR33370 Single crystals were grown by a pulling method. ANN in O2-flow. Q to L-N2. Impurity content by ICP. Zn/Ni substitution effects on vortex states of underdoped YBa2Cu3Oy 2001 "SRL, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo, Japan" "Physica C, 357-360(2001)39" 33371 PHC3570039 Hirr for H//c. "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.91Zn0.09O7-z Y 1 Ba 2 Cu 2.91 Zn 0.09 O 7-z 3 2001 Y123 K 55 55 HIR33371 Single crystals were grown by a pulling method. ANN in O2-flow. Q to L-N2. Impurity content by ICP. Zn/Ni substitution effects on vortex states of underdoped YBa2Cu3Oy 2001 "SRL, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo, Japan" "Physica C, 357-360(2001)39" 33372 PHC3570039 Hirr for H//c. "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.988Zn0.012O6.75 Y 1 Ba 2 Cu 2.988 Zn 0.012 O 7-z 6.75 3 2001 Y123 K 62 62 HIR33372 Single crystals were grown by a pulling method. ANN in O2-flow. Q to L-N2. Impurity content by ICP. Zn/Ni substitution effects on vortex states of underdoped YBa2Cu3Oy 2001 "SRL, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo, Japan" "Physica C, 357-360(2001)39" 33373 PHC3570039 Hirr for H//c. "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.982Zn0.018O6.75 Y 1 Ba 2 Cu 2.982 Zn 0.018 O 7-z 6.75 3 2001 Y123 K 57.8 57.8 HIR33373 Single crystals were grown by a pulling method. ANN in O2-flow. Q to L-N2. Impurity content by ICP. Zn/Ni substitution effects on vortex states of underdoped YBa2Cu3Oy 2001 "SRL, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo, Japan" "Physica C, 357-360(2001)39" 33374 PHC3570025 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 2001 T K 38 38 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33375 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.9975Zn0.0025O4 La 1.85 Sr 0.15 Cu 0.9975 Zn 0.0025 O 4 2001 T K 34.8 34.8 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33376 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.995Zn0.005O4 La 1.85 Sr 0.15 Cu 0.995 Zn 0.005 O 4 2001 T K 32.2 32.2 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33377 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.9925Zn0.0075O4 La 1.85 Sr 0.15 Cu 0.9925 Zn 0.0075 O 4 2001 T K 28.7 28.7 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33378 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.99Zn0.01O4 La 1.85 Sr 0.15 Cu 0.99 Zn 0.01 O 4 2001 T K 26.4 26.4 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33379 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.9875Zn0.0125O4 La 1.85 Sr 0.15 Cu 0.9875 Zn 0.0125 O 4 2001 T K 22.3 22.3 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33380 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.985Zn0.015O4 La 1.85 Sr 0.15 Cu 0.985 Zn 0.015 O 4 2001 T K 20 20 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33381 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.9825Zn0.0175O4 La 1.85 Sr 0.15 Cu 0.9825 Zn 0.0175 O 4 2001 T K 15 15 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33382 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.98Zn0.02O4 La 1.85 Sr 0.15 Cu 0.98 Zn 0.02 O 4 2001 T K 13.7 13.7 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33383 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.9775Zn0.0225O4 La 1.85 Sr 0.15 Cu 0.9775 Zn 0.0225 O 4 2001 T K 8 8 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33384 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.975Zn0.025O4 La 1.85 Sr 0.15 Cu 0.975 Zn 0.025 O 4 2001 T K 7.3 7.3 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33385 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.9725Zn0.0275O4 La 1.85 Sr 0.15 Cu 0.9725 Zn 0.0275 O 4 2001 T K 1.2 1.2 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33386 PHC3570025 "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 2001 T K 32 32 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33387 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.8Sr0.2Cu0.9975Zn0.0025O4 La 1.8 Sr 0.2 Cu 0.9975 Zn 0.0025 O 4 2001 T K 30.2 30.2 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33388 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.8Sr0.2Cu0.9952Zn0.0048O4 La 1.8 Sr 0.2 Cu 0.9952 Zn 0.0048 O 4 2001 T K 28.6 28.6 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33389 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.8Sr0.2Cu0.9928Zn0.0072O4 La 1.8 Sr 0.2 Cu 0.9928 Zn 0.0072 O 4 2001 T K 27 27 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33390 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.8Sr0.2Cu0.99Zn0.01O4 La 1.8 Sr 0.2 Cu 0.99 Zn 0.01 O 4 2001 T K 25.6 25.6 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33391 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.8Sr0.2Cu0.9883Zn0.0117O4 La 1.8 Sr 0.2 Cu 0.9883 Zn 0.0117 O 4 2001 T K 23.6 23.6 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33392 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.8Sr0.2Cu0.983Zn0.017O4 La 1.8 Sr 0.2 Cu 0.983 Zn 0.017 O 4 2001 T K 19.8 19.8 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33393 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.8Sr0.2Cu0.98Zn0.02O4 La 1.8 Sr 0.2 Cu 0.98 Zn 0.02 O 4 2001 T K 17.7 17.7 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33394 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.8Sr0.2Cu0.9777Zn0.0223O4 La 1.8 Sr 0.2 Cu 0.9777 Zn 0.0223 O 4 2001 T K 15.7 15.7 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33395 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.8Sr0.2Cu0.9753Zn0.0247O4 La 1.8 Sr 0.2 Cu 0.9753 Zn 0.0247 O 4 2001 T K 13.7 13.7 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33396 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.8Sr0.2Cu0.9727Zn0.0273O4 La 1.8 Sr 0.2 Cu 0.9727 Zn 0.0273 O 4 2001 T K 11.1 11.1 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33397 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.8Sr0.2Cu0.9703Zn0.0297O4 La 1.8 Sr 0.2 Cu 0.9703 Zn 0.0297 O 4 2001 T K 9 9 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33398 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.8Sr0.2Cu0.9676Zn0.0324O4 La 1.8 Sr 0.2 Cu 0.9676 Zn 0.0324 O 4 2001 T K 5.5 5.5 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33399 PHC3570025 "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 2001 T K 26.9 26.9 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33400 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.9Sr0.1Cu0.9975Zn0.0025O4 La 1.9 Sr 0.1 Cu 0.9975 Zn 0.0025 O 4 2001 T K 23.6 23.6 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33401 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.9Sr0.1Cu0.995Zn0.005O4 La 1.9 Sr 0.1 Cu 0.995 Zn 0.005 O 4 2001 T K 19.1 19.1 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33402 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.9Sr0.1Cu0.9925Zn0.0075O4 La 1.9 Sr 0.1 Cu 0.9925 Zn 0.0075 O 4 2001 T K 14.5 14.5 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33403 PHC3570025 "(La,Sr)2(Cu,Zn)O4" La1.9Sr0.1Cu0.99Zn0.01O4 La 1.9 Sr 0.1 Cu 0.99 Zn 0.01 O 4 2001 T K 8.8 8.8 details are not shown Zn-impurity effects on high-temperature superconductivity 2001 "School of Frontier Science, University of Tokyo, Bunkyo-ku,Tokyo,Japan" "Physica C, 357-360(2001)25" 33404 PHC3570230 ion radius(average) of R = 1.079. Hirr(77K)=1.25 T. SmBa2Cu3O7 Sm1Ba2Cu3O7-z Sm 1 Ba 2 Cu 3 O 7-z 1 2001 Y123 A 3.85 3.9 11.71 K 92.9 92.9 "heat(900-950C,12-120h) - ANN(350-400C,10-96h,in O2 gas)" Rare-earth-ion-size control on magnetic irreversibility field in CuBa2RECu2O7-z 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357-360(2001)230" 33405 PHC3570230 ion radius(average) of R = 1.066. Hirr(77K)=1.83 T. EuBa2Cu3O7 Eu1Ba2Cu3O7-z Eu 1 Ba 2 Cu 3 O 7-z 1 2001 Y123 A 3.84 3.89 11.69 K 91.4 91.4 "heat(900-950C,12-120h) - ANN(350-400C,10-96h,in O2 gas)" Rare-earth-ion-size control on magnetic irreversibility field in CuBa2RECu2O7-z 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357-360(2001)230" 33406 PHC3570230 ion radius(average) of R = 1.053. Hirr(77K)=4.15 T. GdBa2Cu3O7 Gd1Ba2Cu3O6.98 Gd 1 Ba 2 Cu 3 O 7-z 6.98 1 2001 Y123 A 3.84 3.9 11.71 K 94.2 94.2 "heat(900-950C,12-120h) - ANN(350-400C,10-96h,in O2 gas)" Rare-earth-ion-size control on magnetic irreversibility field in CuBa2RECu2O7-z 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357-360(2001)230" 33407 PHC3570230 ion radius(average) of R = 1.019. Hirr(77K)=3.75 T. YBa2Cu3O7 Y1Ba2Cu3O6.93 Y 1 Ba 2 Cu 3 O 7-z 6.93 1 2001 Y123 A 3.82 3.89 11.66 K 91.4 91.4 "heat(900-950C,12-120h) - ANN(350-400C,10-96h,in O2 gas)" Rare-earth-ion-size control on magnetic irreversibility field in CuBa2RECu2O7-z 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357-360(2001)230" 33408 PHC3570230 ion radius(average) of R = 0.999. Hirr(77K)=3.97 T. "(Y,Yb)Ba2Cu3O7" Y0.4Yb0.6Ba2Cu3O6.93 Y 0.4 Yb 0.6 Ba 2 Cu 3 O 7-z 6.93 1 2001 Y123 A 3.8 3.87 11.65 K 91.1 91.1 "heat(900-950C,12-120h) - ANN(350-400C,10-96h,in O2 gas)" Rare-earth-ion-size control on magnetic irreversibility field in CuBa2RECu2O7-z 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357-360(2001)230" 33409 PHC3570230 ion radius(average) of R = 0.992. Hirr(77K)=4.78 T. "(Y,Yb)Ba2Cu3O7" Y0.2Yb0.8Ba2Cu3O6.91 Y 0.2 Yb 0.8 Ba 2 Cu 3 O 7-z 6.91 1 2001 Y123 A 3.81 3.87 11.66 K 91.4 91.4 "heat(900-950C,12-120h) - ANN(350-400C,10-96h,in O2 gas)" Rare-earth-ion-size control on magnetic irreversibility field in CuBa2RECu2O7-z 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357-360(2001)230" 33410 PHC3570230 ion radius(average) of R = 0.985. Hirr(77K)=7.73 T. YbBa2Cu3O7 Yb1Ba2Cu3O6.93 Yb 1 Ba 2 Cu 3 O 7-z 6.93 1 2001 Y123 A 3.8 3.87 11.65 K 89.5 89.5 "heat(900-950C,12-120h) - ANN(350-400C,10-96h,in O2 gas)" Rare-earth-ion-size control on magnetic irreversibility field in CuBa2RECu2O7-z 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357-360(2001)230" 33411 PHC3570230 ion radius(average) of R = 0.984. Hirr(77K)=6.83 T. "(Yb,Lu)Ba2Cu3O7" Yb0.9Lu0.1Ba2Cu3O7-z Yb 0.9 Lu 0.1 Ba 2 Cu 3 O 7-z 1 2001 Y123 A 3.8 3.87 11.66 K 89.5 89.5 "heat(900-950C,12-120h) - ANN(350-400C,10-96h,in O2 gas)" Rare-earth-ion-size control on magnetic irreversibility field in CuBa2RECu2O7-z 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357-360(2001)230" 33412 PHC3570230 ion radius(average) of R = 0.983. Hirr(77K)=5.45 T. "(Yb,Lu)Ba2Cu3O7" Yb0.8Lu0.2Ba2Cu3O6.94 Yb 0.8 Lu 0.2 Ba 2 Cu 3 O 7-z 6.94 1 2001 Y123 A 3.8 3.87 11.66 K 89.9 89.9 "heat(900-950C,12-120h) - ANN(350-400C,10-96h,in O2 gas)" Rare-earth-ion-size control on magnetic irreversibility field in CuBa2RECu2O7-z 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357-360(2001)230" 33413 PHC3570230 ion radius(average) of R = 0.983. Hirr(77K)=5.18 T. "(Yb,Lu)Ba2Cu3O7" Yb0.7Lu0.3Ba2Cu3O7-z Yb 0.7 Lu 0.3 Ba 2 Cu 3 O 7-z 1 2001 Y123 A 3.8 3.87 11.66 K 89.7 89.7 "heat(900-950C,12-120h) - ANN(350-400C,10-96h,in O2 gas)" Rare-earth-ion-size control on magnetic irreversibility field in CuBa2RECu2O7-z 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357-360(2001)230" 33414 PHC3570230 ion radius(average) of R = 0.982. Hirr(77K)=9.0 T. "(Yb,Lu)Ba2Cu3O7" Yb0.6Lu0.4Ba2Cu3O6.92 Yb 0.6 Lu 0.4 Ba 2 Cu 3 O 7-z 6.92 1 2001 Y123 A 3.8 3.87 11.66 K 89.7 89.7 "heat(900-950C,12-120h) - ANN(350-400C,10-96h,in O2 gas)" Rare-earth-ion-size control on magnetic irreversibility field in CuBa2RECu2O7-z 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357-360(2001)230" 33415 PHC3570252 "(Ba,K)BiO3" Ba0.6K0.4Bi1O3 Ba 0.6 K 0.4 Bi 1 O 3 3 2001 BKBO A 4.28 K 30.9 30.9 "Bi2O3,Pr2O3,Ba(OH)2.8H2O, KOH" electrochemical method using Pt electrodes. Two-step Tc suppression inPr-doped Ba1-xKxBiO3 2001 "Institute of Materials Science, University of Tsukuba, Tennoudai,Tsukuba,Ibaraki,Japan" "Physica C, 357-360(2001)252" 33416 PHC3570252 "(Ba,K)(Bi,Pr)O3" Ba0.6K0.4Bi0.99Pr0.01O3 Ba 0.6 K 0.4 Bi 0.99 Pr 0.01 O 3 3 2001 2.53 BKBO K 26.4 26.4 "Bi2O3,Pr2O3,Ba(OH)2.8H2O, KOH" electrochemical method using Pt electrodes. Two-step Tc suppression inPr-doped Ba1-xKxBiO3 2001 "Institute of Materials Science, University of Tsukuba, Tennoudai,Tsukuba,Ibaraki,Japan" "Physica C, 357-360(2001)252" 33417 PHC3570252 "(Ba,K)(Bi,Pr)O3" Ba0.6K0.4Bi0.979Pr0.021O3 Ba 0.6 K 0.4 Bi 0.979 Pr 0.021 O 3 3 2001 2.26 BKBO K 23.5 23.5 "Bi2O3,Pr2O3,Ba(OH)2.8H2O, KOH" electrochemical method using Pt electrodes. Two-step Tc suppression inPr-doped Ba1-xKxBiO3 2001 "Institute of Materials Science, University of Tsukuba, Tennoudai,Tsukuba,Ibaraki,Japan" "Physica C, 357-360(2001)252" 33418 PHC3570252 "(Ba,K)(Bi,Pr)O3" Ba0.6K0.4Bi0.969Pr0.031O3 Ba 0.6 K 0.4 Bi 0.969 Pr 0.031 O 3 3 2001 0.36 BKBO K 18.4 18.4 "Bi2O3,Pr2O3,Ba(OH)2.8H2O, KOH" electrochemical method using Pt electrodes. Two-step Tc suppression inPr-doped Ba1-xKxBiO3 2001 "Institute of Materials Science, University of Tsukuba, Tennoudai,Tsukuba,Ibaraki,Japan" "Physica C, 357-360(2001)252" 33419 PHC3570252 "(Ba,K)(Bi,Pr)O3" Ba0.6K0.4Bi0.955Pr0.045O3 Ba 0.6 K 0.4 Bi 0.955 Pr 0.045 O 3 3 2001 -2.4 BKBO K 14.4 14.4 "Bi2O3,Pr2O3,Ba(OH)2.8H2O, KOH" electrochemical method using Pt electrodes. Two-step Tc suppression inPr-doped Ba1-xKxBiO3 2001 "Institute of Materials Science, University of Tsukuba, Tennoudai,Tsukuba,Ibaraki,Japan" "Physica C, 357-360(2001)252" 33420 PHC3570252 "(Ba,K)(Bi,Pr)O3" Ba0.6K0.4Bi0.933Pr0.067O3 Ba 0.6 K 0.4 Bi 0.933 Pr 0.067 O 3 3 2001 -2.6 BKBO K 11.1 11.1 "Bi2O3,Pr2O3,Ba(OH)2.8H2O, KOH" electrochemical method using Pt electrodes. Two-step Tc suppression inPr-doped Ba1-xKxBiO3 2001 "Institute of Materials Science, University of Tsukuba, Tennoudai,Tsukuba,Ibaraki,Japan" "Physica C, 357-360(2001)252" 33421 PHC3570252 "(Ba,K)(Bi,Pr)O3" Ba0.6K0.4Bi0.925Pr0.075O3 Ba 0.6 K 0.4 Bi 0.925 Pr 0.075 O 3 3 2001 -1.8 BKBO K 4.5 4.5 "Bi2O3,Pr2O3,Ba(OH)2.8H2O, KOH" electrochemical method using Pt electrodes. Two-step Tc suppression inPr-doped Ba1-xKxBiO3 2001 "Institute of Materials Science, University of Tsukuba, Tennoudai,Tsukuba,Ibaraki,Japan" "Physica C, 357-360(2001)252" 33422 PHC3570252 "(Ba,K)(Bi,Pr)O3" Ba0.6K0.4Bi0.918Pr0.082O3 Ba 0.6 K 0.4 Bi 0.918 Pr 0.082 O 3 3 2001 -6.1 BKBO K 2 "Bi2O3,Pr2O3,Ba(OH)2.8H2O, KOH" electrochemical method using Pt electrodes. Two-step Tc suppression inPr-doped Ba1-xKxBiO3 2001 "Institute of Materials Science, University of Tsukuba, Tennoudai,Tsukuba,Ibaraki,Japan" "Physica C, 357-360(2001)252" 33423 PHC3570252 "(Ba,K)BiO3" Ba0.47K0.53Bi1O3 Ba 0.47 K 0.53 Bi 1 O 3 3 2001 BKBO K 11 11 "Bi2O3,Pr2O3,Ba(OH)2.8H2O, KOH" electrochemical method using Pt electrodes. Two-step Tc suppression inPr-doped Ba1-xKxBiO3 2001 "Institute of Materials Science, University of Tsukuba, Tennoudai,Tsukuba,Ibaraki,Japan" "Physica C, 357-360(2001)252" 33424 PHC3570252 "(Ba,K)(Bi,Pr)O3" Ba0.47K0.53Bi0.995Pr0.005O3 Ba 0.47 K 0.53 Bi 0.995 Pr 0.005 O 3 3 2001 1.01 BKBO K 9 9 "Bi2O3,Pr2O3,Ba(OH)2.8H2O, KOH" electrochemical method using Pt electrodes. Two-step Tc suppression inPr-doped Ba1-xKxBiO3 2001 "Institute of Materials Science, University of Tsukuba, Tennoudai,Tsukuba,Ibaraki,Japan" "Physica C, 357-360(2001)252" 33425 PHC3570252 "(Ba,K)(Bi,Pr)O3" Ba0.47K0.53Bi0.99Pr0.01O3 Ba 0.47 K 0.53 Bi 0.99 Pr 0.01 O 3 3 2001 1.99 BKBO K 6.4 6.4 "Bi2O3,Pr2O3,Ba(OH)2.8H2O, KOH" electrochemical method using Pt electrodes. Two-step Tc suppression inPr-doped Ba1-xKxBiO3 2001 "Institute of Materials Science, University of Tsukuba, Tennoudai,Tsukuba,Ibaraki,Japan" "Physica C, 357-360(2001)252" 33426 PHC3570252 "(Ba,K)(Bi,Pr)O3" Ba0.47K0.53Bi0.985Pr0.015O3 Ba 0.47 K 0.53 Bi 0.985 Pr 0.015 O 3 3 2001 1.01 BKBO K 5.2 5.2 "Bi2O3,Pr2O3,Ba(OH)2.8H2O, KOH" electrochemical method using Pt electrodes. Two-step Tc suppression inPr-doped Ba1-xKxBiO3 2001 "Institute of Materials Science, University of Tsukuba, Tennoudai,Tsukuba,Ibaraki,Japan" "Physica C, 357-360(2001)252" 33427 PHC3570252 "(Ba,K)(Bi,Pr)O3" Ba0.47K0.53Bi0.979Pr0.021O3 Ba 0.47 K 0.53 Bi 0.979 Pr 0.021 O 3 3 2001 -0.78 BKBO K 4.5 4.5 "Bi2O3,Pr2O3,Ba(OH)2.8H2O, KOH" electrochemical method using Pt electrodes. Two-step Tc suppression inPr-doped Ba1-xKxBiO3 2001 "Institute of Materials Science, University of Tsukuba, Tennoudai,Tsukuba,Ibaraki,Japan" "Physica C, 357-360(2001)252" 33428 PHC3570252 "(Ba,K)(Bi,Pr)O3" Ba0.47K0.53Bi0.972Pr0.028O3 Ba 0.47 K 0.53 Bi 0.972 Pr 0.028 O 3 3 2001 -1.1 BKBO K 4 4 "Bi2O3,Pr2O3,Ba(OH)2.8H2O, KOH" electrochemical method using Pt electrodes. Two-step Tc suppression inPr-doped Ba1-xKxBiO3 2001 "Institute of Materials Science, University of Tsukuba, Tennoudai,Tsukuba,Ibaraki,Japan" "Physica C, 357-360(2001)252" 33429 PHC3570252 "(Ba,K)(Bi,Pr)O3" Ba0.47K0.53Bi0.965Pr0.035O3 Ba 0.47 K 0.53 Bi 0.965 Pr 0.035 O 3 3 2001 -0.94 BKBO K 2.97 2.97 "Bi2O3,Pr2O3,Ba(OH)2.8H2O, KOH" electrochemical method using Pt electrodes. Two-step Tc suppression inPr-doped Ba1-xKxBiO3 2001 "Institute of Materials Science, University of Tsukuba, Tennoudai,Tsukuba,Ibaraki,Japan" "Physica C, 357-360(2001)252" 33430 PHC3570252 "(Ba,K)(Bi,Pr)O3" Ba0.47K0.53Bi0.958Pr0.042O3 Ba 0.47 K 0.53 Bi 0.958 Pr 0.042 O 3 3 2001 -0.56 BKBO K 2 "Bi2O3,Pr2O3,Ba(OH)2.8H2O, KOH" electrochemical method using Pt electrodes. Two-step Tc suppression inPr-doped Ba1-xKxBiO3 2001 "Institute of Materials Science, University of Tsukuba, Tennoudai,Tsukuba,Ibaraki,Japan" "Physica C, 357-360(2001)252" 33431 MMM2260449 "P-induced SC. s/c properties measured at p=3.5 GPa. c-axis//ladder. Hc2 defined as R(onset). Hc2//b-axis=0.7T, cohere//b = 10A." Sr2Ca12Cu24O41 Sr2Ca12Cu24O41 Sr 2 Ca 12 Cu 24 O 41 3 2001 LAD K 5 0 5 T R-onset 8 27 HC33431 A 120 400 TSFZ method using infrared furnace under O2-gas Anisotropy of the upper critical field of the spin-ladder Sr14-xCaxCu24O41 2001 "Institute for Solid State Physics, University of Tokyo, Kashiwa-shi, Chiba,Japan" "J.Magn.Magn,Mater. 226-230(2001)449" 33432 MRB0360971 YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 1 2001 Y123 A 3.8171 3.8822 11.6734 K 85.49 85.49 uV/K 7.974 TP33432 mOhm.cm 9.24 "Y2O3,BaCO3,Sm2O3,CuO" 1 "mixture-CAL(900C,48h)-pellet-SIN(940C,42h)-FC to RT" Thermoelectric power of samarium substituted Y1-xSmxBa2Cu3O7-z superconducting pellets 2001 "High Temperature Superconductivity Laboratory, Cryogenic Engineering Centre, India" "Mater.Res.Bull., 36(2001)971" 33433 MRB0360971 "(Y,Sm)Ba2Cu3O7" Y0.8Sm0.2Ba2Cu3O7-z Y 0.8 Sm 0.2 Ba 2 Cu 3 O 7-z 1 2001 Y123 A 3.8171 3.884 11.6735 K 80 80 uV/K 7.765 TP33433 mOhm.cm 7.43 "Y2O3,BaCO3,Sm2O3,CuO" 1 "mixture-CAL(900C,48h)-pellet-SIN(940C,42h)-FC to RT" Thermoelectric power of samarium substituted Y1-xSmxBa2Cu3O7-z superconducting pellets 2001 "High Temperature Superconductivity Laboratory, Cryogenic Engineering Centre, India" "Mater.Res.Bull., 36(2001)971" 33434 MRB0360971 "(Y,Sm)Ba2Cu3O7" Y0.6Sm0.4Ba2Cu3O7-z Y 0.6 Sm 0.4 Ba 2 Cu 3 O 7-z 1 2001 Y123 A 3.8171 3.8852 11.6735 K 78 78 uV/K 7.454 TP33434 mOhm.cm 5.79 "Y2O3,BaCO3,Sm2O3,CuO" 1 "mixture-CAL(900C,48h)-pellet-SIN(940C,42h)-FC to RT" Thermoelectric power of samarium substituted Y1-xSmxBa2Cu3O7-z superconducting pellets 2001 "High Temperature Superconductivity Laboratory, Cryogenic Engineering Centre, India" "Mater.Res.Bull., 36(2001)971" 33435 PHC3070209 Y123 not detected by XRD. YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1998 Y124 K 64.3 68.8 74.5 68.8 "acetate-tartrate-sol-gel method. precursor powder - CAL(800C,1h, in flowing O2) - SIN(835C) - ANN(835C, 40h, in flowing O2)" Enhancement of Tc by substituting strontium for barium in the YBa2Cu4O8 superconductor prepared by a sol-gel method 1998 10 "Laboratory of Inorganic and Physical Chemistry, IMO, Limburgs Universitair Centrum, B-3590 Dipenbeek, Belgium" "Physica.C,307(1998)209-220" 33436 PHC3070209 Y123 not detected by XRD. "Y(Ba,Sr)2Cu4O8" Y1Ba1.8Sr0.2Cu4O8 Y 1 Ba 1.8 Sr 0.2 Cu 4 O 8 1998 Y124 K 74.2 76.8 81.5 76.8 "acetate-tartrate-sol-gel method. precursor powder - CAL(800C,1h, in flowing O2) - SIN(835C) - ANN(835C, 40h, in flowing O2)" Enhancement of Tc by substituting strontium for barium in the YBa2Cu4O8 superconductor prepared by a sol-gel method 1998 10 "Laboratory of Inorganic and Physical Chemistry, IMO, Limburgs Universitair Centrum, B-3590 Dipenbeek, Belgium" "Physica.C,307(1998)209-220" 33437 PHC3070209 Y123 not detected by XRD. "Y(Ba,Sr)2Cu4O8" Y1Ba1.6Sr0.4Cu4O8 Y 1 Ba 1.6 Sr 0.4 Cu 4 O 8 1998 Y124 K 73.4 76.6 81.8 76.6 "acetate-tartrate-sol-gel method. precursor powder - CAL(800C,1h, in flowing O2) - SIN(835C) - ANN(835C, 40h, in flowing O2)" Enhancement of Tc by substituting strontium for barium in the YBa2Cu4O8 superconductor prepared by a sol-gel method 1998 10 "Laboratory of Inorganic and Physical Chemistry, IMO, Limburgs Universitair Centrum, B-3590 Dipenbeek, Belgium" "Physica.C,307(1998)209-220" 33438 PHC3070209 Y123 not detected by XRD. "Y(Ba,Sr)2Cu4O8" Y1Ba1.4Sr0.6Cu4O8 Y 1 Ba 1.4 Sr 0.6 Cu 4 O 8 1998 Y124 K 72.4 75.8 81 75.8 "acetate-tartrate-sol-gel method. precursor powder - CAL(800C,1h, in flowing O2) - SIN(835C) - ANN(835C, 40h, in flowing O2)" Enhancement of Tc by substituting strontium for barium in the YBa2Cu4O8 superconductor prepared by a sol-gel method 1998 10 "Laboratory of Inorganic and Physical Chemistry, IMO, Limburgs Universitair Centrum, B-3590 Dipenbeek, Belgium" "Physica.C,307(1998)209-220" 33439 ECS0210399 "impurity phase=Y123,Y211" YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 2001 Y124 K 79 79 "aqueous sol-gel method in 1 atm O2, CAL820C,10h in flowing O2) - ANN(820C, 10h, in flowing O2)" Sol-Gel preparation and characterization of manganese-substituted superconducting YBa2(Cu1-xMnx)4O8 compounds 2001 "Department of General and Inorganic Chemistry, Vilnius University, Naugarduko 24, LT-2006 Vilnius, Lithuania" "J.Euro.Ceramics Soc., 21(2001)399" 33440 ECS0210399 "impurity phase=Y123,Y247, CuO" "YBa2(Cu,Mn)4O8" Y1Ba2Cu3.96Mn0.04O8 Y 1 Ba 2 Cu 3.96 Mn 0.04 O 8 1 2001 Y124 K 62.8 62.8 "aqueous sol-gel method in 1 atm O2, CAL820C,10h in flowing O2) - ANN(820C, 10h, in flowing O2)" Sol-Gel preparation and characterization of manganese-substituted superconducting YBa2(Cu1-xMnx)4O8 compounds 2001 "Department of General and Inorganic Chemistry, Vilnius University, Naugarduko 24, LT-2006 Vilnius, Lithuania" "J.Euro.Ceramics Soc., 21(2001)399" 33441 ECS0210399 "impurity phase=Y123,Y247, BaCuO2,CuO" "YBa2(Cu,Mn)4O8" Y1Ba2Cu3.92Mn0.08O8 Y 1 Ba 2 Cu 3.92 Mn 0.08 O 8 1 2001 Y124 K 41.6 41.6 "aqueous sol-gel method in 1 atm O2, CAL820C,10h in flowing O2) - ANN(820C, 10h, in flowing O2)" Sol-Gel preparation and characterization of manganese-substituted superconducting YBa2(Cu1-xMnx)4O8 compounds 2001 "Department of General and Inorganic Chemistry, Vilnius University, Naugarduko 24, LT-2006 Vilnius, Lithuania" "J.Euro.Ceramics Soc., 21(2001)399" 33442 ECS0210399 "not s/c, semicon-like. Y123+Y247. impurity phase=Y211, Y2Cu2O5,BaCuO2,CuO" "YBa2(Cu,Mn)4O8" Y1Ba2Cu3.88Mn0.12O8 Y 1 Ba 2 Cu 3.88 Mn 0.12 O 8 2 2001 Y123 K "aqueous sol-gel method in 1 atm O2, CAL820C,10h in flowing O2) - ANN(820C, 10h, in flowing O2)" Sol-Gel preparation and characterization of manganese-substituted superconducting YBa2(Cu1-xMnx)4O8 compounds 2001 "Department of General and Inorganic Chemistry, Vilnius University, Naugarduko 24, LT-2006 Vilnius, Lithuania" "J.Euro.Ceramics Soc., 21(2001)399" 33443 PHC3640575 Oxygen content by iodometry. hole conc p=0.201 "La(Ba,Sr)2Cu3O7" La1Ba1.5Sr0.5Cu3O6.902 La 1 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.902 1 2001 Y123 A 3.9047 11.758 K 54 54 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33444 PHC3640575 Oxygen content by iodometry. hole conc p=0.192 "(La,Pr)(Ba,Sr)2Cu3O7" La0.9Pr0.1Ba1.5Sr0.5Cu3O6.904 La 0.9 Pr 0.1 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.904 1 2001 Y123 A 3.9042 11.716 K 44 44 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33445 PHC3640575 Oxygen content by iodometry. hole conc p=0.183 "(La,Pr)(Ba,Sr)2Cu3O7" La0.8Pr0.2Ba1.5Sr0.5Cu3O6.906 La 0.8 Pr 0.2 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.906 1 2001 Y123 A 3.9038 11.714 K 24 24 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33446 PHC3640575 Oxygen content by iodometry. hole conc p=0.175 "(La,Pr)(Ba,Sr)2Cu3O7" La0.7Pr0.3Ba1.5Sr0.5Cu3O6.909 La 0.7 Pr 0.3 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.909 1 2001 Y123 A 3.9038 11.695 K 10 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33447 PHC3640575 Oxygen content by iodometry. hole conc p=0.165 "(La,Pr)(Ba,Sr)2Cu3O7" La0.6Pr0.4Ba1.5Sr0.5Cu3O6.91 La 0.6 Pr 0.4 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.91 1 2001 Y123 A 3.899 11.7 K 10 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33448 PHC3640575 Oxygen content by iodometry. hole conc p=0.158 "(La,Pr)(Ba,Sr)2Cu3O7" La0.5Pr0.5Ba1.5Sr0.5Cu3O6.916 La 0.5 Pr 0.5 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.916 1 2001 Y123 A 3.8979 11.673 K 10 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33449 PHC3640575 Oxygen content by iodometry. hole conc p=0.161 "(La,Pr)(Ba,Sr)2Cu3O7" La0.4Pr0.6Ba1.5Sr0.5Cu3O6.941 La 0.4 Pr 0.6 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.941 1 2001 Y123 A 3.8888 11.666 K 10 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33450 PHC3640575 Oxygen content by iodometry. hole conc p=0.153 "(La,Pr)(Ba,Sr)2Cu3O7" La0.3Pr0.7Ba1.5Sr0.5Cu3O6.945 La 0.3 Pr 0.7 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.945 1 2001 Y123 A 3.8869 11.67 K 10 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33451 PHC3640575 Oxygen content by iodometry. hole conc p=0.157 "(La,Pr)(Ba,Sr)2Cu3O7" La0.2Pr0.8Ba1.5Sr0.5Cu3O6.974 La 0.2 Pr 0.8 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.974 1 2001 Y123 A 3.8857 11.65 K 10 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33452 PHC3640575 Oxygen content by iodometry. hole conc p=0.150 "(La,Pr)(Ba,Sr)2Cu3O7" La0.1Pr0.9Ba1.5Sr0.5Cu3O6.98 La 0.1 Pr 0.9 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.98 1 2001 Y123 A 3.8841 11.649 K 10 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33453 PHC3640575 Oxygen content by iodometry. hole conc p=0.141 "Pr(Ba,Sr)2Cu3O7" Pr1Ba1.5Sr0.5Cu3O6.982 Pr 1 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.982 1 2001 Y123 A 3.8825 11.65 K 10 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33454 PHC3640575 Oxygen content by iodometry. hole conc p=0.214 "(La,Ca)(Ba,Sr)2Cu3O7" La0.95Ca0.05Ba1.5Sr0.5Cu3O6.878 La 0.95 Ca 0.05 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.878 1 2001 Y123 A 3.8987 11.763 K 66 66 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33455 PHC3640575 Oxygen content by iodometry. hole conc p=0.224 "(La,Ca)(Ba,Sr)2Cu3O7" La0.9Ca0.1Ba1.5Sr0.5Cu3O6.847 La 0.9 Ca 0.1 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.847 1 2001 Y123 A 3.8979 11.742 K 68 68 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33456 PHC3640575 Oxygen content by iodometry. hole conc p=0.235 "(La,Ca)(Ba,Sr)2Cu3O7" La0.85Ca0.15Ba1.5Sr0.5Cu3O6.819 La 0.85 Ca 0.15 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.819 1 2001 Y123 A 3.8969 11.729 K 71 71 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33457 PHC3640575 Oxygen content by iodometry. hole conc p=0.247 "(La,Ca)(Ba,Sr)2Cu3O7" La0.8Ca0.2Ba1.5Sr0.5Cu3O6.794 La 0.8 Ca 0.2 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.794 1 2001 Y123 A 3.8966 11.686 K 73 73 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33458 PHC3640575 Oxygen content by iodometry. hole conc p=0.198 "(La,Ca,Pr)(Ba,Sr)2Cu3O7" La0.85Ca0.05Pr0.1Ba1.5Sr0.5Cu3O6.865 La 0.85 Ca 0.05 Pr 0.1 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.865 1 2001 Y123 A 3.8971 11.789 K 50 50 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33459 PHC3640575 Oxygen content by iodometry. hole conc p=0.218 "(La,Ca,Pr)(Ba,Sr)2Cu3O7" La0.8Ca0.1Pr0.1Ba1.5Sr0.5Cu3O6.856 La 0.8 Ca 0.1 Pr 0.1 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.856 1 2001 Y123 A 3.9054 11.723 K 56 56 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33460 PHC3640575 Oxygen content by iodometry. hole conc p=0.238 "(La,Ca,Pr)(Ba,Sr)2Cu3O7" La0.75Ca0.15Pr0.1Ba1.5Sr0.5Cu3O6.845 La 0.75 Ca 0.15 Pr 0.1 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.845 1 2001 Y123 A 3.9045 11.718 K 62 62 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33461 PHC3640575 Oxygen content by iodometry. hole conc p=0.245 "(La,Ca,Pr)(Ba,Sr)2Cu3O7" La0.7Ca0.2Pr0.1Ba1.5Sr0.5Cu3O6.809 La 0.7 Ca 0.2 Pr 0.1 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.809 1 2001 Y123 A 3.9036 11.708 K 63 63 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33462 PHC3640575 Oxygen content by iodometry. hole conc p=0.198 "(La,Ca,Pr)(Ba,Sr)2Cu3O7" La0.75Ca0.05Pr0.2Ba1.5Sr0.5Cu3O6.886 La 0.75 Ca 0.05 Pr 0.2 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.886 1 2001 Y123 A 3.8971 11.698 K 33 33 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33463 PHC3640575 Oxygen content by iodometry. hole conc p=0.211 "(La,Ca,Pr)(Ba,Sr)2Cu3O7" La0.7Ca0.1Pr0.2Ba1.5Sr0.5Cu3O6.862 La 0.7 Ca 0.1 Pr 0.2 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.862 1 2001 Y123 A 3.8962 11.688 K 40 40 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33464 PHC3640575 Oxygen content by iodometry. hole conc p=0.225 "(La,Ca,Pr)(Ba,Sr)2Cu3O7" La0.65Ca0.15Pr0.2Ba1.5Sr0.5Cu3O6.84 La 0.65 Ca 0.15 Pr 0.2 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.84 1 2001 Y123 A 3.8905 11.677 K 45 45 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33465 PHC3640575 Oxygen content by iodometry. hole conc p=0.235 "(La,Ca,Pr)(Ba,Sr)2Cu3O7" La0.6Ca0.2Pr0.2Ba1.5Sr0.5Cu3O6.809 La 0.6 Ca 0.2 Pr 0.2 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.809 1 2001 Y123 A 3.8885 11.665 K 47 47 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33466 PHC3640575 Oxygen content by iodometry. hole conc p=0.193 "(La,Ca,Pr)(Ba,Sr)2Cu3O7" La0.65Ca0.05Pr0.3Ba1.5Sr0.5Cu3O6.896 La 0.65 Ca 0.05 Pr 0.3 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.896 1 2001 Y123 A 3.8941 11.69 K 14 14 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33467 PHC3640575 Oxygen content by iodometry. hole conc p=0.206 "(La,Ca,Pr)(Ba,Sr)2Cu3O7" La0.6Ca0.1Pr0.3Ba1.5Sr0.5Cu3O6.872 La 0.6 Ca 0.1 Pr 0.3 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.872 1 2001 Y123 A 3.8927 11.679 K 26 26 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33468 PHC3640575 Oxygen content by iodometry. hole conc p=0.221 "(La,Ca,Pr)(Ba,Sr)2Cu3O7" La0.55Ca0.15Pr0.3Ba1.5Sr0.5Cu3O6.851 La 0.55 Ca 0.15 Pr 0.3 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.851 1 2001 Y123 A 3.8907 11.675 K 27 27 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33469 PHC3640575 Oxygen content by iodometry. hole conc p=0.235 "(La,Ca,Pr)(Ba,Sr)2Cu3O7" La0.5Ca0.2Pr0.3Ba1.5Sr0.5Cu3O6.829 La 0.5 Ca 0.2 Pr 0.3 Ba 1.5 Sr 0.5 Cu 3 O 7-z 6.829 1 2001 Y123 A 3.8838 11.66 K 34 34 1 "mixture - CAL(950C,18h) - pellet - SIN(950C, 16h) - cool to 400C(100C/h) in flowing N2 - ANN(400C, 12h, in flowing O2). For Ca sample, CAL(930C)" Correlation of Tc with compositions in the (La1-x-zCaxPrz)(Ba1.5Sr0.5)Cu3Oy superconducting series 2001 "Department of Chemistry, Tamkang University, Tamsui,Taiwan,ROC" "Physica C, 364-365(2001)575" 33470 PHC3690236 Josephson plasma resonance was measured. Heavili underdoped sample. Anisotropy=740 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+z Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 3 2002 Bi2212 K 69.4 69.4 um microwave absorption 0.31 229 TSFZ method Josephson plasma resonance in underdoped Bi2Sr2CaCu2O8+d crystals 2002 "Laboratoire des Solides Irradiees,,Ecole Polytechnique, Palaiseau,France" "Physica C, 369(2002)236" 33471 PHC3660283 not s/c. Pb3Sr2Cu3O8Cl Pb3Sr2Cu3Cl1O8 Pb 3 Sr 2 Cu 3 Cl 1 O 8 1 2002 A 5.44 5.492 19.49 K 4.2 "PbO,SrO2,CuO,PbBr2,PbCl2" "mixture-heat(765C,12h in flowing N2/O2=99/1 gas)-slow cool(100C/h) to RT-heat(750C,12h)-ANN(400C,8h in flowing N2/O2=99/1 gas)" "Synthesis, characterisation and crystal chemistry of Pb3Sr3Cu3O8Br: a new layered copper oxide-bromide" 2002 "London &Scandinavian Metallurgical Co.Ltd,Fullerton Road,Rotherham,South Yorkshire S60 1DL,UK" "Physica C, 366(2002)283" 33472 PHC3660283 not s/c. "Pb3Sr2Cu3O8(Cl,Br)" Pb3Sr2Cu3Cl0.75Br0.25O8 Pb 3 Sr 2 Cu 3 Cl 0.75 Br 0.25 O 8 1 2002 A 5.447 5.494 19.562 K 4.2 "PbO,SrO2,CuO,PbBr2,PbCl2" "mixture-heat(765C,12h in flowing N2/O2=99/1 gas)-slow cool(100C/h) to RT-heat(750C,12h)-ANN(400C,8h in flowing N2/O2=99/1 gas)" "Synthesis, characterisation and crystal chemistry of Pb3Sr3Cu3O8Br: a new layered copper oxide-bromide" 2002 "London &Scandinavian Metallurgical Co.Ltd,Fullerton Road,Rotherham,South Yorkshire S60 1DL,UK" "Physica C, 366(2002)283" 33473 PHC3660283 not s/c. "Pb3Sr2Cu3O8(Cl,Br)" Pb3Sr2Cu3Cl0.5Br0.5O8 Pb 3 Sr 2 Cu 3 Cl 0.5 Br 0.5 O 8 1 2002 A 5.452 5.495 19.624 K 4.2 "PbO,SrO2,CuO,PbBr2,PbCl2" "mixture-heat(765C,12h in flowing N2/O2=99/1 gas)-slow cool(100C/h) to RT-heat(750C,12h)-ANN(400C,8h in flowing N2/O2=99/1 gas)" "Synthesis, characterisation and crystal chemistry of Pb3Sr3Cu3O8Br: a new layered copper oxide-bromide" 2002 "London &Scandinavian Metallurgical Co.Ltd,Fullerton Road,Rotherham,South Yorkshire S60 1DL,UK" "Physica C, 366(2002)283" 33474 PHC3660283 not s/c. "Pb3Sr2Cu3O8(Cl,Br)" Pb3Sr2Cu3Cl0.25Br0.75O8 Pb 3 Sr 2 Cu 3 Cl 0.25 Br 0.75 O 8 1 2002 A 5.457 5.497 19.698 K 4.2 "PbO,SrO2,CuO,PbBr2,PbCl2" "mixture-heat(765C,12h in flowing N2/O2=99/1 gas)-slow cool(100C/h) to RT-heat(750C,12h)-ANN(400C,8h in flowing N2/O2=99/1 gas)" "Synthesis, characterisation and crystal chemistry of Pb3Sr3Cu3O8Br: a new layered copper oxide-bromide" 2002 "London &Scandinavian Metallurgical Co.Ltd,Fullerton Road,Rotherham,South Yorkshire S60 1DL,UK" "Physica C, 366(2002)283" 33475 PHC3660283 not s/c. Pb3Sr2Cu3O8Br Pb3Sr2Cu3Br1O8 Pb 3 Sr 2 Cu 3 Br 1 O 8 1 2002 A 5.464 5.501 19.766 K 4.2 "PbO,SrO2,CuO,PbBr2,PbCl2" "mixture-heat(765C,12h in flowing N2/O2=99/1 gas)-slow cool(100C/h) to RT-heat(750C,12h)-ANN(400C,8h in flowing N2/O2=99/1 gas)" "Synthesis, characterisation and crystal chemistry of Pb3Sr3Cu3O8Br: a new layered copper oxide-bromide" 2002 "London &Scandinavian Metallurgical Co.Ltd,Fullerton Road,Rotherham,South Yorkshire S60 1DL,UK" "Physica C, 366(2002)283" 33476 PHB2840477 antiferro-order "Sr2Y(Ru,Cu)O6" Sr2Y1Ru0.9Cu0.1O6 Sr 2 Y 1 Ru 0.9 Cu 0.1 O 6 1 2000 28 2116 P21/n A 5.7602 5.7795 8.1506 K 30 45 37.5 "Magnetism and superconductivity in Sr2A(Ru1-xCux)O6 (A=Y,Ho) system" 2000 "Department of Physics, Material Science Centre, National Tsing Hua University, Hsinchu, Taiwan" "Physica B, 284-288(2000)477" 33477 PHB2840477 ferromag-order "Sr2Ho(Ru,Cu)O6" Sr2Ho1Ru0.9Cu0.1O6 Sr 2 Ho 1 Ru 0.9 Cu 0.1 O 6 1 2000 15 2116 K 20 40 30 "Magnetism and superconductivity in Sr2A(Ru1-xCux)O6 (A=Y,Ho) system" 2000 "Department of Physics, Material Science Centre, National Tsing Hua University, Hsinchu, Taiwan" "Physica B, 284-288(2000)477" 33478 PHC3640392 spin glass temp.=29K(Cu-ion). Antiferro-(Ru-ion). muon-SR measurements. "Sr2Y(Ru,Cu)O6" Sr2Y1Ru0.9Cu0.1O6 Sr 2 Y 1 Ru 0.9 Cu 0.1 O 6 2001 23 2116 K 45 45 solid state reaction Superconductivity and magnetism in Sr2Y(Ru1-uCuu)O6 and in Ba2Gd(Ru1-uCuu)O6 2001 "Department of Physics, Arizona State University, Tempe,AZ, USA" "Physica C, 364-365(2001)392" 33479 PHC3640392 Antiferro (Ru-ion) "Ba2Gd(Ru,Cu)O6" Ba2Gd1Ru0.9Cu0.1O6 Ba 2 Gd 1 Ru 0.9 Cu 0.1 O 6 2001 48 2116 K 4.2 solid state reaction Superconductivity and magnetism in Sr2Y(Ru1-uCuu)O6 and in Ba2Gd(Ru1-uCuu)O6 2001 "Department of Physics, Arizona State University, Tempe,AZ, USA" "Physica C, 364-365(2001)392" 33480 PHC3700044 Bi:Sr:Ca:Cu:Co=1.94:1.87:0.95:1.99:0.01 by ICP "Bi2Sr2Ca(Cu,Co)2O8" Bi2.1Sr1.8Ca1Cu1.96Co0.04O8 Bi 2.1 Sr 1.8 Ca 1 Cu 1.96 Co 0.04 O 8 3 2002 Bi2212 K 73 73 HIR33480 "Floating zone method. ANN(500C,3d,in air)" "Effects of impurities on magnetization in Bi2.12Sr1.8Ca(Cu1-xMx)2Oy (M=Co,Zn) single crystals" 2002 "Department of Superconductivity,The University of Tokyo,Tokyo ,Japan" "Physica C, 370(2002)44" 33481 PHC3700044 Bi:Sr:Ca:Cu:Zn=1.95:1.82:1.00:1.998:0.002 by ICP "Bi2Sr2Ca(Cu,Zn)2O8" Bi2.1Sr1.8Ca1Cu1.982Zn0.018O8 Bi 2.1 Sr 1.8 Ca 1 Cu 1.982 Zn 0.018 O 8 3 2002 Bi2212 K 83 83 HIR33481 "Floating zone method. ANN(500C,3d,in air)" "Effects of impurities on magnetization in Bi2.12Sr1.8Ca(Cu1-xMx)2Oy (M=Co,Zn) single crystals" 2002 "Department of Superconductivity,The University of Tokyo,Tokyo ,Japan" "Physica C, 370(2002)44" 33482 PHC3700071 "Gd moments order below 2.75. macroscopic s/c Tc=35 K. Mossbauer effect of Gd,Ru are measured." RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 1 2002 132 Ru1212 K 45 45 "solid state reaction. ANN(1060C, in flowing O2) - slow cool to 500C - Q to RT" Magnetic behavior of superconducting RuSr2GdCu2O8 studied by <155> Gd and <99> Ru Mossbauer spectroscopy and susceptibility measurements 2002 "Department of Physics,Northern Illinois University,218 Faraday Hall West,DeKalb,USA" "Physica C, 370(2002)71" 33483 PHC3700163 M-I transition trasnsition temp.=74.4 K "(La,Sr)2(Cu,Fe)O4" La1.84Sr0.16Cu0.99Fe0.01O4 La 1.84 Sr 0.16 Cu 0.99 Fe 0.01 O 4 1 2002 T K 30 30 mOhm.cm 5.5 1 "mixture - pellet - SIN(1120 K, 24h, in air) - FC to RT" Phonon vibration and transport properties of La1.85-xSr0.15+xCu1-xFexOy 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)163" 33484 PHC3700163 M-I transition trasnsition temp.=83.5 K. not s/c "(La,Sr)2(Cu,Fe)O4" La1.83Sr0.17Cu0.98Fe0.02O4 La 1.83 Sr 0.17 Cu 0.98 Fe 0.02 O 4 1 2002 T K 10 mOhm.cm 8.71 1 "mixture - pellet - SIN(1120 K, 24h, in air) - FC to RT" Phonon vibration and transport properties of La1.85-xSr0.15+xCu1-xFexOy 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)163" 33485 PHC3700163 M-I transition trasnsition temp.=98.7 K. not s/c "(La,Sr)2(Cu,Fe)O4" La1.815Sr0.185Cu0.965Fe0.035O4 La 1.815 Sr 0.185 Cu 0.965 Fe 0.035 O 4 1 2002 T K 10 mOhm.cm 32.34 1 "mixture - pellet - SIN(1120 K, 24h, in air) - FC to RT" Phonon vibration and transport properties of La1.85-xSr0.15+xCu1-xFexOy 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)163" 33486 PHC3700163 M-I transition trasnsition temp.=149.4 K. not s/c "(La,Sr)2(Cu,Fe)O4" La1.8Sr0.2Cu0.95Fe0.05O4 La 1.8 Sr 0.2 Cu 0.95 Fe 0.05 O 4 1 2002 T K 10 mOhm.cm 426.58 1 "mixture - pellet - SIN(1120 K, 24h, in air) - FC to RT" Phonon vibration and transport properties of La1.85-xSr0.15+xCu1-xFexOy 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)163" 33487 PHC3700163 not s/c "(La,Sr)2(Cu,Fe)O4" La1.85Sr0.15Cu1FeO4 La 1.85 Sr 0.15 Cu 1 Fe O 4 1 2002 2 T A 3.7713 13.212 K 39.9 39.9 mOhm.cm 4.5 1.5 1 "mixture - pellet - SIN(1120 K, 24h, in air) - FC to RT" Phonon vibration and transport properties of La1.85-xSr0.15+xCu1-xFexOy 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)163" 33488 PHC3700163 not s/c "(La,Sr)2(Cu,Fe)O4" La1.75Sr0.25Cu0.9Fe0.1O4 La 1.75 Sr 0.25 Cu 0.9 Fe 0.1 O 4 1 2002 2 T A 3.7826 13.167 K 10 mOhm.cm 6.2 1 "mixture - pellet - SIN(1120 K, 24h, in air) - FC to RT" Phonon vibration and transport properties of La1.85-xSr0.15+xCu1-xFexOy 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)163" 33489 PHC3700163 not s/c "(La,Sr)2(Cu,Fe)O4" La1.65Sr0.35Cu0.8Fe0.2O4 La 1.65 Sr 0.35 Cu 0.8 Fe 0.2 O 4 1 2002 2 T A 3.7892 13.17 K 10 mOhm.cm 10.6 1 "mixture - pellet - SIN(1120 K, 24h, in air) - FC to RT" Phonon vibration and transport properties of La1.85-xSr0.15+xCu1-xFexOy 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)163" 33490 PHC3700163 not s/c "(La,Sr)2(Cu,Fe)O4" La1.55Sr0.45Cu0.7Fe0.3O4 La 1.55 Sr 0.45 Cu 0.7 Fe 0.3 O 4 1 2002 2 T A 3.7974 13.105 K 10 mOhm.cm 31.9 1 "mixture - pellet - SIN(1120 K, 24h, in air) - FC to RT" Phonon vibration and transport properties of La1.85-xSr0.15+xCu1-xFexOy 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)163" 33491 PHC3700163 not s/c "(La,Sr)2(Cu,Fe)O4" La1.45Sr0.55Cu0.6Fe0.4O4 La 1.45 Sr 0.55 Cu 0.6 Fe 0.4 O 4 1 2002 2 T A 3.8123 13.046 K 10 mOhm.cm 92.7 1 "mixture - pellet - SIN(1120 K, 24h, in air) - FC to RT" Phonon vibration and transport properties of La1.85-xSr0.15+xCu1-xFexOy 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)163" 33492 PHC3700163 not s/c "(La,Sr)2(Cu,Fe)O4" La1.35Sr0.65Cu0.5Fe0.5O4 La 1.35 Sr 0.65 Cu 0.5 Fe 0.5 O 4 1 2002 2 T A 3.8282 13.01 K 10 mOhm.cm 170.4 1 "mixture - pellet - SIN(1120 K, 24h, in air) - FC to RT" Phonon vibration and transport properties of La1.85-xSr0.15+xCu1-xFexOy 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)163" 33493 PHC3700163 not s/c "(La,Sr)2(Cu,Fe)O4" La1.25Sr0.75Cu0.4Fe0.6O4 La 1.25 Sr 0.75 Cu 0.4 Fe 0.6 O 4 1 2002 2 T A 3.8323 12.901 K 10 mOhm.cm 269 1 "mixture - pellet - SIN(1120 K, 24h, in air) - FC to RT" Phonon vibration and transport properties of La1.85-xSr0.15+xCu1-xFexOy 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)163" 33494 PHC3700163 not s/c "(La,Sr)2(Cu,Fe)O4" La1.05Sr0.95Cu0.2Fe0.8O4 La 1.05 Sr 0.95 Cu 0.2 Fe 0.8 O 4 1 2002 2 T A 3.8533 12.844 K 10 Ohm.cm 1.187 1 "mixture - pellet - SIN(1120 K, 24h, in air) - FC to RT" Phonon vibration and transport properties of La1.85-xSr0.15+xCu1-xFexOy 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)163" 33495 PHC3700163 not s/c "(La,Sr)2(Cu,Fe)O4" La0.85Sr1.15Fe1O4 La 0.85 Sr 1.15 Fe 1 O 4 1 2002 2 T A 3.8595 12.753 K 10 Ohm.cm 14.08 1 "mixture - pellet - SIN(1120 K, 24h, in air) - FC to RT" Phonon vibration and transport properties of La1.85-xSr0.15+xCu1-xFexOy 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)163" 33496 PHC3700253 magnetic order below 180 K is weak ferromagnetism "(Eu,Ce)2RuSr2Cu2O10" Eu1.5Ce0.5Ru1Sr2Cu2O10+z Eu 1.5 Ce 0.5 Ru 1 Sr 2 Cu 2 O 10+z 1 2002 180 Ru1222 A 3.846 28.72 K 45 45 THC33496 TP33496 "Eu2O3,CeO2,SrCO3,Ru,CuO" 1 "mixture-preheat(1275K, in flowing O2)-SIN(1325K,48h, in 1.1 atm O2)-FC - reheat(1100K, 12h, in 54 atm O2)" "Thermal transport in the oxygenated magnetic superconductor, Eu1.5Ce0.5RuSr2Cu2O10+z" 2002 "Department of Physics,Texas A&M University,College Station,TX 77843-4242,USA" "Physica C, 370(2002)253" 33497 PR05412014 Neel-T determined by sus(peak) La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 1 1996 295 3 T A 5.335 5.4148 13.1168 K 4.2 "La2O3,SrCO3,CuO,Li2CO3" 1 mixture - heat(900C) "Structural, magnetic, and traansport properties of La2Cu1-xLiO4" 1996 11 "National High Magnetic Field Laboratory,Florida State University, Tallahassee, Florida 32306" "Phys.Rev.B,54(1996)12014" 33498 PR05412014 Neel-T determined by sus(peak) "La2(Cu,Li)O4" La2Cu0.995Li0.005O4 La 2 Cu 0.995 Li 0.005 O 4 1 1996 258 T K 4.2 "La2O3,SrCO3,CuO,Li2CO3" 1 mixture - heat(900C) "Structural, magnetic, and traansport properties of La2Cu1-xLiO4" 1996 11 "National High Magnetic Field Laboratory,Florida State University, Tallahassee, Florida 32306" "Phys.Rev.B,54(1996)12014" 33499 PR05412014 Neel-T determined by sus(peak) "La2(Cu,Li)O4" La2Cu0.99Li0.01O4 La 2 Cu 0.99 Li 0.01 O 4 1 1996 221 3 T A 5.3331 5.4129 13.1097 K 4.2 "La2O3,SrCO3,CuO,Li2CO3" 1 mixture - heat(900C) "Structural, magnetic, and traansport properties of La2Cu1-xLiO4" 1996 11 "National High Magnetic Field Laboratory,Florida State University, Tallahassee, Florida 32306" "Phys.Rev.B,54(1996)12014" 33500 PR05412014 Neel-T determined by sus(peak) "La2(Cu,Li)O4" La2Cu0.985Li0.015O4 La 2 Cu 0.985 Li 0.015 O 4 1 1996 173 T K 4.2 "La2O3,SrCO3,CuO,Li2CO3" 1 mixture - heat(900C) "Structural, magnetic, and traansport properties of La2Cu1-xLiO4" 1996 11 "National High Magnetic Field Laboratory,Florida State University, Tallahassee, Florida 32306" "Phys.Rev.B,54(1996)12014" 33501 PR05412014 Neel-T determined by sus(peak) "La2(Cu,Li)O4" La2Cu0.98Li0.02O4 La 2 Cu 0.98 Li 0.02 O 4 1 1996 136 3 T A 5.3321 5.4082 13.1097 K 4.2 "La2O3,SrCO3,CuO,Li2CO3" 1 mixture - heat(900C) "Structural, magnetic, and traansport properties of La2Cu1-xLiO4" 1996 11 "National High Magnetic Field Laboratory,Florida State University, Tallahassee, Florida 32306" "Phys.Rev.B,54(1996)12014" 33502 PR05412014 Neel-T determined by sus(peak) "La2(Cu,Li)O4" La2Cu0.975Li0.025O4 La 2 Cu 0.975 Li 0.025 O 4 1 1996 91 T K 4.2 "La2O3,SrCO3,CuO,Li2CO3" 1 mixture - heat(900C) "Structural, magnetic, and traansport properties of La2Cu1-xLiO4" 1996 11 "National High Magnetic Field Laboratory,Florida State University, Tallahassee, Florida 32306" "Phys.Rev.B,54(1996)12014" 33503 PR05412014 Neel-T determined by sus(peak) "La2(Cu,Li)O4" La2Cu0.97Li0.03O4 La 2 Cu 0.97 Li 0.03 O 4 1 1996 0 T K 4.2 "La2O3,SrCO3,CuO,Li2CO3" 1 mixture - heat(900C) "Structural, magnetic, and traansport properties of La2Cu1-xLiO4" 1996 11 "National High Magnetic Field Laboratory,Florida State University, Tallahassee, Florida 32306" "Phys.Rev.B,54(1996)12014" 33504 PR05412014 "La2(Cu,Li)O4" La2Cu0.95Li0.05O4 La 2 Cu 0.95 Li 0.05 O 4 1 1996 3 T A 5.3283 5.3987 13.1103 K 4.2 "La2O3,SrCO3,CuO,Li2CO3" 1 mixture - heat(900C) "Structural, magnetic, and traansport properties of La2Cu1-xLiO4" 1996 11 "National High Magnetic Field Laboratory,Florida State University, Tallahassee, Florida 32306" "Phys.Rev.B,54(1996)12014" 33505 PR05412014 "La2(Cu,Li)O4" La2Cu0.9Li0.1O4 La 2 Cu 0.9 Li 0.1 O 4 1 1996 3 T A 5.3245 5.3806 13.1123 K 4.2 "La2O3,SrCO3,CuO,Li2CO3" 1 mixture - heat(900C) "Structural, magnetic, and traansport properties of La2Cu1-xLiO4" 1996 11 "National High Magnetic Field Laboratory,Florida State University, Tallahassee, Florida 32306" "Phys.Rev.B,54(1996)12014" 33506 PR05412014 "La2(Cu,Li)O4" La2Cu0.8Li0.2O4 La 2 Cu 0.8 Li 0.2 O 4 1 1996 3 T A 5.3141 5.3388 13.1226 K 4.2 "La2O3,SrCO3,CuO,Li2CO3" 1 mixture - heat(900C) "Structural, magnetic, and traansport properties of La2Cu1-xLiO4" 1996 11 "National High Magnetic Field Laboratory,Florida State University, Tallahassee, Florida 32306" "Phys.Rev.B,54(1996)12014" 33507 PR05412014 "La2(Cu,Li)O4" La2Cu0.7Li0.3O4 La 2 Cu 0.7 Li 0.3 O 4 1 1996 2 T A 5.3093 13.1316 K 4.2 "La2O3,SrCO3,CuO,Li2CO3" 1 mixture - heat(900C) "Structural, magnetic, and traansport properties of La2Cu1-xLiO4" 1996 11 "National High Magnetic Field Laboratory,Florida State University, Tallahassee, Florida 32306" "Phys.Rev.B,54(1996)12014" 33508 PHC3700269 not s/c. IR-shifts were measured. La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 2002 T A 3.7587 3.8014 13.144 K 20 1 "SIN(860C, in air)" Infrared spectra and transport properties of Li-doped La214 system 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)269" 33509 PHC3700269 not s/c. IR-shifts were measured. "La2(Cu,Li)O4" La2Cu0.9Li0.1O4 La 2 Cu 0.9 Li 0.1 O 4 2002 T A 3.7879 3.7905 13.163 K 20 1 "SIN(860C, in air)" Infrared spectra and transport properties of Li-doped La214 system 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)269" 33511 PHC3700269 not s/c. IR-shifts were measured. "La2(Cu,Li)O4" La2Cu0.8Li0.2O4 La 2 Cu 0.8 Li 0.2 O 4 2002 T A 3.7824 3.7738 13.166 K 20 1 "SIN(860C, in air)" Infrared spectra and transport properties of Li-doped La214 system 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)269" 33512 PHC3700269 not s/c. IR-shifts were measured. "La2(Cu,Li)O4" La2Cu0.7Li0.3O4 La 2 Cu 0.7 Li 0.3 O 4 2002 T A 3.7706 3.7691 13.18 K 20 1 "SIN(860C, in air)" Infrared spectra and transport properties of Li-doped La214 system 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)269" 33513 PHC3700269 not s/c. IR-shifts were measured. "La2(Cu,Li)O4" La2Cu0.6Li0.4O4 La 2 Cu 0.6 Li 0.4 O 4 2002 T A 3.7313 3.7339 13.174 K 20 1 "SIN(860C, in air)" Infrared spectra and transport properties of Li-doped La214 system 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)269" 33514 PHC3700269 not s/c. IR-shifts were measured. "La2(Cu,Li)O4" La2Cu0.5Li0.5O4 La 2 Cu 0.5 Li 0.5 O 4 2002 T A 3.7305 13.184 K 20 1 "SIN(860C, in air)" Infrared spectra and transport properties of Li-doped La214 system 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)269" 33515 PHC3700269 IR-shifts were measured. "(La,Sr)2(Cu,Li)O4" La1.86Sr0.14Cu0.99Li0.01O4 La 1.86 Sr 0.14 Cu 0.99 Li 0.01 O 4 2002 T A 3.7725 13.227 K 33.7 42.8 38.25 1 "SIN(860C, in air)" Infrared spectra and transport properties of Li-doped La214 system 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)269" 33516 PHC3700269 IR-shifts were measured. "(La,Sr)2(Cu,Li)O4" La1.87Sr0.13Cu0.98Li0.02O4 La 1.87 Sr 0.13 Cu 0.98 Li 0.02 O 4 2002 T A 3.774 13.217 K 25.9 39.8 32.85 1 "SIN(860C, in air)" Infrared spectra and transport properties of Li-doped La214 system 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)269" 33517 PHC3700269 IR-shifts were measured. "(La,Sr)2(Cu,Li)O4" La1.885Sr0.115Cu0.965Li0.035O4 La 1.885 Sr 0.115 Cu 0.965 Li 0.035 O 4 2002 T A 3.7797 13.225 K 26.5 35.5 26.5 1 "SIN(860C, in air)" Infrared spectra and transport properties of Li-doped La214 system 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)269" 33518 PHC3700269 IR-shifts were measured. "(La,Sr)2(Cu,Li)O4" La1.9Sr0.1Cu0.95Li0.05O4 La 1.9 Sr 0.1 Cu 0.95 Li 0.05 O 4 2002 T A 3.7796 3.7784 13.231 K 20 24.1 20 1 "SIN(860C, in air)" Infrared spectra and transport properties of Li-doped La214 system 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)269" 33519 PHC3700269 not s/c. IR-shifts were measured. "(La,Sr)2(Cu,Li)O4" La1.95Sr0.05Cu0.9Li0.1O4 La 1.95 Sr 0.05 Cu 0.9 Li 0.1 O 4 2002 T A 3.777 3.7803 13.191 K 20 1 "SIN(860C, in air)" Infrared spectra and transport properties of Li-doped La214 system 2002 "Structure Research Laboratory,University of Science and Technology f China,Hefei,Anhui 230026,China" "Physica C, 370(2002)269" 33520 SSC1220189 Ruddlesden-Popper series n=2 structure (95% volume fraction. resistivity monotonically increase as lowering T Ba2KBi2O7 Ba2K1Bi2O7 Ba 2 K 1 Bi 2 O 7 2002 A 4.2516 21.89 K 4.2 1 "400C in ampoule. 0.75 atm O2 atmosphere, then heated by hot furnace." "Synthesis, structure and properties of layered bismuthates: (Ba,K)3Bi2O7 and (Ba,K)2BiO4" 2002 "Department of Chemistry,Moscow State University, Moscow,Russian Federation" "Solid State Commun., 122(2002)189" 33521 SSC1190579 another two samples show no s/c. The peak at 150 K in susceptibility may due to AF. "(Fe,Cu)SrBaYCu2O7" Fe0.5Sr1Ba1Y1Cu2.5O7 Fe 0.5 Sr 1 Ba 1 Y 1 Cu 2.5 O 7 1 2001 150 M1212 p4/mmm A 3.844 11.53 K 40 77 58.5 "Y2O3,BaCO3,SrCO3Fe2O3,CuO" 1 "mixture-CAL(925C,60h,in air)-reduced (805C,40h in Ar)-oxygenate(1000C, 0.5h, 6GPa, 5 wt%KClO4)" Coexistence of magnetism and superconductivity in a new Fe-containing cuprate superconductor (Fe0.5Cu0.5)SrBaYCu2O7+z 2001 "Nastional Lab for Superconductivity, Institute of Physics, Beijing, China" "Solid State Commun., 119(2001)579" 33522 P065144506 ferromagnetic order from Ru sublattice. AF order from Gd sublattice. RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 1 2002 2.7 142 2.7 Ru1212 p4/mmm A 3.8399 11.5766 K 31 50 40.5 1 "CAL(960C, in air)-pellet-heat(1010C, in N2)-powder-heat(1050C, in flowing O2)-SIN(1055C, 1060C)-ANN(1060C, in flowing O2)" "Structural, transport, and magnetic properties of pure and La-doped RuSr2GdCu2O8" 2002 "Insitut fur Physik, Universitat Augsburg, Augsburg, Germany" "Phys.Rev.B, 65(2002)144506" 33523 P065144506 Gd-effective-M=7.94 Bohr-M and Curie-T(Gd)=-4 K were fixed. "Ru(Sr,La)2GdCu2O8" Ru1Sr1.98La0.02Gd1Cu2O8 Ru 1 Sr 1.98 La 0.02 Gd 1 Cu 2 O 8 1 2002 2.8 142 Ru1212 p4/mmm A 3.8397 11.5708 K 20 40 30 1 "CAL(960C, in air)-pellet-heat(1010C, in N2)-powder-heat(1050C, in flowing O2)-SIN(1055C, 1060C)-ANN(1060C, in flowing O2)" "Structural, transport, and magnetic properties of pure and La-doped RuSr2GdCu2O8" 2002 "Insitut fur Physik, Universitat Augsburg, Augsburg, Germany" "Phys.Rev.B, 65(2002)144506" 33524 P065144506 Gd-effective-M=7.94 Bohr-M and Curie-T(Gd)=-4 K were fixed. "Ru(Sr,La)2GdCu2O8" Ru1Sr1.94La0.06Gd1Cu2O8 Ru 1 Sr 1.94 La 0.06 Gd 1 Cu 2 O 8 1 2002 2.8 154 Ru1212 p4/mmm A 3.8407 11.5662 K 4.2 1 "CAL(960C, in air)-pellet-heat(1010C, in N2)-powder-heat(1050C, in flowing O2)-SIN(1055C, 1060C)-ANN(1060C, in flowing O2)" "Structural, transport, and magnetic properties of pure and La-doped RuSr2GdCu2O8" 2002 "Insitut fur Physik, Universitat Augsburg, Augsburg, Germany" "Phys.Rev.B, 65(2002)144506" 33525 P065144506 Gd-effective-M=7.94 Bohr-M and Curie-T(Gd)=-4 K were fixed. "Ru(Sr,La)2GdCu2O8" Ru1Sr1.9La0.1Gd1Cu2O8 Ru 1 Sr 1.9 La 0.1 Gd 1 Cu 2 O 8 1 2002 2.4 180 Ru1212 p4/mmm A 3.8444 11.5583 K 4.2 1 "CAL(960C, in air)-pellet-heat(1010C, in N2)-powder-heat(1050C, in flowing O2)-SIN(1055C, 1060C)-ANN(1060C, in flowing O2)" "Structural, transport, and magnetic properties of pure and La-doped RuSr2GdCu2O8" 2002 "Insitut fur Physik, Universitat Augsburg, Augsburg, Germany" "Phys.Rev.B, 65(2002)144506" 33526 P065144506 Gd-effective-M=7.94 Bohr-M and Curie-T(Gd)=-4 K were fixed. "Ru(Sr,La)2GdCu2O8" Ru1Sr1.8La0.2Gd1Cu2O8 Ru 1 Sr 1.8 La 0.2 Gd 1 Cu 2 O 8 1 2002 2.4 185 Ru1212 p4/mmm A 3.8473 11.5657 K 4.2 1 "CAL(960C, in air)-pellet-heat(1010C, in N2)-powder-heat(1050C, in flowing O2)-SIN(1055C, 1060C)-ANN(1060C, in flowing O2)" "Structural, transport, and magnetic properties of pure and La-doped RuSr2GdCu2O8" 2002 "Insitut fur Physik, Universitat Augsburg, Augsburg, Germany" "Phys.Rev.B, 65(2002)144506" 33527 PCS0620187 "(Bi,Pb)2Sr2(Ca,Y)(Cu,Zn)2O8" Bi1.7Pb0.3Sr2Ca0.55Y0.45Cu1.94Zn0.06O8 Bi 1.7 Pb 0.3 Sr 2 Ca 0.55 Y 0.45 Cu 1.94 Zn 0.06 O 8 2001 Bi2212 K 41.3 41.3 uV/K 19.9 TP33527 1 "CAL(750C, 12h, in air)-pellet-SIN(800C, 24h, in air)" "Superconducting transition temperatures of R1-xPrxBa2Cu3O6+y (R=Y,Sm) and Bi1.7Pb0.3Sr2Ca1-x(Cu1-yZny)2O8+z" 2001 "Department of Physics, Nasgoya University, Nagoya,Japan" "J.Phys.Chem.Solids, 62(2001)187" 33528 PCS0620187 "(Bi,Pb)2Sr2(Ca,Y)(Cu,Zn)2O8" Bi1.7Pb0.3Sr2Ca0.6Y0.4Cu1.94Zn0.06O8 Bi 1.7 Pb 0.3 Sr 2 Ca 0.6 Y 0.4 Cu 1.94 Zn 0.06 O 8 2001 Bi2212 K 53.5 53.5 uV/K 12.5 TP33528 1 "CAL(750C, 12h, in air)-pellet-SIN(800C, 24h, in air)" "Superconducting transition temperatures of R1-xPrxBa2Cu3O6+y (R=Y,Sm) and Bi1.7Pb0.3Sr2Ca1-x(Cu1-yZny)2O8+z" 2001 "Department of Physics, Nasgoya University, Nagoya,Japan" "J.Phys.Chem.Solids, 62(2001)187" 33529 PCS0620187 "(Bi,Pb)2Sr2(Ca,Y)(Cu,Zn)2O8" Bi1.7Pb0.3Sr2Ca0.65Y0.35Cu1.94Zn0.06O8 Bi 1.7 Pb 0.3 Sr 2 Ca 0.65 Y 0.35 Cu 1.94 Zn 0.06 O 8 2001 Bi2212 K 62.1 62.1 uV/K 7.05 TP33529 1 "CAL(750C, 12h, in air)-pellet-SIN(800C, 24h, in air)" "Superconducting transition temperatures of R1-xPrxBa2Cu3O6+y (R=Y,Sm) and Bi1.7Pb0.3Sr2Ca1-x(Cu1-yZny)2O8+z" 2001 "Department of Physics, Nasgoya University, Nagoya,Japan" "J.Phys.Chem.Solids, 62(2001)187" 33530 PCS0620187 "(Bi,Pb)2Sr2(Ca,Y)(Cu,Zn)2O8" Bi1.7Pb0.3Sr2Ca0.7Y0.3Cu1.94Zn0.06O8 Bi 1.7 Pb 0.3 Sr 2 Ca 0.7 Y 0.3 Cu 1.94 Zn 0.06 O 8 2001 Bi2212 K 66.9 66.9 uV/K 5.18 TP33530 1 "CAL(750C, 12h, in air)-pellet-SIN(800C, 24h, in air)" "Superconducting transition temperatures of R1-xPrxBa2Cu3O6+y (R=Y,Sm) and Bi1.7Pb0.3Sr2Ca1-x(Cu1-yZny)2O8+z" 2001 "Department of Physics, Nasgoya University, Nagoya,Japan" "J.Phys.Chem.Solids, 62(2001)187" 33531 PCS0620187 "(Bi,Pb)2Sr2(Ca,Y)(Cu,Zn)2O8" Bi1.7Pb0.3Sr2Ca0.75Y0.25Cu1.94Zn0.06O8 Bi 1.7 Pb 0.3 Sr 2 Ca 0.75 Y 0.25 Cu 1.94 Zn 0.06 O 8 2001 Bi2212 K 60.6 60.6 uV/K 5.21 TP33531 1 "CAL(750C, 12h, in air)-pellet-SIN(800C, 24h, in air)" "Superconducting transition temperatures of R1-xPrxBa2Cu3O6+y (R=Y,Sm) and Bi1.7Pb0.3Sr2Ca1-x(Cu1-yZny)2O8+z" 2001 "Department of Physics, Nasgoya University, Nagoya,Japan" "J.Phys.Chem.Solids, 62(2001)187" 33532 PCS0620187 "(Bi,Pb)2Sr2(Ca,Y)(Cu,Zn)2O8" Bi1.7Pb0.3Sr2Ca0.8Y0.2Cu1.94Zn0.06O8 Bi 1.7 Pb 0.3 Sr 2 Ca 0.8 Y 0.2 Cu 1.94 Zn 0.06 O 8 2001 Bi2212 K 54.4 54.4 uV/K 1.52 TP33532 1 "CAL(750C, 12h, in air)-pellet-SIN(800C, 24h, in air)" "Superconducting transition temperatures of R1-xPrxBa2Cu3O6+y (R=Y,Sm) and Bi1.7Pb0.3Sr2Ca1-x(Cu1-yZny)2O8+z" 2001 "Department of Physics, Nasgoya University, Nagoya,Japan" "J.Phys.Chem.Solids, 62(2001)187" 33533 PCS0620187 "(Bi,Pb)2Sr2(Ca,Y)Cu2O8" Bi1.7Pb0.3Sr2Ca0.5Y0.5Cu2O8 Bi 1.7 Pb 0.3 Sr 2 Ca 0.5 Y 0.5 Cu 2 O 8 2001 Bi2212 K 41.3 41.3 uV/K 25.5 1 "CAL(750C, 12h, in air)-pellet-SIN(800C, 24h, in air)" "Superconducting transition temperatures of R1-xPrxBa2Cu3O6+y (R=Y,Sm) and Bi1.7Pb0.3Sr2Ca1-x(Cu1-yZny)2O8+z" 2001 "Department of Physics, Nasgoya University, Nagoya,Japan" "J.Phys.Chem.Solids, 62(2001)187" 33534 PCS0620187 "(Bi,Pb)2Sr2(Ca,Y)Cu2O8" Bi1.7Pb0.3Sr2Ca0.6Y0.4Cu2O8 Bi 1.7 Pb 0.3 Sr 2 Ca 0.6 Y 0.4 Cu 2 O 8 2001 Bi2212 K 63.5 63.5 uV/K 12.5 1 "CAL(750C, 12h, in air)-pellet-SIN(800C, 24h, in air)" "Superconducting transition temperatures of R1-xPrxBa2Cu3O6+y (R=Y,Sm) and Bi1.7Pb0.3Sr2Ca1-x(Cu1-yZny)2O8+z" 2001 "Department of Physics, Nasgoya University, Nagoya,Japan" "J.Phys.Chem.Solids, 62(2001)187" 33535 PCS0620187 "(Bi,Pb)2Sr2(Ca,Y)Cu2O8" Bi1.7Pb0.3Sr2Ca0.8Y0.2Cu2O8 Bi 1.7 Pb 0.3 Sr 2 Ca 0.8 Y 0.2 Cu 2 O 8 2001 Bi2212 K 69.7 69.7 uV/K -0.9 1 "CAL(750C, 12h, in air)-pellet-SIN(800C, 24h, in air)" "Superconducting transition temperatures of R1-xPrxBa2Cu3O6+y (R=Y,Sm) and Bi1.7Pb0.3Sr2Ca1-x(Cu1-yZny)2O8+z" 2001 "Department of Physics, Nasgoya University, Nagoya,Japan" "J.Phys.Chem.Solids, 62(2001)187" 33536 PHC3710315 "(La,Gd)3Ca(Ba,Sr)3(Cu,In)7Oz" La2.5Gd0.5Ca1Ba3Cu7O16.539 La 2.5 Gd 0.5 Ca 1 Ba 3 Cu 7 O z 16.539 1 2002 3137 A 3.8708 11.6039 K 78 80 82 80 mOhm.cm 5.91 0.297 "La2O3,Gd2O3,CaCO3,BaCO3,SrCO3,CuO,In2O3" 1 "SIN(940-960C,24h, in N2)-ANN(500C, 24h, in O2 flow)-slow cool to RT(1C/min)" Suppression of superconductivity in the (La2.5-xGd0.5+x)CaBa3-xSrx(Cu1-yIny)7Oz system due to hole filling by In and its revival by hole doping with Ca 2002 "Saurashtra University, Rajkot, India" "Physica C, 371(2002)315" 33537 PHC3710315 "(La,Gd)3Ca(Ba,Sr)3(Cu,In)7Oz" La2.3Gd0.7Ca1Ba2.8Sr0.2Cu6.86In0.14O16.536 La 2.3 Gd 0.7 Ca 1 Ba 2.8 Sr 0.2 Cu 6.86 In 0.14 O z 16.536 1 2002 3137 A 3.8685 11.5867 K 69 72 76 72 mOhm.cm 6.06 0.276 "La2O3,Gd2O3,CaCO3,BaCO3,SrCO3,CuO,In2O3" 1 "SIN(940-960C,24h, in N2)-ANN(500C, 24h, in O2 flow)-slow cool to RT(1C/min)" Suppression of superconductivity in the (La2.5-xGd0.5+x)CaBa3-xSrx(Cu1-yIny)7Oz system due to hole filling by In and its revival by hole doping with Ca 2002 "Saurashtra University, Rajkot, India" "Physica C, 371(2002)315" 33538 PHC3710315 "(La,Gd)3Ca(Ba,Sr)3(Cu,In)7Oz" La2.1Gd0.9Ca1Ba2.6Sr0.4Cu6.72In0.28O16.54 La 2.1 Gd 0.9 Ca 1 Ba 2.6 Sr 0.4 Cu 6.72 In 0.28 O z 16.54 1 2002 3137 A 3.8641 11.5798 K 60 65 70 65 mOhm.cm 6.5 0.257 "La2O3,Gd2O3,CaCO3,BaCO3,SrCO3,CuO,In2O3" 1 "SIN(940-960C,24h, in N2)-ANN(500C, 24h, in O2 flow)-slow cool to RT(1C/min)" Suppression of superconductivity in the (La2.5-xGd0.5+x)CaBa3-xSrx(Cu1-yIny)7Oz system due to hole filling by In and its revival by hole doping with Ca 2002 "Saurashtra University, Rajkot, India" "Physica C, 371(2002)315" 33539 PHC3710315 "(La,Gd)3Ca(Ba,Sr)3(Cu,In)7Oz" La1.9Gd1.1Ca1Ba2.4Sr0.6Cu6.58In0.42O16.554 La 1.9 Gd 1.1 Ca 1 Ba 2.4 Sr 0.6 Cu 6.58 In 0.42 O z 16.554 1 2002 3137 A 3.8586 11.57 K 54 58 63 58 mOhm.cm 7.21 0.241 "La2O3,Gd2O3,CaCO3,BaCO3,SrCO3,CuO,In2O3" 1 "SIN(940-960C,24h, in N2)-ANN(500C, 24h, in O2 flow)-slow cool to RT(1C/min)" Suppression of superconductivity in the (La2.5-xGd0.5+x)CaBa3-xSrx(Cu1-yIny)7Oz system due to hole filling by In and its revival by hole doping with Ca 2002 "Saurashtra University, Rajkot, India" "Physica C, 371(2002)315" 33540 PHC3710315 "(La,Gd)3Ca(Ba,Sr)3(Cu,In)7Oz" La1.7Gd1.3Ca1Ba2.2Sr0.8Cu6.44In0.56O16.6 La 1.7 Gd 1.3 Ca 1 Ba 2.2 Sr 0.8 Cu 6.44 In 0.56 O z 16.6 1 2002 3137 A 3.8709 11.596 K 21 30 50 30 mOhm.cm 28.8 0.234 "La2O3,Gd2O3,CaCO3,BaCO3,SrCO3,CuO,In2O3" 1 "SIN(940-960C,24h, in N2)-ANN(500C, 24h, in O2 flow)-slow cool to RT(1C/min)" Suppression of superconductivity in the (La2.5-xGd0.5+x)CaBa3-xSrx(Cu1-yIny)7Oz system due to hole filling by In and its revival by hole doping with Ca 2002 "Saurashtra University, Rajkot, India" "Physica C, 371(2002)315" 33541 PHC3710315 "(La,Gd)3Ca(Ba,Sr)3(Cu,In)7Oz" La1.5Gd1.5Ca1Ba2Sr1Cu6.3In0.7O16.62 La 1.5 Gd 1.5 Ca 1 Ba 2 Sr 1 Cu 6.3 In 0.7 O z 16.62 1 2002 3137 A 3.8861 11.6192 K 10 mOhm.cm 98.1 0.22 "La2O3,Gd2O3,CaCO3,BaCO3,SrCO3,CuO,In2O3" 1 "SIN(940-960C,24h, in N2)-ANN(500C, 24h, in O2 flow)-slow cool to RT(1C/min)" Suppression of superconductivity in the (La2.5-xGd0.5+x)CaBa3-xSrx(Cu1-yIny)7Oz system due to hole filling by In and its revival by hole doping with Ca 2002 "Saurashtra University, Rajkot, India" "Physica C, 371(2002)315" 33542 PHC3710315 "(La,Gd)3Ca(Ba2Sr)(Cu,In)7Oz" La1.5Gd1.5Ca1Ba2Sr1Cu6.3In0.7Oz La 1.5 Gd 1.5 Ca 1 Ba 2 Sr 1 Cu 6.3 In 0.7 O z 1 2002 3137 A 3.886 11.6189 K 10 mOhm.cm 98.1 0.22 "La2O3,Gd2O3,CaCO3,BaCO3,SrCO3,CuO,In2O3" 1 "SIN(940-960C,24h, in N2)-ANN(500C, 24h, in O2 flow)-slow cool to RT(1C/min)" Suppression of superconductivity in the (La2.5-xGd0.5+x)CaBa3-xSrx(Cu1-yIny)7Oz system due to hole filling by In and its revival by hole doping with Ca 2002 "Saurashtra University, Rajkot, India" "Physica C, 371(2002)315" 33543 PHC3710315 "(La,Ca,Gd)3Ca(Ba2Sr)(Cu,In)7Oz" La1.3Gd1.5Ca1.2Ba2Sr1Cu6.3In0.7Oz La 1.3 Gd 1.5 Ca 1.2 Ba 2 Sr 1 Cu 6.3 In 0.7 O z 1 2002 3137 A 3.872 11.5773 K 52 56 68.5 56 mOhm.cm 41 0.23 "La2O3,Gd2O3,CaCO3,BaCO3,SrCO3,CuO,In2O3" 1 "SIN(940-960C,24h, in N2)-ANN(500C, 24h, in O2 flow)-slow cool to RT(1C/min)" Suppression of superconductivity in the (La2.5-xGd0.5+x)CaBa3-xSrx(Cu1-yIny)7Oz system due to hole filling by In and its revival by hole doping with Ca 2002 "Saurashtra University, Rajkot, India" "Physica C, 371(2002)315" 33544 PHC3710315 "(La,Ca,Gd)3Ca(Ba2Sr)(Cu,In)7Oz" La1.1Gd1.5Ca1.4Ba2Sr1Cu6.3In0.7Oz La 1.1 Gd 1.5 Ca 1.4 Ba 2 Sr 1 Cu 6.3 In 0.7 O z 1 2002 3137 A 3.8701 11.5655 K 56.5 63 70.5 63 mOhm.cm 26.6 0.263 "La2O3,Gd2O3,CaCO3,BaCO3,SrCO3,CuO,In2O3" 1 "SIN(940-960C,24h, in N2)-ANN(500C, 24h, in O2 flow)-slow cool to RT(1C/min)" Suppression of superconductivity in the (La2.5-xGd0.5+x)CaBa3-xSrx(Cu1-yIny)7Oz system due to hole filling by In and its revival by hole doping with Ca 2002 "Saurashtra University, Rajkot, India" "Physica C, 371(2002)315" 33545 PHC3710315 "(La,Ca,Gd)3Ca(Ba2Sr)(Cu,In)7Oz" La0.9Ga1.5Ca1.6Ba2Sr1Cu6.3In0.7Oz La 0.9 Ga 1.5 Ca 1.6 Ba 2 Sr 1 Cu 6.3 In 0.7 O z 1 2002 3137 A 3.8698 11.5645 K 60.5 68 75.5 68 mOhm.cm 13.7 0.282 "La2O3,Gd2O3,CaCO3,BaCO3,SrCO3,CuO,In2O3" 1 "SIN(940-960C,24h, in N2)-ANN(500C, 24h, in O2 flow)-slow cool to RT(1C/min)" Suppression of superconductivity in the (La2.5-xGd0.5+x)CaBa3-xSrx(Cu1-yIny)7Oz system due to hole filling by In and its revival by hole doping with Ca 2002 "Saurashtra University, Rajkot, India" "Physica C, 371(2002)315" 33546 P065172506 "not s/c. 2nd phase=SrRuO3(19%), 3rd phase=CuO(8%). main phase(73%)" Pb2RuSr2Cu2O8Cl Pb2Ru1Sr2Cu2Cl1O8 Pb 2 Ru 1 Sr 2 Cu 2 Cl 1 O 8 2 2002 117 10 Ru1222 p4/mmm A 3.8668 15.3699 K 10 1 solid state reaction Structure and magnetism of the layered ruthenocuprate Pb2RuSr2Cu2O8Cl 2002 "Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, United Kingdom" "Phys.Rev.B, 65(2002)172506" 33547 P065172501 "(Sr,La)CuO2" Sr0.9La0.1Cu1O2 Sr 0.9 La 0.1 Cu 1 O 2 1 2002 IL K 43 43 "La2O3,SrCO3,CuO,ZnO(NiO)" 1 "CAL(920-945C, 36h)-high pressure sintering" Substitution for Cu in the electron-doped infinite-layer superconductor Sr0.9La0.1CuO2 : Ni reduces Tc much faster than Zn 2002 "National Creative Research Initiative Center for Superconductivity and Department of Physics, Pohang University of Science and" "Phys. Rev. B, 65(2002)172501" 33548 P065172501 "(Sr,La)(Cu,Zn)O2" Sr0.9La0.1Cu0.99Zn0.01O2 Sr 0.9 La 0.1 Cu 0.99 Zn 0.01 O 2 1 2002 IL K 42 42 "La2O3,SrCO3,CuO,ZnO(NiO)" 1 "CAL(920-945C, 36h)-high pressure sintering" Substitution for Cu in the electron-doped infinite-layer superconductor Sr0.9La0.1CuO2 : Ni reduces Tc much faster than Zn 2002 "National Creative Research Initiative Center for Superconductivity and Department of Physics, Pohang University of Science and" "Phys. Rev. B, 65(2002)172501" 33549 P065172501 "(Sr,La)(Cu,Zn)O2" Sr0.9La0.1Cu0.97Zn0.03O2 Sr 0.9 La 0.1 Cu 0.97 Zn 0.03 O 2 1 2002 IL A 3.95 3.408 K 38 38 "La2O3,SrCO3,CuO,ZnO(NiO)" 1 "CAL(920-945C, 36h)-high pressure sintering" Substitution for Cu in the electron-doped infinite-layer superconductor Sr0.9La0.1CuO2 : Ni reduces Tc much faster than Zn 2002 "National Creative Research Initiative Center for Superconductivity and Department of Physics, Pohang University of Science and" "Phys. Rev. B, 65(2002)172501" 33560 P065172501 "(Sr,La)(Cu,Ni)O2" Sr0.9La0.1Cu0.99Ni0.01O2 Sr 0.9 La 0.1 Cu 0.99 Ni 0.01 O 2 1 2002 IL K 30 30 "La2O3,SrCO3,CuO,ZnO(NiO)" 1 "CAL(920-945C, 36h)-high pressure sintering" Substitution for Cu in the electron-doped infinite-layer superconductor Sr0.9La0.1CuO2 : Ni reduces Tc much faster than Zn 2002 "National Creative Research Initiative Center for Superconductivity and Department of Physics, Pohang University of Science and" "Phys. Rev. B, 65(2002)172501" 33561 P065172501 "(Sr,La)(Cu,Ni)O2" Sr0.9La0.1Cu0.98Ni0.02O2 Sr 0.9 La 0.1 Cu 0.98 Ni 0.02 O 2 1 2002 IL A 3.943 3.417 K 5 K/GPa 19 "La2O3,SrCO3,CuO,ZnO(NiO)" 1 "CAL(920-945C, 36h)-high pressure sintering" Substitution for Cu in the electron-doped infinite-layer superconductor Sr0.9La0.1CuO2 : Ni reduces Tc much faster than Zn 2002 "National Creative Research Initiative Center for Superconductivity and Department of Physics, Pohang University of Science and" "Phys. Rev. B, 65(2002)172501" 33562 L088247001 "dTc/dp in DB at 0.2 GPa for hydrostatic. LTO-LTT transition (Td=68 K). Pressure dependence of Tc, Td shows different for uni-axial pressure." "(La,Nd,Sr)2CuO4" La1.48Nd0.4Sr0.12Cu1O4 La 1.48 Nd 0.4 Sr 0.12 Cu 1 O 4 3 2002 T K 8 8 RH33562 traveling-solvent floating-zone method Competition of Static Stripe and Superconducting Phases in La1.48Nd0.4Sr0.12CuO4 Controlled by Pressure 2002 "Department of Physics, Bharathidasan University, Tiruchirappalli -620 024, India" "Phys.Rev.Lett., 88(2002)247001" 33563 MCP0750144 "heat(850C,8h)" "(Hg,Mo)Sr2CuO4+z" Hg0.85Mo0.15Sr2Cu1O4+z Hg 0.85 Mo 0.15 Sr 2 Cu 1 O 4+z 1 2002 Hg1201 A 3.781 8.868 K 56 56 "(precursor(Sr2CuO3) + MoO3,HgO) - (Au tube in sealed qualtz tube) - heat" "Superconductivity in (Hg,Mo)Sr2CuO4+z system" 2002 "Mat.Chem.Phys., 75(2002)144-146" 33564 MCP0750144 "heat(880C,8h)" "(Hg,Mo)Sr2CuO4+z" Hg0.85Mo0.15Sr2Cu1O4+z Hg 0.85 Mo 0.15 Sr 2 Cu 1 O 4+z 1 2002 Hg1201 A 3.775 8.888 K 66 66 "(precursor(Sr2CuO3) + MoO3,HgO) - (Au tube in sealed qualtz tube) - heat" "Superconductivity in (Hg,Mo)Sr2CuO4+z system" 2002 "Mat.Chem.Phys., 75(2002)144-146" 33565 MCP0750144 "heat(880C,8h)" "(Hg,Mo)Sr2CuO4+z" Hg0.75Mo0.25Sr2Cu1O4+z Hg 0.75 Mo 0.25 Sr 2 Cu 1 O 4+z 1 2002 Hg1201 A 3.791 8.818 K 50 50 "(precursor(Sr2CuO3) + MoO3,HgO) - (Au tube in sealed qualtz tube) - heat" "Superconductivity in (Hg,Mo)Sr2CuO4+z system" 2002 "Mat.Chem.Phys., 75(2002)144-146" 33566 MCP0750144 "heat(880C,8h)" "(Hg,Mo)Sr2CuO4+z" Hg0.7Mo0.3Sr2Cu1O4+z Hg 0.7 Mo 0.3 Sr 2 Cu 1 O 4+z 1 2002 Hg1201 A 3.805 8.814 K 36 36 "(precursor(Sr2CuO3) + MoO3,HgO) - (Au tube in sealed qualtz tube) - heat" "Superconductivity in (Hg,Mo)Sr2CuO4+z system" 2002 "Mat.Chem.Phys., 75(2002)144-146" 33567 MCP0750110 Curie T shows FM Curie T GdSr2RuCu2O8 Gd1Sr2Ru1Cu2O8 Gd 1 Sr 2 Ru 1 Cu 2 O 8 1 2002 139.2 Ru1212 K 6.4 26.5 16.45 "Gd2O3,SrCO3,CuO,Ru" 1 "mixture-heat(600C,48h + 950C,24h,in air) - heat(100C,72h, in air) - ANN(1060C,96h, in O2)" Tuning of the superconducting and ferromagnetic transitions by Cu doping for Ru in GdSr2RuCu2O8 2002 "Mat.Chem.Phys., 75(2002)110-116" 33568 MCP0750110 Curie T shows FM Curie T "GdSr2(Ru,Cu)Cu2O8" Gd1Sr2Ru0.95Cu2.05O8 Gd 1 Sr 2 Ru 0.95 Cu 2.05 O 8 1 2002 135.8 Ru1212 K 12.6 39.5 26.05 "Gd2O3,SrCO3,CuO,Ru" 1 "mixture-heat(600C,48h + 950C,24h,in air) - heat(100C,72h, in air) - ANN(1060C,96h, in O2)" Tuning of the superconducting and ferromagnetic transitions by Cu doping for Ru in GdSr2RuCu2O8 2002 "Mat.Chem.Phys., 75(2002)110-116" 33569 MCP0750110 Curie T shows FM Curie T "GdSr2(Ru,Cu)Cu2O8" Gd1Sr2Ru0.9Cu2.1O8 Gd 1 Sr 2 Ru 0.9 Cu 2.1 O 8 1 2002 129.9 Ru1212 K 28.3 47.2 37.75 "Gd2O3,SrCO3,CuO,Ru" 1 "mixture-heat(600C,48h + 950C,24h,in air) - heat(100C,72h, in air) - ANN(1060C,96h, in O2)" Tuning of the superconducting and ferromagnetic transitions by Cu doping for Ru in GdSr2RuCu2O8 2002 "Mat.Chem.Phys., 75(2002)110-116" 33570 MCP0750110 Curie T shows FM Curie T "GdSr2(Ru,Cu)Cu2O8" Gd1Sr2Ru0.8Cu2.2O8 Gd 1 Sr 2 Ru 0.8 Cu 2.2 O 8 1 2002 123.2 Ru1212 K 16.8 40 28.4 "Gd2O3,SrCO3,CuO,Ru" 1 "mixture-heat(600C,48h + 950C,24h,in air) - heat(100C,72h, in air) - ANN(1060C,96h, in O2)" Tuning of the superconducting and ferromagnetic transitions by Cu doping for Ru in GdSr2RuCu2O8 2002 "Mat.Chem.Phys., 75(2002)110-116" 33571 P066012506 Cu NMR and buckling angle of CuO2 plane are measured. YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 1 2002 Y123 K 91 91 1 standard solid state reaction method "Tc reduction in Sr-substituted Y(Ba1-xSrx)2Cu3O7-z investigated by <63>,<65> Cu nuclear quadrupole resonance" 2002 "National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, Nanjing, China" "Phys.Rev.B, 66(2002)12506" 33572 P066012506 Cu NMR and buckling angle of CuO2 plane are measured. "Y(Ba,Sr)2Cu3O7" Y1Ba1.96Sr0.04Cu3O7-z Y 1 Ba 1.96 Sr 0.04 Cu 3 O 7-z 1 2002 Y123 K 90 90 1 standard solid state reaction method "Tc reduction in Sr-substituted Y(Ba1-xSrx)2Cu3O7-z investigated by <63>,<65> Cu nuclear quadrupole resonance" 2002 "National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, Nanjing, China" "Phys.Rev.B, 66(2002)12506" 33573 P066012506 Cu NMR and buckling angle of CuO2 plane are measured. "Y(Ba,Sr)2Cu3O7" Y1Ba1.9Sr0.1Cu3O7-z Y 1 Ba 1.9 Sr 0.1 Cu 3 O 7-z 1 2002 Y123 K 88 88 1 standard solid state reaction method "Tc reduction in Sr-substituted Y(Ba1-xSrx)2Cu3O7-z investigated by <63>,<65> Cu nuclear quadrupole resonance" 2002 "National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, Nanjing, China" "Phys.Rev.B, 66(2002)12506" 33574 P066012506 Cu NMR and buckling angle of CuO2 plane are measured. "Y(Ba,Sr)2Cu3O7" Y1Ba1.8Sr0.2Cu3O7-z Y 1 Ba 1.8 Sr 0.2 Cu 3 O 7-z 1 2002 Y123 K 85 85 1 standard solid state reaction method "Tc reduction in Sr-substituted Y(Ba1-xSrx)2Cu3O7-z investigated by <63>,<65> Cu nuclear quadrupole resonance" 2002 "National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, Nanjing, China" "Phys.Rev.B, 66(2002)12506" 33575 P066012506 Cu NMR and buckling angle of CuO2 plane are measured. "Y(Ba,Sr)2Cu3O7" Y1Ba1.6Sr0.4Cu3O7-z Y 1 Ba 1.6 Sr 0.4 Cu 3 O 7-z 1 2002 Y123 K 83 83 1 standard solid state reaction method "Tc reduction in Sr-substituted Y(Ba1-xSrx)2Cu3O7-z investigated by <63>,<65> Cu nuclear quadrupole resonance" 2002 "National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, Nanjing, China" "Phys.Rev.B, 66(2002)12506" 33576 P066012506 Cu NMR and buckling angle of CuO2 plane are measured. "Y(Ba,Sr)2Cu3O7" Y1Ba1.2Sr0.8Cu3O7-z Y 1 Ba 1.2 Sr 0.8 Cu 3 O 7-z 1 2002 Y123 K 80 80 1 standard solid state reaction method "Tc reduction in Sr-substituted Y(Ba1-xSrx)2Cu3O7-z investigated by <63>,<65> Cu nuclear quadrupole resonance" 2002 "National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, Nanjing, China" "Phys.Rev.B, 66(2002)12506" 33577 P066012506 Cu NMR and buckling angle of CuO2 plane are measured. "Y(Ba,Sr)2Cu3O7" Y1Ba0.8Sr1.2Cu3O7-z Y 1 Ba 0.8 Sr 1.2 Cu 3 O 7-z 1 2002 Y123 K 78 78 1 standard solid state reaction method "Tc reduction in Sr-substituted Y(Ba1-xSrx)2Cu3O7-z investigated by <63>,<65> Cu nuclear quadrupole resonance" 2002 "National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, Nanjing, China" "Phys.Rev.B, 66(2002)12506" 33578 P066020501 "single crystal(1.4 cm3). Cu(2) site commensurate long range AF order(TN=330 K, M=0.14 Bohr-Mag) in Tc=93 K s/c." "YBa2(Cu,Co)3O7" Y1Ba2Cu2.961Co0.039O7-z Y 1 Ba 2 Cu 2.961 Co 0.039 O 7-z 3 2002 330 Y123 K 93 93 top-seed melt texturing method Antiferromagnetic ordering in a 90 K copper oxide superconductor 2002 "DRECAM-SPEC, CE-Saclay, 91191 Gif sur Yvette, France" "Phys.Rev.B, 66(2002)20501" 33579 P066020503 Bi2Sr2CuOz Bi2Sr2Cu1O6.09 Bi 2 Sr 2 Cu 1 O 6+z 6.09 1 2002 Bi2201 K 10 10 uV/K -4.06 TP33579 1 "solid state reaction O-content controlled by annealing (300 - 700C, 1Cu). spin gap temp=230 K defined as (1/T1T) has peak. HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8+z Hg 1 Ba 2 Ca 2 Cu 3 O 8+z 3 1996 Hg1223 K 115 115 "see Physica C, 233(1994)233" Spin Gap in HgBa2Ca2Cu3O8+z Single Crystals from <63>Cu NMR 1996 "Grenoble High Magnetic Field Laboratory, Grenoble Cedex, France" "Phys.Rev.Lett., 76(1996)4238" 33613 JPS0711553 "R(300)=400, R(5K)=26 microOhm.cm. RRR=15. Tc(P=2.0 GPa)=3K. not known whether Tc increase continuously under pressure." Cd2Re2O7 Cd2Re2O7 Cd 2 Re 2 O 7 3 2002 pyrochlore K 0.98 0.98 TC33613 900 C in quartz ampoule. High-Pressure Study on the Superconducting Pyrochlore Oxide Cd2Re2O7 2002 "Institute for Soli State Physics,University of Tokyo,Kashiwanoha,Kashiwa,Chiba , Japan" "J.Phys.Soc.Jpn, 71(2002)1553" 33614 EPJ0260413 specific heat measurements. Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 2002 T K 0.43 0.43 mJ/mol.K2 37 polycrystal - crystal growth by heating. ratio of SrCO3/RuO2 altered for each sample. Low-temperature specific heat of Sr2RuO4 2002 "Max-Planck-Institut fur Chemische Physik fester Stoffe, 01187 Dresden, Germany" "Eur.Phys. J.B, 26(2002)413" 33615 EPJ0260413 specific heat measurements. RRR=42 Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 2002 T K 0.68 0.68 mJ/mol.K2 28 polycrystal - crystal growth by heating. ratio of SrCO3/RuO2 altered for each sample. Low-temperature specific heat of Sr2RuO4 2002 "Max-Planck-Institut fur Chemische Physik fester Stoffe, 01187 Dresden, Germany" "Eur.Phys. J.B, 26(2002)413" 33616 EPJ0260413 specific heat measurements. RRR=290 Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 2002 T K 1.1 1.1 mJ/mol.K2 18.9 polycrystal - crystal growth by heating. ratio of SrCO3/RuO2 altered for each sample. Low-temperature specific heat of Sr2RuO4 2002 "Max-Planck-Institut fur Chemische Physik fester Stoffe, 01187 Dresden, Germany" "Eur.Phys. J.B, 26(2002)413" 33617 EPJ0260413 specific heat measurements. RRR=290 Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 2002 T K 1.17 1.17 mJ/mol.K2 17.8 polycrystal - crystal growth by heating. ratio of SrCO3/RuO2 altered for each sample. Low-temperature specific heat of Sr2RuO4 2002 "Max-Planck-Institut fur Chemische Physik fester Stoffe, 01187 Dresden, Germany" "Eur.Phys. J.B, 26(2002)413" 33618 JPS0670560 residual gamma = 32.0 mJ/mol.K2. delta-C/gamma*Tc = 1.46 Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 1998 T K 0.79 0.79 mJ/mol.K2 41.8 s/c properties depends on sample purity. Evidence for unconventional superconductivity of Sr2RuO4 from specific-heat measurements 1998 "Department of Physics, Kyoto University, Kyoto, Japan" "J.Phys.Soc.Jpn, 67(1998)560" 33619 JPS0670560 residual gamma = 26.5 mJ/mol.K2. delta-C/gamma*Tc = 1.02 Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 1998 T K 1.08 1.08 mJ/mol.K2 38.9 s/c properties depends on sample purity. Evidence for unconventional superconductivity of Sr2RuO4 from specific-heat measurements 1998 "Department of Physics, Kyoto University, Kyoto, Japan" "J.Phys.Soc.Jpn, 67(1998)560" 33620 JPS0670560 residual gamma = 24.4 mJ/mol.K2. delta-C/gamma*Tc = 1.01 Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 1998 T K 1.14 1.14 mJ/mol.K2 40.9 s/c properties depends on sample purity. Evidence for unconventional superconductivity of Sr2RuO4 from specific-heat measurements 1998 "Department of Physics, Kyoto University, Kyoto, Japan" "J.Phys.Soc.Jpn, 67(1998)560" 33621 EPL0580589 pseudogap not observed. gap by break junction. Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+z Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 3 2002 Bi2212 K 56 56 meV 14 5.8 1 self-flux method Absence of pseudogap in heavily overdoped Bi2Sr2CaCu2O8+z from tunneling spectroscopy of break junctions 2002 "Materials Science Division, Argonne National Laboratory, Argonne, IL, USA." "Europhys.Lett., 58(2002)589" 33622 EPL0580758 not s/c upto 8 GPa. Sr14Cu24O41 Sr14Cu24O41 Sr 14 Cu 24 O 41 3 2002 LAD K 2 crystals by traveling-solvent-floating-zone(TSFZ) method "Electronic phase diagram of a hole-doped two-leg ladder system, Sr14-xCaxCu24O41" 2002 "Department of Superconductivity,The University of Tokyo,Bunkyo-ku,Tokyo,Japan" "Europhys.Lett., 58(2002)758" 33623 EPL0580758 not s/c upto 8 GPa. "(Sr,Ca)14Cu24O41" Sr11Ca3Cu24O41 Sr 11 Ca 3 Cu 24 O 41 3 2002 LAD K 2 crystals by traveling-solvent-floating-zone(TSFZ) method "Electronic phase diagram of a hole-doped two-leg ladder system, Sr14-xCaxCu24O41" 2002 "Department of Superconductivity,The University of Tokyo,Bunkyo-ku,Tokyo,Japan" "Europhys.Lett., 58(2002)758" 33624 EPL0580758 not s/c upto 8 GPa. "(Sr,Ca)14Cu24O41" Sr8Ca6Cu24O41 Sr 8 Ca 6 Cu 24 O 41 3 2002 LAD K 2 crystals by traveling-solvent-floating-zone(TSFZ) method "Electronic phase diagram of a hole-doped two-leg ladder system, Sr14-xCaxCu24O41" 2002 "Department of Superconductivity,The University of Tokyo,Bunkyo-ku,Tokyo,Japan" "Europhys.Lett., 58(2002)758" 33625 EPL0580758 not s/c upto 8 GPa. "(Sr,Ca)14Cu24O41" Sr6Ca8Cu24O41 Sr 6 Ca 8 Cu 24 O 41 3 2002 LAD K 2 crystals by traveling-solvent-floating-zone(TSFZ) method "Electronic phase diagram of a hole-doped two-leg ladder system, Sr14-xCaxCu24O41" 2002 "Department of Superconductivity,The University of Tokyo,Bunkyo-ku,Tokyo,Japan" "Europhys.Lett., 58(2002)758" 33626 EPL0580758 pressure-induced s/c. Tc(max)= 4K (P=5 GPa) "(Sr,Ca)14Cu24O41" Sr4Ca10Cu24O41 Sr 4 Ca 10 Cu 24 O 41 3 2002 LAD K 4 0 4 crystals by traveling-solvent-floating-zone(TSFZ) method "Electronic phase diagram of a hole-doped two-leg ladder system, Sr14-xCaxCu24O41" 2002 "Department of Superconductivity,The University of Tokyo,Bunkyo-ku,Tokyo,Japan" "Europhys.Lett., 58(2002)758" 33627 EPL0580758 pressure-induced s/c. Tc(max)= 5.5K (P=3.5 GPa) "(Sr,Ca)14Cu24O41" Sr2Ca12Cu24O41 Sr 2 Ca 12 Cu 24 O 41 3 2002 LAD K 5.5 0 5.5 crystals by traveling-solvent-floating-zone(TSFZ) method "Electronic phase diagram of a hole-doped two-leg ladder system, Sr14-xCaxCu24O41" 2002 "Department of Superconductivity,The University of Tokyo,Bunkyo-ku,Tokyo,Japan" "Europhys.Lett., 58(2002)758" 33628 EPL0580758 not s/c upto 8 GPa. "(Sr,Ca)14Cu24O41" Sr13Y1Cu24O41 Sr 13 Y 1 Cu 24 O 41 3 2002 LAD K 2 crystals by traveling-solvent-floating-zone(TSFZ) method "Electronic phase diagram of a hole-doped two-leg ladder system, Sr14-xCaxCu24O41" 2002 "Department of Superconductivity,The University of Tokyo,Bunkyo-ku,Tokyo,Japan" "Europhys.Lett., 58(2002)758" 33629 PHC3770146 not s/c "(Hg,Pb)2Ba2YCu2O8" Hg1.75Pb0.25Ba2Y1Cu2O8-z Hg 1.75 Pb 0.25 Ba 2 Y 1 Cu 2 O 8-z 1 2002 Hg2212 A 3.8672 28.8433 K 5 "HgO,PbO2,BaO2,Y2O3,CaO,CuO,Cu" "mixture-pellet-Au capsule- HIP(3.5 GPa,100C,1h)" Crystal structure of (Hg1-yPby)2Ba2(Y1-xCax)Cu2O8-d superconducting compounds by neutron powder diffraction 2002 "Laboratoire de Cristallographie,25,avenue des martyrs,Grenoble Cedex,France" "Physica C, 377(2002)146" 33630 PHC3770146 "(Hg,Pb)2Ba2(Y,Ca)Cu2O8" Hg1.75Pb0.25Ba2Y0.7Ca0.3Cu2O8-z Hg 1.75 Pb 0.25 Ba 2 Y 0.7 Ca 0.3 Cu 2 O 8-z 1 2002 Hg2212 A 3.8574 28.8228 K 70 70 "HgO,PbO2,BaO2,Y2O3,CaO,CuO,Cu" "mixture-pellet-Au capsule- HIP(3.5 GPa,100C,1h)" Crystal structure of (Hg1-yPby)2Ba2(Y1-xCax)Cu2O8-d superconducting compounds by neutron powder diffraction 2002 "Laboratoire de Cristallographie,25,avenue des martyrs,Grenoble Cedex,France" "Physica C, 377(2002)146" 33631 PHC3770146 "(Hg,Pb)2Ba2(Y,Ca)Cu2O8" Hg1.5Pb0.5Ba2Y0.5Ca0.5Cu2O8-z Hg 1.5 Pb 0.5 Ba 2 Y 0.5 Ca 0.5 Cu 2 O 8-z 1 2002 Hg2212 A 3.8555 28.9314 K 84 84 "HgO,PbO2,BaO2,Y2O3,CaO,CuO,Cu" "mixture-pellet-Au capsule- HIP(3.5 GPa,100C,1h)" Crystal structure of (Hg1-yPby)2Ba2(Y1-xCax)Cu2O8-d superconducting compounds by neutron powder diffraction 2002 "Laboratoire de Cristallographie,25,avenue des martyrs,Grenoble Cedex,France" "Physica C, 377(2002)146" 33632 JAP0917134 carrier = 1.69 E+27 /m3 from Hall coefficient. RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8-z Ru 1 Sr 2 Gd 1 Cu 2 O 8-z 1 2002 Ru1212 K 45 45 K/GPa 5.5 uV/K 60 "High pressure synthesis (600 bar O2, 1080C)" "On the magnetic and superconducting properties of Ru1-xSr2RECu2+xO8-d ,RE=Gd, Eu, compounds" 2002 "Northern Illinois University, DeKalb, Illinois" "J.Appl.Phys., 91(2002)7134" 33633 JAP0917134 carrier = 2.46 E+27 /m3 from Hall coefficient. "(Ru,Cu)Sr2GdCu2O8" Ru0.9Sr2Gd1Cu2.1O8-z Ru 0.9 Sr 2 Gd 1 Cu 2.1 O 8-z 1 2002 Ru1212 K K/GPa 5.5 uV/K 17 "High pressure synthesis (600 bar O2, 1080C)" "On the magnetic and superconducting properties of Ru1-xSr2RECu2+xO8-d ,RE=Gd, Eu, compounds" 2002 "Northern Illinois University, DeKalb, Illinois" "J.Appl.Phys., 91(2002)7134" 33634 JAP0917134 carrier = 3.06 E+27 /m3 from Hall coefficient. "(Ru,Cu)Sr2GdCu2O8" Ru0.8Sr2Gd1Cu2.2O8-z Ru 0.8 Sr 2 Gd 1 Cu 2.2 O 8-z 1 2002 Ru1212 K K/GPa 5.5 uV/K 14.7 "High pressure synthesis (600 bar O2, 1080C)" "On the magnetic and superconducting properties of Ru1-xSr2RECu2+xO8-d ,RE=Gd, Eu, compounds" 2002 "Northern Illinois University, DeKalb, Illinois" "J.Appl.Phys., 91(2002)7134" 33635 JAP0917134 carrier = 3.18 E+27 /m3 from Hall coefficient. "(Ru,Cu)Sr2GdCu2O8" Ru0.7Sr2Gd1Cu2.3O8-z Ru 0.7 Sr 2 Gd 1 Cu 2.3 O 8-z 1 2002 Ru1212 K K/GPa 5.5 uV/K 12.7 "High pressure synthesis (600 bar O2, 1080C)" "On the magnetic and superconducting properties of Ru1-xSr2RECu2+xO8-d ,RE=Gd, Eu, compounds" 2002 "Northern Illinois University, DeKalb, Illinois" "J.Appl.Phys., 91(2002)7134" 33636 JAP0917134 carrier = 3.18 E+27 /m3 from Hall coefficient. "(Ru,Cu)Sr2GdCu2O8" Ru0.6Sr2Gd1Cu2.4O8-z Ru 0.6 Sr 2 Gd 1 Cu 2.4 O 8-z 1 2002 Ru1212 K 72 72 K/GPa 5.5 uV/K 9.1 "High pressure synthesis (600 bar O2, 1080C)" "On the magnetic and superconducting properties of Ru1-xSr2RECu2+xO8-d ,RE=Gd, Eu, compounds" 2002 "Northern Illinois University, DeKalb, Illinois" "J.Appl.Phys., 91(2002)7134" 33637 JAP0917134 magnetic order observed by muon-SR (FM or AF) "(Ru,Cu)Sr2GdCu2O8" Ru0.6Sr2Eu1Cu2.4O8-z Ru 0.6 Sr 2 Eu 1 Cu 2.4 O 8-z 1 2002 5 Ru1212 K 70 70 K/GPa 5.5 "High pressure synthesis (600 bar O2, 1080C)" "On the magnetic and superconducting properties of Ru1-xSr2RECu2+xO8-d ,RE=Gd, Eu, compounds" 2002 "Northern Illinois University, DeKalb, Illinois" "J.Appl.Phys., 91(2002)7134" 33638 JPM014L257 RRR=24. phase transition at T=200 K. s= -0.234 * T for T<20 K Cd2Re2O7 Cd2Re2O7 Cd 2 Re 2 O 7 3 2002 pyrochlore A 10.223 K 1.4 1.4 uV/K -2.2 TP33638 mOhm.cm 0.015 0.355 1 solid state reaction Thermoelectric power of the superconducting pyrochlore Cd2Re2O7 2002 "Department of Physics, Toyama University, Toyama 930-8555, Japan" "J. Phys.: Condens. Matter, 14 (2002) L257" 33639 PCS0631815 "(Hg,Cr)Sr2CuO4" Hg0.7Cr0.3Sr2Cu1O4+z Hg 0.7 Cr 0.3 Sr 2 Cu 1 O 4+z 1 2002 Hg1201 A 3.8414 8.7017 K 68 68 mOhm.cm 0.318 3.43 "precursor(Cr0.3Sr2(Cu,M)Oz) + HgO, pelletize, evacuated quartz tube, heat(870C, 8h), FC to RT." "Influence of Co, Ni, and Zn substitution for Cu on the structural and superconducting properties of (Hg0.7Cr0.3)Sr2CuO4+z" 2002 "Department of Chemistry, Faculty of Science, Tanta University, Egypt" "J.Phys.Chem.Solids, 63(2002)1815" 33640 PCS0631815 "(Hg,Cr)Sr2(Cu,Zn)O4" Hg0.7Cr0.3Sr2Cu0.99Zn0.01O4+z Hg 0.7 Cr 0.3 Sr 2 Cu 0.99 Zn 0.01 O 4+z 1 2002 Hg1201 A 3.841 8.6829 K 63 63 mOhm.cm 0.532 3.51 "precursor(Cr0.3Sr2(Cu,M)Oz) + HgO, pelletize, evacuated quartz tube, heat(870C, 8h), FC to RT." "Influence of Co, Ni, and Zn substitution for Cu on the structural and superconducting properties of (Hg0.7Cr0.3)Sr2CuO4+z" 2002 "Department of Chemistry, Faculty of Science, Tanta University, Egypt" "J.Phys.Chem.Solids, 63(2002)1815" 33641 PCS0631815 "(Hg,Cr)Sr2(Cu,Zn)O4" Hg0.7Cr0.3Sr2Cu0.98Zn0.02O4+z Hg 0.7 Cr 0.3 Sr 2 Cu 0.98 Zn 0.02 O 4+z 1 2002 Hg1201 A 3.8414 8.6641 K 60 60 mOhm.cm 0.856 3.58 "precursor(Cr0.3Sr2(Cu,M)Oz) + HgO, pelletize, evacuated quartz tube, heat(870C, 8h), FC to RT." "Influence of Co, Ni, and Zn substitution for Cu on the structural and superconducting properties of (Hg0.7Cr0.3)Sr2CuO4+z" 2002 "Department of Chemistry, Faculty of Science, Tanta University, Egypt" "J.Phys.Chem.Solids, 63(2002)1815" 33642 PCS0631815 "(Hg,Cr)Sr2(Cu,Zn)O4" Hg0.7Cr0.3Sr2Cu0.97Zn0.03O4+z Hg 0.7 Cr 0.3 Sr 2 Cu 0.97 Zn 0.03 O 4+z 1 2002 Hg1201 A 3.842 8.6466 K 57 57 mOhm.cm 1.416 3.67 "precursor(Cr0.3Sr2(Cu,M)Oz) + HgO, pelletize, evacuated quartz tube, heat(870C, 8h), FC to RT." "Influence of Co, Ni, and Zn substitution for Cu on the structural and superconducting properties of (Hg0.7Cr0.3)Sr2CuO4+z" 2002 "Department of Chemistry, Faculty of Science, Tanta University, Egypt" "J.Phys.Chem.Solids, 63(2002)1815" 33643 PCS0631815 "(Hg,Cr)Sr2(Cu,Zn)O4" Hg0.7Cr0.3Sr2Cu0.96Zn0.04O4+z Hg 0.7 Cr 0.3 Sr 2 Cu 0.96 Zn 0.04 O 4+z 1 2002 Hg1201 A 3.8419 8.6281 K 54 54 mOhm.cm 2.053 3.83 "precursor(Cr0.3Sr2(Cu,M)Oz) + HgO, pelletize, evacuated quartz tube, heat(870C, 8h), FC to RT." "Influence of Co, Ni, and Zn substitution for Cu on the structural and superconducting properties of (Hg0.7Cr0.3)Sr2CuO4+z" 2002 "Department of Chemistry, Faculty of Science, Tanta University, Egypt" "J.Phys.Chem.Solids, 63(2002)1815" 33644 PCS0631815 "(Hg,Cr)Sr2(Cu,Zn)O4" Hg0.7Cr0.3Sr2Cu0.95Zn0.05O4+z Hg 0.7 Cr 0.3 Sr 2 Cu 0.95 Zn 0.05 O 4+z 1 2002 Hg1201 A 3.8424 8.6099 K 51 51 mOhm.cm 1.445 3.95 "precursor(Cr0.3Sr2(Cu,M)Oz) + HgO, pelletize, evacuated quartz tube, heat(870C, 8h), FC to RT." "Influence of Co, Ni, and Zn substitution for Cu on the structural and superconducting properties of (Hg0.7Cr0.3)Sr2CuO4+z" 2002 "Department of Chemistry, Faculty of Science, Tanta University, Egypt" "J.Phys.Chem.Solids, 63(2002)1815" 33645 PCS0631815 "(Hg,Cr)Sr2(Cu,Ni)O4" Hg0.7Cr0.3Sr2Cu0.99Ni0.01O4+z Hg 0.7 Cr 0.3 Sr 2 Cu 0.99 Ni 0.01 O 4+z 1 2002 Hg1201 A 3.8415 8.6959 K 59 59 mOhm.cm 0.889 3.62 "precursor(Cr0.3Sr2(Cu,M)Oz) + HgO, pelletize, evacuated quartz tube, heat(870C, 8h), FC to RT." "Influence of Co, Ni, and Zn substitution for Cu on the structural and superconducting properties of (Hg0.7Cr0.3)Sr2CuO4+z" 2002 "Department of Chemistry, Faculty of Science, Tanta University, Egypt" "J.Phys.Chem.Solids, 63(2002)1815" 33646 PCS0631815 "(Hg,Cr)Sr2(Cu,Ni)O4" Hg0.7Cr0.3Sr2Cu0.98Ni0.02O4+z Hg 0.7 Cr 0.3 Sr 2 Cu 0.98 Ni 0.02 O 4+z 1 2002 Hg1201 A 3.8418 8.69 K 53 53 mOhm.cm 1.522 3.88 "precursor(Cr0.3Sr2(Cu,M)Oz) + HgO, pelletize, evacuated quartz tube, heat(870C, 8h), FC to RT." "Influence of Co, Ni, and Zn substitution for Cu on the structural and superconducting properties of (Hg0.7Cr0.3)Sr2CuO4+z" 2002 "Department of Chemistry, Faculty of Science, Tanta University, Egypt" "J.Phys.Chem.Solids, 63(2002)1815" 33647 PCS0631815 "(Hg,Cr)Sr2(Cu,Ni)O4" Hg0.7Cr0.3Sr2Cu0.97Ni0.03O4+z Hg 0.7 Cr 0.3 Sr 2 Cu 0.97 Ni 0.03 O 4+z 1 2002 Hg1201 A 3.842 8.6845 K 48 48 mOhm.cm 2.374 4.21 "precursor(Cr0.3Sr2(Cu,M)Oz) + HgO, pelletize, evacuated quartz tube, heat(870C, 8h), FC to RT." "Influence of Co, Ni, and Zn substitution for Cu on the structural and superconducting properties of (Hg0.7Cr0.3)Sr2CuO4+z" 2002 "Department of Chemistry, Faculty of Science, Tanta University, Egypt" "J.Phys.Chem.Solids, 63(2002)1815" 33648 PCS0631815 "(Hg,Cr)Sr2(Cu,Ni)O4" Hg0.7Cr0.3Sr2Cu0.96Ni0.04O4+z Hg 0.7 Cr 0.3 Sr 2 Cu 0.96 Ni 0.04 O 4+z 1 2002 Hg1201 A 3.8424 8.6792 K 43 43 mOhm.cm 2.88 4.62 "precursor(Cr0.3Sr2(Cu,M)Oz) + HgO, pelletize, evacuated quartz tube, heat(870C, 8h), FC to RT." "Influence of Co, Ni, and Zn substitution for Cu on the structural and superconducting properties of (Hg0.7Cr0.3)Sr2CuO4+z" 2002 "Department of Chemistry, Faculty of Science, Tanta University, Egypt" "J.Phys.Chem.Solids, 63(2002)1815" 33649 PCS0631815 "(Hg,Cr)Sr2(Cu,Ni)O4" Hg0.7Cr0.3Sr2Cu0.95Ni0.05O4+z Hg 0.7 Cr 0.3 Sr 2 Cu 0.95 Ni 0.05 O 4+z 1 2002 Hg1201 A 3.8426 8.6809 K 39 39 mOhm.cm 3.783 5.22 "precursor(Cr0.3Sr2(Cu,M)Oz) + HgO, pelletize, evacuated quartz tube, heat(870C, 8h), FC to RT." "Influence of Co, Ni, and Zn substitution for Cu on the structural and superconducting properties of (Hg0.7Cr0.3)Sr2CuO4+z" 2002 "Department of Chemistry, Faculty of Science, Tanta University, Egypt" "J.Phys.Chem.Solids, 63(2002)1815" 33650 PCS0631815 "(Hg,Cr)Sr2(Cu,Ni)O4" Hg0.7Cr0.3Sr2Cu0.925Ni0.075O4+z Hg 0.7 Cr 0.3 Sr 2 Cu 0.925 Ni 0.075 O 4+z 1 2002 Hg1201 A 3.8429 8.6619 K 28 28 mOhm.cm 5.255 5.83 "precursor(Cr0.3Sr2(Cu,M)Oz) + HgO, pelletize, evacuated quartz tube, heat(870C, 8h), FC to RT." "Influence of Co, Ni, and Zn substitution for Cu on the structural and superconducting properties of (Hg0.7Cr0.3)Sr2CuO4+z" 2002 "Department of Chemistry, Faculty of Science, Tanta University, Egypt" "J.Phys.Chem.Solids, 63(2002)1815" 33651 PCS0631815 "(Hg,Cr)Sr2(Cu,Ni)O4" Hg0.7Cr0.3Sr2Cu0.9Ni0.1O4+z Hg 0.7 Cr 0.3 Sr 2 Cu 0.9 Ni 0.1 O 4+z 1 2002 Hg1201 A 3.8432 8.6477 K 18 18 mOhm.cm 7.073 6.96 "precursor(Cr0.3Sr2(Cu,M)Oz) + HgO, pelletize, evacuated quartz tube, heat(870C, 8h), FC to RT." "Influence of Co, Ni, and Zn substitution for Cu on the structural and superconducting properties of (Hg0.7Cr0.3)Sr2CuO4+z" 2002 "Department of Chemistry, Faculty of Science, Tanta University, Egypt" "J.Phys.Chem.Solids, 63(2002)1815" 33652 PCS0631815 "(Hg,Cr)Sr2(Cu,Co)O4" Hg0.7Cr0.3Sr2Cu0.99Co0.01O4+z Hg 0.7 Cr 0.3 Sr 2 Cu 0.99 Co 0.01 O 4+z 1 2002 Hg1201 A 3.8414 8.6961 K 58 58 mOhm.cm 1.22 3.7 "precursor(Cr0.3Sr2(Cu,M)Oz) + HgO, pelletize, evacuated quartz tube, heat(870C, 8h), FC to RT." "Influence of Co, Ni, and Zn substitution for Cu on the structural and superconducting properties of (Hg0.7Cr0.3)Sr2CuO4+z" 2002 "Department of Chemistry, Faculty of Science, Tanta University, Egypt" "J.Phys.Chem.Solids, 63(2002)1815" 33653 PCS0631815 "(Hg,Cr)Sr2(Cu,Co)O4" Hg0.7Cr0.3Sr2Cu0.98Co0.02O4+z Hg 0.7 Cr 0.3 Sr 2 Cu 0.98 Co 0.02 O 4+z 1 2002 Hg1201 A 3.8417 8.6902 K 52 52 mOhm.cm 2.007 4.24 "precursor(Cr0.3Sr2(Cu,M)Oz) + HgO, pelletize, evacuated quartz tube, heat(870C, 8h), FC to RT." "Influence of Co, Ni, and Zn substitution for Cu on the structural and superconducting properties of (Hg0.7Cr0.3)Sr2CuO4+z" 2002 "Department of Chemistry, Faculty of Science, Tanta University, Egypt" "J.Phys.Chem.Solids, 63(2002)1815" 33654 PCS0631815 "(Hg,Cr)Sr2(Cu,Co)O4" Hg0.7Cr0.3Sr2Cu0.97Co0.03O4+z Hg 0.7 Cr 0.3 Sr 2 Cu 0.97 Co 0.03 O 4+z 1 2002 Hg1201 A 3.8419 8.6833 K 46 46 mOhm.cm 3.411 4.82 "precursor(Cr0.3Sr2(Cu,M)Oz) + HgO, pelletize, evacuated quartz tube, heat(870C, 8h), FC to RT." "Influence of Co, Ni, and Zn substitution for Cu on the structural and superconducting properties of (Hg0.7Cr0.3)Sr2CuO4+z" 2002 "Department of Chemistry, Faculty of Science, Tanta University, Egypt" "J.Phys.Chem.Solids, 63(2002)1815" 33655 PCS0631815 "(Hg,Cr)Sr2(Cu,Co)O4" Hg0.7Cr0.3Sr2Cu0.96Co0.04O4+z Hg 0.7 Cr 0.3 Sr 2 Cu 0.96 Co 0.04 O 4+z 1 2002 Hg1201 A 3.8424 8.6777 K 42 42 mOhm.cm 4.395 5.25 "precursor(Cr0.3Sr2(Cu,M)Oz) + HgO, pelletize, evacuated quartz tube, heat(870C, 8h), FC to RT." "Influence of Co, Ni, and Zn substitution for Cu on the structural and superconducting properties of (Hg0.7Cr0.3)Sr2CuO4+z" 2002 "Department of Chemistry, Faculty of Science, Tanta University, Egypt" "J.Phys.Chem.Solids, 63(2002)1815" 33656 PCS0631815 "(Hg,Cr)Sr2(Cu,Co)O4" Hg0.7Cr0.3Sr2Cu0.95Co0.05O4+z Hg 0.7 Cr 0.3 Sr 2 Cu 0.95 Co 0.05 O 4+z 1 2002 Hg1201 A 3.8427 8.6729 K 35 35 mOhm.cm 5.452 5.81 "precursor(Cr0.3Sr2(Cu,M)Oz) + HgO, pelletize, evacuated quartz tube, heat(870C, 8h), FC to RT." "Influence of Co, Ni, and Zn substitution for Cu on the structural and superconducting properties of (Hg0.7Cr0.3)Sr2CuO4+z" 2002 "Department of Chemistry, Faculty of Science, Tanta University, Egypt" "J.Phys.Chem.Solids, 63(2002)1815" 33657 SSC1230017 G-L = 25.3. anisotropy = 9.3. "(Sr,La)CuO2" Sr0.9La0.1Cu1O2 Sr 0.9 La 0.1 Cu 1 O 2 2002 IL K 42 42 T Hao & Clem model using M(H) 13.9 T/K 0.47 A Hao & Clem model using M(H) 48.6 5.9 A Hao & Clem model using M(H) 1470 grains were aligned in epoxy under H=11 T. Three-dimensional superconductivity in the infinite-layer compound Sr0.9La0.1CuO2 in entire region below Tc 2002 "Department of Physics, National Creative Research Initiative Center for Superconductivity, Pohang University of Science and Technology, Pohang, South Korea" "Solid State Commun., 123(2002)17" 33658 L089057002 "pressure-induced s/c. 7) - T*(Cu<63>) = 185-160 = 25 K. alpha(T*) = -4.9 HoBa2Cu4O8 Ho1Ba2Cu4O8 Ho 1 Ba 2 Cu 4 O 8 1 2001 Y124 K 79 79 Cu "high O2 pressure solid state reaction (1000C,450 bar O2,60h)" Large copper isotope effect on the pseudogap in the high-temperature superconductor HoBa2Cu4O8 2001 "ETH Zurich & PSI Villigen, Villigen PSI, Switzerland" "Eur.Phys.J.B, 19(2001)5-8" 33725 EPJ0190005 isotope effect of pseudogap temp T*. T*(O<18>) - T*(O<16>) = 220-170 = 50 K. alpha(T*) = -2.2 HoBa2Cu4O8 Ho1Ba2Cu4O8 Ho 1 Ba 2 Cu 4 O 8 1 2001 Y124 K 79 79 O "high O2 pressure solid state reaction (1000C,450 bar O2,60h)" Large copper isotope effect on the pseudogap in the high-temperature superconductor HoBa2Cu4O8 2001 "ETH Zurich & PSI Villigen, Villigen PSI, Switzerland" "Eur.Phys.J.B, 19(2001)5-8" 33726 P066214509 c-axis aligned sample. anisotropy = 9.3. G-L//c-axis = 25.3 "(Sr,La)CuO2" Sr0.9La0.1Cu1O2 Sr 0.9 La 0.1 Cu 1 O 2 2002 IL A 3.95 3.41 K 42.7 42.7 Oe "magnetization, Hao & Clem analysis" 336 T "magnetization, Hao & Clem analysis" 13.9 A "magnetization, Hao & Clem analysis" 48.6 5.2 nm "magnetization, Hao & Clem analysis" 147 "mixture - CAL(950C,36h) - high pressure synthesis(4 GPa)" Anisotropy and reversible magnetization of the infinite-layer superconductor Sr0.9La0.1CuO2 2002 "Department of Physics, Ohio State University,Columbus,Ohio,USA" "Phys.Rev.B, 66(2002)214509" 33727 P066184506 "optimally O-doped. pseudogap-T, T* = 60 K. T*(O<18>) = 70 K(i.e. dT*=10 K). T* from neutron experiments." "(La,Ho,Sr)2CuO4" La1.81Ho0.04Sr0.15Cu1O4 La 1.81 Ho 0.04 Sr 0.15 Cu 1 O 4 1 2002 T K 32 32 0.11 O 81 "solid state reaction .using O<18>, Cu<65> isotope." Oxygen and copper isotope effects on the pseudogap in the high-temperature superconductor La1.81Ho0.04Sr0.15CuO4 studied by neutron crystal-field spectroscopy 2002 "ETH Zurich & PSI Villigen, Villigen PSI, Switzerland" "Phys.Rev.B, 66(2002)184506" 33728 P066184506 "optimally O-doped. pseudogap-T, T* = 60 K. T*(Cu<65>) = 60 K(i.e. dT*=0 K). T* from neutron experiments." "(La,Ho,Sr)2CuO4" La1.81Ho0.04Sr0.15Cu1O4 La 1.81 Ho 0.04 Sr 0.15 Cu 1 O 4 1 2002 T K 32 32 0.29 Cu "solid state reaction .using O<18>, Cu<65> isotope." Oxygen and copper isotope effects on the pseudogap in the high-temperature superconductor La1.81Ho0.04Sr0.15CuO4 studied by neutron crystal-field spectroscopy 2002 "ETH Zurich & PSI Villigen, Villigen PSI, Switzerland" "Phys.Rev.B, 66(2002)184506" 33729 PHC3830337 dTc/dp = 1.02 K/GPa(susceptibility). Ferromag Tm=123 K. dTm/dp = 6.7 K/GPa. RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 1 2003 123 Ru1212 K 42.4 43.8 42.4 K/GPa 1.06 "RuO2,Gd2O3,SrCO3,CuO" 1 "mixture-preheat(600-800C,12h)-CAL(960C,16h) - SIN(1015-1060C) - SIN(1065,10d, in O2)" Pressure effect on the superconducting and magnetic transitions of the superconducting ferromagnet RuSr2GdCu2O8 2003 "Texas Center for Superconductivity and Department of Physics , University of Houston, Houston, Texas,USA" "Physica C, 383(2003)337" 33730 PHC3840343 starting= Ba0.6K0.45BiO3.1 "(Ba,K)BiO3" Ba0.635K0.365Bi1O3 Ba 0.635 K 0.365 Bi 1 O 3 1 2003 BKBO A 4.2938 K 30.4 30.4 "high pressure synthesis (5GPa, 900C, 1h)" High pressure synthesis and superconductivity of Ba1-xKxBiO3 (0.350.5) - Ba1.7K1.3Bi2O7 boundary and the crystals properties 2000 "Institute of Solid State and Semiconductors Physics, Academy of Science, Minsk,Belarus" "J.Crystal Growth, 211(2000)471-475" 33738 JCG2110471 "(Ba,K)BiO3" Ba0.35K0.65Bi1O3 Ba 0.35 K 0.65 Bi 1 O 3 2000 BKBO Pm3-m A 4.241 K 1.88 1.88 electrochemical growth using KOH flux Electrochemical growth near the Ba1-xKxBiO3(x>0.5) - Ba1.7K1.3Bi2O7 boundary and the crystals properties 2000 "Institute of Solid State and Semiconductors Physics, Academy of Science, Minsk,Belarus" "J.Crystal Growth, 211(2000)471-475" 33739 JCG2110471 "(Ba,K)BiO3" Ba0.4K0.6Bi1O3 Ba 0.4 K 0.6 Bi 1 O 3 2000 BKBO Pm3-m A 4.25 K 7.2 7.2 electrochemical growth using KOH flux Electrochemical growth near the Ba1-xKxBiO3(x>0.5) - Ba1.7K1.3Bi2O7 boundary and the crystals properties 2000 "Institute of Solid State and Semiconductors Physics, Academy of Science, Minsk,Belarus" "J.Crystal Growth, 211(2000)471-475" 33740 JCG2110471 "(Ba,K)BiO3" Ba0.45K0.55Bi1O3 Ba 0.45 K 0.55 Bi 1 O 3 2000 BKBO Pm3-m A 4.259 K 12.7 12.7 electrochemical growth using KOH flux Electrochemical growth near the Ba1-xKxBiO3(x>0.5) - Ba1.7K1.3Bi2O7 boundary and the crystals properties 2000 "Institute of Solid State and Semiconductors Physics, Academy of Science, Minsk,Belarus" "J.Crystal Growth, 211(2000)471-475" 33741 JCG2110471 "(Ba,K)BiO3" Ba0.5K0.5Bi1O3 Ba 0.5 K 0.5 Bi 1 O 3 2000 BKBO Pm3-m A 4.267 K 18.6 18.6 electrochemical growth using KOH flux Electrochemical growth near the Ba1-xKxBiO3(x>0.5) - Ba1.7K1.3Bi2O7 boundary and the crystals properties 2000 "Institute of Solid State and Semiconductors Physics, Academy of Science, Minsk,Belarus" "J.Crystal Growth, 211(2000)471-475" 33742 JCG2110471 "(Ba,K)BiO3" Ba0.644K0.356Bi1O3 Ba 0.644 K 0.356 Bi 1 O 3 2000 BKBO K 29 29 electrochemical growth using KOH flux Electrochemical growth near the Ba1-xKxBiO3(x>0.5) - Ba1.7K1.3Bi2O7 boundary and the crystals properties 2000 "Institute of Solid State and Semiconductors Physics, Academy of Science, Minsk,Belarus" "J.Crystal Growth, 211(2000)471-475" 33743 JCG2110471 "(Ba,K)BiO3" Ba0.613K0.387Bi1O3 Ba 0.613 K 0.387 Bi 1 O 3 2000 BKBO K 30.7 30.7 electrochemical growth using KOH flux Electrochemical growth near the Ba1-xKxBiO3(x>0.5) - Ba1.7K1.3Bi2O7 boundary and the crystals properties 2000 "Institute of Solid State and Semiconductors Physics, Academy of Science, Minsk,Belarus" "J.Crystal Growth, 211(2000)471-475" 33744 JCG2110471 "(Ba,K)BiO3" Ba0.584K0.416Bi1O3 Ba 0.584 K 0.416 Bi 1 O 3 2000 BKBO K 28.8 28.8 electrochemical growth using KOH flux Electrochemical growth near the Ba1-xKxBiO3(x>0.5) - Ba1.7K1.3Bi2O7 boundary and the crystals properties 2000 "Institute of Solid State and Semiconductors Physics, Academy of Science, Minsk,Belarus" "J.Crystal Growth, 211(2000)471-475" 33745 JCG2110471 "(Ba,K)BiO3" Ba0.553K0.447Bi1O3 Ba 0.553 K 0.447 Bi 1 O 3 2000 BKBO K 25.5 25.5 electrochemical growth using KOH flux Electrochemical growth near the Ba1-xKxBiO3(x>0.5) - Ba1.7K1.3Bi2O7 boundary and the crystals properties 2000 "Institute of Solid State and Semiconductors Physics, Academy of Science, Minsk,Belarus" "J.Crystal Growth, 211(2000)471-475" 33746 JCG2110471 "(Ba,K)BiO3" Ba0.542K0.458Bi1O3 Ba 0.542 K 0.458 Bi 1 O 3 2000 BKBO K 23.1 23.1 electrochemical growth using KOH flux Electrochemical growth near the Ba1-xKxBiO3(x>0.5) - Ba1.7K1.3Bi2O7 boundary and the crystals properties 2000 "Institute of Solid State and Semiconductors Physics, Academy of Science, Minsk,Belarus" "J.Crystal Growth, 211(2000)471-475" 33747 JCG2110471 "(Ba,K)BiO3" Ba0.595K0.405Bi1O3 Ba 0.595 K 0.405 Bi 1 O 3 2000 BKBO K 31.2 31.2 electrochemical growth using KOH flux Electrochemical growth near the Ba1-xKxBiO3(x>0.5) - Ba1.7K1.3Bi2O7 boundary and the crystals properties 2000 "Institute of Solid State and Semiconductors Physics, Academy of Science, Minsk,Belarus" "J.Crystal Growth, 211(2000)471-475" 33748 PCS0601933 "(Ba,K)BiO3" Ba0.665K0.335Bi1O2.985 Ba 0.665 K 0.335 Bi 1 O 3 2.985 1999 BKBO K 27.3 27.3 electrochemical growth using KOH flux Normal-state transport properties of Ba1-xKxBiO3 crystals 1999 "College of Science and Engineering, Aoyama Gakuin University,Setagaya, Tokyo,Japan" "J.Phys.Chem.Solids, 60(1999)1933" 33749 PCS0601933 "(Ba,K)BiO3" Ba0.66K0.34Bi1O3 Ba 0.66 K 0.34 Bi 1 O 3 1999 BKBO K 26.2 26.2 electrochemical growth using KOH flux Normal-state transport properties of Ba1-xKxBiO3 crystals 1999 "College of Science and Engineering, Aoyama Gakuin University,Setagaya, Tokyo,Japan" "J.Phys.Chem.Solids, 60(1999)1933" 33750 PCS0601933 "(Ba,K)BiO3" Ba0.63K0.37Bi1O3 Ba 0.63 K 0.37 Bi 1 O 3 1999 BKBO K 28.3 28.3 electrochemical growth using KOH flux Normal-state transport properties of Ba1-xKxBiO3 crystals 1999 "College of Science and Engineering, Aoyama Gakuin University,Setagaya, Tokyo,Japan" "J.Phys.Chem.Solids, 60(1999)1933" 33751 PCS0601933 "(Ba,K)BiO3" Ba0.6K0.4Bi1O2.977 Ba 0.6 K 0.4 Bi 1 O 3 2.977 1999 BKBO K 29 29 electrochemical growth using KOH flux Normal-state transport properties of Ba1-xKxBiO3 crystals 1999 "College of Science and Engineering, Aoyama Gakuin University,Setagaya, Tokyo,Japan" "J.Phys.Chem.Solids, 60(1999)1933" 33752 PCS0601933 "(Ba,K)BiO3" Ba0.57K0.43Bi1O2.983 Ba 0.57 K 0.43 Bi 1 O 3 2.983 1999 BKBO K 25.6 25.6 electrochemical growth using KOH flux Normal-state transport properties of Ba1-xKxBiO3 crystals 1999 "College of Science and Engineering, Aoyama Gakuin University,Setagaya, Tokyo,Japan" "J.Phys.Chem.Solids, 60(1999)1933" 33753 PCS0601933 "(Ba,K)BiO3" Ba0.51K0.49Bi1O2.974 Ba 0.51 K 0.49 Bi 1 O 3 2.974 1999 BKBO K 22.2 22.2 electrochemical growth using KOH flux Normal-state transport properties of Ba1-xKxBiO3 crystals 1999 "College of Science and Engineering, Aoyama Gakuin University,Setagaya, Tokyo,Japan" "J.Phys.Chem.Solids, 60(1999)1933" 33754 PCS0601933 "(Ba,K)BiO3" Ba0.46K0.56Bi1O2.965 Ba 0.46 K 0.56 Bi 1 O 3 2.965 1999 BKBO K 14.8 14.8 electrochemical growth using KOH flux Normal-state transport properties of Ba1-xKxBiO3 crystals 1999 "College of Science and Engineering, Aoyama Gakuin University,Setagaya, Tokyo,Japan" "J.Phys.Chem.Solids, 60(1999)1933" 33755 PCS0601933 "(Ba,K)BiO3" Ba0.37K0.63Bi1O2.952 Ba 0.37 K 0.63 Bi 1 O 3 2.952 1999 BKBO K 8.71 8.71 electrochemical growth using KOH flux Normal-state transport properties of Ba1-xKxBiO3 crystals 1999 "College of Science and Engineering, Aoyama Gakuin University,Setagaya, Tokyo,Japan" "J.Phys.Chem.Solids, 60(1999)1933" 33756 PHC3830315 as-prepared. Rietveld analysis shows Ru(Sr1.82Nd0.18)(Nd1.2Ce0.8)Cu2O10 "RuSr2(Nd,Ce)2Cu2O10" Ru1Sr2Nd1.4Ce0.6Cu2O10-z Ru 1 Sr 2 Nd 1.4 Ce 0.6 Cu 2 O 10-z 2003 Ru1222 A 3.848 28.382 K 4.2 "RuO2,SrCO3,Nd2O3,CeO2,CuO" 1 "mixture-preheat(960C,8h,in air)-pellet-heat(1010C,8h,in O2)-heat(1050C,10h,in air)" "Synthesis, crystal structure and properties of superconducting and non-superconducting RuSr2(Nd,Ce)2Cu2O10 phases" 2003 "M.V.Lomonosov State Academy of Fine Chemical Technology,Moscow,Russia" "Physica C, 383(2003)315" 33757 PHC3830315 "ANN(400C,4h,in O2). Rietveld analysis shows (Ru0.67Cu0.33)(Sr1.66Nd0.34(Nd1.2Ce0.8)Cu2O9.74" "RuSr2(Nd,Ce)2Cu2O10" Ru1Sr2Nd1.4Ce0.6Cu2O10-z Ru 1 Sr 2 Nd 1.4 Ce 0.6 Cu 2 O 10-z 2003 Ru1222 A 3.849 28.575 K 40 40 "RuO2,SrCO3,Nd2O3,CeO2,CuO" 1 "mixture-preheat(960C,8h,in air)-pellet-heat(1010C,8h,in O2)-heat(1050C,10h,in air)" "Synthesis, crystal structure and properties of superconducting and non-superconducting RuSr2(Nd,Ce)2Cu2O10 phases" 2003 "M.V.Lomonosov State Academy of Fine Chemical Technology,Moscow,Russia" "Physica C, 383(2003)315" 33758 PHC3830315 "ANN(700C,8h,in 350 atm O2). Rietveld analysis shows (Ru0.59Cu0.41)(Sr1.12Nd0.88)(Nd1.2Ce0.8)Cu2O10" "RuSr2(Nd,Ce)2Cu2O10" Ru1Sr2Nd1.4Ce0.6Cu2O10-z Ru 1 Sr 2 Nd 1.4 Ce 0.6 Cu 2 O 10-z 2003 Ru1222 A 3.87 28.487 K 4.2 "RuO2,SrCO3,Nd2O3,CeO2,CuO" 1 "mixture-preheat(960C,8h,in air)-pellet-heat(1010C,8h,in O2)-heat(1050C,10h,in air)" "Synthesis, crystal structure and properties of superconducting and non-superconducting RuSr2(Nd,Ce)2Cu2O10 phases" 2003 "M.V.Lomonosov State Academy of Fine Chemical Technology,Moscow,Russia" "Physica C, 383(2003)315" 33759 PHC3830315 "2 times ANN(700C,8h,in 350 atm O2). Rietveld analysis shows (Ru0.62Cu0.38)(Sr1.41Nd0.59)(Nd1.2Ce0.8)Cu2O10" "RuSr2(Nd,Ce)2Cu2O10" Ru1Sr2Nd1.4Ce0.6Cu2O10-z Ru 1 Sr 2 Nd 1.4 Ce 0.6 Cu 2 O 10-z 2003 Ru1222 A 3.861 28.502 K 4.2 "RuO2,SrCO3,Nd2O3,CeO2,CuO" 1 "mixture-preheat(960C,8h,in air)-pellet-heat(1010C,8h,in O2)-heat(1050C,10h,in air)" "Synthesis, crystal structure and properties of superconducting and non-superconducting RuSr2(Nd,Ce)2Cu2O10 phases" 2003 "M.V.Lomonosov State Academy of Fine Chemical Technology,Moscow,Russia" "Physica C, 383(2003)315" 33760 PHC3830365 "(Hg,Re)(Ba,Sr)2Ca2Cu3O8" Hg0.85Re0.15Ba2Ca2Cu3O8 Hg 0.85 Re 0.15 Ba 2 Ca 2 Cu 3 O 8 2003 Hg1223 A 15.697 K 132.9 132.9 HIR33760 precursor(Ba2Ca2Cu3Oz)+HgO - wrapped(Au foil) - sealed(quartz tube) - heat to 700C(300C/h) - heat to 835C (120C/h) - cool to RT(120C/h) The resistive transition of (Hg0.85Re0.15)(Ba1-ySry)2Ca2Cu3O8+z superconducting polycrystals 2003 "Superconductivity Lab,IMRE-Physics Faculty, University of Havana, Havana,Cuba" "Physica C, 383(2003)365" 33761 PHC3830365 "(Hg,Re)(Ba,Sr)2Ca2Cu3O8" Hg0.85Re0.15Ba1.66Sr0.34Ca2Cu3O8 Hg 0.85 Re 0.15 Ba 1.66 Sr 0.34 Ca 2 Cu 3 O 8 2003 Hg1223 A 15.632 K 131.3 131.3 precursor(Ba2Ca2Cu3Oz)+HgO - wrapped(Au foil) - sealed(quartz tube) - heat to 700C(300C/h) - heat to 835C (120C/h) - cool to RT(120C/h) The resistive transition of (Hg0.85Re0.15)(Ba1-ySry)2Ca2Cu3O8+z superconducting polycrystals 2003 "Superconductivity Lab,IMRE-Physics Faculty, University of Havana, Havana,Cuba" "Physica C, 383(2003)365" 33762 PHC3830365 "(Hg,Re)(Ba,Sr)2Ca2Cu3O8" Hg0.85Re0.15Ba1.6Sr0.4Ca2Cu3O8 Hg 0.85 Re 0.15 Ba 1.6 Sr 0.4 Ca 2 Cu 3 O 8 2003 Hg1223 A 15.625 K 130.3 130.3 precursor(Ba2Ca2Cu3Oz)+HgO - wrapped(Au foil) - sealed(quartz tube) - heat to 700C(300C/h) - heat to 835C (120C/h) - cool to RT(120C/h) The resistive transition of (Hg0.85Re0.15)(Ba1-ySry)2Ca2Cu3O8+z superconducting polycrystals 2003 "Superconductivity Lab,IMRE-Physics Faculty, University of Havana, Havana,Cuba" "Physica C, 383(2003)365" 33763 PHC3830365 "(Hg,Re)(Ba,Sr)2Ca2Cu3O8" Hg0.85Re0.15Ba1.44Sr0.56Ca2Cu3O8 Hg 0.85 Re 0.15 Ba 1.44 Sr 0.56 Ca 2 Cu 3 O 8 2003 Hg1223 A 15.6 K 128.7 128.7 precursor(Ba2Ca2Cu3Oz)+HgO - wrapped(Au foil) - sealed(quartz tube) - heat to 700C(300C/h) - heat to 835C (120C/h) - cool to RT(120C/h) The resistive transition of (Hg0.85Re0.15)(Ba1-ySry)2Ca2Cu3O8+z superconducting polycrystals 2003 "Superconductivity Lab,IMRE-Physics Faculty, University of Havana, Havana,Cuba" "Physica C, 383(2003)365" 33764 PHC3830445 ANN(800C). Extremely underdoped sample. phase diagram shown . "Bi2(Sr,Bi,La)2CaCu2Oz" Bi2.2Sr1.72La0.08Ca1Cu2O8 Bi 2.2 Sr 1.72 La 0.08 Ca 1 Cu 2 O 8 3 2003 Bi2212 K 60.5 60.5 single crystals were grown by TSFZ method. Oxygen content z was controlled by ANN temperature. Vortex phase diagram for extremely underdoped Bi2.2Sr1.72La0.08CaCu2O8+z 2003 "AIST,Tsukuba-shi,Ibaraki,Japan" "Physica C, 383(2003)445" 33765 PHC3830445 ANN(700C). "Bi2(Sr,Bi,La)2CaCu2Oz" Bi2.2Sr1.72La0.08Ca1Cu2O8 Bi 2.2 Sr 1.72 La 0.08 Ca 1 Cu 2 O 8 3 2003 Bi2212 K 69.1 69.1 single crystals were grown by TSFZ method. Oxygen content z was controlled by ANN temperature. Vortex phase diagram for extremely underdoped Bi2.2Sr1.72La0.08CaCu2O8+z 2003 "AIST,Tsukuba-shi,Ibaraki,Japan" "Physica C, 383(2003)445" 33766 PHC3830445 ANN(600C). "Bi2(Sr,Bi,La)2CaCu2Oz" Bi2.2Sr1.72La0.08Ca1Cu2O8 Bi 2.2 Sr 1.72 La 0.08 Ca 1 Cu 2 O 8 3 2003 Bi2212 K 78.2 78.2 single crystals were grown by TSFZ method. Oxygen content z was controlled by ANN temperature. Vortex phase diagram for extremely underdoped Bi2.2Sr1.72La0.08CaCu2O8+z 2003 "AIST,Tsukuba-shi,Ibaraki,Japan" "Physica C, 383(2003)445" 33767 PHC3830445 ANN(500C). "Bi2(Sr,Bi,La)2CaCu2Oz" Bi2.2Sr1.72La0.08Ca1Cu2O8 Bi 2.2 Sr 1.72 La 0.08 Ca 1 Cu 2 O 8 3 2003 Bi2212 A 5.422 30.73 K 83.1 83.1 single crystals were grown by TSFZ method. Oxygen content z was controlled by ANN temperature. Vortex phase diagram for extremely underdoped Bi2.2Sr1.72La0.08CaCu2O8+z 2003 "AIST,Tsukuba-shi,Ibaraki,Japan" "Physica C, 383(2003)445" 33768 PHC3830445 ANN(400C). "Bi2(Sr,Bi,La)2CaCu2Oz" Bi2.2Sr1.72La0.08Ca1Cu2O8 Bi 2.2 Sr 1.72 La 0.08 Ca 1 Cu 2 O 8 3 2003 Bi2212 K 84.7 84.7 single crystals were grown by TSFZ method. Oxygen content z was controlled by ANN temperature. Vortex phase diagram for extremely underdoped Bi2.2Sr1.72La0.08CaCu2O8+z 2003 "AIST,Tsukuba-shi,Ibaraki,Japan" "Physica C, 383(2003)445" 33769 PHC3830445 ANN(300C). "Bi2(Sr,Bi,La)2CaCu2Oz" Bi2.2Sr1.72La0.08Ca1Cu2O8 Bi 2.2 Sr 1.72 La 0.08 Ca 1 Cu 2 O 8 3 2003 Bi2212 K 84.1 84.1 single crystals were grown by TSFZ method. Oxygen content z was controlled by ANN temperature. Vortex phase diagram for extremely underdoped Bi2.2Sr1.72La0.08CaCu2O8+z 2003 "AIST,Tsukuba-shi,Ibaraki,Japan" "Physica C, 383(2003)445" 33770 PHC3830445 ANN(250C). "Bi2(Sr,Bi,La)2CaCu2Oz" Bi2.2Sr1.72La0.08Ca1Cu2O8 Bi 2.2 Sr 1.72 La 0.08 Ca 1 Cu 2 O 8 3 2003 Bi2212 K 82.5 82.5 single crystals were grown by TSFZ method. Oxygen content z was controlled by ANN temperature. Vortex phase diagram for extremely underdoped Bi2.2Sr1.72La0.08CaCu2O8+z 2003 "AIST,Tsukuba-shi,Ibaraki,Japan" "Physica C, 383(2003)445" 33771 PHC3830450 g-value for Gd<3+> = 2.05024 "RuSr2(Gd,Ce)2Cu2O10" Ru1Sr2Gd1.4Ce0.6Cu2O10-z Ru 1 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O 10-z 1 2003 Ru1222 A 3.8318 28.5325 K 42 42 "RuO2,Sb2O3,SrCO3,Gd2O3,CeO2,CuO" 1 "mixture-heat(1000C,36h, in air)-heat(1070C,60h, in flowing O2)-slow cool to RT" Transport and magnetic resonance properties of Ru1-xSbxSr2Gd1.4Ce0.6Cu2O10-z 2003 "Structure Research Laboratory, University of Science and Technology of China, Hefei, China" "Physica C, 383(2003)450-456" 33772 PHC3830450 g-value for Gd<3+> =2.02326 "(Ru,Sb)Sr2(Gd,Ce)2Cu2O10" Ru0.99Sb0.01Sr2Gd1.4Ce0.6Cu2O10-z Ru 0.99 Sb 0.01 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O 10-z 1 2003 Ru1222 A 3.8328 28.5472 K 39.1 39.1 "RuO2,Sb2O3,SrCO3,Gd2O3,CeO2,CuO" 1 "mixture-heat(1000C,36h, in air)-heat(1070C,60h, in flowing O2)-slow cool to RT" Transport and magnetic resonance properties of Ru1-xSbxSr2Gd1.4Ce0.6Cu2O10-z 2003 "Structure Research Laboratory, University of Science and Technology of China, Hefei, China" "Physica C, 383(2003)450-456" 33773 PHC3830450 g-value for Gd<3+> =2.02979 "(Ru,Sb)Sr2(Gd,Ce)2Cu2O10" Ru0.98Sb0.02Sr2Gd1.4Ce0.6Cu2O10-z Ru 0.98 Sb 0.02 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O 10-z 1 2003 Ru1222 A 3.834 28.5416 K 33 33 "RuO2,Sb2O3,SrCO3,Gd2O3,CeO2,CuO" 1 "mixture-heat(1000C,36h, in air)-heat(1070C,60h, in flowing O2)-slow cool to RT" Transport and magnetic resonance properties of Ru1-xSbxSr2Gd1.4Ce0.6Cu2O10-z 2003 "Structure Research Laboratory, University of Science and Technology of China, Hefei, China" "Physica C, 383(2003)450-456" 33774 PHC3830450 g-value for Gd<3+> =2.04358 "(Ru,Sb)Sr2(Gd,Ce)2Cu2O10" Ru0.95Sb0.05Sr2Gd1.4Ce0.6Cu2O10-z Ru 0.95 Sb 0.05 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O 10-z 1 2003 Ru1222 A 3.8345 28.5282 K 29 29 "RuO2,Sb2O3,SrCO3,Gd2O3,CeO2,CuO" 1 "mixture-heat(1000C,36h, in air)-heat(1070C,60h, in flowing O2)-slow cool to RT" Transport and magnetic resonance properties of Ru1-xSbxSr2Gd1.4Ce0.6Cu2O10-z 2003 "Structure Research Laboratory, University of Science and Technology of China, Hefei, China" "Physica C, 383(2003)450-456" 33775 PHC3830450 g-value for Gd<3+> =2.01560 "(Ru,Sb)Sr2(Gd,Ce)2Cu2O10" Ru0.93Sb0.07Sr2Gd1.4Ce0.6Cu2O10-z Ru 0.93 Sb 0.07 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O 10-z 1 2003 Ru1222 A 3.837 28.5108 K 17 17 "RuO2,Sb2O3,SrCO3,Gd2O3,CeO2,CuO" 1 "mixture-heat(1000C,36h, in air)-heat(1070C,60h, in flowing O2)-slow cool to RT" Transport and magnetic resonance properties of Ru1-xSbxSr2Gd1.4Ce0.6Cu2O10-z 2003 "Structure Research Laboratory, University of Science and Technology of China, Hefei, China" "Physica C, 383(2003)450-456" 33776 MSE0130215 "ultrasonic, V=2241 m/s, V=3693 m/s." "(Bi,Pb)2AgxSr2Ca2Cu3Oz" Bi1.7Pb0.3Ag0.1Sr2Ca2Cu3Oz Bi 1.7 Pb 0.3 Ag 0.1 Sr 2 Ca 2 Cu 3 O z 1992 4.993 32.4 GPa 60.4 GPa 25.1 GPa 33.9 0.204 m/s 3693 Bi2223 K 105 105 1 "precursor(Sr2Ca2Cu3O7)+(Bi2O3, PbO, Ag) - heat(810C, 24h, in air) - SIN(845C, 10d, in air)" Elastic and plastic behaviour of lead and silver doped Bi-Sr-Ca-Cu-O superconductors 1992 "Department of Physics, Osmania University, Hyderabad, India" "Mater. Sci. Engneering, B13(1992)215-219" 33777 MSE0130215 "ultrasonic, V=2239 m/s, V=3633 m/s." "(Bi,Pb)2AgxSr2Ca2Cu3Oz" Bi1.7Pb0.3Ag0.2Sr2Ca2Cu3Oz Bi 1.7 Pb 0.3 Ag 0.2 Sr 2 Ca 2 Cu 3 O z 1992 4.995 31.33 GPa 59.7 GPa 25 GPa 32.5 0.194 m/s 3633 Bi2223 K 97 97 1 "precursor(Sr2Ca2Cu3O7)+(Bi2O3, PbO, Ag) - heat(810C, 24h, in air) - SIN(845C, 10d, in air)" Elastic and plastic behaviour of lead and silver doped Bi-Sr-Ca-Cu-O superconductors 1992 "Department of Physics, Osmania University, Hyderabad, India" "Mater. Sci. Engneering, B13(1992)215-219" 33778 MSE0130215 "ultrasonic, V=2174 m/s, V=3596 m/s." "(Bi,Pb)2AgxSr2Ca2Cu3Oz" Bi1.7Pb0.3Ag0.3Sr2Ca2Cu3Oz Bi 1.7 Pb 0.3 Ag 0.3 Sr 2 Ca 2 Cu 3 O z 1992 5.003 29 GPa 57.2 GPa 23.6 GPa 33.1 0.212 m/s 3596 Bi2223 K 96 96 1 "precursor(Sr2Ca2Cu3O7)+(Bi2O3, PbO, Ag) - heat(810C, 24h, in air) - SIN(845C, 10d, in air)" Elastic and plastic behaviour of lead and silver doped Bi-Sr-Ca-Cu-O superconductors 1992 "Department of Physics, Osmania University, Hyderabad, India" "Mater. Sci. Engneering, B13(1992)215-219" 33779 MSE0130215 "(Bi,Pb)2AgxSr2Ca2Cu3Oz" Bi1.7Pb0.3Ag0.4Sr2Ca2Cu3Oz Bi 1.7 Pb 0.3 Ag 0.4 Sr 2 Ca 2 Cu 3 O z 1992 27.05 GPa Bi2223 K 106 106 1 "precursor(Sr2Ca2Cu3O7)+(Bi2O3, PbO, Ag) - heat(810C, 24h, in air) - SIN(845C, 10d, in air)" Elastic and plastic behaviour of lead and silver doped Bi-Sr-Ca-Cu-O superconductors 1992 "Department of Physics, Osmania University, Hyderabad, India" "Mater. Sci. Engneering, B13(1992)215-219" 33780 MSE0130215 "ultrasonic, V=2328 m/s, V=3726 m/s." "(Bi,Pb)2Sr2Ca2Cu3Oz" Bi1.7Pb0.3Sr2Ca2Cu3Oz Bi 1.7 Pb 0.3 Sr 2 Ca 2 Cu 3 O z 1992 4.989 36.31 GPa 63.7 GPa 27 GPa 33.2 0.18 m/s 3726 Bi2223 K 1 "precursor(Sr2Ca2Cu3O7)+(Bi2O3, PbO, Ag) - heat(810C, 24h, in air) - SIN(845C, 10d, in air)" Elastic and plastic behaviour of lead and silver doped Bi-Sr-Ca-Cu-O superconductors 1992 "Department of Physics, Osmania University, Hyderabad, India" "Mater. Sci. Engneering, B13(1992)215-219" 33781 PHB1651283 ultrasonic wave velocity. Sr-content not described. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1990 6.22 GPa 124 GPa 50.1 GPa 78.5 0.24 T K 38 38 410 1 standard solid state reaction technique. Ultrasonic investigations of the layered perovskite ceramic superconducting systems 1990 "Tsinghua University, Beijing, P.R.China" "Physica B, 165-166(1990)1283-1284" 33782 PHB1651283 ultrasonic wave velocity YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1990 5.69 GPa 92.2 GPa 38.4 GPa 51.2 0.2 Y123 K 90 90 480 1 standard solid state reaction technique. Ultrasonic investigations of the layered perovskite ceramic superconducting systems 1990 "Tsinghua University, Beijing, P.R.China" "Physica B, 165-166(1990)1283-1284" 33783 PHB1651283 ultrasonic wave velocity Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1990 5.35 GPa 38.8 GPa 16.1 GPa 21.9 0.2 Bi2212 K 74 74 250 1 standard solid state reaction technique. Ultrasonic investigations of the layered perovskite ceramic superconducting systems 1990 "Tsinghua University, Beijing, P.R.China" "Physica B, 165-166(1990)1283-1284" 33784 PHB1651283 ultrasonic wave velocity. Pb-content not described. "(Bi,Pb)2Sr2CaCu2O8" Bi1.7Pb0.3Sr2Ca1Cu2O8 Bi 1.7 Pb 0.3 Sr 2 Ca 1 Cu 2 O 8 1990 5.02 GPa 37.3 GPa 16 GPa 18.6 0.17 Bi2212 K 80 80 270 1 standard solid state reaction technique. Ultrasonic investigations of the layered perovskite ceramic superconducting systems 1990 "Tsinghua University, Beijing, P.R.China" "Physica B, 165-166(1990)1283-1284" 33785 PHB1651283 ultrasonic wave velocity. Pb-content not described. "(Bi,Pb)2Sr2Ca2Cu3O8" Bi1.7Pb0.3Sr2Ca2Cu3O10 Bi 1.7 Pb 0.3 Sr 2 Ca 2 Cu 3 O 10 1990 4.35 GPa 33.7 GPa 14.2 GPa 17.4 0.18 Bi2223 K 108 108 280 1 standard solid state reaction technique. Ultrasonic investigations of the layered perovskite ceramic superconducting systems 1990 "Tsinghua University, Beijing, P.R.China" "Physica B, 165-166(1990)1283-1284" 33786 JPC0019067 "Tc not described. C<11>=86.8 GPa. pressure dependence of C<11>, C<44> were measured. porocity=0.22." GdBa2Cu3O7 Gd1Ba2Cu3O7-z Gd 1 Ba 2 Cu 3 O 7-z 1989 5.549 GPa 29.5 GPa 47.5 0.242 Y123 K "SIN(940C,48h, in O2-flow)-slow cool to RT(20C/h)" The effect of hydrostatic Pressure on the elastic behaviour of GdBa2Cu3O7-x 1989 "School of Physics and Materials Science,University of Bath,Claverton Down,Bath BA27AY,UK" J.Phys.Codens.Matter 1(1989)9067-9076 "Gd, Ba, Cu, O" 33787 JPC0016853 ultrasonic wave velocity was measured at 4.2K. porosity=0.22 GdBa2Cu3O7 Gd1Ba2Cu3O7-z Gd 1 Ba 2 Cu 3 O 7-z 1989 5.549 GPa 64.5 GPa 84.6 Y123 A 3.925 3.863 11.755 K 92 92 426 "SIN(940C,48h, in O2-flow)-cool to RT" An ultrasonic study of superconducting and non-superconducting GdBa2Cu3O7-x 1989 "School of Physics and Materials Science, University of Bath, Claverton Down, Bath BA2 7AY, UK" "J.Phys.C,1(1989)6853-6864" 33788 PMB0590487 ultrasonic wave velocity YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 1989 5.199 GPa 78 GPa 32.7 GPa 42.4 0.194 Y123 A 3.826 3.888 11.677 K 324 "SIN(940C,48h, in O2-flow)-slow cool to RT(20C/h)" "Elastic behaviour under pressure of high-Tc superconductors RBa2Cu3O7-z (R=Y, Gd and Eu)" 1989 "School of Physics and Materials Science, University of Bath, Claverton Down, Bath, UK" "Phil.Mag. , 59(1989)487-497" 33789 PMB0590487 ultrasonic wave velocity YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 1989 5.985 GPa 116 GPa 50.1 GPa 56.4 0.157 Y123 K 414 "SIN(940C,48h, in O2-flow)-slow cool to RT(20C/h)" "Elastic behaviour under pressure of high-Tc superconductors RBa2Cu3O7-z (R=Y, Gd and Eu)" 1989 "School of Physics and Materials Science, University of Bath, Claverton Down, Bath, UK" "Phil.Mag. , 59(1989)487-497" 33790 PMB0590487 ultrasonic wave velocity EuBa2Cu3O7 Eu1Ba2Cu3O7-z Eu 1 Ba 2 Cu 3 O 7-z 1989 4.793 52.6 GPa 21.7 GPa 30.4 0.212 Y123 K 261 "SIN(940C,48h, in O2-flow)-slow cool to RT(20C/h)" "Elastic behaviour under pressure of high-Tc superconductors RBa2Cu3O7-z (R=Y, Gd and Eu)" 1989 "School of Physics and Materials Science, University of Bath, Claverton Down, Bath, UK" "Phil.Mag. , 59(1989)487-497" 33791 PMB0590487 ultrasonic wave velocity GdBa2Cu3O7 Gd1Ba2Cu3O7-z Gd 1 Ba 2 Cu 3 O 7-z 1989 5.549 GPa 73.3 GPa 29.5 GPa 47.7 0.242 Y123 K 297 "SIN(940C,48h, in O2-flow)-slow cool to RT(20C/h)" "Elastic behaviour under pressure of high-Tc superconductors RBa2Cu3O7-z (R=Y, Gd and Eu)" 1989 "School of Physics and Materials Science, University of Bath, Claverton Down, Bath, UK" "Phil.Mag. , 59(1989)487-497" 33792 JMR0111645 tensile stress. compositions show nominal values. Tc not measured. "(Bi,Pb)2Sr2Ca2Cu3Oz" Bi1.84Pb0.34Sr2.03Ca1.9Cu3.06Oz Bi 1.84 Pb 0.34 Sr 2.03 Ca 1.9 Cu 3.06 O z 1996 GPa 123.6 0.169 Bi2223 K MgO-whiskers were mixed by solid state reaction method. "Mechanical behavior of MgO-whisker reinforced (Bi,Pb)2Sr2Ca2Cu3Oy high-temperature superconducting composite" 1996 "University of Houston, Houston,Texas, USA" "J.Mater.Res., 11(1996)1645" 33793 JMR0111645 tensile stress. compositions show nominal values. 10% MgO-whisker. Tc not measured. "(Bi,Pb)2Sr2Ca2Cu3Oz" Bi1.84Pb0.34Sr2.03Ca1.9Cu3.06Oz Bi 1.84 Pb 0.34 Sr 2.03 Ca 1.9 Cu 3.06 O z 1996 GPa 134.4 0.169 Bi2223 K MgO-whiskers were mixed by solid state reaction method. "Mechanical behavior of MgO-whisker reinforced (Bi,Pb)2Sr2Ca2Cu3Oy high-temperature superconducting composite" 1996 "University of Houston, Houston,Texas, USA" "J.Mater.Res., 11(1996)1645" 33794 JMR0111645 tensile stress. compositions show nominal values. 20% MgO-whisker. Tc not measured. "(Bi,Pb)2Sr2Ca2Cu3Oz" Bi1.84Pb0.34Sr2.03Ca1.9Cu3.06Oz Bi 1.84 Pb 0.34 Sr 2.03 Ca 1.9 Cu 3.06 O z 1996 GPa 135.6 0.188 Bi2223 K MgO-whiskers were mixed by solid state reaction method. "Mechanical behavior of MgO-whisker reinforced (Bi,Pb)2Sr2Ca2Cu3Oy high-temperature superconducting composite" 1996 "University of Houston, Houston,Texas, USA" "J.Mater.Res., 11(1996)1645" 33795 SST0080101 "porosity = p1. sound velocity V=2990, V=1850 m/s." "(Bi,Pb)2Sr2CaCu2O8" Bi1.7Pb0.3Sr2Ca1Cu2O8 Bi 1.7 Pb 0.3 Sr 2 Ca 1 Cu 2 O 8 1995 4.65 GPa 41.57 GPa 15.91 m/s 2990 Bi2212 A 5.41 5.42 30.68 K 81 81 "mixture - CAL(800C,24h + 820C,50h) - press(various pressure) - SIN(840C,100h)" The relationship between the porosity and elastic moduli of the Bi-Pb-2212 high-Tc superconductor 1995 "Department of Physics,Osmania University,Hyderabad,India" "Supercond.Sci.Technol., 8(1995)101-107" 33796 SST0080101 "porosity = p2. sound velocity V=2800, V=1780 m/s." "(Bi,Pb)2Sr2CaCu2O8" Bi1.7Pb0.3Sr2Ca1Cu2O8 Bi 1.7 Pb 0.3 Sr 2 Ca 1 Cu 2 O 8 1995 4.5 GPa 35.28 GPa 13.78 m/s 2800 Bi2212 K 80 80 "mixture - CAL(800C,24h + 820C,50h) - press(various pressure) - SIN(840C,100h)" The relationship between the porosity and elastic moduli of the Bi-Pb-2212 high-Tc superconductor 1995 "Department of Physics,Osmania University,Hyderabad,India" "Supercond.Sci.Technol., 8(1995)101-107" 33797 SST0080101 "porosity = p3. sound velocity V=2750, V=1725 m/s." "(Bi,Pb)2Sr2CaCu2O8" Bi1.7Pb0.3Sr2Ca1Cu2O8 Bi 1.7 Pb 0.3 Sr 2 Ca 1 Cu 2 O 8 1995 4.46 GPa 33.72 GPa 13.27 m/s 2750 Bi2212 K 81 81 "mixture - CAL(800C,24h + 820C,50h) - press(various pressure) - SIN(840C,100h)" The relationship between the porosity and elastic moduli of the Bi-Pb-2212 high-Tc superconductor 1995 "Department of Physics,Osmania University,Hyderabad,India" "Supercond.Sci.Technol., 8(1995)101-107" 33798 SST0060484 "highly textured sample. ultrasound velocity. along c, G=19GPa elastic=44GPa. along ab, elastic modulus=118 GPa." Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+z Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 1993 6.208 GPa 19 Bi2212 K Bi2212 powder samples were sinter forging in air at 840C Anisotropic elastic and nonlinear acoustic properties of very dense textured Bi2Sr2CaCu2O8+y 1993 "School of Physics and Materials Science, University of Bath, Claverton Down, Bath, UK" "Supercond.Sci.Technol., 6(1993)484-489" 33799 PHC3840075 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4+z La 1.85 Sr 0.15 Cu 1 O 4+z 2003 T A 3.7743 13.227 K 37.9 37.9 "La2O3,SrCO3,CuO,V2O5" 1 "mixture - CAL(900C,24h,in air) - pellet - heat(960C,72h) - cool to RT(30C/h)" The properties of V-substituted La1.85Sr0.15CuO4+z superconductor 2003 "National Lab for Superconductivity, Institute of Physics, Chinese Academy of Science, Beijing,China" "Physica C, 384(2003)75-80" 33800 PHC3840075 "(La,Sr)2(Cu,V)O4" La1.85Sr0.15Cu0.995V0.005O4+z La 1.85 Sr 0.15 Cu 0.995 V 0.005 O 4+z 2003 T A 3.7757 13.2244 K 36.9 36.9 "La2O3,SrCO3,CuO,V2O5" 1 "mixture - CAL(900C,24h,in air) - pellet - heat(960C,72h) - cool to RT(30C/h)" The properties of V-substituted La1.85Sr0.15CuO4+z superconductor 2003 "National Lab for Superconductivity, Institute of Physics, Chinese Academy of Science, Beijing,China" "Physica C, 384(2003)75-80" 33801 PHC3840075 "(La,Sr)2(Cu,V)O4" La1.85Sr0.15Cu0.9875V0.0125O4+z La 1.85 Sr 0.15 Cu 0.9875 V 0.0125 O 4+z 2003 T A 3.7764 13.2188 K 35.9 35.9 "La2O3,SrCO3,CuO,V2O5" 1 "mixture - CAL(900C,24h,in air) - pellet - heat(960C,72h) - cool to RT(30C/h)" The properties of V-substituted La1.85Sr0.15CuO4+z superconductor 2003 "National Lab for Superconductivity, Institute of Physics, Chinese Academy of Science, Beijing,China" "Physica C, 384(2003)75-80" 33802 PHC3840075 "(La,Sr)2(Cu,V)O4" La1.85Sr0.15Cu0.9825V0.0175O4+z La 1.85 Sr 0.15 Cu 0.9825 V 0.0175 O 4+z 2003 T A 3.7764 13.2163 K 35 35 "La2O3,SrCO3,CuO,V2O5" 1 "mixture - CAL(900C,24h,in air) - pellet - heat(960C,72h) - cool to RT(30C/h)" The properties of V-substituted La1.85Sr0.15CuO4+z superconductor 2003 "National Lab for Superconductivity, Institute of Physics, Chinese Academy of Science, Beijing,China" "Physica C, 384(2003)75-80" 33803 PHC3840075 "(La,Sr)2(Cu,V)O4" La1.85Sr0.15Cu0.98V0.02O4+z La 1.85 Sr 0.15 Cu 0.98 V 0.02 O 4+z 2003 T A 3.7782 13.2142 K 30.9 30.9 "La2O3,SrCO3,CuO,V2O5" 1 "mixture - CAL(900C,24h,in air) - pellet - heat(960C,72h) - cool to RT(30C/h)" The properties of V-substituted La1.85Sr0.15CuO4+z superconductor 2003 "National Lab for Superconductivity, Institute of Physics, Chinese Academy of Science, Beijing,China" "Physica C, 384(2003)75-80" 33804 PHC3840075 "(La,Sr)2(Cu,V)O4" La1.85Sr0.15Cu0.975V0.025O4+z La 1.85 Sr 0.15 Cu 0.975 V 0.025 O 4+z 2003 T A 3.7791 13.2125 K 29.9 29.9 "La2O3,SrCO3,CuO,V2O5" 1 "mixture - CAL(900C,24h,in air) - pellet - heat(960C,72h) - cool to RT(30C/h)" The properties of V-substituted La1.85Sr0.15CuO4+z superconductor 2003 "National Lab for Superconductivity, Institute of Physics, Chinese Academy of Science, Beijing,China" "Physica C, 384(2003)75-80" 33805 PHC3840075 "(La,Sr)2(Cu,V)O4" La1.85Sr0.15Cu0.95V0.05O4+z La 1.85 Sr 0.15 Cu 0.95 V 0.05 O 4+z 2003 T A 3.7843 13.1981 K 28 28 "La2O3,SrCO3,CuO,V2O5" 1 "mixture - CAL(900C,24h,in air) - pellet - heat(960C,72h) - cool to RT(30C/h)" The properties of V-substituted La1.85Sr0.15CuO4+z superconductor 2003 "National Lab for Superconductivity, Institute of Physics, Chinese Academy of Science, Beijing,China" "Physica C, 384(2003)75-80" 33806 PHC3840075 "(La,Sr)2(Cu,V)O4" La1.85Sr0.15Cu0.925V0.075O4+z La 1.85 Sr 0.15 Cu 0.925 V 0.075 O 4+z 2003 T A 3.7839 13.1943 K 23.9 23.9 "La2O3,SrCO3,CuO,V2O5" 1 "mixture - CAL(900C,24h,in air) - pellet - heat(960C,72h) - cool to RT(30C/h)" The properties of V-substituted La1.85Sr0.15CuO4+z superconductor 2003 "National Lab for Superconductivity, Institute of Physics, Chinese Academy of Science, Beijing,China" "Physica C, 384(2003)75-80" 33807 PHC3840075 "(La,Sr)2(Cu,V)O4" La1.85Sr0.15Cu0.9V0.1O4+z La 1.85 Sr 0.15 Cu 0.9 V 0.1 O 4+z 2003 T A 3.7868 13.1887 K 15 15 "La2O3,SrCO3,CuO,V2O5" 1 "mixture - CAL(900C,24h,in air) - pellet - heat(960C,72h) - cool to RT(30C/h)" The properties of V-substituted La1.85Sr0.15CuO4+z superconductor 2003 "National Lab for Superconductivity, Institute of Physics, Chinese Academy of Science, Beijing,China" "Physica C, 384(2003)75-80" 33808 PHC3840075 "(La,Sr)2(Cu,V)O4" La1.85Sr0.15Cu0.875V0.125O4+z La 1.85 Sr 0.15 Cu 0.875 V 0.125 O 4+z 2003 T A 3.7932 13.18 K 9.11 9.11 "La2O3,SrCO3,CuO,V2O5" 1 "mixture - CAL(900C,24h,in air) - pellet - heat(960C,72h) - cool to RT(30C/h)" The properties of V-substituted La1.85Sr0.15CuO4+z superconductor 2003 "National Lab for Superconductivity, Institute of Physics, Chinese Academy of Science, Beijing,China" "Physica C, 384(2003)75-80" 33809 PHC3840075 Tc=0 K. This sample is s/c critical concentration in this system. "(La,Sr)2(Cu,V)O4" La1.85Sr0.15Cu0.85V0.15O4+z La 1.85 Sr 0.15 Cu 0.85 V 0.15 O 4+z 2003 T A 3.793 13.1943 K 0 0 "La2O3,SrCO3,CuO,V2O5" 1 "mixture - CAL(900C,24h,in air) - pellet - heat(960C,72h) - cool to RT(30C/h)" The properties of V-substituted La1.85Sr0.15CuO4+z superconductor 2003 "National Lab for Superconductivity, Institute of Physics, Chinese Academy of Science, Beijing,China" "Physica C, 384(2003)75-80" 33810 PHC3840102 average grain size = 1.44 micron-m. resistive transition under pressure. "(Tl,Pb)(Ba,Sr)2Ca2Cu3Oz" Tl0.5Pb0.5Ba1.6Sr0.4Ca2Cu3Oz Tl 0.5 Pb 0.5 Ba 1.6 Sr 0.4 Ca 2 Cu 3 O z 1 2003 Tl1223 K 120.2 120.2 K/kbar 0.22 standard solid state reaction . Pressure effects on the intergrain coupling in (Tl0.5Pb0.5)(Ba0.8Sr0.2)2Ca2Cu3Oy ceramic superconductor 2003 "Universidade Fedral Fluminense,Niteroi,RJ,Brazil" "Physica C, 384(2003)102-110" 33811 PHC3840237 "(La,Sr)2CuO4" La1.7Sr0.3Cu1O3.997 La 1.7 Sr 0.3 Cu 1 O 4 3.997 1 2003 T K 10.2 10.2 W/m.K 7.48 THC33811 uV/K 1.18 TP33811 mOhm.cm 0.24 0.78 E-10 m3/C 0.98 RH33811 "mixture - CAL(950C,24h,in air) - pellet - SIN(100C,60h) - SIN(1050C,72h,in air)" Thermomagnetic properties of the overdoped La1.7Sr0.3CuO4 superconductor 2003 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, Wroclaw,Poland" "Physica C, 384(2003)237-246" 33812 MLT0160165 X-ray density=6.171. longitudinal modulus=56.2 GPa. elastic constant at 5 K. YBa2Cu3Oz Y1Ba2Cu3O6.2 Y 1 Ba 2 Cu 3 O 7-z 6.2 1 1993 4.433 GPa 51.2 GPa 21.51 GPa 27.5 0.19 Y123 A 3.8606 3.8664 11.7827 K 337 calculated from elastic constant 1 standard solid state reaction. oxygen content controlled by ANN. Elastic constants and Debye temperature of Y1Ba2Cu3Ox: effect of oxygen content 1993 "NIST, Boulder, CO, USA" "Materials Lett., 16(1993)165-168" 33813 MLT0160165 X-ray density=6.304. longitudinal modulus=62.8 GPa. elastic constant at 5 K. YBa2Cu3Oz Y1Ba2Cu3O6.7 Y 1 Ba 2 Cu 3 O 7-z 6.7 1 1993 4.523 GPa 56.6 GPa 23.59 GPa 31.3 0.199 Y123 A 3.8286 3.8868 11.6984 K 356 calculated from elastic constant 1 standard solid state reaction. oxygen content controlled by ANN. Elastic constants and Debye temperature of Y1Ba2Cu3Ox: effect of oxygen content 1993 "NIST, Boulder, CO, USA" "Materials Lett., 16(1993)165-168" 33814 MLT0160165 X-ray density=6.339. longitudinal modulus=63.8 GPa. elastic constant at 5 K. YBa2Cu3Oz Y1Ba2Cu3O6.8 Y 1 Ba 2 Cu 3 O 7-z 6.8 1 1993 4.528 GPa 57.8 GPa 24.16 GPa 31.6 0.196 Y123 A 3.825 3.8957 11.6587 K 362 calculated from elastic constant 1 standard solid state reaction. oxygen content controlled by ANN. Elastic constants and Debye temperature of Y1Ba2Cu3Ox: effect of oxygen content 1993 "NIST, Boulder, CO, USA" "Materials Lett., 16(1993)165-168" 33815 MLT0160165 X-ray density=6.363. longitudinal modulus=62.7 GPa. elastic constant at 5 K. YBa2Cu3Oz Y1Ba2Cu3O6.9 Y 1 Ba 2 Cu 3 O 7-z 6.9 1 1993 4.553 GPa 57.4 GPa 24.23 GPa 30.4 0.185 Y123 A 3.8228 3.8926 11.6598 K 361 calculated from elastic constant 1 standard solid state reaction. oxygen content controlled by ANN. Elastic constants and Debye temperature of Y1Ba2Cu3Ox: effect of oxygen content 1993 "NIST, Boulder, CO, USA" "Materials Lett., 16(1993)165-168" 33816 MPL0071457 "porosity=0.211. For zero porosity, E=143.2, G=58.6, B=89.8 GPa, p=0.224" YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 1993 5.15 GPa 85.5 GPa 34.2 GPa 57 Y123 K 83 83 331.9 calculated from elastic constant "sol-gel method. CAL(550C)-heat(920C,8h,in air)-SIN(945-950C,8h)-ANN(500-550C,20h,in O2)" Ultrasonic anomalies in Y-Ba-Cu-O high-Tc superconducting materials 1993 "Department of Physics,Osmania University,Hyderabad,India" "Mod.Phys.Lett. B, 7(1993)1457-1465" 33817 MPL0071457 "porosity=0.165. For zero porosity, E=134, G=57.14, B=70.28 GPa, p=0.172" YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 1993 5.45 GPa 92.2 GPa 38.13 GPa 50.9 Y123 K 83 83 345.7 calculated from elastic constant "sol-gel method. CAL(550C)-heat(920C,8h,in air)-SIN(945-950C,8h)-ANN(500-550C,20h,in O2)" Ultrasonic anomalies in Y-Ba-Cu-O high-Tc superconducting materials 1993 "Department of Physics,Osmania University,Hyderabad,India" "Mod.Phys.Lett. B, 7(1993)1457-1465" 33818 SST0050529 ultrasound velocity were measured for various T and pressure. density=96% of d YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 1 1992 6.07 GPa 108.9 GPa 46.1 GPa 47.4 Y123 K 89 92 92 92 1 standard solid state reaction. Correlation between anomalous elastic behaviour under pressure and with temperature near 220K in YBa2Cu3O7-x 1992 "School of Physics and Materials Science, University of Bath, Claverton Down, Bath, UK" "Supercond.Sci.Technol., 5(1992)529-533" 33819 MLT0210021 "d=6.632 g/cm3. porosity=38.17. For zero porosity, E=91.5, G=41.6, B=38.1 GPa, P=0.1" YBa2Cu3O7 Y1Ba2Cu3O6.957 Y 1 Ba 2 Cu 3 O 7-z 6.957 1 1994 4.1 GPa 31.15 GPa 8.62 0.3 Y123 A 3.823 3.885 11.676 K 91 102 91 371 calculated from elastic constant 1 standard solid state reaction. Elasticity studies of RE-Ba-Cu-O high-Tc superconductors 1994 "Department of Physics,Osmania University,Hyderabad,India" "Materials Lett., 21(1994)21-29" 33820 MLT0210021 "d=6.718 g/cm3. porosity=22.70. For zero porosity, E=91.79, G=35.28, B=76.8 GPa, P=0.3" SmBa2Cu3O7 Sm1Ba2Cu3O6.858 Sm 1 Ba 2 Cu 3 O 7-z 6.858 1 1994 5.19 GPa 52 GPa 20 0.3 Y123 A 3.856 3.899 11.69 K 90 98 90 336 calculated from elastic constant 1 standard solid state reaction. Elasticity studies of RE-Ba-Cu-O high-Tc superconductors 1994 "Department of Physics,Osmania University,Hyderabad,India" "Materials Lett., 21(1994)21-29" 33821 MLT0210021 "d=7.014 g/cm3. porosity=17.30. For zero porosity, E=102.3, G=39.89, B=78.2 GPa, P=0.28" GdBa2Cu3O7 Gd1Ba2Cu3O6.758 Gd 1 Ba 2 Cu 3 O 7-z 6.758 1 1994 5.8 GPa 68.2 GPa 26.6 0.28 Y123 A 3.832 3.887 11.704 K 92 103 92 349 calculated from elastic constant 1 standard solid state reaction. Elasticity studies of RE-Ba-Cu-O high-Tc superconductors 1994 "Department of Physics,Osmania University,Hyderabad,India" "Materials Lett., 21(1994)21-29" 33822 MLT0210021 "d=7.042 g/cm3. porosity=24.80. For zero porosity, E=106.44, G=41.61, B=80.3 GPa, P=0.27" TbBa2Cu3O7 Tb1Ba2Cu3O6.383 Tb 1 Ba 2 Cu 3 O 7-z 6.383 1 1994 5.29 GPa 56.1 GPa 21.7 0.29 Y123 A 3.816 3.87 11.757 K 317 calculated from elastic constant 1 standard solid state reaction. Elasticity studies of RE-Ba-Cu-O high-Tc superconductors 1994 "Department of Physics,Osmania University,Hyderabad,India" "Materials Lett., 21(1994)21-29" 33823 MLT0210021 "d=7.019 g/cm3. porosity=25.90. For zero porosity, E=95.51, G=38.41, B=61.5, P=0.24" DyBa2Cu3O7 Dy1Ba2Cu3O6.879 Dy 1 Ba 2 Cu 3 O 7-z 6.879 1 1994 5.2 GPa 48.2 GPa 18.9 0.27 Y123 A 3.853 3.898 11.653 K 86 94 86 345 calculated from elastic constant 1 standard solid state reaction. Elasticity studies of RE-Ba-Cu-O high-Tc superconductors 1994 "Department of Physics,Osmania University,Hyderabad,India" "Materials Lett., 21(1994)21-29" 33824 MLT0210021 "d=7.069 g/cm3. porosity=18.70. For zero porosity, E=75.95, G=29.98, B=54.2, P=0.26" TmBa2Cu3O7 Tm1Ba2Cu3O6.71 Tm 1 Ba 2 Cu 3 O 7-z 6.71 1 1994 5.75 GPa 48.5 GPa 19.1 0.27 Y123 A 3.831 3.888 11.768 K 78 85 78 301 calculated from elastic constant 1 standard solid state reaction. Elasticity studies of RE-Ba-Cu-O high-Tc superconductors 1994 "Department of Physics,Osmania University,Hyderabad,India" "Materials Lett., 21(1994)21-29" 33825 PR04210098 "Neel-T by susceptibility. Three magnetic phases(T=100K,50K,23K) were observed." Nd2CuO4 Nd2Cu1O4 Nd 2 Cu 1 O 4 3 1990 255 T' A 3.941 12.16 K 4 self-flux method THREE-DEMENSIONAL MAGNETIC STRUCTURES AND RARE-EARTH MAGNETICORDERING IN ND2CUO4 AND PR2CUO4 1990 12 "MAGNETISM ,NEUTRON-SCATTERING ,ANTIFERROMAGNETIC ,PHASE TRANSITIONS" "DEPARTMENT OF PHYSICS, TOHOKU UNIBERSITY, AOBA-KU, SENDAI 980,JAPAN" "PHYS.REV.B,42(1990)10098" "PR,ND,CU,O" 33826 PR04210098 Neel-T by susceptibility. Pr2CuO4 Pr2Cu1O4 Pr 2 Cu 1 O 4 3 1990 255 T' A 3.962 12.21 K 4 self-flux method THREE-DEMENSIONAL MAGNETIC STRUCTURES AND RARE-EARTH MAGNETICORDERING IN ND2CUO4 AND PR2CUO4 1990 12 "MAGNETISM ,NEUTRON-SCATTERING ,ANTIFERROMAGNETIC ,PHASE TRANSITIONS" "DEPARTMENT OF PHYSICS, TOHOKU UNIBERSITY, AOBA-KU, SENDAI 980,JAPAN" "PHYS.REV.B,42(1990)10098" "PR,ND,CU,O" 33827 PHC3780273 Neel-T(as-grown)=180 K. "(Nd,Ce)2CuO4" Nd1.9Ce0.1Cu1O4 Nd 1.9 Ce 0.1 Cu 1 O 4 3 2002 164.4 T' K "single crystals were grown by TSFZ method. reduced (920C, 12h, in Ar flow)" Electron-doping effect on magnetic order and superconductivity in Nd2-xCexCuO4 single crystals 2002 "Kyoto University, Uji,Kyoto,Japan" "Physica C, 378-381(2002)273-277" 33828 PHC3780273 "(Nd,Ce)2CuO4" Nd1.88Ce0.12Cu1O4 Nd 1.88 Ce 0.12 Cu 1 O 4 3 2002 129.8 T' K "single crystals were grown by TSFZ method. reduced (920C, 12h, in Ar flow)" Electron-doping effect on magnetic order and superconductivity in Nd2-xCexCuO4 single crystals 2002 "Kyoto University, Uji,Kyoto,Japan" "Physica C, 378-381(2002)273-277" 33829 PHC3780273 dz=z(as-grown)-z(reduced) = 0.018 "(Nd,Ce)2CuO4" Nd1.87Ce0.13Cu1O4 Nd 1.87 Ce 0.13 Cu 1 O 4 3 2002 99.5 T' K "single crystals were grown by TSFZ method. reduced (920C, 12h, in Ar flow)" Electron-doping effect on magnetic order and superconductivity in Nd2-xCexCuO4 single crystals 2002 "Kyoto University, Uji,Kyoto,Japan" "Physica C, 378-381(2002)273-277" 33830 PHC3780273 "(Nd,Ce)2CuO4" Nd1.86Ce0.14Cu1O4 Nd 1.86 Ce 0.14 Cu 1 O 4 3 2002 90 T' K 22.9 22.9 "single crystals were grown by TSFZ method. reduced (920C, 12h, in Ar flow)" Electron-doping effect on magnetic order and superconductivity in Nd2-xCexCuO4 single crystals 2002 "Kyoto University, Uji,Kyoto,Japan" "Physica C, 378-381(2002)273-277" 33831 PHC3780273 dz=z(as-grown)-z(reduced) = 0.02. Neel-T(as-grown)=124.6 K. "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 3 2002 58.5 T' K 24.3 24.3 "single crystals were grown by TSFZ method. reduced (920C, 12h, in Ar flow)" Electron-doping effect on magnetic order and superconductivity in Nd2-xCexCuO4 single crystals 2002 "Kyoto University, Uji,Kyoto,Japan" "Physica C, 378-381(2002)273-277" 33832 PHC3780273 Neel-T(as-grown)=119.4 K. "(Nd,Ce)2CuO4" Nd1.84Ce0.16Cu1O4 Nd 1.84 Ce 0.16 Cu 1 O 4 3 2002 34.6 T' K 22.6 22.6 "single crystals were grown by TSFZ method. reduced (920C, 12h, in Ar flow)" Electron-doping effect on magnetic order and superconductivity in Nd2-xCexCuO4 single crystals 2002 "Kyoto University, Uji,Kyoto,Japan" "Physica C, 378-381(2002)273-277" 33833 PHC3780273 dz=z(as-grown)-z(reduced) = 0.0207. Neel-T(as-grown)=83.9 K. "(Nd,Ce)2CuO4" Nd1.83Ce0.17Cu1O4 Nd 1.83 Ce 0.17 Cu 1 O 4 3 2002 T' K 15.7 15.7 "single crystals were grown by TSFZ method. reduced (920C, 12h, in Ar flow)" Electron-doping effect on magnetic order and superconductivity in Nd2-xCexCuO4 single crystals 2002 "Kyoto University, Uji,Kyoto,Japan" "Physica C, 378-381(2002)273-277" 33834 P067014514 Neel-T from muon-SR "(Pr,La,Ce)2CuO4" Pr0.91La1Ce0.09Cu1O4 Pr 0.91 La 1 Ce 0.09 Cu 1 O 4 3 2003 59.5 T' K 25.2 25.2 See J.Phys.Soc.Jpn 71(2002)910. Magnetic and superconducting phase diagram of electron-doped Pr1-xLaCexCuO4 2003 "Institute for Chemical Research,Kyoto University, Uji,Kyoto,Japan" "Phys.Rev.B, 67(2003)014514" 33835 P067014514 Neel-T from muon-SR "(Pr,La,Ce)2CuO4" Pr0.89La1Ce0.11Cu1O4 Pr 0.89 La 1 Ce 0.11 Cu 1 O 4 3 2003 39 T' K 24.6 24.6 See J.Phys.Soc.Jpn 71(2002)910. Magnetic and superconducting phase diagram of electron-doped Pr1-xLaCexCuO4 2003 "Institute for Chemical Research,Kyoto University, Uji,Kyoto,Japan" "Phys.Rev.B, 67(2003)014514" 33836 P067014514 oxygen reduction dz is about 0.03. "(Pr,La,Ce)2CuO4" Pr0.85La1Ce0.15Cu1O4 Pr 0.85 La 1 Ce 0.15 Cu 1 O 4 3 2003 T' K 24 24 See J.Phys.Soc.Jpn 71(2002)910. Magnetic and superconducting phase diagram of electron-doped Pr1-xLaCexCuO4 2003 "Institute for Chemical Research,Kyoto University, Uji,Kyoto,Japan" "Phys.Rev.B, 67(2003)014514" 33837 P067014514 oxygen reduction dz is about 0.03. "(Pr,La,Ce)2CuO4" Pr0.83La1Ce0.17Cu1O4 Pr 0.83 La 1 Ce 0.17 Cu 1 O 4 3 2003 T' K 19.8 19.8 See J.Phys.Soc.Jpn 71(2002)910. Magnetic and superconducting phase diagram of electron-doped Pr1-xLaCexCuO4 2003 "Institute for Chemical Research,Kyoto University, Uji,Kyoto,Japan" "Phys.Rev.B, 67(2003)014514" 33838 P067014514 oxygen reduction dz is about 0.03. "(Pr,La,Ce)2CuO4" Pr0.82La1Ce0.18Cu1O4 Pr 0.82 La 1 Ce 0.18 Cu 1 O 4 3 2003 T' K 16.2 16.2 See J.Phys.Soc.Jpn 71(2002)910. Magnetic and superconducting phase diagram of electron-doped Pr1-xLaCexCuO4 2003 "Institute for Chemical Research,Kyoto University, Uji,Kyoto,Japan" "Phys.Rev.B, 67(2003)014514" 33839 P067014514 oxygen reduction dz is about 0.03. "(Pr,La,Ce)2CuO4" Pr0.8La1Ce0.2Cu1O4 Pr 0.8 La 1 Ce 0.2 Cu 1 O 4 3 2003 T' K 15.6 15.6 See J.Phys.Soc.Jpn 71(2002)910. Magnetic and superconducting phase diagram of electron-doped Pr1-xLaCexCuO4 2003 "Institute for Chemical Research,Kyoto University, Uji,Kyoto,Japan" "Phys.Rev.B, 67(2003)014514" 33840 P067014514 Neel-T from muon-SR "(Pr,La,Ce)2CuO4" Pr0.96La1Ce0.04Cu1O4 Pr 0.96 La 1 Ce 0.04 Cu 1 O 4 1 2003 149 T' K 2 "Pr6O11,La2O3,CeO2,CuO" "mixture-heat(1040C,24h) - pellet - SIN(1200C,12h) - ANN(900-950C,10h,in Ar flow)" Magnetic and superconducting phase diagram of electron-doped Pr1-xLaCexCuO4 2003 "Institute for Chemical Research,Kyoto University, Uji,Kyoto,Japan" "Phys.Rev.B, 67(2003)014514" 33841 P067014514 Neel-T from muon-SR "(Pr,La,Ce)2CuO4" Pr0.94La1Ce0.06Cu1O4 Pr 0.94 La 1 Ce 0.06 Cu 1 O 4 1 2003 138.7 T' K 2 "Pr6O11,La2O3,CeO2,CuO" "mixture-heat(1040C,24h) - pellet - SIN(1200C,12h) - ANN(900-950C,10h,in Ar flow)" Magnetic and superconducting phase diagram of electron-doped Pr1-xLaCexCuO4 2003 "Institute for Chemical Research,Kyoto University, Uji,Kyoto,Japan" "Phys.Rev.B, 67(2003)014514" 33842 P067014514 Neel-T from muon-SR "(Pr,La,Ce)2CuO4" Pr0.92La1Ce0.08Cu1O4 Pr 0.92 La 1 Ce 0.08 Cu 1 O 4 3 2003 138.7 T' K 2 See J.Phys.Soc.Jpn 71(2002)910. Magnetic and superconducting phase diagram of electron-doped Pr1-xLaCexCuO4 2003 "Institute for Chemical Research,Kyoto University, Uji,Kyoto,Japan" "Phys.Rev.B, 67(2003)014514" 33843 P067024505 Figure shows Tc(x). plasmon study by EELS. "(Ba,K)BiO3" Ba0.61K0.39Bi1O3 Ba 0.61 K 0.39 Bi 1 O 3 3 2003 BKBO K 31.5 31.5 TC33843 electrochemical growth method Evidence of a small exciton in the Ba1-xKxBiO3 superconductor and its relationship with superconductivity 2003 "Northwestern University,Evanston,Illinois,USA" "Phys.Rev.B, 67(2003)024505" 33844 PHC3850373 Mossbauer of Fe measured "(Y,Pr)Ba2(Cu,Fe)4O8" Y0.8Pr0.2Ba2Cu4O8 Y 0.8 Pr 0.2 Ba 2 Cu 4 O 8 2003 Y124 A 3.8488 3.8771 27.2354 K 62 62 "precursor(Y0.8Pr0.2Ba2Cu4O8) + Fe2O3, then heat(790C,20h, in O2 flow) - slow cool to RT (0.5C/min)." Effect of Fe substitution in the structure and superconducting properties of the (Y0.8Pr0.2)Ba2Cu4-xFexO8 system 2003 "Circuito Exterior,C.U.UNAM,Apdo,Mexico,Mexico" "Physica C, 385(2003)373-382" 33845 PHC3850373 Mossbauer of Fe measured "(Y,Pr)Ba2(Cu,Fe)4O8" Y0.8Pr0.2Ba2Cu3.975Fe0.025O8 Y 0.8 Pr 0.2 Ba 2 Cu 3.975 Fe 0.025 O 8 2003 Y124 A 3.8485 3.8788 27.2247 K 46 46 "precursor(Y0.8Pr0.2Ba2Cu4O8) + Fe2O3, then heat(790C,20h, in O2 flow) - slow cool to RT (0.5C/min)." Effect of Fe substitution in the structure and superconducting properties of the (Y0.8Pr0.2)Ba2Cu4-xFexO8 system 2003 "Circuito Exterior,C.U.UNAM,Apdo,Mexico,Mexico" "Physica C, 385(2003)373-382" 33846 PHC3850373 Mossbauer of Fe measured "(Y,Pr)Ba2(Cu,Fe)4O8" Y0.8Pr0.2Ba2Cu3.95Fe0.05O8 Y 0.8 Pr 0.2 Ba 2 Cu 3.95 Fe 0.05 O 8 2003 Y124 A 3.8496 3.8799 27.2139 K 33 33 "precursor(Y0.8Pr0.2Ba2Cu4O8) + Fe2O3, then heat(790C,20h, in O2 flow) - slow cool to RT (0.5C/min)." Effect of Fe substitution in the structure and superconducting properties of the (Y0.8Pr0.2)Ba2Cu4-xFexO8 system 2003 "Circuito Exterior,C.U.UNAM,Apdo,Mexico,Mexico" "Physica C, 385(2003)373-382" 33847 PHC3850373 Mossbauer of Fe measured "(Y,Pr)Ba2(Cu,Fe)4O8" Y0.8Pr0.2Ba2Cu3.925Fe0.075O8 Y 0.8 Pr 0.2 Ba 2 Cu 3.925 Fe 0.075 O 8 2003 Y124 A 3.8471 3.8782 27.204 K 10 10 "precursor(Y0.8Pr0.2Ba2Cu4O8) + Fe2O3, then heat(790C,20h, in O2 flow) - slow cool to RT (0.5C/min)." Effect of Fe substitution in the structure and superconducting properties of the (Y0.8Pr0.2)Ba2Cu4-xFexO8 system 2003 "Circuito Exterior,C.U.UNAM,Apdo,Mexico,Mexico" "Physica C, 385(2003)373-382" 33848 PHC3850373 Mossbauer of Fe measured "(Y,Pr)Ba2(Cu,Fe)4O8" Y0.8Pr0.2Ba2Cu3.9Fe0.1O8 Y 0.8 Pr 0.2 Ba 2 Cu 3.9 Fe 0.1 O 8 2003 Y124 A 3.8493 3.8796 27.2081 K 4 "precursor(Y0.8Pr0.2Ba2Cu4O8) + Fe2O3, then heat(790C,20h, in O2 flow) - slow cool to RT (0.5C/min)." Effect of Fe substitution in the structure and superconducting properties of the (Y0.8Pr0.2)Ba2Cu4-xFexO8 system 2003 "Circuito Exterior,C.U.UNAM,Apdo,Mexico,Mexico" "Physica C, 385(2003)373-382" 33849 SSC1230017 s/c properties were obtained from Hao & Clem analysis. cohere//c estimated from anisotropy factor.G-L = 25.3. anisotropy=9.3. npenet estimated from anisotropy. "(Sr,La)CuO2" Sr0.9La0.1Cu1O2 Sr 0.9 La 0.1 Cu 1 O 2 2002 IL K 43 43 T Hao & Clem analysis from M 13.9 T/K Hao & Clem analysis from M 0.47 A Hao & Clem analysis from M 48.6 5.2 A Hao & Clem analysis from M 1470 pure phase synthesized by using cubic multi-anvil press. Three-dimensional superconductivity in the infinite-layer compound Sr0.9La0.1CuO2 in entire region below Tc 2002 "Department of Physics, National Creative Research Initiative Center for Superconductivity, Pohang University of Science and Technology, Pohang, South Korea" "Solid State Commun., 123(2002)17" 33850 MRB0361505 particle size = a few micron.m. new synthesis procedure. good homogeneity. "(Ba,K)BiO3" Ba0.6K0.4O3 Ba 0.6 K 0.4 O 3 2001 BKBO K 30.8 30.8 (KOH pellet in Teflon crucible) - heat(200-260C) - added mixture(Ba(OH)2.8H2O + NaBiO3 + Bi2O3) Synthesis of superconducting Ba1-xKxBiO3 by a modified molten salt process 2001 "Leiden University,Leiden, The Netherland" "Mater.Res.Bull., 36(2001)1505" 33851 MRB0360971 YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 2001 Y123 A 3.8171 3.8822 11.6734 K 86.5 86.5 uV/K 7.974 TP33851 mOhm.cm 9.24 1 "SIN(940C,42h,in air) - FC to RT" Thermoelectric power of samarium substituted Y1-xSmxBa2Cu3O7-z superconducting pellets 2001 "High Temperature Superconductivity Laboratory, Cryogenic Engineering Centre, India" "Mater.Res.Bull., 36(2001)971" 33852 MRB0360971 "(Y,Sm)Ba2Cu3O7" Y0.8Sm0.2Ba2Cu3O7-z Y 0.8 Sm 0.2 Ba 2 Cu 3 O 7-z 2001 Y123 A 3.8171 3.884 11.6735 K 80 80 uV/K 7.765 TP33852 mOhm.cm 7.43 1 "SIN(940C,42h,in air) - FC to RT" Thermoelectric power of samarium substituted Y1-xSmxBa2Cu3O7-z superconducting pellets 2001 "High Temperature Superconductivity Laboratory, Cryogenic Engineering Centre, India" "Mater.Res.Bull., 36(2001)971" 33853 MRB0360971 "(Y,Sm)Ba2Cu3O7" Y0.6Sm0.4Ba2Cu3O7-z Y 0.6 Sm 0.4 Ba 2 Cu 3 O 7-z 2001 Y123 A 3.8171 3.8852 11.6735 K 78 78 uV/K 7.454 TP33853 mOhm.cm 5.79 1 "SIN(940C,42h,in air) - FC to RT" Thermoelectric power of samarium substituted Y1-xSmxBa2Cu3O7-z superconducting pellets 2001 "High Temperature Superconductivity Laboratory, Cryogenic Engineering Centre, India" "Mater.Res.Bull., 36(2001)971" 33854 SST01600L1 T_{=510C. second phase= (Sr1-xCax)14Cu24O41-z "(Sr,Ca)CuO2" Sr0.6Ca0.2Cu1O2-z Sr 0.6 Ca 0.2 Cu 1 O 2-z 4 2003 IL A 3.9154 3.3483 K 4.2 mOhm.cm 1.1 Films were grown by single target off-axis rf magnetron sputtering on SrTiO3(001) with total-p = 2.66 Pa. Then in-situ vacuum annealing. Electron-doped superconductivity induced by oxygen vacancies in as-grown Sr0.6Ca0.4CuO2-z infinite-layer films 2003 "Nanoelectronics Research Institute of AIST,Tsukuba,Ibaraki,Japan" "Supercond.Sci.Technol., 16(2003)L1-L3"
33855 SST01600L1 T_{=515C. n-type s/c. "(Sr,Ca)CuO2" Sr0.6Ca0.2Cu1O2-z Sr 0.6 Ca 0.2 Cu 1 O 2-z 4 2003 IL A 3.9293 3.3409 K 11 42 26.5 mOhm.cm 0.81 Films were grown by single target off-axis rf magnetron sputtering on SrTiO3(001) with total-p = 2.66 Pa. Then in-situ vacuum annealing. Electron-doped superconductivity induced by oxygen vacancies in as-grown Sr0.6Ca0.4CuO2-z infinite-layer films 2003 "Nanoelectronics Research Institute of AIST,Tsukuba,Ibaraki,Japan" "Supercond.Sci.Technol., 16(2003)L1-L3"
33856 SST01600L1 T_{=530C. excess O-vacancy. "(Sr,Ca)CuO2" Sr0.6Ca0.2Cu1O2-z Sr 0.6 Ca 0.2 Cu 1 O 2-z 4 2003 IL A 3.934 3.3238 K 4.2 mOhm.cm 0.62 Films were grown by single target off-axis rf magnetron sputtering on SrTiO3(001) with total-p = 2.66 Pa. Then in-situ vacuum annealing. Electron-doped superconductivity induced by oxygen vacancies in as-grown Sr0.6Ca0.4CuO2-z infinite-layer films 2003 "Nanoelectronics Research Institute of AIST,Tsukuba,Ibaraki,Japan" "Supercond.Sci.Technol., 16(2003)L1-L3"
33857 SST01600L7 large single crystal "(La,Sr)2CuO4" La1.937Sr0.063Cu1O4 La 1.937 Sr 0.063 Cu 1 O 4 3 2003 T K 11.7 11.7 TSFZ method Under-doped La2-xSrxCuO4 with x=0.063-0.125: TSFZ growth of high-quality crystals and anomalous doping dependences of superconducting properties 2003 "Institute of Physics and Center for Condensed Matter Physics,Chinese Academy of Science,Beijing,China" "Supercond.Sci.Technol., 16(2003)L7-L9"
33858 SST01600L7 large single crystal "(La,Sr)2CuO4" La1.93Sr0.07Cu1O4 La 1.93 Sr 0.07 Cu 1 O 4 3 2003 T K 15.4 15.4 TSFZ method Under-doped La2-xSrxCuO4 with x=0.063-0.125: TSFZ growth of high-quality crystals and anomalous doping dependences of superconducting properties 2003 "Institute of Physics and Center for Condensed Matter Physics,Chinese Academy of Science,Beijing,China" "Supercond.Sci.Technol., 16(2003)L7-L9"
33859 SST01600L7 large single crystal "(La,Sr)2CuO4" La1.91Sr0.09Cu1O4 La 1.91 Sr 0.09 Cu 1 O 4 3 2003 T K 27.3 27.3 TSFZ method Under-doped La2-xSrxCuO4 with x=0.063-0.125: TSFZ growth of high-quality crystals and anomalous doping dependences of superconducting properties 2003 "Institute of Physics and Center for Condensed Matter Physics,Chinese Academy of Science,Beijing,China" "Supercond.Sci.Technol., 16(2003)L7-L9"
33860 SST01600L7 large single crystal "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 3 2003 T K 29.2 29.2 TSFZ method Under-doped La2-xSrxCuO4 with x=0.063-0.125: TSFZ growth of high-quality crystals and anomalous doping dependences of superconducting properties 2003 "Institute of Physics and Center for Condensed Matter Physics,Chinese Academy of Science,Beijing,China" "Supercond.Sci.Technol., 16(2003)L7-L9"
33861 SST01600L7 large single crystal "(La,Sr)2CuO4" La1.889Sr0.111Cu1O4 La 1.889 Sr 0.111 Cu 1 O 4 3 2003 T K 29.2 29.2 TSFZ method Under-doped La2-xSrxCuO4 with x=0.063-0.125: TSFZ growth of high-quality crystals and anomalous doping dependences of superconducting properties 2003 "Institute of Physics and Center for Condensed Matter Physics,Chinese Academy of Science,Beijing,China" "Supercond.Sci.Technol., 16(2003)L7-L9"
33862 SST01600L7 large single crystal "(La,Sr)2CuO4" La1.875Sr0.125Cu1O4 La 1.875 Sr 0.125 Cu 1 O 4 3 2003 T K 31 31 TSFZ method Under-doped La2-xSrxCuO4 with x=0.063-0.125: TSFZ growth of high-quality crystals and anomalous doping dependences of superconducting properties 2003 "Institute of Physics and Center for Condensed Matter Physics,Chinese Academy of Science,Beijing,China" "Supercond.Sci.Technol., 16(2003)L7-L9"
33863 NAT4220053 CoO2/H2O/Na/H2O/CoO2 layers. R=0 is not attaied down to 2K. Na0.35CoO2(H2O)1.3 Na0.35Co1H2.6O3.3 Na 0.35 Co 1 H 2.6 O 3.3 2003 p6<3>/mmc K 3 5 5 Oe 100 Na0.7CoO2 - oxidation Superconductivity in two-dimensional CoO2 layers 2003 "Advanced Materials Lab,National Institute for Materials Science,Tsukuba,Ibaraki,Japan" "Nature, 422(2003)53"
33864 P066174510 "optimal doped sample.sp-heat measured for T=2-7 K, H= 0-10 T range. gamma(H=0 T, s/c state)=1.4 mj/mol.K2." "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4 Pr 1.85 Ce 0.15 Cu 1 O 4 3 2002 T' K 22 22 SP33864 mj/mol.K2 6.7 specific heat 362 specific heat single crystal was grown by the directional solidification method. Magnetic-field dependence of electronic specific heat in Pr1.85Ce0.15CuO4 2002 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, Maryland " "Phys.Rev.B, 66(2002)174510"
33865 P067104503 thermal conductivity measured La2CuO4 La2Cu1O4 La 2 Cu 1 O 4 3 2003 306 T K W/m.K 2.69 13.74 THC33865 TSFZ method Thermal conductivity of lightly Sr- and Zn-doped La2CuO4 single crystals 2003 "Central Research Institute of Electric Power Industry, Komae, Tokyo, Japan" "Phys.Rev.B, 67(2003)104503"
33866 P067104503 thermal conductivity measured "(La,Sr)2CuO4" La1.99Sr0.01Cu1O4 La 1.99 Sr 0.01 Cu 1 O 4 3 2003 242 T K W/m.K 2.37 5.79 THC33866 TSFZ method Thermal conductivity of lightly Sr- and Zn-doped La2CuO4 single crystals 2003 "Central Research Institute of Electric Power Industry, Komae, Tokyo, Japan" "Phys.Rev.B, 67(2003)104503"
33867 P067104503 no magnetic order. thermal conductivity measured. "(La,Sr)2CuO4" La1.98Sr0.02Cu1O4 La 1.98 Sr 0.02 Cu 1 O 4 3 2003 T K W/m.K 2.37 4.32 THC33867 TSFZ method Thermal conductivity of lightly Sr- and Zn-doped La2CuO4 single crystals 2003 "Central Research Institute of Electric Power Industry, Komae, Tokyo, Japan" "Phys.Rev.B, 67(2003)104503"
33868 P067104503 no magnetic order. thermal conductivity measured. "(La,Sr)2CuO4" La1.96Sr0.04Cu1O4 La 1.96 Sr 0.04 Cu 1 O 4 3 2003 T K W/m.K 2.37 3.88 THC33868 TSFZ method Thermal conductivity of lightly Sr- and Zn-doped La2CuO4 single crystals 2003 "Central Research Institute of Electric Power Industry, Komae, Tokyo, Japan" "Phys.Rev.B, 67(2003)104503"
33869 P067104503 thermal conductivity measured "La2(Cu,Zn)O4" La2Cu0.99Zn0.01O4 La 2 Cu 0.99 Zn 0.01 O 4 3 2003 T K W/m.K 2.17 9.06 THC33869 TSFZ method Thermal conductivity of lightly Sr- and Zn-doped La2CuO4 single crystals 2003 "Central Research Institute of Electric Power Industry, Komae, Tokyo, Japan" "Phys.Rev.B, 67(2003)104503"
33870 P067104503 thermal conductivity measured "La2(Cu,Zn)O4" La2Cu0.98Zn0.02O4 La 2 Cu 0.98 Zn 0.02 O 4 3 2003 T K W/m.K 2.17 7.84 THC33870 TSFZ method Thermal conductivity of lightly Sr- and Zn-doped La2CuO4 single crystals 2003 "Central Research Institute of Electric Power Industry, Komae, Tokyo, Japan" "Phys.Rev.B, 67(2003)104503"
33871 P067104503 thermal conductivity measured "La2(Cu,Zn)O4" La2Cu0.96Zn0.04O4 La 2 Cu 0.96 Zn 0.04 O 4 3 2003 T K W/m.K 2.27 5.61 THC33871 TSFZ method Thermal conductivity of lightly Sr- and Zn-doped La2CuO4 single crystals 2003 "Central Research Institute of Electric Power Industry, Komae, Tokyo, Japan" "Phys.Rev.B, 67(2003)104503"
33872 P067104503 no magnetic order. thermal conductivity measured. "(La,Sr)2CuO4" La1.88Sr0.12Cu1O4 La 1.88 Sr 0.12 Cu 1 O 4 3 2003 T K THC33872 TSFZ method Thermal conductivity of lightly Sr- and Zn-doped La2CuO4 single crystals 2003 "Central Research Institute of Electric Power Industry, Komae, Tokyo, Japan" "Phys.Rev.B, 67(2003)104503"
33873 P067104503 no magnetic order. thermal conductivity measured. "(La,Nd,Sr)2CuO4" La1.28Nd0.6Sr0.12Cu1O4 La 1.28 Nd 0.6 Sr 0.12 Cu 1 O 4 3 2003 T K THC33873 TSFZ method Thermal conductivity of lightly Sr- and Zn-doped La2CuO4 single crystals 2003 "Central Research Institute of Electric Power Industry, Komae, Tokyo, Japan" "Phys.Rev.B, 67(2003)104503"
33874 P067104503 no magnetic order. thermal conductivity measured. "(La,Eu,Sr)2CuO4" La1.68Eu0.2Sr0.12Cu1O4 La 1.68 Eu 0.2 Sr 0.12 Cu 1 O 4 3 2003 T K THC33874 TSFZ method Thermal conductivity of lightly Sr- and Zn-doped La2CuO4 single crystals 2003 "Central Research Institute of Electric Power Industry, Komae, Tokyo, Japan" "Phys.Rev.B, 67(2003)104503"
33875 P067104514 RuSr2EuCu2O8 Ru1Sr2Eu1Cu2O8 Ru 1 Sr 2 Eu 1 Cu 2 O 8 1 2003 132 Ru1212 K 11 11 "RuO2,SnO2,SrCO3,R2O3,CuO" 1 "CAL(960C,12h,in air)-pellet-SIN(1010C,10h,in N2 + 1050C,10h,inO2)" "Effect of Sn, Nb, and La substitution on superconductivity and magnetic order in RuSr2RCu2O8 (R=Eu,Gd)" 2003 "Unversitat Stuttgart, Stuttgart, Germany" "Phys.Rev.B, 67(2003)104514"
33876 P067104514 "(Ru,Sn)Sr2EuCu2O8" Ru0.9Sn0.1Sr2Eu1Cu2O8 Ru 0.9 Sn 0.1 Sr 2 Eu 1 Cu 2 O 8 1 2003 84 Ru1212 K 16 16 "RuO2,SnO2,SrCO3,R2O3,CuO" 1 "CAL(960C,12h,in air)-pellet-SIN(1010C,10h,in N2 + 1050C,10h,inO2)" "Effect of Sn, Nb, and La substitution on superconductivity and magnetic order in RuSr2RCu2O8 (R=Eu,Gd)" 2003 "Unversitat Stuttgart, Stuttgart, Germany" "Phys.Rev.B, 67(2003)104514"
33877 P067104514 "(Ru,Sn)Sr2EuCu2O8" Ru0.7Sn0.3Sr2Eu1Cu2O8 Ru 0.7 Sn 0.3 Sr 2 Eu 1 Cu 2 O 8 1 2003 36 Ru1212 K 20 20 "RuO2,SnO2,SrCO3,R2O3,CuO" 1 "CAL(960C,12h,in air)-pellet-SIN(1010C,10h,in N2 + 1050C,10h,inO2)" "Effect of Sn, Nb, and La substitution on superconductivity and magnetic order in RuSr2RCu2O8 (R=Eu,Gd)" 2003 "Unversitat Stuttgart, Stuttgart, Germany" "Phys.Rev.B, 67(2003)104514"
33878 P067104514 not s/c "(Ru,Nb)Sr2EuCu2O8" Ru0.6Nb0.4Sr2Eu1Cu2O8 Ru 0.6 Nb 0.4 Sr 2 Eu 1 Cu 2 O 8 1 2003 50 Ru1212 K "RuO2,SnO2,SrCO3,R2O3,CuO" 1 "CAL(960C,12h,in air)-pellet-SIN(1010C,10h,in N2 + 1050C,10h,inO2)" "Effect of Sn, Nb, and La substitution on superconductivity and magnetic order in RuSr2RCu2O8 (R=Eu,Gd)" 2003 "Unversitat Stuttgart, Stuttgart, Germany" "Phys.Rev.B, 67(2003)104514"
33879 P067092504 thickness=600A Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 5 2003 Bi2212 A 30.966 K 88.4 93.1 97.4 93.1 "MBE method. substrate=SrTiO3, oxidation using ozone beam at Ts=720-730 C." Complete substitution of Sr for Ca in Bi2Sr2+xCa1-xCu2O8+z 2003 "Department of Physics,University of Illinois, Urbana,Illinois,USA" "Phys.Rev.B, 67(2003)092504"
33880 P067092504 thickness=600A "Bi2Sr2(Ca,Sr)Cu2O8" Bi2Sr2.08Ca0.92Cu2O8 Bi 2 Sr 2.08 Ca 0.92 Cu 2 O 8 5 2003 Bi2212 A 31.002 K 88.6 95.3 99.6 95.3 "MBE method. substrate=SrTiO3, oxidation using ozone beam at Ts=720-730 C." Complete substitution of Sr for Ca in Bi2Sr2+xCa1-xCu2O8+z 2003 "Department of Physics,University of Illinois, Urbana,Illinois,USA" "Phys.Rev.B, 67(2003)092504"
33881 P067092504 thickness=600A "Bi2Sr2(Ca,Sr)Cu2O8" Bi2Sr2.2Ca0.8Cu2O8 Bi 2 Sr 2.2 Ca 0.8 Cu 2 O 8 5 2003 Bi2212 A 31.056 K 84 89.9 94.2 89.9 "MBE method. substrate=SrTiO3, oxidation using ozone beam at Ts=720-730 C." Complete substitution of Sr for Ca in Bi2Sr2+xCa1-xCu2O8+z 2003 "Department of Physics,University of Illinois, Urbana,Illinois,USA" "Phys.Rev.B, 67(2003)092504"
33882 P067092504 thickness=600A "Bi2Sr2(Ca,Sr)Cu2O8" Bi2Sr2.4Ca0.6Cu2O8 Bi 2 Sr 2.4 Ca 0.6 Cu 2 O 8 5 2003 Bi2212 A 31.108 K 85.5 94.2 99.6 94.2 "MBE method. substrate=SrTiO3, oxidation using ozone beam at Ts=720-730 C." Complete substitution of Sr for Ca in Bi2Sr2+xCa1-xCu2O8+z 2003 "Department of Physics,University of Illinois, Urbana,Illinois,USA" "Phys.Rev.B, 67(2003)092504"
33883 P067092504 thickness=600A "Bi2Sr2(Ca,Sr)Cu2O8" Bi2Sr2.65Ca0.35Cu2O8 Bi 2 Sr 2.65 Ca 0.35 Cu 2 O 8 5 2003 Bi2212 A 31.206 K 80 93.6 101.2 93.6 "MBE method. substrate=SrTiO3, oxidation using ozone beam at Ts=720-730 C." Complete substitution of Sr for Ca in Bi2Sr2+xCa1-xCu2O8+z 2003 "Department of Physics,University of Illinois, Urbana,Illinois,USA" "Phys.Rev.B, 67(2003)092504"
33884 P067092504 thickness=600A Bi2Sr2SrCu2O8 Bi2Sr3Cu2O8 Bi 2 Sr 3 Cu 2 O 8 5 2003 Bi2212 A 31.348 K 55.5 91.5 101.7 91.5 "MBE method. substrate=SrTiO3, oxidation using ozone beam at Ts=720-730 C." Complete substitution of Sr for Ca in Bi2Sr2+xCa1-xCu2O8+z 2003 "Department of Physics,University of Illinois, Urbana,Illinois,USA" "Phys.Rev.B, 67(2003)092504"
33885 JP01410693 R-ion radius vs Tc. "(La,Pr,Ca)Ba2Cu3O7" La0.2Pr0.3Ca0.5Ba2Cu3O7-z La 0.2 Pr 0.3 Ca 0.5 Ba 2 Cu 3 O 7-z 1 2002 Y123 K 100 100 "R2O3,CaCO3,BaCO3,CuO" 1 "high-pressure synthesis. precursor (R,Pr)0.5Ca0.5Ba2Cu3Oz - wrapped in Au foil - heat(900C,0.5h, p=6GPa)" "The effect of Ca doping on the superconductivity of (R0.4Pr0.6)Ba2Cu3O7-z compounds prepared at high pressure (R=La,Pr,Nd,Sm,Eu,Gd and Y)" 2002 "National Lab for Superconductivity, Chinese Academy of Science, Beijing, China" "J.Phys.:Condens.Matter, 14(2002)10693"
33886 JP01410693 R-ion radius vs Tc. "(Pr,Ca)Ba2Cu3O7" Pr0.5Ca0.5Ba2Cu3O7-z Pr 0.5 Ca 0.5 Ba 2 Cu 3 O 7-z 1 2002 Y123 K 105 105 "R2O3,CaCO3,BaCO3,CuO" 1 "high-pressure synthesis. precursor (R,Pr)0.5Ca0.5Ba2Cu3Oz - wrapped in Au foil - heat(900C,0.5h, p=6GPa)" "The effect of Ca doping on the superconductivity of (R0.4Pr0.6)Ba2Cu3O7-z compounds prepared at high pressure (R=La,Pr,Nd,Sm,Eu,Gd and Y)" 2002 "National Lab for Superconductivity, Chinese Academy of Science, Beijing, China" "J.Phys.:Condens.Matter, 14(2002)10693"
33887 JP01410693 R-ion radius vs Tc. "(Nd,Pr,Ca)Ba2Cu3O7" Nd0.2Pr0.3Ca0.5Ba2Cu3O7-z Nd 0.2 Pr 0.3 Ca 0.5 Ba 2 Cu 3 O 7-z 1 2002 Y123 K 100 100 "R2O3,CaCO3,BaCO3,CuO" 1 "high-pressure synthesis. precursor (R,Pr)0.5Ca0.5Ba2Cu3Oz - wrapped in Au foil - heat(900C,0.5h, p=6GPa)" "The effect of Ca doping on the superconductivity of (R0.4Pr0.6)Ba2Cu3O7-z compounds prepared at high pressure (R=La,Pr,Nd,Sm,Eu,Gd and Y)" 2002 "National Lab for Superconductivity, Chinese Academy of Science, Beijing, China" "J.Phys.:Condens.Matter, 14(2002)10693"
33888 JP01410693 R-ion radius vs Tc. "(Sm,Pr,Ca)Ba2Cu3O7" Sm0.2Pr0.3Ca0.5Ba2Cu3O7-z Sm 0.2 Pr 0.3 Ca 0.5 Ba 2 Cu 3 O 7-z 1 2002 Y123 K 98 98 "R2O3,CaCO3,BaCO3,CuO" 1 "high-pressure synthesis. precursor (R,Pr)0.5Ca0.5Ba2Cu3Oz - wrapped in Au foil - heat(900C,0.5h, p=6GPa)" "The effect of Ca doping on the superconductivity of (R0.4Pr0.6)Ba2Cu3O7-z compounds prepared at high pressure (R=La,Pr,Nd,Sm,Eu,Gd and Y)" 2002 "National Lab for Superconductivity, Chinese Academy of Science, Beijing, China" "J.Phys.:Condens.Matter, 14(2002)10693"
33889 JP01410693 R-ion radius vs Tc. "(Eu,Pr,Ca)Ba2Cu3O7" Eu0.2Pr0.3Ca0.5Ba2Cu3O7-z Eu 0.2 Pr 0.3 Ca 0.5 Ba 2 Cu 3 O 7-z 1 2002 Y123 K 96 96 "R2O3,CaCO3,BaCO3,CuO" 1 "high-pressure synthesis. precursor (R,Pr)0.5Ca0.5Ba2Cu3Oz - wrapped in Au foil - heat(900C,0.5h, p=6GPa)" "The effect of Ca doping on the superconductivity of (R0.4Pr0.6)Ba2Cu3O7-z compounds prepared at high pressure (R=La,Pr,Nd,Sm,Eu,Gd and Y)" 2002 "National Lab for Superconductivity, Chinese Academy of Science, Beijing, China" "J.Phys.:Condens.Matter, 14(2002)10693"
33890 JP01410693 R-ion radius vs Tc. "(Gd,Pr,Ca)Ba2Cu3O7" Gd0.2Pr0.3Ca0.5Ba2Cu3O7-z Gd 0.2 Pr 0.3 Ca 0.5 Ba 2 Cu 3 O 7-z 1 2002 Y123 K 96 96 "R2O3,CaCO3,BaCO3,CuO" 1 "high-pressure synthesis. precursor (R,Pr)0.5Ca0.5Ba2Cu3Oz - wrapped in Au foil - heat(900C,0.5h, p=6GPa)" "The effect of Ca doping on the superconductivity of (R0.4Pr0.6)Ba2Cu3O7-z compounds prepared at high pressure (R=La,Pr,Nd,Sm,Eu,Gd and Y)" 2002 "National Lab for Superconductivity, Chinese Academy of Science, Beijing, China" "J.Phys.:Condens.Matter, 14(2002)10693"
33891 JP01410693 R-ion radius vs Tc. hydrostatic-P (up to 1.05 GPa) "(Y,Pr,Ca)Ba2Cu3O7" Y0.2Pr0.3Ca0.5Ba2Cu3O7-z Y 0.2 Pr 0.3 Ca 0.5 Ba 2 Cu 3 O 7-z 1 2002 Y123 K 60 105 105 K/GPa 5 "R2O3,CaCO3,BaCO3,CuO" 1 "high-pressure synthesis. precursor (R,Pr)0.5Ca0.5Ba2Cu3Oz - wrapped in Au foil - heat(900C,0.5h, p=6GPa)" "The effect of Ca doping on the superconductivity of (R0.4Pr0.6)Ba2Cu3O7-z compounds prepared at high pressure (R=La,Pr,Nd,Sm,Eu,Gd and Y)" 2002 "National Lab for Superconductivity, Chinese Academy of Science, Beijing, China" "J.Phys.:Condens.Matter, 14(2002)10693"
33892 JP01410747 "Tc,Tm increase with P in the same way. Tc1, Tc2 in Fig. show T3, T1. magnetic ordering Tm defined as the peak of dR/dT. dTm/dP=5.7 K/GPa. B=173 GPa (P>6GPa)" RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 1 2002 130 GPa 136 Ru1212 A 3.836 11.527 K 35.5 46 40.75 TC33892 K/GPa 1.9 1 solid state reaction The effect of pressure on the superconductivity and magnetism of RuSr2GdCu2O8 2002 "Department of Physics, Faculty of Science, Kyushu University, Fukuoka, Japan" "J.Phys.:Condens.Matter, 14(2002)10747"
33893 PHC3860122 ANN sample. hole = 0.34 "(Bi,Pb,S)Sr2(Ca,Nd)Cu2Oz" Bi0.8Pb0.1S0.1Sr2Ca0.7Nd0.3Cu2O6.95 Bi 0.8 Pb 0.1 S 0.1 Sr 2 Ca 0.7 Nd 0.3 Cu 2 O z 6.95 2003 Bi1212 A 3.826 3.799 12.01 K 75 75 1 "SIN(850-860C,40h). some are ANN in flowing O2." "Structure and Superconductivity of (Bi,Pb,S)-1212 compound" 2003 "University of New South Wales, Australia" "Physica C, 386(2003)122"
33894 PHC3860122 SIN sample. hole = 0.36 "(Bi,Pb,S)Sr2(Ca,Nd)Cu2Oz" Bi0.6Pb0.2S0.2Sr2Ca0.7Nd0.3Cu2O6.95 Bi 0.6 Pb 0.2 S 0.2 Sr 2 Ca 0.7 Nd 0.3 Cu 2 O z 6.95 2003 Bi1212 A 3.828 3.795 12.02 K 80 80 1 "SIN(850-860C,40h). some are ANN in flowing O2." "Structure and Superconductivity of (Bi,Pb,S)-1212 compound" 2003 "University of New South Wales, Australia" "Physica C, 386(2003)122"
33895 PHC3860122 ANN sample. hole = 0.34 "(Bi,Pb,S)Sr2(Ca,Nd)Cu2Oz" Bi0.5Pb0.25S0.25Sr2Ca0.7Nd0.3Cu2O6.97 Bi 0.5 Pb 0.25 S 0.25 Sr 2 Ca 0.7 Nd 0.3 Cu 2 O z 6.97 2003 Bi1212 A 3.821 3.822 12.01 K 75 75 1 "SIN(850-860C,40h). some are ANN in flowing O2." "Structure and Superconductivity of (Bi,Pb,S)-1212 compound" 2003 "University of New South Wales, Australia" "Physica C, 386(2003)122"
33896 PHC3860122 ANN sample. hole = 0.35 "(Bi,Pb,S)Sr2(Ca,Nd)Cu2Oz" Bi0.2Pb0.4S0.4Sr2Ca0.7Nd0.3Cu2O6.99 Bi 0.2 Pb 0.4 S 0.4 Sr 2 Ca 0.7 Nd 0.3 Cu 2 O z 6.99 2003 Bi1212 A 3.813 3.823 11.96 K 78 78 1 "SIN(850-860C,40h). some are ANN in flowing O2." "Structure and Superconductivity of (Bi,Pb,S)-1212 compound" 2003 "University of New South Wales, Australia" "Physica C, 386(2003)122"
33897 JP01407383 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 2002 T A 3.771 13.241 K 37.5 37.5 1 solid state reaction Crystallographic evolution and superconductivity in the La1.85-xPrxSr0.15CuO4 system (0=)=59.3 K. ppenet were measured by muon-SR but not shown numerically. "(Y,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3O6.942 Y 0.7 Pr 0.3 Ba 2 Cu 3 O 7-z 6.942 1 2003 Y123 K 60.6 60.6 0.22 O 98 1 The exchange and back-exchange were carried out at 600C. The oxygen-isotope effect on the in-plane penetration depth in underdoped Y1-xPrxBa2Cu3O7-z as revealed by muon-spin rotation 2003 "Physik-Institut der Universitat Zurich, Zurich, Switzerland" "J.Phys.:Condens.Matter, 15(2003)L17"
33924 JP015L017 Tc(O<18>)=43.6 K. ppenet were measured by muon-SR but not shown numerically. "(Y,Pr)Ba2Cu3O7" Y0.6Pr0.4Ba2Cu3O6.929 Y 0.6 Pr 0.4 Ba 2 Cu 3 O 7-z 6.929 1 2003 Y123 K 45.3 45.3 0.37 O 78 1 The exchange and back-exchange were carried out at 600C. The oxygen-isotope effect on the in-plane penetration depth in underdoped Y1-xPrxBa2Cu3O7-z as revealed by muon-spin rotation 2003 "Physik-Institut der Universitat Zurich, Zurich, Switzerland" "J.Phys.:Condens.Matter, 15(2003)L17"
33925 PHC3870411 YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.811 3.875 11.651 K 93 93 "Y2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "ANN(400C, 24h) - slow cool to RT" Pr and Ca co-doping effects on the flux pinning properties in (Y1-x-yPrxCay)Ba2Cu3O7-z 2003 "Department of Fundamental Energy Science, Kyoto University, Gokasho, Uji, Kyoto-fu, Japan" "Physica C, 387(2003)411"
33926 PHC3870411 "(Y,Pr,Ca)Ba2Cu3O7" Y0.9Pr0.05Ca0.05Ba2Cu3O7-z Y 0.9 Pr 0.05 Ca 0.05 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.822 3.88 11.667 K 86.2 86.2 "Y2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "ANN(400C, 24h) - slow cool to RT" Pr and Ca co-doping effects on the flux pinning properties in (Y1-x-yPrxCay)Ba2Cu3O7-z 2003 "Department of Fundamental Energy Science, Kyoto University, Gokasho, Uji, Kyoto-fu, Japan" "Physica C, 387(2003)411"
33927 PHC3870411 "(Y,Pr,Ca)Ba2Cu3O7" Y0.8Pr0.1Ca0.1Ba2Cu3O7-z Y 0.8 Pr 0.1 Ca 0.1 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.822 3.883 11.667 K 83 83 "Y2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "ANN(400C, 24h) - slow cool to RT" Pr and Ca co-doping effects on the flux pinning properties in (Y1-x-yPrxCay)Ba2Cu3O7-z 2003 "Department of Fundamental Energy Science, Kyoto University, Gokasho, Uji, Kyoto-fu, Japan" "Physica C, 387(2003)411"
33928 PHC3870411 "(Y,Pr,Ca)Ba2Cu3O7" Y0.7Pr0.15Ca0.15Ba2Cu3O7-z Y 0.7 Pr 0.15 Ca 0.15 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.823 3.882 11.665 K 75.8 75.8 "Y2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "ANN(400C, 24h) - slow cool to RT" Pr and Ca co-doping effects on the flux pinning properties in (Y1-x-yPrxCay)Ba2Cu3O7-z 2003 "Department of Fundamental Energy Science, Kyoto University, Gokasho, Uji, Kyoto-fu, Japan" "Physica C, 387(2003)411"
33929 PHC3870411 "(Y,Ca)Ba2Cu3O7" Y0.98Ca0.02Ba2Cu3O7-z Y 0.98 Ca 0.02 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.822 3.884 11.674 K 90.5 90.5 "Y2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "ANN(400C, 24h) - slow cool to RT" Pr and Ca co-doping effects on the flux pinning properties in (Y1-x-yPrxCay)Ba2Cu3O7-z 2003 "Department of Fundamental Energy Science, Kyoto University, Gokasho, Uji, Kyoto-fu, Japan" "Physica C, 387(2003)411"
33930 PHC3870411 "(Y,Ca)Ba2Cu3O7" Y0.95Ca0.05Ba2Cu3O7-z Y 0.95 Ca 0.05 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.817 3.879 11.665 K 88.6 88.6 "Y2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "ANN(400C, 24h) - slow cool to RT" Pr and Ca co-doping effects on the flux pinning properties in (Y1-x-yPrxCay)Ba2Cu3O7-z 2003 "Department of Fundamental Energy Science, Kyoto University, Gokasho, Uji, Kyoto-fu, Japan" "Physica C, 387(2003)411"
33931 PHC3870411 "(Y,Ca)Ba2Cu3O7" Y0.92Ca0.08Ba2Cu3O7-z Y 0.92 Ca 0.08 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.825 3.887 11.689 K 87 87 "Y2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "ANN(400C, 24h) - slow cool to RT" Pr and Ca co-doping effects on the flux pinning properties in (Y1-x-yPrxCay)Ba2Cu3O7-z 2003 "Department of Fundamental Energy Science, Kyoto University, Gokasho, Uji, Kyoto-fu, Japan" "Physica C, 387(2003)411"
33932 PHC3870411 "(Y,Pr)Ba2Cu3O7" Y0.95Pr0.05Ba2Cu3O7-z Y 0.95 Pr 0.05 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.817 3.88 11.67 K 91.8 91.8 "Y2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "ANN(400C, 24h) - slow cool to RT" Pr and Ca co-doping effects on the flux pinning properties in (Y1-x-yPrxCay)Ba2Cu3O7-z 2003 "Department of Fundamental Energy Science, Kyoto University, Gokasho, Uji, Kyoto-fu, Japan" "Physica C, 387(2003)411"
33933 PHC3870411 "(Y,Pr,Ca)Ba2Cu3O7" Y0.93Pr0.05Ca0.02Ba2Cu3O7-z Y 0.93 Pr 0.05 Ca 0.02 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.817 3.883 11.672 K 89.4 89.4 "Y2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "ANN(400C, 24h) - slow cool to RT" Pr and Ca co-doping effects on the flux pinning properties in (Y1-x-yPrxCay)Ba2Cu3O7-z 2003 "Department of Fundamental Energy Science, Kyoto University, Gokasho, Uji, Kyoto-fu, Japan" "Physica C, 387(2003)411"
33934 PHC3870411 "(Y,Pr,Ca)Ba2Cu3O7" Y0.91Pr0.05Ca0.04Ba2Cu3O7-z Y 0.91 Pr 0.05 Ca 0.04 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.822 3.884 11.679 K 87.3 87.3 "Y2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "ANN(400C, 24h) - slow cool to RT" Pr and Ca co-doping effects on the flux pinning properties in (Y1-x-yPrxCay)Ba2Cu3O7-z 2003 "Department of Fundamental Energy Science, Kyoto University, Gokasho, Uji, Kyoto-fu, Japan" "Physica C, 387(2003)411"
33935 PHC3870411 "(Y,Pr,Ca)Ba2Cu3O7" Y0.89Pr0.05Ca0.06Ba2Cu3O7-z Y 0.89 Pr 0.05 Ca 0.06 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.819 3.882 11.67 K 85.9 85.9 "Y2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "ANN(400C, 24h) - slow cool to RT" Pr and Ca co-doping effects on the flux pinning properties in (Y1-x-yPrxCay)Ba2Cu3O7-z 2003 "Department of Fundamental Energy Science, Kyoto University, Gokasho, Uji, Kyoto-fu, Japan" "Physica C, 387(2003)411"
33936 PHC3870411 "(Y,Pr)Ba2Cu3O7" Y0.9Pr0.1Ba2Cu3O7-z Y 0.9 Pr 0.1 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.823 3.879 11.66 K 88.8 88.8 "Y2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "ANN(400C, 24h) - slow cool to RT" Pr and Ca co-doping effects on the flux pinning properties in (Y1-x-yPrxCay)Ba2Cu3O7-z 2003 "Department of Fundamental Energy Science, Kyoto University, Gokasho, Uji, Kyoto-fu, Japan" "Physica C, 387(2003)411"
33937 PHC3870411 "(Y,Pr,Ca)Ba2Cu3O7" Y0.88Pr0.1Ca0.02Ba2Cu3O7-z Y 0.88 Pr 0.1 Ca 0.02 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.823 3.883 11.679 K 87 87 "Y2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "ANN(400C, 24h) - slow cool to RT" Pr and Ca co-doping effects on the flux pinning properties in (Y1-x-yPrxCay)Ba2Cu3O7-z 2003 "Department of Fundamental Energy Science, Kyoto University, Gokasho, Uji, Kyoto-fu, Japan" "Physica C, 387(2003)411"
33938 PHC3870411 "(Y,Pr,Ca)Ba2Cu3O7" Y0.86Pr0.1Ca0.04Ba2Cu3O7-z Y 0.86 Pr 0.1 Ca 0.04 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.823 3.888 11.684 K 85.5 85.5 "Y2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "ANN(400C, 24h) - slow cool to RT" Pr and Ca co-doping effects on the flux pinning properties in (Y1-x-yPrxCay)Ba2Cu3O7-z 2003 "Department of Fundamental Energy Science, Kyoto University, Gokasho, Uji, Kyoto-fu, Japan" "Physica C, 387(2003)411"
33939 PHC3870411 "(Y,Pr,Ca)Ba2Cu3O7" Y0.84Pr0.1Ca0.06Ba2Cu3O7-z Y 0.84 Pr 0.1 Ca 0.06 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.817 3.879 11.66 K 84.6 84.6 "Y2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "ANN(400C, 24h) - slow cool to RT" Pr and Ca co-doping effects on the flux pinning properties in (Y1-x-yPrxCay)Ba2Cu3O7-z 2003 "Department of Fundamental Energy Science, Kyoto University, Gokasho, Uji, Kyoto-fu, Japan" "Physica C, 387(2003)411"
33940 PHC3870411 "(Y,Pr,Ca)Ba2Cu3O7" Y0.82Pr0.1Ca0.08Ba2Cu3O7-z Y 0.82 Pr 0.1 Ca 0.08 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.823 3.88 11.665 K 83.4 83.4 "Y2O3,Pr6O11,CaCO3,BaCO3,CuO" 1 "ANN(400C, 24h) - slow cool to RT" Pr and Ca co-doping effects on the flux pinning properties in (Y1-x-yPrxCay)Ba2Cu3O7-z 2003 "Department of Fundamental Energy Science, Kyoto University, Gokasho, Uji, Kyoto-fu, Japan" "Physica C, 387(2003)411"
33941 PHC3900075 "(Bi,Pb)(Sr,La)CuOz" Bi1.6Pb0.4Sr1.6La0.4Cu1Oz Bi 1.6 Pb 0.4 Sr 1.6 La 0.4 Cu 1 O z 1 2003 Bi2201 K 34.8 34.8 1 Solid state reaction Different Tc-suppression rates between Mn doped La214 and Bi2201 systems 2003 "University of Science and Technology of China, Hefei, Anhui,P R China" "Physica C, 390(2003)75"
33942 PHC3900075 "(Bi,Pb)(Sr,La)(Cu,Mn)Oz" Bi1.6Pb0.4Sr1.6La0.4Cu0.99Mn0.01Oz Bi 1.6 Pb 0.4 Sr 1.6 La 0.4 Cu 0.99 Mn 0.01 O z 1 2003 Bi2201 K 30.9 30.9 1 Solid state reaction Different Tc-suppression rates between Mn doped La214 and Bi2201 systems 2003 "University of Science and Technology of China, Hefei, Anhui,P R China" "Physica C, 390(2003)75"
33943 PHC3900075 "(Bi,Pb)(Sr,La)(Cu,Mn)Oz" Bi1.6Pb0.4Sr1.6La0.4Cu0.98Mn0.02Oz Bi 1.6 Pb 0.4 Sr 1.6 La 0.4 Cu 0.98 Mn 0.02 O z 1 2003 Bi2201 K 26.1 26.1 1 Solid state reaction Different Tc-suppression rates between Mn doped La214 and Bi2201 systems 2003 "University of Science and Technology of China, Hefei, Anhui,P R China" "Physica C, 390(2003)75"
33944 PHC3900075 "(Bi,Pb)(Sr,La)(Cu,Mn)Oz" Bi1.6Pb0.4Sr1.6La0.4Cu0.97Mn0.03Oz Bi 1.6 Pb 0.4 Sr 1.6 La 0.4 Cu 0.97 Mn 0.03 O z 1 2003 Bi2201 K 20.1 20.1 1 Solid state reaction Different Tc-suppression rates between Mn doped La214 and Bi2201 systems 2003 "University of Science and Technology of China, Hefei, Anhui,P R China" "Physica C, 390(2003)75"
33945 PHC3900075 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 2003 T K 38 38 1 Solid state reaction Different Tc-suppression rates between Mn doped La214 and Bi2201 systems 2003 "University of Science and Technology of China, Hefei, Anhui,P R China" "Physica C, 390(2003)75"
33946 PHC3900075 "(La,Sr)2(Cu,Mn)O4" La1.84Sr0.16Cu0.99Mn0.01O4 La 1.84 Sr 0.16 Cu 0.99 Mn 0.01 O 4 1 2003 T K 30.4 30.4 1 Solid state reaction Different Tc-suppression rates between Mn doped La214 and Bi2201 systems 2003 "University of Science and Technology of China, Hefei, Anhui,P R China" "Physica C, 390(2003)75"
33947 PHC3900075 "(La,Sr)2(Cu,Mn)O4" La1.83Sr0.17Cu0.98Mn0.02O4 La 1.83 Sr 0.17 Cu 0.98 Mn 0.02 O 4 1 2003 T K 18.1 18.1 1 Solid state reaction Different Tc-suppression rates between Mn doped La214 and Bi2201 systems 2003 "University of Science and Technology of China, Hefei, Anhui,P R China" "Physica C, 390(2003)75"
33948 PHC3900120 Tl2Ba2CaCu2O8 Tl2Ba2Ca1Cu2O8+z Tl 2 Ba 2 Ca 1 Cu 2 O 8+z 1 2003 Tl2212 K 108 108 uV/K 1.48 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33949 PHC3900120 "Tl2Ba2Ca(Cu,Co)2O8" Tl2Ba2Ca1Cu1.96Co0.04O8+z Tl 2 Ba 2 Ca 1 Cu 1.96 Co 0.04 O 8+z 1 2003 Tl2212 K 101.3 101.3 uV/K 3.55 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33950 PHC3900120 "Tl2Ba2Ca(Cu,Co)2O8" Tl2Ba2Ca1Cu1.92Co0.08O8+z Tl 2 Ba 2 Ca 1 Cu 1.92 Co 0.08 O 8+z 1 2003 Tl2212 K 94.2 94.2 uV/K 4.73 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33951 PHC3900120 "Tl2Ba2Ca(Cu,Co)2O8" Tl2Ba2Ca1Cu1.88Co0.12O8+z Tl 2 Ba 2 Ca 1 Cu 1.88 Co 0.12 O 8+z 1 2003 Tl2212 K 88.5 88.5 uV/K 7.09 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33952 PHC3900120 carrier p=0.183/Cu from Hall effect. "Tl2Ba2(Ca,Y)Cu2O8" Tl2Ba2Ca0.95Y0.05Cu2O8+z Tl 2 Ba 2 Ca 0.95 Y 0.05 Cu 2 O 8+z 1 2003 Tl2212 K 106.5 106.5 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33953 PHC3900120 carrier p=0.182/Cu from Hall effect. "Tl2Ba2(Ca,Y)(Cu,Co)2O8" Tl2Ba2Ca0.95Y0.05Cu1.96Co0.04O8+z Tl 2 Ba 2 Ca 0.95 Y 0.05 Cu 1.96 Co 0.04 O 8+z 1 2003 Tl2212 K 102.4 102.4 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33954 PHC3900120 carrier p=0.185/Cu from Hall effect. "Tl2Ba2(Ca,Y)(Cu,Co)2O8" Tl2Ba2Ca0.95Y0.05Cu1.92Co0.08O8+z Tl 2 Ba 2 Ca 0.95 Y 0.05 Cu 1.92 Co 0.08 O 8+z 1 2003 Tl2212 K 92.6 92.6 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33959 PHC3900120 "Tl2Ba2(Ca,Y)(Cu,Co)2O8" Tl2Ba2Ca0.95Y0.05Cu1.88Co0.12O8+z Tl 2 Ba 2 Ca 0.95 Y 0.05 Cu 1.88 Co 0.12 O 8+z 1 2003 Tl2212 K 85.5 85.5 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33960 PHC3900120 "Tl2Ba2(Ca,Y)Cu2O8" Tl2Ba2Ca0.9Y0.1Cu2O8+z Tl 2 Ba 2 Ca 0.9 Y 0.1 Cu 2 O 8+z 1 2003 Tl2212 K 105.8 105.8 uV/K 7.68 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33961 PHC3900120 "Tl2Ba2(Ca,Y)(Cu,Co)2O8" Tl2Ba2Ca0.9Y0.1Cu1.96Co0.04O8+z Tl 2 Ba 2 Ca 0.9 Y 0.1 Cu 1.96 Co 0.04 O 8+z 1 2003 Tl2212 K 97.9 97.9 uV/K 9.16 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33962 PHC3900120 "Tl2Ba2(Ca,Y)(Cu,Co)2O8" Tl2Ba2Ca0.9Y0.1Cu1.92Co0.08O8+z Tl 2 Ba 2 Ca 0.9 Y 0.1 Cu 1.92 Co 0.08 O 8+z 1 2003 Tl2212 K 88.5 88.5 uV/K 13.3 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33963 PHC3900120 "Tl2Ba2(Ca,Y)(Cu,Co)2O8" Tl2Ba2Ca0.9Y0.1Cu1.88Co0.12O8+z Tl 2 Ba 2 Ca 0.9 Y 0.1 Cu 1.88 Co 0.12 O 8+z 1 2003 Tl2212 K 78 78 uV/K 17.4 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33964 PHC3900120 "Tl2Ba2(Ca,Y)Cu2O8" Tl2Ba2Ca0.85Y0.15Cu2O8+z Tl 2 Ba 2 Ca 0.85 Y 0.15 Cu 2 O 8+z 1 2003 Tl2212 K 102.8 102.8 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33965 PHC3900120 "Tl2Ba2(Ca,Y)(Cu,Co)2O8" Tl2Ba2Ca0.85Y0.15Cu1.96Co0.04O8+z Tl 2 Ba 2 Ca 0.85 Y 0.15 Cu 1.96 Co 0.04 O 8+z 1 2003 Tl2212 K 86.7 86.7 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33966 PHC3900120 "Tl2Ba2(Ca,Y)(Cu,Co)2O8" Tl2Ba2Ca0.85Y0.15Cu1.92Co0.08O8+z Tl 2 Ba 2 Ca 0.85 Y 0.15 Cu 1.92 Co 0.08 O 8+z 1 2003 Tl2212 K 76.2 76.2 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33967 PHC3900120 "Tl2Ba2(Ca,Y)(Cu,Co)2O8" Tl2Ba2Ca0.85Y0.15Cu1.88Co0.12O8+z Tl 2 Ba 2 Ca 0.85 Y 0.15 Cu 1.88 Co 0.12 O 8+z 1 2003 Tl2212 K 61.6 61.6 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33968 PHC3900120 "Tl2Ba2(Ca,Y)Cu2O8" Tl2Ba2Ca0.8Y0.2Cu2O8+z Tl 2 Ba 2 Ca 0.8 Y 0.2 Cu 2 O 8+z 1 2003 Tl2212 K 77.7 77.7 uV/K 20.4 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33969 PHC3900120 "Tl2Ba2(Ca,Y)(Cu,Co)2O8" Tl2Ba2Ca0.8Y0.2Cu1.96Co0.04O8+z Tl 2 Ba 2 Ca 0.8 Y 0.2 Cu 1.96 Co 0.04 O 8+z 1 2003 Tl2212 K 66.8 66.8 uV/K 23.9 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33970 PHC3900120 "Tl2Ba2(Ca,Y)(Cu,Co)2O8" Tl2Ba2Ca0.8Y0.2Cu1.92Co0.08O8+z Tl 2 Ba 2 Ca 0.8 Y 0.2 Cu 1.92 Co 0.08 O 8+z 1 2003 Tl2212 K 60.1 60.1 uV/K 26.3 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33971 PHC3900120 "Tl2Ba2(Ca,Y)(Cu,Co)2O8" Tl2Ba2Ca0.8Y0.2Cu1.88Co0.12O8+z Tl 2 Ba 2 Ca 0.8 Y 0.2 Cu 1.88 Co 0.12 O 8+z 1 2003 Tl2212 K 45.1 45.1 uV/K 32.2 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33972 PHC3900120 "Tl2Ba2(Ca,Y)Cu2O8" Tl2Ba2Ca0.75Y0.25Cu2O8+z Tl 2 Ba 2 Ca 0.75 Y 0.25 Cu 2 O 8+z 1 2003 Tl2212 K 54.8 54.8 uV/K 37.8 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33973 PHC3900120 "Tl2Ba2(Ca,Y)(Cu,Co)2O8" Tl2Ba2Ca0.75Y0.25Cu1.96Co0.04O8+z Tl 2 Ba 2 Ca 0.75 Y 0.25 Cu 1.96 Co 0.04 O 8+z 1 2003 Tl2212 K 39.9 39.9 uV/K 43.7 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33974 PHC3900120 "Tl2Ba2(Ca,Y)(Cu,Co)2O8" Tl2Ba2Ca0.75Y0.25Cu1.92Co0.08O8+z Tl 2 Ba 2 Ca 0.75 Y 0.25 Cu 1.92 Co 0.08 O 8+z 1 2003 Tl2212 K 29.7 29.7 uV/K 51.7 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33975 PHC3900120 "Tl2Ba2(Ca,Y)(Cu,Co)2O8" Tl2Ba2Ca0.75Y0.25Cu1.88Co0.12O8+z Tl 2 Ba 2 Ca 0.75 Y 0.25 Cu 1.88 Co 0.12 O 8+z 1 2003 Tl2212 K 19.3 19.3 uV/K 56.2 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33976 PHC3900120 "Tl2Ba2(Ca,Y)Cu2O8" Tl2Ba2Ca0.7Y0.3Cu2O8+z Tl 2 Ba 2 Ca 0.7 Y 0.3 Cu 2 O 8+z 1 2003 Tl2212 K 31.6 31.6 uV/K 52.3 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33977 PHC3900120 "Tl2Ba2(Ca,Y)(Cu,Co)2O8" Tl2Ba2Ca0.7Y0.3Cu1.96Co0.04O8+z Tl 2 Ba 2 Ca 0.7 Y 0.3 Cu 1.96 Co 0.04 O 8+z 1 2003 Tl2212 K 21.5 21.5 uV/K 55.9 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33978 PHC3900120 "Tl2Ba2(Ca,Y)(Cu,Co)2O8" Tl2Ba2Ca0.7Y0.3Cu1.92Co0.08O8+z Tl 2 Ba 2 Ca 0.7 Y 0.3 Cu 1.92 Co 0.08 O 8+z 1 2003 Tl2212 K uV/K 60 1 "mixture - pellet - wrapped in Pt-foil sealed quartz tube. ANN(830C,6h) - cool to RT (40 C/h)" Effects of Co-substitution on superconductivity and transport in Tl2Ba2Ca1-xYx(Cu1-yCoy)2O8+z 2003 "Saha Institute of Nuclear Physics, Bidhannagar, Kolkata,India" "Physica C, 390(2003)120"
33979 MAT0305503 Hc1(0) is at 1.9K. G-L parameter = 140. delta-C/Tc = 107 mj/f.u.K2. delta-C/k*Tc = 0.67 NaxCoO2.yH2O Na0.31Co1H2.6O3.3 Na 0.31 Co 1 H 2.6 O 3.3 1 2003 A 2.82 19.65 K 4.3 4.3 10 Oe 13 13 1.9 T estimated using WHH 10 kOe/K 34 A 57 A calculated from Hc1 7900 SP33979 mj/f.u.K2 159 185 specific heat Na in Na0.74CoO2 was deintercalated by excess Br in acetonitrile. Layered cobalt oxyhydrate as a heavy-fermion compound with extreme type-II superconductivity 2003 "Department of Physics, Zhejiang University, Hangzhou China" cond-mat/0305503
33980 PHC3900254 "niminal=Y:Ba:Cu=1:2:3, composition by ICP. Al-content from Al2O3 crucible." "YBa2(Cu,Al)3O7" Y1Ba2Cu2.75Al0.25O7-z Y 1 Ba 2 Cu 2.75 Al 0.25 O 7-z 3 2003 Y123 K 80.8 80.8 "self-flux method using Al2O3 crucible. heat(1015C,12h) - cool to 930 C(0.5 C/h)" "Preparation and properties of (Y,Eu)-123 superconducting single crystals" 2003 "Department of Materials Physics, University of Science and Technology Beijing, Beijing , China" "Physica C, 390(2003)254"
33981 PHC3900254 "niminal=Y:Eu:Ba:Cu=0.9:0.1:2:3, composition by ICP. Al-content from Al2O3 crucible." "(Y,Eu)(Ba,Eu)2(Cu,Al)3O7" Y0.9Eu0.13Ba1.97Cu2.87Al0.29O7-z Y 0.9 Eu 0.13 Ba 1.97 Cu 2.87 Al 0.29 O 7-z 3 2003 Y123 K 72.6 72.6 "self-flux method using Al2O3 crucible. heat(1015C,12h) - cool to 930 C(0.5 C/h)" "Preparation and properties of (Y,Eu)-123 superconducting single crystals" 2003 "Department of Materials Physics, University of Science and Technology Beijing, Beijing , China" "Physica C, 390(2003)254"
33982 PHC3900254 "niminal=Y:Eu:Ba:Cu=0.8:0.2:2:3, composition by ICP. Al-content from Al2O3 crucible." "(Y,Eu)(Ba,Eu)2(Cu,Al)3O7" Y0.88Eu0.17Ba1.95Cu2.82Al0.32O7-z Y 0.88 Eu 0.17 Ba 1.95 Cu 2.82 Al 0.32 O 7-z 3 2003 Y123 K 67.5 67.5 "self-flux method using Al2O3 crucible. heat(1015C,12h) - cool to 930 C(0.5 C/h)" "Preparation and properties of (Y,Eu)-123 superconducting single crystals" 2003 "Department of Materials Physics, University of Science and Technology Beijing, Beijing , China" "Physica C, 390(2003)254"
33983 PHC3900254 "niminal=Y:Eu:Ba:Cu=0.7:0.3:2:3, composition by ICP. Al-content from Al2O3 crucible." "(Y,Eu)(Ba,Eu)2(Cu,Al)3O7" Y0.74Eu0.35Ba1.91Cu2.81Al0.3O7-z Y 0.74 Eu 0.35 Ba 1.91 Cu 2.81 Al 0.3 O 7-z 3 2003 Y123 K 59.9 59.9 "self-flux method using Al2O3 crucible. heat(1015C,12h) - cool to 930 C(0.5 C/h)" "Preparation and properties of (Y,Eu)-123 superconducting single crystals" 2003 "Department of Materials Physics, University of Science and Technology Beijing, Beijing , China" "Physica C, 390(2003)254"
33984 PHC3900254 "niminal=Y:Eu:Ba:Cu=0.6:0.4:2:3, composition by ICP. Al-content from Al2O3 crucible." "(Y,Eu)(Ba,Eu)2(Cu,Al)3O7" Y0.68Eu0.39Ba1.93Cu2.73Al0.32O7-z Y 0.68 Eu 0.39 Ba 1.93 Cu 2.73 Al 0.32 O 7-z 3 2003 Y123 K 47.5 47.5 "self-flux method using Al2O3 crucible. heat(1015C,12h) - cool to 930 C(0.5 C/h)" "Preparation and properties of (Y,Eu)-123 superconducting single crystals" 2003 "Department of Materials Physics, University of Science and Technology Beijing, Beijing , China" "Physica C, 390(2003)254"
33985 PHC3900254 "niminal=Y:Eu:Ba:Cu=0.5:0.5:2:3, composition by ICP. Al-content from Al2O3 crucible." "(Y,Eu)(Ba,Eu)2(Cu,Al)3O7" Y0.52Eu0.58Ba1.9Cu2.69Al0.42O7-z Y 0.52 Eu 0.58 Ba 1.9 Cu 2.69 Al 0.42 O 7-z 3 2003 Y123 K 42.4 42.4 "self-flux method using Al2O3 crucible. heat(1015C,12h) - cool to 930 C(0.5 C/h)" "Preparation and properties of (Y,Eu)-123 superconducting single crystals" 2003 "Department of Materials Physics, University of Science and Technology Beijing, Beijing , China" "Physica C, 390(2003)254"
33986 JP01103169 Bi:Sr:Ca:Er:Cu=1.9:1.9:1.2:0:2 by ICP. Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 3 2003 Bi2212 A 30.85 K 84 84 "self-flux method. using Al2O3 crucible. heat(900C,10h) - cool to 760C at 2 C/h." Anisotropic resistivity of the antiferromagnetic insulator Bi2Sr2ErCu2O8 2003 "Department of Applied Physics, Waseda University, Tokyo, Japan" "J.Phys.: Condens.Matter, 11(1999)3169"
33987 JP01103169 Bi:Sr:Ca:Er:Cu=1.6:1.8:1.2:0.1:2 by ICP. "Bi2Sr2(Ca,Er)Cu2O8" Bi2Sr2Ca0.9Er0.1Cu2O8 Bi 2 Sr 2 Ca 0.9 Er 0.1 Cu 2 O 8 3 2003 Bi2212 A 30.9 K 87 87 "self-flux method. using Al2O3 crucible. heat(1020C,10h) - cool to 820C at 2 C/h." Anisotropic resistivity of the antiferromagnetic insulator Bi2Sr2ErCu2O8 2003 "Department of Applied Physics, Waseda University, Tokyo, Japan" "J.Phys.: Condens.Matter, 11(1999)3169"
33988 JP01103169 Bi:Sr:Ca:Er:Cu=1.6:1.9:1.0:0.5:2 by ICP. R/R = maximum at 240 K. "Bi2Sr2(Ca,Er)Cu2O8" Bi2Sr2Ca0.5Er0.5Cu2O8 Bi 2 Sr 2 Ca 0.5 Er 0.5 Cu 2 O 8 3 2003 Bi2212 A 30.32 K 4.2 "self-flux method. using Al2O3 crucible. heat(1020C,10h) - cool to 820C at 2 C/h." Anisotropic resistivity of the antiferromagnetic insulator Bi2Sr2ErCu2O8 2003 "Department of Applied Physics, Waseda University, Tokyo, Japan" "J.Phys.: Condens.Matter, 11(1999)3169"
33989 JP01103169 Bi:Sr:Ca:Er:Cu=2.0:2.1:0:0.6:2 by ICP. R/R = maximum at 90 K. Bi2Sr2ErCu2O8 Bi2Sr2Er1Cu2O8 Bi 2 Sr 2 Er 1 Cu 2 O 8 3 2003 Bi2212 A 30.33 K 10 "self-flux method. using Al2O3 crucible. heat(1020C,10h) - cool to 820C at 2 C/h." Anisotropic resistivity of the antiferromagnetic insulator Bi2Sr2ErCu2O8 2003 "Department of Applied Physics, Waseda University, Tokyo, Japan" "J.Phys.: Condens.Matter, 11(1999)3169"
33990 P067172501 hole/Cu = 0.17 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.9Pr0.1Cu2O8 Bi 2 Sr 2 Ca 0.9 Pr 0.1 Cu 2 O 8 3 2003 Bi2212 K 86 86 "self-flux method. See J.Phys.:Condens.Matter, 11(1999)3169" "Chemical potential shift in lightly doped to overdoped Bi2Sr2Ca1-xRxCu2O8+y (R=Pr, Er)" 2003 "Department of Physics and Department of Complexity Science and Engineering, University of Tokyo, Bunkyo-ku, Tokyo, Japan" "Phys.Rev.B, 67(2003)172501"
33991 P067172501 hole/Cu = 0.135 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.75Pr0.25Cu2O8 Bi 2 Sr 2 Ca 0.75 Pr 0.25 Cu 2 O 8 3 2003 Bi2212 K 88 88 "self-flux method. See J.Phys.:Condens.Matter, 11(1999)3169" "Chemical potential shift in lightly doped to overdoped Bi2Sr2Ca1-xRxCu2O8+y (R=Pr, Er)" 2003 "Department of Physics and Department of Complexity Science and Engineering, University of Tokyo, Bunkyo-ku, Tokyo, Japan" "Phys.Rev.B, 67(2003)172501"
33992 P067172501 hole/Cu = 0.1 "Bi2Sr2(Ca,Pr)Cu2O8" Bi2Sr2Ca0.57Pr0.43Cu2O8 Bi 2 Sr 2 Ca 0.57 Pr 0.43 Cu 2 O 8 3 2003 Bi2212 K 48 48 "self-flux method. See J.Phys.:Condens.Matter, 11(1999)3169" "Chemical potential shift in lightly doped to overdoped Bi2Sr2Ca1-xRxCu2O8+y (R=Pr, Er)" 2003 "Department of Physics and Department of Complexity Science and Engineering, University of Tokyo, Bunkyo-ku, Tokyo, Japan" "Phys.Rev.B, 67(2003)172501"
33993 P067172501 hole/Cu = 0.135 "Bi2Sr2(Ca,Er)Cu2O8" Bi2Sr2Ca0.9Er0.1Cu2O8 Bi 2 Sr 2 Ca 0.9 Er 0.1 Cu 2 O 8 3 2003 Bi2212 K 87 87 "self-flux method. See J.Phys.:Condens.Matter, 11(1999)3169" "Chemical potential shift in lightly doped to overdoped Bi2Sr2Ca1-xRxCu2O8+y (R=Pr, Er)" 2003 "Department of Physics and Department of Complexity Science and Engineering, University of Tokyo, Bunkyo-ku, Tokyo, Japan" "Phys.Rev.B, 67(2003)172501"
33994 P067172501 AF. hole/Cu = 0.05 "Bi2Sr2(Ca,Er)Cu2O8" Bi2Sr2Ca0.5Er0.5Cu2O8 Bi 2 Sr 2 Ca 0.5 Er 0.5 Cu 2 O 8 3 2003 50 Bi2212 K "self-flux method. See J.Phys.:Condens.Matter, 11(1999)3169" "Chemical potential shift in lightly doped to overdoped Bi2Sr2Ca1-xRxCu2O8+y (R=Pr, Er)" 2003 "Department of Physics and Department of Complexity Science and Engineering, University of Tokyo, Bunkyo-ku, Tokyo, Japan" "Phys.Rev.B, 67(2003)172501"
33995 P067172501 AF. hole/Cu = 0.025 Bi2Sr2ErCu2O8 Bi2Sr2Er1Cu2O8 Bi 2 Sr 2 Er 1 Cu 2 O 8 3 2003 230 Bi2212 K "self-flux method. See J.Phys.:Condens.Matter, 11(1999)3169" "Chemical potential shift in lightly doped to overdoped Bi2Sr2Ca1-xRxCu2O8+y (R=Pr, Er)" 2003 "Department of Physics and Department of Complexity Science and Engineering, University of Tokyo, Bunkyo-ku, Tokyo, Japan" "Phys.Rev.B, 67(2003)172501"
33996 P067172502 small ferromagnetic component appears. RuSr2YCu2O8 Ru0.9Sr2Y1Cu2.1O7.9 Ru 0.9 Sr 2 Y 1 Cu 2.1 O 8 7.9 2003 150 Ru1212 K 30 30 high-T-high-P process. Bulk superconductivity in Ru0.9Sr2YCu2.1O7.9 2003 "National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki, Japan" "Phys.Rev.B, 67(2003)172502"
33997 P067184512 LaCuO4 La2Cu1O4 La 2 Cu 1 O 4 3 2003 T K THC33997 TSFZ method Heat transport of La2-yEuyCuO4 and La1.88-yEuySr0.12CuO4 single crystals 2003 "Central Research Institute of Electric Power Industry, Komae, Tokyo, Japan" "Phys.Rev.B, 67(2003)184512"
33998 P067184512 ANN(flowing He) "(La,Eu)2CuO4" La1.98Eu0.02Cu1O4 La 1.98 Eu 0.02 Cu 1 O 4 3 2003 T K THC33998 TSFZ method Heat transport of La2-yEuyCuO4 and La1.88-yEuySr0.12CuO4 single crystals 2003 "Central Research Institute of Electric Power Industry, Komae, Tokyo, Japan" "Phys.Rev.B, 67(2003)184512"
33999 P067184512 ANN(flowing He) "(La,Eu)2CuO4" La1.8Eu0.2Cu1O4 La 1.8 Eu 0.2 Cu 1 O 4 3 2003 T K THC33999 TSFZ method Heat transport of La2-yEuyCuO4 and La1.88-yEuySr0.12CuO4 single crystals 2003 "Central Research Institute of Electric Power Industry, Komae, Tokyo, Japan" "Phys.Rev.B, 67(2003)184512"
34000 P067184512 "ANN(850C,48h,in air)" "(La,Sr)2CuO4" La1.88Sr0.12Cu1O4 La 1.88 Sr 0.12 Cu 1 O 4 3 2003 T K 32 32 THC34000 TSFZ method Heat transport of La2-yEuyCuO4 and La1.88-yEuySr0.12CuO4 single crystals 2003 "Central Research Institute of Electric Power Industry, Komae, Tokyo, Japan" "Phys.Rev.B, 67(2003)184512"
34001 P067184512 "ANN(850C,48h,in air). filamentary S/C" "(La,Eu,Sr)2CuO4" La0.68Eu0.2Sr0.12Cu1O4 La 0.68 Eu 0.2 Sr 0.12 Cu 1 O 4 3 2003 T K 5 5 THC34001 TSFZ method Heat transport of La2-yEuyCuO4 and La1.88-yEuySr0.12CuO4 single crystals 2003 "Central Research Institute of Electric Power Industry, Komae, Tokyo, Japan" "Phys.Rev.B, 67(2003)184512"
34002 PHC3910001 Jc measured by M. YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.816 3.882 11.673 K 93.1 93.1 "mixture - pellet - CAL(940C,48h, in air) - SIN(920C,24h,in flowing O2) - slow cooling to 400C(1C/min) - ANN(400C, 24h) - FC to RT" "The effect of rare-earth substitution at the Ba site on the flux pinning properties of Y(Ba2-xRx)Cu3O7-d (for R = La,Pr,and Nd)" 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)1"
34003 PHC3910001 Jc measured by M. "Y(Ba,La)2Cu3O7" Y1Ba2.98La0.02Cu3O7-z Y 1 Ba 2.98 La 0.02 Cu 3 O 7-z 1 2003 Y123 A 3.819 3.879 11.664 K 94 94 "mixture - pellet - CAL(940C,48h, in air) - SIN(920C,24h,in flowing O2) - slow cooling to 400C(1C/min) - ANN(400C, 24h) - FC to RT" "The effect of rare-earth substitution at the Ba site on the flux pinning properties of Y(Ba2-xRx)Cu3O7-d (for R = La,Pr,and Nd)" 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)1"
34004 PHC3910001 Jc measured by M. "Y(Ba,La)2Cu3O7" Y1Ba2.95La0.05Cu3O7-z Y 1 Ba 2.95 La 0.05 Cu 3 O 7-z 1 2003 Y123 A 3.814 3.876 11.649 K 94.5 94.5 "mixture - pellet - CAL(940C,48h, in air) - SIN(920C,24h,in flowing O2) - slow cooling to 400C(1C/min) - ANN(400C, 24h) - FC to RT" "The effect of rare-earth substitution at the Ba site on the flux pinning properties of Y(Ba2-xRx)Cu3O7-d (for R = La,Pr,and Nd)" 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)1"
34005 PHC3910001 Jc measured by M. "Y(Ba,La)2Cu3O7" Y1Ba2.92La0.08Cu3O7-z Y 1 Ba 2.92 La 0.08 Cu 3 O 7-z 1 2003 Y123 A 3.816 3.873 11.646 K 94.2 94.2 "mixture - pellet - CAL(940C,48h, in air) - SIN(920C,24h,in flowing O2) - slow cooling to 400C(1C/min) - ANN(400C, 24h) - FC to RT" "The effect of rare-earth substitution at the Ba site on the flux pinning properties of Y(Ba2-xRx)Cu3O7-d (for R = La,Pr,and Nd)" 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)1"
34006 PHC3910001 Jc measured by M. "Y(Ba,La)2Cu3O7" Y1Ba2.88La0.12Cu3O7-z Y 1 Ba 2.88 La 0.12 Cu 3 O 7-z 1 2003 Y123 A 3.819 3.876 11.655 K 93.3 93.3 "mixture - pellet - CAL(940C,48h, in air) - SIN(920C,24h,in flowing O2) - slow cooling to 400C(1C/min) - ANN(400C, 24h) - FC to RT" "The effect of rare-earth substitution at the Ba site on the flux pinning properties of Y(Ba2-xRx)Cu3O7-d (for R = La,Pr,and Nd)" 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)1"
34007 PHC3910001 Jc measured by M. "Y(Ba,La)2Cu3O7" Y1Ba2.85La0.15Cu3O7-z Y 1 Ba 2.85 La 0.15 Cu 3 O 7-z 1 2003 Y123 A 3.819 3.876 11.652 K 89.9 89.9 "mixture - pellet - CAL(940C,48h, in air) - SIN(920C,24h,in flowing O2) - slow cooling to 400C(1C/min) - ANN(400C, 24h) - FC to RT" "The effect of rare-earth substitution at the Ba site on the flux pinning properties of Y(Ba2-xRx)Cu3O7-d (for R = La,Pr,and Nd)" 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)1"
34008 PHC3910001 "Y(Ba,Pr)2Cu3O7" Y1Ba2.98Pr0.02Cu3O7-z Y 1 Ba 2.98 Pr 0.02 Cu 3 O 7-z 1 2003 Y123 A 3.819 3.88 11.667 K 93.3 93.3 "mixture - pellet - CAL(940C,48h, in air) - SIN(920C,24h,in flowing O2) - slow cooling to 400C(1C/min) - ANN(400C, 24h) - FC to RT" "The effect of rare-earth substitution at the Ba site on the flux pinning properties of Y(Ba2-xRx)Cu3O7-d (for R = La,Pr,and Nd)" 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)1"
34009 PHC3910001 "Y(Ba,Pr)2Cu3O7" Y1Ba2.95Pr0.05Cu3O7-z Y 1 Ba 2.95 Pr 0.05 Cu 3 O 7-z 1 2003 Y123 A 3.81 3.874 11.649 K 92.7 92.7 "mixture - pellet - CAL(940C,48h, in air) - SIN(920C,24h,in flowing O2) - slow cooling to 400C(1C/min) - ANN(400C, 24h) - FC to RT" "The effect of rare-earth substitution at the Ba site on the flux pinning properties of Y(Ba2-xRx)Cu3O7-d (for R = La,Pr,and Nd)" 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)1"
34010 PHC3910001 "Y(Ba,Pr)2Cu3O7" Y1Ba2.92Pr0.08Cu3O7-z Y 1 Ba 2.92 Pr 0.08 Cu 3 O 7-z 1 2003 Y123 A 3.817 3.88 11.667 K 91.2 91.2 "mixture - pellet - CAL(940C,48h, in air) - SIN(920C,24h,in flowing O2) - slow cooling to 400C(1C/min) - ANN(400C, 24h) - FC to RT" "The effect of rare-earth substitution at the Ba site on the flux pinning properties of Y(Ba2-xRx)Cu3O7-d (for R = La,Pr,and Nd)" 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)1"
34011 PHC3910001 "Y(Ba,Pr)2Cu3O7" Y1Ba2.88Pr0.12Cu3O7-z Y 1 Ba 2.88 Pr 0.12 Cu 3 O 7-z 1 2003 Y123 A 3.817 3.877 11.661 K 88.2 88.2 "mixture - pellet - CAL(940C,48h, in air) - SIN(920C,24h,in flowing O2) - slow cooling to 400C(1C/min) - ANN(400C, 24h) - FC to RT" "The effect of rare-earth substitution at the Ba site on the flux pinning properties of Y(Ba2-xRx)Cu3O7-d (for R = La,Pr,and Nd)" 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)1"
34012 PHC3910001 "Y(Ba,Pr)2Cu3O7" Y1Ba2.85Pr0.15Cu3O7-z Y 1 Ba 2.85 Pr 0.15 Cu 3 O 7-z 1 2003 Y123 A 3.819 3.877 11.661 K 83.6 83.6 "mixture - pellet - CAL(940C,48h, in air) - SIN(920C,24h,in flowing O2) - slow cooling to 400C(1C/min) - ANN(400C, 24h) - FC to RT" "The effect of rare-earth substitution at the Ba site on the flux pinning properties of Y(Ba2-xRx)Cu3O7-d (for R = La,Pr,and Nd)" 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)1"
34013 PHC3910001 "Y(Ba,Nd)2Cu3O7" Y1Ba2.95Nd0.05Cu3O7-z Y 1 Ba 2.95 Nd 0.05 Cu 3 O 7-z 1 2003 Y123 A 3.819 3.884 11.673 K 93.7 93.7 "mixture - pellet - CAL(940C,48h, in air) - SIN(920C,24h,in flowing O2) - slow cooling to 400C(1C/min) - ANN(400C, 24h) - FC to RT" "The effect of rare-earth substitution at the Ba site on the flux pinning properties of Y(Ba2-xRx)Cu3O7-d (for R = La,Pr,and Nd)" 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)1"
34014 PHC3910001 "Y(Ba,Nd)2Cu3O7" Y1Ba2.92Nd0.08Cu3O7-z Y 1 Ba 2.92 Nd 0.08 Cu 3 O 7-z 1 2003 Y123 A 3.819 3.884 11.676 K 93.5 93.5 "mixture - pellet - CAL(940C,48h, in air) - SIN(920C,24h,in flowing O2) - slow cooling to 400C(1C/min) - ANN(400C, 24h) - FC to RT" "The effect of rare-earth substitution at the Ba site on the flux pinning properties of Y(Ba2-xRx)Cu3O7-d (for R = La,Pr,and Nd)" 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)1"
34015 PHC3910001 "Y(Ba,Nd)2Cu3O7" Y1Ba2.88Nd0.12Cu3O7-z Y 1 Ba 2.88 Nd 0.12 Cu 3 O 7-z 1 2003 Y123 A 3.82 3.884 11.673 K 93.2 93.2 "mixture - pellet - CAL(940C,48h, in air) - SIN(920C,24h,in flowing O2) - slow cooling to 400C(1C/min) - ANN(400C, 24h) - FC to RT" "The effect of rare-earth substitution at the Ba site on the flux pinning properties of Y(Ba2-xRx)Cu3O7-d (for R = La,Pr,and Nd)" 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)1"
34016 PHC3910001 "Y(Ba,Nd)2Cu3O7" Y1Ba2.85Nd0.15Cu3O7-z Y 1 Ba 2.85 Nd 0.15 Cu 3 O 7-z 1 2003 Y123 A 3.82 3.882 11.673 K 93.2 93.2 "mixture - pellet - CAL(940C,48h, in air) - SIN(920C,24h,in flowing O2) - slow cooling to 400C(1C/min) - ANN(400C, 24h) - FC to RT" "The effect of rare-earth substitution at the Ba site on the flux pinning properties of Y(Ba2-xRx)Cu3O7-d (for R = La,Pr,and Nd)" 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)1"
34017 PHC3910008 Jc-Fig shows Jc(H) at 70 K. YbBa2Cu3O7 Yb1Ba2Cu3O7-z Yb 1 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.804 3.874 11.654 K 91 91 JC34017 1 "ANN(400C, 48h) - cool to RT(!c/min)" Effects of Pr-doping on the pinning properties in YbBa2Cu3O7-d 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)8"
34018 PHC3910008 Jc-Fig shows Jc(H) at 70 K. "(Yb,Pr)Ba2Cu3O7" Yb0.98Pr0.02Ba2Cu3O7-z Yb 0.98 Pr 0.02 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.806 3.877 11.667 K 91.3 91.3 JC34017 1 "ANN(400C, 48h) - cool to RT(!c/min)" Effects of Pr-doping on the pinning properties in YbBa2Cu3O7-d 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)8"
34019 PHC3910008 Jc-Fig shows Jc(H) at 70 K. "(Yb,Pr)Ba2Cu3O7" Yb0.96Pr0.04Ba2Cu3O7-z Yb 0.96 Pr 0.04 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.808 3.877 11.667 K 91.6 91.6 JC34017 1 "ANN(400C, 48h) - cool to RT(!c/min)" Effects of Pr-doping on the pinning properties in YbBa2Cu3O7-d 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)8"
34020 PHC3910008 Jc-Fig shows Jc(H) at 70 K. "(Yb,Pr)Ba2Cu3O7" Yb0.94Pr0.06Ba2Cu3O7-z Yb 0.94 Pr 0.06 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.807 3.875 11.656 K 91.5 91.5 JC34017 1 "ANN(400C, 48h) - cool to RT(!c/min)" Effects of Pr-doping on the pinning properties in YbBa2Cu3O7-d 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)8"
34021 PHC3910008 Jc-Fig shows Jc(H) at 70 K. "(Yb,Pr)Ba2Cu3O7" Yb0.92Pr0.08Ba2Cu3O7-z Yb 0.92 Pr 0.08 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.81 3.877 11.663 K 91.2 91.2 JC34017 1 "ANN(400C, 48h) - cool to RT(!c/min)" Effects of Pr-doping on the pinning properties in YbBa2Cu3O7-d 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)8"
34022 PHC3910008 "(Yb,Pr)Ba2Cu3O7" Yb0.9Pr0.1Ba2Cu3O7-z Yb 0.9 Pr 0.1 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.809 3.874 11.653 K 89.9 89.9 JC34017 1 "ANN(400C, 48h) - cool to RT(!c/min)" Effects of Pr-doping on the pinning properties in YbBa2Cu3O7-d 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)8"
34023 PHC3910008 "(Yb,Pr)Ba2Cu3O7" Yb0.85Pr0.15Ba2Cu3O7-z Yb 0.85 Pr 0.15 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.811 3.876 11.659 K 87.5 87.5 JC34017 1 "ANN(400C, 48h) - cool to RT(!c/min)" Effects of Pr-doping on the pinning properties in YbBa2Cu3O7-d 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)8"
34024 PHC3910008 "(Yb,Pr)Ba2Cu3O7" Yb0.8Pr0.2Ba2Cu3O7-z Yb 0.8 Pr 0.2 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.814 3.874 11.654 K 82.9 82.9 JC34017 1 "ANN(400C, 48h) - cool to RT(!c/min)" Effects of Pr-doping on the pinning properties in YbBa2Cu3O7-d 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)8"
34025 PHC3910008 "(Yb,Pr)Ba2Cu3O7" Yb0.75Pr0.25Ba2Cu3O7-z Yb 0.75 Pr 0.25 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.819 3.88 11.666 K 76.1 76.1 1 "ANN(400C, 48h) - cool to RT(!c/min)" Effects of Pr-doping on the pinning properties in YbBa2Cu3O7-d 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)8"
34026 PHC3910008 "(Yb,Pr)Ba2Cu3O7" Yb0.7Pr0.3Ba2Cu3O7-z Yb 0.7 Pr 0.3 Ba 2 Cu 3 O 7-z 1 2003 Y123 A 3.827 3.878 11.667 K 68 68 JC34017 1 "ANN(400C, 48h) - cool to RT(!c/min)" Effects of Pr-doping on the pinning properties in YbBa2Cu3O7-d 2003 "Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University, Gokasho, Uji, Kyoto 611-0011, Japan" "Physica C, 391(2003)8"
34027 PHC3570318 "not s/c. nominal composition. two step FM. second Tm = 40 K, maybe Nd-ordering" "(Nd,Ce)2CaCu2O6" Nd2.16Ce0.225Ca1Cu2O6.69 Nd 2.16 Ce 0.225 Ca 1 Cu 2 O z 6.69 2001 150 212 A 3.845 19.349 K "high-pressure synthesis(1200 - 1300C, 6GPa)" "High-pressure synthesis of 0212-, 1201- and 1212-type copper oxides" 2001 "NIMS, Tsububa-shi, Ibaraki, Japan" "Physica C, 357-360(2001)318"
34028 PHC3570121 "not s/c. In M-H curves, FC-ZFC branching at 150K is due to Ru-moment. FM or AF not clear" RuSr2PrCu2O8 Ru1Sr2Pr1Cu2O8-z Ru 1 Sr 2 Pr 1 Cu 2 O 8-z 1 2001 150 Ru1212 P4/mmm A 3.8922 11.6355 K 5 "See Physica C, 341-348(2000)457" Synthesis and magnetism of Pr-based rutheno-cuprate compound RuSr2PrCu2O8-z 2001 "Materials and Structures Lab, Tokyo Institute of Technology, Nagatsuta, Midori-ku, Yokohama, Japan" "Physica C, 357-360(2001)121"
34029 PHC3570393 Li-intercalated layered Nb-oxide. LixRbCa2Nb3O10 Li0.17Rb1Ca2Nb3O10 Li 0.17 Rb 1 Ca 2 Nb 3 O 10 2001 K 2 Li-intercalation by electrochemical method using electrode AB2Nb3O10/1.0M-LiClO4/PC/Pt. "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393"
34030 PHC3570393 Li-intercalated layered Nb-oxide. LixRbCa2Nb3O10 Li0.34Rb1Ca2Nb3O10 Li 0.34 Rb 1 Ca 2 Nb 3 O 10 2001 A 7.721 K 3.5 3.5 Li-intercalation by electrochemical method using electrode AB2Nb3O10/1.0M-LiClO4/PC/Pt. "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393"
34031 PHC3570393 Li-intercalated layered Nb-oxide. LixRbCa2Nb3O10 Li0.46Rb1Ca2Nb3O10 Li 0.46 Rb 1 Ca 2 Nb 3 O 10 2001 K 3.51 3.51 Li-intercalation by electrochemical method using electrode AB2Nb3O10/1.0M-LiClO4/PC/Pt. "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393"
34032 PHC3570393 Li-intercalated layered Nb-oxide. LixRbCa2Nb3O10 Li0.62Rb1Ca2Nb3O10 Li 0.62 Rb 1 Ca 2 Nb 3 O 10 2001 K 2.7 2.7 Li-intercalation by electrochemical method using electrode AB2Nb3O10/1.0M-LiClO4/PC/Pt. "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393"
34033 PHC3570393 Li-intercalated layered Nb-oxide. LixCsCa2Nb3O10 Li0.17Cs1Ca2Nb3O10 Li 0.17 Cs 1 Ca 2 Nb 3 O 10 2001 K 2 Li-intercalation by electrochemical method using electrode AB2Nb3O10/1.0M-LiClO4/PC/Pt. "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393"
34034 PHC3570393 Li-intercalated layered Nb-oxide. LixCsCa2Nb3O10 Li0.28Cs1Ca2Nb3O10 Li 0.28 Cs 1 Ca 2 Nb 3 O 10 2001 K 5.51 5.51 Li-intercalation by electrochemical method using electrode AB2Nb3O10/1.0M-LiClO4/PC/Pt. "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393"
34035 PHC3570393 Li-intercalated layered Nb-oxide. LixCsCa2Nb3O10 Li0.34Cs1Ca2Nb3O10 Li 0.34 Cs 1 Ca 2 Nb 3 O 10 2001 A 7.7477 K 5.4 5.4 Li-intercalation by electrochemical method using electrode AB2Nb3O10/1.0M-LiClO4/PC/Pt. "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393"
34036 PHC3570393 Li-intercalated layered Nb-oxide. LixCsCa2Nb3O10 Li0.46Cs1Ca2Nb3O10 Li 0.46 Cs 1 Ca 2 Nb 3 O 10 2001 K 5.29 5.29 Li-intercalation by electrochemical method using electrode AB2Nb3O10/1.0M-LiClO4/PC/Pt. "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393"
34037 PHC3570393 Li-intercalated layered Nb-oxide. LixCsCa2Nb3O10 Li0.62Cs1Ca2Nb3O10 Li 0.62 Cs 1 Ca 2 Nb 3 O 10 2001 K 4.71 4.71 Li-intercalation by electrochemical method using electrode AB2Nb3O10/1.0M-LiClO4/PC/Pt. "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393"
34038 PHC3570393 Li-intercalated layered Nb-oxide. LixRbSr2Nb3O10 Li0.34Rb1Sr2Nb3O10 Li 0.34 Rb 1 Sr 2 Nb 3 O 10 2001 A 7.7938 K 6.01 6.01 Li-intercalation by electrochemical method using electrode AB2Nb3O10/1.0M-LiClO4/PC/Pt. "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393"
34039 PHC3570393 Li-intercalated layered Nb-oxide. LixKCa2Nb3O10 Li0.34K1Ca2Nb3O10 Li 0.34 K 1 Ca 2 Nb 3 O 10 2001 A 7.7345 K 5.42 5.42 Li-intercalation by electrochemical method using electrode AB2Nb3O10/1.0M-LiClO4/PC/Pt. "Electrochemical intercalation of lithium in layered niobates AB2Nb3O10 (A=K,Rb,Cs; B=Ca, Sr) and their superconductivity" 2001 "Materials and Structures Lab, Tokyo Institute of Technology,Nagatsuda, Midori-ku, Yokohama, Japan" "Physica C, 357(2001)393"
34040 PHC3570406 FM Curie-T from M measurements RuSr2SmCu2O8 Ru1Sr2Sm1Cu2O8 Ru 1 Sr 2 Sm 1 Cu 2 O 8 1 2001 146 Ru1212 A 3.8402 11.5701 K 12 12 "precursor(RuSr2(Sm or Eu)O6 + 2CuO, then mixture - SIN(1040,1045, 1050, 1055C, in flowing O2)" "Ferromagnetism and superconductivity in RuSr2RCu2O8 (R = Sm, Eu, Gd)" 2001 "Institute of Materials Science, University of Tsukuba, Tsukuba, Ibaraki, Japan" "Physica C, 357-360(2001)406"
34041 PHC3570406 FM Curie-T from M measurements RuSr2EuCu2O8 Ru1Sr2Eu1Cu2O8 Ru 1 Sr 2 Eu 1 Cu 2 O 8 1 2001 139 Ru1212 A 3.8394 11.5697 K 17 17 "precursor(RuSr2(Sm or Eu)O6 + 2CuO, then mixture - SIN(1040,1045, 1050, 1055C, in flowing O2)" "Ferromagnetism and superconductivity in RuSr2RCu2O8 (R = Sm, Eu, Gd)" 2001 "Institute of Materials Science, University of Tsukuba, Tsukuba, Ibaraki, Japan" "Physica C, 357-360(2001)406"
34042 PHC3570406 FM Curie-T from M measurements RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 1 2001 136 Ru1212 A 3.8376 11.5694 K 36 36 "precursor(RuSr2(Sm or Eu)O6 + 2CuO, then mixture - SIN(1040,1045, 1050, 1055C, in flowing O2)" "Ferromagnetism and superconductivity in RuSr2RCu2O8 (R = Sm, Eu, Gd)" 2001 "Institute of Materials Science, University of Tsukuba, Tsukuba, Ibaraki, Japan" "Physica C, 357-360(2001)406"
34043 PHC3570414 composition by EDX. starting compo. = 0.45KO2 + 0.5BaO + 0.1BaO2 + 0.5Bi2O3. "(Ba,K)BiO3" Ba0.635K0.365Bi1O3 Ba 0.635 K 0.365 Bi 1 O 3 1 2001 BKBO A 4.2938 K 30.4 30.4 "high-T-high-P synthesis (900C, 1h, under 5 GPa)" Superconductivity in the Ba1-xKxBiO3 system 2001 "School of Physics and Condensed Matter Research Institute, Seoul National University, Seoul, South Korea" "Physica C, 357-360(2001)414"
34044 PHC3570414 composition by EDX. starting compo. = 0.52KO2 + 0.5BaO + 0.5Bi2O3 "(Ba,K)BiO3" Ba0.557K0.443Bi1O3 Ba 0.557 K 0.443 Bi 1 O 3 1 2001 BKBO A 4.2734 K 25 25 "high-T-high-P synthesis (900C, 1h, under 5 GPa)" Superconductivity in the Ba1-xKxBiO3 system 2001 "School of Physics and Condensed Matter Research Institute, Seoul National University, Seoul, South Korea" "Physica C, 357-360(2001)414"
34045 PHC3570414 composition by EDX. starting compo. = 0.63KO2 + 0.4BaO + 0.5Bi2O3 "(Ba,K)BiO3" Ba0.445K0.555Bi1O3 Ba 0.445 K 0.555 Bi 1 O 3 1 2001 BKBO A 4.248 K 17 17 "high-T-high-P synthesis (900C, 1h, under 5 GPa)" Superconductivity in the Ba1-xKxBiO3 system 2001 "School of Physics and Condensed Matter Research Institute, Seoul National University, Seoul, South Korea" "Physica C, 357-360(2001)414"
34046 PHC3570414 composition by EDX. starting compo. = 0.74KO2 + 0.3BaO + 0.5Bi2O3 "(Ba,K)BiO3" Ba0.34K0.66Bi1O3 Ba 0.34 K 0.66 Bi 1 O 3 1 2001 BKBO A 4.2338 K 7 7 "high-T-high-P synthesis (900C, 1h, under 5 GPa)" Superconductivity in the Ba1-xKxBiO3 system 2001 "School of Physics and Condensed Matter Research Institute, Seoul National University, Seoul, South Korea" "Physica C, 357-360(2001)414"
34047 PHC3570414 composition by EDX. starting compo. = 0.84KO2 + 0.2BaO + 0.5Bi2O3 "(Ba,K)BiO3" Ba0.241K0.759Bi1O3 Ba 0.241 K 0.759 Bi 1 O 3 1 2001 BKBO A 4.2149 K 3 "high-T-high-P synthesis (1000C, under 7 GPa)" Superconductivity in the Ba1-xKxBiO3 system 2001 "School of Physics and Condensed Matter Research Institute, Seoul National University, Seoul, South Korea" "Physica C, 357-360(2001)414"
34048 PHC3570414 composition by EDX. starting compo. = 0.8KO2 + 0.15K + 0.1BaO + 0.5Bi2O3 "(Ba,K)BiO3" Ba0.19K0.81Bi1O3 Ba 0.19 K 0.81 Bi 1 O 3 1 2001 BKBO A 4.2164 K 8.4 8.4 "high-T-high-P synthesis (1000C, under 7 GPa)" Superconductivity in the Ba1-xKxBiO3 system 2001 "School of Physics and Condensed Matter Research Institute, Seoul National University, Seoul, South Korea" "Physica C, 357-360(2001)414"
34049 PHC3570414 composition by EDX. starting compo. = 1.05KO2 + 0.5Bi2O3 KBiO3 K1Bi1O3 K 1 Bi 1 O 3 1 2001 ABO3 A 4.2224 K 9 9 "high-T-high-P synthesis (1000C, under 7 GPa)" Superconductivity in the Ba1-xKxBiO3 system 2001 "School of Physics and Condensed Matter Research Institute, Seoul National University, Seoul, South Korea" "Physica C, 357-360(2001)414"
34050 PR04002690 G-L parameter=51. Hc(0)=1.64 kOe. "(Ba,Rb)BiO3" Ba0.6Rb0.4Bi1O3 Ba 0.6 Rb 0.4 Bi 1 O 3 1 1989 BKBO A 4.3 K 29 29 Oe M-H curve 90 T M(T) curve at H and WHH theory 11.8 T/K 0.59 A from Hc2(0) 53 A calculated from Hc(0) 2700 mj/mol.K2 2.4 calculated from Hc(0) "BaCO3,Rb2CO3,Bi2O3" 1 "mixture - CAL(750C, 12h, in flowing N2) - ANN(400C, 1h, in O2)" Superconducting properties of the Ba1-xRbxBiO3 system 1989 "Advanced Research Lab, Toshiba Research and Development Center, Saiwai-ku, Kawasaki, Japan" "Phys.Rev.B, 40(1989)2690"
34051 PHC3910049 RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 2003 Ru1212 A 3.838 11.579 K 31 45 38 1 "final annealing (1062C,1w, in flowing O2)" "Synthesis and superconductive characterisation of RuSr2NdxGd1-xCu2O8 compounds (x = 0, 0.09, 0.18, 0.35)" 2003 "INFM and Dipartimento di Chimica e Chimica Industriale, University of Genova, Via Dodecaneso 31, Genova, Italy" "Physica C, 391(2003)49"
34052 PHC3910049 "RuSr2(Gd,Nd)Cu2O8" Ru1Sr2Gd0.91Nd0.09Cu2O8 Ru 1 Sr 2 Gd 0.91 Nd 0.09 Cu 2 O 8 2003 Ru1212 A 3.838 11.579 K 11 36 23.5 1 "final annealing (1062C,1w, in flowing O2)" "Synthesis and superconductive characterisation of RuSr2NdxGd1-xCu2O8 compounds (x = 0, 0.09, 0.18, 0.35)" 2003 "INFM and Dipartimento di Chimica e Chimica Industriale, University of Genova, Via Dodecaneso 31, Genova, Italy" "Physica C, 391(2003)49"
34053 PHC3910049 T1<5 K "RuSr2(Gd,Nd)Cu2O8" Ru1Sr2Gd0.82Nd0.18Cu2O8 Ru 1 Sr 2 Gd 0.82 Nd 0.18 Cu 2 O 8 2003 Ru1212 A 3.844 11.572 K 21 21 1 "final annealing (1062C,1w, in flowing O2)" "Synthesis and superconductive characterisation of RuSr2NdxGd1-xCu2O8 compounds (x = 0, 0.09, 0.18, 0.35)" 2003 "INFM and Dipartimento di Chimica e Chimica Industriale, University of Genova, Via Dodecaneso 31, Genova, Italy" "Physica C, 391(2003)49"
34054 PHC3910049 not s/c. semicond. "RuSr2(Gd,Nd)Cu2O8" Ru1Sr2Gd0.65Nd0.35Cu2O8 Ru 1 Sr 2 Gd 0.65 Nd 0.35 Cu 2 O 8 2003 Ru1212 A 3.845 11.565 K 5 1 "final annealing (1062C,1w, in flowing O2)" "Synthesis and superconductive characterisation of RuSr2NdxGd1-xCu2O8 compounds (x = 0, 0.09, 0.18, 0.35)" 2003 "INFM and Dipartimento di Chimica e Chimica Industriale, University of Genova, Via Dodecaneso 31, Genova, Italy" "Physica C, 391(2003)49"
34055 PHC1690133 "secondary phases are 214 or 1212. samples with various Ce-, Eu-contents were investigated." "(Pb,Cu)(Eu,Ce)2(Sr,Eu)2Cu2Oz" Pb0.5Eu1.75Sr1.75Ce0.5Cu2.5Oz Pb 0.5 Eu 1.75 Sr 1.75 Ce 0.5 Cu 2.5 O z 1990 Pb1222 K 10 25 17.5 15 "mixture-CAL(850C,10h, in air)-heat(1080C,1h, in air)-ANN(800C, 10h, in O2)-stepwise cool to RT" "NEW SUPERCONDUCTING CUPRATES(PB,CU)(EU,CE)2(SR,EU)2CU2OZ" 1990 "SUPERCONDUCTIVITY RESEARCH LABORATORY, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, 10-13, SHINONOME 1-CHOME, KOTOKU,TOKYO 135, JAPAN" "PHYSICA C,169(1990)133" "PB,CU,EU,CE,SU,O"
34056 JAP0702234 nearly single phase "(Tl,Pb)Sr2(Eu,Ce)2Cu2O9" Tl0.5Pb0.5Sr2Eu1.8Ce0.2Cu2O9 Tl 0.5 Pb 0.5 Sr 2 Eu 1.8 Ce 0.2 Cu 2 O 9 1991 1222 A 3.91 29.98 K 40 40 1 "precursor(Sr2Eu1.8Ce0.2Cu2Oz) + add(PbO, 10 wt% excess -Tl2O3) - ANN(6bar-O2)" High-pressure oxygen-induced bulk superconductivity in 1222 structure Tl-Pb-Sr-Eu(Ce)-Cu-O 1991 "J.Appl.Phys., 70(1991)2234"
34057 PHC1930073 "(Pb,Cu)(Sr,Nd)2(Eu,Ce)2Cu2O9" Pb0.5Sr1.75Nd0.25Eu1.5Ce0.5Cu2.5O9 Pb 0.5 Sr 1.75 Nd 0.25 Eu 1.5 Ce 0.5 Cu 2.5 O 9 1 1992 Pb1222 K 32 32 "STRUCTURAL PROPERTIES OF (PB,CU)(SR,ND)2(HO,CE)2CU2O9-Z" 1992 4 "PHYSICA C,193(1992)73" "PB,CU,SR,ND,HO,CE,O"
34058 JP00705975 Tc is sensitive to SIN condition. SIN in O2. "(Pb,Cd)(Sr,Eu)2(Eu,Ce)2Cu2O9" Pb0.5Cd0.5Sr1.8Eu1.6Ce0.6Cu2O9 Pb 0.5 Cd 0.5 Sr 1.8 Eu 1.6 Ce 0.6 Cu 2 O 9 1 1995 Pb1222 A 3.8314 29.3902 K 35 43 39 "mixture-CAL(900C, overnight, in air)-pellet-SIN(1050C, 8h, in air or O2)" Crystal structure and superconductivity of new Pb-based 1222 cuprate (Pb0.5Cd0.5)(Sr0.9Eu0.1)2(Eu0.7Ce0.3)2Cu2O9+z 1995 "J.Phys.:Condens.Matter, 7(1995)5975"
34059 JP00705975 Tc is sensitive to SIN condition. SIN in air. "(Pb,Cd)(Sr,Eu)2(Eu,Ce)2Cu2O9" Pb0.5Cd0.5Sr1.8Eu1.6Ce0.6Cu2O9 Pb 0.5 Cd 0.5 Sr 1.8 Eu 1.6 Ce 0.6 Cu 2 O 9 1 1995 Pb1222 A 3.8443 29.3937 K 12 19 15.5 "mixture-CAL(900C, overnight, in air)-pellet-SIN(1050C, 8h, in air or O2)" Crystal structure and superconductivity of new Pb-based 1222 cuprate (Pb0.5Cd0.5)(Sr0.9Eu0.1)2(Eu0.7Ce0.3)2Cu2O9+z 1995 "J.Phys.:Condens.Matter, 7(1995)5975"
34060 PHC3900277 "X-ray analysis=Pr(Sr0.65Ba0.31Pr0.04)2(Cu0.94Al0.06)3Oz. Al from Al2O3 crucible. mag.prop. for H//c-axis. For H//ab, Curie-T=11.2 K, KAIZERO = 0.00045 emu/mol, Meff = 3.37 uB/f.u." "Pr(Sr,Ba,Pr)2Cu3O7" Pr1.3Sr1.3Ba0.6Cu3O6.98 Pr 1.3 Sr 1.3 Ba 0.6 Cu 3 O 7 6.98 3 2003 emu/mol 0.002 emu.K/mol 1.19 uB/f.u 3.08 21.7 Y123 A 3.908 11.401 K 4.2 "self-flux method using Al2O3 crucible. ANN(400C, 1w, in O2-flw)" Magnetic properties of Pr1.1Sr1.3Ba0.6Cu3O7 single crystals 2003 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Physica C, 390(2003)277"
34061 JJP0310L25 "(Pb,Cu)(Sr,La)2(Gd,La)2Cu2Oz" Pb0.5Sr1.45Gd1.95La0.6Cu2.5Oz Pb 0.5 Sr 1.45 Gd 1.95 La 0.6 Cu 2.5 O z 1 1992 Pb1222 A 3.845 29.091 K 20 20 "Sr2CuO3,PbO,La2O3,Ln2O3,CuO" 1 "mixture-pellet-heat(780C, 1h, in air)-SIN(900C, 16h, in air)-ANN(500C, 100h, in 100atm O2)" "New Pb-based cuprates with 1222 structure having no tetravalent ions, (Pb0.5Cu0.5)Sr2-xLn2-yLax+yCu2Oz (Ln:Gd,Dy,Ho and Er)" 1992 "University of Osaka Prefecture,Osaka,Japan" "Jpn.J.Appl.Phys., 31(1992)L25"
34062 JJP0310L25 semiconductor-like "(Pb,Cu)(Sr,La)2(Dy,La)2Cu2Oz" Pb0.5Sr1.55Dy1.8La0.65Cu2.5Oz Pb 0.5 Sr 1.55 Dy 1.8 La 0.65 Cu 2.5 O z 1 1992 Pb1222 A 3.815 29.089 K 4.2 "Sr2CuO3,PbO,La2O3,Ln2O3,CuO" 1 "mixture-pellet-heat(780C, 1h, in air)-SIN(900C, 16h, in air)-ANN(500C, 100h, in 100atm O2)" "New Pb-based cuprates with 1222 structure having no tetravalent ions, (Pb0.5Cu0.5)Sr2-xLn2-yLax+yCu2Oz (Ln:Gd,Dy,Ho and Er)" 1992 "University of Osaka Prefecture,Osaka,Japan" "Jpn.J.Appl.Phys., 31(1992)L25"
34063 JJP0310L25 semiconductor-like "(Pb,Cu)(Sr,La)2(Ho,La)2Cu2Oz" Pb0.5Sr1.6Ho1.75La0.65Cu2.5Oz Pb 0.5 Sr 1.6 Ho 1.75 La 0.65 Cu 2.5 O z 1 1992 Pb1222 A 3.81 29.07 K 4.2 "Sr2CuO3,PbO,La2O3,Ln2O3,CuO" 1 "mixture-pellet-heat(780C, 1h, in air)-SIN(900C, 16h, in air)-ANN(500C, 100h, in 100atm O2)" "New Pb-based cuprates with 1222 structure having no tetravalent ions, (Pb0.5Cu0.5)Sr2-xLn2-yLax+yCu2Oz (Ln:Gd,Dy,Ho and Er)" 1992 "University of Osaka Prefecture,Osaka,Japan" "Jpn.J.Appl.Phys., 31(1992)L25"
34064 JJP0310L25 semiconductor-like "(Pb,Cu)(Sr,La)2(Er,La)2Cu2Oz" Pb0.5Sr1.65Er1.75La0.6Cu2.5Oz Pb 0.5 Sr 1.65 Er 1.75 La 0.6 Cu 2.5 O z 1 1992 Pb1222 A 3.804 29.013 K 4.2 "Sr2CuO3,PbO,La2O3,Ln2O3,CuO" 1 "mixture-pellet-heat(780C, 1h, in air)-SIN(900C, 16h, in air)-ANN(500C, 100h, in 100atm O2)" "New Pb-based cuprates with 1222 structure having no tetravalent ions, (Pb0.5Cu0.5)Sr2-xLn2-yLax+yCu2Oz (Ln:Gd,Dy,Ho and Er)" 1992 "University of Osaka Prefecture,Osaka,Japan" "Jpn.J.Appl.Phys., 31(1992)L25"
34065 JPS0692917 sp-heat was measured. gamma not shown explicitly. "(La,Nd,Sr)2CuO4" La1.52Nd0.4Sr0.08Cu1O4 La 1.52 Nd 0.4 Sr 0.08 Cu 1 O 4 2000 T K 9.34 9.34 uV/K 73.2 TP34065 1 "mixture-pellet-SIN(1080C, 2d, in air)-FC to RT" Electronic specific heat of La2-x-zNdzSrxCu1-yZnyO4 up to room temperature 2000 "Department of Physics, Nagoya University, Nagoya, Japan" "J.Phys.Soc.Jpn, 69(2000)2917"
34066 JPS0692917 sp-heat was measured. gamma not shown explicitly. "(La,Nd,Sr)2CuO4" La1.5Nd0.4Sr0.1Cu1O4 La 1.5 Nd 0.4 Sr 0.1 Cu 1 O 4 2000 T K 9.1 9.1 uV/K 49 TP34066 1 "mixture-pellet-SIN(1080C, 2d, in air)-FC to RT" Electronic specific heat of La2-x-zNdzSrxCu1-yZnyO4 up to room temperature 2000 "Department of Physics, Nagoya University, Nagoya, Japan" "J.Phys.Soc.Jpn, 69(2000)2917"
34067 JPS0692917 sp-heat was measured. gamma not shown explicitly. "(La,Nd,Sr)2CuO4" La1.48Nd0.4Sr0.12Cu1O4 La 1.48 Nd 0.4 Sr 0.12 Cu 1 O 4 2000 T K 6.06 6.06 uV/K 32 TP34067 1 "mixture-pellet-SIN(1080C, 2d, in air)-FC to RT" Electronic specific heat of La2-x-zNdzSrxCu1-yZnyO4 up to room temperature 2000 "Department of Physics, Nagoya University, Nagoya, Japan" "J.Phys.Soc.Jpn, 69(2000)2917"
34068 JPS0692917 sp-heat was measured. gamma not shown explicitly. "(La,Nd,Sr)2CuO4" La1.45Nd0.4Sr0.15Cu1O4 La 1.45 Nd 0.4 Sr 0.15 Cu 1 O 4 2000 T K 13.6 13.6 uV/K 24.2 TP34068 1 "mixture-pellet-SIN(1080C, 2d, in air)-FC to RT" Electronic specific heat of La2-x-zNdzSrxCu1-yZnyO4 up to room temperature 2000 "Department of Physics, Nagoya University, Nagoya, Japan" "J.Phys.Soc.Jpn, 69(2000)2917"
34069 JPS0692917 sp-heat was measured. gamma not shown explicitly. "(La,Nd,Sr)2CuO4" La1.42Nd0.4Sr0.18Cu1O4 La 1.42 Nd 0.4 Sr 0.18 Cu 1 O 4 2000 T K 17.2 17.2 uV/K 9.18 TP34069 1 "mixture-pellet-SIN(1080C, 2d, in air)-FC to RT" Electronic specific heat of La2-x-zNdzSrxCu1-yZnyO4 up to room temperature 2000 "Department of Physics, Nagoya University, Nagoya, Japan" "J.Phys.Soc.Jpn, 69(2000)2917"
34070 JPS0692917 sp-heat was measured. gamma not shown explicitly. "(La,Nd,Sr)2CuO4" La1.4Nd0.4Sr0.2Cu1O4 La 1.4 Nd 0.4 Sr 0.2 Cu 1 O 4 2000 T K 17.7 17.7 uV/K 4.88 TP34070 1 "mixture-pellet-SIN(1080C, 2d, in air)-FC to RT" Electronic specific heat of La2-x-zNdzSrxCu1-yZnyO4 up to room temperature 2000 "Department of Physics, Nagoya University, Nagoya, Japan" "J.Phys.Soc.Jpn, 69(2000)2917"
34071 JPS0692917 sp-heat was measured. gamma not shown explicitly. "(La,Nd,Sr)2CuO4" La1.35Nd0.4Sr0.25Cu1O4 La 1.35 Nd 0.4 Sr 0.25 Cu 1 O 4 2000 T K 8.33 8.33 uV/K -1.37 TP34071 1 "mixture-pellet-SIN(1080C, 2d, in air)-FC to RT" Electronic specific heat of La2-x-zNdzSrxCu1-yZnyO4 up to room temperature 2000 "Department of Physics, Nagoya University, Nagoya, Japan" "J.Phys.Soc.Jpn, 69(2000)2917"
34072 JPS0692917 sp-heat was measured. gamma not shown explicitly. "(La,Nd)2CuO4" La1.6Nd0.4Cu1O4 La 1.6 Nd 0.4 Cu 1 O 4 2000 250 T K 1 "mixture-pellet-SIN(1080C, 2d, in air)-FC to RT" Electronic specific heat of La2-x-zNdzSrxCu1-yZnyO4 up to room temperature 2000 "Department of Physics, Nagoya University, Nagoya, Japan" "J.Phys.Soc.Jpn, 69(2000)2917"
34073 PHC3910160 not s/c. "(Hg,V)Sr2(Nd,Sr)Cu2O6+z" Hg0.65V0.35Sr2.3Nd0.7Cu2O6+z Hg 0.65 V 0.35 Sr 2.3 Nd 0.7 Cu 2 O 6+z 1 2003 Hg1212 A 3.8779 11.916 K 4.2 "HgO,V2O5,SrCuO2,Nd2O3,SrO2" 1 "pellet wrapped in Au-foil, sealed in quartz tube, heat(880C, 16h) - Q to RT" "Synthesis, structure and superconducting properties of the (Hg0.65V0.35)Sr2(Nd1-ySry)Cu2O6+z system" 2003 "Department of Engineering Materials, The University of She?eld, She?eld, South Yorkshire, UK" "Physica C, 391(2003)160"
34074 PHC3910160 "detailed structure analysis using X-ray, NMR, NED." "(Hg,V)Sr2(Nd,Sr)Cu2O6+z" Hg0.65V0.35Sr2.4Nd0.6Cu2O6+z Hg 0.65 V 0.35 Sr 2.4 Nd 0.6 Cu 2 O 6+z 1 2003 Hg1212 A 3.877 11.924 K 67 67 "HgO,V2O5,SrCuO2,Nd2O3,SrO2" 1 "pellet wrapped in Au-foil, sealed in quartz tube, heat(880C, 16h) - Q to RT" "Synthesis, structure and superconducting properties of the (Hg0.65V0.35)Sr2(Nd1-ySry)Cu2O6+z system" 2003 "Department of Engineering Materials, The University of She?eld, She?eld, South Yorkshire, UK" "Physica C, 391(2003)160"
34075 PHC3910160 "(Hg,V)Sr2(Nd,Sr)Cu2O6+z" Hg0.65V0.35Sr2.5Nd0.5Cu2O6+z Hg 0.65 V 0.35 Sr 2.5 Nd 0.5 Cu 2 O 6+z 1 2003 Hg1212 A 3.8764 11.93 K 82 82 "HgO,V2O5,SrCuO2,Nd2O3,SrO2" 1 "pellet wrapped in Au-foil, sealed in quartz tube, heat(880C, 16h) - Q to RT" "Synthesis, structure and superconducting properties of the (Hg0.65V0.35)Sr2(Nd1-ySry)Cu2O6+z system" 2003 "Department of Engineering Materials, The University of She?eld, She?eld, South Yorkshire, UK" "Physica C, 391(2003)160"
34076 PHC3910160 "ANN(300C, 24h, in flowing O2)" "(Hg,V)Sr2(Nd,Sr)Cu2O6+z" Hg0.6V0.4Sr2.47Nd0.53Cu2O6+z Hg 0.6 V 0.4 Sr 2.47 Nd 0.53 Cu 2 O 6+z 1 2003 Hg1212 A 3.8765 11.9232 K 67 67 "HgO,V2O5,SrCuO2,Nd2O3,SrO2" 1 "pellet wrapped in Au-foil, sealed in quartz tube, heat(880C, 16h) - Q to RT" "Synthesis, structure and superconducting properties of the (Hg0.65V0.35)Sr2(Nd1-ySry)Cu2O6+z system" 2003 "Department of Engineering Materials, The University of She?eld, She?eld, South Yorkshire, UK" "Physica C, 391(2003)160"
34077 PHC3910237 "X-ray DENS=10.4119. hole=0.3. Jc(5K,0.6T)=1.2 E+6 A/cm2." "(La,Nd)2CaBa2Cu5Oz" La1.5Nd0.5Ca1Ba2Cu5O11.583 La 1.5 Nd 0.5 Ca 1 Ba 2 Cu 5 O z 11.583 2003 2125 A 3.8677 11.5998 K 78 79 80 77 79 1 "mixture-CAL(930C, 50h)-SIN(940-950C, 24h)-ANN(900C, 12h, in flowing N2)-ANN(900C, 12h, in flowing O2)-slow cool to 500C - ANN(500C, 24h, in O2)-slow cool to RT" "Effect of Mo-substitution on superconductivity, flux pinning and critical currents of La1.5Nd0.5Ca1Ba2Cu5Oz" 2003 "Department of Physics, Saurashtra University, Rajkot, India" "Physica C, 391(2003)237"
34078 PHC3910237 "X-ray DENS=10.4856. hole=0.205. Jc(5K,0.6T)=2.25 E+6 A/cm2." "(La,Nd)2CaBa2(Cu,Mo)5Oz" La1.5Nd0.5Ca1Ba2Cu4.95Mo0.05O11.345 La 1.5 Nd 0.5 Ca 1 Ba 2 Cu 4.95 Mo 0.05 O z 11.345 2003 2125 A 3.8727 11.5998 K 74 76 80 75 76 1 "mixture-CAL(930C, 50h)-SIN(940-950C, 24h)-ANN(900C, 12h, in flowing N2)-ANN(900C, 12h, in flowing O2)-slow cool to 500C - ANN(500C, 24h, in O2)-slow cool to RT" "Effect of Mo-substitution on superconductivity, flux pinning and critical currents of La1.5Nd0.5Ca1Ba2Cu5Oz" 2003 "Department of Physics, Saurashtra University, Rajkot, India" "Physica C, 391(2003)237"
34079 PHC3910237 "X-ray DENS=10.4798. hole=0.195. Jc(5K,0.6T)=1.5 E+6 A/cm2." "(La,Nd)2CaBa2(Cu,Mo)5Oz" La1.5Nd0.5Ca1Ba2Cu4.85Mo0.15O11.322 La 1.5 Nd 0.5 Ca 1 Ba 2 Cu 4.85 Mo 0.15 O z 11.322 2003 2125 A 3.8739 11.5992 K 66 70 78 68 70 1 "mixture-CAL(930C, 50h)-SIN(940-950C, 24h)-ANN(900C, 12h, in flowing N2)-ANN(900C, 12h, in flowing O2)-slow cool to 500C - ANN(500C, 24h, in O2)-slow cool to RT" "Effect of Mo-substitution on superconductivity, flux pinning and critical currents of La1.5Nd0.5Ca1Ba2Cu5Oz" 2003 "Department of Physics, Saurashtra University, Rajkot, India" "Physica C, 391(2003)237"
34080 PHC3910237 "X-ray DENS=10.6056. hole=0.124. Jc(5K,0.6T)=0.25 E+6 A/cm2." "(La,Nd)2CaBa2(Cu,Mo)5Oz" La1.5Nd0.5Ca1Ba2Cu4.75Mo0.25O11.143 La 1.5 Nd 0.5 Ca 1 Ba 2 Cu 4.75 Mo 0.25 O z 11.143 2003 2125 A 3.8664 11.5704 K 64 70 75 65 70 1 "mixture-CAL(930C, 50h)-SIN(940-950C, 24h)-ANN(900C, 12h, in flowing N2)-ANN(900C, 12h, in flowing O2)-slow cool to 500C - ANN(500C, 24h, in O2)-slow cool to RT" "Effect of Mo-substitution on superconductivity, flux pinning and critical currents of La1.5Nd0.5Ca1Ba2Cu5Oz" 2003 "Department of Physics, Saurashtra University, Rajkot, India" "Physica C, 391(2003)237"
34081 PHC3910237 X-ray DENS=11.0157. hole=0.114. "(La,Nd)2CaBa2(Cu,Mo)5Oz" La1.5Nd0.5Ca1Ba2Cu4.5Mo0.5O11.119 La 1.5 Nd 0.5 Ca 1 Ba 2 Cu 4.5 Mo 0.5 O z 11.119 2003 2125 A 3.8123 11.6142 K 39 50 60 48 50 1 "mixture-CAL(930C, 50h)-SIN(940-950C, 24h)-ANN(900C, 12h, in flowing N2)-ANN(900C, 12h, in flowing O2)-slow cool to 500C - ANN(500C, 24h, in O2)-slow cool to RT" "Effect of Mo-substitution on superconductivity, flux pinning and critical currents of La1.5Nd0.5Ca1Ba2Cu5Oz" 2003 "Department of Physics, Saurashtra University, Rajkot, India" "Physica C, 391(2003)237"
34082 PHC3910298 Hg0.92Ba1.93Ca1.07Cu2.07Oz by SEM HgBa2CaCu2O6 Hg1Ba2Ca1Cu2O6+z Hg 1 Ba 2 Ca 1 Cu 2 O 6+z 1 2003 Hg1212 3.8627 12.709 K 121 121 mT 7.7 T 100 1 "ANN(880C, 10h, in sealed silica tube)" "Irreversibility fields of the high-Tc superconductors Hg-1212 and (Hg,Tl)-1212" 2003 "Department of Physics, Free University Berlin, Berlin, Germany" "Physica C, 391(2003)298"
34083 PHC3910298 Hg0.74Tl0.20Ba1.95Ca1.04Cu2.05Oz by SEM "(Hg,Tl)Ba2CaCu2O6" Hg0.8Tl0.2Ba2Ca1Cu2O6+z Hg 0.8 Tl 0.2 Ba 2 Ca 1 Cu 2 O 6+z 1 2003 Hg1212 3.8592 12.67 K 124 124 mT 9.9 T 100 1 "ANN(880C, 10h, in sealed silica tube)" "Irreversibility fields of the high-Tc superconductors Hg-1212 and (Hg,Tl)-1212" 2003 "Department of Physics, Free University Berlin, Berlin, Germany" "Physica C, 391(2003)298"
34084 LOW1210837 O-content by Faraday's law. TP300 at 290 K. "(La,Nd)2CuO4+z" La1.8Nd0.2Cu1O4.025 La 1.8 Nd 0.2 Cu 1 O 4+z 4.025 1 2003 T K 15.9 15.9 uV/K 73.5 TP34084 1 excess oxygen doping by electrochemical oxidation method. "1/8 anomaly in the excess-oxygen-doped La2-xAxCuO4+z (A = Nd, Bi, Pr)" 2003 "Department of Applied Physics, Tohoku University, Sendai, Japan" "J.Low Temp.Phys., 131(2003)837"
34085 LOW1210837 O-content by Faraday's law. TP300 at 290 K. "(La,Nd)2CuO4+z" La1.8Nd0.2Cu1O4.04 La 1.8 Nd 0.2 Cu 1 O 4+z 4.04 1 2003 T K 26.3 26.3 uV/K 53.8 TP34085 1 excess oxygen doping by electrochemical oxidation method. "1/8 anomaly in the excess-oxygen-doped La2-xAxCuO4+z (A = Nd, Bi, Pr)" 2003 "Department of Applied Physics, Tohoku University, Sendai, Japan" "J.Low Temp.Phys., 131(2003)837"
34086 LOW1210837 O-content by Faraday's law. TP300 at 290 K. "(La,Nd)2CuO4+z" La1.8Nd0.2Cu1O4.059 La 1.8 Nd 0.2 Cu 1 O 4+z 4.059 1 2003 T K 26.7 26.7 uV/K 39.4 TP34086 1 excess oxygen doping by electrochemical oxidation method. "1/8 anomaly in the excess-oxygen-doped La2-xAxCuO4+z (A = Nd, Bi, Pr)" 2003 "Department of Applied Physics, Tohoku University, Sendai, Japan" "J.Low Temp.Phys., 131(2003)837"
34087 LOW1210837 O-content by Faraday's law. TP300 at 290 K. "(La,Nd)2CuO4+z" La1.8Nd0.2Cu1O4.07 La 1.8 Nd 0.2 Cu 1 O 4+z 4.07 1 2003 T K 35.3 35.3 uV/K 32.5 TP34087 1 excess oxygen doping by electrochemical oxidation method. "1/8 anomaly in the excess-oxygen-doped La2-xAxCuO4+z (A = Nd, Bi, Pr)" 2003 "Department of Applied Physics, Tohoku University, Sendai, Japan" "J.Low Temp.Phys., 131(2003)837"
34088 LOW1210837 O-content by Faraday's law. TP300 at 290 K. "(La,Nd)2CuO4+z" La1.8Nd0.2Cu1O4.071 La 1.8 Nd 0.2 Cu 1 O 4+z 4.071 1 2003 T K 34.8 34.8 uV/K 24.5 TP34088 1 excess oxygen doping by electrochemical oxidation method. "1/8 anomaly in the excess-oxygen-doped La2-xAxCuO4+z (A = Nd, Bi, Pr)" 2003 "Department of Applied Physics, Tohoku University, Sendai, Japan" "J.Low Temp.Phys., 131(2003)837"
34089 LOW1210837 O-content by Faraday's law. TP300 at 290 K. "(La,Nd)2CuO4+z" La1.8Nd0.2Cu1O4.086 La 1.8 Nd 0.2 Cu 1 O 4+z 4.086 1 2003 T K 35.9 35.9 uV/K 18.1 TP34089 1 excess oxygen doping by electrochemical oxidation method. "1/8 anomaly in the excess-oxygen-doped La2-xAxCuO4+z (A = Nd, Bi, Pr)" 2003 "Department of Applied Physics, Tohoku University, Sendai, Japan" "J.Low Temp.Phys., 131(2003)837"
34090 LOW1210837 O-content by Faraday's law. TP300 at 290 K. Tc not shown in Fig. "(La,Nd)2CuO4+z" La1.8Nd0.2Cu1O4.093 La 1.8 Nd 0.2 Cu 1 O 4+z 4.093 1 2003 T K 25.6 25.6 uV/K 8.84 TP34090 1 excess oxygen doping by electrochemical oxidation method. "1/8 anomaly in the excess-oxygen-doped La2-xAxCuO4+z (A = Nd, Bi, Pr)" 2003 "Department of Applied Physics, Tohoku University, Sendai, Japan" "J.Low Temp.Phys., 131(2003)837"
34091 LOW1210837 "(La,Nd)2(Cu,Zn)O4" La1.8Nd0.2Cu0.99Zn0.01O4.086 La 1.8 Nd 0.2 Cu 0.99 Zn 0.01 O 4+z 4.086 1 2003 T K 35.6 35.6 TC34091 1 excess oxygen doping by electrochemical oxidation method. "1/8 anomaly in the excess-oxygen-doped La2-xAxCuO4+z (A = Nd, Bi, Pr)" 2003 "Department of Applied Physics, Tohoku University, Sendai, Japan" "J.Low Temp.Phys., 131(2003)837"
34092 LOW1210837 "(La,Bi)2CuO4" La1.95Bi0.05Cu1O4.075 La 1.95 Bi 0.05 Cu 1 O 4+z 4.075 1 2003 T K 25.7 25.7 TC34092 1 excess oxygen doping by electrochemical oxidation method. "1/8 anomaly in the excess-oxygen-doped La2-xAxCuO4+z (A = Nd, Bi, Pr)" 2003 "Department of Applied Physics, Tohoku University, Sendai, Japan" "J.Low Temp.Phys., 131(2003)837"
34093 LOW1210837 "(La,Bi)2(Cu,Zn)O4" La1.95Bi0.05Cu0.99Zn0.01O4.093 La 1.95 Bi 0.05 Cu 0.99 Zn 0.01 O 4+z 4.093 1 2003 T K 22.7 22.7 TC34093 1 excess oxygen doping by electrochemical oxidation method. "1/8 anomaly in the excess-oxygen-doped La2-xAxCuO4+z (A = Nd, Bi, Pr)" 2003 "Department of Applied Physics, Tohoku University, Sendai, Japan" "J.Low Temp.Phys., 131(2003)837"
34094 LOW1210837 "(La,Pr)2CuO4" La1.8Pr0.2Cu1O4.11 La 1.8 Pr 0.2 Cu 1 O 4+z 4.11 1 2003 T K TC34094 1 excess oxygen doping by electrochemical oxidation method. "1/8 anomaly in the excess-oxygen-doped La2-xAxCuO4+z (A = Nd, Bi, Pr)" 2003 "Department of Applied Physics, Tohoku University, Sendai, Japan" "J.Low Temp.Phys., 131(2003)837"
34095 P065224520 TP300=282K value. <63>Cu NMR measured. "(Sr,La)CuO2" Sr0.9La0.1Cu1O2 Sr 0.9 La 0.1 Cu 1 O 2 1 2002 IL K 43 43 uV/K -1.88 TP34095 high pressure synthesis "Gap anisotropy, spin fluctuations, and normal-state properties of the electron-doped superconductor Sr0.9La0.1CuO2" 2002 "Physikalisches Institut, Universitat Stuttgart, D-70550 Stuttgart, Germany" "Phys.Rev.B, 65(2002)224520"
34096 P068054512 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 2003 2 T K 37 37 "See Physica C, 340(2000)168" Magnetic states in La1.85-2xSr0.15+2xCu1-xMnxO4 (0= and T<5> terms. fitting range (0.6/R exceeds 500 for T<80K. R=R0 + A*T2. A=7.3 nOhm.cm/K2. A=4.0 uOhm.cm/K2 Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 1997 T I4/mmm A 3.87 12.74 K 1 1 SP34194 mj/mol.K2 35.7 from sp-heat floating zone method Two-Dimensional Fermi Liquid Behavior of the Superconductor Sr2RuO4 1997 "Department of Physics, Hiroshima University, Higashi-Hiroshima 739 , Japan" "J.Phys.Soc.Jpn, 66(1997)1405"
34195 JPS0722453 "y=1.3(tentative). NMR, spin-echo were measured. gap(delta)=8.1 K." NaxCoO2/yH2O Na0.75Co1H2.6O3.3 Na 0.75 Co 1 H 2.6 O 3.3 2003 K 4.5 4.5 3.6 6 See Nature 422(2003)53 <59>Co-NMR Knight Shift of Superconducting NaxCoO2-H2O 2003 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602 ,Japan" "J.Phys.Soc.Jpn, 72(2003)2453"
34196 P068134516 enriched <119>Sn (85 %) was used "(Ru,Sn)Sr2GdCu2O8" Ru0.95Sn0.05Sr2Gd1Cu2O8 Ru 0.95 Sn 0.05 Sr 2 Gd 1 Cu 2 O 8 1 2003 123 Ru1212 K 30 30 1 "solid state reaction. SIN(1050C, 4d, in O2 flow) - cool to RT(45C/h)" "<119>Sn Mossbauer spectroscopy in the magnetic superconductor (Ru, Sn)Sr2GdCu2O8" 2003 "Centro Brasileiro de Pesquisas Fisicas, Rua Dr. Xavier Sigaud 150, Urca, CEP, Rio de Janeiro, Brazil" "Phys.Rev.B, 68(2003)134516"
34197 P068132507 G-L parameter = 244. NaxCoO2/yH2O Na0.35Co1H2.6O3.3 Na 0.35 Co 1 H 2.6 O 3.3 2003 K 4.6 4.6 Oe deviation from M-H curve 28.1 T using WHH theory 61 T/K 19.3 HC34197 A from Hc2 23.2 A From cohere and Hc1 5680 See Nature 422(2003)53 Unconventional upper- and lower-critical fields and normal-state magnetic susceptibility of the superconducting compound Na0.35CoO2/1.3H2O 2003 "National Institute for Materials Science (SMC/NIMS), 1-1 Namiki, Tsukuba, Ibaraki, Japan" "Phys.Rev.B, 68(2003)132507"
34198 P068132504 dTc/dP is estimated from Tc(P) by ASADA. Tc(P) = 4.68 - 0.0047*P - 0.183*P2. y = 1.3 (tentative) NaxCoO2/yH2O Na0.35Co1H2.6O3.3 Na 0.35 Co 1 H 2.6 O 3.3 1 2003 P6<3>/mmc A 2.82 19.593 K 4.7 4.7 TC34198 K/GPa -0.107 See Nature 422(2003)53 Effect of hydrostatic pressure on the superconductivity in NaxCoO2/yH2O 2003 "Department of Physics and TCSAM, University of Houston, Houston, Texas, USA" "Phys.Rev.B, 68(2003)132504"
34199 PHC3990069 as-prepared. Ru:Sr:Sm:Ce:Cu=0.95:2.04:1.37:0.54:2.08 by EDS. R(250K)=50.4 mOhm.cm. hysteresis observed at 5K. "RuSr2(Sm,Ce)2Cu2O10" Ru1Sr2Sm1.4Ce0.6Cu2O10-z Ru 1 Sr 2 Sm 1.4 Ce 0.6 Cu 2 O 10-z 1 2003 Ru1222 A 3.842 28.469 K 18 38 28 "RuO2,SrCO3,Sm2O3,CeO2,CuO" 1 "mixture - heat(1070C,60h, in flowing O2) - slow cool to RT" "Structural, transport and magnetic properties of RuSr2Sm1.4Ce0.6Cu2O10-d" 2003 "Structure Research Laboratory, Department of Materials Science and Engineering, University of Science and Technology of China, Hefei, China" "Physica C, 399(2003)69"
34200 PHC3990069 "not s/c. as-prepared and ANN(1070C,24h, in air). Ru:Sr:Sm:Ce:Cu=0.95:1.98:1.39:0.61:2.07 by EDS. R(250K)=1346.9 mOhm.cm." "RuSr2(Sm,Ce)2Cu2O10" Ru1Sr2Sm1.4Ce0.6Cu2O10-z Ru 1 Sr 2 Sm 1.4 Ce 0.6 Cu 2 O 10-z 1 2003 Ru1222 A 3.844 28.477 K 5 "RuO2,SrCO3,Sm2O3,CeO2,CuO" 1 "mixture - heat(1070C,60h, in flowing O2) - slow cool to RT" "Structural, transport and magnetic properties of RuSr2Sm1.4Ce0.6Cu2O10-d" 2003 "Structure Research Laboratory, Department of Materials Science and Engineering, University of Science and Technology of China, Hefei, China" "Physica C, 399(2003)69"
34201 PHC3990069 "as-prepared and ANN(1070C,24h,in O2-flow). Ru:Sr:Sm:Ce:Cu=0.93:2.01:1.39:0.60:2.07 by EDS. R(250K)=48.4 mOhm.cm." "RuSr2(Sm,Ce)2Cu2O10" Ru1Sr2Sm1.4Ce0.6Cu2O10-z Ru 1 Sr 2 Sm 1.4 Ce 0.6 Cu 2 O 10-z 1 2003 Ru1222 A 3.842 28.461 K 24 40 32 "RuO2,SrCO3,Sm2O3,CeO2,CuO" 1 "mixture - heat(1070C,60h, in flowing O2) - slow cool to RT" "Structural, transport and magnetic properties of RuSr2Sm1.4Ce0.6Cu2O10-d" 2003 "Structure Research Laboratory, Department of Materials Science and Engineering, University of Science and Technology of China, Hefei, China" "Physica C, 399(2003)69"
34202 PHC3990069 "not s/c. as-prepared and ANN(1070C,24h,in Ar-flow). Ru:Sr:Sm:Ce:Cu=0.96:1.99:1.41:0.58:2.06 by EDS. R(250K)=1434.5 mOhm.cm." "RuSr2(Sm,Ce)2Cu2O10" Ru1Sr2Sm1.4Ce0.6Cu2O10-z Ru 1 Sr 2 Sm 1.4 Ce 0.6 Cu 2 O 10-z 1 2003 Ru1222 A 3.845 28.485 K 5 "RuO2,SrCO3,Sm2O3,CeO2,CuO" 1 "mixture - heat(1070C,60h, in flowing O2) - slow cool to RT" "Structural, transport and magnetic properties of RuSr2Sm1.4Ce0.6Cu2O10-d" 2003 "Structure Research Laboratory, Department of Materials Science and Engineering, University of Science and Technology of China, Hefei, China" "Physica C, 399(2003)69"
34203 PHC3990061 HIP at 1000C. oz = 7.20 befor HIP sample. "YBa2Cu2(Cu,Fe)Oz" Y1Ba2Cu2.5Fe0.5O7.35 Y 1 Ba 2 Cu 2.5 Fe 0.5 O 7+z 7.35 1 2003 1212 A 3.8659 11.5985 K 80 80 80 TC34203 50 "mixture - SIN(930C,40h,in air) - cool to RT(30C/h), mix with 5 wt% KClO4, then heat(750-1070C,0.5h, under 6GPa)" High-pressure synthesis of Fe0.5Cu0.5Ba2YCu2O7+d superconductors and influence of synthesis conditions on the lattice parameters and superconductivity 2003 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, PR China" "Physica C, 399(2003)61"
34204 PHC3410563 Fe-1212 prepared without reducing ANN process is not s/c. FeSr2YCu2Oz Fe1Sr2Y1Cu2O7.66 Fe 1 Sr 2 Y 1 Cu 2 O 7+z 7.66 1 2000 1212 K 25 62 43.5 "mixture - CAL(1173K,12h,in air) - SIN(1223K,24h,in air) - ANN(1073K,5h,in P(O2)=100 Pa) - cool to 573K - ANN(523K,24h,in P(O2)=3.5E+7 Pa)" Discovery of Superconductivity in Fe-Based Cuprates 2000 "Department of Superconductivity, University of Tokyo,Hongo, Bunkyo-ku, Tokyo, Japan" "Physica C, 341(2000)563"
34205 JPS0710790 sample without ANN(N2 flow) is not s/c. structure precisely investigated. FeSr2YCu2Oz Fe1Sr2Y1Cu2O7.68 Fe 1 Sr 2 Y 1 Cu 2 O 6+z 7.68 1 2002 2 1212 P4/mmm A 3.822 11.4024 K 50 50 "mixture - CAL(900C,24h,in air) - SIN(1000C,24h,in air) - ANN(800C,24h,in N2 flow) - ANN(300C,24h,in O2 flow) - ANN(350C,24hin 195 atm O2)" Crystal Structure of Magnetic Superconductor FeSr2YCu2O6+z 2002 "J.Phys.Soc.Jpn, 71(2002)790"
34206 PHC3980131 "Y(Ba,Nd)2Cu3Oz" Y1Ba1.9Nd0.1Cu3Oz Y 1 Ba 1.9 Nd 0.1 Cu 3 O z 1 2003 Y123 A 3.886 3.8215 11.687 K 90.6 91.6 2.3 91.6 1 "mixture - CAL(950C,16h,in air) - SIN(950C,20h,in air) - ANN(400C,25h,in flowing O2) - FC to RT" Structure and spin-gap in the normal state of Y1-xCaxBa1.9Nd0.1Cu3Oy cuprates 2003 "Department of Physics, Nanjing University, Nanjing 210093, PR China" "Physica C, 398(2003)131"
34207 PHC3980131 spin gap temp. = 116 K "(Y,Ca)(Ba,Nd)2Cu3Oz" Y0.95Ca0.05Ba1.9Nd0.1Cu3Oz Y 0.95 Ca 0.05 Ba 1.9 Nd 0.1 Cu 3 O z 1 2003 Y123 A 3.8827 3.8229 11.6815 K 86.2 87.2 2.4 87.2 1 "mixture - CAL(950C,16h,in air) - SIN(950C,20h,in air) - ANN(400C,25h,in flowing O2) - FC to RT" Structure and spin-gap in the normal state of Y1-xCaxBa1.9Nd0.1Cu3Oy cuprates 2003 "Department of Physics, Nanjing University, Nanjing 210093, PR China" "Physica C, 398(2003)131"
34208 PHC3980131 spin gap temp. = 122 K "(Y,Ca)(Ba,Nd)2Cu3Oz" Y0.9Ca0.1Ba1.9Nd0.1Cu3Oz Y 0.9 Ca 0.1 Ba 1.9 Nd 0.1 Cu 3 O z 1 2003 Y123 A 3.881 3.8251 11.6839 K 82.5 83.7 2.6 83.7 1 "mixture - CAL(950C,16h,in air) - SIN(950C,20h,in air) - ANN(400C,25h,in flowing O2) - FC to RT" Structure and spin-gap in the normal state of Y1-xCaxBa1.9Nd0.1Cu3Oy cuprates 2003 "Department of Physics, Nanjing University, Nanjing 210093, PR China" "Physica C, 398(2003)131"
34209 PHC3980131 spin gap temp. = 128 K "(Y,Ca)(Ba,Nd)2Cu3Oz" Y0.85Ca0.15Ba1.9Nd0.1Cu3Oz Y 0.85 Ca 0.15 Ba 1.9 Nd 0.1 Cu 3 O z 1 2003 Y123 A 3.8802 3.827 11.6837 K 82.5 84.2 3.6 84.2 1 "mixture - CAL(950C,16h,in air) - SIN(950C,20h,in air) - ANN(400C,25h,in flowing O2) - FC to RT" Structure and spin-gap in the normal state of Y1-xCaxBa1.9Nd0.1Cu3Oy cuprates 2003 "Department of Physics, Nanjing University, Nanjing 210093, PR China" "Physica C, 398(2003)131"
34210 PHC3980131 spin gap temp. = 135.9 K "(Y,Ca)(Ba,Nd)2Cu3Oz" Y0.8Ca0.2Ba1.9Nd0.1Cu3Oz Y 0.8 Ca 0.2 Ba 1.9 Nd 0.1 Cu 3 O z 1 2003 Y123 A 3.8777 3.828 11.6809 K 81 82.7 3.5 82.7 1 "mixture - CAL(950C,16h,in air) - SIN(950C,20h,in air) - ANN(400C,25h,in flowing O2) - FC to RT" Structure and spin-gap in the normal state of Y1-xCaxBa1.9Nd0.1Cu3Oy cuprates 2003 "Department of Physics, Nanjing University, Nanjing 210093, PR China" "Physica C, 398(2003)131"
34211 PHC3980131 spin gap temp. = 158.1 K "(Y,Ca)(Ba,Nd)2Cu3Oz" Y0.75Ca0.25Ba1.9Nd0.1Cu3Oz Y 0.75 Ca 0.25 Ba 1.9 Nd 0.1 Cu 3 O z 1 2003 Y123 A 3.8776 3.8298 11.6832 K 77.1 80.1 4.8 80.1 1 "mixture - CAL(950C,16h,in air) - SIN(950C,20h,in air) - ANN(400C,25h,in flowing O2) - FC to RT" Structure and spin-gap in the normal state of Y1-xCaxBa1.9Nd0.1Cu3Oy cuprates 2003 "Department of Physics, Nanjing University, Nanjing 210093, PR China" "Physica C, 398(2003)131"
34212 PHC3980131 spin gap temp. = 165 K "(Y,Ca)(Ba,Nd)2Cu3Oz" Y0.7Ca0.3Ba1.9Nd0.1Cu3Oz Y 0.7 Ca 0.3 Ba 1.9 Nd 0.1 Cu 3 O z 1 2003 Y123 A 3.8675 3.8488 11.7362 K 77.3 80.6 6.1 80.6 1 "mixture - CAL(950C,16h,in air) - SIN(950C,20h,in air) - ANN(400C,25h,in flowing O2) - FC to RT" Structure and spin-gap in the normal state of Y1-xCaxBa1.9Nd0.1Cu3Oy cuprates 2003 "Department of Physics, Nanjing University, Nanjing 210093, PR China" "Physica C, 398(2003)131"
34213 PHC3980131 "(Y,Ca)(Ba,Nd)2Cu3Oz" Y0.6Ca0.4Ba1.9Nd0.1Cu3Oz Y 0.6 Ca 0.4 Ba 1.9 Nd 0.1 Cu 3 O z 1 2003 Y123 A 3.8627 3.859 11.778 K 76.2 80.3 5.5 80.3 1 "mixture - CAL(950C,16h,in air) - SIN(950C,20h,in air) - ANN(400C,25h,in flowing O2) - FC to RT" Structure and spin-gap in the normal state of Y1-xCaxBa1.9Nd0.1Cu3Oy cuprates 2003 "Department of Physics, Nanjing University, Nanjing 210093, PR China" "Physica C, 398(2003)131"
34214 PHC3980123 resistivity minimum at 87K. Ferromag-order RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 1 2003 142 Ru1212 K 31 43 46 28 43 TP34214 1 "ANN(1060C,6d,in flowing O2) - slow cool to RT" "Transport and magnetic properties of Ru(Sr1-xLaxRCu2O8 (R=Gd, Eu) superconductor" 2003 "Experimentalphysik V, EKM, Universitat Augsburg, Augsburg, Germany" "Physica C, 398(2003)123"
34215 PHC3980123 Ferromag-order "Ru(Sr,La)2GdCu2O8" Ru1Sr1.98La0.02Gd1Cu2O8 Ru 1 Sr 1.98 La 0.02 Gd 1 Cu 2 O 8 1 2003 142 Ru1212 K 14 20.6 33 12 20.6 HC34215 TP34215 1 "ANN(1060C,6d,in flowing O2) - slow cool to RT" "Transport and magnetic properties of Ru(Sr1-xLaxRCu2O8 (R=Gd, Eu) superconductor" 2003 "Experimentalphysik V, EKM, Universitat Augsburg, Augsburg, Germany" "Physica C, 398(2003)123"
34216 PHC3980123 Ferromag-order "Ru(Sr,La)2GdCu2O8" Ru1Sr1.94La0.06Gd1Cu2O8 Ru 1 Sr 1.94 La 0.06 Gd 1 Cu 2 O 8 1 2003 154 Ru1212 K 1.5 TP34216 1 "ANN(1060C,6d,in flowing O2) - slow cool to RT" "Transport and magnetic properties of Ru(Sr1-xLaxRCu2O8 (R=Gd, Eu) superconductor" 2003 "Experimentalphysik V, EKM, Universitat Augsburg, Augsburg, Germany" "Physica C, 398(2003)123"
34217 PHC3980123 Ferromag-order "Ru(Sr,La)2GdCu2O8" Ru1Sr1.9La0.1Gd1Cu2O8 Ru 1 Sr 1.9 La 0.1 Gd 1 Cu 2 O 8 1 2003 180 Ru1212 K 1.5 TP34217 1 "ANN(1060C,6d,in flowing O2) - slow cool to RT" "Transport and magnetic properties of Ru(Sr1-xLaxRCu2O8 (R=Gd, Eu) superconductor" 2003 "Experimentalphysik V, EKM, Universitat Augsburg, Augsburg, Germany" "Physica C, 398(2003)123"
34218 PHC3980123 RuSr2EuCu2O8 Ru1Sr2Eu1Cu2O8 Ru 1 Sr 2 Eu 1 Cu 2 O 8 1 2003 Ru1212 K 12 35 23.5 TP34218 1 "ANN(1060C,6d,in flowing O2) - slow cool to RT" "Transport and magnetic properties of Ru(Sr1-xLaxRCu2O8 (R=Gd, Eu) superconductor" 2003 "Experimentalphysik V, EKM, Universitat Augsburg, Augsburg, Germany" "Physica C, 398(2003)123"
34219 PHC3980123 "Ru(Sr,La)2EuCu2O8" Ru1Sr1.98La0.02Eu1Cu2O8 Ru 1 Sr 1.98 La 0.02 Eu 1 Cu 2 O 8 1 2003 Ru1212 K 5 23 14 TP34219 1 "ANN(1060C,6d,in flowing O2) - slow cool to RT" "Transport and magnetic properties of Ru(Sr1-xLaxRCu2O8 (R=Gd, Eu) superconductor" 2003 "Experimentalphysik V, EKM, Universitat Augsburg, Augsburg, Germany" "Physica C, 398(2003)123"
34220 PHC3980123 "Ru(Sr,La)2EuCu2O8" Ru1Sr1.94La0.06Eu1Cu2O8 Ru 1 Sr 1.94 La 0.06 Eu 1 Cu 2 O 8 1 2003 Ru1212 K 3 11 7 TP34220 1 "ANN(1060C,6d,in flowing O2) - slow cool to RT" "Transport and magnetic properties of Ru(Sr1-xLaxRCu2O8 (R=Gd, Eu) superconductor" 2003 "Experimentalphysik V, EKM, Universitat Augsburg, Augsburg, Germany" "Physica C, 398(2003)123"
34221 PHC3980123 "Ru(Sr,La)2EuCu2O8" Ru1Sr1.9La0.1Eu1Cu2O8 Ru 1 Sr 1.9 La 0.1 Eu 1 Cu 2 O 8 1 2003 Ru1212 K 1.5 1 "ANN(1060C,6d,in flowing O2) - slow cool to RT" "Transport and magnetic properties of Ru(Sr1-xLaxRCu2O8 (R=Gd, Eu) superconductor" 2003 "Experimentalphysik V, EKM, Universitat Augsburg, Augsburg, Germany" "Physica C, 398(2003)123"
34222 P068134516 Tc not given. enriched <119>Sn (85 %) was used. "(Ru,Sn)Sr2GdCu2O8" Ru0.9Sn0.1Sr2Gd1Cu2O8 Ru 0.9 Sn 0.1 Sr 2 Gd 1 Cu 2 O 8 1 2003 109 Ru1212 K 1 "solid state reaction. SIN(1050C, 4d, in O2 flow) - cool to RT(45C/h)" "<119>Sn Mossbauer spectroscopy in the magnetic superconductor (Ru, Sn)Sr2GdCu2O8" 2003 "Centro Brasileiro de Pesquisas Fisicas, Rua Dr. Xavier Sigaud 150, Urca, CEP, Rio de Janeiro, Brazil" "Phys.Rev.B, 68(2003)134516"
34223 P068134516 Tc not given. impurity phase = SrSnO3. isomer shift (Mossbauer) measured. "(Ru,Sn)Sr2GdCu2O8" Ru0.8Sn0.2Sr2Gd1Cu2O8 Ru 0.8 Sn 0.2 Sr 2 Gd 1 Cu 2 O 8 2003 102 Ru1212 K 1 "solid state reaction. SIN(1050C, 4d, in O2 flow) - cool to RT(45C/h)" "<119>Sn Mossbauer spectroscopy in the magnetic superconductor (Ru, Sn)Sr2GdCu2O8" 2003 "Centro Brasileiro de Pesquisas Fisicas, Rua Dr. Xavier Sigaud 150, Urca, CEP, Rio de Janeiro, Brazil" "Phys.Rev.B, 68(2003)134516"
34224 P068134516 impurity phase = SrSnO3. isomer shift (Mossbauer) measured. "(Ru,Sn)Sr2GdCu2O8" Ru0.7Sn0.3Sr2Gd1Cu2O8 Ru 0.7 Sn 0.3 Sr 2 Gd 1 Cu 2 O 8 2003 106 Ru1212 K 11 11 1 "solid state reaction. SIN(1050C, 4d, in O2 flow) - cool to RT(45C/h)" "<119>Sn Mossbauer spectroscopy in the magnetic superconductor (Ru, Sn)Sr2GdCu2O8" 2003 "Centro Brasileiro de Pesquisas Fisicas, Rua Dr. Xavier Sigaud 150, Urca, CEP, Rio de Janeiro, Brazil" "Phys.Rev.B, 68(2003)134516"
34225 MTL0573919 "RESRT shows RES(250K). Curie-T shows ferromag-order of Ru, Tm, defined as FMR-onset-temperature." "RuSr2(Gd,Ce)2Cu2O10" Ru1Sr2Gd1.4Ce0.6Cu2O10+z Ru 1 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O 10+z 2003 170 Ru1222 A 3.8318 28.5325 K 45 45 mOhm.cm 11 1 "mixture - pellet - heat(1000C,36h, in air) - heat(1070C,60h, in flowing O2) - slow cool to RT" Effect of Pb doping on the superconducting and magnetic resonance properties of Ru-1222 2003 "Department of Materials Science and Engineering, Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, China" "Materials Lett., 57(2003)3919"
34226 MTL0573919 "RESRT shows RES(250K). Curie-T shows ferromag-order of Ru, Tm, defined as FMR-onset-temperature." "(Ru,Pb)Sr2(Gd,Ce)2Cu2O10" Ru0.97Pb0.03Sr2Gd1.4Ce0.6Cu2O10+z Ru 0.97 Pb 0.03 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O 10+z 1 2003 165 Ru1222 A 3.8329 28.539 K 38 38 mOhm.cm 18 1 "mixture - pellet - heat(1000C,36h, in air) - heat(1070C,60h, in flowing O2) - slow cool to RT" Effect of Pb doping on the superconducting and magnetic resonance properties of Ru-1222 2003 "Department of Materials Science and Engineering, Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, China" "Materials Lett., 57(2003)3919"
34227 MTL0573919 "RESRT shows RES(250K). Curie-T shows ferromag-order of Ru, Tm, defined as FMR-onset-temperature." "(Ru,Pb)Sr2(Gd,Ce)2Cu2O10" Ru0.8Pb0.2Sr2Gd1.4Ce0.6Cu2O10+z Ru 0.8 Pb 0.2 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O 10+z 1 2003 160 Ru1222 A 3.8405 28.5806 K 21 21 mOhm.cm 36 1 "mixture - pellet - heat(1000C,36h, in air) - heat(1070C,60h, in flowing O2) - slow cool to RT" Effect of Pb doping on the superconducting and magnetic resonance properties of Ru-1222 2003 "Department of Materials Science and Engineering, Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, China" "Materials Lett., 57(2003)3919"
34228 MTL0573919 "RESRT shows RES(250K). Curie-T shows ferromag-order of Ru, Tm, defined as FMR-onset-temperature." "(Ru,Pb)Sr2(Gd,Ce)2Cu2O10" Ru0.6Pb0.4Sr2Gd1.4Ce0.6Cu2O10+z Ru 0.6 Pb 0.4 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O 10+z 1 2003 150 Ru1222 A 3.8416 28.5959 K 9.76 9.76 mOhm.cm 52 1 "mixture - pellet - heat(1000C,36h, in air) - heat(1070C,60h, in flowing O2) - slow cool to RT" Effect of Pb doping on the superconducting and magnetic resonance properties of Ru-1222 2003 "Department of Materials Science and Engineering, Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, China" "Materials Lett., 57(2003)3919"
34229 MTL0573919 "RESRT shows RES(250K). Curie-T shows ferromag-order of Ru, Tm, defined as FMR-onset-temperature. Semiconductor-like." "(Ru,Pb)Sr2(Gd,Ce)2Cu2O10" Ru0.5Pb0.5Sr2Gd1.4Ce0.6Cu2O10+z Ru 0.5 Pb 0.5 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O 10+z 1 2003 140 Ru1222 A 3.8536 28.6314 K mOhm.cm 56 1 "mixture - pellet - heat(1000C,36h, in air) - heat(1070C,60h, in flowing O2) - slow cool to RT" Effect of Pb doping on the superconducting and magnetic resonance properties of Ru-1222 2003 "Department of Materials Science and Engineering, Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, China" "Materials Lett., 57(2003)3919"
34230 PHC4000043 N2-ANN process is important for s/c. precise analysis of structure. FeSr2YCu2O6 Fe1Sr2Y1Cu2O6+z Fe 1 Sr 2 Y 1 Cu 2 O 6+z 2003 Fe1212 K 50 50 "Fe2O3,SrCO3,R2O3,CuO" 1 "mixture - CAL(900C,24h, in air) - SIN(1000C,24h, in air) - ANN(650C-850C,24h, in N2 flow + 300C,24h, in O2 flow) + 350C,24h, in 195 atm-O2)" "Atomic ordering in FeSr2LnCu2O6+z system (Ln = Nd, Y and Er)" 2003 "Superconducting Materials Center, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Physica C, 400(2003)43-52"
34231 PHC4000043 N2-ANN process is important for s/c. precise analysis of structure. FeSr2NdCu2O6 Fe1Sr2Nd1Cu2O6+z Fe 1 Sr 2 Nd 1 Cu 2 O 6+z 2003 Fe1212 K 4.2 "Fe2O3,SrCO3,R2O3,CuO" 1 "mixture - CAL(900C,24h, in air) - SIN(1000C,24h, in air) - ANN(650C-850C,24h, in N2 flow + 300C,24h, in O2 flow) + 350C,24h, in 195 atm-O2)" "Atomic ordering in FeSr2LnCu2O6+z system (Ln = Nd, Y and Er)" 2003 "Superconducting Materials Center, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Physica C, 400(2003)43-52"
34232 PHC4000043 N2-ANN process is important for s/c. precise analysis of structure. FeSr2ErCu2O6 Fe1Sr2Er1Cu2O6+z Fe 1 Sr 2 Er 1 Cu 2 O 6+z 2003 Fe1212 K 50 50 "Fe2O3,SrCO3,R2O3,CuO" 1 "mixture - CAL(900C,24h, in air) - SIN(1000C,24h, in air) - ANN(650C-850C,24h, in N2 flow + 300C,24h, in O2 flow) + 350C,24h, in 195 atm-O2)" "Atomic ordering in FeSr2LnCu2O6+z system (Ln = Nd, Y and Er)" 2003 "Superconducting Materials Center, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Physica C, 400(2003)43-52"
34233 PHC4000007 unknown phase < 2% "(Ru,Mo)Sr2(Gd,Ce)2Cu2O10" Ru0.75Mo0.25Sr2Gd1.4Ce0.6Cu2O10+z Ru 0.75 Mo 0.25 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O 10+z 2003 Ru1222 A 3.8437 28.526 K 10 25 17.5 1 solid state reaction "Synthesis, structure, superconducting and magnetic properties of (Ru<5+>1-xMo<6+>x)(Sr,Gd)2(Gd0.7Ce<4+>0.3)2Cu2O10-z (x=0.0, 0.25, 0.50, 0.75, 1.0)" 2003 "Department of Solid State Physics and Chemistry, Lomonosov State Academy of Fine Chemical Technology, 86 Vernadsky Prosp., Moscow 119571, Russia" "Physica C, 400(2003)7-18"
34234 PHC4000007 "impurity phases=15%-SrMoO4, 2%-CeO2, unknown phase < 2%." "(Ru,Mo)Sr2(Gd,Ce)2Cu2O10" Ru0.5Mo0.5Sr2Gd1.4Ce0.6Cu2O10+z Ru 0.5 Mo 0.5 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O 10+z 2003 Ru1222 A 3.8417 28.485 K 5 22 13.5 1 solid state reaction "Synthesis, structure, superconducting and magnetic properties of (Ru<5+>1-xMo<6+>x)(Sr,Gd)2(Gd0.7Ce<4+>0.3)2Cu2O10-z (x=0.0, 0.25, 0.50, 0.75, 1.0)" 2003 "Department of Solid State Physics and Chemistry, Lomonosov State Academy of Fine Chemical Technology, 86 Vernadsky Prosp., Moscow 119571, Russia" "Physica C, 400(2003)7-18"
34235 PHC4000007 "2%-SrMoO4, unknown phase < 2%." "(Ru,Mo)Sr2(Gd,Ce)2Cu2O10" Ru0.25Mo0.75Sr2Gd1.4Ce0.6Cu2O10+z Ru 0.25 Mo 0.75 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O 10+z 2003 Ru1222 A 3.845 28.382 K 4.2 1 solid state reaction "Synthesis, structure, superconducting and magnetic properties of (Ru<5+>1-xMo<6+>x)(Sr,Gd)2(Gd0.7Ce<4+>0.3)2Cu2O10-z (x=0.0, 0.25, 0.50, 0.75, 1.0)" 2003 "Department of Solid State Physics and Chemistry, Lomonosov State Academy of Fine Chemical Technology, 86 Vernadsky Prosp., Moscow 119571, Russia" "Physica C, 400(2003)7-18"
34236 PHC4000071 RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 1 2003 2.89 133 Ru1212 3.8399 11.5766 K 41 41 1 "mixture - CAL(930C, in air), heat(1020C,12h, in N2 or Ar) - pellet - heat(1040C,12h, in O2) - ANN(1060C,6d, in O2) - cool to RT(30C/h)" "Structural, transport and magnetic properties of Ru1-xMxSr2GdCu2O8 (M=Ti and Rh for 0=< x =<0.2)" 2003 "Experimentalphysik V, Elektronische Korrelation und Magnetismus, Universitat Augsburg, Universitae tsstrasse Augsburg, Germany" "Physica C, 400(2003)71-80"
34237 PHC4000071 "(Ru,Ti)Sr2GdCu2O8" Ru0.99Ti0.01Sr2Gd1Cu2O8 Ru 0.99 Ti 0.01 Sr 2 Gd 1 Cu 2 O 8 1 2003 3.08 131.6 Ru1212 3.8378 11.5686 K 36.3 36.3 1 "mixture - CAL(930C, in air), heat(1020C,12h, in N2 or Ar) - pellet - heat(1040C,12h, in O2) - ANN(1060C,6d, in O2) - cool to RT(30C/h)" "Structural, transport and magnetic properties of Ru1-xMxSr2GdCu2O8 (M=Ti and Rh for 0=< x =<0.2)" 2003 "Experimentalphysik V, Elektronische Korrelation und Magnetismus, Universitat Augsburg, Universitae tsstrasse Augsburg, Germany" "Physica C, 400(2003)71-80"
34238 PHC4000071 "(Ru,Ti)Sr2GdCu2O8" Ru0.97Ti0.03Sr2Gd1Cu2O8 Ru 0.97 Ti 0.03 Sr 2 Gd 1 Cu 2 O 8 1 2003 2.86 127.5 Ru1212 3.8373 11.5683 K 40.3 40.3 1 "mixture - CAL(930C, in air), heat(1020C,12h, in N2 or Ar) - pellet - heat(1040C,12h, in O2) - ANN(1060C,6d, in O2) - cool to RT(30C/h)" "Structural, transport and magnetic properties of Ru1-xMxSr2GdCu2O8 (M=Ti and Rh for 0=< x =<0.2)" 2003 "Experimentalphysik V, Elektronische Korrelation und Magnetismus, Universitat Augsburg, Universitae tsstrasse Augsburg, Germany" "Physica C, 400(2003)71-80"
34239 PHC4000071 "(Ru,Ti)Sr2GdCu2O8" Ru0.95Ti0.05Sr2Gd1Cu2O8 Ru 0.95 Ti 0.05 Sr 2 Gd 1 Cu 2 O 8 1 2003 3.08 118 Ru1212 3.8387 11.5649 K 32.2 32.2 1 "mixture - CAL(930C, in air), heat(1020C,12h, in N2 or Ar) - pellet - heat(1040C,12h, in O2) - ANN(1060C,6d, in O2) - cool to RT(30C/h)" "Structural, transport and magnetic properties of Ru1-xMxSr2GdCu2O8 (M=Ti and Rh for 0=< x =<0.2)" 2003 "Experimentalphysik V, Elektronische Korrelation und Magnetismus, Universitat Augsburg, Universitae tsstrasse Augsburg, Germany" "Physica C, 400(2003)71-80"
34240 PHC4000071 "(Ru,Ti)Sr2GdCu2O8" Ru0.925Ti0.075Sr2Gd1Cu2O8 Ru 0.925 Ti 0.075 Sr 2 Gd 1 Cu 2 O 8 1 2003 2.75 114 Ru1212 3.8386 11.5639 K 29.2 29.2 1 "mixture - CAL(930C, in air), heat(1020C,12h, in N2 or Ar) - pellet - heat(1040C,12h, in O2) - ANN(1060C,6d, in O2) - cool to RT(30C/h)" "Structural, transport and magnetic properties of Ru1-xMxSr2GdCu2O8 (M=Ti and Rh for 0=< x =<0.2)" 2003 "Experimentalphysik V, Elektronische Korrelation und Magnetismus, Universitat Augsburg, Universitae tsstrasse Augsburg, Germany" "Physica C, 400(2003)71-80"
34241 PHC4000071 "(Ru,Rh)Sr2GdCu2O8" Ru0.95Rh0.05Sr2Gd1Cu2O8 Ru 0.95 Rh 0.05 Sr 2 Gd 1 Cu 2 O 8 1 2003 2.99 130 Ru1212 K 36.3 36.3 1 "mixture - CAL(930C, in air), heat(1020C,12h, in N2 or Ar) - pellet - heat(1040C,12h, in O2) - ANN(1060C,6d, in O2) - cool to RT(30C/h)" "Structural, transport and magnetic properties of Ru1-xMxSr2GdCu2O8 (M=Ti and Rh for 0=< x =<0.2)" 2003 "Experimentalphysik V, Elektronische Korrelation und Magnetismus, Universitat Augsburg, Universitae tsstrasse Augsburg, Germany" "Physica C, 400(2003)71-80"
34242 PHC4000071 "(Ru,Rh)Sr2GdCu2O8" Ru0.925Rh0.075Sr2Gd1Cu2O8 Ru 0.925 Rh 0.075 Sr 2 Gd 1 Cu 2 O 8 1 2003 3.03 125 Ru1212 K 29.8 29.8 1 "mixture - CAL(930C, in air), heat(1020C,12h, in N2 or Ar) - pellet - heat(1040C,12h, in O2) - ANN(1060C,6d, in O2) - cool to RT(30C/h)" "Structural, transport and magnetic properties of Ru1-xMxSr2GdCu2O8 (M=Ti and Rh for 0=< x =<0.2)" 2003 "Experimentalphysik V, Elektronische Korrelation und Magnetismus, Universitat Augsburg, Universitae tsstrasse Augsburg, Germany" "Physica C, 400(2003)71-80"
34243 PHC4000071 "(Ru,Rh)Sr2GdCu2O8" Ru0.9Rh0.1Sr2Gd1Cu2O8 Ru 0.9 Rh 0.1 Sr 2 Gd 1 Cu 2 O 8 1 2003 3.48 116 Ru1212 K 19.3 19.3 1 "mixture - CAL(930C, in air), heat(1020C,12h, in N2 or Ar) - pellet - heat(1040C,12h, in O2) - ANN(1060C,6d, in O2) - cool to RT(30C/h)" "Structural, transport and magnetic properties of Ru1-xMxSr2GdCu2O8 (M=Ti and Rh for 0=< x =<0.2)" 2003 "Experimentalphysik V, Elektronische Korrelation und Magnetismus, Universitat Augsburg, Universitae tsstrasse Augsburg, Germany" "Physica C, 400(2003)71-80"
34244 PHC4000071 "(Ru,Rh)Sr2GdCu2O8" Ru0.8Rh0.2Sr2Gd1Cu2O8 Ru 0.8 Rh 0.2 Sr 2 Gd 1 Cu 2 O 8 1 2003 2.89 120 Ru1212 K 12.9 12.9 1 "mixture - CAL(930C, in air), heat(1020C,12h, in N2 or Ar) - pellet - heat(1040C,12h, in O2) - ANN(1060C,6d, in O2) - cool to RT(30C/h)" "Structural, transport and magnetic properties of Ru1-xMxSr2GdCu2O8 (M=Ti and Rh for 0=< x =<0.2)" 2003 "Experimentalphysik V, Elektronische Korrelation und Magnetismus, Universitat Augsburg, Universitae tsstrasse Augsburg, Germany" "Physica C, 400(2003)71-80"
34245 PHC4000071 "(Ru,Rh)Sr2GdCu2O8" Ru0.85Rh0.15Sr2Gd1Cu2O8 Ru 0.85 Rh 0.15 Sr 2 Gd 1 Cu 2 O 8 1 2003 3.14 112 Ru1212 K 1 "mixture - CAL(930C, in air), heat(1020C,12h, in N2 or Ar) - pellet - heat(1040C,12h, in O2) - ANN(1060C,6d, in O2) - cool to RT(30C/h)" "Structural, transport and magnetic properties of Ru1-xMxSr2GdCu2O8 (M=Ti and Rh for 0=< x =<0.2)" 2003 "Experimentalphysik V, Elektronische Korrelation und Magnetismus, Universitat Augsburg, Universitae tsstrasse Augsburg, Germany" "Physica C, 400(2003)71-80"
34246 MTL0573919 "(Ru,Pb)Sr2(Gd,Ce)2Cu2O10" Ru0.9Pb0.1Sr2Gd1.4Ce0.6Cu2O10+z Ru 0.9 Pb 0.1 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O 10+z 1 2003 Ru1222 K 29.1 29.1 19 1 "mixture - pellet - heat(1000C,36h, in air) - heat(1070C,60h, in flowing O2) - slow cool to RT" Effect of Pb doping on the superconducting and magnetic resonance properties of Ru-1222 2003 "Department of Materials Science and Engineering, Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, China" "Materials Lett., 57(2003)3919"
34247 PHC4000071 "(Ru,Ti)Sr2GdCu2O8" Ru0.9Ti0.1Sr2Gd1Cu2O8 Ru 0.9 Ti 0.1 Sr 2 Gd 1 Cu 2 O 8 1 2003 3.31 127 Ru1212 K 1 "mixture - CAL(930C, in air), heat(1020C,12h, in N2 or Ar) - pellet - heat(1040C,12h, in O2) - ANN(1060C,6d, in O2) - cool to RT(30C/h)" "Structural, transport and magnetic properties of Ru1-xMxSr2GdCu2O8 (M=Ti and Rh for 0=< x =<0.2)" 2003 "Experimentalphysik V, Elektronische Korrelation und Magnetismus, Universitat Augsburg, Universitae tsstrasse Augsburg, Germany" "Physica C, 400(2003)71-80"
34250 P068174505 insulator-like. hole not introduced into CuO2 plane. "(La,Na)2CuO4" La1.98Na0.02Cu1O4 La 1.98 Na 0.02 Cu 1 O 4 1 2003 T A 5.3571 5.3969 13.1346 K 16 RH34250 "mixture - pellet - heat(1100 - 1150C,48h,in O2)" Microstructure and the superconductivity in La2-x-ySrxNayCuO4 systems 2003 "1Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 68(2003)174505"
34251 P068174505 insulator-like. hole not introduced into CuO2 plane. "(La,Na)2CuO4" La1.95Na0.05Cu1O4 La 1.95 Na 0.05 Cu 1 O 4 1 2003 T A 5.3517 5.3989 13.1372 K 16 RH34251 "mixture - pellet - heat(1100 - 1150C,48h,in O2)" Microstructure and the superconductivity in La2-x-ySrxNayCuO4 systems 2003 "1Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 68(2003)174505"
34252 P068174505 insulator-like. hole not introduced into CuO2 plane. "(La,Na)2CuO4" La1.9Na0.1Cu1O4 La 1.9 Na 0.1 Cu 1 O 4 1 2003 240 T A 5.3544 5.3982 13.1419 K 16 RH34252 "mixture - pellet - heat(1100 - 1150C,48h,in O2)" Microstructure and the superconductivity in La2-x-ySrxNayCuO4 systems 2003 "1Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 68(2003)174505"
34253 P068174505 insulator-like. hole not introduced into CuO2 plane. "(La,Na)2CuO4" La1.85Na0.15Cu1O4 La 1.85 Na 0.15 Cu 1 O 4 1 2003 T A 5.3583 5.396 13.1473 K 16 RH34253 "mixture - pellet - heat(1100 - 1150C,48h,in O2)" Microstructure and the superconductivity in La2-x-ySrxNayCuO4 systems 2003 "1Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 68(2003)174505"
34254 P068174505 insulator-like. hole not introduced into CuO2 plane. "(La,Na)2CuO4" La1.7Na0.3Cu1O4 La 1.7 Na 0.3 Cu 1 O 4 1 2003 T A 5.3522 5.3947 13.1423 K 16 "mixture - pellet - heat(1100 - 1150C,48h,in O2)" Microstructure and the superconductivity in La2-x-ySrxNayCuO4 systems 2003 "1Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 68(2003)174505"
34255 P068174505 insulator-like. hole not introduced into CuO2 plane. "(La,Na)2CuO4" La1.5Na0.5Cu1O4 La 1.5 Na 0.5 Cu 1 O 4 1 2003 T A 5.3548 5.3968 13.1397 K 16 "mixture - pellet - heat(1100 - 1150C,48h,in O2)" Microstructure and the superconductivity in La2-x-ySrxNayCuO4 systems 2003 "1Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 68(2003)174505"
34256 P068174505 "(La,Sr,Na)2CuO4" La1.83Sr0.15Na0.02Cu1O4 La 1.83 Sr 0.15 Na 0.02 Cu 1 O 4 1 2003 T A 3.7899 13.1809 K 37 37 TP34256 "mixture - pellet - heat(1100 - 1150C,48h,in O2)" Microstructure and the superconductivity in La2-x-ySrxNayCuO4 systems 2003 "1Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 68(2003)174505"
34257 P068174505 "(La,Sr,Na)2CuO4" La1.8Sr0.15Na0.05Cu1O4 La 1.8 Sr 0.15 Na 0.05 Cu 1 O 4 1 2003 T A 3.7878 13.1995 K 37 37 TP34257 "mixture - pellet - heat(1100 - 1150C,48h,in O2)" Microstructure and the superconductivity in La2-x-ySrxNayCuO4 systems 2003 "1Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 68(2003)174505"
34258 P068174505 "(La,Sr,Na)2CuO4" La1.75Sr0.15Na0.1Cu1O4 La 1.75 Sr 0.15 Na 0.1 Cu 1 O 4 1 2003 T A 3.7776 13.1811 K 37 37 "mixture - pellet - heat(1100 - 1150C,48h,in O2)" Microstructure and the superconductivity in La2-x-ySrxNayCuO4 systems 2003 "1Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 68(2003)174505"
34259 P068174505 "(La,Sr,Na)2CuO4" La1.7Sr0.15Na0.15Cu1O4 La 1.7 Sr 0.15 Na 0.15 Cu 1 O 4 1 2003 T A 3.7751 13.1901 K 37 37 "mixture - pellet - heat(1100 - 1150C,48h,in O2)" Microstructure and the superconductivity in La2-x-ySrxNayCuO4 systems 2003 "1Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 68(2003)174505"
34260 P068174505 "(La,Sr,Na)2CuO4" La1.55Sr0.15Na0.3Cu1O4 La 1.55 Sr 0.15 Na 0.3 Cu 1 O 4 1 2003 T A 3.7655 13.2025 K 37 37 "mixture - pellet - heat(1100 - 1150C,48h,in O2)" Microstructure and the superconductivity in La2-x-ySrxNayCuO4 systems 2003 "1Structure Research Laboratory, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 68(2003)174505"
34261 P068180505 phase transformation (hexagonal to monoclinic) begins at about 0.15 GPa. Na0.3CoO2:1.3H2O Na0.3Co1H2.6O3.3 Na 0.3 Co 1 H 2.6 O 3.3 2003 GPa 43 K 4.8 4.8 Na2S2O8 route method Synthesis and high-pressure behavior of Na0.3CoO2: 1.3H2O and related phases 2003 "Physics Department, Brookhaven National Laboratory, Upton, New York 11973-5000, USA" "Phys.Rev.B, 68(2003)180505"
34262 L091217001 Na0.3CoO2:1.4H2O Na0.3Co1H2.8O3.4 Na 0.3 Co 1 H 2.8 O 3.4 1 2003 A 2.823 19.696 K 4.5 4.5 4.5 SP34262 mj/mol.K2 16.1 "Na2CO3,Co3O4" See Nature 422(2003)53 Observation of Bulk Superconductivity in NaxCoO2: yH2O and NaxCoO2: yD2O Powder and Single Crystals 2003 "Condensed Matter Sciences Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.Lett., 91(2003)217001"
34263 L091217001 Na0.3CoO2:1.4D2O Na0.3Co1D2.8O3.4 Na 0.3 Co 1 D 2.8 O 3.4 1 2003 A 2.821 19.635 K 4.5 4.5 4.5 SP34263 mj/mol.K2 16.4 "Na2CO3,Co3O4" See Nature 422(2003)53 Observation of Bulk Superconductivity in NaxCoO2: yH2O and NaxCoO2: yD2O Powder and Single Crystals 2003 "Condensed Matter Sciences Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.Lett., 91(2003)217001"
34264 L091217001 not s/c. Na0.6CoO2 Na0.6Co1O2 Na 0.6 Co 1 O 2 1 2003 A 2.837 10.878 K 5 "Na2CO3,Co3O4" See Nature 422(2003)53 Observation of Bulk Superconductivity in NaxCoO2: yH2O and NaxCoO2: yD2O Powder and Single Crystals 2003 "Condensed Matter Sciences Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.Lett., 91(2003)217001"
34265 L091217001 not s/c. Na0.3CoO2:0.9H2O Na0.3Co1H1.8O2.9 Na 0.3 Co 1 H 1.8 O 2.9 1 2003 A 2.825 13.831 K 5 "Na2CO3,Co3O4" See Nature 422(2003)53 Observation of Bulk Superconductivity in NaxCoO2: yH2O and NaxCoO2: yD2O Powder and Single Crystals 2003 "Condensed Matter Sciences Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.Lett., 91(2003)217001"
34266 L091217001 not s/c. Na0.3CoO2:1.8D2O Na0.3Co1D3.6O3.8 Na 0.3 Co 1 D 3.6 O 3.8 1 2003 A 2.823 19.66 K 5 "Na2CO3,Co3O4" See Nature 422(2003)53 Observation of Bulk Superconductivity in NaxCoO2: yH2O and NaxCoO2: yD2O Powder and Single Crystals 2003 "Condensed Matter Sciences Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.Lett., 91(2003)217001"
34267 L091217001 "single crystal. resistivity minimum at T*=52K. large anisotropy, R/R=1000." Na0.3CoO2:1.3H2O Na0.3Co1H2.6O3.3 Na 0.3 Co 1 H 2.6 O 3.3 3 2003 K 5 5 floating zone and flux method Observation of Bulk Superconductivity in NaxCoO2: yH2O and NaxCoO2: yD2O Powder and Single Crystals 2003 "Condensed Matter Sciences Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.Lett., 91(2003)217001"
34268 JPS0723041 gap estimated by NQR fitting. Na0.3CoO2:1.3H2O Na0.3Co1H2.6O3.3 Na 0.3 Co 1 H 2.6 O 3.3 1 2003 K 4.7 4.7 3.5 Unconventional Superconductivity and Nearly Ferromagnetic Spin Fluctuations in NaxCoO2: yH2O 2003 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502" "J.Phys.Soc.Jpn, 72(2003)3041"
34269 JPS0723254 ferromagnetism confirmed by ESR. "RuSr2(Gd,Ce)2Cu2O10" Ru1Sr2Gd1.4Ce0.6Cu2O10 Ru 1 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O 10 1 2003 180 Ru1222 A 3.838 28.58 K 45 45 1 2 wt % excess CuO was used. "Multiple Magnetic Transitions in RuSr2R1.4Ce0.6Cu2O10 (R = Gd, Eu) from Magnetization and ESR Spectroscopy" 2003 "Department of Electronics and Computer Science, Tokyo University of Science, Yamaguchi, Daigaku-Dori 1-1-1, Onoda, Yamaguchi" "J.Phys.Soc.Jpn, 72(2003)3254"
34270 JPS0723254 ferromagnetism confirmed by ESR. paramag-Curie-T = 128 K from SUS. "RuSr2(Eu,Ce)2Cu2O10" Ru1Sr2Eu1.4Ce0.6Cu2O10 Ru 1 Sr 2 Eu 1.4 Ce 0.6 Cu 2 O 10 1 2003 180 Ru1222 A 3.838 28.65 K 44 44 1 2 wt % excess CuO was used. "Multiple Magnetic Transitions in RuSr2R1.4Ce0.6Cu2O10 (R = Gd, Eu) from Magnetization and ESR Spectroscopy" 2003 "Department of Electronics and Computer Science, Tokyo University of Science, Yamaguchi, Daigaku-Dori 1-1-1, Onoda, Yamaguchi" "J.Phys.Soc.Jpn, 72(2003)3254"
34271 JPC0150L17 Tc(O<18>)=59.3K. penet not given. muon-SR. isotope effect for penet = 0.38. "(Y,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3O6.942 Y 0.7 Pr 0.3 Ba 2 Cu 3 O 7-z 6.942 1 2003 Y123 K 60.6 60.6 0.22 O 78 -1.3 1 standard solid state reaction. isotope exchange by heating in O2. The oxygen-isotope effect on the in-plane penetration depth in underdoped Y1-xPrxBa2Cu3O7-z as revealed by muon-spin rotation 2003 "Physik-Institut der Universitat Zurich, CH-8057 Zurich, Switzerland" J.Phys.:Condens.Matter 15(2003)L17-L23
34272 JPC0150L17 Tc(O<18>)=43.6K. penet not given. muon-SR. isotope effect for penet = 0.71. "(Y,Pr)Ba2Cu3O7" Y0.6Pr0.4Ba2Cu3O6.929 Y 0.6 Pr 0.4 Ba 2 Cu 3 O 7-z 6.929 1 2003 Y123 K 45.3 45.3 0.37 O 78 -1.7 1 standard solid state reaction. isotope exchange by heating in O2. The oxygen-isotope effect on the in-plane penetration depth in underdoped Y1-xPrxBa2Cu3O7-z as revealed by muon-spin rotation 2003 "Physik-Institut der Universitat Zurich, CH-8057 Zurich, Switzerland" J.Phys.:Condens.Matter 15(2003)L17-L23
34273 JPC0150519 "s/c properties are estimated from R(T), M-H curve. resistivity not zero at 1.8 K." Na0.31CoO2:1.3H2O Na0.31Co1H2.6O3.3 Na 0.31 Co 1 H 2.6 O 3.3 1 2003 emu/mole 0.0019 1.7 7 A 2.824 19.68 K 4.3 4.3 9.2 Oe 13 kOe 100 kOe/K 34 A 57 A 7900 meV 0.5 2.71 14 SP34273 mj/mol.K2 15.9 specific heat 391 specific heat "Na2CO3,Co3O4" "solid state reaction(1083K, in flowing O2). hydration by direct reaction with distilled water." Superconductivity in a layered cobalt oxyhydrate Na0.31CoO2:1.3H2O 2003 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" J.Phys.:Condens.Matter 15(2003)L519-L525
34274 JPC0151693 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 2003 T A 3.775 13.22 K 35 35 1 "solid state reaction in Al2O3 (850C,24h), SIN(1150C, 48h)" Transport properties of Ru-doped La1.85Sr0.15CuO4 and the effect of carrier concentration compensation 2003 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.:Condens.Matter 15(2003)1693
34275 JPC0151693 "(La,Sr)2(Cu,Ru)O4" La1.85Sr0.15Cu0.99Ru0.01O4 La 1.85 Sr 0.15 Cu 0.99 Ru 0.01 O 4 2003 T A 3.7803 13.2059 K 20.5 20.5 1 "solid state reaction in Al2O3 (850C,24h), SIN(1150C, 48h)" Transport properties of Ru-doped La1.85Sr0.15CuO4 and the effect of carrier concentration compensation 2003 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.:Condens.Matter 15(2003)1693
34276 JPC0151693 "(La,Sr)2(Cu,Ru)O4" La1.85Sr0.15Cu0.98Ru0.02O4 La 1.85 Sr 0.15 Cu 0.98 Ru 0.02 O 4 2003 T A 3.7809 13.1935 K 10.8 10.8 1 "solid state reaction in Al2O3 (850C,24h), SIN(1150C, 48h)" Transport properties of Ru-doped La1.85Sr0.15CuO4 and the effect of carrier concentration compensation 2003 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.:Condens.Matter 15(2003)1693
34277 JPC0151693 "(La,Sr)2(Cu,Ru)O4" La1.85Sr0.15Cu0.97Ru0.03O4 La 1.85 Sr 0.15 Cu 0.97 Ru 0.03 O 4 2003 T A 3.7848 13.1891 K 10.8 10.8 1 "solid state reaction in Al2O3 (850C,24h), SIN(1150C, 48h)" Transport properties of Ru-doped La1.85Sr0.15CuO4 and the effect of carrier concentration compensation 2003 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.:Condens.Matter 15(2003)1693
34279 JPC0151693 "(La,Sr)2(Cu,Ru)O4" La1.83Sr0.17Cu0.99Ru0.01O4 La 1.83 Sr 0.17 Cu 0.99 Ru 0.01 O 4 2003 T A 3.775 13.2182 K 31.1 31.1 1 "solid state reaction in Al2O3 (850C,24h), SIN(1150C, 48h)" Transport properties of Ru-doped La1.85Sr0.15CuO4 and the effect of carrier concentration compensation 2003 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.:Condens.Matter 15(2003)1693
34280 JPC0151693 "(La,Sr)2(Cu,Ru)O4" La1.825Sr0.175Cu0.99Ru0.01O4 La 1.825 Sr 0.175 Cu 0.99 Ru 0.01 O 4 2003 T K 29.6 29.6 1 "solid state reaction in Al2O3 (850C,24h), SIN(1150C, 48h)" Transport properties of Ru-doped La1.85Sr0.15CuO4 and the effect of carrier concentration compensation 2003 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.:Condens.Matter 15(2003)1693
34281 JPC0151693 "(La,Sr)2(Cu,Ru)O4" La1.82Sr0.18Cu0.99Ru0.01O4 La 1.82 Sr 0.18 Cu 0.99 Ru 0.01 O 4 2003 T K 28.3 28.3 1 "solid state reaction in Al2O3 (850C,24h), SIN(1150C, 48h)" Transport properties of Ru-doped La1.85Sr0.15CuO4 and the effect of carrier concentration compensation 2003 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.:Condens.Matter 15(2003)1693
34282 JPC0151693 "(La,Sr)2(Cu,Ru)O4" La1.81Sr0.19Cu0.99Ru0.01O4 La 1.81 Sr 0.19 Cu 0.99 Ru 0.01 O 4 2003 T K 26.5 26.5 1 "solid state reaction in Al2O3 (850C,24h), SIN(1150C, 48h)" Transport properties of Ru-doped La1.85Sr0.15CuO4 and the effect of carrier concentration compensation 2003 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.:Condens.Matter 15(2003)1693
34283 JPC0151693 "(La,Sr)2(Cu,Ru)O4" La1.79Sr0.21Cu0.99Ru0.01O4 La 1.79 Sr 0.21 Cu 0.99 Ru 0.01 O 4 2003 T K 22.1 22.1 1 "solid state reaction in Al2O3 (850C,24h), SIN(1150C, 48h)" Transport properties of Ru-doped La1.85Sr0.15CuO4 and the effect of carrier concentration compensation 2003 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.:Condens.Matter 15(2003)1693
34285 JPC0151693 "(La,Sr)2(Cu,Ru)O4" La1.81Sr0.19Cu0.98Ru0.02O4 La 1.81 Sr 0.19 Cu 0.98 Ru 0.02 O 4 2003 T K 13.5 13.5 1 "solid state reaction in Al2O3 (850C,24h), SIN(1150C, 48h)" Transport properties of Ru-doped La1.85Sr0.15CuO4 and the effect of carrier concentration compensation 2003 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.:Condens.Matter 15(2003)1693
34286 JPC0151693 "(La,Sr)2(Cu,Ru)O4" La1.805Sr0.195Cu0.98Ru0.02O4 La 1.805 Sr 0.195 Cu 0.98 Ru 0.02 O 4 2003 T K 14.1 14.1 1 "solid state reaction in Al2O3 (850C,24h), SIN(1150C, 48h)" Transport properties of Ru-doped La1.85Sr0.15CuO4 and the effect of carrier concentration compensation 2003 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.:Condens.Matter 15(2003)1693
34287 JPC0151693 "(La,Sr)2(Cu,Ru)O4" La1.8Sr0.2Cu0.98Ru0.02O4 La 1.8 Sr 0.2 Cu 0.98 Ru 0.02 O 4 2003 T K 15.6 15.6 1 "solid state reaction in Al2O3 (850C,24h), SIN(1150C, 48h)" Transport properties of Ru-doped La1.85Sr0.15CuO4 and the effect of carrier concentration compensation 2003 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.:Condens.Matter 15(2003)1693
34288 JPC0151693 "(La,Sr)2(Cu,Ru)O4" La1.795Sr0.205Cu0.98Ru0.02O4 La 1.795 Sr 0.205 Cu 0.98 Ru 0.02 O 4 2003 T K 15.5 15.5 1 "solid state reaction in Al2O3 (850C,24h), SIN(1150C, 48h)" Transport properties of Ru-doped La1.85Sr0.15CuO4 and the effect of carrier concentration compensation 2003 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.:Condens.Matter 15(2003)1693
34289 JPC0151693 "(La,Sr)2(Cu,Ru)O4" La1.79Sr0.21Cu0.98Ru0.02O4 La 1.79 Sr 0.21 Cu 0.98 Ru 0.02 O 4 2003 T K 11.2 11.2 1 "solid state reaction in Al2O3 (850C,24h), SIN(1150C, 48h)" Transport properties of Ru-doped La1.85Sr0.15CuO4 and the effect of carrier concentration compensation 2003 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.:Condens.Matter 15(2003)1693
34291 JPC0151693 "(La,Sr)2(Cu,Ru)O4" La1.79Sr0.21Cu0.97Ru0.03O4 La 1.79 Sr 0.21 Cu 0.97 Ru 0.03 O 4 2003 T A 3.7797 13.2138 K 14.8 14.8 1 "solid state reaction in Al2O3 (850C,24h), SIN(1150C, 48h)" Transport properties of Ru-doped La1.85Sr0.15CuO4 and the effect of carrier concentration compensation 2003 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.:Condens.Matter 15(2003)1693
34292 JPC0151693 "(La,Sr)2(Cu,Ru)O4" La1.78Sr0.22Cu0.97Ru0.03O4 La 1.78 Sr 0.22 Cu 0.97 Ru 0.03 O 4 2003 T K 15.6 15.6 1 "solid state reaction in Al2O3 (850C,24h), SIN(1150C, 48h)" Transport properties of Ru-doped La1.85Sr0.15CuO4 and the effect of carrier concentration compensation 2003 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.:Condens.Matter 15(2003)1693
34293 JPC0151693 "(La,Sr)2(Cu,Ru)O4" La1.76Sr0.24Cu0.97Ru0.03O4 La 1.76 Sr 0.24 Cu 0.97 Ru 0.03 O 4 2003 T K 16.1 16.1 1 "solid state reaction in Al2O3 (850C,24h), SIN(1150C, 48h)" Transport properties of Ru-doped La1.85Sr0.15CuO4 and the effect of carrier concentration compensation 2003 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.:Condens.Matter 15(2003)1693
34294 JPC0151693 "(La,Sr)2(Cu,Ru)O4" La1.75Sr0.25Cu0.97Ru0.03O4 La 1.75 Sr 0.25 Cu 0.97 Ru 0.03 O 4 2003 T K 15.3 15.3 1 "solid state reaction in Al2O3 (850C,24h), SIN(1150C, 48h)" Transport properties of Ru-doped La1.85Sr0.15CuO4 and the effect of carrier concentration compensation 2003 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.:Condens.Matter 15(2003)1693
34295 JPC0151693 "(La,Sr)2(Cu,Ru)O4" La1.73Sr0.27Cu0.97Ru0.03O4 La 1.73 Sr 0.27 Cu 0.97 Ru 0.03 O 4 2003 T K 14.1 14.1 1 "solid state reaction in Al2O3 (850C,24h), SIN(1150C, 48h)" Transport properties of Ru-doped La1.85Sr0.15CuO4 and the effect of carrier concentration compensation 2003 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.:Condens.Matter 15(2003)1693
34296 SSC1270493 as-prepared sample not s/c. "CoSr2(Y,Ca)Cu2O7" Co1Sr2Y0.9Ca0.1Cu2O7+z Co 1 Sr 2 Y 0.9 Ca 0.1 Cu 2 O 7+z 1 2003 M1212 A 5.4027 5.4104 22.5269 K 15 15 "Co3O4,SrCO3,Y2O3,CaCO3,CuO" "mixture - CAL(975C,1000C). ANN(500C,30min, P=5GPa) using Ag2O as an oxygen source." Superconductivity in CoSr2(Y1-xCax)Cu2O7+z 2003 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 127(2003)493"
34297 SSC1270493 as-prepared sample not s/c. "CoSr2(Y,Ca)Cu2O7" Co1Sr2Y0.8Ca0.2Cu2O7+z Co 1 Sr 2 Y 0.8 Ca 0.2 Cu 2 O 7+z 1 2003 M1212 A 5.4031 5.4097 22.537 K 20 20 "Co3O4,SrCO3,Y2O3,CaCO3,CuO" "mixture - CAL(975C,1000C). ANN(500C,30min, P=5GPa) using Ag2O as an oxygen source." Superconductivity in CoSr2(Y1-xCax)Cu2O7+z 2003 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 127(2003)493"
34298 SSC1270493 as-prepared sample not s/c. "CoSr2(Y,Ca)Cu2O7" Co1Sr2Y0.75Ca0.25Cu2O7+z Co 1 Sr 2 Y 0.75 Ca 0.25 Cu 2 O 7+z 1 2003 M1212 K 30 30 "Co3O4,SrCO3,Y2O3,CaCO3,CuO" "mixture - CAL(975C,1000C). ANN(500C,30min, P=5GPa) using Ag2O as an oxygen source." Superconductivity in CoSr2(Y1-xCax)Cu2O7+z 2003 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 127(2003)493"
34299 SSC1270493 as-prepared sample not s/c. "CoSr2(Y,Ca)Cu2O7" Co1Sr2Y0.7Ca0.3Cu2O7+z Co 1 Sr 2 Y 0.7 Ca 0.3 Cu 2 O 7+z 1 2003 M1212 A 5.3995 5.41 22.5319 K 40 40 "Co3O4,SrCO3,Y2O3,CaCO3,CuO" "mixture - CAL(975C,1000C). ANN(500C,30min, P=5GPa) using Ag2O as an oxygen source." Superconductivity in CoSr2(Y1-xCax)Cu2O7+z 2003 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 127(2003)493"
34300 SSC1270493 as-prepared sample not s/c. "CoSr2(Y,Ca)Cu2O7" Co1Sr2Y0.65Ca0.35Cu2O7+z Co 1 Sr 2 Y 0.65 Ca 0.35 Cu 2 O 7+z 1 2003 M1212 K 38 38 "Co3O4,SrCO3,Y2O3,CaCO3,CuO" "mixture - CAL(975C,1000C). ANN(500C,30min, P=5GPa) using Ag2O as an oxygen source." Superconductivity in CoSr2(Y1-xCax)Cu2O7+z 2003 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 127(2003)493"
34301 SSC1270493 as-prepared sample not s/c. "CoSr2(Y,Ca)Cu2O7" Co1Sr2Y0.6Ca0.4Cu2O7+z Co 1 Sr 2 Y 0.6 Ca 0.4 Cu 2 O 7+z 1 2003 M1212 A 5.3973 5.4082 22.5689 K 34 34 "Co3O4,SrCO3,Y2O3,CaCO3,CuO" "mixture - CAL(975C,1000C). ANN(500C,30min, P=5GPa) using Ag2O as an oxygen source." Superconductivity in CoSr2(Y1-xCax)Cu2O7+z 2003 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 127(2003)493"
34302 SSC1270493 as-prepared sample not s/c. "CoSr2(Y,Ca)Cu2O7" Co1Sr2Y0.55Ca0.45Cu2O7+z Co 1 Sr 2 Y 0.55 Ca 0.45 Cu 2 O 7+z 1 2003 M1212 K 25 25 "Co3O4,SrCO3,Y2O3,CaCO3,CuO" "mixture - CAL(975C,1000C). ANN(500C,30min, P=5GPa) using Ag2O as an oxygen source." Superconductivity in CoSr2(Y1-xCax)Cu2O7+z 2003 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 127(2003)493"
34303 SSC1270493 as-prepared sample not s/c. "CoSr2(Y,Ca)Cu2O7" Co1Sr2Y0.5Ca0.5Cu2O7+z Co 1 Sr 2 Y 0.5 Ca 0.5 Cu 2 O 7+z 1 2003 M1212 A 5.3962 5.4068 22.6176 K 15 15 "Co3O4,SrCO3,Y2O3,CaCO3,CuO" "mixture - CAL(975C,1000C). ANN(500C,30min, P=5GPa) using Ag2O as an oxygen source." Superconductivity in CoSr2(Y1-xCax)Cu2O7+z 2003 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 127(2003)493"
34304 SSC1280097 oxygen content by Rietveld analysis for 2125-structure. hole in sheet = 0.085. "(La,Pr)2CaBa2Cu5Oz" La1.9Pr0.1Ca0.2Ba2Cu4.2O9.8786 La 1.9 Pr 0.1 Ca 0.2 Ba 2 Cu 4.2 O z 9.8786 1 2003 2125 P4/mmm A 3.8988 11.7235 K 25.5 25.5 "La2O3,BaCO3,CaCO3,CuO,Pr6O11" "mixture - heat(930-940C,72h) - ANN(500C,24h, in O2) - slow cool to RT" "Studies on La2-xPrxCayBa2Cu4+y (x = 0.1 - 0.5, y = 2x) type mixed oxide superconductors" 2003 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Solid State Commun., 128(2003)97"
34305 SSC1280097 oxygen content by Rietveld analysis for 2125-structure. hole in sheet = 0.136. "(La,Pr)2CaBa2Cu5Oz" La1.8Pr0.2Ca0.4Ba2Cu4.4O10.7348 La 1.8 Pr 0.2 Ca 0.4 Ba 2 Cu 4.4 O z 10.7348 1 2003 2125 P4/mmm A 3.8824 11.6698 K 35.4 35.4 "La2O3,BaCO3,CaCO3,CuO,Pr6O11" "mixture - heat(930-940C,72h) - ANN(500C,24h, in O2) - slow cool to RT" "Studies on La2-xPrxCayBa2Cu4+y (x = 0.1 - 0.5, y = 2x) type mixed oxide superconductors" 2003 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Solid State Commun., 128(2003)97"
34306 SSC1280097 oxygen content by Rietveld analysis for 2125-structure. hole in sheet = 0.171. "(La,Pr)2CaBa2Cu5Oz" La1.7Pr0.3Ca0.6Ba2Cu4.6O10.8862 La 1.7 Pr 0.3 Ca 0.6 Ba 2 Cu 4.6 O z 10.8862 1 2003 2125 P4/mmm A 3.8724 11.6417 K 47.6 47.6 "La2O3,BaCO3,CaCO3,CuO,Pr6O11" "mixture - heat(930-940C,72h) - ANN(500C,24h, in O2) - slow cool to RT" "Studies on La2-xPrxCayBa2Cu4+y (x = 0.1 - 0.5, y = 2x) type mixed oxide superconductors" 2003 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Solid State Commun., 128(2003)97"
34307 SSC1280097 oxygen content by Rietveld analysis for 2125-structure. hole in sheet = 0.182. "(La,Pr)2CaBa2Cu5Oz" La1.6Pr0.4Ca0.8Ba2Cu4.8O11.1064 La 1.6 Pr 0.4 Ca 0.8 Ba 2 Cu 4.8 O z 11.1064 1 2003 2125 P4/mmm A 3.865 11.6336 K 54 54 "La2O3,BaCO3,CaCO3,CuO,Pr6O11" "mixture - heat(930-940C,72h) - ANN(500C,24h, in O2) - slow cool to RT" "Studies on La2-xPrxCayBa2Cu4+y (x = 0.1 - 0.5, y = 2x) type mixed oxide superconductors" 2003 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Solid State Commun., 128(2003)97"
34308 SSC1280097 oxygen content by Rietveld analysis for 2125-structure. hole in sheet = 0.185. "(La,Pr)2CaBa2Cu5Oz" La1.5Pr0.5Ca1Ba2Cu5O11.782 La 1.5 Pr 0.5 Ca 1 Ba 2 Cu 5 O z 11.782 1 2003 2125 P4/mmm A 3.8712 11.6388 K 57.7 57.7 "La2O3,BaCO3,CaCO3,CuO,Pr6O11" "mixture - heat(930-940C,72h) - ANN(500C,24h, in O2) - slow cool to RT" "Studies on La2-xPrxCayBa2Cu4+y (x = 0.1 - 0.5, y = 2x) type mixed oxide superconductors" 2003 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Solid State Commun., 128(2003)97"
34309 PRL0140305 carrier concentration determined from Hall effect. Tc by mutual inductance. Tc shows Tc(max) SrTiO3 Sr1Ti1O3 Sr 1 Ti 1 O 3 3 1965 ABO3 K 0.58 0.58 TC34309 reduction of single crystals Dependence of the superconducting transition temperature on carrier concentration in semiconducting SrTiO3 1965 NBS "Phys.Rev.Lett., 14(1965)305"
34310 EPJ0330025 SrTiO3 Sr1Ti1O3 Sr 1 Ti 1 O 3 3 2003 ABO3 K 0.133 0.133 HC34310 "single crystal - polish. (111) surface. Mo pad by MBE. ANN(1150C,1h, P=1 E-8 mbar (vac))" Superconductivity of SrTiO3-z 2003 "Institute of Physics, Johannes Gutenberg University, 55099 Mainz, Germany" "Eur.Phys.J.B, 33(2003)25"
34311 EPJ0330025 SrTiO3 Sr1Ti1O3 Sr 1 Ti 1 O 3 3 2003 ABO3 K 0.214 0.214 HC34311 "single crystal - polish. (111) surface. Mo pad by MBE. ANN(1150C,1h, P=1 E-8 mbar (vac))" Superconductivity of SrTiO3-z 2003 "Institute of Physics, Johannes Gutenberg University, 55099 Mainz, Germany" "Eur.Phys.J.B, 33(2003)25"
34312 P068214517 "refined structure parameter by NED. Na, D2O content are precisely determined." Na0.31CoO2:1.25D2O Na0.31Co1D2.5O3.25 Na 0.31 Co 1 D 2.5 O 3.25 2003 A 2.8216 19.7681 K 4.5 4.5 Na0.61CoO2 "using Br2 as oxidizer. then, deutoration." Crystal structure of the sodium cobaltate deuterate superconductor NaxCoO2/4xD2O (x=1/3) 2003 "Materials Science Division, Argonne National Laboratory, Argonne Illinois 60439, USA" "Phys.Rev.B, 68(2003)214517"
34313 L089117001 RESN temp.= 3K. Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 2002 Sr2RuO4 K 1.42 1.42 uOhm.cm 0.16 floating zone. Non-Fermi-Liquid Behavior in Sr2RuO4 with Nonmagnetic Impurities 2002 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.Lett., 89(2002)117001"
34314 L089117001 Ti-content x=0.0005. RESN temp.= 3K. "Sr2(Ru,Ti)O4" Sr2Ru0.9995Ti0.0005O4 Sr 2 Ru 0.9995 Ti 0.0005 O 4 3 2002 Sr2RuO4 K 1.13 1.13 uOhm.cm 0.51 floating zone. Non-Fermi-Liquid Behavior in Sr2RuO4 with Nonmagnetic Impurities 2002 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.Lett., 89(2002)117001"
34315 L089117001 RESN temp.= 3K. "Sr2(Ru,Ti)O4" Sr2Ru0.999Ti0.001O4 Sr 2 Ru 0.999 Ti 0.001 O 4 3 2002 Sr2RuO4 K 0.6 0.6 uOhm.cm 0.78 floating zone. Non-Fermi-Liquid Behavior in Sr2RuO4 with Nonmagnetic Impurities 2002 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.Lett., 89(2002)117001"
34316 L089117001 Ti-content x=0.00125. RESN temp.= 3K. "Sr2(Ru,Ti)O4" Sr2Ru0.99875Ti0.00125O4 Sr 2 Ru 0.99875 Ti 0.00125 O 4 3 2002 Sr2RuO4 K 0.46 0.46 uOhm.cm 0.98 floating zone. Non-Fermi-Liquid Behavior in Sr2RuO4 with Nonmagnetic Impurities 2002 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.Lett., 89(2002)117001"
34317 L089117001 RESN temp.= 3K. "Sr2(Ru,Ti)O4" Sr2Ru0.9975Ti0.0025O4 Sr 2 Ru 0.9975 Ti 0.0025 O 4 3 2002 Sr2RuO4 K 0.4 uOhm.cm 1.2 floating zone. Non-Fermi-Liquid Behavior in Sr2RuO4 with Nonmagnetic Impurities 2002 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.Lett., 89(2002)117001"
34318 L089117001 RESN temp.= 3K. "Sr2(Ru,Ti)O4" Sr2Ru0.995Ti0.005O4 Sr 2 Ru 0.995 Ti 0.005 O 4 3 2002 Sr2RuO4 K 0.4 uOhm.cm 2.49 floating zone. Non-Fermi-Liquid Behavior in Sr2RuO4 with Nonmagnetic Impurities 2002 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.Lett., 89(2002)117001"
34319 MTL0370068 not s/c. hole conc. = 0.299. DENS is X-ray density. La2Ba2Cu4Oz La2Ba2Cu4O11.69 La 2 Ba 2 Cu 4 O z 11.69 1 1998 5.546 2125 A 3.897 11.748 K "adding CaO,CuO to La2Ba2Cu4. SIN(950C,12h, in O2) - ANN(500C,24h, in O2 flow)" Superconductivity in (La2-xYx)Ba2(CayCu4+y)Oz system 1998 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Materials Lett., 37(1998)68"
34320 MTL0370068 tetragonal triple perovskite. hole conc. = 0.309. DENS is X-ray density. "(La,Y)2Ba2CaCu5Oz" La1.9Y0.1Ba2Ca0.2Cu4.2O11.72 La 1.9 Y 0.1 Ba 2 Ca 0.2 Cu 4.2 O z 11.72 1 1998 5.696 2125 A 3.88 11.73 K 21 "adding CaO,CuO to La2Ba2Cu4. SIN(950C,12h, in O2) - ANN(500C,24h, in O2 flow)" Superconductivity in (La2-xYx)Ba2(CayCu4+y)Oz system 1998 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Materials Lett., 37(1998)68"
34321 MTL0370068 tetragonal triple perovskite. hole conc. = 0.321. DENS is X-ray density. "(La,Y)2Ba2CaCu5Oz" La1.8Y0.2Ba2Ca0.4Cu4.4O11.77 La 1.8 Y 0.2 Ba 2 Ca 0.4 Cu 4.4 O z 11.77 1 1998 5.862 2125 A 3.864 11.681 K 43 "adding CaO,CuO to La2Ba2Cu4. SIN(950C,12h, in O2) - ANN(500C,24h, in O2 flow)" Superconductivity in (La2-xYx)Ba2(CayCu4+y)Oz system 1998 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Materials Lett., 37(1998)68"
34322 MTL0370068 tetragonal triple perovskite. hole conc. = 0.348. DENS is X-ray density. "(La,Y)2Ba2CaCu5Oz" La1.7Y0.3Ba2Ca0.6Cu4.6O11.85 La 1.7 Y 0.3 Ba 2 Ca 0.6 Cu 4.6 O z 11.85 1 1998 5.995 2125 A 3.857 11.654 K 67 "adding CaO,CuO to La2Ba2Cu4. SIN(950C,12h, in O2) - ANN(500C,24h, in O2 flow)" Superconductivity in (La2-xYx)Ba2(CayCu4+y)Oz system 1998 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Materials Lett., 37(1998)68"
34323 MTL0370068 tetragonal triple perovskite. hole conc. = 0.349. DENS is X-ray density. "(La,Y)2Ba2CaCu5Oz" La1.6Y0.4Ba2Ca0.8Cu4.8O11.86 La 1.6 Y 0.4 Ba 2 Ca 0.8 Cu 4.8 O z 11.86 1 1998 6.107 2125 A 3.852 11.64 K 78 "adding CaO,CuO to La2Ba2Cu4. SIN(950C,12h, in O2) - ANN(500C,24h, in O2 flow)" Superconductivity in (La2-xYx)Ba2(CayCu4+y)Oz system 1998 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Materials Lett., 37(1998)68"
34324 MTL0370068 tetragonal triple perovskite. hole conc. = 0.347. DENS is X-ray density. "(La,Y)2Ba2CaCu5Oz" La1.5Y0.5Ba2Ca1Cu5O11.86 La 1.5 Y 0.5 Ba 2 Ca 1 Cu 5 O z 11.86 1 1998 6.269 2125 A 3.834 11.619 K 78 "adding CaO,CuO to La2Ba2Cu4. SIN(950C,12h, in O2) - ANN(500C,24h, in O2 flow)" Superconductivity in (La2-xYx)Ba2(CayCu4+y)Oz system 1998 "Department of Physics, Saurashtra University, Rajkot 360 005, India" "Materials Lett., 37(1998)68"
34325 PHC3910319 "Hirr(0) = 46.9 T from fitting curve, Hirr(T)=Hirr(0)(1-t)^n. Jc(5K,4T) = 0.7 E+6 A/cm2. " "(Sr,Gd)CuO2" Sr0.9Gd0.1Cu1O2 Sr 0.9 Gd 0.1 Cu 1 O 2 1 2003 IL A 3.9348 3.3838 K 43 43 100 HIR34325 "high pressure synthesis (6 GPa, 1000C, 2h) - Q to RT - ANN(500-600C, 3h)" Effect of the magnetic moments of Gd on the superconductivity in the infinite-layer superconductor Sr0.9Gd0.1CuO2 2003 "National Creative Research Initiative Center for Superconductivity and Department of Physics, Pohang University of Science and Technology, Pohang 790-784, South Korea" "Physica C, 391(2003)319"
34326 L088227002 gap = 13.0 +- 1.0 meV at 4.2 K by STM "(Sr,La)CuO2" Sr0.9La0.1Cu1O2 Sr 0.9 La 0.1 Cu 1 O 2 1 2002 IL P4/mmm K 43 43 100 meV 13 7.03 11 See Physica C 366(2002)299 Strongly Correlated s-Wave Superconductivity in the N-Type Infinite-Layer Cuprate 2002 "Department of Physics, California Institute of Technology, Pasadena, California 91125" "Phys.Rev.Lett., 88(2002)227002"
34327 P069014507 no-oxygenation CuBaSrYCu2O7 Ba1Sr1Y1Cu3O7+z Ba 1 Sr 1 Y 1 Cu 3 O 7+z 1 2004 3 Y123 A 3.7864 3.8542 11.557 K 82.7 82.7 no-oxygenation "Fe0.5Cu0.5(Ba1-xSrx)2YCu2O7+z (x=0, 0.5, and 1) superconductors prepared by high-pressure synthesis" 2004 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People's Republic of China" "Phys.Rev.B, 69(2004)14507"
34328 P069014507 no-oxygenation "(Fe,Cu)BaSrYCu2O7" Fe0.1Ba1Sr1Y1Cu2.9O7+z Fe 0.1 Ba 1 Sr 1 Y 1 Cu 2.9 O 7+z 1 2004 3 Y123 A 3.8218 3.8448 11.5386 K 46.6 46.6 no-oxygenation "Fe0.5Cu0.5(Ba1-xSrx)2YCu2O7+z (x=0, 0.5, and 1) superconductors prepared by high-pressure synthesis" 2004 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People's Republic of China" "Phys.Rev.B, 69(2004)14507"
34329 P069014507 no-oxygenation "(Fe,Cu)BaSrYCu2O7" Fe0.2Ba1Sr1Y1Cu2.8O7+z Fe 0.2 Ba 1 Sr 1 Y 1 Cu 2.8 O 7+z 1 2004 2 Y123 A 3.8282 11.5467 K 36.1 36.1 no-oxygenation "Fe0.5Cu0.5(Ba1-xSrx)2YCu2O7+z (x=0, 0.5, and 1) superconductors prepared by high-pressure synthesis" 2004 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People's Republic of China" "Phys.Rev.B, 69(2004)14507"
34330 P069014507 no-oxygenation "(Fe,Cu)BaSrYCu2O7" Fe0.3Ba1Sr1Y1Cu2.7O7+z Fe 0.3 Ba 1 Sr 1 Y 1 Cu 2.7 O 7+z 1 2004 2 Y123 A 3.832 11.5254 K 7.8 7.8 no-oxygenation "Fe0.5Cu0.5(Ba1-xSrx)2YCu2O7+z (x=0, 0.5, and 1) superconductors prepared by high-pressure synthesis" 2004 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People's Republic of China" "Phys.Rev.B, 69(2004)14507"
34331 P069014507 no-oxygenation. not s/c. "(Fe,Cu)BaSrYCu2O7" Fe0.35Ba1Sr1Y1Cu2.65O7+z Fe 0.35 Ba 1 Sr 1 Y 1 Cu 2.65 O 7+z 1 2004 2 Y123 A 3.8355 11.5271 K 4.2 no-oxygenation "Fe0.5Cu0.5(Ba1-xSrx)2YCu2O7+z (x=0, 0.5, and 1) superconductors prepared by high-pressure synthesis" 2004 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People's Republic of China" "Phys.Rev.B, 69(2004)14507"
34332 P069014507 "(Fe0.5,Cu0.5)Ba2YCu2O7" Fe0.5Ba2Y1Cu2.5O7+z Fe 0.5 Ba 2 Y 1 Cu 2.5 O 7+z 1 2004 2 Y123 A 3.87 11.601 K 63 83 73 "mixture - CAL(925C,60h) - pettet - CAL(925C,60h) - cool to RT(30C/h) - oxygenate(1000C,0.5h, 5wt% KClO4, P=6GPa)" "Fe0.5Cu0.5(Ba1-xSrx)2YCu2O7+z (x=0, 0.5, and 1) superconductors prepared by high-pressure synthesis" 2004 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People's Republic of China" "Phys.Rev.B, 69(2004)14507"
34333 P069014507 "(Fe0.5,Cu0.5)(Ba,Sr)2YCu2O7" Fe0.5Sr2Y1Cu2.5O7+z Fe 0.5 Sr 2 Y 1 Cu 2.5 O 7+z 1 2004 2 Y123 A 3.859 11.602 K 77 77 "mixture - CAL(925C,60h) - pettet - CAL(925C,60h) - cool to RT(30C/h) - oxygenate(1000C,0.5h, 5wt% KClO4, P=6GPa)" "Fe0.5Cu0.5(Ba1-xSrx)2YCu2O7+z (x=0, 0.5, and 1) superconductors prepared by high-pressure synthesis" 2004 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People's Republic of China" "Phys.Rev.B, 69(2004)14507"
34334 P069014507 "As increasing annealing temperature (210-500C), s/c volume fraction decreases." "(Fe0.5,Cu0.5)(Ba,Sr)2YCu2O7" Fe0.5Ba1Sr1Y1Cu2.5O7.35 Fe 0.5 Ba 1 Sr 1 Y 1 Cu 2.5 O 7+z 7.35 1 2004 2 Y123 A 3.838 11.5211 K 60 60 55 "mixture - CAL(925C,60h) - pettet - CAL(925C,60h) - cool to RT(30C/h) - oxygenate(1000C,0.5h, 5wt% KClO4, P=6GPa)" "Fe0.5Cu0.5(Ba1-xSrx)2YCu2O7+z (x=0, 0.5, and 1) superconductors prepared by high-pressure synthesis" 2004 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People's Republic of China" "Phys.Rev.B, 69(2004)14507"
34335 P069024512 ANN(1030C) sample. AF ordering due to Mo-sublattice. MoSr2YCu2Oz Mo1Sr2Y1Cu2O7+z Mo 1 Sr 2 Y 1 Cu 2 O 7+z 2004 1212 A 3.811 11.52 K 18 18 6.8 11 "Y2O3,SrCO3,Mo,CuO" "mixture - heat(750C,1d) - SIN(conventional method)" Tuning the superconducting state in the magnetic MoSr2YCu2O8-z materials 2004 "Racah Institute of Physics, The Hebrew University, Jerusalem 91904, Israel" "Phys.Rev.B, 69(2004)24512"
34336 P069024512 ANN(in 92 atm O2) MoSr2YCu2Oz Mo1Sr2Y1Cu2O7+z Mo 1 Sr 2 Y 1 Cu 2 O 7+z 2004 16 1212 K 32 32 "Y2O3,SrCO3,Mo,CuO" "mixture - heat(750C,1d) - SIN(conventional method)" Tuning the superconducting state in the magnetic MoSr2YCu2O8-z materials 2004 "Racah Institute of Physics, The Hebrew University, Jerusalem 91904, Israel" "Phys.Rev.B, 69(2004)24512"
34337 P069024517 "muon-SR shows 3 magnetic order points of 200K(AF order of Ru), 95K(unknown), 77.6K(weak ferro of Ru). s/c gives no effect tomagnetic order." "(Eu,Ce)2RuSr2Cu2O10" Eu1.4Ce0.6Ru1Sr2Cu2O10 Eu 1.4 Ce 0.6 Ru 1 Sr 2 Cu 2 O 10 2004 77.6 200 Ru1222 A 3.846 28.72 K 22 40 43 40 1 "mixture - heat(1000C,1d,in flowing O2) - SIN(1050C,72h, in 1.1 atm O2) - FC." Coexistence of magnetism and superconductivity in Eu1.4Ce0.6RuSr2Cu2O10 : A muon spin rotation and magnetization study 2004 "1Physik-Institut der Universitat Zurich, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 69(2004)24517"
34340 PHC4020317 "(Sr,Pr)CuO2" Sr0.9Pr0.1Cu1O2 Sr 0.9 Pr 0.1 Cu 1 O 2 1 2004 IL A 3.9386 3.4044 K 41.5 41.5 K/GPa -0.75 "SrCuO2,RCuO2" "wrapped in Pt-foil, high pressure synthesis (9GPa, 1000C) - Q to RT" Superconducting magnetization and pressure effect on Tc in the infinite-layer high-Tc superconductors 2004 "Nuclear Reactor Research Department, Russian Academy of Sciences, Institute for Metal Physics, Ekaterinburg, Russia" "Physica C, 402(2004)317"
34341 PHC4020317 c-axis aligned powder in epoxy. "(Sr,La)CuO2" Sr0.9La0.1Cu1O2 Sr 0.9 La 0.1 Cu 1 O 2 1 2004 IL A 3.9423 3.4148 K 41.9 41.9 T 18.2 T/K 0.62 A 42 "SrCuO2,RCuO2" "wrapped in Pt-foil, high pressure synthesis (9GPa, 1000C) - Q to RT" Superconducting magnetization and pressure effect on Tc in the infinite-layer high-Tc superconductors 2004 "Nuclear Reactor Research Department, Russian Academy of Sciences, Institute for Metal Physics, Ekaterinburg, Russia" "Physica C, 402(2004)317"
34342 PHC4020027 beta in SP = 3E-4 mj/mol.K4. delta-C/gamma*Tc = 0.85 NaxCoO2/yH2O Na0.3Co1H2.6O3.3 Na 0.3 Co 1 H 2.6 O 3.3 2004 K 4.2 4.2 mj/mol.K2 12.2 deintercalate Na from Na0.7CoO2 by Br. Specific heat study of the Na0.3CoO2:1.3H2O superconductor: influence of the complex chemistry 2004 "Department of Physics and Materials Research Institute, Pennsylvania State University, University Park, PA 16802, USA" "Physica C, 402(2004)27"
34343 NAT4240527 "during deintercalation process, Br-content = 0.5. Na-content by ICP-AES." NaxCoO2/yH2O Na0.45Co1H2.6O3.3 Na 0.45 Co 1 H 2.6 O 3.3 2003 A K 2 2 Superconductivity phase diagram of NaxCoO2-1.3H2O 2003 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Nature, 424(2003)527"
34344 NAT4240527 "during deintercalation process, Br-content = 1.0. Na-content by ICP-AES." NaxCoO2/yH2O Na0.4Co1H2.6O3.3 Na 0.4 Co 1 H 2.6 O 3.3 2003 A 2.823 19.43 K 2 2 Superconductivity phase diagram of NaxCoO2-1.3H2O 2003 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Nature, 424(2003)527"
34345 NAT4240527 "during deintercalation process, Br-content = 10. Na-content by ICP-AES." NaxCoO2/yH2O Na0.32Co1H2.6O3.3 Na 0.32 Co 1 H 2.6 O 3.3 2003 A 2.825 19.52 K 2.1 2.1 Superconductivity phase diagram of NaxCoO2-1.3H2O 2003 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Nature, 424(2003)527"
34346 NAT4240527 "during deintercalation process, Br-content = 20. Na-content by ICP-AES." NaxCoO2/yH2O Na0.33Co1H2.6O3.3 Na 0.33 Co 1 H 2.6 O 3.3 2003 A 2.823 19.58 K 2.2 2.2 Superconductivity phase diagram of NaxCoO2-1.3H2O 2003 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Nature, 424(2003)527"
34347 NAT4240527 "during deintercalation process, Br-content = 30. Na-content by ICP-AES." NaxCoO2/yH2O Na0.32Co1H2.6O3.3 Na 0.32 Co 1 H 2.6 O 3.3 2003 A 2.822 19.58 K 3 3 Superconductivity phase diagram of NaxCoO2-1.3H2O 2003 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Nature, 424(2003)527"
34348 NAT4240527 "during deintercalation process, Br-content = 40. Na-content by ICP-AES." NaxCoO2/yH2O Na0.3Co1H2.6O3.3 Na 0.3 Co 1 H 2.6 O 3.3 2003 A 2.823 19.69 K 4.3 4.3 Superconductivity phase diagram of NaxCoO2-1.3H2O 2003 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Nature, 424(2003)527"
34349 NAT4240527 "during deintercalation process, Br-content = 100. Na-content by ICP-AES. two phases." NaxCoO2/yH2O Na0.29Co1H2.6O3.3 Na 0.29 Co 1 H 2.6 O 3.3 2003 A 2.819 19.77 K 4 4 Superconductivity phase diagram of NaxCoO2-1.3H2O 2003 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Nature, 424(2003)527"
34350 NAT4240527 "during deintercalation process, Br-content = 50. Na-content by ICP-AES. two phases." NaxCoO2/yH2O Na0.26Co1H2.6O3.3 Na 0.26 Co 1 H 2.6 O 3.3 2003 A 2.821 19.77 K 2.4 2.4 Superconductivity phase diagram of NaxCoO2-1.3H2O 2003 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Nature, 424(2003)527"
34351 PHC4020152 impurity phase = HgO Hg2Ba2YCu2O8 Hg2Ba2Y1Cu2O8-z Hg 2 Ba 2 Y 1 Cu 2 O 8-z 2004 Hg2212 A 3.8719 28.905 K 0 0 "high pressure synthesis (3.5 GPa, 1050C)" Enhancement of Tc by Sr substitution for Ba in Hg-2212 superconductor 2004 "Laboratoire de Cristallographie, CNRS, 25 avenue des martyrs, BP166, F-38042 Grenoble cedex 09, France" "Physica C, 402(2004)152"
34352 PHC4020152 "impurity phase = (Hg,Sr)O, CuO" Hg2BaSrYCu2O8 Hg2Ba1Sr1Y1Cu2O8-z Hg 2 Ba 1 Sr 1 Y 1 Cu 2 O 8-z 2004 Hg2212 A 3.8327 28.422 K 32 32 "high pressure synthesis (3.5 GPa, 1050C)" Enhancement of Tc by Sr substitution for Ba in Hg-2212 superconductor 2004 "Laboratoire de Cristallographie, CNRS, 25 avenue des martyrs, BP166, F-38042 Grenoble cedex 09, France" "Physica C, 402(2004)152"
34353 PHC4020152 "impurity phase = (Hg,Sr)O, CuO" Hg2Sr2YCu2O8 Hg2Sr2Y1Cu2O8-z Hg 2 Sr 2 Y 1 Cu 2 O 8-z 2004 Hg2212 A 3.8108 28.141 K 42 42 "high pressure synthesis (3.5 GPa, 1050C)" Enhancement of Tc by Sr substitution for Ba in Hg-2212 superconductor 2004 "Laboratoire de Cristallographie, CNRS, 25 avenue des martyrs, BP166, F-38042 Grenoble cedex 09, France" "Physica C, 402(2004)152"
34354 PHC4020152 impurity phase = HgO "Hg2Ba2(Y,Ca)Cu2O8" Hg2Ba2Y0.8Ca0.2Cu2O8-z Hg 2 Ba 2 Y 0.8 Ca 0.2 Cu 2 O 8-z 2004 Hg2212 A 3.8589 28.918 K 21 21 "high pressure synthesis (3.5 GPa, 950C)" Enhancement of Tc by Sr substitution for Ba in Hg-2212 superconductor 2004 "Laboratoire de Cristallographie, CNRS, 25 avenue des martyrs, BP166, F-38042 Grenoble cedex 09, France" "Physica C, 402(2004)152"
34355 PHC4020152 "Hg2(Ba,Sr)2(Y,Ca)Cu2O8" Hg2Ba1.9Sr0.1Y0.8Ca0.2Cu2O8-z Hg 2 Ba 1.9 Sr 0.1 Y 0.8 Ca 0.2 Cu 2 O 8-z 2004 Hg2212 A 3.8546 28.873 K 27 27 "high pressure synthesis (3.5 GPa, 950C)" Enhancement of Tc by Sr substitution for Ba in Hg-2212 superconductor 2004 "Laboratoire de Cristallographie, CNRS, 25 avenue des martyrs, BP166, F-38042 Grenoble cedex 09, France" "Physica C, 402(2004)152"
34356 PHC4020152 "Hg2(Ba,Sr)2(Y,Ca)Cu2O8" Hg2Ba1.8Sr0.2Y0.8Ca0.2Cu2O8-z Hg 2 Ba 1.8 Sr 0.2 Y 0.8 Ca 0.2 Cu 2 O 8-z 2004 Hg2212 A 3.8514 28.846 K 32.5 32.5 "high pressure synthesis (3.5 GPa, 950C)" Enhancement of Tc by Sr substitution for Ba in Hg-2212 superconductor 2004 "Laboratoire de Cristallographie, CNRS, 25 avenue des martyrs, BP166, F-38042 Grenoble cedex 09, France" "Physica C, 402(2004)152"
34357 PHC4020152 "Hg2(Ba,Sr)2(Y,Ca)Cu2O8" Hg2Ba1.7Sr0.3Y0.8Ca0.2Cu2O8-z Hg 2 Ba 1.7 Sr 0.3 Y 0.8 Ca 0.2 Cu 2 O 8-z 2004 Hg2212 A 3.8477 28.806 K 39.5 39.5 "high pressure synthesis (3.5 GPa, 950C)" Enhancement of Tc by Sr substitution for Ba in Hg-2212 superconductor 2004 "Laboratoire de Cristallographie, CNRS, 25 avenue des martyrs, BP166, F-38042 Grenoble cedex 09, France" "Physica C, 402(2004)152"
34358 PHC4020152 "Hg2(Ba,Sr)2(Y,Ca)Cu2O8" Hg2Ba1.6Sr0.4Y0.8Ca0.2Cu2O8-z Hg 2 Ba 1.6 Sr 0.4 Y 0.8 Ca 0.2 Cu 2 O 8-z 2004 Hg2212 A 3.8454 28.763 K 38.5 38.5 "high pressure synthesis (3.5 GPa, 950C)" Enhancement of Tc by Sr substitution for Ba in Hg-2212 superconductor 2004 "Laboratoire de Cristallographie, CNRS, 25 avenue des martyrs, BP166, F-38042 Grenoble cedex 09, France" "Physica C, 402(2004)152"
34359 PHC4020152 "Hg2(Ba,Sr)2(Y,Ca)Cu2O8" Hg2Ba1.5Sr0.5Y0.8Ca0.2Cu2O8-z Hg 2 Ba 1.5 Sr 0.5 Y 0.8 Ca 0.2 Cu 2 O 8-z 2004 Hg2212 A 3.8425 28.733 K 41 41 "high pressure synthesis (3.5 GPa, 950C)" Enhancement of Tc by Sr substitution for Ba in Hg-2212 superconductor 2004 "Laboratoire de Cristallographie, CNRS, 25 avenue des martyrs, BP166, F-38042 Grenoble cedex 09, France" "Physica C, 402(2004)152"
34360 PHC4020152 "impurity phase = (Hg,Sr)O" "Hg2(Ba,Sr)2(Y,Ca)Cu2O8" Hg2Ba1.2Sr0.8Y0.8Ca0.2Cu2O8-z Hg 2 Ba 1.2 Sr 0.8 Y 0.8 Ca 0.2 Cu 2 O 8-z 2004 Hg2212 A 3.8333 28.575 K 51 51 "high pressure synthesis (3.5 GPa, 950C)" Enhancement of Tc by Sr substitution for Ba in Hg-2212 superconductor 2004 "Laboratoire de Cristallographie, CNRS, 25 avenue des martyrs, BP166, F-38042 Grenoble cedex 09, France" "Physica C, 402(2004)152"
34361 PHC4020152 "impurity phase = (Hg,Sr)O" "Hg2(Ba,Sr)2(Y,Ca)Cu2O8" Hg2Ba0.6Sr1.4Y0.8Ca0.2Cu2O8-z Hg 2 Ba 0.6 Sr 1.4 Y 0.8 Ca 0.2 Cu 2 O 8-z 2004 Hg2212 A 3.8134 28.302 K 60 60 "high pressure synthesis (3.5 GPa, 950C)" Enhancement of Tc by Sr substitution for Ba in Hg-2212 superconductor 2004 "Laboratoire de Cristallographie, CNRS, 25 avenue des martyrs, BP166, F-38042 Grenoble cedex 09, France" "Physica C, 402(2004)152"
34362 PHC4020152 "impurity phase = (Hg,Sr)O" "Hg2Sr2(Y,Ca)Cu2O8" Hg2Sr2Y0.8Ca0.2Cu2O8-z Hg 2 Sr 2 Y 0.8 Ca 0.2 Cu 2 O 8-z 2004 Hg2212 A 3.8039 28.107 K 58 58 "high pressure synthesis (3.5 GPa, 950C)" Enhancement of Tc by Sr substitution for Ba in Hg-2212 superconductor 2004 "Laboratoire de Cristallographie, CNRS, 25 avenue des martyrs, BP166, F-38042 Grenoble cedex 09, France" "Physica C, 402(2004)152"
34363 PHC4030203 Tc not given "(Sm,Ce)2CuO4" Sm1.94Ce0.06Cu1O4 Sm 1.94 Ce 0.06 Cu 1 O 4 1 2004 T' K TP34363 "Sm2O3,CeO2,CuO" 1 standard solid state reaction "Anomalous thermopower of the electron-doped superconductor, Sm2-xCexCuO4" 2004 "Structure Research Laboratory, Physics Department, University of Science and Technology of China, Hefei, Anhui, PR China" "Physica C, 403(2004)203"
34364 PHC4030203 Tc not given "(Sm,Ce)2CuO4" Sm1.91Ce0.09Cu1O4 Sm 1.91 Ce 0.09 Cu 1 O 4 1 2004 T' K TP34364 "Sm2O3,CeO2,CuO" 1 standard solid state reaction "Anomalous thermopower of the electron-doped superconductor, Sm2-xCexCuO4" 2004 "Structure Research Laboratory, Physics Department, University of Science and Technology of China, Hefei, Anhui, PR China" "Physica C, 403(2004)203"
34365 PHC4030203 Tc not given "(Sm,Ce)2CuO4" Sm1.89Ce0.11Cu1O4 Sm 1.89 Ce 0.11 Cu 1 O 4 1 2004 T' K TP34365 "Sm2O3,CeO2,CuO" 1 standard solid state reaction "Anomalous thermopower of the electron-doped superconductor, Sm2-xCexCuO4" 2004 "Structure Research Laboratory, Physics Department, University of Science and Technology of China, Hefei, Anhui, PR China" "Physica C, 403(2004)203"
34366 PHC4030203 Tc not given "(Sm,Ce)2CuO4" Sm1.87Ce0.13Cu1O4 Sm 1.87 Ce 0.13 Cu 1 O 4 1 2004 T' K TP34366 "Sm2O3,CeO2,CuO" 1 standard solid state reaction "Anomalous thermopower of the electron-doped superconductor, Sm2-xCexCuO4" 2004 "Structure Research Laboratory, Physics Department, University of Science and Technology of China, Hefei, Anhui, PR China" "Physica C, 403(2004)203"
34367 PHC4030203 "(Sm,Ce)2CuO4" Sm1.85Ce0.15Cu1O4 Sm 1.85 Ce 0.15 Cu 1 O 4 3 2004 T' K 18.6 18.6 TP34367 "Sm2O3,CeO2,CuO" 1 standard solid state reaction "Anomalous thermopower of the electron-doped superconductor, Sm2-xCexCuO4" 2004 "Structure Research Laboratory, Physics Department, University of Science and Technology of China, Hefei, Anhui, PR China" "Physica C, 403(2004)203"
34368 PHC4030203 "(Sm,Ce)2CuO4" Sm1.85Ce0.15Cu1O4 Sm 1.85 Ce 0.15 Cu 1 O 4 1 2004 T' K 15.7 15.7 TP34368 "Sm2O3,CeO2,CuO" 1 standard solid state reaction "Anomalous thermopower of the electron-doped superconductor, Sm2-xCexCuO4" 2004 "Structure Research Laboratory, Physics Department, University of Science and Technology of China, Hefei, Anhui, PR China" "Physica C, 403(2004)203"
34369 PHC4030203 Tc not given "(Sm,Ce)2CuO4" Sm1.83Ce0.17Cu1O4 Sm 1.83 Ce 0.17 Cu 1 O 4 1 2004 T' K TP34369 "Sm2O3,CeO2,CuO" 1 standard solid state reaction "Anomalous thermopower of the electron-doped superconductor, Sm2-xCexCuO4" 2004 "Structure Research Laboratory, Physics Department, University of Science and Technology of China, Hefei, Anhui, PR China" "Physica C, 403(2004)203"
34370 PHC4030203 Tc not given "(Sm,Ce)2CuO4" Sm1.81Ce0.19Cu1O4 Sm 1.81 Ce 0.19 Cu 1 O 4 1 2004 T' K TP34370 "Sm2O3,CeO2,CuO" 1 standard solid state reaction "Anomalous thermopower of the electron-doped superconductor, Sm2-xCexCuO4" 2004 "Structure Research Laboratory, Physics Department, University of Science and Technology of China, Hefei, Anhui, PR China" "Physica C, 403(2004)203"
34371 PHC4030203 Tc not given "(Sm,Ce)2CuO4" Sm1.79Ce0.21Cu1O4 Sm 1.79 Ce 0.21 Cu 1 O 4 1 2004 T' K TP34371 "Sm2O3,CeO2,CuO" 1 standard solid state reaction "Anomalous thermopower of the electron-doped superconductor, Sm2-xCexCuO4" 2004 "Structure Research Laboratory, Physics Department, University of Science and Technology of China, Hefei, Anhui, PR China" "Physica C, 403(2004)203"
34372 PHC4020303 "impurity phase: Ca2PbO4. Tc1= 98 K and 93 K for nd-laser irradiation sample, 10 W/cm2 60 min, and 20 W/cm2 120 min, respectively." "(Bi,Nd,Tb,Pb)2Sr2Ca2Cu3O10" Bi0.8Nd0.1Tb0.1Pb1Sr2Ca2Cu3O10 Bi 0.8 Nd 0.1 Tb 0.1 Pb 1 Sr 2 Ca 2 Cu 3 O 10 1 2004 Bi2223 A 3.6891 35.3162 K 108 115 117 115 1 "final ANN(500C, 20h, in O2 flow)" High energy Nd-laser irradiation effect on optimally co-doped terbium-neodymium BPSCCO bismuth cuprate superconductor 2004 "Department of Chemistry, HTc-Ceramic Superconductors Unit, Faculty of Science, Tanta University, Tanta, Egypt" "Physica C, 402(2004)303"
34373 PHC4030177 remanent = 0.15 m. RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 1 2004 136 Ru1212 A 3.8396 11.576 K 28 46 37 "SrCO3,Gd2O3,CuO,RuO2,Co2O3" 1 "mixture - CAL(900C,12h,in air) - heat(1010C,15h, in N2) - heat(1040C, 1050, 1060C, in flowing O2)" Effect of Co substitution on superconductivity and magnetic order in RuSr2GdCu2O8 2004 "Institute of Physics and Center for Condensed Matter Physics, Chinese Academy of Sciences, Beijing, PR China" "Physica C, 403(2004)177"
34374 PHC4030177 remanent = 0.22 m. "(Ru,Co)Sr2GdCu2O8" Ru0.99Co0.01Sr2Gd1Cu2O8 Ru 0.99 Co 0.01 Sr 2 Gd 1 Cu 2 O 8 1 2004 Ru1212 A 3.8393 11.5729 K 10 41 25.5 "SrCO3,Gd2O3,CuO,RuO2,Co2O3" 1 "mixture - CAL(900C,12h,in air) - heat(1010C,15h, in N2) - heat(1040C, 1050, 1060C, in flowing O2)" Effect of Co substitution on superconductivity and magnetic order in RuSr2GdCu2O8 2004 "Institute of Physics and Center for Condensed Matter Physics, Chinese Academy of Sciences, Beijing, PR China" "Physica C, 403(2004)177"
34375 PHC4030177 R is not zero at 5K. remanent = 0.32 m. "(Ru,Co)Sr2GdCu2O8" Ru0.97Co0.03Sr2Gd1CuO8 Ru 0.97 Co 0.03 Sr 2 Gd 1 Cu O 8 1 2004 Ru1212 A 3.8398 11.5709 K 13 34 5 13 "SrCO3,Gd2O3,CuO,RuO2,Co2O3" 1 "mixture - CAL(900C,12h,in air) - heat(1010C,15h, in N2) - heat(1040C, 1050, 1060C, in flowing O2)" Effect of Co substitution on superconductivity and magnetic order in RuSr2GdCu2O8 2004 "Institute of Physics and Center for Condensed Matter Physics, Chinese Academy of Sciences, Beijing, PR China" "Physica C, 403(2004)177"
34376 PHC4030177 R is not zero at 5K. remanent = 0.44 m. "(Ru,Co)Sr2GdCu2O8" Ru0.95Co0.05Sr2Gd1CuO8 Ru 0.95 Co 0.05 Sr 2 Gd 1 Cu O 8 1 2004 Ru1212 A 3.84 11.5675 K 5.5 21 5 5.5 "SrCO3,Gd2O3,CuO,RuO2,Co2O3" 1 "mixture - CAL(900C,12h,in air) - heat(1010C,15h, in N2) - heat(1040C, 1050, 1060C, in flowing O2)" Effect of Co substitution on superconductivity and magnetic order in RuSr2GdCu2O8 2004 "Institute of Physics and Center for Condensed Matter Physics, Chinese Academy of Sciences, Beijing, PR China" "Physica C, 403(2004)177"
34377 PHC4030200 absolute value of PENET not given. PENET measured using LC resonator. gap obtained by s-wave fitting to PENET(T). "(Ba,K)BiO3" Ba0.63K0.37Bi1O3 Ba 0.63 K 0.37 Bi 1 O 3 3 2004 BKBO K 31 31 3.53 electro-chemical method Temperature dependence of magnetic penetration depth in B1-xKxBiO3 superconductor 2004 "Department of Physics and Astronomy and USC NanoCenter, University of South Carolina, Columbia, SC 29208, USA" "Physica C, 403(2004)200"
34378 PHC3410729 "Jc(5K,0 T) = 1.5 E+5 A/cm2. DENS is x-ray density." "(Ba,K)BiO3" Ba0.63K0.37Bi1O3 Ba 0.63 K 0.37 Bi 1 O 3 3 2000 8 BKBO K 31 31 Oe 750 750 5 electro-chemical method Observation of a linear temperature dependence of the critical current density in a Ba0.63K0.37Bi03 single crystal 2000 "Telecom. Basic Research Lab., ETHI, Taejon 305350, Korea" "Physica C, 341(2000)729"
34379 P069094506 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.96Co0.04O7 Y 1 Ba 2 Cu 2.96 Co 0.04 O z 7 1 2004 Y123 A K 91.5 91.5 1 "standard solid state reaction method. ANN(350C, in O2)" "Long- and short-range magnetic order, charge transfer, and superconductivity in YBa2Cu3-xCoxO7" 2004 "Laboratoire des Solides Irradies, Ecole Polytechnique, 91128 Palaiseau, France" "Phys.Rev.B, 69(2004)94506"
34380 P069094506 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.94Co0.06O7 Y 1 Ba 2 Cu 2.94 Co 0.06 O z 7 1 2004 Y123 A 3.8375 3.8815 11.7 K 78.3 78.3 1 "standard solid state reaction method. ANN(350C, in O2)" "Long- and short-range magnetic order, charge transfer, and superconductivity in YBa2Cu3-xCoxO7" 2004 "Laboratoire des Solides Irradies, Ecole Polytechnique, 91128 Palaiseau, France" "Phys.Rev.B, 69(2004)94506"
34381 P069094506 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.88Co0.12O7 Y 1 Ba 2 Cu 2.88 Co 0.12 O z 7 1 2004 Y123 A 3.8681 11.699 K 71 71 1 "standard solid state reaction method. ANN(350C, in O2)" "Long- and short-range magnetic order, charge transfer, and superconductivity in YBa2Cu3-xCoxO7" 2004 "Laboratoire des Solides Irradies, Ecole Polytechnique, 91128 Palaiseau, France" "Phys.Rev.B, 69(2004)94506"
34382 P069094506 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.76Co0.24O6.999 Y 1 Ba 2 Cu 2.76 Co 0.24 O z 6.999 1 2004 Y123 A 3.8724 11.697 K 50.7 50.7 1 "standard solid state reaction method. ANN(350C, in O2)" "Long- and short-range magnetic order, charge transfer, and superconductivity in YBa2Cu3-xCoxO7" 2004 "Laboratoire des Solides Irradies, Ecole Polytechnique, 91128 Palaiseau, France" "Phys.Rev.B, 69(2004)94506"
34383 P069094506 "YBa2(Cu,Co)3O7" Y1Ba2Cu2.64Co0.36O7.03 Y 1 Ba 2 Cu 2.64 Co 0.36 O z 7.03 1 2004 Y123 A 3.8795 11.693 K 22 22 1 "standard solid state reaction method. ANN(350C, in O2)" "Long- and short-range magnetic order, charge transfer, and superconductivity in YBa2Cu3-xCoxO7" 2004 "Laboratoire des Solides Irradies, Ecole Polytechnique, 91128 Palaiseau, France" "Phys.Rev.B, 69(2004)94506"
34384 P069094506 no long range magnetic order down to 1.4 K. "YBa2(Cu,Co)3O7" Y1Ba2Cu2.58Co0.42O7.019 Y 1 Ba 2 Cu 2.58 Co 0.42 O z 7.019 1 2004 Y123 K 0 0 1 "standard solid state reaction method. ANN(350C, in O2)" "Long- and short-range magnetic order, charge transfer, and superconductivity in YBa2Cu3-xCoxO7" 2004 "Laboratoire des Solides Irradies, Ecole Polytechnique, 91128 Palaiseau, France" "Phys.Rev.B, 69(2004)94506"
34385 P069094506 not s/c "YBa2(Cu,Co)3O7" Y1Ba2Cu2.52Co0.48O7.051 Y 1 Ba 2 Cu 2.52 Co 0.48 O z 7.051 1 2004 102.9 Y123 K 4.2 1 "standard solid state reaction method. ANN(350C, in O2)" "Long- and short-range magnetic order, charge transfer, and superconductivity in YBa2Cu3-xCoxO7" 2004 "Laboratoire des Solides Irradies, Ecole Polytechnique, 91128 Palaiseau, France" "Phys.Rev.B, 69(2004)94506"
34386 P069094506 not s/c "YBa2(Cu,Co)3O7" Y1Ba2Cu2.4Co0.6O7.07 Y 1 Ba 2 Cu 2.4 Co 0.6 O z 7.07 1 2004 314.5 Y123 A 3.8896 11.6889 K 4.2 1 "standard solid state reaction method. ANN(350C, in O2)" "Long- and short-range magnetic order, charge transfer, and superconductivity in YBa2Cu3-xCoxO7" 2004 "Laboratoire des Solides Irradies, Ecole Polytechnique, 91128 Palaiseau, France" "Phys.Rev.B, 69(2004)94506"
34387 P069094506 not s/c "YBa2(Cu,Co)3O7" Y1Ba2Cu2.28Co0.72O7.1 Y 1 Ba 2 Cu 2.28 Co 0.72 O z 7.1 1 2004 372.5 Y123 A 3.8899 11.6799 K 4.2 1 "standard solid state reaction method. ANN(350C, in O2)" "Long- and short-range magnetic order, charge transfer, and superconductivity in YBa2Cu3-xCoxO7" 2004 "Laboratoire des Solides Irradies, Ecole Polytechnique, 91128 Palaiseau, France" "Phys.Rev.B, 69(2004)94506"
34390 P066020501 Tc from neutron depolarization. commensurate AF observed by elastic neutron scattering. "YBa2(Cu,Co)3O7" Y1Ba2Cu2.961Co0.039O7+z Y 1 Ba 2 Cu 2.961 Co 0.039 O 7+z 2002 myu-B/mol 0.14 330 Y123 K 93 93 top-seeded melt texturing method Antiferromagnetic ordering in a 90 K copper oxide superconductor 2002 "DRECAM-SPEC, CE-Saclay, 91191 Gif sur Yvette, France" "Phys.Rev.B, 66(2002)20501"
34391 P069104506 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 4 1 2004 T A 3.7715 13.2132 K uV/K 22.3 1 standard solid state reaction method Transport properties and spin correlations of La1.85-xSr0.15+xCu1-xFexO4 2004 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui, China" "Phys.Rev.B, 69(2004)104506"
34392 P069104506 "(La,Sr)2(Cu,Fe)O4" La1.75Sr0.25Cu0.9Fe0.1O4 La 1.75 Sr 0.25 Cu 0.9 Fe 0.1 O 4 4 1 2004 T A 3.7831 13.1711 K 10 uV/K 18.1 1 standard solid state reaction method Transport properties and spin correlations of La1.85-xSr0.15+xCu1-xFexO4 2004 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui, China" "Phys.Rev.B, 69(2004)104506"
34393 P069104506 "activation energy=5.85 (from RES), 2.06 meV (from TP)." "(La,Sr)2(Cu,Fe)O4" La1.65Sr0.35Cu0.8Fe0.2O4 La 1.65 Sr 0.35 Cu 0.8 Fe 0.2 O 4 4 1 2004 T A 3.7894 13.1719 K 10 uV/K 18 TP34393 1 standard solid state reaction method Transport properties and spin correlations of La1.85-xSr0.15+xCu1-xFexO4 2004 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui, China" "Phys.Rev.B, 69(2004)104506"
34394 P069104506 "activation energy=15.1 (from RES), 1.38 meV (from TP)." "(La,Sr)2(Cu,Fe)O4" La1.55Sr0.45Cu0.7Fe0.3O4 La 1.55 Sr 0.45 Cu 0.7 Fe 0.3 O 4 4 1 2004 T A 3.7979 13.1094 K 10 uV/K 19.1 1 standard solid state reaction method Transport properties and spin correlations of La1.85-xSr0.15+xCu1-xFexO4 2004 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui, China" "Phys.Rev.B, 69(2004)104506"
34395 P069104506 "activation energy=23.7 (from RES), 2.41 meV (from TP)." "(La,Sr)2(Cu,Fe)O4" La1.45Sr0.55Cu0.6Fe0.4O4 La 1.45 Sr 0.55 Cu 0.6 Fe 0.4 O 4 4 1 2004 T A 3.8131 13.0532 K 10 uV/K 21.1 1 standard solid state reaction method Transport properties and spin correlations of La1.85-xSr0.15+xCu1-xFexO4 2004 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui, China" "Phys.Rev.B, 69(2004)104506"
34396 P069104506 TP300 represent TP(290K). activation energy=42.0. "(La,Sr)2(Cu,Fe)O4" La1.35Sr0.65Cu0.6Fe0.5O4 La 1.35 Sr 0.65 Cu 0.6 Fe 0.5 O 4 4 1 2004 T A 3.8251 13.0191 K 10 1 standard solid state reaction method Transport properties and spin correlations of La1.85-xSr0.15+xCu1-xFexO4 2004 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui, China" "Phys.Rev.B, 69(2004)104506"
34397 P069104506 "TP300 represent TP(290K). activation energy=64.0 (from RES), 2.75 meV (from TP)." "(La,Sr)2(Cu,Fe)O4" La1.25Sr0.75Cu0.6Fe0.6O4 La 1.25 Sr 0.75 Cu 0.6 Fe 0.6 O 4 4 1 2004 T A 3.8329 12.9465 K 10 uV/K 25.7 1 standard solid state reaction method Transport properties and spin correlations of La1.85-xSr0.15+xCu1-xFexO4 2004 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui, China" "Phys.Rev.B, 69(2004)104506"
34398 P069104506 "TP300 represent TP(290K). activation energy=124.5 (from RES), 12.0 meV (from TP)." "(La,Sr)2(Cu,Fe)O4" La1.05Sr0.95Cu0.6Fe0.8O4 La 1.05 Sr 0.95 Cu 0.6 Fe 0.8 O 4 4 1 2004 T A 3.8535 12.8461 K 10 uV/K 52.2 TP34398 1 standard solid state reaction method Transport properties and spin correlations of La1.85-xSr0.15+xCu1-xFexO4 2004 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui, China" "Phys.Rev.B, 69(2004)104506"
34399 P069104506 "(La,Sr)2FeO4" La0.85Sr1.15Fe1O3.94 La 0.85 Sr 1.15 Fe 1 O 4 3.94 2004 T A 3.8596 12.75 K 10 1 standard solid state reaction method Transport properties and spin correlations of La1.85-xSr0.15+xCu1-xFexO4 2004 "Structure Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, Anhui, China" "Phys.Rev.B, 69(2004)104506"
34400 L091087001 thickness=750A. Ce-content by ICP. second Tc = 20.7K. "(Pr,Ce)2CuO4" Pr1.885Ce0.115Cu1O4-z Pr 1.885 Ce 0.115 Cu 1 O 4-z 5 2003 T' K 13 3.9 13 A mutual inductance 3890 Films prepared by MBE on Pr2CuO4-buffer/SrTiO3 Magnetic Penetration Depth Measurements of Pr2-xCexCuO4-z Films on Buffered Substrates: Evidence for a Nodeless Gap 2003 "Department of Physics, The Ohio State University, Columbus, Ohio, USA" "Phys.Rev.Lett., 91(2003)087001"
34401 L091087001 thickness=750A. Ce-content by ICP. second Tc = 20.7K. "(Pr,Ce)2CuO4" Pr1.876Ce0.124Cu1O4-z Pr 1.876 Ce 0.124 Cu 1 O 4-z 5 2003 T' K 21.3 1.3 21.3 A mutual inductance 2290 Films prepared by MBE on Pr2CuO4-buffer/SrTiO3 Magnetic Penetration Depth Measurements of Pr2-xCexCuO4-z Films on Buffered Substrates: Evidence for a Nodeless Gap 2003 "Department of Physics, The Ohio State University, Columbus, Ohio, USA" "Phys.Rev.Lett., 91(2003)087001"
34402 L091087001 thickness=750A. Ce-content by ICP. "(Pr,Ce)2CuO4" Pr1.873Ce0.127Cu1O4-z Pr 1.873 Ce 0.127 Cu 1 O 4-z 5 2003 T' K 23.1 0.8 23.1 A mutual inductance 1970 Films prepared by MBE on Pr2CuO4-buffer/SrTiO3 Magnetic Penetration Depth Measurements of Pr2-xCexCuO4-z Films on Buffered Substrates: Evidence for a Nodeless Gap 2003 "Department of Physics, The Ohio State University, Columbus, Ohio, USA" "Phys.Rev.Lett., 91(2003)087001"
34403 L091087001 thickness=750A. Ce-content by ICP. gap obtained by fitting to PENET. "(Pr,Ce)2CuO4" Pr1.869Ce0.131Cu1O4-z Pr 1.869 Ce 0.131 Cu 1 O 4-z 5 2003 T' K 23.6 0.8 23.6 A mutual inductance 1890 5.2 Films prepared by MBE on Pr2CuO4-buffer/SrTiO3 Magnetic Penetration Depth Measurements of Pr2-xCexCuO4-z Films on Buffered Substrates: Evidence for a Nodeless Gap 2003 "Department of Physics, The Ohio State University, Columbus, Ohio, USA" "Phys.Rev.Lett., 91(2003)087001"
34404 L091087001 thickness=750A. Ce-content by ICP. "(Pr,Ce)2CuO4" Pr1.867Ce0.133Cu1O4-z Pr 1.867 Ce 0.133 Cu 1 O 4-z 5 2003 T' K 23.3 0.5 23.3 A mutual inductance 1600 Films prepared by MBE on Pr2CuO4-buffer/SrTiO3 Magnetic Penetration Depth Measurements of Pr2-xCexCuO4-z Films on Buffered Substrates: Evidence for a Nodeless Gap 2003 "Department of Physics, The Ohio State University, Columbus, Ohio, USA" "Phys.Rev.Lett., 91(2003)087001"
34405 L091087001 thickness=750A. Ce-content by ICP. second Tc = 22.9K. "(Pr,Ce)2CuO4" Pr1.863Ce0.137Cu1O4-z Pr 1.863 Ce 0.137 Cu 1 O 4-z 5 2003 T' K 23.2 0.7 23.2 A mutual inductance 1560 Films prepared by MBE on Pr2CuO4-buffer/SrTiO3 Magnetic Penetration Depth Measurements of Pr2-xCexCuO4-z Films on Buffered Substrates: Evidence for a Nodeless Gap 2003 "Department of Physics, The Ohio State University, Columbus, Ohio, USA" "Phys.Rev.Lett., 91(2003)087001"
34406 L091087001 thickness=750A. Ce-content by ICP. second Tc = 20.2K. "(Pr,Ce)2CuO4" Pr1.856Ce0.144Cu1O4-z Pr 1.856 Ce 0.144 Cu 1 O 4-z 5 2003 T' K 21.2 0.9 21.2 A mutual inductance 1610 Films prepared by MBE on Pr2CuO4-buffer/SrTiO3 Magnetic Penetration Depth Measurements of Pr2-xCexCuO4-z Films on Buffered Substrates: Evidence for a Nodeless Gap 2003 "Department of Physics, The Ohio State University, Columbus, Ohio, USA" "Phys.Rev.Lett., 91(2003)087001"
34407 L091087001 thickness=750A. Ce-content by ICP. second Tc = 16.6K. "(Pr,Ce)2CuO4" Pr1.848Ce0.152Cu1O4-z Pr 1.848 Ce 0.152 Cu 1 O 4-z 5 2003 T' K 19.8 2.4 19.8 A mutual inductance 1690 Films prepared by MBE on Pr2CuO4-buffer/SrTiO3 Magnetic Penetration Depth Measurements of Pr2-xCexCuO4-z Films on Buffered Substrates: Evidence for a Nodeless Gap 2003 "Department of Physics, The Ohio State University, Columbus, Ohio, USA" "Phys.Rev.Lett., 91(2003)087001"
34408 L091147002 Ce-content not given. underdoped sample. "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4 Pr 1.85 Ce 0.15 Cu 1 O 4 3 2003 T' K 15.9 15.9 A muon-SR 3369 "directional solidification in Al2O3 crucible using CuO-based flux. O-reduction (900-1000C, in Ar-flow)" Superconductivity and Field-Induced Magnetism in Pr2-xCexCuO4 Single Crystals 2003 "Department of Physics, Simon Fraser University, Burnaby, British Columbia V5A 1S6, Canada" "Phys.Rev.Lett., 91(2003)147002"
34409 L088207005 Ce-content by ICP. underdoped. thickness=1250 A. "(La,Ce)2CuO4" La1.913Ce0.087Cu1O4-z La 1.913 Ce 0.087 Cu 1 O 4-z 5 2002 T' K 28.7 0.8 28.7 A mutual inductance 3200 Films by MBE on SrTiO3. Evidence for a Transition in the Pairing Symmetry of the Electron-Doped Cuprates La2-xCexCuO4-y and Pr2-xCexCuO4-y 2002 "Department of Physics, The Ohio State University, Columbus, Ohio, USA" "Phys.Rev.Lett., 88(2002)207005"
34410 L088207005 Ce-content by ICP. optimal-doped. thickness=1250 A. "(La,Ce)2CuO4" La1.888Ce0.112Cu1O4-z La 1.888 Ce 0.112 Cu 1 O 4-z 5 2002 T' K 29.3 0.9 29.3 A mutual inductance 2500 Films by MBE on SrTiO3. Evidence for a Transition in the Pairing Symmetry of the Electron-Doped Cuprates La2-xCexCuO4-y and Pr2-xCexCuO4-y 2002 "Department of Physics, The Ohio State University, Columbus, Ohio, USA" "Phys.Rev.Lett., 88(2002)207005"
34411 L088207005 Ce-content by ICP. overdoped. thickness=1250 A. "(La,Ce)2CuO4" La1.865Ce0.135Cu1O4-z La 1.865 Ce 0.135 Cu 1 O 4-z 5 2002 T' K 21.7 1 21.7 A mutual inductance 2200 Films by MBE on SrTiO3. Evidence for a Transition in the Pairing Symmetry of the Electron-Doped Cuprates La2-xCexCuO4-y and Pr2-xCexCuO4-y 2002 "Department of Physics, The Ohio State University, Columbus, Ohio, USA" "Phys.Rev.Lett., 88(2002)207005"
34412 L088207005 Ce-content by ICP. underdoped. thickness=1000 A. "(La,Ce)2CuO4" La1.875Ce0.125Cu1O4-z La 1.875 Ce 0.125 Cu 1 O 4-z 5 2002 T' K 22.5 1.8 22.5 A mutual inductance 3100 Films by MBE on SrTiO3. Evidence for a Transition in the Pairing Symmetry of the Electron-Doped Cuprates La2-xCexCuO4-y and Pr2-xCexCuO4-y 2002 "Department of Physics, The Ohio State University, Columbus, Ohio, USA" "Phys.Rev.Lett., 88(2002)207005"
34413 L088207005 Ce-content by ICP. optimal-doped. thickness=1000 A. "(La,Ce)2CuO4" La1.855Ce0.145Cu1O4-z La 1.855 Ce 0.145 Cu 1 O 4-z 5 2002 T' K 24.2 1 24.2 A mutual inductance 1800 Films by MBE on SrTiO3. Evidence for a Transition in the Pairing Symmetry of the Electron-Doped Cuprates La2-xCexCuO4-y and Pr2-xCexCuO4-y 2002 "Department of Physics, The Ohio State University, Columbus, Ohio, USA" "Phys.Rev.Lett., 88(2002)207005"
34414 L088207005 Ce-content by ICP. overdoped. thickness=1000 A. "(La,Ce)2CuO4" La1.844Ce0.156Cu1O4-z La 1.844 Ce 0.156 Cu 1 O 4-z 5 2002 T' K 21.5 2.4 21.5 A mutual inductance 2000 Films by MBE on SrTiO3. Evidence for a Transition in the Pairing Symmetry of the Electron-Doped Cuprates La2-xCexCuO4-y and Pr2-xCexCuO4-y 2002 "Department of Physics, The Ohio State University, Columbus, Ohio, USA" "Phys.Rev.Lett., 88(2002)207005"
34415 PHC3411655 Ce-content not given. s-wave s/c model. "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4 Pr 1.85 Ce 0.15 Cu 1 O 4 3 2000 T' K 24 24 A surface inpedance 390 1.37 directional solidification method Microwave Electrodynamics of the Electron-Doped Cuprate Superconductors Pr2-xCexCuO4-y and Nd2-xCexCuO4-y 2000 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, MD,USA" "Physica C, 341-348(2000)1655"
34416 PHC3411655 Ce-content not given. s-wave s/c model. GAPENE by fitting parameter of PENET(T). "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 3 2000 T' K 19 19 A surface inpedance 1150 1.61 directional solidification method Microwave Electrodynamics of the Electron-Doped Cuprate Superconductors Pr2-xCexCuO4-y and Nd2-xCexCuO4-y 2000 "Center for Superconductivity Research, Department of Physics, University of Maryland, College Park, MD,USA" "Physica C, 341-348(2000)1655"
34417 L088207003 Ce-content by ICP. thickness=750 A. "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4 Pr 1.85 Ce 0.15 Cu 1 O 4 5 2002 T' K 23.2 0.7 23.2 A mutual inductance 2100 uOhm.cm 21 Films by MBE on SrTiO3. Evidence for a Nodeless Gap from the Superfluid Density of Optimally Doped Pr1.855Ce0.145CuO4-y Films 2002 "Department of Physics, The Ohio State University, Columbus, Ohio, USA" "Phys.Rev.Lett., 88(2002)207003"
34418 L088207003 Ce-content by ICP. thickness=1000 A. "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4 Pr 1.85 Ce 0.15 Cu 1 O 4 5 2002 T' K 24.2 1 24.2 A mutual inductance 1800 uOhm.cm 19 Films by MBE on SrTiO3. Evidence for a Nodeless Gap from the Superfluid Density of Optimally Doped Pr1.855Ce0.145CuO4-y Films 2002 "Department of Physics, The Ohio State University, Columbus, Ohio, USA" "Phys.Rev.Lett., 88(2002)207003"
34419 L088207003 Ce-content by ICP. thickness=1250 A. "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4 Pr 1.85 Ce 0.15 Cu 1 O 4 5 2002 T' K 23.9 0.7 23.9 A mutual inductance 1800 uOhm.cm 18 Films by MBE on SrTiO3. Evidence for a Nodeless Gap from the Superfluid Density of Optimally Doped Pr1.855Ce0.145CuO4-y Films 2002 "Department of Physics, The Ohio State University, Columbus, Ohio, USA" "Phys.Rev.Lett., 88(2002)207003"
34420 L088207003 Ce-content by ICP. thickness=750 A. "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4 Pr 1.85 Ce 0.15 Cu 1 O 4 5 2002 T' K 23.3 1.1 23.3 A mutual inductance 2200 uOhm.cm 23 Films by MBE on SrTiO3. Evidence for a Nodeless Gap from the Superfluid Density of Optimally Doped Pr1.855Ce0.145CuO4-y Films 2002 "Department of Physics, The Ohio State University, Columbus, Ohio, USA" "Phys.Rev.Lett., 88(2002)207003"
34421 L088207003 Ce-content by ICP. thickness=750 A. insulating Pr2CuO4 buffer layer. "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4 Pr 1.85 Ce 0.15 Cu 1 O 4 5 2002 T' K 23.6 0.8 23.6 A mutual inductance 1500 uOhm.cm 26 Films by MBE on SrTiO3. Evidence for a Nodeless Gap from the Superfluid Density of Optimally Doped Pr1.855Ce0.145CuO4-y Films 2002 "Department of Physics, The Ohio State University, Columbus, Ohio, USA" "Phys.Rev.Lett., 88(2002)207003"
34422 JJP033L168 Fig. shows Tc vs Ce-content. "(La,Ce)2CuO4" La1.87Ce0.13Cu1O4 La 1.87 Ce 0.13 Cu 1 O 4 1 1994 T' A 4.007 12.44 K 17 30 23.5 TC34422 "La2O3,CeO2,Cu2O" 1 "mixture - heat(1020C,48h, in Ar or N2) - pellet - oxidation(250-300C, in O2) - heat(600C,600h, in Ar or N2)" Synthesis of superconducting T'-(La1-xCex)2CuO4 1994 "NTT Basic Research Laboratories 3-1, Morinosato-Wakamiya, Atsugi-shi, Kanagawa, Japan" "Jpn.J.Appl.Phys., 33(1994)L168"
34423 PHC3721082 substrate = SrTiO3. Figure shows data for various substrates. "(La,Ce)2CuO4" La1.909Ce0.091Cu1O4 La 1.909 Ce 0.091 Cu 1 O 4 4 2002 T' A 4.0116 12.4524 K 30.3 30.3 TC34423 Films by MBE on various substrates. Role of substrates in molecular beam epitaxy growth of superconducting T'-La2-xCexCuO4 films 2002 "NTT Basic Research Laboratories 3-1, Morinosato-Wakamiya, Atsugi-shi, Kanagawa, Japan" "Physica C, 372(2002)1082"
34424 PHC3570333 Figure shows Tc(x). thickness = 1000-2000 A. "(La,Ce)2CuO4" La1.89Ce0.11Cu1O4 La 1.89 Ce 0.11 Cu 1 O 4 4 2001 T' A 4.0156 12.4531 K 29.5 30 29.75 TC34424 "films grown by MBE on SrTiO3 at 685C. reduction(620C, P(O2) NMR. Hc2(0.1K) = 0.4 T Cd2Re2O7 Cd2Re2O7 Cd 2 Re 2 O 7 3 2004 pyrochlore K 1 1 T 0.4 0.1 2.3 6 chemical transport reaction Decrease in <111>Cd Knight shift in superconducting Cd2Re2O7: Evidence for spin-singlet pairing 2004 "Advanced Science Research Center, JERI, Tokai,Ibaraki, Japan" "J.Phys.Soc.Jpn, 73(2004)2940"
34740 L087187001 O-content not determined. Tc determined by SP-heat. Cd2Re2O7 Cd2Re2O7 Cd 2 Re 2 O 7 3 2001 pyrochlore A 10.226 K 0.97 0.97 mj/mol.K2 15.1 SP-heat 458 SP-heat "mixture - pellet - heat(800-900C,70h, in quartz ampoule)" Superconductivity at 1 K in Cd2Re2O7 2001 "Institute for Solid State Physics, University of Tokyo, Kashiwanoha, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.Lett., 87(2001)187001"
34741 PHC3990001 modulation = 4.88b. anisotropy(30K) = 165. Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 2003 Bi2212 K 87 87 Oe M-H curve 30 1.7 280 HIR34741 "BiO3,PbO,SrCO3,CaCO3,CuO," vertical 3-zone furnace. cooling rate = 2C/h from 1000C to 830C. T-gradient = 3 C/cm. "Modulation-free phase in heavily Pb-doped (Bi,Pb)2212 crystals" 2003 OX-34689 "University of Geneva (DPMC), 24 quai E. Ansermet, Geneva CH-1211, Switzerland" "Physica C, 399(2003)1"
34742 PHC3990001 effective Pb-content x = 0.33 by EDX. modulation = 8.44b. anisotropy(30K) = 24.5. "(Bi,Pb)2Sr2CaCu2O8" Bi1.4Pb0.6Sr2Ca1Cu2O8 Bi 1.4 Pb 0.6 Sr 2 Ca 1 Cu 2 O 8 2003 Bi2212 K 91 91 Oe M-H curve 30 4 98 "BiO3,PbO,SrCO3,CaCO3,CuO," vertical 3-zone furnace. cooling rate = 2C/h from 1000C to 830C. T-gradient = 3 C/cm. "Modulation-free phase in heavily Pb-doped (Bi,Pb)2212 crystals" 2003 OX-34689 "University of Geneva (DPMC), 24 quai E. Ansermet, Geneva CH-1211, Switzerland" "Physica C, 399(2003)1"
34743 PHC3990001 effective Pb-content x = 0.39 by EDX. no-modulation. anisotropy(30K) = 25. "(Bi,Pb)2Sr2CaCu2O8" Bi1.2Pb0.8Sr2Ca1Cu2O8 Bi 1.2 Pb 0.8 Sr 2 Ca 1 Cu 2 O 8 2003 Bi2212 K 93 93 Oe M-H curve 30 8 200 "BiO3,PbO,SrCO3,CaCO3,CuO," vertical 3-zone furnace. cooling rate = 2C/h from 1000C to 830C. T-gradient = 3 C/cm. "Modulation-free phase in heavily Pb-doped (Bi,Pb)2212 crystals" 2003 OX-34689 "University of Geneva (DPMC), 24 quai E. Ansermet, Geneva CH-1211, Switzerland" "Physica C, 399(2003)1"
40000 PR0950333 isotope In(112)-99.5% pure Sn(112) Sn1 Sn 1 1954 K 3.809 3.809 Oe 312.3 Oe/K 144.3 Threshold field properties of some superconductors 1954 "Phys.Rev., 95(1954)333"
40001 PR0950333 isotope In(118)-99.19% pure Sn(118) Sn1 Sn 1 1954 K 3.7452 3.7452 Oe 303.3 Oe/K 139.8 Threshold field properties of some superconductors 1954 "Phys.Rev., 95(1954)333"
40002 PR0950333 isotope In(124)-99.91% pure Sn(124) Sn1 Sn 1 1954 K 3.6657 3.6657 Oe 298.4 Oe/K 141 Threshold field properties of some superconductors 1954 "Phys.Rev., 95(1954)333"
40003 PR0950333 natural Tl Tl Tl1 Tl 1 1954 K 2.3917 2.3917 Oe 172.8 Oe/K 125.8 HC40003 Threshold field properties of some superconductors 1954 "Phys.Rev., 95(1954)333"
40004 PR0950333 isotope Tl(205)-99.73% pure. M=205.02. isotope effect apha = 0.49 +- 10%(standard deviation) Tl(205) Tl1 Tl 1 1954 K 2.3861 2.3861 0.49 Tl 99.73 Oe 171.4 Oe/K 129.2 HC40004 Threshold field properties of some superconductors 1954 "Phys.Rev., 95(1954)333"
40005 PR0950333 isotope Tl(203)-99.74% pure. M=203.33 Tl(203) Tl1 Tl 1 1954 K 2.3956 2.3956 Oe 170 Oe/K 130.5 HC40005 Threshold field properties of some superconductors 1954 "Phys.Rev., 95(1954)333"
40006 PR0950333 natural In. In In1 In 1 1954 K 3.4178 3.4178 Oe 275 Oe/K 142.2 HC40006 Threshold field properties of some superconductors 1954 "Phys.Rev., 95(1954)333"
40007 PR0950333 99.999 Hg in Pyrex capillary. Hg Hg1 Hg 1 1954 K 4.1596 4.1596 Oe 404.5 Oe/K 196.2 HC40007 Threshold field properties of some superconductors 1954 "Phys.Rev., 95(1954)333"
40008 PR1040549 commercial high purity Pb(M=207.27). isotope shift measured for six samples with different M. alpha = 0.52+-0.04 Pb Pb1 Pb 1 1956 K 7.22 7.22 0.52 Pb purity= 99.999% Isotope effect in superconducting lead 1956 "Phys.Rev., 104(1956)549"
40009 PR0860235 M=113.58. Tc by mutual inductance. Sn Sn1 Sn 1 1952 K 3.8082 3.8082 Oe 312.4 Oe/K 147 Superconductivity of the isotope of tin 1952 "Phys.Rev., 86(1952)235"
40010 PR0860235 M=118.70.Tc by mutual inductance. isotope shift measured for 113.58=118.05. Tc by mutual inductance. Sn Sn1 Sn 1 1952 K 3.7444 3.7444 Oe 307.7 Superconductivity of the isotope of tin 1952 "Phys.Rev., 86(1952)235"
40012 PR0840691 M=200.7 Hg Hg1 Hg 1 1951 K 4.173 4.173 TC40012 0.504 Hg Oe 419 The isotope effect in superconductivity. I. Mercury 1951 "Phys.Rev., 84(1951)691"
40013 PLA0240340 Be22Mo Be22Mo1 Be 22 Mo 1 1967 K 2.51 2.51 0.23 Mo arc-melting Superconductivity and isotope effect in Be22X compounds and molybdenum 1967 "Phys. Lett., 24A(1967)340"
40014 PLA0240340 Be22W Be22W1 Be 22 W 1 1967 K 4.12 4.12 arc-melting Superconductivity and isotope effect in Be22X compounds and molybdenum 1967 "Phys. Lett., 24A(1967)340"
40015 PLA0240340 Be22Tc Be22Tc1 Be 22 Tc 1 1967 K 5.21 5.21 arc-melting Superconductivity and isotope effect in Be22X compounds and molybdenum 1967 "Phys. Lett., 24A(1967)340"
40016 PLA0240340 Be22Re Be22Re1 Be 22 Re 1 1967 K 9.65 9.65 0.23 Mo arc-melting Superconductivity and isotope effect in Be22X compounds and molybdenum 1967 "Phys. Lett., 24A(1967)340"
40017 PLA0240340 Mo Mo1 Mo 1 1967 K 0.902 0.001 0.902 0.37 Mo Mo isotope purified by boiling out in UHV by EBM. Superconductivity and isotope effect in Be22X compounds and molybdenum 1967 "Phys. Lett., 24A(1967)340"
40018 PLA0240340 Tc Tc1 Tc 1 1967 K 7.79 7.79 Superconductivity and isotope effect in Be22X compounds and molybdenum 1967 "Phys. Lett., 24A(1967)340"
40019 PR1550364 as-received. RRR=33. Tc Tc1 Tc 1 1967 K 7.82 8.25 8.035 uOhm.cm 0.65 9 22 Superconducting properties of technetium 1967 "Phys.Rev., 155(1967)364"
40020 PR1550364 "ANN(1800C,1h). RRR=97. G-L = 0.92. Debye-T from J.Less-Common Metals, 12(1967)29." Tc Tc1 Tc 1 1967 K 7.77 7.77 kOe 2.62 kOe/K 3.25 HC40020 411 Superconducting properties of technetium 1967 "Phys.Rev., 155(1967)364"
40021 PR1550364 "ANN(1000C, in H2). RRR=120. sharp transition." Tc Tc1 Tc 1 1967 K 7.71 7.73 7.71 0.15 9 18.4 Superconducting properties of technetium 1967 "Phys.Rev., 155(1967)364"
40022 PR0104572 beta-Ga is metastable. alpha-Ga is not SC at 2K. (gapene) is estimated from Hc. beta-Ga Ga1 Ga 1 1974 K 6.07 6.07 0.43 Ga 0.073 Oe 540 Oe/K 155 3.49 erg/cm3.K2 1340 estimated from Hc "See Phys.Rev.B, 7(1973)166" Isotope effect in superconducting beta-phase gallium 1974 "Phys.Rev.B, 10(1974)4572"
40023 PR0103818 H-content determined by (p-v-t) method. inverse isotope effect i.e. Tc(PdH) < Tc(PdD). PdHx H0.965Pd1 H 0.965 Pd 1 1974 K 6.45 6.45 TC40023 "hydriding (5N-Pd + H2 or D2, T=RT, p=<5kbar) - Q to Liq.N2." Concentration dependence of the superconducting transition temperature in PdHx and PdDx 1974 "Phys.Rev.B, 10(1974)3818"
40024 PR0103818 PdDx D0.967Pd1 D 0.967 Pd 1 1974 K 8.14 8.14 TC40023 "hydriding (5N-Pd + H2 or D2, T=RT, p=<5kbar) - Q to Liq.N2." Concentration dependence of the superconducting transition temperature in PdHx and PdDx 1974 "Phys.Rev.B, 10(1974)3818"
40025 PR0074290 U1-xMox Mo0.18U0.82 Mo 0.18 U 0.82 1973 gamma-phase K 2.115 2.115 0.4 U arc-melting Isotope effect in superconducting gamma-uranium alloys 1973 "Phys.Rev.B, 7(1973)4290"
40026 PR0024442 natural-Cd Cd1 Cd 1 1970 K 0.5173 0.5173 0.385 Cd Oe/K 91 HC40026 Isotope effect insuperconducting cadmium 1970 "Phys.Rev.B, 2(1970)4442"
40027 PR0024442 Cd(100) Cd1 Cd 1 1970 K 0.5218 0.5218 Oe/K 91.9 HC40026 Isotope effect insuperconducting cadmium 1970 "Phys.Rev.B, 2(1970)4442"
40028 PR0024442 Cd(114) Cd1 Cd 1 1970 K 0.5148 0.5148 Oe/K 93.3 HC40028 Isotope effect insuperconducting cadmium 1970 "Phys.Rev.B, 2(1970)4442"
40029 PR0024442 Cd(116) Cd1 Cd 1 1970 K 0.5115 0.5115 Oe/K 91.3 HC40028 Isotope effect insuperconducting cadmium 1970 "Phys.Rev.B, 2(1970)4442"
40030 P072064520 impurity phase = LaC2 < 15%. TCFIG shows cell-volume(T). (dC/gamma*Tc) = 2.2. La2C3 C3La2 C 3 La 2 2005 GPa 89 Pu2C3 A 8.815 "Pu2C3, cI40" K 13.5 13.5 0.1 13.5 LAT40030 "La(4N),graphite(4N)" "arc-melting, ANN(650C,3d) - cool to RT(10C/h)" Structural properties of the sesquicarbide superconductor La2C3 at high pressure 2005 "Max-Planck-Institut fur Festkorperforschung, Heisenbergstrasse 1, D-70569 Stuttgart, Germany" "Phys.Rev.B, 72(2005)064520"
40031 P072064520 SC is not investigated. Sample obtained as impurity phase of La2C3. TCFIG shows cell-volume(T). LaC2 C2La1 C 2 La 1 2005 GPa 76.3 Pu2C3 I4/mmm 139 A 3.9323 6.574 K LAT40031 "La(4N),graphite(4N)" "arc-melting, ANN(650C,3d) - cool to RT(10C/h)" Structural properties of the sesquicarbide superconductor La2C3 at high pressure 2005 "Max-Planck-Institut fur Festkorperforschung, Heisenbergstrasse 1, D-70569 Stuttgart, Germany" "Phys.Rev.B, 72(2005)064520"
40032 APL0842859 Y2C3 C3Y2 C 3 Y 2 2004 Pu2C3 K 17.9 17.3 17.3 T linear approx. 43.5 T/K 2.52 HC40032 "Y,graphite" "mixture(Y:C=2:3.01) - heat(1400C,30 min, P=3.5 GPa) in BN crucible" Superconducting properties of the 18 K phase in yttrium sesquicarbide system 2004 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Appl.Phys.Lett., 84(2004)2859"
40033 APL0842859 "Y2(C,B)3" Y2C2.9B0.1 Y 2 C 2.9 B 0.1 2004 Pu2C3 K 16.4 16.4 "Y,graphite,B" "mixture - heat(1400C,30 min, P=3.5 GPa) in BN crucible" Superconducting properties of the 18 K phase in yttrium sesquicarbide system 2004 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Appl.Phys.Lett., 84(2004)2859"
40034 PR0140128 "unstable in air. SC-properties measured without air. Tc, Hc2 measured by ac-sus." La2C3 C3La2 C 3 La 2 1976 Pu2C3 K 11.1 11.1 Oe ac-susceptibility 30 22 4.2 T WHH theory 13.1 9.5 4.2 T/K 1.8 HC40034 mj/mol.K2 6.1 estimated from dHc2/dT arc-melting in air Critical-magnetic-field curve of lanthanum sesquicarbide 1976 "U. S. Naval Research Laboratory, Washington, D. C. 20375" "Phys.Rev.B, 14(1976)128"
40035 P072064521 Incommensurability = 0.133 reciprocal lattice unit "(La,Sr)2CuO4" La1.8Sr0.2Cu1O4 La 1.8 Sr 0.2 Cu 1 O 4 1 2005 emu/g 0.00000015 T K 29 29 "La2O3,SrCO3,CuO,ZnO" 1 "mixture - heat(900C,12h,in air) - pellet - SIN(900C,10h,in air+1150C,10h,in air) - ANN(850C,12h,in flowing O2)" Magnetic properties of the overdoped superconductor La2-xSrxCuO4 with and without Zn impurities 2005 "Department of Physics, University of Toronto, Toronto, Ontario, Canada M5S 1A7" "Phys.Rev.B, 72(2005)064521"
40036 P072064521 "(La,Sr)2CuO4" La1.78Sr0.22Cu1O4 La 1.78 Sr 0.22 Cu 1 O 4 1 2005 emu/g 0.00000023 T K 22 22 "La2O3,SrCO3,CuO,ZnO" 1 "mixture - heat(900C,12h,in air) - pellet - SIN(900C,10h,in air+1150C,10h,in air) - ANN(850C,12h,in flowing O2)" Magnetic properties of the overdoped superconductor La2-xSrxCuO4 with and without Zn impurities 2005 "Department of Physics, University of Toronto, Toronto, Ontario, Canada M5S 1A7" "Phys.Rev.B, 72(2005)064521"
40037 P072064521 "(La,Sr)2CuO4" La1.76Sr0.24Cu1O4 La 1.76 Sr 0.24 Cu 1 O 4 1 2005 emu.K/g 0.00000131 T K 14.2 14.2 "La2O3,SrCO3,CuO,ZnO" 1 "mixture - heat(900C,12h,in air) - pellet - SIN(900C,10h,in air+1150C,10h,in air) - ANN(850C,12h,in flowing O2)" Magnetic properties of the overdoped superconductor La2-xSrxCuO4 with and without Zn impurities 2005 "Department of Physics, University of Toronto, Toronto, Ontario, Canada M5S 1A7" "Phys.Rev.B, 72(2005)064521"
40038 P072064521 "(La,Sr)2CuO4" La1.74Sr0.26Cu1O4 La 1.74 Sr 0.26 Cu 1 O 4 1 2005 emu.K/g 0.00000353 T K 9.95 9.95 "La2O3,SrCO3,CuO,ZnO" 1 "mixture - heat(900C,12h,in air) - pellet - SIN(900C,10h,in air+1150C,10h,in air) - ANN(850C,12h,in flowing O2)" Magnetic properties of the overdoped superconductor La2-xSrxCuO4 with and without Zn impurities 2005 "Department of Physics, University of Toronto, Toronto, Ontario, Canada M5S 1A7" "Phys.Rev.B, 72(2005)064521"
40039 P072064521 "(La,Sr)2CuO4" La1.72Sr0.28Cu1O4 La 1.72 Sr 0.28 Cu 1 O 4 1 2005 emu.K/g 0.00000311 T K 4.98 4.98 "La2O3,SrCO3,CuO,ZnO" 1 "mixture - heat(900C,12h,in air) - pellet - SIN(900C,10h,in air+1150C,10h,in air) - ANN(850C,12h,in flowing O2)" Magnetic properties of the overdoped superconductor La2-xSrxCuO4 with and without Zn impurities 2005 "Department of Physics, University of Toronto, Toronto, Ontario, Canada M5S 1A7" "Phys.Rev.B, 72(2005)064521"
40040 P072064521 Incommensurability = 0.111 reciprocal lattice unit "(La,Sr)2(Cu,Zn)O4" La1.8Sr0.2Cu0.995Zn0.005O4 La 1.8 Sr 0.2 Cu 0.995 Zn 0.005 O 4 1 2005 emu.K/g 0.00000127 T K 26.1 26.1 "La2O3,SrCO3,CuO,ZnO" 1 "mixture - heat(900C,12h,in air) - pellet - SIN(900C,10h,in air+1150C,10h,in air) - ANN(850C,12h,in flowing O2)" Magnetic properties of the overdoped superconductor La2-xSrxCuO4 with and without Zn impurities 2005 "Department of Physics, University of Toronto, Toronto, Ontario, Canada M5S 1A7" "Phys.Rev.B, 72(2005)064521"
40041 P072064521 "(La,Sr)2(Cu,Zn)O4" La1.8Sr0.2Cu0.99Zn0.01O4 La 1.8 Sr 0.2 Cu 0.99 Zn 0.01 O 4 1 2005 emu.K/g 0.00000459 T K 11 11 "La2O3,SrCO3,CuO,ZnO" 1 "mixture - heat(900C,12h,in air) - pellet - SIN(900C,10h,in air+1150C,10h,in air) - ANN(850C,12h,in flowing O2)" Magnetic properties of the overdoped superconductor La2-xSrxCuO4 with and without Zn impurities 2005 "Department of Physics, University of Toronto, Toronto, Ontario, Canada M5S 1A7" "Phys.Rev.B, 72(2005)064521"
40042 P072064521 "(La,Sr)2(Cu,Zn)O4" La1.78Sr0.22Cu0.9975Zn0.0025O4 La 1.78 Sr 0.22 Cu 0.9975 Zn 0.0025 O 4 1 2005 emu.K/g 0.00000184 T K 18.5 18.5 "La2O3,SrCO3,CuO,ZnO" 1 "mixture - heat(900C,12h,in air) - pellet - SIN(900C,10h,in air+1150C,10h,in air) - ANN(850C,12h,in flowing O2)" Magnetic properties of the overdoped superconductor La2-xSrxCuO4 with and without Zn impurities 2005 "Department of Physics, University of Toronto, Toronto, Ontario, Canada M5S 1A7" "Phys.Rev.B, 72(2005)064521"
40043 P072064521 "(La,Sr)2(Cu,Zn)O4" La1.78Sr0.22Cu0.995Zn0.005O4 La 1.78 Sr 0.22 Cu 0.995 Zn 0.005 O 4 1 2005 emu.K/g 0.00000259 T K 9.88 9.88 "La2O3,SrCO3,CuO,ZnO" 1 "mixture - heat(900C,12h,in air) - pellet - SIN(900C,10h,in air+1150C,10h,in air) - ANN(850C,12h,in flowing O2)" Magnetic properties of the overdoped superconductor La2-xSrxCuO4 with and without Zn impurities 2005 "Department of Physics, University of Toronto, Toronto, Ontario, Canada M5S 1A7" "Phys.Rev.B, 72(2005)064521"
40044 P072064525 hole conc = 0.213 estimated from Tc using Tallon's eq. PENET is at T/Tc = 0.6. Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8+z Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 2005 Bi2212 K 72 72 T "WHH theory, dHc2/dT" 33.9 A from M using Kogan's model and lat-c 2831 "Bi2O3,SrCO3,CaCO3,CuO,Y2O3" 1 sintering temperature linearly increases from 850C for x=0 to 900C for x=0.5. "Hole concentration dependence of penetration depth and upper critical field in Bi2Sr2(Ca,Y)Cu2O8+z extracted from reversible magnetization" 2005 "Department of Physics, Pusan National University, Busan 609-735, Korea" "Phys.Rev.B, 72(2005)064525"
40045 P072064525 hole conc = 0.213 estimated from Tc using Tallon's eq. PENET is at T/Tc = 0.6. "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.9Y0.1Cu2O8+z Bi 2 Sr 2 Ca 0.9 Y 0.1 Cu 2 O 8+z 2005 Bi2212 K 84 84 T "WHH theory, dHc2/dT" 44.4 A from M using Kogan's model and lat-c 2861 "Bi2O3,SrCO3,CaCO3,CuO,Y2O3" 1 sintering temperature linearly increases from 850C for x=0 to 900C for x=0.5. "Hole concentration dependence of penetration depth and upper critical field in Bi2Sr2(Ca,Y)Cu2O8+z extracted from reversible magnetization" 2005 "Department of Physics, Pusan National University, Busan 609-735, Korea" "Phys.Rev.B, 72(2005)064525"
40046 P072064525 hole conc = 0.213 estimated from Tc using Tallon's eq. PENET is at T/Tc = 0.6. "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.8Y0.2Cu2O8+z Bi 2 Sr 2 Ca 0.8 Y 0.2 Cu 2 O 8+z 2005 Bi2212 K 91.7 91.7 T "WHH theory, dHc2/dT" 50.4 A from M using Kogan's model and lat-c 2880 "Bi2O3,SrCO3,CaCO3,CuO,Y2O3" 1 sintering temperature linearly increases from 850C for x=0 to 900C for x=0.5. "Hole concentration dependence of penetration depth and upper critical field in Bi2Sr2(Ca,Y)Cu2O8+z extracted from reversible magnetization" 2005 "Department of Physics, Pusan National University, Busan 609-735, Korea" "Phys.Rev.B, 72(2005)064525"
40047 P072064525 hole conc = 0.213 estimated from Tc using Tallon's eq. PENET is at T/Tc = 0.6. "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.75Y0.25Cu2O8+z Bi 2 Sr 2 Ca 0.75 Y 0.25 Cu 2 O 8+z 2005 Bi2212 K 92.8 92.8 T "WHH theory, dHc2/dT" 39.9 A from M using Kogan's model and lat-c 3107 "Bi2O3,SrCO3,CaCO3,CuO,Y2O3" 1 sintering temperature linearly increases from 850C for x=0 to 900C for x=0.5. "Hole concentration dependence of penetration depth and upper critical field in Bi2Sr2(Ca,Y)Cu2O8+z extracted from reversible magnetization" 2005 "Department of Physics, Pusan National University, Busan 609-735, Korea" "Phys.Rev.B, 72(2005)064525"
40048 P072064525 hole conc = 0.213 estimated from Tc using Tallon's eq. PENET is at T/Tc = 0.6. "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.7Y0.3Cu2O8+z Bi 2 Sr 2 Ca 0.7 Y 0.3 Cu 2 O 8+z 2005 Bi2212 K 89 89 T "WHH theory, dHc2/dT" 29.4 A from M using Kogan's model and lat-c 3295 "Bi2O3,SrCO3,CaCO3,CuO,Y2O3" 1 sintering temperature linearly increases from 850C for x=0 to 900C for x=0.5. "Hole concentration dependence of penetration depth and upper critical field in Bi2Sr2(Ca,Y)Cu2O8+z extracted from reversible magnetization" 2005 "Department of Physics, Pusan National University, Busan 609-735, Korea" "Phys.Rev.B, 72(2005)064525"
40049 P072064525 hole conc = 0.213 estimated from Tc using Tallon's eq. PENET is at T/Tc = 0.6. "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.6Y0.4Cu2O8+z Bi 2 Sr 2 Ca 0.6 Y 0.4 Cu 2 O 8+z 2005 Bi2212 K 67.8 67.8 T "WHH theory, dHc2/dT" 17.2 A from M using Kogan's model and lat-c 3611 "Bi2O3,SrCO3,CaCO3,CuO,Y2O3" 1 sintering temperature linearly increases from 850C for x=0 to 900C for x=0.5. "Hole concentration dependence of penetration depth and upper critical field in Bi2Sr2(Ca,Y)Cu2O8+z extracted from reversible magnetization" 2005 "Department of Physics, Pusan National University, Busan 609-735, Korea" "Phys.Rev.B, 72(2005)064525"
40050 P072064527 "two gaps, the higher(sigma-band) is in table. the lower(pai-band) is (gap=2.12 meV, GAPENE=1.29)" MgB2 B2Mg1 B 2 Mg 1 1 2005 AlB2 K 38 38 meV 6.81 4.16 9 high-P and high-T synthesis. Carbon-substitution dependent multiple superconducting gap of MgB2: A sub-meV resolution photoemission study 2005 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 72(2005)064527"
40051 P072064527 "two gaps, the higher(sigma-band) is in table. the lower(pai-band) is (gap=2.03 meV, GAPENE=1.33)" "Mg(B,C)2" Mg1B0.96C0.04 Mg 1 B 0.96 C 0.04 1 2005 AlB2 K 35.5 35.5 meV 6.1 3.99 9 high-P and high-T synthesis. Carbon-substitution dependent multiple superconducting gap of MgB2: A sub-meV resolution photoemission study 2005 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 72(2005)064527"
40052 P072064527 "two gaps, the higher(sigma-band) is in table. the lower(pai-band) is (gap=2.02 meV, GAPENE=1.56)" "Mg(B,C)2" Mg1B0.9C0.1 Mg 1 B 0.9 C 0.1 1 2005 AlB2 K 30 30 meV 4.82 3.73 9 high-P and high-T synthesis. Carbon-substitution dependent multiple superconducting gap of MgB2: A sub-meV resolution photoemission study 2005 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 72(2005)064527"
40053 P072064527 "two gaps, the higher(sigma-band) is in table. the lower(pai-band) is (gap=1.72 meV, GAPENE=1.66)" "Mg(B,C)2" Mg1B0.85C0.15 Mg 1 B 0.85 C 0.15 1 2005 AlB2 K 24 24 meV 4.22 4.08 9 high-P and high-T synthesis. Carbon-substitution dependent multiple superconducting gap of MgB2: A sub-meV resolution photoemission study 2005 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 72(2005)064527"
40054 P072094504 "The hier gap is in table, the lower is 2.3meV. At P=1.13GPa, PENET = 1033 A, (2*gap/kTc) = 1.43 and 4.28 for two gaps. PENET-shift (P=0 to 1.13GPa) = 3.1%." MgB2 B2Mg1 B 2 Mg 1 2005 AlB2 K 38.73 38.73 -1.24 A from M using Schonberg eq 1048 meV 7.2 4.31 "heat(600C,1h+800C,1h+900C,1h, in BN crucible with Ar)" Pressure effect on the magnetic penetration depth in MgB2 2005 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 72(2005)094504"
40055 P072104504 "PENET(= 2500 ~ 3000 A, almost independent of H) obtained by muon-SR measurements. Hc2(0)=7.25 T using power law fitting(n=1.15). GAPENE from fitting parameter of PENET(T)." RbOs2O6 Rb1Os2O6 Rb 1 Os 2 O 6 1 2005 pyrochlore A 10.1137 K 6.32 6.32 T "WHH theory, dHc2/dT" 6 T/K muon-SR 1.37 HC40055 A muon-SR 2500 3.47 "OsO2,RbO2" "mixture - pellet - quartz tube - heat(600C,24h). remove impurity phase(RbOsO4) by etching 2h in 10%HCl." Magnetic penetration depth in RbOs2O6 studied by muon spin rotation 2005 "Laboratory for Neutron Scattering, ETH Zurich and Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 72(2005)104504"
40056 P072104506 B<11> enriched sample. LAT-A by NED(T=3K). (dC/gamma*Tc) = 2.0. SP-heat fitting (2 < T < 5 K). GAPENE by SP-heat. Li2Pd3B Li2Pd3B1 Li 2 Pd 3 B 1 1 2005 P4<3>32 A 6.7485 K 7.5 7.5 3.94 mj/mol.K2 9 SP-heat 221 SP-heat. beta=1.08 mj/mol.K4 two stage arc-melting Low-temperature specific-heat and neutron-diffraction studies on Li2Pd3B and Li2Pt3B superconductors 2005 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 72(2005)104506"
40057 P072104506 B<11> enriched sample. LAT-A by NED(T=2K). (dC/gamma*Tc) = 2.0. SP-heat fitting (Tc < T < 5 K). GAPENE by SP-heat. Li2Pt3B Li2Pt3B1 Li 2 Pt 3 B 1 1 2005 P4<3>32 A 6.7345 K 2.17 2.17 3.53 mj/mol.K2 7 SP-heat 228 SP-heat. beta=0.98 mj/mol.K4 two stage arc-melting Low-temperature specific-heat and neutron-diffraction studies on Li2Pd3B and Li2Pt3B superconductors 2005 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 72(2005)104506"
40058 P072104508 "(Pu,U)CoGa5" Pu0.9U0.1Co1Ga5 Pu 0.9 U 0.1 Co 1 Ga 5 2005 -17 HoCoGa5 A 4.228 6.778 K 8.4 8.4 100 T "WHH theory, dHc2/dT" 8.7 "arc-melting - wrapped in Ti-foil - ANN(850C,1w, in vac)" "Tuning of the electronic properties in PuCoGa5 by actinide (U, Np) and transition-metal (Fe, Rh, Ni) substitutions" 2005 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 72(2005)104508"
40059 P072104508 30% Ho2CoGa8 type phase "(U,Np)CoGa5" U0.9Np0.1Co1Ga5 U 0.9 Np 0.1 Co 1 Ga 5 2005 -25 HoCoGa5 A 4.229 6.776 K 7.2 7.2 5 T "WHH theory, dHc2/dT" 3.4 mj/mol.K2 120 SP-heat "arc-melting - wrapped in Ti-foil - ANN(850C,1w, in vac)" "Tuning of the electronic properties in PuCoGa5 by actinide (U, Np) and transition-metal (Fe, Rh, Ni) substitutions" 2005 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 72(2005)104508"
40060 P072104508 "Pu(Co,Rh)Ga5" Pu1Co0.5Rh0.5Ga5 Pu 1 Co 0.5 Rh 0.5 Ga 5 2005 HoCoGa5 A 4.261 6.818 K 15.5 15.5 100 T "WHH theory, dHc2/dT" 70 mj/mol.K2 190 SP-heat "arc-melting - wrapped in Ti-foil - ANN(850C,1w, in vac)" "Tuning of the electronic properties in PuCoGa5 by actinide (U, Np) and transition-metal (Fe, Rh, Ni) substitutions" 2005 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 72(2005)104508"
40061 P072104508 "Pu(Co,Rh)Ga5" Pu1Co0.1Rh0.9Ga5 Pu 1 Co 0.1 Rh 0.9 Ga 5 2005 HoCoGa5 A 4.293 6.849 K 10.2 10.2 100 T "WHH theory, dHc2/dT" 28 mj/mol.K2 120 SP-heat "arc-melting - wrapped in Ti-foil - ANN(850C,1w, in vac)" "Tuning of the electronic properties in PuCoGa5 by actinide (U, Np) and transition-metal (Fe, Rh, Ni) substitutions" 2005 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 72(2005)104508"
40062 P072104508 PuRhGa5 Pu1Rh1Ga5 Pu 1 Rh 1 Ga 5 2005 -36 HoCoGa5 A 4.301 6.857 K 8.9 8.9 T "WHH theory, dHc2/dT" 22 mj/mol.K2 150 SP-heat "arc-melting - wrapped in Ti-foil - ANN(850C,1w, in vac)" "Tuning of the electronic properties in PuCoGa5 by actinide (U, Np) and transition-metal (Fe, Rh, Ni) substitutions" 2005 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 72(2005)104508"
40063 P072104508 "Pu(Co,Fe)Ga5" Pu1Co0.9Fe0.1Ga5 Pu 1 Co 0.9 Fe 0.1 Ga 5 2005 -53 HoCoGa5 A 4.23 6.78 K 13.5 13.5 T "WHH theory, dHc2/dT" 64 mj/mol.K2 80 SP-heat "arc-melting - wrapped in Ti-foil - ANN(850C,1w, in vac)" "Tuning of the electronic properties in PuCoGa5 by actinide (U, Np) and transition-metal (Fe, Rh, Ni) substitutions" 2005 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 72(2005)104508"
40064 P072104508 "Pu(Co,Fe)Ga5" Pu1Co0.8Fe0.2Ga5 Pu 1 Co 0.8 Fe 0.2 Ga 5 2005 HoCoGa5 A 4.232 6.78 K 10 10 T "WHH theory, dHc2/dT" 40 mj/mol.K2 130 SP-heat "arc-melting - wrapped in Ti-foil - ANN(850C,1w, in vac)" "Tuning of the electronic properties in PuCoGa5 by actinide (U, Np) and transition-metal (Fe, Rh, Ni) substitutions" 2005 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 72(2005)104508"
40065 P072104508 not SC PuFeGa5 Pu1Fe1Ga5 Pu 1 Fe 1 Ga 5 2005 HoCoGa5 A 4.263 6.768 K 2 "arc-melting - wrapped in Ti-foil - ANN(850C,1w, in vac)" "Tuning of the electronic properties in PuCoGa5 by actinide (U, Np) and transition-metal (Fe, Rh, Ni) substitutions" 2005 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 72(2005)104508"
40066 P072104508 "Pu(Co,Ni)Ga5" Pu1Co0.9Ni0.1Ga5 Pu 1 Co 0.9 Ni 0.1 Ga 5 2005 -24 HoCoGa5 A 4.229 6.779 K 16.6 16.6 T "WHH theory, dHc2/dT" 69 mj/mol.K2 142 SP-heat "arc-melting - wrapped in Ti-foil - ANN(850C,1w, in vac)" "Tuning of the electronic properties in PuCoGa5 by actinide (U, Np) and transition-metal (Fe, Rh, Ni) substitutions" 2005 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 72(2005)104508"
40067 P072104508 not SC PuNiGa5 Pu1Ni1Ga5 Pu 1 Ni 1 Ga 5 2005 -44 HoCoGa5 A 4.245 6.796 K 2 mj/mol.K2 195 SP-heat "arc-melting - wrapped in Ti-foil - ANN(850C,1w, in vac)" "Tuning of the electronic properties in PuCoGa5 by actinide (U, Np) and transition-metal (Fe, Rh, Ni) substitutions" 2005 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 72(2005)104508"
40068 P072144504 "Tc increases with increasing P. Tc(P=1.5GPa) = 3.2 K. contaminants(Ba6Si46, BaSi2)" Ba24Si100 Ba24Si100 Ba 24 Si 100 2005 clathrate A 14.07 K 1.4 1.4 T SP measurement 0.24 A from Hc2 372 meV 0.212 3.52 SP40068 mj/mol.K2 182 SP-heat 411 SP-heat mOhm.cm 50 high-pressure synthesis "Superconductivity and physical properties of Ba24Si100 determined from electric transport, specific-heat capacity, and magnetic susceptibility measurements" 2005 "1Department of Physics, Graduate School of Science, Tohoku University and CREST-JST, 6-3 Aoba Aramaki Aoba-ku, Sendai, Miyagi, Japan" "Phys.Rev.B, 72(2005)144504"
40069 JPC0172453 grain size by SEM. effective PENET = 1.31*PPENET = 2044A. PPENET(P=1.02GPa) = 1305 A(P-dependence) YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 2005 Y124 K 80.05 80.05 K/GPa 5 A Schoenberg model 1560 "Y2O3,BaCO3,CuO" solid state reaction Pressure effect on the in-plane magnetic penetration depth in YBa2Cu4O8 2005 "J. Phys. Cond. Mater., 17(2005)2453"
40070 P063224522 98.46% B<11>. T-dependence of lattice parameter measured by NED. MgB2 B2Mg1 B 2 Mg 1 1 2001 AlB2 P6/mmm 191 A 3.0849 3.5211 (dl/dT)/l 0.0000054 0.0000114 K 39 0.4 39 "B<11>,Mg" "mixture(B<11> + Mg-chunk) - react(800C,1.5h, BN crucible under Ar)" Lattice properties of MgB2 versus temperature and pressure 2001 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439" "Phys.Rev.B, 63(2001)224522"
40071 SSC0641445 high-pressure phase(35 kbar). Intercalation. unstable NaC2 C2Na1 C 2 Na 1 1987 K 5 5 Oe 1150 490 2.9 "pyrolytic graphite, Na" "high pressure synthesis (450-700C, P=45 kbar)" On the superconductivity of graphite intercalation compounds with sodium 1987 "SOLID STATE COMMUN.,64(1987)1445"
40072 SSC0641445 high-pressure phase(37 kbar). Intercalation. unstable. Tc = 3.8~2.3 NaC3 C3Na1 C 3 Na 1 1987 K 2.3 2.3 "pyrolytic graphite, Na" "high pressure synthesis (450-700C, P=45 kbar)" On the superconductivity of graphite intercalation compounds with sodium 1987 "SOLID STATE COMMUN.,64(1987)1445"
40073 P072174508 anisotropy = 7. weak ferro (Tm=131 K). G-L parameter = 1040. RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 1 2005 131 Ru1212 P4/mbm A 5.428 11.589 K 39 56 47.5 Oe RES 12 T "resistance, linear fitting" 133 HC40073 A from Hc2 5 mOhm.cm 9.2 "RuO2,SrCO3,Gd2O3,CuO" 1 "mixture - CAL(960C,16h,in air) - pellet - SIN(1015C,10h,in flowing N2) - heat(1060C,10h,in flowing O2) - ANN(1065C,5d,in O2) - FC to RT(15C/h)" Critical fields and the spontaneous vortex state in the weakly ferromagnetic superconductor RuSr2GdCu2O8 2005 "Department of Physics, National Tsing Hua University, Hsinchu, Taiwan 300, Republic of China" "Phys.Rev.B, 72(2005)174508"
40074 P072180504 type-I SC. Hc2 in TBL shows Hc. G-L parameter = 0.26. Ag5Pb2O6 Ag5Pb2O6 Ag 5 Pb 2 O 6 3 2005 K 0.0524 0.0524 Oe 2.19 HC40074 micron clean limit 11 A London-PENET 830 crystals grown by self-flux method from (5mmol AgNO3 + 1mmol Pb(NO3)2). Type-I superconductivity of the layered silver oxide Ag5Pb2O6 2005 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 72(2005)180504"
40075 PRL0170917 cubic-to-tetra at 10 K (c/a = 0.9603). Thermodynamic Hc(0) = 57 Oe. Ag7O8(NO3) Ag7N1O11 Ag 7 N 1 O 11 3 1966 A 9.893 K 1.04 1.04 electrolytic oxidation of aqueous solutions of the silver salts AgX. Metallic conductivity and superconductivity in some silver clathrate salts 1966 "Bell Telephone Lab,New Jersey,USA" "Phys.Rev.Lett., 17(1966)917"
40076 PRL0170917 Ag7O8F Ag7F1O8 Ag 7 F 1 O 8 3 1966 A 9.833 K 0.3 0.3 electrolytic oxidation of aqueous solutions of the silver salts AgX. Metallic conductivity and superconductivity in some silver clathrate salts 1966 "Bell Telephone Lab,New Jersey,USA" "Phys.Rev.Lett., 17(1966)917"
40077 PRL0170917 Ag7O8(BF)4 Ag7B4F4O8 Ag 7 B 4 F 4 O 8 3 1966 A 9.942 K 0.15 0.15 electrolytic oxidation of aqueous solutions of the silver salts AgX. Metallic conductivity and superconductivity in some silver clathrate salts 1966 "Bell Telephone Lab,New Jersey,USA" "Phys.Rev.Lett., 17(1966)917"
40078 JPS0560419 impurity phase (20%Sb) YbSb2 Sb2Yb1 Sb 2 Yb 1 1987 emu/g -0.00000017 emu.K/g 0.000016 10 A 4.56 16.7 4.26 K 1.3 1.3 "Yb(3N),Sb(6N)" "heat(1100C,0.5d, in evacuated qualtz ampule) - recrystalize(Bridgeman method)" Superconductivity of YbSb2 1987 "Electrotechnical Laboratory, Japan" "J.Phys.Soc.Jpn, 56(1987)419"
40079 JPS0503245 K-intercalated graphite. Tc (= 152 mK) independent of x for 8.0 < x < 14.7 in CxK. Hc measured for H//c and H//ab. CxK C8.1K1 C 8.1 K 1 1981 K 0.152 0.152 TC40079 K-intercalated samples using highly oriented pyrolitic graphite. Potassium concentration dependence of the superconductivity in the potassium graphite intercalation compounds 1981 "Department of Chemistry, Kyoto University,Japan" "J.Phys.Soc.Jpn, 50(1981)3245"
40080 PR0454803 RRR > 400. type-I SC. G-L parameter = 0.025. Tc = 353mK by SP-heat). SC-properties show those of type-I SC. (dC/gamma*Tc) = 1.40. TaSi2 Si2Ta1 Si 2 Ta 1 3 1992 P6<2>22 "C40," K 0.345 0.345 mT by SP-heat 2.98 micron 2.5 A 630 mj/mol.K2 3.2 SP-heat 465 SP-heat Czochralski method Superconductivity in TaSi2 single crystal 1992 "Phys.Rev.B, 45(1992)4803"
40081 P072184503 "6.7%RuSb2, 0.6%Sb are included. PENET and COHERE at 0.05 K using modified London eq.(muonSR measurement)" PrRu4Sb12 Pr1Ru4Sb12 Pr 1 Ru 4 Sb 12 1 2005 Im-3 A 9.2766 by NED K 0.97 0.97 A FF-muonSR 345 A FF-muonSR 3650 flux growth method Probing the vortex state of PrRu4Sb12 through muon spin rotation and relaxation 2005 "ISIS Facility, Rutherford Appleton Laboratory, Chilton, Didcot, Oxfordshire, OX11 0QX, United Kingdom" "Phys.Rev.B, 72(2005)184503"
40082 P072184508 P-dependence of lattice const measured. (dB0/dP) = 3.6 (bulk modulus) CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2005 GPa 76.1 HoCoGa5 A 4.6129 7.5513 K self-flux method "High-pressure structural parameters of the superconductors CeMIn5 and PuMGa5 (M=Co,Rh)" 2005 "European Commission, JRC, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 72(2005)184508"
40083 P072184508 P-dependence of lattice const measured. (dB0/dP) = 4.1 (bulk modulus) CeRhIn5 Ce1Rh1In5 Ce 1 Rh 1 In 5 3 2005 GPa 85.4 HoCoGa5 A 4.652 7.542 K self-flux method "High-pressure structural parameters of the superconductors CeMIn5 and PuMGa5 (M=Co,Rh)" 2005 "European Commission, JRC, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 72(2005)184508"
40084 P072184508 P-dependence of lattice const measured. (dB0/dP) = 5.0 (bulk modulus) PuCoGa5 Pu1Co1Ga5 Pu 1 Co 1 Ga 5 3 2005 GPa 89 HoCoGa5 A 4.2354 6.7939 K self-flux method "High-pressure structural parameters of the superconductors CeMIn5 and PuMGa5 (M=Co,Rh)" 2005 "European Commission, JRC, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 72(2005)184508"
40085 P072184508 P-dependence of lattice const measured. (dB0/dP) = 5.0 (bulk modulus) PuRhGa5 Pu1Rh1Ga5 Pu 1 Rh 1 Ga 5 3 2005 GPa 104 HoCoGa5 A 4.3012 6.8569 K self-flux method "High-pressure structural parameters of the superconductors CeMIn5 and PuMGa5 (M=Co,Rh)" 2005 "European Commission, JRC, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 72(2005)184508"
40086 L095117006 nearly hydrostatic pressure. CDW temp = 32 K (at P=0) 2H-NbSe2 Nb1Se2 Nb 1 Se 2 3 2005 2H-NbSe2 K 7.1 7.1 TC40086 K/GPa 0.25 HC40086 Pressure Induced Effects on the Fermi Surface of Superconducting 2H-NbSe2 2005 "Instituto de Ciencia de Materiales Nicolas Cabrera, Universidad Autonoma de Madrid, 28049 Madrid, Spain" "Phys.Rev.Lett., 95(2005)117006"
40087 L095167004 small amount of Os. Tc goes to zero at Pc=12+-1 GPa. CsOs2O6 Cs1Os2O6 Cs 1 Os 2 O 6 2005 pyrochlore beta-pyrochlore K 3.3 3.3 TC40087 "See J.Phys.Soc.Jpn, 73(2004)819" Anomalous Pressure Dependence of the Superconducting Transition Temperature of beta-Pyrochlore AOs2O6 Oxides 2005 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.Lett., 95(2005)167004"
40088 L095167004 small amount of Os. Tc goes to zero at Pc=7+-0.5 GPa RbOs2O6 Rb1Os2O6 Rb 1 Os 2 O 6 2005 pyrochlore beta-pyrochlore K 6.3 6.3 TC40088 "See J.Phys.Soc.Jpn, 73(2004)819" Anomalous Pressure Dependence of the Superconducting Transition Temperature of beta-Pyrochlore AOs2O6 Oxides 2005 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.Lett., 95(2005)167004"
40089 L095167004 10 mol%Cd2Os2O7. Tc goes to zero at Pc = 6+-1 GPa. KOs2O6 K1Os2O6 K 1 Os 2 O 6 2005 pyrochlore beta-pyrochlore K 9.6 9.6 TC40089 "See J.Phys.Soc.Jpn, 73(2004)819" Anomalous Pressure Dependence of the Superconducting Transition Temperature of beta-Pyrochlore AOs2O6 Oxides 2005 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.Lett., 95(2005)167004"
40090 L095247004 heavy-fermion. P-induced SC (Pc=12 kbar). SC properties are for P = 16.2 kbar. current(resistivity) //[100]. CeRhSi3 Ce1Rh1Si3 Ce 1 Rh 1 Si 3 3 2005 1.6 BaNiSn3 I4mm 107 K 0.9 0 0.9 PH40090 T SUS 7 T/K SUS 12 mj/mol.K2 120 from JPS0673601 mOhm.cm 420 "Ce(4N),Rh(3N),Si(5N)" "tetra-arc furnace in Ar. ANN(900C,1w in vac)" Pressure-Induced Superconductivity in Noncentrosymmetric Heavy-Fermion CeRhSi3 2005 "Center for Low Temperature Science, Tohoku University, Sendai, Miyagi 980-8578, Japan" "Phys.Rev.Lett., 95(2005)247004"
40091 L089157004 Resistivity rho(T) = rho(0) + A*T^n CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2002 HoCoGa5 K 2.27 2.27 TC40091 self flux method Superconductivity and Quantum Criticality in CeCoIn5 2002 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545" "Phys.Rev.Lett., 89(2002)157004"
40092 L093147005 PuRhGa5 Pu1Rh1Ga5 Pu 1 Rh 1 Ga 5 3 2004 HoCoGa5 A 4.3012 6.8569 K 8.5 8.5 TC40092 flux method "Structural Tuning of Unconventional Superconductivity in PuMGa5 (M=Co,Rh)" 2004 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 93(2004)147005"
40093 MMM2720154 Resistivity follows T^1.3 law for Tc < T < 60K PuCoGa5 Pu1Co1Ga5 Pu 1 Co 1 Ga 5 3 2004 HoCoGa5 A 4.2356 6.7939 K 18.5 18.5 TC40093 Pressure dependence of the superconductivity in PuCoGa5 2004 "European Commission Joint Research Centre, Institute for Transuranium Elements, Karlsruhe Establishment Postfach 2340, D-76125 Karlsruhe, Germany" "J.Magn.Magn.Mater., 272-276(2004)154"
40094 JP017L0121 "Two SC peaks appear in SP-heat(Tc1=0.8K, Tc2=0.54K). Fig shows H(T) for two phases. For Tc2, (dHc2/dT)=-2.5 T/K.. (dC/T) = 0.35 J/mol.K2." CePt3Si Ce1Pt3Si1 Ce 1 Pt 3 Si 1 1 2005 2.25 CePt3B K 0.8 0.8 T/K SP-heat 9 HC40094 SP40094 mj/mol.K2 420 "See Phys.Rev.Lett., 92(2004)27003. ANN(920C) - Q to cold water." Double specific heat anomaly of the superconducting state of CePt3Si 2005 "Chemische Physik und Materialwissenschaften, Universitat Augsburg, 86159 Augsburg, Germany" "J.Phys.: Condens.Matter, 17(2005)L121"
40095 JP017L0311 "impurity phase: 7%Si, 6%BaSi2. G-L parameter = 21." Ba24Si100 Ba24Si100 Ba 24 Si 100 2005 clathrate A 14.063 K 1.55 1.55 1.55 90 Oe dc magnetization 12 9 0.4 T ac-SUS 0.35 T/K ac-SUS 0.27 HC40095 A "GL theory using Hc1, Hc2" 310 A "GL theory using Hc1, Hc2" 6500 "BaSi2,Si" "mixture - pellet - (h-BN crucible) - (HP-HT synthesis, 650C,1h, P=1.1 GPa)" Superconductivity in the Ba24Si100 cubic clathrate with sp2 and sp3 silicon bondings 2005 "Laboratoire de Physique de la Matiere Condensee et Nanostructures, Batiment Leon Brillouin, Universite Claude Bernard Lyon I and CNRS, F-69622 Villeurbanne cedex, France" "J.Phys.: Condens.Matter, 17(2005)L311"
40096 JP017S0889 P-induced SC. Pcrit = 1.53 GPa. Tc(max) = 2.2 K at P=2.5 GPa. In<115> NQR measured for various P and T. CeRhIn5 Ce1Rh1In5 Ce 1 Rh 1 In 5 3 2005 HoCoGa5 K 2.2 0 2.2 PH40096 self-flux method The phase diagram of antiferromagnetism and superconductivity in CeRhIn5: a study of <115>In NQR under pressure 2005 "Department of Materials Engineering Science, Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "J.Phys.: Condens.Matter, 17(2005)S889"
40097 JP01704539 "Two Neel-T(5.2K, 4.5K). P-induced SC. SC properties for P=3.6 GPa. Tc defined as T3. Neel-T goes to zero at P=3.9 GPa." Ce2Ni3Ge5 Ce2Ni3Ge5 Ce 2 Ni 3 Ge 5 1 2005 5.2 U2Co3Si5 Ibam A 9.815 11.843 5.962 K 0.18 0.26 0 0.22 T 0.7 HC40097 A 210 "arc-melting. ANN(800C,1w, wrapped in Ta-foil, evacuated quartz tube)" A change of electronic state tuned by pressure: pressure-induced superconductivity of the antiferromagnet Ce2Ni3Ge5 2005 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.: Condens.Matter, 17(2005)4539"
40098 JAP0925494 "encapsulated in C-nanocages, average size = 42.6 nm. Hc(T) from Physica C, 425(2005)62" YC2 C2Y1 C 2 Y 1 1 2002 A 3.6771 6.1882 K 3.838 3.838 Oe 22 3.5 HC40098 uV/K -47 anode(30wt%Y2O3) - standard direct current arc(20V-110A) under 1.3E+4 Pa H2 pressure Surface superconductivity and structural analysis of YC2 single crystals encapsulated in carbon nanocages 2002 "Department of Environmental Science and Materials Science, College of Science and Engineering, Iwaki Meisei University, Iwaki Fukushima 970-8551, Japan" "J.Appl.Phys., 92(2002)5494"
40099 JP01707353 "partially filled skutterudite. small amount of LaP, RhP2." LaxRh4P12 La0.6Rh4P12 La 0.6 Rh 4 P 12 2005 skutterudite A 8.0581 K 17 17 "high-T and high-P synthesis(1100C, 1.5h, P=4GPa)" Superconductivity of the new skutterudite compound LaxRh4P12 prepared at high pressure 2005 "Muroran Institute of Technology, 27-1, Mizumoto, Muroran-shi 050-8585, Japan" J.Phys.: Condens.Matter 17(2005)7353
40100 JP01410767 Tc defined as Tc(on) for (dTc/dP). Tc(CDW) = 60 K. (dTc(CDW)/dP) = 42 K/GPa. ZrTe3 Te3Zr1 Te 3 Zr 1 3 2002 K 1.9 4 2.95 K/GPa -5.6 chemical transport method using iodine as a transport agent The effect of pressure on the charge-density wave and superconductivity in ZrTe3 2002 "Department of Applied Physics, Hokkaido University, Sapporo 060-8623, Japan" J.Phys.: Condens.Matter 14(2002)10767
40101 P068024522 nominal composition=(Ce:Cu:Si = 20.25:40:39.75 ). high-Tc phase. (dTc/dP) with positive sign. Hc(T) was measured. (dC/gamma*Tc) = 0.89 CeCu2Si2 Ce1Cu2Si2 Ce 1 Cu 2 Si 2 1 2003 ThCr2Si2 A 4.0934 9.9158 K 0.73 0.73 levitation melting Pairing symmetry in two distinct superconducting states of CeCu2Si2 2003 "Institute for Solid State Physics, University of Tokyo, Kashiwanoha 5-1-5, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 68(2003)024522"
40102 P068024522 nominal composition=(Ce:Cu:Si = 20.25:40.25:39.5 ). low-Tc phase. (dTc/dP) with negative sign. Hc(T) was measured. (dC/gamma*Tc) = 1.27 CeCu2Si2 Ce1Cu2Si2 Ce 1 Cu 2 Si 2 1 2003 ThCr2Si2 A 4.0973 9.9053 K 0.61 0.61 levitation melting Pairing symmetry in two distinct superconducting states of CeCu2Si2 2003 "Institute for Solid State Physics, University of Tokyo, Kashiwanoha 5-1-5, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 68(2003)024522"
40103 JP01704383 Ferromagnetic (FM-Curie temp) HoFe4P12 Ho1Fe4P12 Ho 1 Fe 4 P 12 1 2005 uB/Ho 10.43 5 skutterudite A 7.7854 K 1.8 "high-T and high-P synthesis(1000-1200C, P=4GPa)" "Electrical and magnetic properties of new filled skutterudites LnFe4P12 (Ln = Ho, Er, Tm and Yb) and YRu4P12 with heavy lanthanide (including Y) prepared at high pressure" 2005 J.Phys.: Condens.Matter 17(2005)4383
40104 JP01704383 not SC ErFe4P12 Er1Fe4P12 Er 1 Fe 4 P 12 1 2005 uB/Er 9.59 skutterudite A 7.7832 K 1.8 "high-T and high-P synthesis(1000-1200C, P=4GPa)" "Electrical and magnetic properties of new filled skutterudites LnFe4P12 (Ln = Ho, Er, Tm and Yb) and YRu4P12 with heavy lanthanide (including Y) prepared at high pressure" 2005 J.Phys.: Condens.Matter 17(2005)4383
40105 JP01704383 not SC TmFe4P12 Tm1Fe4P12 Tm 1 Fe 4 P 12 1 2005 uB/Tm 6.58 skutterudite A 7.7802 K 1.8 "high-T and high-P synthesis(1000-1200C, P=4GPa)" "Electrical and magnetic properties of new filled skutterudites LnFe4P12 (Ln = Ho, Er, Tm and Yb) and YRu4P12 with heavy lanthanide (including Y) prepared at high pressure" 2005 J.Phys.: Condens.Matter 17(2005)4383
40106 JP01704383 not SC YbFe4P12 Yb1Fe4P12 Yb 1 Fe 4 P 12 1 2005 skutterudite A 7.7877 K 1.8 "high-T and high-P synthesis(1000-1200C, P=4GPa)" "Electrical and magnetic properties of new filled skutterudites LnFe4P12 (Ln = Ho, Er, Tm and Yb) and YRu4P12 with heavy lanthanide (including Y) prepared at high pressure" 2005 J.Phys.: Condens.Matter 17(2005)4383
40107 JP01704383 YRu4P12 Y1Ru4P12 Y 1 Ru 4 P 12 1 2005 skutterudite A 8.0298 K 8.5 8.5 "high-T and high-P synthesis(1000-1200C, P=4GPa)" "Electrical and magnetic properties of new filled skutterudites LnFe4P12 (Ln = Ho, Er, Tm and Yb) and YRu4P12 with heavy lanthanide (including Y) prepared at high pressure" 2005 J.Phys.: Condens.Matter 17(2005)4383
40108 PHC2160264 "(Hg,Pr)Sr2(Ca,Sr,Pr)Cu2O6" Hg0.4Pr0.8Sr2.4Ca0.4Cu2O6+z Hg 0.4 Pr 0.8 Sr 2.4 Ca 0.4 Cu 2 O 6+z 1993 1212 K 74 74 18 "HgO,Pr6O11,SrO2,SrCuO2,CaO" 1 "SIN(800C, in silica tube)" NEW 1212-TYPE SUPERCONDUCTORS WITH A TC UP TO 85 K IN THE SYSTEM HG-PR-SR-CA-CU-O 1993 11 "PHYSICA C,216(1993)264" "HG,PR,SR,CA,CU,O"
40109 PHC2160264 oz = nominal value. "(Hg,Pr)Sr2(Ca,Pr)Cu2O6" Hg0.4Pr1.1Sr2Ca0.5Cu2O7.9 Hg 0.4 Pr 1.1 Sr 2 Ca 0.5 Cu 2 O 6+z 7.9 1993 1212 A 3.8463 3.8018 12.154 K 76 76 35 "HgO,Pr6O11,SrO2,SrCuO2,CaO" 1 "SIN(800C, in silica tube)" NEW 1212-TYPE SUPERCONDUCTORS WITH A TC UP TO 85 K IN THE SYSTEM HG-PR-SR-CA-CU-O 1993 11 "PHYSICA C,216(1993)264" "HG,PR,SR,CA,CU,O"
40110 PHC2160264 oz = nominal value. "(Hg,Pr)Sr2(Ca,Pr)Cu2O6" Hg0.4Pr1.1Sr2Ca0.5Cu2O6.9 Hg 0.4 Pr 1.1 Sr 2 Ca 0.5 Cu 2 O 6+z 6.9 1993 1212 A 3.8538 3.8181 12.17 K 60 60 5 "HgO,Pr6O11,SrO2,SrCuO2,CaO" 1 "SIN(800C, in silica tube)" NEW 1212-TYPE SUPERCONDUCTORS WITH A TC UP TO 85 K IN THE SYSTEM HG-PR-SR-CA-CU-O 1993 11 "PHYSICA C,216(1993)264" "HG,PR,SR,CA,CU,O"
40111 PHC2160257 "(Hg,Bi)-1212 phase. homogeneity range is 0.35 < x < 1 in (Ca1-xNdx)-1212" "(Hg,Bi)Sr2(Ca,Nd)Cu2Oz" Hg0.5Bi0.5Sr2Ca0.65Nd0.35Cu2Oz Hg 0.5 Bi 0.5 Sr 2 Ca 0.65 Nd 0.35 Cu 2 O z 1993 1212 A 3.8093 12.0654 K 94 94 "HgO,Bi2O3,SrO2,CaO,CuO,R2O3" 1 mixture - press to bars - heat to 900C in quartz tube - slow cool to RT "A 94 K HG-BASED SUPERCONDUCTOR WITH A ""1212"" STRUCTURE" 1993 11 "PHYSICA C,216(1993)257" "HG,BI,SR,CA,CU,O,ND,Y,PR"
40112 PHC2160257 "(Hg,Bi)-1212 phase" "(Hg,Bi)Sr2(Ca,Y)Cu2Oz" Hg0.5Bi0.5Sr2Ca0.65Y0.35Cu2Oz Hg 0.5 Bi 0.5 Sr 2 Ca 0.65 Y 0.35 Cu 2 O z 1993 1212 A 3.7951 12.036 K 93 93 "HgO,Bi2O3,SrO2,CaO,CuO,R2O3" 1 mixture - press to bars - heat to 900C in quartz tube - slow cool to RT "A 94 K HG-BASED SUPERCONDUCTOR WITH A ""1212"" STRUCTURE" 1993 11 "PHYSICA C,216(1993)257" "HG,BI,SR,CA,CU,O,ND,Y,PR"
40113 PHC2160257 "(Hg,Bi)-1212 phase" "(Hg,Bi)Sr2(Ca,Pr)Cu2Oz" Hg0.5Bi0.5Sr2Ca0.65Pr0.35Cu2Oz Hg 0.5 Bi 0.5 Sr 2 Ca 0.65 Pr 0.35 Cu 2 O z 1993 1212 A 3.8051 12.054 K 95 95 "HgO,Bi2O3,SrO2,CaO,CuO,R2O3" 1 mixture - press to bars - heat to 900C in quartz tube - slow cool to RT "A 94 K HG-BASED SUPERCONDUCTOR WITH A ""1212"" STRUCTURE" 1993 11 "PHYSICA C,216(1993)257" "HG,BI,SR,CA,CU,O,ND,Y,PR"
40114 PHC2910097 "impurity phases: HgSr2CaCu2Oz, HgSr2(Ca,Y)Cu2Oz, (Hg,Ti)Sr2CaCu2Oz. Majority phase = Hg1212, O2-annealed sample." "(Hg,Ti)Sr2(Ca,Y)Cu2Oz" Hg0.75Ti0.25Sr2Ca0.65Y0.35Cu2Oz Hg 0.75 Ti 0.25 Sr 2 Ca 0.65 Y 0.35 Cu 2 O z 1997 1212 K 50 100 75 "two step process. precursor + (precursor + HgO) sealed in silica with Hg-vapor, then heat to 850C." "Synthesis, structure and superconductivity of (Hg1-yTiy)Sr2(Ca1-xYx)Cu2Oz" 1997 11 "Institute of Materials Science, University of Tsukuba, Ibaraki 305, Japan" "Physica.C,291(1997)97-103"
40115 PHC2160264 "(Hg,Pr)Sr2(Sr,Pr)Cu2Oz" Hg0.4Pr0.6Sr2.7Pr0.3Cu2O6+z Hg 0.4 Pr 0.6 Sr 2.7 Pr 0.3 Cu 2 O 6+z 1993 1212 K 85 85 100 "HgO,Pr6O11,SrO2,SrCuO2,CaO" 1 "SIN(800C, in silica tube)" NEW 1212-TYPE SUPERCONDUCTORS WITH A TC UP TO 85 K IN THE SYSTEM HG-PR-SR-CA-CU-O 1993 11 "PHYSICA C,216(1993)264" "HG,PR,SR,CA,CU,O"
40116 PHC2160264 "(Hg,Pr)Sr2(Sr,Pr)Cu2Oz" Hg0.4Pr0.6Sr2.5Pr0.5Cu2O6+z Hg 0.4 Pr 0.6 Sr 2.5 Pr 0.5 Cu 2 O 6+z 1993 1212 K 74 74 35 "HgO,Pr6O11,SrO2,SrCuO2,CaO" 1 "SIN(800C, in silica tube)" NEW 1212-TYPE SUPERCONDUCTORS WITH A TC UP TO 85 K IN THE SYSTEM HG-PR-SR-CA-CU-O 1993 11 "PHYSICA C,216(1993)264" "HG,PR,SR,CA,CU,O"
40117 JP01411249 "Two step structural transformation, Ts1,Ts2. P-dependence shown in TCFIG. at 2.8 GPa(Ts1,Ts2 =0), Tc goes to max(Tc=3.85 K). (dC/gamma*Tc) = 1.47" Ba6Ge25 Ba6Ge25 Ba 6 Ge 25 1 2002 clathrate K 0.24 0.24 TC40117 T resistivity 0.6 T/K resistivity 2.9 A 280 rf-melting in Ar High-pressure studies on a new superconducting clathrate: Ba6Ge25 2002 "Max Planck Institute for the Chemical Physics of Solids, Nothnitzer Str. 40, 01187 Dresden, Germany" J.Phys.: Condens.Matter 14(2002)11249
40118 P072214520 impurity phase = LaPd2Ge2. RRR=24.5 La3Pd4Ge4 La3Pd4Ge4 La 3 Pd 4 Ge 4 2005 3 U3Ni4Si4 Immm A 4.22 4.385 25.003 K 2.75 2.75 Oe M-H curve 54 T "WHH, resistivity" 0.3 T/K 0.16 HC40118 A 330 A 2480 "La,Pd,Ge" "arc-melting - wrapped in Mo-foil - ANN(1173K,1w, in silica tube)" Superconductivity in the ternary germanide La3Pd4Ge4 2005 "Superconducting Materials Center, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 72(2005)214520"
40119 P072214523 RRR=105. spark-cut sample. not SC after surface etching. SC maybe induced by spark erosion. ZrZn2 Zn2Zr1 Zn 2 Zr 1 3 2005 K 0.6 0.6 uOhm.cm 0.53 55.6 "Zr(4N),Zn(6N)" "load into Y2O3 crucible - sealed in Ta bomb - heat(1210C) - cool to MP(2C/h) -ANN(500C,72h)" Superconductivity induced by spark erosion in ZrZn2 2005 "H. H. Wills Physics Laboratory, University of Bristol, Tyndall Avenue, Bristol BS8 1TL, United Kingdom" "Phys.Rev.B, 72(2005)214523"
40120 P072220505 Thermal expansion coeff. changes from + to - at Tc on cooling. MgB2 B2Mg1 B 2 Mg 1 1 2005 2.56 AlB2 K 38.7 38.7 38.7 K/GPa -1.07 "pellet with B < 11 > - heat(800C,30min, P=3GPa)" Negative thermal expansion of MgB2 in the superconducting state and anomalous behavior of the bulk Gruneisen function 2005 "Department of Physics, P.O. Box 173840, Montana State University, Bozeman, Montana 59717-3840, USA" "Phys.Rev.B, 72(2005)220505"
40121 P072224509 gap estimated from PENET. P-dependence of (PENET)^(-2) = 0.60 %/kbar. ZrB12 B12Zr1 B 12 Zr 1 3 2005 K 6 6 TC40121 K/GPa -0.225 A powder susceptibility 1400 meV 1.251 4.79 single crystal - ground to be powder for PENET measurements. etching in nitric acid. Anomalous electron-phonon coupling probed on the surface of superconductor ZrB12 2005 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057, Zurich, Switzerland" "Phys.Rev.B, 72(2005)224509"
40122 P072224510 reversible M measured for H//c. Physical properties analyzed using Hao & Clem model. G-L = 89.0. Thermodynamic Hc(0) = 1202 Oe. "(Ca,Na)CuO2Cl2" Ca1.82Na0.18Cu1Cl2O2 Ca 1.82 Na 0.18 Cu 1 Cl 2 O 2 3 2005 T K 27 27 T 16.9 T/K 0.8 A 44.1 A 4380 "CaCuO2Cl2,NaClO4,NaCl" "mixture - Pt crucible - high pressure synthesis(1150-1200C,30 min,P=5.2 GPa)" Effect of apical oxygen replacement by chlorine on the thermodynamic properties of Ca1.82Na0.18CuO2Cl2 single crystals 2005 "National Creative Research Initiative Center for Superconductivity and Department of Physics, Pohang University of Science and Technology, Pohang 790-784, Republic of Korea" "Phys.Rev.B, 72(2005)224510"
40123 JP016L0255 P-induced SC. Pcr = 4 GPa. SC properties at P = 6.5 GPa. Tc defined as Tc(on). RRR=220. CeNiGe3 Ce1Ni1Ge3 Ce 1 Ni 1 Ge 3 2004 -12 5.5 SmNiGe3 Cmmm 65 A 21.808 4.135 4.168 K 0.48 0 0.48 TC40123 T 2 HC40123 A 130 mJ/mol.K2 34 uOhm.cm 1.5 220 "Ce(3N),Ni(4N),Ge(5N)" "arc-melting. ANN(800C,4d,Ta-foil in vac)" High-pressure effect on the electronic state in CeNiGe3: pressure-induced superconductivity 2004 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.:Condens.Matter, 16(2004)L255"
40124 PHC4250090 "(Cu,Tl)Ba2Ca2Cu3O10" Cu0.5Tl0.5Ba2Ca2Cu3O10-z Cu 0.5 Tl 0.5 Ba 2 Ca 2 Cu 3 O 10-z 2005 M1223 P4/mmm A 3.857 14.718 K 108 108 "Ba(NO3)2,Ca(NO3)2,Cu(CN),MgO or Pr2O3" 1 "mixture - heat(810C,24h,in air). mixture(precursor + Tl2O3) - wrapped in Al-foil - SIN(810C,10 min) - FC to RT." The study of inter-plane coupling in Cu0.5Tl0.5Ba2Ca2Cu3O10-d superconductor by Mg and Pr substitution at Ca site 2005 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Physica C, 425(2005)90"
40125 PHC4250090 "(Cu,Tl)Ba2(Ca,Mg)2Cu3O10" Cu0.5Tl0.5Ba2Ca1.6Mg0.4Cu3O10-z Cu 0.5 Tl 0.5 Ba 2 Ca 1.6 Mg 0.4 Cu 3 O 10-z 2005 M1223 P4/mmm K 115 115 "Ba(NO3)2,Ca(NO3)2,Cu(CN),MgO or Pr2O3" 1 "mixture - heat(810C,24h,in air). mixture(precursor + Tl2O3) - wrapped in Al-foil - SIN(810C,10 min) - FC to RT." The study of inter-plane coupling in Cu0.5Tl0.5Ba2Ca2Cu3O10-d superconductor by Mg and Pr substitution at Ca site 2005 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Physica C, 425(2005)90"
40126 PHC4250090 "(Cu,Tl)Ba2(Ca,Mg)2Cu3O10" Cu0.5Tl0.5Ba2Ca1.2Mg0.8Cu3O10-z Cu 0.5 Tl 0.5 Ba 2 Ca 1.2 Mg 0.8 Cu 3 O 10-z 2005 M1223 P4/mmm K 117 117 "Ba(NO3)2,Ca(NO3)2,Cu(CN),MgO or Pr2O3" 1 "mixture - heat(810C,24h,in air). mixture(precursor + Tl2O3) - wrapped in Al-foil - SIN(810C,10 min) - FC to RT." The study of inter-plane coupling in Cu0.5Tl0.5Ba2Ca2Cu3O10-d superconductor by Mg and Pr substitution at Ca site 2005 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Physica C, 425(2005)90"
40127 PHC4250090 "(Cu,Tl)Ba2(Ca,Mg)2Cu3O10" Cu0.5Tl0.5Ba2Ca0.8Mg1.2Cu3O10-z Cu 0.5 Tl 0.5 Ba 2 Ca 0.8 Mg 1.2 Cu 3 O 10-z 2005 M1223 P4/mmm K 130 130 "Ba(NO3)2,Ca(NO3)2,Cu(CN),MgO or Pr2O3" 1 "mixture - heat(810C,24h,in air). mixture(precursor + Tl2O3) - wrapped in Al-foil - SIN(810C,10 min) - FC to RT." The study of inter-plane coupling in Cu0.5Tl0.5Ba2Ca2Cu3O10-d superconductor by Mg and Pr substitution at Ca site 2005 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Physica C, 425(2005)90"
40128 PHC4250090 R is const at T = 120 K. "(Cu,Tl)Ba2(Ca,Mg)2Cu3O10" Cu0.5Tl0.5Ba2Ca0.5Mg1.5Cu3O10-z Cu 0.5 Tl 0.5 Ba 2 Ca 0.5 Mg 1.5 Cu 3 O 10-z 2005 M1223 P4/mmm A 3.83 14.2 K 77 "Ba(NO3)2,Ca(NO3)2,Cu(CN),MgO or Pr2O3" 1 "mixture - heat(810C,24h,in air). mixture(precursor + Tl2O3) - wrapped in Al-foil - SIN(810C,10 min) - FC to RT." The study of inter-plane coupling in Cu0.5Tl0.5Ba2Ca2Cu3O10-d superconductor by Mg and Pr substitution at Ca site 2005 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Physica C, 425(2005)90"
40129 PHC4250090 "(Cu,Tl)Ba2(Ca,Pr)2Cu3O10" Cu0.5Tl0.5Ba2Ca1.9Pr0.1Cu3O10-z Cu 0.5 Tl 0.5 Ba 2 Ca 1.9 Pr 0.1 Cu 3 O 10-z 2005 M1223 P4/mmm K 96 125 110.5 "Ba(NO3)2,Ca(NO3)2,Cu(CN),MgO or Pr2O3" 1 "mixture - heat(810C,24h,in air). mixture(precursor + Tl2O3) - wrapped in Al-foil - SIN(810C,10 min) - FC to RT." The study of inter-plane coupling in Cu0.5Tl0.5Ba2Ca2Cu3O10-d superconductor by Mg and Pr substitution at Ca site 2005 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Physica C, 425(2005)90"
40130 PHC4250090 "(Cu,Tl)Ba2(Ca,Pr)2Cu3O10" Cu0.5Tl0.5Ba2Ca1.8Pr0.2Cu3O10-z Cu 0.5 Tl 0.5 Ba 2 Ca 1.8 Pr 0.2 Cu 3 O 10-z 2005 M1223 P4/mmm K 100 116 100 "Ba(NO3)2,Ca(NO3)2,Cu(CN),MgO or Pr2O3" 1 "mixture - heat(810C,24h,in air). mixture(precursor + Tl2O3) - wrapped in Al-foil - SIN(810C,10 min) - FC to RT." The study of inter-plane coupling in Cu0.5Tl0.5Ba2Ca2Cu3O10-d superconductor by Mg and Pr substitution at Ca site 2005 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Physica C, 425(2005)90"
40131 PHC4250090 "(Cu,Tl)Ba2(Ca,Pr)2Cu3O10" Cu0.5Tl0.5Ba2Ca1.6Pr0.4Cu3O10-z Cu 0.5 Tl 0.5 Ba 2 Ca 1.6 Pr 0.4 Cu 3 O 10-z 2005 M1223 P4/mmm A 3.926 14.717 K 80 108 80 "Ba(NO3)2,Ca(NO3)2,Cu(CN),MgO or Pr2O3" 1 "mixture - heat(810C,24h,in air). mixture(precursor + Tl2O3) - wrapped in Al-foil - SIN(810C,10 min) - FC to RT." The study of inter-plane coupling in Cu0.5Tl0.5Ba2Ca2Cu3O10-d superconductor by Mg and Pr substitution at Ca site 2005 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Physica C, 425(2005)90"
40132 PHC4250144 sharp transition. "(Mg,Cu)B2" Mg1.9Cu0.1B12 Mg 1.9 Cu 0.1 B 12 2005 AlB2 K 37.3 0.2 37.3 "Mg,Cu,B" "mixture - cylindrical sample(100MPa) - Fe crucible - heat(archeating, 250-350C, in vac)" Synthesis and properties of Mg(1-x)CuxB2 bulk obtained by self-propagating high-temperature synthesis (SHS) method at low temperature 2005 "School of Science, Lanzhou University of Technology, Gansu Lanzhou 730050, China" "Physica C, 425(2005)144"
40133 PHC4250144 "solubility limit is about x=0.1. maybe (x=0.1 and MgCu2 with small grain sizes). Jc(10K,0.5T)= 6.7E+5 A/cm2" "(Mg,Cu)B2" Mg1.8Cu0.2B12 Mg 1.8 Cu 0.2 B 12 2005 AlB2 K 36.5 36.5 670000 "Mg,Cu,B" "mixture - cylindrical sample(100MPa) - Fe crucible - heat(archeating, 250-350C, in vac)" Synthesis and properties of Mg(1-x)CuxB2 bulk obtained by self-propagating high-temperature synthesis (SHS) method at low temperature 2005 "School of Science, Lanzhou University of Technology, Gansu Lanzhou 730050, China" "Physica C, 425(2005)144"
40134 P072224503 not SC. CaCuO2Cl2 Ca1Cu1Cl2O2 Ca 1 Cu 1 Cl 2 O 2 2005 T A 3.8674 15.0412 K 4.2 "Ca2CuO2Cl2,CaCl2,CuO,Ca(ClO4)2" "mixture - Au capsule - high pressure synthesis(1273K,30min,P=6 GPa) - Q to RT." Single-layer oxychloride superconductor Ca2-xCuO2Cl2 with A-site cation deficiency 2005 "Institute for Chemical Research, Kyoto University, Uji, Kyoto 611-0011, Japan" "Phys.Rev.B, 72(2005)224503"
40135 P072224503 nominal composition. Ca-deficiency = 0.048 by NED. Ca2-xCuO2Cl2 Ca1.9Cu1Cl2O2 Ca 1.9 Cu 1 Cl 2 O 2 2005 T A 3.8564 15.0984 K 15 15 "Ca2CuO2Cl2,CaCl2,CuO,Ca(ClO4)2" "mixture - Au capsule - high pressure synthesis(1273K,30min,P=6 GPa) - Q to RT." Single-layer oxychloride superconductor Ca2-xCuO2Cl2 with A-site cation deficiency 2005 "Institute for Chemical Research, Kyoto University, Uji, Kyoto 611-0011, Japan" "Phys.Rev.B, 72(2005)224503"
40136 P072224503 nominal composition. Ca-deficiency = 0.074 by NED. Ca2-xCuO2Cl2 Ca1.85Cu1Cl2O2 Ca 1.85 Cu 1 Cl 2 O 2 2005 T A 3.8549 15.1132 K 30 30 "Ca2CuO2Cl2,CaCl2,CuO,Ca(ClO4)2" "mixture - Au capsule - high pressure synthesis(1273K,30min,P=6 GPa) - Q to RT." Single-layer oxychloride superconductor Ca2-xCuO2Cl2 with A-site cation deficiency 2005 "Institute for Chemical Research, Kyoto University, Uji, Kyoto 611-0011, Japan" "Phys.Rev.B, 72(2005)224503"
40137 P072224503 nominal composition. Ca-deficiency = 0.092 by NED. Ca2-xCuO2Cl2 Ca1.8Cu1Cl2O2 Ca 1.8 Cu 1 Cl 2 O 2 2005 T A 3.8521 15.1224 K 39 39 "Ca2CuO2Cl2,CaCl2,CuO,Ca(ClO4)2" "mixture - Au capsule - high pressure synthesis(1273K,30min,P=6 GPa) - Q to RT." Single-layer oxychloride superconductor Ca2-xCuO2Cl2 with A-site cation deficiency 2005 "Institute for Chemical Research, Kyoto University, Uji, Kyoto 611-0011, Japan" "Phys.Rev.B, 72(2005)224503"
40138 P072224503 "nominal composition. ANN(773K,12h,in vac)" Ca2-xCuO2Cl2 Ca1.8Cu1Cl2O2 Ca 1.8 Cu 1 Cl 2 O 2 2005 T K 43 43 "Ca2CuO2Cl2,CaCl2,CuO,Ca(ClO4)2" "mixture - Au capsule - high pressure synthesis(1273K,30min,P=6 GPa) - Q to RT." Single-layer oxychloride superconductor Ca2-xCuO2Cl2 with A-site cation deficiency 2005 "Institute for Chemical Research, Kyoto University, Uji, Kyoto 611-0011, Japan" "Phys.Rev.B, 72(2005)224503"
40139 PHC4320053 linear thermal expansion coeff. = 7.97 E-5/K. Hc2(0) = 8.9 T defined as mid point in R-T. LiTi2O4 Li1Ti2O4 Li 1 Ti 2 O 4 1 2005 spinel A 8.4 K^(-1) 0.0000797 K 12.1 0.3 12.1 T onset in M-T 9.3 HC40139 A 298 A 2250 "TiO,Li2Ti3O7" "mixture - pellet - CAL(805C,50h,in vac) - slow cool to RT" "Investigations on preparation, upper critical field and low temperature thermal expansion of LiTi2O4 superconductor" 2005 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100080, China" "Physica C, 432(2005)53"
40140 PHC4320065 B-content not given. hole concentration = 5.57E+20/cc. Tc defined as mid point. G-L parameter = 7.6 B-doped diamond C1 C 1 1 2005 diamond K 0.38 0.38 T R(mid) 0.37 HC40140 A 116 A 1540 B-doped polycrystals were prepared by microwave plasma assisted chemical vapor deposition on Si-substrates. Electronic properties of boron-doped diamond on the border between the normal and the superconducting state 2005 "I. Physikalisches Institut, Universitat Gottingen, D-37077 Gottingen, Germany" "Physica C, 432(2005)65"
40141 PHC4320065 B-content not given. hole concentration = 1.34E+21/cc. Tc defined as mid point. G-L parameter = 13.3 B-doped diamond C1 C 1 1 2005 diamond K 2.5 2.5 T R(mid) 2.44 HC40140 A 122 A 1450 B-doped polycrystals were prepared by microwave plasma assisted chemical vapor deposition on Si-substrates. Electronic properties of boron-doped diamond on the border between the normal and the superconducting state 2005 "I. Physikalisches Institut, Universitat Gottingen, D-37077 Gottingen, Germany" "Physica C, 432(2005)65"
40142 PHC4320065 B-content not given. hole concentration = 1.19E+21/cc. Tc defined as mid point. G-L parameter = 11.9 B-doped diamond C1 C 1 1 2005 diamond K 2.62 2.62 T R(mid) 2.23 HC40142 B-doped polycrystals were prepared by microwave plasma assisted chemical vapor deposition on Si-substrates. Electronic properties of boron-doped diamond on the border between the normal and the superconducting state 2005 "I. Physikalisches Institut, Universitat Gottingen, D-37077 Gottingen, Germany" "Physica C, 432(2005)65"
40143 PHC4320065 B-content not given. hole concentration = 3.37E+20/cc. not SC. B-doped diamond C1 C 1 1 2005 diamond K 0.05 B-doped polycrystals were prepared by microwave plasma assisted chemical vapor deposition on Si-substrates. Electronic properties of boron-doped diamond on the border between the normal and the superconducting state 2005 "I. Physikalisches Institut, Universitat Gottingen, D-37077 Gottingen, Germany" "Physica C, 432(2005)65"
40144 PHC4320193 C-content = 0.068 by XRD. "Mg(B,C)2" Mg1B1.95C0.05 Mg 1 B 1.95 C 0.05 1 2005 AlB2 K 34 34 T 30.4 HC40144 "Mg,B,B4C" "two step process. mixture - react(1200C,48h) - ground - pellet - SIN(1200C,48h)" Synthesis of Mg(B1-xCx)2 powders 2005 "Ames Laboratory US DOE and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "Physica C, 432(2005)193"
40145 PHC4320193 C-content = 0.138 by XRD. "Mg(B,C)2" Mg1B1.9C0.1 Mg 1 B 1.9 C 0.1 1 2005 AlB2 K 27.5 27.5 T 32.8 "Mg,B,B4C" "two step process. mixture - react(1200C,48h) - ground - pellet - SIN(1200C,48h)" Synthesis of Mg(B1-xCx)2 powders 2005 "Ames Laboratory US DOE and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "Physica C, 432(2005)193"
40146 PHC4320257 Jc(H) shows a decay of power law. Hirr defined as Jc(H) = 100 A/cm2 CNT-doped MgB2 Mg1B1.9C0.1 Mg 1 B 1.9 C 0.1 2005 2.3 AlB2 A 3.067 3.522 K 34.2 34.2 T R(on) 24.1 HC40146 "Mg,amorphous-B,CNT" "mixture - pellet - heat(1700C,0.5h,under P=5GPa) - FC to RT" Comparison of physical properties for carbon nanotube doped MgB2 superconductors synthesized with different process 2005 "National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, Nanjing 210093, China" "Physica C, 432(2005)257"
40147 PHC4320257 Jc(H) shows a decay of expornential law. Hirr defined as Jc(H) = 100 A/cm2 CNT-doped MgB2 Mg1B1.9C0.1 Mg 1 B 1.9 C 0.1 2005 1.8 AlB2 A 3.074 3.522 K 35.4 35.4 T R(on) 24.3 HC40147 "Mg,amorphous-B,CNT" "mixture - pellet - heat(700C,2h, under ambient P of Ar) - FC to RT" Comparison of physical properties for carbon nanotube doped MgB2 superconductors synthesized with different process 2005 "National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, Nanjing 210093, China" "Physica C, 432(2005)257"
40148 PHC4320281 not SC "(Ga,Co)Sr2(Tm,Ca)Cu2Oz" Ga0.5Co0.5Sr2Tm0.7Ca0.3Cu2Oz Ga 0.5 Co 0.5 Sr 2 Tm 0.7 Ca 0.3 Cu 2 O z 2005 M1212 A 22.8109 5.4443 5.3807 K 18 uV/K 20.8 "Ga2O3,Co3O4,SrCO3,Tm2O3,CaCO3,CuO" 1 "mixture - CAL(900C,12h,in air) - pellet - SIN(1010C,24h,in following O2) - slow cool to RT - ANN(400C,2h + 350C,5h)" Superconductivity in the (Ga1-yCoy)Sr2(Tm1-xCax)Cu2Oz compounds synthesized under ambient pressure 2005 "Department of Physics, Kangwon National University, Hoyza-2-Dong 192-1, Chunchon 200-701, Republic of Korea" "Physica C, 432(2005)281"
40149 PHC4320281 "(Ga,Co)Sr2(Tm,Ca)Cu2Oz" Ga0.5Co0.5Sr2Tm0.6Ca0.4Cu2Oz Ga 0.5 Co 0.5 Sr 2 Tm 0.6 Ca 0.4 Cu 2 O z 2005 M1212 A 22.8301 5.4413 5.378 K 20 41 35 35 26 uV/K 8.9 "Ga2O3,Co3O4,SrCO3,Tm2O3,CaCO3,CuO" 1 "mixture - CAL(900C,12h,in air) - pellet - SIN(1010C,24h,in following O2) - slow cool to RT - ANN(400C,2h + 350C,5h)" Superconductivity in the (Ga1-yCoy)Sr2(Tm1-xCax)Cu2Oz compounds synthesized under ambient pressure 2005 "Department of Physics, Kangwon National University, Hoyza-2-Dong 192-1, Chunchon 200-701, Republic of Korea" "Physica C, 432(2005)281"
40150 PHC4320281 "(Ga,Co)Sr2(Tm,Ca)Cu2Oz" Ga0.5Co0.5Sr2Tm0.5Ca0.5Cu2Oz Ga 0.5 Co 0.5 Sr 2 Tm 0.5 Ca 0.5 Cu 2 O z 2005 M1212 A 22.8245 5.4473 5.3786 K 25 43 34 uV/K 4.8 "Ga2O3,Co3O4,SrCO3,Tm2O3,CaCO3,CuO" 1 "mixture - CAL(900C,12h,in air) - pellet - SIN(1010C,24h,in following O2) - slow cool to RT - ANN(400C,2h + 350C,5h)" Superconductivity in the (Ga1-yCoy)Sr2(Tm1-xCax)Cu2Oz compounds synthesized under ambient pressure 2005 "Department of Physics, Kangwon National University, Hoyza-2-Dong 192-1, Chunchon 200-701, Republic of Korea" "Physica C, 432(2005)281"
40151 PHC4320281 "(Ga,Co)Sr2(Tm,Ca)Cu2Oz" Ga0.4Co0.6Sr2Tm0.6Ca0.4Cu2Oz Ga 0.4 Co 0.6 Sr 2 Tm 0.6 Ca 0.4 Cu 2 O z 2005 M1212 A 22.8285 5.4401 5.3802 K 20 40 30 uV/K 9.28 "Ga2O3,Co3O4,SrCO3,Tm2O3,CaCO3,CuO" 1 "mixture - CAL(900C,12h,in air) - pellet - SIN(1010C,24h,in following O2) - slow cool to RT - ANN(400C,2h + 350C,5h)" Superconductivity in the (Ga1-yCoy)Sr2(Tm1-xCax)Cu2Oz compounds synthesized under ambient pressure 2005 "Department of Physics, Kangwon National University, Hoyza-2-Dong 192-1, Chunchon 200-701, Republic of Korea" "Physica C, 432(2005)281"
40152 PHC4320281 not SC "(Ga,Co)Sr2(Tm,Ca)Cu2Oz" Ga0.2Co0.8Sr2Tm0.6Ca0.4Cu2Oz Ga 0.2 Co 0.8 Sr 2 Tm 0.6 Ca 0.4 Cu 2 O z 2005 M1212 A 22.8048 5.4333 5.3852 K 18 uV/K 15.5 "Ga2O3,Co3O4,SrCO3,Tm2O3,CaCO3,CuO" 1 "mixture - CAL(900C,12h,in air) - pellet - SIN(1010C,24h,in following O2) - slow cool to RT - ANN(400C,2h + 350C,5h)" Superconductivity in the (Ga1-yCoy)Sr2(Tm1-xCax)Cu2Oz compounds synthesized under ambient pressure 2005 "Department of Physics, Kangwon National University, Hoyza-2-Dong 192-1, Chunchon 200-701, Republic of Korea" "Physica C, 432(2005)281"
40153 PHC4330009 LuNiBxCy Lu1Ni1B1C1 Lu 1 Ni 1 B 1 C 1 2005 P4/mmm A 3.492 7.55 K 2.5 2.5 "arc-melting - wrapped in Ta foil - ANN(950C,1w, in evacuated quartz tube)" "Effect of boron, carbon stoichiometry on the superconducting properties of LuNiBxCy system" 2005 "a Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai 400005, India" "Physica C, 433(2005)9"
40154 PHC4330009 The best phase purity with no 1221 phase LuNiBxCy Lu1Ni1B0.9C1 Lu 1 Ni 1 B 0.9 C 1 2005 P4/mmm A 3.492 7.552 K 2.6 2.6 Oe 40 1.6 Oe 1200 1.6 mJ/mol.K2 2.85 SP-heat 440 SP-heat "arc-melting - wrapped in Ta foil - ANN(950C,1w, in evacuated quartz tube)" "Effect of boron, carbon stoichiometry on the superconducting properties of LuNiBxCy system" 2005 "a Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai 400005, India" "Physica C, 433(2005)9"
40155 PHC4330009 LuNiBxCy Lu1Ni1B0.8C1 Lu 1 Ni 1 B 0.8 C 1 2005 P4/mmm A 3.489 7.546 K 2.6 2.6 "arc-melting - wrapped in Ta foil - ANN(950C,1w, in evacuated quartz tube)" "Effect of boron, carbon stoichiometry on the superconducting properties of LuNiBxCy system" 2005 "a Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai 400005, India" "Physica C, 433(2005)9"
40156 PHC4330009 LuNiBxCy Lu1Ni1B0.9C1.1 Lu 1 Ni 1 B 0.9 C 1.1 2005 P4/mmm A 3.492 7.553 K 2.9 2.9 "arc-melting - wrapped in Ta foil - ANN(950C,1w, in evacuated quartz tube)" "Effect of boron, carbon stoichiometry on the superconducting properties of LuNiBxCy system" 2005 "a Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai 400005, India" "Physica C, 433(2005)9"
40157 PHC4330009 10% 1221 phase. Tc increases as increasing C/B ratio LuNiBxCy Lu1Ni1B0.8C1.2 Lu 1 Ni 1 B 0.8 C 1.2 2005 P4/mmm A 3.488 7.545 K 3.2 3.2 "arc-melting - wrapped in Ta foil - ANN(950C,1w, in evacuated quartz tube)" "Effect of boron, carbon stoichiometry on the superconducting properties of LuNiBxCy system" 2005 "a Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai 400005, India" "Physica C, 433(2005)9"
40158 PHC4330009 no 1221 phase LuNiBxCy Lu1Ni1B1.1C0.9 Lu 1 Ni 1 B 1.1 C 0.9 2005 P4/mmm A 3.495 7.557 K 2.4 2.4 "arc-melting - wrapped in Ta foil - ANN(950C,1w, in evacuated quartz tube)" "Effect of boron, carbon stoichiometry on the superconducting properties of LuNiBxCy system" 2005 "a Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai 400005, India" "Physica C, 433(2005)9"
40159 PHC4330009 no 1221 phase LuNiBxCy Lu1Ni1B1C0.85 Lu 1 Ni 1 B 1 C 0.85 2005 P4/mmm A 3.495 7.562 K 2.4 2.4 "arc-melting - wrapped in Ta foil - ANN(950C,1w, in evacuated quartz tube)" "Effect of boron, carbon stoichiometry on the superconducting properties of LuNiBxCy system" 2005 "a Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai 400005, India" "Physica C, 433(2005)9"
40160 PHC4330009 no 1221 phase LuNiBxCy Lu1Ni1B0.95C0.95 Lu 1 Ni 1 B 0.95 C 0.95 2005 P4/mmm A 3.494 7.557 K 2.5 2.5 "arc-melting - wrapped in Ta foil - ANN(950C,1w, in evacuated quartz tube)" "Effect of boron, carbon stoichiometry on the superconducting properties of LuNiBxCy system" 2005 "a Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai 400005, India" "Physica C, 433(2005)9"
40161 PHC4330139 d(lnTc)/dP = 0.064 /GPa. Li2Pd3B Li2Pd3B1 Li 2 Pd 3 B 1 2005 P4<2>32 A 6.7639 K 8.2 8 8.2 K/GPa 0.41 "(Pd,Ni)3B by two step arc-melting. Li + (Pd,Ni)3B - react(600-700C,48h,in 20-25 bar Ar)" Study of the effect of Ni substitution and external pressure in Li2Pd3B superconductor 2005 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603 102, Tamil Nadu, India" "Physica C, 433(2005)139"
40162 PHC4330139 "Li2(Pd,Ni)3B" Li2Pd2.94Ni0.06B1 Li 2 Pd 2.94 Ni 0.06 B 1 2005 P4<2>32 A 6.7619 K 7.7 7.7 "(Pd,Ni)3B by two step arc-melting. Li + (Pd,Ni)3B - react(600-700C,48h,in 20-25 bar Ar)" Study of the effect of Ni substitution and external pressure in Li2Pd3B superconductor 2005 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603 102, Tamil Nadu, India" "Physica C, 433(2005)139"
40163 PHC4330139 "Li2(Pd,Ni)3B" Li2Pd2.85Ni0.15B1 Li 2 Pd 2.85 Ni 0.15 B 1 2005 P4<2>32 A 6.7596 K 7.5 7.5 "(Pd,Ni)3B by two step arc-melting. Li + (Pd,Ni)3B - react(600-700C,48h,in 20-25 bar Ar)" Study of the effect of Ni substitution and external pressure in Li2Pd3B superconductor 2005 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603 102, Tamil Nadu, India" "Physica C, 433(2005)139"
40164 PHC4330139 "Li2(Pd,Ni)3B" Li2Pd2.7Ni0.3B1 Li 2 Pd 2.7 Ni 0.3 B 1 2005 P4<2>32 A 6.7535 K 7.3 7.3 "(Pd,Ni)3B by two step arc-melting. Li + (Pd,Ni)3B - react(600-700C,48h,in 20-25 bar Ar)" Study of the effect of Ni substitution and external pressure in Li2Pd3B superconductor 2005 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603 102, Tamil Nadu, India" "Physica C, 433(2005)139"
40165 PHC4330139 "Li2(Pd,Ni)3B" Li2Pd2.4Ni0.6B1 Li 2 Pd 2.4 Ni 0.6 B 1 2005 P4<2>32 A 6.7374 K 7.69 7.69 "(Pd,Ni)3B by two step arc-melting. Li + (Pd,Ni)3B - react(600-700C,48h,in 20-25 bar Ar)" Study of the effect of Ni substitution and external pressure in Li2Pd3B superconductor 2005 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603 102, Tamil Nadu, India" "Physica C, 433(2005)139"
40166 CEM0540136 Li1+xTi2-xO4 Li1Ti2O4 Li 1 Ti 2 O 4 1984 cm3/mol 0.00227 -0.9 spinel A 8.407 K 11 3 11 "mixture of (Li2TiO3,TiO2) - heat(800C,8h,in O2) using Au-foil, alumina boat" Localized moments in the superconducting Li1+xTi2-x spinel system 1984 "J.Solid State Chem., 54(1984)136"
40167 CEM0540136 Li1+xTi2-xO4 Li1.05Ti1.95O4 Li 1.05 Ti 1.95 O 4 1984 cm3/mol 0.00705 0.1 spinel A 8.4008 K 10.5 3.2 10.5 "mixture of (Li2TiO3,TiO2) - heat(800C,8h,in O2) using Au-foil, alumina boat" Localized moments in the superconducting Li1+xTi2-x spinel system 1984 "J.Solid State Chem., 54(1984)136"
40168 CEM0540136 Li1+xTi2-xO4 Li1.07Ti1.93O4 Li 1.07 Ti 1.93 O 4 1984 cm3/mol 0.00757 0.5 spinel A 8.3972 K 10.4 3.2 10.4 "mixture of (Li2TiO3,TiO2) - heat(800C,8h,in O2) using Au-foil, alumina boat" Localized moments in the superconducting Li1+xTi2-x spinel system 1984 "J.Solid State Chem., 54(1984)136"
40169 CEM0540136 Li1+xTi2-xO4 Li1.1Ti1.9O4 Li 1.1 Ti 1.9 O 4 1984 cm3/mol 0.00377 1.6 spinel A 8.392 K 10.3 3.9 10.3 "mixture of (Li2TiO3,TiO2) - heat(800C,8h,in O2) using Au-foil, alumina boat" Localized moments in the superconducting Li1+xTi2-x spinel system 1984 "J.Solid State Chem., 54(1984)136"
40170 CEM0540136 Li1+xTi2-xO4 Li1.12Ti1.88O4 Li 1.12 Ti 1.88 O 4 1984 cm3/mol 0.0033 2.5 spinel A 8.3901 K 9.4 3 9.4 "mixture of (Li2TiO3,TiO2) - heat(800C,8h,in O2) using Au-foil, alumina boat" Localized moments in the superconducting Li1+xTi2-x spinel system 1984 "J.Solid State Chem., 54(1984)136"
40171 CEM0540136 Li1+xTi2-xO4 Li1.15Ti1.85O4 Li 1.15 Ti 1.85 O 4 1984 cm3/mol 0.00317 2.5 spinel A 8.3841 K "mixture of (Li2TiO3,TiO2) - heat(800C,8h,in O2) using Au-foil, alumina boat" Localized moments in the superconducting Li1+xTi2-x spinel system 1984 "J.Solid State Chem., 54(1984)136"
40172 JP018L0063 Na-content by ICP. NQR measured. NaxCoO2/1.3H2O Na0.34Co1H2.6O3.3 Na 0.34 Co 1 H 2.6 O 3.3 2006 A 2.822 19.5 K 2.65 2.65 precursor(Na0.75CoO2) was immersed in the Br2/CH3CN solution with various Br-contents. Na content dependence of superconductivity and the spin correlations in NaxCoO2:1.3H2O 2006 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Condens.Matter, 18(2006)L63"
40173 JP018L0063 Na-content by ICP. NQR measured. NaxCoO2/1.3H2O Na0.32Co1H2.6O3.3 Na 0.32 Co 1 H 2.6 O 3.3 2006 A 2.822 19.62 K 3.6 3.6 precursor(Na0.75CoO2) was immersed in the Br2/CH3CN solution with various Br-contents. Na content dependence of superconductivity and the spin correlations in NaxCoO2:1.3H2O 2006 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Condens.Matter, 18(2006)L63"
40174 JP018L0063 Na-content by ICP. NQR measured. NaxCoO2/1.3H2O Na0.31Co1H2.6O3.3 Na 0.31 Co 1 H 2.6 O 3.3 2006 A 2.819 19.59 K 3.7 3.7 precursor(Na0.75CoO2) was immersed in the Br2/CH3CN solution with various Br-contents. Na content dependence of superconductivity and the spin correlations in NaxCoO2:1.3H2O 2006 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Condens.Matter, 18(2006)L63"
40175 JP018L0063 Na-content by ICP. NQR measured. NaxCoO2/1.3H2O Na0.28Co1H2.6O3.3 Na 0.28 Co 1 H 2.6 O 3.3 2006 A 2.817 19.73 K 4.75 4.75 precursor(Na0.75CoO2) was immersed in the Br2/CH3CN solution with various Br-contents. Na content dependence of superconductivity and the spin correlations in NaxCoO2:1.3H2O 2006 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Condens.Matter, 18(2006)L63"
40176 JP018L0063 Na-content by ICP. NQR measured. NaxCoO2/1.3H2O Na0.25Co1H2.6O3.3 Na 0.25 Co 1 H 2.6 O 3.3 2006 A 2.817 19.8 K 4.7 4.7 precursor(Na0.75CoO2) was immersed in the Br2/CH3CN solution with various Br-contents. Na content dependence of superconductivity and the spin correlations in NaxCoO2:1.3H2O 2006 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Condens.Matter, 18(2006)L63"
40177 JP018L0063 Na-content by ICP. NQR measured. NaxCoO2/1.3H2O Na0.26Co1H2.6O3.3 Na 0.26 Co 1 H 2.6 O 3.3 2006 A 2.815 19.79 K 4.6 4.6 precursor(Na0.75CoO2) was immersed in the Br2/CH3CN solution with various Br-contents. Na content dependence of superconductivity and the spin correlations in NaxCoO2:1.3H2O 2006 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Condens.Matter, 18(2006)L63"
40178 PLA0150303 "Tc by ac-SUS. Tc was investigated for mass(ave) of Zr = 91.22, 94, 92, 90." Zr Zr1 Zr 1 1965 K 0.49 0.49 0.05 Zr mj/mol.K2 2.75 280 Superconductivity of zirconium isotopes 1965 "Phys.Lett., 15(1965)303"
40179 PR1660457 "Tc by ac-SUS. Debye-T from Phys.Rev.Lett., 2(1959)260." Re Re1 Re 1 1968 K 1.703 1.703 0.356 Re 417 Isotope effect in superconducting rhenium 1968 "Phys.Rev., 166(1968)457"
40180 PR1640565 "Tc was measured for M=63.96, 65.91, 67.94. RRR=10. Hc2 shows Hc(type-I)." Zn Zn1 Zn 1 1967 K 0.855 0.855 0.375 Zn Oe 53.94 Oe/K 104.9 mj/mol.K2 0.654 Superconducting transitions of isotopes of zinc 1967 "Phys.Rev., 164(1967)565"
40181 PR1630356 gamma-U alloy. Tc = 2.132 K for U(235) U1-xMox Mo0.16U0.84 Mo 0.16 U 0.84 1967 K 2.121 2.121 arc-melting Isotope effect in superconducting gamma-Uranium alloys 1967 "Phys.Rev., 163(1967)356"
40182 PR1630356 gamma-U alloy. Tc = 2.130 K for U(235) U1-xMox Mo0.18U0.82 Mo 0.18 U 0.82 1967 K 2.118 2.118 0.53 U arc-melting Isotope effect in superconducting gamma-Uranium alloys 1967 "Phys.Rev., 163(1967)356"
40183 PR1630356 gamma-U alloy. Tc = 2.124 K for U(235) U1-xMox Mo0.2U0.8 Mo 0.2 U 0.8 1967 K 2.113 2.113 arc-melting Isotope effect in superconducting gamma-Uranium alloys 1967 "Phys.Rev., 163(1967)356"
40184 PR1630356 gamma-U alloy. Tc = 2.023 K for U(235) U1-xNbx Nb0.18U0.82 Nb 0.18 U 0.82 1967 K 2.011 2.011 arc-melting Isotope effect in superconducting gamma-Uranium alloys 1967 "Phys.Rev., 163(1967)356"
40185 PR1630356 gamma-U alloy. Tc = 2.023 K for U(235) U1-xNbx Nb0.2U0.8 Nb 0.2 U 0.8 1967 K 2.009 2.009 0.54 U arc-melting Isotope effect in superconducting gamma-Uranium alloys 1967 "Phys.Rev., 163(1967)356"
40186 PR1630356 gamma-U alloy. Tc = 2.024 K for U(235) U1-xNbx Nb0.22U0.78 Nb 0.22 U 0.78 1967 K 2.01 2.01 arc-melting Isotope effect in superconducting gamma-Uranium alloys 1967 "Phys.Rev., 163(1967)356"
40187 PR1410407 "Tc by SUS. Tc shows no isotopic mass dependence. Hc2 shows Hc(type-I). M=99.2, 101.1(natural), 103.9 are measured." Ru Ru1 Ru 1 1966 K 0.509 0.509 0 Ru Oe 70 mj/mol.K2 2.8 calculated from Hc Critical magnetic fields of superconducting ruthenium isotopes and search for isotope effect 1966 "Phys.Rev., 141(1966)407"
40188 PR1311105 "mean mass = 187.4, 188.3, 190.2(natural), 192.0 were measured. Hc2 shows Hc(type-I). gamma = 4.77E-4 cal/mol.K2 calculated from Hc." Os Os1 Os 1 1963 K 0.671 0.671 0.21 Os Oe 80.4 Isotope effect in superconducting osmium 1963 "Phys.Rev., 131(1963)1105"
40189 PR1121888 M(ave) = 207.271. Hc2 shows Hc(type-I). Pb Pb1 Pb 1 1958 K 7.172 7.172 Oe 802 HC40189 Critical field measurements on superconducting lead isotopes 1958 "Phys.Rev., 112(1958)1888"
40190 PR1121522 "Isotope effect derived from Hc(M). Tc measured for M=207.811, 207.460, 207.271, 206.884, 206.543, 206.193." Pb Pb1 Pb 1 1958 K 7.175 7.175 0.501 Pb Isotope effect on the superconducting transition in lead 1958 "Phys.Rev., 112(1958)1522"
40191 CEM1540488 "(Hg,W)Sr2(Sm,Ce)2Cu2Oz" Hg0.75W0.25Sr2Sm1.5Ce0.5Cu2Oz Hg 0.75 W 0.25 Sr 2 Sm 1.5 Ce 0.5 Cu 2 O z 1 2000 Hg1222 I4/mmm A 3.8462 29.182 K 35 56 45.5 "precursors(Sr2Gd2-xCex)Cu2Oz,Sr2(R1.5Ce0.5)Cu2Oz) - CAL -pelley - mixed with HgO, M-oxide - sealed in Au - high pressure synthesis(1100C,2h,2GPa)" "Synthesis and Study of Hg-Based 1222-Type Superconducting Cuprates (Hg,M)Sr2(Ln, Ce)2Cu2Oz" 2000 "Superconductivity Research Laboratory, ISTEC, 10}13 Shinonome 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "J.Solid State Chem., 154(2000)488"
40192 CEM1540488 "(Hg,W)Sr2(Eu,Ce)2Cu2Oz" Hg0.75W0.25Sr2Eu1.5Ce0.5Cu2Oz Hg 0.75 W 0.25 Sr 2 Eu 1.5 Ce 0.5 Cu 2 O z 1 2000 Hg1222 I4/mmm A 3.8386 29.167 K 39 65 52 "precursors(Sr2Gd2-xCex)Cu2Oz,Sr2(R1.5Ce0.5)Cu2Oz) - CAL -pelley - mixed with HgO, M-oxide - sealed in Au - high pressure synthesis(1100C,2h,2GPa)" "Synthesis and Study of Hg-Based 1222-Type Superconducting Cuprates (Hg,M)Sr2(Ln, Ce)2Cu2Oz" 2000 "Superconductivity Research Laboratory, ISTEC, 10}13 Shinonome 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "J.Solid State Chem., 154(2000)488"
40193 CEM1540488 "(Hg,W)Sr2(Gd,Ce)2Cu2Oz" Hg0.75W0.25Sr2Gd1.5Ce0.5Cu2Oz Hg 0.75 W 0.25 Sr 2 Gd 1.5 Ce 0.5 Cu 2 O z 1 2000 Hg1222 I4/mmm A 3.8327 29.15 K 48 75 61.5 "precursors(Sr2Gd2-xCex)Cu2Oz,Sr2(R1.5Ce0.5)Cu2Oz) - CAL -pelley - mixed with HgO, M-oxide - sealed in Au - high pressure synthesis(1100C,2h,2GPa)" "Synthesis and Study of Hg-Based 1222-Type Superconducting Cuprates (Hg,M)Sr2(Ln, Ce)2Cu2Oz" 2000 "Superconductivity Research Laboratory, ISTEC, 10}13 Shinonome 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "J.Solid State Chem., 154(2000)488"
40194 CEM1540488 "(Hg,W)Sr2(Dy,Ce)2Cu2Oz" Hg0.75W0.25Sr2Dy1.5Ce0.5Cu2Oz Hg 0.75 W 0.25 Sr 2 Dy 1.5 Ce 0.5 Cu 2 O z 1 2000 Hg1222 I4/mmm A 3.8161 29.087 K 49 71 60 "precursors(Sr2Gd2-xCex)Cu2Oz,Sr2(R1.5Ce0.5)Cu2Oz) - CAL -pelley - mixed with HgO, M-oxide - sealed in Au - high pressure synthesis(1100C,2h,2GPa)" "Synthesis and Study of Hg-Based 1222-Type Superconducting Cuprates (Hg,M)Sr2(Ln, Ce)2Cu2Oz" 2000 "Superconductivity Research Laboratory, ISTEC, 10}13 Shinonome 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "J.Solid State Chem., 154(2000)488"
40195 CEM1540488 "(Hg,W)Sr2(Ho,Ce)2Cu2Oz" Hg0.75W0.25Sr2Ho1.5Ce0.5Cu2Oz Hg 0.75 W 0.25 Sr 2 Ho 1.5 Ce 0.5 Cu 2 O z 1 2000 Hg1222 I4/mmm A 3.8124 29.043 K 42 64 53 "precursors(Sr2Gd2-xCex)Cu2Oz,Sr2(R1.5Ce0.5)Cu2Oz) - CAL -pelley - mixed with HgO, M-oxide - sealed in Au - high pressure synthesis(1100C,2h,2GPa)" "Synthesis and Study of Hg-Based 1222-Type Superconducting Cuprates (Hg,M)Sr2(Ln, Ce)2Cu2Oz" 2000 "Superconductivity Research Laboratory, ISTEC, 10}13 Shinonome 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "J.Solid State Chem., 154(2000)488"
40196 CEM1540488 "(Hg,W)Sr2(Er,Ce)2Cu2Oz" Hg0.75W0.25Sr2Er1.5Ce0.5Cu2Oz Hg 0.75 W 0.25 Sr 2 Er 1.5 Ce 0.5 Cu 2 O z 1 2000 Hg1222 I4/mmm A 3.8058 29.008 K 36 60 48 "precursors(Sr2Gd2-xCex)Cu2Oz,Sr2(R1.5Ce0.5)Cu2Oz) - CAL -pelley - mixed with HgO, M-oxide - sealed in Au - high pressure synthesis(1100C,2h,2GPa)" "Synthesis and Study of Hg-Based 1222-Type Superconducting Cuprates (Hg,M)Sr2(Ln, Ce)2Cu2Oz" 2000 "Superconductivity Research Laboratory, ISTEC, 10}13 Shinonome 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "J.Solid State Chem., 154(2000)488"
40197 CEM1540488 "(Hg,Ti)Sr2(Gd,Ce)2Cu2Oz" Hg0.75Ti0.25Sr2Gd1.5Ce0.5Cu2Oz Hg 0.75 Ti 0.25 Sr 2 Gd 1.5 Ce 0.5 Cu 2 O z 1 2000 Hg1222 I4/mmm A 3.8426 29.229 K 38 38 20 "precursors(Sr2Gd2-xCex)Cu2Oz,Sr2(R1.5Ce0.5)Cu2Oz) - CAL -pelley - mixed with HgO, M-oxide - sealed in Au - high pressure synthesis(1100C,2h,2GPa)" "Synthesis and Study of Hg-Based 1222-Type Superconducting Cuprates (Hg,M)Sr2(Ln, Ce)2Cu2Oz" 2000 "Superconductivity Research Laboratory, ISTEC, 10}13 Shinonome 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "J.Solid State Chem., 154(2000)488"
40198 CEM1540488 "(Hg,V)Sr2(Gd,Ce)2Cu2Oz" Hg0.75V0.25Sr2Gd1.5Ce0.5Cu2Oz Hg 0.75 V 0.25 Sr 2 Gd 1.5 Ce 0.5 Cu 2 O z 1 2000 Hg1222 I4/mmm A 3.8566 29.126 K 47 47 11 "precursors(Sr2Gd2-xCex)Cu2Oz,Sr2(R1.5Ce0.5)Cu2Oz) - CAL -pelley - mixed with HgO, M-oxide - sealed in Au - high pressure synthesis(1100C,2h,2GPa)" "Synthesis and Study of Hg-Based 1222-Type Superconducting Cuprates (Hg,M)Sr2(Ln, Ce)2Cu2Oz" 2000 "Superconductivity Research Laboratory, ISTEC, 10}13 Shinonome 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "J.Solid State Chem., 154(2000)488"
40199 CEM1540488 not SC. "(Hg,Cr)Sr2(Gd,Ce)2Cu2Oz" Hg0.75Cr0.25Sr2Gd1.5Ce0.5Cu2Oz Hg 0.75 Cr 0.25 Sr 2 Gd 1.5 Ce 0.5 Cu 2 O z 1 2000 Hg1222 I4/mmm A 3.8573 29.122 K 4.2 "precursors(Sr2Gd2-xCex)Cu2Oz,Sr2(R1.5Ce0.5)Cu2Oz) - CAL -pelley - mixed with HgO, M-oxide - sealed in Au - high pressure synthesis(1100C,2h,2GPa)" "Synthesis and Study of Hg-Based 1222-Type Superconducting Cuprates (Hg,M)Sr2(Ln, Ce)2Cu2Oz" 2000 "Superconductivity Research Laboratory, ISTEC, 10}13 Shinonome 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "J.Solid State Chem., 154(2000)488"
40200 CEM1540488 "(Hg,Mo)Sr2(Gd,Ce)2Cu2Oz" Hg0.75Mo0.25Sr2Gd1.5Ce0.5Cu2Oz Hg 0.75 Mo 0.25 Sr 2 Gd 1.5 Ce 0.5 Cu 2 O z 1 2000 Hg1222 I4/mmm A 3.842 29.209 K 70 70 21 "precursors(Sr2Gd2-xCex)Cu2Oz,Sr2(R1.5Ce0.5)Cu2Oz) - CAL -pelley - mixed with HgO, M-oxide - sealed in Au - high pressure synthesis(1100C,2h,2GPa)" "Synthesis and Study of Hg-Based 1222-Type Superconducting Cuprates (Hg,M)Sr2(Ln, Ce)2Cu2Oz" 2000 "Superconductivity Research Laboratory, ISTEC, 10}13 Shinonome 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "J.Solid State Chem., 154(2000)488"
40201 CEM1540488 using ReO2 as Re source. "(Hg,Re)Sr2(Gd,Ce)2Cu2Oz" Hg0.75Re0.25Sr2Gd1.5Ce0.5Cu2Oz Hg 0.75 Re 0.25 Sr 2 Gd 1.5 Ce 0.5 Cu 2 O z 1 2000 Hg1222 I4/mmm A 3.8466 29.158 K 39 39 14 "precursors(Sr2Gd2-xCex)Cu2Oz,Sr2(R1.5Ce0.5)Cu2Oz) - CAL -pelley - mixed with HgO, M-oxide - sealed in Au - high pressure synthesis(1100C,2h,2GPa)" "Synthesis and Study of Hg-Based 1222-Type Superconducting Cuprates (Hg,M)Sr2(Ln, Ce)2Cu2Oz" 2000 "Superconductivity Research Laboratory, ISTEC, 10}13 Shinonome 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "J.Solid State Chem., 154(2000)488"
40202 CEM1540488 using ReO3 as Re source. "(Hg,Re)Sr2(Gd,Ce)2Cu2Oz" Hg0.75Re0.25Sr2Gd1.5Ce0.5Cu2Oz Hg 0.75 Re 0.25 Sr 2 Gd 1.5 Ce 0.5 Cu 2 O z 1 2000 Hg1222 I4/mmm A 3.8455 29.14 K 50 50 15 "precursors(Sr2Gd2-xCex)Cu2Oz,Sr2(R1.5Ce0.5)Cu2Oz) - CAL -pelley - mixed with HgO, M-oxide - sealed in Au - high pressure synthesis(1100C,2h,2GPa)" "Synthesis and Study of Hg-Based 1222-Type Superconducting Cuprates (Hg,M)Sr2(Ln, Ce)2Cu2Oz" 2000 "Superconductivity Research Laboratory, ISTEC, 10}13 Shinonome 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "J.Solid State Chem., 154(2000)488"
40203 CEM1540488 using ReO3 and 10%LiClO4 as Re source. "(Hg,Re)Sr2(Gd,Ce)2Cu2Oz" Hg0.75Re0.25Sr2Gd1.5Ce0.5Cu2Oz Hg 0.75 Re 0.25 Sr 2 Gd 1.5 Ce 0.5 Cu 2 O z 1 2000 Hg1222 I4/mmm A 3.8437 29.131 K 70 70 22 "precursors(Sr2Gd2-xCex)Cu2Oz,Sr2(R1.5Ce0.5)Cu2Oz) - CAL -pelley - mixed with HgO, M-oxide - sealed in Au - high pressure synthesis(1100C,2h,2GPa)" "Synthesis and Study of Hg-Based 1222-Type Superconducting Cuprates (Hg,M)Sr2(Ln, Ce)2Cu2Oz" 2000 "Superconductivity Research Laboratory, ISTEC, 10}13 Shinonome 1-Chome, Koto-ku, Tokyo 135-0062, Japan" "J.Solid State Chem., 154(2000)488"
40204 CEM1710367 Y2C2I2 Y2C2I2 Y 2 C 2 I 2 1 2003 GPa 37 K 10 10 K/GPa 1.3 "Y,YI3,C" "mixture with a slight excess C (5%). See J.Phys.Chem.B, 103(1999)5446" Pressure dependence of TC of the layered superconductor Y2C2I2: lattice versus electronic effects 2003 "Max-Planck-Institut fur Festkorperforschung, D-70569 Stuttgart, Germany" "J.Solid State Chem., 171(2003)367"
40205 PHC3410719 Y2C2Br2 Y2C2Br2 Y 2 C 2 Br 2 2000 C2/m K 5.03 5.03 K/GPa -0.13 sensitive to moisture. all handling in dry Ar. Pressure dependence of the transition temperature of the layered superconductors Y2C2Br2-xIx 2000 "Max-Planck-Institut fur Festkorperforschung, Stuttgart,Germany" "Physica C, 341-348(2000)719"
40206 PHC3410719 "Y2C2(Br,I)2" Y2C2Br1I1 Y 2 C 2 Br 1 I 1 2000 C2/m K 5.08 5.08 K/GPa -0.79 sensitive to moisture. all handling in dry Ar. Pressure dependence of the transition temperature of the layered superconductors Y2C2Br2-xIx 2000 "Max-Planck-Institut fur Festkorperforschung, Stuttgart,Germany" "Physica C, 341-348(2000)719"
40207 PHC3410719 "Y2C2(Br,I)2" Y2C2Br0.5I1.5 Y 2 C 2 Br 0.5 I 1.5 2000 C2/m K 11.6 11.6 K/GPa -0.54 sensitive to moisture. all handling in dry Ar. Pressure dependence of the transition temperature of the layered superconductors Y2C2Br2-xIx 2000 "Max-Planck-Institut fur Festkorperforschung, Stuttgart,Germany" "Physica C, 341-348(2000)719"
40208 PHC3410719 Y2C2I2 Y2C2I2 Y 2 C 2 I 2 2000 C2/m K 9.97 9.97 K/GPa 1.05 sensitive to moisture. all handling in dry Ar. Pressure dependence of the transition temperature of the layered superconductors Y2C2Br2-xIx 2000 "Max-Planck-Institut fur Festkorperforschung, Stuttgart,Germany" "Physica C, 341-348(2000)719"
40209 PHC3410719 La2C2Br2 La2C2Br2 La 2 C 2 Br 2 2000 C2/m K 7.03 7.03 K/GPa 1.26 sensitive to moisture. all handling in dry Ar. Pressure dependence of the transition temperature of the layered superconductors Y2C2Br2-xIx 2000 "Max-Planck-Institut fur Festkorperforschung, Stuttgart,Germany" "Physica C, 341-348(2000)719"
40210 CEM1781705 Cu-valence = 2.10 from XAS. "Cu(Ba,Eu)2(Ce,Eu)2Cu2O9" Ba1.34Eu2Ce0.66Cu3O8.96 Ba 1.34 Eu 2 Ce 0.66 Cu 3 O 9-z 8.96 1 2006 Cu1222 A 3.86 28.49 K 15 15 12 "CuO,BaCO3,Eu2O3,CeO2" "nominal(Eu:Ba:Ce:Cu=6:4:2:9). SIN(1020C,15h,in flowing O2) - ANN(300C,24h,in flowing N2) - cool to RT (20C/min)." Oxygen nonstoichiometry and valence of copper in the Cu-1222 superconductor 2006 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Solid State Chem., 178(2006)1705"
40211 CEM1781705 as-prepared sample. Cu-valence = 2.11 from XAS. "Cu(Ba,Eu)2(Ce,Eu)2Cu2O9" Ba1.34Eu2Ce0.66Cu3O9.02 Ba 1.34 Eu 2 Ce 0.66 Cu 3 O 9-z 9.02 1 2006 Cu1222 A 3.86 28.48 K 25 25 29 "CuO,BaCO3,Eu2O3,CeO2" "nominal(Eu:Ba:Ce:Cu=6:4:2:9). SIN(1020C,15h,in flowing O2)." Oxygen nonstoichiometry and valence of copper in the Cu-1222 superconductor 2006 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Solid State Chem., 178(2006)1705"
40212 CEM1781705 Cu-valence = 2.24 from XAS. "Cu(Ba,Eu)2(Ce,Eu)2Cu2O9" Ba1.34Eu2Ce0.66Cu3O9-z Ba 1.34 Eu 2 Ce 0.66 Cu 3 O 9-z 1 2006 Cu1222 A 3.86 28.48 K 62 62 TC40212 59 "CuO,BaCO3,Eu2O3,CeO2" "nominal(Eu:Ba:Ce:Cu=6:4:2:9). SIN(1020C,15h,in flowing O2) - mixed with 100 mol% Ag2O2 - high pressure synthesis(500C,30min,5 GPa)." Oxygen nonstoichiometry and valence of copper in the Cu-1222 superconductor 2006 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Solid State Chem., 178(2006)1705"
40213 PHC3350259 compositions show nominal values. "(Cu,V)Sr2(Ca,Sr)2Cu3Oz" V0.5Sr2.25Ca1.75Cu3.5O9.7 V 0.5 Sr 2.25 Ca 1.75 Cu 3.5 O 9.7 2000 Cu1223 A 3.8418 14.691 K 98 98 HIR40213 "high pressure synthesis (1300C, P = 6 GPa)" High-pressure synthesis and Jc-related properties of Cr- and V-based high Tc superconductors 2000 "National Institute for Research in Inorganic Materials, Tsukuba,Japan" "Physica C, 335(2000)259"
40214 PHC3350259 compositions show nominal values. "(Cu,V)Sr2(Ca,Sr)3Cu3Oz" V0.5Sr2.7Ca2.3Cu4.5O11.6 V 0.5 Sr 2.7 Ca 2.3 Cu 4.5 O 11.6 2000 Cu1234 A 3.8497 17.9 K 107 107 HIR40214 "high pressure synthesis (1300C, P = 6 GPa)" High-pressure synthesis and Jc-related properties of Cr- and V-based high Tc superconductors 2000 "National Institute for Research in Inorganic Materials, Tsukuba,Japan" "Physica C, 335(2000)259"
40215 PHC3350259 compositions show nominal values. "(Cu,V)Sr2(Ca,Sr)4Cu3Oz" V0.5Sr2.4Ca3.6Cu5.5O13.55 V 0.5 Sr 2.4 Ca 3.6 Cu 5.5 O 13.55 2000 Cu1245 A 3.8498 21.036 K 75 75 HIR40213 "high pressure synthesis (1300C, P = 6 GPa)" High-pressure synthesis and Jc-related properties of Cr- and V-based high Tc superconductors 2000 "National Institute for Research in Inorganic Materials, Tsukuba,Japan" "Physica C, 335(2000)259"
40216 PHC3350259 compositions show nominal values. "(Cu,V)Sr2(Ca,Sr)5Cu3Oz" V0.5Sr2.3Ca4.7Cu6.5O15.5 V 0.5 Sr 2.3 Ca 4.7 Cu 6.5 O 15.5 2000 Cu1256 A 3.8532 24.226 K 75 75 HIR40214 "high pressure synthesis (1300C, P = 6 GPa)" High-pressure synthesis and Jc-related properties of Cr- and V-based high Tc superconductors 2000 "National Institute for Research in Inorganic Materials, Tsukuba,Japan" "Physica C, 335(2000)259"
40217 PHC3350259 compositions show nominal values. "(Cu,V)Sr2(Ca,Sr)6Cu3Oz" V0.5Sr2.6Ca5.4Cu7.5O17.3 V 0.5 Sr 2.6 Ca 5.4 Cu 7.5 O 17.3 2000 Cu1267 A 3.8572 27.434 K 73 73 HIR40213 "high pressure synthesis (1300C, P = 6 GPa)" High-pressure synthesis and Jc-related properties of Cr- and V-based high Tc superconductors 2000 "National Institute for Research in Inorganic Materials, Tsukuba,Japan" "Physica C, 335(2000)259"
40218 CEM1782274 not SC "CoSr2(Y,Ce)2Cu2O9" Co1Sr2Y1.5Ce0.5Cu2O9 Co 1 Sr 2 Y 1.5 Ce 0.5 Cu 2 O 9 2005 emu/mol 0.0002 M/mol 5.12 -311 43 Co1222 Cmcm A 28.1548 5.4255 5.4013 K 10 "Y2O3,CeO2,SrCO3,Co3O4,CuO" 1 "mixture - pellet - heat(1000C,10h) - pellet - SIN(1100C,30h,flowing O2) - FC to RT" Doping studies of the magnetic cobaltocuprate CoSr2Y2-xCexCu2O9+-z 2005 "Chemistry Department, University of Aberdeen, Meston Walk, Aberdeen, AB24 3UE, UK" "J.Solid State Chem., 178(2006)2274"
40219 CEM1782274 not SC "CoSr2(Y,Ce)2Cu2O9" Co1Sr2Y1.4Ce0.6Cu2O9 Co 1 Sr 2 Y 1.4 Ce 0.6 Cu 2 O 9 2005 emu/mol 0.0007 M/mol 5.23 -344 48 Co1222 Cmcm A 28.1548 5.4281 5.4035 K 10 "Y2O3,CeO2,SrCO3,Co3O4,CuO" 1 "mixture - pellet - heat(1000C,10h) - pellet - SIN(1100C,30h,flowing O2) - FC to RT" Doping studies of the magnetic cobaltocuprate CoSr2Y2-xCexCu2O9+-z 2005 "Chemistry Department, University of Aberdeen, Meston Walk, Aberdeen, AB24 3UE, UK" "J.Solid State Chem., 178(2006)2274"
40220 CEM1782274 not SC "CoSr2(Y,Ce)2Cu2O9" Co1Sr2Y1.3Ce0.7Cu2O9 Co 1 Sr 2 Y 1.3 Ce 0.7 Cu 2 O 9 2005 emu/mol 0.0005 M/mol 5.29 -360 67 Co1222 Cmcm A 28.1444 5.4337 5.4054 K 10 "Y2O3,CeO2,SrCO3,Co3O4,CuO" 1 "mixture - pellet - heat(1000C,10h) - pellet - SIN(1100C,30h,flowing O2) - FC to RT" Doping studies of the magnetic cobaltocuprate CoSr2Y2-xCexCu2O9+-z 2005 "Chemistry Department, University of Aberdeen, Meston Walk, Aberdeen, AB24 3UE, UK" "J.Solid State Chem., 178(2006)2274"
40221 CEM1782274 not SC "CoSr2(Y,Ce)2Cu2O9" Co1Sr2Y1.2Ce0.8Cu2O9 Co 1 Sr 2 Y 1.2 Ce 0.8 Cu 2 O 9 2005 emu/mol 0.0007 M/mol 5.46 -370 90 Co1222 Cmcm A 28.1457 5.4375 5.4079 K 10 "Y2O3,CeO2,SrCO3,Co3O4,CuO" 1 "mixture - pellet - heat(1000C,10h) - pellet - SIN(1100C,30h,flowing O2) - FC to RT" Doping studies of the magnetic cobaltocuprate CoSr2Y2-xCexCu2O9+-z 2005 "Chemistry Department, University of Aberdeen, Meston Walk, Aberdeen, AB24 3UE, UK" "J.Solid State Chem., 178(2006)2274"
40222 CEM1783464 OZ shows 'largest possible' O-content calculated from Cu-valence (=2.45) "(Cu,Mo)Sr2YCu2O7" Mo0.25Sr2Y1Cu2.75O7+z Mo 0.25 Sr 2 Y 1 Cu 2.75 O 7+z 1 2005 Cu1212 P4/mmm A 3.815 11.47 K 88 88 "mixture - CAL(950C,in air) - SIN(1020C,in air) - high pressure oxygenated(500C,30min, P=5 GPa, with 75mol% Ag2O2)" "Hole doping and superconductivity characteristics of the s = 1, 2 and 3 members of the (Cu,Mo)-12s2 homologous series of layered copper oxides" 2005 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "J.Solid State Chem., 178(2006)3464"
40223 CEM1783464 OZ shows 'largest possible' O-content calculated from Cu-valence (=2.26) "(Cu,Mo)Sr2(Ce,Y)2Cu2O7" Mo0.25Sr2Ce0.9Y1.1Cu2.75O9+z Mo 0.25 Sr 2 Ce 0.9 Y 1.1 Cu 2.75 O 9+z 1 2005 Cu1222 I4/mmm A 3.822 14.2 K 61 61 "mixture - CAL(950C,in air) - SIN(1020C,in air) - high pressure oxygenated(500C,30min, P=5 GPa, with 75mol% Ag2O2)" "Hole doping and superconductivity characteristics of the s = 1, 2 and 3 members of the (Cu,Mo)-12s2 homologous series of layered copper oxides" 2005 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "J.Solid State Chem., 178(2006)3464"
40224 CEM1783464 OZ shows 'largest possible' O-content calculated from Cu-valence (=2.28) "(Cu,Mo)Sr2(Ce,Y)3Cu2O7" Mo0.25Sr2Ce2.01Y0.99Cu2.75O11+z Mo 0.25 Sr 2 Ce 2.01 Y 0.99 Cu 2.75 O 11+z 1 2005 Cu1232 P4/mmm A 3.828 16.92 K 53 53 "mixture - CAL(950C,in air) - SIN(1020C,in air) - high pressure oxygenated(500C,30min, P=5 GPa, with 75mol% Ag2O2)" "Hole doping and superconductivity characteristics of the s = 1, 2 and 3 members of the (Cu,Mo)-12s2 homologous series of layered copper oxides" 2005 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "J.Solid State Chem., 178(2006)3464"
40225 PRL0710283 "Tc for (Cu65,O16), (Cu65,O18), (Cu63,O16), (Cu63,O18) were measured. Tc shows for (Cu63,O16)" "(La,Sr)2CuO4" La1.875Sr0.125Cu1O4 La 1.875 Sr 0.125 Cu 1 O 4 1 1993 T K 27.84 27.84 0.91 O 86 2.51 "La2O3,SrCO3,Cu<65>O or Cu<63>O" 1 annealing in <16>O2 or <18>O2 for oxygen isotope effect Copper and Oxygen isotope effects in La2-xSrxCuO4 1993 "Department of Physics, University of Alberta, Edmonton, Alberta, Canada" "Phys.Rev.Lett., 71(1993)283"
40226 PRL0710283 "Tc for (Cu65,O16), (Cu65,O18), (Cu63,O16), (Cu63,O18) were measured. Tc shows for (Cu63,O16)" "(La,Sr)2CuO4" La1.875Sr0.125Cu1O4 La 1.875 Sr 0.125 Cu 1 O 4 1 1993 T K 27.84 27.84 0.93 Cu 100 0.84 "La2O3,SrCO3,Cu<65>O or Cu<63>O" 1 annealing in <16>O2 or <18>O2 for oxygen isotope effect Copper and Oxygen isotope effects in La2-xSrxCuO4 1993 "Department of Physics, University of Alberta, Edmonton, Alberta, Canada" "Phys.Rev.Lett., 71(1993)283"
40227 PRL0710283 "Tc for (Cu65,O16), (Cu65,O18), (Cu63,O16), (Cu63,O18) were measured. Tc shows for (Cu63,O16)" "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1993 T K 37.94 37.94 0.11 O 92 0.41 "La2O3,SrCO3,Cu<65>O or Cu<63>O" 1 annealing in <16>O2 or <18>O2 for oxygen isotope effect Copper and Oxygen isotope effects in La2-xSrxCuO4 1993 "Department of Physics, University of Alberta, Edmonton, Alberta, Canada" "Phys.Rev.Lett., 71(1993)283"
40228 PRL0710283 "Tc for (Cu65,O16), (Cu65,O18), (Cu63,O16), (Cu63,O18) were measured. Tc shows for (Cu63,O16)" "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1993 T K 37.94 37.94 0.15 Cu 100 0.14 "La2O3,SrCO3,Cu<65>O or Cu<63>O" 1 annealing in <16>O2 or <18>O2 for oxygen isotope effect Copper and Oxygen isotope effects in La2-xSrxCuO4 1993 "Department of Physics, University of Alberta, Edmonton, Alberta, Canada" "Phys.Rev.Lett., 71(1993)283"
40229 PR06109257 no Cu isotope effect in Cu(2) mode Raman at RT. Tc by magnetization YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 2000 Y124 K 81.6 81.6 0.098 Cu 0.25 1 "standard solid state reaction. heat(945C, P=60 bar O2)" Contrasting oxygen and copper isotope effects in YBa2Cu4O8 superconducting and normal states 2000 4 "2. Physikalisches Institut, Universitat Stuttgart, Pfafffenwaldring 57, D-70569 Stuttgart, Germany" "Phys.Rev.B,61(2000)R9257-R9260"
40230 L092057602 PPENET(O<18>) = 155.82 nm. d(PPENET)/PPENET = 2.8 %. Isotope effect mainly from in-plane oxygen. YBa2Cu3O7 Y1Ba2Cu3O6.85 Y 1 Ba 2 Cu 3 O 7-z 6.85 2004 Y123 K 89.3 89.3 0.015 O 95 0.2 A muon-SR 1518.5 "films of 600 nm thickness. ANN(600C,25h, in O2) - slow cool (20C/h)" Direct Observation of the Oxygen Isotope Effect on the In-Plane Magnetic Field Penetration Depth in Optimally Doped YBa2Cu3O7-z 2004 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057, Switzerland" "Phys.Rev.Lett., 92(2004)057602"
40231 PHC2980203 "(Y,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O7 Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7 1 1998 Y123 K 73.2 73.2 0.09 Cu 0.2 "mixture - pellet - CAL(950C,15h,in flowing O2) - pellet - SIN(950C,15h,in flowing O2) - slow cool to 400C - ANN(500C,10h,in O2)" Copper isotope shifts in Pr and La substituted 123 and 124 cuprate superconductors; comparison with oxygen isotope shifts 1998 4 "Morris research, Inc, 44 Marguerita Road, Berkeley, CA 96707, USA" "Physica.C,298(1998)203-208"
40232 PHC2980203 "(Y,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3O7 Y 0.7 Pr 0.3 Ba 2 Cu 3 O 7 1 1998 Y123 K 59.7 59.7 0.16 Cu 0.3 "mixture - pellet - CAL(950C,15h,in flowing O2) - pellet - SIN(950C,15h,in flowing O2) - slow cool to 400C - ANN(500C,10h,in O2)" Copper isotope shifts in Pr and La substituted 123 and 124 cuprate superconductors; comparison with oxygen isotope shifts 1998 4 "Morris research, Inc, 44 Marguerita Road, Berkeley, CA 96707, USA" "Physica.C,298(1998)203-208"
40233 PHC2980203 "(Y,Pr)Ba2Cu3O7" Y0.6Pr0.4Ba2Cu3O7 Y 0.6 Pr 0.4 Ba 2 Cu 3 O 7 1 1998 Y123 K 45.3 45.3 0.22 Cu 0.3 "mixture - pellet - CAL(950C,15h,in flowing O2) - pellet - SIN(950C,15h,in flowing O2) - slow cool to 400C - ANN(500C,10h,in O2)" Copper isotope shifts in Pr and La substituted 123 and 124 cuprate superconductors; comparison with oxygen isotope shifts 1998 4 "Morris research, Inc, 44 Marguerita Road, Berkeley, CA 96707, USA" "Physica.C,298(1998)203-208"
40234 PHC2980203 "(Y,Pr)Ba2Cu4O8" Y0.8Pr0.2Ba2Cu4O8 Y 0.8 Pr 0.2 Ba 2 Cu 4 O 8 1 1998 Y124 K 70.2 70.2 0.09 Cu 0.2 "mixture - pellet - CAL(950C,15h,in flowing O2) - pellet - SIN(950C,15h,in flowing O2) - slow cool to 400C - ANN(500C,10h,in O2)" Copper isotope shifts in Pr and La substituted 123 and 124 cuprate superconductors; comparison with oxygen isotope shifts 1998 4 "Morris research, Inc, 44 Marguerita Road, Berkeley, CA 96707, USA" "Physica.C,298(1998)203-208"
40235 PHC2980203 "(Y,Pr)Ba2Cu4O8" Y0.7Pr0.3Ba2Cu4O8 Y 0.7 Pr 0.3 Ba 2 Cu 4 O 8 1 1998 Y124 K 63.5 63.5 0.1 Cu 0.2 "mixture - pellet - CAL(950C,15h,in flowing O2) - pellet - SIN(950C,15h,in flowing O2) - slow cool to 400C - ANN(500C,10h,in O2)" Copper isotope shifts in Pr and La substituted 123 and 124 cuprate superconductors; comparison with oxygen isotope shifts 1998 4 "Morris research, Inc, 44 Marguerita Road, Berkeley, CA 96707, USA" "Physica.C,298(1998)203-208"
40236 PHC2980203 "Y(La,Ba)2Cu3O7" Y1La0.3Ba1.7Cu3O7 Y 1 La 0.3 Ba 1.7 Cu 3 O 7 1 1998 Y123 K 57.45 57.45 0.2 Cu 0.35 "mixture - pellet - CAL(950C,15h,in flowing O2) - pellet - SIN(950C,15h,in flowing O2) - slow cool to 400C - ANN(500C,10h,in O2)" Copper isotope shifts in Pr and La substituted 123 and 124 cuprate superconductors; comparison with oxygen isotope shifts 1998 4 "Morris research, Inc, 44 Marguerita Road, Berkeley, CA 96707, USA" "Physica.C,298(1998)203-208"
40237 PHC2980203 "Y(La,Ba)2Cu4O8" Y1La0.3Ba1.7Cu4O8 Y 1 La 0.3 Ba 1.7 Cu 4 O 8 1 1998 Y124 K 52.6 52.6 0.36 Cu 0.6 "mixture - pellet - CAL(950C,15h,in flowing O2) - pellet - SIN(950C,15h,in flowing O2) - slow cool to 400C - ANN(500C,10h,in O2)" Copper isotope shifts in Pr and La substituted 123 and 124 cuprate superconductors; comparison with oxygen isotope shifts 1998 4 "Morris research, Inc, 44 Marguerita Road, Berkeley, CA 96707, USA" "Physica.C,298(1998)203-208"
40238 P068220506 "ISOTOPE = 0.297 for in-plane oxygen. Table value of ISOTOPE is for all site O-exchange. For penetration depth, ISOTOPE = 0.56." "(Y,Pr)Ba2Cu3O7" Y0.6Pr0.4Ba2Cu3O7-z Y 0.6 Pr 0.4 Ba 2 Cu 3 O 7-z 2003 Y123 K 44.62 44.62 0.331 O 1.66 "To prepare oxygen site selective sample, two-step exchange process was applied." Site-selective oxygen isotope effect on the magnetic-field penetration depth in underdoped Y0.6Pr0.4Ba2Cu3O7-z 2003 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057, Switzerland" "Phys.Rev.B, 68(2003)220506"
40239 PHC4340053 "93% (Hg,Re)-1223,impurity phase= HgCaO2,BaCO3,CaCuO2,BaCuO2. underdoped sample(P=0.152)" "(Hg,Re)Ba2Ca2Cu3O8" Hg0.82Re0.18Ba2Ca2Cu3O8+z Hg 0.82 Re 0.18 Ba 2 Ca 2 Cu 3 O 8+z 2006 Hg1223 A 3.8545 15.6874 K 132.6 132.6 K/GPa 8 uV/K 3 TP40239 "precursor(Re-Ba-Ca-Cu-O) prepared in (5%o2+95%Ar), then mixed with HgO. heat(865C,72h) in quartz tube." Distortion of ReO6 octahedron in the Hg0.82Re0.18Ba2Ca2Cu3O8+z superconductor 2006 "Preslab?High Pressure Laboratory, UFES, Vitoria, ES 29075-910, Brazil" "Physica C, 434(2006)53"
40240 PHC4340053 "93% (Hg,Re)-1223,impurity phase= HgCaO2,BaCO3,CaCuO2,BaCuO2. optimum sample(P=0.16)" "(Hg,Re)Ba2Ca2Cu3O8" Hg0.82Re0.18Ba2Ca2Cu3O8+z Hg 0.82 Re 0.18 Ba 2 Ca 2 Cu 3 O 8+z 2006 Hg1223 A 3.8541 15.6881 K 133.2 133.2 K/GPa 1.9 uV/K 1.8 TP40240 "precursor(Re-Ba-Ca-Cu-O) prepared in (10%o2+90%Ar), then mixed with HgO. heat(865C,72h) in quartz tube." Distortion of ReO6 octahedron in the Hg0.82Re0.18Ba2Ca2Cu3O8+z superconductor 2006 "Preslab?High Pressure Laboratory, UFES, Vitoria, ES 29075-910, Brazil" "Physica C, 434(2006)53"
40241 PHC4340053 "93% (Hg,Re)-1223,impurity phase= HgCaO2,BaCO3,CaCuO2,BaCuO2. overdoped sample(P=0.167)" "(Hg,Re)Ba2Ca2Cu3O8" Hg0.82Re0.18Ba2Ca2Cu3O8+z Hg 0.82 Re 0.18 Ba 2 Ca 2 Cu 3 O 8+z 2006 Hg1223 A 3.8544 15.6891 K 132.7 132.7 K/GPa -1.6 uV/K 0.5 TP40241 "precursor(Re-Ba-Ca-Cu-O) prepared in (15%o+85%Ar), then mixed with HgO. heat(865C,72h) in quartz tube." Distortion of ReO6 octahedron in the Hg0.82Re0.18Ba2Ca2Cu3O8+z superconductor 2006 "Preslab?High Pressure Laboratory, UFES, Vitoria, ES 29075-910, Brazil" "Physica C, 434(2006)53"
40242 PHC4340121 "ANN(1000C,3d). AlB2phase + Si" CaCuxSiy Ca1Cu0.25Si1.7 Ca 1 Cu 0.25 Si 1.7 2006 AlB2 A 3.9937 4.3634 K 3.2 3.2 3.2 Oe 40 2 kOe 9.5 2 "arc-melting - ANN(800-100C, in quartz tube) - water quench to RT" "Superconductivity in the copper-poor region of the Ca(Cu,Si)2-x system" 2006 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62102, Taiwan, ROC" "Physica C, 434(2006)121"
40243 PHC4340121 "ANN(1000C,3d). AlB2phase + Si" CaCuxSiy Ca1Cu0.25Si1.75 Ca 1 Cu 0.25 Si 1.75 2006 AlB2 A 3.9971 4.3463 K 3.1 3.1 3.1 "arc-melting - ANN(800-100C, in quartz tube) - water quench to RT" "Superconductivity in the copper-poor region of the Ca(Cu,Si)2-x system" 2006 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62102, Taiwan, ROC" "Physica C, 434(2006)121"
40244 PHC4340121 "ANN(1000C,3d). AlB2phase + Si" CaCuxSiy Ca1Cu0.33Si1.67 Ca 1 Cu 0.33 Si 1.67 2006 AlB2 A 4.0159 4.3532 K 2.3 2.3 2.3 "arc-melting - ANN(800-100C, in quartz tube) - water quench to RT" "Superconductivity in the copper-poor region of the Ca(Cu,Si)2-x system" 2006 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62102, Taiwan, ROC" "Physica C, 434(2006)121"
40245 PHC4340121 "ANN(1000C,3d). AlB2phase" CaCuxSiy Ca1Cu0.25Si1.55 Ca 1 Cu 0.25 Si 1.55 2006 AlB2 A 3.9862 4.3343 K 2.9 2.9 2.9 "arc-melting - ANN(800-100C, in quartz tube) - water quench to RT" "Superconductivity in the copper-poor region of the Ca(Cu,Si)2-x system" 2006 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62102, Taiwan, ROC" "Physica C, 434(2006)121"
40246 PHC4340121 "ANN(1000C,3d). AlB2phase" CaCuxSiy Ca1Cu0.25Si1.6 Ca 1 Cu 0.25 Si 1.6 2006 AlB2 A 3.9937 4.3423 K 3 3 3 "arc-melting - ANN(800-100C, in quartz tube) - water quench to RT" "Superconductivity in the copper-poor region of the Ca(Cu,Si)2-x system" 2006 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62102, Taiwan, ROC" "Physica C, 434(2006)121"
40247 P073014515 Tc by SP-heat. lower-Tc = 1.724 K. (dC/Tc) = 788 mJ/mol.K2. PrOs4Sb12 Pr1Os4Sb12 Pr 1 Os 4 Sb 12 3 2006 skutterudite K 1.81 1.81 Sb-flux method Collective heavy-fermion state and superconductivity in Pr1-xLaxOs4Sb12: A specific heat study 2006 "Department of Physics, University of Florida, P.O. Box 118440, Gainesville, Florida 32611-8440, USA" "Phys.Rev.B, 73(2006)014515"
40248 P073014515 Tc by SP-heat. lower-Tc = 1.714 K. (dC/Tc) = 624 mJ/mol.K2. "(Pr,La)Os4Sb12" Pr0.98La0.02Os4Sb12 Pr 0.98 La 0.02 Os 4 Sb 12 3 2006 skutterudite K 1.8 1.8 Sb-flux method Collective heavy-fermion state and superconductivity in Pr1-xLaxOs4Sb12: A specific heat study 2006 "Department of Physics, University of Florida, P.O. Box 118440, Gainesville, Florida 32611-8440, USA" "Phys.Rev.B, 73(2006)014515"
40249 P073014515 Tc by SP-heat. lower-Tc = 1.697 K. (dC/Tc) = 560 mJ/mol.K2. "(Pr,La)Os4Sb12" Pr0.95La0.05Os4Sb12 Pr 0.95 La 0.05 Os 4 Sb 12 3 2006 skutterudite K 1.79 1.79 Sb-flux method Collective heavy-fermion state and superconductivity in Pr1-xLaxOs4Sb12: A specific heat study 2006 "Department of Physics, University of Florida, P.O. Box 118440, Gainesville, Florida 32611-8440, USA" "Phys.Rev.B, 73(2006)014515"
40250 P073014515 Tc by SP-heat. (dC/Tc) = 417 mJ/mol.K2. "(Pr,La)Os4Sb12" Pr0.9La0.1Os4Sb12 Pr 0.9 La 0.1 Os 4 Sb 12 3 2006 skutterudite K 1.7 1.7 Sb-flux method Collective heavy-fermion state and superconductivity in Pr1-xLaxOs4Sb12: A specific heat study 2006 "Department of Physics, University of Florida, P.O. Box 118440, Gainesville, Florida 32611-8440, USA" "Phys.Rev.B, 73(2006)014515"
40251 P073014515 Tc by SP-heat. (dC/Tc) = 226 mJ/mol.K2. "(Pr,La)Os4Sb12" Pr0.8La0.2Os4Sb12 Pr 0.8 La 0.2 Os 4 Sb 12 3 2006 skutterudite K 1.645 1.645 Sb-flux method Collective heavy-fermion state and superconductivity in Pr1-xLaxOs4Sb12: A specific heat study 2006 "Department of Physics, University of Florida, P.O. Box 118440, Gainesville, Florida 32611-8440, USA" "Phys.Rev.B, 73(2006)014515"
40252 P073014515 Tc by SP-heat. (dC/Tc) = 110 mJ/mol.K2. "(Pr,La)Os4Sb12" Pr0.7La0.3Os4Sb12 Pr 0.7 La 0.3 Os 4 Sb 12 3 2006 skutterudite K 1.528 1.528 Sb-flux method Collective heavy-fermion state and superconductivity in Pr1-xLaxOs4Sb12: A specific heat study 2006 "Department of Physics, University of Florida, P.O. Box 118440, Gainesville, Florida 32611-8440, USA" "Phys.Rev.B, 73(2006)014515"
40253 P073014515 Tc by SP-heat. (dC/Tc) = 110 mJ/mol.K2. "(Pr,La)Os4Sb12" Pr0.6La0.4Os4Sb12 Pr 0.6 La 0.4 Os 4 Sb 12 3 2006 skutterudite K 1.414 1.414 Sb-flux method Collective heavy-fermion state and superconductivity in Pr1-xLaxOs4Sb12: A specific heat study 2006 "Department of Physics, University of Florida, P.O. Box 118440, Gainesville, Florida 32611-8440, USA" "Phys.Rev.B, 73(2006)014515"
40254 P073014515 Tc by SP-heat. (dC/Tc) = 73.8 mJ/mol.K2. "(Pr,La)Os4Sb12" Pr0.4La0.6Os4Sb12 Pr 0.4 La 0.6 Os 4 Sb 12 3 2006 skutterudite K 1.172 1.172 Sb-flux method Collective heavy-fermion state and superconductivity in Pr1-xLaxOs4Sb12: A specific heat study 2006 "Department of Physics, University of Florida, P.O. Box 118440, Gainesville, Florida 32611-8440, USA" "Phys.Rev.B, 73(2006)014515"
40255 P073014515 Tc by SP-heat. (dC/Tc) = 88.1 mJ/mol.K2. "(Pr,La)Os4Sb12" Pr0.2La0.8Os4Sb12 Pr 0.2 La 0.8 Os 4 Sb 12 3 2006 skutterudite K 0.903 0.903 Sb-flux method Collective heavy-fermion state and superconductivity in Pr1-xLaxOs4Sb12: A specific heat study 2006 "Department of Physics, University of Florida, P.O. Box 118440, Gainesville, Florida 32611-8440, USA" "Phys.Rev.B, 73(2006)014515"
40256 P073014515 Tc by SP-heat. (dC/Tc) = 85.7 mJ/mol.K2. LaOs4Sb12 La1Os4Sb12 La 1 Os 4 Sb 12 3 2006 skutterudite K 0.741 0.741 Sb-flux method Collective heavy-fermion state and superconductivity in Pr1-xLaxOs4Sb12: A specific heat study 2006 "Department of Physics, University of Florida, P.O. Box 118440, Gainesville, Florida 32611-8440, USA" "Phys.Rev.B, 73(2006)014515"
40257 P073014517 "RuSr2(Eu,Ce)2Cu2O10" Ru1Sr2Eu1.5Ce0.5Cu2O10-z Ru 1 Sr 2 Eu 1.5 Ce 0.5 Cu 2 O 10-z 1 2006 140 Ru1222 I4/mmm A 3.835 28.493 K 33 33 "RuO2,SrO2,Eu2O3,CeO2,CuO,Mo2O3" 1 "mixture - CAL(1000,1020,1040C, 24h) - pellet - ANN(1075C,40h,in flowing O2) - slow cooling to RT - ANN(400C,24h, in O2 flow) - slow cooling to RT" Experimental study of the magnetosuperconductor RuSr2Eu1.5Ce0.5Cu2O10-z : Effect of Mo doping on magnetic behavior and Tc variation 2006 "National Physical Laboratory, Dr. K.S. Kirishnan Marg, New Delhi-110012, India" "Phys.Rev.B, 73(2006)014517"
40258 P073014517 "(Ru,Mo)Sr2(Eu,Ce)2Cu2O10" Ru0.8Mo0.2Sr2Eu1.5Ce0.5Cu2O10-z Ru 0.8 Mo 0.2 Sr 2 Eu 1.5 Ce 0.5 Cu 2 O 10-z 1 2006 135 Ru1222 I4/mmm K 37.5 37.5 "RuO2,SrO2,Eu2O3,CeO2,CuO,Mo2O3" 1 "mixture - CAL(1000,1020,1040C, 24h) - pellet - ANN(1075C,40h,in flowing O2) - slow cooling to RT - ANN(400C,24h, in O2 flow) - slow cooling to RT" Experimental study of the magnetosuperconductor RuSr2Eu1.5Ce0.5Cu2O10-z : Effect of Mo doping on magnetic behavior and Tc variation 2006 "National Physical Laboratory, Dr. K.S. Kirishnan Marg, New Delhi-110012, India" "Phys.Rev.B, 73(2006)014517"
40259 P073014517 "(Ru,Mo)Sr2(Eu,Ce)2Cu2O10" Ru0.8Mo0.4Sr2Eu1.5Ce0.5Cu2O10-z Ru 0.8 Mo 0.4 Sr 2 Eu 1.5 Ce 0.5 Cu 2 O 10-z 1 2006 120 Ru1222 I4/mmm K 40 40 "RuO2,SrO2,Eu2O3,CeO2,CuO,Mo2O3" 1 "mixture - CAL(1000,1020,1040C, 24h) - pellet - ANN(1075C,40h,in flowing O2) - slow cooling to RT - ANN(400C,24h, in O2 flow) - slow cooling to RT" Experimental study of the magnetosuperconductor RuSr2Eu1.5Ce0.5Cu2O10-z : Effect of Mo doping on magnetic behavior and Tc variation 2006 "National Physical Laboratory, Dr. K.S. Kirishnan Marg, New Delhi-110012, India" "Phys.Rev.B, 73(2006)014517"
40260 P073014517 "(Ru,Mo)Sr2(Eu,Ce)2Cu2O10" Ru0.8Mo0.6Sr2Eu1.5Ce0.5Cu2O10-z Ru 0.8 Mo 0.6 Sr 2 Eu 1.5 Ce 0.5 Cu 2 O 10-z 1 2006 100 Ru1222 I4/mmm K 23 23 "RuO2,SrO2,Eu2O3,CeO2,CuO,Mo2O3" 1 "mixture - CAL(1000,1020,1040C, 24h) - pellet - ANN(1075C,40h,in flowing O2) - slow cooling to RT - ANN(400C,24h, in O2 flow) - slow cooling to RT" Experimental study of the magnetosuperconductor RuSr2Eu1.5Ce0.5Cu2O10-z : Effect of Mo doping on magnetic behavior and Tc variation 2006 "National Physical Laboratory, Dr. K.S. Kirishnan Marg, New Delhi-110012, India" "Phys.Rev.B, 73(2006)014517"
40261 P073014517 not SC "(Ru,Mo)Sr2(Eu,Ce)2Cu2O10" Ru0.8Mo0.8Sr2Eu1.5Ce0.5Cu2O10-z Ru 0.8 Mo 0.8 Sr 2 Eu 1.5 Ce 0.5 Cu 2 O 10-z 1 2006 Ru1222 I4/mmm K 1.2 "RuO2,SrO2,Eu2O3,CeO2,CuO,Mo2O3" 1 "mixture - CAL(1000,1020,1040C, 24h) - pellet - ANN(1075C,40h,in flowing O2) - slow cooling to RT - ANN(400C,24h, in O2 flow) - slow cooling to RT" Experimental study of the magnetosuperconductor RuSr2Eu1.5Ce0.5Cu2O10-z : Effect of Mo doping on magnetic behavior and Tc variation 2006 "National Physical Laboratory, Dr. K.S. Kirishnan Marg, New Delhi-110012, India" "Phys.Rev.B, 73(2006)014517"
40262 P073014517 not SC "MoSr2(Eu,Ce)2Cu2O10" Mo1Sr2Eu1.5Ce0.5Cu2O10-z Mo 1 Sr 2 Eu 1.5 Ce 0.5 Cu 2 O 10-z 1 2006 Ru1222 I4/mmm A 3.843 28.4653 K 1.2 "RuO2,SrO2,Eu2O3,CeO2,CuO,Mo2O3" 1 "mixture - CAL(1000,1020,1040C, 24h) - pellet - ANN(1075C,40h,in flowing O2) - slow cooling to RT - ANN(400C,24h, in O2 flow) - slow cooling to RT" Experimental study of the magnetosuperconductor RuSr2Eu1.5Ce0.5Cu2O10-z : Effect of Mo doping on magnetic behavior and Tc variation 2006 "National Physical Laboratory, Dr. K.S. Kirishnan Marg, New Delhi-110012, India" "Phys.Rev.B, 73(2006)014517"
40263 P073024512 "Tc = 6.25-4.3*x for YB6+x. RRR=3.87. (dC/gamma*Tc) = 2.02. G-L(Tc) = 3.0. surface SC, Hc3 = 640 mT from resistivity." YB6 B6Y1 B 6 Y 1 2006 A 4.1002 K 7.15 7.15 K/GPa -0.53 mT 20 mT 295 mT/K 59 HC40263 4.1 SP40263 mJ/gat.K2 0.58 SP-heat 706 "Superconductivity mediated by a soft phonon mode: Specific heat, resistivity, thermal expansion, and magnetization of YB6" 2006 "Department of Condensed Matter Physics, University of Geneva, CH-1211 Geneva 4, Switzerland" "Phys.Rev.B, 73(2006)024512"
40264 PRL0431892 Tc = 0.49 K for specific heat measurement. CeCu2Si2 Ce1Cu2Si2 Ce 1 Cu 2 Si 2 1 1979 ThCr2Si2 K 0.63 0.63 SP40264 induction heating in Ar Superconductivity in presence of strong Pauli paramagnetism: CeCu2Si2 1979 "Phys.Rev.Lett., 43(1979)1892"
40265 PRL0431892 LaCu2Si2 La1Cu2Si2 La 1 Cu 2 Si 2 1 1979 ThCr2Si2 K 0.05 induction heating in Ar Superconductivity in presence of strong Pauli paramagnetism: CeCu2Si2 1979 "Phys.Rev.Lett., 43(1979)1892"
40266 PRL0571619 nearly hydrostatic P. Tc defined as 10% change. UBe13 Be13U1 Be 13 U 1 1 1986 K 0.95 0.95 TC40266 K/GPa 0.16 arc-melting Superconductivity under pressure in (U1-xThx)Be13: Evidence for two superconducting states 1986 "Phys.Rev.Lett., 57(1986)1619"
40267 PRL0571619 nearly hydrostatic P. Tc defined as 10% change. "(U,Th)Be13" U0.9911Th0.0089Be13 U 0.9911 Th 0.0089 Be 13 1 1986 K 0.66 0.66 TC40266 K/GPa 0.16 arc-melting Superconductivity under pressure in (U1-xThx)Be13: Evidence for two superconducting states 1986 "Phys.Rev.Lett., 57(1986)1619"
40268 PRL0571619 nearly hydrostatic P. Tc defined as 10% change. "(U,Th)Be13" U0.9981Th0.019Be13 U 0.9981 Th 0.019 Be 13 1 1986 K 0.573 0.573 TC40268 K/GPa 0.5 arc-melting Superconductivity under pressure in (U1-xThx)Be13: Evidence for two superconducting states 1986 "Phys.Rev.Lett., 57(1986)1619"
40269 PRL0571619 nearly hydrostatic P. Tc defined as 10% change. "(U,Th)Be13" U0.974Th0.026Be13 U 0.974 Th 0.026 Be 13 1 1986 K 0.58 0.58 TC40268 K/GPa 0.5 arc-melting Superconductivity under pressure in (U1-xThx)Be13: Evidence for two superconducting states 1986 "Phys.Rev.Lett., 57(1986)1619"
40270 PRL0571619 nearly hydrostatic P. Tc defined as 10% change. "(U,Th)Be13" U0.97Th0.03Be13 U 0.97 Th 0.03 Be 13 1 1986 K 0.623 0.623 TC40270 K/GPa arc-melting Superconductivity under pressure in (U1-xThx)Be13: Evidence for two superconducting states 1986 "Phys.Rev.Lett., 57(1986)1619"
40271 PRL0571619 nearly hydrostatic P. Tc defined as 10% change. "(U,Th)Be13" U0.9622Th0.0378Be13 U 0.9622 Th 0.0378 Be 13 1 1986 K 0.557 0.557 TC40270 K/GPa arc-melting Superconductivity under pressure in (U1-xThx)Be13: Evidence for two superconducting states 1986 "Phys.Rev.Lett., 57(1986)1619"
40272 PRL0571619 nearly hydrostatic P. Tc defined as 10% change. "(U,Th)Be13" U0.9397Th0.0603Be13 U 0.9397 Th 0.0603 Be 13 1 1986 K 0.344 0.344 TC40270 K/GPa 0.13 arc-melting Superconductivity under pressure in (U1-xThx)Be13: Evidence for two superconducting states 1986 "Phys.Rev.Lett., 57(1986)1619"
40273 PR04602958 residual resistivity from best fitting of R(T) Sc5Ir4Si10 Sc5Ir4Si10 Sc 5 Ir 4 Si 10 1992 2 Sc5Co4Si10 A 12.3158 4.076 K 8.5 8.5 391.59 curve fitting of R(T) uOhm.cm 12.8 arc-melting Magnetism and superconductivity in Sc5-xDyxIr4Si10 alloys 1992 "Tata Institute of Fundamental Research, Bombay,India" "Phys.Rev.B, 46(1992)2958"
40274 PR04602958 residual resistivity from best fitting of R(T) "(Sc,Dy)5Ir4Si10" Sc4.5Dy0.5Ir4Si10 Sc 4.5 Dy 0.5 Ir 4 Si 10 1992 2 Sc5Co4Si10 A 12.3391 4.0917 K 6.95 6.95 363.3 curve fitting of R(T) uOhm.cm 20.22 arc-melting Magnetism and superconductivity in Sc5-xDyxIr4Si10 alloys 1992 "Tata Institute of Fundamental Research, Bombay,India" "Phys.Rev.B, 46(1992)2958"
40275 PR04602958 residual resistivity from best fitting of R(T) "(Sc,Dy)5Ir4Si10" Sc4Dy1Ir4Si10 Sc 4 Dy 1 Ir 4 Si 10 1992 2 Sc5Co4Si10 A 12.3632 4.1066 K 5.95 5.95 356.9 curve fitting of R(T) uOhm.cm 40.95 arc-melting Magnetism and superconductivity in Sc5-xDyxIr4Si10 alloys 1992 "Tata Institute of Fundamental Research, Bombay,India" "Phys.Rev.B, 46(1992)2958"
40276 PR04602958 "(Sc,Dy)5Ir4Si10" Sc3.5Dy1.5Ir4Si10 Sc 3.5 Dy 1.5 Ir 4 Si 10 1992 3.22 2 Sc5Co4Si10 A 12.3881 4.1215 K 3.93 3.93 arc-melting Magnetism and superconductivity in Sc5-xDyxIr4Si10 alloys 1992 "Tata Institute of Fundamental Research, Bombay,India" "Phys.Rev.B, 46(1992)2958"
40277 PR04602958 "(Sc,Dy)5Ir4Si10" Sc3Dy2Ir4Si10 Sc 3 Dy 2 Ir 4 Si 10 1992 11 3.5 2 Sc5Co4Si10 A 12.4139 4.1364 K 2 arc-melting Magnetism and superconductivity in Sc5-xDyxIr4Si10 alloys 1992 "Tata Institute of Fundamental Research, Bombay,India" "Phys.Rev.B, 46(1992)2958"
40278 PR04602958 "(Sc,Dy)5Ir4Si10" Sc2Dy3Ir4Si10 Sc 2 Dy 3 Ir 4 Si 10 1992 13 4 2 Sc5Co4Si10 A 12.4645 4.1661 K 2 arc-melting Magnetism and superconductivity in Sc5-xDyxIr4Si10 alloys 1992 "Tata Institute of Fundamental Research, Bombay,India" "Phys.Rev.B, 46(1992)2958"
40279 PR04602958 residual resistivity from best fitting of R(T) "(Sc,Dy)5Ir4Si10" Sc1Dy4Ir4Si10 Sc 1 Dy 4 Ir 4 Si 10 1992 15.8 4.5 2 Sc5Co4Si10 A 12.5186 4.1967 K 2 309.3 curve fitting of R(T) uOhm.cm 521.4 arc-melting Magnetism and superconductivity in Sc5-xDyxIr4Si10 alloys 1992 "Tata Institute of Fundamental Research, Bombay,India" "Phys.Rev.B, 46(1992)2958"
40280 PR04602958 residual resistivity from best fitting of R(T) "(Sc,Dy)5Ir4Si10" Sc0.5Dy4.5Ir4Si10 Sc 0.5 Dy 4.5 Ir 4 Si 10 1992 4.75 2 Sc5Co4Si10 A 12.5435 4.2124 K 2 315.3 curve fitting of R(T) uOhm.cm 555 arc-melting Magnetism and superconductivity in Sc5-xDyxIr4Si10 alloys 1992 "Tata Institute of Fundamental Research, Bombay,India" "Phys.Rev.B, 46(1992)2958"
40281 PR04602958 residual resistivity from best fitting of R(T) Dy5Ir4Si10 Dy5Ir4Si10 Dy 5 Ir 4 Si 10 1992 18.1 5 2 Sc5Co4Si10 A 12.5693 4.2264 K 2 406.2 curve fitting of R(T) uOhm.cm 397 arc-melting Magnetism and superconductivity in Sc5-xDyxIr4Si10 alloys 1992 "Tata Institute of Fundamental Research, Bombay,India" "Phys.Rev.B, 46(1992)2958"
40282 PR04810440 not SC Dy5Os4Ge10 Dy5Os4Ge10 Dy 5 Os 4 Ge 10 1993 emu/mol.K 72.09 -9.2 6 2 Sc5Co4Si10 Pm3n A 13.034 4.295 K 200.5 curve fitting of R(T) "Dy(3N),Y(3N),Os(3N),Ge(5N)" arc-melting MAGNETISM AND SUPERCONDUCTIVITY IN THE Y5-XDYXOS4GE10 SYSTEM 1993 10 "PHYS.REV.B,48(1993)10440"
40283 PR04810440 not SC "(Y,Dy)5Os4Ge10" Y1Dy4Os4Ge10 Y 1 Dy 4 Os 4 Ge 10 1993 emu/mol.K 58.96 -8.1 4.8 2 Sc5Co4Si10 Pm3n A 13.0294 4.2946 K "Dy(3N),Y(3N),Os(3N),Ge(5N)" arc-melting MAGNETISM AND SUPERCONDUCTIVITY IN THE Y5-XDYXOS4GE10 SYSTEM 1993 10 "PHYS.REV.B,48(1993)10440"
40284 PR04810440 not SC "(Y,Dy)5Os4Ge10" Y1.25Dy3.75Os4Ge10 Y 1.25 Dy 3.75 Os 4 Ge 10 1993 emu/mol.K 54.88 -7.46 4.75 2 Sc5Co4Si10 Pm3n A 13.028 4.2945 K 222 curve fitting of R(T) "Dy(3N),Y(3N),Os(3N),Ge(5N)" arc-melting MAGNETISM AND SUPERCONDUCTIVITY IN THE Y5-XDYXOS4GE10 SYSTEM 1993 10 "PHYS.REV.B,48(1993)10440"
40285 PR04810440 not SC "(Y,Dy)5Os4Ge10" Y1.5Dy3.5Os4Ge10 Y 1.5 Dy 3.5 Os 4 Ge 10 1993 emu/mol.K 50.55 -7.24 4.1 2 Sc5Co4Si10 Pm3n A 13.0272 4.2944 K 224 curve fitting of R(T) "Dy(3N),Y(3N),Os(3N),Ge(5N)" arc-melting MAGNETISM AND SUPERCONDUCTIVITY IN THE Y5-XDYXOS4GE10 SYSTEM 1993 10 "PHYS.REV.B,48(1993)10440"
40286 PR04810440 "(Y,Dy)5Os4Ge10" Y2Dy3Os4Ge10 Y 2 Dy 3 Os 4 Ge 10 1993 emu/mol.K 43.72 -2.1 3.1 2 Sc5Co4Si10 Pm3n A 13.0251 4.2941 K 2.86 2.86 kOe resistive transition 3.1 HC40286 231 curve fitting of R(T) "Dy(3N),Y(3N),Os(3N),Ge(5N)" arc-melting MAGNETISM AND SUPERCONDUCTIVITY IN THE Y5-XDYXOS4GE10 SYSTEM 1993 10 "PHYS.REV.B,48(1993)10440"
40287 PR04810440 "(Y,Dy)5Os4Ge10" Y2.5Dy2.5Os4Ge10 Y 2.5 Dy 2.5 Os 4 Ge 10 1993 emu/mol.K 35.31 -1.28 2 Sc5Co4Si10 Pm3n A 13.0227 4.2938 K 3.8 3.8 "Dy(3N),Y(3N),Os(3N),Ge(5N)" arc-melting MAGNETISM AND SUPERCONDUCTIVITY IN THE Y5-XDYXOS4GE10 SYSTEM 1993 10 "PHYS.REV.B,48(1993)10440"
40288 PR04810440 "(Y,Dy)5Os4Ge10" Y3Dy2Os4Ge10 Y 3 Dy 2 Os 4 Ge 10 1993 emu/mol.K 29.53 -1.1 2 Sc5Co4Si10 Pm3n A 13.0205 4.2936 K 4.8 4.8 249.4 curve fitting of R(T) "Dy(3N),Y(3N),Os(3N),Ge(5N)" arc-melting MAGNETISM AND SUPERCONDUCTIVITY IN THE Y5-XDYXOS4GE10 SYSTEM 1993 10 "PHYS.REV.B,48(1993)10440"
40289 PR04810440 "(Y,Dy)5Os4Ge10" Y3.25Dy1.75Os4Ge10 Y 3.25 Dy 1.75 Os 4 Ge 10 1993 emu/mol.K 25.42 -0.6 2 Sc5Co4Si10 Pm3n A 13.0191 4.2935 K 5.2 5.2 kOe resistive transition 6.9 HC40289 "Dy(3N),Y(3N),Os(3N),Ge(5N)" arc-melting MAGNETISM AND SUPERCONDUCTIVITY IN THE Y5-XDYXOS4GE10 SYSTEM 1993 10 "PHYS.REV.B,48(1993)10440"
40290 PR04810440 "(Y,Dy)5Os4Ge10" Y4Dy1Os4Ge10 Y 4 Dy 1 Os 4 Ge 10 1993 emu/mol.K 14.68 -0.14 2 Sc5Co4Si10 Pm3n A 13.0163 4.2931 K 6.9 6.9 kOe resistive transition 30 241 curve fitting of R(T) "Dy(3N),Y(3N),Os(3N),Ge(5N)" arc-melting MAGNETISM AND SUPERCONDUCTIVITY IN THE Y5-XDYXOS4GE10 SYSTEM 1993 10 "PHYS.REV.B,48(1993)10440"
40291 PR04810440 Y5Os4Ge10 Y5Os4Ge10 Y 5 Os 4 Ge 10 1993 2 Sc5Co4Si10 Pm3n A 13.0121 4.2927 K 9.1 9.1 kOe resistive transition 61 234 curve fitting of R(T) uOhm.cm 150 "Dy(3N),Y(3N),Os(3N),Ge(5N)" arc-melting MAGNETISM AND SUPERCONDUCTIVITY IN THE Y5-XDYXOS4GE10 SYSTEM 1993 10 "PHYS.REV.B,48(1993)10440"
40292 PR08700799 KBi Bi1K1 Bi 1 K 1 1952 K 3.6 3.6 arc-melting A Search for New Superconducting Compounds 1952 "Institute for Study of Metals, University of Chicago, Chikago, Illinois" "Phys.Rev.B,87(1952)799"
40293 PR08700799 CaBi3 Bi3Ca1 Bi 3 Ca 1 1952 K 1.7 1.7 arc-melting A Search for New Superconducting Compounds 1952 "Institute for Study of Metals, University of Chicago, Chikago, Illinois" "Phys.Rev.B,87(1952)799"
40294 PR08700799 BaBi3 Ba1Bi3 Ba 1 Bi 3 1952 K 5.69 5.69 arc-melting A Search for New Superconducting Compounds 1952 "Institute for Study of Metals, University of Chicago, Chikago, Illinois" "Phys.Rev.B,87(1952)799"
40295 PR08700799 RhBi2 Bi2Rh1 Bi 2 Rh 1 1952 K 2.2 2.2 arc-melting A Search for New Superconducting Compounds 1952 "Institute for Study of Metals, University of Chicago, Chikago, Illinois" "Phys.Rev.B,87(1952)799"
40296 PR08700799 RhBi4 Bi4Rh1 Bi 4 Rh 1 1952 K 2.75 2.75 arc-melting A Search for New Superconducting Compounds 1952 "Institute for Study of Metals, University of Chicago, Chikago, Illinois" "Phys.Rev.B,87(1952)799"
40297 PR08700799 NiBi3 Bi3Ni1 Bi 3 Ni 1 1952 K 3.6 3.6 arc-melting A Search for New Superconducting Compounds 1952 "Institute for Study of Metals, University of Chicago, Chikago, Illinois" "Phys.Rev.B,87(1952)799"
40298 PR08700799 ZrN N1Zr1 N 1 Zr 1 1952 K 9.05 9.05 arc-melting A Search for New Superconducting Compounds 1952 "Institute for Study of Metals, University of Chicago, Chikago, Illinois" "Phys.Rev.B,87(1952)799"
40299 PR08700799 VN N1V1 N 1 V 1 1952 K 7.5 7.5 arc-melting A Search for New Superconducting Compounds 1952 "Institute for Study of Metals, University of Chicago, Chikago, Illinois" "Phys.Rev.B,87(1952)799"
40300 PR08700799 Mo2C C1Mo2 C 1 Mo 2 1952 K 2.78 2.78 arc-melting A Search for New Superconducting Compounds 1952 "Institute for Study of Metals, University of Chicago, Chikago, Illinois" "Phys.Rev.B,87(1952)799"
40301 PR08700799 W2C C1W2 C 1 W 2 1952 K 2.74 2.74 arc-melting A Search for New Superconducting Compounds 1952 "Institute for Study of Metals, University of Chicago, Chikago, Illinois" "Phys.Rev.B,87(1952)799"
40302 PR08700799 Mo2B B1Mo2 B 1 Mo 2 1952 K 4.74 4.74 arc-melting A Search for New Superconducting Compounds 1952 "Institute for Study of Metals, University of Chicago, Chikago, Illinois" "Phys.Rev.B,87(1952)799"
40303 PR08700799 gamma-Mo2N Mo2N1 Mo 2 N 1 1952 K 5 5 arc-melting A Search for New Superconducting Compounds 1952 "Institute for Study of Metals, University of Chicago, Chikago, Illinois" "Phys.Rev.B,87(1952)799"
40304 PR08700799 delta-MoN Mo1N1 Mo 1 N 1 1952 3 K 12 12 arc-melting A Search for New Superconducting Compounds 1952 "Institute for Study of Metals, University of Chicago, Chikago, Illinois" "Phys.Rev.B,87(1952)799"
40305 CHM0175935 "T(sub)=973 K, dep. rate = 54 nm/h, thickness = 108 nm," beta-Mo2N Mo2N1 Mo 2 N 1 5 2005 2 K 5.2 5.2 pulsed laser deposition (P0=1.0 E-8 Torr). substrate = alpha-Al2O3 (001). radiation of N-radical Synthesis and characterization of superconducting beta-Mo2N crystalline phase on a Si substrate: An application of pulsed laser deposition to nitride chemistry 2005 "Department of Applied Chemistry, Hiroshima University, Higashi-Hiroshima, Japan" "Chem.Mater., 17(2005)5935"
40306 P073052504 "T(sub)=973 K, dep. rate = 8.2 nm/h, thickness = 49 nm, x = 0.86 in MoNx. distortion angle(alpha) = 89.41" MoN Mo1N1 Mo 1 N 1 5 2006 NaCl A 4.184 "NaCl, B1," K 4.2 4.2 pulsed laser deposition (P0=1.0 E-8 Torr). substrate = alpha-Al2O3 (001). radiation of N-radical Structural distortion and suppression of superconductivity in stoichiometric B1-MoN epitaxial thin films 2006 "Department of Applied Chemistry, Hiroshima University, Higashi-Hiroshima, Japan" "Phys.Rev.B, 73(2006)052504"
40307 JSC0090323 100 % (NH3) intercalation Sr0.2(NH3)yTaS2 Sr0.2Ta1S2 Sr 0.2 Ta 1 S 2 1974 2H-MoS2 "2H-MoS2, C7,hP6" K 2.8 2.8 alkaline earth metal and Y were intercalated to layered transition metal dichalcogenides in liquid ammonia. Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.Solid State Chem., 9(1974)323"
40308 JSC0090323 40 % (NH3) intercalation Sr0.2(NH3)yMoS2 Sr0.2Mo1S2 Sr 0.2 Mo 1 S 2 1974 2H-MoS2 "2H-MoS2, C7,hP6" K 5.1 5.1 alkaline earth metal and Y were intercalated to layered transition metal dichalcogenides in liquid ammonia. Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.Solid State Chem., 9(1974)323"
40309 JSC0090323 40 % (NH3) intercalation Sr0.2(NH3)yWS2 Sr0.2W1S2 Sr 0.2 W 1 S 2 1974 2H-MoS2 "2H-MoS2, C7,hP6" K 3.5 3.5 alkaline earth metal and Y were intercalated to layered transition metal dichalcogenides in liquid ammonia. Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.Solid State Chem., 9(1974)323"
40310 JSC0090323 70 % (NH3) intercalation Ca0.2(NH3)yMoS2 Ca0.2Mo1S2 Ca 0.2 Mo 1 S 2 1974 3R-MoS2 "3R-MoS2, , hR9" K 3.6 3.6 alkaline earth metal and Y were intercalated to layered transition metal dichalcogenides in liquid ammonia. Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.Solid State Chem., 9(1974)323"
40311 JSC0090323 15 % (NH3) intercalation Ba0.2(NH3)yMoS2 Ba0.2Mo1S2 Ba 0.2 Mo 1 S 2 1974 3R-MoS2 "3R-MoS2, , hR9" K 5.7 5.7 alkaline earth metal and Y were intercalated to layered transition metal dichalcogenides in liquid ammonia. Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.Solid State Chem., 9(1974)323"
40312 JSC0090323 30 % (NH3) intercalation Yb0.2(NH3)yMoS2 Yb0.2Mo1S2 Yb 0.2 Mo 1 S 2 1974 3R-MoS2 "3R-MoS2, , hR9" K 2.4 2.4 alkaline earth metal and Y were intercalated to layered transition metal dichalcogenides in liquid ammonia. Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.Solid State Chem., 9(1974)323"
40313 JSC0090323 60 % (NH3) intercalation Sr0.2(NH3)yMoSe2 Sr0.2Mo1Se2 Sr 0.2 Mo 1 Se 2 1974 2H-MoS2 "2H-MoS2, C7,hP6" K 5 5 alkaline earth metal and Y were intercalated to layered transition metal dichalcogenides in liquid ammonia. Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.Solid State Chem., 9(1974)323"
40314 JSC0090323 40 % (NH3) intercalation. SC transition is not clear. Sr0.2(NH3)yWSe2 Sr0.2W1Se2 Sr 0.2 W 1 Se 2 1974 2H-MoS2 "2H-MoS2, C7,hP6" K 1.4 1.4 alkaline earth metal and Y were intercalated to layered transition metal dichalcogenides in liquid ammonia. Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.Solid State Chem., 9(1974)323"
40315 JPS0740851 "not SC. reaction(720C,2d)" "(SnS)1+z(Ta,S2)2" Sn1.16Ta2S5.16 Sn 1.16 Ta 2 S 5.16 2005 A 17.75 K 2 "stoichiometric(M,Ta,S) - mixed and press with delta= 0.14(Pb), 0.08(Bi), 0.16(Sn,Sb) - reaction (720 or 800C,2d, in quartz ampoule)" Enhanced Superconducting Transition Temperature in the Water-intercalated Sulfides 2005 "Department of Advanced Materials Science, University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba ,Japan" "J.Phys.Soc.Jpn, 74(2005)851"
40316 JPS0740851 "orthorhombic. reaction(720C,2d)." "(PbS)1+z(Ta,S2)2" Pb1.14Ta2S5.14 Pb 1.14 Ta 2 S 5.14 2005 3 A 17.97 K 3.3 3.3 "stoichiometric(M,Ta,S) - mixed and press with delta= 0.14(Pb), 0.08(Bi), 0.16(Sn,Sb) - reaction (720 or 800C,2d, in quartz ampoule)" Enhanced Superconducting Transition Temperature in the Water-intercalated Sulfides 2005 "Department of Advanced Materials Science, University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba ,Japan" "J.Phys.Soc.Jpn, 74(2005)851"
40317 JPS0740851 "reaction(800C,2d)" "(SbS)1+z(Ta,S2)2" Sb1.16Ta2S5.16 Sb 1.16 Ta 2 S 5.16 2005 A 17.51 K 3 3 "stoichiometric(M,Ta,S) - mixed and press with delta= 0.14(Pb), 0.08(Bi), 0.16(Sn,Sb) - reaction (720 or 800C,2d, in quartz ampoule)" Enhanced Superconducting Transition Temperature in the Water-intercalated Sulfides 2005 "Department of Advanced Materials Science, University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba ,Japan" "J.Phys.Soc.Jpn, 74(2005)851"
40318 JPS0740851 "monoclinic. reaction(720C,2d)" "(BiS)1+z(Ta,S2)2" Bi1.08Ta2S5.08 Bi 1.08 Ta 2 S 5.08 2005 A 17.48 K 2.7 2.7 "stoichiometric(M,Ta,S) - mixed and press with delta= 0.14(Pb), 0.08(Bi), 0.16(Sn,Sb) - reaction (720 or 800C,2d, in quartz ampoule)" Enhanced Superconducting Transition Temperature in the Water-intercalated Sulfides 2005 "Department of Advanced Materials Science, University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba ,Japan" "J.Phys.Soc.Jpn, 74(2005)851"
40319 JPS0740851 Na-content = 0.6 - 0.7. (HO)-content y = nearly 2. Nax(H2O)y(SnS)1+z(TaS2)2 Na0.6Sn1Ta2S5 Na 0.6 Sn 1 Ta 2 S 5 2005 A 23.78 K 4 4 hydration by topotactic reaction. samples were plaxed in 0.2 - 0.4M Na2S2O4 aqueous solution for several minutes at RT. Enhanced Superconducting Transition Temperature in the Water-intercalated Sulfides 2005 "Department of Advanced Materials Science, University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba ,Japan" "J.Phys.Soc.Jpn, 74(2005)851"
40320 JPS0740851 Na-content = 0.3 -0.5. (HO)-content y = nearly 2. Nax(H2O)y(PbS)1+z(TaS2)2 Na0.3Pb1Ta2S5 Na 0.3 Pb 1 Ta 2 S 5 2005 A 23.91 K 3.7 3.7 hydration by topotactic reaction. samples were plaxed in 0.2 - 0.4M Na2S2O4 aqueous solution for several minutes at RT. Enhanced Superconducting Transition Temperature in the Water-intercalated Sulfides 2005 "Department of Advanced Materials Science, University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba ,Japan" "J.Phys.Soc.Jpn, 74(2005)851"
40321 JPS0740851 Na-content = 0.3 -0.5. (HO)-content y = nearly 2. Nax(H2O)y(SbS)1+z(TaS2)2 Na0.3Sb1Ta2S5 Na 0.3 Sb 1 Ta 2 S 5 2005 A 23.26 K 3.5 3.5 hydration by topotactic reaction. samples were plaxed in 0.2 - 0.4M Na2S2O4 aqueous solution for several minutes at RT. Enhanced Superconducting Transition Temperature in the Water-intercalated Sulfides 2005 "Department of Advanced Materials Science, University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba ,Japan" "J.Phys.Soc.Jpn, 74(2005)851"
40322 JPS0740851 not SC. Na-content = nearly 0.4. (HO)-content y = nearly 2. Nax(H2O)y(BiS)1+z(TaS2)2 Na0.4Bi1Ta2S5 Na 0.4 Bi 1 Ta 2 S 5 2005 A 23.34 K 2 hydration by topotactic reaction. samples were plaxed in 0.2 - 0.4M Na2S2O4 aqueous solution for several minutes at RT. Enhanced Superconducting Transition Temperature in the Water-intercalated Sulfides 2005 "Department of Advanced Materials Science, University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba ,Japan" "J.Phys.Soc.Jpn, 74(2005)851"
40323 JPS0732073 "Tc, gap from NQR measurements. Fig. shows Tc(P) and gap(P)." CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2004 HoCoGa5 A 4.62 7.56 K 2.3 2.3 MTC40323 8.86 6 In-flux method Magnetic Criticality and Unconventional Superconductivity in CeCoIn5: Study of 115In-Nuclear Quadrupole Resonance under Pressure 2004 "Department of Materials Science and Technology, Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531" "J.Phys.Soc.Jpn, 73(2004)2073"
40324 ZPS1950215 P-induced SC. Tc at 115 kbar. Ge Ge1 Ge 1 1966 K 5.35 0 5.35 GPa -0.21 275 Zur Supraleitung von Germanium und Silizium unter hohem Druck 1966 "Z.Physik, 195(1966)215"
40325 ZPS1950215 P-induced SC. Tc at 120 kbar. (dTc/dP) has negative value. Si Si1 Si 1 1966 K 6.7 0 6.7 376 Zur Supraleitung von Germanium und Silizium unter hohem Druck 1966 "Z.Physik, 195(1966)215"
40326 PHB2590001 p-induced SC. Pc = GPa. Tc = Tc(max) at 16 GPa. CeCu2Ge2 Ce1Cu2Ge2 Ce 1 Cu 2 Ge 2 1999 4.1 ThCr2Si2 K 2 0 2 MTC40326 Magnetism and superconductivity in heavy fermion compounds at high pressure 1999 "University of Geneva, DPMC, 24 Quai E.- Ansermet, 1211 Gene% ve 4, Switzerland" "Physica B, 259(1999)1"
40327 PR0301182 "Tc(max) = 2.0 K at P = 40 kbar. For P>100 kbar, no sign of SC down to 1.2 K." CeCu2Si2 Ce1Cu2Si2 Ce 1 Cu 2 Si 2 1 1984 ThCr2Si2 K 0.7 0.67 0.05 0.7 MTC40327 arc-melting High-pressure valence instability and Tc maximum in superconducting CeCu2Si2 1984 "Phys.Rev.B, 30(1984)1182"
40328 L096057001 entire Au-end-MWNT(multi-walled carbon nano-tube). (dV/dI) of junctions was measured. C-nanotube C1 C 1 2006 K 12 12 Superconductivity in Entirely End-Bonded Multiwalled Carbon Nanotubes 2006 "Aoyama Gakuin University, 5-10-1 Fuchinobe, Sagamihara, Kanagawa 229-8558, Japan" "Phys.Rev.Lett., 96(2006)057001"
40329 PCS0670751 anomaly in SUS not due to SC. YbFe4Al8 Yb1Fe4Al8 Yb 1 Fe 4 Al 8 2006 150 A 8.712 5.044 K 1 induction melting Magnetic and electronic properties of the antiferromagnetic YbFe4Al8 compound 2006 "Institute of Molecular Physics, Polish Academy of Sciences,Smoluchowskiego,Poznan.Poland" "J.Phys.Chem.Solids, 67(2006)751"
40330 JPS0742408 "(Ca,Na)CuO2Cl2" Ca1.9Na0.1Cu1Cl2O2 Ca 1.9 Na 0.1 Cu 1 Cl 2 O 2 1 2005 T K 8 8 TC40330 1 high pressure synthesis Magnetic Phase Diagram of Hole-Doped Ca2-xNaxCuO2Cl2 Cuprate Superconductor 2005 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), Tsukuba, Ibaraki 305-0801" "J.Phys.Soc.Jpn, 74(2005)2408"
40331 JPS0742408 "(Ca,Na)CuO2Cl2" Ca1.88Na0.12Cu1Cl2O2 Ca 1.88 Na 0.12 Cu 1 Cl 2 O 2 1 2005 T K 16.8 16.8 16 high pressure synthesis Magnetic Phase Diagram of Hole-Doped Ca2-xNaxCuO2Cl2 Cuprate Superconductor 2005 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), Tsukuba, Ibaraki 305-0801" "J.Phys.Soc.Jpn, 74(2005)2408"
40332 JPS0742408 "(Ca,Na)CuO2Cl2" Ca1.85Na0.15Cu1Cl2O2 Ca 1.85 Na 0.15 Cu 1 Cl 2 O 2 1 2005 T K 25 25 60 high pressure synthesis Magnetic Phase Diagram of Hole-Doped Ca2-xNaxCuO2Cl2 Cuprate Superconductor 2005 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), Tsukuba, Ibaraki 305-0801" "J.Phys.Soc.Jpn, 74(2005)2408"
40333 JPS0742408 "(Ca,Na)CuO2Cl2" Ca1.8Na0.2Cu1Cl2O2 Ca 1.8 Na 0.2 Cu 1 Cl 2 O 2 1 2005 T K 26.4 26.4 48 high pressure synthesis Magnetic Phase Diagram of Hole-Doped Ca2-xNaxCuO2Cl2 Cuprate Superconductor 2005 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), Tsukuba, Ibaraki 305-0801" "J.Phys.Soc.Jpn, 74(2005)2408"
40334 JPS0742408 not SC. "(Ca,Na)CuO2Cl2" Ca1.998Na0.002Cu1Cl2O2 Ca 1.998 Na 0.002 Cu 1 Cl 2 O 2 1 2005 240 T K 5 high pressure synthesis Magnetic Phase Diagram of Hole-Doped Ca2-xNaxCuO2Cl2 Cuprate Superconductor 2005 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), Tsukuba, Ibaraki 305-0801" "J.Phys.Soc.Jpn, 74(2005)2408"
40335 JPS0742586 "Two gap SC. DB shows higher value. GAPENE(1) = 2.7 - 3.8. GAP(1) = 1.6 - 2.3 meV. GAPENE(2) = 6.6 - 8.4, GAP(2) = 4.0 - 5.1 meV. by break junction tunneling." ZrNCl0.7 Zr1N1Cl0.7 Zr 1 N 1 Cl 0.7 2005 K 14 14 meV 4 6.6 1 mix(beta-ZrNCl + NaN3) - press to pellet - c-axis oriented sample. All process in pure Ar box. Tunneling Spectroscopy of Deintercalated Layered Nitride Superconductor ZrNCl0.7 2005 "Graduate school of Advanced Sciences of Matter, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8530" "J.Phys.Soc.Jpn, 74(2005)2586"
40336 JPS0742667 Heavy Fermion SC. Tc defined by SUS. URu2Si2 U1Ru2Si2 U 1 Ru 2 Si 2 2005 ThCr2Si2 K 1.1 1.1 MTC40336 Correlation among Long-Range Ordered States Revealed by Pressure versus Temperature Phase Diagram in URu2Si2 2005 "Department of Physics, Graduate School of Science, Nagoya University, Nagoya 464-8602" "J.Phys.Soc.Jpn, 74(2005)2667"
40337 JPS0742806 "La(Pr,Ce)CuO4" Pr0.89La1Ce0.11Cu1O3.98 Pr 0.89 La 1 Ce 0.11 Cu 1 O 4-z 3.98 2005 T' K 26 26 Field-Induced Uniform Antiferromagnetic Order Associated with Superconductivity in Pr1-xLaCexCuO4-z 2005 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), Tsukuba, Ibaraki 305-0801" "J.Phys.Soc.Jpn, 74(2005)2806"
40338 JPS0742806 "La(Pr,Ce)CuO4" Pr0.85La1Ce0.15Cu1O3.95 Pr 0.85 La 1 Ce 0.15 Cu 1 O 4-z 3.95 2005 T' K 19 19 Field-Induced Uniform Antiferromagnetic Order Associated with Superconductivity in Pr1-xLaCexCuO4-z 2005 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), Tsukuba, Ibaraki 305-0801" "J.Phys.Soc.Jpn, 74(2005)2806"
40339 JPS0743370 "La<139>, P<31> NMR measurement shows the sample is s-wave SC. penetration depth estimated from Knight shift." LaFe4P12 La1Fe4P12 La 1 Fe 4 P 12 2005 skutterudite K 4.1 4.1 A 2200 3.8 6 Evidence for s-Wave Superconductivity with Antiferromagnetic Fluctuations in Filled Skutterudite LaFe4P12: <139>La and <31>P-NMR Studies 2005 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502" "J.Phys.Soc.Jpn, 74(2005)3370"
40340 SSC1320379 MgCNi3 Mg1C1Ni3 Mg 1 C 1 Ni 3 2004 ABO3 A 3.8091 K 7.1 7.1 The effect of Fe and Ru substitution on the superconductivity in MgCNi3 2004 "Frick Laboratory, Department of Chemistry, Princeton University, Princeton, NJ 08544, USA" "Solid State Commun., 132(2004)379"
40341 SSC1320379 "MgC(Ni,Ru)3" Mg1C1Ni2.995Ru0.005 Mg 1 C 1 Ni 2.995 Ru 0.005 2004 ABO3 A 3.8104 K 6.93 6.93 The effect of Fe and Ru substitution on the superconductivity in MgCNi3 2004 "Frick Laboratory, Department of Chemistry, Princeton University, Princeton, NJ 08544, USA" "Solid State Commun., 132(2004)379"
40342 SSC1320379 "MgC(Ni,Ru)3" Mg1C1Ni2.99Ru0.01 Mg 1 C 1 Ni 2.99 Ru 0.01 2004 ABO3 A 3.8105 K 6.71 6.71 The effect of Fe and Ru substitution on the superconductivity in MgCNi3 2004 "Frick Laboratory, Department of Chemistry, Princeton University, Princeton, NJ 08544, USA" "Solid State Commun., 132(2004)379"
40343 SSC1320379 "MgC(Ni,Ru)3" Mg1C1Ni2.98Ru0.02 Mg 1 C 1 Ni 2.98 Ru 0.02 2004 ABO3 A 3.8108 K 6.52 6.52 MTC40343 The effect of Fe and Ru substitution on the superconductivity in MgCNi3 2004 "Frick Laboratory, Department of Chemistry, Princeton University, Princeton, NJ 08544, USA" "Solid State Commun., 132(2004)379"
40344 SSC1320379 "MgC(Ni,Ru)3" Mg1C1Ni2.967Ru0.033 Mg 1 C 1 Ni 2.967 Ru 0.033 2004 ABO3 A 3.8117 K 6.1 6.1 The effect of Fe and Ru substitution on the superconductivity in MgCNi3 2004 "Frick Laboratory, Department of Chemistry, Princeton University, Princeton, NJ 08544, USA" "Solid State Commun., 132(2004)379"
40345 SSC1320379 "MgC(Ni,Ru)3" Mg1C1Ni2.934Ru0.066 Mg 1 C 1 Ni 2.934 Ru 0.066 2004 ABO3 A 3.8135 K 5.6 5.6 The effect of Fe and Ru substitution on the superconductivity in MgCNi3 2004 "Frick Laboratory, Department of Chemistry, Princeton University, Princeton, NJ 08544, USA" "Solid State Commun., 132(2004)379"
40346 SSC1320379 "MgC(Ni,Ru)3" Mg1C1Ni2.9Ru0.1 Mg 1 C 1 Ni 2.9 Ru 0.1 2004 ABO3 A 3.817 K 4.72 4.72 The effect of Fe and Ru substitution on the superconductivity in MgCNi3 2004 "Frick Laboratory, Department of Chemistry, Princeton University, Princeton, NJ 08544, USA" "Solid State Commun., 132(2004)379"
40347 SSC1320379 "MgC(Ni,Ru)3" Mg1C1Ni2.8Ru0.2 Mg 1 C 1 Ni 2.8 Ru 0.2 2004 ABO3 A K 3.47 3.47 The effect of Fe and Ru substitution on the superconductivity in MgCNi3 2004 "Frick Laboratory, Department of Chemistry, Princeton University, Princeton, NJ 08544, USA" "Solid State Commun., 132(2004)379"
40348 SSC1320379 "MgC(Ni,Fe)3" Mg1C1Ni2.999Fe0.001 Mg 1 C 1 Ni 2.999 Fe 0.001 2004 ABO3 A 3.8099 K 6.93 6.93 The effect of Fe and Ru substitution on the superconductivity in MgCNi3 2004 "Frick Laboratory, Department of Chemistry, Princeton University, Princeton, NJ 08544, USA" "Solid State Commun., 132(2004)379"
40349 SSC1320379 "MgC(Ni,Fe)3" Mg1C1Ni2.995Fe0.005 Mg 1 C 1 Ni 2.995 Fe 0.005 2004 ABO3 A 3.8102 K 6.44 6.44 The effect of Fe and Ru substitution on the superconductivity in MgCNi3 2004 "Frick Laboratory, Department of Chemistry, Princeton University, Princeton, NJ 08544, USA" "Solid State Commun., 132(2004)379"
40350 SSC1320379 "MgC(Ni,Fe)3" Mg1C1Ni2.99Fe0.01 Mg 1 C 1 Ni 2.99 Fe 0.01 2004 ABO3 A 3.8101 K 6.25 6.25 The effect of Fe and Ru substitution on the superconductivity in MgCNi3 2004 "Frick Laboratory, Department of Chemistry, Princeton University, Princeton, NJ 08544, USA" "Solid State Commun., 132(2004)379"
40351 SSC1320379 "MgC(Ni,Fe)3" Mg1C1Ni2.985Fe0.015 Mg 1 C 1 Ni 2.985 Fe 0.015 2004 ABO3 A 3.81 K 5.96 5.96 MTC40351 The effect of Fe and Ru substitution on the superconductivity in MgCNi3 2004 "Frick Laboratory, Department of Chemistry, Princeton University, Princeton, NJ 08544, USA" "Solid State Commun., 132(2004)379"
40352 SSC1320379 "MgC(Ni,Fe)3" Mg1C1Ni2.98Fe0.02 Mg 1 C 1 Ni 2.98 Fe 0.02 2004 ABO3 A 3.8106 K 5.46 5.46 The effect of Fe and Ru substitution on the superconductivity in MgCNi3 2004 "Frick Laboratory, Department of Chemistry, Princeton University, Princeton, NJ 08544, USA" "Solid State Commun., 132(2004)379"
40353 SSC1320379 "MgC(Ni,Fe)3" Mg1C1Ni2.975Fe0.025 Mg 1 C 1 Ni 2.975 Fe 0.025 2004 ABO3 A 3.811 K 5.17 5.17 The effect of Fe and Ru substitution on the superconductivity in MgCNi3 2004 "Frick Laboratory, Department of Chemistry, Princeton University, Princeton, NJ 08544, USA" "Solid State Commun., 132(2004)379"
40354 SSC1320379 "MgC(Ni,Fe)3" Mg1C1Ni2.967Fe0.033 Mg 1 C 1 Ni 2.967 Fe 0.033 2004 ABO3 A 3.8107 K 4.9 4.9 The effect of Fe and Ru substitution on the superconductivity in MgCNi3 2004 "Frick Laboratory, Department of Chemistry, Princeton University, Princeton, NJ 08544, USA" "Solid State Commun., 132(2004)379"
40355 SSC1320379 "MgC(Ni,Fe)3" Mg1C1Ni2.95Fe0.05 Mg 1 C 1 Ni 2.95 Fe 0.05 2004 ABO3 A 3.8114 K 3.72 3.72 The effect of Fe and Ru substitution on the superconductivity in MgCNi3 2004 "Frick Laboratory, Department of Chemistry, Princeton University, Princeton, NJ 08544, USA" "Solid State Commun., 132(2004)379"
40356 SSC1330321 MgB2 B2Mg1 B 2 Mg 1 2005 AlB2 A 3.0827 3.532 K 36.6 36.6 Structure and superconductivity of Mg1-xPbxB2 2005 "Departement de Physique, Faculte des Sciences de Bizerte, Laboratoire de Physique des Materiaux, Zarzouna 7021, Tunisia" "Solid State Commun., 133(2005)321"
40357 SSC1330321 "(Mg,Pb)B2" Mg0.99Pb0.01B2 Mg 0.99 Pb 0.01 B 2 2005 AlB2 A 3.0801 3.53 K 35.9 35.9 Structure and superconductivity of Mg1-xPbxB2 2005 "Departement de Physique, Faculte des Sciences de Bizerte, Laboratoire de Physique des Materiaux, Zarzouna 7021, Tunisia" "Solid State Commun., 133(2005)321"
40358 SSC1330321 "(Mg,Pb)B2" Mg0.98Pb0.02B2 Mg 0.98 Pb 0.02 B 2 2005 AlB2 A 3.0769 3.5283 K 35.5 35.5 Structure and superconductivity of Mg1-xPbxB2 2005 "Departement de Physique, Faculte des Sciences de Bizerte, Laboratoire de Physique des Materiaux, Zarzouna 7021, Tunisia" "Solid State Commun., 133(2005)321"
40360 SSC1330321 "(Mg,Pb)B2" Mg0.94Pb0.06B2 Mg 0.94 Pb 0.06 B 2 2005 AlB2 A 3.0745 3.5277 K 35 35 Structure and superconductivity of Mg1-xPbxB2 2005 "Departement de Physique, Faculte des Sciences de Bizerte, Laboratoire de Physique des Materiaux, Zarzouna 7021, Tunisia" "Solid State Commun., 133(2005)321"
40361 SSC1330321 "(Mg,Pb)B2" Mg0.9Pb0.1B2 Mg 0.9 Pb 0.1 B 2 2005 AlB2 A 3.0723 3.527 K 34 34 Structure and superconductivity of Mg1-xPbxB2 2005 "Departement de Physique, Faculte des Sciences de Bizerte, Laboratoire de Physique des Materiaux, Zarzouna 7021, Tunisia" "Solid State Commun., 133(2005)321"
40362 SSC1340725 "Coexistence of SC and FM observed. But, FR temperature not given explicitely." "(La,Sr)2(Cu,Mn)O4" La1.77Sr0.23Cu0.94Mn0.06O4 La 1.77 Sr 0.23 Cu 0.94 Mn 0.06 O 4 1 2005 T A 3.7519 13.1423 K2NiF4 K 34 34 solid state reaction Superconductivity coexisting with ferromagnetism in mixed-valence Mn doped La1.85-(4/3)xSr0.15+(4/3)xCu1-xMnxO4 2005 "Structure Research Laboratory, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Solid State Commun., 134(2005)725"
40363 SSC1350214 RESN shows resistivity at 0 K (extrapolated value) "(Tl,Pb)Sr2CaCu2O7" Tl0.5Pb0.5Sr2Ca1Cu2O7 Tl 0.5 Pb 0.5 Sr 2 Ca 1 Cu 2 O 7 1 2005 Tl1212 A 3.8028 12.1148 K 78 85 85 85 mOhm.cm 2.47 3.99 "Tl2O3,PbO,SrCO3,CaCO3,CuO,Co2O3" 1 "precursor(Sr2Ca(Cu,Co)2Oz), mixed with Tl2O3, PbO. mixture - pellet - wrapped in Au foil - heat(850C,10min, in flowing O2) - FC to RT." Effect of 3d metal ion doping on the structure and superconductivity of (Tl0.5Pb0.5)Sr2CaCu2O7 2005 "Chemistry Department, Faculty of Science, Tanta University, Tanta 31527, Egypt" "Solid State Commun., 135(2005)214"
40364 SSC1350214 RESN shows resistivity at 0 K (extrapolated value) "(Tl,Pb)Sr2Ca(Cu,Co)2O7" Tl0.5Pb0.5Sr2Ca1Cu2.98Co0.02O7 Tl 0.5 Pb 0.5 Sr 2 Ca 1 Cu 2.98 Co 0.02 O 7 1 2005 Tl1212 A 3.8031 11.1201 K 58 72 65 mOhm.cm 4.55 11.24 "Tl2O3,PbO,SrCO3,CaCO3,CuO,Co2O3" 1 "precursor(Sr2Ca(Cu,Co)2Oz), mixed with Tl2O3, PbO. mixture - pellet - wrapped in Au foil - heat(850C,10min, in flowing O2) - FC to RT." Effect of 3d metal ion doping on the structure and superconductivity of (Tl0.5Pb0.5)Sr2CaCu2O7 2005 "Chemistry Department, Faculty of Science, Tanta University, Tanta 31527, Egypt" "Solid State Commun., 135(2005)214"
40365 SSC1350214 RESN shows resistivity at 0 K (extrapolated value) "(Tl,Pb)Sr2Ca(Cu,Co)2O7" Tl0.5Pb0.5Sr2Ca1Cu2.95Co0.05O7 Tl 0.5 Pb 0.5 Sr 2 Ca 1 Cu 2.95 Co 0.05 O 7 1 2005 Tl1212 A 3.8039 12.1426 K 49 53 53 53 mOhm.cm 7.04 16.97 "Tl2O3,PbO,SrCO3,CaCO3,CuO,Co2O3" 1 "precursor(Sr2Ca(Cu,Co)2Oz), mixed with Tl2O3, PbO. mixture - pellet - wrapped in Au foil - heat(850C,10min, in flowing O2) - FC to RT." Effect of 3d metal ion doping on the structure and superconductivity of (Tl0.5Pb0.5)Sr2CaCu2O7 2005 "Chemistry Department, Faculty of Science, Tanta University, Tanta 31527, Egypt" "Solid State Commun., 135(2005)214"
40366 SSC1350214 RESN shows resistivity at 0 K (extrapolated value) "(Tl,Pb)Sr2Ca(Cu,Ni)2O7" Tl0.5Pb0.5Sr2Ca1Cu2.98Ni0.02O7 Tl 0.5 Pb 0.5 Sr 2 Ca 1 Cu 2.98 Ni 0.02 O 7 1 2005 Tl1212 A 3.8031 12.1025 K 58 69 63.5 mOhm.cm 6.07 12.89 "Tl2O3,PbO,SrCO3,CaCO3,CuO,NiO" 1 "precursor(Sr2Ca(Cu,Ni)2Oz), mixed with Tl2O3, PbO. mixture - pellet - wrapped in Au foil - heat(850C,10min, in flowing O2) - FC to RT." Effect of 3d metal ion doping on the structure and superconductivity of (Tl0.5Pb0.5)Sr2CaCu2O7 2005 "Chemistry Department, Faculty of Science, Tanta University, Tanta 31527, Egypt" "Solid State Commun., 135(2005)214"
40367 SSC1350214 RESN shows resistivity at 0 K (extrapolated value) "(Tl,Pb)Sr2Ca(Cu,Ni)2O7" Tl0.5Pb0.5Sr2Ca1Cu2.95Ni0.05O7 Tl 0.5 Pb 0.5 Sr 2 Ca 1 Cu 2.95 Ni 0.05 O 7 1 2005 Tl1212 A 3.8037 12.0748 K 44 50 50 50 mOhm.cm 10.14 22.64 "Tl2O3,PbO,SrCO3,CaCO3,CuO,NiO" 1 "precursor(Sr2Ca(Cu,Ni)2Oz), mixed with Tl2O3, PbO. mixture - pellet - wrapped in Au foil - heat(850C,10min, in flowing O2) - FC to RT." Effect of 3d metal ion doping on the structure and superconductivity of (Tl0.5Pb0.5)Sr2CaCu2O7 2005 "Chemistry Department, Faculty of Science, Tanta University, Tanta 31527, Egypt" "Solid State Commun., 135(2005)214"
40368 SSC1350214 RESN shows resistivity at 0 K (extrapolated value) "(Tl,Pb)Sr2Ca(Cu,Zn)2O7" Tl0.5Pb0.5Sr2Ca1Cu2.98Zn0.02O7 Tl 0.5 Pb 0.5 Sr 2 Ca 1 Cu 2.98 Zn 0.02 O 7 1 2005 Tl1212 A 3.8032 12.1264 K 65 77 71 mOhm.cm 3.53 10.46 "Tl2O3,PbO,SrCO3,CaCO3,CuO,ZnO" 1 "precursor(Sr2Ca(Cu,Zn)2Oz), mixed with Tl2O3, PbO. mixture - pellet - wrapped in Au foil - heat(850C,10min, in flowing O2) - FC to RT." Effect of 3d metal ion doping on the structure and superconductivity of (Tl0.5Pb0.5)Sr2CaCu2O7 2005 "Chemistry Department, Faculty of Science, Tanta University, Tanta 31527, Egypt" "Solid State Commun., 135(2005)214"
40369 SSC1350214 RESN shows resistivity at 0 K (extrapolated value) "(Tl,Pb)Sr2Ca(Cu,Zn)2O7" Tl0.5Pb0.5Sr2Ca1Cu2.95Zn0.05O7 Tl 0.5 Pb 0.5 Sr 2 Ca 1 Cu 2.95 Zn 0.05 O 7 1 2005 Tl1212 A 3.804 12.1558 K 58 73 73 73 mOhm.cm 4.55 15.82 "Tl2O3,PbO,SrCO3,CaCO3,CuO,ZnO" 1 "precursor(Sr2Ca(Cu,Zn)2Oz), mixed with Tl2O3, PbO. mixture - pellet - wrapped in Au foil - heat(850C,10min, in flowing O2) - FC to RT." Effect of 3d metal ion doping on the structure and superconductivity of (Tl0.5Pb0.5)Sr2CaCu2O7 2005 "Chemistry Department, Faculty of Science, Tanta University, Tanta 31527, Egypt" "Solid State Commun., 135(2005)214"
40370 MMM2580067 RRR>1000. R measured for J//<100> and H//<011>. G-L = 10. LaFe4P12 La1Fe4P12 La 1 Fe 4 P 12 3 2003 skutterudite K 4.2 4.2 T 1.72 MHC40370 A 140 A 1400 m3/C 1.50E-10 Sn-flux method Anomalous transport properties in the filled skutterudites 2003 "Department of Physics, Tokyo Metropolitan University, Hachioji-shi, Tokyo,Japan" "J.Mag.Mag.Mater., 258-259(2003)67"
40371 SSC0750047 layer compound (MS)nTS2. 3D-BCS superconductor. SP-lattice term(beta) = 1.40 mJ/mol.K4. (dC/gamma*Tc) = 1.3. Tc(SP) = 2.78 K. (SnS)1.17NbS2 Sn1.17Nb1S3.17 Sn 1.17 Nb 1 S 3.17 3 1990 MS2 K 2.75 2.75 mJ/mol.K2 7.4 single crystals prepared by vapour transport method. (NH4)2PbCl6 was added. Cl is transport gas. SUPERCONDUCTIVITY IN MISFIT LAYER COMPOUNDS (MS)NTS2 1990 "KAMERLINGH ONNES LABORATORY, LEIDEN UNIVERSITY, P.O. BOX 9506,2300 RA LEIDEN, THE NETHERLANDS." "SOLID STATE COMMUN.,75(1990)47" "BI,PB,SN,LA,SM,NB,TA,S"
40372 SSC0750047 layer compound (MS)nTS2. 3D-BCS superconductor. SP-lattice term(beta) = 1.36 mJ/mol.K4. (dC/gamma*Tc) = 1.2. Tc(SP) = 2.73 K. (PbS)1.14NbS2 Pb1.14Nb1S3.14 Pb 1.14 Nb 1 S 3.14 3 1990 MS2 K 2.72 2.72 mJ/mol.K2 6.9 single crystals prepared by vapour transport method. (NH4)2PbCl6 was added. Cl is transport gas. SUPERCONDUCTIVITY IN MISFIT LAYER COMPOUNDS (MS)NTS2 1990 "KAMERLINGH ONNES LABORATORY, LEIDEN UNIVERSITY, P.O. BOX 9506,2300 RA LEIDEN, THE NETHERLANDS." "SOLID STATE COMMUN.,75(1990)47" "BI,PB,SN,LA,SM,NB,TA,S"
40373 SSC0750047 layer compound (MS)nTS2. 3D-BCS superconductor. (SnS)1.15TaS2 Sn1.15Ta1S3.15 Sn 1.15 Ta 1 S 3.15 3 1990 MS2 K 2.85 2.85 single crystals prepared by vapour transport method. (NH4)2PbCl6 was added. Cl is transport gas. SUPERCONDUCTIVITY IN MISFIT LAYER COMPOUNDS (MS)NTS2 1990 "KAMERLINGH ONNES LABORATORY, LEIDEN UNIVERSITY, P.O. BOX 9506,2300 RA LEIDEN, THE NETHERLANDS." "SOLID STATE COMMUN.,75(1990)47" "BI,PB,SN,LA,SM,NB,TA,S"
40374 SSC0750047 layer compound (MS)nTS2. 3D-BCS superconductor. (PbS)1.13TaS2 Pb1.13Ta1S3.13 Pb 1.13 Ta 1 S 3.13 3 1990 MS2 K 3.08 3.08 single crystals prepared by vapour transport method. (NH4)2PbCl6 was added. Cl is transport gas. SUPERCONDUCTIVITY IN MISFIT LAYER COMPOUNDS (MS)NTS2 1990 "KAMERLINGH ONNES LABORATORY, LEIDEN UNIVERSITY, P.O. BOX 9506,2300 RA LEIDEN, THE NETHERLANDS." "SOLID STATE COMMUN.,75(1990)47" "BI,PB,SN,LA,SM,NB,TA,S"
40375 SSC0750047 layer compound (MS)nTS2. SP-lattice term(beta) = 1.78 mJ/mol.K4. (dC/gamma*Tc) = 0.6. Tc(SP) = 0.75 K. (BiS)1.08TaS2 Bi1.08Ta1S3.08 Bi 1.08 Ta 1 S 3.08 3 1990 MS2 K 0.76 0.76 mJ/mol.K2 10.1 single crystals prepared by vapour transport method. (NH4)2PbCl6 was added. Cl is transport gas. SUPERCONDUCTIVITY IN MISFIT LAYER COMPOUNDS (MS)NTS2 1990 "KAMERLINGH ONNES LABORATORY, LEIDEN UNIVERSITY, P.O. BOX 9506,2300 RA LEIDEN, THE NETHERLANDS." "SOLID STATE COMMUN.,75(1990)47" "BI,PB,SN,LA,SM,NB,TA,S"
40376 SSC0750047 layer compound (MS)nTS2. (SmS)1.15NbS2 Sm1.15Nb1S3.15 Sm 1.15 Nb 1 S 3.15 3 1990 MS2 K 0.07 single crystals prepared by vapour transport method. (NH4)2PbCl6 was added. Cl is transport gas. SUPERCONDUCTIVITY IN MISFIT LAYER COMPOUNDS (MS)NTS2 1990 "KAMERLINGH ONNES LABORATORY, LEIDEN UNIVERSITY, P.O. BOX 9506,2300 RA LEIDEN, THE NETHERLANDS." "SOLID STATE COMMUN.,75(1990)47" "BI,PB,SN,LA,SM,NB,TA,S"
40377 SSC0750047 layer compound (MS)nTS2. 2D superconductor. SP-lattice term(beta) = 0.77 mJ/mol.K4. (LaS)1.14NbS2 La1.14Nb1S3.14 La 1.14 Nb 1 S 3.14 3 1990 MS2 K 0.07 mJ/mol.K2 23 single crystals prepared by vapour transport method. (NH4)2PbCl6 was added. Cl is transport gas. SUPERCONDUCTIVITY IN MISFIT LAYER COMPOUNDS (MS)NTS2 1990 "KAMERLINGH ONNES LABORATORY, LEIDEN UNIVERSITY, P.O. BOX 9506,2300 RA LEIDEN, THE NETHERLANDS." "SOLID STATE COMMUN.,75(1990)47" "BI,PB,SN,LA,SM,NB,TA,S"
40378 PCS0670605 "Tc defined as maximum (dM/dT). impurity phase : BaCuO2, CuO" "LaBaCa(Cu,(PO4))3O7" La1Ba1Ca1Cu2.9P0.1O7.4-z La 1 Ba 1 Ca 1 Cu 2.9 P 0.1 O 7.4-z 2006 La1113 A 3.8374 3.8152 11.5039 K 20 20 "La2O3,BaCO3,CaCO3,CuO,NH4H2(PO4)" "mixture - pellet - CAL(950C,24h) - SIN(975C,12h,in air) - ANN(575C,24h,in O2) - FC to RT" "Superconductivity in the system CaLaBaCu3-x(PO4)xO7-z with x = 0.1, 0.3, 0.5" 2006 "Lab. Superconductividad, Facultad de Ciencias Fisicas, Universidad Nacional Mayor de San Marcos, Ap. Postal 14-0149, Lima 14, Peru" "J.Phys.Chem.Solids, 67(2006)605"
40379 PCS0670605 "Tc defined as maximum (dM/dT). impurity phase : BaCuO2, CuO" "LaBaCa(Cu,(PO4))3O7" La1Ba1Ca1Cu2.7P0.3O8.2-z La 1 Ba 1 Ca 1 Cu 2.7 P 0.3 O 8.2-z 2006 La1113 A 3.8373 3.8061 11.502 K 14 14 "La2O3,BaCO3,CaCO3,CuO,NH4H2(PO4)" "mixture - pellet - CAL(950C,24h) - SIN(975C,12h,in air) - ANN(575C,24h,in O2) - FC to RT" "Superconductivity in the system CaLaBaCu3-x(PO4)xO7-z with x = 0.1, 0.3, 0.5" 2006 "Lab. Superconductividad, Facultad de Ciencias Fisicas, Universidad Nacional Mayor de San Marcos, Ap. Postal 14-0149, Lima 14, Peru" "J.Phys.Chem.Solids, 67(2006)605"
40380 PCS0670605 "Tc defined as maximum (dM/dT). impurity phase : BaCuO2, CuO" "LaBaCa(Cu,(PO4))3O7" La1Ba1Ca1Cu2.5P0.5O9-z La 1 Ba 1 Ca 1 Cu 2.5 P 0.5 O 9-z 2006 La1113 A 3.8179 3.7655 11.4181 K 20 20 "La2O3,BaCO3,CaCO3,CuO,NH4H2(PO4)" "mixture - pellet - CAL(950C,24h) - SIN(975C,12h,in air) - ANN(575C,24h,in O2) - FC to RT" "Superconductivity in the system CaLaBaCu3-x(PO4)xO7-z with x = 0.1, 0.3, 0.5" 2006 "Lab. Superconductividad, Facultad de Ciencias Fisicas, Universidad Nacional Mayor de San Marcos, Ap. Postal 14-0149, Lima 14, Peru" "J.Phys.Chem.Solids, 67(2006)605"
40381 PCS0670594 "(Y,Ca)SrBa(Cu,(BO3))3O7" Y0.8Ca0.2Sr1Ba1Cu2.9B0.1O7.3-z Y 0.8 Ca 0.2 Sr 1 Ba 1 Cu 2.9 B 0.1 O 7.3-z 2006 Y123 A 3.8276 3.821 11.4187 K 35 35 "Y2O3,BaO2,SrCO3,CaCO3,CuO,H3BO3" "mixture - heat(1273K,16h,in O2) - SIN(1273K,16h,inO2) FC(50C/h) to RT" Superconductivity in the system [Y0.8Ca0.2](SrBa)Cu3-x(BO3)xO7-z with 0.1=< x =<0.5 2006 "Lab. Superconductividad, Facultad de Ciencias Fisicas, Universidad Nacional Mayor de San Marcos, Ap. Postal 14-0149, Lima 14, Peru" "J.Phys.Chem.Solids, 67(2006)594"
40382 PCS0670594 "(Y,Ca)SrBa(Cu,(BO3))3O7" Y0.8Ca0.2Sr1Ba1Cu2.8B0.2O7.6-z Y 0.8 Ca 0.2 Sr 1 Ba 1 Cu 2.8 B 0.2 O 7.6-z 2006 Y123 A 3.8309 3.8268 11.3901 K 37 37 "Y2O3,BaO2,SrCO3,CaCO3,CuO,H3BO3" "mixture - heat(1273K,16h,in O2) - SIN(1273K,16h,inO2) FC(50C/h) to RT" Superconductivity in the system [Y0.8Ca0.2](SrBa)Cu3-x(BO3)xO7-z with 0.1=< x =<0.5 2006 "Lab. Superconductividad, Facultad de Ciencias Fisicas, Universidad Nacional Mayor de San Marcos, Ap. Postal 14-0149, Lima 14, Peru" "J.Phys.Chem.Solids, 67(2006)594"
40383 PCS0670594 "(Y,Ca)SrBa(Cu,(BO3))3O7" Y0.8Ca0.2Sr1Ba1Cu2.7B0.3O7.9-z Y 0.8 Ca 0.2 Sr 1 Ba 1 Cu 2.7 B 0.3 O 7.9-z 2006 Y123 A 3.8272 3.8238 11.3615 K 38 38 "Y2O3,BaO2,SrCO3,CaCO3,CuO,H3BO3" "mixture - heat(1273K,16h,in O2) - SIN(1273K,16h,inO2) FC(50C/h) to RT" Superconductivity in the system [Y0.8Ca0.2](SrBa)Cu3-x(BO3)xO7-z with 0.1=< x =<0.5 2006 "Lab. Superconductividad, Facultad de Ciencias Fisicas, Universidad Nacional Mayor de San Marcos, Ap. Postal 14-0149, Lima 14, Peru" "J.Phys.Chem.Solids, 67(2006)594"
40384 PCS0670594 "(Y,Ca)SrBa(Cu,(BO3))3O7" Y0.8Ca0.2Sr1Ba1Cu2.6B0.4O8.2-z Y 0.8 Ca 0.2 Sr 1 Ba 1 Cu 2.6 B 0.4 O 8.2-z 2006 Y123 A 3.8762 3.816 11.622 K 31 31 "Y2O3,BaO2,SrCO3,CaCO3,CuO,H3BO3" "mixture - heat(1273K,16h,in O2) - SIN(1273K,16h,inO2) FC(50C/h) to RT" Superconductivity in the system [Y0.8Ca0.2](SrBa)Cu3-x(BO3)xO7-z with 0.1=< x =<0.5 2006 "Lab. Superconductividad, Facultad de Ciencias Fisicas, Universidad Nacional Mayor de San Marcos, Ap. Postal 14-0149, Lima 14, Peru" "J.Phys.Chem.Solids, 67(2006)594"
40385 PCS0670594 "(Y,Ca)SrBa(Cu,(BO3))3O7" Y0.8Ca0.2Sr1Ba1Cu2.5B0.5O8.5-z Y 0.8 Ca 0.2 Sr 1 Ba 1 Cu 2.5 B 0.5 O 8.5-z 2006 Y123 A 3.8303 3.8282 11.2754 K 28 28 "Y2O3,BaO2,SrCO3,CaCO3,CuO,H3BO3" "mixture - heat(1273K,16h,in O2) - SIN(1273K,16h,inO2) FC(50C/h) to RT" Superconductivity in the system [Y0.8Ca0.2](SrBa)Cu3-x(BO3)xO7-z with 0.1=< x =<0.5 2006 "Lab. Superconductividad, Facultad de Ciencias Fisicas, Universidad Nacional Mayor de San Marcos, Ap. Postal 14-0149, Lima 14, Peru" "J.Phys.Chem.Solids, 67(2006)594"
40386 PCS0670431 small SC volume fraction but bulk SC. crystal size = 5*7*36 mm3. x = 0.05 - 0.06 in (La1-xCax)2CaCu2O6+z were prepared. "(La,Ca)2CaCu2O6" La1.85Ca1.15Cu2O6+z La 1.85 Ca 1.15 Cu 2 O 6+z 3 2006 2126 K 28 28 2 floating zone method in a flow of pure O2(P=11 bar) Crystal growth and superconductivity of (La1-xCax)2CaCu2O6+z 2006 "Brookhaven National Laboratory, Physics Department, Upton, NY 11973-5000, USA" "J.Phys.Chem.Solids, 67(2006)431"
40387 PCS0670360 gap by point contact tunneling. Lower gap(pai) = 2.84 meV. "Mg(B,C)2" Mg1B1.89C0.11 Mg 1 B 1.89 C 0.11 3 2006 AlB2 K 34.7 34.7 meV 6.01 1 crystals grown by using high pressure method in a cubic anvil. A point-contact study of the superconducting gaps in Al-substituted and C-substituted MgB2 single crystals 2006 "Dipartimento di Fisica and INFM, Politecnico di Torino, 10129 Torino, Italy" "J.Phys.Chem.Solids, 67(2006)360"
40388 PCS0670360 gap by point contact tunneling. Lower gap(pai) = 2.99 meV. "Mg(B,C)2" Mg1B1.834C0.166 Mg 1 B 1.834 C 0.166 3 2006 AlB2 K 32 32 MTC40388 meV 5.46 1 crystals grown by using high pressure method in a cubic anvil. A point-contact study of the superconducting gaps in Al-substituted and C-substituted MgB2 single crystals 2006 "Dipartimento di Fisica and INFM, Politecnico di Torino, 10129 Torino, Italy" "J.Phys.Chem.Solids, 67(2006)360"
40389 PCS0670360 gap by point contact tunneling. Lower gap(pai) = 2.76 meV. "Mg(B,C)2" Mg1B1.8C0.2 Mg 1 B 1.8 C 0.2 3 2006 AlB2 K 28.8 28.8 GAP40389 meV 4.83 1 crystals grown by using high pressure method in a cubic anvil. A point-contact study of the superconducting gaps in Al-substituted and C-substituted MgB2 single crystals 2006 "Dipartimento di Fisica and INFM, Politecnico di Torino, 10129 Torino, Italy" "J.Phys.Chem.Solids, 67(2006)360"
40390 PCS0670360 gap by point contact tunneling. Lower gap(pai) = 3.13 meV. "Mg(B,C)2" Mg1B1.736C0.264 Mg 1 B 1.736 C 0.264 3 2006 AlB2 K 17.6 17.6 meV 3.13 1 crystals grown by using high pressure method in a cubic anvil. A point-contact study of the superconducting gaps in Al-substituted and C-substituted MgB2 single crystals 2006 "Dipartimento di Fisica and INFM, Politecnico di Torino, 10129 Torino, Italy" "J.Phys.Chem.Solids, 67(2006)360"
40391 PCS0670360 gap by point contact tunneling. Lower gap(pai) = 2.84 meV. MgB2 B2Mg1 B 2 Mg 1 3 2006 AlB2 K 38.7 38.7 meV 7.12 1 crystals grown by using high pressure method in a cubic anvil. A point-contact study of the superconducting gaps in Al-substituted and C-substituted MgB2 single crystals 2006 "Dipartimento di Fisica and INFM, Politecnico di Torino, 10129 Torino, Italy" "J.Phys.Chem.Solids, 67(2006)360"
40392 PCS0670360 gap by point contact tunneling. Lower gap(pai) = 2.84 meV. "(Mg,Al)B2" Mg0.98Al0.02B2 Mg 0.98 Al 0.02 B 2 3 2006 AlB2 K 35.9 35.9 GAP40392 meV 6.89 1 crystals grown by using high pressure method in a cubic anvil. A point-contact study of the superconducting gaps in Al-substituted and C-substituted MgB2 single crystals 2006 "Dipartimento di Fisica and INFM, Politecnico di Torino, 10129 Torino, Italy" "J.Phys.Chem.Solids, 67(2006)360"
40393 PCS0670360 gap by point contact tunneling. Lower gap(pai) = 3.17 meV. "(Mg,Al)B2" Mg0.92Al0.08B2 Mg 0.92 Al 0.08 B 2 3 2006 AlB2 K 31.6 31.6 meV 6.12 1 crystals grown by using high pressure method in a cubic anvil. A point-contact study of the superconducting gaps in Al-substituted and C-substituted MgB2 single crystals 2006 "Dipartimento di Fisica and INFM, Politecnico di Torino, 10129 Torino, Italy" "J.Phys.Chem.Solids, 67(2006)360"
40394 PCS0670360 gap by point contact tunneling. Lower gap(pai) = 0.77 meV. "(Mg,Al)B2" Mg0.82Al0.18B2 Mg 0.82 Al 0.18 B 2 3 2006 AlB2 K 25.7 25.7 MTC40394 meV 4.02 1 crystals grown by using high pressure method in a cubic anvil. A point-contact study of the superconducting gaps in Al-substituted and C-substituted MgB2 single crystals 2006 "Dipartimento di Fisica and INFM, Politecnico di Torino, 10129 Torino, Italy" "J.Phys.Chem.Solids, 67(2006)360"
40395 PCS0670360 gap by point contact tunneling. Lower gap(pai) = 0.41 meV. "(Mg,Al)B2" Mg0.79Al0.21B2 Mg 0.79 Al 0.21 B 2 3 2006 AlB2 K 27.1 27.1 meV 3.87 1 crystals grown by using high pressure method in a cubic anvil. A point-contact study of the superconducting gaps in Al-substituted and C-substituted MgB2 single crystals 2006 "Dipartimento di Fisica and INFM, Politecnico di Torino, 10129 Torino, Italy" "J.Phys.Chem.Solids, 67(2006)360"
40396 PHB2300286 RRR=260. YbSn3 Sn3Yb1 Sn 3 Yb 1 3 1997 K 3.6 3.6 95 T 0.04 165 Bloch-Gruneisen relation of R "Yb(4N),Sn(5N)" Bridgeman method. nominal (Yb:Sn = 1.2:3). sample moving (3mm/h. T(max) = 850 C. De Haas-van Alphen effect and magnetoresistance in YbSn3 1997 "Nagoya Institute of Technology, Nagoya,Japan" "Physica B, 230-232(1997)286"
40397 PHB2300364 Heavy-fermion SC. UNi2Al3 U1Ni2Al3 U 1 Ni 2 Al 3 3 1997 5 3 PrNi2Al3 P6/mmm K 1.1 1.1 mJ/mol.K2 130 SP-heat floating zone method in a mirror furnace. Superconducting and magnetic properties of UNi2Al3 single crystal 1997 "Physica B, 230-232(1997)364"
40398 PHB2300380 dC = 28.95 mJ/mol.K. (dC/gamma*Tc) = 1.25 LaRhBi La1Rh1Bi1 La 1 Rh 1 Bi 1 1 1997 3 TiNiSi A 7.588 4.772 8.087 epsiron-TiNiSi type K 2.35 2.36 2.6 2.36 mJ/mol.K2 9.8 SP-heat 196 SP-heat arc-melting Kondo effect in CeRhBi and superconductivity in LaRhBi 1997 "Department of Physics, Faculty of Science,Tohoku University,Sendai,Japan" "Physica B, 230-232(1997)380"
40399 PHB2300394 "G-L = 41. Hc1, Hc2 measured for H//[001]." U6Fe Fe1U6 Fe 1 U 6 3 1997 U6Mn K 3.95 3.95 Oe M-H 144 T resistive 13.1 MHC40399 A from Hc2 50 A from Hc1 2060 U6.1Fe "Czochoralski method in tetra-arc furnace. pulling speed = 10-15 mm/h. ANN(630C,1w)" Superconducting property of single crystal U6Fe 1997 "Japan Atomic Energy Research Institute, Tokai, Ibaraki,Japan" "Physica B, 230-232(1997)394"
40400 SSC1370601 not SC "CuSr2(Ce,Y)3Cu2O11" Sr2Ce2.01Y0.99Cu3O11+z Sr 2 Ce 2.01 Y 0.99 Cu 3 O 11+z 1 2006 2 Cu1232 P4/mmm A 3.823 17.23 K 4 "mixture - CAL(950C,24h) - SIN(1020-1030C,24h) - mixed (sample+Ag2O2: mole ratio = 4:3) - ANN(500C,30min,5 GPa)" "Superconductivity in the 'triple-fluorite-layer' copper oxides (Cu,M)-1232 (M = Mo, W, Re, Pb)" 2006 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 137(2006)601"
40401 SSC1370601 "(Cu,Mo)Sr2(Ce,Y)3Cu2O11" Mo0.05Sr2Ce2.01Y0.99Cu2.95O11+z Mo 0.05 Sr 2 Ce 2.01 Y 0.99 Cu 2.95 O 11+z 1 2006 2 Cu1232 P4/mmm A 3.822 17.203 K 34 34 "mixture - CAL(950C,24h) - SIN(1020-1030C,24h) - mixed (sample+Ag2O2: mole ratio = 4:3) - ANN(500C,30min,5 GPa)" "Superconductivity in the 'triple-fluorite-layer' copper oxides (Cu,M)-1232 (M = Mo, W, Re, Pb)" 2006 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 137(2006)601"
40402 SSC1370601 "(Cu,Mo)Sr2(Ce,Y)3Cu2O11" Mo0.1Sr2Ce2.01Y0.99Cu2.9O11+z Mo 0.1 Sr 2 Ce 2.01 Y 0.99 Cu 2.9 O 11+z 1 2006 2 Cu1232 P4/mmm A 3.828 17.098 K 34 34 "mixture - CAL(950C,24h) - SIN(1020-1030C,24h) - mixed (sample+Ag2O2: mole ratio = 4:3) - ANN(500C,30min,5 GPa)" "Superconductivity in the 'triple-fluorite-layer' copper oxides (Cu,M)-1232 (M = Mo, W, Re, Pb)" 2006 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 137(2006)601"
40403 SSC1370601 "(Cu,Mo)Sr2(Ce,Y)3Cu2O11" Mo0.15Sr2Ce2.01Y0.99Cu2.85O11+z Mo 0.15 Sr 2 Ce 2.01 Y 0.99 Cu 2.85 O 11+z 1 2006 2 Cu1232 P4/mmm A 3.829 17.047 K 41 41 "mixture - CAL(950C,24h) - SIN(1020-1030C,24h) - mixed (sample+Ag2O2: mole ratio = 4:3) - ANN(500C,30min,5 GPa)" "Superconductivity in the 'triple-fluorite-layer' copper oxides (Cu,M)-1232 (M = Mo, W, Re, Pb)" 2006 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 137(2006)601"
40404 SSC1370601 "(Cu,Mo)Sr2(Ce,Y)3Cu2O11" Mo0.2Sr2Ce2.01Y0.99Cu2.8O11+z Mo 0.2 Sr 2 Ce 2.01 Y 0.99 Cu 2.8 O 11+z 1 2006 2 Cu1232 P4/mmm A 3.825 16.975 K 47 47 "mixture - CAL(950C,24h) - SIN(1020-1030C,24h) - mixed (sample+Ag2O2: mole ratio = 4:3) - ANN(500C,30min,5 GPa)" "Superconductivity in the 'triple-fluorite-layer' copper oxides (Cu,M)-1232 (M = Mo, W, Re, Pb)" 2006 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 137(2006)601"
40405 SSC1370601 impurity phase = CeO2 "(Cu,Mo)Sr2(Ce,Y)3Cu2O11" Mo0.25Sr2Ce2.01Y0.99Cu2.75O11+z Mo 0.25 Sr 2 Ce 2.01 Y 0.99 Cu 2.75 O 11+z 1 2006 2 Cu1232 P4/mmm A 3.828 16.917 K 53 53 "mixture - CAL(950C,24h) - SIN(1020-1030C,24h) - mixed (sample+Ag2O2: mole ratio = 4:3) - ANN(500C,30min,5 GPa)" "Superconductivity in the 'triple-fluorite-layer' copper oxides (Cu,M)-1232 (M = Mo, W, Re, Pb)" 2006 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 137(2006)601"
40406 SSC1370601 impurity phase = CeO2 "(Cu,W)Sr2(Ce,Y)3Cu2O11" W0.25Sr2Ce2.01Y0.99Cu2.75O11+z W 0.25 Sr 2 Ce 2.01 Y 0.99 Cu 2.75 O 11+z 1 2006 2 Cu1232 P4/mmm A 3.82 16.988 K 53 53 "mixture - CAL(950C,24h) - SIN(1020-1030C,24h) - mixed (sample+Ag2O2: mole ratio = 4:3) - ANN(500C,30min,5 GPa)" "Superconductivity in the 'triple-fluorite-layer' copper oxides (Cu,M)-1232 (M = Mo, W, Re, Pb)" 2006 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 137(2006)601"
40407 SSC1370601 impurity phase = CeO2 "(Cu,Re)Sr2(Ce,Y)3Cu2O11" Re0.25Sr2Ce2.01Y0.99Cu2.75O11+z Re 0.25 Sr 2 Ce 2.01 Y 0.99 Cu 2.75 O 11+z 1 2006 2 Cu1232 P4/mmm A 3.824 16.938 K 56 56 "mixture - CAL(950C,24h) - SIN(1020-1030C,24h) - mixed (sample+Ag2O2: mole ratio = 4:3) - ANN(500C,30min,5 GPa)" "Superconductivity in the 'triple-fluorite-layer' copper oxides (Cu,M)-1232 (M = Mo, W, Re, Pb)" 2006 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 137(2006)601"
40408 SSC1370601 impurity phase = CeO2 "(Cu,Pb)Sr2(Ce,Y)3Cu2O11" Pb0.25Sr2Ce2.01Y0.99Cu2.75O11+z Pb 0.25 Sr 2 Ce 2.01 Y 0.99 Cu 2.75 O 11+z 1 2006 2 Cu1232 P4/mmm A 3.83 17.23 K 4 "mixture - CAL(950C,24h) - SIN(1020-1030C,24h) - mixed (sample+Ag2O2: mole ratio = 4:3) - ANN(500C,30min,5 GPa)" "Superconductivity in the 'triple-fluorite-layer' copper oxides (Cu,M)-1232 (M = Mo, W, Re, Pb)" 2006 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 137(2006)601"
40409 L090197005 "(Pr,La,Ce)2CuO4" Pr0.91La1Ce0.09Cu1O4 Pr 0.91 La 1 Ce 0.09 Cu 1 O 4 3 2003 T' K 24 24 T SUS 7.5 HC40409 traveling solvent floating zone method Fermi-Liquid Ground State in the n-Type Pr0.91LaCe0.09CuO4-y Copper-Oxide Superconductor 2003 "Department of Physical Science, Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.Lett., 90(2003)197005"
40410 PHC4360025 Jc obtained from dM(magnetization) EuBa2Cu3O7 Eu1Ba2Cu3Oz Eu 1 Ba 2 Cu 3 O z 1 2006 Y123 A 3.8533 3.906 11.7181 K 93 93 "mixture - heat(900C,21h,in flowing O2) - heat(930C,21h,in flowing O2) - ANN(450C,23h)" "Effects of calcium substitution on the superconducting properties of R1-xCaxBa2Cu3Oz (R = Eu, Gd, Er; 0 =< x =< 0.3) polycrystalline samples" 2006 "Institute of Solid State Physics, Bulgarian Academy of Sciences, 72, Tzarigradsko Chaussee Blvd., 1784 Sofia, Bulgaria" "Physica C, 436(2006)25"
40411 PHC4360025 Jc obtained from dM(magnetization) "(Eu,Ca)Ba2Cu3O7" Eu0.8Ca0.2Ba2Cu3Oz Eu 0.8 Ca 0.2 Ba 2 Cu 3 O z 1 2006 Y123 A 3.8485 3.8927 11.7099 K 80.1 80.1 "mixture - heat(900C,21h,in flowing O2) - heat(930C,21h,in flowing O2) - ANN(450C,23h)" "Effects of calcium substitution on the superconducting properties of R1-xCaxBa2Cu3Oz (R = Eu, Gd, Er; 0 =< x =< 0.3) polycrystalline samples" 2006 "Institute of Solid State Physics, Bulgarian Academy of Sciences, 72, Tzarigradsko Chaussee Blvd., 1784 Sofia, Bulgaria" "Physica C, 436(2006)25"
40412 PHC4360025 Jc obtained from dM(magnetization) "(Eu,Ca)Ba2Cu3O7" Eu0.75Ca0.25Ba2Cu3Oz Eu 0.75 Ca 0.25 Ba 2 Cu 3 O z 1 2006 Y123 A 3.8549 3.8934 11.7205 K 79.7 79.7 "mixture - heat(900C,21h,in flowing O2) - heat(930C,21h,in flowing O2) - ANN(450C,23h)" "Effects of calcium substitution on the superconducting properties of R1-xCaxBa2Cu3Oz (R = Eu, Gd, Er; 0 =< x =< 0.3) polycrystalline samples" 2006 "Institute of Solid State Physics, Bulgarian Academy of Sciences, 72, Tzarigradsko Chaussee Blvd., 1784 Sofia, Bulgaria" "Physica C, 436(2006)25"
40413 PHC4360025 Jc obtained from dM(magnetization) "(Eu,Ca)Ba2Cu3O7" Eu0.7Ca0.3Ba2Cu3Oz Eu 0.7 Ca 0.3 Ba 2 Cu 3 O z 1 2006 Y123 A 3.8549 3.8802 11.7199 K 79.7 79.7 "mixture - heat(900C,21h,in flowing O2) - heat(930C,21h,in flowing O2) - ANN(450C,23h)" "Effects of calcium substitution on the superconducting properties of R1-xCaxBa2Cu3Oz (R = Eu, Gd, Er; 0 =< x =< 0.3) polycrystalline samples" 2006 "Institute of Solid State Physics, Bulgarian Academy of Sciences, 72, Tzarigradsko Chaussee Blvd., 1784 Sofia, Bulgaria" "Physica C, 436(2006)25"
40414 PHC4360025 Jc obtained from dM(magnetization) GdBa2Cu3O7 Gd1Ba2Cu3Oz Gd 1 Ba 2 Cu 3 O z 1 2006 Y123 A 3.8432 3.906 11.7181 K 91.7 91.7 "mixture - heat(900C,21h,in flowing O2) - heat(930C,21h,in flowing O2) - ANN(450C,23h)" "Effects of calcium substitution on the superconducting properties of R1-xCaxBa2Cu3Oz (R = Eu, Gd, Er; 0 =< x =< 0.3) polycrystalline samples" 2006 "Institute of Solid State Physics, Bulgarian Academy of Sciences, 72, Tzarigradsko Chaussee Blvd., 1784 Sofia, Bulgaria" "Physica C, 436(2006)25"
40415 PHC4360025 Jc obtained from dM(magnetization) "(Gd,Ca)Ba2Cu3O7" Gd0.8Ca0.2Ba2Cu3Oz Gd 0.8 Ca 0.2 Ba 2 Cu 3 O z 1 2006 Y123 A 3.8475 3.8996 11.7221 K 81 81 "mixture - heat(900C,21h,in flowing O2) - heat(930C,21h,in flowing O2) - ANN(450C,23h)" "Effects of calcium substitution on the superconducting properties of R1-xCaxBa2Cu3Oz (R = Eu, Gd, Er; 0 =< x =< 0.3) polycrystalline samples" 2006 "Institute of Solid State Physics, Bulgarian Academy of Sciences, 72, Tzarigradsko Chaussee Blvd., 1784 Sofia, Bulgaria" "Physica C, 436(2006)25"
40416 PHC4360025 Jc obtained from dM(magnetization) "(Gd,Ca)Ba2Cu3O7" Gd0.75Ca0.25Ba2Cu3Oz Gd 0.75 Ca 0.25 Ba 2 Cu 3 O z 1 2006 Y123 A 3.8488 3.8954 11.7418 K 80 80 "mixture - heat(900C,21h,in flowing O2) - heat(930C,21h,in flowing O2) - ANN(450C,23h)" "Effects of calcium substitution on the superconducting properties of R1-xCaxBa2Cu3Oz (R = Eu, Gd, Er; 0 =< x =< 0.3) polycrystalline samples" 2006 "Institute of Solid State Physics, Bulgarian Academy of Sciences, 72, Tzarigradsko Chaussee Blvd., 1784 Sofia, Bulgaria" "Physica C, 436(2006)25"
40417 PHC4360025 Jc obtained from dM(magnetization) "(Gd,Ca)Ba2Cu3O7" Gd0.7Ca0.3Ba2Cu3Oz Gd 0.7 Ca 0.3 Ba 2 Cu 3 O z 1 2006 Y123 A 3.8428 3.8933 11.7497 K 79 79 "mixture - heat(900C,21h,in flowing O2) - heat(930C,21h,in flowing O2) - ANN(450C,23h)" "Effects of calcium substitution on the superconducting properties of R1-xCaxBa2Cu3Oz (R = Eu, Gd, Er; 0 =< x =< 0.3) polycrystalline samples" 2006 "Institute of Solid State Physics, Bulgarian Academy of Sciences, 72, Tzarigradsko Chaussee Blvd., 1784 Sofia, Bulgaria" "Physica C, 436(2006)25"
40418 PHC4360025 Jc obtained from dM(magnetization) ErBa2Cu3O7 Er1Ba2Cu3Oz Er 1 Ba 2 Cu 3 O z 1 2006 Y123 A 3.8164 3.8868 11.6605 K 90.9 90.9 "mixture - heat(900C,21h,in flowing O2) - heat(930C,21h,in flowing O2) - ANN(450C,23h)" "Effects of calcium substitution on the superconducting properties of R1-xCaxBa2Cu3Oz (R = Eu, Gd, Er; 0 =< x =< 0.3) polycrystalline samples" 2006 "Institute of Solid State Physics, Bulgarian Academy of Sciences, 72, Tzarigradsko Chaussee Blvd., 1784 Sofia, Bulgaria" "Physica C, 436(2006)25"
40419 PHC4360025 Jc obtained from dM(magnetization) "(Er,Ca)Ba2Cu3O7" Er0.8Ca0.2Ba2Cu3Oz Er 0.8 Ca 0.2 Ba 2 Cu 3 O z 1 2006 Y123 A 3.8216 3.8817 11.6985 K 78.5 78.5 "mixture - heat(900C,21h,in flowing O2) - heat(930C,21h,in flowing O2) - ANN(450C,23h)" "Effects of calcium substitution on the superconducting properties of R1-xCaxBa2Cu3Oz (R = Eu, Gd, Er; 0 =< x =< 0.3) polycrystalline samples" 2006 "Institute of Solid State Physics, Bulgarian Academy of Sciences, 72, Tzarigradsko Chaussee Blvd., 1784 Sofia, Bulgaria" "Physica C, 436(2006)25"
40420 PHC4360025 Jc obtained from dM(magnetization) "(Er,Ca)Ba2Cu3O7" Er0.75Ca0.25Ba2Cu3Oz Er 0.75 Ca 0.25 Ba 2 Cu 3 O z 1 2006 Y123 A 3.8225 3.8762 11.6989 K 71.6 71.6 "mixture - heat(900C,21h,in flowing O2) - heat(930C,21h,in flowing O2) - ANN(450C,23h)" "Effects of calcium substitution on the superconducting properties of R1-xCaxBa2Cu3Oz (R = Eu, Gd, Er; 0 =< x =< 0.3) polycrystalline samples" 2006 "Institute of Solid State Physics, Bulgarian Academy of Sciences, 72, Tzarigradsko Chaussee Blvd., 1784 Sofia, Bulgaria" "Physica C, 436(2006)25"
40421 PHC4360025 Jc obtained from dM(magnetization) "(Er,Ca)Ba2Cu3O7" Er0.7Ca0.3Ba2Cu3Oz Er 0.7 Ca 0.3 Ba 2 Cu 3 O z 1 2006 Y123 A 3.823 3.8752 11.6924 K 75.7 75.7 "mixture - heat(900C,21h,in flowing O2) - heat(930C,21h,in flowing O2) - ANN(450C,23h)" "Effects of calcium substitution on the superconducting properties of R1-xCaxBa2Cu3Oz (R = Eu, Gd, Er; 0 =< x =< 0.3) polycrystalline samples" 2006 "Institute of Solid State Physics, Bulgarian Academy of Sciences, 72, Tzarigradsko Chaussee Blvd., 1784 Sofia, Bulgaria" "Physica C, 436(2006)25"
40422 PHC4360051 "(Cu,Tl)Ba2Ca2Cu3Oz" Tl0.5Ba2Ca2Cu3.5Oz Tl 0.5 Ba 2 Ca 2 Cu 3.5 O z 2006 Tl1223 A 3.913 15.08 K "Ba(NO3)2,Ca(NO3)2,Cu(CN)2,BeO,Tl2O3" "precursor(Cu-Ba-Ca-Be-Cu-O) was mixed with Tl2O3. Then, wrapped in Al-foil - SIN(880C,7min) - Q to RT" "Superconductivity in Be substituted by Ca in Cu0.5Tl0.5Ba2Can-1-yBeyCunO2n+4-d (n = 3,4 and y = 0.7, 1.5, 1.7, 2.0)" 2006 "Department of Physics, Quaid-i-Azam University, Islamabad 45320, Pakistan" "Physica C, 436(2006)51"
40423 PHC4360051 O-content measuring method not given. "(Cu,Tl)Ba2(Ca,Be)2Cu3Oz" Tl0.5Ba2Ca1.3Be0.7Cu3.5O7.886 Tl 0.5 Ba 2 Ca 1.3 Be 0.7 Cu 3.5 O z 7.886 2006 Tl1223 A 3.905 15.058 K 92 115 95 95 "Ba(NO3)2,Ca(NO3)2,Cu(CN)2,BeO,Tl2O3" "precursor(Cu-Ba-Ca-Be-Cu-O) was mixed with Tl2O3. Then, wrapped in Al-foil - SIN(880C,7min) - Q to RT" "Superconductivity in Be substituted by Ca in Cu0.5Tl0.5Ba2Can-1-yBeyCunO2n+4-d (n = 3,4 and y = 0.7, 1.5, 1.7, 2.0)" 2006 "Department of Physics, Quaid-i-Azam University, Islamabad 45320, Pakistan" "Physica C, 436(2006)51"
40424 PHC4360051 O-content measuring method not given. "(Cu,Tl)Ba2(Ca,Be)2Cu3Oz" Tl0.5Ba2Ca0.3Be1.7Cu3.5O7.685 Tl 0.5 Ba 2 Ca 0.3 Be 1.7 Cu 3.5 O z 7.685 2006 Tl1223 A 3.909 15.065 K 115 115 "Ba(NO3)2,Ca(NO3)2,Cu(CN)2,BeO,Tl2O3" "precursor(Cu-Ba-Ca-Be-Cu-O) was mixed with Tl2O3. Then, wrapped in Al-foil - SIN(880C,7min) - Q to RT" "Superconductivity in Be substituted by Ca in Cu0.5Tl0.5Ba2Can-1-yBeyCunO2n+4-d (n = 3,4 and y = 0.7, 1.5, 1.7, 2.0)" 2006 "Department of Physics, Quaid-i-Azam University, Islamabad 45320, Pakistan" "Physica C, 436(2006)51"
40425 PHC4360051 post ANN(600C). O-content measuring method not given. "(Cu,Tl)Ba2(Ca,Be)3Cu4Oz" Tl0.5Ba2Ca1.5Be1.5Cu4.5O9.887 Tl 0.5 Ba 2 Ca 1.5 Be 1.5 Cu 4.5 O z 9.887 2006 Tl1234 K 96 110 115 115 "Ba(NO3)2,Ca(NO3)2,Cu(CN)2,BeO,Tl2O3" "precursor(Cu-Ba-Ca-Be-Cu-O) was mixed with Tl2O3. Then, wrapped in Al-foil - SIN(880C,7min) - Q to RT" "Superconductivity in Be substituted by Ca in Cu0.5Tl0.5Ba2Can-1-yBeyCunO2n+4-d (n = 3,4 and y = 0.7, 1.5, 1.7, 2.0)" 2006 "Department of Physics, Quaid-i-Azam University, Islamabad 45320, Pakistan" "Physica C, 436(2006)51"
40426 PHC4360051 post ANN(600C). O-content measuring method not given. "(Cu,Tl)Ba2(Ca,Be)3Cu4Oz" Tl0.5Ba2Ca1Be2Cu4.5O9.948 Tl 0.5 Ba 2 Ca 1 Be 2 Cu 4.5 O z 9.948 2006 Tl1234 K 96 110 110 "Ba(NO3)2,Ca(NO3)2,Cu(CN)2,BeO,Tl2O3" "precursor(Cu-Ba-Ca-Be-Cu-O) was mixed with Tl2O3. Then, wrapped in Al-foil - SIN(880C,7min) - Q to RT" "Superconductivity in Be substituted by Ca in Cu0.5Tl0.5Ba2Can-1-yBeyCunO2n+4-d (n = 3,4 and y = 0.7, 1.5, 1.7, 2.0)" 2006 "Department of Physics, Quaid-i-Azam University, Islamabad 45320, Pakistan" "Physica C, 436(2006)51"
40427 PHC4360081 O-content = 3.99 - 3.97. Hall coeff. RH(T) measured. "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O3.98 Pr 1.85 Ce 0.15 Cu 1 O 4-z 3.98 1 2006 T' A 3.968 12.121 K 21.2 21.2 "Pr6O11,CeO2,CuO,V2O5(or Ni2O3)" "mixture - CAL(920 and 960C,24h, in air) - SIN(1000C,24h) - ANN(900-960C,12h, in flowing N2)" Effect on superconductivity of high valence ions V4+ and Ni3+ substitution for Cu site in Pr1.85Ce0.15CuO4-d system 2006 "Department of Physics, Shanghai University, Shangda Road, 99, Shanghai 200444, China" "Physica C, 436(2006)81"
40428 PHC4360081 O-content = 3.99 - 3.97. Hall coeff. RH(T) measured. "(Pr,Ce)2(Cu,V)O4" Pr1.85Ce0.15Cu0.99V0.01O3.98 Pr 1.85 Ce 0.15 Cu 0.99 V 0.01 O 4-z 3.98 1 2006 T' A 3.964 12.158 K 22 22 "Pr6O11,CeO2,CuO,V2O5(or Ni2O3)" "mixture - CAL(920 and 960C,24h, in air) - SIN(1000C,24h) - ANN(900-960C,12h, in flowing N2)" Effect on superconductivity of high valence ions V4+ and Ni3+ substitution for Cu site in Pr1.85Ce0.15CuO4-d system 2006 "Department of Physics, Shanghai University, Shangda Road, 99, Shanghai 200444, China" "Physica C, 436(2006)81"
40429 PHC4360081 O-content = 3.99 - 3.97. Hall coeff. RH(T) measured. "(Pr,Ce)2(Cu,V)O4" Pr1.85Ce0.15Cu0.98V0.02O3.98 Pr 1.85 Ce 0.15 Cu 0.98 V 0.02 O 4-z 3.98 1 2006 T' A 3.965 12.153 K 22.3 22.3 "Pr6O11,CeO2,CuO,V2O5(or Ni2O3)" "mixture - CAL(920 and 960C,24h, in air) - SIN(1000C,24h) - ANN(900-960C,12h, in flowing N2)" Effect on superconductivity of high valence ions V4+ and Ni3+ substitution for Cu site in Pr1.85Ce0.15CuO4-d system 2006 "Department of Physics, Shanghai University, Shangda Road, 99, Shanghai 200444, China" "Physica C, 436(2006)81"
40430 PHC4360081 O-content = 3.99 - 3.97. Hall coeff. RH(T) measured. "(Pr,Ce)2(Cu,V)O4" Pr1.85Ce0.15Cu0.97V0.03O3.98 Pr 1.85 Ce 0.15 Cu 0.97 V 0.03 O 4-z 3.98 1 2006 T' A 3.964 12.15 K 21.2 21.2 "Pr6O11,CeO2,CuO,V2O5(or Ni2O3)" "mixture - CAL(920 and 960C,24h, in air) - SIN(1000C,24h) - ANN(900-960C,12h, in flowing N2)" Effect on superconductivity of high valence ions V4+ and Ni3+ substitution for Cu site in Pr1.85Ce0.15CuO4-d system 2006 "Department of Physics, Shanghai University, Shangda Road, 99, Shanghai 200444, China" "Physica C, 436(2006)81"
40431 PHC4360081 O-content = 3.99 - 3.97. Hall coeff. RH(T) measured. "(Pr,Ce)2(Cu,V)O4" Pr1.85Ce0.15Cu0.96V0.04O3.98 Pr 1.85 Ce 0.15 Cu 0.96 V 0.04 O 4-z 3.98 1 2006 T' A 3.961 12.157 K 22.4 25.6 22.4 "Pr6O11,CeO2,CuO,V2O5(or Ni2O3)" "mixture - CAL(920 and 960C,24h, in air) - SIN(1000C,24h) - ANN(900-960C,12h, in flowing N2)" Effect on superconductivity of high valence ions V4+ and Ni3+ substitution for Cu site in Pr1.85Ce0.15CuO4-d system 2006 "Department of Physics, Shanghai University, Shangda Road, 99, Shanghai 200444, China" "Physica C, 436(2006)81"
40432 PHC4360081 Hall coeff. RH(T) measured. "(Pr,Ce)2(Cu,V)O4" Pr1.85Ce0.15Cu0.94V0.06O4-z Pr 1.85 Ce 0.15 Cu 0.94 V 0.06 O 4-z 1 2006 T' A 3.957 12.199 K 15.4 15.4 "Pr6O11,CeO2,CuO,V2O5(or Ni2O3)" "mixture - CAL(920 and 960C,24h, in air) - SIN(1000C,24h) - ANN(900-960C,12h, in flowing N2)" Effect on superconductivity of high valence ions V4+ and Ni3+ substitution for Cu site in Pr1.85Ce0.15CuO4-d system 2006 "Department of Physics, Shanghai University, Shangda Road, 99, Shanghai 200444, China" "Physica C, 436(2006)81"
40433 PHC4360081 Hall coeff. RH(T) measured. "(Pr,Ce)2(Cu,V)O4" Pr1.85Ce0.15Cu0.92V0.08O4-z Pr 1.85 Ce 0.15 Cu 0.92 V 0.08 O 4-z 1 2006 T' A 3.954 12.236 K 4.2 "Pr6O11,CeO2,CuO,V2O5(or Ni2O3)" "mixture - CAL(920 and 960C,24h, in air) - SIN(1000C,24h) - ANN(900-960C,12h, in flowing N2)" Effect on superconductivity of high valence ions V4+ and Ni3+ substitution for Cu site in Pr1.85Ce0.15CuO4-d system 2006 "Department of Physics, Shanghai University, Shangda Road, 99, Shanghai 200444, China" "Physica C, 436(2006)81"
40434 PHC4360081 Hall coeff. RH(T) measured. "(Pr,Ce)2(Cu,V)O4" Pr1.85Ce0.15Cu0.9V0.1O4-z Pr 1.85 Ce 0.15 Cu 0.9 V 0.1 O 4-z 1 2006 T' A 3.95 12.255 K 4.2 "Pr6O11,CeO2,CuO,V2O5(or Ni2O3)" "mixture - CAL(920 and 960C,24h, in air) - SIN(1000C,24h) - ANN(900-960C,12h, in flowing N2)" Effect on superconductivity of high valence ions V4+ and Ni3+ substitution for Cu site in Pr1.85Ce0.15CuO4-d system 2006 "Department of Physics, Shanghai University, Shangda Road, 99, Shanghai 200444, China" "Physica C, 436(2006)81"
40435 PHC4360081 Hall coeff. RH(T) measured. "(Pr,Ce)2(Cu,Ni)O4" Pr1.85Ce0.15Cu0.995Ni0.005O4-z Pr 1.85 Ce 0.15 Cu 0.995 Ni 0.005 O 4-z 1 2006 T' A 3.961 12.189 K 17.5 17.5 "Pr6O11,CeO2,CuO,V2O5(or Ni2O3)" "mixture - CAL(920 and 960C,24h, in air) - SIN(1000C,24h) - ANN(900-960C,12h, in flowing N2)" Effect on superconductivity of high valence ions V4+ and Ni3+ substitution for Cu site in Pr1.85Ce0.15CuO4-d system 2006 "Department of Physics, Shanghai University, Shangda Road, 99, Shanghai 200444, China" "Physica C, 436(2006)81"
40436 PHC4360081 Hall coeff. RH(T) measured. "(Pr,Ce)2(Cu,Ni)O4" Pr1.85Ce0.15Cu0.99Ni0.01O4-z Pr 1.85 Ce 0.15 Cu 0.99 Ni 0.01 O 4-z 1 2006 T' A 3.96 12.198 K 4.2 "Pr6O11,CeO2,CuO,V2O5(or Ni2O3)" "mixture - CAL(920 and 960C,24h, in air) - SIN(1000C,24h) - ANN(900-960C,12h, in flowing N2)" Effect on superconductivity of high valence ions V4+ and Ni3+ substitution for Cu site in Pr1.85Ce0.15CuO4-d system 2006 "Department of Physics, Shanghai University, Shangda Road, 99, Shanghai 200444, China" "Physica C, 436(2006)81"
40437 PCS0670529 CeCu2Si2 Ce1Cu2Si2 Ce 1 Cu 2 Si 2 3 2006 K 0.73 0.73 MTC40437 "excess Cu flux. (40 mol %Cu + 60 mol %CeCu2(Si,Ge)2)" Superconducting phases and quantum criticality in CeCu2Si2 2006 "MPI for Chemical Physics of Solids, High Pressure Science Section, Dresden 01187 Germany" "J.Phys.Chem.Solids, 67(2006)529"
40438 PCS0670529 Two SC regions. Tc(max) = 0.96K (P=5.4 GPa) for region-1 and Tc(max) = 0.39 K (P=1 GPa) for region-2. "CeCu2(Si,Ge)2" Ce1Cu2Si1.8Ge0.2 Ce 1 Cu 2 Si 1.8 Ge 0.2 3 2006 1.3 K 0.12 0.12 MTC40438 "excess Cu flux. (40 mol %Cu + 60 mol %CeCu2(Si,Ge)2)" Superconducting phases and quantum criticality in CeCu2Si2 2006 "MPI for Chemical Physics of Solids, High Pressure Science Section, Dresden 01187 Germany" "J.Phys.Chem.Solids, 67(2006)529"
40439 PCS0670529 not SC "CeCu2(Si,Ge)2" Ce1Cu2Si1.5Ge0.5 Ce 1 Cu 2 Si 1.5 Ge 0.5 3 2006 1.9 K 0.2 MTC40439 "excess Cu flux. (40 mol %Cu + 60 mol %CeCu2(Si,Ge)2)" Superconducting phases and quantum criticality in CeCu2Si2 2006 "MPI for Chemical Physics of Solids, High Pressure Science Section, Dresden 01187 Germany" "J.Phys.Chem.Solids, 67(2006)529"
40440 PHC4340141 La3CaBa3Cu7Oz La3Ca1Ba3Cu7O16.678 La 3 Ca 1 Ba 3 Cu 7 O z 16.678 1 2006 3137 A 3.866 11.6218 K 80 81 80.5 "La2O3,CdO,CaCO3,BaCO3,CuO" "To obtain fully oxygenated samples, ANN(773K, 12h, in O2-flow), then slow cool to RT (1K/min)" On the effect of Cd doping for Ca in La3CaBa3Cu7Oy superconducting cuprate 2006 "Faculty of Science, Department of Chemistry, Tanta University, Tanta 31527, Egypt" "Physica C, 434(2006)141"
40441 PHC4340141 "La3(Ca,Cd)Ba3Cu7Oz" La3Ca0.9Cd0.1Ba3Cu7O16.611 La 3 Ca 0.9 Cd 0.1 Ba 3 Cu 7 O z 16.611 1 2006 3137 A 3.8662 11.6287 K 77 78 77.5 "La2O3,CdO,CaCO3,BaCO3,CuO" "To obtain fully oxygenated samples, ANN(773K, 12h, in O2-flow), then slow cool to RT (1K/min)" On the effect of Cd doping for Ca in La3CaBa3Cu7Oy superconducting cuprate 2006 "Faculty of Science, Department of Chemistry, Tanta University, Tanta 31527, Egypt" "Physica C, 434(2006)141"
40442 PHC4340141 "La3(Ca,Cd)Ba3Cu7Oz" La3Ca0.8Cd0.2Ba3Cu7O16.536 La 3 Ca 0.8 Cd 0.2 Ba 3 Cu 7 O z 16.536 1 2006 3137 A 3.8668 11.6324 K 75 77 76 "La2O3,CdO,CaCO3,BaCO3,CuO" "To obtain fully oxygenated samples, ANN(773K, 12h, in O2-flow), then slow cool to RT (1K/min)" On the effect of Cd doping for Ca in La3CaBa3Cu7Oy superconducting cuprate 2006 "Faculty of Science, Department of Chemistry, Tanta University, Tanta 31527, Egypt" "Physica C, 434(2006)141"
40443 PHC4340141 "La3(Ca,Cd)Ba3Cu7Oz" La3Ca0.7Cd0.3Ba3Cu7O16.459 La 3 Ca 0.7 Cd 0.3 Ba 3 Cu 7 O z 16.459 1 2006 3137 A 3.8676 11.6369 K 70 73 71.5 "La2O3,CdO,CaCO3,BaCO3,CuO" "To obtain fully oxygenated samples, ANN(773K, 12h, in O2-flow), then slow cool to RT (1K/min)" On the effect of Cd doping for Ca in La3CaBa3Cu7Oy superconducting cuprate 2006 "Faculty of Science, Department of Chemistry, Tanta University, Tanta 31527, Egypt" "Physica C, 434(2006)141"
40444 PHC4340141 "La3(Ca,Cd)Ba3Cu7Oz" La3Ca0.6Cd0.4Ba3Cu7O16.41 La 3 Ca 0.6 Cd 0.4 Ba 3 Cu 7 O z 16.41 1 2006 3137 A 3.8685 11.6492 K 65 70 67.5 "La2O3,CdO,CaCO3,BaCO3,CuO" "To obtain fully oxygenated samples, ANN(773K, 12h, in O2-flow), then slow cool to RT (1K/min)" On the effect of Cd doping for Ca in La3CaBa3Cu7Oy superconducting cuprate 2006 "Faculty of Science, Department of Chemistry, Tanta University, Tanta 31527, Egypt" "Physica C, 434(2006)141"
40445 PHC4340141 "La3(Ca,Cd)Ba3Cu7Oz" La3Ca0.5Cd0.5Ba3Cu7O16.375 La 3 Ca 0.5 Cd 0.5 Ba 3 Cu 7 O z 16.375 1 2006 3137 A 3.8692 11.6586 K 56 62 59 "La2O3,CdO,CaCO3,BaCO3,CuO" "To obtain fully oxygenated samples, ANN(773K, 12h, in O2-flow), then slow cool to RT (1K/min)" On the effect of Cd doping for Ca in La3CaBa3Cu7Oy superconducting cuprate 2006 "Faculty of Science, Department of Chemistry, Tanta University, Tanta 31527, Egypt" "Physica C, 434(2006)141"
40446 PHC4340141 "La3(Ca,Cd)Ba3Cu7Oz" La3Ca0.4Cd0.6Ba3Cu7O16.336 La 3 Ca 0.4 Cd 0.6 Ba 3 Cu 7 O z 16.336 1 2006 3137 A 3.8701 11.6695 K 45 52 48.5 "La2O3,CdO,CaCO3,BaCO3,CuO" "To obtain fully oxygenated samples, ANN(773K, 12h, in O2-flow), then slow cool to RT (1K/min)" On the effect of Cd doping for Ca in La3CaBa3Cu7Oy superconducting cuprate 2006 "Faculty of Science, Department of Chemistry, Tanta University, Tanta 31527, Egypt" "Physica C, 434(2006)141"
40447 PHC4340141 "La3(Ca,Cd)Ba3Cu7Oz" La3Ca0.3Cd0.7Ba3Cu7O16.303 La 3 Ca 0.3 Cd 0.7 Ba 3 Cu 7 O z 16.303 1 2006 3137 A 3.871 11.6826 K 32 40 36 "La2O3,CdO,CaCO3,BaCO3,CuO" "To obtain fully oxygenated samples, ANN(773K, 12h, in O2-flow), then slow cool to RT (1K/min)" On the effect of Cd doping for Ca in La3CaBa3Cu7Oy superconducting cuprate 2006 "Faculty of Science, Department of Chemistry, Tanta University, Tanta 31527, Egypt" "Physica C, 434(2006)141"
40448 PHC4340141 "La3(Ca,Cd)Ba3Cu7Oz" La3Ca0.2Cd0.8Ba3Cu7O16.261 La 3 Ca 0.2 Cd 0.8 Ba 3 Cu 7 O z 16.261 1 2006 3137 A 3.8717 11.6949 K 26 "La2O3,CdO,CaCO3,BaCO3,CuO" "To obtain fully oxygenated samples, ANN(773K, 12h, in O2-flow), then slow cool to RT (1K/min)" On the effect of Cd doping for Ca in La3CaBa3Cu7Oy superconducting cuprate 2006 "Faculty of Science, Department of Chemistry, Tanta University, Tanta 31527, Egypt" "Physica C, 434(2006)141"
40449 PHC4340141 "La3(Ca,Cd)Ba3Cu7Oz" La3Ca0.1Cd0.9Ba3Cu7O16.217 La 3 Ca 0.1 Cd 0.9 Ba 3 Cu 7 O z 16.217 1 2006 3137 A 3.8726 11.7073 K 5 "La2O3,CdO,CaCO3,BaCO3,CuO" "To obtain fully oxygenated samples, ANN(773K, 12h, in O2-flow), then slow cool to RT (1K/min)" On the effect of Cd doping for Ca in La3CaBa3Cu7Oy superconducting cuprate 2006 "Faculty of Science, Department of Chemistry, Tanta University, Tanta 31527, Egypt" "Physica C, 434(2006)141"
40450 PHC4340141 La3CdBa3Cu7Oz La3Cd1Ba3Cu7O16.188 La 3 Cd 1 Ba 3 Cu 7 O z 16.188 1 2006 3137 A 3.8738 11.7168 K 5 "La2O3,CdO,CaCO3,BaCO3,CuO" "To obtain fully oxygenated samples, ANN(773K, 12h, in O2-flow), then slow cool to RT (1K/min)" On the effect of Cd doping for Ca in La3CaBa3Cu7Oy superconducting cuprate 2006 "Faculty of Science, Department of Chemistry, Tanta University, Tanta 31527, Egypt" "Physica C, 434(2006)141"
40451 PHC4340178 NdBa2Cu3O7 Nd1Ba2Cu3O7 Nd 1 Ba 2 Cu 3 O 6+z 7 1 2006 Y123 A 3.8649 3.9163 11.767 K 95.1 95.1 "Nd2O3(or Pr6O11),BaCO3,SrCO3,CuO" "mixture - SIN(950-980C) - heat(950(Nd), 900(Pr), 10h, in flowing gas(Ar:O2=100:1)) - slow cool to 400C ANN(400C,60h, in flowing O2) - FC to RT" Comparison of the Sr substitution effect on Nd(Ba1 xSrx)2Cu3O6+d and Pr(Ba1-xSrx)2Cu3O6+d prepared under reducing atmosphere 2006 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), 1-1 Oho, Tsukuba, Ibaraki 305-0801, Japan" "Physica C, 434(2006)178"
40452 PHC4340178 Sr partially occupied Nd site. Nd partially on Ba site "Nd(Ba,Sr)2Cu3O7" Nd1Ba1.8Sr0.2Cu3O6.96 Nd 1 Ba 1.8 Sr 0.2 Cu 3 O 6+z 6.96 1 2006 Y123 A 3.8646 3.9043 11.741 K 91.1 91.1 "Nd2O3(or Pr6O11),BaCO3,SrCO3,CuO" "mixture - SIN(950-980C) - heat(950(Nd), 900(Pr), 10h, in flowing gas(Ar:O2=100:1)) - slow cool to 400C ANN(400C,60h, in flowing O2) - FC to RT" Comparison of the Sr substitution effect on Nd(Ba1 xSrx)2Cu3O6+d and Pr(Ba1-xSrx)2Cu3O6+d prepared under reducing atmosphere 2006 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), 1-1 Oho, Tsukuba, Ibaraki 305-0801, Japan" "Physica C, 434(2006)178"
40453 PHC4340178 Sr partially occupied Nd site. Nd partially on Ba site "Nd(Ba,Sr)2Cu3O7" Nd1Ba1.6Sr0.4Cu3O6.94 Nd 1 Ba 1.6 Sr 0.4 Cu 3 O 6+z 6.94 1 2006 Y123 A 3.8656 3.8954 11.719 K 86 86 "Nd2O3(or Pr6O11),BaCO3,SrCO3,CuO" "mixture - SIN(950-980C) - heat(950(Nd), 900(Pr), 10h, in flowing gas(Ar:O2=100:1)) - slow cool to 400C ANN(400C,60h, in flowing O2) - FC to RT" Comparison of the Sr substitution effect on Nd(Ba1 xSrx)2Cu3O6+d and Pr(Ba1-xSrx)2Cu3O6+d prepared under reducing atmosphere 2006 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), 1-1 Oho, Tsukuba, Ibaraki 305-0801, Japan" "Physica C, 434(2006)178"
40454 PHC4340178 Sr partially occupied Nd site. Nd partially on Ba site "Nd(Ba,Sr)2Cu3O7" Nd1Ba1.4Sr0.6Cu3O6.94 Nd 1 Ba 1.4 Sr 0.6 Cu 3 O 6+z 6.94 1 2006 Y123 A 3.8702 3.8856 11.699 K 75 75 "Nd2O3(or Pr6O11),BaCO3,SrCO3,CuO" "mixture - SIN(950-980C) - heat(950(Nd), 900(Pr), 10h, in flowing gas(Ar:O2=100:1)) - slow cool to 400C ANN(400C,60h, in flowing O2) - FC to RT" Comparison of the Sr substitution effect on Nd(Ba1 xSrx)2Cu3O6+d and Pr(Ba1-xSrx)2Cu3O6+d prepared under reducing atmosphere 2006 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), 1-1 Oho, Tsukuba, Ibaraki 305-0801, Japan" "Physica C, 434(2006)178"
40455 PHC4340178 Sr partially occupied Nd site. Nd partially on Ba site "Nd(Ba,Sr)2Cu3O7" Nd1Ba1.2Sr0.8Cu3O6.97 Nd 1 Ba 1.2 Sr 0.8 Cu 3 O 6+z 6.97 1 2006 Y123 A 3.869 3.8757 11.673 K 66.9 66.9 "Nd2O3(or Pr6O11),BaCO3,SrCO3,CuO" "mixture - SIN(950-980C) - heat(950(Nd), 900(Pr), 10h, in flowing gas(Ar:O2=100:1)) - slow cool to 400C ANN(400C,60h, in flowing O2) - FC to RT" Comparison of the Sr substitution effect on Nd(Ba1 xSrx)2Cu3O6+d and Pr(Ba1-xSrx)2Cu3O6+d prepared under reducing atmosphere 2006 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), 1-1 Oho, Tsukuba, Ibaraki 305-0801, Japan" "Physica C, 434(2006)178"
40456 PHC4340178 Sr partially occupied Nd site. Nd partially on Ba site "Nd(Ba,Sr)2Cu3O7" Nd1Ba1Sr1Cu3O7.02 Nd 1 Ba 1 Sr 1 Cu 3 O 6+z 7.02 1 2006 Y123 A 3.8667 3.8691 11.637 K 49.9 49.9 "Nd2O3(or Pr6O11),BaCO3,SrCO3,CuO" "mixture - SIN(950-980C) - heat(950(Nd), 900(Pr), 10h, in flowing gas(Ar:O2=100:1)) - slow cool to 400C ANN(400C,60h, in flowing O2) - FC to RT" Comparison of the Sr substitution effect on Nd(Ba1 xSrx)2Cu3O6+d and Pr(Ba1-xSrx)2Cu3O6+d prepared under reducing atmosphere 2006 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), 1-1 Oho, Tsukuba, Ibaraki 305-0801, Japan" "Physica C, 434(2006)178"
40457 PHC4340178 not SC PrBa2Cu3O7 Pr1Ba2Cu3O6.98 Pr 1 Ba 2 Cu 3 O 6+z 6.98 1 2006 16.8 Y123 A 3.8565 3.9238 11.699 K 4 "Nd2O3(or Pr6O11),BaCO3,SrCO3,CuO" "mixture - SIN(950-980C) - heat(950(Nd), 900(Pr), 10h, in flowing gas(Ar:O2=100:1)) - slow cool to 400C ANN(400C,60h, in flowing O2) - FC to RT" Comparison of the Sr substitution effect on Nd(Ba1 xSrx)2Cu3O6+d and Pr(Ba1-xSrx)2Cu3O6+d prepared under reducing atmosphere 2006 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), 1-1 Oho, Tsukuba, Ibaraki 305-0801, Japan" "Physica C, 434(2006)178"
40458 PHC4340178 not SC "Pr(Ba,Sr)2Cu3O7" Pr1Ba1.8Sr0.2Cu3O6.97 Pr 1 Ba 1.8 Sr 0.2 Cu 3 O 6+z 6.97 1 2006 18.8 Y123 A 3.8542 3.9197 11.688 K 4 "Nd2O3(or Pr6O11),BaCO3,SrCO3,CuO" "mixture - SIN(950-980C) - heat(950(Nd), 900(Pr), 10h, in flowing gas(Ar:O2=100:1)) - slow cool to 400C ANN(400C,60h, in flowing O2) - FC to RT" Comparison of the Sr substitution effect on Nd(Ba1 xSrx)2Cu3O6+d and Pr(Ba1-xSrx)2Cu3O6+d prepared under reducing atmosphere 2006 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), 1-1 Oho, Tsukuba, Ibaraki 305-0801, Japan" "Physica C, 434(2006)178"
40459 PHC4340178 not SC "Pr(Ba,Sr)2Cu3O7" Pr1Ba1.6Sr0.4Cu3O6.99 Pr 1 Ba 1.6 Sr 0.4 Cu 3 O 6+z 6.99 1 2006 19.8 Y123 A 3.856 3.9069 11.663 K 4 "Nd2O3(or Pr6O11),BaCO3,SrCO3,CuO" "mixture - SIN(950-980C) - heat(950(Nd), 900(Pr), 10h, in flowing gas(Ar:O2=100:1)) - slow cool to 400C ANN(400C,60h, in flowing O2) - FC to RT" Comparison of the Sr substitution effect on Nd(Ba1 xSrx)2Cu3O6+d and Pr(Ba1-xSrx)2Cu3O6+d prepared under reducing atmosphere 2006 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), 1-1 Oho, Tsukuba, Ibaraki 305-0801, Japan" "Physica C, 434(2006)178"
40460 PHC4340178 not SC "Pr(Ba,Sr)2Cu3O7" Pr1Ba1.4Sr0.6Cu3O6.97 Pr 1 Ba 1.4 Sr 0.6 Cu 3 O 6+z 6.97 1 2006 20.6 Y123 A 3.872 3.8852 11.643 K 4 "Nd2O3(or Pr6O11),BaCO3,SrCO3,CuO" "mixture - SIN(950-980C) - heat(950(Nd), 900(Pr), 10h, in flowing gas(Ar:O2=100:1)) - slow cool to 400C ANN(400C,60h, in flowing O2) - FC to RT" Comparison of the Sr substitution effect on Nd(Ba1 xSrx)2Cu3O6+d and Pr(Ba1-xSrx)2Cu3O6+d prepared under reducing atmosphere 2006 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), 1-1 Oho, Tsukuba, Ibaraki 305-0801, Japan" "Physica C, 434(2006)178"
40461 PHC4340178 not SC "Pr(Ba,Sr)2Cu3O7" Pr1Ba1.2Sr0.8Cu3O6.96 Pr 1 Ba 1.2 Sr 0.8 Cu 3 O 6+z 6.96 1 2006 18.8 Y123 A 3.8648 11.638 K 4 "Nd2O3(or Pr6O11),BaCO3,SrCO3,CuO" "mixture - SIN(950-980C) - heat(950(Nd), 900(Pr), 10h, in flowing gas(Ar:O2=100:1)) - slow cool to 400C ANN(400C,60h, in flowing O2) - FC to RT" Comparison of the Sr substitution effect on Nd(Ba1 xSrx)2Cu3O6+d and Pr(Ba1-xSrx)2Cu3O6+d prepared under reducing atmosphere 2006 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), 1-1 Oho, Tsukuba, Ibaraki 305-0801, Japan" "Physica C, 434(2006)178"
40462 PHC4340178 not SC "Pr(Ba,Sr)2Cu3O7" Pr1Ba1Sr1Cu3O6.98 Pr 1 Ba 1 Sr 1 Cu 3 O 6+z 6.98 1 2006 16.2 Y123 A 3.8626 11.624 K 4 "Nd2O3(or Pr6O11),BaCO3,SrCO3,CuO" "mixture - SIN(950-980C) - heat(950(Nd), 900(Pr), 10h, in flowing gas(Ar:O2=100:1)) - slow cool to 400C ANN(400C,60h, in flowing O2) - FC to RT" Comparison of the Sr substitution effect on Nd(Ba1 xSrx)2Cu3O6+d and Pr(Ba1-xSrx)2Cu3O6+d prepared under reducing atmosphere 2006 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), 1-1 Oho, Tsukuba, Ibaraki 305-0801, Japan" "Physica C, 434(2006)178"
40463 P066014531 "not SC. thickness = 1000A. ANN(650C, 5.0E-7 Torr < P(O2) < 1.0E-6 Torr)" "(La,Ce)2CuO4" La1.94Ce0.06Cu1O4 La 1.94 Ce 0.06 Cu 1 O 4 4 2002 T' A 12.4811 K 4 m3/C -5.40E-10 RH40463 films deposited on (100)SrTiO3 substrates by a pulsed laser deposition. buffer layer = BTO Electron-doped superconductor La2-xCexCuO4: Preparation of thin films and modified doping range for superconductivity 2002 "Correlated Electron Research Center (CERC), National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki, Japan" "Phys.Rev.B, 66(2002)14531"
40464 P066014531 "thickness = 1000A. ANN(650C, 5.0E-7 Torr < P(O2) < 1.0E-6 Torr)" "(La,Ce)2CuO4" La1.92Ce0.08Cu1O4 La 1.92 Ce 0.08 Cu 1 O 4 4 2002 T' A 12.4707 K 13.9 13.9 m3/C -3.10E-10 RH40464 films deposited on (100)SrTiO3 substrates by a pulsed laser deposition. buffer layer = BTO Electron-doped superconductor La2-xCexCuO4: Preparation of thin films and modified doping range for superconductivity 2002 "Correlated Electron Research Center (CERC), National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki, Japan" "Phys.Rev.B, 66(2002)14531"
40465 P066014531 "thickness = 1000A. ANN(650C, 5.0E-7 Torr < P(O2) < 1.0E-6 Torr)" "(La,Ce)2CuO4" La1.89Ce0.11Cu1O4 La 1.89 Ce 0.11 Cu 1 O 4 4 2002 T' A 12.4507 K 24.9 24.9 m3/C -4.40E-10 RH40465 films deposited on (100)SrTiO3 substrates by a pulsed laser deposition. buffer layer = BTO Electron-doped superconductor La2-xCexCuO4: Preparation of thin films and modified doping range for superconductivity 2002 "Correlated Electron Research Center (CERC), National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki, Japan" "Phys.Rev.B, 66(2002)14531"
40466 P066014531 "thickness = 1000A. ANN(650C, 5.0E-7 Torr < P(O2) < 1.0E-6 Torr)" "(La,Ce)2CuO4" La1.87Ce0.13Cu1O4 La 1.87 Ce 0.13 Cu 1 O 4 4 2002 T' A 12.4307 K 22 22 m3/C -3.00E-11 RH40466 films deposited on (100)SrTiO3 substrates by a pulsed laser deposition. buffer layer = BTO Electron-doped superconductor La2-xCexCuO4: Preparation of thin films and modified doping range for superconductivity 2002 "Correlated Electron Research Center (CERC), National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki, Japan" "Phys.Rev.B, 66(2002)14531"
40467 P066014531 "thickness = 1000A. ANN(650C, 5.0E-7 Torr < P(O2) < 1.0E-6 Torr)" "(La,Ce)2CuO4" La1.85Ce0.15Cu1O4 La 1.85 Ce 0.15 Cu 1 O 4 4 2002 T' A 12.4211 K 10 10 m3/C 1.80E-10 RH40467 films deposited on (100)SrTiO3 substrates by a pulsed laser deposition. buffer layer = BTO Electron-doped superconductor La2-xCexCuO4: Preparation of thin films and modified doping range for superconductivity 2002 "Correlated Electron Research Center (CERC), National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki, Japan" "Phys.Rev.B, 66(2002)14531"
40468 P066014531 "R is not zero at 4 K. thickness = 1000A. ANN(650C, 5.0E-7 Torr < P(O2) < 1.0E-6 Torr)" "(La,Ce)2CuO4" La1.84Ce0.16Cu1O4 La 1.84 Ce 0.16 Cu 1 O 4 4 2002 T' A 12.4011 K 6 m3/C 4.00E-10 RH40468 films deposited on (100)SrTiO3 substrates by a pulsed laser deposition. buffer layer = BTO Electron-doped superconductor La2-xCexCuO4: Preparation of thin films and modified doping range for superconductivity 2002 "Correlated Electron Research Center (CERC), National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki, Japan" "Phys.Rev.B, 66(2002)14531"
40469 PRL0744927 Hall coeffic. measured "(Pr,Ce)2CuO4" Pr1.96Ce0.04Cu1O4 Pr 1.96 Ce 0.04 Cu 1 O 4 3 1995 T' K 23.6 23.6 TC40469 "new reduction process: single crystals sandwiched with the same composition crystals, then heat(1080C,80h)" Extended superconducting concentration range observed in Pr2-xCexCuO4-z 1995 "Ruhr-Universitat Bochum, Bochum,Germany" "Phys.Rev.Lett., 74(1995)4927"
40470 PRL0744927 Hall coeffic. measured "(Pr,Ce)2CuO4" Pr1.91Ce0.09Cu1O4 Pr 1.91 Ce 0.09 Cu 1 O 4 3 1995 T' K 21.5 21.5 "new reduction process: single crystals sandwiched with the same composition crystals, then heat(1080C,80h)" Extended superconducting concentration range observed in Pr2-xCexCuO4-z 1995 "Ruhr-Universitat Bochum, Bochum,Germany" "Phys.Rev.Lett., 74(1995)4927"
40471 PRL0744927 Hall coeffic. measured "(Pr,Ce)2CuO4" Pr1.83Ce0.17Cu1O4 Pr 1.83 Ce 0.17 Cu 1 O 4 3 1995 T' K 20.3 20.3 "new reduction process: single crystals sandwiched with the same composition crystals, then heat(1080C,80h)" Extended superconducting concentration range observed in Pr2-xCexCuO4-z 1995 "Ruhr-Universitat Bochum, Bochum,Germany" "Phys.Rev.Lett., 74(1995)4927"
40472 PR0510404 (dC/gamma*Tc) = 1.49 UBe13 Be13U1 Be 13 U 1 1 1995 K 2.06 2.06 J/mol.K2 1.31 arc-melting Effects of boron substitution on the superconducting state of UBe13 1995 "Los Alamos National Laboratory," "Phys.Rev.B, 51(1995)404"
40473 PR0510404 (dC/gamma*Tc) = 2.12 "U(Be,B)13" U1Be12.9896B0.0104 U 1 Be 12.9896 B 0.0104 1 1995 K 1.89 1.89 J/mol.K2 1.28 arc-melting Effects of boron substitution on the superconducting state of UBe13 1995 "Los Alamos National Laboratory," "Phys.Rev.B, 51(1995)404"
40474 PR0510404 (dC/gamma*Tc) = 3.78 "U(Be,B)13" U1Be12.9701B0.0299 U 1 Be 12.9701 B 0.0299 1 1995 K 1.66 1.66 J/mol.K2 1.34 arc-melting Effects of boron substitution on the superconducting state of UBe13 1995 "Los Alamos National Laboratory," "Phys.Rev.B, 51(1995)404"
40475 PR0510404 (dC/gamma*Tc) = 2.63 "U(Be,B)13" U1Be12.9558B0.0442 U 1 Be 12.9558 B 0.0442 1 1995 K 0.988 0.988 J/mol.K2 1.98 arc-melting Effects of boron substitution on the superconducting state of UBe13 1995 "Los Alamos National Laboratory," "Phys.Rev.B, 51(1995)404"
40476 J075013706 as-cast. non-stoichiometric effect. CePt3Si Ce1Pt3.03Si0.97 Ce 1 Pt 3.03 Si 0.97 2006 CePt3B K 0.37 0.37 arc-melting Magnetism and Superconductivity of CePt3Si and Ce1+xPt3+ySi1+z 2006 "Graduate School of Material Science, University of Hyogo, Kamigori-cho, Ako-gun, Hyogo 678-1297" "J.Phys.Soc.Jpn, 75(2006)013706"
40477 J075013706 "as-annealed(950C,1w). non-stoichiometric effect." CePt3Si Ce1Pt2.97Si1 Ce 1 Pt 2.97 Si 1 2006 CePt3B K 0.72 0.72 arc-melting Magnetism and Superconductivity of CePt3Si and Ce1+xPt3+ySi1+z 2006 "Graduate School of Material Science, University of Hyogo, Kamigori-cho, Ako-gun, Hyogo 678-1297" "J.Phys.Soc.Jpn, 75(2006)013706"
40478 J075013706 "as-annealed(950C,1w). non-stoichiometric effect." CePt3Si Ce1.01Pt3Si1 Ce 1.01 Pt 3 Si 1 2006 CePt3B K 0.75 0.75 arc-melting Magnetism and Superconductivity of CePt3Si and Ce1+xPt3+ySi1+z 2006 "Graduate School of Material Science, University of Hyogo, Kamigori-cho, Ako-gun, Hyogo 678-1297" "J.Phys.Soc.Jpn, 75(2006)013706"
40479 MMM2580067 G-L = 10. LaFe4P12 La1Fe4P12 La 1 Fe 4 P 12 3 2003 skutterudite K 4.1 4.1 T MHC40479 A 140 A 1400 m3/C 1.50E-10 Sn-flux method Anomalous transport properties in the filled skutterudites 2003 "Department of Physics, Tokyo Metropolitan University, Hachioji-shi, Tokyo,Japan" "J.Mag.Mag.Mater., 258-259(2003)67"
40480 JP01201339 P-induced SC. some R-drop observed at P=0. Tc and Hc2 data for P=23 kbar. CeNi2Ge2 Ce1Ni2Ge2 Ce 1 Ni 2 Ge 2 3 2000 K 0.23 0.32 0 0.23 MTC40480 T/K 5 MHC40480 Czochralski method "Superconductivity, upper critical field and normal state resistivity in CeNi2Ge2 under pressure" 2000 "J.Phys.:Condens.Matter, 12(2000)1339"
40481 JP012L0533 P-induced SC. Tc(max) = 0.39 K at P = 2.72 GPa. CePd2Si2 Ce1Pd2Si2 Ce 1 Pd 2 Si 2 2000 K 0.39 0.12 0.39 MTC40481 Anomalous low temperature states in CeNi2Ge2 and CePd2Si2 2000 "Cavendish Laboratory, Cambridge,UK" "J.Phys.:Condens.Matter, 12(2000)L533"
40482 JP012L0533 Tc(max) = 0.34K at P=1.95GPa. CeNi2Ge2 Ce1Ni2Ge2 Ce 1 Ni 2 Ge 2 2000 K 0.2 0.2 MTC40482 Anomalous low temperature states in CeNi2Ge2 and CePd2Si2 2000 "Cavendish Laboratory, Cambridge,UK" "J.Phys.:Condens.Matter, 12(2000)L533"
40483 J075043703 no inversion symmetry. P-induced SC. Pcrit = 1.8 GPa. Curie-T = -109K for H//[100] and =-186K for H//[001] (TBL value). SC properties are for P=2.5 GPa. RRR=98. CeIrSi3 Ce1Ir1Si3 Ce 1 Ir 1 Si 3 3 2006 -186 5 2 BaNiSn3 I4mm A 4.252 9.715 K 1.6 0 1.6 MTC40483 T 11.1 T/K 11.4 MHC40483 A Hc2(0) 54 mJ/mol.K2 120 uOhm.cm 1.4 "crystals grown using tetra-arc furnace, wrapped in Ta-foil, ANN(950C,5d, in sealed quartz tube." Pressure-Induced Heavy-Fermion Superconductivity in Antiferromagnet CeIrSi3 without Inversion Symmetry 2006 "1Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043" "J.Phys.Soc.Jpn, 75(2006)043703"
40484 J075043713 "5-fold structure. compositions, Ca:Al:Si=100:97:98" CaAlSi Ca1Al1Si1 Ca 1 Al 1 Si 1 3 2006 2 AlB2 P3 A 4.2169 22.0643 K 8.2 floating zone method Two Types of Multistack Structures in MgB2-Type Superconductor CaAlSi 2006 "Institute of Materials Structure Science, High Energy Accelerator Research Organization, Tsukuba, Ibaraki 305-0801" "J.Phys.Soc.Jpn, 75(2006)043713"
40485 J075043713 "6-fold structure. compositions, Ca:Al:Si=100:100:96" CaAlSi Ca1Al1Si1 Ca 1 Al 1 Si 1 3 2006 2 AlB2 P6<3> A 4.1842 26.3898 K 6 floating zone method Two Types of Multistack Structures in MgB2-Type Superconductor CaAlSi 2006 "Institute of Materials Structure Science, High Energy Accelerator Research Organization, Tsukuba, Ibaraki 305-0801" "J.Phys.Soc.Jpn, 75(2006)043713"
40486 J075044713 P-induced SC. SC properties are at P=6.8 GPa. Hc2(0) is estimated using WHH from [dHc2/dT]. measuring Hc2(0)= 1.55 T. Tc defined as Tc(mid). Pc(AF)=7GPa. Pc(SC)=1.7 GPa. Kondo-T = 4.5K. RRR=50 CeNiGe3 Ce1Ni1Ge3 Ce 1 Ni 1 Ge 3 1 2006 5.5 SmNiGe3 A 21.808 4.135 4.168 K 0.43 0 0.43 MTC40486 T from dHc2/dT 3.2 T/K 10.8 MHC40486 A from Hc2(0) 106 "See J.Phys:Condens.Matter,16(2004)L255" Pressure-Induced Superconductivity Emerging from Antiferromagnetic Phase in CeNiGe3 2006 "Graduate School of Natural Science and Technology, Okayama University, Tsushimanaka, Okayama 700-8530" "J.Phys.Soc.Jpn, 75(2006)044713"
40487 J075045002 beta pyrochlore. SC properties affect by water(moisture). Hc2 by rf-impedance. Anomalous phase transition at 7.5K. G-L = 80. KOs2O6 K1Os2O6 K 1 Os 2 O 6 3 2006 pyrochlore Fd[-]3m K 9.6 9.6 T rf-impedance 30.6 HC40487 A from Hc2(0) 33 A muon-SR 2700 uOhm.cm 5 "See J.Phys:Condens.Matter,16(2004)L9" Upper Critical Field of beta-Pyrochlore KOs2O6 Single Crystals 2006 "Institute for Solid State Physics, University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba 277-8581" "J.Phys.Soc.Jpn, 75(2006)045002"
40488 P073094509 not SC Yb2.75C60 C60Yb2.75 C 60 Yb 2.75 2006 fullerene K 2 "C60,Yb(Sm)" 1 "mixture - pelletize - heat(923K,24-72h)" Superconducting phase sequence in RxC60 fullerides (R=Sm and Yb) 2006 "Department of Physics, Graduate School of Science, Tohoku University and CREST-JST, 6-3 Aoba Aramaki Aoba-ku, Sendai, Miyagi 980-8578, Japan" "Phys.Rev.B, 73(2006)094509"
40489 P073094509 sample with x=3.5 in YbxC60 has maximum SC fraction. Yb3.5C60 C60Yb3.5 C 60 Yb 3.5 2006 fullerene K 6 6 "C60,Yb(Sm)" 1 "mixture - pelletize - heat(923K,24-72h)" Superconducting phase sequence in RxC60 fullerides (R=Sm and Yb) 2006 "Department of Physics, Graduate School of Science, Tohoku University and CREST-JST, 6-3 Aoba Aramaki Aoba-ku, Sendai, Miyagi 980-8578, Japan" "Phys.Rev.B, 73(2006)094509"
40490 P073094509 SmxC60 is not SC for 1= NQR measured. gap & Curie-T were obtained from NQR measurements. "Ce(Rh,Ir)In5" Ce1Rh0.4Ir0.6In5 Ce 1 Rh 0.4 Ir 0.6 In 5 3 2006 HoCoGa5 K 0.91 0.91 4.69 self-flux method Enhancing the Superconducting Transition Temperature of CeRh1-xIrxIn5 due to the Strong-Coupling Effects of Antiferromagnetic Spin Fluctuations: An <115>In Nuclear Quadrupole Resonance Study 2006 "Department of Materials Engineering Science, Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.Lett., 96(2006)147001"
40634 L096147001 In<115> NQR measured. gap & Curie-T were obtained from NQR measurements. "Ce(Rh,Ir)In5" Ce1Rh0.3Ir0.7In5 Ce 1 Rh 0.3 Ir 0.7 In 5 3 2006 0.2 HoCoGa5 K 1.2 1.2 8.28 self-flux method Enhancing the Superconducting Transition Temperature of CeRh1-xIrxIn5 due to the Strong-Coupling Effects of Antiferromagnetic Spin Fluctuations: An <115>In Nuclear Quadrupole Resonance Study 2006 "Department of Materials Engineering Science, Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.Lett., 96(2006)147001"
40635 L096147001 In<115> NQR measured. gap & Curie-T were obtained from NQR measurements. "Ce(Rh,Ir)In5" Ce1Rh0.2Ir0.8In5 Ce 1 Rh 0.2 Ir 0.8 In 5 3 2006 2.47 HoCoGa5 K 0.67 0.67 7.54 self-flux method Enhancing the Superconducting Transition Temperature of CeRh1-xIrxIn5 due to the Strong-Coupling Effects of Antiferromagnetic Spin Fluctuations: An <115>In Nuclear Quadrupole Resonance Study 2006 "Department of Materials Engineering Science, Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.Lett., 96(2006)147001"
40636 L096147001 In<115> NQR measured. gap & Curie-T were obtained from NQR measurements. "Ce(Rh,Ir)In5" Ce1Rh0.1Ir0.9In5 Ce 1 Rh 0.1 Ir 0.9 In 5 3 2006 4.59 HoCoGa5 K 0.35 0.35 4.69 self-flux method Enhancing the Superconducting Transition Temperature of CeRh1-xIrxIn5 due to the Strong-Coupling Effects of Antiferromagnetic Spin Fluctuations: An <115>In Nuclear Quadrupole Resonance Study 2006 "Department of Materials Engineering Science, Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.Lett., 96(2006)147001"
40637 L096147001 In<115> NQR measured. gap & Curie-T were obtained from NQR measurements. CeIrIn5 Ce1Ir1In5 Ce 1 Ir 1 In 5 3 2006 7.56 K 0.41 0.41 5.23 self-flux method Enhancing the Superconducting Transition Temperature of CeRh1-xIrxIn5 due to the Strong-Coupling Effects of Antiferromagnetic Spin Fluctuations: An <115>In Nuclear Quadrupole Resonance Study 2006 "Department of Materials Engineering Science, Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.Lett., 96(2006)147001"
40638 PHB2810005 non-stoichiometric SC CeNi2Ge2 Ce1.005Ni2.02Ge1.98 Ce 1.005 Ni 2.02 Ge 1.98 1 2000 K 0.03 0.03 "arc-melting. ANN(800C,120h)" Incipient superconductivity and NFL behavior in off-stoichiometric Ce1+xNi2+yGe2+z polycrystals 2000 "Max-Planck Institute for Chemical Physics of Solids, Nothnitzer Str. 48, D-01187 Dresden, Germany" "Physica B, 281&282(2000)5"
40639 PHB2810005 non-stoichiometric SC CeNi2Ge2 Ce1.005Ni2.025Ge1.975 Ce 1.005 Ni 2.025 Ge 1.975 1 2000 K 0.01 0.06 0.035 LAT40639 "arc-melting. ANN(800C,120h)" Incipient superconductivity and NFL behavior in off-stoichiometric Ce1+xNi2+yGe2+z polycrystals 2000 "Max-Planck Institute for Chemical Physics of Solids, Nothnitzer Str. 48, D-01187 Dresden, Germany" "Physica B, 281&282(2000)5"
40640 L096157001 weak static AF order(Cu-moment). spin excitations were studied by inelastic ND. "(Pr,Ce,La)2CuO4" Pr0.88Ce0.12La1Cu1O4-z Pr 0.88 Ce 0.12 La 1 Cu 1 O 4-z 3 2006 40 T' K 21 21 "mirrow image furnace. ANN(765C,4h, P < 1.0E-6 mbar)" High-Energy Spin Excitations in the Electron-Doped Superconductor Pr0.88LaCe0.12CuO4-z with Tc = 21 K 2006 "Department of Physics and Astronomy, The University of Tennessee, Knoxville, Tennessee 37996-1200, USA" "Phys.Rev.Lett., 96(2006)157001"
40641 P068054507 anisotropy (Rc/Rab) = 3.1 at RT. anisotropy factor(from Hc2) increases with increasing T: 2.0 (t=0.5) to 3.0 (t=0.9). CaAlSi Ca1Al1Si1 Ca 1 Al 1 Si 1 2003 AlB2 K 6 0.2 6 T WHH approx. 1.68 0.86 T/K magnetization 0.405 0.208 MHC40641 A from Hc2 196 100 Angular dependence of the upper critical field in CaAlSi single crystal: Deviation from the Ginzburg-Landau anisotropic mass model 2003 "Department of Applied Physics, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B, 68(2003)054507"
40642 PHC4390043 "anisotropy = 4 from coherence length. specific data has no(or bad) unit. structure data (rhombohedral, a=5.17 A, alpha=49.55) from J.Solid State Chem, 178(2005)2847." CaC6 C6Ca1 C 6 Ca 1 2006 A 5.17 K 11.3 1 11.3 T/K 0.1 0.025 MHC40642 A 360 90 intercalation process. See Nature Phys. 1(2005)39 Anisotropic superconducting phase diagram of C6Ca 2006 "Materials Science Division, Argonne National Laboratory, Argonne, IL 60439, United States" "Physica C, 439(2006)43"
40643 PHC4400006 MgCNi3 Mg1C1Ni3 Mg 1 C 1 Ni 3 2006 A 3.8159 K 6.5 6.5 "Mg,Zn,C,Ni-powder" nominal (Mg1-x)1.5ZnxCNi3. pellet - SIN(900C) Chemical pressure effect on the superconductor MgCNi3 2006 "Department of Physics, Faculty of Engineering, Yokohama National University, 79-5 Tokiwadai, Hodogaya-ku, Yokohama 240-8501, Japan" "Physica C, 440(2006)6"
40644 PHC4400006 "(Mg,Zn)CNi3" Mg0.9Zn0.1C1Ni3 Mg 0.9 Zn 0.1 C 1 Ni 3 2006 A 3.8035 K 4.5 4.5 "Mg,Zn,C,Ni-powder" nominal (Mg1-x)1.5ZnxCNi3. pellet - SIN(900C) Chemical pressure effect on the superconductor MgCNi3 2006 "Department of Physics, Faculty of Engineering, Yokohama National University, 79-5 Tokiwadai, Hodogaya-ku, Yokohama 240-8501, Japan" "Physica C, 440(2006)6"
40645 PHC4400006 "(Mg,Zn)CNi3" Mg0.8Zn0.2C1Ni3 Mg 0.8 Zn 0.2 C 1 Ni 3 2006 A 3.7959 K 2.82 2.82 "Mg,Zn,C,Ni-powder" nominal (Mg1-x)1.5ZnxCNi3. pellet - SIN(900C) Chemical pressure effect on the superconductor MgCNi3 2006 "Department of Physics, Faculty of Engineering, Yokohama National University, 79-5 Tokiwadai, Hodogaya-ku, Yokohama 240-8501, Japan" "Physica C, 440(2006)6"
40646 PHC4400006 "(Mg,Zn)CNi3" Mg0.7Zn0.3C1Ni3 Mg 0.7 Zn 0.3 C 1 Ni 3 2006 A 3.7718 K 2.5 2.5 "Mg,Zn,C,Ni-powder" nominal (Mg1-x)1.5ZnxCNi3. pellet - SIN(900C) Chemical pressure effect on the superconductor MgCNi3 2006 "Department of Physics, Faculty of Engineering, Yokohama National University, 79-5 Tokiwadai, Hodogaya-ku, Yokohama 240-8501, Japan" "Physica C, 440(2006)6"
40647 PHC4400006 "Mg1-xCdxCNi3 were prepared at 900C, P=3.5 GPa. single phase not obtained." CdCNi3 Cd1C1Ni3 Cd 1 C 1 Ni 3 2006 A 3.8425 K 3.4 3.4 "synthesized (900C,P=3.5 GPa)" Chemical pressure effect on the superconductor MgCNi3 2006 "Department of Physics, Faculty of Engineering, Yokohama National University, 79-5 Tokiwadai, Hodogaya-ku, Yokohama 240-8501, Japan" "Physica C, 440(2006)6"
40648 P073144509 Tc and Tn measured by muon-SR. Clear evidence for coexistence of AC and AF. YBa2Cu3Oz Y1Ba2Cu3O6.375 Y 1 Ba 2 Cu 3 O 7-z 6.375 3 2006 9.45 Y123 K 19 19 TC40648 Coexistence of magnetism and superconductivity in ultraclean underdoped YBa2Cu3O6.37 2006 "Department of Physics & Astronomy, University of British Columbia, 6224 Agricultural Road, Vancouver, British Columbia, Canada" "Phys.Rev.B, 73(2006)144509"
40649 P073144510 c-axis resistivity and its angle dependence were measured. Anisotropy = 2.6 "(Y,Pr)Ba2Cu3Oz" Y0.54Pr0.46Ba2Cu3O7-z Y 0.54 Pr 0.46 Ba 2 Cu 3 O 7-z 3 2006 Y123 K 38 38 High temperature mixed state c-axis dissipation in low carrier density Y0.54Pr0.46Ba2Cu3O7-z 2006 "Kent State University, Kent, Ohio 44242, USA" "Phys.Rev.B, 73(2006)144510"
40650 P073144518 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 2006 T A 3.7743 13.2242 K 37.4 37.4 "La2O3,SrCO3,TiO2,CuO" "SIN(1120-1230C, 24h, in air)" Suppression of superconductivity by the localization of hole carriers in Ti-doped La1.85Sr0.15CuO4 2006 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 73(2006)144518"
40651 P073144518 "(La,Sr)2(Cu,Ti)O4" La1.85Sr0.15Cu0.98Ti0.02O4 La 1.85 Sr 0.15 Cu 0.98 Ti 0.02 O 4 1 2006 T A 3.781 13.2077 K 32.3 32.3 "La2O3,SrCO3,TiO2,CuO" "SIN(1120-1230C, 24h, in air)" Suppression of superconductivity by the localization of hole carriers in Ti-doped La1.85Sr0.15CuO4 2006 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 73(2006)144518"
40652 P073144518 "(La,Sr)2(Cu,Ti)O4" La1.85Sr0.15Cu0.96Ti0.04O4 La 1.85 Sr 0.15 Cu 0.96 Ti 0.04 O 4 1 2006 T A 3.7873 13.1849 K 26.1 26.1 "La2O3,SrCO3,TiO2,CuO" "SIN(1120-1230C, 24h, in air)" Suppression of superconductivity by the localization of hole carriers in Ti-doped La1.85Sr0.15CuO4 2006 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 73(2006)144518"
40653 P073144518 not SC "(La,Sr)2(Cu,Ti)O4" La1.85Sr0.15Cu0.94Ti0.06O4 La 1.85 Sr 0.15 Cu 0.94 Ti 0.06 O 4 1 2006 T A 3.7956 13.1648 K 5 "La2O3,SrCO3,TiO2,CuO" "SIN(1120-1230C, 24h, in air)" Suppression of superconductivity by the localization of hole carriers in Ti-doped La1.85Sr0.15CuO4 2006 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 73(2006)144518"
40654 P073144518 "(La,Sr)2(Cu,Ti)O4" La1.81Sr0.19Cu0.98Ti0.02O4 La 1.81 Sr 0.19 Cu 0.98 Ti 0.02 O 4 1 2006 T A 3.7743 13.218 K 33 33 "La2O3,SrCO3,TiO2,CuO" "SIN(1120-1230C, 24h, in air)" Suppression of superconductivity by the localization of hole carriers in Ti-doped La1.85Sr0.15CuO4 2006 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 73(2006)144518"
40655 P073144518 "(La,Sr)2(Cu,Ti)O4" La1.77Sr0.23Cu0.96Ti0.04O4 La 1.77 Sr 0.23 Cu 0.96 Ti 0.04 O 4 1 2006 T A 3.7765 13.2135 K 32.8 32.8 "La2O3,SrCO3,TiO2,CuO" "SIN(1120-1230C, 24h, in air)" Suppression of superconductivity by the localization of hole carriers in Ti-doped La1.85Sr0.15CuO4 2006 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 73(2006)144518"
40656 P073144518 "(La,Sr)2(Cu,Ti)O4" La1.73Sr0.27Cu0.94Ti0.06O4 La 1.73 Sr 0.27 Cu 0.94 Ti 0.06 O 4 1 2006 T A 3.7785 13.2096 K 30 30 "La2O3,SrCO3,TiO2,CuO" "SIN(1120-1230C, 24h, in air)" Suppression of superconductivity by the localization of hole carriers in Ti-doped La1.85Sr0.15CuO4 2006 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 73(2006)144518"
40657 P073144518 "(La,Sr)2(Cu,Ti)O4" La1.69Sr0.31Cu0.92Ti0.08O4 La 1.69 Sr 0.31 Cu 0.92 Ti 0.08 O 4 1 2006 T A 3.7805 13.2006 K 30 30 "La2O3,SrCO3,TiO2,CuO" "SIN(1120-1230C, 24h, in air)" Suppression of superconductivity by the localization of hole carriers in Ti-doped La1.85Sr0.15CuO4 2006 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 73(2006)144518"
40658 P073144518 "(La,Sr)2(Cu,Ti)O4" La1.65Sr0.35Cu0.9Ti0.1O4 La 1.65 Sr 0.35 Cu 0.9 Ti 0.1 O 4 1 2006 T A 3.7834 13.1983 K 29.9 29.9 "La2O3,SrCO3,TiO2,CuO" "SIN(1120-1230C, 24h, in air)" Suppression of superconductivity by the localization of hole carriers in Ti-doped La1.85Sr0.15CuO4 2006 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 73(2006)144518"
40659 P073144518 not SC. "(La,Sr)2(Cu,Ti)O4" La1.63Sr0.37Cu0.89Ti0.11O4 La 1.63 Sr 0.37 Cu 0.89 Ti 0.11 O 4 1 2006 T A K 5 "La2O3,SrCO3,TiO2,CuO" "SIN(1120-1230C, 24h, in air)" Suppression of superconductivity by the localization of hole carriers in Ti-doped La1.85Sr0.15CuO4 2006 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 73(2006)144518"
40660 P073174515 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 2006 T A 3.7721 13.2004 K 37 37 "La2O3,SrCO3,RuO2,CuO" "mixture - heat(900C,24h,in Al2O3) - pellet - heat(1000C,24h) - SIN(1100C,24h,in air)" Superconductivity and anomalous magnetic properties of the double-doping La1.85-2xSr0.15+2xCu1-xRuxO4 (0= NMR measured MgB2 B2Mg1 B 2 Mg 1 1 2006 AlB2 A 3.0847 3.5256 K 38.5 38.5 "Mg,B(amorphous),Fe2O3(powder)" "mixture - pellet - wrapped in Ta-foil - ANN(900C,15min)" Effects of Fe substitution on Tc suppression of MgB2: A <11>B NMR study 2006 "Department of Physics, National Cheng Kung University, Tainan 70101, Taiwan" "Phys.Rev.B, 73(2006)214505"
40685 P073214505 B<11> NMR measured "(Mg,Fe)B2" Mg0.997Fe0.003B2 Mg 0.997 Fe 0.003 B 2 1 2006 AlB2 A 3.0841 3.5247 K 37.7 37.7 "Mg,B(amorphous),Fe2O3(powder)" "mixture - pellet - wrapped in Ta-foil - ANN(900C,15min)" Effects of Fe substitution on Tc suppression of MgB2: A <11>B NMR study 2006 "Department of Physics, National Cheng Kung University, Tainan 70101, Taiwan" "Phys.Rev.B, 73(2006)214505"
40686 P073214505 B<11> NMR measured "(Mg,Fe)B2" Mg0.994Fe0.006B2 Mg 0.994 Fe 0.006 B 2 1 2006 AlB2 A 3.0827 3.5241 K 34.2 34.2 "Mg,B(amorphous),Fe2O3(powder)" "mixture - pellet - wrapped in Ta-foil - ANN(900C,15min)" Effects of Fe substitution on Tc suppression of MgB2: A <11>B NMR study 2006 "Department of Physics, National Cheng Kung University, Tainan 70101, Taiwan" "Phys.Rev.B, 73(2006)214505"
40687 P073214505 B<11> NMR measured "(Mg,Fe)B2" Mg0.988Fe0.012B2 Mg 0.988 Fe 0.012 B 2 1 2006 AlB2 A 3.082 3.5232 K 32 32 "Mg,B(amorphous),Fe2O3(powder)" "mixture - pellet - wrapped in Ta-foil - ANN(900C,15min)" Effects of Fe substitution on Tc suppression of MgB2: A <11>B NMR study 2006 "Department of Physics, National Cheng Kung University, Tainan 70101, Taiwan" "Phys.Rev.B, 73(2006)214505"
40688 P073214505 B<11> NMR measured "(Mg,Fe)B2" Mg0.97Fe0.03B2 Mg 0.97 Fe 0.03 B 2 1 2006 AlB2 A 3.0804 3.5217 K 30 30 "Mg,B(amorphous),Fe2O3(powder)" "mixture - pellet - wrapped in Ta-foil - ANN(900C,15min)" Effects of Fe substitution on Tc suppression of MgB2: A <11>B NMR study 2006 "Department of Physics, National Cheng Kung University, Tainan 70101, Taiwan" "Phys.Rev.B, 73(2006)214505"
40689 P073214508 RRR=7.2. Tc(SP-heat) = 38.0 K MgB2 B2Mg1 B 2 Mg 1 1 2006 AlB2 A 3.085 3.525 K 38.8 38.5 0.4 38.8 mJ/mol.K2 3 670 uOhm.cm 2.5 "mixture(Mg+(AlLi)) - pellet, then put in Ta-tube with crystalline B, heat(850-900C,1h, in quartz tube) - heat(100C,100h)" Role of charge doping and lattice distortions in codoped Mg1-x(AlLi)xB2 compounds 2006 "CNR-INFM-LAMIA and Dipartimento di Fisica, Universita di Genova, Via Dodecaneso 33, 16146 Genova, Italy" "Phys.Rev.B, 73(2006)214508"
40690 P073214508 RRR=3.3. Mg1-x(AlLi)xB2 Mg0.95Al0.025Li0.025B2 Mg 0.95 Al 0.025 Li 0.025 B 2 1 2006 AlB2 A 3.083 3.512 K 37 36.2 0.7 37 uOhm.cm 6.5 "mixture(Mg+(AlLi)) - pellet, then put in Ta-tube with crystalline B, heat(850-900C,1h, in quartz tube) - heat(100C,100h)" Role of charge doping and lattice distortions in codoped Mg1-x(AlLi)xB2 compounds 2006 "CNR-INFM-LAMIA and Dipartimento di Fisica, Universita di Genova, Via Dodecaneso 33, 16146 Genova, Italy" "Phys.Rev.B, 73(2006)214508"
40691 P073214508 RRR=2.6. Tc(SP-heat) = 31.0 K Mg1-x(AlLi)xB2 Mg0.9Al0.05Li0.05B2 Mg 0.9 Al 0.05 Li 0.05 B 2 1 2006 AlB2 A 3.082 3.497 K 36.4 34.1 1.5 36.4 mJ/mol.K2 2.9 640 uOhm.cm 8.2 "mixture(Mg+(AlLi)) - pellet, then put in Ta-tube with crystalline B, heat(850-900C,1h, in quartz tube) - heat(100C,100h)" Role of charge doping and lattice distortions in codoped Mg1-x(AlLi)xB2 compounds 2006 "CNR-INFM-LAMIA and Dipartimento di Fisica, Universita di Genova, Via Dodecaneso 33, 16146 Genova, Italy" "Phys.Rev.B, 73(2006)214508"
40692 P073214508 RRR=2.0. Tc(SP-heat) = 28.0 K Mg1-x(AlLi)xB2 Mg0.8Al0.1Li0.1B2 Mg 0.8 Al 0.1 Li 0.1 B 2 1 2006 AlB2 A 3.08 3.474 K 32.9 29 3 32.9 mJ/mol.K2 2.7 615 uOhm.cm 14 "mixture(Mg+(AlLi)) - pellet, then put in Ta-tube with crystalline B, heat(850-900C,1h, in quartz tube) - heat(100C,100h)" Role of charge doping and lattice distortions in codoped Mg1-x(AlLi)xB2 compounds 2006 "CNR-INFM-LAMIA and Dipartimento di Fisica, Universita di Genova, Via Dodecaneso 33, 16146 Genova, Italy" "Phys.Rev.B, 73(2006)214508"
40693 P073214508 RRR=1.8. Tc(SP-heat) = 24.0 K Mg1-x(AlLi)xB2 Mg0.7Al0.15Li0.15B2 Mg 0.7 Al 0.15 Li 0.15 B 2 1 2006 AlB2 A 3.074 3.454 K 32 26.9 4 32 mJ/mol.K2 2.4 580 uOhm.cm 32 "mixture(Mg+(AlLi)) - pellet, then put in Ta-tube with crystalline B, heat(850-900C,1h, in quartz tube) - heat(100C,100h)" Role of charge doping and lattice distortions in codoped Mg1-x(AlLi)xB2 compounds 2006 "CNR-INFM-LAMIA and Dipartimento di Fisica, Universita di Genova, Via Dodecaneso 33, 16146 Genova, Italy" "Phys.Rev.B, 73(2006)214508"
40694 P073214508 RRR=1.8 Mg1-x(AlLi)xB2 Mg0.65Al0.175Li0.175B2 Mg 0.65 Al 0.175 Li 0.175 B 2 1 2006 AlB2 A 3.075 3.453 K 30.7 25.1 5 30.7 uOhm.cm 28 "mixture(Mg+(AlLi)) - pellet, then put in Ta-tube with crystalline B, heat(850-900C,1h, in quartz tube) - heat(100C,100h)" Role of charge doping and lattice distortions in codoped Mg1-x(AlLi)xB2 compounds 2006 "CNR-INFM-LAMIA and Dipartimento di Fisica, Universita di Genova, Via Dodecaneso 33, 16146 Genova, Italy" "Phys.Rev.B, 73(2006)214508"
40695 P073214508 RRR=1.5 Mg1-x(AlLi)xB2 Mg0.6Al0.2Li0.2B2 Mg 0.6 Al 0.2 Li 0.2 B 2 1 2006 AlB2 A 3.069 3.435 K 26.1 20.4 4.4 26.1 uOhm.cm 33 "mixture(Mg+(AlLi)) - pellet, then put in Ta-tube with crystalline B, heat(850-900C,1h, in quartz tube) - heat(100C,100h)" Role of charge doping and lattice distortions in codoped Mg1-x(AlLi)xB2 compounds 2006 "CNR-INFM-LAMIA and Dipartimento di Fisica, Universita di Genova, Via Dodecaneso 33, 16146 Genova, Italy" "Phys.Rev.B, 73(2006)214508"
40696 P073214508 RRR=1.5 Mg1-x(AlLi)xB2 Mg0.55Al0.225Li0.225B2 Mg 0.55 Al 0.225 Li 0.225 B 2 1 2006 AlB2 A 3.07 3.432 K 25.6 18.1 4.1 25.6 uOhm.cm 40 "mixture(Mg+(AlLi)) - pellet, then put in Ta-tube with crystalline B, heat(850-900C,1h, in quartz tube) - heat(100C,100h)" Role of charge doping and lattice distortions in codoped Mg1-x(AlLi)xB2 compounds 2006 "CNR-INFM-LAMIA and Dipartimento di Fisica, Universita di Genova, Via Dodecaneso 33, 16146 Genova, Italy" "Phys.Rev.B, 73(2006)214508"
40697 P073214528 Hc2(T) in Fig. obtained by ac-SUS (Hc2(0)=3.58 T). GL parameter = 27. Li2Pd3B Li2Pd3B1 Li 2 Pd 3 B 1 1 2006 K 7.6 7.6 mT muon-SR 9.5 T muon-SR 3.66 MHC40697 A from Hc2 95 A muon-SR 2520 meV 1.31 4 "two-step arc-melting. first, Pd3B(arc-melt), then addition of Li(arc-melt)" Muon-spin-rotation measurements of the penetration depth in Li2Pd3B 2006 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 73(2006)214528"
40698 P073224519 NPENET measured directly using scanning SQUID spectroscopy YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 5 2006 Y123 K 83 83 um 19.5 Pulsed Laser Deposition on SrTiO3(110) Images of interlayer vortices and c-axis penetration depth of high-Tc YBa2Cu3O7-y superconductor 2006 "Nanomaterials Laboratory, National Institute for Materials Science, Sengen 1-2-1, Tsukuba 305-0047, Japan" "Phys.Rev.B, 73(2006)224519"
40699 P073224516 NbB2 B2Nb1 B 2 Nb 1 2006 AlB2 A 3.1088 3.2724 K 2.73 2.73 "Nb(powder),B(amorphous)" "high-pressure synthesis. mixture - put in BN tube - heat(1200C,10min) - SIN(1200C,0.5h,P=6 GPa) - Q to RT" "Correlations among superconductivity, structural instability, and band filling in Nb1-xB2 at the critical point x = 0.2" 2006 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing, 100080, People's Republic of China" "Phys.Rev.B, 73(2006)224516"
40700 P073224516 Nb1-xB2 B2Nb0.9 B 2 Nb 0.9 2006 AlB2 A 3.1079 3.269 K 3.64 3.64 "Nb(powder),B(amorphous)" "high-pressure synthesis. mixture - put in BN tube - heat(1200C,10min) - SIN(1200C,0.5h,P=6 GPa) - Q to RT" "Correlations among superconductivity, structural instability, and band filling in Nb1-xB2 at the critical point x = 0.2" 2006 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing, 100080, People's Republic of China" "Phys.Rev.B, 73(2006)224516"
40701 P073224516 Nb1-xB2 B2Nb0.8 B 2 Nb 0.8 2006 AlB2 A 3.1089 3.2693 K 4.55 4.55 "Nb(powder),B(amorphous)" "high-pressure synthesis. mixture - put in BN tube - heat(1200C,10min) - SIN(1200C,0.5h,P=6 GPa) - Q to RT" "Correlations among superconductivity, structural instability, and band filling in Nb1-xB2 at the critical point x = 0.2" 2006 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing, 100080, People's Republic of China" "Phys.Rev.B, 73(2006)224516"
40702 P073224516 Nb1-xB2 B2Nb0.7 B 2 Nb 0.7 2006 AlB2 A 3.0978 3.3193 K 7.96 7.96 "Nb(powder),B(amorphous)" "high-pressure synthesis. mixture - put in BN tube - heat(1200C,10min) - SIN(1200C,0.5h,P=6 GPa) - Q to RT" "Correlations among superconductivity, structural instability, and band filling in Nb1-xB2 at the critical point x = 0.2" 2006 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing, 100080, People's Republic of China" "Phys.Rev.B, 73(2006)224516"
40703 P073224516 Nb1-xB2 B2Nb0.6 B 2 Nb 0.6 2006 AlB2 A 3.0973 3.319 K 8.04 8.04 "Nb(powder),B(amorphous)" "high-pressure synthesis. mixture - put in BN tube - heat(1200C,10min) - SIN(1200C,0.5h,P=6 GPa) - Q to RT" "Correlations among superconductivity, structural instability, and band filling in Nb1-xB2 at the critical point x = 0.2" 2006 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing, 100080, People's Republic of China" "Phys.Rev.B, 73(2006)224516"
40704 P073224516 Nb1-xB2 B2Nb0.5 B 2 Nb 0.5 2006 AlB2 A 3.0952 3.3172 K 7.56 7.56 "Nb(powder),B(amorphous)" "high-pressure synthesis. mixture - put in BN tube - heat(1200C,10min) - SIN(1200C,0.5h,P=6 GPa) - Q to RT" "Correlations among superconductivity, structural instability, and band filling in Nb1-xB2 at the critical point x = 0.2" 2006 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing, 100080, People's Republic of China" "Phys.Rev.B, 73(2006)224516"
40705 P073224516 Nb1-xB2 B2Nb0.4 B 2 Nb 0.4 2006 AlB2 A 3.0967 3.3183 K 6.57 6.57 "Nb(powder),B(amorphous)" "high-pressure synthesis. mixture - put in BN tube - heat(1200C,10min) - SIN(1200C,0.5h,P=6 GPa) - Q to RT" "Correlations among superconductivity, structural instability, and band filling in Nb1-xB2 at the critical point x = 0.2" 2006 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing, 100080, People's Republic of China" "Phys.Rev.B, 73(2006)224516"
40706 P073224516 Nb1-xB2 B2Nb0.3 B 2 Nb 0.3 2006 AlB2 A 3.0961 3.3172 K 6.1 6.1 "Nb(powder),B(amorphous)" "high-pressure synthesis. mixture - put in BN tube - heat(1200C,10min) - SIN(1200C,0.5h,P=6 GPa) - Q to RT" "Correlations among superconductivity, structural instability, and band filling in Nb1-xB2 at the critical point x = 0.2" 2006 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing, 100080, People's Republic of China" "Phys.Rev.B, 73(2006)224516"
40707 L093107003 c-axis penetration depth measured by microwave method for various Tc samples ( See HIRFIG). crystal size=1.803*0.203*0.391 mm3. YBa2Cu3Oz Y1Ba2Cu3O6.35 Y 1 Ba 2 Cu 3 O 6+z 6.35 3 2004 Y123 K 20 20 PENET40707 um microwave 28 Survival of the d-Wave Superconducting State near the Edge of Antiferromagnetism in the Cuprate Phase Diagram 2004 "Department of Physics and Astronomy, University of British Columbia, Vancouver, British Columbia, Canada V6T 1Z1" "Phys.Rev.Lett., 93(2004)107003"
40708 L096247004 KOs2O6 K1Os2O6 K 1 Os 2 O 6 2006 pyrochlore K 9.6 9.6 THC40708 Thermal Conductivity of the Pyrochlore Superconductor KOs2O6: Strong Electron Correlations and Fully Gapped Superconductivity 2006 "Department of Physics, Kyoto University, Sakyo-ku, Kyoto 606-8502, Japan" "Phys.Rev.Lett., 96(2006)247004"
40709 PHC4420091 TlBa2Ca2Cu3Oz Tl1Ba2Ca2Cu3Oz Tl 1 Ba 2 Ca 2 Cu 3 O z 1 2006 Tl1223 K 128 2.2 128 uV/K 2.24 TP40709 RH40709 E+21/cc 3.669 "precursor(Ba2Ca2Cu3O7.45) mixed with 0.5Tl2O3 - heat(900C,3h, P=4.5 GPa) - ANN(600C,40h, in N2)" Transport properties of TlBa2Ca2Cu3Oy in an over-doped state 2006 "Tokyo University of Science, 2641 Yamazaki, Noda, Chiba 278-3510, Japan" "Physica C, 442(2006)91"
40710 PHC4420091 TlBa2Ca2Cu3Oz Tl1Ba2Ca2Cu3Oz Tl 1 Ba 2 Ca 2 Cu 3 O z 1 2006 Tl1223 A 3.864 15.912 K 130 1.2 130 E+21/cc 3.139 "precursor(Ba2Ca2Cu3O7.45) mixed with 0.5Tl2O3 - heat(1080C,3h, P=4.5 GPa) - ANN(200C,75h, in Ar)" Transport properties of TlBa2Ca2Cu3Oy in an over-doped state 2006 "Tokyo University of Science, 2641 Yamazaki, Noda, Chiba 278-3510, Japan" "Physica C, 442(2006)91"
40711 PHC4420101 Bi2223-phase=94%. Bi2212+unknown phase = 6 %. Thermal expansion coeff. = 7.90 E-7 /K. "(Bi,Pb)2Sr2Ca2Cu3Oz" Bi1.6Pb0.4Sr2Ca2Cu3Oz Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 3 O z 1 2006 GPa 0.254 Bi2223 A 5.413 37.236 K 107 116 111.5 "mixture - CAL(800-850C,24h) - pellet SIN(860-950C,200h) - cool to RT(3C/min or 5C/min)" Thermal expansion and Vickers hardness measurements on Bi1.6Pb0.4Sr2Ca2-xSmxCu3Oy superconductors 2006 "Department of Physics, Faculty of Science and Arts, Kirikkale University, 71451 Yahsihan, Kirikkale, Turkey" "Physica C, 442(2006)101"
40712 PHC4420101 Bi2223-phase=92%. Bi2212+unknown phase = 8 %. Thermal expansion coeff. = 7.70 E-7 /K. "(Bi,Pb)2Sr2(Ca,Sm)2Cu3Oz" Bi1.6Pb0.4Sr2Ca2.9995Sm0.0005Cu3Oz Bi 1.6 Pb 0.4 Sr 2 Ca 2.9995 Sm 0.0005 Cu 3 O z 1 2006 GPa 0.272 Bi2223 A 5.416 37.206 K 102 116 109 "mixture - CAL(800-850C,24h) - pellet SIN(860-950C,200h) - cool to RT(3C/min or 5C/min)" Thermal expansion and Vickers hardness measurements on Bi1.6Pb0.4Sr2Ca2-xSmxCu3Oy superconductors 2006 "Department of Physics, Faculty of Science and Arts, Kirikkale University, 71451 Yahsihan, Kirikkale, Turkey" "Physica C, 442(2006)101"
40713 PHC4420101 Bi2223-phase=83%. Bi2212+unknown phase = 17 %. Thermal expansion coeff. = 7.50 E-7 /K. "(Bi,Pb)2Sr2(Ca,Sm)2Cu3Oz" Bi1.6Pb0.4Sr2Ca2.999Sm0.001Cu3Oz Bi 1.6 Pb 0.4 Sr 2 Ca 2.999 Sm 0.001 Cu 3 O z 2 2006 GPa 0.294 Bi2223 A 5.418 37.197 K 97 112 104.5 "mixture - CAL(800-850C,24h) - pellet SIN(860-950C,200h) - cool to RT(3C/min or 5C/min)" Thermal expansion and Vickers hardness measurements on Bi1.6Pb0.4Sr2Ca2-xSmxCu3Oy superconductors 2006 "Department of Physics, Faculty of Science and Arts, Kirikkale University, 71451 Yahsihan, Kirikkale, Turkey" "Physica C, 442(2006)101"
40714 PHC4420101 Bi2223-phase=79%. Bi2212+unknown phase = 21 %. Thermal expansion coeff. = 6.95 E-7 /K. "(Bi,Pb)2Sr2(Ca,Sm)2Cu3Oz" Bi1.6Pb0.4Sr2Ca2.995Sm0.005Cu3Oz Bi 1.6 Pb 0.4 Sr 2 Ca 2.995 Sm 0.005 Cu 3 O z 2 2006 GPa 0.348 Bi2223 A 5.421 37.19 K 93 107 100 "mixture - CAL(800-850C,24h) - pellet SIN(860-950C,200h) - cool to RT(3C/min or 5C/min)" Thermal expansion and Vickers hardness measurements on Bi1.6Pb0.4Sr2Ca2-xSmxCu3Oy superconductors 2006 "Department of Physics, Faculty of Science and Arts, Kirikkale University, 71451 Yahsihan, Kirikkale, Turkey" "Physica C, 442(2006)101"
40715 PHC4420101 Bi2223-phase=74%. Bi2212+unknown phase = 26 %. Thermal expansion coeff. = 6.50 E-7 /K. "(Bi,Pb)2Sr2(Ca,Sm)2Cu3Oz" Bi1.6Pb0.4Sr2Ca2.99Sm0.01Cu3Oz Bi 1.6 Pb 0.4 Sr 2 Ca 2.99 Sm 0.01 Cu 3 O z 2 2006 GPa 0.398 Bi2223 A 5.424 37.181 K 85 102 93.5 "mixture - CAL(800-850C,24h) - pellet SIN(860-950C,200h) - cool to RT(3C/min or 5C/min)" Thermal expansion and Vickers hardness measurements on Bi1.6Pb0.4Sr2Ca2-xSmxCu3Oy superconductors 2006 "Department of Physics, Faculty of Science and Arts, Kirikkale University, 71451 Yahsihan, Kirikkale, Turkey" "Physica C, 442(2006)101"
40716 PHC4420101 Bi2212-phase = 100%. "(Bi,Pb)2Sr2(Ca,Sm)2Cu3Oz" Bi1.6Pb0.4Sr2Ca2.9Sm0.1Cu3Oz Bi 1.6 Pb 0.4 Sr 2 Ca 2.9 Sm 0.1 Cu 3 O z 1 2006 GPa 0.442 Bi2212 A 5.431 30.741 K 70 88 79 "mixture - CAL(800-850C,24h) - pellet SIN(860-950C,200h) - cool to RT(3C/min or 5C/min)" Thermal expansion and Vickers hardness measurements on Bi1.6Pb0.4Sr2Ca2-xSmxCu3Oy superconductors 2006 "Department of Physics, Faculty of Science and Arts, Kirikkale University, 71451 Yahsihan, Kirikkale, Turkey" "Physica C, 442(2006)101"
40717 PHC4420101 Bi2212-phase = 100%. Thermal expansion coeff. = 5.92 E-7 /K. "(Bi,Pb)2Sr2(Ca,Sm)2Cu3Oz" Bi1.6Pb0.4Sr2Ca2.5Sm0.5Cu3Oz Bi 1.6 Pb 0.4 Sr 2 Ca 2.5 Sm 0.5 Cu 3 O z 1 2006 GPa 0.525 Bi2212 A 5.443 30.651 K 28 78 53 "mixture - CAL(800-850C,24h) - pellet SIN(860-950C,200h) - cool to RT(3C/min or 5C/min)" Thermal expansion and Vickers hardness measurements on Bi1.6Pb0.4Sr2Ca2-xSmxCu3Oy superconductors 2006 "Department of Physics, Faculty of Science and Arts, Kirikkale University, 71451 Yahsihan, Kirikkale, Turkey" "Physica C, 442(2006)101"
40718 PHC4420101 not SC.. Bi2212-phase = 100%. Thermal expansion coeff. = 5.80 E-7 /K. "(Bi,Pb)2Sr2(Ca,Sm)2Cu3Oz" Bi1.6Pb0.4Sr2Ca1Sm1Cu3Oz Bi 1.6 Pb 0.4 Sr 2 Ca 1 Sm 1 Cu 3 O z 1 2006 GPa 0.552 Bi2212 A 5.464 30.323 K 21 "mixture - CAL(800-850C,24h) - pellet SIN(860-950C,200h) - cool to RT(3C/min or 5C/min)" Thermal expansion and Vickers hardness measurements on Bi1.6Pb0.4Sr2Ca2-xSmxCu3Oy superconductors 2006 "Department of Physics, Faculty of Science and Arts, Kirikkale University, 71451 Yahsihan, Kirikkale, Turkey" "Physica C, 442(2006)101"
40719 PHC4420101 not SC. Bi2212-phase = 100%. Thermal expansion coeff. = 5.70 E-7 /K. "(Bi,Pb)2Sr2(Ca,Sm)2Cu3Oz" Bi1.6Pb0.4Sr2Ca0.5Sm1.5Cu3Oz Bi 1.6 Pb 0.4 Sr 2 Ca 0.5 Sm 1.5 Cu 3 O z 1 2006 GPa 0.623 Bi2212 A 5.468 30.278 K 21 "mixture - CAL(800-850C,24h) - pellet SIN(860-950C,200h) - cool to RT(3C/min or 5C/min)" Thermal expansion and Vickers hardness measurements on Bi1.6Pb0.4Sr2Ca2-xSmxCu3Oy superconductors 2006 "Department of Physics, Faculty of Science and Arts, Kirikkale University, 71451 Yahsihan, Kirikkale, Turkey" "Physica C, 442(2006)101"
40720 SSC1390057 Nb2SnC Nb2Sn1C1 Nb 2 Sn 1 C 1 1 2006 P6<3>/mmc A 3.22 13.707 K 3.3 7.8 4 4 4 "graphite,Nb,Sn" "mixture - sealed in quartz ampoule - heat(1200C,24h) - SIN(1200C,48h)" Superconductivity in the Nb2SnC compound 2006 "Grupo de Supercondutividade, Departamento de Engenharia de Materiais, Faenquil-Polo Urbo Industrial Gleba AI 6 s/n, 12600-970 Lorena, SP, Brazil" "Solid State Commun., 139(2006)57"
40721 SSC1390057 Nb2SnC Nb2Sn1C1 Nb 2 Sn 1 C 1 1 2006 K 7.8 7.8 0.6 7.8 32 T resistive 7.8 A from Hc2 65 "graphite,Nb,Sn" "mixture with binder of paraffin wax(2 wt%) - heat(270C,4h) - heat(P=2.5 GPa, 523C, 30 min)" Superconductivity in the Nb2SnC compound 2006 "Grupo de Supercondutividade, Departamento de Engenharia de Materiais, Faenquil-Polo Urbo Industrial Gleba AI 6 s/n, 12600-970 Lorena, SP, Brazil" "Solid State Commun., 139(2006)57"
40722 PHC4340173 TaC C1Ta1 C 1 Ta 1 1 2006 K 10.16 10.16 MHC40722 Effect of nanocrystal/carbon nanotube interface on surface superconductivity of TaC encapsulated in the multiwall carbon nanotubes 2006 "Department of Life and Envirounmental Science,College of Science and Engineering, Iwaki Meisei University,Fukushima,Japan" "Physica C, 434(2006)173"
40723 PHC4340173 nano-crystals encapsulated in MWCNT(multiwall carbon nanotube). Hc3/Hc2 = 1.24 for t < 0.9. TaC C1Ta1 C 1 Ta 1 1 2006 A 4.4526 K 10.16 10.16 synthesis of single crystals TaC encapsulated in MWCNT using dc-arc evaporation of composite anode containing the mixture. Effect of nanocrystal/carbon nanotube interface on surface superconductivity of TaC encapsulated in the multiwall carbon nanotubes 2006 "Department of Life and Envirounmental Science,College of Science and Engineering, Iwaki Meisei University,Fukushima,Japan" "Physica C, 434(2006)173"
40724 PR138A1170 G-L = 13. Hc(4.2K) = 0.80 kG. Clogston-Hp = 130 kG. NbC C1Nb1 C 1 Nb 1 1965 K 9 9 Oe 120 4.2 T resistive 1.69 1.69 4.2 erg/cm3.K2 0.0023 estimated from RESN mOhm.cm 0.0351 High-field superconductivity of carbides 1965 "Phys.Rev., 38A(1965)1170"
40725 PR138A1170 G-L = 8.1. Hc(1.2K) = 0.99 kG. Clogston-Hp = 214 kG. "(Nb,Ta)C" Nb0.4Ta0.6C1 Nb 0.4 Ta 0.6 C 1 1965 K 11.8 11.8 Oe 190 1.2 T resistive 1.41 1.41 1.2 erg/cm3.K2 0.0012 estimated from RESN mOhm.cm 0.0307 High-field superconductivity of carbides 1965 "Phys.Rev., 38A(1965)1170"
40726 PR138A1170 G-L = 3.2. Hc(1.2K) = 0.81 kG. Clogston-Hp = 185 kG. TaC C1Ta1 C 1 Ta 1 1965 K 10.2 10.2 Oe 220 1.2 T resistive 0.46 0.46 1.2 erg/cm3.K2 0.0011 estimated from RESN mOhm.cm 0.0127 High-field superconductivity of carbides 1965 "Phys.Rev., 38A(1965)1170"
40727 PR138A1170 G-L = 42. Hc(1.2K) = 1.3 kG. Clogston-Hp = 238 kG. Mo1-xCx C0.44Mo0.56 C 0.44 Mo 0.56 1965 K 13 13 Oe 87 1.2 T resistive 9.85 9.85 1.2 erg/cm3.K2 0.0019 estimated from RESN mOhm.cm 0.128 High-field superconductivity of carbides 1965 "Phys.Rev., 38A(1965)1170"
40728 PR138A1170 G-L = 53. Hc(1.2K) = 1.7 kG. Clogston-Hp = 181 kG. Mo3Al2C Mo3Al2C1 Mo 3 Al 2 C 1 1965 K 10 10 Oe 91 1.2 T resistive 15.6 15.6 1.2 erg/cm3.K2 0.005 estimated from RESN mOhm.cm 0.0987 High-field superconductivity of carbides 1965 "Phys.Rev., 38A(1965)1170"
40729 AC12810012 layered structure (La-O/Fe-P). carrier is electron(negative thermopower). LaOFeP La1Fe1P1O1 La 1 Fe 1 P 1 O 1 2006 2 A 3.964 8.512 K 3.2 5 4.1 18 "LaP,FeP,Fe2P,La,LaF3,La2O3" "powder mixture - in silica tube(Ar-gas) - heat(1200C,40h)" Iron-based layered superconductor: LaOFeP 2006 "ERATO-SORST,JST, Frontier Collaborative Research Center, Tokyo Institute of Technology,Nagatsuta, Yokohama,Japan" "J.Am.Chem.Soc., 128(2006)10012"
40730 AC12810012 layered structure (La-O/Fe-P). F-content = nominal value. carrier is electron(negative thermopower). "La(O,F)FeP" La1Fe1P1F0.06O0.94 La 1 Fe 1 P 1 F 0.06 O 0.94 2006 oxypnictide K 6 9 7.5 91 "LaP,FeP,Fe2P,La,LaF3,La2O3" "powder mixture - in silica tube(Ar-gas) - heat(1200C,40h)" Iron-based layered superconductor: LaOFeP 2006 "ERATO-SORST,JST, Frontier Collaborative Research Center, Tokyo Institute of Technology,Nagatsuta, Yokohama,Japan" "J.Am.Chem.Soc., 128(2006)10012"
40731 JAC4080054 not SC. XRD pattern shows significant splitting. SP-heat shows magnetic ordering. CePt3Al Ce1Pt3Al1 Ce 1 Pt 3 Al 1 2006 K 0.4 "Ce(3N),Pt(4N),Al(5N),Ge(6N)" "arc-melting - ANN(850C,8d, in vac(wrapped in Ta)" Transport and thermodynamic properties of CePt3X intermetallics 2006 "Charles University, Department of Electronic Structures, Ke Karlovu 5, 121 16 Praha 2, The Czech Republic" "J.Alloys & Compd., 408-412(2006)54"
40732 JAC4080054 not SC. XRD pattern shows significant splitting. SP-heat shows magnetic ordering. CePt3Ge Ce1Pt3Ge1 Ce 1 Pt 3 Ge 1 2006 K 0.4 "Ce(3N),Pt(4N),Al(5N),Ge(6N)" "arc-melting - ANN(850C,8d, in vac(wrapped in Ta)" Transport and thermodynamic properties of CePt3X intermetallics 2006 "Charles University, Department of Electronic Structures, Ke Karlovu 5, 121 16 Praha 2, The Czech Republic" "J.Alloys & Compd., 408-412(2006)54"
40733 JAC4080054 not SC. XRD pattern shows significant splitting. SP-heat shows magnetic ordering. CePt3B Ce1Pt3B1 Ce 1 Pt 3 B 1 2006 K 0.4 "Ce(3N),Pt(4N),Al(5N),Ge(6N)" "arc-melting - ANN(850C,8d, in vac(wrapped in Ta)" Transport and thermodynamic properties of CePt3X intermetallics 2006 "Charles University, Department of Electronic Structures, Ke Karlovu 5, 121 16 Praha 2, The Czech Republic" "J.Alloys & Compd., 408-412(2006)54"
40734 JP01800L68 Na-content by ICP. NQR of Co<59> measured. NaxCoO2:(H2O)1.3 Na0.34Co1H2.6O3.3 Na 0.34 Co 1 H 2.6 O 3.3 2006 A 2.822 19.5 K 2.65 2.65 "precursor(Na0.75CoO2) immersed in Br/CH3CN solution. For several Na-content, different Br-content solution used" Na content dependence of superconductivity and the spin correlations in NaxCoO2/1.3H2O 2006 "Department of Physics, Okayama University, Okayama, Japan" "J.Phys.Condens.Matter, 18(2006)L63"
40735 JP01800L68 Na-content by ICP. NQR of Co<59> measured. NaxCoO2:(H2O)1.3 Na0.32Co1H2.6O3.3 Na 0.32 Co 1 H 2.6 O 3.3 2006 A 2.822 19.62 K 2.6 2.6 "precursor(Na0.75CoO2) immersed in Br/CH3CN solution. For several Na-content, different Br-content solution used" Na content dependence of superconductivity and the spin correlations in NaxCoO2/1.3H2O 2006 "Department of Physics, Okayama University, Okayama, Japan" "J.Phys.Condens.Matter, 18(2006)L63"
40736 JP01800L68 Na-content by ICP. NQR of Co<59> measured. NaxCoO2:(H2O)1.3 Na0.31Co1H2.6O3.3 Na 0.31 Co 1 H 2.6 O 3.3 1 2006 A 2.819 19.59 K 3.7 3.7 "precursor(Na0.75CoO2) immersed in Br/CH3CN solution. For several Na-content, different Br-content solution used" Na content dependence of superconductivity and the spin correlations in NaxCoO2/1.3H2O 2006 "Department of Physics, Okayama University, Okayama, Japan" "J.Phys.Condens.Matter, 18(2006)L63"
40737 JP01800L68 Na-content by ICP. NQR of Co<59> measured. NaxCoO2:(H2O)1.3 Na0.28Co1H2.6O3.3 Na 0.28 Co 1 H 2.6 O 3.3 1 2006 A 2.817 19.73 K 4.75 4.75 "precursor(Na0.75CoO2) immersed in Br/CH3CN solution. For several Na-content, different Br-content solution used" Na content dependence of superconductivity and the spin correlations in NaxCoO2/1.3H2O 2006 "Department of Physics, Okayama University, Okayama, Japan" "J.Phys.Condens.Matter, 18(2006)L63"
40738 JP01800L68 Na-content by ICP. NQR of Co<59> measured. NaxCoO2:(H2O)1.3 Na0.25Co1H2.6O3.3 Na 0.25 Co 1 H 2.6 O 3.3 1 2006 A 2.817 19.8 K 4.7 4.7 "precursor(Na0.75CoO2) immersed in Br/CH3CN solution. For several Na-content, different Br-content solution used" Na content dependence of superconductivity and the spin correlations in NaxCoO2/1.3H2O 2006 "Department of Physics, Okayama University, Okayama, Japan" "J.Phys.Condens.Matter, 18(2006)L63"
40739 JP01800L68 Na-content by ICP. NQR of Co<59> measured. (1/T1) shows T^3 variation down to Tc/6. NaxCoO2:(H2O)1.3 Na0.26Co1H2.6O3.3 Na 0.26 Co 1 H 2.6 O 3.3 1 2006 A 2.815 19.79 K 4.6 4.6 "precursor(Na0.75CoO2) immersed in Br/CH3CN solution. For several Na-content, different Br-content solution used" Na content dependence of superconductivity and the spin correlations in NaxCoO2/1.3H2O 2006 "Department of Physics, Okayama University, Okayama, Japan" "J.Phys.Condens.Matter, 18(2006)L63"
40740 SCI2922462 SWCNT(Single-walled carbon nanotube) 4 A in diameter. C(CNT) C1 C 1 2001 K 15 15 "RuO2,SrO2,Eu2O3,CeO2,CuO" 1 "mixture - CAL(1020, 1040, 1060C for 24h) - pellet - ANN(1075C, 40h, in O2-flow) - slow cool to RT." Superconductivity in 4 angstrom single-walled carbon nanotubes 2001 Science 292(2001)2462
40741 JP01802563 magnetic transition at 140 K. "RuSr2(Eu,Ce)2Cu2O10" Ru1Sr2Eu1.5Ce0.5Cu2O9.6 Ru 1 Sr 2 Eu 1.5 Ce 0.5 Cu 2 O 10-z 9.6 2006 Ru1222 I4/mmm A 3.8378 28.4849 K 25 33 43 25 33 T "resistivity, extrapolation" 32 HC40741 A from Hc2 32 uV/K TP40741 "mixture - pellet - sealed in evacuated quartz tube(c-coated) - heat(1200C,6h) Q to RT" "Magnetism, upper critical field and thermoelectric power of the magnetosuperconductor RuSr2Eu1.5Ce0.5Cu2O10-z" 2006 "National Physical Laboratory, Dr K S Krishnan Marg, New Delhi-110012, India" "J.Phys.Condens.Matter, 18(2006)2563"
40742 JP01804417 "parkerite structure. PENET,Hc1(0), GL-parameter calculated from Hc(0) using GLAG theory. Hc(0)=6.68 mT, GL = 10.1. Tc(SP) = 0.72 K. (dC/gamma*Tc) = 1.35." Bi2Ni3S2 Bi2Ni3S2 Bi 2 Ni 3 S 2 2006 C2/m K 0.75 0.79 0.85 0.79 mT estimation from Hc 1.08 mT "resistivity, WHH" 95 mT/K 180 MHC40742 A from Hc2 590 A "estimation from Hc(0), GLAG" 5919 MSP40742 mJ/mol.K2 11.4 SP-heat 189 SP-heat "mixture - pellet - sealed in evacuated quartz tube(c-coated) - heat(1200C,6h) Q to RT" "Superconductivity in ternary chalcogenides Bi2Ni3X2 (X = S, Se)" 2006 "Division of Chemistry, Graduate School of Science, Hokkaido University, Sapporo 060-0810, Japan" "J.Phys.Condens.Matter, 18(2006)4417"
40743 JP01804417 "parkerite structure. PENET,Hc1(0), GL-parameter calculated from Hc(0) using GLAG theory. Hc(0)=6.39 mT, GL = 8.31. Tc(SP) = 0.70 K. (dC/gamma*Tc) = 1.16." Bi2Ni3Se2 Bi2Ni3Se2 Bi 2 Ni 3 Se 2 2006 C2/m K 0.66 0.73 0.86 0.73 mT estimation from Hc 1.15 mT "resistivity, WHH" 75 mT/K 148 MHC40743 A from Hc2 660 A "estimation from Hc(0), GLAG" 5497 MSP40743 mJ/mol.K2 12.2 SP-heat 173 SP-heat "mixture - pellet - sealed in evacuated quartz tube(c-coated) - heat(1200C,6h) Q to RT" "Superconductivity in ternary chalcogenides Bi2Ni3X2 (X = S, Se)" 2006 "Division of Chemistry, Graduate School of Science, Hokkaido University, Sapporo 060-0810, Japan" "J.Phys.Condens.Matter, 18(2006)4417"
40744 PHC4430029 "Tl2Ba2Ca(Cu,Fe)2O8" Tl2Ba2Ca1Cu1.98Fe0.02O8 Tl 2 Ba 2 Ca 1 Cu 1.98 Fe 0.02 O 8 2006 Tl2212 K 106 107 106 "See Inorganic Mater., 42-3(2006)1" Effect of fluorine and cerium substitutions on the properties of the Tl2Ba2CaCu1.98Fe0.02O8 superconductor 2006 "Institute of Solid State and Semiconductor Physics, National Academy of Sciences of Belarus P, Brovki 19, Minsk 220072, Belarus" "Physica C, 443(2006)29"
40745 PHC4430029 NMR measured. measurement of F-content was not shown. "Tl2Ba2Ca(Cu,Fe)2(F,O)8" Tl2Ba2Ca1Cu1.98Fe0.02F0.1O7.95 Tl 2 Ba 2 Ca 1 Cu 1.98 Fe 0.02 F 0.1 O 7.95 2006 Tl2212 K 110 111 110 "See Inorganic Mater., 42-3(2006)1" Effect of fluorine and cerium substitutions on the properties of the Tl2Ba2CaCu1.98Fe0.02O8 superconductor 2006 "Institute of Solid State and Semiconductor Physics, National Academy of Sciences of Belarus P, Brovki 19, Minsk 220072, Belarus" "Physica C, 443(2006)29"
40746 PHC4430029 "impurity phase=negligible CuO, BaCO3. NMR measured. measurement of F-content was not shown." "Tl2Ba2Ca(Cu,Fe)2(F,O)8" Tl2Ba2Ca1Cu1.98Fe0.02F0.2O7.9 Tl 2 Ba 2 Ca 1 Cu 1.98 Fe 0.02 F 0.2 O 7.9 2006 Tl2212 K 109 111 109 "See Inorganic Mater., 42-3(2006)1" Effect of fluorine and cerium substitutions on the properties of the Tl2Ba2CaCu1.98Fe0.02O8 superconductor 2006 "Institute of Solid State and Semiconductor Physics, National Academy of Sciences of Belarus P, Brovki 19, Minsk 220072, Belarus" "Physica C, 443(2006)29"
40747 PHC4430029 "impurity phase=CuO,BaCO3,BaCuO2,BaF2. measurement of F-content was not shown." "Tl2Ba2Ca(Cu,Fe)2(F,O)8" Tl2Ba2Ca1Cu1.98Fe0.02F0.3O7.85 Tl 2 Ba 2 Ca 1 Cu 1.98 Fe 0.02 F 0.3 O 7.85 2006 Tl2212 K 101 106 101 "See Inorganic Mater., 42-3(2006)1" Effect of fluorine and cerium substitutions on the properties of the Tl2Ba2CaCu1.98Fe0.02O8 superconductor 2006 "Institute of Solid State and Semiconductor Physics, National Academy of Sciences of Belarus P, Brovki 19, Minsk 220072, Belarus" "Physica C, 443(2006)29"
40748 PHC4430029 "Tl2Ba2(Ca,Ce)(Cu,Fe)2O8" Tl2Ba2Ca0.9Ce0.1Cu1.98Fe0.02O8 Tl 2 Ba 2 Ca 0.9 Ce 0.1 Cu 1.98 Fe 0.02 O 8 2006 Tl2212 K 99 103 99 "See Inorganic Mater., 42-3(2006)1" Effect of fluorine and cerium substitutions on the properties of the Tl2Ba2CaCu1.98Fe0.02O8 superconductor 2006 "Institute of Solid State and Semiconductor Physics, National Academy of Sciences of Belarus P, Brovki 19, Minsk 220072, Belarus" "Physica C, 443(2006)29"
40749 PHC4430029 NMR measured. NMR measured. measurement of Ce- and F-content was not shown. "Tl2Ba2(Ca,Ce)(Cu,Fe)2(F,O)8" Tl2Ba2Ca0.9Ce0.1Cu1.98Fe0.02F0.2O7.9 Tl 2 Ba 2 Ca 0.9 Ce 0.1 Cu 1.98 Fe 0.02 F 0.2 O 7.9 2006 Tl2212 K 103 106 103 "See Inorganic Mater., 42-3(2006)1" Effect of fluorine and cerium substitutions on the properties of the Tl2Ba2CaCu1.98Fe0.02O8 superconductor 2006 "Institute of Solid State and Semiconductor Physics, National Academy of Sciences of Belarus P, Brovki 19, Minsk 220072, Belarus" "Physica C, 443(2006)29"
40750 PHC4430029 impurity phase=BaCO3 "Tl2Ba2(Ca,Ce)Cu2O8" Tl2Ba2Ca0.9Ce0.1Cu2O8 Tl 2 Ba 2 Ca 0.9 Ce 0.1 Cu 2 O 8 2006 Tl2212 K 100 102 100 "See Inorganic Mater., 42-3(2006)1" Effect of fluorine and cerium substitutions on the properties of the Tl2Ba2CaCu1.98Fe0.02O8 superconductor 2006 "Institute of Solid State and Semiconductor Physics, National Academy of Sciences of Belarus P, Brovki 19, Minsk 220072, Belarus" "Physica C, 443(2006)29"
40751 PHC4430029 impurity phase=BaCO3 "Tl2Ba2(Ca,Ce)Cu2O8" Tl2Ba2Ca0.8Ce0.2Cu2O8 Tl 2 Ba 2 Ca 0.8 Ce 0.2 Cu 2 O 8 2006 Tl2212 K 103 103 103 "See Inorganic Mater., 42-3(2006)1" Effect of fluorine and cerium substitutions on the properties of the Tl2Ba2CaCu1.98Fe0.02O8 superconductor 2006 "Institute of Solid State and Semiconductor Physics, National Academy of Sciences of Belarus P, Brovki 19, Minsk 220072, Belarus" "Physica C, 443(2006)29"
40752 PHC4430029 "not SC. impurity phase=BaCO3, BaCuO2" "Tl2Ba2(Ca,Ce)Cu2O8" Tl2Ba2Ca0.7Ce0.3Cu2O8 Tl 2 Ba 2 Ca 0.7 Ce 0.3 Cu 2 O 8 2006 Tl2212 K "See Inorganic Mater., 42-3(2006)1" Effect of fluorine and cerium substitutions on the properties of the Tl2Ba2CaCu1.98Fe0.02O8 superconductor 2006 "Institute of Solid State and Semiconductor Physics, National Academy of Sciences of Belarus P, Brovki 19, Minsk 220072, Belarus" "Physica C, 443(2006)29"
40753 PHC4430029 "not SC. impurity phase=BaCO3, BaCuO2" "Tl2Ba2(Ca,Ce)Cu2O8" Tl2Ba2Ca0.6Ce0.4Cu2O8 Tl 2 Ba 2 Ca 0.6 Ce 0.4 Cu 2 O 8 2006 Tl2212 K "See Inorganic Mater., 42-3(2006)1" Effect of fluorine and cerium substitutions on the properties of the Tl2Ba2CaCu1.98Fe0.02O8 superconductor 2006 "Institute of Solid State and Semiconductor Physics, National Academy of Sciences of Belarus P, Brovki 19, Minsk 220072, Belarus" "Physica C, 443(2006)29"
40754 P074020505 as-grown. p = 0.143 (determined using Tallon's eq.. with Tc(max)=93.6 K) YBa2Cu3Oz Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 3 2006 Y123 K 91.5 91.5 T using dHc2/dT & WHH 221 T/K 3.45 A from Hc2 12.2 "Crystals were grown by top-seeded solution growth using Ba3Cu5O solvent. ANN(400C,180h in flowing O2)" Reversible magnetization and critical fluctuations in systematically doped YBa2Cu3O7-z single crystals 2006 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100080, People's Republic of China" "Phys.Rev.B, 74(2006)020505R"
40756 P074020505 "ANN(520C, 110h). p = 0.126 (determined using Tallon's eq.. with Tc(max)=93.6 K)" YBa2Cu3Oz Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 3 2006 Y123 K 84.4 84.4 T using dHc2/dT & WHH 191.5 T/K 3.23 A from Hc2 13.1 "Crystals were grown by top-seeded solution growth using Ba3Cu5O solvent. ANN(400C,180h in flowing O2)" Reversible magnetization and critical fluctuations in systematically doped YBa2Cu3O7-z single crystals 2006 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100080, People's Republic of China" "Phys.Rev.B, 74(2006)020505R"
40757 P074020505 "ANN(540C, 120h). p = 0.116 (determined using Tallon's eq.. with Tc(max)=93.6 K)" YBa2Cu3Oz Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 3 2006 Y123 K 78.6 78.6 T using dHc2/dT & WHH 167 T/K 3.03 A from Hc2 14 "Crystals were grown by top-seeded solution growth using Ba3Cu5O solvent. ANN(400C,180h in flowing O2)" Reversible magnetization and critical fluctuations in systematically doped YBa2Cu3O7-z single crystals 2006 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100080, People's Republic of China" "Phys.Rev.B, 74(2006)020505R"
40758 P074020505 "ANN(580C, 110h). p = 0.102 (determined using Tallon's eq.. with Tc(max)=93.6 K)" YBa2Cu3Oz Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 3 2006 Y123 K 68 68 T using dHc2/dT & WHH 97 T/K 2 A from Hc2 18.5 "Crystals were grown by top-seeded solution growth using Ba3Cu5O solvent. ANN(400C,180h in flowing O2)" Reversible magnetization and critical fluctuations in systematically doped YBa2Cu3O7-z single crystals 2006 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100080, People's Republic of China" "Phys.Rev.B, 74(2006)020505R"
40759 P074020505 "ANN(680C, 130h). p = 0.093 (determined using Tallon's eq.. with Tc(max)=93.6 K)" YBa2Cu3Oz Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 3 2006 Y123 K 58.4 58.4 T using dHc2/dT & WHH 78.5 T/K 1.82 A from Hc2 20.4 "Crystals were grown by top-seeded solution growth using Ba3Cu5O solvent. ANN(400C,180h in flowing O2)" Reversible magnetization and critical fluctuations in systematically doped YBa2Cu3O7-z single crystals 2006 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100080, People's Republic of China" "Phys.Rev.B, 74(2006)020505R"
40760 P074020505 "ANN(520C,90h, in flowing N2). p = 0.070 (determined using Tallon's eq.. with Tc(max)=93.6 K). Tc = 0 for p = 0.058(=p)" YBa2Cu3Oz Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 3 2006 Y123 K 30.3 30.3 T using dHc2/dT & WHH 36.9 T/K 1.43 A from Hc2 30.2 "Crystals were grown by top-seeded solution growth using Ba3Cu5O solvent. ANN(400C,180h in flowing O2)" Reversible magnetization and critical fluctuations in systematically doped YBa2Cu3O7-z single crystals 2006 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100080, People's Republic of China" "Phys.Rev.B, 74(2006)020505R"
40761 P070020505 P-induced SC. Tc shows at P = 1.75 GPa. Figure shows Tc(x) at P=1.75 GPa. "Ce(Rh,Ir)In5" Ce1Rh0.9Ir0.1In5 Ce 1 Rh 0.9 Ir 0.1 In 5 2004 HoCoGa5 K 2.04 0 2.04 MTC40761 Two superconducting phases in CeRh1-xIrxIn5 2004 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 70(2004)020505"
40762 P070020505 P-induced SC. Tc shows at P = 1.0 GPa. Figure shows Tc(x) at P=1.0 GPa. "Ce(Rh,Ir)In5" Ce1Rh0.75Ir0.25In5 Ce 1 Rh 0.75 Ir 0.25 In 5 2004 2.86 HoCoGa5 K 1.84 0 1.84 MTC40762 Two superconducting phases in CeRh1-xIrxIn5 2004 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 70(2004)020505"
40763 P070020505 Figure shows Tc(x) at P=0 GPa. "Ce(Rh,Ir)In5" Ce1Rh0.5Ir0.5In5 Ce 1 Rh 0.5 Ir 0.5 In 5 2004 3.65 HoCoGa5 K 0.79 0.79 MTC40763 Two superconducting phases in CeRh1-xIrxIn5 2004 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 70(2004)020505"
40764 P074012504 Li-content by ICP. Hc2(T) defined as R/Rn = 0.9. Li0.68NbO2 Li0.68Nb1O2 Li 0.68 Nb 1 O 2 1 2006 MoS2 K 4.8 5.5 0.7 5.15 MHC40764 resistive meV 0.8 14 mj/mol.K2 3.588 SP-heat 462 "LiNbO2 synthesized by heating (1050C,60h) of (Li3NbO+NbO), Chemical reaction (Li0.93NbO2 + bromine as oxidative agent, at RT)" Evidence of s-wave pairing symmetry in the layered superconductor Li0.68NbO2 from specific heat measurements 2006 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100080, People's Republic of China" "Phys.Rev.B, 74(2006)012504"
40765 P074020501 P-induced SC. Pc*(AF) = 1.95 K. P(Tcmax) = 2.4 GPa. Coexistence phase(AF+SC) appears below Pc* under magnetic field. SP-heat measured. SC data for P=2.41 GPa. CeRhIn5 Ce1Rh1In5 Ce 1 Rh 1 In 5 2006 HoCoIn5 K 2.24 0 2.24 T/K 35 MHC40765 Coexistence of antiferromagnetism and superconductivity in CeRhIn5 under high pressure and magnetic field 2006 "Phys.Rev.B, 74(2006)020501R"
40766 P074024505 Figure of Tc(P) contains the data of two samples(RRR=10 and 25). no difference between R//ab and R//c measurements. C6Yb C6Yb1 C 6 Yb 1 3 2006 K 6.5 6.5 MTC40766 K/GPa 0.37 Pressure dependence of the superconducting transition temperature in C6Yb and C6Ca 2006 "Cavendish Laboratory, University of Cambridge, J. J. Thompson Avenue, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.B, 74(2006)020501R"
40767 P074024505 Tc by M(50Oe) C6Ca C6Ca1 C 6 Ca 1 3 2006 K 11.1 11.1 MTC40767 K/GPa 0.5 Pressure dependence of the superconducting transition temperature in C6Yb and C6Ca 2006 "Cavendish Laboratory, University of Cambridge, J. J. Thompson Avenue, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.B, 74(2006)020501R"
40768 GIC1981288 KTl1.5C4 K1Tl1.5C4 K 1 Tl 1.5 C 4 1981 GIC K 2.7 2.7 "Physics of Intercalation Compounds'' ed, L.Pietronero and E.Tosatti" 1981 "Springer, 1981, p=288"
40769 GIC1981288 KTl1.5C8 K1Tl1.5C8 K 1 Tl 1.5 C 8 1981 GIC K 2.45 2.45 "Physics of Intercalation Compounds'' ed, L.Pietronero and E.Tosatti" 1981 "Springer, 1981, p=288"
40770 SYN0050257 anisotropy factor = 4.7 KC8 C8K1 C 8 K 1 3 1983 GIC K 0.134 0.134 Oe/K 160 40.3 A 7800 2000 C8M prepared by usual two temperature method. C8M react with Hg vapor at 100C. Superconductivity of graphite intercalation compounds-stage and pressure dependence of anisotropy 1983 "Synth.Met., 5(1983)257"
40771 SYN0050257 anisotropy factor = 6.2 KC8 C8K1 C 8 K 1 3 1983 GIC K 0.145 0.145 Oe/K 160 42.8 A 9400 1500 C8M prepared by usual two temperature method. C8M react with Hg vapor at 100C. Superconductivity of graphite intercalation compounds-stage and pressure dependence of anisotropy 1983 "Synth.Met., 5(1983)257"
40772 SYN0050257 anisotropy factor = 10.4 KHgC4 K1Hg1C4 K 1 Hg 1 C 4 3 1983 GIC K 0.86 0.86 Oe/K 760 57.2 A 2600 200 C8M prepared by usual two temperature method. C8M react with Hg vapor at 100C. Superconductivity of graphite intercalation compounds-stage and pressure dependence of anisotropy 1983 "Synth.Met., 5(1983)257"
40773 SYN0050257 anisotropy factor = 11.0 KHgC4 K1Hg1C4 K 1 Hg 1 C 4 3 1983 GIC K 0.73 0.73 Oe/K 788 80.5 MHC40773 A 2400 240 C8M prepared by usual two temperature method. C8M react with Hg vapor at 100C. Superconductivity of graphite intercalation compounds-stage and pressure dependence of anisotropy 1983 "Synth.Met., 5(1983)257"
40774 SYN0050257 anisotropy factor = 10.2 RbHgC4 Rb1Hg1C4 Rb 1 Hg 1 C 4 3 1983 GIC K 0.99 0.99 Oe/K 363 40.7 MHC40774 A 2900 320 C8M prepared by usual two temperature method. C8M react with Hg vapor at 100C. Superconductivity of graphite intercalation compounds-stage and pressure dependence of anisotropy 1983 "Synth.Met., 5(1983)257"
40775 SYN0050257 anisotropy factor = 15.5 KHgC8 K1Hg1C8 K 1 Hg 1 C 8 3 1983 GIC K 1.9 1.9 Oe/K 621 42.7 A 2000 140 C8M prepared by usual two temperature method. C8M react with Hg vapor at 100C. Superconductivity of graphite intercalation compounds-stage and pressure dependence of anisotropy 1983 "Synth.Met., 5(1983)257"
40776 SYN0050257 anisotropy factor = 21.7 KHgC8 K1Hg1C8 K 1 Hg 1 C 8 3 1983 GIC K 1.94 1.94 Oe/K 1060 47.5 MHC40776 A 1900 85 C8M prepared by usual two temperature method. C8M react with Hg vapor at 100C. Superconductivity of graphite intercalation compounds-stage and pressure dependence of anisotropy 1983 "Synth.Met., 5(1983)257"
40777 SYN0050257 anisotropy factor = 41.3 RbHgC8 Rb1Hg1C8 Rb 1 Hg 1 C 8 3 1983 GIC K 1.4 1.4 Oe/K 2100 62.9 MHC40777 A 1900 58 C8M prepared by usual two temperature method. C8M react with Hg vapor at 100C. Superconductivity of graphite intercalation compounds-stage and pressure dependence of anisotropy 1983 "Synth.Met., 5(1983)257"
40778 SYN0050257 anisotropy factor = 47 RbHgC8 Rb1Hg1C8 Rb 1 Hg 1 C 8 3 1983 GIC K 1.4 1.4 Oe/K 2090 44.3 MHC40778 A 2300 49 C8M prepared by usual two temperature method. C8M react with Hg vapor at 100C. Superconductivity of graphite intercalation compounds-stage and pressure dependence of anisotropy 1983 "Synth.Met., 5(1983)257"
40779 SYN0050257 anisotropy factor = 10 KTl1.5C4 K1Tl1.5C4 K 1 Tl 1.5 C 4 3 1983 GIC K 2.56 2.56 Oe/K 16800 1690 MHC40779 A 276 27.8 C8M prepared by usual two temperature method. C8M react with Hg vapor at 100C. Superconductivity of graphite intercalation compounds-stage and pressure dependence of anisotropy 1983 "Synth.Met., 5(1983)257"
40780 SYN0050257 not SC KTl1.5 K1Tl1.5 K 1 Tl 1.5 1983 K 0.4 C8M prepared by usual two temperature method. C8M react with Hg vapor at 100C. Superconductivity of graphite intercalation compounds-stage and pressure dependence of anisotropy 1983 "Synth.Met., 5(1983)257"
40781 JPS0501964 pseudo single crystal. anisotropy factor = 31 KHgC8 K1Hg1C8 K 1 Hg 1 C 8 3 1981 GIC K 1.9 1.9 Oe/K 2300 69 MHC40781 A 1600 48 "KHg prepared in pyrex tube(400C,1d, in vac) - HOPG(graphite)+KHg2(300C,1w, in vac)" Anisotropic superconductivity in the graphite potassium-amalgam intercalation compound C8KHg 1981 "J.Phys.Soc.Jpn, 50(1981)1964"
40782 JPS0501964 pseudo single crystal. anisotropy factor = 30 KHgC8 K1Hg1C8 K 1 Hg 1 C 8 3 1981 GIC K 1.7 1.7 Oe/K 2300 74 MHC40781 A 1600 52 "KHg prepared in pyrex tube(400C,1d, in vac) - HOPG(graphite)+KHg2(300C,1w, in vac)" Anisotropic superconductivity in the graphite potassium-amalgam intercalation compound C8KHg 1981 "J.Phys.Soc.Jpn, 50(1981)1964"
40783 PR02606315 dTc/dT is for P-region of P>0.08 kbar. KHgC4 K1Hg1C4 K 1 Hg 1 C 4 1982 GIC K 0.85 1.42 1.135 K/GPa -0.49 Observation of anomalies in the pressure dependence of the superconducting transition temperature of potassium-based graphite intercalation compounds 1982 "Phys.Rev.B, 26(1982)6315"
40784 PR02606315 not SC (P<10.1 kbar) KC24 C24K1 C 24 K 1 1982 GIC K 0.07 Observation of anomalies in the pressure dependence of the superconducting transition temperature of potassium-based graphite intercalation compounds 1982 "Phys.Rev.B, 26(1982)6315"
40785 SSC0380103 thermodynamic Hc(0) = 73 Oe KHgC8 K1Hg1C8 K 1 Hg 1 C 8 1981 GIC A 13.51 K 1.93 1.93 mj/mol.K2 0.2 SP-heat 260 Superconductivity of the graphite intercalation compounds KHgC8 and RbHgC8: Evidence from specific heat 1981 "Solid State Commun., 38(1981)103"
40786 SSC0380103 (dC/gamma*Tc) = 2.3 RbHgC8 Rb1Hg1C8 Rb 1 Hg 1 C 8 1981 GIC A 14.21 K 1.46 1.46 mj/mol.K2 0.15 SP-heat 235 Superconductivity of the graphite intercalation compounds KHgC8 and RbHgC8: Evidence from specific heat 1981 "Solid State Commun., 38(1981)103"
40787 PR02204535 RbC8 Rb1C8 Rb 1 C 8 1980 GIC K mj/mol.K2 1.15 SP-heat 439 "Low-temperature specific heat of the graphite intercalation compounds KC8, CsC8, RbC8, and their parent highly oriented pyrolytic graphite" 1980 "Department of Physics, University of Delaware, Newark, Delaware 19711" "Phys.Rev.B, 22(1980)4535"
40788 PR02204535 CsC8 Cs1C8 Cs 1 C 8 1980 GIC K mj/mol.K2 0.45 SP-heat 397 "Low-temperature specific heat of the graphite intercalation compounds KC8, CsC8, RbC8, and their parent highly oriented pyrolytic graphite" 1980 "Department of Physics, University of Delaware, Newark, Delaware 19711" "Phys.Rev.B, 22(1980)4535"
40789 PR02204535 KC8 K1C8 K 1 C 8 1980 GIC K mj/mol.K2 0.75 SP-heat 374 "Low-temperature specific heat of the graphite intercalation compounds KC8, CsC8, RbC8, and their parent highly oriented pyrolytic graphite" 1980 "Department of Physics, University of Delaware, Newark, Delaware 19711" "Phys.Rev.B, 22(1980)4535"
40790 JPC005L230 Tc(P=0) = 7.149 - 7.191. (dTc/dP) = 0.028 K/GPa for P > 35 kbar. NbSe2 Nb1Se2 Nb 1 Se 2 3 1972 TX2 A 3.45 12.56 K 7.15 7.15 MTC40790 K/GPa 0.495 Superconductivity of Nbse2 to 140 kbar 1972 "J.Phys.C, 5(1972)L230"
40791 PHF0051713 TaS2 S2Ta1 S 2 Ta 1 1975 TX2 A 3.32 12.08 2H-type K 0.65 0.19 0.65 K/GPa 0.975 "(Ta-wire+Se-chunks+S-powder) - (evacuated quartz tube) - react(900-1000C, 5d)" Superconductivity of TaS2-xSex layer compounds at high pressure 1975 "J.Phys.F, 5(1975)1713"
40792 PHF0051713 "Ta(S,Se)2" Ta1S1.8Se0.2 Ta 1 S 1.8 Se 0.2 1975 TX2 A 3.33 12.18 4H-type K 2.75 0.04 2.75 K/GPa 0.23 "(Ta-wire+Se-chunks+S-powder) - (evacuated quartz tube) - react(900-1000C, 5d)" Superconductivity of TaS2-xSex layer compounds at high pressure 1975 "J.Phys.F, 5(1975)1713"
40793 PHF0051713 "Ta(S,Se)2" Ta1S1.6Se0.4 Ta 1 S 1.6 Se 0.4 1975 TX2 A 3.34 12.24 2H-type K 3.84 0.24 3.84 K/GPa 0.575 "(Ta-wire+Se-chunks+S-powder) - (evacuated quartz tube) - react(900-1000C, 5d)" Superconductivity of TaS2-xSex layer compounds at high pressure 1975 "J.Phys.F, 5(1975)1713"
40794 PHF0051713 "Ta(S,Se)2" Ta1S1.2Se0.8 Ta 1 S 1.2 Se 0.8 1975 TX2 A 3.36 24.84 4H-type K 3.7 0.1 3.7 K/GPa 0.55 "(Ta-wire+Se-chunks+S-powder) - (evacuated quartz tube) - react(900-1000C, 5d)" Superconductivity of TaS2-xSex layer compounds at high pressure 1975 "J.Phys.F, 5(1975)1713"
40795 PHF0051713 "Ta(S,Se)2" Ta1S1Se1 Ta 1 S 1 Se 1 1975 TX2 A 3.367 12.5 2H-type K 3.36 0.12 3.36 K/GPa 0.55 "(Ta-wire+Se-chunks+S-powder) - (evacuated quartz tube) - react(900-1000C, 5d)" Superconductivity of TaS2-xSex layer compounds at high pressure 1975 "J.Phys.F, 5(1975)1713"
40796 PHF0051713 "Ta(S,Se)2" Ta1S0.4Se1.6 Ta 1 S 0.4 Se 1.6 1975 TX2 A 3.41 25.28 4H-type K 3.04 0.11 3.04 K/GPa 0.405 "(Ta-wire+Se-chunks+S-powder) - (evacuated quartz tube) - react(900-1000C, 5d)" Superconductivity of TaS2-xSex layer compounds at high pressure 1975 "J.Phys.F, 5(1975)1713"
40797 PHF0051713 TaSe2 Se2Ta1 Se 2 Ta 1 1975 TX2 A 3.43 12.7 2H-type K 0.14 0.02 0.14 "(Ta-wire+Se-chunks+S-powder) - (evacuated quartz tube) - react(900-1000C, 5d)" Superconductivity of TaS2-xSex layer compounds at high pressure 1975 "J.Phys.F, 5(1975)1713"
40798 PHF0051713 collidine-intercalated TaS2. M=collidine TaS2(collidine)0.167 Ta1S2M0.167 Ta 1 S 2 M 0.167 1975 TX2 A 3.32 19.44 2H-type K 2.84 2.84 Superconductivity of TaS2-xSex layer compounds at high pressure 1975 "J.Phys.F, 5(1975)1713"
40799 PHF0051713 pyridine-intercalated TaS2. M=pyridine TaS2(pyridine)0.5 Ta1S2M0.5 Ta 1 S 2 M 0.5 1975 TX2 A 3.33 24.04 2H-type K 3.24 0.3 3.24 K/GPa -0.05 Superconductivity of TaS2-xSex layer compounds at high pressure 1975 "J.Phys.F, 5(1975)1713"
40800 PHF0051713 picoline-intercalated TaS2. M=picoline TaS2(pikoline)0.333 Ta1S2M0.333 Ta 1 S 2 M 0.333 1975 TX2 A 3.31 23.5 2H-type K 2.74 0.15 2.74 K/GPa 0.205 Superconductivity of TaS2-xSex layer compounds at high pressure 1975 "J.Phys.F, 5(1975)1713"
40801 PHF0051713 aniline-intercalated TaS2. M=aniline. (dTc/dP) < 0.13 K/GPa TaS2(aniline)0.75 Ta1S2M0.75 Ta 1 S 2 M 0.75 1975 TX2 A 3.32 36.4 2H-type K 2.49 1.66 2.49 K/GPa 0 Superconductivity of TaS2-xSex layer compounds at high pressure 1975 "J.Phys.F, 5(1975)1713"
40802 SSC0441145 Tc by ac-sus. KHgC8 K1Hg1C8 K 1 Hg 1 C 8 3 1982 GIC A 13.51 K 1.85 1.85 K/GPa -0.65 "HOPG,Hg,K" KC8 firstly prepared. Then react with excess-Hg at 200C. Quench to Liq.N2 Pressure dependence of the superconducting transition temperature of the stage-2 potassium mercurographitide intercalation compound 1982 "Solid State Commun., 44(1982)1150"
40803 SSC0441145 not SC upto 22 kbar. Tc by ac-sus. KHgC4 K1Hg1C4 K 1 Hg 1 C 4 1982 GIC K 1.3 "HOPG,Hg,K" KC8 firstly prepared. Then react with excess-Hg at 200C. Quench to Liq.N2 Pressure dependence of the superconducting transition temperature of the stage-2 potassium mercurographitide intercalation compound 1982 "Solid State Commun., 44(1982)1150"
40804 SSC0430005 Hc2 estimated from linear extrapolation to T=0 K. anisotropy factor = 4.5. KTl1.5C4 K1Tl1.5C4 K 1 Tl 1.5 C 4 1982 GIC K 2.7 2.7 kOe 20 4 A 290 60 "heat(graphite,KTl,Tl) in evacuated tube(200C)" Superconductivity of graphite intercalated with thallium alloys 1982 "Solid State Commun., 43(1982)5"
40805 SSC0430005 KTl1.5C8 K1Tl1.5C8 K 1 Tl 1.5 C 8 1982 GIC K 2.45 2.45 kOe "heat(graphite,KTl,Tl) in evacuated tube(200C)" Superconductivity of graphite intercalated with thallium alloys 1982 "Solid State Commun., 43(1982)5"
40806 PRL0340577 "N:S = 30.41:69.59. crystal polymer, quasi-1D material. e-ph coupling = 0.31." (SN)x N0.3S0.7 N 0.3 S 0.7 1975 K 0.26 0.26 mJ/g.K2 0.018 SP-heat 170 Superconductivity in polysulfur nitride (SN)x 1975 "IBM,San Jose" "Phys.Rev.Lett., 34(1975)577"
40807 PR05210315 Hc2(T) measured for H//[100] and H//[110]. no anisotyopy. UBe13 Be13U1 Be 13 U 1 3 1995 NaZn13 "NaZn13, cF112" K 0.9035 0.9035 T/K SUS 32.8 "Al-flux removed with NaOh. ANN(1000C, 6 months)" Inductive measurements and study of the upper critical field in UBe13 single crystals as a function of field orientation 1995 10 "Phys.Rev.B,52(1995)10315" "V, Be"
40808 PR05210315 Hc2(T) measured for H//[100] and H//[110]. no anisotyopy. UBe13 Be13U1 Be 13 U 1 3 1995 NaZn13 "NaZn13, cF112" K 0.9015 0.9015 T/K SUS 25.5 "Al-flux removed with NaOh. ANN(1000C, 6 months)" Inductive measurements and study of the upper critical field in UBe13 single crystals as a function of field orientation 1995 10 "Phys.Rev.B,52(1995)10315" "V, Be"
40809 PR05210315 Hc2(T) measured for H//[100] and H//[110]. no anisotyopy. UBe13 Be13U1 Be 13 U 1 3 1995 NaZn13 "NaZn13, cF112" K 0.8493 0.8493 T/K SUS 34.5 "Al-flux removed with NaOh. ANN(1000C, 6 months)" Inductive measurements and study of the upper critical field in UBe13 single crystals as a function of field orientation 1995 10 "Phys.Rev.B,52(1995)10315" "V, Be"
40810 PR05215517 Jc measured using Bean model K3C60 C60K3 C 60 K 3 3 1995 fullerene K 19.3 19.3 Oe deviation in M-H curve 42 MHC40810 doping temperature = 165C for K and = 200K for Rb. Magnetic properties of superconducting K3C60 and Rb3C60 synthesized From large single-crystal fullerenes 1995 12 "Phys.Rev.B,52(1995)15517"
40811 PR05215517 Jc measured using Bean model Rb3C60 C60Rb3 C 60 Rb 3 3 1995 fullerene K 30 30 Oe deviation in M-H curve 32 MHC40810 doping temperature = 165C for K and = 200K for Rb. Magnetic properties of superconducting K3C60 and Rb3C60 synthesized From large single-crystal fullerenes 1995 12 "Phys.Rev.B,52(1995)15517"
40812 PR05209847 Hc2(0) estimated from Hc2(2.2K) using linear approximation. CeRu2 Ce1Ru2 Ce 1 Ru 2 1995 Laves "Laves, C15" K 6.1 6.1 T 8.4 2.2 4.5 Magnetic anomaly and the peak effect in superconduting CeRu2 1995 10 "Phys.Rev.B,52(1995)9847" "Ce, Ru"
40813 PR05207689 Tc not shown. G-L parameter = 70. Nb0.35Ti0.65 Nb0.35Ti0.65 Nb 0.35 Ti 0.65 1995 K T 10.4 4.2 MHC40813 Conparison of pinning parameters between low-Tc superconductors and YBa2Cu3O7-z 1995 9 "Phys.Rev.B,52(1995)7689" "Y, Ba, Cu, O"
40814 PR05207689 "Tc not shown. G-L parameter = 29.6. irradiated with fast neutrons , fluences = 2*E+22 /m2." V3Si V3Si1 V 3 Si 1 3 1995 Cr3Si(A15) K T 11.6 11.3 MHC40813 "ANN(1800C, 3w)" Conparison of pinning parameters between low-Tc superconductors and YBa2Cu3O7-z 1995 9 "Phys.Rev.B,52(1995)7689" "Y, Ba, Cu, O"
40815 PR05207689 "Tc not shown. G-L parameter = 17.3 irradiated with fast neutrons , fluences = 2*E+29 /m2." V3Si V3Si1 V 3 Si 1 3 1995 Cr3Si(A15) K T 5.6 13.5 MHC40813 "ANN(1800C, 3w)" Conparison of pinning parameters between low-Tc superconductors and YBa2Cu3O7-z 1995 9 "Phys.Rev.B,52(1995)7689" "Y, Ba, Cu, O"
40817 PR05207689 Tc not shown. G-L parameter = 100 PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 1995 Chevrel K T 11.6 10 MHC40813 Conparison of pinning parameters between low-Tc superconductors and YBa2Cu3O7-z 1995 9 "Phys.Rev.B,52(1995)7689" "Y, Ba, Cu, O"
40818 JPS0522301 non-annealed sample. Hc1(0) shows Hc1(0.5K). Cr74Re26 Cr0.74Re0.26 Cr 0.74 Re 0.26 1983 A 2.9516 K 3.12 3.12 MTC40818 Oe 100 100 0.5 arc-melting Coexistence of antiferromagnetism and superconductivity in CrRe alloys 1983 "J.Phys.Soc.Jpn, 52(1983)2301"
40819 PHF010L333 sample from Viennese. Tc confirmed by SUS and RES. Y4Co3 Co3Y4 Co 3 Y 4 1980 6 K 2.1 2.1 mOhm.cm 0.0151 Magnetism and superconductivity in a transition metal compounds: Y4Co3 1980 "J.Phys.F, 10(1980)L333"
40820 PHF010L333 Sample from Imperial College. Tc confirmed by SUS and RES. Y4Co3 Co3Y4 Co 3 Y 4 1980 K 1.5 1.5 mOhm.cm 0.0143 Magnetism and superconductivity in a transition metal compounds: Y4Co3 1980 "J.Phys.F, 10(1980)L333"
40821 JPS0542359 1st stage graphite. G-L parameter estimated tobe 0.33(Hc3=110 mOe) for H//c-axis. C8Rb C8Rb1 C 8 Rb 1 3 1985 GIC K 0.0252 0.0252 "react(230C,5d)" Superconductivity in the first stage rubidium graphite intercalation compound C8Rb 1985 "J.Phys.Soc.Jpn, 54(1985)2359"
40822 JPS0501275 MP=85.5 C. RRR=30. Hc3(0) = 4.038 kOe. thermodynamic Hc(0) = 0.520 kOe. e-ph coupling = 0.90. Rn = 2.8 uOhm.cm In5Bi3 Bi3In5 Bi 3 In 5 1981 In5Bi3 "In5Bi3, tI32" K 4.14 4.14 kOe 1.911 kOe/K 0.63 MHC40822 melt in pyrex glass in vac. Superconductivity and electrical resistivity saturation in intermetallic compound In5Bi3 1981 "J.Phys.Soc.Jpn, 50(1981)1275"
40823 JPS0450050 "RRR=30. COHERE// = 610 A, COHERE/n = 77 A at 5.54 K. (Hc2//)/(Hc2/n) = 7.5 - 5.8 for 5.2 < T < 5.8K." 2H-NbS2 Nb1S2 Nb 1 S 2 3 1978 TX2 2H-type K 5.84 5.84 kOe 21 6.99 0.88 5.54 kOe/K 22.6 4.5 uOhm.cm 1.7 Chemical vapor transport method Anisotropy of upper critical field in superconducting 2H-NbS2 1978 "J.Phys.Soc.Jpn, 50(1981)50"
40824 SSC0920181 (dC/gamma*Tc) = 0.25 LaCu Cu1La1 Cu 1 La 1 1994 FeB K 6.15 0.2 6.15 kOe 12.6 kOe/K 2.97 MHC40824 A 162 148 SP-heat arc-melting Upper critical magnetic field and specific heat studies on LaCu 1994 "Solid State Commun., 92(1994)181"
40825 SSC0860643 G-L parameter = 53. K3C60 C60K3 C 60 K 3 3 1993 fullerene K 19.7 0.25 19.7 T 17.5 T/K 1.34 MHC40825 A 45 A 2400 sublimation growth and intercalation Determination of superconducting and normal state parameters of single crystal K3C60 1993 "Solid State Commun., 86(1993)643"
40826 SSC0690921 quench to 100K. high pressure phase(pressure quench). LAT-c = 3.69 A at 100K. C2Li C2Li1 C 2 Li 1 1989 GIC K 1.9 1.9 "react(350C, P=30-40 kbar, in stainless tube)" Superconductivity of graphite intercalation compound with C2Li 1989 "Solid State Commun., 69(1989)921"
40827 SSC0560589 tape. deposition temp. = 900C. Nb3Ge Ge1Nb3 Ge 1 Nb 3 1985 Cr3Si(A15) "Cr3Si, A15" K 19.09 19.09 T 25.14 T/K 1.9 MHC40827 "CVD method. Nb-Ge layers(thickness = 1-6 micron-m) on stainless tape) then, react thermally" Properties of Nb3Ge tapes for high field magnets 1985 "Solid State Commun., 56(1985)589"
40828 SSC0560589 tape. deposition temp. = 1000C. Nb3Ge Ge1Nb3 Ge 1 Nb 3 1985 Cr3Si(A15) "Cr3Si, A15" K 20.46 20.46 T 31.19 T/K 2.2 MHC40827 "CVD method. Nb-Ge layers(thickness = 1-6 micron-m) on stainless tape) then, react thermally" Properties of Nb3Ge tapes for high field magnets 1985 "Solid State Commun., 56(1985)589"
40829 SSC0520641 annealed at 680 K. GAMMA from Junod et al. Ti3Sb Sb1Ti3 Sb 1 Ti 3 1984 Cr3Si(A15) "Cr3Si, A15" K 5.5 5.5 kOe using WHH. 54.1 15.1 4.4 T/K 1.4 MHC40829 mj/cm3.K2 0.73 arc-melting Superconductivity and upper critical field studies on A-15 superconducting Ti3Sb compound 1984 "Solid State Commun., 52(1984)641"
40830 SSC0520641 annealed at 850 K. GAMMA from Junod et al. Ti3Sb Sb1Ti3 Sb 1 Ti 3 1984 Cr3Si(A15) A 5.2218 "Cr3Si, A15" K 6.5 6.5 kOe using WHH. 52 19.2 4.4 T/K 1.16 MHC40829 mj/cm3.K2 0.8 arc-melting Superconductivity and upper critical field studies on A-15 superconducting Ti3Sb compound 1984 "Solid State Commun., 52(1984)641"
40831 SSC0390773 spin-orbit parameter = 0.1 from fitting Hc2(T). V1-xGax Ga0.205V0.795 Ga 0.205 V 0.795 1 1981 Cr3Si(A15) A 4.814 "Cr3Si, A15" K 9.7 0.22 9.7 T 13 T/K 4.3 MHC40831 "arc-melting. ANN(1400C,6h) - ANN(1100-1200C,24h) - ANN(650C,1w)" Effect of composition on the upper critical field of V-Ga 1981 "Solid State Commun., 39(1981)773"
40832 SSC0390773 spin-orbit parameter = 0.2 from fitting Hc2(T). V1-xGax Ga0.222V0.778 Ga 0.222 V 0.778 1 1981 Cr3Si(A15) A 4.815 "Cr3Si, A15" K 12.3 0.45 12.3 T 17.8 T/K 4.3 MHC40831 "arc-melting. ANN(1400C,6h) - ANN(1100-1200C,24h) - ANN(650C,1w)" Effect of composition on the upper critical field of V-Ga 1981 "Solid State Commun., 39(1981)773"
40833 SSC0390773 spin-orbit parameter = 0.3 from fitting Hc2(T). V1-xGax Ga0.236V0.764 Ga 0.236 V 0.764 1 1981 Cr3Si(A15) A 4.816 "Cr3Si, A15" K 14.6 0.48 14.6 T 22.3 T/K 4.3 MHC40831 "arc-melting. ANN(1400C,6h) - ANN(1100-1200C,24h) - ANN(650C,1w)" Effect of composition on the upper critical field of V-Ga 1981 "Solid State Commun., 39(1981)773"
40834 SSC0390773 spin-orbit parameter = 0.25 from fitting Hc2(T). V1-xGax Ga0.248V0.752 Ga 0.248 V 0.752 1 1981 Cr3Si(A15) "Cr3Si, A15" K 15.1 0.23 15.1 T 22.5 T/K 4.3 "arc-melting. ANN(1400C,6h) - ANN(1100-1200C,24h) - ANN(650C,1w)" Effect of composition on the upper critical field of V-Ga 1981 "Solid State Commun., 39(1981)773"
40835 SSC0390773 spin-orbit parameter = 0.3 from fitting Hc2(T). V1-xGax Ga0.253V0.747 Ga 0.253 V 0.747 1 1981 Cr3Si(A15) A 4.819 "Cr3Si, A15" K 14.9 1.3 14.9 T 22.8 T/K 4.3 "arc-melting. ANN(1400C,6h) - ANN(1100-1200C,24h) - ANN(650C,1w)" Effect of composition on the upper critical field of V-Ga 1981 "Solid State Commun., 39(1981)773"
40836 SSC0390773 spin-orbit parameter = 0.25 from fitting Hc2(T). V1-xGax Ga0.265V0.735 Ga 0.265 V 0.735 1 1981 Cr3Si(A15) A 4.82 "Cr3Si, A15" K 13.6 0.9 13.6 T 21.8 T/K 5.5 MHC40836 "arc-melting. ANN(1400C,6h) - ANN(1100-1200C,24h) - ANN(650C,1w)" Effect of composition on the upper critical field of V-Ga 1981 "Solid State Commun., 39(1981)773"
40837 SSC0390773 spin-orbit parameter = 0.3 from fitting Hc2(T). V1-xGax Ga0.281V0.719 Ga 0.281 V 0.719 1 1981 Cr3Si(A15) A 4.823 "Cr3Si, A15" K 12.2 2.46 12.2 T 20.3 T/K 5.5 "arc-melting. ANN(1400C,6h) - ANN(1100-1200C,24h) - ANN(650C,1w)" Effect of composition on the upper critical field of V-Ga 1981 "Solid State Commun., 39(1981)773"
40838 SSC0390773 spin-orbit parameter = 0.25 from fitting Hc2(T). V1-xGax Ga0.296V0.704 Ga 0.296 V 0.704 1 1981 Cr3Si(A15) A 4.825 "Cr3Si, A15" K 12.1 1.55 12.1 T 19.4 T/K 5.5 "arc-melting. ANN(1400C,6h) - ANN(1100-1200C,24h) - ANN(650C,1w)" Effect of composition on the upper critical field of V-Ga 1981 "Solid State Commun., 39(1981)773"
40839 SSC0390773 ordered sample. spin-orbit parameter = 0.3 from fitting Hc2(T). V1-xGax Ga0.25V0.75 Ga 0.25 V 0.75 1 1981 Cr3Si(A15) "Cr3Si, A15" K 15.3 15.3 T 23.4 T/K 4.3 MHC40839 "arc-melting. ANN(1400C,6h) - ANN(1100-1200C,24h) - ANN(650C,1w)" Effect of composition on the upper critical field of V-Ga 1981 "Solid State Commun., 39(1981)773"
40840 SSC0390959 cubic. sample produced by RCA. Nb3Sn Nb3Sn1 Nb 3 Sn 1 3 1981 Cr3Si(A15) "Cr3Si, A15" K 17.6 17.6 T 29 26 4.2 T/K 2.4 MHC40840 Upper critical fields of cubic and tetragonal single crystal and polycrystalline Nb3Sn in dc fields to 30 tesra 1981 "Solid State Commun., 39(1981)959"
40841 SSC0390959 tetragonal. RRR = 8. sample produced by RCA Nb3Sn Nb3Sn1 Nb 3 Sn 1 3 1981 Cr3Si(A15) "Cr3Si, A15" K 17.4 17.4 T 24 22 4.2 T/K 2 MHC40841 Upper critical fields of cubic and tetragonal single crystal and polycrystalline Nb3Sn in dc fields to 30 tesra 1981 "Solid State Commun., 39(1981)959"
40842 SSC0390959 tetragonal. RRR = 50. sample used for dHvA effect measurements. Nb3Sn Nb3Sn1 Nb 3 Sn 1 3 1981 Cr3Si(A15) "Cr3Si, A15" K 18 18 T 20 18 4.2 T/K 1.6 MHC40842 Upper critical fields of cubic and tetragonal single crystal and polycrystalline Nb3Sn in dc fields to 30 tesra 1981 "Solid State Commun., 39(1981)959"
40843 SSC0390959 tetragonal. polycrystal. sample produced by RCA Nb3Sn Nb3Sn1 Nb 3 Sn 1 1 1981 Cr3Si(A15) "Cr3Si, A15" K 17.6 17.6 T 25 23 4.2 T/K 2.1 MHC40843 Upper critical fields of cubic and tetragonal single crystal and polycrystalline Nb3Sn in dc fields to 30 tesra 1981 "Solid State Commun., 39(1981)959"
40844 SSC0390959 cubic. polycrystal. sample produced by NML. Nb3Sn Nb3Sn1 Nb 3 Sn 1 1 1981 Cr3Si(A15) "Cr3Si, A15" K 17.4 17.4 T 29 26 4.2 T/K 2.4 MHC40844 Upper critical fields of cubic and tetragonal single crystal and polycrystalline Nb3Sn in dc fields to 30 tesra 1981 "Solid State Commun., 39(1981)959"
40845 SSC0300723 "ANN(1800C,10h). GAMMA from Junod et al." Nb3Pt Nb3Pt1 Nb 3 Pt 1 1979 Cr3Si(A15) "Cr3Si, A15" K 8.7 8.7 T 12.5 8 4.2 T/K 1.95 MHC40845 mJ/gat.K2 5.6 "Upper Critical Fields of Nb-3Au, Nb3Au0.7Pt0.3 and Nb3Pt" 1979 "Francis Bitter National Magnet Laboratory, Massachusetts, Institute of Technology, Cambridge, Massachusetts 02139, USA" "Solid State Commun., 30(1979)723"
40846 SSC0300723 "ANN(950C, 1 month)" Nb3Pt Nb3Pt1 Nb 3 Pt 1 1979 Cr3Si(A15) "Cr3Si, A15" K 10.9 10.9 MHC40845 "Upper Critical Fields of Nb-3Au, Nb3Au0.7Pt0.3 and Nb3Pt" 1979 "Francis Bitter National Magnet Laboratory, Massachusetts, Institute of Technology, Cambridge, Massachusetts 02139, USA" "Solid State Commun., 30(1979)723"
40847 SSC0300723 "ANN(1500C, 48h). GAMMA from Junod et al." Nb3Au Au1Nb3 Au 1 Nb 3 1979 Cr3Si(A15) "Cr3Si, A15" K 10.7 10.7 T 23.5 18 4.2 T/K 3.2 MHC40847 mJ/gat.K2 9.3 "Upper Critical Fields of Nb-3Au, Nb3Au0.7Pt0.3 and Nb3Pt" 1979 "Francis Bitter National Magnet Laboratory, Massachusetts, Institute of Technology, Cambridge, Massachusetts 02139, USA" "Solid State Commun., 30(1979)723"
40848 SSC0300723 "ANN(1500C,48h + 750C, 10d). GAMMA from Junod et al." "Nb3(Au,Pt)" Nb3Au0.7Pt0.3 Nb 3 Au 0.7 Pt 0.3 1979 Cr3Si(A15) "Cr3Si, A15" K 13 13 T 29.5 24.6 4.2 T/K 3.3 MHC40848 mJ/gat.K2 8.5 "Upper Critical Fields of Nb-3Au, Nb3Au0.7Pt0.3 and Nb3Pt" 1979 "Francis Bitter National Magnet Laboratory, Massachusetts, Institute of Technology, Cambridge, Massachusetts 02139, USA" "Solid State Commun., 30(1979)723"
40849 SSC0300723 Heat(1250C) then quenched into water. "Nb3(Au,Pt)" Nb3Au0.7Pt0.3 Nb 3 Au 0.7 Pt 0.3 1979 Cr3Si(A15) "Cr3Si, A15" K 10 10 MHC40849 mJ/g.K2 0.018 "Upper Critical Fields of Nb-3Au, Nb3Au0.7Pt0.3 and Nb3Pt" 1979 "Francis Bitter National Magnet Laboratory, Massachusetts, Institute of Technology, Cambridge, Massachusetts 02139, USA" "Solid State Commun., 30(1979)723"
40850 SSC0190197 "polymer. RRR = 70. SP lattice term coeff. = 8.8 E-6 J/g.K4. compositions and SP-heat data by Phys.Rev.Lett., 34(1975)89." (SN)x N0.3S0.7 N 0.3 S 0.7 1976 K 0.29 0.29 kOe 8.1 0.87 MHC40850 A 3000 135 "The upper critical field of superconducting polysulfur nitride, (SN)x" 1976 "Solid State Commun., 19(1976)197"
40851 SSC0160341 Hc2 measured by ESR of Gd(dopant). (dC/gamma*Tc) = 3.4. thermodynamic Hc(0) = 1.7 kG. 519.3 g/mol. LaOs2 La1Os2 La 1 Os 2 1975 Laves "Laves, C15" K 8.9 0.13 8.9 T 3 6.1 14 mJ/gat.K2 5.3 163 "arc-melting in Ar, ANN(1100C)" Superconducting properties of LaOs2 1975 "Solid State Commun., 16(1975)341"
40852 SSC0360721 Debye-temp. is a function of T. data shows DEBYE-T(0 K). SP of high-Tc materials should be analyze using new model. V3Si Si1V3 Si 1 V 3 1980 Cr3Si(A15) "Cr3Si, A15" K 17 17 3.77 14 mJ/gat.K2 13.2 297 Comment on specific heat of a transforming V3Si crystal 1980 "Solid State Commun., 36(1980)721"
40853 SSC0330581 "RRR=26. transformation temp. = 20.2K. cubic(T>20.2K), tetragonal(T<20.2 K). For tetragonal, GAMMA=67.6 mJ/mol.K2 and DEBYE-T = 425 K." V3Si Si1V3 Si 1 V 3 1980 Cr3Si(A15) A 4.724 "Cr3Si, A15" K 16.8 0.07 16.8 3.46 14 mJ/mol.K2 5934 465 electron beam floating zone refining Specific heat of a transforming V3Si crystal 1980 "Solid State Commun., 33(1980)581"
40854 PRL0531829 95% single phase U2PtC2 U2Pt1C2 U 2 Pt 1 C 2 1984 2 A 3.52 12.54 K 1.47 1.47 T/K 9 mJ/mol.K2 37.7 273 "arc-melting, then ANN(1300C,3h, in vac)" U2PtC2 and systematics of heavyfermions 1984 "Phys.Rev.Lett., 53(1984)1829"
40855 PR140A1620 sample from Argonne(ANL). Tc = 2.0K at P=10 kbar (from SP-heat) alpha-U U1 U 1 1965 K 1 1 MTC40855 K/GPa 1.05 200 Pressure dependence of the superconducting transition temperature of uranium 1965 Phys.Rev. A140(1965)1620
40856 L097077003 tunneling //c-axis using STM. CaC6 C6Ca1 C 6 Ca 1 3 2006 K 10 10 A 330 meV 1.6 3.66 11 10 days immersion of highly oriented graphite in molten Li-Ca alloy (350C). Scanning Tunneling Spectroscopy on the Novel Superconductor CaC6 2006 "Institut des Nanosciences de Paris, Universites Paris 6 et 7, UMR 7588 au CNRS, 140 rue de Lourmel, 75015 Paris, France" "Phys.Rev.Lett., 97(2006)077003"
40857 L097107001 SC for x > 0.05 in LixZrNCl. LixZrNCl Li0.06Zr1N1Cl1 Li 0.06 Zr 1 N 1 Cl 1 2006 K 15.2 15.2 MTC40857 Increase in Tc upon Reduction of Doping in LixZrNCl Superconductors 2006 "Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan" "Phys.Rev.Lett., 97(2006)107001"
40858 L097107001 LixZrNCl Li0.1Zr1N1Cl1 Li 0.1 Zr 1 N 1 Cl 1 2006 K Increase in Tc upon Reduction of Doping in LixZrNCl Superconductors 2006 "Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan" "Phys.Rev.Lett., 97(2006)107001"
40859 SSC1390334 not SC. Solubility limit of Mn = 0.3 in (Ru1-xMnx). hole conc. = 0.0824 from thermopower. "(Gd,Ce)2Sr2(Ru,Mn)Cu2O10" Gd1.4Ce0.6Sr2Ru0.99Mn0.01Cu2O10 Gd 1.4 Ce 0.6 Sr 2 Ru 0.99 Mn 0.01 Cu 2 O 10 1 2006 Ru1222 A 28.551 K 4.2 mOhm.cm 121.3 "Gd2O3,CeO2,SrCO3,CuO,MnO2" 1 "mixture - heat (1000C,24h,in air) - ANN(1050C,48h, in O2)" Effect of Mn substitution on the delicate balance between structure and properties of Gd1.4Ce0.6Sr2RuCu2O10 2006 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, Tamil Nadu, India" "Solid State Commun., 139(2006)334"
40860 PHC4430057 0.4=< x =<0.7 in (TlxPb0.5) were investigated. "(Tl,Pb)(Ba,Sr)2(Ca,Gd)Cu2Oz" Tl0.5Pb0.5Ba0.1Sr1.9Ca0.8Gd0.2Cu2Oz Tl 0.5 Pb 0.5 Ba 0.1 Sr 1.9 Ca 0.8 Gd 0.2 Cu 2 O z 1 2006 Tl1212 A 3.809 12.117 K 98 98 wet malic acid gel technique. Under- and over-doped bulk (TlaPb0.5)(Sr0.95Ba0.05)2(Ca0.8Gd0.2)Cu2Oz 1212 superconductors prepared via solution gel synthesis 2006 "Institute for Chemical Technology of Inorganic Materials, Johannes Kepler University, A 4040 Linz, Austria" "Physica C, 443(2006)57"
40861 PHC4490053 Jc(B) was measured at various temperature. MgB2 B2Mg1 B 2 Mg 1 1 2006 AlB2 A 3.0859 3.5263 "AlB2, C32" K 38.5 38.5 "Mg,Al,B" solid state reaction using 100nm Al powder. 3 wt% extra Mg was added to compensate for its loss. Investigation on MgB2 superconductor doped by nano-Al powder 2006 "School of Material Science and Engineering, Zhengzhou University, No. 97, Wenhua Road, Zhengzhou, Henan 450002, People's Republic of China" "Physica C, 449(2006)53"
40862 PHC4490053 Jc(B) was measured at various temperature. "(Mg,Al)B2" Mg0.99Al0.01B2 Mg 0.99 Al 0.01 B 2 1 2006 AlB2 A 3.0856 3.5237 "AlB2, C32" K 38 38 "Mg,Al,B" solid state reaction using 100nm Al powder. 3 wt% extra Mg was added to compensate for its loss. Investigation on MgB2 superconductor doped by nano-Al powder 2006 "School of Material Science and Engineering, Zhengzhou University, No. 97, Wenhua Road, Zhengzhou, Henan 450002, People's Republic of China" "Physica C, 449(2006)53"
40863 PHC4490053 Jc(B) was measured at various temperature. "(Mg,Al)B2" Mg0.98Al0.02B2 Mg 0.98 Al 0.02 B 2 1 2006 AlB2 A 3.0859 3.5236 "AlB2, C32" K 37.5 37.5 "Mg,Al,B" solid state reaction using 100nm Al powder. 3 wt% extra Mg was added to compensate for its loss. Investigation on MgB2 superconductor doped by nano-Al powder 2006 "School of Material Science and Engineering, Zhengzhou University, No. 97, Wenhua Road, Zhengzhou, Henan 450002, People's Republic of China" "Physica C, 449(2006)53"
40864 PHC4490053 Jc(B) was measured at various temperature. "(Mg,Al)B2" Mg0.95Al0.05B2 Mg 0.95 Al 0.05 B 2 1 2006 AlB2 A 3.0833 3.5179 "AlB2, C32" K 36.5 36.5 "Mg,Al,B" solid state reaction using 100nm Al powder. 3 wt% extra Mg was added to compensate for its loss. Investigation on MgB2 superconductor doped by nano-Al powder 2006 "School of Material Science and Engineering, Zhengzhou University, No. 97, Wenhua Road, Zhengzhou, Henan 450002, People's Republic of China" "Physica C, 449(2006)53"
40865 PHC4490053 Jc(B) was measured at various temperature. "(Mg,Al)B2" Mg0.92Al0.08B2 Mg 0.92 Al 0.08 B 2 1 2006 AlB2 A 3.083 3.5112 "AlB2, C32" K 35.5 35.5 "Mg,Al,B" solid state reaction using 100nm Al powder. 3 wt% extra Mg was added to compensate for its loss. Investigation on MgB2 superconductor doped by nano-Al powder 2006 "School of Material Science and Engineering, Zhengzhou University, No. 97, Wenhua Road, Zhengzhou, Henan 450002, People's Republic of China" "Physica C, 449(2006)53"
40866 P074092502 Co-valence = 3.48. Hc2 is lower than Pauli limit. NaxCoO2/yH2O Na0.346Co1H2.6O3.3 Na 0.346 Co 1 H 2.6 O 3.3 2006 A 19.692 K 4.81 4.81 TC40866 final process (NaOH aqueous solution) Valence and Na content dependences of superconductivity in NaxCoO2:yH2O 2006 "National Institute for Materials Science, Namiki 1-1, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 74(2006)092502"
40867 P074092502 Co-valence = 3.48. Hc2 is higher than Pauli limit. NaxCoO2/yH2O Na0.38Co1H2.6O3.3 Na 0.38 Co 1 H 2.6 O 3.3 2006 A 19.588 K 2.8 2.8 TC40866 final process (NaOH aqueous solution) Valence and Na content dependences of superconductivity in NaxCoO2:yH2O 2006 "National Institute for Materials Science, Namiki 1-1, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 74(2006)092502"
40868 P070144516 Hc2(0) = 5.2 T estimated from lower field region. NaxCoO2/yH2O Na0.3Co1H2.6O3.3 Na 0.3 Co 1 H 2.6 O 3.3 1 2004 K 4.345 4.345 T WHH 28 HC40868 Na0.7CoO2 - Na removed by Br - washed with acetonitrile - water air dry Possible singlet-to-triplet pairing transition in NaxCoO2:yH2O 2004 "Department of Theoretical Physics, Institute of Physics, 40-007 Katowice, Poland" "Phys.Rev.B, 70(2004)144516"
40869 P072060512 not SC. Schottky term(alpha) = 258.1 mJ.K2/mol. NaxCoO2 Na0.74Co1O2 Na 0.74 Co 1 O 2 2 3 2005 K 0.4 mJ/mol.K2 34.05 SP-heat 328.2 single crystal(using flux method). Na-content obtained by controlling deintercalated time. Dependence of the specific heat of NaxCoO2:yH2O/D2O on sodium and water concentrations 2005 "Condensed Matter Sciences Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 72(2005)060512"
40870 P072060512 not SC. Schottky term(alpha) = 19.44 mJ.K2/mol. NaxCoO2 Na0.72Co1O2 Na 0.72 Co 1 O 2 2 3 2005 K 0.4 mJ/mol.K2 32.91 SP-heat 453.6 single crystal(using flux method). Na-content obtained by controlling deintercalated time. Dependence of the specific heat of NaxCoO2:yH2O/D2O on sodium and water concentrations 2005 "Condensed Matter Sciences Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 72(2005)060512"
40871 P072060512 not SC. Schottky term(alpha) = 11.59 mJ.K2/mol. NaxCoO2 Na0.48Co1O2 Na 0.48 Co 1 O 2 2 3 2005 K 0.4 mJ/mol.K2 8.231 SP-heat 257.4 single crystal(using flux method). Na-content obtained by controlling deintercalated time. Dependence of the specific heat of NaxCoO2:yH2O/D2O on sodium and water concentrations 2005 "Condensed Matter Sciences Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 72(2005)060512"
40872 P072060512 not SC. Schottky term(alpha) = 3.410 mJ.K2/mol. NaxCoO2 Na0.35Co1O2 Na 0.35 Co 1 O 2 2 3 2005 K 0.4 mJ/mol.K2 12.11 SP-heat 319 single crystal(using flux method). Na-content obtained by controlling deintercalated time. Dependence of the specific heat of NaxCoO2:yH2O/D2O on sodium and water concentrations 2005 "Condensed Matter Sciences Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 72(2005)060512"
40873 P072060512 not SC. Schottky term(alpha) = 0.5174 mJ.K2/mol. NaxCoO2 Co1O2 Co 1 O 2 2 3 2005 K 0.4 mJ/mol.K2 13.33 SP-heat 559.1 single crystal(using flux method). Na-content obtained by controlling deintercalated time. Dependence of the specific heat of NaxCoO2:yH2O/D2O on sodium and water concentrations 2005 "Condensed Matter Sciences Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 72(2005)060512"
40874 P072060512 Tc defined as midpoint in SP-jump. (dC) = 45.5 mJ/mol.K. (dC/gamma*Tc) = 0.71 NaxCoO2/yH2O Na0.35Co1H1.4O2 Na 0.35 Co 1 H 1.4 O 2 2 3 2005 K 4.7 4.7 T 17.1 T/K 5.3 HC40874 A 44 mJ/mol.K2 13.7 SP-heat Dependence of the specific heat of NaxCoO2:yH2O/D2O on sodium and water concentrations 2005 "Condensed Matter Sciences Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 72(2005)060512"
40875 P072060512 Tc defined as midpoint in SP-jump. NaxCoO2/yD2O Na0.35Co1D1.4O2 Na 0.35 Co 1 D 1.4 O 2 2 3 2005 K 4.7 4.7 T 17.1 T/K 5.3 HC40874 A 44 mJ/mol.K2 13.3 SP-heat Dependence of the specific heat of NaxCoO2:yH2O/D2O on sodium and water concentrations 2005 "Condensed Matter Sciences Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 72(2005)060512"
40876 PCS0670590 anisotropy factor = 4.3 (Hc2 anisotropy) NaxCoO2/yH2O Na0.35Co1H1.3O3.3 Na 0.35 Co 1 H 1.3 O 3.3 3 2006 A 19.613 K 3.7 3.7 A ellipsoidal fitting 19.1 T WHH 15.6 3.6 T/K 6.12 1.41 Na0.7CoO2 single crystal by traveling zone method - Br2/CH3CN solution for 28.5h - H2O for 135h Anisotropy of Na0.35CoO2/1.3H2O superconductor 2006 "Institute for Materials Research, Tohoku University, 2-1-1 Katahira, Aoba-ku, Sendai 980-8577, Japan" "J.Phys.Chem.Solids, 67(2006)590"
40877 P074100506 as-prepared Sr2CuO3+z Sr2Cu1O3.4 Sr 2 Cu 1 O 3+z 3.4 1 2006 2 T I4/mmm A 3.795 12.507 K 75 75 "SrO2,CuO" "high pressure synthesis(6GPa,1100C,1h) using SrO2 as an oxidizer." Enhancement of the superconducting critical temperature of Sr2CuO3+z up to 95 K by ordering dopant atoms 2006 "Institute of Physics, Chinese Academy of Sciences, P. O. Box 603, Beijing 100080, People's Republic of China" "Phys.Rev.B, 74(2006)100506R"
40878 P074100506 ANN(250C). Apical O is ordered. Sr2CuO3+z Sr2Cu1O3.4 Sr 2 Cu 1 O 3+z 3.4 1 2006 2 T K 95 95 "SrO2,CuO" "high pressure synthesis(6GPa,1100C,1h) using SrO2 as an oxidizer." Enhancement of the superconducting critical temperature of Sr2CuO3+z up to 95 K by ordering dopant atoms 2006 "Institute of Physics, Chinese Academy of Sciences, P. O. Box 603, Beijing 100080, People's Republic of China" "Phys.Rev.B, 74(2006)100506R"
40879 P074100508 TP300 is at 280K. "(Y,La)(Ba,La)2Cu3Oz" Y0.38Ba1.74La0.88Cu3O6.95 Y 0.38 Ba 1.74 La 0.88 Cu 3 O z 6.95 3 2006 2 Y123 A 3.901 11.763 K 25 25 uV/K 38 TP40879 "flux method using Y2O3 crucible. then ANN(485C,1 atm O2,7d)" Doping n-type carriers by La substitution for Ba in the YBa2Cu3Oy system 2006 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B, 74(2006)100508R"
40880 P074100508 TP300 is at 280K. "(Y,La)(Ba,La)2Cu3Oz" Y0.38Ba1.74La0.88Cu3O6.21 Y 0.38 Ba 1.74 La 0.88 Cu 3 O z 6.21 3 2006 Y123 K 4.2 uV/K -70.6 TP40880 cm3/C -0.0275 RH40880 "flux method using Y2O3 crucible. then ANN(890C,6h, in 2E-5 atm O2)" Doping n-type carriers by La substitution for Ba in the YBa2Cu3Oy system 2006 "Central Research Institute of Electric Power Industry, Komae, Tokyo 201-8511, Japan" "Phys.Rev.B, 74(2006)100508R"
40881 NAT3890164 Sr3Cu2O5Cl Sr3Cu2Cl1O5 Sr 3 Cu 2 Cl 1 O 5 1997 A 3.907 22.53 K 70 70 "(Sr2CuO3 +KCl3) in Au-capsule, high-pressure synthesis (60 kbar, 950C,3h)" Application of scanning SQUID petrology to high-pressure materials science 1997 "Colombia University,USA" "Nature, 389(1997)164"
40882 PHC2600249 O-content by TGA. oz=3.14 by iodometric titration. O-vacancy located in CuO2 layer. "(Sr,Ba)2CuO4" Sr0.8Ba1.2Cu1O3.35 Sr 0.8 Ba 1.2 Cu 1 O 3+z 3.35 1996 T A 3.8988 12.815 K 50 50 2 "Sr2CuO2(CO3) + Ba2CuO2(CO3), ANN(240C,15h, in N2)" "Observation of superconductivity(Tc=50 K)in a new tetragonal alkaline-earth cuprate Sr0.8Ba1.2CuO3+z,synthesised at ambient preesure" 1996 "School of Chemistry, University of Birmingham, Birmingham B15 2TT, UK" "Physica.C,260(1996)249-256"
40883 PR0212717 collidine-intercalated TaS2. M = collidine. TaS2(collidine)(1/6) S2Ta1 S 2 Ta 1 3 1980 TX2 2H-type K 3.2 0.2 3.2 T/K 10 0.33 A 180 6 mother crystals grown at 700-1000C. intercalation by reacting at 150-200 C for 1-4 weeks in sealed quartz tube. Upper critical fields and reduced dimensionality of the superconducting layered compounds 1980 "Yale University, USA" "Phys. Rev.B, 21(1980)2717"
40884 PR0212717 Pyridine-intercalated TaS2. M = pyridine. TaS2(pyridine)(1/2) Ta1S2M0.167 Ta 1 S 2 M 0.167 3 1980 TX2 2H-type K 3.47 0.2 3.47 T/K 7 0.28 MHC40884 A 183 7.3 mJ/mol.K2 9.1 calculated from (dHc2/dT) mother crystals grown at 700-1000C. intercalation by reacting at 150-200 C for 1-4 weeks in sealed quartz tube. Upper critical fields and reduced dimensionality of the superconducting layered compounds 1980 "Yale University, USA" "Phys. Rev.B, 21(1980)2717"
40885 PR0212717 Aniline-intercalated TaS2. M = Aniline. TaS2(aniline)(3/4) Ta1S2M0.5 Ta 1 S 2 M 0.5 3 1980 TX2 2H-type K 2.9 0.2 2.9 T/K 9.6 0.26 MHC40885 A 209 5.6 mother crystals grown at 700-1000C. intercalation by reacting at 150-200 C for 1-4 weeks in sealed quartz tube. Upper critical fields and reduced dimensionality of the superconducting layered compounds 1980 "Yale University, USA" "Phys. Rev.B, 21(1980)2717"
40886 PR0212717 "Ta(S,Se)2" Ta1S1.6Se0.4 Ta 1 S 1.6 Se 0.4 3 1980 TX2 4H-type K 4.1 0.07 4.1 T/K 4.4 0.8 A 100 18.2 mJ/mol.K2 11.2 calculated from (dHc2/dT) mother crystals grown at 700-1000C. intercalation by reacting at 150-200 C for 1-4 weeks in sealed quartz tube. Upper critical fields and reduced dimensionality of the superconducting layered compounds 1980 "Yale University, USA" "Phys. Rev.B, 21(1980)2717"
40887 PR0212717 collidine-intercalated TaS1.6Se0.4. M = collidine. "Ta(S,Se)2(collidine)(1/6)" Ta1S1.6Se0.4M0.167 Ta 1 S 1.6 Se 0.4 M 0.167 3 1980 TX2 4H-type K 2.6 0.19 2.6 T/K 24 0.34 MHC40887 A 193 2.8 mother crystals grown at 700-1000C. intercalation by reacting at 150-200 C for 1-4 weeks in sealed quartz tube. Upper critical fields and reduced dimensionality of the superconducting layered compounds 1980 "Yale University, USA" "Phys. Rev.B, 21(1980)2717"
40888 PR0212717 Pyridine-intercalated TaS1.6Se0.4. M = pyridine. "Ta(S,Se)2(pyridine)(1/2)" Ta1S1.6Se0.4M0.5 Ta 1 S 1.6 Se 0.4 M 0.5 3 1980 TX2 4H-type K 2.1 0.13 2.1 T/K 22.5 0.3 A 228 3 mJ/mol.K2 9.3 calculated from (dHc2/dT) mother crystals grown at 700-1000C. intercalation by reacting at 150-200 C for 1-4 weeks in sealed quartz tube. Upper critical fields and reduced dimensionality of the superconducting layered compounds 1980 "Yale University, USA" "Phys. Rev.B, 21(1980)2717"
40889 PR0212717 NbSe2 Nb1Se2 Nb 1 Se 2 3 1980 TX2 2H-type K 7.1 0.07 7.1 T/K 2.3 0.8 A 76 26 mJ/mol.K2 16.5 calculated from (dHc2/dT) mother crystals grown at 700-1000C. intercalation by reacting at 150-200 C for 1-4 weeks in sealed quartz tube. Upper critical fields and reduced dimensionality of the superconducting layered compounds 1980 "Yale University, USA" "Phys. Rev.B, 21(1980)2717"
40890 P074134506 magnetic moment measured "RuSr2(Eu,Ce)2Cu2O10" Ru1Sr2Eu1.2Ce0.8Cu2O10+z Ru 1 Sr 2 Eu 1.2 Ce 0.8 Cu 2 O 10+z 1 2006 Ru1222 K 38 27 38 "Superconducting and magnetic properties of Ru1-yMySr2Eu2-xCexCu2O10+z (M=Nb, Sn)" 2006 "The MacDiarmid Institute for Advanced Materials and Nanotechnology, Industrial Research, Lower Hutt, New Zealand" "Phys.Rev.B, 74(2006)134506"
40891 P074134506 magnetic moment measured "(Ru,Sn)Sr2(Eu,Ce)2Cu2O10" Ru0.9Sn0.1Sr2Eu1.2Ce0.8Cu2O10+z Ru 0.9 Sn 0.1 Sr 2 Eu 1.2 Ce 0.8 Cu 2 O 10+z 1 2006 Ru1222 K 34.6 24 34.6 "Superconducting and magnetic properties of Ru1-yMySr2Eu2-xCexCu2O10+z (M=Nb, Sn)" 2006 "The MacDiarmid Institute for Advanced Materials and Nanotechnology, Industrial Research, Lower Hutt, New Zealand" "Phys.Rev.B, 74(2006)134506"
40892 P074134506 magnetic moment measured "(Ru,Sn)Sr2(Eu,Ce)2Cu2O10" Ru0.8Sn0.2Sr2Eu1.2Ce0.8Cu2O10+z Ru 0.8 Sn 0.2 Sr 2 Eu 1.2 Ce 0.8 Cu 2 O 10+z 1 2006 Ru1222 K 37 5 37 "Superconducting and magnetic properties of Ru1-yMySr2Eu2-xCexCu2O10+z (M=Nb, Sn)" 2006 "The MacDiarmid Institute for Advanced Materials and Nanotechnology, Industrial Research, Lower Hutt, New Zealand" "Phys.Rev.B, 74(2006)134506"
40893 PHC4450084 "Tc, thermopower measured for 0.2 =< x =< 0.8 in Bi2Sr2-xLaxCuOz. La-content not given. Tc vs S(290K) shown in figure." "Bi2(Sr,La)2CuOz" Bi2Sr1.6La0.4Cu1Oz Bi 2 Sr 1.6 La 0.4 Cu 1 O z 3 2006 Bi2201 K 33 33 TC40893 uV/K 17 single crystals grown by FZ method "R dependence of superconductivity and thermopower in the Bi2Sr2-xRxCuOy (R = La, Sm and Eu) system" 2006 "Department of Crystalline Materials Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8603, Japan" "Physica C, 445-448(2006)84"
40894 PHC4450084 "Tc, thermopower measured for 0.2 =< x =< 0.8 in Bi2Sr2-xSmxCuOz. Sm-content not given. Tc vs S(290K) shown in figure." "Bi2(Sr,LSm2CuOz" Bi2Sr1.6Sm0.4Cu1Oz Bi 2 Sr 1.6 Sm 0.4 Cu 1 O z 3 2006 Bi2201 K 23 23 TC40894 single crystals grown by FZ method "R dependence of superconductivity and thermopower in the Bi2Sr2-xRxCuOy (R = La, Sm and Eu) system" 2006 "Department of Crystalline Materials Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8603, Japan" "Physica C, 445-448(2006)84"
40895 PHC4450084 "Tc, thermopower measured for 0.2 =< x =< 0.8 in Bi2Sr2-xEuxCuOz. Eu-content not given. Tc vs S(290K) shown in figure." "Bi2(Sr,Eu)2CuOz" Bi2Sr1.6Eu0.4Cu1Oz Bi 2 Sr 1.6 Eu 0.4 Cu 1 O z 3 2006 Bi2201 K 15.5 15.5 TC40895 single crystals grown by FZ method "R dependence of superconductivity and thermopower in the Bi2Sr2-xRxCuOy (R = La, Sm and Eu) system" 2006 "Department of Crystalline Materials Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8603, Japan" "Physica C, 445-448(2006)84"
40896 PCS0672144 cubic anvil high-P (7.5 GPa). Neel-T = 50 K at P = 0.5 GPa. dTc increases with increasing P. CeRu2 Ce1Ru2 Ce 1 Ru 2 1 2006 MgCu2(Laves) A 7.544 "MgCu2,C15" K 6.3 0.2 6.3 MTC40896 K/GPa 0.1 "arc-melting, degass(800C, in vac), ANN(1100C,12d)" Signature of pressure-induced phase separation in Ce1-xLaxRu2 system 2006 "Department of Physics, Okayama University, 3-1-1 Tsushima-Naka, Okayama 700-8530, Japan" "J.Phys.Chem.Solids, 67(2006)2144"
40897 PCS0672144 cubic anvil high-P (7.5 GPa). Neel-T = 80 K at P = 0.5 GPa. dTc increases with increasing P. "(Ce,La)Ru2" Ce0.91La0.09Ru2 Ce 0.91 La 0.09 Ru 2 1 2006 MgCu2(Laves) A 7.555 "MgCu2,C15" K 5.25 0.7 5.25 MTC40897 K/GPa 0.033 "arc-melting, degass(800C, in vac), ANN(1100C,12d)" Signature of pressure-induced phase separation in Ce1-xLaxRu2 system 2006 "Department of Physics, Okayama University, 3-1-1 Tsushima-Naka, Okayama 700-8530, Japan" "J.Phys.Chem.Solids, 67(2006)2144"
40898 P070094509 EXAFS measured CeRu2 Ce1Ru2 Ce 1 Ru 2 1 2004 MgCu2(Laves) A 7.544 "MgCu2,C15" K 6.17 6.17 arc-melting Local structure and superconductivity of the Ce1-xLaxRu2 Laves phase system 2004 "Phys.Rev.B, 70(2004)094509"
40899 P070094509 "(Ce,La)Ru2" Ce0.97La0.03Ru2 Ce 0.97 La 0.03 Ru 2 1 2004 MgCu2(Laves) A 7.547 "MgCu2,C15" K 6.45 6.45 arc-melting Local structure and superconductivity of the Ce1-xLaxRu2 Laves phase system 2004 "Phys.Rev.B, 70(2004)094509"
40900 P070094509 "(Ce,La)Ru2" Ce0.94La0.06Ru2 Ce 0.94 La 0.06 Ru 2 1 2004 MgCu2(Laves) A 7.551 "MgCu2,C15" K 6.55 6.55 MTC40900 arc-melting Local structure and superconductivity of the Ce1-xLaxRu2 Laves phase system 2004 "Phys.Rev.B, 70(2004)094509"
40901 P070094509 EXAFS measured "(Ce,La)Ru2" Ce0.91La0.09Ru2 Ce 0.91 La 0.09 Ru 2 1 2004 MgCu2(Laves) A 7.555 "MgCu2,C15" K 6.57 6.57 arc-melting Local structure and superconductivity of the Ce1-xLaxRu2 Laves phase system 2004 "Phys.Rev.B, 70(2004)094509"
40902 P070094509 "(Ce,La)Ru2" Ce0.88La0.12Ru2 Ce 0.88 La 0.12 Ru 2 1 2004 MgCu2(Laves) A 7.561 "MgCu2,C15" K 6.14 6.14 arc-melting Local structure and superconductivity of the Ce1-xLaxRu2 Laves phase system 2004 "Phys.Rev.B, 70(2004)094509"
40903 P070094509 EXAFS measured "(Ce,La)Ru2" Ce0.85La0.15Ru2 Ce 0.85 La 0.15 Ru 2 1 2004 MgCu2(Laves) A 7.565 "MgCu2,C15" K 5.35 5.35 arc-melting Local structure and superconductivity of the Ce1-xLaxRu2 Laves phase system 2004 "Phys.Rev.B, 70(2004)094509"
40904 P070094509 EXAFS measured "(Ce,La)Ru2" Ce0.8La0.2Ru2 Ce 0.8 La 0.2 Ru 2 1 2004 MgCu2(Laves) A 7.573 "MgCu2,C15" K 4.77 4.77 arc-melting Local structure and superconductivity of the Ce1-xLaxRu2 Laves phase system 2004 "Phys.Rev.B, 70(2004)094509"
40905 P070094509 EXAFS measured "(Ce,La)Ru2" Ce0.25La0.75Ru2 Ce 0.25 La 0.75 Ru 2 1 2004 MgCu2(Laves) A 7.671 "MgCu2,C15" K 1.42 1.42 arc-melting Local structure and superconductivity of the Ce1-xLaxRu2 Laves phase system 2004 "Phys.Rev.B, 70(2004)094509"
40906 JPS0641471 H-T phase diagram from ac-SUS. CeRu2 Ce1Ru2 Ce 1 Ru 2 1 1995 MgCu2(Laves) "MgCu2,C15" K 6.2 6.2 MHC40906 TP40906 "Ce(4N),Ru(3N)" "arc-melting, ANN(1000C,1w)" Evidence of multiple superconducting phases in CeRu2 1995 "University of Ryukyus,Okinawa,Japan" "J.Phys.Soc.Jpn, 64(2995)1471"
40907 MMM1770425 Tc by ac-SUS. (dTc/dP) = +0.33 K/GPa for 0.5 < P =< 1 GPa. large softening of transverse stiffness (C11-C12)/2. CeRu2 Ce1Ru2 Ce 1 Ru 2 1998 MgCu2(Laves) "MgCu2,C15" K 6.28 6.28 MTC40907 K/GPa -0.47 arc-melting Pressure effect on superconducting transition temperature of Cel-xLaxRu2 1998 "College of Science, University of the Ryukyus, Nishihara, Okinawa 903-01, Japan" "J.Mag.Mag.Mat., 177-181(1998)425"
40908 MMM1770425 "(Ce,La)Ru2" Ce0.97La0.03Ru2 Ce 0.97 La 0.03 Ru 2 1998 MgCu2(Laves) "MgCu2,C15" K 5.89 5.89 K/GPa -0.31 arc-melting Pressure effect on superconducting transition temperature of Cel-xLaxRu2 1998 "College of Science, University of the Ryukyus, Nishihara, Okinawa 903-01, Japan" "J.Mag.Mag.Mat., 177-181(1998)425"
40909 PHB2810088 "Ta in Figure shows temperature of an abrupt decrease in R(T), new phase appears." CeRu2 Ce1Ru2 Ce 1 Ru 2 2000 MgCu2(Laves) "MgCu2,C15" K 6.23 6.23 MTC40909 K/GPa 0.23 arc-melting Pressure-induced structural-phase transition of CeRu2 2000 "Department of Physics, University of the Ryukyus, Senbaru, Nishihara-cho, Okinawa 903-0213, Japan" "Physica B, 281-282(2000)88"
40910 P074134512 "Hall number = 0.921E+20/cm3. G-L = 48. thermodynamical Hc = 57 Oe. For PbTe, Debye-T = 168 K." "(Pb,Tl)Te" Pb0.989Tl0.011Te1 Pb 0.989 Tl 0.011 Te 1 3 2006 NaCl K 1.16 1.16 Oe "from Hc, GL" 3 T WHH approx. 0.39 MHC40910 A from Hc2 290 um from PENET(London) 1.4 mJ/mol.K2 0.511 grown by an unseeded physical vapor transport method Type II superconducting parameters of Tl-doped PbTe determined from heat capacity and electronic transport measurements 2006 "Department of Materials Science and Engineering and Geballe Laboratory for Advanced Materials, Stanford University, Stanford, California 94305, USA" "Phys.Rev.B, 74(2006)134512"
40911 P074134512 Hall number = 1.067 E+20/cm3. G-L = 79. thermodynamical Hc = 54 Oe. (dC/gamma*Tc) = 1.55. "(Pb,Tl)Te" Pb0.986Tl0.014Te1 Pb 0.986 Tl 0.014 Te 1 3 2006 NaCl K 1.38 1.38 Oe "from Hc, GL" 2 T WHH approx. 0.6 MHC40910 A from Hc2 240 um from PENET(London) 1.9 0.782 grown by an unseeded physical vapor transport method Type II superconducting parameters of Tl-doped PbTe determined from heat capacity and electronic transport measurements 2006 "Department of Materials Science and Engineering and Geballe Laboratory for Advanced Materials, Stanford University, Stanford, California 94305, USA" "Phys.Rev.B, 74(2006)134512"
40912 P074134513 not SC. RRR = 10.5. PrNi2B2C Pr1Ni2B2C1 Pr 1 Ni 2 B 2 C 1 3 2006 LuNi2B2C A 3.6996 9.9885 K 2 uOhm.cm 3.6 rf-induction furnace. "Isomorphous PrT2B2C (T=Co,Ni,Pt) single crystals: Structural, transport, and magnetic properties" 2006 "Centro de Ciencias de la Materia Condensada, Universidad Nacional Autonoma de Mexico, AP 2681, Ensenada 22800, B. C., Mexico" "Phys.Rev.B, 74(2006)134513"
40913 P074134513 not SC. RRR = 32 PrCo2B2C Pr1Co2B2C1 Pr 1 Co 2 B 2 C 1 3 2006 LuNi2B2C A 3.6156 10.3507 K 2 uOhm.cm 1.7 rf-induction furnace. "Isomorphous PrT2B2C (T=Co,Ni,Pt) single crystals: Structural, transport, and magnetic properties" 2006 "Centro de Ciencias de la Materia Condensada, Universidad Nacional Autonoma de Mexico, AP 2681, Ensenada 22800, B. C., Mexico" "Phys.Rev.B, 74(2006)134513"
40914 P074134513 RRR = 5.5. PrPt2B2C Pr1Pt2B2C1 Pr 1 Pt 2 B 2 C 1 3 2006 LuNi2B2C A 3.8373 10.761 K 6 6 kOe 12.003 10.845 kOe/K 2.986 2.698 MHC40914 A 165 175 A 2722 2871 uOhm.cm 2.4 rf-induction furnace. "Isomorphous PrT2B2C (T=Co,Ni,Pt) single crystals: Structural, transport, and magnetic properties" 2006 "Centro de Ciencias de la Materia Condensada, Universidad Nacional Autonoma de Mexico, AP 2681, Ensenada 22800, B. C., Mexico" "Phys.Rev.B, 74(2006)134513"
40915 PHB3830076 "not SC. Chemical analysis, Si-content x = 0.19 by EPMA." "La(Al,Si)2" La1Al1.85Si0.15 La 1 Al 1.85 Si 0.15 2006 AlB2 A 4.9254 4.3864 "AlB2, C32," K 2 arc-melting Lattice constants and electrical resistivity of C32-type LaAl2-xSix (0.27 =< x =< 0.56) 2006 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Physica B, 383(2006)76"
40916 PHB3830076 "not SC. Chemical analysis, Si-content x = 0.27 by EPMA." "La(Al,Si)2" La1Al1.75Si0.25 La 1 Al 1.75 Si 0.25 2006 AlB2 A 4.4042 4.3958 "AlB2, C32," K 2 arc-melting Lattice constants and electrical resistivity of C32-type LaAl2-xSix (0.27 =< x =< 0.56) 2006 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Physica B, 383(2006)76"
40917 PHB3830076 "not SC. Chemical analysis, Si-content x = 0.42 by EPMA." "La(Al,Si)2" La1Al1.64Si0.36 La 1 Al 1.64 Si 0.36 2006 AlB2 A 4.372 4.4093 "AlB2, C32," K 2 arc-melting Lattice constants and electrical resistivity of C32-type LaAl2-xSix (0.27 =< x =< 0.56) 2006 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Physica B, 383(2006)76"
40918 PHB3830076 "not SC. Chemical analysis, Si-content x = 0.49 by EPMA." "La(Al,Si)2" La1Al1.55Si0.45 La 1 Al 1.55 Si 0.45 2006 AlB2 A 4.35 4.4119 "AlB2, C32," K 2 arc-melting Lattice constants and electrical resistivity of C32-type LaAl2-xSix (0.27 =< x =< 0.56) 2006 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Physica B, 383(2006)76"
40919 PHB3830076 "not SC. Chemical analysis, Si-content x = 0.56 by EPMA." "La(Al,Si)2" La1Al1.45Si0.55 La 1 Al 1.45 Si 0.55 2006 AlB2 A 4.3297 4.4136 "AlB2, C32," K 2 arc-melting Lattice constants and electrical resistivity of C32-type LaAl2-xSix (0.27 =< x =< 0.56) 2006 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Physica B, 383(2006)76"
40920 P074144511 "Two band analysis. PENET and Hc1(0) show for sigma band. Hc2(0)//ab = Hc2(MgB2) + 21.4 T, Hc2(0)//c = Hc2(MgB2) + 5.76 T." "Mg(B,C)2" Mg1B1.924C0.076 Mg 1 B 1.924 C 0.076 3 2006 AlB2 K 35.4 2.4 35.4 mT 11 32.6 "curve fitting, Hc2(T) by ac-SUS." MHC40920 A from Hc2 60 15 A 1327 682 high-pressure synthesis using cubic anvil. Anisotropic reversible mixed-state properties of superconducting carbon-doped Mg(B1-xCx)2 single crystals 2006 "Atomic Institute of the Austrian Universities, 1020 Vienna, Austria" "Phys.Rev.B, 74(2006)144511"
40921 P074144511 "Two band analysis. PENET and Hc1(0) show for sigma band. Hc2(0)//ab = Hc2(MgB2) + 16.9 T, Hc2(0)//c = Hc2(MgB2) + 6.91 T." "Mg(B,C)2" Mg1B1.868C0.132 Mg 1 B 1.868 C 0.132 3 2006 AlB2 K 33.15 4 33.15 mT 7.45 19.5 "curve fitting, Hc2(T) by ac-SUS." A from Hc2 58.4 17.9 A 1752 798 high-pressure synthesis using cubic anvil. Anisotropic reversible mixed-state properties of superconducting carbon-doped Mg(B1-xCx)2 single crystals 2006 "Atomic Institute of the Austrian Universities, 1020 Vienna, Austria" "Phys.Rev.B, 74(2006)144511"
40922 P074144511 "Two band analysis. PENET and Hc1(0) show for sigma band. Hc2(0)//ab = Hc2(MgB2) + 11.0 T, Hc2(0)//c = Hc2(MgB2) + 8.22 T." "Mg(B,C)2" Mg1B1.81C0.19 Mg 1 B 1.81 C 0.19 3 2006 AlB2 K 30.57 7 30.57 mT 6.03 11.4 "curve fitting, Hc2(T) by ac-SUS." A from Hc2 53.9 22.9 A 2094 947 high-pressure synthesis using cubic anvil. Anisotropic reversible mixed-state properties of superconducting carbon-doped Mg(B1-xCx)2 single crystals 2006 "Atomic Institute of the Austrian Universities, 1020 Vienna, Austria" "Phys.Rev.B, 74(2006)144511"
40923 P074144520 "Ce-content by DXPA. pseudogap temp. = 47.9 K , obtained from measurement of MR." "(Sm,Ce)CuO4" Sm1.86Ce0.14Cu1O4 Sm 1.86 Ce 0.14 Cu 1 O 4 3 2006 T' K 22.7 22.7 "self-flux method. ANN(945C,15h, in flowing Ar)" Pseudogap in electron-doped superconducting Sm2-xCexCuO4-z by interlayer magnetotransport 2006 "Department of Electronic Science and Engineering, Kyoto University, Kyotodaigaku-Katsura, Nishikyo-ku, Kyoto 615-8510, Japan" "Phys.Rev.B, 74(2006)144520"
40924 P074144520 "Ce-content by DXPA. pseudogap temp. = 45.0 K , obtained from measurement of MR." "(Sm,Ce)CuO4" Sm1.857Ce0.143Cu1O4 Sm 1.857 Ce 0.143 Cu 1 O 4 3 2006 T' K 22.3 22.3 "self-flux method. ANN(945C,15h, in flowing Ar)" Pseudogap in electron-doped superconducting Sm2-xCexCuO4-z by interlayer magnetotransport 2006 "Department of Electronic Science and Engineering, Kyoto University, Kyotodaigaku-Katsura, Nishikyo-ku, Kyoto 615-8510, Japan" "Phys.Rev.B, 74(2006)144520"
40925 P074144520 "Ce-content by DXPA. pseudogap temp. = 40.0 K , obtained from measurement of MR." "(Sm,Ce)CuO4" Sm1.85Ce0.15Cu1O4 Sm 1.85 Ce 0.15 Cu 1 O 4 3 2006 T' K 19.7 19.7 "self-flux method. ANN(945C,15h, in flowing Ar)" Pseudogap in electron-doped superconducting Sm2-xCexCuO4-z by interlayer magnetotransport 2006 "Department of Electronic Science and Engineering, Kyoto University, Kyotodaigaku-Katsura, Nishikyo-ku, Kyoto 615-8510, Japan" "Phys.Rev.B, 74(2006)144520"
40926 P074144520 "Ce-content by DXPA. pseudogap temp. = 35.0 K , obtained from measurement of MR." "(Sm,Ce)CuO4" Sm1.844Ce0.156Cu1O4 Sm 1.844 Ce 0.156 Cu 1 O 4 3 2006 T' K 16.4 16.4 "self-flux method. ANN(945C,15h, in flowing Ar)" Pseudogap in electron-doped superconducting Sm2-xCexCuO4-z by interlayer magnetotransport 2006 "Department of Electronic Science and Engineering, Kyoto University, Kyotodaigaku-Katsura, Nishikyo-ku, Kyoto 615-8510, Japan" "Phys.Rev.B, 74(2006)144520"
40927 J075103801 not SC. spin glass for T < 23 K. Ca2Ru2O7 Ca2Ru2O7 Ca 2 Ru 2 O 7 3 2006 emu.K/Ru 0.000595 emu.K/Ru 0.0165 uB/Ru 0.36 -4.3 pyrochlore A 10.197 K 5.5 mOhm.cm 2 "RuO2,CaO" "mixture encapsulated with 30%H2O2, then heat (600C,3d, P=150 MPa)" A Novel Pyrochlore Ruthenate: Ca2Ru2O7 2006 "Department of Physics, Chuo University, 1-13-27 Kasuga, Bunkyo-ku, Tokyo 112-8551" "J.Phys.Soc.Jpn, 75(2006)103801"
40928 JP01808533 re-entrant SC. no minimum in Hc2(T) at Neel-T. "(Ho,Y)Ni2B2C" Ho0.75Y0.25Ni2B2C1 Ho 0.75 Y 0.25 Ni 2 B 2 C 1 3 2006 3.9 LuNi2B2C K 7.6 0.5 7.6 MHC40928 floating zone method Reentrant behaviour in Y-doped Ho0.75Y0.25Ni2B2C single crystal 2006 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "J.Phys.:Condens.Matter, 18(2006)8533"
40929 JP01808037 not SC La3Ni4Si4 La3Ni4Si4 La 3 Ni 4 Si 4 1 2006 U3Ni4Si4 I4/mmm A 4.1308 4.176 23.578 K 1.8 "arc-melting. ANN(1173-1373 K, 1w, in Mo-foil(silica tube))" "Structure and superconductivity of the ternary intermetallics of La3Ni4Si4, La3Ni4Ge4, and La3Pd4Si4" 2006 "Superconducting Materials Center, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.:Condens.Matter, 18(2006)8037"
40930 JP01808037 not SC La3Ni4Ge4 La3Ni4Ge4 La 3 Ni 4 Ge 4 1 2006 U3Ni4Si4 I4/mmm A 4.2017 4.2167 24.031 K 1.8 "arc-melting. ANN(1173-1373 K, 1w, in Mo-foil(silica tube))" "Structure and superconductivity of the ternary intermetallics of La3Ni4Si4, La3Ni4Ge4, and La3Pd4Si4" 2006 "Superconducting Materials Center, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.:Condens.Matter, 18(2006)8037"
40931 JP01808037 RRR = 7.5. G-L = 9.9 La3Pd4Si4 La3Pd4Si4 La 3 Pd 4 Si 4 1 2006 U3Ni4Si4 I4/mmm A 4.2254 4.2871 24.551 K 2.1 2.2 2.15 2.15 Oe M-H curve 28 T WHH theory 0.22 T/K 0.15 A from Hc2 380 A calculated from Hc1 3760 uOhm.cm 8 60 "arc-melting. ANN(1173-1373 K, 1w, in Mo-foil(silica tube))" "Structure and superconductivity of the ternary intermetallics of La3Ni4Si4, La3Ni4Ge4, and La3Pd4Si4" 2006 "Superconducting Materials Center, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.:Condens.Matter, 18(2006)8037"
40932 PHC3880571 sample has x > 1 in PdHx. x is not given. dR at Tc is very small. R is not to zero down to 4.2 K.. No sus-measurements. PdHx H1Pd1 H 1 Pd 1 2003 K 51.6 51.6 H loaded into Pd wire(50 micron-m) using as cathode in electrochemical cell. Possibility of high temperature superconducting phases in PdH 2003 "Physica C, 388-389(2003)571"
40933 PR0324426 Pd2YSn Pd2Y1Sn1 Pd 2 Y 1 Sn 1 1985 Heusler A 6.716 "Cu2MnAl, L2<1>" K 4.55 4.55 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40934 PR0324426 dTc/dx = -44 K/atm-Gd in Pd2Y1-xGdxSn "Pd2(Y,Gd)Sn" Pd2Y0.98Gd0.02Sn1 Pd 2 Y 0.98 Gd 0.02 Sn 1 1985 Heusler A 6.716 "L2<1>, Heusler" K 3.24 3.24 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40935 PR0324426 "Pd2(Y,Gd)Sn" Pd2Y0.95Gd0.05Sn1 Pd 2 Y 0.95 Gd 0.05 Sn 1 1985 Heusler A 6.717 "L2<1>, Heusler" K 2.41 2.41 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40936 PR0324426 "Pd2(Y,Gd)Sn" Pd2Y0.9Gd0.1Sn1 Pd 2 Y 0.9 Gd 0.1 Sn 1 1985 Heusler A 6.722 "L2<1>, Heusler" K 1.2 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40937 PR0324426 "Pd2(Y,Dy)Sn" Pd2Y0.9Dy0.1Sn1 Pd 2 Y 0.9 Dy 0.1 Sn 1 1985 Heusler A 6.716 "L2<1>, Heusler" K 3.46 3.46 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40938 PR0324426 "Pd2(Y,Dy)Sn" Pd2Y0.85Dy0.15Sn1 Pd 2 Y 0.85 Dy 0.15 Sn 1 1985 Heusler A 6.718 "L2<1>, Heusler" K 2.8 2.8 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40939 PR0324426 "Pd2(Y,Dy)Sn" Pd2Y0.8Dy0.2Sn1 Pd 2 Y 0.8 Dy 0.2 Sn 1 1985 Heusler A 6.718 "L2<1>, Heusler" K 1.4 1.4 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40940 PR0324426 "Pd2(Y,Dy)Sn" Pd2Y0.7Dy0.3Sn1 Pd 2 Y 0.7 Dy 0.3 Sn 1 1985 Heusler A 6.722 "L2<1>, Heusler" K 1.2 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40941 PR0324426 "Pd2(Y,Ho)Sn" Pd2Y0.9Ho0.1Sn1 Pd 2 Y 0.9 Ho 0.1 Sn 1 1985 Heusler A 6.715 "L2<1>, Heusler" K 4.06 4.06 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40942 PR0324426 "Pd2(Y,Er)Sn" Pd2Y0.9Er0.1Sn1 Pd 2 Y 0.9 Er 0.1 Sn 1 1985 Heusler A 6.715 "L2<1>, Heusler" K 3.87 3.87 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40943 PR0324426 "Pd2(Y,Er)Sn" Pd2Y0.8Er0.2Sn1 Pd 2 Y 0.8 Er 0.2 Sn 1 1985 Heusler A 6.714 "L2<1>, Heusler" K 3.73 3.73 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40944 PR0324426 "Pd2(Y,Er)Sn" Pd2Y0.7Er0.3Sn1 Pd 2 Y 0.7 Er 0.3 Sn 1 1985 Heusler A 6.714 "L2<1>, Heusler" K 3.8 3.8 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40945 PR0324426 "Pd2(Y,Er)Sn" Pd2Y0.6Er0.4Sn1 Pd 2 Y 0.6 Er 0.4 Sn 1 1985 Heusler A 6.711 "L2<1>, Heusler" K 2.77 2.77 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40946 PR0324426 "Pd2(Y,Tm)Sn" Pd2Y0.95Tm0.05Sn1 Pd 2 Y 0.95 Tm 0.05 Sn 1 1985 Heusler A 6.716 "L2<1>, Heusler" K 4.12 4.12 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40947 PR0324426 "Pd2(Y,Tm)Sn" Pd2Y0.9Tm0.1Sn1 Pd 2 Y 0.9 Tm 0.1 Sn 1 1985 Heusler A 6.71 "L2<1>, Heusler" K 4.12 4.12 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40948 PR0324426 "Pd2(Y,Tm)Sn" Pd2Y0.75Tm0.25Sn1 Pd 2 Y 0.75 Tm 0.25 Sn 1 1985 Heusler A 6.703 "L2<1>, Heusler" K 3.73 3.73 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40949 PR0324426 "Pd2(Y,Tm)Sn" Pd2Y0.5Tm0.5Sn1 Pd 2 Y 0.5 Tm 0.5 Sn 1 1985 Heusler A 6.69 "L2<1>, Heusler" K 3.65 3.65 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40950 PR0324426 "Pd2(Y,Tm)Sn" Pd2Y0.25Tm0.75Sn1 Pd 2 Y 0.25 Tm 0.75 Sn 1 1985 Heusler A 6.681 "L2<1>, Heusler" K 3.06 3.06 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40951 PR0324426 Pd2TmSn Pd2Tm1Sn1 Pd 2 Tm 1 Sn 1 1985 Heusler A 6.67 "L2<1>, Heusler" K 2.82 2.82 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40952 PR0324426 "Pd2(Y,Yb)Sn" Pd2Y0.9Yb0.1Sn1 Pd 2 Y 0.9 Yb 0.1 Sn 1 1985 Heusler A 6.713 "L2<1>, Heusler" K 4.37 4.37 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40953 PR0324426 "Pd2(Y,Yb)Sn" Pd2Y0.7Yb0.3Sn1 Pd 2 Y 0.7 Yb 0.3 Sn 1 1985 Heusler A 6.704 "L2<1>, Heusler" K 4.03 4.03 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40954 PR0324426 Pd2YbSn Pd2Yb1Sn1 Pd 2 Yb 1 Sn 1 1985 Heusler A 6.658 "L2<1>, Heusler" K 2.42 2.42 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40955 PR0324426 Pd2ScSn Pd2Sc1Sn1 Pd 2 Sc 1 Sn 1 1985 Heusler A 6.503 "L2<1>, Heusler" K 2.05 2.05 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40956 PR0324426 Pd2LuSn Pd2Lu1Sn1 Pd 2 Lu 1 Sn 1 1985 Heusler A 6.644 "L2<1>, Heusler" K 3.05 3.05 "arc-melting . ANN(800C,7d, in vac)" Depression of the superconducting transition temperature of the Heusler alloy Pd2YSn with the addition of magnetic rare-earth metals 1985 "Materials Science and Technology Division, Argonne National Laboratory, Argonne,Illinois,USA" "Phys.Rev.B, 32(1985)4426"
40957 PR0532651 Pd2ScPb Pd2Sc1Pb1 Pd 2 Sc 1 Pb 1 3 1996 uB/mol 0 Heusler A 6.63 "L2<1>, Heusler" K 2.4 2.4 "flux method. heat to 1200C, then slowly cooled (10C/h)" "Superconductivity and magnetism in the Heusler alloys MPd2Pb (M=rare earth, Th, and U)" 1996 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093" "Phys.Rev.B, 53(1996)2651"
40958 PR0532651 Pd2YPb Pd2Y1Pb1 Pd 2 Y 1 Pb 1 3 1996 uB/mol 0 Heusler A 6.74 "L2<1>, Heusler" K 2.3 2.3 "flux method. heat to 1200C, then slowly cooled (10C/h)" "Superconductivity and magnetism in the Heusler alloys MPd2Pb (M=rare earth, Th, and U)" 1996 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093" "Phys.Rev.B, 53(1996)2651"
40959 PR0532651 Pd2GdPb Pd2Gd1Pb1 Pd 2 Gd 1 Pb 1 3 1996 uB/mol 8.51 -17.3 4.5 Heusler A 6.81 "L2<1>, Heusler" K 1.8 "flux method. heat to 1200C, then slowly cooled (10C/h)" "Superconductivity and magnetism in the Heusler alloys MPd2Pb (M=rare earth, Th, and U)" 1996 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093" "Phys.Rev.B, 53(1996)2651"
40960 PR0532651 Pd2TbPb Pd2Tb1Pb1 Pd 2 Tb 1 Pb 1 3 1996 uB/mol 10.17 -16.9 2.8 Heusler A 6.79 "L2<1>, Heusler" K 1.8 "flux method. heat to 1200C, then slowly cooled (10C/h)" "Superconductivity and magnetism in the Heusler alloys MPd2Pb (M=rare earth, Th, and U)" 1996 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093" "Phys.Rev.B, 53(1996)2651"
40961 PR0532651 Pd2DyPb Pd2Dy1Pb1 Pd 2 Dy 1 Pb 1 3 1996 uB/mol 11.13 -9.8 2.4 Heusler A 6.76 "L2<1>, Heusler" K 1.8 "flux method. heat to 1200C, then slowly cooled (10C/h)" "Superconductivity and magnetism in the Heusler alloys MPd2Pb (M=rare earth, Th, and U)" 1996 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093" "Phys.Rev.B, 53(1996)2651"
40962 PR0532651 Pd2HoPb Pd2Ho1Pb1 Pd 2 Ho 1 Pb 1 3 1996 uB/mol 11.1 -6.5 0.8 Heusler A 6.75 "L2<1>, Heusler" K 1.8 "flux method. heat to 1200C, then slowly cooled (10C/h)" "Superconductivity and magnetism in the Heusler alloys MPd2Pb (M=rare earth, Th, and U)" 1996 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093" "Phys.Rev.B, 53(1996)2651"
40963 PR0532651 Pd2ErPb Pd2Er1Pb1 Pd 2 Er 1 Pb 1 3 1996 uB/mol 9.77 -5.2 0.6 Heusler A 6.76 "L2<1>, Heusler" K 1.8 "flux method. heat to 1200C, then slowly cooled (10C/h)" "Superconductivity and magnetism in the Heusler alloys MPd2Pb (M=rare earth, Th, and U)" 1996 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093" "Phys.Rev.B, 53(1996)2651"
40964 PR0532651 Pd2TmPb Pd2Tm1Pb1 Pd 2 Tm 1 Pb 1 3 1996 uB/mol 7.85 -2.7 Heusler A 6.72 "L2<1>, Heusler" K 2.1 2.1 "flux method. heat to 1200C, then slowly cooled (10C/h)" "Superconductivity and magnetism in the Heusler alloys MPd2Pb (M=rare earth, Th, and U)" 1996 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093" "Phys.Rev.B, 53(1996)2651"
40965 PR0532651 Pd2YbPb Pd2Yb1Pb1 Pd 2 Yb 1 Pb 1 1 1996 uB/mol 4.15 -3.6 Heusler A 6.73 "L2<1>, Heusler" K 2.8 2.8 "sealed in Ta-tube. heat(1300C,1h) - Q to water" "Superconductivity and magnetism in the Heusler alloys MPd2Pb (M=rare earth, Th, and U)" 1996 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093" "Phys.Rev.B, 53(1996)2651"
40966 PR0532651 Pd2LuPb Pd2Lu1Pb1 Pd 2 Lu 1 Pb 1 3 1996 Heusler A 6.73 "L2<1>, Heusler" K 2.4 2.4 "flux method. heat to 1200C, then slowly cooled (10C/h)" "Superconductivity and magnetism in the Heusler alloys MPd2Pb (M=rare earth, Th, and U)" 1996 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093" "Phys.Rev.B, 53(1996)2651"
40967 PR0532651 Pd2ThPb Pd2Th1Pb1 Pd 2 Th 1 Pb 1 1 1996 Heusler A 6.88 "L2<1>, Heusler" K 1.8 "sealed in Ta-tube. heat(1300C,1h) - Q to water" "Superconductivity and magnetism in the Heusler alloys MPd2Pb (M=rare earth, Th, and U)" 1996 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093" "Phys.Rev.B, 53(1996)2651"
40968 PR0532651 GAMMA is T-dependent. lattice term in SP (beta) = 3.8 mJ/mol.K4 Pd2UPb Pd2U1Pb1 Pd 2 U 1 Pb 1 1 1996 uB/mol 2.8 -51 35 Heusler A 6.85 "L2<1>, Heusler" K 1.8 mJ/mol.K2 98 "sealed in Ta-tube. heat(1300C,1h) - Q to water" "Superconductivity and magnetism in the Heusler alloys MPd2Pb (M=rare earth, Th, and U)" 1996 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093" "Phys.Rev.B, 53(1996)2651"
40969 P074184510 nominal: Mo3C1.8. Thermodynamic Hc(0) = 0.15 T. (dC/gamma*Tc) = 1.48 eta-Mo3C2 C2Mo3 C 2 Mo 3 2006 P6<3>/mmc A 3.0105 14.6112 K 7.4 7.4 Oe M vs H curve 140 T SP-heat 5.7 MHC40696 A 76 A 1970 mJ/mol.K2 11.8 "mixture - Ta crucible with h-BN coating. High pressure synthesis(1700C,1h,6GPa) - Quench." Superconductivity in the hexagonal-layered molybdenum carbide eta-Mo3C2 2006 "Advanced Nano Materials Laboratory, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 74(2006)184510"
40970 P074184520 Isotope <16>O sample. Pseudogap Temp. = 82.2 K "(La,Sr,Ho)2CuO4" La1.85Sr0.11Ho0.04Cu1O4 La 1.85 Sr 0.11 Ho 0.04 Cu 1 O 4 2006 T K 13.9 13.9 "Solid state reaction. <18>O by diffusion process (see Mat.Sci.Eng., R, R32(2001)41)" Pseudogap of the high-temperature superconductor La1.96-xSrxHo0.04CuO4 as observed by neutron crystal-field spectroscopy 2006 "Laboratory for Neutron Scattering, ETH Zurich & PSI Villigen, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 74(2006)184520"
40971 P074184520 Isotope <16>O sample. Pseudogap Temp. = 61.0 K "(La,Sr,Ho)2CuO4" La1.81Sr0.15Ho0.04Cu1O4 La 1.81 Sr 0.15 Ho 0.04 Cu 1 O 4 2006 T K 32.5 32.5 "Solid state reaction. <18>O by diffusion process (see Mat.Sci.Eng., R, R32(2001)41)" Pseudogap of the high-temperature superconductor La1.96-xSrxHo0.04CuO4 as observed by neutron crystal-field spectroscopy 2006 "Laboratory for Neutron Scattering, ETH Zurich & PSI Villigen, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 74(2006)184520"
40972 P074184520 Isotope <16>O sample. Pseudogap Temp. = 49.2 K "(La,Sr,Ho)2CuO4" La1.76Sr0.2Ho0.04Cu1O4 La 1.76 Sr 0.2 Ho 0.04 Cu 1 O 4 2006 T K 28.4 28.4 "Solid state reaction. <18>O by diffusion process (see Mat.Sci.Eng., R, R32(2001)41)" Pseudogap of the high-temperature superconductor La1.96-xSrxHo0.04CuO4 as observed by neutron crystal-field spectroscopy 2006 "Laboratory for Neutron Scattering, ETH Zurich & PSI Villigen, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 74(2006)184520"
40973 P074184520 Isotope <16>O sample. Pseudogap Temp. = 46.5 K. "(La,Sr,Ho)2CuO4" La1.71Sr0.25Ho0.04Cu1O4 La 1.71 Sr 0.25 Ho 0.04 Cu 1 O 4 2006 T K 10.1 10.1 "Solid state reaction. <18>O by diffusion process (see Mat.Sci.Eng., R, R32(2001)41)" Pseudogap of the high-temperature superconductor La1.96-xSrxHo0.04CuO4 as observed by neutron crystal-field spectroscopy 2006 "Laboratory for Neutron Scattering, ETH Zurich & PSI Villigen, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 74(2006)184520"
40974 P074184520 "Isotope effect, 78% exchange of <18>O . Pseudogap Temp. = 103.5 K" "(La,Sr,Ho)2CuO4" La1.85Sr0.11Ho0.04Cu1O4 La 1.85 Sr 0.11 Ho 0.04 Cu 1 O 4 2006 K 11.7 11.7 "Solid state reaction. <18>O by diffusion process (see Mat.Sci.Eng., R, R32(2001)41)" Pseudogap of the high-temperature superconductor La1.96-xSrxHo0.04CuO4 as observed by neutron crystal-field spectroscopy 2006 "Laboratory for Neutron Scattering, ETH Zurich & PSI Villigen, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 74(2006)184520"
40975 P074184520 "Isotope effect, 78% exchange of <18>O . Pseudogap Temp. = 70.0 K" "(La,Sr,Ho)2CuO4" La1.81Sr0.15Ho0.04Cu1O4 La 1.81 Sr 0.15 Ho 0.04 Cu 1 O 4 2006 T K 30.8 30.8 "Solid state reaction. <18>O by diffusion process (see Mat.Sci.Eng., R, R32(2001)41)" Pseudogap of the high-temperature superconductor La1.96-xSrxHo0.04CuO4 as observed by neutron crystal-field spectroscopy 2006 "Laboratory for Neutron Scattering, ETH Zurich & PSI Villigen, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 74(2006)184520"
40976 P074184520 "Isotope effect, 78% exchange of <18>O . Pseudogap Temp. = 53.7 K" "(La,Sr,Ho)2CuO4" La1.76Sr0.2Ho0.04Cu1O4 La 1.76 Sr 0.2 Ho 0.04 Cu 1 O 4 2006 T K 27.3 27.3 "Solid state reaction. <18>O by diffusion process (see Mat.Sci.Eng., R, R32(2001)41)" Pseudogap of the high-temperature superconductor La1.96-xSrxHo0.04CuO4 as observed by neutron crystal-field spectroscopy 2006 "Laboratory for Neutron Scattering, ETH Zurich & PSI Villigen, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 74(2006)184520"
40977 P074184520 "Isotope effect, 78% exchange of <18>O . Pseudogap Temp. = 48.4 K" "(La,Sr,Ho)2CuO4" La1.71Sr0.25Ho0.04Cu1O4 La 1.71 Sr 0.25 Ho 0.04 Cu 1 O 4 2006 T K 9.8 9.8 "Solid state reaction. <18>O by diffusion process (see Mat.Sci.Eng., R, R32(2001)41)" Pseudogap of the high-temperature superconductor La1.96-xSrxHo0.04CuO4 as observed by neutron crystal-field spectroscopy 2006 "Laboratory for Neutron Scattering, ETH Zurich & PSI Villigen, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 74(2006)184520"
40978 P074184523 RES(40K)//ab = 2.36 uOhm.cm. THC(77K)//ab = 96.24 W/m.K. anisotropy factor from Hc2 = 3.77 at T/Tc = 0.6. "(Mg,Al)B2" Mg0.983Al0.017B1 Mg 0.983 Al 0.017 B 1 3 2006 AlB2 K 35.9 35.9 MHC40978 W/m.K MTHC40978 uOhm.cm 9.204 high-pressure synthesis Thermal conductivity of Al-doped MgB2: Impurity scattering and the validity of the Wiedemann-Franz law 2006 "Laboratorium fur Festkorperphysik, ETH Honggerberg, CH-8093 Zurich, Switzerland" "Phys.Rev.B, 74(2006)184523"
40979 P074184523 RES(40K)//ab = 4.13 uOhm.cm. THC(77K)//ab = 51.18 W/m.K. anisotropy factor from Hc2 = 3.27 at T/Tc = 0.6. "(Mg,Al)B2" Mg0.927Al0.073B1 Mg 0.927 Al 0.073 B 1 3 2006 AlB2 K 33 33 MHC40979 W/m.K MTHC40979 uOhm.cm 11.151 high-pressure synthesis Thermal conductivity of Al-doped MgB2: Impurity scattering and the validity of the Wiedemann-Franz law 2006 "Laboratorium fur Festkorperphysik, ETH Honggerberg, CH-8093 Zurich, Switzerland" "Phys.Rev.B, 74(2006)184523"
40980 P074172506 "(Ca,La)(Ba,La)2Cu3O7" Ca0.2Ba1.55La1.25Cu3O7.159 Ca 0.2 Ba 1.55 La 1.25 Cu 3 O z 7.159 1 2006 K 68.7 68.7 TC40980 "See Phys.Rev.B, 49(1994)15928" Evidence for two fluids in cuprate superconductors from a nuclear resonance study of (CaxLa1-x)(Ba1.75-xLa0.25+x)Cu3Oz 2006 "Technion?Israel Institue of Technology, 32000 Haifa, Israel" "Phys.Rev.B, 74(2006)172506"
40981 P074172506 "(Ca,La)(Ba,La)2Cu3O7" Ca0.3Ba1.45La1.25Cu3O7.172 Ca 0.3 Ba 1.45 La 1.25 Cu 3 O z 7.172 1 2006 K 76.9 76.9 TC40981 "See Phys.Rev.B, 49(1994)15928" Evidence for two fluids in cuprate superconductors from a nuclear resonance study of (CaxLa1-x)(Ba1.75-xLa0.25+x)Cu3Oz 2006 "Technion?Israel Institue of Technology, 32000 Haifa, Israel" "Phys.Rev.B, 74(2006)172506"
40982 P074174515 stoichiometric (z=4.0) sample/ Phase = T + T'. Substrate = LaAlO3(a = 3.793 A). thickness = 450 A. not SC "(La,Ce)2CuO4" La1.94Ce0.06Cu1O4 La 1.94 Ce 0.06 Cu 1 O 4 4 5 2006 T' A 12.5104 K 0 0 MBE method (multiple electron-gun). Substrate = LaAlO3. substrate temp = 630C Doping of Ce in T-La2CuO4: Rigorous test for electron-hole symmetry for high-Tc superconductivity 2006 "Department of Applied Physics, Tokyo University of Agriculture and Technology, 2-24-16 Naka-cho, Koganei, Tokyo 184-8588, Japan" "Phys.Rev.B, 74(2006)174515"
40983 P074174515 stoichiometric (z=4.0) sample/ Phase = T + T'. Substrate = LaAlO3(a = 3.793 A). thickness = 450 A. "(La,Ce)2CuO4" La1.925Ce0.075Cu1O4 La 1.925 Ce 0.075 Cu 1 O 4 4 5 2006 T' A 12.4781 K 3.92 3.92 MBE method (multiple electron-gun). Substrate = LaAlO3. substrate temp = 630C Doping of Ce in T-La2CuO4: Rigorous test for electron-hole symmetry for high-Tc superconductivity 2006 "Department of Applied Physics, Tokyo University of Agriculture and Technology, 2-24-16 Naka-cho, Koganei, Tokyo 184-8588, Japan" "Phys.Rev.B, 74(2006)174515"
40984 P074174515 stoichiometric (z=4.0) sample/ Phase = T + T'. Substrate = LaAlO3(a = 3.793 A). thickness = 450 A. "(La,Ce)2CuO4" La1.91Ce0.09Cu1O4 La 1.91 Ce 0.09 Cu 1 O 4 4 5 2006 T' A 12.4593 K 22.5 22.5 MBE method (multiple electron-gun). Substrate = LaAlO3. substrate temp = 630C Doping of Ce in T-La2CuO4: Rigorous test for electron-hole symmetry for high-Tc superconductivity 2006 "Department of Applied Physics, Tokyo University of Agriculture and Technology, 2-24-16 Naka-cho, Koganei, Tokyo 184-8588, Japan" "Phys.Rev.B, 74(2006)174515"
40985 P074174515 substrate = LaAlO3(a = 3.793 A). thickness = 450 A. stoichiometric (z=4.0) sample "(La,Ce)2CuO4" La1.895Ce0.105Cu1O4 La 1.895 Ce 0.105 Cu 1 O 4 4 4 2006 T' A 12.4485 K 24.3 24.3 MBE method (multiple electron-gun). Substrate = LaAlO3. substrate temp = 630C Doping of Ce in T-La2CuO4: Rigorous test for electron-hole symmetry for high-Tc superconductivity 2006 "Department of Applied Physics, Tokyo University of Agriculture and Technology, 2-24-16 Naka-cho, Koganei, Tokyo 184-8588, Japan" "Phys.Rev.B, 74(2006)174515"
40986 P074174515 substrate = LaAlO3(a = 3.793 A). thickness = 450 A. stoichiometric (z=4.0) sample "(La,Ce)2CuO4" La1.88Ce0.12Cu1O4 La 1.88 Ce 0.12 Cu 1 O 4 4 4 2006 T' A 12.4377 K 24.3 24.3 MBE method (multiple electron-gun). Substrate = LaAlO3. substrate temp = 630C Doping of Ce in T-La2CuO4: Rigorous test for electron-hole symmetry for high-Tc superconductivity 2006 "Department of Applied Physics, Tokyo University of Agriculture and Technology, 2-24-16 Naka-cho, Koganei, Tokyo 184-8588, Japan" "Phys.Rev.B, 74(2006)174515"
40987 P074174515 "oxidized (z>4.0) sample, but z is not given. Substrate = LaAlO3 (a=3.793 A). thickness = 450 A." La2CuO4 La2Cu1O4+z La 2 Cu 1 O 4+z 4 2006 T A 13.1758 K 37.8 37.8 MBE method (multiple electron-gun). Substrate = LaAlO3. substrate temp = 630C Doping of Ce in T-La2CuO4: Rigorous test for electron-hole symmetry for high-Tc superconductivity 2006 "Department of Applied Physics, Tokyo University of Agriculture and Technology, 2-24-16 Naka-cho, Koganei, Tokyo 184-8588, Japan" "Phys.Rev.B, 74(2006)174515"
40988 P074174515 "oxidized (z>4.0) sample, but z is not given. Substrate = LaAlO3 (a=3.793 A). thickness = 450 A." "(La,Ce)2CuO4" La1.97Ce0.03Cu1O4+z La 1.97 Ce 0.03 Cu 1 O 4+z 4 2006 T A 13.1569 K 31.1 31.1 MBE method (multiple electron-gun). Substrate = LaAlO3. substrate temp = 630C Doping of Ce in T-La2CuO4: Rigorous test for electron-hole symmetry for high-Tc superconductivity 2006 "Department of Applied Physics, Tokyo University of Agriculture and Technology, 2-24-16 Naka-cho, Koganei, Tokyo 184-8588, Japan" "Phys.Rev.B, 74(2006)174515"
40989 P074174515 "Phae = T + T'. oxidized (z>4.0) sample., but z is not given. Substrate = LaAlO3 (a=3.793 A). thickness = 450 A." "(La,Ce)2CuO4" La1.94Ce0.06Cu1O4+z La 1.94 Ce 0.06 Cu 1 O 4+z 5 2006 T A 13.103 K 7.97 7.97 MBE method (multiple electron-gun). Substrate = LaAlO3. substrate temp = 630C Doping of Ce in T-La2CuO4: Rigorous test for electron-hole symmetry for high-Tc superconductivity 2006 "Department of Applied Physics, Tokyo University of Agriculture and Technology, 2-24-16 Naka-cho, Koganei, Tokyo 184-8588, Japan" "Phys.Rev.B, 74(2006)174515"
40990 P074174515 "Phae = T + T'. not SC. oxidized (z>4.0) sample., but z is not given. Substrate = LaAlO3 (a=3.793 A). thickness = 450 A." "(La,Ce)2CuO4" La1.91Ce0.09Cu1O4+z La 1.91 Ce 0.09 Cu 1 O 4+z 5 2006 T A 13.0249 K 0 0 MBE method (multiple electron-gun). Substrate = LaAlO3. substrate temp = 630C Doping of Ce in T-La2CuO4: Rigorous test for electron-hole symmetry for high-Tc superconductivity 2006 "Department of Applied Physics, Tokyo University of Agriculture and Technology, 2-24-16 Naka-cho, Koganei, Tokyo 184-8588, Japan" "Phys.Rev.B, 74(2006)174515"
40991 JJP039L485 R not zero at 4.2 K. "(La,Ce)2CuO4" La1.936Ce0.064Cu1O4 La 1.936 Ce 0.064 Cu 1 O 4 4 2000 T' A 12.5153 K 13.8 13.8 MBE method. Substrate = SrTiO3. growth rate = 15 nm/min. substrate temp = 660 C. Superconducting T' -La2-xCexCuO4 films grown by molecular beam epitaxy 2000 "NTT Basic Research Laboratories 3-1, Morinosato-Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Jpn.J.Appl.Phys., 39(2000)L485"
40992 JJP039L485 "(La,Ce)2CuO4" La1.891Ce0.109Cu1O4 La 1.891 Ce 0.109 Cu 1 O 4 4 2000 T' A 12.458 K 27.8 29.2 28.5 TC40992 MBE method. Substrate = SrTiO3. growth rate = 15 nm/min. substrate temp = 660 C. Superconducting T' -La2-xCexCuO4 films grown by molecular beam epitaxy 2000 "NTT Basic Research Laboratories 3-1, Morinosato-Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Jpn.J.Appl.Phys., 39(2000)L485"
40993 JJP039L485 "(La,Ce)2CuO4" La1.821Ce0.179Cu1O4 La 1.821 Ce 0.179 Cu 1 O 4 4 2000 T' A 12.4031 K 4.45 10 7.225 MBE method. Substrate = SrTiO3. growth rate = 15 nm/min. substrate temp = 660 C. Superconducting T' -La2-xCexCuO4 films grown by molecular beam epitaxy 2000 "NTT Basic Research Laboratories 3-1, Morinosato-Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Jpn.J.Appl.Phys., 39(2000)L485"
40994 JJP033L168 "Fig. shows Tc(on), Tc(end) vs Ce-content." "(La,Ce)2CuO4" La1.87Ce0.13Cu1Oz La 1.87 Ce 0.13 Cu 1 O z 1 1994 T' A 4.007 12.44 K 17 30 23.5 TC40994 "La2O3,CeO2,Cu2O" 1 "solid state reaction. oxidized in O2, 250 measured at 20 K. "Ba(Pb,Bi)O3" Ba1Pb0.75Bi0.25O3 Ba 1 Pb 0.75 Bi 0.25 O 3 2005 BPBO delta-phase K 12.5 12.5 TC42006 Knight shift in superconducting oxides BaPb1-xBixO3 (x<0.35) 2005 "JETP Lett., 82(2005)81"
42007 MPL0110939 delta-phase Mo-C stabilized by addition of 3rd element. delta-MoByCx Mo1B0.01C0.82 Mo 1 B 0.01 C 0.82 1997 NaCl delta-phase K 12.2 12.2 MTC42007 arc-melting Structural instability and superconductivity of the defect cubic structure delta-MoC1-x 1997 "University of Patros, Greece" "Mod.Phys.Lett. B, 11(1997)939"
42008 MPL0110939 delta-phase Mo-C stabilized by addition of 3rd element. delta-MoByCx Mo1B0.03C0.82 Mo 1 B 0.03 C 0.82 1997 NaCl delta-phase K 11.8 11.8 MTC42007 arc-melting Structural instability and superconductivity of the defect cubic structure delta-MoC1-x 1997 "University of Patros, Greece" "Mod.Phys.Lett. B, 11(1997)939"
42009 MPL0110939 delta-phase Mo-C stabilized by addition of 3rd element. delta-MoByCx Mo1B0.05C0.82 Mo 1 B 0.05 C 0.82 1997 NaCl delta-phase K 11.5 11.5 MTC42007 arc-melting Structural instability and superconductivity of the defect cubic structure delta-MoC1-x 1997 "University of Patros, Greece" "Mod.Phys.Lett. B, 11(1997)939"
42010 MPL0110939 delta-phase Mo-C stabilized by addition of 3rd element. "delta-(Mo,Hf)Cx" Mo0.95Hf0.05C0.65 Mo 0.95 Hf 0.05 C 0.65 1997 NaCl delta-phase K 8.81 8.81 MTC42010 arc-melting Structural instability and superconductivity of the defect cubic structure delta-MoC1-x 1997 "University of Patros, Greece" "Mod.Phys.Lett. B, 11(1997)939"
42011 MPL0110939 delta-phase Mo-C stabilized by addition of 3rd element. "delta-(Mo,Hf)Cx" Mo0.95Hf0.05C0.68 Mo 0.95 Hf 0.05 C 0.68 1997 NaCl delta-phase K 9.87 9.87 MTC42010 arc-melting Structural instability and superconductivity of the defect cubic structure delta-MoC1-x 1997 "University of Patros, Greece" "Mod.Phys.Lett. B, 11(1997)939"
42012 MPL0110939 delta-phase Mo-C stabilized by addition of 3rd element. "delta-(Mo,Hf)Cx" Mo0.95Hf0.05C0.7 Mo 0.95 Hf 0.05 C 0.7 1997 NaCl delta-phase K 10.9 10.9 MTC42012 arc-melting Structural instability and superconductivity of the defect cubic structure delta-MoC1-x 1997 "University of Patros, Greece" "Mod.Phys.Lett. B, 11(1997)939"
42013 MPL0110939 delta-phase Mo-C stabilized by addition of 3rd element. "delta-(Mo,Hf)Cx" Mo0.95Hf0.05C0.73 Mo 0.95 Hf 0.05 C 0.73 1997 NaCl delta-phase K 12 12 MTC42012 arc-melting Structural instability and superconductivity of the defect cubic structure delta-MoC1-x 1997 "University of Patros, Greece" "Mod.Phys.Lett. B, 11(1997)939"
42014 MPL0110939 delta-phase Mo-C stabilized by addition of 3rd element. "delta-(Mo,Hf)Cx" Mo0.95Hf0.05C0.74 Mo 0.95 Hf 0.05 C 0.74 1997 NaCl delta-phase K 12.4 12.4 MTC42012 arc-melting Structural instability and superconductivity of the defect cubic structure delta-MoC1-x 1997 "University of Patros, Greece" "Mod.Phys.Lett. B, 11(1997)939"
42015 MPL0110939 phase area: 0.35, Heusler phase" K 2.85 2.5 2.5 100 MHC42039 "arc-melting in Ar, ANN(800 C,60 d)" Superconductivity in the Heusler alloy Pd2YbPb 2007 "Department of Physics, Faculty of Sciences and Letters, Istanbul Technical University, 34469 Maslak, Istanbul, Turkey" "J.Alloys Compd., 429(2007)64"
42040 SSC1010323 LaNiC2 La1Ni1C2 La 1 Ni 1 C 2 1 1997 CeNiC2 Amm2 A 3.961 4.561 6.197 K 3 2.9 2.9 "La(3N),Ni(4N),C(5N),Th" "arc-melting in Ar, ANN(1200C,3d, wrapped in Ta-foil in quartz tube)" Superconductivity in the series (La1-xThx)NiC2 (0=:C<13> = 9:1). two gaps: table value is for larger gap(main), lower value of (2d/kTc) = 2 , measured by NMR." Y2C3 C3Y2 C 3 Y 2 1 2007 Pu2C3 I4[-]3d K 15.7 15.7 5 6 "arc-melting , high pressure." Multigap Superconductivity in Y2C3: A <13>C-NMR Study 2007 "Department of Materials Engineering Science, Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531" "J.Phys.Soc.Jpn, 76(2007)023704"
42057 JPS0730649 resistivity for J//[100] shows Tc=0.6 K at P=0. bulk SC appears above 1.2 GPa. Tc(P) shows for bulk SC. RR for J//[100] = 20 uOhm.cm. dHvA effect also measured. Ce2RhIn8 Ce2Rh1In8 Ce 2 Rh 1 In 8 3 2004 uB/Ce 0.55 2.8 Ho2CoGa8 K 0.6 0.6 MTC42057 mj/mol.K2 800 SP-heat self-flux method "Electronic, Magnetic and Superconducting Properties of Quasi-two Dimensional Compounds Ce2RhIn8 and La2RhIn8" 2004 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043" "J.Phys.Soc.Jpn, 73(2004)649"
42058 JAC4280094 not SC MgNi3B2 Mg1Ni3B2 Mg 1 Ni 3 B 2 2007 7 P6<4>22 181 A 4.88 8.787 "hex, hP18" K 1.8 mJ/mol.K2 4.9 from SP 609 from SP "mixture - Ta-crucible - sealed in Ar - heat(900C or 950 C, 1w)" "Structure, transport and magnetic properties of MgNi3B2" 2007 "CNR-INFM-LAMIA, Corso Perrone 24, 16152 Genova, Italy" "J.Alloy Compd, 428(2007)94"
42059 PHC2130190 Ca5C60 C60Ca5 C 60 Ca 5 1993 fullerene K 8.4 8.4 MTC42059 K/GPa 1.1 "Ca,C60" "mixture in W-cell in evacuated quartz tube. Heat(550C,20h)" PRESSURE DEPENDENCE OF THE SUPERCONDUCTING TRANSITION OF CALCIUM FULLERENE CA5C60 1993 8 "PHYSICA C,213(1993)190" "CA,C"
42060 PRL0832258 "N(0) = 6.0 states/eV.mol-C60 from kai(P) = 5.5 E-4 emu/mol. lattice const(295 K) analyzed from three phase model(Ba6-, Ba4-, Ba3-C60)" Ba4C60 Ba4C60 Ba 4 C 60 1999 fullerene A 11.61 11.2349 10.883 K 6.7 6.7 "react(C60 +Ba or Sr) in Ta-cell. ANN(550-650C, 12d)" "Structural and Electronic Properties of the Noncubic Superconducting Fullerides A'4C60 (A' = Ba, Sr )" 1999 "School of Chemistry, Physics and Environmental Science, University of Sussex, Brighton, BN1 9QJ, United Kingdom" "Phys.Rev.Lett., 83(1999)2258"
42061 PRL0832258 N(0) = 2.5 states/eV.mol-C60 from kai(P) = 2.2 E-4 emu/mol. Sr4C60 C60Sr4 C 60 Sr 4 1999 fullerene K 4.4 4.4 "react(C60 +Ba or Sr) in Ta-cell. ANN(550-650C, 12d)" "Structural and Electronic Properties of the Noncubic Superconducting Fullerides A'4C60 (A' = Ba, Sr )" 1999 "School of Chemistry, Physics and Environmental Science, University of Sussex, Brighton, BN1 9QJ, United Kingdom" "Phys.Rev.Lett., 83(1999)2258"
42062 NAT3550529 "x = 1.5, 3, 4, 4.5, 5, 6, 8 in CaxC60 were prepared and investigated." Ca5C60 C60Ca5 C 60 Ca 5 1992 fullerene A 14.01 K 8.4 8.4 "Ca,C60" "mixture in Ta-cell in quartz tube. heat(550C, 20h)" Superconductivity at 8.4K in calcium-doped C60 1992 "AT&T Bell Lab, New Jersey,USA" "Nature, 355(1992)529"
42063 NAT3600566 Tc(on) measured by microwave absorption. Ba6C60 Ba6C60 Ba 6 C 60 1992 1 fullerene A 11.171 K 7 7 12 Superconductivity in barium fulleride 1992 "AT&T Bell Lab, New Jersey,USA" "Nature, 360(1992)566"
42064 JAC2750480 RRR = 13.3. (dTn/dP) = 0.08 K/kbar. Tn by resistivity measurement. URu2Si2 U1Ru2Si2 U 1 Ru 2 Si 2 3 1998 17.5 K 1.1 0.2 1.1 Czochralski method Anisotropy of Cr-like anomaly in U1-xCexRu2Si2 1998 "Institute of Experimental Physics, SAS, Watsonova 47, 043 53 Kosice, Slovakia" "J.Alloy Compd, 275-277(1998)480"
42065 JAC2750480 not SC. RRR = 1.6. (dTn/dP) = 0.13 K/kbar. Tn by resistivity measurement. "(U,Ce)Ru2Si2" U0.975Ce0.025Ru2Si2 U 0.975 Ce 0.025 Ru 2 Si 2 3 1998 15.6 K 0.35 Czochralski method Anisotropy of Cr-like anomaly in U1-xCexRu2Si2 1998 "Institute of Experimental Physics, SAS, Watsonova 47, 043 53 Kosice, Slovakia" "J.Alloy Compd, 275-277(1998)480"
42067 MTL0583847 HgPbx Hg1Pb1.8 Hg 1 Pb 1.8 2004 AuCu A 4.9818 4.55 K 5.5 5.7 5.7 5.7 "Amalgams(1.8=) = 0.57 K. Tc measured by magnetization. CaC6 C6Ca1 C 6 Ca 1 2007 GIC K 11.62 11.62 0.55 Ca vapor transport method Large Ca isotope effect in the CaC6 superconductor 2007 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439, USA" "Phys.Rev.B, 75(2007)014509"
42072 P075014509 Tc shows Tc(Ca<40>). dTc(Ca<40> - Ca<44>) = 0.53 K. Tc measured by magnetization. CaC6 C6Ca1 C 6 Ca 1 2007 GIC K 11.57 11.57 0.5 Ca vapor transport method Large Ca isotope effect in the CaC6 superconductor 2007 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439, USA" "Phys.Rev.B, 75(2007)014509"
42073 MTL0610263 Sm occupy Hg vacancies og HgPb2(tetragonal) HgSm0.5Pb2 Hg1Sm0.5Pb2 Hg 1 Sm 0.5 Pb 2 2007 AuCu K 5.7 5.7 5.7 "Amalgams(HgSm0.5Pb2,HgSmPb2,HgSm0.5In0.5Pb2) - in quartz tube - heat (80C,10h) - pellet - ANN(3h)" Superconductivity in a new quaternary phase with HgSm0.5In0.5Pb2 composition 2007 "Departamento de Engenharia de Materiais, Faenquil, C.P. 116, 12600-970, Lorena SP, Brazil" "Mater.Lett., 61(2007)263"
42074 MTL0610263 Sm occupy Hg vacancies og HgPb2(tetragonal) HgSmPb2 Hg1Sm1Pb2 Hg 1 Sm 1 Pb 2 2007 AuCu K 5.9 5.9 5.9 "Amalgams(HgSm0.5Pb2,HgSmPb2,HgSm0.5In0.5Pb2) - in quartz tube - heat (80C,10h) - pellet - ANN(3h)" Superconductivity in a new quaternary phase with HgSm0.5In0.5Pb2 composition 2007 "Departamento de Engenharia de Materiais, Faenquil, C.P. 116, 12600-970, Lorena SP, Brazil" "Mater.Lett., 61(2007)263"
42075 MTL0610263 Sm and In occupy Hg vacancies og HgPb2(tetragonal) "Hg(Sm,In)Pb2" Hg1Sm0.5In0.5Pb2 Hg 1 Sm 0.5 In 0.5 Pb 2 2007 AuCu A 4.883 4.8716 K 6.9 6.9 MTC42075 "Amalgams(HgSm0.5Pb2,HgSmPb2,HgSm0.5In0.5Pb2) - in quartz tube - heat (80C,10h) - pellet - ANN(3h)" Superconductivity in a new quaternary phase with HgSm0.5In0.5Pb2 composition 2007 "Departamento de Engenharia de Materiais, Faenquil, C.P. 116, 12600-970, Lorena SP, Brazil" "Mater.Lett., 61(2007)263"
42076 PHC4510082 P-induced SC. Using diamond anvil upto 115 GPa. Tc shows maximum value obtained by this work (P=115 GPa). Y Y1 Y 1 2007 K 19.5 0 19.5 MTC42076 K/GPa 0.35 Y is cut from an ingot(Aldrich Chemical 99.9%) Superconductivity at 20 K in yttrium metal at pressures exceeding 1 Mbar 2007 "Department of Physics, Washington University, CB 1105, One Brookings Dr, St. Louis, MO 63130, United States" "Physica C, 451(2007)82"
42077 J075083703 P-induced SC. Tc by resistivity. Ca transforms from Ca-IV to Ca-V at 139 GPa. Tc(max) = 25 K at P=161 GPa. Hc2(0) = 12-15 T(P=161 GPa) estimated . Ca Ca1 Ca 1 2006 K 25 0 25 MTC42077 99.99 % Ca(Sigma-Aldrich) Superconductivity of Ca Exceeding 25K at Megabar Pressures 2006 "KYOKUGEN, Center for Quantum Science and Technology under Extreme Conditions, Osaka University, 1-3 Machikaneyama, Toyonaka, Osaka 560-8531" "J.Phys.Soc.Jpn, 75(2006)083703"
42078 MMM3100E31 not bulk SC (no specific heat anomaly). SC sample has superstructure in XRD pattern. Ce2RhIn8 Ce2Rh1In8 Ce 2 Rh 1 In 8 3 2007 2.8 Ho2CoGa8 K 0.5 0.8 0.65 In-flux method Relation between superconductivity and superstructure in Ce2RhIn8 2007 "aInstitute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "J.Mag.Mag.Mater., 310(2007)e31"
42079 MMM3100563 "not SC for P < 8 GPa, T > 0.08 K. TCFIG shows Tn(P)." CeIrGe3 Ce1Ir1Ge3 Ce 1 Ir 1 Ge 3 2007 8.7 BaNiSn3 A 4.409 10.032 K 0.08 MTC42079 Using tetra arc furnace. Magnetic and superconducting properties of CeIrSi3 and CeIrGe3 without inversion symmetry 2007 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Mag.Mag.Mater., 310(2007)563"
42080 MMM3100416 amorphous Ce-Ru alloys prepared by dc sputtering. They are superconducting for x<0.39 in CexRu1-x. SPHEAT shows gamma(x) measured by SP-heat. a-Ce0.15Ru0.85 Ce0.15Ru0.85 Ce 0.15 Ru 0.85 2007 AMOR K 3.9 3.9 MSP42080 mJ/mol.K2. 8.26 "Ce(3N),Ru(3N)" Ce-Ru ingot(arc melting) - dc sputtering Specific heat of amorphous CexRu100-x alloys 2007 "Materials Science of Engineering, Muroran Institute of Technology, Muroran, Hokkaido 050-8585, Japan" "J.Mag.Mag.Mater., 310(2007)416"
42081 PR05907266 CDW-temp = 83 K. SP-jump = 360J/mol.K at 83 K. Lu5Ir4Si10 Lu5Ir4Si10 Lu 5 Ir 4 Si 10 3 1999 Sc5Co4Si10 A 12.4936 4.1852 at 295 K. K 3.9 3.9 uOhm.cm 195 60 single crystals were grown in tri-furnace using Czochralski method Strongly coupled charge-density wave transition in single-crystal Lu5Ir4Si10 1999 "Kamerlingh Onnes Laboratory, Leiden University, 2300 RA Leiden, The Netherlands" "Phys.Rev.B, 59(1999)7266"
42082 PR04307688 not SC. Tn < 0.052 K. Yb5Ir4Si10 Yb5Ir4Si10 Yb 5 Ir 4 Si 10 1991 -58.8 Sc5Co4Si10 A 12.503 4.182 K 0.052 "arc melting - ANN(1250C,1d in quartz ampule,160Torr Ar) - ANN(1050C,3d)" "Low temperature physical properties of R5Ir4Si10 (R=Dy,Ho,Er,Tm, and Yb) compounds" 1991 "Phys.Rev.B, 43(1991)7688"
42083 PR04307688 not SC. another magnetic transition at 0.86 K (SP-heat anomaly). Tm5Ir4Si10 Tm5Ir4Si10 Tm 5 Ir 4 Si 10 1991 -27.1 1.9 Sc5Co4Si10 A 12.513 4.197 K 0.052 "arc melting - ANN(1250C,1d in quartz ampule,160Torr Ar) - ANN(1050C,3d)" "Low temperature physical properties of R5Ir4Si10 (R=Dy,Ho,Er,Tm, and Yb) compounds" 1991 "Phys.Rev.B, 43(1991)7688"
42084 PR04307688 not SC. Er5Ir4Si10 Er5Ir4Si10 Er 5 Ir 4 Si 10 1991 0.6 3 Sc5Co4Si10 A 12.54 4.208 K 0.052 "arc melting - ANN(1250C,1d in quartz ampule,160Torr Ar) - ANN(1050C,3d)" "Low temperature physical properties of R5Ir4Si10 (R=Dy,Ho,Er,Tm, and Yb) compounds" 1991 "Phys.Rev.B, 43(1991)7688"
42085 PR04307688 not SC. Ho5Ir4Si10 Ho5Ir4Si10 Ho 5 Ir 4 Si 10 1991 -13.2 2 Sc5Co4Si10 A 12.558 4.218 K 0.052 "arc melting - ANN(1250C,1d in quartz ampule,160Torr Ar) - ANN(1050C,3d)" "Low temperature physical properties of R5Ir4Si10 (R=Dy,Ho,Er,Tm, and Yb) compounds" 1991 "Phys.Rev.B, 43(1991)7688"
42086 PR04307688 not SC. Dy5Ir4Si10 Dy5Ir4Si10 Dy 5 Ir 4 Si 10 1991 -5.9 5 Sc5Co4Si10 A 12.577 4.237 K 0.052 "arc melting - ANN(1250C,1d in quartz ampule,160Torr Ar) - ANN(1050C,3d)" "Low temperature physical properties of R5Ir4Si10 (R=Dy,Ho,Er,Tm, and Yb) compounds" 1991 "Phys.Rev.B, 43(1991)7688"
42087 L089057002 beta-V bronze. P-induced SC. P = 4.3 GPa. Tc shows at 5.5 GPa. CeCoGe3 Ce1Co1Ge3 Ce 1 Co 1 Ge 3 2007 21 BaNiSn3 K 0.7 0 0.7 "arc melting - wrapped in Ta-foil - sealed in vac - ANN(850C,1w)" Pressure-induced superconductivity in CeCoGe3 without inversion symmetry 2007 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Mag.Mag.Mater., 310(2007)844"
42089 MMM3100207 T = 83 K. C = 8.5 mj/mol.K. e-ph coupling = 0.43. Lu5Ir4Si10 Lu5Ir4Si10 Lu 5 Ir 4 Si 10 2007 Sc5Co4Si10 K 3.9 3.75 3.9 "Multiple phase transitions in rare earth R5T4M10 (T = Rh, Ir and M=Si, Sn)" 2007 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai-400005, India" "J.Mag.Mag.Mater., 310(2007)207"
42090 MMM3100207 T = 75 K. C = 6.8 mj/mol.K. "Lu5Ir4(Si,Ge)10" Lu5Ir4Si9.95Ge0.05 Lu 5 Ir 4 Si 9.95 Ge 0.05 2007 Sc5Co4Si10 K 4.1 4.03 4.1 "Multiple phase transitions in rare earth R5T4M10 (T = Rh, Ir and M=Si, Sn)" 2007 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai-400005, India" "J.Mag.Mag.Mater., 310(2007)207"
42091 MMM3100207 T = 64 K. C = 3.9 mj/mol.K. "Lu5Ir4(Si,Ge)10" Lu5Ir4Si9.9Ge0.1 Lu 5 Ir 4 Si 9.9 Ge 0.1 2007 Sc5Co4Si10 K 4.7 4.82 4.7 "Multiple phase transitions in rare earth R5T4M10 (T = Rh, Ir and M=Si, Sn)" 2007 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai-400005, India" "J.Mag.Mag.Mater., 310(2007)207"
42092 MMM3100207 T = 51 K. C = 1.5 mj/mol.K. "Lu5Ir4(Si,Ge)10" Lu5Ir4Si9.8Ge0.2 Lu 5 Ir 4 Si 9.8 Ge 0.2 2007 Sc5Co4Si10 K 5.8 5.78 5.8 "Multiple phase transitions in rare earth R5T4M10 (T = Rh, Ir and M=Si, Sn)" 2007 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai-400005, India" "J.Mag.Mag.Mater., 310(2007)207"
42093 MMM3100207 T = 47 K. C = 0.75 mj/mol.K. "Lu5Ir4(Si,Ge)10" Lu5Ir4Si9.5Ge0.5 Lu 5 Ir 4 Si 9.5 Ge 0.5 2007 Sc5Co4Si10 K 6 6.08 6 "Multiple phase transitions in rare earth R5T4M10 (T = Rh, Ir and M=Si, Sn)" 2007 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai-400005, India" "J.Mag.Mag.Mater., 310(2007)207"
42094 MMM3100207 no CDW. "Lu5Ir4(Si,Ge)10" Lu5Ir4Si9Ge1 Lu 5 Ir 4 Si 9 Ge 1 2007 Sc5Co4Si10 K 6.38 6.38 MTC42094 "Multiple phase transitions in rare earth R5T4M10 (T = Rh, Ir and M=Si, Sn)" 2007 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai-400005, India" "J.Mag.Mag.Mater., 310(2007)207"
42095 P063024504 "ANN(500C,6d in vac). Tc<2K. TP300 = TP(290K). P determined from TP(290K) using TP(290K)-p relation." HgBa2CuOz Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 2001 Hg1201 A 3.8986 K 2 uV/K 144 "HgO,BaO,CuO" 1 "solid state reaction. To minimize C-impurity, HgO and BaO made using special process." Thermoelectric power and resistivity of HgBa2CuO4+z over a wide doping range 2001 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku Tokyo 135-0062, Japan" "Phys.Rev.B, 63(2001)024504"
42096 P063024504 "ANN(450C,10d in vac). Tc<2K. TP300 = TP(290K). P determined from TP(290K) using TP(290K)-p relation." HgBa2CuOz Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 2001 Hg1201 A 3.8948 K 2 uV/K 109 "HgO,BaO,CuO" 1 "solid state reaction. To minimize C-impurity, HgO and BaO made using special process." Thermoelectric power and resistivity of HgBa2CuO4+z over a wide doping range 2001 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku Tokyo 135-0062, Japan" "Phys.Rev.B, 63(2001)024504"
42097 P063024504 "ANN(400C,10d in vac). TP300 = TP(290K). P determined from TP(290K) using TP(290K)-p relation." HgBa2CuOz Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 2001 Hg1201 A 3.894 K 26 26 uV/K 80 "HgO,BaO,CuO" 1 "solid state reaction. To minimize C-impurity, HgO and BaO made using special process." Thermoelectric power and resistivity of HgBa2CuO4+z over a wide doping range 2001 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku Tokyo 135-0062, Japan" "Phys.Rev.B, 63(2001)024504"
42098 P063024504 "ANN(350C,6d in vac). TP300 = TP(290K). P determined from TP(290K) using TP(290K)-p relation." HgBa2CuOz Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 2001 Hg1201 A 3.892 K 46 46 uV/K 60 "HgO,BaO,CuO" 1 "solid state reaction. To minimize C-impurity, HgO and BaO made using special process." Thermoelectric power and resistivity of HgBa2CuO4+z over a wide doping range 2001 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku Tokyo 135-0062, Japan" "Phys.Rev.B, 63(2001)024504"
42099 P063024504 "ANN(300C,10d in vac). TP300 = TP(290K). P determined from TP(290K) using TP(290K)-p relation." HgBa2CuOz Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 2001 Hg1201 A 3.8895 K 62 62 uV/K 48 "HgO,BaO,CuO" 1 "solid state reaction. To minimize C-impurity, HgO and BaO made using special process." Thermoelectric power and resistivity of HgBa2CuO4+z over a wide doping range 2001 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku Tokyo 135-0062, Japan" "Phys.Rev.B, 63(2001)024504"
42100 P063024504 "ANN(400C,10d in Ar). TP300 = TP(290K). P determined from TP(290K) using TP(290K)-p relation." HgBa2CuOz Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 2001 Hg1201 A 3.8869 K 72 72 uV/K 25 "HgO,BaO,CuO" 1 "solid state reaction. To minimize C-impurity, HgO and BaO made using special process." Thermoelectric power and resistivity of HgBa2CuO4+z over a wide doping range 2001 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku Tokyo 135-0062, Japan" "Phys.Rev.B, 63(2001)024504"
42101 P063024504 "ANN(350C,10d in Ar). TP300 = TP(290K). P determined from TP(290K) using TP(290K)-p relation." HgBa2CuOz Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 2001 Hg1201 A 3.8853 K 77 77 uV/K 17 "HgO,BaO,CuO" 1 "solid state reaction. To minimize C-impurity, HgO and BaO made using special process." Thermoelectric power and resistivity of HgBa2CuO4+z over a wide doping range 2001 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku Tokyo 135-0062, Japan" "Phys.Rev.B, 63(2001)024504"
42102 P063024504 "ANN(300C,8d in Ar). TP300 = TP(290K). P determined from TP(290K) using TP(290K)-p relation." HgBa2CuOz Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 2001 Hg1201 A 3.8843 K 83 83 uV/K 9 "HgO,BaO,CuO" 1 "solid state reaction. To minimize C-impurity, HgO and BaO made using special process." Thermoelectric power and resistivity of HgBa2CuO4+z over a wide doping range 2001 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku Tokyo 135-0062, Japan" "Phys.Rev.B, 63(2001)024504"
42103 P063024504 "ANN(300C,7d in O20.01%-Ar). TP300 = TP(290K). P determined from TP(290K) using TP(290K)-p relation." HgBa2CuOz Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 2001 Hg1201 A 3.8825 K 91 91 uV/K 7 "HgO,BaO,CuO" 1 "solid state reaction. To minimize C-impurity, HgO and BaO made using special process." Thermoelectric power and resistivity of HgBa2CuO4+z over a wide doping range 2001 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku Tokyo 135-0062, Japan" "Phys.Rev.B, 63(2001)024504"
42104 P063024504 "ANN(300C,7d in O20.1%-Ar). TP300 = TP(290K). P determined from TP(290K) using TP(290K)-p relation." HgBa2CuOz Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 2001 Hg1201 A 3.881 K 95 95 uV/K 6 "HgO,BaO,CuO" 1 "solid state reaction. To minimize C-impurity, HgO and BaO made using special process." Thermoelectric power and resistivity of HgBa2CuO4+z over a wide doping range 2001 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku Tokyo 135-0062, Japan" "Phys.Rev.B, 63(2001)024504"
42105 P063024504 "ANN(300C,7d in O2). TP300 = TP(290K). P determined from TP(290K) using TP(290K)-p relation." HgBa2CuOz Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 2001 Hg1201 A 3.8789 K 98 98 uV/K 3.2 "HgO,BaO,CuO" 1 "solid state reaction. To minimize C-impurity, HgO and BaO made using special process." Thermoelectric power and resistivity of HgBa2CuO4+z over a wide doping range 2001 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku Tokyo 135-0062, Japan" "Phys.Rev.B, 63(2001)024504"
42106 P063024504 "ANN(240C,21d in O2). TP300 = TP(290K). P determined from TP(290K) using TP(290K)-p relation." HgBa2CuOz Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 2001 Hg1201 A 3.8759 K 92 92 uV/K -0.1 "HgO,BaO,CuO" 1 "solid state reaction. To minimize C-impurity, HgO and BaO made using special process." Thermoelectric power and resistivity of HgBa2CuO4+z over a wide doping range 2001 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku Tokyo 135-0062, Japan" "Phys.Rev.B, 63(2001)024504"
42107 P063024504 "ANN(320C,8d in 6atm-O2). TP300 = TP(290K). P determined from TP(290K) using TP(290K)-p relation." HgBa2CuOz Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 2001 Hg1201 A 3.875 K 86 86 uV/K -3 "HgO,BaO,CuO" 1 "solid state reaction. To minimize C-impurity, HgO and BaO made using special process." Thermoelectric power and resistivity of HgBa2CuO4+z over a wide doping range 2001 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku Tokyo 135-0062, Japan" "Phys.Rev.B, 63(2001)024504"
42108 P063024504 "ANN(270C,8d in 6atm-O2). TP300 = TP(290K). P determined from TP(290K) using TP(290K)-p relation." HgBa2CuOz Hg1Ba2Cu1O4+z Hg 1 Ba 2 Cu 1 O 4+z 2001 Hg1201 A 3.743 K 80 80 uV/K -4.5 "HgO,BaO,CuO" 1 "solid state reaction. To minimize C-impurity, HgO and BaO made using special process." Thermoelectric power and resistivity of HgBa2CuO4+z over a wide doping range 2001 "Superconductivity Research Laboratory, International Superconductivity Technology Center, 1-10-13 Shinonome, Koto-ku Tokyo 135-0062, Japan" "Phys.Rev.B, 63(2001)024504"
42109 PHY0550663 GAMMA calculated from Hc. Gruneizen const. = 2.6. Al Al1 Al 1 1971 K 1.159 1.159 MHC42109 mJ/mol.K2 1.67 "Critical magnetic fields of aluminum, gallium and thorium under pressure and the isotope effect of cadmium" 1971 "Physica, 55(1971)663"
42110 PHY0550663 GAMMA calculated from Hc. Gruneizen const. = -0.4. Ga Ga1 Ga 1 1971 K 1.061 1.061 MTC42110 K/GPa -0.138 MHC42110 mJ/mol.K2 0.53 "Critical magnetic fields of aluminum, gallium and thorium under pressure and the isotope effect of cadmium" 1971 "Physica, 55(1971)663"
42111 PHY0550663 GAMMA calculated from Hc. Gruneizen const. = 0.57. Th Th1 Th 1 1971 K 1.38 1.38 MTC42111 K/GPa -0.13 MHC42111 mJ/mol.K2 4.33 "Critical magnetic fields of aluminum, gallium and thorium under pressure and the isotope effect of cadmium" 1971 "Physica, 55(1971)663"
42112 PHY0550663 Cd Cd1 Cd 1 1971 K 0.541 0.541 0.32 Cd "Critical magnetic fields of aluminum, gallium and thorium under pressure and the isotope effect of cadmium" 1971 "Physica, 55(1971)663"
42114 P075054513 G-L parameter = 20. Ba8Si40Ga6 Ba8Si40Ga6 Ba 8 Si 40 Ga 6 2007 clathrate Pm3[-]n 223 A 10.4261 K 3.3 3.3 96 Oe 35 kOe 8.5 A from Hc2 200 A calculated using G-L theory 3700 "Ba,Si,Ga" "multistep melting in Ar, then solid state reaction" Superconductivity in gallium-substituted Ba8Si46 clathrates 2007 "Department of Physics, University of Science and Technology Beijing, Beijing 100083, China" "Phys.Rev.B, 75(2007)054513"
42115 P075054513 not SC at 1.8 K. Ba8Si36Ga10 Ba8Si36Ga10 Ba 8 Si 36 Ga 10 2007 clathrate Pm3[-]n 223 A 10.4896 K 1.8 "Ba,Si,Ga" "multistep melting in Ar, then solid state reaction" Superconductivity in gallium-substituted Ba8Si46 clathrates 2007 "Department of Physics, University of Science and Technology Beijing, Beijing 100083, China" "Phys.Rev.B, 75(2007)054513"
42116 P075060503 T = 250 K. e-ph = 0.45. (dC/gamma*Tc) = 1.35. G-L parameter = 151. Bi2Rh3Se2 Bi2Rh3Se2 Bi 2 Rh 3 Se 2 2007 A 11.414 8.3709 11.989 parkerite-type structure. beta = 89.153 deg. K 0.76 0.84 0.9 0.84 Oe from Hc(0) using G-L theory 1.2 T resistive transition 1.13 T/K 1.95 MHC42116 A from Hc2 171 um "from Hc(0), Hc1 using G-L theory" 2.57 mJ/mol.K2 9.5 SP 194 SP "mixture - heat(1320K,6h in silica tube) - Q" Charge-density-wave superconductor Bi2Rh3Se2 2007 "Division of Chemistry, Graduate School of Science, Hokkaido University, Sapporo 060-0810, Japan" "Phys.Rev.B, 75(2007)060503R"
42117 P075064517 Tc=2.0 K from SP-heat. quasi-1D superconductor. residual resistivity at 4.0 K. // means //Nb-chain. e-ph = 1.05. Hc2(0) by linear approx. Nb2Se3 Nb2Se3 Nb 2 Se 3 2007 P<21/m> A 5.505 3.4349 9.2369 "monoclinic, beta=130.160 deg." K 2.2 2.4 2.3 T resistive transition 1.4 0.75 MHC42117 A from Hc2 203 153 mJ/mol.K2 9.96 SP 223 SP uOhm.cm 26 105 single crystals were grown using a molten metallic flux method. Anisotropy of electrical transport and superconductivity in metal chains of Nb2Se3 2007 "Condensed Matter Physics, Brookhaven National Laboratory, Upton, New York 11973-5000, USA" "Phys.Rev.B, 75(2007)064517"
42118 PHB3780857 "Amorphous superconductig region, x=15 =< SC < 47 at%." a-CexRu1-x Ce0.147Ru0.853 Ce 0.147 Ru 0.853 2006 AMOR K 3.6 3.6 Amorphous samples fabricated by a DC high-rate sputtering method. Heavy fermion like behavior and superconductivity in amorphous CexRu100-x alloy 2006 "Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan" "Physica B, 378-380(2006)857"
42119 PHB3780857 not SC. a-CexRu1-x Ce0.805Ru0.195 Ce 0.805 Ru 0.195 2006 K 1.8 Amorphous samples fabricated by a DC high-rate sputtering method. Heavy fermion like behavior and superconductivity in amorphous CexRu100-x alloy 2006 "Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan" "Physica B, 378-380(2006)857"
42120 PHC4500071 "(Ca,La)(Ba,La)2Cu3Oz" Ca0.1La1.15Ba1.75Cu3O7.148 Ca 0.1 La 1.15 Ba 1.75 Cu 3 O 7+z 7.148 1 2006 Y123 K 57.1 57.1 MTC42120 "Quantum critical point, scaling and universality in high Tc (CaxLa1-x)(Ba2-c-xLac+x)Cu3Oy" 2006 "Department of Physics, Technion, Haifa 32000, Israel" "Physica C, 450(2006)71"
42121 P072045106 "Lu5Ir4(Si,Ge)10" Lu5Ir4Si8Ge2 Lu 5 Ir 4 Si 8 Ge 2 2005 Sc5Co4Si10 A 12.4837 4.1781 K 6.6 6.6 MTC42121 arc melting Competition between superconductivity and charge-density-wave ordering in the Lu5Ir4(Si1-xGex)10 alloy system 2005 "Tata Institute of Fundamental Research, Mumbai-400005, India" "Phys.Rev.B, 72(2005)045106"
42122 P072045106 "Lu5Ir4(Si,Ge)10" Lu5Ir4Si6Ge4 Lu 5 Ir 4 Si 6 Ge 4 2005 Sc5Co4Si10 A 12.6082 4.2008 K 5.1 5.1 arc melting Competition between superconductivity and charge-density-wave ordering in the Lu5Ir4(Si1-xGex)10 alloy system 2005 "Tata Institute of Fundamental Research, Mumbai-400005, India" "Phys.Rev.B, 72(2005)045106"
42123 P072045106 Lu5Ir4Ge10 Lu5Ir4Ge10 Lu 5 Ir 4 Ge 10 2005 Sc5Co4Si10 A 12.8281 4.2415 K 2.5 2.5 arc melting Competition between superconductivity and charge-density-wave ordering in the Lu5Ir4(Si1-xGex)10 alloy system 2005 "Tata Institute of Fundamental Research, Mumbai-400005, India" "Phys.Rev.B, 72(2005)045106"
42124 PLA3450398 Ba8Si42Cu4 Ba8Si42Cu4 Ba 8 Si 42 Cu 4 1 2005 clathrate Pm3[-]n 223 A 10.3257 K 2.9 2.9 Oe M-H curve 30 A calculated from Hc1 1480 "multistep melting in Ar, then solid state reaction" Vacancy and copper-doping effect on superconductivity for clathrate materials 2005 "Department of Physics, University of Science and Technology Beijing, Beijing 100083, China" "Phys.Lett.A, 345(2005)398"
42125 PHC4530012 not SC. dTc/dp value for 40 < P < 60 GPa. P = 9.4 GPa (linear extraporation to Tc=0 K). omega-Ti Ti1 Ti 1 2007 hexagonal K 0.06 MTC42125 K/GPa 0.07 electron-arc melting in vac. "Superconducting temperature of the x-phase in Ti, Zr and Hf metals at high pressures" 2007 "Institute of Solid State Physics, Russian Academy of Sciences, 142432 Chernogolovka, Moscow District, Russia" "Physica C, 453(2007)12"
42126 PHC4500124 "impuriti phases = MgCu2,MgO" "(Mg,Cu)B2" Mg0.95Cu0.05B2 Mg 0.95 Cu 0.05 B 2 2006 AlB2 A 3.087 3.524 K 36.9 38.6 1.7 37.75 "mixture - pellet - wrapped in Ta foil - heat(850C, in Ar flow)" Effect of Cu doping in MgB2 superconductor at various processing temperatures 2006 "Superconductivity Research Laboratory, Department of Physics, Barkatullah University, Bhopal 462026, India" "Physica C, 450(2006)124"
42127 L091247001 Tc defined as maximum of (dR/dT) in (dR/dT) vs T plot. (dTc/da) = 17.1 K/A for pressure effect. Ba8Si46 Ba8Si46 Ba 8 Si 46 2003 clathrate K 8.4 8.4 MTC42127 "mixed(BaSi2 + Si powder) - SIN(1000K,5GPa,in h-BN cell) - Q" Superconductivity in Doped sp3 Semiconductors: The Case of the Clathrates 2003 "LPMCN, Universite Claude Bernard Lyon I and CNRS, UMR 5586, Batiment Brillouin, 43 Bd du 11 Novembre 1918, 69622 Villeurbanne Cedex, France" "Phys.Rev.Lett., 91(2003)247001"
42128 PHB2890385 G-L = 56. H//c-axis for muon-SR. Ba8Si46 Ba8Si46 Ba 8 Si 46 2000 clathrate K 8 8 T magnetization 6.5 MHC42128 A from Hc2 72 A muon-SR 4000 "See ""fullerene Sci.Tech., 3(1998)7686""" Muon spin relaxation measurements of magnetic-field penetration depth in Ba8Si46 2000 "Department of Physics, Columbia University, 538 West 120th St., New York, NY 10027, USA" "Physica B, 289-290(2000)385"
42129 PHC4080869 2nd transition at Tc = 4K. XRD peaks of Ba-Ge compounds except for clathrate not seen. Ba8Ge46 Ba8Ge46 Ba 8 Ge 46 2004 clathrate K 10 10 high temperature reaction Study of superconducting Ba-Ge-Co compounds 2004 "aDepartment of Physics, Texas A&M University, College Station, TX 77843-4242, USA" "Physica C, 408(2004)869"
42130 PHC4080869 Tc=10K phase(maybe Co-free clathrate) observed. "Ba8(Ge,Co)46" Ba8Ge42Co4 Ba 8 Ge 42 Co 4 2004 clathrate K 7 7 high temperature reaction Study of superconducting Ba-Ge-Co compounds 2004 "aDepartment of Physics, Texas A&M University, College Station, TX 77843-4242, USA" "Physica C, 408(2004)869"
42131 P075104505 "Cu-content determined from lat-c. anisotropy(Hc2(sb)/Hc2c) = 1.7 at 0.35 K. almost T-independent. G-L = 25(H//ab), = 13.4(H//c). gammma in mJ/mol-Ti.K2." Cu0.07TiSe2 Cu0.07Ti1Se2 Cu 0.07 Ti 1 Se 2 3 2007 hexagonal K 3.9 0.1 3.9 Oe 32 53 13 1.8 T resistive 1.238 0.729 A from Hc2 213 125 A 2850 5840 mJ/mol.K2 4.3 uOhm.cm 80 single crystals were grown by Cl-vapor transport. Anisotropic properties of the layered superconductor Cu0.07TiSe2 2007 "Department of Chemistry, Princeton University, Princeton, New Jersey 08540, USA" "Phys.Rev.B, 75(2007)104505"
42132 P075104518 "hole concentration p = 0.188, estimated using Tallon's eq. energy gap from thermal conductivity using d-wave SC theory." Tl2Ba2CuO6 Tl2Ba2Cu1O6+z Tl 2 Ba 2 Cu 1 O 6+z 3 2007 Tl2201 K 84 84 meV 40 11.2 3 "flux method. optimal sample (500C,in vac). overdoped samples (400-480C, in 50-60 mbar-O2)" Doping dependence of the superconducting gap in Tl2Ba2CuO6+z from heat transport 2007 "Department of Physics, University of Toronto, Toronto, Canada M5S 1A7" "Phys.Rev.B, 75(2007)104518"
42133 P075104518 "hole concentration p = 0.203, estimated using Tallon's eq. energy gap from thermal conductivity using d-wave SC theory." Tl2Ba2CuO6 Tl2Ba2Cu1O6+z Tl 2 Ba 2 Cu 1 O 6+z 3 2007 Tl2201 K 76 76 meV 22 6.8 3 "flux method. optimal sample (500C,in vac). overdoped samples (400-480C, in 50-60 mbar-O2)" Doping dependence of the superconducting gap in Tl2Ba2CuO6+z from heat transport 2007 "Department of Physics, University of Toronto, Toronto, Canada M5S 1A7" "Phys.Rev.B, 75(2007)104518"
42134 P075104518 "hole concentration p = 0.209, estimated using Tallon's eq. energy gap from thermal conductivity using d-wave SC theory." Tl2Ba2CuO6 Tl2Ba2Cu1O6+z Tl 2 Ba 2 Cu 1 O 6+z 3 2007 Tl2201 K 72 72 meV 23 7.6 3 "flux method. optimal sample (500C,in vac). overdoped samples (400-480C, in 50-60 mbar-O2)" Doping dependence of the superconducting gap in Tl2Ba2CuO6+z from heat transport 2007 "Department of Physics, University of Toronto, Toronto, Canada M5S 1A7" "Phys.Rev.B, 75(2007)104518"
42135 P075104518 "hole concentration p = 0.214, estimated using Tallon's eq. energy gap from thermal conductivity using d-wave SC theory." Tl2Ba2CuO6 Tl2Ba2Cu1O6+z Tl 2 Ba 2 Cu 1 O 6+z 3 2007 Tl2201 K 68 68 meV 28 9.6 3 "flux method. optimal sample (500C,in vac). overdoped samples (400-480C, in 50-60 mbar-O2)" Doping dependence of the superconducting gap in Tl2Ba2CuO6+z from heat transport 2007 "Department of Physics, University of Toronto, Toronto, Canada M5S 1A7" "Phys.Rev.B, 75(2007)104518"
42136 P075104518 "hole concentration p = 0.252, estimated using Tallon's eq. energy gap from thermal conductivity using d-wave SC theory." Tl2Ba2CuO6 Tl2Ba2Cu1O6+z Tl 2 Ba 2 Cu 1 O 6+z 3 2007 Tl2201 K 27 27 meV 9.5 8.2 3 "flux method. optimal sample (500C,in vac). overdoped samples (400-480C, in 50-60 mbar-O2)" Doping dependence of the superconducting gap in Tl2Ba2CuO6+z from heat transport 2007 "Department of Physics, University of Toronto, Toronto, Canada M5S 1A7" "Phys.Rev.B, 75(2007)104518"
42137 P075104518 "hole concentration p = 0.253, estimated using Tallon's eq. energy gap from thermal conductivity using d-wave SC theory." Tl2Ba2CuO6 Tl2Ba2Cu1O6+z Tl 2 Ba 2 Cu 1 O 6+z 3 2007 Tl2201 K 26 26 meV 6.7 6 3 "flux method. optimal sample (500C,in vac). overdoped samples (400-480C, in 50-60 mbar-O2)" Doping dependence of the superconducting gap in Tl2Ba2CuO6+z from heat transport 2007 "Department of Physics, University of Toronto, Toronto, Canada M5S 1A7" "Phys.Rev.B, 75(2007)104518"
42138 NAP0020544 RRR = 0.5. T = 217 K. TiSe2 Se2Ti1 Se 2 Ti 1 2006 A 3.5388 6.0098 K 0.8 uV/K 23.3 Superconductivity in CuxTiSe2 2006 "Department of Chemistry, Princeton University, Princeton, New Jersey 08540, USA" "NaturePhys., 2(2006)544"
42139 NAP0020544 RRR = 3.2. T = 180 K. gamma in mJ/mol(Ti).K2 CuxTiSe2 Cu0.02Ti1Se2 Cu 0.02 Ti 1 Se 2 2006 A 3.5404 6.0156 K 0.8 MTC42142 mJ/mol.K2 1.6 uV/K -80 Superconductivity in CuxTiSe2 2006 "Department of Chemistry, Princeton University, Princeton, New Jersey 08540, USA" "NaturePhys., 2(2006)544"
42140 NAP0020544 CuxTiSe2 Cu0.045Ti1Se2 Cu 0.045 Ti 1 Se 2 2006 K 0.95 0.95 Superconductivity in CuxTiSe2 2006 "Department of Chemistry, Princeton University, Princeton, New Jersey 08540, USA" "NaturePhys., 2(2006)544"
42141 NAP0020544 T = 94.6 K. CuxTiSe2 Cu0.05Ti1Se2 Cu 0.05 Ti 1 Se 2 2006 K 1.4 1.4 Superconductivity in CuxTiSe2 2006 "Department of Chemistry, Princeton University, Princeton, New Jersey 08540, USA" "NaturePhys., 2(2006)544"
42142 NAP0020544 RRR = 3.3T = 60.5 K. CuxTiSe2 Cu0.06Ti1Se2 Cu 0.06 Ti 1 Se 2 2006 A 3.5436 6.0273 K 2.39 2.39 LAT42142 uV/K -66.5 Superconductivity in CuxTiSe2 2006 "Department of Chemistry, Princeton University, Princeton, New Jersey 08540, USA" "NaturePhys., 2(2006)544"
42143 NAP0020544 RRR = 5.39. gamma in mJ/mol(Ti).K2 CuxTiSe2 Cu0.08Ti1Se2 Cu 0.08 Ti 1 Se 2 2006 A 3.5447 6.0354 K 4.15 4.15 MTC42142 MHC42143 MSP42143 mJ/mol.K2 4.34 uV/K -49.3 Superconductivity in CuxTiSe2 2006 "Department of Chemistry, Princeton University, Princeton, New Jersey 08540, USA" "NaturePhys., 2(2006)544"
42144 NAP0020544 RRR = 5.39 CuxTiSe2 Cu0.1Ti1Se2 Cu 0.1 Ti 1 Se 2 2006 A 3.546 6.0436 K 2.68 2.68 uV/K -49.9 Superconductivity in CuxTiSe2 2006 "Department of Chemistry, Princeton University, Princeton, New Jersey 08540, USA" "NaturePhys., 2(2006)544"
42145 PHC4540030 Tm defined as peak of M-T curve. Hc2(0) estimated by fitting : Hc2 = Hc2(0)*(1-t^2)^a. RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 1 2007 130 Ru1212 P4/mmm A 3.8389 11.5652 K 39 39 T resistive 52 A from Hc2 25 mOhm.cm 15 "Ru,Ir,SrCO3,Gd2O3,CuO" "precursor(Sr2GdRu1-xIrxO6) was prepared by heating(1250C,12h,in air). Then added CuO - SIN(1060C,72h,in flowing O2)" Effect of Ir substitution in the ferromagnetic superconductor RuSr2GdCu2O8 2007 "aInstituto de Fisica, Universidade de Sao Paulo, CP 66318, 05315-970 Sao Paulo, SP, Brazil" "Physica C, 454(2007)30"
42146 PHC4540030 Tm defined as peak of M-T curve. Hc2(0) estimated by fitting : Hc2 = Hc2(0)*(1-t^2)^a. "(Ru,Ir)Sr2GdCu2O8" Ru0.98Ir0.02Sr2Gd1Cu2O8 Ru 0.98 Ir 0.02 Sr 2 Gd 1 Cu 2 O 8 1 2007 126 Ru1212 P4/mmm K 38 38 T resistive 53 A from Hc2 24 "Ru,Ir,SrCO3,Gd2O3,CuO" "precursor(Sr2GdRu1-xIrxO6) was prepared by heating(1250C,12h,in air). Then added CuO - SIN(1060C,72h,in flowing O2)" Effect of Ir substitution in the ferromagnetic superconductor RuSr2GdCu2O8 2007 "aInstituto de Fisica, Universidade de Sao Paulo, CP 66318, 05315-970 Sao Paulo, SP, Brazil" "Physica C, 454(2007)30"
42147 PHC4540030 Tm defined as peak of M-T curve. Hc2(0) estimated by fitting : Hc2 = Hc2(0)*(1-t^2)^a. "(Ru,Ir)Sr2GdCu2O8" Ru0.95Ir0.05Sr2Gd1Cu2O8 Ru 0.95 Ir 0.05 Sr 2 Gd 1 Cu 2 O 8 1 2007 120 Ru1212 P4/mmm K 32.5 32.5 T resistive 53 A from Hc2 24 "Ru,Ir,SrCO3,Gd2O3,CuO" "precursor(Sr2GdRu1-xIrxO6) was prepared by heating(1250C,12h,in air). Then added CuO - SIN(1060C,72h,in flowing O2)" Effect of Ir substitution in the ferromagnetic superconductor RuSr2GdCu2O8 2007 "aInstituto de Fisica, Universidade de Sao Paulo, CP 66318, 05315-970 Sao Paulo, SP, Brazil" "Physica C, 454(2007)30"
42148 PHC4540030 Tm defined as peak of M-T curve. Hc2(0) estimated by fitting : Hc2 = Hc2(0)*(1-t^2)^a. "(Ru,Ir)Sr2GdCu2O8" Ru0.9Ir0.1Sr2Gd1Cu2O8 Ru 0.9 Ir 0.1 Sr 2 Gd 1 Cu 2 O 8 1 2007 112 Ru1212 P4/mmm A 3.8399 11.5644 K 22 22 T resistive 54 A from Hc2 24 mOhm.cm 21 "Ru,Ir,SrCO3,Gd2O3,CuO" "precursor(Sr2GdRu1-xIrxO6) was prepared by heating(1250C,12h,in air). Then added CuO - SIN(1060C,72h,in flowing O2)" Effect of Ir substitution in the ferromagnetic superconductor RuSr2GdCu2O8 2007 "aInstituto de Fisica, Universidade de Sao Paulo, CP 66318, 05315-970 Sao Paulo, SP, Brazil" "Physica C, 454(2007)30"
42149 PHC4510134 Hc2 measured and defined by new analysis of M(H). Li2Pd3B Li2Pd3B1 Li 2 Pd 3 B 1 1 2007 K 6.87 6.87 T fitting of M(H) 3.48 A from Hc2 97 A from cohere and G-L parameter 3000 Temperature dependences of the upper critical field and Ginzburg-Landau parameter of Li2Pd3B from magnetization measurements 2007 "Physik-Institut der Universitat Zurich, Zurich,Switzerland" "Physica C, 451(2007)134"
42150 J076034714 "Tc decreases with increasing a. SP-heat measured for sample c(a = 3.846 A, Tc-2.5 K). G-L parameter = 23." CdCNi3 Cd1C1Ni3 Cd 1 C 1 Ni 3 2007 CaTiO3 A 3.844 K 3.2 3.2 3.2 mT "M-H curve, t2-fitting" 8.6 T "resistive, WHH fitting" 2.2 A from Hc2 122 A G-L theory using Hc1 2767 mJ/mol.K2 18 SP-heat 352 SP-heat "powder mixture(Cd:C:Ni=1.1:1:3) - BN cell - high pressure synthesis(900C,3.5 GPa, 1h) - SIN(900-1100C, 3.5 GPa, 0.5-1.0 h)" Superconducting Properties of CdCNi3 2007 "Department of Physics, Faculty of Engineering, Yokohama National University, Hodogaya-ku, Yokohama 240-8501" "J.Phys.Soc.Jpn, 76(2007)034714"
42151 J076034714 "Tc decreases with increasing a. SP-heat measured for sample c(a = 3.846 A, Tc-2.5 K). G-L parameter = 32." CdCNi3 Cd1C1Ni3 Cd 1 C 1 Ni 3 2007 CaTiO3 A 3.845 K 2.8 2.8 2.8 mT "M-H curve, t2-fitting" 3.6 T "resistive, WHH fitting" 1.8 A from Hc2 135 A G-L theory using Hc1 4276 mJ/mol.K2 18 SP-heat 352 SP-heat "powder mixture(Cd:C:Ni=1.1:1:3) - BN cell - high pressure synthesis(900C,3.5 GPa, 1h) - SIN(900-1100C, 3.5 GPa, 0.5-1.0 h)" Superconducting Properties of CdCNi3 2007 "Department of Physics, Faculty of Engineering, Yokohama National University, Hodogaya-ku, Yokohama 240-8501" "J.Phys.Soc.Jpn, 76(2007)034714"
42152 P073245106 not SC GaCNi3 Ga1C1Ni3 Ga 1 C 1 Ni 3 2006 emu/mol 0.0039 emh.K/mol 0.21 -19.1 CaTiO3 A 3.604 K 2 mJ/mol.K2 25.3 SP-heat 448 SP-heat Strong electron-electron correlation in the antiperovskite compound GaCNi3 2006 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 73(2006)245106"
42153 J076044708 "RRR=100, Rn=0.40 uOhm.cm for J//[110]. RRR=110, Rn=0.48 uOhm.cm for J//[001]. (dC/gamma*Tc) = 0.8" LaIrSi3 La1Ir1Si3 La 1 Ir 1 Si 3 3 2007 BaNiSn3 K 0.77 0.77 mJ/mol.K2 4.5 SP-heat 225 SP-heat Magnetic and Superconducting Properties of LaIrSi3 and CeIrSi3 with the Non-centrosymmetric Crystal Structure 2007 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043" "J.Phys.Soc.Jpn, 76(2007)044708"
42154 J076044708 "P-induced SC. SC properties measured at 2.65 GPa. RRR=200, Rn=0.71 uOhm.cm, for J//[110]. RRR=130, Rn=1.03 uOhm.cm, Tc = 1.62 K, Hc=9.5 T, (-(dHc2/dT) = 13.0 T/K for J//[001]." CeIrSi3 Ce1Ir1Si3 Ce 1 Ir 1 Si 3 3 2007 5 BaNiSn3 K 1.59 0 1.59 T 30 T/K 20 MHC42154 Magnetic and Superconducting Properties of LaIrSi3 and CeIrSi3 with the Non-centrosymmetric Crystal Structure 2007 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043" "J.Phys.Soc.Jpn, 76(2007)044708"
42155 J076044708 "Ce(Ir,Co)Si3" Ce1Ir0.8Co0.2Si3 Ce 1 Ir 0.8 Co 0.2 Si 3 2007 4 BaNiSn3 K 0.62 0.62 T 4.2 MHC42155 "arc-melting, then ANN(900C)" Magnetic and Superconducting Properties of LaIrSi3 and CeIrSi3 with the Non-centrosymmetric Crystal Structure 2007 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043" "J.Phys.Soc.Jpn, 76(2007)044708"
42156 J076044708 not single phase. lattice parameter shows x=0.2 from Vegard's law. "Ce(Ir,Co)Si3" Ce1Ir0.65Co0.35Si3 Ce 1 Ir 0.65 Co 0.35 Si 3 2007 0 BaNiSn3 A 4.221 9.766 K 0.75 0.75 T 5.2 T/K 15 MHC42155 "arc-melting, then ANN(900C)" Magnetic and Superconducting Properties of LaIrSi3 and CeIrSi3 with the Non-centrosymmetric Crystal Structure 2007 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043" "J.Phys.Soc.Jpn, 76(2007)044708"
42157 SNM0200249 tetermination of O-content not given. Tc shows Tc(max). RbxWO3 Rb0.19W1O3.001 Rb 0.19 W 1 O 3 3.001 2007 bronze P63/mcm hexagonal K 5.02 5.02 "Rb2WO4,WO3,W" "mixture - pellet - sealed in vac - heat(650C,5h) - heat(850C,15h)" Effect of Oxygen Concentration on Superconducting Properties of Rubidium Tungsten Bronzes RbxWOy 2007 "Department of Physics, Tamkang University, Tamsui 251, Taiwan, ROC." "J.Supercond.Nov. Magn., 2(2007)249"
42158 SNM0200249 tetermination of O-content not given. Tc shows Tc(max). RbxWO3 Rb0.23W1O3.05 Rb 0.23 W 1 O 3 3.05 2007 bronze P63/mcm hexagonal K 5.01 5.01 "Rb2WO4,WO3,W" "mixture - pellet - sealed in vac - heat(650C,5h) - heat(850C,15h)" Effect of Oxygen Concentration on Superconducting Properties of Rubidium Tungsten Bronzes RbxWOy 2007 "Department of Physics, Tamkang University, Tamsui 251, Taiwan, ROC." "J.Supercond.Nov. Magn., 2(2007)249"
42159 SNM0200249 tetermination of O-content not given. Tc shows Tc(max). RbxWO3 Rb0.27W1O2.93 Rb 0.27 W 1 O 3 2.93 2007 bronze P63/mcm hexagonal K 3 3 "Rb2WO4,WO3,W" "mixture - pellet - sealed in vac - heat(650C,5h) - heat(850C,15h)" Effect of Oxygen Concentration on Superconducting Properties of Rubidium Tungsten Bronzes RbxWOy 2007 "Department of Physics, Tamkang University, Tamsui 251, Taiwan, ROC." "J.Supercond.Nov. Magn., 2(2007)249"
42160 C019016218 Tc(SP) = 3.61K. Hc(0) = 16.9 mT calculated from SP-heat data. (dC/gamma*Tc) = 1.46. G-L parameter = 34.1 La6ZnSb15 La6Zn1Sb15 La 6 Zn 1 Sb 15 1 2007 La6MnSb15 Imm2 A 15.37 19.42 4.361 K 3.65 3.74 3.85 3.74 19.2 Oe calculate using Hc(0) 12.3 T resistive 0.81 MHC42160 A calculate using Hc(0) 201 A calculate using Hc(0) 6850 3.09 14 "powder of La,Zn,Sb" "mixture - pellet - sealed in quartz tube(vac) - heat(600C,3h) - heat(600-900C,100h), several times." Superconductivity in the ternary antimonide La6ZnSb15 2007 "Division of Chemistry, Graduate School of Science, Hokkaido University, Sapporo 060-0810, Japan" J. Phys.: Condens. Matter 19 (2007) 016218
42161 C019176230 Thermal expansion coefficient measured. CuxTiSe2 Cu0.06Ti2Se2 Cu 0.06 Ti 2 Se 2 1 2007 K 2 2 MTC42161 K/GPa 0.54 two step solid state reaction Thermal expansion and effect of pressure on superconductivity in CuxTiSe2 2007 "Ames Laboratory US DOE and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J. Phys.: Condens. Matter, 19(2007)176230"
42162 C019176230 Thermal expansion coefficient measured. CuxTiSe2 Cu0.08Ti2Se2 Cu 0.08 Ti 2 Se 2 1 2007 K 3.95 3.95 MTC42161 two step solid state reaction Thermal expansion and effect of pressure on superconductivity in CuxTiSe2 2007 "Ames Laboratory US DOE and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J. Phys.: Condens. Matter, 19(2007)176230"
42163 C019176230 Thermal expansion coefficient measured. CuxTiSe2 Cu0.1Ti2Se2 Cu 0.1 Ti 2 Se 2 1 2007 K 2.95 2.95 MTC42161 K/GPa -0.18 two step solid state reaction Thermal expansion and effect of pressure on superconductivity in CuxTiSe2 2007 "Ames Laboratory US DOE and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J. Phys.: Condens. Matter, 19(2007)176230"
42164 C019186225 magnetic hysteresis loops were measured. "RuSr2(Gd,Ce)2Cu2O10-z" Ru1Sr2Gd1.5Ce0.5Cu2O10-z Ru 1 Sr 2 Gd 1.5 Ce 0.5 Cu 2 O 10-z 1 2007 Ru1222 A 3.835 28.573 K 25 25 "mixture - pellet - CAL(1000, 1020, 1040 C for 24h) - ANN(1075C,40h, in O2-flow) - (slow cool to RT) - ANN(400C,24h, in O2-flow)" Superconducting and magnetic behaviour of niobium doped RuSr2Gd1.5Ce0.5Cu2O10-z 2007 "Departamento de F?sica, UFSCar, Sao Carlos?SP, 13565-905, Brazil" "J. Phys.: Condens. Matter, 19(2007)186225"
42165 C019186225 magnetic hysteresis loops were measured. "(Ru,Nb)Sr2(Gd,Ce)2Cu2O10-z" Ru0.9Nb0.1Sr2Gd1.5Ce0.5Cu2O10-z Ru 0.9 Nb 0.1 Sr 2 Gd 1.5 Ce 0.5 Cu 2 O 10-z 1 2007 Ru1222 K 28.1 26.8 26.8 "mixture - pellet - CAL(1000, 1020, 1040 C for 24h) - ANN(1075C,40h, in O2-flow) - (slow cool to RT) - ANN(400C,24h, in O2-flow)" Superconducting and magnetic behaviour of niobium doped RuSr2Gd1.5Ce0.5Cu2O10-z 2007 "Departamento de F?sica, UFSCar, Sao Carlos?SP, 13565-905, Brazil" "J. Phys.: Condens. Matter, 19(2007)186225"
42166 C019186225 magnetic hysteresis loops were measured. "(Ru,Nb)Sr2(Gd,Ce)2Cu2O10-z" Ru0.8Nb0.2Sr2Gd1.5Ce0.5Cu2O10-z Ru 0.8 Nb 0.2 Sr 2 Gd 1.5 Ce 0.5 Cu 2 O 10-z 1 2007 Ru1222 K 28.9 28 28 "mixture - pellet - CAL(1000, 1020, 1040 C for 24h) - ANN(1075C,40h, in O2-flow) - (slow cool to RT) - ANN(400C,24h, in O2-flow)" Superconducting and magnetic behaviour of niobium doped RuSr2Gd1.5Ce0.5Cu2O10-z 2007 "Departamento de F?sica, UFSCar, Sao Carlos?SP, 13565-905, Brazil" "J. Phys.: Condens. Matter, 19(2007)186225"
42167 C019186225 magnetic hysteresis loops were measured. "(Ru,Nb)Sr2(Gd,Ce)2Cu2O10-z" Ru0.7Nb0.3Sr2Gd1.5Ce0.5Cu2O10-z Ru 0.7 Nb 0.3 Sr 2 Gd 1.5 Ce 0.5 Cu 2 O 10-z 1 2007 Ru1222 K 28.4 27.4 27.4 "mixture - pellet - CAL(1000, 1020, 1040 C for 24h) - ANN(1075C,40h, in O2-flow) - (slow cool to RT) - ANN(400C,24h, in O2-flow)" Superconducting and magnetic behaviour of niobium doped RuSr2Gd1.5Ce0.5Cu2O10-z 2007 "Departamento de F?sica, UFSCar, Sao Carlos?SP, 13565-905, Brazil" "J. Phys.: Condens. Matter, 19(2007)186225"
42168 C019186225 magnetic hysteresis loops were measured. "(Ru,Nb)Sr2(Gd,Ce)2Cu2O10-z" Ru0.6Nb0.4Sr2Gd1.5Ce0.5Cu2O10-z Ru 0.6 Nb 0.4 Sr 2 Gd 1.5 Ce 0.5 Cu 2 O 10-z 1 2007 Ru1222 K 27.8 27 27 "mixture - pellet - CAL(1000, 1020, 1040 C for 24h) - ANN(1075C,40h, in O2-flow) - (slow cool to RT) - ANN(400C,24h, in O2-flow)" Superconducting and magnetic behaviour of niobium doped RuSr2Gd1.5Ce0.5Cu2O10-z 2007 "Departamento de F?sica, UFSCar, Sao Carlos?SP, 13565-905, Brazil" "J. Phys.: Condens. Matter, 19(2007)186225"
42169 C019186225 magnetic hysteresis loops were measured. "(Ru,Nb)Sr2(Gd,Ce)2Cu2O10-z" Ru0.5Nb0.5Sr2Gd1.5Ce0.5Cu2O10-z Ru 0.5 Nb 0.5 Sr 2 Gd 1.5 Ce 0.5 Cu 2 O 10-z 1 2007 Ru1222 A 3.851 28.715 K 26 25.7 25.7 "mixture - pellet - CAL(1000, 1020, 1040 C for 24h) - ANN(1075C,40h, in O2-flow) - (slow cool to RT) - ANN(400C,24h, in O2-flow)" Superconducting and magnetic behaviour of niobium doped RuSr2Gd1.5Ce0.5Cu2O10-z 2007 "Departamento de F?sica, UFSCar, Sao Carlos?SP, 13565-905, Brazil" "J. Phys.: Condens. Matter, 19(2007)186225"
42170 J076054701 O-content by thermogravimetry "(Cu,C)Ba2Ca4Cu5Oz" C0.3Ba2Ca4Cu5.7O12.8 C 0.3 Ba 2 Ca 4 Cu 5.7 O z 12.8 1 2007 "(Cu,C)1245" K 99 99 TC42170 "ANN(RT-600C, N2-flow(200cm3/min)" "Unconventional Variation of Tc in the Multilayered Cuprate Superconductor (Cu,C)Ba2Ca4Cu5Oy" 2007 "Department of Physics, Faculty of Science and Technology, Tokyo University of Science, 2641 Yamazaki, Noda, Chiba 278-8510" "J.Phys.Soc.Jpn, 76(2007)054701"
42171 J076054701 O-content by thermogravimetry "(Cu,C)Ba2Ca4Cu5Oz" C0.3Ba2Ca4Cu5.7O12.965 C 0.3 Ba 2 Ca 4 Cu 5.7 O z 12.965 1 2007 "(Cu,C)1245" K 93.3 93.3 TC42170 "ANN(RT-600C, N2-flow(200cm3/min)" "Unconventional Variation of Tc in the Multilayered Cuprate Superconductor (Cu,C)Ba2Ca4Cu5Oy" 2007 "Department of Physics, Faculty of Science and Technology, Tokyo University of Science, 2641 Yamazaki, Noda, Chiba 278-8510" "J.Phys.Soc.Jpn, 76(2007)054701"
43000 SCI1740493 "M =ammonia. reaction(80C,3d )." (M)NbS2 M1Nb1S2 M 1 Nb 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 2 2 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43001 SCI1740493 "M = pyridine. reaction(200C,30d )." (M)0.5NbS2 M0.5Nb1S2 M 0.5 Nb 1 S 2 1971 layered TX2 3.34 "hexagonal, 2H-TaS2" K 4 4 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43002 SCI1740493 "M = s-collidine. reaction(200C,23d )." (M)0.167NbS2 M0.167Nb1S2 M 0.167 Nb 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 3.5 3.5 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43003 SCI1740493 "M = aniline. reaction(170C,23d )." (M)NbS2 M1Nb1S2 M 1 Nb 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 4 4 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43004 SCI1740493 "M =tributylphosphine . reaction(200C,30d )." (M)0.125 M0.125Nb1S2 M 0.125 Nb 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 3.5 3.5 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43005 SCI1740493 "M = ammonia. reaction(25C,3d )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.328 "hexagonal, 2H-TaS2" K 42 42 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43006 SCI1740493 "M = ammonium acetate. reaction(150C,1h )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.33 "hexagonal, 2H-TaS2" K 2 2 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43007 SCI1740493 "M = amylamine . reaction(25C,30d )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 K 2.2 2.2 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43008 SCI1740493 "M = aniline. reaction(150C,16d )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 3.1 3.1 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43009 SCI1740493 "M = aniline. reaction(150C,16d )." (M)0.75TaS2 M0.75Ta1S2 M 0.75 Ta 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 2.5 2.5 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43010 SCI1740493 "M = butyramine . reaction(25C,30d )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 3.1 3.1 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43011 SCI1740493 "M =butyramide . reaction(150C,21d )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 3.1 3.1 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43012 SCI1740493 M = s-collidine. reaction(160C13d ). (M)0.167TaS2 M0.167Nb1S2 M 0.167 Nb 1 S 2 1971 layered TX2 3.319 "hexagonal, 2H-TaS2" K 2 2 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43013 SCI1740493 "M = 4,4'-dipyridyl. reaction(160C,21d )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.316 "hexagonal, 2H-TaS2" K 2.5 2.5 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43014 SCI1740493 "M = ethylamine. reaction(25C,30d )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.334 "hexagonal, 2H-TaS2" K 3.3 3.3 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43015 SCI1740493 "M = hexanamide. reaction(150C,21d )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 3.1 3.1 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43016 SCI1740493 "M =hydrazine . reaction(10C,10min )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.334 "hexagonal, 2H-TaS2" K 4.7 4.7 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43017 SCI1740493 "M = isoquinoline. reaction(160C,28d )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 2.5 2.5 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43018 SCI1740493 "M =LiOH . reaction(25C,30min )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.33 "hexagonal, 2H-TaS2" K 4.5 4.5 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43019 SCI1740493 "M = NH4OH . reaction(25C,30min )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.326 "hexagonal, 2H-TaS2" K 3.3 3.3 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43020 SCI1740493 M = methylamine. reaction(25C30d ). (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.329 "hexagonal, 2H-TaS2" K 4.2 4.2 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43021 SCI1740493 "M = octadecylamine. reaction( 40C,30d)." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 3 3 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43022 SCI1740493 "M =pentadecylamine . reaction(25C,30d )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.328 "hexagonal, 2H-TaS2" K 2.8 2.8 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43023 SCI1740493 "M = p-phenylenediamine. reaction(140C,4h )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.318 "hexagonal, 2H-TaS2" K 3.3 3.3 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43024 SCI1740493 "M = p-phenylenediamine. reaction(140C,4h )." (M)0.25TaS2 M0.25Ta1S2 M 0.25 Ta 1 S 2 1971 layered TX2 3.318 "hexagonal, 2H-TaS2" K 2.9 2.9 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43025 SCI1740493 "M = potassium formate. reaction(200C,1h )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.334 "hexagonal, 2H-TaS2" K 4.7 4.7 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43026 SCI1740493 "M = propylamine. reaction(25C,30d )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.33 "hexagonal, 2H-TaS2" K 3 3 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43027 SCI1740493 "M = pyridine-N-oxide. reaction(100C,8h )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.335 "hexagonal, 2H-TaS2" K 2.5 2.5 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43028 SCI1740493 M = pyridine chloride. reaction(170C4d ). (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.329 "hexagonal, 2H-TaS2" K 3.1 3.1 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43029 SCI1740493 "M = quinoline. reaction(160C,16d )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 2.8 2.8 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43030 SCI1740493 "M = RbOH. reaction( 25C,30min)." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.325 "hexagonal, 2H-TaS2" K 4.3 4.3 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43031 SCI1740493 "M = septadecylamine. reaction(25C,30d )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 2.7 2.7 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43032 SCI1740493 "M = NaOH. reaction(25C,30min )." (NaOH)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.326 "hexagonal, 2H-TaS2" K 4.8 4.8 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43033 SCI1740493 M =stearamide . reaction(150C10d ). (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 3.1 3.1 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43034 SCI1740493 "M = tetradecylamine. reaction( 25C,30min)." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.325 "hexagonal, 2H-TaS2" K 2.4 2.4 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43035 SCI1740493 "M = N,N,N',N'-Tetramethyl-p-phenylenediamine. reaction(20013d )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.335 "hexagonal, 2H-TaS2" K 2.9 2.9 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43036 SCI1740493 "M = thiobenzamide. reaction(160C,8d )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 3.3 3.3 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43037 SCI1740493 "M = tributylamine. reaction(200C,7d )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 3 3 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43038 SCI1740493 "M = tributylphosphine . reaction(200C,115d )." (M)0.125TaS2 M0.125Ta1S2 M 0.125 Ta 1 S 2 1971 layered TX2 3.318 "hexagonal, 2H-TaS2" K 2 2 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43039 SCI1740493 "M = tridecylamine . reaction(25C,30d )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.322 "hexagonal, 2H-TaS2" K 2.5 2.5 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43040 SCI1740493 "M =triton B . reaction( 25C,30min)." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.331 "hexagonal, 2H-TaS2" K 5 5 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43041 SCI1740493 "M =valeramide . reaction(150C,21d )." (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 2.9 2.9 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43042 SCI1740493 M = s-collidine. "(M)0.17(Ta,W)S2" M0.17Ta0.8W0.2S2 M 0.17 Ta 0.8 W 0.2 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 2 2 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43043 SCI1740493 M = s-collidine. "(M)0.17(Ta,W)S2" M0.17Ta0.3W0.7S2 M 0.17 Ta 0.3 W 0.7 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 0.4 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43044 SCI1740493 M = ammonia. (M)TiS2 M1Ti1S2 M 1 Ti 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 0.3 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43045 SCI1740493 M = aniline. (M)TiS2 M1Ti1S2 M 1 Ti 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 0.3 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43046 SCI1740493 M = s-collidine. (M)0.17TiS2 M0.17Ti1S2 M 0.17 Ti 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 0.3 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43047 SCI1740493 M = pyridine. (M)0.5TiS2 M0.5Ti1S2 M 0.5 Ti 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 0.3 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43048 SCI1740493 M = tributylphosphine. (M)0.125TiS2 M0.125Ti1S2 M 0.125 Ti 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 0.3 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43049 SCI1740493 "M = N,N-dimethylaniline. reaction(170C,3d)" (M)TiS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 "hexagonal, 2H-TaS2" K 4.3 4.3 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43050 SCI1740493 "M = KOH. reaction( 25C,30min)." (M)TiS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.328 "hexagonal, 2H-TaS2" K 5.3 5.3 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43051 SCI1740493 "M = CsOH. reaction( 25C,30min)." (M)TiS2 M1Ta1S2 M 1 Ta 1 S 2 1971 layered TX2 3.33 "hexagonal, 2H-TaS2" K 3.8 3.8 Intercalation complexes of Lewis bases and layered sulfides: A large class of new superconductors 1971 "Science, 174(1971)493"
43060 JCP0553525 "M = pyridine . reaction (200C,1d )." (M)0.5TaS2 M0.5Ta1S2 M 0.5 Ta 1 S 2 1971 4.1 layered TX2 A 3.326 23.7 "hexagonal, 2H-TaS2" K 3.55 3.55 "2H-TaS2 was prepared by heating (950C,several days). Intercalation was done by heating 2H-TaS2 with organic compound under the conditions described in [comment]" Some superconducting intercalation complexes of TaS2 and substituted pyridines 1971 "Syva Research Institute,California" "J.Chem.Phys., 55(1971)3525"
43061 JCP0553525 "M = 2-aminopyridine . reaction (200C,11d )." (M)0.53TaS2 M0.53Ta1S2 M 0.53 Ta 1 S 2 1971 4.06 layered TX2 A 3.325 24.18 "hexagonal, 2H-TaS2" K 3.25 3.25 "2H-TaS2 was prepared by heating (950C,several days). Intercalation was done by heating 2H-TaS2 with organic compound under the conditions described in [comment]" Some superconducting intercalation complexes of TaS2 and substituted pyridines 1971 "Syva Research Institute,California" "J.Chem.Phys., 55(1971)3525"
43062 JCP0553525 "M = 4-aminopyridine . reaction (200C,11d )." (M)0.51TaS2 M0.51Ta1S2 M 0.51 Ta 1 S 2 1971 3.96 layered TX2 A 3.328 23.94 "hexagonal, 2H-TaS2" K 3.4 3.4 "2H-TaS2 was prepared by heating (950C,several days). Intercalation was done by heating 2H-TaS2 with organic compound under the conditions described in [comment]" Some superconducting intercalation complexes of TaS2 and substituted pyridines 1971 "Syva Research Institute,California" "J.Chem.Phys., 55(1971)3525"
43063 JCP0553525 "M = 2,6-diaminopyridine . reaction (160C,9d )." (M)0.53TaS2 M0.53Ta1S2 M 0.53 Ta 1 S 2 1971 3.72 layered TX2 A 28 "hexagonal, 2H-TaS2" K 3.5 3.5 "2H-TaS2 was prepared by heating (950C,several days). Intercalation was done by heating 2H-TaS2 with organic compound under the conditions described in [comment]" Some superconducting intercalation complexes of TaS2 and substituted pyridines 1971 "Syva Research Institute,California" "J.Chem.Phys., 55(1971)3525"
43064 JCP0553525 "M = 2-dimethylaminopyridine . reaction (160C,14d )." (M)0.32TaS2 M0.32Ta1S2 M 0.32 Ta 1 S 2 1971 4.04 layered TX2 A 3.323 23.88 "hexagonal, 2H-TaS2" K 3.15 3.15 "2H-TaS2 was prepared by heating (950C,several days). Intercalation was done by heating 2H-TaS2 with organic compound under the conditions described in [comment]" Some superconducting intercalation complexes of TaS2 and substituted pyridines 1971 "Syva Research Institute,California" "J.Chem.Phys., 55(1971)3525"
43065 JCP0553525 "M = 4-dimethylaminopyridine . reaction (160C,28d )." (M)0.34TaS2 M0.34Ta1S2 M 0.34 Ta 1 S 2 1971 3.99 layered TX2 A 3.323 24.5 "hexagonal, 2H-TaS2" K 2.3 2.3 "2H-TaS2 was prepared by heating (950C,several days). Intercalation was done by heating 2H-TaS2 with organic compound under the conditions described in [comment]" Some superconducting intercalation complexes of TaS2 and substituted pyridines 1971 "Syva Research Institute,California" "J.Chem.Phys., 55(1971)3525"
43066 JCP0553525 "M = 2-ethylpyridine . reaction ( 160C,10d)." (M)0.29TaS2 M0.29Ta1S2 M 0.29 Ta 1 S 2 1971 4.47 layered TX2 A 3.328 19.28 "hexagonal, 2H-TaS2" K 3 3 "2H-TaS2 was prepared by heating (950C,several days). Intercalation was done by heating 2H-TaS2 with organic compound under the conditions described in [comment]" Some superconducting intercalation complexes of TaS2 and substituted pyridines 1971 "Syva Research Institute,California" "J.Chem.Phys., 55(1971)3525"
43067 JCP0553525 "M = 3-ethylpyridine . reaction ( 160C,10d)." (M)0.29TaS2 M0.29Ta1S2 M 0.29 Ta 1 S 2 1971 4.15 layered TX2 A 3.315 22.68 "hexagonal, 2H-TaS2" K 4.5 4.5 "2H-TaS2 was prepared by heating (950C,several days). Intercalation was done by heating 2H-TaS2 with organic compound under the conditions described in [comment]" Some superconducting intercalation complexes of TaS2 and substituted pyridines 1971 "Syva Research Institute,California" "J.Chem.Phys., 55(1971)3525"
43068 JCP0553525 "M = 4-ethylpyridine . reaction ( 200C,11d)." (M)0.33TaS2 M0.33Ta1S2 M 0.33 Ta 1 S 2 1971 4.02 layered TX2 A 3.326 23.96 "hexagonal, 2H-TaS2" K 2.95 2.95 "2H-TaS2 was prepared by heating (950C,several days). Intercalation was done by heating 2H-TaS2 with organic compound under the conditions described in [comment]" Some superconducting intercalation complexes of TaS2 and substituted pyridines 1971 "Syva Research Institute,California" "J.Chem.Phys., 55(1971)3525"
43069 JCP0553525 "M = 2-isopropylpyridine . reaction (160C,10d )." (M)0.25TaS2 M0.25Ta1S2 M 0.25 Ta 1 S 2 1971 4.13 layered TX2 A 3.323 22.9 "hexagonal, 2H-TaS2" K 3.8 3.8 "2H-TaS2 was prepared by heating (950C,several days). Intercalation was done by heating 2H-TaS2 with organic compound under the conditions described in [comment]" Some superconducting intercalation complexes of TaS2 and substituted pyridines 1971 "Syva Research Institute,California" "J.Chem.Phys., 55(1971)3525"
43070 JCP0553525 "M = 4-isopropylpyridine . reaction (160C,10d )." (M)0.28TaS2 M0.28Ta1S2 M 0.28 Ta 1 S 2 1971 3.98 layered TX2 A 3.314 23.96 "hexagonal, 2H-TaS2" K 2.82 2.82 "2H-TaS2 was prepared by heating (950C,several days). Intercalation was done by heating 2H-TaS2 with organic compound under the conditions described in [comment]" Some superconducting intercalation complexes of TaS2 and substituted pyridines 1971 "Syva Research Institute,California" "J.Chem.Phys., 55(1971)3525"
43071 JCP0553525 "M = 2-methylpyridine. reaction (200C,7d )." (M)0.34TaS2 M0.34Ta1S2 M 0.34 Ta 1 S 2 1971 4.07 layered TX2 A 3.326 23.58 "hexagonal, 2H-TaS2" K 2.95 2.95 "2H-TaS2 was prepared by heating (950C,several days). Intercalation was done by heating 2H-TaS2 with organic compound under the conditions described in [comment]" Some superconducting intercalation complexes of TaS2 and substituted pyridines 1971 "Syva Research Institute,California" "J.Chem.Phys., 55(1971)3525"
43072 JCP0553525 "M = 3-methylpyridine. reaction (160C,25d )." (M)0.33TaS2 M0.33Ta1S2 M 0.33 Ta 1 S 2 1971 layered TX2 A 3.33 23.66 "hexagonal, 2H-TaS2" K 2.95 2.95 "2H-TaS2 was prepared by heating (950C,several days). Intercalation was done by heating 2H-TaS2 with organic compound under the conditions described in [comment]" Some superconducting intercalation complexes of TaS2 and substituted pyridines 1971 "Syva Research Institute,California" "J.Chem.Phys., 55(1971)3525"
43073 JCP0553525 "M = 4-methylpyridine. reaction (200C,7d )." (M)0.33TaS2 M0.33Ta1S2 M 0.33 Ta 1 S 2 1971 4.13 layered TX2 A 3.328 23.52 "hexagonal, 2H-TaS2" K 2.7 2.7 "2H-TaS2 was prepared by heating (950C,several days). Intercalation was done by heating 2H-TaS2 with organic compound under the conditions described in [comment]" Some superconducting intercalation complexes of TaS2 and substituted pyridines 1971 "Syva Research Institute,California" "J.Chem.Phys., 55(1971)3525"
43074 JCP0553525 "M = 2,6-dimethylpyridine . reaction ( 160C, 10d)." (M)0.2TaS2 M0.2Ta1S2 M 0.2 Ta 1 S 2 1971 4.75 layered TX2 A 3.32 19.18 "hexagonal, 2H-TaS2" K 2.15 2.15 "2H-TaS2 was prepared by heating (950C,several days). Intercalation was done by heating 2H-TaS2 with organic compound under the conditions described in [comment]" Some superconducting intercalation complexes of TaS2 and substituted pyridines 1971 "Syva Research Institute,California" "J.Chem.Phys., 55(1971)3525"
43075 JCP0553525 "M = 2,4,6-trimethylpyridine . reaction ( 160C, 6d)." (M)0.165TaS2 M0.165Ta1S2 M 0.165 Ta 1 S 2 1971 4.7 layered TX2 A 3.319 19.34 "hexagonal, 2H-TaS2" K 1.95 1.95 "2H-TaS2 was prepared by heating (950C,several days). Intercalation was done by heating 2H-TaS2 with organic compound under the conditions described in [comment]" Some superconducting intercalation complexes of TaS2 and substituted pyridines 1971 "Syva Research Institute,California" "J.Chem.Phys., 55(1971)3525"
43076 JCP0553525 "M = 2-phenylpyridine . reaction (160C,14d )." (M)0.255TaS2 M0.255Ta1S2 M 0.255 Ta 1 S 2 1971 4.11 layered TX2 A 3.328 23.84 "hexagonal, 2H-TaS2" K 3.15 3.15 "2H-TaS2 was prepared by heating (950C,several days). Intercalation was done by heating 2H-TaS2 with organic compound under the conditions described in [comment]" Some superconducting intercalation complexes of TaS2 and substituted pyridines 1971 "Syva Research Institute,California" "J.Chem.Phys., 55(1971)3525"
43077 JCP0553525 "M = 4-phenylpyridine . reaction (200C,35d )." (M)0.26TaS2 M0.26Ta1S2 M 0.26 Ta 1 S 2 1971 4.04 layered TX2 A 3.323 24.62 "hexagonal, 2H-TaS2" K 1.6 1.6 "2H-TaS2 was prepared by heating (950C,several days). Intercalation was done by heating 2H-TaS2 with organic compound under the conditions described in [comment]" Some superconducting intercalation complexes of TaS2 and substituted pyridines 1971 "Syva Research Institute,California" "J.Chem.Phys., 55(1971)3525"
43078 JCP0553525 "M = 2-propylpyridine . reaction (200C,5d )." (M)0.245TaS2 M0.245Ta1S2 M 0.245 Ta 1 S 2 1971 4.04 layered TX2 A 3.324 22.92 "hexagonal, 2H-TaS2" K 2.85 2.85 "2H-TaS2 was prepared by heating (950C,several days). Intercalation was done by heating 2H-TaS2 with organic compound under the conditions described in [comment]" Some superconducting intercalation complexes of TaS2 and substituted pyridines 1971 "Syva Research Institute,California" "J.Chem.Phys., 55(1971)3525"
43079 JCP0553525 "M = 4-propylpyridine . reaction (200C,5d )." (M)0.25TaS2 M0.25Ta1S2 M 0.25 Ta 1 S 2 1971 4.04 layered TX2 A 3.329 23.7 "hexagonal, 2H-TaS2" K 2.75 2.75 "2H-TaS2 was prepared by heating (950C,several days). Intercalation was done by heating 2H-TaS2 with organic compound under the conditions described in [comment]" Some superconducting intercalation complexes of TaS2 and substituted pyridines 1971 "Syva Research Institute,California" "J.Chem.Phys., 55(1971)3525"
43080 1262 M = pyridine. Hc2 measured at 1.1 K (t= (T/Tc) = 0.73) "(M)Ta(S,Se)2" M1Ta1S1Se1 M 1 Ta 1 S 1 Se 1 1973 layered TX2 "hexagonal, 2H-TaS2" K 1.5 1.5 kOe "resistive, linear" 19.1 2.6 1.1 Anisotropic superconductivity in layer compounds 1973 "PHYS.REV.B,7(1973)991"
43081 1262 M = pyridine. Hc2 measured at 1.4 K (t= (T/Tc) = 0.43). Hc2//ab > 150 kOe at 1.4 K. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1973 layered TX2 "hexagonal, 2H-TaS2" K 3.25 3.25 kOe "resistive, linear" 4.9 1.4 Anisotropic superconductivity in layer compounds 1973 "PHYS.REV.B,7(1973)991"
43083 1918 intercalated material = Srx(NH3)y. M=NH3 Sr0.05(M)0.01MoS2 Sr0.05M0.01Mo1S2 Sr 0.05 M 0.01 Mo 1 S 2 1974 layered TX2 "hexagonal, 2H-TaS2" K 5.1 5.1 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.SOLID STATE CHEM.,9(1974)323"
43084 1918 intercalated material = Srx(NH3)y. M=NH3 Sr0.17(M)0.4MoS2 Sr0.17M0.4Mo1S2 Sr 0.17 M 0.4 Mo 1 S 2 1974 layered TX2 "hexagonal, 2H-TaS2" K 4.9 4.9 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.SOLID STATE CHEM.,9(1974)323"
43085 1918 intercalated material = Srx(NH3)y. M=NH3 Sr0.14(M)0.42MoS2 Sr0.14M0.42Mo1S2 Sr 0.14 M 0.42 Mo 1 S 2 1974 layered TX2 "hexagonal, 2H-TaS2" K 5.1 5.1 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.SOLID STATE CHEM.,9(1974)323"
43086 1918 intercalated material = Srx(NH3)y. M=NH3 Sr0.19(M)0.54MoS2 Sr0.19M0.54Mo1S2 Sr 0.19 M 0.54 Mo 1 S 2 1974 layered TX2 "hexagonal, 2H-TaS2" K 5.2 5.2 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.SOLID STATE CHEM.,9(1974)323"
43087 1918 intercalated material = Srx(NH3)y. M=NH3. using 117micron powder MoS2. Sr0.73(M)0.99MoS2 Sr0.73M0.99Mo1S2 Sr 0.73 M 0.99 Mo 1 S 2 1974 layered TX2 "hexagonal, 2H-TaS2" K 5 5 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.SOLID STATE CHEM.,9(1974)323"
43088 1918 intercalated material = Srx(NH3)y. M=NH3. using 53 micron powder MoS2. Sr0.68(M)1.27MoS2 Sr0.68M1.27Mo1S2 Sr 0.68 M 1.27 Mo 1 S 2 1974 layered TX2 "hexagonal, 2H-TaS2" K 5 5 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.SOLID STATE CHEM.,9(1974)323"
43090 1918 intercalated material = Ybx(NH3)y. M=NH3 Yb0.1(M)0.16MoS2 Yb0.1M0.16Mo1S2 Yb 0.1 M 0.16 Mo 1 S 2 1974 layered TX2 "hexagonal, 2H-TaS2" K 2.4 2.4 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.SOLID STATE CHEM.,9(1974)323"
43091 1918 intercalated material = 0.2Ca(NH3)x. M = 0.2Ca(NH3)x (M)MoS2 M1Mo1S2 M 1 Mo 1 S 2 1974 layered TX2 "hexagonal, 2H-TaS2" K 3.6 3.6 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.SOLID STATE CHEM.,9(1974)323"
43092 1918 intercalated material = 0.2Ba(NH3)x. M = 0.2Ba(NH3)x (M)MoS2 M1Mo1S2 M 1 Mo 1 S 2 1974 layered TX2 "hexagonal, 2H-TaS2" K 5.7 5.7 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.SOLID STATE CHEM.,9(1974)323"
43093 1918 intercalated material = 0.2Sr(NH3)x. M = 0.2Sr(NH3)x (M)MoSe2 M1Mo1Se2 M 1 Mo 1 Se 2 1974 layered TX2 "hexagonal, 2H-TaS2" K 5 5 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.SOLID STATE CHEM.,9(1974)323"
43094 1918 intercalated material = 0.2Sr(NH3)x. M = 0.2Sr(NH3)x (M)WS2 M1W1S2 M 1 W 1 S 2 1974 layered TX2 "hexagonal, 2H-TaS2" K 3.5 3.5 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.SOLID STATE CHEM.,9(1974)323"
43095 1918 intercalated material = 0.4Yb(NH3)x. M = 0.4Yb(NH3)x (M)WS2 M1W1S2 M 1 W 1 S 2 1974 layered TX2 "hexagonal, 2H-TaS2" K 2.2 2.2 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.SOLID STATE CHEM.,9(1974)323"
43096 1918 intercalated material = 0.2Sr(NH3)x. M = 0.2Sr(NH3)x (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1974 layered TX2 "hexagonal, 2H-TaS2" K 2.8 2.8 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.SOLID STATE CHEM.,9(1974)323"
43097 CEM0090176 M=pyridine. 4H-phase. (Roberts REF#=1910) "(M)Ta(S,Se)2" M0.48Ta1S1.6Se0.4 M 0.48 Ta 1 S 1.6 Se 0.4 1974 layered TX2 A 24.06 "hexagonal, 2H-TaS2" K 2.8 2.8 Studies of the system TaS2-xSex 1974 "Stanford University, California" "J.Solid State Chem., 9(1974)176"
43098 MRB0140797 Li-intercalated . interlayer distance d = 642 pm. Li0.33TaS2 Li0.33Ta1S2 Li 0.33 Ta 1 S 2 1979 layered TX2 2H-TaS2 K 0.5 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43099 MRB0140797 Na-intercalated . interlayer distance d = 735 pm. Na0.33TaS2 Na0.33Ta1S2 Na 0.33 Ta 1 S 2 1979 layered TX2 2H-TaS2 K 4.7 4.7 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43100 MRB0140797 K-intercalated . interlayer distance d = 820 pm. K0.33TaS2 K0.33Ta1S2 K 0.33 Ta 1 S 2 1979 layered TX2 2H-TaS2 K 3.8 3.8 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43101 MRB0140797 Rb-intercalated . interlayer distance d = 860 pm. Rb0.33TaS2 Rb0.33Ta1S2 Rb 0.33 Ta 1 S 2 1979 layered TX2 2H-TaS2 K 3 3 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43102 MRB0140797 Cs-intercalated . interlayer distance d = 900 pm. Cs0.33TaS2 Cs0.33Ta1S2 Cs 0.33 Ta 1 S 2 1979 layered TX2 2H-TaS2 K 3.8 3.8 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43103 MRB0140797 M-intercalated . M = Li0.33(H2O)0.67. interlayer distance d = 897 pm. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1979 layered TX2 2H-TaS2 K 5.6 5.6 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43104 MRB0140797 M-intercalated . M = Na0.33(H2O)0.67. interlayer distance d = 898 pm. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1979 layered TX2 2H-TaS2 K 5.5 5.5 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43105 MRB0140797 M-intercalated . M = K0.33(H2O)0.67. interlayer distance d = 897 pm. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1979 layered TX2 2H-TaS2 K 5.6 5.6 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43106 MRB0140797 M-intercalated . M = Rb0.33(H2O)0.67. interlayer distance d = 899 pm. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1979 layered TX2 2H-TaS2 K 5.5 5.5 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43107 MRB0140797 M-intercalated . M = Cs0.33(H2O)0.67. interlayer distance d = 920 pm. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1979 layered TX2 2H-TaS2 K 2.8 2.8 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43108 MRB0140797 M-intercalated . M = Li0.33(H2O)1.7. interlayer distance d = 1165 pm. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1979 layered TX2 2H-TaS2 K 5.3 5.3 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43109 MRB0140797 M-intercalated . M = Na0.33(H2O)1.7. interlayer distance d = 1182 pm. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1979 layered TX2 2H-TaS2 K 5.2 5.2 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43110 MRB0140797 M-intercalated . M = Na0.33(NMF)y. NMF = N-methylformamide. NMF content (y) not given. interlayer distance d = 1890 pm. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1979 layered TX2 2H-TaS2 K 4.6 4.6 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43111 MRB0140797 M-intercalated . M = K0.33(NMF)y. NMF = N-methylformamide. NMF content (y) not given. interlayer distance d = 1730 pm. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1979 layered TX2 2H-TaS2 K 4.6 4.6 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43112 MRB0140797 M-intercalated . M = Rb0.33(NMF)y. NMF = N-methylformamide. NMF content (y) not given. interlayer distance d = 1740 pm. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1979 layered TX2 2H-TaS2 K 4.6 4.6 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43113 MRB0140797 M-intercalated . M = Cs0.33(NMF)y. NMF = N-methylformamide. NMF content (y) not given. interlayer distance d = 1750 pm. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1979 layered TX2 2H-TaS2 K 4.6 4.6 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43114 MRB0140797 Li-intercalated . interlayer distance d = 643 pm. (Li)NbS2 Li0.5Nb1S2 Li 0.5 Nb 1 S 2 1979 layered TX2 2H-TaS2 K 0.5 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43115 MRB0140797 Na-intercalated . interlayer distance d = 736 pm. (Na)NbS2 Na0.5Nb1S2 Na 0.5 Nb 1 S 2 1979 layered TX2 2H-TaS2 K 1.3 1.3 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43116 MRB0140797 K-intercalated . interlayer distance d = 820 pm. (K)NbS2 K0.5Nb1S2 K 0.5 Nb 1 S 2 1979 layered TX2 2H-TaS2 K 1.7 1.7 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43117 MRB0140797 Rb-intercalated . interlayer distance d = 850 pm. (Rb)NbS2 Rb0.5Nb1S2 Rb 0.5 Nb 1 S 2 1979 layered TX2 2H-TaS2 K 1.8 1.8 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43118 MRB0140797 Cs-intercalated . interlayer distance d = 890 pm. (Cs)NbS2 Cs0.5Nb1S2 Cs 0.5 Nb 1 S 2 1979 layered TX2 2H-TaS2 K 2.8 2.8 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43119 MRB0140797 M-intercalated . M = Li0.5(H2O)y. H2O content y not given. interlayer distance d = 897 pm. (M)NbS2 M1Nb1S2 M 1 Nb 1 S 2 1979 layered TX2 2H-TaS2 K 2.9 2.9 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43120 MRB0140797 M-intercalated . M = Na0.5(H2O)y. H2O content y not given. interlayer distance d = 897 pm. (M)NbS2 M1Nb1S2 M 1 Nb 1 S 2 1979 layered TX2 2H-TaS2 K 3.1 3.1 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43121 MRB0140797 M-intercalated . M = K0.5(H2O)y. H2O content y not given. interlayer distance d = 891 pm. (M)NbS2 M1Nb1S2 M 1 Nb 1 S 2 1979 layered TX2 2H-TaS2 K 3 3 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43122 MRB0140797 M-intercalated . M = Rb0.5(H2O)y. H2O content y not given. interlayer distance d = 900 pm. (M)NbS2 M1Nb1S2 M 1 Nb 1 S 2 1979 layered TX2 2H-TaS2 K 2.9 2.9 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43123 MRB0140797 M-intercalated . M = Cs0.5(H2O)y. H2O content y not given. interlayer distance d = 922 pm. (M)NbS2 M1Nb1S2 M 1 Nb 1 S 2 1979 layered TX2 2H-TaS2 K 2.5 2.5 Superconductivity in layered ternary chalcogenides AxTaS2 and AxNbS2 and influence of topotactic solvation 1979 "Mat.Res.Bull. , 14(1979)797"
43124 1871 H-intercalated. lattice term coeff. of SP: (beta) = 0.54 mJ/mol.K4. (dC/gamma*Tc) = 2.2. HxTaS2 H0.1Ta1S2 H 0.1 Ta 1 S 2 1975 layered TX2 2H-TaS2 K 3.9 3.9 mJ/mol.K2 8.9 SP-heat electrolysis using Pt anode Properties of HxTaS2: Correlation between the superconducting Tc and an electronic instability in layer compounds 1975 "J.CHEM.PHYS.,62(1975)967"
43125 SCI1680568 M-intercalated. M = pyridine. Tc = 0.7 K for H//c-axis. (M)0.5TaS2 M0.5Ta1S2 M 0.5 Ta 1 S 2 1970 layered TX2 K 3.5 3.5 "heat(Ta,S) in evacuated quartz tube at 900C,several days" Superconductivity in layered structure organometallic crystals 1970 "Science, 168(1970)568"
43126 1262 M-intercalated. M = pyridine. anisotropy (Hc2) = 7 (M)TaSSe M1Ta1S1Se1 M 1 Ta 1 S 1 Se 1 1973 layered TX2 K 1.5 1.5 kOe 19.1 2.6 1.1 Anisotropic superconductivity in layer compounds 1973 "PHYS.REV.B,7(1973)991"
43127 1262 M-intercalated. M = pyridine. Hc2//a > 66 kOe at 2.0 K. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1973 layered TX2 K 3.25 3.25 1.4 2 Anisotropic superconductivity in layer compounds 1973 "PHYS.REV.B,7(1973)991"
43128 JPS0630658 M-intercalated. M = (LaS). TP300 shows TP at 280 K. R not zero at 1.2 K for stage-I. (M)NbS2 M1.2Nb1S2 M 1.2 Nb 1 S 2 1994 emu/mol-La 0.000016 -0.67 layered TX2 A 5.857 K 4.3 2.2 2.2 uV/K 46 "Electrical transport properties of incommensurate layer compounds (RES)xNbS2 (RE=rare-earth metals; x = 1.2, 0.6)" 1994 "Department of Chemistry, Faculty of Science, Kyoto University,Japan" "J.Phys.Soc.Jpn, 63(1994)658"
43129 JPS0630658 M-intercalated. M = (CeS). stage-I structure. TP300 shows TP at 280 K. RES(a) = 330 uOhm.cm at 294 K. RES(b) = 323 uOhm.cm at 285 K. (M)NbS2 M1.2Nb1S2 M 1.2 Nb 1 S 2 1994 layered TX2 A 5.777 K 2.5 2.5 uV/K 39 "Electrical transport properties of incommensurate layer compounds (RES)xNbS2 (RE=rare-earth metals; x = 1.2, 0.6)" 1994 "Department of Chemistry, Faculty of Science, Kyoto University,Japan" "J.Phys.Soc.Jpn, 63(1994)658"
43130 MRB0091597 M-intercalated. M = Li0.3(H2O)y. H2O content y not given. thermodynamical critical field Hc(0) = 170 Oe determined from magnetization. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1974 layered TX2 A 3.33 23.42 K 3.83 3.83 hydration of AxTaS2 with water. Superconductivity in hydrated ternary tantalum sulfided 1974 "Mat.Res.Bull. , 9(1974)1597"
43131 MRB0091597 M-intercalated. M = Na0.3(H2O)y. H2O content y not given. thermodynamical critical field Hc(0) = 250 Oe determined from magnetization. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1974 layered TX2 A 3.33 23.63 K 5.41 5.41 hydration of AxTaS2 with water. Superconductivity in hydrated ternary tantalum sulfided 1974 "Mat.Res.Bull. , 9(1974)1597"
43132 MRB0091597 M-intercalated. M = K0.3(H2O)y. H2O content y not given. thermodynamical critical field Hc(0) = 230 Oe determined from magnetization. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1974 layered TX2 A 3.35 18.18 K 5.25 5.25 hydration of AxTaS2 with water. Superconductivity in hydrated ternary tantalum sulfided 1974 "Mat.Res.Bull. , 9(1974)1597"
43133 MRB0091597 M-intercalated. M = Rb0.3(H2O)y. H2O content y not given. thermodynamical critical field Hc(0) = 210 Oe determined from magnetization. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1974 layered TX2 A 3.33 18.18 K 4.4 4.4 hydration of AxTaS2 with water. Superconductivity in hydrated ternary tantalum sulfided 1974 "Mat.Res.Bull. , 9(1974)1597"
43134 MRB0091597 M-intercalated. M = Cs0.3(H2O)y. H2O content y not given. thermodynamical critical field Hc(0) = 110 Oe determined from magnetization. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1974 layered TX2 A 3.34 19.01 K 2.75 2.75 hydration of AxTaS2 with water. Superconductivity in hydrated ternary tantalum sulfided 1974 "Mat.Res.Bull. , 9(1974)1597"
43135 MRB0091597 M-intercalated. M = Ca0.3(H2)y. H2O content y not given. thermodynamical critical field Hc(0) = 130 Oe determined from magnetization. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1974 layered TX2 A 3.33 23.76 K 3.47 3.47 hydration of AxTaS2 with water. Superconductivity in hydrated ternary tantalum sulfided 1974 "Mat.Res.Bull. , 9(1974)1597"
43136 MRB0091597 M-intercalated. M = Sr0.3(H2)y. H2O content y not given. thermodynamical critical field Hc(0) = 190 Oe determined from magnetization. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1974 layered TX2 A 3.32 23.75 K 4.03 4.03 hydration of AxTaS2 with water. Superconductivity in hydrated ternary tantalum sulfided 1974 "Mat.Res.Bull. , 9(1974)1597"
43137 MRB0091597 M-intercalated. M = Ba0.3(H2)y. H2O content y not given. thermodynamical critical field Hc(0) = 150 Oe determined from magnetization. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 1974 layered TX2 A 3.32 23.98 K 3.74 3.74 hydration of AxTaS2 with water. Superconductivity in hydrated ternary tantalum sulfided 1974 "Mat.Res.Bull. , 9(1974)1597"
43138 JCP0621068 Ca-intercalated. Ca-content not known (0.05=< x =<0.07). (Ca)xMoS2 Ca0.6Mo1S2 Ca 0.6 Mo 1 S 2 1975 3 TX2 A 8.894 9.869 18.64 2H-MoS2 K 4 4 kOe 50 7 intercalation was done by placing MoS2 into a solution of alkaline earth metal in liquid ammonia at -70C for 3days. The alkaline earth intercalates of molybdenum disulfide 1975 "J.Chem.Phys., 62(1975)1068"
43139 JCP0621068 Sr-intercalated. Sr-content not known (0.06=< x =<0.1). (Sr)xMoS2 Sr0.8Mo1S2 Sr 0.8 Mo 1 S 2 1975 2 TX2 A 10.396 18.62 2H-MoS2 K 5.6 5.6 kOe 35 12 intercalation was done by placing MoS2 into a solution of alkaline earth metal in liquid ammonia at -70C for 3days. The alkaline earth intercalates of molybdenum disulfide 1975 "J.Chem.Phys., 62(1975)1068"
50000 PR0163925 glass temperature = 598 K. e-ph coupling = 1.5 . Zr1-xBex Be30Zr70 Be 30 Zr 70 1977 5.72 AMOR K 2.8 0.01 2.8 T/K 2.38 MHC50000 A 71 uOhm.cm 294 "liquid quenching (10E+5 K/s), 30 um thick ribbon." Superconducting properties of Be-Zr glassy alloys obtained by liquid quenching 1977 "Material Research Centere, Allied Chemical Corporation, Morristown, New Jersey" "Phys.Rev.B, 16(1977)3925"
50001 PR0163925 glass temperature = 613 K. e-ph coupling = 1.2 . Zr1-xBex Be35Zr65 Be 35 Zr 65 1977 5.65 AMOR K 2.6 0.08 2.6 T/K 1.7 MHC50000 uOhm.cm 231.9 "liquid quenching (10E+5 K/s), 30 um thick ribbon." Superconducting properties of Be-Zr glassy alloys obtained by liquid quenching 1977 "Material Research Centere, Allied Chemical Corporation, Morristown, New Jersey" "Phys.Rev.B, 16(1977)3925"
50002 PR0163925 glass temperature = 623 K. e-ph coupling = 1.2 . Zr1-xBex Be40Zr60 Be 40 Zr 60 1977 5.55 AMOR K 2.1 0.01 2.1 T/K 2 MHC50000 uOhm.cm 282.1 "liquid quenching (10E+5 K/s), 30 um thick ribbon." Superconducting properties of Be-Zr glassy alloys obtained by liquid quenching 1977 "Material Research Centere, Allied Chemical Corporation, Morristown, New Jersey" "Phys.Rev.B, 16(1977)3925"
50003 PR0163925 glass temperature = 648 K. Zr1-xBex Be45Zr55 Be 45 Zr 55 1977 5.35 AMOR K 1 uOhm.cm 281.2 "liquid quenching (10E+5 K/s), 30 um thick ribbon." Superconducting properties of Be-Zr glassy alloys obtained by liquid quenching 1977 "Material Research Centere, Allied Chemical Corporation, Morristown, New Jersey" "Phys.Rev.B, 16(1977)3925"
50004 PR0180206 "(Mo,Ru)0.8P0.2" Mo64Ru16P20 Mo 64 Ru 16 P 20 1978 AMOR K 7.31 7.31 T/K 2.45 MHC50004 uOhm.cm 300 melt(1100C) - rapid quench. foil thickness = 60 um. "Superconductivity, magnetic susceptibility, and electronic properties of amorphous (Mo1-xRux)80P20 alloys obtained liquid quenching" 1978 "W.M.Keck Laboratory of Engineering Materials, California Institute of Technology, Pasadena, California" "Phys.Rev.B, 18(1978)206"
50005 PR0180206 "(Mo,Ru)0.8P0.2" Mo48Ru32P20 Mo 48 Ru 32 P 20 1978 AMOR K 6.18 6.18 T/K 2.55 MHC50004 uOhm.cm 300 melt(1100C) - rapid quench. foil thickness = 60 um. "Superconductivity, magnetic susceptibility, and electronic properties of amorphous (Mo1-xRux)80P20 alloys obtained liquid quenching" 1978 "W.M.Keck Laboratory of Engineering Materials, California Institute of Technology, Pasadena, California" "Phys.Rev.B, 18(1978)206"
50006 PR0180206 "(Mo,Ru)0.8P0.2" Mo32Ru48P20 Mo 32 Ru 48 P 20 1978 AMOR K 4.68 4.68 T/K 2.68 MHC50006 uOhm.cm 330 melt(1100C) - rapid quench. foil thickness = 60 um. "Superconductivity, magnetic susceptibility, and electronic properties of amorphous (Mo1-xRux)80P20 alloys obtained liquid quenching" 1978 "W.M.Keck Laboratory of Engineering Materials, California Institute of Technology, Pasadena, California" "Phys.Rev.B, 18(1978)206"
50007 PR0180206 "(Mo,Ru)0.8P0.2" Mo16Ru64P20 Mo 16 Ru 64 P 20 1978 AMOR K 3.43 3.43 T/K 2.76 MHC50006 uOhm.cm 320 melt(1100C) - rapid quench. foil thickness = 60 um. "Superconductivity, magnetic susceptibility, and electronic properties of amorphous (Mo1-xRux)80P20 alloys obtained liquid quenching" 1978 "W.M.Keck Laboratory of Engineering Materials, California Institute of Technology, Pasadena, California" "Phys.Rev.B, 18(1978)206"
50008 PR0180206 Mo8PB Mo80P10B10 Mo 80 P 10 B 10 1978 AMOR K 9 9 T/K 1.76 MHC50008 melt(1100C) - rapid quench. foil thickness = 60 um. "Superconductivity, magnetic susceptibility, and electronic properties of amorphous (Mo1-xRux)80P20 alloys obtained liquid quenching" 1978 "W.M.Keck Laboratory of Engineering Materials, California Institute of Technology, Pasadena, California" "Phys.Rev.B, 18(1978)206"
50009 PR0180206 "(Mo,Ru)8PB" Mo64Re16P10B10 Mo 64 Re 16 P 10 B 10 1978 AMOR K 8.71 8.71 T/K 2.42 MHC50008 melt(1100C) - rapid quench. foil thickness = 60 um. "Superconductivity, magnetic susceptibility, and electronic properties of amorphous (Mo1-xRux)80P20 alloys obtained liquid quenching" 1978 "W.M.Keck Laboratory of Engineering Materials, California Institute of Technology, Pasadena, California" "Phys.Rev.B, 18(1978)206"
50010 PR0190193 La1-xAlx Al0.2La0.8 Al 0.2 La 0.8 1979 AMOR K 4.43 4.43 T/K 2.54 MHC50010 A calculated from (dHc2/dT) 54.1 uOhm.cm 163 alloys prepared by induction melting. amorphous by splat cooling. Alloying effect on superconductivity in amorphous lanthanum-based alloys 1979 "IBM Thomas J.Watson Research Center, Yorktown Heights, New York" "Phys.Rev.B, 19(1979)193"
50011 PR0190193 La1-xAlx Al0.22La0.78 Al 0.22 La 0.78 1979 AMOR K 4.3 4.3 T/K 2.67 MHC50010 A calculated from (dHc2/dT) 53.6 uOhm.cm 172 alloys prepared by induction melting. amorphous by splat cooling. Alloying effect on superconductivity in amorphous lanthanum-based alloys 1979 "IBM Thomas J.Watson Research Center, Yorktown Heights, New York" "Phys.Rev.B, 19(1979)193"
50012 PR0190193 La1-xAlx Al0.25La0.75 Al 0.25 La 0.75 1979 AMOR K 3.98 3.98 T/K 2.5 MHC50010 A calculated from (dHc2/dT) 57.4 uOhm.cm 181 alloys prepared by induction melting. amorphous by splat cooling. Alloying effect on superconductivity in amorphous lanthanum-based alloys 1979 "IBM Thomas J.Watson Research Center, Yorktown Heights, New York" "Phys.Rev.B, 19(1979)193"
50013 PR0190193 La1-xAlx Al0.27La0.73 Al 0.27 La 0.73 1979 AMOR K 3.82 3.82 T/K 2.39 MHC50013 A calculated from (dHc2/dT) 60.1 uOhm.cm 185 alloys prepared by induction melting. amorphous by splat cooling. Alloying effect on superconductivity in amorphous lanthanum-based alloys 1979 "IBM Thomas J.Watson Research Center, Yorktown Heights, New York" "Phys.Rev.B, 19(1979)193"
50014 PR0190193 La1-xAlx Al0.32La0.68 Al 0.32 La 0.68 1979 AMOR K 3.23 3.23 T/K 2.62 MHC50013 A calculated from (dHc2/dT) 62.4 uOhm.cm 194 alloys prepared by induction melting. amorphous by splat cooling. Alloying effect on superconductivity in amorphous lanthanum-based alloys 1979 "IBM Thomas J.Watson Research Center, Yorktown Heights, New York" "Phys.Rev.B, 19(1979)193"
50015 PR0190193 La1-xAlx Al0.18La0.82 Al 0.18 La 0.82 1979 AMOR K 4.65 4.65 MTC50015 Alloying effect on superconductivity in amorphous lanthanum-based alloys 1979 "IBM Thomas J.Watson Research Center, Yorktown Heights, New York" "Phys.Rev.B, 19(1979)193"
50016 PR0190193 La1-xAux Au0.2La0.8 Au 0.2 La 0.8 1979 AMOR K 4.23 4.23 MTC50015 Alloying effect on superconductivity in amorphous lanthanum-based alloys 1979 "IBM Thomas J.Watson Research Center, Yorktown Heights, New York" "Phys.Rev.B, 19(1979)193"
50017 PR0190193 La1-xGex Ge0.2La0.8 Ge 0.2 La 0.8 1979 AMOR K 5.1 5.1 MTC50015 Alloying effect on superconductivity in amorphous lanthanum-based alloys 1979 "IBM Thomas J.Watson Research Center, Yorktown Heights, New York" "Phys.Rev.B, 19(1979)193"
50018 PRL0391480 gamma = (0.4 - 6) E-3 mJ/g.K2. Zr1-xPdx Pd0.3Zr0.7 Pd 0.3 Zr 0.7 1977 AMOR K 2.53 0.01 2.53 2.94 180 SP-heat melt-quench Low-temperature properties of a superconducting disordered metal 1977 "Bell Laboratories, Murray Hill, New Jersey" "Phys.Rev.Lett., 39(1977)1480"
50019 PRL0391580 Tc(R) = 3.6 K. (dC) = 36.4 mJ/mol.K2. (dC/gamma*Tc) = 1.4 . e-ph coupling = 0.88. La1-xAux Au0.2La0.8 Au 0.2 La 0.8 1977 AMOR K 3.71 0.12 3.71 96 SP-heat splat cooling "Specific heats of superconducting splat-cooled ""amorphous"" La1-xAux alloys" 1977 "Texas A & M University, College Station, Texas" "Phys.Rev.Lett., 39(1977)1580"
50020 PRL0391580 Tc(R) = 3.3 K. (dC) = 35.8 mJ/mol.K2. (dC/gamma*Tc) = 1.7 . e-ph coupling = 0.82. La1-xAux Au0.24La0.76 Au 0.24 La 0.76 1977 AMOR K 3.28 0.2 3.28 99 SP-heat splat cooling "Specific heats of superconducting splat-cooled ""amorphous"" La1-xAux alloys" 1977 "Texas A & M University, College Station, Texas" "Phys.Rev.Lett., 39(1977)1580"
50021 PHC2750333 Zr-Ti-Cu-Ni-Be Zr41.2Ti13.8Cu12.5Ni10Be22.5 Zr 41.2 Ti 13.8 Cu 12.5 Ni 10 Be 22.5 1997 AMOR K 1.1 1.1 T/K 2.04 MHC50021 uOhm.cm 195 melt-quench Superconductivity in the metallic amorphous alloy Zr41.2Ti13.8Cu12.5Ni10Be22.5 1997 2 "School of Physics and Astronomy, Raymond and Beverly Sackler Faculty of Exact Sciences, Tel Aviv University,Ramat Aviv,69978 Tel Aviv, Israel" "Physica.C,275(1997)333-336"
50022 PHC2750333 metal. ANN(550C) of #50021 sample. Zr-Ti-Cu-Ni-Be Zr41.2Ti13.8Cu12.5Ni10Be22.5 Zr 41.2 Ti 13.8 Cu 12.5 Ni 10 Be 22.5 1997 K 0.9 0.9 T/K 1 MHC50021 uOhm.cm 75 melt-quench Superconductivity in the metallic amorphous alloy Zr41.2Ti13.8Cu12.5Ni10Be22.5 1997 2 "School of Physics and Astronomy, Raymond and Beverly Sackler Faculty of Exact Sciences, Tel Aviv University,Ramat Aviv,69978 Tel Aviv, Israel" "Physica.C,275(1997)333-336"
50023 PHB2630296 Tc(crystalized sample) = 3.84 K.. Sn Sn1 Sn 1 1999 AMOR K 4.46 4.46 Deposited at 5 K on microchip substrates. Thermal conductivity of CuxSn100-x films at low temperatures 1999 "TU Chemnitz, Institut fur Physik, Professur Physik dnner Schichten, 09107 Chemnitz, Germany" "Physica B, 263-264(1999)296"
50024 PHB2630296 crystalizing temp. = 174 K. Tc(crystalized sample) = 3.27 K.. CuxSn1-x Cu20Sn80 Cu 20 Sn 80 1999 AMOR K 5.71 5.71 Deposited at 5 K on microchip substrates. Thermal conductivity of CuxSn100-x films at low temperatures 1999 "TU Chemnitz, Institut fur Physik, Professur Physik dnner Schichten, 09107 Chemnitz, Germany" "Physica B, 263-264(1999)296"
50025 PHB2630296 crystalizing temp. = 194 K. Tc(crystalized sample) = 2.57 K.. CuxSn1-x Cu30Sn70 Cu 30 Sn 70 1999 AMOR K 4.91 4.91 MTHC50025 Deposited at 5 K on microchip substrates. Thermal conductivity of CuxSn100-x films at low temperatures 1999 "TU Chemnitz, Institut fur Physik, Professur Physik dnner Schichten, 09107 Chemnitz, Germany" "Physica B, 263-264(1999)296"
50026 PHB2630296 crystalizing temp. = 212 K. Tc(crystalized sample) = 2.04 K.. CuxSn1-x Cu40Sn60 Cu 40 Sn 60 1999 AMOR K 4.19 4.19 Deposited at 5 K on microchip substrates. Thermal conductivity of CuxSn100-x films at low temperatures 1999 "TU Chemnitz, Institut fur Physik, Professur Physik dnner Schichten, 09107 Chemnitz, Germany" "Physica B, 263-264(1999)296"
50027 PHB2630296 crystalizing temp. = 228 K. CuxSn1-x Cu50Sn50 Cu 50 Sn 50 1999 AMOR K 3.26 3.26 Deposited at 5 K on microchip substrates. Thermal conductivity of CuxSn100-x films at low temperatures 1999 "TU Chemnitz, Institut fur Physik, Professur Physik dnner Schichten, 09107 Chemnitz, Germany" "Physica B, 263-264(1999)296"
50028 PHB2630296 crystalizing temp. = 261 K. CuxSn1-x Cu60Sn40 Cu 60 Sn 40 1999 AMOR K 2.26 2.26 Deposited at 5 K on microchip substrates. Thermal conductivity of CuxSn100-x films at low temperatures 1999 "TU Chemnitz, Institut fur Physik, Professur Physik dnner Schichten, 09107 Chemnitz, Germany" "Physica B, 263-264(1999)296"
50029 PHB2630296 crystalizing temp. = 322 K. CuxSn1-x Cu70Sn30 Cu 70 Sn 30 1999 AMOR K 1.2 1.2 Deposited at 5 K on microchip substrates. Thermal conductivity of CuxSn100-x films at low temperatures 1999 "TU Chemnitz, Institut fur Physik, Professur Physik dnner Schichten, 09107 Chemnitz, Germany" "Physica B, 263-264(1999)296"
50030 PHC3920336 thickness d = 290 nm film. Hc2 defined as 0.9Rn and 0.1Rn. MgxB1-x B0.69Mg0.31 B 0.69 Mg 0.31 2003 AMOR K 5.7 5.7 MTC50030 MHC50030 Coevaporation of Mg and B by EB-gun on glass substrates(RT). Superconductivity and vortex states in thick amorphous MgxB1-x films 2003 "Research Center for Low Temperature Physics, Tokyo Institute of Technology, 2-12-1, Ohokayama, Meguro-ku, Tokyo 152-8551, Japan" "Physica C, 392-396(2003)336"
50031 JAP0515475 "ribbon(thickness=0.04 mm). vickers = 560 DPN, Tensile fracture = 2060 MPa, crystallization temp. = 718 K." TixNbySiz Ti70Nb15Si15 Ti 70 Nb 15 Si 15 1980 AMOR K 4.6 0.45 4.6 uOhm.cm 170 "arc-melting, cold roll quenching." Superconductivity of ductile Ti-Nb-Si amorphous alloys 1980 "The Research Institute for Iron, Steel, and Other Metals, Tohoku University, Sendai, Japan" "J.Appl.Phys., 51(1980)5475"
50032 JAP0515475 "ribbon(thickness=0.04 mm). vickers = 58 DPN, Tensile fracture = 2010 MPa, crystallization temp. = 770 K. Hc2(0) = 27 E+5 A/m." TixNbySiz Ti55Nb30Si15 Ti 55 Nb 30 Si 15 1980 AMOR K 4.9 0.55 4.9 kOe 34 kOe/K 75.3 uOhm.cm 170 "arc-melting, cold roll quenching." Superconductivity of ductile Ti-Nb-Si amorphous alloys 1980 "The Research Institute for Iron, Steel, and Other Metals, Tohoku University, Sendai, Japan" "J.Appl.Phys., 51(1980)5475"
50033 JAP0515475 TixNbySiz Ti60Nb25Si15 Ti 60 Nb 25 Si 15 1980 AMOR K 4.8 0.5 4.8 uOhm.cm 180 "arc-melting, cold roll quenching." Superconductivity of ductile Ti-Nb-Si amorphous alloys 1980 "The Research Institute for Iron, Steel, and Other Metals, Tohoku University, Sendai, Japan" "J.Appl.Phys., 51(1980)5475"
50034 JAP0515475 TixNbySiz Ti50Nb35Si15 Ti 50 Nb 35 Si 15 1980 AMOR K 5 0.55 5 uOhm.cm 160 "arc-melting, cold roll quenching." Superconductivity of ductile Ti-Nb-Si amorphous alloys 1980 "The Research Institute for Iron, Steel, and Other Metals, Tohoku University, Sendai, Japan" "J.Appl.Phys., 51(1980)5475"
50035 JAP0515475 TixNbySiz Ti45Nb40Si15 Ti 45 Nb 40 Si 15 1980 AMOR K 5.1 0.55 5.1 uOhm.cm 150 "arc-melting, cold roll quenching." Superconductivity of ductile Ti-Nb-Si amorphous alloys 1980 "The Research Institute for Iron, Steel, and Other Metals, Tohoku University, Sendai, Japan" "J.Appl.Phys., 51(1980)5475"
50036 JAP0515475 TixNbySiz Ti56Nb30Si14 Ti 56 Nb 30 Si 14 1980 AMOR K 5 0.4 5 uOhm.cm 170 "arc-melting, cold roll quenching." Superconductivity of ductile Ti-Nb-Si amorphous alloys 1980 "The Research Institute for Iron, Steel, and Other Metals, Tohoku University, Sendai, Japan" "J.Appl.Phys., 51(1980)5475"
50037 JAP0515475 TixNbySiz Ti55Nb30Si15 Ti 55 Nb 30 Si 15 1980 AMOR K 4.9 4.9 "arc-melting, cold roll quenching." Superconductivity of ductile Ti-Nb-Si amorphous alloys 1980 "The Research Institute for Iron, Steel, and Other Metals, Tohoku University, Sendai, Japan" "J.Appl.Phys., 51(1980)5475"
50038 JAP0515475 TixNbySiz Ti54Nb30Si16 Ti 54 Nb 30 Si 16 1980 AMOR K 4.8 4.8 "arc-melting, cold roll quenching." Superconductivity of ductile Ti-Nb-Si amorphous alloys 1980 "The Research Institute for Iron, Steel, and Other Metals, Tohoku University, Sendai, Japan" "J.Appl.Phys., 51(1980)5475"
50039 JAP0515475 TixNbySiz Ti52Nb30Si18 Ti 52 Nb 30 Si 18 1980 AMOR K 4.7 4.7 "arc-melting, cold roll quenching." Superconductivity of ductile Ti-Nb-Si amorphous alloys 1980 "The Research Institute for Iron, Steel, and Other Metals, Tohoku University, Sendai, Japan" "J.Appl.Phys., 51(1980)5475"
50040 PR0134827 thickness = 50 um LaxAuy Au22La78 Au 22 La 78 1976 AMOR K 3.934 0.018 3.934 uOhm.cm 280 liquid quenching Effect of thermodynamic fluctuations on the shape and width of the resistive transition in three-dimensional amorphous superconducting alloys 1976 "IBM Thomas J.Watson Research Center, Yorktown Hights, New York" "Phys.Rev.B, 13(1976)4827"
50041 PR0134827 thickness = 50 um LaxAuyCuz La75Au15Cu10 La 75 Au 15 Cu 10 1976 AMOR K 3.795 0.022 3.795 uOhm.cm 320 liquid quenching Effect of thermodynamic fluctuations on the shape and width of the resistive transition in three-dimensional amorphous superconducting alloys 1976 "IBM Thomas J.Watson Research Center, Yorktown Hights, New York" "Phys.Rev.B, 13(1976)4827"
50042 PR0134827 thickness = 0.1 - 1 um MoxRey Mo30Re70 Mo 30 Re 70 1976 AMOR K 7.62 0.021 7.62 rf sputtering Effect of thermodynamic fluctuations on the shape and width of the resistive transition in three-dimensional amorphous superconducting alloys 1976 "IBM Thomas J.Watson Research Center, Yorktown Hights, New York" "Phys.Rev.B, 13(1976)4827"
50043 PR0134827 thickness = 0.1 - 1 um NbxGey Ge1Nb3 Ge 1 Nb 3 1976 AMOR K 3.342 0.014 3.342 rf sputtering Effect of thermodynamic fluctuations on the shape and width of the resistive transition in three-dimensional amorphous superconducting alloys 1976 "IBM Thomas J.Watson Research Center, Yorktown Hights, New York" "Phys.Rev.B, 13(1976)4827"
50044 PR04812866 neutron dose = 0 ZrxCuy Cu40Zr60 Cu 40 Zr 60 1993 AMOR K 1.6 1.6 T 2.88 T/K 2.75 MHC50044 arc melting followed by melt spinning. Variation of disorder in superconducting glassy metals 1993 "Department of Physics, The Royal Institute of Technology, Stockholm, Sweden" "Phys.Rev.B, 48(1993)12866"
50045 PR04812866 neutron dose = 0.75 E+18 n/cm3 ZrxCuy Cu40Zr60 Cu 40 Zr 60 1993 AMOR K 1.14 1.14 T 1.98 T/K 2.62 MHC50044 arc melting followed by melt spinning. Variation of disorder in superconducting glassy metals 1993 "Department of Physics, The Royal Institute of Technology, Stockholm, Sweden" "Phys.Rev.B, 48(1993)12866"
50046 PR04812866 neutron dose = 2.2 E+18 n/cm3 ZrxCuy Cu40Zr60 Cu 40 Zr 60 1993 AMOR K 0.78 0.78 T 1.4 T/K 2.42 MHC50044 arc melting followed by melt spinning. Variation of disorder in superconducting glassy metals 1993 "Department of Physics, The Royal Institute of Technology, Stockholm, Sweden" "Phys.Rev.B, 48(1993)12866"
50047 PR04812866 neutron dose = 0 ZrxCuy Cu50Zr50 Cu 50 Zr 50 1993 AMOR K 0.74 0.74 T 1.24 T/K 2.94 MHC50047 arc melting followed by melt spinning. Variation of disorder in superconducting glassy metals 1993 "Department of Physics, The Royal Institute of Technology, Stockholm, Sweden" "Phys.Rev.B, 48(1993)12866"
50048 PR04812866 neutron dose = 0.75 E+18 n/cm3 ZrxCuy Cu50Zr50 Cu 50 Zr 50 1993 AMOR K 0.54 0.54 T 0.91 T/K 2.73 MHC50047 arc melting followed by melt spinning. Variation of disorder in superconducting glassy metals 1993 "Department of Physics, The Royal Institute of Technology, Stockholm, Sweden" "Phys.Rev.B, 48(1993)12866"
50049 PR04812866 neutron dose = 2.2 E+18 n/cm3 ZrxCuy Cu50Zr50 Cu 50 Zr 50 1993 AMOR K 0.35 0.35 T 0.59 T/K 2.56 MHC50047 arc melting followed by melt spinning. Variation of disorder in superconducting glassy metals 1993 "Department of Physics, The Royal Institute of Technology, Stockholm, Sweden" "Phys.Rev.B, 48(1993)12866"
50050 JAP0524711 Vickers = 580 DPN. crystallization temp. = 798 K. TixNbySiz Ti55Nb30Si15 Ti 55 Nb 30 Si 15 1981 AMOR K 4.9 0.5 4.9 kOe 18.8 rapid quenching from melt. Superconductivity in amorphous + crystalline Ti-(Nb or V)-Si-B ductile alloys obtained by rapid quenching from the melt 1981 "The Research Institute for Iron, Steel, and Other Metals, Tohoku University, Sendai, Japan" "J.Appl.Phys., 52(1981)4711"
50051 JAP0524711 Vickers = 665 DPN. crystallization temp. = 852 K. TixNbySiz Ti45Nb40Si15 Ti 45 Nb 40 Si 15 1981 AMOR K 5.1 0.5 5.1 kOe 20.1 rapid quenching from melt. Superconductivity in amorphous + crystalline Ti-(Nb or V)-Si-B ductile alloys obtained by rapid quenching from the melt 1981 "The Research Institute for Iron, Steel, and Other Metals, Tohoku University, Sendai, Japan" "J.Appl.Phys., 52(1981)4711"
50052 JAP0524711 Vickers = 570 DPN. crystallization temp. = 741 K. TixNbySizB3 Ti55Nb30Si12B3 Ti 55 Nb 30 Si 12 B 3 1981 AMOR K 5 0.5 5 kOe 18.8 rapid quenching from melt. Superconductivity in amorphous + crystalline Ti-(Nb or V)-Si-B ductile alloys obtained by rapid quenching from the melt 1981 "The Research Institute for Iron, Steel, and Other Metals, Tohoku University, Sendai, Japan" "J.Appl.Phys., 52(1981)4711"
50053 JAP0524711 Vickers = 630 DPN. crystallization temp. = 796 K. TixNbySizB3 Ti45Nb40Si12B3 Ti 45 Nb 40 Si 12 B 3 1981 AMOR K 5.4 0.7 5.4 kOe 22.6 rapid quenching from melt. Superconductivity in amorphous + crystalline Ti-(Nb or V)-Si-B ductile alloys obtained by rapid quenching from the melt 1981 "The Research Institute for Iron, Steel, and Other Metals, Tohoku University, Sendai, Japan" "J.Appl.Phys., 52(1981)4711"
50054 PR0225213 crystallized at 951 K. Nb1-xRhx Nb55Rh45 Nb 55 Rh 45 1980 AMOR K 4.52 5.13 5.13 5.13 mJ/mol.K2 3.92 calculated from (dHc2/dT) using GLAG theory 273 calculated from Young's modulus. rapid quench. "Superconductivity in amorphous T5T9 transition-metal alloys (T5=Nb, Ta; T9=Rh, Ir)" 1980 "Metals and Ceramics Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee" "Phys.Rev.B, 22(1980)5213"
50055 PR0225213 crystallized at 1168 K. Nb1-xIrx Ir45Nb55 Ir 45 Nb 55 1980 AMOR K 4.88 4.88 T/K 2.5 MHC50055 mJ/mol.K2 3.16 calculated from (dHc2/dT) using GLAG theory 253 calculated from Young's modulus. rapid quench. "Superconductivity in amorphous T5T9 transition-metal alloys (T5=Nb, Ta; T9=Rh, Ir)" 1980 "Metals and Ceramics Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee" "Phys.Rev.B, 22(1980)5213"
50056 PR0225213 crystallized at 1151 K. Ta1-xRhx Rh45Ta55 Rh 45 Ta 55 1980 AMOR K 3.17 3.37 3.37 3.37 T/K 2.5 MHC50056 mJ/mol.K2 2.67 calculated from (dHc2/dT) using GLAG theory 247 calculated from Young's modulus. rapid quench. "Superconductivity in amorphous T5T9 transition-metal alloys (T5=Nb, Ta; T9=Rh, Ir)" 1980 "Metals and Ceramics Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee" "Phys.Rev.B, 22(1980)5213"
50057 PR0225213 crystallized at 1338 K. Ta1-xIrx Ir45Ta55 Ir 45 Ta 55 1980 AMOR K 2.92 3.39 3.41 3.39 mJ/mol.K2 2.34 calculated from (dHc2/dT) using GLAG theory 232 calculated from Young's modulus. rapid quench. "Superconductivity in amorphous T5T9 transition-metal alloys (T5=Nb, Ta; T9=Rh, Ir)" 1980 "Metals and Ceramics Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee" "Phys.Rev.B, 22(1980)5213"
50058 PR0225213 NbxTayRhz Nb41.25Ta13.75Rh45 Nb 41.25 Ta 13.75 Rh 45 1980 AMOR K 4.32 4.91 4.615 mJ/mol.K2 3.78 calculated from (dHc2/dT) using GLAG theory rapid quench. "Superconductivity in amorphous T5T9 transition-metal alloys (T5=Nb, Ta; T9=Rh, Ir)" 1980 "Metals and Ceramics Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee" "Phys.Rev.B, 22(1980)5213"
50059 PR0225213 NbxTayRhz Nb27.5Ta27.5Rh45 Nb 27.5 Ta 27.5 Rh 45 1980 AMOR K 3.9 4.03 3.965 mJ/mol.K2 3.73 calculated from (dHc2/dT) using GLAG theory rapid quench. "Superconductivity in amorphous T5T9 transition-metal alloys (T5=Nb, Ta; T9=Rh, Ir)" 1980 "Metals and Ceramics Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee" "Phys.Rev.B, 22(1980)5213"
50060 PR0225213 NbxTayRhz Nb13.75Ta41.25Rh45 Nb 13.75 Ta 41.25 Rh 45 1980 AMOR K 3.49 3.63 3.56 mJ/mol.K2 3.33 calculated from (dHc2/dT) using GLAG theory rapid quench. "Superconductivity in amorphous T5T9 transition-metal alloys (T5=Nb, Ta; T9=Rh, Ir)" 1980 "Metals and Ceramics Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee" "Phys.Rev.B, 22(1980)5213"
50061 PR0225213 NbxTayIrz Nb41.25Ta13.75Ir45 Nb 41.25 Ta 13.75 Ir 45 1980 AMOR K 4.23 4.47 4.35 mJ/mol.K2 3.11 calculated from (dHc2/dT) using GLAG theory rapid quench. "Superconductivity in amorphous T5T9 transition-metal alloys (T5=Nb, Ta; T9=Rh, Ir)" 1980 "Metals and Ceramics Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee" "Phys.Rev.B, 22(1980)5213"
50062 PR0225213 NbxTayIrz Nb27.5Ta27.5Ir45 Nb 27.5 Ta 27.5 Ir 45 1980 AMOR K 3.89 3.98 3.935 mJ/mol.K2 2.86 calculated from (dHc2/dT) using GLAG theory rapid quench. "Superconductivity in amorphous T5T9 transition-metal alloys (T5=Nb, Ta; T9=Rh, Ir)" 1980 "Metals and Ceramics Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee" "Phys.Rev.B, 22(1980)5213"
50063 PR0225213 NbxTayIrz Nb13.75Ta41.25Ir45 Nb 13.75 Ta 41.25 Ir 45 1980 AMOR K 3.03 3.6 3.315 mJ/mol.K2 2.72 calculated from (dHc2/dT) using GLAG theory rapid quench. "Superconductivity in amorphous T5T9 transition-metal alloys (T5=Nb, Ta; T9=Rh, Ir)" 1980 "Metals and Ceramics Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee" "Phys.Rev.B, 22(1980)5213"
50064 PR0271596 amorphous film. RESN shows resistivity at 25 K. e-ph coupling = 0.43. ZrxRhy Rh43Zr57 Rh 43 Zr 57 1983 AMOR K 2.18 2.18 kG/K 26 MHC50064 uOhm.cm 214 205 rf diode cosputtering on glass substrates at RT. Electronic density of states in amorphous zirconium alloys 1983 "Energy Conversion Devices, Inc., Troy, Michigan" "Phys.Rev.B, 27(1983)1596"
50065 PR0271596 amorphous film. RESN shows resistivity at 25 K. e-ph coupling = 0.48. ZrxRhy Rh41Zr59 Rh 41 Zr 59 1983 AMOR K 2.44 2.44 kG/K 27 MHC50064 uOhm.cm 200 187 rf diode cosputtering on glass substrates at RT. Electronic density of states in amorphous zirconium alloys 1983 "Energy Conversion Devices, Inc., Troy, Michigan" "Phys.Rev.B, 27(1983)1596"
50066 PR0271596 amorphous film. RESN shows resistivity at 25 K. e-ph coupling = 0.51. ZrxRhy Rh37Zr63 Rh 37 Zr 63 1983 AMOR K 2.86 2.86 kG/K 28 MHC50066 uOhm.cm 194 182 rf diode cosputtering on glass substrates at RT. Electronic density of states in amorphous zirconium alloys 1983 "Energy Conversion Devices, Inc., Troy, Michigan" "Phys.Rev.B, 27(1983)1596"
50067 PR0271596 amorphous film. RESN shows resistivity at 25 K. e-ph coupling = 0.61. ZrxRhy Rh27Zr73 Rh 27 Zr 73 1983 AMOR K 3.57 3.57 kG/K 31 uOhm.cm 177 166 rf diode cosputtering on glass substrates at RT. Electronic density of states in amorphous zirconium alloys 1983 "Energy Conversion Devices, Inc., Troy, Michigan" "Phys.Rev.B, 27(1983)1596"
50068 PR0271596 amorphous film. RESN shows resistivity at 25 K. e-ph coupling = 0.61. ZrxRhy Rh24Zr76 Rh 24 Zr 76 1983 AMOR K 3.67 3.67 kG/K 32 MHC50066 uOhm.cm 185 180 rf diode cosputtering on glass substrates at RT. Electronic density of states in amorphous zirconium alloys 1983 "Energy Conversion Devices, Inc., Troy, Michigan" "Phys.Rev.B, 27(1983)1596"
50069 PR0271596 amorphous film. RESN shows resistivity at 25 K. e-ph coupling = 0.64. ZrxRhy Rh23Zr77 Rh 23 Zr 77 1983 AMOR K 3.66 3.66 kG/K 32 uOhm.cm 175 165 rf diode cosputtering on glass substrates at RT. Electronic density of states in amorphous zirconium alloys 1983 "Energy Conversion Devices, Inc., Troy, Michigan" "Phys.Rev.B, 27(1983)1596"
50070 PR0271596 amorphous film. RESN shows resistivity at 25 K. e-ph coupling = 0.61. ZrxRhy Rh20Zr80 Rh 20 Zr 80 1983 AMOR K 3.72 3.72 kG/K 31 uOhm.cm 184 171 rf diode cosputtering on glass substrates at RT. Electronic density of states in amorphous zirconium alloys 1983 "Energy Conversion Devices, Inc., Troy, Michigan" "Phys.Rev.B, 27(1983)1596"
50071 PR0271596 amorphous film. RESN shows resistivity at 25 K. ZrxRuy Ru28Zr72 Ru 28 Zr 72 1983 AMOR K 3.76 3.76 kG/K 27 uOhm.cm 194 rf diode cosputtering on glass substrates at RT. Electronic density of states in amorphous zirconium alloys 1983 "Energy Conversion Devices, Inc., Troy, Michigan" "Phys.Rev.B, 27(1983)1596"
50072 PR0271596 amorphous film. RESN shows resistivity at 25 K. ZrxRuy Ru27Zr73 Ru 27 Zr 73 1983 AMOR K 3.11 3.11 kG/K 27 uOhm.cm 213 203 rf diode cosputtering on glass substrates at RT. Electronic density of states in amorphous zirconium alloys 1983 "Energy Conversion Devices, Inc., Troy, Michigan" "Phys.Rev.B, 27(1983)1596"
50073 PR0271596 amorphous film. RESN shows resistivity at 25 K. ZrxRuy Ru22Zr78 Ru 22 Zr 78 1983 AMOR K 3.73 3.73 kG/K 23 uOhm.cm 193 184 rf diode cosputtering on glass substrates at RT. Electronic density of states in amorphous zirconium alloys 1983 "Energy Conversion Devices, Inc., Troy, Michigan" "Phys.Rev.B, 27(1983)1596"
50074 PR0271596 amorphous film. RESN shows resistivity at 25 K. ZrxRuy Ru18Zr82 Ru 18 Zr 82 1983 AMOR K 3.78 3.78 kG/K 28 uOhm.cm 205 196 rf diode cosputtering on glass substrates at RT. Electronic density of states in amorphous zirconium alloys 1983 "Energy Conversion Devices, Inc., Troy, Michigan" "Phys.Rev.B, 27(1983)1596"
50075 PR0271596 amorphous film. RESN shows resistivity at 25 K. ZrxRuy Ru18Zr82 Ru 18 Zr 82 1983 AMOR K 3.33 3.33 kG/K 27 uOhm.cm 185 rf diode cosputtering on glass substrates at RT. Electronic density of states in amorphous zirconium alloys 1983 "Energy Conversion Devices, Inc., Troy, Michigan" "Phys.Rev.B, 27(1983)1596"
50076 PR0271596 amorphous film. RESN shows resistivity at 25 K. ZrxRuy Ru13Zr87 Ru 13 Zr 87 1983 AMOR K 3.57 3.57 kG/K 20 uOhm.cm 193 188 rf diode cosputtering on glass substrates at RT. Electronic density of states in amorphous zirconium alloys 1983 "Energy Conversion Devices, Inc., Troy, Michigan" "Phys.Rev.B, 27(1983)1596"
50077 PR0271596 amorphous film. RESN shows resistivity at 25 K. ZrxRuy Ru11Zr89 Ru 11 Zr 89 1983 AMOR K 3.84 3.84 kG/K 21 uOhm.cm 198 rf diode cosputtering on glass substrates at RT. Electronic density of states in amorphous zirconium alloys 1983 "Energy Conversion Devices, Inc., Troy, Michigan" "Phys.Rev.B, 27(1983)1596"
50078 PR0271596 amorphous film. RESN shows resistivity at 25 K. ZrxRuy Ru11Zr89 Ru 11 Zr 89 1983 AMOR K 3.9 3.9 kG/K 24 uOhm.cm 204 196 rf diode cosputtering on glass substrates at RT. Electronic density of states in amorphous zirconium alloys 1983 "Energy Conversion Devices, Inc., Troy, Michigan" "Phys.Rev.B, 27(1983)1596"
50079 PR0271596 amorphous film. RESN shows resistivity at 25 K. ZrxRuy Ru8Zr92 Ru 8 Zr 92 1983 AMOR K 3.79 3.79 kG/K 20 uOhm.cm 200 196 rf diode cosputtering on glass substrates at RT. Electronic density of states in amorphous zirconium alloys 1983 "Energy Conversion Devices, Inc., Troy, Michigan" "Phys.Rev.B, 27(1983)1596"
50080 PR0271596 amorphous film. RESN shows resistivity at 25 K. ZrxRey Re30Zr70 Re 30 Zr 70 1983 AMOR K 2.69 2.69 kG/K 24 uOhm.cm 199 190 rf diode cosputtering on glass substrates at RT. Electronic density of states in amorphous zirconium alloys 1983 "Energy Conversion Devices, Inc., Troy, Michigan" "Phys.Rev.B, 27(1983)1596"
50081 PR0271596 amorphous film. RESN shows resistivity at 25 K. ZrxRey Re16Zr84 Re 16 Zr 84 1983 AMOR K 3.32 3.32 kG/K 25 uOhm.cm 179 171 rf diode cosputtering on glass substrates at RT. Electronic density of states in amorphous zirconium alloys 1983 "Energy Conversion Devices, Inc., Troy, Michigan" "Phys.Rev.B, 27(1983)1596"
50082 PR0271596 amorphous film. RESN shows resistivity at 25 K. ZrxRey Re10Zr90 Re 10 Zr 90 1983 AMOR K 4.12 4.12 kG/K 23 uOhm.cm 147 143 rf diode cosputtering on glass substrates at RT. Electronic density of states in amorphous zirconium alloys 1983 "Energy Conversion Devices, Inc., Troy, Michigan" "Phys.Rev.B, 27(1983)1596"
50083 PR0275519 as-quenched sample. Zr2Co Co1Zr2 Co 1 Zr 2 1983 AMOR K 3 3 kG/K 32.7 uOhm.cm 180 melt-quench Thermal-relaxation studies of the stability of amorphous structures in zirconium-based superconducting alloya 1983 "Department of Physics, University of Virginia, Charlottesville, Virginia" "Phys.Rev.B, 27(1983)5519"
50084 PR0275519 as-quenched sample. Zr2Ni Ni1Zr2 Ni 1 Zr 2 1983 AMOR K 2.77 2.77 kG/K 28.6 uOhm.cm 170 melt-quench Thermal-relaxation studies of the stability of amorphous structures in zirconium-based superconducting alloya 1983 "Department of Physics, University of Virginia, Charlottesville, Virginia" "Phys.Rev.B, 27(1983)5519"
50085 PR0275519 as-quenched sample. Zr2Pd Pd1Zr2 Pd 1 Zr 2 1983 AMOR K 2.36 2.36 kG/K 28.5 uOhm.cm 175 melt-quench Thermal-relaxation studies of the stability of amorphous structures in zirconium-based superconducting alloya 1983 "Department of Physics, University of Virginia, Charlottesville, Virginia" "Phys.Rev.B, 27(1983)5519"
50086 PR0275519 as-quenched sample. Zr3Ni Ni1Zr3 Ni 1 Zr 3 1983 AMOR K 3.35 3.35 kG/K 33.4 uOhm.cm 170 melt-quench Thermal-relaxation studies of the stability of amorphous structures in zirconium-based superconducting alloya 1983 "Department of Physics, University of Virginia, Charlottesville, Virginia" "Phys.Rev.B, 27(1983)5519"
50087 PR0275519 as-quenched sample. Zr3Pd Pd1Zr3 Pd 1 Zr 3 1983 AMOR K 2.96 2.96 kG/K 30.2 uOhm.cm 180 melt-quench Thermal-relaxation studies of the stability of amorphous structures in zirconium-based superconducting alloya 1983 "Department of Physics, University of Virginia, Charlottesville, Virginia" "Phys.Rev.B, 27(1983)5519"
50088 PR0275519 as-quenched sample. Zr3Rh Rh1Zr3 Rh 1 Zr 3 1983 AMOR K 4.3 4.3 kG/K 31.8 uOhm.cm 230 melt-quench Thermal-relaxation studies of the stability of amorphous structures in zirconium-based superconducting alloya 1983 "Department of Physics, University of Virginia, Charlottesville, Virginia" "Phys.Rev.B, 27(1983)5519"
50089 PR0281396 RESN shows resistivity at 4.2 K. ZrxCoy Co21Zr79 Co 21 Zr 79 1983 AMOR K 3.78 3.78 kG/K 34.1 MHC50089 mJ/mol.K2 5.75 "calculated from Rn, (dHc2/dT)" uOhm.cm 170 melt spinning Upper critical fields and superconducting transition temperatures of some zirconium-base amorphous transition-metal alloys 1983 "Department of Physics, Indiana University , Bloomington, Indiana" "Phys.Rev.B, 28(1983)1396"
50090 PR0281396 RESN shows resistivity at 4.2 K. ZrxCoy Co25Zr75 Co 25 Zr 75 1983 AMOR K 3.47 3.47 kG/K 33.9 MHC50089 mJ/mol.K2 5.21 "calculated from Rn, (dHc2/dT)" uOhm.cm 179 melt spinning Upper critical fields and superconducting transition temperatures of some zirconium-base amorphous transition-metal alloys 1983 "Department of Physics, Indiana University , Bloomington, Indiana" "Phys.Rev.B, 28(1983)1396"
50091 PR0281396 RESN shows resistivity at 4.2 K. ZrxCoy Co28Zr72 Co 28 Zr 72 1983 AMOR K 3.12 3.12 kG/K 33.8 MHC50091 mJ/mol.K2 5.06 "calculated from Rn, (dHc2/dT)" uOhm.cm 181 melt spinning Upper critical fields and superconducting transition temperatures of some zirconium-base amorphous transition-metal alloys 1983 "Department of Physics, Indiana University , Bloomington, Indiana" "Phys.Rev.B, 28(1983)1396"
50092 PR0281396 RESN shows resistivity at 4.2 K. ZrxCoy Co35Zr65 Co 35 Zr 65 1983 AMOR K 2.48 2.48 kG/K 34.8 MHC50091 mJ/mol.K2 4.96 "calculated from Rn, (dHc2/dT)" uOhm.cm 180 melt spinning Upper critical fields and superconducting transition temperatures of some zirconium-base amorphous transition-metal alloys 1983 "Department of Physics, Indiana University , Bloomington, Indiana" "Phys.Rev.B, 28(1983)1396"
50093 PR0281396 RESN shows resistivity at 4.2 K. ZrxNiy Ni22Zr78 Ni 22 Zr 78 1983 AMOR K 3.47 3.47 kG/K 31.9 MHC50093 mJ/mol.K2 5.33 "calculated from Rn, (dHc2/dT)" uOhm.cm 168 melt spinning Upper critical fields and superconducting transition temperatures of some zirconium-base amorphous transition-metal alloys 1983 "Department of Physics, Indiana University , Bloomington, Indiana" "Phys.Rev.B, 28(1983)1396"
50094 PR0281396 RESN shows resistivity at 4.2 K. ZrxNiy Ni24Zr76 Ni 24 Zr 76 1983 AMOR K 3.29 3.29 kG/K 31.5 MHC50093 mJ/mol.K2 4.87 "calculated from Rn, (dHc2/dT)" uOhm.cm 178 melt spinning Upper critical fields and superconducting transition temperatures of some zirconium-base amorphous transition-metal alloys 1983 "Department of Physics, Indiana University , Bloomington, Indiana" "Phys.Rev.B, 28(1983)1396"
50095 PR0281396 RESN shows resistivity at 4.2 K. ZrxNiy Ni27Zr73 Ni 27 Zr 73 1983 AMOR K 3.1 3.1 kG/K 31.9 MHC50093 mJ/mol.K2 4.87 "calculated from Rn, (dHc2/dT)" uOhm.cm 178 melt spinning Upper critical fields and superconducting transition temperatures of some zirconium-base amorphous transition-metal alloys 1983 "Department of Physics, Indiana University , Bloomington, Indiana" "Phys.Rev.B, 28(1983)1396"
50096 PR0281396 RESN shows resistivity at 4.2 K. "(Zr,Ti)xNiy" Zr70.2Ti7.8Ni22 Zr 70.2 Ti 7.8 Ni 22 1983 AMOR K 3.32 3.32 kG/K 32.9 MHC50096 mJ/mol.K2 5.03 "calculated from Rn, (dHc2/dT)" uOhm.cm 180 melt spinning Upper critical fields and superconducting transition temperatures of some zirconium-base amorphous transition-metal alloys 1983 "Department of Physics, Indiana University , Bloomington, Indiana" "Phys.Rev.B, 28(1983)1396"
50097 PR0281396 RESN shows resistivity at 4.2 K. "(Zr,Ti)xNiy" Zr62.4Ti15.6Ni22 Zr 62.4 Ti 15.6 Ni 22 1983 AMOR K 3.09 3.09 kG/K 35.2 MHC50096 mJ/mol.K2 5.48 "calculated from Rn, (dHc2/dT)" uOhm.cm 172 melt spinning Upper critical fields and superconducting transition temperatures of some zirconium-base amorphous transition-metal alloys 1983 "Department of Physics, Indiana University , Bloomington, Indiana" "Phys.Rev.B, 28(1983)1396"
50098 PR0281396 RESN shows resistivity at 4.2 K. "(Zr,Ti)xNiy" Zr54.6Ti23.4Ni22 Zr 54.6 Ti 23.4 Ni 22 1983 AMOR K 2.78 2.78 kG/K 36.3 MHC50096 mJ/mol.K2 5.21 "calculated from Rn, (dHc2/dT)" uOhm.cm 182 melt spinning Upper critical fields and superconducting transition temperatures of some zirconium-base amorphous transition-metal alloys 1983 "Department of Physics, Indiana University , Bloomington, Indiana" "Phys.Rev.B, 28(1983)1396"
50099 PR0281396 RESN shows resistivity at 4.2 K. "(Zr,Nb)xNiy" Zr74.1Ti3.9Ni22 Zr 74.1 Ti 3.9 Ni 22 1983 AMOR K 3.65 3.65 kG/K 31.5 MHC50099 mJ/mol.K2 5.14 "calculated from Rn, (dHc2/dT)" uOhm.cm 171 melt spinning Upper critical fields and superconducting transition temperatures of some zirconium-base amorphous transition-metal alloys 1983 "Department of Physics, Indiana University , Bloomington, Indiana" "Phys.Rev.B, 28(1983)1396"
50100 PR0281396 RESN shows resistivity at 4.2 K. "(Zr,Nb)xNiy" Zr66.3Ti11.7Ni22 Zr 66.3 Ti 11.7 Ni 22 1983 AMOR K 3.56 3.56 kG/K 29.5 MHC50099 mJ/mol.K2 5.04 "calculated from Rn, (dHc2/dT)" uOhm.cm 159 melt spinning Upper critical fields and superconducting transition temperatures of some zirconium-base amorphous transition-metal alloys 1983 "Department of Physics, Indiana University , Bloomington, Indiana" "Phys.Rev.B, 28(1983)1396"
50101 PR0281396 RESN shows resistivity at 4.2 K. "(Zr,Nb)xNiy" Zr62.4Ti15.6Ni22 Zr 62.4 Ti 15.6 Ni 22 1983 AMOR K 3.34 3.34 kG/K 28.2 MHC50099 mJ/mol.K2 4.71 "calculated from Rn, (dHc2/dT)" uOhm.cm 162 melt spinning Upper critical fields and superconducting transition temperatures of some zirconium-base amorphous transition-metal alloys 1983 "Department of Physics, Indiana University , Bloomington, Indiana" "Phys.Rev.B, 28(1983)1396"
50110 PR0302898 (Ni20Zr80)1-xMnx Ni19.75Zr79Mn1.25 Ni 19.75 Zr 79 Mn 1.25 1984 AMOR K 1.92 2.43 1.92 All films deposited by dc sputtering from arc-melted buttans at temperature range of 77 - 508 K. Local Mn moment in amorphous Mn-Zr alloys 1984 "AT&T Bell LaboratoryﾂｿMurray Hill, New Jersey" "Phys.Rev.B, 30(1984)2898"
50111 PR0302898 (Ni20Zr80)1-xMnx Ni19.5Zr78Mn2.5 Ni 19.5 Zr 78 Mn 2.5 1984 AMOR K 1.41 1.41 All films deposited by dc sputtering from arc-melted buttans at temperature range of 77 - 508 K. Local Mn moment in amorphous Mn-Zr alloys 1984 "AT&T Bell LaboratoryﾂｿMurray Hill, New Jersey" "Phys.Rev.B, 30(1984)2898"
50112 PR0302898 (Cu20Zr80)1-xMnx Cu19.8Zr79.2Mn1 Cu 19.8 Zr 79.2 Mn 1 1984 AMOR K 2.11 2.11 All films deposited by dc sputtering from arc-melted buttans at temperature range of 77 - 508 K. Local Mn moment in amorphous Mn-Zr alloys 1984 "AT&T Bell LaboratoryﾂｿMurray Hill, New Jersey" "Phys.Rev.B, 30(1984)2898"
50113 PR0302898 (Cu20Zr80)1-xMnx Cu19.6Zr78.4Mn2 Cu 19.6 Zr 78.4 Mn 2 1984 AMOR K 1.14 1.14 All films deposited by dc sputtering from arc-melted buttans at temperature range of 77 - 508 K. Local Mn moment in amorphous Mn-Zr alloys 1984 "AT&T Bell LaboratoryﾂｿMurray Hill, New Jersey" "Phys.Rev.B, 30(1984)2898"
50114 PR0295207 composition by EDS. RESN shows RES at 25 K. dressed DOS(N*) = 1.07 states/eV.atom.spin calculated from RESN and (dHc2/dT). Zr1-xPdx Pd35Zr65 Pd 35 Zr 65 1984 AMOR K 1.98 1.98 kG/K 30.7 uOhm.cm 165 rf-diode cosputtering Electronic density of states in amorphous Zr-Pd and Zr-Ni alloys 1984 "Energy Conversion Devices, Incorporated, West Maple RoadﾂｿTroy, Michigan" "Phys.Rev.B, 29(1984)5207"
50115 PR0295207 composition by EDS. RESN shows RES at 25 K. dressed DOS(N*) = 1.06 states/eV.atom.spin calculated from RESN and (dHc2/dT). Zr1-xPdx Pd34Zr66 Pd 34 Zr 66 1984 AMOR K 2.1 2.1 kG/K 27.5 uOhm.cm 151 rf-diode cosputtering Electronic density of states in amorphous Zr-Pd and Zr-Ni alloys 1984 "Energy Conversion Devices, Incorporated, West Maple RoadﾂｿTroy, Michigan" "Phys.Rev.B, 29(1984)5207"
50116 PR0295207 composition by EDS. RESN shows RES at 25 K. dressed DOS(N*) = 1.19 states/eV.atom.spin calculated from RESN and (dHc2/dT). Zr1-xPdx Pd32Zr68 Pd 32 Zr 68 1984 AMOR K 2.24 2.24 kG/K 28 uOhm.cm 137 rf-diode cosputtering Electronic density of states in amorphous Zr-Pd and Zr-Ni alloys 1984 "Energy Conversion Devices, Incorporated, West Maple RoadﾂｿTroy, Michigan" "Phys.Rev.B, 29(1984)5207"
50117 PR0295207 composition by EDS. RESN shows RES at 25 K. dressed DOS(N*) = 0.92 states/eV.atom.spin calculated from RESN and (dHc2/dT). Zr1-xPdx Pd31Zr69 Pd 31 Zr 69 1984 AMOR K 2.34 2.34 kG/K 28.2 uOhm.cm 179 rf-diode cosputtering Electronic density of states in amorphous Zr-Pd and Zr-Ni alloys 1984 "Energy Conversion Devices, Incorporated, West Maple RoadﾂｿTroy, Michigan" "Phys.Rev.B, 29(1984)5207"
50118 PR0295207 composition by EDS. RESN shows RES at 25 K. dressed DOS(N*) = 0.86 states/eV.atom.spin calculated from RESN and (dHc2/dT). Zr1-xPdx Pd29Zr71 Pd 29 Zr 71 1984 AMOR K 2.49 2.49 kG/K 26.3 uOhm.cm 180 rf-diode cosputtering Electronic density of states in amorphous Zr-Pd and Zr-Ni alloys 1984 "Energy Conversion Devices, Incorporated, West Maple RoadﾂｿTroy, Michigan" "Phys.Rev.B, 29(1984)5207"
50119 PR0295207 composition by EDS. RESN shows RES at 25 K. dressed DOS(N*) = 0.99 states/eV.atom.spin calculated from RESN and (dHc2/dT). Zr1-xPdx Pd27Zr73 Pd 27 Zr 73 1984 AMOR K 2.6 2.6 kG/K 28.6 uOhm.cm 172 rf-diode cosputtering Electronic density of states in amorphous Zr-Pd and Zr-Ni alloys 1984 "Energy Conversion Devices, Incorporated, West Maple RoadﾂｿTroy, Michigan" "Phys.Rev.B, 29(1984)5207"
50120 PR0295207 composition by EDS. RESN shows RES at 25 K. dressed DOS(N*) = 1.08 states/eV.atom.spin calculated from RESN and (dHc2/dT). Zr1-xPdx Pd23Zr77 Pd 23 Zr 77 1984 AMOR K 2.84 2.84 MTC50120 kG/K 30.1 uOhm.cm 168 rf-diode cosputtering Electronic density of states in amorphous Zr-Pd and Zr-Ni alloys 1984 "Energy Conversion Devices, Incorporated, West Maple RoadﾂｿTroy, Michigan" "Phys.Rev.B, 29(1984)5207"
50121 PR0295207 composition by EDS. RESN shows RES at 25 K. dressed DOS(N*) = 1.08 states/eV.atom.spin calculated from RESN and (dHc2/dT). Zr1-xPdx Pd22Zr78 Pd 22 Zr 78 1984 AMOR K 2.88 2.88 kG/K 30.1 uOhm.cm 170 rf-diode cosputtering Electronic density of states in amorphous Zr-Pd and Zr-Ni alloys 1984 "Energy Conversion Devices, Incorporated, West Maple RoadﾂｿTroy, Michigan" "Phys.Rev.B, 29(1984)5207"
50122 PR0295207 composition by EDS. RESN shows RES at 25 K. dressed DOS(N*) = 1.09 states/eV.atom.spin calculated from RESN and (dHc2/dT). Zr1-xPdx Pd20Zr80 Pd 20 Zr 80 1984 AMOR K 2.91 2.91 kG/K 29.8 uOhm.cm 168 rf-diode cosputtering Electronic density of states in amorphous Zr-Pd and Zr-Ni alloys 1984 "Energy Conversion Devices, Incorporated, West Maple RoadﾂｿTroy, Michigan" "Phys.Rev.B, 29(1984)5207"
50123 PR0295207 composition by EDS. RESN shows RES at 25 K. dressed DOS(N*) = 1.91 states/eV.atom.spin calculated from RESN and (dHc2/dT). Zr1-xNix Ni31Zr69 Ni 31 Zr 69 1984 AMOR K 2.44 2.44 kG/K 41.2 uOhm.cm 118 rf-diode cosputtering Electronic density of states in amorphous Zr-Pd and Zr-Ni alloys 1984 "Energy Conversion Devices, Incorporated, West Maple RoadﾂｿTroy, Michigan" "Phys.Rev.B, 29(1984)5207"
50124 PR0295207 composition by EDS. RESN shows RES at 25 K. dressed DOS(N*) = 1.50 states/eV.atom.spin calculated from RESN and (dHc2/dT). Zr1-xNix Ni30Zr70 Ni 30 Zr 70 1984 AMOR K 2.58 2.58 kG/K 38.2 uOhm.cm 140 rf-diode cosputtering Electronic density of states in amorphous Zr-Pd and Zr-Ni alloys 1984 "Energy Conversion Devices, Incorporated, West Maple RoadﾂｿTroy, Michigan" "Phys.Rev.B, 29(1984)5207"
50125 PR0295207 composition by EDS. RESN shows RES at 25 K. dressed DOS(N*) = 1.41 states/eV.atom.spin calculated from RESN and (dHc2/dT). Zr1-xNix Ni29Zr71 Ni 29 Zr 71 1984 AMOR K 2.64 2.64 kG/K 41.3 uOhm.cm 163 rf-diode cosputtering Electronic density of states in amorphous Zr-Pd and Zr-Ni alloys 1984 "Energy Conversion Devices, Incorporated, West Maple RoadﾂｿTroy, Michigan" "Phys.Rev.B, 29(1984)5207"
50126 PR0295207 composition by EDS. RESN shows RES at 25 K. dressed DOS(N*) = 1.14 states/eV.atom.spin calculated from RESN and (dHc2/dT). Zr1-xNix Ni24Zr76 Ni 24 Zr 76 1984 AMOR K 2.94 2.94 kG/K 38.4 uOhm.cm 193 rf-diode cosputtering Electronic density of states in amorphous Zr-Pd and Zr-Ni alloys 1984 "Energy Conversion Devices, Incorporated, West Maple RoadﾂｿTroy, Michigan" "Phys.Rev.B, 29(1984)5207"
50127 PR0295207 composition by EDS. RESN shows RES at 25 K. dressed DOS(N*) = 1.19 states/eV.atom.spin calculated from RESN and (dHc2/dT). Zr1-xNix Ni21Zr79 Ni 21 Zr 79 1984 AMOR K 3.06 3.06 kG/K 36.6 uOhm.cm 180 rf-diode cosputtering Electronic density of states in amorphous Zr-Pd and Zr-Ni alloys 1984 "Energy Conversion Devices, Incorporated, West Maple RoadﾂｿTroy, Michigan" "Phys.Rev.B, 29(1984)5207"
50128 PR0295207 composition by EDS. RESN shows RES at 25 K. dressed DOS(N*) = 1.12 states/eV.atom.spin calculated from RESN and (dHc2/dT). Zr1-xNix Ni20Zr80 Ni 20 Zr 80 1984 AMOR K 3.17 3.17 kG/K 33.3 uOhm.cm 175 rf-diode cosputtering Electronic density of states in amorphous Zr-Pd and Zr-Ni alloys 1984 "Energy Conversion Devices, Incorporated, West Maple RoadﾂｿTroy, Michigan" "Phys.Rev.B, 29(1984)5207"
50129 PR0295207 composition by EDS. RESN shows RES at 25 K. dressed DOS(N*) = 1.09 states/eV.atom.spin calculated from RESN and (dHc2/dT). Zr1-xNix Ni18Zr82 Ni 18 Zr 82 1984 AMOR K 2.98 2.98 kG/K 30.4 uOhm.cm 166 rf-diode cosputtering Electronic density of states in amorphous Zr-Pd and Zr-Ni alloys 1984 "Energy Conversion Devices, Incorporated, West Maple RoadﾂｿTroy, Michigan" "Phys.Rev.B, 29(1984)5207"
50130 PR0295207 composition by EDS. RESN shows RES at 25 K. dressed DOS(N*) = 1.06 states/eV.atom.spin calculated from RESN and (dHc2/dT). Zr1-xNix Ni17Zr83 Ni 17 Zr 83 1984 AMOR K 3 3 kG/K 29.7 uOhm.cm 168 rf-diode cosputtering Electronic density of states in amorphous Zr-Pd and Zr-Ni alloys 1984 "Energy Conversion Devices, Incorporated, West Maple RoadﾂｿTroy, Michigan" "Phys.Rev.B, 29(1984)5207"
50131 PR0295207 composition by EDS. RESN shows RES at 25 K. dressed DOS(N*) = 1.10 states/eV.atom.spin calculated from RESN and (dHc2/dT). Zr1-xNix Ni16Zr84 Ni 16 Zr 84 1984 AMOR K 3.06 3.06 kG/K 28.1 uOhm.cm 154 rf-diode cosputtering Electronic density of states in amorphous Zr-Pd and Zr-Ni alloys 1984 "Energy Conversion Devices, Incorporated, West Maple RoadﾂｿTroy, Michigan" "Phys.Rev.B, 29(1984)5207"
50132 PR0305135 ribbon. Thickness = 20 micron.m. minimum in SUS at 20 K. Zr1-xCox Co35.38Zr64.62 Co 35.38 Zr 64.62 1984 AMOR K 2.67 0.013 2.67 arc-melting. Ribonns by melt-spinning(induction furnace). Normal-state magnetic susceptibility as a structural probe in an amorphous superconducting Zr-Co alloy 1984 "Department of Solid State Physics, The Royal Institute of Technology, Stockholm, Sweden" "Phys.Rev.B, 30(1984)5135"
50133 PR0313100 DOS = 6.9 state/eV.atom calculated from Rn and (dHc2/T). U1-xCox Co14.3U85.7 Co 14.3 U 85.7 1985 AMOR K 0.78 0.78 kOe/K 44 MHC50133 uOhm.cm 73.4 arc-melting. Ribonns by melt-spinning. Superconductivity in amorphous actinide alloys 1985 "Ames Laboratory, Iowa State University, Ames, Iowa" "Phys.Rev.B, 31(1985)3100"
50134 PR0313100 U1-xCox Co28U72 Co 28 U 72 1985 AMOR K 0.6 0.6 uOhm.cm 87.3 arc-melting. Ribonns by melt-spinning. Superconductivity in amorphous actinide alloys 1985 "Ames Laboratory, Iowa State University, Ames, Iowa" "Phys.Rev.B, 31(1985)3100"
50135 PR0313100 DOS = 5.8 state/eV.atom calculated from Rn and (dHc2/T). U1-xFex Fe14.3U85.7 Fe 14.3 U 85.7 1985 AMOR K 1 1 kOe/K 40.5 uOhm.cm 85.6 arc-melting. Ribonns by melt-spinning. Superconductivity in amorphous actinide alloys 1985 "Ames Laboratory, Iowa State University, Ames, Iowa" "Phys.Rev.B, 31(1985)3100"
50136 PR0313100 DOS = 5.2 state/eV.atom calculated from Rn and (dHc2/T). U1-xFex Fe22U78 Fe 22 U 78 1985 AMOR K 0.98 0.98 kOe/K 43 MHC50133 uOhm.cm 88.7 arc-melting. Ribonns by melt-spinning. Superconductivity in amorphous actinide alloys 1985 "Ames Laboratory, Iowa State University, Ames, Iowa" "Phys.Rev.B, 31(1985)3100"
50137 PR0313100 U1-xNix Ni14.3U85.7 Ni 14.3 U 85.7 1985 AMOR K 0.53 0.53 uOhm.cm 73.5 arc-melting. Ribonns by melt-spinning. Superconductivity in amorphous actinide alloys 1985 "Ames Laboratory, Iowa State University, Ames, Iowa" "Phys.Rev.B, 31(1985)3100"
50138 PR0313100 U1-xNix Ni28U72 Ni 28 U 72 1985 AMOR K 0.5 uOhm.cm 90 arc-melting. Ribonns by melt-spinning. Superconductivity in amorphous actinide alloys 1985 "Ames Laboratory, Iowa State University, Ames, Iowa" "Phys.Rev.B, 31(1985)3100"
50139 PR0313100 DOS = 2.6 state/eV.atom calculated from Rn and (dHc2/T). Th1-xNix Ni25Th75 Ni 25 Th 75 1985 AMOR K 3.7 3.7 kOe/K 17.3 MHC50133 arc-melting. Ribonns by melt-spinning. Superconductivity in amorphous actinide alloys 1985 "Ames Laboratory, Iowa State University, Ames, Iowa" "Phys.Rev.B, 31(1985)3100"
50140 PR0313100 DOS = 2.8 state/eV.atom calculated from Rn and (dHc2/T). Th1-xCox Co20Th80 Co 20 Th 80 1985 AMOR K 3.8 3.8 kOe/K 17.3 arc-melting. Ribonns by melt-spinning. Superconductivity in amorphous actinide alloys 1985 "Ames Laboratory, Iowa State University, Ames, Iowa" "Phys.Rev.B, 31(1985)3100"
50141 PR0313100 DOS = 2.6 state/eV.atom calculated from Rn and (dHc2/T). Zr1-xCox Co25Zr75 Co 25 Zr 75 1985 AMOR K 3.18 3.18 kOe/K 3.4 arc-melting. Ribonns by melt-spinning. Superconductivity in amorphous actinide alloys 1985 "Ames Laboratory, Iowa State University, Ames, Iowa" "Phys.Rev.B, 31(1985)3100"
50142 PR0313100 Zr1-xFex Fe30Zr70 Fe 30 Zr 70 1985 AMOR K 0.5 0.5 arc-melting. Ribonns by melt-spinning. Superconductivity in amorphous actinide alloys 1985 "Ames Laboratory, Iowa State University, Ames, Iowa" "Phys.Rev.B, 31(1985)3100"
50143 PR0337820 "starting sample is crystal. beta-Sn phase (Tc=3.9 K, dTc/dP = 15 mK/GPa). Tc shows Tc(crit)= Tc(15 GPa). Tc(max) = 5.2 K(P = 17 GPa)." a-Si Si Si 1 1986 AMOR K 5 0 5 MTC50143 K/GPa -0.044 "p-type semiconductor single crystal powder with acceptor= 1 E+13/cm3, prepared by crushing between two carbide pistons." Pressure-induced superconductivity in high-pressure phases of Si 1986 "Phys.Rev.B, 33(1986)7820"
50144 PR0337820 "starting sample is amorphous film. beta-Sn phase (Tc=6.8 K, dTc/dP = 5.2 mK/GPa). Tc shows Tc(crit)= Tc (15 GPa). Tc(max) = 8.4 K(P = 21 GPa)." a-Si Si Si 1 1986 AMOR K 6.8 0 6.8 MTC50144 K/GPa -0.053 amorphous film(d=1 um) prepared by sputtering on 10 um-thick mica sheet. Pressure-induced superconductivity in high-pressure phases of Si 1986 "Phys.Rev.B, 33(1986)7820"
50145 PR0344558 Tc(x) = 0.225(x-49.7) - 0.00306(x-49.7)^2 in Co<100-x>Zr. Co1-xZrx Co40Zr60 Co 40 Zr 60 1986 AMOR K MTC50145 "Zr(99.8%),Co(99.998%)" Ar-arc melting. melt-spun onto a roller at liq.N2 temp. "Superconductivity, normal-state resistivity, and magnetic susceptivility of amorphous Zr-Co alloys" 1986 "Department of Solid State Physics, The Royal Institute of Technology, Stockholm, Sweden" "Phys.Rev.B, 34(1986)4558"
50146 PR0344558 Tc(x) = 0.225(x-49.7) - 0.00306(x-49.7)^2 in Co<100-x>Zr. Co1-xZrx Co20Zr80 Co 20 Zr 80 1986 AMOR K "Zr(99.8%),Co(99.998%)" Ar-arc melting. melt-spun onto a roller at liq.N2 temp. "Superconductivity, normal-state resistivity, and magnetic susceptivility of amorphous Zr-Co alloys" 1986 "Department of Solid State Physics, The Royal Institute of Technology, Stockholm, Sweden" "Phys.Rev.B, 34(1986)4558"
50147 PR0394677 "quasihydrostatic pressure upto 8 GPa. Tc shows extraporated (P=0) value from Tc(P). two-step transition. maybe, existence of omega-phase Zr." Ni1-xZrx Ni20Zr80 Ni 20 Zr 80 1989 AMOR K 3.77 3.77 K/GPa 0.148 amorphous ribbon prepared by melt spinning onto Cu-wheel. Pressure dependence of superconductivity in amorphous ZrxNi100-x alloys 1989 "Brock University, St.Catharines, Ontario, Canada" "Phys.Rev.B, 34(1989)4677"
50148 PR0394677 quasihydrostatic pressure upto 8 GPa. Tc shows extraporated (P=0) value from Tc(P). Ni1-xZrx Ni29Zr71 Ni 29 Zr 71 1989 AMOR K 2.92 2.92 K/GPa 0.107 amorphous ribbon prepared by melt spinning onto Cu-wheel. Pressure dependence of superconductivity in amorphous ZrxNi100-x alloys 1989 "Brock University, St.Catharines, Ontario, Canada" "Phys.Rev.B, 34(1989)4677"
50149 PR0394677 quasihydrostatic pressure upto 8 GPa. Tc shows extraporated (P=0) value from Tc(P). Ni1-xZrx Ni33Zr67 Ni 33 Zr 67 1989 AMOR K 2.6 2.6 K/GPa 0.081 amorphous ribbon prepared by melt spinning onto Cu-wheel. Pressure dependence of superconductivity in amorphous ZrxNi100-x alloys 1989 "Brock University, St.Catharines, Ontario, Canada" "Phys.Rev.B, 34(1989)4677"
50150 PR0394677 quasihydrostatic pressure upto 8 GPa. Tc shows extraporated (P=0) value from Tc(P). Ni1-xZrx Ni36.5Zr63.5 Ni 36.5 Zr 63.5 1989 AMOR K 2.44 2.44 K/GPa 0.047 amorphous ribbon prepared by melt spinning onto Cu-wheel. Pressure dependence of superconductivity in amorphous ZrxNi100-x alloys 1989 "Brock University, St.Catharines, Ontario, Canada" "Phys.Rev.B, 34(1989)4677"
50151 PR0394677 quasihydrostatic pressure upto 8 GPa. Tc shows extraporated (P=0) value from Tc(P). Ni1-xZrx Ni40Zr60 Ni 40 Zr 60 1989 AMOR K 2.31 2.31 K/GPa 0.0245 amorphous ribbon prepared by melt spinning onto Cu-wheel. Pressure dependence of superconductivity in amorphous ZrxNi100-x alloys 1989 "Brock University, St.Catharines, Ontario, Canada" "Phys.Rev.B, 34(1989)4677"
50152 PR0394677 quasihydrostatic pressure upto 8 GPa. Tc shows extraporated (P=0) value from Tc(P). Ni1-xZrx Ni45Zr55 Ni 45 Zr 55 1989 AMOR K 2 2 K/GPa -0.075 amorphous ribbon prepared by melt spinning onto Cu-wheel. Pressure dependence of superconductivity in amorphous ZrxNi100-x alloys 1989 "Brock University, St.Catharines, Ontario, Canada" "Phys.Rev.B, 34(1989)4677"
50153 JIM0210115 Nb1-xSix Nb82Si18 Nb 82 Si 18 1980 AMOR K 4.4 4.4 mother compound melted in arc-furnace. rapid quench using Cu-roll. Superconductivity of ductile Nb-based amorphous alloys 1980 "Tohoku University, Japan" "Trans.JIM, 21(1980)115"
50154 JIM0210115 Nb1-xSix Nb81Si19 Nb 81 Si 19 1980 AMOR K 4.35 4.35 MTC50154 mother compound melted in arc-furnace. rapid quench using Cu-roll. Superconductivity of ductile Nb-based amorphous alloys 1980 "Tohoku University, Japan" "Trans.JIM, 21(1980)115"
50155 JIM0210115 Nb1-xSix Nb80Si20 Nb 80 Si 20 1980 AMOR K 4.23 4.23 mother compound melted in arc-furnace. rapid quench using Cu-roll. Superconductivity of ductile Nb-based amorphous alloys 1980 "Tohoku University, Japan" "Trans.JIM, 21(1980)115"
50156 JIM0210115 Hc2(0) shows Hc2(4.2K) "(Nb,Mo)0.8Si0.2" Nb70Mo10Si20 Nb 70 Mo 10 Si 20 1980 AMOR K 4.8 4.8 T RES 1.16 1.16 4.2 T/K RES 2.89 mother compound melted in arc-furnace. rapid quench using Cu-roll. Superconductivity of ductile Nb-based amorphous alloys 1980 "Tohoku University, Japan" "Trans.JIM, 21(1980)115"
50157 JIM0210115 Jc(4.2K) in A/cm2. "(Nb,Mo)0.8Si0.2" Nb60Mo20Si20 Nb 60 Mo 20 Si 20 1980 AMOR K 5 5 4600 mother compound melted in arc-furnace. rapid quench using Cu-roll. Superconductivity of ductile Nb-based amorphous alloys 1980 "Tohoku University, Japan" "Trans.JIM, 21(1980)115"
50158 JIM0210115 Hc2(0) shows Hc2(4.2K). Jc(4.2K) in A/cm2. "(Nb,Mo)0.8Si0.2" Nb55Mo25Si20 Nb 55 Mo 25 Si 20 1980 AMOR K 5.3 5.3 T RES 2.89 2.89 4.2 T/K RES 2.89 11000 mother compound melted in arc-furnace. rapid quench using Cu-roll. Superconductivity of ductile Nb-based amorphous alloys 1980 "Tohoku University, Japan" "Trans.JIM, 21(1980)115"
50159 JIM0210115 "(Nb,Si)0.96C0.04" Nb80Si16C4 Nb 80 Si 16 C 4 1980 AMOR K 4.5 4.5 mother compound melted in arc-furnace. rapid quench using Cu-roll. Superconductivity of ductile Nb-based amorphous alloys 1980 "Tohoku University, Japan" "Trans.JIM, 21(1980)115"
50160 JIM0210115 Hc2(0) shows Hc2(4.2K) "(Nb,Si)0.96Ge0.04" Nb80Si16Ge4 Nb 80 Si 16 Ge 4 1980 AMOR K 4.7 4.7 T RES 0.54 0.54 4.2 T/K RES 2.76 mother compound melted in arc-furnace. rapid quench using Cu-roll. Superconductivity of ductile Nb-based amorphous alloys 1980 "Tohoku University, Japan" "Trans.JIM, 21(1980)115"
50161 JIM0210115 Hc2(0) shows Hc2(4.2K). Jc(4.2K) in A/cm2. "(Nb,Si)0.96B0.04" Nb80Si16B4 Nb 80 Si 16 B 4 1980 AMOR K 4.7 4.7 T RES 0.8 0.8 4.2 T/K RES 2.39 4400 mother compound melted in arc-furnace. rapid quench using Cu-roll. Superconductivity of ductile Nb-based amorphous alloys 1980 "Tohoku University, Japan" "Trans.JIM, 21(1980)115"
90000 L093247004 "RRR=6.5. structure: cubic, composed of distorted Pd6B octahedrons. Hc2(0)=6.2 T from linear extraporation. (delta-C/Tc) = 20.78 mj/mol.K2." Li2Pd3B Li2Pd3B1 Li 2 Pd 3 B 1 2004 A 6.7523 K 8.2 8 8 T 4.8 T/K 0.84 arc-melting Superconductivity in the Metal Rich Li-Pd-B Ternary Boride 2004 "Institute for Materials Research, Tohoku University, 2-1-1, Katahira, Aoba-ku, Sendai, Japan" "Phys.Rev.Lett., 93(2004)247004"
90001 L094107002 "Two step s/c transition at Tc1=1.86 K, Tc2=1.72 K.. Two Hc1(0), 31 Oe and 44 Oe. Maybe 3rd s/c phase (Tc3=0.6 K)" PrOs4Sb12 Pr1Os4Sb12 Pr 1 Os 4 Sb 12 2005 skutterudite skutterudite K 1.86 1.86 Oe 44 MHC90001 Sb-flux method Pronounced Enhancement of the Lower Critical Field and Critical Current Deep in the Superconducting State of PrOs4Sb12 2005 "Max Planck Institute for Chemical Physics of Solids, Dresden, Germany" "Phys.Rev.Lett., 94(2005)107002"
90002 L094107005 point contact tunneling (150 mK to 2.5 K). Two gaps (d1(0) = 0.95 meV and d2(0) = 2.4 meV) are observed. [gapene] shows higher value. CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 2005 K 2.3 2.3 MTC13320 meV 2.4 24 1 self-flux method Spectroscopic Evidence for Multiple Order Parameter Components in the Heavy Fermion Superconductor CeCoIn5 2005 "Department of Physics, University of Toronto, Toronto, Ontario, M5S 1A7 Canada" "Phys.Rev.Lett., 94(2005)107005"
90003 ANG0351685 La9Br5(CBC)3 La9Br5B3C6 La 9 Br 5 B 3 C 6 1996 K 6 6 La9Br5(CBC)3: A new superconductor 1996 "Angew.Chem.Int.ed.Engl., 35(1996)1685"
90004 L094107001 RRR=5. R=A*T^2. Resistive Hc2 is different from diamagnetic Hc2. CePt3Si Ce1Pt3Si1 Ce 1 Pt 3 Si 1 1 2005 K 0.68 0.68 "arc-melting - ANN(900C,5-10 d)" Low-Temperature Susceptibility of the Noncentrosymmetric Superconductor CePt3Si 2005 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana, 70803, USA" "Phys.Rev.Lett., 94(2005)107001"
90005 L094107001 "(Ce,La)Pt3Si" Ce0.99La0.01Pt3Si1 Ce 0.99 La 0.01 Pt 3 Si 1 1 2005 K 0.57 0.57 "arc-melting - ANN(900C,5-10 d)" Low-Temperature Susceptibility of the Noncentrosymmetric Superconductor CePt3Si 2005 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana, 70803, USA" "Phys.Rev.Lett., 94(2005)107001"
90006 L094107001 "(Ce,La)Pt3Si" Ce0.985La0.015Pt3Si1 Ce 0.985 La 0.015 Pt 3 Si 1 1 2005 K 0.15 0.15 "arc-melting - ANN(900C,5-10 d)" Low-Temperature Susceptibility of the Noncentrosymmetric Superconductor CePt3Si 2005 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana, 70803, USA" "Phys.Rev.Lett., 94(2005)107001"
90007 L094107001 "(Ce,La)Pt3Si" Ce0.98La0.02Pt3Si1 Ce 0.98 La 0.02 Pt 3 Si 1 1 2005 K 0.03 0.03 "arc-melting - ANN(900C,5-10 d)" Low-Temperature Susceptibility of the Noncentrosymmetric Superconductor CePt3Si 2005 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana, 70803, USA" "Phys.Rev.Lett., 94(2005)107001"
90008 L094107001 not s/c. "(Ce,La)Pt3Si" Ce0.97La0.03Pt3Si1 Ce 0.97 La 0.03 Pt 3 Si 1 1 2005 K "arc-melting - ANN(900C,5-10 d)" Low-Temperature Susceptibility of the Noncentrosymmetric Superconductor CePt3Si 2005 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana, 70803, USA" "Phys.Rev.Lett., 94(2005)107001"
90009 P071060502 B-doped diamond. B-content = 2.5 E+21 B/cm3. carrier = 1.8 /cm3 from Hall effect. (dC/gamma*Tc) = 0.5 diamond C1 C 1 2005 diamond diamond K 3.4 4.5 3.95 T "Tc(on), WHH theory" 14 T/K Tc(on) 4.7 MHC90009 A Hc2 48 mj/mol.K2 0.113 1440 starting (4 wt% B - diamond) Superconducting and normal-state properties of heavily hole-doped diamond 2005 "Vereshchagin Institute for High Pressure Physics, Russian Academy of Sciences, 142190 Troitsk, Moscow Region, Russia" "Phys.Rev.B, 71(2005)060502"
90010 P071064505 "(Cu,K)1.5Co1.5S4" Cu1.3K0.2Co1.5S4 Cu 1.3 K 0.2 Co 1.5 S 4 1 2005 spinel spinel K 4.37 4.54 4.4 4.4 T 1.89 "CuS,Co,K2CO3,S" "Chemical reaction. SIN(1073K, 48h) in evacuated quartz tube." Superconductivity in thiospinel Cu1.3K0.2Co1.5S4 2005 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People's Republic of China" "Phys.Rev.B, 71(2005)064505"
90011 SST017S250 RR=2.15 microOhmcm. e-ph = 0.67. Hc2 defined as disapperance of Andreev reflection. ZrB12 B12Zr1 B 12 Zr 1 3 2004 UB12 A 7.4072 UB12 K 6.2 6.2 T Andreev reflection 0.112 MHC90011 meV 1.22 4.8 283 Broch-Gruneisen eq. R floating zone method Andreev-reflection spectroscopy in ZrB12 single crystals 2004 "INFM?Dipartimento di Fisica, Politecnico di Torino, 10129 Torino, Italy" "Supercond.Sci.Technol., 17(2004)S250"
90012 P071064508 SP-heat. gamma and debye-T by fitting for Gamma<3> ground state. PrOs4Sb12 Pr1Os4Sb12 Pr 1 Os 4 Sb 12 2005 skutterudite skutterudite K 1.77 1.77 mj/mol.K2 421 SP-heat 186 SP-heat "Evolution of crystalline electric field effects, superconductivity, and heavy-fermion behavior in the specific heat of Pr(Os1-xRux)4Sb12" 2005 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 71(2005)064508"
90013 P071064508 SP-heat. gamma and debye-T by fitting for Gamma<3> ground state. "Pr(Os,Ru)4Sb12" Pr1Os3.8Ru0.2Sb12 Pr 1 Os 3.8 Ru 0.2 Sb 12 2005 skutterudite skutterudite K 1.63 1.63 mj/mol.K2 617 SP-heat 199 SP-heat "Evolution of crystalline electric field effects, superconductivity, and heavy-fermion behavior in the specific heat of Pr(Os1-xRux)4Sb12" 2005 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 71(2005)064508"
90014 P071064508 SP-heat. gamma and debye-T by fitting for Gamma<3> ground state. "Pr(Os,Ru)4Sb12" Pr1Os3.6Ru0.4Sb12 Pr 1 Os 3.6 Ru 0.4 Sb 12 2005 skutterudite skutterudite K 1.62 1.62 mj/mol.K2 565 SP-heat 200 SP-heat "Evolution of crystalline electric field effects, superconductivity, and heavy-fermion behavior in the specific heat of Pr(Os1-xRux)4Sb12" 2005 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 71(2005)064508"
90015 P071064508 SP-heat. gamma and debye-T by fitting for Gamma<3> ground state. "Pr(Os,Ru)4Sb12" Pr1Os3.2Ru0.8Sb12 Pr 1 Os 3.2 Ru 0.8 Sb 12 2005 skutterudite skutterudite K 1.54 1.54 mj/mol.K2 393 SP-heat 152 SP-heat "Evolution of crystalline electric field effects, superconductivity, and heavy-fermion behavior in the specific heat of Pr(Os1-xRux)4Sb12" 2005 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 71(2005)064508"
90016 P071064508 SP-heat. gamma and debye-T by fitting for Gamma<3> ground state. "Pr(Os,Ru)4Sb12" Pr1Os2.4Ru1.6Sb12 Pr 1 Os 2.4 Ru 1.6 Sb 12 2005 skutterudite skutterudite K 1.21 1.21 mj/mol.K2 138 SP-heat 138 SP-heat "Evolution of crystalline electric field effects, superconductivity, and heavy-fermion behavior in the specific heat of Pr(Os1-xRux)4Sb12" 2005 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 71(2005)064508"
90017 P071064508 SP-heat. gamma and debye-T by fitting for Gamma<3> ground state. "Pr(Os,Ru)4Sb12" Pr1Os1.6Ru2.4Sb12 Pr 1 Os 1.6 Ru 2.4 Sb 12 2005 skutterudite skutterudite K 0.75 0.75 mj/mol.K2 35.8 SP-heat 181 SP-heat "Evolution of crystalline electric field effects, superconductivity, and heavy-fermion behavior in the specific heat of Pr(Os1-xRux)4Sb12" 2005 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 71(2005)064508"
90018 P071064508 SP-heat. gamma and debye-T by fitting for Gamma<3> ground state. "Pr(Os,Ru)4Sb12" Pr1Os0.6Ru3.4Sb12 Pr 1 Os 0.6 Ru 3.4 Sb 12 2005 skutterudite skutterudite K 0.94 0.94 mj/mol.K2 49.3 SP-heat 218 SP-heat "Evolution of crystalline electric field effects, superconductivity, and heavy-fermion behavior in the specific heat of Pr(Os1-xRux)4Sb12" 2005 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 71(2005)064508"
90019 P071064508 SP-heat. gamma and debye-T by fitting for Gamma<3> ground state. PrRu4Sb12 Pr1Ru4Sb12 Pr 1 Ru 4 Sb 12 2005 skutterudite skutterudite K 1.11 1.11 mj/mol.K2 59.1 SP-heat 232 SP-heat "Evolution of crystalline electric field effects, superconductivity, and heavy-fermion behavior in the specific heat of Pr(Os1-xRux)4Sb12" 2005 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 71(2005)064508"
90020 PHC2710311 lattice constant by NED. s/c properties not measured. HoNiBC Ho1Ni1B1C1 Ho 1 Ni 1 B 1 C 1 1996 9.82 Er4Rh6Sn19 A 3.5631 7.5486 K arc-melting Neutoron powder diffraction study of the nuclear and magnetic structures of HoNi1.985Co0.015B2C and HoNiBC 1996 "Reactor Radiation Division,National Institute of Standards and Technology, Gaithersburg, MD 20899, USA" "Physica.C,271(1996)311-318"
90021 MRB0170963 Er4Ru6Sn19 Er4Ru6Sn19 Er 4 Ru 6 Sn 19 1982 Er4Rh6Sn19 A 13.73 27.354 "Er4Rh6Sn19 type, Pearson=tI232" K 1.1 Isotherms of the superconducting/magnetic ternary stannides 1982 "Mat.Res.Bull., 17(1982)963"
90022 MRB0170963 Lu4Ru6Sn19 Lu4Ru6Sn19 Lu 4 Ru 6 Sn 19 1982 Er4Rh6Sn19 A 13.692 27.263 "Er4Rh6Sn19 type, Pearson=tI232" K 1.1 Isotherms of the superconducting/magnetic ternary stannides 1982 "Mat.Res.Bull., 17(1982)963"
90023 MRB0170963 Er4Co6Sn19 Er4Co6Sn19 Er 4 Co 6 Sn 19 1982 Er4Rh6Sn19 A 13.529 26.932 "Er4Rh6Sn19 type, Pearson=tI232" K 1.1 Isotherms of the superconducting/magnetic ternary stannides 1982 "Mat.Res.Bull., 17(1982)963"
90024 MRB0170963 Lu4Co6Sn19 Lu4Co6Sn19 Lu 4 Co 6 Sn 19 1982 Er4Rh6Sn19 "Er4Rh6Sn19 type, Pearson=tI232" K 1.5 1.5 Isotherms of the superconducting/magnetic ternary stannides 1982 "Mat.Res.Bull., 17(1982)963"
90025 MRB0170963 Sc4Rh6Sn19 Sc4Rh6Sn19 Sc 4 Rh 6 Sn 19 1982 Er4Rh6Sn19 A 13.565 27.034 "Er4Rh6Sn19 type, Pearson=tI232" K 4.5 4.5 Isotherms of the superconducting/magnetic ternary stannides 1982 "Mat.Res.Bull., 17(1982)963"
90026 MRB0170963 Y4Rh6Sn19 Y4Rh6Sn19 Y 4 Rh 6 Sn 19 1982 Er4Rh6Sn19 A 13.772 27.456 "Er4Rh6Sn19 type, Pearson=tI232" K 3.2 3.2 Isotherms of the superconducting/magnetic ternary stannides 1982 "Mat.Res.Bull., 17(1982)963"
90027 MRB0170963 Ho4Rh6Sn19 Ho4Rh6Sn19 Ho 4 Rh 6 Sn 19 1982 Er4Rh6Sn19 A 13.747 27.388 "Er4Rh6Sn19 type, Pearson=tI232" K 1.1 Isotherms of the superconducting/magnetic ternary stannides 1982 "Mat.Res.Bull., 17(1982)963"
90028 MRB0170963 Er4Rh6Sn19 Er4Rh6Sn19 Er 4 Rh 6 Sn 19 1982 Er4Rh6Sn19 A 13.725 27.365 "Er4Rh6Sn19 type, Pearson=tI232" K 1.2 1.2 Isotherms of the superconducting/magnetic ternary stannides 1982 "Mat.Res.Bull., 17(1982)963"
90029 MRB0170963 Tm4Rh6Sn19 Tm4Rh6Sn19 Tm 4 Rh 6 Sn 19 1982 Er4Rh6Sn19 A 13.706 27.32 "Er4Rh6Sn19 type, Pearson=tI232" K 2.3 2.3 Isotherms of the superconducting/magnetic ternary stannides 1982 "Mat.Res.Bull., 17(1982)963"
90030 MRB0170963 Lu4Rh6Sn19 Lu4Rh6Sn19 Lu 4 Rh 6 Sn 19 1982 Er4Rh6Sn19 A 13.693 27.289 "Er4Rh6Sn19 type, Pearson=tI232" K 4 4 Isotherms of the superconducting/magnetic ternary stannides 1982 "Mat.Res.Bull., 17(1982)963"
90031 MRB0170963 Sc4Ir6Sn19 Sc4Ir6Sn19 Sc 4 Ir 6 Sn 19 1982 Er4Rh6Sn19 A 13.574 27.057 "Er4Rh6Sn19 type, Pearson=tI232" K 1.1 1.1 Isotherms of the superconducting/magnetic ternary stannides 1982 "Mat.Res.Bull., 17(1982)963"
90032 MRB0170963 Er4Ir6Sn19 Er4Ir6Sn19 Er 4 Ir 6 Sn 19 1982 Er4Rh6Sn19 A 13.756 27.402 "Er4Rh6Sn19 type, Pearson=tI232" K 1.1 Isotherms of the superconducting/magnetic ternary stannides 1982 "Mat.Res.Bull., 17(1982)963"
90033 MRB0170963 Tm4Ir6Sn19 Tm4Ir6Sn19 Tm 4 Ir 6 Sn 19 1982 Er4Rh6Sn19 A 13.727 27.371 "Er4Rh6Sn19 type, Pearson=tI232" K 1.1 Isotherms of the superconducting/magnetic ternary stannides 1982 "Mat.Res.Bull., 17(1982)963"
90034 MRB0170963 Yb4Ir6Sn19 Yb4Ir6Sn19 Yb 4 Ir 6 Sn 19 1982 Er4Rh6Sn19 A 13.757 27.444 "Er4Rh6Sn19 type, Pearson=tI232" K 1.1 Isotherms of the superconducting/magnetic ternary stannides 1982 "Mat.Res.Bull., 17(1982)963"
90035 MRB0170963 Lu4Ir6Sn19 Lu4Ir6Sn19 Lu 4 Ir 6 Sn 19 1982 Er4Rh6Sn19 A 13.708 27.325 "Er4Rh6Sn19 type, Pearson=tI232" K 3.2 3.2 Isotherms of the superconducting/magnetic ternary stannides 1982 "Mat.Res.Bull., 17(1982)963"
90036 LES0710135 InMo3Se3 In1Mo3Se3 In 1 Mo 3 Se 3 1980 Tl2Fe6Te6 P6<3>/m A 8.835 4.492 "Tl2Fe6Te6 type, Pearson=tI232" K 1 1980 "J.Less-Common Met., 71(1980)135"
90037 LES0710135 InMo3Te3 In1Mo3Te3 In 1 Mo 3 Te 3 1980 Tl2Fe6Te6 P6<3>/m A 9.326 4.59 "Tl2Fe6Te6 type, Pearson=tI232" K 1 1980 "J.Less-Common Met., 71(1980)135"
90038 LES0710135 TlMo3Se3 Tl1Mo3Se3 Tl 1 Mo 3 Se 3 1980 Tl2Fe6Te6 P6<3>/m A 8.918 4.482 "Tl2Fe6Te6 type, Pearson=tI232" K 1 1980 "J.Less-Common Met., 71(1980)135"
90039 LES0710135 TlMo3Te3 Tl1Mo3Te3 Tl 1 Mo 3 Te 3 1980 Tl2Fe6Te6 P6<3>/m A 9.428 4.583 "Tl2Fe6Te6 type, Pearson=tI232" K 5.84 5.84 1980 "J.Less-Common Met., 71(1980)135"
90040 LES0710135 TlFe3Te3 Tl1Fe3Te3 Tl 1 Fe 3 Te 3 1980 Tl2Fe6Te6 P6<3>/m A 9.35 4.223 "Tl2Fe6Te6 type, Pearson=tI232" K 1 1980 "J.Less-Common Met., 71(1980)135"
90041 MRB0190915 Li2Mo6Se6 Li2Mo6Se6 Li 2 Mo 6 Se 6 1984 Tl2Fe6Te6 A 8.513 4.48 "Tl2Fe6Te6 type, Pearson=tI232" K 1 "A facile synthesis of pseudo one-monodimensional ternary molybdenum chalcogenides M2Mo6X6 (X = Se,Te; M = Li,Na..Cs) " 1984 "Mater.Res.Bull., 19(1984)915"
90042 MRB0190915 Na2Mo6Se6 Na2Mo6Se6 Na 2 Mo 6 Se 6 1984 Tl2Fe6Te6 A 8.629 4.479 "Tl2Fe6Te6 type, Pearson=tI232" K 1 "A facile synthesis of pseudo one-monodimensional ternary molybdenum chalcogenides M2Mo6X6 (X = Se,Te; M = Li,Na..Cs) " 1984 "Mater.Res.Bull., 19(1984)915"
90043 MRB0190915 K2Mo6Se6 K2Mo6Se6 K 2 Mo 6 Se 6 1984 Tl2Fe6Te6 A 9.022 4.481 "Tl2Fe6Te6 type, Pearson=tI232" K 1 "A facile synthesis of pseudo one-monodimensional ternary molybdenum chalcogenides M2Mo6X6 (X = Se,Te; M = Li,Na..Cs) " 1984 "Mater.Res.Bull., 19(1984)915"
90044 MRB0190915 Rb2Mo6Se6 Rb2Mo6Se6 Rb 2 Mo 6 Se 6 1984 Tl2Fe6Te6 A 9.243 4.483 "Tl2Fe6Te6 type, Pearson=tI232" K 1 "A facile synthesis of pseudo one-monodimensional ternary molybdenum chalcogenides M2Mo6X6 (X = Se,Te; M = Li,Na..Cs) " 1984 "Mater.Res.Bull., 19(1984)915"
90045 MRB0190915 Cs2Mo6Se6 Cs2Mo6Se6 Cs 2 Mo 6 Se 6 1984 Tl2Fe6Te6 A 9.533 4.484 "Tl2Fe6Te6 type, Pearson=tI232" K 1 "A facile synthesis of pseudo one-monodimensional ternary molybdenum chalcogenides M2Mo6X6 (X = Se,Te; M = Li,Na..Cs) " 1984 "Mater.Res.Bull., 19(1984)915"
90046 MRB0190915 In2Mo6Se6 In2Mo6Se6 In 2 Mo 6 Se 6 1984 Tl2Fe6Te6 A 8.851 4.497 "Tl2Fe6Te6 type, Pearson=tI232" K 1 "A facile synthesis of pseudo one-monodimensional ternary molybdenum chalcogenides M2Mo6X6 (X = Se,Te; M = Li,Na..Cs) " 1984 "Mater.Res.Bull., 19(1984)915"
90047 MRB0190915 Te2Mo6Se6 Te2Mo6Se6 Te 2 Mo 6 Se 6 1984 Tl2Fe6Te6 A 8.933 4.478 "Tl2Fe6Te6 type, Pearson=tI232" K 3 3 "A facile synthesis of pseudo one-monodimensional ternary molybdenum chalcogenides M2Mo6X6 (X = Se,Te; M = Li,Na..Cs) " 1984 "Mater.Res.Bull., 19(1984)915"
90048 A097073903 RRR=2.5. (dC/Tc)=27 mj/mol.K2. (dC/gamma*Tc) = 2.7. PENET = 2001 A at 1.8K.. G-L = 17.3. La3Ir2Ge2 La3Ir2Ge2 La 3 Ir 2 Ge 2 1 2005 La3Ni2Ga2 Pbcm A 5.819 8.217 13.644 K 4.7 4.7 4.7 Oe 117 1.8 T WHH 2.69 2.46 1.8 T/K 0.83 A 111 mj/mol.K 126.9 mj/mol.K2 10 uOhm.cm 71.4 "arc-melting in Ar, ANN(800C), then Quench." Short-range magnetic correlation with Kondo-lattice behavior in Ce3Ir2Ge2 and superconductivity in La3Ir2Ge2 2005 3 "Institute for Materials Research, Tohoku University, Oarai, Ibaraki, 311-1313 Japan" "J.Appl.Phys., 97(2005)073903"
90049 A097073903 Ce3Ir2Ge2 Ce3Ir2Ge2 Ce 3 Ir 2 Ge 2 1 2005 uB/Ce 1.92 -29.1 7.5 La3Ni2Ga2 Pbcm 5.729 8.124 13.507 K 2 "arc-melting in Ar, ANN(800C), then Quench." Short-range magnetic correlation with Kondo-lattice behavior in Ce3Ir2Ge2 and superconductivity in La3Ir2Ge2 2005 3 "Institute for Materials Research, Tohoku University, Oarai, Ibaraki, 311-1313 Japan" "J.Appl.Phys., 97(2005)073903"
90050 JPS0733389 La<139>-NMR. e-ph = 1.0 estimated from Debye-T. La3Ir2Ge2 La3Ir2Ge2 La 3 Ir 2 Ge 2 1 2004 La3Ni2Ga2 K 4.7 4.7 3.52 6 "arc-melting in Ar, ANN(800C), then Quench." <139>La NQR Relaxation in a Superconductor La3Ir2Ge2 2004 "Department of Physics, Faculty of Engineering, University of Tokushima, Tokushima, Japan" "J.Phys.Soc.Jpn, 73(2004)3389"
90051 SST0180183 MgB2 B2Mg1 B 2 Mg 1 1 2005 AlB2 K 38.6 38.6 T WHH 14.2 MHC90051 "mixture(Mg,B,Al) wrapped in Ta-foil, then heat(950C,2h, 3.5 GPa)" The upper critical field and two-gap nature in Mg1-xAlxB2 2005 "Pohang University of Science and Technology, Pohang, Korea" "Supercond.Sci.Technol., 18(2005)183"
90052 SST0180183 "(Mg,Al)B2" Mg0.9Al0.1B2 Mg 0.9 Al 0.1 B 2 1 2005 AlB2 K 37.5 37.5 T WHH 10.8 "mixture(Mg,B,Al) wrapped in Ta-foil, then heat(950C,2h, 3.5 GPa)" The upper critical field and two-gap nature in Mg1-xAlxB2 2005 "Pohang University of Science and Technology, Pohang, Korea" "Supercond.Sci.Technol., 18(2005)183"
90053 SST0180183 "(Mg,Al)B2" Mg0.8Al0.2B2 Mg 0.8 Al 0.2 B 2 1 2005 AlB2 K 33.4 33.4 T WHH 9.1 "mixture(Mg,B,Al) wrapped in Ta-foil, then heat(950C,2h, 3.5 GPa)" The upper critical field and two-gap nature in Mg1-xAlxB2 2005 "Pohang University of Science and Technology, Pohang, Korea" "Supercond.Sci.Technol., 18(2005)183"
90054 SST0180183 "(Mg,Al)B2" Mg0.7Al0.3B2 Mg 0.7 Al 0.3 B 2 1 2005 AlB2 K 26.7 26.7 T WHH 5.2 "mixture(Mg,B,Al) wrapped in Ta-foil, then heat(950C,2h, 3.5 GPa)" The upper critical field and two-gap nature in Mg1-xAlxB2 2005 "Pohang University of Science and Technology, Pohang, Korea" "Supercond.Sci.Technol., 18(2005)183"
90095 PRL0391161 Pcrit = 34 kbar. Tc monotonically increases upto 48 kbar. Tc(max) = 0.5 K at P=48 kbar. Ba Ba1 Ba 1 1977 bcc K 0.5 0 0.5 MTC90095 Superconductivity of bcc Barium under Pressure 1977 "Phys.Rev.Lett., 39(1977)1161"
90096 PRB0250194 Tc decreases from 4.8 K(P=251 kbar) to 4.2 K(P=383 kbar). Ba Ba1 Ba 1 1982 K 4.8 0 4.8 MTC90096 Pressure-induced superconductivity in strontium and barium 1982 "Phys.Rev.B, 42(1982)194"
90097 PRB0250194 Pcrit = 300 kbar. Sr Sr1 Sr 1 1982 K 3.55 0 3.55 MTC90097 Pressure-induced superconductivity in strontium and barium 1982 "Phys.Rev.B, 42(1982)194"
90098 PRL0231375 beta-La La La1 La 1 1969 fcc K 5.9 5.9 MTC90098 K/GPa 1.31 Pressure-Induced Magnetic-Nonmagnetic Transition of Ce Impurities in La 1969 "Phys.Rev.Lett., 23(1969)1375"
90099 PRL0231375 alpha-La La La1 La 1 1969 dhcp K 4.86 4.86 MTC90099 K/GPa 1.4 Pressure-Induced Magnetic-Nonmagnetic Transition of Ce Impurities in La 1969 "Phys.Rev.Lett., 23(1969)1375"
90100 PRL0231375 La1-xCex Ce0.0007La0.9993 Ce 0.0007 La 0.9993 1969 fcc K 4.65 4.65 MTC90098 Pressure-Induced Magnetic-Nonmagnetic Transition of Ce Impurities in La 1969 "Phys.Rev.Lett., 23(1969)1375"
90101 PRL0231375 La1-xCex Ce0.013La0.987 Ce 0.013 La 0.987 1969 fcc K 3.7 3.7 MTC90098 Pressure-Induced Magnetic-Nonmagnetic Transition of Ce Impurities in La 1969 "Phys.Rev.Lett., 23(1969)1375"
90102 PRL0231375 La1-xCex Ce0.013La0.987 Ce 0.013 La 0.987 1969 dhcp K 3.1 3.1 MTC90099 Pressure-Induced Magnetic-Nonmagnetic Transition of Ce Impurities in La 1969 "Phys.Rev.Lett., 23(1969)1375"
90103 PRL0231375 La1-xCex Ce0.02La0.98 Ce 0.02 La 0.98 1969 fcc K 2.56 2.56 MTC90098 Pressure-Induced Magnetic-Nonmagnetic Transition of Ce Impurities in La 1969 "Phys.Rev.Lett., 23(1969)1375"
90104 PRL0420469 Pcrit = 180 kbar. Tc(max) = 0.34 K (P=215 kbar). Sc Sc1 Sc 1 1979 hcp K 0.34 0 0.34 MTC90104 Superconductivity in a New High-Pressure Phase of Scandium 1979 "Phys.Rev.Lett., 42(1979)469"
90105 JPS0593843 "99.8% purity. Phase transitions at P=7 and 31 GPa (hcp - hexagonal - bcc). dTc/dP = 0.12 K/GPa (hex), = -0.14 K/GPa (bcc)." Zr Zr1 Zr 1 1990 K 0.52 0.52 MTC90105 SUPERCONDUCTIVITY AND PHASE TRANSITION OF ZIRCONIUM UNDER HIGHPRESSURE UP TO 50 GPA 1990 11 "J.PHYS.SOC.JAPAN,59(1990)3843" ZR
90106 PRL0794262 Tc depends on the pressure medium used and on the compression process. Nb Nb1 Nb 1 1997 K 9.2 9.2 MTC90106 Superconducting Tc and electron-phonon coupling in Nb to 132 GPa: Magnetic susceptibility at megabar pressures 1997 "Phys.Rev.Lett., 79(1997)4262"
90107 PRL0794262 Ta Ta1 Ta 1 1997 K 4.4 4.4 MTC90107 Superconducting Tc and electron-phonon coupling in Nb to 132 GPa: Magnetic susceptibility at megabar pressures 1997 "Phys.Rev.Lett., 79(1997)4262"
90108 PR1120031 Sn Sn1 Sn 1 1958 K 3.732 3.732 MTC90108 K/GPa -0.49 "Effects of pressure on the superconducting transition temperatures of Sn, In, Ta, Tl, and Hg" 1958 "Phys.Rev., 112(1958)31"
90109 PR1120031 In In1 In 1 1958 K 3.403 3.403 MTC90109 K/GPa -0.43 "Effects of pressure on the superconducting transition temperatures of Sn, In, Ta, Tl, and Hg" 1958 "Phys.Rev., 112(1958)31"
90110 PR1120031 Ta Ta1 Ta 1 1958 K 4.301 4.301 MTC90110 K/GPa -0.026 "Effects of pressure on the superconducting transition temperatures of Sn, In, Ta, Tl, and Hg" 1958 "Phys.Rev., 112(1958)31"
90111 PR1120031 Tl Tl1 Tl 1 1958 K 2.38 2.38 MTC90111 K/GPa 0.237 "Effects of pressure on the superconducting transition temperatures of Sn, In, Ta, Tl, and Hg" 1958 "Phys.Rev., 112(1958)31"
90112 PR1120031 alpha-Hg Hg1 Hg 1 1958 K 4.156 4.156 MTC90112 K/GPa -0.336 "Effects of pressure on the superconducting transition temperatures of Sn, In, Ta, Tl, and Hg" 1958 "Phys.Rev., 112(1958)31"
90113 PR1120031 beta-Hg Hg1 Hg 1 1958 K 4.017 4.017 MTC90112 K/GPa -0.43 "Effects of pressure on the superconducting transition temperatures of Sn, In, Ta, Tl, and Hg" 1958 "Phys.Rev., 112(1958)31"
90114 PRL0350104 Al Al1 Al 1 1975 K 1.18 1.18 MTC90114 High-pressure effects on the superconducting transition temperature of aluminum 1975 "Phys.Rev.Lett., 35(1975)104"
90115 PRL0441623 "The lower and upper pressure phases (metallic) with different Tc exist. The lower Tc(max)=4.67 K, the upper Tc(max)=6.30 K." Te Te1 Te 1 1980 K 6.3 0 6.3 MTC90115 Pressure dependence of superconducting transition temperature of high-pressure metallic Te 1980 "Phys.Rev.Lett., 44(1980)1623"
90116 PR05016274 black-P(simple cubic). Pcrit = 11 GPa. P is continuously increased at 4.2 K. P P1 P 1 1994 cubic K 10.7 0 10.7 MTC90116 Phase transitions and superconductivity of black phosphorus and phosphorus-arsenic alloys at low temperatures and high pressures 1994 "Phys.Rev.B, 50(1994)16274"
90117 PR05016274 simple cubic. Pcrit = 16 GPa. P is continuously increased at 4.2 K. P1-xAsx As0.1P0.9 As 0.1 P 0.9 1994 cubic K 9.9 0 9.9 MTC90116 Phase transitions and superconductivity of black phosphorus and phosphorus-arsenic alloys at low temperatures and high pressures 1994 "Phys.Rev.B, 50(1994)16274"
90118 PR0465523 Pcrit = 27 GPa. Tc(max) = 2.4 K(P=32 GPa). As As1 As 1 1992 K 2.4 0 2.4 MTC90118 SUPERCONDUCTIVITY IN ARSENIC AT HIGH PRESSURES 1992 9 "PRESSURE ,TC ,PHASE TRANSITION" "DEPARTMENT OF PHYSICS, UNIVERSITY OF CALIFORNIA, BARKELEY" "PHYS.REV.B,46(1992)5523" AS
90119 PR0337820 amorphous. Pcrit = 15 GPa(Tc=7.6 K). Tc(max) = 8.4 K(P = 21 GPa). Tc decreases monotonically from Tc(max). Si Si1 Si 1 1986 K 8.4 0 8.4 MTC90119 K/GPa -0.053 Pressure-induced superconductivity in high-pressure phases of Si 1986 "Phys.Rev.B, 33(1986)7820"
90120 PR0337820 crystalline. Pcrit = 13 GPa(Tc=7.6 K). Tc(max) = 5.2 K(P =171 GPa). Tc decreases monotonically from Tc(max). Si Si1 Si 1 1986 K 5.2 0 5.2 MTC90119 K/GPa -0.044 Pressure-induced superconductivity in high-pressure phases of Si 1986 "Phys.Rev.B, 33(1986)7820"
90121 FTT0142527 "Fig.1 in Phys.Rev.Lett., 44(1980)1623." Te Te1 Te 1 1973 K 4.3 0 4.3 MTC90121 1973 "Sov.Phys.Solid State, 14(1973)2192"
90122 P071132508 T(CDW) and Tc measured upto P=11 GPa. ZrTe3 Te3Zr1 Te 3 Zr 1 3 2005 K 2.1 2.1 MTC90122 iodine transport method Pressure effect on competition between charge density wave and superconductivity in ZrTe3: Appearance of pressure-induced reentrant superconductivity 2005 "Department of Applied Physics, Graduate School of Engineering, Hokkaido University, Sapporo, Japan" "Phys.Rev.B, 71(2005)132508"
90123 P071144505 "RRR=7.2. DB shows values for sigma-band. For pai-band, gap=2.85 meV, gapene = 1.70." MgB2 B2Mg1 B 2 Mg 1 1 2005 AlB2 K 39 39 MHC90123 7.5 4.4 1 Critical field of Al-doped MgB2 samples: Correlation with the suppression of the sigma-band gap 2005 "INFM-LAMIA, Dipartimento di Fisica, Universita di Genova, via Dodecaneso 33, 16146 Genoa, Italy" "Phys.Rev.B, 71(2005)144505"
90124 P071144505 RRR=4.7 "(Mg,Al)B2" Mg0.95Al0.05B2 Mg 0.95 Al 0.05 B 2 1 2005 AlB2 K 36.6 36.6 MHC90124 Critical field of Al-doped MgB2 samples: Correlation with the suppression of the sigma-band gap 2005 "INFM-LAMIA, Dipartimento di Fisica, Universita di Genova, via Dodecaneso 33, 16146 Genoa, Italy" "Phys.Rev.B, 71(2005)144505"
90125 P071144505 RRR=2.7 "(Mg,Al)B2" Mg0.93Al0.07B2 Mg 0.93 Al 0.07 B 2 1 2005 AlB2 K 35.8 35.8 MHC90123 Critical field of Al-doped MgB2 samples: Correlation with the suppression of the sigma-band gap 2005 "INFM-LAMIA, Dipartimento di Fisica, Universita di Genova, via Dodecaneso 33, 16146 Genoa, Italy" "Phys.Rev.B, 71(2005)144505"
90126 P071144505 "RRR=2.2. DB shows values for sigma-band. For pai-band, gap=2.5 meV, gapene = 1.75." "(Mg,Al)B2" Mg0.9Al0.1B2 Mg 0.9 Al 0.1 B 2 1 2005 AlB2 K 33.4 33.4 MHC90124 5.4 3.9 1 Critical field of Al-doped MgB2 samples: Correlation with the suppression of the sigma-band gap 2005 "INFM-LAMIA, Dipartimento di Fisica, Universita di Genova, via Dodecaneso 33, 16146 Genoa, Italy" "Phys.Rev.B, 71(2005)144505"
90127 P071144505 RRR=1.9 "(Mg,Al)B2" Mg0.85Al0.15B2 Mg 0.85 Al 0.15 B 2 1 2005 AlB2 K 31.5 31.5 MHC90123 Critical field of Al-doped MgB2 samples: Correlation with the suppression of the sigma-band gap 2005 "INFM-LAMIA, Dipartimento di Fisica, Universita di Genova, via Dodecaneso 33, 16146 Genoa, Italy" "Phys.Rev.B, 71(2005)144505"
90128 P071144505 "RRR=2.1. DB shows values for sigma-band. For pai-band, gap=1.7 meV, gapene = 1.4." "(Mg,Al)B2" Mg0.8Al0.2B2 Mg 0.8 Al 0.2 B 2 1 2005 AlB2 K 29.1 29.1 MHC90124 3.8 3 1 Critical field of Al-doped MgB2 samples: Correlation with the suppression of the sigma-band gap 2005 "INFM-LAMIA, Dipartimento di Fisica, Universita di Genova, via Dodecaneso 33, 16146 Genoa, Italy" "Phys.Rev.B, 71(2005)144505"
90129 P071144512 anisotropy(T=0 K) = 6.39 MgB2 B2Mg1 B 2 Mg 1 1 2005 AlB2 K 38.8 38.8 T 16.2 2.54 "two step synthesis. heat(1000 - 1200C,10d) - press to pellet - heat(1200C,10d)" Difference between Al and C doping in anisotropic upper critical field development in MgB2 2005 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 71(2005)144512"
90130 P071144512 anisotropy(T=0 K) = 4.32 "(Mg,Al)B2" Mg0.9Al0.1B2 Mg 0.9 Al 0.1 B 2 1 2005 AlB2 K 32.1 32.1 12.7 2.92 MHC90130 "two step synthesis. heat(1000 - 1200C,10d) - press to pellet - heat(1200C,10d)" Difference between Al and C doping in anisotropic upper critical field development in MgB2 2005 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 71(2005)144512"
90131 P071144512 anisotropy(T=0 K) = 2.26 "(Mg,Al)B2" Mg0.8Al0.2B2 Mg 0.8 Al 0.2 B 2 1 2005 AlB2 K 25.6 25.6 5.54 2.39 "two step synthesis. heat(1000 - 1200C,10d) - press to pellet - heat(1200C,10d)" Difference between Al and C doping in anisotropic upper critical field development in MgB2 2005 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 71(2005)144512"
90132 P071144512 "(Mg,Al)B2" Mg0.7Al0.3B2 Mg 0.7 Al 0.3 B 2 1 2005 AlB2 K 7.9 7.9 "two step synthesis. heat(1000 - 1200C,10d) - press to pellet - heat(1200C,10d)" Difference between Al and C doping in anisotropic upper critical field development in MgB2 2005 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 71(2005)144512"
90133 P071144512 anisotropy(T=0 K) = 5.40 "Mg(B,C)2" Mg1B1.924C0.076 Mg 1 B 1.924 C 0.076 1 2005 AlB2 K 36 36 32.1 5.91 "two step synthesis. heat(1000 - 1200C,10d) - press to pellet - heat(1200C,10d)" Difference between Al and C doping in anisotropic upper critical field development in MgB2 2005 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 71(2005)144512"
90134 P071144512 anisotropy(T=0 K) = 2.71 "Mg(B,C)2" Mg1B1.8C0.2 Mg 1 B 1.8 C 0.2 1 2005 AlB2 K 21 21 24.6 9.13 "two step synthesis. heat(1000 - 1200C,10d) - press to pellet - heat(1200C,10d)" Difference between Al and C doping in anisotropic upper critical field development in MgB2 2005 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 71(2005)144512"
90135 P070174503 nearly single phase. RRR=1.85. e-ph coupling = 1.45. G-L =43.3. Specific heat measurements. (dC/gamma*Tc) = 2.09 MgCNi3 Mg1C1.6Ni3 Mg 1 C 1.6 Ni 3 1 2004 ABO3 A 3.8107 K 6.9 7 7 6.9 mT 11.3 T 11 A 54.7 A 2370 mj/mol.K2 27 SP-heat 292 SP-heat "mixture - pellet - wrapped in Ta foil - quartz tube(Ar atmosphere) - SIN(600C,0.5h + 900C,1h)" Evidence for strong electron-phonon coupling in MgCNi3 2004 "Institut fur Festkorper- und Werkstoffforschung Dresden, Postfach 270116, D-01171 Dresden, Germany" "Phys.Rev.B, 70(2004)174503"
90136 P067052501 (dC/gamma*Tc) = 1.97 MgCNi3 Mg1C1Ni3 Mg 1 C 1 Ni 3 1 2003 ABO3 K 6.4 6.4 T 10.6 A 56 A 1280 4 14 mj/mol.K2 33.6 SP-heat 287 SP-heat wrapped in Ta foil - SIN(600C + 900C) BCS-like superconductivity in MgCNi3 2003 "Institute of Physics, National Chiao Tung University, Hsinchu 300, Taiwan, Republic of China" "Phys.Rev.B, 67(2003)052501"
90137 L094157002 "(Pb,Tl)Te" Pb0.996Tl0.004Te1 Pb 0.996 Tl 0.004 Te 1 3 2005 K 0.061 0.061 single crystals were grown by an unseeded vapor transport method. Evidence for Charge Kondo Effect in Superconducting Tl-Doped PbTe 2005 "Geballe Laboratory for Advanced Materials, Stanford University, Stanford, California 94305-4045, USA" "Phys.Rev.Lett., 94(2005)157002"
90138 L094157002 "(Pb,Tl)Te" Pb0.9922Tl0.0078Te1 Pb 0.9922 Tl 0.0078 Te 1 3 2005 K 0.51 0.51 single crystals were grown by an unseeded vapor transport method. Evidence for Charge Kondo Effect in Superconducting Tl-Doped PbTe 2005 "Geballe Laboratory for Advanced Materials, Stanford University, Stanford, California 94305-4045, USA" "Phys.Rev.Lett., 94(2005)157002"
90139 L094157002 "(Pb,Tl)Te" Pb0.987Tl0.013Te1 Pb 0.987 Tl 0.013 Te 1 3 2005 K 1.32 1.32 MTC90139 single crystals were grown by an unseeded vapor transport method. Evidence for Charge Kondo Effect in Superconducting Tl-Doped PbTe 2005 "Geballe Laboratory for Advanced Materials, Stanford University, Stanford, California 94305-4045, USA" "Phys.Rev.Lett., 94(2005)157002"
90140 1246 "(Sn,Ag)Te" Sn0.87Ag0.1Te1 Sn 0.87 Ag 0.1 Te 1 1973 K 1.88 1.88 Superconductivity as a function of carrier density and magnetic spin concentration in the Sn-Te-MnTe system 1973 "J.PHYS.CHEM.SOLIDS,34(1973)183"
90141 1246 SnTe Sn0.97Te1 Sn 0.97 Te 1 1973 K 0.189 0.189 n/cm3 1.32E+21 Superconductivity as a function of carrier density and magnetic spin concentration in the Sn-Te-MnTe system 1973 "J.PHYS.CHEM.SOLIDS,34(1973)183"
90142 1246 Mn = 10 ppm SnTe Sn0.97Te1 Sn 0.97 Te 1 1973 K 0.087 0.087 n/cm3 1.13E+21 Superconductivity as a function of carrier density and magnetic spin concentration in the Sn-Te-MnTe system 1973 "J.PHYS.CHEM.SOLIDS,34(1973)183"
90143 930 Sn4P2.65 by analysis. Hall coefficient at 77K. Sn4P3 P3Sn4 P 3 Sn 4 1969 K 1.24 1.24 E-4 cm3/C -2.1 E+22/cm3 3 "On the superconductivity, carrier concentration and the ionic model of Sn4P3 and Sn4As3" 1969 "PHYS.LETT.A,29(1969)293"
90144 930 Sn3.80As3 by analysis. Hall coefficient at 77K. Sn4As3 As3Sn4 As 3 Sn 4 1969 K 1.23 1.23 E-4 cm3/C -2.8 E+22/cm3 2.2 "On the superconductivity, carrier concentration and the ionic model of Sn4P3 and Sn4As3" 1969 "PHYS.LETT.A,29(1969)293"
90145 848 gamma-phase. Hall mobility = 2.0 cm3/V.sec Tl5Te3 Te3Tl5 Te 3 Tl 5 1968 bct A 8.92 12.63 K 2.19 2.23 2.21 MHC90145 E-4 cm3/C 4.2 E+22/cm3 1.5 Electrical conductivity and superconductivity in the gamma-phase of the Tl-Te system 1968 "J.APPL.PHYS.,39(1968)3003"
90146 622 N- and O-concentrations not determined. substrate temp. = 30 C NbNxOy Nb1N1Oy Nb 1 N 1 O y 4 1975 K 9.6 1.4 9.6 RF-sputtering. various substrate tempeature. substrate= silica slides. The effect of composition on the superconducting transition temperature in NbNxOy 1975 "MAT.RES.BULL.,10(1975)379"
90147 622 substrate temp. = 350 C NbNxOy Nb1N1.34O0.27 Nb 1 N 1.34 O y 0.27 4 1975 K 11.3 1.4 11.3 RF-sputtering. various substrate tempeature. substrate= silica slides. The effect of composition on the superconducting transition temperature in NbNxOy 1975 "MAT.RES.BULL.,10(1975)379"
90148 622 substrate temp. = 700 C NbNxOy Nb1N1.25O0.25 Nb 1 N 1.25 O y 0.25 4 1975 K 11.9 1.8 11.9 RF-sputtering. various substrate tempeature. substrate= silica slides. The effect of composition on the superconducting transition temperature in NbNxOy 1975 "MAT.RES.BULL.,10(1975)379"
90149 622 substrate temp. = 500 C NbNxOy Nb1N1.22O0.18 Nb 1 N 1.22 O y 0.18 4 1975 K 12.3 0.8 12.3 RF-sputtering. various substrate tempeature. substrate= silica slides. The effect of composition on the superconducting transition temperature in NbNxOy 1975 "MAT.RES.BULL.,10(1975)379"
90150 622 substrate temp. = 350 C. NbNxOy Nb1N1.08O0.27 Nb 1 N 1.08 O y 0.27 4 1975 K 12.8 0.7 12.8 RF-sputtering. various substrate tempeature. substrate= silica slides. The effect of composition on the superconducting transition temperature in NbNxOy 1975 "MAT.RES.BULL.,10(1975)379"
90151 622 substrate temp. = 650 C. NbNxOy Nb1N0.9O0.02 Nb 1 N 0.9 O y 0.02 4 1975 K 14.7 1.5 14.7 RF-sputtering. various substrate tempeature. substrate= silica slides. The effect of composition on the superconducting transition temperature in NbNxOy 1975 "MAT.RES.BULL.,10(1975)379"
90152 515 In1-xTe In0.95Te1 In 0.95 Te 1 1965 NaCl A 6.14 K 2.7 2.7 E+22 /cm3 1.47 "NaCl type compounds were obtained by using 30 kbar, 400-500 C for less than 4 hr." Crystal chemistry and superconductivity of pressure-induced phases in the In-Te system 1965 "J.PHYS.CHEM.SOLIDS, 26(1965)353"
90153 515 In1-xTe In0.91Te1 In 0.91 Te 1 1965 NaCl A 6.11 K 2.04 2.04 E+22 /cm3 1.28 "NaCl type compounds were obtained by using 30 kbar, 400-500 C for less than 4 hr." Crystal chemistry and superconductivity of pressure-induced phases in the In-Te system 1965 "J.PHYS.CHEM.SOLIDS, 26(1965)353"
90154 515 In1-xTe In0.87Te1 In 0.87 Te 1 1965 NaCl A 6.081 K 1.55 1.55 MTC90154 E+22 /cm3 1.09 "NaCl type compounds were obtained by using 30 kbar, 400-500 C for less than 4 hr." Crystal chemistry and superconductivity of pressure-induced phases in the In-Te system 1965 "J.PHYS.CHEM.SOLIDS, 26(1965)353"
90155 515 In1-xTe In0.83Te1 In 0.83 Te 1 1965 NaCl A 6.055 K 1.15 1.15 E+22 /cm3 0.88 "NaCl type compounds were obtained by using 30 kbar, 400-500 C for less than 4 hr." Crystal chemistry and superconductivity of pressure-induced phases in the In-Te system 1965 "J.PHYS.CHEM.SOLIDS, 26(1965)353"
90156 515 In1-xTe In0.82Te1 In 0.82 Te 1 1965 NaCl A 6.052 K 1.06 1.06 E+22 /cm3 0.83 "NaCl type compounds were obtained by using 30 kbar, 400-500 C for less than 4 hr." Crystal chemistry and superconductivity of pressure-induced phases in the In-Te system 1965 "J.PHYS.CHEM.SOLIDS, 26(1965)353"
90157 515 In1+xTe In1.15Te1 In 1.15 Te 1 1965 NaCl A 6.179 K 2.6 2.6 E+22 /cm3 1.34 "NaCl type compounds were obtained by using 30 kbar, 400-500 C for less than 4 hr." Crystal chemistry and superconductivity of pressure-induced phases in the In-Te system 1965 "J.PHYS.CHEM.SOLIDS, 26(1965)353"
90158 515 In1+xTe In1.1Te1 In 1.1 Te 1 1965 NaCl A 6.182 K 2.8 2.8 E+22 /cm3 1.45 "NaCl type compounds were obtained by using 30 kbar, 400-500 C for less than 4 hr." Crystal chemistry and superconductivity of pressure-induced phases in the In-Te system 1965 "J.PHYS.CHEM.SOLIDS, 26(1965)353"
90159 515 In1+xTe In1.05Te1 In 1.05 Te 1 1965 NaCl A 6.181 K 3.41 3.41 E+22 /cm3 1.58 "NaCl type compounds were obtained by using 30 kbar, 400-500 C for less than 4 hr." Crystal chemistry and superconductivity of pressure-induced phases in the In-Te system 1965 "J.PHYS.CHEM.SOLIDS, 26(1965)353"
90160 515 In1+xTe In1.015Te1 In 1.015 Te 1 1965 NaCl A 6.178 K 3.51 3.51 E+22 /cm3 1.67 "NaCl type compounds were obtained by using 30 kbar, 400-500 C for less than 4 hr." Crystal chemistry and superconductivity of pressure-induced phases in the In-Te system 1965 "J.PHYS.CHEM.SOLIDS, 26(1965)353"
90161 515 In1+xTe In1Te1 In 1 Te 1 1965 NaCl A 6.177 K 3.45 3.45 E+22 /cm3 1.71 "NaCl type compounds were obtained by using 30 kbar, 400-500 C for less than 4 hr." Crystal chemistry and superconductivity of pressure-induced phases in the In-Te system 1965 "J.PHYS.CHEM.SOLIDS, 26(1965)353"
90162 988 gamma estimated from the data. "(Sr,Ba)TiO3" Sr0.925Ba0.075Ti1O3 Sr 0.925 Ba 0.075 Ti 1 O 3 1967 ABO3 K 0.5 0.5 MSP90162 mj/mol.K2 2.4 SP-heat E+19 /cm3 9.6 The heat capacity of a mixed titanate superconductor 1967 "PHYS.LETT.A,25(1967)623"
90163 1555 Pcrit = 120 kbar Si Si1 Si 1 1973 K 6.7 0 6.7 Conditions for the appearance and the nature of surface superconductivity of indium antimonide 1973 "Sov.Phys.Semicond., 7(1973)593"
90164 1555 Pcrit = 115 kbar Ge Ge1 Ge 1 1973 K 5.35 0 5.35 Conditions for the appearance and the nature of surface superconductivity of indium antimonide 1973 "Sov.Phys.Semicond., 7(1973)593"
90165 1555 Pcrit = 250 kbar GaAs As1Ga1 As 1 Ga 1 1973 K 4.8 0 4.8 Conditions for the appearance and the nature of surface superconductivity of indium antimonide 1973 "Sov.Phys.Semicond., 7(1973)593"
90166 1555 Pcrit = 125 kbar AlSb Al1Sb1 Al 1 Sb 1 1973 K 2.8 0 2.8 Conditions for the appearance and the nature of surface superconductivity of indium antimonide 1973 "Sov.Phys.Semicond., 7(1973)593"
90167 1555 Pcrit = 70 kbar GaSb Ga1Sb1 Ga 1 Sb 1 1973 K 4.2 0 4.2 Conditions for the appearance and the nature of surface superconductivity of indium antimonide 1973 "Sov.Phys.Semicond., 7(1973)593"
90168 1555 Pcrit = 27 kbar InTe In1Te1 In 1 Te 1 1973 K 2.18 0 2.18 Conditions for the appearance and the nature of surface superconductivity of indium antimonide 1973 "Sov.Phys.Semicond., 7(1973)593"
90169 1555 Pcrit = 25 kbar BiSn Bi1Sn1 Bi 1 Sn 1 1973 K 7.88 0 7.88 Conditions for the appearance and the nature of surface superconductivity of indium antimonide 1973 "Sov.Phys.Semicond., 7(1973)593"
90170 1280 P-induced SC. Pcrit = 60 kbar. dTc/dP = 1.27 E-4 K/kbar at Pcrit. There are four phases. P(I-II) = 67.5 kbar. P(II-IV) = 81.4 kbar. Bi2Te3 Bi2Te3 Bi 2 Te 3 1972 K 2.8 0 2.8 MTC90170 K/GPa 1.27 Superconductivity of bismuth telluride 1972 "Sov.Phys.Solid State, 13(1972)2098"
90171 594 Nb-doped SrTiO3. carrier doping by Nb-doping. mobility = 600 cm2/V.s. G-L = 8.4 SrTiO3 Sr1Ti1O3 Sr 1 Ti 1 O 3 3 1966 ABO3 K 0.43 0.43 MHC90171 mj/mol.K2 1.6 SP-heat E+20 /cm3 1.7 Magnetization and critical fields of superconducting SrTiO3 1966 "PHYS.REV.,148(1966)280"
90172 594 carrier doping by reducing. mobility = 225 cm2/V.s at 4.2 K. G-L = 13.2 SrTiO3 Sr1Ti1O3 Sr 1 Ti 1 O 3 3 1966 ABO3 K 0.33 0.33 MHC90172 E+20 /cm3 1 Magnetization and critical fields of superconducting SrTiO3 1966 "PHYS.REV.,148(1966)280"
90173 1005 SrTiO3 Sr1Ti1O3 Sr 1 Ti 1 O 3 1967 ABO3 K 0.3 0.3 Oe M-H curve 2.8 E+19 /cm3 5.8 "SrTiO3,BaTiO3,CaTiO3" "available powder mixture - press(15000 psi) - SIN(1600 C, 1h)" Superconductive properties of ceramic mixed titanates 1967 "PHYS.REV.,159(1967)301"
90174 1005 "(Sr,Ba)TiO3" Sr0.95Ba0.05Ti1O3 Sr 0.95 Ba 0.05 Ti 1 O 3 1967 ABO3 K 0.5 0.5 Oe M-H curve 3.9 E+19 /cm3 6.7 "SrTiO3,BaTiO3,CaTiO3" "available powder mixture - press(15000 psi) - SIN(1600 C, 1h)" Superconductive properties of ceramic mixed titanates 1967 "PHYS.REV.,159(1967)301"
90175 1005 "(Sr,Ca)TiO3" Sr0.7Ca0.3Ti1O3 Sr 0.7 Ca 0.3 Ti 1 O 3 1967 ABO3 K 0.5 0.5 Oe M-H curve 1.9 E+19 /cm3 6.7 "SrTiO3,BaTiO3,CaTiO3" "available powder mixture - press(15000 psi) - SIN(1600 C, 1h)" Superconductive properties of ceramic mixed titanates 1967 "PHYS.REV.,159(1967)301"
90177 JAP0400409 P-T phase diagram shown in text. InSb-II In1Sb1 In 1 Sb 1 1969 7.3 Tetra A 5.862 3.105 K 2 2 "samples were annealed at various T and P, then quenched to 80 K priori-to P-release." The P-T phase diagram of InSb at high temperatures and pressures 1969 "J.Appl.Phys., 40(1969)409"
90178 JAP0400409 P-T phase diagram shown in text. InSb-III In1Sb1 In 1 Sb 1 1969 8.5 Hexa A 6.099 5.708 K 4.1 4.1 "samples were annealed at various T and P, then quenched to 80 K priori-to P-release." The P-T phase diagram of InSb at high temperatures and pressures 1969 "J.Appl.Phys., 40(1969)409"
90179 JAP0400409 P-T phase diagram shown in text. InSb-IV In1Sb1 In 1 Sb 1 1969 7.9 Ortho A 2.921 5.532 3.093 K 3.6 3.6 "samples were annealed at various T and P, then quenched to 80 K priori-to P-release." The P-T phase diagram of InSb at high temperatures and pressures 1969 "J.Appl.Phys., 40(1969)409"
90180 JPS0740700 RRR=1. G-L = 54. (dC/gamma*Tc) = 1.90 W7Re13B W7Re13B1 W 7 Re 13 B 1 2005 beta-Mn P4<1>32 A 6.819 K 7.1 7.1 7.1 mT 7.7 T WHH theory 11.4 T/K 2.22 MHC90180 A 54 A calculated from Hc1 2925 4.28 14 mj/mol.K2 65.16 SP-heat 257 SP-heat "mixture(W,Re,B,C) - arc-melting in Ar" Superconductivity in Intermetallic W7Re13X (X = B and C) Compounds 2005 "Department of Physics and Mathematics, Aoyama Gakuin University, 5-10-1 Fuchinobe, Sagamihara, Kanagawa ,Japan" "J.Phys.Soc.Jpn, 74(2005)700"
90181 JPS0740700 RRR=1. G-L = 80. (dC/gamma*Tc) = 1.93 W7Re13C W7Re13C1 W 7 Re 13 C 1 2005 beta-Mn P4<1>32 A 6.801 K 7.5 7.3 7.3 mT 4 T WHH theory 12.6 T/K 2.23 MHC90180 A 51 A calculated from Hc1 4060 4.02 14 MSP90181 mj/mol.K2 64.19 SP-heat 259 SP-heat "mixture(W,Re,B,C) - arc-melting in Ar" Superconductivity in Intermetallic W7Re13X (X = B and C) Compounds 2005 "Department of Physics and Mathematics, Aoyama Gakuin University, 5-10-1 Fuchinobe, Sagamihara, Kanagawa ,Japan" "J.Phys.Soc.Jpn, 74(2005)700"
90182 JPS0740851 Na and H2O contents measured by EPMA. Nax(H2O)y(SnS)(TaS2)2 Na0.65H5Sn1.16S5.16Ta2O2.5 Na 0.65 H 5 Sn 1.16 S 5.16 Ta 2 O 2.5 2005 A 23.78 K 4 4 anhydrate samples were prepared by solid state reaction. hydration by topotactic reaction. Enhanced Superconducting Transition Temperature in the Water-intercalated Sulfides 2005 "Department of Advanced Materials Science, University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba ,Japan" "J.Phys.Soc.Jpn, 74(2005)851"
90183 JPS0740851 Na and H2O contents measured by EPMA. Nax(H2O)y(PbS)(TaS2)2 Na0.4H3.6Pb1.14S5.14Ta2O1.8 Na 0.4 H 3.6 Pb 1.14 S 5.14 Ta 2 O 1.8 2005 A 23.91 K 3.7 3.7 anhydrate samples were prepared by solid state reaction. hydration by topotactic reaction. Enhanced Superconducting Transition Temperature in the Water-intercalated Sulfides 2005 "Department of Advanced Materials Science, University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba ,Japan" "J.Phys.Soc.Jpn, 74(2005)851"
90184 JPS0740851 Na and H2O contents measured by EPMA. Nax(H2O)y(SbS)(TaS2)2 Na0.4H3.6Sb1.16S5.16Ta2O1.8 Na 0.4 H 3.6 Sb 1.16 S 5.16 Ta 2 O 1.8 2005 A 23.26 K 3.5 3.5 anhydrate samples were prepared by solid state reaction. hydration by topotactic reaction. Enhanced Superconducting Transition Temperature in the Water-intercalated Sulfides 2005 "Department of Advanced Materials Science, University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba ,Japan" "J.Phys.Soc.Jpn, 74(2005)851"
90185 JPS0740851 Na and H2O contents measured by EPMA. Nax(H2O)y(BiS)(TaS2)2 Na0.4H5Bi1.08S5.08Ta2O2.5 Na 0.4 H 5 Bi 1.08 S 5.08 Ta 2 O 2.5 2005 A 23.34 K 2 anhydrate samples were prepared by solid state reaction. hydration by topotactic reaction. Enhanced Superconducting Transition Temperature in the Water-intercalated Sulfides 2005 "Department of Advanced Materials Science, University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba ,Japan" "J.Phys.Soc.Jpn, 74(2005)851"
90186 JPS0740851 (SnS)x(TaS2)2 Sn1.16S5.16Ta2 Sn 1.16 S 5.16 Ta 2 2005 A 17.75 K 2 solid state reaction Enhanced Superconducting Transition Temperature in the Water-intercalated Sulfides 2005 "Department of Advanced Materials Science, University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba ,Japan" "J.Phys.Soc.Jpn, 74(2005)851"
90187 JPS0740851 (PbS)x(TaS2)2 Pb1.14S5.14Ta2 Pb 1.14 S 5.14 Ta 2 2005 A 17.97 K 3.3 3.3 solid state reaction Enhanced Superconducting Transition Temperature in the Water-intercalated Sulfides 2005 "Department of Advanced Materials Science, University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba ,Japan" "J.Phys.Soc.Jpn, 74(2005)851"
90188 JPS0740851 (SbS)x(TaS2)2 Sb1.16S5.16Ta2 Sb 1.16 S 5.16 Ta 2 2005 A 17.51 K 3 3 solid state reaction Enhanced Superconducting Transition Temperature in the Water-intercalated Sulfides 2005 "Department of Advanced Materials Science, University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba ,Japan" "J.Phys.Soc.Jpn, 74(2005)851"
90189 JPS0740851 (BiS)x(TaS2)2 Bi1.08S5.08Ta2 Bi 1.08 S 5.08 Ta 2 2005 A 17.48 K 2.7 2.7 solid state reaction Enhanced Superconducting Transition Temperature in the Water-intercalated Sulfides 2005 "Department of Advanced Materials Science, University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba ,Japan" "J.Phys.Soc.Jpn, 74(2005)851"
90190 JPS0740855 SC range for 9 < P < 16 GPa. Tc(max) = 0.62 K at P=12 GPa. Two Tc phases appear around P=12 GPA. UGe2 Ge2U1 Ge 2 U 1 3 2005 A K 0.62 0 0.62 MTC90190 "See Phys.Rev.B, 65(2002)020510." Correlation between Superconductivity and Ferromagnetism in UGe2 2005 "Department of Physics, Graduate School of Science, Nagoya University, Nagoya, Japan" "J.Phys.Soc.Jpn, 74(2005)855"
90191 JPS0741014 Hc2(0) = 3.42 T from WHH theory. Li2BPd3 Li2B1Pd3 Li 2 B 1 Pd 3 2005 A 6.7635 K 7.61 7.61 Oe 138.1 T linear approx. 5.09 nm from Hc2 9.89 nm calculated from Hc1 190 Two step arc-melting method. second step = B(Pd1-xPtx)3 + Li Superconductivity in a New Pseudo-Binary Li2B(Pd1-xPtx)3 (x = 0 - 1) Boride System 2005 "Institute for Materials Research, Tohoku University, 2-1-1 Katahira, Aoba-ku, Sendai, Japan" "J.Phys.Soc.Jpn, 74(2005)1014"
90192 JPS0741014 Hc2(0) = 2.91 T from WHH theory. "Li2B(Pd,Pt)3" Li2B1Pd2.7Pt0.3 Li 2 B 1 Pd 2.7 Pt 0.3 2005 A K 6.59 6.59 Oe 120.6 T linear approx. 4.56 nm from Hc2 10.9 nm calculated from Hc1 202.9 Two step arc-melting method. second step = B(Pd1-xPtx)3 + Li Superconductivity in a New Pseudo-Binary Li2B(Pd1-xPtx)3 (x = 0 - 1) Boride System 2005 "Institute for Materials Research, Tohoku University, 2-1-1 Katahira, Aoba-ku, Sendai, Japan" "J.Phys.Soc.Jpn, 74(2005)1014"
90193 JPS0741014 Hc2(0) = 2.35 T from WHH theory. "Li2B(Pd,Pt)3" Li2B1Pd2.4Pt0.6 Li 2 B 1 Pd 2.4 Pt 0.6 2005 A 6.7544 K 4.9 4.9 Oe 104.1 T linear approx. 4.08 nm from Hc2 12.2 nm calculated from Hc1 215.9 Two step arc-melting method. second step = B(Pd1-xPtx)3 + Li Superconductivity in a New Pseudo-Binary Li2B(Pd1-xPtx)3 (x = 0 - 1) Boride System 2005 "Institute for Materials Research, Tohoku University, 2-1-1 Katahira, Aoba-ku, Sendai, Japan" "J.Phys.Soc.Jpn, 74(2005)1014"
90194 JPS0741014 Hc2(0) = 1.87 T from WHH theory. "Li2B(Pd,Pt)3" Li2B1Pd1.5Pt1.5 Li 2 B 1 Pd 1.5 Pt 1.5 2005 A 6.75 K 3.72 3.72 Oe 89.7 T linear approx. 3.42 nm from Hc2 13.6 nm calculated from Hc1 230.4 Two step arc-melting method. second step = B(Pd1-xPtx)3 + Li Superconductivity in a New Pseudo-Binary Li2B(Pd1-xPtx)3 (x = 0 - 1) Boride System 2005 "Institute for Materials Research, Tohoku University, 2-1-1 Katahira, Aoba-ku, Sendai, Japan" "J.Phys.Soc.Jpn, 74(2005)1014"
90195 JPS0741014 Hc2(0) = 1.34 T from WHH theory. "Li2B(Pd,Pt)3" Li2B1Pd0.9Pt2.1 Li 2 B 1 Pd 0.9 Pt 2.1 2005 A 6.7333 K 2.31 2.31 Oe 67.8 T linear approx. 2.48 nm from Hc2 16.1 nm calculated from Hc1 246.4 Two step arc-melting method. second step = B(Pd1-xPtx)3 + Li Superconductivity in a New Pseudo-Binary Li2B(Pd1-xPtx)3 (x = 0 - 1) Boride System 2005 "Institute for Materials Research, Tohoku University, 2-1-1 Katahira, Aoba-ku, Sendai, Japan" "J.Phys.Soc.Jpn, 74(2005)1014"
90196 JPS0741014 Hc2(0) = 1.06 T from WHH theory. Li2BPt3 Li2B1Pt3 Li 2 B 1 Pt 3 2005 A 6.7294 K 1.86 1.86 Oe 38.4 T linear approx. 1.82 nm from Hc2 18 nm calculated from Hc1 365.2 Two step arc-melting method. second step = B(Pd1-xPtx)3 + Li Superconductivity in a New Pseudo-Binary Li2B(Pd1-xPtx)3 (x = 0 - 1) Boride System 2005 "Institute for Materials Research, Tohoku University, 2-1-1 Katahira, Aoba-ku, Sendai, Japan" "J.Phys.Soc.Jpn, 74(2005)1014"
90197 JPS0741030 "impurity phases = FeP2, FeP4 < 2%" SmFe4P12 Sm1Fe4P12 Sm 1 Fe 4 P 12 1 2005 1.6 skutterudite K 1.8 samples were prepared at high-T and high-P. "Specific Heat Study on Sm-based Filled Skutterudite Phosphides SmT4P12 (T = Fe, Ru and Os)" 2005 "Faculty of Engineering, Kyushu Institute of Technology, Kitakyushu, Japan" "J.Phys.Soc.Jpn, 74(2005)1030"
90198 JPS0741030 LaFe4P12 La1Fe4P12 La 1 Fe 4 P 12 1 2005 skutterudite K 4 4 mj/mol.K2 52.4 SP-heat 671 SP-heat samples were prepared at high-T and high-P. "Specific Heat Study on Sm-based Filled Skutterudite Phosphides SmT4P12 (T = Fe, Ru and Os)" 2005 "Faculty of Engineering, Kyushu Institute of Technology, Kitakyushu, Japan" "J.Phys.Soc.Jpn, 74(2005)1030"
90199 JPS0741030 "impurity phases = RuP2, RuP4 < 2%. M-I transition at 16.5 K." SmRu4P12 Sm1Ru4P12 Sm 1 Ru 4 P 12 1 2005 skutterudite K 1.8 samples were prepared at high-T and high-P. "Specific Heat Study on Sm-based Filled Skutterudite Phosphides SmT4P12 (T = Fe, Ru and Os)" 2005 "Faculty of Engineering, Kyushu Institute of Technology, Kitakyushu, Japan" "J.Phys.Soc.Jpn, 74(2005)1030"
90200 JPS0741030 LaRu4P12 La1Ru4P12 La 1 Ru 4 P 12 1 2005 skutterudite K 7 7 mj/mol.K2 28.8 SP-heat 603 SP-heat samples were prepared at high-T and high-P. "Specific Heat Study on Sm-based Filled Skutterudite Phosphides SmT4P12 (T = Fe, Ru and Os)" 2005 "Faculty of Engineering, Kyushu Institute of Technology, Kitakyushu, Japan" "J.Phys.Soc.Jpn, 74(2005)1030"
90201 JPS0741030 "impurity phases = OsP2, OsP4 < 2%" SmOs4P12 Sm1Os4P12 Sm 1 Os 4 P 12 1 2005 4.5 skutterudite K 1.8 samples were prepared at high-T and high-P. "Specific Heat Study on Sm-based Filled Skutterudite Phosphides SmT4P12 (T = Fe, Ru and Os)" 2005 "Faculty of Engineering, Kyushu Institute of Technology, Kitakyushu, Japan" "J.Phys.Soc.Jpn, 74(2005)1030"
90202 JPS0741030 LaOs4P12 La1Os4P12 La 1 Os 4 P 12 1 2005 skutterudite K 1.8 1.8 mj/mol.K2 20.3 SP-heat 482 SP-heat samples were prepared at high-T and high-P. "Specific Heat Study on Sm-based Filled Skutterudite Phosphides SmT4P12 (T = Fe, Ru and Os)" 2005 "Faculty of Engineering, Kyushu Institute of Technology, Kitakyushu, Japan" "J.Phys.Soc.Jpn, 74(2005)1030"
90203 JPS0741115 From 2nd to 1st phase transition change occurs at 0.7 K. CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2005 K 2.25 2.25 MTC90203 T 11.6 4.95 MHC90203 using excess In flux. Pressure Dependence of the First-Order Superconducting Phase Transition in CeCoIn5 2005 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba, Japan" "J.Phys.Soc.Jpn, 74(2005)1115"
90204 JPS0741255 impurity phase=Os(18.4%). lattice term const = 8.7 micro-J/mol.K6. Debye-T not given. CsOs2O6 Cs1Os1O6 Cs 1 Os 1 O 6 1 2005 pyrochlore A 10.1477 K 3.3 3.3 mj/mol.K2 19.5 SP-heat "(Cs2O or Rb2O) + OsO2, solid state reaction(773-873 K, 24h)" Specific Heat of the beta-Pyrochlore Oxide Superconductors CsOs2O6 and RbOs2O6 2005 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba, Japan" "J.Phys.Soc.Jpn, 74(2005)1255"
90205 JPS0741255 impurity phase=Os(11.5%). lattice term const = 17.5 micro-J/mol.K6. Debye-T not given. RbOs2O6 Rb1Os1O6 Rb 1 Os 1 O 6 1 2005 pyrochlore K 6.3 6.3 mj/mol.K2 21.7 SP-heat "(Cs2O or Rb2O) + OsO2, solid state reaction(773-873 K, 24h)" Specific Heat of the beta-Pyrochlore Oxide Superconductors CsOs2O6 and RbOs2O6 2005 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba, Japan" "J.Phys.Soc.Jpn, 74(2005)1255"
90206 JPS0741386 NbB2+x B2Nb1 B 2 Nb 1 1 2005 AlB2 K 4.44 4.44 44 kOe resistive transition 6.4 "powder(Nb,B), pellet sealed in qurtz tube, heat(1000C,30h)" Correlation between Superconducting Carrier Density and Transition Temperature in NbB2+x 2005 "Department of Physics, Aoyama Gakuin University, Sagamihara, Kanagawa, Japan" "J.Phys.Soc.Jpn, 74(2005)1386"
90207 JPS0741386 NbB2+x B2.03Nb1 B 2.03 Nb 1 1 2005 AlB2 K 5.26 5.26 34 kOe resistive transition 7.6 "powder(Nb,B), pellet sealed in qurtz tube, heat(1000C,30h)" Correlation between Superconducting Carrier Density and Transition Temperature in NbB2+x 2005 "Department of Physics, Aoyama Gakuin University, Sagamihara, Kanagawa, Japan" "J.Phys.Soc.Jpn, 74(2005)1386"
90208 JPS0741386 Penet value at 2 K. NbB2+x B2.1Nb1 B 2.1 Nb 1 1 2005 AlB2 K 5.8 5.8 29 kOe resistive transition 10.5 A muon-SR 2330 "powder(Nb,B), pellet sealed in qurtz tube, heat(1000C,30h)" Correlation between Superconducting Carrier Density and Transition Temperature in NbB2+x 2005 "Department of Physics, Aoyama Gakuin University, Sagamihara, Kanagawa, Japan" "J.Phys.Soc.Jpn, 74(2005)1386"
90209 PR1220459 "(dH0/dP) = -5.36E-4 G/psi, where H0=Hc at 0 K." Pb Pb1 Pb 1 1961 K 7.175 7.175 K/GPa -0.379 99.999% purity. melt in graphite-coated glass tube. cool to RT(20C/h) Pressure effect on superconducting lead 1961 "Department of Physics, University of Illinois,Urbana, Illinois,USA" "Phys.Rev., 122(1961)459"
90210 PR1590353 Debye-T used in data-analysis. Pb Pb1 Pb 1 1967 K 7.193 7.193 K/GPa -0.386 102 Will pressure destroy superconductivity 1967 "University of California, San Diego, California,USA" "Phys.Rev., 159(1967)353"
90211 JPC0130L17 "SC properties are at P=1.26 GPa, where Tc=0.7 K(max). gammma(P=1.13GPa) = 97 mj/mol.K2" UGe2 Ge2U1 Ge 2 U 1 2001 52 A 4.0089 15.0889 4.095 K 0.7 0 0.7 T 1.9 A 130 30 Pressure-induced superconductivity in a ferromagnet UGe2 2001 "Research Center for Materials Science at Extreme Conditions, Osaka University, Toyonaka, Osaka, Japan" "J.Phys: Condens.Matter, 13(2001)L17"
90212 1022 carrier n=20.0 E+20/cc.carrier by Hall effect. G-L parameter = 6.1 SnTe Sn1Te1 Sn 1 Te 1 1 1969 NaCl K 0.214 0.214 Oe 1.9 Oe 90 Oe/K 850 MHC90212 erg/cc.K2 386 calculated from( dHc2/dT) n/cm3 2.00E+21 Czochralski method. Critical magnetic fields of superconducting SnTe 1969 "PHYS.REV.,179(1969)497"
90213 1022 carrier n=16.9 E+20/cc. carrier by Hall effect. G-L parameter = 5.6 SnTe Sn1Te1 Sn 1 Te 1 1 1969 NaCl K 0.174 0.174 Oe 1.2 Oe 60 Oe/K 800 MHC90213 erg/cc.K2 406 calculated from( dHc2/dT) n/cm3 1.69E+21 Czochralski method. Critical magnetic fields of superconducting SnTe 1969 "PHYS.REV.,179(1969)497"
90214 1022 carrier n=12.8 E+20/cc. carrier by Hall effect. G-L parameter = 3.9 SnTe Sn1Te1 Sn 1 Te 1 1 1969 NaCl K 0.104 0.104 Oe 0.7 Oe 22 Oe/K 405 MHC90214 erg/cc.K2 214 calculated from( dHc2/dT) n/cm3 1.28E+21 Czochralski method. Critical magnetic fields of superconducting SnTe 1969 "PHYS.REV.,179(1969)497"
90215 1022 carrier n=10.5 E+20/cc. carrier by Hall effect. G-L parameter = 4.4 SnTe Sn1Te1 Sn 1 Te 1 1 1969 NaCl K 0.068 0.068 Oe 0.5 Oe 13 Oe/K 420 MHC90215 erg/cc.K2 181 calculated from( dHc2/dT) n/cm3 1.05E+21 Czochralski method. Critical magnetic fields of superconducting SnTe 1969 "PHYS.REV.,179(1969)497"
90216 1022 carrier n=7.5 E+20/cc. carrier by Hall effect. Single phase for 0< x =< 0.04 in Sn1-xTex SnTe Sn1Te1 Sn 1 Te 1 1 1969 NaCl K 0.034 0.034 5 n/cm3 7.50E+20 Czochralski method. Critical magnetic fields of superconducting SnTe 1969 "PHYS.REV.,179(1969)497"
90217 1292 (1/3) of La-sites are vacant La3Se4 La3Se4 La 3 Se 4 1 1968 Th3P4 I4<->3d A 9.049 K 10 10 MTC90217 "3N-La, 5N-Se," direct reaction (powder) at 50C below the melting temp. Superconductivity in the lanthanum selenide system 1968 "PHYS.REV.,168(1968)408"
90218 470 carrier n=1.71 E+22/cc InTe In1Te1 In 1 Te 1 1964 NaCl A 6.18 K 3.2 3.2 Superconductivity of intermetallic compounds with NaCl-type and related structures 1964 "PHYS.REV.LETT.,13(1964)127"
90219 470 carrier n=0.56 E+22/cc Sn4As3 As3Sn4 As 3 Sn 4 1964 K 1.16 1.16 Superconductivity of intermetallic compounds with NaCl-type and related structures 1964 "PHYS.REV.LETT.,13(1964)127"
90220 470 carrier n=0.47 E+22/cc In3Te4 In3Te4 In 3 Te 4 1964 K 1.15 1.15 Superconductivity of intermetallic compounds with NaCl-type and related structures 1964 "PHYS.REV.LETT.,13(1964)127"
90221 470 carrier n=1.06 E+22/cc Ge3Te4 Ge3Te4 Ge 3 Te 4 1964 K 1.55 1.55 Superconductivity of intermetallic compounds with NaCl-type and related structures 1964 "PHYS.REV.LETT.,13(1964)127"
90222 611 carrier from Hall coefficient SrTiO3 Sr1Ti1O3 Sr 1 Ti 1 O 3 1 1966 K 0.3 0.3 Oe 2.75 E+19/cc 6.4 press and sintering(1650C) "Superconductivity in ceramic, mixed titanates " 1966 "PHYS.REV.LETT.,16(1966)579"
90223 611 carrier from Hall coefficient "(Sr,Ba)TiO3" Sr0.95Ba0.05Ti1O3 Sr 0.95 Ba 0.05 Ti 1 O 3 1 1966 K 0.55 0.55 Oe 3.9 E+19/cc 6.7 press and sintering(1650C) "Superconductivity in ceramic, mixed titanates " 1966 "PHYS.REV.LETT.,16(1966)579"
90224 611 carrier from Hall coefficient "(Sr,Ca)TiO3" Sr0.925Ca0.075Ti1O3 Sr 0.925 Ca 0.075 Ti 1 O 3 1 1966 K 0.5 0.5 Oe 3.8 E+19/cc 8.7 press and sintering(1650C) "Superconductivity in ceramic, mixed titanates " 1966 "PHYS.REV.LETT.,16(1966)579"
90225 611 carrier from Hall coefficient "(Sr,Ca)TiO3" Sr0.7Ca0.3Ti1O3 Sr 0.7 Ca 0.3 Ti 1 O 3 1 1966 K 0.55 0.55 Oe 2.15 E+19/cc 6.7 press and sintering(1650C) "Superconductivity in ceramic, mixed titanates " 1966 "PHYS.REV.LETT.,16(1966)579"
90226 1857 carrier from Hall coefficient "(In,Sn)Te1.01" In0.03Sn0.97Te1.01 In 0.03 Sn 0.97 Te 1.01 1974 K 1.07 1.07 E+21/cc 3.47 "ANN(580C,1w)" Carrier density dependences of the superconducting transitions in n-type InxSn1-xTe1+y 1974 "J.PHYS.SOC.JAPAN,36(1974)1705"
90227 1857 carrier from Hall coefficient "(In,Sn)Te1.01" In0.04Sn0.96Te1.01 In 0.04 Sn 0.96 Te 1.01 1974 K 1.14 1.14 E+21/cc 6.1 "ANN(580C,1w)" Carrier density dependences of the superconducting transitions in n-type InxSn1-xTe1+y 1974 "J.PHYS.SOC.JAPAN,36(1974)1705"
90228 1857 carrier from Hall coefficient "(In,Sn)Te1.01" In0.045Sn0.955Te1.01 In 0.045 Sn 0.955 Te 1.01 1974 K 1.2 1.2 E+21/cc 7.33 "ANN(580C,1w)" Carrier density dependences of the superconducting transitions in n-type InxSn1-xTe1+y 1974 "J.PHYS.SOC.JAPAN,36(1974)1705"
90229 1857 carrier from Hall coefficient "(In,Sn)Te1.01" In0.05Sn0.95Te1.01 In 0.05 Sn 0.95 Te 1.01 1974 K 1.43 1.43 E+21/cc 9.28 "ANN(580C,1w)" Carrier density dependences of the superconducting transitions in n-type InxSn1-xTe1+y 1974 "J.PHYS.SOC.JAPAN,36(1974)1705"
90230 1857 carrier from Hall coefficient "(In,Sn)Te1.01" In0.06Sn0.94Te1.01 In 0.06 Sn 0.94 Te 1.01 1974 K 1.36 1.36 E+21/cc 10.9 "ANN(580C,1w)" Carrier density dependences of the superconducting transitions in n-type InxSn1-xTe1+y 1974 "J.PHYS.SOC.JAPAN,36(1974)1705"
90231 1857 carrier from Hall coefficient "(In,Sn)Te1.01" In0.08Sn0.92Te1.01 In 0.08 Sn 0.92 Te 1.01 1974 K 1.45 1.45 E+21/cc 17 "ANN(580C,1w)" Carrier density dependences of the superconducting transitions in n-type InxSn1-xTe1+y 1974 "J.PHYS.SOC.JAPAN,36(1974)1705"
90232 1857 carrier from Hall coefficient "(In,Sn)Te1.01" In0.1Sn0.9Te1.01 In 0.1 Sn 0.9 Te 1.01 1974 K 1.75 1.75 E+21/cc 30 "ANN(580C,1w)" Carrier density dependences of the superconducting transitions in n-type InxSn1-xTe1+y 1974 "J.PHYS.SOC.JAPAN,36(1974)1705"
90233 PHC4200083 (dlnTc/P) = -0.030 /GPa MgB2 B2Mg1 B 2 Mg 1 2005 AlB2 K 38.7 38.7 MTC90233 K/GPa -1.17 Effect of pressure on the superconducting transition temperature of doped and neutron-damaged MgB2 2005 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "Physica C, 420(2005)83"
90234 PHC4200083 (dlnTc/P) = -0.027 /GPa "Mg(B,C)2" Mg1B1.924C0.076 Mg 1 B 1.924 C 0.076 2005 AlB2 K 35.5 35.5 MTC90234 K/GPa -0.966 Effect of pressure on the superconducting transition temperature of doped and neutron-damaged MgB2 2005 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "Physica C, 420(2005)83"
90235 PHC4200083 (dlnTc/P) = -0.036 /GPa "Mg(B,C)2" Mg1B1.85C0.15 Mg 1 B 1.85 C 0.15 2005 AlB2 K 27.2 27.2 MTC90235 K/GPa -0.974 Effect of pressure on the superconducting transition temperature of doped and neutron-damaged MgB2 2005 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "Physica C, 420(2005)83"
90236 PHC4200083 (dlnTc/P) = -0.031 /GPa "Mg(B,C)2" Mg1B1.8C0.2 Mg 1 B 1.8 C 0.2 2005 AlB2 K 21.5 21.5 MTC90235 K/GPa -0.664 Effect of pressure on the superconducting transition temperature of doped and neutron-damaged MgB2 2005 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "Physica C, 420(2005)83"
90237 PHC4200083 (dlnTc/P) = -0.051 /GPa "(Mg,Al)B2" Mg0.8Al0.2B2 Mg 0.8 Al 0.2 B 2 2005 AlB2 K 22.9 22.9 MTC90237 K/GPa -1.18 Effect of pressure on the superconducting transition temperature of doped and neutron-damaged MgB2 2005 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "Physica C, 420(2005)83"
90238 PHC4200083 "neutron irradiated sample(fluence=1 E+19 n/cm2), then ANN(400C,24h). (dlnTc/dP) = -0.038 /GPa" MgB2 B2Mg1 B 2 Mg 1 2005 AlB2 K 30.4 30.4 MTC90238 K/GPa -1.15 Effect of pressure on the superconducting transition temperature of doped and neutron-damaged MgB2 2005 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "Physica C, 420(2005)83"
90239 PHC4200083 "neutron irradiated sample(fluence=1 E+19 n/cm2), then ANN(300C,24h). (dlnTc/dP) = -0.044 /GPa" MgB2 B2Mg1 B 2 Mg 1 2005 AlB2 K 22.8 22.8 MTC90238 K/GPa -1.01 Effect of pressure on the superconducting transition temperature of doped and neutron-damaged MgB2 2005 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "Physica C, 420(2005)83"
90240 PHC4200083 "neutron irradiated sample(fluence=1 E+19 n/cm2), then ANN(250C,24h). (dlnTc/dP) = -0.045 /GPa" MgB2 B2Mg1 B 2 Mg 1 2005 AlB2 K 17.1 17.1 MTC90240 K/GPa -0.759 Effect of pressure on the superconducting transition temperature of doped and neutron-damaged MgB2 2005 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "Physica C, 420(2005)83"
90241 PHC4200083 "neutron irradiated sample(fluence=1 E+19 n/cm2), then ANN(200C,24h). (dlnTc/dP) = -0.039 /GPa" MgB2 B2Mg1 B 2 Mg 1 2005 AlB2 K 13.6 13.6 MTC90240 K/GPa -0.526 Effect of pressure on the superconducting transition temperature of doped and neutron-damaged MgB2 2005 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "Physica C, 420(2005)83"
90242 PHC4200083 "neutron irradiated sample(fluence=1 E+19 n/cm2), then ANN(150C,24h). (dlnTc/dP) = -0.043 /GPa" MgB2 B2Mg1 B 2 Mg 1 2005 AlB2 K 8.13 8.13 MTC90240 K/GPa -0.345 Effect of pressure on the superconducting transition temperature of doped and neutron-damaged MgB2 2005 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "Physica C, 420(2005)83"
90243 P071174506 Al-content by EDX. "(Mg,Al)B2" Mg0.978Al0.022B2 Mg 0.978 Al 0.022 B 2 3 2005 2.65 AlB2 P6/mmm A 3.0819 3.499 K 34.7 34.7 "melt(Mg+B,Al) above 20 kbar, crystal growth (1800C, or 1960C) high pressure synthesis" Al substitution in MgB2 crystals: Influence on superconducting and structural properties 2005 "Laboratory for Solid State Physics, ETH, 8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)174506"
90244 P071174506 Al-content by EDX. "(Mg,Al)B2" Mg0.956Al0.044B2 Mg 0.956 Al 0.044 B 2 3 2005 2.654 AlB2 P6/mmm A 3.082 3.494 K 34 34 "melt(Mg+B,Al) above 20 kbar, crystal growth (1800C, or 1960C) high pressure synthesis" Al substitution in MgB2 crystals: Influence on superconducting and structural properties 2005 "Laboratory for Solid State Physics, ETH, 8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)174506"
90245 P071174506 Al-content by EDX. "(Mg,Al)B2" Mg0.915Al0.085B2 Mg 0.915 Al 0.085 B 2 3 2005 2.664 AlB2 P6/mmm A 3.079 3.488 K 32.4 32.4 MTC90245 "melt(Mg+B,Al) above 20 kbar, crystal growth (1800C, or 1960C) high pressure synthesis" Al substitution in MgB2 crystals: Influence on superconducting and structural properties 2005 "Laboratory for Solid State Physics, ETH, 8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)174506"
90246 P071174506 "Al-content by EDX. Two phases: phase-I (a=3.082, c=3.459), phase-II(a=3.047, c=6.724)" "(Mg,Al)B2" Mg0.815Al0.185B2 Mg 0.815 Al 0.185 B 2 3 2005 2.746 AlB2 P6/mmm A 3.062 3.42 K 25.3 25.3 "melt(Mg+B,Al) above 20 kbar, crystal growth (1800C, or 1960C) high pressure synthesis" Al substitution in MgB2 crystals: Influence on superconducting and structural properties 2005 "Laboratory for Solid State Physics, ETH, 8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)174506"
90247 P071174506 gap by point contact tunneling. two gaps(delta = 7.1 and 2.80 meV). DB-value shows higher ones. MgB2 B2Mg1 B 2 Mg 1 3 2005 AlB2 K 38.2 38.2 MHC90247 meV 7.1 4.32 1 "melt(Mg+B,Al) above 20 kbar, crystal growth (1800C, or 1960C) high pressure synthesis" Al substitution in MgB2 crystals: Influence on superconducting and structural properties 2005 "Laboratory for Solid State Physics, ETH, 8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)174506"
90248 P071174506 gap by point contact tunneling. two gaps(delta = 4.30 and 2.30 meV). DB-value shows higher ones. "(Mg,Al)B2" Mg0.815Al0.09B2 Mg 0.815 Al 0.09 B 2 3 2005 AlB2 K 32.7 32.7 meV 4.3 3.05 1 "melt(Mg+B,Al) above 20 kbar, crystal growth (1800C, or 1960C) high pressure synthesis" Al substitution in MgB2 crystals: Influence on superconducting and structural properties 2005 "Laboratory for Solid State Physics, ETH, 8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)174506"
90249 P071174506 gap by point contact tunneling. two gaps(delta = 4.0 and 0.75 meV). DB-value shows higher ones. "(Mg,Al)B2" Mg0.815Al0.18B2 Mg 0.815 Al 0.18 B 2 3 2005 AlB2 K 25.7 25.7 meV 4 3.62 1 "melt(Mg+B,Al) above 20 kbar, crystal growth (1800C, or 1960C) high pressure synthesis" Al substitution in MgB2 crystals: Influence on superconducting and structural properties 2005 "Laboratory for Solid State Physics, ETH, 8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)174506"
90250 P071174506 "(Mg,Al)B2" Mg0.815Al0.024B2 Mg 0.815 Al 0.024 B 2 3 2005 AlB2 K 35 35 MHC90250 "melt(Mg+B,Al) above 20 kbar, crystal growth (1800C, or 1960C) high pressure synthesis" Al substitution in MgB2 crystals: Influence on superconducting and structural properties 2005 "Laboratory for Solid State Physics, ETH, 8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)174506"
90251 P071174506 "(Mg,Al)B2" Mg0.815Al0.092B2 Mg 0.815 Al 0.092 B 2 3 2005 AlB2 K 32 32 MHC90251 "melt(Mg+B,Al) above 20 kbar, crystal growth (1800C, or 1960C) high pressure synthesis" Al substitution in MgB2 crystals: Influence on superconducting and structural properties 2005 "Laboratory for Solid State Physics, ETH, 8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)174506"
90252 P071220505 Tc(H=1.46 K) = 5.7 K. B[11] NMR measured. Li2Pd3B Li2Pd3B1 Li 2 Pd 3 B 1 1 2005 K 7.1 7.1 2.2 6 "Li(3N),Pd(3N),B(2N)" two step arc-melting. nominal: Li:Pd:B = 2.1:3:1 Superconductivity of the ternary boride Li2Pd3B probed by [11]B NMR 2005 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 71(2005)220505"
90253 L094247006 "RRR=21. Hc2(0)//a=2.03T, Hc2//b = 1.28T, Hc2//c = 0.55T. Tc=0.257K for RRR=34 and Tc=0.274K for RRR=152 sample." URhGe U1Rh1Ge1 U 1 Rh 1 Ge 1 3 2005 TiNiSi K 0.205 0.222 0.238 0.222 T 2.03 0.55 MHC90253 "Czochralski method. ANN(1300C,24h) - etching - ANN(880C,18d)" p-Wave Superconductivity in the Ferromagnetic Superconductor URhGe 2005 "DRFMC/SPSMS, CEA-Grenoble, Grenoble 38054, France" "Phys.Rev.Lett., 94(2005)247006"
90254 PHC4220065 FM transition at 300K. Soft and weak FM. not SC. Structure type=CaTiO3(perovskite) AlCNi3 Al1C1Ni3 Al 1 C 1 Ni 3 2005 300 ABO3 Pm-3m A 3.587 K 4 "Al,C,Ni powder" "mixture - pellet - wrapped in Ta-foil - sealed quartz tube - heat(700C,30h + 980C,40h) - cool to RT(150C/h)" Synthesis and physical properties of AlCNi3 2005 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing , China" "Physica C, 422(2005)65"
90255 P071174511 Hc1 criterion: dM=7.0E-4 emu. cylinderical sample. MgCNi3 Mg1C1Ni3 Mg 1 C 1 Ni 3 1 2005 ABO3 K 6.9 6.9 Oe M-H curve 145.1 T SP-heat 11.8 A from Hc2(0) 53 A calculated from Hc1 and G-L 2001 powder metallurgy method Evidence for s-wave pairing from measurement of the lower critical field in MgCNi3 2005 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing , China" "Phys.Rev.B, 71(2005)174511"
90256 P071184512 nominal compo: x=0 in MgC1.5-xBxNi3. MgCNi3 Mg1C0.925Ni3 Mg 1 C 0.925 Ni 3 2005 ABO3 A 3.811 K 7.09 7.09 "using 99.5 at%[11]B-isotope. wrapped in Zr-foil, fired(600C,0.5h + 900C,1h) under (95Ar-5H2)-gas." Effect of [11]B substitution on the superconductivity of MgCNi3 2005 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 71(2005)184512"
90257 P071184512 nominal compo: x=0.05 in MgC1.5-xBxNi3. "Mg(C,B)Ni3" Mg1C0.885B0.04Ni3 Mg 1 C 0.885 B 0.04 Ni 3 2005 ABO3 A 3.8124 K 6.97 6.97 "using 99.5 at%[11]B-isotope. wrapped in Zr-foil, fired(600C,0.5h + 900C,1h) under (95Ar-5H2)-gas." Effect of [11]B substitution on the superconductivity of MgCNi3 2005 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 71(2005)184512"
90258 P071184512 nominal compo: x=0.10 in MgC1.5-xBxNi3. "Mg(C,B)Ni3" Mg1C0.853B0.072Ni3 Mg 1 C 0.853 B 0.072 Ni 3 2005 ABO3 A 3.8146 K 6.76 6.76 "using 99.5 at%[11]B-isotope. wrapped in Zr-foil, fired(600C,0.5h + 900C,1h) under (95Ar-5H2)-gas." Effect of [11]B substitution on the superconductivity of MgCNi3 2005 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 71(2005)184512"
90259 P071184512 nominal compo: x=0.151 in MgC1.5-xBxNi3. "Mg(C,B)Ni3" Mg1C0.814B0.111Ni3 Mg 1 C 0.814 B 0.111 Ni 3 2005 ABO3 A 3.8168 K 6.88 6.88 "using 99.5 at%[11]B-isotope. wrapped in Zr-foil, fired(600C,0.5h + 900C,1h) under (95Ar-5H2)-gas." Effect of [11]B substitution on the superconductivity of MgCNi3 2005 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 71(2005)184512"
90260 P071184512 nominal compo: x=0.2 in MgC1.5-xBxNi3. solubility limit:x=0.16 measured by NPD. "Mg(C,B)Ni3" Mg1C0.771B0.154Ni3 Mg 1 C 0.771 B 0.154 Ni 3 2005 ABO3 A 3.8197 K 6.44 6.44 "using 99.5 at%[11]B-isotope. wrapped in Zr-foil, fired(600C,0.5h + 900C,1h) under (95Ar-5H2)-gas." Effect of [11]B substitution on the superconductivity of MgCNi3 2005 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 71(2005)184512"
90261 PHB3590035 resistivity(max) at T=46 K. Sp-heat measured for 0.3 < T= < 4 K. CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2005 K 2.26 2.26 In-flux method Rapid suppression of superconductivity in CeCoIn5-xSnx 2005 "Los Alamos National Laboratory, Los Alamos, NM 87545, USA" "Physica B, 359-361(2005)35"
90262 PHB3590035 dTc/dx = -0.6 K/at%Sn. resistivity(max) at T=47.5 K. Sp-heat measured for 0.3 < T= < 4 K. "CeCo(In,Sn)5" Ce1Co1In4.94Sn0.06 Ce 1 Co 1 In 4.94 Sn 0.06 3 2005 K 1.56 1.56 MTC90262 In-flux method Rapid suppression of superconductivity in CeCoIn5-xSnx 2005 "Los Alamos National Laboratory, Los Alamos, NM 87545, USA" "Physica B, 359-361(2005)35"
90263 P072014534 2H-TaS2. anisotropy = 6.4. NaxTaS2 Na0.1Ta1S2 Na 0.1 Ta 1 S 2 3 2005 2H-TaS2 P6[-]m2 A 12.082 K 4.3 4.83 4.4 0.5 4.4 T 16 2.5 T/K resistivity 4.5 0.7163 MHC90263 "NaCl,Ta,S" "mixture - pellet - quartz tube - heat(920C,48C) - cool to 700C(1-2 C/h) - FC to RT" Fabrication and superconductivity of NaxTaS2 crystals 2005 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing 100080, China" "Phys.Rev.B, 72(2005)014534"
90264 P072014534 "2H-TaS2. anisotropy(resistivity)= 63.6 at 10K, and = 5.3 at 300 K." NaxTaS2 Na0.05Ta1S2 Na 0.05 Ta 1 S 2 3 2005 2H-TaS2 P6[-]m2 K 4 4 "NaCl,Ta,S" "mixture - pellet - quartz tube - heat(920C,48C) - cool to 700C(1-2 C/h) - FC to RT" Fabrication and superconductivity of NaxTaS2 crystals 2005 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing 100080, China" "Phys.Rev.B, 72(2005)014534"
90265 P072024521 single crystal. H-direction not described Rb3C60 C60Rb3 C 60 Rb 3 3 2005 fullerene K 30.9 30.9 mT trapped magnetization 0.91 T WHH theory and dHc2/dT 93 T/K 4.4 nm 1.9 nm calculated from Hc1 1100 vapor phase doping method Mixed state parameters of single crystalline Rb3C60 fullerene superconductors 2005 "Atominstitut der Osterreichischen Universitaten, Stadionallee 2, 1020 Vienna, Austria" "Phys.Rev.B, 72(2005)024521"
90266 P072020501 Hc2 defined as 0.8Rn. Hc2(0)//ab = 18.4 T from (dHc2/dT) and WHH theory. anisotropy = 4.5 by Hc2. ZrNClx Zr1N1Cl0.7 Zr 1 N 1 Cl 0.7 3 2005 K 12.8 12.8 T 27 T/K 2.21 0.49 MHC90266 A 71 16 powder sample - pressed into pellet to orient ZrN plane under 150 MPa in Ar. Upper critical field in the electron-doped layered superconductor ZrNCl0.7: Magnetoresistance studies 2005 "Department of Quantum Matter, AdSM, Hiroshima University, Higashi-Hiroshima, 739-8530, Japan" "Phys.Rev.B, 72(2005)020501"
90267 P072024547 RRR=9.33. gamma=0.34mJ/gat.K2. (dC/gamma*Tc) = 1.66. Hc(0) = 41.5 mT. ZrB12 B12Zr1 B 12 Zr 1 3 2005 3.63 UB12 K 5.97 6 0.025 5.97 3.7 14 MSP90267 mJ/mol.K 44.02 mJ/mol.K2 4.42 SP-heat 970 SP-heat uOhm.cm 1.925 17.95 zone melting "Specific heat, magnetic susceptibility, resistivity and thermal expansion of the superconductor ZrB12" 2005 "Department of Condensed Matter Physics, University of Geneva, CH-1211 Geneva 4 (Switzerland)" "Phys.Rev.B, 72(2005)024547"
90268 P072024551 "Ce(Rh,Co)In5" Ce1Rh0.9Co0.1In5 Ce 1 Rh 0.9 Co 0.1 In 5 3 2005 HoCoGa5 K MTC90268 molten In-flux method in alumina crucible. Superconductivity and non-Fermi liquid behavior near antiferromagnetic quantum critical points in CeRh1-xCoxIn5 2005 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California?San Diego, La Jolla, California, USA" "Phys.Rev.B, 72(2005)024551"
90269 P072024551 "Ce(Rh,Co)In5" Ce1Rh0.8Co0.2In5 Ce 1 Rh 0.8 Co 0.2 In 5 3 2005 3.7 HoCoGa5 K MTC90269 mJ/mol.K2 340 SP-heat molten In-flux method in alumina crucible. Superconductivity and non-Fermi liquid behavior near antiferromagnetic quantum critical points in CeRh1-xCoxIn5 2005 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California?San Diego, La Jolla, California, USA" "Phys.Rev.B, 72(2005)024551"
90270 P072024551 (dC/gamma*Tc) = 0.7 "Ce(Rh,Co)In5" Ce1Rh0.6Co0.4In5 Ce 1 Rh 0.6 Co 0.4 In 5 3 2005 3.6 HoCoGa5 K 1.5 1.5 MTC90270 mJ/mol.K 340 mJ/mol.K2 320 SP-heat molten In-flux method in alumina crucible. Superconductivity and non-Fermi liquid behavior near antiferromagnetic quantum critical points in CeRh1-xCoxIn5 2005 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California?San Diego, La Jolla, California, USA" "Phys.Rev.B, 72(2005)024551"
90271 P072024551 (dC/gamma*Tc) = 1.8 "Ce(Rh,Co)In5" Ce1Rh0.4Co0.6In5 Ce 1 Rh 0.4 Co 0.6 In 5 3 2005 2.9 HoCoGa5 K 1.43 1.43 MTC90271 mJ/mol.K 1560 mJ/mol.K2 620 SP-heat molten In-flux method in alumina crucible. Superconductivity and non-Fermi liquid behavior near antiferromagnetic quantum critical points in CeRh1-xCoxIn5 2005 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California?San Diego, La Jolla, California, USA" "Phys.Rev.B, 72(2005)024551"
90272 P072024551 (dC/gamma*Tc) = 0.9 "Ce(Rh,Co)In5" Ce1Rh0.35Co0.65In5 Ce 1 Rh 0.35 Co 0.65 In 5 3 2005 2.4 HoCoGa5 K 1.38 1.38 mJ/mol.K 930 mJ/mol.K2 730 SP-heat molten In-flux method in alumina crucible. Superconductivity and non-Fermi liquid behavior near antiferromagnetic quantum critical points in CeRh1-xCoxIn5 2005 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California?San Diego, La Jolla, California, USA" "Phys.Rev.B, 72(2005)024551"
90273 P072024551 (dC/gamma*Tc) = 0.4 "Ce(Rh,Co)In5" Ce1Rh0.29Co0.71In5 Ce 1 Rh 0.29 Co 0.71 In 5 3 2005 2.1 HoCoGa5 K 1.56 1.56 mJ/mol.K 820 mJ/mol.K2 830 SP-heat molten In-flux method in alumina crucible. Superconductivity and non-Fermi liquid behavior near antiferromagnetic quantum critical points in CeRh1-xCoxIn5 2005 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California?San Diego, La Jolla, California, USA" "Phys.Rev.B, 72(2005)024551"
90274 P072024551 (dC/gamma*Tc) = 0.8 "Ce(Rh,Co)In5" Ce1Rh0.23Co0.77In5 Ce 1 Rh 0.23 Co 0.77 In 5 3 2005 HoCoGa5 K 1.38 1.38 mJ/mol.K 1210 mJ/mol.K2 780 SP-heat molten In-flux method in alumina crucible. Superconductivity and non-Fermi liquid behavior near antiferromagnetic quantum critical points in CeRh1-xCoxIn5 2005 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California?San Diego, La Jolla, California, USA" "Phys.Rev.B, 72(2005)024551"
90275 P072024551 (dC/gamma*Tc) = 0.5 "Ce(Rh,Co)In5" Ce1Rh0.13Co0.87In5 Ce 1 Rh 0.13 Co 0.87 In 5 3 2005 HoCoGa5 K 1.73 1.73 mJ/mol.K 1030 mJ/mol.K2 620 SP-heat molten In-flux method in alumina crucible. Superconductivity and non-Fermi liquid behavior near antiferromagnetic quantum critical points in CeRh1-xCoxIn5 2005 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California?San Diego, La Jolla, California, USA" "Phys.Rev.B, 72(2005)024551"
90276 P072024551 (dC/gamma*Tc) = 0.5 "Ce(Rh,Co)In5" Ce1Rh0.07Co0.93In5 Ce 1 Rh 0.07 Co 0.93 In 5 3 2005 HoCoGa5 K 1.89 1.89 mJ/mol.K 1090 mJ/mol.K2 560 SP-heat molten In-flux method in alumina crucible. Superconductivity and non-Fermi liquid behavior near antiferromagnetic quantum critical points in CeRh1-xCoxIn5 2005 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California?San Diego, La Jolla, California, USA" "Phys.Rev.B, 72(2005)024551"
90277 JPS0741698 anisotropy=3.9 from Hc2. Maki-parameter k2=50 for H//[100]. thermodynamic Hc(0)=4.7 kOe. kaizero = 4.5E-4 emu/mol for H//[001]. p-direction=H//[100] PuRhGa5 Pu1Rh1Ga5 Pu 1 Rh 1 Ga 5 3 2005 emu/mol 0.00043 uB/Pu 0.85 HoCoGa5 A 6.84 K 8.6 8.6 T 27 15 T/K 3.5 2 "Ga-flux method. 94% enriched Pu[239]:Rh:Ga = 1:1:20, heat(1100C,2h,in alumina crucible) - slow cool to RT." Single Crystal Growth and Anisotropic Superconducting Property of PuRhGa5 2005 "Advanced Science Research Center, Japan Atomic Energy Research Institute, Tokai, Ibaraki 319-1195, Japan" "J.Phys.Soc.Jpn, 74(2005)1698"
90278 JPS0741782 P-induced SC. Pcrit = 0.8 GPa(lower SC) and 1.8 GPa(upper SC). CDW-temp = 58 K(chain I) and 142 K(chain III). (dTc/dP) for 4 < P < 5.7 GPa NbSe3 Nb1Se3 Nb 1 Se 3 3 2005 K 5 0 5 MTC90278 K/GPa -0.45 vapor transport. (Nb wire and Se) in sealed quartz tube at 1030 K(with t-gradient of 1 K/cm) Coexistence of the Upper Charge-Density-Wave and the Superconductivity in NbSe3 2005 "Department of Molecular Materials Science, Graduate School of Science, Osaka City University, Sumiyoshi-ku, Osaka, Japan" "J.Phys.Soc.Jpn, 74(2005)1782"
90279 JPS0591341 P-induced SC. Pcrit = 7.5 kbar. (dTc/dP) at Pcrit is estimated from Tc(P). CDW-temp = 58 K(chain I) and 142 K(chain III). NbSe3 Nb1Se3 Nb 1 Se 3 3 1990 K 3.71 0 3.71 MTC90279 K/GPa -1.77 not described Pressure effect on the charge-density waves and the superconductivity in NbSe3 1990 "Department of Physics,Facalty of Science, Hokkaido University, Sapporo, Japan" "J.Phys.Soc.Jpn, 59(1990)1341"
90280 PCS0650333 slow cool to 973 K. BaxSi46 Ba7.76Si46 Ba 7.76 Si 46 1 2004 clathrate A 10.314 K 9 9 "Si,BaSi2" "nominal BaSi2:Si=8:30. high pressure synthesis(1573K, P=3GPa)" "Synthesis and superconductivity of barium deficient type I silicon clathrate compounds, Ba8-xSi46" 2004 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Kagamiyama 1-4-1, Higashi?Hiroshima, Japan" "J.Phys.Chem.Solids, 65(2004)333"
90281 PCS0650333 slow cool to 1073 K. BaxSi46 Ba7.61Si46 Ba 7.61 Si 46 1 2004 clathrate A 10.331 K 8.2 8.2 "Si,BaSi2" "nominal BaSi2:Si=8:30. high pressure synthesis(1573K, P=3GPa)" "Synthesis and superconductivity of barium deficient type I silicon clathrate compounds, Ba8-xSi46" 2004 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Kagamiyama 1-4-1, Higashi?Hiroshima, Japan" "J.Phys.Chem.Solids, 65(2004)333"
90282 PCS0650333 "slow cool to 973 K. then ANN(800K,24h)" BaxSi46 Ba6.63Si46 Ba 6.63 Si 46 1 2004 clathrate A 10.262 K 6 6 "Si,BaSi2" "nominal BaSi2:Si=8:30. high pressure synthesis(1573K, P=3GPa)" "Synthesis and superconductivity of barium deficient type I silicon clathrate compounds, Ba8-xSi46" 2004 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Kagamiyama 1-4-1, Higashi?Hiroshima, Japan" "J.Phys.Chem.Solids, 65(2004)333"
90283 PCS0650333 "ANN(800K,24h)" BaxSi46 Ba6.62Si46 Ba 6.62 Si 46 1 2004 clathrate A 10.288 K 5 5 "Si,BaSi2" "nominal BaSi2:Si=8:30. high pressure synthesis(1273K, P=3GPa) - slow cool to 973 K." "Synthesis and superconductivity of barium deficient type I silicon clathrate compounds, Ba8-xSi46" 2004 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Kagamiyama 1-4-1, Higashi?Hiroshima, Japan" "J.Phys.Chem.Solids, 65(2004)333"
90284 IOC0422933 TCFIG shows Tc vs x for NaxBa6Si46 and BaxBa6Si46. BaxSi46 Ba7.76Si46 Ba 7.76 Si 46 1 2003 clathrate 223 A 10.3141 K 9 9 MTC90284 "Si,BaSi2" "nominal BaSi2:Si=8:30. high pressure synthesis(1573K, P=3GPa)" "Superconductivity of Metal Deficient Silicon Clathrate Compounds, Ba8-xSi46 (0 = 260 kbar. As1Ga1 As1Ga1 As 1 Ga 1 1971 K 4.8 0 4.8 1971 "ZH.ETF PIS.RED.,14(1971)18"
100237 84 As0.4Fe0.6 As0.4Fe0.6 As 0.4 Fe 0.6 1933 K 1.3 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
100238 RMP0350001 As4Cu18Sb3 As4Cu18Sb3 As 4 Cu 18 Sb 3 1963 cubic K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100239 11 As1Cu3 As1Cu3 As 1 Cu 3 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100240 99 eutectic As1Cu1 As1Cu1 As 1 Cu 1 1930 K 2.2 1930 "Phil.Mag., 10(1930)500"
100241 85 eutectic As1Pb1 As1Pb1 As 1 Pb 1 1932 K 8.4 8.4 From Roberts' Table 1932 "Z.Elektrochem., 38(1932)312"
100242 1582 As1Os1 As1Os1 As 1 Os 1 1968 K 1.13 1968 "STRUCTURE AND BONDING,4(1968)83-229"
100243 11 As1Ni1 As1Ni1 As 1 Ni 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100244 1982 As0.15Nb3Sn0.7Tl0.15 As0.15Nb3Sn0.7Tl0.15 As 0.15 Nb 3 Sn 0.7 Tl 0.15 1964 K 17.98 17.98 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
100245 1982 sintered As0.15Nb3Sn0.85 As0.15Nb3Sn0.85 As 0.15 Nb 3 Sn 0.85 1964 K 17.98 17.98 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
100246 1982 As0.15Nb3Pb0.15Sn0.7 As0.15Nb3Pb0.15Sn0.7 As 0.15 Nb 3 Pb 0.15 Sn 0.7 1964 K 18.05 18.05 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
100247 1508 As2Nb1 As2Nb1 As 2 Nb 1 1972 monoclinic K 0.012 1972 "J.MATERIALS SCI.,7(1972)344"
100248 1583 As3Mo1 As3Mo1 As 3 Mo 1 1968 K 1.1 1968 "STRUCTUER AND BONDING,4(1968)83-229"
100249 1508 As2Mo1 As2Mo1 As 2 Mo 1 1972 monoclinic K 0.41 0.41 1972 "J.MATERIALS SCI.,7(1972)344"
100250 491 As1Ir2 As1Ir2 As 1 Ir 2 1963 K 0.35 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
100251 491 As1Ir1 As1Ir1 As 1 Ir 1 1963 K 0.35 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
100252 1982 As0.15In0.15Nb3Sn0.7 As0.15In0.15Nb3Sn0.7 As 0.15 In 0.15 Nb 3 Sn 0.7 1964 K 17.99 17.99 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
100253 491 As3Pt2 As3Pt2 As 3 Pt 2 1963 K 0.35 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
100254 491 As2Pt1 As2Pt1 As 2 Pt 1 1963 K 0.35 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
100255 413 As1Pd1Se1 As1Pd1Se1 As 1 Pd 1 Se 1 1963 FeS2(pyrite) "FeS2(pyrite), C2" K 1.2 1963 "PHYS.LETT.,5(1963)226"
100256 530 As1Pd7 As1Pd7 As 1 Pd 7 1963 K 1.1 1963 "J.LESS-COMMON METALS,5(1963)271"
100257 262 As3Pd5 As3Pd5 As 3 Pd 5 K 1.9 From Roberts' Table Unpublished
100258 427 As2Pd3 As2Pd3 As 2 Pd 3 1963 K 1.4 Superconductivity of some binary and ternary alloys 1963 JETP 16(1963)1493
100259 530 As2Pd1 As2Pd1 As 2 Pd 1 1963 K 1.1 1963 "J.LESS-COMMON METALS,5(1963)271"
100260 491 As2Pd5 As2Pd5 As 2 Pd 5 1963 K 0.46 0.46 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
100261 530 As1Pd3 As1Pd3 As 1 Pd 3 1963 Ni3P "Ni3P, D0[e]" K 0.3 1963 "J.LESS-COMMON METALS,5(1963)271"
100262 491 As1Pd2 As1Pd2 As 1 Pd 2 1963 A 9.79 6.62 hexagonal K 0.6 0.6 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
100263 491 As1Pd2 As1Pd2 As 1 Pd 2 1963 Fe2P A 6.65 3.58 "Fe2P, C22" K 1.7 1.7 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
100264 35 As1Pd1 As1Pd1 As 1 Pd 1 1954 FeS2(pyrite) "FeS2(pyrite), C2" K 1.02 Superconducting compounds 1954 "Phys.Rev., 93(1954)1415"
100265 1583 As2Th1 As2Th1 As 2 Th 1 1968 Co2Si "Co2Si, C23" K 1.2 1968 "STRUCTUER AND BONDING,4(1968)83-229"
100266 1584 As7Tc3 As7Tc3 As 7 Tc 3 1968 Ge7Ir3 "Ge7Ir3, D8[f]" K 0.3 1968 "STRUCTURE AND BONDING,4(1968)83-229"
100267 1508 As2Ta1 As2Ta1 As 2 Ta 1 1972 monoclinic K 0.035 1972 "J.MATERIALS SCI.,7(1972)344"
100268 85 eutectic As1Sn1 As1Sn1 As 1 Sn 1 1932 K 4.1 4.1 From Roberts' Table 1932 "Z.Elektrochem., 38(1932)312"
100269 1219 As0.25Se0.75Y1 As0.25Se0.75Y1 As 0.25 Se 0.75 Y 1 1970 NaCl "NaCl, B1" K 0.78 0.78 1970 "SOLID STATE COMMUN.,8(1970)1379"
100270 84 As0.26Sb0.74 As0.26Sb0.74 As 0.26 Sb 0.74 1933 K 1.32 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
100271 491 As1Ru2 As1Ru2 As 1 Ru 2 1963 K 0.35 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
100272 491 As1Ru1 As1Ru1 As 1 Ru 1 1963 K 0.35 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
100273 1583 As1Rh2 As1Rh2 As 1 Rh 2 1968 CaF2 "CaF2, C1" K 1.1 1968 "STRUCTUER AND BONDING,4(1968)83-229"
100274 262 As3Rh5 As3Rh5 As 3 Rh 5 K 1.1 From Roberts' Table Unpublished
100275 491 As1Rh1 As1Rh1 As 1 Rh 1 1963 MnP A 5.62 3.58 6 "MnP, B31" K 0.58 0.58 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
100276 1584 As7Re3 As7Re3 As 7 Re 3 1968 Ge7Ir3 "Ge7Ir3, D8[f]" K 0.3 1968 "STRUCTURE AND BONDING,4(1968)83-229"
100277 1830 Au1 Au1 Au 1 1974 Cu "Cu, A1" K 0.002 1974 "J.LOW TEMP.PHYS.,16(1974)409"
100278 1583 As1Zr1 As1Zr1 As 1 Zr 1 1968 TiAs "TiAs, B[i]" K 1.1 1968 "STRUCTUER AND BONDING,4(1968)83-229"
100279 1583 As2Zr1 As2Zr1 As 2 Zr 1 1968 Co2Si "Co2Si, C23" K 1.1 1968 "STRUCTUER AND BONDING,4(1968)83-229"
100280 427 As1Zn1 As1Zn1 As 1 Zn 1 1963 K 1.3 Superconductivity of some binary and ternary alloys 1963 JETP 16(1963)1493
100281 1584 As1Y1 As1Y1 As 1 Y 1 1968 TiAs "TiAs, B[i]" K 0.31 1968 "STRUCTURE AND BONDING,4(1968)83-229"
100282 427 As1W1 As1W1 As 1 W 1 1963 K 1.4 Superconductivity of some binary and ternary alloys 1963 JETP 16(1963)1493
100283 1583 As3W2 As3W2 As 3 W 2 1968 K 1.1 1968 "STRUCTUER AND BONDING,4(1968)83-229"
100284 1508 As2W1 As2W1 As 2 W 1 1972 monoclinic K 0.9 0.9 1972 "J.MATERIALS SCI.,7(1972)344"
100285 1508 As2V1 As2V1 As 2 V 1 1972 monoclinic K 0.33 1972 "J.MATERIALS SCI.,7(1972)344"
100286 1578 As1V3 As1V3 As 1 V 3 1973 Cr3Si(A15) "Cr3Si, A15" K 1 1973 "FIZ.TVERDOGO TELA.,15(1973)1312"
100287 1584 As1Ti1 As1Ti1 As 1 Ti 1 1968 TiAs "TiAs, B[i]" K 0.3 1968 "STRUCTURE AND BONDING,4(1968)83-229"
100288 1583 As2Ti1 As2Ti1 As 2 Ti 1 1968 K 1.1 1968 "STRUCTUER AND BONDING,4(1968)83-229"
100289 486 Au1Ga1 Au1Ga1 Au 1 Ga 1 1965 MnP "MnP, B31" K 1.2 1.2 1965 "J.PHYS.CHEM.SOLIDS,26(1965)665"
100290 76 Au0.5Cu0.5 Au0.5Cu0.5 Au 0.5 Cu 0.5 1930 K 1.11 1930 "Z.Phys., 64(1930)581"
100291 76 Au0.25Cu0.75 Au0.25Cu0.75 Au 0.25 Cu 0.75 1930 K 1.11 1930 "Z.Phys., 64(1930)581"
100292 84 Au5Cd8 Au5Cd8 Au 5 Cd 8 1933 K 1.28 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
100293 486 Au5Ca1 Au5Ca1 Au 5 Ca 1 1965 MgCu2(Laves) "MgCu2, C15" K 0.34 0.34 1965 "J.PHYS.CHEM.SOLIDS,26(1965)665"
100294 870 Au0.1C1.3Y0.9 Au0.1C1.3Y0.9 Au 0.1 C 1.3 Y 0.9 1969 Pu2C3 "Pu2C3, D5[c]" K 10.1 10.1 1969 "J.LESS-COMMON METALS, 19(1969)113"
100295 281 Au2Bi1 Au2Bi1 Au 2 Bi 1 1932 MgCu2(Laves) "MgCu2, C15" K 1.84 1.84 1932 "PROC.ACAD.SCI.AMSTERDAM,35(1932)748"
100296 1057 Au1Be1 Au1Be1 Au 1 Be 1 1967 K 0.91 0.91 1967 "Z.PHYS.,200(1967)7"
100297 RMP0350001 Au1Be5 Au1Be5 Au 1 Be 5 1963 MgCu2(Laves) "MgCu2, C15" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100298 138 Au1Be1 Au1Be1 Au 1 Be 1 1959 FeSi "FeSi, B20" K 2.64 2.64 1959 "J.PHYS.AND CHEM.OF SOLIDS,10(1959)342"
100299 486 Au5Ba1 Au5Ba1 Au 5 Ba 1 1965 CeCo3B2 "CeCo3B2, CaCu5, D2[d]" K 0.4 0.4 1965 "J.PHYS.CHEM.SOLIDS,26(1965)665"
100300 767 Au0.285Mo1.8 Au0.2B5Mo1.8 Au 0.2 B 5 Mo 1.8 1970 AlB2 "AlB2, C32" K 4.5 4.5 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100301 394 Au5K1 Au5K1 Au 5 K 1 1964 CeCo3B2 "CeCo3B2, CaCu5, D2[d]" K 0.32 1964 "Z.ANORG.ALLG.CHEM.,332(1964)5"
100302 866 Au0.9In2Pd0.1 Au0.9In2Pd0.1 Au 0.9 In 2 Pd 0.1 1969 K 0.36 1969 "J.PHYS.CHEM.SOLIDS,30(1969)1949"
100303 486 Au1In1 Au1In1 Au 1 In 1 1965 K 0.6 0.6 1965 "J.PHYS.CHEM.SOLIDS,26(1965)665"
100304 1863 Au1In2 Au1In2 Au 1 In 2 1973 CaF2 "CaF2, C1" K 0.22 0.22 1973 "REV.SCI.INSTRUM.,44(1973)1186"
100305 1617 Au0.88In0.12 Au0.88In0.12 Au 0.88 In 0.12 1970 Cu "Cu, A1" K 0.014 1970 "PHYS.REV.B,1(1970)3002"
100306 84 Au0.75Hg0.25 Au0.75Hg0.25 Au 0.75 Hg 0.25 1933 K 1.28 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
100307 1867 deposited at 4K Au0.41Ge0.59 Au0.41Ge0.59 Au 0.41 Ge 0.59 1974 K 2.2 2.2 1974 "J.DE PHYS.(PARIS),35(1974)261"
100308 1179 deposited at 4K Au0.5Ge0.5 Au0.5Ge0.5 Au 0.5 Ge 0.5 1971 K 3.6 3.6 1971 "LT-12, Tokyo (1971) 339"
100309 908 laser pulse preparation Au1Ge1 Au1Ge1 Au 1 Ge 1 1970 K 2.7 2.7 1970 "ZH.ETF PIS.RED., 12(1970)228"
100310 908 Au1Ge1 Au1Ge1 Au 1 Ge 1 1970 K 1.4 1970 "ZH.ETF PIS.RED., 12(1970)228"
100311 1534 P=6 kbar Au1Ga2 Au1Ga2 Au 1 Ga 2 1972 K 1.9 1.9 1972 "PHYS.REV.LETT.,28(1972)1127"
100312 866 Au1Ga2 Au1Ga2 Au 1 Ga 2 1969 CaF2 "CaF2, C1" K 1.12 0.34 1.12 1969 "J.PHYS.CHEM.SOLIDS,30(1969)1949"
100313 1438 "sputtered film, d=10,000A" Au0.25Nb0.75 Au0.25Nb0.75 Au 0.25 Nb 0.75 1974 Cr3Si(A15) "Cr3Si, A15" K 11.2 11.2 1974 "J.APPL.PHYS.,45(1974)447"
100314 568 Au1Nb3 Au1Nb3 Au 1 Nb 3 1964 W "W, A2" K 1.2 1.2 1964 "PHYS.LETT.,8(1964)27"
100315 492 Au1Nb3 Au1Nb3 Au 1 Nb 3 1965 Cr3Si(A15) "Cr3Si, A15" K 11.5 11.5 SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
100316 1466 Au1Nb3 Au1Nb3 Au 1 Nb 3 1973 Cr3Si(A15) "Cr3Si, A15" K 11.22 11.22 1973 "J.JAPAN INST.METALS,37(1973)558"
100317 1377 Au1Na2 Au1Na2 Au 1 Na 2 1972 CuAl2 "CuAl2, C16" K 0.06 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
100318 RMP0350001 Au2Na1 Au2Na1 Au 2 Na 1 1963 MgCu2(Laves) "MgCu2, C15" K 0.34 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100319 RMP0350001 Au1Mg1 Au1Mg1 Au 1 Mg 1 1963 CsCl "CsCl, B2" K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100320 658 Au1Lu1 Au1Lu1 Au 1 Lu 1 1967 CsCl "CsCl, B2" K 0.35 Superconductivity of lanthanum and lanthanum compounds at zero and high pressure 1967 "J.PHYS.CHEM.SOLIDS,28(1967)569"
100321 1908 rapid quench Au0.22La0.78 Au0.22La0.78 Au 0.22 La 0.78 1975 K 3.4 3.4 1975 "PHYS.REV.B,11(1975)150"
100322 1908 rapid quench Au0.24La0.76 Au0.24La0.76 Au 0.24 La 0.76 1975 K 4 4 1975 "PHYS.REV.B,11(1975)150"
100323 1908 Au0.33La0.67 Au0.33La0.67 Au 0.33 La 0.67 1975 K 3.2 3.2 1975 "PHYS.REV.B,11(1975)150"
100324 658 Au1La1 Au1La1 Au 1 La 1 1967 K 0.33 Superconductivity of lanthanum and lanthanum compounds at zero and high pressure 1967 "J.PHYS.CHEM.SOLIDS,28(1967)569"
100325 229 Au0.2Sn0.8 Au0.2Sn0.8 Au 0.2 Sn 0.8 1962 orthorhombic K 2.38 2.38 1962 "J.PHYS.CHEM.SOLIDS,23(1962)405"
100326 486 Au1Sn1 Au1Sn1 Au 1 Sn 1 1965 NiAs "NiAs, B8[1]" K 1.25 1.25 1965 "J.PHYS.CHEM.SOLIDS,26(1965)665"
100327 486 Au5Sn1 Au5Sn1 Au 5 Sn 1 1965 Mg "Mg, A3" K 1.1 1.1 1965 "J.PHYS.CHEM.SOLIDS,26(1965)665"
100328 RMP0350001 Au1Sb2 Au1Sb2 Au 1 Sb 2 1963 FeS2(pyrite) "FeS2(pyrite), C2" K 0.58 0.58 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100329 1060 Au0.5Rh0.4Ti0.91 Au0.5Rh0.4Ti0.91 Au 0.5 Rh 0.4 Ti 0.91 1964 K 3 3 1964 "Z.PHYS.,178(1964)216"
100330 1116 rapid quench Au0.167Pd0.166Te0.66 Au0.167Pd0.166Te0.667 Au 0.167 Pd 0.166 Te 0.667 1971 cubic K 4.6 4.6 1971 "PHYS.LETT.A,34(1971)80"
100331 1116 rapid quench Au0.3Pd0.033Te0.666 Au0.3Pd0.033Te0.666 Au 0.3 Pd 0.033 Te 0.666 1971 cubic K 2.6 2.6 1971 "PHYS.LETT.A,34(1971)80"
100332 866 Au0.95Pd0.5Ga2 Au0.95Pd0.5Ga2 Au 0.95 Pd 0.5 Ga 2 1969 CaF2 "CaF2, C1" K 1.75 1.75 1969 "J.PHYS.CHEM.SOLIDS,30(1969)1949"
100333 521 Au1Pb3 Au1Pb3 Au 1 Pb 3 1964 K 4.4 4.4 1964 "PHYS.LETT.,10(1964)44"
100334 1377 Au1Pb2 Au1Pb2 Au 1 Pb 2 1972 CuAl2 "CuAl2, C16" K 3.1 3.1 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
100335 486 Au2Pb1 Au2Pb1 Au 2 Pb 1 1965 MgCu2(Laves) "MgCu2, C15" K 1.18 1.18 1965 "J.PHYS.CHEM.SOLIDS,26(1965)665"
100336 922 Au0.7Nb3Pt0.3 Au0.7Nb3Pt0.3 Au 0.7 Nb 3 Pt 0.3 1969 Cr3Si(A15) "Cr3Si, A15" K 12.5 12.5 1969 "PHYS.LETT.A,30(1969)170"
100337 RMP0350001 Au1Zr3 Au1Zr3 Au 1 Zr 3 1963 sigma-CrFe "sigma-CrFe, D8[b]" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100338 RMP0350001 Au1Zr3 Au1Zr3 Au 1 Zr 3 1963 Cr3Si(A15) "Cr3Si, A15" K 0.92 0.92 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100339 84 Au5Zn8 Au5Zn8 Au 5 Zn 8 1933 K 1.28 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
100340 RMP0350001 Au1Zn3 Au1Zn3 Au 1 Zn 3 1963 K 1.21 1.21 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100341 1617 Au0.85Zn0.15 Au0.85Zn0.15 Au 0.85 Zn 0.15 1970 Cu "Cu, A1" K 0.014 1970 "PHYS.REV.B,1(1970)3002"
100342 707 levitation method Au0.23V0.77 Au0.23V0.77 Au 0.23 V 0.77 1969 K 0.66 0.66 1969 "LOW TEMP.PHYS.,1(1969)539"
100343 85 eutectec Au1Tl1 Au1Tl1 Au 1 Tl 1 1932 K 1.92 1.92 From Roberts' Table 1932 "Z.Elektrochem., 38(1932)312"
100344 70 Au0.27Tl0.73 Au0.27Tl0.73 Au 0.27 Tl 0.73 1929 K 2.04 2.04 1929 "Proc.Acad.Sci.Amsterdam, 32(1929)715"
100345 1959 Au1Tl2 Au1Tl2 Au 1 Tl 2 1974 CuAl2 "CuAl2, C16" K 4.25 4.25 From Roberts' Table. Private communication 1974 Unpublished. personal commun.
100346 1377 Au1Th2 Au1Th2 Au 1 Th 2 1972 CuAl2 "CuAl2, C16" K 3.65 3.65 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
100347 487 Au3Te5 Au3Te5 Au 3 Te 5 1964 K 1.62 1.62 1964 "SCIENCE,145(1964)581"
100348 1015 Au1Ta4.3 Au1Ta4.3 Au 1 Ta 4.3 1970 Cr3Si(A15) "Cr3Si, A15" K 0.51 0.51 1970 "Z.PHYS.,230(1970)443"
100349 1014 B6Dy0.01Y0.99 B6Dy0.01Y0.99 B 6 Dy 0.01 Y 0.99 1969 K 1969 "PROC.NAT.ACAD.SCI.,64(1969)1151"
100350 705 B6Dy1 B6Dy1 B 6 Dy 1 1968 K 0.35 1968 "SCIENCE,159(1968)530"
100351 10 Cr2B1 B1Cr2 B 1 Cr 2 1954 CuAl2 "CuAl2, C16" K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
100352 11 B1Cr1 B1Cr1 B 1 Cr 1 1952 CrB "CrB, B[f]" K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100353 11 B2Cr1 B2Cr1 B 2 Cr 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100354 1377 B1Co2 B1Co2 B 1 Co 2 1972 CuAl2 "CuAl2, C16" K 0.06 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
100355 1014 B6Ce0.01Y0.99 B6Ce0.01Y0.99 B 6 Ce 0.01 Y 0.99 1969 K 1969 "PROC.NAT.ACAD.SCI.,64(1969)1151"
100356 705 B6Ce1 B6Ce1 B 6 Ce 1 1968 CaB6 "CaB6, D2[1]" K 0.35 1968 "SCIENCE,159(1968)530"
100357 558 B6Ca1 B6Ca1 B 6 Ca 1 1966 CaB6 "CaB6, D2[1]" K 1.28 1966 "INSTITUTE METALLOFIZIKI AN U.S.S.R.KIEV,(1966-YEAR 1966"
100358 966 B1C1Mo2 B1C1Mo2 B 1 C 1 Mo 2 1968 orthorhombic K 7.1 7.1 1968 "ACTA MET.,16(1968)1177"
100359 11 B4C1 B4C1 B 4 C 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100360 11 B0.86Ba0.14 B0.86Ba0.14 B 0.86 Ba 0.14 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100361 1014 B6Ho0.01Y0.99 B6Ho0.01Y0.99 B 6 Ho 0.01 Y 0.99 1969 K 1969 "PROC.NAT.ACAD.SCI.,64(1969)1151"
100362 705 B12Ho1 B12Ho1 B 12 Ho 1 1968 K 0.35 1968 "SCIENCE,159(1968)530"
100363 705 B6Ho1 B6Ho1 B 6 Ho 1 1968 K 0.35 1968 "SCIENCE,159(1968)530"
100364 767 B5Hf0.2Nb1.8 B5Hf0.2Nb1.8 B 5 Hf 0.2 Nb 1.8 1970 AlB2 "AlB2, C32" K 3.6 3.6 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100365 767 B5Hf0.2Mo1.8 B5Hf0.2Mo1.8 B 5 Hf 0.2 Mo 1.8 1970 AlB2 "AlB2, C32" K 8.4 8.4 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100366 1815 B1Hf1 B1Hf1 B 1 Hf 1 1967 NaCl "NaCl, B1" K 3.1 3.1 1967 "ISZ.AKAD.NAUK.SSSR.NEORGAN.MATER.,3(1967)1495"
100367 705 B6Gd1 B6Gd1 B 6 Gd 1 1968 CaB6 "CaB6, D2[1]" K 0.35 1968 "SCIENCE,159(1968)530"
100368 1377 B1Fe2 B1Fe2 B 1 Fe 2 1972 CuAl2 "CuAl2, C16" K 0.06 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
100369 1014 B6Eu0.01Y0.99 B6Eu0.01Y0.99 B 6 Eu 0.01 Y 0.99 1969 K 1969 "PROC.NAT.ACAD.SCI.,64(1969)1151"
100370 705 B6Eu1 B6Eu1 B 6 Eu 1 1968 CaB6 "CaB6, D2[1]" K 0.35 1968 "SCIENCE,159(1968)530"
100371 1014 B6Er0.01Y0.09 B6Er0.01Y0.99 B 6 Er 0.01 Y 0.99 1969 K 1969 "PROC.NAT.ACAD.SCI.,64(1969)1151"
100372 705 B12Er1 B12Er1 B 12 Er 1 1968 K 0.35 1968 "SCIENCE,159(1968)530"
100373 767 B5Mo1.7Nb0.3 B5Mo1.7Nb0.3 B 5 Mo 1.7 Nb 0.3 1970 AlB2 "AlB2, C32" K 8.3 8.3 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100374 767 B5Mo0.2Nb1.8 B5Mo0.2Nb1.8 B 5 Mo 0.2 Nb 1.8 1970 AlB2 "AlB2, C32" K 4.3 4.3 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100375 1105 B1Mo2 B1Mo2 B 1 Mo 2 1967 CuAl2 "CuAl2, C16" K 5.85 5.85 1967 "SCI.,155(1967)191"
100376 11 B1Mo1 B1Mo1 B 1 Mo 1 1952 MoB "MoB, B[g]" K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100377 11 B1Mo1 B1Mo1 B 1 Mo 1 1952 CrB "CrB, B[f]" K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100378 767 B2Mo1 B2Mo1 B 2 Mo 1 1970 AlB2 "AlB2, C32" K 1 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100379 11 B0.72Mo0.28 B0.72Mo0.28 B 0.72 Mo 0.28 1952 Mo2B5 "Mo2B5, D8[i]" K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100380 767 B2.5Mo1 B2.5Mo1 B 2.5 Mo 1 1970 AlB2 "AlB2, C32" K 7.45 7.45 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100381 1377 B1Mn2 B1Mn2 B 1 Mn 2 1972 CuAl2 "CuAl2, C16" K 0.06 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
100382 705 B12Lu1 B12Lu1 B 12 Lu 1 1968 K 0.48 0.48 1968 "SCIENCE,159(1968)530"
100383 1815 B6La1 B6La1 B 6 La 1 1967 CaB6 "CaB6, D2[1]" K 1.3 1967 "ISZ.AKAD.NAUK.SSSR.NEORGAN.MATER.,3(1967)1495"
100384 11 B1Ir1 B1Ir1 B 1 Ir 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100385 767 B2.5Nb1 B2.5Nb1 B 2.5 Nb 1 1970 AlB2 "AlB2, C32" K 6.4 6.4 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100386 11 B1N1 B1N1 B 1 N 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100387 767 B5Mo1.69Zr0.31 B5Mo1.69Zr0.31 B 5 Mo 1.69 Zr 0.31 1970 AlB2 "AlB2, C32" K 11.2 11.2 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100388 767 B5Mo1.9Zr0.1 B5Mo1.9Zr0.1 B 5 Mo 1.9 Zr 0.1 1970 AlB2 "AlB2, C32" K 8.9 8.9 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100389 767 B5Mo1.9Y0.1 B5Mo1.9Y0.1 B 5 Mo 1.9 Y 0.1 1970 AlB2 "AlB2, C32" K 8 8 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100390 767 B5Mo1.7V0.3 B5Mo1.7V0.3 B 5 Mo 1.7 V 0.3 1970 AlB2 "AlB2, C32" K 5.5 5.5 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100391 767 B5Mo1.7Ti0.3 B5Mo1.7Ti0.3 B 5 Mo 1.7 Ti 0.3 1970 AlB2 "AlB2, C32" K 7.1 7.1 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100392 767 B5Mo1.7Ta0.3 B5Mo1.7Ta0.3 B 5 Mo 1.7 Ta 0.3 1970 AlB2 "AlB2, C32" K 7 7 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100393 1377 B1Mo1.75Ta0.25 B1Mo1.75Ta0.25 B 1 Mo 1.75 Ta 0.25 1972 CuAl2 "CuAl2, C16" K 3.05 3.05 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
100394 1377 B1Mo1.5Ta0.5 B1Mo1.5Ta0.5 B 1 Mo 1.5 Ta 0.5 1972 CuAl2 "CuAl2, C16" K 1.81 1.81 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
100395 767 B5Mo1.8Sc0.2 B5Mo1.8Sc0.2 B 5 Mo 1.8 Sc 0.2 1970 AlB2 "AlB2, C32" K 8.8 8.8 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100396 1309 B3Mo6S8Sn1 B3Mo6S8Sn1 B 3 Mo 6 S 8 Sn 1 1973 K 15 15 1973 "MAT.RES.BULL.,8(1973)657"
100397 767 B5Nb1.8Zr0.2 B5Nb1.8Zr0.2 B 5 Nb 1.8 Zr 0.2 1970 AlB2 "AlB2, C32" K 5.9 5.9 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100398 767 B5Nb1.9Y0.1 B5Nb1.9Y0.1 B 5 Nb 1.9 Y 0.1 1970 AlB2 "AlB2, C32" K 9.3 9.3 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100399 767 B5nb1.8V0.2 B5Nb1.8V0.2 B 5 Nb 1.8 V 0.2 1970 AlB2 "AlB2, C32" K 2.5 2.5 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100400 767 B5Nb1.9Ti0.1 B5Nb1.9Ti0.1 B 5 Nb 1.9 Ti 0.1 1970 AlB2 "AlB2, C32" K 4 4 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100401 767 B5Nb1.8Th0.2 B5Nb1.8Th0.2 B 5 Nb 1.8 Th 0.2 1970 AlB2 "AlB2, C32" K 7 7 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100402 767 B5Nb1.9Sc0.1 B5Nb1.9Sc0.1 B 5 Nb 1.9 Sc 0.1 1970 AlB2 "AlB2, C32" K 6.6 6.6 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100403 767 B5Nb1.8Ru0.2 B5Nb1.8Ru0.2 B 5 Nb 1.8 Ru 0.2 1970 AlB2 "AlB2, C32" K 6 6 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100404 1951 B2Nb1 B2Nb1 B 2 Nb 1 1967 K 1967 "TOHOKU UNIVN.RES.INST.SCI.REPTS.SER.A,18(1967)413"
100405 927 B2Nb3 B2Nb3 B 2 Nb 3 1969 tetragonal K 0.1 1969 "PHYS.LETT.A,29(1969)109"
100406 11 B0.57Nb0.43 B0.57Nb0.43 B 0.57 Nb 0.43 1952 Ta3B4 "Ta3B4, D7[b]" K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100407 11 B1Nb1 B1Nb1 B 1 Nb 1 1952 CrB "CrB, B[f]" K 8.25 8.25 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100408 767 B2Nb1 B2Nb1 B 2 Nb 1 1970 AlB2 "AlB2, C32" K 1 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100409 173 B3Ru7 B3Ru7 B 3 Ru 7 1961 Fe3Th7 "Fe3Th7, D10[2]" K 2.58 2.58 1961 "J.PHYS.CHEM.SOLIDS,19(1961)130"
100410 RMP0350001 B3Rh7 B3Rh7 B 3 Rh 7 1963 Fe3Th7 "Fe3Th7, D10[2]" K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100411 141 B1Rh2 B1Rh2 B 1 Rh 2 1955 orthorhombic K 1 1955 "ACTA CRYST.,8(1955)15"
100412 11 B1Rh1 B1Rh1 B 1 Rh 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100413 465 B1Re2 B1Re2 B 1 Re 2 1963 K 4.6 4.6 SPECIFIC HEATS TRANSITION METAL SUPERCONDUCTORS 1963 "PHYS.REV.,129(1963)1115"
100414 11 B1Pt1 B1Pt1 B 1 Pt 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100415 1014 B6Pr0.01Y0.99 B6Pr0.01Y0.99 B 6 Pr 0.01 Y 0.99 1969 K 1969 "PROC.NAT.ACAD.SCI.,64(1969)1151"
100416 705 B6Pr1 B6Pr1 B 6 Pr 1 1968 CaB6 "CaB6, D2[1]" K 0.35 1968 "SCIENCE,159(1968)530"
100417 RMP0350001 B2Os1 B2Os1 B 2 Os 1 1963 AlB2 "AlB2, C32" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100418 1377 B1Ni2 B1Ni2 B 1 Ni 2 1972 CuAl2 "CuAl2, C16" K 0.07 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
100419 1014 B0.006Nd0.01Y0.99 B0.006Nd0.01Y0.99 B 0.006 Nd 0.01 Y 0.99 1969 K 1969 "PROC.NAT.ACAD.SCI.,64(1969)1151"
100420 705 B6nd1 B6Nd1 B 6 Nd 1 1968 CaB6 "CaB6, D2[1]" K 3 0.35 3 1968 "SCIENCE,159(1968)530"
100421 1377 B1Ta1.25W0.75 B1Ta1.25W0.75 B 1 Ta 1.25 W 0.75 1972 CuAl2 "CuAl2, C16" K 0.06 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
100422 927 B2Ta3 B2Ta3 B 2 Ta 3 1969 tetragonal K 0.1 1969 "PHYS.LETT.A,29(1969)109"
100423 1377 B1Ta2 B1Ta2 B 1 Ta 2 1972 CuAl2 "CuAl2, C16" K 0.06 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
100424 1815 B1Ta1 B1Ta1 B 1 Ta 1 1967 CrB "CrB, B[f]" K 4 4 1967 "ISZ.AKAD.NAUK.SSSR.NEORGAN.MATER.,3(1967)1495"
100425 11 B4Ta3 B4Ta3 B 4 Ta 3 1952 Ta3B4 "Ta3B4, D7[b]" K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100426 11 B2Ta1 B2Ta1 B 2 Ta 1 1952 AlB2 "AlB2, C32" K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100427 1014 B6Sm0.01Y0.99 B6Sm0.01Y0.99 B 6 Sm 0.01 Y 0.99 1969 K 1969 "PROC.NAT.ACAD.SCI.,64(1969)1151"
100428 1815 B6Sm1 B6Sm1 B 6 Sm 1 1967 CaB6 "CaB6, D2[1]" K 1.28 1967 "ISZ.AKAD.NAUK.SSSR.NEORGAN.MATER.,3(1967)1495"
100429 1815 B2Sc1 B2Sc1 B 2 Sc 1 1967 AlB2 "AlB2, C32" K 1.3 1967 "ISZ.AKAD.NAUK.SSSR.NEORGAN.MATER.,3(1967)1495"
100430 1815 B4Sc1 B4Sc1 B 4 Sc 1 1967 hexagonal K 1.34 1967 "ISZ.AKAD.NAUK.SSSR.NEORGAN.MATER.,3(1967)1495"
100431 705 B12Sc1 B12Sc1 B 12 Sc 1 1968 K 0.39 0.39 1968 "SCIENCE,159(1968)530"
100432 10 B1Ru2 B1Ru2 B 1 Ru 2 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
100433 10 B1V2 B1V2 B 1 V 2 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
100434 10 B1V1 B1V1 B 1 V 1 1954 CrB "CrB, B[f]" K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
100435 1014 B6Tm0.01Y0.99 B6Tm0.01Y0.99 B 6 Tm 0.01 Y 0.99 1969 K 1969 "PROC.NAT.ACAD.SCI.,64(1969)1151"
100436 705 B12Tm1 B12Tm1 B 12 Tm 1 1968 K 0.35 1968 "SCIENCE,159(1968)530"
100437 10 B1Ti1 B1Ti1 B 1 Ti 1 1954 FeB "FeB, B27" K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
100438 11 B2Ti1 B2Ti1 B 2 Ti 1 1952 AlB2 "AlB2, C32" K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100439 10 B1Th1 B1Th1 B 1 Th 1 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
100440 40 B2Th1 B2Th1 B 2 Th 1 1953 K 1.77 Studies of compounds for superconductivity 1953 "Phys.Rev., 90(1953)115"
100441 705 B6Th1 B6Th1 B 6 Th 1 1968 K 0.74 0.74 1968 "SCIENCE,159(1968)530"
100442 1014 B6Tb0.01Y0.99 B6Tb0.01Y0.99 B 6 Tb 0.01 Y 0.99 1969 K 1969 "PROC.NAT.ACAD.SCI.,64(1969)1151"
100443 705 B6Tb1 B6Tb1 B 6 Tb 1 1968 CaB6 "CaB6, D2[1]" K 0.35 1968 "SCIENCE,159(1968)530"
100444 1377 B1Ta1.5W0.5 B1Ta1.5W0.5 B 1 Ta 1.5 W 0.5 1972 CuAl2 "CuAl2, C16" K 0.25 0.25 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
100445 1815 B1Zr1 B1Zr1 B 1 Zr 1 1967 NaCl "NaCl, B1" K 3.4 3.4 1967 "ISZ.AKAD.NAUK.SSSR.NEORGAN.MATER.,3(1967)1495"
100446 40 B2Zr1 B2Zr1 B 2 Zr 1 1953 AlB2 "AlB2, C32" K 1.8 Studies of compounds for superconductivity 1953 "Phys.Rev., 90(1953)115"
100447 782 B12Zr1 B12Zr1 B 12 Zr 1 1969 cubic K 6 6 1969 "SCIENCE,165(1969)279"
100448 1014 B12Yb0.01Zr0.99 B12Yb0.01Zr0.99 B 12 Yb 0.01 Zr 0.99 1969 K 4.4 4.4 1969 "PROC.NAT.ACAD.SCI.,64(1969)1151"
100449 558 B6Yb1 B6Yb1 B 6 Yb 1 1966 CaB6 "CaB6, D2[1]" K 1.28 1966 "INSTITUTE METALLOFIZIKI AN U.S.S.R.KIEV,(1966-YEAR 1966"
100450 1014 B6Y0.99Yb0.01 B6Y0.99Yb0.01 B 6 Y 0.99 Yb 0.01 1969 K 1969 "PROC.NAT.ACAD.SCI.,64(1969)1151"
100451 705 B6Y1 B6Y1 B 6 Y 1 1968 CaB6 "CaB6, D2[1]" K 6.5 1.28 6.5 1968 "SCIENCE,159(1968)530"
100452 705 B12Y1 B12Y1 B 12 Y 1 1968 K 4.7 4.7 1968 "SCIENCE,159(1968)530"
100453 1377 B1W2 B1W2 B 1 W 2 1972 CuAl2 "CuAl2, C16" K 3.22 3.22 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
100454 11 B1W1 B1W1 B 1 W 1 1952 MoB "MoB, B[g]" K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100455 11 B5W2 B5W2 B 5 W 2 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100456 927 B2V3 B2V3 B 2 V 3 1969 tetragonal K 0.1 1969 "PHYS.LETT.A,29(1969)109"
100457 28 Ba1Pd2 Ba1Pd2 Ba 1 Pd 2 1957 MgCu2(Laves) "MgCu2, C15" K 1.02 Superconducting alkaline earth compounds 1957 "Phys.Rev., 107(1957)1558"
100458 1372 Ba0.1Pb3Sr0.9 Ba0.1Pb3Sr0.9 Ba 0.1 Pb 3 Sr 0.9 1972 tetragonal K 1.75 1.75 1972 "J.LESS-COMMON METALS,27(1972)169"
100459 644 Ba0.14O3W1 Ba0.14O3W1 Ba 0.14 O 3 W 1 1966 hexagonal K 2.2 2.2 1966 "SOLID STATE COMMUN.,4(1966)25"
100460 575 Ba0.13O3W1 Ba0.13O3W1 Ba 0.13 O 3 W 1 1965 tetragonal K 1.9 1.9 1965 "PHYS.LETT.,19(1965)82"
100461 1232 Ba1Hg1 Ba1Hg1 Ba 1 Hg 1 1966 CsCl "CsCl, B2" K 2.32 2.32 Superconducting transition temperatures of mercury-alkaline earth metal compounds 1966 "J.PHYS.CHEM.SOLIDS,27(1966)1081"
100462 715 Ba1Bi3 Ba1Bi3 Ba 1 Bi 3 1970 tetragonal K 5.8 5.8 1970 "J.PHYS.CHEM.SOLIDS,31(1970)2653"
100463 710 quenched film Ba1 Ba1 Ba 1 1975 K 3 3 1975 "PHYS.LETT.A,51(1975)353"
100464 1702 pressure-induced s/c. Tc=4.5 K at P=148 kbar. dTc/dP = 1.3 E-5 K/bar. Ba1 Ba1 Ba 1 1971 K 4.5 0 4.5 K/GPa 0.13 "Superconductivity of Bismuth, Barium, and Lead at pressures exceeding 100 kbar" 1971 "ZH.EKSP.TEOR.FIZ.,61(1971)2357, Soviet Physics JETP, 34(1972)1263"
100465 1702 pressure-induced s/c. Tc=4.7 K at P=168 kbar. Ba1 Ba1 Ba 1 1971 K 4.7 0 4.7 "Superconductivity of Bismuth, Barium, and Lead at pressures exceeding 100 kbar" 1971 "ZH.EKSP.TEOR.FIZ.,61(1971)2357, Soviet Physics JETP, 34(1972)1263"
100466 1702 Pressure-induced s/c. Tc=4.9 K at P=175 kbar. Ba1 Ba1 Ba 1 1971 K 4.9 0 4.9 "Superconductivity of Bismuth, Barium, and Lead at pressures exceeding 100 kbar" 1971 "ZH.EKSP.TEOR.FIZ.,61(1971)2357, Soviet Physics JETP, 34(1972)1263"
100467 1702 pressure-induced s/c. Tc=5.1 K at P=192 kbar. Ba1 Ba1 Ba 1 1971 K 5.1 0 5.1 "Superconductivity of Bismuth, Barium, and Lead at pressures exceeding 100 kbar" 1971 "ZH.EKSP.TEOR.FIZ.,61(1971)2357, Soviet Physics JETP, 34(1972)1263"
100468 1233 Ba1 Ba1 Ba 1 W "W, A2" K 0.014 "QUOTED IN REF.,1232"
100469 1057 Be0.92Cu0.08 Be0.92Cu0.08 Be 0.92 Cu 0.08 1967 W "W, A2" K 0.84 0.84 1967 "Z.PHYS.,200(1967)7"
100470 427 Be1Cr2 Be1Cr2 Be 1 Cr 2 1963 MgZn2(Laves) "MgZn2, C14" K 1.75 Superconductivity of some binary and ternary alloys 1963 JETP 16(1963)1493
100471 1769 Be2Cr1 Be2Cr1 Be 2 Cr 1 1973 MgZn2(Laves) "MgZn2, C14" K 1.4 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100472 1769 Be12Cr1 Be12Cr1 Be 12 Cr 1 1973 tetragonal K 1.4 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100473 712 Be5Co1 Be5Co1 Be 5 Co 1 K 1.15 "From Roberts' Table, unpublished work, Univ. of Geneva" Unpublished results
100474 1769 Be12Co1 Be12Co1 Be 12 Co 1 1973 tetragonal K 1.15 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100475 1057 Be21Co5 Be21Co5 Be 21 Co 5 1967 Cu5Zn8 "Cu5Zn8, D8[2]" K 0.45 1967 "Z.PHYS.,200(1967)7"
100476 1057 Be0.944Co0.056 Be0.944Co0.056 Be 0.944 Co 0.056 1967 K 0.45 1967 "Z.PHYS.,200(1967)7"
100477 1769 Be13Ce1 Be13Ce1 Be 13 Ce 1 1973 NaZn13 "NaZn13, D2[3]" K 1.4 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100478 1769 Be13Ca1 Be13Ca1 Be 13 Ca 1 1973 NaZn13 "NaZn13, D2[3]" K 1.38 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100479 28 Ba1Rh2 Ba1Rh2 Ba 1 Rh 2 1957 MgCu2(Laves) "MgCu2, C15" K 6 6 Superconducting alkaline earth compounds 1957 "Phys.Rev., 107(1957)1558"
100480 28 Ba1Pt2 Ba1Pt2 Ba 1 Pt 2 1957 MgCu2(Laves) "MgCu2, C15" K 1.02 Superconducting alkaline earth compounds 1957 "Phys.Rev., 107(1957)1558"
100481 1769 Be5Ga1 Be5Ga1 Be 5 Ga 1 1973 K 5.8 5.8 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100482 1769 Be6Ga1 Be6Ga1 Be 6 Ga 1 1973 K 6 6 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100483 1769 Be8Ga1 Be8Ga1 Be 8 Ga 1 1973 K 5.7 5.7 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100484 1769 Be13Ga1 Be13Ga1 Be 13 Ga 1 1973 K 5.6 5.6 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100485 1769 Be22Ga1 Be22Ga1 Be 22 Ga 1 1973 K 5.7 5.7 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100486 1769 Be2Fe1 Be2Fe1 Be 2 Fe 1 1973 MgZn2(Laves) "MgZn2, C14" K 1.4 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100487 712 Be11Fe1 Be11Fe1 Be 11 Fe 1 K 1.15 "From Roberts' Table, unpublished work, Univ. of Geneva" Unpublished results
100488 1057 Be0.95Fe0.05 Be0.95Fe0.05 Be 0.95 Fe 0.05 1967 K 0.45 1967 "Z.PHYS.,200(1967)7"
100489 1057 Be0.977Fe0.023 Be0.977Fe0.023 Be 0.977 Fe 0.023 1967 K 0.45 1967 "Z.PHYS.,200(1967)7"
100490 1769 Be3Cu1 Be3Cu1 Be 3 Cu 1 1973 MgCu2(Laves) "MgCu2, C15" K 1.4 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100491 1057 Be0.858Cu0.142 Be0.858Cu0.142 Be 0.858 Cu 0.142 1967 W "W, A2" K 0.56 0.56 1967 "Z.PHYS.,200(1967)7"
100492 1057 Be0.89Cu0.11 Be0.89Cu0.11 Be 0.89 Cu 0.11 1967 W "W, A2" K 1.11 1.11 1967 "Z.PHYS.,200(1967)7"
100493 1769 Be12Mg1Re1 Be12Mg1Re1 Be 12 Mg 1 Re 1 1973 K 10.1 10.1 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100494 1769 Be13Mg1 Be13Mg1 Be 13 Mg 1 1973 NaZn13 "NaZn13, D2[3]" K 1.4 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100495 1964 Be13Lu1 Be13Lu1 Be 13 Lu 1 1975 cubic K 0.45 1975 "PHYS.REV.,11(1975)40"
100496 1964 Be13La1 Be13La1 Be 13 La 1 1975 cubic K 0.45 1975 "PHYS.REV.,11(1975)40"
100497 1769 Be5Ir1 Be5Ir1 Be 5 Ir 1 1973 K 1.5 1.5 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100498 1769 Be13Ir1 Be13Ir1 Be 13 Ir 1 1973 K 1 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100499 1057 Be0.95Ir0.05 Be0.95Ir0.05 Be 0.95 Ir 0.05 1967 K 0.45 1967 "Z.PHYS.,200(1967)7"
100500 712 Be13Hf1 Be13Hf1 Be 13 Hf 1 K 1.15 "From Roberts' Table, unpublished work, Univ. of Geneva" Unpublished results
100501 712 Be17Hf2 Be17Hf2 Be 17 Hf 2 K 1.15 "From Roberts' Table, unpublished work, Univ. of Geneva" Unpublished results
100502 1769 Be13Ge1 Be13Ge1 Be 13 Ge 1 1973 K 1.4 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100503 1769 Be2Ga1 Be2Ga1 Be 2 Ga 1 1973 K 6.3 6.3 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100504 1769 Be3Ga1 Be3Ga1 Be 3 Ga 1 1973 K 6.7 6.7 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100505 1822 Be22Mo0.6Re0.4 Be22Mo0.6Re0.4 Be 22 Mo 0.6 Re 0.4 1973 cubic K 8.3 8.3 1973 "Z.PHYS.,259(1973)307"
100506 1822 Be22Mo0.3Re0.7 Be22Mo0.3Re0.7 Be 22 Mo 0.3 Re 0.7 1973 cubic K 8.6 8.6 1973 "Z.PHYS.,259(1973)307"
100507 1822 Be22Mo0.4Re0.6 Be22Mo0.4Re0.6 Be 22 Mo 0.4 Re 0.6 1973 cubic K 8.6 8.6 1973 "Z.PHYS.,259(1973)307"
100508 712 Be1Mo3 Be1Mo3 Be 1 Mo 3 K 1.15 "From Roberts' Table, unpublished work, Univ. of Geneva" Unpublished results
100509 1769 Be2Mo1 Be2Mo1 Be 2 Mo 1 1973 MgZn2(Laves) "MgZn2, C14" K 1.4 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100510 1909 Be12Mo1 Be12Mo1 Be 12 Mo 1 1968 tetragonal K 1.38 1968 "PHYS.REV.,171(1968)591"
100511 427 Be13Mo1 Be13Mo1 Be 13 Mo 1 1963 tetragonal K 1.68 Superconductivity of some binary and ternary alloys 1963 JETP 16(1963)1493
100512 1922 Be22Mo1 Be22Mo1 Be 22 Mo 1 1973 cubic K 2.545 2.545 1973 "UKR.FIZ.ZH.,18(1973)672"
100513 1769 Be2Mn1 Be2Mn1 Be 2 Mn 1 1973 MgZn2(Laves) "MgZn2, C14" K 1.4 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100514 1769 Be8Mn1 Be8Mn1 Be 8 Mn 1 1973 MgCu2(Laves) "MgCu2, C15" K 1.4 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100515 712 Be12Mn1 Be12Mn1 Be 12 Mn 1 tetragonal K 1.15 "From Roberts' Table, unpublished work, Univ. of Geneva" Unpublished results
100516 1769 Be13Mn1 Be13Mn1 Be 13 Mn 1 1973 K 1.4 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100517 1057 arc melted Be0.96Ni0.04 Be0.96Ni0.04 Be 0.96 Ni 0.04 1967 K 0.76 0.76 1967 "Z.PHYS.,200(1967)7"
100518 1057 "arc melted, slow cool" Be0.934Ni0.066 Be0.934Ni0.066 Be 0.934 Ni 0.066 1967 K 0.88 0.88 1967 "Z.PHYS.,200(1967)7"
100519 1057 slow cool Be0.9Ni0.1 Be0.9Ni0.1 Be 0.9 Ni 0.1 1967 K 0.58 0.58 1967 "Z.PHYS.,200(1967)7"
100520 1057 arc melted Be0.9Ni0.1 Be0.9Ni0.1 Be 0.9 Ni 0.1 1967 W "W, A2" K 2.38 2.38 1967 "Z.PHYS.,200(1967)7"
100521 1057 arc melted. slow cool. Be21Ni5 Be21Ni5 Be 21 Ni 5 1967 Cu5Zn8 "Cu5Zn8, D8[2]" K 0.72 0.72 1967 "Z.PHYS.,200(1967)7"
100522 427 Be8Nb5Zr2 Be8Nb5Zr2 Be 8 Nb 5 Zr 2 1963 K 5.2 5.2 Superconductivity of some binary and ternary alloys 1963 JETP 16(1963)1493
100523 927 Be2Nb1.5Ta1.5 Be2Nb1.5Ta1.5 Be 2 Nb 1.5 Ta 1.5 1969 Si2U3 K 1.7 1.7 1969 "PHYS.LETT.A,29(1969)109"
100524 927 Be2Nb3 Be2Nb3 Be 2 Nb 3 1969 Si2U3 tetragonal K 2.3 2.3 1969 "PHYS.LETT.A,29(1969)109"
100525 712 Be2Nb1 Be2Nb1 Be 2 Nb 1 K 2.15 2.15 "From Roberts' Table, unpublished work, Univ. of Geneva" Unpublished results
100526 712 Be3Nb1 Be3Nb1 Be 3 Nb 1 K 1.15 "From Roberts' Table, unpublished work, Univ. of Geneva" Unpublished results
100527 1909 Be12Nb1 Be12Nb1 Be 12 Nb 1 1968 tetragonal K 1.38 1968 "PHYS.REV.,171(1968)591"
100528 712 Be17Nb2 Be17Nb2 Be 17 Nb 2 K 1.47 1.38 1.47 "From Roberts' Table, unpublished work, Univ. of Geneva" Unpublished results
100529 1769 Be12Pd1 Be12Pd1 Be 12 Pd 1 1973 tetragonal K 1.4 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100530 1769 Be13Pd1 Be13Pd1 Be 13 Pd 1 1973 K 1 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100531 1057 Be22Pd1 Be22Pd1 Be 22 Pd 1 1967 K 0.45 1967 "Z.PHYS.,200(1967)7"
100532 1903 Be0.86Pb0.14 Be0.86Pb0.14 Be 0.86 Pb 0.14 1975 K 9.7 9.7 1975 "Z.PHYS.B,20(1975)13"
100533 1769 Be22Os0.005Re1 Be22Os0.005Re1 Be 22 Os 0.005 Re 1 1973 K 9.8 9.8 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100534 1769 Be0.8Os0.2 Be0.8Os0.2 Be 0.8 Os 0.2 1973 K 8.6 8.6 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100535 1769 Be0.9Os0.1 Be0.9Os0.1 Be 0.9 Os 0.1 1973 K 1 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100536 1057 Be0.95Os0.05 Be0.95Os0.05 Be 0.95 Os 0.05 1967 K 0.57 0.57 1967 "Z.PHYS.,200(1967)7"
100537 712 Be2Os1 Be2Os1 Be 2 Os 1 K 3.07 3.07 "From Roberts' Table, unpublished work, Univ. of Geneva" Unpublished results
100538 1769 Be5Os1 Be5Os1 Be 5 Os 1 1973 K 9.2 9.2 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100539 1769 Be13Os1 Be13Os1 Be 13 Os 1 1973 K 1 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100540 1769 Be22Os1 Be22Os1 Be 22 Os 1 1973 K 1 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100541 1769 Be22Rh1 Be22Rh1 Be 22 Rh 1 1973 K 1 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100542 1769 Be49Rh1 Be49Rh1 Be 49 Rh 1 1973 K 1.4 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100543 1390 Be22Re0.95W0.05 Be22Re0.95W0.05 Be 22 Re 0.95 W 0.05 1967 K 9.45 9.45 1967 "HELV.PHYS.ACTA,40(1967)1012"
100544 1390 Be22Re0.95Os0.05 Be22Re0.95Os0.05 Be 22 Re 0.95 Os 0.05 1967 K 9.2 9.2 1967 "HELV.PHYS.ACTA,40(1967)1012"
100545 1390 Be0.96Re0.04 Be0.96Re0.04 Be 0.96 Re 0.04 1967 K 9.5 9.5 1967 "HELV.PHYS.ACTA,40(1967)1012"
100546 567 Be0.957Re0.043 Be0.957Re0.043 Be 0.957 Re 0.043 1965 K 9.67 9.67 1965 "PHYS.LETT.,19(1965)263"
100547 567 Be0.98Re0.02 Be0.98Re0.02 Be 0.98 Re 0.02 1965 cubic K 9.75 9.75 1965 "PHYS.LETT.,19(1965)263"
100548 1769 Be2Re1 Be2Re1 Be 2 Re 1 1973 MgZn2(Laves) "MgZn2, C14" K 1.4 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100549 1390 Be22Re1 Be22Re1 Be 22 Re 1 1967 cubic K 9.33 9.33 1967 "HELV.PHYS.ACTA,40(1967)1012"
100550 1769 Be5Pt1 Be5Pt1 Be 5 Pt 1 1973 K 2.3 2.3 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100551 1057 Be0.95Pt0.005 Be0.95Pt0.005 Be 0.95 Pt 0.005 1967 K 0.45 1967 "Z.PHYS.,200(1967)7"
100552 RMP0350001 Be5Pd1 Be5Pd1 Be 5 Pd 1 1963 MgCu2(Laves) "MgCu2, C15" K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100553 712 Be2Ru1 Be2Ru1 Be 2 Ru 1 K 1.35 1.35 "From Roberts' Table, unpublished work, Univ. of Geneva" Unpublished results
100554 1769 Be5Ru1 Be5Ru1 Be 5 Ru 1 1973 K 1 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100555 712 Be17Ru3 Be17Ru3 Be 17 Ru 3 K 1.15 "From Roberts' Table, unpublished work, Univ. of Geneva" Unpublished results
100556 1769 Be13Ru1 Be13Ru1 Be 13 Ru 1 1973 K 1.3 1.3 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100557 1769 Be22Ru1 Be22Ru1 Be 22 Ru 1 1973 K 1 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100558 1769 Be1Rh1 Be1Rh1 Be 1 Rh 1 1973 K 1.4 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100559 712 Be2Rh1 Be2Rh1 Be 2 Rh 1 K 1.37 1.37 "From Roberts' Table, unpublished work, Univ. of Geneva" Unpublished results
100560 1769 Be4.4Rh1 Be4.4Rh1 Be 4.4 Rh 1 1973 K 1.4 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100561 1769 Be5Rh1 Be5Rh1 Be 5 Rh 1 1973 K 1 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100562 1769 Be8.5Rh1 Be8.5Rh1 Be 8.5 Rh 1 1973 K 1.4 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100563 1769 Be13Rh1 Be13Rh1 Be 13 Rh 1 1973 K 1 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100564 1057 Be0.95Rh0.05 Be0.95Rh0.05 Be 0.95 Rh 0.05 1967 K 0.45 1967 "Z.PHYS.,200(1967)7"
100565 1922 Be12W1 Be12W1 Be 12 W 1 1973 tetragonal K 1.7 1973 "UKR.FIZ.ZH.,18(1973)672"
100566 1922 Be22W1 Be22W1 Be 22 W 1 1973 cubic K 4.12 4.12 1973 "UKR.FIZ.ZH.,18(1973)672"
100567 1769 Be13U1 Be13U1 Be 13 U 1 1973 NaZn13 "NaZn13, D2[3]" K 0.04 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100568 RMP0350001 Be2Ti1 Be2Ti1 Be 2 Ti 1 1963 MgCu2(Laves) "MgCu2, C15" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100569 1769 Be13Th1 Be13Th1 Be 13 Th 1 1973 NaZn13 "NaZn13, D2[3]" K 0.04 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100571 1377 Be1Ta2 Be1Ta2 Be 1 Ta 2 1972 CuAl2 "CuAl2, C16" K 0.06 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
100572 927 Be2Ta3 Be2Ta3 Be 2 Ta 3 1969 Si2U3 tetragonal K 1 1 1969 "PHYS.LETT.A,29(1969)109"
100573 1909 Be17Ta2 Be17Ta2 Be 17 Ta 2 1968 K 1.38 1968 "PHYS.REV.,171(1968)591"
100574 1909 Be12Ta1 Be12Ta1 Be 12 Ta 1 1968 tetragonal K 1.38 1968 "PHYS.REV.,171(1968)591"
100575 1784 rapid quench. broad transition Be0.62Si0.38 Be0.62Si0.38 Be 0.62 Si 0.38 1974 K 9 9 1974 "PHYS.REV.B,9(1974)4742"
100576 1057 Be0.95Ru0.05 Be0.95Ru0.05 Be 0.95 Ru 0.05 1967 K 1.47 1.47 1967 "Z.PHYS.,200(1967)7"
100577 8 Bi2Ca3 Bi2Ca3 Bi 2 Ca 3 1952 K 1.38 1952 "Izv.Akad.Nauk.SSSR Ser.Fiz., 16(1952)233"
100578 153 Bi3Ca1 Bi3Ca1 Bi 3 Ca 1 1959 K 2 2 1959 "FIZ.IKHIM,14(1959) 113&117"
100579 870 Bi0.1C1.45Y0.9 Bi0.1C1.45Y0.9 Bi 0.1 C 1.45 Y 0.9 1969 Pu2C3 "Pu2C3, D5[c]" K 9.35 9.35 1969 "J.LESS-COMMON METALS, 19(1969)113"
100580 870 Bi0.3C1.45Y0.7 Bi0.3C1.45Y0.7 Bi 0.3 C 1.45 Y 0.7 1969 K 4 1969 "J.LESS-COMMON METALS, 19(1969)113"
100581 606 Bi1C1 Bi1C1 Bi 1 C 1 1966 K 0.3 MANY MORE SUPERCONDUCTING BISMUTH PHASES 1966 "PHYS.REV.LETT.,17(1966)640"
100582 1769 Be2Zr1 Be2Zr1 Be 2 Zr 1 1973 AlB2 "AlB2, C32" K 1.4 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100583 712 Be17Zr2 Be17Zr2 Be 17 Zr 2 K 1.15 "From Roberts' Table, unpublished work, Univ. of Geneva" Unpublished results
100584 1909 Be13Zr1 Be13Zr1 Be 13 Zr 1 1968 NaZn13 "NaZn13, D2[3]" K 1.15 1968 "PHYS.REV.,171(1968)591"
100585 712 Be16Zr1 Be16Zr1 Be 16 Zr 1 NaZn13 "NaZn13, D2[3]" K 1.15 "From Roberts' Table, unpublished work, Univ. of Geneva" Unpublished results
100586 1769 Be13Y1 Be13Y1 Be 13 Y 1 1973 K 1.4 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100587 1769 Be2W1 Be2W1 Be 2 W 1 1973 MgZn2(Laves) "MgZn2, C14" K 1.4 1973 "DOK.AKAD.NAUK SSSR,208(1973)303"
100588 712 Be21W5 Be21W5 Be 21 W 5 K 1.15 "From Roberts' Table, unpublished work, Univ. of Geneva" Unpublished results
100589 2 Bi2Cr1 Bi2Cr1 Bi 2 Cr 1 1948 K 1.57 1948 "Zh.Eksp.Teor.Fiz., 18(1948)101"
100590 262 Bi1Co0.1Sc0.9 Bi1Co0.1Sc0.9 Bi 1 Co 0.1 Sc 0.9 K 1.1 From Roberts' Table Unpublished
100591 606 Bi1Co1 Bi1Co1 Bi 1 Co 1 1966 K 0.49 0.49 MANY MORE SUPERCONDUCTING BISMUTH PHASES 1966 "PHYS.REV.LETT.,17(1966)640"
100592 11 Bi1Ce1 Bi1Ce1 Bi 1 Ce 1 1952 NaCl "NaCl, B1" K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100593 11 Bi2Ce1 Bi2Ce1 Bi 2 Ce 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100594 1917 weight fraction Bi0.54Cd0.25Sn0.26 Bi0.54Cd0.2Sn0.26 Bi 0.54 Cd 0.2 Sn 0.26 1969 K 3.69 3.69 1969 "REV.SCI.INSTRUMENTS,40(1969)180"
100595 1917 weight fraction Bi0.396Cd0.594Sn0.01 Bi0.396Cd0.594Sn0.01 Bi 0.396 Cd 0.594 Sn 0.01 1969 K 1.3 1969 "REV.SCI.INSTRUMENTS,40(1969)180"
100596 402 Bi0.5Dc0.1Pb0.27Sn0. Bi0.5Dc0.1Pb0.27Sn0.13 Bi 0.5 Dc 0.1 Pb 0.27 Sn 0.13 1930 K 1930 "COMM.KAMERLINGH ONNES LAB.,19(1930)208B"
100597 109 weight fraction Bi0.5Cd0.125Pb0.25Sn Bi0.5Cd0.125Pb0.25Sn0.125 Bi 0.5 Cd 0.125 Pb 0.25 Sn 0.125 1930 K 8.2 8.2 1930 "ROY.SOC.CANADA TRANS.,24(1930)25"
100598 1917 weight fraction Bi0.28Dc0.19In0.53 Bi0.28Dc0.19In0.53 Bi 0.28 Dc 0.19 In 0.53 1969 K 5.85 5.85 1969 "REV.SCI.INSTRUMENTS,40(1969)180"
100599 99 eutectec Bi1Cd1 Bi1Cd1 Bi 1 Cd 1 1930 K 1.88 1930 "Phil.Mag., 10(1930)500"
100600 1204 weight fraction Bi0.6Cd0.4 Bi0.6Cd0.4 Bi 0.6 Cd 0.4 1967 K 0.53 0.53 1967 "J.APPL.PHYS.,38(1967)3667"
100601 1982 Bi0.15Ge0.15Nb3Sn0.7 Bi0.15Ge0.15Nb3Sn0.7 Bi 0.15 Ge 0.15 Nb 3 Sn 0.7 1964 K 17.75 17.75 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
100602 11 Bi2Ge1 Bi2Ge1 Bi 2 Ge 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100603 1982 bi0.15Ga0.15Nb3Sn0.7 Bi0.15Ga0.15Nb3Sn0.7 Bi 0.15 Ga 0.15 Nb 3 Sn 0.7 1964 K 18.04 18.04 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
100604 606 Bi1Fe1 Bi1Fe1 Bi 1 Fe 1 1966 K 0.3 MANY MORE SUPERCONDUCTING BISMUTH PHASES 1966 "PHYS.REV.LETT.,17(1966)640"
100605 11 Bi1Cu1Mg1 Bi1Cu1Mg1 Bi 1 Cu 1 Mg 1 1952 MgAgAs "MgAgAs, C1[b]" K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100606 95 BI1Cu3 Bi1Cu3 Bi 1 Cu 3 1955 K 1.5 From Roberts' Table 1955 "Naturwiss, 42(1955)451"
100607 606 Bi1Cu1 Bi1Cu1 Bi 1 Cu 1 1966 K 1.4 1.4 MANY MORE SUPERCONDUCTING BISMUTH PHASES 1966 "PHYS.REV.LETT.,17(1966)640"
100608 154 Bi1Cu1 Bi1Cu1 Bi 1 Cu 1 1960 K 2.2 2.2 1960 "ZH.EKSP.TEOR.FIZ.,38(1960)294"
100609 52 Bi1Cs2 Bi1Cs2 Bi 1 Cs 2 1957 K 1.5 1957 "Zh.Eksp.Teor.Fiz, 34(1957)827"
100610 52 Bi1Cs3 Bi1Cs3 Bi 1 Cs 3 1957 cubic K 1.5 1957 "Zh.Eksp.Teor.Fiz, 34(1957)827"
100611 52 Bi2Cs1 Bi2Cs1 Bi 2 Cs 1 1957 MgCu2(Laves) "MgCu2, C15" K 4.75 4.75 1957 "Zh.Eksp.Teor.Fiz, 34(1957)827"
100612 606 Bi1Cr1 Bi1Cr1 Bi 1 Cr 1 1966 K 0.3 MANY MORE SUPERCONDUCTING BISMUTH PHASES 1966 "PHYS.REV.LETT.,17(1966)640"
100613 1732 co-evaporated Bi1In1 Bi1In1 Bi 1 In 1 1971 K 7.95 7.95 1971 "ZH.ETF PIS.RED.,14(1971)496"
100614 842 Bi0.015In0.985 Bi0.015In0.985 Bi 0.015 In 0.985 1968 K 3.725 3.725 1968 "PHYS.LETT.A,27(1968)13"
100615 722 Bi0.0119In0.981 Bi0.019In0.981 Bi 0.019 In 0.981 1965 K 3.86 3.86 1965 "PHYS.REV.,140(1965)A1169"
100616 1121 Bi0.02In0.98 Bi0.02In0.98 Bi 0.02 In 0.98 1964 K 3.845 3.845 1964 "PHYS.REV.LETT.,12(1964)101"
100617 1247 P = 0-18 kbar Bi0.025In0.975 Bi0.025In0.975 Bi 0.025 In 0.975 1972 K 4.07 4.07 1972 "J.PHYS.F:METAL PHYS.,2(1972)306"
100618 634 Bi0.05In0.95 Bi0.05In0.95 Bi 0.05 In 0.95 1966 K 4.65 4.65 1966 "J.LESS-COMMON METALS,11(1966)296"
100619 634 Bi0.1In0.9 Bi0.1In0.9 Bi 0.1 In 0.9 1966 K 5.05 5.05 1966 "J.LESS-COMMON METALS,11(1966)296"
100620 843 P = 30 kbar Bi0.343In0.657 Bi0.343In0.657 Bi 0.343 In 0.657 1968 K 5.55 5.55 1968 "PHYS.LETT.A,27(1968)116"
100621 1112 Bi3In5 Bi3In5 Bi 3 In 5 1970 K 4.2 4.2 1970 "PHYS.LETT.A,32(1970)295"
100622 634 Bi1In1 Bi1In1 Bi 1 In 1 1966 PbO "PbO, B10" K 0.5 1966 "J.LESS-COMMON METALS,11(1966)296"
100623 1978 Bi1In2 Bi1In2 Bi 1 In 2 1972 K 5.87 5.87 1972 "REV.ROUM.PHYS.,17(1972)547"
100624 1198 Bi1In2 Bi1In2 Bi 1 In 2 1964 hexagonal K 5.6 5.6 1964 "J.APPL.PHYS.,35(1964)3322"
100625 8 Bi2Mg3 Bi2Mg3 Bi 2 Mg 3 1952 La2O3 "La2O3, D5[2]" K 1.5 1952 "Izv.Akad.Nauk.SSSR Ser.Fiz., 16(1952)233"
100626 8 Bi1Li3 Bi1Li3 Bi 1 Li 3 1952 BiF3 "BiF3, D0[3]" K 1.43 1952 "Izv.Akad.Nauk.SSSR Ser.Fiz., 16(1952)233"
100627 1351 Bi1Li1 Bi1Li1 Bi 1 Li 1 1971 AuCu "AuCu, L1[0]" K 2.455 2.455 1971 "J.PHYS.SOC.JAPAN,30(1971)294"
100628 8 Bi1K3 Bi1K3 Bi 1 K 3 1952 Na3As "Na3As, D0[18]" K 1.4 1952 "Izv.Akad.Nauk.SSSR Ser.Fiz., 16(1952)233"
100629 8 Bi2K3 Bi2K3 Bi 2 K 3 1952 K 3.6 1952 "Izv.Akad.Nauk.SSSR Ser.Fiz., 16(1952)233"
100630 95 Bi1K1 Bi1K1 Bi 1 K 1 1955 K 3.6 3.6 From Roberts' Table 1955 "Naturwiss, 42(1955)451"
100631 897 P = 0-10 kbar Bi2K1 Bi2K1 Bi 2 K 1 1969 K 3.57 3.57 1969 "ZH.ETF PIS.RED.,9(1969)571"
100632 153 Bi2K1 Bi2K1 Bi 2 K 1 1959 MgCu2(Laves) "MgCu2, C15" K 3.58 3.58 1959 "FIZ.IKHIM,14(1959) 113&117"
100633 606 Bi2Ir1 Bi2Ir1 Bi 2 Ir 1 1966 K 3.96 3.96 MANY MORE SUPERCONDUCTING BISMUTH PHASES 1966 "PHYS.REV.LETT.,17(1966)640"
100634 491 BI1Ir2 Bi1Ir2 Bi 1 Ir 2 1963 K 0.35 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
100635 491 Bi1Ir1 Bi1Ir1 Bi 1 Ir 1 1963 K 0.35 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
100636 1982 Bi0.15In0.15NB3Sn0.7 Bi0.15In0.15Nb3Sn0.7 Bi 0.15 In 0.15 Nb 3 Sn 0.7 1964 K 18.01 18.01 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
100637 606 Bi1Os1 Bi1Os1 Bi 1 Os 1 1966 K 0.3 MANY MORE SUPERCONDUCTING BISMUTH PHASES 1966 "PHYS.REV.LETT.,17(1966)640"
100638 8 Bi1Ni1 Bi1Ni1 Bi 1 Ni 1 1952 NiAs "NiAs, B8[1]" K 4.25 4.25 1952 "Izv.Akad.Nauk.SSSR Ser.Fiz., 16(1952)233"
100639 8 Bi3Ni1 Bi3Ni1 Bi 3 Ni 1 1952 orthorhombic K 4.06 4.06 1952 "Izv.Akad.Nauk.SSSR Ser.Fiz., 16(1952)233"
100640 1982 Bi0.15Nb3Sn0.7Tl0.15 Bi0.15Nb3Sn0.7Tl0.15 Bi 0.15 Nb 3 Sn 0.7 Tl 0.15 1964 K 18.12 18.12 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
100641 1982 sintered Bi0.15Nb3Sn0.85 Bi0.15Nb3Sn0.85 Bi 0.15 Nb 3 Sn 0.85 1964 K 18.23 18.23 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
100642 508 Bi1Nb3 Bi1Nb3 Bi 1 Nb 3 1964 cubic K 2.25 1964 "PHYS.CHEM.SOLIDS,25(1964)1213"
100643 508 Bi1Nb3 Bi1Nb3 Bi 1 Nb 3 1964 Cr3Si(A15) "Cr3Si, A15" K 4.5 4.5 1964 "PHYS.CHEM.SOLIDS,25(1964)1213"
100644 4 Bi1Na1 Bi1Na1 Bi 1 Na 1 1949 AuCu "AuCu, L1[0]" K 2.25 2.25 1949 "Zh.Eksp.Teor.Fiz, 19(1949)671"
100645 8 Bi1Na3 Bi1Na3 Bi 1 Na 3 1952 Na3As "Na3As, D0[18]" K 1.4 1952 "Izv.Akad.Nauk.SSSR Ser.Fiz., 16(1952)233"
100646 606 Bi3Mo1 Bi3Mo1 Bi 3 Mo 1 1966 K 3.7 3.7 MANY MORE SUPERCONDUCTING BISMUTH PHASES 1966 "PHYS.REV.LETT.,17(1966)640"
100647 11 Bi1Mo1 Bi1Mo1 Bi 1 Mo 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100648 606 Bi1Mn1 Bi1Mn1 Bi 1 Mn 1 1966 NiAs "NiAs, B8[1]" K 0.3 MANY MORE SUPERCONDUCTING BISMUTH PHASES 1966 "PHYS.REV.LETT.,17(1966)640"
100649 1457 P=12-18 kbar Bi0.575Pb0.425 Bi0.575Pb0.425 Bi 0.575 Pb 0.425 1973 hexagonal K 8.03 8.03 1973 "J.LOW TEMP.PHYS.,10(1973)543"
100650 843 Bi0.625Pb0.375 Bi0.625Pb0.375 Bi 0.625 Pb 0.375 1968 K 8.05 8.05 1968 "PHYS.LETT.A,27(1968)116"
100651 402 Bi0.07Pb0.93 Bi0.07Pb0.93 Bi 0.07 Pb 0.93 1930 K 7.7 7.7 1930 "COMM.KAMERLINGH ONNES LAB.,19(1930)208B"
100652 402 Bi0.1Pb0.9 Bi0.1Pb0.9 Bi 0.1 Pb 0.9 1930 K 7.95 7.95 1930 "COMM.KAMERLINGH ONNES LAB.,19(1930)208B"
100653 402 Bi0.2Pb0.8 Bi0.2Pb0.8 Bi 0.2 Pb 0.8 1930 K 8.15 8.15 1930 "COMM.KAMERLINGH ONNES LAB.,19(1930)208B"
100654 851 Bi0.23Pb0.77 Bi0.23Pb0.77 Bi 0.23 Pb 0.77 1968 K 7.8 7.8 1968 "Z.PHYS.,213)1968)79"
100655 851 Bi0.26Pb0.74 Bi0.26Pb0.74 Bi 0.26 Pb 0.74 1968 K 8.3 8.3 1968 "Z.PHYS.,213)1968)79"
100656 1318 Bi0.3Pb0.7 Bi0.3Pb0.7 Bi 0.3 Pb 0.7 1971 K 8.63 8.63 1971 "SOLID STATE COMMUN.,9(1971)1961"
100657 403 Bi0.35Pb0.65 Bi0.35Pb0.65 Bi 0.35 Pb 0.65 1931 K 8.7 8.7 1931 "COMM.KAMERLINGH ONNES LAB.,19(1931)214B"
100658 1485 Bi0.45Pb0.55 Bi0.45Pb0.55 Bi 0.45 Pb 0.55 1971 K 8.4 8.4 1971 "PHYS.LETT.A,37(1971)457"
100659 310 Bi0.5Pb0.5 Bi0.5Pb0.5 Bi 0.5 Pb 0.5 1960 K 8.4 8.4 1960 "PHYS.REV.LETT.,5(1960)149"
100660 85 "weight fraction , eutectec " Bi0.65Pb0.35 Bi0.65Pb0.35 Bi 0.65 Pb 0.35 1932 K 8.8 8.8 From Roberts' Table 1932 "Z.Elektrochem., 38(1932)312"
100661 413 Bi1Pd1Se1 Bi1Pd1Se1 Bi 1 Pd 1 Se 1 1963 FeS2(pyrite) "FeS2(pyrite), C2" K 1 1 1963 "PHYS.LETT.,5(1963)226"
100662 198 Bi0.4Pd0.6 Bi0.4Pd0.6 Bi 0.4 Pd 0.6 1960 NiAs "NiAs, B8[1]" K 4 4 1960 "KRISTALLOGRAFIA,5(1960) 553"
100663 145 Bi0.25Pd0.75 Bi0.25Pd0.75 Bi 0.25 Pd 0.75 1956 K 1956 "IZVEST.AKAD.NAUK.SSSR SER.FIZ.,20(1956)708"
100665 8 Bi2Pd1 Bi2Pd1 Bi 2 Pd 1 1952 monoclinic K 1.73 1.73 1952 "Izv.Akad.Nauk.SSSR Ser.Fiz., 16(1952)233"
100666 6 Bi2Pd1 Bi2Pd1 Bi 2 Pd 1 1954 tetragonal K 4.25 4.25 1954 "Zh.Eksp.Teor.Fiz., 27(1954)125"
100667 109 Bi0.5Pb0.25Sn0.25 Bi0.5Pb0.25Sn0.25 Bi 0.5 Pb 0.25 Sn 0.25 1930 K 8.5 8.5 1930 "ROY.SOC.CANADA TRANS.,24(1930)25"
100668 1917 weight fraction Bi0.525pb0.32Sn0.155 Bi0.525Pb0.32Sn0.155 Bi 0.525 Pb 0.32 Sn 0.155 1969 K 8.68 8.68 1969 "REV.SCI.INSTRUMENTS,40(1969)180"
100669 111 Bi1Pb1Sb1 Bi1Pb1Sb1 Bi 1 Pb 1 Sb 1 1930 K 8.9 8.9 1930 "ROY.SOC.CAN.TRANS.,24(1930)53"
100670 484 Bi0.95Pb0.05 Bi0.95Pb0.05 Bi 0.95 Pb 0.05 1965 K 1.03 1965 "NG.S.C.CAN.J.PHYS.,43(1965)594"
100671 1774 deposited at 4.2 K Bi0.25Pb0.75 Bi0.25Pb0.75 Bi 0.25 Pb 0.75 1973 K 6.9 6.9 1973 "PHYS.REV.B,7(1973)4850"
100672 1485 Bi0.45Pb0.55 Bi0.45Pb0.55 Bi 0.45 Pb 0.55 1971 amorphous K 7 7 1971 "PHYS.LETT.A,37(1971)457"
100673 59 beta phase Bi2Rh1 Bi2Rh1 Bi 2 Rh 1 1955 monoclinic K 1.3 1955 "Zh.Eksp.Teor.Fiz, 28(1955)237"
100674 59 BI2Rh1 Bi2Rh1 Bi 2 Rh 1 1955 monoclinic K 1.34 1955 "Zh.Eksp.Teor.Fiz, 28(1955)237"
100675 606 Bi1Re2 Bi1Re2 Bi 1 Re 2 1966 K 2.2 2.2 MANY MORE SUPERCONDUCTING BISMUTH PHASES 1966 "PHYS.REV.LETT.,17(1966)640"
100676 53 Bi2Rb1 Bi2Rb1 Bi 2 Rb 1 1958 MgCu2(Laves) "MgCu2, C15" K 4.25 4.25 1958 "Zh.Eksp.Teor.Fiz, 34(1958)820"
100677 413 Bi1Pt1Te1 Bi1Pt1Te1 Bi 1 Pt 1 Te 1 1963 FeS2(pyrite) "FeS2(pyrite), C2" K 1.15 1.15 1963 "PHYS.LETT.,5(1963)226"
100678 413 Bi1Pt1Se1 Bi1Pt1Se1 Bi 1 Pt 1 Se 1 1963 FeS2(pyrite) "FeS2(pyrite), C2" K 1.45 1.45 1963 "PHYS.LETT.,5(1963)226"
100679 2 Bi3Pt1 Bi3Pt1 Bi 3 Pt 1 1948 K 1.8 1948 "ZH.EKSP.TEOR.FIZ.,18(1948)101"
100681 2 low temp. alpha phase Bi2Pt1 Bi2Pt1 Bi 2 Pt 1 1948 K 1.8 1948 "ZH.EKSP.TEOR.FIZ.,18(1948)101"
100682 60 BI2Pt1 Bi2Pt1 Bi 2 Pt 1 1953 A 6.44 6.25 hexagonal K 0.155 0.155 1953 "EKSP.TEOR.FIZ.,25(1953)383"
100683 158 Bi1Pr1 Bi1Pr1 Bi 1 Pr 1 1959 NaCl "NaCl, B1" K 1959 "SER.MAT.MEKH ASTRON.FIZ.I KHIM.,14(1959)117"
100684 413 Bi1Pd1Te1 Bi1Pd1Te1 Bi 1 Pd 1 Te 1 1963 FeS2(pyrite) "FeS2(pyrite), C2" K 1.2 1.2 1963 "PHYS.LETT.,5(1963)226"
100685 11 Bi1Sb1 Bi1Sb1 Bi 1 Sb 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100686 60 Bi2S3 Bi2S3 Bi 2 S 3 1953 Sb2S3 "Sb2S3, D5[8]" K 0.1 1953 "Eksp.Teor.Fiz, 25(1953)383"
100687 8 Bi1S3 Bi1S3 Bi 1 S 3 1952 K 1952 "Izv.Akad.Nauk.SSSR Ser.Fiz., 16(1952)233"
100688 606 Bi1S1 Bi1S1 Bi 1 S 1 1966 K 0.3 MANY MORE SUPERCONDUCTING BISMUTH PHASES 1966 "PHYS.REV.LETT.,17(1966)640"
100689 119 Bi2S1 Bi2S1 Bi 2 S 1 1948 K 1.9 From Roberts' Table. 1948 "Gottingen Report, (1948)187"
100690 606 Bi1Ru1 Bi1Ru1 Bi 1 Ru 1 1966 K 5.7 5.7 MANY MORE SUPERCONDUCTING BISMUTH PHASES 1966 "PHYS.REV.LETT.,17(1966)640"
100691 491 Bi1Ru2 Bi1Ru2 Bi 1 Ru 2 1963 K 0.35 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
100692 491 Bi1Ru1 Bi1Ru1 Bi 1 Ru 1 1963 K 0.35 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
100693 2 alpha phase Bi4Rh1 Bi4Rh1 Bi 4 Rh 1 1948 cubic K 0.1 1948 "Zh.Eksp.Teor.Fiz., 18(1948)101"
100694 155 gamma-type Bi0.8Rh0.2 Bi0.8Rh0.2 Bi 0.8 Rh 0.2 1958 hexagonal K 2.7 2.7 1958 "KRISTALLOGRAPHIA,3(1958)373"
100695 59 beta-type Bi3Rh1 Bi3Rh1 Bi 3 Rh 1 1955 A 9.027 4.24 11.522 orthorhombic K 3.2 3.2 1955 "Zh.Eksp.Teor.Fiz, 28(1955)237"
100696 1588 Bi1Rh1 Bi1Rh1 Bi 1 Rh 1 1960 NiAs "NiAs, B8[1]" K 2.06 2.06 1960 "KRISTALLOGRAPHIYA,5(1960)553"
100697 606 Bi3Te1 Bi3Te1 Bi 3 Te 1 1966 K 1 1 MANY MORE SUPERCONDUCTING BISMUTH PHASES 1966 "PHYS.REV.LETT.,17(1966)640"
100698 11 Bi3Sr1 Bi3Sr1 Bi 3 Sr 1 1952 AuCu3 "AuCu3, L1[2]" K 5.7 5.7 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100699 1091 "P = 25 kbar, T = 77K" Bi0.4Sn0.6 Bi0.4Sn0.6 Bi 0.4 Sn 0.6 1968 K 7.34 7.34 1968 "FIZ.METAL.METALLOVED.,26(1968)921"
100700 70 eutectec Bi1Sn1 Bi1Sn1 Bi 1 Sn 1 1929 K 3.8 3.8 1929 "Proc.Acad.Sci.Amsterdam, 32(1929)715"
100701 843 P = 30 kbar Bi1Sn1 Bi1Sn1 Bi 1 Sn 1 1968 K 4.2 4.2 1968 "PHYS.LETT.A,27(1968)116"
100702 843 Bi1Sn1 Bi1Sn1 Bi 1 Sn 1 1968 K 3.72 3.72 1968 "PHYS.LETT.A,27(1968)116"
100703 1091 "P = 25 kbar, T = 77K" Bi0.5Sn0.5 Bi0.5Sn0.5 Bi 0.5 Sn 0.5 1968 monoclinic K 0.788 0.788 1968 "FIZ.METAL.METALLOVED.,26(1968)921"
100704 1091 "P = 25 kbar, T = 77K" Bi0.6Sn0.4 Bi0.6Sn0.4 Bi 0.6 Sn 0.4 1968 K 7 7 1968 "FIZ.METAL.METALLOVED.,26(1968)921"
100705 1917 weight fraction Bi0.57Sn0.43 Bi0.57Sn0.43 Bi 0.57 Sn 0.43 1969 K 2.25 2.25 1969 "REV.SCI.INSTRUMENTS,40(1969)180"
100706 606 Bi3Sn1 Bi3Sn1 Bi 3 Sn 1 1966 K 3.77 3.77 MANY MORE SUPERCONDUCTING BISMUTH PHASES 1966 "PHYS.REV.LETT.,17(1966)640"
100707 84 Bi2Se3 Bi2Se3 Bi 2 Se 3 1933 K 1.26 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
100708 606 Bi1Sc1 Bi1Sc1 Bi 1 Sc 1 1966 K 0.3 MANY MORE SUPERCONDUCTING BISMUTH PHASES 1966 "PHYS.REV.LETT.,17(1966)640"
100709 411 Bi1Y1 Bi1Y1 Bi 1 Y 1 1962 NaCl "NaCl, B1" K 1962 "KRISTALLOGRAPHIYA,7(1962)787"
100710 173 Bi2Y3 Bi2Y3 Bi 2 Y 3 1961 K 2.25 2.25 1961 "J.PHYS.CHEM.SOLIDS,19(1961)130"
100711 606 Bi1W1 Bi1W1 Bi 1 W 1 1966 K 0.3 MANY MORE SUPERCONDUCTING BISMUTH PHASES 1966 "PHYS.REV.LETT.,17(1966)640"
100712 825 Bi1V3 Bi1V3 Bi 1 V 3 1966 Cr3Si(A15) "Cr3Si, A15" K 4.2 1966 "DOKL.AN SSR,171(1966)331"
100713 1774 Bi0.85Tl0.15 Bi0.85Tl0.15 Bi 0.85 Tl 0.15 1973 K 6.23 6.23 1973 "PHYS.REV.B,7(1973)4850"
100714 265 Bi0.26Tl0.74 Bi0.26Tl0.74 Bi 0.26 Tl 0.74 1962 K 4.4 4.4 1962 "IBM J.RES.DEV.,6(1962)68"
100715 90 Bi5Tl3 Bi5Tl3 Bi 5 Tl 3 1929 K 6.4 6.4 From Roberts' Table. 1929 "J.Commun.Kamerlingh-Onnes Lab, 18(1929)199c"
100716 843 after 30 kbar Bi0.86Tl0.14 Bi0.86Tl0.14 Bi 0.86 Tl 0.14 1968 K 6.5 6.5 1968 "PHYS.LETT.A,27(1968)116"
100717 712 Bi1Ti3 Bi1Ti3 Bi 1 Ti 3 tetragonal K 1.15 "From Roberts' Table, unpublished work, Univ. of Geneva" Unpublished results
100718 1582 Bi5Th3 Bi5Th3 Bi 5 Th 3 1968 K 1.13 1968 "STRUCTURE AND BONDING,4(1968)83-229"
100720 84 Bi2Te3 Bi2Te3 Bi 2 Te 3 1933 K 1.26 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
100721 10 C0.2Cr0.8 C0.2Cr0.8 C 0.2 Cr 0.8 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
100722 10 C0.3Cr0.71 C0.3Cr0.71 C 0.3 Cr 0.71 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
100723 11 C2Cr3 C2Cr3 C 2 Cr 3 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100724 1222 C3Ce0.2Th1.8 C3Ce0.2Th1.8 C 3 Ce 0.2 Th 1.8 1973 Pu2C3 "Pu2C3, D5[c]" K 4 1973 "J.LESS-COMMON METALS,30(1973)217"
100725 11 C2Ce1 C2Ce1 C 2 Ce 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100726 632 C1Cd1Ti2 C1Cd1Ti2 C 1 Cd 1 Ti 2 1966 Cr2AlC "hexagonal, H-phase" K 1.1 1966 "J.LESS-COMMON METALS,10(1966)29"
100727 870 C1.35Ca0.1Y0.9 C1.35Ca0.1Y0.9 C 1.35 Ca 0.1 Y 0.9 1969 K 10.5 10.5 1969 "J.LESS-COMMON METALS, 19(1969)113"
100728 11 Br2Cu1 Br2Cu1 Br 2 Cu 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100729 1582 Bi2Zr1 Bi2Zr1 Bi 2 Zr 1 1968 K 1.13 1968 "STRUCTURE AND BONDING,4(1968)83-229"
100730 RMP0350001 Bi0.3Zr0.7 Bi0.3Zr0.7 Bi 0.3 Zr 0.7 1963 K 1.51 1.51 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100731 606 Bi1Zr3 Bi1Zr3 Bi 1 Zr 3 1966 K 2.84 2.84 MANY MORE SUPERCONDUCTING BISMUTH PHASES 1966 "PHYS.REV.LETT.,17(1966)640"
100732 606 BI3Zn1 Bi3Zn1 Bi 3 Zn 1 1966 K 0.87 0.87 MANY MORE SUPERCONDUCTING BISMUTH PHASES 1966 "PHYS.REV.LETT.,17(1966)640"
100733 1222 C3Er0.2Th1.8 C3Er0.2Th1.8 C 3 Er 0.2 Th 1.8 1973 Pu2C3 "Pu2C3, D5[c]" K 8.2 8.2 1973 "J.LESS-COMMON METALS,30(1973)217"
100734 1222 C3Er0.1Th1.9 C3Er0.1Th1.9 C 3 Er 0.1 Th 1.9 1973 Pu2C3 "Pu2C3, D5[c]" K 6.8 6.8 1973 "J.LESS-COMMON METALS,30(1973)217"
100735 1222 C3Er1Th1 C3Er1Th1 C 3 Er 1 Th 1 1973 Pu2C3 "Pu2C3, D5[c]" K 4.6 4.6 1973 "J.LESS-COMMON METALS,30(1973)217"
100736 1222 C3Er0.8Th1.2 C3Er0.8Th1.2 C 3 Er 0.8 Th 1.2 1973 Pu2C3 "Pu2C3, D5[c]" K 7 7 1973 "J.LESS-COMMON METALS,30(1973)217"
100737 1222 C3Er0.6Th1.4 C3Er0.6Th1.4 C 3 Er 0.6 Th 1.4 1973 Pu2C3 "Pu2C3, D5[c]" K 8.1 8.1 1973 "J.LESS-COMMON METALS,30(1973)217"
100738 1222 C3Er0.4Th1.6 C3Er0.4Th1.6 C 3 Er 0.4 Th 1.6 1973 Pu2C3 "Pu2C3, D5[c]" K 8.2 8.2 1973 "J.LESS-COMMON METALS,30(1973)217"
100739 784 C2Er1 C2Er1 C 2 Er 1 1968 K 2 1968 "J.LESS-COMMON METALS,14(1968)247"
100740 784 C2Dy1 C2Dy1 C 2 Dy 1 1968 K 2 1968 "J.LESS-COMMON METALS,14(1968)247"
100741 494 C0.016Cs1 C0.016Cs1 C 0.016 Cs 1 1965 K 0.011 SUPERCONDUCTIVITY GRAPHITIC COMPOUNDS 1965 "PHYS.REV.LETT.,14(1965)225"
100742 494 C8Cs1 C8Cs1 C 8 Cs 1 1965 hexagonal K 0.135 0.135 SUPERCONDUCTIVITY GRAPHITIC COMPOUNDS 1965 "PHYS.REV.LETT.,14(1965)225"
100743 870 C1.45Cr0.1Y0.9 C1.45Cr0.1Y0.9 C 1.45 Cr 0.1 Y 0.9 1969 Pu2C3 "Pu2C3, D5[c]" K 12.4 12.4 1969 "J.LESS-COMMON METALS, 19(1969)113"
100744 632 C1Cr2Ga1 C1Cr2Ga1 C 1 Cr 2 Ga 1 1966 Cr2AlC "hexagonal, H-phase" K 1.1 1966 "J.LESS-COMMON METALS,10(1966)29"
100745 1813 C1Hf0.15Mo0.85 C1Hf0.15Mo0.85 C 1 Hf 0.15 Mo 0.85 1966 NaCl "NaCl, B1" K 9 9 1966 "ISZ.AKAD.NAUK SSSR.NEORGAN.MATER.,2(1966)2145"
100746 650 C0.75Hf0.05Mo0.95 C0.75Hf0.05Mo0.95 C 0.75 Hf 0.05 Mo 0.95 1966 NaCl "NaCl, B1" K 14.2 14.2 1966 "J.PHYS.CHEM.SOLIDS,27(1966)235"
100747 632 C1Hf2In1 C1Hf2In1 C 1 Hf 2 In 1 1966 Cr2AlC "hexagonal, H-phase" K 1.1 1966 "J.LESS-COMMON METALS,10(1966)29"
100748 559 C0.985Hf1 C0.985Hf1 C 0.985 Hf 1 1966 K 1.28 1966 "KHIMICHESKAYA AVYAZB V.POLUPROVODNIKAKHI,(1966)299-316"
100749 20 C1Hf1 C1Hf1 C 1 Hf 1 1932 NaCl "NaCl, B1" K 1.23 1932 "Z.Phys., 75(1932)521"
100750 870 C1.35Ge0.1Y0.9 C1.35Ge0.1Y0.9 C 1.35 Ge 0.1 Y 0.9 1969 Pu2C3 "Pu2C3, D5[c]" K 10.6 10.6 1969 "J.LESS-COMMON METALS, 19(1969)113"
100751 RMP0350001 C0.05Ge3V5 C0.05Ge3V5 C 0.05 Ge 3 V 5 1963 Mn5Si3 "Mn5Si3, D8[8]" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100752 767 C1.5Ge3La5 C1.5Ge3La5 C 1.5 Ge 3 La 5 1970 cubic K 3.3 3.3 1970 "PROC.NAT.ACAD.SCI.,67(1970)313"
100753 784 C2Gd1 C2Gd1 C 2 Gd 1 1968 K 2 1968 "J.LESS-COMMON METALS,14(1968)247"
100754 635 C1Ga1Mo2 C1Ga1Mo2 C 1 Ga 1 Mo 2 1967 hexagonal K 4.1 4.1 1967 "J.LESS-COMMON METALS,13(1967)129"
100755 1564 C1Ga1La3 C1Ga1La3 C 1 Ga 1 La 3 1973 cubic K 1.02 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
100756 119 C1Fe3 C1Fe3 C 1 Fe 3 1948 K 1.3 From Roberts' Table. 1948 "Gottingen Report, (1948)187"
100757 793 C1Ir1Mo3 C1Ir1Mo3 C 1 Ir 1 Mo 3 1971 cubic K 3.2 3.2 1971 "J.LESS-COMMON METALS,23(1971)103"
100758 793 C1Ir2Mo3 C1Ir2Mo3 C 1 Ir 2 Mo 3 1971 cubic K 1.8 1.8 1971 "J.LESS-COMMON METALS,23(1971)103"
100759 632 C1In1Zr2 C1In1Zr2 C 1 In 1 Zr 2 1966 Cr2AlC "hexagonal, H-phase" K 1.1 1966 "J.LESS-COMMON METALS,10(1966)29"
100760 870 C1.35In0.15Y0.85 C1.35In0.15Y0.85 C 1.35 In 0.15 Y 0.85 1969 K 4 1969 "J.LESS-COMMON METALS, 19(1969)113"
100761 632 C1In1Nb2 C1In1Nb2 C 1 In 1 Nb 2 1966 Cr2AlC "hexagonal, H-phase" K 1.1 1966 "J.LESS-COMMON METALS,10(1966)29"
100762 1564 C1In1La3 C1In1La3 C 1 In 1 La 3 1973 cubic K 1.02 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
100763 1222 C3Ho0.2Th1.8 C3Ho0.2Th1.8 C 3 Ho 0.2 Th 1.8 1973 Pu2C3 "Pu2C3, D5[c]" K 5.4 5.4 1973 "J.LESS-COMMON METALS,30(1973)217"
100764 1222 C3Ho0.4Th1.6 C3Ho0.4Th1.6 C 3 Ho 0.4 Th 1.6 1973 Pu2C3 "Pu2C3, D5[c]" K 5.5 5.5 1973 "J.LESS-COMMON METALS,30(1973)217"
100765 1222 C3Ho0.6Th1.4 C3Ho0.6Th1.4 C 3 Ho 0.6 Th 1.4 1973 Pu2C3 "Pu2C3, D5[c]" K 5.2 5.2 1973 "J.LESS-COMMON METALS,30(1973)217"
100766 784 C2Ho1 C2Ho1 C 2 Ho 1 1968 K 2 1968 "J.LESS-COMMON METALS,14(1968)247"
100767 558 C1Hf0.6Zr0.4 C1Hf0.6Zr0.4 C 1 Hf 0.6 Zr 0.4 1966 NaCl "NaCl, B1" K 1.28 1966 "INSTITUTE METALLOFIZIKI AN U.S.S.R.KIEV,(1966-YEAR 1966"
100768 559 C1Hf0.9Nb0.1 C1Hf0.9Nb0.1 C 1 Hf 0.9 Nb 0.1 1966 NaCl "NaCl, B1" K 4.2 1966 "KHIMICHESKAYA AVYAZB V.POLUPROVODNIKAKHI,(1966)299-316"
100769 1148 prepared at high pressure C1.45La0.5Th0.5 C1.45La0.5Th0.5 C 1.45 La 0.5 Th 0.5 1970 cubic K 14.2 14.2 1970 "J.LESS-COMMON METALS,22(1970)131"
100770 1564 C1La3Sn1 C1La3Sn1 C 1 La 3 Sn 1 1973 cubic K 1.02 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
100771 1564 C1La3Pb1 C1La3Pb1 C 1 La 3 Pb 1 1973 cubic K 1.02 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
100772 1148 prepared at high pressure C13La1 C13La1 C 13 La 1 1970 cubic K 4.8 4.8 1970 "J.LESS-COMMON METALS,22(1970)131"
100773 1148 arc melted C1.3La1 C1.3La1 C 1.3 La 1 1970 cubic K 8.3 8.3 1970 "J.LESS-COMMON METALS,22(1970)131"
100774 1971 C3La2 C3La2 C 3 La 2 1972 Pu2C3 "Pu2C3, D5[c]" K 11 11 "Superconductivity in d- and f-band metals, ed. D.H.Douglas 1972" 1972 "Sup. in d- & f-band metals, p=147"
100775 1148 C1.58La1 C1.58La1 C 1.58 La 1 1970 cubic K 9.6 9.6 1970 "J.LESS-COMMON METALS,22(1970)131"
100776 784 C2La1 C2La1 C 2 La 1 1968 CaC2 "CaC2, C11[a]" K 1.44 1.44 1968 "J.LESS-COMMON METALS,14(1968)247"
100777 494 C16K1 C16K1 C 16 K 1 1965 hexagonal K 0.011 SUPERCONDUCTIVITY GRAPHITIC COMPOUNDS 1965 "PHYS.REV.LETT.,14(1965)225"
100778 494 C8K1 C8K1 C 8 K 1 1965 hexagonal K 0.55 0.55 SUPERCONDUCTIVITY GRAPHITIC COMPOUNDS 1965 "PHYS.REV.LETT.,14(1965)225"
100779 793 C1Ir2W3 C1Ir2W3 C 1 Ir 2 W 3 1971 cubic K 2.1 2.1 1971 "J.LESS-COMMON METALS,23(1971)103"
100780 1018 C2Ir1U2 C2Ir1U2 C 2 Ir 1 U 2 1969 tetragonal K 0.3 1969 "PROC.NAT.ACAD.SCI.,64(1969)459"
100781 966 C0.64Mo1 C0.64Mo1 C 0.64 Mo 1 1968 hexagonal K 8 8 1968 "ACTA MET.,16(1968)1177"
100782 966 C0.69Mo1 C0.69Mo1 C 0.69 Mo 1 1968 NaCl "NaCl, B1" K 12.1 12.1 1968 "ACTA MET.,16(1968)1177"
100783 1824 C0.44Mo0.56 C0.44Mo0.56 C 0.44 Mo 0.56 1965 K 13 13 1965 "ACTA MET.,13(1965)379"
100784 1132 C1Mo2 C1Mo2 C 1 Mo 2 1971 L3 K 3.45 3.45 1971 "J.LESS-COMMON METALS,25(1971)97"
100785 966 C1Mo2 C1Mo2 C 1 Mo 2 1968 orthorhombic K 10.8 10.8 1968 "ACTA MET.,16(1968)1177"
100786 11 C1Mo1 C1Mo1 C 1 Mo 1 1952 hexagonal K 9.26 9.26 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100787 1006 C1Mo1 C1Mo1 C 1 Mo 1 1967 NaCl "NaCl, B1" K 14.3 14.3 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
100788 1795 splat cool C1Mn0.02Mo0.98 C1Mn0.02Mo0.98 C 1 Mn 0.02 Mo 0.98 1966 cubic K 1.7 1966 "TRANS.MET.SOC.AIME,236(1966)171"
100789 1795 C1Mn1 C1Mn1 C 1 Mn 1 1966 hexagonal K 1.7 1966 "TRANS.MET.SOC.AIME,236(1966)171"
100790 863 C2Lu1 C2Lu1 C 2 Lu 1 1969 tetragonal K 3.33 3.33 1969 "J.APPL.PHYS.,40(1969)3161"
100791 1564 C1La3Tl1 C1La3Tl1 C 1 La 3 Tl 1 1973 cubic K 1.02 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
100792 1971 C1.5La0.9Th0.1 C1.5La0.9Th0.1 C 1.5 La 0.9 Th 0.1 1972 cubic K 12.9 12.9 "Superconductivity in d- and f-band metals, ed. D.H.Douglas 1972" 1972 "Sup. in d- & f-band metals, p=147"
100793 128 C0.5Mo0.17Zr0.42 C0.5Mo0.17Zr0.42 C 0.5 Mo 0.17 Zr 0.42 1956 K 9.5 9.5 1956 "J.PHYS.CHEM.SOLIDS.,1(1956)188"
100794 870 C1.45Mo0.1Y0.9 C1.45Mo0.1Y0.9 C 1.45 Mo 0.1 Y 0.9 1969 Pu2C3 "Pu2C3, D5[c]" K 13.8 13.8 1969 "J.LESS-COMMON METALS, 19(1969)113"
100795 522 C1Mo0.83Ti0.17 C1Mo0.83Ti0.17 C 1 Mo 0.83 Ti 0.17 1963 NaCl "NaCl, B1" K 10.2 10.2 1963 "Z.METALLKDE DTSCH.,54(1963)477"
100796 1813 C1Mo0.85Ta0.15 C1Mo0.85Ta0.15 C 1 Mo 0.85 Ta 0.15 1966 NaCl "NaCl, B1" K 8.9 8.9 1966 "ISZ.AKAD.NAUK SSSR.NEORGAN.MATER.,2(1966)2145"
100797 650 C0.6Mo4.8Si0.3 C0.6Mo4.8Si0.3 C 0.6 Mo 4.8 Si 0.3 1966 Mn5Si3 A 7.286 5.046 "Mn5Si3, D8[8]" K 7.6 7.6 1966 "J.PHYS.CHEM.SOLIDS,27(1966)235"
100798 1006 C1Mo0.9Ru0.1 C1Mo0.9Ru0.1 C 1 Mo 0.9 Ru 0.1 1967 NaCl "NaCl, B1" K 13.6 13.6 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
100799 793 C1Mo3Re2 C1Mo3Re2 C 1 Mo 3 Re 2 1971 hexagonal K 1 1971 "J.LESS-COMMON METALS,23(1971)103"
100800 1006 C1Mo0.9Re0.1 C1Mo0.9Re0.1 C 1 Mo 0.9 Re 0.1 1967 NaCl "NaCl, B1" K 13.8 13.8 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
100801 793 C2Mo1Re1 C2Mo1Re1 C 2 Mo 1 Re 1 1971 cubic K 3.8 3.8 1971 "J.LESS-COMMON METALS,23(1971)103"
100802 793 C1Mo3Pt2 C1Mo3Pt2 C 1 Mo 3 Pt 2 1971 cubic K 1.1 1.1 1971 "J.LESS-COMMON METALS,23(1971)103"
100803 571 plus 2% VC C0.4Mo0.6 C0.4Mo0.6 C 0.4 Mo 0.6 1965 K 11.2 11.2 HIGH-FIELD SUPERCONDUCTIVITY OF CARBIDES 1965 "PHYS.REV.,138(1965)A1170"
100804 966 C0.42Mo1 C0.42Mo1 C 0.42 Mo 1 1968 L'3 K 2.8 2.8 1968 "ACTA MET.,16(1968)1177"
100805 RMP0350001 C0.05Nb5Si3 C0.05Nb5Si3 C 0.05 Nb 5 Si 3 1963 Mn5Si3 "Mn5Si3, D8[8]" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100806 474 C1Nb2 C1Nb2 C 1 Nb 2 1953 hexagonal K 9.1 1.98 9.1 1953 "THIRD INTERNAT CONF.ON LOW TEMP.PHYS.,(1953)"
100807 1542 C1Nb1 C1Nb1 C 1 Nb 1 1971 NaCl "NaCl, B1" K 11.1 11.1 1971 "PHYSICA,55(1971)60"
100808 1703 C0.98Nb1 C0.98Nb1 C 0.98 Nb 1 1972 K 11.56 11.56 1972 "ZH.EKSP.TEOR.FIZ.,62(1972)300"
100809 271 C1Nb1 C1Nb1 C 1 Nb 1 1962 K 12 12 EFFECT OF COMPOSITION ON THE SUPERCONDUCTING TRANSITION TEMPERATURE OF TANTALUM CARBIDE AND NIOBIUM CARBIDE 1962 "PHYS.REV.,125(1962)837"
100810 1971 C0.78N0.22Th1 C0.78N0.22Th1 C 0.78 N 0.22 Th 1 1972 NaCl "NaCl, B1" K 5.6 5.6 "Superconductivity in d- and f-band metals, ed. D.H.Douglas 1972" 1972 "Sup. in d- & f-band metals, p=147"
100811 1511 C0.2N0.8Nb0.8V0.2 C0.2N0.8Nb0.8V0.2 C 0.2 N 0.8 Nb 0.8 V 0.2 1966 K 5.5 5.5 1966 "PHYS.,2(1966)311"
100812 1511 C0.25N0.75Nb0.85Ti0. C0.25N0.75Nb0.85Ti0.15 C 0.25 N 0.75 Nb 0.85 Ti 0.15 1966 K 17.8 17.8 1966 "PHYS.,2(1966)311"
100813 1038 C1N1Nb1 C1N1Nb1 C 1 N 1 Nb 1 1965 K Critical supercurrents in niobium carbonitrides 1965 "APPL.PHYS.LETT.,7(1965)38"
100814 1234 C0.026N0.974Nb1 C0.026N0.974Nb1 C 0.026 N 0.974 Nb 1 1967 K 17.2 17.2 1967 "J.PHYS.CHEM.SOLIDS,28(1967)333"
100815 1383 C1N1Nb1 C1N1Nb1 C 1 N 1 Nb 1 1971 K 17.3 17.3 1971 "APPL.PHYS.LETT.,19(1971)305"
100816 559 C0.35N0.65Nb1 C0.35N0.65Nb1 C 0.35 N 0.65 Nb 1 1966 NaCl "NaCl, B1" K 17.8 17.8 1966 "KHIMICHESKAYA AVYAZB V.POLUPROVODNIKAKHI,(1966)299-316"
100817 1018 C2Pt1U2 C2Pt1U2 C 2 Pt 1 U 2 1969 tetragonal K 1.47 1.47 1969 "PROC.NAT.ACAD.SCI.,64(1969)459"
100818 784 C2Pr1 C2Pr1 C 2 Pr 1 1968 K 2 1968 "J.LESS-COMMON METALS,14(1968)247"
100819 164 ion implantation C0.6Pd1 C0.6Pd1 C 0.6 Pd 1 1975 K 1.3 1.3 1975 "PHYS.LETT.A,51(1975)147"
100820 632 C1Pb1Ti2 C1Pb1Ti2 C 1 Pb 1 Ti 2 1966 Cr2AlC "hexagonal, H-phase" K 1.1 1966 "J.LESS-COMMON METALS,10(1966)29"
100821 793 C1Os2W3 C1Os2W3 C 1 Os 2 W 3 1971 cubic K 2.9 2.9 1971 "J.LESS-COMMON METALS,23(1971)103"
100822 1018 C2Os1U2 C2Os1U2 C 2 Os 1 U 2 1969 tetragonal K 0.3 1969 "PROC.NAT.ACAD.SCI.,64(1969)459"
100823 1222 C3Nd0.2Th1.8 C3Nd0.2Th1.8 C 3 Nd 0.2 Th 1.8 1973 D5[d] K 4 1973 "J.LESS-COMMON METALS,30(1973)217"
100824 784 C2Nd1 C2Nd1 C 2 Nd 1 1968 K 2 1968 "J.LESS-COMMON METALS,14(1968)247"
100825 870 C1.35Nb0.1Y0.9 C1.35Nb0.1Y0.9 C 1.35 Nb 0.1 Y 0.9 1969 Pu2C3 "Pu2C3, D5[c]" K 10.8 10.8 1969 "J.LESS-COMMON METALS, 19(1969)113"
100826 559 C1Nb0.1Ti0.9 C1Nb0.1Ti0.9 C 1 Nb 0.1 Ti 0.9 1966 NaCl "NaCl, B1" K 4.2 1966 "KHIMICHESKAYA AVYAZB V.POLUPROVODNIKAKHI,(1966)299-316"
100827 990 C1Nb0.4Ta0.6 C1Nb0.4Ta0.6 C 1 Nb 0.4 Ta 0.6 1967 cubic K 10 10 1967 "PHYS.LETT.A,25(1967)542"
100828 632 C1Nb2Sn1 C1Nb2Sn1 C 1 Nb 2 Sn 1 1966 Cr2AlC "hexagonal, H-phase" K 1.1 1966 "J.LESS-COMMON METALS,10(1966)29"
100829 1018 C2Ru1U2 C2Ru1U2 C 2 Ru 1 U 2 1969 tetragonal K 0.3 1969 "PROC.NAT.ACAD.SCI.,64(1969)459"
100830 112 C1Ru1 C1Ru1 C 1 Ru 1 1931 K 2.04 1.9 2.04 1931 "ROY.SOC.CAN.TRANS.,25(1931)13"
100831 1018 C2Rh1U2 C2Rh1U2 C 2 Rh 1 U 2 1969 tetragonal K 0.3 1969 "PROC.NAT.ACAD.SCI.,64(1969)459"
100832 1735 "prepared at P=160-180 kbar, T=1000C. " C1Rh1 C1Rh1 C 1 Rh 1 1972 NaCl "NaCl, B1" K 3.4 3.4 1972 "ZH.ETF PIS.RED.,16(1972)609"
100833 1735 C1Rh1 C1Rh1 C 1 Rh 1 1972 TiAs "TiAs, B[i]" K 1.6 1.6 1972 "ZH.ETF PIS.RED.,16(1972)609"
100834 870 C1.35Re0.3Y0.7 C1.35Re0.3Y0.7 C 1.35 Re 0.3 Y 0.7 1969 K 4 1969 "J.LESS-COMMON METALS, 19(1969)113"
100835 793 C1Re2W3 C1Re2W3 C 1 Re 2 W 3 1971 beta-Mn "beta-Mn, A13" K 1 1971 "J.LESS-COMMON METALS,23(1971)103"
100836 793 C2Re1W1 C2Re1W1 C 2 Re 1 W 1 1971 cubic K 3.8 3.8 1971 "J.LESS-COMMON METALS,23(1971)103"
100837 712 C0.04Re0.96 C0.04Re0.96 C 0.04 Re 0.96 K 1.98 1.98 "From Roberts' Table, unpublished work, Univ. of Geneva" Unpublished results
100838 494 C16Rb1 C16Rb1 C 16 Rb 1 1965 K 0.011 SUPERCONDUCTIVITY GRAPHITIC COMPOUNDS 1965 "PHYS.REV.LETT.,14(1965)225"
100839 494 C8Rb1 C8Rb1 C 8 Rb 1 1965 K 0.023 0.023 SUPERCONDUCTIVITY GRAPHITIC COMPOUNDS 1965 "PHYS.REV.LETT.,14(1965)225"
100840 793 C1Pt2W3 C1Pt2W3 C 1 Pt 2 W 3 1971 cubic K 1.2 1.2 1971 "J.LESS-COMMON METALS,23(1971)103"
100841 1961 C0.754Ta1 C0.754Ta1 C 0.754 Ta 1 1968 NaCl "NaCl, B1" K 1.05 1968 "PROC.BRITISH CERAMIC SOC.,10(1968)183-193"
100842 1542 C1Ta1 C1Ta1 C 1 Ta 1 1971 NaCl "NaCl, B1" K 10.35 10.35 1971 "PHYSICA,55(1971)60"
100843 870 C1.35Sn0.1Y0.9 C1.35Sn0.1Y0.9 C 1.35 Sn 0.1 Y 0.9 1969 Pu2C3 "Pu2C3, D5[c]" K 10.2 10.2 1969 "J.LESS-COMMON METALS, 19(1969)113"
100844 784 C2Sm1 C2Sm1 C 2 Sm 1 1968 K 2 1968 "J.LESS-COMMON METALS,14(1968)247"
100845 870 C1.35Si0.1Y0.9 C1.35Si0.1Y0.9 C 1.35 Si 0.1 Y 0.9 1969 Pu2C3 "Pu2C3, D5[c]" K 11.3 11.3 1969 "J.LESS-COMMON METALS, 19(1969)113"
100846 RMP0350001 C0.05Si3V5 C0.05Si3V5 C 0.05 Si 3 V 5 1963 Mn5Si3 "Mn5Si3, D8[8]" K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100847 11 C1Si1 C1Si1 C 1 Si 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100848 1222 C3Sc1.4Th0.6 C3Sc1.4Th0.6 C 3 Sc 1.4 Th 0.6 1973 K 5.4 5.4 1973 "J.LESS-COMMON METALS,30(1973)217"
100849 871 C3Sc4 C3Sc4 C 3 Sc 4 1969 cubic K 1 1969 "J.LESS-COMMON METLS,19(1969)253"
100850 558 C0.96Sc1 C0.96Sc1 C 0.96 Sc 1 1966 NaCl "NaCl, B1" K 1.38 1966 "INSTITUTE METALLOFIZIKI AN U.S.S.R.KIEV,(1966-YEAR 1966"
100851 870 C1.35Ru0.3Y0.7 C1.35Ru0.3Y0.7 C 1.35 Ru 0.3 Y 0.7 1969 K 4 1969 "J.LESS-COMMON METALS, 19(1969)113"
100852 870 C1.35Ru0.1Y0.9 C1.35Ru0.1Y0.9 C 1.35 Ru 0.1 Y 0.9 1969 Pu2C3 "Pu2C3, D5[c]" K 11.2 11.2 1969 "J.LESS-COMMON METALS, 19(1969)113"
100853 870 C1.55Th0.3Y0.7 C1.55Th0.3Y0.7 C 1.55 Th 0.3 Y 0.7 1969 Pu2C3 "Pu2C3, D5[c]" K 17 17 1969 "J.LESS-COMMON METALS, 19(1969)113"
100854 1148 C1.45Th1 C1.45Th1 C 1.45 Th 1 1970 cubic K 4.1 3.9 4.1 1970 "J.LESS-COMMON METALS,22(1970)131"
100855 1971 C1Th1 C1Th1 C 1 Th 1 1972 NaCl "NaCl, B1" K 1.2 "Superconductivity in d- and f-band metals, ed. D.H.Douglas 1972" 1972 "Sup. in d- & f-band metals, p=147"
100856 633 C1Tc1 C1Tc1 C 1 Tc 1 1966 cubic K 3.85 3.85 1966 "J.Less-Common Metals, 11(1966)455"
100857 784 C2Tb1 C2Tb1 C 2 Tb 1 1968 K 2 1968 "J.LESS-COMMON METALS,14(1968)247"
100858 559 C1Ta0.2Zr0.8 C1Ta0.2Zr0.8 C 1 Ta 0.2 Zr 0.8 1966 NaCl "NaCl, B1" K 4.2 1966 "KHIMICHESKAYA AVYAZB V.POLUPROVODNIKAKHI,(1966)299-316"
100859 694 C1Ta0.5W0.5 C1Ta0.5W0.5 C 1 Ta 0.5 W 0.5 1966 K 10.1 10.1 1966 "ACTA MET.,14(1966)1403"
100860 128 C1Ta0.45W0.55 C1Ta0.45W0.55 C 1 Ta 0.45 W 0.55 1956 K 10.5 10.5 1956 "J.PHYS.CHEM.SOLIDS.,1(1956)188"
100861 558 C1Ta0.4Ti0.6 C1Ta0.4Ti0.6 C 1 Ta 0.4 Ti 0.6 1966 NaCl "NaCl, B1" K 4.8 4.8 1966 "INSTITUTE METALLOFIZIKI AN U.S.S.R.KIEV,(1966-YEAR 1966"
100862 505 "sputtered film, d=947 A." C1Ta1 C1Ta1 C 1 Ta 1 1964 NaCl "NaCl, B1" K 5.09 5.09 1964 "J.ELECTROCHEM.SOC.,111(1964)936"
100863 10 C1Ta2 C1Ta2 C 1 Ta 2 1954 L'3 K 3.26 3.26 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
100864 967 C0.47Ta1 C0.47Ta1 C 0.47 Ta 1 1968 CdI2 "CdI2, C6" K 1.6 1968 "ACTA MET.,16(1968)1183"
100865 870 C1.45U0.15Y0.85 C1.45U0.15Y0.85 C 1.45 U 0.15 Y 0.85 1969 Pu2C3 "Pu2C3, D5[c]" K 4 1969 "J.LESS-COMMON METALS, 19(1969)113"
100866 10 C1U1 C1U1 C 1 U 1 1954 NaCl "NaCl, B1" K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
100867 784 C2Tm1 C2Tm1 C 2 Tm 1 1968 K 2 1968 "J.LESS-COMMON METALS,14(1968)247"
100868 558 C0.8Zr0.2 C0.8Zr0.2 C 0.8 Zr 0.2 1966 NaCl "NaCl, B1" K 1.28 1966 "INSTITUTE METALLOFIZIKI AN U.S.S.R.KIEV,(1966-YEAR 1966"
100869 558 C0.6Zr0.4 C0.6Zr0.4 C 0.6 Zr 0.4 1966 NaCl "NaCl, B1" K 1.28 1966 "INSTITUTE METALLOFIZIKI AN U.S.S.R.KIEV,(1966-YEAR 1966"
100870 870 C1.35Ti0.1Y0.9 C1.35Ti0.1Y0.9 C 1.35 Ti 0.1 Y 0.9 1969 Pu2C3 "Pu2C3, D5[c]" K 10.7 10.7 1969 "J.LESS-COMMON METALS, 19(1969)113"
100871 870 C1.5Ti0.3Y0.7 C1.5Ti0.3Y0.7 C 1.5 Ti 0.3 Y 0.7 1969 Pu2C3 "Pu2C3, D5[c]" K 12.9 12.9 1969 "J.LESS-COMMON METALS, 19(1969)113"
100872 558 C1Ti0.8W0.2 C1Ti0.8W0.2 C 1 Ti 0.8 W 0.2 1966 NaCl "NaCl, B1" K 1.38 1966 "INSTITUTE METALLOFIZIKI AN U.S.S.R.KIEV,(1966-YEAR 1966"
100873 10 C1Ti1 C1Ti1 C 1 Ti 1 1954 NaCl "NaCl, B1" K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
100874 870 C1.65Th0.4Y0.6 C1.65Th0.4Y0.6 C 1.65 Th 0.4 Y 0.6 1969 K 4 1969 "J.LESS-COMMON METALS, 19(1969)113"
100875 870 C1.55Th0.7Y0.3 C1.55Th0.7Y0.3 C 1.55 Th 0.7 Y 0.3 1969 K 4 1969 "J.LESS-COMMON METALS, 19(1969)113"
100876 870 C1.35Th0.9Y0.1 C1.35Th0.9Y0.1 C 1.35 Th 0.9 Y 0.1 1969 K 4 1969 "J.LESS-COMMON METALS, 19(1969)113"
100877 2.64 broad transition C1W2 C1W2 C 1 W 2 1965 cubic K 5.2 5.2 THE SUPERCONDUCTIVITY OF THE MONOCARBIDES OF TUNGSTEN AND MOLYBDENUM 1965 6 "Appl.Phys.Lett.,7(1965)25"
100878 1223 C1W2 C1W2 C 1 W 2 1972 orthorhombic K 4.05 4.05 1972 "J.LESS-COMMON METALS,29(1972)423"
100879 1132 C1W2 C1W2 C 1 W 2 1971 hexagonal K 3.35 3.35 1971 "J.LESS-COMMON METALS,25(1971)97"
100880 11 C1W2 C1W2 C 1 W 2 1952 L'3 K 2.74 2.74 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100881 1037 C1W1 C1W1 C 1 W 1 1965 K 0.3 Geballe & Hull quoted in this Paper (From Roberts' Table. ) 1965 "Appl.Phys.Lett., 7(1965)25"
100882 1036 C0.46W0.54 C0.46W0.54 C 0.46 W 0.54 1965 Cu "Cu, A1" K 9 9 1965 "APPL.PHYS.LETT.,7(1965)25"
100883 1036 C0.55W0.45 C0.55W0.45 C 0.55 W 0.45 1965 Cu "Cu, A1" K 8.1 8.1 1965 "APPL.PHYS.LETT.,7(1965)25"
100884 1036 C0.5W0.5 C0.5W0.5 C 0.5 W 0.5 1965 Cu "Cu, A1" K 10 10 1965 "APPL.PHYS.LETT.,7(1965)25"
100885 558 C1V0.4Zr0.6 C1V0.4Zr0.6 C 1 V 0.4 Zr 0.6 1966 NaCl "NaCl, B1" K 4.2 1966 "INSTITUTE METALLOFIZIKI AN U.S.S.R.KIEV,(1966-YEAR 1966"
100886 870 C1.45V0.1Y0.9 C1.45V0.1Y0.9 C 1.45 V 0.1 Y 0.9 1969 Pu2C3 "Pu2C3, D5[c]" K 11.5 11.5 1969 "J.LESS-COMMON METALS, 19(1969)113"
100887 559 C0.922V1 C0.922V1 C 0.922 V 1 1966 K 1.28 1966 "KHIMICHESKAYA AVYAZB V.POLUPROVODNIKAKHI,(1966)299-316"
100888 10 C1V2 C1V2 C 1 V 2 1954 hexagonal K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
100889 RMP0350001 Ca1Ga2 Ca1Ga2 Ca 1 Ga 2 1963 AlB2 "AlB2, C32" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100890 486 Ca1Cu5 Ca1Cu5 Ca 1 Cu 5 1965 CeCo3B2 "CeCo3B2, CaCu5, D2[d]" K 0.34 1965 "J.PHYS.CHEM.SOLIDS,26(1965)665"
100891 10 C1Zr1 C1Zr1 C 1 Zr 1 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
100892 784 C2Yb1 C2Yb1 C 2 Yb 1 1968 K 2 1968 "J.LESS-COMMON METALS,14(1968)247"
100893 870 C1.35Y0.8Zn0.2 C1.35Y0.8Zn0.2 C 1.35 Y 0.8 Zn 0.2 1969 K 4 1969 "J.LESS-COMMON METALS, 19(1969)113"
100894 870 C1.45y0.9Zn0.1 C1.45Y0.9Zn0.1 C 1.45 Y 0.9 Zn 0.1 1969 Pu2C3 "Pu2C3, D5[c]" K 13 13 1969 "J.LESS-COMMON METALS, 19(1969)113"
100895 870 C1.45Y1 C1.45Y1 C 1.45 Y 1 1969 Pu2C3 "Pu2C3, D5[c]" K 11.5 11.5 1969 "J.LESS-COMMON METALS, 19(1969)113"
100896 558 C0.92Y1 C0.92Y1 C 0.92 Y 1 1966 NaCl "NaCl, B1" K 1.38 1966 "INSTITUTE METALLOFIZIKI AN U.S.S.R.KIEV,(1966-YEAR 1966"
100897 711 C1Y3 C1Y3 C 1 Y 3 K 1.15 "From Roberts' Table, unpublished results, Univ. of Geneva" Unpublished results
100898 868 "P=15-25 kbar, broad transition." C3Y2 C3Y2 C 3 Y 2 1969 Pu2C3 "Pu2C3, D5[c]" K 11.5 11.5 1969 "J.LESS-COMMON METALS,17(1969)91"
100899 784 C2Y1 C2Y1 C 2 Y 1 1968 CaC2 "CaC2, C11[a]" K 3.75 3.75 1968 "J.LESS-COMMON METALS,14(1968)247"
100900 870 C1.55w0.1Y0.9 C1.55W0.1Y0.9 C 1.55 W 0.1 Y 0.9 1969 Pu2C3 "Pu2C3, D5[c]" K 14.5 14.5 1969 "J.LESS-COMMON METALS, 19(1969)113"
100901 1607 Cd1 Cd1 Cd 1 1970 Mg "Mg, A3" K 0.517 0.517 1970 "PHYS.REV.B,2(1970)442"
100902 486 Ca1Zn5 Ca1Zn5 Ca 1 Zn 5 1965 CeCo3B2 "CeCo3B2, CaCu5, D2[d]" K 0.34 1965 "J.PHYS.CHEM.SOLIDS,26(1965)665"
100903 715 Ca1Tl3 Ca1Tl3 Ca 1 Tl 3 1970 AuCu3 "AuCu3, L1[2]" K 2.04 2.04 1970 "J.PHYS.CHEM.SOLIDS,31(1970)2653"
100904 961 Ca1Si2 Ca1Si2 Ca 1 Si 2 1967 ThSi2 "ThSi2, C[c]" K 1.58 1.58 1967 "J.LESS-COMMON METALS,12(1967)75"
100905 961 Ca1Si2 Ca1Si2 Ca 1 Si 2 1967 CaSi2 "CaSi2, C12" K 0.32 1967 "J.LESS-COMMON METALS,12(1967)75"
100906 427 Ca1Si1 Ca1Si1 Ca 1 Si 1 1963 orthorhombic K 1.3 Superconductivity of some binary and ternary alloys 1963 JETP 16(1963)1493
100907 427 Ca2Si1 Ca2Si1 Ca 2 Si 1 1963 cubic K 1.68 Superconductivity of some binary and ternary alloys 1963 JETP 16(1963)1493
100908 2 Ca1Se1 Ca1Se1 Ca 1 Se 1 1948 K 1.7 1948 "Zh.Eksp.Teor.Fiz., 18(1948)101"
100909 1232 Ca1Hg5 Ca1Hg5 Ca 1 Hg 5 1966 K 1.7 1.7 Superconducting transition temperatures of mercury-alkaline earth metal compounds 1966 "J.PHYS.CHEM.SOLIDS,27(1966)1081"
100910 1232 Ca1Hg3 Ca1Hg3 Ca 1 Hg 3 1966 K 1.6 1.6 Superconducting transition temperatures of mercury-alkaline earth metal compounds 1966 "J.PHYS.CHEM.SOLIDS,27(1966)1081"
100911 1232 Ca1Hg1 Ca1Hg1 Ca 1 Hg 1 1966 CsCl "CsCl, B2" K 1.6 1.6 Superconducting transition temperatures of mercury-alkaline earth metal compounds 1966 "J.PHYS.CHEM.SOLIDS,27(1966)1081"
100912 427 Ca1Ge3 Ca1Ge3 Ca 1 Ge 3 1963 K 0.15 Superconductivity of some binary and ternary alloys 1963 JETP 16(1963)1493
100913 1340 Cd0.86Mg0.14 Cd0.86Mg0.14 Cd 0.86 Mg 0.14 1972 hexagonal K 0.145 0.145 1972 "PHYS.REV.B,6(1972)103"
100914 1340 Cd0.9Mg0.1 Cd0.9Mg0.1 Cd 0.9 Mg 0.1 1972 K 0.138 0.138 1972 "PHYS.REV.B,6(1972)103"
100915 1340 Cd0.96Mg0.04 Cd0.96Mg0.04 Cd 0.96 Mg 0.04 1972 K 0.24 0.24 1972 "PHYS.REV.B,6(1972)103"
100916 RMP0350001 Cd11La1 Cd11La1 Cd 11 La 1 1963 cubic K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100917 1564 Cd0.1In0.9La3 Cd0.1In0.9La3 Cd 0.1 In 0.9 La 3 1973 AuCu3 "AuCu3, L1[2]" K 9.55 9.55 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
100918 1506 Cd0.97Hg0.03 Cd0.97Hg0.03 Cd 0.97 Hg 0.03 1973 K 0.53 0.53 1973 "J.LOW TEMP.PHYS.,11(1973)687"
100919 RMP0350001 Cd1Hg1 Cd1Hg1 Cd 1 Hg 1 1963 K 2.15 2.15 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100920 1467 deposited at 1 K. Cd0.9Ge0.1 Cd0.9Ge0.1 Cd 0.9 Ge 0.1 1973 K 1.7 1.7 1973 "J.LOW TEMP.PHYS.,10(1973)735"
100921 1665 Cd0.06Cu0.94Se2 Cd0.06Cu0.94Se2 Cd 0.06 Cu 0.94 Se 2 1970 FeS2(pyrite) "FeS2(pyrite), C2" K 1.3 1.3 1970 "J.SOLID STATE CHEM.,1(1970)526"
100922 1665 Cd0.04Cu0.96S2 Cd0.04Cu0.96S2 Cd 0.04 Cu 0.96 S 2 1970 FeS2(pyrite) "FeS2(pyrite), C2" K 1.3 1.3 1970 "J.SOLID STATE CHEM.,1(1970)526"
100923 1009 Cd1Cu1 Cd1Cu1 Cd 1 Cu 1 K 1.3 "From Roberts' Table, unpublished results" Personal communication
100924 1609 Cd1 Cd1 Cd 1 1960 Mg "Mg, A3" K 0.53 0.53 1960 "ZH.EKSP.TEOR.FIZ.,39(1960)1193"
100925 1491 quench condensed at 0.4 K. Cd0.1Pd0.9 Cd0.1Pd0.9 Cd 0.1 Pd 0.9 1973 K 6.92 6.92 1973 "J.LOW TEMP.PHYS.,13(1973)1"
100926 119 Cd1O1 Cd1O1 Cd 1 O 1 1948 K 1.3 From Roberts' Table. 1948 "Gottingen Report, (1948)187"
100927 258 Cd2Na1 Cd2Na1 Cd 2 Na 1 K 1.06 "From Roberts' Table, unpublished results" Unpublished results
100928 258 Cd6Na1 Cd6Na1 Cd 6 Na 1 K 1.08 "From Roberts' Table, unpublished results" Unpublished results
100929 614 P=0-22 kbar Cd1Mo5S6 Cd1Mo5S6 Cd 1 Mo 5 S 6 1975 K 3.7 3.7 1975 "MAT.RES.BULL.,10(1975)297"
100930 1163 Cd1Mo5S6 Cd1Mo5S6 Cd 1 Mo 5 S 6 1972 rhombohedral K 2.4 2.4 1972 "SCI.,175(1972)1465"
100931 1340 Cd0.2Mg0.08 Cd0.2Mg0.08 Cd 0.2 Mg 0.08 1972 hexagonal K 0.015 1972 "PHYS.REV.B,6(1972)103"
100932 1340 Cd0.5Mg0.5 Cd0.5Mg0.5 Cd 0.5 Mg 0.5 1972 orthorhombic K 0.015 1972 "PHYS.REV.B,6(1972)103"
100933 1340 Cd0.6Mg0.4 Cd0.6Mg0.4 Cd 0.6 Mg 0.4 1972 orthorhombic K 0.016 0.016 1972 "PHYS.REV.B,6(1972)103"
100934 1340 Cd0.7Mg0.3 Cd0.7Mg0.3 Cd 0.7 Mg 0.3 1972 K 0.105 0.105 1972 "PHYS.REV.B,6(1972)103"
100935 1340 cd0.75Mg0.25 Cd0.75Mg0.25 Cd 0.75 Mg 0.25 1972 hexagonal K 0.16 0.16 1972 "PHYS.REV.B,6(1972)103"
100936 1340 Cd0.8Mg0.2 Cd0.8Mg0.2 Cd 0.8 Mg 0.2 1972 hexagonal K 0.185 0.185 1972 "PHYS.REV.B,6(1972)103"
100937 656 Ce1 Ce1 Ce 1 Cu "Cu, A1" K 0.4 quoted in J.Phys.Chem.Solids 28(1967)1846 Unpublished
100938 23 Ce1 Ce1 Ce 1 1951 Cu "Cu, A1" K 0.25 1951 "Nature, 167(1951)111"
100939 1917 weight fraction Cd0.825Zn0.175 Cd0.825Zn0.175 Cd 0.825 Zn 0.175 1969 K 1.3 1969 "REV.SCI.INSTRUMENTS,40(1969)180"
100940 1052 Cd0.2Zn0.8 Cd0.2Zn0.8 Cd 0.2 Zn 0.8 1969 K 0.628 0.628 1969 "CRYOGENICS,9(1969)63"
100941 1052 Cd0.002Zn0.998 Cd0.002Zn0.998 Cd 0.002 Zn 0.998 1969 K 0.78 0.78 1969 "CRYOGENICS,9(1969)63"
100942 1052 Cd0.02Zn0.98 Cd0.02Zn0.98 Cd 0.02 Zn 0.98 1969 K 0.675 0.675 1969 "CRYOGENICS,9(1969)63"
100943 825 Cd1V3 Cd1V3 Cd 1 V 3 1966 Cr3Si(A15) "Cr3Si, A15" K 4.2 1966 "DOKL.AN SSR,171(1966)331"
100944 1900 deposited at 0.3 K. Cd0.1Tl0.9 Cd0.1Tl0.9 Cd 0.1 Tl 0.9 1974 K 3.5 3.5 1974 "Z.PHYS.,269(1974)23"
100945 70 Cd0.17Tl0.83 Cd0.17Tl0.83 Cd 0.17 Tl 0.83 1929 K 2.3 2.3 1929 "Proc.Acad.Sci.Amsterdam, 32(1929)715"
100946 70 Cd0.18Sn0.72 Cd0.18Sn0.72 Cd 0.18 Sn 0.72 1929 K 3.65 3.65 1929 "Proc.Acad.Sci.Amsterdam, 32(1929)715"
100947 99 Cd0.4Sb0.6 Cd0.4Sb0.6 Cd 0.4 Sb 0.6 1930 K 1.9 1930 "Phil.Mag., 10(1930)500"
100948 1917 weight fraction Cd0.18Pb0.32Sn0.5 Cd0.18Pb0.32Sn0.5 Cd 0.18 Pb 0.32 Sn 0.5 1969 K 7.5 7.5 1969 "REV.SCI.INSTRUMENTS,40(1969)180"
100949 469 Ce1Ir3 Ce1Ir3 Ce 1 Ir 3 1965 K 3.34 3.34 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
100950 469 Ce1Ir2 Ce1Ir2 Ce 1 Ir 2 1965 MgCu2(Laves) "MgCu2, C15" K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
100951 715 Ce1In3 Ce1In3 Ce 1 In 3 1970 AuCu3 "AuCu3, L1[2]" K 0.07 1970 "J.PHYS.CHEM.SOLIDS,31(1970)2653"
100952 68 Ce0.975Fe0.025 Ce0.975Fe0.025 Ce 0.975 Fe 0.025 1948 K 2 1948 "J.Chem.Phys., 16(1948)838"
100954 113 Ce0.35Eu0.02Gd0.06La Ce0.35Eu0.02Gd0.06La0.2 Ce 0.35 Eu 0.02 Gd 0.06 La 0.2 1929 K 2.3 1929 "ROY.SOC.CAN.TRANS.,23(1929)287"
100955 655 Ce1Co1.33Rh0.67 Ce1Co1.33Rh0.67 Ce 1 Co 1.33 Rh 0.67 1967 MgCu2(Laves) "MgCu2, C15" K 0.33 1967 "J.PHYS.CHEM.SOLIDS,28(1967)1846"
100956 655 Ce1Co1.67Rh0.33 Ce1Co1.67Rh0.33 Ce 1 Co 1.67 Rh 0.33 1967 MgCu2(Laves) "MgCu2, C15" K 0.47 0.47 1967 "J.PHYS.CHEM.SOLIDS,28(1967)1846"
100957 655 Ce1Co1.33Ni0.67 Ce1Co1.33Ni0.67 Ce 1 Co 1.33 Ni 0.67 1967 MgCu2(Laves) "MgCu2, C15" K 0.33 1967 "J.PHYS.CHEM.SOLIDS,28(1967)1846"
100958 655 Ce1Co1.67Ni0.33 Ce1Co1.67Ni0.33 Ce 1 Co 1.67 Ni 0.33 1967 MgCu2(Laves) "MgCu2, C15" K 0.46 0.46 1967 "J.PHYS.CHEM.SOLIDS,28(1967)1846"
100959 655 Ce1Co2 Ce1Co2 Ce 1 Co 2 1967 MgCu2(Laves) "MgCu2, C15" K 1.5 1.5 1967 "J.PHYS.CHEM.SOLIDS,28(1967)1846"
100960 618 P-induced s/c. P=50kbar. for high pressure phase. Ce1 Ce1 Ce 1 1968 K 1.7 0 1.7 SUPERCONDUCTIVITY OF CERIUM UNDER PRESSURE 1968 "PHYS.REV.LETT.,21(1968)1250"
100961 1783 Ce1Pt0.1Ru1.9 Ce1Pt0.1Ru1.9 Ce 1 Pt 0.1 Ru 1.9 1972 MgCu2(Laves) "MgCu2, C15" K 4.08 4.08 1972 "PHYS.REV.B,6(1972)3286"
100962 469 Ce1Pt5 Ce1Pt5 Ce 1 Pt 5 1965 CeCo3B2 A 5.369 4.385 "CeCo3B2, CaCu5, D2[d]" K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
100963 469 Ce1Pt3 Ce1Pt3 Ce 1 Pt 3 1965 MgCu2(Laves) "MgCu2, C15" K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
100964 469 Ce1Pt2 Ce1Pt2 Ce 1 Pt 2 1965 MgCu2(Laves) A 7.73 "MgCu2, C15" K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
100965 99 Ce1Pb1 Ce1Pb1 Ce 1 Pb 1 1930 K 1.9 1930 "Phil.Mag., 10(1930)500"
100966 RMP0350001 Ce1Os2 Ce1Os2 Ce 1 Os 2 1963 MgCu2(Laves) "MgCu2, C15" K 0.62 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100967 655 Ce1Ni2 Ce1Ni2 Ce 1 Ni 2 1967 MgCu2(Laves) "MgCu2, C15" K 0.015 1967 "J.PHYS.CHEM.SOLIDS,28(1967)1846"
100968 40 Ce1N0.87 Ce1N0.87 Ce 1 N 0.87 1953 K 1.8 Studies of compounds for superconductivity 1953 "Phys.Rev., 90(1953)115"
100969 1016 P-0-10-24 kbar Ce0.02La-.98 Ce0.02La0.98 Ce 0.02 La 0.98 1969 K 2.6 2.6 1969 "PHYS.REV.LETT.,23(1969)1375"
100970 1016 P=22-110 kbar Ce0.16La0.84 Ce0.16La0.84 Ce 0.16 La 0.84 1969 K 8.7 8.7 1969 "PHYS.REV.LETT.,23(1969)1375"
100971 1468 Ce0.04La0.96 Ce0.04La0.96 Ce 0.04 La 0.96 1971 K 0.05 1971 "J.LOW TEMP.PHYS.,5(1971)191"
100972 469 Ce1Ir5 Ce1Ir5 Ce 1 Ir 5 1965 K 1.82 1.82 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
100973 12 Co1 Co1 Co 1 1935 Mg "Mg, A3" K 1.36 1935 "Proc.Roy.Soc.(London),151(1935)A610"
100974 1477 not SC(resistivity) "(Y,Ce)" Ce0.0178Y1 Ce 0.0178 Y 1 1971 K 1.5 1971 "J.LOW TEMP.PHYS.,4(1971)657"
100975 1811 Ce0.8Tb0.2Ru2 Ce0.8Tb0.2Ru2 Ce 0.8 Tb 0.2 Ru 2 1974 K 2.6 2.6 1974 "W.J.APPL.CRYST.,7(1974)230"
100976 715 Ce1Sn3 Ce1Sn3 Ce 1 Sn 3 1970 AuCu3 "AuCu3, L1[2]" K 0.07 1970 "J.PHYS.CHEM.SOLIDS,31(1970)2653"
100977 1913 Ce0.12Si1V2.88 Ce0.12Si1V2.88 Ce 0.12 Si 1 V 2.88 1965 Cr3Si(A15) "Cr3Si, A15" K 15.32 15.32 1965 "AZV.AKAD.NAUK SSSR,1(1965)354"
100978 25 Ce1Si2 Ce1Si2 Ce 1 Si 2 1958 ThSi2 "ThSi2, C[c]" K 1 Superconductivity and ferromagnetism in isomorphous compounds 1958 "Phys.Rev., 112(1958)89"
100979 11 Ce0.25Sb3 Ce0.25Sb3 Ce 0.25 Sb 3 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
100980 558 Ce2S3 Ce2S3 Ce 2 S 3 1966 cubic K 1966 "INSTITUTE METALLOFIZIKI AN U.S.S.R.KIEV,(1966-YEAR 1966"
100981 258 Ce1S1 Ce1S1 Ce 1 S 1 NaCl "NaCl, B1" K 1.06 "From Roberts' Table, unpublished results" Unpublished results
100982 1820 Ce1Ru2Sc1 Ce1Ru2Sc1 Ce 1 Ru 2 Sc 1 1971 MgCu2(Laves) "MgCu2, C15" K 6.2 6.2 1971 "Z.NATURFORSCH.A,26(1971)141"
100983 1783 Ce1Ru2 Ce1Ru2 Ce 1 Ru 2 1972 K 6.18 6.18 1972 "PHYS.REV.B,6(1972)3286"
100984 1783 Ce1Pt0.2Ru1.8 Ce1Pt0.2Ru1.8 Ce 1 Pt 0.2 Ru 1.8 1972 MgCu2(Laves) "MgCu2, C15" K 3.4 3.4 1972 "PHYS.REV.B,6(1972)3286"
100985 469 Co2Lu1 Co2Lu1 Co 2 Lu 1 1965 MgCu2(Laves) A 7.123 "MgCu2, C15" K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
100986 658 Co1La3 Co1La3 Co 1 La 3 1967 Al3Ni "Al3Ni, D0[11]" K 4.28 4.28 K/GPa 0.085 Superconductivity of lanthanum and lanthanum compounds at zero and high pressure 1967 "J.PHYS.CHEM.SOLIDS,28(1967)569"
100987 1624 Co0.004Ir0.996 Co0.004Ir0.996 Co 0.004 Ir 0.996 1971 K 0.046 0.046 1971 "PHYS.REV.B,3(1971)91"
100988 351 deposited at 6 K. Co0.03In0.97 Co0.03In0.97 Co 0.03 In 0.97 1955 K 3.95 3.95 1955 "Z.PHYS.,141(1955)263"
100989 RMP0350001 Co1Hf2 Co1Hf2 Co 1 Hf 2 1963 Fe3W3C "Fe3W3C, E9[3]" K 0.56 0.56 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100990 770 Co1Ge2 Co1Ge2 Co 1 Ge 2 1970 K 0.051 1970 "PROG.IN LOW TEMP.PHYS.,6(1970)205"
100991 RMP0350001 Co1Ge3 Co1Ge3 Co 1 Ge 3 1963 orthorhombic K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
100992 1181 Co0.98Fe0.02U1 Co0.98Fe0.02U1 Co 0.98 Fe 0.02 U 1 1970 K LT-12 1970 "LT-12(1970, Kyoto) P 345"
100993 1866 Co0.5Fe0.5U6 Co0.5Fe0.5U6 Co 0.5 Fe 0.5 U 6 1975 U6Mn "MnU6, D2[c]" K 3 3 "Lattice parameters and superconductivity of the compounds U6Mn, U6Fe, U6Co and U6Ni and alloys between them" 1975 "J.Phys.Chem.Solids, 36(1975)123"
100994 1392 Co0.5Fe0.5Ti1 Co0.5Fe0.5Ti1 Co 0.5 Fe 0.5 Ti 1 1967 K 3.3 3.3 1967 "J.APPL.PHYS.,38(1967)1337"
100995 984 Co0.02Cu0.98Rh2Si4 Co0.02Cu0.98Rh2Si4 Co 0.02 Cu 0.98 Rh 2 Si 4 1967 Al2MgO4 "Al2MgO4, H1[1]" K 3.8 3.8 Superconductivity in sulpho- and selenospinels 1967 PHYS.LETT.A25(1967)238
100996 1181 Co0.98Cr0.02U1 Co0.98Cr0.02U1 Co 0.98 Cr 0.02 U 1 1970 K LT-12 1970 "LT-12(1970, Kyoto) P 345"
100997 914 Co0.5Ni0.5Zr2 Co0.5Ni0.5Zr2 Co 0.5 Ni 0.5 Zr 2 1969 CuAl2 "CuAl2, C16" K 3.1 3.1 1969 "J.PHYS.SOC.JAPAN,26(1969)866"
100998 1001 Co0.3Ni0.7V3 Co0.3Ni0.7V3 Co 0.3 Ni 0.7 V 3 1963 Cr3Si(A15) "Cr3Si, A15" K 2 1963 "TRANS.AIME,227(1963)1407"
100999 1001 Co0.5Ni0.5V3 Co0.5Ni0.5V3 Co 0.5 Ni 0.5 V 3 1963 Cr3Si(A15) "Cr3Si, A15" K 2 1963 "TRANS.AIME,227(1963)1407"
101000 1181 Co0.98Ni0.02U1 Co0.98Ni0.02U1 Co 0.98 Ni 0.02 U 1 1970 K LT-12 1970 "LT-12(1970, Kyoto) P 345"
101001 RMP0350001 Co1Nb1V1 Co1Nb1V1 Co 1 Nb 1 V 1 1963 MgZn2(Laves) "MgZn2, C14" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101002 1181 Co0.975Mo0.025U1 Co0.975Mo0.025U1 Co 0.975 Mo 0.025 U 1 1970 K LT-12 1970 "LT-12(1970, Kyoto) P 345"
101003 1181 Co0.96Mo0.04U6 Co0.96Mo0.04U6 Co 0.96 Mo 0.04 U 6 1970 K 1.5 1.5 LT-12 1970 "LT-12(1970, Kyoto) P 345"
101004 881 Co0.002Mo0.815Re0.18 Co0.002Mo0.815Re0.185 Co 0.002 Mo 0.815 Re 0.185 1969 K 5.8 5.8 1969 "J.LOW TEMP.PHYS.,1(1969)355"
101005 920 Co0.5Mn0.5U6 Co0.5Mn0.5U6 Co 0.5 Mn 0.5 U 6 1968 U6Mn "MnU6, D2[c]" K 2.55 2.55 1968 "PHYS.REV.,168(1968)464"
101006 1181 Co0.92Mn0.08U6 Co0.92Mn0.08U6 Co 0.92 Mn 0.08 U 6 1970 K 2.2 2.2 LT-12 1970 "LT-12(1970, Kyoto) P 345"
101007 1181 Co0.98Mn0.02U1 Co0.98Mn0.02U1 Co 0.98 Mn 0.02 U 1 1970 K LT-12 1970 "LT-12(1970, Kyoto) P 345"
101008 469 Co1Lu3 Co1Lu3 Co 1 Lu 3 1965 K SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101009 260 Co1Sc1 Co1Sc1 Co 1 Sc 1 K 1.03 UNPUBLISHED
101010 2 Co1Sb1 Co1Sb1 Co 1 Sb 1 1948 K 1.8 1948 "Zh.Eksp.Teor.Fiz., 18(1948)101"
101011 1476 Co0.6Rh0.4Zr2 Co0.6Rh0.4Zr2 Co 0.6 Rh 0.4 Zr 2 1971 CuAl2 "CuAl2, C16" K 8 8 1971 "J.LOW TEMP.PHYS.,4(1971)489"
101012 1001 Co0.5Rh0.5V3 Co0.5Rh0.5V3 Co 0.5 Rh 0.5 V 3 1963 Cr3Si(A15) "Cr3Si, A15" K 2 1963 "TRANS.AIME,227(1963)1407"
101013 1001 Co0.9Rh0.1V3 Co0.9Rh0.1V3 Co 0.9 Rh 0.1 V 3 1963 Cr3Si(A15) "Cr3Si, A15" K 2 1963 "TRANS.AIME,227(1963)1407"
101014 1181 Co0.97Rh0.03U1 Co0.97Rh0.03U1 Co 0.97 Rh 0.03 U 1 1970 K LT-12 1970 "LT-12(1970, Kyoto) P 345"
101015 1181 Co0.94RH0.06U6 Co0.94Rh0.06U6 Co 0.94 Rh 0.06 U 6 1970 K 2 2 LT-12 1970 "LT-12(1970, Kyoto) P 345"
101016 1060 Co0.05Rh0.04Ti0.91 Co0.05Rh0.04Ti0.91 Co 0.05 Rh 0.04 Ti 0.91 1964 K 4 4 1964 "Z.PHYS.,178(1964)216"
101017 95 Co0.5Rh0.5Si2 Co0.5Rh0.5Si2 Co 0.5 Rh 0.5 Si 2 1955 K 2 2 From Roberts' Table 1955 "Naturwiss, 42(1955)451"
101018 601 Co2P1 Co2P1 Co 2 P 1 1965 Co2Si "Co2Si, C23" K 0.97 Superconducting phosphides of the transition metals 1965 "J.PHYS.CHEM.SOL.,26(1965)2037"
101019 11 Co1O1 Co1O1 Co 1 O 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
101020 1355 Co0.85Ni0.15Zr2 Co0.85Ni0.15Zr2 Co 0.85 Ni 0.15 Zr 2 1970 CuAl2 "CuAl2, C16" K 6 6 1970 "J.PHYS.SOC.JAPAN,29(1970)879"
101021 RMP0350001 Co1Ti1 Co1Ti1 Co 1 Ti 1 1963 W "W, A2" K 0.71 0.71 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101022 173 Co3Th7 Co3Th7 Co 3 Th 7 1961 Fe3Th7 "Fe3Th7, D10[2]" K 1.83 1.83 1961 "J.PHYS.CHEM.SOLIDS,19(1961)130"
101023 1377 Co1Ta1.75Zr0.25 Co1Ta1.75Zr0.25 Co 1 Ta 1.75 Zr 0.25 1972 CuAl2 "CuAl2, C16" K 0.9 0.9 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
101024 1377 Co1Ta2 Co1Ta2 Co 1 Ta 2 1972 CuAl2 "CuAl2, C16" K 0.82 0.82 uV/K 3 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
101025 1362 Co0.02Sn0.98Ta3 Co0.02Sn0.98Ta3 Co 0.02 Sn 0.98 Ta 3 1973 K 4 4 1973 "J.PHYS.SOC.JAPAN,34(1973)1168"
101026 1377 Co1Sn2 Co1Sn2 Co 1 Sn 2 1972 CuAl2 "CuAl2, C16" K 0.07 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
101027 RMP0350001 Co5.2Si2V2.8 Co5.2Si2V2.8 Co 5.2 Si 2 V 2.8 1963 alpha-Mn "alpha-Mn, A12" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101028 43 Co1Si2 Co1Si2 Co 1 Si 2 1953 CaF2 "CaF2, C1" K 1.22 1.22 Superconducting properties of cobalt disilicide 1953 "Phys.Rev., 89(1953)439"
101029 95 Co1Si1 Co1Si1 Co 1 Si 1 1955 K From Roberts' Table 1955 "Naturwiss, 42(1955)451"
101030 1372 Co1Sc0.12Zr1.875 Co1Sc0.125Zr1.875 Co 1 Sc 0.125 Zr 1.875 1972 CuAl2 "CuAl2, C16" K 2.89 2.89 1972 "J.LESS-COMMON METALS,27(1972)169"
101031 469 Co1Sc3 Co1Sc3 Co 1 Sc 3 1965 K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101032 1377 Co1Sc2 Co1Sc2 Co 1 Sc 2 1972 CuAl2 "CuAl2, C16" K 0.07 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
101033 1476 Co1Zr2 Co1Zr2 Co 1 Zr 2 1971 CuAl2 "CuAl2, C16" K 5 5 1971 "J.LOW TEMP.PHYS.,4(1971)489"
101034 1476 Co1Zr1 Co1Zr1 Co 1 Zr 1 1971 CsCl "CsCl, B2" K 1.2 1971 "J.LOW TEMP.PHYS.,4(1971)489"
101035 RMP0350001 Co2Zr1 Co2Zr1 Co 2 Zr 1 1963 MgCu2(Laves) "MgCu2, C15" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101036 469 Co0.28Y0.72 Co0.28Y0.72 Co 0.28 Y 0.72 1965 K 0.34 0.34 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101037 469 Co1Y3 Co1Y3 Co 1 Y 3 1965 K 0.34 0.34 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101038 469 Cu1Y2 Cu1Y2 Cu 1 Y 2 1965 K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101039 RMP0350001 Co3V1Zr2 Co3V1Zr2 Co 3 V 1 Zr 2 1963 MgZn2(Laves) "MgZn2, C14" K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101040 948 Co1V3 Co1V3 Co 1 V 3 1970 Cr3Si(A15) "Cr3Si, A15" K 0.015 1970 "J.PHYS.CHEM.SOLIDS, 31(1970)1531"
101041 21 Co1U6 Co1U6 Co 1 U 6 1958 U6Mn "MnU6, D2[c]" K 2.3 2.3 1958 "J.Phys.Chem.Solids, 7(1958)259"
101042 21 Co1U1 Co1U1 Co 1 U 1 1958 CsCl "CsCl, B2" K 1.7 1.7 1958 "J.Phys.Chem.Solids, 7(1958)259"
101043 759 Co0.01Ti0.99 Co0.01Ti0.99 Co 0.01 Ti 0.99 1964 K 1.5 1964 "PHYS.REV.,135(1964)A1151"
101044 173 Co1Ti2 Co1Ti2 Co 1 Ti 2 1961 Fe3W3C "Fe3W3C, E9[3]" K 3.44 3.44 1961 "J.PHYS.CHEM.SOLIDS,19(1961)130"
101045 945 Cr3Ge1 Cr3Ge1 Cr 3 Ge 1 1971 Cr3Si(A15) "Cr3Si, A15" K 1.2 1971 "J.PHYS.CHEM.SOLIDS,32(1971)459"
101046 10 Cr1Ge1 Cr1Ge1 Cr 1 Ge 1 1954 FeSi "FeSi, B20" K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
101047 10 Cr0.6Ge0.4 Cr0.6Ge0.4 Cr 0.6 Ge 0.4 1954 tetragonal K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
101048 RMP0350001 Cr1Ga4 Cr1Ga4 Cr 1 Ga 4 1963 cubic K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101049 RMP0350001 Cr3Ga1 Cr3Ga1 Cr 3 Ga 1 1963 Cr3Si(A15) "Cr3Si, A15" K 0.3 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101050 1866 Cr0.2Fe0.8U6 Cr0.2Fe0.8U6 Cr 0.2 Fe 0.8 U 6 1975 U6Mn "MnU6, D2[c]" K 3.3 3.3 "Lattice parameters and superconductivity of the compounds U6Mn, U6Fe, U6Co and U6Ni and alloys between them" 1975 "J.Phys.Chem.Solids, 36(1975)123"
101051 984 Cr0.008Cu1Rh1.992S4 Cr0.008Cu1Rh1.992S4 Cr 0.008 Cu 1 Rh 1.992 S 4 1967 Al2MgO4 "Al2MgO4, H1[1]" K 3.9 3.9 Superconductivity in sulpho- and selenospinels 1967 PHYS.LETT.A25(1967)238
101052 1526 Cr1 Cr1 Cr 1 1973 W "W, A2" K 3.1 3.1 1973 "J.VAC.SCI.TECH.,10(1973)611"
101053 788 Cr1 Cr1 Cr 1 1969 W "W, A2" K 0.015 1969 "PHYS.REV.,178(1969)702"
101054 32 Co0.1Zr0.9 Co0.1Zr0.9 Co 0.1 Zr 0.9 1955 hexagonal K 3.9 3.9 Superconductivity of zirconium alloys 1955 "Phys.Rev., 100(1955)626"
101055 1476 Co1Zr3 Co1Zr3 Co 1 Zr 3 1971 K 3.9 3.9 1971 "J.LOW TEMP.PHYS.,4(1971)489"
101056 1476 splat cooled. Co1Zr2 Co1Zr2 Co 1 Zr 2 1971 amorphous K 7 7 1971 "J.LOW TEMP.PHYS.,4(1971)489"
101057 707 Cr0.72Os0.28 Cr0.72Os0.28 Cr 0.72 Os 0.28 1969 Cr3Si(A15) "Cr3Si, A15" K 3.95 3.95 1969 "LOW TEMP.PHYS.,1(1969)539"
101058 707 Cr0.67Os0.33 Cr0.67Os0.33 Cr 0.67 Os 0.33 1969 sigma-CrFe "sigma-CrFe, D8[b]" K 1.03 1.03 1969 "LOW TEMP.PHYS.,1(1969)539"
101059 557 Cr0.6Os0.4 Cr0.6Os0.4 Cr 0.6 Os 0.4 1964 sigma-CrFe "sigma-CrFe, D8[b]" K 1.4 1964 "PHYS.KOND.MATERIE,2(1964)210"
101060 556 Cr0.8Os0.2 Cr0.8Os0.2 Cr 0.8 Os 0.2 1966 cubic K 2.5 2.5 1966 "PHYS.KONDENS.MATERIE,5(1966)285"
101061 181 Cr3O1 Cr3O1 Cr 3 O 1 Cr3Si(A15) "Cr3Si, A15" K 1.02 "From Roberts' Table, unpublished results" Unpublished results
101062 1979 Cr0.071Nb0.929 Cr0.071Nb0.929 Cr 0.071 Nb 0.929 1973 K 6.95 6.95 1973 "DOK.AKAD.NAUK.BELORUSS,17(1973)497"
101063 1510 Cr0.03N1Nb0.97 Cr0.03N1Nb0.97 Cr 0.03 N 1 Nb 0.97 1966 NaCl "NaCl, B1" K 0.32 1966 "PHYS.,2(1966)293"
101064 11 Cr1N1 Cr1N1 Cr 1 N 1 1952 NaCl "NaCl, B1" K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
101065 224 Cr0.78Ir0.22 Cr0.78Ir0.22 Cr 0.78 Ir 0.22 1962 K 0.3 SUPERCONDUCTIVITY OF CHROMIUM ALLOYS 1962 "PHYS.REV.,128(1962)588"
101066 945 Cr0.835Ir0.165 Cr0.835Ir0.165 Cr 0.835 Ir 0.165 1971 Cr3Si(A15) "Cr3Si, A15" K 0.77 0.77 1971 "J.PHYS.CHEM.SOLIDS,32(1971)459"
101067 1692 Cr0.82Ir0.18 Cr0.82Ir0.18 Cr 0.82 Ir 0.18 1974 Cr3Si(A15) "Cr3Si, A15" K 0.75 0.75 Electronically 'atypical' a 15-type compounds based on chromium and molybdenum 1974 "Solid State Commun., 14(1974)443"
101068 707 Cr3Ir1 Cr3Ir1 Cr 3 Ir 1 1969 K 0.168 0.168 1969 "LOW TEMP.PHYS.,1(1969)539"
101069 1446 Cr0.72Ru0.28 Cr0.72Ru0.28 Cr 0.72 Ru 0.28 1972 Cr3Si(A15) "Cr3Si, A15" K 3.468 3.468 1972 "J.LOW TEMP.PHYS.,6(1972)171"
101070 1060 Cr0.05Rh0.04Ti0.91 Cr0.05Rh0.04Ti0.91 Cr 0.05 Rh 0.04 Ti 0.91 1964 K 3.75 3.75 1964 "Z.PHYS.,178(1964)216"
101071 224 Cr0.5Rh0.5 Cr0.5Rh0.5 Cr 0.5 Rh 0.5 1962 K 0.3 SUPERCONDUCTIVITY OF CHROMIUM ALLOYS 1962 "PHYS.REV.,128(1962)588"
101072 224 Cr0.9Rh0.1 Cr0.9Rh0.1 Cr 0.9 Rh 0.1 1962 K 0.3 SUPERCONDUCTIVITY OF CHROMIUM ALLOYS 1962 "PHYS.REV.,128(1962)588"
101073 707 Cr0.75Rh0.25 Cr0.75Rh0.25 Cr 0.75 Rh 0.25 1969 Cr3Si(A15) "Cr3Si, A15" K 0.072 0.072 1969 "LOW TEMP.PHYS.,1(1969)539"
101074 1096 Cr0.38Re0.62 Cr0.38Re0.62 Cr 0.38 Re 0.62 1964 K 4.1 4.1 1964 "PHYS.KONDENS MATERIE,2(1964)377"
101075 RMP0350001 Cr1Re1 Cr1Re1 Cr 1 Re 1 1963 sigma-CrFe "sigma-CrFe, D8[b]" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101076 224 Cr3Pt1 Cr3Pt1 Cr 3 Pt 1 1962 Cr3Si(A15) "Cr3Si, A15" K 0.3 SUPERCONDUCTIVITY OF CHROMIUM ALLOYS 1962 "PHYS.REV.,128(1962)588"
101077 707 Cr0.79Pt0.21 Cr0.79Pt0.21 Cr 0.79 Pt 0.21 1969 Cr3Si(A15) "Cr3Si, A15" K 0.015 1969 "LOW TEMP.PHYS.,1(1969)539"
101078 945 Cr0.915Pt0.185 Cr0.915Pt0.185 Cr 0.915 Pt 0.185 1971 Cr3Si(A15) "Cr3Si, A15" K 1.2 1971 "J.PHYS.CHEM.SOLIDS,32(1971)459"
101079 601 Cr3P1 Cr3P1 Cr 3 P 1 1965 Ni3P "Ni3P, D0[e]" K 1.01 Superconducting phosphides of the transition metals 1965 "J.PHYS.CHEM.SOL.,26(1965)2037"
101080 601 Cr1P1 Cr1P1 Cr 1 P 1 1965 MnP "MnP, B31" K 1.01 Superconducting phosphides of the transition metals 1965 "J.PHYS.CHEM.SOL.,26(1965)2037"
101081 477 Cr0.025Ti0.975 Cr0.025Ti0.975 Cr 0.025 Ti 0.975 1965 K 3.5 3.5 1965 LT-9(1965) 482-486
101082 93 Cr1Ti3 Cr1Ti3 Cr 1 Ti 3 1959 K 3.7 3.7 Ferromagnetic solutes in superconductors 1959 "Phys.Rev., 115(1959)1597"
101083 1586 two phases Cr2Ti1 Cr2Ti1 Cr 2 Ti 1 1974 MgCu2(Laves) "MgCu2, C15" K 0.025 1974 "PHYS.LETT.A,50(1974)159"
101084 1913 Cr0.21Si1V2.79 Cr0.21Si1V2.79 Cr 0.21 Si 1 V 2.79 1965 Cr3Si(A15) "Cr3Si, A15" K 14 1965 "AZV.AKAD.NAUK SSSR,1(1965)354"
101085 10 Cr1Si2 Cr1Si2 Cr 1 Si 2 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
101086 10 Cr0.6Si0.4 Cr0.6Si0.4 Cr 0.6 Si 0.4 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
101087 945 Cr1Si1 Cr1Si1 Cr 1 Si 1 1971 Cr3Si(A15) "Cr3Si, A15" K 0.015 1971 "J.PHYS.CHEM.SOLIDS,32(1971)459"
101088 707 Cr3Si1 Cr3Si1 Cr 3 Si 1 1969 Cr3Si(A15) "Cr3Si, A15" K 0.015 1969 "LOW TEMP.PHYS.,1(1969)539"
101089 1987 broad transition Cr0.03Sc0.97 Cr0.03Sc0.97 Cr 0.03 Sc 0.97 1963 K 3.1 3.1 1963 "BULL.AMER.PHYS.SOC.II,8(1963)294"
101090 11 Cr1Sb2 Cr1Sb2 Cr 1 Sb 2 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
101091 37 Cr1Sb1 Cr1Sb1 Cr 1 Sb 1 1953 Fe3Zn10 "Fe3Zn10, D8[1]" K 1 Transition temperatures of superconductors 1953 "Phys.Rev., 92(1953)874"
101092 224 Cr0.9Ru0.1 Cr0.9Ru0.1 Cr 0.9 Ru 0.1 1962 cubic K 0.3 SUPERCONDUCTIVITY OF CHROMIUM ALLOYS 1962 "PHYS.REV.,128(1962)588"
101093 1532 Cs0.3Mo1S2 Cs0.3Mo1S2 Cs 0.3 Mo 1 S 2 1974 hexagonal K 6.8 6.8 1974 "PHYS.REV.LETT.,32(1974)712"
101094 781 P=125 kbar Cs1 Cs1 Cs 1 1970 K 1970 "PHYS.REV.LETT.,24(1970)812"
101095 494 Cs1 Cs1 Cs 1 1965 W "W, A2" K 0.011 SUPERCONDUCTIVITY GRAPHITIC COMPOUNDS 1965 "PHYS.REV.LETT.,14(1965)225"
101096 RMP0350001 Cr2Zr1 Cr2Zr1 Cr 2 Zr 1 1963 MgZn2(Laves) "MgZn2, C14" K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101097 1586 Cr2Zr1 Cr2Zr1 Cr 2 Zr 1 1974 MgCu2(Laves) "MgCu2, C15" K 0.025 1974 "PHYS.LETT.A,50(1974)159"
101098 1979 Cr0.099V0.901 Cr0.099V0.901 Cr 0.099 V 0.901 1973 K 3.3 3.3 1973 "DOK.AKAD.NAUK.BELORUSS,17(1973)497"
101099 788 Cr0.1V0.9 Cr0.1V0.9 Cr 0.1 V 0.9 1969 K 3.21 3.21 1969 "PHYS.REV.,178(1969)702"
101100 700 Cr0.017U0.983 Cr0.017U0.983 Cr 0.017 U 0.983 1966 K 0.75 0.75 1966 "SCIENCE,151(1966)985"
101101 21 Cr0.3U0.7 Cr0.3U0.7 Cr 0.3 U 0.7 1958 K 1.08 1958 "J.Phys.Chem.Solids, 7(1958)259"
101102 21 Cr0.6U0.4 Cr0.6U0.4 Cr 0.6 U 0.4 1958 K 1.08 1958 "J.Phys.Chem.Solids, 7(1958)259"
101103 584 Cr0.1Ti0.3V6 Cr0.1Ti0.3V0.6 Cr 0.1 Ti 0.3 V 0.6 1967 K 5.6 5.6 PARAMAGNETIC SUPERCONDUCTIVITY IN EXTREME TYPE-II SUPERCONDUCTORS 1967 "PHYS.REV.,158(1967)356"
101104 477 Cr0.011Ti0.967V0.022 Cr0.011Ti0.967V0.022 Cr 0.011 Ti 0.967 V 0.022 1965 K 3.6 3.6 1965 LT-9(1965) 482-486
101105 1604 Cu1.64Mg1Zn0.36 Cu1.64Mg1Zn0.36 Cu 1.64 Mg 1 Zn 0.36 1974 K 0.03 1974 "PHYSICA SCRIPTA,9(1974)353"
101106 1604 Cu0.4Mg0.3Si0.3 Cu0.4Mg0.3Si0.3 Cu 0.4 Mg 0.3 Si 0.3 1974 K 0.03 1974 "PHYSICA SCRIPTA,9(1974)353"
101107 11 Cu1Mg1Sb1 Cu1Mg1Sb1 Cu 1 Mg 1 Sb 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
101108 37 Cu2Mg1 Cu2Mg1 Cu 2 Mg 1 1953 MgZn2(Laves) "MgZn2, C14" K 1 Transition temperatures of superconductors 1953 "Phys.Rev., 92(1953)874"
101109 1908 liquid quench Cu0.3La0.7 Cu0.3La0.7 Cu 0.3 La 0.7 1975 K 3.5 3.5 1975 "PHYS.REV.B,11(1975)150"
101110 658 Cu1La1 Cu1La1 Cu 1 La 1 1967 K 5.85 5.85 K/GPa 1.1 Superconductivity of lanthanum and lanthanum compounds at zero and high pressure 1967 "J.PHYS.CHEM.SOLIDS,28(1967)569"
101111 1374 Cu4K1S3 Cu4K1S3 Cu 4 K 1 S 3 1952 tetragonal K 1.4 1.4 1952 "Z.ANORG.ALLG.CHEM.,269(1952)141"
101112 1179 deposited at 4 K. Cu0.5Ge0.5 Cu0.5Ge0.5 Cu 0.5 Ge 0.5 1971 K 3.3 3.3 1971 "LT-12, Tokyo (1971) 339"
101113 533 Cu3Ga1 Cu3Ga1 Cu 3 Ga 1 1965 K 1.4 1965 "ZH.EKSP.TEOR.FIZ.,49(1965)159"
101114 RMP0350001 Cu1Ga2 Cu1Ga2 Cu 1 Ga 2 1963 tetragonal K 1.27 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101115 1526 Cu1 Cu1 Cu 1 1973 Cu "Cu, A1" K 0.02 1973 "J.VAC.SCI.TECH.,10(1973)611"
101116 500 Cs0.32O3W1 Cs0.32O3W1 Cs 0.32 O 3 W 1 1965 A 7.4 7.6 hexagonal K 1.12 1.12 Superconductivity of the alkali tungsten bronzes 1965 "PHYS.LETT.,15(1965)108"
101117 1218 deposited at 2 K. Cu0.1Pb0.9 Cu0.1Pb0.9 Cu 0.1 Pb 0.9 1970 K 6.5 6.5 1970 "SOLID STATE COMMUN.,8(1970)1085"
101118 111 eutectec Cu1Pb1 Cu1Pb1 Cu 1 Pb 1 1930 K 2.25 1930 "ROY.SOC.CAN.TRANS.,24(1930)53"
101119 11 Cu1P1 Cu1P1 Cu 1 P 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
101120 RMP0350001 Cu0.287O0.14Ti0.573 Cu0.287O0.14Ti0.573 Cu 0.287 O 0.14 Ti 0.573 1963 Fe3W3C "Fe3W3C, E9[3]" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101121 11 Cu2O1 Cu2O1 Cu 2 O 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
101122 11 Cu1O1 Cu1O1 Cu 1 O 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
101123 1374 Cu3Na2S3 Cu3Na2S3 Cu 3 Na 2 S 3 1952 K 0.3 0.3 1952 "Z.ANORG.ALLG.CHEM.,269(1952)141"
101124 558 Cu3N1 Cu3N1 Cu 3 N 1 1966 K 1.38 1966 "INSTITUTE METALLOFIZIKI AN U.S.S.R.KIEV,(1966-YEAR 1966"
101125 1831 Cu1Mo4S5 Cu1Mo4S5 Cu 1 Mo 4 S 5 1974 K 11 11 1974 "J.LESS-COMMON METALS,34(1974)125"
101126 614 P=0-18 kbar Cu1Mo3S4 Cu1Mo3S4 Cu 1 Mo 3 S 4 1975 K 11.8 11.8 1975 "MAT.RES.BULL.,10(1975)297"
101127 1725 Cu1Mo3S4 Cu1Mo3S4 Cu 1 Mo 3 S 4 1974 K 10.8 10.8 1974 "ZH.ETF PIS.RED,20(1974)59"
101128 1664 Cu1.5Mo45S6 Cu1.5Mo4.5S6 Cu 1.5 Mo 4.5 S 6 1974 rhombohedral K 10.9 10.9 1974 "J.PHYS.C:SOLID STATE PHYS.,7(1974)L13"
101129 1665 Cu0.2S2Zn0.8 Cu0.2S2Zn0.8 Cu 0.2 S 2 Zn 0.8 1970 FeS2(pyrite) "FeS2(pyrite), C2" K 1.3 1970 "J.SOLID STATE CHEM.,1(1970)526"
101130 1665 Cu0.6S2Zn0.4 Cu0.6S2Zn0.4 Cu 0.6 S 2 Zn 0.4 1970 FeS2(pyrite) "FeS2(pyrite), C2" K 1.3 1970 "J.SOLID STATE CHEM.,1(1970)526"
101131 984 Cu1S4V2 Cu1S4V2 Cu 1 S 4 V 2 1967 Al2MgO4 "Al2MgO4, H1[1]" K 4.45 4.45 Superconductivity in sulpho- and selenospinels 1967 PHYS.LETT.A25(1967)238
101132 984 Cu1S4Ti2 Cu1S4Ti2 Cu 1 S 4 Ti 2 1967 Al2MgO4 "Al2MgO4, H1[1]" K 0.05 Superconductivity in sulpho- and selenospinels 1967 PHYS.LETT.A25(1967)238
101133 643 Cu1S1Se1 Cu1S1Se1 Cu 1 S 1 Se 1 1966 FeS2(marcasite) "FeS2, C18" K 1.5 1.5 1966 "SOLID STATE COMMUN.,4(1966)533"
101134 77 Cu1.8S1 Cu1.8S1 Cu 1.8 S 1 1950 K 1.3 1950 "Z.Phys., 128(1950)324"
101135 1354 P=0-10 kbar Cu1S1 Cu1S1 Cu 1 S 1 1970 CuS "CuS, B18" K 1.65 1.65 1970 "J.PHYS.SOC.JAPAN,28(1970)369"
101136 1130 Cu1S2 Cu1S2 Cu 1 S 2 1967 FeS2(pyrite) "FeS2(pyrite), C2" K 1.56 1.56 1967 "J.CHEM.PHYS.,47(1967)1769"
101137 1060 Cu0.05Rh0.04Ti0.91 Cu0.05Rh0.04Ti0.91 Cu 0.05 Rh 0.04 Ti 0.91 1964 K 2.5 2.5 1964 "Z.PHYS.,178(1964)216"
101138 1760 Cu1Rh1.95Se4Sn0.05 Cu1Rh1.95Se4Sn0.05 Cu 1 Rh 1.95 Se 4 Sn 0.05 1974 Al2MgO4 "Al2MgO4, H1[1]" K 2.7 2.7 1974 "J.PHYS.C:SOLID STATE PHYS.,7(1974)1387"
101139 1760 Cu1Rh2Se4 Cu1Rh2Se4 Cu 1 Rh 2 Se 4 1974 Al2MgO4 "Al2MgO4, H1[1]" K 3.5 3.5 1974 "J.PHYS.C:SOLID STATE PHYS.,7(1974)1387"
101140 1898 Cu1Rh2S4 Cu1Rh2S4 Cu 1 Rh 2 S 4 1975 Al2MgO4 "Al2MgO4, H1[1]" K 4.8 4.8 1975 "SOLID STATE COMMUN.,16(1975)139"
101141 1665 Cu0.95Se2Zn0.05 Cu0.95Se2Zn0.05 Cu 0.95 Se 2 Zn 0.05 1970 FeS2(pyrite) "FeS2(pyrite), C2" K 2.45 2.45 1970 "J.SOLID STATE CHEM.,1(1970)526"
101142 643 Cu1Se1Te1 Cu1Se1Te1 Cu 1 Se 1 Te 1 1966 FeS2(marcasite) "FeS2, C18" K 2 2 1966 "SOLID STATE COMMUN.,4(1966)533"
101143 1584 Cu1Se2 Cu1Se2 Cu 1 Se 2 1968 FeS2(marcasite) "FeS2, C18" K 2.43 2.43 1968 "STRUCTURE AND BONDING,4(1968)83-229"
101144 11 Cu1Se1 Cu1Se1 Cu 1 Se 1 1952 CuS "CuS, B18" K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
101145 2 Cu1Sb1 Cu1Sb1 Cu 1 Sb 1 1948 K 1.8 1948 "Zh.Eksp.Teor.Fiz., 18(1948)101"
101146 769 Cu0.81Sb0.19 Cu0.81Sb0.19 Cu 0.81 Sb 0.19 1968 hexagonal K 0.07 0.07 1968 "PHYS.LETT.A,28(1968)67"
101147 769 Cu0.786Sb0.214 Cu0.786Sb0.214 Cu 0.786 Sb 0.214 1968 hexagonal K 0.047 0.047 1968 "PHYS.LETT.A,28(1968)67"
101148 769 Cu0.844Sb0.156 Cu0.844Sb0.156 Cu 0.844 Sb 0.156 1968 Mg "Mg, A3" K 0.067 0.067 1968 "PHYS.LETT.A,28(1968)67"
101149 1617 Cu0.845Sb0.155 Cu0.845Sb0.155 Cu 0.845 Sb 0.155 1970 BiF3 "BiF3, D0[3]" K 0.184 0.184 1970 "PHYS.REV.B,1(1970)3002"
101150 1589 Cu2Sb1 Cu2Sb1 Cu 2 Sb 1 1968 Cu2Sb "Cu2Sb, C38" K 0.085 0.085 1968 "STRUCTUER AND BONDING,4(1968)83-229"
101151 1589 Cu3Sb1 Cu3Sb1 Cu 3 Sb 1 1968 orthorhombic K 0.041 0.041 1968 "STRUCTUER AND BONDING,4(1968)83-229"
101152 1589 Cu3Sb1 Cu3Sb1 Cu 3 Sb 1 1968 cubic K 1.8 1.8 1968 "STRUCTUER AND BONDING,4(1968)83-229"
101153 1744 deposited at 4.2 K. Cu0.14Sn0.86 Cu0.14Sn0.86 Cu 0.14 Sn 0.86 1969 K 6.62 6.62 1969 "FIZ.METAL.METALLOVED,28(1969)1111"
101154 1218 Cu0.1Sn0.9 Cu0.1Sn0.9 Cu 0.1 Sn 0.9 1970 K 6.8 6.8 1970 "SOLID STATE COMMUN.,8(1970)1085"
101155 85 Cu3Sn1 Cu3Sn1 Cu 3 Sn 1 1932 K 1.31 From Roberts' Table 1932 "Z.Elektrochem., 38(1932)312"
101156 71 Cu0.8Sn0.2 Cu0.8Sn0.2 Cu 0.8 Sn 0.2 1930 K 1.5 1930 "Proc.Acad.Sci.Amsterdam, 33(1930)258"
101157 84 Cu0.94Sn0.06 Cu0.94Sn0.06 Cu 0.94 Sn 0.06 1933 K 1.26 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
101158 11 Cu1Si1 Cu1Si1 Cu 1 Si 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
101159 95 Cu0.25Si0.75 Cu0.25Si0.75 Cu 0.25 Si 0.75 1955 K 1.28 From Roberts' Table 1955 "Naturwiss, 42(1955)451"
101160 84 Cu3Si1 Cu3Si1 Cu 3 Si 1 1933 K 1.28 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
101161 84 Cu0.91Si0.09 Cu0.91Si0.09 Cu 0.91 Si 0.09 1933 K 1.26 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
101162 1617 Cu0.86Si0.14 Cu0.86Si0.14 Cu 0.86 Si 0.14 1970 hexagonal K 0.058 0.058 1970 "PHYS.REV.B,1(1970)3002"
101163 1665 Cu0.1Se2Zn0.9 Cu0.1Se2Zn0.9 Cu 0.1 Se 2 Zn 0.9 1970 FeS2(pyrite) "FeS2(pyrite), C2" K 1.3 1970 "J.SOLID STATE CHEM.,1(1970)526"
101164 1665 Cu0.6Se2Zn0.4 Cu0.6Se2Zn0.4 Cu 0.6 Se 2 Zn 0.4 1970 FeS2(pyrite) "FeS2(pyrite), C2" K 1.3 1970 "J.SOLID STATE CHEM.,1(1970)526"
101165 110 D0.11Nb1D0.13Nb1 D0.11Nb1D0.13Nb1 D 0.11 Nb 1 D 0.13 Nb 1 1957 K 9.12 9.12 1957 "Z.NATURFORSCH A,12(1957)247"
101166 190 Hc2(8.2K)=0.0835T. Hc2(0) is estimated using two fluid model by Y.Asada D0.018Nb0.982 D0.018Nb0.982 D 0.018 Nb 0.982 1963 K 9.23 9.23 T 0.396 EFFECT OF DISSOLVED GASES ON SOME SUPERCONDUCTING PROPERTIES OF NIOBIUM 1963 "PHYS.REV.,132(1963)107"
101167 84 Cu1Zn3 Cu1Zn3 Cu 1 Zn 3 1933 K 1.28 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
101168 1009 Cu1Zn1 Cu1Zn1 Cu 1 Zn 1 K 1.3 "From Roberts' Table, unpublished results" Personal communication
101169 1617 Cu0.67Zn0.33 Cu0.67Zn0.33 Cu 0.67 Zn 0.33 1970 Cu "Cu, A1" K 0.014 1970 "PHYS.REV.B,1(1970)3002"
101170 658 Cu1Y1 Cu1Y1 Cu 1 Y 1 1967 CsCl "CsCl, B2" K 0.33 Superconductivity of lanthanum and lanthanum compounds at zero and high pressure 1967 "J.PHYS.CHEM.SOLIDS,28(1967)569"
101171 RMP0350001 Cu5U1 Cu5U1 Cu 5 U 1 1963 MgCu2(Laves) "MgCu2, C15" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101172 RMP0350001 Cu1Ti1 Cu1Ti1 Cu 1 Ti 1 1963 gamma-CuTi "gamma-CuTi, B11" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101173 1377 Cu1Th2 Cu1Th2 Cu 1 Th 2 1972 CuAl2 "CuAl2, C16" K 3.44 3.44 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
101174 1584 high temperature phase. Cu1Te1 Cu1Te1 Cu 1 Te 1 1968 K 0.3 1968 "STRUCTURE AND BONDING,4(1968)83-229"
101175 643 Cu1Te2 Cu1Te2 Cu 1 Te 2 1966 FeS2(marcasite) "FeS2, C18" K 1.3 1.3 1966 "SOLID STATE COMMUN.,4(1966)533"
101176 1584 Cu4Te3 Cu4Te3 Cu 4 Te 3 1968 K 0.3 1968 "STRUCTURE AND BONDING,4(1968)83-229"
101177 68 Fe0.008La0.992 Fe0.008La0.992 Fe 0.008 La 0.992 1948 K 4.85 4.85 1948 "J.Chem.Phys., 16(1948)838"
101178 1624 Fe = 330 ppm Ir1 Ir1 Ir 1 1971 K 0.051 0.051 1971 "PHYS.REV.B,3(1971)91"
101179 RMP0350001 Fe1Hf2 Fe1Hf2 Fe 1 Hf 2 1963 Fe3W3C "Fe3W3C, E9[3]" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101180 1377 Fe1Ge2 Fe1Ge2 Fe 1 Ge 2 1972 CuAl2 "CuAl2, C16" K 0.07 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
101181 272 Fe1 Fe1 Fe 1 1933 W "W, A2" K 0.75 1933 "COMMUN.KAMERLINGH ONNES LAB.,21(1933)230A"
101182 1324 Tm=0.66 K Eu0.012La0.988 Eu0.012La0.988 Eu 0.012 La 0.988 1973 K 2.15 2.15 1973 "PHYS.REV.LETT.,30(1973)1132"
101183 339 "Eu-wire. R(min) at 145 K and R(peak) at 90K, maybe magnetic ordering." Eu1 Eu1 Eu 1 1960 W "W, A2" K 1.3 ELECTRICAL RESISTIVITY OF EUROPIUM AND YTTERBIUM 1960 "PHYS.REV.,1171960)953"
101184 1389 Er0.1Th0.9 Er0.1Th0.9 Er 0.1 Th 0.9 1969 K 0.015 1969 "HELV.PHYS.ACTA,42(1969)590"
101185 115 Er0.01La0.99 Er0.01La0.99 Er 0.01 La 0.99 1958 K 5.3 5.3 SPIN EXCHANGE IN SUPERCONDUCTORS 1958 "PHYS.REV.LETT.,1(1958)92,152E"
101186 245 Er1 Er1 Er 1 1946 Mg "Mg, A3" K 0.8 1946 "NEUE PHYS.BLATTER,8(1946)207"
101187 115 Dy0.01La0.99 Dy0.01La0.99 Dy 0.01 La 0.99 1958 K 3.8 3.8 SPIN EXCHANGE IN SUPERCONDUCTORS 1958 "PHYS.REV.LETT.,1(1958)92,152E"
101188 1187 D3.61Th1 D3.61Th1 D 3.61 Th 1 1966 K 8.35 8.35 1966 Physica 32(1966)1253
101189 601 Fe2P1 Fe2P1 Fe 2 P 1 1965 Fe2P "Fe2P, C22" K 0.97 Superconducting phosphides of the transition metals 1965 "J.PHYS.CHEM.SOL.,26(1965)2037"
101190 920 Fe1Np6 Fe1Np6 Fe 1 Np 6 1968 K 0.5 1968 "PHYS.REV.,168(1968)464"
101191 32 Fe0.05Ni0.05Zr0.9 Fe0.05Ni0.05Zr0.9 Fe 0.05 Ni 0.05 Zr 0.9 1955 K 3.9 3.9 Superconductivity of zirconium alloys 1955 "Phys.Rev., 100(1955)626"
101192 920 Fe0.75Ni0.25U6 Fe0.75Ni0.25U6 Fe 0.75 Ni 0.25 U 6 1968 K 1.4 1.4 1968 "PHYS.REV.,168(1968)464"
101193 920 Fe0.25Ni0.75U6 Fe0.25Ni0.75U6 Fe 0.25 Ni 0.75 U 6 1968 K 3 3 1968 "PHYS.REV.,168(1968)464"
101194 1866 Fe0.5Ni0.5U6 Fe0.5Ni0.5U6 Fe 0.5 Ni 0.5 U 6 1975 U6Mn "MnU6, D2[c]" K 2.1 2.1 "Lattice parameters and superconductivity of the compounds U6Mn, U6Fe, U6Co and U6Ni and alloys between them" 1975 "J.Phys.Chem.Solids, 36(1975)123"
101195 1800 Fe0.03Nb0.25Ti0.72 Fe0.03Nb0.25Ti0.72 Fe 0.03 Nb 0.25 Ti 0.72 1968 K 8.5 8.5 1968 "Z.METALLKDE.,59(1968)69"
101196 1800 Fe0.04Nb0.1Ti0.86 Fe0.04Nb0.1Ti0.86 Fe 0.04 Nb 0.1 Ti 0.86 1968 K 7.4 7.4 1968 "Z.METALLKDE.,59(1968)69"
101197 1800 Fe0.08Nb0.05Ti0.87 Fe0.08Nb0.05Ti0.87 Fe 0.08 Nb 0.05 Ti 0.87 1968 K 4.7 4.7 1968 "Z.METALLKDE.,59(1968)69"
101198 1866 Fe0.5Mn0.5U6 Fe0.5Mn0.5U6 Fe 0.5 Mn 0.5 U 6 1975 U6Mn "MnU6, D2[c]" K 2.8 2.8 "Lattice parameters and superconductivity of the compounds U6Mn, U6Fe, U6Co and U6Ni and alloys between them" 1975 "J.Phys.Chem.Solids, 36(1975)123"
101199 563 Fe0.01La0.001Rh0.99 Fe0.01La0.001Rh0.99 Fe 0.01 La 0.001 Rh 0.99 1964 K 0.75 0.75 1964 "J.APPL.PHYS.,35(1964)3487"
101200 563 Fe0.01La0.01Rh0.98 Fe0.01La0.01Rh0.98 Fe 0.01 La 0.01 Rh 0.98 1964 K 0.75 0.75 1964 "J.APPL.PHYS.,35(1964)3487"
101201 1377 Fe1Sn2 Fe1Sn2 Fe 1 Sn 2 1972 CuAl2 "CuAl2, C16" K 0.07 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
101202 84 Fe0.95Sn0.05 Fe0.95Sn0.05 Fe 0.95 Sn 0.05 1933 K 1.26 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
101203 RMP0350001 Fe5Si2V3 Fe5Si2V3 Fe 5 Si 2 V 3 1963 alpha-Mn "alpha-Mn, A12" K 0.37 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101204 11 Fe1Si1 Fe1Si1 Fe 1 Si 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
101205 744 Fe0.02Sc0.05Zr0.93 Fe0.02Sc0.05Zr0.93 Fe 0.02 Sc 0.05 Zr 0.93 1966 K 0.35 0.35 Superconductivity and electronic specific heat in the scandium-zirconium system 1966 "PHYS.REV.,149(1966)409"
101206 2 Fe1Sb3 Fe1Sb3 Fe 1 Sb 3 1948 K 1.45 1948 "Zh.Eksp.Teor.Fiz., 18(1948)101"
101207 427 Fe1Sb2 Fe1Sb2 Fe 1 Sb 2 1963 orthorhombic K 1.45 Superconductivity of some binary and ternary alloys 1963 JETP 16(1963)1493
101208 22 Fe1Sb1 Fe1Sb1 Fe 1 Sb 1 1958 K 1.8 Superconductivity of Lanthanum and Some Lanthanum Alloys 1958 "Phys.Rev., 109(1958)243"
101209 99 Fe1S1 Fe1S1 Fe 1 S 1 1930 K 1.9 1930 "Phil.Mag., 10(1930)500"
101210 1060 Fe0.05Rh0.04Ti0.91 Fe0.05Rh0.04Ti0.91 Fe 0.05 Rh 0.04 Ti 0.91 1964 K 3.9 3.9 1964 "Z.PHYS.,178(1964)216"
101211 712 Fe0.02Re0.98 Fe0.02Re0.98 Fe 0.02 Re 0.98 K 1.6 1.6 "From Roberts' Table, unpublished work, Univ. of Geneva" Unpublished results
101212 601 Fe1P1 Fe1P1 Fe 1 P 1 1965 MnP "MnP, B31" K 0.97 Superconducting phosphides of the transition metals 1965 "J.PHYS.CHEM.SOL.,26(1965)2037"
101213 1533 "amorphous films. gap by tunneling using Al-I-Ga films. Annealing at 15 K produced beta-Ga, which shows Tc = 6.2 K and (2d/kTc) = 3.9." Ga1 Ga1 Ga 1 4 1968 "amorphous, beta phase" K 8.45 8.45 meV 1.65 4.5 1 deposited on substrate at 4 K. 1968 "PHYS.REV.LETT.,20(1968)1496"
101214 1048 delta-phase Ga1 Ga1 Ga 1 1969 K 7.85 7.85 1969 "C.R.ACAD.SCI.B,268(1969)1314"
101215 1047 gamma phase Ga1 Ga1 Ga 1 1967 K 7.6 7.6 1967 "C.R.ACAD.SCI.B,(1967)264,1592"
101216 1595 beta phase Ga1 Ga1 Ga 1 1974 K 3.07 3.07 1974 "PHYS.REV.B,10(1974)4572"
101217 803 TBL values of Hc2 and (dHc2/dT) are Hc (type-I SC). Ga1 Ga1 Ga 1 1966 K 1.083 1.083 Oe 59.2 Oe/K 93.8 MHC101217 Superconducting transition and critical field of pure gallium single crystals 1966 MIT "Phys.Rev., 150(1966)315"
101218 32 Fe0.1Zr0.9 Fe0.1Zr0.9 Fe 0.1 Zr 0.9 1955 K 1 1 Superconductivity of zirconium alloys 1955 "Phys.Rev., 100(1955)626"
101219 1377 Fe1Zr2 Fe1Zr2 Fe 1 Zr 2 1972 CuAl2 "CuAl2, C16" K 0.17 0.17 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
101220 21 Fe1U6 Fe1U6 Fe 1 U 6 1958 U6Mn "MnU6, D2[c]" K 3.9 3.9 1958 "J.Phys.Chem.Solids, 7(1958)259"
101221 21 Fe2U1 Fe2U1 Fe 2 U 1 1958 MgCu2(Laves) "MgCu2, C15" K 1.06 1958 "J.Phys.Chem.Solids, 7(1958)259"
101222 RMP0350001 Fe1Ti1 Fe1Ti1 Fe 1 Ti 1 1963 W "W, A2" K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101223 173 Fe3Th7 Fe3Th7 Fe 3 Th 7 1961 Fe3Th7 "Fe3Th7, D10[2]" K 1.86 1.86 1961 "J.PHYS.CHEM.SOLIDS,19(1961)130"
101224 1626 Fe2Te3 Fe2Te3 Fe 2 Te 3 1974 K 1.8 1974 "CAN.J.PHYS.,52(1974)1800"
101225 1340 Ga0.03Mg0.97 Ga0.03Mg0.97 Ga 0.03 Mg 0.97 1972 K 0.013 1972 "PHYS.REV.B,6(1972)103"
101226 659 Ga1Lu3 Ga1Lu3 Ga 1 Lu 3 K 1.1 "From Roberts' Table, Private communication, quoted in J.Phys.Chem.Solids 28(1967)569" Private communication
101227 715 Ga3Lu1 Ga3Lu1 Ga 3 Lu 1 1970 AuCu3 "AuCu3, L1[2]" K 2.3 2.3 1970 "J.PHYS.CHEM.SOLIDS,31(1970)2653"
101228 658 Ga1La3 Ga1La3 Ga 1 La 3 1967 K 5.84 5.84 K/GPa 1.12 Superconductivity of lanthanum and lanthanum compounds at zero and high pressure 1967 "J.PHYS.CHEM.SOLIDS,28(1967)569"
101229 711 Ga1La1 Ga1La1 Ga 1 La 1 K 1.15 "From Roberts' Table, unpublished results, Univ. of Geneva" Unpublished results
101230 863 Ga2La1 Ga2La1 Ga 2 La 1 1969 K 1.4 1969 "J.APPL.PHYS.,40(1969)3161"
101231 1073 Ga0.8In0.2V3 Ga0.8In0.2V3 Ga 0.8 In 0.2 V 3 1969 Cr3Si(A15) "Cr3Si, A15" K 12.7 12.7 1969 "Z.PHYS.,218(1969)52"
101232 1564 Ga0.3In0.7La3 Ga0.3In0.7La3 Ga 0.3 In 0.7 La 3 1973 AuCu3 "AuCu3, L1[2]" K 9.25 9.25 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
101233 1377 Ga1Hf2 Ga1Hf2 Ga 1 Hf 2 1972 CuAl2 "CuAl2, C16" K 0.21 0.21 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
101234 1073 Ga0.8Ge0.2V3 Ga0.8Ge0.2V3 Ga 0.8 Ge 0.2 V 3 1969 Cr3Si(A15) "Cr3Si, A15" K 13.6 13.6 1969 "Z.PHYS.,218(1969)52"
101235 1784 rapid quench Ga0.1Ge0.9 Ga0.1Ge0.9 Ga 0.1 Ge 0.9 1974 K 5.3 5.3 1974 "PHYS.REV.B,9(1974)4742"
101236 1545 deposited at 4-5K d = 150-3000 A Ga1 Ga1 Ga 1 1971 K 8.5 8.5 1971 "PHYSICA,55(1971)250"
101237 1599 vapor deposition Ga0.4Nb0.6 Ga0.4Nb0.6 Ga 0.4 Nb 0.6 1974 Cr3Si(A15) "Cr3Si, A15" K 20.3 20.3 1974 "PHYS.LETT.A,49(1974)407"
101238 1190 Ga0.37Nb0.63 Ga0.37Nb0.63 Ga 0.37 Nb 0.63 1971 tetragonal K 6 1971 "SOLID STATE COMMUN.,9(1971)1769"
101239 1446 Ga1Nb3 Ga1Nb3 Ga 1 Nb 3 1972 K 14.5 14.5 1972 "J.LOW TEMP.PHYS.,6(1972)171"
101240 1970 Ga1Nb3 Ga1Nb3 Ga 1 Nb 3 1975 Cr3Si(A15) "Cr3Si, A15" K 20.3 20.3 1975 "J.LOW TEMP.PHYS.,18(1975)147"
101241 927 Ga3Nb5 Ga3Nb5 Ga 3 Nb 5 1969 K 1.35 1.35 1969 "PHYS.LETT.A,29(1969)109"
101242 433 brown Ga1N1 Ga1N1 Ga 1 N 1 1963 K 1.38 1963 "ZH.EKSP.TEOR.FIZ.,44(1963)1413"
101243 433 gray - black Ga1N1 Ga1N1 Ga 1 N 1 1963 ZnS(wurtzite) "ZnS(wurtzite), B4" K 5.85 5.85 1963 "ZH.EKSP.TEOR.FIZ.,44(1963)1413"
101244 1725 Ga0.5Mo5S6Sn1 Ga0.5Mo5S6Sn1 Ga 0.5 Mo 5 S 6 Sn 1 1974 K 13.3 13.3 1974 "ZH.ETF PIS.RED,20(1974)59"
101245 RMP0350001 Ga1Mo3 Ga1Mo3 Ga 1 Mo 3 1963 Cr3Si(A15) "Cr3Si, A15" K 0.76 0.76 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101246 117 Ga2Mo1 Ga2Mo1 Ga 2 Mo 1 1957 K 9.5 9.5 1957 "PROG.IN LOW TEMP.PHY.,11(1957)138"
101247 1295 Ga4Mo1 Ga4Mo1 Ga 4 Mo 1 1972 K 9.8 9.8 1972 "HELVETIA PHYS.ACTA,45(1972)331"
101248 1977 Ga5Mn1.85 Ga5Mn1.85 Ga 5 Mn 1.85 1973 tetragonal K 1.2 1973 "J.APPL.CRYST.,6(1973)240"
101249 1955 Ga0.5Si0.5V3 Ga0.5Si0.5V3 Ga 0.5 Si 0.5 V 3 1974 K 18.2 18.2 From Roberts' Table. 1974 "LT-13, P=475"
101250 1955 Ga0.25Si0.75V3 Ga0.25Si0.75V3 Ga 0.25 Si 0.75 V 3 1974 K 18.6 18.6 From Roberts' Table. 1974 "LT-13, P=475"
101251 659 Ga1Sc3 Ga1Sc3 Ga 1 Sc 3 K 3.3 "From Roberts' Table, Private communication, quoted in J.Phys.Chem.Solids 28(1967)569" Private communication
101252 695 Ga1Sb1 Ga1Sb1 Ga 1 Sb 1 1965 K 5.9 5.9 1965 "SCIENCE,147(1965)1441"
101253 427 Ga1Pt1 Ga1Pt1 Ga 1 Pt 1 1963 FeSi "FeSi, B20" K 1.74 0.34 1.74 Superconductivity of some binary and ternary alloys 1963 JETP 16(1963)1493
101254 486 Ga2Pt1 Ga2Pt1 Ga 2 Pt 1 1965 K 1.9 1.9 1965 "J.PHYS.CHEM.SOLIDS,26(1965)665"
101255 427 Ga7Pt3 Ga7Pt3 Ga 7 Pt 3 1963 CaF2 "CaF2, C1" K 2.9 1.1 2.9 Superconductivity of some binary and ternary alloys 1963 JETP 16(1963)1493
101256 1491 quench. condensed at 4 K Ga0.1Pb0.9 Ga0.1Pb0.9 Ga 0.1 Pb 0.9 1973 K 6.33 6.33 1973 "J.LOW TEMP.PHYS.,13(1973)1"
101257 1073 Ga1Nb2.4V0.6 Ga1Nb2.4V0.6 Ga 1 Nb 2.4 V 0.6 1969 Cr3Si(A15) "Cr3Si, A15" K 12.5 12.5 1969 "Z.PHYS.,218(1969)52"
101258 1982 Ga0.15Nb3Sn0.7Tl0.15 Ga0.15Nb3Sn0.7Tl0.15 Ga 0.15 Nb 3 Sn 0.7 Tl 0.15 1964 K 18.14 18.14 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
101259 1982 Ga0.15Nb3Sb0.15Sn0.7 Ga0.15Nb3Sb0.15Sn0.7 Ga 0.15 Nb 3 Sb 0.15 Sn 0.7 1964 K 16.89 16.89 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
101260 1982 Ga0.15Nb3Pb0.15Sn0.7 Ga0.15Nb3Pb0.15Sn0.7 Ga 0.15 Nb 3 Pb 0.15 Sn 0.7 1964 K 18.11 18.11 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
101261 958 Ga0.45V0.55 Ga0.45V0.55 Ga 0.45 V 0.55 1965 hexagonal K 2.1 1965 "J.LESS-COMMON METALS,9(1965)416"
101262 1675 Ga0.71V0.29 Ga0.71V0.29 Ga 0.71 V 0.29 1974 K 4.2 4.2 1974 "SOLID STATE COMMUN.,15(1974)1047"
101263 416 Ga5V2 Ga5V2 Ga 5 V 2 tetragonal K 3.55 2.1 3.55 From Roberts' Table. to be published.
101264 1407 Ga1V3 Ga1V3 Ga 1 V 3 1969 Cr3Si(A15) "Cr3Si, A15" K 14.19 14.19 1969 "J.APPL.PHYS.,40(1969)2817"
101265 1343 Ga1V3 Ga1V3 Ga 1 V 3 1973 Cr3Si(A15) "Cr3Si, A15" K 15.4 15.4 1973 "J.PHYS.CHEM.SOLIDS,34(1973)1445"
101266 578 Ga1V3 Ga1V3 Ga 1 V 3 1960 Cr3Si(A15) "Cr3Si, A15" K 16.8 16.8 CORRELATIONS BETWEEN SUPERCONDUCTIVITY AND NUCLEAR MAGNETIC RESONANCE PROPERTIES 1960 "PHYS.REV.LETT.,5(1960)149"
101267 412 Ga3U1 Ga3U1 Ga 3 U 1 AuCu3 "AuCu3, L1[2]" K 1.2 "From Roberts' Table, Private communication" Private communication
101268 RMP0350001 Ga3Ti1 Ga3Ti1 Ga 3 Ti 1 1963 Al3Ti "Al3Ti, D0[22]" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101269 RMP0350001 Ga1Ti3 Ga1Ti3 Ga 1 Ti 3 1963 Ni3Sn "Ni3Sn, D0[19]" K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101270 1377 Ga1Th2 Ga1Th2 Ga 1 Th 2 1972 CuAl2 "CuAl2, C16" K 0.06 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
101271 927 Ga2Ta3 Ga2Ta3 Ga 2 Ta 3 1969 tetragonal K 0.1 1969 "PHYS.LETT.A,29(1969)109"
101272 1955 Ga1Si1V3 Ga1Si1V3 Ga 1 Si 1 V 3 1974 Cr3Si(A15) "Cr3Si, A15" K 18.6 18.6 From Roberts' Table. 1974 "LT-13, P=475"
101273 187 Gd0.09La0.91Os2 Gd0.09Ls0.91Os2 Gd 0.09 Ls 0.91 Os 2 1960 K 6 6 PROPERTIES OF SOME MAGNETIC SUPERCONDUCTORS 1960 "PHYS.REV.,119(1960)1570"
101274 328 Gd0.005La0.995 Gd0.005La0.995 Gd 0.005 La 0.995 1960 K 3.7 3.7 1960 "HELV.PHYS.ACTA,33(1960)459"
101275 115 Gd0.01La0.99 Gd0.01La0.99 Gd 0.01 La 0.99 1958 K 0.6 0.6 SPIN EXCHANGE IN SUPERCONDUCTORS 1958 "PHYS.REV.LETT.,1(1958)92,152E"
101276 711 Ga3Zr5 Ga3Zr5 Ga 3 Zr 5 A 8.02 5.678 K 3.85 3.85 "From Roberts' Table, unpublished results, Univ. of Geneva" Unpublished results
101277 1377 Ga1Zr2 Ga1Zr2 Ga 1 Zr 2 1972 CuAl2 "CuAl2, C16" K 0.38 0.38 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
101278 927 Ga2Zr3 Ga2Zr3 Ga 2 Zr 3 1969 tetragonal K 0.1 1969 "PHYS.LETT.A,29(1969)109"
101279 RMP0350001 Ga3Zr1 Ga3Zr1 Ga 3 Zr 1 1963 Al3Ti "Al3Ti, D0[22]" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101280 863 Ga2Y1 Ga2Y1 Ga 2 Y 1 1969 tetragonal K 1.68 1.68 1969 "J.APPL.PHYS.,40(1969)3161"
101281 711 Ga1Y1 Ga1Y1 Ga 1 Y 1 K 1.15 "From Roberts' Table, unpublished results, Univ. of Geneva" Unpublished results
101282 659 Ga1Y3 Ga1Y3 Ga 1 Y 3 K 1.1 "From Roberts' Table, Private communication, quoted in J.Phys.Chem.Solids 28(1967)569" Private communication
101283 460 Ga1V1 Ga1V1 Ga 1 V 1 1963 K 16.45 16.45 1963 "PHYS.LETT.,4(1963)292"
101284 310 Ga1V3 Ga1V3 Ga 1 V 3 1960 K 14.5 14.5 1960 "PHYS.REV.LETT.,5(1960)149"
101285 37 Ge1Ir1 Ge1Ir1 Ge 1 Ir 1 1953 MnP "MnP, B31" K 4.7 4.7 TRANSITION TEMPERATURES OF SUPERCONDUCTORS 1953 "PHYS.REV.,92(1953)874"
101286 491 Ge7Ir3 Ge7Ir3 Ge 7 Ir 3 1963 K 0.87 0.87 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
101287 1528 Ge0.1In0.9 Ge0.1In0.9 Ge 0.1 In 0.9 1969 K 6.2 6.2 1969 "J.VAC.SCI.TECH.,6(1969)677"
101288 1784 rapid quench Ge0.3In0.7 Ge0.3In0.7 Ge 0.3 In 0.7 1974 K 1974 "PHYS.REV.B,9(1974)4742"
101289 1377 Ge1Hf2 Ge1Hf2 Ge 1 Hf 2 1972 CuAl2 "CuAl2, C16" K 0.05 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
101290 311 Ge0.22H0.16Nb1 Ge0.22H0.16Nb1 Ge 0.22 H 0.16 Nb 1 1963 Cr3Si(A15) "Cr3Si, A15" K 4.2 1963 "METALLURGY OF ADVANCED ELECTRONICS MATE,71(1963)"
101291 303 tetragonal Ge(II) Ge1 Ge1 Ge 1 tetragonal K 0.33 From Roberts' Table. Unpublished
101292 1068 P = 115 kbar Ge1 Ge1 Ge 1 1966 K 5.35 5.35 1966 "Z.PHYS.,195(1966)215"
101293 12 Ge1 Ge1 Ge 1 1935 diamond "diamond, A4" K 0.05 1935 "Proc.Roy.Soc.(London),151(1935)A610"
101294 1123 Gd0.002Th0.998 Gd0.002Th0.998 Gd 0.002 Th 0.998 1967 K 0.714 0.714 1967 "PHYS.REV.LETT.,18(1967)899"
101295 1561 Gd0.001Th0.999 Gd0.001Th0.999 Gd 0.001 Th 0.999 1969 K 1.11 1.11 1969 "PHYS.REV.,188(1969)723"
101296 1759 Gd0.2Mo6Pb1S8 Gd0.2Mo6Pb1S8 Gd 0.2 Mo 6 Pb 1 S 8 1974 K 14.3 14.3 1974 "J.PHYS.C:SOLID STATE PHYS.,7(1974)1450"
101297 RMP0350001 Ge3Nb5 Ge3Nb5 Ge 3 Nb 5 1963 tetragonal K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101298 10 plus free metal. Ge1Nb2 Ge1Nb2 Ge 1 Nb 2 1954 K 1.9 1.9 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
101299 10 Ge2Nb3 Ge2Nb3 Ge 2 Nb 3 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
101300 1446 Ge1Nb3 Ge1Nb3 Ge 1 Nb 3 1972 Cr3Si(A15) "Cr3Si, A15" K 6.28 6.28 1972 "J.LOW TEMP.PHYS.,6(1972)171"
101301 558 Ge3N4 Ge3N4 Ge 3 N 4 1966 K 1.38 1966 "INSTITUTE METALLOFIZIKI AN U.S.S.R.KIEV,(1966-YEAR 1966"
101302 42 Ge0.41Mo0.59 Ge0.41Mo0.59 Ge 0.41 Mo 0.59 1953 K 1.2 Superconducting silicides and Germanides 1953 "Phys.Rev., 89(1953)884"
101303 10 Ge2Mo1 Ge2Mo1 Ge 2 Mo 1 1954 MoSi2 "MoSi2, C11[b]" K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
101304 1692 Ge0.23Mo0.77 Ge0.23Mo0.77 Ge 0.23 Mo 0.77 1974 K 2.16 2.16 Electronically 'atypical' a 15-type compounds based on chromium and molybdenum 1974 "Solid State Commun., 14(1974)443"
101305 1446 Ge1Mo3 Ge1Mo3 Ge 1 Mo 3 1972 Cr3Si(A15) "Cr3Si, A15" K 1.6 1.6 1972 "J.LOW TEMP.PHYS.,6(1972)171"
101306 916 Ge1.78La1 Ge1.78La1 Ge 1.78 La 1 1969 ThSi2 "ThSi2, C[c]" K 1.57 1.57 1969 "J.PHYS.SOC.JAPAN,27(1969)1463"
101307 25 Ge2La1 Ge2La1 Ge 2 La 1 1958 orthorhombic K 1.49 1.49 Superconductivity and ferromagnetism in isomorphous compounds 1958 "Phys.Rev., 112(1958)89"
101308 916 Ge2La1 Ge2La1 Ge 2 La 1 1969 ThSi2 "ThSi2, C[c]" K 2.24 2.24 1969 "J.PHYS.SOC.JAPAN,27(1969)1463"
101309 491 Ge2Pd5 Ge2Pd5 Ge 2 Pd 5 1963 K 0.35 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
101311 491 Ge1Pd2 Ge1Pd2 Ge 1 Pd 2 1963 K 0.35 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
101312 RMP0350001 Ge0Pd1 GePd1 Ge 1 Pd 1 1963 MnP "MnP, B31" K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101313 427 Ge2Pd1 Ge2Pd1 Ge 2 Pd 1 1963 K 1.47 Superconductivity of some binary and ternary alloys 1963 JETP 16(1963)1493
101314 1982 Ge0.15Nb3Sn0.85 Ge0.15Nb3Sn0.85 Ge 0.15 Nb 3 Sn 0.85 1964 K 17.8 17.8 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
101315 1982 Ge0.15Nb3Pb0.15Sn0.7 Ge0.15Nb3Pb0.15Sn0.7 Ge 0.15 Nb 3 Pb 0.15 Sn 0.7 1964 K 17.82 17.82 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
101316 498 Ge1Nb3 Ge1Nb3 Ge 1 Nb 3 1965 Cr3Si(A15) "Cr3Si, A15" K 17 17 SUPERCONDUCTIVITY OF NB3GE 1965 "PHYS.REV.,139(1965)A1501"
101317 1726 Ge1Nb3 Ge1Nb3 Ge 1 Nb 3 1974 K 22.1 22.1 1974 "ZH.ETF PIS.RED.,19(1974)510"
101318 311 Ge0.72Nb3.28 Ge0.72Nb3.28 Ge 0.72 Nb 3.28 1963 K 5.5 5.5 1963 "METALLURGY OF ADVANCED ELECTRONICS MATE,71(1963)"
101319 311 Ge0.55Nb3.45 Ge0.55Nb3.45 Ge 0.55 Nb 3.45 1963 K 4.9 4.9 1963 "METALLURGY OF ADVANCED ELECTRONICS MATE,71(1963)"
101320 311 Ge0.22Nb1 Ge0.22Nb1 Ge 0.22 Nb 1 1963 Cr3Si(A15) "Cr3Si, A15" K 5.3 5.3 1963 "METALLURGY OF ADVANCED ELECTRONICS MATE,71(1963)"
101321 10 Ge2Ta1 Ge2Ta1 Ge 2 Ta 1 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
101322 1784 Ge0.3Sn0.7 Ge0.3Sn0.7 Ge 0.3 Sn 0.7 1974 K 1974 "PHYS.REV.B,9(1974)4742"
101323 1073 Ge0.15Si0.9V3 Ge0.1Si0.9V3 Ge 0.1 Si 0.9 V 3 1969 Cr3Si(A15) "Cr3Si, A15" K 14.4 14.4 1969 "Z.PHYS.,218(1969)52"
101324 25 Ge2Sc1 Ge2Sc1 Ge 2 Sc 1 1958 K 1.3 1.3 Superconductivity and ferromagnetism in isomorphous compounds 1958 "Phys.Rev., 112(1958)89"
101325 1829 rapid quench GE0.3Sb0.7 Ge0.3Sb0.7 Ge 0.3 Sb 0.7 1974 cubic K 3.3 3.3 1974 "J.SPPL.PHYS.,45(1974)3683"
101326 1683 Ge0.5Ru0.5 Ge0.5Ru0.5 Ge 0.5 Ru 0.5 1973 K 1.1 1973 "ZH.ETF PIS'MA RED.,18(1973)94"
101327 1683 Ge0.5Rh0.5 Ge0.5Rh0.5 Ge 0.5 Rh 0.5 1973 K 1.1 1973 "ZH.ETF PIS'MA RED.,18(1973)94"
101328 141 Ge3Rh5 Ge3Rh5 Ge 3 Rh 5 1955 A 5.42 10.32 3.96 orthorhombic K 2.12 2.12 1955 "ACTA CRYST.,8(1955)15"
101329 RMP0350001 Ge1Rh1 Ge1Rh1 Ge 1 Rh 1 1963 MnP A 5.7 6.48 3.25 "MnP, B31" K 0.96 0.96 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101330 1683 deposited at 4.2 K. Ge0.5Pt0.5 Ge0.5Pt0.5 Ge 0.5 Pt 0.5 1973 K 1.4 1 1.4 1973 "ZH.ETF PIS'MA RED.,18(1973)94"
101331 RMP0350001 Ge1Pt1 Ge1Pt1 Ge 1 Pt 1 1963 MnP A 6.088 5.733 3.701 "MnP, B31" K 0.4 0.4 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101332 1683 deposited at 4.2 K. Ge0.6Pd0.4 Ge0.6Pd0.4 Ge 0.6 Pd 0.4 1973 K 3.1 3.1 1973 "ZH.ETF PIS'MA RED.,18(1973)94"
101333 719 Ge1V3 Ge1V3 Ge 1 V 3 1964 K 6.7 6.7 1964 "PHYS.REV.,134(1964)A198"
101334 1164 Ge1V3 Ge1V3 Ge 1 V 3 1971 Cr3Si(A15) "Cr3Si, A15" K 6.9 6.9 1971 "PROC.NAT.ACAD.SCI.,68(1971)56"
101335 1446 Ge1V3 Ge1V3 Ge 1 V 3 1972 Cr3Si(A15) "Cr3Si, A15" K 6.1 6.1 1972 "J.LOW TEMP.PHYS.,6(1972)171"
101336 RMP0350001 Ge3U1 Ge3U1 Ge 3 U 1 1963 AuCu3 "AuCu3, L1[2]" K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101337 989 superimposed films Ge1Tl1 Ge1Tl1 Ge 1 Tl 1 1967 K 1967 "PHYS.LETT.A,25(1967)688"
101338 1784 rapid quench Ge0.3Tl0.7 Ge0.3Tl0.7 Ge 0.3 Tl 0.7 1974 K 1974 "PHYS.REV.B,9(1974)4742"
101339 522 Ge3Ti5 Ge3Ti5 Ge 3 Ti 5 1963 Mn5Si3 "Mn5Si3, D8[8]" K 1.2 1963 "Z.METALLKDE DTSCH.,54(1963)477"
101340 10 Ge2Ti1 Ge2Ti1 Ge 2 Ti 1 1954 TiSi2 "TiSi2, C54" K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
101341 1377 Ge1Th2 Ge1Th2 Ge 1 Th 2 1972 CuAl2 "CuAl2, C16" K 0.07 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
101342 927 Ge2Th3 Ge2Th3 Ge 2 Th 3 1969 tetragonal K 0.1 1969 "PHYS.LETT.A,29(1969)109"
101343 1410 4000A Ge1Ta3 Ge1Ta3 Ge 1 Ta 3 1970 K 8 8 1970 "J.SPPL.PHYS.,41(1970)4958"
101345 410 H0.7Nb0.3 H0.7Nb0.3 H 0.7 Nb 0.3 K 0.47 From Roberts' Table. Unpublished
101346 49 H0.33Nb0.67 H0.33Nb0.67 H 0.33 Nb 0.67 1942 cubic K 7.28 7.28 1942 "Phys.Rev., 61(1942)738"
101347 1379 H1.33N0.33O3W1 H1.33N0.33O3W1 H 1.33 N 0.33 O 3 W 1 1968 hexagonal K 3.2 3.2 1968 "INORGANIC CHEM.,7(1968)1646"
101348 488 H1.96La1 H1.96La1 H 1.96 La 1 1963 K 0.33 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1375"
101349 40 H2.45La1 H2.45La1 H 2.45 La 1 1953 cubic K 1.8 Studies of compounds for superconductivity 1953 "Phys.Rev., 90(1953)115"
101350 10 Ge1Zr1 Ge1Zr1 Ge 1 Zr 1 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
101351 RMP0350001 Ge2Zr1 Ge2Zr1 Ge 2 Zr 1 1963 ZrSi2 "ZrSi2, C49" K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101352 RMP0350001 Ge3Zr5 Ge3Zr5 Ge 3 Zr 5 1963 Mn5Si3 "Mn5Si3, D8[8]" K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101353 1784 rapid quench Ge0.3Zn0.7 Ge0.3Zn0.7 Ge 0.3 Zn 0.7 1974 K 1974 "PHYS.REV.B,9(1974)4742"
101354 676 (dC/gamma*Tc) = 0.80. SUS(RT) = 3.9 E-5 emu/mol. Ge1.62Y1 Ge1.62Y1 Ge 1.62 Y 1 1966 ThSi2 "alpha-ThSi2, C[c]" K 2.4 2.4 mJ/mol.K2 4 arc-melting Anomalous specific heat of superconducting lanthanum and yttrium compounds 1966 "Phys.Lett., 20(1966)565"
101355 711 Ge1Y1 Ge1Y1 Ge 1 Y 1 K 1.15 "From Roberts' Table, unpublished results, Univ. of Geneva" Unpublished results
101356 25 Ge2Y1 Ge2Y1 Ge 2 Y 1 1958 ThSi2 "ThSi2, C[c]" K 3.8 3.8 Superconductivity and ferromagnetism in isomorphous compounds 1958 "Phys.Rev., 112(1958)89"
101357 1299 Hf2Ir1 Hf2Ir1 Hf 2 Ir 1 1966 Fe3W3C "Fe3W3C, E9[3]" K 1.6 1966 "PHYS.STAT.SOL.,13(1966)423"
101358 632 Hf2In1N1 Hf2In1N1 Hf 2 In 1 N 1 1966 Cr2AlC "hexagonal, H-phase" K 1.1 1966 "J.LESS-COMMON METALS,10(1966)29"
101359 942 Hf1 Hf1 Hf 1 1968 Mg "Mg, A3" K 0.015 1968 "PHYS.LETT.A,28(1968)326"
101360 RMP0350001 H2Zr1 H2Zr1 H 2 Zr 1 1963 L2[b] K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101361 1144 H0.32V0.68 H0.32V0.68 H 0.32 V 0.68 1970 K 4.2 1970 "PHYS.REV.LETT.,25(1970)1618"
101362 1617 H0.5V1 H0.5V1 H 0.5 V 1 1970 K 1.7 1970 "PHYS.REV.B,1(1970)3002"
101363 RMP0350001 H2Ti1 H2Ti1 H 2 Ti 1 1963 cubic K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101364 1871 H0.11S2Ta1 H0.11S2Ta1 H 0.11 S 2 Ta 1 1975 layered TX2 2H-TaS2 phase K 4.2 4.2 electrolysis using Pt anode Properties of HxTaS2: Correlation between the superconducting Tc and an electronic instability in layer compounds 1975 "J.CHEM.PHYS.,62(1975)967"
101365 1311 H0.73Pd1 H0.73Pd1 H 0.73 Pd 1 1972 K 1.25 1972 "PHYS.STAT.SOL.A,11(1972)K123"
101366 1311 H0.81Pd1 H0.81Pd1 H 0.81 Pd 1 1972 K 2.5 2.5 1972 "PHYS.STAT.SOL.A,11(1972)K123"
101367 1311 H0.87Pd1 H0.87Pd1 H 0.87 Pd 1 1972 K 4.3 4.3 1972 "PHYS.STAT.SOL.A,11(1972)K123"
101368 1763 H0.94Pd1 H0.94Pd1 H 0.94 Pd 1 1973 K 6.6 6.6 1973 "PHYS.STAT.SOL.B,59(1973)329"
101369 1391 Hf0.04NB0.42Ta0.04Ti Hf0.04Nb0.42Ta0.04Ti0.5 Hf 0.04 Nb 0.42 Ta 0.04 Ti 0.5 1967 K Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
101370 1438 Hf0.5Nb0.5 Hf0.5Nb0.5 Hf 0.5 Nb 0.5 1974 K 9.5 9.5 1974 "J.APPL.PHYS.,45(1974)447"
101371 1438 high temperature substrate Hf0.33Nb0.67 Hf0.33Nb0.67 Hf 0.33 Nb 0.67 1974 K 17 17 1974 "J.APPL.PHYS.,45(1974)447"
101372 885 Hf0.15Nb0.85 Hf0.15Nb0.85 Hf 0.15 Nb 0.85 1970 K 9.85 9.85 1970 "J.LOW TEMP.PHYS.,3(1970)393"
101373 1961 Zr=500 ppm Hf1N1.118 Hf1N1.118 Hf 1 N 1.118 1968 NaCl "NaCl, B1" K 2 1968 "PROC.BRITISH CERAMIC SOC.,10(1968)183-193"
101374 1542 Hf1N1 Hf1N1 Hf 1 N 1 1971 NaCl "NaCl, B1" K 8.83 8.83 1971 "PHYSICA,55(1971)60"
101375 266 Hf0.15Mo0.85 Hf0.15Mo0.85 Hf 0.15 Mo 0.85 1962 cubic K 1.02 1962 "IBM J.RES.DEV.,6(1962)116"
101376 956 Hf1Mo2 Hf1Mo2 Hf 1 Mo 2 1970 cubic K 1 1 "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
101377 1586 Hf1Mo2 Hf1Mo2 Hf 1 Mo 2 1974 MgCu2(Laves) "MgCu2, C15" K 0.076 0.076 1974 "PHYS.LETT.A,50(1974)159"
101378 1586 Hf1Mo2 Hf1Mo2 Hf 1 Mo 2 1974 MgNi2(Laves) "MgNi2(Laves), C36" K 0.065 0.065 1974 "PHYS.LETT.A,50(1974)159"
101379 266 Hf0.9Mo0.1 Hf0.9Mo0.1 Hf 0.9 Mo 0.1 1962 K 2.5 2.5 1962 "IBM J.RES.DEV.,6(1962)116"
101380 1673 P=0-28 kbar H15Th4 H15Th4 H 15 Th 4 1974 K 8.45 8.45 1974 "SOLID STATE COMMUN.,15(1974)941"
101381 266 Hf0.875Re0.125 Hf0.875Re0.125 Hf 0.875 Re 0.125 1962 cubic K 1.7 1.7 1962 "IBM J.RES.DEV.,6(1962)116"
101382 127 Hf1Os2 Hf1Os2 Hf 1 Os 2 1959 MgZn2(Laves) "MgZn2, C14" K 2.69 2.69 1959 "ACTA CRYST.,12(1959)651"
101383 RMP0350001 Hf0.67Ni0.233Ru0.1 Hf0.67Ni0.233Ru0.1 Hf 0.67 Ni 0.233 Ru 0.1 1963 Fe3W3C "Fe3W3C, E9[3]" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101384 RMP0350001 Hf0.63Ni0.25Re0.12 Hf0.63Ni0.25Re0.12 Hf 0.63 Ni 0.25 Re 0.12 1963 Fe3W3C "Fe3W3C, E9[3]" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101385 1377 Hf2Ni1 Hf2Ni1 Hf 2 Ni 1 1972 CuAl2 "CuAl2, C16" K 0.87 0.87 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
101386 1391 Hf0.13Nb0.47Zr0.13 Hf0.13Nb0.74Zr0.13 Hf 0.13 Nb 0.74 Zr 0.13 1967 K Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
101387 1391 Hf0.3Nb0.4Zr0.3 Hf0.3Nb0.4Zr0.3 Hf 0.3 Nb 0.4 Zr 0.3 1967 K Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
101388 1334 Hf0.36Nb0.62Zr0.02 Hf0.36Nb0.62Zr0.02 Hf 0.36 Nb 0.62 Zr 0.02 1972 K 7.75 7.75 1972 "PHIL.MAG.,25(1972)303"
101389 1438 Hf0.33Nb0.17V0.7 Hf0.33Nb0.17V0.7 Hf 0.33 Nb 0.17 V 0.7 1974 K 4.2 1974 "J.APPL.PHYS.,45(1974)447"
101390 1438 Hf0.33Nb0.33V0.33 Hf0.33Nb0.33V0.33 Hf 0.33 Nb 0.33 V 0.33 1974 K 6.6 6.6 1974 "J.APPL.PHYS.,45(1974)447"
101391 1391 Hf0.04Nb0.4Ti0.52V0. Hf0.04Nb0.4Ti0.52V0.04 Hf 0.04 Nb 0.4 Ti 0.52 V 0.04 1967 K Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
101392 1391 Hf0.04Nb0.32Ti0.64 Hf0.04Nb0.32Ti0.64 Hf 0.04 Nb 0.32 Ti 0.64 1967 K Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
101393 181 Hf1Si2 Hf1Si2 Hf 1 Si 2 K 1.02 "From Roberts' Table, unpublished results" Unpublished results
101394 927 Hf3Si2 Hf3Si2 Hf 3 Si 2 1969 K 0.1 1969 "PHYS.LETT.A,29(1969)109"
101395 1377 Hf2Si1 Hf2Si1 Hf 2 Si 1 1972 CuAl2 "CuAl2, C16" K 0.07 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
101396 1583 Hf1Sb2 Hf1Sb2 Hf 1 Sb 2 1968 K 1.1 1968 "STRUCTUER AND BONDING,4(1968)83-229"
101397 RMP0350001 Hf1Ru1 Hf1Ru1 Hf 1 Ru 1 1963 CsCl "CsCl, B2" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101398 1060 Hf0.05Rh0.04Ti0.91 Hf0.05Rh0.04Ti0.91 Hf 0.05 Rh 0.04 Ti 0.91 1964 K 1.7 1.7 1964 "Z.PHYS.,178(1964)216"
101399 1058 Hf2Rh1 Hf2Rh1 Hf 2 Rh 1 1966 Fe3W3C "Fe3W3C, E9[3]" K 2.02 2.02 1966 "Z.PHYS.,197(1966)276"
101400 1058 Hf1Rh1 Hf1Rh1 Hf 1 Rh 1 1966 K 1.73 1.73 1966 "Z.PHYS.,197(1966)276"
101401 266 Hf0.025Re0.975 Hf0.025Re0.975 Hf 0.025 Re 0.975 1962 hexagonal K 7.3 7.3 1962 "IBM J.RES.DEV.,6(1962)116"
101402 266 Hf0.14Re0.86 Hf0.14Re0.86 Hf 0.14 Re 0.86 1962 alpha-Mn "alpha-Mn, A12" K 5.86 5.86 1962 "IBM J.RES.DEV.,6(1962)116"
101403 266 Hf1Re2 Hf1Re2 Hf 1 Re 2 1962 MgZn2(Laves) "MgZn2, C14" K 5.61 5.61 1962 "IBM J.RES.DEV.,6(1962)116"
101404 266 Hf0.5Re0.5 Hf0.5Re0.5 Hf 0.5 Re 0.5 1962 alpha-Mn "alpha-Mn, A12" K 1.02 1962 "IBM J.RES.DEV.,6(1962)116"
101405 258 Hg8K1 Hg8K1 Hg 8 K 1 K 3.42 3.42 "From Roberts' Table, unpublished results" Unpublished results
101406 256 Hg1In1 Hg1In1 Hg 1 In 1 1963 K 3.81 3.81 1963 "J.LESS-COMMONMETALS,5(1963)41"
101407 579 Hg1 Hg1 Hg 1 1965 alpha-Hg "alpha-Hg, A10" K 4.154 4.154 1965 "PHYS.REV. A,140(1965)507"
101408 47 Hf1Zr0.05 Hf1Zr0.05 Hf 1 Zr 0.05 1952 K 0.22 1952 "Phys.Rev., 86(1952)628"
101409 1 Hf0.99Zr0.01 Hf0.99Zr0.01 Hf 0.99 Zr 0.01 1954 hexagonal K 0.37 0.37 1954 "Rev.Mod.Phys., 26(1954)277"
101410 1586 Hf1W2 Hf1W2 Hf 1 W 2 1974 MgCu2(Laves) "MgCu2, C15" K 0.033 1974 "PHYS.LETT.A,50(1974)159"
101411 1189 Hf0.5V2Zr0.5 Hf0.5V2Zr0.5 Hf 0.5 V 2 Zr 0.5 1970 MgCu2(Laves) "MgCu2, C15" K 10.1 10.1 LT-12 1970 "LT-12 (1970, Kyoto) p 483"
101412 1722 Hf0.6V2Zr0.4 Hf0.6V2Zr0.4 Hf 0.6 V 2 Zr 0.4 1973 K 9.9 9.9 "Superconductivity and structural instability of (Hf,Zr)V2 and (Hf,Ta)V2 alloys at high pressure" 1973 "J.PHYS.F:METAL PHYS.,3(1973)2157"
101413 1189 Hf1V2.3 Hf1V2.3 Hf 1 V 2.3 1970 MgCu2(Laves) "MgCu2, C15" K 9.2 9.2 LT-12 1970 "LT-12 (1970, Kyoto) p 483"
101414 1323 Hf1V2 Hf1V2 Hf 1 V 2 1973 MgCu2(Laves) "MgCu2, C15" K 9.2 9.2 1973 "JAPAN J.APPL.PHYS.,12(1973)161"
101415 1149 chemical analysis: Hf0.335Tc0.665 Hf1Tc2 Hf1Tc2 Hf 1 Tc 2 1970 MgZn2(Laves) A 5.2001 8.6175 "MgZn2, C14" K 5.6 5.6 1970 "J.LESS-COMMON METALS,22(1970)246"
101416 1816 Hf0.2Ta0.8 Hf0.2Ta0.8 Hf 0.2 Ta 0.8 1972 cubic K 6.9 6.9 Superconductivity of Hf-Ta and Ta-W alloys under pressure 1972 "Z.PHYS.,255(1972)308"
101417 1232 Hg2Mg5 Hg2Mg5 Hg 2 Mg 5 1966 K 0.3 Superconducting transition temperatures of mercury-alkaline earth metal compounds 1966 "J.PHYS.CHEM.SOLIDS,27(1966)1081"
101418 1232 Hg3Mg1 Hg3Mg1 Hg 3 Mg 1 1966 Mn5Si3 "Mn5Si3, D8[8]" K 0.48 0.48 Superconducting transition temperatures of mercury-alkaline earth metal compounds 1966 "J.PHYS.CHEM.SOLIDS,27(1966)1081"
101419 1232 Hg1Mg1 Hg1Mg1 Hg 1 Mg 1 1966 K 0.48 0.48 Superconducting transition temperatures of mercury-alkaline earth metal compounds 1966 "J.PHYS.CHEM.SOLIDS,27(1966)1081"
101420 1232 Hg1Mg1 Hg1Mg1 Hg 1 Mg 1 1966 CsCl "CsCl, B2" K 1.39 1.39 Superconducting transition temperatures of mercury-alkaline earth metal compounds 1966 "J.PHYS.CHEM.SOLIDS,27(1966)1081"
101421 1232 Hg2Mg1 Hg2Mg1 Hg 2 Mg 1 1966 MoSi2 "MoSi2, C11[b]" K 4 4 Superconducting transition temperatures of mercury-alkaline earth metal compounds 1966 "J.PHYS.CHEM.SOLIDS,27(1966)1081"
101422 258 Hg3Li1 Hg3Li1 Hg 3 Li 1 hexagonal K 1.7 1.7 "From Roberts' Table, unpublished results" Unpublished results
101423 258 Hg1Li3 Hg1Li3 Hg 1 Li 3 cubic K 1.08 "From Roberts' Table, unpublished results" Unpublished results
101424 258 Hg7K5 Hg7K5 Hg 7 K 5 K 1.14 "From Roberts' Table, unpublished results" Unpublished results
101425 258 Hg1K1 Hg1K1 Hg 1 K 1 K 1.14 "From Roberts' Table, unpublished results" Unpublished results
101426 258 Hg2K1 Hg2K1 Hg 2 K 1 K 1.2 1.2 "From Roberts' Table, unpublished results" Unpublished results
101427 258 Hg3K1 Hg3K1 Hg 3 K 1 K 3.18 3.18 "From Roberts' Table, unpublished results" Unpublished results
101428 258 Hf4K1 Hf4K1 Hf 4 K 1 K 3.27 3.27 "From Roberts' Table, unpublished results" Unpublished results
101429 91 Hg1Sn1 Hg1Sn1 Hg 1 Sn 1 1913 K 4.2 4.2 1913 "Commun. Kamerlingh-Onnes Lab, 13(1913)133d"
101430 84 Hg1S1 Hg1S1 Hg 1 S 1 1933 K 1.3 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
101431 258 Hg5Pt2 Hg5Pt2 Hg 5 Pt 2 K 1.06 "From Roberts' Table, unpublished results" Unpublished results
101432 258 Hg3Pt1 Hg3Pt1 Hg 3 Pt 1 K 1.06 "From Roberts' Table, unpublished results" Unpublished results
101433 489 Hg4Pt1 Hg4Pt1 Hg 4 Pt 1 1964 K 0.32 1964 "BULL.AM.PHYS.SOC.,9(1964)268"
101434 258 Hg2Pt1 Hg2Pt1 Hg 2 Pt 1 K 1.1 "From Roberts' Table, unpublished results" Unpublished results
101435 258 Hg2Na3 Hg2Na3 Hg 2 Na 3 tetragonal K 1.08 "From Roberts' Table, unpublished results" Unpublished results
101436 258 Hg1Na1 Hg1Na1 Hg 1 Na 1 orthorhombic K 1.08 "From Roberts' Table, unpublished results" Unpublished results
101437 258 Hg2Na1 Hg2Na1 Hg 2 Na 1 hexagonal K 1.62 1.62 "From Roberts' Table, unpublished results" Unpublished results
101438 258 Hg4Na1 Hg4Na1 Hg 4 Na 1 K 3.05 3.05 "From Roberts' Table, unpublished results" Unpublished results
101439 661 Hg5Mn2 Hg5Mn2 Hg 5 Mn 2 1964 K 2.1 1964 "PHYS.LETT.,7(1964)297"
101440 1232 Hg1Mg3 Hg1Mg3 Hg 1 Mg 3 1966 Na3As "Na3As, D0[18]" K 0.16 0.16 Superconducting transition temperatures of mercury-alkaline earth metal compounds 1966 "J.PHYS.CHEM.SOLIDS,27(1966)1081"
101441 1564 In0.5La3Tl0.5 In0.5La3Tl0.5 In 0.5 La 3 Tl 0.5 1973 AuCu3 "AuCu3, L1[2]" K 8.9 8.9 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
101442 1564 In0.8La3Sn0.2 In0.8La3Sn0.2 In 0.8 La 3 Sn 0.2 1973 AuCu3 "AuCu3, L1[2]" K 7.8 7.8 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
101443 658 P = 0-35 kbar La3In In1La3 In 1 La 3 1967 K 9.83 9.83 K/GPa 0.47 Superconductivity of lanthanum and lanthanum compounds at zero and high pressure 1967 "J.PHYS.CHEM.SOLIDS,28(1967)569"
101444 1564 In1La3 In1La3 In 1 La 3 1973 AuCu3 "AuCu3, L1[2]" K 9.54 9.54 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
101445 715 In3La1 In3La1 In 3 La 1 1970 AuCu3 "AuCu3, L1[2]" K 0.7 0.7 1970 "J.PHYS.CHEM.SOLIDS,31(1970)2653"
101446 1620 In1 In1 In 1 1970 In "In, A6" K 3.409 3.409 1970 "PHYS.REV.B,2(1970)2547"
101447 291 Ho1 Ho1 Ho 1 1962 Mg "Mg, A3" K 0.38 From Roberts' Table. 1962 "LT-8 (London, 1962), paper 5.3"
101448 980 Hg1Zr3 Hg1Zr3 Hg 1 Zr 3 1967 Cr3Si(A15) "Cr3Si, A15" K 0.35 1967 "SOLID STATE COMMUN.,5(1967)221"
101449 715 Hg3Zr1 Hg3Zr1 Hg 3 Zr 1 1970 AuCu3 "AuCu3, L1[2]" K 3.28 3.28 1970 "J.PHYS.CHEM.SOLIDS,31(1970)2653"
101450 258 Hg0.698Tl0.302 Hg0.698Tl0.302 Hg 0.698 Tl 0.302 K 3.888 3.888 "From Roberts' Table, unpublished results" Unpublished results
101451 258 Hg0.714Tl0.286 Hg0.714Tl0.286 Hg 0.714 Tl 0.286 K 3.875 3.875 "From Roberts' Table, unpublished results" Unpublished results
101452 258 Hg0.97Tl0.03 Hg0.97Tl0.03 Hg 0.97 Tl 0.03 K 4.109 4.109 "From Roberts' Table, unpublished results" Unpublished results
101453 644 In0.11O3W1 In0.11O3W1 In 0.11 O 3 W 1 1966 hexagonal K 2.8 2.8 1966 "SOLID STATE COMMUN.,4(1966)25"
101454 427 In0.5Nb3Zr0.5 In0.5Nb3Zr0.5 In 0.5 Nb 3 Zr 0.5 1963 K 6.4 6.4 Superconductivity of some binary and ternary alloys 1963 JETP 16(1963)1493
101455 1982 In0.15NB3Sb0.15Sn0.7 In0.15Nb3Sb0.15Sn0.7 In 0.15 Nb 3 Sb 0.15 Sn 0.7 1964 K 16.09 16.09 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
101456 1982 In0.15Nb3Sn0.85 In0.15Nb3Sn0.85 In 0.15 Nb 3 Sn 0.85 1964 K 18.26 18.26 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
101457 508 In1Nb3 In1Nb3 In 1 Nb 3 1964 cubic K 2.25 1964 "PHYS.CHEM.SOLIDS,25(1964)1213"
101458 8 high pressure and high temperature In1Nb3 In1Nb3 In 1 Nb 3 1952 Cr3Si(A15) "Cr3Si, A15" K 8 8 1952 "Izv.Akad.Nauk.SSSR Ser.Fiz., 16(1952)233"
101459 1825 sputtered film In1Nb3 In1Nb3 In 1 Nb 3 1974 Cr3Si(A15) "Cr3Si, A15" K 7.6 7.6 1974 "J.APPL.PHYS.,45(1974)4590"
101460 1866 In0.488Na0.025Pb0.48 In0.488Na0.025Pb0.488 In 0.488 Na 0.025 Pb 0.488 1975 K 6 6 "Lattice parameters and superconductivity of the compounds U6Mn, U6Fe, U6Co and U6Ni and alloys between them" 1975 "J.Phys.Chem.Solids, 36(1975)123"
101461 632 In1N1Ti2 In1N1Ti2 In 1 N 1 Ti 2 1966 Cr2AlC "hexagonal, H-phase" K 1.1 1966 "J.LESS-COMMON METALS,10(1966)29"
101462 558 In1N1 In1N1 In 1 N 1 1966 ZnS(wurtzite) "ZnS(wurtzite), B4" K 3.38 3.38 1966 "INSTITUTE METALLOFIZIKI AN U.S.S.R.KIEV,(1966-YEAR 1966"
101463 1340 In0.18Mg0.82 In0.18Mg0.82 In 0.18 Mg 0.82 1972 hexagonal K 0.013 1972 "PHYS.REV.B,6(1972)103"
101464 715 In3Lu1 In3Lu1 In 3 Lu 1 1970 AuCu3 "AuCu3, L1[2]" K 0.24 0.24 1970 "J.PHYS.CHEM.SOLIDS,31(1970)2653"
101465 489 In1Rh1 In1Rh1 In 1 Rh 1 1964 CsCl "CsCl, B2" K 0.32 1964 "BULL.AM.PHYS.SOC.,9(1964)268"
101466 RMP0350001 In3Rh1 In3Rh1 In 3 Rh 1 1963 tetragonal K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101467 351 deposited at 6 K In0.97Pd0.03 In0.97Pd0.03 In 0.97 Pd 0.03 1955 K 4.45 4.45 1955 "Z.PHYS.,141(1955)263"
101468 489 In1Pd1 In1Pd1 In 1 Pd 1 1964 CsCl "CsCl, B2" K 0.7 0.7 1964 "BULL.AM.PHYS.SOC.,9(1964)268"
101469 1041 In0.22Pb0.57Sn0.21 In0.22Pb0.57Sn0.21 In 0.22 Pb 0.57 Sn 0.21 1966 K 1966 "APPL.PHYS.LETT.,8(1966)319"
101470 1491 quench condensation In0.1Pb0.9 In0.1Pb0.9 In 0.1 Pb 0.9 1973 K 6.8 6.8 1973 "J.LOW TEMP.PHYS.,13(1973)1"
101471 1269 In0.087Pb0.913 In0.087Pb0.913 In 0.087 Pb 0.913 1970 K 7.035 7.035 1970 "PHYS.REV.B,2(1970)105"
101472 919 In0.35Pb0.965 In0.35Pb0.965 In 0.35 Pb 0.965 1969 K 1969 "J.PHYS.SOC.JAPAN,27(1969)615"
101473 809 In0.6Pb0.4 In0.6Pb0.4 In 0.6 Pb 0.4 1966 K 6.36 6.36 From Roberts' Table. 1966 Ann.Acad.Sci.Finnicae A VI No.210(1966)78
101474 665 In0.913Pn0.087 In0.913Pb0.087 In 0.913 Pb 0.087 1964 K 4.2 4.2 1964 "PHYS.LETT.,13(1964)195"
101475 1025 In0.961Pb0.039 In0.961Pb0.039 In 0.961 Pb 0.039 1968 K 3.64 3.64 1968 "SCI.REP.RITU A,20(1968)129"
101476 1140 In0.955Pb0.045 In0.955Pb0.045 In 0.955 Pb 0.045 1966 K 3.69 3.69 1966 "J.PHYS.SOC.JAPAN,21(1966)2122"
101477 1164 In0.88Sn0.12 In0.88Sn0.12 In 0.88 Sn 0.12 1971 K 5.03 5.03 1971 "PROC.NAT.ACAD.SCI.,68(1971)56"
101478 204 In0.75Sn0.3 In0.7Sn0.3 In 0.7 Sn 0.3 1961 K 7.3 7.3 1961 "J.CHEM.PHYS.,34(1961)2194"
101479 204 In0.55Sn0.5 In0.5Sn0.5 In 0.5 Sn 0.5 1961 K 6.9 6.9 1961 "J.CHEM.PHYS.,34(1961)2194"
101480 26 In0.75Sn0.25 In0.75Sn0.25 In 0.75 Sn 0.25 1958 tetragonal K 5.95 5.95 Measurements on superconducting contacts 1958 "Phys.Rev.,109(1958)686"
101481 1073 In0.2Si0.8V3 In0.2Si0.8V3 In 0.2 Si 0.8 V 3 1969 Cr3Si(A15) "Cr3Si, A15" K 16.2 16.2 1969 "Z.PHYS.,218(1969)52"
101482 212 In1Sc3 In1Sc3 In 1 Sc 3 1962 Ni3Sn "Ni3Sn, D0[19]" K 1962 "ACTA CRYST.,15(1962)94"
101483 853 In1Sc2 In1Sc2 In 1 Sc 2 1971 Ni2In "Ni2In, B8[2]" K 4.2 1971 "J.PHYS.F:METAL PHYS.,1(1971)93"
101484 1911 In2Sb1Te2 In2Sb1Te2 In 2 Sb 1 Te 2 1964 NaCl "NaCl, B1" K 1.06 1.06 1964 "ANGEW.CHEM.INTERNAT.EDIT.,3(1964)588"
101485 761 In1Sb1Sn1 In1Sb1Sn1 In 1 Sb 1 Sn 1 1964 beta-Sn "beta-Sn, A5" K 2.5 2.5 1964 "PHYS.REV.,135(1964)A1460,A145"
101486 1116 rapid quench In0.25Sb0.75 In0.25Sb0.75 In 0.25 Sb 0.75 1971 cubic K 4.1 4.1 1971 "PHYS.LETT.A,34(1971)80"
101487 471 In1Sb1 In1Sb1 In 1 Sb 1 1963 K 2.1 2.1 1963 "SCIENCE,140(1963)62-63"
101488 711 In3Ru1 In3Ru1 In 3 Ru 1 K 2.68 2.68 "From Roberts' Table, unpublished results, Univ. of Geneva" Unpublished results
101489 209 In0.005Tl0.995 In0.005Tl0.995 In 0.005 Tl 0.995 1961 K 2.418 2.418 STUDY OF THE SUPERCONDUCTING TRANSITION TEMPERATURE IN DILUTE THALLIUM SOILD SOLUTIONS 1961 "PHYS.REV.,123(1961)466"
101490 1377 In1Th2 In1Th2 In 1 Th 2 1972 CuAl2 "CuAl2, C16" K 0.07 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
101491 715 In3Th1 In3Th1 In 3 Th 1 1970 AuCu3 "AuCu3, L1[2]" K 0.05 1970 "J.PHYS.CHEM.SOLIDS,31(1970)2653"
101492 515 In3Te4 In3Te4 In 3 Te 4 1965 K 1.25 1.25 Crystal chemistry and superconductivity of pressure-induced phases in the In-Te system 1965 "J.PHYS.CHEM.SOLIDS, 26(1965)353"
101493 515 In2Te3 In2Te3 In 2 Te 3 1965 K 1 Crystal chemistry and superconductivity of pressure-induced phases in the In-Te system 1965 "J.PHYS.CHEM.SOLIDS, 26(1965)353"
101494 506 In1Te1 In1Te1 In 1 Te 1 1964 NaCl "NaCl, B1" K 3.45 3.45 1964 "APPL.PHYS.LETT.,4(1964)35"
101495 696 In1Te1 In1Te1 In 1 Te 1 1965 tetragonal K 1.37 1965 "SCIENCE,147(1965)1569"
101496 761 In1Te1 In1Te1 In 1 Te 1 1964 NaCl "NaCl, B1" K 2.2 2.2 1964 "PHYS.REV.,135(1964)A1460,A145"
101497 229 In2Te1 In2Te1 In 2 Te 1 1962 K 1.37 1962 "J.PHYS.CHEM.SOLIDS,23(1962)405"
101498 1724 In0.012Sn0.988 In0.012Sn0.988 In 0.012 Sn 0.988 1964 K 3.69 3.69 1964 "J.PHYS.(PARIS),25(1964)374"
101499 1612 In0.05Sn0.95 In0.05Sn0.95 In 0.05 Sn 0.95 1969 K 3.625 3.625 1969 "PHYS.REV.,187(1969)766"
101500 1917 IN0.5Sn0.5 In0.5Sn0.5 In 0.5 Sn 0.5 1969 K 7.45 7.45 1969 "REV.SCI.INSTRUMENTS,40(1969)180"
101501 469 Ir2Lu1 Ir2Lu1 Ir 2 Lu 1 1965 MgCu2(Laves) "MgCu2, C15" K 2.47 2.47 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101502 469 Ir3Lu1 Ir3Lu1 Ir 3 Lu 1 1965 MgCu2(Laves) "MgCu2, C15" K 2.89 2.89 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101503 469 Ir3La7 Ir3La7 Ir 3 La 7 1965 Fe3Th7 "Fe3Th7, D10[2]" K 2.24 2.24 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101504 469 Ir2La1 Ir2La1 Ir 2 La 1 1965 MgCu2(Laves) "MgCu2, C15" K 0.48 0.48 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101505 658 Ir3La7 Ir3La7 Ir 3 La 7 1967 Fe3Th7 "Fe3Th7, D10[2]" K 2.32 2.32 Superconductivity of lanthanum and lanthanum compounds at zero and high pressure 1967 "J.PHYS.CHEM.SOLIDS,28(1967)569"
101506 469 Ir5La1 Ir5La1 Ir 5 La 1 1965 K 2.13 2.13 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101507 1492 RRR > 2000 Ir1 Ir1 Ir 1 1973 Cu "Cu, A1" K 0.113 0.113 1973 "J.LOW TEMP.PHYS.,13(1973)211"
101508 RMP0350001 In1Zr3 In1Zr3 In 1 Zr 3 1963 AuCu3 "AuCu3, L1[2]" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101509 715 In3Yb1 In3Yb1 In 3 Yb 1 1970 AuCu3 "AuCu3, L1[2]" K 0.05 1970 "J.PHYS.CHEM.SOLIDS,31(1970)2653"
101510 715 In3Y1 In3Y1 In 3 Y 1 1970 AuCu3 "AuCu3, L1[2]" K 0.78 0.78 1970 "J.PHYS.CHEM.SOLIDS,31(1970)2653"
101511 824 In1V3 In1V3 In 1 V 3 1967 Cr3Si(A15) K 13.9 13.9 "diffusion annealing method (V-wire with In vapor, 1000-1200C, 20h)" 1967 "ZH.ETF PIS.RED.,6(1967)584"
101512 1900 deposited at 0.3 K In0.1Tl0.9 In0.1Tl0.9 In 0.1 Tl 0.9 1974 K 3.27 3.27 1974 "Z.PHYS.,269(1974)23"
101513 1580 Ir0.25Mo0.75Nb2.25Pt Ir0.25Mo0.75Nb2.25Pt0.75 Ir 0.25 Mo 0.75 Nb 2.25 Pt 0.75 Cr3Si(A15) "Cr3Si, A15" K 6.5 6.5 From Roberts' Table. personal communication
101514 707 Ir1Mo3Nb1Pt1 Ir1Mo3Nb1Pt1 Ir 1 Mo 3 Nb 1 Pt 1 1969 K 5.82 5.82 1969 "LOW TEMP.PHYS.,1(1969)539"
101515 707 Ir1Mo3Nb3Pt1 Ir1Mo3Nb3Pt1 Ir 1 Mo 3 Nb 3 Pt 1 1969 K 6.13 6.13 1969 "LOW TEMP.PHYS.,1(1969)539"
101516 1438 Ir0.29Mo0.41Nb0.3 Ir0.29Mo0.41Nb0.3 Ir 0.29 Mo 0.41 Nb 0.3 1974 K 8.7 8.7 1974 "J.APPL.PHYS.,45(1974)447"
101517 33 Ir1Mo1 Ir1Mo1 Ir 1 Mo 1 1955 hexagonal K 1.85 1 1.85 Empirical Relation between Superconductivity and the Number of Valence Electrons per Atom 1955 "Phys.Rev.,97(1955)74"
101518 1039 Ir1Mo1 Ir1Mo1 Ir 1 Mo 1 1965 AuCd "AuCd, B19" K 8.8 8.8 1965 "APPL.PHYS.LETT.,7(1965)72"
101519 276 Ir0.26Mo0.74 Ir0.26Mo0.74 Ir 0.26 Mo 0.74 1961 sigma-CrFe "sigma-CrFe, D8[b]" K 6.7 6.7 1961 "HELV.PHYS.ACTA,343(1961)843"
101520 1446 Ir1Mo3 Ir1Mo3 Ir 1 Mo 3 1972 Cr3Si(A15) "Cr3Si, A15" K 8.8 8.8 1972 "J.LOW TEMP.PHYS.,6(1972)171"
101521 469 Ir1Lu3 Ir1Lu3 Ir 1 Lu 3 1965 K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101522 469 Ir3Lu7 Ir3Lu7 Ir 3 Lu 7 1965 K 0.78 0.78 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101523 469 Ir1Lu2 Ir1Lu2 Ir 1 Lu 2 1965 K 0.84 0.84 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101524 469 Ir1Lu1 Ir1Lu1 Ir 1 Lu 1 1965 CsCl A 3.33 "CsCl, B2" K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101525 492 Ir0.05Nb3Rh0.95 Ir0.05Nb3Rh0.95 Ir 0.05 Nb 3 Rh 0.95 1965 Cr3Si(A15) "Cr3Si, A15" K 2.38 2.38 SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
101526 492 Ir0.02Nb3Rh0.98 Ir0.02Nb3Rh0.98 Ir 0.02 Nb 3 Rh 0.98 1965 Cr3Si(A15) "Cr3Si, A15" K 2.43 2.43 SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
101527 1299 Ir0.45Nb1Pt2.55 Ir0.45Nb1Pt2.55 Ir 0.45 Nb 1 Pt 2.55 1966 Ni3Sn "Ni3Sn, D0[19]" K 1.6 1966 "PHYS.STAT.SOL.,13(1966)423"
101528 1299 Ir2.55Nb1Pt0.45 Ir2.55Nb1Pt0.45 Ir 2.55 Nb 1 Pt 0.45 1966 hexagonal K 1.6 1966 "PHYS.STAT.SOL.,13(1966)423"
101529 1299 Ir2.67Nb1Pt0.24 Ir2.67Nb1Pt0.24 Ir 2.67 Nb 1 Pt 0.24 1966 AuCu3 "AuCu3, L1[2]" K 1.6 1966 "PHYS.STAT.SOL.,13(1966)423"
101530 592 Ir0.1Nb0.9 Ir0.1Nb0.9 Ir 0.1 Nb 0.9 1965 K 2.3 2.3 SOLUTE SIZE AND VALENCE EFFECT IN SOME SUPERCONDUCTING ALLOYS OF TRANSITION ELEMENTS 1965 "PHYS.REV.,140(1965)A914"
101531 1625 Ir0.34Nb0.66 Ir0.34Nb0.66 Ir 0.34 Nb 0.66 1971 sigma-CrFe "sigma-CrFe, D8[b]" K 2.25 2.25 1971 "PHYS.REV.B,3(1971)742"
101532 1466 Ir1Nb3 Ir1Nb3 Ir 1 Nb 3 1973 Cr3Si(A15) "Cr3Si, A15" K 2.07 2.07 1973 "J.JAPAN INST.METALS,37(1973)558"
101533 1299 Ir1.05Nb0.95 Ir1.05Nb0.95 Ir 1.05 Nb 0.95 1966 AuCu "AuCu, L1[0]" K 4.75 4.75 1966 "PHYS.STAT.SOL.,13(1966)423"
101534 1299 Ir1.15Nb Ir1.15Nb0.85 Ir 1.15 Nb 0.85 1966 orthorhombic K 4.6 4.6 1966 "PHYS.STAT.SOL.,13(1966)423"
101536 1438 Ir0.3Mo0.4Re0.3 Ir0.3Mo0.4Re0.3 Ir 0.3 Mo 0.4 Re 0.3 1974 K 9.5 9.5 1974 "J.APPL.PHYS.,45(1974)447"
101537 201 Ir1.5O0.5Y1 Ir1.5O0.5Y1 Ir 1.5 O 0.5 Y 1 1959 K 2.4 2.4 1959 "J.PHYS.CHEM.SOLIDS,11(1959)346"
101538 171 Ir1Os1Y1 Ir1Os1Y1 Ir 1 Os 1 Y 1 1960 K 2.6 2.6 1960 "J.APPL.PHYS.,31(1960)23S"
101539 963 Ir0.825Os0.1Ru0.075 Ir0.825Ru0.1Os0.075 Ir 0.825 Ru 0.1 Os 0.075 1968 K 0.16 0.16 "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
101540 963 Ir0.73Os0.17Ru0.1 Ir0.73Os0.17Ru0.1 Ir 0.73 Os 0.17 Ru 0.1 1968 K 0.34 0.34 "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
101541 963 Ir0.76Os0.09Rh0.15 Ir0.76Os0.09Rh0.15 Ir 0.76 Os 0.09 Rh 0.15 1968 K 0.015 "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
101542 963 Ir0.75Os0.05Rh0.2 Ir0.75Os0.05Rh0.2 Ir 0.75 Os 0.05 Rh 0.2 1968 K 0.055 0.055 "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
101543 963 Ir0.18Os0.47Rh0.35 Ir0.18Os0.47Rh0.35 Ir 0.18 Os 0.47 Rh 0.35 1968 K 0.55 0.55 "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
101544 963 Ir0.75Os0.25 Ir0.75Os0.25 Ir 0.75 Os 0.25 1968 K 0.4 0.4 "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
101545 239 Ir0.5Os0.5 Ir0.5Os0.5 Ir 0.5 Os 0.5 1963 cubic K 0.98 0.98 SUPERCONDUCTIVITY OF SOILD SOLUTIONS OF NOBEL METALS 1963 "PHYS.REV.,129(1963)182"
101546 RMP0350001 Ir0.265O0.085Zr0.65 Ir0.265O0.085Zr0.65 Ir 0.265 O 0.085 Zr 0.65 1963 Fe3W3C "Fe3W3C, E9[3]" K 2.3 2.3 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101547 RMP0350001 Ir0.287O0.14Ti0.573 Ir0.287O0.14Ti0.573 Ir 0.287 O 0.14 Ti 0.573 1963 Fe3W3C "Fe3W3C, E9[3]" K 5.5 5.5 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101548 1624 Ir0.984Ni0.016 Ir0.984Ni0.016 Ir 0.984 Ni 0.016 1971 K 0.052 0.052 1971 "PHYS.REV.B,3(1971)91"
101549 1438 Ir0.2Ru0.05Zr0.75 Ir0.2Ru0.05Zr0.75 Ir 0.2 Ru 0.05 Zr 0.75 1974 K 6.8 6.8 1974 "J.APPL.PHYS.,45(1974)447"
101550 1438 Ir0.125Rh0.125Zr0.75 Ir0.125Rh0.125Zr0.75 Ir 0.125 Rh 0.125 Zr 0.75 1974 K 10.2 10.2 1974 "J.APPL.PHYS.,45(1974)447"
101551 1060 Ir0.05Rh0.04Ti0.91 Ir0.05Rh0.04Ti0.91 Ir 0.05 Rh 0.04 Ti 0.91 1964 K 4 4 1964 "Z.PHYS.,178(1964)216"
101552 963 Ir0.3Rh0.5Ru0.2 Ir0.3Rh0.5Ru0.2 Ir 0.3 Rh 0.5 Ru 0.2 1968 K 0.015 "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
101553 963 Ir0.98Re0.02 Ir0.98Re0.02 Ir 0.98 Re 0.02 1968 K 1.7 1.7 "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
101554 963 Ir0.775Pt0.175Rh0.5 Ir0.775Pt0.175Rh0.05 Ir 0.775 Pt 0.175 Rh 0.05 1968 K 0.032 0.032 "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
101555 963 Ir0.72Pt0.08Rh0.02 Ir0.72Pt0.08Rh0.2 Ir 0.72 Pt 0.08 Rh 0.2 1968 K 0.03 0.03 "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
101556 963 Ir0.8Pt0.2 Ir0.8Pt0.2 Ir 0.8 Pt 0.2 1968 K 0.046 0.046 "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
101557 963 Ir0.9Pt0.1 Ir0.9Pt0.1 Ir 0.9 Pt 0.1 1968 K 0.066 0.066 "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
101558 963 Ir0.83Pd0.04Pt0.125 Ir0.83Pd0.045Pt0.125 Ir 0.83 Pd 0.045 Pt 0.125 1968 K 0.037 0.037 "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
101559 491 Ir1P1 Ir1P1 Ir 1 P 1 1963 K 0.35 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
101560 491 Ir2P1 Ir2P1 Ir 2 P 1 1963 K 0.35 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
101561 RMP0350001 Ir1Si1 Ir1Si1 Ir 1 Si 1 1963 MnP "MnP, B31" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101562 552 Ir1Se2.9 Ir1Se2.9 Ir 1 Se 2.9 1965 K 0.32 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
101563 552 Ir1Se2 Ir1Se2 Ir 1 Se 2 1965 A 20.94 5.93 3.74 orthorhombic K 0.32 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
101564 127 Ir2.5Sc1 Ir2.5Sc1 Ir 2.5 Sc 1 1959 MgCu2(Laves) "MgCu2, C15" K 2.46 2.46 1959 "ACTA CRYST.,12(1959)651"
101565 469 Ir0.32Sc0.68 Ir0.32Sc0.68 Ir 0.32 Sc 0.68 1965 K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101566 469 Ir1Sc1 Ir1Sc1 Ir 1 Sc 1 1965 CsCl A 3.205 "CsCl, B2" K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101567 469 Ir3Sc1 Ir3Sc1 Ir 3 Sc 1 1965 K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101568 469 Ir1Sc3 Ir1Sc3 Ir 1 Sc 3 1965 K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101569 491 Ir2Sb1 Ir2Sb1 Ir 2 Sb 1 1963 K 0.35 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
101570 481 Ir1Sb1 Ir1Sb1 Ir 1 Sb 1 1965 NiAs "NiAs, B8[1]" K 0.35 1965 LT-9(1965)600
101571 552 Ir1S2.6 Ir1S2.6 Ir 1 S 2.6 1965 K 0.32 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
101572 552 Ir1S1 Ir1S1 Ir 1 S 1 1965 K 0.32 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
101573 173 Ir2Th1 Ir2Th1 Ir 2 Th 1 1961 MgCu2(Laves) A 7.664 "MgCu2, C15" K 6.5 6.5 1961 "J.PHYS.CHEM.SOLIDS,19(1961)130"
101574 469 Ir3Th1 Ir3Th1 Ir 3 Th 1 1965 K 4.71 4.71 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101575 469 Ir5Th1 Ir5Th1 Ir 5 Th 1 1965 CeCo3B2 "CeCo3B2, CaCu5, D2[d]" K 3.93 3.93 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101576 552 Ir0.5Te0.5 Ir0.5Te0.5 Ir 0.5 Te 0.5 1965 NiAs "NiAs, B8[1]" K 3 3 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
101577 552 Ir1Te2 Ir1Te2 Ir 1 Te 2 1965 CdI2 A 3.93 5.393 "CdI2, C6" K 0.32 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
101578 552 Ir1Te3 Ir1Te3 Ir 1 Te 3 1965 FeS2(pyrite) A 6.413 "FeS2(pyrite), C2" K 1.18 1.18 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
101579 963 Ir0.85Ta0.15 Ir0.85Ta0.15 Ir 0.85 Ta 0.15 1968 K 0.024 "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
101580 276 Ir0.35Ta0.65 Ir0.35Ta0.65 Ir 0.35 Ta 0.65 1961 sigma-CrFe "sigma-CrFe, D8[b]" K 1.2 1961 "HELV.PHYS.ACTA,343(1961)843"
101581 28 Ir2Sr1 Ir2Sr1 Ir 2 Sr 1 1957 MgCu2(Laves) "MgCu2, C15" K 5.7 5.7 Superconducting alkaline earth compounds 1957 "Phys.Rev., 107(1957)1558"
101582 486 Ir1Sn2 Ir1Sn2 Ir 1 Sn 2 1965 CaF2 "CaF2, C1" K 0.78 0.78 1965 "J.PHYS.CHEM.SOLIDS,26(1965)665"
101583 1438 Ir0.2Si0.05Zr0.75 Ir0.2Si0.05Zr0.75 Ir 0.2 Si 0.05 Zr 0.75 1974 K 6.2 6.2 1974 "J.APPL.PHYS.,45(1974)447"
101584 RMP0350001 Ir1Si3 Ir1Si3 Ir 1 Si 3 1963 Na3As "Na3As, D0[18]" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101585 498 Ir0.33V2.67 Ir0.33V2.67 Ir 0.33 V 2.67 1965 K 1.39 1.39 SUPERCONDUCTIVITY OF NB3GE 1965 "PHYS.REV.,139(1965)A1501"
101586 948 Ir1V3 Ir1V3 Ir 1 V 3 1970 Cr3Si(A15) "Cr3Si, A15" K 0.015 1970 "J.PHYS.CHEM.SOLIDS, 31(1970)1531"
101587 1299 Ir1V1 Ir1V1 Ir 1 V 1 1966 orthorhombic K 1.6 1966 "PHYS.STAT.SOL.,13(1966)423"
101588 1299 Ir1V1 Ir1V1 Ir 1 V 1 1966 AuCu "AuCu, L1[0]" K 1.36 1966 "PHYS.STAT.SOL.,13(1966)423"
101589 1299 Ir2U1 Ir2U1 Ir 2 U 1 1966 AuCu3 "AuCu3, L1[2]" K 4.2 1966 "PHYS.STAT.SOL.,13(1966)423"
101590 RMP0350001 Ir3V1 Ir3V1 Ir 3 V 1 1963 MgCu2(Laves) "MgCu2, C15" K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101591 412 Ir3U3 Ir3U1 Ir 3 U 1 AuCu3 "AuCu3, L1[2]" K 1.2 "From Roberts' Table, Private communication" Private communication
101592 717 Ir0.04Ti0.96 Ir0.04Ti0.96 Ir 0.04 Ti 0.96 1964 cubic K 1.6 1.6 "Superconductivity of Solid Solutions of Ti and Zr with Co, Rh, and Ir " 1964 "PHYS.REV.,133(1964)A932"
101593 717 Ir0.1Ti0.9 Ir0.1Ti0.9 Ir 0.1 Ti 0.9 1964 cubic K 4.3 4.3 "Superconductivity of Solid Solutions of Ti and Zr with Co, Rh, and Ir " 1964 "PHYS.REV.,133(1964)A932"
101594 1446 Ir1Ti3 Ir1Ti3 Ir 1 Ti 3 1972 Cr3Si(A15) "Cr3Si, A15" K 4.97 4.97 1972 "J.LOW TEMP.PHYS.,6(1972)171"
101595 173 Ir3Th7 Ir3Th7 Ir 3 Th 7 1961 Fe3Th7 "Fe3Th7, D10[2]" K 1.52 1.52 1961 "J.PHYS.CHEM.SOLIDS,19(1961)130"
101596 469 Ir1Th1 Ir1Th1 Ir 1 Th 1 1965 K 0.37 0.37 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101597 1476 Ir1Zr3 Ir1Zr3 Ir 1 Zr 3 1971 tetragonal K 2.13 2.13 1971 "J.LOW TEMP.PHYS.,4(1971)489"
101598 1476 Ir3Zr5 Ir3Zr5 Ir 3 Zr 5 1971 Mn5Si3 "Mn5Si3, D8[8]" K 1.2 1971 "J.LOW TEMP.PHYS.,4(1971)489"
101599 1476 Ir1Zr2 Ir1Zr2 Ir 1 Zr 2 1971 CuAl2 "CuAl2, C16" K 7.23 7.23 1971 "J.LOW TEMP.PHYS.,4(1971)489"
101600 173 Ir2Zr1 Ir2Zr1 Ir 2 Zr 1 1961 MgCu2(Laves) "MgCu2, C15" K 4.1 4.1 1961 "J.PHYS.CHEM.SOLIDS,19(1961)130"
101601 247 Ir2Yb1 Ir2Yb1 Ir 2 Yb 1 1959 K 1.3 MAGNETIZATION OF COMPOUNDS OF RARE EARTHS WITH PLATINUM METALS 1959 "PHYS.REV.,115(1959)1595"
101602 469 Ir0.7Y0.3 Ir0.7Y0.3 Ir 0.7 Y 0.3 1965 MgCu2(Laves) "MgCu2, C15" K 2.16 2.16 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101603 469 Ir1Y4 Ir1Y4 Ir 1 Y 4 1965 K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101604 469 Ir2Y3 Ir2Y3 Ir 2 Y 3 1965 K 1.61 1.61 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101605 127 Ir2Y1 Ir2Y1 Ir 2 Y 1 1959 MgCu2(Laves) "MgCu2, C15" K 2.18 2.18 1959 "ACTA CRYST.,12(1959)651"
101606 469 Ir3Y1 Ir3Y1 Ir 3 Y 1 1965 K 3.5 3.5 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101607 33 Ir0.25W0.75 Ir0.25W0.75 Ir 0.25 W 0.75 1955 K 3.82 3.82 Empirical Relation between Superconductivity and the Number of Valence Electrons per Atom 1955 "Phys.Rev.,97(1955)74"
101608 295 Ir0.28W0.72 Ir0.28W0.72 Ir 0.28 W 0.72 1962 sigma-CrFe "sigma-CrFe, D8[b]" K 4.46 4.46 FROM Roberts' Table. 1962 "LT-8(1962, London ) paper 4.8"
101609 1271 La0.98Lu0.02 La0.98Lu0.02 La 0.98 Lu 0.02 1970 K 4.643 4.643 Coexistence of superconductivity and short-range magnetic order 1970 "PHYS.REV.B,2(1970)1287"
101610 115 La0.99Lu0.01 La0.99Lu0.01 La 0.99 Lu 0.01 1958 hexagonal K 5.6 5.6 SPIN EXCHANGE IN SUPERCONDUCTORS 1958 "PHYS.REV.LETT.,1(1958)92,152E"
101611 11 K1Sb1 K1Sb1 K 1 Sb 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
101612 1212 K0.3O3Re1 K0.3O3Re1 K 0.3 O 3 Re 1 1969 hexagonal K 3.6 3.6 1969 "SOLID STATE COMMUN.,7(1969)299"
101613 1974 K0.28Mo1S2 K0.28Mo1S2 K 0.28 Mo 1 S 2 1971 K 6.2 6.2 1971 "JPL QUARTERLY TECH.REV.,1(1971)33"
101614 1920 K0.4Mo1S2 K0.4Mo1S2 K 0.4 Mo 1 S 2 1973 3R-MoS2 A 3.2072 24.7915 hexagonal K 5.5 5.5 Alkali metal intercalates of molybdenum disulfide 1973 "J.CHEM.PHYS.,58(1973)697"
101615 1920 K0.4Mo1S2 K0.4Mo1S2 K 0.4 Mo 1 S 2 1973 2H-MoS2 A 3.2036 16.5804 hexagonal K 6.1 6.1 Alkali metal intercalates of molybdenum disulfide 1973 "J.CHEM.PHYS.,58(1973)697"
101616 1212 K0.9Mo1O3 K0.9Mo1O3 K 0.9 Mo 1 O 3 1969 K 1.3 1969 "SOLID STATE COMMUN.,7(1969)299"
101617 1212 K0.5Mo1O3 K0.5Mo1O3 K 0.5 Mo 1 O 3 1969 tetragonal K 4.2 4.2 1969 "SOLID STATE COMMUN.,7(1969)299"
101618 23 K1 K1 K 1 1951 W "W, A2" K 0.08 1951 "Nature, 167(1951)111"
101619 1438 Ir0.25Zr0.75 Ir0.25Zr0.75 Ir 0.25 Zr 0.75 1974 K 8 8 1974 "J.APPL.PHYS.,45(1974)447"
101620 32 Ir0.1Zr0.9 Ir0.1Zr0.9 Ir 0.1 Zr 0.9 1955 hexagonal K 5.5 5.5 Superconductivity of zirconium alloys 1955 "Phys.Rev., 100(1955)626"
101621 469 La1Pt2 La1Pt2 La 1 Pt 2 1965 MgCu2(Laves) "MgCu2, C15" K 0.46 0.46 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101622 1490 La0.98Pr0.02Ru2 La0.98Pr0.02Ru2 La 0.98 Pr 0.02 Ru 2 1972 MgCu2(Laves) "MgCu2, C15" K 1.92 1.92 Superconducting and magnetic properties of La1-xGdxRu2 and La1-xPrxRu2 mixed crystals 1972 "PHYS.LETT.A,40(1972)387"
101623 115 La0.99Pr0.01 La0.99Pr0.01 La 0.99 Pr 0.01 1958 K 5.3 5.3 SPIN EXCHANGE IN SUPERCONDUCTORS 1958 "PHYS.REV.LETT.,1(1958)92,152E"
101624 768 La1Pb3 La1Pb3 La 1 Pb 3 1968 AuCu3 "AuCu3, L1[2]" K 4.07 4.07 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
101625 1375 La1Os2 La1Os2 La 1 Os 2 1973 MgZn2(Laves) "MgZn2, C14" K 6.5 6.5 1973 "J.LESS-COMMON METALS,32(1973)173"
101626 1897 La1Os2 La1Os2 La 1 Os 2 1975 MgCu2(Laves) "MgCu2, C15" K 8.9 8.9 1975 "SOLID STATE COMMUN.,16(1975)341"
101627 1565 La1 La1 La 1 1971 K 3.3 3.3 1971 "PHYSICA,55(1971)555"
101628 668 La1N1 La1N1 La 1 N 1 1965 K 1.35 1.35 1965 "PHYS.LETT.,14(1965)261"
101629 1759 La0.2Mo6.35Pb0.8S8 La0.2Mo6.35Pb0.8S8 La 0.2 Mo 6.35 Pb 0.8 S 8 1974 K 13.2 13.2 1974 "J.PHYS.C:SOLID STATE PHYS.,7(1974)1450"
101630 658 La1Mg2 La1Mg2 La 1 Mg 2 1967 MgCu2(Laves) "MgCu2, C15" K 1.05 1.05 Superconductivity of lanthanum and lanthanum compounds at zero and high pressure 1967 "J.PHYS.CHEM.SOLIDS,28(1967)569"
101631 22 La0.55Lu0.45 La0.55Lu0.45 La 0.55 Lu 0.45 1958 hexagonal K 2.2 2.2 Superconductivity of Lanthanum and Some Lanthanum Alloys 1958 "Phys.Rev., 109(1958)243"
101632 22 La0.8Lu0.2 La0.8Lu0.2 La 0.8 Lu 0.2 1958 hexagonal K 3.4 3.4 Superconductivity of Lanthanum and Some Lanthanum Alloys 1958 "Phys.Rev., 109(1958)243"
101633 808 La1Si2 La1Si2 La 1 Si 2 1966 ThSi2 "ThSi2, C[c]" K 2.3 2.3 FROM Roberts' Table. 1966 "Ann.Acad.Sci.Finnicae A, VI No.210(1966)p=92"
101634 288 La5Si3 La5Si3 La 5 Si 3 1962 K 1.6 1.6 1962 "BULL.AMER.PHYS.SOC.,7(1962)474,621"
101635 1965 La2.4Se4Y0.6 La2.4Se4Y0.6 La 2.4 Se 4 Y 0.6 1975 Th3P4 A 9.004 "Th3P4, D7[3]" K 3.92 3.92 mj/mol.K2 4.5 221 Magnetic and some thermal properties of chalcogenides of Pr and Tm and a few other rare earths 1975 "PHYS.REV.B,11(1975)500"
101636 1965 La3Se4 La3Se4 La 3 Se 4 1975 Th3P4 A 9.06 "Th3P4, D7[3]" K 7.8 7.8 mj/mol.K2 6.3 195 Magnetic and some thermal properties of chalcogenides of Pr and Tm and a few other rare earths 1975 "PHYS.REV.B,11(1975)500"
101637 1965 La1Se1 La1Se1 La 1 Se 1 1975 NaCl A 6.06 "NaCl, B1" K 1.02 1.02 mj/mol.K2 3.77 231 Magnetic and some thermal properties of chalcogenides of Pr and Tm and a few other rare earths 1975 "PHYS.REV.B,11(1975)500"
101638 1965 La2.4S4Y0.6 La2.4S4Y0.6 La 2.4 S 4 Y 0.6 1975 Th3P4 A 8.67 "Th3P4, D7[3]" K 4.77 4.77 mj/mol.K2 6.2 252 Magnetic and some thermal properties of chalcogenides of Pr and Tm and a few other rare earths 1975 "PHYS.REV.B,11(1975)500"
101639 1965 La3S4 La3S4 La 3 S 4 1975 Th3P4 A 8.73 "Th3P4, D7[3]" K 8.06 8.06 mj/mol.K2 7.2 230 Magnetic and some thermal properties of chalcogenides of Pr and Tm and a few other rare earths 1975 "PHYS.REV.B,11(1975)500"
101640 1965 La1S1 La1S1 La 1 S 1 1975 NaCl A 5.856 "NaCl, B1" K 0.84 0.84 mj/mol.K2 3.28 276 Magnetic and some thermal properties of chalcogenides of Pr and Tm and a few other rare earths 1975 "PHYS.REV.B,11(1975)500"
101641 1026 La1Ru2 La1Ru2 La 1 Ru 2 1970 MgCu2(Laves) "MgCu2, C15" K 4.1 4.1 1970 "PHYS.LETT.A,33(1970)61"
101642 469 La7Rh3 La7Rh3 La 7 Rh 3 1965 Fe3Th7 "Fe3Th7, D10[2]" K 2.58 2.58 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101643 469 La1Rh5 La1Rh5 La 1 Rh 5 1965 K 1.62 1.62 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101644 469 La1Rh3 La1Rh3 La 1 Rh 3 1965 K 2.6 2.6 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101645 1856 La0.7Y0.3 La0.7Y0.3 La 0.7 Y 0.3 1974 hexagonal K 1.85 1.85 1974 "J.PHYS.SOC.JAPAN,36(1974)1485"
101646 808 La0.75Y0.25 La0.75Y0.25 La 0.75 Y 0.25 1966 K 2.5 2.5 FROM Roberts' Table. 1966 "Ann.Acad.Sci.Finnicae A, VI No.210(1966)p=92"
101647 856 La0.85Y0.15 La0.85Y0.15 La 0.85 Y 0.15 1968 hexagonal K 3.06 3.06 1968 "PHYS.LETT.A,27(1968)264"
101648 22 La0.95Y0.05 La0.95Y0.05 La 0.95 Y 0.05 1958 K 5.4 5.4 Superconductivity of Lanthanum and Some Lanthanum Alloys 1958 "Phys.Rev., 109(1958)243"
101649 1240 La1Tl3 La1Tl3 La 1 Tl 3 1968 AuCu3 "AuCu3, L1[2]" K 1.57 1.57 1968 "J.PHYS.CHEM.SOLIDS,29(1968)295"
101650 1564 La3Tl1 La3Tl1 La 3 Tl 1 1973 AuCu3 "AuCu3, L1[2]" K 8.86 8.86 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
101651 1370 La3Te4 La3Te4 La 3 Te 4 1973 Th3P4 "Th3P4, D7[3]" K 5.3 5.3 FROM Roberts' Table. 1973 personal commun.
101652 1370 La1Te1 La1Te1 La 1 Te 1 1973 NaCl "NaCl, B1" K 1.48 1.48 FROM Roberts' Table. 1973 personal commun.
101653 1329 La0.84Sn3Tm0.16 La0.84Sn3Tm0.16 La 0.84 Sn 3 Tm 0.16 1973 K 3.3 3.3 1973 "SOLID STATE COMMUN.,13(1973)25"
101654 1240 La1Sn3 La1Sn3 La 1 Sn 3 1968 AuCu3 "AuCu3, L1[2]" K 6.5 6.5 1968 "J.PHYS.CHEM.SOLIDS,29(1968)295"
101655 1913 La0.06Si1V2.94 La0.06Si1V2.94 La 0.06 Si 1 V 2.94 1965 Cr3Si(A15) "Cr3Si, A15" K 15.92 15.92 1965 "AZV.AKAD.NAUK SSSR,1(1965)354"
101656 1913 La0.006Si1V2.994 La0.006Si1V2.994 La 0.006 Si 1 V 2.994 1965 Cr3Si(A15) "Cr3Si, A15" K 16.48 16.48 1965 "AZV.AKAD.NAUK SSSR,1(1965)354"
101657 469 Lu0.275Rh0.725 Lu0.275Rh0.725 Lu 0.275 Rh 0.725 1965 MgCu2(Laves) "MgCu2, C15" K 1.27 1.27 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101658 469 Lu1Rh5 Lu1Rh5 Lu 1 Rh 5 1965 K 0.49 0.49 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
101659 127 Lu1Os2 Lu1Os2 Lu 1 Os 2 1959 MgZn2(Laves) "MgZn2, C14" K 3.49 3.49 1959 "ACTA CRYST.,12(1959)651"
101660 85 Li1Pb1 Li1Pb1 Li 1 Pb 1 1932 K 7.2 7.2 From Roberts' Table 1932 "Z.Elektrochem., 38(1932)312"
101661 1379 Li0.3O3W1 Li0.3O3W1 Li 0.3 O 3 W 1 1968 hexagonal K 2.2 2.2 1968 "INORGANIC CHEM.,7(1968)1646"
101662 1920 Li-content x is not described ( 0.4=) measurements Nb0.85Zr0.15 Nb0.85Zr0.15 Nb 0.85 Zr 0.15 1967 K 10.8 10.8 mj/mol.K2 10.5 234 Nuclear magnetic resonance and specific heat measurements of transition metal and alloys; Ti-V-Fe and Zr-Nb-Mo systems 1967 "J.PHYS.SOC.JAPAN,22(1967)238"
101968 1707 Nb0.5V1.5Zr1 Nb0.5V1.5Zr1 Nb 0.5 V 1.5 Zr 1 1968 MgZn2(Laves) "MgZn2, C14" K 4.3 4.3 Influence of niobium on the superconducting properties of alloys on a base of the compound ZrV2 1968 Soviet Physics - Doklady 13(1968)162
101969 32 Ni0.1Zr0.9 Ni0.1Zr0.9 Ni 0.1 Zr 0.9 1955 hexagonal K 1.5 1.5 Superconductivity of zirconium alloys 1955 "Phys.Rev., 100(1955)626"
101970 1355 Ni1Zr2 Ni1Zr2 Ni 1 Zr 2 1970 CuAl2 "CuAl2, C16" K 1.6 1.6 1970 "J.PHYS.SOC.JAPAN,29(1970)879"
101971 RMP0350001 Ni0.5V0.16Zr0.34 Ni0.5V0.16Zr0.34 Ni 0.5 V 0.16 Zr 0.34 1963 MgCu2(Laves) "MgCu2, C15" K 0.43 0.43 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101972 707 Ni0.22V0.78 Ni0.22V0.78 Ni 0.22 V 0.78 1969 Cr3Si(A15) "Cr3Si, A15" K 0.35 0.35 1969 "LOW TEMP.PHYS.,1(1969)539"
101973 1866 Ni1U6 Ni1U6 Ni 1 U 6 1975 U6Mn "MnU6, D2[c]" K 0.86 0.86 "Lattice parameters and superconductivity of the compounds U6Mn, U6Fe, U6Co and U6Ni and alloys between them" 1975 "J.Phys.Chem.Solids, 36(1975)123"
101974 173 Ni3Th7 Ni3Th7 Ni 3 Th 7 1961 Fe3Th7 "Fe3Th7, D10[2]" K 1.98 1.98 1961 "J.PHYS.CHEM.SOLIDS,19(1961)130"
101975 1377 Ni1Ta2 Ni1Ta2 Ni 1 Ta 2 1972 CuAl2 "CuAl2, C16" K 0.9 0.9 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
101976 1060 Ni0.05Rh0.04Ti0.91 Ni0.05Rh0.04Ti0.91 Ni 0.05 Rh 0.04 Ti 0.91 1964 K 3.5 3.5 1964 "Z.PHYS.,178(1964)216"
101977 301 Ni0.1Pd0.9Te2 Ni0.1Pd0.9Te2 Ni 0.1 Pd 0.9 Te 2 1961 CdI2 "CdI2, C6" K 1.3 1.3 "PdTe2, ein Supraleiter mit CdJ2-Structur" 1961 "HELV.PHYS.ACTA,34(1961)408"
101978 301 Ni0.05Pd0.95Te2 Ni0.05Pd0.95Te2 Ni 0.05 Pd 0.95 Te 2 1961 CdI2 "CdI2, C6" K 1.4 1.4 "PdTe2, ein Supraleiter mit CdJ2-Structur" 1961 "HELV.PHYS.ACTA,34(1961)408"
101979 1438 Nb0.2Zr0.8 Nb0.2Zr0.8 Nb 0.2 Zr 0.8 1974 K 9.2 9.2 1974 "J.APPL.PHYS.,45(1974)447"
101980 1740 Nb0.04Zr0.96 Nb0.04Zr0.96 Nb 0.04 Zr 0.96 1967 K 4.9 4.9 1967 "FIZ.METAL.METALLOVED.,23(1967)871"
101981 644 O3Tl0.03W1 O3Tl0.03W1 O 3 Tl 0.03 W 1 1966 hexagonal K 2.14 2.14 1966 "SOLID STATE COMMUN.,4(1966)25"
101982 1450 O1.07Ti1 O1.07Ti1 O 1.07 Ti 1 1972 NaCl "NaCl, B1" K 1 1 Superconductivity in the TiO and NbO systems 1972 "J.LOW TEMP.PHYS.,7(1972)291"
101983 1472 O1Ti1 O1Ti1 O 1 Ti 1 1972 monoclinic K 1.06 1.06 "Superconductivity in cubic and monoclinic ""TiO""" 1972 "J.APPL.PHYS.,43(1972)2478"
101984 1542 O1Ti1 O1Ti1 O 1 Ti 1 1971 NaCl "NaCl, B1" K 0.6 0.6 1971 "PHYSICA,55(1971)60"
101985 644 O3Sr0.08W1 O3Sr0.08W1 O 3 Sr 0.08 W 1 1966 hexagonal K 4 4 1966 "SOLID STATE COMMUN.,4(1966)25"
101986 84 O1Sn1 O1Sn1 O 1 Sn 1 1933 K 3.81 3.81 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
101987 RMP0350001 O0.105Rh0.285Zr0.61 O0.105Rh0.285Zr0.61 O 0.105 Rh 0.285 Zr 0.61 1963 Fe3W3C "Fe3W3C, E9[3]" K 11.8 11.8 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101988 RMP0350001 O0.14Rh0.287Ti0.573 O0.14Rh0.287Ti0.573 O 0.14 Rh 0.287 Ti 0.573 1963 Fe3W3C "Fe3W3C, E9[3]" K 3.37 3.37 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101989 181 O1Re1Ti1 O1Re1Ti1 O 1 Re 1 Ti 1 K 5.74 5.74 "From Roberts' Table, unpublished results" Unpublished results
101990 1883 O3Rb0.33W1 O3Rb0.33W1 O 3 Rb 0.33 W 1 1975 K 7.7 7.7 "Ph.D thesis , Stanford Univ.(1969) quoted in this paper" 1975 "J.Solid State Chem., 12(1975)362"
101991 RMP0350001 O0.105Pd0.285Zr0.61 O0.105Pd0.285Zr0.61 O 0.105 Pd 0.285 Zr 0.61 1963 Fe3W3C "Fe3W3C, E9[3]" K 2.09 2.09 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101992 1542 O1b1 Nb1O1 Nb 1 O 1 1971 NaCl "NaCl, B1" K 1.39 1.39 1971 "PHYSICA,55(1971)60"
101993 RMP0350001 Os1Ti1 Os1Ti1 Os 1 Ti 1 1963 CsCl "CsCl, B2" K 0.46 0.46 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
101994 173 Os3Th7 Os3Th7 Os 3 Th 7 1961 Fe3Th7 "Fe3Th7, D10[2]" K 1.51 1.51 1961 "J.PHYS.CHEM.SOLIDS,19(1961)130"
101995 173 Os1Ta1 Os1Ta1 Os 1 Ta 1 1961 alpha-Mn "alpha-Mn, A12" K 1.95 1.95 1961 "J.PHYS.CHEM.SOLIDS,19(1961)130"
101996 127 Os2Sc1 Os2Sc1 Os 2 Sc 1 1959 MgZn2(Laves) "MgZn2, C14" K 4.6 4.6 1959 "ACTA CRYST.,12(1959)651"
101997 1060 Os0.05Rh0.04Ti0.91 Os0.05Rh0.04Ti0.91 Os 0.05 Rh 0.04 Ti 0.91 1964 K 3.5 3.5 1964 "Z.PHYS.,178(1964)216"
101998 1368 Os0.97Rh0.03 Os0.97Rh0.03 Os 0.97 Rh 0.03 1972 hexagonal K 0.09 0.09 data quoted in this paper 1972 "J.Less-Common Metals, 26(1972)319"
101999 171 Os1Re1Y1 Os1Re1Y1 Os 1 Re 1 Y 1 1960 K 2 2 1960 "J.APPL.PHYS.,31(1960)23S"
102000 1646 Os0.058Re0.942 Os0.058Re0.942 Os 0.058 Re 0.942 1971 hexagonal K 1.93 1.93 1971 "PHYS.REV.B,3(1971)3757"
102001 569 Os1 Os1 Os 1 1965 Mg "Mg, A3" K 0.66 0.66 1965 "CROGENICS,5(1965)283"
102002 503 films by vacuum evaporation O1W3 O1W3 O 1 W 3 1965 Cr3Si(A15) "Cr3Si, A15" K 3.35 3.35 SUPERCONDUCTIVITY IN FILMS OF BETA TUNGSTEN AND OTHER TRANSITION METALS 1965 "PHYS.REV.LETT.,15(1965)260"
102003 RMP0350001 O1V3Zr3 O1V3Zr3 O 1 V 3 Zr 3 1963 Fe3W3C "Fe3W3C, E9[3]" K 7.5 7.5 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102004 248 O0.03V0.97 O0.03V0.97 O 0.03 V 0.97 cubic K 2.4 2.4 FROM Roberts' Table. unpublished
102005 85 P1Pb1 P1Pb1 P 1 Pb 1 1932 K 7.8 7.8 From Roberts' Table 1932 "Z.Elektrochem., 38(1932)312"
102006 32 Os0.06Zr0.94 Os0.06Zr0.94 Os 0.06 Zr 0.94 1955 hexagonal K 5.6 5.6 Superconductivity of zirconium alloys 1955 "Phys.Rev., 100(1955)626"
102007 173 Os2Zr1 Os2Zr1 Os 2 Zr 1 1961 MgZn2(Laves) "MgZn2, C14" K 3 3 1961 "J.PHYS.CHEM.SOLIDS,19(1961)130"
102008 1478 Os2Y1 Os2Y1 Os 2 Y 1 1971 MgZn2(Laves) "MgZn2, C14" K 4.7 4.7 1971 "J.LOW TEMP.PHYS.,4(1971)669"
102009 266 Os0.075W0.925 Os0.075W0.925 Os 0.075 W 0.925 1962 cubic K 0.9 0.9 1962 "IBM J.RES.DEV.,6(1962)116"
102010 266 Os0.1W0.9 Os0.1W0.9 Os 0.1 W 0.9 1962 K 1.5 1.5 1962 "IBM J.RES.DEV.,6(1962)116"
102011 266 Os0.15W0.85 Os0.15W0.85 Os 0.15 W 0.85 1962 K 2.2 2.2 1962 "IBM J.RES.DEV.,6(1962)116"
102012 33 Os0.25W0.75 Os0.25W0.75 Os 0.25 W 0.75 1955 K 3.02 3.02 Empirical Relation between Superconductivity and the Number of Valence Electrons per Atom 1955 "Phys.Rev.,97(1955)74"
102013 276 Os0.34W0.66 Os0.34W0.66 Os 0.34 W 0.66 1961 sigma-CrFe "sigma-CrFe, D8[b]" K 3.81 3.81 1961 "HELV.PHYS.ACTA,343(1961)843"
102014 182 Os0.74W0.26 Os0.74W0.26 Os 0.74 W 0.26 1961 sigma-CrFe "sigma-CrFe, D8[b]" K 4.4 4.4 1961 "J.PHYS.CHEM.SOLIDS,19(1961)134"
102015 948 Os0.5V0.5 Os0.5V0.5 Os 0.5 V 0.5 1970 Cr3Si(A15) "Cr3Si, A15" K 5.15 5.15 1970 "J.PHYS.CHEM.SOLIDS, 31(1970)1531"
102016 707 Os0.55V0.45 Os0.55V0.45 Os 0.55 V 0.45 1969 Cr3Si(A15) "Cr3Si, A15" K 5.04 5.04 1969 "LOW TEMP.PHYS.,1(1969)539"
102017 756 Pb1Pt1 Pb1Pt1 Pb 1 Pt 1 1964 K 7.2 7.2 1964 "PHYS.REV.,136(1964)A637"
102018 229 Pb0.8Pt0.2 Pb0.8Pt0.2 Pb 0.8 Pt 0.2 1962 K 2.8 2.8 1962 "J.PHYS.CHEM.SOLIDS,23(1962)405"
102019 1377 Pb2Pd1 Pb2Pd1 Pb 2 Pd 1 1972 CuAl2 "CuAl2, C16" K 3.01 3.01 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
102020 1193 Pb1Mo6S7 Pb1Mo6S7 Pb 1 Mo 6 S 7 1972 K 11.1 11.1 1972 "SCI.,177(1972)267"
102021 1709 Pb1 Pb1 Pb 1 1972 Cu "Cu, A1" K 7.195 7.195 1972 "PHYS.REV.B,5(1972)4357"
102022 1936 Pa0.75Zr0.25 Pa0.75Zr0.25 Pa 0.75 Zr 0.25 1974 K 1.54 1.54 FROM Roberts' Table. 1974 LT-13(1974)vol.3 p=377
102023 504 Pa1 Pa1 Pa 1 1965 tetragonal K 1.4 1.4 SUPERCONDUCTIVITY OF PROTACTINIUM 1965 "PHYS.REV.LETT.,15(1965)860"
102024 601 P1W3 P1W3 P 1 W 3 1965 Ni3P "Ni3P, D0[e]" K 2.76 2.76 Superconducting phosphides of the transition metals 1965 "J.PHYS.CHEM.SOL.,26(1965)2037"
102025 1382 P1Sn1 P1Sn1 P 1 Sn 1 1970 NaCl "NaCl, B1" K 4 4 1970 "INORGANIC CHEM.,9(1970)335"
102026 1976 P0.3si0.7V3 P0.3Si0.7V3 P 0.3 Si 0.7 V 3 1971 Cr3Si(A15) "Cr3Si, A15" K 14.75 14.75 1971 "ANN.CHEM.,6(1971)309"
102027 1976 P0.2Si0.8V3 P0.2Si0.8V3 P 0.2 Si 0.8 V 3 1971 Cr3Si(A15) "Cr3Si, A15" K 16.6 16.6 1971 "ANN.CHEM.,6(1971)309"
102028 491 P1Rh2 P1Rh2 P 1 Rh 2 1963 CaF2 "CaF2, C1" K 1.03 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
102029 715 Pb3Th1 Pb3Th1 Pb 3 Th 1 1970 AuCu3 "AuCu3, L1[2]" K 5.55 5.55 1970 "J.PHYS.CHEM.SOLIDS,31(1970)2653"
102030 715 Pb3Sr1 Pb3Sr1 Pb 3 Sr 1 1970 tetragonal K 1.85 1.85 1970 "J.PHYS.CHEM.SOLIDS,31(1970)2653"
102031 1491 quench condensed at 0.4 K Pb0.9Sn0.1 Pb0.9Sn0.1 Pb 0.9 Sn 0.1 1973 K 7.17 7.17 1973 "J.LOW TEMP.PHYS.,13(1973)1"
102032 1153 Pb0.01Sn0.99 Pb0.01Sn0.99 Pb 0.01 Sn 0.99 1967 K 3.752 3.752 1967 "PHYS.REV.,154(1967)329"
102033 1917 Pb0.28Sn0.72 Pb0.28Sn0.72 Pb 0.28 Sn 0.72 1969 K 7.05 7.05 1969 "REV.SCI.INSTRUMENTS,40(1969)180"
102034 1917 Pb0.36Sn0.64 Pb0.36Sn0.64 Pb 0.36 Sn 0.64 1969 K 7.75 7.75 1969 "REV.SCI.INSTRUMENTS,40(1969)180"
102035 1917 Pb0.57Sn0.43 Pb0.57Sn0.43 Pb 0.57 Sn 0.43 1969 K 7.45 7.45 1969 "REV.SCI.INSTRUMENTS,40(1969)180"
102036 1491 quench condensed at 0.4 K Pb0.9Sb0.1 Pb0.9Sb0.1 Pb 0.9 Sb 0.1 1973 K 6.28 6.28 1973 "J.LOW TEMP.PHYS.,13(1973)1"
102037 109 eutectec Pb1Sb1 Pb1Sb1 Pb 1 Sb 1 1930 K 6.6 6.6 1930 "ROY.SOC.CANADA TRANS.,24(1930)25"
102038 778 Pb1S3Ta1 Pb1S3Ta1 Pb 1 S 3 Ta 1 1970 tetragonal K 3.11 3.11 1970 "PHYS.LETT.A,31(1970)551"
102039 1377 Pb1.9Rh1 Pb1.9Rh1 Pb 1.9 Rh 1 1972 CuAl2 "CuAl2, C16" K 1.32 1.32 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
102040 229 Pb2Rh1 Pb2Rh1 Pb 2 Rh 1 1962 CuAl2 "CuAl2, C16" K 2.66 2.66 1962 "J.PHYS.CHEM.SOLIDS,23(1962)405"
102041 1491 quench condensed at 0.4 K Pb0.9Zn0.1 Pb0.9Zn0.1 Pb 0.9 Zn 0.1 1973 K 7.12 7.12 1973 "J.LOW TEMP.PHYS.,13(1973)1"
102042 715 Pb3Yb1 Pb3Yb1 Pb 3 Yb 1 1970 AuCu3 "AuCu3, L1[2]" K 0.23 0.23 1970 "J.PHYS.CHEM.SOLIDS,31(1970)2653"
102043 715 Pb3Y1 Pb3Y1 Pb 3 Y 1 1970 AuCu3 "AuCu3, L1[2]" K 4.72 4.72 1970 "J.PHYS.CHEM.SOLIDS,31(1970)2653"
102044 82 Pb1Tl2 Pb1Tl2 Pb 1 Tl 2 1935 K 4.1 4.1 FROM Roberts' Table. 1935 "Phys.Z.Sowjetunion, 7(1935)122"
102045 74 Pb0.35Tl0.65 Pb0.35Tl0.65 Pb 0.35 Tl 0.65 1935 K 3.8 3.8 FROM Roberts' Table. 1935 "Proc.Kon.Akad.Amsterdam, 38(1935)2"
102046 403 Pb0.6Tl0.4 Pb0.6Tl0.4 Pb 0.6 Tl 0.4 1931 K 5.8 5.8 1931 "COMM.KAMERLINGH ONNES LAB.,19(1931)214B"
102047 1200 Pb0.73Tl0.27 Pb0.73Tl0.27 Pb 0.73 Tl 0.27 1965 K 6.43 6.43 1965 "J.APPL.PHYS.,36(1965)2895"
102048 653 Pb0.79Tl0.21 Pb0.79Tl0.21 Pb 0.79 Tl 0.21 1966 K 6.43 6.43 1966 "J.PHYS.CHEM.SOLIDS,27(1966)1863"
102049 653 Pb0.85Tl0.15 Pb0.85Tl0.15 Pb 0.85 Tl 0.15 1966 K 6.73 6.73 1966 "J.PHYS.CHEM.SOLIDS,27(1966)1863"
102050 653 Pb0.89Tl0.11 Pb0.89Tl0.11 Pb 0.89 Tl 0.11 1966 K 6.88 6.88 1966 "J.PHYS.CHEM.SOLIDS,27(1966)1863"
102051 653 Pb0.93Tl0.075 Pb0.93Tl0.075 Pb 0.93 Tl 0.075 1966 K 6.98 6.98 1966 "J.PHYS.CHEM.SOLIDS,27(1966)1863"
102052 653 Pb0.96Tl0.04 Pb0.96Tl0.04 Pb 0.96 Tl 0.04 1966 K 7.06 7.06 1966 "J.PHYS.CHEM.SOLIDS,27(1966)1863"
102053 RMP0350001 Pd1Sb2 Pd1Sb2 Pd 1 Sb 2 1963 FeS2(pyrite) "FeS2(pyrite), C2" K 1.25 1.25 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102054 1296 Pd1Sb1 Pd1Sb1 Pd 1 Sb 1 1968 NiAs "NiAs, B8[1]" K 1.66 1.66 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
102055 491 rapid quench Pd2.2S1 Pd2.2S1 Pd 2.2 S 1 1963 A 8.93 cubic K 1.63 1.63 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
102056 32 Pd0.05Ru0.05Zr0.9 Pd0.05Ru0.05Zr0.9 Pd 0.05 Ru 0.05 Zr 0.9 1955 K 9 9 Superconductivity of zirconium alloys 1955 "Phys.Rev., 100(1955)626"
102057 1372 Pd0.02Rh0.31Zr0.67 Pd0.02Rh0.31Zr0.67 Pd 0.02 Rh 0.31 Zr 0.67 1972 CuAl2 "CuAl2, C16" K 9.85 9.85 1972 "J.LESS-COMMON METALS,27(1972)169"
102058 1372 Pd0.4Rh0.29Zr0.67 Pd0.04Rh0.29Zr0.67 Pd 0.04 Rh 0.29 Zr 0.67 1972 CuAl2 "CuAl2, C16" K 8.56 8.56 1972 "J.LESS-COMMON METALS,27(1972)169"
102059 1060 Pd0.05Rh0.04Ti0.91 Pd0.05Rh0.04Ti0.91 Pd 0.05 Rh 0.04 Ti 0.91 1964 K 3.7 3.7 1964 "Z.PHYS.,178(1964)216"
102060 301 Pd0.95Rh0.05Te2 Pd0.95Rh0.05Te2 Pd 0.95 Rh 0.05 Te 2 1961 CdI2 "CdI2, C6" K 1.65 1.65 "PdTe2, ein Supraleiter mit CdJ2-Structur" 1961 "HELV.PHYS.ACTA,34(1961)408"
102061 301 Pd0.95Pt0.05Te2 Pd0.95Pt0.05Te2 Pd 0.95 Pt 0.05 Te 2 1961 CdI2 "CdI2, C6" K 1.71 1.71 "PdTe2, ein Supraleiter mit CdJ2-Structur" 1961 "HELV.PHYS.ACTA,34(1961)408"
102062 301 Pd0.9Pt0.1Te2 Pd0.9Pt0.1Te2 Pd 0.9 Pt 0.1 Te 2 1961 CdI2 "CdI2, C6" K 1.65 1.65 "PdTe2, ein Supraleiter mit CdJ2-Structur" 1961 "HELV.PHYS.ACTA,34(1961)408"
102063 RMP0350001 Pb1Zr3 Pb1Zr3 Pb 1 Zr 3 1963 Cr3Si(A15) "Cr3Si, A15" K 0.76 0.76 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102064 RMP0350001 Pb3Zr5 Pb3Zr5 Pb 3 Zr 5 1963 Mn5Si3 "Mn5Si3, D8[8]" K 4.6 4.6 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102065 491 Pd1Sn1 Pd1Sn1 Pd 1 Sn 1 1963 MnP A 3.87 6.13 6.32 "MnP, B31" K 0.41 0.41 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
102066 491 Pd3Sn2 Pd3Sn2 Pd 3 Sn 2 1963 Ni2In "Ni2In, B8[2]" K 0.64 0.64 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
102067 491 Pd2Sn1 Pd2Sn1 Pd 2 Sn 1 1963 Co2Si A 8.12 5.65 4.31 "Co2Si, C37" K 0.41 0.41 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
102068 RMP0350001 Pd1Si1 Pd1Si1 Pd 1 Si 1 1963 MnP A 6.133 5.599 3.381 "MnP, B31" K 0.93 0.93 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102069 140 Pd0.67Se0.33 Pd0.67Se0.33 Pd 0.67 Se 0.33 1958 K 2.2 2.2 1958 "J.PHYS.CHEM.SOLIDS,4(1958)318"
102070 140 Pd5Se2 Pd5Se2 Pd 5 Se 2 1958 K 2.3 2.3 1958 "J.PHYS.CHEM.SOLIDS,4(1958)318"
102071 552 Pd4Se1 Pd4Se1 Pd 4 Se 1 1965 A 5.2324 5.647 tetragonal K 0.42 0.42 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
102072 552 PdxSe x= 6 - 7. Pd6.7Se1 Pd6.7Se1 Pd 6.7 Se 1 1965 K 0.66 0.66 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
102073 413 Pd1Sb1Te1 Pd1Sb1Te1 Pd 1 Sb 1 Te 1 1963 FeS2(pyrite) "FeS2(pyrite), C2" K 1.2 1.2 1963 "PHYS.LETT.,5(1963)226"
102074 413 Pd1Sb1Se1 Pd1Sb1Se1 Pd 1 Sb 1 Se 1 1963 FeS2(pyrite) "FeS2(pyrite), C2" K 1 1 1963 "PHYS.LETT.,5(1963)226"
102075 950 Pd0.51Sb0.49 Pd0.51Sb0.49 Pd 0.51 Sb 0.49 1968 K 1.67 1.67 1968 "PHYS.REV.,169(1968)457"
102076 1116 rapid quench Pd0.165Sb0.835 Pd0.165Sb0.835 Pd 0.165 Sb 0.835 1971 cubic K 4.9 4.9 1971 "PHYS.LETT.A,34(1971)80"
102077 1377 Pd1Tl2 Pd1Tl2 Pd 1 Tl 2 1972 CuAl2 "CuAl2, C16" K 1.32 1.32 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
102078 1377 Pd1Th2 Pd1Th2 Pd 1 Th 2 1972 CuAl2 "CuAl2, C16" K 0.75 0.75 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
102079 552 Pd0.87Te2 Pd0.87Te2 Pd 0.87 Te 2 1965 CdI2 A 4.037 5.127 "CdI2, C6" K 1.85 1.85 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
102080 552 Pd0.95Te2 Pd0.95Te2 Pd 0.95 Te 2 1965 CdI2 A 4.037 5.128 "CdI2, C6" K 1.89 1.89 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
102081 301 Pd1.05Te2 Pd1.05Te2 Pd 1.05 Te 2 1961 CdI2 "CdI2, C6" K 1.77 1.77 "PdTe2, ein Supraleiter mit CdJ2-Structur" 1961 "HELV.PHYS.ACTA,34(1961)408"
102082 1027 Pd1Te2 Pd1Te2 Pd 1 Te 2 1970 CdI2 "CdI2, C6" K 1.69 1.69 Superconductivity in layered structure organo-metallic crystals 1970 "Science, 168(1970)568"
102083 301 Pd1.25Te2 Pd1.25Te2 Pd 1.25 Te 2 1961 CdI2 "CdI2, C6" K 2.2 2.2 "PdTe2, ein Supraleiter mit CdJ2-Structur" 1961 "HELV.PHYS.ACTA,34(1961)408"
102084 301 Pd1.5Te2 Pd1.5Te2 Pd 1.5 Te 2 1961 CdI2 "CdI2, C6" K 2.21 2.21 "PdTe2, ein Supraleiter mit CdJ2-Structur" 1961 "HELV.PHYS.ACTA,34(1961)408"
102085 301 Pd1.75Te2 Pd1.75Te2 Pd 1.75 Te 2 1961 CdI2 "CdI2, C6" K 2.25 2.25 "PdTe2, ein Supraleiter mit CdJ2-Structur" 1961 "HELV.PHYS.ACTA,34(1961)408"
102086 552 Pd1Te1 Pd1Te1 Pd 1 Te 1 1965 NiAs A 4.152 "NiAs, B8[1]" K 3.85 3.85 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
102087 552 Pd3Te1 Pd3Te1 Pd 3 Te 1 1965 K 0.76 0.76 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
102088 426 Pd1Sn2 Pd1Sn2 Pd 1 Sn 2 K 3.34 3.34 FROM Roberts' Table. unpublished
102089 469 Pt1Th1 Pt1Th1 Pt 1 Th 1 1965 K 0.44 0.44 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102090 469 Pt5Th1 Pt5Th1 Pt 5 Th 1 1965 K 3.13 3.13 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102091 552 Pt1Te1 Pt1Te1 Pt 1 Te 1 1965 A 6.6144 5.636 11.865 orthorhombic K 0.59 0.59 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
102092 707 Pt0.15Ta0.85 Pt0.15Ta0.85 Pt 0.15 Ta 0.85 1969 Cr3Si(A15) "Cr3Si, A15" K 0.4 0.4 1969 "LOW TEMP.PHYS.,1(1969)539"
102093 276 Pt0.3Ta0.7 Pt0.3Ta0.7 Pt 0.3 Ta 0.7 1961 sigma-CrFe "sigma-CrFe, D8[b]" K 1.45 1.45 1961 "HELV.PHYS.ACTA,343(1961)843"
102094 182 Pt1Ta1 Pt1Ta1 Pt 1 Ta 1 1961 sigma-CrFe "sigma-CrFe, D8[b]" K 1 1 1961 "J.PHYS.CHEM.SOLIDS,19(1961)134"
102095 486 Pt1Sn1 Pt1Sn1 Pt 1 Sn 1 1965 NiAs "NiAs, B8[1]" K 0.37 0.37 1965 "J.PHYS.CHEM.SOLIDS,26(1965)665"
102096 RMP0350001 Pt1Si1 Pt1Si1 Pt 1 Si 1 1963 MnP A 5.932 5.595 3.603 "MnP, B31" K 0.88 0.88 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102097 37 Pt1Sb1 Pt1Sb1 Pt 1 Sb 1 1953 NiAs "NiAs, B8[1]" K 2.1 2.1 TRANSITION TEMPERATURES OF SUPERCONDUCTORS 1953 "PHYS.REV.,92(1953)874"
102098 1060 Pt0.05Rh0.04Ti0.91 Pt0.05Rh0.04Ti0.91 Pt 0.05 Rh 0.04 Ti 0.91 1964 K 4.3 4.3 1964 "Z.PHYS.,178(1964)216"
102099 32 Pd0.1Zr0.9 Pd0.1Zr0.9 Pd 0.1 Zr 0.9 1955 hexagonal K 7.5 7.5 Superconductivity of zirconium alloys 1955 "Phys.Rev., 100(1955)626"
102100 707 Pd1V3 Pd1V3 Pd 1 V 3 1969 Cr3Si(A15) "Cr3Si, A15" K 0.082 0.082 1969 "LOW TEMP.PHYS.,1(1969)539"
102101 127 Pt2Y1 Pt2Y1 Pt 2 Y 1 1959 MgCu2(Laves) "MgCu2, C15" K 1.57 1.57 1959 "ACTA CRYST.,12(1959)651"
102102 469 Pt2.2Y1 Pt2.2Y1 Pt 2.2 Y 1 1965 MgCu2(Laves) "MgCu2, C15" K 1.7 1.7 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102103 239 Pt0.5W0.5 Pt0.5W0.5 Pt 0.5 W 0.5 1963 K 1.45 1.45 SUPERCONDUCTIVITY OF SOILD SOLUTIONS OF NOBEL METALS 1963 "PHYS.REV.,129(1963)182"
102104 707 Pt0.22V0.78 Pt0.22V0.78 Pt 0.22 V 0.78 1969 Cr3Si(A15) "Cr3Si, A15" K 1.76 1.76 1969 "LOW TEMP.PHYS.,1(1969)539"
102105 1177 Pt1V3 Pt1V3 Pt 1 V 3 1971 Cr3Si(A15) "Cr3Si, A15" K 3.62 3.62 FROM Roberts' Table. 1971 LT-12(1971)333
102106 948 Pt1V3 Pt1V3 Pt 1 V 3 1970 Cr3Si(A15) "Cr3Si, A15" K 3.2 3.2 1970 "J.PHYS.CHEM.SOLIDS, 31(1970)1531"
102107 707 Pt1V3 Pt1V3 Pt 1 V 3 1969 Cr3Si(A15) "Cr3Si, A15" K 3.62 3.62 1969 "LOW TEMP.PHYS.,1(1969)539"
102108 700 Pt0.017U0.983 Pt0.017U0.983 Pt 0.017 U 0.983 1966 K 0.85 0.85 1966 "SCIENCE,151(1966)985"
102109 698 Pt0.02U0.98 Pt0.02U0.98 Pt 0.02 U 0.98 1966 K 0.87 1.2 0.87 1966 "SCIENCE,152(1966)755"
102110 1377 Pt1Tl2 Pt1Tl2 Pt 1 Tl 2 1972 CuAl2 "CuAl2, C16" K 1.58 1.58 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
102111 707 Pt1Ti3 Pt1Ti3 Pt 1 Ti 3 1969 Cr3Si(A15) "Cr3Si, A15" K 0.58 0.58 1969 "LOW TEMP.PHYS.,1(1969)539"
102112 469 Pt3Th7 Pt3Th7 Pt 3 Th 7 1965 Fe3Th7 "Fe3Th7, D10[2]" K 0.98 0.98 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102113 182 Re1Ta1 Re1Ta1 Re 1 Ta 1 1961 sigma-CrFe "sigma-CrFe, D8[b]" K 1.3 1.3 1961 "J.PHYS.CHEM.SOLIDS,19(1961)134"
102114 276 Re0.65Ta0.35 Re0.65Ta0.35 Re 0.65 Ta 0.35 1961 alpha-Mn "alpha-Mn, A12" K 1.58 1.58 1961 "HELV.PHYS.ACTA,343(1961)843"
102115 182 Re0.75Ta0.25 Re0.75Ta0.25 Re 0.75 Ta 0.25 1961 alpha-Mn "alpha-Mn, A12" K 6.78 6.78 1961 "J.PHYS.CHEM.SOLIDS,19(1961)134"
102116 1646 Re0.83Ru0.17 Re0.83Ru0.17 Re 0.83 Ru 0.17 1971 hexagonal K 2.23 2.23 1971 "PHYS.REV.B,3(1971)3757"
102117 1060 Re0.05Th0.04Ti0.91 Re0.05Rh0.04Ti0.91 Re 0.05 Rh 0.04 Ti 0.91 1964 K 2.3 2.3 1964 "Z.PHYS.,178(1964)216"
102118 1646 Re0.94Os0.06 Os0.06Re0.94 Os 0.06 Re 0.94 1971 K 1.93 1.93 1971 "PHYS.REV.B,3(1971)3757"
102119 503 Re1 Re1 Re 1 1965 K 7 7 SUPERCONDUCTIVITY IN FILMS OF BETA TUNGSTEN AND OTHER TRANSITION METALS 1965 "PHYS.REV.LETT.,15(1965)260"
102120 1636 Re1 Re1 Re 1 1971 K 1.696 1.696 1971 "PHYS.REV.B,4(1971)2988"
102121 32 Pt1Zr1 Pt1Zr1 Pt 1 Zr 1 1955 Mg "Mg, A3" K 3 3 Superconductivity of zirconium alloys 1955 "Phys.Rev., 100(1955)626"
102122 469 Pt0.42Y0.58 Pt0.42Y0.58 Pt 0.42 Y 0.58 1965 K 0.76 0.76 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102123 469 Pt3Y7 Pt3Y7 Pt 3 Y 7 1965 Fe3Th7 "Fe3Th7, D10[2]" K 0.82 0.82 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102124 469 Pt2Y3 Pt2Y3 Pt 2 Y 3 1965 K 0.9 0.9 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102125 266 Re0.15W0.85 Re0.15W0.85 Re 0.15 W 0.85 1962 cubic K 2.4 2.4 1962 "IBM J.RES.DEV.,6(1962)116"
102126 266 Re0.25W0.75 Re0.25W0.75 Re 0.25 W 0.75 1962 cubic K 4.6 4.6 1962 "IBM J.RES.DEV.,6(1962)116"
102127 266 Re0.6W0.4 Re0.6W0.4 Re 0.6 W 0.4 1962 sigma-CrFe "sigma-CrFe, D8[b]" K 6 6 1962 "IBM J.RES.DEV.,6(1962)116"
102128 182 Re3W1 Re3W1 Re 3 W 1 1961 alpha-Mn "alpha-Mn, A12" K 9 9 1961 "J.PHYS.CHEM.SOLIDS,19(1961)134"
102129 412 Re0.6V0.4 Re0.6V0.4 Re 0.6 V 0.4 W "W, A2" K 2.2 2.2 "From Roberts' Table, Private communication" Private communication
102130 412 Re0.76V0.24 Re0.76V0.24 Re 0.76 V 0.24 sigma-CrFe "sigma-CrFe, D8[b]" K 4.52 4.52 "From Roberts' Table, Private communication" Private communication
102131 RMP0350001 Re0.9V0.1 Re0.9V0.1 Re 0.9 V 0.1 1963 K 9.4 9.4 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102132 572 Re0.92V0.08 Re0.92V0.08 Re 0.92 V 0.08 1966 Mg "Mg, A3" K 6.8 6.8 1966 "PHYS.KONDENS.MATERIE,5(1966)243"
102133 1438 Re0.83Ti0.17 Re0.83Ti0.17 Re 0.83 Ti 0.17 1974 K 9 9 1974 "J.APPL.PHYS.,45(1974)447"
102134 173 Re24Ti5 Re24Ti5 Re 24 Ti 5 1961 alpha-Mn "alpha-Mn, A12" K 6.6 6.6 1961 "J.PHYS.CHEM.SOLIDS,19(1961)130"
102135 711 Re2Th1 Re2Th1 Re 2 Th 1 MgZn2(Laves) "MgZn2, C14" K 5.05 5.05 "From Roberts' Table, unpublished results, Univ. of Geneva" Unpublished results
102136 1438 Re0.75Ta0.25 Re0.75Ta0.25 Re 0.75 Ta 0.25 1974 K 4.7 4.7 1974 "J.APPL.PHYS.,45(1974)447"
102137 33 Rh0.53Se0.47 Rh0.53Se0.47 Rh 0.53 Se 0.47 1955 FeS2(pyrite) "FeS2(pyrite), C2" K 6 6 Empirical Relation between Superconductivity and the Number of Valence Electrons per Atom 1955 "Phys.Rev.,97(1955)74"
102138 1060 Rh0.04Sc0.05Ti0.91 Rh0.04Sc0.05Ti0.91 Rh 0.04 Sc 0.05 Ti 0.91 1964 K 1.3 1.3 1964 "Z.PHYS.,178(1964)216"
102139 469 Rh0.24Sc0.76 Rh0.24Sc0.76 Rh 0.24 Sc 0.76 1965 K 0.92 0.92 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102140 35 Rh17S15 Rh17S15 Rh 17 S 15 1954 A 9.911 cubic K 5.8 5.8 Superconducting compounds 1954 "Phys.Rev., 93(1954)1415"
102141 1060 Rh0.04Ru0.05Ti0.91 Rh0.04Ru0.05Ti0.91 Rh 0.04 Ru 0.05 Ti 0.91 1964 K 3.5 3.5 1964 "Z.PHYS.,178(1964)216"
102142 427 Re24Zr5 Re24Zr5 Re 24 Zr 5 1963 K 3 3 Superconductivity of some binary and ternary alloys 1963 JETP 16(1963)1493
102143 173 Re6Zr Re6Zr1 Re 6 Zr 1 1961 alpha-Mn "alpha-Mn, A12" K 7.4 7.4 1961 "J.PHYS.CHEM.SOLIDS,19(1961)130"
102144 133 Re0.67Zr0.33 Re0.67Zr0.33 Re 0.67 Zr 0.33 1957 MgZn2(Laves) "MgZn2, C14" K 6.8 6.8 1957 "CAN.J.PHYS.,35(1957)892"
102145 127 Re0.67Y0.33 Re0.67Y0.33 Re 0.67 Y 0.33 1959 MgCu2(Laves) "MgCu2, C15" K 1.83 1.83 1959 "ACTA CRYST.,12(1959)651"
102146 1438 Re0.5W0.5 Re0.5W0.5 Re 0.5 W 0.5 1974 K 8.1 8.1 1974 "J.APPL.PHYS.,45(1974)447"
102147 1438 Re0.6W0.4 Re0.6W0.4 Re 0.6 W 0.4 1974 K 9.7 9.7 1974 "J.APPL.PHYS.,45(1974)447"
102148 1438 Re0.73W0.27 Re0.73W0.27 Re 0.73 W 0.27 1974 K 8.3 8.3 1974 "J.APPL.PHYS.,45(1974)447"
102149 RMP0350001 Rh3Th7 Rh3Th7 Rh 3 Th 7 1963 Fe3Th7 "Fe3Th7, D10[2]" K 2.15 2.15 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102150 469 Rh1Th1 Rh1Th1 Rh 1 Th 1 1965 K 0.36 0.36 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102151 469 Rh5Th1 Rh5Th1 Rh 5 Th 1 1965 K 1.07 1.07 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102152 552 Rh0.67Te0.33 Rh0.67Te0.33 Rh 0.67 Te 0.33 1965 K 0.49 0.49 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
102153 33 alpha-type Rh1Te2 Rh1Te2 Rh 1 Te 2 1955 FeS2(pyrite) A 6.441 "FeS2(pyrite), C2" K 1.51 1.51 EMPIRICAL RELATION BETWEEN SUPERCONDUCTIVITY AND THE NUMBER OF VALANCE ELECTRONS PER ATOM 1955 "PHYS.REV.,97(1955)74"
102154 1060 Rh0.04Ta0.05Ti0.91 Rh0.04Ta0.05Ti0.91 Rh 0.04 Ta 0.05 Ti 0.91 1964 K 2.3 2.3 1964 "Z.PHYS.,178(1964)216"
102155 1438 Rh0.33Ta0.66 Rh0.33Ta0.66 Rh 0.33 Ta 0.66 1974 K 7 7 1974 "J.APPL.PHYS.,45(1974)447"
102156 276 Rh0.4Ta0.6 Rh0.4Ta0.6 Rh 0.4 Ta 0.6 1961 sigma-CrFe "sigma-CrFe, D8[b]" K 2.35 2.35 1961 "HELV.PHYS.ACTA,343(1961)843"
102157 182 Rh1Ta1 Rh1Ta1 Rh 1 Ta 1 1961 sigma-CrFe "sigma-CrFe, D8[b]" K 2 2 1961 "J.PHYS.CHEM.SOLIDS,19(1961)134"
102158 28 Rh2Sr1 Rh2Sr1 Rh 2 Sr 1 1957 MgCu2(Laves) "MgCu2, C15" K 6.2 6.2 Superconducting alkaline earth compounds 1957 "Phys.Rev., 107(1957)1558"
102159 1377 Rh1Sn2 Rh1Sn2 Rh 1 Sn 2 1972 CuAl2 "CuAl2, C16" K 0.6 0.6 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
102160 35 Rh0.36Se0.64 Rh0.36Se0.64 Rh 0.36 Se 0.64 1954 FeS2(pyrite) "FeS2(pyrite), C2" K 6 6 Superconducting compounds 1954 "Phys.Rev., 93(1954)1415"
102161 698 Rh0.02U0.98 Rh0.02U0.98 Rh 0.02 U 0.98 1966 K 0.96 0.96 1966 "SCIENCE,152(1966)755"
102162 1060 Rh0.91Ti0.04Zr0.05 Rh0.91Ti0.04Zr0.05 Rh 0.91 Ti 0.04 Zr 0.05 1964 K 1.8 1.8 1964 "Z.PHYS.,178(1964)216"
102163 1060 Rh0.91Ti0.04Y0.05 Rh0.91Ti0.04Y0.05 Rh 0.91 Ti 0.04 Y 0.05 1964 K 1.4 1.4 1964 "Z.PHYS.,178(1964)216"
102164 1060 Rh0.91Ti0.4w0.05 Rh0.91Ti0.4W0.05 Rh 0.91 Ti 0.4 W 0.05 1964 K 3.4 3.4 1964 "Z.PHYS.,178(1964)216"
102165 1060 Rh0.91Ti0.4V0.05 Rh0.91Ti0.4V0.05 Rh 0.91 Ti 0.4 V 0.05 1964 K 2.9 2.9 1964 "Z.PHYS.,178(1964)216"
102166 1060 Rh0.04Ti0.96 Rh0.04Ti0.96 Rh 0.04 Ti 0.96 1964 cubic K 2 2 1964 "Z.PHYS.,178(1964)216"
102167 1071 Rh0.06Ri0.94 Rh0.06Ti0.94 Rh 0.06 Ti 0.94 1968 cubic K 2.6 2.6 1968 "Z.PHYS.,208(1968)238"
102168 1071 Rh0.08Ti0.92 Rh0.08Ti0.92 Rh 0.08 Ti 0.92 1968 cubic K 3.5 3.5 1968 "Z.PHYS.,208(1968)238"
102169 717 Rh0.1Ti0.9 Rh0.1Ti0.9 Rh 0.1 Ti 0.9 1964 cubic K 4 4 "Superconductivity of Solid Solutions of Ti and Zr with Co, Rh, and Ir " 1964 "PHYS.REV.,133(1964)A932"
102170 717 Rh0.12Ti0.88 Rh0.12Ti0.88 Rh 0.12 Ti 0.88 1964 cubic K 4 4 "Superconductivity of Solid Solutions of Ti and Zr with Co, Rh, and Ir " 1964 "PHYS.REV.,133(1964)A932"
102171 766 Rh0.88Ti0.12 Rh0.88Ti0.12 Rh 0.88 Ti 0.12 1963 cubic K 4 4 Uber die Supraleitfahigkeit von Ti- und Zr-Rh-Legierungen 1963 "Z.PHYS.,175(1963)105"
102172 1060 Rh0.91Ti0.09 Rh0.91Ti0.09 Rh 0.91 Ti 0.09 1964 K 2 2 1964 "Z.PHYS.,178(1964)216"
102173 766 Rh1Zr3 Rh1Zr3 Rh 1 Zr 3 1963 Fe3W3C "Fe3W3C, E9[3]" K 11 11 Uber die Supraleitfahigkeit von Ti- und Zr-Rh-Legierungen 1963 "Z.PHYS.,175(1963)105"
102174 1858 Rh0.33Zr0.67 Rh0.33Zr0.67 Rh 0.33 Zr 0.67 1973 K 11.25 11.25 1973 "J.LESS-COMMON METALS,33(1973)275"
102175 1476 Rh1Zr2 Rh1Zr2 Rh 1 Zr 2 1971 CuAl2 "CuAl2, C16" K 11.36 11.36 MTC2175 1971 "J.LOW TEMP.PHYS.,4(1971)489"
102176 33 Rh0.4Zr0.6 Rh0.4Zr0.6 Rh 0.4 Zr 0.6 1955 K 7 7 EMPIRICAL RELATION BETWEEN SUPERCONDUCTIVITY AND THE NUMBER OF VALANCE ELECTRONS PER ATOM 1955 "PHYS.REV.,97(1955)74"
102177 648 Rh1Zr1 Rh1Zr1 Rh 1 Zr 1 1965 K 2.7 1.7 2.7 Superconductivity in zirconium-rhodium alloys 1965 "J.PHYS.CHEM.SOLIDS,26(1965)1347"
102178 469 Rh1Y3 Rh1Y3 Rh 1 Y 3 1965 K 0.65 0.65 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102179 469 Rh2Y3 Rh2Y3 Rh 2 Y 3 1965 K 1.48 1.48 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102180 469 Rh3Y1 Rh3Y1 Rh 3 Y 1 1965 MgCu2(Laves) A 7.424 "MgCu2, C15" K 1.07 1.07 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102181 469 Rh5Y1 Rh5Y1 Rh 5 Y 1 1965 K 0.56 0.56 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102182 1438 Rh0.3W0.7 Rh0.3W0.7 Rh 0.3 W 0.7 1974 K 7.3 7.3 1974 "J.APPL.PHYS.,45(1974)447"
102183 33 Rh1W1 Rh1W1 Rh 1 W 1 1955 hexagonal K 3.37 3.37 Empirical Relation between Superconductivity and the Number of Valence Electrons per Atom 1955 "Phys.Rev.,97(1955)74"
102184 1496 Rh0.35V0.65 Rh0.35V0.65 Rh 0.35 V 0.65 1973 K 1.075 1.075 1973 "J.LOW TEMP.PHYS.A,46(1973)21"
102185 1930 Ru0.46V0.54 Ru0.46V0.54 Ru 0.46 V 0.54 1971 CsCl "CsCl, B2" K 5 5 1971 "PHYS.REV.B,4(1971)320"
102186 RMP0350001 Ru1Ti1 Ru1Ti1 Ru 1 Ti 1 1963 CsCl "CsCl, B2" K 1.07 1.07 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102187 173 Ru2Th1 Ru2Th1 Ru 2 Th 1 1961 MgCu2(Laves) "MgCu2, C15" K 3.56 3.56 1961 "J.PHYS.CHEM.SOLIDS,19(1961)130"
102188 1026 Ru2Sc1 Ru2Sc1 Ru 2 Sc 1 1970 MgZn2(Laves) "MgZn2, C14" K 2.24 2.24 1970 "PHYS.LETT.A,33(1970)61"
102189 816 Ru1 Ru1 Ru 1 1962 Mg "Mg, A3" K 0.493 0.493 1962 "ZH.EKSP.TEOR.FIZ.,43(1962)2309"
102190 1438 Rh0.25Zr0.75 Rh0.25Zr0.75 Rh 0.25 Zr 0.75 1974 K 11.4 11.4 1974 "J.APPL.PHYS.,45(1974)447"
102191 1438 Rh0.33zr0.66 Rh0.33Zr0.66 Rh 0.33 Zr 0.66 1974 K 11.2 11.2 1974 "J.APPL.PHYS.,45(1974)447"
102192 1061 as-cast sample Rh0.03Zr0.97 Rh0.03Zr0.97 Rh 0.03 Zr 0.97 1965 K 10.4 10.4 Messung der spezifischen Warme an Zr-Rh-Legierungen zwischen 0.9 und 12 K 1965 "Z.PHYS.,186(1965)249"
102193 766 Rh0.12Zr0.88 Rh0.12Zr0.88 Rh 0.12 Zr 0.88 1963 A 3.54 cubic K 11 11 Uber die Supraleitfahigkeit von Ti- und Zr-Rh-Legierungen 1963 "Z.PHYS.,175(1963)105"
102194 1858 Rh0.14Zr0.86 Rh0.14Zr0.86 Rh 0.14 Zr 0.86 1973 K 11.1 11.1 1973 "J.LESS-COMMON METALS,33(1973)275"
102195 33 Rh0.14Zr0.86 Rh0.14Zr0.86 Rh 0.14 Zr 0.86 1955 hexagonal K 9.5 9.5 EMPIRICAL RELATION BETWEEN SUPERCONDUCTIVITY AND THE NUMBER OF VALANCE ELECTRONS PER ATOM 1955 "PHYS.REV.,97(1955)74"
102196 33 Rh0.17Zr0.83 Rh0.17Zr0.83 Rh 0.17 Zr 0.83 1955 K 9.6 9.6 EMPIRICAL RELATION BETWEEN SUPERCONDUCTIVITY AND THE NUMBER OF VALANCE ELECTRONS PER ATOM 1955 "PHYS.REV.,97(1955)74"
102197 1262 "Hc2 for H//layer at 2.34 K. For H normal to layer, Hc2(2.34K) = 12.8 kOe." S1.2Se0.8Ta1 S1.2Se0.8Ta1 S 1.2 Se 0.8 Ta 1 1973 K 3.9 3.9 kOe "resistive, linear" 92.1 12.8 2.34 Anisotropic superconductivity in layer compounds 1973 "PHYS.REV.B,7(1973)991"
102198 32 Ru0.1Zr0.9 Ru0.1Zr0.9 Ru 0.1 Zr 0.9 1955 hexagonal K 5.7 5.7 Superconductivity of zirconium alloys 1955 "Phys.Rev., 100(1955)626"
102199 1478 Ru2Zr1 Ru2Zr1 Ru 2 Zr 1 1971 MgZn2(Laves) "MgZn2, C14" K 2.4 2.4 1971 "J.LOW TEMP.PHYS.,4(1971)669"
102200 1026 Ru2Y1 Ru2Y1 Ru 2 Y 1 1970 MgZn2(Laves) "MgZn2, C14" K 2.42 2.42 1970 "PHYS.LETT.A,33(1970)61"
102201 1438 Ru0.4W0.6 Ru0.4W0.6 Ru 0.4 W 0.6 1974 K 5 5 1974 "J.APPL.PHYS.,45(1974)447"
102202 1438 Ru0.5W0.5 Ru0.5W0.5 Ru 0.5 W 0.5 1974 K 5.7 5.7 1974 "J.APPL.PHYS.,45(1974)447"
102203 276 Ru0.4W0.6 Ru0.4W0.6 Ru 0.4 W 0.6 1961 sigma-CrFe "sigma-CrFe, D8[b]" K 4.67 4.67 1961 "HELV.PHYS.ACTA,343(1961)843"
102204 33 Ru1W1 Ru1W1 Ru 1 W 1 1955 K 7.5 7.5 Empirical Relation between Superconductivity and the Number of Valence Electrons per Atom 1955 "Phys.Rev.,97(1955)74"
102205 182 Ru0.58W0.42 Ru0.58W0.42 Ru 0.58 W 0.42 1961 sigma-CrFe "sigma-CrFe, D8[b]" K 5.2 5.2 1961 "J.PHYS.CHEM.SOLIDS,19(1961)134"
102206 119 Ru0.4V0.6 Ru0.4V0.6 Ru 0.4 V 0.6 1948 K 1 1 From Roberts' Table. 1948 "Gottingen Report, (1948)187"
102207 572 Ru0.45V0.55 Ru0.45V0.55 Ru 0.45 V 0.55 1966 CsCl "CsCl, B2" K 4 4 1966 "PHYS.KONDENS.MATERIE,5(1966)243"
102208 1119 Ru0.452V0.548 Ru0.452V0.548 Ru 0.452 V 0.548 1971 K 4.2 4.2 1971 "PHYS.LETT.A,35(1971)117"
102209 1917 weight fraction Sb0.05Sn0.95 Sb0.05Sn0.95 Sb 0.05 Sn 0.95 1969 K 3.75 3.75 1969 "REV.SCI.INSTRUMENTS,40(1969)180"
102210 85 Sb0.4Sn0.6 Sb0.4Sn0.6 Sb 0.4 Sn 0.6 1932 K 3.8 3.8 From Roberts' Table 1932 "Z.Elektrochem., 38(1932)312"
102211 1542 Sb1Sn1 Sb1Sn1 Sb 1 Sn 1 1971 NaCl "NaCl, B1" K 1.56 1.56 1971 "PHYSICA,55(1971)60"
102212 1829 rapid quench Sb0.7Sn0.3 Sb0.7Sn0.3 Sb 0.7 Sn 0.3 1974 cubic K 2.85 2.85 1974 "J.SPPL.PHYS.,45(1974)3683"
102213 1659 S1.1Zr1 S1.1Zr1 S 1.1 Zr 1 1972 NaCl "NaCl, B1" K 4.5 4.5 1972 "PHYS.LETT.A,41(1972)447"
102214 1219 S1Y1 S1Y1 S 1 Y 1 1970 NaCl "NaCl, B1" K 1.9 1.9 1970 "SOLID STATE COMMUN.,8(1970)1379"
102215 797 S2Ta1 S2Ta1 S 2 Ta 1 1967 K 0.8 0.8 1967 "PHYS.LETT.A,24(1967)645"
102216 796 S2Ta1 S2Ta1 S 2 Ta 1 1969 hexagonal K 1.6 1.6 1969 "PHYS.LETT.A,29(1969)571"
102217 1918 S2Ta1 S2Ta1 S 2 Ta 1 1974 hexagonal K 0.8 0.8 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.SOLID STATE CHEM.,9(1974)323"
102218 1150 S3Sn1Ta1 S3Sn1Ta1 S 3 Sn 1 Ta 1 1972 tetragonal K 2.96 2.96 1972 "PHYS.LETT.A,40(1972)353"
102219 1262 "Hc2 for H//layer at 2.9 K. For H normal to layer, Hc2(2.9K) = 6.7 kOe." S0.8Se1.2Ta1 S0.8Se1.2Ta1 S 0.8 Se 1.2 Ta 1 1973 TX2 2H-TaS2 phase K 3.9 3.9 kOe "resistive, linear approx." 45 6.7 2.9 Anisotropic superconductivity in layer compounds 1973 "PHYS.REV.B,7(1973)991"
102220 1262 "Hc2 for H//layer at 2.2 K. For H normal to layer, Hc2(2.2K)=11.0 kOe." S1Se1Ta1 S1Se1Ta1 S 1 Se 1 Ta 1 1973 TX2 2H-TaS2 phase K 3.7 3.7 kOe "resistive, linear approx." 73.8 11 2.2 MHC102220 Anisotropic superconductivity in layer compounds 1973 "PHYS.REV.B,7(1973)991"
102221 744 Sc0.01Zr0.99 Sc0.01Zr0.99 Sc 0.01 Zr 0.99 1966 K 0.32 0.32 Superconductivity and electronic specific heat in the scandium-zirconium system 1966 "PHYS.REV.,149(1966)409"
102222 744 Sc0.05Zr0.95 Sc0.05Zr0.95 Sc 0.05 Zr 0.95 1966 K 0.11 0.11 mj/mol.K2 2.5 311 arc-melting Superconductivity and electronic specific heat in the scandium-zirconium system 1966 "PHYS.REV.,149(1966)409"
102223 744 Sc0.07Zr0.93 Sc0.07Zr0.93 Sc 0.07 Zr 0.93 1966 K 0.08 0.08 Superconductivity and electronic specific heat in the scandium-zirconium system 1966 "PHYS.REV.,149(1966)409"
102224 RMP0350001 Sb2Zr3 Sb2Zr3 Sb 2 Zr 3 1963 K 1.74 1.74 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102225 514 Sb0.03V0.97 Sb0.03V0.97 Sb 0.03 V 0.97 1964 W "W, A2" K 2.63 2.63 mj/mol.K2 7.96 346 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
102226 578 Sb1V3 Sb1V3 Sb 1 V 3 1960 Cr3Si(A15) "Cr3Si, A15" K 0.8 0.8 CORRELATIONS BETWEEN SUPERCONDUCTIVITY AND NUCLEAR MAGNETIC RESONANCE PROPERTIES 1960 "PHYS.REV.LETT.,5(1960)149"
102227 111 Sb0.28Tl0.72 Sb0.28Tl0.72 Sb 0.28 Tl 0.72 1930 K 5.2 5.2 1930 "ROY.SOC.CAN.TRANS.,24(1930)53"
102228 85 Sb0.66Tl0.33 Sb0.66Tl0.33 Sb 0.66 Tl 0.33 1932 K 5.2 5.2 From Roberts' Table 1932 "Z.Elektrochem., 38(1932)312"
102229 1438 Sb0.25Ti0.75 Sb0.25Ti0.75 Sb 0.25 Ti 0.75 1974 K 7.2 7.2 1974 "J.APPL.PHYS.,45(1974)447"
102230 1002 Sb1Ti3 Sb1Ti3 Sb 1 Ti 3 1970 Cr3Si(A15) "Cr3Si, A15" K 5.47 5.47 Supraconductivite et chaleur specifique d'alliages bases sur Ti3Sb 1970 "HELVETIA PHYS.ACTA,43(1970)59"
102231 1015 Sb1Ta3 Sb1Ta3 Sb 1 Ta 3 1970 Cr3Si(A15) "Cr3Si, A15" K 0.72 0.72 1970 "Z.PHYS.,230(1970)443"
102232 1724 Sb0.011Sn0.989 Sb0.011Sn0.989 Sb 0.011 Sn 0.989 1964 K 3.642 3.642 1964 "J.PHYS.(PARIS),25(1964)374"
102233 880 Si0.25V0.75 Si0.25V0.75 Si 0.25 V 0.75 1969 Cr3Si(A15) "Cr3Si, A15" K 16.86 16.86 1969 "J.LOW TEMP.PHYS.,1(1969)29"
102234 1073 Si0.25V0.75 Si0.25V0.75 Si 0.25 V 0.75 1969 Cr3Si(A15) "Cr3Si, A15" K 16.95 16.95 1969 "Z.PHYS.,218(1969)52"
102235 707 Si0.25V0.75 Si0.25V0.75 Si 0.25 V 0.75 1969 Cr3Si(A15) "Cr3Si, A15" K 17 17 1969 "LOW TEMP.PHYS.,1(1969)539"
102236 10 Si0.25V0.75 Si0.25V0.75 Si 0.25 V 0.75 1954 Cr3Si(A15) "Cr3Si, A15" K 17.1 17.1 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102237 32 Si0.263V0.737 Si0.263V0.737 Si 0.263 V 0.737 1955 Cr3Si(A15) "Cr3Si, A15" K 15.8 15.8 Superconductivity of zirconium alloys 1955 "Phys.Rev., 100(1955)626"
102238 707 Si0.3V0.7 Si0.3V0.7 Si 0.3 V 0.7 1969 Cr3Si(A15) "Cr3Si, A15" K 16.95 16.95 1969 "LOW TEMP.PHYS.,1(1969)539"
102239 1976 Si1Ti0.15V2.85 Si1Ti0.15V2.85 Si 1 Ti 0.15 V 2.85 1971 K 14.55 14.55 1971 "ANN.CHEM.,6(1971)309"
102240 10 Si2Th1 Si2Th1 Si 2 Th 1 1954 AlB2 "AlB2, C32" K 2.41 2.41 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102241 10 Si2Th1 Si2Th1 Si 2 Th 1 1954 ThSi2 "ThSi2, C[c]" K 3.16 3.16 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102242 961 Si3Sr2 Si3Sr2 Si 3 Sr 2 1967 ThSi2 "ThSi2, C[c]" K 0.55 0.55 1967 "J.LESS-COMMON METALS,12(1967)75"
102243 1219 Se1Y1 Se1Y1 Se 1 Y 1 1970 NaCl "NaCl, B1" K 2.5 2.5 1970 "SOLID STATE COMMUN.,8(1970)1379"
102244 711 Se4Nb3 Nb3Se4 Nb 3 Se 4 K 1.61 1.61 "From Roberts' Table, unpublished results, Univ. of Geneva" Unpublished results
102245 1829 rapid quench Sn0.35Ye0.65 Sn0.35Te0.65 Sn 0.35 Te 0.65 1974 cubic K 1.9 1.9 1974 "J.SPPL.PHYS.,45(1974)3683"
102246 473 Sn0.25Ta0.5V0.25 Sn0.25Ta0.5V0.25 Sn 0.25 Ta 0.5 V 0.25 1964 Cr3Si(A15) "Cr3Si, A15" K 3.7 3.7 1964 "RCA REV.,25(1964)338-341"
102247 185 Sn0.25Ta0.25V0.5 Sn0.25Ta0.25V0.5 Sn 0.25 Ta 0.25 V 0.5 1960 Cr3Si(A15) "Cr3Si, A15" K 2.8 2.8 "LT7 (Toronto), 1960 p382" 1960 "REF.,176 382"
102248 1446 Sn1Ta3 Sn1Ta3 Sn 1 Ta 3 1972 Cr3Si(A15) "Cr3Si, A15" K 6.4 6.4 1972 "J.LOW TEMP.PHYS.,6(1972)171"
102249 581 low ordered state Sn1Ta3 Sn1Ta3 Sn 1 Ta 3 1965 Cr3Si(A15) A 5.2772 "Cr3Si, A15" K 6.2 6.2 kG 15.5 "sintering (1450C, 1h) " Effect of processing on the superconducting properties and long-range order of Ta3Sn 1965 "J.APPL.PHYS.,36(1965)3256"
102250 581 Sn1Ta3 Sn1Ta3 Sn 1 Ta 3 1965 Cr3Si(A15) A 5.2801 "Cr3Si, A15" K 8.35 8.35 kG 72.5 "sintering (900C, 4h) " Effect of processing on the superconducting properties and long-range order of Ta3Sn 1965 "J.APPL.PHYS.,36(1965)3256"
102251 10 Si0.4W0.6 Si0.4W0.6 Si 0.4 W 0.6 1954 K 2.84 2.84 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102252 144 Si0.22V0.78 Si0.22V0.78 Si 0.22 V 0.78 1959 Cr3Si(A15) "Cr3Si, A15" K 14.38 14.38 1959 "ZH.EKSP.TEOR.FIZ.,37(1959)1461"
102253 707 Si0.2V0.8 Si0.2V0.8 Si 0.2 V 0.8 1969 Cr3Si(A15) "Cr3Si, A15" K 7.51 7.51 1969 "LOW TEMP.PHYS.,1(1969)539"
102254 323 Si0.206V0.794 Si0.206V0.794 Si 0.206 V 0.794 1962 Cr3Si(A15) "Cr3Si, A15" K 14.5 14.5 1962 "DOK.AKAD.NAUK(CCCP),145(1962)82"
102255 1933 dTc/dP = 3.7 E-5 K/bar. Si0.25V0.75 Si0.25V0.75 Si 0.25 V 0.75 3 1974 Cr3Si(A15) "Cr3Si, A15" K 16.6 16.6 K/GPa 0.37 Effect of lattice transformation on the pressure dependence of Tc of V3Si single crystals 1974 "PHYS.REV.B,10(1974)4030"
102256 707 Si0.25V0.75 Si0.25V0.75 Si 0.25 V 0.75 1969 Cr3Si(A15) "Cr3Si, A15" K 16.65 16.65 1969 "LOW TEMP.PHYS.,1(1969)539"
102257 1652 Ta0.05V2Zr0.95 Ta0.05V2Zr0.95 Ta 0.05 V 2 Zr 0.95 1974 K 8.9 8.9 1974 "PHYS.LETT.A,47(1974)209"
102258 572 Ta0.25V0.75 Ta0.25V0.75 Ta 0.25 V 0.75 1966 W "W, A2" K 2.8 2.8 1966 "PHYS.KONDENS.MATERIE,5(1966)243"
102259 572 Ta0.5V0.5 Ta0.5V0.5 Ta 0.5 V 0.5 1966 W "W, A2" K 2.35 2.35 1966 "PHYS.KONDENS.MATERIE,5(1966)243"
102260 572 Ta0.75V0.25 Ta0.75V0.25 Ta 0.75 V 0.25 1966 W "W, A2" K 2.65 2.65 1966 "PHYS.KONDENS.MATERIE,5(1966)243"
102261 874 Ta0.52Ti0.48 Ta0.52Ti0.48 Ta 0.52 Ti 0.48 1966 K 7.86 7.86 1966 "PHYS.REV.LETT.,17(1966)81"
102262 713 Ta1 Ta1 Ta 1 1970 W "W, A2" K 4.463 4.463 Superconductivity of tantalum-rhenium alloys 1970 "J.PHYS.SOC.JAPAN,28(1970)380"
102263 1015 Sn1Zr4 Sn1Zr4 Sn 1 Zr 4 1970 Cr3Si(A15) "Cr3Si, A15" K 0.92 0.92 1970 "Z.PHYS.,230(1970)443"
102264 726 laminar period study Sn0.91Zn0.09 Sn0.91Zn0.09 Sn 0.91 Zn 0.09 1966 K 3.722 3.722 1966 "PHYS.REV.,145(1966)218"
102265 128 Sn1V3 Sn1V3 Sn 1 V 3 1956 Cr3Si(A15) "Cr3Si, A15" K 7 7 1956 "J.PHYS.CHEM.SOLIDS.,1(1956)188"
102266 1369 Sn1V3 Sn1V3 Sn 1 V 3 1972 Cr3Si(A15) "Cr3Si, A15" K 3.8 3.8 1972 "METALL.,26(1972)29"
102267 715 Sn3Th1 Sn3Th1 Sn 3 Th 1 1970 AuCu3 "AuCu3, L1[2]" K 3.33 3.33 1970 "J.PHYS.CHEM.SOLIDS,31(1970)2653"
102268 1829 rapid quench Sn0.25Te0.75 Sn0.25Te0.75 Sn 0.25 Te 0.75 1974 cubic K 1.7 1.7 1974 "J.SPPL.PHYS.,45(1974)3683"
102269 1138 Tc0.1V0.9 Tc0.1V0.9 Tc 0.1 V 0.9 1967 K 1.5 1.5 Superconductivity in the Technetium-Vanadium Alloy System 1967 "J.APPL.PHYS.,38(1967)4359"
102270 1138 Tc0.6V0.4 Tc0.6V0.4 Tc 0.6 V 0.4 1967 K 4.17 4.17 Superconductivity in the Technetium-Vanadium Alloy System 1967 "J.APPL.PHYS.,38(1967)4359"
102271 1138 Tc0.65V0.35 Tc0.65V0.35 Tc 0.65 V 0.35 1967 K 4.49 4.49 Superconductivity in the Technetium-Vanadium Alloy System 1967 "J.APPL.PHYS.,38(1967)4359"
102272 1138 quick cool Tc0.7V0.3 Tc0.7V0.3 Tc 0.7 V 0.3 1967 K 6.41 6.41 Superconductivity in the Technetium-Vanadium Alloy System 1967 "J.APPL.PHYS.,38(1967)4359"
102273 1791 Tc0.7V0.3 Tc0.7V0.3 Tc 0.7 V 0.3 1969 K 8.3 8.3 1969 "TRANS.MET.SOC.AIME,245(1969)1957"
102274 1138 Tc0.75V0.25 Tc0.75V0.25 Tc 0.75 V 0.25 1967 K 11.07 11.07 Superconductivity in the Technetium-Vanadium Alloy System 1967 "J.APPL.PHYS.,38(1967)4359"
102275 1138 Tc0.8V0.2 Tc0.8V0.2 Tc 0.8 V 0.2 1967 K 11.24 11.24 Superconductivity in the Technetium-Vanadium Alloy System 1967 "J.APPL.PHYS.,38(1967)4359"
102276 1138 Tc0.9V0.1 Tc0.9V0.1 Tc 0.9 V 0.1 1967 K 11.32 11.32 Superconductivity in the Technetium-Vanadium Alloy System 1967 "J.APPL.PHYS.,38(1967)4359"
102277 1138 Tc0.95V0.05 Tc0.95V0.05 Tc 0.95 V 0.05 1967 K 10.99 10.99 Superconductivity in the Technetium-Vanadium Alloy System 1967 "J.APPL.PHYS.,38(1967)4359"
102278 1149 Tc0.44Th0.56 Tc0.44Th0.56 Tc 0.44 Th 0.56 1970 MgZn2(Laves) A 5.393 9.223 "MgZn2, C14" K 5.3 5.3 1970 "J.LESS-COMMON METALS,22(1970)246"
102279 1180 Tc1 Tc1 Tc 1 1971 K 7.46 7.46 From Roberts' Table. 1971 LT-12(1971)341
102280 1790 Ta0.96Zr0.04 Ta0.96Zr0.04 Ta 0.96 Zr 0.04 1969 K 5.7 5.7 1969 "TRANS.MET.SOC.AIME,245(1969)1953"
102281 499 Ti0.975V0.025 Ti0.975V0.025 Ti 0.975 V 0.025 1965 hexagonal K 1.4 1.4 "SUPERCONDUCTIVITY OF ALPH-TITANIUM SOLID SOLUTIONS WITH VANADIUM,NIOBIUM,AND TANTALUM" 1965 "PHYS.REV.,137(1965)A142"
102282 253 Ti1 Ti1 Ti 1 1961 Mg "Mg, A3" K 0.4 0.4 SUPERCONDUCTING SOLID SOLUTION ALLOYS OF THE TRANSITION ELEMENTS 1961 "PHYS.REV.,123(1961)1569"
102283 1377 Th2Zn1 Th2Zn1 Th 2 Zn 1 1972 CuAl2 "CuAl2, C16" K 0.67 0.67 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
102284 234 Th0.5Y0.5 Th0.5Y0.5 Th 0.5 Y 0.5 1961 K 1.25 1.25 1961 "RARE EARTH RESEARCH E.V.KLEBER ED.,(1961)158"
102285 1227 Th1U0.001 Th1U0.001 Th 1 U 0.001 1972 K 0.785 0.785 1972 "SOLID STATE COMMUN.,10(1972)459"
102286 715 Th1Tl3 Th1Tl3 Th 1 Tl 3 1970 AuCu3 "AuCu3, L1[2]" K 0.87 0.87 1970 "J.PHYS.CHEM.SOLIDS,31(1970)2653"
102287 1123 Th1 Th1 Th 1 1967 Cu "Cu, A1" K 1.39 1.39 1967 "PHYS.REV.LETT.,18(1967)899"
102288 1219 Te1Y1 Te1Y1 Te 1 Y 1 1970 NaCl A 6.093 "NaCl, B1" K 2.05 2.05 1970 "SOLID STATE COMMUN.,8(1970)1379"
102289 848 Te3Tl5 Te3Tl5 Te 3 Tl 5 1968 K 2.078 2.078 Electrical conductivity and superconductivity in the gamma-phase of the Tl-Te system 1968 "J.APPL.PHYS.,39(1968)3003"
102290 1149 chemical analysis: Zr0.332Tc0.668 Tc2Zr1 Tc2Zr1 Tc 2 Zr 1 1970 MgZn2(Laves) A 5.2185 8.6527 "MgZn2, C14" K 7.6 7.6 1970 "J.LESS-COMMON METALS,22(1970)246"
102291 202 Tc6Zr1 Tc6Zr1 Tc 6 Zr 1 1961 alpha-Mn "alpha-Mn, A12" K 9.7 9.7 SUPERCONDUCTIVITY OF TECHNETIUM ALLOYS AND COMPOUNDS 1961 "PHYS.REV.,123(1961)1567"
102292 1337 Tc0.9W0.1 Tc0.9W0.1 Tc 0.9 W 0.1 1966 K 10.4 10.4 1966 "BULL.L'ACAD.POLONAISE DES SCI.,14(1966)565"
102293 1956 Ti0.013V0.987 Ti0.013V0.987 Ti 0.013 V 0.987 1974 K 12.8 12.8 From Roberts' Table. 1974 LT-13(1974)485
102294 874 Ti0.42V0.58 Ti0.42V0.58 Ti 0.42 V 0.58 1966 K 7.52 7.52 1966 "PHYS.REV.LETT.,17(1966)81"
102295 466 Ti1V1 Ti1V1 Ti 1 V 1 1963 K 6.09 6.09 SUPERCONDUCTIVITY AT HIGH MAGNETIC FIELDS 1963 "PHYS.REV.,131(1963)140"
102296 600 Ti0.516V0.484 Ti0.516V0.484 Ti 0.516 V 0.484 1965 K 7.2 7.2 mj/mol.K2 9.2 386 1965 "PHYS.LETT.,14(1965)181"
102297 878 Ti0.6V0.4 Ti0.6V0.4 Ti 0.6 V 0.4 1967 K 7 7 1967 "PHYS.LETT.A,24(1967)663"
102298 600 Ti0.615V0.385 Ti0.615V0.385 Ti 0.615 V 0.385 1965 K 7.07 7.07 1965 "PHYS.LETT.,14(1965)181"
102299 514 Ti0.7V0.3 Ti0.7V0.3 Ti 0.7 V 0.3 1964 K 6.14 6.14 mj/mol.K2 10.1 244 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
102300 584 Ti0.75V0.25 Ti0.75V0.25 Ti 0.75 V 0.25 1967 K 5.3 5.3 PARAMAGNETIC SUPERCONDUCTIVITY IN EXTREME TYPE-II SUPERCONDUCTORS 1967 "PHYS.REV.,158(1967)356"
102301 1861 Ti0.76V0.24 Ti0.76V0.24 Ti 0.76 V 0.24 1971 K 4.382 4.382 1971 "SCRIPTA METALLURGICA,5(1971)81"
102302 584 Ti0.775V0.225 Ti0.775V0.225 Ti 0.775 V 0.225 1967 K 4.7 4.7 PARAMAGNETIC SUPERCONDUCTIVITY IN EXTREME TYPE-II SUPERCONDUCTORS 1967 "PHYS.REV.,158(1967)356"
102303 253 Ti0.9V0.1 Ti0.9V0.1 Ti 0.9 V 0.1 1961 K 6.3 6.3 SUPERCONDUCTING SOLID SOLUTION ALLOYS OF THE TRANSITION ELEMENTS 1961 "PHYS.REV.,123(1961)1569"
102304 477 Ti0.96V0.04 Ti0.96V0.04 Ti 0.96 V 0.04 1965 K 2.7 2.7 1965 LT-9(1965) 482-486
102305 641 "1900,25-48 KBAR" Tl Tl1 Tl 1 1966 K 1.38 1.38 Influence of lattice structure on superconductivity in thallium 1966 "SOLID STATE COMMUN.,4(1966)403"
102306 641 high pressure phase (P>35 kbar). Tc is at 35 kbar. fcc-Tl Tl1 Tl 1 1966 Cu "Cu, A1" K 1.45 1.45 K/GPa -0.085 88 Influence of lattice structure on superconductivity in thallium 1966 "SOLID STATE COMMUN.,4(1966)403"
102307 641 hcp-Tl (0 < P < 35 KBAR). Tc(P=35kbar) = 1.95 K. hcp-Tl Tl1 Tl 1 1966 Mg "Mg, A3" K 2.4 2.4 K/GPa -0.15 99 Influence of lattice structure on superconductivity in thallium 1966 "SOLID STATE COMMUN.,4(1966)403"
102308 1378 Tl1 Tl1 Tl 1 1964 W "W, A2" K 2.332 2.332 "From Roberts' Table. Master's thesis , Univ. of Illinois" 1964 unpublished
102309 527 Tl1 Tl1 Tl 1 1964 Mg "Mg, A3" K 2.38 2.38 SPECIFIC HEAT OF MERCURY AND THALLIUM BETWEEN 0.35 AND 4.2K 1964 "PHYS.REV.,135(1964)A631"
102310 253 Ti0.81Zr0.82 Ti0.81Zr0.82 Ti 0.81 Zr 0.82 1961 hexagonal K 1.03 1.03 SUPERCONDUCTING SOLID SOLUTION ALLOYS OF THE TRANSITION ELEMENTS 1961 "PHYS.REV.,123(1961)1569"
102311 253 Ti0.33Zr0.66 Ti0.33Zr0.66 Ti 0.33 Zr 0.66 1961 hexagonal K 1.35 1.35 SUPERCONDUCTING SOLID SOLUTION ALLOYS OF THE TRANSITION ELEMENTS 1961 "PHYS.REV.,123(1961)1569"
102312 1061 Ti0.5Zr0.5 Ti0.5Zr0.5 Ti 0.5 Zr 0.5 1965 K 1.65 1.65 Messung der spezifischen Warme an Zr-Rh-Legierungen zwischen 0.9 und 12 K 1965 "Z.PHYS.,186(1965)249"
102313 477 Ti0.5Zr0.5 Ti0.5Zr0.5 Ti 0.5 Zr 0.5 1965 K 1.23 1.23 1965 LT-9(1965) 482-486
102314 253 Ti0.66Zr0.33 Ti0.66Zr0.33 Ti 0.66 Zr 0.33 1961 hexagonal K 1.36 1.36 SUPERCONDUCTING SOLID SOLUTION ALLOYS OF THE TRANSITION ELEMENTS 1961 "PHYS.REV.,123(1961)1569"
102315 1438 Ti0.17V0.5Zr0.33 Ti0.17V0.5Zr0.33 Ti 0.17 V 0.5 Zr 0.33 1974 K 7.6 7.6 1974 "J.APPL.PHYS.,45(1974)447"
102316 1438 Ti0.33V0.33Zr0.33 Ti0.33V0.33Zr0.33 Ti 0.33 V 0.33 Zr 0.33 1974 K 6.6 6.6 1974 "J.APPL.PHYS.,45(1974)447"
102317 584 Ti0.75V0.25 Ti0.75V0.25 Ti 0.75 V 0.25 1967 K 5.3 5.3 PARAMAGNETIC SUPERCONDUCTIVITY IN EXTREME TYPE-II SUPERCONDUCTORS 1967 "PHYS.REV.,158(1967)356"
102318 1861 Ti0.76V0.24 Ti0.76V0.24 Ti 0.76 V 0.24 1971 K 4.382 4.382 1971 "SCRIPTA METALLURGICA,5(1971)81"
102319 584 Ti0.775V0.225 Ti0.775V0.225 Ti 0.775 V 0.225 1967 K 4.7 4.7 PARAMAGNETIC SUPERCONDUCTIVITY IN EXTREME TYPE-II SUPERCONDUCTORS 1967 "PHYS.REV.,158(1967)356"
102320 253 Ti0.9V0.1 Ti0.9V0.1 Ti 0.9 V 0.1 1961 K 6.3 6.3 SUPERCONDUCTING SOLID SOLUTION ALLOYS OF THE TRANSITION ELEMENTS 1961 "PHYS.REV.,123(1961)1569"
102321 477 Ti0.96V0.04 Ti0.96V0.04 Ti 0.96 V 0.04 1965 K 2.7 2.7 1965 LT-9(1965) 482-486
102322 499 Ti0.975V0.025 Ti0.975V0.025 Ti 0.975 V 0.025 1965 hexagonal K 1.4 1.4 "SUPERCONDUCTIVITY OF ALPH-TITANIUM SOLID SOLUTIONS WITH VANADIUM,NIOBIUM,AND TANTALUM" 1965 "PHYS.REV.,137(1965)A142"
102323 21 Ti1U2 Ti1U2 Ti 1 U 2 1958 AlB2 "AlB2, C32" K 1.06 1958 "J.Phys.Chem.Solids, 7(1958)259"
102324 980 Ti4Tl1 Ti4Tl1 Ti 4 Tl 1 1967 Cr3Si(A15) "Cr3Si, A15" K 0.35 1967 "SOLID STATE COMMUN.,5(1967)221"
102325 253 Ti1 Ti1 Ti 1 1961 Mg "Mg, A3" K 0.4 0.4 SUPERCONDUCTING SOLID SOLUTION ALLOYS OF THE TRANSITION ELEMENTS 1961 "PHYS.REV.,123(1961)1569"
102326 1377 Th2Zn1 Th2Zn1 Th 2 Zn 1 1972 CuAl2 "CuAl2, C16" K 0.67 0.67 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
102327 234 Th0.5Y0.5 Th0.5Y0.5 Th 0.5 Y 0.5 1961 K 1.25 1.25 1961 "RARE EARTH RESEARCH E.V.KLEBER ED.,(1961)158"
102328 1227 Th1U0.001 Th1U0.001 Th 1 U 0.001 1972 K 0.785 0.785 1972 "SOLID STATE COMMUN.,10(1972)459"
102329 889 V0.4Zr0.6 V0.4Zr0.6 V 0.4 Zr 0.6 1968 K 7.8 7.8 MTC102329 MHC102329 arc-melting Upper critical field of Zr-V alloys 1968 Nihon University "Jpn J.Appl.Phys., 7(1968)1128"
102330 889 V0.6Zr0.4 V0.6Zr0.4 V 0.6 Zr 0.4 1968 K 8.3 8.3 arc-melting Upper critical field of Zr-V alloys 1968 Nihon University "Jpn J.Appl.Phys., 7(1968)1128"
102331 173 V2Zr1 V2Zr1 V 2 Zr 1 1961 MgCu2(Laves) "MgCu2, C15" K 9 9 1961 "J.PHYS.CHEM.SOLIDS,19(1961)130"
102332 1323 V2Zr1 V2Zr1 V 2 Zr 1 1973 orthorhombic K 8.5 8.5 1973 "JAPAN J.APPL.PHYS.,12(1973)161"
102333 1189 V0.7Zr0.3 V0.7Zr0.3 V 0.7 Zr 0.3 1970 MgCu2(Laves) "MgCu2, C15" K 8.6 8.6 LT-12 1970 "LT-12 (1970, Kyoto) p 483"
102334 RMP0350001 V1Zr3 V1Zr3 V 1 Zr 3 1963 AuCu3 "AuCu3, L1[2]" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102335 RMP0350001 Tm1 Tm1 Tm 1 1963 Mg "Mg, A3" K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102336 980 Tl1Zr4 Tl1Zr4 Tl 1 Zr 4 1967 Cr3Si(A15) "Cr3Si, A15" K 0.35 1967 "SOLID STATE COMMUN.,5(1967)221"
102337 715 Tl3Y1 Tl3Y1 Tl 3 Y 1 1970 AuCu3 "AuCu3, L1[2]" K 1.52 1.52 1970 "J.PHYS.CHEM.SOLIDS,31(1970)2653"
102338 825 Tl1V3 Tl1V3 Tl 1 V 3 1966 Cr3Si(A15) "Cr3Si, A15" K 4.2 1966 "DOKL.AN SSR,171(1966)331"
102339 600 Ti0.615V0.385 Ti0.615V0.385 Ti 0.615 V 0.385 1965 K 7.07 7.07 mj/mol.K2 7.1 395 1965 "PHYS.LETT.,14(1965)181"
102340 514 Ti0.7V0.3 Ti0.7V0.3 Ti 0.7 V 0.3 1964 K 6.14 6.14 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
102341 258 K1Na2 K1Na2 K 1 Na 2 K 1.05 "From Roberts' Table, unpublished results" Unpublished results
102342 1920 Cs0.3Mo1S2 Cs0.3Mo1S2 Cs 0.3 Mo 1 S 2 1973 2H-MoS2 A 19.606 hexagonal K 6.3 6.3 Alkali metal intercalates of molybdenum disulfide 1973 "J.CHEM.PHYS.,58(1973)697"
102343 741 Ta impurity Zn2Zr1 Zn2Zr1 Zn 2 Zr 1 1966 MgCu2(Laves) "MgCu2, C15" K 0.1 1966 "PHYS.REV.,148(1966)940"
102344 1475 Zn1 Zn1 Zn 1 1971 Mg "Mg, A3" K 0.857 0.857 1971 "J.LOW TEMP.PHYS.,5(1971)683"
102345 1338 RRR=100 Yb1 Yb1 Yb 1 1970 Mg "Mg, A3" K 0.015 1970 "PHYS.REV.B,2(1970)3911"
102346 RMP0350001 Yb1 Yb1 Yb 1 1963 Cu "Cu, A1" K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102347 658 Y1Zn1 Y1Zn1 Y 1 Zn 1 1967 CsCl "CsCl, B2" K 0.33 Superconductivity of lanthanum and lanthanum compounds at zero and high pressure 1967 "J.PHYS.CHEM.SOLIDS,28(1967)569"
102348 472 P = 0-110 kbar Y1 Y1 Y 1 1974 K 0.1 New superconducting modifications of yttrium 1974 "JETP Lett., 20(1974)8 "
102349 472 "P = 110-125-160 kbar, RRR = 8" Y Y1 Y 1 1974 K 2.5 2.5 New superconducting modifications of yttrium 1974 "JETP Lett., 20(1974)8 "
102350 1526 Y Y1 Y 1 1973 Mg "Mg, A3" K 1.1 1973 "J.VAC.SCI.TECH.,10(1973)611"
102351 1367 Y Y1 Y 1 Mg "Mg, A3" K 0.005 From Roberts' Table. private commun.
102352 1988 W2Zr1 W2Zr1 W 2 Zr 1 1966 MgCu2(Laves) "MgCu2, C15" K 0.033 1966 "PROC.10TH INTER.CONF.ON LOW TEMP.PHYS.,2(1966)86"
102353 534 La2S3 La2S3 La 2 S 3 1965 cubic K 1.25 SUPERCONDUCTING LANTHANUM CHALCOGENIDES 1965 "PHYS.REV.LETT.,14(1965)952"
102354 469 La1Rh2 La1Rh2 La 1 Rh 2 1965 MgCu2(Laves) "MgCu2, C15" K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102355 469 La1Pt5 La1Pt5 La 1 Pt 5 1965 CeCo3B2 "CeCo3B2, CaCu5, D2[d]" K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102356 469 La1Pd3 La1Pd3 La 1 Pd 3 1965 AuCu3 A 4.233 "AuCu3, L1[2]" K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102357 768 La1Pb3 La1Pb3 La 1 Pb 3 1968 AuCu3 "AuCu3, L1[2]" K 4.07 4.07 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
102358 558 La1P1 La1P1 La 1 P 1 1966 NaCl "NaCl, B1" K 1.68 1966 "INSTITUTE METALLOFIZIKI AN U.S.S.R.KIEV,(1966-YEAR 1966"
102359 181 La1Ni1O3 La1Ni1O3 La 1 Ni 1 O 3 K 1.02 "From Roberts' Table, unpublished results" Unpublished results
102360 559 La1N0.98 La1N0.98 La 1 N 0.98 1966 NaCl "NaCl, B1" K 1.38 1966 "KHIMICHESKAYA AVYAZB V.POLUPROVODNIKAKHI,(1966)299-316"
102361 559 La1N0.98 La1N0.98 La 1 N 0.98 1966 NaCl "NaCl, B1" K 1.38 1966 "KHIMICHESKAYA AVYAZB V.POLUPROVODNIKAKHI,(1966)299-316"
102362 658 La1Mg1 La1Mg1 La 1 Mg 1 1967 K 0.33 Superconductivity of lanthanum and lanthanum compounds at zero and high pressure 1967 "J.PHYS.CHEM.SOLIDS,28(1967)569"
102363 427 K2Te3 K2Te3 K 2 Te 3 1963 K 1.46 Superconductivity of some binary and ternary alloys 1963 JETP 16(1963)1493
102364 1212 K0.9O3Re1 K0.9O3Re1 K 0.9 O 3 Re 1 1969 K 1.3 1969 "SOLID STATE COMMUN.,7(1969)299"
102365 1219 Lu1Te1 Lu1Te1 Lu 1 Te 1 1970 NaCl "NaCl, B1" K 0.35 1970 "SOLID STATE COMMUN.,8(1970)1379"
102366 469 Lu1Rh2 Lu1Rh2 Lu 1 Rh 2 1965 MgCu2(Laves) A 7.404 "MgCu2, C15" K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102367 469 Lu1Rh1 Lu1Rh1 Lu 1 Rh 1 1965 NaCl A 3.334 "NaCl, B1" K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102368 469 Lu2Rh1 Lu2Rh1 Lu 2 Rh 1 1965 K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102369 469 Lu3Rh1 Lu3Rh1 Lu 3 Rh 1 1965 K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102371 1191 Li1Ti1 Li1Ti1 Li 1 Ti 1 1972 K 1 1972 "SCI.,175(1972)884"
102372 1965 La2.4Te4Y0.6 La2.4Te4Y0.6 La 2.4 Te 4 Y 0.6 1975 Th3P4 A 9.586 "Th3P4, D7[3]" K 1.7 mj/mol.K2 2.1 208 Magnetic and some thermal properties of chalcogenides of Pr and Tm and a few other rare earths 1975 "PHYS.REV.B,11(1975)500"
102373 863 La5Sn3 La5Sn3 La 5 Sn 3 1969 K 1.4 1969 "J.APPL.PHYS.,40(1969)3161"
102374 1353 as grown La1Si1.82 La1Si1.82 La 1 Si 1.82 1970 ThSi2 A 4.27 13.93 "alpha-ThSi2, C[c]" K 1.2 Superconductivity of LaSi2 1970 "J.Phys.Soc.Jpn,28(1970)263"
102375 534 La2Se3 La2Se3 La 2 Se 3 1965 K 1.25 SUPERCONDUCTING LANTHANUM CHALCOGENIDES 1965 "PHYS.REV.LETT.,14(1965)952"
102376 RMP0350001 La1Sb1 La1Sb1 La 1 Sb 1 1963 NaCl "NaCl, B1" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102377 76 Mn0.24Ni0.76 Mn0.24Ni0.76 Mn 0.24 Ni 0.76 1930 K 1.3 1930 "Z.Phys., 64(1930)581"
102378 557 Mn0.73Mo0.27 Mn0.73Mo0.27 Mn 0.73 Mo 0.27 1964 sigma-CrFe "sigma-CrFe, D8[b]" K 1.3 1964 "PHYS.KOND.MATERIE,2(1964)210"
102379 557 Mn0.63Mo0.37 Mn0.63Mo0.37 Mn 0.63 Mo 0.37 1964 sigma-CrFe "sigma-CrFe, D8[b]" K 1.3 1964 "PHYS.KOND.MATERIE,2(1964)210"
102380 1340 Mg0.97Zn0.03 Mg0.97Zn0.03 Mg 0.97 Zn 0.03 1972 K 0.013 1972 "PHYS.REV.B,6(1972)103"
102381 658 Mg1Y1 Mg1Y1 Mg 1 Y 1 1967 CsCl "CsCl, B2" K 0.33 Superconductivity of lanthanum and lanthanum compounds at zero and high pressure 1967 "J.PHYS.CHEM.SOLIDS,28(1967)569"
102382 557 Mg24Y5 Mg24Y5 Mg 24 Y 5 1964 alpha-Mn "alpha-Mn, A12" K 1.3 1964 "PHYS.KOND.MATERIE,2(1964)210"
102383 1340 Mg0.85Tl0.15 Mg0.85Tl0.15 Mg 0.85 Tl 0.15 1972 K 0.013 1972 "PHYS.REV.B,6(1972)103"
102384 84 Mg0.94Tl0.06 Mg0.94Tl0.06 Mg 0.94 Tl 0.06 1933 K 1.26 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
102385 1340 Mg0.97Sn0.03 Mg0.97Sn0.03 Mg 0.97 Sn 0.03 1972 CsCl "CsCl, B2" K 2.02 1972 "PHYS.REV.B,6(1972)103"
102387 1340 Mg0.93Pb0.07 Mg0.93Pb0.07 Mg 0.93 Pb 0.07 1972 K 0.013 0.013 1972 "PHYS.REV.B,6(1972)103"
102389 84 Mo1O2 Mo1O2 Mo 1 O 2 1933 K 1.3 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
102390 69 Mo0.28O0.72 Mo0.28O0.72 Mo 0.28 O 0.72 1930 K 1.28 From Roberts' Table. 1930 "Z.Physik, 65(1930)30"
102391 84 Mo0.85Ni0.15 Mo0.85Ni0.15 Mo 0.85 Ni 0.15 1933 K 4.2 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
102392 300 Mo0.6Nb0.4 Mo0.6Nb0.4 Mo 0.6 Nb 0.4 1962 K 0.05 FROM Roberts' Table. 1962 "LT-8(1962, London ) paper 4.5"
102393 759 Mn0.002Ti0.499Zr0.49 Mn0.002Ti0.499Zr0.499 Mn 0.002 Ti 0.499 Zr 0.499 1964 K 1.24 1964 "PHYS.REV.,135(1964)A1151"
102394 1377 Mn1Sn2 Mn1Sn2 Mn 1 Sn 2 1972 CuAl2 "CuAl2, C16" K 0.07 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
102395 37 Mn1Sb1 Mn1Sb1 Mn 1 Sb 1 1953 NiAs "NiAs, B8[1]" K 1 Transition temperatures of superconductors 1953 "Phys.Rev., 92(1953)874"
102396 788 Mn0.2Ru0.8 Mn0.2Ru0.8 Mn 0.2 Ru 0.8 1969 K 1969 "PHYS.REV.,178(1969)702"
102397 RMP0350001 Mn1Re1 Mn1Re1 Mn 1 Re 1 1963 sigma-CrFe "sigma-CrFe, D8[b]" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102398 601 Mn1P1 Mn1P1 Mn 1 P 1 1965 MnP "MnP, B31" K 1.01 Superconducting phosphides of the transition metals 1965 "J.PHYS.CHEM.SOL.,26(1965)2037"
102399 11 Mn2O3 Mn2O3 Mn 2 O 3 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
102400 RMP0350001 Mn1Ni1Zr1 Mn1Ni1Zr1 Mn 1 Ni 1 Zr 1 1963 MgCu2(Laves) "MgCu2, C15" K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102401 1913 Mo0.99Si1V2.01 Mo0.99Si1V2.01 Mo 0.99 Si 1 V 2.01 1965 K 1.9 1965 "AZV.AKAD.NAUK SSSR,1(1965)354"
102402 10 Mo1Si2 Mo1Si2 Mo 1 Si 2 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102403 1918 Mo1Se2 Mo1Se2 Mo 1 Se 2 1974 hexagonal K 1.25 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.SOLID STATE CHEM.,9(1974)323"
102404 614 P=0-7-21 kbar Mo5S6Zn1 Mo5S6Zn1 Mo 5 S 6 Zn 1 1975 K 3.2 3.2 1975 "MAT.RES.BULL.,10(1975)297"
102405 614 P=0-22 kbar Mo3S4Sn0.6 Mo3S4Sn0.6 Mo 3 S 4 Sn 0.6 1975 K 14.2 14.2 1975 "MAT.RES.BULL.,10(1975)297"
102406 1584 Mo2S3 Mo2S3 Mo 2 S 3 1968 TRI K 0.3 1968 "STRUCTURE AND BONDING,4(1968)83-229"
102407 918 Mo1S2 Mo1S2 Mo 1 S 2 1969 hexagonal K 1.25 1969 "J.PHYS.SOC.JAPAN,27(1969)590"
102408 845 Mo1Pt2 Mo1Pt2 Mo 1 Pt 2 1968 orthorhombic K 1 1968 "J.LESS-COMMON METALS,15(1968)193"
102409 1721 Mo0.69Pt0.31 Mo0.69Pt0.31 Mo 0.69 Pt 0.31 1973 Mg "Mg, A3" K 1.2 1973 "J.LESS-COMMON METAL,32(1973)207"
102410 614 P=0-5-21 kbar Mo6Pb0.92S7.5 Mo6Pb0.92S7.5 Mo 6 Pb 0.92 S 7.5 1975 K 14 14 1975 "MAT.RES.BULL.,10(1975)297"
102411 1583 Mo1P2 Mo1P2 Mo 1 P 2 1968 K 1.1 1968 "STRUCTUER AND BONDING,4(1968)83-229"
102412 35 Mo1P1 Mo1P1 Mo 1 P 1 1954 WC "WC, B[h]" K 1.03 Superconducting compounds 1954 "Phys.Rev., 93(1954)1415"
102415 119 N1Se1 N1Se1 N 1 Se 1 1948 K 1.3 From Roberts' Table. 1948 "Gottingen Report, (1948)187"
102416 69 N0.97Sc1 N0.97Sc1 N 0.97 Sc 1 1930 NaCl "NaCl, B1" K 1.38 From Roberts' Table. 1930 "Z.Physik, 65(1930)30"
102417 146 particle size = 20-26 A N0.34Re1 N0.34Re1 N 0.34 Re 1 1958 K 5 5 1958 "J.PHYS.AND CHEM.OF SOLIDS,7(1958)98"
102418 559 N0.98Pr1 N0.98Pr1 N 0.98 Pr 1 1966 NaCl "NaCl, B1" K 1.38 1966 "KHIMICHESKAYA AVYAZB V.POLUPROVODNIKAKHI,(1966)299-316"
102419 1439 N6Nb5 N6Nb5 N 6 Nb 5 1974 hexagonal K 1.77 1974 "J.APPL.PHYS.,45(1974)1389"
102420 10 Mo3Zr1 Mo3Zr1 Mo 3 Zr 1 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102421 84 Mo0.75W0.75 Mo0.75W0.75 Mo 0.75 W 0.75 1933 K 4.2 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
102422 1584 Mo3Te4 Mo3Te4 Mo 3 Te 4 1968 K 0.31 1968 "STRUCTURE AND BONDING,4(1968)83-229"
102423 509 Mo3Sn1 Mo3Sn1 Mo 3 Sn 1 1964 cubic K 1 1964 "PHYS.CHEM.SOLIDS,25(1964)1499"
102424 509 Mo3Sn1 Mo3Sn1 Mo 3 Sn 1 1964 Cr3Si(A15) "Cr3Si, A15" K 0.35 1964 "PHYS.CHEM.SOLIDS,25(1964)1499"
102425 500 tetragonal-II phase. not s/c. Na0.1O3W1 Na0.1O3W1 Na 0.1 O 3 W 1 1965 A 5.2 3.9 tetragonal K 0.04 Superconductivity of the alkali tungsten bronzes 1965 "PHYS.LETT.,15(1965)108"
102426 559 N0.906Zr1 N0.906Zr1 N 0.906 Zr 1 1966 NaCl "NaCl, B1" K 1.38 1966 "KHIMICHESKAYA AVYAZB V.POLUPROVODNIKAKHI,(1966)299-316"
102427 604 N1Y1 N1Y1 N 1 Y 1 1966 NaCl "NaCl, B1" K 1.4 SUPERHEATING AND SUPERCOOLING IN THE SUPERCOMMDUCTING TRANSITION OF SMALL INDIUM SPHERES 1966 "PHYS.REV.LETT.,17(1966)87"
102428 11 N1W2 N1W2 N 1 W 2 1952 cubic K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
102429 559 N0.97W1 N0.97W1 N 0.97 W 1 1966 NaCl "NaCl, B1" K 1.38 1966 "KHIMICHESKAYA AVYAZB V.POLUPROVODNIKAKHI,(1966)299-316"
102430 10 N2V5 N2V5 N 2 V 5 1954 hexagonal K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102431 10 N1U1 N1U1 N 1 U 1 1954 NaCl "NaCl, B1" K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102432 505 1200A N1Ta2 N1Ta2 N 1 Ta 2 1964 K 1.2 1964 "J.ELECTROCHEM.SOC.,111(1964)936"
102433 505 1200A N1Ta1 N1Ta1 N 1 Ta 1 1964 NaCl "NaCl, B1" K 4.84 4.84 1964 "J.ELECTROCHEM.SOC.,111(1964)936"
102434 10 N4Th3 N4Th3 N 4 Th 3 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102435 1815 N6Tb1 N6Tb1 N 6 Tb 1 1967 K 1.28 1967 "ISZ.AKAD.NAUK.SSSR.NEORGAN.MATER.,3(1967)1495"
102436 906 N1Ta1 N1Ta1 N 1 Ta 1 1970 K 4.2 1970 "ZH.ETF PIS.RED.,12(1970)101"
102437 1299 Nb0.45Pt3Zrr2.55 Nb0.45Pt3Zr2.55 Nb 0.45 Pt 3 Zr 2.55 1966 hexagonal K 1.6 1966 "PHYS.STAT.SOL.,13(1966)423"
102438 1299 Nb1Pt2.58Ru0.42 Nb1Pt2.58Ru0.42 Nb 1 Pt 2.58 Ru 0.42 1966 Ni3Sn "Ni3Sn, D0[19]" K 1.6 1966 "PHYS.STAT.SOL.,13(1966)423"
102439 1299 Nb1Pt1.8Ru1.2 Nb1Pt1.8Ru1.2 Nb 1 Pt 1.8 Ru 1.2 1966 hexagonal K 1.6 1966 "PHYS.STAT.SOL.,13(1966)423"
102440 1410 "rf-sputtered film, d = 10,000 A." Nb3Pt1 Nb3Pt1 Nb 3 Pt 1 1970 Cr3Si(A15) "Cr3Si, A15" K 11 11 1970 "J.SPPL.PHYS.,41(1970)4958"
102441 1299 Nb1Pt1 Nb1Pt1 Nb 1 Pt 1 1966 orthorhombic K 1.46 1966 "PHYS.STAT.SOL.,13(1966)423"
102442 1825 Nb3Pb1 Nb3Pb1 Nb 3 Pb 1 1974 Cr3Si(A15) "Cr3Si, A15" K 9 1974 "J.APPL.PHYS.,45(1974)4590"
102443 892 Nb1P1Se1 Nb1P1Se1 Nb 1 P 1 Se 1 1969 K 1.25 1969 "INORG.CHEM.,8(1969)2690"
102444 892 Nb1P1S1 Nb1P1S1 Nb 1 P 1 S 1 1969 orthorhombic K 12.5 12.5 1969 "INORG.CHEM.,8(1969)2690"
102445 1229 NB1Os0.42Pt2.58 Nb1Os0.42Pt2.58 Nb 1 Os 0.42 Pt 2.58 1972 Ni3Sn "Ni3Sn, D0[19]" K 1.6 1972 "III SOLID STATE COMMUN.,10(1972)1033"
102446 1450 Nb1O2 Nb1O2 Nb 1 O 2 1972 K Superconductivity in the TiO and NbO systems 1972 "J.LOW TEMP.PHYS.,7(1972)291"
102447 427 Na1Te1 Na1Te1 Na 1 Te 1 1963 K 1.3 Superconductivity of some binary and ternary alloys 1963 JETP 16(1963)1493
102448 427 Na3Sb1 Na3Sb1 Na 3 Sb 1 1963 hexagonal K 1.45 Superconductivity of some binary and ternary alloys 1963 JETP 16(1963)1493
102449 1283 Nb1Se2 Nb1Se2 Nb 1 Se 2 1972 2H-NbSe2 hexagonal K 8.8 8.8 1972 "FIZ.TVERDOGO TELA,14(1972)515"
102450 1891 P=0-6.5-0 KBAR Nb1Se2 Nb1Se2 Nb 1 Se 2 1974 2H-NbSe2 hexagonal K 7.77 7.77 1974 "J.PHYS.SOC.JAPAN,37(1974)36"
102451 399 Nb1Sc1 Nb1Sc1 Nb 1 Sc 1 1962 K 1962 "SUPERCONDUCTORS ED.BY M.TANENBAUM & W.V.,(1962)53-58"
102452 1584 Nb1Sb2 Nb1Sb2 Nb 1 Sb 2 1968 monoclinic K 0.3 1968 "STRUCTURE AND BONDING,4(1968)83-229"
102453 1825 "films, sputter or evaporate " Nb3Sb1 Nb3Sb1 Nb 3 Sb 1 1974 Cr3Si(A15) "Cr3Si, A15" K 2.2 2.2 1974 "J.APPL.PHYS.,45(1974)4590"
102454 801 Nb3Sb1 Nb3Sb1 Nb 3 Sb 1 1966 Cr3Si(A15) "Cr3Si, A15" K 0.4 1966 "PHYS.REV.,152(1966)341"
102455 1853 "P=0,7,13 kbar" Nb1S2 Nb1S2 Nb 1 S 2 1974 K 6.26 6.26 1974 "PHIL.MAG.,30(1974)1091"
102456 10 Nb1S1 Nb1S1 Nb 1 S 1 1954 K 1.28 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102457 667 "P=100 kbar, T = 1200-1300 C" Nb1Ru3 Nb1Ru3 Nb 1 Ru 3 1974 AuCu3 "AuCu3, L1[2]" K 15 15 1974 "ZH.ETF PIS.RED.,20(1974)648"
102458 417 Nb0.7Ru0.3 Nb0.7Ru0.3 Nb 0.7 Ru 0.3 1963 K 1 1963 "PHYS.KONDENS.MATERIE,1(1963)225"
102459 1299 Nb1Rh3 Nb1Rh3 Nb 1 Rh 3 1966 AuCu3 "AuCu3, L1[2]" K 1.2 1966 "PHYS.STAT.SOL.,13(1966)423"
102461 1849 vapor deposition Nb0.71Sn0.29 Nb0.71Sn0.29 Nb 0.71 Sn 0.29 1964 K 18.3 18.3 1964 "RCA REVIEW,256(1964)405"
102462 262 Nb2.5Si3Zr2.5 Nb2.5Si3Zr2.5 Nb 2.5 Si 3 Zr 2.5 Mn5Si3 "Mn5Si3, D8[8]" K 1.1 From Roberts' Table Unpublished
102463 1913 Nb0.39Si1V2.61 Nb0.39Si1V2.61 Nb 0.39 Si 1 V 2.61 1965 K 14 1965 "AZV.AKAD.NAUK SSSR,1(1965)354"
102464 1953 Nb0.75Si0.25 Nb0.75Si0.25 Nb 0.75 Si 0.25 1974 Cr3Si(A15) "Cr3Si, A15" K 9 9 From Roberts' Table. 1974 LT-13(1974)465
102465 1438 Nb0.79Si0.21 Nb0.79Si0.21 Nb 0.79 Si 0.21 1974 Cr3Si(A15) "Cr3Si, A15" K 9.3 9.3 1974 "J.APPL.PHYS.,45(1974)447"
102466 10 Nb1Si2 Nb1Si2 Nb 1 Si 2 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102467 10 Nb3Si12 Nb3Si12 Nb 3 Si 12 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102468 42 Nb0.63Si0.37 Nb0.63Si0.37 Nb 0.63 Si 0.37 1953 K 1.2 Superconducting silicides and Germanides 1953 "Phys.Rev., 89(1953)884"
102469 RMP0350001 Nb5Si3 Nb5Si3 Nb 5 Si 3 1963 tetragonal K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102470 10 Nb0.67Si0.33 Nb0.67Si0.33 Nb 0.67 Si 0.33 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102471 1535 d = 12-30A Nb1Se2 Nb1Se2 Nb 1 Se 2 1972 2H-NbSe2 K 4.7 4.7 Superconductivity in Ultrathin NbSe2 Layers 1972 "Phys.Rev.Lett., 28(1972)299"
102472 1283 Nb1Se2 Nb1Se2 Nb 1 Se 2 1972 2H-NbSe2 K 8.9 8.9 1972 "FIZ.TVERDOGO TELA,14(1972)515"
102473 427 Ni1P1 Ni1P1 Ni 1 P 1 1963 K 1.57 Superconductivity of some binary and ternary alloys 1963 JETP 16(1963)1493
102474 601 Ni2P1 Ni2P1 Ni 2 P 1 1965 Fe2P "Fe2P, C22" K 1.01 Superconducting phosphides of the transition metals 1965 "J.PHYS.CHEM.SOL.,26(1965)2037"
102475 217 Ni3P1 Ni3P1 Ni 3 P 1 Ni3P "Ni3P, D0[e]" K 1.01 "UNPUBLISHED RESULTS,"
102476 11 Ni1O1 Ni1O1 Ni 1 O 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
102477 25 Nd1Si2 Nd1Si2 Nd 1 Si 2 1958 ThSi2 "ThSi2, C[c]" K 1 Superconductivity and ferromagnetism in isomorphous compounds 1958 "Phys.Rev., 112(1958)89"
102478 558 Nd2S3 Nd2S3 Nd 2 S 3 1966 cubic K 1.68 1966 "INSTITUTE METALLOFIZIKI AN U.S.S.R.KIEV,(1966-YEAR 1966"
102479 RMP0350001 Nb1Zn3 Nb1Zn3 Nb 1 Zn 3 1963 AuCu3 "AuCu3, L1[2]" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102480 1584 Nb1Te4 Nb1Te4 Nb 1 Te 4 1968 K 0.025 1968 "STRUCTURE AND BONDING,4(1968)83-229"
102481 1583 Nb5Te4 Nb5Te4 Nb 5 Te 4 1968 K 1.1 1968 "STRUCTUER AND BONDING,4(1968)83-229"
102482 1585 P > 59 kbar Nb3Te1 Nb3Te1 Nb 3 Te 1 1974 Cr3Si(A15) "Cr3Si, A15" K 2.5 1974 "J.PHYS.CHEM.SOLIDS,35(1974)1181"
102483 1603 Nb3Sn1 Nb3Sn1 Nb 3 Sn 1 1974 Cr3Si(A15) "Cr3Si, A15" K 17.77 17.77 1974 "PHYS.REV.LETT.,33(1974)1283"
102484 355 Nb2Sn3 Nb2Sn3 Nb 2 Sn 3 1962 tetragonal K 5 1962 "J.APPL.PHYS.,33(1962)2657"
102485 119 O2Mo5 Mo5O2 Mo 5 O 2 1948 K 1.28 From Roberts' Table. 1948 "Gottingen Report, (1948)187"
102486 11 O2Mo1 Mo1O2 Mo 1 O 2 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
102487 21 Ni1U1 Ni1U1 Ni 1 U 1 1958 K 1.12 1958 "J.Phys.Chem.Solids, 7(1958)259"
102488 RMP0350001 Ni1Ti1 Ni1Ti1 Ni 1 Ti 1 1963 W "W, A2" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102489 301 Ni1Te2 Ni1Te2 Ni 1 Te 2 1961 CdI2 "CdI2, C6" K 1.2 "PdTe2, ein Supraleiter mit CdJ2-Structur" 1961 "HELV.PHYS.ACTA,34(1961)408"
102490 37 Ni1Te1 Ni1Te1 Ni 1 Te 1 1953 NiAs "NiAs, B8[1]" K 1 Transition temperatures of superconductors 1953 "Phys.Rev., 92(1953)874"
102491 84 Ni0.93Sn0.07 Ni0.93Sn0.07 Ni 0.93 Sn 0.07 1933 K 1.26 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
102492 119 Ni1Si1 Ni1Si1 Ni 1 Si 1 1948 K 1.9 From Roberts' Table. 1948 "Gottingen Report, (1948)187"
102493 37 Ni1Si2 Ni1Si2 Ni 1 Si 2 1953 CaF2 "CaF2, C1" K 1 Transition temperatures of superconductors 1953 "Phys.Rev., 92(1953)874"
102494 427 Ni1Sb3 Ni1Sb3 Ni 1 Sb 3 1963 K 1.45 Superconductivity of some binary and ternary alloys 1963 JETP 16(1963)1493
102495 RMP0350001 Ni1Sb1 Ni1Sb1 Ni 1 Sb 1 1963 NiAs "NiAs, B8[1]" K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102496 11 Ni1S1 Ni1S1 Ni 1 S 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
102497 575 O2W1 O2W1 O 2 W 1 1965 K 0.3 1965 "PHYS.LETT.,19(1965)82"
102498 575 O3W1 O3W1 O 3 W 1 1965 K 0.3 1965 "PHYS.LETT.,19(1965)82"
102499 11 O3V2 O3V2 O 3 V 2 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
102500 11 O2U1 O2U1 O 2 U 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
102501 11 O3Tl2 O3Tl2 O 3 Tl 2 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
102502 119 O3Ti2 O3Ti2 O 3 Ti 2 1948 K 1.3 From Roberts' Table. 1948 "Gottingen Report, (1948)187"
102503 1379 O3Sn0.19W1 O3Sn0.19W1 O 3 Sn 0.19 W 1 1968 tetragonal K 1.3 1968 "INORGANIC CHEM.,7(1968)1646"
102504 1379 O3Sn0.21W1 O3Sn0.21W1 O 3 Sn 0.21 W 1 1968 hexagonal K 1.3 1968 "INORGANIC CHEM.,7(1968)1646"
102505 119 O3Sn2 O3Sn2 O 3 Sn 2 1948 K 1.3 From Roberts' Table. 1948 "Gottingen Report, (1948)187"
102506 11 O3Rh2 O3Rh2 O 3 Rh 2 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
102507 1212 O2Re1 O2Re1 O 2 Re 1 1969 K 1.3 1969 "SOLID STATE COMMUN.,7(1969)299"
102508 181 O2Pb1 O2Pb1 O 2 Pb 1 K 1.02 "From Roberts' Table, unpublished results" Unpublished results
102509 786 P=170 kbar P P1 P 1 1968 K 5.8 5.8 Superconductivity of phosphorus at high pressure 1968 "JETP Lett., 7(1968)323"
102510 955 Os4Zr11 Os4Zr11 Os 4 Zr 11 1971 9.71 A 13.428 cubic K 1.2 1971 "J.LESS-COMMON METALS,23(1971)241"
102511 266 Os0.8W0.2 Os0.8W0.2 Os 0.8 W 0.2 1962 hexagonal K 1 1962 "IBM J.RES.DEV.,6(1962)116"
102512 266 Os0.9W0.1 Os0.9W0.1 Os 0.9 W 0.1 1962 hexagonal K 1 1962 "IBM J.RES.DEV.,6(1962)116"
102513 RMP0350001 Os0.29V0.71 Os0.29V0.71 Os 0.29 V 0.71 1963 CsCl "CsCl, B2" K 0.37 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102514 RMP0350001 Os2U1 Os2U1 Os 2 U 1 1963 MgCu2(Laves) "MgCu2, C15" K 0.37 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102515 RMP0350001 Os2Th1 Os2Th1 Os 2 Th 1 1963 MgCu2(Laves) "MgCu2, C15" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102516 276 Os0.3Ta0.7 Os0.3Ta0.7 Os 0.3 Ta 0.7 1961 sigma-CrFe "sigma-CrFe, D8[b]" K 1 1961 "HELV.PHYS.ACTA,343(1961)843"
102517 RMP0350001 Os1Si1 Os1Si1 Os 1 Si 1 1963 FeSi "FeSi, B20" K 0.6 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102518 963 Os0.2Rh0.8 Os0.2Rh0.8 Os 0.2 Rh 0.8 1968 K 0.015 "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
102519 1583 Os1P1 Os1P1 Os 1 P 1 1968 K 1.1 1968 "STRUCTUER AND BONDING,4(1968)83-229"
102520 503 films by vacuum evaporation O1W3 O1W3 O 1 W 3 1965 Cr3Si(A15) beta-W K 0.012 SUPERCONDUCTIVITY IN FILMS OF BETA TUNGSTEN AND OTHER TRANSITION METALS 1965 "PHYS.REV.LETT.,15(1965)260"
102521 1219 P0.4S0.6Y1 P0.4S0.6Y1 P 0.4 S 0.6 Y 1 1970 NaCl "NaCl, B1" K 0.36 1970 "SOLID STATE COMMUN.,8(1970)1379"
102522 892 prepared at P=65 kbar P1S1Ta1 P1S1Ta1 P 1 S 1 Ta 1 1969 orthorhombic K 1.25 1969 "INORG.CHEM.,8(1969)2690"
102523 491 P1Ru2 P1Ru2 P 1 Ru 2 1963 K 0.35 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
102525 1582 P1Re2 P1Re2 P 1 Re 2 1968 Co2Si "Co2Si, C23" K 1.13 1968 "STRUCTURE AND BONDING,4(1968)83-229"
102526 1583 P4Re3 P4Re3 P 4 Re 3 1968 monoclinic K 1.1 1968 "STRUCTUER AND BONDING,4(1968)83-229"
102527 491 P0.26Pt0.74 P0.26Pt0.74 P 0.26 Pt 0.74 1963 K 0.35 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
102528 491 low temperature phase P3Pd7 P3Pd7 P 3 Pd 7 1963 K 0.7 0.7 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
102529 491 high temperature phase P3Pd7 P3Pd7 P 3 Pd 7 1963 rhombohedral K 1 1 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
102530 262 P2Pd5 P2Pd5 P 2 Pd 5 K 1.1 From Roberts' Table Unpublished
102531 262 P3Pd5 P3Pd5 P 3 Pd 5 K 1.1 From Roberts' Table Unpublished
102532 786 P = 220 kbar P P1 P 1 1968 K 5.6 5.6 Superconductivity of phosphorus at high pressure 1968 "JETP Lett., 7(1968)323"
102533 1936 Pa1 Pa1 Pa 1 1974 Cu "Cu, A1" K 0.4 FROM Roberts' Table. 1974 LT-13(1974)vol.3 p=377
102534 1915 P0.95Zr1 P0.95Zr1 P 0.95 Zr 1 1974 NaCl "NaCl, B1" K 4.6 4.6 1974 "MAT.RES.BULL.,9(1974)1671"
102535 1995 P1Zr3 P1Zr3 P 1 Zr 3 tetragonal K 4.5 4.5 FROM Roberts' Table. unpublished
102536 1583 P2Zr1 P2Zr1 P 2 Zr 1 1968 Co2Si "Co2Si, C23" K 1.1 1968 "STRUCTUER AND BONDING,4(1968)83-229"
102537 601 P1W1 P1W1 P 1 W 1 1965 MnP "MnP, B31" K 1.01 Superconducting phosphides of the transition metals 1965 "J.PHYS.CHEM.SOL.,26(1965)2037"
102538 1508 P2W1 P2W1 P 2 W 1 1972 monoclinic K 0.33 1972 "J.MATERIALS SCI.,7(1972)344"
102539 128 P1V3 P1V3 P 1 V 3 1956 K 1 1956 "J.PHYS.CHEM.SOLIDS.,1(1956)188"
102540 1508 P2V1 P2V1 P 2 V 1 1972 monoclinic K 0.035 1972 "J.MATERIALS SCI.,7(1972)344"
102541 601 P1V1 P1V1 P 1 V 1 1965 NiAs "NiAs, B8[1]" K 1.01 Superconducting phosphides of the transition metals 1965 "J.PHYS.CHEM.SOL.,26(1965)2037"
102542 1583 P2Ti1 P2Ti1 P 2 Ti 1 1968 Co2Si "Co2Si, C23" K 1.1 1968 "STRUCTUER AND BONDING,4(1968)83-229"
102543 1582 P1Ti1 P1Ti1 P 1 Ti 1 1968 TiAs "TiAs, B[i]" K 1.13 1968 "STRUCTURE AND BONDING,4(1968)83-229"
102544 1382 P1Sn1 P1Sn1 P 1 Sn 1 1970 tetragonal K 1.25 1970 "INORGANIC CHEM.,9(1970)335"
102545 552 Pd4S1 Pd4S1 Pd 4 S 1 1965 A 5.1147 tetragonal K 0.32 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
102546 963 Pd0.5Rh0.5 Pd0.5Rh0.5 Pd 0.5 Rh 0.5 1968 K 0.015 "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
102547 963 Pd0.25Pt0.25Rh0.5 Pd0.25Pt0.25Rh0.5 Pd 0.25 Pt 0.25 Rh 0.5 1968 K 0.015 "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
102548 963 Pd0.4Pt0.1Rh0.5 Pd0.4Pt0.1Rh0.5 Pd 0.4 Pt 0.1 Rh 0.5 1968 K 0.015 "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
102549 23 Pd1 Pd1 Pd 1 1951 Cu "Cu, A1" K 0.1 1951 "Nature, 167(1951)111"
102550 825 Pb1V3 Pb1V3 Pb 1 V 3 1966 Cr3Si(A15) "Cr3Si, A15" K 4.2 1966 "DOKL.AN SSR,171(1966)331"
102551 653 Pb0.96Tl0.04 Pb0.96Tl0.04 Pb 0.96 Tl 0.04 1966 K 7.06 7.06 1966 "J.PHYS.CHEM.SOLIDS,27(1966)1863"
102552 84 Pb1Se1 Pb1Se1 Pb 1 Se 1 1933 K 1.26 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
102553 778 Pb1S3Ti1 Pb1S3Ti1 Pb 1 S 3 Ti 1 1970 tetragonal K 0.05 1970 "PHYS.LETT.A,31(1970)551"
102554 64 Pb1S1 Pb1S1 Pb 1 S 1 1950 K 1 1950 "Proc.Phys.Soc.(London), A63(1950)1181"
102555 489 Pb1Rh2 Pb1Rh2 Pb 1 Rh 2 1964 K 0.32 1964 "BULL.AM.PHYS.SOC.,9(1964)268"
102556 1372 Pb1Pd3 Pb1Pd3 Pb 1 Pd 3 1972 AuCu3 "AuCu3, L1[2]" K 0.1 1972 "J.LESS-COMMON METALS,27(1972)169"
102557 552 Pd4Te1 Pd4Te1 Pd 4 Te 1 1965 A 12.674 cubic K 0.32 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
102558 28 Pd2Sr1 Pd2Sr1 Pd 2 Sr 1 1957 MgCu2(Laves) "MgCu2, C15" K 1.02 Superconducting alkaline earth compounds 1957 "Phys.Rev., 107(1957)1558"
102560 301 Pd1Se1Te1 Pd1Se1Te1 Pd 1 Se 1 Te 1 1961 CdI2 "CdI2, C6" K 1.2 "PdTe2, ein Supraleiter mit CdJ2-Structur" 1961 "HELV.PHYS.ACTA,34(1961)408"
102561 140 Pd1Se2 Pd1Se2 Pd 1 Se 2 1958 K 1.5 1958 "J.PHYS.CHEM.SOLIDS,4(1958)318"
102562 552 Pd1Se1 Pd1Se1 Pd 1 Se 1 1965 PdS A 6.727 6.912 "PdS, B34" K 0.32 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
102563 140 Pd1Se1 Pd1Se1 Pd 1 Se 1 1958 cubic K 1 1958 "J.PHYS.CHEM.SOLIDS,4(1958)318"
102564 552 Pd17Se15 Pd17Se15 Pd 17 Se 15 1965 A 10.606 cubic K 0.32 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
102565 469 Pd1Sc2 Pd1Sc2 Pd 1 Sc 2 1965 Fe3W3C A 12.442 "Fe3W3C, E9[3]" K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102567 491 Pd1S1 Pd1S1 Pd 1 S 1 1963 K 0.35 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
102568 491 Pd2.8S1 Pd2.8S1 Pd 2.8 S 1 1963 cubic K 1.63 1.63 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
102569 413 Pt1Sb1Se1 Pt1Sb1Se1 Pt 1 Sb 1 Se 1 1963 FeS2(pyrite) "FeS2(pyrite), C2" K 1.2 1963 "PHYS.LETT.,5(1963)226"
102570 963 Pt0.2Rh0.8 Pt0.2Rh0.8 Pt 0.2 Rh 0.8 1968 K 0.015 "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
102571 23 Pt1 Pt1 Pt 1 1951 Cu "Cu, A1" K 0.1 1951 "Nature, 167(1951)111"
102572 558 Pr2S3 Pr2S3 Pr 2 S 3 1966 cubic K 1.68 1966 "INSTITUTE METALLOFIZIKI AN U.S.S.R.KIEV,(1966-YEAR 1966"
102573 23 Pr1 Pr1 Pr 1 1951 hexagonal K 0.25 1951 "Nature, 167(1951)111"
102574 208 Po1 Po1 Po 1 1961 K 1.6 1961 "BULL.AMER.PHYS.SOC.,6(1961)92"
102575 469 Pd3Y1 Pd3Y1 Pd 3 Y 1 1965 AuCu3 A 4.076 "AuCu3, L1[2]" K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102576 711 Pd1Th1 Pd1Th1 Pd 1 Th 1 K 1.5 "From Roberts' Table, unpublished results, Univ. of Geneva" Unpublished results
102577 456 Pd5Th3 Pd5Th3 Pd 5 Th 3 K 1.3 From Roberts' Table. unpublished
102578 456 Pd3Th1 Pd3Th1 Pd 3 Th 1 K 1.3 From Roberts' Table. unpublished
102579 1372 Pd4Th1 Pd4Th1 Pd 4 Th 1 1972 AuCu3 "AuCu3, L1[2]" K 0.1 1972 "J.LESS-COMMON METALS,27(1972)169"
102580 469 Pd5Th1 Pd5Th1 Pd 5 Th 1 1965 K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102581 469 Pt4Th1 Pt4Th1 Pt 4 Th 1 1965 K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102582 301 Pt1Te2 Pt1Te2 Pt 1 Te 2 1961 CdI2 "CdI2, C6" K 1.2 "PdTe2, ein Supraleiter mit CdJ2-Structur" 1961 "HELV.PHYS.ACTA,34(1961)408"
102583 276 Pt0.2Ta0.8 Pt0.2Ta0.8 Pt 0.2 Ta 0.8 1961 sigma-CrFe "sigma-CrFe, D8[b]" K 1.2 1961 "HELV.PHYS.ACTA,343(1961)843"
102584 1299 Pt2Ta1 Pt2Ta1 Pt 2 Ta 1 1966 orthorhombic K 1.6 1966 "PHYS.STAT.SOL.,13(1966)423"
102585 28 Pt2Sr1 Pt2Sr1 Pt 2 Sr 1 1957 MgCu2(Laves) "MgCu2, C15" K 1.02 Superconducting alkaline earth compounds 1957 "Phys.Rev., 107(1957)1558"
102586 229 Pt1Sn4 Pt1Sn4 Pt 1 Sn 4 1962 orthorhombic K 1.3 1962 "J.PHYS.CHEM.SOLIDS,23(1962)405"
102587 486 Pt1Sn2 Pt1Sn2 Pt 1 Sn 2 1965 CaF2 "CaF2, C1" K 0.34 1965 "J.PHYS.CHEM.SOLIDS,26(1965)665"
102588 412 Pt3Sn1 Pt3Sn1 Pt 3 Sn 1 AuCu3 "AuCu3, L1[2]" K 1.2 "From Roberts' Table, Private communication" Private communication
102589 469 Pt1Sc4 Pt1Sc4 Pt 1 Sc 4 1965 K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102590 469 Pt1Sc1 Pt1Sc1 Pt 1 Sc 1 1965 CsCl A 3.268 "CsCl, B2" K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102591 469 Pt3Sc1 Pt3Sc1 Pt 3 Sc 1 1965 AuCu3 "AuCu3, L1[2]" K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102592 413 Pt1Sb1Te1 Pt1Sb1Te1 Pt 1 Sb 1 Te 1 1963 FeS2(pyrite) "FeS2(pyrite), C2" K 1.2 1963 "PHYS.LETT.,5(1963)226"
102593 494 Rb1 Rb1 Rb 1 1965 W "W, A2" K 0.011 SUPERCONDUCTIVITY GRAPHITIC COMPOUNDS 1965 "PHYS.REV.LETT.,14(1965)225"
102594 1581 Pu1 Pu1 Pu 1 1964 monoclinic K 0.4 1964 "REV.MOD.PHYS.,36(1964)144"
102595 469 Pt1Y1 Pt1Y1 Pt 1 Y 1 1965 K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102596 469 Pt3Y1 Pt3Y1 Pt 3 Y 1 1965 AuCu3 "AuCu3, L1[2]" K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102597 469 Pt5Y1 Pt5Y1 Pt 5 Y 1 1965 K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102598 707 Pt1V3 Pt1V3 Pt 1 V 3 1969 Cr3Si(A15) "Cr3Si, A15" K 2.53 2.53 1969 "LOW TEMP.PHYS.,1(1969)539"
102599 173 Pt0.33V0.67 Pt0.33V0.67 Pt 0.33 V 0.67 1961 K 1.02 1961 "J.PHYS.CHEM.SOLIDS,19(1961)130"
102600 1372 Pt3V1 Pt3V1 Pt 3 V 1 1972 AuCu3 "AuCu3, L1[2]" K 0.07 1972 "J.LESS-COMMON METALS,27(1972)169"
102601 711 Pt8Ti1 Pt8Ti1 Pt 8 Ti 1 K 1.15 "From Roberts' Table, unpublished results, Univ. of Geneva" Unpublished results
102602 456 Pt5Th3 Pt5Th3 Pt 5 Th 3 K 1.3 From Roberts' Table. unpublished
102603 456 Pt2Th1 Pt2Th1 Pt 2 Th 1 K 1.3 From Roberts' Table. unpublished
102604 469 Pt3Th1 Pt3Th1 Pt 3 Th 1 1965 K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102605 469 Rh1Sc4 Rh1Sc4 Rh 1 Sc 4 1965 K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102606 469 Rh0.32Sc0.68 Rh0.32Sc0.68 Rh 0.32 Sc 0.68 1965 K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102608 469 Rh3Sc1 Rh3Sc1 Rh 3 Sc 1 1965 AuCu3 A 3.898 "AuCu3, L1[2]" K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102609 RMP0350001 Rh1Sb1 Rh1Sb1 Rh 1 Sb 1 1963 MnP "MnP, B31" K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102610 103 Rh1 Rh1 Rh 1 1947 Cu "Cu, A1" K 0.086 1947 "J.PHYS.(U.S.S.R.),11(1947)95"
102611 266 Re0.1W0.9 Re0.1W0.9 Re 0.1 W 0.9 1962 cubic K 1.02 1962 "IBM J.RES.DEV.,6(1962)116"
102612 RMP0350001 Re2U1 Re2U1 Re 2 U 1 1963 orthorhombic K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102613 1913 Re0.18Si1V2.82 Re0.18Si1V2.82 Re 0.18 Si 1 V 2.82 1965 Cr3Si(A15) "Cr3Si, A15" K 14 1965 "AZV.AKAD.NAUK SSSR,1(1965)354"
102614 712 Re1Si2 Re1Si2 Re 1 Si 2 K 1.15 "From Roberts' Table, unpublished work, Univ. of Geneva" Unpublished results
102615 711 Re1Se2 Re1Se2 Re 1 Se 2 K 1.15 "From Roberts' Table, unpublished results, Univ. of Geneva" Unpublished results
102616 781 Rb1 Rb1 Rb 1 1970 K 1.2 1970 "PHYS.REV.LETT.,24(1970)812"
102617 412 Rh3V1 Rh3V1 Rh 3 V 1 AuCu3 "AuCu3, L1[2]" K 1.2 "From Roberts' Table, Private communication" Private communication
102618 707 Rh1V3 Rh1V3 Rh 1 V 3 1969 Cr3Si(A15) "Cr3Si, A15" K 0.015 1969 "LOW TEMP.PHYS.,1(1969)539"
102619 412 Rh3U1 Rh3U1 Rh 3 U 1 AuCu3 "AuCu3, L1[2]" K 1.2 "From Roberts' Table, Private communication" Private communication
102620 1071 Rh1Ti2 Rh1Ti2 Rh 1 Ti 2 1968 K 1.2 1968 "Z.PHYS.,208(1968)238"
102621 412 Rh3Ti1 Rh3Ti1 Rh 3 Ti 1 AuCu3 "AuCu3, L1[2]" K 1.2 "From Roberts' Table, Private communication" Private communication
102622 469 Rh2Th1 Rh2Th1 Rh 2 Th 1 1965 K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102623 469 Rh3Th1 Rh3Th1 Rh 3 Th 1 1965 AuCu3 "AuCu3, L1[2]" K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102624 280 Rh1Te1 Rh1Te1 Rh 1 Te 1 NiAs "NiAs, B8[1]" K 1.06 From Roberts' Table. private commun.
102625 88 high temperature form Rh1Te2 Rh1Te2 Rh 1 Te 2 1933 CdI2 "CdI2, C6" K 1.06 1933 "PHIL.MAG.,16(1933)1005"
102626 1299 Rh2Ta1 Rh2Ta1 Rh 2 Ta 1 1966 Co2Si "Co2Si, C37" K 1.39 1966 "PHYS.STAT.SOL.,13(1966)423"
102627 RMP0350001 Rh1Si1 Rh1Si1 Rh 1 Si 1 1963 FeSi "FeSi, B20" K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102628 35 Rh0.29Se0.71 Rh0.29Se0.71 Rh 0.29 Se 0.71 1954 K 1.04 Superconducting compounds 1954 "Phys.Rev., 93(1954)1415"
102629 1757 P = 0-24 kbar Ru0.465V0.535 Ru0.465V0.535 Ru 0.465 V 0.535 1974 K 5.8 5.8 Superconductivity and stability of near equiatomic V-Ru compounds at high pressure 1974 "J.PHYS.F:METAL PHYS.,4(1974)1423"
102630 1930 Ru0.5V0.5 Ru0.5V0.5 Ru 0.5 V 0.5 1971 K 0.4 1971 "PHYS.REV.B,4(1971)320"
102631 412 Ru3U1 Ru3U1 Ru 3 U 1 AuCu3 "AuCu3, L1[2]" K 1.2 "From Roberts' Table, Private communication" Private communication
102632 552 Ru1Te2 Ru1Te2 Ru 1 Te 2 1965 FeS2(pyrite) A 6.391 "FeS2(pyrite), C2" K 0.32 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
102633 552 Ru1Se2 Ru1Se2 Ru 1 Se 2 1965 FeS2(pyrite) A 5.934 "FeS2(pyrite), C2" K 0.32 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
102634 491 Ru2Sb1 Ru2Sb1 Ru 2 Sb 1 1963 K 0.35 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
102635 491 Ru1Sb1 Ru1Sb1 Ru 1 Sb 1 1963 MnP "MnP, B31" K 0.35 1963 "J.PHYS.CHEM.SOLIDS,24(1963)1093"
102636 552 Ru1S2 Ru1S2 Ru 1 S 2 1965 FeS2(pyrite) A 5.609 "FeS2(pyrite), C2" K 0.32 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
102637 658 Rh3Y7 Rh3Y7 Rh 3 Y 7 1967 Fe3Th7 "Fe3Th7, D10[2]" K 0.32 Superconductivity of lanthanum and lanthanum compounds at zero and high pressure 1967 "J.PHYS.CHEM.SOLIDS,28(1967)569"
102638 469 Rh1Y2 Rh1Y2 Rh 1 Y 2 1965 K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102639 469 Rh1Y1 Rh1Y1 Rh 1 Y 1 1965 CsCl A 3.41 "CsCl, B2" K 0.32 SUPERCONDUCTIVITY IN BINARY ALLOY SYSTEMS OF THE RARE EARTH AND OF THORIUM WITH PT-GROUP METALS 1965 "PHYS.REV.,137(1965)A119"
102640 RMP0350001 Rh2Y1 Rh2Y1 Rh 2 Y 1 1963 MgCu2(Laves) "MgCu2, C15" K 0.32 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102641 774 R measured upto P = 150 kbar. Sb(II) Sb1 Sb 1 1969 "Sb(III), hcp" K 3.55 0 3.55 A Study of the superconductivity of antimony under pressure and a search for superconductivity in arsenic 1969 "J.Phys.Chem.Solids, 30(1969)1407"
102642 103 Sb1 Sb1 Sb 1 1947 alpha-As "alpha-As, A7" K 0.152 1947 "J.PHYS.(U.S.S.R.),11(1947)95"
102643 84 S1W2 S1W2 S 1 W 2 1933 K 1.3 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
102644 1918 S2W1 S2W1 S 2 W 1 1974 hexagonal K 1.25 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "J.SOLID STATE CHEM.,9(1974)323"
102645 1582 S1V3 S1V3 S 1 V 3 1968 K 1.13 1968 "STRUCTURE AND BONDING,4(1968)83-229"
102646 84 S1Tl2 S1Tl2 S 1 Tl 2 1933 K 1.3 From Roberts' Table 1933 "Ann.Phys., 17(1933)593"
102647 1191 S1Ti1 S1Ti1 S 1 Ti 1 1972 K 1 1972 "SCI.,175(1972)884"
102648 11 S1Sn1 S1Sn1 S 1 Sn 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
102649 1219 S1Sc1 S1Sc1 S 1 Sc 1 1970 NaCl "NaCl, B1" K 0.33 1970 "SOLID STATE COMMUN.,8(1970)1379"
102650 11 S3Sb1 S3Sb1 S 3 Sb 1 1952 K 1.28 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
102651 1989 Ru1Y3 Ru1Y3 Ru 1 Y 3 1972 K 4.2 1972 "IZV.AKAD.NAUK SSSR METAL.,5(1972)129"
102652 1706 P = 1-20 kbar Ru0.46V0.54 Ru0.46V0.54 Ru 0.46 V 0.54 1971 K 5.05 5.05 1971 "PHYS.REV.B,3(1971)107"
102653 744 Sc0.5Zr0.5 Sc0.5Zr0.5 Sc 0.5 Zr 0.5 1966 K 0.022 mj/mol.K2 4.5 325 arc-melting in He Superconductivity and electronic specific heat in the scandium-zirconium system 1966 "PHYS.REV.,149(1966)409"
102654 25 Sc1Si2 Sc1Si2 Sc 1 Si 2 1958 K 1 Superconductivity and ferromagnetism in isomorphous compounds 1958 "Phys.Rev., 112(1958)89"
102655 1219 Sc1Se1 Sc1Se1 Sc 1 Se 1 1970 NaCl "NaCl, B1" K 0.33 1970 "SOLID STATE COMMUN.,8(1970)1379"
102656 744 Sc1 Sc1 Sc 1 1966 Mg "Mg, A3" K 0.032 mj/mol.K2 10.9 344 Superconductivity and electronic specific heat in the scandium-zirconium system 1966 "PHYS.REV.,149(1966)409"
102657 1994 P=0-160 kbar Sc1 Sc1 Sc 1 1974 K 0.014 From Roberts' Table. 1974 LT-13(1974)490
102658 1582 Sb3Zr5 Sb3Zr5 Sb 3 Zr 5 1968 Mn5Si3 "Mn5Si3, D8[8]" K 1.13 1968 "STRUCTURE AND BONDING,4(1968)83-229"
102659 1584 Sb2Zr1 Sb2Zr1 Sb 2 Zr 1 1968 K 0.3 1968 "STRUCTURE AND BONDING,4(1968)83-229"
102660 RMP0350001 Sb1Y1 Sb1Y1 Sb 1 Y 1 1963 NaCl "NaCl, B1" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102661 1377 Sb2V1 Sb2V1 Sb 2 V 1 1972 CuAl2 "CuAl2, C16" K 0.06 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
102662 1377 Sb2Ti1 Sb2Ti1 Sb 2 Ti 1 1972 CuAl2 "CuAl2, C16" K 0.07 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
102663 1139 Sb1Te2Tl1 Sb1Te2Tl1 Sb 1 Te 2 Tl 1 1970 K 0.015 1970 "PHYS.REV.LETT.,24(1970)53"
102664 1508 Sb2Ta1 Sb2Ta1 Sb 2 Ta 1 1972 monoclinic K 0.3 1972 "J.MATERIALS SCI.,7(1972)344"
102665 303 Si1 Si1 Si 1 cubic K 0.33 From Roberts' Table. Unpublished
102666 103 Si1 Si1 Si 1 1947 diamond "diamond, A4" K 0.073 1947 "J.PHYS.(U.S.S.R.),11(1947)95"
102667 1965 Se4Y3 Se4Y3 Se 4 Y 3 1975 orthorhombic K 0.35 mj/mol.K2 0.7 274 Magnetic and some thermal properties of chalcogenides of Pr and Tm and a few other rare earths 1975 "PHYS.REV.B,11(1975)500"
102668 675 Se2V1 Se2V1 Se 2 V 1 1966 K 1 1966 "PHYS.LETT.,20(1966)131"
102669 1582 Se1.05Ti1 Se1.05Ti1 Se 1.05 Ti 1 1968 NiAs "NiAs, B8[1]" K 1.13 1968 "STRUCTURE AND BONDING,4(1968)83-229"
102670 1582 Se1Th1 Se1Th1 Se 1 Th 1 1968 NaCl "NaCl, B1" K 1.13 1968 "STRUCTURE AND BONDING,4(1968)83-229"
102671 1582 Se1Th1 Se1Th1 Se 1 Th 1 1968 NaCl "NaCl, B1" K 1.13 1968 "STRUCTURE AND BONDING,4(1968)83-229"
102672 797 Se2Ta1 Se2Ta1 Se 2 Ta 1 1967 K 0.16 0.16 1967 "PHYS.LETT.A,24(1967)645"
102673 797 Se2Ta1 Se2Ta1 Se 2 Ta 1 1967 K 0.13 0.13 1967 "PHYS.LETT.A,24(1967)645"
102674 527 Se1 Se1 Se 1 1964 SE(II) K 9.65 9.65 SPECIFIC HEAT OF MERCURY AND THALLIUM BETWEEN 0.35 AND 4.2K 1964 "PHYS.REV.,135(1964)A631"
102675 273 Se1 Se1 Se 1 1930 gamma-Se "gamma-Se, A8" K 1.26 1930 "ANN.PHYS.,7(1930)892"
102676 744 Sc0.4Zr0.6 Sc0.4Zr0.6 Sc 0.4 Zr 0.6 1966 K 0.04 Superconductivity and electronic specific heat in the scandium-zirconium system 1966 "PHYS.REV.,149(1966)409"
102677 10 Si1Ti1 Si1Ti1 Si 1 Ti 1 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102678 10 Si2Ti1 Si2Ti1 Si 2 Ti 1 1954 TiSi2 "TiSi2, C54" K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102679 927 Si2Th3 Si2Th3 Si 2 Th 3 1969 tetragonal K 0.1 1969 "PHYS.LETT.A,29(1969)109"
102681 1377 Si0.35Ta0.65 Si1Ta1.86 Si 1 Ta 1.86 1972 CuAl2 "CuAl2, C16" K 0.1 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
102682 10 Si0.16Ta0.84 Si0.16Ta0.84 Si 0.16 Ta 0.84 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102683 10 Si0.28Ta0.72 Si0.28Ta0.72 Si 0.28 Ta 0.72 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102684 10 Si0.4Ta0.6 Si0.4Ta0.6 Si 0.4 Ta 0.6 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102685 10 Si2Ta1 Si2Ta1 Si 2 Ta 1 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102686 961 Si2Sr1 Si2Sr1 Si 2 Sr 1 1967 cubic K 0.32 1967 "J.LESS-COMMON METALS,12(1967)75"
102687 961 Si3Sr2 Si3Sr2 Si 3 Sr 2 1967 ThSi2 "ThSi2, C[c]" K 0.55 0.55 1967 "J.LESS-COMMON METALS,12(1967)75"
102688 540 P=120-130 kbar Si1 Si1 Si 1 1965 K 7.1 7.1 1965 "PHYS.LETT.,17(1965)187"
102690 10 Si2W1 Si2W1 Si 2 W 1 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102691 42 Si0.15V0.75X0.1 Si0.15V0.75X0.1 Si 0.15 V 0.75 X 0.1 1953 K Superconducting silicides and Germanides 1953 "Phys.Rev., 89(1953)884"
102692 1933 dTc/dP = 2.8 E-5 K/bar Si0.25V0.75 Si0.25V0.75 Si 0.25 V 0.75 3 1974 Cr3Si(A15) "Cr3Si, A15" K 16.7 16.7 K/GPa 0.28 Effect of lattice transformation on the pressure dependence of Tc of V3Si single crystals 1974 "PHYS.REV.B,10(1974)4030"
102693 RMP0350001 Si2V5 Si2V5 Si 2 V 5 1963 tetragonal K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102694 10 Si0.4V0.6 Si0.4V0.6 Si 0.4 V 0.6 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102695 10 Si2V1 Si2V1 Si 2 V 1 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102696 21 Si1U3 Si1U3 Si 1 U 3 1958 tetragonal K 1.1 1958 "J.Phys.Chem.Solids, 7(1958)259"
102697 RMP0350001 Si2U1 Si2U1 Si 2 U 1 1963 ThSi2 "ThSi2, C[c]" K 0.35 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102698 927 Si2U3 Si2U3 Si 2 U 3 1969 tetragonal K 0.1 1969 "PHYS.LETT.A,29(1969)109"
102699 1677 Si3U1 Si3U1 Si 3 U 1 1974 AuCu3 "AuCu3, L1[2]" K 1.3 1974 "SOLID STATE COMMUN.,14(1974)145"
102700 10 Si3Ti5 Si3Ti5 Si 3 Ti 5 1954 Mn5Si3 "Mn5Si3, D8[8]" K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102701 363 Sn1 Sn1 Sn 1 1958 diamond "diamond, A4" K 0.1 1958 "PHYSICA,24(1958)S176"
102702 291 Sm1 Sm1 Sm 1 1962 rhombohedral K 0.37 From Roberts' Table. 1962 "LT-8 (London, 1962), paper 5.3"
102703 10 Si0.2Zr0.8 Si0.2Zr0.8 Si 0.2 Zr 0.8 1954 K 1.2 The superconductivity of some transition metal compounds 1954 "Phys.Rev., 93(1954)1004"
102704 1377 Si1Zr2 Si1Zr2 Si 1 Zr 2 1972 CuAl2 "CuAl2, C16" K 0.06 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
102705 1377 Si1Zr2 Si1Zr2 Si 1 Zr 2 1972 CuAl2 "CuAl2, C16" K 0.06 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
102706 262 Si3Zr5 Si3Zr5 Si 3 Zr 5 Mn5Si3 "Mn5Si3, D8[8]" K 1.1 From Roberts' Table Unpublished
102707 927 Si2Zr3 Si2Zr3 Si 2 Zr 3 1969 tetragonal K 0.1 1969 "PHYS.LETT.A,29(1969)109"
102708 20 Si0.45Zr0.55 Si0.45Zr0.55 Si 0.45 Zr 0.55 1932 K 1.2 1932 "Z.Phys., 75(1932)521"
102710 RMP0350001 Si2Zr1 Si2Zr1 Si 2 Zr 1 1963 ZrSi2 "ZrSi2, C49" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102711 711 Si1Y1 Si1Y1 Si 1 Y 1 K 0.15 "From Roberts' Table, unpublished results, Univ. of Geneva" Unpublished results
102712 808 Si0.665Y0.335 Si0.665Y0.335 Si 0.665 Y 0.335 1966 ThSi2 "ThSi2, C[c]" K 0.1 FROM Roberts' Table. 1966 "Ann.Acad.Sci.Finnicae A, VI No.210(1966)p=92"
102713 781 P = 0-150 kbar Sr1 Sr1 Sr 1 1970 K 1.2 1970 "PHYS.REV.LETT.,24(1970)812"
102714 RMP0350001 Sr1 Sr1 Sr 1 1963 Cu "Cu, A1" K 0.017 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102715 711 Sn1Y2 Sn1Y2 Sn 1 Y 2 K 1.15 "From Roberts' Table, unpublished results, Univ. of Geneva" Unpublished results
102716 863 Sn3Y5 Sn3Y5 Sn 3 Y 5 1969 K 1.4 1969 "J.APPL.PHYS.,40(1969)3161"
102717 711 Sn3V2 Sn3V2 Sn 3 V 2 K 1.15 "From Roberts' Table, unpublished results, Univ. of Geneva" Unpublished results
102718 1677 Sn3U1 Sn3U1 Sn 3 U 1 1974 AuCu3 "AuCu3, L1[2]" K 1.3 1974 "SOLID STATE COMMUN.,14(1974)145"
102719 1900 deposited at 0.3 K. Sn0.1Tl0.9 Sn0.1Tl0.9 Sn 0.1 Tl 0.9 1974 K 3.5 3.5 1974 "Z.PHYS.,269(1974)23"
102720 900 "prepared at 15 kbar, 170-305 K " Sn0.65Tl0.35 Sn0.65Tl0.35 Sn 0.65 Tl 0.35 1969 K 7.1 7.1 1969 "ZH.ETF PIS.RED.,10(1969)289"
102721 RMP0350001 Sb1Ti3 Sn1Ti3 Sn 1 Ti 3 1963 Ni3Sn "Ni3Sn, D0[19]" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102722 780 "Sn(III), P=113 kbar" Sn1 Sn1 Sn 1 1966 K 5.3 5.3 1966 "Z.PHYS.,195(1966)228"
102723 785 "Sn(II), P=125,160 kbar" Sn1 Sn1 Sn 1 1968 K 5.2 5.2 1968 "ZH.ETF PIS.RED.,7(1968)198"
102724 579 Sn1 Sn1 Sn 1 1965 beta-Sn "beta-Sn, A5" K 3.722 3.722 1965 "PHYS.REV. A,140(1965)507"
102725 909 P-induced SC. Tc = 4.28 K. at P = 70 kbar. Te(III) for 68 < P < 70 kbar. Te(III) Te1 Te 1 3 1971 K 4.28 0 4.28 K/GPa -0.17 1971 "ZH.ETF PIS.RED.,13(1971)23"
102726 1688 "Te(II), P=40-70 kbar" Te1 Te1 Te 1 1972 K 3.9 3.9 1972 "FIZ.TVERDOGO TELA,14(1972)2527"
102727 1277 Te1 Te1 Te 1 1968 gamma-Se "gamma-Se, A8" K 0.05 1968 "FIZ.TVERDOGO TELA,10(1968)1112"
102728 524 Tc0.05W0.95 Tc0.05W0.95 Tc 0.05 W 0.95 1965 cubic K 0.8 SUPERCONDUCTING THECHNETIUM-TUNGSTEN ALLOYS 1965 "PHYS.REV.,140(1965)A1177"
102729 836 "Tc measured for P = 0-15 kbar. sample is 99 % purity. Tc = 8.0 K for sample #1, = 7.924 K for sample #2" Tc Tc1 Tc 1 1968 K 8 8 MTC102729 K/GPa -0.125 dTc/dP for technetium and a comment on its sign relation to the other transition metal superconductors 1968 "PHYS.LETT.A,26(1968)627"
102731 291 Tb1 Tb1 Tb 1 1962 Mg "Mg, A3" K 0.37 From Roberts' Table. 1962 "LT-8 (London, 1962), paper 5.3"
102732 1969 Ta0.15Zr0.85 Ta0.15Zr0.85 Ta 0.15 Zr 0.85 1971 K 4.3 4.3 The metastable constitution and the superconducting transition behavior of Zr-Ta alloys 1971 "J.NUCLEAR MATERIALS,38(1971)83"
102733 1400 Ta1V2 Ta1V2 Ta 1 V 2 1973 K 1.5 1973 "JAPAN J.APPL.PHYS.,12(1973)1659"
102734 1391 Ta0.63Ti0.3Zr0.07 Ta0.63Ti0.3Zr0.07 Ta 0.63 Ti 0.3 Zr 0.07 1967 K Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
102735 797 Ta1Te2 Ta1Te2 Ta 1 Te 2 1967 K 0.05 1967 "PHYS.LETT.A,24(1967)645"
102736 710 deposited at 4.2 K. d=100 A. Sr1 Sr1 Sr 1 1975 K 3.6 3.6 1975 "PHYS.LETT.A,51(1975)353"
102737 1488 Tc measured for P=60 - 160 kbar. Tc(P=100kbar) = 0.05 K. Tc by resistive transition. Th1 Th1 Th 1 1972 K 1.35 1.35 K/GPa -0.13 Pressure dependence of the transition temperature of thorium 1972 "PHYS.LETT.A,38(1972)517"
102738 1123 RRR = 1200 Th1 Th1 Th 1 1967 Cu "Cu, A1" K 1.39 1.39 1967 "PHYS.REV.LETT.,18(1967)899"
102739 1582 Te3Zr1 Te3Zr1 Te 3 Zr 1 1968 K 1.13 1968 "STRUCTURE AND BONDING,4(1968)83-229"
102740 1584 Te2W1 Te2W1 Te 2 W 1 1968 K 0.3 1968 "STRUCTURE AND BONDING,4(1968)83-229"
102741 1582 Te3V2 Te3V2 Te 3 V 2 1968 monoclinic K 1.13 1968 "STRUCTURE AND BONDING,4(1968)83-229"
102742 1582 Te4Ti5 Te4Ti5 Te 4 Ti 5 1968 K 1.13 1968 "STRUCTURE AND BONDING,4(1968)83-229"
102743 1582 Te1Ti1 Te1Ti1 Te 1 Ti 1 1968 NiAs "NiAs, B8[1]" K 1.13 1968 "STRUCTURE AND BONDING,4(1968)83-229"
102744 1582 Te4Ti3 Te4Ti3 Te 4 Ti 3 1968 K 1.13 1968 "STRUCTURE AND BONDING,4(1968)83-229"
102745 1583 Te2Ti1 Te2Ti1 Te 2 Ti 1 1968 K 1.1 1968 "STRUCTUER AND BONDING,4(1968)83-229"
102746 1582 Te1Th1 Te1Th1 Te 1 Th 1 1968 CsCl "CsCl, B2" K 1.13 1968 "STRUCTURE AND BONDING,4(1968)83-229"
102747 1688 P=100-260 kbar Te1 Te1 Te 1 1972 K 3.3 3.3 1972 "FIZ.TVERDOGO TELA,14(1972)2527"
102748 1688 "Te(IV), P=80-100 kbar" Te1 Te1 Te 1 1972 K 4.3 4.3 1972 "FIZ.TVERDOGO TELA,14(1972)2527"
102750 AAAAA Ti1N1 N1Ti1 N 1 Ti 1 1973 K 4.86 4.86 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102751 AAAAA Pr1N1 N1Pr1 N 1 Pr 1 1973 K 1.38 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102753 AAAAA Sc1N1 N1Sc1 N 1 Sc 1 1973 K 1.38 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102754 253 Ti0.1Zr0.9 Ti0.1Zr0.9 Ti 0.1 Zr 0.9 1961 hexagonal K 1 SUPERCONDUCTING SOLID SOLUTION ALLOYS OF THE TRANSITION ELEMENTS 1961 "PHYS.REV.,123(1961)1569"
102755 572 Ti0.25Zr0.75 Ti0.25Zr0.75 Ti 0.25 Zr 0.75 1966 K 1966 "PHYS.KONDENS.MATERIE,5(1966)243"
102756 253 Ti0.8Zr0.2 Ti0.8Zr0.2 Ti 0.8 Zr 0.2 1961 hexagonal K 1 SUPERCONDUCTING SOLID SOLUTION ALLOYS OF THE TRANSITION ELEMENTS 1961 "PHYS.REV.,123(1961)1569"
102757 RMP0350001 Ti1Zn2 Ti1Zn2 Ti 1 Zn 2 1963 MgZn2(Laves) "MgZn2, C14" K 1.02 Superconductivity 1963 "REV.MORDERN PHYS.,35(1963)1"
102758 688 Ti0.12V0.88 Ti0.12V0.88 Ti 0.12 V 0.88 1966 K 1966 "PHYS.LETT.,23(1966)40"
102759 21 Ti1U2 Ti1U2 Ti 1 U 2 1958 AlB2 "AlB2, C32" K 1.06 1958 "J.Phys.Chem.Solids, 7(1958)259"
102760 980 Ti4Tl1 Ti4Tl1 Ti 4 Tl 1 1967 Cr3Si(A15) "Cr3Si, A15" K 0.35 1967 "SOLID STATE COMMUN.,5(1967)221"
102763 AAAAA Yb1C2 C2Yb1 C 2 Yb 1 1973 K 0.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102769 AAAAA Ce1C2 C2Ce1 C 2 Ce 1 1973 K 0.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102770 AAAAA Y1C2 C2Y1 C 2 Y 1 1973 K 3.88 3.88 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102771 AAAAA Y1C1 C1Y1 C 1 Y 1 1973 K 1.38 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102772 AAAAA Sc1C1 C1Sc1 C 1 Sc 1 1973 K 1.38 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102775 AAAAA Zr1B1 B1Zr1 B 1 Zr 1 1973 K 2.8 2.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102779 AAAAA Tb1B6 B6Tb1 B 6 Tb 1 1973 K 1.28 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102782 AAAAA Y1B6 B6Y1 B 6 Y 1 1973 K 1.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102785 AAAAA Zr2Si1 Si1Zr2 Si 1 Zr 2 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102786 AAAAA Zr4Si1 Si1Zr4 Si 1 Zr 4 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102787 AAAAA Zr1Si1 Si1Zr1 Si 1 Zr 1 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102788 AAAAA Zr6Si5 Si5Zr6 Si 5 Zr 6 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102790 AAAAA Zr4Si3 Si3Zr4 Si 3 Zr 4 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102795 AAAAA La1Si2 La1Si2 La 1 Si 2 1973 K 2.5 2.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102796 AAAAA Y1Si1 Si2Y1 Si 2 Y 1 1973 K 0.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102803 AAAAA Ti5Ge3 Ge3Ti5 Ge 3 Ti 5 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102808 AAAAA Zr3Si2 Si2Zr3 Si 2 Zr 3 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102811 AAAAA Re1N0.34 N0.34Re1 N 0.34 Re 1 1973 K 4 4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102817 AAAAA Ta1N1 N1Ta1 N 1 Ta 1 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102819 AAAAA Nb2N1 N1Nb2 N 1 Nb 2 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102820 AAAAA Nb1N1 N1Nb1 N 1 Nb 1 1973 K 15.6 15.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102821 AAAAA W1C1 C1W1 C 1 W 1 1973 K 1.28 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102822 AAAAA W2C1 C1W2 C 1 W 2 1973 K 2.74 2.74 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102823 AAAAA Mo1C1 C1Mo1 C 1 Mo 1 1973 K 7.7 7.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102824 AAAAA Mo2C1 C1Mo2 C 1 Mo 2 1973 K 2.78 2.78 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102826 AAAAA Cr7C3 C3Cr7 C 3 Cr 7 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102827 AAAAA Cr4C1 C1Cr4 C 1 Cr 4 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102828 AAAAA Ta1C1 C1Ta1 C 1 Ta 1 1973 K 3.3 3.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102829 AAAAA Ta2C1 C1Ta2 C 1 Ta 2 1973 K 1.98 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102830 AAAAA Nb2C1 C1Nb2 C 1 Nb 2 1973 K 1.98 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102831 AAAAA Nb1C1 C1Nb1 C 1 Nb 1 1973 K 6 6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102832 AAAAA V1C1 C1V1 C 1 V 1 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102837 AAAAA Ta2B1 B1Ta2 B 1 Ta 2 1973 K 3.12 3.12 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102838 AAAAA Nb3B1 B1Nb3 B 1 Nb 3 1973 K 1.28 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102839 AAAAA Nb2B1 B1Nb2 B 1 Nb 2 1973 K 1.28 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102841 AAAAA V1B2 B2V1 B 2 V 1 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102844 AAAAA excess carbon occures in the sample. Tc1C1 C1Tc1 C 1 Tc 1 1973 K 3.85 3.85 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102845 AAAAA V5Si3 Si3V5 Si 3 V 5 1973 K 0.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102846 AAAAA V0.6Si0.4 Si0.4V0.6 Si 0.4 V 0.6 1973 K 1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102848 AAAAA Re2B1 B1Re2 B 1 Re 2 1973 K 2.8 2.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102852 AAAAA Mo2B5 B5Mo2 B 5 Mo 2 1973 K 1.28 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102853 AAAAA Mo1B1 B1Mo1 B 1 Mo 1 1973 K 0.5 0.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102857 AAAAA Mo3Si2 Mo3Si2 Mo 3 Si 2 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102858 AAAAA Cr1B2 B2Cr1 B 2 Cr 1 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102859 AAAAA Cr1B1 B1Cr1 B 1 Cr 1 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102860 AAAAA Ta5Si1 Si1Ta5 Si 1 Ta 5 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102861 AAAAA Ta5Si2 Si2Ta5 Si 2 Ta 5 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102863 AAAAA Ta3Si2 Si2Ta3 Si 2 Ta 3 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102864 AAAAA Ta1Si1 Si1Ta1 Si 1 Ta 1 1973 K 4.28 4.28 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102867 AAAAA Nb2Si1 Nb2Si1 Nb 2 Si 1 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102869 AAAAA Mo3Ge2 Ge2Mo3 Ge 2 Mo 3 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102870 AAAAA Mo1Ge0.7 Ge0.7Mo1 Ge 0.7 Mo 1 1973 K 1.2 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102871 AAAAA Cr3Ge2 Cr3Ge2 Cr 3 Ge 2 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102873 AAAAA Nb1Ge2 Ge2Nb1 Ge 2 Nb 1 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102876 AAAAA Mn3Si1 Mn3Si1 Mn 3 Si 1 1973 K 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102877 AAAAA W1Si2 Si2W1 Si 2 W 1 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102878 AAAAA W3Si2 Si2W3 Si 2 W 3 1973 K 2.84 2.84 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102880 AAAAA Mo1Si0.7 Mo1Si0.7 Mo 1 Si 0.7 1973 K 1.34 1.34 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102882 AAAAA Rh2B1 B1Rh2 B 1 Rh 2 1973 K 1.28 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102887 AAAAA Rh1C1 C1Rh1 C 1 Rh 1 1973 K 1.28 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102888 AAAAA Ru1C1 C1Ru1 C 1 Ru 1 1973 K 2 2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102889 AAAAA Fe3C1 C1Fe3 C 1 Fe 3 1973 K 1.3 1.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102892 AAAAA beta-phase. Mo1Ge2 Ge2Mo1 Ge 2 Mo 1 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102898 AAAAA Th1B6 B6Th1 B 6 Th 1 1973 K 1.28 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102899 AAAAA Th1B2 B2Th1 B 2 Th 1 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102900 AAAAA Th1B1 B1Th1 B 1 Th 1 1973 K 1.77 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102903 AAAAA Os2B1 B1Os2 B 1 Os 2 1973 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102905 AAAAA Co1Ge3 Co1Ge3 Co 1 Ge 3 1973 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102906 AAAAA Fe1Ge2 Fe1Ge2 Fe 1 Ge 2 1973 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102908 AAAAA U1Si1 Si1U1 Si 1 U 1 1973 K 1.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102909 AAAAA beta-phase. Th1Si2 Si2Th1 Si 2 Th 1 1973 K 2.41 2.41 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102910 AAAAA alpha-phase. Th1Si2 Si2Th1 Si 2 Th 1 1973 K 3.16 3.16 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102911 AAAAA Th3Si2 Si2Th3 Si 2 Th 3 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102917 AAAAA Ya1C1 C1Ta1 C 1 Ta 1 1973 K 10.2 10.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102918 AAAAA Nb0.4Ta0.6C1 Nb0.4Ta0.6C1 Nb 0.4 Ta 0.6 C 1 1973 K 11.8 11.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102919 AAAAA Nb1C1 C1Nb1 C 1 Nb 1 1973 K 9 9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102920 AAAAA Mo0.56Co0.44 Co0.44Mo0.56 Co 0.44 Mo 0.56 1973 K 13 13 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102921 AAAAA Mo1C1 C1Mo1 C 1 Mo 1 1973 K 13 13 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102924 AAAAA Th1Ge1 Ge1Th1 Ge 1 Th 1 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102927 AAAAA Rh1Ge1 Ge1Rh1 Ge 1 Rh 1 1973 K 1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102928 AAAAA Rh5Ge2 Ge2Rh5 Ge 2 Rh 5 1973 K 2.12 2.12 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102934 AAAAA W1S1 S1W1 S 1 W 1 1973 K 1.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102935 AAAAA single crystal. Nb1S2 Nb1S2 Nb 1 S 2 1973 K 6.1 6.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102937 AAAAA Ce3S4 Ce3S4 Ce 3 S 4 1973 K 1.28 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102940 AAAAA La3S4 La3S4 La 3 S 4 1973 K 8.25 8.25 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102951 AAAAA Ir1S2.6 Ir1S2.6 Ir 1 S 2.6 1973 K 0.32 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102953 AAAAA single crystal. Nb1Se2 Nb1Se2 Nb 1 Se 2 1973 2H-NbSe2 K 6.2 6.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102954 AAAAA La3Se4 La3Se4 La 3 Se 4 1973 K 8.6 8.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102955 AAAAA Ni0.16Co0.64P0.2 Ni0.16Co0.64P0.2 Ni 0.16 Co 0.64 P 0.2 1973 K 0.99 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102956 AAAAA Ni0.6Fe0.19P0.21 Ni0.6Fe0.19P0.21 Ni 0.6 Fe 0.19 P 0.21 1973 K 0.99 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102957 AAAAA Ph5P4 P4Ph5 P 4 Ph 5 1973 K 1.22 1.22 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102959 AAAAA Ru2P1 P1Ru2 P 1 Ru 2 1973 K 1.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102962 AAAAA Co1P1 Co1P1 Co 1 P 1 1973 K 0.97 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102968 AAAAA Pd2Se1 Pd2Se1 Pd 2 Se 1 1973 K 2.2 2.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102971 AAAAA Pd6Se1 Pd6Se1 Pd 6 Se 1 1973 K 0.66 0.66 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102973 AAAAA Rh1Se1.75 Rh1Se1.75 Rh 1 Se 1.75 1973 FeS2(pyrite) A 6.015 "FeS2(pyrite), C2" K 6 6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102974 AAAAA Rh0.53Se0.47 Rh0.53Se0.47 Rh 0.53 Se 0.47 1973 K 6 6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102977 AAAAA Ni1Te2 Ni1Te2 Ni 1 Te 2 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102978 AAAAA Ni1Te1 Ni1Te1 Ni 1 Te 1 1973 K 1.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102980 AAAAA Nb1Te2 Nb1Te2 Nb 1 Te 2 1973 K 2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102981 AAAAA sample melted in a Mo crucible. La3Te4 La3Te4 La 3 Te 4 1973 K 3.75 3.75 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102982 AAAAA metalloceramic sample annealed at 1450C for 1.5h. La3Te4 La3Te4 La 3 Te 4 1973 K 2.45 2.45 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102983 AAAAA Y1Te1 Te1Y1 Te 1 Y 1 1973 K 1.02 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102984 AAAAA Pd1Se1Te1 Pd1Se1Te1 Pd 1 Se 1 Te 1 1973 K 1.2 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102985 AAAAA Nb1Se0.2Te0.8 Nb1Se0.2Te0.8 Nb 1 Se 0.2 Te 0.8 1973 K 2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102986 AAAAA Nb1Se0.25te0.75 Nb1Se0.25Te0.75 Nb 1 Se 0.25 Te 0.75 1973 K 4.4 4.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102987 AAAAA Ir1Se2.9 Ir1Se2.9 Ir 1 Se 2.9 1973 K 0.32 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102989 552 Pd1Te1.08 Pd1Te1.08 Pd 1 Te 1.08 1965 Fe3Zn10 A 4.135 5.647 "Fe3Zn10, D8[1]" K 1.88 1.88 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
102990 552 Pd1Te1.06 Pd1Te1.06 Pd 1 Te 1.06 1965 Fe3Zn10 A 4.138 5.652 "Fe3Zn10, D8[1]" K 2.11 2.11 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
102991 AAAAA Pd1Te1.04 Pd1Te1.04 Pd 1 Te 1.04 1973 K 2.11 2.11 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102992 552 Pd1Te1.02 Pd1Te1.02 Pd 1 Te 1.02 1965 Fe3Zn10 A 4.144 5.661 "Fe3Zn10, D8[1]" K 2.56 2.56 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
102993 AAAAA Pd1Te1 Pd1Te1 Pd 1 Te 1 1973 K 2.3 2.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102994 552 Pd1.1Te1 Pd1.1Te1 Pd 1.1 Te 1 1965 Fe3Zn10 A 4.152 5.671 "Fe3Zn10, D8[1]" K 4.07 4.07 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
102997 AAAAA high temperature form. Th1Te2 Te2Th1 Te 2 Th 1 1973 K 1.06 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
102998 AAAAA low temperature form. Rh1Te2 Rh1Te2 Rh 1 Te 2 1973 K 1.51 1.51 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103004 AAAAA Ir1Te1 Ir1Te1 Ir 1 Te 1 1973 K 0.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103005 AAAAA Pd1Te2.3 Pd1Te2.3 Pd 1 Te 2.3 1973 K 1.85 1.85 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103006 AAAAA Pd1Te2.1 Pd1Te2.1 Pd 1 Te 2.1 1973 K 1.89 1.89 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103007 AAAAA single crystal. Pd1Te1 Pd1Te1 Pd 1 Te 1 1973 CdI2 "CdI2, C6" K 1.53 1.53 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103009 AAAAA unannealed sample. Pd1.05Te2 Pd1.05Te2 Pd 1.05 Te 2 1973 K 1.77 1.77 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103010 AAAAA unannealed sample. Pd1.25Te2 Pd1.25Te2 Pd 1.25 Te 2 1973 K 2.2 2.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103011 AAAAA unannealed sample. Pd1.5Te2 Pd1.5Te2 Pd 1.5 Te 2 1973 K 2.21 2.21 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103012 AAAAA unannealed sample. Pd1.75Te2 Pd1.75Te2 Pd 1.75 Te 2 1973 K 2.25 2.25 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103013 AAAAA As2Mo1 As2Mo1 As 2 Mo 1 1973 K 1.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103014 AAAAA As2Fe3 As2Fe3 As 2 Fe 3 1973 K 1.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103015 AAAAA As4Cu18Sb3 As4Cu18Sb3 As 4 Cu 18 Sb 3 1973 K 0.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103020 AAAAA Pd0.95Pt0.05Te2 Pd 0.95 Pt 0.05 Te 2 1973 K 1.71 1.71 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103021 AAAAA Pd0.9Pt0.1Te2 Pd 0.9 Pt 0.1 Te 2 1973 K 1.65 1.65 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103022 AAAAA Ni0.1Pd0.9Te2 Ni 0.1 Pd 0.9 Te 2 1973 K 1.3 1.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103023 AAAAA Ni0.05Pd0.95Te2 Ni 0.05 Pd 0.95 Te 2 1973 K 1.4 1.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103025 AAAAA As1Ru1 As 1 Ru 1 1973 K 1.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103028 AAAAA As2Pd5 As 2 Pd 5 1973 K 1.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103029 AAAAA As3Pd5 As 3 Pd 5 1973 K 24.761 24.761 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103030 AAAAA As1Pd3 As 1 Pd 3 1973 K 1.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103033 AAAAA As1Ni0.25Pd0.75 As 1 Ni 0.25 Pd 0.75 1973 NiAs A 3.66 5.03 "NiAs, B8[1]" K 1.6 1.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103034 AAAAA As1Ni0.12Pd0.88 As 1 Ni 0.12 Pd 0.88 1973 K 1.39 1.39 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103035 AAAAA As1Ni0.25Pd0.75 As 1 Ni 0.25 Pd 0.75 1973 K 1.34 1.34 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103038 AAAAA Cu1Te1 Cu 1 Te 1 1973 K 1.26 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103046 AAAAA As4Mo5 As 4 Mo 5 1973 K 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103047 AAAAA As0.26Sb0.74 As 0.26 Sb 0.74 1973 K 1.32 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103048 AAAAA As1Ru2 As 1 Ru 2 1973 K 1.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103051 AAAAA Ca1Ce1 Ca 1 Ce 1 1973 K 1.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103053 AAAAA Al2Pb4Si1 Al 2 Pb 4 Si 1 1973 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103054 AAAAA Ag2Te1 Ag 2 Te 1 1973 K 1.28 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103057 AAAAA Ag1S1 Ag 1 S 1 1973 K 1.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103058 AAAAA Cu1Se1Te Cu 1 Se 1 Te 1973 K 1.6 1.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103060 AAAAA Cu1S1Se1 Cu 1 S 1 Se 1 1973 K 1.5 1.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103062 AAAAA Sn1Te1 Sn 1 Te 1 1973 K 0.012 0.012 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103064 AAAAA GeTe(Ag) Ge1Te1 Ge 1 Te 1 1973 K 0.21 0.21 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103065 AAAAA Ge0.976Te1 Ge 0.976 Te 1 1973 K 0.1 0.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103066 AAAAA Ge1Te1 Ge 1 Te 1 1973 K 0.172 0.172 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103067 AAAAA C1Si1 C 1 Si 1 1973 K 1.28 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103068 AAAAA In4Sb1Te3 In 4 Sb 1 Te 3 1973 K 1.4 1.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103082 AAAAA Pb1Te1 Pb 1 Te 1 1973 K 1.28 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103088 AAAAA Nb1O1 Nb 1 O 1 1973 K 1.25 1.25 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103089 AAAAA Mo3O5 Mo 3 O 5 1973 K 7.2 7.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103090 AAAAA Mo2O5 Mo 2 O 5 1973 K 1.28 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103097 AAAAA "Cu0.28Ti0.573O0,14" Cu0.287Ti0.573O0.14 Cu 0.287 Ti 0.573 O 0.14 1973 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103098 AAAAA La1Ni1O3 La1Ni1O3 La 1 Ni 1 O 3 1973 K 1.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103105 AAAAA Ti1.1O1 O1Ti1.1 O 1 Ti 1.1 1973 K 0.21 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103109 AAAAA Ca0.31Sr0.7Ti1O3 Ca0.31Sr0.7Ti1O3 Ca 0.31 Sr 0.7 Ti 1 O 3 1973 K 0.1 0.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103110 AAAAA Tc = 0.1 - 0.6. 738 Ba0.1Sr0.9Ti1O3 Ba0.1Sr0.9Ti1O3 Ba 0.1 Sr 0.9 Ti 1 O 3 1973 K 0.1 0.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103111 AAAAA Sr1Ti1O3(Nb) Sr1Ti1O3 Sr 1 Ti 1 O 3 1973 K 0.38 0.38 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103112 AAAAA Sr1Ti1O3 Sr1Ti1O3 Sr 1 Ti 1 O 3 1973 K 0.2 0.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103113 AAAAA Ba0.3W1O3 Ba0.3W1O3 Ba 0.3 W 1 O 3 1973 K 1.25 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103114 AAAAA In0.3W1O3 In0.3W1O3 In 0.3 W 1 O 3 1973 K 1.25 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103115 AAAAA Tl0.3W1O3 Tl0.3W1O3 Tl 0.3 W 1 O 3 1973 K 2 2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103116 AAAAA Zr3V3O1 Zr3V3O1 Zr 3 V 3 O 1 1973 K 7.5 7.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103117 AAAAA Zr0.61Rh0.285O0.105 Zr0.61Rh0.285O0.105 Zr 0.61 Rh 0.285 O 0.105 1973 K 11.8 11.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103118 AAAAA Ti0.576Rh0.287O0.14 Ti0.576Rh0.287O0.14 Ti 0.576 Rh 0.287 O 0.14 1973 K 3.37 3.37 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103119 AAAAA Ti1Re1O1 Ti1Re1O1 Ti 1 Re 1 O 1 1973 K 5.74 5.74 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103120 AAAAA Pd0.285Zr0.61O0.105 Pd0.285Zr0.61O0.105 Pd 0.285 Zr 0.61 O 0.105 1973 K 2.09 2.09 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103121 AAAAA Mo0.6Ru0.4 Mo0.6Ru0.4 Mo 0.6 Ru 0.4 1973 K 7 7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103122 AAAAA W0.4Tc0.6 Tc0.6W0.4 Tc 0.6 W 0.4 1973 K 7.9 7.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103123 AAAAA Mo0.5Re0.5 Mo0.5Re0.5 Mo 0.5 Re 0.5 1973 K 4.7 4.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103124 AAAAA Mo0.42Re0.58 Mo0.42Re0.58 Mo 0.42 Re 0.58 1973 K 8.4 8.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103125 AAAAA Nb0.63Ir0.37 Ir0.37Nb0.63 Ir 0.37 Nb 0.63 1973 K 2.4 2.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103126 AAAAA Nb3Ir2 Ir2Nb3 Ir 2 Nb 3 1973 K 9.8 9.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103127 AAAAA Mo0.3Tc0.7 Mo0.3Tc0.7 Mo 0.3 Tc 0.7 1973 K 12 12 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103128 AAAAA Al0.25Nb0.75 Al0.25Nb0.75 Al 0.25 Nb 0.75 1973 K 7 7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103129 AAAAA Ca1Ti1O3 Ca1Ti1O3 Ca 1 Ti 1 O 3 1973 K 0.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103130 AAAAA Ba1Ti1O3 Ba1Ti1O3 Ba 1 Ti 1 O 3 1973 K 0.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103131 AAAAA Ba0.13W1P3 Ba0.13W1P3 Ba 0.13 W 1 P 3 1973 K 1.9 1.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103132 AAAAA Na0.3W1O3 Na0.3W1O3 Na 0.3 W 1 O 3 1973 K 0.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103133 AAAAA Nb3Rh2 Nb3Rh2 Nb 3 Rh 2 1973 K 4.04 4.04 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103134 AAAAA W0.72Ir0.28 Ir0.28W0.72 Ir 0.28 W 0.72 1973 K 4.46 4.46 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103135 AAAAA Ru0.5W0.5 Ru0.5W0.5 Ru 0.5 W 0.5 1973 K 5.12 5.12 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103136 AAAAA Re0.6W0.4 Re0.6W0.4 Re 0.6 W 0.4 1973 K 4.9 4.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103137 AAAAA Re0.7W0.3 Re0.7W0.3 Re 0.7 W 0.3 1973 K 4.9 4.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103138 AAAAA Re0.52W0.48 Re0.52W0.48 Re 0.52 W 0.48 1973 K 5.2 5.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103139 AAAAA Mo0.62Os0.38 Mo0.62Os0.38 Mo 0.62 Os 0.38 1973 K 5.65 5.65 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103140 AAAAA Re0.76V0.24 Re0.76V0.24 Re 0.76 V 0.24 1973 K 4.52 4.52 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103141 AAAAA Re3V1 Re3V1 Re 3 V 1 1973 K 6.26 6.26 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103142 AAAAA Fe3Re2 Fe3Re2 Fe 3 Re 2 1973 K 6.55 6.55 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103143 AAAAA Mo0.74Ir0.26 Ir0.26Mo0.74 Ir 0.26 Mo 0.74 1973 K 6.7 6.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103145 AAAAA Nb0.6Os0.4 Nb0.6Os0.4 Nb 0.6 Os 0.4 1973 K 1.78 1.78 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103146 AAAAA Cr0.5Ru0.5 Cr0.5Ru0.5 Cr 0.5 Ru 0.5 1973 K 1.3 1.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103148 AAAAA Cr0.6Ru0.4 Cr0.6Ru0.4 Cr 0.6 Ru 0.4 1973 K 2.1 2.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103149 AAAAA Ta3Rh2 Rh2Ta3 Rh 2 Ta 3 1973 K 2.35 2.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103150 AAAAA Cr0.4Re0.6 Cr0.4Re0.6 Cr 0.4 Re 0.6 1973 K 2.15 2.15 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103151 AAAAA Nb0.5Re0.5 Nb0.5Re0.5 Nb 0.5 Re 0.5 1973 K 2 2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103152 AAAAA Nb0.4re0.6 Nb0.4Re0.6 Nb 0.4 Re 0.6 1973 K 2.5 2.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103153 AAAAA Nb1Re3 Nb1Re3 Nb 1 Re 3 1973 K 5.27 5.27 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103154 AAAAA Nb0.625Pt0.375 Nb0.625Pt0.375 Nb 0.625 Pt 0.375 1973 K 3.73 3.73 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103155 AAAAA Nb0.62Pt0.38 Nb0.62Pt0.38 Nb 0.62 Pt 0.38 1973 K 0.41 0.41 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103156 AAAAA W0.66Os0.34 Os0.34W0.66 Os 0.34 W 0.66 1973 K 3.81 3.81 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103157 AAAAA Ta1Re1 Re1Ta1 Re 1 Ta 1 1973 K 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103158 AAAAA Zr2Re1 Re1Zr2 Re 1 Zr 2 1973 K 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103159 AAAAA Pt0.2Ta0.8 Pt0.2Ta0.8 Pt 0.2 Ta 0.8 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103160 AAAAA Os0.3Ta0.7 Os0.3Ta0.7 Os 0.3 Ta 0.7 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103162 AAAAA Cr1Re1 Cr1Re1 Cr 1 Re 1 1973 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103164 AAAAA Au1Ta2 Au1Ta2 Au 1 Ta 2 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103166 AAAAA Ta0.65Ir0.35 Ir0.35Ta0.65 Ir 0.35 Ta 0.65 1973 K 1.2 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103167 AAAAA Re0.6Ta0.4 Re0.6Ta0.4 Re 0.6 Ta 0.4 1973 K 1.4 1.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103168 AAAAA Pt0.3Ta0.7 Pt0.3Ta0.7 Pt 0.3 Ta 0.7 1973 K 1 1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103171 AAAAA Cs1Bi2 Bi2Cs1 Bi 2 Cs 1 1973 K 4.75 4.75 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103172 AAAAA Ce1Ru2 Ce1Ru2 Ce 1 Ru 2 1973 K 4.9 4.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103175 AAAAA Ca1Ir2 Ca1Ir2 Ca 1 Ir 2 1973 K 4 4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103180 AAAAA Zr1V2 V2Zr1 V 2 Zr 1 1973 K 8.8 8.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103183 AAAAA Y1Pt2 Pt2Y1 Pt 2 Y 1 1973 K 4.1 4.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103189 AAAAA Y1Ir1Os1 Y1Ir1Os1 Y 1 Ir 1 Os 1 1973 K 2.6 2.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103191 AAAAA Th1Ru2 Ru2Th1 Ru 2 Th 1 1973 K 3.56 3.56 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103195 AAAAA Ca1Pt2 Ca1Pt2 Ca 1 Pt 2 1973 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103196 AAAAA Ca1Pd2 Ca1Pd2 Ca 1 Pd 2 1973 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103198 AAAAA Mg1La2 La2Mg1 La 2 Mg 1 1973 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103200 AAAAA Na1Au2 Au2Na1 Au 2 Na 1 1973 A 7.814 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103201 AAAAA V1Ta2 Ta2V1 Ta 2 V 1 1973 A 7.17 K 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103202 AAAAA Zr1Ni1.5V0.5 Zr1Ni1.5V0.5 Zr 1 Ni 1.5 V 0.5 1973 A 7.068 K 0.43 0.43 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103203 AAAAA Sr1Pt2 Pt2Sr1 Pt 2 Sr 1 1973 K 0.7 0.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103204 AAAAA Sc1Ir2 Ir2Sc1 Ir 2 Sc 1 1973 A 7.348 K 1.03 1.03 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103205 AAAAA Gd1Pt2 Gd1Pt2 Gd 1 Pt 2 1973 A 7.637 K 1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103206 AAAAA Ce1Ir2 Ce1Ir2 Ce 1 Ir 2 1973 A 7.571 K 0.37 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103207 AAAAA Ce1Rh2 Ce1Rh2 Ce 1 Rh 2 1973 A 7.538 K 0.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103208 AAAAA La1Ir2 Ir2La1 Ir 2 La 1 1973 A 7.686 K 1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103209 AAAAA La1Rh2 La1Rh2 La 1 Rh 2 1973 A 7.646 K 1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103210 AAAAA La1Pt2 La1Pt2 La 1 Pt 2 1973 A 7.774 K 1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103211 AAAAA Sc1Al2 Al2Sc1 Al 2 Sc 1 1973 A 7.579 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103212 AAAAA Y1Rh2 Rh2Y1 Rh 2 Y 1 1973 A 7.459 K 0.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103213 AAAAA Y1Al2 Al2Y1 Al 2 Y 1 1973 A 7.86 K 1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103214 AAAAA Al1Lu2 Al1Lu2 Al 1 Lu 2 1973 A 7.744 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103215 AAAAA Al1Cu1Zr1 Al1Cu1Zr1 Al 1 Cu 1 Zr 1 1973 A 7.322 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103216 AAAAA Ba1Pt2 Ba1Pt2 Ba 1 Pt 2 1973 A 7.92 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103217 AAAAA U1Os2 Os2U1 Os 2 U 1 1973 A 7.509 K 0.37 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103218 AAAAA U1Ir2 Ir2U1 Ir 2 U 1 1973 A 7.496 K 0.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103220 AAAAA U1Al2 Al2U1 Al 2 U 1 1973 A 7.811 K 1.12 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103221 AAAAA Th1Os2 Os2Th1 Os 2 Th 1 1973 A 7.704 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103222 AAAAA Hf1W2 Hf1W2 Hf 1 W 2 1973 A 7.594 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103223 AAAAA Hf1Mo2 Hf1Mo2 Hf 1 Mo 2 1973 K 0.05 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103224 AAAAA Zr1Co2 Co2Zr1 Co 2 Zr 1 1973 A 6.935 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103226 AAAAA Zr1W2 W2Zr1 W 2 Zr 1 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103227 AAAAA Ti1Be2 Be2Ti1 Be 2 Ti 1 1973 A 6.451 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103228 AAAAA Gd1Ru2 Gd1Ru2 Gd 1 Ru 2 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103229 AAAAA Y1Os1Re1 Y1Os1Re1 Y 1 Os 1 Re 1 1973 K 2 2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103230 AAAAA Y1Ir1.5Os0.5 Y1Ir1.5Os0.5 Y 1 Ir 1.5 Os 0.5 1973 K 2.4 2.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103231 AAAAA Hf1Os2 Hf1Os2 Hf 1 Os 2 1973 A 5.184 8.468 K 2.69 2.69 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103232 AAAAA Zr1Os2 Os2Zr1 Os 2 Zr 1 1973 A 5.219 8.538 K 3 3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103233 AAAAA Lu1Os2 Lu1Os2 Lu 1 Os 2 1973 A 5.254 8.661 K 3.49 3.49 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103234 AAAAA Sc1Re2 Re2Sc1 Re 2 Sc 1 1973 K 4.2 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103235 AAAAA V0.045Nb0.5Zr1 V0.45Nb0.5Zr1 V 0.45 Nb 0.5 Zr 1 1973 K 4.3 4.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103236 AAAAA Sc1Os2 Os2Sc1 Os 2 Sc 1 1973 A 5.179 8.484 K 4.6 4.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103237 AAAAA Y1Os2 Os2Y1 Os 2 Y 1 1973 A 5.303 8.786 K 4.7 4.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103238 AAAAA Hf1Re2 Hf1Re2 Hf 1 Re 2 1973 A 5.239 9.584 K 4.8 4.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103239 AAAAA Zr1Re2 Re2Zr1 Re 2 Zr 1 1973 A 5.262 8.593 K 6.8 6.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103240 AAAAA Mn1Ni1Zr1 Mn1Ni1Zr1 Mn 1 Ni 1 Zr 1 1973 A 7.07 K 0.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103241 AAAAA Tb1Re2 Re2Tb1 Re 2 Tb 1 1973 A 5.397 8.797 K 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103242 AAAAA Gd1Re2 Gd1Re2 Gd 1 Re 2 1973 A 5.412 8.827 K 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103243 AAAAA Sc1Re2 Re2Sc1 Re 2 Sc 1 1973 A 5.27 8.59 K 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103244 AAAAA Ca1Mg2 Ca1Mg2 Ca 1 Mg 2 1973 A 6.23 10.12 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103245 AAAAA Be1Ge2 Be1Ge2 Be 1 Ge 2 1973 A 4.27 6.92 K 1.75 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103246 AAAAA Zr1Al2 Al2Zr1 Al 2 Zr 1 1973 A 5.282 8.748 K 0.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103247 AAAAA Lu1Ru2 Lu1Ru2 Lu 1 Ru 2 1973 A 5.204 8.725 K 0.86 0.86 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103248 AAAAA Y1Ru2 Ru2Y1 Ru 2 Y 1 1973 A 5.256 8.792 K 2.42 2.42 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103249 AAAAA Sc1.2Ru2 Ru2Sc1.2 Ru 2 Sc 1.2 1973 A 5.119 8.542 K 1.67 1.67 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103251 AAAAA Y1Re2 Re2Y1 Re 2 Y 1 1973 A 5.396 8.819 K 1.83 1.83 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103252 AAAAA Zr1Ru2 Ru2Zr1 Ru 2 Zr 1 1973 A 5.144 8.504 K 1.84 1.84 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103253 AAAAA Nb1Tc3 Nb1Tc3 Nb 1 Tc 3 1973 A 9.625 K 10.5 10.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103254 AAAAA Hf1Mo2 Hf1Mo2 Hf 1 Mo 2 1973 K 0.05 0.05 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103255 AAAAA Nb1Co1V1 Nb1Co1V1 Nb 1 Co 1 V 1 1973 A 4.928 8.08 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103256 AAAAA Zr1V0.5Co1.5 Zr1V0.5Co1.5 Zr 1 V 0.5 Co 1.5 1973 A 4.982 8.114 K 0.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103257 AAAAA Re1Be2 Be2Re1 Be 2 Re 1 1973 A 4.354 7.101 K 1.68 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103258 AAAAA W1Be2 Be2W1 Be 2 W 1 1973 A 4.446 7.289 K 1.68 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103260 AAAAA Zr1Cr2 Cr2Zr1 Cr 2 Zr 1 1973 A 5.102 8.239 K 0.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103262 AAAAA Ti1Zn2 Ti1Zn2 Ti 1 Zn 2 1973 A 5.064 8.21 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103263 AAAAA Er1Re2 Er1Re2 Er 1 Re 2 1973 A 5.363 8.758 K 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103264 AAAAA Ho1Re2 Ho1Re2 Ho 1 Re 2 1973 A 5.378 8.785 K 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103266 AAAAA Nb0.4Re0.6 Nb0.4Re0.6 Nb 0.4 Re 0.6 1973 A 9.781 K 2.36 2.36 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103267 AAAAA Nb0.14Re0.86 Nb0.14Re0.86 Nb 0.14 Re 0.86 1973 A 9.61 K 8.5 8.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103268 AAAAA Nb0.2Re0.8 Nb0.2Rr0.8 Nb 0.2 Rr 0.8 1973 A 9.648 K 9.1 9.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103269 AAAAA Nb0.26Re0.74 Nb0.26Re0.74 Nb 0.26 Re 0.74 1973 A 9.688 K 7.2 7.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103271 AAAAA Nb0.32Re0.68 Nb0.32Re0.68 Nb 0.32 Re 0.68 1973 A 9.73 K 4.5 4.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103272 AAAAA Nb0.38Re0.62 Nb0.38Re0.62 Nb 0.38 Re 0.62 1973 A 9.77 K 2.45 2.45 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103273 AAAAA Nb0.18Re0.82 Nb0.18Re0.82 Nb 0.18 Re 0.82 1973 A 9.641 K 9.7 9.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103274 AAAAA Tc6Zr1 Tc6Zr1 Tc 6 Zr 1 1973 A 9.636 K 9.7 9.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103275 AAAAA Mo1Re4 Mo1Re4 Mo 1 Re 4 1973 K 7.85 7.85 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103277 AAAAA Nb1Os1 Nb1Os1 Nb 1 Os 1 1973 A 9.76 K 2.86 2.86 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103279 AAAAA Zr5Re24 Re24Zr5 Re 24 Zr 5 1973 K 4.75 4.75 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103280 AAAAA Hf5Re24 Hf5Re24 Hf 5 Re 24 1973 K 4.3 4.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103281 AAAAA Hf0.14Re0.86 Hf0.14Re0.86 Hf 0.14 Re 0.86 1973 K 5.86 5.86 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103282 AAAAA Re0.83Ti0.17 Re0.83Ti0.17 Re 0.83 Ti 0.17 1973 A 9.595 K 5.1 5.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103283 AAAAA Re24Ti5 Re24Ti5 Re 24 Ti 5 1973 A 9.587 K 6.6 6.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103284 AAAAA Re0.64Ta0.36 Re0.64Ta0.36 Re 0.64 Ta 0.36 1973 A 9.765 K 1.46 1.46 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103285 AAAAA Re0.65Ta0.35 Re0.65Ta0.35 Re 0.65 Ta 0.35 1973 A 9.762 K 1.58 1.58 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103286 AAAAA Ta1Re3 Re3Ta1 Re 3 Ta 1 1973 K 4.75 4.75 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103287 AAAAA Re3Ta1 Re3Ta1 Re 3 Ta 1 1973 K 6.78 6.78 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103288 AAAAA Re6Zr1 Re6Zr1 Re 6 Zr 1 1973 A 9.698 K 7.4 7.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103289 AAAAA Rh1Te2 Rh1Te2 Rh 1 Te 2 1973 A 6.441 K 1.51 1.51 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103290 AAAAA Rh0.53Se0.47 Rh0.53Se0.47 Rh 0.53 Se 0.47 1973 K 6 6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103291 AAAAA Rh0.36Se0.64 Rh0.36Se0.64 Rh 0.36 Se 0.64 1973 A 6.015 K 6 6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103292 AAAAA Fe5Si2V3 Fe5Si2V3 Fe 5 Si 2 V 3 1973 A 8.851 K 0.37 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103293 AAAAA V2.8Si2Co5.2 V2.8Si2Co5.2 V 2.8 Si 2 Co 5.2 1973 A 8.774 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103294 AAAAA V3Ni5Ge2 V3Ni5Ge2 V 3 Ni 5 Ge 2 1973 A 8.928 K 0.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103295 AAAAA Hf0.5Re0.5 Hf0.5Re0.5 Hf 0.5 Re 0.5 1973 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103296 AAAAA Al2Mg3 Al2Mg3 Al 2 Mg 3 1973 A 10.55 K 0.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103297 AAAAA Ta1Os1 Os1Ta1 Os 1 Ta 1 1973 A 9.773 K 1.95 1.95 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103298 AAAAA Sc5Re24 Re24Sc5 Re 24 Sc 5 1973 K 2.2 2.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103299 AAAAA Nb0.6Pd0.4 Nb0.6Pd0.4 Nb 0.6 Pd 0.4 1973 A 9.77 K 2.47 2.47 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103300 AAAAA Nb1Os2 Nb1Os2 Nb 1 Os 2 1973 A 9.655 K 2.52 2.52 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103301 AAAAA Pd1Se1Te1 Pd1Se1Te1 Pd 1 Se 1 Te 1 1973 A 6.533 K 1.2 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103302 AAAAA Bi1Pd1Te1 Bi1Pd1Te1 Bi 1 Pd 1 Te 1 1973 A 6.656 K 1.2 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103303 AAAAA Bi1Pt1Se1 Bi1Pt1Se1 Bi 1 Pt 1 Se 1 1973 A 6.42 K 1.45 1.45 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103304 AAAAA As1Pd1Se1 As1Pd1Se1 As 1 Pd 1 Se 1 1973 A 6.092 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103306 AAAAA Pt1Bi2 Pt1Bi2 Pt 1 Bi 2 1973 K 1.45 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103307 AAAAA Ir1Re2.67 Ir1Te2.67 Ir 1 Te 2.67 1973 A 6.41 K 0.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103309 AAAAA Au1Sb2 Au1Sb2 Au 1 Sb 2 1973 A 6.658 K 0.58 0.58 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103310 AAAAA Pd1Sb2 Pd1Sb2 Pd 1 Sb 2 1973 A 6.459 K 1.25 1.25 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103311 AAAAA As1Ni0.25Pd0.75 As1Ni0.25Pd0.75 As 1 Ni 0.25 Pd 0.75 1973 K 1.34 1.34 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103312 AAAAA As1Ni0.12Pd0.88 As1Ni0.12Pd0.88 As 1 Ni 0.12 Pd 0.88 1973 K 1.39 1.39 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103313 AAAAA As1Ni0.25Pd0.75 As1Ni0.25Pd0.75 As 1 Ni 0.25 Pd 0.75 1973 A 3.66 5.23 K 1.6 1.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103314 AAAAA Bi0.1Pt1Sb0.9 Bi0.1Pt1Sb0.9 Bi 0.1 Pt 1 Sb 0.9 1973 K 1.21 1.21 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103315 AAAAA Bi1Rh1 Bi1Rh1 Bi 1 Rh 1 1973 A 4.094 5.663 K 2.02 2.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103317 AAAAA Bi1Pt1 Bi1Pt1 Bi 1 Pt 1 1973 A 4.315 5.49 K 1.21 1.21 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103318 AAAAA Bi2Pb3 Bi2Pd3 Bi 2 Pd 3 1973 K 3.7 3.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103319 AAAAA Ni1Bi1 Bi1Ni1 Bi 1 Ni 1 1973 A 4.07 5.35 K 4.25 4.25 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103320 AAAAA Pt1Sb1Te1 Pt1Sb1Te1 Pt 1 Sb 1 Te 1 1973 A 6.48 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103321 AAAAA Pt1Sb1Se1 Pt1Sb1Se1 Pt 1 Sb 1 Se 1 1973 A 6.33 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103322 AAAAA Pd1Sb1Se1 Pd1Sb1Se1 Pd 1 Sb 1 Se 1 1973 A 6.323 K 1 1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103323 AAAAA Bi1Pd1Se1 Bi1Pd1Se1 Bi 1 Pd 1 Se 1 1973 A 6.432 K 1 1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103324 AAAAA Bi1Pt1Te1 Bi1Pt1Te1 Bi 1 Pt 1 Te 1 1973 A 6.59 K 1.15 1.15 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103325 AAAAA Rh3Th7 Rh3Th7 Rh 3 Th 7 1973 A 10.031 6.287 K 2.15 2.15 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103327 AAAAA Ni1Sb1 Ni1Sb1 Ni 1 Sb 1 1973 A 3.942 5.155 K 0.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103328 AAAAA Ir1Te1 Ir1Te1 Ir 1 Te 1 1973 A 3.93 5.386 K 0.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103329 AAAAA Rh1Te1 Rh1Te1 Rh 1 Te 1 1973 A 3.99 5.66 K 1.06 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103330 AAAAA Co1Te1 Co1Te1 Co 1 Te 1 1973 K 1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103333 AAAAA Bi1Mn1 Bi1Mn1 Bi 1 Mn 1 1973 A 4.3 6.1 K 1.28 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103334 AAAAA Pt1Sn1 Pt1Sn1 Pt 1 Sn 1 1973 A 4.11 K 0.37 0.37 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103335 AAAAA Au1Sn1 Au1Sn1 Au 1 Sn 1 1973 A 4.32 K 1.25 1.25 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103336 AAAAA Pb1Sb1 Pb1Sb1 Pb 1 Sb 1 1973 Fe3Zn10 "Fe3Zn10, D8[1]" K 1.5 1.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103337 AAAAA Au1Th2 Au1Th2 Au 1 Th 2 1973 A 7.42 5.95 K 3.08 3.08 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103338 AAAAA Cu1Th2 Cu1Th2 Cu 1 Th 2 1973 A 7.28 5.75 K 3.49 3.49 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103339 AAAAA Au1Pb2 Au1Pb2 Au 1 Pb 2 1973 A 7.325 5.655 K 4.42 4.42 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103340 AAAAA Co1Zr2 Co1Zr2 Co 1 Zr 2 1973 A 6.367 5.543 K 6.3 6.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103341 AAAAA Co3Th7 Co3Th7 Co 3 Th 7 1973 A 9.833 6.2 K 1.83 1.83 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103342 AAAAA Pt3Th7 Pt3Th7 Pt 3 Th 7 1973 A 10.126 6.346 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103343 AAAAA B3Rh7 B3Rh7 B 3 Rh 7 1973 A 7.47 4.78 K 0.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103344 AAAAA B3Ru7 B3Ru7 B 3 Ru 7 1973 A 7.465 4.715 K 2.58 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103345 AAAAA Os3Th7 Os3Th7 Os 3 Th 7 1973 A 10.02 6.285 K 1.51 1.51 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103346 AAAAA Ir3Th7 Ir3Th7 Ir 3 Th 7 1973 A 10.06 6.29 K 1.52 1.52 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103347 AAAAA Fe3Th7 Fe3Th7 Fe 3 Th 7 1973 A 9.823 6.211 K 1.86 1.86 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103348 AAAAA Ni3Th7 Ni3Th7 Ni 3 Th 7 1973 A 9.885 6.225 K 1.98 1.98 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103349 AAAAA Fe1Cu2 Cu2Fe1 Cu 2 Fe 1 1973 A 5.911 4.951 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103351 AAAAA Al1Th2 Al1Th2 Al 1 Th 2 1973 A 7.614 5.857 K 0.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103352 AAAAA B1W2 B1W2 B 1 W 2 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103353 AAAAA B1Mo2 B1Mo2 B 1 Mo 2 1973 K 4.74 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103356 AAAAA Cu1Al2 Al2Cu1 Al 2 Cu 1 1973 A 6.06 4.874 K 1.02 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103357 AAAAA Ag1Th2 Ag1Th2 Ag 1 Th 2 1973 A 7.56 5.84 K 2.26 2.26 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103358 AAAAA Ag1In2 Ag1In2 Ag 1 In 2 1973 A 6.883 5.615 K 2.3 2.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103359 AAAAA Rh1Pb2 Pb2Rh1 Pb 2 Rh 1 1973 A 6.664 5.865 K 2.66 2.66 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103360 AAAAA Pd1Pb2 Pb2Pd1 Pb 2 Pd 1 1973 A 6.849 5.833 K 2.95 2.95 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103361 AAAAA Rh1Sb1 Rh1Sb1 Rh 1 Sb 1 1973 A 6.34 5.955 3.876 K 0.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103362 AAAAA Ir1Si1 Ir1Si1 Ir 1 Si 1 1973 A 5.558 3.211 6.273 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103364 AAAAA Ge1Pd1 Ge1Pd1 Ge 1 Pd 1 1973 A 6.259 5.782 3.481 K 0.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103365 AAAAA As1Co1 As1Co1 As 1 Co 1 1973 A 5.9 5.1 3.5 K 1.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103366 AAAAA Ge1Pt1 Ge1Pt1 Ge 1 Pt 1 1973 A 6.088 5.733 3.701 K 0.4 0.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103369 AAAAA Ge1Rh1 Ge1Rh1 Ge 1 Rh 1 1973 A 5.7 6.48 3.25 K 0.96 0.96 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103370 AAAAA Au1Ga1 Au1Ga1 Au 1 Ga 1 1973 A 6.4 6.27 3.42 K 1.2 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103372 AAAAA Co1Sn2 Co1Sn2 Co 1 Sn 2 1973 A 6.361 5.452 K 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103375 AAAAA Pb1Bi2 Bi2Pb1 Bi 2 Pb 1 1973 K 4.25 4.25 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103376 AAAAA Nb0.85Ir1.15 Ir1.15Nb0.85 Ir 1.15 Nb 0.85 1973 K 4.75 4.75 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103378 AAAAA Nb3Sn2 Nb3Sn2 Nb 3 Sn 2 1973 K 16.6 16.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103380 AAAAA Au1Zn3 Au1Zn3 Au 1 Zn 3 1973 K 1.28 1.28 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103381 AAAAA Nb0.26U0.74 Nb0.26U0.74 Nb 0.26 U 0.74 1973 K 1.85 1.85 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103385 AAAAA Nb0.75Rh1.25 Nb0.75Rh1.25 Nb 0.75 Rh 1.25 1973 K 2.7 2.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103386 AAAAA Pd1Bi1 Bi1Pd1 Bi 1 Pd 1 1973 A 7.203 8.707 10.662 orthorhombic K 3.7 3.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103388 AAAAA Nb0.85Ir1.15 Ir1.15Nb0.85 Ir 1.15 Nb 0.85 1973 K 4.6 4.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103392 AAAAA La0.55Lu0.45 La0.55Lu0.45 La 0.55 Lu 0.45 1973 K 2.2 2.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103393 AAAAA beta-Th1Si1 Si1Th1 Si 1 Th 1 1973 K 2.41 2.41 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103394 AAAAA La0.75Y0.25 La 0.75 Y 0.25 1973 K 2.5 2.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103398 AAAAA Pt1Pb4 Pb4Pt1 Pb 4 Pt 1 1973 K 2.8 2.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103400 AAAAA Nb0.86Rh1.04 Nb0.86Rh1.04 Nb 0.86 Rh 1.04 1973 K 3.76 3.76 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103403 AAAAA Ag3.3Al1 Ag3.3Al1 Ag 3.3 Al 1 1973 K 0.34 0.34 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103408 AAAAA Ir1Zn2 Ir1Zn2 Ir 1 Zn 2 1973 K 0.78 0.78 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103409 AAAAA Au1Ga2 Au1Ga2 Au 1 Ga 2 1973 K 0.32 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103410 AAAAA Au1Al2 Al2Au1 Al 2 Au 1 1973 K 0.34 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103411 AAAAA beta = 102.35 degree. alpha-type Pd1Bi2 Bi2Pd1 Bi 2 Pd 1 1973 A 12.74 4.25 5.665 monoclinic K 1.7 1.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103413 AAAAA Nb0.85Rh1.15 Nb0.85Rh1.15 Nb 0.85 Rh 1.15 1973 K 3 3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103414 AAAAA Nb0.9Rh1.1 Nb0.9Rh1.1 Nb 0.9 Rh 1.1 1973 K 3.07 3.07 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103419 AAAAA Tl1Al3 Al3Tl1 Al 3 Tl 1 1973 K 0.75 0.75 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103421 AAAAA Ag5Rb1 Ag5Rb1 Ag 5 Rb 1 1973 K 0.34 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103424 AAAAA In1Sb1 In1Sb1 In 1 Sb 1 1973 K 2.1 2.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103429 AAAAA V1Ir3 Ir3V1 Ir 3 V 1 1973 K 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103431 AAAAA Ca1Pt1 Ca1Pt1 Ca 1 Pt 1 1973 K 0.34 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103432 AAAAA Au1Zn2 Au1Zn2 Au 1 Zn 2 1973 K 0.32 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103433 AAAAA Mn2.91V0.09Si1 Mn2.91V0.09Si1 Mn 2.91 V 0.09 Si 1 1973 K 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103434 AAAAA Nb1Ir2.76Pt0.24 Nb1Ir2.76Pt0.24 Nb 1 Ir 2.76 Pt 0.24 1973 K 1.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103437 AAAAA Nb1Rh3 Nb1Rh3 Nb 1 Rh 3 1973 K 1.43 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103440 AAAAA Pt1Sn4 Pt1Sn4 Pt 1 Sn 4 1973 K 2.38 2.38 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103442 AAAAA Nb0.65Zr0.35Pt3 Nb0.65Zr0.35Pt3 Nb 0.65 Zr 0.35 Pt 3 1973 K 1.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103445 AAAAA Nb1Pt1 Nb1Pt1 Nb 1 Pt 1 1973 K 1.39 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103446 AAAAA alpha-V1Ir1 Ir1V1 Ir 1 V 1 1973 K 1.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103447 AAAAA Ti1V1Si1 Ti1V1Si1 Ti 1 V 1 Si 1 1973 K 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103448 AAAAA Nb1Os0.42Pt2.58 Nb1Os0.42Pt2.58 Nb 1 Os 0.42 Pt 2.58 1973 K 1.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103449 AAAAA Nb1Ir0.45Pt2.55 Nb1Ir0.45Pt2.55 Nb 1 Ir 0.45 Pt 2.55 1973 K 1.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103450 AAAAA Nb1Ir2.55Pt0.45 Nb1Ir2.55Pt0.45 Nb 1 Ir 2.55 Pt 0.45 1973 K 1.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103451 AAAAA Nb1Rh2.7Nb0.3 Nb1Rh2.7Nb0.3 Nb 1 Rh 2.7 Nb 0.3 1973 K 1.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103452 AAAAA Nb1Ru0.45Pt2.55 Nb1Ru0.45Pt2.55 Nb 1 Ru 0.45 Pt 2.55 1973 K 1.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103453 AAAAA Nb1Ru1.2Pt1.8 Nb1Ru1.2Pt1.8 Nb 1 Ru 1.2 Pt 1.8 1973 K 1.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103454 AAAAA Nb0.15Ir0.85Pt3 Nb0.15Ir0.85Pt3 Nb 0.15 Ir 0.85 Pt 3 1973 K 1.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103455 AAAAA Nb0.6Ru0.4 Nb0.6Ru0.4 Nb 0.6 Ru 0.4 1973 K 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103456 AAAAA Cd1Hg1 Cd1Hg1 Cd 1 Hg 1 1973 K 1.77 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103457 AAAAA Mg2In1 In1Mg2 In 1 Mg 2 1973 K 3.2 3.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103461 AAAAA In5Bi1 Bi1In5 Bi 1 In 5 1973 K 4.1 4.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103462 AAAAA In2Bi1 Bi1In2 Bi 1 In 2 1973 K 5.1 5.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103463 AAAAA Bi1Ru1 Bi1Ru1 Bi 1 Ru 1 1973 K 4.12 4.12 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103464 AAAAA Hg1Sn6 Hg1Sn6 Hg 1 Sn 6 1973 K 5.1 5.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103466 AAAAA Re1Ti1O5 Re1Ti1O5 Re 1 Ti 1 O 5 1973 K 5.71 5.71 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103468 AAAAA Nb1Pt2 Nb1Pt2 Nb 1 Pt 2 1973 K 1.46 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103471 AAAAA Bi3Fe1 Bi3Fe1 Bi 3 Fe 1 1973 K 1 1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103472 AAAAA Bi1Mg1 Bi1Mg1 Bi 1 Mg 1 1973 K 0.7 0.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103473 AAAAA Bi1Mg1 Bi4Mg1 Bi 4 Mg 1 1973 K 1 1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103475 AAAAA Re1Y1Os1 Re1Y1Os1 Re 1 Y 1 Os 1 1973 K 2 2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103476 AAAAA Bi2Ir1 Bi2Ir1 Bi 2 Ir 1 1973 K 2.2 2.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103478 AAAAA Ag1Bi1 Ag1Bi1 Ag 1 Bi 1 1973 K 2.78 2.78 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103481 AAAAA V2.61Nb0.39Si1 V2.61Nb0.39Si1 V 2.61 Nb 0.39 Si 1 1973 K 14 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103482 AAAAA V2.7Nb0.35Si1 V2.7Nb0.3Si1 V 2.7 Nb 0.3 Si 1 1973 K 12.8 12.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103483 AAAAA V2.97Nb0.03Si1 V2.97Nb0.03Si1 V 2.97 Nb 0.03 Si 1 1973 K 15.8 15.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103484 AAAAA V2.58Zr0.42Si1 V2.58Zr0.42Si1 V 2.58 Zr 0.42 Si 1 1973 K 8.8 8.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103485 AAAAA V2.7Zr0.3Si1 V2.7Zr0.3Si1 V 2.7 Zr 0.3 Si 1 1973 K 13.2 13.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103486 AAAAA V2.7Ti0.3Si1 V2.7Ti0.3Si1 V 2.7 Ti 0.3 Si 1 1973 K 10.9 10.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103487 AAAAA V2.88Ce0.12Si1 V2.88Ce0.12Si1 V 2.88 Ce 0.12 Si 1 1973 K 15.32 15.32 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103488 AAAAA V2.94La0.06Si1 V2.94La0.06Si1 V 2.94 La 0.06 Si 1 1973 K 15.92 15.92 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103489 AAAAA V2.994La0.006Si1 V2.994La0.006Si1 V 2.994 La 0.006 Si 1 1973 K 16.48 16.48 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103493 AAAAA V2.7Mn0.3Si1 V2.7Mn0.3Si1 V 2.7 Mn 0.3 Si 1 1973 K 11.9 11.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103494 AAAAA V2.79Mn0.21Si1 V2.79Mn0.21Si1 V 2.79 Mn 0.21 Si 1 1973 K 15.5 15.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103495 AAAAA V2.97Mn0.03Si1 V2.97Mn0.03Si1 V 2.97 Mn 0.03 Si 1 1973 K 16.25 16.25 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103496 AAAAA V2.01Mo0.99Si1 V2.01Mo0.99Si1 V 2.01 Mo 0.99 Si 1 1973 K 1.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103497 AAAAA V2.4Mo0.6Si1 V2.4Mo0.6Si1 V 2.4 Mo 0.6 Si 1 1973 K 4.54 4.54 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103498 AAAAA V2.52Mo0.48Si1 V2.52Mo0.48Si1 V 2.52 Mo 0.48 Si 1 1973 K 5.1 5.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103499 AAAAA V2.79Mo0.21Si1 V2.79Mo0.21Si1 V 2.79 Mo 0.21 Si 1 1973 K 5.59 5.59 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103500 AAAAA V2.91Mo0.09Si1 V2.91Mo0.09Si1 V 2.91 Mo 0.09 Si 1 1973 K 10.4 10.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103501 AAAAA V2.964Mo0.036Si1 V2.964Mo0.036Si1 V 2.964 Mo 0.036 Si 1 1973 K 14 14 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103502 AAAAA V2.97Mo0.03Si1 V2.97Mo0.03Si1 V 2.97 Mo 0.03 Si 1 1973 K 16 16 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103503 AAAAA V2.79Cr0.21Si1 V2.79Cr0.21Si1 V 2.79 Cr 0.21 Si 1 1973 K 14 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103504 AAAAA V2.7Cr0.3Si1 V2.7Cr0.3Si1 V 2.7 Cr 0.3 Si 1 1973 K 11.3 11.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103505 AAAAA V3Si0.76Be0.24 V3Si0.76Be0.24 V 3 Si 0.76 Be 0.24 1973 K 15.6 15.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103506 AAAAA V3Si0.99Be0.01 V3Si0.99Be0.01 V 3 Si 0.99 Be 0.01 1973 K 16.6 16.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103507 AAAAA V3Si0.9Ge0.1 V3Si0.9Ge0.1 V 3 Si 0.9 Ge 0.1 1973 K 14 14 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103508 AAAAA V3Si0.1Ga0.9 V3Si0.1Ga0.9 V 3 Si 0.1 Ga 0.9 1973 K 10.6 10.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103509 AAAAA V3Si0.25Ga0.75 V3Si0.25Ga0.75 V 3 Si 0.25 Ga 0.75 1973 K 8.1 8.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103510 AAAAA V2.67Pd0.33Si1 V2.67Pd0.33Si1 V 2.67 Pd 0.33 Si 1 1973 K 7.5 7.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103511 AAAAA V2.979Co0.021Si1 V 2.979 Co 0.021 Si 1 1973 K 16.4 16.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103512 AAAAA V2.7Ru0.3Si1 V 2.7 Ru 0.3 Si 1 1973 K 2.9 2.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103513 AAAAA V2.94Fe0.06Si1 V 2.94 Fe 0.06 Si 1 1973 K 13.4 13.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103514 AAAAA V2.808Re0.192Si1 V 2.808 Re 0.192 Si 1 1973 K 4.7 4.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103515 AAAAA V2.82Re0.18Si1 V 2.82 Re 0.18 Si 1 1973 K 14 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103516 AAAAA " (V,Mn)3Si" V2.49Mn0.42Si1 V 2.49 Mn 0.42 Si 1 1973 K 8.1 8.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103517 AAAAA V3Si0.46Ga0.54 V 3 Si 0.46 Ga 0.54 1973 K 7.4 7.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103518 AAAAA V3Si0.5Ga0.5 V 3 Si 0.5 Ga 0.5 1973 K 8.6 8.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103519 AAAAA V3Si0.52Ga0.48 V 3 Si 0.52 Ga 0.48 1973 K 7.8 7.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103520 AAAAA V3Si0.68Ga0.32 V 3 Si 0.68 Ga 0.32 1973 K 9.4 9.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103521 AAAAA V3Si0.72Ga0.28 V 3 Si 0.72 Ga 0.28 1973 K 10.5 10.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103522 AAAAA V3Si0.79Ga0.21 V 3 Si 0.79 Ga 0.21 1973 K 10.7 10.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103523 AAAAA V3Si0.87Ga0.13 V 3 Si 0.87 Ga 0.13 1973 K 13.3 13.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103524 AAAAA V3Si0.6Al0.4 V 3 Si 0.6 Al 0.4 1973 K 10.1 10.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103525 AAAAA V3Si0.76Al0.24 V 3 Si 0.76 Al 0.24 1973 K 11.2 11.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103526 AAAAA V3Si0.8Al0.2 V 3 Si 0.8 Al 0.2 1973 K 14 14 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103527 AAAAA V3Si0.98Al0.02 V 3 Si 0.98 Al 0.02 1973 K 16.12 16.12 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103528 AAAAA V3Si0.9Al0.1 V 3 Si 0.9 Al 0.1 1973 K 14 14 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103529 AAAAA "(V,Ti)3Ga " V2.754Ti0.246Ga1 V 2.754 Ti 0.246 Ga 1 1973 K 13.4 13.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103530 AAAAA V2.79Ce0.21Ga1 V 2.79 Ce 0.21 Ga 1 1973 K 7.5 7.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103531 AAAAA V2.778La0.222Ga1 V 2.778 La 0.222 Ga 1 1973 K 7.8 7.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103532 AAAAA V2.67Ir0.33Jr1 V 2.67 Ir 0.33 Jr 1 1973 K 11.39 11.39 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103533 AAAAA V3Si0.986Sb0.014 V 3 Si 0.986 Sb 0.014 1973 K 10.5 10.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103534 AAAAA V3Si0.2Sn0.8 V 3 Si 0.2 Sn 0.8 1973 K 6.4 6.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103535 AAAAA V3Si0.4Sn0.6 V 3 Si 0.4 Sn 0.6 1973 K 9.8 9.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103536 AAAAA V3Si0.6Sn0.4 V 3 Si 0.6 Sn 0.4 1973 K 9.7 9.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103537 AAAAA V3Si0.8Sn0.2 V 3 Si 0.8 Sn 0.2 1973 K 12.85 12.85 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103538 AAAAA V3Si0.2Ge0.8 V 3 Si 0.2 Ge 0.8 1973 K 6.1 6.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103539 AAAAA V3Si0.4Ge0.6 V 3 Si 0.4 Ge 0.6 1973 K 7.2 7.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103540 AAAAA V3Si0.6Ge0.4 V 3 Si 0.6 Ge 0.4 1973 K 8.7 8.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103541 AAAAA V2.793Ni0.207Ga1 V 2.793 Ni 0.207 Ga 1 1973 K 11.9 11.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103542 AAAAA V2.781Co0.219Ga1 V 2.781 Co 0.219 Ga 1 1973 K 8.4 8.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103543 AAAAA V2.865Fe0.135Ga1 V 2.865 Fe 0.135 Ga 1 1973 K 10.1 10.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103544 AAAAA V2.928Re0.072Ga1 V 2.928 Re 0.072 Ga 1 1973 K 10.8 10.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103545 AAAAA V2.898Mn0.102Ga1 V 2.898 Mn 0.102 Ga 1 1973 K 9 9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103546 AAAAA V2.883W0.117Ga1 V 2.883 W 0.117 Ga 1 1973 K 11.5 11.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103547 AAAAA V2.799Mo0.201Ga1 V 2.799 Mo 0.201 Ga 1 1973 K 11.7 11.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103548 AAAAA V2.799Cr0.201Ga1 V 2.799 Cr 0.201 Ga 1 1973 K 12.6 12.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103549 AAAAA V2.802Ta0.198Ga1 V 2.802 Ta 0.198 Ga 1 1973 K 12.3 12.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103550 AAAAA V2.814Nb0.186Ga1 V 2.814 Nb 0.186 Ga 1 1973 K 13.5 13.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103551 AAAAA V2.739Hf0.261Ga1 V 2.739 Hf 0.261 Ga 1 1973 K 6.4 6.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103552 AAAAA V2.742Zr0.258Ga1 V 2.742 Zr 0.258 Ga 1 1973 K 9.9 9.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103553 AAAAA V0.5Nb2.5Sn1 V 0.5 Nb 2.5 Sn 1 1973 K 14.2 14.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103554 AAAAA V1Nb2Sn1 V 1 Nb 2 Sn 1 1973 K 9.8 9.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103555 AAAAA V1.5Nb1.5Sb1 V 1.5 Nb 1.5 Sb 1 1973 K 7.4 7.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103556 AAAAA V2Nb1Sn1 V 2 Nb 1 Sn 1 1973 K 5.5 5.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103557 AAAAA V3Ga0.975Bi0.025 V 3 Ga 0.975 Bi 0.025 1973 K 14.7 14.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103558 AAAAA V3Ga0.793Sb0.207 V 3 Ga 0.793 Sb 0.207 1973 K 6.9 6.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103559 AAAAA V0.003Ga0.974Pb0.026 V 0.003 Ga 0.974 Pb 0.026 1973 K 13.2 13.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103560 AAAAA V3Ga0.78Sn0.22 V 3 Ga 0.78 Sn 0.22 1973 K 6.9 6.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103561 AAAAA V3Ga0.957Ge0.043 V 3 Ga 0.957 Ge 0.043 1973 K 13.1 13.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103562 AAAAA V3Ga0.937In0.063 V 3 Ga 0.937 In 0.063 1973 K 11.5 11.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103563 AAAAA V3Ga0.994Cd0.006 V 3 Ga 0.994 Cd 0.006 1973 K 11.2 11.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103564 AAAAA V3Ga0.999Zn0.001 V 3 Ga 0.999 Zn 0.001 1973 K 10.2 10.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103565 AAAAA Nb3Sn0.8Ga0.2 Nb 3 Sn 0.8 Ga 0.2 1973 K 17.8 17.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103566 AAAAA Nb3Sn0.9Ga0.1 Nb 3 Sn 0.9 Ga 0.1 1973 K 18.1 18.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103567 AAAAA Nb2.85Mo0.15Al1 Nb 2.85 Mo 0.15 Al 1 1973 K 13.4 13.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103568 AAAAA Nb1.71V1.29Au1 Nb 1.71 V 1.29 Au 1 1973 K 1.6 1.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103569 AAAAA Nb2.01V0.99Au1 Nb 2.01 V 0.99 Au 1 1973 K 2.9 2.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103570 AAAAA Nb2.25V0.75Au1 Nb 2.25 V 0.75 Au 1 1973 K 3 3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103571 AAAAA Nb2.49V0.51Au1 Nb 2.49 V 0.51 Au 1 1973 K 4.6 4.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103572 AAAAA Nb2.55V0.45Au1 Nb 2.55 V 0.45 Au 1 1973 K 5.1 5.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103573 AAAAA Nb2.9V0.3Au1 Nb 2.9 V 0.3 Au 1 1973 K 6.5 6.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103574 AAAAA Nb2.85V0.15Au1 Nb 2.85 V 0.15 Au 1 1973 K 8.4 8.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103575 AAAAA V1Ta2Sn1 V 1 Ta 2 Sn 1 1973 K 3.7 3.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103576 AAAAA V2Ta1Sn1 V 2 Ta 1 Sn 1 1973 K 2.8 2.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103577 AAAAA Nb3Rh0.02Au0.98 Nb 3 Rh 0.02 Au 0.98 1973 K 11.9 11.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103578 AAAAA Nb3Rh0.05Au0.95 Nb 3 Rh 0.05 Au 0.95 1973 K 11 11 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103579 AAAAA Nb3Rh0.1Au0.9 Nb 3 Rh 0.1 Au 0.9 1973 K 10.8 10.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103580 AAAAA Nb3Rh0.3Au0.7 Nb 3 Rh 0.3 Au 0.7 1973 K 9.5 9.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103581 AAAAA Nb3Rh0.5Au0.5 Nb 3 Rh 0.5 Au 0.5 1973 K 6.6 6.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103582 AAAAA Nb3Rh0.7Au0.3 Nb 3 Rh 0.7 Au 0.3 1973 K 4.6 4.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103583 AAAAA Nb3Sn0.56Ge0.44 Nb 3 Sn 0.56 Ge 0.44 1973 K 6.8 6.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103584 AAAAA Nb3Sn0.73Ge0.27 Nb 3 Sn 0.73 Ge 0.27 1973 K 8.2 8.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103585 AAAAA Nb3Sn0.81Ge0.19 Nb 3 Sn 0.81 Ge 0.19 1973 K 14.3 14.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103586 AAAAA Nb3Sn0.2Ga0.8 Nb 3 Sn 0.2 Ga 0.8 1973 K 13.1 13.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103587 AAAAA Nb3Sn0.4Ga0.6 Nb 3 Sn 0.4 Ga 0.6 1973 K 14.6 14.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103588 AAAAA Nb3Sn0.6Ga0.4 Nb 3 Sn 0.6 Ga 0.4 1973 K 16 16 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103589 AAAAA Nb3Sn0.98Al0.02 Nb 3 Sn 0.98 Al 0.02 1973 K 17.9 17.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103590 AAAAA Nb1Ta2Sn1 Nb 1 Ta 2 Sn 1 1973 K 10.8 10.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103591 AAAAA Nb2Ta1Sn1 Nb 2 Ta 1 Sn 1 1973 K 16.4 16.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103592 AAAAA Nb2.5Ta0.5Sn1 Nb 2.5 Ta 0.5 Sn 1 1973 K 17.6 17.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103593 AAAAA Nb2.75Ta0.25Sn1 Nb 2.75 Ta 0.25 Sn 1 1973 K 17.8 17.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103594 AAAAA Nb0.9Mo2.1Al1 Nb 0.9 Mo 2.1 Al 1 1973 K 2.73 2.73 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103595 AAAAA Nb1.2Mo1.8Al1 Nb 1.2 Mo 1.8 Al 1 1973 K 4.2 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103596 AAAAA Nb1.5Mo1.5Al1 Nb 1.5 Mo 1.5 Al 1 1973 K 4.9 4.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103597 AAAAA Nb2.1Mo0.9Al1 Nb 2.1 Mo 0.9 Al 1 1973 K 8.3 8.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103598 AAAAA Nb2.7Mo0.3Al1 Nb 2.7 Mo 0.3 Al 1 1973 K 11.4 11.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103599 AAAAA Nb3Rh0.95Co0.05 Nb 3 Rh 0.95 Co 0.05 1973 K 1.96 1.96 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103600 AAAAA Nb3Rh0.98Co0.02 Nb 3 Rh 0.98 Co 0.02 1973 K 2.28 2.28 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103601 AAAAA Nb3Sn0.1Al0.9 Nb 3 Sn 0.1 Al 0.9 1973 K 16.1 16.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103602 AAAAA Nb3Sn0.2Al0.8 Nb 3 Sn 0.2 Al 0.8 1973 K 14.6 14.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103603 AAAAA Nb3Sn0.4Al0.6 Nb 3 Sn 0.4 Al 0.6 1973 K 13.6 13.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103604 AAAAA Nb3Sn0.5Al0.5 Nb 3 Sn 0.5 Al 0.5 1973 K 16.3 16.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103605 AAAAA Nb3Sn0.6Al0.4 Nb 3 Sn 0.6 Al 0.4 1973 K 15.1 15.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103606 AAAAA Nb3Sn0.61Al0.39 Nb 3 Sn 0.61 Al 0.39 1973 K 14.1 14.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103607 AAAAA Nb3Sn0.8Al0.2 Nb 3 Sn 0.8 Al 0.2 1973 K 16.9 16.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103608 AAAAA Nb3Sn0.81Al0.19 Nb 3 Sn 0.81 Al 0.19 1973 K 14.6 14.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103609 AAAAA Nb3Sn0.9Al0.1 Nb 3 Sn 0.9 Al 0.1 1973 K 18.4 18.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103610 AAAAA Nb3Sn0.92Al0.08 Nb 3 Sn 0.92 Al 0.08 1973 K 17.9 17.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103611 AAAAA Nb3Sn0.94Al0.06 Nb 3 Sn 0.94 Al 0.06 1973 K 18 18 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103612 AAAAA Nb3Sn0.96Al0.04 Nb 3 Sn 0.96 Al 0.04 1973 K 18 18 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103613 AAAAA Nb3Al0.81Ge0.19 Nb 3 Al 0.81 Ge 0.19 1973 K 17.6 17.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103614 AAAAA Nb3Sn0.1Sb0.9 Nb 3 Sn 0.1 Sb 0.9 1973 K 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103615 AAAAA Nb3Sn0.2Sb0.8 Nb 3 Sn 0.2 Sb 0.8 1973 K 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103616 AAAAA Nb3Sn0.25Sb0.75 Nb 3 Sn 0.25 Sb 0.75 1973 K 5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103617 AAAAA Nb3Sn0.3Sb0.7 Nb 3 Sn 0.3 Sb 0.7 1973 K 6.8 6.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103618 AAAAA Nb3Sn0.35Sb0.65 Nb 3 Sn 0.35 Sb 0.65 1973 K 10.5 10.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103619 AAAAA Nb3Sn0.4Sb0.6 Nb 3 Sn 0.4 Sb 0.6 1973 K 12.4 12.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103620 AAAAA Nb3Sn0.6Sb0.4 Nb 3 Sn 0.6 Sb 0.4 1973 K 15.8 15.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103621 AAAAA Nb3Sn0.8Ge0.2 Nb 3 Sn 0.8 Ge 0.2 1973 K 18 18 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103622 AAAAA Nb3Sn0.39Ge0.61 Nb 3 Sn 0.39 Ge 0.61 1973 K 7.6 7.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103623 AAAAA Nb3Sn0.5Ge0.5 Nb 3 Sn 0.5 Ge 0.5 1973 K 12.6 12.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103624 AAAAA Nb3Sn0.5Zr0.5 Nb 3 Sn 0.5 Zr 0.5 1973 K 16.5 16.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103625 AAAAA Nb3Rh0.9Co0.1 Nb 3 Rh 0.9 Co 0.1 1973 K 1.9 1.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103626 AAAAA Nb3Rh0.9Au0.1 Nb 3 Rh 0.9 Au 0.1 1973 K 2.7 2.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103627 AAAAA Nb3Rh0.95Au0.05 Nb 3 Rh 0.95 Au 0.05 1973 K 2.52 2.52 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103628 AAAAA Nb3Rh0.98Au0.02 Nb 3 Rh 0.98 Au 0.02 1973 K 2.53 2.53 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103629 AAAAA Nb3Si0.5Sn0.5 Nb 3 Si 0.5 Sn 0.5 1973 K 8.3 8.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103630 AAAAA Nb3Si0.6Sn0.4 Nb 3 Si 0.6 Sn 0.4 1973 K 6.5 6.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103631 AAAAA Nb3In0.5Zr0.5 Nb 3 In 0.5 Zr 0.5 1973 K 6.4 6.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103632 AAAAA Nb3Ge0.5Ga0.5 Nb 3 Ge 0.5 Ga 0.5 1973 K 7.3 7.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103633 AAAAA Nb3Al0.39Ge0.61 Nb 3 Al 0.39 Ge 0.61 1973 K 7.3 7.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103634 AAAAA Nb3Al0.5Ge0.5 Nb 3 Al 0.5 Ge 0.5 1973 K 12.6 12.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103635 AAAAA Nb3Al0.55Ge0.45 Nb 3 Al 0.55 Ge 0.45 1973 K 11.7 11.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103636 AAAAA Nb3Al0.62Ge0.38 Nb 3 Al 0.62 Ge 0.38 1973 K 17.2 17.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103637 AAAAA Nb3Rh0.1Os0.9 Nb 3 Rh 0.1 Os 0.9 1973 K 1.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103638 AAAAA Nb3Rh0.5Os0.5 Nb 3 Rh 0.5 Os 0.5 1973 K 1.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103639 AAAAA Nb3Rh0.7Os0.3 Nb 3 Rh 0.7 Os 0.3 1973 K 1.7 1.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103640 AAAAA Nb3Rh0.9Os0.1 Nb 3 Rh 0.9 Os 0.1 1973 K 2.3 2.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103641 AAAAA Nb3Rh0.95Os0.05 Nb 3 Rh 0.95 Os 0.05 1973 K 2.39 2.39 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103642 AAAAA Nb3Rh0.98Os0.02 Nb 3 Rh 0.98 Os 0.02 1973 K 2.42 2.42 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103643 AAAAA Nb3Rh0.9Pd0.1 Nb 3 Rh 0.9 Pd 0.1 1973 K 2.55 2.55 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103644 AAAAA Nb3Rh0.95Pd0.05 Nb 3 Rh 0.95 Pd 0.05 1973 K 2.49 2.49 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103645 AAAAA Nb3Rh0.98Pd0.02 Nb 3 Rh 0.98 Pd 0.02 1973 K 2.5 2.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103646 AAAAA Nb3Rh0.9Ru0.1 Nb 3 Rh 0.9 Ru 0.1 1973 K 2.44 2.44 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103647 AAAAA Nb3Rh0.95Ru0.05 Nb 3 Rh 0.95 Ru 0.05 1973 K 2.42 2.42 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103648 AAAAA Nb3Rh0.98Ru0.02 Nb 3 Rh 0.98 Ru 0.02 1973 K 2.42 2.42 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103649 AAAAA Nb77.3Sn18.1Al2.3Ge2.3 Nb 77.3 Sn 18.1 Al 2.3 Ge 2.3 1973 K 13 13 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103650 AAAAA Nb1Ta1V1Sn1 Nb 1 Ta 1 V 1 Sn 1 1973 K 6.2 6.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103651 AAAAA Nb2Ta0.5V0.5Sn1 Nb 2 Ta 0.5 V 0.5 Sn 1 1973 K 12.2 12.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103652 AAAAA Nb3Rh0.02Pt0.98 Nb 3 Rh 0.02 Pt 0.98 1973 K 9.6 9.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103653 AAAAA Nb3Rh0.05Pt0.95 Nb 3 Rh 0.05 Pt 0.95 1973 K 8.9 8.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103654 AAAAA Nb3Rh0.1Pt0.9 Nb 3 Rh 0.1 Pt 0.9 1973 K 7.9 7.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103655 AAAAA Nb3Rh0.3Pt0.7 Nb 3 Rh 0.3 Pt 0.7 1973 K 7.4 7.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103656 AAAAA Nb3Rh0.5Pt0.5 Nb 3 Rh 0.5 Pt 0.5 1973 K 6.25 6.25 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103657 AAAAA Nb3Rh0.7Pt0.3 Nb 3 Rh 0.7 Pt 0.3 1973 K 5.1 5.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103658 AAAAA Nb3Rh0.9Pt0.1 Nb 3 Rh 0.9 Pt 0.1 1973 K 2.8 2.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103659 AAAAA Nb3Rh0.95Pt0.05 Nb 3 Rh 0.95 Pt 0.05 1973 K 2.53 2.53 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103660 AAAAA Nb3Rh0.98Pt0.02 Nb 3 Rh 0.98 Pt 0.02 1973 K 2.52 2.52 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103661 AAAAA Nb78.5Sn2.2Al9.6Ge9.6 Nb 78.5 Sn 2.2 Al 9.6 Ge 9.6 1973 K 12.7 12.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103662 AAAAA Nb79.2Sn5.2Al5.2Ge10.4 Nb 79.2 Sn 5.2 Al 5.2 Ge 10.4 1973 K 10.9 10.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103663 AAAAA Nb79.1Sn9.4Al2.1Ge9.4 Nb 79.1 Sn 9.4 Al 2.1 Ge 9.4 1973 K 8.2 8.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103664 AAAAA Nb78.5Sn2.2Al12.8Ge6.5 Nb 78.5 Sn 2.2 Al 12.8 Ge 6.5 1973 K 17 17 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103665 AAAAA Nb77.5Sn5.6Al11.3Ge5.6 Nb 77.5 Sn 5.6 Al 11.3 Ge 5.6 1973 K 15.2 15.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103666 AAAAA Nb78.1Sn7.3Al7.3Ge7.3 Nb 78.1 Sn 7.3 Al 7.3 Ge 7.3 1973 K 12.5 12.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103667 AAAAA Nb77.9Sn11.1Al5.5Ge5.5 Nb 77.9 Sn 11.1 Al 5.5 Ge 5.5 1973 K 13 13 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103668 AAAAA Nb78.4Sn12.9Al2.2Ge6.5 Nb 78.4 Sn 12.9 Al 2.2 Ge 6.5 1973 K 13.3 13.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103669 AAAAA Nb76Sn2.4Al19.2Ge2.4 Nb 76 Sn 2.4 Al 19.2 Ge 2.4 1973 K 16 16 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103670 AAAAA Nb76.3Sn7.1Al14.3Ge2.3 Nb 76.3 Sn 7.1 Al 14.3 Ge 2.3 1973 K 13.9 13.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103671 AAAAA Nb76.3Sn10.5Ge2.3Al10.9 Nb 76.3 Sn 10.5 Ge 2.3 Al 10.9 1973 K 14.4 14.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103672 AAAAA Nb77Sn13.8Al6.9Ge2.3 Nb 77 Sn 13.8 Al 6.9 Ge 2.3 1973 K 13.3 13.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103673 AAAAA Ag2F1 Ag 2 F 1 1973 K 0.066 0.066 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103674 AAAAA Ag7F1O8 Ag 7 F 1 O 8 1973 cubic K 0.3 0.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103675 605 clathrate. Hc1 and G-L parameter (=100) are at T=0.1 K. Ag7O11N1 Ag 7 O 11 N 1 1966 K 1.04 1.04 Oe 2 METALIC CONDUCTTIVITY AND SUPERCONDUCTIVITY IN SOME SILVER CLATHRATE SALTS 1966 "PHYS.REV.LETT.,17(1966)917"
103677 AAAAA Ag7Bf4O8 Ag 7 Bf 4 O 8 1973 cubic K 0.15 0.15 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103678 AAAAA Si21.75V69.43 Si 21.75 V 69.43 1973 K 16.2 16.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103679 AAAAA Si23.27V75.15 Si 23.27 V 75.15 1973 K 15.94 15.94 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103680 AAAAA Si22.5V75 Si 22.5 V 75 1973 K 16.4 16.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103681 AAAAA Si23.8V74.65 Si 23.8 V 74.65 1973 K 16.5 16.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103682 AAAAA Nb80.7Sn1.9Al1.9Ge15.5 Nb 80.7 Sn 1.9 Al 1.9 Ge 15.5 1973 K 7.8 7.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103683 AAAAA Nb79.5Sn2.1Al6.1Ge12.3 Nb 79.5 Sn 2.1 Al 6.1 Ge 12.3 1973 K 9.4 9.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103684 AAAAA Nb79.7Sn6.1Al2Ge12.2 Nb 79.7 Sn 6.1 Al 2 Ge 12.2 1973 K 7.15 7.15 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103685 AAAAA carrier = 1.4 E+22 /cm3. Ag0.1In0.9Te1 Ag 0.1 In 0.9 Te 1 1973 NaCl K 1.2 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103686 AAAAA Al2C1Mo3 Al 2 C 1 Mo 3 1973 beta-Mn "beta-Mn, A13" K 10 10 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103687 AAAAA Al1Au4 Al 1 Au 4 1973 beta-Mn "beta-Mn, A13" K 0.4 0.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103688 AAAAA Ag0.94Tl0.06 Ag 0.94 Tl 0.06 1973 K 2.32 2.32 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103689 AAAAA Ag0.03Tl0.97 Ag 0.03 Tl 0.97 1973 K 2.67 2.67 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103692 605 clathrate AgO8F0.25(NO3)0.75 Ag7N0.75O10.25F0.25 Ag 7 N 0.75 O 10.25 F 0.25 1966 cubic K 0.85 0.85 METALIC CONDUCTTIVITY AND SUPERCONDUCTIVITY IN SOME SILVER CLATHRATE SALTS 1966 "PHYS.REV.LETT.,17(1966)917"
103693 AAAAA Ag1In2 Ag 1 In 2 1973 CuAl2 "CuAl2, C16" K 2.4 2.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103696 AAAAA Ag0.8Ga0.2 Ag 0.8 Ga 0.2 1973 K 6.5 6.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103699 AAAAA Al0.8Ge0.2Nb3 Al 0.8 Ge 0.2 Nb 3 1973 Cr3Si(A15) "Cr3Si, A15" K 20.7 20.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103700 AAAAA Al0.5Ge0.5Nb1 Al 0.5 Ge 0.5 Nb 1 1973 Cr3Si(A15) "Cr3Si, A15" K 12.6 12.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103702 AAAAA Al0.131Cr0.088V0.781 Al 0.131 Cr 0.088 V 0.781 1973 cubic K 1.46 1.46 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103703 AAAAA Al2Ca1Si1 Al 2 Ca 1 Si 1 1973 K 5.8 5.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103704 AAAAA Al2C1Mo3 Al 2 C 1 Mo 3 1973 K 9.8 9.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103705 AAAAA Al1 Al 1 1973 Cu "Cu, A1" K 1.17 1.17 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103706 AAAAA Al1 Al 1 1973 K 1.3 1.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103708 AAAAA carrier = 1.07 E+22 /cm3 Ag0.2In0.8Te1 Ag 0.2 In 0.8 Te 1 1973 NaCl K 0.77 0.77 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103709 AAAAA As1Bi1Pb1 As 1 Bi 1 Pb 1 1973 K 9 9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103711 AAAAA Al0.108V0.892 Al 0.108 V 0.892 1973 cubic K 1.82 1.82 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103714 AAAAA Al2Pt1 Al 2 Pt 1 1973 CaF2 "CaF2, C1" K 0.48 0.48 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103715 AAAAA Al1Pb1 Al 1 Pb 1 1973 K 1.2 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103717 AAAAA Al2N1Nb3 Al 2 N 1 Nb 3 1973 beta-Mn "beta-Mn, A13" K 1.3 1.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103720 AAAAA Al2Mg2 Al 2 Mg 2 1973 cubic K 0.84 0.84 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103721 AAAAA carrier = 2.14 E+22 /cm3 As1Sn1 As 1 Sn 1 1973 NaCl K 3.41 3.41 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103723 AAAAA As1Rh1.4 As 1 Rh 1.4 1973 hexagonal K 0.03 0.03 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103725 AAAAA As1Pd5 As 1 Pd 5 1973 complex K 0.46 0.46 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103729 AAAAA As0.5Ni0.06Pd0.44 As 0.5 Ni 0.06 Pd 0.44 1973 K 1.39 1.39 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103730 AAAAA carrier = 0.97 E+22 /cm3 As0.5In1Te0.5 As 0.5 In 1 Te 0.5 1973 NaCl K 0.44 0.44 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103731 AAAAA carrier = 1.24 E+22 /cm3 As0.33In1Te0.67 As 0.33 In 1 Te 0.67 1973 NaCl K 0.85 0.85 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103732 AAAAA As1Bi1Pb1Sb1 As 1 Bi 1 Pb 1 Sb 1 1973 K 9 9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103733 AAAAA Au1Nb3 Au 1 Nb 3 1973 W "W, A2" K 1.2 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103736 AAAAA Au1In1 Au 1 In 1 1973 complex K 0.4 0.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103737 AAAAA Au0.4Ge0.6 Au 0.4 Ge 0.6 1973 complex K 0.32 0.32 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103744 AAAAA As2Sn3 As 2 Sn 3 1973 K 3.5 3.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103746 AAAAA Au1Th2 Au 1 Th 2 1973 CuAl2 "CuAl2, C16" K 3.08 3.08 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103748 AAAAA Au5Sn1 Au 5 Sn 1 1973 Mg "Mg, A3" K 0.7 0.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103752 AAAAA Au1Pb3 Au 1 Pb 3 1973 K 4.25 4.25 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103756 AAAAA Au0.02Nb3Rh0.98 Au 0.02 Nb 3 Rh 0.98 1973 Cr3Si(A15) "Cr3Si, A15" K 2.53 2.53 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103761 AAAAA B6La1 B 6 La 1 1973 K 5.7 5.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103763 AAAAA B1C1Mo2 B 1 C 1 Mo 2 1973 K 5.3 5.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103764 AAAAA B0.03C0.51Mo0.47 B 0.03 C 0.51 Mo 0.47 1973 K 12.5 12.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103765 AAAAA B1C1Mo2 B 1 C 1 Mo 2 1973 K 5.4 5.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103768 AAAAA Au1V3 Au 1 V 3 1973 Cr3Si(A15) "Cr3Si, A15" K 0.74 0.74 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103769 AAAAA Ba0.13O3W1 Ba 0.13 O 3 W 1 1973 tetragonal K 1.9 1.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103771 AAAAA B12Zr1 B 12 Zr 1 1973 K 5.82 5.82 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103773 AAAAA B12Y1 B 12 Y 1 1973 K 4.7 4.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103779 AAAAA B0.3Ru0.7 B 0.3 Ru 0.7 1973 Fe3Th7 "Fe3Th7, D10[2]" K 2.58 2.58 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103781 AAAAA Bi1Co1 Bi 1 Co 1 1973 K 0.42 0.42 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103782 AAAAA "cubic, like Be." Bi0.5Cd0.25Pb0.25Sn0.12 Bi 0.5 Cd 0.25 Pb 0.25 Sn 0.12 1973 K 8.2 8.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103784 AAAAA Be1W1 Be 1 W 1 1973 tetragonal K 4.1 4.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103785 AAAAA "cubic, like Be." Be22W1 Be 22 W 1 1973 K 4.12 4.12 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103787 AAAAA "cubic, like Be." Be0.957Re0.043 Be 0.957 Re 0.043 1973 K 9.62 9.62 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103788 AAAAA Be9.8Re0.02 Be 9.8 Re 0.02 1973 cubic K 9.5 9.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103789 AAAAA Be8Nb5Zr2 Be 8 Nb 5 Zr 2 1973 K 5.2 5.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103790 AAAAA "cubic, like Be." Be22Mo1 Be 22 Mo 1 1973 K 2.51 2.51 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103792 AAAAA Ba0.14O3W1 Ba 0.14 O 3 W 1 1973 hexagonal K 1.25 1.25 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103794 AAAAA "cubic, like Be." Bi2Ir1 Bi 2 Ir 1 1973 K 3 3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103795 AAAAA Bi2Ir1 Bi 2 Ir 1 1973 K 1.7 1.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103798 AAAAA Bi0.34In0.66 Bi 0.34 In 0.66 1973 K 4 4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103799 AAAAA Bi0.15In0.85 Bi 0.15 In 0.85 1973 K 5.3 5.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103800 AAAAA Bi10.1In0.9 Bi 10.1 In 0.9 1973 K 5.05 5.05 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103801 AAAAA Bi0.05In0.95 Bi 0.05 In 0.95 1973 K 4.65 4.65 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103802 AAAAA Bi0.019In0.981 Bi 0.019 In 0.981 1973 K 3.86 3.86 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103805 AAAAA Bi0.5Pb0.25Sn0.26 Bi 0.5 Pb 0.25 Sn 0.26 1973 K 8.5 8.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103806 AAAAA "cubic, like Be." Bi0.5Pb0.31Sn0.19 Bi 0.5 Pb 0.31 Sn 0.19 1973 K 8.5 8.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103807 AAAAA Bi1Pb1Sb1 Bi 1 Pb 1 Sb 1 1973 K 8.9 8.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103808 AAAAA "cubic, like Be." Bi0.06Pb0.95 Bi 0.06 Pb 0.95 1973 K 7.35 7.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103809 AAAAA "cubic, like Be." Bi3Ni1 Bi 3 Ni 1 1973 K 4.06 4.06 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103811 AAAAA "cubic, like Be." Bi1Nb3 Bi 1 Nb 3 1973 Cr3Si(A15) "Cr3Si, A15" K 3.05 3.05 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103814 AAAAA Bi4Mg1 Bi 4 Mg 1 1973 K 0.7 0.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103815 AAAAA "cubic, like Be." Bi1Li1 Bi 1 Li 1 1973 K 2.47 2.47 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103819 AAAAA Bi1Pt1Te1 Bi 1 Pt 1 Te 1 1973 FeS2(pyrite) "FeS2(pyrite), C2" K 1.15 1.15 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103820 AAAAA Bi1Pt1Se1 Bi 1 Pt 1 Se 1 1973 FeS2(pyrite) "FeS2(pyrite), C2" K 1.45 1.45 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103821 AAAAA Bi1Pt1 Bi 1 Pt 1 1973 NiAs "NiAs, B8[1]" K 1.21 1.21 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103822 AAAAA Bi1Pd1Te1 Bi 1 Pd 1 Te 1 1973 FeS2(pyrite) "FeS2(pyrite), C2" K 1.2 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103823 AAAAA Bi1Pd1Se1 Bi 1 Pd 1 Se 1 1973 FeS2(pyrite) "FeS2(pyrite), C2" K 1 1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103825 AAAAA "cubic, like Be." Bi2Pd1 Bi 2 Pd 1 1973 K 1.7 1.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103826 AAAAA "cubic, like Be." Pt1Pd1 Pt 1 Pd 1 1973 K 3.7 3.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103827 AAAAA "cubic, like Be." Bi0.4Pd0.6 Bi 0.4 Pd 0.6 1973 K 3.7 3.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103828 AAAAA beta-type Bi1Pd2 Bi 1 Pd 2 1973 A 3.362 12.983 tetragonal K 4.2 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103830 AAAAA "cubic, like Be." Bi0.26Tl0.74 Bi 0.26 Tl 0.74 1973 K 4.15 4.15 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103831 AAAAA "cubic, like Be." Bi0.26Tl0.74 Bi 0.26 Tl 0.74 1973 K 4.4 4.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103833 AAAAA Bi3Te1 Bi 3 Te 1 1973 K 0.75 0.75 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103838 AAAAA "cubic, like Be." Bi3Rh1 Bi 3 Rh 1 1973 K 3.2 3.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103839 AAAAA Bi1Rh1 Bi 1 Rh 1 1973 NiAs A 4.094 5.663 "NiAs, B8[1]" K 2.06 2.06 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103841 AAAAA C1Hf0.4Nb0.6 C 1 Hf 0.4 Nb 0.6 1973 NaCl "NaCl, B1" K 5.6 5.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103842 AAAAA C1Hf0.5Nb0.5 C 1 Hf 0.5 Nb 0.5 1973 NaCl "NaCl, B1" K 4.8 4.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103843 AAAAA C1Hf0.6Nb0.4 C 1 Hf 0.6 Nb 0.4 1973 NaCl "NaCl, B1" K 4.5 4.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103844 AAAAA C1Hf0.7Nb0.3 C 1 Hf 0.7 Nb 0.3 1973 NaCl "NaCl, B1" K 6.1 6.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103845 AAAAA C1Hf0.25Mo0.75 C 1 Hf 0.25 Mo 0.75 1973 NaCl "NaCl, B1" K 6.6 6.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103846 AAAAA C1Hf0.3Mo0.7 C 1 Hf 0.3 Mo 0.7 1973 NaCl "NaCl, B1" K 5.5 5.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103847 AAAAA C1Hf0.5Mo0.5 C 1 Hf 0.5 Mo 0.5 1973 NaCl "NaCl, B1" K 3.4 3.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103848 AAAAA "cubic, like Be." C1Ga1Mo2 C 1 Ga 1 Mo 2 1973 K 3.7 3.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103849 AAAAA "cubic, like Be." C8K1 C 8 K 1 1973 K 0.55 0.55 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103851 AAAAA Bi0.3Zn0.7 Bi 0.3 Zn 0.7 1973 K 1.51 1.51 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103853 AAAAA C1Mo0.5Ta0.5 C 1 Mo 0.5 Ta 0.5 1973 NaCl "NaCl, B1" K 7.7 7.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103854 AAAAA C1Mo0.2Ta0.8 C 1 Mo 0.2 Ta 0.8 1973 NaCl "NaCl, B1" K 7.5 7.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103855 AAAAA C0.6Mo4.8Si3 C 0.6 Mo 4.8 Si 3 1973 Mn5Si3 "Mn5Si3, D8[8]" K 7.6 7.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103856 AAAAA C0.44Mo0.56 C 0.44 Mo 0.56 1973 NaCl "NaCl, B1" K 1.3 1.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103857 AAAAA C1Mo2 C 1 Mo 2 1973 K 12.2 12.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103858 AAAAA C1Mo1 C 1 Mo 1 1973 K 6.5 6.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103859 AAAAA C0.4Mo0.6 C 0.4 Mo 0.6 1973 K 9 9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103860 AAAAA C8K1 C 8 K 1 1973 hexagonal K 0.39 0.39 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103861 AAAAA "cubic, like Be." C1K1 C 1 K 1 1973 hexagonal K 0.55 0.55 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103862 AAAAA C1Hf0.9Ta0.1 C 1 Hf 0.9 Ta 0.1 1973 NaCl "NaCl, B1" K 5 5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103863 AAAAA C1Hf0.8Nb0.8 C 1 Hf 0.8 Nb 0.8 1973 NaCl "NaCl, B1" K 7.8 7.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103864 AAAAA C1Hf0.25Nb0.75 C 1 Hf 0.25 Nb 0.75 1973 NaCl "NaCl, B1" K 7 7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103865 AAAAA C1Nb0.1Zr0.9 C 1 Nb 0.1 Zr 0.9 1973 NaCl "NaCl, B1" K 4.2 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103866 AAAAA C1Nb0.6W0.4 C 1 Nb 0.6 W 0.4 1973 NaCl "NaCl, B1" K 12.5 12.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103868 AAAAA C0.7Nb0.3 C 0.7 Nb 0.3 1973 NaCl "NaCl, B1" K 6 6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103869 AAAAA whiskers C1Nb1 C 1 Nb 1 1973 K 14 14 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103870 AAAAA C0.984Nb1 C 0.984 Nb 1 1973 NaCl "NaCl, B1" K 9.8 9.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103871 AAAAA whiskers C1Nb1 C 1 Nb 1 1973 K 7.5 7.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103872 AAAAA C0.1N0.9Nb1 C 0.1 N 0.9 Nb 1 1973 K 8.5 8.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103873 AAAAA C1Mo0.83Ti0.17 C 1 Mo 0.83 Ti 0.17 1973 NaCl "NaCl, B1" K 10.2 10.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103874 AAAAA C1Mo0.85Ta0.15 C 1 Mo 0.85 Ta 0.15 1973 NaCl "NaCl, B1" K 8.9 8.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103875 AAAAA C1Mo0.8Ta0.2 C 1 Mo 0.8 Ta 0.2 1973 NaCl "NaCl, B1" K 8.7 8.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103876 AAAAA C1Mo0.75Ta0.25 C 1 Mo 0.75 Ta 0.25 1973 NaCl "NaCl, B1" K 8.5 8.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103877 AAAAA C1W1 C 1 W 1 1973 K 1 1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103878 AAAAA C1Ti0.5W0.5 C 1 Ti 0.5 W 0.5 1973 NaCl "NaCl, B1" K 6.7 6.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103879 AAAAA whiskers C1Tc1 C 1 Tc 1 1973 cubic K 3.85 3.85 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103880 AAAAA C1Ta0.2Zr0.8 C 1 Ta 0.2 Zr 0.8 1973 NaCl "NaCl, B1" K 4.6 4.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103881 AAAAA C1Ta0.4Ti0.6 C 1 Ta 0.4 Ti 0.6 1973 NaCl "NaCl, B1" K 4.8 4.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103883 AAAAA whiskers C1Ta1 C 1 Ta 1 1973 NaCl "NaCl, B1" K 5.09 5.09 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103884 AAAAA C0.848Ta1 C 0.848 Ta 1 1973 K 2.04 2.04 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103885 AAAAA C0.987Ta1 C 0.987 Ta 1 1973 K 9.7 9.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103886 AAAAA C1Ta1 C 1 Ta 1 1973 K 11 11 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103887 AAAAA C1Re0.06W1 C 1 Re 0.06 W 1 1973 K 5 5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103888 AAAAA C1Re0.01W1 C 1 Re 0.01 W 1 1973 K 1.3 1.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103889 AAAAA Cd0.18Tl0.82 Cd 0.18 Tl 0.82 1973 K 2.54 2.54 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103890 AAAAA Cd0.17Tl0.83 Cd 0.17 Tl 0.83 1973 K 2.3 2.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103891 AAAAA Cd1Sn1 Cd 1 Sn 1 1973 K 3.65 3.65 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103892 AAAAA Cd0.97Pd0.03 Cd 0.97 Pd 0.03 1973 K 4.2 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103893 AAAAA Cd1Hg1 Cd 1 Hg 1 1973 tetragonal K 1.77 1.77 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103894 AAAAA Cd0.3Hg0.7 Cd 0.3 Hg 0.7 1973 K 1.7 1.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103895 AAAAA Ca1Rh2 Ca 1 Rh 2 1973 MgCu2(Laves) "MgCu2, C15" K 6.4 6.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103896 AAAAA Ca1Pb1 Ca 1 Pb 1 1973 K 7 7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103897 AAAAA Ca0.1O3W1 Ca 0.1 O 3 W 1 1973 hexagonal K 1.4 1.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103898 AAAAA Ca1Ir2 Ca 1 Ir 2 1973 MgCu2(Laves) "MgCu2, C15" K 6.15 6.15 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103899 AAAAA C1W2 C 1 W 2 1973 cubic K 5.2 5.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103900 AAAAA C1W2 C 1 W 2 1973 Fe2N "Fe2N, L'[3]" K 2.74 2.74 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103901 AAAAA Co0.5Rh0.5Si2 Co 0.5 Rh 0.5 Si 2 1973 K 2.5 2.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103902 AAAAA Co0.02Nb3Rh0.98 Co 0.02 Nb 3 Rh 0.98 1973 Cr3Si(A15) "Cr3Si, A15" K 2.28 2.28 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103903 AAAAA Co1Lu3 Co 1 Lu 3 1973 K 0.35 0.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103906 AAAAA Ce1Ru2 Ce 1 Ru 2 1973 MgCu2(Laves) "MgCu2, C15" K 6 6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103907 AAAAA Ce0.005La0.995 Ce 0.005 La 0.995 1973 K 4.6 4.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103910 AAAAA Ce1Co1.67Rh0.33 Ce 1 Co 1.67 Rh 0.33 1973 MgCu2(Laves) "MgCu2, C15" K 0.47 0.47 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103911 AAAAA Ce1Co1.67Ni0.33 Ce 1 Co 1.67 Ni 0.33 1973 MgCu2(Laves) "MgCu2, C15" K 0.46 0.46 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103912 AAAAA Ce1Co2 Ce 1 Co 2 1973 MgCu2(Laves) "MgCu2, C15" K 0.84 0.84 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103913 AAAAA whiskers Cr0.6Ir0.4 Cr 0.6 Ir 0.4 1973 K 0.4 0.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103914 AAAAA Co0.1Zr0.9 Co 0.1 Zr 0.9 1973 Mg "Mg, A3" K 3.9 3.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103915 AAAAA Co1Zr2 Co 1 Zr 2 1973 CuAl2 "CuAl2, C16" K 6.3 6.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103917 AAAAA Co0.28Y0.72 Co 0.28 Y 0.72 1973 K 0.34 0.34 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103919 AAAAA whiskers Co1U1 Co 1 U 1 1973 K 1.7 1.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103923 AAAAA Co1Si2 Co 1 Si 2 1973 CaF2 "CaF2, C1" K 1.4 1.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103924 AAAAA Co0.3Sc0.7 Co 0.3 Sc 0.7 1973 K 0.35 0.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103925 AAAAA Cr0.017U0.983 Cr 0.017 U 0.983 1973 K 0.75 0.75 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103926 AAAAA Cr0.1Ti0.3V0.6 Cr 0.1 Ti 0.3 V 0.6 1973 K 5.6 5.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103927 AAAAA Cr0.1Ru0.9 Cr 0.1 Ru 0.9 1973 Mg "Mg, A3" K 0.34 0.34 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103928 AAAAA Cr2Ru1 Cr 2 Ru 1 1973 sigma-CrFe "sigma-CrFe, D8[b]" K 2.02 2.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103929 AAAAA whiskers Cr3Ru1 Cr 3 Ru 1 1973 Cr3Si(A15) "Cr3Si, A15" K 3.3 3.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103930 AAAAA Cr0.8Rh0.2 Cr 0.8 Rh 0.2 1973 Mg "Mg, A3" K 0.5 0.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103931 AAAAA Cr0.4Re0.6 Cr 0.4 Re 0.6 1973 sigma-CrFe "sigma-CrFe, D8[b]" K 2.15 2.15 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103932 AAAAA Cr0.8Os0.2 Cr 0.8 Os 0.2 1973 cubic K 2.5 2.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103933 AAAAA Cr3Ir1 Cr 3 Ir 1 1973 Cr3Si(A15) "Cr3Si, A15" K 0.45 0.45 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103934 AAAAA Cr0.72Ir0.28 Cr 0.72 Ir 0.28 1973 K 0.83 0.83 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103935 AAAAA whiskers Cr0.7Ir0.3 Cr 0.7 Ir 0.3 1973 K 0.76 0.76 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103936 AAAAA whiskers Cr0.65Ir0.35 Cr 0.65 Ir 0.35 1973 K 0.59 0.59 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103937 AAAAA Fe0.05Ni0.05Zr0.9 Fe 0.05 Ni 0.05 Zr 0.9 1973 K 3.9 3.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103938 AAAAA D0.13Nb1 D 0.13 Nb 1 1973 K 9.12 9.12 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103941 AAAAA Cu1Se1Te1 Cu 1 Se 1 Te 1 1973 FeS2(marcasite) "FeS2, C18" K 1.6 1.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103943 AAAAA Cu1S1Se1 Cu 1 S 1 Se 1 1973 FeS2(marcasite) "FeS2, C18" K 1.5 1.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103947 AAAAA whiskers Cu0.15In0.85 Cu 0.15 In 0.85 1973 K 3.75 3.75 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103948 AAAAA Cs0.32O3W1 Cs 0.32 O 3 W 1 1973 hexagonal K 1.12 1.12 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103950 AAAAA Ga0.7Pt0.3 Ga 0.7 Pt 0.3 1973 CaF2 "CaF2, C1" K 2.9 2.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103952 AAAAA film made at 10 K Ga1N1 Ga 1 N 1 1973 ZnS(wurtzite) "ZnS(wurtzite), B4" K 5.85 5.85 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103957 AAAAA Ga0.5Ge0.5Nb3 Ga 0.5 Ge 0.5 Nb 3 1973 Cr3Si(A15) "Cr3Si, A15" K 7.3 7.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103958 AAAAA Fe0.1Zr0.9 Fe 0.1 Zr 0.9 1973 Mg "Mg, A3" K 1 1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103961 AAAAA Ge0.29Nb0.71 Ge 0.29 Nb 0.71 1973 Cr3Si(A15) "Cr3Si, A15" K 6 6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103962 AAAAA film made at 10 K Ge1Nb3 Ge 1 Nb 3 1973 Cr3Si(A15) "Cr3Si, A15" K 6 6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103964 AAAAA Ge1Mo3 Ge 1 Mo 3 1973 Cr3Si(A15) "Cr3Si, A15" K 1.43 1.43 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103965 AAAAA film made at 10 K Ge2La1 Ge 2 La 1 1973 K 1.49 1.49 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103967 AAAAA Ga3Zr1 Ga 3 Zr 1 1973 K 1.38 1.38 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103968 AAAAA Ga1V4.5 Ga 1 V 4.5 1973 K 9.15 9.15 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103969 AAAAA Ga1V2.1 Ga 1 V 2.1 1973 Cr3Si(A15) "Cr3Si, A15" K 6.3 6.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103972 AAAAA film made at 10 K Ga1Sb1 Ga 1 Sb 1 1973 beta-Sn "beta-Sn, A5" K 4.24 4.24 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103973 AAAAA H0.12Ta0.88 H 0.12 Ta 0.88 1973 cubic K 2.81 2.81 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103974 AAAAA H0.05Nb0.95 H 0.05 Nb 0.95 1973 cubic K 7.83 7.83 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103975 AAAAA H0.1Nb0.9 H 0.1 Nb 0.9 1973 cubic K 7.38 7.38 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103976 AAAAA H00.33Nb0.67 H0 0.33 Nb 0.67 1973 cubic K 7.28 7.28 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103977 AAAAA Ge1.62Y1 Ge 1.62 Y 1 1973 K 2.4 2.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103980 AAAAA film made at 10 K Ge3Te4 Ge 3 Te 4 1973 K 1.55 1.55 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103982 AAAAA film made at 10 K Ge3Rh5 Ge 3 Rh 5 1973 K 2.12 2.12 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103984 AAAAA Ge0.5Nb3Sn0.5 Ge 0.5 Nb 3 Sn 0.5 1973 K 11.3 11.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103986 AAAAA film made at 10 K Hg2K1 Hg 2 K 1 1973 K 1.2 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103988 AAAAA Hf1V2 Hf 1 V 2 1973 MgCu2(Laves) "MgCu2, C15" K 8.9 8.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103989 AAAAA Hf0.99Rh0.01 Hf 0.99 Rh 0.01 1973 K 0.85 0.85 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103990 AAAAA Hf0.14Re0.86 Hf 0.14 Re 0.86 1973 alpha-Mn "alpha-Mn, A12" K 5.8 5.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103991 AAAAA Hf1Re2 Hf 1 Re 2 1973 MgZn2(Laves) "MgZn2, C14" K 4.8 4.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103993 AAAAA Hf0.76Nb0.25 Hf 0.76 Nb 0.25 1973 K 4.2 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103994 AAAAA Hf1N0.989 Hf 1 N 0.989 1973 NaCl "NaCl, B1" K 6.6 6.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103995 AAAAA H0.04Ta0.96 H 0.04 Ta 0.96 1973 cubic K 3.62 3.62 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103996 AAAAA H0.08Ta0.92 H 0.08 Ta 0.92 1973 cubic K 3.26 3.26 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103997 AAAAA In0.11O3W1 In 0.11 O 3 W 1 1973 hexagonal K 1.25 1.25 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103998 AAAAA In0.5Nb3Zr0.5 In 0.5 Nb 3 Zr 0.5 1973 K 6.4 6.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
103999 AAAAA film made at 10 K In1Nb3 In 1 Nb 3 1973 Cr3Si(A15) "Cr3Si, A15" K 4 4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104000 AAAAA film made at 10 K In1La3 In 1 La 3 1973 K 9.75 9.75 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104002 AAAAA Hg5Tl2 Hg 5 Tl 2 1973 K 3.86 3.86 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104008 AAAAA Hg4K1 Hg 4 K 1 1973 K 3.27 3.27 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104009 AAAAA In0.78Tl0.22 In 0.78 Tl 0.22 1973 tetragonal K 3.18 3.18 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104010 AAAAA In0.62Tl0.38 In 0.62 Tl 0.38 1973 K 2.76 2.76 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104011 AAAAA In0.8Tl0.2 In 0.8 Tl 0.2 1973 K 3.223 3.223 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104012 AAAAA film made at 10 K In3Te4 In 3 Te 4 1973 K 1.15 1.15 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104013 AAAAA In1Te1.002 In 1 Te 1.002 1973 NaCl "NaCl, B1" K 3.5 3.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104014 AAAAA film made at 10 K In0.82Te1 In 0.82 Te 1 1973 NaCl "NaCl, B1" K 1.02 1.02 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104015 AAAAA In3Sn1 In 3 Sn 1 1973 K 5.5 5.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104016 AAAAA film made at 10 K In1Sb1 In 1 Sb 1 1973 beta-Sn "beta-Sn, A5" K 4.8 4.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104017 AAAAA In1Pb1 In 1 Pb 1 1973 CsCl "CsCl, B2" K 0.7 0.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104018 AAAAA In1Pb1 In 1 Pb 1 1973 K 6.65 6.65 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104019 AAAAA In0.98Pb0.02 In 0.98 Pb 0.02 1973 K 3.45 3.45 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104020 AAAAA In0.95Pb0.05 In 0.95 Pb 0.05 1973 K 3.6 3.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104021 AAAAA Ir0.4Nb0.6 Ir 0.4 Nb 0.6 1973 sigma-CrFe "sigma-CrFe, D8[b]" K 9.8 9.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104022 AAAAA Ir1Nb3 Ir 1 Nb 3 1973 Cr3Si(A15) "Cr3Si, A15" K 1.9 1.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104023 AAAAA Ir1Mo3 Ir 1 Mo 3 1973 sigma-CrFe "sigma-CrFe, D8[b]" K 6.8 6.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104032 AAAAA In0.69Tl0.31 In 0.69 Tl 0.31 1973 cubic K 2.98 2.98 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104034 AAAAA Ir1Sn2 Ir 1 Sn 2 1973 CaF2 "CaF2, C1" K 0.65 0.65 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104035 AAAAA Ir2.5Sc1 Ir 2.5 Sc 1 1973 MgCu2(Laves) "MgCu2, C15" K 2.46 2.46 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104036 AAAAA Ir2Sc1 Ir 2 Sc 1 1973 MgCu2(Laves) "MgCu2, C15" K 2.07 2.07 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104037 AAAAA Ir0.5Os0.5 Ir 0.5 Os 0.5 1973 MgZn2(Laves) "MgZn2, C14" K 2.4 2.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104038 AAAAA Ir1Os1Y1 Ir 1 Os 1 Y 1 1973 MgCu2(Laves) "MgCu2, C15" K 2.6 2.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104039 AAAAA Ir0.265O0.035Ti0.65 Ir 0.265 O 0.035 Ti 0.65 1973 Fe3W3C "Fe3W3C, E9[3]" K 2.3 2.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104040 AAAAA Ir0.287O0.14Ti0.578 Ir 0.287 O 0.14 Ti 0.578 1973 Fe3W3C "Fe3W3C, E9[3]" K 5.5 5.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104041 AAAAA Ir0.05Nb3Rh0.95 Ir 0.05 Nb 3 Rh 0.95 1973 Cr3Si(A15) "Cr3Si, A15" K 2.38 2.38 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104042 AAAAA Ir0.02Nb3Rh0.98 Ir 0.02 Nb 3 Rh 0.98 1973 Cr3Si(A15) "Cr3Si, A15" K 2.43 2.43 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104043 AAAAA Ir1Nb1 Ir 1 Nb 1 1973 sigma-CrFe "sigma-CrFe, D8[b]" K 7.9 7.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104044 AAAAA Ir0.37Nb0.63 Ir 0.37 Nb 0.63 1973 sigma-CrFe "sigma-CrFe, D8[b]" K 2.32 2.32 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104046 AAAAA Ir0.28W0.72 Ir 0.28 W 0.72 1973 K 4.49 4.49 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104048 AAAAA Ir1V2 Ir 1 V 2 1973 Cr3Si(A15) "Cr3Si, A15" K 1.39 1.39 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104049 AAAAA Ir1Ti3 Ir 1 Ti 3 1973 Cr3Si(A15) "Cr3Si, A15" K 5.4 5.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104053 AAAAA Ir2Th1 Ir 2 Th 1 1973 MgCu2(Laves) "MgCu2, C15" K 6.5 6.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104059 AAAAA hexagonal La type. La0.8Lu0.2 La 0.8 Lu 0.2 1973 K 3.4 3.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104060 AAAAA hexagonal La type. La0.55Lu0.45 La 0.55 Lu 0.45 1973 K 2.2 2.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104061 AAAAA "Phys.Let., 15(1965)108" K0.4O3W1 K 0.4 O 3 W 1 1973 A 12.3 3.8 tetragonal K 1.5 1.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104062 AAAAA "Phys.Lett., 15(1965)108" K0.27O3W1 K 0.27 O 3 W 1 1973 A 7.4 7.6 hexagonal K 0.5 0.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104063 AAAAA Ir0.1Zr0.9 Ir 0.1 Zr 0.9 1973 Mg "Mg, A3" K 5.5 5.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104066 AAAAA Ir2Y1 Ir 2 Y 1 1973 MgCu2(Laves) "MgCu2, C15" K 1.09 1.09 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104067 AAAAA Ir0.7Y0.3 Ir 0.7 Y 0.3 1973 MgCu2(Laves) "MgCu2, C15" K 2.16 2.16 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104068 AAAAA Ir0.69Y0.31 Ir 0.69 Y 0.31 1973 MgCu2(Laves) "MgCu2, C15" K 1.98 1.98 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104072 AAAAA La3Sc4 La 3 Sc 4 1973 Th3P4 "Th3P4, D7[3]" K 8.6 8.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104073 AAAAA La3S4 La 3 S 4 1973 Th3P4 "Th3P4, D7[3]" K 6.5 6.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104078 AAAAA La0.28Pt0.72 La 0.28 Pt 0.72 1973 MgCu2(Laves) "MgCu2, C15" K 0.54 0.54 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104082 AAAAA M0.62Os0.38 M 0.62 Os 0.38 1973 sigma-CrFe "sigma-CrFe, D8[b]" K 5.65 5.65 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104083 AAAAA Mo3Os1 Mo 3 Os 1 1973 Cr3Si(A15) "Cr3Si, A15" K 7.2 7.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104088 AAAAA Mg0.47Tl0.53 Mg 0.47 Tl 0.53 1973 CsCl "CsCl, B2" K 2.75 2.75 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104091 AAAAA Lu0.275Rh0.725 Lu 0.275 Rh 0.725 1973 MgCu2(Laves) "MgCu2, C15" K 1.27 1.27 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104094 AAAAA Mo0.2Ru0.8 Mo 0.2 Ru 0.8 1973 Mg "Mg, A3" K 1.66 1.66 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104095 AAAAA Mo0.61Ru0.39 Mo 0.61 Ru 0.39 1973 sigma-CrFe "sigma-CrFe, D8[b]" K 7.18 7.18 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104096 AAAAA Mo1Ru1 Mo 1 Ru 1 1973 Mg "Mg, A3" K 9.5 9.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104098 AAAAA Mo0.6Re0.395 Mo 0.6 Re 0.395 1973 K 10.6 10.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104099 AAAAA Mo0.57Re0.43 Mo 0.57 Re 0.43 1973 K 14 14 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104100 AAAAA Mo0.52Re0.48 Mo 0.52 Re 0.48 1973 K 11.1 11.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104101 AAAAA Mo0.42Re0.58 Mo 0.42 Re 0.58 1973 sigma-CrFe "sigma-CrFe, D8[b]" K 6.35 6.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104103 AAAAA Mo3Re1 Mo 3 Re 1 1973 K 0.01 0.01 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104104 AAAAA Mo0.5Pb0.5 Mo 0.5 Pb 0.5 1973 Mg "Mg, A3" K 3.52 3.52 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104105 AAAAA N0.824Nb1 N 0.824 Nb 1 1973 NaCl "NaCl, B1" K 14.4 14.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104106 AAAAA N0.988Nb1 N 0.988 Nb 1 1973 NaCl "NaCl, B1" K 14.9 14.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104107 AAAAA film made at 10 K. N1Nb1 N 1 Nb 1 1973 NaCl "NaCl, B1" K 6 6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104108 AAAAA whiskers N1Nb1 N 1 Nb 1 1973 K 16 16 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104109 AAAAA whiskers N1Nb1 N 1 Nb 1 1973 K 10 10 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104110 AAAAA Mo2Zr1 Mo 2 Zr 1 1973 MgCu2(Laves) "MgCu2, C15" K 4.27 4.27 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104111 AAAAA Mo0.025Ti0.975 Mo 0.025 Ti 0.975 1973 K 1.8 1.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104112 AAAAA Mo0.04Ti0.96 Mo 0.04 Ti 0.96 1973 cubic K 2 2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104113 AAAAA Mo0.913Ti0.087 Mo 0.913 Ti 0.087 1973 K 2.95 2.95 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104114 AAAAA Mo0.16Ti0.84 Mo 0.16 Ti 0.84 1973 K 4.18 4.18 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104115 AAAAA Mo1Si0.7 Mo 1 Si 0.7 1973 K 1.34 1.34 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104116 AAAAA Mo3Si1.3 Mo 3 Si 1.3 1973 Cr3Si(A15) "Cr3Si, A15" K 1.3 1.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104118 AAAAA Na0.28Pb0.72 Na 0.28 Pb 0.72 1973 K 7.2 7.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104119 AAAAA Na0.28O3W1 Na 0.28 O 3 W 1 1973 tetragonal K 0.56 0.56 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104120 AAAAA N0.906Zr1 N 0.906 Zr 1 1973 NaCl "NaCl, B1" K 3 3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104121 AAAAA N1Zr1 N 1 Zr 1 1973 NaCl "NaCl, B1" K 9.8 9.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104122 AAAAA N0.82V1 N 0.82 V 1 1973 NaCl "NaCl, B1" K 2.9 2.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104123 AAAAA N0.6Ti1 N 0.6 Ti 1 1973 NaCl "NaCl, B1" K 1.17 1.17 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104124 AAAAA whiskers N1Ta1 N 1 Ta 1 1973 NaCl "NaCl, B1" K 4.84 4.84 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104125 AAAAA N1Ta1 N 1 Ta 1 1973 NaCl "NaCl, B1" K 12 12 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104126 AAAAA N0.34Re1 N 0.34 Re 1 1973 cubic K 4 4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104127 AAAAA N0.93Nb0.85Zr0.15 N 0.93 Nb 0.85 Zr 0.15 1973 NaCl "NaCl, B1" K 13.8 13.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104128 AAAAA whiskers N0.7Nb1 N 0.7 Nb 1 1973 K 11.3 11.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104130 AAAAA Nb0.38Re0.62 Nb 0.38 Re 0.62 1973 alpha-Mn "alpha-Mn, A12" K 2.43 2.43 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104131 AAAAA Nb3Pt0.02Rh0.98 Nb 3 Pt 0.02 Rh 0.98 1973 Cr3Si(A15) "Cr3Si, A15" K 2.52 2.52 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104132 AAAAA Nb5Pt3 Nb 5 Pt 3 1973 sigma-CrFe "sigma-CrFe, D8[b]" K 3.73 3.73 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104134 AAAAA Nb0.62Pt0.38 Nb 0.62 Pt 0.38 1973 sigma-CrFe "sigma-CrFe, D8[b]" K 4.21 4.21 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104135 AAAAA Nb3Pd0.02Rh0.98 Nb 3 Pd 0.02 Rh 0.98 1973 Cr3Si(A15) "Cr3Si, A15" K 2.49 2.49 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104136 AAAAA whiskers Nb0.6Pd0.4 Nb 0.6 Pd 0.4 1973 K 1.6 1.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104137 AAAAA Nb3Os0.02Rh0.98 Nb 3 Os 0.02 Rh 0.98 1973 Cr3Si(A15) "Cr3Si, A15" K 2.42 2.42 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104138 AAAAA Nb0.6Os0.4 Nb 0.6 Os 0.4 1973 sigma-CrFe "sigma-CrFe, D8[b]" K 1.89 1.89 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104139 AAAAA Nb3Os1 Nb 3 Os 1 1973 Cr3Si(A15) "Cr3Si, A15" K 1.05 1.05 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104140 AAAAA Nb1Os2 Nb 1 Os 2 1973 alpha-Mn "alpha-Mn, A12" K 2.52 2.52 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104142 AAAAA whiskers Nb1Sn2 Nb 1 Sn 2 1973 K 2.6 2.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104143 AAAAA Nb0.8Sn0.2 Nb 0.8 Sn 0.2 1973 Cr3Si(A15) "Cr3Si, A15" K 18.18 18.18 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104144 AAAAA Nb3Sn1 Nb 3 Sn 1 1973 Cr3Si(A15) "Cr3Si, A15" K 18.05 18.05 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104145 AAAAA Nb3Si1Sn1V3 Nb 3 Si 1 Sn 1 V 3 1973 K 4 4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104146 AAAAA Nb3Si1 Nb 3 Si 1 1973 AuCu3 "AuCu3, L1[2]" K 1.5 1.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104147 AAAAA whiskers Nb1Se2 Nb 1 Se 2 1973 2H-NbSe2 K 2.2 2.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104148 AAAAA whiskers Nb1Se2 Nb 1 Se 2 1973 2H-NbSe2 K 5.15 5.15 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104149 AAAAA whiskers Nb1S2 Nb 1 S 2 1973 K 5 5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104150 AAAAA whiskers Nb1S2 Nb 1 S 2 1973 K 6.1 6.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104151 AAAAA Nb3Rh0.98Ru0.02 Nb 3 Rh 0.98 Ru 0.02 1973 Cr3Si(A15) "Cr3Si, A15" K 2.42 2.42 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104152 AAAAA whiskers Nb0.6Rh0.4 Nb 0.6 Rh 0.4 1973 K 4.21 4.21 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104153 AAAAA Nb0.88V0.12 Nb 0.88 V 0.12 1973 W "W, A2" K 5.7 5.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104154 AAAAA Nb0.6Ti0.4 Nb 0.6 Ti 0.4 1973 K 9.8 9.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104155 AAAAA Nb1Tc3 Nb 1 Tc 3 1973 alpha-Mn "alpha-Mn, A12" K 10.5 10.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104156 AAAAA Nb2.5Sn1V0.5 Nb 2.5 Sn 1 V 0.5 1973 Cr3Si(A15) "Cr3Si, A15" K 14.2 14.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104157 AAAAA Nb2Sn1V1 Nb 2 Sn 1 V 1 1973 Cr3Si(A15) "Cr3Si, A15" K 9.8 9.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104158 AAAAA Nb1Sn1V2 Nb 1 Sn 1 V 2 1973 Cr3Si(A15) "Cr3Si, A15" K 5.5 5.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104159 AAAAA Nb2Sn1Ta0.5V0.5 Nb 2 Sn 1 Ta 0.5 V 0.5 1973 Cr3Si(A15) "Cr3Si, A15" K 12.2 12.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104160 AAAAA Nb1Sn1Ta1V1 Nb 1 Sn 1 Ta 1 V 1 1973 Cr3Si(A15) "Cr3Si, A15" K 6.2 6.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104161 AAAAA Nb2.75Sn1Ta0.25 Nb 2.75 Sn 1 Ta 0.25 1973 Cr3Si(A15) "Cr3Si, A15" K 17.8 17.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104162 AAAAA Nb2.5Sn1Ta0.5 Nb 2.5 Sn 1 Ta 0.5 1973 Cr3Si(A15) "Cr3Si, A15" K 17.6 17.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104163 AAAAA Nb2Sn1Ta1 Nb 2 Sn 1 Ta 1 1973 Cr3Si(A15) "Cr3Si, A15" K 16.4 16.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104164 AAAAA Nb1Sn1Ta2 Nb 1 Sn 1 Ta 2 1973 Cr3Si(A15) "Cr3Si, A15" K 10.8 10.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104165 AAAAA O3Tl0.03W1 O 3 Tl 0.03 W 1 1973 hexagonal K 2 2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104166 AAAAA O3Sr0.08W1 O 3 Sr 0.08 W 1 1973 hexagonal K 2 2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104167 AAAAA O1Ti1 O 1 Ti 1 1973 K 0.58 0.58 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104168 AAAAA whiskers O3Sr1Ti1 O 3 Sr 1 Ti 1 1973 K 0.47 0.47 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104169 AAAAA whiskers O3Sr1Ti1 O 3 Sr 1 Ti 1 1973 K 0.05 0.05 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104170 AAAAA whiskers O3Sr1Ti1 O 3 Sr 1 Ti 1 1973 K 0.12 0.12 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104171 AAAAA "Phys.Lett., 15(1965)108" O3Rb0.27W1 O 3 Rb 0.27 W 1 1973 A 7.4 7.6 hexagonal K 1.98 1.98 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104172 AAAAA Ni0.1Zr0.9 Ni 0.1 Zr 0.9 1973 Mg "Mg, A3" K 1.5 1.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104173 AAAAA Ni1Zr2 Ni 1 Zr 2 1973 K 1.52 1.52 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104174 AAAAA Ni0.3Th0.7 Ni 0.3 Th 0.7 1973 Fe3Th7 "Fe3Th7, D10[2]" K 1.98 1.98 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104175 AAAAA Nb0.66Zr0.33 Nb 0.66 Zr 0.33 1973 K 10.8 10.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104176 AAAAA Nb0.75Zr0.25 Nb 0.75 Zr 0.25 1973 K 10.8 10.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104177 AAAAA whiskers P3Pd7 P 3 Pd 7 1973 K 1 1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104178 AAAAA P1Pd3 P 1 Pd 3 1973 Fe3C "Fe3C, D0[11]" K 0.35 0.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104182 AAAAA Os1W3 Os 1 W 3 1973 K 3 3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104186 AAAAA Os1Re1Y1 Os 1 Re 1 Y 1 1973 MgZn2(Laves) "MgZn2, C14" K 2 2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104188 AAAAA O1V3Zr3 O 1 V 3 Zr 3 1973 Fe3W3C "Fe3W3C, E9[3]" K 7.5 7.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104189 AAAAA Pb1Tl0.17 Pb 1 Tl 0.17 1973 K 6.73 6.73 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104190 AAAAA Pb1Tl0.27 Pb 1 Tl 0.27 1973 K 6.43 6.43 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104191 AAAAA whiskers Pb1Te1 Pb 1 Te 1 1973 K 5.24 5.24 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104192 AAAAA whiskers Pb1Te1 Pb 1 Te 1 1973 K 5.19 5.19 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104195 AAAAA whiskers Pb4Pt1 Pb 4 Pt 1 1973 K 2.8 2.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104198 AAAAA P1Rh2 P 1 Rh 2 1973 CaF2 A 5.516 "CaF2, C1" K 1.3 1.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104199 AAAAA P1Rh1 P 1 Rh 1 1973 K 1.22 1.22 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104200 AAAAA whiskers P3Pd7 P 3 Pd 7 1973 complex K 0.7 0.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104201 AAAAA Pd1Sb1Se1 Pd 1 Sb 1 Se 1 1973 FeS2(pyrite) "FeS2(pyrite), C2" K 1 1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104204 AAAAA whiskers Pd2.2S1 Pd 2.2 S 1 1973 cubic K 1.63 1.63 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104205 AAAAA Pd0.05Ru0.05Zr0.9 Pd 0.05 Ru 0.05 Zr 0.9 1973 K 9 9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104206 AAAAA Pb0.9Pt0.1Te2 Pb 0.9 Pt 0.1 Te 2 1973 K 1.65 1.65 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104209 AAAAA Pb1Tl2 Pb 1 Tl 2 1973 K 3.75 3.75 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104210 AAAAA Pb1Tl0.04 Pb 1 Tl 0.04 1973 K 7.06 7.06 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104211 AAAAA Pb1Tl0.075 Pb 1 Tl 0.075 1973 K 6.98 6.98 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104212 AAAAA Pb1Tl0.12 Pb 1 Tl 0.12 1973 K 6.88 6.88 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104213 AAAAA Pd1Te1.02 Pd 1 Te 1.02 1973 NiAs "NiAs, B8[1]" K 2.56 2.56 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104220 AAAAA Pd2.8Se1 Pd 2.8 Se 1 1973 K 2.3 2.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104221 AAAAA like Pd4Te 00003180 Pd6Se1 Pd 6 Se 1 1973 K 0.66 0.66 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104223 AAAAA Pd1Sb1Te1 Pd 1 Sb 1 Te 1 1973 FeS2(pyrite) "FeS2(pyrite), C2" K 1.2 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104224 AAAAA Pd1Sb1Se1 Pd 1 Sb 1 Se 1 1973 FeS2(pyrite) "FeS2(pyrite), C2" K 1 1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104231 AAAAA Pd0.1Zr0.9 Pd 0.1 Zr 0.9 1973 Mg "Mg, A3" K 7.5 7.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104233 AAAAA Pd1.1Te1 Pd 1.1 Te 1 1973 NiAs "NiAs, B8[1]" K 4.07 4.07 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104234 AAAAA Pd1Te2.3 Pd 1 Te 2.3 1973 CdI2 "CdI2, C6" K 1.85 1.85 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104235 AAAAA Pd1Te2.1 Pd 1 Te 2.1 1973 CdI2 "CdI2, C6" K 1.89 1.89 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104236 552 Pd1Te2 Pd 1 Te 2 1965 CdI2 A 4.036 5.132 "CdI2, C6" K 1.69 1.69 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
104237 AAAAA Re0.64Ta0.36 Re 0.64 Ta 0.36 1973 alpha-Mn "alpha-Mn, A12" K 1.46 1.46 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104241 AAAAA Pt2Y8 Pt 2 Y 8 1973 K 0.9 0.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104242 AAAAA Pt0.5W0.5 Pt 0.5 W 0.5 1973 Cu "Cu, A1" K 1.45 1.45 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104243 AAAAA Pt1V3.5 Pt 1 V 3.5 1973 Cr3Si(A15) "Cr3Si, A15" K 1.26 1.26 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104244 AAAAA Pt1V3 Pt 1 V 3 1973 Cr3Si(A15) "Cr3Si, A15" K 2.87 2.87 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104245 AAAAA Pt1V2.5 Pt 1 V 2.5 1973 Cr3Si(A15) "Cr3Si, A15" K 1.36 1.36 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104246 AAAAA Pt0.02U0.98 Pt 0.02 U 0.98 1973 K 0.87 0.87 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104249 AAAAA Rh0.4Ta0.6 Rh 0.4 Ta 0.6 1973 sigma-CrFe "sigma-CrFe, D8[b]" K 2.35 2.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104250 AAAAA Rh2Sr1 Rh 2 Sr 1 1973 MgCu2(Laves) "MgCu2, C15" K 6.2 6.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104251 AAAAA Rh0.24Sc0.76 Rh 0.24 Sc 0.76 1973 K 0.88 0.88 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104253 AAAAA Re6Zr1 Re 6 Zr 1 1973 alpha-Mn "alpha-Mn, A12" K 7.4 7.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104256 AAAAA Re0.5W0.5 Re 0.5 W 0.5 1973 sigma-CrFe "sigma-CrFe, D8[b]" K 5.12 5.12 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104257 AAAAA Re0.6W00.4 Re 0.6 W 0.4 1973 K 6 6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104258 AAAAA Re0.92V0.08 Re 0.92 V 0.08 1973 Mg "Mg, A3" K 6.8 6.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104259 AAAAA Re0.76V0.24 Re 0.76 V 0.24 1973 sigma-CrFe "sigma-CrFe, D8[b]" K 4.52 4.52 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104260 AAAAA Re24Ti6 Re 24 Ti 6 1973 alpha-Mn "alpha-Mn, A12" K 6.6 6.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104261 AAAAA like Pd4Te 00003180 Rh0.005Zr1 Rh 0.005 Zr 1 1973 K 5.8 5.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104262 AAAAA Rh1Zr2 Rh 1 Zr 2 1973 CuAl2 "CuAl2, C16" K 10.8 10.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104266 AAAAA Rh1V3 Rh 1 V 3 1973 Cr3Si(A15) "Cr3Si, A15" K 0.38 0.38 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104267 AAAAA Rh0.02U0.98 Rh 0.02 U 0.98 1973 K 0.98 0.98 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104271 AAAAA Rh0.67Te0.33 Rh 0.67 Te 0.33 1973 K 0.49 0.49 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104273 AAAAA like Pd4Te 00003180 Sb1Sn1 Sb 1 Sn 1 1973 K 1.3 1.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104274 AAAAA Ru0.1Zr0.9 Ru 0.1 Zr 0.9 1973 Mg "Mg, A3" K 5.7 5.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104275 AAAAA Ru2Zr1 Ru 2 Zr 1 1973 MgZn2(Laves) "MgZn2, C14" K 1.84 1.84 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104278 AAAAA Ru0.45V0.55 Ru 0.45 V 0.55 1973 CsCl "CsCl, B2" K 4 4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104279 AAAAA Ru0.1Ti0.9 Ru 0.1 Ti 0.9 1973 K 3.5 3.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104280 AAAAA Ru0.05Ti0.95 Ru 0.05 Ti 0.95 1973 K 2.5 2.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104284 AAAAA like Pd4Te 00003180 Rh0.1Zr0.9 Rh 0.1 Zr 0.9 1973 K 9 9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104285 AAAAA Si0.9V3Ge0.1 Si 0.9 V 3 Ge 0.1 1973 Cr3Si(A15) "Cr3Si, A15" K 14 14 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104286 AAAAA Si1V2.7Cr0.3 Si 1 V 2.7 Cr 0.3 1973 Cr3Si(A15) "Cr3Si, A15" K 11.3 11.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104287 AAAAA Si10.9V3C0.1 Si 10.9 V 3 C 0.1 1973 Cr3Si(A15) "Cr3Si, A15" K 16.4 16.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104288 AAAAA Si10.9V3B0.1 Si 10.9 V 3 B 0.1 1973 Cr3Si(A15) "Cr3Si, A15" K 15.8 15.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104289 AAAAA Si10.9V3Al0.1 Si 10.9 V 3 Al 0.1 1973 Cr3Si(A15) "Cr3Si, A15" K 14.05 14.05 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104290 AAAAA Si1V3 Si 1 V 3 1973 Cr3Si(A15) "Cr3Si, A15" K 17.1 17.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104291 AAAAA like Pd4Te 00003180 Si2Th1 Si 2 Th 1 1973 K 2.4 2.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104292 AAAAA like Pd4Te 00003180 Si2Th1 Si 2 Th 1 1973 K 3.2 3.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104294 AAAAA Sb0.01V0.99 Sb 0.01 V 0.99 1973 W "W, A2" K 3.76 3.76 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104295 AAAAA Sb2Tl7 Sb 2 Tl 7 1973 K 5.2 5.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104296 AAAAA Sb1Ti3 Sb 1 Ti 3 1973 Cr3Si(A15) "Cr3Si, A15" K 5.8 5.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104298 AAAAA Sn1Ta2V1 Sn 1 Ta 2 V 1 1973 Cr3Si(A15) "Cr3Si, A15" K 3.7 3.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104299 AAAAA Sn1Ta1V2 Sn 1 Ta 1 V 2 1973 Cr3Si(A15) "Cr3Si, A15" K 2.8 2.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104300 AAAAA like Pd4Te 00003180 Sn1Ta3 Sn 1 Ta 3 1973 K 6.2 6.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104301 AAAAA like Pd4Te 00003180 Sn1Ta3 Sn 1 Ta 3 1973 K 8.35 8.35 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104302 AAAAA Sn0.174Ta0.826 Sn 0.174 Ta 0.826 1973 Cr3Si(A15) "Cr3Si, A15" K 6.5 6.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104304 AAAAA Si1V2.7Zr0.3 Si 1 V 2.7 Zr 0.3 1973 Cr3Si(A15) "Cr3Si, A15" K 13.2 13.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104305 AAAAA Si1V2.7Ti0.3 Si 1 V 2.7 Ti 0.3 1973 Cr3Si(A15) "Cr3Si, A15" K 10.9 10.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104306 AAAAA Si1V2.7Ru0.3 Si 1 V 2.7 Ru 0.3 1973 Cr3Si(A15) "Cr3Si, A15" K 2.9 2.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104307 AAAAA Si1V2.7Nb0.3 Si 1 V 2.7 Nb 0.3 1973 Cr3Si(A15) "Cr3Si, A15" K 12.8 12.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104308 AAAAA Mo0.3Si1 Mo 0.3 Si 1 1973 Cr3Si(A15) "Cr3Si, A15" K 11.7 11.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104309 AAAAA Ti0.5Zr0.5 Ti 0.5 Zr 0.5 1973 K 2 2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104310 AAAAA like Pd4Te 00003180 Ti0.5Zr0.5 Ti 0.5 Zr 0.5 1973 K 1.23 1.23 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104311 AAAAA Ti0.7V0.3 Ti 0.7 V 0.3 1973 cubic K 6.14 6.14 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104313 AAAAA Tc0.6W0.4 Tc 0.6 W 0.4 1973 K 7.88 7.88 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104314 AAAAA Tc0.5W0.5 Tc 0.5 W 0.5 1973 K 7.52 7.52 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104315 AAAAA Tc0.1W0.9 Tc 0.1 W 0.9 1973 cubic K 1.25 1.25 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104316 AAAAA Ta0.8W0.2 Ta 0.8 W 0.2 1973 W "W, A2" K 1.2 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104317 AAAAA Ta0.05V0.095 Ta 0.05 V 0.095 1973 W "W, A2" K 4.3 4.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104318 AAAAA Ta0.05Ti0.95 Ta 0.05 Ti 0.95 1973 hexagonal K 2.9 2.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104319 AAAAA Ta0.025Ti0.975 Ta 0.025 Ti 0.975 1973 hexagonal K 1.3 1.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104320 AAAAA Sn0.02V0.98 Sn 0.02 V 0.98 1973 W "W, A2" K 2.87 2.87 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104322 AAAAA Bi0.52Pb0.32Sn0.16 Bi 0.52 Pb 0.32 Sn 0.16 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104323 AAAAA Bi0.02Pb0.98 Bi 0.02 Pb 0.98 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104324 AAAAA Bi0.094Pb0.901 Bi 0.094 Pb 0.901 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104325 AAAAA Bi7.5Pb92.5 Bi 7.5 Pb 92.5 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104326 AAAAA Bi0.56Pb0.44 Bi 0.56 Pb 0.44 1973 K 8.8 8.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104327 AAAAA Bi0.5Cd0.1Pb0.27Sn0.13 Bi 0.5 Cd 0.1 Pb 0.27 Sn 0.13 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104328 AAAAA Al1Nb3 Al 1 Nb 3 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104329 AAAAA Al2C1Mo3 Al 2 C 1 Mo 3 1973 K 9.8 9.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104330 AAAAA W2Zr1 W 2 Zr 1 1973 MgCu2(Laves) "MgCu2, C15" K 2.16 2.16 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104331 AAAAA V0.26Zr0.74 V 0.26 Zr 0.74 1973 K 5.9 5.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104333 AAAAA Ga1V1.95 Ga 1 V 1.95 1973 K 5.3 5.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104334 AAAAA like Pd4Te 00003180 Ga1Sb1 Ga 1 Sb 1 1973 K 4.24 4.24 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104336 AAAAA Cr0.1Ti0.3V0.6 Cr 0.1 Ti 0.3 V 0.6 1973 K 5.6 5.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104337 AAAAA Cd0.05Hg0.95 Cd 0.05 Hg 0.95 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104338 AAAAA like Pd4Te 00003180 Cd0.1Hg0.9 Cd 0.1 Hg 0.9 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104339 AAAAA C1Ta1 C 1 Ta 1 1973 K 9 9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104340 AAAAA C1Nb0.4Ta0.6 C 1 Nb 0.4 Ta 0.6 1973 K 0.01 0.01 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104341 AAAAA C1Nb1 C 1 Nb 1 1973 K 8 8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104342 AAAAA C0.44M0.56 C 0.44 M 0.56 1973 K 12.5 12.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104343 AAAAA C8K1 C 8 K 1 1973 K 0.39 0.39 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104344 AAAAA like Pd4Te 00003180 C8K1 C 8 K 1 1973 K 0.55 0.55 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104345 AAAAA In1Te1.002 In 1 Te 1.002 1973 K 3.5 3.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104346 AAAAA In0.17Pb0.83 In 0.17 Pb 0.83 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104347 AAAAA In0.913Pb0.087 In 0.913 Pb 0.087 1973 K 4.2 4.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104348 AAAAA In0.94Pb0.06 In 0.94 Pb 0.06 1973 K 3.9 3.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104349 AAAAA In0.96Pb0.04 In 0.96 Pb 0.04 1973 K 3.68 3.68 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104350 AAAAA In0.98Pb0.02 In 0.98 Pb 0.02 1973 K 3.45 3.45 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104351 AAAAA Hg0.15Pb0.85 Hg 0.15 Pb 0.85 1973 K 6.75 6.75 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104352 AAAAA Hg0.101Pb0.899 Hg 0.101 Pb 0.899 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104353 AAAAA Hg0.05Pb0.95 Hg 0.05 Pb 0.95 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104354 AAAAA Ga1V4.5 Ga 1 V 4.5 1973 K 9.15 9.15 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104355 AAAAA Ga1V3 Ga 1 V 3 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104356 AAAAA Ga1V2.1 Ga 1 V 2.1 1973 K 6.3 6.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104357 AAAAA Mo0.913Ti0.037 Mo 0.913 Ti 0.037 1973 K 2.95 2.95 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104358 AAAAA Mo0.16Ti0.84 Mo 0.16 Ti 0.84 1973 K 4.18 4.18 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104359 AAAAA Mo0.5Tc0.5 Mo 0.5 Tc 0.5 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104360 AAAAA Mo0.5Re0.395 Mo 0.5 Re 0.395 1973 K 10.6 10.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104361 AAAAA Mo0.52Re0.48 Mo 0.52 Re 0.48 1973 K 11.1 11.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104363 AAAAA La3S4 La 3 S 4 1973 K 6.5 6.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104365 AAAAA In0.75Tl0.25 In 0.75 Tl 0.25 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104366 AAAAA In0.83Tl0.17 In 0.83 Tl 0.17 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104367 AAAAA In0.9Tl0.1 In 0.9 Tl 0.1 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104368 AAAAA In0.95Tl0.05 In 0.95 Tl 0.05 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104369 AAAAA Nb1C0.9N0.1 Nb 1 C 0.9 N 0.1 1973 K 16.97 16.97 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104370 AAAAA Nb1C0.3N0.7 Nb 1 C 0.3 N 0.7 1973 K 17.8 17.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104371 AAAAA Nb1C0.28N0.78 Nb 1 C 0.28 N 0.78 1973 K 17.9 17.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104372 AAAAA Si22.5V75 Si 22.5 V 75 1973 K 15.8 15.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104373 AAAAA Nb1Sc1 Nb 1 Sc 1 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104374 AAAAA Na0.016Pb0.984 Na 0.016 Pb 0.984 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104375 AAAAA Na0.086Pb0.914 Na 0.086 Pb 0.914 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104376 AAAAA N0.93Nb0.85Zr0.15 N 0.93 Nb 0.85 Zr 0.15 1973 K 13.8 13.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104377 AAAAA like Pd4Te 00003180 N1Nb1 N 1 Nb 1 1973 K 16.1 16.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104378 AAAAA N12.8Nb1 N 12.8 Nb 1 1973 K 16.1 16.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104379 AAAAA Mo0.17Zr0.53 Mo 0.17 Zr 0.53 1973 K SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104380 AAAAA Mo0.1U0.9 Mo 0.1 U 0.9 1973 K 1.85 1.85 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104381 AAAAA Nb25Ti70Zr5 Nb 25 Ti 70 Zr 5 1973 K 7.5 7.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104382 AAAAA Nb25Ti74Zr1 Nb 25 Ti 74 Zr 1 1973 K 7.4 7.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104383 AAAAA Nb25Ti75 Nb 25 Ti 75 1973 K 7.2 7.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104384 AAAAA Nb0.97Cr0.03N1 Nb 0.97 Cr 0.03 N 1 1973 K 1.2 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104385 AAAAA Nb0.99Cr0.01N1 Nb 0.99 Cr 0.01 N 1 1973 K 1.2 1.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104386 AAAAA Hf1Ti1C1 Hf 1 Ti 1 C 1 1973 K 1.38 1.38 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104387 AAAAA Hf1Zr1C1 Hf 1 Zr 1 C 1 1973 K 1.68 1.68 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104388 AAAAA Ti0.5W0.5C1 Ti 0.5 W 0.5 C 1 1973 K 6.7 6.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104389 AAAAA Hf1Nb1C1 Hf 1 Nb 1 C 1 1973 K 7.5 7.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104390 AAAAA Hf1Ta1C1 Hf 1 Ta 1 C 1 1973 K 7.9 7.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104391 AAAAA Nb0.8W0.2C1 Nb 0.8 W 0.2 C 1 1973 K 12.7 12.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104392 AAAAA Mo0.95Hf0.05C0.75 Mo 0.95 Hf 0.05 C 0.75 1973 K 14.2 14.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104393 AAAAA Nb50Zr45Hf5 Nb 50 Zr 45 Hf 5 1973 K 10 10 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104394 AAAAA Nb50Ti25Zr25 Nb 50 Ti 25 Zr 25 1973 K 9.7 9.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104395 AAAAA Nb50Ti10Zr40 Nb 50 Ti 10 Zr 40 1973 K 9.8 9.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104396 AAAAA Nb50Ti5Zr45 Nb 50 Ti 5 Zr 45 1973 K 10.2 10.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104397 AAAAA Nb50Zr50 Nb 50 Zr 50 1973 K 10.2 10.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104398 AAAAA Nb25Zr75 Nb 25 Zr 75 1973 K 8.3 8.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104399 AAAAA Nb25Ti10Zr65 Nb 25 Ti 10 Zr 65 1973 K 7.5 7.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104400 AAAAA Nb25Ti20Zr55 Nb 25 Ti 20 Zr 55 1973 K 7.5 7.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104401 AAAAA Nb25Ti30Zr45 Nb 25 Ti 30 Zr 45 1973 K 7.7 7.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104402 AAAAA Nb25Ti40Zr35 Nb 25 Ti 40 Zr 35 1973 K 7.7 7.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104403 AAAAA Nb25Ti50Zr25 Nb 25 Ti 50 Zr 25 1973 K 7.2 7.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104404 AAAAA Nb25Ti65Zr10 Nb 25 Ti 65 Zr 10 1973 K 7.7 7.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104405 SSC0520837 H0.827Pd1 H 0.827 Pd 1 1984 K 1.449 1.449 SUPERCONDUCTIVITY OF PALLADIUM TRITIDE 1984 12 ISOTOPE EFFECT "SANDIA NATIONAL LABORATORIES ALBUQUERQUE,NM" "SOLID STATE COMMUN.,52(1984)837" "PD,H,D,T"
104406 SSC0520837 H0.886Pd1 H 0.886 Pd 1 1984 K 3.478 3.478 SUPERCONDUCTIVITY OF PALLADIUM TRITIDE 1984 12 ISOTOPE EFFECT "SANDIA NATIONAL LABORATORIES ALBUQUERQUE,NM" "SOLID STATE COMMUN.,52(1984)837" "PD,H,D,T"
104407 AAAAA Nb5V50Ti45 Nb 5 V 50 Ti 45 1973 K 7.4 7.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104408 AAAAA Nb1V50Ti49 Nb 1 V 50 Ti 49 1973 K 7.5 7.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104409 AAAAA Ti50V50 Ti 50 V 50 1973 K 7.8 7.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104410 AAAAA Nb49.8Zr24.45Mo25.75 Nb 49.8 Zr 24.45 Mo 25.75 1973 K 5.3 5.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104411 AAAAA Nb50.2Zr39.4Mo10.4 Nb 50.2 Zr 39.4 Mo 10.4 1973 K 8.8 8.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104412 AAAAA Nb50.35Zr44.45Mo5.2 Nb 50.35 Zr 44.45 Mo 5.2 1973 K 9.9 9.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104413 AAAAA Nb50.9Zr48.05Mo1.05 Nb 50.9 Zr 48.05 Mo 1.05 1973 K 9.8 9.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104414 AAAAA Nb40.6Zr19.9Ta39.5 Nb 40.6 Zr 19.9 Ta 39.5 1973 K 9.9 9.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104415 AAAAA Nb46Zr36.1Ta17.9 Nb 46 Zr 36.1 Ta 17.9 1973 K 10.3 10.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104416 AAAAA Nb48.15Zr42.5Ta9.35 Nb 48.15 Zr 42.5 Ta 9.35 1973 K 10.4 10.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104417 AAAAA Nb50Zr25Hf25 Nb 50 Zr 25 Hf 25 1973 K 10.1 10.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104418 AAAAA Nb50Zr40Hf10 Nb 50 Zr 40 Hf 10 1973 K 10.1 10.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104419 AAAAA Nb20Ti75Ta5 Nb 20 Ti 75 Ta 5 1973 K 7.1 7.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104420 AAAAA Nb24Ti75Ta1 Nb 24 Ti 75 Ta 1 1973 K 7.4 7.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104421 AAAAA Nb25Ti50Ta25 Nb 25 Ti 50 Ta 25 1973 K 8.6 8.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104422 AAAAA Nb25Ti65Ta10 Nb 25 Ti 65 Ta 10 1973 K 8.4 8.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104423 AAAAA Nb25Ti70Ta5 Nb 25 Ti 70 Ta 5 1973 K 7.85 7.85 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104424 AAAAA Nb25Ti74Ta1 Nb 25 Ti 74 Ta 1 1973 K 7.55 7.55 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104425 AAAAA Nb25Ti75 Nb 25 Ti 75 1973 K 7.2 7.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104426 AAAAA Nb25V25Ti50 Nb 25 V 25 Ti 50 1973 K 7.3 7.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104427 AAAAA Nb25V10Ti65 Nb 25 V 10 Ti 65 1973 K 8 8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104428 AAAAA Nb25V5Ti70 Nb 25 V 5 Ti 70 1973 K 7.7 7.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104429 AAAAA Nb25Ti75 Nb 25 Ti 75 1973 K 7.2 7.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104430 AAAAA Nb10V50Ti40 Nb 10 V 50 Ti 40 1973 K 7.1 7.1 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104431 AAAAA V50Ti49.5Ta0.5 V 50 Ti 49.5 Ta 0.5 1973 K 4.505 4.505 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104432 AAAAA Ti50V50 Ti 50 V 50 1973 K 4.5 4.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104433 AAAAA V50Ti40Zr10 V 50 Ti 40 Zr 10 1973 K 5.5 5.5 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104434 AAAAA V50Ti45Zr5 V 50 Ti 45 Zr 5 1973 K 7 7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104435 AAAAA V50Ti49Zr1 V 50 Ti 49 Zr 1 1973 K 7.7 7.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104436 AAAAA Ti50V50 Ti 50 V 50 1973 K 7.8 7.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104437 AAAAA Nb25Ti50Mo25 Nb 25 Ti 50 Mo 25 1973 K 4.3 4.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104438 AAAAA Nb25Ti65Mo10 Nb 25 Ti 65 Mo 10 1973 K 6.8 6.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104439 AAAAA Nb25Ti70Mo5 Nb 25 Ti 70 Mo 5 1973 K 7.4 7.4 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104440 AAAAA Nb25Ti74Mo1 Nb 25 Ti 74 Mo 1 1973 K 7.3 7.3 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104441 AAAAA Ta25Ti75 Ta 25 Ti 75 1973 K 6 6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104442 AAAAA Nb15Ti75Ta10 Nb 15 Ti 75 Ta 10 1973 K 6.7 6.7 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104443 PR0520839 dTc/dP in K/GPa. Yb1Pd2Sn1 Yb 1 Pd 2 Sn 1 1984 Heusler A 6.657 "Cu2MnAl, L2<1>" K 1.82 1.82 K/GPa 0.193 118 PRESSURE EFFECT ON THE SUPERCONDUCTIVITY OF TERNARY RARE EARTH PALLADIUM HEUSLER ALLOYS 1984 12 "PRESSURE EFFECT ,HEUSLER ALLOYS" "AMES LABORATORY-USDOE AND DEPARTMENT OF PHYSICS IOWA STATE UNIVERSITY,AMES,IOWA,USA" "SOLID STATE COMMUN.,52(1984)839" "SC,Y,TM,YB,LU,PD,SN,PB"
104444 PR0520839 dTc/dP in K/GPa. Tm1Pd2Sn1 Tm 1 Pd 2 Sn 1 1984 Heusler A 6.668 "Cu2MnAl, L2<1>" K 1.92 1.92 K/GPa 0.262 120 PRESSURE EFFECT ON THE SUPERCONDUCTIVITY OF TERNARY RARE EARTH PALLADIUM HEUSLER ALLOYS 1984 12 "PRESSURE EFFECT ,HEUSLER ALLOYS" "AMES LABORATORY-USDOE AND DEPARTMENT OF PHYSICS IOWA STATE UNIVERSITY,AMES,IOWA,USA" "SOLID STATE COMMUN.,52(1984)839" "SC,Y,TM,YB,LU,PD,SN,PB"
104445 PR0520839 dTc/dP in K/GPa. Y1Pd2Pb1 Y 1 Pd 2 Pb 1 1984 Heusler A 6.786 "Cu2MnAl, L2<1>" K 4.13 4.13 K/GPa 0.195 198 PRESSURE EFFECT ON THE SUPERCONDUCTIVITY OF TERNARY RARE EARTH PALLADIUM HEUSLER ALLOYS 1984 12 "PRESSURE EFFECT ,HEUSLER ALLOYS" "AMES LABORATORY-USDOE AND DEPARTMENT OF PHYSICS IOWA STATE UNIVERSITY,AMES,IOWA,USA" "SOLID STATE COMMUN.,52(1984)839" "SC,Y,TM,YB,LU,PD,SN,PB"
104446 PR0520839 dTc/dP in K/GPa. Y1Pd2Sn1 Y 1 Pd 2 Sn 1 1984 Heusler A 6.719 "Cu2MnAl, L2<1>" K 5.02 5.02 K/GPa 0.226 165 PRESSURE EFFECT ON THE SUPERCONDUCTIVITY OF TERNARY RARE EARTH PALLADIUM HEUSLER ALLOYS 1984 12 "PRESSURE EFFECT ,HEUSLER ALLOYS" "AMES LABORATORY-USDOE AND DEPARTMENT OF PHYSICS IOWA STATE UNIVERSITY,AMES,IOWA,USA" "SOLID STATE COMMUN.,52(1984)839" "SC,Y,TM,YB,LU,PD,SN,PB"
104447 PR0520839 dTc/dP in K/GPa. Sc1Pd2Sn1 Sc 1 Pd 2 Sn 1 1984 Heusler A 6.509 "Cu2MnAl, L2<1>" K 2.29 2.29 K/GPa 0.145 232 PRESSURE EFFECT ON THE SUPERCONDUCTIVITY OF TERNARY RARE EARTH PALLADIUM HEUSLER ALLOYS 1984 12 "PRESSURE EFFECT ,HEUSLER ALLOYS" "AMES LABORATORY-USDOE AND DEPARTMENT OF PHYSICS IOWA STATE UNIVERSITY,AMES,IOWA,USA" "SOLID STATE COMMUN.,52(1984)839" "SC,Y,TM,YB,LU,PD,SN,PB"
104448 AAAAA V50Ti40Mo10 V 50 Ti 40 Mo 10 1973 K 6.2 6.2 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104449 AAAAA V50Ti45Mo5 V 50 Ti 45 Mo 5 1973 K 6.9 6.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104450 AAAAA V50Ti49Mo1 V 50 Ti 49 Mo 1 1973 K 6.9 6.9 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104451 AAAAA Ti50V50 Ti 50 V 50 1973 K 7.8 7.8 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104452 AAAAA V50Ti40Ta10 V 50 Ti 40 Ta 10 1973 K 4.6 4.6 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104453 AAAAA V50Ti45Ta5 V 50 Ti 45 Ta 5 1973 K 4.55 4.55 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104454 AAAAA V50Ti49Ta1 V 50 Ti 49 Ta 1 1973 K 4.51 4.51 SUPERCONDUCTING MATERIALS 1973 "A.A.BAIKOV INSTITUTE OF METALLURGY,ACADEMY OF SCIENCES OF THEUSSR,MOSKOW," PRENUM PRESS 1973
104455 SSC0520837 H0.983Pd1 H 0.983 Pd 1 1984 K 7.355 7.355 SUPERCONDUCTIVITY OF PALLADIUM TRITIDE 1984 12 ISOTOPE EFFECT "SANDIA NATIONAL LABORATORIES ALBUQUERQUE,NM" "SOLID STATE COMMUN.,52(1984)837" "PD,H,D,T"
104456 SSC0520837 H0.963Pd1 H 0.963 Pd 1 1984 K 6.377 6.377 SUPERCONDUCTIVITY OF PALLADIUM TRITIDE 1984 12 ISOTOPE EFFECT "SANDIA NATIONAL LABORATORIES ALBUQUERQUE,NM" "SOLID STATE COMMUN.,52(1984)837" "PD,H,D,T"
104457 SSC0520837 H0.938Pd1 H 0.938 Pd 1 1984 K 5.523 5.523 SUPERCONDUCTIVITY OF PALLADIUM TRITIDE 1984 12 ISOTOPE EFFECT "SANDIA NATIONAL LABORATORIES ALBUQUERQUE,NM" "SOLID STATE COMMUN.,52(1984)837" "PD,H,D,T"
104458 SSC0520837 H0.886Pd1 H 0.886 Pd 1 1984 K 3.478 3.478 SUPERCONDUCTIVITY OF PALLADIUM TRITIDE 1984 12 ISOTOPE EFFECT "SANDIA NATIONAL LABORATORIES ALBUQUERQUE,NM" "SOLID STATE COMMUN.,52(1984)837" "PD,H,D,T"
104459 SSC0520837 H0.827Pd1 H 0.827 Pd 1 1984 K 1.449 1.449 SUPERCONDUCTIVITY OF PALLADIUM TRITIDE 1984 12 ISOTOPE EFFECT "SANDIA NATIONAL LABORATORIES ALBUQUERQUE,NM" "SOLID STATE COMMUN.,52(1984)837" "PD,H,D,T"
104460 SSC0520837 D0.952Pd1 D 0.952 Pd 1 1984 K 7.536 7.536 SUPERCONDUCTIVITY OF PALLADIUM TRITIDE 1984 12 ISOTOPE EFFECT "SANDIA NATIONAL LABORATORIES ALBUQUERQUE,NM" "SOLID STATE COMMUN.,52(1984)837" "PD,H,D,T"
104461 SSC0520837 D0.85Pd1 D 0.85 Pd 1 1984 K 3.558 3.558 SUPERCONDUCTIVITY OF PALLADIUM TRITIDE 1984 12 ISOTOPE EFFECT "SANDIA NATIONAL LABORATORIES ALBUQUERQUE,NM" "SOLID STATE COMMUN.,52(1984)837" "PD,H,D,T"
104462 SSC0520837 D0.77Pd1 D 0.77 Pd 1 1984 K 1.449 1.449 SUPERCONDUCTIVITY OF PALLADIUM TRITIDE 1984 12 ISOTOPE EFFECT "SANDIA NATIONAL LABORATORIES ALBUQUERQUE,NM" "SOLID STATE COMMUN.,52(1984)837" "PD,H,D,T"
104463 SSC0520837 Pd1T0.81 Pd 1 T 0.81 1984 K 4.087 4.087 SUPERCONDUCTIVITY OF PALLADIUM TRITIDE 1984 12 ISOTOPE EFFECT "SANDIA NATIONAL LABORATORIES ALBUQUERQUE,NM" "SOLID STATE COMMUN.,52(1984)837" "PD,H,D,T"
104464 SSC0520837 Pd1T0.786 Pd 1 T 0.786 1984 K 2.493 2.493 SUPERCONDUCTIVITY OF PALLADIUM TRITIDE 1984 12 ISOTOPE EFFECT "SANDIA NATIONAL LABORATORIES ALBUQUERQUE,NM" "SOLID STATE COMMUN.,52(1984)837" "PD,H,D,T"
104465 SSC0520837 Pd1T0.734 Pd 1 T 0.734 1984 K 1.449 1.449 SUPERCONDUCTIVITY OF PALLADIUM TRITIDE 1984 12 ISOTOPE EFFECT "SANDIA NATIONAL LABORATORIES ALBUQUERQUE,NM" "SOLID STATE COMMUN.,52(1984)837" "PD,H,D,T"
104466 PR0520839 dTc/dP in K/GPa. Lu1Pd2Sn1 Lu 1 Pd 2 Sn 1 1984 Heusler A 6.644 "Cu2MnAl, L2<1>" K 3.02 3.02 K/GPa 0.168 118 PRESSURE EFFECT ON THE SUPERCONDUCTIVITY OF TERNARY RARE EARTH PALLADIUM HEUSLER ALLOYS 1984 12 "PRESSURE EFFECT ,HEUSLER ALLOYS" "AMES LABORATORY-USDOE AND DEPARTMENT OF PHYSICS IOWA STATE UNIVERSITY,AMES,IOWA,USA" "SOLID STATE COMMUN.,52(1984)839" "SC,Y,TM,YB,LU,PD,SN,PB"
104467 MAT0130743 Cu1.3Mo6S8 Cu 1.3 Mo 6 S 8 1978 5.64 kg/mm2 261 Chevrel A 9.479 10.34 K 10.3 10.3 "Single crystals of Chevrel-type compounds: growth, stoichimetry and electrical resistivity" 1978 "Mat.Res.Bull., 13(1978)743"
104468 MAT0130743 Cu2Mo6S8 Cu 2 Mo 6 S 8 1978 5.82 kg/mm2 276 Chevrel A 9.605 10.225 K 10.8 10.8 single crystals grown by Bridgman-Stockbarger technique. "Single crystals of Chevrel-type compounds: growth, stoichimetry and electrical resistivity" 1978 "Mat.Res.Bull., 13(1978)743"
104469 PRL0663079 thickness = 1-2 micron.m. 1-1.5 % As-rich GaAs by x-ray analysis. SC observed by microwave absorption. LT-GaAs As1Ga1 As 1 Ga 1 4 1991 K 10 10 samples were grown by MBE at low temp (200C). Evidence for superconductivity in low-temperature-grown GaAs 1991 6 "DEPARTMENT PF MATERIALS SCIENCE AND MINERAL ENGINEERING,UNIVERSITY OF CALOFORNIA,BERKELEY,CALIFORNIA 94720" PHYS.REV.LETT.66(1991)3079 "GA,ASS"
104470 MAT0130743 Cu3Mo6S8 Cu3Mo6S8 Cu 3 Mo 6 S 8 1978 6.05 Chevrel A 9.72 10.213 K 5.5 5.5 "Single crystals of Chevrel-type compounds: growth, stoichimetry and electrical resistivity" 1978 "Mat.Res.Bull., 13(1978)743"
105006 3SC800089 "Maki's parameter(alpha)=2.1, e-p coupling=1.15" SnMo6S8 Sn1Mo6S8 Sn 1 Mo 6 S 8 1980 Chevrel K 10.5 10.5 280 39 1980 "Proc.Int'l Conf. on Ternary S/C,Lake Geneva,USA,1980,North Holland"
105007 3SC800079 "Maki's parameter(alpha)=1.3, e-p coupling=0.8" Mo6Se8 Mo6Se8 Mo 6 Se 8 1980 Chevrel K 6.3 6.3 110 23 Ternary Superconductors 1980 "Proc.Int'l Conf. on Ternary S/C,Lake Geneva,USA,1980,North Holland"
105008 3SC800079 "Maki's parameter(alpha)=1.4, e-p coupling=1.0" SnFe0.05Mo6S8 Sn1Fe0.05Mo6S8 Sn 1 Fe 0.05 Mo 6 S 8 1980 Chevrel K 7.05 7.05 60 26 Ternary Superconductors 1980 "Proc.Int'l Conf. on Ternary S/C,Lake Geneva,USA,1980,North Holland"
105009 3SC800079 "Maki's parameter(alpha)=3.2, e-p coupling=1.25" PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 1980 Chevrel K 12.7 12.7 530 60 Ternary Superconductors 1980 "Proc.Int'l Conf. on Ternary S/C,Lake Geneva,USA,1980,North Holland"
105010 3SC800079 "Maki's parameter(alpha)=3.0, e-p coupling=1.1" "(Sn,Eu)Mo6S8" Sn0.5Eu0.5Mo6S8 Sn 0.5 Eu 0.5 Mo 6 S 8 1980 Chevrel K 10.2 10.2 410 56 Ternary Superconductors 1980 "Proc.Int'l Conf. on Ternary S/C,Lake Geneva,USA,1980,North Holland"
105011 3SC800083 "R(300K)=61 microOhm.cm, RH(300K)=3.8 E-4 cm3/C" CuxMo6S8 Cu1.6Mo6S8 Cu 1.6 Mo 6 S 8 3 1980 Chevrel K 11.3 11.3 floating zone 1980 "Proc.Int'l Conf. on Ternary S/C,Lake Geneva,USA,1980,North Holland"
105012 3SC800083 "R(300K)=275 microOhm.cm, RH(300K)=5.5 E-4 cm3/C" CuxMo6S8 Cu2.6Mo6S8 Cu 2.6 Mo 6 S 8 3 1980 Chevrel K 10.5 10.5 floating zone 1980 "Proc.Int'l Conf. on Ternary S/C,Lake Geneva,USA,1980,North Holland"
105013 3SC800083 "R(300K)=190 microOhm.cm, RH(300K)=6.0 E-4 cm3/C" CuxMo6S8 Cu2.6Mo6S8 Cu 2.6 Mo 6 S 8 3 1980 Chevrel K 8 8 floating zone 1980 "Proc.Int'l Conf. on Ternary S/C,Lake Geneva,USA,1980,North Holland"
105014 3SC800083 "R(300K)=100 microOhm.cm, RH(300K)=8.0E-4 cm3/C" CuxMo6S8 Cu3.2Mo6S8 Cu 3.2 Mo 6 S 8 3 1980 Chevrel K 8.5 8.5 floating zone 1980 "Proc.Int'l Conf. on Ternary S/C,Lake Geneva,USA,1980,North Holland"
105015 3SC800083 "R(300K)=156 microOhm.cm, RH(300K)=9.0E-4 cm3/C" CuxMo6S8 Cu3.2Mo6S8 Cu 3.2 Mo 6 S 8 3 1980 Chevrel K 7.6 7.6 13 floating zone 1980 "Proc.Int'l Conf. on Ternary S/C,Lake Geneva,USA,1980,North Holland"
105016 PHC2330367 Hirr=81koe YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 1994 LuNi2B2C A 3.524 10.535 K 15.5 15.5 83.5 47.6 MHC5016 100 3500 "Ar arc-melting-ANN(950C,several days)" Magnetic properties of YNi2B2C superconductor 1994 11 "Physica C.,233(1994) 367-372" "Y,B,Ni,C"
105017 PR04912384 RESRT 22micro Ohm.cm LaPt2B2C La1Pt2B2C1 La 1 Pt 2 B 2 C 1 1994 LuNi2B2C A 3.868 10.705 K 10.5 10.5 2 220 110 1650 mj/mol.K2 4.9 arc melting Superconductivity in RPt2B2C 1994 "Phys.Rev.B, 49(1994)12384"
105018 PR04912384 LaPt2B2C La1Pt2.2B2C1 La 1 Pt 2.2 B 2 C 1 1994 LuNi2B2C K 6.5 6.5 2 65 90 3550 mj/mol.K2 4.8 "ANN(1275C,3days)" Superconductivity in RPt2B2C 1994 "Phys.Rev.B, 49(1994)12384"
105019 PR04912384 PrPt2B2C Pr1Pt2B2C1 Pr 1 Pt 2 B 2 C 1 1994 K 6 6 2 Superconductivity in RPt2B2C 1994 "Phys.Rev.B, 49(1994)12384"
105020 PR04912384 broad trunsition YPt2B2C Y1Pt2B2C1 Y 1 Pt 2 B 2 C 1 1994 K 10.5 10.5 2 Superconductivity in RPt2B2C 1994 "Phys.Rev.B, 49(1994)12384"
105021 NAT3720245 RESRT 70micro Ohm.cm La3Ni2B2N3 La3Ni2B2N3 La 3 Ni 2 B 2 N 3 1 1994 A 3.721 20.516 K 12.3 12.3 2 "arc-melted La3Ni2B2 was arc-melted under N2-then ANN(1050C,2days)" Superconductivity in lanthanum nickel boro-nitride 1994 11 "AT&T Bell Laboratories,Murray Hill,New Jersey 07974,USA" "NATURE.,372(1994)245" "La,Ni,B,N"
105022 NAT3720245 LaNiBN La1Ni1B1N1 La 1 Ni 1 B 1 N 1 1 1994 A 3.725 7.59 K 4.2 "by arc-melting LaNiB under N2,then ANN(950,1000,1050,1100,1150,1200C)" Superconductivity in lanthanum nickel boro-nitride 1994 11 "AT&T Bell Laboratories,Murray Hill,New Jersey 07974,USA" "NATURE.,372(1994)245" "La,Ni,B,N"
105023 JPS0632853 Moment 3.31/f.u UNi2B2C U1Ni2B2C1 U 1 Ni 2 B 2 C 1 1994 -280 218 LuNi2B2C A 3.513 10.54 K 4.2 "Ar arc-melting,ANN(1000-1100C,4days in Ar)" "Superconductivity in ThT2B2C and Strong Magnetism in UT2B2C(T=Ni,Rh and Pt)" 1994 8 "Faculty of Integrated Arts and Sciences,Hiroshima University,Kagamiyama 1-7-1,Higashi-Hiroshiima 724" "J. Phys. Soc.Japan.,632(1994)2853" "Th,B,C,V,Ni,Rh,Pt"
105024 JPS0632853 ferro mag Curie=185KMoment 2.59/f.u URh2B2C U1Rh2B2C1 U 1 Rh 2 B 2 C 1 1994 153 A 3.782 10.214 K 4.2 "Ar arc-melting, ANN(1000-1100C,4days in Ar)" "Superconductivity in ThT2B2C and Strong Magnetism in UT2B2C(T=Ni,Rh and Pt)" 1994 8 "Faculty of Integrated Arts and Sciences,Hiroshima University,Kagamiyama 1-7-1,Higashi-Hiroshiima 724" "J. Phys. Soc.Japan.,632(1994)2853" "Th,B,C,V,Ni,Rh,Pt"
105025 JPS0632853 ThNi2B2C Th1Ni2B2C1 Th 1 Ni 2 B 2 C 1 1994 LuNi2B2C A 3.695 10.197 K 6.5 6.5 "Ar arc-melting, ANN(1000-1100C, 4days in Ar)" "Superconductivity in ThT2B2C and Strong Magnetism in UT2B2C(T=Ni,Rh and Pt)" 1994 8 "Faculty of Integrated Arts and Sciences,Hiroshima University,Kagamiyama 1-7-1,Higashi-Hiroshiima 724" "J. Phys. Soc.Japan.,632(1994)2853" "Th,B,C,V,Ni,Rh,Pt"
105026 JPS0632853 ThRh2B2C Th1Rh2B2C1 Th 1 Rh 2 B 2 C 1 1994 A 3.863 10.177 K 4.2 "Superconductivity in ThT2B2C and Strong Magnetism in UT2B2C(T=Ni,Rh and Pt)" 1994 8 "Faculty of Integrated Arts and Sciences,Hiroshima University,Kagamiyama 1-7-1,Higashi-Hiroshiima 724" "J. Phys. Soc.Japan.,632(1994)2853" "Th,B,C,V,Ni,Rh,Pt"
105027 JPS0632853 ThPt2B2C Th1Pt2B2C1 Th 1 Pt 2 B 2 C 1 1994 A 3.828 10.853 K 6.7 6.7 "Superconductivity in ThT2B2C and Strong Magnetism in UT2B2C(T=Ni,Rh and Pt)" 1994 8 "Faculty of Integrated Arts and Sciences,Hiroshima University,Kagamiyama 1-7-1,Higashi-Hiroshiima 724" "J. Phys. Soc.Japan.,632(1994)2853" "Th,B,C,V,Ni,Rh,Pt"
105028 PR05100420 RESRT 139.6 micro Ohm.cmDENS 5.53g/cm3 ThNi2B2C Th1Ni2B2C1 Th 1 Ni 2 B 2 C 1 1995 LuNi2B2C A 3.683 10.22 K 8.4 8.4 900 1 230 860 arc-melting "Systematic variation of superconductivity for the quaternary borocarbide system RNi2B2C(R=Sc,Y,La,Th,U, or a lanthanide)" 1995 1 "Phys.Rev.B,51(1995) 420-423" "Ni,B,C,Sc,Y,La,Th,U,R"
105029 PR05100420 multi phaseRESRT 111.3 micro Ohm.cm UNi2B2C U1Ni2B2C1 U 1 Ni 2 B 2 C 1 1995 LuNi2B2C A 3.486 10.7 K 2 "Systematic variation of superconductivity for the quaternary borocarbide system RNi2B2C(R=Sc,Y,La,Th,U, or a lanthanide)" 1995 1 "Phys.Rev.B,51(1995) 420-423" "Ni,B,C,Sc,Y,La,Th,U,R"
105030 PR05100420 La0.5Th0.5Ni2B2C La0.5Th0.5Ni2B2C1 La 0.5 Th 0.5 Ni 2 B 2 C 1 1995 LuNi2B2C A 3.746 9.929 K 3.9 3.9 "Systematic variation of superconductivity for the quaternary borocarbide system RNi2B2C(R=Sc,Y,La,Th,U, or a lanthanide)" 1995 1 "Phys.Rev.B,51(1995) 420-423" "Ni,B,C,Sc,Y,La,Th,U,R"
105031 PR05100420 Sc0.5Lu0.5Ni2C2 Sc0.5Lu0.5Ni2B2C1 Sc 0.5 Lu 0.5 Ni 2 B 2 C 1 1995 LuNi2B2C A 3.441 10.66 K 15.6 15.6 "Systematic variation of superconductivity for the quaternary borocarbide system RNi2B2C(R=Sc,Y,La,Th,U, or a lanthanide)" 1995 1 "Phys.Rev.B,51(1995) 420-423" "Ni,B,C,Sc,Y,La,Th,U,R"
105032 PR05100420 La0.5Lu0.5Ni2B2C La0.5Lu0.5Ni2B2C1 La 0.5 Lu 0.5 Ni 2 B 2 C 1 1995 LuNi2B2C A 3.577 10.44 K 14.8 14.8 "Systematic variation of superconductivity for the quaternary borocarbide system RNi2B2C(R=Sc,Y,La,Th,U, or a lanthanide)" 1995 1 "Phys.Rev.B,51(1995) 420-423" "Ni,B,C,Sc,Y,La,Th,U,R"
105033 PR05100420 LuNi2B2C Lu1Ni2B2C1 Lu 1 Ni 2 B 2 C 1 1995 LuNi2B2C K 16.6 16.6 "Systematic variation of superconductivity for the quaternary borocarbide system RNi2B2C(R=Sc,Y,La,Th,U, or a lanthanide)" 1995 1 "Phys.Rev.B,51(1995) 420-423" "Ni,B,C,Sc,Y,La,Th,U,R"
105034 PR05100420 LaNi2B2C La1Ni2B2C1 La 1 Ni 2 B 2 C 1 1995 LuNi2B2C K 2 "Systematic variation of superconductivity for the quaternary borocarbide system RNi2B2C(R=Sc,Y,La,Th,U, or a lanthanide)" 1995 1 "Phys.Rev.B,51(1995) 420-423" "Ni,B,C,Sc,Y,La,Th,U,R"
105035 PR05100420 CeNi2B2C Ce1Ni2B2C1 Ce 1 Ni 2 B 2 C 1 1995 LuNi2B2C K 2 "Systematic variation of superconductivity for the quaternary borocarbide system RNi2B2C(R=Sc,Y,La,Th,U, or a lanthanide)" 1995 1 "Phys.Rev.B,51(1995) 420-423" "Ni,B,C,Sc,Y,La,Th,U,R"
105036 PR05100420 PrNi2B2C Pr1Ni2B2C1 Pr 1 Ni 2 B 2 C 1 1995 LuNi2B2C K 2 "Systematic variation of superconductivity for the quaternary borocarbide system RNi2B2C(R=Sc,Y,La,Th,U, or a lanthanide)" 1995 1 "Phys.Rev.B,51(1995) 420-423" "Ni,B,C,Sc,Y,La,Th,U,R"
105037 PR05100420 NdNi2B2C Nd1Ni2B2C1 Nd 1 Ni 2 B 2 C 1 1995 LuNi2B2C K 2 "Systematic variation of superconductivity for the quaternary borocarbide system RNi2B2C(R=Sc,Y,La,Th,U, or a lanthanide)" 1995 1 "Phys.Rev.B,51(1995) 420-423" "Ni,B,C,Sc,Y,La,Th,U,R"
105038 PR05100420 TmNi2B2C Tm1Ni2B2C1 Tm 1 Ni 2 B 2 C 1 1995 LuNi2B2C K 11.1 11.1 "Systematic variation of superconductivity for the quaternary borocarbide system RNi2B2C(R=Sc,Y,La,Th,U, or a lanthanide)" 1995 1 "Phys.Rev.B,51(1995) 420-423" "Ni,B,C,Sc,Y,La,Th,U,R"
105039 PR05100420 ErNi2B2C Er1Ni2B2C1 Er 1 Ni 2 B 2 C 1 1995 LuNi2B2C K 10 10 "Systematic variation of superconductivity for the quaternary borocarbide system RNi2B2C(R=Sc,Y,La,Th,U, or a lanthanide)" 1995 1 "Phys.Rev.B,51(1995) 420-423" "Ni,B,C,Sc,Y,La,Th,U,R"
105040 PR05100420 HoNi2B2C Ho1Ni2B2C1 Ho 1 Ni 2 B 2 C 1 1995 LuNi2B2C K 5.8 5.8 "Systematic variation of superconductivity for the quaternary borocarbide system RNi2B2C(R=Sc,Y,La,Th,U, or a lanthanide)" 1995 1 "Phys.Rev.B,51(1995) 420-423" "Ni,B,C,Sc,Y,La,Th,U,R"
105041 PR05100420 DyNi2B2C Dy1Ni2B2C1 Dy 1 Ni 2 B 2 C 1 1995 LuNi2B2C K 2 "Systematic variation of superconductivity for the quaternary borocarbide system RNi2B2C(R=Sc,Y,La,Th,U, or a lanthanide)" 1995 1 "Phys.Rev.B,51(1995) 420-423" "Ni,B,C,Sc,Y,La,Th,U,R"
105042 PR05100420 GdNi2B2C Gd1Ni2B2C1 Gd 1 Ni 2 B 2 C 1 1995 LuNi2B2C K 2 "Systematic variation of superconductivity for the quaternary borocarbide system RNi2B2C(R=Sc,Y,La,Th,U, or a lanthanide)" 1995 1 "Phys.Rev.B,51(1995) 420-423" "Ni,B,C,Sc,Y,La,Th,U,R"
105043 PR05100489 (dTc/gamma*Tc) = 3.6. RESRT = 120micro-Ohm.cm. Moment= 0.18 /f.u YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 1 1995 54 LuNi2B2C A 3.526 10.543 K 15.3 15.3 MHC5043 80 mj/mol.K2 8.9 415 "Y or Er,Ni,B,C were arc-melted under Ar-ANN(1050C,12H in sealed quartz)" "Structural, superconducting, and magnetic properties of YNi2B2C and ErNi2B2C" 1995 1 "Phys.Rev.B,51(1995) 489-496" "Y,Ni,B,C,Er"
105044 PR05100489 Sp heat was measured. RESRT=150 micro-Ohm.cm. Moment = 9.32/f.u ErNi2B2C Er1Ni2B2C1 Er 1 Ni 2 B 2 C 1 1 1995 -2 LuNi2B2C A 3.503 10.56 K 10.3 10.3 "Y or Er,Ni,B,C were arc-melted under Ar-ANN(1050C,12H in sealed quartz)" "Structural, superconducting, and magnetic properties of YNi2B2C and ErNi2B2C" 1995 1 "Phys.Rev.B,51(1995) 489-496" "Y,Ni,B,C,Er"
105045 PR05012966 LaNi2B2C La1Rh2B2C1 La 1 Rh 2 B 2 C 1 1994 LuNi2B2C A 3.902 10.246 K 1.4 pellet from powder-arc-melting under Ar Elementary physical properties and crystal structures of LaRh2B2C and LaIr2B2C 1994 11 "Phys.Rev.B,50(1994) 12966-12968" "La,Rh,B,C,Ir"
105046 PR05012966 LaIr2B2C La1Ir2B2C1 La 1 Ir 2 B 2 C 1 1994 LuNi2B2C A 3.897 10.454 K 1.4 pellet from powder-arc-melting under Ar Elementary physical properties and crystal structures of LaRh2B2C and LaIr2B2C 1994 11 "Phys.Rev.B,50(1994) 12966-12968" "La,Rh,B,C,Ir"
105047 PHC2280389 Fig=Hc2. G-L parameter = 11.8 LuNi2B2C Lu1Ni2B2C1 Lu 1 Ni 2 B 2 C 1 1 1994 LuNi2B2C K 16.6 16.6 800 90 0.8 MHC5047 60 710 mj/mol.K2 35 arc melt Superconducting properties of the new boride-carbide superconductors 1994 7 "Physica C, 228 (1994) 389-392"
105048 PHC2280389 Fig=Hc2 YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 1 1994 LuNi2B2C K 15.6 15.6 800 90 0.8 MHC5048 60 Superconducting properties of the new boride-carbide superconductors 1994 7 "Physica C, 228 (1994) 389-392"
105049 PHC2280389 Fig=Hc2 YPd5B3C0.3 Y1Pd5B3C0.3 Y 1 Pd 5 B 3 C 0.3 1 1994 K 23 23 100 120 0.8 MHC5049 52 Superconducting properties of the new boride-carbide superconductors 1994 7 "Physica C, 228 (1994) 389-392"
105050 PHC2270381 (dTc/gamma*Tc) = 1.77. gao(0)/kTc=1.95 YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 1994 LuNi2B2C K 14.6 14.6 MSP5050 mj/mol.K2 18.7 489 (arc-melted+Ni2B)-heat(1490C)-cool to 1200C at 10 C/H Specific heat of single-crystal YNi2B2C and TmNi2B2C superconductors 1994 7 "Physica C, 227(1994)381-386" "Y,Ni,B,C,Tm"
105051 PHC2270381 TmNi2B2C Tm1Ni2B2C1 Tm 1 Ni 2 B 2 C 1 1994 1.5 LuNi2B2C K 10.2 10.2 MSP5051 mj/mol.K2 35 320 (arc-melted+Ni2B)-heat(1490C)-cool to 1200C at 10C/H Specific heat of single-crystal YNi2B2C and TmNi2B2C superconductors 1994 7 "Physica C, 227(1994)381-386" "Y,Ni,B,C,Tm"
105052 PHC2270321 H is parallel to the c-axis. G-L parameter = 14 YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 1994 LuNi2B2C K 14.5 14.5 230 32 3.2 MHC5052 100 1500 "flux meltod,flux=Ni2B" Superconducting state magnetization and critical fields of single crystal YNi2B2C 1994 7 "Physica C, 227(1994)321-326" "Y,Ni,B,C"
105053 PHC2430183 small level of impurity phase "Y(Ni,Co)2B2C" Y1Ni1.94Co0.06B2C1 Y 1 Ni 1.94 Co 0.06 B 2 C 1 1995 LuNi2B2C K 11.5 11.5 "arc-melting in Ar(250Torr),mixture of B and C were pressed before melting" Effect of the Ni site substitution on superconducting properties of YNi2B2C 1995 2 "Centro Brasileiro de Pesquisas Fisicas,CBPF/CNPq,R.Dr. Xavier Sigaud 150,Urca,Rio de Janeiro,RJ,22290-180,Brazil" "Physica C.,243(1995)183-186" "Y,Ni,B,C,Co,Fe,Ru"
105054 PHC2430183 small level of impurity phase "Y(Ni,Co)2B2C" Y1Ni1.9Co0.1B2C1 Y 1 Ni 1.9 Co 0.1 B 2 C 1 1995 LuNi2B2C K 9.8 9.8 "arc-melting in Ar(250Torr),mixture of B and C were pressed before melting" Effect of the Ni site substitution on superconducting properties of YNi2B2C 1995 2 "Centro Brasileiro de Pesquisas Fisicas,CBPF/CNPq,R.Dr. Xavier Sigaud 150,Urca,Rio de Janeiro,RJ,22290-180,Brazil" "Physica C.,243(1995)183-186" "Y,Ni,B,C,Co,Fe,Ru"
105055 PHC2430183 small level of impurity phase "Y(Ni,Co)2B2C" Y1Ni1.86Co0.14B2C1 Y 1 Ni 1.86 Co 0.14 B 2 C 1 1995 LuNi2B2C K 7.76 7.76 "arc-melting in Ar(250Torr),mixture of B and C were pressed before melting" Effect of the Ni site substitution on superconducting properties of YNi2B2C 1995 2 "Centro Brasileiro de Pesquisas Fisicas,CBPF/CNPq,R.Dr. Xavier Sigaud 150,Urca,Rio de Janeiro,RJ,22290-180,Brazil" "Physica C.,243(1995)183-186" "Y,Ni,B,C,Co,Fe,Ru"
105056 PHC2430183 small level of impurity phase "Y(Ni,Co)2B2C" Y1Ni1.8Co0.2B2C1 Y 1 Ni 1.8 Co 0.2 B 2 C 1 1995 LuNi2B2C K 6.7 6.7 "arc-melting in Ar(250Torr),mixture of B and C were pressed before melting" Effect of the Ni site substitution on superconducting properties of YNi2B2C 1995 2 "Centro Brasileiro de Pesquisas Fisicas,CBPF/CNPq,R.Dr. Xavier Sigaud 150,Urca,Rio de Janeiro,RJ,22290-180,Brazil" "Physica C.,243(1995)183-186" "Y,Ni,B,C,Co,Fe,Ru"
105057 PHC2430183 small level of impurity phese "Y(Ni,Co)2B2C" Y1Ni1Co1B2C1 Y 1 Ni 1 Co 1 B 2 C 1 1995 LuNi2B2C K 0 0 "arc-melting in Ar(250Torr),mixture of B and C were pressed before melting" Effect of the Ni site substitution on superconducting properties of YNi2B2C 1995 2 "Centro Brasileiro de Pesquisas Fisicas,CBPF/CNPq,R.Dr. Xavier Sigaud 150,Urca,Rio de Janeiro,RJ,22290-180,Brazil" "Physica C.,243(1995)183-186" "Y,Ni,B,C,Co,Fe,Ru"
105058 PHC2430183 "Y(Ni,Ru)2B2C" Y1Ni1.98Ru0.02B2C1 Y 1 Ni 1.98 Ru 0.02 B 2 C 1 1995 LuNi2B2C K 12.8 12.8 Effect of the Ni site substitution on superconducting properties of YNi2B2C 1995 2 "Centro Brasileiro de Pesquisas Fisicas,CBPF/CNPq,R.Dr. Xavier Sigaud 150,Urca,Rio de Janeiro,RJ,22290-180,Brazil" "Physica C.,243(1995)183-186" "Y,Ni,B,C,Co,Fe,Ru"
105059 PHC2430183 "Y(Ni,Ru)2B2C" Y1Ni1.94Ru0.06B2C1 Y 1 Ni 1.94 Ru 0.06 B 2 C 1 1995 LuNi2B2C K 8.7 8.7 Effect of the Ni site substitution on superconducting properties of YNi2B2C 1995 2 "Centro Brasileiro de Pesquisas Fisicas,CBPF/CNPq,R.Dr. Xavier Sigaud 150,Urca,Rio de Janeiro,RJ,22290-180,Brazil" "Physica C.,243(1995)183-186" "Y,Ni,B,C,Co,Fe,Ru"
105060 PHC2430183 "Y(Ni,Ru)2B2C" Y1Ni1.9Ru0.1B2C1 Y 1 Ni 1.9 Ru 0.1 B 2 C 1 1995 LuNi2B2C K 7 7 Effect of the Ni site substitution on superconducting properties of YNi2B2C 1995 2 "Centro Brasileiro de Pesquisas Fisicas,CBPF/CNPq,R.Dr. Xavier Sigaud 150,Urca,Rio de Janeiro,RJ,22290-180,Brazil" "Physica C.,243(1995)183-186" "Y,Ni,B,C,Co,Fe,Ru"
105061 PHC2430183 "Y(Ni,Fe)2B2C" Y1Ni1.98Fe0.02B2C1 Y 1 Ni 1.98 Fe 0.02 B 2 C 1 1995 LuNi2B2C K 13.4 13.4 Effect of the Ni site substitution on superconducting properties of YNi2B2C 1995 2 "Centro Brasileiro de Pesquisas Fisicas,CBPF/CNPq,R.Dr. Xavier Sigaud 150,Urca,Rio de Janeiro,RJ,22290-180,Brazil" "Physica C.,243(1995)183-186" "Y,Ni,B,C,Co,Fe,Ru"
105062 PHC2430183 "Y(Ni,Fe)2B2C" Y1Ni1.94Fe0.06B2C1 Y 1 Ni 1.94 Fe 0.06 B 2 C 1 1995 LuNi2B2C K 10.2 10.2 Effect of the Ni site substitution on superconducting properties of YNi2B2C 1995 2 "Centro Brasileiro de Pesquisas Fisicas,CBPF/CNPq,R.Dr. Xavier Sigaud 150,Urca,Rio de Janeiro,RJ,22290-180,Brazil" "Physica C.,243(1995)183-186" "Y,Ni,B,C,Co,Fe,Ru"
105063 PHC2430183 "Y(Ni,Fe)2B2C" Y1Ni1.9Fe0.1B2C1 Y 1 Ni 1.9 Fe 0.1 B 2 C 1 1995 LuNi2B2C K 8.2 8.2 Effect of the Ni site substitution on superconducting properties of YNi2B2C 1995 2 "Centro Brasileiro de Pesquisas Fisicas,CBPF/CNPq,R.Dr. Xavier Sigaud 150,Urca,Rio de Janeiro,RJ,22290-180,Brazil" "Physica C.,243(1995)183-186" "Y,Ni,B,C,Co,Fe,Ru"
105064 PHC2430183 "Y(Ni,Fe)2B2C" Y1Ni1.86Fe0.14B2C1 Y 1 Ni 1.86 Fe 0.14 B 2 C 1 1995 LuNi2B2C K 6.2 6.2 Effect of the Ni site substitution on superconducting properties of YNi2B2C 1995 2 "Centro Brasileiro de Pesquisas Fisicas,CBPF/CNPq,R.Dr. Xavier Sigaud 150,Urca,Rio de Janeiro,RJ,22290-180,Brazil" "Physica C.,243(1995)183-186" "Y,Ni,B,C,Co,Fe,Ru"
105065 PHC2330273 carrier=2.9 E+22/cm3 YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 1994 LuNi2B2C K 15 15 369 6 MHC5065 81 1030 Ar arc-melting A uSR determination of the penetration depth in superconducting YNi2B2C 1994 11 "Physica C.,233(1994) 273-280" Y.Ni.B.C
105066 PHC2300435 YPd5B3C0.3 Y1Pd5B3C0.3 Y 1 Pd 5 B 3 C 0.3 1994 K 23 23 "(Y,Pd,B,C,Ni),arc-,melted" The 23 K superconducting phase YPd2B2C 1994 9 Physica C 230 (1994) 435-442 Y.Pd.B.C
105067 PHC2300435 YPd4.2B3C0.3 Y1Pd4.2B3C0.3 Y 1 Pd 4.2 B 3 C 0.3 1994 K 24 24 "(Y,Pd,B,C,Ni),arc-,melted" The 23 K superconducting phase YPd2B2C 1994 9 Physica C 230 (1994) 435-442 Y.Pd.B.C
105068 PHC2300435 YPd5B3C0.3 Y1Pd5B3C0.3 Y 1 Pd 5 B 3 C 0.3 1994 K 4.2 "arc-melting,then annealed in vac(900C,48H in Ta-foil)" The 23 K superconducting phase YPd2B2C 1994 9 Physica C 230 (1994) 435-442 Y.Pd.B.C
105069 PHC2300435 YNi2PdB2C Y1Ni2Pd Y 1 Ni 2 Pd 1994 A 3.524 10.521 K 16.3 16.3 arc-melting The 23 K superconducting phase YPd2B2C 1994 9 Physica C 230 (1994) 435-442 Y.Pd.B.C
105070 PHC2300435 "Y(Ni,Pd)2B2C" Y1Ni1.8Pd0.2B2C1 Y 1 Ni 1.8 Pd 0.2 B 2 C 1 1994 LuNi2B2C A 3.543 10.58 K 14 14 arc-melting The 23 K superconducting phase YPd2B2C 1994 9 Physica C 230 (1994) 435-442 Y.Pd.B.C
105071 PHC2300435 "Y(Ni,Pd)2B2C" Y1Ni1.5Pd0.5B2C1 Y 1 Ni 1.5 Pd 0.5 B 2 C 1 1994 LuNi2B2C A 3.554 10.641 K 12.1 12.1 arc-melting The 23 K superconducting phase YPd2B2C 1994 9 Physica C 230 (1994) 435-442 Y.Pd.B.C
105072 PHC2300435 "Y(Ni,Pd)2B2C" Y1Ni1.3Pd0.7B2C1 Y 1 Ni 1.3 Pd 0.7 B 2 C 1 1994 LuNi2B2C A 3.576 10.641 K 12.1 12.1 arc-melting The 23 K superconducting phase YPd2B2C 1994 9 Physica C 230 (1994) 435-442 Y.Pd.B.C
105073 PHC2300435 YNiPdB2C Y1Ni1Pd1B2C1 Y 1 Ni 1 Pd 1 B 2 C 1 1994 LuNi2B2C A 3.59 10.651 K 11.8 11.8 arc-melting The 23 K superconducting phase YPd2B2C 1994 9 Physica C 230 (1994) 435-442 Y.Pd.B.C
105074 PHC2300435 "Y(Ni,Pd)2B2C" Y1Ni0.8Pd1.2B2C1 Y 1 Ni 0.8 Pd 1.2 B 2 C 1 1994 LuNi2B2C A 3.586 10.64 K 11.8 11.8 arc-melting The 23 K superconducting phase YPd2B2C 1994 9 Physica C 230 (1994) 435-442 Y.Pd.B.C
105075 PHC2270063 "Hc2 is close to Hirr, 600=700-900C. Debye-T calculated from resistivity ErNi2B2C Er1Ni2B2C1 Er 1 Ni 2 B 2 C 1 4 1999 3.2 6 LuNi2B2C A 3.51 10.57 K 9.5 9.5 1 310 thin films by magnetron sputtering. Substrate = MgO Properties of ErNi2B2C superconducting thin films 1999 1 "Instituto Nazionale per la Fisica della Materia (INFM), Dipartimento di Scienze Fisiche, Universita di Napoli Federirico II, Piazzale Tecchio 80,1-80125 Naples, Italy" "Physica.C,312(1998)1-6"
106257 JPS0682326 Sc5Co4Si10 Sc5Co4Si10 Sc 5 Co 4 Si 10 1 1999 K 4.9 4.9 kOe 7 NMR Investigation of the Electronic State in a Ternary Superconductor Sc5Co4Si10 1999 7 "Graduate School of Science Technology and Faculty of Science, Kobe University, Nada, Kobe 657-0013" "J.Phys.Soc.Japan,68(1999)2326-2330"
106258 PMB0651445 not s/c. I-to-M transition at x=10 in Si36Nax. The resistivity shows more metallic as x increases beyond 10 Si36Nax Na14Si36 Na 14 Si 36 1992 1 clathrate K 5 The insulator-to-metal transition in Si-Na 'clathrate' compounds: a search for superconductivity 1992 6 "Physics Department and Centre for High Temperature Superconductivity, Blackett Laboratory, Imperial College, London SW7 2BZ, England" "Philosophical Magazine B,65(1992)1445-1450"
106259 NAT3720759 La2.8Ni2.0B2.2N3.0 by EPMA La3Ni2B2N3 La3Ni2B2N3 La 3 Ni 2 B 2 N 3 1994 A 3.73 20.67 bct K 13.2 13.2 Structure of the 13-K superconductor La3Ni2B2N3 and the related phase LaNiBN 1994 12 "National Centre for High Resolution Electron Microscopy, Laboratory of Materials Science, Delft University of Technology, Rotterdamseweg 137, 2628 AL Delft, The Netherlands" "Nature,372(1994)759-761"
106260 PHC3210108 dTc/dP in K/Gpa. Hc2(0) by linear extraporation. G-L parameter=9.5. coherence=84 A at 15 K. YPd2B2C Y1Pd2B2C1 Y 1 Pd 2 B 2 C 1 1999 LuNi2B2C K 22.6 22.6 K/GPa -0.9 Oe 310 kG 133 kG/K 5.9 A 84 arc-melting Magnetic and high-pressure studies in the YPd2B2C system 1999 8 "Department of Physics, Brock University, St. Chatharines, Ontario, Canada, L2S 3AI" "Physica C,321(1999)108-112"
106261 PHC3210093 RRR=6.9 "(Tb,Er)Ni2B2C" Tb0.2Er0.8Ni2B2C1 Tb 0.2 Er 0.8 Ni 2 B 2 C 1 1 1999 7.1 LuNi2B2C A 3.5143 10.551 K 7.1 7.1 Ar-arc melting "Metallurgy, superconductivity and field-dependent magnetic ordering in TbxEr1-xNi2B2C" 1999 8 "Institut Festkorper- und Werkstofforschung dresden, PF 27 00 16, D-01171Dresden, Germany" "Physica C,321(1999)93-102"
106262 PHC3210093 RRR=7.3 "(Tb,Er)Ni2B2C" Tb0.225Er0.775Ni2B2C1 Tb 0.225 Er 0.775 Ni 2 B 2 C 1 1 1999 7 LuNi2B2C A 3.513 10.543 K 5.9 5.9 Ar-arc melting "Metallurgy, superconductivity and field-dependent magnetic ordering in TbxEr1-xNi2B2C" 1999 8 "Institut Festkorper- und Werkstofforschung dresden, PF 27 00 16, D-01171Dresden, Germany" "Physica C,321(1999)93-102"
106263 PHC3210093 RRR=7.2 "(Tb,Er)Ni2B2C" Tb0.25Er0.75Ni2B2C1 Tb 0.25 Er 0.75 Ni 2 B 2 C 1 1 1999 7.1 LuNi2B2C A 3.518 10.552 K 4.9 4.9 Ar-arc melting "Metallurgy, superconductivity and field-dependent magnetic ordering in TbxEr1-xNi2B2C" 1999 8 "Institut Festkorper- und Werkstofforschung dresden, PF 27 00 16, D-01171Dresden, Germany" "Physica C,321(1999)93-102"
106264 PHC3340033 "2gap/kTc = 3.63," DyNi2B2C Dy1Ni2B2C1 Dy 1 Ni 2 B 2 C 1 2000 10.2 LuNi2B2C K 6.51 6.51 1.02 1 Point-contact spectroscopy of superconducting energy gap in DyNi2B2C 2000 6 "B. Verkin Institute for Low Temperature Physics and Engineering, National Academy of Sciences, Lenin avenue, 47, 310164 Kharkiv, Ukraine" "Physica C,334(2000)33-43"
106265 PHC3330187 as-grown sample is not s/c. Rn=7.5 microOhm.cm. Effectve moment=4.34 YbPd2Sn Yb1Pd2Sn1 Yb 1 Pd 2 Sn 1 2000 -5.2 0.22 Heusler A 6.651 "Cu2MnAl, L2<1>" K 2.3 2.3 mj/mol.K2 6 "arc-melting,then ANN(800C, 7days in vac)" Anomalous magnetic properties of Heusler superconductor YbPd2Sn 2000 5 "Department of Physics, Faculty of Science, Tokyo Metropolitan University, Minami-Ohsawa 1-1, Hachioji-shi, Tokyo 192-0397, Japan " "Phisica C, 333(2000)187"
106266 PRL0825353 CeCu2Si2 Ce0.975Cu2Si2 Ce 0.975 Cu 2 Si 2 1999 0.6 CeCu2Si2 K Evolution from Magnetism to Unconventional Superconductivity in a Series of CexCu2Si2 Compounds Probed by Cu NQR 1999 "Department of Physical Science, Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" Phys.Rev.Lett.82(1999)5353
106267 PRL0825353 CeCu2Si2 Ce1.025Cu2Si2 Ce 1.025 Cu 2 Si 2 1999 CeCu2Si2 K 0.6 0.6 Evolution from Magnetism to Unconventional Superconductivity in a Series of CexCu2Si2 Compounds Probed by Cu NQR 1999 "Department of Physical Science, Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" Phys.Rev.Lett.82(1999)5353
106268 PRL0825353 CeCu2Si2 Ce1Cu2.05Si2 Ce 1 Cu 2.05 Si 2 1999 CeCu2Si2 K 0.7 0.7 Evolution from Magnetism to Unconventional Superconductivity in a Series of CexCu2Si2 Compounds Probed by Cu NQR 1999 "Department of Physical Science, Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" Phys.Rev.Lett.82(1999)5353
106269 JSC1470399 SnEr4Rh6Sn18 Sn19Er4Rh6 Sn 19 Er 4 Rh 6 1999 0.34 A 13.733 27.418 K 1.32 1.32 Sn melt technique. Single crystals were extracted from the melt. Competition between Magnetism and Superconductivity in Erbium Stannide 1999 "Laboratoire de Cristallographie CNRS, BP166, 38042 Grenoble Cedex 9, France" J.Solid State Chem.147(1999)399-409
106270 JSC1470399 re-entrant s/c. low temperature phase=ferromagnetic "(Sn,Er)Er4Rh6Sn18" Sn18.59Er4.41Rh6 Sn 18.59 Er 4.41 Rh 6 1999 0.5 K 1 1 Sn melt technique. Single crystals were extracted from the melt. Competition between Magnetism and Superconductivity in Erbium Stannide 1999 "Laboratoire de Cristallographie CNRS, BP166, 38042 Grenoble Cedex 9, France" J.Solid State Chem.147(1999)399-409
106271 JSC1470399 re-entrant s/c. low temperature phase=ferromagnetic "(Sn,Er)Er4Rh6Sn18" Sn18.43Er4.57Rh6 Sn 18.43 Er 4.57 Rh 6 1999 0.5 K 0.97 0.97 Sn melt technique. Single crystals were extracted from the melt. Competition between Magnetism and Superconductivity in Erbium Stannide 1999 "Laboratoire de Cristallographie CNRS, BP166, 38042 Grenoble Cedex 9, France" J.Solid State Chem.147(1999)399-409
106272 JSC1470399 "ferromagnetic, not s/c" "(Sn,Er)Er4Rh6Sn18" Sn18.39Er4.61Rh6 Sn 18.39 Er 4.61 Rh 6 1999 0.64 K Sn melt technique. Single crystals were extracted from the melt. Competition between Magnetism and Superconductivity in Erbium Stannide 1999 "Laboratoire de Cristallographie CNRS, BP166, 38042 Grenoble Cedex 9, France" J.Solid State Chem.147(1999)399-409
106273 PRL0830404 powder sample. Tc defined as maximum dR/dT. 99% C<13> isotope Rb3C60 C60Rb3 C 60 Rb 3 1999 fullerene K 30.8 30.8 1 0.21 C Carbon Isotope Effect in Single-Crystal R b3C60 1999 "Department of Physics, University of California at Berkeley, Berkeley,California 94720" Phys.Rev.Lett.83(1999)404
106274 PHC3230071 HoNi2B2C Ho1Ni2B2C1 Ho 1 Ni 2 B 2 C 1 1999 LuNi2B2C K 7.8 7.8 arc-melting-ANN(800C) The effect of thermal treatment on superconductivity in HoNi2B2C 1999 10 "Physikalisches Institut, Universitat Bayreuth, D-95440 Bayreuth, Germany" "Physica C,323(1999)71-78"
106275 PHC3230071 HoNi2B2C Ho1Ni2B2C1 Ho 1 Ni 2 B 2 C 1 1999 LuNi2B2C K 7.1 7.1 arc-melting-ANN(1100C) The effect of thermal treatment on superconductivity in HoNi2B2C 1999 10 "Physikalisches Institut, Universitat Bayreuth, D-95440 Bayreuth, Germany" "Physica C,323(1999)71-78"
106276 PHC3330031 solid solution. P-type conductivity "(Sn,In)Te" Sn0.95In0.05Te1 Sn 0.95 In 0.05 Te 1 1 2000 K 1.2 1.2 kG/T 4.73 Observation of superconducting and structural phase transitions in Sn1-zGezTe:In solid solutions 2000 5 "State Technical University, Politechnicheskaya str. 29, 195251 St. Petersburg, Russia" "Physica C,333(2000)31-40"
106277 PHC3330031 solid solution. P-type conductivity "(Sn,Ge,In)Te" Sn0.9405Ge0.0095In0.05Te1 Sn 0.9405 Ge 0.0095 In 0.05 Te 1 1 2000 K 1.61 1.61 kG/T 5.27 Observation of superconducting and structural phase transitions in Sn1-zGezTe:In solid solutions 2000 5 "State Technical University, Politechnicheskaya str. 29, 195251 St. Petersburg, Russia" "Physica C,333(2000)31-40"
106278 PHC3330031 solid solution. P-type conductivity "(Sn,Ge,In)Te" Sn0.9215Ge0.0285In0.05Te1 Sn 0.9215 Ge 0.0285 In 0.05 Te 1 1 2000 K 1.74 1.74 kG/T 6.34 Observation of superconducting and structural phase transitions in Sn1-zGezTe:In solid solutions 2000 5 "State Technical University, Politechnicheskaya str. 29, 195251 St. Petersburg, Russia" "Physica C,333(2000)31-40"
106279 PHC3330031 solid solution. P-type conductivity "(Sn,Ge,In)Te" Sn0.9025Ge0.0475In0.05Te1 Sn 0.9025 Ge 0.0475 In 0.05 Te 1 1 2000 K 1.72 1.72 kG/T 6.25 Observation of superconducting and structural phase transitions in Sn1-zGezTe:In solid solutions 2000 5 "State Technical University, Politechnicheskaya str. 29, 195251 St. Petersburg, Russia" "Physica C,333(2000)31-40"
106280 PHC3330031 solid solution. P-type conductivity "(Sn,Ge,In)Te" Sn0.874Ge0.076In0.05Te1 Sn 0.874 Ge 0.076 In 0.05 Te 1 1 2000 K 1.64 1.64 kG/T 6.87 Observation of superconducting and structural phase transitions in Sn1-zGezTe:In solid solutions 2000 5 "State Technical University, Politechnicheskaya str. 29, 195251 St. Petersburg, Russia" "Physica C,333(2000)31-40"
106281 PHC3330031 solid solution. P-type conductivity "(Sn,Ge,In)Te" Sn0.855Ge0.095In0.05Te1 Sn 0.855 Ge 0.095 In 0.05 Te 1 1 2000 K 1.48 1.48 kG/T 8.21 Observation of superconducting and structural phase transitions in Sn1-zGezTe:In solid solutions 2000 5 "State Technical University, Politechnicheskaya str. 29, 195251 St. Petersburg, Russia" "Physica C,333(2000)31-40"
106282 PHC3330031 solid solution. P-type conductivity "(Sn,Ge,In)Te" Sn0.8075Ge0.1425In0.05Te1 Sn 0.8075 Ge 0.1425 In 0.05 Te 1 1 2000 K 1.09 1.09 kG/T 9.82 Observation of superconducting and structural phase transitions in Sn1-zGezTe:In solid solutions 2000 5 "State Technical University, Politechnicheskaya str. 29, 195251 St. Petersburg, Russia" "Physica C,333(2000)31-40"
106283 PHC3330031 solid solution. P-type conductivity. Structural transformation at 210 K. "(Sn,Ge,In)Te" Sn0.76Ge0.19In0.05Te1 Sn 0.76 Ge 0.19 In 0.05 Te 1 1 2000 K 0.68 0.68 kG/T 8.57 Observation of superconducting and structural phase transitions in Sn1-zGezTe:In solid solutions 2000 5 "State Technical University, Politechnicheskaya str. 29, 195251 St. Petersburg, Russia" "Physica C,333(2000)31-40"
106284 PHC3330031 solid solution. P-type conductivity "(Sn,In)Te" Sn0.84In0.16Te1 Sn 0.84 In 0.16 Te 1 1 2000 K 2.48 2.48 kG/T 0.64 Observation of superconducting and structural phase transitions in Sn1-zGezTe:In solid solutions 2000 5 "State Technical University, Politechnicheskaya str. 29, 195251 St. Petersburg, Russia" "Physica C,333(2000)31-40"
106285 PHC3330031 solid solution. P-type conductivity "(Sn,Ge,In)Te" Sn0.798Ge0.042In0.16Te1 Sn 0.798 Ge 0.042 In 0.16 Te 1 1 2000 K 2.36 2.36 kG/T 0.74 Observation of superconducting and structural phase transitions in Sn1-zGezTe:In solid solutions 2000 5 "State Technical University, Politechnicheskaya str. 29, 195251 St. Petersburg, Russia" "Physica C,333(2000)31-40"
106286 PHC3330031 solid solution. P-type conductivity "(Sn,Ge,In)Te" Sn0.756Ge0.084In0.16Te1 Sn 0.756 Ge 0.084 In 0.16 Te 1 1 2000 K 2.32 2.32 kG/T 0.99 Observation of superconducting and structural phase transitions in Sn1-zGezTe:In solid solutions 2000 5 "State Technical University, Politechnicheskaya str. 29, 195251 St. Petersburg, Russia" "Physica C,333(2000)31-40"
106287 PHC3330031 solid solution. P-type conductivity "(Sn,Ge,In)Te" Sn0.714Ge0.126In0.16Te1 Sn 0.714 Ge 0.126 In 0.16 Te 1 1 2000 K 2.23 2.23 kG/T 0.97 Observation of superconducting and structural phase transitions in Sn1-zGezTe:In solid solutions 2000 5 "State Technical University, Politechnicheskaya str. 29, 195251 St. Petersburg, Russia" "Physica C,333(2000)31-40"
106288 PHC3330031 solid solution. P-type conductivity "(Sn,Ge,In)Te" Sn0.672Ge0.168In0.16Te1 Sn 0.672 Ge 0.168 In 0.16 Te 1 1 2000 K 1.93 1.93 kG/T 0.85 Observation of superconducting and structural phase transitions in Sn1-zGezTe:In solid solutions 2000 5 "State Technical University, Politechnicheskaya str. 29, 195251 St. Petersburg, Russia" "Physica C,333(2000)31-40"
106289 PHC3330031 solid solution. P-type conductivity "(Sn,Ge,In)Te" Sn0.63Ge0.21In0.16Te1 Sn 0.63 Ge 0.21 In 0.16 Te 1 1 2000 K 1.87 1.87 kG/T 1.38 Observation of superconducting and structural phase transitions in Sn1-zGezTe:In solid solutions 2000 5 "State Technical University, Politechnicheskaya str. 29, 195251 St. Petersburg, Russia" "Physica C,333(2000)31-40"
106290 PHC3330031 solid solution. P-type conductivity "(Sn,Ge,In)Te" Sn0.588Ge0.252In0.16Te1 Sn 0.588 Ge 0.252 In 0.16 Te 1 1 2000 K 1.42 1.42 kG/T 1.52 Observation of superconducting and structural phase transitions in Sn1-zGezTe:In solid solutions 2000 5 "State Technical University, Politechnicheskaya str. 29, 195251 St. Petersburg, Russia" "Physica C,333(2000)31-40"
106291 PHC3330031 solid solution. P-type conductivity "(Sn,Ge,In)Te" Sn0.504Ge0.336In0.16Te1 Sn 0.504 Ge 0.336 In 0.16 Te 1 1 2000 K 0.42 0.42 Observation of superconducting and structural phase transitions in Sn1-zGezTe:In solid solutions 2000 5 "State Technical University, Politechnicheskaya str. 29, 195251 St. Petersburg, Russia" "Physica C,333(2000)31-40"
106292 PRL0552727 U1Ru2Si2 U 1 Ru 2 Si 2 1 1985 17.5 ThCr2Si2 A 4.121 9.681 K 1.1 1.1 MSP6292 mj/mol.K2 180 312 arc-melting - ANN(1000C 7days in vac) Superconducting and Magnetic Transitions in the Heavy-Fermion System URu2Si2 1985 12 "Kamerlingh Onnes Laboratorium der Rijks-Universiteit Leiden, 2300 RA Leiden ,The Netherlands" "Phys.Rev.Lett.,55(1985)2727-2730"
106293 PRL0552727 "dHc2/dT is for H//both a-and c-axis Hc1= d675mK, H//ar b clirection. G-L parameter = 33" U1Ru2Si2 U 1 Ru 2 Si 2 3 1985 -65 17.5 A 4.1279 9.5918 K 14 4 MHC6293 Czochralski tri-arc method. Superconducting and Magnetic Transitions in the Heavy-Fermion System URu2Si2 1985 12 "Kamerlingh Onnes Laboratorium der Rijks-Universiteit Leiden, 2300 RA Leiden ,The Netherlands" "Phys.Rev.Lett.,55(1985)2727-2730"
106294 PHC2290079 U1Ru2Si2 U 1 Ru 2 Si 2 1994 K 1.24 1.24 MSP6294 Specific heat of the antiferromagnetic heavy-fermion superconductor URu2Si2 1994 "Centre de Recherches sur les Tre's Basses Temperatures, Laboratoire associe a l'Universite Joseph Fourier, CNRS, BP 166,38042 Grenoble-Cedex 9, france" "Physica.C,229(1994)79-89"
106295 EPL0330557 "gap values for along a-axis. For c-axis, gap= 1.4meV, 2*gap/kTc=12. Hc2 defined by (dI/dV) measurements" URu2Si2 U1Ru2Si2 U 1 Ru 2 Si 2 3 1996 K 1.3 1.3 1 T 8 2 0.05 5 1 Anisotropy of the superconducting energy gap in URu2Si2 studied by point-contact spectroscopy 1996 3 "Physikalisches Institut, Universitat Karlsruhe- 76128 Karlsruhe, Germany" "Europhys.Lett.,33(1996)557-562"
106296 SSC0930021 YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 1995 LuNi2B2C A 3.528 10.546 K 14.5 14.5 0.0435 6.38 0.44 97 1200 220 "ANN (1200K, 5days) - slow cool to RT" Synthesis and Physical properties of the YNi2B2C superconducting phase 1995 1 "Istituto di Chimica Fisica, Universita di Genova, C.so Europa 26, 16132 Genova Italia" "SolidState Commun.,93(1995)21-24"
106297 PHC2500227 values of super conducting paramete are at 21C. G-L parameter = 8.7 Cu1.5Rh1.5S4 Cu 1.5 Rh 1.5 S 4 1995 spinel A 9.7885 K 4.5 4.5 470 13.5 156 1340 vacuum shield ampoul method 63 Cu NMR study of the superconducting thiospinel Cu1.5Rh1.5S4 1995 8 "(a)Department of Physics,Faculty of Engineering,Tokushima University, Tokushima 770,Japan (b)Department of Physics,Faculty of Science,Ehime University,Matsuyama 790,Japan (c)Instute Solid State Physics,University of Tokyo,Roppongi,Tokyo 106, Japan" "Physica C,250(1995)227-234" "Cu, Rh, S"
106298 PHC3210108 "Hc2(O) by linecr extrporation. At 15K, coherence = 84A, G-L= 9.5" Y1Pd2B2C1 Y 1 Pd 2 B 2 C 1 1999 K 22.6 22.6 K/GPa -0.09 310 133 -5.9 arc- melting Magnetic and high-pressure studies in the YPd2B2C system 1999 8 "Department of Physics, Brock University, St. Chatharines, Ontario, Canada, L2S 3AI" "Physica C,321(1999)108-112"
106299 PR05912054 Y2Rh3Sn5 Y 2 Rh 3 Sn 5 1 1999 Y2Rh3Sn5 A 4.395 26.151 7.137 K 222 arc-melting "Magnetic ordering and superconductivity in R2Rh3Sn5(R=La-Tm,Y) systems" 1999 5 "Tata Institute Of Fundamental Research, Bombay-400005, India" "Phys.Rev.B,59(1999)12054-12063"
106300 PR05912054 La2Rh3Sn5 La 2 Rh 3 Sn 5 1 1999 U2Co3Si5 A 10.667 12.891 6.315 K 1.85 1.85 190 arc-melting "Magnetic ordering and superconductivity in R2Rh3Sn5(R=La-Tm,Y) systems" 1999 5 "Tata Institute Of Fundamental Research, Bombay-400005, India" "Phys.Rev.B,59(1999)12054-12063"
106301 PR05912054 Ce2Rh3Sn5 Ce 2 Rh 3 Sn 5 1 1999 -52 5 Y2Rh3Sn5 A 4.506 26.383 7.212 K arc-melting "Magnetic ordering and superconductivity in R2Rh3Sn5(R=La-Tm,Y) systems" 1999 5 "Tata Institute Of Fundamental Research, Bombay-400005, India" "Phys.Rev.B,59(1999)12054-12063"
106302 PR05912054 Pr2Rh3Sn5 Pr 2 Rh 3 Sn 5 1 1999 -5.4 Y2Rh3Sn5 A 4.481 26.444 7.208 K 333 arc-melting "Magnetic ordering and superconductivity in R2Rh3Sn5(R=La-Tm,Y) systems" 1999 5 "Tata Institute Of Fundamental Research, Bombay-400005, India" "Phys.Rev.B,59(1999)12054-12063"
106303 PR05912054 GAMMA is in unit of mJ/Nd-mole.K2 Nd2Rh3Sn5 Nd 2 Rh 3 Sn 5 1 1999 -8.2 Y2Rh3Sn5 A 4.467 26.363 7.205 K mj/mol.K2 300 201 arc-melting "Magnetic ordering and superconductivity in R2Rh3Sn5(R=La-Tm,Y) systems" 1999 5 "Tata Institute Of Fundamental Research, Bombay-400005, India" "Phys.Rev.B,59(1999)12054-12063"
106304 PR05912054 Gd2Rh3Sn5 Gd 2 Rh 3 Sn 5 1 1999 -0.34 10 Y2Rh3Sm5 A 4.419 26.132 7.167 K 244 "Magnetic ordering and superconductivity in R2Rh3Sn5(R=La-Tm,Y) systems" 1999 5 "Tata Institute Of Fundamental Research, Bombay-400005, India" "Phys.Rev.B,59(1999)12054-12063"
106305 PR05912054 Tb2Rh3Sn5 Tb 2 Rh 3 Sn 5 1 1999 -7.4 7 Y2Rh3Sm5 A 4.402 26.183 7.14 K 248 "Magnetic ordering and superconductivity in R2Rh3Sn5(R=La-Tm,Y) systems" 1999 5 "Tata Institute Of Fundamental Research, Bombay-400005, India" "Phys.Rev.B,59(1999)12054-12063"
106306 PR05912054 Dy2Rh3Sn5 Dy 2 Rh 3 Sn 5 1 1999 -1.47 6.5 Y2Rh3Sm5 A 4.396 26.188 7.138 K 230 "Magnetic ordering and superconductivity in R2Rh3Sn5(R=La-Tm,Y) systems" 1999 5 "Tata Institute Of Fundamental Research, Bombay-400005, India" "Phys.Rev.B,59(1999)12054-12063"
106307 PR05912054 Ho2Rh3Sn5 Ho 2 Rh 3 Sn 5 1 1999 -1.02 4.5 Y2Rh3Sm5 A 4.38 26.111 7.132 K 267 "Magnetic ordering and superconductivity in R2Rh3Sn5(R=La-Tm,Y) systems" 1999 5 "Tata Institute Of Fundamental Research, Bombay-400005, India" "Phys.Rev.B,59(1999)12054-12063"
106308 PR05912054 Er2Rh3Sn5 Er 2 Rh 3 Sn 5 1 1999 -9.98 3.2 Y2Rh3Sm5 A 4.355 26.128 7.132 K 175 "Magnetic ordering and superconductivity in R2Rh3Sn5(R=La-Tm,Y) systems" 1999 5 "Tata Institute Of Fundamental Research, Bombay-400005, India" "Phys.Rev.B,59(1999)12054-12063"
106309 PR05912054 Tm2Rh3Sn5 Tm 2 Rh 3 Sn 5 1 1999 -14.57 2.3 Y2Rh3Sm5 A 4.341 26.198 7.147 K 1.8 1.8 185 "Magnetic ordering and superconductivity in R2Rh3Sn5(R=La-Tm,Y) systems" 1999 5 "Tata Institute Of Fundamental Research, Bombay-400005, India" "Phys.Rev.B,59(1999)12054-12063"
106310 JPS0651555 "values in TBL are for H//a-axis, Hc2(O)=2.9KOe and dHc2/dT=4.2KOe/K for H//c-axis. Hc1(O)estimated from Hc1(0.53K)=200Oe. G-L parameter = 11." U1Ni2Al3 U 1 Ni 2 Al 3 3 1996 4.2 PrNi2Al3 K 1 1 Oe 27.8 KOe 7.9 2.9 KOe/K 11.4 4.2 MHC6310 single crystal by Czochralski method Anisotropy of Upper Critical Magnetic Fields in Heavy Fermion Superconductor UNi2Al3 1996 6 "Physics Department, Graduate School of Science, Tohoku University, Sendai 980-77" "J.Phys.Soc.Japan,65(1996)1555-1558"
106311 PRL0824914 "Hc1(O), Hc2(O) are calculated from Hc1(2.3K)=250Oe and Hc2(2.3K)=2.9T assuming Hc=Ho(1-t2)" NbSe2 Nb1Se2 Nb 1 Se 2 1999 2H-NbSe2 K 7 7 Oe 280 T 3.25 mj/mol.K2 15.7 218 Low Field Anomaly in the Specific Heat of s-Wave Superconductors due to the Expansion of the Vortex Cores 1999 "Los Alamos National Laboratory, Los Aloamos, New Mexico 87545" Phys.Rev.Lett.82(1999)1914
106312 PR05506584 Ce1Ni2B2C1 Ce 1 Ni 2 B 2 C 1 1 1997 A 3.6378 10.2273 bct K arc-melting in Ar. Magnet order and crystal structure in the superconducting RNi2B2C materials 1997 3 "Reactor Radiation, National Institute of Standards and Technology, Gaithersburg, maryland 20899" "Phys.Rev.B,55(1997)6584"
106313 PR05506584 Pr1Ni2B2C1 Pr 1 Ni 2 B 2 C 1 1 1997 4 A 3.7066 9.9993 K arc-melting in Ar. Magnet order and crystal structure in the superconducting RNi2B2C materials 1997 3 "Reactor Radiation, National Institute of Standards and Technology, Gaithersburg, maryland 20899" "Phys.Rev.B,55(1997)6584"
106314 PR05506584 Nd1Ni2B2C1 Nd 1 Ni 2 B 2 C 1 1 1997 4.8 A 3.678 10.0814 K arc-melting in Ar. Magnet order and crystal structure in the superconducting RNi2B2C materials 1997 3 "Reactor Radiation, National Institute of Standards and Technology, Gaithersburg, maryland 20899" "Phys.Rev.B,55(1997)6584"
106315 PR05506584 Tb1Ni2B2C1 Tb 1 Ni 2 B 2 C 1 1 1997 15 A 3.5536 10.4352 K arc-melting in Ar. Magnet order and crystal structure in the superconducting RNi2B2C materials 1997 3 "Reactor Radiation, National Institute of Standards and Technology, Gaithersburg, maryland 20899" "Phys.Rev.B,55(1997)6584"
106316 PR05506584 DyNi2B2C Dy1Ni2B2C1 Dy 1 Ni 2 B 2 C 1 1 1997 10.6 LuNi2B2C A 3.5342 10.4878 K 6 6 arc-melting in Ar. Magnet order and crystal structure in the superconducting RNi2B2C materials 1997 3 "Reactor Radiation, National Institute of Standards and Technology, Gaithersburg, maryland 20899" "Phys.Rev.B,55(1997)6584"
106317 PR05506584 HoNi2B2C Ho1Ni2B2C1 Ho 1 Ni 2 B 2 C 1 1 1997 8.5 LuNi2B2C A 3.5177 10.5278 K 8 8 arc-melting in Ar. Magnet order and crystal structure in the superconducting RNi2B2C materials 1997 3 "Reactor Radiation, National Institute of Standards and Technology, Gaithersburg, maryland 20899" "Phys.Rev.B,55(1997)6584"
106318 PR05506584 ErNi2B2C Er1Ni2B2C1 Er 1 Ni 2 B 2 C 1 1997 4.8 LuNi2B2C A 3.5019 10.558 K 11 11 Magnet order and crystal structure in the superconducting RNi2B2C materials 1997 3 "Reactor Radiation, National Institute of Standards and Technology, Gaithersburg, maryland 20899" "Phys.Rev.B,55(1997)6584"
106319 PR05506584 TmNi2B2C Tm1Ni2B2C1 Tm 1 Ni 2 B 2 C 1 1997 1.53 LuNi2B2C A 3.4866 10.586 K 11 11 Magnet order and crystal structure in the superconducting RNi2B2C materials 1997 3 "Reactor Radiation, National Institute of Standards and Technology, Gaithersburg, maryland 20899" "Phys.Rev.B,55(1997)6584"
106320 PR05506584 Yb1Ni2B2C1 Yb 1 Ni 2 B 2 C 1 1997 A 3.4782 10.607 K Magnet order and crystal structure in the superconducting RNi2B2C materials 1997 3 "Reactor Radiation, National Institute of Standards and Technology, Gaithersburg, maryland 20899" "Phys.Rev.B,55(1997)6584"
106321 PR05506584 Gd1Ni2B2C1 Gd 1 Ni 2 B 2 C 1 1997 19 K Magnet order and crystal structure in the superconducting RNi2B2C materials 1997 3 "Reactor Radiation, National Institute of Standards and Technology, Gaithersburg, maryland 20899" "Phys.Rev.B,55(1997)6584"
106322 JSC1450159 stuble. by high-temp synthesis. Figure shows Tc vs x in. HT-Mo6Se8-xSx HT-Mo6Se8-xSx Mo6Se8 Mo 6 Se 8 1999 Chevrel K 6.28 6.28 MTC6322 First Example of Molybdenum Atoms in the Network of High Temperature Chevrel Phases: Moy[Mo6Se8-xSx] 1999 "Laboratoire de Chimie du Solide et Inorganique Moleculaire(LCSIM), UMR CNRS 6511,Universite de Rennes-1, Avenue du General Leclerc, 35042 Rennes Cedex, France" J.Solid State Chem.145(1999)159-166
106323 JSC1450159 metastable. obtained by soft chemistry process from HT-Mo6Se8-xSx. Figure shows Tc vs x in alpha-Mo6Se8-xSx alpha-Mo6Se8-xSx Mo6Se8 Mo 6 Se 8 1999 Chevrel K 6.13 6.13 MTC6323 First Example of Molybdenum Atoms in the Network of High Temperature Chevrel Phases: Moy[Mo6Se8-xSx] 1999 "Laboratoire de Chimie du Solide et Inorganique Moleculaire(LCSIM), UMR CNRS 6511,Universite de Rennes-1, Avenue du General Leclerc, 35042 Rennes Cedex, France" J.Solid State Chem.145(1999)159-166
106324 PLA0750386 Sc2Fe3Si5 Sc2Fe3Si5 Sc 2 Fe 3 Si 5 1980 R2Fe3Si5 A 10.225 5.275 K 4.52 4.52 2 "arc-melting, then annealing in vac" Superconductivity of Rare Earth-Iron Silicides 1980 2 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Lett.A,75(1980)386-388"
106325 PLA0750386 Y2Fe3Si5 Y2Fe3Si5 Y 2 Fe 3 Si 5 1980 R2Fe3Si5 A 10.43 5.47 K 2.4 2.4 2 "arc-melting, then annealing in vac" Superconductivity of Rare Earth-Iron Silicides 1980 2 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Lett.A,75(1980)386-388"
106326 PLA0750386 Lu2Fe3Si5 Lu2Fe3Si5 Lu 2 Fe 3 Si 5 1980 R2Fe3Si5 A 10.34 5.375 K 6.1 6.1 2 "arc-melting, then annealing in vac" Superconductivity of Rare Earth-Iron Silicides 1980 2 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Lett.A,75(1980)386-388"
106327 PR02802732 Yb2Fe3Si5 Yb2Fe3Si5 Yb 2 Fe 3 Si 5 1983 1.7 R2Fe3Si5 K 0.5 arc-melting Low-temperature heat capacity of antiferromagnetic ternary rare-earth iron silicides M2Fe3Si5 1983 9 "Ames Laboratory and Department of Physics, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B,28(1983)2732-2742"
106328 PR02802732 Tm2Fe3Si5 Tm2Fe3Si5 Tm 2 Fe 3 Si 5 1983 1.06 R2Fe3Si5 K 0.5 arc-melting Low-temperature heat capacity of antiferromagnetic ternary rare-earth iron silicides M2Fe3Si5 1983 9 "Ames Laboratory and Department of Physics, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B,28(1983)2732-2742"
106329 PR02802732 "Three more Neel-T (=2.401,2.381,2.352 K) are found." Er2Fe3Si5 Er2Fe3Si5 Er 2 Fe 3 Si 5 1983 2.79 R2Fe3Si5 K 0.5 arc-melting Low-temperature heat capacity of antiferromagnetic ternary rare-earth iron silicides M2Fe3Si5 1983 9 "Ames Laboratory and Department of Physics, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B,28(1983)2732-2742"
106330 PR02802732 Ho2Fe3Si5 Ho2Fe3Si5 Ho 2 Fe 3 Si 5 1983 2.82 R2Fe3Si5 K 0.5 arc-melting Low-temperature heat capacity of antiferromagnetic ternary rare-earth iron silicides M2Fe3Si5 1983 9 "Ames Laboratory and Department of Physics, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B,28(1983)2732-2742"
106331 PR02802732 Dy2Fe3Si5 Dy2Fe3Si5 Dy 2 Fe 3 Si 5 1983 4.2 R2Fe3Si5 K 0.5 arc-melting Low-temperature heat capacity of antiferromagnetic ternary rare-earth iron silicides M2Fe3Si5 1983 9 "Ames Laboratory and Department of Physics, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B,28(1983)2732-2742"
106332 PR02802732 Another Neel-T (=7.06 K) is found. Tb2Fe3Si5 Tb2Fe3Si5 Tb 2 Fe 3 Si 5 1983 10.02 R2Fe3Si5 K 0.5 arc-melting Low-temperature heat capacity of antiferromagnetic ternary rare-earth iron silicides M2Fe3Si5 1983 9 "Ames Laboratory and Department of Physics, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B,28(1983)2732-2742"
106333 PR02802732 Gd2Fe3Si5 Gd2Fe3Si5 Gd 2 Fe 3 Si 5 1983 8.4 R2Fe3Si5 K 0.5 arc-melting Low-temperature heat capacity of antiferromagnetic ternary rare-earth iron silicides M2Fe3Si5 1983 9 "Ames Laboratory and Department of Physics, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B,28(1983)2732-2742"
106334 PR02802732 "Three more Neel-T (=7.35, 6.19, 5.05 K) are found." Sm2Fe3Si5 Sm2Fe3Si5 Sm 2 Fe 3 Si 5 1983 8.96 R2Fe3Si5 K 0.5 arc-melting Low-temperature heat capacity of antiferromagnetic ternary rare-earth iron silicides M2Fe3Si5 1983 9 "Ames Laboratory and Department of Physics, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B,28(1983)2732-2742"
106335 PHC3360010 Hc2(0) estimated from dHc2/dT. Ugamma=mJ/mol.K2. E-ph coupling const.=0.57. Sus(300)=0.39 E-4 emu/mol. Th7Ni3 Ni3Th7 Ni 3 Th 7 2000 Fe3Th7 K 1.97 1.97 kG mj/mol.K2 53 169 "arc-melt,then ANN using Ta-foil" "Magnetic and superconducting properties of A7B3 compounds (A=Th or La and B=Ni,Co,Fe or Pd,Rh,Ru)" 2000 7 "Lab. de Bajas Temperaturas, Centro Atomico Bariloche (CNEA) and CONICET, 8400 S.C. de Bariloche, Argentina" "Physica C,336(2000)10-18"
106336 PHC3360010 Hc2(0) estimated from dHc2/dT. Ugamma=mJ/mol.K2. E-ph coupling const.=0.55. Sus(300)=6.9 E-4 emu/mol. Th7Co3 Co3Th7 Co 3 Th 7 2000 Fe3Th7 K 1.8 1.8 kG 3.4 kG 2.7 mj/mol.K2 43 184 "arc-melt,then ANN using Ta-foil" "Magnetic and superconducting properties of A7B3 compounds (A=Th or La and B=Ni,Co,Fe or Pd,Rh,Ru)" 2000 7 "Lab. de Bajas Temperaturas, Centro Atomico Bariloche (CNEA) and CONICET, 8400 S.C. de Bariloche, Argentina" "Physica C,336(2000)10-18"
106337 PHC3360010 Hc2(0) estimated from dHc2/dT. Ugamma=mJ/mol.K2. E-ph coupling const.=0.58. Th7Fe3 Fe3Th7 Fe 3 Th 7 2000 Fe3Th7 K 2.1 2.1 kG 5 kG 3.4 mj/mol.K2 57 178 "arc-melt,then ANN using Ta-foil" "Magnetic and superconducting properties of A7B3 compounds (A=Th or La and B=Ni,Co,Fe or Pd,Rh,Ru)" 2000 7 "Lab. de Bajas Temperaturas, Centro Atomico Bariloche (CNEA) and CONICET, 8400 S.C. de Bariloche, Argentina" "Physica C,336(2000)10-18"
106338 PHC3360010 Hc2(0) estimated from dHc2/dT. Ugamma=mJ/mol.K2. E-ph coupling const.=0.55. Sus(300)=1.0 E-4 emu/mol. La7Pd3 La7Pd3 La 7 Pd 3 2000 Fe3Th7 K 1.48 1.48 kG 2.8 kG 2.7 mj/mol.K2 47 152 "arc-melt,then ANN using Ta-foil" "Magnetic and superconducting properties of A7B3 compounds (A=Th or La and B=Ni,Co,Fe or Pd,Rh,Ru)" 2000 7 "Lab. de Bajas Temperaturas, Centro Atomico Bariloche (CNEA) and CONICET, 8400 S.C. de Bariloche, Argentina" "Physica C,336(2000)10-18"
106339 PHC3360010 Hc2(0) estimated from dHc2/dT. Ugamma=mJ/mol.K2. E-ph coupling const.=0.64. Sus(300)=3.3 E-4 emu/mol. La7Rh3 La7Rh3 La 7 Rh 3 2000 Fe3Th7 K 2.6 2.6 kG 7.28 kG 4 mj/mol.K2 48 160 "arc-melt,then ANN using Ta-foil" "Magnetic and superconducting properties of A7B3 compounds (A=Th or La and B=Ni,Co,Fe or Pd,Rh,Ru)" 2000 7 "Lab. de Bajas Temperaturas, Centro Atomico Bariloche (CNEA) and CONICET, 8400 S.C. de Bariloche, Argentina" "Physica C,336(2000)10-18"
106340 PHC3360010 Hc2(0) estimated from dHc2/dT. Ugamma=mJ/mol.K2. E-ph coupling const.=0.58. Sus(300)=2.8 E-4 emu/mol. La7Ru3 La7Ru3 La 7 Ru 3 2000 Fe3Th7 K 1.92 1.92 kG 8.06 kG 6 mj/mol.K2 42 165 "arc-melt,then ANN using Ta-foil" "Magnetic and superconducting properties of A7B3 compounds (A=Th or La and B=Ni,Co,Fe or Pd,Rh,Ru)" 2000 7 "Lab. de Bajas Temperaturas, Centro Atomico Bariloche (CNEA) and CONICET, 8400 S.C. de Bariloche, Argentina" "Physica C,336(2000)10-18"
106341 LTP1051511 SrTa2S5 Sr1Ta2S5 Sr 1 Ta 2 S 5 1996 A 3.32 24.1 hexagonal K 3.16 3.16 Superconductivity in SrTa2S5 1996 "J.Low Temp.Phys., 105(1996)1511"
106342 JSC1160392 BaTa2S5 Ba1Ta2S5 Ba 1 Ta 2 S 5 1995 A 3.3258 25.208 hexagonal K 2.88 2.88 Superconducting and Normal State Properties of Barium Tantalum Sulfide 1995 "National Institute for Research in Inorganic Materials, 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" J.Solid State Chem.116(1991)392-399
106343 JSC1160392 BaTa2S5 Ba1Ta2S5 Ba 1 Ta 2 S 5 1995 A 3.3204 25.005 hexagonal K 3.14 3.14 Superconducting and Normal State Properties of Barium Tantalum Sulfide 1995 "National Institute for Research in Inorganic Materials, 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" J.Solid State Chem.116(1991)392-399
106344 EPJ0120013 Tc from ESR and M/H measurements. Gap=2delta/kTc NaxWO3 Na0.05W1O3 Na 0.05 W 1 O 3 1999 CaTiO3 "CaTiO3, perovskite" K 91 91 3.5 Electron spin resonance and magnetic susceptibility suggest superconductivity in Na doped WO3 samples 1999 1 "Physik-Institut der Universitat Zurich, 8057 Zurich, Switzerland" "Eur.Phys.J.B,12(1999)13-15"
106345 EPJ0090001 surface superconductor. Zero resistivity was not observed. NaxWO3 Na0.05W1O3 Na 0.05 W 1 O 3 1999 CaTiO3 "CaTiO3, perovskite" K 91 91 "0.5 at % Na-WO3 powder, then heat treated." Possible nucleation of a 2D superconducting phase on WO3 single crystals surface doped with Na+ 1999 1 "Department of Materials and Interfaces, The Weizmann Institute of Science, Rehovot 76100, Israel" "Eur.Phys.J.B,9(1999)1-4"
106346 PR05312389 not s/c under 1 atm. Pressure induced s/c. Tc(max)=3.13 K at about 9 kBar. dTc/dP is in K/GPa for s/c state. Tm2Fe3Si5 Tm2Fe3Si5 Tm 2 Fe 3 Si 5 1 1996 1.1 R2Fe3Si5 A 10.37 5.405 K 3.13 0 3.13 K/GPa 4.7 "arc-melting, then annealing in vac" Influence of phase composition on the reentrant superconducting properties of Tm2Fe3Si5 1996 5 "Physikalisches Institut, Universita""t Bayreuth,95440 Bayreuth, Germany" "Phys.Rev.B,53(1996)12389" "Tm, Fe, Si"
106347 PHC3150091 "(Ho,La)Ni2B2C" Ho0.8La0.2Ni2B2C1 Ho 0.8 La 0.2 Ni 2 B 2 C 1 1 1999 LuNi2B2C A 3.55 10.4554 K 1.3 1.3 arc-melting "Suppression of superconductivity by non magnetic impurities, structural properties and magnetic ordering in HoxLa1-xNi2B2C" 1999 4 "Institute fur Festkorper-und Werkstofforschung Dresden, Postfach 270016, D-01171 Dresden, Germany" "Physica C,315(1999)91-98"
106348 PHC3150091 "(Ho,La)Ni2B2C" Ho0.9La0.1Ni2B2C1 Ho 0.9 La 0.1 Ni 2 B 2 C 1 1 1999 LuNi2B2C A 3.522 10.5138 K 2.25 2.25 arc-melting "Suppression of superconductivity by non magnetic impurities, structural properties and magnetic ordering in HoxLa1-xNi2B2C" 1999 4 "Institute fur Festkorper-und Werkstofforschung Dresden, Postfach 270016, D-01171 Dresden, Germany" "Physica C,315(1999)91-98"
106349 PHC3150091 "(Ho,La)Ni2B2C" Ho0.93La0.07Ni2B2C1 Ho 0.93 La 0.07 Ni 2 B 2 C 1 1 1999 LuNi2B2C K 3 3 arc-melting "Suppression of superconductivity by non magnetic impurities, structural properties and magnetic ordering in HoxLa1-xNi2B2C" 1999 4 "Institute fur Festkorper-und Werkstofforschung Dresden, Postfach 270016, D-01171 Dresden, Germany" "Physica C,315(1999)91-98"
106350 PHC3150091 "(Ho,La)Ni2B2C" Ho0.95La0.05Ni2B2C1 Ho 0.95 La 0.05 Ni 2 B 2 C 1 1 1999 LuNi2B2C K 6.62 6.62 arc-melting "Suppression of superconductivity by non magnetic impurities, structural properties and magnetic ordering in HoxLa1-xNi2B2C" 1999 4 "Institute fur Festkorper-und Werkstofforschung Dresden, Postfach 270016, D-01171 Dresden, Germany" "Physica C,315(1999)91-98"
106351 PHC3150091 "(Ho,La)Ni2B2C" Ho0.97La0.03Ni2B2C1 Ho 0.97 La 0.03 Ni 2 B 2 C 1 1 1999 LuNi2B2C K 7.44 7.44 arc-melting "Suppression of superconductivity by non magnetic impurities, structural properties and magnetic ordering in HoxLa1-xNi2B2C" 1999 4 "Institute fur Festkorper-und Werkstofforschung Dresden, Postfach 270016, D-01171 Dresden, Germany" "Physica C,315(1999)91-98"
106352 PHC3150091 HoNi2B2C Ho1Ni2B2C1 Ho 1 Ni 2 B 2 C 1 1 1999 LuNi2B2C A 3.5146 10.5262 K 8.56 8.56 arc-melting "Suppression of superconductivity by non magnetic impurities, structural properties and magnetic ordering in HoxLa1-xNi2B2C" 1999 4 "Institute fur Festkorper-und Werkstofforschung Dresden, Postfach 270016, D-01171 Dresden, Germany" "Physica C,315(1999)91-98"
106435 JPC0097419 quenched sample La3Ni La3Ni1 La 3 Ni 1 1 1997 A 7.271 10.243 6.647 orthorhombic K 2.4 2.4 "arc melting-ANN(500C,1week)" "Magnetic and superconducting behaviour of the R3Ni (R=La, Gd, Tb, Ho and Er) systems" 1997 "Low-Teperature Physics Group, Tata Institute of Fundamental Research, Homi Bhabha Road, Bombay 400 005, India" "J.Phys.C,9(1997)7419"
108000 LTP0510179 "Delta-C/gamma*Tc=2.1, gamma (in mJ/K2.gat)" Nb3Al Al0.24Nb0.76 Al 0.24 Nb 0.76 1 1983 Cr3Si(A15) A 5.186 "Cr3Si, A15" K 18.7 18.7 3 5.6 2 mj/mol.K2 9 283 arc-melting Effect of Self-Annealing and Reirradiation on the Specific Heat of Nb3Al 1983 "Los Alamos National Laboratory, Los Alamos, New Mexico" "J.Low Temp.Phys., 51(1983)179"
108001 LTP0510179 "neutron fluence = 0.18E+19 n/cm2. Delta-C/gamma*Tc=2.4, gamma (in mJ/K2.gat)" Nb3Al Al0.24Nb0.76 Al 0.24 Nb 0.76 1 1983 Cr3Si(A15) "Cr3Si, A15" K 16.9 16.9 3 4.7 2 mj/mol.K2 7.5 315 arc-melting + neutron irrad. Effect of Self-Annealing and Reirradiation on the Specific Heat of Nb3Al 1983 "Los Alamos National Laboratory, Los Alamos, New Mexico" "J.Low Temp.Phys., 51(1983)179"
108002 LTP0510179 "neutron fluence = 1.5E+19 n/cm2. Delta-C/gamma*Tc=1.6, gamma (in mJ/K2.gat)" Nb3Al Al0.24Nb0.76 Al 0.24 Nb 0.76 1 1983 Cr3Si(A15) "Cr3Si, A15" K 7.1 7.1 3 3.4 2 mj/mol.K2 4.5 arc-melting + neutron irrad. Effect of Self-Annealing and Reirradiation on the Specific Heat of Nb3Al 1983 "Los Alamos National Laboratory, Los Alamos, New Mexico" "J.Low Temp.Phys., 51(1983)179"
108003 LTP0510179 "neutron fluence = 3.8E+19 n/cm2. Delta-C/gamma*Tc=1.4, gamma (in mJ/K2.gat)" Nb3Al Al0.24Nb0.76 Al 0.24 Nb 0.76 1 1983 Cr3Si(A15) "Cr3Si, A15" K 3.9 3.9 3 3.2 2 mj/mol.K2 3.5 367 arc-melting + neutron irrad. Effect of Self-Annealing and Reirradiation on the Specific Heat of Nb3Al 1983 "Los Alamos National Laboratory, Los Alamos, New Mexico" "J.Low Temp.Phys., 51(1983)179"
108004 PR0291189 "Delta-C/gamma*Tc=2.29, gamma (in mJ/K2.gat)" Nb3Al Al1Nb3 Al 1 Nb 3 1984 Cr3Si(A15) A 5.18 "Cr3Si, A15" K 16.84 16.84 mj/mol.K2 9.4 328 arc-melt + ANN+Q Specific heat and magnetic susceptibility of nearly stoichiometric and homogeneous Nb3Al 1984 2 "Phys.Rev.B, 29(1984)1189"
108005 PR0291189 "Delta-C/gamma*Tc=2.35, gamma (in mJ/K2.gat)" Nb3Al Al1Nb3 Al 1 Nb 3 1984 Cr3Si(A15) A 5.18 "Cr3Si, A15" K 18.45 18.45 mj/mol.K2 11.24 296 arc-melt + ANN+Q+ANN Specific heat and magnetic susceptibility of nearly stoichiometric and homogeneous Nb3Al 1984 2 "Phys.Rev.B, 29(1984)1189"
108006 LTP0480503 gap parameter derived from BCS-relation. Nb3Sn Nb3Sn1 Nb 3 Sn 1 1982 Cr3Si(A15) "Cr3Si, A15" K 18 18 4.1 2 mj/mol.K2 11.4 170 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
108007 LTP0480503 gap parameter derived from BCS-relation. Nb3Al Al1Nb3 Al 1 Nb 3 1982 Cr3Si(A15) "Cr3Si, A15" K 18.2 18.2 3.55 2 mj/mol.K2 13.9 171 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
108008 LTP0480503 gap parameter derived from BCS-relation. Nb3Ge Ge1Nb3 Ge 1 Nb 3 1982 Cr3Si(A15) "Cr3Si, A15" K 5.9 5.9 3.36 2 mj/mol.K2 7.64 230 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
108009 LTP0480503 gap parameter derived from BCS-relation. Mo6Se8 Mo6Se8 Mo 6 Se 8 1982 Chevrel K 6.3 6.3 3.75 2 mj/mol.K2 40 145 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
108010 LTP0480503 gap parameter derived from BCS-relation. Mo6Se6Br2 Mo6Se6Br2 Mo 6 Se 6 Br 2 1982 Chevrel K 6.7 6.7 3.92 2 mj/mol.K2 44 130 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
108011 LTP0480503 gap parameter derived from BCS-relation. CuMo6Se8 Cu1Mo6Se8 Cu 1 Mo 6 Se 8 1982 Chevrel K 5.9 5.9 3.23 2 mj/mol.K2 40 155 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
108012 LTP0480503 gap parameter derived from BCS-relation. LaMo6Se8 La1Mo6Se8 La 1 Mo 6 Se 8 1982 Chevrel K 11.6 11.6 3.57 2 mj/mol.K2 83 150 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
108013 LTP0480503 CdMo6Se8 Cd1Mo6Se8 Cd 1 Mo 6 Se 8 1982 Chevrel K 2.4 2.4 mj/mol.K2 55 145 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
108014 LTP0480503 SnMo6Se8 Sn1Mo6Se8 Sn 1 Mo 6 Se 8 1982 Chevrel K 3.4 3.4 mj/mol.K2 26.3 140 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
108015 LTP0480503 PbMo6Se8 Pb1Mo6Se8 Pb 1 Mo 6 Se 8 1982 Chevrel K 4 4 mj/mol.K2 31 125 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
108016 LTP0480503 gap parameter derived from BCS-relation. AgMo6S8 Ag1Mo6S8 Ag 1 Mo 6 S 8 1982 Chevrel K 7.7 7.7 3.58 2 mj/mol.K2 30 180 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
108017 LTP0480503 GdMo6S8 Gd1Mo6S8 Gd 1 Mo 6 S 8 1982 Chevrel K 1.8 1.8 mj/mol.K2 27 145 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
108018 LTP0480503 gap parameter derived from BCS-relation. SnMo6S8 Sn1Mo6S8 Sn 1 Mo 6 S 8 1982 Chevrel K 11.7 11.7 3.53 2 mj/mol.K2 107 135 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
108019 LTP0480503 gap parameter derived from BCS-relation. PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 1982 Chevrel K 13.7 13.7 3.48 2 mj/mol.K2 125 140 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
108020 LTP0480503 gap parameter derived from BCS-relation. LaMo6S8 La1Mo6S8 La 1 Mo 6 S 8 1982 Chevrel K 6.8 6.8 3.31 2 mj/mol.K2 22.6 180 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
108021 LTP0480503 Mo6S8 Mo6S8 Mo 6 S 8 1982 Chevrel K 1.8 1.8 mj/mol.K2 28.3 230 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
108022 LTP0480503 gap parameter derived from BCS-relation. Mo6S6Br2 Mo6S6Br2 Mo 6 S 6 Br 2 1982 Chevrel K 13 13 3.5 2 mj/mol.K2 71.5 195 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
108023 LTP0480503 gap parameter derived from BCS-relation. Mo6S6I2 Mo6S6I2 Mo 6 S 6 I 2 1982 Chevrel K 13 13 3.55 2 mj/mol.K2 64 170 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
108024 LTP0480503 gap parameter derived from BCS-relation. Cu1.8Mo6S8 Cu1.8Mo6S8 Cu 1.8 Mo 6 S 8 1982 Chevrel K 10.7 10.7 3.46 2 mj/mol.K2 48.5 250 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
108025 LTP0480503 ZnMo6S8 Zn1Mo6S8 Zn 1 Mo 6 S 8 1982 Chevrel K 2.8 2.8 mj/mol.K2 25.3 225 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
108026 PR0243794 C(T) measured upto 16 K. Nb3Al Al1Nb3 Al 1 Nb 3 1981 Cr3Si(A15) "Cr3Si, A15" K 18.7 18.7 mj/mol.K2 36 272 arc-melt+ANN Specific-heat studies of neutron-irradiated A15 Nb3Al 1981 10 "Phys.Rev.B, 24(1981)3794"
108027 PR0243794 neutron irrad. (1.3E+18 n/cm2). C(T) measured upto 16 K. Nb3Al Al1Nb3 Al 1 Nb 3 1981 Cr3Si(A15) "Cr3Si, A15" K 17.9 17.9 mj/mol.K2 34 276 arc-melt+ANN+irrad. Specific-heat studies of neutron-irradiated A15 Nb3Al 1981 10 "Phys.Rev.B, 24(1981)3794"
108028 PR0243794 neutron irrad. (1.3E+19 n/cm2). C(T) measured upto 16 K. Nb3Al Al1Nb3 Al 1 Nb 3 1981 Cr3Si(A15) "Cr3Si, A15" K 9.9 9.9 mj/mol.K2 17 325 arc-melt+ANN+irrad. Specific-heat studies of neutron-irradiated A15 Nb3Al 1981 10 "Phys.Rev.B, 24(1981)3794"
108029 APL0470640 Hc2(0) estimated from dHc2/dT using WHH theory Nb-Al Al0.245Nb0.725 Al 0.245 Nb 0.725 1985 Cr3Si(A15) "Cr3Si, A15" K 18.4 18.4 T 32 T/K 2.49 MHC8029 arc-melt+ANN+Q "High magnetic field transport properties of liquid quenched Nb3Al and Nb3Al(Si,Ge) superconducting compounds" 1985 "Division of Applied Science, Harvard University, Cambridge, Massachusetts, USA" "Appl.Phys. Lett., 47(1985)640"
108030 APL0470640 Hc2(0) estimated from dHc2/dT using WHH theory Nb-Al-Si Nb0.747Al0.239Si0.014 Nb 0.747 Al 0.239 Si 0.014 1985 Cr3Si(A15) "Cr3Si, A15" K 18 18 T 36 T/K 2.88 MHC8030 arc-melt+ANN+Q "High magnetic field transport properties of liquid quenched Nb3Al and Nb3Al(Si,Ge) superconducting compounds" 1985 "Division of Applied Science, Harvard University, Cambridge, Massachusetts, USA" "Appl.Phys. Lett., 47(1985)640"
108031 APL0470640 Hc2(0) estimated from dHc2/dT using WHH theory Nb-Al-Ge Nb0.758Al0.174Ge0.069 Nb 0.758 Al 0.174 Ge 0.069 1985 Cr3Si(A15) "Cr3Si, A15" K 19.7 19.7 T 42 T/K 3.06 MHC8031 arc-melt+ANN+Q "High magnetic field transport properties of liquid quenched Nb3Al and Nb3Al(Si,Ge) superconducting compounds" 1985 "Division of Applied Science, Harvard University, Cambridge, Massachusetts, USA" "Appl.Phys. Lett., 47(1985)640"
108032 LTP0560051 Nb3Al Al1Nb3 Al 1 Nb 3 1984 Cr3Si(A15) A 5.183 "Cr3Si, A15" K 18.6 18.6 T/K 2.45 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108033 SLB0750423 Nb3Al Al1Nb3 Al 1 Nb 3 1975 Cr3Si(A15) "Cr3Si, A15" K 18.7 18.7 T 33 T/K 2.56 arc-melt+ANN 1975 "Colloq.Int. CNRS, No.242 (1975)423"
108034 LTP0560051 "(Nb,Zr)3Al" Nb2.97Zr0.03Al1 Nb 2.97 Zr 0.03 Al 1 1984 Cr3Si(A15) A 5.187 "Cr3Si, A15" K 17.4 17.4 kG/K 22.4 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108035 LTP0560051 "(Nb,Zr)3Al" Nb2.91Zr0.09Al1 Nb 2.91 Zr 0.09 Al 1 1984 Cr3Si(A15) A 5.198 "Cr3Si, A15" K 14.6 14.6 kG/K 21.3 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108036 LTP0560051 "Nb3(Al,Ge)" Nb3Al0.75Ge0.25 Nb 3 Al 0.75 Ge 0.25 1984 Cr3Si(A15) A 5.174 "Cr3Si, A15" K 19.8 19.8 kG/K 26.8 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108037 LTP0560051 "Nb3(Al,Ga)" Nb3Al0.75Ga0.3 Nb 3 Al 0.75 Ga 0.3 1984 Cr3Si(A15) A 5.179 "Cr3Si, A15" K 19.1 19.1 kG/K 25.6 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108038 LTP0560051 "(Nb,Zr)3Al" Nb2.9925Zr0.0075Al1 Nb 2.9925 Zr 0.0075 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 17.6 17.6 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108039 LTP0560051 "(Nb,Zr)3Al" Nb2.973Zr0.027Al1 Nb 2.973 Zr 0.027 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 16.6 16.6 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108040 LTP0560051 "(Nb,Zr)3Al" Nb2.927Zr0.073Al1 Nb 2.927 Zr 0.073 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 14.8 14.8 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108041 LTP0560051 "(Nb,Zr)3Al" Nb2.859Zr0.141Al1 Nb 2.859 Zr 0.141 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 13.6 13.6 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108042 LTP0560051 "(Nb,Hf)3Al" Nb2.985Hf0.015Al1 Nb 2.985 Hf 0.015 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 18 18 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108043 LTP0560051 "(Nb,Hf)3Al" Nb2.919Hf0.081Al1 Nb 2.919 Hf 0.081 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 16.5 16.5 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108044 LTP0560051 "(Nb,Hf)3Al" Nb2.85Hf0.15Al1 Nb 2.85 Hf 0.15 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 14.4 14.4 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108045 LTP0560051 "(Nb,Ti)3Al" Nb2.976Ti0.024Al1 Nb 2.976 Ti 0.024 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 17.7 17.7 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108046 LTP0560051 "(Nb,Ti)3Al" Nb2.9175Ti0.0825Al1 Nb 2.9175 Ti 0.0825 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 16 16 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108047 LTP0560051 "(Nb,Ti)3Al" Nb2.88Ti0.12Al1 Nb 2.88 Ti 0.12 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 15 15 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108048 LTP0560051 "(Nb,Ti)3Al" Nb2.778Ti0.222Al1 Nb 2.778 Ti 0.222 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 13 13 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108049 LTP0560051 "(Nb,Ti)3Al" Nb2.73Ti0.27Al1 Nb 2.73 Ti 0.27 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 11.5 11.5 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108050 LTP0560051 "(Nb,Ti)3Al" Nb2.58Ti0.42Al1 Nb 2.58 Ti 0.42 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 9 9 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108051 LTP0560051 "(Nb,W)3Al" Nb2.97W0.03Al1 Nb 2.97 W 0.03 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 18 18 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108052 LTP0560051 "(Nb,W)3Al" Nb2.94W0.06Al1 Nb 2.94 W 0.06 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 17.2 17.2 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108053 LTP0560051 "(Nb,W)3Al" Nb2.895W0.105Al1 Nb 2.895 W 0.105 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 16 16 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108054 LTP0560051 "(Nb,W)3Al" Nb2.85W0.15Al1 Nb 2.85 W 0.15 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 15.2 15.2 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108055 LTP0560051 "(Nb,Mo)3Al" Nb2.85Mo0.15Al1 Nb 2.85 Mo 0.15 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 15.5 15.5 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108056 LTP0560051 "(Nb,Mo)3Al" Nb2.775Mo0.225Al1 Nb 2.775 Mo 0.225 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 13.8 13.8 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108057 LTP0560051 "(Nb,Mo)3Al" Nb2.7Mo0.3Al1 Nb 2.7 Mo 0.3 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 12.3 12.3 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108058 LTP0560051 "(Nb,Ta)3Al" Nb2.94Ta0.06Al1 Nb 2.94 Ta 0.06 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 17.7 17.7 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108059 LTP0560051 "(Nb,Ta)3Al" Nb2.85Ta0.15Al1 Nb 2.85 Ta 0.15 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 16.8 16.8 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108060 LTP0560051 "(Nb,Ta)3Al" Nb2.739Ta0.261Al1 Nb 2.739 Ta 0.261 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 15.4 15.4 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108061 LTP0560051 "(Nb,Ta)3Al" Nb2.64Ta0.36Al1 Nb 2.64 Ta 0.36 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 14.5 14.5 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108062 LTP0560051 "(Nb,V)3Al" Nb2.859V0.141Al1 Nb 2.859 V 0.141 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 17.2 17.2 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108063 LTP0560051 "(Nb,V)3Al" Nb2.706V0.294Al1 Nb 2.706 V 0.294 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 15.6 15.6 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108064 LTP0560051 "(Nb,V)3Al" Nb2.55V0.45Al1 Nb 2.55 V 0.45 Al 1 1984 Cr3Si(A15) "Cr3Si, A15" K 14 14 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108065 LTP0560051 "Nb3(Al,Se)" Nb3Al0.98Se0.02 Nb 3 Al 0.98 Se 0.02 1984 Cr3Si(A15) "Cr3Si, A15" K 18.4 18.4 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108066 LTP0560051 "Nb3(Al,Se)" Nb3Al0.967Se0.033 Nb 3 Al 0.967 Se 0.033 1984 Cr3Si(A15) "Cr3Si, A15" K 18.1 18.1 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108067 LTP0560051 "Nb3(Al,Se)" Nb3Al0.952Se0.048 Nb 3 Al 0.952 Se 0.048 1984 Cr3Si(A15) "Cr3Si, A15" K 18 18 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108068 LTP0560051 "Nb3(Al,Se)" Nb3Al0.94Se0.06 Nb 3 Al 0.94 Se 0.06 1984 Cr3Si(A15) "Cr3Si, A15" K 17.8 17.8 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108069 LTP0560051 "Nb3(Al,Se)" Nb3Al0.924Se0.076 Nb 3 Al 0.924 Se 0.076 1984 Cr3Si(A15) "Cr3Si, A15" K 17.6 17.6 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108070 LTP0560051 "Nb3(Al,Se)" Nb3Al0.9Se0.1 Nb 3 Al 0.9 Se 0.1 1984 Cr3Si(A15) "Cr3Si, A15" K 17.6 17.6 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108071 LTP0560051 "Nb3(Al,Si)" Nb3Al0.985Si0.015 Nb 3 Al 0.985 Si 0.015 1984 Cr3Si(A15) "Cr3Si, A15" K 18.6 18.6 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108072 LTP0560051 "Nb3(Al,Si)" Nb3Al0.975Si0.025 Nb 3 Al 0.975 Si 0.025 1984 Cr3Si(A15) "Cr3Si, A15" K 18.5 18.5 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108073 LTP0560051 "Nb3(Al,Si)" Nb3Al0.964Si0.036 Nb 3 Al 0.964 Si 0.036 1984 Cr3Si(A15) "Cr3Si, A15" K 18.4 18.4 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108074 LTP0560051 "Nb3(Al,Si)" Nb3Al0.956Si0.044 Nb 3 Al 0.956 Si 0.044 1984 Cr3Si(A15) "Cr3Si, A15" K 18.5 18.5 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108075 LTP0560051 "Nb3(Al,Si)" Nb3Al0.945Si0.055 Nb 3 Al 0.945 Si 0.055 1984 Cr3Si(A15) "Cr3Si, A15" K 18.4 18.4 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108076 LTP0560051 "Nb3(Al,Si)" Nb3Al0.935Si0.065 Nb 3 Al 0.935 Si 0.065 1984 Cr3Si(A15) "Cr3Si, A15" K 18.4 18.4 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108077 LTP0560051 "Nb3(Al,Ga)" Nb3Al0.983Ga0.017 Nb 3 Al 0.983 Ga 0.017 1984 Cr3Si(A15) "Cr3Si, A15" K 18.8 18.8 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108078 LTP0560051 "Nb3(Al,Ga)" Nb3Al0.967Ga0.033 Nb 3 Al 0.967 Ga 0.033 1984 Cr3Si(A15) "Cr3Si, A15" K 19 19 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108079 LTP0560051 "Nb3(Al,Ga)" Nb3Al0.95Ga0.05 Nb 3 Al 0.95 Ga 0.05 1984 Cr3Si(A15) "Cr3Si, A15" K 19.2 19.2 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108080 LTP0560051 "Nb3(Al,Ga)" Nb3Al0.927Ga0.073 Nb 3 Al 0.927 Ga 0.073 1984 Cr3Si(A15) "Cr3Si, A15" K 19.2 19.2 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108081 LTP0560051 "Nb3(Al,Ga)" Nb3Al0.907Ga0.093 Nb 3 Al 0.907 Ga 0.093 1984 Cr3Si(A15) "Cr3Si, A15" K 19.1 19.1 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108082 LTP0560051 "Nb3(Al,Ge)" Nb3Al0.991Ge0.009 Nb 3 Al 0.991 Ge 0.009 1984 Cr3Si(A15) "Cr3Si, A15" K 19 19 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108083 LTP0560051 "Nb3(Al,Ge)" Nb3Al0.98Ge0.02 Nb 3 Al 0.98 Ge 0.02 1984 Cr3Si(A15) "Cr3Si, A15" K 19.3 19.3 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108084 LTP0560051 "Nb3(Al,Ge)" Nb3Al0.97Ge0.03 Nb 3 Al 0.97 Ge 0.03 1984 Cr3Si(A15) "Cr3Si, A15" K 19.6 19.6 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108085 PR05600437 single crystal TmNi2B2C Tm1Ni2B2C1 Tm 1 Ni 2 B 2 C 1 3 1997 LuNi2B2C K 10.9 10.9 Ni2B flux method. "Electrical resistivity and thermopower of single-crystal RNi2B2C (R=Dy,Ho,er,Tm) magnetic superconductors" 1997 7 "Physics Department , Taxas A&M University, College Station, Texas 77843-4242 and Physics Department, University of Hyderabad, Hyderabad 500046, India" "Phys.Rev,B56(1997)437-445"
108086 LTP0560051 "Nb3(Al,Ge)" Nb3Al0.96Ge0.04 Nb 3 Al 0.96 Ge 0.04 1984 Cr3Si(A15) "Cr3Si, A15" K 19.8 19.8 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108087 LTP0560051 "Nb3(Al,Ge)" Nb3Al0.95Ge0.05 Nb 3 Al 0.95 Ge 0.05 1984 Cr3Si(A15) "Cr3Si, A15" K 20 20 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108088 LTP0560051 "Nb3(Al,Ge)" Nb3Al0.94Ge0.06 Nb 3 Al 0.94 Ge 0.06 1984 Cr3Si(A15) "Cr3Si, A15" K 20 20 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108089 LTP0560051 "Nb3(Al,Ge)" Nb3Al0.93Ge0.07 Nb 3 Al 0.93 Ge 0.07 1984 Cr3Si(A15) "Cr3Si, A15" K 20 20 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108090 LTP0560051 "Nb3(Al,Ge)" Nb3Al0.92Ge0.08 Nb 3 Al 0.92 Ge 0.08 1984 Cr3Si(A15) "Cr3Si, A15" K 19.9 19.9 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108091 LTP0560051 "Nb3(Al,Ge)" Nb3Al0.91Ge0.09 Nb 3 Al 0.91 Ge 0.09 1984 Cr3Si(A15) "Cr3Si, A15" K 19.8 19.8 arc-melt+ANN The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
108092 PLA0380323 Hc2(4.2K)=336 kG Nb-Ga Ga0.32Nb0.68 Ga 0.32 Nb 0.68 1972 K 20.2 20.2 arc-melt+ANN Upper critical fields of NbxGa1-x: A binary high temperature superconductor 1972 2 "Francis Bitter National Magnet Laboratory, Massachusetts,USA" "Phys.Lett.A,38()323"
108093 PLA0380323 Nb-Ga Ga0.245Nb0.755 Ga 0.245 Nb 0.755 1972 K 20.2 20.2 kG 341 kG/K 24.3 arc-melt+ANN Upper critical fields of NbxGa1-x: A binary high temperature superconductor 1972 2 "Francis Bitter National Magnet Laboratory, Massachusetts,USA" "Phys.Lett.A,38()323"
108094 PLA0380323 Hc2(4.2K)=199 kG Nb-Ga Ga0.3Nb0.7 Ga 0.3 Nb 0.7 1972 K 16.3 16.3 kG 220 kG/K 19.5 arc-melt+ANN Upper critical fields of NbxGa1-x: A binary high temperature superconductor 1972 2 "Francis Bitter National Magnet Laboratory, Massachusetts,USA" "Phys.Lett.A,38()323"
108095 PLA0380323 Hc2(4.2K)=295 kG Nb-Ga Ga0.19Nb0.81 Ga 0.19 Nb 0.81 1972 K 13.3 13.3 arc-melt+ANN Upper critical fields of NbxGa1-x: A binary high temperature superconductor 1972 2 "Francis Bitter National Magnet Laboratory, Massachusetts,USA" "Phys.Lett.A,38()323"
108096 PLA0380323 Hc2(4.2K)=310 kG "Nb3(Al,Ga)" Nb3Al0.5Ga0.5 Nb 3 Al 0.5 Ga 0.5 1972 Cr3Si(A15) "Cr3Si, A15" K 19 19 kG 316 kG/K 24 arc-melt+ANN Upper critical fields of NbxGa1-x: A binary high temperature superconductor 1972 2 "Francis Bitter National Magnet Laboratory, Massachusetts,USA" "Phys.Lett.A,38()323"
108097 PLA0380323 Hc2(4.2K)=295 kG Nb3Al Al1Nb3 Al 1 Nb 3 1972 Cr3Si(A15) "Cr3Si, A15" K 18.6 18.6 kG 330 kG/K 25.6 arc-melt+ANN Upper critical fields of NbxGa1-x: A binary high temperature superconductor 1972 2 "Francis Bitter National Magnet Laboratory, Massachusetts,USA" "Phys.Lett.A,38()323"
108098 PLA0380323 Hc2(4.2K)=410 kG "Nb3(Al,Ga)" Nb0.79Al0.164Ga0.057 Nb 0.79 Al 0.164 Ga 0.057 1972 Cr3Si(A15) "Cr3Si, A15" K 20.7 20.7 kG 439 kG/K 30.6 arc-melt+ANN Upper critical fields of NbxGa1-x: A binary high temperature superconductor 1972 2 "Francis Bitter National Magnet Laboratory, Massachusetts,USA" "Phys.Lett.A,38()323"
108099 JPS0350108 "Nb3(Al,B)" Nb3Al0.9B0.1 Nb 3 Al 0.9 B 0.1 1973 Cr3Si(A15) "Cr3Si, A15" K 19.8 19.8 arc-melt+WQ+ANN Superconductivity near 20K in Ternary and Quaternary Alloys Based upon Nb3Al 1973 "Central Research Laboratory, Hitachi,Ltd.,Kokubunji,Tokyo" "J.Phys.Soc.Jpn, 35(1973)108"
108100 JPS0350108 "Nb3(Al,B)" Nb3Al0.8B0.2 Nb 3 Al 0.8 B 0.2 1973 Cr3Si(A15) "Cr3Si, A15" K 17.8 17.8 arc-melt+WQ+ANN Superconductivity near 20K in Ternary and Quaternary Alloys Based upon Nb3Al 1973 "Central Research Laboratory, Hitachi,Ltd.,Kokubunji,Tokyo" "J.Phys.Soc.Jpn, 35(1973)108"
108101 JPS0350108 "Nb3(Al,B)" Al1Nb3 Al 1 Nb 3 1973 Cr3Si(A15) "Cr3Si, A15" K 17.8 17.8 arc-melt+WQ+ANN Superconductivity near 20K in Ternary and Quaternary Alloys Based upon Nb3Al 1973 "Central Research Laboratory, Hitachi,Ltd.,Kokubunji,Tokyo" "J.Phys.Soc.Jpn, 35(1973)108"
108102 JPS0350108 "Nb3(Al,Be)" Nb3Al0.95Be0.05 Nb 3 Al 0.95 Be 0.05 1973 Cr3Si(A15) "Cr3Si, A15" K 19.8 19.8 arc-melt+WQ+ANN Superconductivity near 20K in Ternary and Quaternary Alloys Based upon Nb3Al 1973 "Central Research Laboratory, Hitachi,Ltd.,Kokubunji,Tokyo" "J.Phys.Soc.Jpn, 35(1973)108"
108103 JPS0350108 "Nb3(Al,Be)" Nb3Al0.9Be0.1 Nb 3 Al 0.9 Be 0.1 1973 Cr3Si(A15) "Cr3Si, A15" K 19.8 19.8 arc-melt+WQ+ANN Superconductivity near 20K in Ternary and Quaternary Alloys Based upon Nb3Al 1973 "Central Research Laboratory, Hitachi,Ltd.,Kokubunji,Tokyo" "J.Phys.Soc.Jpn, 35(1973)108"
108104 JPS0350108 "Nb3(Al,Be)" Nb3Al0.8Be0.2 Nb 3 Al 0.8 Be 0.2 1973 Cr3Si(A15) "Cr3Si, A15" K 17 17 arc-melt+WQ+ANN Superconductivity near 20K in Ternary and Quaternary Alloys Based upon Nb3Al 1973 "Central Research Laboratory, Hitachi,Ltd.,Kokubunji,Tokyo" "J.Phys.Soc.Jpn, 35(1973)108"
108105 JPS0350108 "Nb3(Al,Be)" Nb3Al0.7Be0.3 Nb 3 Al 0.7 Be 0.3 1973 Cr3Si(A15) "Cr3Si, A15" K 14 14 arc-melt+WQ+ANN Superconductivity near 20K in Ternary and Quaternary Alloys Based upon Nb3Al 1973 "Central Research Laboratory, Hitachi,Ltd.,Kokubunji,Tokyo" "J.Phys.Soc.Jpn, 35(1973)108"
108106 PHC3070245 delta-C/gamma*Tc = 1.06. G-L parameter = 44.85 Zr2Rh Rh1Zr2 Rh 1 Zr 2 1998 CuAl2 "CuAl2, C16" K 11.2 11.2 Oe 254 T 7 A 28.24 A 1266.72 mj/mol.K2 68 214 arc-melting Superconducting state parameters of C-16 structured Zr2Rh 1998 10 "Technical Physics and Prototype Engineering Division, Bhabha Atomic Research Centre, Bombay 400 085, india" "Physica.C,307(1998)245-253"
108107 PHC3070245 Zr2RhHx Zr2Rh1H0.08 Zr 2 Rh 1 H 0.08 1998 CuAl2 "CuAl2, C16" K 11.1 11.1 heating Zr2RhH2 in vac Superconducting state parameters of C-16 structured Zr2Rh 1998 10 "Technical Physics and Prototype Engineering Division, Bhabha Atomic Research Centre, Bombay 400 085, india" "Physica.C,307(1998)245-253"
108108 PHC3070245 Zr2RhHx Zr2Rh1H0.1 Zr 2 Rh 1 H 0.1 1998 CuAl2 "CuAl2, C16" K 10.8 10.8 heating Zr2RhH2 in vac Superconducting state parameters of C-16 structured Zr2Rh 1998 10 "Technical Physics and Prototype Engineering Division, Bhabha Atomic Research Centre, Bombay 400 085, india" "Physica.C,307(1998)245-253"
108109 PHC3070245 Zr2RhHx Zr2Rh1H0.28 Zr 2 Rh 1 H 0.28 1998 CuAl2 "CuAl2, C16" K 8.8 8.8 heating Zr2RhH2 in vac Superconducting state parameters of C-16 structured Zr2Rh 1998 10 "Technical Physics and Prototype Engineering Division, Bhabha Atomic Research Centre, Bombay 400 085, india" "Physica.C,307(1998)245-253"
108110 PHC3070245 Zr2RhHx Zr2Rh1H0.7 Zr 2 Rh 1 H 0.7 1998 CuAl2 "CuAl2, C16" K 6 6 heating Zr2RhH2 in vac Superconducting state parameters of C-16 structured Zr2Rh 1998 10 "Technical Physics and Prototype Engineering Division, Bhabha Atomic Research Centre, Bombay 400 085, india" "Physica.C,307(1998)245-253"
108111 PHC3070079 2*delta/k:Tc = 4.0 +-0.5. Energy gap by Raman spectroscopy. Rb3C60 C60Rb3 C 60 Rb 3 1998 fullerene K 31 31 4 By annealing sublimation grown C60 single crystal Determination of the superconducting energy gap of Rb3C60 by electronic Raman scattering 1998 10 "2. Physikalisches Institut, RWTH-Aachen, 52056, Aachen, Germany" "Physica.C,307(1998)79-86"
108112 PSS0770759 Nb0.75Al0.19Ge0.06 Nb 0.75 Al 0.19 Ge 0.06 1983 Cr3Si(A15) A 5.182 "Cr3Si, A15" K 20.9 20.9 T/K 3.1 sintering + ANN Superconductivity and Decay Phenomena of Nb3Al-Nb3Ge Solid Solutions 1983 "Institute of Inorganic Chemistry, Academy of Sciences of the USSR, Siberian Branch, Novosibirsk" "Physica Stat.Solidi A,77(1983)759"
108113 PR06006668 not s/c "U(Pt,Pd)3" U1Pt2.97Pd0.03 U 1 Pt 2.97 Pd 0.03 1999 1.6 K Neutron-diffraction study of the evolution of antiferromagnetic order in UPt3 doped with Pd 1999 9 "Van der Waals-Zeeman Institute, University of Amsterdam, Valckenierstraat 65, 1018 XE Amsterdam, The Netherlands" "Phys.Rev.B,60(1999)6668-6677"
108114 PR06006668 not s/c "U(Pt,Pd)3" U1Pt2.94Pd0.06 U 1 Pt 2.94 Pd 0.06 1999 3.4 K Neutron-diffraction study of the evolution of antiferromagnetic order in UPt3 doped with Pd 1999 9 "Van der Waals-Zeeman Institute, University of Amsterdam, Valckenierstraat 65, 1018 XE Amsterdam, The Netherlands" "Phys.Rev.B,60(1999)6668-6677"
108115 PR06006668 not s/c "U(Pt,Pd)3" U1Pt2.85Pd0.15 U 1 Pt 2.85 Pd 0.15 1999 5.8 K Neutron-diffraction study of the evolution of antiferromagnetic order in UPt3 doped with Pd 1999 9 "Van der Waals-Zeeman Institute, University of Amsterdam, Valckenierstraat 65, 1018 XE Amsterdam, The Netherlands" "Phys.Rev.B,60(1999)6668-6677"
108116 PR05815153 gamma in mj/mol.K2. Tc by specific heat "(U,Th)Be13" Be13U1 Be 13 U 1 1998 K 0.941 0.941 mj/mol.K2 995 arc-melting Specific heat study in U1-xThxBe13: Enormous delta C and strong coupling at x = xc1 and 1998 "Institut fue Physik, Universitat Augsburg, Universitatsstrasse 1, 86159 Augsburg, Germany" "Phys.Rev.B,58(1998)15153-15159"
108117 PR05815153 gamma in mj/mol.K2. Tc by specific heat "(U,Th)Be13" U0.99Th0.01Be13 U 0.99 Th 0.01 Be 13 1998 A 10.2564 K 0.624 0.624 mj/mol.K2 1630 arc-melting Specific heat study in U1-xThxBe13: Enormous delta C and strong coupling at x = xc1 and 1998 "Institut fue Physik, Universitat Augsburg, Universitatsstrasse 1, 86159 Augsburg, Germany" "Phys.Rev.B,58(1998)15153-15159"
108118 PR05815153 gamma in mj/mol.K2. Tc by specific heat "(U,Th)Be13" U0.983Th0.017Be13 U 0.983 Th 0.017 Be 13 1998 A 10.2573 K 0.525 0.525 mj/mol.K2 1700 arc-melting Specific heat study in U1-xThxBe13: Enormous delta C and strong coupling at x = xc1 and 1998 "Institut fue Physik, Universitat Augsburg, Universitatsstrasse 1, 86159 Augsburg, Germany" "Phys.Rev.B,58(1998)15153-15159"
108119 PR05815153 gamma in mj/mol.K2. Tc by specific heat "(U,Th)Be13" U0.9822Th0.0178Be13 U 0.9822 Th 0.0178 Be 13 1998 A 10.2574 K 0.519 0.519 mj/mol.K2 2060 arc-melting Specific heat study in U1-xThxBe13: Enormous delta C and strong coupling at x = xc1 and 1998 "Institut fue Physik, Universitat Augsburg, Universitatsstrasse 1, 86159 Augsburg, Germany" "Phys.Rev.B,58(1998)15153-15159"
108120 PR05815153 gamma in mj/mol.K2. Tc by specific heat "(U,Th)Be13" U0.9815Th0.0185Be13 U 0.9815 Th 0.0185 Be 13 1998 A 10.2576 K 0.519 0.519 mj/mol.K2 2000 arc-melting Specific heat study in U1-xThxBe13: Enormous delta C and strong coupling at x = xc1 and 1998 "Institut fue Physik, Universitat Augsburg, Universitatsstrasse 1, 86159 Augsburg, Germany" "Phys.Rev.B,58(1998)15153-15159"
108121 PR05815153 second Tc=0.425. gamma in mj/mol.K2. Tc by specific heat "(U,Th)Be13" U0.978Th0.022Be13 U 0.978 Th 0.022 Be 13 1998 A 10.2584 K 0.558 0.558 mj/mol.K2 2610 arc-melting Specific heat study in U1-xThxBe13: Enormous delta C and strong coupling at x = xc1 and 1998 "Institut fue Physik, Universitat Augsburg, Universitatsstrasse 1, 86159 Augsburg, Germany" "Phys.Rev.B,58(1998)15153-15159"
108122 PR05815153 second Tc=0.353. gamma in mj/mol.K2. Tc by specific heat "(U,Th)Be13" U0.97Th0.03Be13 U 0.97 Th 0.03 Be 13 1998 A 10.2588 K 0.585 0.585 mj/mol.K2 2615 arc-melting Specific heat study in U1-xThxBe13: Enormous delta C and strong coupling at x = xc1 and 1998 "Institut fue Physik, Universitat Augsburg, Universitatsstrasse 1, 86159 Augsburg, Germany" "Phys.Rev.B,58(1998)15153-15159"
108123 PR05815153 second Tc=0.396. gamma in mj/mol.K2. Tc by specific heat "(U,Th)Be13" U0.962Th0.038Be13 U 0.962 Th 0.038 Be 13 1998 A 10.2607 K 0.532 0.532 mj/mol.K2 2820 arc-melting Specific heat study in U1-xThxBe13: Enormous delta C and strong coupling at x = xc1 and 1998 "Institut fue Physik, Universitat Augsburg, Universitatsstrasse 1, 86159 Augsburg, Germany" "Phys.Rev.B,58(1998)15153-15159"
108124 PR05815153 second Tc=0.465. gamma in mj/mol.K2. Tc by specific heat "(U,Th)Be13" U0.957Th0.043Be13 U 0.957 Th 0.043 Be 13 1998 A 10.261 K 0.533 0.533 mj/mol.K2 2230 arc-melting Specific heat study in U1-xThxBe13: Enormous delta C and strong coupling at x = xc1 and 1998 "Institut fue Physik, Universitat Augsburg, Universitatsstrasse 1, 86159 Augsburg, Germany" "Phys.Rev.B,58(1998)15153-15159"
108125 PR05815153 gamma in mj/mol.K2. Tc by specific heat "(U,Th)Be13" U0.9545Th0.0455Be13 U 0.9545 Th 0.0455 Be 13 1998 A 10.2618 K 0.46 0.46 mj/mol.K2 2535 arc-melting Specific heat study in U1-xThxBe13: Enormous delta C and strong coupling at x = xc1 and 1998 "Institut fue Physik, Universitat Augsburg, Universitatsstrasse 1, 86159 Augsburg, Germany" "Phys.Rev.B,58(1998)15153-15159"
108126 PR05815153 gamma in mj/mol.K2. Tc by specific heat "(U,Th)Be13" U0.9535Th0.0465Be13 U 0.9535 Th 0.0465 Be 13 1998 A 10.262 K 0.415 0.415 mj/mol.K2 2415 arc-melting Specific heat study in U1-xThxBe13: Enormous delta C and strong coupling at x = xc1 and 1998 "Institut fue Physik, Universitat Augsburg, Universitatsstrasse 1, 86159 Augsburg, Germany" "Phys.Rev.B,58(1998)15153-15159"
108127 PR05815153 gamma in mj/mol.K2. Tc by specific heat "(U,Th)Be13" U0.948Th0.052Be13 U 0.948 Th 0.052 Be 13 1998 A 10.2626 K 0.38 0.38 mj/mol.K2 1935 arc-melting Specific heat study in U1-xThxBe13: Enormous delta C and strong coupling at x = xc1 and 1998 "Institut fue Physik, Universitat Augsburg, Universitatsstrasse 1, 86159 Augsburg, Germany" "Phys.Rev.B,58(1998)15153-15159"
108128 PR06003056 single crystal "U(Pt,Pd)3" Pt3U1 Pt 3 U 1 3 1999 K 0.547 0.547 Czochralski method Suppression of superconductivity in single crystals of UPt3 by Pd substitution 1999 8 "Department of Physics, Boston College, Chestnut Hill, Massachusetts 02467" "Phys.Rev.B,60(1999)3056-3059"
108129 PR06003056 single crystal "U(Pt,Pd)3" U1Pt2.997Pd0.003 U 1 Pt 2.997 Pd 0.003 3 1999 K 0.447 0.447 Czochralski method Suppression of superconductivity in single crystals of UPt3 by Pd substitution 1999 8 "Department of Physics, Boston College, Chestnut Hill, Massachusetts 02467" "Phys.Rev.B,60(1999)3056-3059"
108130 PR06003056 single crystal "U(Pt,Pd)3" U1Pt2.994Pd0.006 U 1 Pt 2.994 Pd 0.006 3 1999 K 0.4 0.4 Czochralski method Suppression of superconductivity in single crystals of UPt3 by Pd substitution 1999 8 "Department of Physics, Boston College, Chestnut Hill, Massachusetts 02467" "Phys.Rev.B,60(1999)3056-3059"
108131 PHB2590666 "poly crystal, heavy Fermion" "U(Pt,Pd)3" Pt3U1 Pt 3 U 1 1999 K 0.57 0.57 Studies of superconductivity in U(Pt1-xPdx)3 for x<0.006 1999 1 "Department of Physics, Boston College, Chestnut Hill, MA 02167, USA" "Physica B,259(1999)666-667"
108132 PHB2590666 "poly crystal, heavy Fermion" "U(Pt,Pd)3" U1Pt2.991Pd0.009 U 1 Pt 2.991 Pd 0.009 1999 K 0.35 0.35 Studies of superconductivity in U(Pt1-xPdx)3 for x<0.006 1999 1 "Department of Physics, Boston College, Chestnut Hill, MA 02167, USA" "Physica B,259(1999)666-667"
108133 PHB2590666 "poly crystal, heavy Fermion" "U(Pt,Pd)3" U1Pt2.988Pd0.012 U 1 Pt 2.988 Pd 0.012 1999 K 0.24 0.24 Studies of superconductivity in U(Pt1-xPdx)3 for x<0.006 1999 1 "Department of Physics, Boston College, Chestnut Hill, MA 02167, USA" "Physica B,259(1999)666-667"
108134 PHC2260385 gamma in mj/mol.K2. E-ph coupling = 0.38 Zr2Fe Fe1Zr2 Fe 1 Zr 2 1994 CuAl2 A 6.385 5.593 "CuAl2, C16" K 0.17 0.17 mj/mol.K2 16.5 248 Band filling and superconductivity in Zr2M compounds 1994 6 "Physica C, 226(1994)385-390" "Zr,Fe,Co,Ni,Rh"
108135 PHC2260385 gamma in mj/mol.K2. E-ph coupling = 0.72 Zr2Co Co1Zr2 Co 1 Zr 2 1994 CuAl2 A 6.364 5.524 "CuAl2, C16" K 5.2 5.2 mj/mol.K2 23.7 256 Band filling and superconductivity in Zr2M compounds 1994 6 "Physica C, 226(1994)385-390" "Zr,Fe,Co,Ni,Rh"
108136 PHC2260385 gamma in mj/mol.K2. E-ph coupling = 0.49 Zr2Ni Ni1Zr2 Ni 1 Zr 2 1994 CuAl2 A 6.263 5.263 "CuAl2, C16" K 2 2 mj/mol.K2 20.1 252 Band filling and superconductivity in Zr2M compounds 1994 6 "Physica C, 226(1994)385-390" "Zr,Fe,Co,Ni,Rh"
108137 PHC2260385 gamma in mj/mol.K2. E-ph coupling = 1.13 Zr2Rh Rh1Zr2 Rh 1 Zr 2 1994 CuAl2 A 6.629 5.629 "CuAl2, C16" K 11.2 11.2 mj/mol.K2 68 214 Band filling and superconductivity in Zr2M compounds 1994 6 "Physica C, 226(1994)385-390" "Zr,Fe,Co,Ni,Rh"
108138 PR05800497 gamma in mj/mol.K2 by fitting for 1.5Nb NQR measured. Nb0.75Al0.225Ga0.025 Nb 0.75 Al 0.225 Ga 0.025 1980 Cr3Si(A15) "Cr3Si, A15" K 19.1 19.1 arc-melt + ANN 1980 "Fiz. Met. Metallovd, 50(1980)526"
109001 LB82LEV1 "Tc shows the maximum value. SEM, EDX" Nb0.75Al0.16Ga0.09 Nb 0.75 Al 0.16 Ga 0.09 1982 Cr3Si(A15) A 5.188 "Cr3Si, A15" K 19.45 19.45 "film 0n Nb, evaporation" 1982 "Phys.Met.,4(1982)719"
109002 LTP0560051 Nb0.75Al0.175Ga0.075 Nb 0.75 Al 0.175 Ga 0.075 1984 Cr3Si(A15) A 5.179 "Cr3Si, A15" K 19.1 19.1 T/K 2.56 arc-melt +ANN(1923K) +ANN(973K The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
109003 MSE0990195 This Tc value was obtained on splat cooled samples of 0.15 mm thickness. Nb0.75Al0.2Ge0.05 Nb 0.75 Al 0.2 Ge 0.05 1988 Cr3Si(A15) "Cr3Si, A15" K 16.5 16.5 melt +splat cool Dependence of Tc on the Cooling Conditions for Liquid-quenched A15 Chemical Compounds 1988 "Department of Materials Science, Tokai University, Hiratsuka, Japan" "Mater.Sci.Eng., 99(1988)195"
109004 SSC0580277 EXAFS Nb0.75Al0.185Ge0.065 Nb 0.75 Al 0.185 Ge 0.065 1986 Cr3Si(A15) A 5.173 "Cr3Si, A15" K 20.26 20.26 not given Extended X-ray Absorption Fine Structure Investigations of Nb3Ge0.26Al0.74 1986 "Department of Physics, State University of New York at Stony Brook, Stony Brook, NY 11794, USA" "Solid State Commun.,58(1986)277"
109005 JPF0161299 Raman Nb0.75Al0.1875Ge0.0625 Nb 0.75 Al 0.1875 Ge 0.0625 1986 K 20 20 arc-melt +ANN(973K) 1986 "J.Phys.F:Met.Phys., 16(1986)1299"
109006 APL0490046 "The reactin to A15 took place during the electron beam irradiation(20kV, 5-30mA). Jc(4.2K)=1E+4 A/cm2 at 25T." Nb0.75Al0.02Ge0.05 Nb 0.75 Al 0.02 Ge 0.05 1986 K 19.8 19.8 tape(100 um) +ANN(973K) "Fabrication of Nb3Al and Nb3(Al,Ge) superconducting composite tapes by electron beam irradiation" 1986 "National Research Institute for Metals, Tsukuba Laboratories 1-2-1, Sengen, Tsukuba, Ibaraki 305, JAPAN" "Appl.Phys.Lett.,49(1986)46"
109007 APL0470640 minor phase = D8(b). Jc(4.2K)=2E+4 A/cm2 at 28T. Nb2Al precipitates are located in the A15 grain boundaries (grain size = 300 nm) Nb0.75Al0.19Ge0.06 Nb 0.75 Al 0.19 Ge 0.06 1985 Cr3Si(A15) "Cr3Si, A15" K 20 20 T 43 T/K 3.12 arc-melt +ANN(1123K) "High magnetic field transport properties of liquid quenched Nb3Al and Nb3Al(Si,Ge) superconducting compounds" 1985 "Division of Applied Science, Harvard University, Cambridge, Massachusetts, USA" "Appl.Phys. Lett., 47(1985)640"
109008 LTP0560051 minor phase = D8(b) Nb0.75Al0.18Ge0.07 Nb 0.75 Al 0.18 Ge 0.07 1984 Cr3Si(A15) A 5.174 "Cr3Si, A15" K 19.8 19.8 T/K 2.68 arc-melt +ANN(1123K) The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
109009 BL83BAR1 Thermal conductivity was measured upto 50K at 0 and 10T of magnetic field. Nb0.79Al0.16Ge0.05 Nb 0.79 Al 0.16 Ge 0.05 1983 K 21 21 not given 1983 "Izv.VMEI Lenin, 5(1983)133"
109010 BL83PLE1 "For irradiation fluence = 0, 0.05, 0.5, 1.0, 4.0 *E+18 n/cm2, Tc = 17.9, 18.05, 18.6, 18.25, 17.95 K." Nb0.75Al0.175Ge0.075 Nb 0.75 Al 0.175 Ge 0.075 1983 K 17.9 17.9 arc-melt +ANN +irradiation 1983 "Fizikas un technisko zinatnu serija, 4(1983)41"
109011 EEE0190414 Minor phase = A2. Splat cooled on a Cu held at 873K. The A2 to A15 phase transformation takes place gradually. Jc = 4E+5 A/cm2 at 16 T. Nb0.75Al0.2Ge0.05 Nb 0.75 Al 0.2 Ge 0.05 1983 Cr3Si(A15) A 5.183 "Cr3Si, A15" K 18.6 18.6 "foil, splat cool +ANN(973-1173K)" Nb3(Al.Ge) superconductors prepared by hot-substrate liquid-quenching and subsequent annealing 1983 "National Research Institute for Metals 1-2-1, Sengen, Tukuba, Ibaraki 305, JAPAN" "IEEE Trans.Magn., MAG-19(1983)414"
109012 BL81DUK1 Tape prepared by diffusion couples of Nb and Al-Ge. Hc2(4.2K)=41 T. Nb0.75Al0.2Ge0.05 Nb 0.75 Al 0.2 Ge 0.05 1981 Cr3Si(A15) A 5.179 "Cr3Si, A15" K 20 20 T/K 3.8 "tape, react(1673 ...2323 K)" 1981 "Phys.Mat.,3(1981)55"
109013 SSC0280005 minor phase = Tetra. C(T) measured upto 25 K. 2*delta/kTc = 4.9. Nb0.75Al0.21Ge0.04 Nb 0.75 Al 0.21 Ge 0.04 1978 Cr3Si(A15) A 5.1728 "Cr3Si, A15" K 20 20 mj/mol.K2 8.75 278 arc-melt +ANN(1273K) Specific Heat of A-15 Nb3Al0.83Ge0.21 1978 "Los Alamos Scientific Laboratory, University of California, Los Alamos, N.M. 87545 USA" "Solid State Commun., 28(1978)5"
109014 SSC0210519 Nb0.75Al0.2Ge0.05 Nb 0.75 Al 0.2 Ge 0.05 1977 Cr3Si(A15) "Cr3Si, A15" K 18.5 18.5 mj/mol.K2 7.71 303 arc-melt Heat Capacity of the Nb3Al0.8Ge0.2 Compounds 1977 "Bergakademie, Freiberg, DDR" "Solid State Commun., 21(1977)519"
109015 SSC0210519 Nb0.75Al0.2Ge0.05 Nb 0.75 Al 0.2 Ge 0.05 1977 Cr3Si(A15) "Cr3Si, A15" K 19.7 19.7 mj/mol.K2 7.54 295 arc-melt +ANN(1273K) Heat Capacity of the Nb3Al0.8Ge0.2 Compounds 1977 "Bergakademie, Freiberg, DDR" "Solid State Commun., 21(1977)519"
109016 PSS0770129 Al0.25Nb0.75 Al 0.25 Nb 0.75 1976 Cr3Si(A15) "Cr3Si, A15" K 18.6 18.6 arc-melt+ANN(1925K +973K) Superconductivity of Nb3Al Base Ternary Solid Solutions 1976 "Institute of Metallurgy and Institute of Physical Problems, Moscow" "Phys.Status Solidi (b), 77(1976)K129"
109017 PSS0770129 Nb0.75Al0.23Ge0.02 Nb 0.75 Al 0.23 Ge 0.02 1976 Cr3Si(A15) "Cr3Si, A15" K 19.2 19.2 arc-melt+ANN(1925K +973K) Superconductivity of Nb3Al Base Ternary Solid Solutions 1976 "Institute of Metallurgy and Institute of Physical Problems, Moscow" "Phys.Status Solidi (b), 77(1976)K129"
109018 PSS0770129 Nb0.75Al0.21Ge0.04 Nb 0.75 Al 0.21 Ge 0.04 1976 Cr3Si(A15) "Cr3Si, A15" K 19.7 19.7 arc-melt+ANN(1925K +973K) Superconductivity of Nb3Al Base Ternary Solid Solutions 1976 "Institute of Metallurgy and Institute of Physical Problems, Moscow" "Phys.Status Solidi (b), 77(1976)K129"
109019 PSS0770129 Nb0.75Al0.19Ge0.06 Nb 0.75 Al 0.19 Ge 0.06 1976 Cr3Si(A15) "Cr3Si, A15" K 20 20 arc-melt+ANN(1925K +973K) Superconductivity of Nb3Al Base Ternary Solid Solutions 1976 "Institute of Metallurgy and Institute of Physical Problems, Moscow" "Phys.Status Solidi (b), 77(1976)K129"
109020 PSS0770129 Nb0.75Al0.17Ge0.08 Nb 0.75 Al 0.17 Ge 0.08 1976 Cr3Si(A15) "Cr3Si, A15" K 19.8 19.8 arc-melt+ANN(1925K +973K) Superconductivity of Nb3Al Base Ternary Solid Solutions 1976 "Institute of Metallurgy and Institute of Physical Problems, Moscow" "Phys.Status Solidi (b), 77(1976)K129"
109021 PSS0770129 Nb0.75Al0.16Ge0.09 Nb 0.75 Al 0.16 Ge 0.09 1976 Cr3Si(A15) "Cr3Si, A15" K 19.7 19.7 arc-melt+ANN(1925K +973K) Superconductivity of Nb3Al Base Ternary Solid Solutions 1976 "Institute of Metallurgy and Institute of Physical Problems, Moscow" "Phys.Status Solidi (b), 77(1976)K129"
109022 JET0380525 dTc/dp=0.09 K/Gpa Nb0.768Al0.146Ge0.086 Nb 0.768 Al 0.146 Ge 0.086 1974 Cr3Si(A15) A 5.175 "Cr3Si, A15" K 17.4 17.4 K/GPa 0.09 melt +ANN(1923K) Effect of high hydrostatic pressure and residual strain on the superconductivity of Nb-Al-Ge alloys with an A15-type structure 1974 3 "Institute of Chemical Physics, USSR Academy of Sciences" "Sov.Phys.JETP, 38(1973)525"
109023 JET0380525 dTc/dp=0.12 K/Gpa Nb0.76Al0.18Ge0.06 Nb 0.76 Al 0.18 Ge 0.06 1974 Cr3Si(A15) A 5.177 "Cr3Si, A15" K 17.88 17.88 K/GPa 0.12 melt +ANN(1923K) Effect of high hydrostatic pressure and residual strain on the superconductivity of Nb-Al-Ge alloys with an A15-type structure 1974 3 "Institute of Chemical Physics, USSR Academy of Sciences" "Sov.Phys.JETP, 38(1973)525"
109024 JET0380525 dTc/dp= -0.02 K/Gpa Nb0.75Al0.225Ge0.025 Nb 0.75 Al 0.225 Ge 0.025 1974 Cr3Si(A15) A 5.18 "Cr3Si, A15" K 17.9 17.9 K/GPa -0.02 melt +ANN(1923K) Effect of high hydrostatic pressure and residual strain on the superconductivity of Nb-Al-Ge alloys with an A15-type structure 1974 3 "Institute of Chemical Physics, USSR Academy of Sciences" "Sov.Phys.JETP, 38(1973)525"
109025 BL72ASH1 Nb0.75Al0.2Ge0.05 Nb 0.75 Al 0.2 Ge 0.05 1972 Cr3Si(A15) "Cr3Si, A15" K 15 15 T 30 film( on Al2O3) by sputter 1972 "AIP Conf.Proc.No.4, ed by D.H.Douglass: Am.Inst.Phys., (1972)204"
109026 APJ0090845 Nb0.75Al0.2Ge0.05 Nb 0.75 Al 0.2 Ge 0.05 1970 Cr3Si(A15) "Cr3Si, A15" K T 48 arc-melt +ANN(1023K) Upper Critical Field of High Superconducting Transition Temperature Nb3Al0.75Ge0.25 Alloy at 4.2K 1970 "Department of Physics, College of Science and Engineering, Nihon University, Chiyoda-ku, Tokyo" "Jpn.J.Appl.Phys.,9(1970)845"
109027 JTL0090016 Nb0.71Al0.203Ge0.087 Nb 0.71 Al 0.203 Ge 0.087 1969 Cr3Si(A15) A 5.1744 "Cr3Si, A15" K T 38 T/K 3 arc-melt 1969 "JETP Lett.,9(1969)16"
109028 ZPS2150323 Nb0.75Al0.178Ge0.072 Nb 0.75 Al 0.178 Ge 0.072 1968 Cr3Si(A15) "Cr3Si, A15" K 20.1 20.1 T/K 2.9 arc-melt +ANN(1073K) Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.Phys., 215(1968)323"
109029 APL0470640 Jc(4.2K)=1*E+4 A/cm2 at 27 T. Nb0.73Al0.255Si0.015 Nb 0.73 Al 0.255 Si 0.015 1985 K 18.7 18.7 T 35 T/K 2.74 arc-melt +ANN(1123K) "High magnetic field transport properties of liquid quenched Nb3Al and Nb3Al(Si,Ge) superconducting compounds" 1985 "Division of Applied Science, Harvard University, Cambridge, Massachusetts, USA" "Appl.Phys. Lett., 47(1985)640"
109030 LB74YAS1 Hc2(4.2K)=27 T Al0.25Nb0.75 Al 0.25 Nb 0.75 1974 Cr3Si(A15) "Cr3Si, A15" K 17.1 17.1 T/K 2.6 arc-melt 1974 "Proc.5th Int.Cryog.Eng.Conf.(ICEC5),Kyoto,(1974)473"
109031 LB74YAS1 Hc2(4.2K)=29.2 T Nb0.75Al0.225Si0.025 Nb 0.75 Al 0.225 Si 0.025 1974 Cr3Si(A15) "Cr3Si, A15" K 16.4 16.4 T/K 2.9 arc-melt 1974 "Proc.5th Int.Cryog.Eng.Conf.(ICEC5),Kyoto,(1974)473"
109032 LB74YAS1 Hc2(4.2K)=22.4 T Nb0.75Al0.2Si0.05 Nb 0.75 Al 0.2 Si 0.05 1974 Cr3Si(A15) "Cr3Si, A15" K 15.4 15.4 T/K 2.65 arc-melt 1974 "Proc.5th Int.Cryog.Eng.Conf.(ICEC5),Kyoto,(1974)473"
109033 LB74YAS1 Hc2(4.2K)=22.3 T Nb0.75Al0.15Si0.1 Nb 0.75 Al 0.15 Si 0.1 1974 Cr3Si(A15) "Cr3Si, A15" K 15.4 15.4 T/K 2.45 arc-melt 1974 "Proc.5th Int.Cryog.Eng.Conf.(ICEC5),Kyoto,(1974)473"
109034 LTP0560051 Nb0.7275Zr0.0225Al0.25 Nb 0.7275 Zr 0.0225 Al 0.25 1984 Cr3Si(A15) A 5.198 "Cr3Si, A15" K 14.6 14.6 T/K 2.13 arc-melt +ANN(1923K) The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
109035 LTP0560051 Nb0.7425Zr0.0075Al0.25 Nb 0.7425 Zr 0.0075 Al 0.25 1984 Cr3Si(A15) A 5.187 "Cr3Si, A15" K 17.4 17.4 T/K 2.24 arc-melt +ANN(1923K) The Volume Dependence of Tc of Ternary A-15 Phases 1984 "International Laboratory of High Magnetic Fields and Low Temperatures, Wroclaw, Poland" "J.Low Temp.Phys., 56(1984)51"
109036 LB63JOH1 Nb3Al2C1 Nb 3 Al 2 C 1 1963 A 2.67 8.02 hexagonal K 4.2 Hot-press +ANN(1270K) 1963 Univ.Calif.EO.Lawrence Red.Lab Annual Report(1963)131
109037 LB84KUH1 Nb3Al2Cr1C1 Nb 3 Al 2 Cr 1 C 1 1984 Fe3W3C "Fe3W3C, E9[3]" K 1.5 arc-melt +ANN(1070-1520K) 1984 "J.Phys.,22(1984)59"
109038 LB84KUH1 Nb3Al2Cu1C1 Nb 3 Al 2 Cu 1 C 1 1984 Fe3W3C "Fe3W3C, E9[3]" K 1.5 arc-melt +ANN(1070-1520K) 1984 "J.Phys.,22(1984)59"
109039 LB84KUH1 Nb3Al2V1C1 Nb 3 Al 2 V 1 C 1 1984 Fe3W3C "Fe3W3C, E9[3]" K 1.5 arc-melt +ANN(1070-1520K) 1984 "J.Phys.,22(1984)59"
109040 LES0100029 Nb3Al2N1 Nb 3 Al 2 N 1 1966 beta-Mn "beta-Mn, A13" K 1.3 "powder, SIN(1073K)+Hot press(1473K)" The Superconducting Behavior of Several Complex Carbides and Nitrides 1966 "School of Mineral and Metallurgical Engineering, University of Minnesota, Minneapolis, Minn. U.S.A." "J.Less-Common Metals,10(1966)29"
109041 JAP0533719 "minor phase = Ti3P. Ti3P phase: a=10.298 , c=5.195 A." As1Nb3 As 1 Nb 3 1982 Cr3Si(A15) "Cr3Si, A15" K 6.5 6.5 T 1.82 SIN(973K+1273K) +WQ Superconductivity of the Nb3As system 1982 "Department of Physics, McMaster University, Hamilton, L8S4M1, Ontario, Canada" "J.Appl.Phys.,53(1982)3719"
109042 PR0204538 dTc/dp=0.01 K/Gpa. K=0.0017 Gpa As1Nb3 As 1 Nb 3 1979 Ti3P K 0.25 0.25 K/GPa 0.01 melt +ANN(1873K) "Effects of pressure on the structural and superconducting properties of Nb3As, Nb3Si, Nb3Ge, and Nb0.82Ge0.18" 1979 "Naval Research Laboratory, Washington, D.C. 20375" "Phys.Rev.B,20(1979)4538"
109043 PR0143856 gamma=3.6 mJ/formula.K2 As1Nb3 As 1 Nb 3 1976 Ti3P K 0.31 0.31 T/K 0.206 mj/mol.K2 3.6 400 melt(in BeO 40 atm Ar) Electronic and superconducting properties of the Ti3P-type compounds Nb3As and Nb3Si 1976 "U.S.Naval Research Laboratory, Washington, D.C." Phys.Rev.B14(1976)3856
109044 LB84PER1 "two phases (A1, A3). composition not precisely given" Au1Nb3 Au 1 Nb 3 1984 K 11.1 11.1 "Ssphere, ANN(1323K)" 1984 "LT-17, vol.3(1984)617"
109045 ZPS0230149 Au0.2Nb0.8 Au 0.2 Nb 0.8 1976 Cr3Si(A15) A 5.22 "Cr3Si, A15" K 7.9 7.9 arc-melt +ANN(1473K) Superconductivity of some splat cooled Nb-Au-Pt alloys 1976 Z.Phys.B23(1976)149
109046 JAP0414958 composition not specified. Au1Nb3 Au 1 Nb 3 1970 Cr3Si(A15) A 5.202 "Cr3Si, A15" K 10.6 10.6 sputter Radio-Frequency-Sputtered Films of beta-Tungsten Structure Compounds 1970 "RCA Laboratories, Princeton, New Jersey 08540" "J.Appl.Phys.,41(1970)4958"
109047 SSC0260669 gamma=19.2 mJ/mole.K2. Ramda(e-p)=0.48 Au1Nb3 Au 1 Nb 3 1978 W A 3.28 "W, A2" K 1.5 1.5 mj/mol.K2 19.2 305 "arc-melt, splat cooling" The Density of States of b.c.c. Nb3Au: A Comparison with A-15 Nb3Au 1978 Work completed under the auspices of the Department of Energy. "Solid State Commun., 26(1978)669"
109048 PLA0300170 gamma=9.2 mJ/gat.K2. Ramda(e-p)=0.85 Au1Nb3 Au 1 Nb 3 1969 Cr3Si(A15) "Cr3Si, A15" K 10.8 10.8 mj/mol.K2 36.8 280 arc-melt +ANN Specific Heat and Superconductivity of Nb-based A15-type Compounds 1969 "Institut de Physique de la matiere condensee, Universite de Geneve 1211 Geneve, Switzerland" "Phys.Lett.A, 30A(1969)170"
109049 SSC0300723 rho<0>=83 uOhm.cm. Hc2(4.2K)=18.0 T. Au1Nb3 Au 1 Nb 3 1979 Cr3Si(A15) A 5.202 "Cr3Si, A15" K 10.7 10.7 T 23.5 T/K 3.2 arc-melt +ANN(1323K) "Upper Critical Fields of Nb-3Au, Nb3Au0.7Pt0.3 and Nb3Pt" 1979 "Francis Bitter National Magnet Laboratory, Massachusetts, Institute of Technology, Cambridge, Massachusetts 02139, USA" "Solid State Commun., 30(1979)723"
109050 SSC0480125 irradiation (5.3*E+19 n/cm2) Au0.242Nb0.758 Au 0.242 Nb 0.758 1983 Cr3Si(A15) A 5.205 "Cr3Si, A15" K 10.56 10.56 arc-melt +ANN +irradiation The effect of atomic order on the superconducting properties of A-15 Nb3Au and Nb3Au1-xPtx alloys 1983 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093, U.S.A." "Solid State Commun., 48(1983)125"
109051 SSC0210239 DOS by XPS Au0.24Nb0.76 Au 0.24 Nb 0.76 1977 Cr3Si(A15) "Cr3Si, A15" K 10.56 10.56 arc-melt +ANN(1773 +1473K) X-Rey Photoemission spectra of valence electrons in V3x and Nb3x Compounds 1977 "Institute of Metal Physics, Ural Scientific Centre, Academy of Sciences of the USSR, Sverdlovsk, USSR" "Solid State Commun., 21(1977)239"
109052 LB74MUL1 Au0.2Nb0.8 Au 0.2 Nb 0.8 1974 Cr3Si(A15) "Cr3Si, A15" K 5 5 arc-melt +ANN(1073K) 1974 "LT-13, vol.3(1974)446"
109053 LB74MUL1 Au0.22Nb0.78 Au 0.22 Nb 0.78 1974 Cr3Si(A15) "Cr3Si, A15" K 7.6 7.6 arc-melt +ANN(1073K) 1974 "LT-13, vol.3(1974)446"
109054 LB74MUL1 Au0.24Nb0.76 Au 0.24 Nb 0.76 1974 Cr3Si(A15) "Cr3Si, A15" K 11 11 arc-melt +ANN(1073K) 1974 "LT-13, vol.3(1974)446"
109055 LB74MUL1 Au0.25Nb0.75 Au 0.25 Nb 0.75 1974 Cr3Si(A15) "Cr3Si, A15" K 11 11 arc-melt +ANN(1073K) 1974 "LT-13, vol.3(1974)446"
109056 LTP0060171 dTc/dP in K/GPa. Au1Nb3 Au 1 Nb 3 1972 Cr3Si(A15) "Cr3Si, A15" K 11.08 11.08 K/GPa 0.039 arc-melt +ANN(1053K) Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
109057 LTP0060171 dTc/dP in K/GPa. Au1Nb3 Au 1 Nb 3 1972 Cr3Si(A15) "Cr3Si, A15" K 11.23 11.23 K/GPa 0.042 arc-melt +ANN(1053K) Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
109058 LB80FLU1 Nb3Au0.7Pt0.3 Nb 3 Au 0.7 Pt 0.3 1980 Cr3Si(A15) A 5.196 "Cr3Si, A15" K 10 10 T 21 T/K 2.9 arc-melt +ANN(1823K) +Q 1980 "Supercon.in d- and f-band metal,(1980)265"
109059 LB80FLU1 Nb0.75Au0.175Pt0.075 Nb 0.75 Au 0.175 Pt 0.075 1980 Cr3Si(A15) A 5.196 "Cr3Si, A15" K 12.9 12.9 T 30 T/K 3.3 arc-melt +ANN(1023K) +Q 1980 "Supercon.in d- and f-band metal,(1980)265"
109060 PLA0300170 C measured between 1.2 and 20 K. ramda(e-p)=0.90 Nb0.75Au0.175Pt0.075 Nb 0.75 Au 0.175 Pt 0.075 1969 Cr3Si(A15) "Cr3Si, A15" K 12.8 12.8 mj/mol.K2 8.6 305 arc-melt +ANN Specific Heat and Superconductivity of Nb-based A15-type Compounds 1969 "Institut de Physique de la matiere condensee, Universite de Geneve 1211 Geneve, Switzerland" "Phys.Lett.A, 30A(1969)170"
109061 LB60SCH1 Au2Nb3 Au 2 Nb 3 1960 A 3.37 3.03 tetragonal K 1.2 1960 "Z.Metallkde,51(1960)329"
109062 LB60SCH1 Au9Nb11 Au 9 Nb 11 1960 beta-Mn A 7.04 K 1.2 1960 "Z.Metallkde,51(1960)329"
109063 LB87GUS1 gamma=2.63 mJ/gat.K2. C(T) measured upto 16 K. C0.98Nb1 C 0.98 Nb 1 1987 K 11.8 11.8 mj/mol.K2 5.207 350 SIN 1987 "Sov.Phys. Solid State, 29(1987)1082"
109064 JCP0640581 gamma=3.20 mJ/mole.K2. C(T) measured between 1.5 and 100K. C0.93Nb1 C 0.93 Nb 1 1976 NaCl "NaCl, B1" K 6.5 6.5 mj/mol.K2 3.2 496 Low temperature specific heat and phonon anomalies in transition metal compounds 1976 "Max planck Institut fur Festkorperforschung, Stuttgart, Federal Republic of Germany" "J.Chem.Phys., 64(1976)581"
109065 APL0190090 gamma=2.83 mJ/mole.K2. C1Nb1 C 1 Nb 1 1971 NaCl "NaCl, B1" K 10.95 10.95 mj/mol.K2 2.83 546 Effects of Radiation on Surface Resistance of Superconducting Niobium Cavity 1971 "Brookhaven National Laboratory, Upton, New York 11973" "Appl.Phys.Lett., 19(1971)90"
109066 LB68TOT1 gamma=1.57 mJ/gat.K2. C(T) measured between 2 and 18 K. C0.48Nb1 C 0.48 Nb 1 1968 A 5.402 4.959 epsiron-Fe2N K 1.6 mj/mol.K2 2.32 464 Hot-press +ANN(1900K) Low Temperature Heat Capacities of Superconducting Niobium and Tantalum Carbides 1968 "School of Mineral and Metallurgical Engineering, University of Minnesota, Minneapolis, Minnesota." "Acta Metall., 16(1968)1183"
109067 LB68TOT1 gamma=2.83mJ/gat.K2. C(T) measured between 2 and 18 K. see ref Nb1C0.96 Nb 1 C 0.96 1968 NaCl "NaCl, B1" K mj/mol.K2 5.55 604 Hot-press +ANN(1900K) Low Temperature Heat Capacities of Superconducting Niobium and Tantalum Carbides 1968 "School of Mineral and Metallurgical Engineering, University of Minnesota, Minneapolis, Minnesota." "Acta Metall., 16(1968)1183"
109068 LB68TOT1 gamma=2.22 mJ/gat.K2. C(T) measured between 2 and 18 K. see ref Nb1C0.86 Nb 1 C 0.86 1968 NaCl "NaCl, B1" K mj/mol.K2 4.13 542 Hot-press +ANN(1900K) Low Temperature Heat Capacities of Superconducting Niobium and Tantalum Carbides 1968 "School of Mineral and Metallurgical Engineering, University of Minnesota, Minneapolis, Minnesota." "Acta Metall., 16(1968)1183"
109069 LB68TOT1 gamma=2.11 mJ/gat.K2. C(T) measured between 2 and 18 K. see ref Nb1C0.77 Nb 1 C 0.77 1968 NaCl "NaCl, B1" K mj/mol.K2 3.73 500 Hot-press +ANN(1900K) Low Temperature Heat Capacities of Superconducting Niobium and Tantalum Carbides 1968 "School of Mineral and Metallurgical Engineering, University of Minnesota, Minneapolis, Minnesota." "Acta Metall., 16(1968)1183"
109070 LB76BUR1 C0.9Nb1 C 0.9 Nb 1 1976 K 5 5 T 3.2 1976 "Stud.Cercet.Fiz., 28(1976)549"
109071 APL0060183 "Hc2(4.2K)=1.2 T. Jc(4.2K, 8T)=20 A/cm2." C0.985Nb1 C 0.985 Nb 1 1965 K 12 12 hot-press Low Critical Currents in Superconducting NbC 1965 "Union Carbide Research Institute P.O.Box 278, Tarrytown, N.Y." "Appl.Phys.Lett.,6(1965)183"
109072 LB78KAR1 C1Nb1 C 1 Nb 1 1978 K 10.5 10.5 T 5 irradiation +ANN Influence of Reactor Irradiation on the Superconductive Properties of Niobium Carbide 1978 "Institute of Metal Physics, Urals Scientific Centre, Academy of Sciences U.S.S.R." "Phys.Met.Metallogr., 45(1978)193"
109073 APL0360856 irradiation effect. Tirr=420K C1Nb1 C 1 Nb 1 1980 NaCl "NaCl, B1" K 11.2 11.2 "The effect of neutron irradiation upon the superconducting critical temperature of some transition-metal carbides, nitrides, and carbonitrides" 1980 "Brookhaven National Laboratory, Upton, New York 11973" "Appl.Phys.Lett., 36(1980)856"
109074 PR0040084 Anodized tips of Ta were used for point contact. C0.96Nb1 C 0.96 Nb 1 1971 K 9.8 9.8 3.2 1 Gap Energy of Superconducting Niobium Carbide 1971 "Department of Physics and Materials Research Laboratory, University of Illinois, Urbana, Illinois 61801" Phys.Rev.B4(1971)84
109075 JTL0410115 C-content is not enhanced by the high pressure treatment Nb0.71Mo0.29C1 Nb 0.71 Mo 0.29 C 1 1975 NaCl "NaCl, B1" K 13.45 13.45 "hot-press(1770K, 0.5h, 12GPa)" Superconductivity of solid solutions of niobium and molybdenum monocarbides under high hydrostatic pressure 1975 "Institute of Chemistry, Urals Scientific Center, USSR Academy of Sciences" "Sov.Phys.JETP, 41(1975)115"
109076 LB64Jei1 structure= H phase Nb2Sn1C1 Nb 2 Sn 1 C 1 1964 A 3.172 14.37 K 1.2 "sintering (1123K, 600h)" 1964 Monatsh.Chem.95(1964)431
109077 LB87GUS1 C(T) measured up to 16K. Gamma in mJ/K2.gat Nb0.8Ta0.2C1 Nb 0.8 Ta 0.2 C 1 1987 K mj/mol.K2 2.5 504 sintering 1987 "Sov.Phys. Solid State, 29(1987)1082"
109078 LB87GUS1 C(T) measured up to 16K. Gamma in mJ/K2.gat Nb0.6Ta0.4C1 Nb 0.6 Ta 0.4 C 1 1987 K mj/mol.K2 2.64 421 sintering 1987 "Sov.Phys. Solid State, 29(1987)1082"
109079 MRB0120657 The highest Tc among 0.817>Nb>0.749 Ga0.251Nb0.749 Ga 0.251 Nb 0.749 1977 Cr3Si(A15) "Cr3Si, A15" K 19.9 19.9 1977 "Mater.Res.Bull.,12(1977)657"
109080 SSC0331015 C(T) measured between 1.4 and 27K. Gamma in mJ/K2.gat. Impurity phase is W5Si3 phase. Ga1Nb3 Ga 1 Nb 3 1980 Cr3Si(A15) A 5.168 "Cr3Si, A15" K 20.1 20.1 mj/mol.K2 11.4 280 "arc-melting+ANN(2103K,4min)+ANN(973K,123h)" "Specific Heat of High Tc, A-15 Nb0.75Ga0.25" 1980 "Los Alamos Scientific Laboratory, University of California, Los Alamos, N.M. 87545" "Solid State Commun., 33(1980)1015"
109081 LB75FON1 nominal compo.=Nb0.68Ga0.32. Impurity phase = W5Si3 phase. Hc2(0) estimated using WHH theory by Y.Asada. Nb3Ga Ga0.25Nb0.75 Ga 0.25 Nb 0.75 1975 Cr3Si(A15) "Cr3Si, A15" K 20 20 T 35.8 T/K 2.56 "arc-melting + ANN(973K,24h)" 1975 "Colloq.Int.CNRS, No.242,Paris,(1975)423"
109082 PLA0380323 Nb3Ga Ga0.19Nb0.81 Ga 0.19 Nb 0.81 1972 Cr3Si(A15) "Cr3Si, A15" K 13.3 13.3 T 16 T/K 1.6 arc-melting + ANN(2073K)+Q + ANN(973K) Upper critical fields of NbxGa1-x: A binary high temperature superconductor 1972 2 "Francis Bitter National Magnet Laboratory, Massachusetts,USA" "Phys.Lett.A,38()323"
109083 PLA0380323 Nb3Ga Ga0.245Nb0.755 Ga 0.245 Nb 0.755 1972 Cr3Si(A15) A 5.165 "Cr3Si, A15" K 20.2 20.2 T 34.1 T/K 2.43 arc-melting + ANN(2073K)+Q + ANN(973K) Upper critical fields of NbxGa1-x: A binary high temperature superconductor 1972 2 "Francis Bitter National Magnet Laboratory, Massachusetts,USA" "Phys.Lett.A,38()323"
109084 LTP0060171 dTc/dP in K/Gpa Nb3Ga Ga1Nb3 Ga 1 Nb 3 1972 Cr3Si(A15) "Cr3Si, A15" K 14.5 14.5 K/GPa -0.07 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
109085 PR0215055 minor phase = A2. gamma in mJ/mol.K2 "Nb3(Nb,Ge)" Ge0.02Nb0.98 Ge 0.02 Nb 0.98 1980 Cr3Si(A15) A 5.239 "Cr3Si, A15" K 5.2 5.2 mj/mol.K2 18.6 260 Powder by CVD Impurity stabilized A15 Nb3Nb- a new superconductor 1980 6 Universtiy of California. Los Alamos Scientific Laboratory. Los Alamos. New Mexico 87545 "Phys.Rev.B, 21(1980)5055"
109086 PR0215055 gamma in mJ/mol.K2 "Nb3(Nb,Ge)" Ge0.045Nb0.955 Ge 0.045 Nb 0.955 1980 Cr3Si(A15) A 5.23 "Cr3Si, A15" K 4.15 4.15 mj/mol.K2 18.9 271 Powder by CVD Impurity stabilized A15 Nb3Nb- a new superconductor 1980 6 Universtiy of California. Los Alamos Scientific Laboratory. Los Alamos. New Mexico 87545 "Phys.Rev.B, 21(1980)5055"
109088 JTL0260394 Nb3Ge Ge1Nb3 Ge 1 Nb 3 1977 K 6.2 6.2 T 5.7 T/K 1.33 1977 "Sov.Phys.JETP Lett., 26(1977)394"
109089 JTL0260394 starting material is mixture of Nb3Ge+Ge Nb3Ge Ge1Nb3 Ge 1 Nb 3 1977 Cr3Si(A15) "Cr3Si, A15" K 15.7 15.7 T 11.5 T/K 1.05 "hot press (7GPa,2273K)" 1977 "Sov.Phys.JETP Lett., 26(1977)394"
109090 JTL0260394 Nb3Ge Ge1Nb3 Ge 1 Nb 3 1977 K 19.4 19.4 T 23.5 T/K 1.76 "hot press (7GPa,1673K)" 1977 "Sov.Phys.JETP Lett., 26(1977)394"
109091 JTL0260394 Nb3Ge Ge1Nb3 Ge 1 Nb 3 1977 K 15.7 15.7 T 17 T/K 1.6 "hot press (7GPa,1473K)" 1977 "Sov.Phys.JETP Lett., 26(1977)394"
109092 SSC0460197 dTc/dP in K/Gpa. Quasihydrostatic pressure. Nb3Ge Ge1Nb3 Ge 1 Nb 3 4 1983 Am K 4.05 4.05 K/GPa -0.008 sputter Anomalous Behavior of Superconducting Transition Temperature of Amorphous and Crystalline Nb3Ge Under Pressure 1983 "Institut fur Experimentalphysik IV, Universitat Bochum, D-4630 Bochum 1, West Germany" "Solid State Commun., 46(1983)197"
109093 SSC0460197 dTc/dP in K/Gpa. Quasihydrostatic pressure. Nb3Ge Ge1Nb3 Ge 1 Nb 3 4 1983 Cr3Si(A15) "Cr3Si, A15" K 16.7 16.7 K/GPa -0.25 sputter Anomalous Behavior of Superconducting Transition Temperature of Amorphous and Crystalline Nb3Ge Under Pressure 1983 "Institut fur Experimentalphysik IV, Universitat Bochum, D-4630 Bochum 1, West Germany" "Solid State Commun., 46(1983)197"
109094 PR0204538 dTc/dP in K/Gpa. Nb-Ge Ge0.18Nb0.82 Ge 0.18 Nb 0.82 1 1979 Cr3Si(A15) "Cr3Si, A15" K 6.05 6.05 K/GPa -0.35 arc-melting "Effects of pressure on the structural and superconducting properties of Nb3As, Nb3Si, Nb3Ge, and Nb0.82Ge0.18" 1979 "Naval Research Laboratory, Washington, D.C. 20375" "Phys.Rev.B,20(1979)4538"
109095 PR0204538 dTc/dP in K/Gpa. Nb3Ge Ge1Nb3 Ge 1 Nb 3 4 1979 Cr3Si(A15) "Cr3Si, A15" K 21.2 21.2 K/GPa -0.116 CVD "Effects of pressure on the structural and superconducting properties of Nb3As, Nb3Si, Nb3Ge, and Nb0.82Ge0.18" 1979 "Naval Research Laboratory, Washington, D.C. 20375" "Phys.Rev.B,20(1979)4538"
109096 JET0380525 dTc/dP in K/Gpa. Nb-Ge Ge0.18Nb0.82 Ge 0.18 Nb 0.82 1 1974 Cr3Si(A15) A 5.17 "Cr3Si, A15" K 6.12 6.12 K/GPa -0.17 "melting+ANN(1923K, 20h)" Effect of high hydrostatic pressure and residual strain on the superconductivity of Nb-Al-Ge alloys with an A15-type structure 1974 3 "Institute of Chemical Physics, USSR Academy of Sciences" "Sov.Phys.JETP, 38(1973)525"
109097 LTP0060171 dTc/dP in K/Gpa. Nb3Ge Ge1Nb3 Ge 1 Nb 3 1 1972 Cr3Si(A15) "Cr3Si, A15" K 6.281 6.281 K/GPa -0.114 melting Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
109098 SSC0260417 thickness=6 um on Cu. C(T) measured within 4 - 29 K. gamma in mJ/mol.K2. 2*delta/kTc = 4.2 Nb3Ge Ge1Nb3 Ge 1 Nb 3 4 1978 Cr3Si(A15) A 5.139 "Cr3Si, A15" K 21.8 21.8 mj/mol.K2 30.3 302 CVD Specific heat of single phase Nb3Ge 1978 "Los Alamos Scientific Laboratory, University of California, Los Alamos, N.M. 87545, USA" "Solid State Commun., 26(1978)417"
109099 PRL0410664 Thickness=8 um on quartz. C(T) measured within 1.2 - 13 K. gamma in mJ/mol.K. 2*delta/kTc = 3.5. Nb3Ge Ge1Nb3 Ge 1 Nb 3 4 1978 Am K 3.9 3.9 mj/mol.K2 12 222 sputter Comparison between the Amorphous and Crystalline (A-15) Phases on Nb3Ge 1978 8 "IBM Thomas J. Watson Research Center, Yorktown Heights, New York 10598" "Phys.Rev.Lett., 41(1978)664"
109100 LES0430005 Films contain 10 to 15 vol% Nb5Ge3 and 1.15wt% O2. Thickness=32 um. C(T) measured within 4.2 - 65 K. gamma in mJ/mol.K. 2*delta/kTc = 3.5. Nb3Ge Ge1Nb3 Ge 1 Nb 3 4 1975 Cr3Si(A15) A 5.1405 "Cr3Si, A15" K 21.2 21.2 mj/mol.K2 60 280 CVD Low Temperature Thermal and Electrical Properties of Chemical-Vapor-Deposited Nb3Ge 1975 "Department of Applied Physics, Stanford University, Stanford, Calif. 94305 (U.S.A.)" "J.Less-Common Met., 43(1975)5"
109200 PSS0630693 Nb0.8Ga0.2 Ga0.2Nb0.8 Ga 0.2 Nb 0.8 1981 Cr3Si(A15) "Cr3Si, A15" K 15.3 15.3 T 20.9 T/K 2 arc-melting The Influence of Cr and Ni Impurities on Superconducting Properties of Nb80Ga20 Alloys with A15 Type Structure 1981 "Department of Fundamental Researches in Electrotechnics, Ministry of Machine Industry, Warsaw" "Physica Stat.Solidi A,63(1981)693"
109201 PSS0630693 "Nb0.8(Ga,Ni)0.2" Nb0.8Ga0.19Ni0.01 Nb 0.8 Ga 0.19 Ni 0.01 1981 Cr3Si(A15) "Cr3Si, A15" K 14.1 14.1 T 18.3 T/K 1.9 arc-melting The Influence of Cr and Ni Impurities on Superconducting Properties of Nb80Ga20 Alloys with A15 Type Structure 1981 "Department of Fundamental Researches in Electrotechnics, Ministry of Machine Industry, Warsaw" "Physica Stat.Solidi A,63(1981)693"
109202 PSS0630693 "Nb0.8(Ga,Ni)0.2" Nb0.8Ga0.18Ni0.02 Nb 0.8 Ga 0.18 Ni 0.02 1981 Cr3Si(A15) "Cr3Si, A15" K 12.4 12.4 T 16 T/K 1.9 arc-melting The Influence of Cr and Ni Impurities on Superconducting Properties of Nb80Ga20 Alloys with A15 Type Structure 1981 "Department of Fundamental Researches in Electrotechnics, Ministry of Machine Industry, Warsaw" "Physica Stat.Solidi A,63(1981)693"
109203 PSS0630693 "Nb0.8(Ga,Ni)0.2" Nb0.8Ga0.17Ni0.03 Nb 0.8 Ga 0.17 Ni 0.03 1981 Cr3Si(A15) "Cr3Si, A15" K 11.8 11.8 T 13.4 T/K 1.8 arc-melting The Influence of Cr and Ni Impurities on Superconducting Properties of Nb80Ga20 Alloys with A15 Type Structure 1981 "Department of Fundamental Researches in Electrotechnics, Ministry of Machine Industry, Warsaw" "Physica Stat.Solidi A,63(1981)693"
109204 PSS0630693 "Nb0.8(Ga,Ni)0.2" Nb0.8Ga0.16Ni0.04 Nb 0.8 Ga 0.16 Ni 0.04 1981 Cr3Si(A15) "Cr3Si, A15" K 10.6 10.6 T 11.9 T/K 1.75 arc-melting The Influence of Cr and Ni Impurities on Superconducting Properties of Nb80Ga20 Alloys with A15 Type Structure 1981 "Department of Fundamental Researches in Electrotechnics, Ministry of Machine Industry, Warsaw" "Physica Stat.Solidi A,63(1981)693"
109205 PSS0630693 "Nb0.8(Ga,Ni)0.2" Nb0.8Ga0.15Ni0.05 Nb 0.8 Ga 0.15 Ni 0.05 1981 Cr3Si(A15) "Cr3Si, A15" K 9.4 9.4 T 9.8 T/K 1.6 arc-melting The Influence of Cr and Ni Impurities on Superconducting Properties of Nb80Ga20 Alloys with A15 Type Structure 1981 "Department of Fundamental Researches in Electrotechnics, Ministry of Machine Industry, Warsaw" "Physica Stat.Solidi A,63(1981)693"
109206 PSS0630693 "Nb0.8(Ga,Ni)0.2" Nb0.8Ga0.14Ni0.06 Nb 0.8 Ga 0.14 Ni 0.06 1981 Cr3Si(A15) "Cr3Si, A15" K 8.7 8.7 T 8.8 T/K 1.5 arc-melting The Influence of Cr and Ni Impurities on Superconducting Properties of Nb80Ga20 Alloys with A15 Type Structure 1981 "Department of Fundamental Researches in Electrotechnics, Ministry of Machine Industry, Warsaw" "Physica Stat.Solidi A,63(1981)693"
109207 PSS0630693 "Nb0.8(Ga,Ni)0.2" Nb0.8Ga0.13Ni0.07 Nb 0.8 Ga 0.13 Ni 0.07 1981 Cr3Si(A15) "Cr3Si, A15" K 8.1 8.1 T 8.1 T/K 1.5 arc-melting The Influence of Cr and Ni Impurities on Superconducting Properties of Nb80Ga20 Alloys with A15 Type Structure 1981 "Department of Fundamental Researches in Electrotechnics, Ministry of Machine Industry, Warsaw" "Physica Stat.Solidi A,63(1981)693"
109208 PSS0630693 "Nb0.8(Ga,Cr)0.2" Nb0.8Ga0.195Cr0.005 Nb 0.8 Ga 0.195 Cr 0.005 1981 Cr3Si(A15) "Cr3Si, A15" K 14.9 14.9 T 21.4 T/K 2 arc-melting The Influence of Cr and Ni Impurities on Superconducting Properties of Nb80Ga20 Alloys with A15 Type Structure 1981 "Department of Fundamental Researches in Electrotechnics, Ministry of Machine Industry, Warsaw" "Physica Stat.Solidi A,63(1981)693"
109209 PSS0630693 "Nb0.8(Ga,Cr)0.2" Nb0.8Ga0.19Cr0.01 Nb 0.8 Ga 0.19 Cr 0.01 1981 Cr3Si(A15) "Cr3Si, A15" K 13.6 13.6 T 19.9 T/K 2.1 arc-melting The Influence of Cr and Ni Impurities on Superconducting Properties of Nb80Ga20 Alloys with A15 Type Structure 1981 "Department of Fundamental Researches in Electrotechnics, Ministry of Machine Industry, Warsaw" "Physica Stat.Solidi A,63(1981)693"
109210 PSS0630693 "Nb0.8(Ga,Cr)0.2" Nb0.8Ga0.18Cr0.02 Nb 0.8 Ga 0.18 Cr 0.02 1981 Cr3Si(A15) "Cr3Si, A15" K 13.1 13.1 T 19.1 T/K 2.1 arc-melting The Influence of Cr and Ni Impurities on Superconducting Properties of Nb80Ga20 Alloys with A15 Type Structure 1981 "Department of Fundamental Researches in Electrotechnics, Ministry of Machine Industry, Warsaw" "Physica Stat.Solidi A,63(1981)693"
109211 PR05508497 HoNi2B2C Ho1Ni2B2C1 Ho 1 Ni 2 B 2 C 1 1 1997 5.3 LuNi2B2C K 7.77 7.77 2 "Superconductivity magnetism, and their coexistence in R(Ni1-xCox)2B2C(R=Lu,Tm,Er,Ho,Dy)" 1997 4 "Physikalisches Institut, Universita""t Bayreuth, D-95440 Bayreuth, Germany" "Phys.Rev.B,55(1997)8497"
109212 PSS0630693 "Nb0.8(Ga,Cr)0.2" Nb0.8Ga0.17Cr0.03 Nb 0.8 Ga 0.17 Cr 0.03 1981 Cr3Si(A15) "Cr3Si, A15" K 11.5 11.5 T 16.6 T/K 2.1 arc-melting The Influence of Cr and Ni Impurities on Superconducting Properties of Nb80Ga20 Alloys with A15 Type Structure 1981 "Department of Fundamental Researches in Electrotechnics, Ministry of Machine Industry, Warsaw" "Physica Stat.Solidi A,63(1981)693"
109213 PSS0630693 "Nb0.8(Ga,Cr)0.2" Nb0.8Ga0.16Cr0.04 Nb 0.8 Ga 0.16 Cr 0.04 1981 Cr3Si(A15) "Cr3Si, A15" K 10.6 10.6 T 14.2 T/K 2.1 arc-melting The Influence of Cr and Ni Impurities on Superconducting Properties of Nb80Ga20 Alloys with A15 Type Structure 1981 "Department of Fundamental Researches in Electrotechnics, Ministry of Machine Industry, Warsaw" "Physica Stat.Solidi A,63(1981)693"
109214 PSS0630693 "Nb0.8(Ga,Cr)0.2" Nb0.8Ga0.15Cr0.05 Nb 0.8 Ga 0.15 Cr 0.05 1981 Cr3Si(A15) "Cr3Si, A15" K 9.7 9.7 T 13.2 T/K 2 arc-melting The Influence of Cr and Ni Impurities on Superconducting Properties of Nb80Ga20 Alloys with A15 Type Structure 1981 "Department of Fundamental Researches in Electrotechnics, Ministry of Machine Industry, Warsaw" "Physica Stat.Solidi A,63(1981)693"
109215 PSS0630693 "Nb0.8(Ga,Cr)0.2" Nb0.8Ga0.14Cr0.06 Nb 0.8 Ga 0.14 Cr 0.06 1981 Cr3Si(A15) "Cr3Si, A15" K 8.6 8.6 T 11.9 T/K 2.1 arc-melting The Influence of Cr and Ni Impurities on Superconducting Properties of Nb80Ga20 Alloys with A15 Type Structure 1981 "Department of Fundamental Researches in Electrotechnics, Ministry of Machine Industry, Warsaw" "Physica Stat.Solidi A,63(1981)693"
109216 PSS0640771 "phases = A15, Nb5Ga3. RRR=1.84" "Nb75(Ga,Al)25" Ga25Nb75 Ga 25 Nb 75 1981 Cr3Si(A15) A 5.176 "Cr3Si, A15" K 17.6 17.6 T 29.3 T/K 2.4 "arc-melting, then ANN(800C,1 week)" The Superconducting Properties of Nb75Ga25-xAlx A15-Type Alloys Annealed at 800C for One Week 1981 "Institute for Low Temperature snd Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,64(1981)771"
109217 PSS0640771 "phases = A15, sigma phase. RRR=2.03" "Nb75(Ga,Al)25" Nb75Ga15Al10 Nb 75 Ga 15 Al 10 1981 Cr3Si(A15) A 5.181 "Cr3Si, A15" K 18.55 18.55 T 30.8 T/K 2.4 "arc-melting, then ANN(800C,1 week)" The Superconducting Properties of Nb75Ga25-xAlx A15-Type Alloys Annealed at 800C for One Week 1981 "Institute for Low Temperature snd Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,64(1981)771"
109218 PSS0640771 "phases = A15, sigma phase. RRR=1.82" "Nb75(Ga,Al)25" Nb75Ga10Al15 Nb 75 Ga 10 Al 15 1981 Cr3Si(A15) A 5.181 "Cr3Si, A15" K 17.2 17.2 T 28 T/K 2.35 "arc-melting, then ANN(800C,1 week)" The Superconducting Properties of Nb75Ga25-xAlx A15-Type Alloys Annealed at 800C for One Week 1981 "Institute for Low Temperature snd Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,64(1981)771"
109219 PSS0640771 "phases = A15, sigma phase. RRR=1.54" "Nb75(Ga,Al)25" Nb75Ga7.5Al17.5 Nb 75 Ga 7.5 Al 17.5 1981 Cr3Si(A15) A 5.184 "Cr3Si, A15" K 18.3 18.3 T T/K "arc-melting, then ANN(800C,1 week)" The Superconducting Properties of Nb75Ga25-xAlx A15-Type Alloys Annealed at 800C for One Week 1981 "Institute for Low Temperature snd Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,64(1981)771"
109220 PSS0640771 "phases = A15, sigma phase. RRR=1.48" "Nb75(Ga,Al)25" Nb75Ga5Al20 Nb 75 Ga 5 Al 20 1981 Cr3Si(A15) A 5.184 "Cr3Si, A15" K 18.25 18.25 T 29.1 T/K 2.3 "arc-melting, then ANN(800C,1 week)" The Superconducting Properties of Nb75Ga25-xAlx A15-Type Alloys Annealed at 800C for One Week 1981 "Institute for Low Temperature snd Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,64(1981)771"
109221 PSS0640771 "phases = A15, sigma phase. RRR=1.65" "Nb75(Ga,Al)25" Al25Nb75 Al 25 Nb 75 1981 Cr3Si(A15) A 5.19 "Cr3Si, A15" K 17.5 17.5 T 29.1 T/K 2.4 "arc-melting, then ANN(800C,1 week)" The Superconducting Properties of Nb75Ga25-xAlx A15-Type Alloys Annealed at 800C for One Week 1981 "Institute for Low Temperature snd Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,64(1981)771"
109222 PR1401581 "(NbC)1-x(NbN)x, x is not given. Whiskers grown along <111>direction" NbC/NbN Nb1C0.5Ni0.5 Nb 1 C 0.5 Ni 0.5 1965 NaCl K 17.3 17.3 T 10.7 T/K 0.9 reaction of NbF5 or NbCl5 with C and N Superconductivity of NbC/NbN whiskers 1965 Phys.Rev. 140 A(1965)1581
109223 SPS0291082 gamma in mj/gat.K2 NbC C0.98Nb1 C 0.98 Nb 1 1987 NaCl K 11.8 11.8 mj/mol.K2 2.63 350 solid state reaction Low-temperature specific heat and magnetic susceptibility of superconducting solid solutions of niobium and tantalum carbides 1987 6 "Institute of Chemistry, Ural Scientific Center of the Academy of Sciences of the USSR, Sverdlovsk" "Sov.Phys.Solid State,29(1987)1082"
109224 SPS0291082 gamma in mj/gat.K2 NbC C0.99Nb1 C 0.99 Nb 1 1987 NaCl K 10.6 10.6 mj/mol.K2 3.12 321 solid state reaction Low-temperature specific heat and magnetic susceptibility of superconducting solid solutions of niobium and tantalum carbides 1987 6 "Institute of Chemistry, Ural Scientific Center of the Academy of Sciences of the USSR, Sverdlovsk" "Sov.Phys.Solid State,29(1987)1082"
109225 SPS0291082 gamma in mj/gat.K2 "(Nb,Ta)C" Nb0.8Ta0.2C1 Nb 0.8 Ta 0.2 C 1 1987 NaCl K 9.9 9.9 mj/mol.K2 2.5 504 solid state reaction Low-temperature specific heat and magnetic susceptibility of superconducting solid solutions of niobium and tantalum carbides 1987 6 "Institute of Chemistry, Ural Scientific Center of the Academy of Sciences of the USSR, Sverdlovsk" "Sov.Phys.Solid State,29(1987)1082"
109226 SPS0291082 gamma in mj/gat.K2 "(Nb,Ta)C" Nb0.6Ta0.4C1 Nb 0.6 Ta 0.4 C 1 1987 NaCl K 9.4 9.4 mj/mol.K2 2.64 421 solid state reaction Low-temperature specific heat and magnetic susceptibility of superconducting solid solutions of niobium and tantalum carbides 1987 6 "Institute of Chemistry, Ural Scientific Center of the Academy of Sciences of the USSR, Sverdlovsk" "Sov.Phys.Solid State,29(1987)1082"
109227 SPS0291082 gamma in mj/gat.K2 "(Nb,Ta)C" Nb0.4Ta0.6C1 Nb 0.4 Ta 0.6 C 1 1987 NaCl K 9.7 9.7 mj/mol.K2 2.72 440 solid state reaction Low-temperature specific heat and magnetic susceptibility of superconducting solid solutions of niobium and tantalum carbides 1987 6 "Institute of Chemistry, Ural Scientific Center of the Academy of Sciences of the USSR, Sverdlovsk" "Sov.Phys.Solid State,29(1987)1082"
109228 SPS0291082 gamma in mj/gat.K2 "(Nb,Ta)C" Nb0.25Ta0.75C1 Nb 0.25 Ta 0.75 C 1 1987 NaCl K 9.8 9.8 mj/mol.K2 2.89 499 solid state reaction Low-temperature specific heat and magnetic susceptibility of superconducting solid solutions of niobium and tantalum carbides 1987 6 "Institute of Chemistry, Ural Scientific Center of the Academy of Sciences of the USSR, Sverdlovsk" "Sov.Phys.Solid State,29(1987)1082"
109229 JET0410115 "(Nb,Mo)C" Nb0.95Mo0.05C1 Nb 0.95 Mo 0.05 C 1 1974 NaCl A 4.4674 K 12.1 12.1 "heat(1500C, 120 kbar, 30min)" Superconductivity of solid solutions of niobium and molybdenum monocarbides under high hydrostatic pressure 1974 6 "Institute of Chemistry, Ural Scientific Center, USSR Academy of Sciences" "Sov.Phys.JETP,41(1975)115"
109230 JET0410115 "(Nb,Mo)C" Nb0.85Mo0.15C1 Nb 0.85 Mo 0.15 C 1 1974 NaCl A 4.442 K 12.7 12.7 "heat(1500C, 120 kbar, 30min)" Superconductivity of solid solutions of niobium and molybdenum monocarbides under high hydrostatic pressure 1974 6 "Institute of Chemistry, Ural Scientific Center, USSR Academy of Sciences" "Sov.Phys.JETP,41(1975)115"
109231 JET0410115 "(Nb,Mo)C" Nb0.71Mo0.29C1 Nb 0.71 Mo 0.29 C 1 1974 NaCl A 4.4341 K 13.45 13.45 "heat(1500C, 120 kbar, 30min)" Superconductivity of solid solutions of niobium and molybdenum monocarbides under high hydrostatic pressure 1974 6 "Institute of Chemistry, Ural Scientific Center, USSR Academy of Sciences" "Sov.Phys.JETP,41(1975)115"
109232 JET0410115 "(Nb,Mo)C" Nb0.51Mo0.49C1 Nb 0.51 Mo 0.49 C 1 1974 NaCl A 4.3926 K 12.22 12.22 "heat(1500C, 120 kbar, 30min)" Superconductivity of solid solutions of niobium and molybdenum monocarbides under high hydrostatic pressure 1974 6 "Institute of Chemistry, Ural Scientific Center, USSR Academy of Sciences" "Sov.Phys.JETP,41(1975)115"
109233 JET0410115 "(Nb,Mo)C" Nb0.3Mo0.7C1 Nb 0.3 Mo 0.7 C 1 1974 NaCl A 4.3629 K 12.1 12.1 "heat(1500C, 120 kbar, 30min)" Superconductivity of solid solutions of niobium and molybdenum monocarbides under high hydrostatic pressure 1974 6 "Institute of Chemistry, Ural Scientific Center, USSR Academy of Sciences" "Sov.Phys.JETP,41(1975)115"
109234 JET0410115 "(Nb,Mo)C" Nb0.15Mo0.85C1 Nb 0.15 Mo 0.85 C 1 1974 NaCl A 4.319 K 11.673 11.673 "heat(1500C, 120 kbar, 30min)" Superconductivity of solid solutions of niobium and molybdenum monocarbides under high hydrostatic pressure 1974 6 "Institute of Chemistry, Ural Scientific Center, USSR Academy of Sciences" "Sov.Phys.JETP,41(1975)115"
109235 PSS0620413 "A15,Nb,Nb5Ga3 phases. RRR=1.5" Nb80Ga20 Ga20Nb80 Ga 20 Nb 80 1980 Cr3Si(A15) A 5.174 "Cr3Si, A15" K 15.4 15.4 T 20.6 T/K 2 arc-melting The Influence of Co Impurities on Superconducting Properties of the Nb80Ga20 Alloy with A15 Type Structure 1980 "Institute for Low Temperature snd Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,62(1980)413"
109236 PSS0620413 "A15,Nb,sigma phases. RRR=1.5" "Nb80(Ga,Co)20" Nb80Ga19Co1 Nb 80 Ga 19 Co 1 1980 Cr3Si(A15) A 5.174 "Cr3Si, A15" K 13.7 13.7 T 17.4 T/K 1.85 arc-melting The Influence of Co Impurities on Superconducting Properties of the Nb80Ga20 Alloy with A15 Type Structure 1980 "Institute for Low Temperature snd Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,62(1980)413"
109237 PSS0620413 "A15,Nb,sigma phases." "Nb80(Ga,Co)20" Nb80Ga18Co2 Nb 80 Ga 18 Co 2 1980 Cr3Si(A15) A 5.173 "Cr3Si, A15" K 12.2 12.2 T 15.5 T/K 1.8 arc-melting The Influence of Co Impurities on Superconducting Properties of the Nb80Ga20 Alloy with A15 Type Structure 1980 "Institute for Low Temperature snd Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,62(1980)413"
109238 PSS0620413 "A15,Nb,sigma phases." "Nb80(Ga,Co)20" Nb80Ga17Co3 Nb 80 Ga 17 Co 3 1980 Cr3Si(A15) A 5.174 "Cr3Si, A15" K 11 11 T 12.9 T/K 1.75 arc-melting The Influence of Co Impurities on Superconducting Properties of the Nb80Ga20 Alloy with A15 Type Structure 1980 "Institute for Low Temperature snd Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,62(1980)413"
109239 PSS0620413 "A15,Nb,sigma phases." "Nb80(Ga,Co)20" Nb80Ga16Co4 Nb 80 Ga 16 Co 4 1980 Cr3Si(A15) A 5.174 "Cr3Si, A15" K 9.85 9.85 T 11.3 T/K 1.71 arc-melting The Influence of Co Impurities on Superconducting Properties of the Nb80Ga20 Alloy with A15 Type Structure 1980 "Institute for Low Temperature snd Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,62(1980)413"
109240 PSS0620413 "A15,Nb,sigma phases." "Nb80(Ga,Co)20" Nb80Ga15Co5 Nb 80 Ga 15 Co 5 1980 Cr3Si(A15) A 5.175 "Cr3Si, A15" K 9.17 9.17 T 10.4 T/K 1.66 arc-melting The Influence of Co Impurities on Superconducting Properties of the Nb80Ga20 Alloy with A15 Type Structure 1980 "Institute for Low Temperature snd Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,62(1980)413"
109241 PSS0620413 "A15,Nb,sigma phases." "Nb80(Ga,Co)20" Nb80Ga14Co6 Nb 80 Ga 14 Co 6 1980 Cr3Si(A15) "Cr3Si, A15" K 8.1 8.1 arc-melting The Influence of Co Impurities on Superconducting Properties of the Nb80Ga20 Alloy with A15 Type Structure 1980 "Institute for Low Temperature snd Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,62(1980)413"
109242 PSS0620413 "A15,Nb,sigma phases." "Nb80(Ga,Co)20" Nb80Ga13Co7 Nb 80 Ga 13 Co 7 1980 Cr3Si(A15) "Cr3Si, A15" K 7.92 7.92 arc-melting The Influence of Co Impurities on Superconducting Properties of the Nb80Ga20 Alloy with A15 Type Structure 1980 "Institute for Low Temperature snd Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,62(1980)413"
109243 LB78SOS1 Nb80Ga20 Ga20Nb80 Ga 20 Nb 80 1978 Cr3Si(A15) "Cr3Si, A15" K 18.2 18.2 T 27.1 "arc-melt + ANN(700C,50h)" The Effect of Fe Impurities on Superconducting and Magnetic Properties of Nb-Ga Alloys with A15 Structure 1978 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw" "LT-15,1(1978)393"
109244 LB78SOS1 "Nb80(Ga,Fe)20" Nb80Ga19.7Fe0.03 Nb 80 Ga 19.7 Fe 0.03 1978 Cr3Si(A15) "Cr3Si, A15" K 17.3 17.3 T 24.6 "arc-melt + ANN(700C,50h)" The Effect of Fe Impurities on Superconducting and Magnetic Properties of Nb-Ga Alloys with A15 Structure 1978 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw" "LT-15,1(1978)393"
109245 LB78SOS1 "Nb80(Ga,Fe)20" Nb80Ga19.4Fe0.06 Nb 80 Ga 19.4 Fe 0.06 1978 Cr3Si(A15) "Cr3Si, A15" K 16.2 16.2 T 22.6 "arc-melt + ANN(700C,50h)" The Effect of Fe Impurities on Superconducting and Magnetic Properties of Nb-Ga Alloys with A15 Structure 1978 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw" "LT-15,1(1978)393"
109246 LB78SOS1 "Nb80(Ga,Fe)20" Nb80Ga19Fe1 Nb 80 Ga 19 Fe 1 1978 Cr3Si(A15) "Cr3Si, A15" K 15 15 T 19.5 "arc-melt + ANN(700C,50h)" The Effect of Fe Impurities on Superconducting and Magnetic Properties of Nb-Ga Alloys with A15 Structure 1978 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw" "LT-15,1(1978)393"
109247 LB78SOS1 "Nb80(Ga,Fe)20" Nb80Ga18Fe2 Nb 80 Ga 18 Fe 2 1978 Cr3Si(A15) "Cr3Si, A15" K 13.1 13.1 T 15.5 "arc-melt + ANN(700C,50h)" The Effect of Fe Impurities on Superconducting and Magnetic Properties of Nb-Ga Alloys with A15 Structure 1978 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw" "LT-15,1(1978)393"
109248 LB78SOS1 "Nb80(Ga,Fe)20" Nb80Ga17Fe3 Nb 80 Ga 17 Fe 3 1978 Cr3Si(A15) "Cr3Si, A15" K 11.6 11.6 T 12.5 "arc-melt + ANN(700C,50h)" The Effect of Fe Impurities on Superconducting and Magnetic Properties of Nb-Ga Alloys with A15 Structure 1978 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw" "LT-15,1(1978)393"
109249 LB78SOS1 "Nb80(Ga,Fe)20" Nb80Ga16Fe4 Nb 80 Ga 16 Fe 4 1978 Cr3Si(A15) "Cr3Si, A15" K 10.3 10.3 T 12.1 "arc-melt + ANN(700C,50h)" The Effect of Fe Impurities on Superconducting and Magnetic Properties of Nb-Ga Alloys with A15 Structure 1978 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw" "LT-15,1(1978)393"
109250 PSS0570337 "A15,Nb,Nb5Ga3 phases" Nb80Ga20 Ga20Nb80 Ga 20 Nb 80 1980 Cr3Si(A15) A 5.173 "Cr3Si, A15" K 15.2 15.2 T 20.9 T/K 2 arc-melting The Influence of Magnetic Mn Impurities on the Superconducting Properties of A15-Type Nb78Ga22 and Nb80Ga20 Alloys 1980 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,57(1980)337"
109251 PSS0570337 "A15,Nb,sigma phases" "Nb80(Ga,Mn)20" Nb80Ga19Mn1 Nb 80 Ga 19 Mn 1 1980 Cr3Si(A15) A 5.172 "Cr3Si, A15" K 11.2 11.2 T 13.7 T/K 1.81 arc-melting The Influence of Magnetic Mn Impurities on the Superconducting Properties of A15-Type Nb78Ga22 and Nb80Ga20 Alloys 1980 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,57(1980)337"
109252 PSS0570337 "A15,Nb,sigma phases" "Nb80(Ga,Mn)20" Nb80Ga18Mn2 Nb 80 Ga 18 Mn 2 1980 Cr3Si(A15) A 5.169 "Cr3Si, A15" K 7.79 7.79 T 9.6 T/K 1.8 arc-melting The Influence of Magnetic Mn Impurities on the Superconducting Properties of A15-Type Nb78Ga22 and Nb80Ga20 Alloys 1980 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,57(1980)337"
109253 PSS0570337 "A15,Nb,sigma phases" "Nb80(Ga,Mn)20" Nb80Ga17Mn3 Nb 80 Ga 17 Mn 3 1980 Cr3Si(A15) A 5.169 "Cr3Si, A15" K 7.1 7.1 T 8.38 T/K 1.76 arc-melting The Influence of Magnetic Mn Impurities on the Superconducting Properties of A15-Type Nb78Ga22 and Nb80Ga20 Alloys 1980 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,57(1980)337"
109254 PSS0570337 "A15,Nb,sigma phases" "Nb80(Ga,Mn)20" Nb80Ga16Mn4 Nb 80 Ga 16 Mn 4 1980 Cr3Si(A15) A 5.166 "Cr3Si, A15" K 6.03 6.03 T 6.13 T/K 1.5 arc-melting The Influence of Magnetic Mn Impurities on the Superconducting Properties of A15-Type Nb78Ga22 and Nb80Ga20 Alloys 1980 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,57(1980)337"
109255 PSS0570337 "A15,Nb,sigma phases" "Nb80(Ga,Mn)20" Nb80Ga15Mn5 Nb 80 Ga 15 Mn 5 1980 Cr3Si(A15) "Cr3Si, A15" K 5 5 T 5.17 T/K 1.5 arc-melting The Influence of Magnetic Mn Impurities on the Superconducting Properties of A15-Type Nb78Ga22 and Nb80Ga20 Alloys 1980 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,57(1980)337"
109256 PSS0570337 "A15,Nb,Nb5Ga3 phases" Nb78Ga22 Ga22Nb78 Ga 22 Nb 78 1980 Cr3Si(A15) A 5.174 "Cr3Si, A15" K 15.6 15.6 T 21.3 T/K 1.9 arc-melting The Influence of Magnetic Mn Impurities on the Superconducting Properties of A15-Type Nb78Ga22 and Nb80Ga20 Alloys 1980 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,57(1980)337"
109257 PSS0570337 "A15,Nb,sigma phases" "Nb78(Ga,Mn)22" Nb78Ga21Mn1 Nb 78 Ga 21 Mn 1 1980 Cr3Si(A15) A 5.17 "Cr3Si, A15" K 11.2 11.2 T 14.5 T/K 1.85 arc-melting The Influence of Magnetic Mn Impurities on the Superconducting Properties of A15-Type Nb78Ga22 and Nb80Ga20 Alloys 1980 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,57(1980)337"
109258 PSS0570337 "A15,Nb,sigma phases" "Nb78(Ga,Mn)22" Nb78Ga20Mn2 Nb 78 Ga 20 Mn 2 1980 Cr3Si(A15) A 5.169 "Cr3Si, A15" K 8.87 8.87 T 10.4 T/K 1.7 arc-melting The Influence of Magnetic Mn Impurities on the Superconducting Properties of A15-Type Nb78Ga22 and Nb80Ga20 Alloys 1980 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,57(1980)337"
109259 PSS0570337 "A15,Nb,sigma phases" "Nb78(Ga,Mn)22" Nb78Ga19Mn3 Nb 78 Ga 19 Mn 3 1980 Cr3Si(A15) A 5.167 "Cr3Si, A15" K 7.42 7.42 arc-melting The Influence of Magnetic Mn Impurities on the Superconducting Properties of A15-Type Nb78Ga22 and Nb80Ga20 Alloys 1980 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,57(1980)337"
109260 PSS0570337 "A15,Nb,sigma phases" "Nb78(Ga,Mn)22" Nb78Ga18Mn4 Nb 78 Ga 18 Mn 4 1980 Cr3Si(A15) A 5.166 "Cr3Si, A15" K 5.97 5.97 T 7.42 T/K 1.68 arc-melting The Influence of Magnetic Mn Impurities on the Superconducting Properties of A15-Type Nb78Ga22 and Nb80Ga20 Alloys 1980 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,57(1980)337"
109261 PSS0570337 "A15,Nb,sigma phases" "Nb78(Ga,Mn)22" Nb78Ga16Mn6 Nb 78 Ga 16 Mn 6 1980 Cr3Si(A15) A 5.162 "Cr3Si, A15" K 5.53 5.53 T 5.96 T/K 1.62 arc-melting The Influence of Magnetic Mn Impurities on the Superconducting Properties of A15-Type Nb78Ga22 and Nb80Ga20 Alloys 1980 "Institute for Low Temperature and Structure Research, Polish Academy of Science, Wroclaw" "Physica Stat.Solidi A,57(1980)337"
109262 JET0380525 dTc/dP in K/Gpa Nb3Al Al1Nb3 Al 1 Nb 3 1974 Cr3Si(A15) A 5.186 "Cr3Si, A15" K 17.5 17.5 K/GPa -0.09 Effect of high hydrostatic pressure and residual strain on the superconductivity of Nb-Al-Ge alloys with an A15-type structure 1974 3 "Institute of Chemical Physics, USSR Academy of Sciences" "Sov.Phys.JETP, 38(1973)525"
109263 JET0380525 dTc/dP in K/Gpa "Nb3(Al,Ge)" Nb3Al0.9Ge0.1 Nb 3 Al 0.9 Ge 0.1 1974 Cr3Si(A15) A 5.18 "Cr3Si, A15" K 18.4 18.4 K/GPa -0.02 Effect of high hydrostatic pressure and residual strain on the superconductivity of Nb-Al-Ge alloys with an A15-type structure 1974 3 "Institute of Chemical Physics, USSR Academy of Sciences" "Sov.Phys.JETP, 38(1973)525"
109264 JET0380525 dTc/dP in K/Gpa "Nb3(Al,Ge)" Nb3.05Al0.7125Ge0.19 Nb 3.05 Al 0.7125 Ge 0.19 1974 Cr3Si(A15) A 5.177 "Cr3Si, A15" K 17.9 17.9 K/GPa 0.12 Effect of high hydrostatic pressure and residual strain on the superconductivity of Nb-Al-Ge alloys with an A15-type structure 1974 3 "Institute of Chemical Physics, USSR Academy of Sciences" "Sov.Phys.JETP, 38(1973)525"
109265 JET0380525 dTc/dP in K/Gpa "Nb3(Al,Ge)" Nb3.07Al0.5859Ge0.279 Nb 3.07 Al 0.5859 Ge 0.279 1974 Cr3Si(A15) A 5.175 "Cr3Si, A15" K 17.4 17.4 K/GPa 0.09 Effect of high hydrostatic pressure and residual strain on the superconductivity of Nb-Al-Ge alloys with an A15-type structure 1974 3 "Institute of Chemical Physics, USSR Academy of Sciences" "Sov.Phys.JETP, 38(1973)525"
109266 JET0380525 dTc/dP in K/Gpa "Nb3(Al,Ge)" Nb3.2Al0.24Ge0.4 Nb 3.2 Al 0.24 Ge 0.4 1 1974 Cr3Si(A15) A 5.171 "Cr3Si, A15" K 10.2 10.2 K/GPa -0.1 Effect of high hydrostatic pressure and residual strain on the superconductivity of Nb-Al-Ge alloys with an A15-type structure 1974 3 "Institute of Chemical Physics, USSR Academy of Sciences" "Sov.Phys.JETP, 38(1973)525"
109267 JET0380525 dTc/dP in K/Gpa Nb3Al Al0.72Nb3.28 Al 0.72 Nb 3.28 1 1974 Cr3Si(A15) A 5.17 "Cr3Si, A15" K 6.2 6.2 K/GPa -0.17 Effect of high hydrostatic pressure and residual strain on the superconductivity of Nb-Al-Ge alloys with an A15-type structure 1974 3 "Institute of Chemical Physics, USSR Academy of Sciences" "Sov.Phys.JETP, 38(1973)525"
109268 JET0380525 dTc/dP in K/Gpa "Nb3(Al,Ge)" Nb2.96Al0.7592Ge0.3224 Nb 2.96 Al 0.7592 Ge 0.3224 1 1974 Cr3Si(A15) "Cr3Si, A15" K 19.8 19.8 K/GPa -0.18 Effect of high hydrostatic pressure and residual strain on the superconductivity of Nb-Al-Ge alloys with an A15-type structure 1974 3 "Institute of Chemical Physics, USSR Academy of Sciences" "Sov.Phys.JETP, 38(1973)525"
109269 JET0380525 dTc/dP in K/Gpa Nb3Al Al1Nb3 Al 1 Nb 3 1 1974 Cr3Si(A15) "Cr3Si, A15" K 17.11 17.11 K/GPa -0.07 Effect of high hydrostatic pressure and residual strain on the superconductivity of Nb-Al-Ge alloys with an A15-type structure 1974 3 "Institute of Chemical Physics, USSR Academy of Sciences" "Sov.Phys.JETP, 38(1973)525"
109270 JET0380525 dTc/dP in K/Gpa Nb3Ge Ge1Nb3 Ge 1 Nb 3 1 1974 Cr3Si(A15) "Cr3Si, A15" K 6.28 6.28 K/GPa -0.114 Effect of high hydrostatic pressure and residual strain on the superconductivity of Nb-Al-Ge alloys with an A15-type structure 1974 3 "Institute of Chemical Physics, USSR Academy of Sciences" "Sov.Phys.JETP, 38(1973)525"
109271 PSS0770759 Nb3Al Al1Nb3 Al 1 Nb 3 1983 Cr3Si(A15) "Cr3Si, A15" K 18.8 18.8 T/K 2.87 W-resistance furnace Superconductivity and Decay Phenomena of Nb3Al-Nb3Ge Solid Solutions 1983 "Institute of Inorganic Chemistry, Academy of Sciences of the USSR, Siberian Branch, Novosibirsk" "Physica Stat.Solidi A,77(1983)759"
109272 PSS0770759 "Nb3(Al,Ge)" Nb3Al0.9Ge0.1 Nb 3 Al 0.9 Ge 0.1 1983 Cr3Si(A15) "Cr3Si, A15" K 19.7 19.7 T/K 3.1 W-resistance furnace Superconductivity and Decay Phenomena of Nb3Al-Nb3Ge Solid Solutions 1983 "Institute of Inorganic Chemistry, Academy of Sciences of the USSR, Siberian Branch, Novosibirsk" "Physica Stat.Solidi A,77(1983)759"
109273 PSS0770759 "Nb3(Al,Ge)" Nb3Al0.83Ge0.17 Nb 3 Al 0.83 Ge 0.17 1983 Cr3Si(A15) "Cr3Si, A15" K 19.6 19.6 T/K 3.3 W-resistance furnace Superconductivity and Decay Phenomena of Nb3Al-Nb3Ge Solid Solutions 1983 "Institute of Inorganic Chemistry, Academy of Sciences of the USSR, Siberian Branch, Novosibirsk" "Physica Stat.Solidi A,77(1983)759"
109274 PSS0770759 "Nb3(Al,Ge)" Nb3Al0.76Ge0.24 Nb 3 Al 0.76 Ge 0.24 1983 Cr3Si(A15) "Cr3Si, A15" K 20.4 20.4 T/K 2.9 W-resistance furnace Superconductivity and Decay Phenomena of Nb3Al-Nb3Ge Solid Solutions 1983 "Institute of Inorganic Chemistry, Academy of Sciences of the USSR, Siberian Branch, Novosibirsk" "Physica Stat.Solidi A,77(1983)759"
109275 PSS0770759 "Nb3(Al,Ge)" Nb3Al0.71Ge0.29 Nb 3 Al 0.71 Ge 0.29 1983 Cr3Si(A15) "Cr3Si, A15" K 20.7 20.7 T/K 2.77 W-resistance furnace Superconductivity and Decay Phenomena of Nb3Al-Nb3Ge Solid Solutions 1983 "Institute of Inorganic Chemistry, Academy of Sciences of the USSR, Siberian Branch, Novosibirsk" "Physica Stat.Solidi A,77(1983)759"
109276 PSS0770759 "Nb3(Al,Ge)" Nb3Al0.66Ge0.34 Nb 3 Al 0.66 Ge 0.34 1983 Cr3Si(A15) "Cr3Si, A15" K 20.4 20.4 T/K 2.37 W-resistance furnace Superconductivity and Decay Phenomena of Nb3Al-Nb3Ge Solid Solutions 1983 "Institute of Inorganic Chemistry, Academy of Sciences of the USSR, Siberian Branch, Novosibirsk" "Physica Stat.Solidi A,77(1983)759"
109277 PSS0770759 "Nb3(Al,Ge)" Nb3Al0.5Ge0.5 Nb 3 Al 0.5 Ge 0.5 1983 Cr3Si(A15) "Cr3Si, A15" K 15.9 15.9 T/K 2.29 W-resistance furnace Superconductivity and Decay Phenomena of Nb3Al-Nb3Ge Solid Solutions 1983 "Institute of Inorganic Chemistry, Academy of Sciences of the USSR, Siberian Branch, Novosibirsk" "Physica Stat.Solidi A,77(1983)759"
109278 PSS0770759 "Nb3(Al,Ge)" Nb3Al0.3Ge0.7 Nb 3 Al 0.3 Ge 0.7 1983 Cr3Si(A15) "Cr3Si, A15" K 9.1 9.1 W-resistance furnace Superconductivity and Decay Phenomena of Nb3Al-Nb3Ge Solid Solutions 1983 "Institute of Inorganic Chemistry, Academy of Sciences of the USSR, Siberian Branch, Novosibirsk" "Physica Stat.Solidi A,77(1983)759"
109279 PSS0770759 "Nb3(Al,Ge)" Nb3Al0.15Ge0.85 Nb 3 Al 0.15 Ge 0.85 1983 Cr3Si(A15) "Cr3Si, A15" K 7.4 7.4 T/K 0.95 W-resistance furnace Superconductivity and Decay Phenomena of Nb3Al-Nb3Ge Solid Solutions 1983 "Institute of Inorganic Chemistry, Academy of Sciences of the USSR, Siberian Branch, Novosibirsk" "Physica Stat.Solidi A,77(1983)759"
109280 PSS0770759 Nb3Ge Ge1Nb3 Ge 1 Nb 3 1983 Cr3Si(A15) "Cr3Si, A15" K 6.4 6.4 T/K 0.59 W-resistance furnace Superconductivity and Decay Phenomena of Nb3Al-Nb3Ge Solid Solutions 1983 "Institute of Inorganic Chemistry, Academy of Sciences of the USSR, Siberian Branch, Novosibirsk" "Physica Stat.Solidi A,77(1983)759"
109281 PSS0760357 gamma in E+3 erg/cm3.K2 estimated from dHc2dT and rho. Rho=49.6 microOhm.cm Nb3Al Nb3Al1 Nb 3 Al 1 1983 Cr3Si(A15) "Cr3Si, A15" K T/K 2.42 mj/mol.K2 77.8 Reliability of n-Channel and p-Channel MOSTs in CMOS Integrated Circuits 1983 "Faculty of Electronic Engineering, University of Nis" "Physica Stat.Solidi A,76(1983)357"
109282 PSS0760357 gamma in E+3 erg/cm3.K2 estimated from dHc2dT and rho. Rho=55.6 microOhm.cm "Nb3(Al,Ge)" Nb3Al0.9Ge0.1 Nb 3 Al 0.9 Ge 0.1 1983 Cr3Si(A15) "Cr3Si, A15" K T/K 2.86 mj/mol.K2 81.4 Reliability of n-Channel and p-Channel MOSTs in CMOS Integrated Circuits 1983 "Faculty of Electronic Engineering, University of Nis" "Physica Stat.Solidi A,76(1983)357"
109283 PSS0760357 gamma in E+3 erg/cm3.K2 estimated from dHc2dT and rho. Rho=54.8 microOhm.cm "Nb3(Al,Ge)" Nb3Al0.8Ge0.2 Nb 3 Al 0.8 Ge 0.2 1983 Cr3Si(A15) "Cr3Si, A15" K T/K 2.94 mj/mol.K2 80.7 Reliability of n-Channel and p-Channel MOSTs in CMOS Integrated Circuits 1983 "Faculty of Electronic Engineering, University of Nis" "Physica Stat.Solidi A,76(1983)357"
109284 PSS0760357 gamma in E+3 erg/cm3.K2 estimated from dHc2dT and rho. Rho=57.4 microOhm.cm "Nb3(Al,Ge)" Nb3Al0.72Ge0.28 Nb 3 Al 0.72 Ge 0.28 1983 Cr3Si(A15) "Cr3Si, A15" K T/K 2.89 mj/mol.K2 80.7 Reliability of n-Channel and p-Channel MOSTs in CMOS Integrated Circuits 1983 "Faculty of Electronic Engineering, University of Nis" "Physica Stat.Solidi A,76(1983)357"
109285 PSS0760357 gamma in E+3 erg/cm3.K2 estimated from dHc2dT and rho. "Nb3(Al,Ge)" Nb3Al0.5Ge0.5 Nb 3 Al 0.5 Ge 0.5 1983 Cr3Si(A15) "Cr3Si, A15" K T/K 2.41 mj/mol.K2 69.3 Reliability of n-Channel and p-Channel MOSTs in CMOS Integrated Circuits 1983 "Faculty of Electronic Engineering, University of Nis" "Physica Stat.Solidi A,76(1983)357"
109286 PSS0760357 gamma in E+3 erg/cm3.K2 estimated from dHc2dT and rho. Rho=54.1 microOhm.cm Nb3Ge Nb3Ge1 Nb 3 Ge 1 1983 Cr3Si(A15) "Cr3Si, A15" K T/K 1.46 mj/mol.K2 42.9 Reliability of n-Channel and p-Channel MOSTs in CMOS Integrated Circuits 1983 "Faculty of Electronic Engineering, University of Nis" "Physica Stat.Solidi A,76(1983)357"
109287 PSS0630693 "Nb80(Ga,Cr)20" Nb80Ga17.5Cr2.5 Nb 80 Ga 17.5 Cr 2.5 1981 Cr3Si(A15) "Cr3Si, A15" K 12.5 12.5 T 17.8 T/K 2.1 arc-melting The Influence of Cr and Ni Impurities on Superconducting Properties of Nb80Ga20 Alloys with A15 Type Structure 1981 "Department of Fundamental Researches in Electrotechnics, Ministry of Machine Industry, Warsaw" "Physica Stat.Solidi A,63(1981)693"
109288 PRL0860320 H in FIGURE is the 1st order phase transition in FLL state. LuNi2B2C Lu1Ni2B2C1 Lu 1 Ni 2 B 2 C 1 2001 LuNi2B2C K 16.6 16.6 MHC9288 Flux Line Lattice Reorientation in the Borocarbide Superconductors with H // a 2001 "Riso National Laboratory, P.O. Box 49, DK-4000 Roskilde, Denmark" "Phys.Rev.Lett., 86(2001)320-323"
109289 PRL0860320 CurieT shows ferromagnetic Tm. Below Tm(=2.3K) sample shows weak ferromagnetism. ErNi2B2C Er1Ni2B2C1 Er 1 Ni 2 B 2 C 1 2001 2.3 6 LuNi2B2C K 10.5 10.5 MHC9289 Flux Line Lattice Reorientation in the Borocarbide Superconductors with H // a 2001 "Riso National Laboratory, P.O. Box 49, DK-4000 Roskilde, Denmark" "Phys.Rev.Lett., 86(2001)320-323"
109290 PRL0860512 sandwitch of 3 layers. Misfit = 8.3 % PbTe/PbS Pb1Te1Pb1S1 Pb 1 Te 1 Pb 1 S 1 4 2001 K 6.03 6.03 epitaxial growth on (001)KCl Novel Superconducting Semiconducting Superlattices: Dislocation-Induced Superconductivity? 2001 "Institute for Low Temperature Physics and Engineering, 47 Lenin Avenue, Kharkov 310164, Ukraine" "Phys.Rev.Lett., 86(2001)512-515"
109291 PRL0860512 sandwitch of 3 layers. Misfit = 2.0 % PbTe/SnTe Pb1Te1Sn1Te1 Pb 1 Te 1 Sn 1 Te 1 4 2001 K 2.97 2.97 epitaxial growth on (001)KCl Novel Superconducting Semiconducting Superlattices: Dislocation-Induced Superconductivity? 2001 "Institute for Low Temperature Physics and Engineering, 47 Lenin Avenue, Kharkov 310164, Ukraine" "Phys.Rev.Lett., 86(2001)512-515"
109292 PRL0860512 sandwitch of 3 layers. Misfit = 3.16% PbS/PbSe Pb1S1Pb1Se1 Pb 1 S 1 Pb 1 Se 1 4 2001 K 4.59 4.59 epitaxial growth on (001)KCl Novel Superconducting Semiconducting Superlattices: Dislocation-Induced Superconductivity? 2001 "Institute for Low Temperature Physics and Engineering, 47 Lenin Avenue, Kharkov 310164, Ukraine" "Phys.Rev.Lett., 86(2001)512-515"
109293 PRL0860512 sandwitch of 3 layers. Misfit = 13.0 % PbTe/YbS Pb1Te1Yb1S1 Pb 1 Te 1 Yb 1 S 1 4 2001 K 5.93 5.93 epitaxial growth on (001)KCl Novel Superconducting Semiconducting Superlattices: Dislocation-Induced Superconductivity? 2001 "Institute for Low Temperature Physics and Engineering, 47 Lenin Avenue, Kharkov 310164, Ukraine" "Phys.Rev.Lett., 86(2001)512-515"
109294 NAT3620433 Meissner 8% Na2CsC60 Na2Cs1C60 Na 2 Cs 1 C 60 1993 fullerene A 14.132 K 10.5 10.5 Increased transition temperature in superconducting Na2CsC60 1993 "AT & T Bell Lab, Murray Hill, New Jersey, USA" "Nature , 362(1993)433"
109295 NAT3620433 Tc defined as onset in M(T). Meissner 6% (NH3)4Na2CsC60 N4H12Na2Cs1C60 N 4 H 12 Na 2 Cs 1 C 60 1993 fullerene A 14.473 K 29.6 29.6 Increased transition temperature in superconducting Na2CsC60 1993 "AT & T Bell Lab, Murray Hill, New Jersey, USA" "Nature , 362(1993)433"
109296 LES0670249 gamma in mj/mol.K2. C/gamma.Tc = 1.25 NbB2 B2Nb1 B 2 Nb 1 1979 AlB2 "AlB2, C32" K 0.62 0.62 kOe 1.6 mj/mol.K2 4 A search for superconductivity below 1K in transition metal borides 1979 "J.Less-Common Metals, 67(1979)249-255"
109297 LES0670249 TiB2 B2Ti1 B 2 Ti 1 1979 AlB2 "AlB2, C32" K 0.42 A search for superconductivity below 1K in transition metal borides 1979 "J.Less-Common Metals, 67(1979)249-255"
109298 LES0670249 ZrB2 B2Zr1 B 2 Zr 1 1979 AlB2 "AlB2, C32" K 0.42 A search for superconductivity below 1K in transition metal borides 1979 "J.Less-Common Metals, 67(1979)249-255"
109299 LES0670249 HfB2 B2Hf1 B 2 Hf 1 1979 AlB2 "AlB2, C32" K 0.42 A search for superconductivity below 1K in transition metal borides 1979 "J.Less-Common Metals, 67(1979)249-255"
109300 LES0670249 VB2 B2V1 B 2 V 1 1979 AlB2 "AlB2, C32" K 0.42 A search for superconductivity below 1K in transition metal borides 1979 "J.Less-Common Metals, 67(1979)249-255"
109301 LES0670249 TaB2 B2Ta1 B 2 Ta 1 1979 AlB2 "AlB2, C32" K 0.42 A search for superconductivity below 1K in transition metal borides 1979 "J.Less-Common Metals, 67(1979)249-255"
109302 LES0670249 CrB2 B2Cr1 B 2 Cr 1 1979 AlB2 "AlB2, C32" K 0.42 A search for superconductivity below 1K in transition metal borides 1979 "J.Less-Common Metals, 67(1979)249-255"
109303 LES0670249 MoB2 B2Mo1 B 2 Mo 1 1979 AlB2 "AlB2, C32" K 0.42 A search for superconductivity below 1K in transition metal borides 1979 "J.Less-Common Metals, 67(1979)249-255"
109304 LES0670249 Mo2B5 B5Mo2 B 5 Mo 2 1979 AlB2 "AlB2, C32" K 0.42 A search for superconductivity below 1K in transition metal borides 1979 "J.Less-Common Metals, 67(1979)249-255"
109305 LES0670249 W2B5 B5W2 B 5 W 2 1979 AlB2 "AlB2, C32" K 0.42 A search for superconductivity below 1K in transition metal borides 1979 "J.Less-Common Metals, 67(1979)249-255"
109306 EPL0530762 DOS estimated to be 12.76 states/eV.spin C60. (NH3)xNaK2C60 N0.75H2.25Na1K2C60 N 0.75 H 2.25 Na 1 K 2 C 60 2001 fullerene A 14.36 K 11.8 11.8 Electronic properties of (NH3)xNaK2C60 2001 "Dipartimento di Fisica and Istituto Nazionale di Fisica della Materia Universita di Parma, Parco Area delle Scienze 7/a, 43100 Parma, Italy" "Europhys.Lett., 53(2001)762-768"
109307 EPL0530762 DOS estimated to be 14.86 states/eV.spin C60. (NH3)xNaK2C60 N0.85H2.55Na1K2C60 N 0.85 H 2.55 Na 1 K 2 C 60 2001 fullerene A 14.38 K 9 9 Electronic properties of (NH3)xNaK2C60 2001 "Dipartimento di Fisica and Istituto Nazionale di Fisica della Materia Universita di Parma, Parco Area delle Scienze 7/a, 43100 Parma, Italy" "Europhys.Lett., 53(2001)762-768"
109308 PR05415653 ammonia content (x) by XRD. S/c volume = 40 %. (NH3)xNaRb2C60 N0.74H2.22Na1Rb2C60 N 0.74 H 2.22 Na 1 Rb 2 C 60 1996 fullerene A 14.5 K 17 17 reaction in Liq.ammonia Superconductivity of fcc fullerides containing off-centered octahedral cations 1996 "Japan Advanced Institute of Science and Technology, Tatsunokuchi, Ishikawa 923-12, Japan" "Phys.Rev.B, 54(1996)15653"
109309 PR05415653 ammonia content (x) by XRD. S/c volume = 40 %. (NH3)xNaRb2C60 N0.86H2.58Na1Rb2C60 N 0.86 H 2.58 Na 1 Rb 2 C 60 1996 fullerene A 14.52 K 12 12 reaction in Liq.ammonia Superconductivity of fcc fullerides containing off-centered octahedral cations 1996 "Japan Advanced Institute of Science and Technology, Tatsunokuchi, Ishikawa 923-12, Japan" "Phys.Rev.B, 54(1996)15653"
109310 PR05415653 ammonia content (x) by XRD. S/c volume = 40 %. (NH3)xNaRb2C60 N0.93H2.79Na1Rb2C60 N 0.93 H 2.79 Na 1 Rb 2 C 60 1996 fullerene A 14.531 K 8.5 8.5 reaction in Liq.ammonia Superconductivity of fcc fullerides containing off-centered octahedral cations 1996 "Japan Advanced Institute of Science and Technology, Tatsunokuchi, Ishikawa 923-12, Japan" "Phys.Rev.B, 54(1996)15653"
109311 PR05415653 ammonia content (x) by XRD. S/c volume = 40 %. (NH3)xNaK2C60 N0.84H2.52Na1K2C60 N 0.84 H 2.52 Na 1 K 2 C 60 1996 fullerene A 14.35 K 13 13 reaction in Liq.ammonia Superconductivity of fcc fullerides containing off-centered octahedral cations 1996 "Japan Advanced Institute of Science and Technology, Tatsunokuchi, Ishikawa 923-12, Japan" "Phys.Rev.B, 54(1996)15653"
109312 PR05415653 ammonia content (x) by XRD. S/c volume = 40 %. (NH3)xNaK2C60 N0.87H2.61Na1K2C60 N 0.87 H 2.61 Na 1 K 2 C 60 1996 fullerene A 14.369 K 11 11 reaction in Liq.ammonia Superconductivity of fcc fullerides containing off-centered octahedral cations 1996 "Japan Advanced Institute of Science and Technology, Tatsunokuchi, Ishikawa 923-12, Japan" "Phys.Rev.B, 54(1996)15653"
109313 PR05415653 ammonia content (x) by XRD. S/c volume = 40 %. (NH3)xNaK2C60 N1H3Na1K2C60 N 1 H 3 Na 1 K 2 C 60 1996 fullerene A 14.4 K 8 8 reaction in Liq.ammonia Superconductivity of fcc fullerides containing off-centered octahedral cations 1996 "Japan Advanced Institute of Science and Technology, Tatsunokuchi, Ishikawa 923-12, Japan" "Phys.Rev.B, 54(1996)15653"
109314 PRL0860512 sandwitch of 3 layers. Misfit = 4.8 % PbS/YbS Pb1S1Yb1S1 Pb 1 S 1 Yb 1 S 1 4 2001 K 6.39 6.39 epitaxial growth on (001)KCl Novel Superconducting Semiconducting Superlattices: Dislocation-Induced Superconductivity? 2001 "Institute for Low Temperature Physics and Engineering, 47 Lenin Avenue, Kharkov 310164, Ukraine" "Phys.Rev.Lett., 86(2001)512-515"
109315 PRL0860512 sandwitch of 3 layers. Misfit = 2.5 % PbSe/EuS Pb1Se1Eu1S1 Pb 1 Se 1 Eu 1 S 1 4 2001 K 2.48 2.48 epitaxial growth on (001)KCl Novel Superconducting Semiconducting Superlattices: Dislocation-Induced Superconductivity? 2001 "Institute for Low Temperature Physics and Engineering, 47 Lenin Avenue, Kharkov 310164, Ukraine" "Phys.Rev.Lett., 86(2001)512-515"
109316 PRL0860512 sandwitch of 3 layers. Misfit = 5.3 %. Not s/c. YbS/EuS Yb1S1Eu1S1 Yb 1 S 1 Eu 1 S 1 4 2001 K 1.5 epitaxial growth on (001)KCl Novel Superconducting Semiconducting Superlattices: Dislocation-Induced Superconductivity? 2001 "Institute for Low Temperature Physics and Engineering, 47 Lenin Avenue, Kharkov 310164, Ukraine" "Phys.Rev.Lett., 86(2001)512-515"
109317 PRL0530497 "For -[S8-xSex] series, 3.6K MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 A 3.1432 3.5193 "AlB2, C32" K 39.2 39.2 0.26 B 3 750 "react(950C, 2h, in Ta tube)" Boron isotope effect in superconducting MgB2 2001 "Ames Lab, Ioa State University, Ames, Ioa,USA" "Phys.Rev.Lett., 86(2001)1877"
109326 PRL0861877 Tc for MgB<10>2 MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 "AlB2, C32" K 40.2 40.2 "react(950C, 2h, in Ta tube)" Boron isotope effect in superconducting MgB2 2001 "Ames Lab, Ioa State University, Ames, Ioa,USA" "Phys.Rev.Lett., 86(2001)1877"
109327 MAT0102289 "dens=2.4 g/cm3. RRR=25.3, carrier=6.7 E+22/cm3. Mean free path=600A. G-L parameter = 26" MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 A 3.14 3.52 "AlB2, C32" K 39.4 39.4 A 50 "react(950C, 2h, in Ta tube)" Superconductivity in dense MgB2 wires 2001 "Ames Lab, Ioa State University, Ames, Ioa,USA" "Phys.Rev.Lett., 86(2001)2423-2426"
109328 MAT0104303 "dTc/dP in K/Gpa. Hydrostatic pressure, He-gas upto 1 Gpa." MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 "AlB2, C32" K 39.2 39.2 K/GPa -1.07 "react(950C, 2h, in Ta tube)" Hydrostatic Pressure Effect on the Superconducting Transition Temperature of MgB2 2001 cond-mat/0104303(2001)
109329 MAT0104242 using Mg<24> MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 "AlB2, C32" K 40.25 40.25 0.3 B "react(850C, 1.5h, 50 bar Ar in BN crucible)" The reduced total isotope effect and its implications on the nature of superconductivity in MgB2 2001 "Metal Science Division, Argonne National Lab., Argonne, USA" cond-mat/0104242(2001)
109330 MAT0104242 natural abundance Mg MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 "AlB2, C32" K 40.23 40.23 0.29 B "react(850C, 1.5h, 50 bar Ar in BN crucible)" The reduced total isotope effect and its implications on the nature of superconductivity in MgB2 2001 "Metal Science Division, Argonne National Lab., Argonne, USA" cond-mat/0104242(2001)
109331 MAT0104242 using Mg<26> MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 "AlB2, C32" K 40.21 40.21 0.31 B "react(850C, 1.5h, 50 bar Ar in BN crucible)" The reduced total isotope effect and its implications on the nature of superconductivity in MgB2 2001 "Metal Science Division, Argonne National Lab., Argonne, USA" cond-mat/0104242(2001)
109332 MAT0104206 gamma in mj/mol.K2. Delta-C=133 mj/mol.K. e-ph coupling const.=0.62 MgB2 B2Mg1 B 2 Mg 1 1 2001 AlB2 "AlB2, C32" K 38.7 38.7 2.6 1050 "react(850C, 1.5h, 50 bar Ar in BN crucible)" Specific heat of MgB<11>2: Evidence for a second energy gap 2001 "University of California, Berkeley, CA, USA" "Phys.Rev.Lett., 87(2001)047001"
109333 NAT3940039 s/c observed pressure range p=21kbar < s/c < 32 kbar only in high-quality sample. Tc represent Tc(max) at p=27 kbar. CePd2Si2 Ce1Pd2Si2 Ce 1 Pd 2 Si 2 3 1998 10.2 ThCr2Si2 K 0.37 0 0.37 MPH9333 T/K 6 A 150 melt by RF Magnetically mediated superconductivity in heavy fermion compounds 1998 "Cavendish Lab and IRC, University of Cambridge, UK" "Nature, 394(1998)39-43"
109334 NAT3940039 s/c observed pressure range p=22.7kbar < s/c < 28 kbar only in high-quality sample. Tc represent Tc(max) at p=25.6 kbar. CeIn3 Ce1In3 Ce 1 In 3 3 1998 10 K 0.17 0 0.17 melt by RF Magnetically mediated superconductivity in heavy fermion compounds 1998 "Cavendish Lab and IRC, University of Cambridge, UK" "Nature, 394(1998)39-43"
109335 P063104508 gamm in mj/mol.K2 YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 2001 LuNi2B2C K 16.01 16.01 T 8.2 20.6 Superconducting properties of YxLu1-xNi2B2C and La3Ni2B2N3-z: A comparison between experiment and Eliashberg theory 2001 "Institut fur Experimentalphysik, Technische Universitut Wien, Wiedner Hauptstrasse 8-10, A-1040 Wien, Austria" "Phys.Rev.B, 63(2001)104508"
109336 P063104508 gamm in mj/mol.K2 "(Y,Lu)Ni2B2C" Y0.9Lu0.1Ni2B2C1 Y 0.9 Lu 0.1 Ni 2 B 2 C 1 2001 LuNi2B2C K 15.56 15.56 T 7.6 19.7 Superconducting properties of YxLu1-xNi2B2C and La3Ni2B2N3-z: A comparison between experiment and Eliashberg theory 2001 "Institut fur Experimentalphysik, Technische Universitut Wien, Wiedner Hauptstrasse 8-10, A-1040 Wien, Austria" "Phys.Rev.B, 63(2001)104508"
109337 P063104508 gamm in mj/mol.K2 "(Y,Lu)Ni2B2C" Y0.5Lu0.5Ni2B2C1 Y 0.5 Lu 0.5 Ni 2 B 2 C 1 2001 LuNi2B2C K 14.9 14.9 T 7.1 18.7 Superconducting properties of YxLu1-xNi2B2C and La3Ni2B2N3-z: A comparison between experiment and Eliashberg theory 2001 "Institut fur Experimentalphysik, Technische Universitut Wien, Wiedner Hauptstrasse 8-10, A-1040 Wien, Austria" "Phys.Rev.B, 63(2001)104508"
109338 P063104508 gamm in mj/mol.K2 "(Y,Lu)Ni2B2C" Y0.2Lu0.8Ni2B2C1 Y 0.2 Lu 0.8 Ni 2 B 2 C 1 2001 LuNi2B2C K 14.68 14.68 T 7 18.5 Superconducting properties of YxLu1-xNi2B2C and La3Ni2B2N3-z: A comparison between experiment and Eliashberg theory 2001 "Institut fur Experimentalphysik, Technische Universitut Wien, Wiedner Hauptstrasse 8-10, A-1040 Wien, Austria" "Phys.Rev.B, 63(2001)104508"
109339 P063104508 gamm in mj/mol.K2 LuNi2B2C Lu1Ni2B2C1 Lu 1 Ni 2 B 2 C 1 2001 LuNi2B2C K 15.45 15.45 T 7.6 19.7 Superconducting properties of YxLu1-xNi2B2C and La3Ni2B2N3-z: A comparison between experiment and Eliashberg theory 2001 "Institut fur Experimentalphysik, Technische Universitut Wien, Wiedner Hauptstrasse 8-10, A-1040 Wien, Austria" "Phys.Rev.B, 63(2001)104508"
109340 P063104508 gamm in mj/mol.K2 La3Ni2B2N3 La3Ni2B2N3 La 3 Ni 2 B 2 N 3 2001 K 11.73 11.73 T 7.9 24 Superconducting properties of YxLu1-xNi2B2C and La3Ni2B2N3-z: A comparison between experiment and Eliashberg theory 2001 "Institut fur Experimentalphysik, Technische Universitut Wien, Wiedner Hauptstrasse 8-10, A-1040 Wien, Austria" "Phys.Rev.B, 63(2001)104508"
109341 P063144528 De Gennes factor=0 YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 3 2001 LuNi2B2C K 15.41 15.41 flux method by Ni2B solvent Magnetism and superconductivity in Y1-xTbxNi2B2C single crystals 2001 "Center for Frontier Materials, Department of Materials Science and Engineering, Kwangju Institute of Science and Technology, Kwangju, 500-712, Korea" "Phys.Rev.B, 63(2001)144528"
109342 P063144528 RRR=11.6. De Gennes factor=0.5 "(Y,Tb)Ni2B2C" Y0.95Tb0.05Ni2B2C1 Y 0.95 Tb 0.05 Ni 2 B 2 C 1 3 2001 LuNi2B2C K 14.42 14.42 flux method by Ni2B solvent Magnetism and superconductivity in Y1-xTbxNi2B2C single crystals 2001 "Center for Frontier Materials, Department of Materials Science and Engineering, Kwangju Institute of Science and Technology, Kwangju, 500-712, Korea" "Phys.Rev.B, 63(2001)144528"
109343 P063144528 RRR=9.15. De Gennes factor=1.1 "(Y,Tb)Ni2B2C" Y0.9Tb0.1Ni2B2C1 Y 0.9 Tb 0.1 Ni 2 B 2 C 1 3 2001 LuNi2B2C K 13.48 13.48 flux method by Ni2B solvent Magnetism and superconductivity in Y1-xTbxNi2B2C single crystals 2001 "Center for Frontier Materials, Department of Materials Science and Engineering, Kwangju Institute of Science and Technology, Kwangju, 500-712, Korea" "Phys.Rev.B, 63(2001)144528"
109344 P063144528 RRR=8.94. De Gennes factor=1.6 "(Y,Tb)Ni2B2C" Y0.85Tb0.15Ni2B2C1 Y 0.85 Tb 0.15 Ni 2 B 2 C 1 3 2001 LuNi2B2C K 12.54 12.54 flux method by Ni2B solvent Magnetism and superconductivity in Y1-xTbxNi2B2C single crystals 2001 "Center for Frontier Materials, Department of Materials Science and Engineering, Kwangju Institute of Science and Technology, Kwangju, 500-712, Korea" "Phys.Rev.B, 63(2001)144528"
109345 P063144528 RRR=8.94. De Gennes factor=2.2 "(Y,Tb)Ni2B2C" Y0.8Tb0.2Ni2B2C1 Y 0.8 Tb 0.2 Ni 2 B 2 C 1 3 2001 LuNi2B2C K 11.43 11.43 flux method by Ni2B solvent Magnetism and superconductivity in Y1-xTbxNi2B2C single crystals 2001 "Center for Frontier Materials, Department of Materials Science and Engineering, Kwangju Institute of Science and Technology, Kwangju, 500-712, Korea" "Phys.Rev.B, 63(2001)144528"
109346 P063144528 RRR=6.64. De Gennes factor=2.7 "(Y,Tb)Ni2B2C" Y0.75Tb0.25Ni2B2C1 Y 0.75 Tb 0.25 Ni 2 B 2 C 1 3 2001 LuNi2B2C K 10.02 10.02 flux method by Ni2B solvent Magnetism and superconductivity in Y1-xTbxNi2B2C single crystals 2001 "Center for Frontier Materials, Department of Materials Science and Engineering, Kwangju Institute of Science and Technology, Kwangju, 500-712, Korea" "Phys.Rev.B, 63(2001)144528"
109347 P063144528 RRR=7.8. De Gennes factor=3.2 "(Y,Tb)Ni2B2C" Y0.7Tb0.3Ni2B2C1 Y 0.7 Tb 0.3 Ni 2 B 2 C 1 3 2001 LuNi2B2C K 9.03 9.03 flux method by Ni2B solvent Magnetism and superconductivity in Y1-xTbxNi2B2C single crystals 2001 "Center for Frontier Materials, Department of Materials Science and Engineering, Kwangju Institute of Science and Technology, Kwangju, 500-712, Korea" "Phys.Rev.B, 63(2001)144528"
109348 P063144528 De Gennes factor=4.3 "(Y,Tb)Ni2B2C" Y0.6Tb0.4Ni2B2C1 Y 0.6 Tb 0.4 Ni 2 B 2 C 1 3 2001 5.16 LuNi2B2C K 5.04 5.04 flux method by Ni2B solvent Magnetism and superconductivity in Y1-xTbxNi2B2C single crystals 2001 "Center for Frontier Materials, Department of Materials Science and Engineering, Kwangju Institute of Science and Technology, Kwangju, 500-712, Korea" "Phys.Rev.B, 63(2001)144528"
109349 P063144528 "(Y,Tb)Ni2B2C" Y0.5Tb0.5Ni2B2C1 Y 0.5 Tb 0.5 Ni 2 B 2 C 1 3 2001 7.21 LuNi2B2C K 2 flux method by Ni2B solvent Magnetism and superconductivity in Y1-xTbxNi2B2C single crystals 2001 "Center for Frontier Materials, Department of Materials Science and Engineering, Kwangju Institute of Science and Technology, Kwangju, 500-712, Korea" "Phys.Rev.B, 63(2001)144528"
109350 P063144528 "(Y,Tb)Ni2B2C" Y0.4Tb0.6Ni2B2C1 Y 0.4 Tb 0.6 Ni 2 B 2 C 1 3 2001 9.2 LuNi2B2C K 2 flux method by Ni2B solvent Magnetism and superconductivity in Y1-xTbxNi2B2C single crystals 2001 "Center for Frontier Materials, Department of Materials Science and Engineering, Kwangju Institute of Science and Technology, Kwangju, 500-712, Korea" "Phys.Rev.B, 63(2001)144528"
109351 P063144528 "(Y,Tb)Ni2B2C" Y0.2Tb0.8Ni2B2C1 Y 0.2 Tb 0.8 Ni 2 B 2 C 1 3 2001 12.1 LuNi2B2C K 2 flux method by Ni2B solvent Magnetism and superconductivity in Y1-xTbxNi2B2C single crystals 2001 "Center for Frontier Materials, Department of Materials Science and Engineering, Kwangju Institute of Science and Technology, Kwangju, 500-712, Korea" "Phys.Rev.B, 63(2001)144528"
109352 P063144528 TbNi2B2C Tb1Ni2B2C1 Tb 1 Ni 2 B 2 C 1 3 2001 15.1 LuNi2B2C K 2 flux method by Ni2B solvent Magnetism and superconductivity in Y1-xTbxNi2B2C single crystals 2001 "Center for Frontier Materials, Department of Materials Science and Engineering, Kwangju Institute of Science and Technology, Kwangju, 500-712, Korea" "Phys.Rev.B, 63(2001)144528"
109353 P063134519 "TBL values for H//ab. Hc1//c=87mT, Hc2//c=9.3T, xi//ab=60A, xi//c=46A, ramda//ab=690A, ramda//c=1010A . G-L parameter = 11.6" LuNi2B2C Lu1Ni2B2C1 Lu 1 Ni 2 B 2 C 1 3 2001 LuNi2B2C K 16.2 16.2 mT 67.2 T 12.1 MHC9353 A 60 A 690 flux method by Ni2B solvent Critical fields and specific heat of LuNi2B2C 2001 "Department of Physics, Occidental College, Los Angeles, California 90041" "Phys.Rev.B, 63(2001)134519"
109354 PR05600678 heavy fermion s/c. specific heat measured "CeCu2(Si,Ge)2" Ce1Cu2Si1.8Ge0.2 Ce 1 Cu 2 Si 1.8 Ge 0.2 1997 ThCr2Si2 K 0.21 0.21 T 1.5 T/K 27 Evolution of magnetism and superconductivity in CeCu2(Si1-xGex)2 1997 "Centro Atuico Bariloche (CNEA), 8400 S. C. de Bariloche, Argentina" "Phys.Rev.B, 56(1997)678"
109355 PR05600678 heavy fermion s/c. specific heat measured "CeCu2(Si,Ge)2" Ce1Cu2Si1.9Ge0.1 Ce 1 Cu 2 Si 1.9 Ge 0.1 1997 ThCr2Si2 K 0.2 0.2 Evolution of magnetism and superconductivity in CeCu2(Si1-xGex)2 1997 "Centro Atuico Bariloche (CNEA), 8400 S. C. de Bariloche, Argentina" "Phys.Rev.B, 56(1997)678"
109356 PR05600678 "CeCu2(Si,Ge)2" Ce1Cu2Si1.7Ge0.3 Ce 1 Cu 2 Si 1.7 Ge 0.3 1997 ThCr2Si2 K 0.1 0.1 Evolution of magnetism and superconductivity in CeCu2(Si1-xGex)2 1997 "Centro Atuico Bariloche (CNEA), 8400 S. C. de Bariloche, Argentina" "Phys.Rev.B, 56(1997)678"
109357 NAT4100063 Meissner fraction=49% MgB2 B2Mg1 B 2 Mg 1 1 2001 AlB2 A 3.086 3.524 "AlB2, C32" K 39 39 "HIP(973K, 196MPa)" Superconductivity at 39K in magnesium diboride 2001 "Aoyama-Gakuin University,Tokyo, Japan" Nature 410(2001)63-64
109358 NAT4060587 pressure induced s/c. p=0.9 Gpa. RRR=20. Hc2(0) from dHc2/dT. G-L parameter = 26 MgB<10>2 B2Mg1 B 2 Mg 1 1 2001 AlB2 "AlB2, C32" K 40.2 40.2 T 12.5 T/K 0.44 MHC9359 nm 5.2 nm 140 sintering(950C) Thermodynamic and transport properties of superconducting MgB<10>2 2001 "Ames Lab., Iowa State University, Ames, Iowa, USA" "Phys.Rev.Lett., 86(2001)2420"
109360 NAT4080549 Caution (Schon's data). hole density=3.3-3.5/C60 hole-doped C60 C60 C 60 2000 fullerene K 52 52 carrier doping by field-effect transistor(FET) Superconductivity at 52 K in hole-doped C60 2000 "Bell Laboratories, Lucent Technologies, Murray Hill, New Jersey 07974, USA" Nature 408(2000)549
109361 NAT4080549 Caution (Schon's FET data). hole density=2.0-2.5/C60 hole-doped C60 C60 C 60 2000 fullerene K 41.5 41.5 T 20 T/K 0.7 MHC9361 A 40 carrier doping by field-effect transistor(FET) Superconductivity at 52 K in hole-doped C60 2000 "Bell Laboratories, Lucent Technologies, Murray Hill, New Jersey 07974, USA" Nature 408(2000)549
109362 JSC1350325 SrNb2S5 Sr1Nb2S5 Sr 1 Nb 2 S 5 1998 A 3.361 24.06 hexagonal K 1.45 BRIEF COMMUNICATION Evidence for Siperconductivity in SrTa2S5 and Matallic Characteristics of SrNb2S5 1998 "Department of Materials Science and Engineering, Muroran Institute of Technology, 27-1 Mizumoto-cho, Muroran, Hokkaido 050, Japan" J.Solid State Chem135(1998)325
109363 JSC1350325 SrTa2S5 Sr1Ta2S5 Sr 1 Ta 2 S 5 1998 A 3.306 24.26 hexagonal K 2.75 2.75 BRIEF COMMUNICATION Evidence for Siperconductivity in SrTa2S5 and Matallic Characteristics of SrNb2S5 1998 "Department of Materials Science and Engineering, Muroran Institute of Technology, 27-1 Mizumoto-cho, Muroran, Hokkaido 050, Japan" J.Solid State Chem135(1998)325
109364 JSC1160392 resistivity(5K)=96 uOhm.cm. Hall coeffic. = 2.0 E-3 cm3/C BaTa2S5 Ba1Ta2S5 Ba 1 Ta 2 S 5 1995 A 3.3258 25.208 hexagonal K 2.88 2.88 Superconducting and Normal State Properties of Barium Tantalum Sulfide 1995 "National Institute for Research in Inorganic Materials, 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" J.Solid State Chem.116(1991)392-399
109365 JSC1160392 resistivity(5K)=28 uOhm.cm. Hall coeffic. = 3.8 E-3 cm3/C BaTa2S5 Ba1Ta2S5 Ba 1 Ta 2 S 5 1995 A 3.3204 25.005 hexagonal K 3.14 3.14 Superconducting and Normal State Properties of Barium Tantalum Sulfide 1995 "National Institute for Research in Inorganic Materials, 1-1 Namiki, Tsukuba, Ibaraki 305, Japan" J.Solid State Chem.116(1991)392-399
109366 SSC0260943 needles Nb3S4 Nb3S4 Nb 3 S 4 1978 A 9.604 3.378 K 4 4 "Superconductivity in the Nb cluster compounds Nb3(X,Y)4 with X,Y = S, Se, Te" 1978 "Universitat Munchen, FRG" "Solid State Commun., 26(1978)943-947"
109367 SSC0260943 parallel needles Nb3Se4 Nb3Se4 Nb 3 Se 4 1978 K 2 2 "Superconductivity in the Nb cluster compounds Nb3(X,Y)4 with X,Y = S, Se, Te" 1978 "Universitat Munchen, FRG" "Solid State Commun., 26(1978)943-947"
109368 SSC0260943 parallel needles Nb3Te4 Nb3Te4 Nb 3 Te 4 1978 K 1.8 1.8 "Superconductivity in the Nb cluster compounds Nb3(X,Y)4 with X,Y = S, Se, Te" 1978 "Universitat Munchen, FRG" "Solid State Commun., 26(1978)943-947"
109369 SSC0260943 not s/c Nb3S1.7Se2.3 Nb3S1.7Se2.3 Nb 3 S 1.7 Se 2.3 1978 K 1.3 "Superconductivity in the Nb cluster compounds Nb3(X,Y)4 with X,Y = S, Se, Te" 1978 "Universitat Munchen, FRG" "Solid State Commun., 26(1978)943-947"
109370 PLA0400353 gamma in mj/mol.K2 SnTaS3 Sn1Ta1S3 Sn 1 Ta 1 S 3 1972 A 4.06 11.87 K 2.9 2.9 mj/mol.K2 8.4 203 Superconductivity in tin-group V trichalcogenides 1972 "Philips Research Lab, Eindhoven, the Netherlands" Physics Lett. 40A(1972)353
109371 PLA0400353 gamma in mj/mol.K2 NbSe2 Nb2Se2 Nb 2 Se 2 1972 A 3.44 12.54 hexagonal K 6.9 6.9 mj/mol.K2 20.5 210 Superconductivity in tin-group V trichalcogenides 1972 "Philips Research Lab, Eindhoven, the Netherlands" Physics Lett. 40A(1972)353
109372 PLA0400353 gamma in mj/mol.K2 SnNbSe3 Sn1Nb1Se3 Sn 1 Nb 1 Se 3 1972 A 4.21 24.54 K 3.02 3.02 mj/mol.K2 17.5 181 Superconductivity in tin-group V trichalcogenides 1972 "Philips Research Lab, Eindhoven, the Netherlands" Physics Lett. 40A(1972)353
109373 PLA0400353 NbS2 Nb1S2 Nb 1 S 2 1972 A 3.31 11.89 hexagonal K 6 6 mj/mol.K2 10.7 265 Superconductivity in tin-group V trichalcogenides 1972 "Philips Research Lab, Eindhoven, the Netherlands" Physics Lett. 40A(1972)353
109374 PLA0400353 PbNbS3 Pb1Nb1S3 Pb 1 Nb 1 S 3 1972 A 4.07 11.91 K 2.66 2.66 mj/mol.K2 11.7 200 Superconductivity in tin-group V trichalcogenides 1972 "Philips Research Lab, Eindhoven, the Netherlands" Physics Lett. 40A(1972)353
109375 PLA0400353 SnNbS3 Sn1Nb1S3 Sn 1 Nb 1 S 3 1972 A 4.05 11.77 K 2.75 2.75 mj/mol.K2 9 198 Superconductivity in tin-group V trichalcogenides 1972 "Philips Research Lab, Eindhoven, the Netherlands" Physics Lett. 40A(1972)353
109376 PLA0400353 TaS2 S2Ta1 S 2 Ta 1 1972 A 3.32 12.07 hexagonal K 1.9 1.9 mj/mol.K2 9.1 205 Superconductivity in tin-group V trichalcogenides 1972 "Philips Research Lab, Eindhoven, the Netherlands" Physics Lett. 40A(1972)353
109377 PLA0400353 PbTaS3 Pb1Ta1S3 Pb 1 Ta 1 S 3 1972 A 4.08 11.97 K 3.11 3.11 mj/mol.K2 11.7 189 Superconductivity in tin-group V trichalcogenides 1972 "Philips Research Lab, Eindhoven, the Netherlands" Physics Lett. 40A(1972)353
109378 PLA0310551 PbTiS3 Pb1Ti1S3 Pb 1 Ti 1 S 3 1970 PbTiS3 A 4.11 11.75 K 0.05 Superconductivity in PbNbS3 and PbTaS3 1970 "University of California, San Diego, California, USA" "Phys.Lett., 31A(1970)551"
109379 PLA0310551 PbNbS3 Pb1Nb1S3 Pb 1 Nb 1 S 3 1970 PbTiS3 A 4.07 11.92 K 2.26 2.26 mj/mol.K2 11.7 201 Superconductivity in PbNbS3 and PbTaS3 1970 "University of California, San Diego, California, USA" "Phys.Lett., 31A(1970)551"
109380 PLA0310551 PbTaS3 Pb1Ta1S3 Pb 1 Ta 1 S 3 1970 PbTiS3 A 4.08 11.97 K 3.07 3.07 Superconductivity in PbNbS3 and PbTaS3 1970 "University of California, San Diego, California, USA" "Phys.Lett., 31A(1970)551"
109381 PLA0310551 "Debye-T, gamma from PLA0290571" NbS2 Nb1S2 Nb 1 S 2 1970 A 3.31 11.88 hexagonal K 5.99 5.99 mj/mol.K2 10.7 265 Superconductivity in PbNbS3 and PbTaS3 1970 "University of California, San Diego, California, USA" "Phys.Lett., 31A(1970)551"
109382 PLA0310551 "Debye-T, gamma from PLA0290571" TaS2 S2Ta1 S 2 Ta 1 1970 A 3.32 12.04 hexagonal K 1.9 1.9 mj/mol.K2 9.1 205 Superconductivity in PbNbS3 and PbTaS3 1970 "University of California, San Diego, California, USA" "Phys.Lett., 31A(1970)551"
109383 EPL0530354 gamma in mj/mol.K2. Resistivity goes to zero at 1.2K. (Delta-C/gamma.T2)=0.76.CurieT=12.5K for H//C and -67.4K for H//a CeIrIn5 Ce1Ir1In5 Ce 1 Ir 1 In 5 3 2001 12.5 HoCoGa5 A 4.668 7.515 K 0.4 0.4 MHC9383 mj/mol.K2 720 heat(1100C)-slow cool to 600C A new heavy-fermion superconductor CeIrIn5: A relative of the cuprates? 2001 "Los Alamos National Lab, Los Alamos, NM, USA" "Europhys.Lett., 53(2001)354-359"
109384 PR05112673 gamma in mj/formula.K2. E-ph interaction = 0.68. (2*gap/kTc)=3.51. G-L parameter = 21 CuRh2S4 Cu1Rh2S4 Cu 1 Rh 2 S 4 1995 spinel A 9.787 K 4.7 4.7 Oe 70 kOe 20 MHC9384 A 128 A 2670 3.51 mj/mol.K2 25 230 heat(850C)-SIN(850C) Superconductivity in spinel-type compounds CuRh2S4 and CuRh2Se4 1995 5 "Department of Materials Science and Engineering,Muroran Institute of Technology,Mizumoto-cho 27-1,Muroran 050,Japan" "Phys.Rev.B,51(1995)12673-12684"
109385 PR05112673 gamma in mj/formula.K2. E-ph interaction = 0.64. (2*gap/kTc)=3.51. G-L parameter = 6.6 CuRh2Se4 Cu1Rh2Se4 Cu 1 Rh 2 Se 4 1995 spinel A 10.269 K 3.48 3.48 Oe 95 kOe 4.4 MHC9385 A 274 A 1810 3.51 mj/mol.K2 26 211 heat(850C)-SIN(850C) Superconductivity in spinel-type compounds CuRh2S4 and CuRh2Se4 1995 5 "Department of Materials Science and Engineering,Muroran Institute of Technology,Mizumoto-cho 27-1,Muroran 050,Japan" "Phys.Rev.B,51(1995)12673-12684"
109386 PR05308241 P-induced SC. SC data for P=11 kbar. Tc(max)=0.43 K at P = 6 kbar. Tc defined as Tc(onset). CeRh2Si2 Ce1Rh2Si2 Ce 1 Rh 2 Si 2 1996 36 ThCr2Si2 K 0.2 0.26 0.35 0 0.26 MPH9386 T/K 1.4 mj/mol.K2 80 uOhm.cm 2 arc-melting Superconductivity in heavy-fermion CeRh2Si2 1996 4 "Los Alamos National Laboratory,Los Alamos,New Mexico 87545" "Phys.Rev.B,53(1996)8241" "Ce, Rh, Si"
109387 JPS0682495 "Hc1=250 Oe, and Hc2=20 kOe at 2.0 K" "(Cu,Zn)Ir2S4" Cu0.7Zn0.3Ir2S4 Cu 0.7 Zn 0.3 Ir 2 S 4 1 1999 spinel A 9.8934 K 2.8 2.8 kOe 35 mj/mol.K2 13 287 SIN(850C) Metal-Insulator Transition and Superconductivity in Spinel-Type System Cu1-xZnxIr2S4 1999 8 "National Research Institute for Metals, Tsukuba 305-0047" "J.Phys.Soc.Japan,68(1999)2495-2497"
109388 JPS0682495 "(Cu,Zn)Ir2S4" Cu0.5Zn0.5Ir2S4 Cu 0.5 Zn 0.5 Ir 2 S 4 1 1999 spinel A 9.9206 K 2.2 2.2 SIN(850C) Metal-Insulator Transition and Superconductivity in Spinel-Type System Cu1-xZnxIr2S4 1999 8 "National Research Institute for Metals, Tsukuba 305-0047" "J.Phys.Soc.Japan,68(1999)2495-2497"
109389 PRL0844986 pressure-induced-s/c. s/c properties are at p=21 kbar. P=16.3 kbar = 15 kbar. CeRhIn5 Ce1Rh1In5 Ce 1 Rh 1 In 5 3 2001 5.8 3.8 HoCoGa5 K 2.1 0 2.1 self-flux method Magnetic and Thermal Properties of CeIrIn5 and CeRhIn5 2001 "Low Temperature Center, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 70(2001)877"
109412 PRL0865152 gamma in mj/mol.K2. Delta-C/gamma.Tc = 0.76 CeIrIn5 Ce1Ir1In5 Ce 1 Ir 1 In 5 3 2001 K 0.4 0.4 A 241 3.73 mj/mol.K2 110 MTHC9412 excess In flux Unconventional Superconductivity in CeIrIn5 and CeCoIn5: Specific Heat and Thermal Conductivity Studies 2001 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545" "Phys.Rev.Lett., 86(2001)5152"
109413 PRL0865152 gamma in mj/mol.K2. Delta-C/gamma.Tc = 4.5 CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2001 K 2.3 2.3 mj/mol.K2 40 MTHC9413 excess In flux Unconventional Superconductivity in CeIrIn5 and CeCoIn5: Specific Heat and Thermal Conductivity Studies 2001 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545" "Phys.Rev.Lett., 86(2001)5152"
109414 MAT0105429 RRR=5.4. Thermopower(300K)=8.6 microV/K. Figure shows thermal conductivity. MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 "AlB2, C32" K 38.7 38.7 MTHC9414 solid state reaction Heat and charge transport properties of MgB2 2001 "Technishe Universitat Dresden, Dresden, Germany" cond-mat/0105429(2001)
109415 PR05216165 gamma in mj/mol.K2 YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 1995 LuNi2B2C K 14.25 14.25 T 9.2 4.2 mj/mol.K2 18.2 490 "induction melting + ANN(1050C,24h)" Specific-heat analysis of rare-earth transition-metal borocarbides: An estimation of the electron-phonon coupling strength 1995 12 "Phys.Rev.B,52(1995)16165"
109416 PR05216165 gamma in mj/mol.K2 LuNi2B2C Lu1Ni2B2C1 Lu 1 Ni 2 B 2 C 1 1995 LuNi2B2C K 16.1 16.1 T 5.5 4.4 mj/mol.K2 19.5 360 "induction melting + ANN(1050C,24h)" Specific-heat analysis of rare-earth transition-metal borocarbides: An estimation of the electron-phonon coupling strength 1995 12 "Phys.Rev.B,52(1995)16165"
109417 PR05216165 gamma in mj/mol.K2. Not s/c LaNi2B2C La1Ni2B2C1 La 1 Ni 2 B 2 C 1 1995 LuNi2B2C K 5 mj/mol.K2 8.4 495 "induction melting + ANN(1050C,24h)" Specific-heat analysis of rare-earth transition-metal borocarbides: An estimation of the electron-phonon coupling strength 1995 12 "Phys.Rev.B,52(1995)16165"
109418 PR05216165 gamma in mj/mol.K2. "La(Pt,Au)2B2C" La1Pt1.5Au0.5B2C1 La 1 Pt 1.5 Au 0.5 B 2 C 1 1995 LuNi2B2C K 10.65 10.65 T 1.1 4.2 mj/mol.K2 6.4 250 "induction melting + ANN(1050C,24h)" Specific-heat analysis of rare-earth transition-metal borocarbides: An estimation of the electron-phonon coupling strength 1995 12 "Phys.Rev.B,52(1995)16165"
109419 PR05216165 gamma in mj/mol.K2. Not s/c "La(Pt,Au)2B2C" La1Pt1.7Au0.3B2C1 La 1 Pt 1.7 Au 0.3 B 2 C 1 1995 LuNi2B2C K 5 mj/mol.K2 7.5 220 "induction melting + ANN(1050C,24h)" Specific-heat analysis of rare-earth transition-metal borocarbides: An estimation of the electron-phonon coupling strength 1995 12 "Phys.Rev.B,52(1995)16165"
109420 MAT0102167 "density=2.26 g/cm3. Vickers hardness=1700-2800. Jc(20K,1T)=4E+4 A/cm2" MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 "AlB2, C32" K 39 39 mT 32 T 18 T/K 0.74 MHC9420 "high-pressure synthesis (3.5GPa, 775C)" Superconducting properties of MgB2 bulk materials prepared by high pressure sintering 2001 "National Research Institute for Metals, Tsukuba-si, Ibaraki,Japan" cond-mat/0102167(2001)
109421 P063220507 pressure induced s/c. critical pressure=1.6 Gpa. S/c data at p=2.1 Gpa. Gap by NMR CeRhIn5 Ce1Rh1In5 Ce 1 Rh 1 In 5 2001 HoCoGa5 K 2.2 0 2.2 MTC9421 5 Pressure-induced anomalous magnetism and unconventional superconductivity in CeRhIn5: 115In-NQR study under pressure 2001 "Department of Physical Science, Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.B, 63(2001)220507"
109422 PRL0865582 0.2% Mg impurity phase. STM using Au-tip. Gapene=1.24 estimated from gap=2.0 meV at 2.5 K. MgB2 B2Mg1 B 2 Mg 1 1 2001 AlB2 "AlB2, C32" K 37.5 37.5 1.24 Tunneling Spectroscopy in Small Grains of Superconducting MgB2 2001 "Instituto Universitario de Ciencia de Materiales , Universidad Automa de Madrid, E-28049 Madrid, Spain" "Phys.Rev.Lett., 86(2001)5582"
109423 P063220504 point contact using Au-tip. Gap(delta)=4.3-4.6 meV. MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 "AlB2, C32" K 39 39 2.56 "(Mg rod+B<11> powder)-(850C, in 50 bar Ar)" Energy gap from tunneling and metallic contacts onto MgB2: Possible evidence for a weakened surface layer 2001 "Materials Sciences Division, Argonne National Laboratory, Argonne, Illinois 60439" "Phys.Rev.B, 63(2001)220504"
109424 P064012507 weak trace of MgO. dTc/dP in K/GPa. MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 A 3.084 3.523 "AlB2, C32" K 38.5 38.5 K/GPa -1.6 High-pressure study on MgB2 2001 "Department of Physics and Texas Center for Superconductivity, University of Houston, Houston, Texas 77204-5932" "Phys.Rev.B, 64(2001)012507"
109425 P063220505 bulk modulus=151 Gpa. Space group=P6/mmm MgB2 B2Mg1 B 2 Mg 1 1 2001 AlB2 A 3.0859 3.5212 "AlB2, C32" K 38.2 38.2 commercial powder Compressibility and electronic structure of MgB2 up to 8 Gpa 2001 "Department of Physics, Brookhaven National Laboratory, Upton, New York 11973-5000" "Phys.Rev.B, 63(2001)220505"
109426 PHB2590666 specific heat shows two Tc. Tc represent the upper Tc. UPt3 Pt3U1 Pt 3 U 1 1999 K 0.57 0.57 Studies of superconductivity in U(Pt1-xPdx)3 for x<0.006 1999 1 "Department of Physics, Boston College, Chestnut Hill, MA 02167, USA" "Physica B,259(1999)666-667"
109427 PHB2590666 specific heat shows two Tc. Tc represent the upper Tc. "U(Pt,Pd)3" U1Pt2.997Pd0.003 U 1 Pt 2.997 Pd 0.003 1999 K 0.51 0.51 Studies of superconductivity in U(Pt1-xPdx)3 for x<0.006 1999 1 "Department of Physics, Boston College, Chestnut Hill, MA 02167, USA" "Physica B,259(1999)666-667"
109428 PHB2590666 specific heat shows two Tc. Tc represent the upper Tc. "U(Pt,Pd)3" U1Pt2.994Pd0.006 U 1 Pt 2.994 Pd 0.006 1999 K 0.42 0.42 Studies of superconductivity in U(Pt1-xPdx)3 for x<0.006 1999 1 "Department of Physics, Boston College, Chestnut Hill, MA 02167, USA" "Physica B,259(1999)666-667"
109429 PHB2590666 specific heat shows two Tc. Tc represent the upper Tc. "U(Pt,Pd)3" U1Pt2.991Pd0.009 U 1 Pt 2.991 Pd 0.009 1999 K 0.34 0.34 MTC9429 Studies of superconductivity in U(Pt1-xPdx)3 for x<0.006 1999 1 "Department of Physics, Boston College, Chestnut Hill, MA 02167, USA" "Physica B,259(1999)666-667"
109450 PR06212477 thermal expansion coefficient "(U,Th)Be13" U0.978Th0.022Be13 U 0.978 Th 0.022 Be 13 2000 K 0.52 0.52 MHC9450 Thermal expansion studies of superconducting U1-xThxBe13 (0<=x<=0.052): Implications for the interpretation of the T-x phase diagram 2000 10 "Max Planck Institute of Chemical Physics of Solids, D-01187 Dresden, Germany" "Phys.Rev.B,62(2000)12477-12488"
109451 PR06212477 thermal expansion coefficient "(U,Th)Be13" U0.97Th0.03Be13 U 0.97 Th 0.03 Be 13 2000 K 0.6 0.6 MHC9451 Thermal expansion studies of superconducting U1-xThxBe13 (0<=x<=0.052): Implications for the interpretation of the T-x phase diagram 2000 10 "Max Planck Institute of Chemical Physics of Solids, D-01187 Dresden, Germany" "Phys.Rev.B,62(2000)12477-12488"
109452 PR06212477 thermal expansion coefficient "(U,Th)Be13" U0.962Th0.038Be13 U 0.962 Th 0.038 Be 13 2000 K 0.56 0.56 MHC9452 Thermal expansion studies of superconducting U1-xThxBe13 (0<=x<=0.052): Implications for the interpretation of the T-x phase diagram 2000 10 "Max Planck Institute of Chemical Physics of Solids, D-01187 Dresden, Germany" "Phys.Rev.B,62(2000)12477-12488"
109453 PR06212477 thermal expansion coefficient "(U,Th)Be13" U0.957Th0.043Be13 U 0.957 Th 0.043 Be 13 2000 K 0.53 0.53 MHC9453 Thermal expansion studies of superconducting U1-xThxBe13 (0<=x<=0.052): Implications for the interpretation of the T-x phase diagram 2000 10 "Max Planck Institute of Chemical Physics of Solids, D-01187 Dresden, Germany" "Phys.Rev.B,62(2000)12477-12488"
109454 PR06212477 thermal expansion coefficient "(U,Th)Be13" U0.948Th0.052Be13 U 0.948 Th 0.052 Be 13 2000 K 0.38 0.38 MHC9454 Thermal expansion studies of superconducting U1-xThxBe13 (0<=x<=0.052): Implications for the interpretation of the T-x phase diagram 2000 10 "Max Planck Institute of Chemical Physics of Solids, D-01187 Dresden, Germany" "Phys.Rev.B,62(2000)12477-12488"
109455 NAT4100343 MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 A 3.0878 3.5204 "AlB2, C32" K 39 39 Loss of superconductivity with the addition of Al to MgB2 and a structural transition in Mg1-xAlxB2 2001 "Department of Chemistry and Princeton Materials Institute, PrincetonUniversity, Princeton,USA" Nature 410(2001)343
109456 NAT4100343 "(Mg,Al)B2" Mg0.9Al0.1B2 Mg 0.9 Al 0.1 B 2 2001 AlB2 A 3.0816 3.5163 "AlB2, C32" K 36 36 Loss of superconductivity with the addition of Al to MgB2 and a structural transition in Mg1-xAlxB2 2001 "Department of Chemistry and Princeton Materials Institute, PrincetonUniversity, Princeton,USA" Nature 410(2001)343
109457 NAT4100343 two phases(s/c phase(Tc=36K) + not s/c phase) "(Mg,Al)B2" Mg0.8Al0.2B2 Mg 0.8 Al 0.2 B 2 2001 AlB2 A 3.0735 "AlB2, C32" K 36 36 Loss of superconductivity with the addition of Al to MgB2 and a structural transition in Mg1-xAlxB2 2001 "Department of Chemistry and Princeton Materials Institute, PrincetonUniversity, Princeton,USA" Nature 410(2001)343
109458 NAT4100343 not s/c "(Mg,Al)B2" Mg0.6Al0.4B2 Mg 0.6 Al 0.4 B 2 2001 AlB2 A 3.0551 3.3735 "AlB2, C32" K 10 Loss of superconductivity with the addition of Al to MgB2 and a structural transition in Mg1-xAlxB2 2001 "Department of Chemistry and Princeton Materials Institute, PrincetonUniversity, Princeton,USA" Nature 410(2001)343
109459 P063224522 "structure by NED. Thermal expansion coefficient = 5.4E-6 /K for a-axis, =11.4E-6 /K for c-axis." MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 A 3.0849 3.5211 "AlB2, C32" K 39 39 Lattice properties of MgB2 versus temperature and pressure 2001 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439" "Phys.Rev.B, 63(2001)224522"
109460 P063220508 energy gap = 5-7 meV by STM. MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 A 3.11 3.519 "AlB2, C32" K 39 39 Oe 450 3.5 11 heat(950C in Ta tube) Tunneling spectroscopy and magnetization measurements of the superconducting properties of MgB2 2001 "Racah Institute for Physics, The Hebrew University, Jerusalem 91904, Israel" "Phys.Rev.B, 63(2001)220508"
109461 P063224510 "Three CDW transitions at 42K, 36K, 23K. RRR=115. Tc(on)=0.78K, Tc(end)=0.22K. Hc2 means Hc because of type-I s/c." alpha-U U1 U 1 2001 K 0.78 0.78 mT 74 mj/mol.K2 9.13 256 electrotransport Low-temperature specific heat and critical magnetic field of alpha-uranium single crystals 2001 "Department of Chemistry and Biochemistry, Brigham Young University, Provo, Utah 84602" "Phys.Rev.B, 63(2001)224510"
109462 PR0124929 gamma in mJ/mol.K2 U U1 U 1 1 1975 K 0.27 0.27 mj/mol.K2 9.59 polycrystal Low-temperature heat capacity of alpha -uranium and its relation to the pressure dependence of Tc 1975 "Phys.Rev.B, 12(1975)4929"
109463 PR0124929 gamma in mJ/mol.K2 U U1 U 1 1 1975 K 0.2 0.2 mj/mol.K2 9.86 polycrystal Low-temperature heat capacity of alpha -uranium and its relation to the pressure dependence of Tc 1975 "Phys.Rev.B, 12(1975)4929"
109464 PR0124929 gamma in mJ/mol.K2 U U1 U 1 1 1975 K 0.27 0.27 mj/mol.K2 9.82 large-grained Low-temperature heat capacity of alpha -uranium and its relation to the pressure dependence of Tc 1975 "Phys.Rev.B, 12(1975)4929"
109465 PR0124929 gamma in mJ/mol.K2 U U1 U 1 3 1975 K 0.1 mj/mol.K2 9.14 single crystal. Not s/c Low-temperature heat capacity of alpha -uranium and its relation to the pressure dependence of Tc 1975 "Phys.Rev.B, 12(1975)4929"
109466 ASD0010151 "(Na,Rb,Cs)3C60" Na2Rb0.5Cs0.5C60 Na 2 Rb 0.5 Cs 0.5 C 60 1993 fullerene A 14.148 K 8 8 Synthesis and characterization of alkali metal fullerides: AxC60 1993 "AT&T Bell Lab, Murray Hill, NJ, USA" "The Fullerences' Pergamon Press, 1993, p151"
109467 ASD0010151 Na2CsC60 Na2Cs1C60 Na 2 Cs 1 C 60 1993 fullerene A 14.132 K 10.5 10.5 Synthesis and characterization of alkali metal fullerides: AxC60 1993 "AT&T Bell Lab, Murray Hill, NJ, USA" "The Fullerences' Pergamon Press, 1993, p151"
109468 ASD0010151 Na2CsC60 Na2Cs1C60 Na 2 Cs 1 C 60 1993 fullerene A 14.176 K 14 14 Synthesis and characterization of alkali metal fullerides: AxC60 1993 "AT&T Bell Lab, Murray Hill, NJ, USA" "The Fullerences' Pergamon Press, 1993, p151"
109469 ASD0010151 K3C60 C60K3 C 60 K 3 1993 fullerene A 14.253 K 19.3 19.3 Synthesis and characterization of alkali metal fullerides: AxC60 1993 "AT&T Bell Lab, Murray Hill, NJ, USA" "The Fullerences' Pergamon Press, 1993, p151"
109470 ASD0010151 K2RbC60 K2Rb1C60 K 2 Rb 1 C 60 1993 fullerene A 14.299 K 21.8 21.8 Synthesis and characterization of alkali metal fullerides: AxC60 1993 "AT&T Bell Lab, Murray Hill, NJ, USA" "The Fullerences' Pergamon Press, 1993, p151"
109471 ASD0010151 Rb2KC60 Rb2K1C60 Rb 2 K 1 C 60 1993 fullerene A 14.336 K 24.4 24.4 Synthesis and characterization of alkali metal fullerides: AxC60 1993 "AT&T Bell Lab, Murray Hill, NJ, USA" "The Fullerences' Pergamon Press, 1993, p151"
109472 ASD0010151 Rb2KC60 Rb2K1C60 Rb 2 K 1 C 60 1993 fullerene A 14.364 K 26.4 26.4 Synthesis and characterization of alkali metal fullerides: AxC60 1993 "AT&T Bell Lab, Murray Hill, NJ, USA" "The Fullerences' Pergamon Press, 1993, p151"
109473 ASD0010151 Rb3C60 C60Rb3 C 60 Rb 3 1993 fullerene A 14.436 K 29.4 29.4 Synthesis and characterization of alkali metal fullerides: AxC60 1993 "AT&T Bell Lab, Murray Hill, NJ, USA" "The Fullerences' Pergamon Press, 1993, p151"
109474 ASD0010151 Rb2CsC60 Rb2Cs1C60 Rb 2 Cs 1 C 60 1993 fullerene A 14.493 K 31.3 31.3 Synthesis and characterization of alkali metal fullerides: AxC60 1993 "AT&T Bell Lab, Murray Hill, NJ, USA" "The Fullerences' Pergamon Press, 1993, p151"
109475 PRL0681228 compressibility d(lna)/dp=1.52 E-2/Gpa. G-L parameter = 124 Rb3C60 C60Rb3 C 60 Rb 3 1992 fullerene A 14.425 K 29.6 29.6 K/GPa -9.7 mT 12 T 78 T/K 3.9 MHC9475 nm 2 nm 247 Pressure and field dependence of superconductivity in Rb3C60 1992 "Phys. Rev. Lett., 68(1992)1228"
109476 PRL0681228 compressibility d(lna)/dp=1.20 E-2/Gpa. G-L parameter = 92 K3C60 C60K3 C 60 K 3 1992 fullerene A 14.24 K 19.3 19.3 K/GPa -7.8 mT 13 T 49 nm 2.6 nm 240 Pressure and field dependence of superconductivity in Rb3C60 1992 "Phys. Rev. Lett., 68(1992)1228"
109477 PR05003466 "structure=simple cubic, space group=Pa3(upper bar). S/c volume fraction=59%. dTc/dP in K/GPa." Na2CsC60 Na2Cs1C60 Na 2 Cs 1 C 60 1994 cubic K 12 12 K/GPa -12.5 "react(C60,Na,Cs) in Ta-cell sealed glass" Pressure dependence of superconductivity in simple-cubic Na2CsC60 1994 8 "Phys.Rev.B, 50(1994)3466" "Na,Cs,C"
109478 PR05003466 Rb3C60 C60Rb3 C 60 Rb 3 1994 fullerene K 29.5 29.5 Pressure dependence of superconductivity in simple-cubic Na2CsC60 1994 8 "Phys.Rev.B, 50(1994)3466" "Na,Cs,C"
109479 PHC3410739 MX2 structure. dTc dP in K/GPa. CuSe2 Cu1Se2 Cu 1 Se 2 2000 FeS2(pyrite) K 2.5 2.5 K/GPa -0.2 "sintered (1000C,1h,p=5GPa)-anneal(400C)" Superconducting Properties of CuS2-xSex under High Pressure 2000 "National Research Institute for Metals, 1-2-1 Sengen, Tsukuba 305-0047 Japan" "Physica C, 341(2000)739"
109480 PHC3410739 MX2 structure "Cu(S,Se)2" Cu1S1.8Se0.2 Cu 1 S 1.8 Se 0.2 2000 FeS2(pyrite) K 2.2 2.2 "sintered (1000C,1h,p=5GPa)-anneal(400C)" Superconducting Properties of CuS2-xSex under High Pressure 2000 "National Research Institute for Metals, 1-2-1 Sengen, Tsukuba 305-0047 Japan" "Physica C, 341(2000)739"
109481 PHC3410739 MX2 structure CuS2 Cu1Se2 Cu 1 Se 2 2000 FeS2(pyrite) K 1.6 1.6 "sintered (1000C,1h,p=5GPa)-anneal(400C)" Superconducting Properties of CuS2-xSex under High Pressure 2000 "National Research Institute for Metals, 1-2-1 Sengen, Tsukuba 305-0047 Japan" "Physica C, 341(2000)739"
109482 PHC3410735 "(Cu,Zn)Ir2S4" Cu0.78Zn0.22Ir2S4 Cu 0.78 Zn 0.22 Ir 2 S 4 2000 spinel K 3.3 3.3 Superconductivity in Zn-doped CuIr2S4 2000 "National Research Institute for Metals, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Physica C, 341(2000)735"
109483 PHC3410735 "(Cu,Zn)Ir2S4" Cu0.75Zn0.25Ir2S4 Cu 0.75 Zn 0.25 Ir 2 S 4 2000 spinel K 3.3 3.3 Superconductivity in Zn-doped CuIr2S4 2000 "National Research Institute for Metals, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Physica C, 341(2000)735"
109484 PHC3410735 Hc1(2.0K)=250 Oe. Hc2(2.0K)=20 kOe. Delta-C(at Tc)=44 mj/mol.K. (delta-C/gamma*Tc)=1.1 "(Cu,Zn)Ir2S4" Cu0.7Zn0.3Ir2S4 Cu 0.7 Zn 0.3 Ir 2 S 4 2000 spinel K 3 3 T 3.5 mj/mol.K2 13 287 Superconductivity in Zn-doped CuIr2S4 2000 "National Research Institute for Metals, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Physica C, 341(2000)735"
109485 PHC3410735 "(Cu,Zn)Ir2S4" Cu0.65Zn0.35Ir2S4 Cu 0.65 Zn 0.35 Ir 2 S 4 2000 spinel K 2.8 2.8 Superconductivity in Zn-doped CuIr2S4 2000 "National Research Institute for Metals, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Physica C, 341(2000)735"
109486 PHC3410735 "(Cu,Zn)Ir2S4" Cu0.6Zn0.4Ir2S4 Cu 0.6 Zn 0.4 Ir 2 S 4 2000 spinel K 2.6 2.6 Superconductivity in Zn-doped CuIr2S4 2000 "National Research Institute for Metals, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Physica C, 341(2000)735"
109487 PHC3410735 "(Cu,Zn)Ir2S4" Cu0.55Zn0.45Ir2S4 Cu 0.55 Zn 0.45 Ir 2 S 4 2000 spinel K 2.41 2.41 Superconductivity in Zn-doped CuIr2S4 2000 "National Research Institute for Metals, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Physica C, 341(2000)735"
109488 PHC3410735 "(Cu,Zn)Ir2S4" Cu0.5Zn0.5Ir2S4 Cu 0.5 Zn 0.5 Ir 2 S 4 2000 spinel K 2.2 2.2 Superconductivity in Zn-doped CuIr2S4 2000 "National Research Institute for Metals, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Physica C, 341(2000)735"
109489 PHC3530011 two phase(MgB2 + BeB2) "(Mg,Be)B2" Mg0.7Be0.3B2 Mg 0.7 Be 0.3 B 2 2001 AlB2 "AlB2, C32" K 39 39 "(950C,2h) in Ta tube sealed in quartz." Absence of superconductivity in BeB2 2001 "Racah Institute of Physics, The Hebrew University, Jerusalem 91904, Israel" "Physica C, 353(2001)11"
109490 PHC3530011 moment=0.048 Bohr magneton. Kai(zero)=1.4 E-7 emu/mol.Oe BeB2 B2Be1 B 2 Be 1 2001 0 AlB2 A 9.749 9.52 "AlB2, C32" K 5 arc-melting Absence of superconductivity in BeB2 2001 "Racah Institute of Physics, The Hebrew University, Jerusalem 91904, Israel" "Physica C, 353(2001)11"
109491 PLA1640355 C<13> 60% substitution. Alpha=2.0-2.25 Rb3C60 C60Rb3 C 60 Rb 3 1992 fullerene K 28.6 28.6 2 C "Enhanced isotope effect in 13C-rich superconducting MxC60 (M=K,Rb): support for vibronic pairing" 1992 "Institute for Molecular Science, Okazaki, Aichi 444, Japan" "Phys.Lett.A,164(1992)355-361"
109492 PLA1640355 C<13> 60% substitution. Alpha=1.2 - 1.43 K3C60 C60K3 C 60 K 3 1992 fullerene K 20 20 1.2 C "Enhanced isotope effect in 13C-rich superconducting MxC60 (M=K,Rb): support for vibronic pairing" 1992 "Institute for Molecular Science, Okazaki, Aichi 444, Japan" "Phys.Lett.A,164(1992)355-361"
109493 PR0465880 K3C60 C60K3 C 60 K 3 1992 fullerene K 18 18 T 28 T/K 2 MHC9493 A 34 UPPER-CRITICAL-FIELD-TEMPERATURE PHASE DIAGRAM OF ALKALI-METAL-INTERCALATED C60 SUPERCONDUCTORS 1992 9 "DEPARTMENT OF PHYSICS, UNIVERSITY OF CALIFORNIA AT LOS ANGELES" "PHYS.REV.B,46(1992)5880" "K,C,RB"
109494 PR0465880 Rb3C60 C60Rb3 C 60 Rb 3 1992 fullerene K 30 30 T 38 T/K 2 MHC9494 A 30 UPPER-CRITICAL-FIELD-TEMPERATURE PHASE DIAGRAM OF ALKALI-METAL-INTERCALATED C60 SUPERCONDUCTORS 1992 9 "DEPARTMENT OF PHYSICS, UNIVERSITY OF CALIFORNIA AT LOS ANGELES" "PHYS.REV.B,46(1992)5880" "K,C,RB"
109495 PR0465876 "Hc2 follows linear relation, not WHH theory." K3C60 C60K3 C 60 K 3 1992 fullerene K 18.7 18.7 T 38 T/K 2.14 A 29 EVIDENCE OF UPPER-CRITICAL-FIELD ENHAMCEMENT IN K3C60 POWDERS 1992 9 "AT&T BELL LABORATORIES, NEW JERSEY" "PHYS.REN.B,46(1992)5876" "K,C"
109496 SSC0870375 "Maybe, NaxNyC60 (x = 3-4, y = unknown). N is detected in the sample. Na-doped fullerene prepared by thermal decomposition of NaN3." Na3N1C60 Na3N1C60 Na 3 N 1 C 60 1993 fullerene A 14.204 K 14.7 14.7 NEW SUPERCONDUCTING SODIUM-NITROGEN-C60 THRNARY COMPOUND 1993 "SOLID STATE COMMUN.,87(1993)375" "C,NA,N"
109497 SSC0850073 "gamma in micro-J/g.K2. 80%C60+18%C70+2%solvent. Debye-T estimated from specific heat below 9K. Two anomalies(90K, 250K) in specific heat." C60 C60 C 60 1993 fullerene K mj/mol.K2 893 188 SPECIFIC HEAT OF FULLERENES EXTRACT 1993 1 "SOLID STATE COMMUN.,85(1993)73" "C,"
109498 PHC2280175 BCS coherence length=44A. Hc2 from analyzing R(H) curve using fluctuation theory. Rb3C60 C60Rb3 C 60 Rb 3 1994 fullerene K 30 30 T 62 T/K 3.28 A 24 A 3200 Magnetotransport in single-crystal Rb3C60 1994 7 "Physica C, 228(1994)175-180" "Rb,C"
109499 SSC0930327 Cs3C60 C60Cs3 C 60 Cs 3 1995 fullerene K 18 18 SUPERCONDUCTIVITY AT 40K IN CECIUM DOPED C60 1995 "Solid State Commun.,93(1995)327-330" "C, CS"
109500 NAT3750126 space group=Pcab. Yb occupy off-centered interstitial sites. Yb3C60 C60Yb2.75 C 60 Yb 2.75 1995 A 27.874 27.98 27.873 K 5.4 5.4 Superconductivity and cation-vacancy ordering in the rare-earth fulleride Yb2.75C60 1995 5 "AT&T Bell Laboratories, Murray Hill, new Jersey 07974, USA" Nature 375(1995)126
109501 PR04614936 Hc2 using rf technique in pulsed field. Spin orbit parameter=1 K3C60 C60K3 C 60 K 3 1992 fullerene K 19.5 19.5 T 32.7 T/K 2.8 A 31 MEASUREMENTS OF THE UPPER CRITICAL FIELD OF K3C60 AND RB3C60 POWDERS TO 60 T 1992 12 "FRANCIS BITTER NATIONAL MAGNET LABORATORY, MASSACHUSETTS INSTITUTE OF TECHNOLOGY" "PHYS.REV.B,46(1992)14936" "K,C,RB"
109502 PR04614936 Hc2 using rf technique in pulsed field. Spin orbit parameter=0.7 Rb3C60 C60Rb3 C 60 Rb 3 1992 fullerene K 28.4 28.4 T 57.4 T/K 3.86 A 24 MEASUREMENTS OF THE UPPER CRITICAL FIELD OF K3C60 AND RB3C60 POWDERS TO 60 T 1992 12 "FRANCIS BITTER NATIONAL MAGNET LABORATORY, MASSACHUSETTS INSTITUTE OF TECHNOLOGY" "PHYS.REV.B,46(1992)14936" "K,C,RB"
109503 LTP1220591 "s/c properties were measured at p=27 kbar. RRR=45. dHc2/dT and coherence length are : =12.7 T/K, 300A for H//a and =16 T/K, 230 A for H//c. dTc/dP in K/GPa." CePd2Si2 Ce1Pd2Si2 Ce 1 Pd 2 Si 2 3 2001 10.5 ThCr2Si2 K 0.395 0.395 K/GPa 2.8 T/K 16 MHC9503 A 230 "Superconductivity, upper critical field and anomalous normal state in CePd2Si2 near the quantum critical point" 2001 "Grenoble Cedex, France" "J.Low Temp. Phys., 122(2001)591"
109504 PR0315756 reentrant Tc2=4.07 K. FM order at Curie Temp. "(Er,Ho)Rh4B4" Er0.25Ho0.75Rh4B4 Er 0.25 Ho 0.75 Rh 4 B 4 1985 4.75 AB4C4 RT4B4 LuRh4B4 type K 6.44 6.44 MTC9504 Magnetic and superconducting properties of holmium-rich (Er1-xHox)Rh4B4 1985 "Phys.Rev.B, 31(1985)5756"
109506 PR0315756 reentrant Tc2=4.95 K. FM order at Curie Temp. "(Er,Ho)Rh4B4" Er0.16Ho0.84Rh4B4 Er 0.16 Ho 0.84 Rh 4 B 4 1985 5.33 AB4C4 RT4B4 LuRh4B4 type K 5.95 5.95 Magnetic and superconducting properties of holmium-rich (Er1-xHox)Rh4B4 1985 "Phys.Rev.B, 31(1985)5756"
109507 PR0315756 reentrant Tc2=5.33 K. FM order at Curie Temp. "(Er,Ho)Rh4B4" Er0.11Ho0.89Rh4B4 Er 0.11 Ho 0.89 Rh 4 B 4 1985 5.56 AB4C4 RT4B4 LuRh4B4 type K 5.71 5.71 Magnetic and superconducting properties of holmium-rich (Er1-xHox)Rh4B4 1985 "Phys.Rev.B, 31(1985)5756"
109508 PR0315756 reentrant Tc2=4.07 K. FM order at Curie Temp. "(Er,Ho)Rh4B4" Ho1Rh4B4 Ho 1 Rh 4 B 4 1985 6.47 AB4C4 RT4B4 LuRh4B4 type K Magnetic and superconducting properties of holmium-rich (Er1-xHox)Rh4B4 1985 "Phys.Rev.B, 31(1985)5756"
109509 SSC0270761 FM order at Curie Temp. GdMo6S8 Gd1.2Mo6S8 Gd 1.2 Mo 6 S 8 1978 0.95 Chevrel K 1.4 1.4 "1100C in quartz tube + (1250C, 10h)" "Low temperature magnetization measurements on heavy rare earth molybdenum sulfides, (RE)1.2Mo6S8" 1978 "Solid State Commun., 27(1978)761"
109510 SSC0270761 FM order at Curie Temp. TbMo6S8 Tb1.2Mo6S8 Tb 1.2 Mo 6 S 8 1978 1.05 Chevrel K 1.8 1.8 "1100C in quartz tube + (1250C, 10h)" "Low temperature magnetization measurements on heavy rare earth molybdenum sulfides, (RE)1.2Mo6S8" 1978 "Solid State Commun., 27(1978)761"
109511 SSC0270761 FM order at Curie Temp. DyMo6S8 Dy1.2Mo6S8 Dy 1.2 Mo 6 S 8 1978 0.45 Chevrel K 2.15 2.15 "1100C in quartz tube + (1250C, 10h)" "Low temperature magnetization measurements on heavy rare earth molybdenum sulfides, (RE)1.2Mo6S8" 1978 "Solid State Commun., 27(1978)761"
109512 SSC0270761 FM order at Curie Temp. HoMo6S8 Ho1.2Mo6S8 Ho 1.2 Mo 6 S 8 1978 0.75 Chevrel K 2.15 2.15 "1100C in quartz tube + (1250C, 10h)" "Low temperature magnetization measurements on heavy rare earth molybdenum sulfides, (RE)1.2Mo6S8" 1978 "Solid State Commun., 27(1978)761"
109513 SSC0270761 FM order at Curie Temp. ErMo6S8 Er1.2Mo6S8 Er 1.2 Mo 6 S 8 1978 0.22 Chevrel K 2.2 2.2 "1100C in quartz tube + (1250C, 10h)" "Low temperature magnetization measurements on heavy rare earth molybdenum sulfides, (RE)1.2Mo6S8" 1978 "Solid State Commun., 27(1978)761"
109514 SSC0170721 density=5.62 g/cm3. LaMo6S8 La1Mo6S8 La 1 Mo 6 S 8 1975 Chevrel A 9.12 11.48 K 6.95 6.95 T 6.5 mixture-heat(950C+1250C+800C) Superconductivity in the RExMo6S8 1975 "Solid State Commun., 17(1975)721"
109515 SSC0170721 density=5.80 g/cm3. CeMo6S8 Ce1Mo6S8 Ce 1 Mo 6 S 8 1975 -23 Chevrel A 9.1 11.45 K 1.1 mixture-heat(950C+1250C+800C) Superconductivity in the RExMo6S8 1975 "Solid State Commun., 17(1975)721"
109516 SSC0170721 density=5.80 g/cm3. PrMo6S8 Pr1Mo6S8 Pr 1 Mo 6 S 8 1975 -20 Chevrel A 9.1 11.44 K 2.55 2.55 mixture-heat(950C+1250C+800C) Superconductivity in the RExMo6S8 1975 "Solid State Commun., 17(1975)721"
109517 SSC0170721 density=5.86 g/cm3. NdMo6S8 Nd1Mo6S8 Nd 1 Mo 6 S 8 1975 -30 Chevrel A 9.1 11.42 K 3.5 3.5 mixture-heat(950C+1250C+800C) Superconductivity in the RExMo6S8 1975 "Solid State Commun., 17(1975)721"
109518 SSC0170721 density=5.92 g/cm3. SmMo6S8 Sm1.2Mo6S8 Sm 1.2 Mo 6 S 8 1975 Chevrel A 9.09 11.37 K 2.4 2.4 mixture-heat(950C+1250C+800C) Superconductivity in the RExMo6S8 1975 "Solid State Commun., 17(1975)721"
109519 SSC0170721 density=5.77 g/cm3. EuMo6S8 Eu1.2Mo6S8 Eu 1.2 Mo 6 S 8 1975 Chevrel A 9.17 11.54 K 1.1 mixture-heat(950C+1250C+800C) Superconductivity in the RExMo6S8 1975 "Solid State Commun., 17(1975)721"
109520 SSC0170721 density=5.74 g/cm3. EuMo6S8 Eu1Mo6.35S8 Eu 1 Mo 6.35 S 8 1975 1 Chevrel A 9.18 11.45 K 1.1 mixture-heat(950C+1250C+800C) Superconductivity in the RExMo6S8 1975 "Solid State Commun., 17(1975)721"
109521 SSC0170721 density=5.96 g/cm3. GdMo6S8 Gd1.2Mo6S8 Gd 1.2 Mo 6 S 8 1975 -4 Chevrel A 9.1 11.35 K 1.4 1.4 mixture-heat(950C+1250C+800C) Superconductivity in the RExMo6S8 1975 "Solid State Commun., 17(1975)721"
109522 SSC0170721 density=6.06 g/cm3. TbMo6S8 Tb1.2Mo6S8 Tb 1.2 Mo 6 S 8 1975 -6 Chevrel A 9.09 11.3 K 1.4 1.4 mixture-heat(950C+1250C+800C) Superconductivity in the RExMo6S8 1975 "Solid State Commun., 17(1975)721"
109523 SSC0170721 density=6.02 g/cm3. DyMo6S8 Dy1.2Mo6S8 Dy 1.2 Mo 6 S 8 1975 -10 Chevrel A 9.09 11.27 K 1.7 1.7 mixture-heat(950C+1250C+800C) Superconductivity in the RExMo6S8 1975 "Solid State Commun., 17(1975)721"
109524 SSC0170721 density=6.17 g/cm3. HoMo6S8 Ho1.2Mo6S8 Ho 1.2 Mo 6 S 8 1975 -10 Chevrel A 9.08 11.26 K 1.25 1.25 mixture-heat(950C+1250C+800C) Superconductivity in the RExMo6S8 1975 "Solid State Commun., 17(1975)721"
109525 SSC0170721 density=6.20 g/cm3. ErMo6S8 Er1.2Mo6S8 Er 1.2 Mo 6 S 8 1975 -6 Chevrel A 9.09 11.23 K 1.1 mixture-heat(950C+1250C+800C) Superconductivity in the RExMo6S8 1975 "Solid State Commun., 17(1975)721"
109526 SSC0170721 density=6.18 g/cm3. TmMo6S8 Tm1.2Mo6S8 Tm 1.2 Mo 6 S 8 1975 -15 Chevrel A 9.1 11.2 K 1.95 1.95 mixture-heat(950C+1250C+800C) Superconductivity in the RExMo6S8 1975 "Solid State Commun., 17(1975)721"
109527 SSC0170721 density=6.06 g/cm3. YbMo6S8 Yb1.2Mo6S8 Yb 1.2 Mo 6 S 8 1975 -60 Chevrel A 9.14 11.36 K 8.6 8.6 mixture-heat(950C+1250C+800C) Superconductivity in the RExMo6S8 1975 "Solid State Commun., 17(1975)721"
109528 SSC0170721 density=6.33 g/cm3. LuMo6S8 Lu1.2Mo6S8 Lu 1.2 Mo 6 S 8 1975 Chevrel A 9.08 11.15 K 1.95 1.95 mixture-heat(950C+1250C+800C) Superconductivity in the RExMo6S8 1975 "Solid State Commun., 17(1975)721"
109529 SSC0170721 density=6.65 g/cm3. YMo6S8 Y1.2Mo6S8 Y 1.2 Mo 6 S 8 1975 Chevrel A 9.08 11.25 K 2.1 2.1 mixture-heat(950C+1250C+800C) Superconductivity in the RExMo6S8 1975 "Solid State Commun., 17(1975)721"
109530 SSC0170721 density=5.96 g/cm3. YbMo6S8 Yb1Mo6S8 Yb 1 Mo 6 S 8 1975 -65 Chevrel A 9.16 11.35 K 8.45 8.45 mixture-heat(950C+1250C+800C) Superconductivity in the RExMo6S8 1975 "Solid State Commun., 17(1975)721"
109531 PR0344566 YPd2Si2 Y1Pd2Si2 Y 1 Pd 2 Si 2 1 1986 ThCr2Si2 A 4.129 9.84 K 0.47 0.47 mT 5.4 exothermic reaction "Superconductivity in the ternary rare-earth (Y,La, and Lu) compounds RPd2Si2 and RRh2Si2" 1986 "Phys. Rev.B, 34(1986)4566"
109532 PR0344566 LaPd2Si2 La1Pd2Si2 La 1 Pd 2 Si 2 1 1986 ThCr2Si2 A 4.283 9.88 K 0.39 0.39 mT 3.1 exothermic reaction "Superconductivity in the ternary rare-earth (Y,La, and Lu) compounds RPd2Si2 and RRh2Si2" 1986 "Phys. Rev.B, 34(1986)4566"
109533 PR0344566 gamma in mj/mol.K2(calculated from 78 J/m3.K2) LuPd2Si2 Lu1Pd2Si2 Lu 1 Pd 2 Si 2 1 1986 ThCr2Si2 A 4.089 9.85 K 0.67 0.67 mT 7 mj/mol.K2 7.72 exothermic reaction "Superconductivity in the ternary rare-earth (Y,La, and Lu) compounds RPd2Si2 and RRh2Si2" 1986 "Phys. Rev.B, 34(1986)4566"
109534 PR0344566 YRh2Si2 Y1Rh2Si2 Y 1 Rh 2 Si 2 1 1986 ThCr2Si2 A 4.031 9.92 K 0.33 exothermic reaction "Superconductivity in the ternary rare-earth (Y,La, and Lu) compounds RPd2Si2 and RRh2Si2" 1986 "Phys. Rev.B, 34(1986)4566"
109535 PR0344566 LaRh2Si2 La1Rh2Si2 La 1 Rh 2 Si 2 1 1986 ThCr2Si2 A 4.112 10.29 K 0.074 0.074 exothermic reaction "Superconductivity in the ternary rare-earth (Y,La, and Lu) compounds RPd2Si2 and RRh2Si2" 1986 "Phys. Rev.B, 34(1986)4566"
109536 PR0344566 LuRh2Si2 Lu1Rh2Si2 Lu 1 Rh 2 Si 2 1 1986 ThCr2Si2 A 4.09 10.18 K 0.33 exothermic reaction "Superconductivity in the ternary rare-earth (Y,La, and Lu) compounds RPd2Si2 and RRh2Si2" 1986 "Phys. Rev.B, 34(1986)4566"
109537 PRL0542375 "pressure-induced s/c. Tc=8.2K at p=15 Gpa. p-type Si(acceptor=E+16/cm3). Phases: diamond(Si-I) for P < 12 GPa, beta-Sn(Si-II) for 11 13 Gpa" Si Si Si 1 1985 hexagonal K 8.2 0 8.2 MTC9537 K/GPa -0.4 Superconductivity in high-pressure metallic phases of Si 1985 "Department of Physics, University of California, and Materials and Molecular Research Division, Lawrence Berkeley Laborator, Berkeley, California 94720" "Phys.Rev.Lett., 54(1985)2375"
109538 PR06103800 this phase has Tc(max)=6K at p=10 Gpa. CaSi2 Ca1Si2 Ca 1 Si 2 2000 alpha-ThSi2 K 1.51 1.51 MTC109538 "(trigonal-CaSi2) - ANN(800C, 8GPa)" Superconducting high pressure CaSi2 phase with Tc up to 14 K 2000 2 "Centre de Recherches sur les Tres Basses Temperatures, CNRS, Boite Postale 166, Cedex 09, 38042 Grenoble, France" "Phys.Rev.B,61(2000)R3800-R3803"
109539 PR06103800 P-induced SC. Pcrit = 12 GPa. TCFIG shows Tc(P). trigonal-CaSi2 sample transformed to AlB2 structure under pressure p>15 Gpa. Debye-T = 300K for P>12 GPa. CaSi2 Ca1Si2 Ca 1 Si 2 2000 AlB2 A 10.4 alpha = 21deg 30' K 14 0 14 MTC109539 K/GPa 22 456 resistivity "melting in Ta-crucible. then ANN(900C,7d)" Superconducting high pressure CaSi2 phase with Tc up to 14 K 2000 2 "Centre de Recherches sur les Tres Basses Temperatures, CNRS, Boite Postale 166, Cedex 09, 38042 Grenoble, France" "Phys.Rev.B,61(2000)R3800-R3803"
109540 L087077003 transition width = 0.2K. Hc2(0) estimated from Hc2(1.9K)=1T using WHH theory. Hc1(1.9K)=20 Oe. "Sr(Ga,Si)2" Sr1Ga0.74Si1.26 Sr 1 Ga 0.74 Si 1.26 2001 AlB2 A 4.1427 4.7998 "AlB2, C32" K 3.5 3.5 Oe 20 T 1.53 arc-melting + floating zone with infrared heating "Superconductivity of Ternary Silicide with the AlB2-Type Structure Sr(Ga0.37, Si0.63)2" 2001 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.Lett., 87(2001)077003"
109541 P064064514 Gd2Rh3Si5 Gd2Rh3Si5 Gd 2 Rh 3 Si 5 2001 -15.3 U2Co3Si5 A 9.86 11.81 5.77 K 4 352 arc-melting "Magnetism and crystal-field effects in the R2Rh3Si5 (R = La, Ce, Pr, Nd, Tb, Gd, Dy, Er, Ho, and Tm) system" 2001 "Tata Institute Of Fundamental Research, Mumbai-400005, India" "Phys.Rev.B, 64(2001)064514"
109542 P064064514 Dy2Rh3Si5 Dy2Rh3Si5 Dy 2 Rh 3 Si 5 2001 1.25 4 U2Co3Si5 A 9.84 11.77 5.75 K 4 403 arc-melting "Magnetism and crystal-field effects in the R2Rh3Si5 (R = La, Ce, Pr, Nd, Tb, Gd, Dy, Er, Ho, and Tm) system" 2001 "Tata Institute Of Fundamental Research, Mumbai-400005, India" "Phys.Rev.B, 64(2001)064514"
109543 P064064514 Er2Rh3Si5 Er2Rh3Si5 Er 2 Rh 3 Si 5 2001 12.8 2.5 U2Co3Si5 A 9.8 11.721 5.73 K 4 arc-melting "Magnetism and crystal-field effects in the R2Rh3Si5 (R = La, Ce, Pr, Nd, Tb, Gd, Dy, Er, Ho, and Tm) system" 2001 "Tata Institute Of Fundamental Research, Mumbai-400005, India" "Phys.Rev.B, 64(2001)064514"
109544 P064064514 Ho2Rh3Si5 Ho2Rh3Si5 Ho 2 Rh 3 Si 5 2001 0.77 3 U2Co3Si5 A 9.82 11.75 5.74 K 4 477 arc-melting "Magnetism and crystal-field effects in the R2Rh3Si5 (R = La, Ce, Pr, Nd, Tb, Gd, Dy, Er, Ho, and Tm) system" 2001 "Tata Institute Of Fundamental Research, Mumbai-400005, India" "Phys.Rev.B, 64(2001)064514"
109545 P064064514 Tm2Rh3Si5 Tm2Rh3Si5 Tm 2 Rh 3 Si 5 2001 -5.98 U2Co3Si5 A 9.78 11.68 5.72 K 4 430 arc-melting "Magnetism and crystal-field effects in the R2Rh3Si5 (R = La, Ce, Pr, Nd, Tb, Gd, Dy, Er, Ho, and Tm) system" 2001 "Tata Institute Of Fundamental Research, Mumbai-400005, India" "Phys.Rev.B, 64(2001)064514"
109546 P064064514 Lu2Rh3Si5 Lu2Rh3Si5 Lu 2 Rh 3 Si 5 2001 U2Co3Si5 A 9.76 11.66 5.71 K 4 arc-melting "Magnetism and crystal-field effects in the R2Rh3Si5 (R = La, Ce, Pr, Nd, Tb, Gd, Dy, Er, Ho, and Tm) system" 2001 "Tata Institute Of Fundamental Research, Mumbai-400005, India" "Phys.Rev.B, 64(2001)064514"
109547 P064064514 La2Rh3Si5 La2Rh3Si5 La 2 Rh 3 Si 5 2001 U2Co3Si5 A 10 11.96 5.88 K 4.4 4.4 338 arc-melting "Magnetism and crystal-field effects in the R2Rh3Si5 (R = La, Ce, Pr, Nd, Tb, Gd, Dy, Er, Ho, and Tm) system" 2001 "Tata Institute Of Fundamental Research, Mumbai-400005, India" "Phys.Rev.B, 64(2001)064514"
109548 P064064514 no Curie-Weis behavior. Strongly hybridized Ce system. Ce2Rh3Si5 Ce2Rh3Si5 Ce 2 Rh 3 Si 5 2001 U2Co3Si5 A 9.89 11.87 5.82 K 4 arc-melting "Magnetism and crystal-field effects in the R2Rh3Si5 (R = La, Ce, Pr, Nd, Tb, Gd, Dy, Er, Ho, and Tm) system" 2001 "Tata Institute Of Fundamental Research, Mumbai-400005, India" "Phys.Rev.B, 64(2001)064514"
109549 P064064514 Pr2Rh3Si5 Pr2Rh3Si5 Pr 2 Rh 3 Si 5 2001 -9.15 U2Co3Si5 A 9.88 11.85 5.8 K 4 335 arc-melting "Magnetism and crystal-field effects in the R2Rh3Si5 (R = La, Ce, Pr, Nd, Tb, Gd, Dy, Er, Ho, and Tm) system" 2001 "Tata Institute Of Fundamental Research, Mumbai-400005, India" "Phys.Rev.B, 64(2001)064514"
109550 P064064514 Nd2Rh3Si5 Nd2Rh3Si5 Nd 2 Rh 3 Si 5 2001 -2.75 2.7 U2Co3Si5 A 9.87 11.83 5.78 K 4 arc-melting "Magnetism and crystal-field effects in the R2Rh3Si5 (R = La, Ce, Pr, Nd, Tb, Gd, Dy, Er, Ho, and Tm) system" 2001 "Tata Institute Of Fundamental Research, Mumbai-400005, India" "Phys.Rev.B, 64(2001)064514"
109551 P064064514 Tb2Rh3Si5 Tb2Rh3Si5 Tb 2 Rh 3 Si 5 2001 -17.95 7.5 U2Co3Si5 A 9.85 11.79 5.76 K 4 558 arc-melting "Magnetism and crystal-field effects in the R2Rh3Si5 (R = La, Ce, Pr, Nd, Tb, Gd, Dy, Er, Ho, and Tm) system" 2001 "Tata Institute Of Fundamental Research, Mumbai-400005, India" "Phys.Rev.B, 64(2001)064514"
109552 P064060506 Tunneling using Au-tip. Fitting by BTK theory. Temperature dependence of gap is BCS-like. MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 "AlB2, C32" K 39 39 2.8 1 Symmetry and temperature dependence of the order parameter in MgB2 from point contact measurements 2001 "School of Physics and Astronomy, Raymond and Beverly Sackler Faculty of Exact Sciences, Tel Aviv University, 69978 Tel Aviv, Israel" "Phys.Rev.B, 64(2001)060506"
109553 MAT0107584 pressure induced s/c. s/c properties = at p=1.22GPa. P=1.06 Gpa+Mg)-capped BN crucible - (800C in air) Dependence of Tc on hydrostatic pressure in superconducting MgB2 2001 "Department of Physics, Washington University, C. B. 1105, One Brookings Dr., St. Louis, Missouri 63130" "Phys.Rev.B, 64(2001)092505"
109559 MAT0107205 compressibility k(a)=1.6 E-3 /Gpa. K(c)=2.2 E-3 /Gpa. Bulk modulus=196 Gpa. Pressure by diamond anvil. MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 A 3.082 3.522 "AlB2, C32" K 37.5 37.5 K/GPa -1.13 commercial powder High pressure studies of Tc and lattice parameters of MgB2 2001 cond-mat/0107205
109560 P064094514 in-plane penetration depth measured by transverse-field muon-SR. ramda shows T2 dependency. MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 "AlB2, C32" K 37.5 37.5 nm 85 commercial powder Penetration depth measurements in MgB2: Evidence for unconventional superconductivity 2001 "IRC , University of Cambridge, Cambridge, UK" "Phys.Rev.B, 64(2001)094514"
109561 P064094522 density=2.2 g/cm3. Hc1 determined by delta-M=E-4 emu. Ramda calculated from Hc1 assuming G-L = 26. MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 "AlB2, C32" K 39 39 Oe 176 A 1700 "high pressure synthesis (6GPa,950C,0.5h)" Linear temperature dependence of lower critical field in MgB2 2001 "National Lab for Superconductivity, Institute of Physics and Center for Condenced Matter Physics, Beijing,China" "Phys.Rev.B, 64(2001)094522"
109562 P064100503 not s/c CeRhIn5 Ce1Rh1In5 Ce 1 Rh 1 In 5 3 2001 3.8 HoCoGa5 A 4.6521 7.5416 K using In flux Coexistence of magnetism and superconductivity in CeRh1-xIrxIn5 2001 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545" "Phys.Rev.B, 64(2001)100503"
109563 P064100503 R=0 at T=1.01K "Ce(Rh,Ir)In5" Ce1Rh0.6Ir0.4In5 Ce 1 Rh 0.6 Ir 0.4 In 5 3 2001 3.5 HoCoGa5 A 4.6594 7.535 K 0.62 0.62 using In flux Coexistence of magnetism and superconductivity in CeRh1-xIrxIn5 2001 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545" "Phys.Rev.B, 64(2001)100503"
109564 P064100503 R=0 at T=1.01K "Ce(Rh,Ir)In5" Ce1Rh0.5Ir0.5In5 Ce 1 Rh 0.5 Ir 0.5 In 5 3 2001 3.6 HoCoGa5 A 4.6598 7.5368 K 0.84 0.84 MTC9564 using In flux Coexistence of magnetism and superconductivity in CeRh1-xIrxIn5 2001 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545" "Phys.Rev.B, 64(2001)100503"
109565 P064100503 R=0 at T=0.99K "Ce(Rh,Ir)In5" Ce1Rh0.25Ir0.75In5 Ce 1 Rh 0.25 Ir 0.75 In 5 3 2001 HoCoGa5 A 4.6641 7.525 K 0.62 0.62 using In flux Coexistence of magnetism and superconductivity in CeRh1-xIrxIn5 2001 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545" "Phys.Rev.B, 64(2001)100503"
109566 P064100503 R=0 at T=1.1K CeIrIn5 Ce1Ir1In5 Ce 1 Ir 1 In 5 3 2001 HoCoGa5 A 4.6682 7.5151 K 0.4 0.4 using In flux Coexistence of magnetism and superconductivity in CeRh1-xIrxIn5 2001 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545" "Phys.Rev.B, 64(2001)100503"
109567 JPC0130337 "Hc2 for H//c. CurieT=-83K for H//c-axis, =-54K for H//ab. Delta-C/gamma*Tc = 4.5" CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2001 -83 HoCoGa5 K 2.3 2.3 T 5 using In flux Heavy-fermion superconductivity in CeCoIn5 at 2.3 K 2001 "National High Magnetic Field Lab, Florida State Univ., Tallahassee, FL, USA" "J.Phys.:Condens.Matter, 13(2001)L337"
109568 P064100505 "gap(=2.1 meV) estimated by fitting of penetration depth. At low temperature, gap=1.2 meV. Penet by surface impedance measurements." LuNi2B2C Lu1Ni2B2C1 Lu 1 Ni 2 B 2 C 1 4 2001 LuNi2B2C K 14.2 14.2 nm 7 nm 275 3.4 dc magnetron sputtering on (100)MgO Superconducting gap anisotropy of LuNi2B2C thin films from microwave surface impedance measurements 2001 "Phys.Rev.B, 64(2001)100505"
109569 P064132505 starting (Mg1.2C1.4Ni3). RRR=2.5. Hall coeff.(100K)=-6.1 E-10 m3/C. carrier is electron. MgCNi3 Mg1C1Ni3 Mg 1 C 1 Ni 3 1 2001 CaTiO3 A 3.8115 "CaTiO3, perovskite" K 8 8 T 15 MHC9569 A 47 pellet-heat(900C) "Normal state resistivity, upper critical field, and Hall effect in superconducting perovskite MgCNi3" 2001 "Structural Research Laboratory and Department of Physics, University of Science and Technology of China, Hefei, People's Republic of China" "Phys.Rev.B, 64(2001)132505"
109570 P064132509 density=2.66 g/cm3. Bulk modulus=172 Gpa. MgB2 B2Mg1 B 2 Mg 1 1 2001 AlB2 "AlB2, C32" K 39.6 39.6 K/GPa -1.03 high-pressure sintering Lattice parameter and Tc dependence of sintered MgB2 superconductor on hydrostatic pressure 2001 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba 305-0047, Japan" "Phys.Rev.B, 64(2001)132509"
109571 P064134513 MgB2 B2Mg1 B 2 Mg 1 1 2001 AlB2 A 3.0851 3.5213 "AlB2, C32" K 38.3 38.3 "(amouphous B + C, Mg)-(900C,2h)" Intralayer carbon substitution in the MgB2 superconductor 2001 "Japan Advanced Institute of Science and Technology, Tatsunokuchi, Ishikawa 923-1292, Japan" "Phys.Rev.B, 64(2001)134513"
109572 P064134513 dTc/dx = -57 K. -dln(Tc)/dV = 0.85 for MgB2-xCx. "Mg(B,C)2" Mg1B1.98C0.02 Mg 1 B 1.98 C 0.02 1 2001 AlB2 A 3.0804 3.5211 "AlB2, C32" K 37.2 37.2 "(amouphous B + C, Mg)-(900C,2h)" Intralayer carbon substitution in the MgB2 superconductor 2001 "Japan Advanced Institute of Science and Technology, Tatsunokuchi, Ishikawa 923-1292, Japan" "Phys.Rev.B, 64(2001)134513"
109573 P064134513 "Mg(B,C)2" Mg1B1.96C0.04 Mg 1 B 1.96 C 0.04 1 2001 AlB2 A 3.0767 3.5214 "AlB2, C32" K 36.1 36.1 "(amouphous B + C, Mg)-(900C,2h)" Intralayer carbon substitution in the MgB2 superconductor 2001 "Japan Advanced Institute of Science and Technology, Tatsunokuchi, Ishikawa 923-1292, Japan" "Phys.Rev.B, 64(2001)134513"
109574 P064134513 "Mg(B,C)2" Mg1B1.94C0.06 Mg 1 B 1.94 C 0.06 1 2001 AlB2 A 3.0706 3.5212 "AlB2, C32" K 34.8 34.8 "(amouphous B + C, Mg)-(900C,2h)" Intralayer carbon substitution in the MgB2 superconductor 2001 "Japan Advanced Institute of Science and Technology, Tatsunokuchi, Ishikawa 923-1292, Japan" "Phys.Rev.B, 64(2001)134513"
109575 P064134513 inhomogeneous sample (0.07 materials, Mg isotope effect is very small but non-zero." MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 "AlB2, C32" K 40 40 0.02 Mg "mixture-heat(850C, 1.5h, p=50 bar Ar)" The complex nature of superconductivity in MgB2 as revealed by the reduced total isotope effect 2001 "Argonne, Illinois,USA" "Nature, 411(2001)457"
109579 NAT4110561 "Tc's are 37.5, 37.5, 35, 34.5 for displacement = 0, 0.04, 1, 5 % dpa (displacement per atom)" MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 "AlB2, C32" K 37.5 37.5 MHIR9579 damage given by irradiation Enhancement of the high-magnetic field critical current density of superconducting MgB2 by proton irradiation 2001 "Imperial College, London,UK" "Nature, 411(2001)561"
109580 EPJ0210159 2*gap = 3 - 4 meV (2*gap/kTc =1.79 - 2.38). Gap measured by far-infrared reflectivity. MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 A 3.086 3.524 "AlB2, C32" K 39 39 2.38 "sintered(900C, in Ar)" Optical measurements of the superconducting gap in MgB2 2001 "Universitat Stuttgart,Germany" "Eur.Phys.J.B, 21(2001)159"
109581 NAT4120058 s/c for only high quality sample. R is not zero at 0.01 K. s/c and ferromag disappear at p=21 kbar. Sp.heat shows no gap at Tc. Moment=0.17 myu-B ZrZn2 Zn2Zr1 Zn 2 Zr 1 2001 28.5 MgCu2(Laves) A 7.393 "MgCu2, C15" K 0.29 0.29 T 0.4 A 290 Coexistence of superconductivity and ferromagnetism in the d-band metal ZrZn2 2001 "Universitat Karlsruhe, Karlsruhe, Germany" "Nature, 412(2001)58"
109582 NAT4100343 MgB2 B2Mg1 B 2 Mg 1 1 2001 AlB2 A 3.0865 3.5231 "AlB2, C32" K 38 38 several steps of heat treatment Loss of superconductivity with the addition of Al to MgB2 and a structural transition in Mg1-xAlxB2 2001 "Department of Chemistry and Princeton Materials Institute, PrincetonUniversity, Princeton,USA" Nature 410(2001)343
109583 NAT4100343 "(Mg,Al)B2" Mg0.97Al0.03B2 Mg 0.97 Al 0.03 B 2 1 2001 AlB2 A 3.0865 3.5173 "AlB2, C32" K 37.3 37.3 several steps of heat treatment Loss of superconductivity with the addition of Al to MgB2 and a structural transition in Mg1-xAlxB2 2001 "Department of Chemistry and Princeton Materials Institute, PrincetonUniversity, Princeton,USA" Nature 410(2001)343
109584 NAT4100343 "(Mg,Al)B2" Mg0.94Al0.06B2 Mg 0.94 Al 0.06 B 2 1 2001 AlB2 A 3.0865 3.5173 "AlB2, C32" K 37 37 several steps of heat treatment Loss of superconductivity with the addition of Al to MgB2 and a structural transition in Mg1-xAlxB2 2001 "Department of Chemistry and Princeton Materials Institute, PrincetonUniversity, Princeton,USA" Nature 410(2001)343
109585 NAT4100343 "(Mg,Al)B2" Mg0.9Al0.1B2 Mg 0.9 Al 0.1 B 2 1 2001 AlB2 A 3.0827 3.5154 "AlB2, C32" K 36 36 several steps of heat treatment Loss of superconductivity with the addition of Al to MgB2 and a structural transition in Mg1-xAlxB2 2001 "Department of Chemistry and Princeton Materials Institute, PrincetonUniversity, Princeton,USA" Nature 410(2001)343
109586 NAT4100343 two phases (c=3.500 and c=3.4365) "(Mg,Al)B2" Mg0.86Al0.14B2 Mg 0.86 Al 0.14 B 2 2001 AlB2 A 3.0808 3.5 "AlB2, C32" K 35.1 35.1 several steps of heat treatment Loss of superconductivity with the addition of Al to MgB2 and a structural transition in Mg1-xAlxB2 2001 "Department of Chemistry and Princeton Materials Institute, PrincetonUniversity, Princeton,USA" Nature 410(2001)343
109587 NAT4100343 two phases (c=3.4827 and c=3.4269) "(Mg,Al)B2" Mg0.82Al0.18B2 Mg 0.82 Al 0.18 B 2 2001 AlB2 A 3.0769 3.4827 "AlB2, C32" K 33.5 33.5 several steps of heat treatment Loss of superconductivity with the addition of Al to MgB2 and a structural transition in Mg1-xAlxB2 2001 "Department of Chemistry and Princeton Materials Institute, PrincetonUniversity, Princeton,USA" Nature 410(2001)343
109588 NAT4100343 two phases (c=3.4885 and c=3.4269) "(Mg,Al)B2" Mg0.8Al0.2B2 Mg 0.8 Al 0.2 B 2 2001 AlB2 A 3.0769 3.4885 "AlB2, C32" K 33 33 several steps of heat treatment Loss of superconductivity with the addition of Al to MgB2 and a structural transition in Mg1-xAlxB2 2001 "Department of Chemistry and Princeton Materials Institute, PrincetonUniversity, Princeton,USA" Nature 410(2001)343
109589 NAT4100343 "(Mg,Al)B2" Mg0.75Al0.25B2 Mg 0.75 Al 0.25 B 2 1 2001 AlB2 A 3.0712 3.4231 "AlB2, C32" K 32.4 32.4 several steps of heat treatment Loss of superconductivity with the addition of Al to MgB2 and a structural transition in Mg1-xAlxB2 2001 "Department of Chemistry and Princeton Materials Institute, PrincetonUniversity, Princeton,USA" Nature 410(2001)343
109590 NAT4100343 no bulk s/c "(Mg,Al)B2" Mg0.7Al0.3B2 Mg 0.7 Al 0.3 B 2 1 2001 AlB2 A 3.0692 3.4077 "AlB2, C32" K 27.1 27.1 several steps of heat treatment Loss of superconductivity with the addition of Al to MgB2 and a structural transition in Mg1-xAlxB2 2001 "Department of Chemistry and Princeton Materials Institute, PrincetonUniversity, Princeton,USA" Nature 410(2001)343
109591 NAT4100343 no bulk s/c "(Mg,Al)B2" Mg0.6Al0.4B2 Mg 0.6 Al 0.4 B 2 1 2001 AlB2 A 3.0538 3.375 "AlB2, C32" K 12.2 12.2 several steps of heat treatment Loss of superconductivity with the addition of Al to MgB2 and a structural transition in Mg1-xAlxB2 2001 "Department of Chemistry and Princeton Materials Institute, PrincetonUniversity, Princeton,USA" Nature 410(2001)343
109592 JPS0701889 MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 A 3.082 3.5216 "AlB2, C32" K 38 38 "mixture-heat(900C,2h)" Mn-Substitution Effects on MgB2 Superconductor 2001 "Department of Crystalline Materials Science, Nagoya University, Nagoya" "J.Phys.Soc.Jpn, 70(2001)1889"
109593 JPS0701889 "(Mg,Mn)B2" Mg0.99Mn0.01B2 Mg 0.99 Mn 0.01 B 2 2001 AlB2 A 3.0839 3.521 "AlB2, C32" K 36.2 36.2 "mixture-heat(900C,2h)" Mn-Substitution Effects on MgB2 Superconductor 2001 "Department of Crystalline Materials Science, Nagoya University, Nagoya" "J.Phys.Soc.Jpn, 70(2001)1889"
109594 JPS0701889 "(Mg,Mn)B2" Mg0.98Mn0.02B2 Mg 0.98 Mn 0.02 B 2 2001 AlB2 A 3.0842 3.521 "AlB2, C32" K 34.5 34.5 "mixture-heat(900C,2h)" Mn-Substitution Effects on MgB2 Superconductor 2001 "Department of Crystalline Materials Science, Nagoya University, Nagoya" "J.Phys.Soc.Jpn, 70(2001)1889"
109595 JPS0701889 "(Mg,Mn)B2" Mg0.97Mn0.03B2 Mg 0.97 Mn 0.03 B 2 2001 AlB2 A 3.0823 3.5185 "AlB2, C32" K 33.3 33.3 "mixture-heat(900C,2h)" Mn-Substitution Effects on MgB2 Superconductor 2001 "Department of Crystalline Materials Science, Nagoya University, Nagoya" "J.Phys.Soc.Jpn, 70(2001)1889"
109596 JPS0701889 "(Mg,Mn)B2" Mg0.96Mn0.04B2 Mg 0.96 Mn 0.04 B 2 2001 AlB2 A 3.0825 3.5176 "AlB2, C32" K 32.3 32.3 "mixture-heat(900C,2h)" Mn-Substitution Effects on MgB2 Superconductor 2001 "Department of Crystalline Materials Science, Nagoya University, Nagoya" "J.Phys.Soc.Jpn, 70(2001)1889"
109597 JPS0701889 "(Mg,Mn)B2" Mg0.95Mn0.05B2 Mg 0.95 Mn 0.05 B 2 2001 AlB2 A 3.083 3.5182 "AlB2, C32" K 30 30 "mixture-heat(900C,2h)" Mn-Substitution Effects on MgB2 Superconductor 2001 "Department of Crystalline Materials Science, Nagoya University, Nagoya" "J.Phys.Soc.Jpn, 70(2001)1889"
109599 SCI2920075 powder sample. dTc/dP in K/GPa. MgB2 B2Mg1 B 2 Mg 1 1 2001 AlB2 "AlB2, C32" K 38.6 38.6 K/GPa -0.8 "heat(900C,3h, in Ta-tube)" Pressure dependence of the superconducting transition temperature of magnesium diboride 2001 Science 292(2001)75
109600 JEL0730532 Debye-T from resistivity(Bloch-Gruneisen) ZrB2 B2Zr1 B 2 Zr 1 2001 AlB2 A 3.17 3.532 "AlB2, C32" K 5.5 5.5 T 0.1 A 570 280 "pellet from powder-heat(1700C,2h in W-foil)" Electron Transport in diborides: Observation of superconductivity in ZrB2 2001 "Institute of Solid State Physics, Russian Academy of Science, Moscow, Russia" "JETP Lett., 73(2001)532"
109601 JEL0730532 "Debye-T from resistivity(Bloch-Gruneisen), not s/c" NbB2 B2Nb1 B 2 Nb 1 2001 AlB2 A 3.111 3.267 "AlB2, C32" K 0.37 460 "pellet from powder-heat(1700C,2h in W-foil)" Electron Transport in diborides: Observation of superconductivity in ZrB2 2001 "Institute of Solid State Physics, Russian Academy of Science, Moscow, Russia" "JETP Lett., 73(2001)532"
109602 JEL0730532 not s/c TaB2 B2Ta1 B 2 Ta 1 2001 AlB2 A 3.087 3.247 "AlB2, C32" K 0.37 "pellet from powder-heat(1700C,2h in W-foil)" Electron Transport in diborides: Observation of superconductivity in ZrB2 2001 "Institute of Solid State Physics, Russian Academy of Science, Moscow, Russia" "JETP Lett., 73(2001)532"
109603 JET0730570 as-synthesized MgB2 B2Mg1 B 2 Mg 1 1 2001 AlB2 A 3.0878 3.5216 "AlB2, C32" K 39 39 T/K 0.4 Superconducting properties of the atomically disordered MgB2 compound 2001 "Institute of Metal Physics, Ural Division,Russia" "JETP Lett., 73(2001)570"
109604 JET0730570 thermal neutron irradiation. Fluence=1 E+19 /cm2 MgB2 B2Mg1 B 2 Mg 1 1 2001 AlB2 A 3.0953 3.5533 "AlB2, C32" K 5 5 T/K 0.4 Superconducting properties of the atomically disordered MgB2 compound 2001 "Institute of Metal Physics, Ural Division,Russia" "JETP Lett., 73(2001)570"
109605 SCI2550833 powder sample. Dln(a)/dp=1.52 E-3 /kbar. Volume compressibility=4.08 E-3 /kbar. By XRD Rb3C60 C60Rb3 C 60 Rb 3 1992 fullerene K 29.6 29.6 Compressibility of M3C60 fulleren superconductors: Relation between Tc and lattice parameter 1992 Science 255(1992)833
109606 SCI2550833 powder sample. Dln(a)/dp=1.20 E-3 /kbar. Volume compressibility=4.08 E-3 /kbar. By XRD K3C60 C60K3 C 60 K 3 1992 fullerene K 19.3 19.3 Compressibility of M3C60 fulleren superconductors: Relation between Tc and lattice parameter 1992 Science 255(1992)833
109607 MAT0104063 "Hc2,cohere for T=0.1T. Mass of B =10.8(natural abandance)" BeB2 B2.75Be1 B 2.75 Be 1 2001 A 9.7738 9.5467 K 0.72 0.72 T 0.19 T/K 0.3 MHC9607 A 300 slow cool from Be-rich arc melted bulk "tructure and Superconducting Properties of ""BeB2""" 2001 cond-mat/0104063(2001)
109608 MAT0104063 mass of B = 10.0 isotope. Stoichiometric sample shows not AlB2 structure. BeB2 B2.75Be1 B 2.75 Be 1 2001 K 0.79 0.79 slow cool from Be-rich arc melted bulk "tructure and Superconducting Properties of ""BeB2""" 2001 cond-mat/0104063(2001)
109609 LTP1180113 "RR=7.8 microOhm.cm. dTc/dp=0.9 K/Gpa forp>1GPa. dHc2dT=23T/K for H//a, = 18.5 T/K for H//c. Hc2(0)//c = 2.06 T." CeCu2Si2 Ce1Cu2Si2 Ce 1 Cu 2 Si 2 2000 K 0.677 0.677 3 K/GPa 0.05 T 1.75 T/K 23 MHC9609 Transport measurements of the heavy Fermion superconductor CeCu2Si2 under pressure 2000 "Grenoble, Cedex,France" "J.Low Temp.Phys., 118(2000)113"
109610 PHC2800001 Yb3Rh4Sn13 Yb3Rh4Sn13 Yb 3 Rh 4 Sn 13 3 1997 K 7.2 7.2 MHC9610 A 100 Sn-flux-method Regions of enhansd pinning in the mixed state of the superconductor Yb3Rh4S 13 1997 6 "Department of Physics, University of Worwick, Coventry CV4 7AL, UK" "Physica.C,280(1997)1-8"
109611 PR05608346 Hc2 measured by ac susceptibility. Phase-I structure. Ca3Rh4Sn13 Ca3Rh4Sn13 Ca 3 Rh 4 Sn 13 3 1997 K 8.2 8.2 MHC9611 Sn-flux-method Observation of the peak effect in the superconductor Ca3Rh4Sn13 1997 "Department of Physics, University of Warwick, Coventry CV4 7AL, United Kingdom" "Phys.Rev.B, 56(1997)8346"
109612 JPS0643175 gamma in mj/K2.mol-Yb. Gamma and Debye-T by specific heat measurement. G-L parameter = 21 Yb3Rh4Sn13 Yb3Rh4Sn13 Yb 3 Rh 4 Sn 13 3 1995 Pr3Rh4Sn13 A 9.681 K 7.7 7.7 kOe/K 3.5 MHC9612 A 100 A 2100 mj/mol.K2 28 158 Sn-flux-method Peak Effect in the Superconducting Mixed State of Yb3Rh4Sn13 Single Crystals 1995 "Department of Physics, Faculty of Science, Tokyo Metropolitan University, Hachioji 192-03" "J.Phys.Soc.Jpn, 64(1995)3175"
109613 NAT3560419 fraction of fcc phase = 60 % RbCs2C60 Rb1Cs2C60 Rb 1 Cs 2 C 60 1992 fullerene A 14.555 K 33 33 "(C60+dopant) in quartz tube ,then heat" Superconductivity in sodium- and lithium-containing alkali-metal fullerens 1992 "Fundamental Research Lab, NEC, Tsukuba,Japan" "Nature , 356(1992)419"
109614 NAT3560419 fraction of fcc phase = 60 % Rb2CsC60 Rb2Cs1C60 Rb 2 Cs 1 C 60 1992 fullerene A 14.431 K 31 31 "(C60+dopant) in quartz tube ,then heat" Superconductivity in sodium- and lithium-containing alkali-metal fullerens 1992 "Fundamental Research Lab, NEC, Tsukuba,Japan" "Nature , 356(1992)419"
109615 NAT3560419 fraction of fcc phase = 70 % Rb3C60 C60Rb3 C 60 Rb 3 1992 fullerene A 14.384 K 29 29 "(C60+dopant) in quartz tube ,then heat" Superconductivity in sodium- and lithium-containing alkali-metal fullerens 1992 "Fundamental Research Lab, NEC, Tsukuba,Japan" "Nature , 356(1992)419"
109616 NAT3560419 fraction of fcc phase = 84 % KRb2C60 K1Rb2C60 K 1 Rb 2 C 60 1992 fullerene A 14.323 K 27 27 "(C60+dopant) in quartz tube ,then heat" Superconductivity in sodium- and lithium-containing alkali-metal fullerens 1992 "Fundamental Research Lab, NEC, Tsukuba,Japan" "Nature , 356(1992)419"
109617 NAT3560419 fraction of fcc phase = 60 % K2CsC60 K2Cs1C60 K 2 Cs 1 C 60 1992 fullerene A 14.292 K 24 24 "(C60+dopant) in quartz tube ,then heat" Superconductivity in sodium- and lithium-containing alkali-metal fullerens 1992 "Fundamental Research Lab, NEC, Tsukuba,Japan" "Nature , 356(1992)419"
109618 NAT3560419 fraction of fcc phase = 75 % K2RbC60 K2Rb1C60 K 2 Rb 1 C 60 1992 fullerene A 14.243 K 23 23 "(C60+dopant) in quartz tube ,then heat" Superconductivity in sodium- and lithium-containing alkali-metal fullerens 1992 "Fundamental Research Lab, NEC, Tsukuba,Japan" "Nature , 356(1992)419"
109619 NAT3560419 fraction of fcc phase = 70 % K3C60 C60K3 C 60 K 3 1992 fullerene A 14.24 K 19 19 "(C60+dopant) in quartz tube ,then heat" Superconductivity in sodium- and lithium-containing alkali-metal fullerens 1992 "Fundamental Research Lab, NEC, Tsukuba,Japan" "Nature , 356(1992)419"
109620 P064144516 95 % AlB2 phase. Impurity phase =B. not s/c. RRR=1.05. Gamma in mj/mol.K2 TaB2 B2Ta1 B 2 Ta 1 2001 AlB2 A 3.098 3.224 "AlB2, C32" K 1.5 mj/mol.K2 2.8 415 arc-melting in pure Ar Electronic structure and weak electron-phonon coupling in TaB2 2001 "Department of Physics, University of California, Davis, California , USA" "Phys.Rev.B, 64(2001)144516"
109621 P064144516 97 % AlB2 phase. Impurity phase =Ta3B4. not s/c. RRR=1.2. Gamma in mj/mol.K2 TaB2 B2Ta1 B 2 Ta 1 2001 AlB2 A 3.067 3.286 "AlB2, C32" K 1.5 mj/mol.K2 2 419 arc-melting in pure Ar Electronic structure and weak electron-phonon coupling in TaB2 2001 "Department of Physics, University of California, Davis, California , USA" "Phys.Rev.B, 64(2001)144516"
109622 SSC1100691 "multi-phase sample. Data of Hc1,Hc2 are for T=1.7 K." LuReBC Lu1Re1B1C1 Lu 1 Re 1 B 1 C 1 1999 K 6.1 6.1 Oe 200 kOe 8 arc-melting "Superconductivity in new quaternary borocarbide system R-Re-B-C (R=Y, Gd, Tb and Lu)," 1999 "Tata Institute of Fundamental Research,Munbai,India" "Solid State Commun., 110(1999)691"
109623 SSC1100691 "multi-phase sample. Data of Hc1,Hc2 are for T=1.7 K." YReBC Y1Re1B1C1 Y 1 Re 1 B 1 C 1 1999 K 4.7 4.7 Oe 100 kOe 4 arc-melting "Superconductivity in new quaternary borocarbide system R-Re-B-C (R=Y, Gd, Tb and Lu)," 1999 "Tata Institute of Fundamental Research,Munbai,India" "Solid State Commun., 110(1999)691"
109624 SSC1100691 multi-phase sample TbReBC Tb1Re1B1C1 Tb 1 Re 1 B 1 C 1 1999 30 K 4 4 arc-melting "Superconductivity in new quaternary borocarbide system R-Re-B-C (R=Y, Gd, Tb and Lu)," 1999 "Tata Institute of Fundamental Research,Munbai,India" "Solid State Commun., 110(1999)691"
109625 SSC1100691 multi-phase sample GdReBC Gd1Re1B1C1 Gd 1 Re 1 B 1 C 1 1999 K 4 4 arc-melting "Superconductivity in new quaternary borocarbide system R-Re-B-C (R=Y, Gd, Tb and Lu)," 1999 "Tata Institute of Fundamental Research,Munbai,India" "Solid State Commun., 110(1999)691"
109626 NAT3560419 fraction of fcc phase = 72 % Na2CsC60 Na2Cs1C60 Na 2 Cs 1 C 60 1992 fullerene A 14.134 K 12 12 "(C60+dopant) in quartz tube ,then heat" Superconductivity in sodium- and lithium-containing alkali-metal fullerens 1992 "Fundamental Research Lab, NEC, Tsukuba,Japan" "Nature , 356(1992)419"
109627 NAT3560419 fraction of fcc phase = 1 % Li2CsC60 Li2Cs1C60 Li 2 Cs 1 C 60 1992 fullerene A 14.12 K 12 12 "(C60+dopant) in quartz tube ,then heat" Superconductivity in sodium- and lithium-containing alkali-metal fullerens 1992 "Fundamental Research Lab, NEC, Tsukuba,Japan" "Nature , 356(1992)419"
109628 NAT3560419 fraction of fcc phase = 2 % Na2RbC60 Na2Rb1C60 Na 2 Rb 1 C 60 1992 fullerene A 14.028 K 2.5 2.5 "(C60+dopant) in quartz tube ,then heat" Superconductivity in sodium- and lithium-containing alkali-metal fullerens 1992 "Fundamental Research Lab, NEC, Tsukuba,Japan" "Nature , 356(1992)419"
109629 NAT3560419 fraction of fcc phase = 0.1 % Na2KC60 Na2K1C60 Na 2 K 1 C 60 1992 fullerene A 14.025 K 2.5 2.5 "(C60+dopant) in quartz tube ,then heat" Superconductivity in sodium- and lithium-containing alkali-metal fullerens 1992 "Fundamental Research Lab, NEC, Tsukuba,Japan" "Nature , 356(1992)419"
109630 SCI2590655 using 99% C<13> sample. Tc for C<13> sample=28.9 K [isotope] = 0.30 +- 0.05 Rb3C60 C60Rb3 C 60 Rb 3 1993 fullerene K 29.6 29.6 0.3 C 99 0.7 Isotope effect and superconductivity in metal-doped C60 1993 "Department of Chemistry , Harvard University, Cambridge, MA, USA" Science 259(1993)655
109631 AMC1143141 using 99% C<13> sample. Tc for C<13> sample=18.8 K K3C60 C60K3 C 60 K 3 1992 fullerene K 19.2 19.2 0.3 C Synthesis of pure <13>C60 and determination of the isotope effect for fullerene superconductors 1992 "Department of Chemistry , Harvard University, Cambridge, MA, USA" "J.Am.Chem.Soc., 114(1992)3141"
109632 SSC0930269 Na2CsC60 Na2Cs1C60 Na 2 Cs 1 C 60 1995 fullerene K 11.7 11.7 FULLERIDE SUPERCONDUCTORYS AND ORIENTATIONAL ORDER: Tc VS LATTICE CONSTANT IN Na2RbxCs1-xC60 1995 "Solid State Commun.,93(1995)269-274" "Na, Rb, Cs, C"
109633 SSC0930269 "Na2(Rb,Cs)C60" Na2Rb0.25Cs0.75C60 Na 2 Rb 0.25 Cs 0.75 C 60 1995 fullerene K 9.4 9.4 "mix(Na2RbC60+Na2CsC60)-react(400-450C,1 month)" FULLERIDE SUPERCONDUCTORYS AND ORIENTATIONAL ORDER: Tc VS LATTICE CONSTANT IN Na2RbxCs1-xC60 1995 "Solid State Commun.,93(1995)269-274" "Na, Rb, Cs, C"
109634 SSC0930269 "Na2(Rb,Cs)C60" Na2Rb0.5Cs0.5C60 Na 2 Rb 0.5 Cs 0.5 C 60 1995 fullerene K 8.4 8.4 "mix(Na2RbC60+Na2CsC60)-react(400-450C,1 month)" FULLERIDE SUPERCONDUCTORYS AND ORIENTATIONAL ORDER: Tc VS LATTICE CONSTANT IN Na2RbxCs1-xC60 1995 "Solid State Commun.,93(1995)269-274" "Na, Rb, Cs, C"
109635 SSC0930269 "Na2(Rb,Cs)C60" Na2Rb0.75Cs0.25C60 Na 2 Rb 0.75 Cs 0.25 C 60 1995 fullerene K 5.2 5.2 "mix(Na2RbC60+Na2CsC60)-react(400-450C,1 month)" FULLERIDE SUPERCONDUCTORYS AND ORIENTATIONAL ORDER: Tc VS LATTICE CONSTANT IN Na2RbxCs1-xC60 1995 "Solid State Commun.,93(1995)269-274" "Na, Rb, Cs, C"
109636 SSC0930269 "Na2(Rb,Cs)C60" Na2Rb1C60 Na 2 Rb 1 C 60 1995 fullerene A 14.097 K 3.4 3.4 FULLERIDE SUPERCONDUCTORYS AND ORIENTATIONAL ORDER: Tc VS LATTICE CONSTANT IN Na2RbxCs1-xC60 1995 "Solid State Commun.,93(1995)269-274" "Na, Rb, Cs, C"
109637 SYN0563027 82 % C<13> sample used. Tc of this sample = 17.8K. Gap by NMR. K3C60 C60K3 C 60 K 3 1993 fullerene K 19.6 19.6 1.45 C 3.4 Isotope effect on 82% <13>C substituted K3C60 1993 "Unversite Paris-Sud,Orsay, France" Synthetic Metals 56(1993)3027
109638 SYN0562845 penetration depth by muon-SR. Rb3C60 C60Rb3 C 60 Rb 3 1993 fullerene K 28 28 A 4200 Muon spin relaxation studies in organic superconductors and organic magnets 1993 "Department of Physics,Columbia Univ., New York,USA" Synthetic Metals 56(1993)2845
109639 SYN0562845 penetration depth by muon-SR. Na2CsC60 Na2Cs1C60 Na 2 Cs 1 C 60 1993 fullerene K 11 11 A 8000 Muon spin relaxation studies in organic superconductors and organic magnets 1993 "Department of Physics,Columbia Univ., New York,USA" Synthetic Metals 56(1993)2845
109640 SYN0770201 gap by STM. Gap values spatially fluctuate from 2.6 to 5.2 meV at 2.8K. Value is calculated for 2.6 meV. Rb3C60 C60Rb3 C 60 Rb 3 1996 fullerene K 30.5 30.5 2 "C60 single + Rb)-heat(400C,80h)" Spatially resolved electron tunneling spectroscopy on single crystalline Rb3C60 1996 "Institute of Physics, University of Basel,Basel,Switzerland" Synthetic Metals 77(1996)201
109641 NAT3520605 muon-SR K3C60 C60K3 C 60 K 3 1991 fullerene K 19.3 19.3 A 4800 press and sintering Magnetic-field penetration depth in K3C60 measured by muon spin relaxation 1991 "Columbia Univ., New York,USA" Nature 352(1991)605
109642 NAT3690541 reflectivity measurement between 2 meV and 6 meV. K3C60 C60K3 C 60 K 3 1994 fullerene K 20.3 20.3 3.44 vapor-transport method Optical measurements of the superconducting gap in single-crystal K3C60 and Rb3C60 1994 "ETH-Zurich, Zurich, Switzerland" Nature 369(1994)541
109643 NAT3690541 Rb3C60 C60Rb3 C 60 Rb 3 1994 fullerene K 30.5 30.5 3.45 vapor-transport method Optical measurements of the superconducting gap in single-crystal K3C60 and Rb3C60 1994 "ETH-Zurich, Zurich, Switzerland" Nature 369(1994)541
109644 NAT3550620 "Tc measured for three different C<13> content (1.1, 33, 33 %) . Tc by M(T)" Rb3C60 C60Rb3 C 60 Rb 3 1 1992 fullerene K 30.5 30.5 1.4 C "400C,3d in sealed quartz tube" Isotope effect on superconductivity in Rb3C60 1992 "Fundamental Research Lab,NEC, Tsukuba,Japan" Nature 355(1992)620
109645 PRL0681912 gap by NMR of C<13>. Gap value estimated using Tc(NMR)=23 K. penetration depth from NMR assuming Gaussian FWHM. Rb3C60 C60Rb3 C 60 Rb 3 1 1992 fullerene K 29.4 29.4 A 4600 4.1 Electronic properties of normal and superconducting alkali fullerides probed by 13C nuclear magnetic resonance 1992 "AT&T Bell Laboratories, 600 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys. Rev. Lett., 68(1992)1912"
109646 PRL0681912 gap by NMR of C<13>. Gap value estimated using Tc(NMR)=14 K. penetration depth from NMR assuming Gaussian FWHM. K3C60 C60K3 C 60 K 3 1 1992 fullerene K 19.4 19.4 A 6000 3 Electronic properties of normal and superconducting alkali fullerides probed by 13C nuclear magnetic resonance 1992 "AT&T Bell Laboratories, 600 Mountain Avenue, Murray Hill, New Jersey 07974" "Phys. Rev. Lett., 68(1992)1912"
109647 PRL0692987 energy gap and penetration depth were estimated from infrared conductivity. K3C60 C60K3 C 60 K 3 1 1992 fullerene K 19 19 A 8000 3.6 Optical response of the superconducting state of K3C60 and Rb3C60 1992 "Laboratorium fur Festkoperphysik, Eidgenosische Technische Hochschule Zuich, CH-8093 Zuich, Switzerland" "Phys. Rev. Lett., 69(1992)2987"
109648 PRL0692987 energy gap and penetration depth were estimated from infrared conductivity. Rb3C60 C60Rb3 C 60 Rb 3 1 1992 fullerene K 29 29 A 8000 2.98 (Rb2.8C60+K4C60)-heat(200C) Optical response of the superconducting state of K3C60 and Rb3C60 1992 "Laboratorium fur Festkoperphysik, Eidgenosische Technische Hochschule Zuich, CH-8093 Zuich, Switzerland" "Phys. Rev. Lett., 69(1992)2987"
109649 PRL0681058 sample prepared using 90 % C<13> D-glucose. C<13> isotope effect. Delta-Tc = 0.65 K for 75 % C<13> sample. Rb3C60 C60Rb3 C 60 Rb 3 1992 fullerene K 30 30 0.37 C ISOTOPE EFFECT IN SUPERCONDUCTING RB3C60 1992 2 "PHYS.REV.LETT.,68(1992)1058" "RB,C"
109650 PRL0703987 impurity phase = 5 % Rb4C60. Gap and penetration depth by muon-SR. Rb3C60 C60Rb3 C 60 Rb 3 1993 fullerene K 29.4 29.4 A 3700 3.6 Coherence peak and superconducting energy gap in Rb3C60 observed by muon spin relaxation 1993 "TRIUMF, Department of Physics and Canadian Institute of Advanced Research, University of British Columbia, Vancouver, British Columbia" "Phys. Rev. Lett., 70(1993)3987"
109651 JPS0631670 volume fraction = 60%. Gap by NMR of C<13>. Gap(0K) = 3.52 meV. K3C60 C60K3 C 60 K 3 1994 fullerene K 17.1 17.1 4.31 Fermi-Liquid Behavior and BCS s-Wave Pairing of K3C60 Observed by 13C-NMR 1994 "NTT Basic Research Laboratories, 3-1, Morinosato Wakamiya, Atsugi-shi, Kanagawa,Japan" "J.Phys.Soc.Jpn, 63(1994)1670"
109652 PRL0770167 Na2CsxC60 Na2Cs1C60 Na 2 Cs 1 C 60 1996 fullerene K 11.6 11.6 direct reaction and mixing Tc vs Carrier Concentration in Cubic Fulleride Superconductors 1996 "University of Maryland, College Park, Maryland 20742 and National Institute of Standards and Technology, Gaithersburg, Maryland" "Phys. Rev. Lett., 77(1996)167"
109653 PRL0770167 Na2CsxC60 Na2Cs0.93C60 Na 2 Cs 0.93 C 60 1996 fullerene K 9.6 9.6 direct reaction and mixing Tc vs Carrier Concentration in Cubic Fulleride Superconductors 1996 "University of Maryland, College Park, Maryland 20742 and National Institute of Standards and Technology, Gaithersburg, Maryland" "Phys. Rev. Lett., 77(1996)167"
109654 PRL0770167 Na2CsxC60 Na2Cs0.88C60 Na 2 Cs 0.88 C 60 1996 fullerene K 8.3 8.3 direct reaction and mixing Tc vs Carrier Concentration in Cubic Fulleride Superconductors 1996 "University of Maryland, College Park, Maryland 20742 and National Institute of Standards and Technology, Gaithersburg, Maryland" "Phys. Rev. Lett., 77(1996)167"
109655 PRL0770167 Na2CsxC60 Na2Cs0.75C60 Na 2 Cs 0.75 C 60 1996 fullerene K 7 7 direct reaction and mixing Tc vs Carrier Concentration in Cubic Fulleride Superconductors 1996 "University of Maryland, College Park, Maryland 20742 and National Institute of Standards and Technology, Gaithersburg, Maryland" "Phys. Rev. Lett., 77(1996)167"
109656 PRL0770167 "(K,Ba)3C60" K2.75Ba0.25C60 K 2.75 Ba 0.25 C 60 1996 fullerene K 15 15 direct reaction and mixing Tc vs Carrier Concentration in Cubic Fulleride Superconductors 1996 "University of Maryland, College Park, Maryland 20742 and National Institute of Standards and Technology, Gaithersburg, Maryland" "Phys. Rev. Lett., 77(1996)167"
109657 P064180501 gap calculated from temperature dependence of penetration depth which measured LC resonator. MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 "AlB2, C32" K 39.4 39.4 1.54 "wire using W-core, 950C" Energy gap and proximity effect in MgB2 superconducting wires 2001 "Loomis Laboratory of Physics, University of Illinois at Urbana-Champaign, 1110 West Green Street, Urbana, Illinois 61801" "Phys.Rev.B, 64(2001)180501"
109658 P064172501 ceramic sample. Hc1(0)=160 Oe from ac-susceptibility. Penetration depth by ac-sus of sphere sample. anisotropy < 1.5 MgB2 B2Mg1 B 2 Mg 1 1 2001 AlB2 A 3.08 3.52 "AlB2, C32" K 38 38 Oe 130 T/K 0.4 A 1800 solid state reaction (950C) Penetration depth and anisotropy in MgB2 2001 "Department of Physics and Texas Center for Superconductivity, University of Houston, Houston, Texas" "Phys.Rev.B, 64(2001)172501"
109659 P064172504 gap by photoemission spectroscopy. Fine structure are observed upto 70 meV. Ba8Si46 Ba8Si46 Ba 8 Si 46 2001 clathrate K 8 8 3.51 9 high-pressure synthesis Electronic structure and superconducting gap of silicon clathrate Ba8Si46 studied with ultrahigh-resolution photoemission spectroscopy 2001 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 64(2001)172504"
109660 PHC3630219 MgB2 B2Mg1 B 2 Mg 1 1 2001 AlB2 A 3.0845 3.5195 "AlB2, C32" K 38.5 38.5 "solid state reaction (950C, 2h in Ar)" Alkali metal substitution effects in Mg1-xAxB2 (A=Li and Na) 2001 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, China" "Physica C, 363(2001)219"
109661 PHC3630219 "(Mg,Na)B2" Mg0.97Na0.03B2 Mg 0.97 Na 0.03 B 2 1 2001 AlB2 A 3.0868 3.5251 "AlB2, C32" K 38 38 "solid state reaction (950C, 2h in Ar)" Alkali metal substitution effects in Mg1-xAxB2 (A=Li and Na) 2001 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, China" "Physica C, 363(2001)219"
109662 PHC3630219 "(Mg,Na)B2" Mg0.93Na0.07B2 Mg 0.93 Na 0.07 B 2 1 2001 AlB2 A 3.0865 3.5237 "AlB2, C32" K 38 38 "solid state reaction (950C, 2h in Ar)" Alkali metal substitution effects in Mg1-xAxB2 (A=Li and Na) 2001 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, China" "Physica C, 363(2001)219"
109663 PHC3630219 "(Mg,Na)B2" Mg0.85Na0.15B2 Mg 0.85 Na 0.15 B 2 1 2001 AlB2 A 3.0804 3.5171 "AlB2, C32" K 38 38 "solid state reaction (950C, 2h in Ar)" Alkali metal substitution effects in Mg1-xAxB2 (A=Li and Na) 2001 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, China" "Physica C, 363(2001)219"
109664 PHC3630219 "(Mg,Na)B2" Mg0.8Na0.2B2 Mg 0.8 Na 0.2 B 2 1 2001 AlB2 A 3.0795 3.5159 "AlB2, C32" K 38 38 "solid state reaction (950C, 2h in Ar)" Alkali metal substitution effects in Mg1-xAxB2 (A=Li and Na) 2001 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, China" "Physica C, 363(2001)219"
109665 PHC3630219 "(Mg,Li)B2" Mg0.93Li0.07B2 Mg 0.93 Li 0.07 B 2 1 2001 AlB2 A 3.0819 3.5166 "AlB2, C32" K 37.8 37.8 "solid state reaction (950C, 2h in Ar)" Alkali metal substitution effects in Mg1-xAxB2 (A=Li and Na) 2001 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, China" "Physica C, 363(2001)219"
109666 PHC3630219 "(Mg,Li)B2" Mg0.85Li0.15B2 Mg 0.85 Li 0.15 B 2 1 2001 AlB2 A 3.0731 3.5113 "AlB2, C32" K 37.5 37.5 "solid state reaction (950C, 2h in Ar)" Alkali metal substitution effects in Mg1-xAxB2 (A=Li and Na) 2001 "Structure Research Laboratory, Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, China" "Physica C, 363(2001)219"
109667 PHC3630001 RR=5.2 microOhm.cm. RRR=3.46. Tc-width=0.75 K. delta-C at Tc = 92 mJ/mol.K. Hc2(0)=0.69Tc*(dHc2/dT). MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 "AlB2, C32" K 38.5 38.5 T 15.2 T/K 0.568 HC9667 A 47 800 HIP(200 MPa) method Improved superconducting properties of MgB2 2001 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093-0360, USA" "Physica C, 363(2001)1"
109668 PHC3610091 MgB2 B2Mg1 B 2 Mg 1 1 2001 AlB2 A 3.084 3.529 "AlB2, C32" K 37.8 37.8 "solid state reaction (950C, 2h in Ta tube with Ar)" Effect of Li doping on structure and superconducting transition temperature of Mg1-xLixB2 2001 "Department of Physics, Tsinghua University, Beijing 100084, China" "Physica C, 361(2001)91"
109669 PHC3610091 "(Mg,Li)B2" Mg0.9Li0.1B2 Mg 0.9 Li 0.1 B 2 1 2001 AlB2 A 3.081 3.5273 "AlB2, C32" K 37.8 37.8 "solid state reaction (950C, 2h in Ta tube with Ar)" Effect of Li doping on structure and superconducting transition temperature of Mg1-xLixB2 2001 "Department of Physics, Tsinghua University, Beijing 100084, China" "Physica C, 361(2001)91"
109670 PHC3610091 "(Mg,Li)B2" Mg0.85Li0.15B2 Mg 0.85 Li 0.15 B 2 1 2001 AlB2 A 3.0791 3.5322 "AlB2, C32" K 35.7 35.7 "solid state reaction (950C, 2h in Ta tube with Ar)" Effect of Li doping on structure and superconducting transition temperature of Mg1-xLixB2 2001 "Department of Physics, Tsinghua University, Beijing 100084, China" "Physica C, 361(2001)91"
109671 PHC3610091 "(Mg,Li)B2" Mg0.8Li0.2B2 Mg 0.8 Li 0.2 B 2 1 2001 AlB2 A 3.0742 3.5324 "AlB2, C32" K 34 34 "solid state reaction (950C, 2h in Ta tube with Ar)" Effect of Li doping on structure and superconducting transition temperature of Mg1-xLixB2 2001 "Department of Physics, Tsinghua University, Beijing 100084, China" "Physica C, 361(2001)91"
109672 PHC3610091 "(Mg,Li)B2" Mg0.75Li0.25B2 Mg 0.75 Li 0.25 B 2 1 2001 AlB2 A 3.0721 3.5297 "AlB2, C32" K 33.7 33.7 "solid state reaction (950C, 2h in Ta tube with Ar)" Effect of Li doping on structure and superconducting transition temperature of Mg1-xLixB2 2001 "Department of Physics, Tsinghua University, Beijing 100084, China" "Physica C, 361(2001)91"
109673 PHC3610091 "(Mg,Li)B2" Mg0.7Li0.3B2 Mg 0.7 Li 0.3 B 2 1 2001 AlB2 A 3.0681 3.5322 "AlB2, C32" K 31 31 "solid state reaction (950C, 2h in Ta tube with Ar)" Effect of Li doping on structure and superconducting transition temperature of Mg1-xLixB2 2001 "Department of Physics, Tsinghua University, Beijing 100084, China" "Physica C, 361(2001)91"
109674 PHC3630041 Hc1 defined as deviation point from linear M-H. YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 2001 LuNi2B2C A 3.5271 10.5428 K 16.18 16.18 Oe 224.4 HC9674 "arc-melt, ANN(1100C,5days in vac)" Magnetic and superconducting properties of Y(Ni1xMnx)2B2C borocarbides 2001 "I.F., UFRGS, Porto Alegre, Brazil" "Physica C, 363(2001)41"
109675 PHC3630041 Hc1 defined as deviation point from linear M-H. "Y(Ni,Mn)2B2C" Y1Ni1.98Mn0.02B2C1 Y 1 Ni 1.98 Mn 0.02 B 2 C 1 2001 LuNi2B2C A 3.5266 10.5449 K 15.48 15.48 Oe 167.3 HC9674 "arc-melt, ANN(1100C,5days in vac)" Magnetic and superconducting properties of Y(Ni1xMnx)2B2C borocarbides 2001 "I.F., UFRGS, Porto Alegre, Brazil" "Physica C, 363(2001)41"
109676 PHC3630041 Hc1 defined as deviation point from linear M-H. "Y(Ni,Mn)2B2C" Y1Ni1.9Mn0.1B2C1 Y 1 Ni 1.9 Mn 0.1 B 2 C 1 2001 LuNi2B2C A 3.5272 10.5477 K 12.7 12.7 Oe 96.7 HC9674 "arc-melt, ANN(1100C,5days in vac)" Magnetic and superconducting properties of Y(Ni1xMnx)2B2C borocarbides 2001 "I.F., UFRGS, Porto Alegre, Brazil" "Physica C, 363(2001)41"
109677 PHC3630041 Hc1 defined as deviation point from linear M-H. "Y(Ni,Mn)2B2C" Y1Ni1.8Mn0.2B2C1 Y 1 Ni 1.8 Mn 0.2 B 2 C 1 2001 LuNi2B2C A 3.5264 10.5525 K 8.7 8.7 "arc-melt, ANN(1100C,5days in vac)" Magnetic and superconducting properties of Y(Ni1xMnx)2B2C borocarbides 2001 "I.F., UFRGS, Porto Alegre, Brazil" "Physica C, 363(2001)41"
109678 PHC3630041 Hc1 defined as deviation point from linear M-H. "Y(Ni,Mn)2B2C" Y1Ni1.7Mn0.3B2C1 Y 1 Ni 1.7 Mn 0.3 B 2 C 1 2001 LuNi2B2C A 3.5275 10.5605 K 5.7 5.7 "arc-melt, ANN(1100C,5days in vac)" Magnetic and superconducting properties of Y(Ni1xMnx)2B2C borocarbides 2001 "I.F., UFRGS, Porto Alegre, Brazil" "Physica C, 363(2001)41"
109679 PHC3630006 RR=7.1 microOhm.cm. RRR=5.38. Thermopower(300K)=8.3 uV/K. Thermopower and thermal conductivity were measured. MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 "AlB2, C32" K 38.7 38.7 THC9679 Heat and charge transport properties of MgB2 2001 "Institut fur Tieftemperaturphysik, Technische Universitut Dresden, D-01062 Dresden, Germany" "Physica C, 363(2001)6"
109680 PHC3610095 "phase-I, not s/c." ScNi2B2C Sc1Ni2B2C1 Sc 1 Ni 2 B 2 C 1 2001 LuNi2B2C A 3.32 10.04 K 4.2 Influence of annealing on the superconductivity of ScNi2B2C 2001 "Institute of Solid State and Semiconductor Physics, National Academy of Sciences of Belarus, Republic of Belarus, 220072 Minsk, P. Brovka 17, Byelorussia" "Physica C, 361(2001)95"
109681 PHC3610095 phase-II. zero resistance at 14 K. ScNi2B2C Sc1Ni2B2C1 Sc 1 Ni 2 B 2 C 1 2001 LuNi2B2C A 3.54 10.55 K 16 16 Influence of annealing on the superconductivity of ScNi2B2C 2001 "Institute of Solid State and Semiconductor Physics, National Academy of Sciences of Belarus, Republic of Belarus, 220072 Minsk, P. Brovka 17, Byelorussia" "Physica C, 361(2001)95"
109682 PHC3610227 using 98.46 at % Mg<11>. ac-sus measured upto 20 GPa. MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 "AlB2, C32" K 39.1 39.1 MTC9682 K/GPa -1.11 (B<11>+Mg)-(800C in 50 bar Ar) Dependence of the superconducting transition temperature of MgB2 on pressure to 20 GPa 2001 "Department of Physics, Washington University, C.B. 1105, One Brookings Drive, St. Louis, MO, USA" "Physica C, 361(2001)227"
109683 PR05000351 zero resistance at 14.6 K. ScNi2B2C Sc1Ni2B2C1 Sc 1 Ni 2 B 2 C 1 1994 LuNi2B2C A 3.34 10.2 K 16.5 16.5 Superconductivity at 15 K in the metastable ScNi2B2C compound 1994 "Department of Physics,National Tsing Hua University, Hsinchu, Taiwan, Republic of China" "Phys.Rev.B, 50(1994)351"
109684 PR05204432 s/c volume fraction=40%. Hc2(0) estimated using WHH theory. G-L parameter(= 67) from dM/dH. RbCs2C60 Rb1Cs2C60 Rb 1 Cs 2 C 60 1 1995 fullerene K 33 33 mT 8.1 T 17 T/K 0.8 MHC9684 nm 4.4 nm 300 "decomposition method (RbN3,CsN3,C60)" Critical fields of the superconducting fullerene RbCs2C60 1995 8 "Phys.Rev.B,52(1995)4432" "Rb, Cs, C"
109685 PR05013890 Hc2(0) estimated using WHH theory. Hc1 determined as the deviation from linear M-H. G-L parameter = 15 Ba6C60 Ba6C60 Ba 6 C 60 1994 fullerene K 7 7 Oe 130 T 2.2 T/K 0.45 A 120 A 1800 "metal azide route (BaN6,C60)" Critical magnetic fields of superconducting Ba6C60 1994 11 "Phys.Rev.B,50(1994) 13890-13893" "Ba,C"
109686 PRL0681058 "delta-Tc =0.65 K, for 75% substitution of C<13>." Rb3C60 C60Rb3 C 60 Rb 3 1992 fullerene K 29.8 29.8 0.37 C A 4000 ISOTOPE EFFECT IN SUPERCONDUCTING RB3C60 1992 2 "PHYS.REV.LETT.,68(1992)1058" "RB,C"
109687 PRL0681054 thickness = 1600 A. grain size = 70 A. K3C60 C60K3 C 60 K 3 3 1992 fullerene K 12.8 12.8 T 47 T/K 5.5 A 26 ELECTRONIC TRANSPORT PROPERTIES OF K3C60 FILMS 1992 2 "PHYS.REV.LETT.,68(1992)1054" "K,C"
109688 JJP0310166 "the film deposited on quartz substrate by vacuum evaporation. thickness = 1000A. Tc(on)=30K, Tc(end)=26 K. resistivity(RT)=80 microOhm.cm" Rb3C60 C60Rb3 C 60 Rb 3 3 1992 fullerene K 28 28 vac.evap. Charge Transport and Superconducting Transitions in C60 Single Crystal and Thin Films Doped with Rubidium 1992 2 "The Graduate University for Advanced Studies, Institute for Molecular Science, Myodaiji, Okazaki 444" Jpn.J.Appl.Phys.Lett.31(1992)L166-L168
109689 JJP0310166 "Tc(on)=22K, Tc(end)=2.5 K. resistivity(RT)=140 microOhm.cm" Rb3C60 C60Rb3 C 60 Rb 3 3 1992 fullerene K 12.5 12.5 vac.evap. Charge Transport and Superconducting Transitions in C60 Single Crystal and Thin Films Doped with Rubidium 1992 2 "The Graduate University for Advanced Studies, Institute for Molecular Science, Myodaiji, Okazaki 444" Jpn.J.Appl.Phys.Lett.31(1992)L166-L168
109690 JJP0310166 "Tc(on)=14.5K, Tc(end)=2.5 K. resistivity(RT)=20 microOhm.cm" K3C60 C60K3 C 60 K 3 3 1992 fullerene K 8.5 8.5 Charge Transport and Superconducting Transitions in C60 Single Crystal and Thin Films Doped with Rubidium 1992 2 "The Graduate University for Advanced Studies, Institute for Molecular Science, Myodaiji, Okazaki 444" Jpn.J.Appl.Phys.Lett.31(1992)L166-L168
109691 NAT3520223 "(CsMx)3C60 where M=Hg,Tl,Bi, having all the same Tc." Cs3C60 C60Cs3 C 60 Cs 3 1991 fullerene K 29.5 29.5 Superconductivity at 30K in cesium-doped C60 1991 7 "Department of Chemistry and Division of Applied Sciences, Harvard University, Cambridge, Massachusetts 02138, USA" Nature 352(1991)223
109692 NAT3520222 compositions are nominal values. s/c volume fraction = 60 %. "(Cs,Rb)3C60" Cs2Rb1C60 Cs 2 Rb 1 C 60 1991 fullerene K 33 33 SUPERCONDUCTIVITY AT 33K IN CSXRBYC60 1991 7 "NATURE,350(1991)222" "CS,RB,C"
109693 NAT3520222 compositions are nominal values. s/c volume fraction = 30 %. "(Cs,Rb)3C60" Cs1Rb2C60 Cs 1 Rb 2 C 60 1991 fullerene K 31 31 SUPERCONDUCTIVITY AT 33K IN CSXRBYC60 1991 7 "NATURE,350(1991)222" "CS,RB,C"
109694 NAT3520222 compositions are nominal values. s/c volume fraction = 10 %. Rb3C60 C60Rb3 C 60 Rb 3 1991 fullerene K 29 29 SUPERCONDUCTIVITY AT 33K IN CSXRBYC60 1991 7 "NATURE,350(1991)222" "CS,RB,C"
109695 NAT3520222 compositions are nominal values. s/c volume fraction = 14 %. Rb2C60 C60Rb2 C 60 Rb 2 1991 fullerene K 29 29 SUPERCONDUCTIVITY AT 33K IN CSXRBYC60 1991 7 "NATURE,350(1991)222" "CS,RB,C"
109696 NAT3520222 compositions are nominal values. s/c volume fraction = 18 %. Rb4C60 C60Rb4 C 60 Rb 4 1991 fullerene K 29 29 SUPERCONDUCTIVITY AT 33K IN CSXRBYC60 1991 7 "NATURE,350(1991)222" "CS,RB,C"
109697 PRL0670271 density = 1.91 K3C60 C60K3 C 60 K 3 1991 fullerene K 19.3 19.3 Oe 132 T 49 T/K 3.73 A 26 A 2400 CRITICAL MAGNETIC FIELDS IN THE SUPERCONDUCTING STATE OF K3C60 1991 7 "PHYS.REV.LETT.,67(1991)271" "K,C"
109698 NAT3500600 "Tc(on)=18 K, Tc(end)=8 K. thickness=960 A. van der Pauw's method for ac resistivity." K3C60 C60K3 C 60 K 3 3 1991 fullerene K 13 13 film Superconductivity at 18K in potassium-doped C60 1991 "AT&T Bell Laboratories, Murray Hill, New Jersey 07974-2070, USA" Nature.35(1991)600
109699 NAT3500600 Tc by Meissner effect. K3C60 C60K3 C 60 K 3 1 1991 fullerene K 18 18 Superconductivity at 18K in potassium-doped C60 1991 "AT&T Bell Laboratories, Murray Hill, New Jersey 07974-2070, USA" Nature.35(1991)600
109700 PLA1640355 60 % substitution of C<13>. ISOTOPE = 2.0 - 2.25. Rb3C60 C60Rb3 C 60 Rb 3 1992 fullerene K 28.6 28.6 2 C "Enhanced isotope effect in 13C-rich superconducting MxC60 (M=K,Rb): support for vibronic pairing" 1992 "Institute for Molecular Science, Okazaki, Aichi 444, Japan" "Phys.Lett.A,164(1992)355-361"
109701 PLA1640355 60 % substitution of C<13>. ISOTOPE = 1.2 - 1.43 K3C60 C60K3 C 60 K 3 1992 fullerene K 20 20 1.2 C "Enhanced isotope effect in 13C-rich superconducting MxC60 (M=K,Rb): support for vibronic pairing" 1992 "Institute for Molecular Science, Okazaki, Aichi 444, Japan" "Phys.Lett.A,164(1992)355-361"
109702 PR0465880 K3C60 C60K3 C 60 K 3 1992 fullerene K 18 18 T 28 T/K 2 A 34 UPPER-CRITICAL-FIELD-TEMPERATURE PHASE DIAGRAM OF ALKALI-METAL-INTERCALATED C60 SUPERCONDUCTORS 1992 9 "DEPARTMENT OF PHYSICS, UNIVERSITY OF CALIFORNIA AT LOS ANGELES" "PHYS.REV.B,46(1992)5880" "K,C,RB"
109703 PR0465880 Rb3C60 C60Rb3 C 60 Rb 3 1992 fullerene K 30 30 T 38 T/K 2 A 30 UPPER-CRITICAL-FIELD-TEMPERATURE PHASE DIAGRAM OF ALKALI-METAL-INTERCALATED C60 SUPERCONDUCTORS 1992 9 "DEPARTMENT OF PHYSICS, UNIVERSITY OF CALIFORNIA AT LOS ANGELES" "PHYS.REV.B,46(1992)5880" "K,C,RB"
109704 PR0465876 "Hc2 follows the linear relation, not WHH theory." K3C60 C60K3 C 60 K 3 1 1992 fullerene K 18.7 18.7 T 38 T/K 2.14 A 29 EVIDENCE OF UPPER-CRITICAL-FIELD ENHAMCEMENT IN K3C60 POWDERS 1992 9 "AT&T BELL LABORATORIES, NEW JERSEY" "PHYS.REN.B,46(1992)5876" "K,C"
109705 PR04614936 RF technique in pulsed field. spin-orbit parameter=1. K3C60 C60K3 C 60 K 3 1992 fullerene K 19.5 19.5 T 32.7 T/K 2.8 A 31 MEASUREMENTS OF THE UPPER CRITICAL FIELD OF K3C60 AND RB3C60 POWDERS TO 60 T 1992 12 "FRANCIS BITTER NATIONAL MAGNET LABORATORY, MASSACHUSETTS INSTITUTE OF TECHNOLOGY" "PHYS.REV.B,46(1992)14936" "K,C,RB"
109706 PR04614936 RF technique in pulsed field. spin-orbit parameter=0.7. Rb3C60 C60Rb3 C 60 Rb 3 1992 fullerene K T 57.4 T/K 3.86 A 24 MEASUREMENTS OF THE UPPER CRITICAL FIELD OF K3C60 AND RB3C60 POWDERS TO 60 T 1992 12 "FRANCIS BITTER NATIONAL MAGNET LABORATORY, MASSACHUSETTS INSTITUTE OF TECHNOLOGY" "PHYS.REV.B,46(1992)14936" "K,C,RB"
109707 SSC0870375 compositions are estimated from synthesis condition. Na3.5N0.5C60 Na 3.5 N 0.5 C 60 1993 fullerene A 14.204 K 14.7 14.7 "heat(370-390C, 20 min) of (NaN3:C60=4:1)" NEW SUPERCONDUCTING SODIUM-NITROGEN-C60 THRNARY COMPOUND 1993 "SOLID STATE COMMUN.,87(1993)375" "C,NA,N"
109708 SSC0850073 "gamma in micro-J/g.K2. 80%C60+18%C70+2% solvent. Debye-T estimated from sp.heat below 9K. Two anomaries (90K, 250K) in sp.heat." C60 C60 C 60 1993 fullerene K mj/mol.K2 893 188 SPECIFIC HEAT OF FULLERENES EXTRACT 1993 1 "SOLID STATE COMMUN.,85(1993)73" "C,"
109709 PHC2320022 "granular, grain size = 150 A. Tc not shown. transition width=0.9 K." K3C60 K3C60 K 3 C 60 1994 fullerene K T 40 T/K 2.8 Granularity and upper critical fields in K3C60 1994 10 "Physica C,232 (1994) 22-26" "K,C"
109710 PHC2320022 "granular, grain size = 250 A. Tc not shown(about 18.8 K)." K3C60 K3C60 K 3 C 60 1994 fullerene K T 33 T/K 2.33 Granularity and upper critical fields in K3C60 1994 10 "Physica C,232 (1994) 22-26" "K,C"
109711 PHC2320022 "granular, grain size = 310 A. Tc not shown(about 18.8 K)." K3C60 K3C60 K 3 C 60 1994 fullerene K T 28 T/K 2.18 Granularity and upper critical fields in K3C60 1994 10 "Physica C,232 (1994) 22-26" "K,C"
109712 PHC2280181 volume fraction = 44%. ac susceptibility measurements. BCS coherence=150A. K3C60 C60K3 C 60 K 3 1994 fullerene K 17.8 17.8 T 17 T/K 1.4 A 44 Inter- and intragrain AC response of the granular superconductors K3C60 and Rb3C60 1994 7 "Physica C, 228(1994)181-189" "K,C,Rb"
109713 PHC2280181 single grain. volume fraction = 29%. BCS coherence=50A. Rb3C60 C60Rb3 C 60 Rb 3 1994 fullerene K 29.5 29.5 T 44 T/K 2.3 A 27 Inter- and intragrain AC response of the granular superconductors K3C60 and Rb3C60 1994 7 "Physica C, 228(1994)181-189" "K,C,Rb"
109714 PHC2280175 Analizing R(H) using fluctuation theory. BCS coherence = 44A Rb3C60 C60Rb3 C 60 Rb 3 1994 fullerene K 30 30 T 62 T/K 3.28 A 24 A 3200 Magnetotransport in single-crystal Rb3C60 1994 7 "Physica C, 228(1994)175-180" "Rb,C"
109715 SUP0080067 G-L parameter=15. e-ph coupling = 0.8. Hc1 defined as deviation from linear M-H curve. Ba6C60 Ba6C60 Ba 6 C 60 1995 fullerene K 7 7 Oe 130 T 2.2 T/K 0.45 A 120 A 1800 On the Normal and Superconducting Properties of Ba6C60 1995 "Department of Condensed Matter Physics, Royal Institute of Technology, S-100 44 Stockholm, Sweden" "J.Superconductivity,8(1995)67"
109716 NAT3750126 space-G=Pcab. Z=32 per formula unit cell. X-ray density=2.92 g/cm3. s/c volume fraction = 5.6% Yb3C60 C60Yb2.75 C 60 Yb 2.75 1995 fullerene A 27.874 27.98 27.873 K 6 6 Superconductivity and cation-vacancy ordering in the rare-earth fulleride Yb2.75C60 1995 5 "AT&T Bell Laboratories, Murray Hill, new Jersey 07974, USA" Nature 375(1995)126
109717 SSC0930327 "mixture of A15(a=11.770) and bct (a=12.957, c=11.432A). Tc=40 K under 15 kbar." Cs3C60 Cs3C60 Cs 3 C 60 1995 fullerene K 40 40 SUPERCONDUCTIVITY AT 40K IN CECIUM DOPED C60 1995 "Solid State Commun.,93(1995)327-330" "C, CS"
109719 SSC0930269 not single phase. Na2RbC60 Na2Rb1C60 Na 2 Rb 1 C 60 1995 CaTiO3 A 14.096 "CaTiO3, perovskite" K 3.4 3.4 FULLERIDE SUPERCONDUCTORYS AND ORIENTATIONAL ORDER: Tc VS LATTICE CONSTANT IN Na2RbxCs1-xC60 1995 "Solid State Commun.,93(1995)269-274" "Na, Rb, Cs, C"
109720 SSC0930269 not single phase. "Na2(Rb,Cs)C60" Na2Rb0.75Cs0.25C60 Na 2 Rb 0.75 Cs 0.25 C 60 1995 K 5.2 5.2 FULLERIDE SUPERCONDUCTORYS AND ORIENTATIONAL ORDER: Tc VS LATTICE CONSTANT IN Na2RbxCs1-xC60 1995 "Solid State Commun.,93(1995)269-274" "Na, Rb, Cs, C"
109721 SSC0930269 not single phase. "Na2(Rb,Cs)C60" Na2Rb0.5Cs0.5C60 Na 2 Rb 0.5 Cs 0.5 C 60 1995 K 8.4 8.4 FULLERIDE SUPERCONDUCTORYS AND ORIENTATIONAL ORDER: Tc VS LATTICE CONSTANT IN Na2RbxCs1-xC60 1995 "Solid State Commun.,93(1995)269-274" "Na, Rb, Cs, C"
109722 SSC0930269 not single phase. "Na2(Rb,Cs)C60" Na2Rb0.25Cs0.75C60 Na 2 Rb 0.25 Cs 0.75 C 60 1995 K 9.4 9.4 FULLERIDE SUPERCONDUCTORYS AND ORIENTATIONAL ORDER: Tc VS LATTICE CONSTANT IN Na2RbxCs1-xC60 1995 "Solid State Commun.,93(1995)269-274" "Na, Rb, Cs, C"
109723 SSC0930269 not single phase. Na2CsC60 Na2Cs1C60 Na 2 Cs 1 C 60 1995 K 11.7 11.7 FULLERIDE SUPERCONDUCTORYS AND ORIENTATIONAL ORDER: Tc VS LATTICE CONSTANT IN Na2RbxCs1-xC60 1995 "Solid State Commun.,93(1995)269-274" "Na, Rb, Cs, C"
109724 PR05215534 space-G=Pcab Sm3C60 C60Sm3 C 60 Sm 3 1995 A 28.17 28.07 28.27 K 8 8 Supercondutivity at 8 K in samarium-doped C60 1995 12 "Phys.Rev.B,52(1995)15534"
109726 PR05215517 Hc1 defined as deviation from linear M-H curve. K3C60 C60K3 C 60 K 3 1995 fullerene K 19.3 19.3 Oe 42 Magnetic properties of superconducting K3C60 and Rb3C60 synthesized From large single-crystal fullerenes 1995 12 "Phys.Rev.B,52(1995)15517"
109727 PR05215517 Hc1 defined as deviation from linear M-H curve. Rb3C60 C60Rb3 C 60 Rb 3 1995 fullerene K 30 30 Oe 32 Magnetic properties of superconducting K3C60 and Rb3C60 synthesized From large single-crystal fullerenes 1995 12 "Phys.Rev.B,52(1995)15517"
109728 EPL0170175 Rb3C60 C60Rb3 C 60 Rb 3 1992 fullerene K 27.5 27.5 Oe 250 T 58 A 23.5 Magnetic properties of superconducting Rb3C60 1992 "Karlsruhe,Germany" Europhys.Lett. 17(1992)175
109729 EPL0180079 "density=1.91 g/cm3. measurements of EPL,NMR,susceptibility." K3C60 C60K3 C 60 K 3 1992 fullerene K A 26 A 2400 Normal-state magnetic properties of K3C60 1992 "Univ. California, Los Angels" Europhys.Lett. 18(1992)79
109730 MPL0060351 Rb3C60 C60Rb3 C 60 Rb 3 1992 fullerene K T 63.8 T/K 2.5 A 23 A 1400 Penetration depth and coherence length in superconducting fullerene Rb3C60 1992 "Karlsruhe,Germany" Mod.Phys.Lett.B 6(1992)351
109731 MPL0061037 "Hc1 defined as the deviation from linear M-H cuves. Jc(1T, 7K)=4E+6 A/cm2." Rb3C60 C60Rb3 C 60 Rb 3 1992 fullerene K 28.5 28.5 mT 16.2 nm 215 Lower critical magnetic field of superconducting Rb3C60 1992 "Karlsruhe,Germany" Mod.Phys.Lett.B 6(1992)1037
109732 NAT3520223 (CsTl2)C60 Cs1.2Tl2.4C60 Cs 1.2 Tl 2.4 C 60 1991 fullerene K 29.5 29.5 "react(220C,1h, in inert gas) of (CsTl2 + C60)" Superconductivity at 30K in cesium-doped C60 1991 7 "Department of Chemistry and Division of Applied Sciences, Harvard University, Cambridge, Massachusetts 02138, USA" Nature 352(1991)223
109733 NAT3520223 "(Cs,Hg)3C60" Cs3Hg3.3C60 Cs 3 Hg 3.3 C 60 1991 fullerene K 29 29 Superconductivity at 30K in cesium-doped C60 1991 7 "Department of Chemistry and Division of Applied Sciences, Harvard University, Cambridge, Massachusetts 02138, USA" Nature 352(1991)223
109734 P064212509 density = 2.63 g/cm3. grain size=1 - 5 um. MgB2 B2Mg1 B 2 Mg 1 1 2001 AlB2 "AlB2, C32" K 38.2 38.2 MHIR9734 "high-pressure synthesis (3.5GPa,1000C in BN)" Electrical transport and anisotropic superconducting properties in single crystalline and dense polycrystalline MgB2 2001 "Department of Applied Physics, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B, 64(2001)212509"
109735 P064212509 density = 2.63 g/cm3. grain size=50 -200 um. long grains MgB2 B2Mg1 B 2 Mg 1 1 2001 AlB2 "AlB2, C32" K 38.2 38.2 MHIR9735 "high-pressure synthesis (3.5GPa,1000C in BN)" Electrical transport and anisotropic superconducting properties in single crystalline and dense polycrystalline MgB2 2001 "Department of Applied Physics, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B, 64(2001)212509"
109736 P064212509 "anisotropy=3.0 from Hc2. values of Hc2,Dhc2/dT show for H//ab. Hc2(0),dHc2/dT are 4.8T, 0.17 for H//c. cohere(c)=27 A." MgB2 B2Mg1 B 2 Mg 1 3 2001 AlB2 "AlB2, C32" K 38.2 38.2 T 15 T/K 0.55 MHIR9736 A 82 extracted from #9735 sample Electrical transport and anisotropic superconducting properties in single crystalline and dense polycrystalline MgB2 2001 "Department of Applied Physics, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B, 64(2001)212509"
109737 L087247003 gamma in mj/mol.K2. Tc = 0.14 K from sp-heat. Tc increases with pressure (Tc(max)=3.8K at p=2.7 GPa. sp-heat fitting for T<3K. Ba6Ge25 Ba6Ge25 Ba 6 Ge 25 1 2001 clathrate A 14.5564 K 0.24 0.24 T 0.6 T/K 2.9 A 280 mj/mol.K2 21 250 Superconductivity in the Filled Cage Compounds Ba6Ge25 and Ba4Na2Ge25 2001 "Max Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, D-01187 Dresden, Germany" "Phys.Rev.Lett., 87(2001)247003"
109738 L087247003 gamma in mj/mol.K2. sp-heat fitting for T<3K. Ba4Na2Ge25 Ba4Na2Ge25 Ba 4 Na 2 Ge 25 1 2001 clathrate A 14.4703 K 0.84 0.84 mj/mol.K2 33 250 Superconductivity in the Filled Cage Compounds Ba6Ge25 and Ba4Na2Ge25 2001 "Max Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, D-01187 Dresden, Germany" "Phys.Rev.Lett., 87(2001)247003"
109739 P064214514 "(Cu,Zn)Ir2S4" Cu0.8Zn0.2Ir2S4 Cu 0.8 Zn 0.2 Ir 2 S 4 2001 -1.7 spinel A 9.8792 K 3.32 3.32 Suppression of metal-to-insulator transition and appearance of superconductivity in Cu1-xZnxIr2S4 2001 "National Institute for Materials Science, Sengen 1-2-1, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 64(2001)214514"
109740 P064214514 Hc1 is for T=2K. Hc2(0) estimated by assuming WHH theory using Hc2(2K)=2.0 T. "(Cu,Zn)Ir2S4" Cu0.7Zn0.3Ir2S4 Cu 0.7 Zn 0.3 Ir 2 S 4 2001 spinel A 9.8934 K 3.05 3.05 Oe 300 T 3.5 Suppression of metal-to-insulator transition and appearance of superconductivity in Cu1-xZnxIr2S4 2001 "National Institute for Materials Science, Sengen 1-2-1, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 64(2001)214514"
109741 P064214514 "(Cu,Zn)Ir2S4" Cu0.6Zn0.4Ir2S4 Cu 0.6 Zn 0.4 Ir 2 S 4 1 2001 spinel A 9.9058 K 2.61 2.61 Suppression of metal-to-insulator transition and appearance of superconductivity in Cu1-xZnxIr2S4 2001 "National Institute for Materials Science, Sengen 1-2-1, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 64(2001)214514"
109742 P064214514 "(Cu,Zn)Ir2S4" Cu0.5Zn0.5Ir2S4 Cu 0.5 Zn 0.5 Ir 2 S 4 1 2001 spinel A 9.9199 K 2.19 2.19 Suppression of metal-to-insulator transition and appearance of superconductivity in Cu1-xZnxIr2S4 2001 "National Institute for Materials Science, Sengen 1-2-1, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 64(2001)214514"
109743 P064214514 "(Cu,Zn)Ir2S4" Cu0.4Zn0.6Ir2S4 Cu 0.4 Zn 0.6 Ir 2 S 4 1 2001 spinel A 9.9336 K 1.73 1.73 Suppression of metal-to-insulator transition and appearance of superconductivity in Cu1-xZnxIr2S4 2001 "National Institute for Materials Science, Sengen 1-2-1, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 64(2001)214514"
109744 P064214514 "(Cu,Zn)Ir2S4" Cu0.3Zn0.7Ir2S4 Cu 0.3 Zn 0.7 Ir 2 S 4 1 2001 spinel A 9.9469 K 1.36 1.36 Suppression of metal-to-insulator transition and appearance of superconductivity in Cu1-xZnxIr2S4 2001 "National Institute for Materials Science, Sengen 1-2-1, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 64(2001)214514"
109745 P064214514 "(Cu,Zn)Ir2S4" Cu0.2Zn0.8Ir2S4 Cu 0.2 Zn 0.8 Ir 2 S 4 1 2001 spinel A 9.9584 K 0.47 0.47 Suppression of metal-to-insulator transition and appearance of superconductivity in Cu1-xZnxIr2S4 2001 "National Institute for Materials Science, Sengen 1-2-1, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 64(2001)214514"
109746 APL0791154 Hc2(T) is the same as x=0.1 sample(num=9749) MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 "AlB2, C32" K 38.6 38.6 MHIR9746 solid state reaction at ambient pressure High critical current density of MgB2 bulk superconductor doped with Ti and sintered at ambient pressure 2001 "ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Appl.Phys.Lett., 79(2001)1154"
109747 APL0791154 "majority of doping Ti form impurity phase, not introduce in MgB2 matrix." "(Mg,Ti)B2" Mg0.99Ti0.01B2 Mg 0.99 Ti 0.01 B 2 2001 AlB2 "AlB2, C32" K 38.6 38.6 solid state reaction at ambient pressure High critical current density of MgB2 bulk superconductor doped with Ti and sintered at ambient pressure 2001 "ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Appl.Phys.Lett., 79(2001)1154"
109748 APL0791154 "majority of doping Ti form impurity phase, not introduce in MgB2 matrix." "(Mg,Ti)B2" Mg0.95Ti0.05B2 Mg 0.95 Ti 0.05 B 2 2001 AlB2 "AlB2, C32" K 38.5 38.5 solid state reaction at ambient pressure High critical current density of MgB2 bulk superconductor doped with Ti and sintered at ambient pressure 2001 "ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Appl.Phys.Lett., 79(2001)1154"
109749 APL0791154 "majority of doping Ti form impurity phase, not introduce in MgB2 matrix." "(Mg,Ti)B2" Mg0.9Ti0.1B2 Mg 0.9 Ti 0.1 B 2 2001 AlB2 "AlB2, C32" K 38.3 38.3 MHIR9749 solid state reaction at ambient pressure High critical current density of MgB2 bulk superconductor doped with Ti and sintered at ambient pressure 2001 "ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Appl.Phys.Lett., 79(2001)1154"
109750 APL0791154 "majority of doping Ti form impurity phase, not introduce in MgB2 matrix. Hc2(T) is the same as x=0.1 sample(num=9749)." "(Mg,Ti)B2" Mg0.8Ti0.2B2 Mg 0.8 Ti 0.2 B 2 2001 AlB2 "AlB2, C32" K 37.8 37.8 MHIR9750 solid state reaction at ambient pressure High critical current density of MgB2 bulk superconductor doped with Ti and sintered at ambient pressure 2001 "ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Appl.Phys.Lett., 79(2001)1154"
109751 APL0791154 "majority of doping Ti form impurity phase, not introduce in MgB2 matrix." "(Mg,Ti)B2" Mg0.6Ti0.4B2 Mg 0.6 Ti 0.4 B 2 2001 AlB2 "AlB2, C32" K 37.5 37.5 solid state reaction at ambient pressure High critical current density of MgB2 bulk superconductor doped with Ti and sintered at ambient pressure 2001 "ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Appl.Phys.Lett., 79(2001)1154"
109752 APL0791154 "majority of doping Ti form impurity phase, not introduce in MgB2 matrix." "(Mg,Ti)B2" Mg0.4Ti0.6B2 Mg 0.4 Ti 0.6 B 2 2001 AlB2 "AlB2, C32" K 37.6 37.6 solid state reaction at ambient pressure High critical current density of MgB2 bulk superconductor doped with Ti and sintered at ambient pressure 2001 "ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135, Japan" "Appl.Phys.Lett., 79(2001)1154"
109753 NAT4120316 Pressure-induced s/c. Fe is superconducting at pressures between 15 and 30 GPa. Tc(max)=2 K at p=22 GPa. dTc/dP =0.4 K/GPa at Pc(=16 GPa). Fe Fe1 Fe 1 2001 K 2 0 2 MTC9753 K/GPa 0.4 Superconductivity in the non-magnetic state of iron under pressure 2001 Nature 412(2001)316
109754 NAT4130831 Caution (Schon's FET data). single crystal of electric-field-doped C70. Tc(max) achieved for 4 electron/C70. C70 C70 C 70 3 2001 fullerene A 10.602 17.263 K 7 7 MTC9754 grown from vapour phase Superconductivity in single crystals of the fullerene C70 2001 Nature 413(2001)831
109755 APL0791649 "inner Ta, outer Cu tube. anisotropy factore = 1.3. H//means along wire direction ." MgB2 B2Mg1 B 2 Mg 1 1 2001 AlB2 "AlB2, C32" K 38.3 38.3 T 15 T/K 0.39 MHC9755 nm 4.5 "PIT method using Ta,Cu tube. sintered(900-950C in air)" Transport behavior and critical current densities in MgB2 wires 2001 "Superconductivity Research Laboratory, ISTEC, 1-10-13 Shinonome, Koto-ku, Tokyo 135-0062, Japan" "Appl.Phys.Lett., 79(2001)1649"
109756 SCI2932432 "Caution (Schon's FET data). hole-doped sample (by FET). Tc shows Tc(max), which is obtained for hole/C60 = 3.2." (CHBr3)C60 H1Br3C61 H 1 Br 3 C 61 2001 fullerene A 14.43 K 115 115 A 18 intercalation by solution method High-temperature superconductivity in lattice-expanded C60 2001 Science 293(2001)2432
109757 SCI2932432 "Caution (Schon's FET data). hole-doped sample (by FET). Tc shows Tc(max), which is obtained for hole/C60 = 3.2." (CHCl3)C60 H1Cl3C61 H 1 Cl 3 C 61 2001 fullerene A 14.28 K 80 80 A 20 intercalation by solution method High-temperature superconductivity in lattice-expanded C60 2001 Science 293(2001)2432
109758 SCI2932432 "Caution (Schon's FET data). hole-doped sample (by FET). Tc shows Tc(max), which is obtained for hole/C60 = 3.2." C60 C60 C 60 2001 fullerene K 50 50 A 40 High-temperature superconductivity in lattice-expanded C60 2001 Science 293(2001)2432
109759 P064220503 "pressure-induced s/c. Coherence length at 15 kbar are 210, 140, 700 A for a-, b-, and c-axis, respectively." UGe2 Ge2U1 Ge 2 U 1 3 2001 K 0.258 0 0.258 MHC9759 A 210 Anisotropy and pressure dependence of the upper critical field of the ferromagnetic superconductor UGe2 2001 "Departement de Recherche Fondamentale sur la Matie`re Condensee, SPSMS, CEA/Grenoble, 17 rue des Martyrs, Grenoble Cedex, France" "Phys. Rev. B, 64(2001)220503"
109760 P063144519 pressure-induced s/c. Tc=Tc(max)=0.752 K at p=12 kbar. S/c and ferro- disappear at p=16 kbar. UGe2 Ge2U1 Ge 2 U 1 3 2001 53 K 0.752 0 0.752 MPH9760 Czochralsky method + annealed UGe2 : A ferromagnetic spin-triplet superconductor 2001 "SPSMS, CEA-Grenoble, Grenoble 38054, France" "Phys.Rev.B, 63(2001)144519"
109761 PHB2811021 not s/c LaFe4As12 La1Fe4As12 La 1 Fe 4 As 12 2000 skutterudite A 8.3252 K 2 high-pressure synthesis "Electrical conductivity and superconductivity of LaT4As12(T=Fe, Ru and Os) withskutterudite-type structure" 2000 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi, Japan" "Physica B, 281-282(2000)1021"
109762 PHB2811021 dTc/dP in K/GPa LaRu4As12 La1Ru4As12 La 1 Ru 4 As 12 2000 skutterudite A 8.5081 K 10.3 10.3 K/GPa -0.4 high-pressure synthesis "Electrical conductivity and superconductivity of LaT4As12(T=Fe, Ru and Os) withskutterudite-type structure" 2000 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi, Japan" "Physica B, 281-282(2000)1021"
109763 PHB2811021 LaOs4As12 La1Os4As12 La 1 Os 4 As 12 2000 skutterudite A 8.5437 K 3.2 3.2 high-pressure synthesis "Electrical conductivity and superconductivity of LaT4As12(T=Fe, Ru and Os) withskutterudite-type structure" 2000 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi, Japan" "Physica B, 281-282(2000)1021"
109764 PHB2811024 density=9.098 g/cm3 Mo3P Mo3P1 Mo 3 P 1 2000 K 7 7 "high-pressure synthesis (1200-1700C,4GPa)" Superconductivity of molybdenum phosphides prepared at high pressure 2000 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi, Japan" "Physica B, 281-282(2000)1024"
109765 PHB2811024 density=8.251 g/cm3 Mo8P5 Mo8P5 Mo 8 P 5 2000 K 5.8 5.8 "high-pressure synthesis (1200-1700C,4GPa)" Superconductivity of molybdenum phosphides prepared at high pressure 2000 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi, Japan" "Physica B, 281-282(2000)1024"
109766 PHB2811024 density=7.861 g/cm3 Mo4P3 Mo4P3 Mo 4 P 3 2000 K 3 3 "high-pressure synthesis (1200-1700C,4GPa)" Superconductivity of molybdenum phosphides prepared at high pressure 2000 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi, Japan" "Physica B, 281-282(2000)1024"
109767 SSC1080967 TiRhSi Ti1Rh1Si1 Ti 1 Rh 1 Si 1 1998 A 6.248 7.234 3.816 K 5.1 5.1 "high-pressure synthesis (1600,4GPa)" "Superconductivity of MRhSi (M=Ti,Zr, and Hf) prepared at high pressure" 1998 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi, Japan" "Solid State Commun., 108(1998)967"
109768 SSC1080967 ZrRhSi Zr1Rh1Si1 Zr 1 Rh 1 Si 1 1998 A 6.549 7.459 3.918 K 10.3 10.3 "high-pressure synthesis (1200-1600C,4GPa)" "Superconductivity of MRhSi (M=Ti,Zr, and Hf) prepared at high pressure" 1998 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi, Japan" "Solid State Commun., 108(1998)967"
109769 SSC1080967 HfRhSi Hf1Rh1Si1 Hf 1 Rh 1 Si 1 1998 A 6.476 7.415 3.901 K 2.3 2.3 "high-pressure synthesis (1200-1600C,4GPa)" "Superconductivity of MRhSi (M=Ti,Zr, and Hf) prepared at high pressure" 1998 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi, Japan" "Solid State Commun., 108(1998)967"
109770 PR05206197 synthesis of single phase of h-ZrRuSi is difficult. h-ZrRuSi Zr1Ru1Si1 Zr 1 Ru 1 Si 1 1995 A 6.6812 3.6715 K 12 12 T 1 A 181.5 "high-pressure synthesis (1400,4GPa)" Superconductivity of ZrRuSi prepared at high pressure 1995 9 "Phys.Rev.B,52(1995)6197" "Zr, Ru, Si"
109771 PR05206197 synthesis of single phase of o-ZrRuSi is difficult. o-ZrRuSi Zr1Ru1Si1 Zr 1 Ru 1 Si 1 1995 Co2P K 5 5 "high-pressure synthesis (950,4GPa)" Superconductivity of ZrRuSi prepared at high pressure 1995 9 "Phys.Rev.B,52(1995)6197" "Zr, Ru, Si"
109772 SSC1040217 ZrNi4P2 Zr1Ni4P2 Zr 1 Ni 4 P 2 1997 A 6.944 3.576 K 2 "high-pressure synthesis (1100C,4GPa)" Electrical conductivity and superconductivity of ZrNi4P2 and ZrRu4P2 prepared at high pressure 1997 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi, Japan" "Solid State Commun., 104(1997)217"
109773 SSC1040217 density=9.894 ZrRu4P2 Zr1Ru4P2 Zr 1 Ru 4 P 2 1997 A 6.992 3.699 K 11 11 T 12.2 MHC9773 A 52 "high-pressure synthesis (850C,4GPa)" Electrical conductivity and superconductivity of ZrNi4P2 and ZrRu4P2 prepared at high pressure 1997 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi, Japan" "Solid State Commun., 104(1997)217"
109774 SSC1040217 HfRu4P2 Hf1Ru4P2 Hf 1 Ru 4 P 2 1997 K 9.5 9.5 "high-pressure synthesis (850C,4GPa)" Electrical conductivity and superconductivity of ZrNi4P2 and ZrRu4P2 prepared at high pressure 1997 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi, Japan" "Solid State Commun., 104(1997)217"
109775 IST990101 MoNiP Mo1Ni1P1 Mo 1 Ni 1 P 1 2000 Fe2P A 5.858 3.668 K 15.5 15.5 "high-pressure synthesis (4GPa,1500-1700C in BN crucible)" High pressure synthesis of new superconductors MoNiP and MoRuP with Tc of about 15 K 2000 "Muroran Institute of Technology, Muroran,Hokkaido, Japan" "Advances in Superconductivity, 12(2000)101"
109776 IST990101 MoRuP Mo1Ru1P1 Mo 1 Ru 1 P 1 2000 Co2P A 6.035 6.944 3.857 K 15.5 15.5 "high-pressure synthesis (4GPa,1500-1700C in BN crucible)" High pressure synthesis of new superconductors MoNiP and MoRuP with Tc of about 15 K 2000 "Muroran Institute of Technology, Muroran,Hokkaido, Japan" "Advances in Superconductivity, 12(2000)101"
109777 IST990101 h-ZrRuP Zr1Ru1P1 Zr 1 Ru 1 P 1 2000 Fe2P A 6.459 3.778 K 13 13 "high-pressure synthesis (4GPa,1500-1700C in BN crucible)" High pressure synthesis of new superconductors MoNiP and MoRuP with Tc of about 15 K 2000 "Muroran Institute of Technology, Muroran,Hokkaido, Japan" "Advances in Superconductivity, 12(2000)101"
109778 IST990101 h-ZrRuSi Zr1Ru1Si1 Zr 1 Ru 1 Si 1 2000 Fe2P A 6.684 3.672 K 12.2 12.2 "high-pressure synthesis (4GPa,1500-1700C in BN crucible)" High pressure synthesis of new superconductors MoNiP and MoRuP with Tc of about 15 K 2000 "Muroran Institute of Technology, Muroran,Hokkaido, Japan" "Advances in Superconductivity, 12(2000)101"
109779 IST990101 o-ZrRuP Zr1Ru1P1 Zr 1 Ru 1 P 1 2000 Co2P A 6.417 7.323 3.862 K 4 4 "high-pressure synthesis (4GPa,1500-1700C in BN crucible)" High pressure synthesis of new superconductors MoNiP and MoRuP with Tc of about 15 K 2000 "Muroran Institute of Technology, Muroran,Hokkaido, Japan" "Advances in Superconductivity, 12(2000)101"
109780 IST990101 ZrRhSi Zr1Rh1Si1 Zr 1 Rh 1 Si 1 2000 Co2P A 6.549 7.459 3.918 K 10.5 10.5 "high-pressure synthesis (4GPa,1500-1700C in BN crucible)" High pressure synthesis of new superconductors MoNiP and MoRuP with Tc of about 15 K 2000 "Muroran Institute of Technology, Muroran,Hokkaido, Japan" "Advances in Superconductivity, 12(2000)101"
109781 JPS0702248 "values in table are for H//[100]. Hc2(0)=49.5 kOe, -dHc2/dT=110 kOe/K, cohere=35 A, G-L=50 for H//[001]. delta-C/gamma.Tc=4.7. gamma in mj/mol.K2. G-L parameter = 108" CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 2001 K 2.25 2.25 kOe 116 kOe/K 240 A 82 MSP9781 mj/mol.K2 820 self-flux method Unconventional superconductivity in CeCoIn5 studied by the specific heat and magnetization measurements 2001 "Osaka University, Toyonaka, Osaka, Japan" "J.Phys. Soc. Jpn, 70(2001)2248"
109782 P065014506 CeRhIn5 Ce1Rh1In5 Ce 1 Rh 1 In 5 3 2002 -60 HoCoGa5 A 4.6627 7.5373 K flux method (5C/h from 1100C to 600C) Coexistence of superconductivity and antiferromagnetism in CeRh1-xCoxIn5 2002 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego,La Jolla, California" "Phys.Rev.B, 65(2002)14506"
109783 P065014506 gamma in mj/mol.K2. "Ce(Rh,Co)In5" Ce1Rh0.8Co0.2In5 Ce 1 Rh 0.8 Co 0.2 In 5 3 2002 3.7 HoCoGa5 A 4.6512 7.5415 K mj/mol.K2 340 flux method (5C/h from 1100C to 600C) Coexistence of superconductivity and antiferromagnetism in CeRh1-xCoxIn5 2002 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego,La Jolla, California" "Phys.Rev.B, 65(2002)14506"
109784 P065014506 gamma in mj/mol.K2. delta-C=340 mj/mol.K. delta-C/gamma*Tc=0.7 "Ce(Rh,Co)In5" Ce1Rh0.6Co0.4In5 Ce 1 Rh 0.6 Co 0.4 In 5 3 2002 -50 3.6 HoCoGa5 A 4.6469 7.5423 K 1.5 1.5 mj/mol.K2 320 flux method (5C/h from 1100C to 600C) Coexistence of superconductivity and antiferromagnetism in CeRh1-xCoxIn5 2002 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego,La Jolla, California" "Phys.Rev.B, 65(2002)14506"
109785 P065014506 gamma in mj/mol.K2. delta-C=580 mj/mol.K. delta-C/gamma*Tc=0.7 "Ce(Rh,Co)In5" Ce1Rh0.5Co0.5In5 Ce 1 Rh 0.5 Co 0.5 In 5 3 2002 -60 3.2 HoCoGa5 A 4.6342 7.5546 K 1.4 1.4 mj/mol.K2 580 flux method (5C/h from 1100C to 600C) Coexistence of superconductivity and antiferromagnetism in CeRh1-xCoxIn5 2002 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego,La Jolla, California" "Phys.Rev.B, 65(2002)14506"
109786 P065014506 gamma in mj/mol.K2. delta-C=1560 mj/mol.K. delta-C/gamma*Tc=1.8 "Ce(Rh,Co)In5" Ce1Rh0.4Co0.6In5 Ce 1 Rh 0.4 Co 0.6 In 5 3 2002 2.9 HoCoGa5 A 4.6304 7.5504 K 1.43 1.43 mj/mol.K2 620 flux method (5C/h from 1100C to 600C) Coexistence of superconductivity and antiferromagnetism in CeRh1-xCoxIn5 2002 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego,La Jolla, California" "Phys.Rev.B, 65(2002)14506"
109787 P065014506 gamma in mj/mol.K2. delta-C=1540 mj/mol.K. delta-C/gamma*Tc=1.3 "Ce(Rh,Co)In5" Ce1Rh0.3Co0.7In5 Ce 1 Rh 0.3 Co 0.7 In 5 3 2002 -70 HoCoGa5 A 4.6285 7.5515 K 1.42 1.42 mj/mol.K2 820 flux method (5C/h from 1100C to 600C) Coexistence of superconductivity and antiferromagnetism in CeRh1-xCoxIn5 2002 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego,La Jolla, California" "Phys.Rev.B, 65(2002)14506"
109788 P065014506 gamma in mj/mol.K2. delta-C=1720 mj/mol.K. delta-C/gamma*Tc=1.5 "Ce(Rh,Co)In5" Ce1Rh0.2Co0.8In5 Ce 1 Rh 0.2 Co 0.8 In 5 3 2002 -60 HoCoGa5 A 4.6208 7.5508 K 1.57 1.57 mj/mol.K2 720 flux method (5C/h from 1100C to 600C) Coexistence of superconductivity and antiferromagnetism in CeRh1-xCoxIn5 2002 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego,La Jolla, California" "Phys.Rev.B, 65(2002)14506"
109789 P065014506 gamma in mj/mol.K2. delta-C=3890 mj/mol.K. delta-C/gamma*Tc=4.9 CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2002 HoCoGa5 A 4.6154 7.5531 K 2.27 2.27 mj/mol.K2 350 flux method (5C/h from 1100C to 600C) Coexistence of superconductivity and antiferromagnetism in CeRh1-xCoxIn5 2002 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego,La Jolla, California" "Phys.Rev.B, 65(2002)14506"
109790 P065014514 CeCo2 Ce1Co2 Ce 1 Co 2 1 2002 K 0.82 0.82 Oe 75 T 0.275 T/K 0.45 A 481 A 2914 "arc-melt + ANN(900C,1 week)" Anomalous behavior in the superconducting state of CeCo2 2002 "Department of Physics and Institute of Basic Science, Sung Kyun Kwan University, Suwon 440-746, Korea" "Phys. Rev. B, 65(2002)014514"
109791 P065014514 CeCo2 Ce1Co1.95 Ce 1 Co 1.95 1 2002 K 0.87 0.87 "arc-melt + ANN(900C,1 week)" Anomalous behavior in the superconducting state of CeCo2 2002 "Department of Physics and Institute of Basic Science, Sung Kyun Kwan University, Suwon 440-746, Korea" "Phys. Rev. B, 65(2002)014514"
109792 P065014514 containing ferromag-impurities. values of s/c properties are at T=0.4 K. CeCo2 Ce1Co1.85 Ce 1 Co 1.85 1 2002 K 0.86 0.86 "arc-melt + ANN(900C,1 week)" Anomalous behavior in the superconducting state of CeCo2 2002 "Department of Physics and Institute of Basic Science, Sung Kyun Kwan University, Suwon 440-746, Korea" "Phys. Rev. B, 65(2002)014514"
109793 P065014514 CeCo2 Ce1Co2 Ce 1 Co 2 3 2002 K 1.29 1.29 flux method Anomalous behavior in the superconducting state of CeCo2 2002 "Department of Physics and Institute of Basic Science, Sung Kyun Kwan University, Suwon 440-746, Korea" "Phys. Rev. B, 65(2002)014514"
109794 P065020504 pressure-induced s/c. Tc-value represent Tc(max). phase diagram investigated by In<115>NQR CeRhIn5 Ce1Rh1In5 Ce 1 Rh 1 In 5 3 2002 HoCoGa5 K 2.23 0 2.23 MPH9794 self-flux method Pressure-temperature phase diagram of antiferromagnetism and superconductivity in CeRhIn5 and CeIn3 : <115> In-NQR study under pressure 2002 "Department of Physical Science, Graduate School of Engineering Science, Osaka University, Osaka 560-8531, Japan" "Phys.Rev.B, 65(2002)20504"
109795 P065020504 pressure-induced s/c. Tc-value represent Tc(max). phase diagram investigated by In<115>NQR CeIn3 Ce1In3 Ce 1 In 3 3 2002 K 0.2 0 0.2 MPH9795 Czochralski Pressure-temperature phase diagram of antiferromagnetism and superconductivity in CeRhIn5 and CeIn3 : <115> In-NQR study under pressure 2002 "Department of Physical Science, Graduate School of Engineering Science, Osaka University, Osaka 560-8531, Japan" "Phys.Rev.B, 65(2002)20504"
109796 P065024505 Tc defined as R=0. bulk modulus=200 GPa DyNi2B2C Dy1Ni2B2C1 Dy 1 Ni 2 B 2 C 1 3 2002 10.8 LuNi2B2C K 4.8 4.8 MTC9796 K/GPa -0.7 "High-pressure effects in single crystals: RNi2B2C (R=Dy, Pr )" 2002 "Instituto de Investigaciones en Materiales, Universidad Nacional Autonoma de Mexico, Apartado Postal 70-360, Mexico D.F.,Mexico" "Phys.Rev.B, 65(2002)24505"
109797 P065024520 dTn/dp = 0.48 K/GPa (Neel Temp). "(Ho,Dy)Ni2B2C" Ho0.9Dy0.1Ni2B2C1 Ho 0.9 Dy 0.1 Ni 2 B 2 C 1 3 2002 LuNi2B2C K 8.15 8.15 MPH9797 K/GPa -0.64 "high temp-Ni2B flux method + ANN(950C,6h)" Effect of pressure on the superconductivity and magnetism of Ho1-xDyxNi2B2C 2002 "National Creative Research Initiative Center for Superconductivity and Department of Physics, Pohang University of Science" "Phys. Rev. B, 65(2002)0124520"
109798 P065024520 dTc/dp and dTn/dp = 0.5 K/GPa (Neel Temp) are estimated from Fig. Tn(p=0 GPa) not shown. "(Ho,Dy)Ni2B2C" Ho0.6Dy0.4Ni2B2C1 Ho 0.6 Dy 0.4 Ni 2 B 2 C 1 3 2002 6.92 LuNi2B2C K 5.92 5.92 MPH9798 K/GPa 0 "high temp-Ni2B flux method + ANN(950C,6h)" Effect of pressure on the superconductivity and magnetism of Ho1-xDyxNi2B2C 2002 "National Creative Research Initiative Center for Superconductivity and Department of Physics, Pohang University of Science" "Phys. Rev. B, 65(2002)0124520"
109799 PR05112644 dTc/dP = 0.07 K/kbar. dTn/dp = 0.25 K/kbar (Neel Temp). HoNi2B2C Ho1Ni2B2C1 Ho 1 Ni 2 B 2 C 1 1995 5 LuNi2B2C K 8.4 8.4 K/GPa 0.7 MHC9799 348 Pressure effects and specific heat in superconducting HoNi2B2C 1995 5 "AT&T Bell Laboratories,Mountain Avenue,Murray Hill,New Jersey 07974" "Phys.Rev.B,51(1995)12644-12648"
109800 SSC1190491 s/c volume fraction is very small. "MgC(Ni,Co)3" Mg1Co1Ni2.97Co0.03 Mg 1 Co 1 Ni 2.97 Co 0.03 2001 CaTiO3 "CaTiO3, perovskite" K 6.7 6.7 The suppression of superconductivity in MgCNi3 by Ni-site doping 2001 "Department of Chemistry, Princeton Materials Institute, Princeton University, Princeton, NJ,USA" "Solid State Commun., 119(2001)491"
109801 SSC1190491 s/c volume fraction is very small. "MgC(Ni,Co)3" Mg1Co1Ni2.94Co0.06 Mg 1 Co 1 Ni 2.94 Co 0.06 2001 CaTiO3 "CaTiO3, perovskite" K 6 6 The suppression of superconductivity in MgCNi3 by Ni-site doping 2001 "Department of Chemistry, Princeton Materials Institute, Princeton University, Princeton, NJ,USA" "Solid State Commun., 119(2001)491"
109802 SSC1190491 s/c volume fraction is very small. "MgC(Ni,Co)3" Mg1Co1Ni2.91Co0.09 Mg 1 Co 1 Ni 2.91 Co 0.09 2001 CaTiO3 "CaTiO3, perovskite" K 6 6 The suppression of superconductivity in MgCNi3 by Ni-site doping 2001 "Department of Chemistry, Princeton Materials Institute, Princeton University, Princeton, NJ,USA" "Solid State Commun., 119(2001)491"
109803 PLA0770487 GdMo6Se8 Gd1.2Mo6Se8 Gd 1.2 Mo 6 Se 8 1980 0.75 Chevrel K 5.6 5.6 Coexistence of superconductivity and long-range antiferromagnetic order in Gd1.2Mo6Se8 1980 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA, USA" "Physics Letters, 77A(1980)487"
109804 PHC2290315 dTc/dP in K/GPa. LuNi2B2C Lu1Ni2B2C1 Lu 1 Ni 2 B 2 C 1 1 1994 LuNi2B2C A 3.462 10.629 K 16.1 16.1 K/GPa 0.188 arc-melt + ANN "Effect of pressure on superconductivity in the quaternary compounds RENi2B2C (RE=Lu,Y,Tm,Er,Ho)" 1994 8 "Physica C, 229(1994)315-319" "Lu,Y,Tm,Er,Ho,Ni,C,B"
109805 PHC2290315 dTc/dP in K/GPa. TmNi2B2C Tm1Ni2B2C1 Tm 1 Ni 2 B 2 C 1 1 1994 LuNi2B2C A 3.484 10.579 K 10 10 K/GPa -0.176 arc-melt + ANN "Effect of pressure on superconductivity in the quaternary compounds RENi2B2C (RE=Lu,Y,Tm,Er,Ho)" 1994 8 "Physica C, 229(1994)315-319" "Lu,Y,Tm,Er,Ho,Ni,C,B"
109806 PHC2290315 dTc/dP in K/GPa. ErNi2B2C Er1Ni2B2C1 Er 1 Ni 2 B 2 C 1 1 1994 LuNi2B2C A 3.5 10.553 K 10.4 10.4 K/GPa -0.082 arc-melt + ANN "Effect of pressure on superconductivity in the quaternary compounds RENi2B2C (RE=Lu,Y,Tm,Er,Ho)" 1994 8 "Physica C, 229(1994)315-319" "Lu,Y,Tm,Er,Ho,Ni,C,B"
109807 PHC2290315 dTc/dP in K/GPa. YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 1 1994 LuNi2B2C A 3.525 10.536 K 15.3 15.3 K/GPa -0.058 arc-melt + ANN "Effect of pressure on superconductivity in the quaternary compounds RENi2B2C (RE=Lu,Y,Tm,Er,Ho)" 1994 8 "Physica C, 229(1994)315-319" "Lu,Y,Tm,Er,Ho,Ni,C,B"
109808 PHC2290315 two step diamagnetism (T1=7.1 K and T2=5.3 K) HoNi2B2C Ho1Ni2B2C1 Ho 1 Ni 2 B 2 C 1 1 1994 LuNi2B2C A 3.515 10.518 K 7.1 7.1 arc-melt + ANN "Effect of pressure on superconductivity in the quaternary compounds RENi2B2C (RE=Lu,Y,Tm,Er,Ho)" 1994 8 "Physica C, 229(1994)315-319" "Lu,Y,Tm,Er,Ho,Ni,C,B"
109809 JPS0702255 anisotropy factor=2.7 MgB2 B2Mg1 B 2 Mg 1 3 2001 AlB2 A 3.0851 3.5201 "AlB2, C32" K 38.3 38.3 MHC9809 "grown from (Mg-MgB2-BN) by high pressure synthesis (4-6 GPa, 1400-1700C)" "Growth, structure analysis and anisotropic superconducting properties of MgB2 single crystals" 2001 "ISTEC, Shinonome, Koto-ku, Tokyo,Japan" "J.Phys. Soc. Jpn, 70(2001)2255"
109810 SSC1200095 phase transition at about 160 K. InV6S8 In1V6S8 In 1 V 6 S 8 2001 Nb3Te4 K 3.9 3.9 "heat(V6S8+In) 773 K, 30d" "Superconductivity and phase transition in quasi-one-dimensional sulfide AV6S8 (A=In, Tl, K, Rb, Cs)" 2001 "Laboratory for Solid State Chemistry, Okayama University of Science, Okayama, Japan" "Solid State Commun., 120(2001)95"
109811 SSC1200095 phase transition at about 160 K. TlV6S8 Tl1V6S8 Tl 1 V 6 S 8 2001 Nb3Te4 K 4.1 4.1 "(Tl,V,S) heat(1073K,5d, in sealed silica)" "Superconductivity and phase transition in quasi-one-dimensional sulfide AV6S8 (A=In, Tl, K, Rb, Cs)" 2001 "Laboratory for Solid State Chemistry, Okayama University of Science, Okayama, Japan" "Solid State Commun., 120(2001)95"
109812 SSC1200095 phase transition at about 160 K. KV6S8 K1V6S8 K 1 V 6 S 8 2001 Nb3Te4 K 0.71 0.71 by ion exchange method from TlV6S8. "Superconductivity and phase transition in quasi-one-dimensional sulfide AV6S8 (A=In, Tl, K, Rb, Cs)" 2001 "Laboratory for Solid State Chemistry, Okayama University of Science, Okayama, Japan" "Solid State Commun., 120(2001)95"
109813 SSC1200095 phase transition at about 160 K. RbV6S8 Rb1V6S8 Rb 1 V 6 S 8 2001 Nb3Te4 K 0.65 0.65 by ion exchange method from TlV6S8. "Superconductivity and phase transition in quasi-one-dimensional sulfide AV6S8 (A=In, Tl, K, Rb, Cs)" 2001 "Laboratory for Solid State Chemistry, Okayama University of Science, Okayama, Japan" "Solid State Commun., 120(2001)95"
109814 SSC1200095 phase transition at about 160 K. CsV6S8 Cs1V6S8 Cs 1 V 6 S 8 2001 Nb3Te4 K 0.32 0.32 by ion exchange method from TlV6S8. "Superconductivity and phase transition in quasi-one-dimensional sulfide AV6S8 (A=In, Tl, K, Rb, Cs)" 2001 "Laboratory for Solid State Chemistry, Okayama University of Science, Okayama, Japan" "Solid State Commun., 120(2001)95"
109815 SSC1200095 phase transition at about 160 K. V6S8 S8V6 S 8 V 6 2001 Nb3Te4 K 0.76 0.76 deintercalation of Tl from TlV6S8. "Superconductivity and phase transition in quasi-one-dimensional sulfide AV6S8 (A=In, Tl, K, Rb, Cs)" 2001 "Laboratory for Solid State Chemistry, Okayama University of Science, Okayama, Japan" "Solid State Commun., 120(2001)95"
109816 SSC1200095 phase transition at about 160 K. TlV6S8 Tl0.61V6S8 Tl 0.61 V 6 S 8 2001 K 3.5 3.5 "Superconductivity and phase transition in quasi-one-dimensional sulfide AV6S8 (A=In, Tl, K, Rb, Cs)" 2001 "Laboratory for Solid State Chemistry, Okayama University of Science, Okayama, Japan" "Solid State Commun., 120(2001)95"
109817 SSC1200095 phase transition at about 160 K. TlV6S8 Tl0.26V6S8 Tl 0.26 V 6 S 8 2001 K 0.74 0.74 "Superconductivity and phase transition in quasi-one-dimensional sulfide AV6S8 (A=In, Tl, K, Rb, Cs)" 2001 "Laboratory for Solid State Chemistry, Okayama University of Science, Okayama, Japan" "Solid State Commun., 120(2001)95"
109818 SSC1200095 InV6S8 In0.63V6S8 In 0.63 V 6 S 8 2001 K 0.95 0.95 "Superconductivity and phase transition in quasi-one-dimensional sulfide AV6S8 (A=In, Tl, K, Rb, Cs)" 2001 "Laboratory for Solid State Chemistry, Okayama University of Science, Okayama, Japan" "Solid State Commun., 120(2001)95"
109819 SSC1200095 not s/c InV6S8 In0.46V6S8 In 0.46 V 6 S 8 2001 K 0.02 "Superconductivity and phase transition in quasi-one-dimensional sulfide AV6S8 (A=In, Tl, K, Rb, Cs)" 2001 "Laboratory for Solid State Chemistry, Okayama University of Science, Okayama, Japan" "Solid State Commun., 120(2001)95"
109820 SSC1210073 nominal carbon x=1.25 MgCxNi3 Mg1C0.978Ni3 Mg 1 C 0.978 Ni 3 2002 CaTiO3 "CaTiO3, perovskite" K 7.3 7.3 "MgCxNi3 + then adding Mg, heat(600C, 920C)" Carbon concentration dependence of the superconducting transition temperature and structure of MgCxNi3 2002 "NIST Center for Neutron Research, Gaithersburg, MD, USA" "Solid State Commun., 121(2002)73"
109821 SSC1210073 nominal carbon x=0.95 MgCxNi3 Mg1C0.965Ni3 Mg 1 C 0.965 Ni 3 2002 CaTiO3 "CaTiO3, perovskite" K 6.3 6.3 "MgCxNi3 + then adding Mg, heat(600C, 920C)" Carbon concentration dependence of the superconducting transition temperature and structure of MgCxNi3 2002 "NIST Center for Neutron Research, Gaithersburg, MD, USA" "Solid State Commun., 121(2002)73"
109822 SSC1210073 nominal carbon x=0.9 MgCxNi3 Mg1C0.906Ni3 Mg 1 C 0.906 Ni 3 2002 CaTiO3 "CaTiO3, perovskite" K 3.38 3.38 "MgCxNi3 + then adding Mg, heat(600C, 920C)" Carbon concentration dependence of the superconducting transition temperature and structure of MgCxNi3 2002 "NIST Center for Neutron Research, Gaithersburg, MD, USA" "Solid State Commun., 121(2002)73"
109823 PHC3660073 Figure shows Tc(p) by measuring dc-sus(hydrostatic) and resistivity(quasi-hydrostatic) MgB2 B2Mg1 B 2 Mg 1 2002 AlB2 A 3.0849 3.5211 "AlB2, C32" K 39 39 K/GPa -1.18 "heat(950C,2h,in sealed Ta tube with 2 bar Ar)" Effect of pressure on the superconductivity of MgB2 2002 "Department of Physics, Brock University, St.Catharines, Ont., Canada" "Physica C, 366(2002)73"
109824 SSC1210165 InV6S8 In0.71V6S8 In 0.71 V 6 S 8 2002 Nb3Te4 K 5.4 5.4 Oe 170 T 0.6 A 200 um 0.15 "Characteristic inter-grain superconducting transition in quasi-one-dimensional sulfide AV6S8 (A=In,Tl)" 2002 "Department of Applied Physics, Faculty of Science, Okayama University of Science, Okayama, Japan" "Solid State Commun., 121(2002)165"
109825 JPS0702876 "Ferromag at 52 K. pressure induced s/c. Tc shows Tc(max), where it is at p=1.2 GPa." UGe2 Ge2U1 Ge 2 U 1 2001 52 K 0.72 0 0.72 MPH9825 Magnetic Properties of a Pressure-induced Superconductor UGe2 2001 "Department of Physical Science,Graduate School of Engineering Science,Osaka University,Toyonaka,Osaka" "J.Phys.Soc.Jpn, 70(2001)2876"
109826 JPS0703362 "pressure-induced s/c. values of s/c properties in table are for H//c-axis, under p=2.5 GPa.. G-L parameter = 50" CeRhIn5 Ce1Rh1In5 Ce 1 Rh 1 In 5 3 2001 HoCoGa5 K 2.25 0 2.25 MPH9826 T 10.2 T/K 15 A 57 In-flux method Superconductivity of CeRhIn5 under High Pressure 2001 "Research Center for aterials Science under Extreme Conditions,Osaka University,Toyonaka,Osaka ,Japan" "J.Phys.Soc.Jpn, 70(2001)3362"
109827 P065052505 sample contains 20 % MgB2C2 phase. "Mg(B,C)2" Mg1B1.8C0.2 Mg 1 B 1.8 C 0.2 2002 AlB2 A 3.055 3.524 "AlB2, C32" K 32 32 "(Mg+B4C)-Ta foil - (600C,then 700C in Ar)" Effects of carbon doping on superconductivity in magnesium diboride 2002 "Department of Physics, University of California at Berkeley, Berkeley, California, USA" "Phys.Rev.B, 65(2002)52505"
109828 P065052506 "s/c observed for nominal 1.1=25 A. Anisotropy=2.6. Resistivity well-fitted by a+bT+cT2." MgB2 B2Mg1 B 2 Mg 1 3 2001 AlB2 A 3.072 3.404 "AlB2, C32" K 38.6 38.6 mT 38.4 T 25.5 A 65 vapor transport method Anisotropy of superconductivity from MgB2 single crysdtals 2001 "National Institute for Materials Science, Tsukuba, Ibaraki, Japan" "Appl.Phys.Lett., 79(2001)2779"
109846 APL0793983 impurity phase = ZrB2 "(Mg,Zr)B2" Mg0.9Zr0.1B2 Mg 0.9 Zr 0.1 B 2 1 2001 AlB2 "AlB2, C32" K 37.3 37.3 MHC9846 solid state reaction Improvement of critical current density in MgB2 superconductors by Zr doping at ambient pressure 2001 "Superconductivity Research Laboratory, ISTEC, 10-13 Shinonome, 1-chome, Koto-ku, Tokyo 135, Japan" "Appl.Phys.Lett., 79(2001)3983"
109847 APL0793983 14% ZrB2 phase included. "(Mg,Zr)B2" Mg0.8Zr0.2B2 Mg 0.8 Zr 0.2 B 2 1 2001 AlB2 "AlB2, C32" K 37.3 37.3 solid state reaction Improvement of critical current density in MgB2 superconductors by Zr doping at ambient pressure 2001 "Superconductivity Research Laboratory, ISTEC, 10-13 Shinonome, 1-chome, Koto-ku, Tokyo 135, Japan" "Appl.Phys.Lett., 79(2001)3983"
109848 APL0801019 "Ca(Al,Si)2" Ca1Al1Si1 Ca 1 Al 1 Si 1 2002 AlB2 A 4.1905 4.3992 "AlB2, C32" K 7.7 7.7 arc-melting in 0.06 MPa Ar "Superconductivity of Ca(Al0.5,Si0.5)2, a ternary silicide with the AlB2 -type structure" 2002 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Appl.Phys.Lett., 80(2002)1019"
109849 APL0801019 not s/c CaAl2Si2 Ca1Al2Si2 Ca 1 Al 2 Si 2 2002 K 2 arc-melting in 0.06 MPa Ar "Superconductivity of Ca(Al0.5,Si0.5)2, a ternary silicide with the AlB2 -type structure" 2002 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Appl.Phys.Lett., 80(2002)1019"
109850 PCS2757 Pressure induce s/c. Tc shows Tc(max) at p=8 GPa. Figure shows phase diagram. beta-NaV2O5 Na0.33V2O5 Na 0.33 V 2 O 5 3 2002 bronze K 9 0 9 MPH9850 self-flux method Superconductivity under high pressure in beta(beta')-vanadium bronzes 2002 "Materials Design and Characterization Lab, Institute for Solid State Physics, University of Tokyo, Tokyo, Japan" "J.Phys.Chem.Solids, 63(2002)951"
109851 NAT4130613 gamma in mj/mol.K2. ferromag-Tc = 9.5K. moment=0.42 m/U. delta-C/gamma*Tc = 0.6. URhGe U1Rh1Ge1 U 1 Rh 1 Ge 1 2001 9.5 TiNiSi K 0.25 0.25 kOe 7.1 MHC9851 A 180 mj/mol.K2 160 RF-heating in pressurized Ar Coexistence of superconductivity and ferromagnetism in URhGe 2001 "CEA, Departement de Recherche Fondamentale sur la Matiere Condensee, SPSMS, Grenoble Cedex, France" "Nature , 413(2001)613"
109852 SSC1210575 penet calculated from Hc1. density=0.67 g/cm3. G-L parameter = 50 MgB2 B2Mg1 B 2 Mg 1 1 2002 AlB2 "AlB2, C32" K 38.6 38.6 Oe 120 T 12.5 A 46 A 2300 "wrapped(Ta), then heat(925C, in sealed quartz)" Thermal fluctuation and upper critical field of MgB2 superconductor 2002 "Department of Physics, National Hsing University, Taichung,Taiwan,ROC" "Solid State Commun., 121(2002)575"
109853 P065094510 "Theoretical candidate for high-Tc s/c. Interatomic distance=1.51 a, too large." Li2BeH4 Li2Be1H4 Li 2 Be 1 H 4 2002 K 5 Ashby & Prasad method Magnetic properties of LiBeH3 and Li2BeH4 2002 "Physics Department, Purdue University, West Lafayette, Indiana,USA" "Phys.Rev.B, 65(2002)94510"
109854 P065094510 "Theoretical candidate for high-Tc s/c. Interatomic distance=1.64 a, too large." LiBeH3 Li1Be1H3 Li 1 Be 1 H 3 2002 K 5 Ashby & Prasad method Magnetic properties of LiBeH3 and Li2BeH4 2002 "Physics Department, Purdue University, West Lafayette, Indiana,USA" "Phys.Rev.B, 65(2002)94510"
109855 P065094512 penet by muon-SR. two gap analysis (2*delta/kTc = 3.6 and 1.6) MgB2 B2Mg1 B 2 Mg 1 1 2002 AlB2 A 3.0853 3.5238 "AlB2, C32" K 38.2 38.2 A 1000 3.6 "reaction(850C,2d, in Ar)" Muon spin relaxation study of the magnetic penetration depth in MgB2 2002 "Universitat Konstanz, Fachbereich Physik, D-78457 Konstanz, Germany" "Phys.Rev.B, 65(2002)94512"
109856 P065100510 RRR=5. Debye-T was obtained using Bloch-Gruneizen equation for R(T). anisotropy factor = 3.0 (Hc2 at 32K) MgB2 B2Mg1 B 2 Mg 1 3 2002 AlB2 A 3.09 "AlB2, C32" K 38 38 1100 slow cool (1050C to 700C within 5 - 15 days) Superconducting properties of well-shaped MgB2 single crystals 2002 "National Creative Research Initiative Center for Superconductivity and Department of Physics, Pohang, Republic of Korea" "Phys.Rev.B, 65(2002)100510"
109857 P065100506 Skutterudite structure. RRR=33. moment = 2.97 mu-B. gamma in mj/mol.K2 PrOs4Sb12 Pr1Os4Sb12 Pr 1 Os 4 Sb 12 3 2002 -16 skutterudite A 9.3017 LaFe4P12 K 1.85 1.85 T 2.45 T/K 1.9 A 116 mj/mol.K2 350 304 Sb flux method Superconductivity and heavy fermion behavior in PrOs4Sb12 2002 "Department of Physics and Institute For Pure and Applied Physical Sciences, University of California, San Diego, La Jolla,California,USA" "Phys.Rev.B, 65(2002)100506"
109858 L087147001 23 wt%S-C comosites.H(Tc) was observed in M-H curves. Resistivity not to zero . S-C C0.9S0.1 C 0.9 S 0.1 2001 6.709 K 35 35 "press then heat(650K,1h, in Ar) + ANN(400K,10h)" Indication of Superconductivity at 35 K in Graphite-Sulfur Composites 2001 "Instituto Fisica ""Gleb Wataghin"" Universidade Estadual de Campinas, Unicamp,Campinas, San Paulo, Brasil" "Phys.Rev.Lett., 87(2001)147001"
109859 PR05216165 Data from specific heat measurements. delta-C=460 mj/mol.K. delta-C/gamma*Tc=1.77. thermodynamic Hc(0)=0.229T. YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 1995 LuNi2B2C K 14.25 14.25 4.2 11 mj/mol.K2 18.2 490 "HF-induction + ANN(1050C,24h)" Specific-heat analysis of rare-earth transition-metal borocarbides: An estimation of the electron-phonon coupling strength 1995 12 "Phys.Rev.B,52(1995)16165"
109860 PR05216165 Data from specific heat measurements. delta-C=693 mj/mol.K. delta-C/gamma*Tc=2.21. thermodynamic Hc(0)=0.306T. LuNi2B2C Lu1Ni2B2C1 Lu 1 Ni 2 B 2 C 1 1995 LuNi2B2C K 16.1 16.1 4.4 11 mj/mol.K2 19.5 360 "HF-induction + ANN(1050C,24h)" Specific-heat analysis of rare-earth transition-metal borocarbides: An estimation of the electron-phonon coupling strength 1995 12 "Phys.Rev.B,52(1995)16165"
109861 PR05216165 not single phase LaNi2B2C La1Ni2B2C1 La 1 Ni 2 B 2 C 1 1995 LuNi2B2C K mj/mol.K2 8.4 495 "HF-induction + ANN(1050C,24h)" Specific-heat analysis of rare-earth transition-metal borocarbides: An estimation of the electron-phonon coupling strength 1995 12 "Phys.Rev.B,52(1995)16165"
109862 PR05216165 Data from specific heat measurements. delta-C=120 mj/mol.K. delta-C/gamma*Tc=1.8. thermodynamic Hc(0)=0.10T. "La(Pt,Au)2B2C" La1Pt1.5Au0.5B2C1 La 1 Pt 1.5 Au 0.5 B 2 C 1 1995 LuNi2B2C K 10.65 10.65 4.2 11 mj/mol.K2 6.4 250 "HF-induction + ANN(1050C,24h)" Specific-heat analysis of rare-earth transition-metal borocarbides: An estimation of the electron-phonon coupling strength 1995 12 "Phys.Rev.B,52(1995)16165"
109863 PR05216165 not s/c YCo2B2 Y1Co2B2 Y 1 Co 2 B 2 1995 LuNi2B2C K mj/mol.K2 6.7 570 "HF-induction + ANN(1050C,24h)" Specific-heat analysis of rare-earth transition-metal borocarbides: An estimation of the electron-phonon coupling strength 1995 12 "Phys.Rev.B,52(1995)16165"
109864 P065132517 "Dens=2.66 g/cm3. Bulk modulus=114 GPa, Shear modulus=136.6 GPa, Young's modulus=292.8 GPa." MgB2 B2Mg1 B 2 Mg 1 1 2002 AlB2 A 3.086 3.522 "AlB2, C32" K 39 39 HIP Ultrasound studies of MgB2 superconductor under hydrostatic pressure 2002 "Laboratory for Extreme Condition Physics, Institute of Physics and Center for Condensed Matter Physics," "Phys. Rev. B, 65(2002)132517"
109865 P065134508 c-axis oriented film. RRR=3. Hall effect measured at 5T. RH(100K)=3.0 E-11 m3/C. cot(Hall angle) obeys T**2 law above 130K. MgB2 B2Mg1 B 2 Mg 1 2002 AlB2 "AlB2, C32" K 39.2 39.2 MRH9865 "pulsedlaser on Al2O3(1,-1,0,2) single crystal" Hall effect in c-axis-oriented MgB2 thin films 2002 "National Creative Research Initiative Center for Superconductivity and Department of Physics, Pohang University of Science and Technology, Pohang, Republic of Korea" "Phys.Rev.B, 65(2002)134508"
109866 P065132505 MgB2 B2Mg1 B 2 Mg 1 2002 AlB2 A 3.0857 3.5327 "AlB2, C32" K 38.4 38.4 solid state reaction "Superconductivity, superstructure, and structure anomalies in Mg1-xAlxB2" 2002 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People? Republic of China" "Phys.Rev.B, 65(2002)132505"
109867 P065132505 "(Mg,Al)B2" Mg0.95Al0.05B2 Mg 0.95 Al 0.05 B 2 2002 AlB2 A 3.0796 3.5265 "AlB2, C32" K 36.3 36.3 solid state reaction "Superconductivity, superstructure, and structure anomalies in Mg1-xAlxB2" 2002 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People? Republic of China" "Phys.Rev.B, 65(2002)132505"
109868 P065132505 phase separation. another phase c=3.4622. "(Mg,Al)B2" Mg0.91Al0.09B2 Mg 0.91 Al 0.09 B 2 2002 AlB2 A 3.0796 3.5143 "AlB2, C32" K 34.7 34.7 solid state reaction "Superconductivity, superstructure, and structure anomalies in Mg1-xAlxB2" 2002 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People? Republic of China" "Phys.Rev.B, 65(2002)132505"
109869 P065132505 phase separation. another phase c=3.4408. "(Mg,Al)B2" Mg0.81Al0.19B2 Mg 0.81 Al 0.19 B 2 2002 AlB2 A 3.0765 3.4959 "AlB2, C32" K 30.8 30.8 solid state reaction "Superconductivity, superstructure, and structure anomalies in Mg1-xAlxB2" 2002 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People? Republic of China" "Phys.Rev.B, 65(2002)132505"
109870 P065132505 "(Mg,Al)B2" Mg0.75Al0.25B2 Mg 0.75 Al 0.25 B 2 2002 AlB2 A 3.0765 3.4286 "AlB2, C32" K 28 28 solid state reaction "Superconductivity, superstructure, and structure anomalies in Mg1-xAlxB2" 2002 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People? Republic of China" "Phys.Rev.B, 65(2002)132505"
109871 P065132505 "(Mg,Al)B2" Mg0.71Al0.29B2 Mg 0.71 Al 0.29 B 2 2002 AlB2 A 3.0643 3.401 "AlB2, C32" K 24 24 solid state reaction "Superconductivity, superstructure, and structure anomalies in Mg1-xAlxB2" 2002 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People? Republic of China" "Phys.Rev.B, 65(2002)132505"
109872 P065132505 "(Mg,Al)B2" Mg0.6Al0.4B2 Mg 0.6 Al 0.4 B 2 2002 A 3.0582 3.3888 K 14.6 14.6 solid state reaction "Superconductivity, superstructure, and structure anomalies in Mg1-xAlxB2" 2002 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People? Republic of China" "Phys.Rev.B, 65(2002)132505"
109873 P065132505 MgAlB4 superstructure. "(Mg,Al)B2" Mg0.5Al0.5B2 Mg 0.5 Al 0.5 B 2 2002 A 3.052 3.3704 K 12.9 12.9 solid state reaction "Superconductivity, superstructure, and structure anomalies in Mg1-xAlxB2" 2002 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People? Republic of China" "Phys.Rev.B, 65(2002)132505"
109874 P065132505 MgAlB4 superstructure. "(Mg,Al)B2" Mg0.4Al0.6B2 Mg 0.4 Al 0.6 B 2 2002 A 3.0429 3.3643 K 12 12 solid state reaction "Superconductivity, superstructure, and structure anomalies in Mg1-xAlxB2" 2002 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People? Republic of China" "Phys.Rev.B, 65(2002)132505"
109875 P065132505 MgAlB4 superstructure. "(Mg,Al)B2" Mg0.31Al0.69B2 Mg 0.31 Al 0.69 B 2 2002 A 3.0367 3.3643 K 11.1 11.1 solid state reaction "Superconductivity, superstructure, and structure anomalies in Mg1-xAlxB2" 2002 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People? Republic of China" "Phys.Rev.B, 65(2002)132505"
109876 P065132505 phase separation. another phase c=3.300. "(Mg,Al)B2" Mg0.23Al0.77B2 Mg 0.23 Al 0.77 B 2 2002 AlB2 A 3.0367 3.3459 "AlB2, C32" K 5.1 5.1 solid state reaction "Superconductivity, superstructure, and structure anomalies in Mg1-xAlxB2" 2002 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People? Republic of China" "Phys.Rev.B, 65(2002)132505"
109877 P065132505 not s/c "(Mg,Al)B2" Mg0.15Al0.85B2 Mg 0.15 Al 0.85 B 2 2002 AlB2 A 3.0276 3.2939 "AlB2, C32" K solid state reaction "Superconductivity, superstructure, and structure anomalies in Mg1-xAlxB2" 2002 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People? Republic of China" "Phys.Rev.B, 65(2002)132505"
109878 P065132505 not s/c MgAl2 Al1B2 Al 1 B 2 2002 AlB2 A 3.0245 3.2541 "AlB2, C32" K solid state reaction "Superconductivity, superstructure, and structure anomalies in Mg1-xAlxB2" 2002 "National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, Beijing, People? Republic of China" "Phys.Rev.B, 65(2002)132505"
109879 P065132519 LaPt2B2C La1Pt2.1B2.4C1.2 La 1 Pt 2.1 B 2.4 C 1.2 2002 LuNi2B2C K 10.5 10.5 arc melt in Ar "Nonmagnetic ground state of the superconductor PrPt2B2C and magnetic pairbreaking in La0.9R0.1Pt2B2C (R = Ce, Pr, Nd)" 2002 "Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai, India" "Phys.Rev.B, 65(2002)132519"
109880 P065132519 effective moment=3.63 myuB/Pr PrPt2B2C Pr1Pt2.1B2.4C1.2 Pr 1 Pt 2.1 B 2.4 C 1.2 2002 -33 LuNi2B2C K 6 6 arc melt in Ar "Nonmagnetic ground state of the superconductor PrPt2B2C and magnetic pairbreaking in La0.9R0.1Pt2B2C (R = Ce, Pr, Nd)" 2002 "Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai, India" "Phys.Rev.B, 65(2002)132519"
109881 P065132519 "(La,Ce)Pt2B2C" La0.9Ce0.1Pt2.1B2.4C1.2 La 0.9 Ce 0.1 Pt 2.1 B 2.4 C 1.2 2002 LuNi2B2C K 1.8 arc melt in Ar "Nonmagnetic ground state of the superconductor PrPt2B2C and magnetic pairbreaking in La0.9R0.1Pt2B2C (R = Ce, Pr, Nd)" 2002 "Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai, India" "Phys.Rev.B, 65(2002)132519"
109882 P065132519 "(La,Nd)Pt2B2C" La0.9Nd0.1Pt2.1B2.4C1.2 La 0.9 Nd 0.1 Pt 2.1 B 2.4 C 1.2 2002 LuNi2B2C K 8.5 8.5 arc melt in Ar "Nonmagnetic ground state of the superconductor PrPt2B2C and magnetic pairbreaking in La0.9R0.1Pt2B2C (R = Ce, Pr, Nd)" 2002 "Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai, India" "Phys.Rev.B, 65(2002)132519"
109883 P065132519 "(La,Pr)Pt2B2C" La0.9Pr0.1Pt2.1B2.4C1.2 La 0.9 Pr 0.1 Pt 2.1 B 2.4 C 1.2 2002 LuNi2B2C K 9 9 arc melt in Ar "Nonmagnetic ground state of the superconductor PrPt2B2C and magnetic pairbreaking in La0.9R0.1Pt2B2C (R = Ce, Pr, Nd)" 2002 "Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai, India" "Phys.Rev.B, 65(2002)132519"
109884 L088087001 energy gap measured by Raman shift. Temperature dependence of gap obeys BCS. MgB2 B2Mg1 B 2 Mg 1 3 2002 AlB2 "AlB2, C32" K 38.2 38.2 3.96 4 "1400-1700C,5-60min,p=4-6 GPa in BN" Superconducting Gap in MgB2 : Electronic Raman Scattering Measurements of Single Crystals 2002 "SRL, International Superconductivity Technology Center, Shinonome, Koto-ku, Tokyo, Japan" "Phys.Rev.Lett., 88(2002)87001"
109885 MMM2260307 not s/c. no sign of s/c and magnetic transition down to 2 K. CeIr2B2C Ce1Ir2B2C1 Ce 1 Ir 2 B 2 C 1 1 2001 LuNi2B2C A 3.845 10.347 K 2 arc melting Magnetic and valence properties of the Ce-based quaternary borocarbide CeIr2B2C 2001 "J.Magn.Magn,Mater. 226-230(2001)307"
109886 MMM2260307 not s/c. no sign of s/c and magnetic transition down to 2 K. CeRh2B2C Ce1Rh2B2C1 Ce 1 Rh 2 B 2 C 1 1 2001 LuNi2B2C A 3.855 10.175 K 2 arc melting Magnetic and valence properties of the Ce-based quaternary borocarbide CeIr2B2C 2001 "J.Magn.Magn,Mater. 226-230(2001)307"
109887 MMM2260330 "Li and THF(tetrahydrofuran) intercalated to HfNCl. dHc2/dT=19 and 5.1 kOe/K for H//ab and H//c. cohere(ab)=50A, cohere(c)=13.5A." Lix(THF)yHfNCl Li0.48M0.3Hf1N1Cl1 Li 0.48 M 0.3 Hf 1 N 1 Cl 1 2001 K 25.5 25.5 kOe/K 19 MHC9887 A 50 intercalation Magnetic properties of the layered superconductor Li0.48(THF)0.3HfNCl with Tc = 26K 2001 "Department of Physics,Tokyo Metropolitan University, Minami-Osawa, Hachi-oji,Tokyo,Japan" "J.Magn.Magn,Mater. 226-230(2001)330"
109888 PR05201181 RRR=7.5. Another magnetic order at 5.7K clearly observed in specific heat. X-ray density=4.02 g/cm3 HoNi2B2C Ho1Ni2B2C1 Ho 1 Ni 2 B 2 C 1 1 1995 5.2 LuNi2B2C A 3.516 10.53 K 7.8 7.8 Oe 250 kOe 3.5 arc-melt in Ar + ANN(1100C) Magnetic transitions and nearly reentrant superconducting properties of HoNi2B2C 1995 "Department of Physics, National Tsing Hua University, Hsinchu, Taiwan, ROC" "Phys.Rev.B, 52(1995)1181"
109889 PR06003064 Ba7.62Ga17.3Ge28.7 by ICP. A8T46 structure. penetration depth = 1-5 micron.m. Tc(onset)=4.8 K. Ba8(Ga16Ge30) Ba8Ga16Ge30 Ba 8 Ga 16 Ge 30 1999 clathrate A 10.7844 K 7.5 7.5 Oe 100 "react(1080C,1h)" Superconductivity in germanium clathrate Ba8G16Ge30 1999 "Department of Chemistry, University of California, Santa Barbara, California, USA" "Phys.Rev.B, 60(1999)3064"
109890 JAC3350270 not s/c. A8T46 structure. Sr8(Ga11Si35) Sr8Ga11Si35 Sr 8 Ga 11 Si 35 3 2002 clathrate A 10.4075 K 2 Floating zone method "Synthesis of a Si-clathrate compound, Sr8GaxSi46-x, and its electrical resistivity measurements" 2002 "National Institute for Materials Science , Materials Engineering Laboratory ,1- 2- 1 Sengen , Tsukuba , Ibaraki, Japan" "J.Alloys Compd., 335(2002)270"
109891 JAC3350191 not s/c for 0.7061150C) in qualtz tube Carbosulfide superconductor 1999 "Japan Science and Technology Corporation (JST), Japan" SSC112(1999)323
109954 SSC1120323 density = 6.85-7.03 g/cm3. single phase for 0.81150C) in qualtz tube Carbosulfide superconductor 1999 "Japan Science and Technology Corporation (JST), Japan" SSC112(1999)323
109955 SSC1120323 density = 6.85-7.03 g/cm3. single phase for 0.81150C) in qualtz tube Carbosulfide superconductor 1999 "Japan Science and Technology Corporation (JST), Japan" SSC112(1999)323
109956 SSC1180113 layered structure. 1T-Cu<2/3>Nb2S2C 1T-Cu<2/3>Nb2S2C Cu0.67Nb2S2C1 Cu 0.67 Nb 2 S 2 C 1 2001 A 3.3168 9.0245 K 4.85 4.85 Oe 37 kOe 8.99 A 191 A 3600 "(Nb2SC,S,<2/3>Cu)-pellet-sintered in evacuated tube(1200C)" van der Waals type carbosulide superconductor 2001 "Japan Science and Technology Corporation (JST), Japan" SSC118(2001)113
109957 SSC1180113 "layered structure. 75.6 wt% 1T-phase + 24.4 wt% 3R-phase(a=3.271,C=25.478). G-L parameter = 6.37" Nb2S2C Nb2S2C1 Nb 2 S 2 C 1 2001 A 3.268 8.547 K 7.6 7.6 Oe 227 kOe 9.95 A 182 A 1160 extract Cu from Cu<2/3>Nb2S2C + dry in vacuum(100C) van der Waals type carbosulide superconductor 2001 "Japan Science and Technology Corporation (JST), Japan" SSC118(2001)113
109958 P065172503 MgB2 B2Mg1 B 2 Mg 1 1 2002 AlB2 A 3.0838 3.5224 "AlB2, C32" K 38.3 38.3 "pelletized + heat(850C,20 atm Ar, in W-vessel)" Structural and superconducting properties of MgB2-xBex 2002 "Center for Strongly Correlated Materials Research, Seoul National University, Seoul, Republic of Korea" "Phys.Rev.B, 65(2002)172503"
109959 P065172503 "Mg(B,Be)2" Mg1B1.8Be0.2 Mg 1 B 1.8 Be 0.2 1 2002 AlB2 A 3.0782 3.5412 "AlB2, C32" K 36 36 "pelletized + heat(850C,20 atm Ar, in W-vessel)" Structural and superconducting properties of MgB2-xBex 2002 "Center for Strongly Correlated Materials Research, Seoul National University, Seoul, Republic of Korea" "Phys.Rev.B, 65(2002)172503"
109960 P065172503 "Mg(B,Be)2" Mg1B1.7Be0.3 Mg 1 B 1.7 Be 0.3 1 2002 AlB2 A 3.073 3.597 "AlB2, C32" K 32.9 32.9 "pelletized + heat(850C,20 atm Ar, in W-vessel)" Structural and superconducting properties of MgB2-xBex 2002 "Center for Strongly Correlated Materials Research, Seoul National University, Seoul, Republic of Korea" "Phys.Rev.B, 65(2002)172503"
109961 P065172503 "Mg(B,Be)2" Mg1B1.6Be0.4 Mg 1 B 1.6 Be 0.4 1 2002 AlB2 A 3.073 3.6326 "AlB2, C32" K 20.9 20.9 "pelletized + heat(850C,20 atm Ar, in W-vessel)" Structural and superconducting properties of MgB2-xBex 2002 "Center for Strongly Correlated Materials Research, Seoul National University, Seoul, Republic of Korea" "Phys.Rev.B, 65(2002)172503"
109962 P065172503 "Mg(B,Be)2" Mg1B1.4Be0.6 Mg 1 B 1.4 Be 0.6 1 2002 AlB2 A 3.0624 3.6395 "AlB2, C32" K 8.3 8.3 "pelletized + heat(850C,20 atm Ar, in W-vessel)" Structural and superconducting properties of MgB2-xBex 2002 "Center for Strongly Correlated Materials Research, Seoul National University, Seoul, Republic of Korea" "Phys.Rev.B, 65(2002)172503"
109963 P065180505 resistive Tc=38.1 K. s/c properties deduced from thermal conductivity measurements. cohere//c=2.8 nm. dHc2//c/dT=1.17 kOe/K. Hc2(0)//c=31 kOe. anisotropy=4.2. G-L parameter = 13 MgB2 B2Mg1 B 2 Mg 1 3 2002 AlB2 "AlB2, C32" K 36.6 36.6 Oe 656 kOe 130 kOe/K 5.15 nm 11.8 Temperature dependence and anisotropy of the bulk upper critical field Hc2 of MgB2 2002 "Laboratorium fur Festkoperphysik, ETH Honggerberg, CH-8093 Zurich, Switzerland" "Phys.Rev.B, 65(2002)180505"
109964 P065180518 using natural abundance of B(=10.8). delta-C/gamma*Tc = 2.3 BeB2.75 B2.75Be1 B 2.75 Be 1 1 2002 A 9.7738 9.5467 K 0.72 0.72 1000 arc-melting in Ar Superconducting properties of BeB2.75 2002 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana 70803" "Phys.Rev.B, 65(2002)180518"
109965 P065180518 using 100% B<10>. cohere shows the value at T=0.1 K. BeB2.75 B2.75Be1 B 2.75 Be 1 1 2002 K 0.79 0.79 1 B T 0.18 T/K 0.2 MHC9965 A 300 arc-melting in Ar Superconducting properties of BeB2.75 2002 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana 70803" "Phys.Rev.B, 65(2002)180518"
109966 P065184514 "Hc2//c = 25 kOe. anisotropy = 5.6. Anisotropy estimated from M(H,T) measurement using fitting to PRL087047002." "(Mg,Al)B2" Mg0.99Al0.01B2 Mg 0.99 Al 0.01 B 2 1 2002 AlB2 A 3.085 3.5202 "AlB2, C32" K 37.9 37.9 kOe 140 liquid vapor to solid state reaction Magnetization and <11>B NMR study of Mg1-xAlxB2 superconductors 2002 "Institute of Materials Science, NCSR, Demokritos, Aghia Paraskevi, Athens, Greece" "Phys.Rev.B, 65(2002)184514"
109967 P065184516 Two gaps. main gap is small one (DB value). second gap = 4.5 * small one. using MgB2/Pb planar junction. RRR=8 MgB2 Mg1B2 Mg 1 B 2 2002 AlB2 "AlB2, C32" K T 0.2 1.18 950C in Ta-tube Temperature and field dependence of the energy gap of MgB2/Pb planar junctions 2002 "Department of Physics and Astronomy, University of Kentucky, Lexington, Kentucky 40506-0055" "Phys.Rev.B, 65(2002)184516"
109968 CHM0131778 RESRT = 1.26 E-4 Ohm.cm. RRR=1.94 La13Ga8Sb21 La13Ga8Sb21 La 13 Ga 8 Sb 21 2001 K 2.4 2.4 "Electronic Structures and Properties of RE12Ga4Sb23 (RE = La-Nd, Sm) and Superconducting La13Ga8Sb21" 2001 "Department of Chemistry, University of Alberta, Edmonton, Alberta, Canada" "Chem.Mater., 13(2001)1778"
109969 JAP0575093 Film thickness = 210 A (highest Tc). substrate = Si-wafer. T_{=RT. RRR=0.95 Be Be1 Be 1 3 1985 K 5.8 5.8 vapor deposition by ion beam Superconducting beryllium thin films prepared by ion-beam sputtering 1985 "NTT Tokai, Ibaraki, Japan" "J.Appl.Phys., 57(1985)5093"
109970 SSC1040663 "(PO2)4(WO3)2m m=7. Peieris transition (188 K, 60 K). Tc(R=0)=0.31 K. CDW-s/c" (PO2)4(WO3)14 P4W14O50 P 4 W 14 O 50 3 1997 K 0.39 0.39 chemical vapor transition method CDW state and superconductivity in the quasi-two-dimensional monophosphate tungsten bronze P4W14O50 1997 "CNRS, Grenoble Cedex,France" "Solid State Commun., 104(1997)663"
109971 P065224509 Pressure induced s/c(Pc=15 kbar). sp.heat measured at P=21 kbar. Hc2(0) assuming T2 dependence. gamma in mj/mol/K2. CeRhIn5 Ce1Rh1In5 Ce 1 Rh 1 In 5 2002 HoCoGa5 K 2.12 0 2.12 MPH9971 kOe 159 mj/mol.K2 382 Specific heat of CeRhIn5 : Pressure-driven evolution of the ground state from antiferromagnetism to superconductivity 2002 "Lawrence Berkeley National Laboratory and Department of Chemistry, University of California, Berkeley, California" "Phys.Rev.B, 65(2002)224509"
109972 P065144528 rapid cool (RT to 4.2K within a few minutes) for measurement. RbxWO3 Rb0.23W1O3 Rb 0.23 W 1 O 3 2002 CaTiO3 "CaTiO3, perovskite" K 3.9 3.9 "(Rb2WO4+WO3)-heat(900C, 2days)" Concentration dependence of superconductivity and the order-disorder transition in the hexagonal rubidium tungsten bronze RbxWO3: Interfacial and bulk properties 2002 "Centre de Recherches sur les Tres Basses Temperatures, CNRS, Boute, Grenoble Cedex 9, France" "Phys.Rev.B, 65(2002)144528"
109973 PHC50407 impurity phase = YPt2Ge2. RESRT=0.44 mOhm.cm. RRR=1.8. Hc1(1.8K)= 50 Oe. "Y(Pt,Ge)2" Y1Pt0.5Ge1.5 Y 1 Pt 0.5 Ge 1.5 2002 AlB2 A 4.1959 3.9941 "AlB2, C32" K 3.3 3.3 arc-melting Superconductivity in ternary germanide Y(Pt0.5Ge1.5) with the AlB2-type structure 2002 "AIST, Tsukuba Central, Tsukuba, Ibaraki, Japan" "Physica C, 377(2002)185-189"
109974 P063172407 gamma in mj/mol.K2. delta-C/gamma*Tc = 3 Y2PdGe3 Y2Pd1Ge3 Y 2 Pd 1 Ge 3 2001 AlB2 A 4.192 4 "AlB2, C32" K 3 3 mj/mol.K2 2.5 130 arc-melting + ANN(850C) Observation of enhanced magnetic transition temperature in Nd2PdGe3 and superconductivity in Y2PdGe3 2001 "Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai, India" "Phys.Rev.B, 63(2001)172407"
109975 P063172407 magnetic order (maybe FM) at 6K. moment=3.7 Bohr-M/Nd. Nd2PdGe3 Nd2Pd1Ge3 Nd 2 Pd 1 Ge 3 2001 -5.4 AlB2 A 4.241 4.193 "AlB2, C32" K arc-melting + ANN(850C) Observation of enhanced magnetic transition temperature in Nd2PdGe3 and superconductivity in Y2PdGe3 2001 "Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai, India" "Phys.Rev.B, 63(2001)172407"
109976 SSI1410407 "impurity phase= Mo, Cd" CdMo6Se8 Cd1.3Mo6Se7.5 Cd 1.3 Mo 6 Se 7.5 2001 Chevrel K 2.5 2.5 "sintered in silica tube(1273K, 7days)" Phase study of Chevrel compounds of PbxMo6Se8-y and CdxMo6Se8-y 2001 "Okayama University of Science, Okayama,Japan" "Solid State Ionics, 141-142(2001)407"
109978 SSI1410407 Tc (R=0) = 2.0 K. PbMo6Se8 Pb1Mo6Se7.55 Pb 1 Mo 6 Se 7.55 2001 Chevrel A 9.529 11.946 K 5 5 "sintered in silica tube(1273K, 7days)" Phase study of Chevrel compounds of PbxMo6Se8-y and CdxMo6Se8-y 2001 "Okayama University of Science, Okayama,Japan" "Solid State Ionics, 141-142(2001)407"
109979 SIC0320799 composition by Rietveld analysis. "(Ba,K)8Si46" K2.9Ba4.9Si46 K 2.9 Ba 4.9 Si 46 1995 clathrate A 10.273 K 3.2 3.2 "(KSi+BaSi2)-(Ta tube in stainless tube)-heat(600C,several days)" "Preparation and superconductivity of barium containing silicon clathrate compound, (Ba,K)xSi46" 1995 Hiroshima University "Eur.J.Solid State Inorg.Chem., 32(1995)799-807"
109980 ANG0362683 BaSn3 Ba1Sn3 Ba 1 Sn 3 1997 Ni3Sn A 7.253 5.496 K 4.3 4.3 BaSn3: A superconductor at the Border of Zintl phases and intermetallic compounds. Real space Analysis of band structure 1997 "Angew.Chem.Int.Ed.Engl., 36(1997)2683-2686"
109981 PRL0390161 pressure induced s/c. Tc value shows for P=8 kbar. dTc/dP (in K/GPa) at 1 bar. CDW-temp = 59 K. NbSe3 Nb1Se3 Nb 1 Se 3 1977 K 2.5 0 2.5 K/GPa 6 "direct reaction (Nb,Se)-heat(700C,15 days)" Superconductivity of the Linear Trichalcogenide NbSe3 under pressure 1977 "Grenoble-Cedex, France" "Phys.Rev.Lett., 39(1977)161"
109982 PRL0481212 pressure induced s/c. Figure shows Tc and CDW-temp(Td). Tc in TBL shows Tc(max). EuMo6S8 Eu1.2Mo6S8 Eu 1.2 Mo 6 S 8 1982 Chevrel K 9.8 0 9.8 MTC9982 Partial gapping of the Fermi surface and superconductivity in EuxMo6S8 1982 "Department of Physics, University of California,Los Angeles, California,USA" "Phys.Rev.Lett., 48(1982)1212"
109983 PR04908931 "CDW-s/c. CDW-temp(Td)=80 K. Hc2 is for H//c-axis. Hall effect, thermopower are measured." Tl2Mo6Se6 Tl2Mo6Se6 Tl 2 Mo 6 Se 6 1994 Tl2Fe6Te6 K 6.5 6.5 T 4.9 Superconducting and dielectric instabilities in Tl2Mo6Se8: Unusual transport properties and unsaturating critical field 1994 4 "Phys.Rev.B, 49(1994)8931" "Tl,Mo,Se"
109984 PR04307668 dTc/dp in K/GPa. CDW-s/c. CDW-temp=80.1 K Lu5Ir4Si10 Lu5Ir4Si10 Lu 5 Ir 4 Si 10 1991 Sc5Co4Si10 K 3.8 3.8 K/GPa -0.098 366 "Thermal-expansion measurements for Lu5Ir4Si10, Lu5Rh4Si10, Sc5Ir4Si10, and Tm5Ir4Si10: Charge-density-wave effects" 1991 "Ames Lab-US, Iowa State University, Ames, Iowa" "Phys.Rev.B, 43(1991)7668"
109985 PR04307668 dTc/dp in K/GPa. not CDW-s/c. Sc]5Ir4Si10 Sc5Ir4Si10 Sc 5 Ir 4 Si 10 1991 Sc5Co4Si10 K 8.3 8.3 K/GPa -0.256 401 "Thermal-expansion measurements for Lu5Ir4Si10, Lu5Rh4Si10, Sc5Ir4Si10, and Tm5Ir4Si10: Charge-density-wave effects" 1991 "Ames Lab-US, Iowa State University, Ames, Iowa" "Phys.Rev.B, 43(1991)7668"
109986 PR04307668 CDW-s/c. CDW-temp=134 K Tm5Ir4Si10 Tm5Ir4Si10 Tm 5 Ir 4 Si 10 1991 Sc5Co4Si10 K 1.9 1.9 355 "Thermal-expansion measurements for Lu5Ir4Si10, Lu5Rh4Si10, Sc5Ir4Si10, and Tm5Ir4Si10: Charge-density-wave effects" 1991 "Ames Lab-US, Iowa State University, Ames, Iowa" "Phys.Rev.B, 43(1991)7668"
109987 PR04307668 dTc/dp in K/GPa. CDW-s/c. CDW-temp=140 K Lu5Rh4Si10 Lu5Rh4Si10 Lu 5 Rh 4 Si 10 1991 Sc5Co4Si10 K 3.3 3.3 K/GPa -0.07 297 "Thermal-expansion measurements for Lu5Ir4Si10, Lu5Rh4Si10, Sc5Ir4Si10, and Tm5Ir4Si10: Charge-density-wave effects" 1991 "Ames Lab-US, Iowa State University, Ames, Iowa" "Phys.Rev.B, 43(1991)7668"
109988 PR04307681 dTc/dp in K/GPa. Tc jump tp 9.12 K at Pc=20.5 kbar. CDW-temp=81 K. Lu5Ir4Si10 Lu5Ir4Si10 Lu 5 Ir 4 Si 10 1991 Sc5Co4Si10 K 3.72 3.72 K/GPa -0.117 "arc-melting+ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
109989 PR04307681 dTc/dp in K/GPa. Tc jump tp 9.14 K at Pc=20.8 kbar. CDW-temp=82 K. "Lu5Ir4(Si,C)10" Lu5Ir4Si9C1 Lu 5 Ir 4 Si 9 C 1 1991 Sc5Co4Si10 K 3.74 3.74 K/GPa -0.134 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
109990 PR04307681 dTc/dp in K/GPa. "(Lu,Sc)5Ir4Si10" Lu4.75Sc0.25Ir4Si10 Lu 4.75 Sc 0.25 Ir 4 Si 10 1991 Sc5Co4Si10 K 6.06 6.06 K/GPa 0.314 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
109991 PR04307681 dTc/dp in K/GPa. "(Lu,Sc)5Ir4Si10" Lu4.5Sc0.5Ir4Si10 Lu 4.5 Sc 0.5 Ir 4 Si 10 1991 Sc5Co4Si10 K 6.09 6.09 K/GPa 0.123 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
109992 PR04307681 dTc/dp in K/GPa. "(Lu,Sc)5Ir4Si10" Lu4Sc1Ir4Si10 Lu 4 Sc 1 Ir 4 Si 10 1991 Sc5Co4Si10 K 6.54 6.54 K/GPa 0.176 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
109993 PR04307681 dTc/dp in K/GPa. "(Lu,Sc)5Ir4Si10" Lu3.5Sc1.5Ir4Si10 Lu 3.5 Sc 1.5 Ir 4 Si 10 1991 Sc5Co4Si10 K 7.64 7.64 K/GPa -0.059 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
109994 PR04307681 dTc/dp in K/GPa. "(Lu,Sc)5Ir4Si10" Lu2.5Sc2.5Ir4Si10 Lu 2.5 Sc 2.5 Ir 4 Si 10 1991 Sc5Co4Si10 K 7.9 7.9 K/GPa -0.26 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
109995 PR04307681 dTc/dp in K/GPa. "(Lu,Sc)5Ir4Si10" Lu1Sc4Ir4Si10 Lu 1 Sc 4 Ir 4 Si 10 1991 Sc5Co4Si10 K 7.68 7.68 K/GPa -0.311 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
109996 PR04307681 dTc/dp in K/GPa. "(Lu,Sc)5Ir4Si10" Lu0.25Sc4.75Ir4Si10 Lu 0.25 Sc 4.75 Ir 4 Si 10 1991 Sc5Co4Si10 K 7.95 7.95 K/GPa -0.291 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
109997 PR04307681 "Tc jump to 8.9 K at Pc= 20.2 kbar. CDW-temp= 73, 270 K." "(Lu,Y)5Ir4Si10" Lu4.5Y0.5Ir4Si10 Lu 4.5 Y 0.5 Ir 4 Si 10 1991 Sc5Co4Si10 K 3.9 3.9 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
109998 PR04307681 CDW-temp= 105 K. "(Lu,Th)5Ir4Si10" Lu4.5Th0.5Ir4Si10 Lu 4.5 Th 0.5 Ir 4 Si 10 1991 Sc5Co4Si10 K 4.88 4.88 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
109999 PR04307681 Tc jump to 7.84 K at Pc= 23.4 kbar. CDW-temp= 86 K. "(Lu,Tm)5Ir4Si10" Lu4.5Tm0.5Ir4Si10 Lu 4.5 Tm 0.5 Ir 4 Si 10 1991 Sc5Co4Si10 K 2.84 2.84 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
110000 PHC2560090 YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 1 1996 LuNi2B2C K 15.2 15.2 1 83.7 5.5 1984 "by arc-melting under flowing Ar,ANN(1050C,12H in quartz ampoules" Anomalous temperature dependence of Hc2 in YNi2B2C 1996 1 "(a)Centre for Advanced Technology, Indore-452013, India (b)Tata Institute of Fundamental Research, Bombay-400 005, India" "Physica.C,256(1996)90-94" "Y, Ni, B, C"
110001 PR05215086 YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 1 1995 LuNi2B2C K 15 15 1 "arc-melting, see Nature 367(1994)252" "Normal-state transport and magnetic properties of RNi2B2C (R=Y,Ho,La)" 1995 12 "Phys.Rev.B,52(1995)15086"
110002 PR05215086 moment=10.4 HoNi2B2C Ho1Ni2B2C1 Ho 1 Ni 2 B 2 C 1 1 1995 LuNi2B2C K 7.5 7.5 "arc-melting, see Nature 367(1994)252" "Normal-state transport and magnetic properties of RNi2B2C (R=Y,Ho,La)" 1995 12 "Phys.Rev.B,52(1995)15086"
110003 PR05215086 YNi2B2C La1Ni2B2C1 La 1 Ni 2 B 2 C 1 1 1995 LuNi2B2C K 1.5 "arc-melting, see Nature 367(1994)252" "Normal-state transport and magnetic properties of RNi2B2C (R=Y,Ho,La)" 1995 12 "Phys.Rev.B,52(1995)15086"
110100 BOOK1982 "Proc.Natl.Acad.Sci.USA 74,1336" YRh4B4 Y1Rh4B4 Y 1 Rh 4 B 4 1982 AB4C4 RT4B4 A 5.308 7.403 CeCo4B4 type K 11.3 11.3 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110101 BOOK1982 "Proc.Natl.Acad.Sci.USA 74,1336" NdRh4B4 Nd1Rh4B4 Nd 1 Rh 4 B 4 1982 1.31 AB4C4 RT4B4 A 5.333 7.468 CeCo4B4 type K 5.3 5.3 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110102 BOOK1982 "Proc.Natl.Acad.Sci.USA 74,1336" SmRh4B4 Sm1Rh4B4 Sm 1 Rh 4 B 4 1982 0.87 AB4C4 RT4B4 A 5.312 7.43 CeCo4B4 type K 2.7 2.7 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110103 BOOK1982 "not s/c. Proc.Natl.Acad.Sci.USA 74,1336" GdRh4B4 Gd1Rh4B4 Gd 1 Rh 4 B 4 1982 5.62 AB4C4 RT4B4 A 5.309 7.417 CeCo4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110104 BOOK1982 "not s/c. Proc.Natl.Acad.Sci.USA 74,1336" TbRh4B4 Tb1Rh4B4 Tb 1 Rh 4 B 4 1982 7.08 AB4C4 RT4B4 A 5.303 7.404 CeCo4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110105 BOOK1982 "not s/c. Proc.Natl.Acad.Sci.USA 74,1336" DyRh4B4 Dy1Rh4B4 Dy 1 Rh 4 B 4 1982 12.08 AB4C4 RT4B4 A 5.302 7.395 CeCo4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110106 BOOK1982 "not s/c. Proc.Natl.Acad.Sci.USA 74,1336" HoRh4B4 Ho1Rh4B4 Ho 1 Rh 4 B 4 1982 6.56 AB4C4 RT4B4 A 5.293 7.379 CeCo4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110107 BOOK1982 ErRh4B4 Er1Rh4B4 Er 1 Rh 4 B 4 1982 0.9 AB4C4 RT4B4 A 5.292 7.374 CeCo4B4 type K 8.7 8.7 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110108 BOOK1982 TmRh4B4 Tm1Rh4B4 Tm 1 Rh 4 B 4 1982 0.4 AB4C4 RT4B4 A 5.287 7.359 CeCo4B4 type K 9.8 9.8 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110109 BOOK1982 LuRh4B4 Lu1Rh4B4 Lu 1 Rh 4 B 4 1982 AB4C4 RT4B4 A 5.294 7.359 CeCo4B4 type K 11.7 11.7 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110110 BOOK1982 ThRh4B4 Th1Rh4B4 Th 1 Rh 4 B 4 1982 AB4C4 RT4B4 A 5.356 7.538 CeCo4B4 type K 4.3 4.3 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110111 BOOK1982 Solid State Commun. 32(1979)937 HoIr4B4 Ho1Ir4B4 Ho 1 Ir 4 B 4 1982 AB4C4 RT4B4 CeCo4B4 type K 2 2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110112 BOOK1982 Solid State Commun. 32(1979)937 ErIr4B4 Er1Ir4B4 Er 1 Ir 4 B 4 1982 AB4C4 RT4B4 A 5.408 7.278 CeCo4B4 type K 2.1 2.1 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110113 BOOK1982 Solid State Commun. 32(1979)937 TmIr4B4 Tm1Ir4B4 Tm 1 Ir 4 B 4 1982 AB4C4 RT4B4 A 5.404 7.281 CeCo4B4 type K 1.6 1.6 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110114 BOOK1982 "not s/c. J.Less Common Metals, 67(1979)51" ScCo4B4 Sc1Co4B4 Sc 1 Co 4 B 4 1982 AB4C4 RT4B4 CeCo4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110115 BOOK1982 "not s/c. Soviet Phys.Cryst., 16(1972)897" YCo4B4 Y1Co4B4 Y 1 Co 4 B 4 1982 AB4C4 RT4B4 A 5.028 7.015 CeCo4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110116 BOOK1982 "not s/c. Soviet Phys.Cryst., 16(1972)897" CeCo4B4 Ce1Co4B4 Ce 1 Co 4 B 4 1982 AB4C4 RT4B4 A 5.059 7.063 CeCo4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110117 BOOK1982 "not s/c. Soviet Phys.Cryst., 16(1972)897" GdCo4B4 Gd1Co4B4 Gd 1 Co 4 B 4 1982 AB4C4 RT4B4 A 5.043 7.049 CeCo4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110118 BOOK1982 "not s/c. Soviet Phys.Cryst., 16(1972)897" TbCo4B4 Tb1Co4B4 Tb 1 Co 4 B 4 1982 AB4C4 RT4B4 A 5.038 7.03 CeCo4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110119 BOOK1982 "not s/c. Soviet Phys.Cryst., 16(1972)897" DyCo4B4 Dy1Co4B4 Dy 1 Co 4 B 4 1982 AB4C4 RT4B4 A 5.026 7.014 CeCo4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110120 BOOK1982 "not s/c. Soviet Phys.Cryst., 16(1972)897" HoCo4B4 Ho1Co4B4 Ho 1 Co 4 B 4 1982 AB4C4 RT4B4 A 5.02 7.003 CeCo4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110121 BOOK1982 "not s/c. Soviet Phys.Cryst., 16(1972)897" ErCo4B4 Er1Co4B4 Er 1 Co 4 B 4 1982 AB4C4 RT4B4 A 5.016 6.989 CeCo4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110122 BOOK1982 "not s/c. Soviet Phys.Cryst., 16(1972)897" TmCo4B4 Tm1Co4B4 Tm 1 Co 4 B 4 1982 AB4C4 RT4B4 A 5.009 6.98 CeCo4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110123 BOOK1982 "not s/c. J.Less Common Metals, 67(1979)51" YbCo4B4 Yb1Co4B4 Yb 1 Co 4 B 4 1982 AB4C4 RT4B4 CeCo4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110124 BOOK1982 "not s/c. Soviet Phys.Cryst., 16(1972)897" LuCo4B4 Lu1Co4B4 Lu 1 Co 4 B 4 1982 AB4C4 RT4B4 A 4.998 6.947 CeCo4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110125 BOOK1982 ScRu4B4 Sc1Ru4B4 Sc 1 Ru 4 B 4 1982 AB4C4 RT4B4 A 7.346 14.895 LuRu4B4 type K 7.2 7.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110126 BOOK1982 YRu4B4 Y1Ru4B4 Y 1 Ru 4 B 4 1982 AB4C4 RT4B4 A 7.454 14.994 LuRu4B4 type K 1.4 1.4 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110127 BOOK1982 "not s/c. no magnetic phase. Solid State Commun.,24(1977)699" CeRu4B4 Ce1Ru4B4 Ce 1 Ru 4 B 4 1982 AB4C4 RT4B4 A 7.47 15.085 LuRu4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110128 BOOK1982 "not s/c. no magnetic phase. Solid State Commun.,24(1977)699" PrRu4B4 Pr1Ru4B4 Pr 1 Ru 4 B 4 1982 AB4C4 RT4B4 A 7.505 15.066 LuRu4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110129 BOOK1982 "not s/c. Solid State Commun.,24(1977)699" NdRu4B4 Nd1Ru4B4 Nd 1 Ru 4 B 4 1982 1.62 AB4C4 RT4B4 A 7.502 15.053 LuRu4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110130 BOOK1982 "not s/c. no magnetic phase. Solid State Commun.,24(1977)699" SmRu4B4 Sm1Ru4B4 Sm 1 Ru 4 B 4 1982 AB4C4 RT4B4 A 7.482 15.049 LuRu4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110131 BOOK1982 "not s/c. no magnetic phase. Solid State Commun.,24(1977)699" EuRu4B4 Eu1Ru4B4 Eu 1 Ru 4 B 4 1982 AB4C4 RT4B4 A 7.477 15.035 LuRu4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110132 BOOK1982 "not s/c. Solid State Commun.,24(1977)699" GdRu4B4 Gd1Ru4B4 Gd 1 Ru 4 B 4 1982 4.55 AB4C4 RT4B4 A 7.47 15.009 LuRu4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110133 BOOK1982 "not s/c. Solid State Commun.,24(1977)699" TbRu4B4 Tb1Ru4B4 Tb 1 Ru 4 B 4 1982 4.3 AB4C4 RT4B4 A 7.456 14.995 LuRu4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110134 BOOK1982 "not s/c. Solid State Commun.,24(1977)699" DyRu4B4 Dy1Ru4B4 Dy 1 Ru 4 B 4 1982 2.65 AB4C4 RT4B4 A 7.453 14.983 LuRu4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110135 BOOK1982 "not s/c. Solid State Commun.,24(1977)699" HoRu4B4 Ho1Ru4B4 Ho 1 Ru 4 B 4 1982 2.58 AB4C4 RT4B4 A 7.442 14.975 LuRu4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110136 BOOK1982 "not s/c. Solid State Commun.,24(1977)699" ErRu4B4 Er1Ru4B4 Er 1 Ru 4 B 4 1982 2.16 AB4C4 RT4B4 A 7.438 14.972 LuRu4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110137 BOOK1982 "not s/c. no magnetic phase. Solid State Commun.,24(1977)699" TmRu4B4 Tm1Ru4B4 Tm 1 Ru 4 B 4 1982 AB4C4 RT4B4 A 7.429 14.965 LuRu4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110138 BOOK1982 "not s/c. no magnetic phase. Solid State Commun.,24(1977)699" YbRu4B4 Yb1Ru4B4 Yb 1 Ru 4 B 4 1982 AB4C4 RT4B4 A 7.427 14.962 LuRu4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110139 BOOK1982 "not s/c. no magnetic phase. Solid State Commun.,24(1977)699" LuRu4B4 Lu1Ru4B4 Lu 1 Ru 4 B 4 1982 AB4C4 RT4B4 A 7.419 14.955 LuRu4B4 type K 2 2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110140 BOOK1982 "not s/c. no magnetic phase. Solid State Commun.,24(1977)699" ThRu4B4 Th1Ru4B4 Th 1 Ru 4 B 4 1982 AB4C4 RT4B4 A 7.54 15.143 LuRu4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110141 BOOK1982 "not s/c. no magnetic phase. Solid State Commun.,24(1977)699" URu4B4 U1Ru4B4 U 1 Ru 4 B 4 1982 AB4C4 RT4B4 A 7.459 14.986 LuRu4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110142 BOOK1982 "Y(Rh,Ru)4B4" Y1Th3.4Ru0.6B4 Y 1 Th 3.4 Ru 0.6 B 4 1982 AB4C4 RT4B4 A 7.484 14.895 LuRu4B4 type K 9.4 9.4 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110143 BOOK1982 "Pr(Rh,Ru)4B4" Pr1Th3.4Ru0.6B4 Pr 1 Th 3.4 Ru 0.6 B 4 1982 AB4C4 RT4B4 A 7.543 14.995 LuRu4B4 type K 2.3 2.3 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110144 BOOK1982 "not s/c. Solid State Commun.,24(1977)699" "Nd(Rh,Ru)4B4" Nd1Th3.4Ru0.6B4 Nd 1 Th 3.4 Ru 0.6 B 4 1982 AB4C4 RT4B4 A 7.537 14.969 LuRu4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110145 BOOK1982 "not s/c. Solid State Commun.,24(1977)699" "Sm(Rh,Ru)4B4" Sm1Th3.4Ru0.6B4 Sm 1 Th 3.4 Ru 0.6 B 4 1982 AB4C4 RT4B4 A 7.516 14.945 LuRu4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110146 BOOK1982 "Eu(Rh,Ru)4B4" Eu1Th3.4Ru0.6B4 Eu 1 Th 3.4 Ru 0.6 B 4 1982 AB4C4 RT4B4 A 7.505 14.932 LuRu4B4 type K 1.5 1.5 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110147 BOOK1982 "not s/c. Solid State Commun.,24(1977)699" "Gd(Rh,Ru)4B4" Gd1Th3.4Ru0.6B4 Gd 1 Th 3.4 Ru 0.6 B 4 1982 AB4C4 RT4B4 A 7.502 14.916 LuRu4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110148 BOOK1982 "not s/c. Solid State Commun.,24(1977)699" "Tb(Rh,Ru)4B4" Tb1Th3.4Ru0.6B4 Tb 1 Th 3.4 Ru 0.6 B 4 1982 AB4C4 RT4B4 A 7.49 14.898 LuRu4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110149 BOOK1982 not s/c. no magnetic phase. Monatsh.Chem. 111(1980)517 UOs4B4 U1Th3.4Ru0.6B4 U 1 Th 3.4 Ru 0.6 B 4 1982 AB4C4 RT4B4 A 7.512 15.053 LuRu4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110150 BOOK1982 "Solid State Commun.,24(1977)699" "Dy(Rh,Ru)4B4" Dy1Th3.4Ru0.6B4 Dy 1 Th 3.4 Ru 0.6 B 4 1982 1.5 AB4C4 RT4B4 A 7.479 14.885 LuRu4B4 type K 4 4 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110151 BOOK1982 "Solid State Commun.,24(1977)699" "Ho(Rh,Ru)4B4" Ho1Th3.4Ru0.6B4 Ho 1 Th 3.4 Ru 0.6 B 4 1982 AB4C4 RT4B4 A 7.476 14.872 LuRu4B4 type K 6.3 6.3 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110152 BOOK1982 "Solid State Commun.,24(1977)699" "Er(Rh,Ru)4B4" Er1Th3.4Ru0.6B4 Er 1 Th 3.4 Ru 0.6 B 4 1982 AB4C4 RT4B4 A 7.468 14.862 LuRu4B4 type K 7.9 7.9 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110153 BOOK1982 "Solid State Commun.,24(1977)699" "Tm(Rh,Ru)4B4" Tm1Th3.4Ru0.6B4 Tm 1 Th 3.4 Ru 0.6 B 4 1982 AB4C4 RT4B4 A 7.458 14.853 LuRu4B4 type K 8.3 8.3 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110154 BOOK1982 "not s/c. Solid State Commun.,24(1977)699" "Yb(Rh,Ru)4B4" Yb1Th3.4Ru0.6B4 Yb 1 Th 3.4 Ru 0.6 B 4 1982 0.2 AB4C4 RT4B4 A 7.449 14.851 LuRu4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110155 BOOK1982 "Solid State Commun.,24(1977)699" "Lu(Rh,Ru)4B4" Lu1Th3.4Ru0.6B4 Lu 1 Th 3.4 Ru 0.6 B 4 1982 AB4C4 RT4B4 A 7.445 14.837 LuRu4B4 type K 9 9 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110156 BOOK1982 HoRh4B4 Ho1Rh4B4 Ho 1 Rh 4 B 4 1982 AB4C4 RT4B4 LuRh4B4 type K 1.4 1.4 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110157 BOOK1982 ErRh4B4 Er1Rh4B4 Er 1 Rh 4 B 4 1982 AB4C4 RT4B4 A 7.444 22.3 7.465 LuRh4B4 type K 4.3 4.3 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110158 BOOK1982 TmRh4B4 Tm1Rh4B4 Tm 1 Rh 4 B 4 1982 AB4C4 RT4B4 A 7.432 22.28 7.455 LuRh4B4 type K 5.4 5.4 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110159 BOOK1982 not s/c YbRh4B4 Yb1Rh4B4 Yb 1 Rh 4 B 4 1982 AB4C4 RT4B4 A 7.424 22.26 7.458 LuRh4B4 type K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110160 BOOK1982 LuRh4B4 Lu1Rh4B4 Lu 1 Rh 4 B 4 1982 AB4C4 RT4B4 A 7.41 22.26 7.44 LuRh4B4 type K 6.2 6.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110161 BOOK1982 YRuB2 Y1Ru1B2 Y 1 Ru 1 B 2 1982 LuRuB2 A 5.918 5.297 6.377 K 7.8 7.8 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110162 BOOK1982 not s/c TbRuB2 Tb1Ru1B2 Tb 1 Ru 1 B 2 1982 45.6 LuRuB2 A 5.897 5.311 6.367 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110163 BOOK1982 not s/c DyRuB2 Dy1Ru1B2 Dy 1 Ru 1 B 2 1982 21.9 LuRuB2 A 5.886 5.3 6.352 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110164 BOOK1982 not s/c HoRuB2 Ho1Ru1B2 Ho 1 Ru 1 B 2 1982 15.5 LuRuB2 A 5.875 5.287 6.332 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110165 BOOK1982 not s/c ErRuB2 Er1Ru1B2 Er 1 Ru 1 B 2 1982 5.21 LuRuB2 A 5.868 5.262 6.323 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110166 BOOK1982 not s/c TmRuB2 Tm1Ru1B2 Tm 1 Ru 1 B 2 1982 4.07 LuRuB2 A 5.831 5.254 6.299 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110167 BOOK1982 LuRuB2 Lu1Ru1B2 Lu 1 Ru 1 B 2 1982 LuRuB2 A 5.809 5.229 6.284 K 9.99 9.99 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110168 BOOK1982 YRu3B2 Y1Ru3B2 Y 1 Ru 3 B 2 1982 CeCo3B2 A 5.481 3.028 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110169 BOOK1982 CeRu3B2 Ce1Ru3B2 Ce 1 Ru 3 B 2 1982 CeCo3B2 A 5.527 2.991 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110170 BOOK1982 PrRu3B2 Pr1Ru3B2 Pr 1 Ru 3 B 2 1982 6.85 CeCo3B2 A 5.554 3.006 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110171 BOOK1982 NdRu3B2 Nd1Ru3B2 Nd 1 Ru 3 B 2 1982 33.2 CeCo3B2 A 5.544 3.01 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110172 BOOK1982 Tm>45 K SmRu3B2 Sm1Ru3B2 Sm 1 Ru 3 B 2 1982 45 CeCo3B2 A 5.536 2.997 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110173 BOOK1982 Tm>45 K GdRu3B2 Gd1Ru3B2 Gd 1 Ru 3 B 2 1982 45 CeCo3B2 A 5.508 3.018 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110174 BOOK1982 Tm>45 K TbRu3B2 Tb1Ru3B2 Tb 1 Ru 3 B 2 1982 45 CeCo3B2 A 5.495 3.01 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110175 BOOK1982 DyRu3B2 Dy1Ru3B2 Dy 1 Ru 3 B 2 1982 40.1 CeCo3B2 A 5.485 3.011 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110176 BOOK1982 ScOsB2 Sc1Os1B2 Sc 1 Os 1 B 2 1982 LuRuB2 A 5.647 5.178 6.184 K 1.34 1.34 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110177 BOOK1982 YOsB2 Y1Os1B2 Y 1 Os 1 B 2 1982 LuRuB2 A 5.905 5.299 6.391 K 2.22 2.22 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110178 BOOK1982 not s/c TbOsB2 Tb1Os1B2 Tb 1 Os 1 B 2 1982 39.2 LuRuB2 A 5.885 5.309 6.392 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110179 BOOK1982 not s/c DyOsB2 Dy1Os1B2 Dy 1 Os 1 B 2 1982 25.3 LuRuB2 A 5.869 5.297 6.369 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110180 BOOK1982 not s/c HoOsB2 Ho1Os1B2 Ho 1 Os 1 B 2 1982 14.2 LuRuB2 A 5.85 5.286 6.355 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110181 BOOK1982 not s/c ErOsB2 Er1Os1B2 Er 1 Os 1 B 2 1982 3.8 LuRuB2 A 5.834 5.274 6.341 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110182 BOOK1982 not s/c TmOsB2 Tm1Os1B2 Tm 1 Os 1 B 2 1982 2.26 LuRuB2 A 5.817 5.258 6.328 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110183 BOOK1982 LuOsB2 Lu1Os1B2 Lu 1 Os 1 B 2 1982 LuRuB2 A 5.809 5.231 6.318 K 2.66 2.66 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110184 BOOK1982 not s/c HoRu3B2 Ho1Ru3B2 Ho 1 Ru 3 B 2 1982 16.1 CeCo3B2 A 5.474 3.017 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110185 BOOK1982 not s/c ErRu3B2 Er1Ru3B2 Er 1 Ru 3 B 2 1982 27.3 CeCo3B2 A 5.467 3.017 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110186 BOOK1982 not s/c TmRu3B2 Tm1Ru3B2 Tm 1 Ru 3 B 2 1982 18.3 CeCo3B2 A 5.461 3.012 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110187 BOOK1982 not s/c YbRu3B2 Yb1Ru3B2 Yb 1 Ru 3 B 2 1982 CeCo3B2 A 5.464 3.006 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110188 BOOK1982 not s/c LuRu3B2 Lu1Ru3B2 Lu 1 Ru 3 B 2 1982 CeCo3B2 A 5.454 3.004 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110189 BOOK1982 ThRu3B2 Th1Ru3B2 Th 1 Ru 3 B 2 1982 CeCo3B2 A 5.526 3.07 K 1.79 1.79 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110190 BOOK1982 not s/c URu3B2 U1Ru3B2 U 1 Ru 3 B 2 1982 CeCo3B2 A 5.476 2.96 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110191 BOOK1982 "(Y,Th)Ru3B2" Y0.5Th0.5Ru3B2 Y 0.5 Th 0.5 Ru 3 B 2 1982 CeCo3B2 A 5.499 3.048 K 1.53 1.53 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110192 BOOK1982 LuOs3B2 Lu1Os3B2 Lu 1 Os 3 B 2 1982 CeCo3B2 A 5.457 3.052 K 4.62 4.62 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110193 BOOK1982 UOs3B2 U1Os3B2 U 1 Os 3 B 2 1982 CeCo3B2 A 5.523 2.976 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110194 BOOK1982 "(Lu,Th)Os3B2" Lu0.5Th0.5Os3B2 Lu 0.5 Th 0.5 Os 3 B 2 1982 CeCo3B2 A 5.523 3.062 K 4.14 4.14 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110195 BOOK1982 not s/c. not magnetic ScCo3B2 Sc1Co3B2 Sc 1 Co 3 B 2 1982 CeCo3B2 A 4.889 2.977 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110196 BOOK1982 not s/c. not magnetic YCo3B2 Y1Co3B2 Y 1 Co 3 B 2 1982 CeCo3B2 A 5.033 3.038 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110197 BOOK1982 not s/c. not magnetic CeCo3B2 Ce1Co3B2 Ce 1 Co 3 B 2 1982 CeCo3B2 A 5.057 3.036 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110198 BOOK1982 not s/c SmCo3B2 Sm1Co3B2 Sm 1 Co 3 B 2 1982 40 CeCo3B2 A 5.101 2.991 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110199 BOOK1982 not s/c GdCo3B2 Gd1Co3B2 Gd 1 Co 3 B 2 1982 58 CeCo3B2 A 5.059 3.019 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110200 BOOK1982 not s/c. not magnetic TbCo3B2 Tb1Co3B2 Tb 1 Co 3 B 2 1982 CeCo3B2 A 5.048 3.005 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110201 BOOK1982 not s/c. not magnetic DyCo3B2 Dy1Co3B2 Dy 1 Co 3 B 2 1982 CeCo3B2 A 5.028 3.015 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110202 BOOK1982 not s/c. not magnetic HoCo3B2 Ho1Co3B2 Ho 1 Co 3 B 2 1982 CeCo3B2 A 5.026 3.029 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110203 BOOK1982 not s/c ErCo3B2 Er1Co3B2 Er 1 Co 3 B 2 1982 20 CeCo3B2 A 5.003 3.024 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110204 BOOK1982 not s/c. not magnetic TmCo3B2 Tm1Co3B2 Tm 1 Co 3 B 2 1982 CeCo3B2 A 4.991 3.019 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110205 BOOK1982 not s/c. not magnetic YbCo3B2 Yb1Co3B2 Yb 1 Co 3 B 2 1982 CeCo3B2 A 4.985 3.02 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110206 BOOK1982 not s/c. not magnetic LuCo3B2 Lu1Co3B2 Lu 1 Co 3 B 2 1982 CeCo3B2 A 4.959 3.035 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110207 BOOK1982 not s/c. not magnetic UCo3B2 U1Co3B2 U 1 Co 3 B 2 1982 CeCo3B2 A 4.956 3.072 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110208 BOOK1982 LaRh3B2 La1Rh3B2 La 1 Rh 3 B 2 1982 CeCo3B2 A 5.48 3.137 K 2.82 2.82 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110209 BOOK1982 CeRh3B2 Ce1Rh3B2 Ce 1 Rh 3 B 2 1982 115 CeCo3B2 A 5.474 3.085 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110210 BOOK1982 PrRh3B2 Pr1Rh3B2 Pr 1 Rh 3 B 2 1982 1.68 CeCo3B2 A 5.461 3.105 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110211 BOOK1982 NdRh3B2 Nd1Rh3B2 Nd 1 Rh 3 B 2 1982 13.5 CeCo3B2 A 5.466 3.109 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110212 BOOK1982 Tm>45 K SmRh3B2 Sm1Rh3B2 Sm 1 Rh 3 B 2 1982 45 CeCo3B2 A 5.437 3.09 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110213 BOOK1982 EuRh3B2 Eu1Rh3B2 Eu 1 Rh 3 B 2 1982 41.7 CeCo3B2 A 5.601 2.906 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110214 BOOK1982 Tm>45 K GdRh3B2 Gd1Rh3B2 Gd 1 Rh 3 B 2 1982 45 CeCo3B2 A 5.404 3.115 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110215 BOOK1982 "(Y,La)Rh3B2" Y0.5La0.5Rh3B2 Y 0.5 La 0.5 Rh 3 B 2 1982 CeCo3B2 A 5.434 3.127 K 1.88 1.88 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110216 BOOK1982 LaIr3B2 La1Ir3B2 La 1 Ir 3 B 2 1982 CeCo3B2 A 5.543 3.116 K 1.65 1.65 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110217 BOOK1982 ThIr3B2 Th1Ir3B2 Th 1 Ir 3 B 2 1982 CeCo3B2 A 5.449 3.23 K 2.09 2.09 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110218 BOOK1982 UIr3B2 U1Ir3B2 U 1 Ir 3 B 2 1982 CeCo3B2 A 5.369 3.181 K 1.2 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110219 BOOK1982 TiRuP Ti1Ru1P1 Ti 1 Ru 1 P 1 1982 Fe2P A 6.325 3.542 K 1.33 1.33 arc melted "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110220 BOOK1982 ZrRuP Zr1Ru1P1 Zr 1 Ru 1 P 1 1982 Fe2P A 6.459 3.778 K 12.34 12.34 arc melted + ANN(900C) - Q "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110221 BOOK1982 HfRuP Hf1Ru1P1 Hf 1 Ru 1 P 1 1982 Fe2P A 6.414 3.753 K 12.7 12.7 SIN(1000C)-slow cool "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110222 BOOK1982 TiOsP Ti1Os1P1 Ti 1 Os 1 P 1 1982 Fe2P A 6.285 3.625 K 1.2 SIN(1000C)-slow cool "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110223 BOOK1982 ZrOsP Zr1Os1P1 Zr 1 Os 1 P 1 1982 Fe2P A 6.46 3.842 K 7.44 7.44 SIN(1000C)-slow cool "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110224 BOOK1982 HfOsP Hf1Os1P1 Hf 1 Os 1 P 1 1982 Fe2P A 6.417 3.792 K 6.1 6.1 SIN(1000C)-slow cool "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110225 BOOK1982 YRu3Si2 Y1Ru3Si2 Y 1 Ru 3 Si 2 1982 LaRu3Si2 A 5.543 7.152 K 3.51 3.51 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110226 BOOK1982 LaRu3Si2 La1Ru3Si2 La 1 Ru 3 Si 2 1982 LaRu3Si2 A 5.676 7.12 K 7.6 7.6 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110227 BOOK1982 ThRu3Si2 Th1Ru3Si2 Th 1 Ru 3 Si 2 1982 LaRu3Si2 A 5.605 7.201 K 3.98 3.98 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110228 BOOK1982 BaPt3B2 Ba0.67Pt3B2 Ba 0.67 Pt 3 B 2 1982 LaRu3Si2 A 6.161 5.268 K 5.6 5.6 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110229 BOOK1982 SrPt3B2 Sr0.67Pt3B2 Sr 0.67 Pt 3 B 2 1982 LaRu3Si2 A 6.092 5.184 K 2.78 2.78 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110230 BOOK1982 CaPt3B2 Ca0.67Pt3B2 Ca 0.67 Pt 3 B 2 1982 LaRu3Si2 A 5.989 5.127 K 1.57 1.57 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110231 BOOK1982 Ca1Rh1.2Sn4.5 Ca 1 Rh 1.2 Sn 4.5 1982 Pr3Rh4Sn13 A 9.702 K 8.7 8.7 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110232 BOOK1982 Yb1Rh1.4Sn4.6 Yb 1 Rh 1.4 Sn 4.6 1982 Pr3Rh4Sn13 A 9.675 K 8.6 8.6 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110233 BOOK1982 La1Ru1.5Sn4.5 La 1 Ru 1.5 Sn 4.5 1982 Pr3Rh4Sn13 A 9.772 K 3.9 3.9 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110234 BOOK1982 Ca1Pt1.4Sn4.3 Ca 1 Pt 1.4 Sn 4.3 1982 Pr3Rh4Sn13 A 9.76 K 1.1 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110235 BOOK1982 Y3Ru4Ge13 Y3Ru4Ge13 Y 3 Ru 4 Ge 13 1982 Pr3Rh4Sn13 A 8.962 K 1.7 1.7 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110236 BOOK1982 not s/c Ce3Ru4Ge13 Ce3Ru4Ge13 Ce 3 Ru 4 Ge 13 1982 6.7 Pr3Rh4Sn13 A 9.045 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110237 BOOK1982 not s/c Pr3Ru4Ge13 Pr3Ru4Ge13 Pr 3 Ru 4 Ge 13 1982 14.2 Pr3Rh4Sn13 A 9.069 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110238 BOOK1982 not s/c Er3Ru4Ge13 Er3Ru4Ge13 Er 3 Ru 4 Ge 13 1982 1.2 Pr3Rh4Sn13 A 8.941 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110239 BOOK1982 Lu3Ru4Ge13 Lu3Ru4Ge13 Lu 3 Ru 4 Ge 13 1982 Pr3Rh4Sn13 A 8.912 K 2.3 2.3 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110240 BOOK1982 Y3Os4Ge13 Y3Os4Ge13 Y 3 Os 4 Ge 13 1982 Pr3Rh4Sn13 A 8.985 K 3.9 3.9 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110241 BOOK1982 Lu3Os4Ge13 Lu3Os4Ge13 Lu 3 Os 4 Ge 13 1982 Pr3Rh4Sn13 A 8.938 K 3.6 3.6 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110242 BOOK1982 p-49 Er1Rh1.1Sn3.6 Er 1 Rh 1.1 Sn 3.6 1982 A 13.733 27.418 K 1.36 1.36 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110243 BOOK1982 p-49 Lu1Rh1.2Sn4 Lu 1 Rh 1.2 Sn 4 1982 A 13.693 9.648 K 4 4 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110244 BOOK1982 p-49 Y1Rh1.1Sn3.1 Y 1 Rh 1.1 Sn 3.1 1982 A 13.772 K 1.3 1.3 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110245 BOOK1982 Sc2Fe3Si5 Sc2Fe3Si5 Sc 2 Fe 3 Si 5 1982 Sc2Fe3Si5 A 10.225 5.275 K 4.52 4.52 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110246 BOOK1982 Y2Fe3Si5 Y2Fe3Si5 Y 2 Fe 3 Si 5 1982 Sc2Fe3Si5 A 10.43 5.47 K 2.4 2.4 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110247 BOOK1982 Sm2Fe3Si5 Sm2Fe3Si5 Sm 2 Fe 3 Si 5 1982 Sc2Fe3Si5 A 10.47 5.55 K 1 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110248 BOOK1982 Gd2Fe3Si5 Gd2Fe3Si5 Gd 2 Fe 3 Si 5 1982 8.6 Sc2Fe3Si5 A 10.47 5.513 K 1 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110249 BOOK1982 Tb2Fe3Si5 Tb2Fe3Si5 Tb 2 Fe 3 Si 5 1982 10.3 Sc2Fe3Si5 A 10.43 5.48 K 1 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110250 BOOK1982 Dy2Fe3Si5 Dy2Fe3Si5 Dy 2 Fe 3 Si 5 1982 4.4 Sc2Fe3Si5 A 10.423 5.465 K 1 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110251 BOOK1982 Ho2Fe3Si5 Ho2Fe3Si5 Ho 2 Fe 3 Si 5 1982 2.9 Sc2Fe3Si5 A 10.39 5.44 K 1 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110252 BOOK1982 Er2Fe3Si5 Er2Fe3Si5 Er 2 Fe 3 Si 5 1982 2.9 Sc2Fe3Si5 A 10.385 5.425 K 1 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110253 BOOK1982 Tm2Fe3Si5 Tm2Fe3Si5 Tm 2 Fe 3 Si 5 1982 Sc2Fe3Si5 A 10.37 5.4 K 1.3 1.3 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110254 BOOK1982 not s/c Yb2Fe3Si5 Yb2Fe3Si5 Yb 2 Fe 3 Si 5 1982 Sc2Fe3Si5 A 10.36 5.385 K 1 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110255 BOOK1982 Lu2Fe3Si5 Lu2Fe3Si5 Lu 2 Fe 3 Si 5 1982 Sc2Fe3Si5 A 10.34 5.375 K 6.1 6.1 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110256 BOOK1982 not s/c. not magnetic phase Y2Fe3Si5 Y2Fe3Si5 Y 2 Fe 3 Si 5 1982 Sc2Fe3Si5 A 10.68 5.623 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110257 BOOK1982 not s/c. not magnetic phase Lu2Os3Si5 Lu2Os3Si5 Lu 2 Os 3 Si 5 1982 Sc2Fe3Si5 A 10.63 5.588 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110258 BOOK1982 not s/c. not magnetic phase Y2Os3Si5 Y2Os3Si5 Y 2 Os 3 Si 5 1982 Sc2Fe3Si5 A 10.68 5.658 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110259 BOOK1982 Y2Re3Si5 Y2Re3Si5 Y 2 Re 3 Si 5 1982 Sc2Fe3Si5 A 10.88 5.533 K 1.76 1.76 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110260 BOOK1982 Sc5Co4Si10 Sc5Co4Si10 Sc 5 Co 4 Si 10 1982 Sc5Co4Si10 A 12.01 3.936 K 5 5 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110261 BOOK1982 Sc5Rh4Si10 Sc5Rh4Si10 Sc 5 Rh 4 Si 10 1982 Sc5Co4Si10 A 12.325 4.032 K 8.54 8.54 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110262 BOOK1982 Sc5Ir4Si10 Sc5Ir4Si10 Sc 5 Ir 4 Si 10 1982 Sc5Co4Si10 A 12.316 4.076 K 8.46 8.46 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110263 BOOK1982 Y5Ir4Si10 Y5Ir4Si10 Y 5 Ir 4 Si 10 1982 Sc5Co4Si10 A 12.599 4.234 K 3 3 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110264 BOOK1982 Lu5Ir4Si10 Lu5Ir4Si10 Lu 5 Ir 4 Si 10 1982 Sc5Co4Si10 A 12.475 4.171 K 3.76 3.76 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110265 BOOK1982 not s/c Tm5Ir4Si10 Tm5Ir4Si10 Tm 5 Ir 4 Si 10 1982 1 Sc5Co4Si10 A 12.52 4.195 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110266 BOOK1982 not s/c Er5Ir4Si10 Er5Ir4Si10 Er 5 Ir 4 Si 10 1982 2.3 Sc5Co4Si10 A 12.543 4.203 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110267 BOOK1982 not s/c Ho5Ir4Si10 Ho5Ir4Si10 Ho 5 Ir 4 Si 10 1982 1.5 Sc5Co4Si10 A 12.554 4.215 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110268 BOOK1982 not s/c Dy5Ir4Si10 Dy5Ir4Si10 Dy 5 Ir 4 Si 10 1982 5 Sc5Co4Si10 A 12.569 4.227 K "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110269 BOOK1982 Yr5Ir4Si10 Y5Ir4Si10 Y 5 Ir 4 Si 10 1982 Sc5Co4Si10 A 12.927 4.308 K 2.62 2.62 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110270 BOOK1982 Y5Os4Ge10 Y5Os4Ge10 Y 5 Os 4 Ge 10 1982 Sc5Co4Si10 A 13.006 4.297 K 8.68 8.68 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
110271 LES0620197 single phase "(Au,Pd)Ga2" Au0.098Pd0.02Ga2 Au 0.098 Pd 0.02 Ga 2 1978 K 1.51 1.51 Superconducting properties of AuGa and AuGa2 compounds 1978 "Naval Research Lab, Washington, D.C. USA" "J.Less-Common Metals, 62(1978)197"
110272 LES0620197 single phase "(Au,Pd)Ga2" Au0.93Pd0.07Ga2 Au 0.93 Pd 0.07 Ga 2 1978 K 1.773 1.773 Superconducting properties of AuGa and AuGa2 compounds 1978 "Naval Research Lab, Washington, D.C. USA" "J.Less-Common Metals, 62(1978)197"
110273 LES0620197 two phase "(Au,Pd)Ga2" Au0.85Pd0.15Ga2 Au 0.85 Pd 0.15 Ga 2 1978 K 1.79 1.79 Superconducting properties of AuGa and AuGa2 compounds 1978 "Naval Research Lab, Washington, D.C. USA" "J.Less-Common Metals, 62(1978)197"
110274 LES0620197 single phase (AuGa) "(Au,Ga)" Au0.499Ga0.501 Au 0.499 Ga 0.501 1978 K 1.17 1.17 kOe/K 0.106 Superconducting properties of AuGa and AuGa2 compounds 1978 "Naval Research Lab, Washington, D.C. USA" "J.Less-Common Metals, 62(1978)197"
110275 LES0620197 two phase (AuGa + AuGa2) "(Au,Ga)" Au0.427Ga0.573 Au 0.427 Ga 0.573 1978 K 1.378 1.378 kOe/K 0.123 Superconducting properties of AuGa and AuGa2 compounds 1978 "Naval Research Lab, Washington, D.C. USA" "J.Less-Common Metals, 62(1978)197"
110276 LES0620197 two phase (AuGa + AuGa2) "(Au,Ga)" Au0.388Ga0.612 Au 0.388 Ga 0.612 1978 K 1.355 1.355 kOe/K 0.112 Superconducting properties of AuGa and AuGa2 compounds 1978 "Naval Research Lab, Washington, D.C. USA" "J.Less-Common Metals, 62(1978)197"
110277 LES0620197 single phase (AuGa2) "(Au,Ga)" Au0.328Ga0.672 Au 0.328 Ga 0.672 1978 K 1.668 1.668 kOe/K 0.412 Superconducting properties of AuGa and AuGa2 compounds 1978 "Naval Research Lab, Washington, D.C. USA" "J.Less-Common Metals, 62(1978)197"
110278 LES0620197 single phase (AuGa2) "(Au,Ga)" Au0.293Ga0.707 Au 0.293 Ga 0.707 1978 K 1.63 1.63 kOe/K 0.252 Superconducting properties of AuGa and AuGa2 compounds 1978 "Naval Research Lab, Washington, D.C. USA" "J.Less-Common Metals, 62(1978)197"
110279 LES0620197 single phase (AuGa2) "(Au,Ga)" Au0.281Ga0.719 Au 0.281 Ga 0.719 1978 K 1.587 1.587 kOe/K 0.241 Superconducting properties of AuGa and AuGa2 compounds 1978 "Naval Research Lab, Washington, D.C. USA" "J.Less-Common Metals, 62(1978)197"
110280 LES0620197 two phase (AuGa2 + Ga) "(Au,Ga)" Au0.278Ga0.722 Au 0.278 Ga 0.722 1978 K 1.615 1.615 kOe/K 0.243 Superconducting properties of AuGa and AuGa2 compounds 1978 "Naval Research Lab, Washington, D.C. USA" "J.Less-Common Metals, 62(1978)197"
110281 LES0620197 two phase (AuGa2 + Ga) "(Au,Ga)" Au0.2Ga0.8 Au 0.2 Ga 0.8 1978 K 1.587 1.587 kOe/K 0.243 Superconducting properties of AuGa and AuGa2 compounds 1978 "Naval Research Lab, Washington, D.C. USA" "J.Less-Common Metals, 62(1978)197"
110282 LES0840107 density=4.40 g/cm3. S=-4.7 uV/K YB2C2 Y1B2C2 Y 1 B 2 C 2 1982 K Electrical properties of rare earth diborodicarbides (RB2C2-type layer compounds) 1982 "Department of Applied Chemistry, Faculty of Engineering, Osaka University, Japan" "J.Less-Common Metals, 84(1982)107"
110283 LES0840107 density=7.52 g/cm3. S=-2.5 uV/K LuB2C2 Lu1B2C2 Lu 1 B 2 C 2 1982 K Electrical properties of rare earth diborodicarbides (RB2C2-type layer compounds) 1982 "Department of Applied Chemistry, Faculty of Engineering, Osaka University, Japan" "J.Less-Common Metals, 84(1982)107"
110284 LES0840107 density=5.29 g/cm3. S=-5.2 uV/K LaB2C2 La1B2C2 La 1 B 2 C 2 1982 K Electrical properties of rare earth diborodicarbides (RB2C2-type layer compounds) 1982 "Department of Applied Chemistry, Faculty of Engineering, Osaka University, Japan" "J.Less-Common Metals, 84(1982)107"
110285 SSC0320937 "(Y,Lu)Ir4B4" Y0.2Lu0.8Ir4B4 Y 0.2 Lu 0.8 Ir 4 B 4 1979 RT4B4 A 5.4 7.251 CeCo4B4-type K 3.04 3.04 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
110286 SSC0320937 "(Y,Lu)Ir4B4" Y0.3Lu0.7Ir4B4 Y 0.3 Lu 0.7 Ir 4 B 4 1979 RT4B4 A 5.402 7.272 CeCo4B4-type K 2.98 2.98 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
110287 SSC0320937 "(Y,Lu)Ir4B4" Y0.4Lu0.6Ir4B4 Y 0.4 Lu 0.6 Ir 4 B 4 1979 RT4B4 A 5.403 7.268 CeCo4B4-type K 3.07 3.07 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
110288 SSC0320937 "(Y,Lu)Ir4B4" Y0.5Lu0.5Ir4B4 Y 0.5 Lu 0.5 Ir 4 B 4 1979 RT4B4 A 5.405 7.28 CeCo4B4-type K 3.21 3.21 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
110289 SSC0320937 "(Y,Lu)Ir4B4" Y0.6Lu0.4Ir4B4 Y 0.6 Lu 0.4 Ir 4 B 4 1979 RT4B4 CeCo4B4-type K 3.06 3.06 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
110290 SSC0320937 "Ho(Ir,Rh)4B4" Ho1Ir3.6Rh0.4B4 Ho 1 Ir 3.6 Rh 0.4 B 4 1979 RT4B4 CeCo4B4-type K 1.9 1.9 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
110291 SSC0320937 "Ho(Ir,Rh)4B4" Er1Ir3.6Rh0.4B4 Er 1 Ir 3.6 Rh 0.4 B 4 1979 RT4B4 CeCo4B4-type K 1.83 1.83 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
110292 SSC0320937 "Ho(Ir,Rh)4B4" Tm1Ir3.6Rh0.4B4 Tm 1 Ir 3.6 Rh 0.4 B 4 1979 RT4B4 CeCo4B4-type K 1.48 1.48 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
110293 SSC0320937 "Ho(Ir,Rh)4B4" Lu1Ir3.6Rh0.4B4 Lu 1 Ir 3.6 Rh 0.4 B 4 1979 RT4B4 CeCo4B4-type K 2.67 2.67 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
110294 SSC0320937 "(Sc,Y)(Ir,Rh)4B4" Sc0.1Y0.9Ir3.6Rh0.4B4 Sc 0.1 Y 0.9 Ir 3.6 Rh 0.4 B 4 1979 RT4B4 CeCo4B4-type K 3.45 3.45 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
110295 SSC0320937 "(Sc,Y)(Ir,Rh)4B4" Sc0.2Y0.8Ir3.6Rh0.4B4 Sc 0.2 Y 0.8 Ir 3.6 Rh 0.4 B 4 1979 RT4B4 CeCo4B4-type K 3.01 3.01 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
110296 SSC0320937 "(Sc,Y)(Ir,Rh)4B4" Sc0.25Y0.75Ir3.6Rh0.4B4 Sc 0.25 Y 0.75 Ir 3.6 Rh 0.4 B 4 1979 RT4B4 CeCo4B4-type K 2.92 2.92 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
110297 SSC0320937 "(Sc,Y)(Ir,Rh)4B4" Sc0.3Y0.7Ir3.6Rh0.4B4 Sc 0.3 Y 0.7 Ir 3.6 Rh 0.4 B 4 1979 RT4B4 CeCo4B4-type K 3.09 3.09 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
110298 SSC0320937 "(Sc,Y)(Ir,Rh)4B4" Sc0.5Y0.5Ir3.6Rh0.4B4 Sc 0.5 Y 0.5 Ir 3.6 Rh 0.4 B 4 1979 RT4B4 CeCo4B4-type K 3.01 3.01 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
110299 SSC0320937 "Dy(Ir,Rh)4B4" Dy1Ir2Rh2B4 Dy 1 Ir 2 Rh 2 B 4 1979 RT4B4 CeCo4B4-type K 4.64 4.64 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
110300 SSC0320937 "Ho(Ir,Rh)4B4" Ho1Ir2Rh2B4 Ho 1 Ir 2 Rh 2 B 4 1979 RT4B4 CeCo4B4-type K 6.41 6.41 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
110301 SSC0320937 "Er(Ir,Rh)4B4" Er1Ir2Rh2B4 Er 1 Ir 2 Rh 2 B 4 1979 RT4B4 CeCo4B4-type K 7.37 7.37 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
110302 SSC0320937 "Tm(Ir,Rh)4B4" Tm1Ir2Rh2B4 Tm 1 Ir 2 Rh 2 B 4 1979 RT4B4 CeCo4B4-type K 4.38 4.38 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
110303 SSC0320937 "Lu(Ir,Rh)4B4" Lu1Ir2Rh2B4 Lu 1 Ir 2 Rh 2 B 4 1979 RT4B4 CeCo4B4-type K 3.08 3.08 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
110304 SSC0320937 "Y(Ir,Rh)4B4" Y1Ir2Rh2B4 Y 1 Ir 2 Rh 2 B 4 1979 RT4B4 CeCo4B4-type K 8.92 8.92 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
110305 SSC0410063 Tb1Os1.5Sn2.6 Tb 1 Os 1.5 Sn 2.6 1982 -7 A 13.812 K 1.4 1.4 Magnetic and superconducting properties of rare earth osmium stannides 1982 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 41(1982)63"
110306 SSC0410063 Ho1Os1.2Sn2.5 Ho 1 Os 1.2 Sn 2.5 1982 -2 A 13.776 K 1.4 1.4 Magnetic and superconducting properties of rare earth osmium stannides 1982 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 41(1982)63"
110307 SSC0410063 Er1Os1.1Sn2.7 Er 1 Os 1.1 Sn 2.7 1982 -3 A 13.76 K 1.3 1.3 Magnetic and superconducting properties of rare earth osmium stannides 1982 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 41(1982)63"
110308 SSC0340923 density=8.9 g/cm3 Yb1Rh1.4Sn4.6 Yb 1 Rh 1.4 Sn 4.6 1980 K 8.6 8.6 kG/K 3.5 A new famili of ternary intermetallic superconducting/magnetic stannides 1980 "Bell Lab, Murray Hill, NJ, USA" "Solid State Commun., 34(1980)923"
110309 SSC0340923 density=9.6 g/cm3 Lu1Rh1.2Sn4 Lu 1 Rh 1.2 Sn 4 1980 K 4 4 kG/K 20.3 A new famili of ternary intermetallic superconducting/magnetic stannides 1980 "Bell Lab, Murray Hill, NJ, USA" "Solid State Commun., 34(1980)923"
110310 SSC0340923 density=8.3 g/cm3 Ca1Rh1.2Sn4.5 Ca 1 Rh 1.2 Sn 4.5 1980 A 9.702 K 8.7 8.7 kG/K 4 A new famili of ternary intermetallic superconducting/magnetic stannides 1980 "Bell Lab, Murray Hill, NJ, USA" "Solid State Commun., 34(1980)923"
110311 MRB0101169 PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 1975 Chevrel K 13.5 13.5 1975 "Mat.Res.Bull., 10(1975)1169"
110312 MRB0101169 "PbMo6(S,Se)8" Pb1Mo6S7.9Se0.1 Pb 1 Mo 6 S 7.9 Se 0.1 1975 Chevrel K 12.7 12.7 1975 "Mat.Res.Bull., 10(1975)1169"
110313 MRB0101169 "PbMo6(S,Se)8" Pb1Mo6S7.5Se0.5 Pb 1 Mo 6 S 7.5 Se 0.5 1975 Chevrel K 10.6 10.6 1975 "Mat.Res.Bull., 10(1975)1169"
110314 MRB0101169 "PbMo6(S,Se)8" Pb1Mo6S7Se1 Pb 1 Mo 6 S 7 Se 1 1975 Chevrel K 8.4 8.4 1975 "Mat.Res.Bull., 10(1975)1169"
110315 MRB0101169 "PbMo6(S,Se)8" Pb1Mo6S6Se2 Pb 1 Mo 6 S 6 Se 2 1975 Chevrel K 5.4 5.4 1975 "Mat.Res.Bull., 10(1975)1169"
110316 MRB0101169 "PbMo6(S,Se)8" Pb1Mo6S5Se3 Pb 1 Mo 6 S 5 Se 3 1975 Chevrel K 4.3 4.3 1975 "Mat.Res.Bull., 10(1975)1169"
110317 MRB0101169 "PbMo6(S,Se)8" Pb1Mo6S4Se4 Pb 1 Mo 6 S 4 Se 4 1975 Chevrel K 3.2 3.2 1975 "Mat.Res.Bull., 10(1975)1169"
110318 MRB0101169 "PbMo6(S,Se)8" Pb1Mo6S4Se5 Pb 1 Mo 6 S 4 Se 5 1975 Chevrel K 3.64 3.64 1975 "Mat.Res.Bull., 10(1975)1169"
110319 MRB0101169 "PbMo6(S,Se)8" Pb1Mo6S2Se6 Pb 1 Mo 6 S 2 Se 6 1975 Chevrel K 4.92 4.92 1975 "Mat.Res.Bull., 10(1975)1169"
110320 MRB0101169 "PbMo6(S,Se)8" Pb1Mo6S1Se7 Pb 1 Mo 6 S 1 Se 7 1975 Chevrel K 7.13 7.13 1975 "Mat.Res.Bull., 10(1975)1169"
110321 MRB0101169 PbMo6Se8 Pb1Mo6Se8 Pb 1 Mo 6 Se 8 1975 Chevrel K 3.54 3.54 1975 "Mat.Res.Bull., 10(1975)1169"
110322 MRB0101169 "(Pb,Yb)Mo6S8" Pb0.9Yb0.1Mo6Se8 Pb 0.9 Yb 0.1 Mo 6 Se 8 1975 Chevrel K 12.3 12.3 1975 "Mat.Res.Bull., 10(1975)1169"
110323 MRB0101169 "(Pb,Yb)Mo6S8" Pb0.8Yb0.2Mo6Se8 Pb 0.8 Yb 0.2 Mo 6 Se 8 1975 Chevrel K 12.2 12.2 1975 "Mat.Res.Bull., 10(1975)1169"
110324 MRB0101169 "(Pb,Yb)Mo6S8" Pb0.7Yb0.3Mo6Se8 Pb 0.7 Yb 0.3 Mo 6 Se 8 1975 Chevrel K 10.2 10.2 1975 "Mat.Res.Bull., 10(1975)1169"
110325 MRB0101169 "(Pb,Yb)Mo6S8" Pb0.6Yb0.4Mo6Se8 Pb 0.6 Yb 0.4 Mo 6 Se 8 1975 Chevrel K 9.2 9.2 1975 "Mat.Res.Bull., 10(1975)1169"
110326 MRB0101169 "(Pb,Yb)Mo6S8" Pb0.5Yb0.5Mo6Se8 Pb 0.5 Yb 0.5 Mo 6 Se 8 1975 Chevrel K 8.7 8.7 1975 "Mat.Res.Bull., 10(1975)1169"
110327 MRB0101169 "(Pb,Yb)Mo6S8" Pb0.4Yb0.6Mo6Se8 Pb 0.4 Yb 0.6 Mo 6 Se 8 1975 Chevrel K 7.9 7.9 1975 "Mat.Res.Bull., 10(1975)1169"
110328 MRB0101169 "(Pb,Yb)Mo6S8" Pb0.3Yb0.7Mo6Se8 Pb 0.3 Yb 0.7 Mo 6 Se 8 1975 Chevrel K 7.1 7.1 1975 "Mat.Res.Bull., 10(1975)1169"
110329 MRB0101169 "(Pb,Yb)Mo6S8" Pb0.2Yb0.8Mo6Se8 Pb 0.2 Yb 0.8 Mo 6 Se 8 1975 Chevrel K 6.7 6.7 1975 "Mat.Res.Bull., 10(1975)1169"
110330 MRB0101169 "(Pb,Yb)Mo6S8" Pb0.1Yb0.9Mo6Se8 Pb 0.1 Yb 0.9 Mo 6 Se 8 1975 Chevrel K 6.3 6.3 1975 "Mat.Res.Bull., 10(1975)1169"
110331 MRB0101169 "(Pb,Yb)Mo6S8" Yb1Mo6Se8 Yb 1 Mo 6 Se 8 1975 Chevrel K 6 6 1975 "Mat.Res.Bull., 10(1975)1169"
110332 PTUG1980MDE Mo6Se8 Mo6Se8 Mo 6 Se 8 1980 Chevrel K 6.38 6.38 T/K 1.81 "From ""Superconductivity in ternary compounds II""ed by M.B.Maple & F.Fischer" 1980 "Phd thesis, University of Geneva, 1980"
110333 PTUG1980MDE "Mo6(Se,S)8" Mo6Se7.85S0.15 Mo 6 Se 7.85 S 0.15 1980 Chevrel K 6.3 6.3 T/K 4.17 "From ""Superconductivity in ternary compounds II""ed by M.B.Maple & F.Fischer" 1980 "Phd thesis, University of Geneva, 1980"
110334 PTUG1980MDE "Mo6(Se,S)8" Mo6Se7.7S0.3 Mo 6 Se 7.7 S 0.3 1980 Chevrel K 5.83 5.83 T/K 4.34 "From ""Superconductivity in ternary compounds II""ed by M.B.Maple & F.Fischer" 1980 "Phd thesis, University of Geneva, 1980"
110335 PTUG1980MDE "Mo6(Se,S)8" Mo6Se7.5S0.5 Mo 6 Se 7.5 S 0.5 1980 Chevrel K 5.45 5.45 T/K 4.39 "From ""Superconductivity in ternary compounds II""ed by M.B.Maple & F.Fischer" 1980 "Phd thesis, University of Geneva, 1980"
110336 PTUG1980MDE "Mo6(Se,S)8" Mo6Se7.3S0.7 Mo 6 Se 7.3 S 0.7 1980 Chevrel K 5.03 5.03 T/K 4.51 "From ""Superconductivity in ternary compounds II""ed by M.B.Maple & F.Fischer" 1980 "Phd thesis, University of Geneva, 1980"
110337 PTUG1980MDE "Mo6(Se,S)8" Mo6Se7S1 Mo 6 Se 7 S 1 1980 Chevrel K 4.48 4.48 T/K 4.6 "From ""Superconductivity in ternary compounds II""ed by M.B.Maple & F.Fischer" 1980 "Phd thesis, University of Geneva, 1980"
110338 PTUG1980MDE "Mo6(Se,Te)8" Mo6Se7.9Te0.1 Mo 6 Se 7.9 Te 0.1 1980 Chevrel K 6.3 6.3 T/K 4.14 "From ""Superconductivity in ternary compounds II""ed by M.B.Maple & F.Fischer" 1980 "Phd thesis, University of Geneva, 1980"
110339 PTUG1980MDE "Mo6(Se,Te)8" Mo6Se7.7Te0.3 Mo 6 Se 7.7 Te 0.3 1980 Chevrel K 6.66 6.66 T/K 3.88 "From ""Superconductivity in ternary compounds II""ed by M.B.Maple & F.Fischer" 1980 "Phd thesis, University of Geneva, 1980"
110340 PTUG1980MDE "Mo6(Se,Te)8" Mo6Se7.5Te0.5 Mo 6 Se 7.5 Te 0.5 1980 Chevrel K 6.69 6.69 T/K 4.45 "From ""Superconductivity in ternary compounds II""ed by M.B.Maple & F.Fischer" 1980 "Phd thesis, University of Geneva, 1980"
110341 PTUG1980MDE "Mo6(Se,Te)8" Mo6Se6.5Te1.5 Mo 6 Se 6.5 Te 1.5 1980 Chevrel K 6.23 6.23 T/K 4.73 "From ""Superconductivity in ternary compounds II""ed by M.B.Maple & F.Fischer" 1980 "Phd thesis, University of Geneva, 1980"
110342 PTUG1980MDE "Mo6(Se,Te)8" Mo6Se6Te2 Mo 6 Se 6 Te 2 1980 Chevrel K 5.88 5.88 T/K 4.57 "From ""Superconductivity in ternary compounds II""ed by M.B.Maple & F.Fischer" 1980 "Phd thesis, University of Geneva, 1980"
110343 PTUG1980MDE "Mo6(Se,Cl)8" Mo6Se7.5Cl0.5 Mo 6 Se 7.5 Cl 0.5 1980 Chevrel K 6.33 6.33 T/K 3.86 "From ""Superconductivity in ternary compounds II""ed by M.B.Maple & F.Fischer" 1980 "Phd thesis, University of Geneva, 1980"
110344 PTUG1980MDE "Mo6(Se,Cl)8" Mo6Se7Cl1 Mo 6 Se 7 Cl 1 1980 Chevrel K 6.52 6.52 T/K 4.63 "From ""Superconductivity in ternary compounds II""ed by M.B.Maple & F.Fischer" 1980 "Phd thesis, University of Geneva, 1980"
110345 PTUG1980MDE "Mo6(Se,Cl)8" Mo6Se6.5Cl1.5 Mo 6 Se 6.5 Cl 1.5 1980 Chevrel K 6.49 6.49 T/K 4.96 "From ""Superconductivity in ternary compounds II""ed by M.B.Maple & F.Fischer" 1980 "Phd thesis, University of Geneva, 1980"
110346 PTUG1980MDE "Mo6(Se,Cl)8" Mo6Se6Cl2 Mo 6 Se 6 Cl 2 1980 Chevrel K 6.39 6.39 T/K 5.06 "From ""Superconductivity in ternary compounds II""ed by M.B.Maple & F.Fischer" 1980 "Phd thesis, University of Geneva, 1980"
110348 PTUG1980MDE "(Mo,Ru)6Se8" Mo5.8Ru0.2Se8 Mo 5.8 Ru 0.2 Se 8 1980 Chevrel K 6.21 6.21 T/K 4.01 "From ""Superconductivity in ternary compounds II""ed by M.B.Maple & F.Fischer" 1980 "Phd thesis, University of Geneva, 1980"
110349 PTUG1980MDE "(Mo,Ru)6Se8" Mo5.6Ru0.4Se8 Mo 5.6 Ru 0.4 Se 8 1980 Chevrel K 5.69 5.69 T/K 4.48 "From ""Superconductivity in ternary compounds II""ed by M.B.Maple & F.Fischer" 1980 "Phd thesis, University of Geneva, 1980"
110350 PTUG1980MDE "(Mo,Ru)6Se8" Mo5.5Ru0.5Se8 Mo 5.5 Ru 0.5 Se 8 1980 Chevrel K 5.43 5.43 T/K 4.4 "From ""Superconductivity in ternary compounds II""ed by M.B.Maple & F.Fischer" 1980 "Phd thesis, University of Geneva, 1980"
110351 PTUG1980MDE "(Mo,Ru)6Se8" Mo5Ru1Se8 Mo 5 Ru 1 Se 8 1980 Chevrel K 3.7 3.7 T/K 4.38 "From ""Superconductivity in ternary compounds II""ed by M.B.Maple & F.Fischer" 1980 "Phd thesis, University of Geneva, 1980"
110352 TER1981 Mo6Se8 Mo6Se8 Mo 6 Se 8 1981 Chevrel K 6.3 6.3 T 8.6 T/K 1.7 1981 "ed. By G.K.Shenoy, B.D.Dunlop, F.Y.Fradin (North Holland, Amsterdam 1981) pp 65 - 68" Ternary Superconductors
110353 TER1981 Mo6Se8 Mo6Se8 Mo 6 Se 8 1981 Chevrel K 6.2 6.2 T 16.5 T/K 3.6 1981 "ed. By G.K.Shenoy, B.D.Dunlop, F.Y.Fradin (North Holland, Amsterdam 1981) pp 65 - 68" Ternary Superconductors
110354 PLA0570345 LaMo6Se8 La1Mo6Se8 La 1 Mo 6 Se 8 1976 Chevrel K 11.3 11.3 T T/K 7 1976 "Phys.Lett.A, 57(1976)345"
110355 JPH0390257 LaMo6Se8 La1Mo6Se8 La 1 Mo 6 Se 8 1978 Chevrel K 10.8 10.8 T 44.5 T/K 7.5 1978 "J.Physique, 39(1978)C2 - 257"
110356 APL0160001 LaMo6S8 La1Mo6S8 La 1 Mo 6 S 8 1978 Chevrel K 5.8 5.8 T 5.4 T/K 1.5 1978 "Appl.Phys., 16(1978)1"
110357 SSC0250141 CuMo6S8 Cu1.8Mo6S8 Cu 1.8 Mo 6 S 8 1978 Chevrel K 10 10 T 19.2 T/K 2.5 Upper critical field of copper molybdenum sulfide 1978 "Solid State Commun., 25(1978)141"
110358 SSC0250141 CuMo6S8 Cu1.8Mo6S8 Cu 1.8 Mo 6 S 8 1978 Chevrel K 10.5 10.5 T 15.3 T/K 1.9 Upper critical field of copper molybdenum sulfide 1978 "Solid State Commun., 25(1978)141"
110359 PLA0490269 SnMo6S8 Sn1Mo6S8 Sn 1 Mo 6 S 8 1974 Chevrel K 13.4 13.4 T 34.4 T/K 3.7 1974 "Phys.Lett.A, 49(1974)269"
110360 JPH0390257 SnMo6S8 Sn1Mo6S8 Sn 1 Mo 6 S 8 1978 Chevrel K 11.8 11.8 T 34 T/K 4.7 1978 "J.Physique, 39(1978)C2 - 257"
110361 CRY2570001 SnMo6S8 Sn1Mo6S8 Sn 1 Mo 6 S 8 1980 Chevrel K 11.7 11.7 T 36 T/K 3.7 Some physical properties of multicomponent molybdenum chalcogenides 1980 "Cryogenics, 20(1980)257"
110362 PLA0490269 PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 1974 Chevrel K 14.4 14.4 T 60 T/K 6 1974 "Phys.Lett.A, 49(1974)269"
110363 DF1976 PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 1976 Chevrel K 12.6 12.6 T 50 T/K 5.8 1976 "ed. By D.H.Douglass (Plenum Press, New York 1976) p 175" Superconductivity in d- and f-band Metals
110364 JPS0482157 PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 1980 Chevrel K 13.3 13.3 T 60 T/K 6 Upper critical field measurements up to 600 kG in PbMo6S8 1980 "J.Phys.Soc.Jpn, 48(1980)2157"
111000 PR04307681 Tc jump to 8.14 K at Pc= 23.1 kbar. CDW-temp= 82 K. "(Lu,Er)5Ir4Si10" Lu4.5Er0.5Ir4Si10 Lu 4.5 Er 0.5 Ir 4 Si 10 1991 Sc5Co4Si10 K 2.74 2.74 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
111001 PR04307681 Tc jump to 7.29 K at Pc= 20.8 kbar. CDW-temp= 82 K. "(Lu,Ho)5Ir4Si10" Lu4.5Ho0.5Ir4Si10 Lu 4.5 Ho 0.5 Ir 4 Si 10 1991 Sc5Co4Si10 K 1.89 1.89 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
111002 PR04307681 Tc jump to 6.3 K at Pc= 20.5 kbar. CDW-temp= 78 K. "(Lu,Dy)5Ir4Si10" Lu4.5Dy0.5Ir4Si10 Lu 4.5 Dy 0.5 Ir 4 Si 10 1991 Sc5Co4Si10 K 1 1 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
111003 PR04307681 dTc/dp in K/GPa. "Lu5(Ir,Rh)4Si10" Lu5Ir3.44Rh0.56Si10 Lu 5 Ir 3.44 Rh 0.56 Si 10 1991 Sc5Co4Si10 K 5.72 5.72 K/GPa 0.304 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
111004 PR04307681 dTc/dp in K/GPa. "Lu5(Ir,Rh)4Si10" Lu5Ir3.12Rh0.88Si10 Lu 5 Ir 3.12 Rh 0.88 Si 10 1991 Sc5Co4Si10 K 5.68 5.68 K/GPa 0.11 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
111005 PR04307681 dTc/dp in K/GPa. "Lu5(Ir,Co)4Si10" Lu5Ir3.8Co0.2Si10 Lu 5 Ir 3.8 Co 0.2 Si 10 1991 Sc5Co4Si10 K 5.52 5.52 K/GPa 0.338 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
111006 PR04307681 CDW-temp=70.9 "(Lu,Sc)5Ir4Si10" Lu4.975Sc0.025Ir4Si10 Lu 4.975 Sc 0.025 Ir 4 Si 10 1991 Sc5Co4Si10 K 4 4 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
111007 PR04307681 CDW-temp=61.8 "(Lu,Sc)5Ir4Si10" Lu4.95Sc0.05Ir4Si10 Lu 4.95 Sc 0.05 Ir 4 Si 10 1991 Sc5Co4Si10 K 4.5 4.5 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
111008 PR04307681 CDW-temp=45.9 "(Lu,Sc)5Ir4Si10" Lu4.9Sc0.1Ir4Si10 Lu 4.9 Sc 0.1 Ir 4 Si 10 1991 Sc5Co4Si10 K 5.77 5.77 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
111009 PR04307681 "s/c parameters calculated using data of ""Usp.Fiz.Nauk, 115(1975)263"". G-L parameter = 11.9" Sc5Ir4Si10 Sc5Ir4Si10 Sc 5 Ir 4 Si 10 1991 Sc5Co4Si10 K 8.23 8.23 T 0.9 T/K 0.15 A 150 A 1920 mj/mol.K2 8.4 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
111010 PR04307681 "s/c parameters calculated using data of ""Usp.Fiz.Nauk, 115(1975)263"". G-L parameter = 35.8" Lu5Rh4Si10 Lu5Rh4Si10 Lu 5 Rh 4 Si 10 1991 Sc5Co4Si10 K 3.91 3.91 T 1.48 T/K 0.64 A 115 A 4110 mj/mol.K2 17.4 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
111011 PR04307681 "s/c parameters calculated using data of ""Usp.Fiz.Nauk, 115(1975)263"". G-L parameter = 30.9" Lu5Ir4Si10 Lu5Ir4Si10 Lu 5 Ir 4 Si 10 1991 Sc5Co4Si10 K 3.88 3.88 T 1.04 T/K 0.39 A 160 A 4550 mj/mol.K2 8.8 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
111012 PR04307681 "gamma in mj/mol.K2 calculated using dHc2/dT, R, etc. G-L parameter = 37.1" "(Lu,Sc)5Ir4Si10" Lu4.9Sc0.1Ir4Si10 Lu 4.9 Sc 0.1 Ir 4 Si 10 1991 Sc5Co4Si10 K 5.9 5.9 T 2.3 T/K 0.57 A 100 A 3670 mj/mol.K2 12.9 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
111013 PR04307681 "gamma in mj/mol.K2 calculated using dHc2/dT, R, etc. G-L parameter = 56.3" "Lu5(Ir,Rh)4Si10" Lu5Ir3.12Rh0.88Si10 Lu 5 Ir 3.12 Rh 0.88 Si 10 1991 Sc5Co4Si10 K 5.8 5.8 T 3.12 T/K 0.78 A 85 A 4810 mj/mol.K2 10.5 "arc-melting + ANN(1250C,1d+1050C,3days)" Competition between superconductivity and charge-density wavws in the pseudoternary system (Lu1-xScx)5Ir4Si10 1991 "Department of Physics, National Sun Yat-sen University, Taiwan, Republic of China" "Phys.Rev.B, 43(1991)7681"
111014 PCS0631165 sample is #50 in the text. slightly reentrant behavior in the resistive transition. specific heat were measured. CeCu2Si2 Ce1Cu1.95Si2.01 Ce 1 Cu 1.95 Si 2.01 3 2002 A 4.098 9.911 K 0.62 0.62 MHC11014 "levitation melting (850C,10d) + ANN(750C,6d)" Ferromagnetic interaction and superconductivity of CeCu2Si2 2002 "Institute for Solid State Physics, University of Tokyo,Kashiwa,Chiba,Japan" "J.Phys.Chem.Solids, 63(2002)1165"
111015 PCS0631141 "Tc(P) was measured. Tc=0.65, 0.64, 0.64, 0.64, 0.75 K, at p=0, 0.3, 0.9, 1.4, 2.6 GPa , respectively." CeCu2Si2 Ce1Cu2Si2 Ce 1 Cu 2 Si 2 2002 K 0.65 0.65 Coexistence of antiferromagnetism and superconductivity in heavy-fermion systems 2002 "Department of Physical Science, Graduate of Engineering Science, Osaka University, Toyonaka, Osaka, Japan]" "J.Phys.Chem.Solids, 63(2002)1141"
111016 PCS0631141 CeCu2Si2 Ce1Cu2Si2 Ce 1 Cu 2 Si 2 2002 K 0.64 0.64 Coexistence of antiferromagnetism and superconductivity in heavy-fermion systems 2002 "Department of Physical Science, Graduate of Engineering Science, Osaka University, Toyonaka, Osaka, Japan]" "J.Phys.Chem.Solids, 63(2002)1141"
111017 PCS0631141 "CeCu2(Si,Ge)2" Ce1Cu2Si1.98Ge0.02 Ce 1 Cu 2 Si 1.98 Ge 0.02 2002 K 0.54 0.54 Coexistence of antiferromagnetism and superconductivity in heavy-fermion systems 2002 "Department of Physical Science, Graduate of Engineering Science, Osaka University, Toyonaka, Osaka, Japan]" "J.Phys.Chem.Solids, 63(2002)1141"
111018 PCS0631141 "CeCu2(Si,Ge)2" Ce1Cu2Si1.96Ge0.04 Ce 1 Cu 2 Si 1.96 Ge 0.04 2002 0.69 K 0.37 0.37 Coexistence of antiferromagnetism and superconductivity in heavy-fermion systems 2002 "Department of Physical Science, Graduate of Engineering Science, Osaka University, Toyonaka, Osaka, Japan]" "J.Phys.Chem.Solids, 63(2002)1141"
111019 PCS0631141 "CeCu2(Si,Ge)2" Ce1Cu2Si1.92Ge0.08 Ce 1 Cu 2 Si 1.92 Ge 0.08 2002 0.74 K 0.27 0.27 Coexistence of antiferromagnetism and superconductivity in heavy-fermion systems 2002 "Department of Physical Science, Graduate of Engineering Science, Osaka University, Toyonaka, Osaka, Japan]" "J.Phys.Chem.Solids, 63(2002)1141"
111020 PCS0631141 "CeCu2(Si,Ge)2" Ce1Cu2Si1.88Ge0.12 Ce 1 Cu 2 Si 1.88 Ge 0.12 2002 0.89 K 0.2 0.2 Coexistence of antiferromagnetism and superconductivity in heavy-fermion systems 2002 "Department of Physical Science, Graduate of Engineering Science, Osaka University, Toyonaka, Osaka, Japan]" "J.Phys.Chem.Solids, 63(2002)1141"
111021 PCS0631141 "CeCu2(Si,Ge)2" Ce1Cu2Si1.8Ge0.2 Ce 1 Cu 2 Si 1.8 Ge 0.2 2002 1 K 0.19 0.19 Coexistence of antiferromagnetism and superconductivity in heavy-fermion systems 2002 "Department of Physical Science, Graduate of Engineering Science, Osaka University, Toyonaka, Osaka, Japan]" "J.Phys.Chem.Solids, 63(2002)1141"
111022 PCS0631141 "CeCu2(Si,Ge)2" Ce1Cu2Si1.6Ge0.4 Ce 1 Cu 2 Si 1.6 Ge 0.4 2002 1.48 K Coexistence of antiferromagnetism and superconductivity in heavy-fermion systems 2002 "Department of Physical Science, Graduate of Engineering Science, Osaka University, Toyonaka, Osaka, Japan]" "J.Phys.Chem.Solids, 63(2002)1141"
111023 PCS0631141 "CeCu2(Si,Ge)2" Ce1Cu2Si1.4Ge0.6 Ce 1 Cu 2 Si 1.4 Ge 0.6 2002 1.99 K Coexistence of antiferromagnetism and superconductivity in heavy-fermion systems 2002 "Department of Physical Science, Graduate of Engineering Science, Osaka University, Toyonaka, Osaka, Japan]" "J.Phys.Chem.Solids, 63(2002)1141"
111024 P066014504 single crystal 0.5*0.17*0.035 mm3. Hc2 for H//c. ab-plane thermal conductivity at various magnetic fields (H//c) was measured. MgB2 B2Mg1 B 2 Mg 1 3 2002 AlB2 "AlB2, C32" K 38.1 38.1 kOe 30 MTHC11024 high-pressure cubic anvil technique Thermal conductivity of single-crystalline MgB2 2002 "Laboratorium fur Festkorperphysik, ETH Honggerberg, CH-8093 Zurich, Switzerland" "Phys.Rev.B, 66(2002)14504"
111025 P066014505 density=2.48 g/cm3. R(RT)=50 uOhm.cm. RRR=2.5. carrier=1.5 E+23 /cm3. penet by microwave analysis. Hirr exponent=1.4. MgB2 B2Mg1 B 2 Mg 1 1 2002 AlB2 "AlB2, C32" K 38.3 38.3 T/K 0.51 MHC11025 nm 450 2.1 high-pressure(3 GPa) - SIN(950C) - Q Magnetization and microwave study of superconducting MgB2 2002 "Department of Physics, Faculty of Science, University of Zagreb, P.O. Box 331, HR-10002 Zagreb, Croatia" "Phys.Rev.B, 66(2002)14505"
111026 JAP0837321 G-L parameter = 60 Y2C2I2 Y2C2I2 Y 2 C 2 I 2 1998 K 10 10 mT 6 T 11.8 210 "Specific heat, magnetization and C-isotope effect of Y2C2(Br,I)2 superconductors" 1998 "Max-Planck-Institut fur Festkorperforschung, Heisenbergstrasse, Stuttgart, Germany" "J.Appl.Phys., 83(1998)7321"
111027 JAP0837321 G-L parameter = 50 Y2C2Br2 Y2C2Br2 Y 2 C 2 Br 2 1998 K 5 5 mT 1.5 T 3 240 "Specific heat, magnetization and C-isotope effect of Y2C2(Br,I)2 superconductors" 1998 "Max-Planck-Institut fur Festkorperforschung, Heisenbergstrasse, Stuttgart, Germany" "J.Appl.Phys., 83(1998)7321"
111028 JAP0837321 "Y2C2(Br,I)2" Y2C2Br0.5I1.5 Y 2 C 2 Br 0.5 I 1.5 1998 K 11.6 11.6 "Specific heat, magnetization and C-isotope effect of Y2C2(Br,I)2 superconductors" 1998 "Max-Planck-Institut fur Festkorperforschung, Heisenbergstrasse, Stuttgart, Germany" "J.Appl.Phys., 83(1998)7321"
111029 P066012510 in-plane and out-of-plane penet = 0.26 and 1.3 um. x = 1.99 in Y2CxI2 by XRD Rietveld. Y2C2I2 Y2Cu2I2 Y 2 Cu 2 I 2 1 2002 K 10.1 10.1 um 0.26 sintering in Ta crucible Far-infrared optical properties of the carbide superconductor Y2C2I2 2002 "Physikalisches Institut, Universitat Stuttgart,Stuttgart, Germany" "Phys.Rev.B, 66(2002)012510"
111030 P065214518 "nominal = MgC1.5Ni3. porocity < 5%. graphite included. grain size = 100-300 nm. Jc(4.2K,1T)=1.8 E+6 A/cm2." MgCNi3 Mg1Cu1Ni3 Mg 1 Cu 1 Ni 3 2002 CaTiO3 K 7.2 7.2 T 12.8 T/K 2.3 nm 5 See Nature 411(2001)54 Core pinning by intragranular nanoprecipitates in polycrystalline MgCNi3 2002 "Applied Superconductivity Center, University of Wisconsin, Madison, Wisconsin , USA" "Phys.Rev.B, 65(2002)214518"
111031 PLA2990282 P-induced s/c. Hc2 defined as 0.95Rn. s/c properties measured at p = 22.2 GPa. Fe Fe1 Fe 1 2002 hcp K 2 0 2 T 0.3 purification Superconductivity of epsiron-Fe: complete resistive transition 2002 "DPMC, University of Geneva, 24 Quai Ernest-Ansermet, Geneve, Switzerland" "Phys.Lett.A, 299(2002)282"
111032 P065180504 Hc2(0) = 11.7 T for H//a and 5.0 T for H//c. 1st order phase transition for lower temperature. CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2002 HoCoGa5 A 4.612 7.549 K 2.3 2.3 T 11.7 5 MHC11032 In-self flux method Unconventional heavy-fermion superconductor CeCoIn5 : dc magnetization study at temperatures down to 50 mK 2002 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba , Japan" "Phys.Rev.B, 65(2002)180504"
111033 JPF0152333 R(Tc) = 88.9 uOhm.cm. e-ph coupling const = 0.854 V2Hf Hf1V2 Hf 1 V 2 1 1985 MgCu2(Laves) A 7.396 "MgCu2, C15" K 9.27 9.27 arc-melting Superconductivity and structural transformation in V2Hf-based C15 pseudobinary compounds 1985 "Toyohashi University of Technology,Japan" "J.Phys.F: Met.Phys., 15(1985)2333"
111034 JPF0152333 R(Tc) = 81.4 uOhm.cm. e-ph coupling const = 0.852 "V2(Hf,Y)" V2Hf0.95Y0.05 V 2 Hf 0.95 Y 0.05 1 1985 MgCu2(Laves) A 7.383 "MgCu2, C15" K 9.22 9.22 arc-melting Superconductivity and structural transformation in V2Hf-based C15 pseudobinary compounds 1985 "Toyohashi University of Technology,Japan" "J.Phys.F: Met.Phys., 15(1985)2333"
111035 JPF0152333 R(Tc) = 70.4 uOhm.cm. e-ph coupling const = 0.851 "V2(Hf,Y)" V2Hf0.9Y0.1 V 2 Hf 0.9 Y 0.1 1 1985 MgCu2(Laves) A 7.395 "MgCu2, C15" K 9.19 9.19 arc-melting Superconductivity and structural transformation in V2Hf-based C15 pseudobinary compounds 1985 "Toyohashi University of Technology,Japan" "J.Phys.F: Met.Phys., 15(1985)2333"
111036 JPF0152333 R(Tc) = 85.5 uOhm.cm. e-ph coupling const = 0.851 "V2(Hf,Ti)" V2Hf0.9Ti0.1 V 2 Hf 0.9 Ti 0.1 1 1985 MgCu2(Laves) A 7.409 "MgCu2, C15" K 9.19 9.19 arc-melting Superconductivity and structural transformation in V2Hf-based C15 pseudobinary compounds 1985 "Toyohashi University of Technology,Japan" "J.Phys.F: Met.Phys., 15(1985)2333"
111037 JPF0152333 R(Tc) = 77.7 uOhm.cm. e-ph coupling const = 0.835 "V2(Hf,Ti)" V2Hf0.8Ti0.2 V 2 Hf 0.8 Ti 0.2 1 1985 MgCu2(Laves) A 7.429 "MgCu2, C15" K 8.8 8.8 arc-melting Superconductivity and structural transformation in V2Hf-based C15 pseudobinary compounds 1985 "Toyohashi University of Technology,Japan" "J.Phys.F: Met.Phys., 15(1985)2333"
111039 JPF0152333 R(Tc) = 72.6 uOhm.cm. e-ph coupling const = 0.883 "V2(Hf,Nb)" V2Hf0.9Nb0.1 V 2 Hf 0.9 Nb 0.1 1985 MgCu2(Laves) A 7.388 "MgCu2, C15" K 9.93 9.93 arc-melting Superconductivity and structural transformation in V2Hf-based C15 pseudobinary compounds 1985 "Toyohashi University of Technology,Japan" "J.Phys.F: Met.Phys., 15(1985)2333"
111040 JPF0152333 R(Tc) = 63.3 uOhm.cm. e-ph coupling const = 0.915 "V2(Hf,Nb)" V2Hf0.84Nb0.16 V 2 Hf 0.84 Nb 0.16 1985 MgCu2(Laves) A 7.39 "MgCu2, C15" K 10.67 10.67 arc-melting Superconductivity and structural transformation in V2Hf-based C15 pseudobinary compounds 1985 "Toyohashi University of Technology,Japan" "J.Phys.F: Met.Phys., 15(1985)2333"
111041 JPF0152333 R(Tc) = 71.0 uOhm.cm. e-ph coupling const = 0.878 "V2(Hf,Ta)" V2Hf0.9Ta0.1 V 2 Hf 0.9 Ta 0.1 1985 MgCu2(Laves) A 7.384 "MgCu2, C15" K 9.82 9.82 arc-melting Superconductivity and structural transformation in V2Hf-based C15 pseudobinary compounds 1985 "Toyohashi University of Technology,Japan" "J.Phys.F: Met.Phys., 15(1985)2333"
111042 JPF0152333 R(Tc) = 64.9 uOhm.cm. e-ph coupling const = 0.905 "V2(Hf,Ta)" V2Hf0.87Ta0.13 V 2 Hf 0.87 Ta 0.13 1985 MgCu2(Laves) A 7.395 "MgCu2, C15" K 10.45 10.45 arc-melting Superconductivity and structural transformation in V2Hf-based C15 pseudobinary compounds 1985 "Toyohashi University of Technology,Japan" "J.Phys.F: Met.Phys., 15(1985)2333"
111043 AAC6220123 structure beta = 93.55 Y2I2C2 Y2I2C2 Y 2 I 2 C 2 1996 A 7.217 3.879 10.435 K 9.85 9.85 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111044 AAC6220123 structure beta = 93.75 "Y2(I,Br)2C2" Y2I1.75Br0.25C2 Y 2 I 1.75 Br 0.25 C 2 1996 A 7.184 3.864 10.411 K 10.35 10.35 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111045 AAC6220123 structure beta = 93.50 "Y2(I,Br)2C2" Y2I1.6Br0.4C2 Y 2 I 1.6 Br 0.4 C 2 1996 A 7.123 3.844 10.391 K 11.2 11.2 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111046 AAC6220123 structure beta = 93.92 "Y2(I,Br)2C2" Y2I1.5Br0.5C2 Y 2 I 1.5 Br 0.5 C 2 1996 A 7.154 3.851 10.388 K 11.1 11.1 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111047 AAC6220123 structure beta = 93.72 "Y2(I,Br)2C2" Y2I1.4Br0.6C2 Y 2 I 1.4 Br 0.6 C 2 1996 A 7.14 3.842 10.37 K 10.5 10.5 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111048 AAC6220123 structure beta = 93.0 "Y2(I,Br)2C2" Y2I1.3Br0.7C2 Y 2 I 1.3 Br 0.7 C 2 1996 A 7.124 3.84 10.319 K 10.5 10.5 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111049 AAC6220123 structure beta = 94.02 "Y2(I,Br)2C2" Y2I1.25Br0.75C2 Y 2 I 1.25 Br 0.75 C 2 1996 A 7.122 3.834 10.342 K 10.05 10.05 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111050 AAC6220123 structure beta = 93.36 "Y2(I,Br)2C2" Y2I1.2Br0.8C2 Y 2 I 1.2 Br 0.8 C 2 1996 A 7.1 3.828 10.32 K 9.6 9.6 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111051 AAC6220123 structure beta = 94.08 "Y2(I,Br)2C2" Y2I1Br1C2 Y 2 I 1 Br 1 C 2 1996 A 7.079 3.818 10.274 K 7.9 7.9 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111052 AAC6220123 structure beta = 100.06 "Y2(I,Br)2C2" Y2I0.75Br1.25C2 Y 2 I 0.75 Br 1.25 C 2 1996 A 7.054 3.808 10.321 K 7 7 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111053 AAC6220123 structure beta = 99.97 "Y2(I,Br)2C2" Y2I0.6Br1.4C2 Y 2 I 0.6 Br 1.4 C 2 1996 A 7.03 3.796 10.248 K 6.4 6.4 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111054 AAC6220123 structure beta = 99.97 "Y2(I,Br)2C2" Y2I0.5Br1.5C2 Y 2 I 0.5 Br 1.5 C 2 1996 A 7.023 3.79 10.21 K 6 6 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111055 AAC6220123 structure beta = 100.22 "Y2(I,Br)2C2" Y2I0.4Br1.6C2 Y 2 I 0.4 Br 1.6 C 2 1996 A 6.997 3.785 10.183 K 5.8 5.8 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111056 AAC6220123 structure beta = 99.91 "Y2(I,Br)2C2" Y2I0.25Br1.75C2 Y 2 I 0.25 Br 1.75 C 2 1996 A 6.986 3.781 10.082 K 5.5 5.5 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111057 AAC6220123 structure beta = 100.09 "Y2(I,Br)2C2" Y2I0.2Br1.8C2 Y 2 I 0.2 Br 1.8 C 2 1996 A 6.973 3.775 10.051 K Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111058 AAC6220123 structure beta = 99.97 Y2Br2C2 Y2Br2C2 Y 2 Br 2 C 2 1996 A 6.958 3.767 9.932 K 5.05 5.05 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111059 AAC6220123 structure beta = 93.79 "Y2(I,Cl)2C2" Y2I1.75Cl0.25C2 Y 2 I 1.75 Cl 0.25 C 2 1996 A 7.172 3.857 10.452 K 10.7 10.7 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111060 AAC6220123 structure beta = 93.84 "Y2(I,Cl)2C2" Y2I1.5Cl0.5C2 Y 2 I 1.5 Cl 0.5 C 2 1996 A 7.127 3.839 10.441 K 8.25 8.25 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111061 AAC6220123 structure beta = 99.94 "Y2(Br,Cl)2C2" Y2Br1.75Cl0.25C2 Y 2 Br 1.75 Cl 0.25 C 2 1996 A 6.941 3.761 9.898 K 4.7 4.7 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111062 AAC6220123 structure beta = 99.95 "Y2(Br,Cl)2C2" Y2Br1.5Cl0.5C2 Y 2 Br 1.5 Cl 0.5 C 2 1996 A 6.928 3.754 9.862 K 4.4 4.4 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111063 AAC6220123 structure beta = 99.92 "Y2(Br,Cl)2C2" Y2Br1.25Cl0.75C2 Y 2 Br 1.25 Cl 0.75 C 2 1996 A 6.906 3.744 9.812 K 4.15 4.15 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111064 AAC6220123 structure beta = 99.99 "Y2(Br,Cl)2C2" Y2Br1Cl1C2 Y 2 Br 1 Cl 1 C 2 1996 A 6.883 3.738 9.766 K 3.85 3.85 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111065 AAC6220123 structure beta = 94.83 "Y2(Br,Cl)2C2" Y2Br0.9Cl1.1C2 Y 2 Br 0.9 Cl 1.1 C 2 1996 A 6.887 3.737 9.631 K Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111066 AAC6220123 structure beta = 94.69 "Y2(Br,Cl)2C2" Y2Br0.8Cl1.2C2 Y 2 Br 0.8 Cl 1.2 C 2 1996 A 6.869 3.731 9.605 K Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111067 AAC6220123 structure beta = 99.97 "Y2(Br,Cl)2C2" Y2Br0.75Cl1.25C2 Y 2 Br 0.75 Cl 1.25 C 2 1996 A 6.872 3.733 9.728 K 3.7 3.7 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111068 AAC6220123 structure beta = 94.82 "Y2(Br,Cl)2C2" Y2Br0.7Cl1.3C2 Y 2 Br 0.7 Cl 1.3 C 2 1996 A 6.866 3.731 9.568 K Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111069 AAC6220123 structure beta = 94.79 "Y2(Br,Cl)2C2" Y2Br0.5Cl1.5C2 Y 2 Br 0.5 Cl 1.5 C 2 1996 A 6.862 3.725 9.52 K 3.25 3.25 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111070 AAC6220123 structure beta = 94.81 "Y2(Br,Cl)2C2" Y2Br0.25Cl1.75C2 Y 2 Br 0.25 Cl 1.75 C 2 1996 A 6.839 3.718 9.44 K 2.85 2.85 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111071 AAC6220123 structure beta = 95.01 Y2Cl2C2 Y2Cl2C2 Y 2 Cl 2 C 2 1996 A 6.83 3.712 9.332 K 2.3 2.3 Superconductivity in rare earth metal carbide halides of the type SE2X2C2 1996 "Max-Planck Institut, Stuttgart, Germany" "Z.anorg.allg.Chem., 622(1996)123"
111072 JPS0711023 penet measured by muon-SR at H=402 G CeIrIn5 Ce1Ir1In5 Ce 1 Ir 1 In 5 3 2002 HoCoGa5 K 0.4 0.4 A 6700 In-serlf flux method Muon-SR Studies on Heavy Fermion Superconductors CeIrIn5 and CeCoIn5 2002 "Institute of Materials Structure Science,High Energy Accelerator Research Organization,Tsukuba,Ibaraki,Japan" "J.Phys.Soc.Jpn, 71(2002)1023"
111073 JPS0711023 penet measured by muon-SR at H=3 kG CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2002 HoCoGa5 K 2 2 A 5500 In-serlf flux method Muon-SR Studies on Heavy Fermion Superconductors CeIrIn5 and CeCoIn5 2002 "Institute of Materials Structure Science,High Energy Accelerator Research Organization,Tsukuba,Ibaraki,Japan" "J.Phys.Soc.Jpn, 71(2002)1023"
111074 JPC0130627 "Hc2(0) = 116, 49.5 kOe for [110], [001] direction. cohere}=82 A, cohere = 35 A. dHvA measured. gamma in mj/mol.K2" CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2001 HoCoGa5 A 4.612 7.549 K 2.3 2.3 kOe 116 A 82 mj/mol.K2 1000 In-serlf flux method Quasi-two-dimensional Fermi surfaces and the de Haas-van Alphen oscillation in both the normal and superconducting mixed states of CeCoIn5 2001 "Graduate School of Science, Osaka University, Toyonaka, Osaka, Japan" "J.Phys: Condens.Mater, 13(2001)L627"
111075 JPS0710162 pressure-induced s/c..1.6 GPaPc=21 kbar. bulk modulus B=1370 kbar. delta-C/gamma*Tc = 1.41 Lu5Ir4Si10 Lu5Ir4Si10 Lu 5 Ir 4 Si 10 1986 Sc5Co4Si10 A 12.486 4.178 K 3.77 3.77 T 1.04 T/K 0.39 MHC111093 mj/mol.K2 23.42 366 arc-melting Electronic phase transition and partially gapped Fermi surface in superconducting Lu5Ir4Si10 1986 "Ames Lab, Iowa State University,Ames,Iowa,USA" "Phys.Rev.B, 34(1986)4590"
111094 PR03304680 RRR=1.70 ErRh4B4 Er1Rh4B4 Er 1 Rh 4 B 4 3 1986 0.65 bct K 7.8 7.8 MHC11094 induction heating Superconductivity and magnetism of a body-centered tetragonal ErRh4B4 single crystal. II. Large anisotropy of Hc2 1986 "Tohoku University, Sendai,Japan" "Phys.Rev.B, 33(1986)4680"
111095 PR03304680 RRR=1.65. small amount of impurity (RhB) LuRh4B4 Lu1Rh4B4 Lu 1 Rh 4 B 4 1 1986 bct K 8.61 8.61 T/K 2.08 MHC11095 induction heating + ANN(1050C) Superconductivity and magnetism of a body-centered tetragonal ErRh4B4 single crystal. II. Large anisotropy of Hc2 1986 "Tohoku University, Sendai,Japan" "Phys.Rev.B, 33(1986)4680"
111096 PR03400199 av. grain size = 180 micron. RRR = 4.9 ErPd2Sn Er1Pd2Sn1 Er 1 Pd 2 Sn 1 1 1986 -5.8 1 Heusler A 6.6834 "Cu2MnAl, L2<1>" K 1.17 1.17 Coexistence of superconductivity and long-range magnetic order in ErPd2Sn 1986 "Ames Lab, Iowa State University,Ames,Iowa,USA" "Phys.Rev.B, 34(1986)199"
111097 PR03400199 "(Er,Y)Pd2Sn" Er0.95Y0.05Pd2Sn1 Er 0.95 Y 0.05 Pd 2 Sn 1 1 1986 Heusler A 6.6864 "Cu2MnAl, L2<1>" K 1.26 1.26 Coexistence of superconductivity and long-range magnetic order in ErPd2Sn 1986 "Ames Lab, Iowa State University,Ames,Iowa,USA" "Phys.Rev.B, 34(1986)199"
111098 PR03400199 "(Er,Y)Pd2Sn" Er0.9Y0.1Pd2Sn1 Er 0.9 Y 0.1 Pd 2 Sn 1 1 1986 Heusler A 6.6873 "Cu2MnAl, L2<1>" K 1.6 1.6 Coexistence of superconductivity and long-range magnetic order in ErPd2Sn 1986 "Ames Lab, Iowa State University,Ames,Iowa,USA" "Phys.Rev.B, 34(1986)199"
111099 PR03400199 "(Er,Y)Pd2Sn" Er0.8Y0.2Pd2Sn1 Er 0.8 Y 0.2 Pd 2 Sn 1 1 1986 Heusler A 6.689 "Cu2MnAl, L2<1>" K 2.08 2.08 Coexistence of superconductivity and long-range magnetic order in ErPd2Sn 1986 "Ames Lab, Iowa State University,Ames,Iowa,USA" "Phys.Rev.B, 34(1986)199"
111100 PR03400199 "(Er,Y)Pd2Sn" Er0.6Y0.4Pd2Sn1 Er 0.6 Y 0.4 Pd 2 Sn 1 1 1986 Heusler A 6.6973 "Cu2MnAl, L2<1>" K 2.59 2.59 Coexistence of superconductivity and long-range magnetic order in ErPd2Sn 1986 "Ames Lab, Iowa State University,Ames,Iowa,USA" "Phys.Rev.B, 34(1986)199"
111101 PR03400199 "(Er,Y)Pd2Sn" Er0.4Y0.6Pd2Sn1 Er 0.4 Y 0.6 Pd 2 Sn 1 1 1986 Heusler A 6.7024 "Cu2MnAl, L2<1>" K 3.66 3.66 Coexistence of superconductivity and long-range magnetic order in ErPd2Sn 1986 "Ames Lab, Iowa State University,Ames,Iowa,USA" "Phys.Rev.B, 34(1986)199"
111102 PR03400199 "(Er,Y)Pd2Sn" Er0.2Y0.8Pd2Sn1 Er 0.2 Y 0.8 Pd 2 Sn 1 1 1986 Heusler A 6.7096 "Cu2MnAl, L2<1>" K 4.38 4.38 Coexistence of superconductivity and long-range magnetic order in ErPd2Sn 1986 "Ames Lab, Iowa State University,Ames,Iowa,USA" "Phys.Rev.B, 34(1986)199"
111103 PR03400199 YPd2Sn Y1Pd2Sn1 Y 1 Pd 2 Sn 1 1 1986 Heusler A 6.7165 "Cu2MnAl, L2<1>" K 5.26 5.26 Coexistence of superconductivity and long-range magnetic order in ErPd2Sn 1986 "Ames Lab, Iowa State University,Ames,Iowa,USA" "Phys.Rev.B, 34(1986)199"
111104 SSC0590839 ZrIrSi Zr1Ir1Si1 Zr 1 Ir 1 Si 1 1986 TiNiSi K 2.04 2.04 arc-melting "Relationships between occurrence of superconductivity and crystal structure in new equiatomic ternary silisides MTSi (M=Ti, Zr, Hf and T=Ru, Os, Rh)" 1986 "Solid State Commun., 59(1986)839"
111105 SSC0590839 HfIrSi Hf1Ir1Si1 Hf 1 Ir 1 Si 1 1986 TiNiSi K 3.5 3.5 arc-melting "Relationships between occurrence of superconductivity and crystal structure in new equiatomic ternary silisides MTSi (M=Ti, Zr, Hf and T=Ru, Os, Rh)" 1986 "Solid State Commun., 59(1986)839"
111106 SSC0590839 TiOsSi Ti1Os1Si1 Ti 1 Os 1 Si 1 1986 TiFeSi A 7.062 11.217 6.479 K 1.6 arc-melting "Relationships between occurrence of superconductivity and crystal structure in new equiatomic ternary silisides MTSi (M=Ti, Zr, Hf and T=Ru, Os, Rh)" 1986 "Solid State Commun., 59(1986)839"
111107 SSC0590839 ZrOsSi Zr1Os1Si1 Zr 1 Os 1 Si 1 1986 TiNiSi A 6.411 4.041 7.453 K 1.72 1.72 arc-melting "Relationships between occurrence of superconductivity and crystal structure in new equiatomic ternary silisides MTSi (M=Ti, Zr, Hf and T=Ru, Os, Rh)" 1986 "Solid State Commun., 59(1986)839"
111108 SSC0590839 HfOsSi Hf1Os1Si1 Hf 1 Os 1 Si 1 1986 Fe2P A 6.614 3.678 K 1.6 arc-melting "Relationships between occurrence of superconductivity and crystal structure in new equiatomic ternary silisides MTSi (M=Ti, Zr, Hf and T=Ru, Os, Rh)" 1986 "Solid State Commun., 59(1986)839"
111109 SSC0590839 HfRuSi Hf1Ru1Si1 Hf 1 Ru 1 Si 1 1986 Fe2P A 6.643 3.646 K 1.6 arc-melting "Relationships between occurrence of superconductivity and crystal structure in new equiatomic ternary silisides MTSi (M=Ti, Zr, Hf and T=Ru, Os, Rh)" 1986 "Solid State Commun., 59(1986)839"
111110 SSC0590839 ZrRhSi Zr1Rh1Si1 Zr 1 Rh 1 Si 1 1986 TiNiSi A 6.52 3.926 7.41 K 1.6 arc-melting "Relationships between occurrence of superconductivity and crystal structure in new equiatomic ternary silisides MTSi (M=Ti, Zr, Hf and T=Ru, Os, Rh)" 1986 "Solid State Commun., 59(1986)839"
111111 SSC0590839 HfRhSi Hf1Rh1Si1 Hf 1 Rh 1 Si 1 1986 TiNiSi A 6.47 3.91 7.397 K 1.6 arc-melting "Relationships between occurrence of superconductivity and crystal structure in new equiatomic ternary silisides MTSi (M=Ti, Zr, Hf and T=Ru, Os, Rh)" 1986 "Solid State Commun., 59(1986)839"
111112 LOW0640395 "Thin film. substrate=sapphire(1,1,-2,0)" "(Mo,Re)" Mo0.82Re0.18 Mo 0.82 Re 0.18 3 1986 bcc K 8.5 8.5 coevaporation by EB Properties of evaporated Mo-Re thin-film superconductors 1986 "Westinghouse R & D Center, Pittsburgh, Pa, USA" "J.Low Temp.Phys., 64(1986)395"
111113 LOW0640395 "Thin film. substrate=sapphire(1,1,-2,0)" "(Mo,Re)" Mo0.75Re0.25 Mo 0.75 Re 0.25 3 1986 bcc K 10 10 coevaporation by EB Properties of evaporated Mo-Re thin-film superconductors 1986 "Westinghouse R & D Center, Pittsburgh, Pa, USA" "J.Low Temp.Phys., 64(1986)395"
111114 LOW0640395 "Thin film. substrate=sapphire(1,1,-2,0)" "(Mo,Re)" Mo0.7Re0.3 Mo 0.7 Re 0.3 3 1986 bcc K 10.5 10.5 coevaporation by EB Properties of evaporated Mo-Re thin-film superconductors 1986 "Westinghouse R & D Center, Pittsburgh, Pa, USA" "J.Low Temp.Phys., 64(1986)395"
111115 LOW0640395 "Thin film. substrate=sapphire(1,1,-2,0)" "(Mo,Re)" Mo0.65Re0.35 Mo 0.65 Re 0.35 3 1986 Cr3Si(A15) "Cr3Si, A15" K 10.2 10.2 coevaporation by EB Properties of evaporated Mo-Re thin-film superconductors 1986 "Westinghouse R & D Center, Pittsburgh, Pa, USA" "J.Low Temp.Phys., 64(1986)395"
111116 LOW0640395 "Thin film. substrate=sapphire(1,1,-2,0)" "(Mo,Re)" Mo0.57Re0.43 Mo 0.57 Re 0.43 3 1986 bcc K 10 10 coevaporation by EB Properties of evaporated Mo-Re thin-film superconductors 1986 "Westinghouse R & D Center, Pittsburgh, Pa, USA" "J.Low Temp.Phys., 64(1986)395"
111117 LOW0640395 "Thin film. substrate=sapphire(1,1,-2,0)" "(Mo,Re)" Mo0.62Re0.38 Mo 0.62 Re 0.38 3 1986 Cr3Si(A15) "Cr3Si, A15" K 11.5 11.5 coevaporation by EB Properties of evaporated Mo-Re thin-film superconductors 1986 "Westinghouse R & D Center, Pittsburgh, Pa, USA" "J.Low Temp.Phys., 64(1986)395"
111118 L089037002 T = 4.5 K. spin-triplet s/c. Hc2(T=0.1K)=8 kOe for H//a-axis UNi2Al3 U1Ni2Al3 U 1 Ni 2 Al 3 3 2002 4.5 PrNi2Al3 K 0.9 0.9 Spin-Triplet Superconductivity in UNi2Al3 Revealed by the <27>Al Knight Shift Measurement 2002 "Department of Physical Science, Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka, Japan" "Phys.Rev.Lett., 89(2002)037002"
111119 PHC3770096 volume fraction = 97 % "Ca(Ga,Si)2" Ca1Ga1Si1 Ca 1 Ga 1 Si 1 2002 AlB2 A 4.12 4.4401 "AlB2, C32" K 4.3 4.3 arc-melting "Superconductivity of ternary silicides A(Gax,Si1-x)2, A = Ca,Sr,and Ba)" 2002 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki, Japan" "Physica C, 377(2002)96"
111120 PHC3770096 volume fraction = 75 % "Ca(Ga,Si)2" Ca1Ga0.74Si1.26 Ca 1 Ga 0.74 Si 1.26 2002 AlB2 A 4.1037 4.4135 "AlB2, C32" K 3.5 3.5 arc-melting "Superconductivity of ternary silicides A(Gax,Si1-x)2, A = Ca,Sr,and Ba)" 2002 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki, Japan" "Physica C, 377(2002)96"
111121 PHC3770096 volume fraction = 92 % "Sr(Ga,Si)2" Sr1Ga0.74Si1.26 Sr 1 Ga 0.74 Si 1.26 2002 AlB2 A 4.1446 4.7917 "AlB2, C32" K 4.2 4.2 arc-melting "Superconductivity of ternary silicides A(Gax,Si1-x)2, A = Ca,Sr,and Ba)" 2002 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki, Japan" "Physica C, 377(2002)96"
111122 PHC3770096 volume fraction = 96 % "Ba(Ga,Si)2" Ba1Ga0.78Si1.22 Ba 1 Ga 0.78 Si 1.22 2002 AlB2 A 4.1949 5.129 "AlB2, C32" K 4 4 arc-melting "Superconductivity of ternary silicides A(Gax,Si1-x)2, A = Ca,Sr,and Ba)" 2002 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki, Japan" "Physica C, 377(2002)96"
111123 PHC3770202 "gap(delta)=8 meV. having two gaps. another gap = 2.7 meV. Temperature dependence is BCS-like. measured by point contact, Andreev reflection." MgB2 B2Mg1 B 2 Mg 1 3 2002 AlB2 "AlB2, C32" K 38 38 4.89 1 Measurement of the superconducting gap of MgB2 by point contact spectroscopy 2002 "School of Physics and Condensed Matter Research Institute, Seoul National University, Seoul, South Korea" "Physica C, 377(2002)202"
111124 P066092503 ortho-NdNiGa2 type(Cmmm). RR=14.1 uOhm.cm. RRR=5.2. Tc(R=0)=2.05 K. delta-C = 32 mj/mol.K. delta-C/gamma*Tc = 1.40. LaNiGa2 La1Ni1Ga2 La 1 Ni 1 Ga 2 1 2002 A 4.268 17.7 4.226 orthorhombic K 1.97 1.97 3.2 mj/mol.K2 11.64 560 arc-melting Superconductivity in the Ni-based ternary compound LaNiGa2 2002 "Department of Physics, National Chung Cheng University, Ming-Hsiung,Taiwan" "Phys.Rev.B, 66(2002)92503"
111125 LOW0640329 Neel-T by susceptibility. sp-heat measured. "Ho(Rh,Ru)4B4" Ho1Rh3.72Ru0.28B4 Ho 1 Rh 3.72 Ru 0.28 B 4 1986 1.25 K 6.42 6.42 "Superconductivity, magnetic properties, and specific heat of the pseudoternary, body-centered tetragonal system Ho(Rh1-xRux)4B4" 1986 "Universitat Erlangen-Nurnberg, Erlangen, FRG" "J.Low Temp.Phys., 64(1986)329"
111126 LOW0640329 Neel-T by NED. "Ho(Rh,Ru)4B4" Ho1Rh3.6Ru0.4B4 Ho 1 Rh 3.6 Ru 0.4 B 4 1986 1.56 K 6.42 6.42 "Superconductivity, magnetic properties, and specific heat of the pseudoternary, body-centered tetragonal system Ho(Rh1-xRux)4B4" 1986 "Universitat Erlangen-Nurnberg, Erlangen, FRG" "J.Low Temp.Phys., 64(1986)329"
111127 LOW0640329 Neel-T by Hc2(T) "Ho(Rh,Ru)4B4" Ho1Rh3.4Ru0.6B4 Ho 1 Rh 3.4 Ru 0.6 B 4 1986 1.04 K 6.14 6.14 "Superconductivity, magnetic properties, and specific heat of the pseudoternary, body-centered tetragonal system Ho(Rh1-xRux)4B4" 1986 "Universitat Erlangen-Nurnberg, Erlangen, FRG" "J.Low Temp.Phys., 64(1986)329"
111128 LOW0640329 Neel-T by Hc2(T) "Ho(Rh,Ru)4B4" Ho1Rh3Ru1B4 Ho 1 Rh 3 Ru 1 B 4 1986 0.94 K 6.35 6.35 "Superconductivity, magnetic properties, and specific heat of the pseudoternary, body-centered tetragonal system Ho(Rh1-xRux)4B4" 1986 "Universitat Erlangen-Nurnberg, Erlangen, FRG" "J.Low Temp.Phys., 64(1986)329"
111129 LOW0640329 Neel-T by NED. "Ho(Rh,Ru)4B4" Ho1Rh2.6Ru1.4B4 Ho 1 Rh 2.6 Ru 1.4 B 4 1986 1.46 K 4.68 4.68 "Superconductivity, magnetic properties, and specific heat of the pseudoternary, body-centered tetragonal system Ho(Rh1-xRux)4B4" 1986 "Universitat Erlangen-Nurnberg, Erlangen, FRG" "J.Low Temp.Phys., 64(1986)329"
111130 LOW0640329 "Ho(Rh,Ru)4B4" Ho1Rh2.4Ru1.6B4 Ho 1 Rh 2.4 Ru 1.6 B 4 1986 1.25 K 1.6 1.6 "Superconductivity, magnetic properties, and specific heat of the pseudoternary, body-centered tetragonal system Ho(Rh1-xRux)4B4" 1986 "Universitat Erlangen-Nurnberg, Erlangen, FRG" "J.Low Temp.Phys., 64(1986)329"
111131 LOW0640329 not s/c. magnetic order measured by susceptibility. "Ho(Rh,Ru)4B4" Ho1Rh2Ru2B4 Ho 1 Rh 2 Ru 2 B 4 1986 1.14 K 1.5 "Superconductivity, magnetic properties, and specific heat of the pseudoternary, body-centered tetragonal system Ho(Rh1-xRux)4B4" 1986 "Universitat Erlangen-Nurnberg, Erlangen, FRG" "J.Low Temp.Phys., 64(1986)329"
111132 LOW0640329 not s/c. magnetic order measured by susceptibility. "Ho(Rh,Ru)4B4" Ho1Rh1.6Ru2.4B4 Ho 1 Rh 1.6 Ru 2.4 B 4 1986 0.94 K 1.5 "Superconductivity, magnetic properties, and specific heat of the pseudoternary, body-centered tetragonal system Ho(Rh1-xRux)4B4" 1986 "Universitat Erlangen-Nurnberg, Erlangen, FRG" "J.Low Temp.Phys., 64(1986)329"
111133 LOW0640329 not s/c. magnetic order measured by susceptibility. "Ho(Rh,Ru)4B4" Ho1Rh1.2Ru2.8B4 Ho 1 Rh 1.2 Ru 2.8 B 4 1986 0.94 K 1.5 "Superconductivity, magnetic properties, and specific heat of the pseudoternary, body-centered tetragonal system Ho(Rh1-xRux)4B4" 1986 "Universitat Erlangen-Nurnberg, Erlangen, FRG" "J.Low Temp.Phys., 64(1986)329"
111134 LOW0640329 not s/c. magnetic order measured by susceptibility. "Ho(Rh,Ru)4B4" Ho1Rh0.8Ru3.2B4 Ho 1 Rh 0.8 Ru 3.2 B 4 1986 0.97 K 1.5 "Superconductivity, magnetic properties, and specific heat of the pseudoternary, body-centered tetragonal system Ho(Rh1-xRux)4B4" 1986 "Universitat Erlangen-Nurnberg, Erlangen, FRG" "J.Low Temp.Phys., 64(1986)329"
111135 LOW0640329 not s/c. magnetic order measured by susceptibility. "Ho(Rh,Ru)4B4" Ho1Rh0.4Ru3.6B4 Ho 1 Rh 0.4 Ru 3.6 B 4 1986 1.73 K 1.5 "Superconductivity, magnetic properties, and specific heat of the pseudoternary, body-centered tetragonal system Ho(Rh1-xRux)4B4" 1986 "Universitat Erlangen-Nurnberg, Erlangen, FRG" "J.Low Temp.Phys., 64(1986)329"
111136 LOW0640329 not s/c. magnetic order measured by susceptibility. HoRu4B4 Ho1Ru4B4 Ho 1 Ru 4 B 4 1986 2.46 K 1.5 "Superconductivity, magnetic properties, and specific heat of the pseudoternary, body-centered tetragonal system Ho(Rh1-xRux)4B4" 1986 "Universitat Erlangen-Nurnberg, Erlangen, FRG" "J.Low Temp.Phys., 64(1986)329"
111137 P066104521 400 nm thickness. c-axis oriented. surface impedance measured. s/c parameters obtained by fitting using BCS theory. gap(0)=3.8 meV. MgB2 B2Mg1 B 2 Mg 1 3 2002 AlB2 "AlB2, C32" K 39 39 nm 102 2.26 laser deposition on [1102] sapphire substrate "Energy gap, penetration depth, and surface resistance of MgB2 thin films determined by microwave resonator measurements" 2002 "Forschungszentrum Julich, Institute of Thin Films and Interfaces, Julich,Germany" "Phys.Rev.B, 66(2002)104521"
111138 P066104521 400 nm thickness. c-axis oriented. surface impedance measured. s/c parameters obtained by fitting using BCS theory. gap(0)=3.2 meV. MgB2 B2Mg1 B 2 Mg 1 3 2002 AlB2 "AlB2, C32" K 36 36 nm 107 2.06 laser deposition on [1102] sapphire substrate "Energy gap, penetration depth, and surface resistance of MgB2 thin films determined by microwave resonator measurements" 2002 "Forschungszentrum Julich, Institute of Thin Films and Interfaces, Julich,Germany" "Phys.Rev.B, 66(2002)104521"
111139 SSC1230391 susceptibility starts to be minus at Tc. no resistivity data. s/c volume fraction <15 %. YbFe4Al8 Yb1Fe4Al8 Yb 1 Fe 4 Al 8 2002 107 A 8.702 8.025 tetragonal K 50 50 "arc-melting + ANN(500C, 8 weeks)" Magnetic properties of YbFe4Al8 intermetallic compound. New antiferromagnetic superconductor 2002 "Institute of Low Temperature and Structure Research, Wrochaw, Poland" "Solid State Commun., 123(2002)391"
111140 SSC1230283 RESRT=137 uOhm.cm. Debye-T from Bloch-Gruneizen equation. Mo3Sb7 Mo3Sb7 Mo 3 Sb 7 3 2002 Ir3Ge7 A 9.582 2.08 K 2.08 2.08 T 1.7 T/K 1.4 MHC11140 162 peritectical reaction. Single crystal growth and superconductivity of Mo3Sb7 2002 "Institute of Low Temperature and Structure Research, Wrochaw, Poland" "Solid State Commun., 123(2002)283"
111141 JAP0922614 MgB2 B2Mg1 B 2 Mg 1 2002 AlB2 A 3.037 3.524 "AlB2, C32" K 38.4 38.4 MHC11141 Enhanced flux pinning in Zr-doped MgB2 bulk superconductors prepared at ambient pressure 2002 "Northwest Institute for Nonferrous Metal Research, China" "J.Appl.Phys., 92(2002)2614"
111142 JAP0922614 "(Mg,Zr)B2" Mg0.95Zr0.05B2 Mg 0.95 Zr 0.05 B 2 2002 AlB2 A 3.076 3.524 "AlB2, C32" K 37.7 37.7 MHC11142 Enhanced flux pinning in Zr-doped MgB2 bulk superconductors prepared at ambient pressure 2002 "Northwest Institute for Nonferrous Metal Research, China" "J.Appl.Phys., 92(2002)2614"
111143 JAP0922614 "Jc(T=5K,H=0.56T) = 2.1 E+6 A/cm2" "(Mg,Zr)B2" Mg0.9Zr0.1B2 Mg 0.9 Zr 0.1 B 2 2002 AlB2 A 3.08 3.524 "AlB2, C32" K 37.3 37.3 T 20 T/K 0.56 MHC11143 nm 3.9 Enhanced flux pinning in Zr-doped MgB2 bulk superconductors prepared at ambient pressure 2002 "Northwest Institute for Nonferrous Metal Research, China" "J.Appl.Phys., 92(2002)2614"
111144 JAP0922614 "(Mg,Zr)B2" Mg0.8Zr0.2B2 Mg 0.8 Zr 0.2 B 2 2002 AlB2 A 3.081 3.524 "AlB2, C32" K 37.3 37.3 MHC11144 Enhanced flux pinning in Zr-doped MgB2 bulk superconductors prepared at ambient pressure 2002 "Northwest Institute for Nonferrous Metal Research, China" "J.Appl.Phys., 92(2002)2614"
111145 PR05308836 impurity phase = (NH3)8K3C60. samples undergo M-I transition at 40 K. not s/c. unit volume= 763 A3/C60 NH3K3C60 N1H3K3C60 N 1 H 3 K 3 C 60 1996 fullerene K 4.2 (K3C60 + NH3) in glass tube Metal-insulator transition in ammoniated K3C60 1996 "Japan Advanced Institute of Science and Technology, Ishikawa, Japan" "Phys.Rev.B, 53(1996)R8836"
111146 PHB3040006 "pressure induced s/c. Tc(on)=2.0 K under 52 GPa. space group = P2<1>/C, beta=113.07 degree." C6I4O2 C6Ir4O2 C 6 Ir 4 O 2 3 2001 A 7.63 5.268 14.222 K 2 0 2 grown from ethylacetate solution "Pressure-induced insulator-to-metal transition and superconductivity in iodanil, C6I4O2" 2001 "Faculty of Engineering, Muroran Institute of Technology, Muroran, Hokkaido,Japan" "Physica B, 304(2001)6"
111147 JP01011179 molecular crystal. pressure-induced s/c. Tc(max)=1.2 K at p=28 GPa. I2 I2 I 2 1998 K 1.2 0 1.2 MTC11147 Observation of pressure-induced superconductivity in the megabar region 1998 "Faculty of Engineering Science, Osaka University, Toyonaka, Osaka, Japan" "J.Phys.:Condens.Matter, 10(1998)11179"
111148 JP01011179 molecular crystal. pressure-induced s/c. Tc(max)=1.4 K at p=80 GPa. dTc/dP = 0 K/GPa at P (=80 GPa). Br2 Br2 Br 2 1998 K 1.4 0 1.4 K/GPa 0 Observation of pressure-induced superconductivity in the megabar region 1998 "Faculty of Engineering Science, Osaka University, Toyonaka, Osaka, Japan" "J.Phys.:Condens.Matter, 10(1998)11179"
111149 JP01011179 molecular crystal. pressure-induced s/c. Tc(on)=15 K at p=100 GPa. S S1 S 1 1998 K 12 0 12 MTC11149 Observation of pressure-induced superconductivity in the megabar region 1998 "Faculty of Engineering Science, Osaka University, Toyonaka, Osaka, Japan" "J.Phys.:Condens.Matter, 10(1998)11179"
111150 JP01011179 molecular crystal. pressure-induced s/c. Tc=0.65 K at p=120 GPa. O2 O2 O 2 1998 K 0.65 0 0.65 K/GPa 0 MHC11150 Observation of pressure-induced superconductivity in the megabar region 1998 "Faculty of Engineering Science, Osaka University, Toyonaka, Osaka, Japan" "J.Phys.:Condens.Matter, 10(1998)11179"
111151 PHC3570099 powder sample. R by microwave response. conductivity(200K) = 1206 Ohm.cm. unit volume = 725 A3/C60 K3C60 C60K3 C 60 K 3 2001 fullerene K 19.4 19.4 Electrical conduction of (NH3)xNaRb2C60 2001 "Department of Basic Science, The University of Tokyo, Tokyo, Japan" "Physica C, 357-360(2001)99"
111152 PHC3570099 powder sample. R by microwave response. conductivity(200K) = 391 Ohm.cm. unit volume = 763 A3/C60 (NH3)0.8NaRb2C60 N0.8H2.4Na1Rb2C60 N 0.8 H 2.4 Na 1 Rb 2 C 60 2001 fullerene K 15.2 15.2 Electrical conduction of (NH3)xNaRb2C60 2001 "Department of Basic Science, The University of Tokyo, Tokyo, Japan" "Physica C, 357-360(2001)99"
111153 PHC3570099 powder sample. R by microwave response. conductivity(200K) = 126 Ohm.cm. unit volume = 766 A3/C60 (NH3)0.9NaRb2C60 N0.9H2.7Na1Rb2C60 N 0.9 H 2.7 Na 1 Rb 2 C 60 2001 fullerene K 12.1 12.1 Electrical conduction of (NH3)xNaRb2C60 2001 "Department of Basic Science, The University of Tokyo, Tokyo, Japan" "Physica C, 357-360(2001)99"
111154 L088096401 not s/c. powder sample. R by microwave response. conductivity(200K) = 0.0091 Ohm.cm. unit volume = 764 A3/C60 (NH3)K3C60 N1H3K3C60 N 1 H 3 K 3 C 60 2002 fullerene K 4.2 Evidence for insulating behavior in the electric conduction of (NH3)K3C60 system 2002 "Department of Basic Science, The University of Tokyo, Tokyo, Japan" "Phys.Rev.Lett., 88(2002)96401"
111155 L088096401 not s/c. powder sample. R by microwave response. conductivity(200K) = 0.0010 Ohm.cm. unit volume = 782 A3/C60 (NH3)KRb2C60 N1H3K1Rb2C60 N 1 H 3 K 1 Rb 2 C 60 2002 fullerene K 4.2 Evidence for insulating behavior in the electric conduction of (NH3)K3C60 system 2002 "Department of Basic Science, The University of Tokyo, Tokyo, Japan" "Phys.Rev.Lett., 88(2002)96401"
111156 L088096401 not s/c. powder sample. R by microwave response. conductivity(200K) = 0.0008 Ohm.cm. unit volume = 789 A3/C60 (NH3)Rb3C60 N1H3Rb3C60 N 1 H 3 Rb 3 C 60 2002 fullerene K 4.2 Evidence for insulating behavior in the electric conduction of (NH3)K3C60 system 2002 "Department of Basic Science, The University of Tokyo, Tokyo, Japan" "Phys.Rev.Lett., 88(2002)96401"
111157 APL0813603 gap measured by microwave surface resistance. gap(0K) = 1.92 meV. MgB2 B2Mg1 B 2 Mg 1 3 2002 AlB2 "AlB2, C32" K 31 31 1.44 pulsed laser deposition The superconducting gap of in situ MgB2 thin films by microwave surface impedance measurements 2002 "Physics Department, Northeastern University, Boston, Massachusetts, USA" "Appl.Phys.Lett., 81(2002)3603"
111158 JAC3470072 needle like single crystal(3 mm long). space-G = P4/mmm. density=6.983 g/cm3. RRR=32. V2Ga5 Ga5V2 Ga 5 V 2 3 2002 A 8.936 2.6831 K 3.59 3.59 MHC11158 flux method(Ga-flux) "Single crystal growth, bonding analysis and superconductivity of V2Ga5" 2002 "Department of Chemistry and Biochemistry, Northern Illinois University, DeKalb, IL,USA" "J.Alloys Compd, 347(2002)72-78"
111159 L089157001 unaligned powder sample. PENET measured by muon-SR measurement. PrOs4Sb12 Pr1Os4Sb12 Pr 1 Os 4 Sb 12 2002 skutterudite K 1.85 1.85 A 3440 4.2 grown from Sb-flux Muon spin relaxation and isotropic pairing in superconducting PrOs4Sb12 2002 "Department of Physics, Unversity of California, Riverside, California, USA" "Phys.Rev.Lett., 89(2002)157001"
111160 PHC3820113 SrGa2 Ga2Sr1 Ga 2 Sr 1 2002 AlB2 "AlB2, C32" K 2 arc-melting Study of binary and pseudo-binary intermetallic compounds with AlB2 structure 2002 "Texas Center for Superconductivity ande Department of Physics, University of Houston, Houston, Texas, USA" "Physica C, 382(2002)113-116"
111161 PHC3820113 BaGa2 Ba1Ga2 Ba 1 Ga 2 2002 AlB2 "AlB2, C32" K 2 arc-melting Study of binary and pseudo-binary intermetallic compounds with AlB2 structure 2002 "Texas Center for Superconductivity ande Department of Physics, University of Houston, Houston, Texas, USA" "Physica C, 382(2002)113-116"
111162 PHC3820113 SrGaGe Sr1Ga1Ge1 Sr 1 Ga 1 Ge 1 2002 AlB2 "AlB2, C32" K 2 arc-melting Study of binary and pseudo-binary intermetallic compounds with AlB2 structure 2002 "Texas Center for Superconductivity ande Department of Physics, University of Houston, Houston, Texas, USA" "Physica C, 382(2002)113-116"
111163 PHC3820113 "Sr(Ga,Si)2" Sr1Ga0.5Si1.5 Sr 1 Ga 0.5 Si 1.5 2002 AlB2 A 4.1153 4.7839 "AlB2, C32" K 3.5 3.5 arc-melting Study of binary and pseudo-binary intermetallic compounds with AlB2 structure 2002 "Texas Center for Superconductivity ande Department of Physics, University of Houston, Houston, Texas, USA" "Physica C, 382(2002)113-116"
111164 PHC3820113 "Sr(Ga,Si)2" Sr1Ga0.55Si1.45 Sr 1 Ga 0.55 Si 1.45 2002 AlB2 A 4.1172 4.7878 "AlB2, C32" K 3.4 3.4 arc-melting Study of binary and pseudo-binary intermetallic compounds with AlB2 structure 2002 "Texas Center for Superconductivity ande Department of Physics, University of Houston, Houston, Texas, USA" "Physica C, 382(2002)113-116"
111165 PHC3820113 "Sr(Ga,Si)2" Sr1Ga0.6Si1.4 Sr 1 Ga 0.6 Si 1.4 2002 AlB2 A 4.1123 4.8076 "AlB2, C32" K 2.98 2.98 arc-melting Study of binary and pseudo-binary intermetallic compounds with AlB2 structure 2002 "Texas Center for Superconductivity ande Department of Physics, University of Houston, Houston, Texas, USA" "Physica C, 382(2002)113-116"
111166 PHC3820113 "Sr(Ga,Si)2" Sr1Ga0.65Si1.35 Sr 1 Ga 0.65 Si 1.35 2002 AlB2 A 4.1045 4.7988 "AlB2, C32" K 2.58 2.58 arc-melting Study of binary and pseudo-binary intermetallic compounds with AlB2 structure 2002 "Texas Center for Superconductivity ande Department of Physics, University of Houston, Houston, Texas, USA" "Physica C, 382(2002)113-116"
111167 PHC3820113 "Sr(Ga,Si)2" Sr1Ga0.7Si1.3 Sr 1 Ga 0.7 Si 1.3 2002 AlB2 A 4.1328 4.8007 "AlB2, C32" K 3.17 3.17 arc-melting Study of binary and pseudo-binary intermetallic compounds with AlB2 structure 2002 "Texas Center for Superconductivity ande Department of Physics, University of Houston, Houston, Texas, USA" "Physica C, 382(2002)113-116"
111168 PHC3820113 "Sr(Ga,Si)2" Sr1Ga0.75Si1.25 Sr 1 Ga 0.75 Si 1.25 2002 AlB2 A 4.1318 4.7701 "AlB2, C32" K 3.67 3.67 arc-melting Study of binary and pseudo-binary intermetallic compounds with AlB2 structure 2002 "Texas Center for Superconductivity ande Department of Physics, University of Houston, Houston, Texas, USA" "Physica C, 382(2002)113-116"
111169 PHC3820113 "Sr(Ga,Si)2" Sr1Ga0.8Si1.2 Sr 1 Ga 0.8 Si 1.2 2002 AlB2 A 4.1513 4.777 "AlB2, C32" K 4.24 4.24 arc-melting Study of binary and pseudo-binary intermetallic compounds with AlB2 structure 2002 "Texas Center for Superconductivity ande Department of Physics, University of Houston, Houston, Texas, USA" "Physica C, 382(2002)113-116"
111170 PHC3820113 "Sr(Ga,Si)2" Sr1Ga0.9Si1.1 Sr 1 Ga 0.9 Si 1.1 2002 AlB2 A 4.1601 4.7582 "AlB2, C32" K 4.73 4.73 arc-melting Study of binary and pseudo-binary intermetallic compounds with AlB2 structure 2002 "Texas Center for Superconductivity ande Department of Physics, University of Houston, Houston, Texas, USA" "Physica C, 382(2002)113-116"
111171 PHC3820113 sharp transition. delta-Tc = 0.1 K. "Sr(Ga,Si)2" Sr1Ga1Si1 Sr 1 Ga 1 Si 1 2002 AlB2 A 4.1786 4.7355 "AlB2, C32" K 5.1 5.1 arc-melting Study of binary and pseudo-binary intermetallic compounds with AlB2 structure 2002 "Texas Center for Superconductivity ande Department of Physics, University of Houston, Houston, Texas, USA" "Physica C, 382(2002)113-116"
111172 PHC3820113 "Sr(Ga,Si)2" Sr1Ga1.1Si0.9 Sr 1 Ga 1.1 Si 0.9 2002 AlB2 A 4.1893 4.7296 "AlB2, C32" K 5.04 5.04 arc-melting Study of binary and pseudo-binary intermetallic compounds with AlB2 structure 2002 "Texas Center for Superconductivity ande Department of Physics, University of Houston, Houston, Texas, USA" "Physica C, 382(2002)113-116"
111173 PHC3820113 "Sr(Ga,Si)2" Sr1Ga1.2Si0.8 Sr 1 Ga 1.2 Si 0.8 2002 AlB2 A 4.2097 4.7286 "AlB2, C32" K 4.75 4.75 arc-melting Study of binary and pseudo-binary intermetallic compounds with AlB2 structure 2002 "Texas Center for Superconductivity ande Department of Physics, University of Houston, Houston, Texas, USA" "Physica C, 382(2002)113-116"
111174 PHC3820113 "Sr(Ga,Si)2" Sr1Ga1.3Si0.7 Sr 1 Ga 1.3 Si 0.7 2002 AlB2 A 4.2195 4.7188 "AlB2, C32" K 3.52 3.52 arc-melting Study of binary and pseudo-binary intermetallic compounds with AlB2 structure 2002 "Texas Center for Superconductivity ande Department of Physics, University of Houston, Houston, Texas, USA" "Physica C, 382(2002)113-116"
111175 PHC3820153 x=0.85. Tc(on)=8.5K. R(300)=1.4 mOhm.cm. 98% AlB2 structure "(Mo,Zr)xB2" Mo0.816Zr0.034B2 Mo 0.816 Zr 0.034 B 2 2002 AlB2 A 3.0468 3.1615 "AlB2, C32" K 8.14 8.14 arc-melting "Structure and superconductivity in Zr-stabilized, nonstoichiometric molybdenum diboride" 2002 "Department of Chemistry, Princeton Materials Institute, Princeton University, Princeton,NJ, USA" "Physica C, 382(2002)153-165"
111176 PHC3820153 "x=0.88. 98% AlB2 + 2% B. gamma in mj/mol.K2. delta-C/gamma*Tc = 1.19.Debye-T = 620, and 690 K for using B<11> and B<10> isotope." "(Mo,Zr)xB2" Mo0.8448Zr0.0352B2 Mo 0.8448 Zr 0.0352 B 2 2002 AlB2 A 3.0474 3.1596 "AlB2, C32" K 8.11 8.11 mj/mol.K2 4.4 620 arc-melting "Structure and superconductivity in Zr-stabilized, nonstoichiometric molybdenum diboride" 2002 "Department of Chemistry, Princeton Materials Institute, Princeton University, Princeton,NJ, USA" "Physica C, 382(2002)153-165"
111177 PHC3820153 x=0.91 "(Mo,Zr)xB2" Mo0.8736Zr0.0364B2 Mo 0.8736 Zr 0.0364 B 2 2002 AlB2 A 3.05 3.1558 "AlB2, C32" K 7.92 7.92 arc-melting "Structure and superconductivity in Zr-stabilized, nonstoichiometric molybdenum diboride" 2002 "Department of Chemistry, Princeton Materials Institute, Princeton University, Princeton,NJ, USA" "Physica C, 382(2002)153-165"
111178 PHC3820153 x=0.96 "(Mo,Zr)xB2" Mo0.9216Zr0.0384B2 Mo 0.9216 Zr 0.0384 B 2 2002 AlB2 A 3.0519 3.1417 "AlB2, C32" K 7.51 7.51 arc-melting "Structure and superconductivity in Zr-stabilized, nonstoichiometric molybdenum diboride" 2002 "Department of Chemistry, Princeton Materials Institute, Princeton University, Princeton,NJ, USA" "Physica C, 382(2002)153-165"
111179 PHC3820153 x=1.0. single phase. gamma in mj/mol.K2. delta-C/gamma*Tc = 1.8 "(Mo,Zr)xB2" Mo0.96Zr0.04B2 Mo 0.96 Zr 0.04 B 2 2002 AlB2 A 3.0551 3.1282 "AlB2, C32" K 5.74 5.74 0.11 B mj/mol.K2 3.65 arc-melting "Structure and superconductivity in Zr-stabilized, nonstoichiometric molybdenum diboride" 2002 "Department of Chemistry, Princeton Materials Institute, Princeton University, Princeton,NJ, USA" "Physica C, 382(2002)153-165"
111180 PHC3820361 density(theoretical)=3.14 g/cm3 "Sr(Al,Si)2" Sr1Al1Si1 Sr 1 Al 1 Si 1 2002 AlB2 A 4.2475 4.7421 "AlB2, C32" K 4.2 4.2 arc-melting "Superconductivity of M1(M2<0.5>,Si<0.5>)2 (M1 = Si and Ba, M2 = Al and Ga), ternary silicides with the AlB2-type structure" 2002 "National Institute for Materials Science, Tsukuba, Ibaraki, Japan" "Physica C, 382(2002)361-366"
111181 PHC3820361 density(theoretical)=3.84 g/cm3 "Ba(Al,Si)2" Ba1Al1Si1 Ba 1 Al 1 Si 1 2002 AlB2 A 4.2973 5.1424 "AlB2, C32" K 2 arc-melting "Superconductivity of M1(M2<0.5>,Si<0.5>)2 (M1 = Si and Ba, M2 = Al and Ga), ternary silicides with the AlB2-type structure" 2002 "National Institute for Materials Science, Tsukuba, Ibaraki, Japan" "Physica C, 382(2002)361-366"
111182 PHC3820361 density(theoretical)=4.29 g/cm3 "Sr(Ga,Si)2" Sr1Ga1Si1 Sr 1 Ga 1 Si 1 2002 AlB2 A 4.1875 4.7447 "AlB2, C32" K 5.1 5.1 arc-melting "Superconductivity of M1(M2<0.5>,Si<0.5>)2 (M1 = Si and Ba, M2 = Al and Ga), ternary silicides with the AlB2-type structure" 2002 "National Institute for Materials Science, Tsukuba, Ibaraki, Japan" "Physica C, 382(2002)361-366"
111183 PHC3820361 not s/c. density(theoretical)=4.85 g/cm3 "Ba(Ga,Si)2" Ba1Ga1Si1 Ba 1 Ga 1 Si 1 2002 AlB2 A 4.2587 5.1039 "AlB2, C32" K 3.9 3.9 arc-melting "Superconductivity of M1(M2<0.5>,Si<0.5>)2 (M1 = Si and Ba, M2 = Al and Ga), ternary silicides with the AlB2-type structure" 2002 "National Institute for Materials Science, Tsukuba, Ibaraki, Japan" "Physica C, 382(2002)361-366"
111184 PRL0784273 Hc2(4.2K)=5.7 T for H//c-axis. gap(delta)=2.2 meV at 4.2 K. gap by STM. STM on the (001) surface. LuNi2B2C Lu1Ni2B2C1 Lu 1 Ni 2 B 2 C 1 3 1997 LuNi2B2C K 15.8 15.8 T 5.7 3.2 MTP11184 flux method using Ni2B Scanning tunneling Microscopy observation of a square Abrikosov Lattice in LuNI2B2C 1997 "Material Science Division-Science and Technology Center for Superconductivity, Argonne National Lab, Argonne,Illinois,USA" "Phys.Rev.Lett., 78(1997)4273"
111185 PRL0780547 gap was measured by optical conductivity. gap=3.46 meV YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 1 1997 LuNi2B2C K 15.6 15.6 A 4800 5.15 MTP11185 Optical conductivity of the superconductors LNi2B2C (L=Lu and Y) 1997 "Laboratorium fur Festkoperphysik, ETH-Zurich, Zurich, Switzerland" "Phys.Rev.Lett., 78(1997)547"
111186 PRL0780547 gap was measured by optical conductivity. gap=2.68 meV LuNi2B2C Lu1Ni2B2C1 Lu 1 Ni 2 B 2 C 1 3 1997 LuNi2B2C K 16.6 16.6 A 4900 3.75 Optical conductivity of the superconductors LNi2B2C (L=Lu and Y) 1997 "Laboratorium fur Festkoperphysik, ETH-Zurich, Zurich, Switzerland" "Phys.Rev.Lett., 78(1997)547"
111187 SSC1250017 LixBC is not s/c for 0.5Pc=15 kbar. gamma in mj/K2.mol-Ce. delta-C/gamma*Tc = 1.5 CeRhIn5 Ce1Rh1In5 Ce 1 Rh 1 In 5 3 2001 3.8 HoCoGa5 A 4.652 7.542 K 1.62 0 1.62 MTC11254 mj/mol.K2 400 In flux method Superconductivity and magnetism in a new class of heavy-fermion materials 2001 "Los Alamos National Lab, Los Alamos, NM, USA" "J.Mag.Mag.Mater., 226-230(2001)5-10"
111255 MMM2260005 gamma in mj/K2.mol-Ce. Tc = 1.2 K by R=0. Tc = 0.4 K from susceptibility. CeIrIn5 Ce1Ir1In5 Ce 1 Ir 1 In 5 3 2001 0.4 HoCoGa5 A 4.668 7.515 K 1.2 1.2 mj/mol.K2 720 In flux method Superconductivity and magnetism in a new class of heavy-fermion materials 2001 "Los Alamos National Lab, Los Alamos, NM, USA" "J.Mag.Mag.Mater., 226-230(2001)5-10"
111256 MMM2260005 gamma in mj/K2.mol-Ce. Ce2RhIn8 Ce2Rh1In8 Ce 2 Rh 1 In 8 3 2001 2.8 Ho2CoGa8 A 4.665 12.244 K mj/mol.K2 400 In flux method Superconductivity and magnetism in a new class of heavy-fermion materials 2001 "Los Alamos National Lab, Los Alamos, NM, USA" "J.Mag.Mag.Mater., 226-230(2001)5-10"
111257 MMM2260005 gamma in mj/K2.mol-Ce. Ce2IrIn8 Ce2Ir1In8 Ce 2 Ir 1 In 8 3 2001 Ho2CoGa8 A 4.671 12.214 K 0.05 mj/mol.K2 700 In flux method Superconductivity and magnetism in a new class of heavy-fermion materials 2001 "Los Alamos National Lab, Los Alamos, NM, USA" "J.Mag.Mag.Mater., 226-230(2001)5-10"
111258 P066220504 skutterudite. RR=2.8 uOhm.cm. RRR=100. delta-C/gamma*Tc = 1.5. LaOs4Sb12 La1Os4Sb12 La 1 Os 4 Sb 12 3 2002 K 0.74 0.74 mj/mol.K2 56 Sb-self-flux method Fermi surface of the heavy-fermion superconductor PrOs4Sb12 2002 "Tokyo Metropolitan University, Hachioji,Tokyo,Japan" "Phys.Rev.B, 66(2002)220504"
111259 P066224502 Neel-T from NMR "CeCu2(Si,Ge)2" Ce1Cu2Si1.98Ge0.02 Ce 1 Cu 2 Si 1.98 Ge 0.02 2002 0.7 CeCu2Si2 K 0.5 0.5 Exotic magnetism and superconductivity in Ge-substituted CeCu2Si2: A Cu NQR study 2002 "Osaka University, Toyonaka,Osaka,Japan" "Phys.Rev.B, 66(2002)224502"
111260 P066224502 Neel-T from NMR "CeCu2(Si,Ge)2" Ce1Cu2Si1.96Ge0.04 Ce 1 Cu 2 Si 1.96 Ge 0.04 2002 0.75 CeCu2Si2 K 0.4 0.4 Exotic magnetism and superconductivity in Ge-substituted CeCu2Si2: A Cu NQR study 2002 "Osaka University, Toyonaka,Osaka,Japan" "Phys.Rev.B, 66(2002)224502"
111261 P066224502 "CeCu2(Si,Ge)2" Ce1Cu2Si1.92Ge0.08 Ce 1 Cu 2 Si 1.92 Ge 0.08 2002 CeCu2Si2 K 0.27 0.27 Exotic magnetism and superconductivity in Ge-substituted CeCu2Si2: A Cu NQR study 2002 "Osaka University, Toyonaka,Osaka,Japan" "Phys.Rev.B, 66(2002)224502"
111262 P066224502 Neel-T from NMR "CeCu2(Si,Ge)2" Ce1Cu2Si1.88Ge0.12 Ce 1 Cu 2 Si 1.88 Ge 0.12 2002 0.9 CeCu2Si2 K 0.2 0.2 Exotic magnetism and superconductivity in Ge-substituted CeCu2Si2: A Cu NQR study 2002 "Osaka University, Toyonaka,Osaka,Japan" "Phys.Rev.B, 66(2002)224502"
111263 P066224502 Neel-T from NMR "CeCu2(Si,Ge)2" Ce1Cu2Si1.8Ge0.2 Ce 1 Cu 2 Si 1.8 Ge 0.2 2002 1 CeCu2Si2 K 0.15 0.15 Exotic magnetism and superconductivity in Ge-substituted CeCu2Si2: A Cu NQR study 2002 "Osaka University, Toyonaka,Osaka,Japan" "Phys.Rev.B, 66(2002)224502"
111264 P066224502 Neel-T from NMR "CeCu2(Si,Ge)2" Ce1Cu2Si1.6Ge0.4 Ce 1 Cu 2 Si 1.6 Ge 0.4 2002 1.5 CeCu2Si2 K Exotic magnetism and superconductivity in Ge-substituted CeCu2Si2: A Cu NQR study 2002 "Osaka University, Toyonaka,Osaka,Japan" "Phys.Rev.B, 66(2002)224502"
111265 P066224502 Neel-T from NMR "CeCu2(Si,Ge)2" Ce1Cu2Si1.4Ge0.6 Ce 1 Cu 2 Si 1.4 Ge 0.6 2002 2 CeCu2Si2 K Exotic magnetism and superconductivity in Ge-substituted CeCu2Si2: A Cu NQR study 2002 "Osaka University, Toyonaka,Osaka,Japan" "Phys.Rev.B, 66(2002)224502"
111266 P066224502 "CeCu2(Si,Ge)2" Ce1Cu2Si2 Ce 1 Cu 2 Si 2 2002 CeCu2Si2 K 0.64 0.64 Exotic magnetism and superconductivity in Ge-substituted CeCu2Si2: A Cu NQR study 2002 "Osaka University, Toyonaka,Osaka,Japan" "Phys.Rev.B, 66(2002)224502"
111267 PHC3830295 Y2PdGe3 Y2Pd1Ge3 Y 2 Pd 1 Ge 3 2003 AlB2 A 4.1853 4.0009 "AlB2, C32" K 3.58 3.58 arc-melting Chemical substitution effects of Si and C on AlB2-type superconductor Y2PdGe3 2003 "Department of Physics, Faculty of Engineering, Yokohama National University, Yokohama,Japan" "Physica C, 383(2003)295"
111268 PHC3830295 Y2PdSi3 Y2Pd1Si3 Y 2 Pd 1 Si 3 2003 AlB2 A 4.0686 4.0354 "AlB2, C32" K 1.8 arc-melting Chemical substitution effects of Si and C on AlB2-type superconductor Y2PdGe3 2003 "Department of Physics, Faculty of Engineering, Yokohama National University, Yokohama,Japan" "Physica C, 383(2003)295"
111269 PHC3830295 "Y2Pd(Si,C)3" Y2Pd1Si2.25C0.75 Y 2 Pd 1 Si 2.25 C 0.75 2003 AlB2 A 4.1305 3.9425 "AlB2, C32" K 2.27 2.27 arc-melting Chemical substitution effects of Si and C on AlB2-type superconductor Y2PdGe3 2003 "Department of Physics, Faculty of Engineering, Yokohama National University, Yokohama,Japan" "Physica C, 383(2003)295"
111270 PHC3830295 "Y2Pd(Si,C)3" Y2Pd1Si2C1 Y 2 Pd 1 Si 2 C 1 2003 AlB2 A 4.1269 3.9238 "AlB2, C32" K 2.2 2.2 arc-melting Chemical substitution effects of Si and C on AlB2-type superconductor Y2PdGe3 2003 "Department of Physics, Faculty of Engineering, Yokohama National University, Yokohama,Japan" "Physica C, 383(2003)295"
111271 PHC3830421 YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 2003 LuNi2B2C K 15.6 15.6 arc-melting The interplay of magnetic order and superconductivity in GdxY1-xNi2B2C 2003 "Institut fur Festkorper-und Werkstofforschung Dresden, Dresden, Germany" "Physica C, 383(2003)421"
111272 PHC3830421 "(Y,Gd)Ni2B2C" Y0.95Gd0.05Ni2B2C1 Y 0.95 Gd 0.05 Ni 2 B 2 C 1 2003 LuNi2B2C K 14 14 arc-melting The interplay of magnetic order and superconductivity in GdxY1-xNi2B2C 2003 "Institut fur Festkorper-und Werkstofforschung Dresden, Dresden, Germany" "Physica C, 383(2003)421"
111273 PHC3830421 "(Y,Gd)Ni2B2C" Y0.9Gd0.1Ni2B2C1 Y 0.9 Gd 0.1 Ni 2 B 2 C 1 2003 LuNi2B2C K 12.3 12.3 arc-melting The interplay of magnetic order and superconductivity in GdxY1-xNi2B2C 2003 "Institut fur Festkorper-und Werkstofforschung Dresden, Dresden, Germany" "Physica C, 383(2003)421"
111274 PHC3830421 "(Y,Gd)Ni2B2C" Y0.85Gd0.15Ni2B2C1 Y 0.85 Gd 0.15 Ni 2 B 2 C 1 2003 LuNi2B2C K 10.6 10.6 arc-melting The interplay of magnetic order and superconductivity in GdxY1-xNi2B2C 2003 "Institut fur Festkorper-und Werkstofforschung Dresden, Dresden, Germany" "Physica C, 383(2003)421"
111275 PHC3830421 "(Y,Gd)Ni2B2C" Y0.8Gd0.2Ni2B2C1 Y 0.8 Gd 0.2 Ni 2 B 2 C 1 2003 LuNi2B2C K 8.1 8.1 arc-melting The interplay of magnetic order and superconductivity in GdxY1-xNi2B2C 2003 "Institut fur Festkorper-und Werkstofforschung Dresden, Dresden, Germany" "Physica C, 383(2003)421"
111276 PHC3830421 "(Y,Gd)Ni2B2C" Y0.78Gd0.22Ni2B2C1 Y 0.78 Gd 0.22 Ni 2 B 2 C 1 2003 LuNi2B2C K 7.4 7.4 MHC11276 arc-melting The interplay of magnetic order and superconductivity in GdxY1-xNi2B2C 2003 "Institut fur Festkorper-und Werkstofforschung Dresden, Dresden, Germany" "Physica C, 383(2003)421"
111277 PHC3830421 "(Y,Gd)Ni2B2C" Y0.77Gd0.23Ni2B2C1 Y 0.77 Gd 0.23 Ni 2 B 2 C 1 2003 LuNi2B2C K 4.2 4.2 arc-melting The interplay of magnetic order and superconductivity in GdxY1-xNi2B2C 2003 "Institut fur Festkorper-und Werkstofforschung Dresden, Dresden, Germany" "Physica C, 383(2003)421"
111278 PHC3830421 "(Y,Gd)Ni2B2C" Y0.75Gd0.25Ni2B2C1 Y 0.75 Gd 0.25 Ni 2 B 2 C 1 2003 LuNi2B2C K 4.2 4.2 arc-melting The interplay of magnetic order and superconductivity in GdxY1-xNi2B2C 2003 "Institut fur Festkorper-und Werkstofforschung Dresden, Dresden, Germany" "Physica C, 383(2003)421"
111279 PHC3830421 "(Y,Gd)Ni2B2C" Y0.65Gd0.35Ni2B2C1 Y 0.65 Gd 0.35 Ni 2 B 2 C 1 2003 4.8 LuNi2B2C K 1.8 arc-melting The interplay of magnetic order and superconductivity in GdxY1-xNi2B2C 2003 "Institut fur Festkorper-und Werkstofforschung Dresden, Dresden, Germany" "Physica C, 383(2003)421"
111280 PHC3830421 "(Y,Gd)Ni2B2C" Y0.6Gd0.4Ni2B2C1 Y 0.6 Gd 0.4 Ni 2 B 2 C 1 2003 6.1 LuNi2B2C K 1.8 arc-melting The interplay of magnetic order and superconductivity in GdxY1-xNi2B2C 2003 "Institut fur Festkorper-und Werkstofforschung Dresden, Dresden, Germany" "Physica C, 383(2003)421"
111281 PHC3830421 spin reorientation temp. = 6.83 "(Y,Gd)Ni2B2C" Y0.5Gd0.5Ni2B2C1 Y 0.5 Gd 0.5 Ni 2 B 2 C 1 2003 8.62 LuNi2B2C K 1.8 arc-melting The interplay of magnetic order and superconductivity in GdxY1-xNi2B2C 2003 "Institut fur Festkorper-und Werkstofforschung Dresden, Dresden, Germany" "Physica C, 383(2003)421"
111282 PHC3830421 spin reorientation temp. = 11.0 "(Y,Gd)Ni2B2C" Y0.25Gd0.75Ni2B2C1 Y 0.25 Gd 0.75 Ni 2 B 2 C 1 2003 14.4 LuNi2B2C K 1.8 arc-melting The interplay of magnetic order and superconductivity in GdxY1-xNi2B2C 2003 "Institut fur Festkorper-und Werkstofforschung Dresden, Dresden, Germany" "Physica C, 383(2003)421"
111283 PHC3830421 spin reorientation temp. = 12.5 GdNi2B2C Gd1Ni2B2C1 Gd 1 Ni 2 B 2 C 1 2003 18.3 LuNi2B2C K 1.8 arc-melting The interplay of magnetic order and superconductivity in GdxY1-xNi2B2C 2003 "Institut fur Festkorper-und Werkstofforschung Dresden, Dresden, Germany" "Physica C, 383(2003)421"
111284 PHC3840071 RR=28.35 uOhm.cm. RRR=4.4. Tc defined as R=0. gamma in mj/K2.mol-La. delta-C/gamma*Tc = 0.66 La6Ni2Sn La6Ni2Sn1 La 6 Ni 2 Sn 1 2003 Ho6Ni2Sn K 2.25 2.25 kOe 6.24 kOe/K 4 A 230 MSP11284 mj/mol.K2 6.3 135 arc-melting Superconductivity in the Ni-based ternary compound La6Ni2Sn 2003 "Department of Physics, National Taiwan University, Taipei,Taiwan,ROC" "Physica C, 384(2003)71-74"
111285 PHC2330367 G-L parameter = 35 YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 1 1994 LuNi2B2C A 3.524 10.535 K 15.5 15.5 Oe 83.5 T 4.76 MHC11285 A 100 A 3500 induction furnace under Ar Magnetic properties of YNi2B2C superconductor 1994 11 "Physica C.,233(1994) 367-372" "Y,B,Ni,C"
111286 PHC2270321 "Hirr(T)=A(1-T/Tc)**n , n = 1.16. properties are for H//c-axis. G-L parameter = 15" YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 3 1994 LuNi2B2C K 15.5 15.5 Oe 230 T 3.2 T/K 0.32 nm 10 nm 15 Ni2B flux method Superconducting state magnetization and critical fields of single crystal YNi2B2C 1994 7 "Physica C, 227(1994)321-326" "Y,Ni,B,C"
111287 PSS1890489 YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 1995 LuNi2B2C A 3.526 10.5824 K 15.5 15.5 arc-melting "Pair-breaking and magnetic ordering in the pseudo-quaternary intermetallic series (Y,Gd)Ni2B2C" 1995 "Rio de Janeiro,Brazil" "Phys.stat.sol.(b), 189(1995)489"
111288 PSS1890489 "(Y,Gd)Ni2B2C" Y0.95Gd0.05Ni2B2C1 Y 0.95 Gd 0.05 Ni 2 B 2 C 1 1995 LuNi2B2C A 3.5317 10.5788 K 13 13 arc-melting "Pair-breaking and magnetic ordering in the pseudo-quaternary intermetallic series (Y,Gd)Ni2B2C" 1995 "Rio de Janeiro,Brazil" "Phys.stat.sol.(b), 189(1995)489"
111289 PSS1890489 "(Y,Gd)Ni2B2C" Y0.9Gd0.1Ni2B2C1 Y 0.9 Gd 0.1 Ni 2 B 2 C 1 1995 2 LuNi2B2C A 3.5308 10.5647 K 11.2 11.2 arc-melting "Pair-breaking and magnetic ordering in the pseudo-quaternary intermetallic series (Y,Gd)Ni2B2C" 1995 "Rio de Janeiro,Brazil" "Phys.stat.sol.(b), 189(1995)489"
111290 PSS1890489 "(Y,Gd)Ni2B2C" Y0.85Gd0.15Ni2B2C1 Y 0.85 Gd 0.15 Ni 2 B 2 C 1 1995 2.63 LuNi2B2C A 3.5327 10.5541 K 9.3 9.3 arc-melting "Pair-breaking and magnetic ordering in the pseudo-quaternary intermetallic series (Y,Gd)Ni2B2C" 1995 "Rio de Janeiro,Brazil" "Phys.stat.sol.(b), 189(1995)489"
111291 PSS1890489 "(Y,Gd)Ni2B2C" Y0.78Gd0.22Ni2B2C1 Y 0.78 Gd 0.22 Ni 2 B 2 C 1 1995 4.29 LuNi2B2C A 3.5346 10.5471 K 6.64 6.64 arc-melting "Pair-breaking and magnetic ordering in the pseudo-quaternary intermetallic series (Y,Gd)Ni2B2C" 1995 "Rio de Janeiro,Brazil" "Phys.stat.sol.(b), 189(1995)489"
111292 PSS1890489 "(Y,Gd)Ni2B2C" Y0.75Gd0.25Ni2B2C1 Y 0.75 Gd 0.25 Ni 2 B 2 C 1 1995 LuNi2B2C A 3.5337 10.5224 K 4.84 4.84 arc-melting "Pair-breaking and magnetic ordering in the pseudo-quaternary intermetallic series (Y,Gd)Ni2B2C" 1995 "Rio de Janeiro,Brazil" "Phys.stat.sol.(b), 189(1995)489"
111293 PSS1890489 "(Y,Gd)Ni2B2C" Y0.6Gd0.4Ni2B2C1 Y 0.6 Gd 0.4 Ni 2 B 2 C 1 1995 6.36 LuNi2B2C A 3.5356 10.5047 K 4.2 arc-melting "Pair-breaking and magnetic ordering in the pseudo-quaternary intermetallic series (Y,Gd)Ni2B2C" 1995 "Rio de Janeiro,Brazil" "Phys.stat.sol.(b), 189(1995)489"
111294 PSS1890489 "(Y,Gd)Ni2B2C" Y0.4Gd0.6Ni2B2C1 Y 0.4 Gd 0.6 Ni 2 B 2 C 1 1995 10.8 LuNi2B2C A 3.55 10.4376 K 4.2 arc-melting "Pair-breaking and magnetic ordering in the pseudo-quaternary intermetallic series (Y,Gd)Ni2B2C" 1995 "Rio de Janeiro,Brazil" "Phys.stat.sol.(b), 189(1995)489"
111295 PSS1890489 "(Y,Gd)Ni2B2C" Y0.2Gd0.8Ni2B2C1 Y 0.2 Gd 0.8 Ni 2 B 2 C 1 1995 15.2 LuNi2B2C A 3.5596 10.3953 K 4.2 arc-melting "Pair-breaking and magnetic ordering in the pseudo-quaternary intermetallic series (Y,Gd)Ni2B2C" 1995 "Rio de Janeiro,Brazil" "Phys.stat.sol.(b), 189(1995)489"
111296 PSS1890489 GdNi2B2C Gd1Ni2B2C1 Gd 1 Ni 2 B 2 C 1 1995 20 LuNi2B2C A 3.5769 10.3706 K 4.2 arc-melting "Pair-breaking and magnetic ordering in the pseudo-quaternary intermetallic series (Y,Gd)Ni2B2C" 1995 "Rio de Janeiro,Brazil" "Phys.stat.sol.(b), 189(1995)489"
111297 PHC3840227 "RRR=1.6. Anisotropy factor=2. Jc(1.8K,H=0)=30 kA/cm2. delta-C at Tc = 23 mj/mol.K. data from sp-hat." "Mg(B,C)2" Mg1B1.6C0.4 Mg 1 B 1.6 C 0.4 1 2003 AlB2 "AlB2, C32" K 22 22 T 16 MHC11297 mj/mol.K2 1.9 685 "heat(1100C,24h) using (Mg + B4C)" Carbon doping of superconducting magnesium diboride 2003 "Ames Lab, Iowa State University, Ames, Iowa,USA" "Physica C, 384(2003)227-236"
111298 L087137005 point contact tunneling. two gaps (7meV and 2.8meV) coexist. 2*delta/kTc = 4.14 and 1.67. MgB2 B2Mg1 B 2 Mg 1 1 2001 AlB2 "AlB2, C32" K 39.3 39.3 4.14 1 Evidence for two superconducting energy gaps in MgB2 by point-contact spectroscopy 2001 "Institute of Experimental Physics,Solvac Academy of Sciences,Kosice,Slovakia" "Phys.Rev.Lett., 87(2001)137005"
111299 L087047001 sample is MgB<11>2. specific heat measurement under H. e-ph coupling = 0.62. delta-C=133 mj/mol.K at Tc. MgB2 B2Mg1 B 2 Mg 1 1 2001 AlB2 "AlB2, C32" K 38.7 38.7 mj/mol.K2 2.6 1050 "(B<11>+Mg) - heat(850C, 1.5h, p=50 bar Ar)" Specific heat of MgB<11>2: Evidence for a second energy gap 2001 "University of California,Berkeley,California,USA" "Phys.Rev.Lett., 87(2001)47001"
111300 PR05203844 RRR=27. Neel-T by NED. Curie-T is estimated for poly using -82K for H//c and =25K for H//ab. DyNi2B2C Dy1Ni2B2C1 Dy 1 Ni 2 B 2 C 1 3 1995 1 10.3 LuNi2B2C A 3.534 10.484 K 6.4 6.4 kG/K 1.2 Ni2B flux method Onset of superconductivity in the antiferromagnetically ordered state of single-crystal DyNi2B2C 1995 8 "Ames Laboratory and Department of Physics and Astonomy,lowa State University,Ames,Iowa 50011" "Phys.Rev.B,52(1955)R3844"
111301 SSC0590839 ZrOsSi Zr1Os1Si1 Zr 1 Os 1 Si 1 1986 TiNiSi A 6.411 4.041 7.453 K 1.72 1.72 arc-melting "Relationships between occurrence of superconductivity and crystal structure in new equiatomic ternary silisides MTSi (M=Ti, Zr, Hf and T=Ru, Os, Rh)" 1986 "Solid State Commun., 59(1986)839"
111302 SSC0590839 ZrIrSi Zr1Ir1Si1 Zr 1 Ir 1 Si 1 1986 TiNiSi A 6.5578 3.9537 7.3762 K 2.04 2.04 arc-melting "Relationships between occurrence of superconductivity and crystal structure in new equiatomic ternary silisides MTSi (M=Ti, Zr, Hf and T=Ru, Os, Rh)" 1986 "Solid State Commun., 59(1986)839"
111303 SSC0590839 HfIrSi Hf1Ir1Si1 Hf 1 Ir 1 Si 1 1986 TiNiSi A 6.471 3.938 7.3763 K 3.5 3.5 arc-melting "Relationships between occurrence of superconductivity and crystal structure in new equiatomic ternary silisides MTSi (M=Ti, Zr, Hf and T=Ru, Os, Rh)" 1986 "Solid State Commun., 59(1986)839"
111304 SCI2981213 pressure-induced s/c. Tc(max)=17 K at p=66 GPa (cI16-phase). Li Li1 Li 1 2002 K 17 0 17 MTC11304 Superconductivity in dense Lithium 2002 "Science, 298(2002)1213"
111305 NAT4190597 "pressure-induced s/c. Pc = 23 GPa. Tc(fcc,max)=15 K. Tc(cI16-phase)=20 K. Hc2(T) at p=34 GPa." Li Li1 Li 1 2002 K 20 0 20 T 3 MHC11305 Jonson-Mathey Li(99.999%) Superconductivity in compressed lithium at 20 K 2002 Osaka University "Nature, 419(2002)597"
111306 NAT4200297 Tc decrease at 0.2 K/month. Hc2(0) by WHH fitting. delta-C/Tc = 110 mj/mol.K2. G-L parameter = 32 PuCoGa5 Pu1Co1Ga5 Pu 1 Co 1 Ga 5 3 2002 HoCoGa5 A 4.232 6.786 K 18.5 18.5 Oe 350 T 74 T/K 5.9 A 21 A 1240 MSP11306 mj/mol.K2 77 240 "(Pu+Co) with excess Ga in alumina, heat(1100C) - cool to 600C(10C/h)" Plutonium-based superconductivity with a transition temperature above 18 K 2002 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "Nature, 420(2002)297"
111307 PCS0280333 Hc2(0) means Hc2(4.2K). NbC0.2Nx Nb1C0.2N0.64 Nb 1 C 0.2 N 0.64 1967 K 16.3 16.3 kG 43.7 NbCx + nitriding under N2 pressure. Superconductivity of cubic niobium carbo-nitrides 1967 "University of California,Berkeley,California,USA" "J.Phys.Chem.Solids, 28(1967)333-341"
111308 PCS0280333 Hc2(0) means Hc2(4.2K). NbC0.2Nx Nb1C0.2N0.7 Nb 1 C 0.2 N 0.7 1967 K 17.2 17.2 kG 85.6 NbCx + nitriding under N2 pressure. Superconductivity of cubic niobium carbo-nitrides 1967 "University of California,Berkeley,California,USA" "J.Phys.Chem.Solids, 28(1967)333-341"
111309 PCS0280333 Hc2(0) means Hc2(4.2K). NbC0.2Nx Nb1C0.2N0.74 Nb 1 C 0.2 N 0.74 1967 K 17.5 17.5 kG 108.8 NbCx + nitriding under N2 pressure. Superconductivity of cubic niobium carbo-nitrides 1967 "University of California,Berkeley,California,USA" "J.Phys.Chem.Solids, 28(1967)333-341"
111310 PCS0280333 Hc2(0) means Hc2(4.2K). NbC0.3Nx Nb1C0.3N0.57 Nb 1 C 0.3 N 0.57 1967 K 16.4 16.4 kG 46.5 NbCx + nitriding under N2 pressure. Superconductivity of cubic niobium carbo-nitrides 1967 "University of California,Berkeley,California,USA" "J.Phys.Chem.Solids, 28(1967)333-341"
111311 PCS0280333 Hc2(0) means Hc2(4.2K). NbC0.3Nx Nb1C0.3N0.62 Nb 1 C 0.3 N 0.62 1967 K 17.3 17.3 kG 85.6 NbCx + nitriding under N2 pressure. Superconductivity of cubic niobium carbo-nitrides 1967 "University of California,Berkeley,California,USA" "J.Phys.Chem.Solids, 28(1967)333-341"
111312 PCS0280333 Hc2(0) means Hc2(4.2K). NbC0.3Nx Nb1C0.3N0.64 Nb 1 C 0.3 N 0.64 1967 K 17.8 17.8 kG 105.1 NbCx + nitriding under N2 pressure. Superconductivity of cubic niobium carbo-nitrides 1967 "University of California,Berkeley,California,USA" "J.Phys.Chem.Solids, 28(1967)333-341"
111313 PCS0280333 Hc2(0) means Hc2(4.2K). NbC0.3Nx Nb1C0.3N0.7 Nb 1 C 0.3 N 0.7 1967 K 17.7 17.7 kG 111.6 NbCx + nitriding under N2 pressure. Superconductivity of cubic niobium carbo-nitrides 1967 "University of California,Berkeley,California,USA" "J.Phys.Chem.Solids, 28(1967)333-341"
111314 PCS0280333 Hc2(0) means Hc2(4.2K). NbC0.5Nx Nb1C0.5N0.36 Nb 1 C 0.5 N 0.36 1967 K 15.6 15.6 kG 48.4 NbCx + nitriding under N2 pressure. Superconductivity of cubic niobium carbo-nitrides 1967 "University of California,Berkeley,California,USA" "J.Phys.Chem.Solids, 28(1967)333-341"
111315 PCS0280333 Hc2(0) means Hc2(4.2K). NbC0.5Nx Nb1C0.5N0.42 Nb 1 C 0.5 N 0.42 1967 K 17 17 kG 80 NbCx + nitriding under N2 pressure. Superconductivity of cubic niobium carbo-nitrides 1967 "University of California,Berkeley,California,USA" "J.Phys.Chem.Solids, 28(1967)333-341"
111316 PCS0280333 Hc2(0) means Hc2(4.2K). NbC0.5Nx Nb1C0.5N0.47 Nb 1 C 0.5 N 0.47 1967 K 17.4 17.4 kG 79.1 NbCx + nitriding under N2 pressure. Superconductivity of cubic niobium carbo-nitrides 1967 "University of California,Berkeley,California,USA" "J.Phys.Chem.Solids, 28(1967)333-341"
111317 PCS0280333 Hc2(0) means Hc2(4.2K). NbC0.5Nx Nb1C0.5N0.5 Nb 1 C 0.5 N 0.5 1967 K 17.9 17.9 kG 94 NbCx + nitriding under N2 pressure. Superconductivity of cubic niobium carbo-nitrides 1967 "University of California,Berkeley,California,USA" "J.Phys.Chem.Solids, 28(1967)333-341"
111318 SSC1230001 MgB2 B2Mg1 B 2 Mg 1 2002 AlB2 A 3.08 3.56 "AlB2, C32" K 37 37 Fluoride doping and boron particle size effect on MgB2-xFx superconductor 2002 "Department of Chemistry, Faculty of Science, Tanta university, Tanta, Egypt" "Solid State Commun., 123(2002)1-6"
111319 SSC1230001 "Mg(B,F)2" Mg1B1.96F0.04 Mg 1 B 1.96 F 0.04 2002 AlB2 A 3.083 3.67 "AlB2, C32" K 30 30 "mixture(Mg,MgF,B) - sinter(970C)" Fluoride doping and boron particle size effect on MgB2-xFx superconductor 2002 "Department of Chemistry, Faculty of Science, Tanta university, Tanta, Egypt" "Solid State Commun., 123(2002)1-6"
111320 SSC1230001 "Mg(B,F)2" Mg1B1.92F0.08 Mg 1 B 1.92 F 0.08 2002 AlB2 A 3.091 3.71 "AlB2, C32" K 21 21 "mixture(Mg,MgF,B) - sinter(970C)" Fluoride doping and boron particle size effect on MgB2-xFx superconductor 2002 "Department of Chemistry, Faculty of Science, Tanta university, Tanta, Egypt" "Solid State Commun., 123(2002)1-6"
111321 SSC1230001 "Mg(B,F)2" Mg1B1.84F0.16 Mg 1 B 1.84 F 0.16 2002 AlB2 A 3.093 3.86 "AlB2, C32" K 16 16 "mixture(Mg,MgF,B) - sinter(970C)" Fluoride doping and boron particle size effect on MgB2-xFx superconductor 2002 "Department of Chemistry, Faculty of Science, Tanta university, Tanta, Egypt" "Solid State Commun., 123(2002)1-6"
111322 SSC1210575 porous(d=0.67 g/cm3).Hc2(0) value by empirical curve fitting. Hc2(0)=12.5 T by WHH fitting. Hc1(0) by magnetization. G-L parameter = 50 MgB2 B2Mg1 B 2 Mg 1 2002 AlB2 A 3.14 3.52 "AlB2, C32" K 38.6 38.6 Oe 120 T 15.5 MHC11322 A 46 A 2300 solid state reaction Thermal fluctuation and upper critical field of MgB2 superconductor 2002 "Department of Physics, National Hsing University, Taichung,Taiwan,ROC" "Solid State Commun., 121(2002)575"
111323 PCS0280333 Hc2(0) means Hc2(4.2K). NbC0.2Nx Nb1C0.2N0.8 Nb 1 C 0.2 N 0.8 1967 K 17.6 17.6 kG 113.5 NbCx + nitriding under N2 pressure. Superconductivity of cubic niobium carbo-nitrides 1967 "University of California,Berkeley,California,USA" "J.Phys.Chem.Solids, 28(1967)333-341"
111324 SSC1210497 MgB2 B2Mg1 B 2 Mg 1 2002 AlB2 "AlB2, C32" K 38.14 38.14 Effects of copper doping in MgB2 superconductor 2002 "Faenza,Italy" "Solid State Commun., 121(2002)497"
111325 SSC1210497 "(Mg,Cu)B2" Mg0.996Cu0.004B2 Mg 0.996 Cu 0.004 B 2 2002 AlB2 A 3.084 3.5215 "AlB2, C32" K 38.11 38.11 mix(Mg+CuB24) - heat pellet in Ar Effects of copper doping in MgB2 superconductor 2002 "Faenza,Italy" "Solid State Commun., 121(2002)497"
111326 SSC1210497 "(Mg,Cu)B2" Mg0.989Cu0.011B2 Mg 0.989 Cu 0.011 B 2 2002 AlB2 A 3.0824 3.52 "AlB2, C32" K 38.05 38.05 mix(Mg+CuB24) - heat pellet in Ar Effects of copper doping in MgB2 superconductor 2002 "Faenza,Italy" "Solid State Commun., 121(2002)497"
111327 SSC1210497 "(Mg,Cu)B2" Mg0.982Cu0.018B2 Mg 0.982 Cu 0.018 B 2 2002 AlB2 A 3.0809 3.519 "AlB2, C32" K 37.8 37.8 mix(Mg+CuB24) - heat pellet in Ar Effects of copper doping in MgB2 superconductor 2002 "Faenza,Italy" "Solid State Commun., 121(2002)497"
111328 SSC1210497 "(Mg,Cu)B2" Mg0.97Cu0.03B2 Mg 0.97 Cu 0.03 B 2 2002 AlB2 A 3.0779 3.5165 "AlB2, C32" K 37.58 37.58 mix(Mg+CuB24) - heat pellet in Ar Effects of copper doping in MgB2 superconductor 2002 "Faenza,Italy" "Solid State Commun., 121(2002)497"
111329 P067020506 pressure-induced s/c. incommensulate AF=1.65 K. dTn/dP=-0.76 K/GPa. s/c properties at P=1.63 GPa. gamma in mj/mol-Ce.K2 at P=1.63 GPa. Tc shows Tc(max). Ce2RhIn8 Ce2Rh1In8 Ce 2 Rh 1 In 8 2003 2.8 Ho2CoGa8 A 4.4665 12.244 K 2 0 2 MPH11329 kOe 53.6 kOe/K 91.8 A 77 mj/mol.K2 200 excess In flux Magnetism and superconductivity in Ce2RhIn8 2003 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "Phys.Rev.B, 67(2003)020506"
111330 P067024519 powder(av. d=2 um). s/c volume fraction=20%. Hc2(0) by WHH. (NH3)0.72NaK2C60 N0.72H2.16Na1K3C60 N 0.72 H 2.16 Na 1 K 3 C 60 2003 fullerene K 12 12 Oe 0.87 T 40 T/K 5 A 28.6 um 1.4 "After intercalation, NH3 was evaporated. Then ANN(100C,10d)" Muon spin rotation and SQUID investigation of superconductivity in (NH3)xNaK2C60 (x=0.7) 2003 "Universita di Parma, Parma,Italy" "Phys.Rev.B, 67(2003)024519"
111331 L090027001 gap by NMR PrOs4Sb12 Pr1Os4Sb12 Pr 1 Os 4 Sb 12 2003 K 1.85 1.85 5.2 Sb-flux method Evidence for unconventional strong-coupling superconductivity in PrOs4Sb12: An Sb nuclear quadrupole resonance study 2003 "Osaka University, Toyonaka,Osaka,Japan" "Phys.Rev.Lett., 90(2003)27001"
111332 L090027001 gap by NMR. conventional s-wave s/c. LaOs4Sb12 La1Os4Sb12 La 1 Os 4 Sb 12 2003 K 0.75 0.75 3.2 Sb-flux method Evidence for unconventional strong-coupling superconductivity in PrOs4Sb12: An Sb nuclear quadrupole resonance study 2003 "Osaka University, Toyonaka,Osaka,Japan" "Phys.Rev.Lett., 90(2003)27001"
111333 L090057001 "scutterudite. H//principal axis. sample has twoTc, second Tc = 1.75 K. delta-C/gamma*Tc = 3." PrOs4Sb12 Pr1Os4Sb12 Pr 1 Os 4 Sb 12 2003 K 1.85 1.85 T 2.1 MSP11333 mj/mol.K2 313 165 Sb-flux method Low-temperature specific heat of the heavy-fermion superconductor PrOs4Sb12 2003 "Universitat Karlsruhe, Karlsruhe,Germany" "Phys.Rev.Lett., 90(2003)57001"
111334 PR05200483 pressure-induced s/c. Tc=28 K at P=14.8 kbar. shielding = 5 %. K3(NH3)C60 K3N1H3C60 K 3 N 1 H 3 C 60 1995 fullerene K 28 0 28 exposing K3C60 to NH3 Structural and electronic Propeerties of(NH3)xK3C60 1995 7 "AT&T bell Lavoratories,600 Mountain Avenue,Murray Hill,New Jersey" "Phys.Rev.B,52(1995)483"
111335 NAT3980047 epitaxial thin film on LaAlO3(111). gap(T=0 K)=0.235 meV by tunneling. UPd2Al3 U1Pd2Al3 U 1 Pd 2 Al 3 1999 12 K 1.6 1.6 3.41 1 Thin film by MBE Superconductivity mediated by spin fluctuations in the heavy-fermion compound UPd2Al3 1999 "Institute of Physics,Johannes Gutenberg-University, Staudingerweg,Mainz,Germany" "Nature, 398(1999)47"
111336 P067094502 "s/c properties estimated from Hc2, sp-heat, tunneling measurements. Hc(0)=0.19 T. delta-C/gamma*Tc = 2.1. G-L parameter = 54" MgCNi3 Mg1C1Ni3 Mg 1 C 1 Ni 3 1 2003 K 7.63 7.63 mT 10 T 14.4 A 46 A 2480 4.6 1 MSP11336 mj/mol.K2 30.1 284 solid state reaction Experimental determination of superconducting parameters for the intermetallic perovskite superconductor MgCNi3 2003 "Department of Physics,The Pennsylvania State University,Pennsylvania,USA" "Phys.Rev.B, 67(2003)094502"
111337 NAT3900382 pressure-induced s/c. Pc=10 GPa measured by steady state method. PrOs4Sb12 Pr1Os4Sb12 Pr 1 Os 4 Sb 12 3 2003 skutterudite K 1.82 1.82 T 2.2 MTHC11339 Sb-flux method Multiple Superconducting Phases in New Heavy Fermion Superconductor PrOs4Sb12 2003 "Institute for Solid State Physics, University of Tokyo, Kashiwanoha 5-1-5, Kashiwa, Chiba , Japan" "Phys.Rev.Lett., 90(2003)117001"
111340 P067094504 RRR=3.6-4.1. multiple gaps observed by tunneling. table value shows the largest gap. The smallest is 2*delta/k*Tc = 1.2 MgB2 B2Mg1 B 2 Mg 1 1 2003 AlB2 "AlB2, C32" K 39.2 39.2 5 1 "heat(973 K,200 atm-Ar) + ANN(1623 K, 5.5 GPa)" Tunneling spectroscopy of the superconducting gap in MgB2 2003 "Hiroshima University, Higashi-Hiroshima, Japan" "Phys.Rev.B, 67(2003)094504"
111341 L087257601 C<13> enriched sample. gap from NMR. MgCNi3 Mg1C1Ni3 Mg 1 C 1 Ni 3 2001 K 7 7 3.2 6 <13>C NMR investigation of the superconductor MgCNi3 up to 800 K 2001 "MIT, Cambridge, Massachusetts, USA" "Phys.Rev.Lett., 87(2001)257601"
111342 MRB0351743 electron doped s/c. HxLiNbO2 H0.3Li1Nb1O2 H 0.3 Li 1 Nb 1 O 2 2000 A 2.922 10.48 K 5.5 5.5 H-spill over method. insertion in H2PtCl6.6H2O ethanol solution Superconductivity of hydrogen inserted LiNbO2 2000 "Yamanashi University,Kofu,Japan" "Mater.Res.Bull., 35(2000)1743"
111343 MRB0351743 electron doped s/c. HxLiNbO2 H0.5Li1Nb1O2 H 0.5 Li 1 Nb 1 O 2 2000 A 2.923 10.46 K 5.5 5.5 H-spill over method. insertion in H2PtCl6.6H2O ethanol solution Superconductivity of hydrogen inserted LiNbO2 2000 "Yamanashi University,Kofu,Japan" "Mater.Res.Bull., 35(2000)1743"
111344 P067064505 density=2.4 g/cm3. using crystalline B(-325 mesh). RRR=7.1. Debye-T obtained by fitting of n-state thermal conductivity. MgB2 B2Mg1 B 2 Mg 1 2003 AlB2 "AlB2, C32" K 38.9 38.9 1130 MTHC11344 "Ta-tube, heat(950C)" Thermal conductivity of MgB2 in the superconducting state 2003 "Genova,Italy" "Phys.Rev.B, 67(2003)064505"
111345 P067064505 using enriched crystalline B<11> (-325 mesh). RRR=15.3. Debye-T obtained by fitting of n-state thermal conductivity. MgB2 B2Mg1 B 2 Mg 1 2003 AlB2 "AlB2, C32" K 38.7 38.7 1190 MTHC11345 "Ta-tube, heat(950C)" Thermal conductivity of MgB2 in the superconducting state 2003 "Genova,Italy" "Phys.Rev.B, 67(2003)064505"
111346 JAP0917125 MgB2 B2Mg1 B 2 Mg 1 2002 AlB2 A 3.086 3.524 "AlB2, C32" K 39 39 "SIN(950C,2h)" Superconductivity of Mg(B1-xCx)2 ternary compounds 2002 "Beijing,China" "J.Appl.Phys., 91(2002)7125"
111347 JAP0917125 "Mg(B,C)2" Mg1B1.8C0.2 Mg 1 B 1.8 C 0.2 2002 AlB2 "AlB2, C32" K 37 37 "SIN(950C,2h)" Superconductivity of Mg(B1-xCx)2 ternary compounds 2002 "Beijing,China" "J.Appl.Phys., 91(2002)7125"
111348 JAP0917125 "Hc1, Jc not explicitly given" "Mg(B,C)2" Mg1B1.6C0.4 Mg 1 B 1.6 C 0.4 2002 AlB2 A 3.07 3.524 "AlB2, C32" K 34 34 "SIN(950C,2h)" Superconductivity of Mg(B1-xCx)2 ternary compounds 2002 "Beijing,China" "J.Appl.Phys., 91(2002)7125"
111349 EPL0580885 bulk. not s/c. kai-zero=2.96E-4. mag. impurity=11 ppm. gamma=in mj/mol.K2 Pt Pt1 Pt 1 2002 A 3.923 K mj/mol.K2 6.44 239 Tc-enhancement in superconducting granular platinum 2002 "Physikalisches Institut, Universitat Bayreuth, Bayreuth, Germany" "Europhys.Lett., 58(2002)885"
111350 EPL0580885 Hc2(0) =<0.07 mT. ave.grain=4.2 micron.m. kai-zero=3.25E-4. mag. impurity=3 ppm. gamma=in mj/mol.K2 Pt Pt1 Pt 1 2002 A 3.923 K 0.0019 0.0019 mj/mol.K2 6.42 234 Tc-enhancement in superconducting granular platinum 2002 "Physikalisches Institut, Universitat Bayreuth, Bayreuth, Germany" "Europhys.Lett., 58(2002)885"
111351 EPL0580885 ave.grain=1.3 micron.m. Hc2(0) =<0.07 mT. kai-zero=2.96E-4. mag. impurity=4 ppm. gamma=in mj/mol.K2 Pt Pt1 Pt 1 2002 A 3.923 K 0.0019 0.0019 mj/mol.K2 6.48 240 Tc-enhancement in superconducting granular platinum 2002 "Physikalisches Institut, Universitat Bayreuth, Bayreuth, Germany" "Europhys.Lett., 58(2002)885"
111352 EPL0580885 ave.grain=0.27 micron.m. kai-zero=2.11E-4. mag. impurity=17 ppm. gamma=in mj/mol.K2 Pt Pt1 Pt 1 2002 A 3.917 K 0.02 0.02 T 0.018 mj/mol.K2 5.77 210 Tc-enhancement in superconducting granular platinum 2002 "Physikalisches Institut, Universitat Bayreuth, Bayreuth, Germany" "Europhys.Lett., 58(2002)885"
111353 EPL0580885 ave.grain=0.19 micron.m. not s/c. kai-zero=2.39E-4. mag. impurity=49 ppm. gamma=in mj/mol.K2 Pt Pt1 Pt 1 2002 A 3.919 K mj/mol.K2 6.14 207 Tc-enhancement in superconducting granular platinum 2002 "Physikalisches Institut, Universitat Bayreuth, Bayreuth, Germany" "Europhys.Lett., 58(2002)885"
111354 EPL0580885 ave grain=0.11 micron.m. not s/c. kai-zero=2.52E-4. mag. impurity=143 ppm. gamma=in mj/mol.K2 Pt Pt1 Pt 1 2002 A 3.919 K mj/mol.K2 6.24 206 Tc-enhancement in superconducting granular platinum 2002 "Physikalisches Institut, Universitat Bayreuth, Bayreuth, Germany" "Europhys.Lett., 58(2002)885"
111355 JAP0917122 MgB2 B2Mg1 B 2 Mg 1 2002 AlB2 "AlB2, C32" K 37.6 37.6 "SIN(600C,1h + 800C,1h + 900C,1h)" Study of Al doping effect on superconductivity of Mg1-xAlxB2 2002 "National Lab of Solid State Microstructures, Department of Physics, Nanjing University, Nanjing, China" "J.Appl.Phys., 91(2002)7122"
111356 JAP0917122 "(Mg,Al)B2" Mg0.9Al0.1B2 Mg 0.9 Al 0.1 B 2 2002 AlB2 "AlB2, C32" K 36.1 36.1 "SIN(600C,1h + 800C,1h + 900C,1h)" Study of Al doping effect on superconductivity of Mg1-xAlxB2 2002 "National Lab of Solid State Microstructures, Department of Physics, Nanjing University, Nanjing, China" "J.Appl.Phys., 91(2002)7122"
111357 JAP0917122 "(Mg,Al)B2" Mg0.8Al0.2B2 Mg 0.8 Al 0.2 B 2 2002 AlB2 "AlB2, C32" K 29.6 29.6 "SIN(600C,1h + 800C,1h + 900C,1h)" Study of Al doping effect on superconductivity of Mg1-xAlxB2 2002 "National Lab of Solid State Microstructures, Department of Physics, Nanjing University, Nanjing, China" "J.Appl.Phys., 91(2002)7122"
111358 JAP0917122 "(Mg,Al)B2" Mg0.7Al0.3B2 Mg 0.7 Al 0.3 B 2 2002 AlB2 "AlB2, C32" K 22.1 22.1 "SIN(600C,1h + 800C,1h + 900C,1h)" Study of Al doping effect on superconductivity of Mg1-xAlxB2 2002 "National Lab of Solid State Microstructures, Department of Physics, Nanjing University, Nanjing, China" "J.Appl.Phys., 91(2002)7122"
111359 JAP0917122 "(Mg,Al)B2" Mg0.6Al0.4B2 Mg 0.6 Al 0.4 B 2 2002 AlB2 "AlB2, C32" K 12.2 12.2 "SIN(600C,1h + 800C,1h + 900C,1h)" Study of Al doping effect on superconductivity of Mg1-xAlxB2 2002 "National Lab of Solid State Microstructures, Department of Physics, Nanjing University, Nanjing, China" "J.Appl.Phys., 91(2002)7122"
111360 JAP0917122 "(Mg,Al)B2" Mg0.4Al0.6B2 Mg 0.4 Al 0.6 B 2 2002 AlB2 "AlB2, C32" K 5.85 5.85 "SIN(600C,1h + 800C,1h + 900C,1h)" Study of Al doping effect on superconductivity of Mg1-xAlxB2 2002 "National Lab of Solid State Microstructures, Department of Physics, Nanjing University, Nanjing, China" "J.Appl.Phys., 91(2002)7122"
111361 MLT0570059 "Y(Ni,Pd)2B2C" Y1Ni1.24Pd0.76B2C1 Y 1 Ni 1.24 Pd 0.76 B 2 C 1 1 2002 LuNi2B2C A 3.6509 10.6893 K 10.4 10.4 arc-melting + ANN(1300C) Constitution and superconductivity of Y(Ni1-xPdx)2B2C alloys 2002 "Institut fur Festkorper-und Werkstoffororschung Dresden, Dresden,Germany" "Materials Lett., 57(2002)59"
111362 MLT0570059 "Y(Ni,Pd)2B2C" Y1Ni1.34Pd0.66B2C1 Y 1 Ni 1.34 Pd 0.66 B 2 C 1 1 2002 LuNi2B2C A 3.6379 10.6857 K 10.4 10.4 arc-melting + ANN(1300C) Constitution and superconductivity of Y(Ni1-xPdx)2B2C alloys 2002 "Institut fur Festkorper-und Werkstoffororschung Dresden, Dresden,Germany" "Materials Lett., 57(2002)59"
111363 MLT0570059 "Y(Ni,Pd)2B2C" Y1Ni1.4Pd0.6B2C1 Y 1 Ni 1.4 Pd 0.6 B 2 C 1 1 2002 LuNi2B2C A 3.6117 10.6655 K 9.92 9.92 arc-melting + ANN(1300C) Constitution and superconductivity of Y(Ni1-xPdx)2B2C alloys 2002 "Institut fur Festkorper-und Werkstoffororschung Dresden, Dresden,Germany" "Materials Lett., 57(2002)59"
111364 MLT0570059 "Y(Ni,Pd)2B2C" Y1Ni1.46Pd0.54B2C1 Y 1 Ni 1.46 Pd 0.54 B 2 C 1 1 2002 LuNi2B2C A 3.5921 10.6488 K 10.1 10.1 arc-melting + ANN(1300C) Constitution and superconductivity of Y(Ni1-xPdx)2B2C alloys 2002 "Institut fur Festkorper-und Werkstoffororschung Dresden, Dresden,Germany" "Materials Lett., 57(2002)59"
111365 MLT0570059 "Y(Ni,Pd)2B2C" Y1Ni1.54Pd0.46B2C1 Y 1 Ni 1.54 Pd 0.46 B 2 C 1 1 2002 LuNi2B2C K 10.3 10.3 arc-melting + ANN(1300C) Constitution and superconductivity of Y(Ni1-xPdx)2B2C alloys 2002 "Institut fur Festkorper-und Werkstoffororschung Dresden, Dresden,Germany" "Materials Lett., 57(2002)59"
111366 MLT0570059 "Y(Ni,Pd)2B2C" Y1Ni1.7Pd0.3B2C1 Y 1 Ni 1.7 Pd 0.3 B 2 C 1 1 2002 LuNi2B2C A 3.5537 10.5976 K 10.7 10.7 arc-melting + ANN(1300C) Constitution and superconductivity of Y(Ni1-xPdx)2B2C alloys 2002 "Institut fur Festkorper-und Werkstoffororschung Dresden, Dresden,Germany" "Materials Lett., 57(2002)59"
111367 MLT0570059 "Y(Ni,Pd)2B2C" Y1Ni1.82Pd0.18B2C1 Y 1 Ni 1.82 Pd 0.18 B 2 C 1 1 2002 LuNi2B2C A 3.5416 10.5726 K 11.8 11.8 arc-melting + ANN(1300C) Constitution and superconductivity of Y(Ni1-xPdx)2B2C alloys 2002 "Institut fur Festkorper-und Werkstoffororschung Dresden, Dresden,Germany" "Materials Lett., 57(2002)59"
111368 MLT0570059 YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 1 2002 LuNi2B2C A 3.5276 10.5429 K 15 15 arc-melting + ANN(1300C) Constitution and superconductivity of Y(Ni1-xPdx)2B2C alloys 2002 "Institut fur Festkorper-und Werkstoffororschung Dresden, Dresden,Germany" "Materials Lett., 57(2002)59"
111369 PHC3900191 "RRR=2 - 3. Thermopower, thermal conductivity were measured (Fig.)." MgB2 B2Mg1 B 2 Mg 1 1 2003 AlB2 A 3.14 3.52 "AlB2, C32" K 39 39 MTP11369 "solid state reaction (700C,1h)" Studies of transport properties of MgB2 superconductor 2003 "Saha Institute of Nuclear Physics, 1/AF Bidhannagar, Kolkata 700 064, India" "Physica C, 390(2003)191"
111370 P067180501 gap by NMR. typical weak-coupling s-wave s/c. PrRu4Sb12 Pr1Ru4Sb12 Pr 1 Ru 4 Sb 12 2003 skutterudite K 1.3 1.3 3.1 6 Sb-flux method Sb-NQR probe for superconducting properties in the Pr-based filled-skutterudite compound PrRu4Sb12 2003 "Department of Physical Science, Graduate School of Engineering Science, Osaka University, Osaka, Japan" "Phys.Rev.B, 67(2003)180501"
111371 P067180501 gap by NMR. typical weak-coupling s-wave s/c. LaRu4Sb12 La1Ru4Sb12 La 1 Ru 4 Sb 12 2003 skutterudite K 3.5 3.5 3.6 6 Sb-flux method Sb-NQR probe for superconducting properties in the Pr-based filled-skutterudite compound PrRu4Sb12 2003 "Department of Physical Science, Graduate School of Engineering Science, Osaka University, Osaka, Japan" "Phys.Rev.B, 67(2003)180501"
111372 P067180508 "Hc1 from M-H curve. Authors say Hc1(0) is underestimation, then G-L parameter(= 31) overestimation. H//[001] direction." PrOs4Sb12 Pr1Os4Sb12 Pr 1 Os 4 Sb 12 3 2003 skutterudite K 1.85 1.85 Oe 23 Sb-flux method High-field ordered and superconducting phases in the heavy-fermion compound PrOs4Sb12 2003 "University of California, San Diego, La Jolla, California,USA" "Phys.Rev.B, 67(2003)180508"
111373 P067172508 amorphous films. alpha-MgxB1-x films. Mg-B film B0.67Mg0.33 B 0.67 Mg 0.33 3 2003 K 6.1 6.1 MTC11373 T 3.3 co-evaporation of Mg and B by e-gun on glass. Observation of superconductivity in thick amorphous MgxB1-x films 2003 "Research Center for Low Temperature Physics, Tokyo Institute of Technology, Ohokayama, Meguro-ku, Tokyo, Japan" "Phys.Rev.B, 67(2003)172508"
111374 P067212504 "pressure-induced s/c. Pc = 2 kbar. values of s/c properties are at P = 5 kbar. At ambient pressure, sort-range ferro- (Tm=6 K) and AF (Tn=4.3 K)" CeTe2 Ce1Te1.82 Ce 1 Te 1.82 3 2003 4.3 Cu2Sb K 2.7 0 2.7 MHC11374 Superconductivity in magnetically ordered CeTe1.82 2003 "National High Magnetic Field Laboratory, Los Alamos National Laboratory, Los Alamos, New Mexico, USA" "Phys.Rev.B, 67(2003)212504"
111375 PHC3660001 impurity phase = MgO MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 A 3.0872 3.5207 "AlB2, C32" K 38.3 38.3 solid state reaction Influence of the starting composition Mg1-xB2 on the structural and superconducting properties of the MgB2 phase 2001 "Department of Physics, Tsinghua University, Beijing, China" "Physica C, 366(2001)1"
111376 PHC3660001 impurity phase = MgB4 MgxB2 B2Mg0.9 B 2 Mg 0.9 2001 AlB2 A 3.0837 3.5219 "AlB2, C32" K 38.2 38.2 solid state reaction Influence of the starting composition Mg1-xB2 on the structural and superconducting properties of the MgB2 phase 2001 "Department of Physics, Tsinghua University, Beijing, China" "Physica C, 366(2001)1"
111377 PHC3660001 impurity phase = MgB4 MgxB2 B2Mg0.8 B 2 Mg 0.8 2001 AlB2 A 3.0818 3.5268 "AlB2, C32" K 38 38 solid state reaction Influence of the starting composition Mg1-xB2 on the structural and superconducting properties of the MgB2 phase 2001 "Department of Physics, Tsinghua University, Beijing, China" "Physica C, 366(2001)1"
111378 PHC3660001 impurity phase = MgB4 MgxB2 B2Mg0.7 B 2 Mg 0.7 2001 AlB2 A 3.0845 3.532 "AlB2, C32" K 37.2 37.2 solid state reaction Influence of the starting composition Mg1-xB2 on the structural and superconducting properties of the MgB2 phase 2001 "Department of Physics, Tsinghua University, Beijing, China" "Physica C, 366(2001)1"
111379 PHC3660001 impurity phase = MgB4 MgxB2 B2Mg0.6 B 2 Mg 0.6 2001 AlB2 A 3.0753 3.5283 "AlB2, C32" K 36.9 36.9 solid state reaction Influence of the starting composition Mg1-xB2 on the structural and superconducting properties of the MgB2 phase 2001 "Department of Physics, Tsinghua University, Beijing, China" "Physica C, 366(2001)1"
111380 PHC3660001 impurity phase = MgB4 MgxB2 B2Mg0.5 B 2 Mg 0.5 2001 AlB2 A 3.0762 3.531 "AlB2, C32" K 36 36 solid state reaction Influence of the starting composition Mg1-xB2 on the structural and superconducting properties of the MgB2 phase 2001 "Department of Physics, Tsinghua University, Beijing, China" "Physica C, 366(2001)1"
111381 SSC1190001 MgB2 B2Mg1 B 2 Mg 1 2001 AlB2 "AlB2, C32" K 38.6 38.6 "solid state reaction (600,800,900C, in V-container)" Substitution effect of Zn and Cu in MgB2 on Tc and structure 2001 "Solid State Physics Lab, ETH, Zurich, Switzerland" "Solid State Commun., 119(2001)1"
111382 SSC1190001 "(Mg,Zn)B2" Mg0.95Zn0.05B2 Mg 0.95 Zn 0.05 B 2 2001 AlB2 "AlB2, C32" K 38.3 38.3 "solid state reaction (600,800,900C, in V-container)" Substitution effect of Zn and Cu in MgB2 on Tc and structure 2001 "Solid State Physics Lab, ETH, Zurich, Switzerland" "Solid State Commun., 119(2001)1"
111383 SSC1190001 "(Mg,Zn)B2" Mg0.9Zn0.1B2 Mg 0.9 Zn 0.1 B 2 2001 AlB2 "AlB2, C32" K 38.4 38.4 K/GPa -1.5 "solid state reaction (600,800,900C, in V-container)" Substitution effect of Zn and Cu in MgB2 on Tc and structure 2001 "Solid State Physics Lab, ETH, Zurich, Switzerland" "Solid State Commun., 119(2001)1"
111384 SSC1190001 "(Mg,Zn)B2" Mg0.8Zn0.2B2 Mg 0.8 Zn 0.2 B 2 2001 AlB2 "AlB2, C32" K 38.4 38.4 "solid state reaction (600,800,900C, in V-container)" Substitution effect of Zn and Cu in MgB2 on Tc and structure 2001 "Solid State Physics Lab, ETH, Zurich, Switzerland" "Solid State Commun., 119(2001)1"
111385 SSC1190001 composition = nominal values. multi-phase sample. Cu does not substitute for Mg. "(Mg,Cu)B2" Mg0.9Cu0.1B2 Mg 0.9 Cu 0.1 B 2 2001 AlB2 "AlB2, C32" K 38.6 38.6 "solid state reaction (600,800,900C, in V-container)" Substitution effect of Zn and Cu in MgB2 on Tc and structure 2001 "Solid State Physics Lab, ETH, Zurich, Switzerland" "Solid State Commun., 119(2001)1"
111386 SSC1190001 composition = nominal values. multi-phase sample. Cu does not substitute for Mg. "(Mg,Cu)B2" Mg0.8Cu0.2B2 Mg 0.8 Cu 0.2 B 2 2001 AlB2 "AlB2, C32" K 38.6 38.6 "solid state reaction (600,800,900C, in V-container)" Substitution effect of Zn and Cu in MgB2 on Tc and structure 2001 "Solid State Physics Lab, ETH, Zurich, Switzerland" "Solid State Commun., 119(2001)1"
111387 MAT0301025 "major phase=Mg(B,C)2 73.4 wt %. impurity phases = MgB2C2, Mg, MgO. compositions determined by NED." "Mg(B,C)2" Mg1B1.8C0.2 Mg 1 B 1.8 C 0.2 2003 AlB2 A 3.0529 3.5253 "AlB2, C32" K 22 22 "(Mg, B4C) - heat(1200C,24h) in Ta crucible" Crystal Chemistry of Carbon-Substituted MgB2 2003 "Materials Science Division, Argonne National Laboratory, Argonne, IL 60439 USA" cond-mat/0301025(2003)
111388 PHC3900185 MgB2 B2Mg1 B 2 Mg 1 1 2003 AlB2 A 3.0869 3.5238 "AlB2, C32" K 38.3 38.3 "(Mg,a-B,nano-C) - heat(770C,in Fe tube) in Ar" Effect of nano-carbon particle doping on the flux pinning properties of MgB2 superconductor 2003 "Institute for Superconducting and Electronic Materials, ISEM, University of Wollongong, Wollongong, Australia" "Physica C, 390(2003)185"
111389 PHC3900185 "nominal C-composition. Jc(H), Hirr(T) were measured." "Mg(B,C)2" Mg1B1.95C0.05 Mg 1 B 1.95 C 0.05 1 2003 AlB2 A 3.0841 3.5248 "AlB2, C32" K 38 38 "(Mg,a-B,nano-C) - heat(770C,in Fe tube) in Ar" Effect of nano-carbon particle doping on the flux pinning properties of MgB2 superconductor 2003 "Institute for Superconducting and Electronic Materials, ISEM, University of Wollongong, Wollongong, Australia" "Physica C, 390(2003)185"
111390 PHC3900185 "nominal C-composition. Jc(H), Hirr(T) were measured." "Mg(B,C)2" Mg1B1.9C0.1 Mg 1 B 1.9 C 0.1 1 2003 AlB2 A 3.082 3.5233 "AlB2, C32" K 37.3 37.3 "(Mg,a-B,nano-C) - heat(770C,in Fe tube) in Ar" Effect of nano-carbon particle doping on the flux pinning properties of MgB2 superconductor 2003 "Institute for Superconducting and Electronic Materials, ISEM, University of Wollongong, Wollongong, Australia" "Physica C, 390(2003)185"
111391 PHC3900185 "nominal C-composition. Jc(H), Hirr(T) were measured." "Mg(B,C)2" Mg1B1.8C0.2 Mg 1 B 1.8 C 0.2 1 2003 AlB2 A 3.0796 3.5237 "AlB2, C32" K 36.8 36.8 "(Mg,a-B,nano-C) - heat(770C,in Fe tube) in Ar" Effect of nano-carbon particle doping on the flux pinning properties of MgB2 superconductor 2003 "Institute for Superconducting and Electronic Materials, ISEM, University of Wollongong, Wollongong, Australia" "Physica C, 390(2003)185"
111392 PHC3900185 "nominal C-composition. Jc(H), Hirr(T) were measured." "Mg(B,C)2" Mg1B1.7C0.3 Mg 1 B 1.7 C 0.3 1 2003 AlB2 A 3.0788 3.5218 "AlB2, C32" K 36.4 36.4 "(Mg,a-B,nano-C) - heat(770C,in Fe tube) in Ar" Effect of nano-carbon particle doping on the flux pinning properties of MgB2 superconductor 2003 "Institute for Superconducting and Electronic Materials, ISEM, University of Wollongong, Wollongong, Australia" "Physica C, 390(2003)185"
111393 PHC3900185 "nominal C-composition. Jc(H), Hirr(T) were measured." "Mg(B,C)2" Mg1B1.6C0.4 Mg 1 B 1.6 C 0.4 1 2003 AlB2 A 3.076 3.5243 "AlB2, C32" K 35.8 35.8 "(Mg,a-B,nano-C) - heat(770C,in Fe tube) in Ar" Effect of nano-carbon particle doping on the flux pinning properties of MgB2 superconductor 2003 "Institute for Superconducting and Electronic Materials, ISEM, University of Wollongong, Wollongong, Australia" "Physica C, 390(2003)185"
111394 PHC3700211 impurity phase = MgO<1 %. Debye-T calculated from R(T). e-ph coupling const. = 0.847 MgB2 B2Mg1 B 2 Mg 1 2002 AlB2 A 3.0848 3.5224 "AlB2, C32" K 39.1 39.1 898.5 "(Mg,B,C) in Ta crucible, heat(900C, 1.5h, 50 bar-Ar)" Carbon solubility and superconductivity in MgB2 2002 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Physica C, 370(2002)211"
111395 PHC3700211 "Mg(B,C)2" Mg1B1.98C0.02 Mg 1 B 1.98 C 0.02 2002 AlB2 A 3.0813 3.5224 "AlB2, C32" K 38.4 38.4 "(Mg,B,C) in Ta crucible, heat(900C, 1.5h, 50 bar-Ar)" Carbon solubility and superconductivity in MgB2 2002 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Physica C, 370(2002)211"
111396 PHC3700211 "Mg(B,C)2" Mg1B1.96C0.04 Mg 1 B 1.96 C 0.04 2002 AlB2 A 3.0805 3.525 "AlB2, C32" K 38.4 38.4 "(Mg,B,C) in Ta crucible, heat(900C, 1.5h, 50 bar-Ar)" Carbon solubility and superconductivity in MgB2 2002 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Physica C, 370(2002)211"
111397 PHC3700211 "Mg(B,C)2" Mg1B1.94C0.06 Mg 1 B 1.94 C 0.06 2002 AlB2 A 3.0782 3.5226 "AlB2, C32" K 37.8 37.8 "(Mg,B,C) in Ta crucible, heat(900C, 1.5h, 50 bar-Ar)" Carbon solubility and superconductivity in MgB2 2002 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Physica C, 370(2002)211"
111398 PHC3700211 Debye-T calculated from R(T). e-ph coupling const. = 0.878 "Mg(B,C)2" Mg1B1.92C0.08 Mg 1 B 1.92 C 0.08 2002 AlB2 A 3.0751 3.5229 "AlB2, C32" K 38.3 38.3 823.3 "(Mg,B,C) in Ta crucible, heat(900C, 1.5h, 50 bar-Ar)" Carbon solubility and superconductivity in MgB2 2002 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Physica C, 370(2002)211"
111399 PHC3700211 "Mg(B,C)2" Mg1B1.9C0.1 Mg 1 B 1.9 C 0.1 2002 AlB2 A 3.073 3.5245 "AlB2, C32" K 36.2 36.2 "(Mg,B,C) in Ta crucible, heat(900C, 1.5h, 50 bar-Ar)" Carbon solubility and superconductivity in MgB2 2002 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Physica C, 370(2002)211"
111400 PHC3700211 Debye-T calculated from R(T). e-ph coupling const. = 0.892 "Mg(B,C)2" Mg1B1.85C0.15 Mg 1 B 1.85 C 0.15 2002 AlB2 A 3.0686 3.5214 "AlB2, C32" K 36.3 36.3 760.1 "(Mg,B,C) in Ta crucible, heat(900C, 1.5h, 50 bar-Ar)" Carbon solubility and superconductivity in MgB2 2002 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Physica C, 370(2002)211"
111401 PHC3700211 "Mg(B,C)2" Mg1B1.8C0.2 Mg 1 B 1.8 C 0.2 2002 AlB2 A 3.0664 3.525 "AlB2, C32" K 34.2 34.2 "(Mg,B,C) in Ta crucible, heat(900C, 1.5h, 50 bar-Ar)" Carbon solubility and superconductivity in MgB2 2002 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Physica C, 370(2002)211"
111402 PHC3700211 "Mg(B,C)2" Mg1B1.75C0.25 Mg 1 B 1.75 C 0.25 2002 AlB2 A 3.0597 3.5258 "AlB2, C32" K 30 30 "(Mg,B,C) in Ta crucible, heat(900C, 1.5h, 50 bar-Ar)" Carbon solubility and superconductivity in MgB2 2002 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Physica C, 370(2002)211"
111403 PHC3700211 "Mg(B,C)2" Mg1B1.7C0.3 Mg 1 B 1.7 C 0.3 2002 AlB2 A 3.0541 3.5196 "AlB2, C32" K 29.2 29.2 "(Mg,B,C) in Ta crucible, heat(900C, 1.5h, 50 bar-Ar)" Carbon solubility and superconductivity in MgB2 2002 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Physica C, 370(2002)211"
111404 PHC3700211 "Mg(B,C)2" Mg1B1.6C0.4 Mg 1 B 1.6 C 0.4 2002 AlB2 A 3.0504 3.5189 "AlB2, C32" K 24.9 24.9 "(Mg,B,C) in Ta crucible, heat(900C, 1.5h, 50 bar-Ar)" Carbon solubility and superconductivity in MgB2 2002 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Physica C, 370(2002)211"
111405 PHC3700211 Debye-T calculated from R(T). e-ph coupling const. = 0.912 "Mg(B,C)2" Mg1B1.5C0.5 Mg 1 B 1.5 C 0.5 2002 AlB2 A 3.0498 3.5181 "AlB2, C32" K 26.2 26.2 527.1 "(Mg,B,C) in Ta crucible, heat(900C, 1.5h, 50 bar-Ar)" Carbon solubility and superconductivity in MgB2 2002 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Physica C, 370(2002)211"
111406 P067012505 Hc2(0) is for H//c. cohere=cohere. anisotropy factor increases from 2(at Tc) to 4.5 (22K). precise phase diagram obtained. sp-heat also measured. MgB2 B2Mg1 B 2 Mg 1 3 2003 AlB2 "AlB2, C32" K 36 36 T 3.5 A 94 heat treatment under high-pressure Superconducting transition and phase diagram of single-crystal MgB2 2003 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439" "Phys.Rev.B, 67(2003)12505"
111407 PHB3280023 "THF=C4H8O, y-value is not given explicitly. gap (2*delta/kTc = 5 - 6) from tunneling." Li0.5(THF)yHfNCl Li0.5Hf1N1Cl1 Li 0.5 Hf 1 N 1 Cl 1 2003 K 26 26 5 1 "(Hf powder+NH4Cl) - 650C, then Li in THF" Tunneling spectroscopy of MgB2 and Li0.5(THF)yHfNCl 2003 "Faculty of Integrated Arts and Sciences, Hiroshima University, Higashi-Hiroshima 739-8521, Japan" "Physica B, 328(2003)23"
111408 PHB3280023 gap (2*delta/kTc = 5 - 6) from tunneling. MgB2 B2Mg1 B 2 Mg 1 2003 AlB2 "AlB2, C32" K 39 39 5 1 Tunneling spectroscopy of MgB2 and Li0.5(THF)yHfNCl 2003 "Faculty of Integrated Arts and Sciences, Hiroshima University, Higashi-Hiroshima 739-8521, Japan" "Physica B, 328(2003)23"
111409 PHC3570329 Mo-Mo distance = 2.565 A Mo3P Mo3P1 Mo 3 P 1 2001 K 7 7 "high-pressure synthesis(4GPa, 1200-1700C)" Superconductivity of binary and ternary molybdenum phosphides prepared at high pressure 2001 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi, Hokkaido,Japan" "Physica C, 357-360(2001)329"
111410 PHC3570329 Mo-Mo distance = 2.900 A Mo8P5 Mo8P5 Mo 8 P 5 2001 K 5.8 5.8 "high-pressure synthesis(4GPa, 1200-1700C)" Superconductivity of binary and ternary molybdenum phosphides prepared at high pressure 2001 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi, Hokkaido,Japan" "Physica C, 357-360(2001)329"
111411 PHC3570329 Mo-Mo distance = 2.839 A Mo4P3 Mo4P3 Mo 4 P 3 2001 K 3 3 "high-pressure synthesis(4GPa, 1200-1700C)" Superconductivity of binary and ternary molybdenum phosphides prepared at high pressure 2001 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi, Hokkaido,Japan" "Physica C, 357-360(2001)329"
111412 PHC3570329 Mo-Mo distance = 3.191 A MoP Mo1P1 Mo 1 P 1 2001 K 2 "high-pressure synthesis(4GPa, 1200-1700C)" Superconductivity of binary and ternary molybdenum phosphides prepared at high pressure 2001 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi, Hokkaido,Japan" "Physica C, 357-360(2001)329"
111413 PHC3570329 Mo-Mo distance = 3.006 A MoRuP Mo1Ru1P1 Mo 1 Ru 1 P 1 2001 Co2P K 15.5 15.5 "high-pressure synthesis(4GPa, 1200-1700C)" Superconductivity of binary and ternary molybdenum phosphides prepared at high pressure 2001 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi, Hokkaido,Japan" "Physica C, 357-360(2001)329"
111414 PHC3570329 Mo-Mo distance = 3.0059 A MoNiP Mo1Ni1P1 Mo 1 Ni 1 P 1 2001 Fe2P K 15.5 15.5 "high-pressure synthesis(4GPa, 1200-1700C)" Superconductivity of binary and ternary molybdenum phosphides prepared at high pressure 2001 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi, Hokkaido,Japan" "Physica C, 357-360(2001)329"
111415 PHC3570329 Mo-Mo distance = 3.329 A MoNiP2 Mo1Ni1P2 Mo 1 Ni 1 P 2 2001 K 2 "high-pressure synthesis(4GPa, 1200-1700C)" Superconductivity of binary and ternary molybdenum phosphides prepared at high pressure 2001 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi, Hokkaido,Japan" "Physica C, 357-360(2001)329"
111416 PRL0500064 "Tc=0.325 mK. impurities=Si(30), Ir(25), Fe(15), S(4), Ru(15), Ni(2), Cu(500), Cr(1 ppm). RRR=450, type-I s/c." Rh Rh1 Rh 1 1983 K 0.000325 0.000325 micro-T 4.9 mm 0.06 ANN(1750 C) Superconductivity of rhodium at ultralow temperature 1983 "Institut fur Festkorperforshung, Jurich, West Germany" "Phys.Rev.Lett., 50(1983)66"
111417 PRL0852573 single crystal. RRR=740. NMR measurements. Rh Rh1 Rh 1 3 2000 K 0.00021 0.00021 micro-T 3.4 Relaxation of polarized nuclei in superconducting rhodium 2000 "Helsinki University of Technology, Finland" "Phys.Rev.Lett., 85(2000)2573"
111418 PRL0824528 Tc=1.38 mK. average grain size=2 micron-m. packing fraction = 0.50. Pt Pt1 Pt 1 1999 K 0.00138 0.00138 MHC11418 Superconductivity of compacted platinum powder at very low temperatures 1999 "Universitat Bayreuth, Bayreuth, Germany" "Phys.Rev.Lett., 82(1999)4528"
111419 PRL0824528 Tc = 1.04 mK. average grain size=2 micron-m. packing fraction = 0.67. Pt Pt1 Pt 1 1999 K 0.00104 0.00104 MHC11419 Superconductivity of compacted platinum powder at very low temperatures 1999 "Universitat Bayreuth, Bayreuth, Germany" "Phys.Rev.Lett., 82(1999)4528"
111420 PRL0824528 Tc = 0.62 mK. average grain size=2 micron-m. packing fraction = 0.80. Pt Pt1 Pt 1 1999 K 0.00062 0.00062 MHC11420 Superconductivity of compacted platinum powder at very low temperatures 1999 "Universitat Bayreuth, Bayreuth, Germany" "Phys.Rev.Lett., 82(1999)4528"
111421 JAC2130148 dhcp. Tc < 1.3 K at ambient pressure. Tc=0.79 K from onother paper. dTc/dP estimated from Tc=0.79 K at ambient pressure and Tc(p=2GPa)) = 1.6 K. Am Am1 Am 1 1 1994 A 3.467 11.24 dhcp K 0.79 1.3 0.79 MTC11421 K/GPa 0.45 vapor deposition + ANN Resistivity and superconductivity of americium metal under pressure up to 25 GPa 1994 "J.Alloys Compd, 213/214(1994)148"
111422 JAC2130148 fcc. Tc <1.3 K at ambient pressure. Tc=0.79 K from onother paper. Tc(max) = 1.83 K (P=4.7 GPa) Am Am1 Am 1 1 1994 A 4.849 fcc K 0.79 1.3 0.79 MTC11422 vapor deposition + ANN Resistivity and superconductivity of americium metal under pressure up to 25 GPa 1994 "J.Alloys Compd, 213/214(1994)148"
111423 SSC0420043 Tc < 38 micro-K. Au Au1 Au 1 1982 K 0.000038 Superconductivity investigations of Au-In alloys and Au at ultralow temperatures 1982 "Kernforschungsanlage Julich, Julich, West Germany" "Solid State Commun., 42(1982)43"
111424 SSC0420043 Tc < 55 micro-K. Au1-xInx Au0.99In0.01 Au 0.99 In 0.01 1982 K 0.000055 Superconductivity investigations of Au-In alloys and Au at ultralow temperatures 1982 "Kernforschungsanlage Julich, Julich, West Germany" "Solid State Commun., 42(1982)43"
111425 SSC0420043 gap estimated from critical field data. Au1-xInx Au0.978In0.022 Au 0.978 In 0.022 1982 K 0.0005 0.0005 micro-T 1.5 micro-T 2.8 3.8 Superconductivity investigations of Au-In alloys and Au at ultralow temperatures 1982 "Kernforschungsanlage Julich, Julich, West Germany" "Solid State Commun., 42(1982)43"
111426 SSC0420043 Au1-xInx Au0.915In0.085 Au 0.915 In 0.085 1982 K 0.031 0.031 Superconductivity investigations of Au-In alloys and Au at ultralow temperatures 1982 "Kernforschungsanlage Julich, Julich, West Germany" "Solid State Commun., 42(1982)43"
111427 SSC0420043 Au1-xInx Au0.9In0.1 Au 0.9 In 0.1 1982 K 0.077 0.077 Superconductivity investigations of Au-In alloys and Au at ultralow temperatures 1982 "Kernforschungsanlage Julich, Julich, West Germany" "Solid State Commun., 42(1982)43"
111428 PRL0160101 W W1 W 1 1966 K 0.016 0.016 Superconductivity of Tungsten 1966 "Phys.Rev.Lett., 16(1966)101"
111429 SSC0180139 Ag-Ga Ag0.9Ga0.1 Ag 0.9 Ga 0.1 1976 K 0.0065 0.0065 "Superconductivity in alpha-phase alloys of Cu, Ag and Au" 1976 "Solid State Commun., 18(1976)139"
111430 SSC0180139 Au-In Au0.94In0.06 Au 0.94 In 0.06 1976 K 0.0111 0.0111 "Superconductivity in alpha-phase alloys of Cu, Ag and Au" 1976 "Solid State Commun., 18(1976)139"
111431 SSC0180139 Au-In Au0.93In0.07 Au 0.93 In 0.07 1976 K 0.0164 0.0164 "Superconductivity in alpha-phase alloys of Cu, Ag and Au" 1976 "Solid State Commun., 18(1976)139"
111432 SSC0180139 Au-In Au0.92In0.08 Au 0.92 In 0.08 1976 K 0.0256 0.0256 "Superconductivity in alpha-phase alloys of Cu, Ag and Au" 1976 "Solid State Commun., 18(1976)139"
111433 SSC0180139 Au-In Au0.91In0.09 Au 0.91 In 0.09 1976 K 0.0423 0.0423 "Superconductivity in alpha-phase alloys of Cu, Ag and Au" 1976 "Solid State Commun., 18(1976)139"
111434 SSC0180139 Au-In Au0.9In0.1 Au 0.9 In 0.1 1976 K 0.0641 0.0641 "Superconductivity in alpha-phase alloys of Cu, Ag and Au" 1976 "Solid State Commun., 18(1976)139"
111435 LOW0010641 gamma and gap are estimated from Hc measurements. G-L parameter = 0.0026 W W1 W 1 1969 K 0.0154 0.0154 Oe 1.15 MHC11435 3.52 mj/mol.K2 0.9 Critical magnetic field curve of superconducting tungsten 1969 "University of Illinois, Urbana, Illinois,USA" "J.Low Temp. Phys., 1(1969)641"
111436 LOW1311181 dTn/dP = 0.48 K/GPa. Tc(P) and Tn(P) measured for P=<2 GPa. "(Ho,Dy)Ni2B2C" Ho0.9Dy0.1Ni2B2C1 Ho 0.9 Dy 0.1 Ni 2 B 2 C 1 2003 LuNi2B2C K 8.2 8.2 K/GPa -0.64 Ni2B flux method Pressure effect on the coexistence of magnetism and superconductivity in Ho1-xDyxNi2B2C 2003 "Pohang University of Science and Technology, Pohang, Republic of Korea" "J.Low Temp.Phys., 131(2003)1181"
111437 LOW1311181 "(Ho,Dy)Ni2B2C" Ho0.6Dy0.4Ni2B2C1 Ho 0.6 Dy 0.4 Ni 2 B 2 C 1 2003 LuNi2B2C K 6 6 K/GPa 0 Ni2B flux method Pressure effect on the coexistence of magnetism and superconductivity in Ho1-xDyxNi2B2C 2003 "Pohang University of Science and Technology, Pohang, Republic of Korea" "J.Low Temp.Phys., 131(2003)1181"
111438 PHC3910217 MgB2 B2Mg1 B 2 Mg 1 2003 AlB2 A 3.0827 3.5612 "AlB2, C32" K 37.3 37.3 sinter(950C) Narrow range of iridium-substitution on Mg1-xIrxB2 superconductor 2003 "Department of Chemistry, Faculty of Science, Tanta University, Tanta, Egypt" "Physica C, 391(2003)217"
111439 PHC3910217 "(Mg,Ir)B2" Mg0.98Ir0.02B2 Mg 0.98 Ir 0.02 B 2 2003 AlB2 A 3.0835 3.4817 "AlB2, C32" K 33.2 33.2 sinter(950C) Narrow range of iridium-substitution on Mg1-xIrxB2 superconductor 2003 "Department of Chemistry, Faculty of Science, Tanta University, Tanta, Egypt" "Physica C, 391(2003)217"
111440 PHC3910217 "(Mg,Ir)B2" Mg0.94Ir0.06B2 Mg 0.94 Ir 0.06 B 2 2003 AlB2 A 3.0841 3.4142 "AlB2, C32" K 28.1 28.1 sinter(950C) Narrow range of iridium-substitution on Mg1-xIrxB2 superconductor 2003 "Department of Chemistry, Faculty of Science, Tanta University, Tanta, Egypt" "Physica C, 391(2003)217"
111441 PHC3910217 "impurity phase = MgO, B" "(Mg,Ir)B2" Mg0.88Ir0.12B2 Mg 0.88 Ir 0.12 B 2 2003 AlB2 A 3.0844 3.3686 "AlB2, C32" K 18 18 sinter(950C) Narrow range of iridium-substitution on Mg1-xIrxB2 superconductor 2003 "Department of Chemistry, Faculty of Science, Tanta University, Tanta, Egypt" "Physica C, 391(2003)217"
111442 L091027002 RRR=7.8. G-L parameter = 125 PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 2003 Chevrel K 15.05 15.05 T 45 T/K 4.6 A 22 "bulk, conventional sample" Disordered Nanocrystalline Superconducting PbMo6S8 with aVery Large Upper Critical Field 2003 "Superconductivity Group, Department of Physics, University of Durham, United Kingdom" "Phys.Rev.Lett., 91(2003)27002"
111443 L091027002 RRR=2.0. G-L parameter = 240 PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 2003 Chevrel K 14.4 14.4 T 65 T/K 7.3 A 19 "mechanically milled, then HIP, then ANN(1000C, 40h)" Disordered Nanocrystalline Superconducting PbMo6S8 with aVery Large Upper Critical Field 2003 "Superconductivity Group, Department of Physics, University of Durham, United Kingdom" "Phys.Rev.Lett., 91(2003)27002"
111444 L091027002 RRR=1.4. G-L parameter = 520 PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 2003 Chevrel K 12.3 12.3 T 110 T/K 14.1 A 14 "mechanically milled, then HIP, then ANN(800C, 8h)" Disordered Nanocrystalline Superconducting PbMo6S8 with aVery Large Upper Critical Field 2003 "Superconductivity Group, Department of Physics, University of Durham, United Kingdom" "Phys.Rev.Lett., 91(2003)27002"
111445 L091027002 RRR=3.3. G-L parameter = 160 "(Pb,Cu)MO6S8" Pb0.98Cu0.036Mo6S8 Pb 0.98 Cu 0.036 Mo 6 S 8 2003 Chevrel K 14.8 14.8 T 50 T/K 5.1 A 21 "HIP(2000 bar, 800C,8h)" Disordered Nanocrystalline Superconducting PbMo6S8 with aVery Large Upper Critical Field 2003 "Superconductivity Group, Department of Physics, University of Durham, United Kingdom" "Phys.Rev.Lett., 91(2003)27002"
111446 L091027002 RRR=1.6. G-L parameter = 260 "(Pb,Cu)MO6S8" Pb0.9Cu0.18Mo6S8 Pb 0.9 Cu 0.18 Mo 6 S 8 2003 Chevrel K 13.65 13.65 T 45 T/K 5 A 23 "HIP(2000 bar, 800C,8h)" Disordered Nanocrystalline Superconducting PbMo6S8 with aVery Large Upper Critical Field 2003 "Superconductivity Group, Department of Physics, University of Durham, United Kingdom" "Phys.Rev.Lett., 91(2003)27002"
111447 PR05009445 impurity phase<5%. dTc/dP in K/GPa LuNiBC Lu1Ni1B1C1 Lu 1 Ni 1 B 1 C 1 1994 A 3.492 7.552 K 2.9 2.9 K/GPa -0.14 arc-melting Superconductivity in (LuC)2(Ni2B2) and (LuC)(Ni2B2) 1994 9 "Phys.Rev.B,50 (1994) 9445-9448" "Lu,C,Ni,B"
111448 PR05009445 10m. RRR=3. thickness d=60 nm. carrier n = -4.2 E+22 /cm3. MgCNi3 Mg1C1Ni3 Mg 1 C 1 Ni 3 2003 A 3.807 K 8.2 8.2 T 12.8 T/K 2.3 MHC11451 A 50 evaporation on CNi3 film on sapphire Superconducting properties of MgCNi3 films 2003 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana 70803, USA" "Phys.Rev.B, 68(2003)020501"
111452 P068020501 space-G=Pm3<->m. thickness d = 75 nm MgCNi3 Mg1C1Ni3 Mg 1 C 1 Ni 3 2003 K 3.9 3.9 evaporation on CNi3 film on sapphire Superconducting properties of MgCNi3 films 2003 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana 70803, USA" "Phys.Rev.B, 68(2003)020501"
111453 P068014512 Tc(by specific heat) = 7.7 K. 2*gap = 2.7 meV. gamma in mj/mol.K2. CaAlSi Ca1Al1Si1 Ca 1 Al 1 Si 1 2003 AlB2 A 4.189 4.4 "AlB2, C32" K 7.9 7.9 MTC11453 K/GPa 0.21 4.07 mj/mol.K2 5.04 226 arc-melting Thermodynamic properties and pressure effect on the superconductivity in CaAlSi and SrAlSi 2003 "Department of Physics and TCSAM, University of Houston, Houston, Texas, USA" "Phys.Rev.B, 68(2003)014512"
111454 P068014512 Tc(by specific heat) = 4.9 K. 2*gap = 1.49 meV. gamma in mj/mol.K2. SrAlSi Sr1Al1Si1 Sr 1 Al 1 Si 1 2003 AlB2 A 4.22 4.754 "AlB2, C32" K 5 5 MTC11454 K/GPa -0.12 3.5 mj/mol.K2 5.42 218 arc-melting Thermodynamic properties and pressure effect on the superconductivity in CaAlSi and SrAlSi 2003 "Department of Physics and TCSAM, University of Houston, Houston, Texas, USA" "Phys.Rev.B, 68(2003)014512"
111455 JPS0721724 impurity phase = ReB2 < 5%. space-G = P6<3>/mc. RRR = 6. G-L parameter = 17 Re7B3 B3Re7 B 3 Re 7 2003 A 7.516 4.89 K 3.3 3.3 mT 6 T 0.9 A 191 A 3310 arc-melting The Superconductivity in Re-B System 2003 "Department of Physics, Aoyama-Gakuin University, Fuchinobe 5-10-1, Sagamihara, Kanagawa,Japan" "J.Phys.Soc.Jpn, 72(2003)1724"
111456 JPS0721724 space-G = Cmcm. RRR = 2.3. delta-C/gamma*Tc = 1.92. G-L parameter = 35 Re3B B1Re3 B 1 Re 3 2003 A 2.896 9.317 7.27 K 4.8 4.8 mT 8 T 5.2 T/K 1.5 A 80 A 2870 3.53 mj/mol.K2 6.3 600 arc-melting The Superconductivity in Re-B System 2003 "Department of Physics, Aoyama-Gakuin University, Fuchinobe 5-10-1, Sagamihara, Kanagawa,Japan" "J.Phys.Soc.Jpn, 72(2003)1724"
111457 CHC0121348 "two phases(Li0.56BC(a,c in table) + Li0.90BC(a=2.726, c=7.1112)). not s/c." LixBC Li0.78B1C1 Li 0.78 B 1 C 1 2003 AlB2 A 2.6263 7.439 "AlB2, C32" K 2 "reaction(1500C, 24h)" Synthesis and characteristion of LixBC-hole doping does not induce superconductivity 2003 "Department of Chemistry, University of Liverpool, Liverpool, UK" "Chem.Commun.,12(2003)1348"
111458 PR05811698 space-G = I4mcm Zr2Co Co1Zr2 Co 1 Zr 2 1998 -10 Al2Cu "Al2Cu, C16" K 5.5 5.5 T 0.9 arc-melting Nuclear-magnetic-resonance investigation of the itinerant nearly antiferromagnetic behavior in superconducting Zr2(Co1-xNix) 1998 "Graduate School of Science & Technology and Faculty of Science, Kobe University, Nada, Kobe 657, Japan" "Phys.Rev.B, 58(1998)11698"
111459 PR05811698 space-G = I4mcm "Zr2(Co,Ni)" Zr2Co0.85Ni0.15 Zr 2 Co 0.85 Ni 0.15 1998 -22 Al2Cu "Al2Cu, C16" K 6 6 T 2 arc-melting Nuclear-magnetic-resonance investigation of the itinerant nearly antiferromagnetic behavior in superconducting Zr2(Co1-xNix) 1998 "Graduate School of Science & Technology and Faculty of Science, Kobe University, Nada, Kobe 657, Japan" "Phys.Rev.B, 58(1998)11698"
111460 PR05811698 space-G = I4mcm "Zr2(Co,Ni)" Zr2Co0.6Ni0.4 Zr 2 Co 0.6 Ni 0.4 1998 -2.5 Al2Cu "Al2Cu, C16" K 4.2 4.2 arc-melting Nuclear-magnetic-resonance investigation of the itinerant nearly antiferromagnetic behavior in superconducting Zr2(Co1-xNix) 1998 "Graduate School of Science & Technology and Faculty of Science, Kobe University, Nada, Kobe 657, Japan" "Phys.Rev.B, 58(1998)11698"
111461 L091076402 dTc/dP calculated from uniaxial values (dTc/dP)//c = -0.890 K/GPa and (dTc/dP)//a = 0.540 K/GPa using thermal expansion. CeIrIn5 Ce1Ir1In5 Ce 1 Ir 1 In 5 2003 HoCoGa5 K 0.38 0.38 MTE11461 K/GPa 0.19 Uniaxial Pressure Effects on CeIrIn5 and CeCoIn5 Studied by Low-Temperature Thermal Expansion 2003 "Max Planck Institute for Chemical Physics of Solids, Dresden, Germany" "Phys.Rev.Lett., 91(2003)076402"
111462 L091076402 dTc/dP calculated from uniaxial values (dTc/dP)//c = 0.075 K/GPa and (dTc/dP)//a = 0.290 K/GPa using thermal expansion. CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 2003 HoCoGa5 K 2.23 2.23 K/GPa 0.655 Uniaxial Pressure Effects on CeIrIn5 and CeCoIn5 Studied by Low-Temperature Thermal Expansion 2003 "Max Planck Institute for Chemical Physics of Solids, Dresden, Germany" "Phys.Rev.Lett., 91(2003)076402"
111463 L091077001 "s/c vanishes at Pc = 5 - 5.6 GPa, where S-I transition occures. dTc/dP estimated from Tc(P=1.5 GPa) = 5.8 K. T*(in Fig) = metal-insulator transition temp." CuRh2S4 Cu1Rh2S4 Cu 1 Rh 2 S 4 2003 spinel A 9.787 K 4.7 4.7 MTC11463 K/GPa 0.73 "sinter (1000C, 3d)" Pressure-Induced Superconductor-Insulator Transition in the Spinel Compound CuRh2S4 2003 "Department of Quantum Matter, ADSM, Hiroshima University, Higashi-Hiroshima, Japan" "Phys.Rev.Lett., 91(2003)077001"
111464 JPS0633333 "M-I transition at 230 K. lattice const.(T=10 K): a=6.8645, c=10.0257" CuIr2S4 Cu1Rh2S4 Cu 1 Rh 2 S 4 1994 spinel A 9.8474 K 5 "heat(850C, 10d)" Structural and magnetic studies of metal-insulator transition in thiospinel CuIr2S4 1994 "National Research Institute for Metals, Sengen, Tsukuba, Ibaraki, Japan" "J.Phys.Soc.Jpn, 63(1994)3333"
111465 PHB3120136 delta-C/gamma*Tc = 0.8 CeIrIn5 Ce1Ir1In5 Ce 1 Ir 1 In 5 3 2002 HoCoGa5 A 4.668 7.515 K 0.43 0.43 K/GPa 0.25 In-flux method Heat capacity of the heavy fermion superconductor CeIrIn5 under hydrostatic pressure 2002 "Max-Planck-Institute for the Chemical Physics of Solids, D-01187 Dresden, Germany" "Physica B, 312-313(2002)136"
111466 PHB3120138 Tc(P) measured by specific heat. Tc seems to saturate with Tc(max)=2.7 K at P=1.5 GPa. delta-C/gamma*Tc = 5. CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2002 HoCoGa5 A 4.614 7.552 K 2.26 2.26 K/GPa 0.4 Effect of pressure on unconventional superconductivity in CeCoIn5 2002 "Max-Planck-Institute for the Chemical Physics of Solids, D-01187 Dresden, Germany" "Physica B, 312-313(2002)138"
111467 P068064503 "gamma in mj/mol.K2. Debye-T from sp-heat. From R(T) fitting, Debye-T = 238 K." MgCNi3 Mg1C1Ni3 Mg 1 C 1 Ni 3 2003 CaTiO3 A 3.811 "CaTiO3, perovskite" K 6.6 6.6 mj/mol.K2 32 256 solid state reaction Suppression of superconductivity in Mn-substituted MgCNi3 2003 "Max-Planck-Institut fur Festkorperforschung, 70569 Stuttgart, Germany" "Phys.Rev.B, 68(2003)64503"
111468 P068064503 gamma in mj/mol.K2. Debye-T from sp-heat. "MgC(Ni,Mn)3" Mg1C1Ni2.99Mn0.01 Mg 1 C 1 Ni 2.99 Mn 0.01 2003 CaTiO3 A 3.8115 "CaTiO3, perovskite" K 0.3 mj/mol.K2 28.2 288 solid state reaction Suppression of superconductivity in Mn-substituted MgCNi3 2003 "Max-Planck-Institut fur Festkorperforschung, 70569 Stuttgart, Germany" "Phys.Rev.B, 68(2003)64503"
111469 P068064503 gamma in mj/mol.K2. Debye-T from sp-heat. "MgC(Ni,Mn)3" Mg1C1Ni2.97Mn0.03 Mg 1 C 1 Ni 2.97 Mn 0.03 2003 CaTiO3 A 3.8122 "CaTiO3, perovskite" K 0.3 mj/mol.K2 32.4 294 solid state reaction Suppression of superconductivity in Mn-substituted MgCNi3 2003 "Max-Planck-Institut fur Festkorperforschung, 70569 Stuttgart, Germany" "Phys.Rev.B, 68(2003)64503"
111470 P068064503 gamma in mj/mol.K2. Debye-T from sp-heat. "MgC(Ni,Mn)3" Mg1C1Ni2.95Mn0.05 Mg 1 C 1 Ni 2.95 Mn 0.05 2003 CaTiO3 A 3.8127 "CaTiO3, perovskite" K 0.3 mj/mol.K2 35 296 solid state reaction Suppression of superconductivity in Mn-substituted MgCNi3 2003 "Max-Planck-Institut fur Festkorperforschung, 70569 Stuttgart, Germany" "Phys.Rev.B, 68(2003)64503"
111471 P068064512 "s/c parameters in table shows for H//ab. For H//c, Hc1(0)=250 Oe, Hc2(0)=0.81 T, cohere=73 A, penet=2060 A. anisotropy=2.3. RRR=4.9. carrier=8.6E+26 /m3. R(Tc)=20 um." "Ca(Al,Si)2" Ca1Al1Si1 Ca 1 Al 1 Si 1 3 2003 AlB2 A 4.19002 4.3978 "AlB2, C32" K 7.8 7.8 Oe 160 T 1.8 A 170 A 870 floating zone method "Superconducting properties of single-crystalline Ca(Al0.5,Si0.5)2 : A ternary silicide with the AlB2-type structure" 2003 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 68(2003)64512"
111472 P066064510 space-G = Pm3<->m MgCNi3 Mg1C1Ni3 Mg 1 C 1 Ni 3 2002 CaTiO3 "CaTiO3, perovskite" K 7.69 7.69 MTC11472 solid state reaction in (0.92Ar+0.08He) Normal and superconducting states of MgCNi3 upon Fe and Co substitution and external pressure 2002 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam , India" "Phys.Rev.B, 66(2002)64510"
111473 P066064510 space-G = Pm3<->m "MgC(Ni,Co)3" Mg1C1Ni2.95Co0.05 Mg 1 C 1 Ni 2.95 Co 0.05 2002 CaTiO3 "CaTiO3, perovskite" K 7.42 7.42 solid state reaction in (0.92Ar+0.08He) Normal and superconducting states of MgCNi3 upon Fe and Co substitution and external pressure 2002 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam , India" "Phys.Rev.B, 66(2002)64510"
111474 P066064510 space-G = Pm3<->m "MgC(Ni,Co)3" Mg1C1Ni2.9Co0.1 Mg 1 C 1 Ni 2.9 Co 0.1 2002 CaTiO3 "CaTiO3, perovskite" K 7.29 7.29 solid state reaction in (0.92Ar+0.08He) Normal and superconducting states of MgCNi3 upon Fe and Co substitution and external pressure 2002 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam , India" "Phys.Rev.B, 66(2002)64510"
111475 P066064510 space-G = Pm3<->m "MgC(Ni,Co)3" Mg1C1Ni2.8Co0.2 Mg 1 C 1 Ni 2.8 Co 0.2 2002 CaTiO3 "CaTiO3, perovskite" K 7.2 7.2 solid state reaction in (0.92Ar+0.08He) Normal and superconducting states of MgCNi3 upon Fe and Co substitution and external pressure 2002 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam , India" "Phys.Rev.B, 66(2002)64510"
111476 P066064510 space-G = Pm3<->m "MgC(Ni,Co)3" Mg1C1Ni2.6Co0.4 Mg 1 C 1 Ni 2.6 Co 0.4 2002 CaTiO3 "CaTiO3, perovskite" K 7.1 7.1 solid state reaction in (0.92Ar+0.08He) Normal and superconducting states of MgCNi3 upon Fe and Co substitution and external pressure 2002 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam , India" "Phys.Rev.B, 66(2002)64510"
111477 P066064510 "MgC(Ni,Fe)3" Mg1C1Ni2.9Fe0.1 Mg 1 C 1 Ni 2.9 Fe 0.1 2002 CaTiO3 "CaTiO3, perovskite" K 8.58 8.58 solid state reaction in (0.92Ar+0.08He) Normal and superconducting states of MgCNi3 upon Fe and Co substitution and external pressure 2002 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam , India" "Phys.Rev.B, 66(2002)64510"
111478 P066064510 "MgC(Ni,Fe)3" Mg1C1Ni2.8Fe0.2 Mg 1 C 1 Ni 2.8 Fe 0.2 2002 CaTiO3 "CaTiO3, perovskite" K 8 8 solid state reaction in (0.92Ar+0.08He) Normal and superconducting states of MgCNi3 upon Fe and Co substitution and external pressure 2002 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam , India" "Phys.Rev.B, 66(2002)64510"
111479 P066064510 "MgC(Ni,Fe)3" Mg1C1Ni2.7Fe0.3 Mg 1 C 1 Ni 2.7 Fe 0.3 2002 CaTiO3 "CaTiO3, perovskite" K 6.88 6.88 solid state reaction in (0.92Ar+0.08He) Normal and superconducting states of MgCNi3 upon Fe and Co substitution and external pressure 2002 "Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam , India" "Phys.Rev.B, 66(2002)64510"
111480 P067100509 M=THF(tetrahydrofuran: C4H8O). c-axis oriented sample. isotope effect (N<14> - N<15>). NMR of N<15> measured. Li0.48M0.3HfNCl Li0.48M0.3Hf1N1Cl1 Li 0.48 M 0.3 Hf 1 N 1 Cl 1 2003 18.7 K 25.5 25.5 0.07 N using N<15> enriched anmonium Superconducting characteristics in electron-doped layered hafnium nitride: <15>N isotope effect studies 2003 "Department of Quantum Matter, AdSM, Hiroshima University, Higashi-Hiroshima 739-8530, Japan" "Phys.Rev.B, 67(2003)100509"
111481 P068092507 C-content = nominal value.d(lnTc)/dP = 0.002 /kbar MgCxNi3 Mg1C1Ni3 Mg 1 C 1 Ni 3 2003 CaTiO3 "CaTiO3, perovskite" K 6.9 6.9 K/GPa 0.155 MTP11481 Pressure effects on the transition temperature of superconducting MgCxNi3 2003 "Department of Physics, National Sun Yat Sen University, Kaohsiung 804, Taiwan, Republic of China" "Phys.Rev.B, 68(2003)92507"
111482 P068092507 C-content = nominal value. MgCxNi3 Mg1C1.25Ni3 Mg 1 C 1.25 Ni 3 2003 CaTiO3 "CaTiO3, perovskite" K 7.4 7.4 K/GPa 0.134 Pressure effects on the transition temperature of superconducting MgCxNi3 2003 "Department of Physics, National Sun Yat Sen University, Kaohsiung 804, Taiwan, Republic of China" "Phys.Rev.B, 68(2003)92507"
111483 P068092507 C-content = nominal value. MgCxNi3 Mg1C1.5Ni3 Mg 1 C 1.5 Ni 3 2003 CaTiO3 "CaTiO3, perovskite" K 7.9 7.9 K/GPa 0.152 Pressure effects on the transition temperature of superconducting MgCxNi3 2003 "Department of Physics, National Sun Yat Sen University, Kaohsiung 804, Taiwan, Republic of China" "Phys.Rev.B, 68(2003)92507"
111484 PR06103823 Tc increases linearly with P. Tc(on) reaches 17.2 K at P=120 GPa. diamond anvil cell. V V1 V 1 2000 K 5.3 5.3 MTC11484 K/GPa 0.1 Pressure effect on superconductivity of vanadium at megabar pressures 2000 2 "Research Center for Materials Science at Extreme Conditions (KYOKUGEN), Osaka University, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.B,61(2000)R3823-R3825"
111485 JPS0644049 foil. Tc(max)=9.2 K at P=49 GPa. V V1 V 1 1995 K 5.3 5.3 MTC11485 K/GPa 0.096 Pressure effect on superconductivity of V and V-Cr alloys up to 50 GPa 1995 "Department of Material Science, Himeji Institute of Technology, Hyogo, Japan" "J.Phys.Soc.Jpn, 64(1995)4049"
111486 JPS0644049 Tc=5.04 K at P=27.6 GPa. V9Cr1 Cr0.1V0.9 Cr 0.1 V 0.9 1995 K 3.3 3.3 K/GPa 0.062 arc-melting Pressure effect on superconductivity of V and V-Cr alloys up to 50 GPa 1995 "Department of Material Science, Himeji Institute of Technology, Hyogo, Japan" "J.Phys.Soc.Jpn, 64(1995)4049"
111487 JPS0644049 Tc=3.01 K at P=31.1 GPa. V8Cr2 Cr0.2V0.8 Cr 0.2 V 0.8 1995 K 1.66 1.66 K/GPa 0.047 arc-melting Pressure effect on superconductivity of V and V-Cr alloys up to 50 GPa 1995 "Department of Material Science, Himeji Institute of Technology, Hyogo, Japan" "J.Phys.Soc.Jpn, 64(1995)4049"
111489 P068104513 "anisotropy = 3 at Tc from Hc2. Hc2//ab, //c are obtained using Bud'ko's method." MgB2 B2Mg1 B 2 Mg 1 2003 AlB2 "AlB2, C32" K 38 38 MHC11489 "Heat (Mg,B) at 1400C" Out-of-plane and in-plane anisotropy of upper critical field in MgB2 2003 "Department of Applied Physics, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo, Japan" "Phys.Rev.B, 68(2003)104513"
111490 P068104513 "Hc2(0)//ab = 14.1 T, cohere(c) = 17.6 A. anisotropy = 4.5 at Tc from Hc2." MgB2 B2Mg1 B 2 Mg 1 2003 AlB2 "AlB2, C32" K 37 37 T 3.51 T/K 0.13 MHC11490 A 95 grown from MgB2+0.1Mg at P=3.5 GPa Out-of-plane and in-plane anisotropy of upper critical field in MgB2 2003 "Department of Applied Physics, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo, Japan" "Phys.Rev.B, 68(2003)104513"
111491 P068094514 "specific heat fitting (C=aT+bT<3>+cT<5>) for 2+cT<5>) for 2+cT<5>) for 2+cT<5>) for 2+cT<5>) for 2, cohere, G-L are estimated to be 20. Jc measured from M." CaAlSi Ca1Al1Si1 Ca 1 Al 1 Si 1 3 2003 AlB2 "AlB2, C32" K 6 6 T 1.27 MHC11507 A 196 A 3140 "arc-melting, floating zone method" Anisotropic vortex pinning in the layered intermetallic superconductor CaAlSi 2003 "Department of Applied Physics, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B, 68(2003)134503"
111508 PHC3990008 MgB2 B2Mg1 B 2 Mg 1 2003 AlB2 A 3.0857 3.5231 "AlB2, C32" K 38.6 38.6 MHIR11508 MHIR11508 solid state reaction Structure and superconductivity of double-doped Mg1-x(Al0.5Li0.5)xB2 2003 "Materials Research Department, Riso National Laboratory, Roskilde, Denmark" "Physica C, 399(2003)8"
111509 PHC3990008 "(Mg,Al,Li)B2" Mg0.9Al0.05Li0.05B2 Mg 0.9 Al 0.05 Li 0.05 B 2 2003 AlB2 A 3.0783 3.5241 "AlB2, C32" K 37.8 37.8 solid state reaction Structure and superconductivity of double-doped Mg1-x(Al0.5Li0.5)xB2 2003 "Materials Research Department, Riso National Laboratory, Roskilde, Denmark" "Physica C, 399(2003)8"
111510 PHC3990008 "(Mg,Al,Li)B2" Mg0.8Al0.1Li0.1B2 Mg 0.8 Al 0.1 Li 0.1 B 2 2003 AlB2 A 3.0779 3.4546 "AlB2, C32" K 31 31 solid state reaction Structure and superconductivity of double-doped Mg1-x(Al0.5Li0.5)xB2 2003 "Materials Research Department, Riso National Laboratory, Roskilde, Denmark" "Physica C, 399(2003)8"
111511 PHC3990008 "(Mg,Al,Li)B2" Mg0.7Al0.15Li0.15B2 Mg 0.7 Al 0.15 Li 0.15 B 2 2003 AlB2 A 3.074 3.4361 "AlB2, C32" K 25.1 25.1 solid state reaction Structure and superconductivity of double-doped Mg1-x(Al0.5Li0.5)xB2 2003 "Materials Research Department, Riso National Laboratory, Roskilde, Denmark" "Physica C, 399(2003)8"
111512 PHC3990008 "(Mg,Al,Li)B2" Mg0.6Al0.2Li0.2B2 Mg 0.6 Al 0.2 Li 0.2 B 2 2003 AlB2 A 3.0662 3.4073 "AlB2, C32" K 16.1 16.1 solid state reaction Structure and superconductivity of double-doped Mg1-x(Al0.5Li0.5)xB2 2003 "Materials Research Department, Riso National Laboratory, Roskilde, Denmark" "Physica C, 399(2003)8"
111513 PHC3990008 "(Mg,Al)B2" Mg0.9Al0.1B2 Mg 0.9 Al 0.1 B 2 2003 AlB2 A 3.0806 3.5056 "AlB2, C32" K 37.8 37.8 MHIR11513 solid state reaction Structure and superconductivity of double-doped Mg1-x(Al0.5Li0.5)xB2 2003 "Materials Research Department, Riso National Laboratory, Roskilde, Denmark" "Physica C, 399(2003)8"
111514 PHC3990008 "(Mg,Al)B2" Mg0.8Al0.2B2 Mg 0.8 Al 0.2 B 2 2003 AlB2 A 3.0716 3.4287 "AlB2, C32" K 29 29 solid state reaction Structure and superconductivity of double-doped Mg1-x(Al0.5Li0.5)xB2 2003 "Materials Research Department, Riso National Laboratory, Roskilde, Denmark" "Physica C, 399(2003)8"
111515 PHC3990008 "(Mg,Al)B2" Mg0.7Al0.3B2 Mg 0.7 Al 0.3 B 2 2003 AlB2 A 3.0643 3.3963 "AlB2, C32" K 18 18 solid state reaction Structure and superconductivity of double-doped Mg1-x(Al0.5Li0.5)xB2 2003 "Materials Research Department, Riso National Laboratory, Roskilde, Denmark" "Physica C, 399(2003)8"
111516 PHC3990008 "(Mg,Al)B2" Mg0.6Al0.4B2 Mg 0.6 Al 0.4 B 2 2003 AlB2 A 3.0538 3.3741 "AlB2, C32" K 7 7 solid state reaction Structure and superconductivity of double-doped Mg1-x(Al0.5Li0.5)xB2 2003 "Materials Research Department, Riso National Laboratory, Roskilde, Denmark" "Physica C, 399(2003)8"
111517 PRL0801730 Hc2 defined as mid point (resistive transition). H//c-axis YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 3 1998 LuNi2B2C K 15.7 15.7 T 10.6 MHC11517 Ni2B flux method Upper Critical Field Peculiarities of Superconducting YNi2B2C and LuNi2B2C 1998 1 "Institut fur Festkorper-und Werkstofforschung Dresden e.V., Postfach 270016, D-01171 Dresden, Germany" "Phys.Rev.Lett.,80(1998)1730-1733"
111518 PRL0801730 Hc2 defined as mid point (resistive transition). H//c-axis LuNi2B2C Lu1Ni2B2C1 Lu 1 Ni 2 B 2 C 1 3 1998 LuNi2B2C K 16.5 16.5 T 7.6 MHC11518 Ni2B flux method Upper Critical Field Peculiarities of Superconducting YNi2B2C and LuNi2B2C 1998 1 "Institut fur Festkorper-und Werkstofforschung Dresden e.V., Postfach 270016, D-01171 Dresden, Germany" "Phys.Rev.Lett.,80(1998)1730-1733"
111519 PHC3980107 "SP-heat measured in the field cooling condition. H//c. gamma(mj/mol.K2), Debye-T in TBL analyzed without T^5 term. gamma=20.6 mj/mol.K2, Debye-T=680K with T^5 term. gap from sp-heat." YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 3 2003 LuNi2B2C K 14.5 14.5 3.64 mj/mol.K2 19.1 495 Complementary study of heat capacity and magnetization for intermetallic YNi2B2C single crystal 2003 "Korea Electrotechnology Research Institute, Changwon, Kyungnam, South Korea" "Physica C, 398(2003)107"
111520 SCI2930273 p-induced s/c. Tc(max)=11 K at 250 GPa. Pc=160 GPa(Tc=6 K). dTc/dP for 180 < P < 250 GPa. B B1 B 1 2001 K 11 0 11 MTC11520 K/GPa 0.05 Superconductivity in Boron 2001 "Carnegie Institution of Washington,Washington DC,USA" Science 293(2001)272
111521 NAT3900382 P-induced s/c. Pc=93 GPa. Tc(max) = 14 K at 157 GPa (max-pressure in this paper). Another Tc(=17K) at 157 GPa observed(beta-Po phase) S S1 S 1 1997 K 14 0 14 MTC11521 K/GPa 0.055 Superconductivity at 10 - 17 K in compressed sulphur 1997 "Carnegie Institution of Washington, Washington DC,USA" "Nature, 390(1997)382"
111522 JPC013L905 resistivity R reaches max at Tm. Tm/dP = 28 K/GPa. Tm(P=0) = 50 K. Tc(max) = 2.61 K at P=1.5 GPa. CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 2001 HoCoGa5 K 2.26 2.26 K/GPa 0.5 Response of the heavy-fermion superconductor CeCoIn5 to pressure: roles of dimensionality and proximity to a quantum-critical point 2001 "Los Alamos National Laboratory Los Alamos, NM 87545, USA" "J.Phys.: Condens.Matter, 13(2001)L905"
111523 SSC0840803 P-induced s/c. phase diagram and Tc(P) were measured. Tc shows Tc(max). dTc/dP = 0 K/GPa at Pc (=26 GPa) Se Se1 Se 1 1992 K 5.4 0 5.4 MTC11523 K/GPa 0 "210C, 20h, in vac." Pressure-induced superconductivity and phase transition in selenium and tellurium 1992 "Himeji Institute of Technology 1479-1 Kanaji, Kamigohri, Hyogo, 678-12, Japan " "Solid State Commun., 84(1992)803"
111524 SSC0840803 P-induced s/c. phase diagram and Tc(P) were measured. Tc shows Tc(max). Te Te1 Te 1 1992 K 7.4 0 7.4 MTC11524 Pressure-induced superconductivity and phase transition in selenium and tellurium 1992 "Himeji Institute of Technology 1479-1 Kanaji, Kamigohri, Hyogo, 678-12, Japan " "Solid State Commun., 84(1992)803"
111525 JAP0575093 substrate: oxidized Si wafer. T_{= RT. Tc(thickness) measured. Tc in TBL shows Tc(max). Be Be1 Be 1 1985 K 6 6 MTC11525 ion beam sputtering Superconducting beryllium thin films prepared by ion-beam sputtering 1985 "NTT Tokai, Ibaraki, Japan" "J.Appl.Phys., 57(1985)5093"
111526 PR135A0631 "Type-I s/c. dHc2/dT, Hc2(0) in DB represent dHc/dT, Hc(0), respectively." Hg Hg1 Hg 1 1964 K 4.16 4.16 Oe 380 Oe/K 203.3 mj/mol.K2 1.79 71.9 Specific heat of mercury and thallium between 0.35 and 4.2 K 1964 "Purdue University, Lafayette, Indiana" "Phys.Rev., 135(1964)A631"
111527 PR135A0631 "Type-I s/c. dHc2/dT, Hc2(0) in DB represent dHc/dT, Hc(0), respectively." Tl Tl1 Tl 1 1964 K 2.38 2.38 Oe 176.5 Oe/K 128 mj/mol.K2 1.47 78.5 Specific heat of mercury and thallium between 0.35 and 4.2 K 1964 "Purdue University, Lafayette, Indiana" "Phys.Rev., 135(1964)A631"
111528 PHC3990165 "Tc(off) = 2.8 K. Hc2(0), Hc1(0) measured at 2K." "Nd(Pt,Au)2B2C" Nd1Pt1.5Au0.6B2C1 Nd 1 Pt 1.5 Au 0.6 B 2 C 1 2003 LuNi2B2C A 3.835 10.781 K 3.2 3.2 Oe 100 kOe 2 "arc-melting, ANN(1100C,1w)" Coexistence of superconductivity and magnetic order in NdPt2B2C 2003 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai 400 005, India" "Physica C, 399(2003)165-170"
111529 PHC3990165 Tc(off) = 9.4 K. LaPt2B2C La1Pt2.1B2.4C1.2 La 1 Pt 2.1 B 2.4 C 1.2 2003 LuNi2B2C K 10.2 10.2 "arc-melting, ANN(1100C,1w)" Coexistence of superconductivity and magnetic order in NdPt2B2C 2003 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai 400 005, India" "Physica C, 399(2003)165-170"
111530 PHC3990165 Tc(off) = 9.5 K. "(La,Nd)Pt2B2C" La0.9Nd0.1Pt2.1B2.4C1.2 La 0.9 Nd 0.1 Pt 2.1 B 2.4 C 1.2 2003 LuNi2B2C K 10.3 10.3 "arc-melting, ANN(1100C,1w)" Coexistence of superconductivity and magnetic order in NdPt2B2C 2003 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai 400 005, India" "Physica C, 399(2003)165-170"
111531 PHC3990165 Tc(off) = 6.42 K. "(La,Nd)Pt2B2C" La0.7Nd0.3Pt2.1B2.4C1.2 La 0.7 Nd 0.3 Pt 2.1 B 2.4 C 1.2 2003 LuNi2B2C K 7.84 7.84 "arc-melting, ANN(1100C,1w)" Coexistence of superconductivity and magnetic order in NdPt2B2C 2003 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai 400 005, India" "Physica C, 399(2003)165-170"
111532 PHC3990165 Tc(off) = 5.35 K. "(La,Nd)Pt2B2C" La0.5Nd0.5Pt2.1B2.4C1.2 La 0.5 Nd 0.5 Pt 2.1 B 2.4 C 1.2 2003 LuNi2B2C K 6.36 6.36 "arc-melting, ANN(1100C,1w)" Coexistence of superconductivity and magnetic order in NdPt2B2C 2003 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai 400 005, India" "Physica C, 399(2003)165-170"
111533 PHC3990165 Tc(off) = 2.55 K. "(La,Nd)Pt2B2C" La0.3Nd0.7Pt2.1B2.4C1.2 La 0.3 Nd 0.7 Pt 2.1 B 2.4 C 1.2 2003 LuNi2B2C K 4.28 4.28 "arc-melting, ANN(1100C,1w)" Coexistence of superconductivity and magnetic order in NdPt2B2C 2003 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai 400 005, India" "Physica C, 399(2003)165-170"
111534 PHC3990165 Tc(off) < 1.7 K. "(La,Nd)Pt2B2C" La0.1Nd0.9Pt2.1B2.4C1.2 La 0.1 Nd 0.9 Pt 2.1 B 2.4 C 1.2 2003 LuNi2B2C K 3.45 3.45 "arc-melting, ANN(1100C,1w)" Coexistence of superconductivity and magnetic order in NdPt2B2C 2003 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai 400 005, India" "Physica C, 399(2003)165-170"
111535 PHC3990165 Tc(off) < 1.7 K. NdPt2B2C Nd1Pt2.1B2.4C1.2 Nd 1 Pt 2.1 B 2.4 C 1.2 2003 1.5 LuNi2B2C K 2.91 2.91 "arc-melting, ANN(1100C,1w)" Coexistence of superconductivity and magnetic order in NdPt2B2C 2003 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai 400 005, India" "Physica C, 399(2003)165-170"
111536 PHC4000160 Tc from SP-heat. lattice term beta=0.58 mJ/mol.K4. MgCNi3 Mg1C1Ni3 Mg 1 C 1 Ni 3 2003 A 3.81 K 6.84 6.84 MSP11536 mj/mol.K2 28.8 253 solid state reaction Specific heat study of (Mg0.85Zn0.15)CNi3 and MgCNi3 2003 "Korea Basic Science Institute, Daejeon 305-333, Republic of Korea" "Physica C, 400(2003)160-164"
111537 PHC4000160 Tc from SP-heat. lattice term beta=0.13 mJ/mol.K4. "(Mg,Zn)CNi3" Mg0.85Zn0.15C1Ni3 Mg 0.85 Zn 0.15 C 1 Ni 3 2003 A 3.79 K 4.12 4.12 MSP11537 mj/mol.K2 24.4 350 solid state reaction Specific heat study of (Mg0.85Zn0.15)CNi3 and MgCNi3 2003 "Korea Basic Science Institute, Daejeon 305-333, Republic of Korea" "Physica C, 400(2003)160-164"
111538 MTL0580142 Tc(on) = 37.6 K. "(Mg,Au)B2" Mg0.854Au0.146B2 Mg 0.854 Au 0.146 B 2 1 2003 A 4.612 8.525 hexagonal K 25.6 25.6 Au-doping effects in the Mg1-xAuxB2 series 2003 "Department of Physics and State Key Laboratory for Microscopic Physics, Peking University, Beijing 100871, China" "Materials Lett., 58(2003)142-145"
111539 MTL0580142 Tc(on) = 35 K. "(Mg,Au)B2" Mg0.764Au0.236B2 Mg 0.764 Au 0.236 B 2 1 2003 hexagonal K 24.5 24.5 Au-doping effects in the Mg1-xAuxB2 series 2003 "Department of Physics and State Key Laboratory for Microscopic Physics, Peking University, Beijing 100871, China" "Materials Lett., 58(2003)142-145"
111540 MTL0580142 "For x => 0.382, not single phase." "(Mg,Au)B2" Mg0.618Au0.382B2 Mg 0.618 Au 0.382 B 2 2003 hexagonal K 10 Au-doping effects in the Mg1-xAuxB2 series 2003 "Department of Physics and State Key Laboratory for Microscopic Physics, Peking University, Beijing 100871, China" "Materials Lett., 58(2003)142-145"
111541 NMT0020653 "Si-isotope, <30>Si and <28>Si were used. 437 cm(-1) phonon is important for s/c. delta-C/gamma*Tc = 1.52. gap from SP-heat measurements." Ba8Si46 Ba8Si46 Ba 8 Si 46 2003 clathrate K 8.07 8.07 0.17 Si 3.6 10 mj/mol.K2 144 370 Mechanism of superconductivity in the polyhedral-network compound Ba8Si46 2003 "Graduate School of Science,Materials Science Osaka City University, 3-3-138, Osaka 558-8585, Japan" "Nature Mat.Lett., 2(2003)653"
111542 P068180502 PENET measured using LC resonator. MgCNi3 Mg1C1Ni3 Mg 1 C 1 Ni 3 2003 K 7.2 7.2 A 2500 Evidence for unconventional superconductivity in the nonoxide perovskite MgCNi3 from penetration depth measurements 2003 "Department of Physics & Astronomy and USC NanoCenter, University of South Carolina, Columbia, South Carolina, USA" "Phys.Rev.B, 68(2003)180502"
111543 SSC1270279 space-G = Imma. Int'l No. =74. delta-C = 13.2 mj/mol.K2. delta-C/gamma*Tc = 1.33. La3Pd5Si La3Pd5Si1 La 3 Pd 5 Si 1 2003 A 13.1316 7.4365 7.6496 orthorhombic K 1.4 1.4 kOe 1.405 kOe/K 1.454 MHC11543 mj/mol.K2 13.4 164 arc-melting Superconductivity in the new intermetallic compound La3Pd5Si 2003 "Department of CMP and MS, Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai, India" "Solid State Commun., 127(2003)279"
111544 JPC0154809 amorphous. Zr-Ti-Cu-Ni-Be Zr46.75Ti8.25Cu7.5Ni10Be27.5 Zr 46.75 Ti 8.25 Cu 7.5 Ni 10 Be 27.5 2003 amorphous K 1.84 1.84 T 3.6 T/K 2.5 arc-melting. melt-quench method Superconductivity of bulk Zr46.75Ti8.25Cu7.5Ni10Be27.5 metallic glass 2003 "Institute of Physics, Chinese Academy of Sciences, Beijing 100080, People's Republic of China" "J. Phys.: Condens. Matter, 15(2003)4809"
111545 JPC0154809 crystallization of sample 11544. glass temp. = 623 K. cryst.temp. = 698 K. Zr-Ti-Cu-Ni-Be Zr46.75Ti8.25Cu7.5Ni10Be27.5 Zr 46.75 Ti 8.25 Cu 7.5 Ni 10 Be 27.5 2003 K 3.76 3.76 T 3.2 T/K 1.2 crystallization of sample 11544. Superconductivity of bulk Zr46.75Ti8.25Cu7.5Ni10Be27.5 metallic glass 2003 "Institute of Physics, Chinese Academy of Sciences, Beijing 100080, People's Republic of China" "J. Phys.: Condens. Matter, 15(2003)4809"
111547 PR0489858 epsilon-TiNiSi type. space-G = Pnma. delta-C/gamma*Tc = 1.53 LaRhSb La1Rh1Sb1 La 1 Rh 1 Sb 1 1993 A 7.547 4.696 7.898 orthorhombic K 2.1 2.1 MSP11547 mj/mol.K2 7.7 252 arc-melting OBSERVATION OF SUPERCONDUCTIVITY IN LARHSB 1993 10 "PHYS.REV.B,48(1993)9858"
111548 EPL0610254 "penetration depth by muon-SR. two gaps. table value is the higher one. the lower gap, 2*gap/kTc = 1.25" "Mg(B,C)2" Mg1B1.98C0.02 Mg 1 B 1.98 C 0.02 2003 AlB2 "AlB2, C32" K 37.2 37.2 nm 97.2 3.62 "(Mg,a-B,C) mixture, heat(900C,2h)" Muon-SR study of carbon-doped MgB2 superconductors 2003 "School of Chemistry, Physics and Environmental Science, University of Sussex Brighton BN1 9QJ, UK" "Europhys.Lett., 61(2003)254"
111549 EPL0610254 "penetration depth by muon-SR. two gaps. table value is the higher one. the lower gap, 2*gap/kTc = 0.966" "Mg(B,C)2" Mg1B1.96C0.04 Mg 1 B 1.96 C 0.04 2003 AlB2 "AlB2, C32" K 36.1 36.1 nm 98.5 3.35 "(Mg,a-B,C) mixture, heat(900C,2h)" Muon-SR study of carbon-doped MgB2 superconductors 2003 "School of Chemistry, Physics and Environmental Science, University of Sussex Brighton BN1 9QJ, UK" "Europhys.Lett., 61(2003)254"
111550 EPL0610254 "penetration depth by muon-SR. two gaps. table value is the higher one. the lower gap, 2*gap/kTc = 0.869" "Mg(B,C)2" Mg1B1.94C0.06 Mg 1 B 1.94 C 0.06 2003 AlB2 "AlB2, C32" K 34.8 34.8 nm 100.6 3.21 "(Mg,a-B,C) mixture, heat(900C,2h)" Muon-SR study of carbon-doped MgB2 superconductors 2003 "School of Chemistry, Physics and Environmental Science, University of Sussex Brighton BN1 9QJ, UK" "Europhys.Lett., 61(2003)254"
111551 P065224416 Hc2 defined as onset of ac-sus. YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 3 2002 LuNi2B2C K MHC11551 "floating zone, ANN(1435C in Ar)" Tuning of upper critical field anisotropy in TbxY1-xNi2B2C 2002 "Leibniz-Institut fur Festkorper- und Werkstoffforschung Dresden, Dresden, Germany" "Phys.Rev.B, 65(2002)224416"
111552 P065224416 Hc2 defined as onset of ac-sus. "(Y,Tb)Ni2B2C" Y0.9Tb0.1Ni2B2C1 Y 0.9 Tb 0.1 Ni 2 B 2 C 1 3 2002 LuNi2B2C K MHC11552 "floating zone, ANN(1435C in Ar)" Tuning of upper critical field anisotropy in TbxY1-xNi2B2C 2002 "Leibniz-Institut fur Festkorper- und Werkstoffforschung Dresden, Dresden, Germany" "Phys.Rev.B, 65(2002)224416"
111553 P065224416 Hc2 defined as onset of ac-sus. "(Y,Tb)Ni2B2C" Y0.8Tb0.2Ni2B2C1 Y 0.8 Tb 0.2 Ni 2 B 2 C 1 3 2002 LuNi2B2C K MHC11553 "floating zone, ANN(1435C in Ar)" Tuning of upper critical field anisotropy in TbxY1-xNi2B2C 2002 "Leibniz-Institut fur Festkorper- und Werkstoffforschung Dresden, Dresden, Germany" "Phys.Rev.B, 65(2002)224416"
111554 P065224416 Hc2 defined as onset of ac-sus. "(Y,Tb)Ni2B2C" Y0.7Tb0.3Ni2B2C1 Y 0.7 Tb 0.3 Ni 2 B 2 C 1 3 2002 LuNi2B2C K MHC11554 "floating zone, ANN(1435C in Ar)" Tuning of upper critical field anisotropy in TbxY1-xNi2B2C 2002 "Leibniz-Institut fur Festkorper- und Werkstoffforschung Dresden, Dresden, Germany" "Phys.Rev.B, 65(2002)224416"
111555 P065224416 Hc2 defined as onset of ac-sus. "(Y,Tb)Ni2B2C" Y0.6Tb0.4Ni2B2C1 Y 0.6 Tb 0.4 Ni 2 B 2 C 1 3 2002 LuNi2B2C K MHC11555 "floating zone, ANN(1435C in Ar)" Tuning of upper critical field anisotropy in TbxY1-xNi2B2C 2002 "Leibniz-Institut fur Festkorper- und Werkstoffforschung Dresden, Dresden, Germany" "Phys.Rev.B, 65(2002)224416"
111556 PR03100656 LaRh3B2 La1Rh3B2 La 1 Rh 3 B 2 1985 K 2.32 2.32 arc-melting Anomalous ferromagnetism in CeRh3B2: Possibility of a new Kondo-lattice state 1985 "Phys.Rev.B, 31(1985)656"
111557 PR03100656 "(La,Ce)Rh3B2" La0.9989Ce0.0011Rh3B2 La 0.9989 Ce 0.0011 Rh 3 B 2 1985 K 1.67 1.67 arc-melting Anomalous ferromagnetism in CeRh3B2: Possibility of a new Kondo-lattice state 1985 "Phys.Rev.B, 31(1985)656"
111558 PR03100656 "(La,Ce)Rh3B2" La0.9978Ce0.0022Rh3B2 La 0.9978 Ce 0.0022 Rh 3 B 2 1985 K 1.07 1.07 arc-melting Anomalous ferromagnetism in CeRh3B2: Possibility of a new Kondo-lattice state 1985 "Phys.Rev.B, 31(1985)656"
111559 PR03100656 "(La,Ce)Rh3B2" La0.9973Ce0.0027Rh3B2 La 0.9973 Ce 0.0027 Rh 3 B 2 1985 K 0.38 0.38 arc-melting Anomalous ferromagnetism in CeRh3B2: Possibility of a new Kondo-lattice state 1985 "Phys.Rev.B, 31(1985)656"
111560 PLA1130330 not CeCo3B2-type. kaizero = 6.88 E-4 emu/mol. e-ph interaction = 0.47. CeOs3B2 Ce1Os3B2 Ce 1 Os 3 B 2 1985 0 K 3.5 3.5 mj/mol.K2 40.1 450 arc-melting Superconductivity in the ternary borides CeOs3B2 and CeRu3B2: magnetic susceptibility and specific heat measurements 1985 "Phys.Lett., 113A(1985)330"
111561 PLA1130330 kaizero = 2.74 E-4 emu/mol. e-ph interaction = 0.41. (delta-C/gamma*Tc) = 1.42 CeRu3B2 Ce1Ru3B2 Ce 1 Ru 3 B 2 1985 0 CeCo3B2 A 5.533 2.997 K 1.1 1.1 mj/mol.K2 15.6 288 arc-melting Superconductivity in the ternary borides CeOs3B2 and CeRu3B2: magnetic susceptibility and specific heat measurements 1985 "Phys.Lett., 113A(1985)330"
111562 EPL0620412 "PENET measured by surface impedance (5.5 GHz), well described by T^1.5." CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2003 K 2.25 2.25 A 2810 self-flux method London penetration depth measurements of the heavy-fermion superconductor CeCoIn5 near a magnetic quantum critical point 2003 "Cavendish Laboratory, University of Cambridge, Madingley Road, Cambridge CB3 0HE, UK" "Eur.Phys.JLett., 62(2003)412"
111563 L092027003 space-G: P4mm (No.99). moment = 2.54 myu-B/Ce. CePt3Si Ce1Pt3Si1 Ce 1 Pt 3 Si 1 2004 -46 2.2 CePt3B A 4.072 5.442 K 0.75 0.75 T 5 T/K 8.5 MHC11563 mj/mol.K2 360 "arc-melting, heat (870C,3w,in vac)" Heavy Fermion Superconductivity and Magnetic Order in Noncentrosymmetric CePt3Si 2004 "1Institut fur Festkorperphysik, Technische Universitat Wien, A-1040 Wien, Austria" "Phys.Rev.Lett., 92(2004)27003"
111564 L092027003 not s/c. LaPt3Si La1Pt3Si1 La 1 Pt 3 Si 1 2004 CePt3B A 4.115 5.438 K 3 mj/mol.K2 9 255 "arc-melting, heat (870C,3w,in vac)" Heavy Fermion Superconductivity and Magnetic Order in Noncentrosymmetric CePt3Si 2004 "1Institut fur Festkorperphysik, Technische Universitat Wien, A-1040 Wien, Austria" "Phys.Rev.Lett., 92(2004)27003"
111565 P068214518 "space-G: I4/mmm. dTc/dx = -100 K/mol(Fe). Re-entrant to normal (5.7 K), then s/c (5.5 K). Weak ferromagnetism at 2.2 K. Mossbauer also measured." "Er(Ni,Fe)2B2C" Er1Ni1.96Fe0.04B2C0.99 Er 1 Ni 1.96 Fe 0.04 B 2 C 0.99 1 2003 5.9 LuNi2B2C A 3.501 10.563 K 7.3 7.3 "induction furnace, ANN(1100C,6d)" Magnetic structure in the zero-applied-field reentrant superconductor ErNi1.96Fe0.04B2C0.99 2003 "LCMTR-CNRS, ISCSA, 2-8 rue H. Dunant, 94320 Thiais, France" "Phys.Rev.B, 68(2003)214518"
111566 P069024509 "Table balues of Hc1, Hc2 are for H//a. For H//c, Hc1 = 165 Oe and Hc2 = 0.25 T. Neel-T from sp-heat." "(Er,Tb)Ni2B2C" Er0.8Tb0.2Ni2B2C1 Er 0.8 Tb 0.2 Ni 2 B 2 C 1 3 2004 6.8 LuNi2B2C K 3.7 3.7 Oe 115 T 0.22 MHC11566 mj/mol.K2 18.9 "floating zone, ANN(1400C,100h)" "Magnetic and superconducting phase diagrams of single-crystal Er0.8R0.2Ni2B2C (R=Tb, Lu) and ErNi1.9Co0.1B2C: Identification of pair-breaking mechanisms" 2004 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki, 305-0047, Japan" "Phys.Rev.B, 69(2004)24509"
111567 P069024509 "Table balues of Hc1, Hc2 are for H//a. For H//c, Hc1 = 625 Oe and Hc2 = 2.39 T. Neel-T from sp-heat." "(Er,Lu)Ni2B2C" Er0.8Lu0.2Ni2B2C1 Er 0.8 Lu 0.2 Ni 2 B 2 C 1 3 2004 4.9 LuNi2B2C K 10.8 10.8 Oe 585 T 1.47 MHC11567 mj/mol.K2 16.2 "floating zone, ANN(1400C,100h)" "Magnetic and superconducting phase diagrams of single-crystal Er0.8R0.2Ni2B2C (R=Tb, Lu) and ErNi1.9Co0.1B2C: Identification of pair-breaking mechanisms" 2004 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki, 305-0047, Japan" "Phys.Rev.B, 69(2004)24509"
111568 P069024509 "Table balues of Hc1, Hc2 are for H//a. For H//c, Hc1 = 54 Oe and Hc2 = 0.13 T. Neel-T from sp-heat." "Er(Ni,Co)2B2C" Er1Ni1.9Co0.1B2C1 Er 1 Ni 1.9 Co 0.1 B 2 C 1 3 2004 5.4 LuNi2B2C K 3.1 3.1 Oe 45 T 0.08 MHC11568 mj/mol.K2 17.7 "floating zone, ANN(1400C,100h)" "Magnetic and superconducting phase diagrams of single-crystal Er0.8R0.2Ni2B2C (R=Tb, Lu) and ErNi1.9Co0.1B2C: Identification of pair-breaking mechanisms" 2004 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki, 305-0047, Japan" "Phys.Rev.B, 69(2004)24509"
111569 P069024523 RRR=93. R(300K) = 155 uOhm.cm. R(0 K) = 1.67 uOhm.cm. PrOs4Sb12 Pr1Os4Sb12 Pr 1 Os 4 Sb 12 3 2004 skutterudite A 9.301 K 1.83 1.83 Sb-flux method Superconductivity and crystalline electric field effects in the filled skutterudite series Pr(Os1-xRux)4Sb12 2004 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California, USA" "Phys.Rev.B, 69(2004)24523"
111570 P069024523 RRR=13. R(300K) = 235 uOhm.cm. R(0 K) = 18.7 uOhm.cm. "Pr(Os,Ru)4Sb12" Pr1Os3.8Ru0.2Sb12 Pr 1 Os 3.8 Ru 0.2 Sb 12 3 2004 skutterudite A 9.3051 K 1.68 1.68 Sb-flux method Superconductivity and crystalline electric field effects in the filled skutterudite series Pr(Os1-xRux)4Sb12 2004 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California, USA" "Phys.Rev.B, 69(2004)24523"
111571 P069024523 RRR=5.6. R(300K) = 259 uOhm.cm. R(0 K) = 46.0 uOhm.cm. "Pr(Os,Ru)4Sb12" Pr1Os3.6Ru0.4Sb12 Pr 1 Os 3.6 Ru 0.4 Sb 12 3 2004 skutterudite A 9.2995 K 1.58 1.58 Sb-flux method Superconductivity and crystalline electric field effects in the filled skutterudite series Pr(Os1-xRux)4Sb12 2004 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California, USA" "Phys.Rev.B, 69(2004)24523"
111572 P069024523 RRR=8.0. R(300K) = 215 uOhm.cm. R(0 K) = 27.0 uOhm.cm. "Pr(Os,Ru)4Sb12" Pr1Os3.4Ru0.6Sb12 Pr 1 Os 3.4 Ru 0.6 Sb 12 3 2004 skutterudite A 9.295 K 1.53 1.53 Sb-flux method Superconductivity and crystalline electric field effects in the filled skutterudite series Pr(Os1-xRux)4Sb12 2004 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California, USA" "Phys.Rev.B, 69(2004)24523"
111573 P069024523 RRR=9.4. R(300K) = 510 uOhm.cm. R(0 K) = 54.0 uOhm.cm. "Pr(Os,Ru)4Sb12" Pr1Os3.2Ru0.8Sb12 Pr 1 Os 3.2 Ru 0.8 Sb 12 3 2004 skutterudite A 9.3004 K 1.44 1.44 Sb-flux method Superconductivity and crystalline electric field effects in the filled skutterudite series Pr(Os1-xRux)4Sb12 2004 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California, USA" "Phys.Rev.B, 69(2004)24523"
111574 P069024523 "Pr(Os,Ru)4Sb12" Pr1Os2.8Ru1.2Sb12 Pr 1 Os 2.8 Ru 1.2 Sb 12 3 2004 skutterudite A 9.2895 K 1.05 1.05 Sb-flux method Superconductivity and crystalline electric field effects in the filled skutterudite series Pr(Os1-xRux)4Sb12 2004 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California, USA" "Phys.Rev.B, 69(2004)24523"
111575 P069024523 RRR=5.9. R(300K) = 343 uOhm.cm. R(0 K) = 58.2 uOhm.cm. "Pr(Os,Ru)4Sb12" Pr1Os2.4Ru1.6Sb12 Pr 1 Os 2.4 Ru 1.6 Sb 12 3 2004 skutterudite A 9.2875 K 1.14 1.14 Sb-flux method Superconductivity and crystalline electric field effects in the filled skutterudite series Pr(Os1-xRux)4Sb12 2004 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California, USA" "Phys.Rev.B, 69(2004)24523"
111576 P069024523 "Pr(Os,Ru)4Sb12" Pr1Os2Ru2Sb12 Pr 1 Os 2 Ru 2 Sb 12 3 2004 skutterudite A 9.2875 K 0.8 0.8 Sb-flux method Superconductivity and crystalline electric field effects in the filled skutterudite series Pr(Os1-xRux)4Sb12 2004 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California, USA" "Phys.Rev.B, 69(2004)24523"
111577 P069024523 RRR=4.5. R(300K) = 305 uOhm.cm. R(0 K) = 67.4 uOhm.cm. "Pr(Os,Ru)4Sb12" Pr1Os1.6Ru2.4Sb12 Pr 1 Os 1.6 Ru 2.4 Sb 12 3 2004 skutterudite A 9.2804 K 0.76 0.76 Sb-flux method Superconductivity and crystalline electric field effects in the filled skutterudite series Pr(Os1-xRux)4Sb12 2004 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California, USA" "Phys.Rev.B, 69(2004)24523"
111578 P069024523 RRR=4.8. R(300K) = 166 uOhm.cm. R(0 K) = 34.8 uOhm.cm. "Pr(Os,Ru)4Sb12" Pr1Os1.2Ru2.8Sb12 Pr 1 Os 1.2 Ru 2.8 Sb 12 3 2004 skutterudite A 9.2802 K 0.81 0.81 Sb-flux method Superconductivity and crystalline electric field effects in the filled skutterudite series Pr(Os1-xRux)4Sb12 2004 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California, USA" "Phys.Rev.B, 69(2004)24523"
111579 P069024523 "Pr(Os,Ru)4Sb12" Pr1Os1Ru3Sb12 Pr 1 Os 1 Ru 3 Sb 12 3 2004 skutterudite A 9.2774 K 0.84 0.84 Sb-flux method Superconductivity and crystalline electric field effects in the filled skutterudite series Pr(Os1-xRux)4Sb12 2004 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California, USA" "Phys.Rev.B, 69(2004)24523"
111580 P069024523 "Pr(Os,Ru)4Sb12" Pr1Os0.6Ru3.4Sb12 Pr 1 Os 0.6 Ru 3.4 Sb 12 3 2004 skutterudite A 9.2723 K 0.97 0.97 Sb-flux method Superconductivity and crystalline electric field effects in the filled skutterudite series Pr(Os1-xRux)4Sb12 2004 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California, USA" "Phys.Rev.B, 69(2004)24523"
111581 P069024523 RRR=7.8. R(300K) = 330 uOhm.cm. R(0 K) = 42.4 uOhm.cm. "Pr(Os,Ru)4Sb12" Pr1Os0.4Ru3.6Sb12 Pr 1 Os 0.4 Ru 3.6 Sb 12 3 2004 skutterudite A 9.27 K 1.04 1.04 Sb-flux method Superconductivity and crystalline electric field effects in the filled skutterudite series Pr(Os1-xRux)4Sb12 2004 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California, USA" "Phys.Rev.B, 69(2004)24523"
111582 P069024523 "Pr(Os,Ru)4Sb12" Pr1Os0.2Ru3.8Sb12 Pr 1 Os 0.2 Ru 3.8 Sb 12 3 2004 skutterudite A 9.2693 K 1.16 1.16 Sb-flux method Superconductivity and crystalline electric field effects in the filled skutterudite series Pr(Os1-xRux)4Sb12 2004 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California, USA" "Phys.Rev.B, 69(2004)24523"
111583 P069024523 RRR=14. R(300K) = 578 uOhm.cm. R(0 K) = 41.8 uOhm.cm. PrRu4Sb12 Pr1Ru4Sb12 Pr 1 Ru 4 Sb 12 3 2004 skutterudite A 9.27 K 1.11 1.11 Sb-flux method Superconductivity and crystalline electric field effects in the filled skutterudite series Pr(Os1-xRux)4Sb12 2004 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California, USA" "Phys.Rev.B, 69(2004)24523"
111584 1702 "pressure-induced s/c. Tc(P=90 kbar) = 8.7 K, Tc(P=153 kbar) = 7.4 K. dTc/dP = -2.3 E-5 K/kbar at P=90 kbar." Bi Bi1 Bi 1 1971 K 8.7 0 8.7 K/GPa -0.23 "Superconductivity of Bismuth, Barium, and Lead at pressures exceeding 100 kbar" 1971 "ZH.EKSP.TEOR.FIZ.,61(1971)2357, Soviet Physics JETP, 34(1972)1263"
111585 172 dTc/dP = -1.1 E-5 K/kbar. dTc/dP = -2.2 E-5 K/kbar for Pb(II). Pb Pb1 Pb 1 1959 K K/GPa -0.11 1959 "PHYS.REV.LETT.,2(1959)500"
111586 SSC0490879 pressure-induced s/c. simple cubic. Tc(P=15 GPa) = 6 K. P P1 P 1 1984 cubic K 6 0 6 Anomalous superconductivity in black phosphorus under high pressures 1984 "Solid State Commun., 49(1984)879"
111587 SSC0490879 "pressure-induced s/c. Ortho phase. Tc = 4 K, 5 K, 10.5 K, at P = 11, 13, 29 GPa, respectively." P P1 P 1 1984 orthorhombic K 4 0 4 Anomalous superconductivity in black phosphorus under high pressures 1984 "Solid State Commun., 49(1984)879"
111588 SSC0490879 "pressure-induced s/c. Rhombo-phase. Tc(P=8.7GPa) = 5.5 K, Tc(P=25.2GPa) = 6.2 K." P P1 P 1 1984 rhombohedral K 5.5 0 5.5 Anomalous superconductivity in black phosphorus under high pressures 1984 "Solid State Commun., 49(1984)879"
111590 L089247004 "two band gap. the higher=7.1 meV in TBL, the lower = 2.80 meV (2*gap/kTc = 1.096). measured by point contact tunneling." MgB2 B2Mg1 B 2 Mg 1 3 2002 AlB2 "AlB2, C32" K 38.2 38.2 GAP11590 4.32 1 high pressure (30-35 kbar) synthesis Direct Evidence for Two-Band Superconductivity in MgB2 Single Crystals from Directional Point-Contact Spectroscopy in Magnetic Fields 2002 "INFM-Dipartimento di Fisica, Politecnico di Torino, Corso Duca degli Abruzzi 24, 10129 Torino, Italy" "Phys.Rev.Lett., 89(2002)247004"
111591 PHC4030113 "(Mg,Zn,Al)B2" Mg0.95Zn0.025Al0.025B2 Mg 0.95 Zn 0.025 Al 0.025 B 2 1 2004 AlB2 "AlB2, C32" K 38.5 38.5 solid state reaction Superconducting properties of Zn and Al double-doped Mg1-x(Zn0.5Al0.5)xB2 2004 "Materials Research Department, Riso National Laboratory, P.O. Box 49, 4000 Roskilde, Denmark" "Physica C, 403(2004)113"
111592 PHC4030113 "(Mg,Zn,Al)B2" Mg0.9Zn0.05Al0.05B2 Mg 0.9 Zn 0.05 Al 0.05 B 2 1 2004 AlB2 A 3.5192 3.0827 "AlB2, C32" K 38.5 38.5 solid state reaction Superconducting properties of Zn and Al double-doped Mg1-x(Zn0.5Al0.5)xB2 2004 "Materials Research Department, Riso National Laboratory, P.O. Box 49, 4000 Roskilde, Denmark" "Physica C, 403(2004)113"
111593 PHC4030113 "(Mg,Zn,Al)B2" Mg0.8Zn0.1Al0.1B2 Mg 0.8 Zn 0.1 Al 0.1 B 2 1 2004 AlB2 A 3.5034 3.079 "AlB2, C32" K 34 34 solid state reaction Superconducting properties of Zn and Al double-doped Mg1-x(Zn0.5Al0.5)xB2 2004 "Materials Research Department, Riso National Laboratory, P.O. Box 49, 4000 Roskilde, Denmark" "Physica C, 403(2004)113"
111594 PHC4030113 "(Mg,Zn,Al)B2" Mg0.7Zn0.15Al0.15B2 Mg 0.7 Zn 0.15 Al 0.15 B 2 1 2004 AlB2 A 3.4436 3.0744 "AlB2, C32" K 28.6 28.6 solid state reaction Superconducting properties of Zn and Al double-doped Mg1-x(Zn0.5Al0.5)xB2 2004 "Materials Research Department, Riso National Laboratory, P.O. Box 49, 4000 Roskilde, Denmark" "Physica C, 403(2004)113"
111595 PHC4030113 "(Mg,Zn,Al)B2" Mg0.6Zn0.2Al0.2B2 Mg 0.6 Zn 0.2 Al 0.2 B 2 1 2004 AlB2 A 3.4188 3.0685 "AlB2, C32" K 7.5 7.5 solid state reaction Superconducting properties of Zn and Al double-doped Mg1-x(Zn0.5Al0.5)xB2 2004 "Materials Research Department, Riso National Laboratory, P.O. Box 49, 4000 Roskilde, Denmark" "Physica C, 403(2004)113"
111596 PHC4030113 not s/c. "(Mg,Zn,Al)B2" Mg0.4Zn0.3Al0.3B2 Mg 0.4 Zn 0.3 Al 0.3 B 2 1 2004 AlB2 A 3.3872 3.0602 "AlB2, C32" K 4 solid state reaction Superconducting properties of Zn and Al double-doped Mg1-x(Zn0.5Al0.5)xB2 2004 "Materials Research Department, Riso National Laboratory, P.O. Box 49, 4000 Roskilde, Denmark" "Physica C, 403(2004)113"
111597 PHC4030113 not s/c. "(Mg,Zn,Al)B2" Mg0.2Zn0.4Al0.4B2 Mg 0.2 Zn 0.4 Al 0.4 B 2 1 2004 AlB2 A 3.3184 3.0355 "AlB2, C32" K 10 solid state reaction Superconducting properties of Zn and Al double-doped Mg1-x(Zn0.5Al0.5)xB2 2004 "Materials Research Department, Riso National Laboratory, P.O. Box 49, 4000 Roskilde, Denmark" "Physica C, 403(2004)113"
111600 JPS0730190 gap by NQR. LaRu3Si2 La1Ru3Si2 La 1 Ru 3 Si 2 1 2004 A 5.67 7.12 K 6.5 6.5 5.5 6 arc-melting La-NQR Probe of Strong-Coupling s-Wave Superconductivity in LaRu3Si2 2004 "Department of Physics, Faculty of Engineering, Tokushima University, Tokushima ,Japan" "J.Phys.Soc.Jpn, 73(2004)190"
111601 JPS0712035 "Hc1(0), Hc2(0) are estimated from the data of Hc1(2.0K)=712Oe, Hc1(4.2K)=410Oe, Hc2(2.0K)=2.0T,Hc2(4.2K)=1.25T. Curie Const. = 5.54 E-4 K.emu/mol. G-L parameter = 4.7" LaRu3Si2 La1Ru3Si2 La 1 Ru 3 Si 2 1 2002 7.23 A 5.67 7.12 K 6.5 6.5 Oe 1004 T 2.68 A 107 A 504 arc-melting Magnetic Susceptibility Study of LaRu3Si2 2002 "Department of Physics, Faculty of Engineering, Tokushima University, Tokushima ,Japan" "J.Phys.Soc.Jpn, 71(2002)2035"
111602 PR04912051 G-L parameter = 10 LaRu3Si2 La1Ru3Si2 La 1 Ru 3 Si 2 1 1994 A 5.675 7.115 K 7.5 7.5 Oe 100 T 2 arc-melting Type-II superconductivity in a dilute magnetic system: La1-xTmxRu3Si2 1994 "Centre National de la Recherche Scientifique, 1 place A.Briand, Meudon,France" "Phys.Rev.B, 49(1994)12051"
111603 PR04912051 moment = 8.6 myu/Tm. dTc/dx = -8 K/x. "(La,Tm)Ru3Si2" La0.92Tm0.08Ru3Si2 La 0.92 Tm 0.08 Ru 3 Si 2 1 1994 13.7 K 6.8 6.8 arc-melting Type-II superconductivity in a dilute magnetic system: La1-xTmxRu3Si2 1994 "Centre National de la Recherche Scientifique, 1 place A.Briand, Meudon,France" "Phys.Rev.B, 49(1994)12051"
111604 PR04912051 moment = 8.1 myu/Tm. dTc/dx = -8 K/x. "(La,Tm)Ru3Si2" La0.84Tm0.16Ru3Si2 La 0.84 Tm 0.16 Ru 3 Si 2 1 1994 18.4 A 5.635 7.08 K 6.1 6.1 arc-melting Type-II superconductivity in a dilute magnetic system: La1-xTmxRu3Si2 1994 "Centre National de la Recherche Scientifique, 1 place A.Briand, Meudon,France" "Phys.Rev.B, 49(1994)12051"
111605 PR03000444 R(300K)=67 uOhm.cm. R(Tn)=13 uOhm.cm. delta-C/gamma*Tc = 1.1. Debye-T from beta=0.8 mj/mol.K4. CeRu3Si2 Ce1Ru3Si2 Ce 1 Ru 3 Si 2 1984 A 5.55 7.12 K 1.25 1.25 T 0.24 T/K 0.25 mj/mol.K2 39 245 arc-melting Superconductivity in a mixed-valent system: CeRu3Si2 1984 "Institut fur Festkorperphysik,Technische Hochschule Darmstadt,Darmstadt, Germany" "Phys.Rev.B, 30(1984)444"
111606 P069054505 "delta-C = 110 mj/mol.K. gamma from delta-C/gamma*Tc = 1.43. Three magnetic transitions (AF (5.2K), FM (6K), and another magnetic transition at 5.5 K) are observed in SP-heat." HoNi2B2C Ho1Ni2B2C1 Ho 1 Ni 2 B 2 C 1 2004 6 5.2 LuNi2B2C K 8.04 8.04 mj/mol.K2 9.6 flux method using Ni2B solvent Specific heat study of the magnetic superconductor HoNi2B2C 2004 "Department of Physics and Material Research Laboratory, University of Illinois at Urbana-Champaign, Illinois 61801, USA" "Phys.Rev.B, 69(2004)054505"
111607 P069060504 gap(0.19 K) = 270 ueV. Tunneling spectra by TEM. PrOs4Sb12 Pr1Os4Sb12 Pr 1 Os 4 Sb 12 3 2004 K 1.85 1.85 3.4 11 "melt in rich of Os, Sb" Very-low-temperature tunneling spectroscopy in the heavy-fermion superconductor PrOs4Sb12 2004 "Phys.Rev.B, 69(2004)060504"
111608 L092057001 "For H//c, Hc1(0)=0.11 T and Hc2(0)=3 T estimated from figure. Anisotropy factor = 5 at low temperature." MgB2 B2Mg1 B 2 Mg 1 3 2004 AlB2 "AlB2, C32" K 36.5 36.5 Oe 1120 T 13 Anisotropies of the Lower and Upper Critical Fields in MgB2 Single Crystals 2004 "Phys.Rev.Lett., 92(2004)57001"
111609 P069100506 gap from ARPES measurements. gap=1.2 meV (at T=5.4 K). second gap=1.1 meV (at T=5.4 K) "Ca(Al,Si)2" Ca1Al1Si1 Ca 1 Al 1 Si 1 3 2004 AlB2 A 4.19 4.3978 "AlB2, C32" K 7.7 7.7 4.2 12 floating zone Identical superconducting gap on different Fermi surfaces of Ca(Al0.5Si0.5)2 with the AlB2 structure 2004 "Institute for Solid State Physics, University of Tokyo, 5-1-5 Kashiwa-no-ha, Kashiwa, Chiba, Japan" "Phys.Rev.B, 69(2004)100506"
111610 PCS0312653 Thermopower = -6.53 uV/K at 30 C. "La(In,Sn)3" La1In2.25Sn0.75 La 1 In 2.25 Sn 0.75 1 1970 Cu3Au K 0.75 0.75 MTC11610 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111611 PCS0312653 Thermopower = 6.65 uV/K at 30 C. "La(In,Sn)3" La1In1.5Sn1.5 La 1 In 1.5 Sn 1.5 1 1970 Cu3Au K 1.19 1.19 MTC11610 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111612 PCS0312653 Thermopower = -6.88 uV/K at 30 C. "La(In,Sn)3" La1In0.75Sn2.25 La 1 In 0.75 Sn 2.25 1 1970 Cu3Au K 0.67 0.67 MTC11610 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111613 PCS0312653 Thermopower = 4.75 uV/K at 30 C. "(La,Th)Sn3" La0.87Th0.13Sn3 La 0.87 Th 0.13 Sn 3 1 1970 Cu3Au K 6.26 6.26 MTC11613 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111614 PCS0312653 Thermopower = 1.47 uV/K at 30 C. "(La,Th)Sn3" La0.5Th0.5Sn3 La 0.5 Th 0.5 Sn 3 1 1970 Cu3Au K 4.67 4.67 MTC11613 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111615 PCS0312653 Thermopower = -1.25 uV/K at 30 C. "(La,Th)Sn3" La0.25Th0.75Sn3 La 0.25 Th 0.75 Sn 3 1 1970 Cu3Au K 3.94 3.94 MTC11613 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111616 PCS0312653 Thermopower = -5.47 uV/K at 30 C. "La(Tl,Pb)3" La1Tl2.19Pb0.81 La 1 Tl 2.19 Pb 0.81 1 1970 Cu3Au K 1.37 1.37 MTC11616 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111617 PCS0312653 Thermopower = 6.86 uV/K at 30 C. "La(Tl,Pb)3" La1Tl1.5Pb1.5 La 1 Tl 1.5 Pb 1.5 1 1970 Cu3Au K 1.75 1.75 MTC11616 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111618 PCS0312653 Thermopower = 2.79 uV/K at 30 C. "La(Tl,Pb)3" La1Tl0.24Pb2.76 La 1 Tl 0.24 Pb 2.76 1 1970 Cu3Au K 4.46 4.46 MTC11616 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111619 PCS0312653 "(La,Th)Pb3" La0.76Th0.24Pb3 La 0.76 Th 0.24 Pb 3 1 1970 Cu3Au K 1.46 1.46 MTC11619 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111620 PCS0312653 Thermopower = 18.5 uV/K at 30 C. "(La,Th)Pb3" La0.23Th0.77Pb3 La 0.23 Th 0.77 Pb 3 1 1970 Cu3Au K 2.61 2.61 MTC11619 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111621 PCS0312653 Thermopower = -4.77uV/K at 30 C. "(La,Th)Pb3" La0.06Th0.94Pb3 La 0.06 Th 0.94 Pb 3 1 1970 Cu3Au K 5.58 5.58 MTC11619 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111622 PCS0312653 Thermopower = -6.2uV/K at 30 C. "La(Tl,Sn)3" La1Tl2.25Sn0.75 La 1 Tl 2.25 Sn 0.75 1 1970 Cu3Au K 1.05 1.05 MTC11622 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111623 PCS0312653 Thermopower = 5.45uV/K at 30 C. "La(Tl,Sn)3" La1Tl1.5Sn1.5 La 1 Tl 1.5 Sn 1.5 1 1970 Cu3Au K 1.5 1.5 MTC11622 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111624 PCS0312653 Thermopower = -5.56uV/K at 30 C. "La(Tl,Sn)3" La1Tl0.75Sn2.25 La 1 Tl 0.75 Sn 2.25 1 1970 Cu3Au K 1.19 1.19 MTC11622 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111625 PCS0312653 Thermopower = -5.32uV/K at 30 C. "Y(In,Pb)3" Y1In2.25Pb0.75 Y 1 In 2.25 Pb 0.75 1 1970 Cu3Au K 0.6 0.6 MTC11625 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111626 PCS0312653 Thermopower = 4.68uV/K at 30 C. "Y(In,Pb)3" Y1In1.5Pb1.5 Y 1 In 1.5 Pb 1.5 1 1970 Cu3Au K 1 1 MTC11625 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111627 PCS0312653 "Y(In,Pb)3" Y1In0.75Pb2.25 Y 1 In 0.75 Pb 2.25 1 1970 Cu3Au K 1.94 1.94 MTC11625 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111628 PCS0312653 "Y(In,Sn)3" Y1In2.73Sn0.27 Y 1 In 2.73 Sn 0.27 1 1970 Cu3Au K 0 0 MTC11628 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111629 PCS0312653 Thermopower = -3.59uV/K at 30 C. "Y(In,Sn)3" Y1In2.25Sn0.75 Y 1 In 2.25 Sn 0.75 1 1970 Cu3Au K 0.69 0.69 MTC11628 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111630 PCS0312653 Thermopower = 3.2uV/K at 30 C. "Y(In,Sn)3" Y1In1.71Sn1.29 Y 1 In 1.71 Sn 1.29 1 1970 Cu3Au K 1.49 1.49 MTC11628 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111631 PCS0312653 "Th(In,Sn)3" Th1In2.25Sn0.75 Th 1 In 2.25 Sn 0.75 1 1970 Cu3Au K 0.21 0.21 MTC11631 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111632 PCS0312653 "Th(In,Sn)3" Th1In1.5Sn1.5 Th 1 In 1.5 Sn 1.5 1 1970 Cu3Au K 1.03 1.03 MTC11631 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111633 PCS0312653 "Th(In,Sn)3" Th1In0.75Sn2.25 Th 1 In 0.75 Sn 2.25 1 1970 Cu3Au K 3.36 3.36 MTC11631 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111634 PCS0312653 "Ca(Tl,Pb)3" Ca1Tl2.4Pb0.6 Ca 1 Tl 2.4 Pb 0.6 1 1970 Cu3Au K 3.18 3.18 MTC11634 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111635 PCS0312653 "Ca(Tl,Pb)3" Ca1Tl1.8Pb1.2 Ca 1 Tl 1.8 Pb 1.2 1 1970 Cu3Au K 2.8 2.8 MTC11634 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111636 PCS0312653 "Ca(Tl,Pb)3" Ca1Tl0.75Pb2.25 Ca 1 Tl 0.75 Pb 2.25 1 1970 Cu3Au K 3.68 3.68 MTC11634 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111637 PCS0312653 "La(Pb,Sn)3" La1Pb2.25Sn0.75 La 1 Pb 2.25 Sn 0.75 1 1970 Cu3Au A 4.8702 K 1.11 1.11 MTC11637 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111638 PCS0312653 "La(Pb,Sn)3" La1Pb1.5Sn1.5 La 1 Pb 1.5 Sn 1.5 1 1970 Cu3Au A 4.8368 K 1.18 1.18 MTC11637 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111639 PCS0312653 "La(Pb,Sn)3" La1Pb0.75Sn2.25 La 1 Pb 0.75 Sn 2.25 1 1970 Cu3Au A 4.805 K 2.54 2.54 MTC11637 arc melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
111640 CEM1750237 Ba8Si46 Ba8Si46 Ba 8 Si 46 1 2003 clathrate A 10.3446 K 8.1 8.1 "high pressure synthesis (3GPa,800C) from BaSi2&BaGe2" Superconductivity and crystal structure of the solid solutions of Ba8-dSi46-xGex (0= < x= < 23) with Type I clathrate structure 2003 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Solid State Chem., 175(2003)237"
111641 CEM1750237 Ba deficiency at Ba-site. "Ba8(Si,Ge)46" Ba8Si43Ge3 Ba 8 Si 43 Ge 3 1 2003 clathrate A 10.3446 K 7.1 7.1 "high pressure synthesis (3GPa,800C) from BaSi2&BaGe2" Superconductivity and crystal structure of the solid solutions of Ba8-dSi46-xGex (0= < x= < 23) with Type I clathrate structure 2003 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Solid State Chem., 175(2003)237"
111642 CEM1750237 Ba deficiency at Ba-site. "Ba8(Si,Ge)46" Ba8Si40Ge6 Ba 8 Si 40 Ge 6 1 2003 clathrate A 10.3533 K 6 6 "high pressure synthesis (3GPa,800C) from BaSi2&BaGe2" Superconductivity and crystal structure of the solid solutions of Ba8-dSi46-xGex (0= < x= < 23) with Type I clathrate structure 2003 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Solid State Chem., 175(2003)237"
111643 CEM1750237 Ba deficiency at Ba-site. "Ba8(Si,Ge)46" Ba8Si37Ge9 Ba 8 Si 37 Ge 9 1 2003 clathrate A 10.3815 K 5 5 "high pressure synthesis (3GPa,800C) from BaSi2&BaGe2" Superconductivity and crystal structure of the solid solutions of Ba8-dSi46-xGex (0= < x= < 23) with Type I clathrate structure 2003 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Solid State Chem., 175(2003)237"
111644 CEM1750237 Ba deficiency at Ba-site. "Ba8(Si,Ge)46" Ba8Si34Ge12 Ba 8 Si 34 Ge 12 1 2003 clathrate A 10.4054 K 4 4 "high pressure synthesis (3GPa,800C) from BaSi2&BaGe2" Superconductivity and crystal structure of the solid solutions of Ba8-dSi46-xGex (0= < x= < 23) with Type I clathrate structure 2003 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Solid State Chem., 175(2003)237"
111645 CEM1750237 "Ba8(Si,Ge)46" Ba8Si31Ge15 Ba 8 Si 31 Ge 15 1 2003 clathrate A 10.4315 K 3.91 3.91 "high pressure synthesis (3GPa,800C) from BaSi2&BaGe2" Superconductivity and crystal structure of the solid solutions of Ba8-dSi46-xGex (0= < x= < 23) with Type I clathrate structure 2003 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Solid State Chem., 175(2003)237"
111646 CEM1750237 "Ba8(Si,Ge)46" Ba8Si28Ge18 Ba 8 Si 28 Ge 18 1 2003 clathrate A 10.463 K 3.12 3.12 "high pressure synthesis (3GPa,800C) from BaSi2&BaGe2" Superconductivity and crystal structure of the solid solutions of Ba8-dSi46-xGex (0= < x= < 23) with Type I clathrate structure 2003 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Solid State Chem., 175(2003)237"
111647 CEM1750237 "Ba8(Si,Ge)46" Ba8Si25Ge21 Ba 8 Si 25 Ge 21 1 2003 clathrate A 10.4815 K 2.8 2.8 "high pressure synthesis (3GPa,800C) from BaSi2&BaGe2" Superconductivity and crystal structure of the solid solutions of Ba8-dSi46-xGex (0= < x= < 23) with Type I clathrate structure 2003 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Solid State Chem., 175(2003)237"
111648 CEM1750237 "Ba8(Si,Ge)46" Ba8Si23Ge23 Ba 8 Si 23 Ge 23 1 2003 clathrate A 10.499 K 2.28 2.28 "high pressure synthesis (3GPa,800C) from BaSi2&BaGe2" Superconductivity and crystal structure of the solid solutions of Ba8-dSi46-xGex (0= < x= < 23) with Type I clathrate structure 2003 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Solid State Chem., 175(2003)237"
111649 CEM1750237 not s/c "Ba8(Si,Ge)46" Ba8Si19Ge27 Ba 8 Si 19 Ge 27 2003 clathrate A 10.5663 K 2 "high pressure synthesis (3GPa,800C) from BaSi2&BaGe2" Superconductivity and crystal structure of the solid solutions of Ba8-dSi46-xGex (0= < x= < 23) with Type I clathrate structure 2003 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Solid State Chem., 175(2003)237"
111650 CEM1750237 Ba8Si46 Ba7.76Si46 Ba 7.76 Si 46 2003 clathrate K 8 8 Superconductivity and crystal structure of the solid solutions of Ba8-dSi46-xGex (0= < x= < 23) with Type I clathrate structure 2003 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Solid State Chem., 175(2003)237"
111651 CEM1750237 Ba8Si46 Ba6.63Si46 Ba 6.63 Si 46 2003 clathrate K 6 6 Superconductivity and crystal structure of the solid solutions of Ba8-dSi46-xGex (0= < x= < 23) with Type I clathrate structure 2003 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Solid State Chem., 175(2003)237"
111652 PHB3280023 "two gaps, higher one is gap=9 - 10 meV(table value). small one (2*gap/kTc = 1.3). gap measured by break junction tunneling." MgB2 B2Mg1 B 2 Mg 1 1 2003 AlB2 "AlB2, C32" K 39 39 3.8 1 Tunneling spectroscopy of MgB2 and Li0.5(THF)yHfNCl 2003 "Faculty of Integrated Arts and Sciences, Hiroshima University, Higashi-Hiroshima 739-8521, Japan" "Physica B, 328(2003)23"
111653 PHB3280023 M is THF( = C4H8O). 2*gap = 11 - 12 meV. gap measured by break junction tunneling. Li(THF)HfNCl Li0.5M0.3Hf1N1Cl1 Li 0.5 M 0.3 Hf 1 N 1 Cl 1 1 2003 K 26 26 5.6 1 Tunneling spectroscopy of MgB2 and Li0.5(THF)yHfNCl 2003 "Faculty of Integrated Arts and Sciences, Hiroshima University, Higashi-Hiroshima 739-8521, Japan" "Physica B, 328(2003)23"
111654 PHC4020283 pristine phase=beta-HfNCl. powder sample. Na-content is average value. lattice constant at 8K. NaxHfNCl Na0.18Hf1N1Cl1 Na 0.18 Hf 1 N 1 Cl 1 2004 A 3.5864 29.58 K 22 22 Structural Study on NaxHfNCl System 2004 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Sendai 980-8579, Japan" "Physica C, 402(2004)283"
111655 PHC4020283 pristine phase=beta-HfNCl. powder sample. Na-content is average value. lattice constant at 4K. NaxHfNCl Na0.29Hf1N1Cl1 Na 0.29 Hf 1 N 1 Cl 1 2004 A 3.5892 29.722 K 19 19 Structural Study on NaxHfNCl System 2004 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Sendai 980-8579, Japan" "Physica C, 402(2004)283"
111656 PHC4020283 pristine phase=beta-HfNCl. powder sample. Na-content is average value. lattice constant at 4K. sample is mixture of s/c phase and non-s/c phase (x=0.9). NaxHfNCl Na0.8Hf1N1Cl1 Na 0.8 Hf 1 N 1 Cl 1 2004 A 3.583 29.74 K 19 19 Structural Study on NaxHfNCl System 2004 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Sendai 980-8579, Japan" "Physica C, 402(2004)283"
111657 P063020508 "powder sample oriented ab-plane. M is THF(=C4H8O). Hc2 defined by magnetization. For H//c, Hc1(0)=33.5Oe, Hc2(0)=9.3T, -dHc2/dT=0.51T/K, cohere=15.9A, penet=1.73 um, G-L=78." Li(THF)HfNCl Li0.48M0.3Hf1N1Cl1 Li 0.48 M 0.3 Hf 1 N 1 Cl 1 2001 K 26 26 Oe 8.9 T 34.8 T/K 1.88 MHC11657 A 59.6 A 4630 Evidence for quasi-two-dimensional superconductivity in electron-doped Li0.48(THF)yHfNCl 2001 "Department of Physics, Tokyo Metropolitan University, Minami-osawa, Hachi-oji, Tokyo, 192-0397, Japan" "Phys.Rev.B, 63(2001)20508"
111658 PHC3060007 space group = R3(-)m (#166). lattice constant at 4K. LixZrNCl Li0.16Zr1N1Cl1 Li 0.16 Zr 1 N 1 Cl 1 1998 A 3.6016 27.694 K 15 15 "ZrH2,NH4Cl react (650C,30min) in NH3 gas." Structures of beta-ZrNCl and superconducting Li0.16ZrNCl: double honeycomb lattice superconductor 1998 "Department of Applied Physics, Tohoku UniIersity, Sendai 980-8579, Japan" "Physica C, 306(1998)7"
111659 CHM0092127 M is PC(propylene carbonate). PC-content not given. basal spacing = 2.24 nm by co-intercalation of Li and PC. Li(PC)xZrNCl Li0.16M1Zr1N1Cl1 Li 0.16 M 1 Zr 1 N 1 Cl 1 1997 K 14 14 "Superconductivity of alkali metal intercalated beta-zirconium nitride chloride, AxZrNCl (A = Li, Na, K)" 1997 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima 739, Japan" "Chem.Mater., 9(1997)2127"
111660 CHM0092127 M is DMF(dimethylformamide). DMF-content not given. basal spacing = 1.98 nm by co-intercalation of Li and DMF. Li(DMF)xZrNCl Li0.16M1Zr1N1Cl1 Li 0.16 M 1 Zr 1 N 1 Cl 1 1997 K 14 14 "Superconductivity of alkali metal intercalated beta-zirconium nitride chloride, AxZrNCl (A = Li, Na, K)" 1997 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima 739, Japan" "Chem.Mater., 9(1997)2127"
111661 CHM0092127 LixZrNCl Li0.14Zr1N1Cl1 Li 0.14 Zr 1 N 1 Cl 1 1997 K 15 15 reaction(beta-ZrNCl + Li-naphthalenes) "Superconductivity of alkali metal intercalated beta-zirconium nitride chloride, AxZrNCl (A = Li, Na, K)" 1997 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima 739, Japan" "Chem.Mater., 9(1997)2127"
111662 CHM0092127 LixZrNCl Li0.28Zr1N1Cl1 Li 0.28 Zr 1 N 1 Cl 1 1997 K 15.2 15.2 reaction(beta-ZrNCl + Li-naphthalenes) "Superconductivity of alkali metal intercalated beta-zirconium nitride chloride, AxZrNCl (A = Li, Na, K)" 1997 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima 739, Japan" "Chem.Mater., 9(1997)2127"
111663 CHM0092127 LixZrNCl Li0.55Zr1N1Cl1 Li 0.55 Zr 1 N 1 Cl 1 1997 K 15 15 reaction(beta-ZrNCl + Li-naphthalenes) "Superconductivity of alkali metal intercalated beta-zirconium nitride chloride, AxZrNCl (A = Li, Na, K)" 1997 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima 739, Japan" "Chem.Mater., 9(1997)2127"
111664 CHM0092127 LixZrNCl Li0.65Zr1N1Cl1 Li 0.65 Zr 1 N 1 Cl 1 1997 K 15 15 reaction(beta-ZrNCl + Li-naphthalenes) "Superconductivity of alkali metal intercalated beta-zirconium nitride chloride, AxZrNCl (A = Li, Na, K)" 1997 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima 739, Japan" "Chem.Mater., 9(1997)2127"
111665 CHM0092127 LixZrNCl Li0.95Zr1N1Cl1 Li 0.95 Zr 1 N 1 Cl 1 1997 K 13.4 13.4 reaction(beta-ZrNCl + Li-naphthalenes) "Superconductivity of alkali metal intercalated beta-zirconium nitride chloride, AxZrNCl (A = Li, Na, K)" 1997 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima 739, Japan" "Chem.Mater., 9(1997)2127"
111666 CHM0092127 LixZrNCl Li1.3Zr1N1Cl1 Li 1.3 Zr 1 N 1 Cl 1 1997 K 11 11 reaction(beta-ZrNCl + Li-naphthalenes) "Superconductivity of alkali metal intercalated beta-zirconium nitride chloride, AxZrNCl (A = Li, Na, K)" 1997 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima 739, Japan" "Chem.Mater., 9(1997)2127"
111667 CHM0092127 LixZrNCl Li1.4Zr1N1Cl1 Li 1.4 Zr 1 N 1 Cl 1 1997 K 10 10 reaction(beta-ZrNCl + Li-naphthalenes) "Superconductivity of alkali metal intercalated beta-zirconium nitride chloride, AxZrNCl (A = Li, Na, K)" 1997 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima 739, Japan" "Chem.Mater., 9(1997)2127"
111668 CHM0092127 NaxZrNCl Na0.5Zr1N1Cl1 Na 0.5 Zr 1 N 1 Cl 1 1997 K 15 15 reaction(beta-ZrNCl + Na-naphthalenes) "Superconductivity of alkali metal intercalated beta-zirconium nitride chloride, AxZrNCl (A = Li, Na, K)" 1997 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima 739, Japan" "Chem.Mater., 9(1997)2127"
111669 CHM0092127 NaxZrNCl Na0.59Zr1N1Cl1 Na 0.59 Zr 1 N 1 Cl 1 1997 K 15 15 reaction(beta-ZrNCl + Na-naphthalenes) "Superconductivity of alkali metal intercalated beta-zirconium nitride chloride, AxZrNCl (A = Li, Na, K)" 1997 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima 739, Japan" "Chem.Mater., 9(1997)2127"
111670 CHM0092127 NaxZrNCl Na0.66Zr1N1Cl1 Na 0.66 Zr 1 N 1 Cl 1 1997 K 14.5 14.5 reaction(beta-ZrNCl + Na-naphthalenes) "Superconductivity of alkali metal intercalated beta-zirconium nitride chloride, AxZrNCl (A = Li, Na, K)" 1997 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima 739, Japan" "Chem.Mater., 9(1997)2127"
111671 CHM0092127 NaxZrNCl Na0.75Zr1N1Cl1 Na 0.75 Zr 1 N 1 Cl 1 1997 K 14.3 14.3 reaction(beta-ZrNCl + Na-naphthalenes) "Superconductivity of alkali metal intercalated beta-zirconium nitride chloride, AxZrNCl (A = Li, Na, K)" 1997 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima 739, Japan" "Chem.Mater., 9(1997)2127"
111672 CHM0092127 NaxZrNCl Na1.38Zr1N1Cl1 Na 1.38 Zr 1 N 1 Cl 1 1997 K 11 11 reaction(beta-ZrNCl + Na-naphthalenes) "Superconductivity of alkali metal intercalated beta-zirconium nitride chloride, AxZrNCl (A = Li, Na, K)" 1997 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima 739, Japan" "Chem.Mater., 9(1997)2127"
111673 CHM0092127 KxZrNCl K0.22Zr1N1Cl1 K 0.22 Zr 1 N 1 Cl 1 1997 K 15.2 15.2 reaction(beta-ZrNCl + K-naphthalenes) "Superconductivity of alkali metal intercalated beta-zirconium nitride chloride, AxZrNCl (A = Li, Na, K)" 1997 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima 739, Japan" "Chem.Mater., 9(1997)2127"
111674 CHM0092127 KxZrNCl K0.4Zr1N1Cl1 K 0.4 Zr 1 N 1 Cl 1 1997 K 15.2 15.2 reaction(beta-ZrNCl + K-naphthalenes) "Superconductivity of alkali metal intercalated beta-zirconium nitride chloride, AxZrNCl (A = Li, Na, K)" 1997 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima 739, Japan" "Chem.Mater., 9(1997)2127"
111675 CHM0092127 KxZrNCl K0.46Zr1N1Cl1 K 0.46 Zr 1 N 1 Cl 1 1997 K 15 15 reaction(beta-ZrNCl + K-naphthalenes) "Superconductivity of alkali metal intercalated beta-zirconium nitride chloride, AxZrNCl (A = Li, Na, K)" 1997 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima 739, Japan" "Chem.Mater., 9(1997)2127"
111676 CHM0092127 KxZrNCl K0.6Zr1N1Cl1 K 0.6 Zr 1 N 1 Cl 1 1997 K 14.4 14.4 reaction(beta-ZrNCl + K-naphthalenes) "Superconductivity of alkali metal intercalated beta-zirconium nitride chloride, AxZrNCl (A = Li, Na, K)" 1997 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima 739, Japan" "Chem.Mater., 9(1997)2127"
111677 CHM0092127 KxZrNCl K0.77Zr1N1Cl1 K 0.77 Zr 1 N 1 Cl 1 1997 K 13.5 13.5 reaction(beta-ZrNCl + K-naphthalenes) "Superconductivity of alkali metal intercalated beta-zirconium nitride chloride, AxZrNCl (A = Li, Na, K)" 1997 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima 739, Japan" "Chem.Mater., 9(1997)2127"
111678 JPS0730530 "space-G=I4<->3d. impurity phase(C, Y2O3, YC2, Y2OxCy). s/c volume fraction=10 %. PENET frm Hc1." Y2C3 C3Y2 C 3 Y 2 2004 A 8.226 bcc K 18 18 MTC11678 Oe 35 A 4340 "heat(1600C,30min,P=4-5GPa) in BN" "Superconductivity at 18K in Yttrium Sesquicarbide System, Y2C3" 2004 "Department of Physics, Aoyama Gakuin University, 5-10-1 Fuchinobe, Sagamihara, Kanagawa,Japan" "J.Phys.Soc.Jpn, 73(2004)530"
111681 MPB0173664 "no structure change upto 15 GPa at RT. compressibility k}=1.3 E-3/GPa, k=2.6 E-3/GPa. bulk modulus B=192 GPa. hydrostatic P. dTn/dP = +0.70 K/GPa." HoNi2B2C Ho1Ni2B2C1 Ho 1 Ni 2 B 2 C 1 3 2003 5.2 LuNi2B2C K 8.7 8.7 MTC11681 K/GPa -0.46 flux method Electronic properties of magnetic superconductor HoNi2B2C under high pressure 2003 "Department of Physics, Kyushu University,Fukuoka,Japan" "Int'l.J.Mod.Phys.B, 17(2003)3664"
111682 PHC4030113 "(Mg,Li,Al)B2" Mg0.95Li0.025Al0.025B2 Mg 0.95 Li 0.025 Al 0.025 B 2 1 2004 AlB2 A 3.5226 3.0822 "AlB2, C32" K 38.2 38.2 solid state reaction Superconducting properties of Zn and Al double-doped Mg1-x(Zn0.5Al0.5)xB2 2004 "Materials Research Department, Riso National Laboratory, P.O. Box 49, 4000 Roskilde, Denmark" "Physica C, 403(2004)113"
111683 PHC4030113 "(Mg,Li,Al)B2" Mg0.9Li0.05Al0.05B2 Mg 0.9 Li 0.05 Al 0.05 B 2 1 2004 AlB2 A 3.5214 3.0799 "AlB2, C32" K 37.8 37.8 solid state reaction Superconducting properties of Zn and Al double-doped Mg1-x(Zn0.5Al0.5)xB2 2004 "Materials Research Department, Riso National Laboratory, P.O. Box 49, 4000 Roskilde, Denmark" "Physica C, 403(2004)113"
111684 PHC4030113 "(Mg,Li,Al)B2" Mg0.8Li0.1Al0.1B2 Mg 0.8 Li 0.1 Al 0.1 B 2 1 2004 AlB2 A 3.4526 3.0763 "AlB2, C32" K 31 31 solid state reaction Superconducting properties of Zn and Al double-doped Mg1-x(Zn0.5Al0.5)xB2 2004 "Materials Research Department, Riso National Laboratory, P.O. Box 49, 4000 Roskilde, Denmark" "Physica C, 403(2004)113"
111685 PHC4030113 "(Mg,Li,Al)B2" Mg0.7Li0.15Al0.15B2 Mg 0.7 Li 0.15 Al 0.15 B 2 1 2004 AlB2 A 3.4312 3.0726 "AlB2, C32" K 25.1 25.1 solid state reaction Superconducting properties of Zn and Al double-doped Mg1-x(Zn0.5Al0.5)xB2 2004 "Materials Research Department, Riso National Laboratory, P.O. Box 49, 4000 Roskilde, Denmark" "Physica C, 403(2004)113"
111686 PHC4030113 Tc not given. "(Mg,Li,Al)B2" Mg0.6Li0.2Al0.2B2 Mg 0.6 Li 0.2 Al 0.2 B 2 1 2004 AlB2 A 3.403 3.0648 "AlB2, C32" K solid state reaction Superconducting properties of Zn and Al double-doped Mg1-x(Zn0.5Al0.5)xB2 2004 "Materials Research Department, Riso National Laboratory, P.O. Box 49, 4000 Roskilde, Denmark" "Physica C, 403(2004)113"
111689 MPB0173493 thermopower s = 0.12 uV/K at RT. "(Lu,Gd)Ni2B2C" Lu0.88Gd0.12Ni2B2C1 Lu 0.88 Gd 0.12 Ni 2 B 2 C 1 2003 LuNi2B2C K 7.3 7.3 MHC11689 Transport properties and upper critical field of single crystal non-magnetic LuxY1-xNi2B2C and magnetic LuxGd1-xNi2B2C 2003 "Department of Physics,Texas A&M University,Collge Station,USA" "Int'l.J.Mod.Phys.B, 17(2003)3493"
111690 MPB0173493 "(Lu,Y)Ni2B2C" Lu0.5Y0.5Ni2B2C1 Lu 0.5 Y 0.5 Ni 2 B 2 C 1 2003 LuNi2B2C K 14.9 14.9 MHC11690 Transport properties and upper critical field of single crystal non-magnetic LuxY1-xNi2B2C and magnetic LuxGd1-xNi2B2C 2003 "Department of Physics,Texas A&M University,Collge Station,USA" "Int'l.J.Mod.Phys.B, 17(2003)3493"
111691 MPB0173493 "(Lu,Y)Ni2B2C" Lu0.25Y0.75Ni2B2C1 Lu 0.25 Y 0.75 Ni 2 B 2 C 1 2003 LuNi2B2C K 14.2 14.2 MHC11691 Transport properties and upper critical field of single crystal non-magnetic LuxY1-xNi2B2C and magnetic LuxGd1-xNi2B2C 2003 "Department of Physics,Texas A&M University,Collge Station,USA" "Int'l.J.Mod.Phys.B, 17(2003)3493"
111692 PRL0240812 p-induced s/c. Pcr =100 kbar. s/c phase = Cs<5>. Cs Cs1 Cs 1 1970 K 1.5 0 1.5 MPH11692 Pressure-induced superconductivity in cesium and yttrium 1970 "University of California,San Diego,La Jolla,California,USA" "Phys.Rev.Lett., 24(1970)812"
111693 PRL0240812 "p-induced s/c. P,crit>=110 kbar. Tc at P=170 kbar. dTc/dP at P=110 kbar." Y Y1 Y 1 1970 K 2.7 0 2.7 MTC11693 K/GPa 0.26 Pressure-induced superconductivity in cesium and yttrium 1970 "University of California,San Diego,La Jolla,California,USA" "Phys.Rev.Lett., 24(1970)812"
111694 INC0390056 density=3.60 g/cm3 by XRD. Hc2(2K)=6 T. Ba8Si46 Ba8Si46 Ba 8 Si 46 1 2000 clathrate A 10.328 K 8 8 "(arc-melt) - pellet - heat(1-5GPa,800c,1h)" "High-Pressure Synthesis of a New Silicon Clathrate Superconductor, Ba8Si46" 2000 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima, Japan" "Inorg.Chem., 39(2000)56"
111695 JP01011519 p-induced s/c. metallization at 115GPa. P=180 GPa. Tc(max)=2 K at 180 GPa. Tc=1.3 K at P=216 GPa. CsI Cs1I1 Cs 1 I 1 1998 K 2 2 Metallization and superconductivity in CsI at pressures up to 220 GPa 1998 "Research Centre for Materials Science at Extreme Conditions, Osaka University, Toyonaka, Osaka, Japan" J.Phys.:Condens.Mater 10(1998)11519
111696 PCS0650333 BaxSi46 Ba6.62Si46 Ba 6.62 Si 46 2004 clathrate A 10.288 K 5 5 "(3GPa,1273-973K,3h) - ANN(800K,24h)" "Synthesis and superconductivity of barium deficient type I silicon clathrate compounds, Ba8-xSi46" 2004 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Kagamiyama 1-4-1, Higashi?Hiroshima, Japan" "J.Phys.Chem.Solids, 65(2004)333"
111697 PCS0650333 BaxSi46 Ba6.63Si46 Ba 6.63 Si 46 2004 clathrate A 10.262 K 6 6 "(3GPa,1573-973K,3h) - ANN(800K,24h)" "Synthesis and superconductivity of barium deficient type I silicon clathrate compounds, Ba8-xSi46" 2004 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Kagamiyama 1-4-1, Higashi?Hiroshima, Japan" "J.Phys.Chem.Solids, 65(2004)333"
111698 PCS0650333 BaxSi46 Ba7.61Si46 Ba 7.61 Si 46 2004 clathrate A 10.331 K 8.2 8.2 "(3GPa,1573-973K,3h)" "Synthesis and superconductivity of barium deficient type I silicon clathrate compounds, Ba8-xSi46" 2004 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Kagamiyama 1-4-1, Higashi?Hiroshima, Japan" "J.Phys.Chem.Solids, 65(2004)333"
111699 PCS0650333 BaxSi46 Ba7.76Si46 Ba 7.76 Si 46 2004 clathrate A 10.314 K 9 9 "(3GPa,1573-1073K,3h)" "Synthesis and superconductivity of barium deficient type I silicon clathrate compounds, Ba8-xSi46" 2004 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Kagamiyama 1-4-1, Higashi?Hiroshima, Japan" "J.Phys.Chem.Solids, 65(2004)333"
111700 JPS0730194 Tc increases to 0.45 K under P=0.19 GPa. NQR measuements. "CeCu2(Si,Ge)2" Ce1Cu2Si1.96Ge0.04 Ce 1 Cu 2 Si 1.96 Ge 0.04 2004 0.75 K 0.4 0.4 Exotic Superconductivity in the Coexistent Phase of Antiferromagnetism and Superconductivity in CeCu2(Si0:98Ge0:02)2: A Cu-NQR Study under Hydrostatic Pressure 2004 "Department of Physical Science, Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka, Japan" "J.Phys.Soc.Jpn, 73(2004)194"
111701 P069134522 penet(in TBL) from muon-SR. penet from M is 4700 A. Hc2//c determined from M (Hao & Clem theory). layer distance c/3 = 9.4 A.. G-L parameter = 56 LixZrNCl Li0.17Zr1N1Cl1 Li 0.17 Zr 1 N 1 Cl 1 2004 K 14.2 14.2 T 4.7 MHC11701 A 83 A 3700 Two-dimensional nature of superconductivity in the intercalated layered systems LixHfNCl and LixZrNCl: Muon spin relaxation and magnetization measurements 2004 "Department of Physics, Columbia University, 538W 120th Street, New York, New York 10027, USA" "Phys.Rev.B, 69(2004)134522"
111702 P069134522 penet(in TBL) from muon-SR. layer distance c/3 = 9.4 A LixZrNCl Li0.4Zr1N1Cl1 Li 0.4 Zr 1 N 1 Cl 1 2004 K 12.5 12.5 A 3900 Two-dimensional nature of superconductivity in the intercalated layered systems LixHfNCl and LixZrNCl: Muon spin relaxation and magnetization measurements 2004 "Department of Physics, Columbia University, 538W 120th Street, New York, New York 10027, USA" "Phys.Rev.B, 69(2004)134522"
111703 P069134522 layer distance c/3 = 9.4 A LixZrNCl Li0.6Zr1N1Cl1 Li 0.6 Zr 1 N 1 Cl 1 2004 K 11.7 11.7 Two-dimensional nature of superconductivity in the intercalated layered systems LixHfNCl and LixZrNCl: Muon spin relaxation and magnetization measurements 2004 "Department of Physics, Columbia University, 538W 120th Street, New York, New York 10027, USA" "Phys.Rev.B, 69(2004)134522"
111704 P069134522 M is THF(tetrahydrofuran). penet(in TBL) from muon-SR. penet from M is 4700 A. Hc2//c determined from M (Hao & Clem theory). layer distance c/3 = 13.3 A.. G-L parameter = 76 LixTHFyZrNCl Li0.15M0.08Zr1N1Cl1 Li 0.15 M 0.08 Zr 1 N 1 Cl 1 2004 K 14.4 14.4 T 4.2 MHC11704 A 88 A 5200 Two-dimensional nature of superconductivity in the intercalated layered systems LixHfNCl and LixZrNCl: Muon spin relaxation and magnetization measurements 2004 "Department of Physics, Columbia University, 538W 120th Street, New York, New York 10027, USA" "Phys.Rev.B, 69(2004)134522"
111705 P069134522 M is PC(propyrene carbonate). layer distance c/3 = 13.3 A. LixPCyZrNCl Li0.18M0.15Zr1N1Cl1 Li 0.18 M 0.15 Zr 1 N 1 Cl 1 2004 K 14.6 14.6 Two-dimensional nature of superconductivity in the intercalated layered systems LixHfNCl and LixZrNCl: Muon spin relaxation and magnetization measurements 2004 "Department of Physics, Columbia University, 538W 120th Street, New York, New York 10027, USA" "Phys.Rev.B, 69(2004)134522"
111706 P069134522 M is THF(tetrahydrofuran). layer distance c/3 = 13.3 A. LixTHFyHfNCl Li0.24M0.14Hf1N1Cl1 Li 0.24 M 0.14 Hf 1 N 1 Cl 1 2004 K 25.5 25.5 Two-dimensional nature of superconductivity in the intercalated layered systems LixHfNCl and LixZrNCl: Muon spin relaxation and magnetization measurements 2004 "Department of Physics, Columbia University, 538W 120th Street, New York, New York 10027, USA" "Phys.Rev.B, 69(2004)134522"
111707 P069134522 M is THF(tetrahydrofuran). layer distance c/3 = 18.7 A. penet by muon-SR. LixTHFyHfNCl Li0.5M0.3Hf1N1Cl1 Li 0.5 M 0.3 Hf 1 N 1 Cl 1 2004 K 25.5 25.5 A 3900 Two-dimensional nature of superconductivity in the intercalated layered systems LixHfNCl and LixZrNCl: Muon spin relaxation and magnetization measurements 2004 "Department of Physics, Columbia University, 538W 120th Street, New York, New York 10027, USA" "Phys.Rev.B, 69(2004)134522"
111708 JP015S2201 Tc(onset)=7 K. Tc(sp-heat)=5.5 K. delta-C/gamma*Tc = 1.33 YFe4P12 Y1Fe4P12 Y 1 Fe 4 P 12 2003 skutterudite A 7.789 K 7 7 MSP11708 mj/mol.K2 27.2 553 "high-P-synthesis(1050C,4GPa)" Superconductivity of new filled skutterudite YFe4P12 prepared at high pressure 2003 "Muroran Institute of Technology, Mizumoto, Muroran-shi 050-8585, Japan" "J.Phys.:Condens.Matter, 15(2003)S2201"
111709 CEM1740032 density=5.292 g/cm3 TbFe4P12 Tb1Fe4P12 Tb 1 Fe 4 P 12 2003 skutterudite A 7.7926 K 4 "high-P-synthesis(1000-1100C,4-5GPa)" "Systematic high-pressure synthesis of newfilled skutterudites with heavy lanthanide, LnFe4P12 (Ln=heavy lanthanide, including Y)" 2003 "Muroran Institute of Technology, Mizumoto, Muroran-shi 050-8585, Japan" "J.Solid State Chem., 174(2003)32"
111710 CEM1740032 density=5.324 g/cm3 DyFe4P12 Dy1Fe4P12 Dy 1 Fe 4 P 12 2003 skutterudite A 7.789 K 4 "high-P-synthesis(1000-1100C,4-5GPa)" "Systematic high-pressure synthesis of newfilled skutterudites with heavy lanthanide, LnFe4P12 (Ln=heavy lanthanide, including Y)" 2003 "Muroran Institute of Technology, Mizumoto, Muroran-shi 050-8585, Japan" "J.Solid State Chem., 174(2003)32"
111711 CEM1740032 density=5.349 g/cm3 HoFe4P12 Ho1Fe4P12 Ho 1 Fe 4 P 12 2003 skutterudite A 7.7854 K 4 "high-P-synthesis(1000-1100C,4-5GPa)" "Systematic high-pressure synthesis of newfilled skutterudites with heavy lanthanide, LnFe4P12 (Ln=heavy lanthanide, including Y)" 2003 "Muroran Institute of Technology, Mizumoto, Muroran-shi 050-8585, Japan" "J.Solid State Chem., 174(2003)32"
111712 CEM1740032 density=5.370 g/cm3 ErFe4P12 Er1Fe4P12 Er 1 Fe 4 P 12 2003 skutterudite A 7.7832 K 4 "high-P-synthesis(1000-1100C,4-5GPa)" "Systematic high-pressure synthesis of newfilled skutterudites with heavy lanthanide, LnFe4P12 (Ln=heavy lanthanide, including Y)" 2003 "Muroran Institute of Technology, Mizumoto, Muroran-shi 050-8585, Japan" "J.Solid State Chem., 174(2003)32"
111713 CEM1740032 density=5.388 g/cm3 TmFe4P12 Tm1Fe4P12 Tm 1 Fe 4 P 12 2003 skutterudite A 7.7802 K 4 "high-P-synthesis(1000-1100C,4-5GPa)" "Systematic high-pressure synthesis of newfilled skutterudites with heavy lanthanide, LnFe4P12 (Ln=heavy lanthanide, including Y)" 2003 "Muroran Institute of Technology, Mizumoto, Muroran-shi 050-8585, Japan" "J.Solid State Chem., 174(2003)32"
111714 CEM1740032 density=5.410 g/cm3 YbFe4P12 Yb1Fe4P12 Yb 1 Fe 4 P 12 2003 skutterudite A 7.7832 K 4 "high-P-synthesis(1000-1100C,4-5GPa)" "Systematic high-pressure synthesis of newfilled skutterudites with heavy lanthanide, LnFe4P12 (Ln=heavy lanthanide, including Y)" 2003 "Muroran Institute of Technology, Mizumoto, Muroran-shi 050-8585, Japan" "J.Solid State Chem., 174(2003)32"
111715 CEM1740032 density=5.437 g/cm3 LuFe4P12 Lu1Fe4P12 Lu 1 Fe 4 P 12 2003 skutterudite A 7.7771 K 4 "high-P-synthesis(1000-1100C,4-5GPa)" "Systematic high-pressure synthesis of newfilled skutterudites with heavy lanthanide, LnFe4P12 (Ln=heavy lanthanide, including Y)" 2003 "Muroran Institute of Technology, Mizumoto, Muroran-shi 050-8585, Japan" "J.Solid State Chem., 174(2003)32"
111716 CEM1740032 density=5.806 g/cm3 YFe4P12 Y1Fe4P12 Y 1 Fe 4 P 12 2003 skutterudite A 7.7896 K 7 7 "high-P-synthesis(1000-1100C,4-5GPa)" "Systematic high-pressure synthesis of newfilled skutterudites with heavy lanthanide, LnFe4P12 (Ln=heavy lanthanide, including Y)" 2003 "Muroran Institute of Technology, Mizumoto, Muroran-shi 050-8585, Japan" "J.Solid State Chem., 174(2003)32"
111717 MRB0390317 density=8.069 g/cm3. moment = 7.94 m. ferromag-. EuOs4P12 Eu1Os4P12 Eu 1 Os 4 P 12 2004 skutterudite A 8.0792 K 4 "high-P-synthesis(1000-1100C,4-5GPa)" "High-pressure synthesis, electrical and magnetic properties of new filled skutterudites LnOs4P12 (Ln = Eu, Gd, Tb, Dy, Ho, Y)" 2004 "Muroran Institute of Technology, Mizumoto, Muroran-shi 050-8585, Japan" "Mater.Res.Bull., 39(2004)317"
111718 MRB0390317 density=8.163 g/cm3. moment = 8.54 m. ferromag-. GdOs4P12 Gd1Os4P12 Gd 1 Os 4 P 12 2004 skutterudite A 8.0657 K 4 "high-P-synthesis(1000-1100C,4-5GPa)" "High-pressure synthesis, electrical and magnetic properties of new filled skutterudites LnOs4P12 (Ln = Eu, Gd, Tb, Dy, Ho, Y)" 2004 "Muroran Institute of Technology, Mizumoto, Muroran-shi 050-8585, Japan" "Mater.Res.Bull., 39(2004)317"
111719 MRB0390317 density=8.182 g/cm3 TbOs4P12 Tb1Os4P12 Tb 1 Os 4 P 12 2004 skutterudite A 8.0631 K 4 "high-P-synthesis(1000-1100C,4-5GPa)" "High-pressure synthesis, electrical and magnetic properties of new filled skutterudites LnOs4P12 (Ln = Eu, Gd, Tb, Dy, Ho, Y)" 2004 "Muroran Institute of Technology, Mizumoto, Muroran-shi 050-8585, Japan" "Mater.Res.Bull., 39(2004)317"
111720 MRB0390317 density=8.214 g/cm3. moment = 10.63 m. not magnetic order down to 2 K. DyOs4P12 Dy1Os4P12 Dy 1 Os 4 P 12 2004 skutterudite A 8.0601 K 4 "high-P-synthesis(1000-1100C,4-5GPa)" "High-pressure synthesis, electrical and magnetic properties of new filled skutterudites LnOs4P12 (Ln = Eu, Gd, Tb, Dy, Ho, Y)" 2004 "Muroran Institute of Technology, Mizumoto, Muroran-shi 050-8585, Japan" "Mater.Res.Bull., 39(2004)317"
111721 MRB0390317 density=8.235 g/cm3 HoOs4P12 Ho1Os4P12 Ho 1 Os 4 P 12 2004 skutterudite A 8.0579 K 4 "high-P-synthesis(1000-1100C,4-5GPa)" "High-pressure synthesis, electrical and magnetic properties of new filled skutterudites LnOs4P12 (Ln = Eu, Gd, Tb, Dy, Ho, Y)" 2004 "Muroran Institute of Technology, Mizumoto, Muroran-shi 050-8585, Japan" "Mater.Res.Bull., 39(2004)317"
111722 MRB0390317 density=8.743 g/cm3 YOs4P12 Y1Os4P12 Y 1 Os 4 P 12 2004 skutterudite A 8.0615 K 3 3 "high-P-synthesis(1000-1100C,4-5GPa)" "High-pressure synthesis, electrical and magnetic properties of new filled skutterudites LnOs4P12 (Ln = Eu, Gd, Tb, Dy, Ho, Y)" 2004 "Muroran Institute of Technology, Mizumoto, Muroran-shi 050-8585, Japan" "Mater.Res.Bull., 39(2004)317"
111723 MRB0390317 density=8.113 g/cm3 SmOs4P12 Sm1Os4P12 Sm 1 Os 4 P 12 2004 skutterudite A 8.0697 K 4 "high-P-synthesis(1000-1100C,4-5GPa)" "High-pressure synthesis, electrical and magnetic properties of new filled skutterudites LnOs4P12 (Ln = Eu, Gd, Tb, Dy, Ho, Y)" 2004 "Muroran Institute of Technology, Mizumoto, Muroran-shi 050-8585, Japan" "Mater.Res.Bull., 39(2004)317"
111724 PHB1350239 p-induced s/c. P = 10 GPa. Tc(P=10GPa) = 0.05 K. Tc(P=24GPa) = 2.7 K. As As1 As 1 1985 K 2.7 0 2.7 Pressure-induced superconductivity of arsenic: Evidence for a structural phase transition 1985 "Physica B+C, 135(1985)239"
111725 LT13-490 p-induced s/c. P = 4.5 GPa. Tc(max) = 0.6 K at 13 GPa. Lu Lu1 Lu 1 1972 K 0.6 0 0.6 Superconductivity of lutetium at very high pressure: Implications with respect to the superconductivity of lanthanum 1972 "LT13(1972) vol.3 p=490,Boulder"
111726 LT13-490 p-induced s/c. P = 11 GPa(Tc=1.3 K). Tc(max) = 2.7 K at 17 GPa. Y Y1 Y 1 1972 K 2.7 2.7 Superconductivity of lutetium at very high pressure: Implications with respect to the superconductivity of lanthanum 1972 "LT13(1972) vol.3 p=490,Boulder"
111727 P069180509 RRR=76. PENET measured using 21 MHz tunnel diode oscillator. PrRu4Sb12 Pr1Ru4Sb12 Pr 1 Ru 4 Sb 12 2004 skutterudite K 1.25 1.25 A 2900 1.9 Probing the superconducting gap symmetry of PrRu4Sb12 : A comparison with PrOs4Sb12 2004 "Department of Physics, University of Illinois at Urbana-Champaign, Urbana, Illinois, USA" "Phys.Rev.B, 69(2004)180509"
111728 L092217003 R = 0.5 uOhm.cm at 40 K MgB2 B2Mg1 B 2 Mg 1 2004 AlB2 "AlB2, C32" K 39.2 39.2 T 16 MHC11728 "(BCl3,H2,CH4), fiber heated(1100-1300C)" Systematic Effects of Carbon Doping on the Superconducting Properties of Mg(B1-xCx)2 2004 "Ames Laboratory, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.Lett., 92(2004)217003"
111729 L092217003 "Mg(B,C)2" Mg1B1.9906C0.0094 Mg 1 B 1.9906 C 0.0094 2004 AlB2 "AlB2, C32" K 38.5 38.5 T 20 MHC11729 "(BCl3,H2,CH4), fiber heated(1100-1300C)" Systematic Effects of Carbon Doping on the Superconducting Properties of Mg(B1-xCx)2 2004 "Ames Laboratory, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.Lett., 92(2004)217003"
111730 L092217003 "Mg(B,C)2" Mg1B1.958C0.042 Mg 1 B 1.958 C 0.042 2004 AlB2 "AlB2, C32" K 37.9 37.9 T 25 MHC11730 "(BCl3,H2,CH4), fiber heated(1100-1300C)" Systematic Effects of Carbon Doping on the Superconducting Properties of Mg(B1-xCx)2 2004 "Ames Laboratory, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.Lett., 92(2004)217003"
111731 L092217003 R = 10 uOhm.cm at 40 K "Mg(B,C)2" Mg1B1.924C0.076 Mg 1 B 1.924 C 0.076 2004 AlB2 "AlB2, C32" K 36.2 36.2 T 32.5 MHC11731 "(BCl3,H2,CH4), fiber heated(1100-1300C)" Systematic Effects of Carbon Doping on the Superconducting Properties of Mg(B1-xCx)2 2004 "Ames Laboratory, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.Lett., 92(2004)217003"
111732 PHC4050245 Tc(on) = 16 K "(Sc,Y)Ni2B2C" Sc0.9Y0.1Ni2B2C1 Sc 0.9 Y 0.1 Ni 2 B 2 C 1 2004 LuNi2B2C A 3.463 10.675 K 15.1 15.1 "arc-melting, ANN(900C,1w)" Y-induced stabilization of the superconducting phase in the Sc1-xYxNi2B2C system 2004 "Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai, India" "Physica C, 405(2004)245"
111733 PHC4050245 Tc(on) = 15 K "(Sc,Y)Ni2B2C" Sc0.8Y0.2Ni2B2C1 Sc 0.8 Y 0.2 Ni 2 B 2 C 1 2004 LuNi2B2C A 3.477 10.646 K 14.8 14.8 "arc-melting, ANN(900C,1w)" Y-induced stabilization of the superconducting phase in the Sc1-xYxNi2B2C system 2004 "Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai, India" "Physica C, 405(2004)245"
111734 PHC4050245 "(Sc,Y)Ni2B2C" Sc0.7Y0.3Ni2B2C1 Sc 0.7 Y 0.3 Ni 2 B 2 C 1 2004 LuNi2B2C A 3.484 10.595 K 14.5 14.5 "arc-melting, ANN(900C,1w)" Y-induced stabilization of the superconducting phase in the Sc1-xYxNi2B2C system 2004 "Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai, India" "Physica C, 405(2004)245"
111735 PHC3060001 RRR=45. Hc2(T) shown in Fig.4. Hc2(0) estimated from Hc2(T) by fitting. LuNi2B2C Lu1Ni2B2C1 Lu 1 Ni 2 B 2 C 1 1998 LuNi2B2C A 3.4643 10.6346 K 16.6 16.6 T 11.5 arc-melting Superconductivity and disorder in YxLu1-xNi2B2C 1998 "Institut fur Festkorper- und Werkstfforschung Dresden, Postfach, Dresden, Germany" "Physica C, 306(1998)1"
111736 PHC3060001 RRR=11.5. Hc2(T) shown in Fig.4. Hc2(0) estimated from Hc2(T) by fitting. "(Y,Lu)Ni2B2C" Y0.16Lu0.84Ni2B2C1 Y 0.16 Lu 0.84 Ni 2 B 2 C 1 1998 LuNi2B2C A 3.4761 10.6217 K 15.2 15.2 T 9.06 arc-melting Superconductivity and disorder in YxLu1-xNi2B2C 1998 "Institut fur Festkorper- und Werkstfforschung Dresden, Postfach, Dresden, Germany" "Physica C, 306(1998)1"
111737 PHC3060001 RRR=10.2. "(Y,Lu)Ni2B2C" Y0.3Lu0.7Ni2B2C1 Y 0.3 Lu 0.7 Ni 2 B 2 C 1 1998 LuNi2B2C A 3.4856 10.6068 K 15 15 arc-melting Superconductivity and disorder in YxLu1-xNi2B2C 1998 "Institut fur Festkorper- und Werkstfforschung Dresden, Postfach, Dresden, Germany" "Physica C, 306(1998)1"
111738 PHC3060001 RRR=10.2. Hc2(T) shown in Fig.4. Hc2(0) estimated from Hc2(T) by fitting. "(Y,Lu)Ni2B2C" Y0.5Lu0.5Ni2B2C1 Y 0.5 Lu 0.5 Ni 2 B 2 C 1 1998 LuNi2B2C A 3.4968 10.5949 K 14.5 14.5 T 7.67 arc-melting Superconductivity and disorder in YxLu1-xNi2B2C 1998 "Institut fur Festkorper- und Werkstfforschung Dresden, Postfach, Dresden, Germany" "Physica C, 306(1998)1"
111739 PHC3060001 RRR=9.6. Hc2(T) shown in Fig.4. Hc2(0) estimated from Hc2(T) by fitting. "(Y,Lu)Ni2B2C" Y0.75Lu0.25Ni2B2C1 Y 0.75 Lu 0.25 Ni 2 B 2 C 1 1998 LuNi2B2C A 3.5098 10.5732 K 14.9 14.9 T 7.89 arc-melting Superconductivity and disorder in YxLu1-xNi2B2C 1998 "Institut fur Festkorper- und Werkstfforschung Dresden, Postfach, Dresden, Germany" "Physica C, 306(1998)1"
111740 PHC3060001 RRR=8.4. Hc2(T) shown in Fig.4. Hc2(0) estimated from Hc2(T) by fitting. "(Y,Lu)Ni2B2C" Y0.84Lu0.16Ni2B2C1 Y 0.84 Lu 0.16 Ni 2 B 2 C 1 1998 LuNi2B2C A 3.5172 10.5593 K 14.8 14.8 T 8 arc-melting Superconductivity and disorder in YxLu1-xNi2B2C 1998 "Institut fur Festkorper- und Werkstfforschung Dresden, Postfach, Dresden, Germany" "Physica C, 306(1998)1"
111741 PHC3060001 RRR=13.9. Hc2(T) shown in Fig.4. Hc2(0) estimated from Hc2(T) by fitting. "(Y,Lu)Ni2B2C" Y0.92Lu0.08Ni2B2C1 Y 0.92 Lu 0.08 Ni 2 B 2 C 1 1998 LuNi2B2C A 3.5222 10.5529 K 15.2 15.2 T 8.28 arc-melting Superconductivity and disorder in YxLu1-xNi2B2C 1998 "Institut fur Festkorper- und Werkstfforschung Dresden, Postfach, Dresden, Germany" "Physica C, 306(1998)1"
111742 PHC3060001 RRR=22.9. Hc2(T) shown in Fig.4. Hc2(0) estimated from Hc2(T) by fitting. YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 1998 LuNi2B2C A 3.5274 10.5437 K 15.5 15.5 T 8.67 arc-melting Superconductivity and disorder in YxLu1-xNi2B2C 1998 "Institut fur Festkorper- und Werkstfforschung Dresden, Postfach, Dresden, Germany" "Physica C, 306(1998)1"
111743 MMM1870309 LuNi2B2C Lu1Ni2B2C1 Lu 1 Ni 2 B 2 C 1 1998 LuNi2B2C A 3.4593 10.6294 K 16.6 16.6 MHC11743 arc-melting Breakdown of de Gennes scaling in HoxLu1-xNi2B2C 1998 "Institut fur Festkorper- und Werkstfforschung Dresden, Postfach, Dresden, Germany" "J.Mag.Mag.Mat., 187(1998)309"
111744 MMM1870309 "(Ho,Lu)Ni2B2C" Ho0.15Lu0.85Ni2B2C1 Ho 0.15 Lu 0.85 Ni 2 B 2 C 1 1998 LuNi2B2C A 3.4729 10.6103 K 15.1 15.1 arc-melting Breakdown of de Gennes scaling in HoxLu1-xNi2B2C 1998 "Institut fur Festkorper- und Werkstfforschung Dresden, Postfach, Dresden, Germany" "J.Mag.Mag.Mat., 187(1998)309"
111745 MMM1870309 "(Ho,Lu)Ni2B2C" Ho0.3Lu0.7Ni2B2C1 Ho 0.3 Lu 0.7 Ni 2 B 2 C 1 1998 LuNi2B2C A 3.4804 10.6032 K 13.3 13.3 arc-melting Breakdown of de Gennes scaling in HoxLu1-xNi2B2C 1998 "Institut fur Festkorper- und Werkstfforschung Dresden, Postfach, Dresden, Germany" "J.Mag.Mag.Mat., 187(1998)309"
111746 MMM1870309 "(Ho,Lu)Ni2B2C" Ho0.45Lu0.55Ni2B2C1 Ho 0.45 Lu 0.55 Ni 2 B 2 C 1 1998 LuNi2B2C A 3.4961 10.573 K 10 10 arc-melting Breakdown of de Gennes scaling in HoxLu1-xNi2B2C 1998 "Institut fur Festkorper- und Werkstfforschung Dresden, Postfach, Dresden, Germany" "J.Mag.Mag.Mat., 187(1998)309"
111747 MMM1870309 "(Ho,Lu)Ni2B2C" Ho0.6Lu0.4Ni2B2C1 Ho 0.6 Lu 0.4 Ni 2 B 2 C 1 1998 LuNi2B2C A 3.4957 10.5734 K 9.82 9.82 arc-melting Breakdown of de Gennes scaling in HoxLu1-xNi2B2C 1998 "Institut fur Festkorper- und Werkstfforschung Dresden, Postfach, Dresden, Germany" "J.Mag.Mag.Mat., 187(1998)309"
111748 MMM1870309 "(Ho,Lu)Ni2B2C" Ho0.7Lu0.3Ni2B2C1 Ho 0.7 Lu 0.3 Ni 2 B 2 C 1 1998 LuNi2B2C A 3.5029 10.5623 K 8.72 8.72 arc-melting Breakdown of de Gennes scaling in HoxLu1-xNi2B2C 1998 "Institut fur Festkorper- und Werkstfforschung Dresden, Postfach, Dresden, Germany" "J.Mag.Mag.Mat., 187(1998)309"
111749 MMM1870309 "(Ho,Lu)Ni2B2C" Ho0.75Lu0.25Ni2B2C1 Ho 0.75 Lu 0.25 Ni 2 B 2 C 1 1998 LuNi2B2C A 3.5046 10.5592 K 8.81 8.81 MHC11749 arc-melting Breakdown of de Gennes scaling in HoxLu1-xNi2B2C 1998 "Institut fur Festkorper- und Werkstfforschung Dresden, Postfach, Dresden, Germany" "J.Mag.Mag.Mat., 187(1998)309"
111750 MMM1870309 "(Ho,Lu)Ni2B2C" Ho0.8Lu0.2Ni2B2C1 Ho 0.8 Lu 0.2 Ni 2 B 2 C 1 1998 LuNi2B2C A 3.5079 10.5539 K 8.77 8.77 arc-melting Breakdown of de Gennes scaling in HoxLu1-xNi2B2C 1998 "Institut fur Festkorper- und Werkstfforschung Dresden, Postfach, Dresden, Germany" "J.Mag.Mag.Mat., 187(1998)309"
111751 MMM1870309 "(Ho,Lu)Ni2B2C" Ho0.85Lu0.15Ni2B2C1 Ho 0.85 Lu 0.15 Ni 2 B 2 C 1 1998 4.26 LuNi2B2C A 3.5111 10.549 K 8.72 8.72 arc-melting Breakdown of de Gennes scaling in HoxLu1-xNi2B2C 1998 "Institut fur Festkorper- und Werkstfforschung Dresden, Postfach, Dresden, Germany" "J.Mag.Mag.Mat., 187(1998)309"
111752 MMM1870309 "(Ho,Lu)Ni2B2C" Ho0.9Lu0.1Ni2B2C1 Ho 0.9 Lu 0.1 Ni 2 B 2 C 1 1998 5.03 LuNi2B2C A 3.5136 10.5446 K 8.77 8.77 arc-melting Breakdown of de Gennes scaling in HoxLu1-xNi2B2C 1998 "Institut fur Festkorper- und Werkstfforschung Dresden, Postfach, Dresden, Germany" "J.Mag.Mag.Mat., 187(1998)309"
111753 MMM1870309 "(Ho,Lu)Ni2B2C" Ho0.95Lu0.05Ni2B2C1 Ho 0.95 Lu 0.05 Ni 2 B 2 C 1 1998 5.7 LuNi2B2C A 3.5179 10.537 K 8.77 8.77 arc-melting Breakdown of de Gennes scaling in HoxLu1-xNi2B2C 1998 "Institut fur Festkorper- und Werkstfforschung Dresden, Postfach, Dresden, Germany" "J.Mag.Mag.Mat., 187(1998)309"
111754 MMM1870309 HoNi2B2C Ho1Ni2B2C1 Ho 1 Ni 2 B 2 C 1 1998 6.47 LuNi2B2C A 3.52 10.5294 K 8.48 8.48 arc-melting Breakdown of de Gennes scaling in HoxLu1-xNi2B2C 1998 "Institut fur Festkorper- und Werkstfforschung Dresden, Postfach, Dresden, Germany" "J.Mag.Mag.Mat., 187(1998)309"
111755 P069174503 grain size = 2000 nm. G-L parameter = 125 PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 2004 Chevrel K 14.4 14.4 Oe 58 T 45 T/K 4.6 A 22 A 2750 "HIP(2000bar,800C,8h)" Critical parameters of disordered nanocrystalline superconducting Chevrel-phase PbMo6S8 2004 "Superconductivity Group, Department of Physics, University of Durham, Durham DH1 3LE, United Kingdom" "Phys.Rev.B, 69(2004)174503"
111756 P069174503 grain size = 90 nm. lattice strain = 0.02 %. G-L parameter = 240 PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 2004 Chevrel K 12.9 12.9 Oe 20 T 65 T/K 7.3 A 19 A 4550 "HIP(2000bar,600C,8h) + ANN(1000C,40h)" Critical parameters of disordered nanocrystalline superconducting Chevrel-phase PbMo6S8 2004 "Superconductivity Group, Department of Physics, University of Durham, Durham DH1 3LE, United Kingdom" "Phys.Rev.B, 69(2004)174503"
111757 P069174503 grain size = 20 nm. lattice strain = 0.07 %. G-L parameter = 520 PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 2004 Chevrel K 11.5 11.5 Oe 10 T 110 T/K 14.1 A 14 A 7450 "HIP(2000bar,800C,8h)" Critical parameters of disordered nanocrystalline superconducting Chevrel-phase PbMo6S8 2004 "Superconductivity Group, Department of Physics, University of Durham, Durham DH1 3LE, United Kingdom" "Phys.Rev.B, 69(2004)174503"
111758 PHC4060015 Tc shows Tc(on). CaAlSi Ca1Al1Si1 Ca 1 Al 1 Si 1 1 2004 AlB2 A 4.184 4.375 "AlB2, C32" K 7.13 7.13 arc-melting Substitute effects of Ga on AlB2-type superconductor CaAlSi 2004 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica C, 406(2004)15"
111759 PHC4060015 Tc shows Tc(on). "Ca(Al,Ga)Si" Ca1Al0.9Ga0.1Si1 Ca 1 Al 0.9 Ga 0.1 Si 1 1 2004 AlB2 A 4.182 4.392 "AlB2, C32" K 6.54 6.54 arc-melting Substitute effects of Ga on AlB2-type superconductor CaAlSi 2004 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica C, 406(2004)15"
111760 PHC4060015 Tc shows Tc(on). "Ca(Al,Ga)Si" Ca1Al0.8Ga0.2Si1 Ca 1 Al 0.8 Ga 0.2 Si 1 1 2004 AlB2 A 4.177 4.384 "AlB2, C32" K 5.6 5.6 arc-melting Substitute effects of Ga on AlB2-type superconductor CaAlSi 2004 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica C, 406(2004)15"
111761 PHC4060015 Tc shows Tc(on). "Ca(Al,Ga)Si" Ca1Al0.7Ga0.3Si1 Ca 1 Al 0.7 Ga 0.3 Si 1 1 2004 AlB2 A 4.17 4.388 "AlB2, C32" K 4.78 4.78 arc-melting Substitute effects of Ga on AlB2-type superconductor CaAlSi 2004 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica C, 406(2004)15"
111762 PHC4060015 Tc shows Tc(on). "Ca(Al,Ga)Si" Ca1Al0.6Ga0.4Si1 Ca 1 Al 0.6 Ga 0.4 Si 1 1 2004 AlB2 A 4.159 4.39 "AlB2, C32" K 4.51 4.51 arc-melting Substitute effects of Ga on AlB2-type superconductor CaAlSi 2004 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica C, 406(2004)15"
111763 PHC4060015 Tc shows Tc(on). "Ca(Al,Ga)Si" Ca1Al0.5Ga0.5Si1 Ca 1 Al 0.5 Ga 0.5 Si 1 1 2004 AlB2 A 4.152 4.402 "AlB2, C32" K 3.73 3.73 arc-melting Substitute effects of Ga on AlB2-type superconductor CaAlSi 2004 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica C, 406(2004)15"
111764 PHC4060015 Tc shows Tc(on). "Ca(Al,Ga)Si" Ca1Al0.4Ga0.6Si1 Ca 1 Al 0.4 Ga 0.6 Si 1 1 2004 AlB2 A 4.147 4.405 "AlB2, C32" K 3.45 3.45 arc-melting Substitute effects of Ga on AlB2-type superconductor CaAlSi 2004 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica C, 406(2004)15"
111765 PHC4060015 Tc shows Tc(on). "Ca(Al,Ga)Si" Ca1Al0.3Ga0.7Si1 Ca 1 Al 0.3 Ga 0.7 Si 1 1 2004 AlB2 A 4.135 4.414 "AlB2, C32" K 3 3 arc-melting Substitute effects of Ga on AlB2-type superconductor CaAlSi 2004 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica C, 406(2004)15"
111766 PHC4060015 Tc shows Tc(on). "Ca(Al,Ga)Si" Ca1Al0.2Ga0.8Si1 Ca 1 Al 0.2 Ga 0.8 Si 1 1 2004 AlB2 A 4.128 4.421 "AlB2, C32" K 3.24 3.24 arc-melting Substitute effects of Ga on AlB2-type superconductor CaAlSi 2004 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica C, 406(2004)15"
111767 PHC4060015 Tc shows Tc(on). "Ca(Al,Ga)Si" Ca1Al0.1Ga0.9Si1 Ca 1 Al 0.1 Ga 0.9 Si 1 1 2004 AlB2 A 4.119 4.414 "AlB2, C32" K 3.34 3.34 arc-melting Substitute effects of Ga on AlB2-type superconductor CaAlSi 2004 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica C, 406(2004)15"
111768 PHC4060015 Tc shows Tc(on). CaGaSi Ca1Ga1Si1 Ca 1 Ga 1 Si 1 1 2004 AlB2 A 4.118 4.438 "AlB2, C32" K 4.05 4.05 arc-melting Substitute effects of Ga on AlB2-type superconductor CaAlSi 2004 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, ROC" "Physica C, 406(2004)15"
111769 JPS0731657 "TBL-values are for H//[100]. Hc2(0)=2.7T, COHERE(0)=100 A for H//[001]. RRR=106 for J//[001]." CePt3Si Ce1Pt3Si1 Ce 1 Pt 3 Si 1 3 2004 2.3 K 0.63 0.63 T 3.2 T/K 6.3 MHC11769 A 110 Bridgeman method Superconducting Property in CePt3Si under Pressure 2004 "Graduate School of Science, Osaka University, Toyonaka, Osaka" "J.Phys.Soc.Jpn, 73(2004)1657"
111770 P069212508 "type-I s/c. Hc2(0), dHc2/dT in TBL are Hc(0), dHc/dT. gap(4.2K)=0.97 meV. G-L parameter = 0.71" ZeB12 B12Zr1 B 12 Zr 1 3 2004 UB12 A 7.407 K 6.06 6.06 Oe 390 Oe/K 110 4.75 grown by Kiev group Tunneling and magnetic characteristics of superconducting ZrB12 single crystals 2004 "The Racah Institute of Physics, The Hebrew University of Jerusalem, 91904 Jerusalem, Israel" "Phys.Rev.B, 69(2004)212508"
111771 SSC1290081 "acceptor-doped fullerene. not s/c. EPR,NMR measured. KAIZERO=-0.01E-6 emu/g. Curie-C =34.9 emu.K/g." C60(AsF6)2 C60As2F12 C 60 As 2 F 12 2004 -8.7 fullerene K 5 "Magnetic susceptibility and magnetic resonance study of acceptor doped fullerenes C60(MF6)2 (M = As, Sb, P)" 2004 "Department of Physics, Ben-Gurion University of the Negev, P.O. Box 653, Beer Sheva 84105, Israel" "Solid State Commun., 129(2004)81"
111772 SSC1290081 "acceptor-doped fullerene. not s/c. EPR,NMR measured. KAIZERO=-0.42E-6 emu/g. Curie-C =28.7 emu.K/g." C60(SbF6)2 C60Sb2F12 C 60 Sb 2 F 12 2004 -0.7 fullerene K 5 "Magnetic susceptibility and magnetic resonance study of acceptor doped fullerenes C60(MF6)2 (M = As, Sb, P)" 2004 "Department of Physics, Ben-Gurion University of the Negev, P.O. Box 653, Beer Sheva 84105, Israel" "Solid State Commun., 129(2004)81"
111773 SSC1290081 "acceptor-doped fullerene. not s/c. EPR,NMR measured. KAIZERO=0.66E-6 emu/g. Curie-C =15.6 emu.K/g." C60(PF6)2 C60P2F12 C 60 P 2 F 12 2004 -3.2 fullerene K 5 "Magnetic susceptibility and magnetic resonance study of acceptor doped fullerenes C60(MF6)2 (M = As, Sb, P)" 2004 "Department of Physics, Ben-Gurion University of the Negev, P.O. Box 653, Beer Sheva 84105, Israel" "Solid State Commun., 129(2004)81"
111774 SSC1310261 "multi-phase, nominal compositions. Hc1, Hc2 are at 5K." YRh4Si2B Y1Rh4Si2B1 Y 1 Rh 4 Si 2 B 1 2004 K 9 9 Oe 70 kOe 30 arc-melting "Superconductivity at Tc = 9 K in the multiphase samples of a new quaternary system R-Rh-Si-B (R = Y, Lu, Er)" 2004 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research" "Solid State Commun., 131(2004)261"
111775 SSC1310261 "multi-phase, nominal compositions." LaRh4Si2B La1Rh4Si2B1 La 1 Rh 4 Si 2 B 1 2004 K 8 8 arc-melting "Superconductivity at Tc = 9 K in the multiphase samples of a new quaternary system R-Rh-Si-B (R = Y, Lu, Er)" 2004 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research" "Solid State Commun., 131(2004)261"
111776 SSC0360493 "PENET (H//c) = 124 nm, PENET(H//ab) = 496 nm. anisotropy =4" NbSe2 Nb1Se2 Nb 1 Se 2 1980 K 7.007 7.007 nm 124 Measurements of the penetration depth in the superconducting layer crystals NbSe2 and TaS2(pyridine)#sub(1/2) 1980 "Solid State Commun., 36(1980)493"
111777 SSC0360493 PENET(H//ab) = 124 nm 2H-TaS2 S2Ta1 S 2 Ta 1 1980 K 3.96 3.96 nm Measurements of the penetration depth in the superconducting layer crystals NbSe2 and TaS2(pyridine)#sub(1/2) 1980 "Solid State Commun., 36(1980)493"
111778 SSC0440001 dTc/dP in K/GPa. COHERE = 120 A. anisotropy factor = 20. C8KHg C8K1Hg1 C 8 K 1 Hg 1 1982 K 1.88 1.88 K/GPa -0.63 A 1900 "react (C8K, Hg)" Effect of pressure on the superconductivity of C8KHg and C8RbHg 1982 "Solid State Commun., 44(1982)1-6"
111779 SSC0440001 dTc/dP in K/GPa. COHERE = 50 A. anisotropy factor = 20. C8RbHg C8Rb1Hg1 C 8 Rb 1 Hg 1 1982 K 1.41 1.41 K/GPa -0.53 A 2300 "react (C8Rb, Hg)" Effect of pressure on the superconductivity of C8KHg and C8RbHg 1982 "Solid State Commun., 44(1982)1-6"
111780 SSC0330385 RRR=40 - 65. Hc2//c = 0.5 T. COHERE(0)=120 A. anisotropy = 4.6. e-ph = 0.55. (delta-C/gamma*Tc )=0.95 Nb3S4 Nb3S4 Nb 3 S 4 1980 K 3.65 3.65 T 2.1 MHC11780 A 540 mj/mol.K2 16 380 vapor phase transport Critical field and specific heat of the anisotropic superconductor Nb3S4 1980 "Solid State Commun., 33(1980)385"
111781 P070014511 not SC. In<115> NQR measured. "Ce(Rh,Ir)In5" Ce1Rh0.75Ir0.25In5 Ce 1 Rh 0.75 Ir 0.25 In 5 3 2004 HoCoGa5 K 0.1 grown by In-flux method Coexistence of antiferromagnetic order and unconventional superconductivity in heavy-fermion CeRh1-xIrxIn5 compounds: Nuclear quadrupole resonance studies 2004 "Department of Physical Science, Graduate School of Engineering Science, Osaka University, Osaka, Japan" "Phys.Rev.B, 70(2004)014511"
111782 P070014511 In<115> NQR measured. "Ce(Rh,Ir)In5" Ce1Rh0.65Ir0.35In5 Ce 1 Rh 0.65 Ir 0.35 In 5 3 2004 HoCoGa5 K 0.22 0.22 grown by In-flux method Coexistence of antiferromagnetic order and unconventional superconductivity in heavy-fermion CeRh1-xIrxIn5 compounds: Nuclear quadrupole resonance studies 2004 "Department of Physical Science, Graduate School of Engineering Science, Osaka University, Osaka, Japan" "Phys.Rev.B, 70(2004)014511"
111783 P070014511 In<115> NQR measured. "Ce(Rh,Ir)In5" Ce1Rh0.55Ir0.45In5 Ce 1 Rh 0.55 Ir 0.45 In 5 3 2004 4 HoCoGa5 K 0.94 0.94 MTC11783 grown by In-flux method Coexistence of antiferromagnetic order and unconventional superconductivity in heavy-fermion CeRh1-xIrxIn5 compounds: Nuclear quadrupole resonance studies 2004 "Department of Physical Science, Graduate School of Engineering Science, Osaka University, Osaka, Japan" "Phys.Rev.B, 70(2004)014511"
111784 P070014511 In<115> NQR measured. "Ce(Rh,Ir)In5" Ce1Rh0.5Ir0.5In5 Ce 1 Rh 0.5 Ir 0.5 In 5 3 2004 3 HoCoGa5 K 0.9 0.9 grown by In-flux method Coexistence of antiferromagnetic order and unconventional superconductivity in heavy-fermion CeRh1-xIrxIn5 compounds: Nuclear quadrupole resonance studies 2004 "Department of Physical Science, Graduate School of Engineering Science, Osaka University, Osaka, Japan" "Phys.Rev.B, 70(2004)014511"
111785 P070014511 In<115> NQR measured. "Ce(Rh,Ir)In5" Ce1Rh0.45Ir0.55In5 Ce 1 Rh 0.45 Ir 0.55 In 5 3 2004 HoCoGa5 K 0.82 0.82 grown by In-flux method Coexistence of antiferromagnetic order and unconventional superconductivity in heavy-fermion CeRh1-xIrxIn5 compounds: Nuclear quadrupole resonance studies 2004 "Department of Physical Science, Graduate School of Engineering Science, Osaka University, Osaka, Japan" "Phys.Rev.B, 70(2004)014511"
111786 P070014511 In<115> NQR measured. "Ce(Rh,Ir)In5" Ce1Rh0.25Ir0.75In5 Ce 1 Rh 0.25 Ir 0.75 In 5 3 2004 HoCoGa5 K 0.64 0.64 grown by In-flux method Coexistence of antiferromagnetic order and unconventional superconductivity in heavy-fermion CeRh1-xIrxIn5 compounds: Nuclear quadrupole resonance studies 2004 "Department of Physical Science, Graduate School of Engineering Science, Osaka University, Osaka, Japan" "Phys.Rev.B, 70(2004)014511"
111788 JJP032S448 Tc(R=0) = 4.82 CuRh2S4 Cu1Rh2S4 Cu 1 Rh 2 S 4 1993 spinel K 4.75 4.75 Magnetism and superconductivity in copper spinels 1993 "Jpn J.Appl.Phys. Suppl., 32(1993)448"
111789 JJP032S448 Cu1+xRh2-xS4 Cu1.2Rh1.8S4 Cu 1.2 Rh 1.8 S 4 1993 spinel K 5.08 5.08 Magnetism and superconductivity in copper spinels 1993 "Jpn J.Appl.Phys. Suppl., 32(1993)448"
111790 JJP032S448 Cu1+xRh2-xS4 Cu1.5Rh1.5S4 Cu 1.5 Rh 1.5 S 4 1993 spinel K 4.6 4.6 Magnetism and superconductivity in copper spinels 1993 "Jpn J.Appl.Phys. Suppl., 32(1993)448"
111791 JJP032S448 CuCo2S4 Cu1Co2S4 Cu 1 Co 2 S 4 1993 17.5 spinel K 4 4 Magnetism and superconductivity in copper spinels 1993 "Jpn J.Appl.Phys. Suppl., 32(1993)448"
111792 JJP032S448 Cu1+xCo2-xS4 Cu1.2Co1.8S4 Cu 1.2 Co 1.8 S 4 1993 spinel K 1.7 1.7 Magnetism and superconductivity in copper spinels 1993 "Jpn J.Appl.Phys. Suppl., 32(1993)448"
111793 JJP032S448 Cu1+xCo2-xS4 Cu1.5Co1.5S4 Cu 1.5 Co 1.5 S 4 1993 spinel K 2.3 2.3 Magnetism and superconductivity in copper spinels 1993 "Jpn J.Appl.Phys. Suppl., 32(1993)448"
111794 JJP032S448 Cu1+xCo2-xS4 Cu1.75Co1.25S4 Cu 1.75 Co 1.25 S 4 1993 spinel K 2.2 2.2 Magnetism and superconductivity in copper spinels 1993 "Jpn J.Appl.Phys. Suppl., 32(1993)448"
111795 JP0160L333 "Tc,Tn obtained by SP-heat. Curie-T=-74.8K(H//[100], =-44.9(H//[001]. Hc2=3.4T (H//[001], =2.8T (H//[110]. RRR=106. SP-heat, thermal expansion, magnetostriction were measured." CePt3Si Ce1Pt3Si1 Ce 1 Pt 3 Si 1 3 2004 -74.8 2.3 K 0.51 0.51 T 3.4 MHC11795 Bridgeman method "Magnetism and superconductivity in a heavy-fermion superconductor, CePt3Si" 2004 "Research Centre for Materials Science at Extreme Conditions, Osaka University, Toyonaka, Osaka, Japan" "J.Phys.:Condens.Matter, 16(2004)L333"
111796 JP01605979 B/Nb = 2.32. PENET estimated from Hc1. G-L parameter = 2.49 NbB2+x B2.32Nb1 B 2.32 Nb 1 2004 A 3.104 3.319 K 9.8 9.8 K/GPa -0.054 Oe 196 kOe 2.226 A 400 A 870 "sintering(stainless tube, Ar-gas, 1000C),quench" Crystalline structure and the superconducting properties of NbB2+x 2004 "Instituto de Investigaciones en Materiales, Apartado Postal 70-360, Mexico" "J.Phys.:Condens.Matter, 16(2004)5979"
111797 JP01605979 B/Nb = 2.26 NbB2+x B2.26Nb1 B 2.26 Nb 1 2004 A 3.104 3.317 K 9.2 9.2 K/GPa -0.104 "sintering(stainless tube, Ar-gas, 1000C),quench" Crystalline structure and the superconducting properties of NbB2+x 2004 "Instituto de Investigaciones en Materiales, Apartado Postal 70-360, Mexico" "J.Phys.:Condens.Matter, 16(2004)5979"
111798 SSC1310489 space G = Pnma(#62). delta-C = 5.93 mj/mol.K2. (delta-C/gamma*Tc) = 1.08 YRhAl Y1Rh1Al1 Y 1 Rh 1 Al 1 1 2004 TiNiSi A 6.8535 4.1786 7.9286 K 0.9 0.9 mj/mol.K2 6.1 197 arc-melting Superconductivity in the intermetallic compound YRhAl 2004 "Tata Institute of Fundamental Research, Colaba, Mumbai, India" "Solid State Commun., 131(2004)489"
111799 PR06200127 space G = Pnma(#62). LaRhAl La1Rh1Al1 La 1 Rh 1 Al 1 2000 Pd2(MnPd)Ge2 A 7.246 4.256 16.256 K 2.4 2.4 arc-melting Superconductivity in LaRhAl and mixed valent behavior in CeRhAl 2000 "Tata Institute of Fundamental Research, Munbai,India" "Phys.Rev.B, 62(2000)127"
111800 PR06200127 space G = Pnma(#62). CeRhAl Ce1Rh1Al1 Ce 1 Rh 1 Al 1 2000 -24.8 Pd2(MnPd)Ge2 A 7.099 4.21 15.934 K 1.7 arc-melting Superconductivity in LaRhAl and mixed valent behavior in CeRhAl 2000 "Tata Institute of Fundamental Research, Munbai,India" "Phys.Rev.B, 62(2000)127"
111801 PR06200127 space G = Pnma(#62). LaRhSb Y1Rh1Sb1 Y 1 Rh 1 Sb 1 2000 Pd2(MnPd)Ge2 K 2.1 2.1 arc-melting Superconductivity in LaRhAl and mixed valent behavior in CeRhAl 2000 "Tata Institute of Fundamental Research, Munbai,India" "Phys.Rev.B, 62(2000)127"
111802 PR06200127 space G = Pnma(#62). LuRhSb Lu1Rh1Sb1 Lu 1 Rh 1 Sb 1 2000 Pd2(MnPd)Ge2 K 1.7 arc-melting Superconductivity in LaRhAl and mixed valent behavior in CeRhAl 2000 "Tata Institute of Fundamental Research, Munbai,India" "Phys.Rev.B, 62(2000)127"
111803 SSC1140223 space G = Pnma(#62). paramag-Curie-T = -5.4 K. effective moment = 3.49 myu-B. PrRhAl Pr1Rh1Al1 Pr 1 Rh 1 Al 1 2000 4.7 Pd2(MnPd)Ge2 A 7.022 4.275 8.079 K 1.7 arc-melting "Magnetic behaviour of RRhAl (R=La,Ce,Pr,Nd and Gd) compounds" 2000 "Tata Institute of Fundamental Research, Munbai,India" "Solid State Commun., 114(2000)223"
111804 SSC1140223 space G = Pnma(#62). paramag-Curie-T = 6.2 K. effective moment = 3.37 myu-B. NdRhAl Nd1Rh1Al1 Nd 1 Rh 1 Al 1 2000 10.5 Pd2(MnPd)Ge2 A 6.994 4.246 8.056 K 1.7 arc-melting "Magnetic behaviour of RRhAl (R=La,Ce,Pr,Nd and Gd) compounds" 2000 "Tata Institute of Fundamental Research, Munbai,India" "Solid State Commun., 114(2000)223"
111805 SSC1140223 space G = Pnma(#62). paramag-Curie-T = 32.9 K. effective moment = 7.82 myu-B. GdRhAl Gd1Rh1Al1 Gd 1 Rh 1 Al 1 2000 29.8 Pd2(MnPd)Ge2 A 6.918 4.194 7.989 K 1.7 arc-melting "Magnetic behaviour of RRhAl (R=La,Ce,Pr,Nd and Gd) compounds" 2000 "Tata Institute of Fundamental Research, Munbai,India" "Solid State Commun., 114(2000)223"
111806 HEL0550755 M = K0.33(H2O)0.66. COHERE=9.0 A. PENET = 71 micro-m. anisotropy (Hc/Hc) = 60 at 5 K. (M)TaS2 M1Ta1S2 M 1 Ta 1 S 2 3 1982 TX2 "2H-TaS2," K 5.6 5.6 MHC11806 A 295 um 3.4 vapor transport method Superconducting parameters of a strongly anisotropic intercalated TaS2 compound: K0.33(H2O)0.66TaS2 1982 "Helv.Phys.Acta, 55(1982)755"
111807 CEM1771244 CaBxPd3 Ca1B0.75Pd3 Ca 1 B 0.75 Pd 3 1 2004 K 0.3 Formation of transition metal boride and carbide perovskites related to superconducting MgCNi3 2004 "Department of Chemistry and Princeton Materials Institute, Princeton University, Princeton, NJ 08544, USA" "J.Solid State Chem., 177(2004)1244"
111808 CEM1771244 impurity phase = 0.32 wt% CaB6. gamma in mj/mol.K2. CaBxPd3 Ca1B1.05Pd3 Ca 1 B 1.05 Pd 3 1 2004 K 0.8 0.8 mj/mol.K2 5 Formation of transition metal boride and carbide perovskites related to superconducting MgCNi3 2004 "Department of Chemistry and Princeton Materials Institute, Princeton University, Princeton, NJ 08544, USA" "J.Solid State Chem., 177(2004)1244"
111809 CEM1771244 multiple phases. impurity phase not identified. CaBxPd3 Ca1B1.25Pd3 Ca 1 B 1.25 Pd 3 2004 K 1 1 Formation of transition metal boride and carbide perovskites related to superconducting MgCNi3 2004 "Department of Chemistry and Princeton Materials Institute, Princeton University, Princeton, NJ 08544, USA" "J.Solid State Chem., 177(2004)1244"
111810 CEM1771244 "Two phases(NbB0.2Rh3, NbRh2B2-x) are detected. Which is superconducting?" NbBxRh3 Nb1B0.2Rh3 Nb 1 B 0.2 Rh 3 2004 K 6.4 6.4 Formation of transition metal boride and carbide perovskites related to superconducting MgCNi3 2004 "Department of Chemistry and Princeton Materials Institute, Princeton University, Princeton, NJ 08544, USA" "J.Solid State Chem., 177(2004)1244"
111811 P070014519 using B<10>. No B-isotope effect on PENET (by muon-SR). MgB2 B2Mg1 B 2 Mg 1 1 2004 AlB2 "AlB2, C32" K 40.36 40.36 0.29 B (Mg + B<10>) in a Ta-tube Absence of a boron isotope effect in the magnetic penetration depth of MgB2 2004 "Physik-Institut der Universitat Zurich, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 70(2004)014519"
111812 P070014519 using B<11>. No B-isotope effect on PENET (by muon-SR). MgB2 B2Mg1 B 2 Mg 1 1 2004 AlB2 "AlB2, C32" K 39.36 39.36 (Mg + B<11>) in a Ta-tube Absence of a boron isotope effect in the magnetic penetration depth of MgB2 2004 "Physik-Institut der Universitat Zurich, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 70(2004)014519"
111813 1840 YB6 B6Y1 B 6 Y 1 1974 A 4.1014 K 6.8 6.8 Remarks on the mutual solubilities and superconductivity of hexaborides 1974 "MAT.RES.BULL.,9(1974)633"
111814 1840 "(Y,La)B6" Y0.9La0.1B6 Y 0.9 La 0.1 B 6 1974 K 6.8 6.8 Remarks on the mutual solubilities and superconductivity of hexaborides 1974 "MAT.RES.BULL.,9(1974)633"
111815 1840 "(Y,La)B6" Y0.8La0.2B6 Y 0.8 La 0.2 B 6 1974 A 4.113 K 5.8 5.8 Remarks on the mutual solubilities and superconductivity of hexaborides 1974 "MAT.RES.BULL.,9(1974)633"
111816 1840 "(Y,La)B6" Y0.65La0.35B6 Y 0.65 La 0.35 B 6 1974 A 4.1221 K 4 4 Remarks on the mutual solubilities and superconductivity of hexaborides 1974 "MAT.RES.BULL.,9(1974)633"
111817 1390 Be1-xRex Be0.99Re0.01 Be 0.99 Re 0.01 1967 K 9.25 9.25 T 0.32 1967 "HELV.PHYS.ACTA,40(1967)1012"
111818 1390 Be1-xRex Be0.98Re0.02 Be 0.98 Re 0.02 1967 K 9.45 9.45 T 0.325 1967 "HELV.PHYS.ACTA,40(1967)1012"
111819 1390 Be1-xRex Be0.96Re0.04 Be 0.96 Re 0.04 1967 K 9.5 9.5 T 0.32 1967 "HELV.PHYS.ACTA,40(1967)1012"
111820 1390 Hc2(T) curve shown in Fig.4. Re22Re1 Be22Re1 Be 22 Re 1 1967 K 9.55 9.55 T 0.34 1967 "HELV.PHYS.ACTA,40(1967)1012"
111821 1390 "Be22(Re,W)1" Be22Re0.95W0.05 Be 22 Re 0.95 W 0.05 1967 K 9.45 9.45 T 0.41 1967 "HELV.PHYS.ACTA,40(1967)1012"
111822 1390 "Be22(Re,Os)1" Be22Re0.95Os0.05 Be 22 Re 0.95 Os 0.05 1967 K 9.2 9.2 T 0.35 1967 "HELV.PHYS.ACTA,40(1967)1012"
111823 1390 "Be22(Re,Ru)1" Be22Re0.99Ru0.01 Be 22 Re 0.99 Ru 0.01 1967 K 9.2 9.2 T 0.355 1967 "HELV.PHYS.ACTA,40(1967)1012"
111824 1832 V1-xGax Ga0.255V0.745 Ga 0.255 V 0.745 1969 Cr3Si(A15) A 4.817 "Cr3Si, A15" K 13.9 13.9 "ANN(800C,14d)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111825 1832 V1-xGax Ga0.247V0.753 Ga 0.247 V 0.753 1969 Cr3Si(A15) A 4.817 "Cr3Si, A15" K 13.8 13.8 "ANN(800C,14d)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111826 1832 V1-xGax Ga0.233V0.767 Ga 0.233 V 0.767 1969 Cr3Si(A15) A 4.818 "Cr3Si, A15" K 13.3 13.3 "ANN(800C,14d)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111827 1832 V1-x-yGaxAly V0.745Ga0.228Al0.027 V 0.745 Ga 0.228 Al 0.027 1969 Cr3Si(A15) A 4.815 "Cr3Si, A15" K 13.05 13.05 "ANN(800C,14d)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111828 1832 V1-x-yGaxAly V0.737Ga0.213Al0.05 V 0.737 Ga 0.213 Al 0.05 1969 Cr3Si(A15) A 4.822 "Cr3Si, A15" K 12.6 12.6 "ANN(800C,14d)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111829 1832 V1-x-yGaxAly V0.741Ga0.196Al0.063 V 0.741 Ga 0.196 Al 0.063 1969 Cr3Si(A15) A 4.824 "Cr3Si, A15" K 12.2 12.2 "ANN(800C,14d)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111830 1832 V1-x-yGaxAly V0.741Ga0.152Al0.107 V 0.741 Ga 0.152 Al 0.107 1969 Cr3Si(A15) A 4.828 "Cr3Si, A15" K 11.4 11.4 "ANN(800C,14d)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111831 1832 impurity phase=A2 V1-x-yGaxAly V0.747Ga0.131Al0.122 V 0.747 Ga 0.131 Al 0.122 1969 Cr3Si(A15) A 4.829 "Cr3Si, A15" K 11.7 11.7 "ANN(800C,20h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111832 1832 impurity phase=A2 V1-x-yGaxAly V0.767Ga0.086Al0.147 V 0.767 Ga 0.086 Al 0.147 1969 Cr3Si(A15) A 4.828 "Cr3Si, A15" K 12.1 12.1 "ANN(800C,210h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111833 1832 V1-x-yGaxAly V0.784Ga0.172Al0.044 V 0.784 Ga 0.172 Al 0.044 1969 Cr3Si(A15) A 4.818 "Cr3Si, A15" K 9.4 9.4 "ANN(800C,14d)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111834 1832 V1-x-yGaxAly V0.767Ga0.18Al0.053 V 0.767 Ga 0.18 Al 0.053 1969 Cr3Si(A15) A 4.821 "Cr3Si, A15" K 11.5 11.5 "ANN(800C,14d)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111835 1832 V1-x-yGaxAly V0.725Ga0.203Al0.072 V 0.725 Ga 0.203 Al 0.072 1969 Cr3Si(A15) A 4.826 "Cr3Si, A15" K 12.3 12.3 "ANN(800C,14d)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111836 1832 V1-x-yGaxAly V0.683Ga0.22Al0.097 V 0.683 Ga 0.22 Al 0.097 1969 Cr3Si(A15) A 4.835 "Cr3Si, A15" K 9.4 9.4 "ANN(800C,14d)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111837 1832 impurity phase=A2 V1-x-yGaxAly V0.783Ga0.138Al0.079 V 0.783 Ga 0.138 Al 0.079 1969 Cr3Si(A15) A 4.822 "Cr3Si, A15" K 10.2 10.2 "ANN(800C,20h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111838 1832 impurity phase=A2 V1-x-yGaxAly V0.709Ga0.151Al0.14 V 0.709 Ga 0.151 Al 0.14 1969 Cr3Si(A15) "Cr3Si, A15" K 9 9 "ANN(800C,20h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111839 1832 impurity phase=A2 V1-x-yGaxAly V0.767Ga0.214Al0.022 V 0.767 Ga 0.214 Al 0.022 1969 Cr3Si(A15) "Cr3Si, A15" K 12.1 12.1 "ANN(1200C,50h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111840 1832 V1-x-yGaxAly V0.743Ga0.181Al0.076 V 0.743 Ga 0.181 Al 0.076 1969 Cr3Si(A15) A 4.822 "Cr3Si, A15" K 12 12 "ANN(1000C,24h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111841 1832 impurity phase=A2 V1-x-yGaxAly V0.746Ga0.169Al0.085 V 0.746 Ga 0.169 Al 0.085 1969 Cr3Si(A15) A 4.825 "Cr3Si, A15" K 11.8 11.8 "ANN(1000C,24h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111842 1832 V1-xAlx Al0.25V0.75 Al 0.25 V 0.75 1969 Cr3Si(A15) A 4.724 "Cr3Si, A15" K 16.9 16.9 "ANN(1000C,150h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111843 1832 V1-x-ySixAly V0.75Si0.225Al0.025 V 0.75 Si 0.225 Al 0.025 1969 Cr3Si(A15) A 4.731 "Cr3Si, A15" K 13.5 13.5 "ANN(1000C,150h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111844 1832 V1-x-ySixAly V0.75Si0.22Al0.03 V 0.75 Si 0.22 Al 0.03 1969 Cr3Si(A15) A 4.732 "Cr3Si, A15" K 13.3 13.3 "ANN(1000C,300h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111845 1832 V1-x-ySixAly V0.75Si0.2125Al0.0375 V 0.75 Si 0.2125 Al 0.0375 1969 Cr3Si(A15) A 4.734 "Cr3Si, A15" K 12.6 12.6 "ANN(1000C,150h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111846 1832 V1-x-ySixAly V0.77Si0.21Al0.02 V 0.77 Si 0.21 Al 0.02 1969 Cr3Si(A15) A 4.737 "Cr3Si, A15" K 11.7 11.7 "ANN(1000C,300h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111847 1832 impurity phase=A2 V1-x-ySixAly V0.75Si0.2Al0.05 V 0.75 Si 0.2 Al 0.05 1969 Cr3Si(A15) A 4.734 "Cr3Si, A15" K 11.8 11.8 "ANN(1000C,150h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111848 1832 impurity phase=A2 V1-x-ySixAly V0.75Si0.175Al0.075 V 0.75 Si 0.175 Al 0.075 1969 Cr3Si(A15) A 4.749 "Cr3Si, A15" K 11.1 11.1 "ANN(1000C,150h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111849 1832 impurity phase=A2 V1-x-ySixAly V0.75Si0.125Al0.125 V 0.75 Si 0.125 Al 0.125 1969 Cr3Si(A15) A 4.751 "Cr3Si, A15" K 10.4 10.4 "ANN(1000C,150h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111850 1832 impurity phase=A2 V1-x-ySixAly V0.75Si0.025Al0.225 V 0.75 Si 0.025 Al 0.225 1969 Cr3Si(A15) "Cr3Si, A15" K 9.8 9.8 "ANN(1000C,150h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111851 1832 impurity phase=A2 V1-x-ySixAly V0.72Si0.17Al0.11 V 0.72 Si 0.17 Al 0.11 1969 Cr3Si(A15) A 4.746 "Cr3Si, A15" K 10.3 10.3 "ANN(1000C,300h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111852 1832 impurity phase=A2 V1-x-ySixAly V0.65Si0.1Al0.25 V 0.65 Si 0.1 Al 0.25 1969 Cr3Si(A15) "Cr3Si, A15" K 9.9 9.9 "ANN(1000C,300h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111853 1832 impurity phase=V5Si3 V1-x-ySixAly V0.73Si0.25Al0.02 V 0.73 Si 0.25 Al 0.02 1969 Cr3Si(A15) A 4.727 "Cr3Si, A15" K 14 14 "ANN(1000C,300h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111854 1832 "impurity phase=A2, V5Si3" V1-x-ySixAly V0.73Si0.23Al0.04 V 0.73 Si 0.23 Al 0.04 1969 Cr3Si(A15) A 4.737 "Cr3Si, A15" K 10.4 10.4 "ANN(1000C,200h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111855 1832 "impurity phase=A2, V5Si3" V1-x-ySixAly V0.7Si0.2Al0.1 V 0.7 Si 0.2 Al 0.1 1969 Cr3Si(A15) A 4.74 "Cr3Si, A15" K 10.6 10.6 "ANN(1000C,300h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111856 1832 "impurity phase=A2, V5Si3" V1-x-ySixAly V0.63Si0.14Al0.23 V 0.63 Si 0.14 Al 0.23 1969 Cr3Si(A15) A 4.745 "Cr3Si, A15" K 9.7 9.7 "ANN(1000C,300h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111857 1832 impurity phase=V5Ge3 V1-xGex Ge0.27V0.73 Ge 0.27 V 0.73 1969 Cr3Si(A15) A 4.782 "Cr3Si, A15" K 6.6 6.6 "ANN(1000C,300h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111858 1832 impurity phase=V5Ge3 V1-xGex Ge0.25V0.75 Ge 0.25 V 0.75 1969 Cr3Si(A15) A 4.78 "Cr3Si, A15" K 6.5 6.5 "ANN(1000C,100h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111859 1832 impurity phase=A2 V1-xGex Ge0.23V0.77 Ge 0.23 V 0.77 1969 Cr3Si(A15) A 4.784 "Cr3Si, A15" K 6.4 6.4 "ANN(1000C,300h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111860 1832 impurity phase=A2 V1-xGex Ge0.21V0.79 Ge 0.21 V 0.79 1969 Cr3Si(A15) A 4.784 "Cr3Si, A15" K 6.4 6.4 "ANN(1000C,300h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111861 1832 V1-x-yGexAly V0.75Ge0.2375Al0.0125 V 0.75 Ge 0.2375 Al 0.0125 1969 Cr3Si(A15) "Cr3Si, A15" K 7.6 7.6 "ANN(1000C,100h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111862 1832 V1-x-yGexAly V0.75Ge0.225Al0.025 V 0.75 Ge 0.225 Al 0.025 1969 Cr3Si(A15) A 4.786 "Cr3Si, A15" K 8.6 8.6 "ANN(1000C,100h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111863 1832 V1-x-yGexAly V0.75Ge0.2125Al0.0375 V 0.75 Ge 0.2125 Al 0.0375 1969 Cr3Si(A15) "Cr3Si, A15" K 8.9 8.9 "ANN(1000C,100h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111864 1832 V1-x-yGexAly V0.75Ge0.2Al0.05 V 0.75 Ge 0.2 Al 0.05 1969 Cr3Si(A15) A 4.792 "Cr3Si, A15" K 10.3 10.3 "ANN(1000C,100h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111865 1832 impurity phase=A2 V1-x-yGexAly V0.75Ge0.1875Al0.0625 V 0.75 Ge 0.1875 Al 0.0625 1969 Cr3Si(A15) A 4.795 "Cr3Si, A15" K 11.4 11.4 "ANN(1000C,100h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111866 1832 impurity phase=A2 V1-x-yGexAly V0.75Ge0.175Al0.075 V 0.75 Ge 0.175 Al 0.075 1969 Cr3Si(A15) A 4.796 "Cr3Si, A15" K 10.8 10.8 "ANN(1000C,100h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111867 1832 impurity phase=A2 V1-x-yGexAly V0.75Ge0.15Al0.1 V 0.75 Ge 0.15 Al 0.1 1969 Cr3Si(A15) "Cr3Si, A15" K 11.7 11.7 "ANN(1000C,100h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111868 1832 impurity phase=A2 V1-x-yGexAly V0.75Ge0.13Al0.12 V 0.75 Ge 0.13 Al 0.12 1969 Cr3Si(A15) A 4.793 "Cr3Si, A15" K 11.3 11.3 "ANN(1000C,100h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111869 1832 impurity phase=A2 V1-x-yGexAly V0.75Ge0.025Al0.225 V 0.75 Ge 0.025 Al 0.225 1969 Cr3Si(A15) "Cr3Si, A15" K 11.2 11.2 "ANN(1000C,300h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111870 1832 impurity phase=A2 V1-x-yGexAly V0.65Ge0.1Al0.25 V 0.65 Ge 0.1 Al 0.25 1969 Cr3Si(A15) A 4.801 "Cr3Si, A15" K 7 7 "ANN(1000C,300h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111871 1832 "impurity phase=A2, V5Al8" V1-x-yGexAly V0.55Ge0.1Al0.35 V 0.55 Ge 0.1 Al 0.35 1969 Cr3Si(A15) A 4.795 "Cr3Si, A15" K 5.4 5.4 "ANN(1000C,300h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111872 1832 "impurity phase=A2, V5Al8" V1-x-yGexAly V0.65Ge0.15Al0.2 V 0.65 Ge 0.15 Al 0.2 1969 Cr3Si(A15) A 4.801 "Cr3Si, A15" K 5.5 5.5 "ANN(1000C,300h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111873 1832 "impurity phase=V5Ge3, V5Al8" V1-x-yGexAly V0.65Ge0.25Al0.1 V 0.65 Ge 0.25 Al 0.1 1969 Cr3Si(A15) A 4.793 "Cr3Si, A15" K 5.5 5.5 "ANN(1000C,300h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111874 1832 impurity phase=V3Sb2 V1-xSbx Sb0.268V0.732 Sb 0.268 V 0.732 1969 Cr3Si(A15) A 4.939 "Cr3Si, A15" K 2.2 "ANN(1000C,130h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111875 1832 impurity phase=V3Sb2 V1-xSbx Sb0.249V0.751 Sb 0.249 V 0.751 1969 Cr3Si(A15) A 4.941 "Cr3Si, A15" K 2 "ANN(1000C,130h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111876 1832 V1-xSbx Sb0.236V0.764 Sb 0.236 V 0.764 1969 Cr3Si(A15) A 4.939 "Cr3Si, A15" K 1.5 "ANN(1000C,130h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111877 1832 V1-xSbx Sb0.223V0.777 Sb 0.223 V 0.777 1969 Cr3Si(A15) A 4.931 "Cr3Si, A15" K 2 "ANN(1000C,130h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111878 1832 impurity phase=A2 V1-xSbx Sb0.195V0.805 Sb 0.195 V 0.805 1969 Cr3Si(A15) A 4.928 "Cr3Si, A15" K 2.2 "ANN(1000C,130h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111879 1832 V1-x-ySbxAly V0.745Sb0.208Al0.025 V 0.745 Sb 0.208 Al 0.025 1969 Cr3Si(A15) A 4.936 "Cr3Si, A15" K 2 2 "ANN(1000C,130h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111880 1832 V1-x-ySbxAly V0.751Sb0.208Al0.041 V 0.751 Sb 0.208 Al 0.041 1969 Cr3Si(A15) A 4.93 "Cr3Si, A15" K 3.4 3.4 "ANN(1000C,170h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111881 1832 V1-x-ySbxAly V0.746Sb0.179Al0.075 V 0.746 Sb 0.179 Al 0.075 1969 Cr3Si(A15) A 4.922 "Cr3Si, A15" K 4.3 4.3 "ANN(1000C,130h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111882 1832 impurity phase=A2 V1-x-ySbxAly V0.749Sb0.157Al0.094 V 0.749 Sb 0.157 Al 0.094 1969 Cr3Si(A15) A 4.914 "Cr3Si, A15" K 5.1 5.1 "ANN(1000C,130h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111883 1832 impurity phase=A2 V1-x-ySbxAly V0.741Sb0.113Al0.146 V 0.741 Sb 0.113 Al 0.146 1969 Cr3Si(A15) A 4.911 "Cr3Si, A15" K 6.1 6.1 "ANN(1000C,100h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111884 1832 impurity phase=A2 V1-x-ySbxAly V0.736Sb0.037Al0.227 V 0.736 Sb 0.037 Al 0.227 1969 Cr3Si(A15) "Cr3Si, A15" K 6.4 6.4 "ANN(1000C,130h)" "Supraleitung von A15-phasen der systeme V-Ga-Al, V-Si-Al, V-Ge-Al und V-Sb-Al" 1969 "Z.NATURFORSCH.A,24(1969)1134"
111885 1429 Tc was measured upto P=20 kbar. dTc/dP not given. LaAl2 Al2La1 Al 2 La 1 1973 A 8.147 K 3.229 3.229 arc-melting The effect of pressure on the crystalline electric field levels of superconducting La1-xTbxAl2 1973 "SOLID STATE COMMUN.,13(1973)1889"
111886 1429 Tc was measured upto P=20 kbar. dTc/dP not given. "(La,Tb)Al2" La0.9941Tb0.0059Al2 La 0.9941 Tb 0.0059 Al 2 1973 K 1.996 1.996 arc-melting The effect of pressure on the crystalline electric field levels of superconducting La1-xTbxAl2 1973 "SOLID STATE COMMUN.,13(1973)1889"
111887 1429 Tc was measured upto P=20 kbar. dTc/dP not given. "(La,Tb)Al2" La0.9911Tb0.0089Al2 La 0.9911 Tb 0.0089 Al 2 1973 K 1.425 1.425 arc-melting The effect of pressure on the crystalline electric field levels of superconducting La1-xTbxAl2 1973 "SOLID STATE COMMUN.,13(1973)1889"
111888 1431 Al13Os4 Al13Os4 Al 13 Os 4 1968 K 5.3 5.3 mj/mol.K2 1.05 422 Supraconductive dans la phase monoclinique du systeme aluminium-osmium-ruthenium 1968 "HELV.PHYS.ACTA,41(1968)1052"
111889 1431 R not zero down to 2 K. "Al13(Os,Ru)4" Al13Os3.2Ru0.8 Al 13 Os 3.2 Ru 0.8 1968 K 4 4 mj/mol.K2 0.46 415 Supraconductive dans la phase monoclinique du systeme aluminium-osmium-ruthenium 1968 "HELV.PHYS.ACTA,41(1968)1052"
111890 1431 not s/c. "Al13(Os,Ru)4" Al13Os2.96Ru1.04 Al 13 Os 2.96 Ru 1.04 1968 K 1 mj/mol.K2 0.6 480 Supraconductive dans la phase monoclinique du systeme aluminium-osmium-ruthenium 1968 "HELV.PHYS.ACTA,41(1968)1052"
111891 1431 not s/c. Al13Ru4 Al13Ru4 Al 13 Ru 4 1968 K 1 mj/mol.K2 0.3 433 Supraconductive dans la phase monoclinique du systeme aluminium-osmium-ruthenium 1968 "HELV.PHYS.ACTA,41(1968)1052"
111892 JPS0731938 "Cu(Co,Rh)2S4" Cu1Co1.99Rh0.01S4 Cu 1 Co 1.99 Rh 0.01 S 4 2004 spinel K 2.61 2.61 "mixed powder - heat(800-850C,48h,in evacuated silica)" Superconducting transition temperatures of Cu(Co1-xMx)2S4 2004 "Nagoya University, Nagoya,Japan" "J.Phys.Soc.Jpn, 73(2004)1938"
111893 JPS0731938 "Cu(Co,Rh)2S4" Cu1Co1.98Rh0.02S4 Cu 1 Co 1.98 Rh 0.02 S 4 2004 spinel K 2.82 2.82 "mixed powder - heat(800-850C,48h,in evacuated silica)" Superconducting transition temperatures of Cu(Co1-xMx)2S4 2004 "Nagoya University, Nagoya,Japan" "J.Phys.Soc.Jpn, 73(2004)1938"
111894 JPS0731938 R not zero at T=2.2 K. "Cu(Co,Rh)2S4" Cu1Co1.95Rh0.05S4 Cu 1 Co 1.95 Rh 0.05 S 4 2004 spinel K 2.2 "mixed powder - heat(800-850C,48h,in evacuated silica)" Superconducting transition temperatures of Cu(Co1-xMx)2S4 2004 "Nagoya University, Nagoya,Japan" "J.Phys.Soc.Jpn, 73(2004)1938"
111895 JPS0731938 "Cu(Co,Ir)2S4" Cu1Co1.99Ir0.01S4 Cu 1 Co 1.99 Ir 0.01 S 4 2004 spinel K 3.04 3.04 "mixed powder - heat(800-850C,48h,in evacuated silica)" Superconducting transition temperatures of Cu(Co1-xMx)2S4 2004 "Nagoya University, Nagoya,Japan" "J.Phys.Soc.Jpn, 73(2004)1938"
111896 JPS0731938 "Cu(Co,Ir)2S4" Cu1Co1.98Ir0.02S4 Cu 1 Co 1.98 Ir 0.02 S 4 2004 spinel K 2.79 2.79 "mixed powder - heat(800-850C,48h,in evacuated silica)" Superconducting transition temperatures of Cu(Co1-xMx)2S4 2004 "Nagoya University, Nagoya,Japan" "J.Phys.Soc.Jpn, 73(2004)1938"
111897 JPS0731938 "Cu(Co,Ir)2S4" Cu1Co1.95Ir0.05S4 Cu 1 Co 1.95 Ir 0.05 S 4 2004 spinel K 2.13 2.13 "mixed powder - heat(800-850C,48h,in evacuated silica)" Superconducting transition temperatures of Cu(Co1-xMx)2S4 2004 "Nagoya University, Nagoya,Japan" "J.Phys.Soc.Jpn, 73(2004)1938"
111898 JPS0731938 not s/c. "Cu(Co,Ir)2S4" Cu1Co1.9Ir0.1S4 Cu 1 Co 1.9 Ir 0.1 S 4 2004 spinel K 2.2 "mixed powder - heat(800-850C,48h,in evacuated silica)" Superconducting transition temperatures of Cu(Co1-xMx)2S4 2004 "Nagoya University, Nagoya,Japan" "J.Phys.Soc.Jpn, 73(2004)1938"
111899 JPS0731938 s/c transitions are not reproducible. The highest Tc = 3.8 K. CuCo2S4 Cu1Co2S4 Cu 1 Co 2 S 4 2004 spinel K 3.8 3.8 "mixed powder - heat(800-850C,48h,in evacuated silica)" Superconducting transition temperatures of Cu(Co1-xMx)2S4 2004 "Nagoya University, Nagoya,Japan" "J.Phys.Soc.Jpn, 73(2004)1938"
111900 JPS0731938 "Cu(Co,Cr)2S4" Cu1Co1.99Cr0.01S4 Cu 1 Co 1.99 Cr 0.01 S 4 2004 spinel K 3.62 3.62 "mixed powder - heat(800-850C,48h,in evacuated silica)" Superconducting transition temperatures of Cu(Co1-xMx)2S4 2004 "Nagoya University, Nagoya,Japan" "J.Phys.Soc.Jpn, 73(2004)1938"
111901 JPS0731938 "Cu(Co,Cr)2S4" Cu1Co1.98Cr0.02S4 Cu 1 Co 1.98 Cr 0.02 S 4 2004 spinel K 3.4 3.4 "mixed powder - heat(800-850C,48h,in evacuated silica)" Superconducting transition temperatures of Cu(Co1-xMx)2S4 2004 "Nagoya University, Nagoya,Japan" "J.Phys.Soc.Jpn, 73(2004)1938"
111902 JPS0731938 "Cu(Co,Cr)2S4" Cu1Co1.95Cr0.05S4 Cu 1 Co 1.95 Cr 0.05 S 4 2004 spinel K 3.4 3.4 "mixed powder - heat(800-850C,48h,in evacuated silica)" Superconducting transition temperatures of Cu(Co1-xMx)2S4 2004 "Nagoya University, Nagoya,Japan" "J.Phys.Soc.Jpn, 73(2004)1938"
111903 JPS0731938 "Cu(Co,Cr)2S4" Cu1Co1.9Cr0.1S4 Cu 1 Co 1.9 Cr 0.1 S 4 2004 spinel K 3 3 "mixed powder - heat(800-850C,48h,in evacuated silica)" Superconducting transition temperatures of Cu(Co1-xMx)2S4 2004 "Nagoya University, Nagoya,Japan" "J.Phys.Soc.Jpn, 73(2004)1938"
111904 JPS0731938 "Cu(Co,Cr)2S4" Cu1Co1.8Cr0.2S4 Cu 1 Co 1.8 Cr 0.2 S 4 2004 spinel K 2.7 2.7 "mixed powder - heat(800-850C,48h,in evacuated silica)" Superconducting transition temperatures of Cu(Co1-xMx)2S4 2004 "Nagoya University, Nagoya,Japan" "J.Phys.Soc.Jpn, 73(2004)1938"
111905 1520 CeRu2 Ce1Ru2 Ce 1 Ru 2 1971 K 5.4 5.4 Superconductivity and magnetic susceptibility studies of the cubic Laves phase alloys CeRu2-xCox 1971 "J.PHYS.F:METAL.PHYS.,1(1971)896"
111906 1520 "Ce(Ru,Co)2" Ce1Ru1.99Co0.01 Ce 1 Ru 1.99 Co 0.01 1971 K 4.74 4.74 Superconductivity and magnetic susceptibility studies of the cubic Laves phase alloys CeRu2-xCox 1971 "J.PHYS.F:METAL.PHYS.,1(1971)896"
111907 1520 "Ce(Ru,Co)2" Ce1Ru1.97Co0.03 Ce 1 Ru 1.97 Co 0.03 1971 K 3.5 3.5 Superconductivity and magnetic susceptibility studies of the cubic Laves phase alloys CeRu2-xCox 1971 "J.PHYS.F:METAL.PHYS.,1(1971)896"
111908 1520 "Ce(Ru,Co)2" Ce1Ru1.95Co0.05 Ce 1 Ru 1.95 Co 0.05 1971 K 2.4 2.4 Superconductivity and magnetic susceptibility studies of the cubic Laves phase alloys CeRu2-xCox 1971 "J.PHYS.F:METAL.PHYS.,1(1971)896"
111909 1520 "Ce(Ru,Co)2" Ce1Ru1.93Co0.07 Ce 1 Ru 1.93 Co 0.07 1971 K 1.93 1.93 Superconductivity and magnetic susceptibility studies of the cubic Laves phase alloys CeRu2-xCox 1971 "J.PHYS.F:METAL.PHYS.,1(1971)896"
111910 1520 not s/c for 0.1< x <1.6 in CeRu2-xCox. "Ce(Ru,Co)2" Ce1Ru0.3Co1.7 Ce 1 Ru 0.3 Co 1.7 1971 A 7.232 K 0.27 0.27 Superconductivity and magnetic susceptibility studies of the cubic Laves phase alloys CeRu2-xCox 1971 "J.PHYS.F:METAL.PHYS.,1(1971)896"
111911 1520 not s/c for 0.1< x <1.6 in CeRu2-xCox. "Ce(Ru,Co)2" Ce1Ru0.2Co1.8 Ce 1 Ru 0.2 Co 1.8 1971 A 7.2024 K 0.35 0.35 Superconductivity and magnetic susceptibility studies of the cubic Laves phase alloys CeRu2-xCox 1971 "J.PHYS.F:METAL.PHYS.,1(1971)896"
111912 1520 "Ce(Ru,Co)2" Ce1Ru0.1Co1.9 Ce 1 Ru 0.1 Co 1.9 1971 A 7.1808 K 0.47 0.47 Superconductivity and magnetic susceptibility studies of the cubic Laves phase alloys CeRu2-xCox 1971 "J.PHYS.F:METAL.PHYS.,1(1971)896"
111913 1520 "Ce(Ru,Co)2" Ce1Co2 Ce 1 Co 2 1971 A 7.164 K 0.84 0.84 Superconductivity and magnetic susceptibility studies of the cubic Laves phase alloys CeRu2-xCox 1971 "J.PHYS.F:METAL.PHYS.,1(1971)896"
111914 951 Th1-xCex Ce0.025Th0.975 Ce 0.025 Th 0.975 1970 K 0.58 0.58 MTC11914 Superconducting-normal phase boundary of superconductors containing nearly nonmagnetic impurities 1970 "Solid State Commun.,8(1970)1987"
111915 951 Th1-xUx Th0.999U0.001 Th 0.999 U 0.001 1970 K 0.654 0.654 MTC11915 Superconducting-normal phase boundary of superconductors containing nearly nonmagnetic impurities 1970 "Solid State Commun.,8(1970)1987"
111916 951 Al1-xMnx Al0.999Mn0.001 Al 0.999 Mn 0.001 1970 K 0.596 0.596 MTC11916 Superconducting-normal phase boundary of superconductors containing nearly nonmagnetic impurities 1970 "Solid State Commun.,8(1970)1987"
111917 1072 Nb3Al Al3Nb3 Al 3 Nb 3 1968 Cr3Si(A15) "Cr3Si, A15" K 18.4 18.4 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111918 1072 "Nb3(Al,Ge)" Nb3Al0.9Ge0.1 Nb 3 Al 0.9 Ge 0.1 1968 Cr3Si(A15) "Cr3Si, A15" K 19.5 19.5 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111919 1072 "Nb3(Al,Ge)" Nb3Al0.8Ge0.2 Nb 3 Al 0.8 Ge 0.2 1968 Cr3Si(A15) "Cr3Si, A15" K 19.8 19.8 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111920 1072 "Nb3(Al,Ge)" Nb3Al0.7Ge0.3 Nb 3 Al 0.7 Ge 0.3 1968 Cr3Si(A15) "Cr3Si, A15" K 19.9 19.9 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111921 1072 "Nb3(Al,Ge)" Nb3Al0.6Ge0.4 Nb 3 Al 0.6 Ge 0.4 1968 Cr3Si(A15) "Cr3Si, A15" K 19.7 19.7 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111922 1072 "Nb3(Al,Ge)" Nb3Al0.5Ge0.5 Nb 3 Al 0.5 Ge 0.5 1968 Cr3Si(A15) "Cr3Si, A15" K 17.4 17.4 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111923 1072 "Nb3(Al,Ga)" Nb3Al0.9Ga0.1 Nb 3 Al 0.9 Ga 0.1 1968 Cr3Si(A15) "Cr3Si, A15" K 18.5 18.5 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111924 1072 "Nb3(Al,Ga)" Nb3Al0.8Ga0.2 Nb 3 Al 0.8 Ga 0.2 1968 Cr3Si(A15) "Cr3Si, A15" K 18.54 18.54 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111925 1072 "Nb3(Al,Ga)" Nb3Al0.67Ga0.33 Nb 3 Al 0.67 Ga 0.33 1968 Cr3Si(A15) "Cr3Si, A15" K 18.7 18.7 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111926 1072 "Nb3(Al,Ga)" Nb3Al0.5Ga0.5 Nb 3 Al 0.5 Ga 0.5 1968 Cr3Si(A15) "Cr3Si, A15" K 18.5 18.5 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111927 1072 "Nb3(Al,In)" Nb3Al0.9In0.1 Nb 3 Al 0.9 In 0.1 1968 Cr3Si(A15) "Cr3Si, A15" K 18.3 18.3 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111928 1072 "Nb3(Al,In)" Nb3Al0.8In0.2 Nb 3 Al 0.8 In 0.2 1968 Cr3Si(A15) "Cr3Si, A15" K 18.1 18.1 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111929 1072 "Nb3(Al,In)" Nb3Al0.67In0.33 Nb 3 Al 0.67 In 0.33 1968 Cr3Si(A15) "Cr3Si, A15" K 16 16 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111930 1072 "Nb3(Al,Zn)" Nb3Al0.9Zn0.1 Nb 3 Al 0.9 Zn 0.1 1968 Cr3Si(A15) "Cr3Si, A15" K 18.1 18.1 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111931 1072 "Nb3(Al,Zn)" Nb3Al0.8Zn0.2 Nb 3 Al 0.8 Zn 0.2 1968 Cr3Si(A15) "Cr3Si, A15" K 17.7 17.7 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111932 1072 "Nb3(Al,Zn)" Nb3Al0.67Zn0.33 Nb 3 Al 0.67 Zn 0.33 1968 Cr3Si(A15) "Cr3Si, A15" K 17.3 17.3 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111933 1072 "Nb3(Al,Zn)" Nb3Al0.5Zn0.5 Nb 3 Al 0.5 Zn 0.5 1968 Cr3Si(A15) "Cr3Si, A15" K 16 16 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111934 1072 Nb3Sn Nb3Sn1 Nb 3 Sn 1 1968 Cr3Si(A15) "Cr3Si, A15" K 18 18 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111935 1072 "Nb3(Sn,Ga)" Nb3Sn0.9Ga0.1 Nb 3 Sn 0.9 Ga 0.1 1968 Cr3Si(A15) "Cr3Si, A15" K 18.3 18.3 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111936 1072 "Nb3(Sn,Ga)" Nb3Sn0.8Ga0.2 Nb 3 Sn 0.8 Ga 0.2 1968 Cr3Si(A15) "Cr3Si, A15" K 17 17 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111937 1072 "Nb3(Sn,Ga)" Nb3Sn0.65Ga0.35 Nb 3 Sn 0.65 Ga 0.35 1968 Cr3Si(A15) "Cr3Si, A15" K 16.5 16.5 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111938 1072 "Nb3(Sn,Ga)" Nb3Sn0.5Ga0.5 Nb 3 Sn 0.5 Ga 0.5 1968 Cr3Si(A15) "Cr3Si, A15" K 16.4 16.4 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111939 1072 "Nb3(Sn,Ge)" Nb3Sn0.95Ge0.05 Nb 3 Sn 0.95 Ge 0.05 1968 Cr3Si(A15) "Cr3Si, A15" K 18.1 18.1 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111940 1072 "Nb3(Sn,Ge)" Nb3Sn0.9Ge0.1 Nb 3 Sn 0.9 Ge 0.1 1968 Cr3Si(A15) "Cr3Si, A15" K 18 18 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111941 1072 "Nb3(Sn,Ge)" Nb3Sn0.8Ge0.2 Nb 3 Sn 0.8 Ge 0.2 1968 Cr3Si(A15) "Cr3Si, A15" K 17.7 17.7 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111942 1072 "Nb3(Sn,Ge)" Nb3Sn0.65Ge0.35 Nb 3 Sn 0.65 Ge 0.35 1968 Cr3Si(A15) "Cr3Si, A15" K 16.1 16.1 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111943 1072 "Nb3(Sn,In)" Nb3Sn0.9In0.1 Nb 3 Sn 0.9 In 0.1 1968 Cr3Si(A15) "Cr3Si, A15" K 18.1 18.1 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111944 1072 "Nb3(Sn,In)" Nb3Sn0.8In0.2 Nb 3 Sn 0.8 In 0.2 1968 Cr3Si(A15) "Cr3Si, A15" K 17.8 17.8 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111945 1072 "Nb3(Sn,Al)" Nb3Sn0.9Al0.1 Nb 3 Sn 0.9 Al 0.1 1968 Cr3Si(A15) "Cr3Si, A15" K 17.8 17.8 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111946 1072 "Nb3(Sn,Al)" Nb3Sn0.8Al0.2 Nb 3 Sn 0.8 Al 0.2 1968 Cr3Si(A15) "Cr3Si, A15" K 16.8 16.8 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111947 1072 "Nb3(Sn,Al)" Nb3Sn0.7Al0.3 Nb 3 Sn 0.7 Al 0.3 1968 Cr3Si(A15) "Cr3Si, A15" K 15.8 15.8 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111948 1072 "Nb3(Sn,Al)" Nb3Sn0.6Al0.4 Nb 3 Sn 0.6 Al 0.4 1968 Cr3Si(A15) "Cr3Si, A15" K 15.7 15.7 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111949 1072 "Nb3(Sn,Al)" Nb3Sn0.5Al0.5 Nb 3 Sn 0.5 Al 0.5 1968 Cr3Si(A15) "Cr3Si, A15" K 16.1 16.1 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111950 1072 Nb3Ga Ga1Nb3 Ga 1 Nb 3 1968 Cr3Si(A15) "Cr3Si, A15" K 16.1 16.1 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111951 1072 "Nb3(Ga,Al)" Nb3Ga0.85Al0.15 Nb 3 Ga 0.85 Al 0.15 1968 Cr3Si(A15) "Cr3Si, A15" K 17.1 17.1 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111952 1072 "Nb3(Ga,Al)" Nb3Ga0.67Al0.33 Nb 3 Ga 0.67 Al 0.33 1968 Cr3Si(A15) "Cr3Si, A15" K 18.1 18.1 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111953 1072 "Nb3(Ga,Al)" Nb3Ga0.5Al0.5 Nb 3 Ga 0.5 Al 0.5 1968 Cr3Si(A15) "Cr3Si, A15" K 18.5 18.5 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111954 1072 "Nb3(Ga,Zn)" Nb3Ga0.9Zn0.1 Nb 3 Ga 0.9 Zn 0.1 1968 Cr3Si(A15) "Cr3Si, A15" K 16.1 16.1 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111955 1072 "Nb3(Ga,Zn)" Nb3Ga0.8Zn0.2 Nb 3 Ga 0.8 Zn 0.2 1968 Cr3Si(A15) "Cr3Si, A15" K 16.2 16.2 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111956 1072 "Nb3(Ga,Zn)" Nb3Ga0.65Zn0.35 Nb 3 Ga 0.65 Zn 0.35 1968 Cr3Si(A15) "Cr3Si, A15" K 16.3 16.3 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111957 1072 "Nb3(Ga,Zn)" Nb3Ga0.5Zn0.5 Nb 3 Ga 0.5 Zn 0.5 1968 Cr3Si(A15) "Cr3Si, A15" K 16.4 16.4 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111958 1072 "Nb3(Ga,Ge)" Nb3Ga0.95Ge0.05 Nb 3 Ga 0.95 Ge 0.05 1968 Cr3Si(A15) "Cr3Si, A15" K 15.3 15.3 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
111959 1165 Tc calculated from Tc(Pb)=7.195 K (not given by the Authors) Pb1-xSbx Pb0.9904Sb0.0096 Pb 0.9904 Sb 0.0096 1965 K 7.29 7.29 MTC11960 The superconducting transition temperatures of some dilute lead alloys 1965 "PROC.PHYS.SOC.,86(1965)1199"
111960 1165 Tc calculated from Tc(Pb)=7.195 K (not given by the Authors) Pb1-xBix Bi0.0105Pb0.9895 Bi 0.0105 Pb 0.9895 1965 K 7.214 7.214 MTC11960 The superconducting transition temperatures of some dilute lead alloys 1965 "PROC.PHYS.SOC.,86(1965)1199"
111961 1165 Tc calculated from Tc(Pb)=7.195 K (not given by the Authors) Pb1-xSnx Pb0.9769Sn0.0231 Pb 0.9769 Sn 0.0231 1965 K 7.213 7.213 MTC11960 The superconducting transition temperatures of some dilute lead alloys 1965 "PROC.PHYS.SOC.,86(1965)1199"
111962 1165 Tc calculated from Tc(Pb)=7.195 K (not given by the Authors) Pb1-x(TlBi)x Pb0.95Tl0.025Bi0.025 Pb 0.95 Tl 0.025 Bi 0.025 1965 K 7.214 7.214 MTC11960 The superconducting transition temperatures of some dilute lead alloys 1965 "PROC.PHYS.SOC.,86(1965)1199"
111963 1165 Tc calculated from Tc(Pb)=7.195 K (not given by the Authors) Pb1-xHgx Hg0.0307Pb0.9693 Hg 0.0307 Pb 0.9693 1965 K 7.134 7.134 MTC11963 The superconducting transition temperatures of some dilute lead alloys 1965 "PROC.PHYS.SOC.,86(1965)1199"
111964 1165 Tc calculated from Tc(Pb)=7.195 K (not given by the Authors) Pb1-xInx In0.0293Pb0.9707 In 0.0293 Pb 0.9707 1965 K 7.109 7.109 MTC11963 The superconducting transition temperatures of some dilute lead alloys 1965 "PROC.PHYS.SOC.,86(1965)1199"
111965 1165 Tc calculated from Tc(Pb)=7.195 K (not given by the Authors) Pb1-xCdx Cd0.0263Pb0.9737 Cd 0.0263 Pb 0.9737 1965 K 7.124 7.124 MTC11965 The superconducting transition temperatures of some dilute lead alloys 1965 "PROC.PHYS.SOC.,86(1965)1199"
111966 1165 Tc calculated from Tc(Pb)=7.195 K (not given by the Authors) Pb1-xTlx Pb0.9848Tl0.0152 Pb 0.9848 Tl 0.0152 1965 K 7.135 7.135 MTC11965 The superconducting transition temperatures of some dilute lead alloys 1965 "PROC.PHYS.SOC.,86(1965)1199"
111967 1113 CeRu2 Ce1Ru2 Ce 1 Ru 2 1970 K 6.1 6.1 1970 "PHYS.LETT.A,31(1970)448"
111968 1113 "(Ce,Tb)Ru2" Ce0.86Tb0.14Ru2 Ce 0.86 Tb 0.14 Ru 2 1970 K 4.51 4.51 1970 "PHYS.LETT.A,31(1970)448"
111969 1113 "(Ce,Tb)Ru2" Ce0.8Tb0.2Ru2 Ce 0.8 Tb 0.2 Ru 2 1970 4.43 K 2.52 2.52 MTC11969 1970 "PHYS.LETT.A,31(1970)448"
111970 1658 "(Ce,Y)Ru2" Ce0.84Y0.16Ru2 Ce 0.84 Y 0.16 Ru 2 1972 K 4.92 4.92 On the anomalous dependence of the superconducting transition temperature Tc of CeRu2 on magnetic ion concentration 1972 "PHYS.LETT.A,41(1972)419"
111971 1658 "(Ce,Y,Gd)Ru2" Ce0.84Y0.1Gd0.06Ru2 Ce 0.84 Y 0.1 Gd 0.06 Ru 2 1972 K 4.55 4.55 MTC11971 On the anomalous dependence of the superconducting transition temperature Tc of CeRu2 on magnetic ion concentration 1972 "PHYS.LETT.A,41(1972)419"
111972 1658 "(Ce,Y,Gd)Ru2" Ce0.84Y0.06Gd0.1Ru2 Ce 0.84 Y 0.06 Gd 0.1 Ru 2 1972 K 3.32 3.32 On the anomalous dependence of the superconducting transition temperature Tc of CeRu2 on magnetic ion concentration 1972 "PHYS.LETT.A,41(1972)419"
111973 1228 La3In In1La3 In 1 La 3 1972 K 9.45 9.45 MHC11975 1972 "SOLID STATE COMMUN., 10(1972)927"
111974 1228 "(La,Ce)3In" La2.98Ce0.02In1 La 2.98 Ce 0.02 In 1 1972 K 8.2 8.2 MHC11975 1972 "SOLID STATE COMMUN., 10(1972)927"
111975 1228 "(La,Ce)3In" La2.96Ce0.04In1 La 2.96 Ce 0.04 In 1 1972 K 7.01 7.01 MTC11975 1972 "SOLID STATE COMMUN., 10(1972)927"
111976 1228 "(La,Ce)3In" La2.94Ce0.06In1 La 2.94 Ce 0.06 In 1 1972 K 5.58 5.58 MHC11975 1972 "SOLID STATE COMMUN., 10(1972)927"
111977 1295 MoGa4 Ga4Mo1 Ga 4 Mo 1 1972 K 7.98 7.98 1972 "HELVETIA PHYS.ACTA,45(1972)331"
111978 1295 "(Mo,Nb)Ga4" Mo0.98Nb0.02Ga4 Mo 0.98 Nb 0.02 Ga 4 1972 K 8 8 MTC11980 1972 "HELVETIA PHYS.ACTA,45(1972)331"
111979 1295 "(Mo,Nb)Ga4" Mo0.96Nb0.04Ga4 Mo 0.96 Nb 0.04 Ga 4 1972 K 8 8 MTC11980 1972 "HELVETIA PHYS.ACTA,45(1972)331"
111980 1295 "(Mo,Ru)Ga4" Mo0.96Ru0.04Ga4 Mo 0.96 Ru 0.04 Ga 4 1972 K 7.63 7.63 MTC11980 1972 "HELVETIA PHYS.ACTA,45(1972)331"
111981 1295 "(Mo,Co)Ga4" Mo0.96Co0.04Ga4 Mo 0.96 Co 0.04 Ga 4 1972 K 7.07 7.07 MTC11980 1972 "HELVETIA PHYS.ACTA,45(1972)331"
111982 1295 "(Mo,Fe)Ga4" Mo0.97Fe0.03Ga4 Mo 0.97 Fe 0.03 Ga 4 1972 K 5.13 5.13 MTC11980 1972 "HELVETIA PHYS.ACTA,45(1972)331"
111983 1295 "(Mo,Fe)Ga4" Mo0.94Fe0.06Ga4 Mo 0.94 Fe 0.06 Ga 4 1972 K 2.6 2.6 MTC11980 1972 "HELVETIA PHYS.ACTA,45(1972)331"
111984 1295 "(Mo,Mn)Ga4" Mo0.99Mn0.01Ga4 Mo 0.99 Mn 0.01 Ga 4 1972 K 3.94 3.94 MTC11980 1972 "HELVETIA PHYS.ACTA,45(1972)331"
111985 1833 unit of gamma = erg/cm3.K2 estimated from Hc. Hc2 = Hc . Mo Mo1 Mo 1 1974 K 0.92 0.92 Oe 94.7 MHC11985 mj/mol.K2 1960 "ANN(2520C, P=1 E-10 Torr)" "Kondo effect in superconducting MoCo, MoFe, and MoMn alloys" 1974 "J.LOW TEMP.PHYS.,16(1974)519"
111986 1833 unit of gamma = erg/cm3.K2 estimated from Hc. Hc2 = Hc . dTc/dx = 18 K/at % Co Mo1-xCox Co0.01Mo99.99 Co 0.01 Mo 99.99 1974 K 0.71 0.71 Oe 70 MHC11986 mj/mol.K2 1950 "Kondo effect in superconducting MoCo, MoFe, and MoMn alloys" 1974 "J.LOW TEMP.PHYS.,16(1974)519"
111987 1833 unit of gamma = erg/cm3.K2 estimated from Hc. Hc2 = Hc . Mo1-xCox Co0.015Mo99.985 Co 0.015 Mo 99.985 1974 K 0.59 0.59 Oe 57.3 MHC11987 mj/mol.K2 1960 "Kondo effect in superconducting MoCo, MoFe, and MoMn alloys" 1974 "J.LOW TEMP.PHYS.,16(1974)519"
111988 1833 unit of gamma = erg/cm3.K2 estimated from Hc. Hc2 = Hc . Mo1-xCox Co0.032Mo99.968 Co 0.032 Mo 99.968 1974 K 0.31 0.31 Oe 24.2 MHC11988 mj/mol.K2 1950 "Kondo effect in superconducting MoCo, MoFe, and MoMn alloys" 1974 "J.LOW TEMP.PHYS.,16(1974)519"
111989 1833 unit of gamma = erg/cm3.K2 estimated from Hc. Hc2 = Hc . Mo1-xCox Co0.038Mo99.962 Co 0.038 Mo 99.962 1974 K 0.22 0.22 Oe 15.7 MHC11989 mj/mol.K2 1910 "Kondo effect in superconducting MoCo, MoFe, and MoMn alloys" 1974 "J.LOW TEMP.PHYS.,16(1974)519"
111990 1833 unit of gamma = erg/cm3.K2 estimated from Hc. Hc2 = Hc . dTc/dx = 38 K/at % Fe Mo1-xFex Fe0.008Mo99.992 Fe 0.008 Mo 99.992 1974 K 0.645 0.645 Oe 45.6 MHC11990 mj/mol.K2 1084 "Kondo effect in superconducting MoCo, MoFe, and MoMn alloys" 1974 "J.LOW TEMP.PHYS.,16(1974)519"
111991 1833 unit of gamma = erg/cm3.K2 estimated from Hc. Hc2 = Hc . Mo1-xFex Fe0.011Mo99.989 Fe 0.011 Mo 99.989 1974 K 0.51 0.51 Oe 32.7 MHC11990 mj/mol.K2 726 "Kondo effect in superconducting MoCo, MoFe, and MoMn alloys" 1974 "J.LOW TEMP.PHYS.,16(1974)519"
111992 1377 "Pd(Tl,Pb)2" Pd1Tl1Pb1 Pd 1 Tl 1 Pb 1 1972 CuAl2 "CuAl2, C16" K 1.78 1.78 MTC11992 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
111993 1377 "(Rh,Pd)Pb2" Rh0.5Pd0.5Pb2 Rh 0.5 Pd 0.5 Pb 2 1972 CuAl2 "CuAl2, C16" K 1.7 1.7 MTC11993 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
111994 1377 "(Pd,Au)Pb2" Pd0.5Au0.5Pb2 Pd 0.5 Au 0.5 Pb 2 1972 CuAl2 "CuAl2, C16" K 3.02 3.02 MTC11993 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
111995 1377 "(Pd,Ag)Th2" Pd0.5Ag0.5Th2 Pd 0.5 Ag 0.5 Th 2 1972 CuAl2 "CuAl2, C16" K 1.2 1.2 MTC11995 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
111996 1377 "(Ag,Al)Th2" Ag0.5Al0.5Th2 Ag 0.5 Al 0.5 Th 2 1972 CuAl2 "CuAl2, C16" K 0.78 0.78 MTC11995 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
111997 1377 "(Al,Ge)Th2" Al0.5Ge0.5Th2 Al 0.5 Ge 0.5 Th 2 1972 CuAl2 "CuAl2, C16" K 0.21 0.21 MTC11995 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
111998 1377 "(Fe,Co)Zr2" Fe0.5Co0.5Zr2 Fe 0.5 Co 0.5 Zr 2 1972 CuAl2 "CuAl2, C16" K 1.26 1.26 MTC11998 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
111999 1377 "(Co,Ni)Zr2" Co0.5Ni0.5Zr2 Co 0.5 Ni 0.5 Zr 2 1972 CuAl2 "CuAl2, C16" K 3.21 3.21 MTC11998 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
112000 1377 "(Ni,Cu)4Zr8" Ni2.5Cu1.5Zr8 Ni 2.5 Cu 1.5 Zr 8 1972 CuAl2 "CuAl2, C16" K 1.09 1.09 MTC11998 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
112001 1377 "(Co,Ni)Ta2" Co0.5Ni0.5Ta2 Co 0.5 Ni 0.5 Ta 2 1972 CuAl2 "CuAl2, C16" K 0.91 0.91 MTC12001 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
112002 1377 "Co(Ta,Zr)2" Co1Ta1.75Zr0.25 Co 1 Ta 1.75 Zr 0.25 1972 CuAl2 "CuAl2, C16" K 1 1 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
112003 1377 "(Fe,Ni)Zr2" Fe0.5Ni0.5Zr2 Fe 0.5 Ni 0.5 Zr 2 1972 CuAl2 "CuAl2, C16" K 2.45 2.45 MTC12003 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
112004 1377 "B(Mo,Ta)2" B1Mo1.5Ta0.5 B 1 Mo 1.5 Ta 0.5 1972 CuAl2 "CuAl2, C16" K 1.82 1.82 MTC12004 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
112005 1377 "B(Mo,Re)" B1Mo1Re1 B 1 Mo 1 Re 1 1972 CuAl2 "CuAl2, C16" K 5.09 5.09 MTC12004 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
112006 1377 "B(Ta,W)2" B1Ta0.5W1.5 B 1 Ta 0.5 W 1.5 1972 CuAl2 "CuAl2, C16" K 1.94 1.94 MTC12006 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
112007 1377 "B(W,Re)2" B1W1.26Re0.74 B 1 W 1.26 Re 0.74 1972 CuAl2 "CuAl2, C16" K 5.1 5.1 MTC12006 Compounds and pseudo-binary alloys with the CuAl2 (C16)-type structure: IV Superconductivity 1972 "J.LESS-COMMON METALS,27(1972)281"
112008 469 Tc = 0.35 K for 0.281 GPa. For P=0, dTc/dp = +0.0003 K/GPa" Ta1-xWx Ta0.96W0.04 Ta 0.96 W 0.04 1972 K 3.3 3.3 K/GPa -0.019 arc-melting Superconductivity of Hf-Ta and Ta-W alloys under pressure 1972 "Z.PHYS.,255(1972)308"
112290 1816 "dTc/dP is for P>1 GPa. For P=0, dTc/dp = +0.012 K/GPa" Ta1-xWx Ta0.91W0.09 Ta 0.91 W 0.09 1972 K 2.78 2.78 K/GPa -0.022 arc-melting Superconductivity of Hf-Ta and Ta-W alloys under pressure 1972 "Z.PHYS.,255(1972)308"
112291 1816 "dTc/dP is for P>1 GPa. For P=0, dTc/dp = +0.0093 K/GPa" Ta1-xWx Ta0.84W0.16 Ta 0.84 W 0.16 1972 K 1.86 1.86 K/GPa -0.021 266 arc-melting Superconductivity of Hf-Ta and Ta-W alloys under pressure 1972 "Z.PHYS.,255(1972)308"
112292 1816 "dTc/dP is for P>1 GPa. For P=0, dTc/dp = +0.0057 K/GPa" Ta1-xWx Ta0.78W0.22 Ta 0.78 W 0.22 1972 K 1.36 1.36 K/GPa -0.016 arc-melting Superconductivity of Hf-Ta and Ta-W alloys under pressure 1972 "Z.PHYS.,255(1972)308"
112293 1596 In1-xMgx In0.966Mg0.034 In 0.966 Mg 0.034 1974 K 3.61 3.61 MTC12293 Superconducting transition temperature of indium-magnesium alloys 1974 "PHYS.LETT.A,49(1974)73"
112294 1596 In1-xMgx In0.82Mg0.18 In 0.82 Mg 0.18 1974 K 3.67 3.67 Superconducting transition temperature of indium-magnesium alloys 1974 "PHYS.LETT.A,49(1974)73"
112295 1982 Nb3Sn Nb3Sn1 Nb 3 Sn 1 1964 Cr3Si(A15) "Cr3Si, A15" K 18 18 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
112296 1982 "Nb3(Ga,Sn)" Nb3Ga0.05Sn0.95 Nb 3 Ga 0.05 Sn 0.95 1964 Cr3Si(A15) "Cr3Si, A15" K 18.3 18.3 MTC12297 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
112297 1982 "Nb3(In,Sn)" Nb3In0.15Sn0.85 Nb 3 In 0.15 Sn 0.85 1964 Cr3Si(A15) "Cr3Si, A15" K 18.3 18.3 MTC12297 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
112298 1982 "Nb3(Tl,Sn)" Nb3Tl0.1Sn0.9 Nb 3 Tl 0.1 Sn 0.9 1964 Cr3Si(A15) "Cr3Si, A15" K 18.25 18.25 MTC12297 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
112299 1982 "Nb3(Ge,Sn)" Nb3Ge0.1Sn0.9 Nb 3 Ge 0.1 Sn 0.9 1964 Cr3Si(A15) "Cr3Si, A15" K 17.97 17.97 MTC12299 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
112300 1982 "Nb3(Pb,Sn)" Nb3Pb0.15Sn0.85 Nb 3 Pb 0.15 Sn 0.85 1964 Cr3Si(A15) "Cr3Si, A15" K 18.24 18.24 MTC12299 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
112301 1982 "Nb3(As,Sn)" Nb3As0.05Sn0.95 Nb 3 As 0.05 Sn 0.95 1964 Cr3Si(A15) "Cr3Si, A15" K 18.19 18.19 MTC12302 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
112302 1982 "Nb3(Sb,Sn)" Nb3Sb0.1Sn0.9 Nb 3 Sb 0.1 Sn 0.9 1964 Cr3Si(A15) "Cr3Si, A15" K 17.04 17.04 MTC12302 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
112303 1982 "Nb3(Bi,Sn)" Nb3Bi0.15Sn0.85 Nb 3 Bi 0.15 Sn 0.85 1964 Cr3Si(A15) "Cr3Si, A15" K 18.28 18.28 MTC12302 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
112304 1982 "Nb3(Al,Sn)" Nb3Al0.05Sn0.95 Nb 3 Al 0.05 Sn 0.95 1964 Cr3Si(A15) "Cr3Si, A15" K 18.2 18.2 MTC12299 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
112305 1982 "Nb3(In,Sb,Sn)" Nb3In0.2Sb0.2Sn0.6 Nb 3 In 0.2 Sb 0.2 Sn 0.6 1964 K 16 16 MTC12305 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
112306 1982 "Nb3(Ge,Pb,Sn)" Nb3Ge0.2Pb0.2Sn0.6 Nb 3 Ge 0.2 Pb 0.2 Sn 0.6 1964 K 17.84 17.84 MTC12305 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
112307 1982 "Nb3(Ga,Bi,Sn)" Nb3Ga0.2Bi0.2Sn0.6 Nb 3 Ga 0.2 Bi 0.2 Sn 0.6 1964 K 18.06 18.06 MTC12305 Zur Suraleitung in Mischsystemen mit Nb3Sn 1964 "Z.PHYS.,177(1964)10"
112308 1072 "Nb3(Al,Ge)" Nb3Al0.72Ge0.28 Nb 3 Al 0.72 Ge 0.28 1968 Cr3Si(A15) "Cr3Si, A15" K 19.9 19.9 MTC12308 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112309 1072 "Nb3(Al,Ga)" Nb3Al0.67Ga0.33 Nb 3 Al 0.67 Ga 0.33 1968 Cr3Si(A15) "Cr3Si, A15" K 18.7 18.7 MTC12308 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112310 1072 "Nb3(Al,In)" Nb3Al0.8In0.2 Nb 3 Al 0.8 In 0.2 1968 Cr3Si(A15) "Cr3Si, A15" K 18.1 18.1 MTC12308 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112311 1072 "Nb3(Al,Sn)" Nb3Al0.5Sn0.5 Nb 3 Al 0.5 Sn 0.5 1968 Cr3Si(A15) "Cr3Si, A15" K 16 16 MTC12308 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112312 1072 "Nb3(Sn,Ga)" Nb3Sn0.91Ga0.09 Nb 3 Sn 0.91 Ga 0.09 1968 Cr3Si(A15) "Cr3Si, A15" K 18.3 18.3 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112313 1072 "Nb3(Sn,Ga)" Nb3Sn0.65Ga0.35 Nb 3 Sn 0.65 Ga 0.35 1968 Cr3Si(A15) "Cr3Si, A15" K 16.5 16.5 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112314 1072 "Nb3(Sn,Ga)" Nb3Sn0.49Ga0.51 Nb 3 Sn 0.49 Ga 0.51 1968 Cr3Si(A15) "Cr3Si, A15" K 16.4 16.4 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112315 1072 "Nb3(Sn,Ge)" Nb3Sn0.95Ge0.05 Nb 3 Sn 0.95 Ge 0.05 1968 Cr3Si(A15) "Cr3Si, A15" K 18.1 18.1 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112316 1072 "Nb3(Sn,Ge)" Nb3Sn0.8Ge0.2 Nb 3 Sn 0.8 Ge 0.2 1968 Cr3Si(A15) "Cr3Si, A15" K 17.65 17.65 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112317 1072 "Nb3(Sn,Ge)" Nb3Sn0.65Ge0.35 Nb 3 Sn 0.65 Ge 0.35 1968 Cr3Si(A15) "Cr3Si, A15" K 16.1 16.1 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112318 1072 "Nb3(Sn,In)" Nb3Sn0.9In0.1 Nb 3 Sn 0.9 In 0.1 1968 Cr3Si(A15) "Cr3Si, A15" K 18.1 18.1 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112319 1072 "Nb3(Sn,In)" Nb3Sn0.8In0.2 Nb 3 Sn 0.8 In 0.2 1968 Cr3Si(A15) "Cr3Si, A15" K 17.8 17.8 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112320 1072 "Nb3(Sn,Al)" Nb3Sn0.91Al0.09 Nb 3 Sn 0.91 Al 0.09 1968 Cr3Si(A15) "Cr3Si, A15" K 17.8 17.8 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112321 1072 "Nb3(Sn,Al)" Nb3Sn0.8Al0.2 Nb 3 Sn 0.8 Al 0.2 1968 Cr3Si(A15) "Cr3Si, A15" K 16.8 16.8 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112322 1072 "Nb3(Sn,Al)" Nb3Sn0.7Al0.3 Nb 3 Sn 0.7 Al 0.3 1968 Cr3Si(A15) "Cr3Si, A15" K 15.75 15.75 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112323 1072 "Nb3(Sn,Al)" Nb3Sn0.6Al0.4 Nb 3 Sn 0.6 Al 0.4 1968 Cr3Si(A15) "Cr3Si, A15" K 15.7 15.7 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112324 1072 "Nb3(Sn,Al)" Nb3Sn0.5Al0.5 Nb 3 Sn 0.5 Al 0.5 1968 Cr3Si(A15) "Cr3Si, A15" K 16.1 16.1 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112325 1072 Nb3Sn Nb3Sn1 Nb 3 Sn 1 1968 Cr3Si(A15) "Cr3Si, A15" K 18 18 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112326 1072 Nb3Ga Ga1Nb3 Ga 1 Nb 3 1968 Cr3Si(A15) "Cr3Si, A15" K 16.1 16.1 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112327 1072 "Nb3(Ga,Ge)" Nb3Ga0.95Ge0.05 Nb 3 Ga 0.95 Ge 0.05 1968 Cr3Si(A15) "Cr3Si, A15" K 15.4 15.4 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112328 1072 "Nb3(Ga,Al)" Nb3Ga0.85Al0.15 Nb 3 Ga 0.85 Al 0.15 1968 Cr3Si(A15) "Cr3Si, A15" K 17.1 17.1 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112329 1072 "Nb3(Ga,Al)" Nb3Ga0.65Al0.35 Nb 3 Ga 0.65 Al 0.35 1968 Cr3Si(A15) "Cr3Si, A15" K 18.1 18.1 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112330 1072 "Nb3(Ga,Al)" Nb3Ga0.5Al0.5 Nb 3 Ga 0.5 Al 0.5 1968 Cr3Si(A15) "Cr3Si, A15" K 18.5 18.5 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112331 1072 "Nb3(Ga,Sn)" Nb3Ga0.9Sn0.1 Nb 3 Ga 0.9 Sn 0.1 1968 Cr3Si(A15) "Cr3Si, A15" K 16.1 16.1 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112332 1072 "Nb3(Ga,Sn)" Nb3Ga0.8Sn0.2 Nb 3 Ga 0.8 Sn 0.2 1968 Cr3Si(A15) "Cr3Si, A15" K 16.2 16.2 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112333 1072 "Nb3(Ga,Sn)" Nb3Ga0.65Sn0.35 Nb 3 Ga 0.65 Sn 0.35 1968 Cr3Si(A15) "Cr3Si, A15" K 16.3 16.3 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112334 1072 "Nb3(Ga,Sn)" Nb3Ga0.5Sn0.5 Nb 3 Ga 0.5 Sn 0.5 1968 Cr3Si(A15) "Cr3Si, A15" K 16.4 16.4 Zur Supraleitung einiger Mischsysteme von Verbindungen mit A15-Struktur auf Niobbasis 1968 "Z.PHYS.,215(1968)323"
112335 956 Hf1-xWx Hf0.909W0.091 Hf 0.909 W 0.091 1970 bcc K 2.38 2.38 "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
112336 956 Hf1-xWx Hf0.834W0.166 Hf 0.834 W 0.166 1970 bcc K 2.79 2.79 "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
112337 956 Hf1-xWx Hf0.78W0.22 Hf 0.78 W 0.22 1970 bcc K 2.77 2.77 "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
112338 956 Hf1-xWx Hf0.661W0.339 Hf 0.661 W 0.339 1970 bcc K 2.51 2.51 "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
112339 956 Hf1-xWx Hf0.33W0.67 Hf 0.33 W 0.67 1970 bcc K 0.05 "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
112340 956 Zr1-xWx W0.054Zr0.946 W 0.054 Zr 0.946 1970 A 3.561 K 3.88 3.88 "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
112341 956 Zr1-xWx W0.014Zr0.986 W 0.014 Zr 0.986 1970 A 3.56 K 3.64 3.64 MTC12341 "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
112342 956 Zr1-xWx W0.801Zr0.199 W 0.801 Zr 0.199 1970 A 3.182 K 2.01 2.01 "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
112344 956 Zr1-xWx W0.9Zr0.1 W 0.9 Zr 0.1 1970 K 1.18 "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
112345 956 Hf1-xMox Hf0.915Mo0.085 Hf 0.915 Mo 0.085 1970 A 3.513 K 2.13 2.13 "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
112346 956 Hf1-xMox Hf0.654Mo0.346 Hf 0.654 Mo 0.346 1970 A 3.391 K 2.92 2.92 MTC12346 "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
112347 956 Hf1-xMox Hf0.34Mo0.66 Hf 0.34 Mo 0.66 1970 A 3.254 K 1 1 "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
112348 956 Zr1-xMox Mo0.059Zr0.941 Mo 0.059 Zr 0.941 1970 A 3.567 K 4.15 4.15 MTC12348 "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
112349 956 Zr1-xMox Mo0.202Zr0.798 Mo 0.202 Zr 0.798 1970 A 3.492 K 5.25 5.25 "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
112350 956 Zr1-xMox Mo0.67Zr0.33 Mo 0.67 Zr 0.33 1970 A 3.262 K 1.56 1.56 "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
112351 956 Zr1-xMox Mo0.724Zr0.276 Mo 0.724 Zr 0.276 1970 K 1.08 "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
112352 956 ZrMo2 Mo2Zr1 Mo 2 Zr 1 1970 MgCu2(Laves) A 7.5888 "MgCu2, C15" K 0.35 arc-melting "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
112353 956 ZrW2 W2Zr1 W 2 Zr 1 1970 MgCu2(Laves) A 7.6187 "MgCu2, C15" K 0.35 arc-melting "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
112354 956 HfMo2 Hf1Mo2 Hf 1 Mo 2 1970 MgCu2(Laves) A 7.545 "MgCu2, C15" K 0.07 0.07 arc-melting "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
112355 956 HfW2 Hf1W2 Hf 1 W 2 1970 MgCu2(Laves) A 7.5825 "MgCu2, C15" K 0.35 arc-melting "Superconductivity and lattice parameters in the Zr-Mo, Zr-W, Hf-Mo, and Hf-W alloy systems" 1970 "J.LESS-COMMON METALS,21(1970)27"
112356 1058 Hf1-xRhx Hf0.96Rh0.04 Hf 0.96 Rh 0.04 1966 K 2.34 2.34 MTC12356 1966 "Z.PHYS.,197(1966)276"
112357 1058 Hf1-xRhx Hf0.9Rh0.1 Hf 0.9 Rh 0.1 1966 K 1.9 1.9 1966 "Z.PHYS.,197(1966)276"
112358 1058 Hf1-xRhx Hf0.8Rh0.2 Hf 0.8 Rh 0.2 1966 K 1.95 1.95 1966 "Z.PHYS.,197(1966)276"
112359 1456 "V3(Si,Ge)" V75Si20Ge5 V 75 Si 20 Ge 5 1973 K 12.15 12.15 arc-melting The structure and superconducting transitions of some pseudobinary 'beta-W' alloys 1973 "J.LOW TEMP.PHYS.,10(1973)285"
112360 1456 "V3(Si,Ge)" V75Si12.5Ge12.5 V 75 Si 12.5 Ge 12.5 1973 K 8.58 8.58 arc-melting The structure and superconducting transitions of some pseudobinary 'beta-W' alloys 1973 "J.LOW TEMP.PHYS.,10(1973)285"
112361 1456 "V3(Si,Ge)" V75Si5Ge20 V 75 Si 5 Ge 20 1973 K 6.76 6.76 arc-melting The structure and superconducting transitions of some pseudobinary 'beta-W' alloys 1973 "J.LOW TEMP.PHYS.,10(1973)285"
112362 1456 "V3(Ge,Sn)" V75Ge20Sn5 V 75 Ge 20 Sn 5 1973 K 5.46 5.46 arc-melting The structure and superconducting transitions of some pseudobinary 'beta-W' alloys 1973 "J.LOW TEMP.PHYS.,10(1973)285"
112363 1456 not s/c "V3(Ge,Sn)" V75Ge12.5Sn12.5 V 75 Ge 12.5 Sn 12.5 1973 K arc-melting The structure and superconducting transitions of some pseudobinary 'beta-W' alloys 1973 "J.LOW TEMP.PHYS.,10(1973)285"
112364 1456 not s/c "V3(Ge,Sn)" V75Ge5Sn20 V 75 Ge 5 Sn 20 1973 K arc-melting The structure and superconducting transitions of some pseudobinary 'beta-W' alloys 1973 "J.LOW TEMP.PHYS.,10(1973)285"
112365 1456 "V3(Ge,Sb)" V75Ge20Sb5 V 75 Ge 20 Sb 5 1973 K 5.86 5.86 arc-melting The structure and superconducting transitions of some pseudobinary 'beta-W' alloys 1973 "J.LOW TEMP.PHYS.,10(1973)285"
112366 1456 "V3(Ge,Sb)" V75Ge12.5Sb12.49 V 75 Ge 12.5 Sb 12.49 1973 K 4.71 4.71 arc-melting The structure and superconducting transitions of some pseudobinary 'beta-W' alloys 1973 "J.LOW TEMP.PHYS.,10(1973)285"
112367 1456 "V3(Si,Ga)" V75Si20Ga5 V 75 Si 20 Ga 5 1973 Cr3Si(A15) A 4.734 "Cr3Si, A15" K 12.33 12.33 as-melted The structure and superconducting transitions of some pseudobinary 'beta-W' alloys 1973 "J.LOW TEMP.PHYS.,10(1973)285"
112368 1456 "V3(Si,Ga)" V75Si12.5Ga12.5 V 75 Si 12.5 Ga 12.5 1973 Cr3Si(A15) A 4.755 "Cr3Si, A15" K 8.15 8.15 as-melted The structure and superconducting transitions of some pseudobinary 'beta-W' alloys 1973 "J.LOW TEMP.PHYS.,10(1973)285"
112369 1456 A15 + unknown phase "V3(Si,Ga)" V75Si5Ga20 V 75 Si 5 Ga 20 1973 Cr3Si(A15) A 4.795 "Cr3Si, A15" K 10.58 10.58 as-melted The structure and superconducting transitions of some pseudobinary 'beta-W' alloys 1973 "J.LOW TEMP.PHYS.,10(1973)285"
112370 1456 A15 + unknown phase "V3(Si,Ga)" V75Si2.57Ga22.4 V 75 Si 2.57 Ga 22.4 1973 Cr3Si(A15) A 4.82 "Cr3Si, A15" K 13.32 13.32 sintered The structure and superconducting transitions of some pseudobinary 'beta-W' alloys 1973 "J.LOW TEMP.PHYS.,10(1973)285"
112371 1311 not s/c PdHx H0.73Pd1 H 0.73 Pd 1 1972 K 1.17 1972 "PHYS.STAT.SOL.A,11(1972)K123"
112372 1311 PdHx H0.81Pd1 H 0.81 Pd 1 1972 K 1.21 1.21 1972 "PHYS.STAT.SOL.A,11(1972)K123"
112373 1311 PdHx H0.87Pd1 H 0.87 Pd 1 1972 K 2.95 2.95 1972 "PHYS.STAT.SOL.A,11(1972)K123"
112374 1311 Tc is Tc (on). Tc(mid) < 1.32. "(Pd,Ni)Hx" Pd0.985Ni0.015H0.75 Pd 0.985 Ni 0.015 H 0.75 1972 K 1.72 1.72 1972 "PHYS.STAT.SOL.A,11(1972)K123"
112375 1311 "(Pd,Ni)Hx" Pd0.985Ni0.015H0.79 Pd 0.985 Ni 0.015 H 0.79 1972 K 2.8 2.8 1972 "PHYS.STAT.SOL.A,11(1972)K123"
112376 1311 Tc(on) = 5.44 K. broad transition. "(Pd,Ni)Hx" Pd0.985Ni0.015H0.84 Pd 0.985 Ni 0.015 H 0.84 1972 K 2.52 2.52 1972 "PHYS.STAT.SOL.A,11(1972)K123"
112377 1311 not s/c "(Pd,Ni)Hx" Pd0.95Ni0.05H0.81 Pd 0.95 Ni 0.05 H 0.81 1972 K 1.17 1972 "PHYS.STAT.SOL.A,11(1972)K123"
112378 1311 Tc = Tc(on). Tc(mid) <1.21 "(Pd,Ni)Hx" Pd0.95Ni0.05H0.86 Pd 0.95 Ni 0.05 H 0.86 1972 K 1.49 1.49 1972 "PHYS.STAT.SOL.A,11(1972)K123"
112379 1311 "(Pd,Ni)Hx" Pd0.95Ni0.05H0.9 Pd 0.95 Ni 0.05 H 0.9 1972 K 2.95 2.95 1972 "PHYS.STAT.SOL.A,11(1972)K123"
112380 171 alpha-pase Ti1-xCrx Cr0.027Ti0.973 Cr 0.027 Ti 0.973 1960 K 3.5 3.5 MTC12380 1960 "J.APPL.PHYS.,31(1960)23S"
112381 171 beta-phase Ti1-xCrx Cr0.152Ti0.848 Cr 0.152 Ti 0.848 1960 K 4.18 4.18 1960 "J.APPL.PHYS.,31(1960)23S"
112382 171 alpha-pase Ti1-xMnx Mn0.025Ti0.975 Mn 0.025 Ti 0.975 1960 K 2.33 2.33 MTC12382 1960 "J.APPL.PHYS.,31(1960)23S"
112383 171 beta-phase Ti1-xMnx Mn0.101Ti0.899 Mn 0.101 Ti 0.899 1960 K 3 3 1960 "J.APPL.PHYS.,31(1960)23S"
112384 171 Ti1-xFex Fe0.025Ti0.975 Fe 0.025 Ti 0.975 1960 K 3.08 3.08 MTC12384 1960 "J.APPL.PHYS.,31(1960)23S"
112385 171 Ti1-xFex Fe0.101Ti0.899 Fe 0.101 Ti 0.899 1960 K 3.67 3.67 1960 "J.APPL.PHYS.,31(1960)23S"
112386 171 Ti1-xCox Co0.032Ti0.968 Co 0.032 Ti 0.968 1960 K 2.84 2.84 MTC12386 1960 "J.APPL.PHYS.,31(1960)23S"
112387 171 Ti1-xCox Co0.15Ti0.85 Co 0.15 Ti 0.85 1960 K 3.8 3.8 1960 "J.APPL.PHYS.,31(1960)23S"
112388 171 "(Y,Gd)Os2" Y0.96Gd0.04Ru2 Y 0.96 Gd 0.04 Ru 2 1960 K 3.5 3.5 MTC12388 1960 "J.APPL.PHYS.,31(1960)23S"
112389 171 "(Y,Gd)Os2" Y0.92Gd0.08Ru2 Y 0.92 Gd 0.08 Ru 2 1960 K 2.2 2.2 1960 "J.APPL.PHYS.,31(1960)23S"
112390 171 "(Ce,Gd)Ru2" Ce0.97Gd0.03Ru2 Ce 0.97 Gd 0.03 Ru 2 1960 K 4.69 4.69 MTC12390 1960 "J.APPL.PHYS.,31(1960)23S"
112391 171 "(Ce,Gd)Ru2" Ce0.93Gd0.07Ru2 Ce 0.93 Gd 0.07 Ru 2 1960 K 3.38 3.38 1960 "J.APPL.PHYS.,31(1960)23S"
112392 171 "(Ti,V)1-xFex" Ti0.6V0.4 Ti 0.6 V 0.4 1960 K 7.5 7.5 1960 "J.APPL.PHYS.,31(1960)23S"
112393 171 "(Ti,V)1-xFex" Ti0.588V0.392Fe0.02 Ti 0.588 V 0.392 Fe 0.02 1960 K 6.79 6.79 1960 "J.APPL.PHYS.,31(1960)23S"
112394 171 "(Ti,V)1-xFex" Ti0.576V0.384Fe0.04 Ti 0.576 V 0.384 Fe 0.04 1960 K 6.08 6.08 1960 "J.APPL.PHYS.,31(1960)23S"
112395 171 "(Ti,V)1-xFex" Ti0.564V0.376Fe0.06 Ti 0.564 V 0.376 Fe 0.06 1960 K 5.32 5.32 1960 "J.APPL.PHYS.,31(1960)23S"
112396 171 "(Ti,V)1-xRux" Ti0.588V0.392Ru0.02 Ti 0.588 V 0.392 Ru 0.02 1960 K 6.58 6.58 1960 "J.APPL.PHYS.,31(1960)23S"
112397 171 "(Ti,V)1-xRux" Ti0.576V0.384Ru0.04 Ti 0.576 V 0.384 Ru 0.04 1960 K 5.57 5.57 1960 "J.APPL.PHYS.,31(1960)23S"
112398 171 "(Ti,V)1-xRux" Ti0.564V0.376Ru0.06 Ti 0.564 V 0.376 Ru 0.06 1960 K 4.72 4.72 1960 "J.APPL.PHYS.,31(1960)23S"
112399 171 La La1 La 1 1960 K 6.23 6.23 1960 "J.APPL.PHYS.,31(1960)23S"
112400 171 La1-xErx Er0.03La0.97 Er 0.03 La 0.97 1960 K 4.49 4.49 MTC12400 1960 "J.APPL.PHYS.,31(1960)23S"
112401 171 La1-xErx Er0.08La0.92 Er 0.08 La 0.92 1960 K 1.43 1.43 1960 "J.APPL.PHYS.,31(1960)23S"
112402 171 La1-xNdx La0.98Nd0.02 La 0.98 Nd 0.02 1960 K 3.94 3.94 MTC12400 1960 "J.APPL.PHYS.,31(1960)23S"
112403 171 La1-xNdx La0.96Nd0.04 La 0.96 Nd 0.04 1960 K 1.69 1.69 1960 "J.APPL.PHYS.,31(1960)23S"
112404 1203 "(Nb,Ti)Nx" Nb0.96Ti0.04N0.9 Nb 0.96 Ti 0.04 N 0.9 1967 NaCl A 4.3806 "NaCl, B1" K 13.8 13.8 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112405 1203 "(Nb,Ti)Nx" Nb0.92Ti0.08N0.93 Nb 0.92 Ti 0.08 N 0.93 1967 NaCl A 4.3792 "NaCl, B1" K 15.2 15.2 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112406 1203 "(Nb,Ti)Nx" Nb0.75Ti0.25N0.94 Nb 0.75 Ti 0.25 N 0.94 1967 NaCl A 4.3583 "NaCl, B1" K 16.1 16.1 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112407 1203 "(Nb,Ti)Nx" Nb0.5Ti0.5N0.95 Nb 0.5 Ti 0.5 N 0.95 1967 NaCl A 4.3347 "NaCl, B1" K 15.1 15.1 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112408 1203 "(Nb,Ti)Nx" Nb0.35Ti0.65N0.97 Nb 0.35 Ti 0.65 N 0.97 1967 NaCl A 4.3194 "NaCl, B1" K 13.2 13.2 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112409 1203 "(Nb,Ti)Nx" Nb0.25Ti0.75N0.98 Nb 0.25 Ti 0.75 N 0.98 1967 NaCl A 4.3 "NaCl, B1" K 10.5 10.5 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112410 1203 "(Nb,Ti)Nx" Nb0.1Ti0.9N0.98 Nb 0.1 Ti 0.9 N 0.98 1967 NaCl A 4.2694 "NaCl, B1" K 6.48 6.48 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112411 1203 TiNx N0.99Ti1 N 0.99 Ti 1 1967 NaCl A 4.2472 "NaCl, B1" K 4.41 4.41 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112412 1203 "(Nb,Hf)Nx" Nb0.92Hf0.08N0.93 Nb 0.92 Hf 0.08 N 0.93 1967 NaCl A 4.4083 "NaCl, B1" K 13.7 13.7 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112413 1203 "(Nb,Hf)Nx" Nb0.85Hf0.15N0.94 Nb 0.85 Hf 0.15 N 0.94 1967 NaCl A 4.4194 "NaCl, B1" K 12.3 12.3 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112414 1203 "(Nb,Hf)Nx" Nb0.67Hf0.33N1 Nb 0.67 Hf 0.33 N 1 1967 NaCl A 4.4486 "NaCl, B1" K 10.2 10.2 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112415 1203 "(Nb,Hf)Nx" Nb0.5Hf0.5N0.98 Nb 0.5 Hf 0.5 N 0.98 1967 NaCl A 4.475 "NaCl, B1" K 7.33 7.33 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112416 1203 "(Nb,Hf)Nx" Nb0.35Hf0.65N1 Nb 0.35 Hf 0.65 N 1 1967 NaCl A 4.4917 "NaCl, B1" K 6.05 6.05 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112417 1203 "(Nb,Hf)Nx" Nb0.1Hf0.9N1 Nb 0.1 Hf 0.9 N 1 1967 NaCl A 4.5125 "NaCl, B1" K 5.47 5.47 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112418 1203 "(Nb,V)Nx" Nb0.95V0.05N0.85 Nb 0.95 V 0.05 N 0.85 1967 NaCl A 4.3736 "NaCl, B1" K 7.12 7.12 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112419 1203 "(Nb,V)Nx" Nb0.85V0.15N0.92 Nb 0.85 V 0.15 N 0.92 1967 NaCl A 4.3569 "NaCl, B1" K 3.88 3.88 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112420 1203 "(Nb,V)Nx" Nb0.67V0.33N0.94 Nb 0.67 V 0.33 N 0.94 1967 NaCl A 4.3278 "NaCl, B1" K 1.86 1.86 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112421 1203 "(Nb,V)Nx" Nb0.5V0.5N0.94 Nb 0.5 V 0.5 N 0.94 1967 NaCl A 4.2861 "NaCl, B1" K 1.86 1.86 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112422 1203 "(Nb,V)Nx" Nb0.25V0.75N0.94 Nb 0.25 V 0.75 N 0.94 1967 NaCl A 4.2236 "NaCl, B1" K 2.92 2.92 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112423 1203 "(Nb,V)Nx" N0.99V1 N 0.99 V 1 1967 NaCl A 4.1361 "NaCl, B1" K 7.91 7.91 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112424 1203 "(Nb,V)Nx" Nb0.85Zr0.15N1 Nb 0.85 Zr 0.15 N 1 1967 NaCl "NaCl, B1" K 13.7 13.7 MTC12424 "Superconducting Hc-Jc and Tc measurements in the Nb-Ti-N, Nb-Hf-N, and Nb-V-N ternary systems" 1967 "J.APPL.PHYS.,38(1967)2268"
112425 1304 Hg1-xSnx Hg0.06Sn0.94 Hg 0.06 Sn 0.94 1968 K 5.05 5.05 MTC12425 Superconductivity in the mercury-tin system 1968 "PHYS.STAT.SOL.,25(1968)K95"
112426 1482 Debye-T from other papers. 2*gap = 8.7 cm-1 from Far-InfraRed measurements. In1-xPbx In1 In 1 1971 K 3.4 3.4 110 Strong-coupling parameters in superconducting In-Pb alloys 1971 "PHYS.LETT.A,36(1971)431"
112427 1482 Debye-T from other papers. 2*gap = 9.7 cm-1 from Far-InfraRed measurements. In1-xPbx In0.95Pb0.05 In 0.95 Pb 0.05 1971 K 3.77 3.77 104.5 Strong-coupling parameters in superconducting In-Pb alloys 1971 "PHYS.LETT.A,36(1971)431"
112428 1482 2*gap = 12.9 cm-1 from Far-InfraRed measurements. In1-xPbx In0.9Pb0.1 In 0.9 Pb 0.1 1971 K 4.51 4.51 Strong-coupling parameters in superconducting In-Pb alloys 1971 "PHYS.LETT.A,36(1971)431"
112429 1482 2*gap = 14.8 cm-1 from Far-InfraRed measurements. In1-xPbx In0.85Pb0.15 In 0.85 Pb 0.15 1971 K 5.1 5.1 Strong-coupling parameters in superconducting In-Pb alloys 1971 "PHYS.LETT.A,36(1971)431"
112430 1482 2*gap = 16.8 cm-1 from Far-InfraRed measurements. In1-xPbx In0.75Pb0.25 In 0.75 Pb 0.25 1971 K 5.65 5.65 Strong-coupling parameters in superconducting In-Pb alloys 1971 "PHYS.LETT.A,36(1971)431"
112431 1482 Debye-T from other papers. 2*gap = 18.8 cm-1 from Far-InfraRed measurements. In1-xPbx In0.6Pb0.4 In 0.6 Pb 0.4 1971 K 6.2 6.2 78.7 Strong-coupling parameters in superconducting In-Pb alloys 1971 "PHYS.LETT.A,36(1971)431"
112432 1482 Debye-T from other papers. 2*gap = 20.0 cm-1 from Far-InfraRed measurements. In1-xPbx In0.5Pb0.5 In 0.5 Pb 0.5 1971 K 6.43 6.43 82.2 Strong-coupling parameters in superconducting In-Pb alloys 1971 "PHYS.LETT.A,36(1971)431"
112433 1482 Debye-T from other papers. 2*gap = 21.0 cm-1 from Far-InfraRed measurements. In1-xPbx In0.2Pb0.8 In 0.2 Pb 0.8 1971 K 6.95 6.95 97.5 Strong-coupling parameters in superconducting In-Pb alloys 1971 "PHYS.LETT.A,36(1971)431"
112434 1482 Debye-T from other papers. 2*gap = 21.5 cm-1 from Far-InfraRed measurements. Pb Pb1 Pb 1 1971 K 7.19 7.19 104.1 Strong-coupling parameters in superconducting In-Pb alloys 1971 "PHYS.LETT.A,36(1971)431"
112435 1722 HfV2 Hf1V2 Hf 1 V 2 1973 K 8.85 8.85 K/GPa 0.63 "arc-melting, ANN(100C)" "Superconductivity and structural instability of (Hf,Zr)V2 and (Hf,Ta)V2 alloys at high pressure" 1973 "J.PHYS.F:METAL PHYS.,3(1973)2157"
112436 1722 "(Hf,Ta)V2" Hf0.99Ta0.01V2 Hf 0.99 Ta 0.01 V 2 1973 K 9.11 9.11 K/GPa 0.66 "arc-melting, ANN(100C)" "Superconductivity and structural instability of (Hf,Zr)V2 and (Hf,Ta)V2 alloys at high pressure" 1973 "J.PHYS.F:METAL PHYS.,3(1973)2157"
112437 1722 "(Hf,Ta)V2" Hf0.95Ta0.05V2 Hf 0.95 Ta 0.05 V 2 1973 K 9.49 9.49 K/GPa 0.53 "arc-melting, ANN(100C)" "Superconductivity and structural instability of (Hf,Zr)V2 and (Hf,Ta)V2 alloys at high pressure" 1973 "J.PHYS.F:METAL PHYS.,3(1973)2157"
112438 1722 "(Hf,Ta)V2" Hf0.9Ta0.1V2 Hf 0.9 Ta 0.1 V 2 1973 K 9.49 9.49 K/GPa 0.39 "arc-melting, ANN(100C)" "Superconductivity and structural instability of (Hf,Zr)V2 and (Hf,Ta)V2 alloys at high pressure" 1973 "J.PHYS.F:METAL PHYS.,3(1973)2157"
112439 1722 "(Hf,Ta)V2" Hf0.8Ta0.2V2 Hf 0.8 Ta 0.2 V 2 1973 K 9.54 9.54 K/GPa 0.27 "arc-melting, ANN(100C)" "Superconductivity and structural instability of (Hf,Zr)V2 and (Hf,Ta)V2 alloys at high pressure" 1973 "J.PHYS.F:METAL PHYS.,3(1973)2157"
112440 1722 "(Hf,Ta)V2" Hf0.8Zr0.2V2 Hf 0.8 Zr 0.2 V 2 1973 K 9.73 9.73 K/GPa 0.48 "arc-melting, ANN(100C)" "Superconductivity and structural instability of (Hf,Zr)V2 and (Hf,Ta)V2 alloys at high pressure" 1973 "J.PHYS.F:METAL PHYS.,3(1973)2157"
112441 1722 "(Hf,Ta)V2" Hf0.6Zr0.4V2 Hf 0.6 Zr 0.4 V 2 1973 K 9.97 9.97 K/GPa 0.3 "arc-melting, ANN(100C)" "Superconductivity and structural instability of (Hf,Zr)V2 and (Hf,Ta)V2 alloys at high pressure" 1973 "J.PHYS.F:METAL PHYS.,3(1973)2157"
112442 1722 "(Hf,Ta)V2" Hf0.4Zr0.6V2 Hf 0.4 Zr 0.6 V 2 1973 K 8.98 8.98 K/GPa 0.036 "arc-melting, ANN(100C)" "Superconductivity and structural instability of (Hf,Zr)V2 and (Hf,Ta)V2 alloys at high pressure" 1973 "J.PHYS.F:METAL PHYS.,3(1973)2157"
112443 1722 "(Hf,Ta)V2" Hf0.2Zr0.8V2 Hf 0.2 Zr 0.8 V 2 1973 K 8.85 8.85 K/GPa -0.018 "arc-melting, ANN(100C)" "Superconductivity and structural instability of (Hf,Zr)V2 and (Hf,Ta)V2 alloys at high pressure" 1973 "J.PHYS.F:METAL PHYS.,3(1973)2157"
112444 1722 ZrV2 V2Zr1 V 2 Zr 1 1973 K 7.83 7.83 K/GPa 0.024 "arc-melting, ANN(100C)" "Superconductivity and structural instability of (Hf,Zr)V2 and (Hf,Ta)V2 alloys at high pressure" 1973 "J.PHYS.F:METAL PHYS.,3(1973)2157"
112445 P070064519 "majority phase = 3R-Ta2S2C, minority = 1T-Ta2S2C. s/c parameters were calculated from Hc1(0) and Hc2(0). G-L parameter = 20.5" Ta2S2C Ta2S2C2 Ta 2 S 2 C 2 2004 A 3.276 25.62 K 3.61 3.61 Oe 27.7 kOe 7.73 kOe/K 2.5 A 210 A 4200 Successive superconducting transitions and Anderson localization effect in Ta2S2C 2004 "Department of Materials Science and Processing, Graduate School of Engineering, Osaka University, Yamada-oka, Suita, 565-0879, Japan" "Phys.Rev.B, 70(2004)064519"
112446 P070052511 space-G = Cmcm. impurity phase = Ge. Exact Ge-content not known. RRR=47.6. LuGe2 Ge2Lu1 Ge 2 Lu 1 2004 ZrSi2 A 3.969 15.553 3.839 K 2.6 2.6 "arc-melting + ANN(1000C,2h, in Ar)" Superconductivity in LuGe2 2004 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 621, Taiwan, Republic of China" "Phys.Rev.B, 70(2004)052511"
112447 SST0170274 space-G = Pm3m. RRR=40. ZnCNi3 Zn1C1Ni3 Zn 1 C 1 Ni 3 2004 CaTiO3 A 3.66 "CaTiO3, perovskite" K 2 mj/mol.K2 6.77 421.3 "solid state reaction(900C, 1000C)" Physical properties of ZnCNi3: comparison with superconducting MgCNi3 2004 "National Creative Research Initiative Centre for Superconductivity and Department of Physics, Pohang University of Science and Technology, Pohang 790-784, Republic of Korea" "Supercond.Sci.Technol., 17(2004)274"
112448 SST0170274 space-G = Pm3m. RRR=2. MgCNi3 Mg1C1Ni3 Mg 1 C 1 Ni 3 2004 CaTiO3 A 3.81 "CaTiO3, perovskite" K 6.7 6.7 mj/mol.K2 29.5 255.9 "solid state reaction(900C, 1000C)" Physical properties of ZnCNi3: comparison with superconducting MgCNi3 2004 "National Creative Research Initiative Centre for Superconductivity and Department of Physics, Pohang University of Science and Technology, Pohang 790-784, Republic of Korea" "Supercond.Sci.Technol., 17(2004)274"
112449 APL085TKN "<111>oriented film. B-concentration, carrier density not given. Hirr(0K) = 5.12 T. Jc(H=0,T=0) = 200 A/cm2." diamond C C 1 2004 diamond diamond K 7.4 7.4 T 7 deposited on Si(001) substrate using MPCVD method Superconductivity in diamond thin films well above liquid helium temperature 2004 "National Institute for Materials Science,Sengen,Tsukuba,Japan" "Appl.Phys.Lett., 85(2004)No14"
112450 NAT4280542 B-doped diamond. carrier n>=2 E+21 /cm3. B-concentration from ICP and NMR shows 2.8 at % B. diamond B2.8C97.2 B 2.8 C 97.2 2004 diamond diamond K 4 4 K/GPa -0.0642 T 3.4 T/K 1.7 A 100 "(graphite+B4C) - high pressure synthesis(8-9 GPa,2500-2800K)" Superconductivity in diamond 2004 "Vereshchagin Institute for High Pressure Physics, Russian Academy of Sciences, 142190 Troitsk, Moscow region, Russia" "Nature, 428(2004)542"
112451 PR0468671 space-G = P6/mmm. Hc2(0) calculated using WHH theory. UNi2Al3 U1Ni2Al3 U 1 Ni 2 Al 3 1 1992 4.6 PrNi2Al3 A 5.217 4.024 K 1.02 1.02 kOe 9.1 kOe/K 13 MHC12451 A 190 "arc-melting + ANN(1000C,8d)" "Superconducting and magnetic properties of the heavy-fermion compounds UT2Al3 (T=Ni,Pd)" 1992 "Department of Physics and Institute for Pure and Applied Physical Science, University of California,San Diego,La Jolla,California" "Phys.Rev.B, 46(1992)8671"
112452 PR0468671 space-G = P6/mmm. Hc2(0) calculated using WHH + Maki theory. (spin-orbit) = 0.37 UPd2Al3 U1Pd2Al3 U 1 Pd 2 Al 3 1 1992 15 PrNi2Al3 A 5.419 4.052 K 1.93 1.93 kOe 57.5 kOe/K 43 MHC12452 A 77 "arc-melting + ANN(900C,8d)" "Superconducting and magnetic properties of the heavy-fermion compounds UT2Al3 (T=Ni,Pd)" 1992 "Department of Physics and Institute for Pure and Applied Physical Science, University of California,San Diego,La Jolla,California" "Phys.Rev.B, 46(1992)8671"
112453 L093097001 thickness = 2000A. Tc depends on the current direction. Tc(I//c) = 0.93 K. UNi2Al3 U1Ni2Al3 U 1 Ni 2 Al 3 3 2004 5 A 5.211 5.221 4.017 K 0.98 0.98 MHC12453 coevaporation on (010)YAlO3 Evidence for Multiband Superconductivity in the Heavy Fermion Compound UNi2Al3 2004 "Institut fur Physik, Johannes Gutenberg-Universitat, Staudingerweg 7, 55128 Mainz, Germany" "Phys.Rev.Lett., 93(2004)097001"
112454 L093126403 P-induced s/c. Pcr = 13 GPa. Tc and dTc/dP are at P = Pcr. Hc2(0) and COHERE are at P=20 GPa. cluster compound. GaNb4Se8 Ga1Nb4Se8 Ga 1 Nb 4 Se 8 2004 A 10.44 K 2.9 2.9 K/GPa 0.4 T 1.7 A 130 Transition from Mott Insulator to Superconductor in GaNb4Se8 and GaTa4Se8 under High Pressure 2004 " Physikalisches Institut, Universitat zu Koln, Zulpicher Strasse 77, 50937 Koln, Germany" "Phys.Rev.Lett., 93(2004)126403"
112455 L093126403 P-induced s/c. Pcr = 11.5 GPa. Tc and dTc/dP are at P = Pcr. Hc2(0) and COHERE are at P=17 GPa. cluster compound. GaTa4Se8 Ga1Ta4Se8 Ga 1 Ta 4 Se 8 2004 A 10.358 K 5.8 5.8 K/GPa 0.2 T 8 A 61 Transition from Mott Insulator to Superconductor in GaNb4Se8 and GaTa4Se8 under High Pressure 2004 " Physikalisches Institut, Universitat zu Koln, Zulpicher Strasse 77, 50937 Koln, Germany" "Phys.Rev.Lett., 93(2004)126403"
112456 1493 Hc2 defined as Tc(on). G-L parameter = 6.11 "La1-x(Lu,Tb)x" La98Lu2 La 98 Lu 2 1973 K 4.643 4.643 kOe 10 "melt,swaging, wire, ANN" Superconductivity in the presence of short-range magnetic order 1973 "J.LOW TEMP.PHYS.,12(1973)171"
112457 1493 Hc2 defined as Tc(on). G-L parameter = 5.69 "La1-x(Lu,Tb)x" La98Lu1.7Tb0.3 La 98 Lu 1.7 Tb 0.3 1973 K 3.959 3.959 kOe 6.2 "melt,swaging, wire, ANN" Superconductivity in the presence of short-range magnetic order 1973 "J.LOW TEMP.PHYS.,12(1973)171"
112458 1493 Hc2 defined as Tc(on). G-L parameter = 6.12 "La1-x(Lu,Tb)x" La98Lu1.4Tb0.6 La 98 Lu 1.4 Tb 0.6 1973 K 3.127 3.127 kOe 2.4 "melt,swaging, wire, ANN" Superconductivity in the presence of short-range magnetic order 1973 "J.LOW TEMP.PHYS.,12(1973)171"
112459 1493 G-L parameter = 4.91 "La1-x(Lu,Tb)x" La98Lu0.934Tb1.066 La 98 Lu 0.934 Tb 1.066 1973 K 1.608 1.608 "melt,swaging, wire, ANN" Superconductivity in the presence of short-range magnetic order 1973 "J.LOW TEMP.PHYS.,12(1973)171"
112460 1493 G-L parameter = 4.69 "La1-x(Lu,Tb)x" La98Lu0.877Tb1.123 La 98 Lu 0.877 Tb 1.123 1973 K 1.602 1.602 "melt,swaging, wire, ANN" Superconductivity in the presence of short-range magnetic order 1973 "J.LOW TEMP.PHYS.,12(1973)171"
112461 1493 G-L parameter = 4.62 "La1-x(Lu,Tb)x" La98Lu0.815Tb1.185 La 98 Lu 0.815 Tb 1.185 1973 K 1.248 1.248 "melt,swaging, wire, ANN" Superconductivity in the presence of short-range magnetic order 1973 "J.LOW TEMP.PHYS.,12(1973)171"
112462 1493 G-L parameter = 4.71 "La1-x(Lu,Tb)x" La98Lu0.754Tb1.246 La 98 Lu 0.754 Tb 1.246 1973 K 0.907 0.907 "melt,swaging, wire, ANN" Superconductivity in the presence of short-range magnetic order 1973 "J.LOW TEMP.PHYS.,12(1973)171"
112463 1493 G-L parameter = 4.46 "La1-x(Lu,Tb)x" La98Lu0.697Tb1.303 La 98 Lu 0.697 Tb 1.303 1973 K 0.632 0.632 "melt,swaging, wire, ANN" Superconductivity in the presence of short-range magnetic order 1973 "J.LOW TEMP.PHYS.,12(1973)171"
112464 1271 Hc2 defined as Tc(on). "La1-x(Lu,Tb)x" La98Lu1.15Tb0.85 La 98 Lu 1.15 Tb 0.85 1970 K 2.582 2.582 kOe 1.38 Coexistence of superconductivity and short-range magnetic order 1970 "PHYS.REV.B,2(1970)1287"
112465 1271 Hc2 defined as Tc(on). "La1-x(Lu,Tb)x" La98Lu1Tb1 La 98 Lu 1 Tb 1 1970 K 2.108 2.108 kOe 0.82 Coexistence of superconductivity and short-range magnetic order 1970 "PHYS.REV.B,2(1970)1287"
112466 1201 Sn1-xInx In0.017Sn0.983 In 0.017 Sn 0.983 1965 K 3.625 3.625 G/K 150 "melt, quench, ANN" Nonideal behaviour of inhomogeneous superconducting alloys 1965 "J.APPL.PHYS.,36(1965)3895"
112467 1201 Sn1-xInx In0.046Sn0.954 In 0.046 Sn 0.954 1965 K 3.655 3.655 G/K 193 "melt, quench, ANN" Nonideal behaviour of inhomogeneous superconducting alloys 1965 "J.APPL.PHYS.,36(1965)3895"
112468 1201 Sn1-xInx In0.075Sn0.925 In 0.075 Sn 0.925 1965 K 3.766 3.766 G/K 265 "melt, quench, ANN" Nonideal behaviour of inhomogeneous superconducting alloys 1965 "J.APPL.PHYS.,36(1965)3895"
112469 1201 Sn1-xAlx Al0.152Sn0.848 Al 0.152 Sn 0.848 1965 K 3.677 3.677 G/K 152 "melt, quench, ANN" Nonideal behaviour of inhomogeneous superconducting alloys 1965 "J.APPL.PHYS.,36(1965)3895"
112470 SSC0140443 A15 + hexagonal phase "Mo1-x(Pt,Re)x" Mo0.75Pt0.15Re0.1 Mo 0.75 Pt 0.15 Re 0.1 1974 Cr3Si(A15) A 4.986 "Cr3Si, A15" K 5.3 5.3 "ANN(1600C,48h)" Electronically 'ATYPICAL' A15-type compounds based on chromium and molybdenum 1974 "Solid State Commun., 14(1974)443"
112471 SSC0140443 A15 + A2 phase "Mo1-x(Pt,Re)x" Mo0.7Pt0.075Re0.225 Mo 0.7 Pt 0.075 Re 0.225 1974 Cr3Si(A15) A 4.98 "Cr3Si, A15" K 7.4 7.4 "ANN(1600C,48h)" Electronically 'ATYPICAL' A15-type compounds based on chromium and molybdenum 1974 "Solid State Commun., 14(1974)443"
112472 SSC0140443 A15 + hexagonal phase "Mo1-x(Pt,Re)x" Mo0.65Pt0.1Re0.25 Mo 0.65 Pt 0.1 Re 0.25 1974 Cr3Si(A15) A 4.978 "Cr3Si, A15" K 7.4 7.4 "ANN(1600C,48h)" Electronically 'ATYPICAL' A15-type compounds based on chromium and molybdenum 1974 "Solid State Commun., 14(1974)443"
112473 SSC0140443 A15 + A2 phase "Mo1-x(Pt,Re)x" Mo0.65Pt0.05Re0.3 Mo 0.65 Pt 0.05 Re 0.3 1974 Cr3Si(A15) A 4.977 "Cr3Si, A15" K 8.9 8.9 "ANN(1600C,48h)" Electronically 'ATYPICAL' A15-type compounds based on chromium and molybdenum 1974 "Solid State Commun., 14(1974)443"
112474 SSC0140443 A15 + hexagonal phase "Mo1-x(Pt,Re)x" Mo0.6Pt0.1Re0.3 Mo 0.6 Pt 0.1 Re 0.3 1974 Cr3Si(A15) A 4.975 "Cr3Si, A15" K 8.5 8.5 "ANN(1600C,48h)" Electronically 'ATYPICAL' A15-type compounds based on chromium and molybdenum 1974 "Solid State Commun., 14(1974)443"
112475 SSC0140443 single phase "Mo1-x(Pt,Re)x" Mo0.6Pt0.05Re0.35 Mo 0.6 Pt 0.05 Re 0.35 1 1974 Cr3Si(A15) A 4.974 "Cr3Si, A15" K 9.8 9.8 "ANN(1600C,48h)" Electronically 'ATYPICAL' A15-type compounds based on chromium and molybdenum 1974 "Solid State Commun., 14(1974)443"
112476 SSC0140443 "A15 + hexagonal, sigma phase" "Mo1-x(Pt,Re)x" Mo0.35Pt0.075Re0.375 Mo 0.35 Pt 0.075 Re 0.375 1974 Cr3Si(A15) A 4.973 "Cr3Si, A15" K 10.6 10.6 "ANN(1600C,48h)" Electronically 'ATYPICAL' A15-type compounds based on chromium and molybdenum 1974 "Solid State Commun., 14(1974)443"
112477 SSC0140443 A15 + sigma phase "Mo1-x(Pt,Re)x" Mo0.55Pt0.05Re0.4 Mo 0.55 Pt 0.05 Re 0.4 1974 Cr3Si(A15) A 4.973 "Cr3Si, A15" K 10.2 10.2 "ANN(1600C,48h)" Electronically 'ATYPICAL' A15-type compounds based on chromium and molybdenum 1974 "Solid State Commun., 14(1974)443"
112478 SSC0140443 A15 + alpha phase "Mo1-x(Pt,Re)x" Mo0.55Pt0.05Re0.425 Mo 0.55 Pt 0.05 Re 0.425 1974 Cr3Si(A15) "Cr3Si, A15" K 11.25 11.25 "ANN(1600C,48h)" Electronically 'ATYPICAL' A15-type compounds based on chromium and molybdenum 1974 "Solid State Commun., 14(1974)443"
112479 SSC0140443 "Mo1-x(Pt,Re)x" Mo0.5Pt0.05Re0.45 Mo 0.5 Pt 0.05 Re 0.45 1 1974 sigma-phase K 5.32 5.32 "ANN(1600C,48h)" Electronically 'ATYPICAL' A15-type compounds based on chromium and molybdenum 1974 "Solid State Commun., 14(1974)443"
112480 SSC0140443 "Mo1-x(Pt,Re)x" Mo0.5Re0.5 Mo 0.5 Re 0.5 1 1974 sigma-phase K 6.5 6.5 "ANN(1600C,48h)" Electronically 'ATYPICAL' A15-type compounds based on chromium and molybdenum 1974 "Solid State Commun., 14(1974)443"
112481 1118 Ir1-xRhx Ir0.7Os0.3 Ir 0.7 Os 0.3 1971 K 0.0167 0.0167 MTC12481 arc-melting Toward the superconductivity of rhodium 1971 "PHYS.LETT.A,34(1971)160"
112482 1118 Os1-xRhx Os0.32Rh0.68 Os 0.32 Rh 0.68 1971 K 0.0376 0.0376 MTC12482 Toward the superconductivity of rhodium 1971 "PHYS.LETT.A,34(1971)160"
112483 454 Y1-xRhx Rh0.8Y0.2 Rh 0.8 Y 0.2 1964 K 1.18 1.18 MTC12483 Superconductivity in the Y-Rh and Y-Ir systems 1964 "REV.MOD.PHYS.,36(1964)155"
112484 454 Y1-xIrx Ir0.8Y0.2 Ir 0.8 Y 0.2 1964 K 3.66 3.66 MTC12484 Superconductivity in the Y-Rh and Y-Ir systems 1964 "REV.MOD.PHYS.,36(1964)155"
112485 1050 Sn1-x(InSb)x Sn99.2In0.4Sb0.4 Sn 99.2 In 0.4 Sb 0.4 1963 K 3.669 3.669 MTC12485 Superconductivity of the first and second kind in tin alloys 1963 "CRYOGENICS,3(1963)225"
112486 1050 Sn1-x(InSb)x Sn93In3.5Sb3.5 Sn 93 In 3.5 Sb 3.5 1963 K 3.743 3.743 Superconductivity of the first and second kind in tin alloys 1963 "CRYOGENICS,3(1963)225"
112487 1050 Sn1-xInx In3Sn97 In 3 Sn 97 1963 K 3.628 3.628 MTC12487 Superconductivity of the first and second kind in tin alloys 1963 "CRYOGENICS,3(1963)225"
112488 1050 Sn1-xInx In6Sn94 In 6 Sn 94 1963 K 3.644 3.644 Superconductivity of the first and second kind in tin alloys 1963 "CRYOGENICS,3(1963)225"
112489 768 Th1-xTmx Th1 Th 1 1968 K 1.37 1.37 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112490 768 Th1-xTmx Th90.9Tm9.1 Th 90.9 Tm 9.1 1968 K 1.07 1.07 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112491 768 Th1-xTmx Th81.3Tm18.7 Th 81.3 Tm 18.7 1968 K 0.97 0.97 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112492 768 Th1-xTmx Th70.2Tm29.8 Th 70.2 Tm 29.8 1968 K 0.67 0.67 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112493 768 Th1-xPrx Pr0.102Th0.898 Pr 0.102 Th 0.898 1968 K 0.95 0.95 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112494 768 Th1-xPrx Pr0.179Th0.821 Pr 0.179 Th 0.821 1968 K 0.75 0.75 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112495 768 Th1-xPrx Pr0.251Th0.749 Pr 0.251 Th 0.749 1968 K 0.53 0.53 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112496 768 Th1-xPrx Pr0.342Th0.658 Pr 0.342 Th 0.658 1968 K 0.32 0.32 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112497 768 LaTl3 La1Tl3 La 1 Tl 3 1968 K 1.5 1.5 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112498 768 La1-xPrxTl3 La0.967Pr0.033Tl3 La 0.967 Pr 0.033 Tl 3 1968 K 1.16 1.16 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112499 768 La1-xPrxTl3 La0.93Pr0.07Tl3 La 0.93 Pr 0.07 Tl 3 1968 K 0.8 0.8 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112500 768 La1-xPrxTl3 La0.901Pr0.099Tl3 La 0.901 Pr 0.099 Tl 3 1968 K 0.55 0.55 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112501 768 LaSn3 La1Sn3 La 1 Sn 3 1968 K 6.55 6.55 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112502 768 La1-xTmxSn3 La0.962Tm0.038Sn3 La 0.962 Tm 0.038 Sn 3 1968 K 5.49 5.49 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112503 768 La1-xTmxSn3 La0.908Tm0.092Sn3 La 0.908 Tm 0.092 Sn 3 1968 K 4.18 4.18 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112504 768 not s/c La1-xPrxSn3 La0.978Pr0.022Sn3 La 0.978 Pr 0.022 Sn 3 1968 K 0.28 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112505 768 LaPb3 La1Pb3 La 1 Pb 3 1968 K 4.09 4.09 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112506 768 La1-xPrxPb3 La0.95Pr0.05Pb3 La 0.95 Pr 0.05 Pb 3 1968 K 3.3 3.3 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112507 768 La1-xPrxPb3 La0.9Pr0.1Pb3 La 0.9 Pr 0.1 Pb 3 1968 K 2.58 2.58 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112508 768 La1-xPrxPb3 La0.85Pr0.15Pb3 La 0.85 Pr 0.15 Pb 3 1968 K 1.88 1.88 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112509 768 La1-xPrxPb3 La0.8Pr0.2Pb3 La 0.8 Pr 0.2 Pb 3 1968 K 1.34 1.34 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112510 768 La1-xPrxPb3 La0.75Pr0.25Pb3 La 0.75 Pr 0.25 Pb 3 1968 K 0.8 0.8 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112511 768 La1-xPrxPb3 La0.7Pr0.3Pb3 La 0.7 Pr 0.3 Pb 3 1968 K 0.37 0.37 Superconductors with magnetic impurities in a singlet ground state 1968 "HELV.PHYS.ACTA,41(1968)723"
112512 PR1650522 6N-pure Al wire. H0 = 104.93 G. Al Al1 Al 1 1968 fcc K 1.1793 1.1793 mj/mol.K2 1.349 "ANN(633C, 20h, in CO2)" Critical field of superconducting aluminum as a function of pressure and temperature above 0.3 K 1968 "Phys.Rev., 165(1968)522"
112513 1156 ANN sample. Tl1-xInx In0.1Tl0.9 In 0.1 Tl 0.9 1967 hcp K 2.97 2.97 induction melting in Al crucible Superconducting transitions in body-centered cubic thallium-indium alloys 1967 "PHYS.REV.,154(1967)436"
112514 1156 ANN sample. Tl1-xInx In0.17Tl0.83 In 0.17 Tl 0.83 1967 hcp K 3.45 3.45 induction melting in Al crucible Superconducting transitions in body-centered cubic thallium-indium alloys 1967 "PHYS.REV.,154(1967)436"
112515 1156 ANN sample. Tl1-xInx In0.25Tl0.75 In 0.25 Tl 0.75 1967 hcp K 3.64 3.64 induction melting in Al crucible Superconducting transitions in body-centered cubic thallium-indium alloys 1967 "PHYS.REV.,154(1967)436"
112516 1156 ANN sample. Tl1-xInx In0.4Tl0.6 In 0.4 Tl 0.6 1967 fcc K 2.52 2.52 induction melting in Al crucible Superconducting transitions in body-centered cubic thallium-indium alloys 1967 "PHYS.REV.,154(1967)436"
112517 1156 ANN sample. Tl1-xInx In0.45Tl0.55 In 0.45 Tl 0.55 1967 fcc K 2.48 2.48 induction melting in Al crucible Superconducting transitions in body-centered cubic thallium-indium alloys 1967 "PHYS.REV.,154(1967)436"
112518 1156 ANN sample. Tl1-xInx Tl1 Tl 1 1967 K 2.39 2.39 induction melting in Al crucible Superconducting transitions in body-centered cubic thallium-indium alloys 1967 "PHYS.REV.,154(1967)436"
112519 1255 d=11000A film. 5-10 % dhcp phase. RRR=3.63. gap(0)=1.526 meV. gap by tunneling. La La1 La 1 1967 fcc K 4.94 4.94 3.58 1 evaporation on slide glass Electron tunneling measurements on lanthanum and lanthanum-lutetium alloy films 1967 "PHYS.REV.,164(1967)510"
112520 1255 d=2200A film. RRR=1.78. gap(0)=0.980 meV. gap by tunneling. La1-xLux La0.91Lu0.09 La 0.91 Lu 0.09 1967 dhcp K 3.28 3.28 3.43 1 evaporation on slide glass Electron tunneling measurements on lanthanum and lanthanum-lutetium alloy films 1967 "PHYS.REV.,164(1967)510"
112521 1255 d=1600A film. RRR=1.33. gap(0)=1.290 meV. gap by tunneling. La1-xLux La0.951Lu0.049 La 0.951 Lu 0.049 1967 dhcp K 4.37 4.37 3.43 1 evaporation on slide glass Electron tunneling measurements on lanthanum and lanthanum-lutetium alloy films 1967 "PHYS.REV.,164(1967)510"
112522 963 Ir Ir1 Ir 1 1968 K 0.11 0.11 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112523 963 Ir1-xRex Ir0.96Re0.04 Ir 0.96 Re 0.04 1968 K 0.142 0.142 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112524 963 Ir1-xRex Ir0.93Re0.07 Ir 0.93 Re 0.07 1968 K 0.22 0.22 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112525 963 Ir1-xRex Ir0.9Re0.1 Ir 0.9 Re 0.1 1968 K 0.34 0.34 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112526 963 Ir1-xRex Ir0.8Re0.2 Ir 0.8 Re 0.2 1968 K 0.66 0.66 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112527 963 Ir1-xRex Ir0.7Re0.3 Ir 0.7 Re 0.3 1968 K 1.7 1.7 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112528 963 Ir1-xRex Ir0.95Re0.02 Ir 0.95 Re 0.02 1968 K 0.112 0.112 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112529 963 Ir1-xRex Ir0.55Re0.15 Ir 0.55 Re 0.15 1968 K 0.61 0.61 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112530 963 Ir1-xOsx Ir0.7Os0.3 Ir 0.7 Os 0.3 1968 K 0.48 0.48 mj/mol.K2 6.82 410 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112531 963 Ir1-xOsx Ir0.6Os0.4 Ir 0.6 Os 0.4 1968 K 0.73 0.73 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112532 963 Ir1-xMox Ir0.987Mo0.013 Ir 0.987 Mo 0.013 1968 K 0.107 0.107 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112533 963 Ir1-xMox Ir0.973Mo0.027 Ir 0.973 Mo 0.027 1968 K 0.133 0.133 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112534 963 Ir1-xMox Ir0.953Mo0.047 Ir 0.953 Mo 0.047 1968 K 0.168 0.168 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112535 963 Ir1-xMox Ir0.9Mo0.1 Ir 0.9 Mo 0.1 1968 K 0.29 0.29 mj/mol.K2 5 470 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112536 963 Ir1-xMox Ir0.82Mo0.18 Ir 0.82 Mo 0.18 1968 K 0.5 0.5 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112537 963 Ir1-xWx Ir0.987W0.013 Ir 0.987 W 0.013 1968 K 0.107 0.107 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112538 963 Ir1-xWx Ir0.973W0.027 Ir 0.973 W 0.027 1968 K 0.125 0.125 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112539 963 Ir1-xWx Ir0.953W0.047 Ir 0.953 W 0.047 1968 K 0.162 0.162 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112540 963 Ir1-xWx Ir0.9W0.1 Ir 0.9 W 0.1 1968 K 0.23 0.23 mj/mol.K2 6.1 417 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112541 963 Ir1-xWx Ir0.85W0.15 Ir 0.85 W 0.15 1968 K 0.41 0.41 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112542 963 Ir1-xVx Ir0.99V0.01 Ir 0.99 V 0.01 1968 K 0.11 0.11 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112543 963 Ir1-xVx Ir0.98V0.02 Ir 0.98 V 0.02 1968 K 0.115 0.115 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112544 963 Ir1-xVx Ir0.965V0.035 Ir 0.965 V 0.035 1968 K 0.147 0.147 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112545 963 Ir1-xVx Ir0.85V0.15 Ir 0.85 V 0.15 1968 K 0.26 0.26 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112546 963 Ir1-xNbx Ir0.99Nb0.01 Ir 0.99 Nb 0.01 1968 K 0.102 0.102 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112547 963 Ir1-xNbx Ir0.98Nb0.02 Ir 0.98 Nb 0.02 1968 K 0.115 0.115 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112548 963 Ir1-xNbx Ir0.965Nb0.035 Ir 0.965 Nb 0.035 1968 K 0.138 0.138 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112549 963 Ir1-xNbx Ir0.925Nb0.075 Ir 0.925 Nb 0.075 1968 K 0.172 0.172 mj/mol.K2 6.5 416 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112550 963 Ir1-xNbx Ir0.9Nb0.1 Ir 0.9 Nb 0.1 1968 K 0.06 0.06 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112551 963 Ir1-xTax Ir0.99Ta0.01 Ir 0.99 Ta 0.01 1968 bcc K 0.116 0.116 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112552 963 Ir1-xTax Ir0.97Ta0.03 Ir 0.97 Ta 0.03 1968 bcc K 0.127 0.127 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112553 963 Ir1-xTax Ir0.94Ta0.06 Ir 0.94 Ta 0.06 1968 bcc K 0.15 0.15 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112554 963 Ir1-xTax Ir0.925Ta0.075 Ir 0.925 Ta 0.075 1968 bcc K 0.125 0.125 mj/mol.K2 6.13 408 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112555 963 Ir1-xTax Ir0.9Ta0.1 Ir 0.9 Ta 0.1 1968 fcc K 0.067 0.067 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112556 963 Ir1-xRux Ir0.925Ru0.075 Ir 0.925 Ru 0.075 1968 K 0.11 0.11 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112557 963 Ir1-xRux Ir0.89Ru0.11 Ir 0.89 Ru 0.11 1968 K 0.105 0.105 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112558 963 Ir1-xRux Ir0.845Ru0.155 Ir 0.845 Ru 0.155 1968 K 0.11 0.11 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112559 963 Ir1-xRux Ir0.8Ru0.2 Ir 0.8 Ru 0.2 1968 K 0.13 0.13 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112560 963 Ir1-xRux Ir0.765Ru0.235 Ir 0.765 Ru 0.235 1968 K 0.142 0.142 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112561 963 Ir1-xRux Ir0.71Ru0.29 Ir 0.71 Ru 0.29 1968 K 0.18 0.18 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112562 963 Ir1-xRhx Ir0.95Rh0.05 Ir 0.95 Rh 0.05 1968 K 0.075 0.075 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112563 963 Ir1-xRhx Ir0.89Rh0.11 Ir 0.89 Rh 0.11 1968 K 0.06 0.06 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112564 963 Ir1-xRhx Ir0.815Rh0.185 Ir 0.815 Rh 0.185 1968 K 0.028 0.028 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112565 963 Ir1-xRhx Ir0.8Rh0.2 Ir 0.8 Rh 0.2 1968 K 0.03 0.03 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112566 963 Ir1-xRhx Ir0.75Rh0.25 Ir 0.75 Rh 0.25 1968 K 0.026 0.026 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112567 963 Ir1-xRhx Ir0.7Rh0.3 Ir 0.7 Rh 0.3 1968 K 0.014 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112568 963 Ir1-xPdx Ir0.96Pd0.04 Ir 0.96 Pd 0.04 1968 K 0.069 0.069 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112569 963 Ir1-xPdx Ir0.95Pd0.05 Ir 0.95 Pd 0.05 1968 K 0.05 0.05 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112570 963 Ir1-xPdx Ir0.91Pd0.09 Ir 0.91 Pd 0.09 1968 K 0.047 0.047 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112571 963 Ir1-xPdx Ir0.9Pd0.1 Ir 0.9 Pd 0.1 1968 K 0.032 0.032 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112572 963 Ir1-xPdx Ir0.88Pd0.12 Ir 0.88 Pd 0.12 1968 K 0.035 0.035 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112573 963 Ir1-x-yRexRhy Ir0.72Re0.18Rh0.1 Ir 0.72 Re 0.18 Rh 0.1 1968 K 0.6 0.6 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112574 963 Ir1-x-yRexRhy Ir0.64Re0.16Rh0.2 Ir 0.64 Re 0.16 Rh 0.2 1968 K 0.55 0.55 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112575 963 Ir1-x-yRexRhy Ir0.56Re0.14Rh0.3 Ir 0.56 Re 0.14 Rh 0.3 1968 K 0.25 0.25 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112576 963 Ir1-x-yRexRhy Ir0.46Re0.115Rh0.425 Ir 0.46 Re 0.115 Rh 0.425 1968 K 0.13 0.13 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112577 963 Ir1-x-yRexRhy Ir0.4Re0.1Rh0.5 Ir 0.4 Re 0.1 Rh 0.5 1968 K 0.08 0.08 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112578 963 Ir1-x-yOsxRhy Ir0.63Os0.27Rh0.1 Ir 0.63 Os 0.27 Rh 0.1 1968 K 0.4 0.4 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112579 963 Ir1-x-yOsxRhy Ir0.56Os0.24Rh0.2 Ir 0.56 Os 0.24 Rh 0.2 1968 K 0.28 0.28 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112580 963 Ir1-x-yOsxRhy Ir0.49Os0.21Rh0.3 Ir 0.49 Os 0.21 Rh 0.3 1968 K 0.27 0.27 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112581 963 Ir1-x-yOsxRhy Ir0.406Os0.174Rh0.42 Ir 0.406 Os 0.174 Rh 0.42 1968 K 0.095 0.095 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112582 963 (IrRh)1-xOsx Ir0.07Rh0.07Os0.86 Ir 0.07 Rh 0.07 Os 0.86 1968 K 0.064 0.064 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112583 963 (IrRh)1-xOsx Ir0.0875Rh0.0875Os0.825 Ir 0.0875 Rh 0.0875 Os 0.825 1968 K 0.095 0.095 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112584 963 (IrRh)1-xOsx Ir0.1Rh0.1Os0.8 Ir 0.1 Rh 0.1 Os 0.8 1968 K 0.14 0.14 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112585 963 (IrRh)1-xOsx Ir0.135Rh0.135Os0.73 Ir 0.135 Rh 0.135 Os 0.73 1968 K 0.22 0.22 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112586 963 (IrRh)1-xOsx Ir0.165Rh0.165Os0.67 Ir 0.165 Rh 0.165 Os 0.67 1968 K 0.35 0.35 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112587 963 Ir1-x-yOsxRhy Ir0.125Os0.2Rh0.675 Ir 0.125 Os 0.2 Rh 0.675 1968 K 0.05 0.05 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112588 963 Ir1-x-yOsxRhy Ir0.54Os0.1Rh0.36 Ir 0.54 Os 0.1 Rh 0.36 1968 K 0.038 0.038 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112589 963 Ir1-x-yOsxRhy Ir0.1Os0.25Rh0.65 Ir 0.1 Os 0.25 Rh 0.65 1968 K 0.1 0.1 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112590 963 Ir1-x-yOsxRhy Ir0.6Os0.1Rh0.3 Ir 0.6 Os 0.1 Rh 0.3 1968 K 0.55 0.55 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112591 963 Ir1-x-yOsxRhy Ir0.1Os0.3Rh0.6 Ir 0.1 Os 0.3 Rh 0.6 1968 K 0.21 0.21 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112592 963 Ir1-x-yOsxRhy Ir0.55Os0.15Rh0.3 Ir 0.55 Os 0.15 Rh 0.3 1968 K 0.095 0.095 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112593 963 Ir1-x-yOsxRhy Ir0.765Os0.085Rh0.15 Ir 0.765 Os 0.085 Rh 0.15 1968 K 0.096 0.096 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112594 963 Ir1-x-yOsxRhy Ir0.6Os0.2Rh0.2 Ir 0.6 Os 0.2 Rh 0.2 1968 K 0.22 0.22 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112595 963 Ir1-x-yOsxRhy Ir0.725Os0.175Rh0.1 Ir 0.725 Os 0.175 Rh 0.1 1968 K 0.16 0.16 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112596 963 Ir1-x-yOsxRhy Ir0.125Os0.375Rh0.5 Ir 0.125 Os 0.375 Rh 0.5 1968 K 0.46 0.46 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112597 963 Ir1-x-yOsxRhy Ir0.4Os0.3Rh0.3 Ir 0.4 Os 0.3 Rh 0.3 1968 K 0.37 0.37 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112598 963 Ir1-x-yOsxRhy Ir0.1Os0.2Rh0.7 Ir 0.1 Os 0.2 Rh 0.7 1968 K 0.014 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112599 963 Ir1-x-yRuxRhy Ir0.2Ru0.3Rh0.5 Ir 0.2 Ru 0.3 Rh 0.5 1968 K 0.055 0.055 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112600 963 Ir1-x-yRuxRhy Ir0.7Ru0.25Rh0.5 Ir 0.7 Ru 0.25 Rh 0.5 1968 K 0.033 0.033 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112601 963 Ir1-x-yRuxRhy Ir0.7Ru0.1Rh0.2 Ir 0.7 Ru 0.1 Rh 0.2 1968 K 0.05 0.05 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112602 963 Ir1-x-yRuxRhy Ir0.8Ru0.05Rh0.15 Ir 0.8 Ru 0.05 Rh 0.15 1968 K 0.064 0.064 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112603 963 Ir1-x-yRuxRhy Ir0.3Ru0.2Rh0.5 Ir 0.3 Ru 0.2 Rh 0.5 1968 K 0.02 0.02 arc-melting "Superconductivity, susceptibility, and specific heat in the noble transition elements and alloys. I. Experimental results" 1968 "PHYS.REV.,165(1968)533 545"
112604 1625 hardness = 965 kg/mm2. e-ph = 0.495 Nb1-xIrx Ir0.34Nb0.66 Ir 0.34 Nb 0.66 1 1971 A 9.892 5.072 sigma-phase K 2.25 2.25 mj/mol.K2 3.037 388 arc-melting 1971 "PHYS.REV.B,3(1971)742"
112605 1625 hardness = 1010 kg/mm2. e-ph = 0.495 Nb1-xIrx Ir0.37Nb0.63 Ir 0.37 Nb 0.63 1 1971 A 9.869 5.062 sigma-phase K 2.23 2.23 mj/mol.K2 3.043 384 arc-melting 1971 "PHYS.REV.B,3(1971)742"
112606 1625 hardness = 975 kg/mm2. e-ph = 0.497 Nb1-xIrx Ir0.4Nb0.6 Ir 0.4 Nb 0.6 1 1971 A 9.842 5.045 sigma-phase K 2.2 2.2 mj/mol.K2 2.985 371 arc-melting 1971 "PHYS.REV.B,3(1971)742"
112607 1625 hardness = 1500 kg/mm2. e-ph = 0.639 Mo1-xRex Mo0.45Re0.55 Mo 0.45 Re 0.55 1 1971 A 9.602 4.984 sigma-phase K 6.47 6.47 mj/mol.K2 3.434 388 arc-melting 1971 "PHYS.REV.B,3(1971)742"
112608 1625 hardness = 1500 kg/mm2. e-ph = 0.657 Mo1-xRex Mo0.4Re0.6 Mo 0.4 Re 0.6 1 1971 A 9.595 4.984 sigma-phase K 6.49 6.49 mj/mol.K2 3.2 355 arc-melting 1971 "PHYS.REV.B,3(1971)742"
112609 1625 hardness = 1505 kg/mm2. e-ph = 0.614 Mo1-xRex Mo0.35Re0.65 Mo 0.35 Re 0.65 1 1971 A 9.588 4.983 sigma-phase K 5.6 5.6 mj/mol.K2 3.116 386 arc-melting 1971 "PHYS.REV.B,3(1971)742"
112610 1625 Nb1-xIrx Ir0.375Nb0.625 Ir 0.375 Nb 0.625 1971 sigma-phase K 7.9 7.9 1971 "PHYS.REV.B,3(1971)742"
112611 1625 Nb1-xIrx Ir0.385Nb0.615 Ir 0.385 Nb 0.615 1971 sigma-phase K 9.7 9.7 1971 "PHYS.REV.B,3(1971)742"
112612 1625 Nb1-xIrx Ir0.41Nb0.59 Ir 0.41 Nb 0.59 1971 sigma-phase K 9.8 9.8 1971 "PHYS.REV.B,3(1971)742"
112613 1625 Mo1-xRex Mo0.45Re0.55 Mo 0.45 Re 0.55 1971 sigma-phase K 5.9 5.9 1971 "PHYS.REV.B,3(1971)742"
112614 1625 Mo1-xRex Mo0.42Re0.58 Mo 0.42 Re 0.58 1971 sigma-phase K 6.35 6.35 1971 "PHYS.REV.B,3(1971)742"
112615 1625 Mo1-xRex Mo0.38Re0.62 Mo 0.38 Re 0.62 1971 sigma-phase K 5.7 5.7 1971 "PHYS.REV.B,3(1971)742"
112616 1625 Mo1-xRex Mo0.33Re0.67 Mo 0.33 Re 0.67 1971 sigma-phase K 5.8 5.8 1971 "PHYS.REV.B,3(1971)742"
112617 1646 Re1-xMox Mo0.0006Re0.9994 Mo 0.0006 Re 0.9994 1971 K 1.697 1.697 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112618 1646 Debye-T by interpolation Re1-xWx Re0.994W0.006 Re 0.994 W 0.006 1971 K 1.84 1.84 413 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112619 1646 Debye-T by interpolation Re1-xWx Re0.976W0.024 Re 0.976 W 0.024 1971 K 3 3 402 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112620 1646 Re1-xRhx Re0.98Rh0.02 Re 0.98 Rh 0.02 1971 K 2.014 2.014 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112621 1646 Re1-xRux Re0.9865Ru0.0135 Re 0.9865 Ru 0.0135 1971 K 1.937 1.937 MTC12621 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112622 1646 Re1-xIrx Ir0.02Re0.98 Ir 0.02 Re 0.98 1971 K 1.968 1.968 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112623 1646 Re1-xOsx Os0.02Re0.98 Os 0.02 Re 0.98 1971 K 1.807 1.807 MTC12623 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112624 1646 Re1-xOsx Re1 Re 1 1971 hcp K 1.695 1.695 mj/mol.K2 2.31 417 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112625 1646 Re1-xOsx Os0.058Re0.942 Os 0.058 Re 0.942 1971 hcp K 1.93 1.93 mj/mol.K2 2.28 412 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112626 1646 Debye-T by interpolation Re1-xOsx Os0.115Re0.885 Os 0.115 Re 0.885 1971 hcp K 1.79 1.79 398 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112627 1646 Debye-T by interpolation Re1-xOsx Os0.232Re0.768 Os 0.232 Re 0.768 1971 hcp K 1.67 1.67 365 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112628 1646 Re1-xOsx Os0.3Re0.7 Os 0.3 Re 0.7 1971 hcp K 1.54 1.54 mj/mol.K2 2.05 351 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112629 1646 Debye-T by interpolation Re1-xOsx Os0.362Re0.638 Os 0.362 Re 0.638 1971 hcp K 1.35 1.35 346 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112630 1646 Debye-T by interpolation Re1-xOsx Os0.432Re0.568 Os 0.432 Re 0.568 1971 hcp K 1.18 1.18 344 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112631 1646 Debye-T by interpolation Re1-xOsx Os0.56Re0.44 Os 0.56 Re 0.44 1971 hcp K 0.94 0.94 355 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112632 1646 Re1-xOsx Os0.7Re0.3 Os 0.7 Re 0.3 1971 hcp K 0.8 0.8 mj/mol.K2 1.86 380 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112633 1646 Debye-T by interpolation Re1-xOsx Os0.81Re0.19 Os 0.81 Re 0.19 1971 hcp K 0.73 0.73 413 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112634 1646 Debye-T by interpolation Re1-xOsx Os0.89Re0.11 Os 0.89 Re 0.11 1971 hcp K 0.7 0.7 443 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112635 1646 Re1-xOsx Os1 Os 1 1971 hcp K 0.62 0.62 mj/mol.K2 2.35 500 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112636 1646 Ru1-xOsx Os10 Os 10 1971 hcp K 0.478 0.478 mj/mol.K2 3.35 505 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112637 1646 Ru1-xOsx Os0.333Ru0.667 Os 0.333 Ru 0.667 1971 hcp K 0.47 0.47 mj/mol.K2 2.74 480 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112638 1646 Ru1-xOsx Os0.666Ru0.334 Os 0.666 Ru 0.334 1971 hcp K 0.569 0.569 MTC12638 mj/mol.K2 2.5 448 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112639 1646 Ru1-xOsx Os0.9Ru0.1 Os 0.9 Ru 0.1 1971 hcp K 0.584 0.584 mj/mol.K2 2.2 432 arc-melting 1971 "PHYS.REV.B,3(1971)3757"
112640 1154 (delta-C/T) at Tc = 42 mJ/mol.K2 La3Tl La3Tl1 La 3 Tl 1 1972 A 5.06 fcc K 8.95 8.95 arc-melting 1972 "PHYS.REV.B,6(1972)2709"
112641 1154 (delta-C/T) at Tc = 42 mJ/mol.K2 "(La,Pr)3Tl" La2.916Pr0.084Tl1 La 2.916 Pr 0.084 Tl 1 1972 fcc K 7.7 7.7 two-step-arc-melting (La1-xPrx + Tl) 1972 "PHYS.REV.B,6(1972)2709"
112642 1154 "(La,Pr)3Tl" La2.91Pr0.09Tl1 La 2.91 Pr 0.09 Tl 1 1972 fcc K 7.55 7.55 two-step-arc-melting (La1-xPrx + Tl) 1972 "PHYS.REV.B,6(1972)2709"
112643 1154 (delta-C/T) at Tc = 41.7 mJ/mol.K2 "(La,Pr)3Tl" La2.92Pr0.18Tl1 La 2.92 Pr 0.18 Tl 1 1972 fcc K 6.51 6.51 MTC12643 two-step-arc-melting (La1-xPrx + Tl) 1972 "PHYS.REV.B,6(1972)2709"
112644 1154 (delta-C/T) at Tc = 37.2 mJ/mol.K2 "(La,Pr)3Tl" La2.706Pr0.294Tl1 La 2.706 Pr 0.294 Tl 1 1972 fcc K 5.25 5.25 two-step-arc-melting (La1-xPrx + Tl) 1972 "PHYS.REV.B,6(1972)2709"
112645 1154 (delta-C/T) at Tc = 31.1 mJ/mol.K2 "(La,Pr)3Tl" La2.574Pr0.426Tl1 La 2.574 Pr 0.426 Tl 1 1972 fcc K 3.92 3.92 two-step-arc-melting (La1-xPrx + Tl) 1972 "PHYS.REV.B,6(1972)2709"
112646 1154 (delta-C/T) at Tc = 28.0 mJ/mol.K2 "(La,Pr)3Tl" La2.55Pr0.45Tl1 La 2.55 Pr 0.45 Tl 1 1972 fcc K 3.68 3.68 two-step-arc-melting (La1-xPrx + Tl) 1972 "PHYS.REV.B,6(1972)2709"
112647 1154 (delta-C/T) at Tc = 22.4 mJ/mol.K2 "(La,Pr)3Tl" La2.406Pr0.594Tl1 La 2.406 Pr 0.594 Tl 1 1972 fcc K 2.4 2.4 two-step-arc-melting (La1-xPrx + Tl) 1972 "PHYS.REV.B,6(1972)2709"
112648 1154 "(La,Pr)3Tl" La2.25Pr0.75Tl1 La 2.25 Pr 0.75 Tl 1 1972 fcc K 1.24 1.24 two-step-arc-melting (La1-xPrx + Tl) 1972 "PHYS.REV.B,6(1972)2709"
112649 1965 "(La,Pr)Se" La0.95Pr0.05Se1 La 0.95 Pr 0.05 Se 1 1975 K 0.7 0.7 Magnetic and some thermal properties of chalcogenides of Pr and Tm and a few other rare earths 1975 "PHYS.REV.B,11(1975)500"
112650 1965 "(La,Pr)Se" La0.9Pr0.1Se1 La 0.9 Pr 0.1 Se 1 1975 K 0.48 0.48 Magnetic and some thermal properties of chalcogenides of Pr and Tm and a few other rare earths 1975 "PHYS.REV.B,11(1975)500"
112651 1965 "(La,Pr)Se" La0.8Pr0.2Se1 La 0.8 Pr 0.2 Se 1 1975 K 0.03 0.03 Magnetic and some thermal properties of chalcogenides of Pr and Tm and a few other rare earths 1975 "PHYS.REV.B,11(1975)500"
112652 1965 "(La,Pr)3Se4" La2.85Pr0.15Se4 La 2.85 Pr 0.15 Se 4 1975 K 4.81 4.81 Magnetic and some thermal properties of chalcogenides of Pr and Tm and a few other rare earths 1975 "PHYS.REV.B,11(1975)500"
112653 1965 "(La,Pr)3Se4" La2.7Pr0.3Se4 La 2.7 Pr 0.3 Se 4 1975 K 3.36 3.36 Magnetic and some thermal properties of chalcogenides of Pr and Tm and a few other rare earths 1975 "PHYS.REV.B,11(1975)500"
112654 1965 "(La,Pr)3Se4" La2.4Pr0.6Se4 La 2.4 Pr 0.6 Se 4 1975 K 1.49 1.49 Magnetic and some thermal properties of chalcogenides of Pr and Tm and a few other rare earths 1975 "PHYS.REV.B,11(1975)500"
112655 1965 "(La,Pr)3Se4" La2.25Pr0.75Se4 La 2.25 Pr 0.75 Se 4 1975 K 0.76 0.76 Magnetic and some thermal properties of chalcogenides of Pr and Tm and a few other rare earths 1975 "PHYS.REV.B,11(1975)500"
112656 1965 "(La,Pr)3S4" La2.82Pr0.18S4 La 2.82 Pr 0.18 S 4 1975 K 4.33 4.33 Magnetic and some thermal properties of chalcogenides of Pr and Tm and a few other rare earths 1975 "PHYS.REV.B,11(1975)500"
112657 1965 "(La,Pr)3S4" La2.58Pr0.42S4 La 2.58 Pr 0.42 S 4 1975 K 2.69 2.69 Magnetic and some thermal properties of chalcogenides of Pr and Tm and a few other rare earths 1975 "PHYS.REV.B,11(1975)500"
112658 JPS0732065 Hirr determined from torque measurement(Hirr = 17 A, PENET = 1039 A." MgB2 B2Mg1 B 2 Mg 1 3 2004 AlB2 "AlB2, C32" K 37.6 37.6 MHC12712 A 109 A 366 grown in stainless tube. Anisotropy in the upper and lower critical fields of MgB2 single crystals 2004 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568, Japan" "Physica C, 412-414(2004)258"
112713 PHC4120266 B-content = nominal value. RRR=2.1. gap(0) = 2.4 meV by break junction tunneling. NbB2 B2.1Nb1 B 2.1 Nb 1 1 2004 AlB2 "AlB2, C32" K 9.1 9.1 4.4 1 "heat(1873 K, 5.5 GPa)" Energy gap structure in the binary superconductor MB2 :(M = Nb and Mg) 2004 "Graduate school of Advanced Sciences of Matter, Hiroshima University, Higashi-Hiroshima 739-8530, Japan" "Physica C, 412-414(2004)266"
112714 PR0150973 Amorphous film. P-induced SC. Tc at Pc=100 kbar. As2Te3 As2Te3 As 2 Te 3 1977 K 4.4 4.4 depositted on mica by flash evaporation Semiconductor-metal and superconducting transitions induced by pressure in amorphous As2Te3 1977 "University of Chicago,Illinois, USA" "Phys.Rev.B, 15(1977)973"
112715 PR0150973 Amorphous film. P-induced SC. Tc at Pc=100 kbar. As As1 As 1 1977 K 0.2 0 0.2 depositted on mica by flash evaporation Semiconductor-metal and superconducting transitions induced by pressure in amorphous As2Te3 1977 "University of Chicago,Illinois, USA" "Phys.Rev.B, 15(1977)973"
112716 PR0150973 Amorphous film. P-induced SC. Tc at Pc=56 kbar. Te Te1 Te 1 1977 K 3.3 3.3 depositted on mica by flash evaporation Semiconductor-metal and superconducting transitions induced by pressure in amorphous As2Te3 1977 "University of Chicago,Illinois, USA" "Phys.Rev.B, 15(1977)973"
112717 1257 Re Re1 Re 1 1 1970 K 1.694 1.694 MTC12717 K/GPa -0.023 "ANN(1350C,1h,in vac)" Study of fermi-surface topology changes in rhenium and dilute Re solid solutions from Tc measurements at high pressure 1970 "PHYS.REV.B,1(1970)214"
112718 1257 Re Re1 Re 1 3 1970 K 1.694 1.694 K/GPa -0.023 "ANN(1500C,1h,in vac)" Study of fermi-surface topology changes in rhenium and dilute Re solid solutions from Tc measurements at high pressure 1970 "PHYS.REV.B,1(1970)214"
112719 1257 Re1-xOsx Os2.76Re97.24 Os 2.76 Re 97.24 1 1970 K 1.844 1.844 Study of fermi-surface topology changes in rhenium and dilute Re solid solutions from Tc measurements at high pressure 1970 "PHYS.REV.B,1(1970)214"
112720 1257 Re1-xOsx Os8.33Re91.67 Os 8.33 Re 91.67 1 1970 K 1.876 1.876 MTC12720 Study of fermi-surface topology changes in rhenium and dilute Re solid solutions from Tc measurements at high pressure 1970 "PHYS.REV.B,1(1970)214"
112721 1855 e-ph coupling const. = 0.518 Zr1-xMox Mo3.29Zr96.71 Mo 3.29 Zr 96.71 1 1974 K 2.12 2.12 mj/mol.K2 3.58 292.7 arc-melting Specific heat and superconducting properties of Zr-Mo alloys 1974 "J.PHYS.SOC.JAPAN,36(1974)1349"
112722 1855 e-ph coupling const. = 0.547 Zr1-xMox Mo3.95Zr96.05 Mo 3.95 Zr 96.05 1 1974 K 2.53 2.53 mj/mol.K2 4.01 273.3 arc-melting Specific heat and superconducting properties of Zr-Mo alloys 1974 "J.PHYS.SOC.JAPAN,36(1974)1349"
112723 1855 e-ph coupling const. = 0.648 Zr1-xMox Mo5.22Zr94.78 Mo 5.22 Zr 94.78 1 1974 K 4 4 mj/mol.K2 5.27 230.4 arc-melting Specific heat and superconducting properties of Zr-Mo alloys 1974 "J.PHYS.SOC.JAPAN,36(1974)1349"
112724 1855 e-ph coupling const. = 0.695 Zr1-xMox Mo6.86Zr93.14 Mo 6.86 Zr 93.14 1 1974 K 4.74 4.74 mj/mol.K2 6.17 219.2 arc-melting Specific heat and superconducting properties of Zr-Mo alloys 1974 "J.PHYS.SOC.JAPAN,36(1974)1349"
112725 1855 e-ph coupling const. = 0.71 Zr1-xMox Mo8.75Zr91.25 Mo 8.75 Zr 91.25 1 1974 K 5 5 mj/mol.K2 6.79 217.2 arc-melting Specific heat and superconducting properties of Zr-Mo alloys 1974 "J.PHYS.SOC.JAPAN,36(1974)1349"
112726 1855 e-ph coupling const. = 0.71 Zr1-xMox Mo13Zr87 Mo 13 Zr 87 1 1974 K 4.91 4.91 mj/mol.K2 5.84 213.6 arc-melting Specific heat and superconducting properties of Zr-Mo alloys 1974 "J.PHYS.SOC.JAPAN,36(1974)1349"
112727 492 Nb3Rh Nb3Rh1 Nb 3 Rh 1 1 1965 Cr3Si(A15) A 5.1317 "Cr3Si, A15" K 2.64 2.64 SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112728 492 Nb3Os Nb3Os1 Nb 3 Os 1 1 1965 Cr3Si(A15) A 5.1359 "Cr3Si, A15" K 1.7 SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112729 492 Nb3Ir Ir1Nb3 Ir 1 Nb 3 1 1965 Cr3Si(A15) A 5.1356 "Cr3Si, A15" K 1.7 SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112730 492 Nb3Pt Nb3Pt1 Nb 3 Pt 1 1 1965 Cr3Si(A15) A 5.1547 "Cr3Si, A15" K 10.9 10.9 SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112731 492 Nb3Au Au1Nb3 Au 1 Nb 3 1 1965 Cr3Si(A15) A 5.2027 "Cr3Si, A15" K 11.5 11.5 SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112732 492 "Nb3(Rh,Co)" Nb3Rh0.98Co0.02 Nb 3 Rh 0.98 Co 0.02 1 1965 Cr3Si(A15) A 5.132 "Cr3Si, A15" K 2.28 2.28 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112733 492 "Nb3(Rh,Co)" Nb3Rh0.95Co0.05 Nb 3 Rh 0.95 Co 0.05 1 1965 Cr3Si(A15) A 5.135 "Cr3Si, A15" K 1.96 1.96 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112734 492 "Nb3(Rh,Co)" Nb3Rh0.9Co0.1 Nb 3 Rh 0.9 Co 0.1 1965 Cr3Si(A15) A 5.1347 "Cr3Si, A15" K 1.9 1.9 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112735 492 "Nb3(Rh,Ru)" Nb3Rh0.98Ru0.02 Nb 3 Rh 0.98 Ru 0.02 1 1965 Cr3Si(A15) A 5.132 "Cr3Si, A15" K 2.42 2.42 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112736 492 "Nb3(Rh,Ru)" Nb3Rh0.95Ru0.05 Nb 3 Rh 0.95 Ru 0.05 1 1965 Cr3Si(A15) A 5.135 "Cr3Si, A15" K 2.42 2.42 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112737 492 "Nb3(Rh,Ru)" Nb3Rh0.9Ru0.1 Nb 3 Rh 0.9 Ru 0.1 1965 Cr3Si(A15) A 5.1346 "Cr3Si, A15" K 2.44 2.44 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112738 492 "Nb3(Rh,Pd)" Nb3Rh0.98Pd0.02 Nb 3 Rh 0.98 Pd 0.02 1 1965 Cr3Si(A15) A 5.133 "Cr3Si, A15" K 2.5 2.5 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112739 492 "Nb3(Rh,Pd)" Nb3Rh0.95Pd0.05 Nb 3 Rh 0.95 Pd 0.05 1 1965 Cr3Si(A15) A 5.134 "Cr3Si, A15" K 2.49 2.49 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112740 492 "Nb3(Rh,Pd)" Nb3Rh0.9Pd0.1 Nb 3 Rh 0.9 Pd 0.1 1 1965 Cr3Si(A15) A 5.1345 "Cr3Si, A15" K 2.55 2.55 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112741 492 "Nb3(Rh,Os)" Nb3Rh0.98Os0.02 Nb 3 Rh 0.98 Os 0.02 1 1965 Cr3Si(A15) A 5.134 "Cr3Si, A15" K 2.42 2.42 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112742 492 "Nb3(Rh,Os)" Nb3Rh0.95Os0.05 Nb 3 Rh 0.95 Os 0.05 1 1965 Cr3Si(A15) A 5.132 "Cr3Si, A15" K 2.39 2.39 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112743 492 "Nb3(Rh,Os)" Nb3Rh0.9Os0.1 Nb 3 Rh 0.9 Os 0.1 1 1965 Cr3Si(A15) A 5.1302 "Cr3Si, A15" K 2.3 2.3 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112744 492 "Nb3(Rh,Os)" Nb3Rh0.7Os0.3 Nb 3 Rh 0.7 Os 0.3 1 1965 Cr3Si(A15) A 5.1315 "Cr3Si, A15" K 1.7 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112745 492 "Nb3(Rh,Os)" Nb3Rh0.5Os0.5 Nb 3 Rh 0.5 Os 0.5 1 1965 Cr3Si(A15) A 5.1334 "Cr3Si, A15" K 1.7 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112746 492 "Nb3(Rh,Os)" Nb3Rh0.3Os0.7 Nb 3 Rh 0.3 Os 0.7 1 1965 Cr3Si(A15) A 5.1345 "Cr3Si, A15" K 1.7 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112747 492 "Nb3(Rh,Os)" Nb3Rh0.1Os0.9 Nb 3 Rh 0.1 Os 0.9 1 1965 Cr3Si(A15) A 5.1354 "Cr3Si, A15" K 1.7 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112748 492 "Nb3(Rh,Ir)" Nb3Rh0.98Ir0.02 Nb 3 Rh 0.98 Ir 0.02 1 1965 Cr3Si(A15) A 5.131 "Cr3Si, A15" K 2.43 2.43 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112749 492 "Nb3(Rh,Ir)" Nb3Rh0.95Ir0.05 Nb 3 Rh 0.95 Ir 0.05 1 1965 Cr3Si(A15) A 5.132 "Cr3Si, A15" K 2.38 2.38 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112750 492 "Nb3(Rh,Ir)" Nb3Rh0.9Ir0.1 Nb 3 Rh 0.9 Ir 0.1 1 1965 Cr3Si(A15) A 5.1329 "Cr3Si, A15" K 1.7 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112751 492 "Nb3(Rh,Ir)" Nb3Rh0.7Ir0.3 Nb 3 Rh 0.7 Ir 0.3 1 1965 Cr3Si(A15) A 5.134 "Cr3Si, A15" K 1.7 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112752 492 "Nb3(Rh,Ir)" Nb3Rh0.5Ir0.5 Nb 3 Rh 0.5 Ir 0.5 1 1965 Cr3Si(A15) A 5.1349 "Cr3Si, A15" K 1.7 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112753 492 "Nb3(Rh,Ir)" Nb3Rh0.3Ir0.7 Nb 3 Rh 0.3 Ir 0.7 1 1965 Cr3Si(A15) A 5.1349 "Cr3Si, A15" K 1.7 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112754 492 "Nb3(Rh,Ir)" Nb3Rh0.1Ir0.9 Nb 3 Rh 0.1 Ir 0.9 1 1965 Cr3Si(A15) A 5.1345 "Cr3Si, A15" K 1.7 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112755 492 "Nb3(Rh,Pt)" Nb3Rh0.98Pt0.02 Nb 3 Rh 0.98 Pt 0.02 1 1965 Cr3Si(A15) A 5.132 "Cr3Si, A15" K 2.52 2.52 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112756 492 "Nb3(Rh,Pt)" Nb3Rh0.95Pt0.05 Nb 3 Rh 0.95 Pt 0.05 1 1965 Cr3Si(A15) A 5.133 "Cr3Si, A15" K 2.53 2.53 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112757 492 "Nb3(Rh,Pt)" Nb3Rh0.9Pt0.1 Nb 3 Rh 0.9 Pt 0.1 1 1965 Cr3Si(A15) A 5.1336 "Cr3Si, A15" K 2.8 2.8 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112758 492 "Nb3(Rh,Pt)" Nb3Rh0.7Pt0.3 Nb 3 Rh 0.7 Pt 0.3 1 1965 Cr3Si(A15) A 5.1395 "Cr3Si, A15" K 5.1 5.1 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112759 492 "Nb3(Rh,Pt)" Nb3Rh0.5Pt0.5 Nb 3 Rh 0.5 Pt 0.5 1 1965 Cr3Si(A15) A 5.145 "Cr3Si, A15" K 6.25 6.25 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112760 492 "Nb3(Rh,Pt)" Nb3Rh0.3Pt0.7 Nb 3 Rh 0.3 Pt 0.7 1 1965 Cr3Si(A15) A 5.1487 "Cr3Si, A15" K 7.4 7.4 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112761 492 "Nb3(Rh,Pt)" Nb3Rh0.1Pt0.9 Nb 3 Rh 0.1 Pt 0.9 1 1965 Cr3Si(A15) A 5.1534 "Cr3Si, A15" K 7.9 7.9 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112762 492 "Nb3(Rh,Pt)" Nb3Rh0.05Pt0.95 Nb 3 Rh 0.05 Pt 0.95 1 1965 Cr3Si(A15) A 5.16 "Cr3Si, A15" K 8.9 8.9 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112763 492 "Nb3(Rh,Pt)" Nb3Rh0.02Pt0.98 Nb 3 Rh 0.02 Pt 0.98 1 1965 Cr3Si(A15) A 5.157 "Cr3Si, A15" K 9.6 9.6 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112764 492 "Nb3(Rh,Au)" Nb3Rh0.98Au0.02 Nb 3 Rh 0.98 Au 0.02 1 1965 Cr3Si(A15) A 5.133 "Cr3Si, A15" K 2.53 2.53 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112765 492 "Nb3(Rh,Au)" Nb3Rh0.95Au0.05 Nb 3 Rh 0.95 Au 0.05 1 1965 Cr3Si(A15) A 5.137 "Cr3Si, A15" K 2.52 2.52 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112766 492 "Nb3(Rh,Au)" Nb3Rh0.9Au0.1 Nb 3 Rh 0.9 Au 0.1 1 1965 Cr3Si(A15) A 5.1412 "Cr3Si, A15" K 2.7 2.7 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112767 492 "Nb3(Rh,Au)" Nb3Rh0.7Au0.3 Nb 3 Rh 0.7 Au 0.3 1 1965 Cr3Si(A15) A 5.1573 "Cr3Si, A15" K 4.6 4.6 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112768 492 "Nb3(Rh,Au)" Nb3Rh0.5Au0.5 Nb 3 Rh 0.5 Au 0.5 1 1965 Cr3Si(A15) A 5.1688 "Cr3Si, A15" K 6.6 6.6 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112769 492 "Nb3(Rh,Au)" Nb3Rh0.3Au0.7 Nb 3 Rh 0.3 Au 0.7 1 1965 Cr3Si(A15) A 5.1827 "Cr3Si, A15" K 9.5 9.5 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112770 492 "Nb3(Rh,Au)" Nb3Rh0.1Au0.9 Nb 3 Rh 0.1 Au 0.9 1 1965 Cr3Si(A15) A 5.196 "Cr3Si, A15" K 10.8 10.8 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112771 492 "Nb3(Rh,Au)" Nb3Rh0.05Au0.95 Nb 3 Rh 0.05 Au 0.95 1 1965 Cr3Si(A15) A 5.2 "Cr3Si, A15" K 11 11 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112772 492 "Nb3(Rh,Au)" Nb3Rh0.02Au0.98 Nb 3 Rh 0.02 Au 0.98 1 1965 Cr3Si(A15) A 5.203 "Cr3Si, A15" K 10.9 10.9 arc-melting SUPERCONDUCTIVITY CR3SI-TYPE TERNARY PHASES WITH NIOBIUM AND GROUP VIII METALS 1965 "PHYS.REV.,137(1965)A1438"
112773 1776 Hc2(0) in DB shows Hc2(4.2K). RRR= 151 . micro-hardness = 61 kg/mm2. Nb1-xOx Nb99.976O0.024 Nb 99.976 O 0.024 1 1974 A 3.3002 bcc K 9.23 9.23 T 0.291 mj/mol.K2 7.95 278 "O-content controlled by ANN time(1000C, P(O2)=1.0E-5 Torr)" Effects of intersticial oxygen on the superconductivity of niobium 1974 "PHYS.REV.B,9(1974)888"
112774 1776 Hc2(0) in DB shows Hc2(4.2K). RRR= 17.6 . micro-hardness = 74 kg/mm2. Nb1-xOx Nb99.861O0.139 Nb 99.861 O 0.139 1 1974 A 3.3 bcc K 9.03 9.03 T 0.415 mj/mol.K2 7.67 256 "O-content controlled by ANN time(1000C, P(O2)=1.0E-5 Torr)" Effects of intersticial oxygen on the superconductivity of niobium 1974 "PHYS.REV.B,9(1974)888"
112775 1776 Hc2(0) in DB shows Hc2(4.2K). RRR= 6.30 . micro-hardness = 134 kg/mm2. Nb1-xOx Nb99.445O0.555 Nb 99.445 O 0.555 1 1974 A 3.3025 bcc K 8.5 8.5 T 0.586 mj/mol.K2 7.43 260 "O-content controlled by ANN time(1000C, P(O2)=1.0E-5 Torr)" Effects of intersticial oxygen on the superconductivity of niobium 1974 "PHYS.REV.B,9(1974)888"
112776 1776 Hc2(0) in DB shows Hc2(4.2K). RRR= 4.12 . micro-hardness = 177 kg/mm2. Nb1-xOx Nb99.078O0.922 Nb 99.078 O 0.922 1 1974 A 3.3023 bcc K 8.1 8.1 T 0.745 mj/mol.K2 7.23 260 "O-content controlled by ANN time(1000C, P(O2)=1.0E-5 Torr)" Effects of intersticial oxygen on the superconductivity of niobium 1974 "PHYS.REV.B,9(1974)888"
112777 1776 Hc2(0) in DB shows Hc2(4.2K). RRR= 3.09 . micro-hardness = 222 kg/mm2. Nb1-xOx Nb98.68O1.32 Nb 98.68 O 1.32 1 1974 A 3.306 bcc K 7.85 7.85 T 0.842 mj/mol.K2 6.92 268 "O-content controlled by ANN time(1000C, P(O2)=1.0E-5 Torr)" Effects of intersticial oxygen on the superconductivity of niobium 1974 "PHYS.REV.B,9(1974)888"
112778 1776 Hc2(0) in DB shows Hc2(4.2K). RRR= 2.56 . micro-hardness = 265 kg/mm2. Nb1-xOx Nb98O2 Nb 98 O 2 1 1974 A 3.3093 bcc K 7.33 7.33 T 0.917 mj/mol.K2 6.67 274 "O-content controlled by ANN time(1000C, P(O2)=1.0E-5 Torr)" Effects of intersticial oxygen on the superconductivity of niobium 1974 "PHYS.REV.B,9(1974)888"
112779 1776 Hc2(0) in DB shows Hc2(4.2K). RRR= 1.86 . micro-hardness = 375 kg/mm2. Nb1-xOx Nb96.5O3.5 Nb 96.5 O 3.5 1 1974 A 3.313 bcc K 6.13 6.13 T 0.851 mj/mol.K2 5.94 296 "O-content controlled by ANN time(1000C, P(O2)=1.0E-5 Torr)" Effects of intersticial oxygen on the superconductivity of niobium 1974 "PHYS.REV.B,9(1974)888"
112780 PRB1490231 "RRR = 1500 (three samples with RRR = 1480, 1360, 1670)" Nb Nb1 Nb 1 1 1966 bcc K 9.25 9.25 Oe 1735 T 0.404 MHC12780 heat without O2 Superconducting properties of high-purity niobium 1966 "Iowa State University,Iowa,USA" "Phys.Rev., 149(1966)231"
112781 1300 RRR = 100. Hc2(0) in DB shows Hc2(1.5 K) for H//<110>. Hc2(1.5 K)<001> = 3.92 kOe. Nb Nb1 Nb 1 3 1968 bcc K 9.21 9.21 T 0.416 Precision measurement of anisotropy in the upper critical field of superconducting niobium 1968 "PHYS.REV.,176(1968)562"
112782 P070174512 "lattice const is for 4 unit cell. S-I transition at 215K(P=0) and 0 K(P=2.6GPa). Tc = 7.5*exp(-2*R), where R is residual resistivity in mOhm.cm." Ba6Ge25 Ba6Ge25 Ba 6 Ge 25 1 2004 clathrate A 14.5564 K 0.24 0.24 K/GPa 1.49 T 0.31 T/K 1.49 MHC12782 HF-melting Interplay of superconductivity and structural phase transition in the clathrate Ba6Ge25 2004 M-12782 "Max-Planck-Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.B, 70(2004)174512"
112783 P070174512 "-(dHc2/dT)=1.0 (P=0.74 GPa), 1.03(P=1.85), 1.08 (P=2.73)." Ba4Na2Ge25 Ba4Na2Ge25 Ba 4 Na 2 Ge 25 1 2004 clathrate K 0.84 0.84 T/K 1.11 HF-melting Interplay of superconductivity and structural phase transition in the clathrate Ba6Ge25 2004 M-12782 "Max-Planck-Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.B, 70(2004)174512"
112784 L088167004 Hc2(0)//c = 3.1 T. anisotropy (from Hc2) decreases from 7-8 (T=0K) to 2.3-2.7 (T=Tc). Anisotropy has field dependence. MgB2 B2Mg1 B 2 Mg 1 3 2002 AlB2 "AlB2, C32" K 38.5 38.5 T 23 "heat(1700-1800C, in BN)" Temperature and Field Dependence of the Anisotropy of MgB2 2002 M-12784 "Solid State Physics Laboratory ETH, 8093 Zurich, Switzerland " "Phys.Rev.Lett., 88(2002)167004"
112785 SST0151156 "Hc1, Hc2 for H//c. Anisotropy factor is independent of temperature (=2.1). Hc1(T=28 K) = 31 mT for H//ab.. G-L parameter = 2.1" MgB2 B2Mg1 B 2 Mg 1 3 2002 AlB2 "AlB2, C32" K 38 38 T 0.28 T 3 MHC12785 A 100 A 220 Superconducting critical fields and anisotropy of a MgB2 single crystal 2002 M-12785 "Centre for High Temperature Superconductivity, Blackett Laboratory, Imperial College of Science, Technology and Medicine, London, UK" "Supercond.Sci.Technol., 15(2002)1156"
112786 P069144514 Hc2 is for H//c. SC properties calculated using Hao-Clem model (M-H curve). Hc2(0)//c = 2.80 T by curve fitting. G-L parameter = 6.4 MgB2 B2Mg1 B 2 Mg 1 3 2004 AlB2 "AlB2, C32" K 37.9 37.9 T 2.86 A 107 A 764 Reversible magnetization of MgB2 single crystals with a two-gap nature 2004 M-12786 "University of Science and Technology, Pohang 790-784, Republic of Korea" "Phys.Rev.B, 69(2004)144514"
112787 1398 HC2ZERO in DB means Hc2(4.2K). spin-orbit parameter = 0.6 Ti64Nb36 Nb0.36Ti0.64 Nb 0.36 Ti 0.64 1969 K 9.05 9.05 T 10.9 Some superconducting properties of Ti-Nb-Ta ternary alloys 1969 "J.APPL.PHYS.,40(1969)4457"
112788 1398 HC2ZERO in DB means Hc2(4.2K). spin-orbit parameter = 1.0 "Ti64(Nb,Ta)36" Ti0.64Nb0.34Ta0.02 Ti 0.64 Nb 0.34 Ta 0.02 1969 K 8.99 8.99 T 11.7 Some superconducting properties of Ti-Nb-Ta ternary alloys 1969 "J.APPL.PHYS.,40(1969)4457"
112789 1398 HC2ZERO in DB means Hc2(4.2K). spin-orbit parameter = 1.3 "Ti64(Nb,Ta)36" Ti0.64Nb0.32Ta0.04 Ti 0.64 Nb 0.32 Ta 0.04 1969 K 8.9 8.9 T 11.9 Some superconducting properties of Ti-Nb-Ta ternary alloys 1969 "J.APPL.PHYS.,40(1969)4457"
112790 1398 HC2ZERO in DB means Hc2(4.2K). spin-orbit parameter = 2.5 "Ti64(Nb,Ta)36" Ti0.64Nb0.28Ta0.08 Ti 0.64 Nb 0.28 Ta 0.08 1969 K 8.74 8.74 T 11.9 Some superconducting properties of Ti-Nb-Ta ternary alloys 1969 "J.APPL.PHYS.,40(1969)4457"
112791 1398 HC2ZERO in DB means Hc2(4.2K). spin-orbit parameter = 4.2 "Ti64(Nb,Ta)36" Ti0.64Nb0.26Ta0.1 Ti 0.64 Nb 0.26 Ta 0.1 1969 K 8.56 8.56 T 11.8 Some superconducting properties of Ti-Nb-Ta ternary alloys 1969 "J.APPL.PHYS.,40(1969)4457"
112792 1398 HC2ZERO in DB means Hc2(4.2K). spin-orbit parameter = 7.9 "Ti64(Nb,Ta)36" Ti0.64Nb0.24Ta0.12 Ti 0.64 Nb 0.24 Ta 0.12 1969 K 8.32 8.32 T 11.5 Some superconducting properties of Ti-Nb-Ta ternary alloys 1969 "J.APPL.PHYS.,40(1969)4457"
112793 1398 HC2ZERO in DB means Hc2(4.2K). spin-orbit parameter = 18.2 "Ti64(Nb,Ta)36" Ti0.64Nb0.18Ta0.18 Ti 0.64 Nb 0.18 Ta 0.18 1969 K 8.18 8.18 T 11.01 Some superconducting properties of Ti-Nb-Ta ternary alloys 1969 "J.APPL.PHYS.,40(1969)4457"
112794 1398 HC2ZERO in DB means Hc2(4.2K). "Ti64(Nb,Ta)36" Ti0.64Nb0.1Ta0.26 Ti 0.64 Nb 0.1 Ta 0.26 1969 K 7.78 7.78 T 9.97 Some superconducting properties of Ti-Nb-Ta ternary alloys 1969 "J.APPL.PHYS.,40(1969)4457"
112795 1398 HC2ZERO in DB means Hc2(4.2K). Ti64Ta36 Ta0.36Ti0.64 Ta 0.36 Ti 0.64 1969 K 7.53 7.53 Some superconducting properties of Ti-Nb-Ta ternary alloys 1969 "J.APPL.PHYS.,40(1969)4457"
112796 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Zr-Hf Nb0.4Zr0.3Hf0.3 Nb 0.4 Zr 0.3 Hf 0.3 1967 K T 8.71 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112797 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Ti-Zr-Hf Nb0.4Ti0.2Zr0.2Hf0.2 Nb 0.4 Ti 0.2 Zr 0.2 Hf 0.2 1967 K T 9.11 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112798 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Ti-Zr Nb0.35Zr0.35Ti0.3 Nb 0.35 Zr 0.35 Ti 0.3 1967 K T 9.98 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112799 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Ti-Zr Nb0.35Zr0.2Ti0.45 Nb 0.35 Zr 0.2 Ti 0.45 1967 K T 10.4 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112800 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Ti-Hf Nb0.32Ti0.64Hf0.04 Nb 0.32 Ti 0.64 Hf 0.04 1967 K T 11.4 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112801 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Ti-Zr-Ta Nb0.39Ti0.53Zr0.04Ta0.04 Nb 0.39 Ti 0.53 Zr 0.04 Ta 0.04 1967 K T 11.86 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112802 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Ti-Ta Nb0.36Ti0.6Ta0.04 Nb 0.36 Ti 0.6 Ta 0.04 1967 K T 12.41 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112803 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Ti Nb0.4Ti0.6 Nb 0.4 Ti 0.6 1967 K T 11.79 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112804 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Ti-W Nb0.35Ti0.64W0.01 Nb 0.35 Ti 0.64 W 0.01 1967 K T 11.39 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112805 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Ti-Mo Nb0.34Ti0.65Mo0.01 Nb 0.34 Ti 0.65 Mo 0.01 1967 K T 11.23 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112806 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Ti-Hf-V Nb0.4Ti0.52Hf0.04V0.04 Nb 0.4 Ti 0.52 Hf 0.04 V 0.04 1967 K T 11.02 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112807 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Ta-Ti-Hf Nb0.42Ta0.04Ti0.5Hf0.04 Nb 0.42 Ta 0.04 Ti 0.5 Hf 0.04 1967 K T 10.79 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112808 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Ti-Zr Nb0.5Ti0.45Zr0.05 Nb 0.5 Ti 0.45 Zr 0.05 1967 K T 9.84 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112809 1391 HC2ZERO in DB means Hc2(4.2K). Ta-Ti Ta0.53Ti0.47 Ta 0.53 Ti 0.47 1967 K T 8.73 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112810 1391 HC2ZERO in DB means Hc2(4.2K). Ta-Ti-Zr Ta0.63Ti0.3Zr0.07 Ta 0.63 Ti 0.3 Zr 0.07 1967 K T 7.77 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112811 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Zr-Ti Nb0.77Zr0.13Ti0.1 Nb 0.77 Zr 0.13 Ti 0.1 1967 K T 8.02 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112812 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Zr-Ti Nb0.8Ti0.1Zr0.1 Nb 0.8 Ti 0.1 Zr 0.1 1967 K T 7.71 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112813 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Ti Nb0.76Ti0.24 Nb 0.76 Ti 0.24 1967 K T 6 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112814 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Zr-Ti Nb0.78Ti0.21Zr0.01 Nb 0.78 Ti 0.21 Zr 0.01 1967 K T 5.59 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112815 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Zr-Fe Nb0.8Ti0.19Fe0.01 Nb 0.8 Ti 0.19 Fe 0.01 1967 K T 4.09 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112816 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Zr-Ti Nb0.58Ti0.3Zr0.12 Nb 0.58 Ti 0.3 Zr 0.12 1967 K T 9.14 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112817 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Ti-Zr Nb0.6Ti0.3Zr0.1 Nb 0.6 Ti 0.3 Zr 0.1 1967 K T 8.79 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112818 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Ti-Zr Nb0.69Ti0.15Zr0.16 Nb 0.69 Ti 0.15 Zr 0.16 1967 K T 7.73 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112819 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Ti-Zr Nb0.66Ti0.15Zr0.19 Nb 0.66 Ti 0.15 Zr 0.19 1967 K T 7.61 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112820 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Zr-Hf-Ti Nb0.67Zr0.11Hf0.11Ti0.11 Nb 0.67 Zr 0.11 Hf 0.11 Ti 0.11 1967 K T 7.16 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112821 1391 HC2ZERO in DB means Hc2(4.2K). Nb-Zr-Hf Nb0.74Zr0.13Hf0.13 Nb 0.74 Zr 0.13 Hf 0.13 1967 K T 6.59 Probable upper limit of Hc2 for some higher-order ductile transition-metal superconducting alloys 1967 "J.APPL.PHYS.,38(1967)903"
112822 1775 Hc2 by permeability. PENET is London penetration depth. Nb Nb1 Nb 1 1974 K 9.273 9.273 A 387 A 314 Surface superconductivity in niobium and niobium-tantalum alloys 1974 "PHYS.REV.B,9(1974)108"
112823 1775 Hc2 by permeability. PENET is London penetration depth. Nb1-xTax Nb0.995Ta0.005 Nb 0.995 Ta 0.005 1974 K 9.226 9.226 A 343 A 353 Surface superconductivity in niobium and niobium-tantalum alloys 1974 "PHYS.REV.B,9(1974)108"
112824 1775 Hc2 by permeability. PENET is London penetration depth. Nb1-xTax Nb0.99Ta0.01 Nb 0.99 Ta 0.01 1974 K 9.079 9.079 A 268 A 456 Surface superconductivity in niobium and niobium-tantalum alloys 1974 "PHYS.REV.B,9(1974)108"
112825 253 Ti1-xVx Ti0.415V0.585 Ti 0.415 V 0.585 1961 K 7.49 7.49 mj/mol.K2 10.5 376 SUPERCONDUCTING SOLID SOLUTION ALLOYS OF THE TRANSITION ELEMENTS 1961 "PHYS.REV.,123(1961)1569"
112826 253 Ti1-xVx Ti0.106V0.894 Ti 0.106 V 0.894 1961 K 6.86 6.86 mj/mol.K2 11.3 348 SUPERCONDUCTING SOLID SOLUTION ALLOYS OF THE TRANSITION ELEMENTS 1961 "PHYS.REV.,123(1961)1569"
112827 1352 NMR of Nb< 93 > measured Nb Nb1 Nb 1 1967 K 9.2 9.2 mj/mol.K2 7.9 242 Nuclear magnetic resonance and specific heat measurements of transition metal and alloys; Ti-V-Fe and Zr-Nb-Mo systems 1967 "J.PHYS.SOC.JAPAN,22(1967)238"
112828 1352 NMR of Nb< 93 > measured Nb1-xZrx Nb0.75Zr0.25 Nb 0.75 Zr 0.25 1967 K 10.6 10.6 mj/mol.K2 10.2 215 Nuclear magnetic resonance and specific heat measurements of transition metal and alloys; Ti-V-Fe and Zr-Nb-Mo systems 1967 "J.PHYS.SOC.JAPAN,22(1967)238"
112829 1352 NMR of Nb< 93 > measured Nb1-xZrx Nb0.65Zr0.35 Nb 0.65 Zr 0.35 1967 K 10.6 10.6 mj/mol.K2 9.5 225 Nuclear magnetic resonance and specific heat measurements of transition metal and alloys; Ti-V-Fe and Zr-Nb-Mo systems 1967 "J.PHYS.SOC.JAPAN,22(1967)238"
112830 1352 NMR of Nb< 93 > measured Nb1-xZrx Nb0.5Zr0.5 Nb 0.5 Zr 0.5 1967 K 9.7 9.7 mj/mol.K2 8.5 202 Nuclear magnetic resonance and specific heat measurements of transition metal and alloys; Ti-V-Fe and Zr-Nb-Mo systems 1967 "J.PHYS.SOC.JAPAN,22(1967)238"
112831 1352 NMR of Nb< 93 > measured Nb1-xZrx Nb0.25Zr0.75 Nb 0.25 Zr 0.75 1967 K 8.3 8.3 mj/mol.K2 6.7 183 Nuclear magnetic resonance and specific heat measurements of transition metal and alloys; Ti-V-Fe and Zr-Nb-Mo systems 1967 "J.PHYS.SOC.JAPAN,22(1967)238"
112832 1356 thermodynamic Hc(0) = 797 Oe. G-L parameter = 0.59 Ta1-xNbx Nb0.016Ta0.984 Nb 0.016 Ta 0.984 1970 K 4.47 4.47 Oe 847 Magnetic Properties of Superconducting Tantalum-Niobium Alloys 1970 "J.Phys.Soc.Japan, 29(1970)1209"
112833 1356 thermodynamic Hc(0) = 800 Oe. G-L parameter = 0.71 Ta1-xNbx Nb0.025Ta0.975 Nb 0.025 Ta 0.975 1970 K 4.465 4.465 Oe 773 Oe 993 Magnetic Properties of Superconducting Tantalum-Niobium Alloys 1970 "J.Phys.Soc.Japan, 29(1970)1209"
112834 1356 thermodynamic Hc(0) = 817 Oe. G-L parameter = 0.841 Ta1-xNbx Nb0.04Ta0.96 Nb 0.04 Ta 0.96 1970 K 4.47 4.47 Oe 772 Oe 1172 Magnetic Properties of Superconducting Tantalum-Niobium Alloys 1970 "J.Phys.Soc.Japan, 29(1970)1209"
112835 1356 thermodynamic Hc(0) = 882 Oe. G-L parameter = 1.21 Ta1-xNbx Nb0.08Ta0.92 Nb 0.08 Ta 0.92 1970 K 4.54 4.54 Oe 768 Oe 1780 Magnetic Properties of Superconducting Tantalum-Niobium Alloys 1970 "J.Phys.Soc.Japan, 29(1970)1209"
112836 1356 Ta1-xNbx Nb0.16Ta0.84 Nb 0.16 Ta 0.84 1970 K 4.67 4.67 Oe 2980 Magnetic Properties of Superconducting Tantalum-Niobium Alloys 1970 "J.Phys.Soc.Japan, 29(1970)1209"
112837 1356 Ta Ta1 Ta 1 1970 K 4.48 4.48 Magnetic Properties of Superconducting Tantalum-Niobium Alloys 1970 "J.Phys.Soc.Japan, 29(1970)1209"
112838 1781 Hc(0) = 815 Oe. (delta-C/gamma*Tc) = 1.57. e-ph coupling = 0.648. Ta Ta1 Ta 1 1972 K 4.425 4.425 3.57 mj/mol.K2 5.96 254 Specific heat and magnetic measurements in superconducting Ta-Nb alloys 1972 "PHYS.REV.B,6(1972)2609"
112839 1781 Hc(0) = 842 Oe. (delta-C/gamma*Tc) = 1.61. e-ph coupling = 0.650. Ta1-xNbx Nb0.037Ta0.963 Nb 0.037 Ta 0.963 1972 K 4.51 4.51 3.59 mj/mol.K2 6.06 256 Specific heat and magnetic measurements in superconducting Ta-Nb alloys 1972 "PHYS.REV.B,6(1972)2609"
112840 1781 Hc(0) = 894 Oe. (delta-C/gamma*Tc) = 1.62. e-ph coupling = 0.660. Ta1-xNbx Nb0.14Ta0.86 Nb 0.14 Ta 0.86 1972 K 4.76 4.76 MTC12840 3.62 mj/mol.K2 6.17 258 Specific heat and magnetic measurements in superconducting Ta-Nb alloys 1972 "PHYS.REV.B,6(1972)2609"
112841 1781 Hc(0) = 1100 Oe. (delta-C/gamma*Tc) = 1.68. e-ph coupling = 0.698. Ta1-xNbx Nb0.405Ta0.595 Nb 0.405 Ta 0.595 1972 K 5.72 5.72 3.66 mj/mol.K2 6.46 260 Specific heat and magnetic measurements in superconducting Ta-Nb alloys 1972 "PHYS.REV.B,6(1972)2609"
112842 1781 Hc(0) = 1295 Oe. (delta-C/gamma*Tc) = 1.72. e-ph coupling = 0.731. Ta1-xNbx Nb0.58Ta0.42 Nb 0.58 Ta 0.42 1972 K 6.54 6.54 3.69 mj/mol.K2 6.73 261 Specific heat and magnetic measurements in superconducting Ta-Nb alloys 1972 "PHYS.REV.B,6(1972)2609"
112843 1307 V V1 V 1 1970 K 5.17 5.17 E+3 A/m 106 mj/mol.K2 9.45 377 1970 "PHYS.STAT.SOL.,40(1970)657"
112844 1307 V1-xNbx Nb0.15V0.85 Nb 0.15 V 0.85 1970 K 4.3 4.3 E+3 A/m 84.7 mj/mol.K2 9.19 364 1970 "PHYS.STAT.SOL.,40(1970)657"
112845 1307 V1-xNbx Nb0.2V0.8 Nb 0.2 V 0.8 1970 K 4.03 4.03 E+3 A/m 76.3 mj/mol.K2 8.72 326 1970 "PHYS.STAT.SOL.,40(1970)657"
112846 1307 V1-xNbx Nb0.5V0.5 Nb 0.5 V 0.5 1970 K 4.25 4.25 E+3 A/m 76.2 mj/mol.K2 8.3 298 1970 "PHYS.STAT.SOL.,40(1970)657"
112847 1307 V1-xNbx Nb0.69V0.31 Nb 0.69 V 0.31 1970 K 4.9 4.9 E+3 A/m 84.4 mj/mol.K2 7.97 285 1970 "PHYS.STAT.SOL.,40(1970)657"
112848 1307 V1-xNbx Nb0.8V0.2 Nb 0.8 V 0.2 1970 K 5.76 5.76 E+3 A/m 97 mj/mol.K2 7.9 275 1970 "PHYS.STAT.SOL.,40(1970)657"
112849 1307 V1-xNbx Nb0.9V0.1 Nb 0.9 V 0.1 1970 K 6.95 6.95 E+3 A/m 119.1 mj/mol.K2 7.77 266 1970 "PHYS.STAT.SOL.,40(1970)657"
112850 1307 Nb Nb1 Nb 1 1970 K 9.18 9.18 E+3 A/m 150 mj/mol.K2 7.74 248 1970 "PHYS.STAT.SOL.,40(1970)657"
112851 1307 V1-xTax Ta0.1V0.9 Ta 0.1 V 0.9 1970 K 4.47 4.47 E+3 A/m 87 mj/mol.K2 8.78 341 1970 "PHYS.STAT.SOL.,40(1970)657"
112852 1307 V1-xTax Ta0.24V0.76 Ta 0.24 V 0.76 1970 K 3.58 3.58 E+3 A/m 67 mj/mol.K2 8.48 300 1970 "PHYS.STAT.SOL.,40(1970)657"
112853 1307 V1-xTax Ta0.5V0.5 Ta 0.5 V 0.5 1970 K 2.73 2.73 E+3 A/m 46.5 mj/mol.K2 7.62 273 1970 "PHYS.STAT.SOL.,40(1970)657"
112854 1307 V1-xTax Ta0.7V0.3 Ta 0.7 V 0.3 1970 K 3 3 E+3 A/m 45.6 mj/mol.K2 6.41 256 1970 "PHYS.STAT.SOL.,40(1970)657"
112855 1307 V1-xTax Ta0.9V0.1 Ta 0.9 V 0.1 1970 K 3.58 3.58 E+3 A/m 50 mj/mol.K2 5.7 250 1970 "PHYS.STAT.SOL.,40(1970)657"
112856 1307 Ta Ta1 Ta 1 1970 K 4.33 4.33 E+3 A/m 61.2 mj/mol.K2 5.85 251 1970 "PHYS.STAT.SOL.,40(1970)657"
112857 1307 Nb1-xTax Nb0.8Ta0.2 Nb 0.8 Ta 0.2 1970 K 7.42 7.42 E+3 A/m 117.2 mj/mol.K2 7.25 257 1970 "PHYS.STAT.SOL.,40(1970)657"
112858 1307 Nb1-xTax Nb0.7Ta0.3 Nb 0.7 Ta 0.3 1970 K 6.8 6.8 E+3 A/m 103.5 mj/mol.K2 6.76 263 1970 "PHYS.STAT.SOL.,40(1970)657"
112859 1307 Nb1-xTax Nb0.5Ta0.5 Nb 0.5 Ta 0.5 1970 K 5.93 5.93 E+3 A/m 88.3 mj/mol.K2 6.53 260 1970 "PHYS.STAT.SOL.,40(1970)657"
112860 1307 Nb1-xTax Nb0.3Ta0.7 Nb 0.3 Ta 0.7 1970 K 5.15 5.15 E+3 A/m 72.8 mj/mol.K2 6.2 260 1970 "PHYS.STAT.SOL.,40(1970)657"
112861 1307 Nb1-xTax Nb0.15Ta0.85 Nb 0.15 Ta 0.85 1970 K 4.58 4.58 E+3 A/m 65.6 mj/mol.K2 5.99 255 1970 "PHYS.STAT.SOL.,40(1970)657"
112862 314 V V1 V 1 1959 K 5.32 5.32 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112863 314 V1-xCrx Cr0.0018V0.9982 Cr 0.0018 V 0.9982 1959 K 5.15 5.15 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112864 314 V1-xCrx Cr0.0033V0.9967 Cr 0.0033 V 0.9967 1959 K 5.07 5.07 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112865 314 V1-xCrx Cr0.0081V0.9919 Cr 0.0081 V 0.9919 1959 K 4.78 4.78 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112866 314 V1-xCrx Cr0.0132V0.9868 Cr 0.0132 V 0.9868 1959 K 4.57 4.57 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112867 314 V1-xCrx Cr0.0265V0.9735 Cr 0.0265 V 0.9735 1959 K 3.89 3.89 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112868 314 V1-xTix Ti0.5V0.5 Ti 0.5 V 0.5 1959 K 6.71 6.71 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112869 314 V1-xTix Ti0.1V0.9 Ti 0.1 V 0.9 1959 K 6.03 6.03 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112870 314 V1-xTix Ti0.03V0.97 Ti 0.03 V 0.97 1959 K 5.58 5.58 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112871 314 V1-xTix Ti0.01V0.99 Ti 0.01 V 0.99 1959 K 5.42 5.42 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112872 314 V1-xCrx Cr0.01V0.99 Cr 0.01 V 0.99 1959 K 4.8 4.8 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112873 314 V1-xCrx Cr0.02V0.98 Cr 0.02 V 0.98 1959 K 4.08 4.08 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112874 314 V1-xCrx Cr0.026V0.974 Cr 0.026 V 0.974 1959 K 3.66 3.66 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112875 314 V1-xCrx Cr0.055V0.945 Cr 0.055 V 0.945 1959 K 1.89 1.89 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112876 314 V1-xCox Co0.007V0.993 Co 0.007 V 0.993 1959 K 4.52 4.52 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112877 314 V1-xCox Co0.017V0.983 Co 0.017 V 0.983 1959 K 3.28 3.28 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112878 314 V1-xCox Co0.02V0.98 Co 0.02 V 0.98 1959 K 2.61 2.61 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112879 314 V1-xCox Co0.03V0.97 Co 0.03 V 0.97 1959 K 1.48 1.48 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112880 314 V1-xNix Ni0.011V0.989 Ni 0.011 V 0.989 1959 K 3.82 3.82 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112881 314 V1-xNix Ni0.02V0.98 Ni 0.02 V 0.98 1959 K 3.29 3.29 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112882 314 V1-xNix Ni0.03V0.97 Ni 0.03 V 0.97 1959 K 2.11 2.11 Supraleitung in Mischkristallen des Vanadiums mit Ubergangselementen 1959 "HELV.PHYS.ACTA,32(1959)141"
112883 1579 Zr1-xNbx Nb0.25Zr0.75 Nb 0.25 Zr 0.75 1972 K 8.6 8.6 The superconducting transition behavior of Zr-Nb binary alloys 1972 "J.NUCLEAR MATERIALS,43(1972)258"
112884 1579 Zr1-xNbx Nb0.35Zr0.65 Nb 0.35 Zr 0.65 1972 K 9.45 9.45 MTC12884 The superconducting transition behavior of Zr-Nb binary alloys 1972 "J.NUCLEAR MATERIALS,43(1972)258"
112885 1579 Zr1-xNbx Nb0.5Zr0.5 Nb 0.5 Zr 0.5 1972 K 10.3 10.3 The superconducting transition behavior of Zr-Nb binary alloys 1972 "J.NUCLEAR MATERIALS,43(1972)258"
112886 847 alpha-phase Zr1-xNbx Nb0.005Zr0.995 Nb 0.005 Zr 0.995 1968 K 1.86 1.86 Superconducting transition temperatures of zirconium-niobium alloys 1968 "J.LESS-COMMON METALS,15(1968)437"
112887 847 Zr1-xNbx Nb0.5Zr0.5 Nb 0.5 Zr 0.5 1968 K 10.4 10.4 MTC12887 Superconducting transition temperatures of zirconium-niobium alloys 1968 "J.LESS-COMMON METALS,15(1968)437"
112888 847 Zr1-xNbx Nb0.75Zr0.25 Nb 0.75 Zr 0.25 1968 K 10.7 10.7 Superconducting transition temperatures of zirconium-niobium alloys 1968 "J.LESS-COMMON METALS,15(1968)437"
112889 1236 a'-phase "Nb3(Sn,Sb)" Nb3Sn1 Nb 3 Sn 1 1967 A 5.2921 K 18.1 18.1 Superconducting transition temperature and electronic structure in the pseudobinary Nb3Al-Nb3Sn and Nb3Sn-Nb3Sb 1967 "J.PHYS.CHEM.SOLIDS, 28(1967)889"
112890 1236 a'-phase "Nb3(Sn,Sb)" Nb3Sn0.8Sb0.2 Nb 3 Sn 0.8 Sb 0.2 1967 A 5.2862 K 16.5 16.5 MTC12890 Superconducting transition temperature and electronic structure in the pseudobinary Nb3Al-Nb3Sn and Nb3Sn-Nb3Sb 1967 "J.PHYS.CHEM.SOLIDS, 28(1967)889"
112891 1236 "a'+a'' phase. For a''-phase, a = 5.2704" "Nb3(Sn,Sb)" Nb3Sn0.7Sb0.3 Nb 3 Sn 0.7 Sb 0.3 1967 A 5.283 K 15.8 15.8 MTC12890 Superconducting transition temperature and electronic structure in the pseudobinary Nb3Al-Nb3Sn and Nb3Sn-Nb3Sb 1967 "J.PHYS.CHEM.SOLIDS, 28(1967)889"
112892 1236 "a'+a'' phase. For a''-phase, a = 5.2694" "Nb3(Sn,Sb)" Nb3Sn0.5Sb0.5 Nb 3 Sn 0.5 Sb 0.5 1967 A 5.2822 K 14.4 14.4 Superconducting transition temperature and electronic structure in the pseudobinary Nb3Al-Nb3Sn and Nb3Sn-Nb3Sb 1967 "J.PHYS.CHEM.SOLIDS, 28(1967)889"
112893 1066 Nb3Al Al1Nb3 Al 1 Nb 3 1966 Cr3Si(A15) "Cr3Si, A15" K 18.2 18.2 MTC12893 1966 "Z.PHYS.,189(1966)401"
112894 1066 V3Si Si1V3 Si 1 V 3 1966 Cr3Si(A15) "Cr3Si, A15" K 17 17 MTC12894 1966 "Z.PHYS.,189(1966)401"
112895 1066 Nb3Ga Ga1Nb3 Ga 1 Nb 3 1966 Cr3Si(A15) "Cr3Si, A15" K 16 16 MTC12895 1966 "Z.PHYS.,189(1966)401"
112896 1066 Nb3Sn NbSn3 Nb 1 Sn 3 1966 Cr3Si(A15) A 5.2872 "Cr3Si, A15" K 18 18 1966 "Z.PHYS.,189(1966)401"
112897 1066 "(Nb,Ti)3Sn" Nb2.85Ti0.15Sn1 Nb 2.85 Ti 0.15 Sn 1 1966 Cr3Si(A15) "Cr3Si, A15" K 17.9 17.9 1966 "Z.PHYS.,189(1966)401"
112898 1066 "(Nb,Ti)3Sn" Nb2.7Ti0.3Sn1 Nb 2.7 Ti 0.3 Sn 1 1966 Cr3Si(A15) "Cr3Si, A15" K 16.4 16.4 1966 "Z.PHYS.,189(1966)401"
112899 1066 "(Nb,Ti)3Sn" Nb2.55Ti0.45Sn1 Nb 2.55 Ti 0.45 Sn 1 1966 Cr3Si(A15) "Cr3Si, A15" K 15.6 15.6 1966 "Z.PHYS.,189(1966)401"
112900 1066 "(Nb,Zr)3Sn" Nb2.85Zr0.15Sn1 Nb 2.85 Zr 0.15 Sn 1 1966 Cr3Si(A15) "Cr3Si, A15" K 18.1 18.1 1966 "Z.PHYS.,189(1966)401"
112901 1066 "(Nb,Zr)3Sn" Nb2.7Zr0.3Sn1 Nb 2.7 Zr 0.3 Sn 1 1966 Cr3Si(A15) "Cr3Si, A15" K 18.1 18.1 1966 "Z.PHYS.,189(1966)401"
112902 1066 "(Nb,Zr)3Sn" Nb2.55Zr0.45Sn1 Nb 2.55 Zr 0.45 Sn 1 1966 Cr3Si(A15) "Cr3Si, A15" K 17.9 17.9 1966 "Z.PHYS.,189(1966)401"
112903 1066 "(Nb,Zr)3Sn" Nb2.34Zr0.66Sn1 Nb 2.34 Zr 0.66 Sn 1 1966 Cr3Si(A15) "Cr3Si, A15" K 17.7 17.7 1966 "Z.PHYS.,189(1966)401"
112904 1066 "(Nb,Zr)3Sn" Nb2.1Zr0.9Sn1 Nb 2.1 Zr 0.9 Sn 1 1966 Cr3Si(A15) "Cr3Si, A15" K 17.7 17.7 1966 "Z.PHYS.,189(1966)401"
112905 1066 "(Nb,V)3Sn" Nb2.934V0.066Sn1 Nb 2.934 V 0.066 Sn 1 1966 Cr3Si(A15) A 5.2844 "Cr3Si, A15" K 17.7 17.7 1966 "Z.PHYS.,189(1966)401"
112906 1066 "(Nb,V)3Sn" Nb2.85V0.15Sn1 Nb 2.85 V 0.15 Sn 1 1966 Cr3Si(A15) A 5.2791 "Cr3Si, A15" K 17.1 17.1 1966 "Z.PHYS.,189(1966)401"
112907 1066 "(Nb,V)3Sn" Nb2.7V0.3Sn1 Nb 2.7 V 0.3 Sn 1 1966 Cr3Si(A15) A 5.2731 "Cr3Si, A15" K 15.9 15.9 1966 "Z.PHYS.,189(1966)401"
112908 1066 "(Nb,V)3Sn" Nb2.55V0.45Sn1 Nb 2.55 V 0.45 Sn 1 1966 Cr3Si(A15) A 5.2671 "Cr3Si, A15" K 15 15 1966 "Z.PHYS.,189(1966)401"
112909 1066 "(Nb,Ta)3Sn" Nb2.85Ta0.15Sn1 Nb 2.85 Ta 0.15 Sn 1 1966 Cr3Si(A15) A 5.2858 "Cr3Si, A15" K 18.3 18.3 1966 "Z.PHYS.,189(1966)401"
112910 1066 "(Nb,Ta)3Sn" Nb2.7Ta0.3Sn1 Nb 2.7 Ta 0.3 Sn 1 1966 Cr3Si(A15) A 2.2849 "Cr3Si, A15" K 18 18 1966 "Z.PHYS.,189(1966)401"
112911 1066 "(Nb,Ta)3Sn" Nb2.4Ta0.6Sn1 Nb 2.4 Ta 0.6 Sn 1 1966 Cr3Si(A15) A 5.2837 "Cr3Si, A15" K 17.3 17.3 1966 "Z.PHYS.,189(1966)401"
112912 1066 "(Nb,Ta)3Sn" Nb2.1Ta0.9Sn1 Nb 2.1 Ta 0.9 Sn 1 1966 Cr3Si(A15) A 5.2826 "Cr3Si, A15" K 16 16 1966 "Z.PHYS.,189(1966)401"
112913 1066 "(Nb,Ta)3Sn" Nb1.8Ta1.2Sn1 Nb 1.8 Ta 1.2 Sn 1 1966 Cr3Si(A15) A 5.2809 "Cr3Si, A15" K 14.1 14.1 1966 "Z.PHYS.,189(1966)401"
112914 1066 V3Ga Ga1V3 Ga 1 V 3 1966 Cr3Si(A15) "Cr3Si, A15" K 14.5 14.5 1966 "Z.PHYS.,189(1966)401"
112915 1513 RRR = 2.60. Thermal conductivity measured. Nb1-xMox Mo0.2Nb0.8 Mo 0.2 Nb 0.8 1969 K 4.23 4.23 Lattice thermal conductivity of Ta-Nb and Nb-Mo solid solution alloys in normal and superconducting states 1969 "J.PHYS.C,(SOLID ST.PHYS.),2(1969)629"
112916 1513 RRR = 3.20. Thermal conductivity measured. Nb1-xMox Mo0.15Nb0.85 Mo 0.15 Nb 0.85 1969 K 5.3 5.3 Lattice thermal conductivity of Ta-Nb and Nb-Mo solid solution alloys in normal and superconducting states 1969 "J.PHYS.C,(SOLID ST.PHYS.),2(1969)629"
112917 1513 RRR = 6.00. Thermal conductivity measured. Nb1-xMox Mo0.02Nb0.98 Mo 0.02 Nb 0.98 1969 K 8.58 8.58 Lattice thermal conductivity of Ta-Nb and Nb-Mo solid solution alloys in normal and superconducting states 1969 "J.PHYS.C,(SOLID ST.PHYS.),2(1969)629"
112918 1513 RRR = 700. Thermal conductivity measured. Nb Nb1 Nb 1 1969 K 9.1 9.1 Lattice thermal conductivity of Ta-Nb and Nb-Mo solid solution alloys in normal and superconducting states 1969 "J.PHYS.C,(SOLID ST.PHYS.),2(1969)629"
112919 1513 RRR = 3.58. Thermal conductivity measured. Ta1-xNbx Nb0.4Ta0.6 Nb 0.4 Ta 0.6 1969 K 5.4 5.4 Lattice thermal conductivity of Ta-Nb and Nb-Mo solid solution alloys in normal and superconducting states 1969 "J.PHYS.C,(SOLID ST.PHYS.),2(1969)629"
112920 1513 RRR = 6.60. Thermal conductivity measured. Ta1-xNbx Nb0.2Ta0.8 Nb 0.2 Ta 0.8 1969 K 4.64 4.64 Lattice thermal conductivity of Ta-Nb and Nb-Mo solid solution alloys in normal and superconducting states 1969 "J.PHYS.C,(SOLID ST.PHYS.),2(1969)629"
112921 1513 RRR = 13.5. Thermal conductivity measured. Ta1-xNbx Nb0.1Ta0.9 Nb 0.1 Ta 0.9 1969 K 4.55 4.55 Lattice thermal conductivity of Ta-Nb and Nb-Mo solid solution alloys in normal and superconducting states 1969 "J.PHYS.C,(SOLID ST.PHYS.),2(1969)629"
112922 1513 RRR = 32. Thermal conductivity measured. Ta1-xNbx Nb0.05Ta0.95 Nb 0.05 Ta 0.95 1969 K 4.45 4.45 Lattice thermal conductivity of Ta-Nb and Nb-Mo solid solution alloys in normal and superconducting states 1969 "J.PHYS.C,(SOLID ST.PHYS.),2(1969)629"
112923 1513 RRR = 160. Thermal conductivity measured. Ta Ta1 Ta 1 1969 K 4.48 4.48 Lattice thermal conductivity of Ta-Nb and Nb-Mo solid solution alloys in normal and superconducting states 1969 "J.PHYS.C,(SOLID ST.PHYS.),2(1969)629"
112924 301 PdxTe2 Pd1Te2 Pd 1 Te 2 3 1961 K 1.53 1.53 "PdTe2, ein Supraleiter mit CdJ2-Structur" 1961 "HELV.PHYS.ACTA,34(1961)408"
112925 301 PdxTe2 Pd1.05Te2 Pd 1.05 Te 2 1 1961 K 1.77 1.77 "PdTe2, ein Supraleiter mit CdJ2-Structur" 1961 "HELV.PHYS.ACTA,34(1961)408"
112926 301 PdxTe2 Pd1.25Te2 Pd 1.25 Te 2 1 1961 K 2.2 2.2 "PdTe2, ein Supraleiter mit CdJ2-Structur" 1961 "HELV.PHYS.ACTA,34(1961)408"
112927 301 PdxTe2 Pd1.5Te2 Pd 1.5 Te 2 1 1961 K 2.21 2.21 "PdTe2, ein Supraleiter mit CdJ2-Structur" 1961 "HELV.PHYS.ACTA,34(1961)408"
112928 301 PdxTe2 Pd1.75Te2 Pd 1.75 Te 2 1 1961 K 2.25 2.25 "PdTe2, ein Supraleiter mit CdJ2-Structur" 1961 "HELV.PHYS.ACTA,34(1961)408"
112929 1758 poly powder. Tc-width = 0.15 K. NbSe2.2 Nb1Se2.2 Nb 1 Se 2.2 1 1974 2H-NbSe2 K 6.35 6.35 K/GPa 0.45 Pressure enhanced superconductivity in NbSe2 1974 "J.PHYS.F:METAL PHYS.,4(1974)2009"
112930 1758 poly powder. Tc-width = 0.05 K. NbSe2.2 Nb1Se2.2 Nb 1 Se 2.2 1 1974 2H-NbSe2 K 6.35 6.35 K/GPa 0.7 Pressure enhanced superconductivity in NbSe2 1974 "J.PHYS.F:METAL PHYS.,4(1974)2009"
112931 1758 poly powder. Tc-width = 0.15 K. NbSe2.2 Nb1Se2.2 Nb 1 Se 2.2 1 1974 2H-NbSe2 A 3.44 25.2 K 7 7 K/GPa 0.45 Pressure enhanced superconductivity in NbSe2 1974 "J.PHYS.F:METAL PHYS.,4(1974)2009"
112932 1758 single flake. Tc-width = 0.02 K. NbSe2 Nb1Se2 Nb 1 Se 2 3 1974 2H-NbSe2 A 3.45 12.54 K 7.17 7.17 K/GPa 0.495 Pressure enhanced superconductivity in NbSe2 1974 "J.PHYS.F:METAL PHYS.,4(1974)2009"
112933 1758 poly powder. Tc-width = 0.03 K. NbSe2 Nb1Se2 Nb 1 Se 2 1 1974 2H-NbSe2 K 7.02 7.02 K/GPa 0.7 Pressure enhanced superconductivity in NbSe2 1974 "J.PHYS.F:METAL PHYS.,4(1974)2009"
112934 1758 poly powder. Tc-width = 0.02 K. NbxSe2 Nb1.01Se2 Nb 1.01 Se 2 1974 2H-NbSe2 A 3.44 12.55 K 7.05 7.05 K/GPa 0.45 Pressure enhanced superconductivity in NbSe2 1974 "J.PHYS.F:METAL PHYS.,4(1974)2009"
112935 1758 poly powder. Tc-width = 0.03 K. NbxSe2 Nb1.02Se2 Nb 1.02 Se 2 1974 2H-NbSe2 A 3.45 12.57 K 6.75 6.75 K/GPa 0.41 Pressure enhanced superconductivity in NbSe2 1974 "J.PHYS.F:METAL PHYS.,4(1974)2009"
112936 1758 poly powder. Tc-width = 0.3 K. NbxSe2 Nb1.05Se2 Nb 1.05 Se 2 1974 2H-NbSe2 A 3.45 12.59 K 4.86 4.86 K/GPa 0.8 Pressure enhanced superconductivity in NbSe2 1974 "J.PHYS.F:METAL PHYS.,4(1974)2009"
112937 318 "thermodynamic H0 = 302.9 Oe. impurity effect (In, Cd, Sb, Hg, Zn, Bi, Pb < 0.3 at %) was investigated." Sn Sn1 Sn 1 1957 K 3.734 3.734 mj/mol.K2 1.72 The superconductive critical temperature and the electronic specific heat of impure TiN 1957 "J.PHYS.CHEM.SOLIDS,3(1957)165"
112938 1771 Hc2(0) at 4.2 K. HRRR = 33.4 Nb Nb1 Nb 1 1975 K 9.16 9.16 kOe 3.19 ANN(1500C) The effect of yttrium or gadorinium on the superconducting transition temperature of niobium 1975 "J.LESS-COMMON.MET.,40(1975)29"
112939 1771 Hc2(0) at 4.2 K. RRR = 59.7 Nb1-xYx Nb0.999Y0.001 Nb 0.999 Y 0.001 1975 K 9.27 9.27 kOe 2.91 ANN(1500C) The effect of yttrium or gadorinium on the superconducting transition temperature of niobium 1975 "J.LESS-COMMON.MET.,40(1975)29"
112940 1771 Hc2(0) at 4.2 K. RRR = 67.6 Nb1-xYx Nb0.98Y0.02 Nb 0.98 Y 0.02 1975 K 9.26 9.26 kOe 3.01 ANN(1500C) The effect of yttrium or gadorinium on the superconducting transition temperature of niobium 1975 "J.LESS-COMMON.MET.,40(1975)29"
112941 1771 Hc2(0) at 4.2 K. RRR = 78.4 Nb1-xGdx Gd0.001Nb0.999 Gd 0.001 Nb 0.999 1975 K 9.18 9.18 kOe 2.95 ANN(1500C) The effect of yttrium or gadorinium on the superconducting transition temperature of niobium 1975 "J.LESS-COMMON.MET.,40(1975)29"
112942 1771 Hc2(0) at 4.2 K. RRR = 71.3 Nb1-xGdx Gd0.01Nb0.99 Gd 0.01 Nb 0.99 1975 K 9.19 9.19 kOe 2.93 ANN(1500C) The effect of yttrium or gadorinium on the superconducting transition temperature of niobium 1975 "J.LESS-COMMON.MET.,40(1975)29"
112943 786 P-induced SC. SC observed for 170 < P < 26 kbar. Tc and Hc2(0) at P = 170 kbar. P P1 P 1 1968 K 5.8 5.8 kOe 4.8 Superconductivity of phosphorus at high pressure 1968 "JETP Lett., 7(1968)323"
112944 1450 TiOx O0.95Ti1 O 0.95 Ti 1 1972 K 0.8 0.8 kOe/K 3.7 mj/mol.K2 0.89 Superconductivity in the TiO and NbO systems 1972 "J.LOW TEMP.PHYS.,7(1972)291"
112945 1450 TiOx O1Ti1 O 1 Ti 1 1972 K 0.64 0.64 kOe/K 3.4 mj/mol.K2 0.6 Superconductivity in the TiO and NbO systems 1972 "J.LOW TEMP.PHYS.,7(1972)291"
112946 1450 TiOx O1.06Ti1 O 1.06 Ti 1 1972 K 0.54 0.54 kOe/K 4.4 mj/mol.K2 0.52 Superconductivity in the TiO and NbO systems 1972 "J.LOW TEMP.PHYS.,7(1972)291"
112947 1450 TiOx O1.07Ti1 O 1.07 Ti 1 1972 K 1 1 Superconductivity in the TiO and NbO systems 1972 "J.LOW TEMP.PHYS.,7(1972)291"
112948 356 G-L parameter = 0.92 Pb1-xTlx Pb0.975Tl0.025 Pb 0.975 Tl 0.025 1962 K Oe 470 Oe 700 Observation du comportement magnetique quasi reversible d'un supraconducteur de deuxieme espece 1962 "PHYS.LETT.,2(1962)321"
112949 356 G-L parameter = 1.35 Pb1-xTlx Pb0.95Tl0.05 Pb 0.95 Tl 0.05 1962 K Oe 385 Oe 1060 Observation du comportement magnetique quasi reversible d'un supraconducteur de deuxieme espece 1962 "PHYS.LETT.,2(1962)321"
112950 356 G-L parameter = 2.25 Pb1-xTlx Pb0.9Tl0.1 Pb 0.9 Tl 0.1 1962 K Oe 270 Oe 1685 Observation du comportement magnetique quasi reversible d'un supraconducteur de deuxieme espece 1962 "PHYS.LETT.,2(1962)321"
112951 356 G-L parameter = 5.2 Pb1-xTlx Pb0.75Tl0.25 Pb 0.75 Tl 0.25 1962 K Oe 155 Oe 2880 Observation du comportement magnetique quasi reversible d'un supraconducteur de deuxieme espece 1962 "PHYS.LETT.,2(1962)321"
112952 356 G-L parameter = 8 Pb1-xTlx Pb0.5Tl0.5 Pb 0.5 Tl 0.5 1962 K Oe 60 Oe 2100 Observation du comportement magnetique quasi reversible d'un supraconducteur de deuxieme espece 1962 "PHYS.LETT.,2(1962)321"
112953 928 Nb Nb1 Nb 1 1969 bcc K 9.23 9.23 kOe 4.2 mj/mol.K2 7.8 280 The normal state specific heat of niobium-tantalum alloys 1969 PHYS.LETT.A29(1969)284
112954 928 Nb1-xTax Nb0.98Ta0.02 Nb 0.98 Ta 0.02 1969 bcc K 9.02 9.02 kOe 5.08 mj/mol.K2 7.98 279 The normal state specific heat of niobium-tantalum alloys 1969 PHYS.LETT.A29(1969)284
112955 928 Nb1-xTax Nb0.96Ta0.04 Nb 0.96 Ta 0.04 1969 bcc K 8.87 8.87 kOe 6.14 mj/mol.K2 7.98 272 The normal state specific heat of niobium-tantalum alloys 1969 PHYS.LETT.A29(1969)284
112956 928 Nb1-xTax Nb0.94Ta0.06 Nb 0.94 Ta 0.06 1969 bcc K 8.76 8.76 kOe 6.15 mj/mol.K2 7.95 270 The normal state specific heat of niobium-tantalum alloys 1969 PHYS.LETT.A29(1969)284
112957 928 Nb1-xTax Nb0.9Ta0.1 Nb 0.9 Ta 0.1 1969 bcc K 8.4 8.4 kOe 7.7 mj/mol.K2 7.85 271 The normal state specific heat of niobium-tantalum alloys 1969 PHYS.LETT.A29(1969)284
112958 928 Nb1-xTax Nb0.85Ta0.15 Nb 0.85 Ta 0.15 1969 bcc K 8.08 8.08 kOe 8.5 mj/mol.K2 7.35 260 The normal state specific heat of niobium-tantalum alloys 1969 PHYS.LETT.A29(1969)284
112959 928 Nb1-xTax Nb0.7Ta0.3 Nb 0.7 Ta 0.3 1969 bcc K 7.17 7.17 kOe 9.2 mj/mol.K2 6.95 259 The normal state specific heat of niobium-tantalum alloys 1969 PHYS.LETT.A29(1969)284
112960 928 Nb1-xTax Nb0.6Ta0.4 Nb 0.6 Ta 0.4 1969 bcc K 6.56 6.56 kOe mj/mol.K2 6.7 260 The normal state specific heat of niobium-tantalum alloys 1969 PHYS.LETT.A29(1969)284
112961 427 c/a = 0.416 WBe13 Be13W1 Be 13 W 1 1962 A 10.14 tetragonal K 4.1 4.1 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112962 427 c/a = 10633 ZrRe2 Re2Zr1 Re 2 Zr 1 1962 MgZn2(Laves) A 5.262 "MgZn2, C14" K 5.9 5.9 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112963 427 Zr5Re24 Re24Zr5 Re 24 Zr 5 1962 K 3 3 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112964 427 Ga7Pt3 Ga7Pt3 Ga 7 Pt 3 1962 CaF2 K 2.9 2.9 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112965 427 GaPt Ga1Pt1 Ga 1 Pt 1 1962 FeS A 4.91 K 1.74 1.74 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112966 427 AlGe2 Al1Ge2 Al 1 Ge 2 1962 K 1.75 1.75 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112967 427 Al2CaSi Al2Ca1Si1 Al 2 Ca 1 Si 1 1962 K 5.8 5.8 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112968 427 AlPdMo6 Al1Pd1Mo6 Al 1 Pd 1 Mo 6 1962 K 2.1 2.1 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112969 427 "Nb3(Sn,Ge)" Nb3Sn0.5Ge0.5 Nb 3 Sn 0.5 Ge 0.5 1962 K 11.3 11.3 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112970 427 "Nb3(Sn,Zr)" Nb3Sn0.5Zr0.5 Nb 3 Sn 0.5 Zr 0.5 1962 K 16.7 16.7 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112971 427 "Nb3(Zr,In)" Nb3Zr0.5In0.5 Nb 3 Zr 0.5 In 0.5 1962 K 6.4 6.4 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112972 427 Nb5Zr2Be8 Nb5Zr2Be8 Nb 5 Zr 2 Be 8 1962 K 5.2 5.2 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112973 427 Nb4.4Re Nb4.4Re1 Nb 4.4 Re 1 1962 K 4.8 4.8 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112974 427 NbMg2 Mg2Nb1 Mg 2 Nb 1 1962 K 5.6 5.6 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112975 427 AgTe Ag1Te1 Ag 1 Te 1 1962 K 1.34 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112976 427 Al5Y2 Al5Y2 Al 5 Y 2 1962 K 1.55 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112977 427 Al4Ca Al4Ca1 Al 4 Ca 1 1962 A 4.36 11.09 K 1.7 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112978 427 Al2Ca Al2Ca1 Al 2 Ca 1 1962 MgCu2(Laves) A 8.038 "MgCu2, C15" K 1.7 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112979 427 As2Pd3 As2Pd3 As 2 Pd 3 1962 K 1.4 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112980 427 AsW As1W1 As 1 W 1 1962 K 1.4 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112981 427 AsZn As1Zn1 As 1 Zn 1 1962 K 1.3 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112982 427 AuSb2 Au1Sb2 Au 1 Sb 2 1962 A 6.657 K 1.4 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112983 427 AuTe2 Au1Te2 Au 1 Te 2 1962 K 1.34 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112984 427 BeCr2 Be1Cr2 Be 1 Cr 2 1962 MgZn2(Laves) A 4.27 6.94 "MgZn2, C14" K 1.75 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112985 427 Be2Mo Be2Mo1 Be 2 Mo 1 1962 MgZn2(Laves) "MgZn2, C14" K 1.68 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112986 427 Be2Re Be2Re1 Be 2 Re 1 1962 MgZn2(Laves) A 4.354 7.101 "MgZn2, C14" K 1.68 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112987 427 Be2W Be2W1 Be 2 W 1 1962 MgZn2(Laves) A 4.446 7.289 "MgZn2, C14" K 1.68 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112988 427 Be2Zr Be2Zr1 Be 2 Zr 1 1962 AlB2 A 3.82 3.24 "AlB2, C32" K 1.68 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112989 427 Be13Mo Be13Mo1 Be 13 Mo 1 1962 A 7.271 4.234 K 1.68 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112990 427 Be13Zr Be13Zr1 Be 13 Zr 1 1962 NaZn13 A 10.047 K 1.68 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112991 427 Ca3Ge Ca3Ge1 Ca 3 Ge 1 1962 K 0.15 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112992 427 Ca2Si Ca2Si1 Ca 2 Si 1 1962 A 4.743 K 1.68 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112993 427 CaSi Ca1Si1 Ca 1 Si 1 1962 A 3.91 4.59 10.795 K 1.3 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112994 427 CaSi2 Ca1Si2 Ca 1 Si 2 1962 CaSi2 A 10.4 "CaSi2, C12" K 1.68 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112995 427 FeSb2 Fe1Sb2 Fe 1 Sb 2 1962 A 3.195 5.831 6.53 K 1.45 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112996 427 Ge2Pd Ge2Pd1 Ge 2 Pd 1 1962 K 1.47 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112997 427 K2Te3 K2Te3 K 2 Te 3 1962 K 1.46 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112998 427 NaTe Na1Te1 Na 1 Te 1 1962 K 1.3 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
112999 427 Na3Sb Na3Sb1 Na 3 Sb 1 1962 A 5.366 9.515 K 1.45 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
113000 427 NiSb3 Ni1Sb3 Ni 1 Sb 3 1962 K 1.45 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
113001 427 NiP Ni1P1 Ni 1 P 1 1962 K 1.57 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
113002 427 Ga3Zr Ga3Zr1 Ga 3 Zr 1 1962 K 1.38 Superconductivity of some binary and ternary alloys 1962 JETP 16(1963)1493
113003 1707 hardness = 370 kg/mm2 Zr-V V66.6Zr33.3 V 66.6 Zr 33.3 1968 A 7.435 gamma K 9.64 9.64 Influence of niobium on the superconducting properties of alloys on a base of the compound ZrV2 1968 Soviet Physics - Doklady 13(1968)162
113004 1707 hardness = 395 kg/mm2 Zr-V-Nb Zr33.3V61.8Nb4.8 Zr 33.3 V 61.8 Nb 4.8 1968 A 7.437 gamma K 6.13 6.13 Influence of niobium on the superconducting properties of alloys on a base of the compound ZrV2 1968 Soviet Physics - Doklady 13(1968)162
113005 1707 hardness = 440 kg/mm2 Zr-V-Nb Zr33.3V59.25Nb7.35 Zr 33.3 V 59.25 Nb 7.35 1968 A 7.449 gamma K 6.3 6.3 Influence of niobium on the superconducting properties of alloys on a base of the compound ZrV2 1968 Soviet Physics - Doklady 13(1968)162
113006 1707 hardness = 450 kg/mm2 Zr-V-Nb Zr33.3V56.7Nb9.9 Zr 33.3 V 56.7 Nb 9.9 1968 A 7.464 gamma K 5.34 5.34 Influence of niobium on the superconducting properties of alloys on a base of the compound ZrV2 1968 Soviet Physics - Doklady 13(1968)162
113007 1707 hardness = 475 kg/mm2 Zr-V-Nb Zr33.3V53.95Nb12.05 Zr 33.3 V 53.95 Nb 12.05 1968 A 5.27 8.68 K Influence of niobium on the superconducting properties of alloys on a base of the compound ZrV2 1968 Soviet Physics - Doklady 13(1968)162
113008 1707 hardness = 503 kg/mm2 Zr-V-Nb Zr33.3V51.2Nb15.4 Zr 33.3 V 51.2 Nb 15.4 1968 A 5.27 8.64 delta K Influence of niobium on the superconducting properties of alloys on a base of the compound ZrV2 1968 Soviet Physics - Doklady 13(1968)162
113009 1707 Zr-V-Nb Zr33.3V48Nb18.27 Zr 33.3 V 48 Nb 18.27 1968 A 5.28 8.66 delta K Influence of niobium on the superconducting properties of alloys on a base of the compound ZrV2 1968 Soviet Physics - Doklady 13(1968)162
113010 1707 hardness = 545 kg/mm2 Zr-V-Nb Zr33.3V45.5Nb21.12 Zr 33.3 V 45.5 Nb 21.12 1968 delta K 4.36 4.36 Influence of niobium on the superconducting properties of alloys on a base of the compound ZrV2 1968 Soviet Physics - Doklady 13(1968)162
113011 1707 hardness = 500 kg/mm2 Zr-V-Nb Zr33.3V39.3Nb27.4 Zr 33.3 V 39.3 Nb 27.4 1968 K 5.45 5.45 Influence of niobium on the superconducting properties of alloys on a base of the compound ZrV2 1968 Soviet Physics - Doklady 13(1968)162
113012 1707 hardness = 465 kg/mm2 Zr-V-Nb Zr33.3V35.9Nb30.7 Zr 33.3 V 35.9 Nb 30.7 1968 K Influence of niobium on the superconducting properties of alloys on a base of the compound ZrV2 1968 Soviet Physics - Doklady 13(1968)162
113013 1707 hardness = 440 kg/mm2 Zr-V-Nb Zr32.2V64.3Nb3.53 Zr 32.2 V 64.3 Nb 3.53 1968 A 7.435 gamma K Influence of niobium on the superconducting properties of alloys on a base of the compound ZrV2 1968 Soviet Physics - Doklady 13(1968)162
113014 1707 hardness = 464 kg/mm2 Zr-V-Nb Zr31V61.8Nb7.2 Zr 31 V 61.8 Nb 7.2 1968 A 7.435 gamma K 9.65 9.65 Influence of niobium on the superconducting properties of alloys on a base of the compound ZrV2 1968 Soviet Physics - Doklady 13(1968)162
113015 1707 hardness = 514 kg/mm2 Zr-V-Nb Zr29.8V59.4Nb10.8 Zr 29.8 V 59.4 Nb 10.8 1968 A 7.432 gamma K 9.58 9.58 Influence of niobium on the superconducting properties of alloys on a base of the compound ZrV2 1968 Soviet Physics - Doklady 13(1968)162
113016 1707 hardness = 542 kg/mm2 Zr-V-Nb Zr28.4V56.8Nb14.8 Zr 28.4 V 56.8 Nb 14.8 1968 A 7.433 gamma K 8.56 8.56 Influence of niobium on the superconducting properties of alloys on a base of the compound ZrV2 1968 Soviet Physics - Doklady 13(1968)162
113017 1707 hardness = 548 kg/mm2 Zr-V-Nb Zr27.1V54.1Nb18.8 Zr 27.1 V 54.1 Nb 18.8 1968 A 5.258 8.585 K 4.46 4.46 Influence of niobium on the superconducting properties of alloys on a base of the compound ZrV2 1968 Soviet Physics - Doklady 13(1968)162
113018 1707 hardness = 542 kg/mm2 Zr-V-Nb Zr25.8V51.3Nb22.9 Zr 25.8 V 51.3 Nb 22.9 1968 K 4.34 4.34 Influence of niobium on the superconducting properties of alloys on a base of the compound ZrV2 1968 Soviet Physics - Doklady 13(1968)162
113019 1707 hardness = 490 kg/mm2 Zr-V-Nb Zr24.3V48.5Nb27.2 Zr 24.3 V 48.5 Nb 27.2 1968 K 4.6 4.6 Influence of niobium on the superconducting properties of alloys on a base of the compound ZrV2 1968 Soviet Physics - Doklady 13(1968)162
113020 1707 hardness = 421 kg/mm2 Zr-V-Nb Zr23V45.5Nb31.5 Zr 23 V 45.5 Nb 31.5 1968 K 5.42 5.42 Influence of niobium on the superconducting properties of alloys on a base of the compound ZrV2 1968 Soviet Physics - Doklady 13(1968)162
113021 1472 homogeneity range 0.8 < x < 1.30 TiOx O0.92Ti1 O 0.92 Ti 1 1972 K 0.72 0.72 MTC13021 ANN(1500C) "Superconductivity in cubic and monoclinic ""TiO""" 1972 "J.APPL.PHYS.,43(1972)2478"
113022 1472 TiOx O0.86Ti1 O 0.86 Ti 1 1972 K 0.47 0.47 "ANN(60 kbar, 1300C)" "Superconductivity in cubic and monoclinic ""TiO""" 1972 "J.APPL.PHYS.,43(1972)2478"
113023 1472 TiOx O0.91Ti1 O 0.91 Ti 1 1972 K 0.7 0.7 "ANN(60 kbar, 1300C)" "Superconductivity in cubic and monoclinic ""TiO""" 1972 "J.APPL.PHYS.,43(1972)2478"
113024 1133 Tc calculated from Tc(Pb) = 7.20 K (not shown) Pb1-xSbx Pb0.95Sb0.05 Pb 0.95 Sb 0.05 1966 K 7.83 7.83 MTC13024 Superconducting transition temperatures of lead alloys 1966 "J.PHYS.SOC.JAPAN,21(1966)1617"
113025 1133 Tc calculated from Tc(Pb) = 7.20 K (not shown) Pb1-xBix Bi0.05Pb0.95 Bi 0.05 Pb 0.95 1966 K 7.388 7.388 MTC13024 Superconducting transition temperatures of lead alloys 1966 "J.PHYS.SOC.JAPAN,21(1966)1617"
113026 1133 Tc calculated from Tc(Pb) = 7.20 K (not shown) Pb1-xSnx Pb0.95Sn0.05 Pb 0.95 Sn 0.05 1966 K 7.268 7.268 MTC13024 Superconducting transition temperatures of lead alloys 1966 "J.PHYS.SOC.JAPAN,21(1966)1617"
113027 1133 Tc calculated from Tc(Pb) = 7.20 K (not shown) Pb1-xInx In0.05Pb0.95 In 0.05 Pb 0.95 1966 K 7.091 7.091 MTC13024 Superconducting transition temperatures of lead alloys 1966 "J.PHYS.SOC.JAPAN,21(1966)1617"
113028 1133 Tc calculated from Tc(Pb) = 7.20 K (not shown) Pb1-xTlx Pb0.95Tl0.05 Pb 0.95 Tl 0.05 1966 K 7.055 7.055 MTC13024 Superconducting transition temperatures of lead alloys 1966 "J.PHYS.SOC.JAPAN,21(1966)1617"
113029 736 small dip of Tc in the vicinity of Pb0.5Tl0.5 Pb1-xTlx Pb0.4Tl0.6 Pb 0.4 Tl 0.6 1966 K 4.67 4.67 MTC13029 Superconductivity and electronic structure in the alloy system lead-thallium 1966 "PHYS.REV.,147(1966)340"
113030 1296 Pd1-xSbx Pd0.52Sb0.48 Pd 0.52 Sb 0.48 1968 A 4.077 5.587 K 1.65 1.65 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113031 1296 Pd1-xSbx Pd0.51Sb0.49 Pd 0.51 Sb 0.49 1968 A 4.078 5.592 K 1.67 1.67 mj/mol.K2 1.42 229 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113032 1296 Pd1-xSbx Pd0.5Sb0.5 Pd 0.5 Sb 0.5 1968 A 4.076 5.586 K 1.48 1.48 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113033 1296 Pd1-xSbx Pd0.49Sb0.51 Pd 0.49 Sb 0.51 1968 A 4.07 5.579 K 1.44 1.44 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113034 1296 "(Pd,Ti)1-xSbx" Pd50.745Ti0.255Sb49 Pd 50.745 Ti 0.255 Sb 49 1968 K 1.61 1.61 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113035 1296 "(Pd,V)1-xSbx" Pd49.75V0.25Sb50 Pd 49.75 V 0.25 Sb 50 1968 K 1.13 1.13 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113036 1296 "(Pd,V)1-xSbx" Pd50.745V0.255Sb49 Pd 50.745 V 0.255 Sb 49 1968 K 0.91 0.91 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113037 1296 "(Pd,Sc)1-xSbx" Pd50.745Sc0.255Sb49 Pd 50.745 Sc 0.255 Sb 49 1968 K 1.56 1.56 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113038 1296 "(Pd,V)1-xSbx" Pd50.49V0.51Sb49 Pd 50.49 V 0.51 Sb 49 1968 K 0.5 0.5 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113039 1296 "(Pd,Cr)1-xSbx" Pd50.99745Cr0.00255Sb49 Pd 50.99745 Cr 0.00255 Sb 49 1968 K 1.35 1.35 MTC13039 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113040 1296 "(Pd,Mn)1-xSbx" Pd50.9745Mn0.0255Sb49 Pd 50.9745 Mn 0.0255 Sb 49 1968 K 1.46 1.46 MTC13040 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113041 1296 "(Pd,Fe)1-xSbx" Pd50.93625Fe0.06375Sb49 Pd 50.93625 Fe 0.06375 Sb 49 1968 K 1.22 1.22 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113042 1296 "(Pd,Fe)1-xSbx" Pd50.8725Fe0.1275Sb49 Pd 50.8725 Fe 0.1275 Sb 49 1968 K 1.03 1.03 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113043 1296 "(Pd,Co)1-xSbx" Pd49.75Co0.25Sb50 Pd 49.75 Co 0.25 Sb 50 1968 K 1.57 1.57 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113044 1296 "(Pd,Ni)1-xSbx" Pd49.75Ni0.25Sb50 Pd 49.75 Ni 0.25 Sb 50 1968 K 1.5 1.5 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113045 1296 "(Pd,Ni)1-xSbx" Pd45.9Ni5.1Sb49 Pd 45.9 Ni 5.1 Sb 49 1968 K 1.23 1.23 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113046 1296 "(Pd,Cu)1-xSbx" Pd49.75Cu0.25Sb50 Pd 49.75 Cu 0.25 Sb 50 1968 K 1.56 1.56 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113047 1296 "(Pd,Nb)1-xSbx" Pd50.745Nb0.255Sb49 Pd 50.745 Nb 0.255 Sb 49 1968 K 1.6 1.6 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113048 1296 "(Pd,Mo)1-xSbx" Pd50.745Mo0.255Sb49 Pd 50.745 Mo 0.255 Sb 49 1968 K 1.67 1.67 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113049 1296 "(Pd,Ru)1-xSbx" Pd50.745Ru0.255Sb49 Pd 50.745 Ru 0.255 Sb 49 1968 K 1.57 1.57 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113050 1296 Cd Cd1 Cd 1 1968 K 0.55 0.55 mj/mol.K2 0.711 300 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113051 1296 PdSb Pd1Sb1 Pd 1 Sb 1 1968 K 1.66 1.66 mj/mol.K2 1.42 229 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113052 1296 In In1 In 1 1968 K 3.4 3.4 mj/mol.K2 1.82 109 3d elements in superconducting PdSb 1968 "PHYS.REV.,169(1968)457"
113053 952 Re Re1 Re 1 1968 K 1.7 1.7 K/GPa -0.023 Superconductivity of rhenium and some rhenium-osmium alloys at high pressure 1968 "PHYS.REV.LETT.,20(1968)198"
113054 952 Re1-xOsx Os0.001Re0.999 Os 0.001 Re 0.999 1968 K 1.71 1.71 K/GPa -0.0092 Superconductivity of rhenium and some rhenium-osmium alloys at high pressure 1968 "PHYS.REV.LETT.,20(1968)198"
113055 952 Re1-xOsx Os0.002Re0.998 Os 0.002 Re 0.998 1968 K 1.71 1.71 K/GPa -0.0001 Superconductivity of rhenium and some rhenium-osmium alloys at high pressure 1968 "PHYS.REV.LETT.,20(1968)198"
113056 952 Re1-xOsx Os0.006Re0.994 Os 0.006 Re 0.994 1968 K 1.76 1.76 K/GPa -0.014 Superconductivity of rhenium and some rhenium-osmium alloys at high pressure 1968 "PHYS.REV.LETT.,20(1968)198"
113057 952 Re1-xOsx Os0.0275Re0.9725 Os 0.0275 Re 0.9725 1968 K 1.84 1.84 K/GPa -0.0253 Superconductivity of rhenium and some rhenium-osmium alloys at high pressure 1968 "PHYS.REV.LETT.,20(1968)198"
113058 952 Re1-xOsx Os0.046Re0.954 Os 0.046 Re 0.954 1968 K 1.92 1.92 K/GPa -0.0274 Superconductivity of rhenium and some rhenium-osmium alloys at high pressure 1968 "PHYS.REV.LETT.,20(1968)198"
113059 952 Re1-xOsx Os0.065Re0.935 Os 0.065 Re 0.935 1968 K 1.92 1.92 Superconductivity of rhenium and some rhenium-osmium alloys at high pressure 1968 "PHYS.REV.LETT.,20(1968)198"
113060 952 Re1-xOsx Os0.084Re0.916 Os 0.084 Re 0.916 1968 K 1.88 1.88 Superconductivity of rhenium and some rhenium-osmium alloys at high pressure 1968 "PHYS.REV.LETT.,20(1968)198"
113061 952 Re1-xOsx Os0.113Re0.887 Os 0.113 Re 0.887 1968 K 1.79 1.79 Superconductivity of rhenium and some rhenium-osmium alloys at high pressure 1968 "PHYS.REV.LETT.,20(1968)198"
113062 P070214526 "bulk moduluc = 78.4 GPa. c/a = 1.621 . initial compressibility = 3.96 E-3/GPa for a-axis, 4.22 E-3/GPa for c-axis. Specific heat measurements." CeRhIn5 Ce1Rh1In5 Ce 1 Rh 1 In 5 3 2004 HoCoGa5 K 2.2 0 2.2 self-flux method "Compressibility of CeMIn5 and Ce2MIn8 (M=Rh, Ir, and Co) compounds" 2004 M-13062 "Department of Physics, University of Nevada, Las Vegas, Nevada 89154-4002, USA" "Phys.Rev.B, 70(2004)214526"
113063 P070214526 "bulk moduluc = 87.6 GPa. c/a = 1.612 . initial compressibility = 3.44 E-3/GPafor a-axis, 3.48 E-3 /GPa for c-axis. Specific heat measurements." CeIrIn5 Ce1Ir1In5 Ce 1 Ir 1 In 5 3 2004 K 0.4 0.4 self-flux method "Compressibility of CeMIn5 and Ce2MIn8 (M=Rh, Ir, and Co) compounds" 2004 M-13062 "Department of Physics, University of Nevada, Las Vegas, Nevada 89154-4002, USA" "Phys.Rev.B, 70(2004)214526"
113064 P070214526 "bulk moduluc = 78.2 GPa. c/a = 1.638 . initial compressibility = 4.35 E-3/GPafor a-axis, 3.43 E-3 /GPa for c-axis. Specific heat measurements." CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2004 K 2.3 2.3 self-flux method "Compressibility of CeMIn5 and Ce2MIn8 (M=Rh, Ir, and Co) compounds" 2004 M-13062 "Department of Physics, University of Nevada, Las Vegas, Nevada 89154-4002, USA" "Phys.Rev.B, 70(2004)214526"
113065 P070214526 "bulk moduluc = 71.4 GPa. c/a = 2.624 . initial compressibility = 4.20 E-3/GPafor a-axis, 4.85 E-3 /GPa for c-axis. Specific heat measurements." Ce2RhIn8 Ce2Rh1In8 Ce 2 Rh 1 In 8 3 2004 Ho2CoGa8 K 2 0 2 self-flux method "Compressibility of CeMIn5 and Ce2MIn8 (M=Rh, Ir, and Co) compounds" 2004 M-13062 "Department of Physics, University of Nevada, Las Vegas, Nevada 89154-4002, USA" "Phys.Rev.B, 70(2004)214526"
113066 P070214526 "bulk moduluc = 69.4 GPa. c/a = 2.610 . initial compressibility = 4.02 E-3/GPafor a-axis, 4.93 E-3 /GPa for c-axis. Specific heat measurements." Ce2IrIn8 Ce2Ir1In8 Ce 2 Ir 1 In 8 3 2004 K 0.05 self-flux method "Compressibility of CeMIn5 and Ce2MIn8 (M=Rh, Ir, and Co) compounds" 2004 M-13062 "Department of Physics, University of Nevada, Las Vegas, Nevada 89154-4002, USA" "Phys.Rev.B, 70(2004)214526"
113067 713 Hc2(0) shows Hc(0) because 1st kind SC. (delta-C/gamma*Tc) = 1.60 . e-ph coupling const. = 0.62. Specific heat measurements. Ta Ta1 Ta 1 1970 bcc K 4.463 4.463 Oe 831 3.59 11 mj/mol.K2 6.15 250 electron beam melting in VAC Superconductivity of tantalum-rhenium alloys 1970 "J.PHYS.SOC.JAPAN,28(1970)380"
113068 713 Hc2(0) shows Hc(0) because 1st kind SC. (delta-C/gamma*Tc) = 1.46 . e-ph coupling const. = 0.56. Specific heat measurements. Ta1-xRex Re0.025Ta0.975 Re 0.025 Ta 0.975 1970 bcc K 3.458 3.458 Oe 613 3.54 11 mj/mol.K2 5.7 261 electron beam melting in VAC Superconductivity of tantalum-rhenium alloys 1970 "J.PHYS.SOC.JAPAN,28(1970)380"
113069 713 Hc2(0) shows Hc(0) because 1st kind SC. (delta-C/gamma*Tc) = 1.48 . e-ph coupling const. = 0.52. Specific heat measurements. Ta1-xRex Re0.05Ta0.95 Re 0.05 Ta 0.95 1970 bcc K 2.77 2.77 Oe 460 3.48 11 mj/mol.K2 5.12 277 electron beam melting in VAC Superconductivity of tantalum-rhenium alloys 1970 "J.PHYS.SOC.JAPAN,28(1970)380"
113070 713 Hc2(0) shows Hc(0) because 1st kind SC. (delta-C/gamma*Tc) = 1.40 . e-ph coupling const. =0.48. Specific heat measurements. Ta1-xRex Re0.075Ta0.925 Re 0.075 Ta 0.925 1970 bcc K 2.08 2.08 Oe 342 3.47 11 mj/mol.K2 5.05 285 electron beam melting in VAC Superconductivity of tantalum-rhenium alloys 1970 "J.PHYS.SOC.JAPAN,28(1970)380"
113071 713 Hc2(0) shows Hc(0) because 1st kind SC. (delta-C/gamma*Tc) = 1.40 . e-ph coupling const. = 0.45. Specific heat measurements. Ta1-xRex Re0.1Ta0.9 Re 0.1 Ta 0.9 1970 bcc K 1.49 1.49 Oe 232 3.4 11 mj/mol.K2 4.1 296 electron beam melting in VAC Superconductivity of tantalum-rhenium alloys 1970 "J.PHYS.SOC.JAPAN,28(1970)380"
113072 713 Hc2(0) shows Hc(0) because 1st kind SC. e-ph coupling const. = 0.39. Specific heat measurements. Ta1-xRex Re0.15Ta0.85 Re 0.15 Ta 0.85 1970 bcc K 0.75 0.75 mj/mol.K2 3.75 307 electron beam melting in VAC Superconductivity of tantalum-rhenium alloys 1970 "J.PHYS.SOC.JAPAN,28(1970)380"
113073 713 e-ph coupling const. = 0.34. Specific heat measurements. Ta1-xRex Re0.2Ta0.8 Re 0.2 Ta 0.8 1970 bcc K 0.21 0.21 mj/mol.K2 3 317 electron beam melting in VAC Superconductivity of tantalum-rhenium alloys 1970 "J.PHYS.SOC.JAPAN,28(1970)380"
113074 713 e-ph coupling const. = (0.29). Specific heat measurements. Ta1-xRex Re0.25Ta0.75 Re 0.25 Ta 0.75 1970 bcc K 0.06 mj/mol.K2 2.42 330 electron beam melting in VAC Superconductivity of tantalum-rhenium alloys 1970 "J.PHYS.SOC.JAPAN,28(1970)380"
113075 713 e-ph coupling const. = (0.23). Specific heat measurements. Ta1-xRex Re0.3Ta0.7 Re 0.3 Ta 0.7 1970 bcc K 0.06 mj/mol.K2 1.9 345 electron beam melting in VAC Superconductivity of tantalum-rhenium alloys 1970 "J.PHYS.SOC.JAPAN,28(1970)380"
113076 713 e-ph coupling const. = (0.13). Specific heat measurements. Ta1-xRex Re0.4Ta0.6 Re 0.4 Ta 0.6 1970 bcc K 0.06 mj/mol.K2 1 361 electron beam melting in VAC Superconductivity of tantalum-rhenium alloys 1970 "J.PHYS.SOC.JAPAN,28(1970)380"
113077 P070212514 used C<12>. isotope effect (alpha) calculated from num=13078 data. MgCNi3 Mg1C1Ni3 Mg 1 C 1 Ni 3 1 2004 A 3.8109 K 7.12 7.12 0.54 C 0.3 final heat treatment(900C) Carbon isotope effect in superconducting MgCNi3 2004 "Department of Chemistry, Princeton University, Princeton, New Jersey, USA" "Phys.Rev.B, 70(2004)212514"
113078 P070212514 used C<13>. see num = 13077 data. MgCNi3 Mg1C1Ni3 Mg 1 C 1 Ni 3 1 2004 A 3.8116 K 6.8 6.8 final heat treatment(900C) Carbon isotope effect in superconducting MgCNi3 2004 "Department of Chemistry, Princeton University, Princeton, New Jersey, USA" "Phys.Rev.B, 70(2004)212514"
113079 709 Tc vs carrier concentration SrTiO3 Sr1Ti1O3 Sr 1 Ti 1 O 3 1967 K MTC13071 1967 "PHYS.REV.,163(1967)380"
113080 239 Os1-xIrx Ir0.15Os0.85 Ir 0.15 Os 0.85 1963 hcp K 0.54 0.54 MTC13067 SUPERCONDUCTIVITY OF SOILD SOLUTIONS OF NOBEL METALS 1963 "PHYS.REV.,129(1963)182"
113081 239 Os1-xIrx Ir0.6Os0.4 Ir 0.6 Os 0.4 1963 fcc K 0.73 0.73 SUPERCONDUCTIVITY OF SOILD SOLUTIONS OF NOBEL METALS 1963 "PHYS.REV.,129(1963)182"
113082 239 W1-xPtx Pt0.035W0.965 Pt 0.035 W 0.965 1963 bcc K 1.98 1.98 MTC13069 SUPERCONDUCTIVITY OF SOILD SOLUTIONS OF NOBEL METALS 1963 "PHYS.REV.,129(1963)182"
113083 239 W1-xPtx Pt0.5W0.5 Pt 0.5 W 0.5 1963 fcc K 1.45 1.45 SUPERCONDUCTIVITY OF SOILD SOLUTIONS OF NOBEL METALS 1963 "PHYS.REV.,129(1963)182"
113084 1109 Tc from sp-heat measurements. Ti Ti1 Ti 1 1969 K 0.4 0.4 mj/mol.K2 3.31 Kalorimetische Bestimmung der Ubergangstemperatur zur Supraleitung von verdunnten Titan-Rhodium-Legierungen 1969 "Z.PHYS.,222(1969)243"
113085 1109 Tc from sp-heat measurements. Ti1-xRhx Rh0.005Ti0.995 Rh 0.005 Ti 0.995 1969 K 0.79 0.79 mj/mol.K2 3.54 Kalorimetische Bestimmung der Ubergangstemperatur zur Supraleitung von verdunnten Titan-Rhodium-Legierungen 1969 "Z.PHYS.,222(1969)243"
113086 1109 Tc from sp-heat measurements. Ti1-xRhx Rh0.01Ti0.99 Rh 0.01 Ti 0.99 1969 K 1.16 1.16 mj/mol.K2 3.94 Kalorimetische Bestimmung der Ubergangstemperatur zur Supraleitung von verdunnten Titan-Rhodium-Legierungen 1969 "Z.PHYS.,222(1969)243"
113087 1109 Tc from sp-heat measurements. Ti1-xRhx Rh0.015Ti0.985 Rh 0.015 Ti 0.985 1969 K 1.6 1.6 mj/mol.K2 4.04 Kalorimetische Bestimmung der Ubergangstemperatur zur Supraleitung von verdunnten Titan-Rhodium-Legierungen 1969 "Z.PHYS.,222(1969)243"
113088 1109 Tc from sp-heat measurements. Ti1-xRhx Rh0.02Ti0.98 Rh 0.02 Ti 0.98 1969 K 1.73 1.73 mj/mol.K2 4.13 Kalorimetische Bestimmung der Ubergangstemperatur zur Supraleitung von verdunnten Titan-Rhodium-Legierungen 1969 "Z.PHYS.,222(1969)243"
113089 1109 Tc from sp-heat measurements. Ti1-xRhx Rh0.025Ti0.975 Rh 0.025 Ti 0.975 1969 K 1.79 1.79 mj/mol.K2 4.31 Kalorimetische Bestimmung der Ubergangstemperatur zur Supraleitung von verdunnten Titan-Rhodium-Legierungen 1969 "Z.PHYS.,222(1969)243"
113090 1109 Tc from sp-heat measurements. Ti1-xRhx Rh0.03Ti0.97 Rh 0.03 Ti 0.97 1969 K 1.34 1.34 mj/mol.K2 3.91 Kalorimetische Bestimmung der Ubergangstemperatur zur Supraleitung von verdunnten Titan-Rhodium-Legierungen 1969 "Z.PHYS.,222(1969)243"
113091 766 Ti1-xRhx Rh0.005Ti0.995 Rh 0.005 Ti 0.995 1963 alpha-Ti K 1.8 1.8 Uber die Supraleitfahigkeit von Ti- und Zr-Rh-Legierungen 1963 "Z.PHYS.,175(1963)105"
113092 766 Ti1-xRhx Rh0.01Ti0.99 Rh 0.01 Ti 0.99 1963 alpha-Ti K 2.4 2.4 Uber die Supraleitfahigkeit von Ti- und Zr-Rh-Legierungen 1963 "Z.PHYS.,175(1963)105"
113093 766 Ti1-xRhx Rh0.02Ti0.98 Rh 0.02 Ti 0.98 1963 alpha-Ti K 3.2 3.2 Uber die Supraleitfahigkeit von Ti- und Zr-Rh-Legierungen 1963 "Z.PHYS.,175(1963)105"
113094 766 Ti1-xRhx Rh0.03Ti0.97 Rh 0.03 Ti 0.97 1963 alpha-Ti K 1.9 1.9 Uber die Supraleitfahigkeit von Ti- und Zr-Rh-Legierungen 1963 "Z.PHYS.,175(1963)105"
113095 766 Ti1-xRhx Rh0.04Ti0.96 Rh 0.04 Ti 0.96 1963 alpha-Ti K 2 2 Uber die Supraleitfahigkeit von Ti- und Zr-Rh-Legierungen 1963 "Z.PHYS.,175(1963)105"
113096 766 Zr1-xRhx Rh0.005Zr0.995 Rh 0.005 Zr 0.995 1963 alpha-Zr K 3.5 3.5 Uber die Supraleitfahigkeit von Ti- und Zr-Rh-Legierungen 1963 "Z.PHYS.,175(1963)105"
113097 766 Zr1-xRhx Rh0.01Zr0.99 Rh 0.01 Zr 0.99 1963 alpha-Zr K 4.5 4.5 Uber die Supraleitfahigkeit von Ti- und Zr-Rh-Legierungen 1963 "Z.PHYS.,175(1963)105"
113098 766 Zr1-xRhx Rh0.02Zr0.98 Rh 0.02 Zr 0.98 1963 alpha-Zr K 4.8 4.8 Uber die Supraleitfahigkeit von Ti- und Zr-Rh-Legierungen 1963 "Z.PHYS.,175(1963)105"
113099 766 Zr1-xRhx Rh0.027Zr0.973 Rh 0.027 Zr 0.973 1963 alpha-Zr K 3.6 3.6 Uber die Supraleitfahigkeit von Ti- und Zr-Rh-Legierungen 1963 "Z.PHYS.,175(1963)105"
113100 766 Zr1-xRhx Rh0.035Zr0.965 Rh 0.035 Zr 0.965 1963 alpha-Zr A 3.568 K 5 5 Uber die Supraleitfahigkeit von Ti- und Zr-Rh-Legierungen 1963 "Z.PHYS.,175(1963)105"
113101 766 Zr1-xRhx Rh0.04Zr0.96 Rh 0.04 Zr 0.96 1963 alpha-Zr A 3.568 K 5 5 Uber die Supraleitfahigkeit von Ti- und Zr-Rh-Legierungen 1963 "Z.PHYS.,175(1963)105"
113102 766 Zr1-xRhx Rh0.05Zr0.95 Rh 0.05 Zr 0.95 1963 alpha-Zr A 3.565 K 5.2 5.2 Uber die Supraleitfahigkeit von Ti- und Zr-Rh-Legierungen 1963 "Z.PHYS.,175(1963)105"
113103 766 Zr1-xRhx Rh0.06Zr0.94 Rh 0.06 Zr 0.94 1963 A 3.555 K 5.9 5.9 Uber die Supraleitfahigkeit von Ti- und Zr-Rh-Legierungen 1963 "Z.PHYS.,175(1963)105"
113104 766 Zr1-xRhx Rh0.065Zr0.935 Rh 0.065 Zr 0.935 1963 A 3.555 K 5.9 5.9 Uber die Supraleitfahigkeit von Ti- und Zr-Rh-Legierungen 1963 "Z.PHYS.,175(1963)105"
113105 766 Zr1-xRhx Rh0.075Zr0.925 Rh 0.075 Zr 0.925 1963 A 3.538 K 6.4 6.4 Uber die Supraleitfahigkeit von Ti- und Zr-Rh-Legierungen 1963 "Z.PHYS.,175(1963)105"
113106 766 Zr1-xRhx Rh0.08Zr0.92 Rh 0.08 Zr 0.92 1963 A 3.54 K 9.6 9.6 Uber die Supraleitfahigkeit von Ti- und Zr-Rh-Legierungen 1963 "Z.PHYS.,175(1963)105"
113107 766 Zr1-xRhx Rh0.09Zr0.91 Rh 0.09 Zr 0.91 1963 A 3.542 K 10.1 10.1 Uber die Supraleitfahigkeit von Ti- und Zr-Rh-Legierungen 1963 "Z.PHYS.,175(1963)105"
113108 1002 e-ph coupling const = 0.66 Ti3Sb Sb1Ti3 Sb 1 Ti 3 1970 Cr3Si(A15) A 5.225 "Cr3Si, A15" K 5.3 5.3 mj/mol.K2 7.85 282 Supraconductivite et chaleur specifique d'alliages bases sur Ti3Sb 1970 "HELVETIA PHYS.ACTA,43(1970)59"
113109 1002 e-ph coupling const = 0.50 "(Ti,Nb)3Sb" Ti0.5Nb0.25Sb0.25 Ti 0.5 Nb 0.25 Sb 0.25 1970 Cr3Si(A15) A 5.24 "Cr3Si, A15" K 1.95 1.95 mj/mol.K2 4.85 325 Supraconductivite et chaleur specifique d'alliages bases sur Ti3Sb 1970 "HELVETIA PHYS.ACTA,43(1970)59"
113110 1002 e-ph coupling const = 0.55 "(Ti,Nb)3Sb" Ti0.25Nb0.5Sb0.25 Ti 0.25 Nb 0.5 Sb 0.25 1970 Cr3Si(A15) A 5.253 "Cr3Si, A15" K 3.05 3.05 mj/mol.K2 4.3 330 Supraconductivite et chaleur specifique d'alliages bases sur Ti3Sb 1970 "HELVETIA PHYS.ACTA,43(1970)59"
113111 1002 e-ph coupling const = 0.42 V3Sb Sb1V3 Sb 1 V 3 1970 Cr3Si(A15) A 4.945 "Cr3Si, A15" K 0.5 0.5 mj/mol.K2 2.5 400 Supraconductivite et chaleur specifique d'alliages bases sur Ti3Sb 1970 "HELVETIA PHYS.ACTA,43(1970)59"
113112 1002 e-ph coupling const = 0.38 Ti Ti1 Ti 1 1970 K 0.39 0.39 mj/mol.K2 3.32 425 Supraconductivite et chaleur specifique d'alliages bases sur Ti3Sb 1970 "HELVETIA PHYS.ACTA,43(1970)59"
113113 1002 e-ph coupling const = 0.82 Nb Nb1 Nb 1 1970 K 9.4 9.4 mj/mol.K2 7.8 277 Supraconductivite et chaleur specifique d'alliages bases sur Ti3Sb 1970 "HELVETIA PHYS.ACTA,43(1970)59"
113114 1002 e-ph coupling const = 0.60 V V1 V 1 1970 K 5.3 5.3 mj/mol.K2 9.9 399 Supraconductivite et chaleur specifique d'alliages bases sur Ti3Sb 1970 "HELVETIA PHYS.ACTA,43(1970)59"
113115 1002 "(Ti,V)3Sb" Ti1.38V1.62Sb1 Ti 1.38 V 1.62 Sb 1 1970 A 5.0331 K 1.49 1.49 MTC13115 Supraconductivite et chaleur specifique d'alliages bases sur Ti3Sb 1970 "HELVETIA PHYS.ACTA,43(1970)59"
113116 1002 "(Ti,Nb)3Sb" Ti2.01Nb0.99Sb1 Ti 2.01 Nb 0.99 Sb 1 1970 K 1.96 1.96 MTC13116 mj/mol.K2 4.83 325 Supraconductivite et chaleur specifique d'alliages bases sur Ti3Sb 1970 "HELVETIA PHYS.ACTA,43(1970)59"
113117 1002 "(Ti,Nb)3Sb" Ti0.99Nb2.01Sb1 Ti 0.99 Nb 2.01 Sb 1 1970 K 2.84 2.84 mj/mol.K2 4.27 329 Supraconductivite et chaleur specifique d'alliages bases sur Ti3Sb 1970 "HELVETIA PHYS.ACTA,43(1970)59"
113118 1002 Ti1-xSbx Sb0.25Ti0.75 Sb 0.25 Ti 0.75 1970 K 5.32 5.32 MTC13118 Supraconductivite et chaleur specifique d'alliages bases sur Ti3Sb 1970 "HELVETIA PHYS.ACTA,43(1970)59"
113119 552 (delta-C/gamma*Tc) = 1.8 PdTe Pd1Te1 Pd 1 Te 1 1965 K 4.36 4.36 mj/mol.K2 5.66 277 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
113120 552 (delta-C/gamma*Tc) = 1.2 PdTe1.04 Pd1Te1.04 Pd 1 Te 1.04 1965 K 2.45 2.45 mj/mol.K2 4.15 239 "The occurrence of superconductivity in sulfides, selenides, tellurides of Pt-group metals" 1965 "J.PHYS.CHEM.SOLIDS,26(1965)2051"
113121 648 Zr1-xRhx Rh0.01Zr0.99 Rh 0.01 Zr 0.99 1965 K 4.26 4.26 MTC13121 "ANN(1000C,72h), then water quenched" Superconductivity in zirconium-rhodium alloys 1965 "J.PHYS.CHEM.SOLIDS,26(1965)1347"
113122 648 Zr1-xRhx Rh0.03Zr0.97 Rh 0.03 Zr 0.97 1965 K 3.38 3.38 MTC13121 "ANN(1000C,72h), then water quenched" Superconductivity in zirconium-rhodium alloys 1965 "J.PHYS.CHEM.SOLIDS,26(1965)1347"
113123 648 Zr1-xRhx Rh0.06Zr0.94 Rh 0.06 Zr 0.94 1965 K 5.95 5.95 MTC13121 "ANN(1000C,72h), then water quenched" Superconductivity in zirconium-rhodium alloys 1965 "J.PHYS.CHEM.SOLIDS,26(1965)1347"
113124 648 Zr1-xRhx Rh0.1Zr0.9 Rh 0.1 Zr 0.9 1965 K 10.8 10.8 MTC13121 "ANN(1000C,72h), then water quenched" Superconductivity in zirconium-rhodium alloys 1965 "J.PHYS.CHEM.SOLIDS,26(1965)1347"
113125 1757 V1-xRux Ru0.42V0.58 Ru 0.42 V 0.58 1974 K 2.12 2.12 K/GPa -0.041 annealed sample Superconductivity and stability of near equiatomic V-Ru compounds at high pressure 1974 "J.PHYS.F:METAL PHYS.,4(1974)1423"
113126 1757 V1-xRux Ru0.43V0.57 Ru 0.43 V 0.57 1974 K 2.92 2.92 K/GPa -0.049 annealed sample Superconductivity and stability of near equiatomic V-Ru compounds at high pressure 1974 "J.PHYS.F:METAL PHYS.,4(1974)1423"
113127 1757 V1-xRux Ru0.445V0.555 Ru 0.445 V 0.555 1974 K 3.48 3.48 K/GPa -0.049 annealed sample Superconductivity and stability of near equiatomic V-Ru compounds at high pressure 1974 "J.PHYS.F:METAL PHYS.,4(1974)1423"
113128 1757 V1-xRux Ru0.46V0.54 Ru 0.46 V 0.54 1974 K 5.67 5.67 K/GPa 0.2 annealed sample Superconductivity and stability of near equiatomic V-Ru compounds at high pressure 1974 "J.PHYS.F:METAL PHYS.,4(1974)1423"
113129 1757 V1-xRux Ru0.47V0.53 Ru 0.47 V 0.53 1974 K 4.53 4.53 K/GPa 0.298 annealed sample Superconductivity and stability of near equiatomic V-Ru compounds at high pressure 1974 "J.PHYS.F:METAL PHYS.,4(1974)1423"
113130 1757 V1-xRux Ru0.475V0.525 Ru 0.475 V 0.525 1974 K 3.12 3.12 K/GPa 0.164 annealed sample Superconductivity and stability of near equiatomic V-Ru compounds at high pressure 1974 "J.PHYS.F:METAL PHYS.,4(1974)1423"
113131 846 Pd1-xWx Pd0.56W0.44 Pd 0.56 W 0.44 1968 A 3.9215 K 1.58 1.58 Superconductivity and lattice parameters in face-centered cubic Pt-W and Pd-W solid solutions 1968 "J.LESS-COMMON METALS,15(1968)299"
113132 846 Pd1-xWx Pd0.6W0.4 Pd 0.6 W 0.4 1968 A 3.9179 K 1.29 1.29 Superconductivity and lattice parameters in face-centered cubic Pt-W and Pd-W solid solutions 1968 "J.LESS-COMMON METALS,15(1968)299"
113133 846 Pd1-xWx Pd0.72W0.28 Pd 0.72 W 0.28 1968 A 3.9027 K 0.345 0.345 Superconductivity and lattice parameters in face-centered cubic Pt-W and Pd-W solid solutions 1968 "J.LESS-COMMON METALS,15(1968)299"
113134 846 Pt1-xWx Pt0.73W0.27 Pt 0.73 W 0.27 1968 A 3.9221 K 0.213 0.213 Superconductivity and lattice parameters in face-centered cubic Pt-W and Pd-W solid solutions 1968 "J.LESS-COMMON METALS,15(1968)299"
113135 846 Pt1-xWx Pt0.52W0.48 Pt 0.52 W 0.48 1968 A 3.9367 K 1.35 1.35 Superconductivity and lattice parameters in face-centered cubic Pt-W and Pd-W solid solutions 1968 "J.LESS-COMMON METALS,15(1968)299"
113136 846 Pt1-xWx Pt0.33W0.67 Pt 0.33 W 0.67 1968 A 3.9606 K 3.02 3.02 Superconductivity and lattice parameters in face-centered cubic Pt-W and Pd-W solid solutions 1968 "J.LESS-COMMON METALS,15(1968)299"
113137 846 Pt1-xWx Pt0.43W0.57 Pt 0.43 W 0.57 1968 A 3.9465 K 2.09 2.09 Superconductivity and lattice parameters in face-centered cubic Pt-W and Pd-W solid solutions 1968 "J.LESS-COMMON METALS,15(1968)299"
113138 1061 sp-heat measured between 0.9 and 12 K.. not SC. Zr1-xRhx Zr1 Zr 1 1965 K 0.9 mj/mol.K2 2.77 289 Messung der spezifischen Warme an Zr-Rh-Legierungen zwischen 0.9 und 12 K 1965 "Z.PHYS.,186(1965)249"
113139 1061 sp-heat measured between 0.9 and 12 K.. not SC. Zr1-xRhx Rh0.01Zr0.99 Rh 0.01 Zr 0.99 1965 K 0.9 mj/mol.K2 3.62 275 Messung der spezifischen Warme an Zr-Rh-Legierungen zwischen 0.9 und 12 K 1965 "Z.PHYS.,186(1965)249"
113140 1061 sp-heat measured between 0.9 and 12 K.. not SC. Zr1-xRhx Rh0.015Zr0.985 Rh 0.015 Zr 0.985 1965 K 0.9 mj/mol.K2 3.83 273 Messung der spezifischen Warme an Zr-Rh-Legierungen zwischen 0.9 und 12 K 1965 "Z.PHYS.,186(1965)249"
113141 1061 sp-heat measured between 0.9 and 12 K.. not SC. Zr1-xRhx Rh0.02Zr0.98 Rh 0.02 Zr 0.98 1965 K 0.9 mj/mol.K2 3.83 261 Messung der spezifischen Warme an Zr-Rh-Legierungen zwischen 0.9 und 12 K 1965 "Z.PHYS.,186(1965)249"
113142 1061 sp-heat measured between 0.9 and 12 K.. not SC. Zr1-xRhx Rh0.025Zr0.975 Rh 0.025 Zr 0.975 1965 K 0.9 mj/mol.K2 4.12 262 Messung der spezifischen Warme an Zr-Rh-Legierungen zwischen 0.9 und 12 K 1965 "Z.PHYS.,186(1965)249"
113143 1061 sp-heat measured between 0.9 and 12 K.. Zr1-xRhx Rh0.03Zr0.97 Rh 0.03 Zr 0.97 1965 K 3.1 3.1 mj/mol.K2 3.62 244 Messung der spezifischen Warme an Zr-Rh-Legierungen zwischen 0.9 und 12 K 1965 "Z.PHYS.,186(1965)249"
113144 1061 sp-heat measured between 0.9 and 12 K.. Zr1-xRhx Rh0.0375Zr0.925 Rh 0.0375 Zr 0.925 1965 K 3.65 3.65 mj/mol.K2 3.95 244 Messung der spezifischen Warme an Zr-Rh-Legierungen zwischen 0.9 und 12 K 1965 "Z.PHYS.,186(1965)249"
113145 1061 sp-heat measured between 0.9 and 12 K.. Zr1-xRhx Rh0.04Zr0.96 Rh 0.04 Zr 0.96 1965 K 3.8 3.8 mj/mol.K2 3.83 226 Messung der spezifischen Warme an Zr-Rh-Legierungen zwischen 0.9 und 12 K 1965 "Z.PHYS.,186(1965)249"
113146 1061 sp-heat measured between 0.9 and 12 K.. Zr1-xRhx Rh0.05Zr0.95 Rh 0.05 Zr 0.95 1965 K 4.8 4.8 mj/mol.K2 5.08 210 Messung der spezifischen Warme an Zr-Rh-Legierungen zwischen 0.9 und 12 K 1965 "Z.PHYS.,186(1965)249"
113147 1061 sp-heat measured between 0.9 and 12 K.. Zr1-xRhx Rh0.06Zr0.94 Rh 0.06 Zr 0.94 1965 K 5.75 5.75 mj/mol.K2 6.8 196 Messung der spezifischen Warme an Zr-Rh-Legierungen zwischen 0.9 und 12 K 1965 "Z.PHYS.,186(1965)249"
113148 1061 sp-heat measured between 0.9 and 12 K.. Zr1-xRhx Rh0.07Zr0.93 Rh 0.07 Zr 0.93 1965 K 5.95 5.95 mj/mol.K2 7.36 192 Messung der spezifischen Warme an Zr-Rh-Legierungen zwischen 0.9 und 12 K 1965 "Z.PHYS.,186(1965)249"
113149 1061 sp-heat measured between 0.9 and 12 K.. Zr1-xRhx Rh0.075Zr0.925 Rh 0.075 Zr 0.925 1965 K 6.05 6.05 mj/mol.K2 7.6 193 Messung der spezifischen Warme an Zr-Rh-Legierungen zwischen 0.9 und 12 K 1965 "Z.PHYS.,186(1965)249"
113150 1061 sp-heat measured between 0.9 and 12 K.. Zr1-xRhx Rh0.08Zr0.92 Rh 0.08 Zr 0.92 1965 K 6.1 6.1 mj/mol.K2 7.88 192 Messung der spezifischen Warme an Zr-Rh-Legierungen zwischen 0.9 und 12 K 1965 "Z.PHYS.,186(1965)249"
113151 1109 Ti1-xRhx Ti1 Ti 1 1969 K 0.4 0.4 mj/mol.K2 3.31 Kalorimetische Bestimmung der Ubergangstemperatur zur Supraleitung von verdunnten Titan-Rhodium-Legierungen 1969 "Z.PHYS.,222(1969)243"
113152 1109 Ti1-xRhx Rh0.005Ti0.995 Rh 0.005 Ti 0.995 1969 K 0.79 0.79 mj/mol.K2 3.54 Kalorimetische Bestimmung der Ubergangstemperatur zur Supraleitung von verdunnten Titan-Rhodium-Legierungen 1969 "Z.PHYS.,222(1969)243"
113153 1109 Ti1-xRhx Rh0.01Ti0.99 Rh 0.01 Ti 0.99 1969 K 1.16 1.16 mj/mol.K2 3.94 Kalorimetische Bestimmung der Ubergangstemperatur zur Supraleitung von verdunnten Titan-Rhodium-Legierungen 1969 "Z.PHYS.,222(1969)243"
113154 1109 Ti1-xRhx Rh0.015Ti0.985 Rh 0.015 Ti 0.985 1969 K 1.6 1.6 mj/mol.K2 4.04 Kalorimetische Bestimmung der Ubergangstemperatur zur Supraleitung von verdunnten Titan-Rhodium-Legierungen 1969 "Z.PHYS.,222(1969)243"
113155 1109 Ti1-xRhx Rh0.02Ti0.98 Rh 0.02 Ti 0.98 1969 K 1.73 1.73 mj/mol.K2 4.13 Kalorimetische Bestimmung der Ubergangstemperatur zur Supraleitung von verdunnten Titan-Rhodium-Legierungen 1969 "Z.PHYS.,222(1969)243"
113156 1109 Ti1-xRhx Rh0.025Ti0.975 Rh 0.025 Ti 0.975 1969 K 1.79 1.79 mj/mol.K2 4.31 Kalorimetische Bestimmung der Ubergangstemperatur zur Supraleitung von verdunnten Titan-Rhodium-Legierungen 1969 "Z.PHYS.,222(1969)243"
113157 1109 Ti1-xRhx Rh0.03Ti0.97 Rh 0.03 Ti 0.97 1969 K 1.34 1.34 mj/mol.K2 3.91 Kalorimetische Bestimmung der Ubergangstemperatur zur Supraleitung von verdunnten Titan-Rhodium-Legierungen 1969 "Z.PHYS.,222(1969)243"
113158 744 Zr1-xScx Sc0.1Zr0.9 Sc 0.1 Zr 0.9 1966 K 0.024 mj/mol.K2 2.4 309 arc-melting in He Superconductivity and electronic specific heat in the scandium-zirconium system 1966 "PHYS.REV.,149(1966)409"
113159 744 Zr1-xScx Sc0.25Zr0.75 Sc 0.25 Zr 0.75 1966 K 0.036 mj/mol.K2 2.7 321 arc-melting in He Superconductivity and electronic specific heat in the scandium-zirconium system 1966 "PHYS.REV.,149(1966)409"
113160 744 Zr1-xScx Sc0.8Zr0.2 Sc 0.8 Zr 0.2 1966 K 0.02 mj/mol.K2 7.4 330 arc-melting in He Superconductivity and electronic specific heat in the scandium-zirconium system 1966 "PHYS.REV.,149(1966)409"
113161 1933 dTc/dP = 2.5 E-5 K/bar V3Si Si1V3 Si 1 V 3 3 1974 Cr3Si(A15) "Cr3Si, A15" K 15.9 15.9 K/GPa 0.25 Effect of lattice transformation on the pressure dependence of Tc of V3Si single crystals 1974 "PHYS.REV.B,10(1974)4030"
113162 1209 annealed wire Tc=8.02 K Ta1-xTix Ta0.685Ti0.315 Ta 0.685 Ti 0.315 1966 K 8.28 8.28 cold worked wire Superconducting transition temperature of solid-solution Ta-Ti alloys 1966 "J.APPL.PHYS.,37(1966)4750"
113163 1209 annealed wire Tc=8.26 K Ta1-xTix Ta0.462Ti0.538 Ta 0.462 Ti 0.538 1966 K 9.05 9.05 MTC13163 cold worked wire Superconducting transition temperature of solid-solution Ta-Ti alloys 1966 "J.APPL.PHYS.,37(1966)4750"
113164 1038 NbN N1Nb1 N 1 Nb 1 1965 NaCl A 4.381 "NaCl, B1" K 15 15 kG 80 Critical supercurrents in niobium carbonitrides 1965 "APPL.PHYS.LETT.,7(1965)38"
113165 1038 "Nb(N,C)" Nb1N0.8C0.2 Nb 1 N 0.8 C 0.2 1965 NaCl "NaCl, B1" K kG 120 MHC13165 Critical supercurrents in niobium carbonitrides 1965 "APPL.PHYS.LETT.,7(1965)38"
113166 1038 "Nb(N,C)" Nb1N0.5C0.5 Nb 1 N 0.5 C 0.5 1965 NaCl "NaCl, B1" K kG 68.6 MHC13165 Critical supercurrents in niobium carbonitrides 1965 "APPL.PHYS.LETT.,7(1965)38"
113167 1361 (delta-C/gamma*Tc) = 1.48 . e-ph coupling = 0.52. Th Th1 Th 1 1 1973 fcc K 1.28 1.28 mj/mol.K2 4.24 166 "arc-melting, then annealed" The specific heat and superconductivity of Th-Y and Th-La alloys 1973 "J.PHYS.SOC.JAPAN,34(1973)391"
113168 1361 (delta-C/gamma*Tc) = 1.48. e-ph coupling = 0.54. Th1-xYx Th0.95Y0.05 Th 0.95 Y 0.05 1 1973 fcc K 1.4 1.4 mj/mol.K2 4.35 165 "arc-melting, then annealed" The specific heat and superconductivity of Th-Y and Th-La alloys 1973 "J.PHYS.SOC.JAPAN,34(1973)391"
113169 1361 (delta-C/gamma*Tc) = 1.41. e-ph coupling = 0.55. Th1-xYx Th0.9Y0.1 Th 0.9 Y 0.1 1 1973 fcc K 1.51 1.51 mj/mol.K2 4.43 163 "arc-melting, then annealed" The specific heat and superconductivity of Th-Y and Th-La alloys 1973 "J.PHYS.SOC.JAPAN,34(1973)391"
113170 1361 (delta-C/gamma*Tc) = 1.45 . e-ph coupling = 0.55. Th1-xYx Th0.8Y0.2 Th 0.8 Y 0.2 1 1973 fcc K 1.64 1.64 mj/mol.K2 4.87 172 "arc-melting, then annealed" The specific heat and superconductivity of Th-Y and Th-La alloys 1973 "J.PHYS.SOC.JAPAN,34(1973)391"
113171 1361 (delta-C/gamma*Tc) = 1.51 . e-ph coupling = 0.55. Th1-xYx Th0.75Y0.25 Th 0.75 Y 0.25 1 1973 fcc K 1.63 1.63 mj/mol.K2 4.93 174 "arc-melting, then annealed" The specific heat and superconductivity of Th-Y and Th-La alloys 1973 "J.PHYS.SOC.JAPAN,34(1973)391"
113172 1361 (delta-C/gamma*Tc) = 1.43. e-ph coupling = 0.53 Th1-xYx Th0.65Y0.35 Th 0.65 Y 0.35 1 1973 fcc K 1.53 1.53 mj/mol.K2 5.1 180 "arc-melting, then annealed" The specific heat and superconductivity of Th-Y and Th-La alloys 1973 "J.PHYS.SOC.JAPAN,34(1973)391"
113173 1361 Th1-xYx Th0.4Y0.6 Th 0.4 Y 0.6 1 1973 hcp K 1.2 mj/mol.K2 5.26 203 "arc-melting, then annealed" The specific heat and superconductivity of Th-Y and Th-La alloys 1973 "J.PHYS.SOC.JAPAN,34(1973)391"
113174 1361 Th1-xYx Th0.25Y0.75 Th 0.25 Y 0.75 1 1973 hcp K 1.2 mj/mol.K2 6.85 210 "arc-melting, then annealed" The specific heat and superconductivity of Th-Y and Th-La alloys 1973 "J.PHYS.SOC.JAPAN,34(1973)391"
113175 1361 Th1-xYx Th0.1Y0.9 Th 0.1 Y 0.9 1 1973 hcp K 1.2 mj/mol.K2 7.58 227 "arc-melting, then annealed" The specific heat and superconductivity of Th-Y and Th-La alloys 1973 "J.PHYS.SOC.JAPAN,34(1973)391"
113176 1361 Th1-xYx Th1 Th 1 1 1973 hcp K 0.08 mj/mol.K2 10.3 330 "arc-melting, then annealed" The specific heat and superconductivity of Th-Y and Th-La alloys 1973 "J.PHYS.SOC.JAPAN,34(1973)391"
113177 1361 (delta-C/gamma*Tc) = 1.45. e-ph coupling = 0.53 Th1-xLax La0.05Th0.95 La 0.05 Th 0.95 1 1973 fcc K 1.3 1.3 mj/mol.K2 4.17 166 "arc-melting, then annealed" The specific heat and superconductivity of Th-Y and Th-La alloys 1973 "J.PHYS.SOC.JAPAN,34(1973)391"
113178 1361 (delta-C/gamma*Tc) = 1.49. e-ph coupling = 0.54 Th1-xLax La0.1Th0.9 La 0.1 Th 0.9 1 1973 fcc K 1.48 1.48 mj/mol.K2 4.26 165 "arc-melting, then annealed" The specific heat and superconductivity of Th-Y and Th-La alloys 1973 "J.PHYS.SOC.JAPAN,34(1973)391"
113179 1361 (delta-C/gamma*Tc) = 1.44. e-ph coupling = 0.58 Th1-xLax La0.2Th0.8 La 0.2 Th 0.8 1 1973 fcc K 1.87 1.87 mj/mol.K2 4.45 163 "arc-melting, then annealed" The specific heat and superconductivity of Th-Y and Th-La alloys 1973 "J.PHYS.SOC.JAPAN,34(1973)391"
113180 1361 (delta-C/gamma*Tc) = 1.56. e-ph coupling = 0.82 Th1-xLax La0.7Th0.3 La 0.7 Th 0.3 1 1973 fcc K 4.88 4.88 mj/mol.K2 8.6 150 "arc-melting, then annealed" The specific heat and superconductivity of Th-Y and Th-La alloys 1973 "J.PHYS.SOC.JAPAN,34(1973)391"
113181 1361 (delta-C/gamma*Tc) = 1.80. e-ph coupling = 0.83 Th1-xLax La0.8Th0.2 La 0.8 Th 0.2 1 1973 fcc K 5.15 5.15 mj/mol.K2 10 151 "arc-melting, then annealed" The specific heat and superconductivity of Th-Y and Th-La alloys 1973 "J.PHYS.SOC.JAPAN,34(1973)391"
113182 1361 e-ph coupling = 0.9 Th1-xLax La0.9Th0.1 La 0.9 Th 0.1 1973 K 5.62 5.62 mj/mol.K2 10.5 148 "arc-melting, then annealed" The specific heat and superconductivity of Th-Y and Th-La alloys 1973 "J.PHYS.SOC.JAPAN,34(1973)391"
113183 524 W1-xTcx Tc0.05W0.95 Tc 0.05 W 0.95 1 1965 A 3.1617 bcc K 0.8 "powder, press, arc-melting" SUPERCONDUCTING THECHNETIUM-TUNGSTEN ALLOYS 1965 "PHYS.REV.,140(1965)A1177"
113184 524 W1-xTcx Tc0.1W0.9 Tc 0.1 W 0.9 1 1965 A 3.1553 bcc K 1.25 1.25 "powder, press, arc-melting" SUPERCONDUCTING THECHNETIUM-TUNGSTEN ALLOYS 1965 "PHYS.REV.,140(1965)A1177"
113185 524 W1-xTcx Tc0.2W0.8 Tc 0.2 W 0.8 1 1965 A 3.147 bcc K 3.85 3.85 "powder, press, arc-melting" SUPERCONDUCTING THECHNETIUM-TUNGSTEN ALLOYS 1965 "PHYS.REV.,140(1965)A1177"
113186 524 Hc2(4.2K)= 7.5 kG W1-xTcx Tc0.3W0.7 Tc 0.3 W 0.7 1 1965 A 3.134 bcc K 5.75 5.75 kG 18.3 "powder, press, arc-melting" SUPERCONDUCTING THECHNETIUM-TUNGSTEN ALLOYS 1965 "PHYS.REV.,140(1965)A1177"
113187 524 Hc2(4.2K)= 19.0 kG. W1-xTcx Tc0.4W0.6 Tc 0.4 W 0.6 1 1965 A 3.126 bcc K 7.18 7.18 kG 31.3 "powder, press, arc-melting" SUPERCONDUCTING THECHNETIUM-TUNGSTEN ALLOYS 1965 "PHYS.REV.,140(1965)A1177"
113188 524 Hc2(4.2K)= 29.0 kG. alpha- and sigma-phase detected. W1-xTcx Tc0.5W0.5 Tc 0.5 W 0.5 1965 A 3.117 K 7.52 7.52 kG 45.5 "powder, press, arc-melting" SUPERCONDUCTING THECHNETIUM-TUNGSTEN ALLOYS 1965 "PHYS.REV.,140(1965)A1177"
113189 524 Hc2(4.2K)= 43.5 kG. alpha-phase detected. W1-xTcx Tc0.6W0.4 Tc 0.6 W 0.4 1965 A 3.117 K 7.88 7.88 kG 65.1 "powder, press, arc-melting" SUPERCONDUCTING THECHNETIUM-TUNGSTEN ALLOYS 1965 "PHYS.REV.,140(1965)A1177"
113190 1416 "Tc, Hc1(0), Hc2(0) increase with increasing pressure." alpha-U U1 U 1 3 1970 K 0.2 0.2 MTC113190 K/GPa 1.8 Oe 120 Oe 240 MHC113190 Superconductivity of an alpha-uranium single crystal under pressure 1970 "SOLID STATE COMMUN.,8(1970)655"
113191 1698 V1-xScx Sc0.01V0.99 Sc 0.01 V 0.99 1964 K 5.67 5.67 kG 4.97 Investigation of the superconductivity of alloys in the V-Sc system 1964 "Soviet Physics-JETP, 20(1965)543"
113192 1698 V1-xScx Sc0.07V0.93 Sc 0.07 V 0.93 1964 K 6.09 6.09 kG 3.01 Investigation of the superconductivity of alloys in the V-Sc system 1964 "Soviet Physics-JETP, 20(1965)543"
113193 1698 V1-xScx Sc0.3V0.7 Sc 0.3 V 0.7 1964 K 6.76 6.76 kG 2.59 Investigation of the superconductivity of alloys in the V-Sc system 1964 "Soviet Physics-JETP, 20(1965)543"
113194 1698 V1-xScx Sc0.4V0.6 Sc 0.4 V 0.6 1964 K 6.94 6.94 kG 1.77 Investigation of the superconductivity of alloys in the V-Sc system 1964 "Soviet Physics-JETP, 20(1965)543"
113195 1698 V1-xScx Sc0.5V0.5 Sc 0.5 V 0.5 1964 K 7.03 7.03 Investigation of the superconductivity of alloys in the V-Sc system 1964 "Soviet Physics-JETP, 20(1965)543"
113196 1698 V1-xScx Sc0.6V0.4 Sc 0.6 V 0.4 1964 K 6.84 6.84 Investigation of the superconductivity of alloys in the V-Sc system 1964 "Soviet Physics-JETP, 20(1965)543"
113197 1969 Zr1-xTax Ta0.03Zr0.97 Ta 0.03 Zr 0.97 1971 K 2.01 2.01 "ANN(1340C), Quench to RT" The metastable constitution and the superconducting transition behavior of Zr-Ta alloys 1971 "J.NUCLEAR MATERIALS,38(1971)83"
113198 1969 Zr1-xTax Ta0.07Zr0.93 Ta 0.07 Zr 0.93 1971 K 3.25 3.25 "ANN(1340C), Quench to RT" The metastable constitution and the superconducting transition behavior of Zr-Ta alloys 1971 "J.NUCLEAR MATERIALS,38(1971)83"
113199 1969 Zr1-xTax Ta0.1Zr0.9 Ta 0.1 Zr 0.9 1971 K 3.76 3.76 "ANN(1340C), Quench to RT" The metastable constitution and the superconducting transition behavior of Zr-Ta alloys 1971 "J.NUCLEAR MATERIALS,38(1971)83"
113200 1969 Zr1-xTax Ta0.125Zr0.875 Ta 0.125 Zr 0.875 1971 K 4.14 4.14 "ANN(1340C), Quench to RT" The metastable constitution and the superconducting transition behavior of Zr-Ta alloys 1971 "J.NUCLEAR MATERIALS,38(1971)83"
113201 1969 Zr1-xTax Ta0.15Zr0.85 Ta 0.15 Zr 0.85 1971 K 4.28 4.28 "ANN(1340C), Quench to RT" The metastable constitution and the superconducting transition behavior of Zr-Ta alloys 1971 "J.NUCLEAR MATERIALS,38(1971)83"
113202 1969 Zr1-xTax Ta0.17Zr0.83 Ta 0.17 Zr 0.83 1971 K 5.28 5.28 "ANN(1340C), Quench to RT" The metastable constitution and the superconducting transition behavior of Zr-Ta alloys 1971 "J.NUCLEAR MATERIALS,38(1971)83"
113203 1969 Zr1-xTax Ta0.2Zr0.8 Ta 0.2 Zr 0.8 1971 K 5.56 5.56 "ANN(1340C), Quench to RT" The metastable constitution and the superconducting transition behavior of Zr-Ta alloys 1971 "J.NUCLEAR MATERIALS,38(1971)83"
113204 998 Tl Tl1 Tl 1 1965 K MTC13204 1965 "ZH.EKSP.TEOR.FIZ.,49(1965)85"
113205 998 Tl1-xHgx Hg0.0045Tl0.9955 Hg 0.0045 Tl 0.9955 1965 K MTC13204 1965 "ZH.EKSP.TEOR.FIZ.,49(1965)85"
113206 998 Tl1-xHgx Hg0.009Tl0.991 Hg 0.009 Tl 0.991 1965 K MTC13204 1965 "ZH.EKSP.TEOR.FIZ.,49(1965)85"
113207 472 P-induced SC. P(cr)=110 kbar. Tc(110kbar)= 1.8 K. Y(II) for P < 125 kbar. RRR=8. Y(II) Y1 Y 1 1974 K 1.8 0 1.8 K/GPa -0.32 New superconducting modifications of yttrium 1974 "JETP Lett., 20(1974)8 "
113208 472 P-induced SC. P(cr)=110 kbar. Y(III) for 125 < P < 160 kbar. RRR=8. Y(III) Y1 Y 1 1974 K 0 K/GPa 0.35 New superconducting modifications of yttrium 1974 "JETP Lett., 20(1974)8 "
113209 909 P-induced SC. Tc = 2.05 K at P(cr)=43 kbar. Te(II) for 40 < P < 70 kbar. hole conc. = 1 - 4 E+18 /cm3. Te(II) Te1 Te 1 3 1971 K 2.05 0 2.05 K/GPa 0.85 1971 "ZH.ETF PIS.RED.,13(1971)23"
113210 909 P-induced SC. Tc = 4.3 K. at P = 80 kbar. Te(IV) for 80 < P < 100 kbar. Te(IV) Te1 Te 1 3 1971 K 4.3 0 4.3 K/GPa -0.34 1971 "ZH.ETF PIS.RED.,13(1971)23"
113211 951 Tc(Th) = 1.36 K Th1-xCex Ce0.02Th0.98 Ce 0.02 Th 0.98 1970 K 0.7 0.7 MTC13211 Superconducting-normal phase boundary of superconductors containing nearly nonmagnetic impurities 1970 "Solid State Commun.,8(1970)1987"
113212 951 Tc(Th) = 1.36 K Th1-xUx Th0.9988U0.0012 Th 0.9988 U 0.0012 1970 K 0.55 0.55 MTC13212 Superconducting-normal phase boundary of superconductors containing nearly nonmagnetic impurities 1970 "Solid State Commun.,8(1970)1987"
113213 951 Tc(Al) = 1.17 K Al1-xMnx Al0.998Mn0.002 Al 0.998 Mn 0.002 1970 K 0.262 0.262 MTC13213 Superconducting-normal phase boundary of superconductors containing nearly nonmagnetic impurities 1970 "Solid State Commun.,8(1970)1987"
113214 1519 Tc(P) is measured. Al1-xMnx Al99.925Mn0.075 Al 99.925 Mn 0.075 1971 K 0.7 0.7 MTC13214 Superconductivity of AlMn and ThU alloys under pressure 1971 "J.PHYS.F:METAL.PHYS.,1(1971)893"
113215 1519 Tc(P) is measured. Th1-xUx Th99.92U0.08 Th 99.92 U 0.08 1971 K 0.77 0.77 MTC13215 Superconductivity of AlMn and ThU alloys under pressure 1971 "J.PHYS.F:METAL.PHYS.,1(1971)893"
113216 514 Ti-V-Al Ti0.63V0.27Al0.1 Ti 0.63 V 0.27 Al 0.1 1964 K 3.62 3.62 mj/mol.K2 8.63 255 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113217 514 Ti-V-Al Ti0.595V0.255Al0.15 Ti 0.595 V 0.255 Al 0.15 1964 K 2.36 2.36 mj/mol.K2 7.54 290 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113218 514 Ti-V-Al Ti0.525V0.255Al0.25 Ti 0.525 V 0.255 Al 0.25 1964 K mj/mol.K2 6.03 333 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113219 514 Ti-V-Al Ti0.49V0.21Al0.3 Ti 0.49 V 0.21 Al 0.3 1964 K mj/mol.K2 4.86 344 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113220 514 Ti-V-Al Ti0.72V0.18Al0.1 Ti 0.72 V 0.18 Al 0.1 1964 K 3.52 3.52 mj/mol.K2 8.17 251 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113221 514 Ti-V-Al Ti0.54V0.36Al0.1 Ti 0.54 V 0.36 Al 0.1 1964 K 3.44 3.44 mj/mol.K2 8.67 353 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113222 514 Ti-V-Al Ti0.36V0.54Al0.1 Ti 0.36 V 0.54 Al 0.1 1964 K 2.7 2.7 mj/mol.K2 8.13 412 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113223 514 Ti-V-Al Ti0.18V0.72Al0.1 Ti 0.18 V 0.72 Al 0.1 1964 K 2.05 2.05 mj/mol.K2 7.63 416 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113224 514 V-Cr-Al V0.81Cr0.09Al0.1 V 0.81 Cr 0.09 Al 0.1 1964 K 1.46 1.46 mj/mol.K2 6.7 393 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113225 514 V-Cr-Al V0.63Cr0.27Al0.1 V 0.63 Cr 0.27 Al 0.1 1964 K 1.5 mj/mol.K2 5.78 424 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113226 514 V-Cr-Al V0.45Cr0.45Al0.1 V 0.45 Cr 0.45 Al 0.1 1964 K 1.5 mj/mol.K2 4.19 332 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113227 514 V-Cr-Al V0.27Cr0.63Al0.1 V 0.27 Cr 0.63 Al 0.1 1964 K 1.5 mj/mol.K2 3.73 445 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113228 514 V-Cr-Al V0.18Cr0.72Al0.1 V 0.18 Cr 0.72 Al 0.1 1964 K 1.5 mj/mol.K2 3.02 537 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113229 514 V-Cr-Al V0.09Cr0.81Al0.1 V 0.09 Cr 0.81 Al 0.1 1964 K 1.5 mj/mol.K2 2.85 507 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113230 514 V-Cr-Al V0.045Cr0.855Al0.1 V 0.045 Cr 0.855 Al 0.1 1964 K 1.5 mj/mol.K2 2.64 592 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113231 514 "Constant term in SP-heat, A = 2.4 E-4 cal/mol.K" Cr-Fe-Al Cr0.855Fe0.045Al0.1 Cr 0.855 Fe 0.045 Al 0.1 1964 K 1.5 mj/mol.K2 3.31 894 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113232 514 "Constant term in SP-heat, A = 22.8 E-4 cal/mol.K" Cr-Fe-Al Cr0.81Fe0.09Al0.1 Cr 0.81 Fe 0.09 Al 0.1 1964 K 1.5 mj/mol.K2 8.84 588 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113233 514 "Constant term in SP-heat, A = 15.3 E-4 cal/mol.K" Cr-Fe-Al Cr0.765Fe0.135Al0.1 Cr 0.765 Fe 0.135 Al 0.1 1964 K 1.5 mj/mol.K2 14.2 578 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113234 514 "Constant term in SP-heat, A = 15.4 E-4 cal/mol.K" Cr-Fe-Al Cr0.72Fe0.18Al0.1 Cr 0.72 Fe 0.18 Al 0.1 1964 K 1.5 mj/mol.K2 16.2 570 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113235 514 "Constant term in SP-heat, A = 6.5 E-4 cal/mol.K" Cr-Fe-Al Cr0.675Fe0.225Al0.1 Cr 0.675 Fe 0.225 Al 0.1 1964 K 1.5 mj/mol.K2 13 562 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113236 514 "Constant term in SP-heat, A = 13.3 E-4 cal/mol.K" Cr-Fe-Al Cr0.63Fe0.27Al0.1 Cr 0.63 Fe 0.27 Al 0.1 1964 K 1.5 mj/mol.K2 8.42 209 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113237 514 Cr-Fe-Al Cr0.54Fe0.36Al0.1 Cr 0.54 Fe 0.36 Al 0.1 1964 K 1.5 mj/mol.K2 7.28 404 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113238 514 Cr-Fe-Al Cr0.45Fe0.45Al0.1 Cr 0.45 Fe 0.45 Al 0.1 1964 K 1.5 mj/mol.K2 5.78 501 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113239 514 Cr-Fe-Al Cr0.225Fe0.675Al0.1 Cr 0.225 Fe 0.675 Al 0.1 1964 K 1.5 mj/mol.K2 4.69 421 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113240 514 Cr-Fe-Al Cr0.045Fe0.855Al0.1 Cr 0.045 Fe 0.855 Al 0.1 1964 K 1.5 mj/mol.K2 4.65 344 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113241 514 "(1/T)-term in SP-heat, a = 2.493 E-4 cal/mol.K" Fe-Co-Al Fe0.81Co0.09Al0.1 Fe 0.81 Co 0.09 Al 0.1 1964 K 1.5 mj/mol.K2 3.98 430 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113242 514 "(1/T)-term in SP-heat, a = 5.141 E-4 cal/mol.K" Fe-Co-Al Fe0.72Co0.18Al0.1 Fe 0.72 Co 0.18 Al 0.1 1964 K 1.5 mj/mol.K2 3.14 332 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113243 514 "(1/T)-term in SP-heat, a = 5.406 E-4 cal/mol.K" Fe-Co-Al Fe0.63Co0.27Al0.1 Fe 0.63 Co 0.27 Al 0.1 1964 K 1.5 mj/mol.K2 2.47 496 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113244 514 "(1/T)-term in SP-heat, a = 5.472 E-4 cal/mol.K" Fe-Co-Al Fe0.54Co0.36Al0.1 Fe 0.54 Co 0.36 Al 0.1 1964 K 1.5 mj/mol.K2 1.8 494 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113245 514 "(1/T)-term in SP-heat, a = 5.077 E-4 cal/mol.K" Fe-Co-Al Fe0.45Co0.45Al0.1 Fe 0.45 Co 0.45 Al 0.1 1964 K 1.5 mj/mol.K2 1.01 506 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113246 514 "(1/T)-term in SP-heat, a = 13.563 E-4 cal/mol.K" Fe-Co-Al Fe0.36Co0.54Al0.1 Fe 0.36 Co 0.54 Al 0.1 1964 K 1.5 mj/mol.K2 2.18 328 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113247 514 "(1/T)-term in SP-heat, a = 7.537 E-4 cal/mol.K" Fe-Co-Al Fe0.27Co0.63Al0.1 Fe 0.27 Co 0.63 Al 0.1 1964 K 1.5 mj/mol.K2 4.02 471 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113248 514 Cr Cr1 Cr 1 1964 K 1.5 mj/mol.K2 1.42 606 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113249 514 Cr1-xAlx Al0.049Cr0.951 Al 0.049 Cr 0.951 1964 K 1.5 mj/mol.K2 2.05 460 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113250 514 Cr1-xAlx Al0.1Cr0.9 Al 0.1 Cr 0.9 1964 K 1.5 mj/mol.K2 1.8 581 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113251 514 Cr1-xAlx Al0.146Cr0.854 Al 0.146 Cr 0.854 1964 K 1.5 mj/mol.K2 1.17 528 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113252 514 Cr1-xAlx Al0.2Cr0.8 Al 0.2 Cr 0.8 1964 K 1.5 mj/mol.K2 4.61 529 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113253 514 Cr1-xAlx Al0.25Cr0.75 Al 0.25 Cr 0.75 1964 K 1.5 mj/mol.K2 3.6 446 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113254 514 Cr1-xAlx Al0.3Cr0.7 Al 0.3 Cr 0.7 1964 K 1.5 mj/mol.K2 1.05 425 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113256 514 V1-xAlx Al0.188V0.812 Al 0.188 V 0.812 1964 K 1.5 mj/mol.K2 5.49 323 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113257 514 V1-xAlx Al0.308V0.692 Al 0.308 V 0.692 1964 K 1.5 mj/mol.K2 4.19 332 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113258 514 V1-xAlx Al0.402V0.598 Al 0.402 V 0.598 1964 K 1.5 mj/mol.K2 3.44 324 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113259 514 V1-xSnx Sn0.02V0.98 Sn 0.02 V 0.98 1964 K 2.87 2.87 mj/mol.K2 8 315 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113260 514 V1-xSnx Sn0.04V0.96 Sn 0.04 V 0.96 1964 K 1.86 1.86 mj/mol.K2 7.12 382 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113261 514 V1-xSnx Sn0.057V0.943 Sn 0.057 V 0.943 1964 K 1.6 1.6 mj/mol.K2 6.66 393 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113262 514 V1-xSbx Sb0.01V0.99 Sb 0.01 V 0.99 1964 K 3.76 3.76 mj/mol.K2 8.84 352 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113263 514 V1-xSbx Sb0.02V0.98 Sb 0.02 V 0.98 1964 K 3.29 3.29 mj/mol.K2 8.17 319 Low temperature specific heat of bcc alloys of 3d transition elements and aluminum 1964 "J.PHYS.CHEM.SOLIDS,25(1964)993"
113264 1704 Tc(R) = 5.21. RRR=24. (delta-C/gamma*Tc) = 1.40 V V1 V 1 1973 A 3.029 bcc K 5.24 5.24 mj/mol.K2 9.8 373 Alteration of the superconducting properties of vanadium by introduction of tantalum impurity atoms 1973 Soviet Phys. JETP 37(1973)102
113265 1704 Tc(R) = 4.95. RRR=9.6. (delta-C/gamma*Tc) = 1.41 V1-xTax Ta0.0082V0.9918 Ta 0.0082 V 0.9918 1973 A 3.031 bcc K 4.9 4.9 mj/mol.K2 9.5 370 Alteration of the superconducting properties of vanadium by introduction of tantalum impurity atoms 1973 Soviet Phys. JETP 37(1973)102
113266 1704 Tc(R)= 4.57. RRR=5.6. (delta-C/gamma*Tc) = 1.42 V1-xTax Ta0.0355V0.9645 Ta 0.0355 V 0.9645 1973 A 3.037 bcc K 4.55 4.55 mj/mol.K2 9.25 359 Alteration of the superconducting properties of vanadium by introduction of tantalum impurity atoms 1973 Soviet Phys. JETP 37(1973)102
113267 1704 Tc(R) = 4.46. RRR=4.8. (delta-C/gamma*Tc) = 1.43 V1-xTax Ta0.0568V0.9432 Ta 0.0568 V 0.9432 1973 A 3.049 bcc K 4.46 4.46 mj/mol.K2 9.16 350 Alteration of the superconducting properties of vanadium by introduction of tantalum impurity atoms 1973 Soviet Phys. JETP 37(1973)102
113268 1563 Hc2 = Hc derived from Hc(T) using simple BCS extraporation. Th1-xUx Th0.99975U0.025 Th 0.99975 U 0.025 1973 K 1.182 1.182 Oe 136.6 MHC13268 1973 "PHYS.REV.B,8(1973)3179"
113269 1563 Hc2 = Hc derived from Hc(T) using simple BCS extraporation. Th1-xUx Th0.9995U0.05 Th 0.9995 U 0.05 1973 K 1.014 1.014 Oe 117 MHC13268 1973 "PHYS.REV.B,8(1973)3179"
113270 1563 Hc2 = Hc derived from Hc(T) using simple BCS extraporation. Th1-xUx Th0.999U0.1 Th 0.999 U 0.1 1973 K 0.725 0.725 Oe 84.5 MHC13270 1973 "PHYS.REV.B,8(1973)3179"
113271 1563 Hc2 = Hc derived from Hc(T) using simple BCS extraporation. Th1-xUx Th0.99873U0.127 Th 0.99873 U 0.127 1973 K 0.658 0.658 Oe 76.5 MHC13270 1973 "PHYS.REV.B,8(1973)3179"
113272 1563 Th1-xUx Th0.9985U0.15 Th 0.9985 U 0.15 1973 K 0.495 0.495 MHC13270 1973 "PHYS.REV.B,8(1973)3179"
113273 1563 Th1-xUx Th0.998U0.2 Th 0.998 U 0.2 1973 K 0.304 0.304 MTC13273 1973 "PHYS.REV.B,8(1973)3179"
113274 PR1720430 RRR=1200. Hc2=Hc. Energy gap deduced from Hc(T) curve. Th1-xUx Th1 Th 1 1968 K 1.39 1.39 Oe 159.22 MHC13274 3.53 mj/mol.K2 4.31 Critical-field curves for gapless superconductors 1968 "Phys.Rev., 172(1968)430"
113275 PR1720430 Hc2=Hc. Energy gap deduced from Hc(T) curve. Th1-xUx Th0.999U0.001 Th 0.999 U 0.001 1968 K 1.11 1.11 Oe 123.06 MHC13274 3.91 Critical-field curves for gapless superconductors 1968 "Phys.Rev., 172(1968)430"
113276 PR1720430 Hc2=Hc. Energy gap deduced from Hc(T) curve. Th1-xUx Th0.9985U0.0015 Th 0.9985 U 0.0015 1968 K 0.9 0.9 Oe 96.16 MHC13276 4.3 Critical-field curves for gapless superconductors 1968 "Phys.Rev., 172(1968)430"
113277 PR1720430 Hc2=Hc. Energy gap deduced from Hc(T) curve. Th1-xUx Th0.998U0.002 Th 0.998 U 0.002 1968 K 0.761 0.761 Oe 78.63 MHC13276 4.66 Critical-field curves for gapless superconductors 1968 "Phys.Rev., 172(1968)430"
113278 LTP0030137 Th1-xUx Th0.999U0.001 Th 0.999 U 0.001 1970 K 0.66 0.66 MTC13278 1970 "J.Low Temp.Phys., 3(1970)137"
113279 JPS0733129 P-induced SC. P(cr)=2.61 GPa. SC properties for P=2.61 GPa. SC region shown in FIG(from JPS076051007). gamma calculated from Hc2(T). RR=0.44 microOhm.cm. RRR=250. UIr Ir1U1 Ir 1 U 1 3 2004 46 PbBi P2<1> monoclinic-PbBi K 0.14 0 0.14 MPH113279 mT 25.8 A 1100 mj/mol.K2 48.5 Czochralski method Pressure-induced Superconductivity in UIr 2004 "Faculty of Maritime Sciences, Kobe University, Higashi-Nada, Kobe, Japan" "J.Phys.Soc.Jpn, 73(2004)3129"
113280 JPS0732639 AgB2 phase not detected by XRD. But authors believe that AgB2 films were synthesized. Tc-width = 0.7 K. thickness = 130 nm. AgB2 Ag1B2 Ag 1 B 2 2004 K 6.7 6.7 "deposit Ag/B on MgO,then ANN(820C,4h)" Superconductivity in Silver Boron Intermetallic Compound 2004 "Department of Physics, Tokyo Institute of Technology, 2-12-1 O-okayama, Meguro-ku, Tokyo, Japan" "J.Phys.Soc.Jpn, 73(2004)2639"
113281 P071020501 Hc2 by thermal conductivity. "Mg(B,C)2" Mg1B1.94C0.06 Mg 1 B 1.94 C 0.06 3 2005 AlB2 "AlB2, C32" K MMHC13281 high-pressure synthesis using cubic anvil Influence of carbon substitution on the heat transport in single crystalline MgB2 2005 "Laboratorium fur Festkorperphysik, ETH Honggerberg, CH-8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)020501"
113282 P071020501 "Hc2 by thermal conductivity. Tc-width=0.1 K. R = R0+a*T^3 (R0=12.3 uOhm.cm, a=5.4E-7 uOhm.cm/K^3). Wiedemann-Franz law is valid." "Mg(B,C)2" Mg1B1.88C0.12 Mg 1 B 1.88 C 0.12 3 2005 AlB2 "AlB2, C32" K 32.9 32.9 MHC13282 high-pressure synthesis using cubic anvil Influence of carbon substitution on the heat transport in single crystalline MgB2 2005 "Laboratorium fur Festkorperphysik, ETH Honggerberg, CH-8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)020501"
113283 JPS0613054 gap from NMR of <205>Tl TlMoSe7.5 Tl1Mo6Se7.5 Tl 1 Mo 6 Se 7.5 1992 Chevrel K 12.2 12.2 4.5 sintering Nuclear relaxation study in strong coupling superconductors -A comparison with high-Tc superconductors - 1992 "Department of Material Physics, Faculty of Engineering Science, Osaka University, Toyonaka,Osaka,Japan" "J.Phys.Soc.Jpn, 61(1992)3054"
113284 JPS0613054 gap from NMR of <119>Sn SnMo6Se7.5 Sn1.1Mo6Se7.5 Sn 1.1 Mo 6 Se 7.5 1992 Chevrel K 4.2 4.2 3.6 sintering Nuclear relaxation study in strong coupling superconductors -A comparison with high-Tc superconductors - 1992 "Department of Material Physics, Faculty of Engineering Science, Osaka University, Toyonaka,Osaka,Japan" "J.Phys.Soc.Jpn, 61(1992)3054"
113285 P064224420 space-G = Pbcm. La3Rh2Ge2 La3Rh2Ge2 La 3 Rh 2 Ge 2 2001 A 5.76 8.189 13.596 K 3.5 3.5 arc-melting Superconductivity in La3Rh2Ge2 and dense Kondo behavior in Ce3Rh2Ge2 2001 "Phys.Rev.B, 64(2001)224420"
113286 P064224420 space-G = Pbcm. spin reordering at 5 K. effective M = 2.52 my-B/Ce. Ce3Rh2Ge2 Ce3Rh2Ge2 Ce 3 Rh 2 Ge 2 2001 -90 7.5 A 5.679 8.073 13.421 K 4.2 arc-melting Superconductivity in La3Rh2Ge2 and dense Kondo behavior in Ce3Rh2Ge2 2001 "Phys.Rev.B, 64(2001)224420"
113287 PR0246715 "ANN(670C,2w, in Yb atmosphere). SC volume fraction = 100%. X-ray extra line(Yb, Pd4Yb3, PdGe, Pd2Ge, GeO2)." YbPd2Ge2 Yb1Pd2Ge2 Yb 1 Pd 2 Ge 2 1981 K 1.17 1.17 induction melting "Superconductivity in the ternary intermetallics YbPd2Ge2, LaPd2Ge2, and LaPt2Ge2" 1981 "Bell Lab, Murray Hill, New Jersey" "Phys.Rev.B, 24(1981)6715"
113288 PR0246715 "ANN(670C, 5d)" LaPd2Ge2 La1Pd2Ge2 La 1 Pd 2 Ge 2 1 1981 K 1.12 1.12 induction melting "Superconductivity in the ternary intermetallics YbPd2Ge2, LaPd2Ge2, and LaPt2Ge2" 1981 "Bell Lab, Murray Hill, New Jersey" "Phys.Rev.B, 24(1981)6715"
113289 PR0246715 "ANN(650C, 5d)" LaPt2Ge2 La1Pt2Ge2 La 1 Pt 2 Ge 2 1 1981 K 0.55 0.55 induction melting "Superconductivity in the ternary intermetallics YbPd2Ge2, LaPd2Ge2, and LaPt2Ge2" 1981 "Bell Lab, Murray Hill, New Jersey" "Phys.Rev.B, 24(1981)6715"
113290 PR0246715 "ANN(670C, 5d)" YbCu2Ge2 Yb1Cu2Ge2 Yb 1 Cu 2 Ge 2 1981 K 0.47 induction melting "Superconductivity in the ternary intermetallics YbPd2Ge2, LaPd2Ge2, and LaPt2Ge2" 1981 "Bell Lab, Murray Hill, New Jersey" "Phys.Rev.B, 24(1981)6715"
113291 P071024509 LuNi2B2C Lu1Ni2B2C1 Lu 1 Ni 2 B 2 C 1 2005 LuNi2B2C A 3.463 10.626 K 16.5 16.5 arc-melting Influence of structural parameters on Tc in superconducting RNi2B2C compounds 2005 "Centro Brasileiro de Pesquisas Fisicas, Rua Xavier Sigaud 150, Urca, Rio de Janeiro, Brazil" "Phys.Rev.B, 71(2005)024509"
113292 P071024509 La-content calculated from lattice constant assuming Vegards law. "(Lu,La)Ni2B2C" Lu0.98La0.02Ni2B2C1 Lu 0.98 La 0.02 Ni 2 B 2 C 1 2005 LuNi2B2C A 3.47 10.615 K 16.2 16.2 arc-melting Influence of structural parameters on Tc in superconducting RNi2B2C compounds 2005 "Centro Brasileiro de Pesquisas Fisicas, Rua Xavier Sigaud 150, Urca, Rio de Janeiro, Brazil" "Phys.Rev.B, 71(2005)024509"
113293 P071024509 La-content calculated from lattice constant assuming Vegards law. "(Lu,La)Ni2B2C" Lu0.95La0.05Ni2B2C1 Lu 0.95 La 0.05 Ni 2 B 2 C 1 2005 LuNi2B2C A 3.48 10.605 K 15.3 15.3 arc-melting Influence of structural parameters on Tc in superconducting RNi2B2C compounds 2005 "Centro Brasileiro de Pesquisas Fisicas, Rua Xavier Sigaud 150, Urca, Rio de Janeiro, Brazil" "Phys.Rev.B, 71(2005)024509"
113294 P071024509 La-content calculated from lattice constant assuming Vegards law. "(Lu,La)Ni2B2C" Lu0.94La0.06Ni2B2C1 Lu 0.94 La 0.06 Ni 2 B 2 C 1 2005 LuNi2B2C A 3.484 10.601 K 15.1 15.1 arc-melting Influence of structural parameters on Tc in superconducting RNi2B2C compounds 2005 "Centro Brasileiro de Pesquisas Fisicas, Rua Xavier Sigaud 150, Urca, Rio de Janeiro, Brazil" "Phys.Rev.B, 71(2005)024509"
113295 P071024509 La-content calculated from lattice constant assuming Vegards law. "(Lu,La)Ni2B2C" Lu0.93La0.07Ni2B2C1 Lu 0.93 La 0.07 Ni 2 B 2 C 1 2005 LuNi2B2C A 3.486 10.596 K 13.6 13.6 arc-melting Influence of structural parameters on Tc in superconducting RNi2B2C compounds 2005 "Centro Brasileiro de Pesquisas Fisicas, Rua Xavier Sigaud 150, Urca, Rio de Janeiro, Brazil" "Phys.Rev.B, 71(2005)024509"
113296 P071024509 La-content calculated from lattice constant assuming Vegards law. "(Lu,La)Ni2B2C" Lu0.92La0.08Ni2B2C1 Lu 0.92 La 0.08 Ni 2 B 2 C 1 2005 LuNi2B2C A 3.487 10.59 K 13.6 13.6 arc-melting Influence of structural parameters on Tc in superconducting RNi2B2C compounds 2005 "Centro Brasileiro de Pesquisas Fisicas, Rua Xavier Sigaud 150, Urca, Rio de Janeiro, Brazil" "Phys.Rev.B, 71(2005)024509"
113297 P071024509 La-content calculated from lattice constant assuming Vegards law. "(Lu,La)Ni2B2C" Lu0.91La0.09Ni2B2C1 Lu 0.91 La 0.09 Ni 2 B 2 C 1 2005 LuNi2B2C A 3.764 9.894 K 2 arc-melting Influence of structural parameters on Tc in superconducting RNi2B2C compounds 2005 "Centro Brasileiro de Pesquisas Fisicas, Rua Xavier Sigaud 150, Urca, Rio de Janeiro, Brazil" "Phys.Rev.B, 71(2005)024509"
113298 P071024533 MgB2 B2Mg1 B 2 Mg 1 3 2005 AlB2 A 3.0849 3.5187 "AlB2, C32" K 38.5 38.5 high-pressure synthesis Carbon substitution in MgB2 single crystals: Structural and superconducting properties 2005 "Solid State Physics Laboratory ETH, 8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)024533"
113299 P071024533 C-content estimated from lattice constant a using PHC3870301(2003) "Mg(B,C)2" Mg1B1.896C0.104 Mg 1 B 1.896 C 0.104 3 2005 AlB2 A 3.0683 3.521 "AlB2, C32" K 35 35 high-pressure synthesis Carbon substitution in MgB2 single crystals: Structural and superconducting properties 2005 "Solid State Physics Laboratory ETH, 8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)024533"
113300 P071024533 C-content estimated from lattice constant a using PHC3870301(2003) "Mg(B,C)2" Mg1B1.9C0.1 Mg 1 B 1.9 C 0.1 3 2005 AlB2 A 3.0687 3.5217 "AlB2, C32" K 34.3 34.3 MHC13300 high-pressure synthesis Carbon substitution in MgB2 single crystals: Structural and superconducting properties 2005 "Solid State Physics Laboratory ETH, 8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)024533"
113301 P071024533 C-content estimated from lattice constant a using PHC3870301(2003) "Mg(B,C)2" Mg1B1.874C0.126 Mg 1 B 1.874 C 0.126 3 2005 AlB2 A 3.0647 3.522 "AlB2, C32" K 33.3 33.3 high-pressure synthesis Carbon substitution in MgB2 single crystals: Structural and superconducting properties 2005 "Solid State Physics Laboratory ETH, 8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)024533"
113302 P071024533 C-content estimated from lattice constant a using PHC3870301(2003) "Mg(B,C)2" Mg1B1.84C0.16 Mg 1 B 1.84 C 0.16 3 2005 AlB2 A 3.0592 3.5208 "AlB2, C32" K 33 33 MTC13302 high-pressure synthesis Carbon substitution in MgB2 single crystals: Structural and superconducting properties 2005 "Solid State Physics Laboratory ETH, 8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)024533"
113303 P071024533 C-content estimated from lattice constant a using PHC3870301(2003) "Mg(B,C)2" Mg1B1.826C0.174 Mg 1 B 1.826 C 0.174 3 2005 AlB2 A 3.0569 3.5204 "AlB2, C32" K 30.8 30.8 MHC13303 high-pressure synthesis Carbon substitution in MgB2 single crystals: Structural and superconducting properties 2005 "Solid State Physics Laboratory ETH, 8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)024533"
113304 P071024533 C-content estimated from lattice constant a using PHC3870301(2003) "Mg(B,C)2" Mg1B1.81C0.19 Mg 1 B 1.81 C 0.19 3 2005 AlB2 A 3.0544 3.518 "AlB2, C32" K 30.1 30.1 MHC13303 high-pressure synthesis Carbon substitution in MgB2 single crystals: Structural and superconducting properties 2005 "Solid State Physics Laboratory ETH, 8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)024533"
113305 P071024533 C-content estimated from lattice constant a using PHC3870301(2003) "Mg(B,C)2" Mg1B1.8C0.2 Mg 1 B 1.8 C 0.2 3 2005 AlB2 A 3.0529 3.5164 "AlB2, C32" K 28 28 high-pressure synthesis Carbon substitution in MgB2 single crystals: Structural and superconducting properties 2005 "Solid State Physics Laboratory ETH, 8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)024533"
113306 P071024533 C-content estimated from lattice constant a using PHC3870301(2003) "Mg(B,C)2" Mg1B1.792C0.208 Mg 1 B 1.792 C 0.208 3 2005 AlB2 A 3.0517 3.5205 "AlB2, C32" K 25.5 25.5 high-pressure synthesis Carbon substitution in MgB2 single crystals: Structural and superconducting properties 2005 "Solid State Physics Laboratory ETH, 8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)024533"
113307 P071024533 C-content estimated from lattice constant a using PHC3870301(2003) "Mg(B,C)2" Mg1B1.7C0.3 Mg 1 B 1.7 C 0.3 3 2005 AlB2 A 3.0369 3.5182 "AlB2, C32" K 10.2 10.2 high-pressure synthesis Carbon substitution in MgB2 single crystals: Structural and superconducting properties 2005 "Solid State Physics Laboratory ETH, 8093 Zurich, Switzerland" "Phys.Rev.B, 71(2005)024533"
113308 PRL0862416 single-walled carbon nanotube. Hc defined as the inflection point in R(H). I-V characteristics are measured. CNT C1 C 1 2001 CNT K 0.37 0.37 T 1.35 T/K 3.65 electrical arc method with a mixture of Ni and Y as a catalyst Superconductivity in Ropes of Single-Walled Carbon Nanotubes 2001 "Phys.Rev.Lett., 86(2001)2416"
113309 PHC4070031 MgB2 B2Mg1 B 2 Mg 1 2004 AlB2 A 3.0841 3.5281 "AlB2, C32" K 38.81 38.81 "solid vapour reaction(900C,24h)" Peculiarities in the carbon substitution of MgB2 2004 "Physica C, 407(2004)31"
113310 PHC4070031 C-content (estimated from lat-a) = 0.06864 "Mg(B,C)2" Mg1B1.9C0.1 Mg 1 B 1.9 C 0.1 2004 AlB2 A 3.071 3.5265 "AlB2, C32" K 33.98 33.98 "solid vapour reaction(900C,24h)" Peculiarities in the carbon substitution of MgB2 2004 "Physica C, 407(2004)31"
113311 PHC4070031 C-content (estimated from lat-a) = 0.06864 "Mg(B,C)2" Mg1B1.8C0.2 Mg 1 B 1.8 C 0.2 2004 AlB2 A 3.0719 3.5247 "AlB2, C32" K 34.16 34.16 "solid vapour reaction(900C,24h)" Peculiarities in the carbon substitution of MgB2 2004 "Physica C, 407(2004)31"
113312 PHC4070031 C-content (estimated from lat-a) = 0.07258 "Mg(B,C)2" Mg1B1.7C0.3 Mg 1 B 1.7 C 0.3 2004 AlB2 A 3.071 3.5251 "AlB2, C32" K 34.27 34.27 "solid vapour reaction(900C,24h)" Peculiarities in the carbon substitution of MgB2 2004 "Physica C, 407(2004)31"
113313 PHC4070031 C-content (estimated from lat-a) = 0.09452 "Mg(B,C)2" Mg1B1.6C0.4 Mg 1 B 1.6 C 0.4 2004 AlB2 A 3.0683 3.5291 "AlB2, C32" K 33.3 33.3 "solid vapour reaction(900C,24h)" Peculiarities in the carbon substitution of MgB2 2004 "Physica C, 407(2004)31"
113314 PHC4070031 C-content (estimated from lat-a) = 0.12884 "Mg(B,C)2" Mg1B1.5C0.5 Mg 1 B 1.5 C 0.5 2004 AlB2 A 3.0593 3.5275 "AlB2, C32" K 28.3 28.3 "solid vapour reaction(900C,24h)" Peculiarities in the carbon substitution of MgB2 2004 "Physica C, 407(2004)31"
113315 PHC4070031 C-content (estimated from lat-a) = 0.19692 "Mg(B,C)2" Mg1B1.4C0.6 Mg 1 B 1.4 C 0.6 2004 AlB2 A 3.0505 3.5289 "AlB2, C32" K 19.45 19.45 "solid vapour reaction(900C,24h)" Peculiarities in the carbon substitution of MgB2 2004 "Physica C, 407(2004)31"
120001 MRB0200517 YIrSi Y1Ir1Si1 Y 1 Ir 1 Si 1 1985 TiNiSi A 6.789 4.188 7.462 K 2.7 2.7 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120002 MRB0200517 TiIrSi Ti1Ir1Si1 Ti 1 Ir 1 Si 1 1985 TiNiSi A 6.2578 3.8581 7.2006 K 1.7 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120003 MRB0200517 ZrIrSi Zr1Ir1Si1 Zr 1 Ir 1 Si 1 1985 TiNiSi A 6.5578 3.9537 7.3762 K 2.04 2.04 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120004 MRB0200517 HfIrSi Hf1Ir1Si1 Hf 1 Ir 1 Si 1 1985 TiNiSi A 6.471 3.938 7.3763 K 3.5 3.5 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120005 LES0920177 ZrRuP Zr1Ru1P1 Zr 1 Ru 1 P 1 1983 TiNiSi A 6.4169 3.8623 7.3215 K 3.82 3.82 arc-melting "Superconductivity and crystal structure of a new class of ternary transition metal phosphides TT'P (T=Zr,Nb,Ta and T'=Ru,Rh)" 1983 "J.Less Comon Met., 92(1983)177"
120006 LES0920177 NbRuP Nb1Ru1P1 Nb 1 Ru 1 P 1 1983 TiNiSi A 6.318 3.719 7.173 K 1.1 arc-melting "Superconductivity and crystal structure of a new class of ternary transition metal phosphides TT'P (T=Zr,Nb,Ta and T'=Ru,Rh)" 1983 "J.Less Comon Met., 92(1983)177"
120007 LES0920177 TaRuP Ta1Ru1P1 Ta 1 Ru 1 P 1 1983 TiNiSi A 6.288 3.713 7.164 K 1.1 arc-melting "Superconductivity and crystal structure of a new class of ternary transition metal phosphides TT'P (T=Zr,Nb,Ta and T'=Ru,Rh)" 1983 "J.Less Comon Met., 92(1983)177"
120008 LES0920177 ZrRhP Zr1Rh1P1 Zr 1 Rh 1 P 1 1983 TiNiSi A 6.483 3.787 7.393 K 1.55 1.55 arc-melting "Superconductivity and crystal structure of a new class of ternary transition metal phosphides TT'P (T=Zr,Nb,Ta and T'=Ru,Rh)" 1983 "J.Less Comon Met., 92(1983)177"
120009 LES0920177 NbRhP Nb1Rh1P1 Nb 1 Rh 1 P 1 1983 TiNiSi A 6.306 3.737 7.187 K 4.42 4.42 arc-melting "Superconductivity and crystal structure of a new class of ternary transition metal phosphides TT'P (T=Zr,Nb,Ta and T'=Ru,Rh)" 1983 "J.Less Comon Met., 92(1983)177"
120010 LES0920177 TaRhP Ta1Rh1P1 Ta 1 Rh 1 P 1 1983 TiNiSi A 6.253 3.736 7.18 K 4.86 4.86 arc-melting "Superconductivity and crystal structure of a new class of ternary transition metal phosphides TT'P (T=Zr,Nb,Ta and T'=Ru,Rh)" 1983 "J.Less Comon Met., 92(1983)177"
120011 NAC0773132 TiRuP Ti1Ru1P1 Ti 1 Ru 1 P 1 1980 ABC Fe2P A 6.303 3.567 K 1.33 1.33 "mixture - SIN(800-1200c, in Ar) - arc melting" Ternary transition metal phosphides: High-temperature superconductors 1980 "Proc.Natl.Acad.Sci.USA, 77(1980)3132"
120012 NAC0773132 ZrRuP Zr1Ru1P1 Zr 1 Ru 1 P 1 1980 ABC Fe2P A 6.459 3.778 K 10.56 12.34 11.45 "mixture - SIN(800-1200c, in Ar) - arc melting - ANN(900C) - quench" Ternary transition metal phosphides: High-temperature superconductors 1980 "Proc.Natl.Acad.Sci.USA, 77(1980)3132"
120013 NAC0773132 HfRuP Hf1Ru1P1 Hf 1 Ru 1 P 1 1980 ABC Fe2P A 6.414 3.753 K 11.08 12.7 11.89 "mixture - SIN(800-1200c, in Ar) - SIN(1000 C) - slow cooling" Ternary transition metal phosphides: High-temperature superconductors 1980 "Proc.Natl.Acad.Sci.USA, 77(1980)3132"
120014 NAC0773132 TiOsP Ti1Os1P1 Ti 1 Os 1 P 1 1980 ABC Fe2P A 6.285 3.625 K 1.2 "mixture - SIN(800-1200c, in Ar) - SIN(1000 C) - slow cooling" Ternary transition metal phosphides: High-temperature superconductors 1980 "Proc.Natl.Acad.Sci.USA, 77(1980)3132"
120015 NAC0773132 ZrOsP Zr1Os1P1 Zr 1 Os 1 P 1 1980 ABC Fe2P A 6.46 3.842 K 5.7 7.44 6.57 "mixture - SIN(800-1200c, in Ar) - SIN(1000 C) - slow cooling" Ternary transition metal phosphides: High-temperature superconductors 1980 "Proc.Natl.Acad.Sci.USA, 77(1980)3132"
120016 NAC0773132 HfOsP Hf1Os1P1 Hf 1 Os 1 P 1 1980 ABC Fe2P A 6.417 3.792 K 4.96 6.1 5.53 "mixture - SIN(800-1200c, in Ar) - SIN(1000 C) - slow cooling" Ternary transition metal phosphides: High-temperature superconductors 1980 "Proc.Natl.Acad.Sci.USA, 77(1980)3132"
120017 MRB0180983 ZrRuAs Zr1Ru1As1 Zr 1 Ru 1 As 1 1983 ZrNiAl A 6.586 3.891 K 11.9 11.9 arc-melting SUPERCONDUCTING EQUIATOMIC TERNARY TRANSITION METAL ARSENIDES 1983 "Mater.Res.Bull., 18(1983)983"
120018 MRB0180983 HfRuAs Hf1Ru1As1 Hf 1 Ru 1 As 1 1983 ZrNiAl A 6.568 3.842 K 4.93 4.93 arc-melting SUPERCONDUCTING EQUIATOMIC TERNARY TRANSITION METAL ARSENIDES 1983 "Mater.Res.Bull., 18(1983)983"
120019 MRB0180983 ZrOsAs Zr1Os1As1 Zr 1 Os 1 As 1 1983 ZrNiAl A 6.602 3.794 K 8 8 arc-melting SUPERCONDUCTING EQUIATOMIC TERNARY TRANSITION METAL ARSENIDES 1983 "Mater.Res.Bull., 18(1983)983"
120020 MRB0180983 HfOsAs Hf1Os1As1 Hf 1 Os 1 As 1 1983 ZrNiAl A 6.569 3.808 K 3.2 3.2 arc-melting SUPERCONDUCTING EQUIATOMIC TERNARY TRANSITION METAL ARSENIDES 1983 "Mater.Res.Bull., 18(1983)983"
120021 MRB0151441 YRuB2 Y1Ru1B2 Y 1 Ru 1 B 2 1980 LuRuB2 A 5.918 5.297 6.377 K 7.8 7.8 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120022 MRB0151441 "(Y,Sc)RuB2" Y0.8Sc0.2Ru1B2 Y 0.8 Sc 0.2 Ru 1 B 2 1980 LuRuB2 K 8.1 8.1 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120023 MRB0151441 LuRuB2 Lu1Ru1B2 Lu 1 Ru 1 B 2 1980 LuRuB2 A 5.809 5.229 6.284 K 9.99 9.99 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120024 MRB0151441 ScOsB2 Sc1Os1B2 Sc 1 Os 1 B 2 1980 LuRuB2 A 5.647 5.178 6.184 K 1.34 1.34 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120025 MRB0151441 YOsB2 Y1Os1B2 Y 1 Os 1 B 2 1980 LuRuB2 A 5.905 5.299 6.391 K 2.22 2.22 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120026 MRB0151441 LuOsB2 Lu1Os1B2 Lu 1 Os 1 B 2 1980 LuRuB2 A 5.809 5.231 6.318 K 2.66 2.66 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120027 LES0840107 YB2C2 Y1B2C2 Y 1 B 2 C 2 1982 YB2C2 A 3.78 7.111 K 3.6 3.6 Electrical properties of rare earth diborodicarbides (RB2C2-type layer compounds) 1982 "Department of Applied Chemistry, Faculty of Engineering, Osaka University, Japan" "J.Less-Common Metals, 84(1982)107"
120028 LES0840107 LaB2C2 La1B2C2 La 1 B 2 C 2 1982 YB2C2 A 3.823 7.927 K 1.8 Electrical properties of rare earth diborodicarbides (RB2C2-type layer compounds) 1982 "Department of Applied Chemistry, Faculty of Engineering, Osaka University, Japan" "J.Less-Common Metals, 84(1982)107"
120029 LES0840107 DyB2C2 Dy1B2C2 Dy 1 B 2 C 2 1982 YB2C2 A 3.779 7.119 K 1.8 Electrical properties of rare earth diborodicarbides (RB2C2-type layer compounds) 1982 "Department of Applied Chemistry, Faculty of Engineering, Osaka University, Japan" "J.Less-Common Metals, 84(1982)107"
120030 LES0840107 LuB2C2 Lu1B2C2 Lu 1 B 2 C 2 1982 YB2C2 A 3.762 6.89 K 2.4 2.4 Electrical properties of rare earth diborodicarbides (RB2C2-type layer compounds) 1982 "Department of Applied Chemistry, Faculty of Engineering, Osaka University, Japan" "J.Less-Common Metals, 84(1982)107"
120031 MRB0171211 Y2Rh3Si5 Y2Rh3Si5 Y 2 Rh 3 Si 5 1982 U2Co3Si5 A 9.78 11.69 5.672 K 2.7 2.7 arc-melting "Structure, superconductivity and magnetism of new rare earth-rhodium silisides RE2Rh3Si5 of U2Co3Si5-type" 1982 "Mat.Res.Bull., 17(1982)1211"
120032 PLA0750386 Sc2Fe3Si5 Sc2Fe3Si5 Sc 2 Fe 3 Si 5 1980 U2Co3Si5 K 4.5 4.5 arc-melting Superconductivity of Rare Earth-Iron Silicides 1980 2 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Lett.A,75(1980)386-388"
120033 PLA0750386 Y2Fe3Si5 Y2Fe3Si5 Y 2 Fe 3 Si 5 1980 U2Co3Si5 K 2.4 2.4 arc-melting Superconductivity of Rare Earth-Iron Silicides 1980 2 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Lett.A,75(1980)386-388"
120034 PLA0750386 Lu2Fe3Si5 Lu2Fe3Si5 Lu 2 Fe 3 Si 5 1980 U2Co3Si5 K 6 6 arc-melting Superconductivity of Rare Earth-Iron Silicides 1980 2 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Lett.A,75(1980)386-388"
120035 MRB0151441 not s/c. CurieT shows magnetic transition. TbRuB2 Tb1Ru1B2 Tb 1 Ru 1 B 2 1980 45.6 LuRuB2 A 5.897 5.311 6.367 K 1 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120036 MRB0151441 not s/c. CurieT shows magnetic transition. DyRuB2 Dy1Ru1B2 Dy 1 Ru 1 B 2 1980 21.9 LuRuB2 A 5.886 5.3 6.352 K 1 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120037 MRB0151441 not s/c. CurieT shows magnetic transition. HoRuB2 Ho1Ru1B2 Ho 1 Ru 1 B 2 1980 15.5 LuRuB2 A 5.875 5.287 6.332 K 1 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120038 MRB0151441 not s/c. CurieT shows magnetic transition. ErRuB2 Er1Ru1B2 Er 1 Ru 1 B 2 1980 5.21 LuRuB2 A 5.868 5.262 6.323 K 1 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120039 MRB0151441 not s/c. CurieT shows magnetic transition. TmRuB2 Tm1Ru1B2 Tm 1 Ru 1 B 2 1980 4.07 LuRuB2 A 5.831 5.254 6.299 K 1 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120040 MRB0151441 not s/c. CurieT shows magnetic transition. TbOsB2 Tb1Os1B2 Tb 1 Os 1 B 2 1980 39.2 LuRuB2 A 5.885 5.309 6.392 K 1 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120041 MRB0151441 not s/c. CurieT shows magnetic transition. DyOsB2 Dy1Os1B2 Dy 1 Os 1 B 2 1980 25.3 LuRuB2 A 5.869 5.297 6.369 K 1 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120042 MRB0151441 not s/c. CurieT shows magnetic transition. HoOsB2 Ho1Os1B2 Ho 1 Os 1 B 2 1980 14.2 LuRuB2 A 5.85 5.286 6.355 K 1 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120043 MRB0151441 not s/c. CurieT shows magnetic transition. ErOsB2 Er1Os1B2 Er 1 Os 1 B 2 1980 3.8 LuRuB2 A 5.834 5.274 6.341 K 1 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120044 MRB0151441 not s/c. CurieT shows magnetic transition. TmOsB2 Tm1Os1B2 Tm 1 Os 1 B 2 1980 2.26 LuRuB2 K 1 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120045 MRB0151441 YRu4B4 Y1Ru4B4 Y 1 Ru 4 B 4 1980 AB4C4 RT4B4 LuRu4B4 type K 1.4 1.4 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120046 MRB0151441 YRuB4 Y1Ru1B4 Y 1 Ru 1 B 4 1980 YCrB4 K 1.38 1.38 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120047 MRB0151441 YRuB2 Y1Ru1B2 Y 1 Ru 1 B 2 1980 LuRuB2 K 7.8 7.8 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120048 MRB0151441 YOs3B2 Y1Os3B2 Y 1 Os 3 B 2 1980 YOs3B2 K 6 6 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120049 MRB0151441 YOsB4 Y1Os1B4 Y 1 Os 1 B 4 1980 YCrB4 K 1.4 1.4 arc-melting Superconductivity of new ternary borides with the LuRuB2-type structure 1980 "Mat.Res.Bull., 15(1980)1441"
120050 MRB0151489 YRu3.5Si2 Y1Ru3.5Si2 Y 1 Ru 3.5 Si 2 1980 K 3.51 3.51 arc-melting New ternary superconductors with silicon 1980 "Mat.Res.Bull., 15(1980)1489"
120051 MRB0151489 LaRu3.5Si2 La1Ru3.5Si2 La 1 Ru 3.5 Si 2 1980 K 7.6 7.6 arc-melting New ternary superconductors with silicon 1980 "Mat.Res.Bull., 15(1980)1489"
120052 MRB0151489 ThRu3.5Si2 Th1Ru3.5Si2 Th 1 Ru 3.5 Si 2 1980 K 3.98 3.98 arc-melting New ternary superconductors with silicon 1980 "Mat.Res.Bull., 15(1980)1489"
120053 MRB0151489 not s/c. CurieT shows magnetic transition. NdRu3.5Si2 Nd1Ru3.5Si2 Nd 1 Ru 3.5 Si 2 1980 17.95 K 1 arc-melting New ternary superconductors with silicon 1980 "Mat.Res.Bull., 15(1980)1489"
120054 MRB0151489 not s/c. CurieT shows magnetic transition. DyRu3.5Si2 Dy1Ru3.5Si2 Dy 1 Ru 3.5 Si 2 1980 14.95 K 1 arc-melting New ternary superconductors with silicon 1980 "Mat.Res.Bull., 15(1980)1489"
120055 MRB0151489 not s/c. CurieT shows magnetic transition. HoRu3.5Si2 Ho1Ru3.5Si2 Ho 1 Ru 3.5 Si 2 1980 14.17 K 1 arc-melting New ternary superconductors with silicon 1980 "Mat.Res.Bull., 15(1980)1489"
120056 MRB0151489 not s/c. CurieT shows magnetic transition. ErRu3.5Si2 Er1Ru3.5Si2 Er 1 Ru 3.5 Si 2 1980 16.19 K 1 arc-melting New ternary superconductors with silicon 1980 "Mat.Res.Bull., 15(1980)1489"
120057 MRB0151489 not s/c. CurieT shows magnetic transition. TmRu3.5Si2 Tm1Ru3.5Si2 Tm 1 Ru 3.5 Si 2 1980 7.5 K 1 arc-melting New ternary superconductors with silicon 1980 "Mat.Res.Bull., 15(1980)1489"
120058 PR0335062 dTc/dP in K/GPa Sc5Co4Si10 Sc5Co4Si10 Sc 5 Co 4 Si 10 1986 Sc5Co4Si10 A 12.01 3.936 K 4.53 4.53 K/GPa -0.27 580 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120059 PR0335062 dTc/dP in K/GPa Sc5Rh4Si10 Sc5Rh4Si10 Sc 5 Rh 4 Si 10 1986 Sc5Co4Si10 A 12.325 4.032 K 8.27 8.27 K/GPa -0.153 450 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120060 PR0335062 dTc/dP in K/GPa Sc5Ir4Si10 Sc5Ir4Si10 Sc 5 Ir 4 Si 10 1986 Sc5Co4Si10 A 12.316 4.076 K 8.29 8.29 K/GPa -0.256 400 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120061 PR0335062 dTc/dP in K/GPa. Debye-T estimated using scaling law. Y5Ir4Si10 Y5Ir4Si10 Y 5 Ir 4 Si 10 1986 Sc5Co4Si10 A 12.599 4.234 K 3.1 3.1 K/GPa -0.062 370 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120062 PR0335062 dTc/dP in K/GPa. Debye-T estimated using scaling law. Lu5Rh4Si10 Lu5Rh4Si10 Lu 5 Rh 4 Si 10 1986 Sc5Co4Si10 A 12.502 4.137 K 3.95 3.95 K/GPa -0.07 340 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120063 PR0335062 dTc/dP in K/GPa. Debye-T estimated using scaling law. Lu5Ir4Si10 Lu5Ir4Si10 Lu 5 Ir 4 Si 10 1986 Sc5Co4Si10 A 12.475 4.171 K 3.91 3.91 K/GPa -0.0098 330 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120064 PR0335062 dTc/dP in K/GPa. Debye-T estimated using scaling law. Y5Rh4Ge10 Y5Rh4Ge10 Y 5 Rh 4 Ge 10 1986 Sc5Co4Si10 A 12.953 4.272 K 1.35 1.35 K/GPa -0.086 340 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120065 PR0335062 dTc/dP in K/GPa. Debye-T estimated using scaling law. Y5Ir4Ge10 Y5Ir4Ge10 Y 5 Ir 4 Ge 10 1986 Sc5Co4Si10 A 12.927 4.308 K 2.76 2.76 K/GPa -0.059 320 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120066 PR0335062 dTc/dP in K/GPa. Debye-T estimated using scaling law. Y5Os4Ge10 Y5Os4Ge10 Y 5 Os 4 Ge 10 1986 Sc5Co4Si10 A 13.006 4.297 K 9.06 9.06 K/GPa -0.342 320 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120067 PR0335062 dTc/dP in K/GPa. Debye-T estimated using scaling law. Lu5Rh4Ge10 Lu5Rh4Ge10 Lu 5 Rh 4 Ge 10 1986 Sc5Co4Si10 A 12.85 4.208 K 2.79 2.79 K/GPa -0.107 300 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120068 PR0335062 dTc/dP in K/GPa. Debye-T estimated using scaling law. Lu5Ir4Ge10 Lu5Ir4Ge10 Lu 5 Ir 4 Ge 10 1986 Sc5Co4Si10 A 12.831 4.252 K 2.6 2.6 K/GPa 0.021 290 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120069 PR0335062 "(Lu,Sc)5Ir4Si" Lu4.5Sc0.5Ir4Si10 Lu 4.5 Sc 0.5 Ir 4 Si 10 1986 Sc5Co4Si10 K 6.03 6.03 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120070 PR0335062 "(Lu,Sc)5Ir4Si" Lu4Sc1Ir4Si10 Lu 4 Sc 1 Ir 4 Si 10 1986 Sc5Co4Si10 K 6.64 6.64 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120071 PR0335062 "(Lu,Sc)5Ir4Si" Lu3.5Sc1.5Ir4Si10 Lu 3.5 Sc 1.5 Ir 4 Si 10 1986 Sc5Co4Si10 K 7.69 7.69 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120072 PR0335062 "(Lu,Sc)5Ir4Si" Lu2.5Sc2.5Ir4Si10 Lu 2.5 Sc 2.5 Ir 4 Si 10 1986 Sc5Co4Si10 K 7.93 7.93 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120073 PR0335062 "(Lu,Sc)5Ir4Si" Lu1Sc4Ir4Si10 Lu 1 Sc 4 Ir 4 Si 10 1986 Sc5Co4Si10 K 7.63 7.63 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120074 PR0335062 "(Lu,Sc)5Ir4Si" Lu0.25Sc4.75Ir4Si10 Lu 0.25 Sc 4.75 Ir 4 Si 10 1986 Sc5Co4Si10 K 7.87 7.87 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120075 PR0335062 "Lu5(Ir,Rh)4Si10" Lu5Ir3.4Rh0.6Si10 Lu 5 Ir 3.4 Rh 0.6 Si 10 1986 Sc5Co4Si10 K 5.7 5.7 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120076 PR0335062 "Lu5(Ir,Rh)4Si10" Lu5Ir3.1Rh0.9Si10 Lu 5 Ir 3.1 Rh 0.9 Si 10 1986 Sc5Co4Si10 K 5.77 5.77 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120077 PR0335062 "Lu5(Ir,Rh)4Si10" Lu5Ir2.8Rh1.2Si10 Lu 5 Ir 2.8 Rh 1.2 Si 10 1986 Sc5Co4Si10 K 5.66 5.66 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120078 PR0335062 "Lu5(Ir,Rh)4Si10" Lu5Ir2Rh2Si10 Lu 5 Ir 2 Rh 2 Si 10 1986 Sc5Co4Si10 K 5.45 5.45 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120079 PR0335062 "Lu5(Ir,Rh)4Si10" Lu5Ir1.2Rh2.8Si10 Lu 5 Ir 1.2 Rh 2.8 Si 10 1986 Sc5Co4Si10 K 4.8 4.8 Superconductivity and electronic instability at high pressure in Sc5Co4Si10-type compounds 1986 "Iowa State University," "Phys.Rev.B, 33(1986)5062"
120080 PR0316971 Pd2ScSn Pd2Sc1Sn1 Pd 2 Sc 1 Sn 1 1985 Heusler A 6.503 "Cu2MnAl, L2<1>" K 2.15 2.15 arc-melting Magnetic and Mossbauer studies on rare-earth-containing Heusler alloys Pd2RSn (R=Tb - YB) 1985 Argonne National Lab. "Phys.Rev.B, 31(1985)6971"
120081 PR0316971 Pd2YSn Pd2Y1Sn1 Pd 2 Y 1 Sn 1 1985 Heusler A 6.716 "Cu2MnAl, L2<1>" K 4.55 4.55 arc-melting Magnetic and Mossbauer studies on rare-earth-containing Heusler alloys Pd2RSn (R=Tb - YB) 1985 Argonne National Lab. "Phys.Rev.B, 31(1985)6971"
120082 PR0316971 Pd2TbSn Pd2Tb1Sn1 Pd 2 Tb 1 Sn 1 1985 -8.6 9 Heusler A 6.74 "Cu2MnAl, L2<1>" K arc-melting Magnetic and Mossbauer studies on rare-earth-containing Heusler alloys Pd2RSn (R=Tb - YB) 1985 Argonne National Lab. "Phys.Rev.B, 31(1985)6971"
120083 PR0316971 Pd2DySn Pd2Dy1Sn1 Pd 2 Dy 1 Sn 1 1985 -9.3 15 Heusler A 6.722 "Cu2MnAl, L2<1>" K arc-melting Magnetic and Mossbauer studies on rare-earth-containing Heusler alloys Pd2RSn (R=Tb - YB) 1985 Argonne National Lab. "Phys.Rev.B, 31(1985)6971"
120084 PR0316971 no magnetic order. Pd2HoSn Pd2Ho1Sn1 Pd 2 Ho 1 Sn 1 1985 -6.2 Heusler A 6.705 "Cu2MnAl, L2<1>" K arc-melting Magnetic and Mossbauer studies on rare-earth-containing Heusler alloys Pd2RSn (R=Tb - YB) 1985 Argonne National Lab. "Phys.Rev.B, 31(1985)6971"
120085 PR0316971 no magnetic order. Pd2ErSn Pd2Er1Sn1 Pd 2 Er 1 Sn 1 1985 -7.6 Heusler A 6.692 "Cu2MnAl, L2<1>" K arc-melting Magnetic and Mossbauer studies on rare-earth-containing Heusler alloys Pd2RSn (R=Tb - YB) 1985 Argonne National Lab. "Phys.Rev.B, 31(1985)6971"
120086 PR0316971 Pd2TmSn Pd2Tm1Sn1 Pd 2 Tm 1 Sn 1 1985 0 Heusler A 6.67 "Cu2MnAl, L2<1>" K 2.82 2.82 arc-melting Magnetic and Mossbauer studies on rare-earth-containing Heusler alloys Pd2RSn (R=Tb - YB) 1985 Argonne National Lab. "Phys.Rev.B, 31(1985)6971"
120087 PR0316971 Pd2YbSn Pd2Yb1Sn1 Pd 2 Yb 1 Sn 1 1985 -4.3 Heusler A 6.658 "Cu2MnAl, L2<1>" K 2.42 2.42 arc-melting Magnetic and Mossbauer studies on rare-earth-containing Heusler alloys Pd2RSn (R=Tb - YB) 1985 Argonne National Lab. "Phys.Rev.B, 31(1985)6971"
120088 PR0316971 coexistence of s/c and AF. Pd2LuSn Pd2Lu1Sn1 Pd 2 Lu 1 Sn 1 1985 0.23 Heusler A 6.645 "Cu2MnAl, L2<1>" K 3.05 3.05 arc-melting Magnetic and Mossbauer studies on rare-earth-containing Heusler alloys Pd2RSn (R=Tb - YB) 1985 Argonne National Lab. "Phys.Rev.B, 31(1985)6971"
120089 MRB0211203 Sc4Rh6Sn19 Sc4Rh6Sn19 Sc 4 Rh 6 Sn 19 1986 Tb4Rh6Sn19 A 12.605 K 1.9 1.9 "New superconducting ternary compounds in the systems M-M'-X (M=Ca,Sr,Sc,Y,La-Lu; M'=Co,Rh,Ir; X=Ge,Pb)" 1986 "Mat.Res.Bull., 21(1986)1203"
120090 MRB0211203 Sc4Ir6Sn19 Sc4Ir6Sn19 Sc 4 Ir 6 Sn 19 1986 Tb4Rh6Sn19 A 12.629 K 1.4 1.4 "New superconducting ternary compounds in the systems M-M'-X (M=Ca,Sr,Sc,Y,La-Lu; M'=Co,Rh,Ir; X=Ge,Pb)" 1986 "Mat.Res.Bull., 21(1986)1203"
120091 MRB0211203 Ca4Rh6Pb19 Ca4Rh6Pb19 Ca 4 Rh 6 Pb 19 1986 Tb4Rh6Sn19 A 14.23 K 3.3 3.3 "New superconducting ternary compounds in the systems M-M'-X (M=Ca,Sr,Sc,Y,La-Lu; M'=Co,Rh,Ir; X=Ge,Pb)" 1986 "Mat.Res.Bull., 21(1986)1203"
120092 CEM0090323 heat treated in NH3 gas Sr0.2(NH3)xTaS2 Sr0.2Ta1S2 Sr 0.2 Ta 1 S 2 1974 A 18.3 K 2.8 2.8 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "IBM Thomas I.Watson Research Center, New York, USA" "J.Solid State Chem., 9(1974)323"
120093 CEM0090323 heat treated in NH3 gas Sr0.2(NH3)xMoS2 Sr0.2Mo1S2 Sr 0.2 Mo 1 S 2 1974 A 18.7 K 5 5 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "IBM Thomas I.Watson Research Center, New York, USA" "J.Solid State Chem., 9(1974)323"
120094 CEM0090323 heat treated in NH3 gas Sr0.2(NH3)xWS2 Sr0.2W1S2 Sr 0.2 W 1 S 2 1974 A 18.7 K 3.5 3.5 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "IBM Thomas I.Watson Research Center, New York, USA" "J.Solid State Chem., 9(1974)323"
120095 CEM0090323 heat treated in NH3 gas Sr0.2(NH3)xMoSe2 Sr0.2Mo1Se2 Sr 0.2 Mo 1 Se 2 1974 A 19.3 K 5 5 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "IBM Thomas I.Watson Research Center, New York, USA" "J.Solid State Chem., 9(1974)323"
120096 CEM0090323 heat treated in NH3 gas Yb0.4(NH3)xWSe2 Yb0.2W1Se2 Yb 0.2 W 1 Se 2 1974 A 18.6 K 2.2 2.2 Superconductivity in alkaline earth metal and Yb intercalated group VI layered dichalcogenides 1974 "IBM Thomas I.Watson Research Center, New York, USA" "J.Solid State Chem., 9(1974)323"
120097 LES0190113 "(Y,Th)2C3" Y1.8Th0.2C2.7 Y 1.8 Th 0.2 C 2.7 1969 Pu2C3 A 8.2719 K 12 12 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120098 LES0190113 "(Y,Th)2C3" Y1.6Th0.4C2.7 Y 1.6 Th 0.4 C 2.7 1969 Pu2C3 A 8.302 K 14.7 14.7 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120099 LES0190113 "(Y,Th)2C3" Y1.4Th0.6C2.7 Y 1.4 Th 0.6 C 2.7 1969 Pu2C3 A 8.334 K 16.4 16.4 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120100 LES0190113 "(Y,Th)2C3" Y1.3Th0.7C2.7 Y 1.3 Th 0.7 C 2.7 1969 Pu2C3 A 8.376 K 16.8 16.8 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120101 LES0190113 "(Y,Th)2C3" Y1.2Th0.8C2.7 Y 1.2 Th 0.8 C 2.7 1969 Pu2C3 A 8.394 K 16 16 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120102 LES0190113 "(Y,Th)2C3" Y1Th1C2.7 Y 1 Th 1 C 2.7 1969 Pu2C3 K 15.5 15.5 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120103 LES0190113 "(Y,Th)2C3" Y0.8Th1.2C2.7 Y 0.8 Th 1.2 C 2.7 1969 Pu2C3 A 8.455 K 15.1 15.1 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120104 LES0190113 "(Y,Th)2C3" Y0.6Th1.4C2.7 Y 0.6 Th 1.4 C 2.7 1969 Pu2C3 A 8.494 K 14.4 14.4 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120105 LES0190113 "(Y,Th)2C3" Y1.4Th0.6C2.4 Y 1.4 Th 0.6 C 2.4 1969 Pu2C3 A 8.306 K 15.4 15.4 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120106 LES0190113 "(Y,Th)2C3" Y0.6Th1.4C2.5 Y 0.6 Th 1.4 C 2.5 1969 Pu2C3 A 8.473 K 14.6 14.6 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120107 LES0190113 "(Y,Th)2C3" Y1.4Th0.6C2.8 Y 1.4 Th 0.6 C 2.8 1969 Pu2C3 A 8.3552 K 16.3 16.3 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120108 LES0190113 "(Y,Th)2C3" Y1.4Th0.6C2.9 Y 1.4 Th 0.6 C 2.9 1969 Pu2C3 A 8.364 K 16.3 16.3 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120109 LES0190113 "(Y,Th)2C3" Y1.2Th0.8C2.9 Y 1.2 Th 0.8 C 2.9 1969 Pu2C3 A 8.383 K 15.8 15.8 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120110 LES0190113 "(Y,Th)2C3" Y0.6Th1.4C2.9 Y 0.6 Th 1.4 C 2.9 1969 Pu2C3 A 8.481 K 14.6 14.6 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120111 LES0190113 "(Y,Th)2C3" Y1.5Th0.5C3 Y 1.5 Th 0.5 C 3 1969 Pu2C3 A 8.34 K 16.7 16.7 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120112 LES0190113 "(Y,Th)2C3" Y1.4Th0.6C3 Y 1.4 Th 0.6 C 3 1969 Pu2C3 A 8.364 K 16.8 16.8 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120113 LES0190113 "(Y,Th)2C3" Y1.4Th0.6C3.1 Y 1.4 Th 0.6 C 3.1 1969 Pu2C3 A 8.362 K 17 17 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120114 LES0190113 "(Y,Au)2C3" Y1.8Au0.2C2.6 Y 1.8 Au 0.2 C 2.6 1969 Pu2C3 A 8.2503 K 10.1 10.1 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120115 LES0190113 "(Y,Ge)2C3" Y1.8Ge0.2C2.7 Y 1.8 Ge 0.2 C 2.7 1969 Pu2C3 A 8.286 K 10.6 10.6 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120116 LES0190113 "(Y,Si)2C3" Y1.8Si0.2C2.7 Y 1.8 Si 0.2 C 2.7 1969 Pu2C3 A 8.272 K 11.3 11.3 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120117 LES0190113 "(Y,Sn)2C3" Y1.8Sn0.2C2.7 Y 1.8 Sn 0.2 C 2.7 1969 Pu2C3 A 8.2431 K 10.2 10.2 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120118 LES0190113 "(Y,Ru)2C3" Y1.8Ru0.2C2.7 Y 1.8 Ru 0.2 C 2.7 1969 Pu2C3 A 8.2408 K 11.2 11.2 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120119 LES0190113 "(Y,Nb)2C3" Y1.8Nb0.2C2.7 Y 1.8 Nb 0.2 C 2.7 1969 Pu2C3 A 8.2389 K 10.8 10.8 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120120 LES0190113 "(Y,Ti)2C3" Y1.8Ti0.2C2.7 Y 1.8 Ti 0.2 C 2.7 1969 Pu2C3 A 8.23 K 10.7 10.7 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120121 LES0190113 "(Y,Ti)2C3" Y1.8Ti0.2C2.9 Y 1.8 Ti 0.2 C 2.9 1969 Pu2C3 A 8.2363 K 14.2 14.2 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120122 LES0190113 "(Y,Zr)2C3" Y1.8Zr0.2C2.9 Y 1.8 Zr 0.2 C 2.9 1969 Pu2C3 A 8.236 K 13 13 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120123 LES0190113 "(Y,Mo)2C3" Y1.8Mo0.2C2.9 Y 1.8 Mo 0.2 C 2.9 1969 Pu2C3 A 8.239 K 13.8 13.8 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120124 LES0190113 "(Y,W)2C3" Y1.8W0.2C2.9 Y 1.8 W 0.2 C 2.9 1969 Pu2C3 A 8.242 K 14.5 14.5 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120125 LES0190113 "(Y,Bi)2C3" Y1.8Bi0.2C2.9 Y 1.8 Bi 0.2 C 2.9 1969 Pu2C3 A 8.2396 K 9.35 9.35 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120126 LES0190113 "(Y,U)2C3" Y1.7U0.3C2.9 Y 1.7 U 0.3 C 2.9 1969 Pu2C3 A 8.217 K 4 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120127 LES0190113 "(Y,V)2C3" Y1.8V0.2C2.9 Y 1.8 V 0.2 C 2.9 1969 Pu2C3 A 8.24 K 11.5 11.5 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120128 LES0190113 "(Y,Cr)2C3" Y1.8Cr0.2C2.9 Y 1.8 Cr 0.2 C 2.9 1969 Pu2C3 A 8.2384 K 12.4 12.4 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120129 LES0190113 "(Y,Ti)2C3" Y1.4Ti0.6C3 Y 1.4 Ti 0.6 C 3 1969 Pu2C3 A 8.237 K 12.9 12.9 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120130 LES0190113 "(Y,Ti)2C3" Y1.8Ti0.2C3.1 Y 1.8 Ti 0.2 C 3.1 1969 Pu2C3 A 8.2382 K 14.5 14.5 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120131 LES0190113 "(Y,W)2C3" Y1.8W0.2C3.1 Y 1.8 W 0.2 C 3.1 1969 Pu2C3 A 8.24 K 14.8 14.8 "arc-melting, then high-T high-P synthesis" High-pressure synthesis of yttrium-thorium sesquicarbide: A new high-temperature superconductor 1969 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 19(1969)113"
120132 LES0300217 "(Th,Ce)2C3" Th1.8Ce0.2C3 Th 1.8 Ce 0.2 C 3 1973 Pu2C3 A 8.5445 K 4 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120133 LES0300217 "(Th,Pr)2C3" Th1.8Pr0.2C3 Th 1.8 Pr 0.2 C 3 1973 Pu2C3 A 8.5563 K 4 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120134 LES0300217 "(Th,Pr)2C3" Th1.6Pr0.4C3 Th 1.6 Pr 0.4 C 3 1973 Pu2C3 A 8.5602 K 4 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120135 LES0300217 "(Th,Nd)2C3" Th1.8Nd0.2C3 Th 1.8 Nd 0.2 C 3 1973 Pu2C3 A 8.5555 K 4 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120136 LES0300217 "(Th,Ho)2C3" Th1.8Ho0.2C3 Th 1.8 Ho 0.2 C 3 1973 Pu2C3 A 8.5448 K 5.4 5.4 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120137 LES0300217 "(Th,Ho)2C3" Th1.6Ho0.4C3 Th 1.6 Ho 0.4 C 3 1973 Pu2C3 A 8.526 K 5.5 5.5 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120138 LES0300217 "(Th,Ho)2C3" Th1.4Ho0.6C3 Th 1.4 Ho 0.6 C 3 1973 Pu2C3 A 8.499 K 5.2 5.2 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120139 LES0300217 "(Th,Er)2C3" Th1.9Er0.1C3 Th 1.9 Er 0.1 C 3 1973 Pu2C3 A 8.5434 K 6.8 6.8 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120140 LES0300217 "(Th,Er)2C3" Th1.8Er0.2C3 Th 1.8 Er 0.2 C 3 1973 Pu2C3 A 8.54 K 8.2 8.2 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120141 LES0300217 "(Th,Er)2C3" Th1.6Er0.4C3 Th 1.6 Er 0.4 C 3 1973 Pu2C3 A 8.523 K 8.2 8.2 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120142 LES0300217 "(Th,Er)2C3" Th1.4Er0.6C3 Th 1.4 Er 0.6 C 3 1973 Pu2C3 A 8.486 K 8.1 8.1 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120143 LES0300217 "(Th,Er)2C3" Th1.2Er0.8C3 Th 1.2 Er 0.8 C 3 1973 Pu2C3 A 8.455 K 7 7 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120144 LES0300217 "(Th,Er)2C3" Th1Er1C3 Th 1 Er 1 C 3 1973 Pu2C3 A 8.412 K 4.6 4.6 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120145 LES0300217 "(Th,Lu)2C3" Th1.8Lu0.2C3 Th 1.8 Lu 0.2 C 3 1973 Pu2C3 A 8.5278 K 10.3 10.3 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120146 LES0300217 "(Th,Lu)2C3" Th1.6Lu0.4C3 Th 1.6 Lu 0.4 C 3 1973 Pu2C3 A 8.495 K 10.9 10.9 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120147 LES0300217 "(Th,Lu)2C3" Th1.4Lu0.3C3 Th 1.4 Lu 0.3 C 3 1973 Pu2C3 A 8.461 K 11.7 11.7 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120148 LES0300217 "(Th,Lu)2C3" Th1.2Lu0.8C3 Th 1.2 Lu 0.8 C 3 1973 Pu2C3 A 8.426 K 11.6 11.6 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120149 LES0300217 "(Th,Sc)2C3" Th1.8Sc0.2C3 Th 1.8 Sc 0.2 C 3 1973 Pu2C3 A 8.5362 K 6.7 6.7 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120150 LES0300217 "(Th,Sc)2C3" Th1.6Sc0.4C3 Th 1.6 Sc 0.4 C 3 1973 Pu2C3 A 8.531 K 6.8 6.8 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120151 LES0300217 "(Th,Sc)2C3" Th1.4Sc0.6C3 Th 1.4 Sc 0.6 C 3 1973 Pu2C3 A 8.5297 K 7.2 7.2 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120152 LES0300217 "(Th,Sc)2C3" Th1.2Sc0.8C3 Th 1.2 Sc 0.8 C 3 1973 Pu2C3 A 8.529 K 7.1 7.1 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120153 LES0300217 "(Th,Sc)2C3" Th1Sc1C3 Th 1 Sc 1 C 3 1973 Pu2C3 A 8.543 K 6.5 6.5 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120154 LES0300217 "(Th,Sc)2C3" Th0.8Sc1.2C3 Th 0.8 Sc 1.2 C 3 1973 Pu2C3 A 8.55 K 6 6 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120155 LES0300217 "(Th,Sc)2C3" Th0.6Sc1.4C3 Th 0.6 Sc 1.4 C 3 1973 Pu2C3 K 5.4 5.4 high-p (3-4 Gpa) synthesis High pressure thorium-rare-earth carbide superconductors 1973 "Los Alamos National Lab, Los Alamos, New Mexico,USA" "J.Less-Common Metals, 30(1973)217"
120156 MRB0210859 In3.3Mo15Se19 In3.3Mo15Se19 In 3.3 Mo 15 Se 19 1986 Mo15Se19 A 9.406 18.915 K 4 4 "On several new ternary molybdenum sulfide phase M3.4Mo15S19 (M=vacancy, Li,Na,K,Zn,Cd,Sn,and Tl)" 1986 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 21(1986)859"
120157 MRB0210859 Mo15Se19 Mo15Se19 Mo 15 Se 19 1986 Mo15Se19 A 9.218 18.077 K 4.3 4.3 "On several new ternary molybdenum sulfide phase M3.4Mo15S19 (M=vacancy, Li,Na,K,Zn,Cd,Sn,and Tl)" 1986 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 21(1986)859"
120158 MRB0200935 In3Mo15Se19 In3Mo15Se19 In 3 Mo 15 Se 19 1985 Mo15Se19 A 9.8 19.49 K 3.32 3.32 "Synthesis, structural and physical properties of the ternary molybdenum chalcogenide phase Mo16Se19 and of the related compounds M2Mo15Se19 and M3Mo15Se19 (M=group IA metal; Sn,Pb:Cd)" 1985 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 20(1985)935"
120159 MRB0200935 Li3Mo15Se19 Li3Mo15Se19 Li 3 Mo 15 Se 19 1985 Mo15Se19 A 9.724 19.47 K 3.5 3.5 "Synthesis, structural and physical properties of the ternary molybdenum chalcogenide phase Mo16Se19 and of the related compounds M2Mo15Se19 and M3Mo15Se19 (M=group IA metal; Sn,Pb:Cd)" 1985 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 20(1985)935"
120160 MRB0200935 Li7Mo15Se19 Li7Mo15Se19 Li 7 Mo 15 Se 19 1985 Mo15Se19 A 10.028 19.28 K 0.5 "Synthesis, structural and physical properties of the ternary molybdenum chalcogenide phase Mo16Se19 and of the related compounds M2Mo15Se19 and M3Mo15Se19 (M=group IA metal; Sn,Pb:Cd)" 1985 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 20(1985)935"
120161 MRB0200935 Na3Mo15Se19 Na3Mo15Se19 Na 3 Mo 15 Se 19 1985 Mo15Se19 A 9.712 19.68 K 0.5 "Synthesis, structural and physical properties of the ternary molybdenum chalcogenide phase Mo16Se19 and of the related compounds M2Mo15Se19 and M3Mo15Se19 (M=group IA metal; Sn,Pb:Cd)" 1985 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 20(1985)935"
120162 MRB0200935 K2InMo15Se19 K2In1Mo15Se19 K 2 In 1 Mo 15 Se 19 1985 Mo15Se19 A 9.79 19.59 K 1.3 1.3 "Synthesis, structural and physical properties of the ternary molybdenum chalcogenide phase Mo16Se19 and of the related compounds M2Mo15Se19 and M3Mo15Se19 (M=group IA metal; Sn,Pb:Cd)" 1985 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 20(1985)935"
120163 MRB0200935 Sn2Mo15Se19 Sn2.1Mo15Se19 Sn 2.1 Mo 15 Se 19 1985 Mo15Se19 A 9.776 19.79 K 0.5 "Synthesis, structural and physical properties of the ternary molybdenum chalcogenide phase Mo16Se19 and of the related compounds M2Mo15Se19 and M3Mo15Se19 (M=group IA metal; Sn,Pb:Cd)" 1985 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 20(1985)935"
120164 MRB0200935 Sn2Mo15Se19 Sn2.6Mo15Se19 Sn 2.6 Mo 15 Se 19 1985 Mo15Se19 A 9.89 19.57 K 0.5 "Synthesis, structural and physical properties of the ternary molybdenum chalcogenide phase Mo16Se19 and of the related compounds M2Mo15Se19 and M3Mo15Se19 (M=group IA metal; Sn,Pb:Cd)" 1985 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 20(1985)935"
120165 MRB0200935 Pb2.3Mo15Se19 Pb2.3Mo15Se19 Pb 2.3 Mo 15 Se 19 1985 Mo15Se19 A 9.611 19.59 K 0.5 "Synthesis, structural and physical properties of the ternary molybdenum chalcogenide phase Mo16Se19 and of the related compounds M2Mo15Se19 and M3Mo15Se19 (M=group IA metal; Sn,Pb:Cd)" 1985 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 20(1985)935"
120166 MRB0200935 Tl3.3Mo15Se19 Tl3.3Mo15Se19 Tl 3.3 Mo 15 Se 19 1985 Mo15Se19 A 9.853 19.41 K 0.5 "Synthesis, structural and physical properties of the ternary molybdenum chalcogenide phase Mo16Se19 and of the related compounds M2Mo15Se19 and M3Mo15Se19 (M=group IA metal; Sn,Pb:Cd)" 1985 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 20(1985)935"
120167 MRB0200935 In2Mo15Se19 In2Mo15Se19 In 2 Mo 15 Se 19 1985 Mo15Se19 A 9.69 58.1 K 1.5 1.5 "Synthesis, structural and physical properties of the ternary molybdenum chalcogenide phase Mo16Se19 and of the related compounds M2Mo15Se19 and M3Mo15Se19 (M=group IA metal; Sn,Pb:Cd)" 1985 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 20(1985)935"
120168 MRB0200935 Li2Mo15Se19 Li2Mo15Se19 Li 2 Mo 15 Se 19 1985 Mo15Se19 A 9.637 58.16 K 2.6 2.6 "Synthesis, structural and physical properties of the ternary molybdenum chalcogenide phase Mo16Se19 and of the related compounds M2Mo15Se19 and M3Mo15Se19 (M=group IA metal; Sn,Pb:Cd)" 1985 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 20(1985)935"
120169 MRB0200935 Li7Mo15Se19 Li7Mo15Se19 Li 7 Mo 15 Se 19 1985 Mo15Se19 A 10.077 57.3 K 0.5 "Synthesis, structural and physical properties of the ternary molybdenum chalcogenide phase Mo16Se19 and of the related compounds M2Mo15Se19 and M3Mo15Se19 (M=group IA metal; Sn,Pb:Cd)" 1985 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 20(1985)935"
120170 MRB0200935 Na2Mo15Se19 Na2Mo15Se19 Na 2 Mo 15 Se 19 1985 Mo15Se19 A 9.611 58.51 K 0.5 "Synthesis, structural and physical properties of the ternary molybdenum chalcogenide phase Mo16Se19 and of the related compounds M2Mo15Se19 and M3Mo15Se19 (M=group IA metal; Sn,Pb:Cd)" 1985 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 20(1985)935"
120171 MRB0200935 K2Mo15Se19 K2Mo15Se19 K 2 Mo 15 Se 19 1985 Mo15Se19 A 9.727 58.17 K 2.1 2.1 "Synthesis, structural and physical properties of the ternary molybdenum chalcogenide phase Mo16Se19 and of the related compounds M2Mo15Se19 and M3Mo15Se19 (M=group IA metal; Sn,Pb:Cd)" 1985 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 20(1985)935"
120172 MRB0200935 Sn2Mo15Se19 Sn2Mo15Se19 Sn 2 Mo 15 Se 19 1985 Mo15Se19 A 9.676 57.98 K 0.5 "Synthesis, structural and physical properties of the ternary molybdenum chalcogenide phase Mo16Se19 and of the related compounds M2Mo15Se19 and M3Mo15Se19 (M=group IA metal; Sn,Pb:Cd)" 1985 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 20(1985)935"
120173 MRB0200935 Sn2.5Mo15Se19 Sn2.5Mo15Se19 Sn 2.5 Mo 15 Se 19 1985 Mo15Se19 A 9.776 57.79 K 0.5 "Synthesis, structural and physical properties of the ternary molybdenum chalcogenide phase Mo16Se19 and of the related compounds M2Mo15Se19 and M3Mo15Se19 (M=group IA metal; Sn,Pb:Cd)" 1985 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 20(1985)935"
120174 MRB0200935 Pb2Mo15Se19 Pb2Mo15Se19 Pb 2 Mo 15 Se 19 1985 Mo15Se19 A 9.683 57.78 K 0.5 "Synthesis, structural and physical properties of the ternary molybdenum chalcogenide phase Mo16Se19 and of the related compounds M2Mo15Se19 and M3Mo15Se19 (M=group IA metal; Sn,Pb:Cd)" 1985 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 20(1985)935"
120175 MRB0200935 Pb2.15Mo15Se19 Pb2.15Mo15Se19 Pb 2.15 Mo 15 Se 19 1985 Mo15Se19 A 9.68 57.77 K 0.5 "Synthesis, structural and physical properties of the ternary molybdenum chalcogenide phase Mo16Se19 and of the related compounds M2Mo15Se19 and M3Mo15Se19 (M=group IA metal; Sn,Pb:Cd)" 1985 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 20(1985)935"
120176 MRB0200935 Cd2.5Mo15Se19 Cd2.5Mo15Se19 Cd 2.5 Mo 15 Se 19 1985 Mo15Se19 A 9.97 56.7 K 0.5 "Synthesis, structural and physical properties of the ternary molybdenum chalcogenide phase Mo16Se19 and of the related compounds M2Mo15Se19 and M3Mo15Se19 (M=group IA metal; Sn,Pb:Cd)" 1985 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 20(1985)935"
120177 MRB0200935 Cd4Mo15Se19 Cd4Mo15Se19 Cd 4 Mo 15 Se 19 1985 Mo15Se19 A 10.03 56.89 K 0.5 "Synthesis, structural and physical properties of the ternary molybdenum chalcogenide phase Mo16Se19 and of the related compounds M2Mo15Se19 and M3Mo15Se19 (M=group IA metal; Sn,Pb:Cd)" 1985 "Bell, Murray Hill,NJ,USA" "Mat.Res.Bull., 20(1985)935"
120178 PCS0312653 NaPb3 Na1Pb3 Na 1 Pb 3 1970 Cu3Al A 4.888 K 5.62 5.62 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120179 PCS0312653 CaTl3 Ca1Tl3 Ca 1 Tl 3 1970 Cu3Al A 4.796 K 2.04 2.04 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120180 PCS0312653 CaPb3 Ca1Pb3 Ca 1 Pb 3 1970 Cu3Al A 4.91 K 0.65 0.65 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120181 PCS0312653 SrBi3 Bi3Sr1 Bi 3 Sr 1 1970 Cu3Al A 5.035 K 5.7 5.7 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120182 PCS0312653 YIn3 In3Y1 In 3 Y 1 1970 Cu3Al A 4.592 K 0.78 0.78 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120183 PCS0312653 YTl3 Tl3Y1 Tl 3 Y 1 1970 Cu3Al A 4.678 K 1.52 1.52 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120184 PCS0312653 YPb3 Pb3Y1 Pb 3 Y 1 1970 Cu3Al A 4.813 K 4.72 4.72 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120185 PCS0312653 LaIn3 In3La1 In 3 La 1 1970 Cu3Al A 4.739 K 0.7 0.7 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120186 PCS0312653 LaTl3 La1Tl3 La 1 Tl 3 1970 Cu3Al A 4.799 K 1.63 1.63 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120187 PCS0312653 LaPb3 La1Pb3 La 1 Pb 3 1970 Cu3Al A 4.905 K 4.1 4.1 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120188 PCS0312653 LaSn3 La1Sn3 La 1 Sn 3 1970 Cu3Al A 4.771 K 6.02 6.02 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120189 PCS0312653 YbAl3 Al3Yb1 Al 3 Yb 1 1970 Cu3Al A 4.203 K 0.94 0.94 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120190 PCS0312653 YbIn3 In3Yb1 In 3 Yb 1 1970 Cu3Al A 4.616 K 0.05 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120191 PCS0312653 YbPb3 Pb3Yb1 Pb 3 Yb 1 1970 Cu3Al A 4.859 K 0.23 0.23 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120192 PCS0312653 LuGa3 Ga3Lu1 Ga 3 Lu 1 1970 Cu3Al A 4.191 K 2.3 2.3 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120193 PCS0312653 LuIn3 In3Lu1 In 3 Lu 1 1970 Cu3Al A 4.547 K 0.24 0.24 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120194 PCS0312653 ThIn3 In3Th1 In 3 Th 1 1970 Cu3Al A 4.694 K 0.05 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120195 PCS0312653 ThTl3 Th1Tl3 Th 1 Tl 3 1970 Cu3Al A 4.748 K 0.87 0.87 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120196 PCS0312653 ThPb3 Pb3Th1 Pb 3 Th 1 1970 Cu3Al A 4.853 K 5.55 5.55 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120197 PCS0312653 ThSn3 Sn3Th1 Sn 3 Th 1 1970 Cu3Al A 4.714 K 3.33 3.33 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120198 PCS0312653 ZrHg3 Hg3Zr1 Hg 3 Zr 1 1970 Cu3Al A 4.368 K 3.28 3.28 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120199 PCS0312653 UAl3 Al3U1 Al 3 U 1 1970 Cu3Al A 4.266 K 0.05 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120200 PCS0312653 UIn3 In3U1 In 3 U 1 1970 Cu3Al A 4.595 K 0.05 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120201 PCS0312653 CeIn3 Ce1In3 Ce 1 In 3 1970 Cu3Al A 4.687 K 0.07 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120202 PCS0312653 CeSn3 Ce1Sn3 Ce 1 Sn 3 1970 Cu3Al A 4.717 K 0.07 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120203 PCS0312653 BaBi3 Ba1Bi3 Ba 1 Bi 3 1970 Cu3Al A 5.19 5.16 K 5.8 5.8 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120204 PCS0312653 SrPb3 Pb3Sr1 Pb 3 Sr 1 1970 Cu3Al A 4.962 5.025 K 1.85 1.85 arc-melting Oscillatory dependence of superconductive critical temperature on number of valency electrons in Cu3Au-type alloys 1970 "Philips Research Lab, Netherlands" "J.Phys.Chem.Solids, 31(1970)2653"
120205 LES0780099 monoclinic beta=90.9 YRh3B2 Y1Rh3B2 Y 1 Rh 3 B 2 1981 A 5.377 9.325 3.102 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120206 LES0780099 monoclinic beta=91 TbRh3B2 Tb1Rh3B2 Tb 1 Rh 3 B 2 1981 45 A 5.39 9.335 3.1 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120207 LES0780099 monoclinic beta=90.9 DyRh3B2 Dy1Rh3B2 Dy 1 Rh 3 B 2 1981 35 A 5.379 9.331 3.093 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120208 LES0780099 monoclinic beta=91 HoRh3B2 Ho1Rh3B2 Ho 1 Rh 3 B 2 1981 24.2 A 5.366 9.307 3.1 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120209 LES0780099 monoclinic beta=90.9 ErRh3B2 Er1Rh3B2 Er 1 Rh 3 B 2 1981 20.4 A 5.362 9.288 3.099 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120210 LES0780099 monoclinic beta=90.8 TmRh3B2] Tm1Rh3B2 Tm 1 Rh 3 B 2 1981 11.8 A 5.357 9.285 3.091 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120211 LES0780099 monoclinic beta=90.9 YbRh3B2 Yb1Rh3B2 Yb 1 Rh 3 B 2 1981 A 5.355 9.28 3.09 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120212 LES0780099 monoclinic beta=90.9 LuRh3B2 Lu1Rh3B2 Lu 1 Rh 3 B 2 1981 A 5.353 9.276 3.089 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120213 LES0780099 monoclinic beta=92.1 ScIr3B2 Sc1Ir3B2 Sc 1 Ir 3 B 2 1981 A 5.344 9.307 3.062 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120214 LES0780099 monoclinic beta=92.8 YIr3B2 Y1Ir3B2 Y 1 Ir 3 B 2 1981 A 5.428 9.406 3.107 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120215 LES0780099 monoclinic beta=90.8 CeIr3B2 Ce1Ir3B2 Ce 1 Ir 3 B 2 1981 A 5.502 9.526 3.09 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120216 LES0780099 monoclinic beta=90.8 NdIr3B2 Nd1Ir3B2 Nd 1 Ir 3 B 2 1981 4.72 A 5.513 9.54 3.084 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120217 LES0780099 monoclinic beta=90.8 SmIr3B2 Sm1Ir3B2 Sm 1 Ir 3 B 2 1981 12.6 A 5.492 9.506 3.076 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120218 LES0780099 monoclinic beta=91 GdIr3B2 Gd1Ir3B2 Gd 1 Ir 3 B 2 1981 29.8 A 5.466 9.473 3.092 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120219 LES0780099 monoclinic beta=91.1 TbIr3B2 Tb1Ir3B2 Tb 1 Ir 3 B 2 1981 6.1 A 5.459 9.464 3.084 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120220 LES0780099 monoclinic beta=91.1 DyIr3B2 Dy1Ir3B2 Dy 1 Ir 3 B 2 1981 17.7 A 5.437 9.393 3.106 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120221 LES0780099 monoclinic beta=91.2 HoIr3B2 Ho1Ir3B2 Ho 1 Ir 3 B 2 1981 12.9 A 5.42 9.393 3.107 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120222 LES0780099 monoclinic beta=91.2 ErIr3B2 Er1Ir3B2 Er 1 Ir 3 B 2 1981 11.9 A 5.409 9.399 3.101 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120223 LES0780099 monoclinic beta=91.3 TmIr3B2 Tm1Ir3B2 Tm 1 Ir 3 B 2 1981 5.69 A 5.404 9.371 3.097 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120224 LES0780099 monoclinic beta=91.3 YbIr3B2 Yb1Ir3B2 Yb 1 Ir 3 B 2 1981 A 5.401 9.353 3.099 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120225 LES0780099 monoclinic beta=91.4 LuIr3B2 Lu1Ir3B2 Lu 1 Ir 3 B 2 1981 A 5.394 9.354 3.08 monoclinic K 1.2 arc-melting Crystal structure and physical properties of new ternary rare earth borides 1981 "University of California, San Diego" "J.Less-Common Met., 78(1981)99-107"
120226 LES0920177 ZrRuP Zr1Ru1P1 Zr 1 Ru 1 P 1 1983 A 6.4169 7.3215 3.8623 K 3.46 3.46 arc-melting "Superconductivity and crystal structure of a new class of ternary transition metal phosphides TT'P (T=Zr,Nb,Ta and T'=Ru,Rh)" 1983 "J.Less Comon Met., 92(1983)177"
120227 LES0920177 NbRuP Nb1Ru1P1 Nb 1 Ru 1 P 1 1983 A 6.318 7.173 3.719 K arc-melting "Superconductivity and crystal structure of a new class of ternary transition metal phosphides TT'P (T=Zr,Nb,Ta and T'=Ru,Rh)" 1983 "J.Less Comon Met., 92(1983)177"
120228 LES0920177 TaRuP Ta1Ru1P1 Ta 1 Ru 1 P 1 1983 A 6.288 7.164 3.713 K arc-melting "Superconductivity and crystal structure of a new class of ternary transition metal phosphides TT'P (T=Zr,Nb,Ta and T'=Ru,Rh)" 1983 "J.Less Comon Met., 92(1983)177"
120229 LES0920177 ZrRuP Zr1Ru1P1 Zr 1 Ru 1 P 1 1983 Fe2P A 6.459 3.778 K 13 13 arc-melting "Superconductivity and crystal structure of a new class of ternary transition metal phosphides TT'P (T=Zr,Nb,Ta and T'=Ru,Rh)" 1983 "J.Less Comon Met., 92(1983)177"
120230 LES0920177 ZrRhP Zr1Rh1P1 Zr 1 Rh 1 P 1 1983 A 6.483 7.393 3.787 K 1.55 1.55 arc-melting "Superconductivity and crystal structure of a new class of ternary transition metal phosphides TT'P (T=Zr,Nb,Ta and T'=Ru,Rh)" 1983 "J.Less Comon Met., 92(1983)177"
120231 LES0920177 NbRhP Nb1Rh1P1 Nb 1 Rh 1 P 1 1983 A 6.306 7.187 3.737 K 4.08 4.08 arc-melting "Superconductivity and crystal structure of a new class of ternary transition metal phosphides TT'P (T=Zr,Nb,Ta and T'=Ru,Rh)" 1983 "J.Less Comon Met., 92(1983)177"
120232 LES0920177 TaRhP Ta1Rh1P1 Ta 1 Rh 1 P 1 1983 A 6.253 7.18 3.736 K 4.41 4.41 arc-melting "Superconductivity and crystal structure of a new class of ternary transition metal phosphides TT'P (T=Zr,Nb,Ta and T'=Ru,Rh)" 1983 "J.Less Comon Met., 92(1983)177"
120233 MRB0200517 "details in Proc.Natl.Acad.Sci.USA, 77(1980)3132" TiOsP Ti1Os1P1 Ti 1 Os 1 P 1 1985 K 1.7 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120234 MRB0200517 "details in Proc.Natl.Acad.Sci.USA, 77(1980)3132" ZrOsP Zr1Os1P1 Zr 1 Os 1 P 1 1985 K 6.57 6.57 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120235 MRB0200517 "details in Proc.Natl.Acad.Sci.USA, 77(1980)3132" HfOsP Hf1Os1P1 Hf 1 Os 1 P 1 1985 K 5.53 5.53 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120236 MRB0200517 YRhSi Y1Rh1Si1 Y 1 Rh 1 Si 1 1985 K 1.7 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120237 MRB0200517 YIrSi Y1Ir1Si1 Y 1 Ir 1 Si 1 1985 K 2.7 2.7 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120238 MRB0200517 "details in J.Less-Common Metals, 92(1983)177" ZrRuP Zr1Ru1P1 Zr 1 Ru 1 P 1 1985 K 3.82 3.82 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120239 MRB0200517 "details in J.Less-Common Metals, 92(1983)177" NbRuP Nb1Ru1P1 Nb 1 Ru 1 P 1 1985 K 1.7 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120240 MRB0200517 "details in J.Less-Common Metals, 92(1983)177" TaRuP Ta1Ru1P1 Ta 1 Ru 1 P 1 1985 K 1.7 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120241 MRB0200517 "details in Proc.Natl.Acad.Sci.USA, 77(1980)3132" TiRuP Ti1Ru1P1 Ti 1 Ru 1 P 1 1985 K 1.33 1.33 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120242 MRB0200517 "details in Proc.Natl.Acad.Sci.USA, 77(1980)3132" ZrRuP Zr1Ru1P1 Zr 1 Ru 1 P 1 1985 K 11.45 11.45 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120243 MRB0200517 "details in Proc.Natl.Acad.Sci.USA, 77(1980)3132" HfRuP Hf1Ru1P1 Hf 1 Ru 1 P 1 1985 K 11.89 11.89 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120244 MRB0200517 "details in Mater.Res.Bull., 18()983" ZrRuAs Zr1Ru1As1 Zr 1 Ru 1 As 1 1985 K 11.05 11.05 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120245 MRB0200517 "details in Mater.Res.Bull., 18()983" HfRuAs Hf1Ru1As1 Hf 1 Ru 1 As 1 1985 K 4.65 4.65 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120246 MRB0200517 "details in Mater.Res.Bull., 18()983" ZrOsAs Zr1Os1As1 Zr 1 Os 1 As 1 1985 K 8 8 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120247 MRB0200517 "details in Mater.Res.Bull., 18()983" HfOsAs Hf1Os1As1 Hf 1 Os 1 As 1 1985 K 3.2 3.2 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120248 MRB0200517 "details in J.Less-Common Metals, 92(1983)177" ZrRhP Zr1Rh1P1 Zr 1 Rh 1 P 1 1985 K 1.55 1.55 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120249 MRB0200517 "details in J.Less-Common Metals, 92(1983)177" NbRhP Nb1Rh1P1 Nb 1 Rh 1 P 1 1985 K 4.42 4.42 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120250 MRB0200517 "details in J.Less-Common Metals, 92(1983)177" TaRhP Ta1Rh1P1 Ta 1 Rh 1 P 1 1985 K 4.86 4.86 "New superconducting equiatomic ternary silisides MIrSi (M=Y,Zr,Hf) with TiNiSi-type structure (ANTI-PbCl2)" 1985 "Mat.Res.Bull., 20(1985)517"
120251 LES1050139 high temperature phase YIr2Si2 Y1Ir2Si2 Y 1 Ir 2 Si 2 1985 CaBe2Ge2 K 2.6 2.6 arc-melting Influence of composition on the structural and superconducting properties of the two polymorphic forms of iridium- or silicon-substituted YIr2Si2 1985 "J.Less-Common Met., 105(1985)139"
120252 LES1050139 low temperature phase. Tc(on)=2.5 K. R is not zero at 1.5 K. YIr2Si2 Y1Ir2Si2 Y 1 Ir 2 Si 2 1985 ThCr2Si2 K 2.5 2.5 arc-melting Influence of composition on the structural and superconducting properties of the two polymorphic forms of iridium- or silicon-substituted YIr2Si2 1985 "J.Less-Common Met., 105(1985)139"
120253 LES1050139 quenched sample Y2Ir3Si5 Y2Ir3Si5 Y 2 Ir 3 Si 5 1985 U2Co3Si5 A 9.877 11.693 5.714 K 3.05 3.05 arc-melting Influence of composition on the structural and superconducting properties of the two polymorphic forms of iridium- or silicon-substituted YIr2Si2 1985 "J.Less-Common Met., 105(1985)139"
120254 LES0190253 Ge stabilized Sc4C3 phase. "Sc(C,Ge)0.75" Sc1C0.75Ge0.01 Sc 1 C 0.75 Ge 0.01 1969 Sc4C3 A 7.214 K 4 arc-melting + ANN(1300C) Preparation and superconductivity of germanium-stabilized Sc13C10 1969 "J.Less-Common Met., 19(1969)253"
120255 LES0190253 Ge stabilized Sc13C10 phase. "Sc(C,Ge)0.75" Sc1C0.75Ge0.02 Sc 1 C 0.75 Ge 0.02 1969 Sc13C10 A 8.5283 K 8.5 8.5 arc-melting + ANN(1300C) Preparation and superconductivity of germanium-stabilized Sc13C10 1969 "J.Less-Common Met., 19(1969)253"
120256 LES0830L47 ThIr2 Ir2Th1 Ir 2 Th 1 1982 A 7.6644 K 5.72 5.72 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120257 LES0830L47 "Th(Ir,Os)2" Th1Ir1.8Os0.2 Th 1 Ir 1.8 Os 0.2 1982 A 7.6672 K 5.66 5.66 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120258 LES0830L47 "Th(Ir,Os)2" Th1Ir1.6Os0.4 Th 1 Ir 1.6 Os 0.4 1982 A 7.6747 K 5.15 5.15 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120259 LES0830L47 "Th(Ir,Os)2" Th1Ir1.4Os0.6 Th 1 Ir 1.4 Os 0.6 1982 A 7.6793 K 4.41 4.41 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120260 LES0830L47 "Th(Ir,Os)2" Th1Ir1.3Os0.7 Th 1 Ir 1.3 Os 0.7 1982 A 7.6793 K 2.36 2.36 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120261 LES0830L47 "Th(Ir,Os)2" Th1Ir1.2Os0.8 Th 1 Ir 1.2 Os 0.8 1982 A 7.6891 K 3.16 3.16 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120262 LES0830L47 "Th(Ir,Os)2" Th1Ir1Os1 Th 1 Ir 1 Os 1 1982 A 7.6879 K 3.61 3.61 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120263 LES0830L47 "Th(Ir,Os)2" Th1Ir0.8Os1.2 Th 1 Ir 0.8 Os 1.2 1982 A 7.6937 K 3.22 3.22 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120264 LES0830L47 "Th(Ir,Os)2" Th1Ir0.6Os1.4 Th 1 Ir 0.6 Os 1.4 1982 A 7.696 K 3.73 3.73 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120265 LES0830L47 "Th(Ir,Os)2" Th1Ir0.4Os1.6 Th 1 Ir 0.4 Os 1.6 1982 A 7.6983 K 3.56 3.56 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120266 LES0830L47 "Th(Ir,Os)2" Th1Ir0.2Os1.8 Th 1 Ir 0.2 Os 1.8 1982 A 7.7006 K 2.93 2.93 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120267 LES0830L47 "Th(Ir,Os)2" Th1Ir0.1Os1.9 Th 1 Ir 0.1 Os 1.9 1982 K 2.25 2.25 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120268 LES0830L47 "Th(Ir,Ru)2" Th1Ir1.8Ru0.2 Th 1 Ir 1.8 Ru 0.2 1982 A 7.6632 K 4.86 4.86 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120269 LES0830L47 "Th(Ir,Ru)2" Th1Ir1.6Ru0.4 Th 1 Ir 1.6 Ru 0.4 1982 A 7.6603 K 2.87 2.87 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120270 LES0830L47 "Th(Ir,Ru)2" Th1Ir1.4Ru0.6 Th 1 Ir 1.4 Ru 0.6 1982 A 7.6598 K 2.08 2.08 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120271 LES0830L47 R=not zero at 1 K "Th(Ir,Ru)2" Th1Ir1.2Ru0.8 Th 1 Ir 1.2 Ru 0.8 1982 A 7.6563 K 1.45 1.45 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120272 LES0830L47 "Th(Ir,Ru)2" Th1Ir1Ru1 Th 1 Ir 1 Ru 1 1982 A 7.6575 K 2.53 2.53 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120273 LES0830L47 "Th(Ir,Ru)2" Th1Ir0.8Ru1.2 Th 1 Ir 0.8 Ru 1.2 1982 A 7.6563 K 2.53 2.53 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120274 LES0830L47 "Th(Ir,Ru)2" Th1Ir0.6Ru1.4 Th 1 Ir 0.6 Ru 1.4 1982 A 7.6552 K 2.87 2.87 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120275 LES0830L47 "Th(Ir,Ru)2" Th1Ir0.4Ru1.6 Th 1 Ir 0.4 Ru 1.6 1982 A 7.6534 K 2.87 2.87 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120276 LES0830L47 "Th(Ir,Ru)2" Th1Ir0.2Ru1.8 Th 1 Ir 0.2 Ru 1.8 1982 A 7.6546 K 3.1 3.1 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120277 LES0830L47 ThRu2 Ru2Th1 Ru 2 Th 1 1982 A 7.6523 K 4.01 4.01 arc-melting + ANN(1100C) "Superconductivity of Th(Ir,Os)2 and Th(Ir,Ru)2 alloys" 1982 "J.Less-Common Met., 83(1982)L47"
120278 PHC2290065 Tc shows Tc(on). Delta-Tc = 0.5 K. ThPt2B2C Th1Pt2B2C1 Th 1 Pt 2 B 2 C 1 1994 LuNi2B2C A 3.83 10.86 K 6.5 6.5 arc-melting Superconductivity to 21K in intermetallic thorium-based boride carbides 1994 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093-0319, USA" "Physica.C,229(1994)65-69"
120279 PHC2290065 Tc shows Tc(on). Delta-Tc = 1 K. ThNi2B2C Th1Ni2B2C1 Th 1 Ni 2 B 2 C 1 1994 LuNi2B2C A 3.7 10.19 K 6 6 arc-melting Superconductivity to 21K in intermetallic thorium-based boride carbides 1994 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093-0319, USA" "Physica.C,229(1994)65-69"
120280 PHC2290065 Tc shows Tc(on). Delta-Tc = 0.5 K. ThPd2B2C Th1Pd2B2C1 Th 1 Pd 2 B 2 C 1 1994 LuNi2B2C A 3.84 10.67 K 14.5 14.5 arc-melting Superconductivity to 21K in intermetallic thorium-based boride carbides 1994 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093-0319, USA" "Physica.C,229(1994)65-69"
120281 PHC2290065 compositions are nominal value. 1221-phase = minor phase. dTc/dP in K/GPa. Hc2(0) using WHH theory. Tc shows Tc(on). ThPd3B3C Th1Pd3B3C1 Th 1 Pd 3 B 3 C 1 1994 K 21.5 21.5 K/GPa -0.12 T 1.6 T/K 0.15 arc-melting Superconductivity to 21K in intermetallic thorium-based boride carbides 1994 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093-0319, USA" "Physica.C,229(1994)65-69"
120282 SSC0240465 dTc/dp in K/Gpa. Hydrostatic pressure. LaRu2 La1Ru2 La 1 Ru 2 1987 MgCu2(Laves) "MgCu2, C15" K 4.416 4.416 K/GPa -0.091 arc-melting "Superconducting transition temperature, its pressure dependence and structural transformation in (La,Ce)Ru2 alloys" 1987 "Solid State Commun., 24(1977)465"
120283 SSC0240465 dTc/dp in K/Gpa. Hydrostatic pressure. "(La,Ce)Ru2" La0.95Ce0.05Ru2 La 0.95 Ce 0.05 Ru 2 1987 MgCu2(Laves) "MgCu2, C15" K 3.616 3.616 K/GPa -0.107 arc-melting "Superconducting transition temperature, its pressure dependence and structural transformation in (La,Ce)Ru2 alloys" 1987 "Solid State Commun., 24(1977)465"
120284 SSC0240465 dTc/dp in K/Gpa. Hydrostatic pressure. "(La,Ce)Ru2" La0.9Ce0.1Ru2 La 0.9 Ce 0.1 Ru 2 1987 MgCu2(Laves) "MgCu2, C15" K 3.012 3.012 K/GPa -0.109 arc-melting "Superconducting transition temperature, its pressure dependence and structural transformation in (La,Ce)Ru2 alloys" 1987 "Solid State Commun., 24(1977)465"
120285 SSC0240465 dTc/dp in K/Gpa. Hydrostatic pressure. "(La,Ce)Ru2" La0.85Ce0.15Ru2 La 0.85 Ce 0.15 Ru 2 1987 MgCu2(Laves) "MgCu2, C15" K 2.444 2.444 K/GPa -0.11 arc-melting "Superconducting transition temperature, its pressure dependence and structural transformation in (La,Ce)Ru2 alloys" 1987 "Solid State Commun., 24(1977)465"
120286 SSC0240465 dTc/dp in K/Gpa. Hydrostatic pressure. "(La,Ce)Ru2" La0.8Ce0.2Ru2 La 0.8 Ce 0.2 Ru 2 1987 MgCu2(Laves) "MgCu2, C15" K 2.01 2.01 K/GPa -0.099 arc-melting "Superconducting transition temperature, its pressure dependence and structural transformation in (La,Ce)Ru2 alloys" 1987 "Solid State Commun., 24(1977)465"
120287 SSC0240465 dTc/dp in K/Gpa. Hydrostatic pressure. "(La,Ce)Ru2" La0.76Ce0.24Ru2 La 0.76 Ce 0.24 Ru 2 1987 MgCu2(Laves) "MgCu2, C15" K 1.468 1.468 K/GPa -0.072 arc-melting "Superconducting transition temperature, its pressure dependence and structural transformation in (La,Ce)Ru2 alloys" 1987 "Solid State Commun., 24(1977)465"
120288 SSC0240465 dTc/dp in K/Gpa. Hydrostatic pressure. "(La,Ce)Ru2" La0.72Ce0.28Ru2 La 0.72 Ce 0.28 Ru 2 1987 MgCu2(Laves) "MgCu2, C15" K 1.278 1.278 K/GPa -0.048 arc-melting "Superconducting transition temperature, its pressure dependence and structural transformation in (La,Ce)Ru2 alloys" 1987 "Solid State Commun., 24(1977)465"
120289 SSC0240465 dTc/dp in K/Gpa. Hydrostatic pressure. "(La,Ce)Ru2" La0.6Ce0.4Ru2 La 0.6 Ce 0.4 Ru 2 1987 MgCu2(Laves) "MgCu2, C15" K 0.727 0.727 K/GPa -0.032 arc-melting "Superconducting transition temperature, its pressure dependence and structural transformation in (La,Ce)Ru2 alloys" 1987 "Solid State Commun., 24(1977)465"
120290 SSC0240465 dTc/dp in K/Gpa. Hydrostatic pressure. "(La,Ce)Ru2" La0.5Ce0.5Ru2 La 0.5 Ce 0.5 Ru 2 1987 MgCu2(Laves) "MgCu2, C15" K 0.449 0.449 K/GPa -0.013 arc-melting "Superconducting transition temperature, its pressure dependence and structural transformation in (La,Ce)Ru2 alloys" 1987 "Solid State Commun., 24(1977)465"
120291 SSC0240465 dTc/dp in K/Gpa. Hydrostatic pressure. "(La,Ce)Ru2" La0.46Ce0.54Ru2 La 0.46 Ce 0.54 Ru 2 1987 MgCu2(Laves) "MgCu2, C15" K 0.668 0.668 arc-melting "Superconducting transition temperature, its pressure dependence and structural transformation in (La,Ce)Ru2 alloys" 1987 "Solid State Commun., 24(1977)465"
120292 SSC0240465 dTc/dp in K/Gpa. Hydrostatic pressure. "(La,Ce)Ru2" La0.4Ce0.6Ru2 La 0.4 Ce 0.6 Ru 2 1987 MgCu2(Laves) "MgCu2, C15" K 1.3 1.3 K/GPa 0.018 arc-melting "Superconducting transition temperature, its pressure dependence and structural transformation in (La,Ce)Ru2 alloys" 1987 "Solid State Commun., 24(1977)465"
120293 SSC0240465 dTc/dp in K/Gpa. Hydrostatic pressure. "(La,Ce)Ru2" La0.35Ce0.65Ru2 La 0.35 Ce 0.65 Ru 2 1987 MgCu2(Laves) "MgCu2, C15" K 1.647 1.647 K/GPa 0.045 arc-melting "Superconducting transition temperature, its pressure dependence and structural transformation in (La,Ce)Ru2 alloys" 1987 "Solid State Commun., 24(1977)465"
120294 SSC0240465 dTc/dp in K/Gpa. Hydrostatic pressure. "(La,Ce)Ru2" La0.3Ce0.7Ru2 La 0.3 Ce 0.7 Ru 2 1987 MgCu2(Laves) "MgCu2, C15" K 2.134 2.134 K/GPa 0.051 arc-melting "Superconducting transition temperature, its pressure dependence and structural transformation in (La,Ce)Ru2 alloys" 1987 "Solid State Commun., 24(1977)465"
120295 SSC0240465 dTc/dp in K/Gpa. Hydrostatic pressure. "(La,Ce)Ru2" La0.25Ce0.75Ru2 La 0.25 Ce 0.75 Ru 2 1987 MgCu2(Laves) "MgCu2, C15" K 3.196 3.196 K/GPa 0.107 arc-melting "Superconducting transition temperature, its pressure dependence and structural transformation in (La,Ce)Ru2 alloys" 1987 "Solid State Commun., 24(1977)465"
120296 SSC0240465 dTc/dp in K/Gpa. Hydrostatic pressure. "(La,Ce)Ru2" La0.2Ce0.8Ru2 La 0.2 Ce 0.8 Ru 2 1987 MgCu2(Laves) "MgCu2, C15" K 4.227 4.227 K/GPa 0.11 arc-melting "Superconducting transition temperature, its pressure dependence and structural transformation in (La,Ce)Ru2 alloys" 1987 "Solid State Commun., 24(1977)465"
120297 SSC0240465 dTc/dp in K/Gpa. Hydrostatic pressure. "(La,Ce)Ru2" La0.15Ce0.85Ru2 La 0.15 Ce 0.85 Ru 2 1987 MgCu2(Laves) "MgCu2, C15" K 5.872 5.872 K/GPa 0.084 arc-melting "Superconducting transition temperature, its pressure dependence and structural transformation in (La,Ce)Ru2 alloys" 1987 "Solid State Commun., 24(1977)465"
120298 SSC0240465 dTc/dp in K/Gpa. Hydrostatic pressure. "(La,Ce)Ru2" La0.1Ce0.9Ru2 La 0.1 Ce 0.9 Ru 2 1987 MgCu2(Laves) "MgCu2, C15" K 7.194 7.194 K/GPa 0.016 arc-melting "Superconducting transition temperature, its pressure dependence and structural transformation in (La,Ce)Ru2 alloys" 1987 "Solid State Commun., 24(1977)465"
120299 SSC0240465 dTc/dp in K/Gpa. Hydrostatic pressure. "(La,Ce)Ru2" La0.05Ce0.95Ru2 La 0.05 Ce 0.95 Ru 2 1987 MgCu2(Laves) "MgCu2, C15" K 7.181 7.181 K/GPa 0.018 arc-melting "Superconducting transition temperature, its pressure dependence and structural transformation in (La,Ce)Ru2 alloys" 1987 "Solid State Commun., 24(1977)465"
120300 SSC0240465 dTc/dp in K/Gpa. Hydrostatic pressure. CeRu2 Ce1Ru2 Ce 1 Ru 2 1987 MgCu2(Laves) "MgCu2, C15" K 6.221 6.221 K/GPa 0.022 arc-melting "Superconducting transition temperature, its pressure dependence and structural transformation in (La,Ce)Ru2 alloys" 1987 "Solid State Commun., 24(1977)465"
120301 LES0950267 melting point=1490 C. space-G=P4. density=5.77 g/cm3. Tc from [ref]. La5B2C6 La5B2C6 La 5 B 2 C 6 1983 Ce5B2C6 A 8.585 12.313 K 6.9 6.9 melt in induction furnace in Ar The crystal structure of the superconducting lanthanum borocarbide La5B2C6 1983 "J.Less-Common Met., 95(1983)267"
130000 LTP0480503 e-ph = 0.45. Mo6S8 Mo6S8 Mo 6 S 8 1982 Chevrel K 1.8 1.8 mj/mol.K2 28.3 230 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
130001 LTP0480503 e-ph = 0.93. Hc(0)=0.2 T. Mo6S6Br2 Mo6S6Br2 Mo 6 S 6 Br 2 1982 Chevrel K 13 13 mj/mol.K2 71.5 195 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
130002 LTP0480503 e-ph = 1.01. Hc(0)=0.195 T. Mo6S6I2 Mo6S6I2 Mo 6 S 6 I 2 1982 Chevrel K 13 13 mj/mol.K2 64 170 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
130003 LTP0480503 e-ph = 0.75. Hc(0)=0.14 T. Cu1.8Mo6S8 Cu1.8Mo6S8 Cu 1.8 Mo 6 S 8 1982 Chevrel K 10.7 10.7 mj/mol.K2 48.5 250 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
130004 LTP0480503 e-ph = 0.5. Hc(0)=0.028 T. ZnMo6S8 Zn1Mo6S8 Zn 1 Mo 6 S 8 1982 Chevrel K 2.8 2.8 mj/mol.K2 25.3 225 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
130005 LTP0480503 e-ph = 0.75. Hc(0)=0.075 T. AgMo6S8 Ag1Mo6S8 Ag 1 Mo 6 S 8 1982 Chevrel K 7.7 7.7 mj/mol.K2 30 180 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
130006 LTP0480503 e-ph = 0.5. CdMo6S8 Cd1Mo6S8 Cd 1 Mo 6 S 8 1982 Chevrel K 1.8 1.8 mj/mol.K2 27 145 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
130007 LTP0480503 e-ph = 1.10. Hc(0)=0.197 T. SnMo6S8 Sn1Mo6S8 Sn 1 Mo 6 S 8 1982 Chevrel K 11.7 11.7 mj/mol.K2 107 135 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
130008 LTP0480503 e-ph = 1.20. Hc(0)=0.272 T. PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 1982 Chevrel K 13.7 13.7 mj/mol.K2 125 140 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
130009 LTP0480503 e-ph = 0.71. Hc(0)=0.056 T. LaMo6S8 La1Mo6S8 La 1 Mo 6 S 8 1982 Chevrel K 6.8 6.8 mj/mol.K2 22.6 180 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
130010 LTP0480503 e-ph = 0.76. Hc(0)=0.077 T. Mo6Se8 Mo6Se8 Mo 6 Se 8 1982 Chevrel K 6.3 6.3 mj/mol.K2 40 145 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
130011 LTP0480503 e-ph = 0.81. Hc(0)=0.089 T. Mo6Se6Br2 Mo6Se6Br2 Mo 6 Se 6 Br 2 1982 Chevrel K 6.7 6.7 mj/mol.K2 44 133 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
130012 LTP0480503 e-ph = 0.71. Hc(0)=0.067 T. CuMo6Se8 Cu1Mo6Se8 Cu 1 Mo 6 Se 8 1982 Chevrel K 5.9 5.9 mj/mol.K2 40 155 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
130013 LTP0480503 e-ph = 0.54. Hc(0)=0.03 T. CdMo6Se8 Cd1Mo6Se8 Cd 1 Mo 6 Se 8 1982 Chevrel K 2.4 2.4 mj/mol.K2 55 145 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
130014 LTP0480503 e-ph = 0.6. Hc(0)=0.03 T. SnMo6Se8 Sn1Mo6Se8 Sn 1 Mo 6 Se 8 1982 Chevrel K 3.4 3.4 mj/mol.K2 26.3 140 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
130015 LTP0480503 e-ph = 0.66. Hc(0)=0.04 T. PbMo6Se8 Pb1Mo6Se8 Pb 1 Mo 6 Se 8 1982 Chevrel K 4 4 mj/mol.K2 31 125 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
130016 LTP0480503 e-ph = 1.04. Hc(0)=0.184 T. LaMo6Se8 La1Mo6Se8 La 1 Mo 6 Se 8 1982 Chevrel K 11.6 11.6 mj/mol.K2 83 150 Determination of the Energy Gap of Superconducting Chevrel and A15 Compounds from Heat Capacity Measurements 1982 "Sektion Chemie der Bergakademie Freiberg, Freiberg,East Germany" "J.Low Temp.Phys., 48(1982)503"
130017 REV198201 PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 1982 Chevrel K 15 15 Superconducting ternary compounds I: prospect and prospectives 1982 "Springer-Verlag, 1982, p1-24"
130018 REV198201 SnMo6S8 Sn1Mo6S8 Sn 1 Mo 6 S 8 1982 Chevrel K 14 14 Superconducting ternary compounds I: prospect and prospectives 1982 "Springer-Verlag, 1982, p1-24"
130019 REV198201 LaMo6S8 La1Mo6S8 La 1 Mo 6 S 8 1982 Chevrel K 7.1 7.1 Superconducting ternary compounds I: prospect and prospectives 1982 "Springer-Verlag, 1982, p1-24"
130020 REV198201 GdMo6S8 Gd1Mo6S8 Gd 1 Mo 6 S 8 1982 Chevrel K 1.4 1.4 Superconducting ternary compounds I: prospect and prospectives 1982 "Springer-Verlag, 1982, p1-24"
130021 REV198201 LuMo6S8 Lu1Mo6S8 Lu 1 Mo 6 S 8 1982 Chevrel K 2.2 2.2 Superconducting ternary compounds I: prospect and prospectives 1982 "Springer-Verlag, 1982, p1-24"
130022 REV198201 Mo6S8 Mo6S8 Mo 6 S 8 1982 Chevrel K 1.6 1.6 Superconducting ternary compounds I: prospect and prospectives 1982 "Springer-Verlag, 1982, p1-24"
130023 REV198201 Mo6S6I2 Mo6S6I2 Mo 6 S 6 I 2 1982 Chevrel K 1.4 1.4 Superconducting ternary compounds I: prospect and prospectives 1982 "Springer-Verlag, 1982, p1-24"
130024 REV1976137 Pb0.92Mo6S7.5 Pb0.92Mo6S7.5 Pb 0.92 Mo 6 S 7.5 1976 Chevrel K 13.98 13.98 K/GPa -1.6 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130025 REV1976137 PbMo5.1S4 Pb1Mo5.1S4 Pb 1 Mo 5.1 S 4 1976 Chevrel K 14.51 14.51 K/GPa -1.05 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130026 REV1976137 Sn0.6Mo3S4 Sn0.6Mo3S4 Sn 0.6 Mo 3 S 4 1976 Chevrel K 14.45 14.45 K/GPa -1.78 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130027 REV1976137 Sn0.6Mo3S4 Sn0.6Mo3S4 Sn 0.6 Mo 3 S 4 1976 Chevrel K 13.05 13.05 K/GPa -1.382 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130028 REV1976137 CuMo3S4 Cu1Mo3S4 Cu 1 Mo 3 S 4 1976 Chevrel K 10.66 10.66 K/GPa -1.072 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130029 REV1976137 AgMo4S5 Ag1Mo4S5 Ag 1 Mo 4 S 5 1976 Chevrel K 7.77 7.77 K/GPa -0.6 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130030 REV1976137 Tl0.45Bi0.46Mo6S7.5 Tl0.45Bi0.46Mo6S7.5 Tl 0.45 Bi 0.46 Mo 6 S 7.5 1976 Chevrel K 6.41 6.41 K/GPa -0.34 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130031 REV1976137 Tc(p) non-linear ZnMo5S6 Zn1Mo5S6 Zn 1 Mo 5 S 6 1976 Chevrel K 3.12 3.12 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130032 REV1976137 Tc(p) non-linear CdMo5S6 Cd1Mo5S6 Cd 1 Mo 5 S 6 1976 Chevrel K 2.67 2.67 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130033 REV1976137 ScMo6S7 Sc1Mo6S7 Sc 1 Mo 6 S 7 1976 Chevrel K 2.67 2.67 K/GPa 1.093 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130034 REV1976137 YMo6S7 Y1Mo6S7 Y 1 Mo 6 S 7 1976 Chevrel K 2.66 2.66 K/GPa -0.581 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130035 REV1976137 MgMo6S7 Mg1Mo6S7 Mg 1 Mo 6 S 7 1976 Chevrel K 2.72 2.72 K/GPa -0.25 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130036 REV1976137 Cu0.7Mo3Se4 Cu0.7Mo3Se4 Cu 0.7 Mo 3 Se 4 1976 Chevrel K 5.9 5.9 K/GPa -1.12 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130037 REV1976137 Tc(p) non-linear Ag0.7Mo4Se5 Ag0.7Mo4Se5 Ag 0.7 Mo 4 Se 5 1976 Chevrel K 5.96 5.96 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130038 REV1976137 Sn0.7Mo3Se4 Sn0.7Mo3Se4 Sn 0.7 Mo 3 Se 4 1976 Chevrel K 4.85 4.85 K/GPa -0.403 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130039 REV1976137 Pb1.2Mo6Se8 Pb1.2Mo6Se8 Pb 1.2 Mo 6 Se 8 1976 Chevrel K 4.32 4.32 K/GPa -0.645 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130040 REV1976137 YMo6Se8 Y1Mo6Se8 Y 1 Mo 6 Se 8 1976 Chevrel K 6.38 6.38 K/GPa -1.052 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130041 BOOK1982 Mo6Se8 Mo6Se8 Mo 6 Se 8 1982 Chevrel K 6.3 6.3 T 8.6 T/K 1.7 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130042 BOOK1982 Mo6Se8 Mo6Se8 Mo 6 Se 8 1982 Chevrel K 6.2 6.2 T 16.5 T/K 3.6 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130043 BOOK1982 LaMo6Se8 La1Mo6Se8 La 1 Mo 6 Se 8 1982 Chevrel K 11.3 11.3 T T/K 7 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130044 BOOK1982 LaMo6Se8 La1Mo6Se8 La 1 Mo 6 Se 8 1982 Chevrel K 10.8 10.8 T 44.5 T/K 7.5 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130045 BOOK1982 LaMo6S8 La1Mo6S8 La 1 Mo 6 S 8 1982 Chevrel K 5.8 5.8 T 5.4 T/K 1.5 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130046 BOOK1982 Cu1.8Mo6S8 Cu1.8Mo6S8 Cu 1.8 Mo 6 S 8 1982 Chevrel K 10 10 T 19.2 T/K 2.5 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130047 BOOK1982 Cu1.8Mo6S8 Cu1.8Mo6S8 Cu 1.8 Mo 6 S 8 1982 Chevrel K 10.5 10.5 T 15.3 T/K 1.9 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130048 BOOK1982 SnMo6S8 Sn1Mo6S8 Sn 1 Mo 6 S 8 1982 Chevrel K 13.4 13.4 T 34.4 T/K 3.7 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130049 BOOK1982 SnMo6S8 Sn1Mo6S8 Sn 1 Mo 6 S 8 1982 Chevrel K 11.8 11.8 T 34 T/K 4.7 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130050 BOOK1982 SnMo6S8 Sn1Mo6S8 Sn 1 Mo 6 S 8 1982 Chevrel K 11.7 11.7 T 36 T/K 3.7 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130051 BOOK1982 PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 1982 Chevrel K 14.4 14.4 T 60 T/K 6 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130052 BOOK1982 PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 1982 Chevrel K 12.6 12.6 T 50 T/K 5.8 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130053 BOOK1982 PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 1982 Chevrel K 13.3 13.3 T 60 T/K 6 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130054 LTP0430371 tunnel PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 1981 Chevrel K 4.8 1 Tunneling spectroscopy on the superconducting Chevrel-phase compounds Cu1.8Mo6S8 and PbMo6S8 1981 "J.Low Temp.Phys., 43(1981)371"
130055 SSC0330419 NMR PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 1980 Chevrel K 3.5 6 NMR study of Chevrel phase superconductor 1980 "Solid State Commun., 33(1980)419"
130056 LTP0060171 dTc/dP = 3.7 E-5 K/bar. V3Si Si1V3 Si 1 V 3 1972 Cr3Si(A15) "Cr3Si, A15" K 16.85 16.85 MTC130056 K/GPa 0.37 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130057 LTP0060171 V3Si Si1V3 Si 1 V 3 1972 Cr3Si(A15) "Cr3Si, A15" K 16.83 16.83 K/GPa 0.31 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130058 LTP0060171 V0.78Si0.22 Si0.22V0.78 Si 0.22 V 0.78 1972 Cr3Si(A15) "Cr3Si, A15" K 14.38 14.38 K/GPa 0.26 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130059 LTP0060171 V3Ga Ga1V3 Ga 1 V 3 1972 Cr3Si(A15) "Cr3Si, A15" K 13.87 13.87 K/GPa 0.105 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130060 LTP0060171 V3Sn Sn1V3 Sn 1 V 3 1972 Cr3Si(A15) "Cr3Si, A15" K 3.65 3.65 K/GPa 0.049 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130061 LTP0060171 V3Ge Ge1V3 Ge 1 V 3 1972 Cr3Si(A15) "Cr3Si, A15" K 6.1 6.1 K/GPa 0.81 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130062 LTP0060171 V3Ge0.9Al0.1 V3Ge0.9Al0.1 V 3 Ge 0.9 Al 0.1 1972 Cr3Si(A15) "Cr3Si, A15" K 8.8 8.8 K/GPa 0.347 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130063 LTP0060171 V3Ge0.8Al0.2 V3Ge0.8Al0.2 V 3 Ge 0.8 Al 0.2 1972 Cr3Si(A15) "Cr3Si, A15" K 11.02 11.02 K/GPa 0.253 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130064 LTP0060171 V3Ge0.7Al0.3 V3Ge0.7Al0.3 V 3 Ge 0.7 Al 0.3 1972 Cr3Si(A15) "Cr3Si, A15" K 11.17 11.17 K/GPa 0.263 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130065 LTP0060171 "Heat treatment(800C, 1 d))" V3Au Au1V3 Au 1 V 3 1972 Cr3Si(A15) "Cr3Si, A15" K 1.755 1.755 K/GPa 0.0875 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130066 LTP0060171 "Heat treatment(600C, 4 w)" V3Au Au1V3 Au 1 V 3 1972 Cr3Si(A15) "Cr3Si, A15" K 2.731 2.731 K/GPa 0.13 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130067 LTP0060171 V3Pt Pt1V3 Pt 1 V 3 1972 Cr3Si(A15) "Cr3Si, A15" K 2.63 2.63 K/GPa -0.041 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130068 LTP0060171 "Heat treatment(800C, 2 d)" V3Pt Pt1V3 Pt 1 V 3 1972 Cr3Si(A15) "Cr3Si, A15" K 3.18 3.18 K/GPa -0.086 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130069 LTP0060171 V0.67Ir0.33 Ir0.33V0.67 Ir 0.33 V 0.67 1972 Cr3Si(A15) "Cr3Si, A15" K 1.6 1.6 K/GPa -0.021 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130070 LTP0060171 Nb3Sn Nb3Sn1 Nb 3 Sn 1 1972 Cr3Si(A15) "Cr3Si, A15" K 17.832 17.832 MTC130070 K/GPa -0.14 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130071 LTP0060171 Nb3Al Al1Nb3 Al 1 Nb 3 1972 Cr3Si(A15) "Cr3Si, A15" K 17.11 17.11 K/GPa -0.07 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130072 LTP0060171 Nb3Ge Ge1Nb3 Ge 1 Nb 3 1972 Cr3Si(A15) "Cr3Si, A15" K 6.281 6.281 K/GPa -0.114 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130073 LTP0060171 Nb0.78(Al0.75Ge0.25)0.22 Nb0.78Al0.165Ge0.055 Nb 0.78 Al 0.165 Ge 0.055 1972 Cr3Si(A15) "Cr3Si, A15" K 20.29 20.29 K/GPa -0.02 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130077 LTP0060171 Nb3Ir Ir1Nb3 Ir 1 Nb 3 1972 Cr3Si(A15) "Cr3Si, A15" K 2.07 2.07 K/GPa 0.055 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130078 LTP0060171 Nb3Rh Nb3Rh1 Nb 3 Rh 1 1972 Cr3Si(A15) "Cr3Si, A15" K 2.797 2.797 K/GPa -0.032 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130079 LTP0060171 Nb3Pt Nb3Pt1 Nb 3 Pt 1 1972 Cr3Si(A15) "Cr3Si, A15" K 8.111 8.111 K/GPa -0.063 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130080 LTP0060171 "Heat treatment(800C, 1 d)" Nb3Pt Nb3Pt1 Nb 3 Pt 1 1972 Cr3Si(A15) "Cr3Si, A15" K 8.174 8.174 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130081 LTP0060171 "Heat treatment(900C, 10 d)" Nb3Pt Nb3Pt1 Nb 3 Pt 1 1972 Cr3Si(A15) "Cr3Si, A15" K 10.53 10.53 K/GPa 0.188 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130082 LTP0060171 "Heat treatment(650C, 1 d + 1200C,5h)" Ta3Sn Sn1Ta3 Sn 1 Ta 3 1972 Cr3Si(A15) "Cr3Si, A15" K 5.82 5.82 K/GPa -0.116 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130083 LTP0060171 Ti3Sb Sb1Ti3 Sb 1 Ti 3 1972 Cr3Si(A15) "Cr3Si, A15" K 5.1 5.1 K/GPa -0.005 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130084 LTP0060171 "Heat treatment(800C, 36h)" Ti3Sb Sb1Ti3 Sb 1 Ti 3 1972 Cr3Si(A15) "Cr3Si, A15" K 5.47 5.47 K/GPa 0.016 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130085 LTP0060171 "Heat treatment(1000C, 1 d + 600C,2w)" Ti3Ir Ir1Ti3 Ir 1 Ti 3 1972 Cr3Si(A15) "Cr3Si, A15" K 4.97 4.97 K/GPa 0.147 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130086 LTP0060171 "Heat treatment(900C, 1 month)" Cr0.72Ru0.28 Cr0.72Ru0.28 Cr 0.72 Ru 0.28 1972 Cr3Si(A15) "Cr3Si, A15" K 3.468 3.468 K/GPa 0.013 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130087 LTP0060171 "Heat treatment(1200C, 1 d, then quench)" Cr0.72Os0.28 Cr0.72Os0.28 Cr 0.72 Os 0.28 1972 Cr3Si(A15) "Cr3Si, A15" K 3.862 3.862 K/GPa 0.006 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130088 LTP0060171 Mo3Si Mo3Si1 Mo 3 Si 1 1972 Cr3Si(A15) "Cr3Si, A15" K 1.402 1.402 K/GPa -0.035 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130089 LTP0060171 Mo3Ge Ge1Mo3 Ge 1 Mo 3 1972 Cr3Si(A15) "Cr3Si, A15" K 2.166 2.166 K/GPa -0.045 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130090 LTP0060171 Mo3Ge Ge1Mo3 Ge 1 Mo 3 1972 Cr3Si(A15) "Cr3Si, A15" K 1.6 1.6 K/GPa -0.047 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130091 LTP0060171 "Heat treatment(1800C, 2h + 600C,2w)" Mo3Os Mo3Os1 Mo 3 Os 1 1972 Cr3Si(A15) "Cr3Si, A15" K 11.69 11.69 K/GPa -0.095 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130092 LTP0060171 "Heat treatment(2000C, 4h + 1100C,2w)" Mo3Os Mo3Os1 Mo 3 Os 1 1972 Cr3Si(A15) "Cr3Si, A15" K 12.5 12.5 K/GPa -0.096 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130093 LTP0060171 "Heat treatment(1800C, 2h + 600C,2w)" Mo3Ir Ir1Mo3 Ir 1 Mo 3 1972 Cr3Si(A15) "Cr3Si, A15" K 8.174 8.174 K/GPa -0.081 Superconductivity at high pressure in the A15 compounds 1972 "J.Low Temp.Phys., 6(1972)171"
130094 SCI2000535 Am Am1 Am 1 1978 dhcp K 0.79 0.79 Superconductivity of Americium 1978 "Science, 2000(1978)535"
130095 SSC0310961 gamma in mj/mol.K2. gap from specific heat. La3S4 La3S4 La 3 S 4 3 1979 K T 15.1 A 46 5.2 mj/mol.K2 8.3 224 High critical magnetic field superconductor La3S4 1979 "Solid State Commun., 31(1979)961"
130096 JPC008L474 Sn1.2Mo6S8 Sn1.2Mo6.35S8 Sn 1.2 Mo 6.35 S 8 1975 Chevrel K 10.7 10.7 T 27.5 MHC30096 Compensation of the paramagnetic effect on Hc2 by magnetic moments: 700 kG superconductors 1975 "J.Phys.C: Solid State Phys., 8(1975)L474"
130097 JPC008L474 "(Sn,Eu)1.2Mo6S8" Sn1.08Eu0.1Mo6.35S8 Sn 1.08 Eu 0.1 Mo 6.35 S 8 1975 Chevrel K 10.9 10.9 T 30.9 Compensation of the paramagnetic effect on Hc2 by magnetic moments: 700 kG superconductors 1975 "J.Phys.C: Solid State Phys., 8(1975)L474"
130098 JPC008L474 "(Sn,Eu)1.2Mo6S8" Sn0.96Eu0.2Mo6.35S8 Sn 0.96 Eu 0.2 Mo 6.35 S 8 1975 Chevrel K 10.7 10.7 T 37.1 Compensation of the paramagnetic effect on Hc2 by magnetic moments: 700 kG superconductors 1975 "J.Phys.C: Solid State Phys., 8(1975)L474"
130099 JPC008L474 "(Sn,Eu)1.2Mo6S8" Sn0.84Eu0.3Mo6.35S8 Sn 0.84 Eu 0.3 Mo 6.35 S 8 1975 Chevrel K 10.6 10.6 T 37.1 Compensation of the paramagnetic effect on Hc2 by magnetic moments: 700 kG superconductors 1975 "J.Phys.C: Solid State Phys., 8(1975)L474"
130100 JPC008L474 "(Sn,Eu)1.2Mo6S8" Sn0.72Eu0.4Mo6.35S8 Sn 0.72 Eu 0.4 Mo 6.35 S 8 1975 Chevrel K 10.1 10.1 T 39.6 Compensation of the paramagnetic effect on Hc2 by magnetic moments: 700 kG superconductors 1975 "J.Phys.C: Solid State Phys., 8(1975)L474"
130101 JPC008L474 "(Sn,Eu)1.2Mo6S8" Sn0.6Eu0.5Mo6.35S8 Sn 0.6 Eu 0.5 Mo 6.35 S 8 1975 Chevrel K 10.2 10.2 T 40.7 MHC30101 Compensation of the paramagnetic effect on Hc2 by magnetic moments: 700 kG superconductors 1975 "J.Phys.C: Solid State Phys., 8(1975)L474"
130102 JPC008L474 "(Sn,Eu)1.2Mo6S8" Sn0.48Eu0.6Mo6.35S8 Sn 0.48 Eu 0.6 Mo 6.35 S 8 1975 Chevrel K 9.2 9.2 Compensation of the paramagnetic effect on Hc2 by magnetic moments: 700 kG superconductors 1975 "J.Phys.C: Solid State Phys., 8(1975)L474"
130103 JPC008L474 "(Sn,Eu)1.2Mo6S8" Sn0.36Eu0.7Mo6.35S8 Sn 0.36 Eu 0.7 Mo 6.35 S 8 1975 Chevrel K 7.94 7.94 T 36.3 MHC30103 Compensation of the paramagnetic effect on Hc2 by magnetic moments: 700 kG superconductors 1975 "J.Phys.C: Solid State Phys., 8(1975)L474"
130104 JPC008L474 "(Sn,Eu)1.2Mo6S8" Sn0.24Eu0.8Mo6.35S8 Sn 0.24 Eu 0.8 Mo 6.35 S 8 1975 Chevrel K 6 6 T 32.4 MHC30104 Compensation of the paramagnetic effect on Hc2 by magnetic moments: 700 kG superconductors 1975 "J.Phys.C: Solid State Phys., 8(1975)L474"
130105 JPC008L474 "(Sn,Eu)1.2Mo6S8" Sn0.12Eu0.9Mo6.35S8 Sn 0.12 Eu 0.9 Mo 6.35 S 8 1975 Chevrel K 0.94 0.94 Compensation of the paramagnetic effect on Hc2 by magnetic moments: 700 kG superconductors 1975 "J.Phys.C: Solid State Phys., 8(1975)L474"
130106 JPC008L474 "(Pb,Eu,Gd)Mo6S8" Pb0.7Eu0.3Gd0.2Mo6S8 Pb 0.7 Eu 0.3 Gd 0.2 Mo 6 S 8 1975 Chevrel K 14.3 14.3 T 66.3 MHC30106 Compensation of the paramagnetic effect on Hc2 by magnetic moments: 700 kG superconductors 1975 "J.Phys.C: Solid State Phys., 8(1975)L474"
130107 JPC008L474 "(Pb,Eu)Mo6S8" Pb0.7Eu0.3Mo6.35S8 Pb 0.7 Eu 0.3 Mo 6.35 S 8 1975 Chevrel K 13.6 13.6 T 63.5 MHC30107 Compensation of the paramagnetic effect on Hc2 by magnetic moments: 700 kG superconductors 1975 "J.Phys.C: Solid State Phys., 8(1975)L474"
130108 JPC008L474 "(Pb,Eu)Mo6S8" Pb0.7Eu0.3Mo6.35S8 Pb 0.7 Eu 0.3 Mo 6.35 S 8 1975 Chevrel K 11 11 T 48.4 MHC30108 Compensation of the paramagnetic effect on Hc2 by magnetic moments: 700 kG superconductors 1975 "J.Phys.C: Solid State Phys., 8(1975)L474"
130109 JPC008L474 PbMo6S8 Pb1Mo6.35S8 Pb 1 Mo 6.35 S 8 1975 Chevrel K 12 12 T 42.1 MHC30109 Compensation of the paramagnetic effect on Hc2 by magnetic moments: 700 kG superconductors 1975 "J.Phys.C: Solid State Phys., 8(1975)L474"
130110 SSC0240747 Tb1.2Mo6S8 Tb1.2Mo6S8 Tb 1.2 Mo 6 S 8 1977 Chevrel K 1.64 1.64 MHC30110 "Magnetic ordering i the superconducting state of rare earth molybdenum sulphides, (RE)1.2Mo6S8 (RE=Tb, Dy, and Er)" 1977 "Solid State Commun., 24(1977)747"
130111 SSC0240747 Dy1.2Mo6S8 Dy1.2Mo6S8 Dy 1.2 Mo 6 S 8 1977 Chevrel K 1.72 1.72 MHC30111 "Magnetic ordering i the superconducting state of rare earth molybdenum sulphides, (RE)1.2Mo6S8 (RE=Tb, Dy, and Er)" 1977 "Solid State Commun., 24(1977)747"
130112 SSC0240747 re-entrant s/c Er1.2Mo6S8 Er1.2Mo6S8 Er 1.2 Mo 6 S 8 1977 Chevrel K 2.1 2.1 MRES30112 "Magnetic ordering i the superconducting state of rare earth molybdenum sulphides, (RE)1.2Mo6S8 (RE=Tb, Dy, and Er)" 1977 "Solid State Commun., 24(1977)747"
130113 CEM0330043 semicond. Mo2Re4S2 Mo2Re4S2 Mo 2 Re 4 S 2 1980 Chevrel A 9.34 10.42 K Heat(1150C) in sealed quartz "Synthesis and electrical properties of new chalcogenide compounds containing mixed (Mo, Me)6 octahedral clusters (Me=Ru or Rh)" 1980 "J.Solid State Chem., 33(1980)43"
130114 CEM0330043 Mo6S6Br2 Mo6S6Br2 Mo 6 S 6 Br 2 1980 Chevrel A 9.54 10.36 K 13.8 13.8 Heat(1150C) in sealed quartz "Synthesis and electrical properties of new chalcogenide compounds containing mixed (Mo, Me)6 octahedral clusters (Me=Ru or Rh)" 1980 "J.Solid State Chem., 33(1980)43"
130115 CEM0330043 Mo6S6I2 Mo6S6I2 Mo 6 S 6 I 2 1980 Chevrel A 9.64 10.44 K 14 14 Heat(1150C) in sealed quartz "Synthesis and electrical properties of new chalcogenide compounds containing mixed (Mo, Me)6 octahedral clusters (Me=Ru or Rh)" 1980 "J.Solid State Chem., 33(1980)43"
130116 CEM0330043 Mo6Se8 Mo6Se8 Mo 6 Se 8 1980 Chevrel A 9.57 11.15 K 6.25 6.25 Heat(1150C) in sealed quartz "Synthesis and electrical properties of new chalcogenide compounds containing mixed (Mo, Me)6 octahedral clusters (Me=Ru or Rh)" 1980 "J.Solid State Chem., 33(1980)43"
130117 CEM0330043 semicond. Mo2Re4Se8 Mo2Re4Se8 Mo 2 Re 4 Se 8 1980 Chevrel A 9.67 10.74 K Heat(1150C) in sealed quartz "Synthesis and electrical properties of new chalcogenide compounds containing mixed (Mo, Me)6 octahedral clusters (Me=Ru or Rh)" 1980 "J.Solid State Chem., 33(1980)43"
130118 CEM0330043 semicond. Mo4Ru2Se8 Mo4Ru2Se8 Mo 4 Ru 2 Se 8 1980 Chevrel A 9.69 10.82 K Heat(1150C) in sealed quartz "Synthesis and electrical properties of new chalcogenide compounds containing mixed (Mo, Me)6 octahedral clusters (Me=Ru or Rh)" 1980 "J.Solid State Chem., 33(1980)43"
130119 CEM0330043 Mo6Se5Cl3 Mo6Se5Cl3 Mo 6 Se 5 Cl 3 1980 Chevrel A 9.64 11.05 K 5.7 5.7 Heat(1150C) in sealed quartz "Synthesis and electrical properties of new chalcogenide compounds containing mixed (Mo, Me)6 octahedral clusters (Me=Ru or Rh)" 1980 "J.Solid State Chem., 33(1980)43"
130120 CEM0330043 Mo6Se5Br3 Mo6Se5Br3 Mo 6 Se 5 Br 3 1980 Chevrel A 9.82 10.83 K 7.1 7.1 Heat(1150C) in sealed quartz "Synthesis and electrical properties of new chalcogenide compounds containing mixed (Mo, Me)6 octahedral clusters (Me=Ru or Rh)" 1980 "J.Solid State Chem., 33(1980)43"
130121 CEM0330043 Mo6Se5I3 Mo6Se5I3 Mo 6 Se 5 I 3 1980 Chevrel A 10.02 10.73 K 4.2 4.2 Heat(1150C) in sealed quartz "Synthesis and electrical properties of new chalcogenide compounds containing mixed (Mo, Me)6 octahedral clusters (Me=Ru or Rh)" 1980 "J.Solid State Chem., 33(1980)43"
130122 CEM0330043 Mo5.25Nb0.75Se8 Mo5.25Nb0.75Se8 Mo 5.25 Nb 0.75 Se 8 1980 Chevrel A 9.6 11.16 K 6.2 6.2 Heat(1150C) in sealed quartz "Synthesis and electrical properties of new chalcogenide compounds containing mixed (Mo, Me)6 octahedral clusters (Me=Ru or Rh)" 1980 "J.Solid State Chem., 33(1980)43"
130123 CEM0330043 Mo6Te8 Mo6Te8 Mo 6 Te 8 1980 Chevrel A 10.2 11.66 K 1.7 Heat(1150C) in sealed quartz "Synthesis and electrical properties of new chalcogenide compounds containing mixed (Mo, Me)6 octahedral clusters (Me=Ru or Rh)" 1980 "J.Solid State Chem., 33(1980)43"
130124 CEM0330043 Mo4Re2Te8 Mo4Re2Te8 Mo 4 Re 2 Te 8 1980 Chevrel A 10.22 11.51 K 3.5 3.5 Heat(1150C) in sealed quartz "Synthesis and electrical properties of new chalcogenide compounds containing mixed (Mo, Me)6 octahedral clusters (Me=Ru or Rh)" 1980 "J.Solid State Chem., 33(1980)43"
130125 CEM0330043 Mo4Ru2Te8 Mo4Ru2Te8 Mo 4 Ru 2 Te 8 1980 Chevrel A 10.28 11.35 K 1.7 Heat(1150C) in sealed quartz "Synthesis and electrical properties of new chalcogenide compounds containing mixed (Mo, Me)6 octahedral clusters (Me=Ru or Rh)" 1980 "J.Solid State Chem., 33(1980)43"
130126 CEM0330043 Mo6Te6Cl2 Mo6Te6Cl2 Mo 6 Te 6 Cl 2 1980 Chevrel A 10.19 11.68 K Heat(1150C) in sealed quartz "Synthesis and electrical properties of new chalcogenide compounds containing mixed (Mo, Me)6 octahedral clusters (Me=Ru or Rh)" 1980 "J.Solid State Chem., 33(1980)43"
130127 CEM0330043 Mo6Te5Br3 Mo6Te5Br3 Mo 6 Te 5 Br 3 1980 Chevrel A 10.2 11.66 K Heat(1150C) in sealed quartz "Synthesis and electrical properties of new chalcogenide compounds containing mixed (Mo, Me)6 octahedral clusters (Me=Ru or Rh)" 1980 "J.Solid State Chem., 33(1980)43"
130128 CEM0330043 Mo6Te5I3 Mo6Te5I3 Mo 6 Te 5 I 3 1980 Chevrel A 10.32 11.51 K 2.4 2.4 Heat(1150C) in sealed quartz "Synthesis and electrical properties of new chalcogenide compounds containing mixed (Mo, Me)6 octahedral clusters (Me=Ru or Rh)" 1980 "J.Solid State Chem., 33(1980)43"
130129 CEM0330043 Mo5.25Nb0.75Te8 Mo5.25Nb0.75Te8 Mo 5.25 Nb 0.75 Te 8 1980 Chevrel A 10.21 11.7 K 1.7 Heat(1150C) in sealed quartz "Synthesis and electrical properties of new chalcogenide compounds containing mixed (Mo, Me)6 octahedral clusters (Me=Ru or Rh)" 1980 "J.Solid State Chem., 33(1980)43"
130130 CEM0330043 Mo5.25Ta0.75Te8 Mo5.25Ta0.75Te8 Mo 5.25 Ta 0.75 Te 8 1980 Chevrel A 10.21 11.7 K 1.7 Heat(1150C) in sealed quartz "Synthesis and electrical properties of new chalcogenide compounds containing mixed (Mo, Me)6 octahedral clusters (Me=Ru or Rh)" 1980 "J.Solid State Chem., 33(1980)43"
130131 CEM0330043 Mo4.66Rh1.33Te8 Mo4.66Rh1.33Te8 Mo 4.66 Rh 1.33 Te 8 1980 Chevrel A 10.25 11.53 K 1.7 Heat(1150C) in sealed quartz "Synthesis and electrical properties of new chalcogenide compounds containing mixed (Mo, Me)6 octahedral clusters (Me=Ru or Rh)" 1980 "J.Solid State Chem., 33(1980)43"
130132 MRB0151025 not s/c. R(300K)=13 mOhm. thermopower(300K)=-3.6 uV/K. Mo6S6O2 Mo6S6O2 Mo 6 S 6 O 2 1980 Chevrel A 9.14 10.82 K solid state reaction "Synthesis and properties of O-containing chevrel phases, AxMo6S6O2 (A=Co, Ni, Cu, and Pb)" 1980 "Mat.Res.Bull., 15(1980)1025"
130133 MRB0151025 R(300K)=0.9 mOhm. thermopower(300K)=4.4 uV/K. Cu2Mo6S6O2 Cu2Mo6S6O2 Cu 2 Mo 6 S 6 O 2 1980 Chevrel A 9.67 10.19 K 9 9 solid state reaction "Synthesis and properties of O-containing chevrel phases, AxMo6S6O2 (A=Co, Ni, Cu, and Pb)" 1980 "Mat.Res.Bull., 15(1980)1025"
130134 MRB0151025 semicond. R(300K)=0.6 mOhm. thermopower(300K)=0.4 uV/K. Ni2Mo6S6O2 Ni2Mo6S6O2 Ni 2 Mo 6 S 6 O 2 1980 Chevrel A 9.47 10.19 K solid state reaction "Synthesis and properties of O-containing chevrel phases, AxMo6S6O2 (A=Co, Ni, Cu, and Pb)" 1980 "Mat.Res.Bull., 15(1980)1025"
130135 MRB0151025 semicond. R(300K)=0.8 mOhm. thermopower(300K)=13.8 uV/K. Co2Mo6S6O2 Co2Mo6S6O2 Co 2 Mo 6 S 6 O 2 1980 Chevrel A 9.49 10.11 K solid state reaction "Synthesis and properties of O-containing chevrel phases, AxMo6S6O2 (A=Co, Ni, Cu, and Pb)" 1980 "Mat.Res.Bull., 15(1980)1025"
130136 MRB0151025 R(300K)=3.2 mOhm. thermopower(300K)=5.1 uV/K. PbMo6S6O2 Pb1Mo6S6O2 Pb 1 Mo 6 S 6 O 2 1980 Chevrel A 9.14 11.5 K 11.7 11.7 solid state reaction "Synthesis and properties of O-containing chevrel phases, AxMo6S6O2 (A=Co, Ni, Cu, and Pb)" 1980 "Mat.Res.Bull., 15(1980)1025"
130137 LTP0440553 "specific heat, thermal conductivity, thermal expansion were measured. magnetic order at 0.4 K. effective moment = 7.51. s/c persist to 60 mK." TmRh4B4 Tm1Rh4B4 Tm 1 Rh 4 B 4 1981 -0.46 AB4C4 RT4B4 LuRh4B4 type K 9.8 9.8 MHC30137 "arc-melting + ANN(1200C, 800C)" Observation of the coexistence of superconductivity and long-range magnetic order in TmRh4B4 1981 "J.Low Temp.Phys., 44(1981)553"
130138 SSC0310139 NdRh4B4+RhB+NdRh6B4. excess RhB stabilized NdRh4B4 phase. Specific heat anomaly due to magnetic order of Nd appears at 1.31K and 0.89 K. NdRh6B6 Nd1Rh6B6 Nd 1 Rh 6 B 6 1979 -6.2 AB4C4 RT4B4 LuRh4B4 type K 5.4 5.4 MHC30138 Possible observation of the coexistence of superconductivity and long-range magnetic order in NdRh4B4 1979 "Solid State Commun., 31(1979)139"
130139 SSC0320289 magnetic order at 0.87 K (by specific heat). moment = 0.632. SmRh4B4 Sm1Rh4B4 Sm 1 Rh 4 B 4 1979 -1.93 AB4C4 RT4B4 LuRh4B4 type K 2.72 2.72 MHC30139 "arc-melting + ANN(1200C, 800C)" Coexistence of superconductivity and antiferromagnetic order in SmRh4B4 1979 "Solid State Commun., 32(1979)289"
130140 BOOK1982 Mo6Se8 Mo6Se8 Mo 6 Se 8 1982 Chevrel K 6.3 6.3 T 8.6 T/K 1.7 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130141 BOOK1982 Mo6Se8 Mo6Se8 Mo 6 Se 8 1982 Chevrel K 6.2 6.2 T 16.5 T/K 3.6 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130142 BOOK1982 LaMo6Se8 La1Mo6Se8 La 1 Mo 6 Se 8 1982 Chevrel K 11.3 11.3 T T/K 7 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130143 BOOK1982 LaMo6Se8 La1Mo6Se8 La 1 Mo 6 Se 8 1982 Chevrel K 10.8 10.8 T 44.5 T/K 7.5 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130144 BOOK1982 LaMo6S8 La1Mo6S8 La 1 Mo 6 S 8 1982 Chevrel K 5.8 5.8 T 5.4 T/K 1.5 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130145 BOOK1982 Cu1.8Mo6S8 Cu1.8Mo6S8 Cu 1.8 Mo 6 S 8 1982 Chevrel K 10 10 T 19.2 T/K 2.5 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130146 BOOK1982 Cu1.8Mo6S8 Cu1.8Mo6S8 Cu 1.8 Mo 6 S 8 1982 Chevrel K 10.5 10.5 T 15.3 T/K 1.9 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130147 BOOK1982 SnMo6S8 Sn1Mo6S8 Sn 1 Mo 6 S 8 1982 Chevrel K 13.4 13.4 T 34.4 T/K 3.7 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130148 BOOK1982 SnMo6S8 Sn1Mo6S8 Sn 1 Mo 6 S 8 1982 Chevrel K 11.8 11.8 T 34 T/K 4.7 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130149 BOOK1982 SnMo6S8 Sn1Mo6S8 Sn 1 Mo 6 S 8 1982 Chevrel K 11.7 11.7 T 36 T/K 3.7 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130150 BOOK1982 PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 1982 Chevrel K 14.4 14.4 T 60 T/K 6 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130151 BOOK1982 PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 1982 Chevrel K 12.6 12.6 T 50 T/K 5.8 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130152 BOOK1982 PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 1982 Chevrel K 13.3 13.3 T 60 T/K 6 "Topics in current physics ""Superconductivity in ternary compounds II""" 1982 "Springer-Verlag, 1982,"
130153 LTP0430371 gap by tunneling PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 1981 Chevrel K 4.8 1 Tunneling spectroscopy on the superconducting Chevrel-phase compounds Cu1.8Mo6S8 and PbMo6S8 1981 "J.Low Temp.Phys., 43(1981)371"
130154 SSC0330419 gap by NMR PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 1980 Chevrel K 3.5 6 NMR study of Chevrel phase superconductor 1980 "Solid State Commun., 33(1980)419"
130155 REV1976137 Pb0.92Mo6S7.5 Pb0.92Mo6S7.5 Pb 0.92 Mo 6 S 7.5 1976 Chevrel K 13.98 13.98 K/GPa -1.6 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130156 REV1976137 PbMo5.1S4 Pb1Mo5.1S4 Pb 1 Mo 5.1 S 4 1976 Chevrel K 14.51 14.51 K/GPa -1.05 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130157 REV1976137 Sn0.6Mo3S4 Sn0.6Mo3S4 Sn 0.6 Mo 3 S 4 1976 Chevrel K 14.45 14.45 K/GPa -1.78 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130158 REV1976137 Sn0.6Mo3S4 Sn0.6Mo3S4 Sn 0.6 Mo 3 S 4 1976 Chevrel K 13.05 13.05 K/GPa -1.382 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130159 REV1976137 CuMo3S4 Cu1Mo3S4 Cu 1 Mo 3 S 4 1976 Chevrel K 10.66 10.66 K/GPa -1.072 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130160 REV1976137 AgMo4S5 Ag1Mo4S5 Ag 1 Mo 4 S 5 1976 Chevrel K 7.77 7.77 K/GPa -0.6 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130161 REV1976137 Tl0.45Bi0.46Mo6S7.5 Tl0.45Bi0.46Mo6S7.5 Tl 0.45 Bi 0.46 Mo 6 S 7.5 1976 Chevrel K 6.41 6.41 K/GPa -0.34 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130162 REV1976137 Tc(P) non-linear ZnMo5S6 Zn1Mo5S6 Zn 1 Mo 5 S 6 1976 Chevrel K 3.12 3.12 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130163 REV1976137 Tc(P) non-linear CdMo5S6 Cd1Mo5S6 Cd 1 Mo 5 S 6 1976 Chevrel K 2.67 2.67 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130164 REV1976137 ScMo6S7 Sc1Mo6S7 Sc 1 Mo 6 S 7 1976 Chevrel K 2.67 2.67 K/GPa 1.093 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130165 REV1976137 YMo6S7 Y1Mo6S7 Y 1 Mo 6 S 7 1976 Chevrel K 2.66 2.66 K/GPa -0.581 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130166 REV1976137 MgMo6S7 Mg1Mo6S7 Mg 1 Mo 6 S 7 1976 Chevrel K 2.72 2.72 K/GPa -0.25 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130167 REV1976137 Cu0.7Mo3Se4 Cu0.7Mo3Se4 Cu 0.7 Mo 3 Se 4 1976 Chevrel K 5.9 5.9 K/GPa -1.12 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130168 REV1976137 Tc(P) non-linear Ag0.7Mo3Se4 Ag0.7Mo3Se4 Ag 0.7 Mo 3 Se 4 1976 Chevrel K 5.96 5.96 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130169 REV1976137 Sn0.7Mo3Se4 Sn0.7Mo3Se4 Sn 0.7 Mo 3 Se 4 1976 Chevrel K 4.85 4.85 K/GPa -0.403 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130170 REV1976137 Pb1.2Mo6Se8 Pb1.2Mo6Se8 Pb 1.2 Mo 6 Se 8 1976 Chevrel K 4.32 4.32 K/GPa -0.645 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130171 REV1976137 YMo6Se8 Y1Mo6Se8 Y 1 Mo 6 Se 8 1976 Chevrel K 6.38 6.38 K/GPa -1.052 "The effect of high pressure on superconducting molybdenum chalcogenides in ""Superconductivity in d- and f- band metals"" eds. Douglous" 1976 "Plenum Press, 1976, p137-160"
130172 PR0232219 Tc<1.2 for 0.22= K 8.1 8.1 K/GPa 1.1 "High temperature superconductivity and instabilities: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131003 HPLT1978-1 La3Se4 La3Se4 La 3 Se 4 1978 A3B4 D7<3> K 7.6 7.6 K/GPa 0.7 "High temperature superconductivity and instabilities: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131004 HPLT1978-1 CuMo3S4 Cu1Mo3S4 Cu 1 Mo 3 S 4 1978 AB3C4 Chevrel K 10.5 10.5 K/GPa 2 "High temperature superconductivity and instabilities: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131005 HPLT1978-1 2H-TaSe2 Se2Ta1 Se 2 Ta 1 1978 AB2 TX2 2H-TaSe2 K 0.14 0.14 K/GPa 0.13 "High temperature superconductivity and instabilities: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131006 HPLT1978-1 2H-TaS2 S2Ta1 S 2 Ta 1 1978 AB2 TX2 2H-TaS2 K 0.49 0.49 K/GPa 0.93 "High temperature superconductivity and instabilities: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131007 HPLT1978-1 4Hb-TaS2 S2Ta1 S 2 Ta 1 1978 AB2 TX2 4Hb-TaS2 K 2.5 2.5 K/GPa 0.35 "High temperature superconductivity and instabilities: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131008 HPLT1978-1 "Nb3(Sn,Al)" Al0.05Nb3Sn0.95 Al 0.05 Nb 3 Sn 0.95 1978 AB3 Cr3Si(A15) K 18 18 MTC131008 "High temperature superconductivity and instabilities: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131009 HPLT1978-1 Nb3Sn Nb3Sn1 Nb 3 Sn 1 1978 AB3 Cr3Si(A15) K 17.77 17.77 MTC131009 "High temperature superconductivity and instabilities: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131010 HPLT1978-1 "Tc(P) = 16.9, 16.9, 16.85 K for P = 0, 3.7, 10.5 kbar, respectively." "Nb3(Sn,Sb)" Nb3Sn0.05Sn0.95 Nb 3 Sn 0.05 Sn 0.95 1978 AB3 Cr3Si(A15) K 16.9 16.9 "High temperature superconductivity and instabilities: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131011 HPLT1978-1 "Tc(P) = 16.2, 16.17, 16.09 K for P = 0, 3.78, 10.5 kbar, respectively." "Nb3(Sn,Sb)" Nb3Sn0.1Sn0.9 Nb 3 Sn 0.1 Sn 0.9 1978 AB3 Cr3Si(A15) K 16.2 16.2 "High temperature superconductivity and instabilities: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131012 HPLT1978-1 "Tc(P) = 15.89 15.88 15.78 K for P = 0, 3.82 10.5 kbar, respectively." "Nb3(Sn,Sb)" Nb3Sn0.2Sn0.8 Nb 3 Sn 0.2 Sn 0.8 1978 AB3 Cr3Si(A15) K 15.89 15.89 "High temperature superconductivity and instabilities: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131013 HPLT1978-2 LaAg Ag1La1 Ag 1 La 1 1978 AB CsCl K 1.06 1.06 MTC131013 "LaAg under hydrostatic pressure, Superconductivity and phase transformation: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131014 HPLT1978-3 NdRh4B4 Nd1Rh4B4 Nd 1 Rh 4 B 4 1978 AB4C4 RT4B4 K 5.31 5.31 MTC131014 K/GPa -0.0565 "Pressure dependences of the superconducting and magnetic critical temperatures of ternary rhodium borides: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131015 HPLT1978-3 ThRh4B4 Th1Rh4B4 Th 1 Rh 4 B 4 1978 AB4C4 RT4B4 K 4.41 4.41 MTC131014 K/GPa -0.0654 "Pressure dependences of the superconducting and magnetic critical temperatures of ternary rhodium borides: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131016 HPLT1978-3 SmRh4B4 Sm1Rh4B4 Sm 1 Rh 4 B 4 1978 AB4C4 RT4B4 K 2.66 2.66 MTC131014 K/GPa -0.0506 "Pressure dependences of the superconducting and magnetic critical temperatures of ternary rhodium borides: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131017 HPLT1978-3 LuRh4B4 Lu1Rh4B4 Lu 1 Rh 4 B 4 1978 AB4C4 RT4B4 K 11.249 11.249 MTC131017 K/GPa 0.0714 "Pressure dependences of the superconducting and magnetic critical temperatures of ternary rhodium borides: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131018 HPLT1978-3 YRh4B4 Y1Rh4B4 Y 1 Rh 4 B 4 1978 AB4C4 RT4B4 K 10.591 10.591 MTC131017 K/GPa 0.056 "Pressure dependences of the superconducting and magnetic critical temperatures of ternary rhodium borides: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131019 HPLT1978-3 TmRh4B4 Tm1Rh4B4 Tm 1 Rh 4 B 4 1978 AB4C4 RT4B4 K 9.78 9.78 MTC131019 K/GPa 0.062 "Pressure dependences of the superconducting and magnetic critical temperatures of ternary rhodium borides: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131020 HPLT1978-3 ErRh4B4 Er1Rh4B4 Er 1 Rh 4 B 4 1978 AB4C4 RT4B4 K 8.55 8.55 MTC131019 K/GPa 0.0495 "Pressure dependences of the superconducting and magnetic critical temperatures of ternary rhodium borides: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131021 HPLT1978-3 "not SC. magnetic ordering temperature Tm, (dTm/dP) = 0.118 K/GPa" GdRh4B4 Gd1Rh4B4 Gd 1 Rh 4 B 4 1978 5.74 AB4C4 RT4B4 K 0 "Pressure dependences of the superconducting and magnetic critical temperatures of ternary rhodium borides: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131022 HPLT1978-3 "not SC. magnetic ordering temperature Tm, (dTm/dP) = 0.219 K/GPa" TbRh4B4 Tb1Rh4B4 Tb 1 Rh 4 B 4 1978 7.17 AB4C4 RT4B4 K 0 "Pressure dependences of the superconducting and magnetic critical temperatures of ternary rhodium borides: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131023 HPLT1978-3 "not SC. magnetic ordering temperature Tm, (dTm/dP) = 0.152 K/GPa" DyRh4B4 Dy1Rh4B4 Dy 1 Rh 4 B 4 1978 11.78 AB4C4 RT4B4 K 0 "Pressure dependences of the superconducting and magnetic critical temperatures of ternary rhodium borides: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131024 HPLT1978-3 "not SC. magnetic ordering temperature Tm, (dTm/dP) = 0.088 K/GPa" HoRh4B4 Ho1Rh4B4 Ho 1 Rh 4 B 4 1978 6.75 AB4C4 RT4B4 K 0 "Pressure dependences of the superconducting and magnetic critical temperatures of ternary rhodium borides: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131025 HPLT1978-4 AuGa2 Au1Ga2 Au 1 Ga 2 1978 AB2 CaF2 K 1.14 1.14 MHC131025 "The AuGa2 dilemma - superconducting version: High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131026 HPLT1978-5 "(V,Cr)75Ga25" Cr4.84Ga25V70.16 Cr 4.84 Ga 25 V 70.16 1978 AB3 Cr3Si(A15) K 12.14 12.14 MTC131026 "Pressure dependence of Tc in the superconducting A15 compounds V75-xTMxGa25 (TM = Cr, Mn, Fe, and Co): High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131027 HPLT1978-5 "(V,Cr)75Ga25" Cr34.9Ga25V40.1 Cr 34.9 Ga 25 V 40.1 1978 AB3 Cr3Si(A15) K 5.48 5.48 "Pressure dependence of Tc in the superconducting A15 compounds V75-xTMxGa25 (TM = Cr, Mn, Fe, and Co): High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131028 HPLT1978-5 "(V,Mn)75Ga25" Ga25Mn4.92V70.08 Ga 25 Mn 4.92 V 70.08 1978 AB3 Cr3Si(A15) K 10.1 10.1 MTC131028 "Pressure dependence of Tc in the superconducting A15 compounds V75-xTMxGa25 (TM = Cr, Mn, Fe, and Co): High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131029 HPLT1978-5 "(V,Mn)75Ga25" Ga25Mn14V61 Ga 25 Mn 14 V 61 1978 AB3 Cr3Si(A15) K 4.22 4.22 0.0595 "Pressure dependence of Tc in the superconducting A15 compounds V75-xTMxGa25 (TM = Cr, Mn, Fe, and Co): High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131030 HPLT1978-5 "(V,Fe)75Ga25" Fe4.97Ga25V70.03 Fe 4.97 Ga 25 V 70.03 1978 AB3 Cr3Si(A15) K 8.59 8.59 MTC131030 "Pressure dependence of Tc in the superconducting A15 compounds V75-xTMxGa25 (TM = Cr, Mn, Fe, and Co): High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131031 HPLT1978-5 "(V,Fe)75Ga25" Fe9.92Ga25V65.08 Fe 9.92 Ga 25 V 65.08 1978 AB3 Cr3Si(A15) K 4.65 4.65 "Pressure dependence of Tc in the superconducting A15 compounds V75-xTMxGa25 (TM = Cr, Mn, Fe, and Co): High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131032 HPLT1978-5 "(V,Co)75Ga25" Co4.95Ga25V70.05 Co 4.95 Ga 25 V 70.05 1978 AB3 Cr3Si(A15) K 7.56 7.56 MTC131032 0.0839 "Pressure dependence of Tc in the superconducting A15 compounds V75-xTMxGa25 (TM = Cr, Mn, Fe, and Co): High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131033 HPLT1978-5 "(V,Co)75Ga25" Co7.32Ga25V67.68 Co 7.32 Ga 25 V 67.68 1978 AB3 Cr3Si(A15) K 5.03 5.03 0.0604 "Pressure dependence of Tc in the superconducting A15 compounds V75-xTMxGa25 (TM = Cr, Mn, Fe, and Co): High-pressure and low temperature physics, P-359, Plenum Press ed by C.W.Chu & J.A.Woollam" 1978 Plenum Press (1978)
131034 PL-0230435 carrier n = 10.5E+20 /cc. GL parameter = 2.57. SnTe Sn1Te1 Sn 1 Te 1 1966 AB K 0.06 0.06 Oe 0.46 0.012 Oe 5.2 0.012 n/cm3 1.05E+21 Critical magnetic fields of superconducting SnTe 1966 "U.S.Naval Research Lab, Washington, D.C." "Phys.Lett., 23(1966)435"
131035 PL-0230435 carrier n = 12.5E+20 /cc SnTe Sn1Te1 Sn 1 Te 1 1966 AB K n/cm3 1.25E+21 Critical magnetic fields of superconducting SnTe 1966 "U.S.Naval Research Lab, Washington, D.C." "Phys.Lett., 23(1966)435"
131036 PL-0230435 carrier n = 16.5E+20 /cc SnTe Sn1Te1 Sn 1 Te 1 1966 AB K n/cm3 1.65E+21 Critical magnetic fields of superconducting SnTe 1966 "U.S.Naval Research Lab, Washington, D.C." "Phys.Lett., 23(1966)435"
131037 PL-0230435 carrier n = 20.0E+20 /cc SnTe Sn1Te1 Sn 1 Te 1 1966 AB K n/cm3 2.00E+21 Critical magnetic fields of superconducting SnTe 1966 "U.S.Naval Research Lab, Washington, D.C." "Phys.Lett., 23(1966)435"
131038 PLA0290590 Nb-doped SrTiO3. carrier n = 5.0 E+19/cc. Tc defined by ac-SUS. SrTiO3(Nb) Sr1Ti1O3 Sr 1 Ti 1 O 3 1969 ABC3 K 4 4 n/cm3 5.00E+19 Superconducting transition temperatures of Nb-doped SrTiO3 1969 "Phys.Lett.A, 29(1969)589"
131039 PLA0290590 Nb-doped SrTiO3. carrier n = 2.5 E+19/cc. Tc defined by ac-SUS. SrTiO3(Nb) Sr1Ti1O3 Sr 1 Ti 1 O 3 1969 ABC3 K 2.7 2.7 n/cm3 2.50E+19 Superconducting transition temperatures of Nb-doped SrTiO3 1969 "Phys.Lett.A, 29(1969)589"
131040 PRL0120320 p-type semiconductor. carrier from Hall effect. Tc defined by SUS. cubic to rhonbohedral transition at 400C. GeTe Ge0.937Te1 Ge 0.937 Te 1 1964 AB K 0.311 0.311 n/cm3 1.52E+21 press to pellet - SIN Superconductivity in Germanium telluride 1964 "Phys.Rev.Lett., 12(1964)320"
131041 PRL0120320 p-type semiconductor. carrier from Hall effect. Tc defined by SUS. cubic to rhonbohedral transition at 400C. GeTe Ge0.95Te1 Ge 0.95 Te 1 1964 AB K 0.246 0.246 n/cm3 1.17E+21 press to pellet - SIN Superconductivity in Germanium telluride 1964 "Phys.Rev.Lett., 12(1964)320"
131042 PRL0120320 p-type semiconductor. carrier from Hall effect. Tc defined by SUS. cubic to rhonbohedral transition at 400C. GeTe Ge0.963Te1 Ge 0.963 Te 1 1964 AB K 0.171 0.171 n/cm3 9.33E+20 press to pellet - SIN Superconductivity in Germanium telluride 1964 "Phys.Rev.Lett., 12(1964)320"
131043 PRL0120320 p-type semiconductor. carrier from Hall effect. Tc defined by SUS. cubic to rhonbohedral transition at 400C. GeTe Ge0.976Te1 Ge 0.976 Te 1 1964 AB K 0.071 0.071 n/cm3 8.61E+20 press to pellet - SIN Superconductivity in Germanium telluride 1964 "Phys.Rev.Lett., 12(1964)320"
131044 PRL0190784 uniaxial and hydrostatic pressure effect of Tc (see FIG) SrTiO3 Sr1Ti1O3 Sr 1 Ti 1 O 3 1967 ABC3 K 0.27 0.27 MTC131044 n/cm3 6.30E+19 Effect of stress on the superconductive transition temperature of strontium titanate 1967 "Phys.Rev.Lett., 19(1967)783"
131045 PRL0240053 rhombohedral distortion (RT) TlBiTe2 Tl1Bi1Te2 Tl 1 Bi 1 Te 2 1970 ABC NaCl K 0.141 0.141 Oe extrapolation 10 MHC131045 uOhm.cm 7.8 n/cm3 6.20E+20 Superconductivity in TlBiTe2: A low carrier density (III-V)VI2 compound 1970 "Phys.Rev.Lett., 24(1970)53"
131046 PRL0130233 SP-heat measured for T <0.9 K. GeTe Ge0.95Te1 Ge 0.95 Te 1 1964 AB K 0.246 0.246 MSP131046 mJ/mol.K2 1.32 SP-heat 166 SP-heat ANN(485C10d) Germanium telluride: Specific heat and superconductivity 1964 "Phys.Rev.Lett., 13(1964)233"
131047 PRL0240053 GeTe Ge1Te1 Ge 1 Te 1 1970 AB K 0.08 0.08 Oe 20 n/cm3 8.60E+20 ANN(485C10d) Superconductivity in TlBiTe2: A low carrier density (III-V)VI2 compound 1970 "Phys.Rev.Lett., 24(1970)53"
131048 PRL0240053 GL parameter = 6.1 GeTe Ge1Te1 Ge 1 Te 1 1970 AB K 0.172 0.172 Oe 130 n/cm3 9.30E+20 ANN(485C10d) Superconductivity in TlBiTe2: A low carrier density (III-V)VI2 compound 1970 "Phys.Rev.Lett., 24(1970)53"
131049 PRL0240053 GL parameter = 9.3 GeTe Ge1Te1 Ge 1 Te 1 1970 AB K 0.25 0.25 Oe 270 n/cm3 1.18E+21 ANN(485C10d) Superconductivity in TlBiTe2: A low carrier density (III-V)VI2 compound 1970 "Phys.Rev.Lett., 24(1970)53"
131050 PCS0340183 Mn-doped Sn0.87Ag0.10Te. Mn-concentration in ppm "(Sn,Ag,Mn)Te" Sn0.87Ag0.1Te1 Sn 0.87 Ag 0.1 Te 1 1973 K 1.78 1.78 MTC131050 SUPERCONDUCTIVITY AS A FUNCTION OF CARRIER DENSITY AND MAGNETIC SPIN CONCENTRATION IN THE SnTe-MnTe SYSTEM 1973 "J.Phys.Chem.Solids, 34(1973)183"
131051 PCS0340183 Mn-doped Sn0.90Ag0.07Te. Mn-concentration in ppm "(Sn,Ag,Mn)Te" Sn0.9Ag0.07Te1 Sn 0.9 Ag 0.07 Te 1 1973 K 1.73 1.73 MTC131051 SUPERCONDUCTIVITY AS A FUNCTION OF CARRIER DENSITY AND MAGNETIC SPIN CONCENTRATION IN THE SnTe-MnTe SYSTEM 1973 "J.Phys.Chem.Solids, 34(1973)183"
131052 PCS0340183 Mn-doped Sn0.92Ag0.05Te. Mn-concentration in ppm "(Sn,Ag,Mn)Te" Sn0.92Ag0.05Te1 Sn 0.92 Ag 0.05 Te 1 1973 K 1.66 1.66 MTC131052 SUPERCONDUCTIVITY AS A FUNCTION OF CARRIER DENSITY AND MAGNETIC SPIN CONCENTRATION IN THE SnTe-MnTe SYSTEM 1973 "J.Phys.Chem.Solids, 34(1973)183"
131053 LES0620197 Tc from ac-SUS. single phase AuGa Au0.499Ga0.501 Au 0.499 Ga 0.501 1978 K 1.17 1.17 Oe/K 106 MHC131053 "melt in evacuated quartz tube - ANN(400C,1w)" Superconducting properties of AuGa and AuGa2 compounds 1978 "Naval Research Lab, Washington, D.C. USA" "J.Less-Common Metals, 62(1978)197"
131054 LES0620197 Tc from ac-SUS. two phases(AuGa+AuGa2) AuGa Au0.427Ga0.573 Au 0.427 Ga 0.573 1978 K 1.378 1.378 Oe/K 123 MHC131054 "melt in evacuated quartz tube - ANN(400C,1w)" Superconducting properties of AuGa and AuGa2 compounds 1978 "Naval Research Lab, Washington, D.C. USA" "J.Less-Common Metals, 62(1978)197"
131055 LES0620197 Tc from ac-SUS. two phases(AuGa+AuGa2) AuGa2 Au0.388Ga0.612 Au 0.388 Ga 0.612 1978 K 1.355 1.355 Oe/K 112 "melt in evacuated quartz tube - ANN(400C,1w)" Superconducting properties of AuGa and AuGa2 compounds 1978 "Naval Research Lab, Washington, D.C. USA" "J.Less-Common Metals, 62(1978)197"
131056 LES0620197 Tc from ac-SUS. single phase (AuGa2) AuGa2 Au0.293Ga0.707 Au 0.293 Ga 0.707 1978 K 1.63 1.63 Oe/K 253 MHC131056 "melt in evacuated quartz tube - ANN(400C,1w)" Superconducting properties of AuGa and AuGa2 compounds 1978 "Naval Research Lab, Washington, D.C. USA" "J.Less-Common Metals, 62(1978)197"
131057 LES0620197 "(Au,Pd)Ga2" Au0.98Pd0.02Ga2 Au 0.98 Pd 0.02 Ga 2 1 1978 AB2 CaF2 K 1.51 1.51 Superconducting properties of AuGa and AuGa2 compounds 1978 "Naval Research Lab, Washington, D.C. USA" "J.Less-Common Metals, 62(1978)197"
131058 LES0620197 "(Au,Pd)Ga2" Au0.93Pd0.07Ga2 Au 0.93 Pd 0.07 Ga 2 1 1978 AB2 CaF2 K 1.773 1.773 Superconducting properties of AuGa and AuGa2 compounds 1978 "Naval Research Lab, Washington, D.C. USA" "J.Less-Common Metals, 62(1978)197"
131059 LES0620197 two phase "(Au,Pd)Ga2" Au0.85Pd0.15Ga2 Au 0.85 Pd 0.15 Ga 2 2 1978 AB2 CaF2 K 1.79 1.79 Superconducting properties of AuGa and AuGa2 compounds 1978 "Naval Research Lab, Washington, D.C. USA" "J.Less-Common Metals, 62(1978)197"
131060 SSC0190265 quenched from 1250 C. Tc(SP) = 13.5 K V3Ga Ga1V3 Ga 1 V 3 1976 AB3 Cr3Si(A15) K 13.8 13.8 mJ/gat.K2 19.9 SP-heat 310 SP-heat SPECIFIC HEAT AND MAGNETIC SUSCEPTIBILITY VS LONG RANGE ORDER IN V3Ga 1976 "Solid State Commun., 19(1976)265"
131061 SSC0190265 slow cooled from 610 C. Tc(SP) = 15.1 K V3Ga Ga1V3 Ga 1 V 3 1976 AB3 Cr3Si(A15) K 15.3 15.3 mJ/gat.K2 24 SP-heat 297 SP-heat SPECIFIC HEAT AND MAGNETIC SUSCEPTIBILITY VS LONG RANGE ORDER IN V3Ga 1976 "Solid State Commun., 19(1976)265"
131062 SSC0190265 annealed at 560 C. Tc(SP) = 2.87 K V3Au Au1V3 Au 1 V 3 1976 AB3 Cr3Si(A15) K 2.9 2.9 mJ/gat.K2 13.1 SP-heat 329 SP-heat SPECIFIC HEAT AND MAGNETIC SUSCEPTIBILITY VS LONG RANGE ORDER IN V3Ga 1976 "Solid State Commun., 19(1976)265"
131063 SSC0210239 "ANN(1750C,24h)" Nb3Os Nb3Os1 Nb 3 Os 1 1977 AB3 Cr3Si(A15) K 0.94 0.94 mJ/gat.K2 2.34 SP-heat 373 SP-heat X-Rey Photoemission spectra of valence electrons in V3x and Nb3x Compounds 1977 "Institute of Metal Physics, Ural Scientific Centre, Academy of Sciences of the USSR, Sverdlovsk, USSR" "Solid State Commun., 21(1977)239"
131064 SSC0210239 "ANN(1650C,16h)" Nb3Ir3 Ir1Nb3 Ir 1 Nb 3 1977 AB3 Cr3Si(A15) K 1.66 1.66 mJ/gat.K2 2.05 SP-heat 378 SP-heat X-Rey Photoemission spectra of valence electrons in V3x and Nb3x Compounds 1977 "Institute of Metal Physics, Ural Scientific Centre, Academy of Sciences of the USSR, Sverdlovsk, USSR" "Solid State Commun., 21(1977)239"
131065 SSC0210239 "ANN(1750C,24h)" Nb3Pt Nb3Pt1 Nb 3 Pt 1 1977 AB3 Cr3Si(A15) K 9.2 9.2 mJ/gat.K2 5.55 SP-heat 340 SP-heat X-Rey Photoemission spectra of valence electrons in V3x and Nb3x Compounds 1977 "Institute of Metal Physics, Ural Scientific Centre, Academy of Sciences of the USSR, Sverdlovsk, USSR" "Solid State Commun., 21(1977)239"
131066 SSC0210239 "ANN(1500C,48h + 1200C,48h). Nb0.76Au0.24" Nb3Au Au1Nb3 Au 1 Nb 3 1977 AB3 Cr3Si(A15) K 10.56 10.56 mJ/gat.K2 9 SP-heat 251 SP-heat X-Rey Photoemission spectra of valence electrons in V3x and Nb3x Compounds 1977 "Institute of Metal Physics, Ural Scientific Centre, Academy of Sciences of the USSR, Sverdlovsk, USSR" "Solid State Commun., 21(1977)239"
131067 SSC0210239 stage annealing between 1100 C and 500C). V0.76Au0.24 V3Au Au1V3 Au 1 V 3 1977 AB3 Cr3Si(A15) K 2.97 2.97 mJ/gat.K2 13.08 SP-heat 329 SP-heat X-Rey Photoemission spectra of valence electrons in V3x and Nb3x Compounds 1977 "Institute of Metal Physics, Ural Scientific Centre, Academy of Sciences of the USSR, Sverdlovsk, USSR" "Solid State Commun., 21(1977)239"
131068 SSC0110061 "single phase. ANN(1600C,70h)" "(Mo,Pt)" Mo0.81Pt0.19 Mo 0.81 Pt 0.19 1972 A 4.989 A15 phase K 4.53 4.53 mJ/gat.K2 3.86 SP-heat 390 SP-heat IDENTIFICATION OF THE SUPERCONDUCTING PHASES IN THE MOLYBDENUM-PLATINUM SYSTEM 1972 "Solid State Commun., 11(1972)61"
131069 SSC0030097 Tc by self-induction method ZrMo2 Mo2Zr1 Mo 2 Zr 1 1965 AB2 MgCu2(Laves) "MgCu2, C15" K 4.27 4.57 4.75 4.57 arc-melting "SUPERCONDUCTING TRANSITION TEMPERATURES OF ZrMo2, HfV2 AND PbAu2" 1965 "Solid State Commun., 3(1965)97"
131070 SSC0030097 Tc by self-induction method HfV2 Hf1V2 Hf 1 V 2 1965 AB2 MgCu2(Laves) "MgCu2, C15" K 8.9 9.15 9.57 9.15 arc-melting "SUPERCONDUCTING TRANSITION TEMPERATURES OF ZrMo2, HfV2 AND PbAu2" 1965 "Solid State Commun., 3(1965)97"
131071 SSC0030097 Tc by self-induction method PbAu2 Au2Pb1 Au 2 Pb 1 1965 AB2 MgCu2(Laves) "MgCu2, C15" K 5.98 6.95 7.12 6.95 arc-melting "SUPERCONDUCTING TRANSITION TEMPERATURES OF ZrMo2, HfV2 AND PbAu2" 1965 "Solid State Commun., 3(1965)97"
131072 SSC0180139 "(Au,Ga)" Au0.9Ga0.1 Au 0.9 Ga 0.1 1976 fcc K 0.264 0.264 MTC131072 "Superconductivity in alpha-phase alloys of Cu, Ag and Au" 1976 "Solid State Commun., 18(1976)139"
131073 SSC0180139 "(Au,Ga)" Au0.95Ga0.05 Au 0.95 Ga 0.05 1976 fcc K 0.032 0.032 "Superconductivity in alpha-phase alloys of Cu, Ag and Au" 1976 "Solid State Commun., 18(1976)139"
131074 SSC0180139 "(Au,Al)" Al0.14Au0.86 Al 0.14 Au 0.86 1976 fcc K 0.385 0.385 MTC131074 "Superconductivity in alpha-phase alloys of Cu, Ag and Au" 1976 "Solid State Commun., 18(1976)139"
131075 SSC0180139 "(Au,Al)" Al0.05Au0.95 Al 0.05 Au 0.95 1976 fcc K 0.0138 0.0138 "Superconductivity in alpha-phase alloys of Cu, Ag and Au" 1976 "Solid State Commun., 18(1976)139"
131076 SSC0180139 "(Au,Sn)" Au0.95Sn0.05 Au 0.95 Sn 0.05 1976 fcc K 0.047 0.047 "Superconductivity in alpha-phase alloys of Cu, Ag and Au" 1976 "Solid State Commun., 18(1976)139"
131077 SSC0180139 "(Ag,Ga)" Ag0.828Ga0.172 Ag 0.828 Ga 0.172 1976 fcc K 0.116 0.116 MTC131077 "Superconductivity in alpha-phase alloys of Cu, Ag and Au" 1976 "Solid State Commun., 18(1976)139"
131078 SSC0180139 "(Ag,Ga)" Ag0.875Ga0.125 Ag 0.875 Ga 0.125 1976 fcc K 0.019 0.019 "Superconductivity in alpha-phase alloys of Cu, Ag and Au" 1976 "Solid State Commun., 18(1976)139"
131079 SSC0180139 "(Ag,In)" Ag0.81In0.19 Ag 0.81 In 0.19 1976 fcc K 0.0074 0.0074 "Superconductivity in alpha-phase alloys of Cu, Ag and Au" 1976 "Solid State Commun., 18(1976)139"
131080 SSC0180139 "(Ag,Zn)" Ag0.7Zn0.3 Ag 0.7 Zn 0.3 1976 fcc K 0.0125 0.0125 "Superconductivity in alpha-phase alloys of Cu, Ag and Au" 1976 "Solid State Commun., 18(1976)139"
131081 SSC0180139 "(Cu,Ga)" Cu0.81Ga0.19 Cu 0.81 Ga 0.19 1976 fcc K 0.048 0.048 MTC131081 "Superconductivity in alpha-phase alloys of Cu, Ag and Au" 1976 "Solid State Commun., 18(1976)139"
131082 SSC0180139 "(Au,In)" Au0.9In0.1 Au 0.9 In 0.1 1976 fcc K 0.0625 0.0625 MTC131082 "Superconductivity in alpha-phase alloys of Cu, Ag and Au" 1976 "Solid State Commun., 18(1976)139"
131083 PRL0281127 Tc defined as midpoint of inductance change. Tc measured upto 8 kbar AuGa2 Au1Ga2 Au 1 Ga 2 1972 AB2 CaF2 K 1.15 1.15 K/GPa 0.3 Pressure-induced electron transition in AuGa2 1972 "Phys.Rev.Lett., 28(1972)1127"
131084 LES0460339 CuY Cu1Y1 Cu 1 Y 1 1976 CsCl K 0.47 0.47 Obstacles to superconductivity in CsCl phases 1976 "J.Less-Common Met., 46(1976)339"
131085 LES0460339 AuSc Au1Sc1 Au 1 Sc 1 1976 CsCl K 2 2 Obstacles to superconductivity in CsCl phases 1976 "J.Less-Common Met., 46(1976)339"
131086 LES0460339 AuLu Au1Lu1 Au 1 Lu 1 1976 CsCl K 0.37 0.37 Obstacles to superconductivity in CsCl phases 1976 "J.Less-Common Met., 46(1976)339"
131087 LES0460339 ScAlAu2 Al1Sc1Au2 Al 1 Sc 1 Au 2 1976 CsCl K 4.4 4.4 Obstacles to superconductivity in CsCl phases 1976 "J.Less-Common Met., 46(1976)339"
131088 LES0460339 ScInAu2 In1Sc1Au2 In 1 Sc 1 Au 2 1976 CsCl K 3.02 3.02 Obstacles to superconductivity in CsCl phases 1976 "J.Less-Common Met., 46(1976)339"
131089 LES0460339 YInAu2 In1Y1Au2 In 1 Y 1 Au 2 1976 CsCl K 1.9 1.9 Obstacles to superconductivity in CsCl phases 1976 "J.Less-Common Met., 46(1976)339"
131090 LES0620183 "(Au,Al)" Al0.08Au0.92 Al 0.08 Au 0.92 1978 K 0.0751 0.088 0.0934 0.088 "ELASTIC STRAIN ENERGY DEPENDENCE OF Tc, IN TERNARY GOLDBASED SOLID SOLUTIONS" 1978 "J.Less-Common Met., 62(1978)183"
131091 LES0620183 "(Au,Al,In)" Al0.07Au0.92In0.01 Al 0.07 Au 0.92 In 0.01 1978 K 0.0653 0.0763 0.0833 0.0763 "ELASTIC STRAIN ENERGY DEPENDENCE OF Tc, IN TERNARY GOLDBASED SOLID SOLUTIONS" 1978 "J.Less-Common Met., 62(1978)183"
131092 LES0620183 "(Au,Al,In)" Al0.06Au0.92In0.02 Al 0.06 Au 0.92 In 0.02 1978 K 0.0526 0.0619 0.0676 0.0619 "ELASTIC STRAIN ENERGY DEPENDENCE OF Tc, IN TERNARY GOLDBASED SOLID SOLUTIONS" 1978 "J.Less-Common Met., 62(1978)183"
131093 LES0620183 "(Au,Al,In)" Al0.0563Au0.92In0.0237 Al 0.0563 Au 0.92 In 0.0237 1978 K 0.051 0.0609 0.0655 0.0609 "ELASTIC STRAIN ENERGY DEPENDENCE OF Tc, IN TERNARY GOLDBASED SOLID SOLUTIONS" 1978 "J.Less-Common Met., 62(1978)183"
131094 LES0620183 "(Au,Al,In)" Al0.05Au0.92In0.03 Al 0.05 Au 0.92 In 0.03 1978 K 0.0552 0.0672 0.0741 0.0672 "ELASTIC STRAIN ENERGY DEPENDENCE OF Tc, IN TERNARY GOLDBASED SOLID SOLUTIONS" 1978 "J.Less-Common Met., 62(1978)183"
131095 LES0620183 "(Au,Al,In)" Al0.04Au0.92In0.04 Al 0.04 Au 0.92 In 0.04 1978 K 0.0321 0.0555 0.0615 0.0555 "ELASTIC STRAIN ENERGY DEPENDENCE OF Tc, IN TERNARY GOLDBASED SOLID SOLUTIONS" 1978 "J.Less-Common Met., 62(1978)183"
131096 LES0620183 "(Au,Al,In)" Al0.03Au0.92In0.05 Al 0.03 Au 0.92 In 0.05 1978 K 0.034 0.045 0.05 0.045 "ELASTIC STRAIN ENERGY DEPENDENCE OF Tc, IN TERNARY GOLDBASED SOLID SOLUTIONS" 1978 "J.Less-Common Met., 62(1978)183"
131097 LES0620183 "(Au,Al,In)" Al0.02Au0.92In0.06 Al 0.02 Au 0.92 In 0.06 1978 K 0.0289 0.034 0.038 0.034 "ELASTIC STRAIN ENERGY DEPENDENCE OF Tc, IN TERNARY GOLDBASED SOLID SOLUTIONS" 1978 "J.Less-Common Met., 62(1978)183"
131098 LES0620183 "(Au,Al,In)" Al0.01Au0.92In0.07 Al 0.01 Au 0.92 In 0.07 1978 K 0.0215 0.0278 0.03 0.0278 "ELASTIC STRAIN ENERGY DEPENDENCE OF Tc, IN TERNARY GOLDBASED SOLID SOLUTIONS" 1978 "J.Less-Common Met., 62(1978)183"
131099 LES0620183 "(Au,In)" Au0.92In0.08 Au 0.92 In 0.08 1978 K 0.0151 0.022 0.025 0.022 "ELASTIC STRAIN ENERGY DEPENDENCE OF Tc, IN TERNARY GOLDBASED SOLID SOLUTIONS" 1978 "J.Less-Common Met., 62(1978)183"
131100 LES0620183 "(Au,Ga)" Au0.92Ga0.08 Au 0.92 Ga 0.08 1978 K 0.144 0.168 0.172 0.168 "ELASTIC STRAIN ENERGY DEPENDENCE OF Tc, IN TERNARY GOLDBASED SOLID SOLUTIONS" 1978 "J.Less-Common Met., 62(1978)183"
131101 LES0620183 "(Au,Ga,In)" Au0.92Ga0.068In0.012 Au 0.92 Ga 0.068 In 0.012 1978 K 0.129 0.137 0.139 0.137 "ELASTIC STRAIN ENERGY DEPENDENCE OF Tc, IN TERNARY GOLDBASED SOLID SOLUTIONS" 1978 "J.Less-Common Met., 62(1978)183"
131102 LES0620183 "(Au,Ga,In)" Au0.92Ga0.06In0.02 Au 0.92 Ga 0.06 In 0.02 1978 K 0.11 0.13 0.136 0.13 "ELASTIC STRAIN ENERGY DEPENDENCE OF Tc, IN TERNARY GOLDBASED SOLID SOLUTIONS" 1978 "J.Less-Common Met., 62(1978)183"
131103 LES0620183 "(Au,Ga,In)" Au0.92Ga0.04In0.04 Au 0.92 Ga 0.04 In 0.04 1978 K 0.0613 0.0682 0.0782 0.0682 "ELASTIC STRAIN ENERGY DEPENDENCE OF Tc, IN TERNARY GOLDBASED SOLID SOLUTIONS" 1978 "J.Less-Common Met., 62(1978)183"
131104 LES0620183 "(Au,Ga,In)" Au0.92Ga0.02In0.06 Au 0.92 Ga 0.02 In 0.06 1978 K 0.034 0.0425 0.05 0.0425 "ELASTIC STRAIN ENERGY DEPENDENCE OF Tc, IN TERNARY GOLDBASED SOLID SOLUTIONS" 1978 "J.Less-Common Met., 62(1978)183"
131105 LES0620183 "(Au,Ga,Al)" Al0.02Au0.92Ga0.06 Al 0.02 Au 0.92 Ga 0.06 1978 K 0.15 0.158 0.163 0.158 "ELASTIC STRAIN ENERGY DEPENDENCE OF Tc, IN TERNARY GOLDBASED SOLID SOLUTIONS" 1978 "J.Less-Common Met., 62(1978)183"
131106 LES0620183 "(Au,Ga,Al)" Al0.04Au0.92Ga0.04 Al 0.04 Au 0.92 Ga 0.04 1978 K 0.0901 0.101 0.108 0.101 "ELASTIC STRAIN ENERGY DEPENDENCE OF Tc, IN TERNARY GOLDBASED SOLID SOLUTIONS" 1978 "J.Less-Common Met., 62(1978)183"
131107 LES0620183 "(Au,Ga,Al)" Al0.06Au0.92Ga0.02 Al 0.06 Au 0.92 Ga 0.02 1978 K 0.0846 0.09 0.0972 0.09 "ELASTIC STRAIN ENERGY DEPENDENCE OF Tc, IN TERNARY GOLDBASED SOLID SOLUTIONS" 1978 "J.Less-Common Met., 62(1978)183"
131108 SSC0710369 P-induced SC. small chips cut from GaAs-wafer. P=20 GPa (GaAs-II) GaAs As1Ga1 As 1 Ga 1 1989 AB K 4.5 0 4.5 Metallic properties of orthorhombic high pressure phase of GaAs: Theory and Experiment 1989 "Solid State Commun., 71(1989)369"
131109 JPS0613845 ErPb2 Er1Pb2 Er 1 Pb 2 1992 myu-B/Er 9.5 -7.7 3.5 AB2 K 7.4 7.4 25 arc-melting Coexistence of superconductivity and antiferromagnetic ordering in ErPb2 1992 "J.Phys.Soc.Jpn, 61(1992)3845"
131110 JPS0351257 purity: 5N. Debye-T = 271 K at 4 K.. (Ces/[gamma]*Tc) = 2.0 CuS Cu1S1 Cu 1 S 1 1973 AB K 1.65 1.65 Oe/K 130 mJ/mol.K2 2.5 285 Specific heats of superconductive copper sulfide CuS 1973 "J.Phys.Soc.Jpn, 35(1973)1257"
131111 JPS0351257 impurity: 0.085 at% Ag. (Ces/[gamma]*Tc) = 2.0 CuS Cu1S1 Cu 1 S 1 1973 AB K 1.52 1.52 mJ/mol.K2 2.5 Specific heats of superconductive copper sulfide CuS 1973 "J.Phys.Soc.Jpn, 35(1973)1257"
131112 JPS0540877 LaCu6 Cu6La1 Cu 6 La 1 3 1985 AB6 K 0.042 0.042 mJ/mol.K2 8 230 Czochralski method Low twmperature magnetic resistivity in a dense Kondo substance: CexLa1-xCu6 1985 "J.Phys.Soc.Jpn, 54(1985)877"
131113 SSC0720279 RRR = 19 ThCu6 Cu6Th1 Cu 6 Th 1 1989 AB6 A 8.107 5.078 10.104 K 0.2 0.2 80 uOhm.cm 139 "arc-melting - ANN(750C,4d, in vac)" "Low temperature electrical and magnetic properties of RCu6(R = La,Ce,Pr,Nd,Sm,Gd, and Th) compounds" 1989 "Solid State Commun., 72(1989)279"
131114 SSC0720279 RRR = 31. ortho-to-monoclinic transformation at 500K. LaCu6 Cu6La1 Cu 6 La 1 1989 AB6 A 8.117 5.113 10.194 K 0.06 uOhm.cm 30 "arc-melting - ANN(750C,4d, in vac)" "Low temperature electrical and magnetic properties of RCu6(R = La,Ce,Pr,Nd,Sm,Gd, and Th) compounds" 1989 "Solid State Commun., 72(1989)279"
131115 SSC0720279 RRR = 80. ortho-to-monoclinic transformation at 200K. CeCu6 Ce1Cu6 Ce 1 Cu 6 1989 myu-B/Ce 2.67 -47.2 AB6 A 8.101 5.097 10.171 K 0.06 uOhm.cm 80 "arc-melting - ANN(750C,4d, in vac)" "Low temperature electrical and magnetic properties of RCu6(R = La,Ce,Pr,Nd,Sm,Gd, and Th) compounds" 1989 "Solid State Commun., 72(1989)279"
131116 SSC0200233 Tc by mutual inductance. (dTc/dx) = -200 K/at%-Mn. "(Cd,Mn)" Cd99.995Mn0.005 Cd 99.995 Mn 0.005 1976 K 0.39 0.39 Cd(6N) used Superconductivity and magnetism in dilute CdMn alloys. Strong depression in Tc 1976 "Solid State Commun., 20(1976)233"
131117 NAT3550529 "ANN(600C,15h). Tc by dc-magnetization" Ca5C60 C60Ca5 C 60 Ca 5 1992 simple cubic K 8.4 8.4 Superconductivity at 8.4K in calcium-doped C60 1992 "AT&T Bell Lab, New Jersey,USA" "Nature, 355(1992)529"
131118 SSC0910345 0.20 mm-dia-wire. Tc by resistivity. RRR = 4.37. "(Cu,Nb)" Cu0.7Nb0.3 Cu 0.7 Nb 0.3 1994 K 9.39 0.34 9.39 uOhm.cm 1.66 arc-melting Influence of Indium and Tantalum as an impurity on the normal and superconducting state properties of in situ prepared Cu-Nb composite wires 1994 "Solid State Commun., 91(1994)345"
131119 SSC0910345 0.20 mm-dia-wire. Tc by resistivity. RRR = 2.23. "(Cu,Nb,In)" Cu0.7In0.01Nb0.29 Cu 0.7 In 0.01 Nb 0.29 1994 K 9.04 0.24 9.04 uOhm.cm 3.4 arc-melting Influence of Indium and Tantalum as an impurity on the normal and superconducting state properties of in situ prepared Cu-Nb composite wires 1994 "Solid State Commun., 91(1994)345"
131120 SSC0910345 0.20 mm-dia-wire. Tc by resistivity. RRR = 2.51. "(Cu,Nb,Ta)" Cu0.7Nb0.29Ta0.01 Cu 0.7 Nb 0.29 Ta 0.01 1994 K 9.25 0.12 9.25 uOhm.cm 1.79 arc-melting Influence of Indium and Tantalum as an impurity on the normal and superconducting state properties of in situ prepared Cu-Nb composite wires 1994 "Solid State Commun., 91(1994)345"
131121 SSC0710369 P-induced SC. small chips cut from GaAs-wafer. P=40.8 GPa (GaAs-III) GaAs As1Ga1 As 1 Ga 1 1989 AB K 3 0 3 Metallic properties of orthorhombic high pressure phase of GaAs: Theory and Experiment 1989 "Solid State Commun., 71(1989)369"
131122 PHB1941727 break junction of Zn and UBe13. UBe13 Be13U1 Be 13 U 1 1994 AB13 NaZn13 K 0.88 0.88 meV 0.145 4.21 1 "arc-melting - ANN(1000C,2w,in inert gas)" The superconducting energy gap of bulk UBe13 1994 "Physica B, 194-196(1994)1727"
131123 PRL0501595 UBe13 Be13U1 Be 13 U 1 3 1988 myu-B/U 2.6 -53 AB13 NaZn13 A 10.2607 K 0.86 0.85 0.85 T/K 25.7 mJ/mol.K2 1100 SP-heat "arc-melting - heat(1400C,in Al-flux) - slow cool" UBe13: An unconventional actinide superconductor 1988 "Phys. Rev.Lett., 50(1983)1595"
131124 SSC0480005 0 < Tc < 2.8 K: depends on preparation procedure. [ Curie-T] shows ferromagnetic one. Y4Co3 Co3Y4 Co 3 Y 4 1 1983 7 A3B4 Ho4Co3 K 2.5 2.5 "arc-melting - ANN(450-550 C,200h)" NMR study of Y4Co3 compound 1983 "Solid State Commun., 48(1983)5"
131125 SSC0550193 muon-SR measurements. Y9Co7 Co7Y9 Co 7 Y 9 1985 6 A7B9 K 2.7 2.7 Study of the hybrid state of Y9Co7(2.0 = = 0.9 GPa. Kondo-T = 18 K(P=0)." "(Y,Ce)" Ce0.01Y0.99 Ce 0.01 Y 0.99 1971 K 1.6 0 1.6 Low temperature electrical resistiity of YCe under pressure 1971 "Solid State Commun., 9(1971)1611"
131127 PRL0652816 Hc1(0) extrapolated using T^2 approx. UBe13 Be13U1 Be 13 U 1 1990 AB13 NaZn13 K 0.86 0.86 Oe M-H curve 43.2 MHC131127 "New phase diagram for (U,Th)Be13: A muon-spin-resonance and Hc1 study" 1990 Los Alamos National Lab "Phys.Rev.Lett., 65(1990)2816"
131128 PRL0652816 Hc1(0) extrapolated using T^2 approx. "(U,Th)Be13" Be13U0.9934Th0.0066 Be 13 U 0.9934 Th 0.0066 1990 AB13 NaZn13 K 0.67 0.67 Oe M-H curve 32.7 "New phase diagram for (U,Th)Be13: A muon-spin-resonance and Hc1 study" 1990 Los Alamos National Lab "Phys.Rev.Lett., 65(1990)2816"
131129 PRL0652816 Hc1(0) extrapolated using T^2 approx. "(U,Th)Be13" Be13U0.9899Th0.0101 Be 13 U 0.9899 Th 0.0101 1990 AB13 NaZn13 K 0.65 0.65 Oe M-H curve 26.4 "New phase diagram for (U,Th)Be13: A muon-spin-resonance and Hc1 study" 1990 Los Alamos National Lab "Phys.Rev.Lett., 65(1990)2816"
131130 PRL0652816 Hc1(0) extrapolated using T^2 approx. 2nd (lower Tc = 0.44 K) appears. Hc1(0) = 37.9 Oe. "(U,Th)Be13" Be13U0.9807Th0.0193 Be 13 U 0.9807 Th 0.0193 1990 AB13 NaZn13 K 0.48 0.48 Oe M-H curve 22.8 "New phase diagram for (U,Th)Be13: A muon-spin-resonance and Hc1 study" 1990 Los Alamos National Lab "Phys.Rev.Lett., 65(1990)2816"
131131 PRL0652816 Hc1(0) extrapolated using T^2 approx. 2nd (lower Tc = 0.41 K) appears. Hc1(0) = 49.1 Oe. "(U,Th)Be13" Be13U0.9755Th0.0245 Be 13 U 0.9755 Th 0.0245 1990 AB13 NaZn13 K 0.59 0.59 MTC131131 Oe M-H curve 28.9 "New phase diagram for (U,Th)Be13: A muon-spin-resonance and Hc1 study" 1990 Los Alamos National Lab "Phys.Rev.Lett., 65(1990)2816"
131132 PRL0652816 Hc1(0) extrapolated using T^2 approx. 2nd (lower Tc = 0.39 K) appears. Hc1(0) = 55.9 Oe. "(U,Th)Be13" Be13U0.9645Th0.0355 Be 13 U 0.9645 Th 0.0355 1990 AB13 NaZn13 K 0.55 0.55 Oe M-H curve 35.3 MHC131132 "New phase diagram for (U,Th)Be13: A muon-spin-resonance and Hc1 study" 1990 Los Alamos National Lab "Phys.Rev.Lett., 65(1990)2816"
131133 SSC0280153 33.3at%Bi-In. decompose (In5Bi3 + In-rich phase) for P>20 kbar. In2Bi Bi1In2 Bi 1 In 2 1978 AB2 K 5.766 5.766 MTC131133 "In(5N),Bi(5N)" melt in Pyrex tube (vac) PRESSURE-INDUCED PHASE TRANSFORMATION IN In2Bi 1978 "Department of Physics, Monash University, Clayton, Victoria 3168, Australia" "Solid State Commun., 28(1978)153"
131134 SSC0280153 In5Bi3 Bi3In5 Bi 3 In 5 1978 A3B5 K 4.227 4.227 MTC131134 K/GPa -0.49 "In(5N),Bi(5N)" melt in Pyrex tube (vac) PRESSURE-INDUCED PHASE TRANSFORMATION IN In2Bi 1978 "Department of Physics, Monash University, Clayton, Victoria 3168, Australia" "Solid State Commun., 28(1978)153"
131135 SSC0520659 YB6 B6Y6 B 6 Y 6 3 1984 AB6 CaB6 K 7.5 7.5 meV 1.22 3.8 Electron tunneling into superconducting YB6 1984 "Tohoku University, Sendai" "Solid State Commun., 52(1984)659"
131136 SSC0070381 Cr3Ir Cr3Ir1 Cr 3 Ir 1 1969 AB3 Cr3Si(A15) K 0.15 0.15 T/K 1.053 Superconducting behavior of A15 compounds 1969 "Naval Research Laboratory, Washington, D.C." "Solid State Commun., 7(1969)381"
131137 SSC0070381 Cr3Rh Cr3Rh1 Cr 3 Rh 1 1969 AB3 Cr3Si(A15) K 0.07 0.07 T/K 0.909 Superconducting behavior of A15 compounds 1969 "Naval Research Laboratory, Washington, D.C." "Solid State Commun., 7(1969)381"
131138 SSC0070381 Nb3Os Nb3Os1 Nb 3 Os 1 1969 AB3 Cr3Si(A15) K 0.94 0.94 T/K 0.126 Superconducting behavior of A15 compounds 1969 "Naval Research Laboratory, Washington, D.C." "Solid State Commun., 7(1969)381"
131139 SSC0070381 V3Pd Pd1V3 Pd 1 V 3 1969 AB3 Cr3Si(A15) K 0.08 0.08 Superconducting behavior of A15 compounds 1969 "Naval Research Laboratory, Washington, D.C." "Solid State Commun., 7(1969)381"
131140 SSC0500189 liquid quenching onsubstrates (Ts=RT) alpha-Zr Zr1 Zr 1 1984 alpha-phase K 0.52 0.52 "melt in arc-furnace, liquid quench on RT-substrates" Superconductivity of the allotropic forms of zirconium-based alloys obtained by liquid quenching on hot substrates 1984 "Department of Physics, University of Virginia, Charlottesvdle, VA 22901, U S A" "Solid State Commun., 50(1984)189"
131141 SSC0500189 liquid quenching onsubstrates (Ts=RT) omega-Zr Zr1 Zr 1 1984 omega-phase K 0.92 0.92 "melt in arc-furnace, liquid quench on RT-substrates" Superconductivity of the allotropic forms of zirconium-based alloys obtained by liquid quenching on hot substrates 1984 "Department of Physics, University of Virginia, Charlottesvdle, VA 22901, U S A" "Solid State Commun., 50(1984)189"
131142 SSC0500189 liquid quenching onsubstrates (Ts=RT) Zr1-xMox Zr0.8Mo0.2 Zr 0.8 Mo 0.2 1984 beta-phase K 5.18 5.18 MTC131142 "melt in arc-furnace, liquid quench on RT-substrates" Superconductivity of the allotropic forms of zirconium-based alloys obtained by liquid quenching on hot substrates 1984 "Department of Physics, University of Virginia, Charlottesvdle, VA 22901, U S A" "Solid State Commun., 50(1984)189"
131143 SSC0500189 liquid quenching onsubstrates (Ts=RT) Zr1-xAlx Zr0.8Mo0.2 Zr 0.8 Mo 0.2 1984 beta-phase K 4.1 4.1 MTC131142 "melt in arc-furnace, liquid quench on RT-substrates" Superconductivity of the allotropic forms of zirconium-based alloys obtained by liquid quenching on hot substrates 1984 "Department of Physics, University of Virginia, Charlottesvdle, VA 22901, U S A" "Solid State Commun., 50(1984)189"
131144 SSC0500189 liquid quenching onsubstrates (Ts=RT) Zr1-xPdx Zr0.9Mo0.1 Zr 0.9 Mo 0.1 1984 beta-phase K 4.92 4.92 MTC131144 "melt in arc-furnace, liquid quench on RT-substrates" Superconductivity of the allotropic forms of zirconium-based alloys obtained by liquid quenching on hot substrates 1984 "Department of Physics, University of Virginia, Charlottesvdle, VA 22901, U S A" "Solid State Commun., 50(1984)189"
131145 SSC0500189 liquid quenching onsubstrates (Ts=RT) Zr1-xGex Zr0.9Mo0.1 Zr 0.9 Mo 0.1 1984 beta-phase K 3.68 3.68 MTC131144 "melt in arc-furnace, liquid quench on RT-substrates" Superconductivity of the allotropic forms of zirconium-based alloys obtained by liquid quenching on hot substrates 1984 "Department of Physics, University of Virginia, Charlottesvdle, VA 22901, U S A" "Solid State Commun., 50(1984)189"
131146 SSC0500189 amorphous. liquid quenching onsubstrates (Ts=RT) a-Zr Zr1 Zr 1 1984 AMOR K 3.5 3.5 "melt in arc-furnace, liquid quench on RT-substrates" Superconductivity of the allotropic forms of zirconium-based alloys obtained by liquid quenching on hot substrates 1984 "Department of Physics, University of Virginia, Charlottesvdle, VA 22901, U S A" "Solid State Commun., 50(1984)189"
131147 SSC0500189 amorphous. liquid quenching onsubstrates (Ts=RT) "a-(Zr,Ge)" Zr0.87Ge0.13 Zr 0.87 Ge 0.13 1984 AMOR K 2.94 2.94 MTC131148 "melt in arc-furnace, liquid quench on RT-substrates" Superconductivity of the allotropic forms of zirconium-based alloys obtained by liquid quenching on hot substrates 1984 "Department of Physics, University of Virginia, Charlottesvdle, VA 22901, U S A" "Solid State Commun., 50(1984)189"
131148 SSC0500189 amorphous. liquid quenching onsubstrates (Ts=RT) "a-(Zr,Pd)" Zr0.75Pd0.25 Zr 0.75 Pd 0.25 1984 AMOR K 3 3 MTC131148 "melt in arc-furnace, liquid quench on RT-substrates" Superconductivity of the allotropic forms of zirconium-based alloys obtained by liquid quenching on hot substrates 1984 "Department of Physics, University of Virginia, Charlottesvdle, VA 22901, U S A" "Solid State Commun., 50(1984)189"
131149 SSC0500189 amorphous. liquid quenching onsubstrates (Ts=RT) "a-(Zr,Ni)" Zr0.8Ni0.2 Zr 0.8 Ni 0.2 1984 AMOR K 3.59 3.59 MTC131148 "melt in arc-furnace, liquid quench on RT-substrates" Superconductivity of the allotropic forms of zirconium-based alloys obtained by liquid quenching on hot substrates 1984 "Department of Physics, University of Virginia, Charlottesvdle, VA 22901, U S A" "Solid State Commun., 50(1984)189"
131150 PRB0302542 martensitic phase transformation . fraction of rhombo-phase determined to be 0.58 from SP. Tc shows for rhombo-phase. V2Zr V2Zr1 V 2 Zr 1 1984 AB2 MgCu2(Laves) "MgCu2, C15" K 8 8 mJ/mol.K2 18.9 SP-heat 189 SP-heat "Phase instability, spin fluctuations, and superconductivity in the C15 compound V2Zr" 1984 "Department of Applied Physics and Information Science, University of California, San Diego, La Jolla, Catif. 92093 (U.S.A.)" "Phys.Rev.B, 30(1984)2542"
131151 PRB0302542 martensitic phase transformation . fraction of rhombo-phase determined to be 0.80 from SP. Tc shows for rhombo-phase. V2Zr V2Zr1 V 2 Zr 1 1984 AB2 MgCu2(Laves) "MgCu2, C15" K 8 8 mJ/mol.K2 17.8 SP-heat 195 SP-heat "Phase instability, spin fluctuations, and superconductivity in the C15 compound V2Zr" 1984 "Department of Applied Physics and Information Science, University of California, San Diego, La Jolla, Catif. 92093 (U.S.A.)" "Phys.Rev.B, 30(1984)2542"
131152 PRB0302542 martensitic phase transformation . fraction of rhombo-phase determined to be 0.96 from SP. Tc shows for rhombo-phase. V2Zr V2Zr1 V 2 Zr 1 1984 AB2 MgCu2(Laves) "MgCu2, C15" K 7.7 7.7 mJ/mol.K2 16.2 SP-heat 203 SP-heat "Phase instability, spin fluctuations, and superconductivity in the C15 compound V2Zr" 1984 "Department of Applied Physics and Information Science, University of California, San Diego, La Jolla, Catif. 92093 (U.S.A.)" "Phys.Rev.B, 30(1984)2542"
131153 PRB0302542 martensitic phase transformation . fraction of rhombo-phase determined to be 0.90 from SP. Tc shows for rhombo-phase. V2Zr V2Zr1 V 2 Zr 1 1984 AB2 MgCu2(Laves) "MgCu2, C15" K 8 8 mJ/mol.K2 17 SP-heat 195 SP-heat "Phase instability, spin fluctuations, and superconductivity in the C15 compound V2Zr" 1984 "Department of Applied Physics and Information Science, University of California, San Diego, La Jolla, Catif. 92093 (U.S.A.)" "Phys.Rev.B, 30(1984)2542"
131154 LES0650013 fast quenched alloy. fcc "(Th,Zr)" Th0.95Zr0.05 Th 0.95 Zr 0.05 1 1979 fcc A 5.0605 fcc K 0.69 0.69 MTC131155 Superconductivity in Th-Zr alloys 1979 "J.Less-Common Met., 65(1979)13"
131155 LES0650013 fast quenched alloy. bcc "(Th,Zr)" Th0.3Zr0.7 Th 0.3 Zr 0.7 1 1979 bcc A 3.7272 bcc K 2.7 2.7 MTC131155 Superconductivity in Th-Zr alloys 1979 "J.Less-Common Met., 65(1979)13"
131156 LES0650013 fast quenched alloy. hcp "(Th,Zr)" Th0.05Zr0.95 Th 0.05 Zr 0.95 1 1979 hcp hcp K 0.73 0.73 MTC131155 Superconductivity in Th-Zr alloys 1979 "J.Less-Common Met., 65(1979)13"
131157 LES0600115 quenched from 905 C (beta-phase). "(Th,Zr)" Th0.25Zr0.75 Th 0.25 Zr 0.75 1 1978 A 3.701 bcc K 6.29 6.29 "arc-melting, then quenched from melt" Superconducting temperatures of quenched thorium-zirconium alloys 1978 "Ames Laboratory, U.S. DOE and Department of Materials Science and Engineering, Iowa State University, Ames, Iowa 5001 I (U.S.A.)" "J.Less-Common Met., 60(1978)115"
131158 LES0600115 quenched from 905 C (beta-phase). "(Th,Zr)" Th0.2Zr0.8 Th 0.2 Zr 0.8 1 1978 A 3.392 5.541 5.332 ortho K 3.3 3.3 "arc-melting, then quenched from melt" Superconducting temperatures of quenched thorium-zirconium alloys 1978 "Ames Laboratory, U.S. DOE and Department of Materials Science and Engineering, Iowa State University, Ames, Iowa 5001 I (U.S.A.)" "J.Less-Common Met., 60(1978)115"
131159 LES0600115 quenched from 905 C (beta-phase). "(Th,Zr)" Th0.1Zr0.9 Th 0.1 Zr 0.9 1 1978 A 3.258 5.248 hcp K 2.58 2.58 "arc-melting, then quenched from melt" Superconducting temperatures of quenched thorium-zirconium alloys 1978 "Ames Laboratory, U.S. DOE and Department of Materials Science and Engineering, Iowa State University, Ames, Iowa 5001 I (U.S.A.)" "J.Less-Common Met., 60(1978)115"
131160 LES0440177 as-cast "(Tc,Ti)" Tc0.97Ti0.03 Tc 0.97 Ti 0.03 1976 hcp K 10.23 10.89 10.56 "arc-melting, ANN(700 - 1500C, in vac)" Superconductivity in the technetium-titanium alloy system 1976 "Metals and Ceramics Division, Oak Ridge National Laboratory, Oak Ridge, Tenn. 37830 (U.S.A.)" "J.Less-Common Met., 44(1976)177"
131161 LES0440177 ANN(1500C). Hardness = 960 kg/mm2. "(Tc,Ti)" Tc0.875Ti0.125 Tc 0.875 Ti 0.125 1976 alpha-Mn A 9.5 alpha-Mn + hcp K 7.9 9.5 8.7 "arc-melting, ANN(700 - 1500C, in vac)" Superconductivity in the technetium-titanium alloy system 1976 "Metals and Ceramics Division, Oak Ridge National Laboratory, Oak Ridge, Tenn. 37830 (U.S.A.)" "J.Less-Common Met., 44(1976)177"
131162 LES0440177 as-cast "(Tc,Ti)" Tc0.75Ti0.25 Tc 0.75 Ti 0.25 1976 bcc K 4.2 6 5.1 "arc-melting, ANN(700 - 1500C, in vac)" Superconductivity in the technetium-titanium alloy system 1976 "Metals and Ceramics Division, Oak Ridge National Laboratory, Oak Ridge, Tenn. 37830 (U.S.A.)" "J.Less-Common Met., 44(1976)177"
131163 LES0440177 ANN(700C). not SC. "(Tc,Ti)" Tc0.5Ti0.5 Tc 0.5 Ti 0.5 1976 A 3.091 CsCl K 1.7 "arc-melting, ANN(700 - 1500C, in vac)" Superconductivity in the technetium-titanium alloy system 1976 "Metals and Ceramics Division, Oak Ridge National Laboratory, Oak Ridge, Tenn. 37830 (U.S.A.)" "J.Less-Common Met., 44(1976)177"
131164 LES0440177 as-cast. Hardness = 443 kg/mm2 "(Tc,Ti)" Tc0.25Ti0.75 Tc 0.25 Ti 0.75 1976 A 3.181 bcc K 2.65 2.75 2.7 "arc-melting, ANN(700 - 1500C, in vac)" Superconductivity in the technetium-titanium alloy system 1976 "Metals and Ceramics Division, Oak Ridge National Laboratory, Oak Ridge, Tenn. 37830 (U.S.A.)" "J.Less-Common Met., 44(1976)177"
131165 LES0420285 (dC/gamma*Tc) = 1.35 . lattice term in SP (beta) = 0.035 mJ/mol.K4 "(Ti,V)" Ti0.85V0.15 Ti 0.85 V 0.15 1975 K 1.9 2 1.95 mJ/mol.K2 5.9 SP-heat 381 SP-heat "arc-melting. ANN(1000C,1h) - Q to iced brine." Low-temperature-calorimetric studies of superconductivity and microstructure in titanium-vanadium alloys 1975 "Battelle Columbus Laboratories, Columbus, Chio 43201 (U.S.A.)" "J.Less-Common Met., 42(1975)285"
131166 LES0420285 (dC/gamma*Tc) = 1.70 . lattice term in SP (beta) = 0.085 mJ/mol.K4 "(Ti,V)" Ti0.8V0.2 Ti 0.8 V 0.2 1975 beta-phase K 4 4.2 4.1 mJ/mol.K2 7.1 SP-heat 284 SP-heat "arc-melting. ANN(1000C,1h) - Q to iced brine." Low-temperature-calorimetric studies of superconductivity and microstructure in titanium-vanadium alloys 1975 "Battelle Columbus Laboratories, Columbus, Chio 43201 (U.S.A.)" "J.Less-Common Met., 42(1975)285"
131167 LES0420285 (dC/gamma*Tc) = 2.09 . lattice term in SP (beta) = 0.126 mJ/mol.K4 "(Ti,V)" Ti0.7V0.3 Ti 0.7 V 0.3 1975 beta-phase K 6.2 6.3 6.25 mJ/mol.K2 9.2 SP-heat 249 SP-heat "arc-melting. ANN(1000C,1h) - Q to iced brine." Low-temperature-calorimetric studies of superconductivity and microstructure in titanium-vanadium alloys 1975 "Battelle Columbus Laboratories, Columbus, Chio 43201 (U.S.A.)" "J.Less-Common Met., 42(1975)285"
131168 LES0420285 (dC/gamma*Tc) = 2.0 . lattice term in SP (beta) = 0.098 mJ/mol.K4 "(Ti,V)" Ti0.6V0.4 Ti 0.6 V 0.4 1975 beta-phase K 6.9 7 6.95 MTC131168 mJ/mol.K2 10.5 SP-heat 271 SP-heat "arc-melting. ANN(1000C,1h) - Q to iced brine." Low-temperature-calorimetric studies of superconductivity and microstructure in titanium-vanadium alloys 1975 "Battelle Columbus Laboratories, Columbus, Chio 43201 (U.S.A.)" "J.Less-Common Met., 42(1975)285"
131169 LES0420285 (dC/gamma*Tc) = 1.96 . lattice term in SP (beta) = 0.084 mJ/mol.K4 "(Ti,V)" Ti0.5V0.5 Ti 0.5 V 0.5 1975 beta-phase K 7 7.2 7.1 mJ/mol.K2 10.5 SP-heat 285 SP-heat "arc-melting. ANN(1000C,1h) - Q to iced brine." Low-temperature-calorimetric studies of superconductivity and microstructure in titanium-vanadium alloys 1975 "Battelle Columbus Laboratories, Columbus, Chio 43201 (U.S.A.)" "J.Less-Common Met., 42(1975)285"
131170 LES0420285 (dC/gamma*Tc) = 1.96 . lattice term in SP (beta) = 0.068 mJ/mol.K4 "(Ti,V)" Ti0.4V0.6 Ti 0.4 V 0.6 1975 beta-phase K 7.2 7.4 7.3 mJ/mol.K2 10.6 SP-heat 306 SP-heat "arc-melting. ANN(1000C,1h) - Q to iced brine." Low-temperature-calorimetric studies of superconductivity and microstructure in titanium-vanadium alloys 1975 "Battelle Columbus Laboratories, Columbus, Chio 43201 (U.S.A.)" "J.Less-Common Met., 42(1975)285"
131171 LES0420285 (dC/gamma*Tc) = 1.75 . lattice term in SP (beta) = 0.054 mJ/mol.K4 "(Ti,V)" Ti0.2V0.8 Ti 0.2 V 0.8 1975 beta-phase K 7 7.3 7.15 mJ/mol.K2 10.5 SP-heat 330 SP-heat "arc-melting. ANN(1000C,1h) - Q to iced brine." Low-temperature-calorimetric studies of superconductivity and microstructure in titanium-vanadium alloys 1975 "Battelle Columbus Laboratories, Columbus, Chio 43201 (U.S.A.)" "J.Less-Common Met., 42(1975)285"
131172 LES0420285 (dC/gamma*Tc) = 1.56 . lattice term in SP (beta) = 0.041 mJ/mol.K4 "(Ti,V)" Ti0.1V0.9 Ti 0.1 V 0.9 1975 beta-phase K 5.7 5.8 5.75 mJ/mol.K2 10.2 SP-heat 362 SP-heat "arc-melting. ANN(1000C,1h) - Q to iced brine." Low-temperature-calorimetric studies of superconductivity and microstructure in titanium-vanadium alloys 1975 "Battelle Columbus Laboratories, Columbus, Chio 43201 (U.S.A.)" "J.Less-Common Met., 42(1975)285"
131173 JPC0024559 "bcc, metastable sample. broad transition." "(Zr,Si)" Si0.108Zr0.892 Si 0.108 Zr 0.892 1990 bcc K 3.54 0.21 3.54 194 SP-heat Specific heat of metastable Zr1-xSix alloys 1990 "J.Phys.:Condens.Matter, 2(1990)4559"
131174 JPC0024559 amorphous. sharp transition in SUS and SP measurements. (dC/gamma*Tc) = 1.87 "(Zr,Si)" Si0.132Zr0.868 Si 0.132 Zr 0.868 1990 AMOR K 3.21 0.03 3.21 Specific heat of metastable Zr1-xSix alloys 1990 "J.Phys.:Condens.Matter, 2(1990)4559"
131175 JPS0490839 not SC. large peak of R(T) at 150 K. R(RT) = 0.7 mOhm.cm for I//chain axis. ZrTa5 Ta5Zr1 Ta 5 Zr 1 3 1980 AB5 Cmcm A 3.9876 14.502 13.727 K 1.2 "iodine vapor transport method from (ZrTe3 + Te). heat)520C,7w)" Giant resistivity anomaly in ZrTe5 1980 "Hokkaido University, Sapporo" "J.Phys.Soc.Jpn, 49(1980)839"
131176 JPS0490839 by-product of ZrTa5. RRR = 20. R(RT) = 0.13 mOhm.cm for I//chain axis. 1T-ZrTa2 Ta2Zr1 Ta 2 Zr 1 3 1980 AB2 K 2.3 2.3 "iodine vapor transport method from (ZrTe3 + Te). heat)520C,7w)" Giant resistivity anomaly in ZrTe5 1980 "Hokkaido University, Sapporo" "J.Phys.Soc.Jpn, 49(1980)839"
131177 SSC0151643 (dC/gamma*Tc) = 1.16 TaV2 Ta1V2 Ta 1 V 2 1974 AB2 MgCu2(Laves) A 7.153 C15 K 3.6 3.6 mJ/gat.K2 11 SP-heat 278 SP-heat "arc-melting. Wrapped in Zr-foil, then ANN(1000C,35d, in silica tube)" Superconductivity of TaV2 1974 "University of California, San Diego" "Solid State Commun., 15(1974)1643"
131178 SSC0151643 (dC/gamma*Tc) = 1.45 TaV2 Ta1V2 Ta 1 V 2 1974 AB2 A 3.15 bcc K 2.8 2.8 mJ/gat.K2 9 SP-heat 325 SP-heat "arc-melting. Wrapped in Zr-foil, then ANN(1000C,35d, in silica tube)" Superconductivity of TaV2 1974 "University of California, San Diego" "Solid State Commun., 15(1974)1643"
131179 SSC0481089 samples beyond solubility limit were prepared by recrystalization of amorphous films "(Ta,Zr)" Ta0.455Zr0.545 Ta 0.455 Zr 0.545 1983 A 3.44 K 7.7 7.7 films prepared by coevaporation using electron beam. as-prepared films (AMOR) - recrystalize Formation of superconductive supersaturated TaZr solid solution by pulsed electronbeam treatment 1983 "Solid State Commun., 48(1983)1089"
131180 SSC0481089 samples beyond solubility limit were prepared by recrystalization of amorphous films "(Ta,Zr)" Ta0.745Zr0.255 Ta 0.745 Zr 0.255 1983 A 3.361 K 7.1 7.1 films prepared by coevaporation using electron beam. as-prepared films (AMOR) - recrystalize Formation of superconductive supersaturated TaZr solid solution by pulsed electronbeam treatment 1983 "Solid State Commun., 48(1983)1089"
131181 JPS0562225 "monoclinic, beta = 106.26. RRR = 50 - 65. I//needle axis" TaSe3 Se3Ta1 Se 3 Ta 1 1987 AB3 P2<1>/m A 10.402 3.495 9.829 "monoclinic, beta=106.26 deg." K 2.1 2.1 Ohm.cm 1 Normal-state electrical resistivity in quasi-one-dimensional conductor TaSe3 1987 "Muroran Institute of Technology, Japan" "J.Phys.Soc.Jpn, 56(1987)2225"
131182 LES1190337 "(V,Re)" Re0.8V0.2 Re 0.8 V 0.2 1986 alloy K 5.2 5.2 "arc-melting. ANN(1400C,90h, in vac, wrapped in W-foils)" The vanadium-rhenium system: Phase diagram and superconductivity 1986 University of Geneva "J.Less-Common Met., 119(1986)337"
131183 LES1190337 "(V,Re)" Re0.8V0.2 Re 0.8 V 0.2 1986 A15-phase K 7.2 7.2 "arc-melting. ANN(1400C,90h, in vac, wrapped in W-foils)" The vanadium-rhenium system: Phase diagram and superconductivity 1986 University of Geneva "J.Less-Common Met., 119(1986)337"
131184 LES1250261 "heat treatment(1150C,1h). not SC. paramag at LT. SUS = 82.3E-6 emu/gat." "(Hf,Os)" Hf0.77Os0.23 Hf 0.77 Os 0.23 1986 K 1.4 mJ/gat.K2 3.6 SP-heat 225 SP-heat "Electronic, magnetic, superconducting and amorphous forming properties versus stability of the Ti-Fe, Zr-Ru, and Hf-Os ordered alloys" 1986 "J.Less-Common Met., 125(1986)261"
131185 LES1250261 "heat treatment(1000C,1h). not SC. super-paramag at LT. SUS = 199 E-6 emu/gat." TiFe Fe1Ti1 Fe 1 Ti 1 1986 AB CsCl "CsCl, B2" K 1.4 mJ/gat.K2 1.7 SP-heat 540 SP-heat "Electronic, magnetic, superconducting and amorphous forming properties versus stability of the Ti-Fe, Zr-Ru, and Hf-Os ordered alloys" 1986 "J.Less-Common Met., 125(1986)261"
131186 LES1250261 "heat treatment(1000C,1h). not SC. SUS = 44.6 E-6 emu/gat." ZrRu Ru1Zr1 Ru 1 Zr 1 1986 AB CsCl "CsCl, B2" K 1.4 mJ/gat.K2 1 SP-heat 404 SP-heat "Electronic, magnetic, superconducting and amorphous forming properties versus stability of the Ti-Fe, Zr-Ru, and Hf-Os ordered alloys" 1986 "J.Less-Common Met., 125(1986)261"
131187 LES1250261 "heat treatment(2000C,2h). not SC. paramag at LT. SUS = 24.5 E-6 emu/gat." HfOs Hf1Os1 Hf 1 Os 1 1986 AB CsCl "CsCl, B2" K 1.4 mJ/gat.K2 0.66 SP-heat 348 SP-heat "Electronic, magnetic, superconducting and amorphous forming properties versus stability of the Ti-Fe, Zr-Ru, and Hf-Os ordered alloys" 1986 "J.Less-Common Met., 125(1986)261"
131188 LES1250261 as-cast. not SC. TiFe2 Fe2Ti1 Fe 2 Ti 1 1986 AB2 MgZn2(Laves) "MgZn2(Laves), C14" K 1.4 mJ/gat.K2 7.26 SP-heat 518 SP-heat "Electronic, magnetic, superconducting and amorphous forming properties versus stability of the Ti-Fe, Zr-Ru, and Hf-Os ordered alloys" 1986 "J.Less-Common Met., 125(1986)261"
131189 LES1250261 "heat treatment(1700C,1h). SUS = 116 E-6 emu/gat. (dC/gamma*Tc) = 1.32. e-ph coupling = 0.49." ZrRu2 Ru2Zr1 Ru 2 Zr 1 1986 AB2 MgZn2(Laves) "MgZn2(Laves), C14" K 1.92 1.92 mJ/gat.K2 4.72 SP-heat 361 SP-heat "Electronic, magnetic, superconducting and amorphous forming properties versus stability of the Ti-Fe, Zr-Ru, and Hf-Os ordered alloys" 1986 "J.Less-Common Met., 125(1986)261"
131190 LES1250261 "heat treatment(1600C,1h). SUS = 71.9 E-6 emu/gat. (dC/gamma*Tc) = 1.46. e-ph coupling = 0.49." HfOs2 Hf1Os2 Hf 1 Os 2 1986 AB2 MgZn2(Laves) "MgZn2(Laves), C14" K 1.85 1.85 mJ/gat.K2 2.84 SP-heat 330 SP-heat "Electronic, magnetic, superconducting and amorphous forming properties versus stability of the Ti-Fe, Zr-Ru, and Hf-Os ordered alloys" 1986 "J.Less-Common Met., 125(1986)261"
131191 LES1250261 as-cast. SUS = 87.6 E-6 emu/gat. (dC/gamma*Tc) = 1.26. e-ph coupling = 0.55. ZrOs2 Os2Zr1 Os 2 Zr 1 1986 AB2 MgZn2(Laves) "MgZn2(Laves), C14" K 2.9 2.9 mJ/gat.K2 3.7 SP-heat 308 SP-heat "Electronic, magnetic, superconducting and amorphous forming properties versus stability of the Ti-Fe, Zr-Ru, and Hf-Os ordered alloys" 1986 "J.Less-Common Met., 125(1986)261"
131192 LES1340079 Se-concentration x = 0.183 in Pd1-xSex. Tc defined as mid of SUS-change. Pd9Se2 Pd9Se2 Pd 9 Se 2 1987 A2B9 K 0.7 0.64 0.7 Superconductivity and phase relations in the Pd-Se system 1987 "Institute for Solid State Physics, University of Tokyo" "J.Less-Common Met., 134(1987)79"
131193 LES1340079 Se-concentration x = 0.20 in Pd1-xSex. Tc defined as mid of SUS-change. Pd4Se Pd4Se1 Pd 4 Se 1 1987 AB4 K 0.38 Superconductivity and phase relations in the Pd-Se system 1987 "Institute for Solid State Physics, University of Tokyo" "J.Less-Common Met., 134(1987)79"
131194 LES1340079 Se-concentration x = 0.222 in Pd1-xSex. Tc defined as mid of SUS-change. Pd7Se2 Pd7Se2 Pd 7 Se 2 1987 A2B7 K 0.53 0.53 Superconductivity and phase relations in the Pd-Se system 1987 "Institute for Solid State Physics, University of Tokyo" "J.Less-Common Met., 134(1987)79"
131195 LES1340079 Se-concentration x = 0.245 in Pd1-xSex. Tc defined as mid of SUS-change. Pd34Se11 Pd34Se11 Pd 34 Se 11 1987 A11B34 K 2.66 2.66 Superconductivity and phase relations in the Pd-Se system 1987 "Institute for Solid State Physics, University of Tokyo" "J.Less-Common Met., 134(1987)79"
131196 LES1340079 Se-concentration x = 0.364 in Pd1-xSex. Tc defined as mid of SUS-change. Pd7Se4 Pd7Se4 Pd 7 Se 4 1987 A4B7 K 0.38 Superconductivity and phase relations in the Pd-Se system 1987 "Institute for Solid State Physics, University of Tokyo" "J.Less-Common Met., 134(1987)79"
131197 LES1340079 Amorphous. Se-concentration x = 0.30 in Pd1-xSex. Tc defined as mid of SUS-change. a-PdSe Pd0.7Se0.3 Pd 0.7 Se 0.3 1987 AMOR K 2.04 2.04 Superconductivity and phase relations in the Pd-Se system 1987 "Institute for Solid State Physics, University of Tokyo" "J.Less-Common Met., 134(1987)79"
131198 JPS0572763 Se-concentration x = 0.183 in Pd1-xSex. Tc defined as mid of SUS-change. RRR = 5.6 Pd9Se2 Pd9Se2 Pd 9 Se 2 1988 A2B9 K 0.64 0.64 T/K resistivity 0.42 MHC131198 Superconducting properties of the Pd-Se system 1988 "Institute for Solid State Physics, University of Tokyo" "J.Phys.Soc.Jpn, 57(1988)2763"
131199 JPS0572763 Se-concentration x = 0.20 in Pd1-xSex. Tc defined as mid of SUS-change. RRR = 259 Pd4Se Pd4Se1 Pd 4 Se 1 1988 AB4 K 0.38 Superconducting properties of the Pd-Se system 1988 "Institute for Solid State Physics, University of Tokyo" "J.Phys.Soc.Jpn, 57(1988)2763"
131200 JPS0572763 Se-concentration x = 0.222 in Pd1-xSex. Tc defined as mid of SUS-change. RRR = 228 Pd7Se2 Pd7Se2 Pd 7 Se 2 1988 A2B7 K 0.53 0.53 0.28 MHC131198 Superconducting properties of the Pd-Se system 1988 "Institute for Solid State Physics, University of Tokyo" "J.Phys.Soc.Jpn, 57(1988)2763"
131201 JPS0572763 Se-concentration x = 0.245 in Pd1-xSex. Tc defined as mid of SUS-change. RRR = 39.9. (dC/gamma*Tc) = 1.86 Pd34Se11 Pd34Se11 Pd 34 Se 11 1988 A11B34 K 2.66 2.66 0.44 MHC131201 mJ/gat.K2 1.67 SP-heat 173 SP-heat Superconducting properties of the Pd-Se system 1988 "Institute for Solid State Physics, University of Tokyo" "J.Phys.Soc.Jpn, 57(1988)2763"
131202 JPS0572763 Se-concentration x = 0.364 in Pd1-xSex. Tc defined as mid of SUS-change. RRR = 283 Pd7Se4 Pd7Se4 Pd 7 Se 4 1988 A4B7 K 0.38 Superconducting properties of the Pd-Se system 1988 "Institute for Solid State Physics, University of Tokyo" "J.Phys.Soc.Jpn, 57(1988)2763"
131203 JPS0572763 Amorphous. Se-concentration x = 0.30 in Pd1-xSex. Tc defined as mid of SUS-change. RRR = 0.96 a-PdSe Pd0.7Se0.3 Pd 0.7 Se 0.3 1988 AMOR K 2.04 2.04 1.67 MHC131201 Superconducting properties of the Pd-Se system 1988 "Institute for Solid State Physics, University of Tokyo" "J.Phys.Soc.Jpn, 57(1988)2763"
131204 LES1710171 SUS = 80 E-6 emu/mol Re2Si Re2Si1 Re 2 Si 1 1991 AB2 P2<1>/b A 6.4444 5.3898 9.6019 "monoclinic, gamma = 94.214" K 3.8 3.8 mOhm.cm 0.12 modified tri-arc furnace Crystal structure and superconductivity in Re2Si 1991 AT&T Bell Lab. "J.Less-Common Met., 171(1991)171"
131205 PRL0491030 tunneling at (100) cleaved surface YSe Se1Y1 Se 1 Y 1 1982 AB NaCl K 4 4 meV 0.67 3.9 1 Electron tunneling into intermediate-valence materials 1982 "Phys.Rev.Lett., 49(1982)1030"
131206 PRB0301253 "(Ti,Mo)" Mo0.15Ti0.85 Mo 0.15 Ti 0.85 1984 meta-stable K 4.08 4.08 T 6.55 mOhm.cm 0.115 liquid quenched sample Upper critical fields in liquid-quenched metastable superconductors 1984 Unversity of Virginia "Phys.Rev.B, 30(1984)1253"
131207 PRB0301253 "(Ti,Pd)" Pd0.15Ti0.85 Pd 0.15 Ti 0.85 1984 meta-stable K 3.82 3.82 T 6.63 mOhm.cm 0.21 liquid quenched sample Upper critical fields in liquid-quenched metastable superconductors 1984 Unversity of Virginia "Phys.Rev.B, 30(1984)1253"
131208 PRB0301253 rapid quenched sample. "a-(Zr,Rh)" Rh0.25Zr0.75 Rh 0.25 Zr 0.75 1984 AMOR amorphous-like K 4.3 4.3 T 8 mOhm.cm 0.16 liquid quenched sample Upper critical fields in liquid-quenched metastable superconductors 1984 Unversity of Virginia "Phys.Rev.B, 30(1984)1253"
131209 PRB0301253 "(Zr,Rh)" Rh0.25Zr0.75 Rh 0.25 Zr 0.75 1984 meta-stable K 3.97 3.97 T 7.2 mOhm.cm 0.155 liquid quenched sample Upper critical fields in liquid-quenched metastable superconductors 1984 Unversity of Virginia "Phys.Rev.B, 30(1984)1253"
131210 PRB0301253 "(Zr,Pd)" Pd0.15Zr0.85 Pd 0.15 Zr 0.85 1984 meta-stable K 4.8 4.8 T 7.69 mOhm.cm 0.13 liquid quenched sample Upper critical fields in liquid-quenched metastable superconductors 1984 Unversity of Virginia "Phys.Rev.B, 30(1984)1253"
131211 PRB0301253 "(Zr,Mo)" Mo0.07Zr0.93 Mo 0.07 Zr 0.93 1984 meta-stable K 4.91 4.91 T 6.81 mOhm.cm 0.13 liquid quenched sample Upper critical fields in liquid-quenched metastable superconductors 1984 Unversity of Virginia "Phys.Rev.B, 30(1984)1253"
131212 PRB0301253 "(Zr,Mo)" Mo0.04Zr0.96 Mo 0.04 Zr 0.96 1984 meta-stable K 4.47 4.47 T 5.57 mOhm.cm 0.119 liquid quenched sample Upper critical fields in liquid-quenched metastable superconductors 1984 Unversity of Virginia "Phys.Rev.B, 30(1984)1253"
131213 PRB0301253 "(Hf,Mo)" Hf0.906Mo0.094 Hf 0.906 Mo 0.094 1984 meta-stable K 2.71 2.71 T 4.58 mOhm.cm 0.165 liquid quenched sample Upper critical fields in liquid-quenched metastable superconductors 1984 Unversity of Virginia "Phys.Rev.B, 30(1984)1253"
131214 PRB0301253 "(Ta,Hf)" Hf0.25Zr0.75 Hf 0.25 Zr 0.75 1984 meta-stable K 6.62 6.62 T 5.84 mOhm.cm 0.06 liquid quenched sample Upper critical fields in liquid-quenched metastable superconductors 1984 Unversity of Virginia "Phys.Rev.B, 30(1984)1253"
131215 JAP0393003 mobility= 2.0 cm2/V.sec Tl5Te3 Te3Tl5 Te 3 Tl 5 1968 9.52 A3B5 A 8.92 12.63 "gamma-phase, bct" K 2.19 2.23 2.21 T 0.11 1.5 n/cm3 1.50E+22 Electrical conductivity and superconductivity in the gamma phase of the Tl-Te system 1968 Northwestern University "J.Appl.Phys., 39(1968)3003"
131216 PRB0311329 lattice term in SP (beta) = 0.435 mJ/mol.K4 UAl2Si2 Al2Si2U1 Al 2 Si 2 U 1 1985 AB2C2 A 4.145 K 1.34 1.34 mJ/mol.K2 27.9 SP-heat arc-melting Superconductivity in uranium compounds with Cu3Au structure 1985 "Phys.Rev.B, 31(1985)1329"
131217 PRB0311329 UAl2Ge2 Al2Ge2U1 Al 2 Ge 2 U 1 1985 AB2C2 A 4.219 K 1.6 1.6 arc-melting Superconductivity in uranium compounds with Cu3Au structure 1985 "Phys.Rev.B, 31(1985)1329"
131218 PRB0311329 UGa2Ge2 Ga2Ge2U1 Ga 2 Ge 2 U 1 1985 AB2C2 A 4.218 K 0.87 0.87 arc-melting Superconductivity in uranium compounds with Cu3Au structure 1985 "Phys.Rev.B, 31(1985)1329"
131219 PRB0311329 lattice term in SP (beta) = 0.413 mJ/mol.K4 URu3 Ru3U1 Ru 3 U 1 1985 AB3 A 3.977 K 0.145 0.145 mJ/mol.K2 12.2 SP-heat arc-melting Superconductivity in uranium compounds with Cu3Au structure 1985 "Phys.Rev.B, 31(1985)1329"
131220 PRB0311329 URu2Rh Rh1Ru2U1 Rh 1 Ru 2 U 1 1985 ABC2 A 3.977 K 0.02 arc-melting Superconductivity in uranium compounds with Cu3Au structure 1985 "Phys.Rev.B, 31(1985)1329"
131221 PRB0311329 USi3 Si3U1 Si 3 U 1 1985 AB3 A 4.0348 K 0.02 arc-melting Superconductivity in uranium compounds with Cu3Au structure 1985 "Phys.Rev.B, 31(1985)1329"
131222 PRB0311329 AF at 67 K. UGa3 Ga3U1 Ga 3 U 1 1985 67 AB3 A 4.256 K 0.02 arc-melting Superconductivity in uranium compounds with Cu3Au structure 1985 "Phys.Rev.B, 31(1985)1329"
131223 PRL0350062 R//layer shows two step at 315 and 21 K. 4Hb-TaS2 S2Ta1 S 2 Ta 1 3 1975 AB2 TaSe2 K 2.5 2.5 iodine vapor transport method Tunneling conductivity in 4Hb-TaS2 1975 "Simon Fraser University, Canada" "Phys.Rev.Lett., 35(1975)62"
131224 CHM0410315 Hc2(1.6K) = 0.2 T. TaSe3 Se3Ta1 Se 3 Ta 1 1982 8.11 AB3 A 101.02 3.48 15.56 "monoclinic, beta = 109.6" K 1.9 1.9 T 0.6 1.4 mOhm.cm 2 "mixture - high pressure synthesis(700C,2GPa, in BN)" "High-Pressure Syntheses of TaS3, NbS3, TaSe3, and NbSe3 with NbSe3-Type Crystal Structure" 1982 "J.Solid State Chem., 41(1982)315"
131225 CHM0410315 semiconductor. two transitions at 200K and 250 K. TaS3 S3Ta1 S 3 Ta 1 1982 6.18 AB3 A 9.52 3.35 14.92 "monoclinic, beta = 110.0" K 1.4 "mixture - high pressure synthesis(700C,2GPa, in BN)" "High-Pressure Syntheses of TaS3, NbS3, TaSe3, and NbSe3 with NbSe3-Type Crystal Structure" 1982 "J.Solid State Chem., 41(1982)315"
131226 CHM0410315 semiconductor. X-ray density in DB NbS3 Nb1S3 Nb 1 S 3 1982 4.15 AB3 A 9.68 3.37 14.83 "monoclinic, beta = 109.9" K 1.4 "mixture - high pressure synthesis(700C,2GPa, in BN)" "High-Pressure Syntheses of TaS3, NbS3, TaSe3, and NbSe3 with NbSe3-Type Crystal Structure" 1982 "J.Solid State Chem., 41(1982)315"
131227 CHM1140486 Tc defined as diamagnetic onset. X-ray density in DB 6R-TaS2 S2Ta1 S 2 Ta 1 1 1995 AB2 K 2.3 2.3 K/GPa 1.3 "mixture - heat(1220K,8d, in vac)" Physical properties of 6R-TaS2 1995 "J.Solid State Chem., 114(1995)486"
131228 SSC0310627 P: hydrostatic. I//b-axis. RRR = 59.2. TaSe3 Se3Ta1 Se 3 Ta 1 1979 AB3 TaSe3 TaSe3 K 2.3 2.3 K/GPa -0.75 "mixture - sealed in quartz - heat(700C,2w)" The effect of pressure on the superconducting transition temperature in TaSe3 1979 "Solid State Commun., 31(1979)627"
131229 LES0220246 ThRe2 Re2Th1 Re 2 Th 1 1970 AB2 MgZn2(Laves) A 5.4927 9.101 "MgZn2, C14" K 5 5 melt using EB. water-cooled copper heath. "Superconductivity and lattice parameters of the dirhenides and ditechnides of thorium, hafnium and zirconium" 1970 "J.Less-Common Met., 22(1970)246"
131231 LES0220246 HfRe2 Hf1Re2 Hf 1 Re 2 1970 AB2 MgZn2(Laves) A 5.254 8.6 "MgZn2, C14" K 5.2 5.2 melt using EB. water-cooled copper heath. "Superconductivity and lattice parameters of the dirhenides and ditechnides of thorium, hafnium and zirconium" 1970 "J.Less-Common Met., 22(1970)246"
131233 LES0220246 chemical analysis: Zr0.332Tc0.668 ZrRe2 Re2Zr1 Re 2 Zr 1 1970 AB2 MgZn2(Laves) A 5.267 8.632 "MgZn2, C14" K 6.4 6.4 melt using EB. water-cooled copper heath. "Superconductivity and lattice parameters of the dirhenides and ditechnides of thorium, hafnium and zirconium" 1970 "J.Less-Common Met., 22(1970)246"
131235 LES0610231 NbS Nb1S0.899 Nb 1 S 0.899 1978 AB FeAs A 4.897 3.319 6.559 K 3.83 3.83 K/GPa 0.28 "react(450C, in silica tube) - ANN(1450C,5h) - Q" Superconductivity in the niobium and scandium mono-sulfide systems at pressures up to 20 kbar 1978 "J.Less-Common Met., 61(1978)231"
131236 LES0610231 NbS Nb1S1.06 Nb 1 S 1.06 1978 AB FeAs K 3.3 3.3 "react(450C, in silica tube) - ANN(1450C,5h) - Q" Superconductivity in the niobium and scandium mono-sulfide systems at pressures up to 20 kbar 1978 "J.Less-Common Met., 61(1978)231"
131237 LES0610231 ScS S1.005Sc1 S 1.005 Sc 1 1978 AB NaCl A 5.1917 K 5.37 5.37 K/GPa -0.2 mJ/mol.K2 1.7 "react(900C, in quartz tube) - ANN(1300-1700C)" Superconductivity in the niobium and scandium mono-sulfide systems at pressures up to 20 kbar 1978 "J.Less-Common Met., 61(1978)231"
131238 PRL0500853 RRR = 50. martensitic transformation at 50.6 K. Nb3Sn Nb3Sn1 Nb 3 Sn 1 1983 AB3 Cr3Si(A15) K 18 18 3.78 4 Electronic Raman scattering by superconducting-gap excitations in Nb3Sn and V3Si 1983 "Phys.Rev.Lett., 50(1983)853"
131239 PRL0500853 RRR = 15. V3Si Si1V3 Si 1 V 3 1983 AB3 Cr3Si(A15) K 16.9 16.9 3.4 4 Electronic Raman scattering by superconducting-gap excitations in Nb3Sn and V3Si 1983 "Phys.Rev.Lett., 50(1983)853"
131240 SSC0810179 G-L parameter = 28. "(Nb,Zr)" Nb0.15Zr0.85 Nb 0.15 Zr 0.85 1992 K 6.5 6.5 A 58 A 2630 films deposited using coevaporation on polished saphire by EB "PINNING,CREEP AND POSSIBLE MELTING IN THE MIXED STATE OF NBZRFILMS" 1992 1 "J.SOLID STATE COMMUN.,81(1992)179" "NB,ZR"
131241 SSC0270291 lattice term coeffic. (beta) = 0.0285 mJ/gat.K4. VRe3 Re0.71V0.29 Re 0.71 V 0.29 1978 Cr3Si(A15) K 8.4 8.4 3.4 14 mJ/gat.K2 4.03 SP-heat 409 SP-heat arc-melting. ANN(1750C) Discovery of a superconducting A-15 phase in the V-Re system 1978 "Solid State Commun., 27(1978)291"
131242 SSC0270291 "(V,Os)" Os0.5V0.5 Os 0.5 V 0.5 1978 K 5.15 5.15 mJ/gat.K2 4.34 SP-heat 395 SP-heat Discovery of a superconducting A-15 phase in the V-Re system 1978 "Solid State Commun., 27(1978)291"
131243 SSC0270291 "(V,Ir)" Ir0.37V0.67 Ir 0.37 V 0.67 1978 K 1.71 1.71 mJ/gat.K2 4.76 SP-heat 385 SP-heat Discovery of a superconducting A-15 phase in the V-Re system 1978 "Solid State Commun., 27(1978)291"
131244 SSC0270291 "(V,Pt)" Pt0.25V0.75 Pt 0.25 V 0.75 1978 K 3.2 3.2 mJ/gat.K2 7.19 SP-heat 511 SP-heat Discovery of a superconducting A-15 phase in the V-Re system 1978 "Solid State Commun., 27(1978)291"
131245 SSC0280969 lattice term coeffic. (beta) = 0.05639 mJ/gat.K4. "(Mo,Re)" Mo0.6Re0.4 Mo 0.6 Re 0.4 1978 A 3.124 "A2, bcc" K 12 12 5 14 mJ/gat.K2 4.55 SP-heat 325 SP-heat A search for strong coupling superconductivity 1978 "Solid State Commun., 28(1978)969"
131246 SSC0280969 lattice term coeffic. (beta) = 0.04881 mJ/gat.K4. "(Mo,Re)" Mo0.4Re0.6 Mo 0.4 Re 0.6 1978 A 9.586 4.978 "D8, tetra" K 6 6 3.4 14 mJ/gat.K2 3.6 SP-heat 342 SP-heat A search for strong coupling superconductivity 1978 "Solid State Commun., 28(1978)969"
131247 SSC0280969 lattice term coeffic. (beta) = 0.06599 mJ/gat.K4. "(W,Re)" Re0.35W0.65 Re 0.35 W 0.65 1978 A 3.139 "A2, bcc" K 6.75 6.75 3.1 14 mJ/gat.K2 2.49 SP-heat 309 SP-heat A search for strong coupling superconductivity 1978 "Solid State Commun., 28(1978)969"
131248 SSC0280969 lattice term coeffic. (beta) = 0.03396 mJ/gat.K4. "(Mo,Tc)" Mo0.18Tc0.82 Mo 0.18 Tc 0.82 1978 A 2.752 4.443 "A3, hcp" K 13.7 13.7 3.6 14 mJ/gat.K2 8 SP-heat 385 SP-heat A search for strong coupling superconductivity 1978 "Solid State Commun., 28(1978)969"
131249 SSC0470431 "(Ti,Pd)" Pd0.07Ti0.93 Pd 0.07 Ti 0.93 1983 alpha+beta phase K 3.26 3.26 arc-melting. then liquid quenched. Structural dependence of the superconducting transition temperatiure in liquid-quenched alloys based on the group IV B elements 1983 "Solid State Commun., 47(1983)431"
131250 SSC0470431 "(Ti,Pd)" Pd0.1Ti0.9 Pd 0.1 Ti 0.9 1983 alpha+beta phase K 3.67 3.67 arc-melting. then liquid quenched. Structural dependence of the superconducting transition temperatiure in liquid-quenched alloys based on the group IV B elements 1983 "Solid State Commun., 47(1983)431"
131251 SSC0470431 "(Ti,Pd)" Pd0.14Ti0.86 Pd 0.14 Ti 0.86 1983 beta phase K 3.74 3.74 arc-melting. then liquid quenched. Structural dependence of the superconducting transition temperatiure in liquid-quenched alloys based on the group IV B elements 1983 "Solid State Commun., 47(1983)431"
131252 SSC0470431 "(Ti,Pd)" Pd0.19Ti0.81 Pd 0.19 Ti 0.81 1983 beta phase K 3.08 3.08 arc-melting. then liquid quenched. Structural dependence of the superconducting transition temperatiure in liquid-quenched alloys based on the group IV B elements 1983 "Solid State Commun., 47(1983)431"
131253 SSC0470431 "(Ti,Pd)" Pd0.24Ti0.76 Pd 0.24 Ti 0.76 1983 beta phase K 2 2 arc-melting. then liquid quenched. Structural dependence of the superconducting transition temperatiure in liquid-quenched alloys based on the group IV B elements 1983 "Solid State Commun., 47(1983)431"
131254 SSC0470431 "(Ti,Pd)" Pd0.26Ti0.74 Pd 0.26 Ti 0.74 1983 beta phase K 1.66 1.66 arc-melting. then liquid quenched. Structural dependence of the superconducting transition temperatiure in liquid-quenched alloys based on the group IV B elements 1983 "Solid State Commun., 47(1983)431"
131255 SSC0470431 "(Zr,Pd)" Pd0.05Ti0.95 Pd 0.05 Ti 0.95 1983 alpha+beta phase K 4.64 4.64 arc-melting. then liquid quenched. Structural dependence of the superconducting transition temperatiure in liquid-quenched alloys based on the group IV B elements 1983 "Solid State Commun., 47(1983)431"
131256 SSC0470431 "(Zr,Pd)" Pd0.074Ti0.926 Pd 0.074 Ti 0.926 1983 alpha+beta phase K 4.85 4.85 arc-melting. then liquid quenched. Structural dependence of the superconducting transition temperatiure in liquid-quenched alloys based on the group IV B elements 1983 "Solid State Commun., 47(1983)431"
131257 SSC0470431 "(Zr,Pd)" Pd0.1Ti0.9 Pd 0.1 Ti 0.9 1983 beta phase K 5 5 arc-melting. then liquid quenched. Structural dependence of the superconducting transition temperatiure in liquid-quenched alloys based on the group IV B elements 1983 "Solid State Commun., 47(1983)431"
131258 SSC0470431 "(Zr,Pd)" Pd0.15Ti0.85 Pd 0.15 Ti 0.85 1983 beta phase K 4.82 4.82 arc-melting. then liquid quenched. Structural dependence of the superconducting transition temperatiure in liquid-quenched alloys based on the group IV B elements 1983 "Solid State Commun., 47(1983)431"
131259 SSC0470431 "(Zr,Pd)" Pd0.18Ti0.82 Pd 0.18 Ti 0.82 1983 beta phase K 4.73 4.73 arc-melting. then liquid quenched. Structural dependence of the superconducting transition temperatiure in liquid-quenched alloys based on the group IV B elements 1983 "Solid State Commun., 47(1983)431"
131260 SSC0470431 "(Zr,Pd)" Pd0.2Ti0.8 Pd 0.2 Ti 0.8 1983 beta phase K 4.71 4.71 arc-melting. then liquid quenched. Structural dependence of the superconducting transition temperatiure in liquid-quenched alloys based on the group IV B elements 1983 "Solid State Commun., 47(1983)431"
131261 SSC0470431 "(Hf,Mo)" Hf0.93Mo0.07 Hf 0.93 Mo 0.07 1983 A 3.4877 alpha+beta phase K 2.11 2.11 arc-melting. then liquid quenched. Structural dependence of the superconducting transition temperatiure in liquid-quenched alloys based on the group IV B elements 1983 "Solid State Commun., 47(1983)431"
131262 SSC0470431 "(Hf,Mo)" Hf0.87Mo0.13 Hf 0.87 Mo 0.13 1983 A 3.4887 beta phase K 2.6 2.6 arc-melting. then liquid quenched. Structural dependence of the superconducting transition temperatiure in liquid-quenched alloys based on the group IV B elements 1983 "Solid State Commun., 47(1983)431"
131263 SSC0470431 "(Hf,Mo)" Hf0.8Mo0.2 Hf 0.8 Mo 0.2 1983 A 3.4581 beta phase K 2.89 2.89 arc-melting. then liquid quenched. Structural dependence of the superconducting transition temperatiure in liquid-quenched alloys based on the group IV B elements 1983 "Solid State Commun., 47(1983)431"
131264 SSC0500453 as-obtained. RRR = 15. V3Si Si1V3 Si 1 V 3 1984 AB3 Cr3Si(A15) K 16.84 0.16 16.84 T/K 2 sample obtained by fusion in a HF furnace Magnetoresistance measurements of V3Si . Evidence for precursor effects of the martensitic transformation 1984 "Solid State Commun., 50(1984)453"
131265 SSC0500453 "ANN(1200C,24h), the cooled(15 C/h). martensitic transformation. RRR = 29.4." V3Si Si1V3 Si 1 V 3 1984 AB3 Cr3Si(A15) K 16.98 0.07 16.98 T/K 1.9 sample obtained by fusion in a HF furnace Magnetoresistance measurements of V3Si . Evidence for precursor effects of the martensitic transformation 1984 "Solid State Commun., 50(1984)453"
131266 SSC0441439 "RRR=80. [pcohere] in (001) plane. anisotropy (cohere) = 5.7, effective mass ratio = 32.7." Nb3Se4 Nb3Se4 Nb 3 Se 4 3 1982 A3B4 hexagonal K 1.85 1.75 1.85 MHC131266 A from Hc2 852 149 uOhm.cm 1.14 86.4 CVD method Electrical conduction and critical magnetic field for superconductivity of a Nb3Se4 single crystal 1982 "Solid State Commun., 44(1982)1439"
131272 SSC0390005 A15(50-70%) + tetra-Nb3Si(15-20%) * Nb5Si3(10-20%) + bcc-Nb(5-10%). DOS = 0.94 states /eV-atom for A15. (dC/gamma*Tc) = 2.0. Nb3Si Nb3Si1 Nb 3 Si 1 2 1981 AB3 Cr3Si(A15) A 5.091 A15 K 18 0.7 18 mJ/mol.K2 14.2 SP-heat 352 SP-heat "arc-melting. ANN(1775-1790C,3-5h)" Specific heat of A-15 Nb3Si produced by explosive compression 1981 "Solid State Commun., 39(1981)5"
131273 SSC0390005 Tc defined as lower-Tc of #131272 sample. Nb3Si Nb3Si1 Nb 3 Si 1 2 1981 AB3 tetragonal K 9 9 mJ/mol.K2 8.6 SP-heat 400 SP-heat "arc-melting. ANN(1775-1790C,3-5h)" Specific heat of A-15 Nb3Si produced by explosive compression 1981 "Solid State Commun., 39(1981)5"
131274 SSC0360983 NbSe3 Nb1Se3 Nb 1 Se 3 1980 AB3 K 2.5 2.5 A 20 "heat(800C,2w) - cool to RT within 6h." Superconductivity in niobium triselenide 1980 "Solid State Commun., 36(1980)983"
131275 SSC0360493 2H-NbSe2 Nb1Se2 Nb 1 Se 2 1980 TX2 K 7.007 7.007 A 4960 1240 Measurements of the penetration depth in the superconducting layer crystals NbSe2 and TaS2(pyridine)#sub(1/2) 1980 "Solid State Commun., 36(1980)493"
131276 SSC0360493 M-intercalated. M = pyridine. M0.5TaS2 M0.5Ta1S2 M 0.5 Ta 1 S 2 1980 TX2 K 3.96 3.96 um 130 "intercalation by heating the crystals in liquid pyridine in sealed tube(130C, 12h)" Measurements of the penetration depth in the superconducting layer crystals NbSe2 and TaS2(pyridine)#sub(1/2) 1980 "Solid State Commun., 36(1980)493"
131277 SSC0370613 bulk conversion to A15-phase (50-70%). SP-heat shows Tc=18.0 K. Nb3Si Nb3Si1 Nb 3 Si 1 2 1981 AB3 Cr3Si(A15) A 5.091 K 18.6 18.6 bulk A15-phase synthesized by exlosive compression "Bulk A15, high Tc Nb3Si synthesized by shock compression" 1981 "Solid State Commun., 37(1981)613"
131278 SSC0380923 impurity phase with low-Tc contained. Nb3Si Nb3Si1 Nb 3 Si 1 2 1981 AB3 Cr3Si(A15) K 17.5 18 17.5 A15-phase synthesized by shock wave compression. Superconducting properties of Nb-Si compounds produced by shock synthesis 1981 "Solid State Commun., 38(1981)923"
131279 SSC0200305 Nb3Sn Nb3Sn1 Nb 3 Sn 1 4 1976 AB3 Cr3Si(A15) K 17.2 17.2 meV 3.2 4.3 1 films deposited on sapphire substrates(T_{= 700-800 C) by coevaporation technique. Superconductive tunneling into niobium-tin thin films 1976 "Solid State Commun., 20(1976)305"
131280 SSC0190455 RRR=46. T=33.5 K. properties estimated from SP-data using G-L theory. lattice term of SP (beta) = 0.586 mJ/mol.K4. thermodynamic Hc(0) = 1260 G. 2H-NbSe2 Nb1Se2 Nb 1 Se 2 3 1976 TX2 2H-phase K 7.11 0.15 7.11 T/K 2.1 0.69 A 110 37 A 1600 4800 3.7 14 mJ/mol.K 280 mJ/mol.K2 18.5 uOhm.cm 3.5 standard iodine vapor transport method at 780 C Experimental investigation of superconductivity in 2H-NbSe2 single crystal 1976 "Solid State Commun., 19(1976)455"
131281 LES0420019 Nb1-xPdx Nb0.9Pd0.1 Nb 0.9 Pd 0.1 1975 K 3.34 3.34 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131282 LES0420019 Nb1-xPdx Nb0.85Pd0.15 Nb 0.85 Pd 0.15 1975 A 3.26 bcc K 2.26 2.26 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131283 LES0420019 Nb1-xPdx Nb0.83Pd0.17 Nb 0.83 Pd 0.17 1975 K 2.2 2.2 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131284 LES0420019 Nb1-xPdx Nb0.8Pd0.2 Nb 0.8 Pd 0.2 1975 K 1.98 1.98 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131285 LES0420019 Nb1-xPdx Nb0.76Pd0.24 Nb 0.76 Pd 0.24 1975 A 3.21 bcc K 1.9 1.9 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131286 LES0420019 Nb1-xPdx Nb0.72Pd0.28 Nb 0.72 Pd 0.28 1975 K 1.89 1.89 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131287 LES0420019 Nb1-xPdx Nb0.69Pd0.31 Nb 0.69 Pd 0.31 1975 K 1.84 1.84 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131288 LES0420019 Nb1-xPdx Nb0.65Pd0.35 Nb 0.65 Pd 0.35 1975 K 1.84 1.84 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131289 LES0420019 "(Mo,Nb,Pd)" Mo0.1Nb0.765Pd0.135 Mo 0.1 Nb 0.765 Pd 0.135 1975 K 1.53 1.53 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131290 LES0420019 "(Mo,Nb,Pd)" Mo0.1Nb0.72Pd0.18 Mo 0.1 Nb 0.72 Pd 0.18 1975 K 1.45 1.45 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131291 LES0420019 "(Mo,Nb,Pd)" Mo0.15Nb0.68Pd0.17 Mo 0.15 Nb 0.68 Pd 0.17 1975 K 1.22 1.22 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131292 LES0420019 "(Mo,Nb,Pd)" Mo0.2Nb0.64Pd0.16 Mo 0.2 Nb 0.64 Pd 0.16 1975 K 0.94 0.94 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131293 LES0420019 "(Mo,Nb,Pd)" Mo0.2Nb0.608Pd0.192 Mo 0.2 Nb 0.608 Pd 0.192 1975 K 1.34 1.34 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131294 LES0420019 "(Mo,W,Pd)" Nb0.72Pd0.18W0.1 Nb 0.72 Pd 0.18 W 0.1 1975 K 1.5 1.5 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131295 LES0420019 "(H,Nb,Pd)" H0.64Nb0.85Pd0.15 H 0.64 Nb 0.85 Pd 0.15 1975 K 4.3 4.3 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131296 LES0420019 "(H,Nb,Pd)" H0.75Nb0.85Pd0.15 H 0.75 Nb 0.85 Pd 0.15 1975 K 4.66 4.66 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131297 LES0420019 "(H,Nb,Pd)" H0.63Nb0.87Pd0.17 H 0.63 Nb 0.87 Pd 0.17 1975 K 3.89 3.89 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131298 LES0420019 "(H,Nb,Pd)" H0.12Nb0.8Pd0.2 H 0.12 Nb 0.8 Pd 0.2 1975 K 1.52 1.52 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131299 LES0420019 "(H,Nb,Pd)" H0.51Nb0.8Pd0.2 H 0.51 Nb 0.8 Pd 0.2 1975 K 3.4 3.4 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131300 LES0420019 "(H,Nb,Pd)" H0.6Nb0.8Pd0.2 H 0.6 Nb 0.8 Pd 0.2 1975 K 3.46 3.46 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131301 LES0420019 "(H,Nb,Pd)" H0.69Nb0.8Pd0.2 H 0.69 Nb 0.8 Pd 0.2 1975 K 3.56 3.56 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131302 LES0420019 "(H,Nb,Pd)" H0.74Nb0.8Pd0.2 H 0.74 Nb 0.8 Pd 0.2 1975 K 4.07 4.07 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131303 LES0420019 "(H,Nb,Pd)" H0.61Nb0.76Pd0.24 H 0.61 Nb 0.76 Pd 0.24 1975 K 3.38 3.38 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131304 LES0420019 "(H,Nb,Pd)" H0.34Nb0.72Pd0.28 H 0.34 Nb 0.72 Pd 0.28 1975 K 1.64 1.64 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131305 LES0420019 "(H,Nb,Pd)" H0.59Nb0.72Pd0.28 H 0.59 Nb 0.72 Pd 0.28 1975 K 3.12 3.12 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131306 LES0420019 "(H,Nb,Pd)" H0.46Nb0.69Pd0.31 H 0.46 Nb 0.69 Pd 0.31 1975 K 3.05 3.05 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131307 LES0420019 "(H,Nb,Pd)" H0.54Nb0.65Pd0.35 H 0.54 Nb 0.65 Pd 0.35 1975 K 1.67 1.67 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131308 LES0420019 "(H,Mo,Nb,Pd)" H0.51Mo0.1Nb0.765Pd0.135 H 0.51 Mo 0.1 Nb 0.765 Pd 0.135 1975 K 5.46 5.46 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131309 LES0420019 "(H,Mo,Nb,Pd)" H0.37Mo0.1Nb0.72Pd0.18 H 0.37 Mo 0.1 Nb 0.72 Pd 0.18 1975 K 4.44 4.44 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131310 LES0420019 "(H,Mo,Nb,Pd)" H0.46Mo0.1Nb0.72Pd0.18 H 0.46 Mo 0.1 Nb 0.72 Pd 0.18 1975 K 4.82 4.82 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131311 LES0420019 "(H,Mo,Nb,Pd)" H0.28Mo0.15Nb0.68Pd0.17 H 0.28 Mo 0.15 Nb 0.68 Pd 0.17 1975 K 4.92 4.92 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131312 LES0420019 "(H,Nb,Pd,W)" H0.47Nb0.72Pd0.18W0.1 H 0.47 Nb 0.72 Pd 0.18 W 0.1 1975 K 3.48 3.48 "The effect of hydrogen on the superconducting transition temperature of some body-centered cubic niobium-palladium, niobium-palladium molybdenum and niobium-palladium-tangsten alloys" 1975 "J.Less-Common Met., 42(1975)19"
131313 SSC0200869 "Ta(C,N)" C0.002N0.937Ta1 C 0.002 N 0.937 Ta 1 1976 A 4.34 K 8.91 8.58 8.91 K/GPa 0.072 nitriding by heating Ta-wire in pure N2 atmosphere upto 80 bar Superconducting and normal state properties of tantalum carbonitrides under hydrostatic pressure 1976 "Solid State Commun., 20(1976)869"
131314 SSC0200869 "Ta(C,N)" C0.198N0.747Ta1 C 0.198 N 0.747 Ta 1 1976 A 4.3733 K 10.74 9.99 10.74 K/GPa 0.052 nitriding by heating Ta-wire in pure N2 atmosphere upto 80 bar Superconducting and normal state properties of tantalum carbonitrides under hydrostatic pressure 1976 "Solid State Commun., 20(1976)869"
131315 SSC0200869 "Ta(C,N)" C0.148N0.638Ta1 C 0.148 N 0.638 Ta 1 1976 A 4.364 K 12.01 9.51 12.01 K/GPa 0.029 nitriding by heating Ta-wire in pure N2 atmosphere upto 80 bar Superconducting and normal state properties of tantalum carbonitrides under hydrostatic pressure 1976 "Solid State Commun., 20(1976)869"
131316 SSC0200869 "Ta(C,N)" C0.017N0.632Ta1 C 0.017 N 0.632 Ta 1 1976 A 4.3741 K 11.84 9.37 11.84 K/GPa 0.05 nitriding by heating Ta-wire in pure N2 atmosphere upto 80 bar Superconducting and normal state properties of tantalum carbonitrides under hydrostatic pressure 1976 "Solid State Commun., 20(1976)869"
131317 SSC0200869 "Ta(C,N)" C0.571N0.271Ta1 C 0.571 N 0.271 Ta 1 1976 A 4.4309 K 10.92 10.8 10.92 K/GPa -0.067 nitriding by heating Ta-wire in pure N2 atmosphere upto 80 bar Superconducting and normal state properties of tantalum carbonitrides under hydrostatic pressure 1976 "Solid State Commun., 20(1976)869"
131318 SSC0200869 TaC C0.97Ta1 C 0.97 Ta 1 1976 A 4.4548 K 11.84 9.46 11.84 K/GPa -0.15 nitriding by heating Ta-wire in pure N2 atmosphere upto 80 bar Superconducting and normal state properties of tantalum carbonitrides under hydrostatic pressure 1976 "Solid State Commun., 20(1976)869"
131319 JPC01410767 filamentary SC. Tc defined as onset. T defined as maximum of (dR/dT). T = 63 K. (dT/dP) = 4.41 K/GPa. ZrTe3 Te3Zr1 Te 3 Zr 1 3 2002 AB3 K 4 4 K/GPa -5.6 chemical transport method The effect of pressure on the charge-density wave and superconductivity in ZrTe3 2002 "J.Phys. Condens.Matter, 14(2002)10767"
131320 SSC0220303 SN S1N1 S 1 N 1 1977 AB K 0.205 0.205 MHC131320 "A.C.susceptibility and magnetisation measurements on polysulphur nitride, (SN)x" 1977 "Solid State Commun., 22(1977)303"
131321 SSC0220303 SN S1N1 S 1 N 1 1977 AB K 0.235 0.235 MHC131320 "A.C.susceptibility and magnetisation measurements on polysulphur nitride, (SN)x" 1977 "Solid State Commun., 22(1977)303"
131322 SSC0250119 Tc(max) = 0.52 K at P=0.8 GPa.. R//b-axis SN S1N1 S 1 N 1 1978 AB K 0.26 0.26 MTC131322 K/GPa 0.34 Superconductivity in polymeric sulphur nitride (SN)x at high pressure 1978 "Solid State Commun., 25(1978)119"
131323 PRB0296198 foil. x = 0.97 in VNx. VN V1N1 V 1 N 1 1984 AB A 4.127 K 9.25 0.2 9.25 "V-foil, reaction (740 Torr-N2 for 22h)" Superconducting and normal-state properties of vanadium nitride 1984 "Phys.Rev.B, 29(1984)6198"
131324 PRB0296198 film. x = 0.96 in VNx. VN V1N1 V 1 N 1 4 1984 AB A 4.138 K 8.65 0.23 8.65 3.95 1 sputtering. substrate temperature = 700 C. Superconducting and normal-state properties of vanadium nitride 1984 "Phys.Rev.B, 29(1984)6198"
131325 PRB0251565 film. sheet resistance = 8.0 Ohm at 300 K. NbN Nb1N1 Nb 1 N 1 4 1982 AB K meV 3.23 4.4 2 sputtering Far-infrared transmission of superconducting homogeneous NbN films: Scattering time effects 1982 "Phys.Rev.B, 25(1982)1565"
131326 PRB0251565 film. sheet resistance = 65 Ohm at 300K. NbN Nb1N Nb 1 N 4 1982 AB K meV 2.45 4.1 2 sputtering Far-infrared transmission of superconducting homogeneous NbN films: Scattering time effects 1982 "Phys.Rev.B, 25(1982)1565"
131327 PRL0351732 hydrostatic pressure. (dHc2/dT) = 0.09 T/K at P=0.9 GPa. SN S1N1 S 1 N 1 1975 AB K MTC131327 T/K 0.17 "Pressure dependence of superconductivity and normal conductivity in polymeric sulphur nitride, (SN)x" 1975 "Phys.Rev.Lett., 35(1975)1732"
131328 SSC0630141 "ANN(1770K, 0.25h, under 6GPa)" delta-MoN Mo1N1 Mo 1 N 1 1987 AB A 5.745 5.622 K 15.1 1.9 15.1 "MoCl5 - react (920K, in NH3 flow)" HIGH-PRESSURE HIGH-TEMPERATURE EXPERIMENTS ON Z-MON 1987 "SOLID STATE COMMUN.,63(1987)141" "MO,N"
131329 SSC0630141 as-grown delta-MoN Mo1N1 Mo 1 N 1 1987 AB A 2.85 2.784 K 3.2 1.9 3.2 "MoCl5 - react (920K, in NH3 flow)" HIGH-PRESSURE HIGH-TEMPERATURE EXPERIMENTS ON Z-MON 1987 "SOLID STATE COMMUN.,63(1987)141" "MO,N"
131330 SSC0610101 inductive penetration depth U6Fe Fe1U6 Fe 1 U 6 1987 AB6 U6Mn K 3.86 3.86 um induction 0.8 "arc-melting - ANN(700C,1w, in vac)" "Penetration depths of superconducting U6X (X=Fe,Co,Mn)" 1987 "Solid State Commun., 61(1987)101"
131331 SSC0610101 inductive penetration depth U6Co Co1U6 Co 1 U 6 1987 AB6 U6Mn K 2.43 2.43 um induction 1.3 "arc-melting - ANN(700C,1w, in vac)" "Penetration depths of superconducting U6X (X=Fe,Co,Mn)" 1987 "Solid State Commun., 61(1987)101"
131332 SSC0610101 chemical analysis: U6Mn0.95Fe0.05. inductive penetration depth U6Mn Mn1U6 Mn 1 U 6 1987 AB6 U6Mn K 2.88 2.88 um induction 1.6 "arc-melting - ANN(700C,1w, in vac)" "Penetration depths of superconducting U6X (X=Fe,Co,Mn)" 1987 "Solid State Commun., 61(1987)101"
131333 SSC0470519 R not to zero down to 1.5 K. Lu3Si5 Lu3Si5 Lu 3 Si 5 1983 A3B5 K 7 7 Transport and magnetic properties of layered rare earth disilisides 1983 "Solid State Commun., 47(1983)519"
131334 CEM0770401 Tc defined as 0.9Rn. LiTi2O4 Li1Ti2O4 Li 1 Ti 2 O 4 1988 AB2C4 spinel MgAl2O4-type K 11.8 12 11.9 T "resistivity, WHH" 12.9 T/K resistivity 1.53 HC131334 "Firstly Li1.333Ti1.667O4 synthesized by solid state reaction. Then mixed with TiO2, Ti powder, heat(760C,1w, in evacuated silica tube" Superconducting properties in the Li1+xTi2-xO4 system with the spinel structure 1988 "J.Solid State Chem., 77(1988)401"
131335 CEM0770401 Tc defined as 0.9Rn. LiTi2O4 Li1.035Ti1.965O4 Li 1.035 Ti 1.965 O 4 1988 AB2C4 spinel MgAl2O4-type K 11.5 12 11.75 T "resistivity, WHH" 21.4 T/K resistivity 2.62 HC131335 "Firstly Li1.333Ti1.667O4 synthesized by solid state reaction. Then mixed with TiO2, Ti powder, heat(760C,1w, in evacuated silica tube" Superconducting properties in the Li1+xTi2-xO4 system with the spinel structure 1988 "J.Solid State Chem., 77(1988)401"
131336 CEM0770401 Tc defined as 0.9Rn. LiTi2O4 Li1.07Ti1.93O4 Li 1.07 Ti 1.93 O 4 1988 AB2C4 spinel MgAl2O4-type K 11.4 12 11.7 T "resistivity, WHH" 24.8 T/K resistivity 3.03 HC131336 "Firstly Li1.333Ti1.667O4 synthesized by solid state reaction. Then mixed with TiO2, Ti powder, heat(760C,1w, in evacuated silica tube" Superconducting properties in the Li1+xTi2-xO4 system with the spinel structure 1988 "J.Solid State Chem., 77(1988)401"
131337 CEM0770401 Tc defined as 0.9Rn. LiTi2O4 Li1.1Ti1.9O4 Li 1.1 Ti 1.9 O 4 1988 AB2C4 spinel MgAl2O4-type K 8.5 12 10.25 T "resistivity, WHH" 36.9 T/K resistivity 4.47 HC131337 "Firstly Li1.333Ti1.667O4 synthesized by solid state reaction. Then mixed with TiO2, Ti powder, heat(760C,1w, in evacuated silica tube" Superconducting properties in the Li1+xTi2-xO4 system with the spinel structure 1988 "J.Solid State Chem., 77(1988)401"
131338 JPS0280263 as-grown LaSi2 La1Si2 La 1 Si 2 1970 AB2 ThSi2 A 4.312 13.841 alpha-ThSi2 K 2.3 2.3 arc-melting Superconductivity of LaSi2 1970 "J.Phys.Soc.Jpn, 28(1970)263"
131339 JPS0280263 "ANN(1450C,50h, in vac)" LaSi2 La1Si2 La 1 Si 2 1970 AB2 ThSi2 A 4.29 4.2 14.06 "alpha-ThSi2, ortho-" K 1.2 arc-melting Superconductivity of LaSi2 1970 "J.Phys.Soc.Jpn, 28(1970)263"
131340 JPS0280263 as-grown LaSi1.75 La1Si1.75 La 1 Si 1.75 1970 AB2 ThSi2 A 4.28 4.19 14.02 "alpha-ThSi2, ortho-, distorted" K 1.2 arc-melting Superconductivity of LaSi2 1970 "J.Phys.Soc.Jpn, 28(1970)263"
131341 PL0200565 SUS(300K) = -15.0 E-5 emu/mol YSi1.9 Si1.9Y1 Si 1.9 Y 1 1966 AB2 ThSi2 K 0.1 mJ/mol.K2 1.9 arc-melting Anomalous specific heat of superconducting lanthanum and yttrium compounds 1966 "Phys.Lett., 20(1966)565"
131342 PL0200565 (dC/gamma*Tc) = 0.90. SUS(300K) = 4.5 E-5 emu/mol LaSi2 La1Si2 La 1 Si 2 1966 AB2 ThSi2 K 2.3 2.3 mJ/mol.K2 5.8 arc-melting Anomalous specific heat of superconducting lanthanum and yttrium compounds 1966 "Phys.Lett., 20(1966)565"
131343 PL0200565 (dC/gamma*Tc) = 0.76. SUS(300K) = -6.8 E-5 emu/mol LaGe2 Ge2La1 Ge 2 La 1 1966 AB2 ThSi2 K 2.2 2.2 mJ/mol.K2 6.1 arc-melting Anomalous specific heat of superconducting lanthanum and yttrium compounds 1966 "Phys.Lett., 20(1966)565"
131344 CEM0980291 La2Sn5 La2Sn5 La 2 Sn 5 1992 A2B5 Ce2Sn5 Cmmm A 4.6233 35.7425 4.6817 K 5.4 5.4 Crystal chemistry and magnetism of neodymium stannides including compounds of the structural series REnSn3n-2 1992 "J.Solid State Chem., 98(1992)291"
131345 CEM0980291 LaSn2 La1Sn2 La 1 Sn 2 1992 AB2 NdSn2 Cmmm A 4.4267 15.8552 4.5136 K 3.6 3.6 Crystal chemistry and magnetism of neodymium stannides including compounds of the structural series REnSn3n-2 1992 "J.Solid State Chem., 98(1992)291"
131346 CEM0980291 La3Sn7 La3Sn7 La 3 Sn 7 1992 A3B7 Ce3Sn5 Cmmm A 4.5643 26.1558 4.671 K 2 Crystal chemistry and magnetism of neodymium stannides including compounds of the structural series REnSn3n-2 1992 "J.Solid State Chem., 98(1992)291"
131347 SSC0180725 mother metal: dhcp-La "(La,Lu)" La0.92Lu0.08 La 0.92 Lu 0.08 1976 dhcp-La K 3.72 3.72 "arc-melting - cold roll(25% reduction) - heat(725K,2h) - cool to 375 K - ANN(540K,1w)" Superconductivity in singlet La-Pr and in nonmagnetic La-rare earth alloys 1976 "Solid State Commun., 18(1976)725"
131348 SSC0180725 mother metal: dhcp-La "(La,Y)" La0.8Y0.2 La 0.8 Y 0.2 1976 dhcp-La K 2.7 2.7 "arc-melting - cold roll(25% reduction) - heat(725K,2h) - cool to 375 K - ANN(540K,1w)" Superconductivity in singlet La-Pr and in nonmagnetic La-rare earth alloys 1976 "Solid State Commun., 18(1976)725"
131349 SSC0180725 mother metal: dhcp-La "(La,Pr)" La0.84Pr0.16 La 0.84 Pr 0.16 1976 dhcp-La K 2.2 2.2 "arc-melting - cold roll(25% reduction) - heat(725K,2h) - cool to 375 K - ANN(540K,1w)" Superconductivity in singlet La-Pr and in nonmagnetic La-rare earth alloys 1976 "Solid State Commun., 18(1976)725"
131350 SSC0180725 mother metal: dhcp-La "(La,Yb)" La0.93Yb0.07 La 0.93 Yb 0.07 1976 dhcp-La K 3.56 3.56 "arc-melting - cold roll(25% reduction) - heat(725K,2h) - cool to 375 K - ANN(540K,1w)" Superconductivity in singlet La-Pr and in nonmagnetic La-rare earth alloys 1976 "Solid State Commun., 18(1976)725"
131351 SSC0180725 mother metal: dhcp-La "(La,Nd)" La0.98Nd0.02 La 0.98 Nd 0.02 1976 dhcp-La K 3.6 3.6 "arc-melting - cold roll(25% reduction) - heat(725K,2h) - cool to 375 K - ANN(540K,1w)" Superconductivity in singlet La-Pr and in nonmagnetic La-rare earth alloys 1976 "Solid State Commun., 18(1976)725"
131352 JPS0370673 Tc defined as mid of SP-jump La3Al Al1La3 Al 1 La 3 1974 AB3 7 Mg3Cd "DO<19>, Mg3Cd, hexagonal" K 6 6 T "SP-heat, extrapolation" 2.7 MHC131352 "La(4N),Ce(3N),Al(5N)" "melt by EB in vac. - wrapped in Ta-foil - sealed in evacuated quartz tube - ANN(500C,18h)" "Magnetic impurity effects in Kondo superconductor, La3Al(Ce)" 1974 "J.Phys.Soc.Jpn, 37(1974)673"
131353 JPS0370673 Tc defined as mid of SP-jump "(La,Ce)3Al" Al1Ce0.01La3 Al 1 Ce 0.01 La 3 1974 AB3 7 Mg3Cd "DO<19>, Mg3Cd, hexagonal" K 3.92 3.92 MHC131353 "La(4N),Ce(3N),Al(5N)" "melt by EB in vac. - wrapped in Ta-foil - sealed in evacuated quartz tube - ANN(500C,18h)" "Magnetic impurity effects in Kondo superconductor, La3Al(Ce)" 1974 "J.Phys.Soc.Jpn, 37(1974)673"
131354 JPS0370673 Tc defined as mid of SP-jump "(La,Ce)3Al" Al1Ce0.0165La3 Al 1 Ce 0.0165 La 3 1974 AB3 7 Mg3Cd "DO<19>, Mg3Cd, hexagonal" K 1.45 1.45 MTC131354 "La(4N),Ce(3N),Al(5N)" "melt by EB in vac. - wrapped in Ta-foil - sealed in evacuated quartz tube - ANN(500C,18h)" "Magnetic impurity effects in Kondo superconductor, La3Al(Ce)" 1974 "J.Phys.Soc.Jpn, 37(1974)673"
131355 JPS0370673 Tc defined as mid of SP-jump "(La,Ce)3Al" Al1Ce0.017La3 Al 1 Ce 0.017 La 3 1974 AB3 7 Mg3Cd "DO<19>, Mg3Cd, hexagonal" K 0.77 0.77 "La(4N),Ce(3N),Al(5N)" "melt by EB in vac. - wrapped in Ta-foil - sealed in evacuated quartz tube - ANN(500C,18h)" "Magnetic impurity effects in Kondo superconductor, La3Al(Ce)" 1974 "J.Phys.Soc.Jpn, 37(1974)673"
131356 JPS0370673 Tc defined as mid of SP-jump "(La,Gd)3Al" Al1Gd0.001La3 Al 1 Gd 0.001 La 3 1974 AB3 7 Mg3Cd "DO<19>, Mg3Cd, hexagonal" K 5.6 5.6 "La(4N),Ce(3N),Al(5N)" "melt by EB in vac. - wrapped in Ta-foil - sealed in evacuated quartz tube - ANN(500C,18h)" "Magnetic impurity effects in Kondo superconductor, La3Al(Ce)" 1974 "J.Phys.Soc.Jpn, 37(1974)673"
131357 JPS0370673 Tc defined as mid of SP-jump "(La,Gd)3Al" Al1Gd0.003La3 Al 1 Gd 0.003 La 3 1974 AB3 7 Mg3Cd "DO<19>, Mg3Cd, hexagonal" K 4.58 4.58 MTC131357 "La(4N),Ce(3N),Al(5N)" "melt by EB in vac. - wrapped in Ta-foil - sealed in evacuated quartz tube - ANN(500C,18h)" "Magnetic impurity effects in Kondo superconductor, La3Al(Ce)" 1974 "J.Phys.Soc.Jpn, 37(1974)673"
131358 JPS0370673 Tc defined as mid of SP-jump "(La,Gd)3Al" Al1Gd0.0065La3 Al 1 Gd 0.0065 La 3 1974 AB3 7 Mg3Cd "DO<19>, Mg3Cd, hexagonal" K 2.79 2.79 "La(4N),Ce(3N),Al(5N)" "melt by EB in vac. - wrapped in Ta-foil - sealed in evacuated quartz tube - ANN(500C,18h)" "Magnetic impurity effects in Kondo superconductor, La3Al(Ce)" 1974 "J.Phys.Soc.Jpn, 37(1974)673"
131359 SSC0160409 Tc by ac inductance LaSn3 La1Sn3 La 1 Sn 3 1975 AB3 Cu3Au A 4.773 K 5.98 5.98 MTC131359 Anomalous Tc-behavior of LaSn3 under pressure 1975 "Solid State Commun., 16(1975)409"
131360 SSC0170241 RRR=31. Longtudinal ultrasonic attenuation measured. LaSn3 La1Sn3 La 1 Sn 3 1975 AB3 Cu3Au K 6.628 6.628 Ultrasonic attenuation in pure and Gd-doped superconductors: LaSn3 and LaAl2 1975 "Solid State Commun., 17(1975)241"
131361 SSC0170241 RRR=50. Longtudinal ultrasonic attenuation measured. LaAl2 Al2La1 Al 2 La 1 1975 AB2 MgCu2(Laves) "MgCu2, C15" K 3.273 3.273 Ultrasonic attenuation in pure and Gd-doped superconductors: LaSn3 and LaAl2 1975 "Solid State Commun., 17(1975)241"
131362 SSC0260469 LaSn3 La1Sn3 La 1 Sn 3 1978 AB3 Cu3Au K 6.43 6.43 mJ/mol.K2 11.66 SP-heat 220 SP-heat Superconducting and normal state properties of dilute alloys of LaSn3 containing Ce impurities 1978 "Solid State Commun., 26(1978)469"
131363 SSC0260469 "(La,Ce)Sn3" La0.9837Ce0.0163Sn3 La 0.9837 Ce 0.0163 Sn 3 1978 AB3 Cu3Au K 4.33 4.33 MTC131365 Superconducting and normal state properties of dilute alloys of LaSn3 containing Ce impurities 1978 "Solid State Commun., 26(1978)469"
131364 SSC0260469 "(La,Ce)Sn3" La0.9647Ce0.0333Sn3 La 0.9647 Ce 0.0333 Sn 3 1978 AB3 Cu3Au K 3.03 3.03 MTC131364 Superconducting and normal state properties of dilute alloys of LaSn3 containing Ce impurities 1978 "Solid State Commun., 26(1978)469"
131365 SSC0260469 "(La,Ce)Sn3" La0.9462Ce0.0538Sn3 La 0.9462 Ce 0.0538 Sn 3 1978 AB3 Cu3Au K 1.86 1.86 MTC131365 Superconducting and normal state properties of dilute alloys of LaSn3 containing Ce impurities 1978 "Solid State Commun., 26(1978)469"
131366 SSC0260469 "(La,Ce)Sn3" La0.9709Ce0.0291Sn3 La 0.9709 Ce 0.0291 Sn 3 1978 AB3 Cu3Au K 3.47 3.47 MTC131365 mJ/mol.K2 11.49 SP-heat 232 SP-heat Superconducting and normal state properties of dilute alloys of LaSn3 containing Ce impurities 1978 "Solid State Commun., 26(1978)469"
131367 SSC0260469 "(La,Ce)Sn3" La0.9481Ce0.0519Sn3 La 0.9481 Ce 0.0519 Sn 3 1978 AB3 Cu3Au K 1.92 1.92 MTC131365 mJ/mol.K2 16.1 SP-heat 220 SP-heat Superconducting and normal state properties of dilute alloys of LaSn3 containing Ce impurities 1978 "Solid State Commun., 26(1978)469"
131368 SSC0740621 Jc = 20 A/cm2 LiTi2O4 Li1Ti2O4 Li 1 Ti 2 O 4 1 1990 AB2C4 spinel MgAl2O4-type K 12.7 12.7 MAGNETIC SUPERCONDUCTING PROPERTIES OF LITI2O4 SINGLE CRYSTAL 1990 "IPCMS-GEMME (UMR 46 CNRS), UNIVERSITE LOUIS KPASTEUR, 4 RUE BLAISE PASCAL, 67070 STRASBOURG, FRANCE" "SOLID STATE COMMUN,74(1990)621" "LI,TI,O"
131369 SSC0740621 Jc = 4E+3 A/cm2 LiTi2O4 Li1Ti2O4 Li 1 Ti 2 O 4 3 1990 AB2C4 spinel A 8.409 MgAl2O4-type K 10.7 10.7 Oe magnetization 230 150 4.2 HC131369 A 19 A 2000 "electrolysing at 780C. molten bath (NaBO2,LiBO2,NaF,TiO2)" MAGNETIC SUPERCONDUCTING PROPERTIES OF LITI2O4 SINGLE CRYSTAL 1990 "IPCMS-GEMME (UMR 46 CNRS), UNIVERSITE LOUIS KPASTEUR, 4 RUE BLAISE PASCAL, 67070 STRASBOURG, FRANCE" "SOLID STATE COMMUN,74(1990)621" "LI,TI,O"
131370 JPS0440402 "(La,Y)" La0.85Y0.15 La 0.85 Y 0.15 1978 K 3.06 3.06 mJ/mol.K 35.04 mJ/mol.K2 6.9 SP-heat Magnetic impurities in superconductors; La(Ce)Sn3-xPbx and La1-yYy(Ce) systems 1978 "J.Phys.Soc.Jpn, 44(1978)402"
131371 JCG1420087 "Jc(6K, 0T) = 1.0 E+6 A/cm2" LiTi2O4 Li1Ti2O4 Li 1 Ti 2 O 4 1994 AB2C4 spinel Fd3[-]m A 8.372 MgAl2O4-type K 11.5 1.5 11.5 70 Oe magnetization 250 6 "electrolysis method. bath(TiO2,LiBO2)" Crystal growth of superconducting LiTi2O4 1994 "J.Cryst.Growth, 142(1994)87"
131372 PRL0572987 tunneling with barrier film(40A). "(Mo,Re)" Mo0.6Re0.4 Mo 0.6 Re 0.4 1986 K 12.3 12.3 3.86 1 Enhanced superconductivity by electron renormalization of a directly observed Brout-Visscher local phonon: Re in Mo1-xRex 1986 "Phys.Rev.Lett., 57(1986)2987"
131373 PRL0761525 d=4000A. RRR = nearly one. NbN N1Nb1 N 1 Nb 1 5 1996 K 16.5 16.5 meV 6 4 2 films prepared by dc reactive magnetron sputtering on MgO substrate (Tsub = 840C) Grazing incidence infrared reflectivity of La1.85Sr0.15CuO4 and NbN 1996 "Phys.Rev.Lett., 76(1996)1525"
131374 LES0620329 Mo6S8 Mo6S8 Mo 6 S 8 1978 A3B4 K 2 mJ/mol.K2 27.3 SP-heat 126.5 SP-heat Heat capacity and magnetic properties of Mo6S8 and Mo6Se8 at low temperatures 1978 "J.Les-Comm. Metals, 62(1978)329"
131375 LES0620329 Mo6Se8 Mo6Se8 Mo 6 Se 8 1978 A3B4 K 6.4 6.4 mJ/mol.K2 73 SP-heat 84 SP-heat Heat capacity and magnetic properties of Mo6S8 and Mo6Se8 at low temperatures 1978 "J.Les-Comm. Metals, 62(1978)329"
131376 SSC0211007 irradiation effect of Tc measured. irradiation at 140 C. Mo3Os Mo3Os1 Mo 3 Os 1 1 1977 AB3 Cr3Si(A15) A 4.968 "Cr3Si, A15" K 12.7 12.7 MTC131376 "arc-melting. ANN(1850 C,15h+1450C,25h+1000C,10d+950C,9d+800C,20d)" Superconductivity of neutron irradiated Mo3Os 1977 "Solid State Commun., 21(1977)1007"
131377 PRL0280681 data from other papers. "(Nb,Mo)" Mo0.15Nb0.85 Mo 0.15 Nb 0.85 1972 K 5.85 5.85 mJ/mol.K2 6.3 265 "Acoustic plasmons, phonon anomalies, and superconductivity in transition-metal systems" 1972 "Phys.Rev.Lett., 28(1972)681"
131378 PRL0280681 data from other papers. "(Nb,Mo)" Mo0.4Nb0.6 Mo 0.4 Nb 0.6 1972 K 0.6 0.6 mJ/mol.K2 2.87 371 "Acoustic plasmons, phonon anomalies, and superconductivity in transition-metal systems" 1972 "Phys.Rev.Lett., 28(1972)681"
131379 PRL0280681 data from other papers. "(Nb,Mo)" Mo0.8Nb0.2 Mo 0.8 Nb 0.2 1972 K 0.095 0.095 mJ/mol.K2 1.49 461 "Acoustic plasmons, phonon anomalies, and superconductivity in transition-metal systems" 1972 "Phys.Rev.Lett., 28(1972)681"
131380 SSC0900321 "Tc(P=0.1 MPa) = 2.1 K. Under ambient p, Tc not given." La7Ni3 La7Ni3 La 7 Ni 3 1 1994 A3B7 7 Th7Fe3 hexagonal K 2.1 2.1 arc-melting Electrical resistivity of Ce7Ni3 under high pressure 1994 "Solid State Commun., 90(1994)321"
131381 SSC0900321 R(min) at 3.5 K. R(peak) = 1.7 K due to magneic order Ce7Ni3 Ce7Ni3 Ce 7 Ni 3 3 1994 A3B7 Th7Fe3 K 1.5 arc-melting Electrical resistivity of Ce7Ni3 under high pressure 1994 "Solid State Commun., 90(1994)321"
131382 LES0320173 Tc determined by measuring M(T) at H = 30 Oe. LaOs2 La1Os2 La 1 Os 2 1973 AB2 MgCu2(Laves) "MgCu2, C15" K 8.9 8.9 Superconductivity of LaOs2 1973 "J.Les-Comm. Metals, 32(1973)173"
131383 LES0320173 Tc determined by measuring M(T) at H = 30 Oe. MgZn2-phase induced by high-T and P LaOs2 La1Os2 La 1 Os 2 1973 AB2 MgZn2(Laves) "MgZn2, C14" K 5.9 5.9 Superconductivity of LaOs2 1973 "J.Les-Comm. Metals, 32(1973)173"
131384 SSC0160923 Tc by spin resonance of 4000 ppmGd-LaOs2 LaOs2 La1Os2 La 1 Os 2 1975 AB2 MgCu2(Laves) "MgCu2, C15" K 9 9 mJ/mol.K2 15 Spin resonance of Gd in LaOs2 1975 "Solid State Commun., 16(1975)923"
131385 SSC0391293 "(dTc/dP) calculated from thermal expansion. At T=5K, a=8.754, c=8.613. linear thermal expansion coeff. = 8 E-8 /K at 8 K.. (dHc2/dP) = 418 T/GPa at P=0." La3S4 La3S4 La 3 S 4 3 1981 A3B4 A 8.724 K 8.05 8.05 K/GPa 1.35 Bridgman method Thermal expansion of La3S4 at low temperatures 1981 "Solid State Commun., 39(1981)1293"
131386 MRB0101111 structural transformation T0: (dT0/dP) = 1.6 K/kbar. hydrostatic and non-hydrostatic Tc(P) were measured. La3S4 La3S4 La 3 S 4 1 1975 A3B4 Th3P4 K 8.12 8.12 MTC131386 "mixture - sealed in quartz tube - heat(800C,24h) - press to pellet - sealed in Ta in Ar-gas - heat(1700C, inductive)" "The effect of pressure on the superconducting and crystallographic transitions of La3S4, La3Se4 and La3Te4" 1975 "Mat.Res.Bull., 10(1975)1111"
131387 MRB0101111 hydrostatic and non-hydrostatic Tc(P) were measured. La3Se4 La3Se4 La 3 Se 4 1 1975 A3B4 Th3P4 K 7.63 7.63 MTC131387 "mixture - sealed in quartz tube - heat(800C,24h) - press to pellet - sealed in Ta in Ar-gas - heat(1700C, inductive)" "The effect of pressure on the superconducting and crystallographic transitions of La3S4, La3Se4 and La3Te4" 1975 "Mat.Res.Bull., 10(1975)1111"
131388 MRB0101111 hydrostatic and non-hydrostatic Tc(P) were measured. La3Te4 La3Te4 La 3 Te 4 1 1975 A3B4 Th3P4 K 4.61 4.61 MTC131388 K/GPa -0.635 "mixture - sealed in quartz tube - heat(800C,24h) - press to pellet - sealed in Ta in Ar-gas - heat(1700C, inductive)" "The effect of pressure on the superconducting and crystallographic transitions of La3S4, La3Se4 and La3Te4" 1975 "Mat.Res.Bull., 10(1975)1111"
131389 LES0550103 microanalysis: LaSb1.95-2.03 LaSb2 La1Sb2 La 1 Sb 2 1977 AB2 3 SmSb2 ortho- K 0.4 0.4 "mixture - react in sealed Ta-tube - molten ingot - ANN(50-100C, 8h)" Superconductivity of lanthanum pnictides 1977 "J.Les-Comm. Metals, 55(1977)103"
131390 LES0550103 LaN La1N1 La 1 N 1 1977 AB 1 NaCl cubic K 1 1 "mixture - react in sealed Ta-tube - molten ingot - ANN(50-100C, 8h)" Superconductivity of lanthanum pnictides 1977 "J.Les-Comm. Metals, 55(1977)103"
131391 LES0550103 LaP La1P1 La 1 P 1 1977 AB 1 NaCl cubic K 0.015 "mixture - react in sealed Ta-tube - molten ingot - ANN(50-100C, 8h)" Superconductivity of lanthanum pnictides 1977 "J.Les-Comm. Metals, 55(1977)103"
131392 LES0550103 LaAs As1La1 As 1 La 1 1977 AB 1 NaCl cubic K 0.08 "mixture - react in sealed Ta-tube - molten ingot - ANN(50-100C, 8h)" Superconductivity of lanthanum pnictides 1977 "J.Les-Comm. Metals, 55(1977)103"
131393 LES0550103 LaSb La1Sb1 La 1 Sb 1 1977 AB 1 NaCl cubic K 0.03 "mixture - react in sealed Ta-tube - molten ingot - ANN(50-100C, 8h)" Superconductivity of lanthanum pnictides 1977 "J.Les-Comm. Metals, 55(1977)103"
131394 LES0550103 LaBi Bi1La1 Bi 1 La 1 1977 AB 1 NaCl cubic K 0.08 "mixture - react in sealed Ta-tube - molten ingot - ANN(50-100C, 8h)" Superconductivity of lanthanum pnictides 1977 "J.Les-Comm. Metals, 55(1977)103"
131395 LES0550103 La4As3 As3La4 As 3 La 4 1977 A3B4 1 Th3P4 A 9.203 "cubic, anti-Th3P4" K 6.5 6.5 "mixture - react in sealed Ta-tube - molten ingot - ANN(50-100C, 8h)" Superconductivity of lanthanum pnictides 1977 "J.Les-Comm. Metals, 55(1977)103"
131396 LES0550103 La4Sb3 La4Sb3 La 4 Sb 3 1977 A3B4 1 Th3P4 A 9.6485 "cubic, anti-Th3P4" K 0.25 0.25 "mixture - react in sealed Ta-tube - molten ingot - ANN(50-100C, 8h)" Superconductivity of lanthanum pnictides 1977 "J.Les-Comm. Metals, 55(1977)103"
131397 LES0550103 "La4(Sb,Bi)3" Bi1.5La4Sb1.5 Bi 1.5 La 4 Sb 1.5 1977 A3B4 1 Th3P4 A 9.804 "cubic, anti-Th3P4" K 0.158 0.158 "mixture - react in sealed Ta-tube - molten ingot - ANN(50-100C, 8h)" Superconductivity of lanthanum pnictides 1977 "J.Les-Comm. Metals, 55(1977)103"
131398 LES0550103 La4Bi3 Bi3La4 Bi 3 La 4 1977 A3B4 1 Th3P4 A 9.79 "cubic, anti-Th3P4" K 0.155 0.155 "mixture - react in sealed Ta-tube - molten ingot - ANN(50-100C, 8h)" Superconductivity of lanthanum pnictides 1977 "J.Les-Comm. Metals, 55(1977)103"
131399 LES0550103 La3YSb3 La3Sb3Y1 La 3 Sb 3 Y 1 1977 A3B4 1 Th3P4 A 9.553 "cubic, anti-Th3P4" K 0.13 0.13 "mixture - react in sealed Ta-tube - molten ingot - ANN(50-100C, 8h)" Superconductivity of lanthanum pnictides 1977 "J.Les-Comm. Metals, 55(1977)103"
131400 LES0550103 La4Sb2Sn La4Sb2Sn1 La 4 Sb 2 Sn 1 1977 A3B4 1 Th3P4 A 9.686 "cubic, anti-Th3P4" K 0.08 "mixture - react in sealed Ta-tube - molten ingot - ANN(50-100C, 8h)" Superconductivity of lanthanum pnictides 1977 "J.Les-Comm. Metals, 55(1977)103"
131401 LES0550103 La4Sb2Pb La4Pb1Sb2 La 4 Pb 1 Sb 2 1977 A3B4 1 Th3P4 A 9.707 "cubic, anti-Th3P4" K 0.08 "mixture - react in sealed Ta-tube - molten ingot - ANN(50-100C, 8h)" Superconductivity of lanthanum pnictides 1977 "J.Les-Comm. Metals, 55(1977)103"
131402 LES0550103 La4Bi2Sn Bi2La4Sn1 Bi 2 La 4 Sn 1 1977 A3B4 1 Th3P4 A 9.779 "cubic, anti-Th3P4" K 0.08 "mixture - react in sealed Ta-tube - molten ingot - ANN(50-100C, 8h)" Superconductivity of lanthanum pnictides 1977 "J.Les-Comm. Metals, 55(1977)103"
131403 LES0550103 La4Bi2Pb Bi2La4Pb1 Bi 2 La 4 Pb 1 1977 A3B4 1 Th3P4 A 9.798 "cubic, anti-Th3P4" K 2.3 2.3 "mixture - react in sealed Ta-tube - molten ingot - ANN(50-100C, 8h)" Superconductivity of lanthanum pnictides 1977 "J.Les-Comm. Metals, 55(1977)103"
131404 LES0550103 "La4(Bi,Pb)3" Bi1.5La4Pb1.5 Bi 1.5 La 4 Pb 1.5 1977 A3B4 1 Th3P4 A 9.805 "cubic, anti-Th3P4" K 2.4 2.4 "mixture - react in sealed Ta-tube - molten ingot - ANN(50-100C, 8h)" Superconductivity of lanthanum pnictides 1977 "J.Les-Comm. Metals, 55(1977)103"
131405 LES0550103 La4BiPb2 Bi1La4Pb2 Bi 1 La 4 Pb 2 1977 A3B4 1 Th3P4 A 9.809 "cubic, anti-Th3P4" K 2.5 2.5 "mixture - react in sealed Ta-tube - molten ingot - ANN(50-100C, 8h)" Superconductivity of lanthanum pnictides 1977 "J.Les-Comm. Metals, 55(1977)103"
131406 LES0550103 La5Bi3 Bi3La5 Bi 3 La 5 1977 A3B5 3 Mo5Si3 hexagonal K 0.64 0.64 "mixture - react in sealed Ta-tube - molten ingot - ANN(50-100C, 8h)" Superconductivity of lanthanum pnictides 1977 "J.Les-Comm. Metals, 55(1977)103"
131407 LES0550103 La2Sb La2Sb1 La 2 Sb 1 1977 AB2 2 Ti2Bi tetragonal K 0.75 0.75 "mixture - react in sealed Ta-tube - molten ingot - ANN(50-100C, 8h)" Superconductivity of lanthanum pnictides 1977 "J.Les-Comm. Metals, 55(1977)103"
131408 LES0550103 La2Bi Bi1La2 Bi 1 La 2 1977 AB2 2 Ti2Bi tetragonal K 0.76 0.76 "mixture - react in sealed Ta-tube - molten ingot - ANN(50-100C, 8h)" Superconductivity of lanthanum pnictides 1977 "J.Les-Comm. Metals, 55(1977)103"
131409 JAC2050049 La3Ru La3Ru1 La 3 Ru 1 1994 emu/mol-La 0.00013 AB3 3 Fe3C ortho- K 5.55 5.55 Oe M-H curve 300 4.2 T M-H curve 0.35 4.2 mOhm.cm 0.075 Superconductivity in the La-Ru system 1994 "J.Alloys Compd., 205(1994)49"
131410 JAC2050049 La5Ru2 La5Ru2 La 5 Ru 2 1994 emu/mol-La 0.00018 A2B5 4 Mn5C2 monoclinic K 2.35 2.35 Oe M-H curve 200 1.5 T M-H curve 0.9 1.5 mOhm.cm 0.24 Superconductivity in the La-Ru system 1994 "J.Alloys Compd., 205(1994)49"
131411 JAC2050049 La7Ru3 La7Ru3 La 7 Ru 3 1994 emu/mol-La 0.00012 A3B7 3 Sr7Pt3 ortho K 1.75 1.75 Oe M-H curve 200 1.5 T M-H curve 0.22 1.5 mOhm.cm 0.22 Superconductivity in the La-Ru system 1994 "J.Alloys Compd., 205(1994)49"
131412 JAC1980165 RRR = 15.0. thermopowor S(T) measured. La3Ga Ga1La3 Ga 1 La 3 1993 AB3 1 A 5.61 K 5.8 5.8 arc-melting "Resistivity and thermopower studies on La3X (X = Al, Sn, In, Ru, Ir, Co, Ni, Ge, Ga) system" 1993 "J.Alloys Compd., 198(1993)165"
131413 JAC1980165 RRR = 17.0. thermopowor S(T) measured. La3In In1La3 In 1 La 3 1993 AB3 1 A 5.07 K 9.7 9.7 arc-melting "Resistivity and thermopower studies on La3X (X = Al, Sn, In, Ru, Ir, Co, Ni, Ge, Ga) system" 1993 "J.Alloys Compd., 198(1993)165"
131414 JAC1980165 RRR = 5.6. thermopowor S(T) measured. La3Sn La3Sn1 La 3 Sn 1 1993 AB3 1 A 5.102 K 6.2 6.2 arc-melting "Resistivity and thermopower studies on La3X (X = Al, Sn, In, Ru, Ir, Co, Ni, Ge, Ga) system" 1993 "J.Alloys Compd., 198(1993)165"
131415 JAC1980165 RRR = 4.2. thermopowor S(T) measured. La3Al Al1La3 Al 1 La 3 1993 AB3 7 A 7.192 5.528 K 5.8 5.8 arc-melting "Resistivity and thermopower studies on La3X (X = Al, Sn, In, Ru, Ir, Co, Ni, Ge, Ga) system" 1993 "J.Alloys Compd., 198(1993)165"
131416 JAC1980165 RRR = 13.5. thermopowor S(T) measured. La3Ge Ge1La3 Ge 1 La 3 1993 AB3 3 A 7.416 9.954 6.497 K 3.7 3.7 arc-melting "Resistivity and thermopower studies on La3X (X = Al, Sn, In, Ru, Ir, Co, Ni, Ge, Ga) system" 1993 "J.Alloys Compd., 198(1993)165"
131417 JAC1980165 RRR = 2.14. thermopowor S(T) measured. La3Ni La3Ni1 La 3 Ni 1 1993 AB3 3 A 7.189 10.16 6.65 K 6.2 6.2 arc-melting "Resistivity and thermopower studies on La3X (X = Al, Sn, In, Ru, Ir, Co, Ni, Ge, Ga) system" 1993 "J.Alloys Compd., 198(1993)165"
131418 JAC1980165 RRR = 1.9. thermopowor S(T) measured. La3Ir Ir1La3 Ir 1 La 3 1993 AB3 3 A 7.458 10.096 6.662 K 1.7 arc-melting "Resistivity and thermopower studies on La3X (X = Al, Sn, In, Ru, Ir, Co, Ni, Ge, Ga) system" 1993 "J.Alloys Compd., 198(1993)165"
131419 JAC1980165 RRR = 3.7. thermopowor S(T) measured. La3Ru La3Ru1 La 3 Ru 1 1993 AB3 3 A 7.465 10.016 6.57 K 4.2 4.2 arc-melting "Resistivity and thermopower studies on La3X (X = Al, Sn, In, Ru, Ir, Co, Ni, Ge, Ga) system" 1993 "J.Alloys Compd., 198(1993)165"
131420 JAC1980165 RRR = 10.0. thermopowor S(T) measured. La3Co Co1La3 Co 1 La 3 1993 AB3 3 A 7.282 10.02 6.594 K 4 4 arc-melting "Resistivity and thermopower studies on La3X (X = Al, Sn, In, Ru, Ir, Co, Ni, Ge, Ga) system" 1993 "J.Alloys Compd., 198(1993)165"
131421 JAC1980165 "(La,Gd)3In" Gd0.02In1La2.98 Gd 0.02 In 1 La 2.98 1993 AB3 K 7.9 7.9 MTP131421 arc-melting "Resistivity and thermopower studies on La3X (X = Al, Sn, In, Ru, Ir, Co, Ni, Ge, Ga) system" 1993 "J.Alloys Compd., 198(1993)165"
131422 JAC1980165 "(La,Gd)3In" Gd0.06In1La2.94 Gd 0.06 In 1 La 2.94 1993 AB3 K 4.1 4.1 MTP131422 arc-melting "Resistivity and thermopower studies on La3X (X = Al, Sn, In, Ru, Ir, Co, Ni, Ge, Ga) system" 1993 "J.Alloys Compd., 198(1993)165"
131423 JPS0632061 Two SC transition (2.2K and 1.5 K). See SP-fig. (dHc2/dT) = 0.29 T/K for lower-Tc phase. T^3 and T^5 term coeff. of SP are 1.70 mj/mol.K4 and 0.016 mJ/mol.K6. La3Ni La3Ni1 La 3 Ni 1 1994 AB3 3 Fe3C A 7.22 10.24 6.6 K 2.2 2.2 T/K SP 0.74 MHC131423 MSP131423 mJ/mol.K2 20.6 SP-heat 170 SP-heat arc-melting Is La3Ni a new unconventional superconductor? 1994 "J.Phys.Soc.Jpn, 63(1994)2061"
131424 JAP0736621 "RRR = 7.1. (dC/gamma*Tc) = 1.75. Hc2(2.17K) = 1.51 T, Hc2(3.6K) = 0.66 T" La3Co Co1La3 Co 1 La 3 1993 AB3 3 Fe3C Pmma K 4.4 4.4 Oe 1000 T "resistivity, extrapolation" 2.1 1.78 1.67 T/K "resistivity, extrapolation" 0.95 meV 1.3 14 MSP131424 mJ/mol.K2 26 SP-heat 127 SP-heat mOhm.cm 0.031 arc-melting Superconductivity in intermetallic compound La3Co 1993 "J.Appl.Phys., 73(1993)6621"
131425 LES0110186 "ANN(-50C, 6w)" Hg1-xInx Hg0.5In0.5 Hg 0.5 In 0.5 1966 K 3.8 3.82 3.81 New phase in the mercury-indium system 1966 "J.Less-Common Metals, 11(1966)186"
131426 LES0110186 "ANN(-50C, 6w)" Hg1-xInx Hg0.333In0.667 Hg 0.333 In 0.667 1966 K 4.08 4.15 4.115 New phase in the mercury-indium system 1966 "J.Less-Common Metals, 11(1966)186"
131427 LES0420355 as-cast. sigma-phase + (alpha)1 trace "(Nb,Ir)" Ir0.42Nb0.58 Ir 0.42 Nb 0.58 1975 K 4.2 4.2 "Superconductivity of new metastable phases of niobium-iridium, tantalum-iridium and tantalum-rhodium" 1975 "J.Less-Common Metals, 42(1975)355"
131428 LES0420355 as-cast "(Nb,Ir,O)" Ir0.4Nb0.55O0.05 Ir 0.4 Nb 0.55 O 0.05 1975 K 10.5 10.5 "Superconductivity of new metastable phases of niobium-iridium, tantalum-iridium and tantalum-rhodium" 1975 "J.Less-Common Metals, 42(1975)355"
131429 LES0420355 "ANN(900C,2d). (alpha)1-phase + sigma trace." "(Nb,Ir,O)" Ir0.455Nb0.455O0.09 Ir 0.455 Nb 0.455 O 0.09 1975 K 9.2 9.2 "Superconductivity of new metastable phases of niobium-iridium, tantalum-iridium and tantalum-rhodium" 1975 "J.Less-Common Metals, 42(1975)355"
131430 LES0420355 "ANN(1150C, 1d). sigma-phase + new phase." "(Ta,Rh,C)" C0.03Rh0.43Ta0.54 C 0.03 Rh 0.43 Ta 0.54 1975 K 10 10 "Superconductivity of new metastable phases of niobium-iridium, tantalum-iridium and tantalum-rhodium" 1975 "J.Less-Common Metals, 42(1975)355"
131431 LES0420355 quench. sigma-phase + new phase. "(Ta,Ir)" Ir0.42Ta0.58 Ir 0.42 Ta 0.58 1975 K 6.6 6.6 "Superconductivity of new metastable phases of niobium-iridium, tantalum-iridium and tantalum-rhodium" 1975 "J.Less-Common Metals, 42(1975)355"
131432 CEM0010143 chemical compositions not investigated. Tc range of 1.5 - 4.2 measured by magnetization GeP Ge1P1 Ge 1 P 1 1970 4.73 AB 2 A 3.544 5.581 K 4.2 4.2 mOhm.cm 0.09 0.1 "Synthesis, structure, and superconductivity of new high pressure phases in the systems Ge-P and Ge-As" 1970 "J.Solid State Chem., 1(1970)143"
131433 CEM0010143 chemical compositions not investigated. Tc range of 3 - 3.5 measured by magnetization GeAs As1Ge1 As 1 Ge 1 1970 6.06 AB 2 A 3.712 5.832 K 3.5 3.5 mOhm.cm 2.5 3.8 "Synthesis, structure, and superconductivity of new high pressure phases in the systems Ge-P and Ge-As" 1970 "J.Solid State Chem., 1(1970)143"
131434 JPS0610293 "ANN(600C,5d). [resrt] = R(280 K.)" U7Ge Ge1U7 Ge 1 U 7 1992 AB7 K 1.4 1.4 mJ/mol.K2 16 uV/K 9.1 uOhm.cm 2.57 6.59 "U(3N),Ge(6N)" "arc-melting - wrapped in Ta, Zr foil - sealed (quartz tube) - ANN(5d)" Magnetic and electrical properties of U-Ge intermetallic compounds 1992 "J.Phys.Soc.Jpn, 61(1992)293"
131435 JPS0610293 "ANN(900C,5d). [resrt] = R(280 K.)" U5Ge3 Ge3U5 Ge 3 U 5 1992 A3B5 7 A 8.72 5.84 hexagonal K 0.99 0.99 mJ/mol.K2 36 uV/K 10.4 uOhm.cm 87 123 "U(3N),Ge(6N)" "arc-melting - wrapped in Ta, Zr foil - sealed (quartz tube) - ANN(5d)" Magnetic and electrical properties of U-Ge intermetallic compounds 1992 "J.Phys.Soc.Jpn, 61(1992)293"
131436 JPS0610293 "ANN(900C,5d). Ferromag (92K)" U3Ge4 Ge4U3 Ge 4 U 3 1992 94 A3B4 3 A 5.88 9.92 8.94 ortho- K 1 "U(3N),Ge(6N)" "arc-melting - wrapped in Ta, Zr foil - sealed (quartz tube) - ANN(5d)" Magnetic and electrical properties of U-Ge intermetallic compounds 1992 "J.Phys.Soc.Jpn, 61(1992)293"
131437 JPS0610293 "ANN(900C,5d). [resrt] = R(280 K.). Ferromag(52K)" UGe2 Ge2U1 Ge 2 U 1 3 1992 52 AB2 3 A 4.09 15.2 3.96 ortho- K 1 mJ/mol.K2 35 uV/K 25.8 uOhm.cm 187 246 "U(3N),Ge(6N)" "arc-melting - wrapped in Ta, Zr foil - sealed (quartz tube) - ANN(5d)" Magnetic and electrical properties of U-Ge intermetallic compounds 1992 "J.Phys.Soc.Jpn, 61(1992)293"
131438 LES1540187 90%-A15 phase. chemical comp. = Nb82.68Ge17.32. RRR = 1.93 Nb3Ge Ge1Nb3 Ge 1 Nb 3 1 1989 AB3 Cr3Si(A15) A 5.168 "Cr3Si, A15" K 4.8 4.8 3.34 14 uOhm.cm 35.9 "arc-melting - ANN(950C,5d)" Electronic and phononic thermal conductivity of A15 polycristalline superconductors 1989 "J.Less-Common Metals, 154(1989)187"
131439 LES1540187 chemical comp. = V75.18Si24.82. RRR = 16.98 V3Si Si1V3 Si 1 V 3 1 1989 AB3 Cr3Si(A15) A 4.7262 "Cr3Si, A15" K 16 16 3.9 14 uOhm.cm 3.55 "arc-melting - ANN(950C,5d)" Electronic and phononic thermal conductivity of A15 polycristalline superconductors 1989 "J.Less-Common Metals, 154(1989)187"
131440 LES1540187 partially hydrogenated(interstitial H). chemical comp. = V74.8Ge25.2. RRR = 11.23 V3GeHx Ge1H0.005V3 Ge 1 H 0.005 V 3 1 1989 AB3 Cr3Si(A15) A 4.7832 "Cr3Si, A15" K 5.8 5.8 3.77 14 uOhm.cm 8.42 "arc-melting - ANN(950C,5d)" Electronic and phononic thermal conductivity of A15 polycristalline superconductors 1989 "J.Less-Common Metals, 154(1989)187"
131441 SSC0441083 24.9%-Ge. neutron irradiated ( n - 2.2 E+19 /cm2) at 70C. (dC/gamma*Tc) = 1.5. e-ph coupling = 0.54 Mo3Ge Ge1Mo3 Ge 1 Mo 3 1982 AB3 Cr3Si(A15) "Cr3Si, A15" K 4.25 4.25 MSP131441 mJ/gmol.K2 5.4 SP-heat 322 SP-heat "arc-melting - ANN(1600C,16h + 800C,2h)" Heat capacity measurements on irradiated and non-irradiated Mo3Ge and Mo5Ge3 1982 "Solid State Commun., 44(1982)1083"
131442 SSC0441083 24.9%-Ge. Mo3Ge Ge1Mo3 Ge 1 Mo 3 1982 AB3 Cr3Si(A15) "Cr3Si, A15" K 1.45 1.45 mJ/gmol.K2 4.9 SP-heat 392 SP-heat "arc-melting - ANN(1600C,16h + 800C,2h)" Heat capacity measurements on irradiated and non-irradiated Mo3Ge and Mo5Ge3 1982 "Solid State Commun., 44(1982)1083"
131443 SSC0441083 36.7%-Ge. neutron irradiated ( n - 2.2 E+19 /cm2) at 70C. (dC/gamma*Tc) = 1.2. e-ph coupling = 0.50 Mo5Ge3 Ge3Mo5 Ge 3 Mo 5 1982 AB3 Cr3Si(A15) "Cr3Si, A15" K 3.3 3.3 MSP131443 mJ/gmol.K2 12.8 SP-heat 320 SP-heat "arc-melting - ANN(1600C,16h + 800C,2h)" Heat capacity measurements on irradiated and non-irradiated Mo3Ge and Mo5Ge3 1982 "Solid State Commun., 44(1982)1083"
131444 SSC0441083 36.7%-Ge Mo5Ge3 Ge3Mo5 Ge 3 Mo 5 1982 AB3 Cr3Si(A15) "Cr3Si, A15" K 1.6 mJ/gmol.K2 12.3 SP-heat 377 SP-heat "arc-melting - ANN(1600C,16h + 800C,2h)" Heat capacity measurements on irradiated and non-irradiated Mo3Ge and Mo5Ge3 1982 "Solid State Commun., 44(1982)1083"
131445 JPS0580795 lattice term in SP (beta) = 1.20 mJ/mol.K4 U5Ge3 Ge3U5 Ge 3 U 5 1989 A3B5 7 A 8.56 5.83 hexagonal K 0.87 0.99 1.3 0.99 T "resistivity, WHH" 0.38 T/K resistivity 0.55 MHC131445 mJ/gmol.K2 180 SP-heat 118 SP-heat "arc-melting. - wrapped in Ta- and Zr-foil - ANN(900C,5d, in 1 E-6 Torr vac)" Superconductivity in U5Ge3 1989 "J.Phys.Soc.Jpn, 58(1989)795"
131446 SSC0170281 Debye-T from resistivity measurements PdH0.995 H0.995Pd1 H 0.995 Pd 1 1975 AB NaCl K 9 9.55 9.275 210 Electrical resistivity of Pd-Hx: II.Phonon resistivity 1975 "Solid State Commun., 17(1975)281"
131447 SSC0240733 target: arc-melted V3Ge. T_{= 1060 K. V3Ge Ge1V3 Ge 1 V 3 4 1977 AB3 Cr3Si(A15) "Cr3Si, A15" K 7.3 8.6 11.2 8.6 sputtered on sapphire substrates The sputtering of high Tc A15 Nb3Si and V3Ge 1977 "Solid State Commun., 24(1977)733"
131448 SSC0240733 target: arc-melted Nb3Si. T_{= 1370 K. Tc(R=0.1Rn) < 4.2 Nb3Si Nb3Si1 Nb 3 Si 1 4 1977 AB3 Cr3Si(A15) "Cr3Si, A15" K 8.6 14 8.6 sputtered on sapphire substrates The sputtering of high Tc A15 Nb3Si and V3Ge 1977 "Solid State Commun., 24(1977)733"
131449 SSC0390825 "He-ion(2MeV, RT) irradiation effect for V3Ge film. Tc = 4.5 K and 1.2 K for 2 E+16 and 2 E+17 /cm2 fluence, respectively." V3Ge Ge1V3 Ge 1 V 3 5 1981 AB3 Cr3Si(A15) "Cr3Si, A15" K 6 6 Radiation damage in the non-metal sublattices of V3Ge and V3Si single crystals 1981 "Solid State Commun., 39(1981)825"
131450 SSC0390825 "He-ion(300keV, RT) irradiation effect for V3Si film. Tc = 3.5 K and 2.5 K for 4 E+16 and 6 E+16 /cm2 fluence, respectively." V3Si Si1V3 Si 1 V 3 5 1981 AB3 Cr3Si(A15) "Cr3Si, A15" K 16.6 16.6 Radiation damage in the non-metal sublattices of V3Ge and V3Si single crystals 1981 "Solid State Commun., 39(1981)825"
131451 SSC0161085 Th4H15 H15Th4 H 15 Th 4 1975 A4B15 K 7.6 7.6 mJ/gmol.K2 0.82 SP-heat 200 SP-heat The heat capacity of Th and Th4H15 in the temperature range above 2 K 1975 "Solid State Commun., 16(1975)1085"
131452 SSC0210603 Debye-T calculated from phonon spectrum obtained inelastic neutron scattering measurements. ThH2 H2Th1 H 2 Th 1 1977 AB2 K 1 170 netron Phonon densities of states of the thorium hydrides 1977 "Solid State Commun., 21(1977)603"
131453 SSC0210603 Debye-T calculated from phonon spectrum obtained inelastic neutron scattering measurements. Th4H15 H15Th4 H 15 Th 4 1977 A4B15 K 7.6 0.3 7.6 250 netron Phonon densities of states of the thorium hydrides 1977 "Solid State Commun., 21(1977)603"
131454 SSC0230223 YGe2 Ge2Y1 Ge 2 Y 1 4 1977 AB2 Cc K 3.8 3.8 rf sputtering Superconductivity in non-cubic crystal structures 1977 "Solid State Commun., 23(1977)223"
131455 SSC0230223 ZrGe2 Ge2Zr1 Ge 2 Zr 1 4 1977 AB2 Cc K 8 8 rf sputtering Superconductivity in non-cubic crystal structures 1977 "Solid State Commun., 23(1977)223"
131456 SSC0230223 HfGe2 Ge2Hf1 Ge 2 Hf 1 4 1977 AB2 Cc K 2.2 2.2 rf sputtering Superconductivity in non-cubic crystal structures 1977 "Solid State Commun., 23(1977)223"
131457 SSC0820111 "P-induced SC. Tc shows for P=1.5 GPa. Resistivity anomaly at 15.2 K, which comes from AFM-AFM transition." TbGa6 Ga6Tb1 Ga 6 Tb 1 1992 18.8 AB6 A 5.936 7.56 PuGa5 K 4 6 0 5 MTC131457 "arc-melting - ANN(570C,3d, in quartz tube)" PRESSURE-INDUCED SUPERCONDUCTIVITY IN TBGA6 AND DYGA6 1992 SOLID STATE COMMUN.82(1992)111 "TB,GA,DY"
131458 SSC0820111 "P-induced SC. P = 1.1 GPa. (Tc,P) = (5.89K,1.25GPa), (5.97K, 1.5GPa). (Tn,P) = (11.3K, 0.5GPa), (10.7K, 1.0GPa), (9.83K, 1.5GPa). (dTn/dP) = -1.5 K/GPa." DyGa6 Dy1Ga6 Dy 1 Ga 6 1992 12.2 AB6 A 5.928 7.56 PuGa5 K 5.9 0 5.9 "arc-melting - ANN(570C,3d, in quartz tube)" PRESSURE-INDUCED SUPERCONDUCTIVITY IN TBGA6 AND DYGA6 1992 SOLID STATE COMMUN.82(1992)111 "TB,GA,DY"
131459 SSC0390773 S-O coupling (ramda) = 0.25 V3Ga Ga26.5V73.5 Ga 26.5 V 73.5 1981 AB3 Cr3Si(A15) A 4.82 "Cr3Si, A15" K 13.6 13.6 T "resstivity, so-coupling" 21.8 T/K resistivity 5.5 "V,Ga(6N)" "arc-melting - ANN(1400C,6h) - ANN(1100-1200C,24h)" Effect of composition on the upper critical field of V-Ga 1981 "Solid State Commun., 39(1981)773"
131460 SSC0390773 S-O coupling (ramda) = 0.3 V3Ga Ga25V75 Ga 25 V 75 1981 AB3 Cr3Si(A15) "Cr3Si, A15" K 15.3 15.3 T "resstivity, so-coupling" 23.4 T/K resistivity 4.3 MHC131460 "V,Ga(6N)" "arc-melting - ANN(1400C,6h) - ANN(1100-1200C,24h)" Effect of composition on the upper critical field of V-Ga 1981 "Solid State Commun., 39(1981)773"
131461 SSC0390773 S-O coupling (ramda) = 0.1 V3Ga Ga20.5V79.5 Ga 20.5 V 79.5 1981 AB3 Cr3Si(A15) "Cr3Si, A15" K 9.7 9.7 T "resstivity, so-coupling" 13 T/K resistivity 4.3 "V,Ga(6N)" "arc-melting - ANN(1400C,6h) - ANN(1100-1200C,24h)" Effect of composition on the upper critical field of V-Ga 1981 "Solid State Commun., 39(1981)773"
131462 SSC0390773 S-O coupling (ramda) = 0.2 V3Ga Ga22.2V77.8 Ga 22.2 V 77.8 1981 AB3 Cr3Si(A15) "Cr3Si, A15" K 12.3 12.3 T "resstivity, so-coupling" 17.8 T/K resistivity 4.3 "V,Ga(6N)" "arc-melting - ANN(1400C,6h) - ANN(1100-1200C,24h)" Effect of composition on the upper critical field of V-Ga 1981 "Solid State Commun., 39(1981)773"
131463 SSC0390773 S-O coupling (ramda) = 0.3 V3Ga Ga23.6V76.4 Ga 23.6 V 76.4 1981 AB3 Cr3Si(A15) "Cr3Si, A15" K 14.6 14.6 T "resstivity, so-coupling" 22.3 T/K resistivity 4.3 "V,Ga(6N)" "arc-melting - ANN(1400C,6h) - ANN(1100-1200C,24h)" Effect of composition on the upper critical field of V-Ga 1981 "Solid State Commun., 39(1981)773"
131464 SSC0390773 S-O coupling (ramda) = 0.25 V3Ga Ga24.8V75.2 Ga 24.8 V 75.2 1981 AB3 Cr3Si(A15) "Cr3Si, A15" K 15.1 15.1 T "resstivity, so-coupling" 22.5 T/K resistivity 4.3 "V,Ga(6N)" "arc-melting - ANN(1400C,6h) - ANN(1100-1200C,24h)" Effect of composition on the upper critical field of V-Ga 1981 "Solid State Commun., 39(1981)773"
131465 SSC0390773 S-O coupling (ramda) = 0.3 V3Ga Ga25.3V74.7 Ga 25.3 V 74.7 1981 AB3 Cr3Si(A15) "Cr3Si, A15" K 14.9 14.9 T "resstivity, so-coupling" 22.8 T/K resistivity 4.3 "V,Ga(6N)" "arc-melting - ANN(1400C,6h) - ANN(1100-1200C,24h)" Effect of composition on the upper critical field of V-Ga 1981 "Solid State Commun., 39(1981)773"
131466 SSC0390773 S-O coupling (ramda) = 0.3 V3Ga Ga28.1V71.9 Ga 28.1 V 71.9 1981 AB3 Cr3Si(A15) "Cr3Si, A15" K 12.2 12.2 T "resstivity, so-coupling" 20.3 T/K resistivity 5.5 "V,Ga(6N)" "arc-melting - ANN(1400C,6h) - ANN(1100-1200C,24h)" Effect of composition on the upper critical field of V-Ga 1981 "Solid State Commun., 39(1981)773"
131467 SSC0390773 S-O coupling (ramda) = 0.25 V3Ga Ga29.6V70.4 Ga 29.6 V 70.4 1981 AB3 Cr3Si(A15) "Cr3Si, A15" K 12.1 12.1 T "resstivity, so-coupling" 19.4 T/K resistivity 5.5 "V,Ga(6N)" "arc-melting - ANN(1400C,6h) - ANN(1100-1200C,24h)" Effect of composition on the upper critical field of V-Ga 1981 "Solid State Commun., 39(1981)773"
131468 SSC0141051 24.6 at%Gd. Two step transitions. (dC/Tc) = 125 mJ/g-mol.K2 at 13.4 K. V3Ga Ga1V3 Ga 1 V 3 1974 AB3 Cr3Si(A15) A 4.819 "Cr3Si, A15" K 15.2 15.2 mJ/gmol.K2 96 SP-heat 302 SP-heat "arc-melting. ANN(1300C,2h) + ANN(700C,3d)" Low temperature heat-capacity measurements of V3Ga and Nb3Al 1974 "Solid State Commun., 14(1974)1051"
131469 SSC0141051 24.6 At%Al. Two step transitions. (dC/Tc) = 60 mJ/g-mol.K2 at 15.7 K. Nb3Al Al1Nb3 Al 1 Nb 3 1974 AB3 Cr3Si(A15) A 5.182 "Cr3Si, A15" K 18.7 18.7 mJ/gmol.K2 30 SP-heat 230 SP-heat "arc-melting. heat(1940C,12min) and ANN(725C,50h)" Low temperature heat-capacity measurements of V3Ga and Nb3Al 1974 "Solid State Commun., 14(1974)1051"
131470 LES0990L27 composition: MoGa6 Mo8Ga41 Ga41Mo8 Ga 41 Mo 8 1984 R3[-] A 14.039 15.039 rhomb-Mo8Ga41 phase K 9.7 9.7 T resistivity 8.6 MHC131470 "mixture in alumina crucible - sealed in quartz tube(150 Torr-Ar) - heat(300C,1h) - heat(1000C,5h) - slow cool to RT" On the existence of binary Mo8Ga41 and its properties 1984 "J.Less-Common Metals, 99(1984)L27"
131471 LES0990L27 composition: MoGa5.3Au(1/6) Mo8Ga40Au Au1Ga40Mo8 Au 1 Ga 40 Mo 8 1984 R3[-] A 13.991 15.083 rhomb-Mo8Ga41 phase K 9.4 9.4 T resistivity 8.9 "mixture in alumina crucible - sealed in quartz tube(150 Torr-Ar) - heat(300C,1h) - heat(1000C,5h) - slow cool to RT" On the existence of binary Mo8Ga41 and its properties 1984 "J.Less-Common Metals, 99(1984)L27"
131472 LES0960191 Ga-ion implanted in V-single crystals and annealed. V3Ga Ga0.21V0.79 Ga 0.21 V 0.79 3 1984 AB3 Cr3Si(A15) A 4.812 "Cr3Si, A15" K 10 10 Ga-ion inplanted on surface [111] of V-single crystals Nucleation and growth of A15 V3Ga from ion-implanted superstructured Ga-V solid solutions 1984 "J.Less-Common Metals, 96(1984)191"
131473 LES0960191 Ga-ion implanted in V-single crystals and annealed. V3Ga Ga0.25V0.75 Ga 0.25 V 0.75 3 1984 AB3 Cr3Si(A15) A 4.814 "Cr3Si, A15" K 14.5 14.5 Ga-ion inplanted on surface [111] of V-single crystals Nucleation and growth of A15 V3Ga from ion-implanted superstructured Ga-V solid solutions 1984 "J.Less-Common Metals, 96(1984)191"
131474 LES0960191 Ga-ion implanted in V-single crystals and annealed. V3Ga Ga0.31V0.69 Ga 0.31 V 0.69 3 1984 AB3 Cr3Si(A15) A 4.819 "Cr3Si, A15" K 15.4 15.4 Ga-ion inplanted on surface [111] of V-single crystals Nucleation and growth of A15 V3Ga from ion-implanted superstructured Ga-V solid solutions 1984 "J.Less-Common Metals, 96(1984)191"
131475 LES0960191 "Ga-ion implanted in V-films, deposited on heated sapphire substrates. RRR = 1.29" V3Ga Ga0.2V0.8 Ga 0.2 V 0.8 4 1984 AB3 Cr3Si(A15) A 4.813 "Cr3Si, A15" K 12.5 12.5 uOhm.cm 93 120 Ga-ion inplanted into V-films deposited on heated sapphire substrates Nucleation and growth of A15 V3Ga from ion-implanted superstructured Ga-V solid solutions 1984 "J.Less-Common Metals, 96(1984)191"
131476 LES0960191 "Ga-ion implanted in V-films, deposited on heated sapphire substrates. RRR = 1.18" V3Ga Ga0.25V0.75 Ga 0.25 V 0.75 4 1984 AB3 Cr3Si(A15) A 4.815 "Cr3Si, A15" K 12.7 12.7 uOhm.cm 140 165 Ga-ion inplanted into V-films deposited on heated sapphire substrates Nucleation and growth of A15 V3Ga from ion-implanted superstructured Ga-V solid solutions 1984 "J.Less-Common Metals, 96(1984)191"
131477 LES0960191 "Ga-ion implanted in V-films, deposited on heated sapphire substrates. RRR = 1.11" V3Ga Ga0.3V0.7 Ga 0.3 V 0.7 4 1984 AB3 Cr3Si(A15) A 4.824 "Cr3Si, A15" K 14.1 14.1 uOhm.cm 167 186 Ga-ion inplanted into V-films deposited on heated sapphire substrates Nucleation and growth of A15 V3Ga from ion-implanted superstructured Ga-V solid solutions 1984 "J.Less-Common Metals, 96(1984)191"
131478 LES1190269 YGa6 Ga6Y1 Ga 6 Y 1 1986 AB6 2 PuGa6 P4/nbm tetragonal-PuGa6 K 2 2 "arc-melting - ANN(570K,3d,in evacuated quartz tube)" Magnetic susceptibility and electrical resistivity of RGa6 (R = rare earth metals) 1986 "J.Less-Common Metals, 119(1986)269"
131479 LES1190269 LaGa6 Ga6La1 Ga 6 La 1 1986 AB6 2 PuGa6 P4/nbm A 6.1005 7.6935 tetragonal-PuGa6 K 1.7 "arc-melting - ANN(570K,3d,in evacuated quartz tube)" Magnetic susceptibility and electrical resistivity of RGa6 (R = rare earth metals) 1986 "J.Less-Common Metals, 119(1986)269"
131480 LES1190269 Curie-T from SUS. CeGa6 Ce1Ga6 Ce 1 Ga 6 1986 myu-B/R 2.37 -1.4 AB6 2 PuGa6 P4/nbm A 6.0451 7.6698 tetragonal-PuGa6 K 1.7 "arc-melting - ANN(570K,3d,in evacuated quartz tube)" Magnetic susceptibility and electrical resistivity of RGa6 (R = rare earth metals) 1986 "J.Less-Common Metals, 119(1986)269"
131481 LES1190269 Curie-T from SUS. PrGa6 Ga6Pr1 Ga 6 Pr 1 1986 myu-B/R 3.31 6 9.1 AB6 2 PuGa6 P4/nbm A 6.0092 7.6589 tetragonal-PuGa6 K 1.7 "arc-melting - ANN(570K,3d,in evacuated quartz tube)" Magnetic susceptibility and electrical resistivity of RGa6 (R = rare earth metals) 1986 "J.Less-Common Metals, 119(1986)269"
131482 LES1190269 Curie-T from SUS. NdGa6 Ga6Nd1 Ga 6 Nd 1 1986 myu-B/R 3.37 2.2 10.4 AB6 2 PuGa6 P4/nbm A 5.9908 7.6382 tetragonal-PuGa6 K 1.7 "arc-melting - ANN(570K,3d,in evacuated quartz tube)" Magnetic susceptibility and electrical resistivity of RGa6 (R = rare earth metals) 1986 "J.Less-Common Metals, 119(1986)269"
131483 LES1190269 Curie-T from SUS. SmGa6 Ga6Sm1 Ga 6 Sm 1 1986 myu-B/R 0.88 -30 4.2 AB6 2 PuGa6 P4/nbm A 5.9646 7.6129 tetragonal-PuGa6 K 1.7 "arc-melting - ANN(570K,3d,in evacuated quartz tube)" Magnetic susceptibility and electrical resistivity of RGa6 (R = rare earth metals) 1986 "J.Less-Common Metals, 119(1986)269"
131484 LES1190269 Curie-T from SUS. GdGa6 Ga6Gd1 Ga 6 Gd 1 1986 myu-B/R 7.59 -32.8 12.6 AB6 2 PuGa6 P4/nbm A 5.9379 7.5742 tetragonal-PuGa6 K 1.7 "arc-melting - ANN(570K,3d,in evacuated quartz tube)" Magnetic susceptibility and electrical resistivity of RGa6 (R = rare earth metals) 1986 "J.Less-Common Metals, 119(1986)269"
131485 LES1190269 Curie-T from SUS. TbGa6 Ga6Tb1 Ga 6 Tb 1 1986 myu-B/R 9.8 -20.8 18 AB6 2 PuGa6 P4/nbm A 5.9344 7.5597 tetragonal-PuGa6 K 1.7 "arc-melting - ANN(570K,3d,in evacuated quartz tube)" Magnetic susceptibility and electrical resistivity of RGa6 (R = rare earth metals) 1986 "J.Less-Common Metals, 119(1986)269"
131486 LES1190269 Curie-T from SUS. DyGa6 Dy1Ga6 Dy 1 Ga 6 1986 myu-B/R 10.87 -10.9 11.7 AB6 2 PuGa6 P4/nbm A 5.9251 7.5499 tetragonal-PuGa6 K 1.7 "arc-melting - ANN(570K,3d,in evacuated quartz tube)" Magnetic susceptibility and electrical resistivity of RGa6 (R = rare earth metals) 1986 "J.Less-Common Metals, 119(1986)269"
131487 LES1190269 Curie-T from SUS. HoGa6 Ga6Ho1 Ga 6 Ho 1 1986 myu-B/R 10.12 -5.9 6.3 AB6 2 PuGa6 P4/nbm A 5.919 7.5411 tetragonal-PuGa6 K 1.7 "arc-melting - ANN(570K,3d,in evacuated quartz tube)" Magnetic susceptibility and electrical resistivity of RGa6 (R = rare earth metals) 1986 "J.Less-Common Metals, 119(1986)269"
131488 LES1190269 Curie-T from SUS. ErGa6 Er1Ga6 Er 1 Ga 6 1986 myu-B/R 7 -0.9 3.9 AB6 2 PuGa6 P4/nbm A 5.9113 7.5271 tetragonal-PuGa6 K 1.7 "arc-melting - ANN(570K,3d,in evacuated quartz tube)" Magnetic susceptibility and electrical resistivity of RGa6 (R = rare earth metals) 1986 "J.Less-Common Metals, 119(1986)269"
131489 LES1190269 YbGa6 Ga6Yb1 Ga 6 Yb 1 1986 AB6 2 PuGa6 P4/nbm A 6.0723 7.6501 tetragonal-PuGa6 K 1.7 "arc-melting - ANN(570K,3d,in evacuated quartz tube)" Magnetic susceptibility and electrical resistivity of RGa6 (R = rare earth metals) 1986 "J.Less-Common Metals, 119(1986)269"
131490 SSC0040533 SUS(RT) = 0.29 E-6 emu/g CuS2 Cu1S2 Cu 1 S 2 1966 4.354 AB2 FeS2(pyrite) A 5.79 K 1.48 1.53 1.505 uOhm.cm 0.25 150 high pressure ssynthesis. P=65 kbar New transition metal dichalcogenides formed at high pressure 1966 "Solid State Commun., 4(1966)533"
131491 SSC0040533 CuSSe Cu1S1Se1 Cu 1 S 1 Se 1 1966 AB2 FeS2(pyrite) A 5.923 K 1.5 2 1.75 uOhm.cm 38 95 high pressure ssynthesis. P=65 kbar New transition metal dichalcogenides formed at high pressure 1966 "Solid State Commun., 4(1966)533"
131492 SSC0040533 SUS(RT) = 0.42 E-6 emu/g CuSe2 Cu1Se2 Cu 1 Se 2 1966 AB2 FeS2(pyrite) A 6.123 K 2.3 2.43 2.365 uOhm.cm 0.12 75 high pressure ssynthesis. P=65 kbar New transition metal dichalcogenides formed at high pressure 1966 "Solid State Commun., 4(1966)533"
131493 SSC0040533 SUS(RT) = 0.39 E-6 emu/g CuSeTe Cu1Se1Te1 Cu 1 Se 1 Te 1 1966 AB2 FeS2(pyrite) A 6.302 K 1.6 2 1.8 uOhm.cm 260 680 high pressure ssynthesis. P=65 kbar New transition metal dichalcogenides formed at high pressure 1966 "Solid State Commun., 4(1966)533"
131494 SSC0040533 SUS(RT) = -0.40 E-6 emu/g CuTe2 Cu1Te2 Cu 1 Te 2 1966 AB2 FeS2(pyrite) A 6.6 K 1.3 1.3 uOhm.cm 55 560 high pressure ssynthesis. P=65 kbar New transition metal dichalcogenides formed at high pressure 1966 "Solid State Commun., 4(1966)533"
131495 SSC0220109 "ANN(650C,1 month), ordered crystal" Nb3Ga Ga1Nb3 Ga 1 Nb 3 1977 AB3 Cr3Si(A15) "Cr3Si, A15" K 20.5 20.5 arc-melting The effects of composition and atomic ordering on superconductivity in the systems Nb3Ga and V3Ga 1977 "Solid State Commun., 22(1977)109"
131496 SSC0220109 ordered crystal. Tc(max) = 15.9 K. V3Ga Ga1V3 Ga 1 V 3 1977 AB3 Cr3Si(A15) "Cr3Si, A15" K 15.9 15.9 arc-melting The effects of composition and atomic ordering on superconductivity in the systems Nb3Ga and V3Ga 1977 "Solid State Commun., 22(1977)109"
131497 SSC0331015 15%Nb5Ga3 contained. total analysis: Nb0.74Ga0.26. SP-heat data shows after phase volume correction. DOS=1.7 states/eV-atom using e-ph = 1.8. Nb3Ga Ga1Nb3 Ga 1 Nb 3 1980 AB3 Cr3Si(A15) A 5.17 "Cr3Si, A15" K 19.8 19.8 mJ/gat.K2 11.4 SP-heat 280 SP-heat "arc-melting - heat(1830C,4min) - Q to RT - ANN(700C,123h)" "Specific Heat of High Tc, A-15 Nb0.75Ga0.25" 1980 "Los Alamos Scientific Laboratory, University of California, Los Alamos, N.M. 87545" "Solid State Commun., 33(1980)1015"
131498 CEM0340045 "reaction(1800C,0.01h, P(N2)=2.0 MPa)" NbNx N1.07Nb1 N 1.07 Nb 1 1 1980 K 14.4 14.4 Superconductivity of some transition metal compounds 1980 "J.Solid State Chem., 34(1980)45"
131499 CEM0340045 "zone annealing (2200C,111h, P(N2)=1.9 MPa)" NbNx N0.78Nb1 N 0.78 Nb 1 1980 K 10.5 10.5 Superconductivity of some transition metal compounds 1980 "J.Solid State Chem., 34(1980)45"
131500 CEM0340045 "zone annealing (2320C,191h, P(N2)=1.7 MPa)" NbNx N0.89Nb1 N 0.89 Nb 1 1980 K 12.1 12.1 Superconductivity of some transition metal compounds 1980 "J.Solid State Chem., 34(1980)45"
131501 CEM0340045 "zone annealing (2320C,307h, P(N2)=1.7 MPa)" NbNx N0.93Nb1 N 0.93 Nb 1 1980 K 13.3 13.3 Superconductivity of some transition metal compounds 1980 "J.Solid State Chem., 34(1980)45"
131502 CEM0340045 "heat(1800C, 0.01h, P(N2) = 2.0 MPa)" Nb(NC) C0.28N0.76Nb1 C 0.28 N 0.76 Nb 1 1980 K 16.4 16.4 Superconductivity of some transition metal compounds 1980 "J.Solid State Chem., 34(1980)45"
131503 CEM0340045 "zone melting growth rate = 10 mm/h, P(He) = 1.0 MPa" Nb3Al Al1Nb3 Al 1 Nb 3 1980 AB3 Cr3Si(A15) "Cr3Si, A15" K 17.4 17.4 Superconductivity of some transition metal compounds 1980 "J.Solid State Chem., 34(1980)45"
131504 CEM0340045 "zone melting growth rate = 10 mm/h, P(He) = 0.1 MPa" Nb3Ge Ge1Nb3 Ge 1 Nb 3 1980 AB3 Cr3Si(A15) "Cr3Si, A15" K 6.4 Superconductivity of some transition metal compounds 1980 "J.Solid State Chem., 34(1980)45"
131505 CEM0340045 "zone melting growth rate = 20 mm/h, P(He) = 0.3 MPa" Nb3Ga Ga1Nb3 Ga 1 Nb 3 1980 AB3 Cr3Si(A15) "Cr3Si, A15" K 8.2 8.2 Superconductivity of some transition metal compounds 1980 "J.Solid State Chem., 34(1980)45"
131506 CEM0340045 "zone melting growth rate = 10 mm/h, P(He) = 0.5 MPa" VB B1V1 B 1 V 1 1980 AB K 7.2 Superconductivity of some transition metal compounds 1980 "J.Solid State Chem., 34(1980)45"
131507 PCS0190130 ZrW2 W2Zr1 W 2 Zr 1 1961 AB2 MgCu2(Laves) A 7.621 C15 K 2.16 2.16 Some new superconducting compounds 1961 "J.Phys.Chem.Solids, 19(1961)130"
131508 PCS0190130 ZrRu2 Ru2Zr1 Ru 2 Zr 1 1961 AB2 MgZn2(Laves) A 5.144 8.504 C14 K 1.84 1.84 Some new superconducting compounds 1961 "J.Phys.Chem.Solids, 19(1961)130"
131509 PCS0190130 Nb3Os2 Nb3Os2 Nb 3 Os 2 1961 A2B3 sigma-CrFe A 9.844 5.056 sigma-phase K 1.78 1.78 Some new superconducting compounds 1961 "J.Phys.Chem.Solids, 19(1961)130"
131510 PCS0190130 Nb5Pt3 Nb5Pt3 Nb 5 Pt 3 1961 A3B5 sigma-CrFe A 9.91 5.12 sigma-phase K 3.73 3.73 Some new superconducting compounds 1961 "J.Phys.Chem.Solids, 19(1961)130"
131511 PRL0260305 impuritiy: Mo3Ga < 5at% MoGa4 Ga4Mo1 Ga 4 Mo 1 1971 AB4 K 8 8 T 7.37 MHC131511 "heat(1300C, in 2atm-Ar) - pellet - ANN(700C,1w) - Q" Compensation of the paramagnetic effect on Hc2 by magnetic impurities 1971 "Phys.Rev.Lett., 26(1971)305"
131512 PRL0260305 impuritiy: Mo3Ga < 5at% "(Mo,Mn)Ga4" Ga4Mn0.006Mo0.994 Ga 4 Mn 0.006 Mo 0.994 1971 AB4 K 7.14 7.14 MHC131511 "heat(1300C, in 2atm-Ar) - pellet - ANN(700C,1w) - Q" Compensation of the paramagnetic effect on Hc2 by magnetic impurities 1971 "Phys.Rev.Lett., 26(1971)305"
131513 PRL0260305 impuritiy: Mo3Ga < 5at% "(Mo,Mn)Ga4" Ga4Mn0.01Mo0.99 Ga 4 Mn 0.01 Mo 0.99 1971 AB4 K 4 4 MHC131511 "heat(1300C, in 2atm-Ar) - pellet - ANN(700C,1w) - Q" Compensation of the paramagnetic effect on Hc2 by magnetic impurities 1971 "Phys.Rev.Lett., 26(1971)305"
131514 JAC2060047 "SUS(RT) = 3.7 E-4 emu/mol. (dC/Tc) = 72 mJ/mol.K2, (dC/gamma*Tc) = 1.06" Zr2Rh Rh1Zr2 Rh 1 Zr 2 1994 AB2 CuAl2 A 6.497 5.614 "CuAl2, C16" K 11.2 11.2 MSP131514 mJ/mol.K2 68 SP-heat 214 SP-heat arc-melting "Effect of hydrogen absorption on structure, superconductivity, magnetic susceptibility and heat capacity of Zr2Rh" 1994 "J.Alloys and Compound, 206(1994)47"
131515 JAC2060047 SUS(RT) = 1.8 E-4 emu/mol. lattice term in SP (beta) = 0.0312 mJ/mol.K4 Zr2RhH4.25 H4.25Rh1Zr2 H 4.25 Rh 1 Zr 2 1994 CuAl2 A 6.81 5.603 "CuAl2, C16" K 1.8 mJ/mol.K2 6 SP-heat 396 SP-heat "Hydriding(10atm-H2, RT) in stainless steel reactor" "Effect of hydrogen absorption on structure, superconductivity, magnetic susceptibility and heat capacity of Zr2Rh" 1994 "J.Alloys and Compound, 206(1994)47"
131516 JPS0610395 SC parameters estimated from resistivity and SP measurements using conventional SC relations. RRR=100. Thermodynamic Hc(0) = 85 Oe. (dC/gamma*Tc) = 1.4. GL = 1.4 LaGa2 Ga2La1 Ga 2 La 1 1992 AB2 AlB2 A 4.32 4.42 "AlB2, C32" K 1.15 1.15 Oe 14 Oe 173 Oe/K 260 A 1400 A 2000 K 1.4 14 mJ/mol.K2 4 uOhm.cm 1 "La(4N),Ga(5N)" "arc-melting - wrapped in Zr foil - ANN(800C,2d, in evacuated quartz tube)" Superconductivity in LaGa2 1992 "J.Phys.Soc.Jpn, 61(1992)395"
131517 JPS0651034 Two-step transition (maybe inhomogeneous) U6Fe Fe1U6 Fe 1 U 6 3 1996 AB6 U6Mn K 3.96 4.03 4.1 4.03 "U(3N),Fe(5N)" arc-melting. single crystal grown by zone melting (2mm/h) Single crystal growth and upper critical field of the superconductor U6Fe 1996 "J.Phys.Soc.Jpn, 65(1996)1034"
131518 JPS0651034 U6Fe Fe1U6 Fe 1 U 6 3 1996 AB6 U6Mn K 3.98 3.99 4 3.99 T "resistivity, WHH" 13.1 10.4 MHC131518 A from Hc2 56 50 "U(3N),Fe(5N)" arc-melting. single crystal grown byCzochralski method (10-15 mm/h). Single crystal growth and upper critical field of the superconductor U6Fe 1996 "J.Phys.Soc.Jpn, 65(1996)1034"
131519 SSC0220501 magnetic orderring T measured by Mossbauer and bulk SUS. Tm = 0.325 K La1-xEux Eu0.0034La0.9966 Eu 0.0034 La 0.9966 1977 K 3.95 3.95 MTC131519 Magnetism and superconductivity in LaEu 1977 "Solid State Commun., 22(1977)501"
131520 SSC0220501 magnetic orderring T measured by Mossbauer and bulk SUS. Tm = 0.625 K La1-xEux Eu0.011La0.989 Eu 0.011 La 0.989 1977 K 2.16 2.16 Magnetism and superconductivity in LaEu 1977 "Solid State Commun., 22(1977)501"
131521 SSC0520837 "Tritium concentration x, determined by pressure-volume-temperature techniques." PdTx Pd1T0.81 Pd 1 T 0.81 1984 K 4.04 4.04 MTC131521 SUPERCONDUCTIVITY OF PALLADIUM TRITIDE 1984 12 ISOTOPE EFFECT "SANDIA NATIONAL LABORATORIES ALBUQUERQUE,NM" "SOLID STATE COMMUN.,52(1984)837" "PD,H,D,T"
131522 SSC0520837 PdDx D0.966Pd1 D 0.966 Pd 1 1984 NaCl K 8.25 8.25 MTC131521 SUPERCONDUCTIVITY OF PALLADIUM TRITIDE 1984 12 ISOTOPE EFFECT "SANDIA NATIONAL LABORATORIES ALBUQUERQUE,NM" "SOLID STATE COMMUN.,52(1984)837" "PD,H,D,T"
131523 SSC0520837 PdHx H0.985Pd1 H 0.985 Pd 1 1984 NaCl K 7.39 7.39 MTC131521 SUPERCONDUCTIVITY OF PALLADIUM TRITIDE 1984 12 ISOTOPE EFFECT "SANDIA NATIONAL LABORATORIES ALBUQUERQUE,NM" "SOLID STATE COMMUN.,52(1984)837" "PD,H,D,T"
131530 BOOK2000 Y3Ru4Ge13 Y3Ru4Ge13 Y 3 Ru 4 Ge 13 2000 Yb3Rh4Sn13 A 8.962 ternary stannide K 1.7 1.7 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131531 BOOK2000 Lu3Rh4Ge13 Lu3Rh4Ge13 Lu 3 Rh 4 Ge 13 2000 Yb3Rh4Sn13 A 8.912 ternary stannide K 2.3 2.3 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131532 BOOK2000 Y3Os4Ge13 Y3Os4Ge13 Y 3 Os 4 Ge 13 2000 Yb3Rh4Sn13 A 8.985 ternary stannide K 3.9 3.9 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131533 BOOK2000 Lu3Os4Ge13 Lu3Os4Ge13 Lu 3 Os 4 Ge 13 2000 Yb3Rh4Sn13 A 8.938 ternary stannide K 3.6 3.6 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131534 BOOK2000 Ca3Rh4Ge13 Ca3Rh4Ge13 Ca 3 Rh 4 Ge 13 2000 Yb3Rh4Sn13 A 9.025 ternary stannide K 2.1 2.1 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131535 BOOK2000 Ca3Ir4Ge13 Ca3Ir4Ge13 Ca 3 Ir 4 Ge 13 2000 Yb3Rh4Sn13 A 9.055 ternary stannide K 1.7 1.7 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131536 BOOK2000 La3Ru4Sn13 La3Ru4Ge13 La 3 Ru 4 Ge 13 2000 Yb3Rh4Sn13 A 9.772 ternary stannide K 3.9 3.9 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131537 BOOK2000 La3RuPd3Sn13 La3Ru1Pd3Ge13 La 3 Ru 1 Pd 3 Ge 13 2000 Yb3Rh4Sn13 A 9.78 ternary stannide K 4.8 4.8 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131538 BOOK2000 Th3Os4Sn13 Th3Os4Ge13 Th 3 Os 4 Ge 13 2000 Yb3Rh4Sn13 A 9.721 ternary stannide K 5.6 5.6 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131539 BOOK2000 Ca3Co4Sn13 Ca3Co4Ge13 Ca 3 Co 4 Ge 13 2000 Yb3Rh4Sn13 A 9.584 ternary stannide K 5.9 5.9 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131540 BOOK2000 La3Co4Sn13 La3Co4Ge13 La 3 Co 4 Ge 13 2000 Yb3Rh4Sn13 A 9.641 ternary stannide K 2.8 2.8 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131541 BOOK2000 Yb3Co4Sn13 Yb3Co4Sn13 Yb 3 Co 4 Sn 13 2000 Yb3Rh4Sn13 A 9.563 ternary stannide K 2.5 2.5 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131542 BOOK2000 Ca3Rh4Sn13 Ca3Rh4Sn13 Ca 3 Rh 4 Sn 13 2000 Yb3Rh4Sn13 A 9.702 ternary stannide K 8.7 8.7 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131543 BOOK2000 Sr3Rh4Sn13 Sr3Rh4Sn13 Sr 3 Rh 4 Sn 13 2000 Yb3Rh4Sn13 A 9.8 ternary stannide K 4.3 4.3 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131544 BOOK2000 Yb3Rh4Sn13 Yb3Rh4Sn13 Yb 3 Rh 4 Sn 13 2000 Yb3Rh4Sn13 A 9.675 ternary stannide K 8.6 8.6 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131545 BOOK2000 Th3Rh4Sn13 Th3Rh4Sn13 Th 3 Rh 4 Sn 13 2000 Yb3Rh4Sn13 A 9.692 ternary stannide K 1.9 1.9 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131546 BOOK2000 Ca3Ir4Sn13 Ca3Ir4Sn13 Ca 3 Ir 4 Sn 13 2000 Yb3Rh4Sn13 A 9.718 ternary stannide K 7.1 7.1 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131547 BOOK2000 Sr3Ir4Sn13 Sr3Ir4Sn13 Sr 3 Ir 4 Sn 13 2000 Yb3Rh4Sn13 A 9.807 ternary stannide K 5.1 5.1 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131548 BOOK2000 La3Ir4Sn13 La3Ir4Sn13 La 3 Ir 4 Sn 13 2000 Yb3Rh4Sn13 A 9.755 ternary stannide K 2.6 2.6 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131549 BOOK2000 Th3Ir4Sn13 Th3Ir4Sn13 Th 3 Ir 4 Sn 13 2000 Yb3Rh4Sn13 A 9.695 ternary stannide K 2.6 2.6 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131550 BOOK2000 La3Rh4Pb13 La3Rh4Pb13 La 3 Rh 4 Pb 13 2000 Yb3Rh4Sn13 A 10.031 ternary stannide K 2.2 2.2 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p229
131551 BOOK2000-2 Idealized compounds Sc4Rh6Ge19 Sc4Rh6Ge19 Sc 4 Rh 6 Ge 19 2000 Tb4Rh6Sn19 A 12.605 ternary stannide K 1.9 1.9 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p232
131552 BOOK2000-2 Idealized compounds Sc4Ir6Ge19 Sc4Ir6Ge19 Sc 4 Ir 6 Ge 19 2000 Tb4Rh6Sn19 A 12.629 ternary stannide K 1.4 1.4 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p232
131553 BOOK2000-2 Idealized compounds. chemical analysis: YRu1.1Sn3.1 Y4Ru6Sn19 Y4Ru6Sn19 Y 4 Ru 6 Sn 19 2000 Tb4Rh6Sn19 A 13.772 ternary stannide K 1.3 1.3 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p232
131554 BOOK2000-2 Idealized compounds Sc4Os6Sn19 Sc4Os6Sn19 Sc 4 Os 6 Sn 19 2000 Tb4Rh6Sn19 A 13.606 ternary stannide K 1.5 1.5 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p232
131555 BOOK2000-2 Idealized compounds Y4Os6Sn19 Y4Os6Sn19 Y 4 Os 6 Sn 19 2000 Tb4Rh6Sn19 A 13.801 ternary stannide K 2.5 2.5 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p232
131556 BOOK2000-2 Idealized compounds Tb4Os6Sn19 Tb4Os6Sn19 Tb 4 Os 6 Sn 19 2000 Tb4Rh6Sn19 A 13.813 ternary stannide K 1.4 1.4 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p232
131557 BOOK2000-2 Idealized compounds Ho4Os6Sn19 Ho4Os6Sn19 Ho 4 Os 6 Sn 19 2000 Tb4Rh6Sn19 A 13.774 ternary stannide K 1.4 1.4 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p232
131558 BOOK2000-2 Idealized compounds Er4Os6Sn19 Er4Os6Sn19 Er 4 Os 6 Sn 19 2000 Tb4Rh6Sn19 A 13.76 ternary stannide K 1.25 1.25 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p232
131559 BOOK2000-2 Idealized compounds Tm4Os6Sn19 Tm4Os6Sn19 Tm 4 Os 6 Sn 19 2000 Tb4Rh6Sn19 A 13.744 ternary stannide K 1.1 1.1 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p232
131560 BOOK2000-2 Idealized compounds Lu4Os6Sn19 Lu4Os6Sn19 Lu 4 Os 6 Sn 19 2000 Tb4Rh6Sn19 A 13.72 ternary stannide K 1.8 1.8 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p232
131561 BOOK2000-2 Idealized compounds. not SC Tb4Rh6Sn19 Tb4Rh6Sn19 Tb 4 Rh 6 Sn 19 2000 Tb4Rh6Sn19 A 13.774 ternary stannide K 1.1 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p232
131562 BOOK2000-2 Idealized compounds Y4Ir6Sn19 Y4Ir6Sn19 Y 4 Ir 6 Sn 19 2000 Tb4Rh6Sn19 A 13.773 ternary stannide K 2.2 2.2 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p232
131563 BOOK2000-2 Idealized compounds Ca4Rh6Pb19 Ca4Rh6Pb19 Ca 4 Rh 6 Pb 19 2000 Tb4Rh6Sn19 A 14.23 ternary stannide K 3.3 3.3 Handbook of superconductivity: Academic Press 2000 Academic Press(2000)p232
131570 SSC0230223 details not given. samples were prepared by rf-sputtering . Ge2Ta Ta1Ge2 Ta 1 Ge 2 1977 AB2 K 2.3 2.3 rf-sputtering at high temperature substrates Superconductivity in non-cubic crystal structures 1977 "Solid State Commun., 23(1977)223"
131571 SSC0230223 details not given. samples were prepared by rf-sputtering . Ge2Re Re1Ge2 Re 1 Ge 2 1977 AB2 K 2.7 2.7 rf-sputtering at high temperature substrates Superconductivity in non-cubic crystal structures 1977 "Solid State Commun., 23(1977)223"
131572 SSC0230223 details not given. samples were prepared by rf-sputtering . Ge2Ti Ti1Ge2 Ti 1 Ge 2 1977 AB2 K 1.8 rf-sputtering at high temperature substrates Superconductivity in non-cubic crystal structures 1977 "Solid State Commun., 23(1977)223"
131573 SSC0230223 details not given. samples were prepared by rf-sputtering . Ge2V V1Ge2 V 1 Ge 2 1977 AB2 K 1.8 rf-sputtering at high temperature substrates Superconductivity in non-cubic crystal structures 1977 "Solid State Commun., 23(1977)223"
131574 SSC0230223 details not given. samples were prepared by rf-sputtering . Ge2Mo Mo1Ge2 Mo 1 Ge 2 1977 AB2 K 1.8 rf-sputtering at high temperature substrates Superconductivity in non-cubic crystal structures 1977 "Solid State Commun., 23(1977)223"
140000 1617 Ag1-xAlx Ag0.7Al0.3 Ag 0.7 Al 0.3 1970 fcc K 0.11 0.11 1970 "PHYS.REV.B,1(1970)3002"
140001 1617 Ag1-xAlx Ag0.667Al0.333 Ag 0.667 Al 0.333 1970 fcc K 0.126 0.126 1970 "PHYS.REV.B,1(1970)3002"
140002 1617 Ag1-xAlx Ag0.65Al0.35 Ag 0.65 Al 0.35 1970 fcc K 0.1 0.1 1970 "PHYS.REV.B,1(1970)3002"
140003 1617 Ag1-xAlx Ag0.625Al0.375 Ag 0.625 Al 0.375 1970 fcc K 0.106 0.106 1970 "PHYS.REV.B,1(1970)3002"
140004 1617 Ag1-xAlx Ag0.6Al0.4 Ag 0.6 Al 0.4 1970 fcc K 0.088 0.088 1970 "PHYS.REV.B,1(1970)3002"
140005 1617 Ag1-xSbx Ag0.885Sb0.115 Ag 0.885 Sb 0.115 1970 fcc K 0.019 0.019 1970 "PHYS.REV.B,1(1970)3002"
140006 1617 Ag1-xSbx Ag0.865Sb0.135 Ag 0.865 Sb 0.135 1970 fcc K 0.028 0.028 1970 "PHYS.REV.B,1(1970)3002"
140007 1617 Ag1-xSbx Ag0.845Sb0.155 Ag 0.845 Sb 0.155 1970 fcc K 0.037 0.037 1970 "PHYS.REV.B,1(1970)3002"
140008 1617 Ag1-xSnx Ag0.845Sn0.155 Ag 0.845 Sn 0.155 1970 K 0.025 0.025 1970 "PHYS.REV.B,1(1970)3002"
140009 1617 Ag1-xSnx Ag0.835Sn0.165 Ag 0.835 Sn 0.165 1970 K 0.047 0.047 1970 "PHYS.REV.B,1(1970)3002"
140010 1617 Ag1-xSnx Ag0.825Sn0.175 Ag 0.825 Sn 0.175 1970 K 0.055 0.055 1970 "PHYS.REV.B,1(1970)3002"
140011 1617 Ag1-xSnx Ag0.82Sn0.18 Ag 0.82 Sn 0.18 1970 K 0.066 0.066 1970 "PHYS.REV.B,1(1970)3002"
140012 1617 Ag1-xSnx Ag0.815Sn0.185 Ag 0.815 Sn 0.185 1970 K 0.06 0.06 1970 "PHYS.REV.B,1(1970)3002"
140013 1617 Ag1-xSnx Ag0.795Sn0.205 Ag 0.795 Sn 0.205 1970 K 0.09 0.09 1970 "PHYS.REV.B,1(1970)3002"
140014 1617 Ag1-xSnx Ag0.775Sn0.225 Ag 0.775 Sn 0.225 1970 K 0.09 0.09 1970 "PHYS.REV.B,1(1970)3002"
140015 1617 Cu1-xGex Cu0.86Ge0.14 Cu 0.86 Ge 0.14 1970 K 0.025 0.025 1970 "PHYS.REV.B,1(1970)3002"
140016 1617 Cu1-xGex Cu0.85Ge0.15 Cu 0.85 Ge 0.15 1970 K 0.084 0.084 1970 "PHYS.REV.B,1(1970)3002"
140017 1617 Cu1-xGex Cu0.84Ge0.16 Cu 0.84 Ge 0.16 1970 K 0.117 0.117 1970 "PHYS.REV.B,1(1970)3002"
140018 1617 Cu1-xGex Cu0.83Ge0.17 Cu 0.83 Ge 0.17 1970 K 0.072 0.072 1970 "PHYS.REV.B,1(1970)3002"
140019 1617 Cu1-xGex Cu0.825Ge0.175 Cu 0.825 Ge 0.175 1970 K 0.145 0.145 1970 "PHYS.REV.B,1(1970)3002"
140020 1617 Cu1-xGex Cu0.82Ge0.18 Cu 0.82 Ge 0.18 1970 K 0.13 0.13 1970 "PHYS.REV.B,1(1970)3002"
140021 1617 Cu1-xGex Cu0.815Ge0.185 Cu 0.815 Ge 0.185 1970 K 0.175 0.175 1970 "PHYS.REV.B,1(1970)3002"
140022 1617 Cu1-xGex Cu0.81Ge0.19 Cu 0.81 Ge 0.19 1970 K 0.24 0.24 1970 "PHYS.REV.B,1(1970)3002"
140023 1617 Cu1-xSix Cu0.86Si0.14 Cu 0.86 Si 0.14 1970 K 0.05 0.05 1970 "PHYS.REV.B,1(1970)3002"
140024 1617 Au1-xSnx Au0.885Sn0.115 Au 0.885 Sn 0.115 1970 K 0.21 0.21 1970 "PHYS.REV.B,1(1970)3002"
140025 1617 Au1-xSnx Au0.875Sn0.125 Au 0.875 Sn 0.125 1970 K 0.33 0.33 1970 "PHYS.REV.B,1(1970)3002"
140026 1617 Au1-xSnx Au0.865Sn0.135 Au 0.865 Sn 0.135 1970 K 0.435 0.435 1970 "PHYS.REV.B,1(1970)3002"
140027 1617 Au1-xSnx Au0.855Sn0.145 Au 0.855 Sn 0.145 1970 K 0.43 0.43 1970 "PHYS.REV.B,1(1970)3002"
140028 1617 Au1-xSnx Au0.845Sn0.155 Au 0.845 Sn 0.155 1970 K 0.53 0.53 1970 "PHYS.REV.B,1(1970)3002"
140029 1617 Au1-xSnx Au0.835Sn0.165 Au 0.835 Sn 0.165 1970 K 0.59 0.59 1970 "PHYS.REV.B,1(1970)3002"
140030 1617 Au1-xInx Au0.84In0.16 Au 0.84 In 0.16 1970 K 0.035 0.035 1970 "PHYS.REV.B,1(1970)3002"
140031 1617 Au1-xInx Au0.8In0.2 Au 0.8 In 0.2 1970 K 0.28 0.28 1970 "PHYS.REV.B,1(1970)3002"
140032 1605 carrier = 20 E+20 /cm3 SnTe Sn1Te1 Sn 1 Te 1 1968 K 0.207 0.207 n/cm3 2.00E+21 1968 "PHYS.REV.,169(1968)388"
140033 1605 carrier = 16.9 E+20 /cm3 SnTe Sn1Te1 Sn 1 Te 1 1968 K 0.168 0.168 n/cm3 1.69E+21 1968 "PHYS.REV.,169(1968)388"
140034 1605 carrier = 12.8 E+20 /cm3 SnTe Sn1Te1 Sn 1 Te 1 1968 K 0.1 0.1 n/cm3 1.28E+21 1968 "PHYS.REV.,169(1968)388"
140035 1605 carrier = 10.5 E+20 /cm3 SnTe Sn1Te1 Sn 1 Te 1 1968 K 0.065 0.065 n/cm3 1.05E+21 1968 "PHYS.REV.,169(1968)388"
140036 1605 carrier = 13.4 E+20 /cm3 SnxTe Sn0.965Te1 Sn 0.965 Te 1 1968 K 0.168 0.168 n/cm3 1.34E+21 1968 "PHYS.REV.,169(1968)388"
140037 1605 carrier = 11.7 E+20 /cm3 SnxTe Sn0.975Te1 Sn 0.975 Te 1 1968 K 0.165 0.165 n/cm3 1.17E+21 1968 "PHYS.REV.,169(1968)388"
140038 1605 carrier = 17.9 E+20 /cm3 SnxTe Sn0.966Te1 Sn 0.966 Te 1 1968 K 0.167 0.167 n/cm3 1.79E+21 1968 "PHYS.REV.,169(1968)388"
140039 1605 carrier = 12.1 E+20 /cm3 SnxTe Sn0.976Te1 Sn 0.976 Te 1 1968 K 0.125 0.125 n/cm3 1.79E+21 1968 "PHYS.REV.,169(1968)388"
140040 1605 carrier = 14.8 E+20 /cm3 SnxTe Sn0.97Te1 Sn 0.97 Te 1 1968 K 0.155 0.155 n/cm3 1.48E+21 1968 "PHYS.REV.,169(1968)388"
140041 1605 carrier = 10.5 E+20 /cm3 SnxTe Sn0.98Te1 Sn 0.98 Te 1 1968 K 0.092 0.092 n/cm3 1.05E+21 1968 "PHYS.REV.,169(1968)388"
140042 1605 carrier = 6.75 E+20 /cm3 SnxTe Sn0.985Te1 Sn 0.985 Te 1 1968 K 0.0485 0.0485 n/cm3 6.75E+20 1968 "PHYS.REV.,169(1968)388"
140043 1605 carrier = 6.75 E+20 /cm3 SnxTe Sn0.985Te1 Sn 0.985 Te 1 1968 K 0.0433 0.0433 n/cm3 6.75E+20 1968 "PHYS.REV.,169(1968)388"
140044 1605 carrier = 7.64 E+20 /cm3 SnxTe Sn0.985Te1 Sn 0.985 Te 1 1968 K 0.048 0.048 n/cm3 7.64E+20 1968 "PHYS.REV.,169(1968)388"
140045 1605 carrier = 5.06 E+20 /cm3 SnxTe Sn0.99Te1 Sn 0.99 Te 1 1968 K 0.0285 0.0285 n/cm3 5.06E+20 1968 "PHYS.REV.,169(1968)388"
140046 1605 carrier = 4.63 E+20 /cm3 SnxTe Sn0.99Te1 Sn 0.99 Te 1 1968 K 0.024 0.024 n/cm3 4.63E+20 1968 "PHYS.REV.,169(1968)388"
140047 1605 carrier = 2.98 E+20 /cm3 SnxTe Sn0.995Te1 Sn 0.995 Te 1 1968 K 0.0138 0.0138 n/cm3 2.98E+20 1968 "PHYS.REV.,169(1968)388"
140048 1605 carrier = 13.3 E+20 /cm3 "Sn(As,Te)" Sn0.97As0.005Te0.995 Sn 0.97 As 0.005 Te 0.995 1968 K 0.108 0.108 1968 "PHYS.REV.,169(1968)388"
140049 1605 carrier = 10.9 E+20 /cm3 "Sn(As,Te)" Sn0.97As0.01Te0.99 Sn 0.97 As 0.01 Te 0.99 1968 K 0.073 0.073 1968 "PHYS.REV.,169(1968)388"
140050 1605 carrier = 8.03 E+20 /cm3 "Sn(As,Te)" Sn0.97As0.015Te0.985 Sn 0.97 As 0.015 Te 0.985 1968 K 0.051 0.051 1968 "PHYS.REV.,169(1968)388"
140051 1605 carrier = 7.52 E+20 /cm3 "Sn(As,Te)" Sn0.97As0.017Te0.983 Sn 0.97 As 0.017 Te 0.983 1968 K 0.058 0.058 1968 "PHYS.REV.,169(1968)388"
140052 1605 carrier = 5.9 E+20 /cm3 "Sn(As,Te)" Sn0.97As0.02Te0.98 Sn 0.97 As 0.02 Te 0.98 1968 K 0.0318 0.0318 1968 "PHYS.REV.,169(1968)388"
140053 1605 carrier = 5.08 E+20 /cm3 "Sn(As,Te)" Sn0.97As0.022Te0.978 Sn 0.97 As 0.022 Te 0.978 1968 K 0.0332 0.0332 1968 "PHYS.REV.,169(1968)388"
140054 1605 carrier = 4.02 E+20 /cm3 "Sn(As,Te)" Sn0.97As0.025Te0.975 Sn 0.97 As 0.025 Te 0.975 1968 K 0.0138 0.0138 1968 "PHYS.REV.,169(1968)388"
140055 1605 carrier = 10.4 E+20 /cm3 "Sn(As,Te)" Sn0.97As0.005Te0.995 Sn 0.97 As 0.005 Te 0.995 1968 K 0.068 0.068 1968 "PHYS.REV.,169(1968)388"
140056 1605 carrier = 7.0 E+20 /cm3 "Sn(As,Te)" Sn0.97As0.006Te0.994 Sn 0.97 As 0.006 Te 0.994 1968 K 0.048 0.048 1968 "PHYS.REV.,169(1968)388"
140057 1605 carrier = 6.83 E+20 /cm3 "Sn(As,Te)" Sn0.97As0.007Te0.993 Sn 0.97 As 0.007 Te 0.993 1968 K 0.038 0.038 1968 "PHYS.REV.,169(1968)388"
140058 1605 carrier =5.13 E+20 /cm3 "Sn(As,Te)" Sn0.97As0.008Te0.992 Sn 0.97 As 0.008 Te 0.992 1968 K 0.022 0.022 1968 "PHYS.REV.,169(1968)388"
140059 1605 carrier = 3.53 E+20 /cm3 "Sn(As,Te)" Sn0.97As0.009Te0.991 Sn 0.97 As 0.009 Te 0.991 1968 K 0.0195 0.0195 1968 "PHYS.REV.,169(1968)388"
140060 1605 carrier = 3.65 E+20 /cm3 "Sn(As,Te)" Sn0.97As0.01Te0.99 Sn 0.97 As 0.01 Te 0.99 1968 K 0.023 0.023 1968 "PHYS.REV.,169(1968)388"
140061 598 "99.995 purity. Tc for samples with dilute elements of Ti,V,Cr,Mn,Fe,Ni,X were investigated" Al Al1 Al 1 1966 K 1.18 1.18 "EFFECT OF TRANSITION-METAL IMPURITIES ON THE CRITICAL TEMPERATURE OF SUOERCONDUCTING AL,ZN,IN,AND SN" 1966 "PHYS.REV.,148(1966)353"
140062 598 "99.995 purity. Tc for samples with dilute elements of Ti,V,Cr,Mn,Fe,Ni,X were investigated" Zn Zn1 Zn 1 1966 K 0.85 0.85 "EFFECT OF TRANSITION-METAL IMPURITIES ON THE CRITICAL TEMPERATURE OF SUOERCONDUCTING AL,ZN,IN,AND SN" 1966 "PHYS.REV.,148(1966)353"
140063 598 "99.999 purity. Tc for samples with dilute elements of Ti,V,Cr,Mn,Fe,Ni,X were investigated" In In1 In 1 1966 K 4.405 4.405 "EFFECT OF TRANSITION-METAL IMPURITIES ON THE CRITICAL TEMPERATURE OF SUOERCONDUCTING AL,ZN,IN,AND SN" 1966 "PHYS.REV.,148(1966)353"
140064 598 "99.9995 purity. Tc for samples with dilute elements of Ti,V,Cr,Mn,Fe,Ni,X were investigated" Sn Sn1 Sn 1 1966 K 3.71 3.71 "EFFECT OF TRANSITION-METAL IMPURITIES ON THE CRITICAL TEMPERATURE OF SUOERCONDUCTING AL,ZN,IN,AND SN" 1966 "PHYS.REV.,148(1966)353"
140065 37 CoSi2 Co1Si2 Co 1 Si 2 1953 K 1.3 1.3 TRANSITION TEMPERATURES OF SUPERCONDUCTORS 1953 "PHYS.REV.,92(1953)874"
140066 37 NiSi2 Ni1Si2 Ni 1 Si 2 1953 K 1 TRANSITION TEMPERATURES OF SUPERCONDUCTORS 1953 "PHYS.REV.,92(1953)874"
140067 37 AuAl2 Al2Au1 Al 2 Au 1 1953 K 1 TRANSITION TEMPERATURES OF SUPERCONDUCTORS 1953 "PHYS.REV.,92(1953)874"
140068 37 PtAl2 Al2Pt1 Al 2 Pt 1 1953 K 1 TRANSITION TEMPERATURES OF SUPERCONDUCTORS 1953 "PHYS.REV.,92(1953)874"
140069 37 Rh3Ge2 Ge2Rh3 Ge 2 Rh 3 1953 K 2.12 2.12 TRANSITION TEMPERATURES OF SUPERCONDUCTORS 1953 "PHYS.REV.,92(1953)874"
140070 37 IrGe Ge1Ir1 Ge 1 Ir 1 1953 MnP K 4.7 4.7 TRANSITION TEMPERATURES OF SUPERCONDUCTORS 1953 "PHYS.REV.,92(1953)874"
140071 37 PdSb Pd1Sb1 Pd 1 Sb 1 1953 NiAs K 1.5 1.5 TRANSITION TEMPERATURES OF SUPERCONDUCTORS 1953 "PHYS.REV.,92(1953)874"
140072 37 PtSb Pt1Sb1 Pt 1 Sb 1 1953 NiAs K 2.1 2.1 TRANSITION TEMPERATURES OF SUPERCONDUCTORS 1953 "PHYS.REV.,92(1953)874"
140073 37 PtBi Bi1Pt1 Bi 1 Pt 1 1953 Fe3Zn10 A 4.31 5.49 "Fe3Zn10, D8[1]" K 1.21 1.21 Transition temperatures of superconductors 1953 "Phys.Rev., 92(1953)874"
140074 37 PdTe Pd1Te1 Pd 1 Te 1 1953 Fe3Zn10 "Fe3Zn10, D8[1]" K 2.3 2.3 TRANSITION TEMPERATURES OF SUPERCONDUCTORS 1953 "PHYS.REV.,92(1953)874"
140075 1564 gamma in mj/gat.K2. fcc-La La1 La 1 1973 A 5.29 fcc K 6.06 6.06 mj/mol.K2 11.3 139 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
140076 1564 gamma in mj/gat.K2. delta-C/gamma*Tc = 2.9. dHc/dT = -512 Oe/K La3In In1La3 In 1 La 3 1973 A 5.07 K 9.54 9.54 5.8 mj/mol.K2 14 170 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
140077 1564 gamma in mj/gat.K2. delta-C/gamma*Tc = 2.4. dHc/dT = -440 Oe/K La3Tl La3Tl1 La 3 Tl 1 1973 A 5.06 K 8.86 8.86 5.3 mj/mol.K2 12.4 163 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
140078 1564 gamma in mj/gat.K2. "La3(In,Ga)" La3In0.7Ga0.3 La 3 In 0.7 Ga 0.3 1973 A 5.05 K 9.25 9.25 mj/mol.K2 10.6 170 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
140079 1564 not s/c La3AlC La3Al1C1 La 3 Al 1 C 1 1973 A 5.12 K 1.02 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
140080 1564 not s/c La3GaC La3Ga1C1 La 3 Ga 1 C 1 1973 A 5.17 K 1.02 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
140081 1564 not s/c. gamma in mj/gat.K2. La3InC La3In1C1 La 3 In 1 C 1 1973 A 5.19 K 1.02 mj/mol.K2 5.9 203 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
140082 1564 not s/c La3TlC La3Tl1C1 La 3 Tl 1 C 1 1973 A 5.2 K 1.02 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
140083 1564 not s/c La3SnC La3Sn1C1 La 3 Sn 1 C 1 1973 A 5.18 K 1.02 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
140084 1564 not s/c La3PbC La3Pb1C1 La 3 Pb 1 C 1 1973 A 5.2 K 1.02 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
140085 1564 "La3(In,Tl)" La3In0.5Tl0.5 La 3 In 0.5 Tl 0.5 1973 A 5.06 K 8.9 8.9 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
140086 1564 "La3(In,Al)" La3In0.7Al0.3 La 3 In 0.7 Al 0.3 1973 A 5.06 K 9.42 9.42 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
140087 1564 gamma in mj/gat.K2. "La3(In,Ga)" La3In0.7Ga0.3 La 3 In 0.7 Ga 0.3 1973 A 5.05 K 9.25 9.25 mj/mol.K2 10.6 170 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
140088 1564 "La3(In,Sn)" La3In0.8Sn0.2 La 3 In 0.8 Sn 0.2 1973 A 5.05 K 7.8 7.8 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
140089 1564 "La3(In,Cd)" La3In0.9Cd0.1 La 3 In 0.9 Cd 0.1 1973 A 5.07 K 9.55 9.55 "Superconducting and other electronic properties of La3In, La3Tl, and some related phases" 1973 "PHYS.REV.B,8(1973)3194"
140090 1006 NbC C1Nb1 C 1 Nb 1 1967 A 4.468 K 11.2 11.2 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140091 1006 "(Nb,Mo)C" Nb0.75Mo0.25C1 Nb 0.75 Mo 0.25 C 1 1967 A 4.451 K 12 12 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140092 1006 "(Nb,Mo)C" Nb0.5Mo0.5C1 Nb 0.5 Mo 0.5 C 1 1967 A 4.41 K 13.1 13.1 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140093 1006 "(Nb,Mo)C" Nb0.25Mo0.75C1 Nb 0.25 Mo 0.75 C 1 1967 A 4.358 K 13.1 13.1 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140094 1006 "(Nb,Mo)C" Nb0.05Mo0.95C1 Nb 0.05 Mo 0.95 C 1 1967 A 4.296 K 13.5 13.5 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140095 1006 MoC C1Mo1 C 1 Mo 1 1967 A 4.277 K 14.3 14.3 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140096 1006 "(Nb,W)C" Nb0.9W0.1C1 Nb 0.9 W 0.1 C 1 1967 A 4.457 K 11.6 11.6 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140097 1006 "(Nb,W)C" Nb0.8W0.2C1 Nb 0.8 W 0.2 C 1 1967 A 4.445 K 13.7 13.7 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140098 1006 "(Nb,W)C" Nb0.75W0.25C1 Nb 0.75 W 0.25 C 1 1967 A 4.443 K 13.1 13.1 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140099 1006 "(Nb,W)C" Nb0.7W0.3C1 Nb 0.7 W 0.3 C 1 1967 A 4.434 K 13.2 13.2 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140100 1006 "(Nb,W)C" Nb0.65W0.35C1 Nb 0.65 W 0.35 C 1 1967 A 4.425 K 13 13 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140101 1006 "(Nb,W)C" Nb0.5W0.5C1 Nb 0.5 W 0.5 C 1 1967 A 4.404 K 12.5 12.5 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140102 1006 "(Nb,W)C" Nb0.2W0.8C1 Nb 0.2 W 0.8 C 1 1967 A 4.335 K 11 11 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140103 1006 WC C1W1 C 1 W 1 1967 A 4.265 K 9.93 9.93 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140104 1006 "(Nb,Ta)C" Nb0.8Ta0.2C1 Nb 0.8 Ta 0.2 C 1 1967 A 4.467 K 10 10 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140105 1006 "(Nb,Ta)C" Nb0.6Ta0.4C1 Nb 0.6 Ta 0.4 C 1 1967 A 4.466 K 9.4 9.4 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140106 1006 "(Nb,Ta)C" Nb0.4Ta0.6C1 Nb 0.4 Ta 0.6 C 1 1967 A 4.459 K 9.33 9.33 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140107 1006 "(Nb,Ta)C" Nb0.2Ta0.8C1 Nb 0.2 Ta 0.8 C 1 1967 A 4.456 K 9 9 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140108 1006 "(Mo,W)C" Mo0.9W0.1C1 Mo 0.9 W 0.1 C 1 1967 A 4.276 K 11.7 11.7 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140109 1006 "(Mo,W)C" Mo0.8W0.2C1 Mo 0.8 W 0.2 C 1 1967 A 4.271 K 12 12 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140110 1006 "(Mo,W)C" Mo0.6W0.4C1 Mo 0.6 W 0.4 C 1 1967 A 4.268 K 11.3 11.3 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140111 1006 "(Mo,W)C" Mo0.4W0.6C1 Mo 0.4 W 0.6 C 1 1967 A 4.262 K 11.3 11.3 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140112 1006 "(Mo,W)C" Mo0.2W0.8C1 Mo 0.2 W 0.8 C 1 1967 A 4.26 K 10.1 10.1 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140113 1006 "(Mo,W)C" Mo0.1W0.9C1 Mo 0.1 W 0.9 C 1 1967 K 9 9 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140114 1006 TaC C1Ta1 C 1 Ta 1 1967 A 4.456 K 10 10 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140115 1006 "(Ta,Mo)C" Ta0.8Mo0.2C1 Ta 0.8 Mo 0.2 C 1 1967 A 4.445 K 8.5 8.5 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140116 1006 "(Ta,Mo)C" Ta0.6Mo0.4C1 Ta 0.6 Mo 0.4 C 1 1967 A 4.438 K 8.67 8.67 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140117 1006 "(Ta,Mo)C" Ta0.4Mo0.6C1 Ta 0.4 Mo 0.6 C 1 1967 A 4.416 K 9.18 9.18 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140118 1006 "(Ta,Mo)C" Ta0.2Mo0.8C1 Ta 0.2 Mo 0.8 C 1 1967 A 4.329 K 10.5 10.5 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140119 1006 "(Ta,Mo)C" Ta0.05Mo0.95C1 Ta 0.05 Mo 0.95 C 1 1967 A 4.286 K 11.8 11.8 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140120 1006 "(Ta,W)C" Ta0.8W0.2C1 Ta 0.8 W 0.2 C 1 1967 A 4.441 K 9.92 9.92 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140121 1006 "(Ta,W)C" Ta0.6W0.4C1 Ta 0.6 W 0.4 C 1 1967 A 4.432 K 10 10 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140122 1006 "(Ta,W)C" Ta0.4W0.6C1 Ta 0.4 W 0.6 C 1 1967 A 4.403 K 9.41 9.41 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140123 1006 "(Ta,W)C" Ta0.2W0.8C1 Ta 0.2 W 0.8 C 1 1967 A 4.32 K 8.96 8.96 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140124 1006 "(Mo,V)C" Mo0.95V0.05C1 Mo 0.95 V 0.05 C 1 1967 K 13.9 13.9 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140125 1006 "(Mo,Ti)C" Mo0.95Ti0.05C1 Mo 0.95 Ti 0.05 C 1 1967 K 13.5 13.5 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140126 1006 "(Mo,Zr)C" Mo0.95Zr0.05C1 Mo 0.95 Zr 0.05 C 1 1967 K 13.2 13.2 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140127 1006 "(Mo,Hf)C" Mo0.95Hf0.05C1 Mo 0.95 Hf 0.05 C 1 1967 K 12.7 12.7 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140128 1006 "(Mo,Re)C" Mo0.9Re0.1C1 Mo 0.9 Re 0.1 C 1 1967 K 13.9 13.9 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140129 1006 "(Mo,Ru)C" Mo0.9Ru0.1C1 Mo 0.9 Ru 0.1 C 1 1967 K 13.7 13.7 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140130 1006 "(Mo,V)C" Mo0.9V0.1C1 Mo 0.9 V 0.1 C 1 1967 K 13.3 13.3 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140131 1006 "(Mo,Ti)C" Mo0.9Ti0.1C1 Mo 0.9 Ti 0.1 C 1 1967 K 13.1 13.1 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140132 1006 "(Mo,Hf)C" Mo0.9Hf0.1C1 Mo 0.9 Hf 0.1 C 1 1967 K 11.9 11.9 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140133 1006 "(Mo,Zr)C" Mo0.9Zr0.1C1 Mo 0.9 Zr 0.1 C 1 1967 K 11.5 11.5 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140134 1006 "(Mo,V)C" Mo0.84V0.16C1 Mo 0.84 V 0.16 C 1 1967 K 12.9 12.9 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140135 1006 "(Mo,Ti)C" Mo0.84Ti0.16C1 Mo 0.84 Ti 0.16 C 1 1967 K 12.8 12.8 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140136 1006 "(Mo,Hf)C" Mo0.84Hf0.16C1 Mo 0.84 Hf 0.16 C 1 1967 K 11.5 11.5 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140137 1006 "(Mo,Zr)C" Mo0.84Zr0.16C1 Mo 0.84 Zr 0.16 C 1 1967 K 11 11 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140138 1006 "(Mo,V)C" Mo0.8V0.2C1 Mo 0.8 V 0.2 C 1 1967 K 12.8 12.8 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140139 1006 "(Mo,Ti)C" Mo0.8Ti0.2C1 Mo 0.8 Ti 0.2 C 1 1967 K 12 12 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140140 1006 "(Mo,Hf)C" Mo0.8Hf0.2C1 Mo 0.8 Hf 0.2 C 1 1967 K 11.4 11.4 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140141 1006 "(Mo,Zr)C" Mo0.8Zr0.2C1 Mo 0.8 Zr 0.2 C 1 1967 K 10.9 10.9 Superconductivity of the transition-metal carbides 1967 "PHYS.REV.,159(1967)327"
140142 32 Zr1-xAux Au0.12Zr0.88 Au 0.12 Zr 0.88 1955 K 2.78 2.78 Superconductivity of zirconium alloys 1955 "PHYS.REV.,100(1955)626"
140143 32 Zr1-xAux Au0.1Zr0.9 Au 0.1 Zr 0.9 1955 K 2.78 2.78 Superconductivity of zirconium alloys 1955 "PHYS.REV.,100(1955)626"
140144 32 Zr1-xAux Au0.07Zr0.93 Au 0.07 Zr 0.93 1955 K 2.52 2.52 Superconductivity of zirconium alloys 1955 "PHYS.REV.,100(1955)626"
140145 32 Zr1-xAux Au0.05Zr0.95 Au 0.05 Zr 0.95 1955 K 1.79 1.79 Superconductivity of zirconium alloys 1955 "PHYS.REV.,100(1955)626"
140146 32 Zr1-xOsx Os0.01Zr0.99 Os 0.01 Zr 0.99 1955 K 1.52 1.52 Superconductivity of zirconium alloys 1955 "PHYS.REV.,100(1955)626"
140147 32 Zr1-xOsx Os0.025Zr0.975 Os 0.025 Zr 0.975 1955 K 2.97 2.97 Superconductivity of zirconium alloys 1955 "PHYS.REV.,100(1955)626"
140148 32 Zr1-xOsx Os0.05Zr0.95 Os 0.05 Zr 0.95 1955 K 5.38 5.38 Superconductivity of zirconium alloys 1955 "PHYS.REV.,100(1955)626"
140149 32 Zr1-xOsx Os0.06Zr0.94 Os 0.06 Zr 0.94 1955 K 5.7 5.7 Superconductivity of zirconium alloys 1955 "PHYS.REV.,100(1955)626"
140150 32 Zr1-xOsx Os0.07Zr0.93 Os 0.07 Zr 0.93 1955 K 5.66 5.66 Superconductivity of zirconium alloys 1955 "PHYS.REV.,100(1955)626"
140151 32 Zr1-xOsx Os0.1Zr0.9 Os 0.1 Zr 0.9 1955 K 5.17 5.17 Superconductivity of zirconium alloys 1955 "PHYS.REV.,100(1955)626"
140152 1643 TexAu1-x Au0.374Te0.626 Au 0.374 Te 0.626 1969 A 2.9514 K 1.3 1.3 Fermi-surface-Brillouin-zone interaction in simple cubic Te-Au alloys 1969 "PHYS.REV.,183(1969)619"
140153 1643 thermopower = -5.13 uV/K TexAu1-x Au0.35Te0.65 Au 0.35 Te 0.65 1969 K 1.58 1.58 Fermi-surface-Brillouin-zone interaction in simple cubic Te-Au alloys 1969 "PHYS.REV.,183(1969)619"
140154 1643 thermopower = -5.89 uV/K TexAu1-x Au0.332Te0.668 Au 0.332 Te 0.668 1969 A 2.9667 K 1.89 1.89 Fermi-surface-Brillouin-zone interaction in simple cubic Te-Au alloys 1969 "PHYS.REV.,183(1969)619"
140155 1643 thermopower = -8.57 uV/K TexAu1-x Au0.3Te0.7 Au 0.3 Te 0.7 1969 A 2.9928 K 1.99 1.99 Fermi-surface-Brillouin-zone interaction in simple cubic Te-Au alloys 1969 "PHYS.REV.,183(1969)619"
140156 1643 thermopower = -5.32 uV/K TexAu1-x Au0.28Te0.72 Au 0.28 Te 0.72 1969 A 3.0007 K 1.96 1.96 Fermi-surface-Brillouin-zone interaction in simple cubic Te-Au alloys 1969 "PHYS.REV.,183(1969)619"
140157 1643 thermopower = -2.26uV/K TexAu1-x Au0.25Te0.75 Au 0.25 Te 0.75 1969 A 3.0355 K 1.85 1.85 Fermi-surface-Brillouin-zone interaction in simple cubic Te-Au alloys 1969 "PHYS.REV.,183(1969)619"
140158 1643 thermopower = +1.85 uV/K TexAu1-x Au0.24Te0.76 Au 0.24 Te 0.76 1969 K 1.72 1.72 Fermi-surface-Brillouin-zone interaction in simple cubic Te-Au alloys 1969 "PHYS.REV.,183(1969)619"
140159 1643 thermopower = +4.24 uV/K TexAu1-x Au0.22Te0.78 Au 0.22 Te 0.78 1969 A 3.0493 K 1.54 1.54 Fermi-surface-Brillouin-zone interaction in simple cubic Te-Au alloys 1969 "PHYS.REV.,183(1969)619"
140160 1643 thermopower = +5.00 uV/K TexAu1-x Au0.2Te0.8 Au 0.2 Te 0.8 1969 A 3.0558 K 1.48 1.48 Fermi-surface-Brillouin-zone interaction in simple cubic Te-Au alloys 1969 "PHYS.REV.,183(1969)619"
140161 1643 thermopower = +8.44 uV/K TexAu1-x Au0.18Te0.82 Au 0.18 Te 0.82 1969 A 3.0841 K 1.56 1.56 Fermi-surface-Brillouin-zone interaction in simple cubic Te-Au alloys 1969 "PHYS.REV.,183(1969)619"
140162 1643 TexAu1-x Au0.16Te0.84 Au 0.16 Te 0.84 1969 K 1.71 1.71 Fermi-surface-Brillouin-zone interaction in simple cubic Te-Au alloys 1969 "PHYS.REV.,183(1969)619"
140163 1643 thermopower = +17.3 uV/K TexAu1-x Au0.15Te0.85 Au 0.15 Te 0.85 1969 A 3.0978 K 1.64 1.64 Fermi-surface-Brillouin-zone interaction in simple cubic Te-Au alloys 1969 "PHYS.REV.,183(1969)619"
140164 1643 TexAu1-x Au0.14Te0.86 Au 0.14 Te 0.86 1969 K 1.7 1.7 Fermi-surface-Brillouin-zone interaction in simple cubic Te-Au alloys 1969 "PHYS.REV.,183(1969)619"
140165 36 Sn1-xBix Bi0.02Sn0.98 Bi 0.02 Sn 0.98 1953 K 3.85 3.85 Oe 297 "melt(135C), then quench to liq. air" SUPERCONDUCTIVITY IN TIN-BISMUTH AND TIN-ANTIMONY ALLOYS 1953 "PHYS.REV.,92(1953)238"
140166 36 Sn1-xBix Bi0.04Sn0.96 Bi 0.04 Sn 0.96 1953 K 3.86 3.86 Oe 325 "melt(135C), then quench to liq. air" SUPERCONDUCTIVITY IN TIN-BISMUTH AND TIN-ANTIMONY ALLOYS 1953 "PHYS.REV.,92(1953)238"
140167 36 Sn1-xBix Bi0.045Sn0.955 Bi 0.045 Sn 0.955 1953 K 3.88 3.88 Oe 310 "melt(135C), then quench to liq. air" SUPERCONDUCTIVITY IN TIN-BISMUTH AND TIN-ANTIMONY ALLOYS 1953 "PHYS.REV.,92(1953)238"
140168 36 Sn1-xBix Bi0.05Sn0.95 Bi 0.05 Sn 0.95 1953 K 3.93 3.93 Oe 282 "melt(135C), then quench to liq. air" SUPERCONDUCTIVITY IN TIN-BISMUTH AND TIN-ANTIMONY ALLOYS 1953 "PHYS.REV.,92(1953)238"
140169 36 Sn1-xBix Bi0.055Sn0.945 Bi 0.055 Sn 0.945 1953 K 3.94 3.94 Oe 274 "melt(135C), then quench to liq. air" SUPERCONDUCTIVITY IN TIN-BISMUTH AND TIN-ANTIMONY ALLOYS 1953 "PHYS.REV.,92(1953)238"
140170 36 Sn1-xBix Bi0.06Sn0.94 Bi 0.06 Sn 0.94 1953 K 4.1 4.1 Oe 200 "melt(135C), then quench to liq. air" SUPERCONDUCTIVITY IN TIN-BISMUTH AND TIN-ANTIMONY ALLOYS 1953 "PHYS.REV.,92(1953)238"
140171 36 Sn1-xBix Bi0.08Sn0.92 Bi 0.08 Sn 0.92 1953 K 4.15 4.15 Oe 228 "melt(135C), then quench to liq. air" SUPERCONDUCTIVITY IN TIN-BISMUTH AND TIN-ANTIMONY ALLOYS 1953 "PHYS.REV.,92(1953)238"
140172 36 Sn1-xBix Bi0.1Sn0.9 Bi 0.1 Sn 0.9 1953 K 4.18 4.18 Oe 251 "melt(135C), then quench to liq. air" SUPERCONDUCTIVITY IN TIN-BISMUTH AND TIN-ANTIMONY ALLOYS 1953 "PHYS.REV.,92(1953)238"
140173 36 Sn1-xSbx Sb0.02Sn0.98 Sb 0.02 Sn 0.98 1953 K 2.64 2.64 Oe 304 "melt(225C), then quench to dry ice." SUPERCONDUCTIVITY IN TIN-BISMUTH AND TIN-ANTIMONY ALLOYS 1953 "PHYS.REV.,92(1953)238"
140174 36 Sn1-xSbx Sb0.04Sn0.96 Sb 0.04 Sn 0.96 1953 K 3.76 3.76 Oe 345 "melt(225C), then quench to dry ice." SUPERCONDUCTIVITY IN TIN-BISMUTH AND TIN-ANTIMONY ALLOYS 1953 "PHYS.REV.,92(1953)238"
140175 36 Sn1-xSbx Sb0.06Sn0.94 Sb 0.06 Sn 0.94 1953 K 3.96 3.96 Oe 321 "melt(225C), then quench to dry ice." SUPERCONDUCTIVITY IN TIN-BISMUTH AND TIN-ANTIMONY ALLOYS 1953 "PHYS.REV.,92(1953)238"
140176 36 Sn1-xSbx Sb0.08Sn0.92 Sb 0.08 Sn 0.92 1953 K 3.89 3.89 Oe 330 "melt(225C), then quench to dry ice." SUPERCONDUCTIVITY IN TIN-BISMUTH AND TIN-ANTIMONY ALLOYS 1953 "PHYS.REV.,92(1953)238"
140177 1904 amorphous Ga film amorphous-Ga Ga1 Ga 1 4 1975 K 7.84 7.84 amorphous film obtained by sputtering at 77K in Ar 1975 "PHYS.REV.B,11(1975)738"
140178 1904 amorphous Ga-Sb film "a-(Ga,Sb)" Ga0.8Sb0.2 Ga 0.8 Sb 0.2 4 1975 K 6.18 6.18 MTC140178 amorphous film obtained by sputtering at 77K in Ar 1975 "PHYS.REV.B,11(1975)738"
140179 1904 amorphous Ga-Sb film "a-(Ga,Sb)" Ga0.58Sb0.42 Ga 0.58 Sb 0.42 4 1975 K 1.17 1.17 amorphous film obtained by sputtering at 77K in Ar 1975 "PHYS.REV.B,11(1975)738"
140180 1904 amorphous Bi film amorphous-Bi Bi1 Bi 1 4 1975 K 5.7 5.7 amorphous film obtained by sputtering at 77K in Ar-H atmosphere 1975 "PHYS.REV.B,11(1975)738"
140181 1904 amorphous Bi-Sb film "a-(Bi,Sb)" Bi0.9Sb0.1 Bi 0.9 Sb 0.1 4 1975 K 5.2 5.2 MTC140181 amorphous film obtained by sputtering at 77K in Ar-H atmosphere 1975 "PHYS.REV.B,11(1975)738"
140182 1904 amorphous Bi-Sb film "a-(Bi,Sb)" Bi0.7Sb0.3 Bi 0.7 Sb 0.3 4 1975 K 4.14 4.14 amorphous film obtained by sputtering at 77K in Ar-H atmosphere 1975 "PHYS.REV.B,11(1975)738"
140183 1904 amorphous Bi-Sb film "a-(Bi,Sb)" Bi0.5Sb0.5 Bi 0.5 Sb 0.5 4 1975 K 2.94 2.94 amorphous film obtained by sputtering at 77K in Ar-H atmosphere 1975 "PHYS.REV.B,11(1975)738"
140184 736 Pb1-xTlx Pb0.52Tl0.48 Pb 0.52 Tl 0.48 1966 K 5.54 5.54 MTC40184 Superconductivity and electronic structure in the alloy system lead-thallium 1966 "PHYS.REV.,147(1966)340"
140185 736 Pb1-xTlx Pb0.06Tl0.94 Pb 0.06 Tl 0.94 1966 K 2.7 2.7 Superconductivity and electronic structure in the alloy system lead-thallium 1966 "PHYS.REV.,147(1966)340"
140186 736 Bi1-xTlx Bi0.6Tl0.4 Bi 0.6 Tl 0.4 1966 K 6 6 MTC40186 Superconductivity and electronic structure in the alloy system lead-thallium 1966 "PHYS.REV.,147(1966)340"
140187 JPS0410026 "(Ce,Pr)Ru2" Ce0.9Pr0.1Ru2 Ce 0.9 Pr 0.1 Ru 2 1 1976 Laves "Laves, C15" K 6.55 6.55 Superconducting and ferromagnetic properties of PrxCe1-xRu2 1976 "J.Phys.Soc.Jpn, 41(1976)26"
140188 JPS0410026 "(Ce,Pr)Ru2" Ce0.8Pr0.2Ru2 Ce 0.8 Pr 0.2 Ru 2 1 1976 Laves "Laves, C15" K 5.82 5.82 Superconducting and ferromagnetic properties of PrxCe1-xRu2 1976 "J.Phys.Soc.Jpn, 41(1976)26"
148246 SST031065001 e-ph = 0.73. DOS = 4.14 states/eV. T = 70.1 K from R(T) anomaly. GL(kappa) = 45. 2H-PdxTaS2 Pd0.04Ta1S2 Pd 0.04 Ta 1 S 2 1 2018 AB2 P31c 159 A 3.3148 12.1287 "hexagonal , distorted 2H-structure" K 4.22 4.2 4.2 MPH158246 Oe "M-H curve, GL approx." 102 T "RES(0.5Rn), GL approx." 10.9 MHC158246 nm from Hc2 5.5 nm from Hc1 248 MSP158246 mJ/mol.K2 16.86 SP 208.5 SP "Pd(4N),Ta(3N),S(2N5)" "mixture - pellet - sealed in quartz tube(vac) - heat(923K,2d) - air quenched to RT - reground - pellet - sealed in quartz tube - heat(1023K, 2d) - ANN(923K,2w) - Q to RT" Superconductivity in palladium-doped 2H-TaS2 2018 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People?s Republic of China" "Supercond.Sci.Technol., 31(2018)065001"
150000 NAT3340510 "compositions determined by EPME, ICP. O-content by non-dispersive infrared inert gas fusion method." TlBa2Ca3Cu4O11 Tl1Ba2Ca3Cu4O11 Tl 1 Ba 2 Ca 3 Cu 4 O 11 1988 Tl1234 A 3.85 19.1 K 120.4 122.1 126.6 122 122.1 "Tl2O3,CaO,BaO2,BaCu3O4" 1 "mixture - pellet - fire(1163K,10min, in flowing O2) - Q to RT(100C/h)" A new high-Tc TlBa2Ca3Cu4O11 superconductor with Tc > 120 K 1988 "Electronical Laboratory, 1-1-4 Umezono, Tsukuba, Ibaraki 305, Japan" "Nature, 334(1988)510"
150001 SST0170423 As-synthesized. O-content by weight change. Hirr(77K) = 3.60 T. "(Cu,C)Ba2Ca3Cu4Oz" C0.3Ba2Ca4Cu5.7O11.18 C 0.3 Ba 2 Ca 4 Cu 5.7 O z 11.18 1 2004 "(Cu,C)1234" A 3.8569 17.955 K 117.5 117.5 "BaO2,CaCO3,Ca2CuO3,CuO,Cu2O" "mixture - pellet - into Au-capsule - high pressure synthesis(3.5GPa,1000C,2h)" "Anomalous behaviour of irreversibility lines in multi-layered superconductor (Cu, C)Ba2Ca3Cu4Oy" 2004 "Department of Physics, Faculty of Science and Technology, Tokyo University of Science, 2641 Yamazaki, Noda, Chiba 278-8510, Japan" "Supercond. Sci. Technol., 17(2004)423"
150002 SST0170423 "ANN(300C,in N2). O-content by weight change. Hirr(77K) = 3.95 T." "(Cu,C)Ba2Ca3Cu4Oz" C0.3Ba2Ca4Cu5.7O10.77 C 0.3 Ba 2 Ca 4 Cu 5.7 O z 10.77 1 2004 "(Cu,C)1234" A 3.8564 17.952 K 116.7 116.7 "BaO2,CaCO3,Ca2CuO3,CuO,Cu2O" "mixture - pellet - into Au-capsule - high pressure synthesis(3.5GPa,1000C,2h)" "Anomalous behaviour of irreversibility lines in multi-layered superconductor (Cu, C)Ba2Ca3Cu4Oy" 2004 "Department of Physics, Faculty of Science and Technology, Tokyo University of Science, 2641 Yamazaki, Noda, Chiba 278-8510, Japan" "Supercond. Sci. Technol., 17(2004)423"
150003 SST0170423 "ANN(400C,in N2). O-content by weight change. Hirr(77K) = 3.95 T." "(Cu,C)Ba2Ca3Cu4Oz" C0.3Ba2Ca4Cu5.7O10.69 C 0.3 Ba 2 Ca 4 Cu 5.7 O z 10.69 1 2004 "(Cu,C)1234" A 3.8569 17.956 K 116.3 116.3 TC150003 "BaO2,CaCO3,Ca2CuO3,CuO,Cu2O" "mixture - pellet - into Au-capsule - high pressure synthesis(3.5GPa,1000C,2h)" "Anomalous behaviour of irreversibility lines in multi-layered superconductor (Cu, C)Ba2Ca3Cu4Oy" 2004 "Department of Physics, Faculty of Science and Technology, Tokyo University of Science, 2641 Yamazaki, Noda, Chiba 278-8510, Japan" "Supercond. Sci. Technol., 17(2004)423"
150004 SST0170423 "ANN(450C,in N2). O-content by weight change. Hirr(77K) = 4.00 T." "(Cu,C)Ba2Ca3Cu4Oz" C0.3Ba2Ca4Cu5.7O10.66 C 0.3 Ba 2 Ca 4 Cu 5.7 O z 10.66 1 2004 "(Cu,C)1234" A 3.8572 17.962 K 115.7 115.7 "BaO2,CaCO3,Ca2CuO3,CuO,Cu2O" "mixture - pellet - into Au-capsule - high pressure synthesis(3.5GPa,1000C,2h)" "Anomalous behaviour of irreversibility lines in multi-layered superconductor (Cu, C)Ba2Ca3Cu4Oy" 2004 "Department of Physics, Faculty of Science and Technology, Tokyo University of Science, 2641 Yamazaki, Noda, Chiba 278-8510, Japan" "Supercond. Sci. Technol., 17(2004)423"
150005 SST0170423 "ANN(500C,in N2). O-content by weight change. Hirr(77K) = 4.60 T." "(Cu,C)Ba2Ca3Cu4Oz" C0.3Ba2Ca4Cu5.7O10.57 C 0.3 Ba 2 Ca 4 Cu 5.7 O z 10.57 1 2004 "(Cu,C)1234" A 3.8592 17.986 K 115.1 115.1 HIR150005 "BaO2,CaCO3,Ca2CuO3,CuO,Cu2O" "mixture - pellet - into Au-capsule - high pressure synthesis(3.5GPa,1000C,2h)" "Anomalous behaviour of irreversibility lines in multi-layered superconductor (Cu, C)Ba2Ca3Cu4Oy" 2004 "Department of Physics, Faculty of Science and Technology, Tokyo University of Science, 2641 Yamazaki, Noda, Chiba 278-8510, Japan" "Supercond. Sci. Technol., 17(2004)423"
150006 SST0170423 "ANN(550C,in N2). O-content by weight change. Hirr(77K) = 1.66 T." "(Cu,C)Ba2Ca3Cu4Oz" C0.3Ba2Ca4Cu5.7O10.45 C 0.3 Ba 2 Ca 4 Cu 5.7 O z 10.45 1 2004 "(Cu,C)1234" A 3.8596 18.001 K 114.3 114.3 "BaO2,CaCO3,Ca2CuO3,CuO,Cu2O" "mixture - pellet - into Au-capsule - high pressure synthesis(3.5GPa,1000C,2h)" "Anomalous behaviour of irreversibility lines in multi-layered superconductor (Cu, C)Ba2Ca3Cu4Oy" 2004 "Department of Physics, Faculty of Science and Technology, Tokyo University of Science, 2641 Yamazaki, Noda, Chiba 278-8510, Japan" "Supercond. Sci. Technol., 17(2004)423"
150007 SST0170423 "ANN(600C,in N2). O-content by weight change. Hirr(77K) = 1.20 T." "(Cu,C)Ba2Ca3Cu4Oz" C0.3Ba2Ca4Cu5.7O10.34 C 0.3 Ba 2 Ca 4 Cu 5.7 O z 10.34 1 2004 "(Cu,C)1234" A 3.8609 18.003 K 113.5 113.5 HIR150005 "BaO2,CaCO3,Ca2CuO3,CuO,Cu2O" "mixture - pellet - into Au-capsule - high pressure synthesis(3.5GPa,1000C,2h)" "Anomalous behaviour of irreversibility lines in multi-layered superconductor (Cu, C)Ba2Ca3Cu4Oy" 2004 "Department of Physics, Faculty of Science and Technology, Tokyo University of Science, 2641 Yamazaki, Noda, Chiba 278-8510, Japan" "Supercond. Sci. Technol., 17(2004)423"
150008 PHC3080198 O-content by coulometric titration. Tc is independent of O-content for 10.09=, Sn<124> were used. Tc value is for Sn<116> isotope. Tc(Nb3Sn<124>) = 17.89 K." Nb3Sn Nb3Sn1 Nb 3 Sn 1 1960 K 17.93 17.93 0.08 Sn Isotope effect in Nb3Sn 1960 "Phys.Rev., 120(1960)1964"
150027 PR1201964 "Sn<116>, Sn<124> were used. Tc value is for Sn<116> isotope. Tc(Sn<124>) = 3.64 K." Sn Sn1 Sn 1 1960 K 3.77 3.77 0.46 Sn Isotope effect in Nb3Sn 1960 "Phys.Rev., 120(1960)1964"
150028 PR1210086 (dHc/dM) = -3.80 gaus/amu) Pb Pb1 Pb 1 1961 K 7.175 7.175 0.478 Pb Isotope effect in superconducting lead 1961 "Phys.Rev., 121(1961)86"
150029 PR1121522 M = 207.27. (dHc/dT) M = 240 gaus. (dHc/dM)T = -4.17 gaus/amu. Hc shows Hc(type-I) for M=206.54 sample. Pb Pb1 Pb 1 1958 K 7.175 7.175 0.501 Pb Oe 815 Isotope effect on the superconducting transition in lead 1958 "Phys.Rev., 112(1958)1522"
150030 PR1121888 Hc2 shows Hc(type-I). Pb Pb1 Pb 1 1958 K 7.175 7.175 0.461 Pb Oe 802.6 Oe/K 238.4 mJ/mol.K 53 Critical field measurements on superconducting lead isotopes 1958 "Phys.Rev., 112(1958)1888"
150031 PRL0060275 "89.82% Ru<99>, 96.35%Ru<104> were used." Ru Ru1 Ru 1 1961 K 0.493 0.493 0 Ru from Oak Ridge National Lab. Absence of an isotope effect in superconducting ruthenium 1961 "Bell Telephone Lab, New Jesey" "Phys.Rev.Lett., 6(1961)275"
150032 P075172508 pulsed field. Hc2 defined as the field which the highest slope line meet to normal resistive line. Hc2(WHH) = T using (dHc2/dT) at Tc. "(Pr,Ce)2CuO4" Pr1.87Ce0.13Cu1O4-z Pr 1.87 Ce 0.13 Cu 1 O 4-z 5 2007 T' K 10.8 10.8 T 65 single crystal films were depositted on SrTiO3 substrates by pulsed laser deposition. optimized annealing for each Ce concentration. Upper critical field of electron-doped Pr2-xCexCuO4-z in parallel magnetic fields 2007 "Center for Superconductivity Research and Department of Physics, University of Maryland, College Park, Maryland 20742-4111, USA" "Phys.Rev.B, 75(2007)172508"
150033 P075172508 d=2500A. pulsed field. Hc2 defined as the field which the highest slope line meet to normal resistive line. Hc2(WHH) = 170 T using (dHc2/dT) at Tc. "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4-z Pr 1.85 Ce 0.15 Cu 1 O 4-z 5 2007 T' K 21.3 21.3 T 73 HC150033 single crystal films were depositted on SrTiO3 substrates by pulsed laser deposition. optimized annealing for each Ce concentration. Upper critical field of electron-doped Pr2-xCexCuO4-z in parallel magnetic fields 2007 "Center for Superconductivity Research and Department of Physics, University of Maryland, College Park, Maryland 20742-4111, USA" "Phys.Rev.B, 75(2007)172508"
150034 P075172508 d=2500A. pulsed field. Hc2 defined as the field which the highest slope line meet to normal resistive line. Hc2(WHH) = 92.2 T using (dHc2/dT) at Tc. "(Pr,Ce)2CuO4" Pr1.84Ce0.16Cu1O4-z Pr 1.84 Ce 0.16 Cu 1 O 4-z 5 2007 T' K 16.9 16.9 T 55 HC150034 single crystal films were depositted on SrTiO3 substrates by pulsed laser deposition. optimized annealing for each Ce concentration. Upper critical field of electron-doped Pr2-xCexCuO4-z in parallel magnetic fields 2007 "Center for Superconductivity Research and Department of Physics, University of Maryland, College Park, Maryland 20742-4111, USA" "Phys.Rev.B, 75(2007)172508"
150035 P075172508 d=2500A. pulsed field. Hc2 defined as the field which the highest slope line meet to normal resistive line. Hc2(WHH) = 58.6 T using (dHc2/dT) at Tc. "(Pr,Ce)2CuO4" Pr1.83Ce0.17Cu1O4-z Pr 1.83 Ce 0.17 Cu 1 O 4-z 5 2007 T' K 14 14 T 44 HC150035 single crystal films were depositted on SrTiO3 substrates by pulsed laser deposition. optimized annealing for each Ce concentration. Upper critical field of electron-doped Pr2-xCexCuO4-z in parallel magnetic fields 2007 "Center for Superconductivity Research and Department of Physics, University of Maryland, College Park, Maryland 20742-4111, USA" "Phys.Rev.B, 75(2007)172508"
150036 P075172508 d=2500A. pulsed field. Hc2 defined as the field which the highest slope line meet to normal resistive line. Hc2(WHH) = 54.1T using (dHc2/dT) at Tc. "(Pr,Ce)2CuO4" Pr1.81Ce0.19Cu1O4-z Pr 1.81 Ce 0.19 Cu 1 O 4-z 5 2007 T' K 10.4 10.4 T 32 HC150036 single crystal films were depositted on SrTiO3 substrates by pulsed laser deposition. optimized annealing for each Ce concentration. Upper critical field of electron-doped Pr2-xCexCuO4-z in parallel magnetic fields 2007 "Center for Superconductivity Research and Department of Physics, University of Maryland, College Park, Maryland 20742-4111, USA" "Phys.Rev.B, 75(2007)172508"
150037 P075174502 demagnetization factor = 0.97. Tc=7.1863-0.3847*P+0.01769*P^2. Hc2 shows H0(type-I). H0(P=0.5GPa)=770.88 Oe. H0(P=0.9)=739.99 Oe. H0(P=1.15)=729.01 Oe. Pb Pb1 Pb 1 2007 K 7.186 7.186 Oe 804.08 mJ/mol.K2 3.47 calculated from Hc Thermodynamic properties of Pb determined from pressure-dependent critical-field measurements 2007 "MacDiarmid Institute for Advanced Materials and Nanotechnology, Industrial Research Ltd., P.O. Box 31310, Lower Hutt, New Zealand" "Phys.Rev.B, 75(2007)174502"
150038 PR0881182 Pb Pb1 Pb 1 1952 K 7.17 7.17 mJ/mol.K2 3.13 SP-heat 96.3 SP-heat The specific heat of lead in the temperature range 1 K to 75 K 1952 "Phys.Rev., 88(1952)1182"
150039 P075184501 Hc2 measured from SP-heat. (dC/Tc) = 45 mJ/mol.K2. gamma estimated to be between 80 and 150 mJ/mol.K2. PuRhGa5 Pu1Rh1Ga5 Pu 1 Rh 1 Ga 5 3 2007 HoCoGa5 K 9 9 T/K SP-heat 4 2 MHC150039 SP150039 Specific heat and anisotropy of the nonconventional superconductors PuCoGa5 and PuRhGa5 2007 "Charles University, Faculty of Mathematics and Physics, Department of Condensed Matter Physics, Ke Karlovu 5, 121 16 Prague 2, The Czech Republic" "Phys.Rev.B, 75(2007)184501"
150040 P075184501 PuCoGa5 Pu1Co1Ga5 Pu 1 Co 1 Ga 5 3 2007 HoCoGa5 K 17.8 17.8 T/K SP-heat 10 8 MHC150040 Specific heat and anisotropy of the nonconventional superconductors PuCoGa5 and PuRhGa5 2007 "Charles University, Faculty of Mathematics and Physics, Department of Condensed Matter Physics, Ke Karlovu 5, 121 16 Prague 2, The Czech Republic" "Phys.Rev.B, 75(2007)184501"
150041 PSS23200R4 "not SC. TP(max) = 65 uV/K at 215 K. SP-heat, thermal conductivity, thermopower were measured." URhGa5 U1Rh1Ga5 U 1 Rh 1 Ga 5 3 2002 HoCoGa5 P4/mmm A 4.302 6.803 K 0.4 mJ/mol.K2 7 SP-heat uV/K 60.2 Transport Properties of URhGa5 Single Crystals 2002 "W. Trzebiatowski Institute of Low Temperature and Structure Research, Polish Academy of Sciences, ul. Okolna 2, 50-950 Wroclaw 2, Poland" "Phys.Stat.Sol. (b), 232(2002)R4"
150042 PR06012467 "Tc,Hc2 defined as 0.5Rn(resistive transition)." Bi2Sr2CuOz Bi2Sr2Cu1Oz Bi 2 Sr 2 Cu 1 O z 1 1999 Bi2201 K T resistive 43 16 HC150042 A 35 15 Temperature dependence of the upper critical field of Bi2Sr2CuOx single crystals 1999 "High Magnetic Field Laboratory, Max-Planck-Institut fur Festkorperforschung and Centre National de la Recherche Scientifique, Boite Postale, Grenoble Cedex 9, France" "Phys.Rev.B, 60(1999)12467"
150043 PR06101584 film thickness d = 250 nm. c-axis growth direction. YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 5 2000 Y123 K 87.2 87.2 HC150043 3140000 on-axis dc magnetron sputtering on MgO(001) at 770C. Experimental determination of the B-T phase diagram of YBa2Cu3O7-z to 150 T for B-n-c 2000 1 "National Pulsed Magnet Laboratory and Semiconductor Nanofabrication Facility, School of Physics, University of New South Wales, Sydney 2052, Australia" "Phys.Rev.B,61(2000)1584-1587"
150044 P075184513 MgB2 B2Mg1 B 2 Mg 1 1 2007 AlB2 K 38.8 38.8 1076 using Bloch-Gruneizen eq. from R(T) uV/K 10.29 uOhm.cm 16.3 solid state reaction Effects of Fe substitution on the transport properties of the superconductor MgB2 2007 "Superconductivity and Cryogenics Division, National Physical Laboratory, Dr. K. S. Krishnan Road, New Delhi 110012, India" "Phys.Rev.B, 75(2007)184513"
150045 P075184513 "(Mg,Fe)B2" Mg0.997Fe0.003B2 Mg 0.997 Fe 0.003 B 2 1 2007 AlB2 K 37.9 37.9 1043 using Bloch-Gruneizen eq. from R(T) uV/K 10.05 uOhm.cm 25.1 solid state reaction Effects of Fe substitution on the transport properties of the superconductor MgB2 2007 "Superconductivity and Cryogenics Division, National Physical Laboratory, Dr. K. S. Krishnan Road, New Delhi 110012, India" "Phys.Rev.B, 75(2007)184513"
150046 P075184513 "(Mg,Fe)B2" Mg0.994Fe0.006B2 Mg 0.994 Fe 0.006 B 2 1 2007 AlB2 K 37 37 1021 using Bloch-Gruneizen eq. from R(T) uV/K 10.88 uOhm.cm 37.3 solid state reaction Effects of Fe substitution on the transport properties of the superconductor MgB2 2007 "Superconductivity and Cryogenics Division, National Physical Laboratory, Dr. K. S. Krishnan Road, New Delhi 110012, India" "Phys.Rev.B, 75(2007)184513"
150047 P075184513 "(Mg,Fe)B2" Mg0.988Fe0.012B2 Mg 0.988 Fe 0.012 B 2 1 2007 AlB2 K 34.9 34.9 1152 using Bloch-Gruneizen eq. from R(T) uV/K 9.14 uOhm.cm 73.1 solid state reaction Effects of Fe substitution on the transport properties of the superconductor MgB2 2007 "Superconductivity and Cryogenics Division, National Physical Laboratory, Dr. K. S. Krishnan Road, New Delhi 110012, India" "Phys.Rev.B, 75(2007)184513"
150048 P075184513 "(Mg,Fe)B2" Mg0.97Fe0.03B2 Mg 0.97 Fe 0.03 B 2 1 2007 AlB2 K 32.9 32.9 1131 using Bloch-Gruneizen eq. from R(T) uV/K 11.54 uOhm.cm 110.4 solid state reaction Effects of Fe substitution on the transport properties of the superconductor MgB2 2007 "Superconductivity and Cryogenics Division, National Physical Laboratory, Dr. K. S. Krishnan Road, New Delhi 110012, India" "Phys.Rev.B, 75(2007)184513"
150049 P075184535 "impurity phase=Rh3P2,LaPO. Chemical formula = La0.82Rh3.9P12.1 by EPMA. Hc2 defined as 0.5Rn. RRR = 1.75. e-ph coupling = 0.7." La0.8Rh4P12 La0.8Rh4P12 La 0.8 Rh 4 P 12 2007 5.59 skutterudite A 8.0785 K 14.9 14.9 T resistive 16.7 T/K resistive 1.2 MHC150049 A 44.1 mJ/mol.K2 25.1 SP-heat 459 SP-heat mOhm.cm 0.3173 0.5482 "La(3N),Rh(3N),P(5N)" "mixture of powder(La:Rh:P = 1:4:12) - high pressure synthesis(1473K,9.4GPa, using belt-type aparatus)" Superconducting properties of filled skutterudite La0.8Rh4P12 2007 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 75(2007)184535"
150050 PCS0600689 (dC/gamma*Tc) = 1.48. e-ph coupling = 0.57. LaRu4P12 La1Ru4P12 La 1 Ru 4 P 12 1999 skutterudite A 8.0605 K 7.2 7.2 T 3.65 A 95 MSP150050 mJ/mol.K 270 mJ/mol.K2 26 SP-heat 446 SP-heat "high pressure synthesis (800-1100C,4GPa)" "Superconductivity of LaRu4X12 (X = P, As and Sb) with skutterudite structure" 1999 "Muroran Institute of Technology, 27-1 Mizumoto, Muroran-shi 050-8585, Japan" "J.Phys.Chem.Solids, 60(1999)689"
150051 PCS0600689 e-ph coupling = 0.86. LaRu4As12 La1Ru4As12 La 1 Ru 4 As 12 1999 skutterudite A 8.5097 K 10.3 10.3 T 0.72 A 206 mJ/mol.K2 73 SP-heat 233 SP-heat "high pressure synthesis (800-1100C,4GPa)" "Superconductivity of LaRu4X12 (X = P, As and Sb) with skutterudite structure" 1999 "Muroran Institute of Technology, 27-1 Mizumoto, Muroran-shi 050-8585, Japan" "J.Phys.Chem.Solids, 60(1999)689"
150052 PCS0600689 LaRu4Sb12 La1Ru4Sb12 La 1 Ru 4 Sb 12 1999 skutterudite A 9.2781 K 2.8 2.8 T 0.46 MHC150052 A 266 "high pressure synthesis (800-1100C,4GPa)" "Superconductivity of LaRu4X12 (X = P, As and Sb) with skutterudite structure" 1999 "Muroran Institute of Technology, 27-1 Mizumoto, Muroran-shi 050-8585, Japan" "J.Phys.Chem.Solids, 60(1999)689"
150053 PCS0600689 "(La,Ce)Ru4P12" La0.95Ce0.05Ru4P12 La 0.95 Ce 0.05 Ru 4 P 12 1999 skutterudite K 6.7 7 6.8 6.8 "Superconductivity of LaRu4X12 (X = P, As and Sb) with skutterudite structure" 1999 "Muroran Institute of Technology, 27-1 Mizumoto, Muroran-shi 050-8585, Japan" "J.Phys.Chem.Solids, 60(1999)689"
150054 PCS0600689 "(La,Ce)Ru4P12" La0.9Ce0.1Ru4P12 La 0.9 Ce 0.1 Ru 4 P 12 1999 skutterudite K 2.5 5 4.8 4.8 "Superconductivity of LaRu4X12 (X = P, As and Sb) with skutterudite structure" 1999 "Muroran Institute of Technology, 27-1 Mizumoto, Muroran-shi 050-8585, Japan" "J.Phys.Chem.Solids, 60(1999)689"
150055 JCG3050222 "Bi2(Sr,Bi)2CuO6" Bi2.12Sr1.88Cu1O6+z Bi 2.12 Sr 1.88 Cu 1 O 6+z 3 2007 Bi2201 K 6.38 6.38 "Bi2O3,SrCO3,CuO" traveling-solvent floating-zone method(TSFZ) under the pressure of P(O2) = 2 atm. Growth and characterization of Bi2+xSr2-xCuO6+z single crystals 2007 "National Laboratory for Superconductivity, Institute of Physics and National Laboratory for Condensed Matter Physics, Beijing, PR China" "J.Crys.Growth, 305(2007)222"
150056 SSC1420421 "e-ph coupling = 0.382, estimated from McMillan's eq." Al Al1 Al 1 2007 K 1.16 1.16 mJ/mol.K2 1.34 435 Superconducting transition parameters in aluminum-lithium alloys (0-10 at.% Li) 2007 "Department of Electrophysics, National Chiao Tung University, Hsinchu, Taiwan" "Solid State Commun., 142(2007)421"
150057 SSC1420421 "e-ph coupling = 0.377, estimated from McMillan's eq." Al1-xLix Al0.99Li0.01 Al 0.99 Li 0.01 2007 K 1.07 1.07 mJ/mol.K2 1.3 442 Superconducting transition parameters in aluminum-lithium alloys (0-10 at.% Li) 2007 "Department of Electrophysics, National Chiao Tung University, Hsinchu, Taiwan" "Solid State Commun., 142(2007)421"
150058 SSC1420421 "e-ph coupling = 0.375, estimated from McMillan's eq." Al1-xLix Al0.97Li0.03 Al 0.97 Li 0.03 2007 K 1.05 1.05 mJ/mol.K2 1.23 444 Superconducting transition parameters in aluminum-lithium alloys (0-10 at.% Li) 2007 "Department of Electrophysics, National Chiao Tung University, Hsinchu, Taiwan" "Solid State Commun., 142(2007)421"
150059 SSC1420421 "e-ph coupling = 0.378, estimated from McMillan's eq." Al1-xLix Al0.95Li0.05 Al 0.95 Li 0.05 2007 K 1.13 1.13 mJ/mol.K2 1.2 456 Superconducting transition parameters in aluminum-lithium alloys (0-10 at.% Li) 2007 "Department of Electrophysics, National Chiao Tung University, Hsinchu, Taiwan" "Solid State Commun., 142(2007)421"
150060 SSC1420421 "e-ph coupling = 0.385, estimated from McMillan's eq." Al1-xLix Al0.9Li0.1 Al 0.9 Li 0.1 2007 K 1.29 1.29 mJ/mol.K2 1.16 468 Superconducting transition parameters in aluminum-lithium alloys (0-10 at.% Li) 2007 "Department of Electrophysics, National Chiao Tung University, Hsinchu, Taiwan" "Solid State Commun., 142(2007)421"
150061 DRM0140335 diamond film containing 2.6 at% B B-doped diamond C1 C 1 2005 diamond K 3.8 0.3 3.8 T WHH extraporation 11 T/K 4.3 MHC150061 CVD on (111) natural diamond Superconductivity in boron-doped diamond 2005 "Institute for High Pressure Physics, Russian Academy of Sciences, 142190 Troitsk, Moscow, Russia" "Diamond Relat.Mater., 14(2005)335"
150062 JCG3050222 "Bi2(Sr,Bi)2CuO6" Bi2.05Sr1.95Cu1O6+z Bi 2.05 Sr 1.95 Cu 1 O 6+z 3 2007 Bi2201 K 8.94 8.94 TC150062 "Bi2O3,SrCO3,CuO" traveling-solvent floating-zone method(TSFZ) under the pressure of P(O2) = 2 atm. Growth and characterization of Bi2+xSr2-xCuO6+z single crystals 2007 "National Laboratory for Superconductivity, Institute of Physics and National Laboratory for Condensed Matter Physics, Beijing, PR China" "J.Crys.Growth, 305(2007)222"
150063 P075212503 O-exchange rate by weight change. Tc defined as R=0.5Rn. isotope effect of structural transformation(LTO-to-LTT) = -0.32. "(La,Nd,Sr)2CuO4" La1.5Nd0.4Sr0.1Cu1O4 La 1.5 Nd 0.4 Sr 0.1 Cu 1 O 4 1 2007 T K 11 11 1.24 O 80 1.3 1 "solid state reaction. ANN(980C,90h, then 500C,10h in 1bar <16>O2 or <18>O2) - FC to RT" Oxygen isotope effect on the superconductivity and stripe phase in La1.6-xNd0.4SrxCuO4 2007 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 75(2007)212503"
150064 P075212503 O-exchange rate by weight change. Tc defined as R=0.5Rn. isotope effect of structural transformation(LTO-to-LTT) = -0.19. "(La,Nd,Sr)2CuO4" La1.475Nd0.4Sr0.125Cu1O4 La 1.475 Nd 0.4 Sr 0.125 Cu 1 O 4 1 2007 T K 7.9 7.9 1.89 O 80 1 "solid state reaction. ANN(980C,90h, then 500C,10h in 1bar <16>O2 or <18>O2) - FC to RT" Oxygen isotope effect on the superconductivity and stripe phase in La1.6-xNd0.4SrxCuO4 2007 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 75(2007)212503"
150065 P075212503 O-exchange rate by weight change. Tc defined as R=0.5Rn. isotope effect of structural transformation(LTO-to-LTT) = -0.20. "(La,Nd,Sr)2CuO4" La1.45Nd0.4Sr0.15Cu1O4 La 1.45 Nd 0.4 Sr 0.15 Cu 1 O 4 1 2007 T K 17.8 17.8 0.98 O 80 1 "solid state reaction. ANN(980C,90h, then 500C,10h in 1bar <16>O2 or <18>O2) - FC to RT" Oxygen isotope effect on the superconductivity and stripe phase in La1.6-xNd0.4SrxCuO4 2007 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 75(2007)212503"
150066 P075212503 O-exchange rate by weight change. Tc defined as R=0.5Rn. isotope effect of structural transformation(LTO-to-LTT) = -0.17. "(La,Nd,Sr)2CuO4" La1.425Nd0.4Sr0.175Cu1O4 La 1.425 Nd 0.4 Sr 0.175 Cu 1 O 4 1 2007 T K 25 25 0.33 O 80 1 "solid state reaction. ANN(980C,90h, then 500C,10h in 1bar <16>O2 or <18>O2) - FC to RT" Oxygen isotope effect on the superconductivity and stripe phase in La1.6-xNd0.4SrxCuO4 2007 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 75(2007)212503"
150067 PRL0590912 ratio of <16>O:<18>O measured by RBS. Tc by M measurement. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1987 T K 35 35 0.16 O 52 0.39 Nonzero isotope effect in La1.85Sr0.15CuO4 1987 "AT&T Bell Laboratories, New Jersey" "Phys.Rev.Lett., 59(1987)912"
150068 PRL0590912 ratio of <16>O:<18>O measured by RBS. Tc by M measurement. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1987 T K 35 35 0.16 O 73 0.46 Nonzero isotope effect in La1.85Sr0.15CuO4 1987 "AT&T Bell Laboratories, New Jersey" "Phys.Rev.Lett., 59(1987)912"
150069 JP0109055 <18>O-sample (90% exchange by weight change). O-content(=4.0) by titration method. "(La,Sr)2CuO4" La1.94Sr0.06Cu1O4 La 1.94 Sr 0.06 Cu 1 O 4 4 1 1998 T K 8 8 1.05 O 1 "La2O3,SrCO3,CuO" 1 "ANN(900C,12h,in air), diffusion process(900C,40h,in 1bar <16>O2 or <18>O2) - cool to RT(4h)" Oxygen isotope effects in La2-xSrxCuO4: evidence for polaronic charge carriers and their condensation 1998 "Physik-Institut der Universitat Zurich, CH-8057 Zurich, Switzerland" "J.Phys.Condens.Matter, 10(1998)9055"
150070 JP0109055 <18>O-sample (90% exchange by weight change). O-content(=4.0) by titration method. "(La,Sr)2CuO4" La1.91Sr0.09Cu1O4 La 1.91 Sr 0.09 Cu 1 O 4 4 1 1998 T K 27.5 27.5 TC150070 0.34 O 1 "La2O3,SrCO3,CuO" 1 "ANN(900C,12h,in air), diffusion process(900C,40h,in 1bar <16>O2 or <18>O2) - cool to RT(4h)" Oxygen isotope effects in La2-xSrxCuO4: evidence for polaronic charge carriers and their condensation 1998 "Physik-Institut der Universitat Zurich, CH-8057 Zurich, Switzerland" "J.Phys.Condens.Matter, 10(1998)9055"
150071 JP0109055 <18>O-sample (90% exchange by weight change). O-content(=4.0) by titration method. "(La,Sr)2CuO4" La1.88Sr0.12Cu1O4 La 1.88 Sr 0.12 Cu 1 O 4 4 1 1998 T K 30.2 30.2 0.62 O 2.1 "La2O3,SrCO3,CuO" 1 "ANN(900C,12h,in air), diffusion process(900C,40h,in 1bar <16>O2 or <18>O2) - cool to RT(4h)" Oxygen isotope effects in La2-xSrxCuO4: evidence for polaronic charge carriers and their condensation 1998 "Physik-Institut der Universitat Zurich, CH-8057 Zurich, Switzerland" "J.Phys.Condens.Matter, 10(1998)9055"
150072 JP0109055 original data in Nature 385(1997)236 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 4 1 1998 T K 37 37 0.12 O 1 "La2O3,SrCO3,CuO" 1 "ANN(900C,12h,in air), diffusion process(900C,40h,in 1bar <16>O2 or <18>O2) - cool to RT(4h)" Oxygen isotope effects in La2-xSrxCuO4: evidence for polaronic charge carriers and their condensation 1998 "Physik-Institut der Universitat Zurich, CH-8057 Zurich, Switzerland" "J.Phys.Condens.Matter, 10(1998)9055"
150073 PCS0681390 R(25 K) = 9.62mOhm.cm. lattice term of SP-heat(beta) = 0.288 mJ/mol.K4. constant-term of SP-heat(A) = 1.159 mJ.K/mol. "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4.175 Pr 1.85 Ce 0.15 Cu 1 O 4+z 4.175 1 2007 T' K 14 18.5 2.8 16.25 mJ/mol.K2 4.001 SP fitting mOhm.cm 5.65 "final annealing (850C,12h, in air) - FC to RT" Superconductivity and calorimetric studies of Pr1.85Ce0.15CuO4+z under different annealing conditions 2007 "Department of Electronic Engineering, National Formosa University, Hu-Wei, Yunlin 632, Taiwan, ROC" "J.Phys.Chem.Solids, 68(2007)1390"
150074 PCS0681390 R(25 K) = 12.47 mOhm.cm. lattice term of SP-heat(beta) = 0.292 mJ/mol.K4. constant-term of SP-heat(A) = 0.768 mJ.K/mol. "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4.161 Pr 1.85 Ce 0.15 Cu 1 O 4+z 4.161 1 2007 T' K 17.2 20.5 2 18.85 mJ/mol.K2 5.018 SP fitting mOhm.cm 6.78 "final annealing (850C,12h, in air) - Q to RT" Superconductivity and calorimetric studies of Pr1.85Ce0.15CuO4+z under different annealing conditions 2007 "Department of Electronic Engineering, National Formosa University, Hu-Wei, Yunlin 632, Taiwan, ROC" "J.Phys.Chem.Solids, 68(2007)1390"
150075 PCS0681390 R(25 K) = 15.36 mOhm.cm. lattice term of SP-heat(beta) = 0.199 mJ/mol.K4. constant-term of SP-heat(A) = 1.099 mJ.K/mol. "(Pr,Ce)2CuO4" Pr1.85Ce0.15Cu1O4.065 Pr 1.85 Ce 0.15 Cu 1 O 4+z 4.065 1 2007 T' K 13.5 20 3.2 16.75 mJ/mol.K2 4.003 SP fitting mOhm.cm 1.96 "final annealing (850C,9h, in vac of 1.0E-3 Torr) - Q to RT" Superconductivity and calorimetric studies of Pr1.85Ce0.15CuO4+z under different annealing conditions 2007 "Department of Electronic Engineering, National Formosa University, Hu-Wei, Yunlin 632, Taiwan, ROC" "J.Phys.Chem.Solids, 68(2007)1390"
150076 PCS0681390 "(Pr,Ce)2(Cu,Zn)O4" Pr1.85Ce0.15Cu0.995Zn0.005O4.065 Pr 1.85 Ce 0.15 Cu 0.995 Zn 0.005 O 4+z 4.065 1 2007 T' K 18.9 18.9 "final annealing (850C,9h, in vac of 1.0E-3 Torr) - Q to RT" Superconductivity and calorimetric studies of Pr1.85Ce0.15CuO4+z under different annealing conditions 2007 "Department of Electronic Engineering, National Formosa University, Hu-Wei, Yunlin 632, Taiwan, ROC" "J.Phys.Chem.Solids, 68(2007)1390"
150077 PCS0681390 "(Pr,Ce)2(Cu,Zn)O4" Pr1.85Ce0.15Cu0.99Zn0.01O4.065 Pr 1.85 Ce 0.15 Cu 0.99 Zn 0.01 O 4+z 4.065 1 2007 T' K 18.41 18.41 "final annealing (850C,9h, in vac of 1.0E-3 Torr) - Q to RT" Superconductivity and calorimetric studies of Pr1.85Ce0.15CuO4+z under different annealing conditions 2007 "Department of Electronic Engineering, National Formosa University, Hu-Wei, Yunlin 632, Taiwan, ROC" "J.Phys.Chem.Solids, 68(2007)1390"
150078 PCS0681390 "(Pr,Ce)2(Cu,Zn)O4" Pr1.85Ce0.15Cu0.985Zn0.015O4.065 Pr 1.85 Ce 0.15 Cu 0.985 Zn 0.015 O 4+z 4.065 1 2007 T' K 18.28 18.28 "final annealing (850C,9h, in vac of 1.0E-3 Torr) - Q to RT" Superconductivity and calorimetric studies of Pr1.85Ce0.15CuO4+z under different annealing conditions 2007 "Department of Electronic Engineering, National Formosa University, Hu-Wei, Yunlin 632, Taiwan, ROC" "J.Phys.Chem.Solids, 68(2007)1390"
150079 PCS0681390 "(Pr,Ce)2(Cu,Zn)O4" Pr1.85Ce0.15Cu0.98Zn0.02O4.065 Pr 1.85 Ce 0.15 Cu 0.98 Zn 0.02 O 4+z 4.065 1 2007 T' K 18.01 18.01 "final annealing (850C,9h, in vac of 1.0E-3 Torr) - Q to RT" Superconductivity and calorimetric studies of Pr1.85Ce0.15CuO4+z under different annealing conditions 2007 "Department of Electronic Engineering, National Formosa University, Hu-Wei, Yunlin 632, Taiwan, ROC" "J.Phys.Chem.Solids, 68(2007)1390"
150080 PCS0681390 "(Pr,Ce)2(Cu,Ni)O4" Pr1.85Ce0.15Cu0.998Ni0.002O4.065 Pr 1.85 Ce 0.15 Cu 0.998 Ni 0.002 O 4+z 4.065 1 2007 T' K 15.89 15.89 "final annealing (850C,9h, in vac of 1.0E-3 Torr) - Q to RT" Superconductivity and calorimetric studies of Pr1.85Ce0.15CuO4+z under different annealing conditions 2007 "Department of Electronic Engineering, National Formosa University, Hu-Wei, Yunlin 632, Taiwan, ROC" "J.Phys.Chem.Solids, 68(2007)1390"
150081 PCS0681390 "(Pr,Ce)2(Cu,Ni)O4" Pr1.85Ce0.15Cu0.995Ni0.005O4.065 Pr 1.85 Ce 0.15 Cu 0.995 Ni 0.005 O 4+z 4.065 1 2007 T' K 11.92 11.92 "final annealing (850C,9h, in vac of 1.0E-3 Torr) - Q to RT" Superconductivity and calorimetric studies of Pr1.85Ce0.15CuO4+z under different annealing conditions 2007 "Department of Electronic Engineering, National Formosa University, Hu-Wei, Yunlin 632, Taiwan, ROC" "J.Phys.Chem.Solids, 68(2007)1390"
150082 PCS0681390 "(Pr,Ce)2(Cu,Ni)O4" Pr1.85Ce0.15Cu0.993Ni0.007O4.065 Pr 1.85 Ce 0.15 Cu 0.993 Ni 0.007 O 4+z 4.065 1 2007 T' K 7.02 7.02 "final annealing (850C,9h, in vac of 1.0E-3 Torr) - Q to RT" Superconductivity and calorimetric studies of Pr1.85Ce0.15CuO4+z under different annealing conditions 2007 "Department of Electronic Engineering, National Formosa University, Hu-Wei, Yunlin 632, Taiwan, ROC" "J.Phys.Chem.Solids, 68(2007)1390"
150083 PCS0681390 "(Pr,Ce)2(Cu,Ni)O4" Pr1.85Ce0.15Cu0.99Ni0.01O4.065 Pr 1.85 Ce 0.15 Cu 0.99 Ni 0.01 O 4+z 4.065 1 2007 T' K 0.93 0.93 "final annealing (850C,9h, in vac of 1.0E-3 Torr) - Q to RT" Superconductivity and calorimetric studies of Pr1.85Ce0.15CuO4+z under different annealing conditions 2007 "Department of Electronic Engineering, National Formosa University, Hu-Wei, Yunlin 632, Taiwan, ROC" "J.Phys.Chem.Solids, 68(2007)1390"
150084 PHC4550063 "(Cu,Tl)Ba2(Ca,Mg)4Cu5O14" Tl0.5Ba2Ca2Mg2Cu5.5O14-z Tl 0.5 Ba 2 Ca 2 Mg 2 Cu 5.5 O 14-z 2007 M1245 P4/mmm A 3.916 21.254 K 94 100 100 "Ba(NO3)2,Ca(NO3)2,Cu(CN)2,MgO" 1 "mixture - heat(890C, in quartz) - addition(Tl2O3) - pellet - wrapped in Al-foil - SIN(890C, 10min) - Q to RT" Normal pressure synthesis of Mg-doped Cu0.5Tl0.5Ba2Ca2Mg2Cu5O14-z superconductor 2007 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad 45320, Pakistan" "Physica C, 455(2007)63"
150085 PHC4550063 "ANN(600C, 3h)" "(Cu,Tl)Ba2(Ca,Mg)4Cu5O14" Tl0.5Ba2Ca2Mg2Cu5.5O14-z Tl 0.5 Ba 2 Ca 2 Mg 2 Cu 5.5 O 14-z 2007 M1245 K 132.6 132.6 "Ba(NO3)2,Ca(NO3)2,Cu(CN)2,MgO" 1 "mixture - heat(890C, in quartz) - addition(Tl2O3) - pellet - wrapped in Al-foil - SIN(890C, 10min) - Q to RT" Normal pressure synthesis of Mg-doped Cu0.5Tl0.5Ba2Ca2Mg2Cu5O14-z superconductor 2007 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad 45320, Pakistan" "Physica C, 455(2007)63"
150086 PHC2350981 composition analyzed by SEM-EDX. Ag:Cu:Ba:Cu = 0.72:4.18:1.99:3.12 "(Ag,Cu)Ba2Ca2Cu3O9" Ag1Ba2Ca2Cu3O9-z Ag 1 Ba 2 Ca 2 Cu 3 O 9-z 1994 Ag1223 A 3.865 14.872 K 110 110 "mixture(Ba2Can-1CunO2n+4, AgO,CuO) - SIN(950-1100 C,1-3 h, 4 GPa, in Au-capsule)" New high-Tc superconductor families of Ag1-xCuxBa2Can-1CunO2n+4-y with Tc>116 K 1994 "Electrotechnical Laboratory, 1-1-4, Umezono, Tsukuba, Ibaraki 305, Japan" "Physica C, 235-240(1994)981"
150087 PHC2350981 composition analyzed by SEM-EDX. Ag:Cu:Ba:Cu = 0.47:4.48:2.24:2.81 "(Ag,Cu)Ba2Ca3Cu4O11" Ag1Ba2Ca3Cu4O11-z Ag 1 Ba 2 Ca 3 Cu 4 O 11-z 1994 Ag1234 A 3.8635 18.111 K 117 117 "mixture(Ba2Can-1CunO2n+4, AgO,CuO) - SIN(950-1100 C,1-3 h, 4 GPa, in Au-capsule)" New high-Tc superconductor families of Ag1-xCuxBa2Can-1CunO2n+4-y with Tc>116 K 1994 "Electrotechnical Laboratory, 1-1-4, Umezono, Tsukuba, Ibaraki 305, Japan" "Physica C, 235-240(1994)981"
150088 PHC2350981 composition analyzed by SEM-EDX. Ag:Cu:Ba:Cu = 0.22:4.65:2.17:2.96 "(Ag,Cu)Ba2Ca4Cu5O13" Ag1Ba2Ca4Cu5O13-z Ag 1 Ba 2 Ca 4 Cu 5 O 13-z 1994 Ag1245 A 3.8558 21.192 K 105 105 "mixture(Ba2Can-1CunO2n+4, AgO,CuO) - SIN(950-1100 C,1-3 h, 4 GPa, in Au-capsule)" New high-Tc superconductor families of Ag1-xCuxBa2Can-1CunO2n+4-y with Tc>116 K 1994 "Electrotechnical Laboratory, 1-1-4, Umezono, Tsukuba, Ibaraki 305, Japan" "Physica C, 235-240(1994)981"
150089 PHC2350981 composition analyzed by SEM-EDX. Ag:Cu:Ba:Cu = 0.13:4.73:2.15:2.99 "(Ag,Cu)Ba2Ca5Cu6O15" Ag1Ba2Ca5Cu6O15-z Ag 1 Ba 2 Ca 5 Cu 6 O 15-z 1994 Ag1256 A 3.8574 24.85 K 80 80 "mixture(Ba2Can-1CunO2n+4, AgO,CuO) - SIN(950-1100 C,1-3 h, 4 GPa, in Au-capsule)" New high-Tc superconductor families of Ag1-xCuxBa2Can-1CunO2n+4-y with Tc>116 K 1994 "Electrotechnical Laboratory, 1-1-4, Umezono, Tsukuba, Ibaraki 305, Japan" "Physica C, 235-240(1994)981"
150090 PHC2350981 CuBa2Ca2Cu3O10 Ba2Ca2Cu4O10-z Ba 2 Ca 2 Cu 4 O 10-z 1994 Cu1223 A 3.8571 14.788 K 106 106 "mixture(Ba2Can-1CunO2n+4, CaO2,CuO) - SIN(950-1100 C,1-3 h, 4 GPa, in Au-capsule)" New high-Tc superconductor families of Ag1-xCuxBa2Can-1CunO2n+4-y with Tc>116 K 1994 "Electrotechnical Laboratory, 1-1-4, Umezono, Tsukuba, Ibaraki 305, Japan" "Physica C, 235-240(1994)981"
150091 PHC2350981 CuBa2Ca3Cu4O12 Ba2Ca3Cu5O12-z Ba 2 Ca 3 Cu 5 O 12-z 1994 Cu1234 A 3.8557 17.993 K 116 116 "mixture(Ba2Can-1CunO2n+4, CaO2,CuO) - SIN(950-1100 C,1-3 h, 4 GPa, in Au-capsule)" New high-Tc superconductor families of Ag1-xCuxBa2Can-1CunO2n+4-y with Tc>116 K 1994 "Electrotechnical Laboratory, 1-1-4, Umezono, Tsukuba, Ibaraki 305, Japan" "Physica C, 235-240(1994)981"
150092 PHC2350981 CuBa2Ca4Cu5O14 Ba2Ca4Cu6O14-z Ba 2 Ca 4 Cu 6 O 14-z 1994 Cu1245 A 3.8511 21.167 K 102 102 "mixture(Ba2Can-1CunO2n+4, CaO2,CuO) - SIN(950-1100 C,1-3 h, 4 GPa, in Au-capsule)" New high-Tc superconductor families of Ag1-xCuxBa2Can-1CunO2n+4-y with Tc>116 K 1994 "Electrotechnical Laboratory, 1-1-4, Umezono, Tsukuba, Ibaraki 305, Japan" "Physica C, 235-240(1994)981"
150093 PHC2350981 CuBa2Ca5Cu6O16 Ba2Ca5Cu7O16-z Ba 2 Ca 5 Cu 7 O 16-z 1994 Cu1256 A 3.8588 24.443 K 78 78 "mixture(Ba2Can-1CunO2n+4, CaO2,CuO) - SIN(950-1100 C,1-3 h, 4 GPa, in Au-capsule)" New high-Tc superconductor families of Ag1-xCuxBa2Can-1CunO2n+4-y with Tc>116 K 1994 "Electrotechnical Laboratory, 1-1-4, Umezono, Tsukuba, Ibaraki 305, Japan" "Physica C, 235-240(1994)981"
150094 PR05809504 anisotropy = 1.46 from coherence-L. "CuBa2(Ca,Mg)3Cu4O12" Ba2Ca2.85Mg0.15Cu5O12-z Ba 2 Ca 2.85 Mg 0.15 Cu 5 O 12-z 1998 Cu1234 A 3.855 17.954 K 116.6 116.6 T using WHH theory 127 86 A 19 13.2 E+21/cm3 7.61 "precursor(Cu-Ba-Ca-Mg-O) - mixed with AgO(oxidizer) and AgCO3(phase stabilizer) - SIN(1000C, 3.5 GPa, in Au capsule) - Q to RT - P release" Superconductivity in the Mg-doped CuBa2Ca3Cu4O12-y system 1998 10 "Electrotechnical Laboratory, 1-1-4, Umezono, Tsukuba, Ibaraki 305, Japan" "Phys.Rev.B, 58(1998)9504"
150095 PR05809504 anisotropy = 1.41 from coherence-L. "CuBa2(Ca,Mg)3Cu4O12" Ba2Ca2.7Mg0.3Cu5O12-z Ba 2 Ca 2.7 Mg 0.3 Cu 5 O 12-z 1998 Cu1234 A 3.848 17.907 K 116.4 116.4 T using WHH theory 103 74 A 20 14.2 E+21/cm3 7.05 "precursor(Cu-Ba-Ca-Mg-O) - mixed with AgO(oxidizer) and AgCO3(phase stabilizer) - SIN(1000C, 3.5 GPa, in Au capsule) - Q to RT - P release" Superconductivity in the Mg-doped CuBa2Ca3Cu4O12-y system 1998 10 "Electrotechnical Laboratory, 1-1-4, Umezono, Tsukuba, Ibaraki 305, Japan" "Phys.Rev.B, 58(1998)9504"
150096 PR05809504 anisotropy = 1.43 from coherence-L. "CuBa2(Ca,Mg)3Cu4O12" Ba2Ca2.4Mg0.6Cu5O12-z Ba 2 Ca 2.4 Mg 0.6 Cu 5 O 12-z 1998 Cu1234 A 3.848 17.907 K 116.8 116.8 T using WHH theory 115 80 A 20 14 E+21/cm3 7.86 "precursor(Cu-Ba-Ca-Mg-O) - mixed with AgO(oxidizer) and AgCO3(phase stabilizer) - SIN(1000C, 3.5 GPa, in Au capsule) - Q to RT - P release" Superconductivity in the Mg-doped CuBa2Ca3Cu4O12-y system 1998 10 "Electrotechnical Laboratory, 1-1-4, Umezono, Tsukuba, Ibaraki 305, Japan" "Phys.Rev.B, 58(1998)9504"
150097 PR05809504 anisotropy = 1.38 from coherence-L. "CuBa2(Ca,Mg)3Cu4O12" Ba2Ca2.01Mg0.99Cu5O12-z Ba 2 Ca 2.01 Mg 0.99 Cu 5 O 12-z 1998 Cu1234 A 3.847 17.917 K 116.6 116.6 T using WHH theory 110 79 A 20 14.5 E+21/cm3 5.19 "precursor(Cu-Ba-Ca-Mg-O) - mixed with AgO(oxidizer) and AgCO3(phase stabilizer) - SIN(1000C, 3.5 GPa, in Au capsule) - Q to RT - P release" Superconductivity in the Mg-doped CuBa2Ca3Cu4O12-y system 1998 10 "Electrotechnical Laboratory, 1-1-4, Umezono, Tsukuba, Ibaraki 305, Japan" "Phys.Rev.B, 58(1998)9504"
150098 PR05809504 anisotropy = 1.6 from coherence-L. "CuBa2(Ca,Mg)3Cu4O12" Ba2Ca3Cu5O12-z Ba 2 Ca 3 Cu 5 O 12-z 1998 Cu1234 A 3.856 17.993 K 117.5 117.5 T using WHH theory 195 121 A 16 10 E+21/cm3 5.4 "precursor(Cu-Ba-Ca-Mg-O) - mixed with AgO(oxidizer) and AgCO3(phase stabilizer) - SIN(1000C, 3.5 GPa, in Au capsule) - Q to RT - P release" Superconductivity in the Mg-doped CuBa2Ca3Cu4O12-y system 1998 10 "Electrotechnical Laboratory, 1-1-4, Umezono, Tsukuba, Ibaraki 305, Japan" "Phys.Rev.B, 58(1998)9504"
150099 PHC3880365 annealing time = 6h. TCFIG shows Tc(annealing temp). TlBa2Ca2Cu3O9 Tl1Ba2Ca2Cu3O9-z Tl 1 Ba 2 Ca 2 Cu 3 O 9-z 2003 Tl1223 K 131 131 TC150099 "See Supercond.Sci.Technol., 14(2001)504" Anomalous suppression of Tc in an overdoped region of TlBa2Ca2Cu3O9-z 2003 "AIST and CREST, AIST Central 2, Tsukuba, Ibaraki 305-8568, Japan" "Physica C, 388-389(2003)365"
150100 L099037006 "Tc(SP) = 2.3 K. R=R0 + A*T^2 (R0=104 uOhm.cm, A=6.5 E-3 uOhm.cm./K2. C(T) shown in Fig.1. lattice term = 0.65 mJ/mol.K4. (dC/gamma*Tc) = 1.04. e-ph = 0.56-0.62." Mo3Sb7 Mo3Sb7 Mo 3 Sb 7 1 2007 Ir3Ge7 Im3m K 2.25 2.25 mJ/mol.K2 34.2 SP heat 310 "melt in quartz ampoule - heat(750C,10d) - powdered - HIP(600C, 2h, P=51 MPa)" Spin Fluctuations and Superconductivity in Mo3Sb7 2007 "Laboratoire de Physique des Materiaux, Nancy Universite, CNRS, Ecole Nationale Superieure des Mines de Nancy, Parc de Saurupt, 54042 Nancy cedex, France" "Phys.Rev.Lett., 99(2007)037006"
150101 L099027001 graphite layer distance = 4.95 A. lattice term(SP) beta = 0.191 mJ/mol.K4. delta = 0.801 uJ/mol.K6. (dC/gamma`Tc) = 1.426. e-ph = 0.54. SrC6 C6Sr1 C 6 Sr 1 2007 GIC P63/mmc K 1.65 0.06 1.65 MTC150101 K/GPa 0.35 Oe 276 138 MHC150101 A 1510 700 3.34 mJ/mol.K2 5.92 SP heat 414 vapor phase reaction at 470C(Sr) or 500C(Ba). Superconductivity in Heavy Alkaline-Earth Intercalated Graphites 2007 "Max-Planck-Institut fur Festkorperforschung, Heisenbergstrasse 1, D-70569 Stuttgart, Germany" "Phys.Rev.Lett., 99(2007)027001"
150102 L099027001 not SC. graphite layer distance = 5.25 A. BaC6 Ba1C6 Ba 1 C 6 2007 GIC P63/mmc K 0.3 vapor phase reaction at 470C(Sr) or 500C(Ba). Superconductivity in Heavy Alkaline-Earth Intercalated Graphites 2007 "Max-Planck-Institut fur Festkorperforschung, Heisenbergstrasse 1, D-70569 Stuttgart, Germany" "Phys.Rev.Lett., 99(2007)027001"
150103 P098257004 microwave (27 GHz) penetration depth. second Tc = 8 K. G-L parameter = 82. KOs2O6 K1Os2O6 K 1 Os 2 O 6 2007 pyrochlore K 9.4 9.4 A microwave 2600 K 24.5 5.1 7 Effects of Rattling Phonons on the Dynamics of Quasiparticle Excitation in the beta-Pyrochlore KOs2O6 Superconductor 2007 "Department of Physics, Kyoto University, Sakyo-ku, Kyoto 606-8502, Japan" "Phys.Rev.Lett., 98(2007)257004"
150104 L098257002 "F in apical sites. NMR study. Inner CO2-plane has M=0.16 m, hole = 0.06 - 0.08. Outer plane has M=0.29 m, ele = 0.06 - 0.08." Ba2Ca3Cu4O8F2 Ba2Ca3Cu4F2O8 Ba 2 Ca 3 Cu 4 F 2 O 8 2007 100 234 K 55 55 high pressure synthesis Uniform mixing of antiferromagnetism and high-temperature superconductivity in electron-doped layers of four-layered Ba2Ca3Cu4O8F2: A new phenomenon in an electron underdoped regime 2007 "Department of Materials Engineering Science, Osaka University, Osaka, Japan" "Phys.Rev.Lett., 98(2007)257002"
150105 L098257002 F in apical sites. NMR study. Inner CO2-plane has ( hole = 0.13 - 0.15). Ba2Ca2Cu3O6F2 Ba2Ca2Cu3F2O6 Ba 2 Ca 2 Cu 3 F 2 O 6 2007 223 K 76 76 high pressure synthesis Uniform mixing of antiferromagnetism and high-temperature superconductivity in electron-doped layers of four-layered Ba2Ca3Cu4O8F2: A new phenomenon in an electron underdoped regime 2007 "Department of Materials Engineering Science, Osaka University, Osaka, Japan" "Phys.Rev.Lett., 98(2007)257002"
150106 SST0190573 point contact tunneling (Ag/Mo3Sb7). Hc2 obtained from (dV/dI) vs H curves. Mo3Sb7 Mo3Sb7 Mo 3 Sb 7 2006 Ir3Ge7 Im3m D8f K 2.25 2.3 2.25 T parabolic T-dependence 1.65 T/K 1.42 meV 0.32 3.2 1 peritectic reaction (Liq. Sb + sol. Mo) in Ar Energy gap and upper critical field of the new magnetic superconductor Mo3Sb7 found by the Andreev reflection method 2006 "B Verkin Institute for Low Temperature Physics and Engineering, National Academy of Science of Ukraine, Kharkiv, Ukraine" "Supercond.Sci.Technol., 19(2006)573"
150107 PHB3980360 Tc defined as maximum of (dR/dT) "YBa2(Cu,PO4)3O7" Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 2007 Y123 K 92.842 92.842 J/kg.K 7.392 1 "ANN(850C,16h) - cool to RT" Conductivity fluctuation and superconducting parameters of the YBa2Cu3-x(PO4)xO7-z material 2007 "Universidad Nacional de Colombia, Bogota, Colombia" "Physica B, 398(2007)360"
150108 PHB3980360 Tc defined as maximum of (dR/dT) "YBa2(Cu,PO4)3O7" Y1Ba2Cu2.97P0.03O7-z Y 1 Ba 2 Cu 2.97 P 0.03 O 7-z 2007 Y123 K 96.663 96.663 J/kg.K 7.172 1 "ANN(850C,16h) - cool to RT" Conductivity fluctuation and superconducting parameters of the YBa2Cu3-x(PO4)xO7-z material 2007 "Universidad Nacional de Colombia, Bogota, Colombia" "Physica B, 398(2007)360"
150109 PHB3980360 Tc defined as maximum of (dR/dT) "YBa2(Cu,PO4)3O7" Y1Ba2Cu2.94P0.06O7-z Y 1 Ba 2 Cu 2.94 P 0.06 O 7-z 2007 Y123 K 88.259 88.259 J/kg.K 6.962 1 "ANN(850C,16h) - cool to RT" Conductivity fluctuation and superconducting parameters of the YBa2Cu3-x(PO4)xO7-z material 2007 "Universidad Nacional de Colombia, Bogota, Colombia" "Physica B, 398(2007)360"
150110 PHB3980360 Tc defined as maximum of (dR/dT) "YBa2(Cu,PO4)3O7" Y1Ba2Cu2.91P0.09O7-z Y 1 Ba 2 Cu 2.91 P 0.09 O 7-z 2007 Y123 K 80.97 80.97 J/kg.K 6.792 1 "ANN(850C,16h) - cool to RT" Conductivity fluctuation and superconducting parameters of the YBa2Cu3-x(PO4)xO7-z material 2007 "Universidad Nacional de Colombia, Bogota, Colombia" "Physica B, 398(2007)360"
150111 PHB3980360 Tc defined as maximum of (dR/dT) "YBa2(Cu,PO4)3O7" Y1Ba2Cu2.88P0.12O7-z Y 1 Ba 2 Cu 2.88 P 0.12 O 7-z 2007 Y123 K 75.985 75.985 J/kg.K 6.562 1 "ANN(850C,16h) - cool to RT" Conductivity fluctuation and superconducting parameters of the YBa2Cu3-x(PO4)xO7-z material 2007 "Universidad Nacional de Colombia, Bogota, Colombia" "Physica B, 398(2007)360"
150112 PHC3870187 oz by iodometric titration. (dC/Tc) = 53.4 mJ/mol.K2) TmBa2Cu3O7 Tm1Ba2Cu3O6.95 Tm 1 Ba 2 Cu 3 O 7-z 6.95 1 2003 Y123 K 89.93 1.5 89.93 uV/K -0.46 mOhm.cm 0.709 1 "ANN(400 - 560, in air) for different oxygen content(oz)" Superconducting and transport properties of TmBa2Cu3O7-z and comparison to YBa2Cu3O7-z 2003 "Institute of Low Temperature and Structure Research of the Polish Academy of Sciences, Wroclaw, Poland" "Physica C, 387(2003)187"
150113 PHC3870187 oz by iodometric titration. (dC/Tc) = 62.4 mJ/mol.K2) TmBa2Cu3O7 Tm1Ba2Cu3O6.99 Tm 1 Ba 2 Cu 3 O 7-z 6.99 1 2003 Y123 K 89.8 1.7 89.8 uV/K -0.4 TP150113 mOhm.cm 0.57 RH150113 E+21/cm3 11.3 1 "ANN(400 - 560, in air) for different oxygen content(oz)" Superconducting and transport properties of TmBa2Cu3O7-z and comparison to YBa2Cu3O7-z 2003 "Institute of Low Temperature and Structure Research of the Polish Academy of Sciences, Wroclaw, Poland" "Physica C, 387(2003)187"
150114 PHC3870187 oz calculated using linear relation in TP300 vs oz. (dC/Tc) = 42.3 mJ/mol.K2) TmBa2Cu3O7 Tm1Ba2Cu3O6.96 Tm 1 Ba 2 Cu 3 O 7-z 6.96 1 2003 Y123 K 89.88 0.6 89.88 uV/K 0 mOhm.cm 0.41 1 "ANN(400 - 560, in air) for different oxygen content(oz)" Superconducting and transport properties of TmBa2Cu3O7-z and comparison to YBa2Cu3O7-z 2003 "Institute of Low Temperature and Structure Research of the Polish Academy of Sciences, Wroclaw, Poland" "Physica C, 387(2003)187"
150115 PHC3870187 oz calculated using linear relation in TP300 vs oz. (dC/Tc) = 36.5 mJ/mol.K2) TmBa2Cu3O7 Tm1Ba2Cu3O6.91 Tm 1 Ba 2 Cu 3 O 7-z 6.91 1 2003 Y123 K 90.36 1 90.36 uV/K 3.8 mOhm.cm 0.8 1 "ANN(400 - 560, in air) for different oxygen content(oz)" Superconducting and transport properties of TmBa2Cu3O7-z and comparison to YBa2Cu3O7-z 2003 "Institute of Low Temperature and Structure Research of the Polish Academy of Sciences, Wroclaw, Poland" "Physica C, 387(2003)187"
150116 PHC3870187 oz calculated using linear relation in TP300 vs oz. TmBa2Cu3O7 Tm1Ba2Cu3O6.94 Tm 1 Ba 2 Cu 3 O 7-z 6.94 1 2003 Y123 K 89.88 0.7 89.88 uV/K 2 mOhm.cm 0.83 1 "ANN(400 - 560, in air) for different oxygen content(oz)" Superconducting and transport properties of TmBa2Cu3O7-z and comparison to YBa2Cu3O7-z 2003 "Institute of Low Temperature and Structure Research of the Polish Academy of Sciences, Wroclaw, Poland" "Physica C, 387(2003)187"
150117 PHC3870187 oz by iodometric titration TmBa2Cu3O7 Tm1Ba2Cu3O6.86 Tm 1 Ba 2 Cu 3 O 7-z 6.86 1 2003 Y123 K 87.2 2.5 87.2 uV/K 6.45 mOhm.cm 1.1 RH150117 E+21/cm3 5.9 1 "ANN(400 - 560, in air) for different oxygen content(oz)" Superconducting and transport properties of TmBa2Cu3O7-z and comparison to YBa2Cu3O7-z 2003 "Institute of Low Temperature and Structure Research of the Polish Academy of Sciences, Wroclaw, Poland" "Physica C, 387(2003)187"
150118 PHC3870187 oz by iodometric titration TmBa2Cu3O7 Tm1Ba2Cu3O6.87 Tm 1 Ba 2 Cu 3 O 7-z 6.87 1 2003 Y123 K 83.6 7 83.6 uV/K 8.2 mOhm.cm 1 "ANN(400 - 560, in air) for different oxygen content(oz)" Superconducting and transport properties of TmBa2Cu3O7-z and comparison to YBa2Cu3O7-z 2003 "Institute of Low Temperature and Structure Research of the Polish Academy of Sciences, Wroclaw, Poland" "Physica C, 387(2003)187"
150119 PHC3870187 oz by iodometric titration. (dC/Tc) = 0 mJ/mol.K2) TmBa2Cu3O7 Tm1Ba2Cu3O6.8 Tm 1 Ba 2 Cu 3 O 7-z 6.8 1 2003 Y123 K 79.8 6 79.8 uV/K 10.5 TP150119 mOhm.cm 1 "ANN(400 - 560, in air) for different oxygen content(oz)" Superconducting and transport properties of TmBa2Cu3O7-z and comparison to YBa2Cu3O7-z 2003 "Institute of Low Temperature and Structure Research of the Polish Academy of Sciences, Wroclaw, Poland" "Physica C, 387(2003)187"
150120 PHC3870187 oz by iodometric titration TmBa2Cu3O7 Tm1Ba2Cu3O6.72 Tm 1 Ba 2 Cu 3 O 7-z 6.72 1 2003 Y123 K 64.5 4.4 64.5 uV/K 18.5 mOhm.cm 1.69 RH150120 E+21/cm3 3.9 1 "ANN(400 - 560, in air) for different oxygen content(oz)" Superconducting and transport properties of TmBa2Cu3O7-z and comparison to YBa2Cu3O7-z 2003 "Institute of Low Temperature and Structure Research of the Polish Academy of Sciences, Wroclaw, Poland" "Physica C, 387(2003)187"
150121 SSC0970131 "mixed phase( (Cu,C)-1223, (Cu,C)-1234, unknown phase). Tc(P) shows Tc1(n=3), Tc2(n=4), Tc3(unknown). (dTc/dP) estimated from Tc2(P) in Fig." "(Cu,C)Ba2Ca3Cu4Oz" C0.5Ba2Ca3Cu4.5Oz C 0.5 Ba 2 Ca 3 Cu 4.5 O z 1996 Cu1234 A 3.865 18.027 K 117 117 TC150121 K/GPa 1.7 "precursor(Ba2Ca3Cu4.5C0.5Oz) + AgO, sealed in Au capsule, heat(700 900C, 4 - 8 GPa, 1 h)" THE INFLUENCE OF PRESSURE ON THE SUPERCONDUCTING PROPERTIES OF THE (CuxC1-x)Ba2Can-1CunOy FAMILY OF THSC MATERIALS 1996 "CRTBT. CNRS-UJF,BP 166,38042 Grenoble cedex 09, France" Solid State Commun.97(1996)131-135 "Cu, C, Ba, Ca, O"
150122 PHC2190200 Tl(CO3)Sr2Ba2Cu2O7 Tl1C1Sr2Ba2Cu2O10 Tl 1 C 1 Sr 2 Ba 2 Cu 2 O 10 1994 Tl1201 K 68.2 68.2 TC150122 "Tl2O3,Sr2CuO3,BaO2,CuO" mixture(Tl2Sr4-xBaxCu2Oz) - wrapped in Au foil - heat(750-850C) - heat to 950C(200C/h) - keep(30min) - Q to RT - ANN(1.2-4.0 % CO2/O2 gas flow) Synthesis and superconductivity of oxycarbonates of the Tl-1201 phase 1994 1 "Institute for Materials Research,Tohoku University, Sendai,Japan" "Physica C, 219(1994)200-204" "Tl,Ba,Sr,Cu,O,C"
150123 PHC4660051 "main phase = Y2(Pd,Pt)1.3Ge2.5 by EDX. impurity phase = ThCr2Si2-type structure. gamma = 6-7 mJ/mol.K2 by fitting (3 < T < 5 K)." Y2PdGe3 Y2Pd1Ge3 Y 2 Pd 1 Ge 3 2007 AlB2 A 4.221 3.9365 K 2.7 2.82 3.2 0.5 2.82 255 SP-heat "arc-melting. sealed in quartz tube - ANN(1123K,1w)" "Superconducting behavior of the solid solution, Y2Pd1-xPtxGe3" 2007 "Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai, India" "Physica C, 466(2007)51"
150124 PHC4660051 "main phase = Y2(Pd,Pt)1.3Ge2.5 by EDX. impurity phase = ThCr2Si2-type structure. gamma = 6-7 mJ/mol.K2 by fitting (3 < T < 5 K)." "Y2(Pd,Pt)Ge3" Y2Pd0.9Pt0.1Ge3 Y 2 Pd 0.9 Pt 0.1 Ge 3 2007 AlB2 A 4.2212 3.9422 K 2.57 2.68 2.83 2.68 "arc-melting. sealed in quartz tube - ANN(1123K,1w)" "Superconducting behavior of the solid solution, Y2Pd1-xPtxGe3" 2007 "Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai, India" "Physica C, 466(2007)51"
150125 PHC4660051 "main phase = Y2(Pd,Pt)1.3Ge2.5 by EDX. impurity phase = ThCr2Si2-type structure. gamma = 6-7 mJ/mol.K2 by fitting (3 < T < 5 K)." "Y2(Pd,Pt)Ge3" Y2Pd0.8Pt0.2Ge3 Y 2 Pd 0.8 Pt 0.2 Ge 3 2007 AlB2 A 4.2185 3.9452 K 2.51 2.62 2.71 2.62 "arc-melting. sealed in quartz tube - ANN(1123K,1w)" "Superconducting behavior of the solid solution, Y2Pd1-xPtxGe3" 2007 "Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai, India" "Physica C, 466(2007)51"
150126 PHC4660051 "main phase = Y2(Pd,Pt)1.3Ge2.5 by EDX. impurity phase = ThCr2Si2-type structure. gamma = 6-7 mJ/mol.K2 by fitting (3 < T < 5 K)." "Y2(Pd,Pt)Ge3" Y2Pd0.7Pt0.3Ge3 Y 2 Pd 0.7 Pt 0.3 Ge 3 2007 AlB2 A 4.217 3.9522 K 2.43 2.52 2.59 2.52 "arc-melting. sealed in quartz tube - ANN(1123K,1w)" "Superconducting behavior of the solid solution, Y2Pd1-xPtxGe3" 2007 "Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai, India" "Physica C, 466(2007)51"
150127 PHC4660051 "main phase = Y2(Pd,Pt)1.3Ge2.5 by EDX. impurity phase = ThCr2Si2-type structure. gamma = 6-7 mJ/mol.K2 by fitting (3 < T < 5 K)." "Y2(Pd,Pt)Ge3" Y2Pd0.6Pt0.4Ge3 Y 2 Pd 0.6 Pt 0.4 Ge 3 2007 AlB2 A 4.216 3.9552 K 2.41 2.46 2.5 2.46 "arc-melting. sealed in quartz tube - ANN(1123K,1w)" "Superconducting behavior of the solid solution, Y2Pd1-xPtxGe3" 2007 "Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai, India" "Physica C, 466(2007)51"
150128 PHC4660051 "main phase = Y2(Pd,Pt)1.3Ge2.5 by EDX. impurity phase = ThCr2Si2-type structure. gamma = 6-7 mJ/mol.K2 by fitting (3 < T < 5 K)." "Y2(Pd,Pt)Ge3" Y2Pd0.5Pt0.5Ge3 Y 2 Pd 0.5 Pt 0.5 Ge 3 2007 AlB2 A 4.2109 3.9635 K 2.32 2.42 2.49 2.42 "arc-melting. sealed in quartz tube - ANN(1123K,1w)" "Superconducting behavior of the solid solution, Y2Pd1-xPtxGe3" 2007 "Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai, India" "Physica C, 466(2007)51"
150129 PHC4660051 "main phase = Y2(Pd,Pt)1.3Ge2.5 by EDX. impurity phase = ThCr2Si2-type structure. gamma = 6-7 mJ/mol.K2 by fitting (3 < T < 5 K)." "Y2(Pd,Pt)Ge3" Y2Pd0.3Pt0.7Ge3 Y 2 Pd 0.3 Pt 0.7 Ge 3 2007 AlB2 A 4.2059 3.9739 K 2.22 2.26 2.3 2.26 320 SP-heat "arc-melting. sealed in quartz tube - ANN(1123K,1w)" "Superconducting behavior of the solid solution, Y2Pd1-xPtxGe3" 2007 "Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai, India" "Physica C, 466(2007)51"
150130 PHC4660051 "main phase = Y2(Pd,Pt)1.3Ge2.5 by EDX. impurity phase = ThCr2Si2-type structure. gamma = 6-7 mJ/mol.K2 by fitting (3 < T < 5 K)." Y2PtGe3 Y2Pt1Ge3 Y 2 Pt 1 Ge 3 2007 AlB2 A 4.1953 3.9878 K 2.08 2.14 2.16 2.14 "arc-melting. sealed in quartz tube - ANN(1123K,1w)" "Superconducting behavior of the solid solution, Y2Pd1-xPtxGe3" 2007 "Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai, India" "Physica C, 466(2007)51"
150131 PHC4630170 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 1 2007 2 T' A 3.9445 12.0524 K 24 24 "Nd2O3,CeO2,CuO,MnO2" 1 "mixture - CAL(950C,24h,in air) - pellet - SIN(1050C,10h,in air) - Q to RT - ANN(900C,6h,in flowing Ar) - Q to RT" Mn doping effect on superconductivity and magnetic properties of Nd1.85Ce0.15CuO4 system 2007 "Key Laboratory of Advanced Technologies of Materials, Superconductivity R&D Center, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 463-465(2007)170"
150132 PHC4630170 paramag-Curie-temp. "(Nd,Ce)2(Cu,Mn)O4" Nd1.85Ce0.15Cu0.995Mn0.005O4 Nd 1.85 Ce 0.15 Cu 0.995 Mn 0.005 O 4 1 2007 12.6 3 T' A 3.9424 3.9438 12.06 K 22.1 22.1 "Nd2O3,CeO2,CuO,MnO2" 1 "mixture - CAL(950C,24h,in air) - pellet - SIN(1050C,10h,in air) - Q to RT - ANN(900C,6h,in flowing Ar) - Q to RT" Mn doping effect on superconductivity and magnetic properties of Nd1.85Ce0.15CuO4 system 2007 "Key Laboratory of Advanced Technologies of Materials, Superconductivity R&D Center, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 463-465(2007)170"
150133 PHC4630170 paramag-Curie-temp. "(Nd,Ce)2(Cu,Mn)O4" Nd1.85Ce0.15Cu0.98Mn0.02O4 Nd 1.85 Ce 0.15 Cu 0.98 Mn 0.02 O 4 1 2007 13.6 3 T' A 3.9348 3.9507 12.0859 K 21.1 21.1 "Nd2O3,CeO2,CuO,MnO2" 1 "mixture - CAL(950C,24h,in air) - pellet - SIN(1050C,10h,in air) - Q to RT - ANN(900C,6h,in flowing Ar) - Q to RT" Mn doping effect on superconductivity and magnetic properties of Nd1.85Ce0.15CuO4 system 2007 "Key Laboratory of Advanced Technologies of Materials, Superconductivity R&D Center, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 463-465(2007)170"
150134 PHC4630170 paramag-Curie-temp. "(Nd,Ce)2(Cu,Mn)O4" Nd1.85Ce0.15Cu0.96Mn0.04O4 Nd 1.85 Ce 0.15 Cu 0.96 Mn 0.04 O 4 1 2007 17 3 T' A 3.9176 3.9548 12.0742 K 21 21 "Nd2O3,CeO2,CuO,MnO2" 1 "mixture - CAL(950C,24h,in air) - pellet - SIN(1050C,10h,in air) - Q to RT - ANN(900C,6h,in flowing Ar) - Q to RT" Mn doping effect on superconductivity and magnetic properties of Nd1.85Ce0.15CuO4 system 2007 "Key Laboratory of Advanced Technologies of Materials, Superconductivity R&D Center, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 463-465(2007)170"
150135 PHC4630170 paramag-Curie-temp. "(Nd,Ce)2(Cu,Mn)O4" Nd1.85Ce0.15Cu0.91Mn0.09O4 Nd 1.85 Ce 0.15 Cu 0.91 Mn 0.09 O 4 1 2007 40 3 T' A 3.9383 3.9472 12.0656 K 17.9 17.9 "Nd2O3,CeO2,CuO,MnO2" 1 "mixture - CAL(950C,24h,in air) - pellet - SIN(1050C,10h,in air) - Q to RT - ANN(900C,6h,in flowing Ar) - Q to RT" Mn doping effect on superconductivity and magnetic properties of Nd1.85Ce0.15CuO4 system 2007 "Key Laboratory of Advanced Technologies of Materials, Superconductivity R&D Center, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 463-465(2007)170"
150136 PHC4630170 multi-phase. not SC. "(Nd,Ce)2(Cu,Mn)O4" Nd1.85Ce0.15Cu0.8Mn0.2O4 Nd 1.85 Ce 0.15 Cu 0.8 Mn 0.2 O 4 2 2007 K 5 "Nd2O3,CeO2,CuO,MnO2" 1 "mixture - CAL(950C,24h,in air) - pellet - SIN(1050C,10h,in air) - Q to RT - ANN(900C,6h,in flowing Ar) - Q to RT" Mn doping effect on superconductivity and magnetic properties of Nd1.85Ce0.15CuO4 system 2007 "Key Laboratory of Advanced Technologies of Materials, Superconductivity R&D Center, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 463-465(2007)170"
150137 PHC4630190 nearly single phase for 0.2 < x < 0.5. Semicond-like resistivity. not SC. "RuSr2(Nd,Dy,Ce,Sr)3Cu2Oz" Ru1Sr2.2Nd0.6Dy0.4Ce1.8Cu2Oz Ru 1 Sr 2.2 Nd 0.6 Dy 0.4 Ce 1.8 Cu 2 O z 1 2007 A 3.842 16.98 Ru-1232 K 4.2 "RuO2,SrCO3,Nd2O3,Dy2O3,CeO2,CuO" 1 "SIN(1025C,24h,in 1 atm O2) - FC to RT - ANN(400C,24h,in 1 atm O2) - cool to RT(0.5C/min)" Synthesis of the Ru-1232 compound in the RuSr2(Nd1-xDyxCe1.8Sr0.2)Cu2Oz system 2007 "Department of Physics, Hamamatsu University School of Medicine, 1-20-1 Handayama, Hamamatsu, Shizuoka 431-3192, Japan" "Physica C, 463-465(2007)190"
150138 SUP0170449 Two-step Tc in R-T curve. The lower(Ru-1232) = 15 K. The higher(Ru-1222) shown in T3 of TBL. Curie-T shows ferromagnetic temp. "RuSr2(Gd,Ce,Sr)3Cu2Oz" Ru1Sr2.2Gd1Ce1.8Cu2Oz Ru 1 Sr 2.2 Gd 1 Ce 1.8 Cu 2 O z 2004 90 A 3.836 16.97 Ru-1232 K 22 20 20 "Sr2CuO3,RuO2,Gd2O3,CeO2,CuO,Nb2O5" 1 "mixture - pellet - CAL(950C,24h,in air) - cool to RT - pellet - SIN(1050C,24h,in O2) - ANN(400C,24h,in O2) - cool to RT(0.5C/min)" Superconductivity and Ferromagnetism of the Ru-1232 Compounds in the (Ru1ﾂｿxNbx)Sr2(GdCe1.8Sr0.2)Cu2Oz System 2004 "Department of Physics, Hamamatsu University School of Medicine, 1-20-1 Handayama, Hamamatsu, Shizuoka 431-3192, Japan." "J.Supercond.,17(2004)449"
150139 SUP0170449 Two-step Tc in R-T curve. The lower(Ru-1232) = 10 K. The higher(Ru-1222) shown in T3 of TBL. Curie-T shows ferromagnetic temp. "(Ru,Nb)Sr2(Gd,Ce,Sr)3Cu2Oz" Ru0.9Nb0.1Sr2.2Gd1Ce1.8Cu2Oz Ru 0.9 Nb 0.1 Sr 2.2 Gd 1 Ce 1.8 Cu 2 O z 2004 60 A 3.839 16.99 Ru-1232 K 18 17 17 "Sr2CuO3,RuO2,Gd2O3,CeO2,CuO,Nb2O5" 1 "mixture - pellet - CAL(950C,24h,in air) - cool to RT - pellet - SIN(1050C,24h,in O2) - ANN(400C,24h,in O2) - cool to RT(0.5C/min)" Superconductivity and Ferromagnetism of the Ru-1232 Compounds in the (Ru1ﾂｿxNbx)Sr2(GdCe1.8Sr0.2)Cu2Oz System 2004 "Department of Physics, Hamamatsu University School of Medicine, 1-20-1 Handayama, Hamamatsu, Shizuoka 431-3192, Japan." "J.Supercond.,17(2004)449"
150140 SUP0170449 Two-step Tc in R-T curve. The lower(Ru-1232) = 6 K. The higher(Ru-1222) shown in T3 of TBL. Curie-T shows ferromagnetic temp. "(Ru,Nb)Sr2(Gd,Ce,Sr)3Cu2Oz" Ru0.8Nb0.2Sr2.2Gd1Ce1.8Cu2Oz Ru 0.8 Nb 0.2 Sr 2.2 Gd 1 Ce 1.8 Cu 2 O z 2004 45 A 3.842 17 Ru-1232 K 15 10 10 "Sr2CuO3,RuO2,Gd2O3,CeO2,CuO,Nb2O5" 1 "mixture - pellet - CAL(950C,24h,in air) - cool to RT - pellet - SIN(1050C,24h,in O2) - ANN(400C,24h,in O2) - cool to RT(0.5C/min)" Superconductivity and Ferromagnetism of the Ru-1232 Compounds in the (Ru1ﾂｿxNbx)Sr2(GdCe1.8Sr0.2)Cu2Oz System 2004 "Department of Physics, Hamamatsu University School of Medicine, 1-20-1 Handayama, Hamamatsu, Shizuoka 431-3192, Japan." "J.Supercond.,17(2004)449"
150141 SUP0170449 "(Ru,Nb)Sr2(Gd,Ce,Sr)3Cu2Oz" Ru0.7Nb0.3Sr2.2Gd1Ce1.8Cu2Oz Ru 0.7 Nb 0.3 Sr 2.2 Gd 1 Ce 1.8 Cu 2 O z 2004 A 3.845 17.02 Ru-1232 K 10 5 5 "Sr2CuO3,RuO2,Gd2O3,CeO2,CuO,Nb2O5" 1 "mixture - pellet - CAL(950C,24h,in air) - cool to RT - pellet - SIN(1050C,24h,in O2) - ANN(400C,24h,in O2) - cool to RT(0.5C/min)" Superconductivity and Ferromagnetism of the Ru-1232 Compounds in the (Ru1ﾂｿxNbx)Sr2(GdCe1.8Sr0.2)Cu2Oz System 2004 "Department of Physics, Hamamatsu University School of Medicine, 1-20-1 Handayama, Hamamatsu, Shizuoka 431-3192, Japan." "J.Supercond.,17(2004)449"
150142 PHC3880567 e-ph = 0.66 from McMillan's eq. Y2PdGe3 Y2Pd1Ge3 Y 2 Pd 1 Ge 3 2003 AlB2 A 4.1988 3.9626 K 3.1 3.1 mJ/Ymol.K2 1.35 127 SP-heat "arc-melting. ANN(850C,1w, in evacuated quartz tube)" Superconductivity in Y2PdGe3-xSix: interplay between Debye temperature and coupling constant 2003 "Department of Applied Physics, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113, Japan" "Physica C, 388-389(2003)567"
150143 PHC3880567 e-ph = 0.63 from McMillan's eq. "Y2Pd(Ge,Si)3" Y2Pd1Ge2.5Si0.5 Y 2 Pd 1 Ge 2.5 Si 0.5 2003 AlB2 A 4.1646 3.9864 K 3.3 3.3 MTC150143 mJ/Ymol.K2 1.58 151 SP-heat "arc-melting. ANN(850C,1w, in evacuated quartz tube)" Superconductivity in Y2PdGe3-xSix: interplay between Debye temperature and coupling constant 2003 "Department of Applied Physics, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113, Japan" "Physica C, 388-389(2003)567"
150144 PHC3880567 e-ph = 0.53 from McMillan's eq. "Y2Pd(Ge,Si)3" Y2Pd1Ge2Si1 Y 2 Pd 1 Ge 2 Si 1 2003 AlB2 A 4.1297 4.0094 K 2.24 2.24 mJ/Ymol.K2 2.91 177 SP-heat "arc-melting. ANN(850C,1w, in evacuated quartz tube)" Superconductivity in Y2PdGe3-xSix: interplay between Debye temperature and coupling constant 2003 "Department of Applied Physics, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113, Japan" "Physica C, 388-389(2003)567"
150145 PHC4450440 anisotropy factor(=SQRT(Rc/Rab) = 36 at 50K. Tc = 43.8 K for Rc measurement. "(Bi,Pb)2(Sr,La)2CuO6" Bi1.6Pb0.4Sr1.9La0.1Cu1O6+z Bi 1.6 Pb 0.4 Sr 1.9 La 0.1 Cu 1 O 6+z 3 2006 Bi2201 K 43.3 4.4 43.3 Floating zone method "A new aspect of superconductivity observed (Bi,Pb)2(Sr,La)2CuO6+d single crystals" 2006 "Faculty of Frontier Science, Graduate School of Pure and Applied Sciences, University of Tsukuba, Tsukuba, Ibaraki 305 8571, Japan" "Physica C, 445-448(2006)440"
150146 JJP046L167 "Bi2(Sr,Bi,Ca)2CuO6" Bi2.1Sr1.9Cu1O6+z Bi 2.1 Sr 1.9 Cu 1 O 6+z 2007 Bi2201 A 5.35 5.38 24.49 K 6.8 6.8 "Bi2O3,SrCO3,CaCO3,CuO" 1 "mixture - CAL(750C,24h) - CAL(800C,24h) - SIN(800-850C,48h)" Ca Substitution Effect for Sr upon Superconductivity of Bi2.1CaySr1.9-yCuO6+d 2007 "Graduate School of Pure and Applied Sciences, University of Tsukuba, Tsukuba, Ibaraki 305-8571, Japan" "Jpn.J.Appl.Phys., 46(2007)L167"
150147 JJP046L167 Bi2212 phase <7-14 % "Bi2(Sr,Bi,Ca)2CuO6" Bi2.1Sr1.7Ca0.2Cu1O6+z Bi 2.1 Sr 1.7 Ca 0.2 Cu 1 O 6+z 2007 Bi2201 A 5.35 5.37 24.5 K 79.2 79.2 "Bi2O3,SrCO3,CaCO3,CuO" 1 "mixture - CAL(750C,24h) - CAL(800C,24h) - SIN(800-850C,48h)" Ca Substitution Effect for Sr upon Superconductivity of Bi2.1CaySr1.9-yCuO6+d 2007 "Graduate School of Pure and Applied Sciences, University of Tsukuba, Tsukuba, Ibaraki 305-8571, Japan" "Jpn.J.Appl.Phys., 46(2007)L167"
150148 JJP046L167 Bi2212 phase <7-14 % "Bi2(Sr,Bi,Ca)2CuO6" Bi2.1Sr1.5Ca0.4Cu1O6+z Bi 2.1 Sr 1.5 Ca 0.4 Cu 1 O 6+z 2007 Bi2201 A 5.33 5.35 24.33 K 83 83 "Bi2O3,SrCO3,CaCO3,CuO" 1 "mixture - CAL(750C,24h) - CAL(800C,24h) - SIN(800-850C,48h)" Ca Substitution Effect for Sr upon Superconductivity of Bi2.1CaySr1.9-yCuO6+d 2007 "Graduate School of Pure and Applied Sciences, University of Tsukuba, Tsukuba, Ibaraki 305-8571, Japan" "Jpn.J.Appl.Phys., 46(2007)L167"
150149 JJP046L167 Bi2212 phase <7-14 % "Bi2(Sr,Bi,Ca)2CuO6" Bi2.1Sr1.3Ca0.6Cu1O6+z Bi 2.1 Sr 1.3 Ca 0.6 Cu 1 O 6+z 2007 Bi2201 A 5.34 5.37 24.39 K 77.8 77.8 "Bi2O3,SrCO3,CaCO3,CuO" 1 "mixture - CAL(750C,24h) - CAL(800C,24h) - SIN(800-850C,48h)" Ca Substitution Effect for Sr upon Superconductivity of Bi2.1CaySr1.9-yCuO6+d 2007 "Graduate School of Pure and Applied Sciences, University of Tsukuba, Tsukuba, Ibaraki 305-8571, Japan" "Jpn.J.Appl.Phys., 46(2007)L167"
150150 JJP046L167 Bi2212 phase <7-14 % "Bi2(Sr,Bi,Ca)2CuO6" Bi2.1Sr1.1Ca0.8Cu1O6+z Bi 2.1 Sr 1.1 Ca 0.8 Cu 1 O 6+z 2007 Bi2201 A 5.35 5.37 24.31 K 77.4 77.4 "Bi2O3,SrCO3,CaCO3,CuO" 1 "mixture - CAL(750C,24h) - CAL(800C,24h) - SIN(800-850C,48h)" Ca Substitution Effect for Sr upon Superconductivity of Bi2.1CaySr1.9-yCuO6+d 2007 "Graduate School of Pure and Applied Sciences, University of Tsukuba, Tsukuba, Ibaraki 305-8571, Japan" "Jpn.J.Appl.Phys., 46(2007)L167"
150151 JJP046L167 Bi2212 phase <7-14 % "Bi2(Sr,Bi,Ca)2CuO6" Bi2.1Sr0.95Ca0.95Cu1O6+z Bi 2.1 Sr 0.95 Ca 0.95 Cu 1 O 6+z 2007 Bi2201 A 5.35 5.36 24.32 K 74.8 74.8 "Bi2O3,SrCO3,CaCO3,CuO" 1 "mixture - CAL(750C,24h) - CAL(800C,24h) - SIN(800-850C,48h)" Ca Substitution Effect for Sr upon Superconductivity of Bi2.1CaySr1.9-yCuO6+d 2007 "Graduate School of Pure and Applied Sciences, University of Tsukuba, Tsukuba, Ibaraki 305-8571, Japan" "Jpn.J.Appl.Phys., 46(2007)L167"
150152 JJP046L167 Bi2212 phase <7-14 % "Bi2(Sr,Bi,Ca)2CuO6" Bi2.1Sr0.9Ca1Cu1O6+z Bi 2.1 Sr 0.9 Ca 1 Cu 1 O 6+z 2007 Bi2201 A 5.32 5.35 24.19 K 74.6 74.6 "Bi2O3,SrCO3,CaCO3,CuO" 1 "mixture - CAL(750C,24h) - CAL(800C,24h) - SIN(800-850C,48h)" Ca Substitution Effect for Sr upon Superconductivity of Bi2.1CaySr1.9-yCuO6+d 2007 "Graduate School of Pure and Applied Sciences, University of Tsukuba, Tsukuba, Ibaraki 305-8571, Japan" "Jpn.J.Appl.Phys., 46(2007)L167"
150153 JJP046L167 Bi2212 phase <7-14 % "Bi2(Sr,Bi,Ca)2CuO6" Bi2.1Sr0.7Ca1.2Cu1O6+z Bi 2.1 Sr 0.7 Ca 1.2 Cu 1 O 6+z 2007 Bi2201 A 5.34 5.42 24.15 K 75 75 "Bi2O3,SrCO3,CaCO3,CuO" 1 "mixture - CAL(750C,24h) - CAL(800C,24h) - SIN(800-850C,48h)" Ca Substitution Effect for Sr upon Superconductivity of Bi2.1CaySr1.9-yCuO6+d 2007 "Graduate School of Pure and Applied Sciences, University of Tsukuba, Tsukuba, Ibaraki 305-8571, Japan" "Jpn.J.Appl.Phys., 46(2007)L167"
150154 JJP046L167 Bi2212 phase <7-14 % "Bi2(Sr,Bi,Ca)2CuO6" Bi2.1Sr0.5Ca1.4Cu1O6+z Bi 2.1 Sr 0.5 Ca 1.4 Cu 1 O 6+z 2007 Bi2201 A 5.34 5.38 23.91 K 73.9 73.9 "Bi2O3,SrCO3,CaCO3,CuO" 1 "mixture - CAL(750C,24h) - CAL(800C,24h) - SIN(800-850C,48h)" Ca Substitution Effect for Sr upon Superconductivity of Bi2.1CaySr1.9-yCuO6+d 2007 "Graduate School of Pure and Applied Sciences, University of Tsukuba, Tsukuba, Ibaraki 305-8571, Japan" "Jpn.J.Appl.Phys., 46(2007)L167"
150155 JJP046L167 Bi2212 phase <7-14 % "Bi2(Sr,Bi,Ca)2CuO6" Bi2.1Sr0.3Ca1.6Cu1O6+z Bi 2.1 Sr 0.3 Ca 1.6 Cu 1 O 6+z 2007 Bi2201 A 5.31 5.35 23.89 K 7 "Bi2O3,SrCO3,CaCO3,CuO" 1 "mixture - CAL(750C,24h) - CAL(800C,24h) - SIN(800-850C,48h)" Ca Substitution Effect for Sr upon Superconductivity of Bi2.1CaySr1.9-yCuO6+d 2007 "Graduate School of Pure and Applied Sciences, University of Tsukuba, Tsukuba, Ibaraki 305-8571, Japan" "Jpn.J.Appl.Phys., 46(2007)L167"
150156 PHC4660011 G-L parameter = 13.8 layered diamond-like structure. NaAlSi Na1Al1Si1 Na 1 Al 1 Si 1 2007 P4/mmm 129 A 4.119 7.362 anti-PbFCl-type K 7 7 100 Oe M-H curve 101 T "magnetization, WHH fitting" 1.91 T/K 0.402 MHC150156 A Hc2 131.3 A Hc1 using GL eq. 1813 "Na(3N),Al(4N),Si(5N)" "high-pressure synthesis (1300-1400C, 30min, P=5.5 GPa) - Q to RT." Superconductivity in ternary siliside NaAlSi with layered diamond-like structure 2007 "Department of Physics and Mathematics, Aoyama-Gakuin University, Sagamihara, Kanagawa, Japan" "Physica C, 466(2007)11"
150157 PHC4630111 Tc by SP-heat. (dC/gamma*Tc) = 2.1 Li2Pd3B Li2Pd3B1 Li 2 Pd 3 B 1 2007 P4<3>32 K 7 7 mJ/mol.K2 8.3 202 SP-heat "Li-lump,Pd-plate,B-flake" "arc-melting(Pd-B), then react quickly (Pd-B & Li-lump) in arc furnace." Specific heat of lithium ternary borides under magnetic field 2007 "Superconducting Materials Center, National Institute for Materials Science, Sengen 1-2-1, Tsukuba, Ibaraki 305-0047, Japan" "Physica C, 463-465(2007)111"
150158 PHC4630111 Tc by SP-heat. (dC/gamma*Tc) = 0.75 Li2Pt3B Li2Pt3B1 Li 2 Pt 3 B 1 2007 P4<3>32 K 2.6 2.6 mJ/mol.K2 9.6 240 SP-heat "Li-lump,Pt-plate,B-flake" "arc-melting(Pt-B), then react quickly (Pt-B & Li-lump) in arc furnace." Specific heat of lithium ternary borides under magnetic field 2007 "Superconducting Materials Center, National Institute for Materials Science, Sengen 1-2-1, Tsukuba, Ibaraki 305-0047, Japan" "Physica C, 463-465(2007)111"
150159 J076024713 Tc depends on sintering conditions. Y2C3 C3Y2 C 3 Y 2 2007 Pu2C3 K 11.6 11.6 T "SP-heat, WHH fitting" 22.7 T/K 2.91 A 38 3.6 14 mJ/mol.K2 4.7 540 SP-heat "Y(3N),C(3N) powder" "mixture - arc melting. heat(1400-1600C, 10-30 min, P=4.0-5.5 GPa) , then Quench to RT" Superconductivity of Y2C3 Investigated by Specific Heat Measurement 2007 "Department of Physics and Mathematics, Aoyama Gakuin University, 5-10-1 Fuchinobe, Sagamihara, Kanagawa 229-8558" "J.Phys.Soc.Jpn, 76(2007)024713"
150160 J076024713 Tc depends on sintering conditions. Y2C3 C3Y2 C 3 Y 2 2007 Pu2C3 K 13.9 13.9 T "SP-heat, WHH fitting" 24.7 T/K 2.57 A 36 3.9 14 mJ/mol.K2 6 530 SP-heat "Y(3N),C(3N) powder" "mixture - arc melting. heat(1400-1600C, 10-30 min, P=4.0-5.5 GPa) , then Quench to RT" Superconductivity of Y2C3 Investigated by Specific Heat Measurement 2007 "Department of Physics and Mathematics, Aoyama Gakuin University, 5-10-1 Fuchinobe, Sagamihara, Kanagawa 229-8558" "J.Phys.Soc.Jpn, 76(2007)024713"
150161 J076024713 Tc depends on sintering conditions. Y2C3 C3Y2 C 3 Y 2 2007 Pu2C3 K 15.2 15.2 Oe M-H curve 32.8 T "SP-heat, WHH fitting" 26.8 T/K 2.55 A 55 A from Hc1using GL-eq 4470 4.1 14 MSP150161 mJ/mol.K2 6.3 530 SP-heat "Y(3N),C(3N) powder" "mixture - arc melting. heat(1400-1600C, 10-30 min, P=4.0-5.5 GPa) , then Quench to RT" Superconductivity of Y2C3 Investigated by Specific Heat Measurement 2007 "Department of Physics and Mathematics, Aoyama Gakuin University, 5-10-1 Fuchinobe, Sagamihara, Kanagawa 229-8558" "J.Phys.Soc.Jpn, 76(2007)024713"
150162 J076024713 data from reference 13 of J076024713. Nb3Sn Nb3Sn1 Nb 3 Sn 1 2007 Cr3Si(A15) "Cr3Si, A15" K 18 18 T 25 A 115 4.8 mJ/gat.K2 13 230 Pb-flux method Superconductivity of Y2C3 Investigated by Specific Heat Measurement 2007 "Department of Physics and Mathematics, Aoyama Gakuin University, 5-10-1 Fuchinobe, Sagamihara, Kanagawa 229-8558" "J.Phys.Soc.Jpn, 76(2007)024713"
150163 J076063701 "typical size=1x1x0.5 mm3. Hc2(0)=3.66 T for H//[110]. G-L parameter = 28. Curie-T(para) = -42 K for H//[100], = -139 K for H//[001]. gamma = 200 mJ/mol.K2 at Tc. (dC/gamma*Tc) = 2.33 (Tc=4.9 K)" NpPd5Al2 Np1Pd5Al2 Np 1 Pd 5 Al 2 3 2007 ZrNi2Al5 I4/mmm A 4.148 14.716 K 5 5 Oe M-H curve 80 T 14.3 3.7 T/K 31 6.4 MHC150163 A from Hc2 94 A from Hc1using GL-eq 2600 MSP150163 mJ/mol.K2 390 175 SP-heat "arc-melting - ANN(500C,1w,in vac)" Unconventional Heavy-Fermion Superconductivity of a New Transuranium Compound NpPd5Al2 2007 "Institute for Materials Research, Tohoku University, Oarai, Ibaraki 311-1313" "J.Phys.Soc.Jpn, 76(2007)063701"
150164 J076073708 RRR=150. (dC/Tc) = 11.3 mJ/mol.K2. (dC/gamma*Tc) = 1.4. Thermodynamic Hc(0) = 126 Oe. G-L parameter = 0.7(type-I SC). Rh2Ga9 Ga9Rh2 Ga 9 Rh 2 1 2007 Co2Al9 Pc 7 distorted Co2Al9 type K 1.9 1.9 Oe type-I SC (Hc) 130 MHC150164 mJ/mol.K2 7.9 312 SP-heat uOhm.cm 1 Superconductivity in Rh2Ga9 and Ir2Ga9 without Inversion Symmetry 2007 "Department of Advanced Materials, University of Tokyo, Kashiwa, Chiba 277-8561" "J.Phys.Soc.Jpn, 76(2007)073708"
150165 J076073708 RRR=150. (dC/Tc) = 9.8 mJ/mol.K2. (dC/gamma*Tc) = 1.4. Thermodynamic Hc(0) = 133 Oe. G-L parameter = 1.1. Ir2Ga9 Ga9Ir2 Ga 9 Ir 2 1 2007 Co2Al9 Pc 7 distorted Co2Al9 type K 2.2 2.2 Oe linear approx. 250 MHC150164 A from Hc2 1000 mJ/mol.K2 6.9 264 SP-heat uOhm.cm 1 Superconductivity in Rh2Ga9 and Ir2Ga9 without Inversion Symmetry 2007 "Department of Advanced Materials, University of Tokyo, Kashiwa, Chiba 277-8561" "J.Phys.Soc.Jpn, 76(2007)073708"
150166 J076083706 RRR=120. P-induced SC. Pcrit(AF) = 2.25 GPa. SC properties at P=2.19 GPa. CeIrSi3 Ce1Ir1Si3 Ce 1 Ir 1 Si 3 3 2007 1.88 BaNiSn3 K 1.4 0 1.4 MTC150166 Czochralski method Strong-Coupling Superconductivity of CeIrSi3 with the Non-centrosymmetric Crystal Structure 2007 "Advanced Science Research Center, Japan Atomic Energy Agency, Tokai, Ibaraki 319-1195" "J.Phys.Soc.Jpn, 76(2007)083706"
150167 J076093704 impurity phase: RuAs2. (dC/gamma*Tc) = 0.83 PrRu4As12 Pr1Ru4As12 Pr 1 Ru 4 As 12 1 2007 uB/mol 3.3 -11 skutterudite A 8.491 K 2.33 2.33 T "SP-heat, WHH fitting" 0.62 T/K 0.365 MHC150167 mJ/mol.K2 95 "high pressure synthesis (900C, 4GPa)" Superconducting Properties of Pr-Based Filled Skutterudite PrRu4As12 2007 "Faculty of Engineering Science, Muroran Institute of Technology, Muroran, Hokkaido 050-8585" "J.Phys.Soc.Jpn, 76(2007)093704"
150168 J076094705 RRR = 2. energy gap by break junction. G-L parameter = 2.2. (dC/gamma*Tc) = 0.73 NbB2 B2Nb1 B 2 Nb 1 1 2007 AlB2 A 3.098 3.317 K 9.5 9.6 0.6 9.5 70 Oe M-H curve 830 T "SP-heat, linear fitting" 0.395 MHC150168 A from Hc2 290 A from Hc1using GL-eq 630 meV 1.36 3.5 1 MSP150168 mJ/mol.K2 4.2 650 SP-heat "NbB2,B" "mixture(nominal B/Nb=2.5) - pellet - sealed in quartz tube - heat(1000C,2h)" Specific Heat and Tunneling Spectroscopy Study of NbB2 with Maximum Tc = 10K 2007 "Department of Physics and Mathematics, Aoyama Gakuin University, 5-10-1 Fuchinobe, Sagamihara, Kanagawa 229-8558" "J.Phys.Soc.Jpn, 76(2007)094705"
150169 P076012505 70um-dia X 35 um-thickness. nearly hydrostatic pressure ( He medium). Tc by ac-SUS. Sc Sc1 Sc 1 2007 K 8.2 0 8.2 MTC150169 Pressure-induced superconductivity in Sc to 74 Gpa 2007 "Department of Physics, Washington University, Campus Box 1105, One Brookings Drive, St. Louis, Missouri 63130, USA" "Phys.Rev.B, 76(2007)012505"
150170 P076014501 SC properties due to minor phase: YSr2Cu3Oz which are on the grain boundaries. "Sr2Y(Ru,Cu)O6" Sr2Y1Ru0.5Cu0.5O6 Sr 2 Y 1 Ru 0.5 Cu 0.5 O 6 2007 2126 A 5.715 5.771 8.165 K 64 64 1 usual solid state reaction. Origin of the superconductivity in the Y-Sr-Ru-O and Y-Sr-Cu-O systems 2007 "Department of Physics and Texas Center for Superconductivity, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 76(2007)014501"
150171 P076014528 "RRR = 1.16. resistivity R = R0 + A*T^2. thermodynamic Hc(0) = 7.6 mT. SC parameters calculated from Hc2, Hc(0) using GLAG theory. G-L parameter = 13." beta-Al3Mg2 Al3Mg2 Al 3 Mg 2 3 2007 K 0.87 0.87 T R(T) 0.14 T/K R(T) 0.23 MHC150171 A from Hc2 485 A "from Hc, Hc2 using GLAG" 5300 MSP150171 mJ/mol.K2 6.6 373 SP-heat uOhm.cm 33 "flux growth method. ANN(190 C, 48h)" Superconductivity in the complex metallic alloy beta-Al3Mg2 2007 "Institut fur Festkorperphysik, Technische Universitat Wien, A-1040 Wien, Austria" "Phys.Rev.B, 76(2007)014528"
150172 PHC3410581 Sr2Ca3Cu4O8F2 Sr2Ca3Cu4F2O8.6 Sr 2 Ca 3 Cu 4 F 2 O 8+z 8.6 1 2000 234 A 3.851 32.35 K 38 38 "SrF2,CaF2,SrO2,SrCuO2,CaCuO3,CuO" "mixture - high pressure synthesis(1250C,3h,P=5.5 GPa) - Q to RT" "High-Pressure Synthesis of Oxyfluoride Superconductors, Sr2Can-1CunO2n+zF2 (n=4,5)" 2000 "National Institute for Research in Inorganic Materials, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Physica C, 341-348(2000)581"
150173 PHC3410581 Sr2Ca3Cu4O8F2 Sr2Ca3Cu4F2O8.8 Sr 2 Ca 3 Cu 4 F 2 O 8+z 8.8 2000 234 K 72 72 "SrF2,CaF2,SrO2,SrCuO2,CaCuO3,CuO" "mixture - high pressure synthesis(1250C,3h,P=5.5 GPa) - Q to RT" "High-Pressure Synthesis of Oxyfluoride Superconductors, Sr2Can-1CunO2n+zF2 (n=4,5)" 2000 "National Institute for Research in Inorganic Materials, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Physica C, 341-348(2000)581"
150174 PHC3410581 Sr2Ca3Cu4O8F2+z Sr2Ca3Cu4F3.8O8 Sr 2 Ca 3 Cu 4 F 3.8 O 8+z 8 2000 234 K 95 95 "SrF2,CaF2,SrO2,SrCuO2,CaCuO3,CuO" "mixture - high pressure synthesis(1250C,3h,P=5.5 GPa) - Q to RT" "High-Pressure Synthesis of Oxyfluoride Superconductors, Sr2Can-1CunO2n+zF2 (n=4,5)" 2000 "National Institute for Research in Inorganic Materials, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Physica C, 341-348(2000)581"
150175 PHC3410581 Sr2Ca4Cu5O10F2 Sr2Ca4Cu5F2O10.57 Sr 2 Ca 4 Cu 5 F 2 O 10+z 10.57 2000 245 A 3.852 38.77 K 40 40 "SrF2,CaF2,SrO2,SrCuO2,CaCuO3,CuO" "mixture - high pressure synthesis(1250C,3h,P=5.5 GPa) - Q to RT" "High-Pressure Synthesis of Oxyfluoride Superconductors, Sr2Can-1CunO2n+zF2 (n=4,5)" 2000 "National Institute for Research in Inorganic Materials, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Physica C, 341-348(2000)581"
150176 PHC4530024 "(dTm/dP) = 5.2 K/GPa, Tm is magnetic ordering tempeature." RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 2007 Ru1212 K 40 58 49 K/GPa 1.4 "solid state reacton of precursor(Ru,Rh)Sr2GdO6 and CuO." Pressure study of superconductivity and magnetism in pure and Rh-doped RuSr2GdCu2O8 materials 2007 "Department of Physics, San Diego State University, San Diego, CA 92182-1233, USA" "Physica C, 453(2007)24"
150177 PHC4530024 "(dTm/dP) = 3.7 K/GPa, Tm is magnetic ordering tempeature." "(Ru,Rh)Sr2GdCu2O8" Ru0.95Rh0.05Sr2Gd1Cu2O8 Ru 0.95 Rh 0.05 Sr 2 Gd 1 Cu 2 O 8 2007 Ru1212 K 24.7 41 32.85 K/GPa 1.1 "solid state reacton of precursor(Ru,Rh)Sr2GdO6 and CuO." Pressure study of superconductivity and magnetism in pure and Rh-doped RuSr2GdCu2O8 materials 2007 "Department of Physics, San Diego State University, San Diego, CA 92182-1233, USA" "Physica C, 453(2007)24"
150178 PHC4530024 "(dTm/dP) = 6.0 K/GPa, Tm is magnetic ordering tempeature." "(Ru,Rh)Sr2GdCu2O8" Ru0.9Rh0.1Sr2Gd1Cu2O8 Ru 0.9 Rh 0.1 Sr 2 Gd 1 Cu 2 O 8 2007 Ru1212 K 31 31 K/GPa 1.8 "solid state reacton of precursor(Ru,Rh)Sr2GdO6 and CuO." Pressure study of superconductivity and magnetism in pure and Rh-doped RuSr2GdCu2O8 materials 2007 "Department of Physics, San Diego State University, San Diego, CA 92182-1233, USA" "Physica C, 453(2007)24"
150179 PHC4530024 "(dTm/dP) = 7.9 K/GPa, Tm is magnetic ordering tempeature." "(Ru,Rh)Sr2GdCu2O8" Ru0.85Rh0.15Sr2Gd1Cu2O8 Ru 0.85 Rh 0.15 Sr 2 Gd 1 Cu 2 O 8 2007 Ru1212 K 19 19 K/GPa 1.7 "solid state reacton of precursor(Ru,Rh)Sr2GdO6 and CuO." Pressure study of superconductivity and magnetism in pure and Rh-doped RuSr2GdCu2O8 materials 2007 "Department of Physics, San Diego State University, San Diego, CA 92182-1233, USA" "Physica C, 453(2007)24"
150180 PR0538238 "impurity: F(540ppm), O(300ppm), H(275ppm), Fe(<20ppm). Tc(P) of La(dhcp) was measured" alpha-La La1 La 1 1996 dhcp K 5 5 MTC150180 Effect of pressure on the superconducting Tc of lanthanum 1996 "Institute of Solid State Physics, 142432 Chernogolovka, Moscow District, Russia" "Phys.Rev.B, 53(1996)8238"
150181 PHC4600066 "P-induced SC. Two SC phases: Low-Tc phase(Tc=4.5 K, P = 8.0 GPa) and high-Tc phase (Tc=8.5 K, P = 10.1 GPa.). Charge order disappear at P = 10.1 GPa." beta-LixV2O5 Li0.33V2O5 Li 0.33 V 2 O 5 2007 bronze beta-bronze K 8.5 0 8.5 MPH150181 Observation of pressure-induced superconductivity in beta-LixV2O5 2007 "Material Design and Characterization Laboratory, Institute for Solid State Physics, University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba 277-8581, Japan" "Physica C, 460-462(2007)66"
150182 PHC4600700 T-dependence of PENET is measured by ARPES. Energy gap by fitting using eq. of d(PENET) = f(gap). T = 32 K. NbSe2 Nb1Se2 Nb 1 Se 2 3 2007 2H-NbSe2 K 7.2 7.2 2.6 12 Anisotropic superconductivity in NbSe2 probed by magnetic penetration depth 2007 "Institut Neel, CNRS/UJF, BP 166, 38042 Grenoble Cedex 9, France" "Physica C, 460-462(2007)700"
150183 PHC4600708 (dC/gamma*Tc) = 1.09. Lu2Fe3Si5 Lu2Fe3Si5 Lu 2 Fe 3 Si 5 3 2007 U2Mn3Si5 K 4.5 4.5 MHC150183 "floating zone method using image furnace. Then ANN(1150C,5d) - ANN(850C,5d)." Anisotropic superconductivity in Lu2Fe3Si5 2007 "Department of Applied Physics, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Physica C, 460-462(2007)708"
150184 PHC4600708 Tc by SP-Heat. Lu2Fe3Si5 Lu2Fe3Si5 Lu 2 Fe 3 Si 5 1 2007 U2Mn3Si5 K 5.6 5.6 MSP150184 mJ/mol.K2 20.5 485 arc melting Anisotropic superconductivity in Lu2Fe3Si5 2007 "Department of Applied Physics, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Physica C, 460-462(2007)708"
150185 PR0272800 (dC/gamma*Tc) = 0.99. e-ph coupling = 0.51. Lu2Fe3Si5 Lu2Fe3Si5 Lu 2 Fe 3 Si 5 1 1983 U2Mn3Si5 K 6.25 6.25 mJ/mol.K 173 mJ/mol.K2 27.8 561 "arc-melting - ANN(1250C,5d) - ANN(800C, 5d)" Low temperature heat capacity of superconducting ternary iron silisides 1983 "Ames Laboratory and Department of Physics,Iowa State University,Ames,Iowa" "Phys.Rev.B, 27(1983)2800"
150186 PR0272800 (dC/gamma*Tc) = 0.81. e-ph coupling = 0.45. Sc2Fe3Si5 Sc2Fe3Si5 Sc 2 Fe 3 Si 5 1 1983 U2Mn3Si5 K 4.46 4.46 mJ/mol.K 80.3 mJ/mol.K2 22.2 290 "arc-melting - ANN(1250C,5d) - ANN(800C, 5d)" Low temperature heat capacity of superconducting ternary iron silisides 1983 "Ames Laboratory and Department of Physics,Iowa State University,Ames,Iowa" "Phys.Rev.B, 27(1983)2800"
150187 PR0272800 (dC/gamma*Tc) = 0.78. e-ph coupling = 0.39. Y2Fe3Si5 Y2Fe3Si5 Y 2 Fe 3 Si 5 1 1983 U2Mn3Si5 K 1.68 1.68 mJ/mol.K 25.4 mJ/mol.K2 19.4 "arc-melting - ANN(1250C,5d) - ANN(800C, 5d)" Low temperature heat capacity of superconducting ternary iron silisides 1983 "Ames Laboratory and Department of Physics,Iowa State University,Ames,Iowa" "Phys.Rev.B, 27(1983)2800"
150188 LTP0210377 20 um foil. RRR = 70-100 alpha-La La1 La 1 1975 dhcp K 4.9 4.9 MTC150188 K/GPa 1.15 "ANN(220C, in vac)" Pressure-induced lattice instability in fcc lanthanum at low temperature 1975 "Institut fur Festkorperforschung der KernforschungsanlageJulich, Julich, Germany" "J.Low Temp.Phys., 21(1975)377"
150189 LTP0210377 20 um foil. RRR = 30. Tc(max) = 12.9 K at P=180 kbar. beta-La La1 La 1 1975 fcc K 6 6 MTC150188 K/GPa 1.01 "ANN(240C, in vac)" Pressure-induced lattice instability in fcc lanthanum at low temperature 1975 "Institut fur Festkorperforschung der KernforschungsanlageJulich, Julich, Germany" "J.Low Temp.Phys., 21(1975)377"
150190 PLA0850372 RRR = 20. magnetic reentrant behaviour below Tc. Tm2Fe3Si5 Tm2Fe3Si5 Tm 2 Fe 3 Si 5 1981 U2Mn3Si5 K 1.1 1.7 1.1 "arc-melting - Homogeneize(1150C,4d) - ANN(800C,8d, in Ar)" Reentrant superconductivity in Tm2Fe3Si5 1981 "Institute for Pure and Applied Physical Science, University of California, San Diego,CA,USA" "Phys.Lett., 85A(1981)372"
150191 PLA0850372 "(Tm,Lu)2Fe3Si5" Tm0.9Lu0.1Fe3Si5 Tm 0.9 Lu 0.1 Fe 3 Si 5 1981 U2Mn3Si5 K 1.65 1.65 MTC150191 "arc-melting - Homogeneize(1150C,4d) - ANN(800C,8d, in Ar)" Reentrant superconductivity in Tm2Fe3Si5 1981 "Institute for Pure and Applied Physical Science, University of California, San Diego,CA,USA" "Phys.Lett., 85A(1981)372"
150192 PLA0850372 "(Tm,Lu)2Fe3Si5" Tm0.84Lu0.16Fe3Si5 Tm 0.84 Lu 0.16 Fe 3 Si 5 1981 U2Mn3Si5 K 2.44 2.44 "arc-melting - Homogeneize(1150C,4d) - ANN(800C,8d, in Ar)" Reentrant superconductivity in Tm2Fe3Si5 1981 "Institute for Pure and Applied Physical Science, University of California, San Diego,CA,USA" "Phys.Lett., 85A(1981)372"
150193 PLA0850372 "(Tm,Lu)2Fe3Si5" Tm0.8Lu0.2Fe3Si5 Tm 0.8 Lu 0.2 Fe 3 Si 5 1981 U2Mn3Si5 K 2.79 2.79 "arc-melting - Homogeneize(1150C,4d) - ANN(800C,8d, in Ar)" Reentrant superconductivity in Tm2Fe3Si5 1981 "Institute for Pure and Applied Physical Science, University of California, San Diego,CA,USA" "Phys.Lett., 85A(1981)372"
150194 PHC4600636 LaPt2B2C La1Pt2B2C1 La 1 Pt 2 B 2 C 1 2007 LuNi2B2C K 10 10 mOhm.cm 0.06 "arc-melting and induction heating, then ANN(1500C,1w, in Ar)" "Superconducting and magnetic properties of Pt-based borocarbides RPt2B2C (R = La, Ce, Pr)" 2007 "Department of Physics, Indian Institute of Technology, Kanpur 208 016, India" "Physica C, 460-462(2007)636"
150195 PHC4600636 PrPt2B2C Pr1Pt2B2C1 Pr 1 Pt 2 B 2 C 1 2007 LuNi2B2C K 6 6 "arc-melting and induction heating, then ANN(1500C,1w, in Ar)" "Superconducting and magnetic properties of Pt-based borocarbides RPt2B2C (R = La, Ce, Pr)" 2007 "Department of Physics, Indian Institute of Technology, Kanpur 208 016, India" "Physica C, 460-462(2007)636"
150196 PHC4600636 not SC. CePt2B2C Ce1Pt2B2C1 Ce 1 Pt 2 B 2 C 1 2007 myu-B 2.5 LuNi2B2C K 2 "arc-melting and induction heating, then ANN(1500C,1w, in Ar)" "Superconducting and magnetic properties of Pt-based borocarbides RPt2B2C (R = La, Ce, Pr)" 2007 "Department of Physics, Indian Institute of Technology, Kanpur 208 016, India" "Physica C, 460-462(2007)636"
150197 PHC4600542 "RRR=1300. Anomalies at 90 and 180 K in resistivity and specific heat , come from phase transition." Ag6O8Ag(NO3) Ag7N1O11 Ag 7 N 1 O 11 3 2007 clathrate Fm3[-]m K 1.04 0.04 1.04 Oe "resistive transition, WHH fitting" 710 MHC150197 A from Hc2 681 electro chemical reaction "Superconductivity in clathrate-type silver oxides: Ag6O8MX (M = cation, X = anion)" 2007 "Department of Physics and Mathematics, Aoyama-Gakuin University, Fuchinobe 5-10-1, Kanagawa 229-8558, Japan" "Physica C, 460-462(2007)542"
150198 PSP1981381 Tc by ac-SUS. hydrostatic pressure. Lu2Fe3Si5 Lu1Fe3Si5 Lu 1 Fe 3 Si 5 1 1981 Sc2Fe3Si5 A 10.342 5.385 K 6 6 MTC150198 K/GPa -1.02 arc-melting Nonlinear pressure effects in superconducting rare earth-iron-silicides (North Holland) 1981 "Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California" Phys.Solids under High Pres(1981)381
150199 PSP1981381 Tc by ac-SUS. hydrostatic pressure. Sc2Fe3Si5 Sc1Fe3Si5 Sc 1 Fe 3 Si 5 1 1981 Sc2Fe3Si5 K 4.3 4.3 MTC150198 K/GPa -0.77 arc-melting Nonlinear pressure effects in superconducting rare earth-iron-silicides (North Holland) 1981 "Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California" Phys.Solids under High Pres(1981)381
150200 PSP1981381 Tc by ac-SUS. hydrostatic pressure. Y2Fe3Si5 Y2Fe3Si5 Y 2 Fe 3 Si 5 1 1981 Sc2Fe3Si5 A 10.435 5.475 K 2.3 2.3 MTC150200 K/GPa 3.3 arc-melting Nonlinear pressure effects in superconducting rare earth-iron-silicides (North Holland) 1981 "Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California" Phys.Solids under High Pres(1981)381
150201 PSP1981381 Tc by ac-SUS. hydrostatic pressure. Tc(max) in this series. "(Y,Lu)2Fe3Si5" Y1.968Lu0.032Fe3Si5 Y 1.968 Lu 0.032 Fe 3 Si 5 1 1981 Sc2Fe3Si5 K 2.9 2.9 MTC150201 "two step arc-melting. first (Y2Fe3Si5 and Y0.9R0.1Fe3Si5), then combining them" Nonlinear pressure effects in superconducting rare earth-iron-silicides (North Holland) 1981 "Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California" Phys.Solids under High Pres(1981)381
150202 PSP1981381 Tc by ac-SUS. hydrostatic pressure. "(Y,Lu)2Fe3Si5" Y1.68Lu0.32Fe3Si5 Y 1.68 Lu 0.32 Fe 3 Si 5 1 1981 Sc2Fe3Si5 K 0.98 0.98 "two step arc-melting. first (Y2Fe3Si5 and Y0.9R0.1Fe3Si5), then combining them" Nonlinear pressure effects in superconducting rare earth-iron-silicides (North Holland) 1981 "Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California" Phys.Solids under High Pres(1981)381
150203 PSP1981381 Tc by ac-SUS. hydrostatic pressure. Tc(max) in this series. "(Y,Dy)2Fe3Si5" Y1.9Dy0.1Fe3Si5 Y 1.9 Dy 0.1 Fe 3 Si 5 1 1981 Sc2Fe3Si5 K 2.75 2.75 MTC150203 "two step arc-melting. first (Y2Fe3Si5 and Y0.9R0.1Fe3Si5), then combining them" Nonlinear pressure effects in superconducting rare earth-iron-silicides (North Holland) 1981 "Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California" Phys.Solids under High Pres(1981)381
150204 PSP1981381 Tc by ac-SUS. hydrostatic pressure. "(Y,Dy)2Fe3Si5" Y1.6Lu0.4Fe3Si5 Y 1.6 Lu 0.4 Fe 3 Si 5 1 1981 Sc2Fe3Si5 K 1.65 1.65 "two step arc-melting. first (Y2Fe3Si5 and Y0.9R0.1Fe3Si5), then combining them" Nonlinear pressure effects in superconducting rare earth-iron-silicides (North Holland) 1981 "Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California" Phys.Solids under High Pres(1981)381
150205 JPE0210841 Tc(p) = 7.20 - 0.365*P(GPa) for P < 13 GPa. Tc-discontinuity at 13 GPa (fcc-to-hcp) not detected. Pb Pb1 Pb 1 1988 K 7.2 7.2 MTC150205 K/GPa -0.365 A diamond anvil cell for the investigation of superconductivity under pressures of up to 50 GPa: Pb as a low temperature manometer 1988 "J.Phys.E: Sci.Instrum., 21(1988)841"
150206 JPE0210841 P-induced SC. P(crit) = 35 GPa. Tc shows Tc(max) at P=50 GPa. Sr Sr1 Sr 1 1988 K 7 0 7 MTC150206 A diamond anvil cell for the investigation of superconductivity under pressures of up to 50 GPa: Pb as a low temperature manometer 1988 "J.Phys.E: Sci.Instrum., 21(1988)841"
150207 PSP1981381 "Original data in ""High pressure and low temperature physics"" Plenum,New York, 1978: p=409" ThRh4B4 Th1Rh4B4 Th 1 Rh 4 B 4 1981 AB4C4 RT4B4 CeCo4B4 type K 4.5 4.5 K/GPa -0.066 Nonlinear pressure effects in superconducting rare earth-iron-silicides (North Holland) 1981 "Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California" Phys.Solids under High Pres(1981)381
150208 PSP1981381 "Original data in ""Superconductivity in d- and f-band metals"" Plenum, New York,1976: p=137" LaMo6S8 La1Mo6S8 La 1 Mo 6 S 8 1981 Chevrel K 7 7 K/GPa -1.42 Nonlinear pressure effects in superconducting rare earth-iron-silicides (North Holland) 1981 "Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California" Phys.Solids under High Pres(1981)381
150209 PSP1981381 AgSnSe2 Ag1Sn1Se2 Ag 1 Sn 1 Se 2 1981 K 4.7 4.7 K/GPa -0.73 Nonlinear pressure effects in superconducting rare earth-iron-silicides (North Holland) 1981 "Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California" Phys.Solids under High Pres(1981)381
150210 PSP1981381 "Original data in Mat.Res.Bull., 10(1975)1111" La3Se4 La3Se4 La 3 Se 4 1981 K 7.6 7.6 K/GPa 3 Nonlinear pressure effects in superconducting rare earth-iron-silicides (North Holland) 1981 "Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California" Phys.Solids under High Pres(1981)381
150211 MRS1984017 P-induced SC. Tc=4K (Sb-III) at 250 kbar. P = 50 kbar. Sb Sb1 Sb 1 1984 "Sb-I(P<85kbar), Sb-II(85250 kbar)" K 0.7 0 0.7 MTC150211 Superconductivity in elements and binary systems at high pressure 1984 MRS Proc.No.22(1984)P=17
150212 MRS1984017 P-induced SC. P = 120 kbar. As As1 As 1 1984 K 2 0 2 MTC150212 Superconductivity in elements and binary systems at high pressure 1984 MRS Proc.No.22(1984)P=17
150213 MRS1984017 P-induced SC. P = 275 kbar. Lu Lu1 Lu 1 1984 K 1.5 0 1.5 Superconductivity in elements and binary systems at high pressure 1984 MRS Proc.No.22(1984)P=17
150214 JPS0741903 SP-heat by ac calorimetry. Tc(SP) = 0.46 K. AF for P < 0.6 GPa. SC for P < 1.5 GPa. CePt3Si Ce1Pt3Si1 Ce 1 Pt 3 Si 1 3 2005 2.25 CePt3B P4mm K 0.7 0.7 MTC150214 "See J.Phys:Condens.Matter, 16(2004)L333" Novel Pressure Phase Diagram of Heavy Fermion Superconductor CePt3Si Investigated by ac Calorimetry 2005 "Advanced Science Research Center, Japan Atomic Energy Research Institute, Tokai, Ibaraki 319-1195" "J.Phys.Soc.Jpn, 74(2005)1903"
150215 PHB3590360 "CePt3(Si,Ge)" Ce1Pt3Si0.97Ge0.03 Ce 1 Pt 3 Si 0.97 Ge 0.03 2005 2.65 CePt3B A 4.0771 5.4479 K 0.63 0.63 Unconventional superconductivity and magnetism in CePt3Si1-xGex 2005 "Institut fur Festkorperphysik, Technische Universitat Wien, A-1040 Wien, Austria" "Physica B, 359-361(2005)360"
150216 PHB3590360 "CePt3(Si,Ge)" Ce1Pt3Si0.94Ge0.06 Ce 1 Pt 3 Si 0.94 Ge 0.06 2005 2.79 CePt3B A 4.0787 5.4529 K 0.56 0.56 MTC150215 Unconventional superconductivity and magnetism in CePt3Si1-xGex 2005 "Institut fur Festkorperphysik, Technische Universitat Wien, A-1040 Wien, Austria" "Physica B, 359-361(2005)360"
150217 PHB3590360 "CePt3(Si,Ge)" Ce1Pt3Si0.9Ge0.1 Ce 1 Pt 3 Si 0.9 Ge 0.1 2005 3.2 CePt3B A 4.0805 5.4579 K 0.31 0.31 Unconventional superconductivity and magnetism in CePt3Si1-xGex 2005 "Institut fur Festkorperphysik, Technische Universitat Wien, A-1040 Wien, Austria" "Physica B, 359-361(2005)360"
150218 PHB3590386 Tn defined as max of (dR/dT). (dTn/dP) = -0.9 K/GPa. AF for P < 0.5 GPa. CePt3Si Ce1Pt3Si1 Ce 1 Pt 3 Si 1 1 2005 2.2 2 CePt3B K 0.75 0.75 MTC150218 K/GPa -0.18 "rf-melting, then ANN(870C,10d)" Effect of hydrostatic pressure on the ambient pressure superconductor CePt3Si 2005 "Max Planck Institute for Chemical Physics of Solids, Nothnitzer Str. 40, 01187 Dresden, Germany" "Physica B, 359-361(2005)386"
150219 P076024513 CuxTiSe2 Cu0.055Ti1Se2 Cu 0.055 Ti 1 Se 2 3 2007 1T-MX2 A 6.0266 K 2.24 2.24 Transport properties of single-crystalline CuxTiSe2 (0.015= NMR measured. PrRu4As12 Pr1Ru4As12 Pr 1 Ru 4 As 12 1 2007 skutterudite K 2.3 2.3 3.2 6 75As-NQR Studies of Superconducting Filled Skutterudites PrRu4As12 and LaRu4As12 2007 "Department of Physics, Graduate School of Science, Chiba University, Chiba 263-8522" "J.Phys.Soc.Jpn, 76(2007)104705"
150228 J076104705 As<75> NMR measured. LaRu4As12 La1Ru4As12 La 1 Ru 4 As 12 1 2007 skutterudite K 10.3 10.3 3.7 6 75As-NQR Studies of Superconducting Filled Skutterudites PrRu4As12 and LaRu4As12 2007 "Department of Physics, Graduate School of Science, Chiba University, Chiba 263-8522" "J.Phys.Soc.Jpn, 76(2007)104705"
150229 MRB0190115 "ANN(400C,13d). Tc = 2.7 K before ANN(broad transition)" LaRhSi3 La1Rh1Si3 La 1 Rh 1 Si 3 1984 2 BaPtSn3 A 4.272 9.83 K 2.2 2.2 "Crystal structure of new superconducting materials LaIrSi3 and LaRhSi3. Structural relation between LaRh2Si2, La2Rh3Si5 and LaRhSi3" 1984 "Mat.Res.Bull., 19(1984)115"
150230 MRB0190115 Tc= 1.9 - 2.7 K LaIrSi3 La1Ir1Si3 La 1 Ir 1 Si 3 1984 2 BaPtSn3 A 4.278 9.83 K 2.2 2.2 "Crystal structure of new superconducting materials LaIrSi3 and LaRhSi3. Structural relation between LaRh2Si2, La2Rh3Si5 and LaRhSi3" 1984 "Mat.Res.Bull., 19(1984)115"
150231 LES0690389 Tc by mutual inductance. CaSi2 Ca1Si2 Ca 1 Si 2 1980 a-ThSi2 K 1.37 1.37 "melt by induction heat in Cu-boat. High-pressure synthesis(1000C,15min,P=40 kbar), then quench to RT" Superconductivity of SrSi2 and BaGe2 with the alpha-ThSi2-type structure 1980 "J.Less-Common Met., 69(1980)389"
150232 LES0690389 Tc by mutual inductance. CaSi1.9 Ca1Si1.9 Ca 1 Si 1.9 1980 a-ThSi2 K 1.35 1.35 "melt by induction heat in Cu-boat. High-pressure synthesis(1000C,15min,P=40 kbar), then quench to RT" Superconductivity of SrSi2 and BaGe2 with the alpha-ThSi2-type structure 1980 "J.Less-Common Met., 69(1980)389"
150233 LES0690389 Tc by mutual inductance. CaSi2.2 Ca1Si2.2 Ca 1 Si 2.2 1980 a-ThSi2 K 1.37 1.37 "melt by induction heat in Cu-boat. High-pressure synthesis(1000C,15min,P=40 kbar), then quench to RT" Superconductivity of SrSi2 and BaGe2 with the alpha-ThSi2-type structure 1980 "J.Less-Common Met., 69(1980)389"
150234 LES0690389 Tc by mutual inductance. SrSi2 Si2Sr1 Si 2 Sr 1 1980 a-ThSi2 K 3.1 3.1 "melt by induction heat in Cu-boat. High-pressure synthesis(1000C,15min,P=40 kbar), then quench to RT" Superconductivity of SrSi2 and BaGe2 with the alpha-ThSi2-type structure 1980 "J.Less-Common Met., 69(1980)389"
150235 LES0690389 Tc by mutual inductance. BaGe2 Ba1Ge2 Ba 1 Ge 2 1980 a-ThSi2 K 4.93 4.93 "melt by induction heat in Cu-boat. High-pressure synthesis(1000C,15min,P=40 kbar), then quench to RT" Superconductivity of SrSi2 and BaGe2 with the alpha-ThSi2-type structure 1980 "J.Less-Common Met., 69(1980)389"
150236 LES0810349 Tc by mutual inductance. YTc2 Tc2Y1 Tc 2 Y 1 1981 MgZn2(Laves) A 5.371 8.862 "MgZn2, C14, Laves" K 8.8 0.3 8.8 "arc-melting, then ANN(1000C,24h)" "Superconductivity of the Laves Phases YTc2, ScTc2 and LuTc2" 1981 "Los Alamos Scientific Laboratory, University of California, Los Alamos, NM" "J.Less-Common Met., 81(1981)349"
150237 LES0810349 Tc by mutual inductance. ScTc2 Sc1Tc2 Sc 1 Tc 2 1981 MgZn2(Laves) A 5.224 8.57 "MgZn2, C14, Laves" K 10.9 0.2 10.9 "arc-melting, then ANN(1000C,24h)" "Superconductivity of the Laves Phases YTc2, ScTc2 and LuTc2" 1981 "Los Alamos Scientific Laboratory, University of California, Los Alamos, NM" "J.Less-Common Met., 81(1981)349"
150238 LES0810349 Tc by mutual inductance. LuTc2 Lu1Tc2 Lu 1 Tc 2 1981 MgZn2(Laves) A 5.31 8.736 "MgZn2, C14, Laves" K 9.9 0.2 9.9 "arc-melting, then ANN(1000C,24h)" "Superconductivity of the Laves Phases YTc2, ScTc2 and LuTc2" 1981 "Los Alamos Scientific Laboratory, University of California, Los Alamos, NM" "J.Less-Common Met., 81(1981)349"
150239 LES0810349 Tc by mutual inductance. ScRe2 Re2Sc1 Re 2 Sc 1 1981 MgZn2(Laves) A 5.263 8.584 "MgZn2, C14, Laves" K 0.93 0.07 0.93 "arc-melting, then ANN(1000C,24h)" "Superconductivity of the Laves Phases YTc2, ScTc2 and LuTc2" 1981 "Los Alamos Scientific Laboratory, University of California, Los Alamos, NM" "J.Less-Common Met., 81(1981)349"
150240 LES0810349 Tc by mutual inductance. YRe2 Re2Y1 Re 2 Y 1 1981 MgZn2(Laves) A 5.396 8.819 "MgZn2, C14, Laves" K 1.83 1.83 "arc-melting, then ANN(1000C,24h)" "Superconductivity of the Laves Phases YTc2, ScTc2 and LuTc2" 1981 "Los Alamos Scientific Laboratory, University of California, Los Alamos, NM" "J.Less-Common Met., 81(1981)349"
150241 LES0810349 Tc by mutual inductance. LuRe2 Lu1Re2 Lu 1 Re 2 1981 MgZn2(Laves) A 5.342 8.722 "MgZn2, C14, Laves" K 1.7 0.07 1.7 "arc-melting, then ANN(1000C,24h)" "Superconductivity of the Laves Phases YTc2, ScTc2 and LuTc2" 1981 "Los Alamos Scientific Laboratory, University of California, Los Alamos, NM" "J.Less-Common Met., 81(1981)349"
150242 LES0820193 "(Mo,Zr)2BC" Mo1.965Zr0.035B1C1 Mo 1.965 Zr 0.035 B 1 C 1 1981 Mo2BC Cmcm K 6.9 6.9 MTC150242 arc-melting Influence of some metal substitutions on the superconducting behaviour of mokybdenum borocarbide 1981 "J.Less-Common Met., 82(1981)193"
150243 LES0820193 "(Mo,Zr)2BC" Mo1.935Zr0.065B1C1 Mo 1.935 Zr 0.065 B 1 C 1 1981 Mo2BC Cmcm K 6.2 6.2 arc-melting Influence of some metal substitutions on the superconducting behaviour of mokybdenum borocarbide 1981 "J.Less-Common Met., 82(1981)193"
150244 LES0820193 "(Mo,Nb])2BC" Mo1.9Nb0.1B1C1 Mo 1.9 Nb 0.1 B 1 C 1 1981 Mo2BC Cmcm A 3.0935 17.359 3.063 K 6.7 6.7 MTC150242 arc-melting Influence of some metal substitutions on the superconducting behaviour of mokybdenum borocarbide 1981 "J.Less-Common Met., 82(1981)193"
150245 LES0820193 "(Mo,Nb)2BC" Mo1.85Nb0.15B1C1 Mo 1.85 Nb 0.15 B 1 C 1 1981 Mo2BC Cmcm A 3.1043 17.373 3.0696 K 6.2 6.2 arc-melting Influence of some metal substitutions on the superconducting behaviour of mokybdenum borocarbide 1981 "J.Less-Common Met., 82(1981)193"
150246 LES0820193 "(Mo,Hf)2BC" Mo1.94Hf0.06B1C1 Mo 1.94 Hf 0.06 B 1 C 1 1981 Mo2BC Cmcm A 3.0955 17.378 3.0545 K 5.8 5.8 MTC150242 arc-melting Influence of some metal substitutions on the superconducting behaviour of mokybdenum borocarbide 1981 "J.Less-Common Met., 82(1981)193"
150247 LES0820193 "(Mo,Hf)2BC" Mo1.905Hf0.095B1C1 Mo 1.905 Hf 0.095 B 1 C 1 1981 Mo2BC Cmcm A 3.1045 17.408 3.0636 K 5 5 arc-melting Influence of some metal substitutions on the superconducting behaviour of mokybdenum borocarbide 1981 "J.Less-Common Met., 82(1981)193"
150248 LES0820193 "(Mo,Ta)2BC" Mo1.86Ta0.14B1C1 Mo 1.86 Ta 0.14 B 1 C 1 1981 Mo2BC Cmcm A 3.0932 17.366 3.0545 K 5.6 5.6 MTC150250 arc-melting Influence of some metal substitutions on the superconducting behaviour of mokybdenum borocarbide 1981 "J.Less-Common Met., 82(1981)193"
150249 LES0820193 "(Mo,Ta)2BC" Mo1.7Ta0.3B1C1 Mo 1.7 Ta 0.3 B 1 C 1 1981 Mo2BC Cmcm A 3.0977 17.375 3.0614 K 4.6 4.6 arc-melting Influence of some metal substitutions on the superconducting behaviour of mokybdenum borocarbide 1981 "J.Less-Common Met., 82(1981)193"
150250 LES0820193 "(Mo,W)2BC" Mo1.8W0.2B1C1 Mo 1.8 W 0.2 B 1 C 1 1 1981 Mo2BC A 3.0848 17.332 3.0467 K 6.82 6.82 MTC150250 MHC150250 arc-melting Influence of some metal substitutions on the superconducting behaviour of mokybdenum borocarbide 1981 "J.Less-Common Met., 82(1981)193"
150251 LES0820193 "(Mo,Rh)2BC" Mo1.8Rh0.2B1C1 Mo 1.8 Rh 0.2 B 1 C 1 1 1981 Mo2BC A 3.0828 17.325 3.0433 K 9.1 9.1 MTC150251 MHC150250 arc-melting Influence of some metal substitutions on the superconducting behaviour of mokybdenum borocarbide 1981 "J.Less-Common Met., 82(1981)193"
150252 LES0820193 Mo2BC Mo2B1C1 Mo 2 B 1 C 1 3 1981 Mo2BC K 7.5 7.5 MHC150252 Czochralski method Influence of some metal substitutions on the superconducting behaviour of mokybdenum borocarbide 1981 "J.Less-Common Met., 82(1981)193"
150253 P076064504 25-days-aged(RT) sample. nominal sample (Tc=18.5 K). Gap & PENET obtained using model fitting of muon-SR. PuCoGa5 Pu1Co1Ga5 Pu 1 Co 1 Ga 5 3 2007 HoCoGa5 K 18.25 18.25 A muon-SR 2650 6 16 crystals were grown using excess Ga flux. c-axis normal to surface. Muon spin rotation measurements of the superfluid density in fresh and aged superconducting PuCoGa5 2007 "Japan Atomic Energy Agency, Tokai, Ibaraki 319-1195, Japan" "Phys.Rev.B, 76(2007)064504"
150254 P076064508 isotope exponent = 0.07 +-0.04 LixZrNCl Li0.18Zr1N1Cl1 Li 0.18 Zr 1 N 1 Cl 1 2007 K 11.6 11.6 0.07 N beta-ZrNCl synthesized using CVT. Li-doping usig n-BuLi/hexane solution Isotope effect in LixZrNCl superconductors 2007 "1Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan" "Phys.Rev.B, 76(2007)064508"
150255 P076064527 "Authers say""[gamma] is 43.9 mJ/mol.K2, calculated from true SC volume"". Lattice term coeff. in SP = 5.4 mJ/mol.K4. e-ph = 0.68." Mg12Ir19B16 Mg12Ir19B16 Mg 12 Ir 19 B 16 2007 I-43m K 5.7 5.7 T 2.48 T/K 0.63 MHC150255 meV 0.94 3.82 14 mJ/mol.K2 57.7 253 SP-heat "Mg,Ir,B" "mixture - pellet - sealed in quartz(95%Ar + 5%H) - heat(600C,40min + 900C,80min) reground - ADD(execc upto 20%Mg) - heat(900C)" Possible nodeless superconductivity in the noncentrosymmetric superconductor Mg(12-delta)Ir19B16 2007 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100080, China" "Phys.Rev.B, 76(2007)064527"
150256 MRB0180067 "Th(Rh,Si)2" Th1Rh0.1Si1.9 Th 1 Rh 0.1 Si 1.9 1983 alpha-ThSi2 A 4.1106 14.1033 K 2.15 2.15 A new family of superconducting silicides: The ThMxSi2-x compounds (M = Rh or Ir with 0< x <1 of alpha-ThSi2-type structure 1983 "Mat.Res.Bull., 18(1983)67"
150257 MRB0180067 "Th(Rh,Si)2" Th1Rh0.85Si1.15 Th 1 Rh 0.85 Si 1.15 1983 alpha-ThSi2 A 4.1024 14.3974 K 5.48 5.48 MTC150257 A new family of superconducting silicides: The ThMxSi2-x compounds (M = Rh or Ir with 0< x <1 of alpha-ThSi2-type structure 1983 "Mat.Res.Bull., 18(1983)67"
150258 MRB0180067 "Th(Ir,Si)2" Th1Ir0.1Si1.9 Th 1 Ir 0.1 Si 1.9 1983 alpha-ThSi2 A 4.1167 14.0556 K 2.75 2.75 A new family of superconducting silicides: The ThMxSi2-x compounds (M = Rh or Ir with 0< x <1 of alpha-ThSi2-type structure 1983 "Mat.Res.Bull., 18(1983)67"
150259 MRB0180067 "Th(Ir,Si)2" Th1Ir0.75Si1.25 Th 1 Ir 0.75 Si 1.25 1983 alpha-ThSi2 A 4.1214 14.4048 K 3.82 3.82 MTC150259 A new family of superconducting silicides: The ThMxSi2-x compounds (M = Rh or Ir with 0< x <1 of alpha-ThSi2-type structure 1983 "Mat.Res.Bull., 18(1983)67"
150260 P076064504 400-days-aged(RT) sample. nominal sample (Tc=18.5 K). Gap & PENET obtained using model fitting of muon-SR. PuCoGa5 Pu1Co1Ga5 Pu 1 Co 1 Ga 5 3 2007 HoCoGa5 K 15 15 A muon-SR 4980 4.8 16 crystals were grown using excess Ga flux. c-axis normal to surface. Muon spin rotation measurements of the superfluid density in fresh and aged superconducting PuCoGa5 2007 "Japan Atomic Energy Agency, Tokai, Ibaraki 319-1195, Japan" "Phys.Rev.B, 76(2007)064504"
150261 MRB0180067 ThIrSi Th1Ir1Si1 Th 1 Ir 1 Si 1 1983 alpha-ThSi2 A 4.142 14.265 K 6.5 6.5 A new family of superconducting silicides: The ThMxSi2-x compounds (M = Rh or Ir with 0< x <1 of alpha-ThSi2-type structure 1983 "Mat.Res.Bull., 18(1983)67"
150262 MRB0180067 ThSi2 Si2Th1 Si 2 Th 1 1983 alpha-ThSi2 K 3.14 3.14 A new family of superconducting silicides: The ThMxSi2-x compounds (M = Rh or Ir with 0< x <1 of alpha-ThSi2-type structure 1983 "Mat.Res.Bull., 18(1983)67"
150264 SSC0410801 not SC down to 1.6 K. GdIrSi Gd1Ir1Si1 Gd 1 Ir 1 Si 1 1982 TiNiSi K 1.6 arc-melting "Crystal structure, superconducting and magnetic properties of new ternary silicides LaRhSi, LaIrSi and NdIrSi" 1982 "Solid State Commun., 41(1982)801"
150265 SSC0410801 not SC down to 1.6 K. TbIrSi Tb1Ir1Si1 Tb 1 Ir 1 Si 1 1982 TiNiSi K 1.6 arc-melting "Crystal structure, superconducting and magnetic properties of new ternary silicides LaRhSi, LaIrSi and NdIrSi" 1982 "Solid State Commun., 41(1982)801"
150266 SSC0410801 not SC down to 1.6 K. DyIrSi Dy1Ir1Si1 Dy 1 Ir 1 Si 1 1982 TiNiSi K 1.6 arc-melting "Crystal structure, superconducting and magnetic properties of new ternary silicides LaRhSi, LaIrSi and NdIrSi" 1982 "Solid State Commun., 41(1982)801"
150267 SSC0410801 not SC down to 1.6 K. HoIrSi Ho1Ir1Si1 Ho 1 Ir 1 Si 1 1982 TiNiSi K 1.6 arc-melting "Crystal structure, superconducting and magnetic properties of new ternary silicides LaRhSi, LaIrSi and NdIrSi" 1982 "Solid State Commun., 41(1982)801"
150268 SSC0410801 not SC down to 1.6 K. ErIrSi Er1Ir1Si1 Er 1 Ir 1 Si 1 1982 TiNiSi K 1.6 arc-melting "Crystal structure, superconducting and magnetic properties of new ternary silicides LaRhSi, LaIrSi and NdIrSi" 1982 "Solid State Commun., 41(1982)801"
150270 SSC0410801 not SC down to 1.6 K. YRhSi Y1Rh1Si1 Y 1 Rh 1 Si 1 1982 TiNiSi K 1.6 arc-melting "Crystal structure, superconducting and magnetic properties of new ternary silicides LaRhSi, LaIrSi and NdIrSi" 1982 "Solid State Commun., 41(1982)801"
150271 SSC0410801 not SC down to 1.6 K. GdRhSi Gd1Rh1Si1 Gd 1 Rh 1 Si 1 1982 TiNiSi K 1.6 arc-melting "Crystal structure, superconducting and magnetic properties of new ternary silicides LaRhSi, LaIrSi and NdIrSi" 1982 "Solid State Commun., 41(1982)801"
150272 SSC0410801 not SC down to 1.6 K. TbRhSi Tb1Rh1Si1 Tb 1 Rh 1 Si 1 1982 TiNiSi K 1.6 arc-melting "Crystal structure, superconducting and magnetic properties of new ternary silicides LaRhSi, LaIrSi and NdIrSi" 1982 "Solid State Commun., 41(1982)801"
150273 SSC0410801 not SC down to 1.6 K. DyRhSi Dy1Rh1Si1 Dy 1 Rh 1 Si 1 1982 TiNiSi K 1.6 arc-melting "Crystal structure, superconducting and magnetic properties of new ternary silicides LaRhSi, LaIrSi and NdIrSi" 1982 "Solid State Commun., 41(1982)801"
150274 SSC0410801 not SC down to 1.6 K. HoRhSi Ho1Rh1Si1 Ho 1 Rh 1 Si 1 1982 TiNiSi K 1.6 arc-melting "Crystal structure, superconducting and magnetic properties of new ternary silicides LaRhSi, LaIrSi and NdIrSi" 1982 "Solid State Commun., 41(1982)801"
150275 SSC0410801 not SC down to 1.6 K. ErRhSi Er1Rh1Si1 Er 1 Rh 1 Si 1 1982 TiNiSi K 1.6 arc-melting "Crystal structure, superconducting and magnetic properties of new ternary silicides LaRhSi, LaIrSi and NdIrSi" 1982 "Solid State Commun., 41(1982)801"
150276 SSC0410801 LaRhSi La1Rh1Si1 La 1 Rh 1 Si 1 1982 7.11 ZrOs P2<1>3 A 6.296 K 4.35 4.35 arc-melting "Crystal structure, superconducting and magnetic properties of new ternary silicides LaRhSi, LaIrSi and NdIrSi" 1982 "Solid State Commun., 41(1982)801"
150277 SSC0410801 LaIrSi La1Ir1Si1 La 1 Ir 1 Si 1 1982 9.18 ZrOs P2<1>3 A 6.337 K 2.3 2.3 arc-melting "Crystal structure, superconducting and magnetic properties of new ternary silicides LaRhSi, LaIrSi and NdIrSi" 1982 "Solid State Commun., 41(1982)801"
150278 SSC0410801 not SC down to 4.2 K. NdIrSi Nd1Ir1Si1 Nd 1 Ir 1 Si 1 1982 10 10.237 ZrOs P2<1>3 A 6.185 K 4.2 arc-melting "Crystal structure, superconducting and magnetic properties of new ternary silicides LaRhSi, LaIrSi and NdIrSi" 1982 "Solid State Commun., 41(1982)801"
150279 PHC1620407 gamma'-phase gamma'-Y5Os4Si15 Y5Os4Si15 Y 5 Os 4 Si 15 1989 K 10.8 10.8 K/GPa -0.58 "Superconductivity under hydrostatic pressure in RE5Os4Si15 compounds (RE = Y, Tb, Er)" 1989 "Physica C, 162-164(1989)407"
150280 PHC1620407 gamma'-phase gamma'-Er5Os4Si15 Er5Os4Si15 Er 5 Os 4 Si 15 1989 K 5.5 5.5 K/GPa -1.08 "Superconductivity under hydrostatic pressure in RE5Os4Si15 compounds (RE = Y, Tb, Er)" 1989 "Physica C, 162-164(1989)407"
150281 PHC1620407 gamma'-phase gamma'-Tb5Os4Si15 Tb5Os4Si15 Tb 5 Os 4 Si 15 1989 K 3.2 3.2 K/GPa -0.73 "Superconductivity under hydrostatic pressure in RE5Os4Si15 compounds (RE = Y, Tb, Er)" 1989 "Physica C, 162-164(1989)407"
150282 PHC1530485 gamma'-phase. Tc by inductive method. gamma'-Gd5Os4Si15 Gd5Os4Si15 Gd 5 Os 4 Si 15 1988 K 1.1 "arc-melting - ANN(1150C,1d, in vac)" Superconductivity in silicon-rich RE-OS-Si compounds 1988 "Physica C, 153-155(1988)485"
150283 PHC1530485 gamma'-phase. Tc by inductive method. gamma'-Tb5Os4Si15 Tb5Os4Si15 Tb 5 Os 4 Si 15 1988 K 3.2 3.2 "arc-melting - ANN(1150C,1d, in vac)" Superconductivity in silicon-rich RE-OS-Si compounds 1988 "Physica C, 153-155(1988)485"
150284 PHC1530485 gamma'-phase. Tc by inductive method. gamma'-Dy5Os4Si15 Dy5Os4Si15 Dy 5 Os 4 Si 15 1988 K 3.5 3.5 "arc-melting - ANN(1150C,1d, in vac)" Superconductivity in silicon-rich RE-OS-Si compounds 1988 "Physica C, 153-155(1988)485"
150285 PHC1530485 gamma'-phase. Tc by inductive method. gamma'-Ho5Os4Si15 Ho5Os4Si15 Ho 5 Os 4 Si 15 1988 K 4.5 4.5 "arc-melting - ANN(1150C,1d, in vac)" Superconductivity in silicon-rich RE-OS-Si compounds 1988 "Physica C, 153-155(1988)485"
150286 PHC1530485 gamma'-phase. Tc by inductive method. gamma'-Er5Os4Si15 Er5Os4Si15 Er 5 Os 4 Si 15 1988 K 5.5 5.5 "arc-melting - ANN(1150C,1d, in vac)" Superconductivity in silicon-rich RE-OS-Si compounds 1988 "Physica C, 153-155(1988)485"
150287 PHC1530485 gamma'-phase. Tc by inductive method. gamma'-Y5Os4Si15 Y5Os4Si15 Y 5 Os 4 Si 15 1988 K 10.8 10.8 "arc-melting - ANN(1150C,1d, in vac)" Superconductivity in silicon-rich RE-OS-Si compounds 1988 "Physica C, 153-155(1988)485"
150288 PHC1530485 beta'-phase beta'-Tb4Os4Si13 Tb4Os4Si13 Tb 4 Os 4 Si 13 1988 K 1.1 "arc-melting - ANN(1150C,1d, in vac)" Superconductivity in silicon-rich RE-OS-Si compounds 1988 "Physica C, 153-155(1988)485"
150289 PHC1530485 beta'-phase beta'-Dy4Os4Si13 Dy4Os4Si13 Dy 4 Os 4 Si 13 1988 K 1.1 "arc-melting - ANN(1150C,1d, in vac)" Superconductivity in silicon-rich RE-OS-Si compounds 1988 "Physica C, 153-155(1988)485"
150290 PHC1530485 beta'-phase beta'-Ho4Os4Si13 Ho4Os4Si13 Ho 4 Os 4 Si 13 1988 K 1.1 "arc-melting - ANN(1150C,1d, in vac)" Superconductivity in silicon-rich RE-OS-Si compounds 1988 "Physica C, 153-155(1988)485"
150291 PHC1530485 beta'-phase beta'-Er4Os4Si13 Er4Os4Si13 Er 4 Os 4 Si 13 1988 K 1.1 "arc-melting - ANN(1150C,1d, in vac)" Superconductivity in silicon-rich RE-OS-Si compounds 1988 "Physica C, 153-155(1988)485"
150292 PHC1530485 beta'-phase beta'-Tm4Os4Si13 Tm4Os4Si13 Tm 4 Os 4 Si 13 1988 K 2.6 2.6 "arc-melting - ANN(1150C,1d, in vac)" Superconductivity in silicon-rich RE-OS-Si compounds 1988 "Physica C, 153-155(1988)485"
150293 PHC1530485 beta'-phase beta'-Y4Os4Si13 Y4Os4Si13 Y 4 Os 4 Si 13 1988 K 9.8 9.8 "arc-melting - ANN(1150C,1d, in vac)" Superconductivity in silicon-rich RE-OS-Si compounds 1988 "Physica C, 153-155(1988)485"
150294 SCI1750884 superconducting for 0.1< x =<0.3 in LixTi1.1S2. LixTiS2 Li0.3Ti1.1S2 Li 0.3 Ti 1.1 S 2 1972 7 Ti3S4 A 3.439 11.511 K 13 13 ANN(600C) Superconductivity of double chalcogenides: LixTi1.1S2 1972 "Science, 175(1972)884"
150295 SCI1750884 TiS2 S2Ti1 S 2 Ti 1 1972 CdI2 K 45 1.12 45 ANN(600C) Superconductivity of double chalcogenides: LixTi1.1S2 1972 "Science, 175(1972)884"
150296 SCI2540826 "ANN(400C,12h) + ANN(430C,6h)" Rb2.7Tl2.2C60 Rb2.7Tl2.2C60 Rb 2.7 Tl 2.2 C 60 1991 fullerene K 23.2 23.2 Superconductivity at 45 K in Rb/Tl codoped C60 and C60/C70 mixtures 1991 "Science, 254(1991)826"
150297 SCI2540826 "ANN(400C,12h) + ANN(430C,16h)" K3Tl4.5C60 K3Tl4.5C60 K 3 Tl 4.5 C 60 1991 fullerene K Superconductivity at 45 K in Rb/Tl codoped C60 and C60/C70 mixtures 1991 "Science, 254(1991)826"
150298 PHB1350397 as-quenched. (dC/gamma*Tc) = 1.3 LaIr2Si2 La1Ir2Si2 La 1 Ir 2 Si 2 1 1985 CaBe2Ge2 A 4.188 9.94 pt(primitive tetragonal) K 1.56 1.56 mJ/gat.K2 1.7 SP heat 300 arc-melting Specific heat and bandstructure of two polymorphs of LaIr2Si2 1985 "Physica B, 135(1985)397"
150299 PHB1350397 "ANN(1000C,6d). not SC (Tc < 1.2)" LaIr2Si2 La1Ir2Si2 La 1 Ir 2 Si 2 1 1985 ThCr2Si2 A 4.107 10.292 bct(body centered tetragonal) K 1.2 mJ/gat.K2 0.9 SP heat 385 arc-melting Specific heat and bandstructure of two polymorphs of LaIr2Si2 1985 "Physica B, 135(1985)397"
150300 SSC0390797 Tc by ac method. (dTc/dP) determined from the least squares fit. AgSnSe2 Ag1Sn1Se2 Ag 1 Sn 1 Se 2 1981 NaCl K 4.66 0.02 4.66 K/GPa -0.73 Hydrostatic pressure effects on the superconducting properties of Ag1-xSn1+xSe2 1981 "Ames Laboratory, Iowa State University,Ames, IA" "Solid State Commun., 39(1981)797"
150301 SSC0390797 Tc by ac method. (dTc/dP) determined from the least squares fit. Ag1-xSn1+xSe2 Ag0.95Sn1.05Se2 Ag 0.95 Sn 1.05 Se 2 1981 NaCl K 5.21 0.01 5.21 K/GPa -0.756 Hydrostatic pressure effects on the superconducting properties of Ag1-xSn1+xSe2 1981 "Ames Laboratory, Iowa State University,Ames, IA" "Solid State Commun., 39(1981)797"
150302 SSC0390797 Tc by ac method. (dTc/dP) determined from the least squares fit. Ag1-xSn1+xSe2 Ag0.85Sn1.15Se2 Ag 0.85 Sn 1.15 Se 2 1981 NaCl K 6.12 0.08 6.12 K/GPa -0.767 Hydrostatic pressure effects on the superconducting properties of Ag1-xSn1+xSe2 1981 "Ames Laboratory, Iowa State University,Ames, IA" "Solid State Commun., 39(1981)797"
150303 SSC0390797 Tc by ac method. (dTc/dP) determined from the least squares fit. Ag1-xSn1+xSe2 Ag0.81Sn1.19Se2 Ag 0.81 Sn 1.19 Se 2 1981 NaCl K 6.36 0.03 6.36 K/GPa -0.784 Hydrostatic pressure effects on the superconducting properties of Ag1-xSn1+xSe2 1981 "Ames Laboratory, Iowa State University,Ames, IA" "Solid State Commun., 39(1981)797"
150304 SSC0390797 Tc by ac method. (dTc/dP) determined from the least squares fit. Ag1-xSn1+xSe2 Ag0.76Sn1.24Se2 Ag 0.76 Sn 1.24 Se 2 1981 NaCl K 6.72 0.1 6.72 K/GPa -0.68 Hydrostatic pressure effects on the superconducting properties of Ag1-xSn1+xSe2 1981 "Ames Laboratory, Iowa State University,Ames, IA" "Solid State Commun., 39(1981)797"
150305 PR0281389 "HT-phase(T>1750C)," LaIr2Si2 La1Ir2Si2 La 1 Ir 2 Si 2 1983 CaBe2Ge2 A 4.191 9.944 "CaBe2Ge2, tP10" K 1.58 0.18 1.58 "arc-melting - ANN(1000C,in vac)" Polymorphism and superconductivity of LaIr2Si2 1983 "Phys.Rev.B, 28(1983)1389"
150306 PR0281389 LT-phase(T < 1750C) LaIr2Si2 La1Ir2Si2 La 1 Ir 2 Si 2 1983 ThCr2Si2 A 4.109 10.299 "ThCr2Si2, tI10" K 1 "arc-melting - ANN(1000C,in vac)" Polymorphism and superconductivity of LaIr2Si2 1983 "Phys.Rev.B, 28(1983)1389"
150307 L099067006 nominal(U1.02Co1.02Ge). RRR = 25. Weak itinerant ferro. SP-heat & thermal expansion measured. UCoGe U1Co1Ge1 U 1 Co 1 Ge 1 2007 3 TiNiSi A 6.845 4.206 7.222 K 0.66 0.8 0.8 T/K 5.2 MHC150307 A from dHc2/dT 150 mJ/mol.K2 57 mOhm.cm 0.012 "arc-melting - ANN(850C,10d)" Superconductivity on the Border of Weak Itinerant Ferromagnetism in UCoGe 2007 "Van der Waals-Zeeman Institute, University of Amsterdam, Valckenierstraat 65, 1018 XE Amsterdam, The Netherlands" "Phys.Rev.Lett., 99(2007)067006"
150308 L099067006 nominal(U1.02CoGe). RRR = 10. SP-heat & thermal expansion measured. UCoGe U1Co1Ge1 U 1 Co 1 Ge 1 2007 TiNiSi K 0.45 0.45 T/K 7.2 MHC150307 A from dHc2/dT 200 "arc-melting - ANN(850C,10d)" Superconductivity on the Border of Weak Itinerant Ferromagnetism in UCoGe 2007 "Van der Waals-Zeeman Institute, University of Amsterdam, Valckenierstraat 65, 1018 XE Amsterdam, The Netherlands" "Phys.Rev.Lett., 99(2007)067006"
150309 P076092501 "Na,H-content not given. Mn-doping confiemed by EXAFS. (dTc/dz) = 0.64 K/%Mn" "Nax(Co,Mn)O2/yH2O" Na0.3Co0.995Mn0.005H2.6O3.3 Na 0.3 Co 0.995 Mn 0.005 H 2.6 O 3.3 2007 K 4.05 4.05 Effect of Mn impurities on the superconductivity in NaxCoO2 /yH2O 2007 "Institute of Physics, National Chiao Tung University, Hsinchu 300, Taiwan" "Phys.Rev.B, 76(2007)092501"
150310 P076092501 "Na,H-content not given. Mn-doping confiemed by EXAFS. (dTc/dz) = 0.64 K/%Mn" "Nax(Co,Mn)O2/yH2O" Na0.3Co0.985Mn0.015H2.6O3.3 Na 0.3 Co 0.985 Mn 0.015 H 2.6 O 3.3 2007 K 3.34 3.34 MTC150310 Effect of Mn impurities on the superconductivity in NaxCoO2 /yH2O 2007 "Institute of Physics, National Chiao Tung University, Hsinchu 300, Taiwan" "Phys.Rev.B, 76(2007)092501"
150311 P076094505 "(Ca,Na)2CuO2Cl2" Ca1.89Na0.11Cu1Cl2O2 Ca 1.89 Na 0.11 Cu 1 Cl 2 O 2 2007 T K 15.14 15.14 A from intrinsic SUS 4300 "precursor(Ca2CuO2Cl2) mixed with NaClO4, NaCl. Then high-pressure synthesis(1350-1700 C, 1.5h, P=40 -45 kbar)" In-plane magnetic penetration depth ramda in Ca2-xNaxCuO2Cl2: Role of the apical sites 2007 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 76(2007)094505"
150312 P076094505 PPENET = 3900 A from muon-SR. "(Ca,Na)2CuO2Cl2" Ca1.88Na0.12Cu1Cl2O2 Ca 1.88 Na 0.12 Cu 1 Cl 2 O 2 2007 T K 18.4 18.4 A from intrinsic SUS 4060 "precursor(Ca2CuO2Cl2) mixed with NaClO4, NaCl. Then high-pressure synthesis(1350-1700 C, 1.5h, P=40 -45 kbar)" In-plane magnetic penetration depth ramda in Ca2-xNaxCuO2Cl2: Role of the apical sites 2007 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 76(2007)094505"
150313 P076094505 "(Ca,Na)2CuO2Cl2" Ca1.85Na0.15Cu1Cl2O2 Ca 1.85 Na 0.15 Cu 1 Cl 2 O 2 2007 T K 23.45 23.45 A from intrinsic SUS 3210 "precursor(Ca2CuO2Cl2) mixed with NaClO4, NaCl. Then high-pressure synthesis(1350-1700 C, 1.5h, P=40 -45 kbar)" In-plane magnetic penetration depth ramda in Ca2-xNaxCuO2Cl2: Role of the apical sites 2007 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 76(2007)094505"
150314 P076094505 PPENET = 3170 A from muon-SR. "(Ca,Na)2CuO2Cl2" Ca1.82Na0.18Cu1Cl2O2 Ca 1.82 Na 0.18 Cu 1 Cl 2 O 2 2007 T K 27.11 27.11 A from intrinsic SUS 3170 "precursor(Ca2CuO2Cl2) mixed with NaClO4, NaCl. Then high-pressure synthesis(1350-1700 C, 1.5h, P=40 -45 kbar)" In-plane magnetic penetration depth ramda in Ca2-xNaxCuO2Cl2: Role of the apical sites 2007 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 76(2007)094505"
150315 P076094505 "(Ca,Na)2CuO2Cl2" Ca1.81Na0.19Cu1Cl2O2 Ca 1.81 Na 0.19 Cu 1 Cl 2 O 2 2007 T K 27.7 27.7 A from intrinsic SUS 3160 "precursor(Ca2CuO2Cl2) mixed with NaClO4, NaCl. Then high-pressure synthesis(1350-1700 C, 1.5h, P=40 -45 kbar)" In-plane magnetic penetration depth ramda in Ca2-xNaxCuO2Cl2: Role of the apical sites 2007 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 76(2007)094505"
150316 P076100506 Na-content (=0.26 - 0.28) estimated from lattice constant. NaxCoO2/1.3H2O Na0.3Co1H2.6O3.3 Na 0.3 Co 1 H 2.6 O 3.3 2007 K 4.8 4.8 MTC150316 "See Nature, 422(2003)53" Pressure dependence of the superconducting transition and electron correlations in NaxCoO2/1.3H2O 2007 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 76(2007)100506"
150317 P076104506 RRR = 1.3. lattice term of SP(beta) = 1.1 mJ/mol.K4. Field dependent SP measured. Li2Pd3B Li2Pd3B1 Li 2 Pd 3 B 1 2007 P4<3>32 K 6.95 6.95 mJ/mol.K2 9.3 mOhm.cm 0.115 Two stage arc-melting "Specific-heat studies of the spin-orbit interaction in noncentrosymmetric Li2(Pd1-xPtx)3B (x=0,0.5,1) superconductors" 2007 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 76(2007)104506"
150318 P076104506 RRR = 1.1. lattice term of SP(beta) = 0.95 mJ/mol.K4. Field dependent SP measured. "Li2(Pd,Pt)3B" Li2Pd1.5Pt1.5B1 Li 2 Pd 1.5 Pt 1.5 B 1 2007 P4<3>32 K 3.9 3.9 mJ/mol.K2 9.1 mOhm.cm 0.16 Two stage arc-melting "Specific-heat studies of the spin-orbit interaction in noncentrosymmetric Li2(Pd1-xPtx)3B (x=0,0.5,1) superconductors" 2007 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 76(2007)104506"
150319 P076104506 RRR = 1.2. lattice term of SP(beta) = 0.92 mJ/mol.K4. Field dependent SP measured. Li2Pt3B Li2Pt3B1 Li 2 Pt 3 B 1 2007 P4<3>32 K 2.56 2.56 mJ/mol.K2 9.3 mOhm.cm 0.105 Two stage arc-melting "Specific-heat studies of the spin-orbit interaction in noncentrosymmetric Li2(Pd1-xPtx)3B (x=0,0.5,1) superconductors" 2007 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 76(2007)104506"
150320 P076104508 2*Energy gap = (3.8-3.9) kTc by beak junction. 1H-CaAlSi Ca1Al1Si1 Ca 1 Al 1 Si 1 3 2007 AlB2 K 6.1 6.1 3.9 1 Superconducting energy gap from break-junction tunneling spectroscopy in the ternary silicide CaAlSi 2007 "Department of Physics and Mathematics, Aoyama-Gakuin University, Fuchinobe 5-10-1, Sagamihara, Kanagawa 229-8558, Japan" "Phys.Rev.B, 76(2007)104508"
150321 P076104508 super lattice (5H-type). 2*Energy gap = (3.8-4.2) kTc by beak junction. 5H-CaAlSi Ca1Al1Si1 Ca 1 Al 1 Si 1 3 2007 K 5.6 5.6 4.2 1 Superconducting energy gap from break-junction tunneling spectroscopy in the ternary silicide CaAlSi 2007 "Department of Physics and Mathematics, Aoyama-Gakuin University, Fuchinobe 5-10-1, Sagamihara, Kanagawa 229-8558, Japan" "Phys.Rev.B, 76(2007)104508"
150322 P076104508 super lattice (6H-type). 2*Energy gap = (4.4-4.9) kTc by beak junction. 6H-CaAlSi Ca1Al1Si1 Ca 1 Al 1 Si 1 3 2007 K 7.1 7.1 4.9 1 Superconducting energy gap from break-junction tunneling spectroscopy in the ternary silicide CaAlSi 2007 "Department of Physics and Mathematics, Aoyama-Gakuin University, Fuchinobe 5-10-1, Sagamihara, Kanagawa 229-8558, Japan" "Phys.Rev.B, 76(2007)104508"
150323 P074014517 6H-CaAlSi Ca1Al1Si1 Ca 1 Al 1 Si 1 3 2006 K 7.67 7.67 kOe 17.1 9.6 MHC150323 A 185 104 meV 1.74 5.25 14 mJ/mol.K2 5.07 SP-heat 323 single crystals grown by floating zone method under Ar. Correlation between crystal structures of CaAlSi with and without superlattice and superconducting properties 2006 "Department of Physics and Mathematics, Aoyama-Gakuin University, Sagamihara, Kanagawa 229-8558, Japan" "Phys.Rev.B, 74(2006)014517"
150324 P074014517 5H-CaAlSi Ca1Al1Si1 Ca 1 Al 1 Si 1 3 2006 K 5.68 5.68 kOe 14.6 7.3 MHC150324 A 212 106 meV 1.11 4.41 14 mJ/mol.K2 3.86 SP-heat 322 single crystals grown by floating zone method under Ar. Correlation between crystal structures of CaAlSi with and without superlattice and superconducting properties 2006 "Department of Physics and Mathematics, Aoyama-Gakuin University, Sagamihara, Kanagawa 229-8558, Japan" "Phys.Rev.B, 74(2006)014517"
150325 P074014517 1H-CaAlSi Ca1Al1Si1 Ca 1 Al 1 Si 1 3 2006 AlB2 P-6m2 A 4.196 4.414 K 6.5 6.5 kOe 4 3.7 MHC150325 A 298 276 meV 0.98 3.5 14 mJ/mol.K2 6.1 SP-heat 307 single crystals grown by floating zone method under Ar. Correlation between crystal structures of CaAlSi with and without superlattice and superconducting properties 2006 "Department of Physics and Mathematics, Aoyama-Gakuin University, Sagamihara, Kanagawa 229-8558, Japan" "Phys.Rev.B, 74(2006)014517"
150326 L094217002 x=0.12 by ICP. SP-heat measured for H//c-axis. gamma(H) increases linearly for H<0.7 T. (2*gap/kTc) = 4.6 - 5.2. (dC/gamma*Tc) = 1.8. (dC/Tc) = 1.79 mJ/mol.K2. beta-LixZrNCl Zr0.12N1Cl1 Zr 0.12 N 1 Cl 1 1 2005 K 12.7 12.7 T WHH model 5 5.2 14 mJ/mol.K2 1 SP-heat beta-ZrNCl prepared by CVT. Li-doping using n-butyl-Li solution in hexane. Specific Heat Measurement of the Layered Nitride Superconductor LixZrNCl 2005 "Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan" "Phys.Rev.Lett., 94(2005)217002"
150327 MURO-DR LaPdSi3 La1Pd1Si3 La 1 Pd 1 Si 3 2000 BaNiSn3 I4mm A 4.352 9.661 K 2.6 2.6 mJ/mol.K2 4.98 SP-heat 334 "Dr.Y.Muro, Dr-Thesis, Faculty of Science, University of Tokyo, in Japanese(2000)" 2000 "Dr.Thesis,Tokyo-u(2000)"
150328 P076132501 Aligned materials. Hc2(T) measured by SUS(subtracting impurity contribution). Pauli-limit = 8.3 T. Na0.33(H3O)0.02CoCo2/1.4H2O Na0.33H2.86Co1O3.42 Na 0.33 H 2.86 Co 1 O 3.42 2007 K 4.5 4.5 T extraporation 7.8 HC150328 "Na0.7CoO2 by solid state reaction. deintercalating, hydrated in NaCl at RT" Upper critical field of an aligned Nax(H3O)zCoO2/yH2O superconductor from magnetization measurements 2007 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 76(2007)132501"
150329 P076132512 "gap measured by photoemission spectroscopy. gap(0) = 0.6 and 2.1 meV, (2gap/kTc) = 2.1 and 7.2 for small and large gap, respectively." La2C3 C3La2 C 3 La 2 3 2007 Pu2C3 K 6.5 6.5 meV 2.1 7.2 9 grown by self-flux method Anomalous superconducting-gap symmetry of noncentrosymmetric La2C3 observed by ultrahigh-resolution photoemission spectroscopy 2007 "Department of Physics, Tohoku University, Sendai 980-8578, Japan" "Phys.Rev.B, 76(2007)132512"
150330 P076140502 "oz calculated from oz vs latc relation. optimaly doped sample. O-isotope exchange by ANN(650C,96h). confirmation by IR. Tc by SUS." "Bi2(Sr,La)2CuO6" Bi2Sr1.6La0.4Cu1O6.36 Bi 2 Sr 1.6 La 0.4 Cu 1 O 6+z 6.36 3 2007 Bi2201 I4/mmm A 5.4 24.33 K 31.2 31.2 0.25 O 80 0.79 TSFZ(traveling-solvent floating zone) "Oxygen isotope effect in Bi2Sr2Can-1CunO2n+4+z (n=1,2,3) single crystals" 2007 "Geophysical Laboratory, Carnegie Institution of Washington, Washington, DC 20015, USA" "Phys.Rev.B, 76(2007)140502"
150331 P076140502 "oz calculated from oz vs latc relation. optimaly doped sample. O-isotope exchange by ANN(650C,96h). confirmation by IR. Tc by SUS." Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8.12 Bi 2 Sr 2 Ca 1 Cu 2 O 8+z 8.12 3 2007 Bi2212 I4/mmm A 5.4 30.8 K 81.3 81.3 0.14 O 80 1.19 TSFZ(traveling-solvent floating zone) "Oxygen isotope effect in Bi2Sr2Can-1CunO2n+4+z (n=1,2,3) single crystals" 2007 "Geophysical Laboratory, Carnegie Institution of Washington, Washington, DC 20015, USA" "Phys.Rev.B, 76(2007)140502"
150332 P076140502 "oz calculated from oz vs latc relation. optimaly doped sample. O-isotope exchange by ANN(650C,96h). confirmation by IR. Tc by SUS." Bi2Sr2Ca2Cu3O10 Bi2Sr2Ca2Cu3O10.28 Bi 2 Sr 2 Ca 2 Cu 3 O 10+z 10.28 3 2007 Bi2223 I4/mmm A 5.4 37.07 K 108.7 108.7 0.02 O 80 0.27 TSFZ(traveling-solvent floating zone) "Oxygen isotope effect in Bi2Sr2Can-1CunO2n+4+z (n=1,2,3) single crystals" 2007 "Geophysical Laboratory, Carnegie Institution of Washington, Washington, DC 20015, USA" "Phys.Rev.B, 76(2007)140502"
150333 SSC1440419 Ti2InC Ti2In1C1 Ti 2 In 1 C 1 1 2007 Cr2AlC P6<3>/mmc A 3.132 14.06 H-phase K 2.9 3.1 3.1 0.2 3.1 "graphite,Ti,In" "mixture - pellet - sealed in quartz ampoule - heat(800C,24h) - reground - heat(800C,96h)" Superconductivity in the hexagonal-layered nanolaminates Ti2InC compound 2007 "Departamento de Engenharia de Materiais, Escola de Engenharia de Lorena - USP, P.O. Box 116, Lorena ? SP, 12600-970, Brazil" "Solid State Commun., 144(2007)419"
150334 P074174501 Nb2AsC Nb2As1C1 Nb 2 As 1 C 1 1 2006 Cr2AlC H-phase K 2 2 mJ/mol.K2 4.7 SP-heat 520 Electron-phonon coupling in Mn+1AXn-phase carbides 2006 "Department of Physics and Astronomy, Rowan University, Glassboro, New Jersey 08028, USA" "Phys.Rev.B, 74(2006)174501"
150335 L099107001 in-plane THC was measured. (THC/T) = a + b*T^2(p-1) = 0.355 mW/K2 with p=2.24. single gap s-wave SC. CuxTiSe2 Cu0.06Ti1Se2 Cu 0.06 Ti 1 Se 2 3 2007 K 2.3 2.3 T resistivity 0.52 0.52 0.08 MTHC150335 vapor transport method Single-gap s-wave superconductivity near the charge-density-wave quantum critical point in CuxTiSe2 2007 "Departement de physique and RQMP, Universite de Sherbrooke, Sherbrooke,Canada" "Phys.Rev.Lett., 99(2007)107001"
150336 L099217001 G-L = 24. Hc(0) = 53 mT. e-ph coupling = 0.7. (dC/Tc)=58. (dC/gamma*Tc) = 1.35. BaPt4Ge12 Ba1Pt4Ge12 Ba 1 Pt 4 Ge 12 2007 skutterudite A 8.6928 LaFe4Sb12 K 5.35 5.35 T 1.8 T/K 0.46 MHC150336 A 140 A 3200 3.6 mJ/mol.K2 42 247 "Ar arc melting - ANN(800C,2w, in quartz tube)" "Superconductivity in Novel Ge-Based Skutterudites: {Sr,Ba}Pt4Ge12" 2007 "Institute of Solid State Physics, Vienna University of Technology, A-1040 Wien, Austria" "Phys.Rev.Lett., 99(2007)217001"
150337 L099217001 G-L = 14. Hc(0) = 52 mT. e-ph coupling = 0.7. (dC/Tc)=57. (dC/gamma*Tc) = 1.35. SrPt4Ge12 Sr1Pt4Ge12 Sr 1 Pt 4 Ge 12 2007 skutterudite A 8.6601 LaFe4Sb12 K 5.1 5.1 T 1 T/K 0.275 MHC150337 A 180 A 2500 3.6 mJ/mol.K2 41 220 "Ar arc melting - ANN(800C,2w, in quartz tube)" "Superconductivity in Novel Ge-Based Skutterudites: {Sr,Ba}Pt4Ge12" 2007 "Institute of Solid State Physics, Vienna University of Technology, A-1040 Wien, Austria" "Phys.Rev.Lett., 99(2007)217001"
150338 P075104505 Cu-content by lat-C vs x calibration. I//ab. RRR=6.5. anisotropy factor = 1.7 at 0.35 K. G-L//ab = 25. G-L//c = 13.4. CuxTiSe2 Cu0.7Ti1Se2 Cu 0.7 Ti 1 Se 2 3 2007 1T-MX2 K 3.9 3.9 0.1 3.9 Oe 32 53 T 1.238 0.729 MHC150338 A 213 125 A 2850 5840 uOhm.cm 80 520 "Cl-vapor transport. CuCl2:TiSe2 = 0.10:1, in silica tube." Anisotropic properties of the layered superconductor Cu0.07TiSe2 2007 "Department of Chemistry, Princeton University, Princeton, New Jersey 08540, USA" "Phys.Rev.B, 75(2007)104505"
150339 L099217207 URu2Si2 U1Ru2Si2 U 1 Ru 2 Si 2 3 2007 ThCr2Si2 K 1.41 1.41 MTC150339 MHC150339 "single crystal were grown by Czochralski method. then ANN(900C,7d)" Competing Ordered Phases in URu2Si2: Hydrostatic Pressure and Rhenium Substitution 2007 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.Lett., 99(2007)217207"
150340 L094046401 URu2Si2 U1Ru2Si2 U 1 Ru 2 Si 2 1 2005 17.5 ThCr2Si2 K 1.5 1.5 Non-Fermi-Liquid Behavior within the Ferromagnetic Phase in URu2-xRexSi2 2005 "Department of Physics and Institute For Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.Lett., 94(2005)046401"
150341 L094046401 "U(Ru,Re)2Si2" U1Ru1.99Re0.01Si2 U 1 Ru 1.99 Re 0.01 Si 2 1 2005 13.5 ThCr2Si2 K 0.23 0.23 MPH150341 Non-Fermi-Liquid Behavior within the Ferromagnetic Phase in URu2-xRexSi2 2005 "Department of Physics and Institute For Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.Lett., 94(2005)046401"
150342 PHC4670009 ErNi2B2C Er1Ni2B2C1 Er 1 Ni 2 B 2 C 1 2007 uB/f.u 9.12 5.19 LuNi2B2C A 3.5004 10.558 K 10.23 10.23 "arc-melting. final annealing (1050C,72h, in evacuated quartz tube)" Superconductivity and magnetism in R(Ni-xFex)2B2C (R = Er and Tm) systems 2007 "Faculty of Engineering, University of Toyama, Toyama 930-8555, Japan" "Physica C, 467(2007)9"
150343 PHC4670009 "Er(Ni,Fe)2B2C" Er1Ni1.98Fe0.02B2C1 Er 1 Ni 1.98 Fe 0.02 B 2 C 1 2007 uB/f.u 9.08 5.6 LuNi2B2C A 3.503 10.562 K 10.27 10.27 "arc-melting. final annealing (1050C,72h, in evacuated quartz tube)" Superconductivity and magnetism in R(Ni-xFex)2B2C (R = Er and Tm) systems 2007 "Faculty of Engineering, University of Toyama, Toyama 930-8555, Japan" "Physica C, 467(2007)9"
150344 PHC4670009 "Er(Ni,Fe)2B2C" Er1Ni1.96Fe0.04B2C1 Er 1 Ni 1.96 Fe 0.04 B 2 C 1 2007 uB/f.u 8.95 5.48 LuNi2B2C A 3.4972 10.552 K 9.5 9.5 MTC150344 "arc-melting. final annealing (1050C,72h, in evacuated quartz tube)" Superconductivity and magnetism in R(Ni-xFex)2B2C (R = Er and Tm) systems 2007 "Faculty of Engineering, University of Toyama, Toyama 930-8555, Japan" "Physica C, 467(2007)9"
150345 PHC4670009 "Er(Ni,Fe)2B2C" Er1Ni1.94Fe0.06B2C1 Er 1 Ni 1.94 Fe 0.06 B 2 C 1 2007 uB/f.u 9 5.23 LuNi2B2C A 3.5001 10.562 K 8.5 8.5 "arc-melting. final annealing (1050C,72h, in evacuated quartz tube)" Superconductivity and magnetism in R(Ni-xFex)2B2C (R = Er and Tm) systems 2007 "Faculty of Engineering, University of Toyama, Toyama 930-8555, Japan" "Physica C, 467(2007)9"
150346 PHC4670009 "Er(Ni,Fe)2B2C" Er1Ni1.92Fe0.08B2C1 Er 1 Ni 1.92 Fe 0.08 B 2 C 1 2007 uB/f.u 8.97 5.11 LuNi2B2C A 3.5004 10.567 K 4.63 4.63 "arc-melting. final annealing (1050C,72h, in evacuated quartz tube)" Superconductivity and magnetism in R(Ni-xFex)2B2C (R = Er and Tm) systems 2007 "Faculty of Engineering, University of Toyama, Toyama 930-8555, Japan" "Physica C, 467(2007)9"
150347 PHC4670009 "Er(Ni,Fe)2B2C" Er1Ni1.9Fe0.1B2C1 Er 1 Ni 1.9 Fe 0.1 B 2 C 1 2007 uB/f.u 8.99 5.03 LuNi2B2C A 3.4972 10.552 K 4.31 4.31 "arc-melting. final annealing (1050C,72h, in evacuated quartz tube)" Superconductivity and magnetism in R(Ni-xFex)2B2C (R = Er and Tm) systems 2007 "Faculty of Engineering, University of Toyama, Toyama 930-8555, Japan" "Physica C, 467(2007)9"
150348 PHC4670009 "Er(Ni,Fe)2B2C" Er1Ni1.88Fe0.12B2C1 Er 1 Ni 1.88 Fe 0.12 B 2 C 1 2007 uB/f.u 9.05 4.91 LuNi2B2C A 3.5004 10.565 K 0 0 "arc-melting. final annealing (1050C,72h, in evacuated quartz tube)" Superconductivity and magnetism in R(Ni-xFex)2B2C (R = Er and Tm) systems 2007 "Faculty of Engineering, University of Toyama, Toyama 930-8555, Japan" "Physica C, 467(2007)9"
150349 PHC4670009 ErNi2B2C Tm1Ni2B2C1 Tm 1 Ni 2 B 2 C 1 2007 LuNi2B2C A 3.4849 10.5931 K 10.79 10.79 "arc-melting. final annealing (1050C,72h, in evacuated quartz tube)" Superconductivity and magnetism in R(Ni-xFex)2B2C (R = Er and Tm) systems 2007 "Faculty of Engineering, University of Toyama, Toyama 930-8555, Japan" "Physica C, 467(2007)9"
150350 PHC4670009 "Er(Ni,Fe)2B2C" Tm1Ni1.96Fe0.04B2C1 Tm 1 Ni 1.96 Fe 0.04 B 2 C 1 2007 LuNi2B2C A 3.4832 10.582 K 7.97 7.97 "arc-melting. final annealing (1050C,72h, in evacuated quartz tube)" Superconductivity and magnetism in R(Ni-xFex)2B2C (R = Er and Tm) systems 2007 "Faculty of Engineering, University of Toyama, Toyama 930-8555, Japan" "Physica C, 467(2007)9"
150351 PHC4670009 "Er(Ni,Fe)2B2C" Tm1Ni1.92Fe0.08B2C1 Tm 1 Ni 1.92 Fe 0.08 B 2 C 1 2007 LuNi2B2C A 3.4858 10.592 K 7.39 7.39 MTC150351 "arc-melting. final annealing (1050C,72h, in evacuated quartz tube)" Superconductivity and magnetism in R(Ni-xFex)2B2C (R = Er and Tm) systems 2007 "Faculty of Engineering, University of Toyama, Toyama 930-8555, Japan" "Physica C, 467(2007)9"
150352 PHC4670009 "Er(Ni,Fe)2B2C" Tm1Ni1.9Fe0.1B2C1 Tm 1 Ni 1.9 Fe 0.1 B 2 C 1 2007 LuNi2B2C A 3.48 10.576 K 6.64 6.64 "arc-melting. final annealing (1050C,72h, in evacuated quartz tube)" Superconductivity and magnetism in R(Ni-xFex)2B2C (R = Er and Tm) systems 2007 "Faculty of Engineering, University of Toyama, Toyama 930-8555, Japan" "Physica C, 467(2007)9"
150353 PHC4670009 "Er(Ni,Fe)2B2C" Tm1Ni1.88Fe0.12B2C1 Tm 1 Ni 1.88 Fe 0.12 B 2 C 1 2007 LuNi2B2C A 3.4842 10.586 K 5.52 5.52 "arc-melting. final annealing (1050C,72h, in evacuated quartz tube)" Superconductivity and magnetism in R(Ni-xFex)2B2C (R = Er and Tm) systems 2007 "Faculty of Engineering, University of Toyama, Toyama 930-8555, Japan" "Physica C, 467(2007)9"
150354 PHC4670009 "Er(Ni,Fe)2B2C" Tm1Ni1.84Fe0.16B2C1 Tm 1 Ni 1.84 Fe 0.16 B 2 C 1 2007 LuNi2B2C A 3.4781 10.579 K 3.99 3.99 "arc-melting. final annealing (1050C,72h, in evacuated quartz tube)" Superconductivity and magnetism in R(Ni-xFex)2B2C (R = Er and Tm) systems 2007 "Faculty of Engineering, University of Toyama, Toyama 930-8555, Japan" "Physica C, 467(2007)9"
150355 PHC4670009 "Er(Ni,Fe)2B2C" Tm1Ni1.8Fe0.2B2C1 Tm 1 Ni 1.8 Fe 0.2 B 2 C 1 2007 LuNi2B2C A 3.4781 10.578 K 0 0 "arc-melting. final annealing (1050C,72h, in evacuated quartz tube)" Superconductivity and magnetism in R(Ni-xFex)2B2C (R = Er and Tm) systems 2007 "Faculty of Engineering, University of Toyama, Toyama 930-8555, Japan" "Physica C, 467(2007)9"
150356 L100026404 "(dC/T) = 0.24 J/mol.K2 at Tc. (dC/gamma*Tc) = 2. lattice term, beta = 0.82 mJ/mol.K2. e-ph = 0.58. Hc2(T) = Hc2(0)[1-t^1.5]^1.5." Rh17S15 Rh17S15 Rh 17 S 15 1 2008 Pm3m A 9.9093 Miasite(mineral) K 5.4 5.4 T extraporation 23.5 MHC150356 MSP150356 mJ/mol.K2 104.8 uOhm.cm 26.7 MRH150356 "Rh(powder),S(powder)" "mixture - heat(950C, in evacuated quartz) - cool to RT(30C/h)" Strongly Correlated Superconductivity in Rh17S15 2008 "Tata Institute of Fundamental Research, Mumbai-400005, India" "Phys.Rev.Lett., 100(2008)026404"
150357 L100017003 "RRR=9.3. Energy gap measured by laser-PES. below Neel-T, gap deviate from BCS prediction." ErNi2B2C Er1Ni2B2C1 Er 1 Ni 2 B 2 C 1 3 2008 6 LuNi2B2C K 9.3 9.3 MGAP150357 meV 1.4 3.49 floating zone method Bulk Electronic Structure of the Antiferromagnetic Superconducting Phase in ErNi2B2C 2008 "Institute for Solid State Physics (ISSP), University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.Lett., 100(2008)017003"
150358 MRB0430009 not SC Mg6Ni16Si7 Mg6Ni16Si7 Mg 6 Ni 16 Si 7 1 2008 Mg6Cu16Si7 A 11.3164 K 0.3 "20% excess Mg, wrapped in Ta foil, heat(500C,1h + 900C,1h in 5%H2-95%Ar), cool to RT" "Crystal structure and physical properties of Mg6Cu16Si7-type M6Ni16Si7, for M = Mg, Sc, Ti, Nb, and Ta" 2008 "Department of Chemistry, Princeton University, Princeton, NJ 08540, USA" "Mater.Res.Bull., 43(2008)9"
150359 MRB0430009 not SC Sc6Ni16Si7 Sc6Ni16Si7 Sc 6 Ni 16 Si 7 1 2008 Mg6Cu16Si7 A 11.4442 K 0.3 arc-melting "Crystal structure and physical properties of Mg6Cu16Si7-type M6Ni16Si7, for M = Mg, Sc, Ti, Nb, and Ta" 2008 "Department of Chemistry, Princeton University, Princeton, NJ 08540, USA" "Mater.Res.Bull., 43(2008)9"
150360 MRB0430009 not SC Ti6Ni16Si7 Ti6Ni16Si7 Ti 6 Ni 16 Si 7 1 2008 Mg6Cu16Si7 A 11.2566 K 0.3 arc-melting "Crystal structure and physical properties of Mg6Cu16Si7-type M6Ni16Si7, for M = Mg, Sc, Ti, Nb, and Ta" 2008 "Department of Chemistry, Princeton University, Princeton, NJ 08540, USA" "Mater.Res.Bull., 43(2008)9"
150361 MRB0430009 not SC Nb6Ni16Si7 Nb6Ni16Si7 Nb 6 Ni 16 Si 7 1 2008 Mg6Cu16Si7 A 11.244 K 0.3 arc-melting "Crystal structure and physical properties of Mg6Cu16Si7-type M6Ni16Si7, for M = Mg, Sc, Ti, Nb, and Ta" 2008 "Department of Chemistry, Princeton University, Princeton, NJ 08540, USA" "Mater.Res.Bull., 43(2008)9"
150362 MRB0430009 not SC Ta6Ni16Si7 Ta6Ni16Si7 Ta 6 Ni 16 Si 7 1 2008 Mg6Cu16Si7 A 11.2168 K 0.3 arc-melting "Crystal structure and physical properties of Mg6Cu16Si7-type M6Ni16Si7, for M = Mg, Sc, Ti, Nb, and Ta" 2008 "Department of Chemistry, Princeton University, Princeton, NJ 08540, USA" "Mater.Res.Bull., 43(2008)9"
150363 L100017002 "SP-heat(relaxation type), R(ac-method),Tc from SP-heat.RR = 5.3 uOhm.cm, RRR = 177, (dC/gamma*Tc) = 1.49." LaPt4Ge12 La1Pt4Ge12 La 1 Pt 4 Ge 12 2008 skutterudite A 8.6235 LaFe4P12 K 8.27 8.27 T 1.6 MHC150363 1.94 mJ/mol.K2 76 SP-heat 209 SP-heat "arc-melting - ANN(800C,7d, in sealed Ta ampoule)" Superconductivity in the Platinum Germanides MPt4Ge12 (M = Rare-Earth or Alkaline-Earth Metal) with Filled Skutterudite Structure 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Str. 40, 01187 Dresden, Germany" "Phys.Rev.Lett., 100(2008)017002"
150364 L100017002 "SP-heat(relaxation type), R(ac-method),Tc from SP-heat.RR = 2.6 uOhm.cm, RRR = 110, (dC/gamma*Tc) = 1.56." PrPt4Ge12 Pr1Pt4Ge12 Pr 1 Pt 4 Ge 12 2008 uB/Pr 3.67 -16.4 skutterudite A 8.6111 LaFe4P12 K 7.91 7.91 T 2.06 2.35 mJ/mol.K2 87 SP-heat 198 SP-heat "arc-melting - ANN(800C,7d, in sealed Ta ampoule)" Superconductivity in the Platinum Germanides MPt4Ge12 (M = Rare-Earth or Alkaline-Earth Metal) with Filled Skutterudite Structure 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Str. 40, 01187 Dresden, Germany" "Phys.Rev.Lett., 100(2008)017002"
150365 L100017002 "SP-heat(relaxation type), R(ac-method),Tc from SP-heat.RR = 50 uOhm.cm, RRR = 239, (dC/gamma*Tc) = 1.13." SrPt4Ge12 Sr1Pt4Ge12 Sr 1 Pt 4 Ge 12 2008 skutterudite A 8.6509 LaFe4P12 K 5.4 5.4 198 SP-heat "arc-melting - ANN(800C,7d, in sealed Ta ampoule)" Superconductivity in the Platinum Germanides MPt4Ge12 (M = Rare-Earth or Alkaline-Earth Metal) with Filled Skutterudite Structure 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Str. 40, 01187 Dresden, Germany" "Phys.Rev.Lett., 100(2008)017002"
150366 L100017002 "SP-heat(relaxation type), R(ac-method),Tc from SP-heat.RR = 36 uOhm.cm, RRR = 191, (dC/gamma*Tc) = 1.17." BaPt4Ge12 Ba1Pt4Ge12 Ba 1 Pt 4 Ge 12 2008 skutterudite A 8.6838 LaFe4P12 K 5 5 209 SP-heat "arc-melting - ANN(800C,7d, in sealed Ta ampoule)" Superconductivity in the Platinum Germanides MPt4Ge12 (M = Rare-Earth or Alkaline-Earth Metal) with Filled Skutterudite Structure 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Str. 40, 01187 Dresden, Germany" "Phys.Rev.Lett., 100(2008)017002"
150367 PHC2240001 Tc defined as Tc(on). Impurity phase detected. "(Hg,Cr)Sr2CuO4" Hg0.9Cr0.1Sr2Cu1O4 Hg 0.9 Cr 0.1 Sr 2 Cu 1 O 4 1994 Hg1201 K 62.3 62.3 "HgO,SrCO3,CuO,Cr2O3" "SrCo3+CuO+Cr2O3-mix and CAL(950C,24H)-mix with HgO-pellet-SIN(880C,8H in evacuated quartq am poule)-Q to RT" "A new mercury-based superconductor : (Hg,Cr)Sr2CuOz" 1994 "Department of Industrial Chemistry,University of Tokyo,Hongo,Bunkyo-ku,Tokyo,Japan" "Physica C, 224(1994)1-5" "Hg,Cr,Sr,Cu,O"
150368 PHC2240001 Tc defined as Tc(on). Impurity phase detected. "(Hg,Cr)Sr2CuO4" Hg0.2Cr0.8Sr2Cu1O4 Hg 0.2 Cr 0.8 Sr 2 Cu 1 O 4 1994 Hg1201 K 53.6 53.6 "HgO,SrCO3,CuO,Cr2O3" "SrCo3+CuO+Cr2O3-mix and CAL(950C,24H)-mix with HgO-pellet-SIN(880C,8H in evacuated quartq am poule)-Q to RT" "A new mercury-based superconductor : (Hg,Cr)Sr2CuOz" 1994 "Department of Industrial Chemistry,University of Tokyo,Hongo,Bunkyo-ku,Tokyo,Japan" "Physica C, 224(1994)1-5" "Hg,Cr,Sr,Cu,O"
150369 PHC4670174 MOMENT shows remanent momentb per Ru. "RuSr2(Gd,Ce)2Cu2Oz" Ru1Sr2Gd1.4Ce0.6Cu2Oz Ru 1 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O z 1 2007 uB/Ru 0.48 Ru1222 A 3.827 28.37 K 20 20 "RuO2,Gd2O3,SnO2,CeO2,SrCO3,CuO" 1 "mixture - heat(600C,48h,in air + 1000C,24h,in flowing O2) - reground - SIN(1060C,96h,in flowing O2) - ANN(350C,48h,in flowing O2)" Superconducting and magnetic properties of Sn-doped Ru-1222 2007 "Institute of Solid State Physics, Bulgarian Academy of Sciences, bd. Tsarigradsko Chaussee 72, 1784 Sofia, Bulgaria" "Physica C, 467(2007)174"
150370 PHC4670174 MOMENT shows remanent momentb per Ru. "RuSr2(Gd,Ce)2Cu2Oz" Ru0.97Sn0.03Sr2Gd1.4Ce0.6Cu2Oz Ru 0.97 Sn 0.03 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O z 1 2007 uB/Ru 0.39 5.4 Ru1222 A 3.827 28.53 K 35 35 "RuO2,Gd2O3,SnO2,CeO2,SrCO3,CuO" 1 "mixture - heat(600C,48h,in air + 1000C,24h,in flowing O2) - reground - SIN(1060C,96h,in flowing O2) - ANN(350C,48h,in flowing O2)" Superconducting and magnetic properties of Sn-doped Ru-1222 2007 "Institute of Solid State Physics, Bulgarian Academy of Sciences, bd. Tsarigradsko Chaussee 72, 1784 Sofia, Bulgaria" "Physica C, 467(2007)174"
150371 PHC4670174 "(Ru,Sn)Sr2(Gd,Ce)2Cu2Oz" Ru0.95Sn0.05Sr2Gd1.4Ce0.6Cu2Oz Ru 0.95 Sn 0.05 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O z 1 2007 Ru1222 A 3.846 28.69 K 24 24 "RuO2,Gd2O3,SnO2,CeO2,SrCO3,CuO" 1 "mixture - heat(600C,48h,in air + 1000C,24h,in flowing O2) - reground - SIN(1060C,96h,in flowing O2) - ANN(350C,48h,in flowing O2)" Superconducting and magnetic properties of Sn-doped Ru-1222 2007 "Institute of Solid State Physics, Bulgarian Academy of Sciences, bd. Tsarigradsko Chaussee 72, 1784 Sofia, Bulgaria" "Physica C, 467(2007)174"
150372 PHC4670174 not SC. MOMENT shows remanent momentb per Ru. "(Ru,Sn)Sr2(Gd,Ce)2Cu2Oz" Ru0.9Sn0.1Sr2Gd1.4Ce0.6Cu2Oz Ru 0.9 Sn 0.1 Sr 2 Gd 1.4 Ce 0.6 Cu 2 O z 1 2007 uB/Ru 0.24 6.12 Ru1222 A 3.808 28.22 K 2 "RuO2,Gd2O3,SnO2,CeO2,SrCO3,CuO" 1 "mixture - heat(600C,48h,in air + 1000C,24h,in flowing O2) - reground - SIN(1060C,96h,in flowing O2) - ANN(350C,48h,in flowing O2)" Superconducting and magnetic properties of Sn-doped Ru-1222 2007 "Institute of Solid State Physics, Bulgarian Academy of Sciences, bd. Tsarigradsko Chaussee 72, 1784 Sofia, Bulgaria" "Physica C, 467(2007)174"
150373 P076212504 "SP-heat for 0.60.1 in La2-xYbxCuO4 "(La,Tb)2CuO4" La1.67Tb0.33Cu1O4+z La 1.67 Tb 0.33 Cu 1 O 4+z 4 2005 T' K 12 12 molecular beam epitaxy on SrTiO3 at 650 C(Tsub) using coevaporation of metal targets New class of T'-structure cuprate superconductors 2005 "NTT Basic Research Laboratories, 3-1 Morinosato, Atsugi, Kanagawa 243, Japan" "Solid State Commun., 133(2005)427"
150381 L098067002 Tc(max) = 15.1 K at P = 7.5 GPa. CaC6 C6Ca1 C 6 Ca 1 2007 GIC K 11.6 11.6 MTC150381 K/GPa 0.5 Enhancement of Superconductivity and Evidence of Structural Instability in Intercalated Graphite CaC6 under High Pressure 2007 "Department of Advanced Materials Science, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.Lett., 98(2007)067002"
150382 P076212508 slightly under doped. single crystals aligned under magnetic field. Anisotropy factor = 48.3. Hirr(T) fitting using two fluid model. HgBa2Ca4Cu5Oz Hg1Ba2Ca4Cu5Oz Hg 1 Ba 2 Ca 4 Cu 5 O z 1 2007 Hg1245 K 100 100 HIR150374 Coexistence of superconductivity and antiferromagnetism in HgBa2Ca4Cu5Oy: Multiharmonic susceptibility and vortex dynamics study 2007 "National Institute of Advanced Industrial Science and Technology, Tsukuba 305-8568, Japan" "Phys.Rev.B, 76(2007)212508"
150383 P076212508 underdoped sample. single crystals aligned under magnetic field. Hirr(T) fitting using two fluid model. HgBa2Ca4Cu5Oz Hg1Ba2Ca4Cu5Oz Hg 1 Ba 2 Ca 4 Cu 5 O z 1 2007 Hg1245 K 87 87 HIR150374 Coexistence of superconductivity and antiferromagnetism in HgBa2Ca4Cu5Oy: Multiharmonic susceptibility and vortex dynamics study 2007 "National Institute of Advanced Industrial Science and Technology, Tsukuba 305-8568, Japan" "Phys.Rev.B, 76(2007)212508"
150384 PR06112447 "thin films, thickness = 150-4500 A. high Tc(= 44 K) due to strain effect from lattice mismatch. Tc depends on lat-c: dTc/dc = 200 K/A." "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 4 2000 T K 44 44 coevaporation from metal sources. T(sub) = 650-750 C. substrate = (001)LaSrAlO3. growth rate = 0.5-3 A/s. cooled in O2. "La2-xSrxCuOy epitaxial thin films (x = 0 to 2): Structure, strain, and superconductivity" 2000 "NTT Basic Research Laboratories, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B, 61(2000)12447"
150385 PR06112447 "thin film (d = 170 A). Tc depends on RESN: for RESN=31 uOhm.cm, Tc < 4.2 K." "(La,Sr)2CuO4" La1.7Sr0.3Cu1O4 La 1.7 Sr 0.3 Cu 1 O 4 4 2000 T K 16 16 uOhm.cm 16 coevaporation from metal sources. T(sub) = 650-750 C. substrate = (001)LaSrAlO3. growth rate = 0.5-3 A/s. cooled in O2. "La2-xSrxCuOy epitaxial thin films (x = 0 to 2): Structure, strain, and superconductivity" 2000 "NTT Basic Research Laboratories, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan" "Phys.Rev.B, 61(2000)12447"
150386 MRB0100889 RuB2 B2Ru1 B 2 Ru 1 1 1975 3 RuB2 K 1.6 1.6 arc melting Superconductivity of some binary and ternary transition-metal borides 1975 "Bell Lab, Murray Hill, New Jersey, USA" "Mat.Res.Bull., 10(1975)889"
150387 MRB0100889 OsB2 B2Os1 B 2 Os 1 1 1975 3 RuB2 K 2.1 2.1 arc melting Superconductivity of some binary and ternary transition-metal borides 1975 "Bell Lab, Murray Hill, New Jersey, USA" "Mat.Res.Bull., 10(1975)889"
150388 MRB0100889 Rh7B3 B3Rh7 B 3 Rh 7 1 1975 Th7Fe3 hexagonal K 0.35 arc melting Superconductivity of some binary and ternary transition-metal borides 1975 "Bell Lab, Murray Hill, New Jersey, USA" "Mat.Res.Bull., 10(1975)889"
150389 MRB0100889 RuB1.1 B1.1Ru1 B 1.1 Ru 1 1 1975 WC hexagonal K 1.1 arc melting Superconductivity of some binary and ternary transition-metal borides 1975 "Bell Lab, Murray Hill, New Jersey, USA" "Mat.Res.Bull., 10(1975)889"
150390 MRB0100889 NbB B1Nb1 B 1 Nb 1 1 1975 CrB orthorhombic K 1.1 arc melting Superconductivity of some binary and ternary transition-metal borides 1975 "Bell Lab, Murray Hill, New Jersey, USA" "Mat.Res.Bull., 10(1975)889"
150391 MRB0100889 LaB6 B6La1 B 6 La 1 1 1975 cubic K 0.45 0.45 arc melting Superconductivity of some binary and ternary transition-metal borides 1975 "Bell Lab, Murray Hill, New Jersey, USA" "Mat.Res.Bull., 10(1975)889"
150392 MRB0100889 MoB2.5 B2.5Mo1 B 2.5 Mo 1 1 1975 AlB2 hexagonal K 8.1 8.1 arc melting Superconductivity of some binary and ternary transition-metal borides 1975 "Bell Lab, Murray Hill, New Jersey, USA" "Mat.Res.Bull., 10(1975)889"
150393 MRB0100889 e/a ratio = 6.5 Ru7B3 B3Ru7 B 3 Ru 7 1975 Th7Fe3 hexagonal K 3.38 3.38 arc melting Superconductivity of some binary and ternary transition-metal borides 1975 "Bell Lab, Murray Hill, New Jersey, USA" "Mat.Res.Bull., 10(1975)889"
150394 MRB0100889 e/a ratio = 5.8 Re7B3 B3Re7 B 3 Re 7 1975 Th7Fe3 hexagonal K 3.08 3.08 arc melting Superconductivity of some binary and ternary transition-metal borides 1975 "Bell Lab, Murray Hill, New Jersey, USA" "Mat.Res.Bull., 10(1975)889"
150395 MRB0100889 e/a ratio = 5.0 V2IrB2 V2Ir1B2 V 2 Ir 1 B 2 1975 Mo2IrB2 A 9.221 7.145 3.126 orthorhombic K 1.12 1.12 arc melting Superconductivity of some binary and ternary transition-metal borides 1975 "Bell Lab, Murray Hill, New Jersey, USA" "Mat.Res.Bull., 10(1975)889"
150396 MRB0100889 e/a ratio = 5.4 Mo2IrB2 Mo2Ir1B2 Mo 2 Ir 1 B 2 1975 Mo2IrB2 A 9.422 7.356 3.231 orthorhombic K 3.6 3.6 arc melting Superconductivity of some binary and ternary transition-metal borides 1975 "Bell Lab, Murray Hill, New Jersey, USA" "Mat.Res.Bull., 10(1975)889"
150397 MRB0100889 e/a ratio = 5.3 "(Mo,Ru)3B2" Mo1.75Ru1.25B2 Mo 1.75 Ru 1.25 B 2 1975 Mo2IrB2 A 9.599 7.48 3.094 orthorhombic K 3.7 3.7 arc melting Superconductivity of some binary and ternary transition-metal borides 1975 "Bell Lab, Murray Hill, New Jersey, USA" "Mat.Res.Bull., 10(1975)889"
150398 MRB0100889 e/a ratio = 5.3 "(W,Ru)3B2" W1.75Ru1.25B2 W 1.75 Ru 1.25 B 2 1975 Mo2IrB2 A 9.579 7.459 3.072 orthorhombic K 3.38 3.38 arc melting Superconductivity of some binary and ternary transition-metal borides 1975 "Bell Lab, Murray Hill, New Jersey, USA" "Mat.Res.Bull., 10(1975)889"
150399 MTL0620659 "(Cu,Tl)Ba2Ca(Cu,Zn)3O10" Tl0.5Ba2Ca2Cu1Zn2.5O10-z Tl 0.5 Ba 2 Ca 2 Cu 1 Zn 2.5 O 10-z 2008 2 Cu1223 A 3.879 14.581 "(Cu,Tl)-1223" K 120 120 "two step synthesis. precursor(Cu-Ba-Ca-Mg-Cu-Zn-O) - ADD(Tl2O3) - wrapped in Au-foil - SIN(860C,10min) - Q to RT" Enhanced superconductivity by Mg doping in Cu1-xTlxBa2Ca2-yMgyCu0.5Zn2.5O10-z 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Mater.Lett., 62(2008)659"
150400 MTL0620659 Mg at Ca-site. "(Cu,Tl)Ba2(Ca2-xMgx)(Cu,Zn)3O10" Tl0.5Ba2Ca1.5Mg0.5Cu1Zn2.5O10-z Tl 0.5 Ba 2 Ca 1.5 Mg 0.5 Cu 1 Zn 2.5 O 10-z 2008 2 Cu1223 "(Cu,Tl)-1223" K 100 100 "two step synthesis. precursor(Cu-Ba-Ca-Mg-Cu-Zn-O) - ADD(Tl2O3) - wrapped in Au-foil - SIN(860C,10min) - Q to RT" Enhanced superconductivity by Mg doping in Cu1-xTlxBa2Ca2-yMgyCu0.5Zn2.5O10-z 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Mater.Lett., 62(2008)659"
150401 MTL0620659 Mg at Ca-site. "(Cu,Tl)Ba2(Ca2-xMgx)(Cu,Zn)3O10" Tl0.5Ba2Ca1Mg1Cu1Zn2.5O10-z Tl 0.5 Ba 2 Ca 1 Mg 1 Cu 1 Zn 2.5 O 10-z 2008 2 Cu1223 "(Cu,Tl)-1223" K 112 112 "two step synthesis. precursor(Cu-Ba-Ca-Mg-Cu-Zn-O) - ADD(Tl2O3) - wrapped in Au-foil - SIN(860C,10min) - Q to RT" Enhanced superconductivity by Mg doping in Cu1-xTlxBa2Ca2-yMgyCu0.5Zn2.5O10-z 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Mater.Lett., 62(2008)659"
150402 MTL0620659 Mg at Ca-site. "(Cu,Tl)Ba2(Ca2-xMgx)(Cu,Zn)3O10" Tl0.5Ba2Ca0.5Mg1.5Cu1Zn2.5O10-z Tl 0.5 Ba 2 Ca 0.5 Mg 1.5 Cu 1 Zn 2.5 O 10-z 2008 2 Cu1223 A 3.3439 14.3723 "(Cu,Tl)-1223" K 115 115 "two step synthesis. precursor(Cu-Ba-Ca-Mg-Cu-Zn-O) - ADD(Tl2O3) - wrapped in Au-foil - SIN(860C,10min) - Q to RT" Enhanced superconductivity by Mg doping in Cu1-xTlxBa2Ca2-yMgyCu0.5Zn2.5O10-z 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Mater.Lett., 62(2008)659"
150403 SSC1450475 Pd2HfAl Pd2Hf1Al1 Pd 2 Hf 1 Al 1 1 2008 Heusler "L2<1>, Cu2MnAl" K 3.4 3.4 "arc-melting - ANN(1073K,7d, in evacuated quartz tube)" Electronic and structural properties of palladium-based Heusler superconductors 2008 "Institut fur Anorganische Chemie und Analytische Chemie, Johannes Gutenberg-Universitat Mainz, D-55099 Mainz, Germany" "Solid State.Commun., 145(2008)475"
150404 SSC1450475 Pd2ZrAl Pd2Zr1Al1 Pd 2 Zr 1 Al 1 1 2008 Heusler "L2<1>, Cu2MnAl" K 3.2 3.2 "arc-melting - ANN(1073K,7d, in evacuated quartz tube)" Electronic and structural properties of palladium-based Heusler superconductors 2008 "Institut fur Anorganische Chemie und Analytische Chemie, Johannes Gutenberg-Universitat Mainz, D-55099 Mainz, Germany" "Solid State.Commun., 145(2008)475"
150405 SSC1450493 not SC down to 80 mK. BaC6 Ba1C6 Ba 1 C 6 2008 -0.0151 7 GIC P6<3>/mmc K 0.08 "vapor transport technique, 500C,8h," Absence of superconductivity down to 80 mK in graphite intercalated BaC6 2008 "Service de Physique de l'Etat Condense, CEA-Saclay, 91191 Gif sur Yvette, France" "Solid State.Commun., 145(2008)493"
150406 MRB0422057 nominal(Bi:Pb:Sr:Ca:Cu:Nd = 1.7:0.4:2.0:1.1:2.1:x ) x = 0. Jc(64K) = 100 A/cm2. RRR = 3.27. . "(Bi,Pb)2Sr2CaCu2NdxOz" Bi1.7Pb0.4Sr2Ca1.1Cu2.1Oz Bi 1.7 Pb 0.4 Sr 2 Ca 1.1 Cu 2.1 O z 2007 Bi2212 K 67.8 76.6 72.2 uOhm.cm 8.35 "mixture - pellet (under uniaxial stress = 500 MPa) - heat(845 C,100h)" "Structural and superconducting properties of neodymium added (Bi,Pb)2Sr2CaCu2Oy" 2007 "Regional Research Laboratory (CSIR), Trivandrum, Kerala 695019, India" "Mater.Res.Bull., 42(2007)2057"
150407 MRB0422057 nominal(Bi:Pb:Sr:Ca:Cu:Nd = 1.7:0.4:2.0:1.1:2.1:x ) x = 0.1. Jc(64K) = 405 A/cm2. RRR = 2.29. Nd maybe replaced by Ca "(Bi,Pb)2Sr2CaCu2NdxOz" Bi1.7Pb0.4Sr2Ca1.1Cu2.1Nd0.1Oz Bi 1.7 Pb 0.4 Sr 2 Ca 1.1 Cu 2.1 Nd 0.1 O z 2007 Bi2212 K 75.6 90.7 83.15 uOhm.cm 16.65 "mixture - pellet (under uniaxial stress = 500 MPa) - heat(845 C,100h)" "Structural and superconducting properties of neodymium added (Bi,Pb)2Sr2CaCu2Oy" 2007 "Regional Research Laboratory (CSIR), Trivandrum, Kerala 695019, India" "Mater.Res.Bull., 42(2007)2057"
150408 MRB0422057 nominal(Bi:Pb:Sr:Ca:Cu:Nd = 1.7:0.4:2.0:1.1:2.1:x ) x = 0.2. Jc(64K) = 717 A/cm2. RRR = 1.92. Nd maybe replaced by Ca "(Bi,Pb)2Sr2CaCu2NdxOz" Bi1.7Pb0.4Sr2Ca1.1Cu2.1Nd0.2Oz Bi 1.7 Pb 0.4 Sr 2 Ca 1.1 Cu 2.1 Nd 0.2 O z 2007 Bi2212 K 80.9 94.4 87.65 uOhm.cm 29.51 "mixture - pellet (under uniaxial stress = 500 MPa) - heat(845 C,100h)" "Structural and superconducting properties of neodymium added (Bi,Pb)2Sr2CaCu2Oy" 2007 "Regional Research Laboratory (CSIR), Trivandrum, Kerala 695019, India" "Mater.Res.Bull., 42(2007)2057"
150409 MRB0422057 nominal(Bi:Pb:Sr:Ca:Cu:Nd = 1.7:0.4:2.0:1.1:2.1:x ) x = 0.3. Jc(64K) = 462 A/cm2. RRR = 1.83. Nd maybe replaced by Ca "(Bi,Pb)2Sr2CaCu2NdxOz" Bi1.7Pb0.4Sr2Ca1.1Cu2.1Nd0.3Oz Bi 1.7 Pb 0.4 Sr 2 Ca 1.1 Cu 2.1 Nd 0.3 O z 2007 Bi2212 K 81.1 95.5 88.3 uOhm.cm 54.48 "mixture - pellet (under uniaxial stress = 500 MPa) - heat(845 C,100h)" "Structural and superconducting properties of neodymium added (Bi,Pb)2Sr2CaCu2Oy" 2007 "Regional Research Laboratory (CSIR), Trivandrum, Kerala 695019, India" "Mater.Res.Bull., 42(2007)2057"
150410 MRB0422057 nominal(Bi:Pb:Sr:Ca:Cu:Nd = 1.7:0.4:2.0:1.1:2.1:x ) x = 0.4. Jc(64K) = 355 A/cm2. RRR = 1.56. Nd maybe replaced by Ca "(Bi,Pb)2Sr2CaCu2NdxOz" Bi1.7Pb0.4Sr2Ca1.1Cu2.1Nd0.4Oz Bi 1.7 Pb 0.4 Sr 2 Ca 1.1 Cu 2.1 Nd 0.4 O z 2007 Bi2212 K 80.5 95.3 87.9 uOhm.cm 79.38 "mixture - pellet (under uniaxial stress = 500 MPa) - heat(845 C,100h)" "Structural and superconducting properties of neodymium added (Bi,Pb)2Sr2CaCu2Oy" 2007 "Regional Research Laboratory (CSIR), Trivandrum, Kerala 695019, India" "Mater.Res.Bull., 42(2007)2057"
150411 MRB0422057 nominal(Bi:Pb:Sr:Ca:Cu:Nd = 1.7:0.4:2.0:1.1:2.1:x ) x = 0.5. Jc(64K) = 147 A/cm2. RRR = 1.41. Nd maybe replaced by Ca "(Bi,Pb)2Sr2CaCu2NdxOz" Bi1.7Pb0.4Sr2Ca1.1Cu2.1Nd0.5Oz Bi 1.7 Pb 0.4 Sr 2 Ca 1.1 Cu 2.1 Nd 0.5 O z 2007 Bi2212 K 76.2 95.1 85.65 uOhm.cm 81.69 "mixture - pellet (under uniaxial stress = 500 MPa) - heat(845 C,100h)" "Structural and superconducting properties of neodymium added (Bi,Pb)2Sr2CaCu2Oy" 2007 "Regional Research Laboratory (CSIR), Trivandrum, Kerala 695019, India" "Mater.Res.Bull., 42(2007)2057"
150412 SSC1450201 definition of T1(SC) is not clear. TlBa2Ca2Cu3O9 Tl1Ba2Ca2Cu3O9-z Tl 1 Ba 2 Ca 2 Cu 3 O 9-z 2008 Tl1223 K 111.98 111.98 uV/K TP150412 "Tl2O3,BaO2,CaO,Na2O2,CuO" 1 "mixture - pellet - wrapped in Ag foil - heat to 860C(4C/min) - hold(860C,4h) - cool to RT(6C/min)" Investigation of specific heat and thermopower properties of Tl-1223 substituted by sodium 2008 "Physics Department, Faculty of Science, Alexandria University, Alexandria, Egypt" "Solid State.Commun., 145(2008)201"
150413 SSC1450201 definition of T1(SC) is not clear. "TlBa2(Ca,Na)2Cu3O9" Tl1Ba2Ca1.9Na0.1Cu3O9-z Tl 1 Ba 2 Ca 1.9 Na 0.1 Cu 3 O 9-z 2008 Tl1223 K 106.01 106.01 "Tl2O3,BaO2,CaO,Na2O2,CuO" 1 "mixture - pellet - wrapped in Ag foil - heat to 860C(4C/min) - hold(860C,4h) - cool to RT(6C/min)" Investigation of specific heat and thermopower properties of Tl-1223 substituted by sodium 2008 "Physics Department, Faculty of Science, Alexandria University, Alexandria, Egypt" "Solid State.Commun., 145(2008)201"
150414 SSC1450201 definition of T1(SC) is not clear. "TlBa2(Ca,Na)2Cu3O9" Tl1Ba2Ca1.85Na0.15Cu3O9-z Tl 1 Ba 2 Ca 1.85 Na 0.15 Cu 3 O 9-z 2008 Tl1223 K 105.51 105.51 "Tl2O3,BaO2,CaO,Na2O2,CuO" 1 "mixture - pellet - wrapped in Ag foil - heat to 860C(4C/min) - hold(860C,4h) - cool to RT(6C/min)" Investigation of specific heat and thermopower properties of Tl-1223 substituted by sodium 2008 "Physics Department, Faculty of Science, Alexandria University, Alexandria, Egypt" "Solid State.Commun., 145(2008)201"
150415 SSC1450201 definition of T1(SC) is not clear. "TlBa2(Ca,Na)2Cu3O9" Tl1Ba2Ca1.8Na0.2Cu3O9-z Tl 1 Ba 2 Ca 1.8 Na 0.2 Cu 3 O 9-z 2008 Tl1223 K 103.03 103.03 uV/K TP150415 "Tl2O3,BaO2,CaO,Na2O2,CuO" 1 "mixture - pellet - wrapped in Ag foil - heat to 860C(4C/min) - hold(860C,4h) - cool to RT(6C/min)" Investigation of specific heat and thermopower properties of Tl-1223 substituted by sodium 2008 "Physics Department, Faculty of Science, Alexandria University, Alexandria, Egypt" "Solid State.Commun., 145(2008)201"
150416 SSC1450201 definition of T1(SC) is not clear. "TlBa2(Ca,Na)2Cu3O9" Tl1Ba2Ca1.7Na0.3Cu3O9-z Tl 1 Ba 2 Ca 1.7 Na 0.3 Cu 3 O 9-z 2008 Tl1223 K 100.31 100.31 "Tl2O3,BaO2,CaO,Na2O2,CuO" 1 "mixture - pellet - wrapped in Ag foil - heat to 860C(4C/min) - hold(860C,4h) - cool to RT(6C/min)" Investigation of specific heat and thermopower properties of Tl-1223 substituted by sodium 2008 "Physics Department, Faculty of Science, Alexandria University, Alexandria, Egypt" "Solid State.Commun., 145(2008)201"
150417 SSC1450201 definition of T1(SC) is not clear. "TlBa2(Ca,Na)2Cu3O9" Tl1Ba2Ca1.6Na0.4Cu3O9-z Tl 1 Ba 2 Ca 1.6 Na 0.4 Cu 3 O 9-z 2008 Tl1223 K 99.3 99.3 uV/K TP150417 "Tl2O3,BaO2,CaO,Na2O2,CuO" 1 "mixture - pellet - wrapped in Ag foil - heat to 860C(4C/min) - hold(860C,4h) - cool to RT(6C/min)" Investigation of specific heat and thermopower properties of Tl-1223 substituted by sodium 2008 "Physics Department, Faculty of Science, Alexandria University, Alexandria, Egypt" "Solid State.Commun., 145(2008)201"
150418 PHB4031038 Tc defined as midpoint of ac-SUS. PrOs4Sb12 Pr1Os4Sb12 Pr 1 Os 4 Sb 12 3 2008 skutterudite K 1.83 1.83 T 2.18 MHC150418 molten-metal flux method A comparison of the normal and superconducting state properties of Pr(Os1-xRuxT4Sb12 and Pr1-xNdxOs4Sb12 2008 "Physica B, 403(2008)1038"
150419 PHB4031038 Tc defined as midpoint of ac-SUS. "Pr(Os,Ru)4Sb12" Pr1Os3.8Ru0.2Sb12 Pr 1 Os 3.8 Ru 0.2 Sb 12 3 2008 skutterudite K 1.68 1.68 T 1.89 MHC150418 molten-metal flux method A comparison of the normal and superconducting state properties of Pr(Os1-xRuxT4Sb12 and Pr1-xNdxOs4Sb12 2008 "Physica B, 403(2008)1038"
150420 PHB4031038 Tc defined as midpoint of ac-SUS. "Pr(Os,Ru)4Sb12" Pr1Os3.6Ru0.4Sb12 Pr 1 Os 3.6 Ru 0.4 Sb 12 3 2008 skutterudite K 1.58 1.58 MTC150420 T 1.48 MHC150418 molten-metal flux method A comparison of the normal and superconducting state properties of Pr(Os1-xRuxT4Sb12 and Pr1-xNdxOs4Sb12 2008 "Physica B, 403(2008)1038"
150421 PHB4031038 Tc defined as midpoint of ac-SUS. "Pr(Os,Ru)4Sb12" Pr1Os2.8Ru1.2Sb12 Pr 1 Os 2.8 Ru 1.2 Sb 12 3 2008 skutterudite K 1.05 1.05 T 0.76 MHC150421 molten-metal flux method A comparison of the normal and superconducting state properties of Pr(Os1-xRuxT4Sb12 and Pr1-xNdxOs4Sb12 2008 "Physica B, 403(2008)1038"
150422 PHB4031038 Tc defined as midpoint of ac-SUS. "Pr(Os,Ru)4Sb12" Pr1Os2.4Ru1.6Sb12 Pr 1 Os 2.4 Ru 1.6 Sb 12 3 2008 skutterudite K 1.13 1.13 T 0.34 MHC150421 molten-metal flux method A comparison of the normal and superconducting state properties of Pr(Os1-xRuxT4Sb12 and Pr1-xNdxOs4Sb12 2008 "Physica B, 403(2008)1038"
150423 PHB4031038 Tc defined as midpoint of ac-SUS. "Pr(Os,Ru)4Sb12" Pr1Os2Ru2Sb12 Pr 1 Os 2 Ru 2 Sb 12 3 2008 skutterudite K 0.81 0.81 T 0.52 MHC150423 molten-metal flux method A comparison of the normal and superconducting state properties of Pr(Os1-xRuxT4Sb12 and Pr1-xNdxOs4Sb12 2008 "Physica B, 403(2008)1038"
150424 PHB4031038 Tc defined as midpoint of ac-SUS. "Pr(Os,Ru)4Sb12" Pr1Os1.2Ru2.8Sb12 Pr 1 Os 1.2 Ru 2.8 Sb 12 3 2008 skutterudite K 0.8 0.8 MTC150420 T 0.39 MHC150423 molten-metal flux method A comparison of the normal and superconducting state properties of Pr(Os1-xRuxT4Sb12 and Pr1-xNdxOs4Sb12 2008 "Physica B, 403(2008)1038"
150425 PHB4031038 Tc defined as midpoint of ac-SUS. PrRu4Sb12 Pr1Ru4Sb12 Pr 1 Ru 4 Sb 12 3 2008 skutterudite K 1.11 1.11 T 0.245 MHC150423 molten-metal flux method A comparison of the normal and superconducting state properties of Pr(Os1-xRuxT4Sb12 and Pr1-xNdxOs4Sb12 2008 "Physica B, 403(2008)1038"
150426 PHB4031038 Tc defined as midpoint of ac-SUS. "(Pr,Nd)Os4Sb12" Pr0.8Nd0.2Os4Sb12 Pr 0.8 Nd 0.2 Os 4 Sb 12 3 2008 skutterudite K 1.43 1.43 molten-metal flux method A comparison of the normal and superconducting state properties of Pr(Os1-xRuxT4Sb12 and Pr1-xNdxOs4Sb12 2008 "Physica B, 403(2008)1038"
150427 PHB4031038 Tc defined as midpoint of ac-SUS. "(Pr,Nd)Os4Sb12" Pr0.55Nd0.45Os4Sb12 Pr 0.55 Nd 0.45 Os 4 Sb 12 3 2008 skutterudite K 1.01 1.01 MTC150427 molten-metal flux method A comparison of the normal and superconducting state properties of Pr(Os1-xRuxT4Sb12 and Pr1-xNdxOs4Sb12 2008 "Physica B, 403(2008)1038"
150428 PHB4031038 not SWC. Curie-T shows ferromagnetic Curie-T; T defined as peak point of as-SUS. "(Pr,Nd)Os4Sb12" Pr0.4Nd0.6Os4Sb12 Pr 0.4 Nd 0.6 Os 4 Sb 12 3 2008 0.45 skutterudite K 0.2 molten-metal flux method A comparison of the normal and superconducting state properties of Pr(Os1-xRuxT4Sb12 and Pr1-xNdxOs4Sb12 2008 "Physica B, 403(2008)1038"
150429 PHB4031038 not SWC. Curie-T shows ferromagnetic Curie-T; T defined as peak point of as-SUS. "(Pr,Nd)Os4Sb12" Pr0.2Nd0.8Os4Sb12 Pr 0.2 Nd 0.8 Os 4 Sb 12 3 2008 0.59 skutterudite K 0.2 MTC150427 molten-metal flux method A comparison of the normal and superconducting state properties of Pr(Os1-xRuxT4Sb12 and Pr1-xNdxOs4Sb12 2008 "Physica B, 403(2008)1038"
150430 PHB4031038 not SWC. Curie-T shows ferromagnetic Curie-T; T defined as peak point of as-SUS. NdOs4Sb12 Nd1Os4Sb12 Nd 1 Os 4 Sb 12 3 2008 0.83 skutterudite K 0.2 molten-metal flux method A comparison of the normal and superconducting state properties of Pr(Os1-xRuxT4Sb12 and Pr1-xNdxOs4Sb12 2008 "Physica B, 403(2008)1038"
150431 L097056404 "CeCo(In,Cd)5" Ce1Co1In4.75Cd0.25 Ce 1 Co 1 In 4.75 Cd 0.25 2006 HoCoGa5 K 2.13 2.13 In-flux method Reversible Tuning of the Heavy-Fermion Ground State in CeCoIn5 2006 "University of California, Davis, California 95616, USA" "Phys.Rev.Lett., 97(2006)056404"
150432 L097056404 "CeCo(In,Cd)5" Ce1Co1In4.5Cd0.5 Ce 1 Co 1 In 4.5 Cd 0.5 2006 HoCoGa5 K 1.35 1.35 MTC150432 In-flux method Reversible Tuning of the Heavy-Fermion Ground State in CeCoIn5 2006 "University of California, Davis, California 95616, USA" "Phys.Rev.Lett., 97(2006)056404"
150433 L097056404 "CeCo(In,Cd)5" Ce1Co1In4.25Cd0.75 Ce 1 Co 1 In 4.25 Cd 0.75 2006 HoCoGa5 K 0.78 MPH150433 In-flux method Reversible Tuning of the Heavy-Fermion Ground State in CeCoIn5 2006 "University of California, Davis, California 95616, USA" "Phys.Rev.Lett., 97(2006)056404"
150434 PHB4031065 half Heusler compound. Carrier is hole. Hc2 < 1.5T(paramag-limit). LaBiPt La1Bi1Pt1 La 1 Bi 1 Pt 1 3 2008 F4[-]3m K 0.9 0.9 E+18/cm3 6 Bridgeman method Thermodynamic and transport properties of the non-centrosymmetric superconductor LaBiPt 2008 "Physikalisches Institut, Universitat Karlsruhe, 76128 Karlsruhe, Germany" "Physica B, 403(2008)1065"
150435 1965 refno=1965(PR01100500) LaTe La1Te1 La 1 Te 1 1975 NaCl A 6.421 K 1.48 1.48 mJ/mol.K2 4.65 175 Magnetic and some thermal properties of chalcogenides of Pr and Tm and a few other rare earths 1975 "PHYS.REV.B,11(1975)500"
150436 1965 refno=1965(PR01100500) La3Te4 La3Te4 La 3 Te 4 1975 Th3P4 A 9.63 K 5.3 5.3 mJ/mol.K2 4.3 162 Magnetic and some thermal properties of chalcogenides of Pr and Tm and a few other rare earths 1975 "PHYS.REV.B,11(1975)500"
150437 SSC0140161 LaAl2 Al2La1 Al 2 La 1 1974 MgCu2(Laves) K 3.24 3.24 MHC150437 melt in HF-inductance furnace The influence of crystal field split impurities(Tb) on the superconducting properties of LaAl2 1974 "Solid State Commun., 14(1974)161"
150438 SSC0140161 "(La,Gd)Al2" La0.999Gd0.001Al2 La 0.999 Gd 0.001 Al 2 1974 MgCu2(Laves) K 2.78 2.78 MHC150437 melt in HF-inductance furnace The influence of crystal field split impurities(Tb) on the superconducting properties of LaAl2 1974 "Solid State Commun., 14(1974)161"
150439 SSC0140161 "(La,Gd)Al2" La0.998Gd0.002Al2 La 0.998 Gd 0.002 Al 2 1974 MgCu2(Laves) K 2.39 2.39 MHC150437 melt in HF-inductance furnace The influence of crystal field split impurities(Tb) on the superconducting properties of LaAl2 1974 "Solid State Commun., 14(1974)161"
150440 SSC0140161 "(La,Gd)Al2" La0.997Gd0.003Al2 La 0.997 Gd 0.003 Al 2 1974 MgCu2(Laves) K 1.89 1.89 MHC150440 melt in HF-inductance furnace The influence of crystal field split impurities(Tb) on the superconducting properties of LaAl2 1974 "Solid State Commun., 14(1974)161"
150441 SSC0140161 "(La,Gd)Al2" La0.996Gd0.004Al2 La 0.996 Gd 0.004 Al 2 1974 MgCu2(Laves) K 1.38 1.38 MHC150440 melt in HF-inductance furnace The influence of crystal field split impurities(Tb) on the superconducting properties of LaAl2 1974 "Solid State Commun., 14(1974)161"
150442 SSC0140161 "(La,Gd)Al2" La0.995Gd0.005Al2 La 0.995 Gd 0.005 Al 2 1974 MgCu2(Laves) K 0.932 0.932 MHC150440 melt in HF-inductance furnace The influence of crystal field split impurities(Tb) on the superconducting properties of LaAl2 1974 "Solid State Commun., 14(1974)161"
150443 PR01201778 "(dC/Tc) = 41.0 mJ/gat.K2. For x=0.02, 0.05, 0.15 in (La1-xPrx)3In, Hc2(0) = 64.2, 52.7, 23 kOe, and (dHce/dT) = 8.04, 7.64, 5.72 kOe/K, respectively." La3In In1La3 In 1 La 3 1975 AuCu3 "AuCu3, L1<2>" K 9.95 9.95 T 7.11 T/K 0.804 mJ/gat.K2 14 170 Thermodynamic properties of superconductors containing impurities in a crystal-field singlet ground state 1975 "Phys.Rev.B, 12(1975)1778"
150444 PR01201778 (dC/Tc) = 27.5 mJ/gat.K2. "(La,Pr)3In" La3Pr0.3In1 La 3 Pr 0.3 In 1 1975 AuCu3 "AuCu3, L1<2>" K 6.2 6.2 T 3.52 T/K 0.639 mJ/gat.K2 16.2 Thermodynamic properties of superconductors containing impurities in a crystal-field singlet ground state 1975 "Phys.Rev.B, 12(1975)1778"
150445 PR01201778 (dC/Tc) = 18.6 mJ/gat.K2. "(La,Pr)3In" La3Pr0.6In1 La 3 Pr 0.6 In 1 1975 AuCu3 "AuCu3, L1<2>" K 3.2 3.2 mJ/gat.K2 18.1 161 Thermodynamic properties of superconductors containing impurities in a crystal-field singlet ground state 1975 "Phys.Rev.B, 12(1975)1778"
150446 PR01201778 (dC/Tc) = 15.2 mJ/gat.K2. "(La,Pr)3In" La3Pr0.75In1 La 3 Pr 0.75 In 1 1975 AuCu3 "AuCu3, L1<2>" K 1.94 1.94 mJ/gat.K2 18.2 159 Thermodynamic properties of superconductors containing impurities in a crystal-field singlet ground state 1975 "Phys.Rev.B, 12(1975)1778"
150447 PR01201778 Pr3In Pr3In1 Pr 3 In 1 1975 16.8 AuCu3 "AuCu3, L1<2>" K mJ/gat.K2 24.3 160 Thermodynamic properties of superconductors containing impurities in a crystal-field singlet ground state 1975 "Phys.Rev.B, 12(1975)1778"
150450 L097056404 "CeIr(In,Cd)5" Ce1Ir1In4.875Cd0.125 Ce 1 Ir 1 In 4.875 Cd 0.125 2006 HoCoGa5 K 0.194 0.194 MTC150450 In-flux method Reversible Tuning of the Heavy-Fermion Ground State in CeCoIn5 2006 "University of California, Davis, California 95616, USA" "Phys.Rev.Lett., 97(2006)056404"
150452 SSC0140161 "(La,Tb)Al2" La0.9985Tb0.0015Al2 La 0.9985 Tb 0.0015 Al 2 1974 MgCu2(Laves) K 2.9 2.9 MHC150452 melt in HF-inductance furnace The influence of crystal field split impurities(Tb) on the superconducting properties of LaAl2 1974 "Solid State Commun., 14(1974)161"
150453 SSC0140161 "(La,Tb)Al2" La0.996Tb0.004Al2 La 0.996 Tb 0.004 Al 2 1974 MgCu2(Laves) K 2.4 2.4 MTC150453 MHC150452 melt in HF-inductance furnace The influence of crystal field split impurities(Tb) on the superconducting properties of LaAl2 1974 "Solid State Commun., 14(1974)161"
150454 SSC0140161 "(La,Tb)Al2" La0.992Tb0.008Al2 La 0.992 Tb 0.008 Al 2 1974 MgCu2(Laves) K 1.61 1.61 MHC150454 melt in HF-inductance furnace The influence of crystal field split impurities(Tb) on the superconducting properties of LaAl2 1974 "Solid State Commun., 14(1974)161"
150455 SSC0140161 "(La,Tb)Al2" La0.988Tb0.012Al2 La 0.988 Tb 0.012 Al 2 1974 MgCu2(Laves) K 0.94 0.94 MHC150454 melt in HF-inductance furnace The influence of crystal field split impurities(Tb) on the superconducting properties of LaAl2 1974 "Solid State Commun., 14(1974)161"
150456 INT0160096 LaAl2 Al2La1 Al 2 La 1 2008 MgCu2(Laves) A 8.1495 K 3.2 3.3 3.25 arc-melting Phase relationship in LaAl2-xSix (0 =< x = <1.03) and their electrical resistivity 2008 "National Institute for Materials Science, Advanced Electronic Materials Center, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Intermetallics, 16(2008)96"
150457 INT0160096 solubility limit sample with MgCu2-structure(0 =< x =<0.005) "La(Al,Si)2" La1Al1.995Si0.005 La 1 Al 1.995 Si 0.005 2008 MgCu2(Laves) A 8.1494 K 2.9 2.9 arc-melting Phase relationship in LaAl2-xSix (0 =< x = <1.03) and their electrical resistivity 2008 "National Institute for Materials Science, Advanced Electronic Materials Center, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Intermetallics, 16(2008)96"
150458 INT0160096 AlB2-phase for 0.14 =< x =<0.62 "La(Al,Si)2" La1Al1.825Si0.175 La 1 Al 1.825 Si 0.175 2008 AlB2 A 4.4275 4.387 K 2 arc-melting Phase relationship in LaAl2-xSix (0 =< x = <1.03) and their electrical resistivity 2008 "National Institute for Materials Science, Advanced Electronic Materials Center, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Intermetallics, 16(2008)96"
150459 INT0160096 alpha-ThSi2-phase for 0.72 =< x =<1.03. "La(Al,Si)2" La1Al1.26Si0.74 La 1 Al 1.26 Si 0.74 2008 ThSi2 A 4.3377 14.868 alpha-ThSi2 K 2 arc-melting Phase relationship in LaAl2-xSix (0 =< x = <1.03) and their electrical resistivity 2008 "National Institute for Materials Science, Advanced Electronic Materials Center, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Intermetallics, 16(2008)96"
150460 PR03200135 "Tc defined as midpoint of SUS-transition. magnetic transition(T=0.23 K) was observed in SP. lattice term of SP, beta = 1.80 mJ/mol.K4." Pd2YbSn Pd2Yb1Sn1 Pd 2 Yb 1 Sn 1 1985 0.23 Heusler "Heusler, Cu2MnAl, L1<2>" K 2.3 2.36 2.7 2.36 2.36 mJ/mol.K2 0.1 SP-heat 114 SP-heat "arc-melting, then ANN(900C,8d, in vac)" Coexistence of ordered magnetism and superconductivity in Pd2YbSn 1985 Argonne National Lab. "Phys.Rev.B, 32(1985)135"
150461 MTL0020090 "ANN(900C,6d). SUS(300 K) = -3.17 E-5 emu/mol." Au2InY Au2In1Y1 Au 2 In 1 Y 1 1983 Heusler A 6.905 "Heusler, Cu2MnAl, L1<2>" K 1.74 0.1 1.74 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150462 MTL0020090 not ANN. SUS(300 K) = -0.81 E-5 emu/mol. "(Au,Pd)2InY" Au1.8Pd0.2In1Y1 Au 1.8 Pd 0.2 In 1 Y 1 1983 Heusler A 6.876 "Heusler, Cu2MnAl, L1<2>" K 2.27 0.02 2.27 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150463 MTL0020090 ANN(900C) - Q. SUS(300 K) = 1.57 E-5 emu/mol. "(Au,Pd)2InY" Au1.6Pd0.4In1Y1 Au 1.6 Pd 0.4 In 1 Y 1 1983 Heusler A 6.873 "Heusler, Cu2MnAl, L1<2>" K 2.64 0.1 2.64 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150464 MTL0020090 ANN(900C) - Q. SUS(300 K) = 2.83 E-5 emu/mol. "(Au,Pd)2InY" Au1.3Pd0.7In1Y1 Au 1.3 Pd 0.7 In 1 Y 1 1983 Heusler A 6.85 "Heusler, Cu2MnAl, L1<2>" K 2.68 0.12 2.68 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150465 MTL0020090 ANN(900C) - Q. SUS(300 K) = 2.03 E-5 emu/mol. "(Au,Pd)2InY" Au1Pd1In1Y1 Au 1 Pd 1 In 1 Y 1 1983 Heusler A 6.832 "Heusler, Cu2MnAl, L1<2>" K 2.3 0.14 2.3 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150466 MTL0020090 as-prepared. SUS(300 K) = 0.695 E-5 emu/mol. "(Au,Pd)2InY" Au0.2Pd1.8In1Y1 Au 0.2 Pd 1.8 In 1 Y 1 1983 Heusler A 6.727 "Heusler, Cu2MnAl, L1<2>" K 1.24 0.04 1.24 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150467 MTL0020090 as-prepared. SUS(300 K) = 1.12 E-5 emu/mol. Pd2InY Pd2In1Y1 Pd 2 In 1 Y 1 1983 Heusler A 6.72 "Heusler, Cu2MnAl, L1<2>" K 1.04 1.12 1.04 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150468 MTL0020090 as-prepared. SUS(300 K) = 2.35 E-5 emu/mol. Pd2SnY Pd2Sn1Y1 Pd 2 Sn 1 Y 1 1983 Heusler A 6.718 "Heusler, Cu2MnAl, L1<2>" K 4.9 0.2 4.9 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150469 MTL0020090 as-prepared. SUS(300 K) = 24.70 E-5 emu/mol. Ni2HfAl Ni2Hf1Al1 Ni 2 Hf 1 Al 1 1983 Heusler A 6.069 "Heusler, Cu2MnAl, L1<2>" K 0.74 0.03 0.74 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150470 MTL0020090 as-prepared. SUS(300 K) = 29.68 E-5 emu/mol. Ni2ZrAl Ni2Zr1Al1 Ni 2 Zr 1 Al 1 1983 Heusler A 6.106 "Heusler, Cu2MnAl, L1<2>" K 1.38 0.17 1.38 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150471 MTL0020090 as-prepared. SUS(300 K) = 22.56 E-5 emu/mol. Ni2HfGa Ni2Hf1Ga1 Ni 2 Hf 1 Ga 1 1983 Heusler A 6.045 "Heusler, Cu2MnAl, L1<2>" K 1.12 0.03 1.12 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150472 MTL0020090 "ANN(900C,12d). SUS(300 K) = 7.40 E-5 emu/mol." Ni2NbSn Ni2Nb1Sn1 Ni 2 Nb 1 Sn 1 1983 Heusler A 6.179 "Heusler, Cu2MnAl, L1<2>" K 3.4 0.4 3.4 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150473 MTL0020090 not SC. Au2GaY Au2Ga1Y1 Au 2 Ga 1 Y 1 1983 Heusler "Heusler, Cu2MnAl, L1<2>" K 0.5 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150474 MTL0020090 not SC. Au2InEr Au2In1Er1 Au 2 In 1 Er 1 1983 Heusler "Heusler, Cu2MnAl, L1<2>" K 0.5 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150475 MTL0020090 not SC. Au2InTm Au2In1Tm1 Au 2 In 1 Tm 1 1983 Heusler "Heusler, Cu2MnAl, L1<2>" K 0.5 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150476 MTL0020090 not SC. Pd2AlY Pd2Al1Y1 Pd 2 Al 1 Y 1 1983 Heusler "Heusler, Cu2MnAl, L1<2>" K 0.5 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150477 MTL0020090 not SC. Pd2GeY Pd2Ge1Y1 Pd 2 Ge 1 Y 1 1983 Heusler "Heusler, Cu2MnAl, L1<2>" K 0.5 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150478 MTL0020090 not SC. Pt2InY Pt2In1Y1 Pt 2 In 1 Y 1 1983 Heusler "Heusler, Cu2MnAl, L1<2>" K 0.5 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150479 MTL0020090 not SC. Au2InYb Au2In1Yb1 Au 2 In 1 Yb 1 1983 Heusler "Heusler, Cu2MnAl, L1<2>" K 0.5 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150480 MTL0020090 not SC. Cu2ZrAl Cu2Zr1Al1 Cu 2 Zr 1 Al 1 1983 Heusler "Heusler, Cu2MnAl, L1<2>" K 0.5 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150481 MTL0020090 not SC. Cu2InTi Cu2In1Ti1 Cu 2 In 1 Ti 1 1983 Heusler "Heusler, Cu2MnAl, L1<2>" K 0.5 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150482 MTL0020090 not SC. Cu2TiSn Cu2Ti1Sn1 Cu 2 Ti 1 Sn 1 1983 Heusler "Heusler, Cu2MnAl, L1<2>" K 0.5 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150483 MTL0020090 not SC. Ti2MoGa Ti2Mo1Ga1 Ti 2 Mo 1 Ga 1 1983 Heusler "Heusler, Cu2MnAl, L1<2>" K 0.5 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150484 MTL0020090 not SC. Ni2TiSn Ni2Ti1Sn1 Ni 2 Ti 1 Sn 1 1983 Heusler "Heusler, Cu2MnAl, L1<2>" K 0.5 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150485 MTL0020090 not SC. Ni2TiIn Ni2Ti1In1 Ni 2 Ti 1 In 1 1983 Heusler "Heusler, Cu2MnAl, L1<2>" K 0.5 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150486 MTL0020090 not SC. Ni2VSn Ni2V1Sn1 Ni 2 V 1 Sn 1 1983 Heusler "Heusler, Cu2MnAl, L1<2>" K 0.5 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150487 MTL0020090 not SC. Ni2HfSn Ni2Hf1Sn1 Ni 2 Hf 1 Sn 1 1983 Heusler "Heusler, Cu2MnAl, L1<2>" K 0.5 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150488 MTL0020090 not SC. Ni2ZnSn Ni2Zn1Sn1 Ni 2 Zn 1 Sn 1 1983 Heusler "Heusler, Cu2MnAl, L1<2>" K 0.5 arc-melting or melt by induction furnace Superconductivity in ternary heusler intermetallic compounds 1983 "Bell Lab, Murray Hill" "Mater.Lett., 2(1983)90"
150489 SSC0130025 "(La,Tm)Sn3" La0.92Tm0.08Sn3 La 0.92 Tm 0.08 Sn 3 1973 K 5.17 5.17 MHC150489 Upper critical fields of superconducting Gd and Tm doped LaSn3: Effects of crystalline electric fields 1973 "Tufts University, Medford, Mass., USA" "Solid State Commun., 13(1973)25"
150490 SSC0130025 "(La,Tm)Sn3" La0.84Tm0.16Sn3 La 0.84 Tm 0.16 Sn 3 1973 K 3.33 3.33 MHC150489 Upper critical fields of superconducting Gd and Tm doped LaSn3: Effects of crystalline electric fields 1973 "Tufts University, Medford, Mass., USA" "Solid State Commun., 13(1973)25"
150491 SSC0130025 "(La,Gd)Sn3" La0.933Gd0.067Sn3 La 0.933 Gd 0.067 Sn 3 1973 K 4.64 4.64 Oe 687 MHC150491 Upper critical fields of superconducting Gd and Tm doped LaSn3: Effects of crystalline electric fields 1973 "Tufts University, Medford, Mass., USA" "Solid State Commun., 13(1973)25"
150492 SSC0130025 "(La,Gd)Sn3" La0.92Gd0.08Sn3 La 0.92 Gd 0.08 Sn 3 1973 K 4.28 4.28 Oe 603 MHC150491 Upper critical fields of superconducting Gd and Tm doped LaSn3: Effects of crystalline electric fields 1973 "Tufts University, Medford, Mass., USA" "Solid State Commun., 13(1973)25"
150493 L100097002 "There are two gaps. GAP and GAPENE shows for higher one. For lower one, GAP = 0.6 meV, GAPENE = 1.3." La2C3 C3La2 C 3 La 2 2008 Pu2C3 A 8.808 K 11.2 11.2 T 16.7 MHC150493 A muon-SR 3800 meV 2.7 5.6 "arc-melting - pellet - in sealed Ta tube - SIN(1000C,200h, in vac) - cool to RT(5C/h)" Multigap Superconductivity in Sesquicarbides La2C3 and Y2C3 2008 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara, Kanagawa 229-8558, Japan" "Phys.Rev.Lett., 100(2008)097002"
150494 L100097002 "There are two gaps. GAP and GAPENE shows for higher one. For lower one, GAP = 0.7 meV, GAPENE = 1.1." Y2C3 C3Y2 C 3 Y 2 2008 Pu2C3 A 8.238 K 15.2 15.2 T 25.6 MHC150494 A muon-SR 4600 meV 3.1 4.9 "arc-melting - heat(1300-1400C,30min, P= 5GPa)" Multigap Superconductivity in Sesquicarbides La2C3 and Y2C3 2008 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara, Kanagawa 229-8558, Japan" "Phys.Rev.Lett., 100(2008)097002"
150495 P077064506 T2 defined as max of (dM/dT). NbB2 B2.2Nb1 B 2.2 Nb 1 2008 K 3.6 4.79 3.6 Correlation between the transition temperature and the superfluid density in BCS superconductor NbB2+x 2008 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 77(2008)064506"
150496 P077064506 T2 defined as max of (dM/dT). NbB2 B2.34Nb1 B 2.34 Nb 1 2008 K 9.16 9.76 9.16 Correlation between the transition temperature and the superfluid density in BCS superconductor NbB2+x 2008 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 77(2008)064506"
150497 P077092505 "(CaO)12(Al2O3)7, popular name = C12A7:e. el-concentration = 2 E+21 /cm3 from reflectance. e-ph coupling = 0.46. (dC/gamma*Tc) = 1.22. lattice term in SP = 0.46 mJ/mol.K4" Ca24Al28O64:(4e) Ca24Al28O66 Ca 24 Al 28 O 66 2008 K 0.195 0.195 MSP150497 mJ/mol.K 3.4 mJ/mol.K2 14.2 SP-HEAT 628 SP-HEAT "single crystal grown by FZ method. heat(1100C,24h, in evacuated silicon tube with Ti)" Evidence for Bardeen-Cooper-Schrieffer-type superconducting behavior in the electride (Ca)12(Al2O3)7 :e- from heat capacity measurements 2008 "Materials and Structures Laboratory, Tokyo Institute of Technology, Mail-Box R3-7, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 77(2008)092505"
150498 PHB3120129 "Ce(Ir,Co)In5" Ce1Ir0.75Co0.25In5 Ce 1 Ir 0.75 Co 0.25 In 5 2002 HoCoGa5 K 1.52 1.52 "Multiple phase transitions in Ce(Rh,Ir,Co)In5" 2002 "Los Alamos National Laboratory, MS K 764, MST-10, Los Alamos, NM 87545, USA" "Physica B, 312-312(2002)129"
150499 PHB3120129 "Ce(Ir,Co)In5" Ce1Ir0.3Co0.7In5 Ce 1 Ir 0.3 Co 0.7 In 5 2002 HoCoGa5 K 2 2 "Multiple phase transitions in Ce(Rh,Ir,Co)In5" 2002 "Los Alamos National Laboratory, MS K 764, MST-10, Los Alamos, NM 87545, USA" "Physica B, 312-312(2002)129"
150500 PHB4031074 P-induced SC. Li0.9Mg0.1 Li0.9Mg0.1 Li 0.9 Mg 0.1 2008 K 11 0 11 MTC150500 K/GPa 0.34 Superconductivity in Sc metal and Li(Mg) alloy under extreme pressure 2008 "Department of Physics, Washington University, CB 1105, One Brookings Drive, St. Louis, MO 63130, USA" "Physica B, 403(2008)1074"
150501 PHB4031129 CePt3Si Ce1Pt3Si1 Ce 1 Pt 3 Si 1 2008 2.29 CePt3B A 4.075 5.442 K 0.745 0.745 mJ/mol.K2 420 Evolution of superconductivity and magnetic order in heavy fermion superconductor Ce(Pt1-xNix)3Si 2008 "Institute of Solid State Physics, Vienna University of Technology, A-1040 Wien, Austria" "Physica B, 403(2008)1129"
150502 PHB4031129 "Ce(Pt,Ni)3Si" Ce1Pt2.94Ni0.06Si1 Ce 1 Pt 2.94 Ni 0.06 Si 1 2008 2.59 CePt3B A 4.0751 5.4412 K 0.545 0.545 mJ/mol.K2 380 Evolution of superconductivity and magnetic order in heavy fermion superconductor Ce(Pt1-xNix)3Si 2008 "Institute of Solid State Physics, Vienna University of Technology, A-1040 Wien, Austria" "Physica B, 403(2008)1129"
150503 PHB4031129 "Ce(Pt,Ni)3Si" Ce1Pt2.82Ni0.18Si1 Ce 1 Pt 2.82 Ni 0.18 Si 1 2008 2.2 CePt3B A 4.0776 5.4406 K 0.473 0.473 Evolution of superconductivity and magnetic order in heavy fermion superconductor Ce(Pt1-xNix)3Si 2008 "Institute of Solid State Physics, Vienna University of Technology, A-1040 Wien, Austria" "Physica B, 403(2008)1129"
150504 P077113103 CDW observed in R(T) and C(T). T = 83 K. Lu5Ir4Si10 Lu5Ir4Si10 Lu 5 Ir 4 Si 10 2008 Sc5Co4Si10 K 3.9 3.9 "arc-melting, remelted with 5% excess Yb for compensate the weight loss." Kondo effect in the charge-density-wave state of Lu5-xYbxIr4Si10 2008 "Tata Institute of Fundamental Research, Mumbai-400005, India" "Phys.Rev.B, 77(2008)113103"
150505 P077113103 CDW observed in R(T) and C(T). T = 78 K. Kondo-Temp = 4.7 K from SUS measurements. "(Lu,Yb)5Ir4Si10" Lu4.98Yb0.02Ir4Si10 Lu 4.98 Yb 0.02 Ir 4 Si 10 2008 Sc5Co4Si10 K 3 3 "arc-melting, remelted with 5% excess Yb for compensate the weight loss." Kondo effect in the charge-density-wave state of Lu5-xYbxIr4Si10 2008 "Tata Institute of Fundamental Research, Mumbai-400005, India" "Phys.Rev.B, 77(2008)113103"
150506 P077113103 CDW observed in R(T) and C(T). T = 73 K. Kondo-Temp = 4.8 K from SUS measurements. "(Lu,Yb)5Ir4Si10" Lu4.95Yb0.05Ir4Si10 Lu 4.95 Yb 0.05 Ir 4 Si 10 2008 Sc5Co4Si10 K 2 2 "arc-melting, remelted with 5% excess Yb for compensate the weight loss." Kondo effect in the charge-density-wave state of Lu5-xYbxIr4Si10 2008 "Tata Institute of Fundamental Research, Mumbai-400005, India" "Phys.Rev.B, 77(2008)113103"
150507 P077113103 CDW observed in R(T) and C(T). T = 69 K. Kondo-Temp = 5.0 K from SUS measurements. "(Lu,Yb)5Ir4Si10" Lu4.93Yb0.07Ir4Si10 Lu 4.93 Yb 0.07 Ir 4 Si 10 2008 Sc5Co4Si10 K 1.5 1.5 mJ/mol.K2 40 "arc-melting, remelted with 5% excess Yb for compensate the weight loss." Kondo effect in the charge-density-wave state of Lu5-xYbxIr4Si10 2008 "Tata Institute of Fundamental Research, Mumbai-400005, India" "Phys.Rev.B, 77(2008)113103"
150508 P077100505 RRR = 1000. bulk SC confirmed by SUS and SP-heat measurements at P = 0. CeRhIn5 Ce1Rh1In5 Ce 1 Rh 1 In 5 3 2008 HoCoGa5 K 0.11 0.11 70 mJ/mol.K2 56 nOhm.cm 37 self flux method Ambient-pressure bulk superconductivity deep in the magnetic state of CeRhIn5 2008 "Department of Physics, University of California at San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 77(2008)100505(R)"
150509 P077100505 RRR > 100. RhIn3 In3Rh1 In 3 Rh 1 3 2008 K 0.19 0.19 self flux method Ambient-pressure bulk superconductivity deep in the magnetic state of CeRhIn5 2008 "Department of Physics, University of California at San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 77(2008)100505(R)"
150510 PHC1820132 "O-exchange by diffusion (600-700 C, 1 bar O2)" "(Bi,Pb)2Sr2Ca2Cu3O10" Bi1.6Pb0.4Sr2Ca2Cu3O10 Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 3 O 10 1 1991 Bi2223 K 108 108 -0.013 O 90 -0.14 NEGATIVE OXYGEN ISOTOPE SHIFT IN BI-2223 (BI1.6PB0.4SR2CA2CU3O10) WITH TC=108K 1991 10 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVENUE,BERKELEY CA 94704,USA" "PHYSICA C,182(1991)132" "BI,PB,SR,CA,CU,O"
150511 PHC1820132 Details not given. "Y(Ba,Sr)2Cu3O7" Y1Ba1.8Sr0.2Cu3O7-z Y 1 Ba 1.8 Sr 0.2 Cu 3 O 7-z 1 1991 Y123 K 90 90 0.023 O NEGATIVE OXYGEN ISOTOPE SHIFT IN BI-2223 (BI1.6PB0.4SR2CA2CU3O10) WITH TC=108K 1991 10 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVENUE,BERKELEY CA 94704,USA" "PHYSICA C,182(1991)132" "BI,PB,SR,CA,CU,O"
150512 PHC1820132 Details not given. "Y(Ba,Sr)2Cu3O7" Y1Ba1.5Sr0.5Cu3O7-z Y 1 Ba 1.5 Sr 0.5 Cu 3 O 7-z 1 1991 Y123 K 85.5 85.5 -0.001 O NEGATIVE OXYGEN ISOTOPE SHIFT IN BI-2223 (BI1.6PB0.4SR2CA2CU3O10) WITH TC=108K 1991 10 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVENUE,BERKELEY CA 94704,USA" "PHYSICA C,182(1991)132" "BI,PB,SR,CA,CU,O"
150513 PHC1820132 Details not given. "Y(Ba,Sr)2Cu3O7" Y1Ba1Sr1Cu3O7-z Y 1 Ba 1 Sr 1 Cu 3 O 7-z 1 1991 Y123 K 81 81 -0.014 O NEGATIVE OXYGEN ISOTOPE SHIFT IN BI-2223 (BI1.6PB0.4SR2CA2CU3O10) WITH TC=108K 1991 10 "MORRIS RESEARCH INC.,1918 UNIVERSITY AVENUE,BERKELEY CA 94704,USA" "PHYSICA C,182(1991)132" "BI,PB,SR,CA,CU,O"
150514 P077054507 "(Cu,Tl)Ba2Ca3Cu4O12" Tl0.5Ba2Ca3Cu4.5O12-z Tl 0.5 Ba 2 Ca 3 Cu 4.5 O 12-z 2008 Tl1234 P4/mmm A 18.3164 K 108.5 108.5 1 "precursor(Cu0.5Ba2Ca3Cu4-xZnxO12-z) was prepared by heating(880 C,24h, in quarts tube), then mixed with Tl2O3 - pellet - ANN(880C,10min, in Au-capsoule)" Absence of a pair-breaking mechanism in Cu0.5Tl0.5Ba2Ca3Cu4-yZnyO12-z 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan, 45320" "Phys.Rev.B, 77(2008)054507"
150515 P077054507 "(Cu,Tl)Ba2Ca3(Cu,Zn)4O12" Tl0.5Ba2Ca3Cu4Zn0.5O12-z Tl 0.5 Ba 2 Ca 3 Cu 4 Zn 0.5 O 12-z 2008 Tl1234 P4/mmm A K 110.5 110.5 1 "precursor(Cu0.5Ba2Ca3Cu4-xZnxO12-z) was prepared by heating(880 C,24h, in quarts tube), then mixed with Tl2O3 - pellet - ANN(880C,10min, in Au-capsoule)" Absence of a pair-breaking mechanism in Cu0.5Tl0.5Ba2Ca3Cu4-yZnyO12-z 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan, 45320" "Phys.Rev.B, 77(2008)054507"
150516 P077054507 "(Cu,Tl)Ba2Ca3(Cu,Zn)4O12" Tl0.5Ba2Ca3Cu3.5Zn1O12-z Tl 0.5 Ba 2 Ca 3 Cu 3.5 Zn 1 O 12-z 2008 Tl1234 P4/mmm A 18.0211 K 112.5 112.5 1 "precursor(Cu0.5Ba2Ca3Cu4-xZnxO12-z) was prepared by heating(880 C,24h, in quarts tube), then mixed with Tl2O3 - pellet - ANN(880C,10min, in Au-capsoule)" Absence of a pair-breaking mechanism in Cu0.5Tl0.5Ba2Ca3Cu4-yZnyO12-z 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan, 45320" "Phys.Rev.B, 77(2008)054507"
150517 P077054507 "(Cu,Tl)Ba2Ca3(Cu,Zn)4O12" Tl0.5Ba2Ca3Cu3Zn1.5O12-z Tl 0.5 Ba 2 Ca 3 Cu 3 Zn 1.5 O 12-z 2008 Tl1234 P4/mmm A 17.9464 K 113.3 113.3 1 "precursor(Cu0.5Ba2Ca3Cu4-xZnxO12-z) was prepared by heating(880 C,24h, in quarts tube), then mixed with Tl2O3 - pellet - ANN(880C,10min, in Au-capsoule)" Absence of a pair-breaking mechanism in Cu0.5Tl0.5Ba2Ca3Cu4-yZnyO12-z 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan, 45320" "Phys.Rev.B, 77(2008)054507"
150518 P077054507 "(Cu,Tl)Ba2Ca3(Cu,Zn)4O12" Tl0.5Ba2Ca3Cu2.5Zn2O12-z Tl 0.5 Ba 2 Ca 3 Cu 2.5 Zn 2 O 12-z 2008 Tl1234 P4/mmm A 17.6643 K 115.3 115.3 1 "precursor(Cu0.5Ba2Ca3Cu4-xZnxO12-z) was prepared by heating(880 C,24h, in quarts tube), then mixed with Tl2O3 - pellet - ANN(880C,10min, in Au-capsoule)" Absence of a pair-breaking mechanism in Cu0.5Tl0.5Ba2Ca3Cu4-yZnyO12-z 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan, 45320" "Phys.Rev.B, 77(2008)054507"
150519 P077054507 "(Cu,Tl)Ba2Ca3(Cu,Zn)4O12" Tl0.5Ba2Ca3Cu2Zn2.5O12-z Tl 0.5 Ba 2 Ca 3 Cu 2 Zn 2.5 O 12-z 2008 Tl1234 P4/mmm A 17.5894 K 119.8 119.8 1 "precursor(Cu0.5Ba2Ca3Cu4-xZnxO12-z) was prepared by heating(880 C,24h, in quarts tube), then mixed with Tl2O3 - pellet - ANN(880C,10min, in Au-capsoule)" Absence of a pair-breaking mechanism in Cu0.5Tl0.5Ba2Ca3Cu4-yZnyO12-z 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan, 45320" "Phys.Rev.B, 77(2008)054507"
150520 P077054507 "(Cu,Tl)Ba2Ca3(Cu,Zn)4O12" Tl0.5Ba2Ca3Cu1.5Zn3O12-z Tl 0.5 Ba 2 Ca 3 Cu 1.5 Zn 3 O 12-z 2008 Tl1234 P4/mmm A 17.5013 K 121.3 121.3 1 "precursor(Cu0.5Ba2Ca3Cu4-xZnxO12-z) was prepared by heating(880 C,24h, in quarts tube), then mixed with Tl2O3 - pellet - ANN(880C,10min, in Au-capsoule)" Absence of a pair-breaking mechanism in Cu0.5Tl0.5Ba2Ca3Cu4-yZnyO12-z 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan, 45320" "Phys.Rev.B, 77(2008)054507"
150521 P077054507 "(Cu,Tl)Ba2Ca3(Cu,Zn)4O12" Tl0.5Ba2Ca3Cu1Zn3.5O12-z Tl 0.5 Ba 2 Ca 3 Cu 1 Zn 3.5 O 12-z 2008 Tl1234 P4/mmm A 17.5718 K 122.2 122.2 1 "precursor(Cu0.5Ba2Ca3Cu4-xZnxO12-z) was prepared by heating(880 C,24h, in quarts tube), then mixed with Tl2O3 - pellet - ANN(880C,10min, in Au-capsoule)" Absence of a pair-breaking mechanism in Cu0.5Tl0.5Ba2Ca3Cu4-yZnyO12-z 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan, 45320" "Phys.Rev.B, 77(2008)054507"
150522 J077024707 "crystals kept in dry air. two structural transitions(90K, 185K). RRR = 500-1400. (dC/gamma*Tc) = 0.94. G-L = 4.2." Ag6O8AgNO3 Ag7N1O11 Ag 7 N 1 O 11 3 2008 clathrate Fm3[-]m 225 K 1.04 0.04 1.04 Oe 22 Oe 770 Oe/K 1058 HC150522 A 660 A 2700 2.35 14 mJ/mol.K2 46.5 SP-HEAT 243 SP-HEAT uOhm.cm 0.2 electrochemical reaction Superconducting State of Silver-Oxide Clathrate Ag6O8AgNO3 2008 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara, Kanagawa 229-8558" "J.Phys.Soc.Jpn, 77(2008)024707"
150523 PCS0312673 (lattice constant): c/a = 0.9603 (T=10 K). Tc determined by SP. thermodynamic Hc(0) = 130 Oe. Ag7O8NO3 Ag7N1O11 Ag 7 N 1 O 11 1970 clathrate K 1.004 1.025 1.046 1.025 mJ/mol.K2 44.6 SP-heat 85.3 SP-heat Low-temperature heat capacities of the clathrate salts Ag7O8NO3 and Ag7O8HF2 1970 "University of California, Berkeley, Calif. USA" "J.Phys.Chem.Solids, 31(1970)2673"
150524 PCS0312673 Tc = 0.5 - 1.5 K. Ag7O8HF2 Ag7H1F2O8 Ag 7 H 1 F 2 O 8 1970 clathrate K 1.5 1.5 mJ/mol.K2 72.5 SP-heat 125 SP-heat Low-temperature heat capacities of the clathrate salts Ag7O8NO3 and Ag7O8HF2 1970 "University of California, Berkeley, Calif. USA" "J.Phys.Chem.Solids, 31(1970)2673"
150525 PRL0622751 LTT-phase = 66.9 %. "(La,Ba)2CuO4" La1.901Ba0.099Cu1O4 La 1.901 Ba 0.099 Cu 1 O 4 1989 T K 12.3 12.3 "La2O3,BaCO3,CuO" 1 STRUCTURAL PHASE TRANSFORMATIONS AND SUPERCONDUCTIVITY IN LA2-XBAXCUO4 1989 6 "BROOKHAVEN NATIONAL LABORATORY,UPRON,NEW YORK 11973" "PHYS.REV.LETT.,62(1989)2751" "LA,BA,CU,O"
150526 PRL0622751 LTT-phase = 55 %. "(La,Ba)2CuO4" La1.87Ba0.13Cu1O4 La 1.87 Ba 0.13 Cu 1 O 4 1989 T K 5.94 5.94 TC150526 "La2O3,BaCO3,CuO" 1 STRUCTURAL PHASE TRANSFORMATIONS AND SUPERCONDUCTIVITY IN LA2-XBAXCUO4 1989 6 "BROOKHAVEN NATIONAL LABORATORY,UPRON,NEW YORK 11973" "PHYS.REV.LETT.,62(1989)2751" "LA,BA,CU,O"
150527 PRL0622751 LTT-phase = 40 %. "(La,Ba)2CuO4" La1.825Ba0.175Cu1O4 La 1.825 Ba 0.175 Cu 1 O 4 1989 T K 25.7 25.7 "La2O3,BaCO3,CuO" 1 STRUCTURAL PHASE TRANSFORMATIONS AND SUPERCONDUCTIVITY IN LA2-XBAXCUO4 1989 6 "BROOKHAVEN NATIONAL LABORATORY,UPRON,NEW YORK 11973" "PHYS.REV.LETT.,62(1989)2751" "LA,BA,CU,O"
150528 PRL0622751 "(La,Ba)2CuO4" La1.8Ba0.2Cu1O4 La 1.8 Ba 0.2 Cu 1 O 4 1989 T K 9.38 9.38 "La2O3,BaCO3,CuO" 1 STRUCTURAL PHASE TRANSFORMATIONS AND SUPERCONDUCTIVITY IN LA2-XBAXCUO4 1989 6 "BROOKHAVEN NATIONAL LABORATORY,UPRON,NEW YORK 11973" "PHYS.REV.LETT.,62(1989)2751" "LA,BA,CU,O"
150529 PHC2821233 "(La,Sr)2(Cu,Zn)O4" La1.89Sr0.11Cu0.885Zn0.115O4 La 1.89 Sr 0.11 Cu 0.885 Zn 0.115 O 4 1997 T K Possibility of the Pinning of the Stripe Pattern of Holes and Spins by Zn in La2-xSrxCu1-yZny with x ~0.115 1997 "Department of Applied Physics, Faculty of Engineering, Tohoku University, Sendai 980-77, Japan" "Physica C, 282-287(1997)1233"
150530 PHC2821233 "(La,Sr)2(Cu,Zn)O4" La1.88Sr0.12Cu0.885Zn0.115O4 La 1.88 Sr 0.12 Cu 0.885 Zn 0.115 O 4 1997 T K TC150530 Possibility of the Pinning of the Stripe Pattern of Holes and Spins by Zn in La2-xSrxCu1-yZny with x ~0.115 1997 "Department of Applied Physics, Faculty of Engineering, Tohoku University, Sendai 980-77, Japan" "Physica C, 282-287(1997)1233"
150531 PHC2821233 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.885Zn0.115O4 La 1.85 Sr 0.15 Cu 0.885 Zn 0.115 O 4 1997 T K Possibility of the Pinning of the Stripe Pattern of Holes and Spins by Zn in La2-xSrxCu1-yZny with x ~0.115 1997 "Department of Applied Physics, Faculty of Engineering, Tohoku University, Sendai 980-77, Japan" "Physica C, 282-287(1997)1233"
150532 SSC0660387 VOLS estimated from SUS(7K). "(La,Na)2CuO4" La1.89Na0.11Cu1O4 La 1.89 Na 0.11 Cu 1 O 4 1988 T K 16 21 3 16 7 "La2O3,Na2CO3,CuO" 1 "mixture - pelletize in covered alumina crucible - CAL(840C,12h, in air) - SIN(900C,20h, in air) - SIN(1000C,24h, in flowing O2) - cool to RT(100C/h)" SUPERCONDUCTIVITY IN La2-xNaxCuO4-y 1988 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Solid State Commun., 66(1988)387"
150533 SSC0660387 VOLS estimated from SUS(7K). "(La,Na)2CuO4" La1.59Na0.41Cu1O4 La 1.59 Na 0.41 Cu 1 O 4 1988 T K 18 25 3 18 18 "La2O3,Na2CO3,CuO" 1 "mixture - pelletize in covered alumina crucible - CAL(840C,12h, in air) - SIN(900C,20h, in air) - SIN(1000C,24h, in flowing O2) - cool to RT(100C/h)" SUPERCONDUCTIVITY IN La2-xNaxCuO4-y 1988 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Solid State Commun., 66(1988)387"
150534 PHC1621681 "(Sm,La,Sr)2CuO4" Sm1La0.82Sr0.18Cu1O4 Sm 1 La 0.82 Sr 0.18 Cu 1 O 4 1989 T* K 37 37 T* -phase superconductivity 1989 "Los Alamos National Laboratory, Los Alamos, NM 87545" "Physica C, 162-164(1989)1681"
150535 PHC1621681 "(Sm,La,Sr)2CuO4" Sm0.96La0.84Sr0.2Cu1O4 Sm 0.96 La 0.84 Sr 0.2 Cu 1 O 4 1989 T* K 35 35 T* -phase superconductivity 1989 "Los Alamos National Laboratory, Los Alamos, NM 87545" "Physica C, 162-164(1989)1681"
150536 PHC1621681 "Tc defined as 5% of SUS(max). oxygenation at 150 bar, 550 C." "(Sm,La,Sr)2CuO4" Sm1La0.802Sr0.198Cu1O4 Sm 1 La 0.802 Sr 0.198 Cu 1 O 4 1989 T* K 17.2 17.2 TC150536 T* -phase superconductivity 1989 "Los Alamos National Laboratory, Los Alamos, NM 87545" "Physica C, 162-164(1989)1681"
150537 PHC1621681 oxygenation at 150 bar "(Sm,La,Sr)2CuO4" Sm0.716La1.084Sr0.2Cu1O4 Sm 0.716 La 1.084 Sr 0.2 Cu 1 O 4 1989 T* K 18.1 18.1 TC150537 T* -phase superconductivity 1989 "Los Alamos National Laboratory, Los Alamos, NM 87545" "Physica C, 162-164(1989)1681"
150538 PHC1621681 "(Eu,La,Sr)2CuO4" Eu1.007La0.793Sr0.2Cu1O4 Eu 1.007 La 0.793 Sr 0.2 Cu 1 O 4 1989 T* K 29.2 29.2 TC150538 T* -phase superconductivity 1989 "Los Alamos National Laboratory, Los Alamos, NM 87545" "Physica C, 162-164(1989)1681"
150539 PHC1621681 "(Gd,La,Sr)2CuO4" Gd0.91La0.89Sr0.2Cu1O4 Gd 0.91 La 0.89 Sr 0.2 Cu 1 O 4 1989 T* K 13.5 13.5 TC150539 T* -phase superconductivity 1989 "Los Alamos National Laboratory, Los Alamos, NM 87545" "Physica C, 162-164(1989)1681"
150540 PHC1621681 "(Sm,La,Sr)2CuO4" Sm0.9La0.9Sr0.2Cu1O4 Sm 0.9 La 0.9 Sr 0.2 Cu 1 O 4 1989 T* K 34 34 T* -phase superconductivity 1989 "Los Alamos National Laboratory, Los Alamos, NM 87545" "Physica C, 162-164(1989)1681"
150541 PHC2510238 volume fraction of SC < 5%. "(Bi,La,Y)2SrCu2Oz" Bi0.5La0.5Y1Sr1Cu2O6.04 Bi 0.5 La 0.5 Y 1 Sr 1 Cu 2 O z 6.04 1995 Bi0212 I4/mmm A 3.824 19.77 K Neutron powder diffraction and magnetic properties of Bi-0212 1995 9 "Institute fu""r Anorganische Chemie der Universia""t, Auf der Morgrnstelle 18,72076 Tu""bingen, Germany" "Physica C,251(1995)238-246" "Bi, Sr, Ca, Cu, O"
150542 PHC2510238 volume fraction of SC < 5%. "(Bi,La,Y)2SrCu2Oz" Bi0.5La1Y0.5Sr1Cu2O6.04 Bi 0.5 La 1 Y 0.5 Sr 1 Cu 2 O z 6.04 1995 Bi0212 I4/mmm A 3.849 19.81 K 30 30 Neutron powder diffraction and magnetic properties of Bi-0212 1995 9 "Institute fu""r Anorganische Chemie der Universia""t, Auf der Morgrnstelle 18,72076 Tu""bingen, Germany" "Physica C,251(1995)238-246" "Bi, Sr, Ca, Cu, O"
150543 PHC2510238 volume fraction of SC < 5%. "(Bi,La)2SrCu2Oz" Bi0.5La1.5Sr1Cu2O6.02 Bi 0.5 La 1.5 Sr 1 Cu 2 O z 6.02 1995 Bi0212 I4/mmm A 3.864 19.98 K 28 28 Neutron powder diffraction and magnetic properties of Bi-0212 1995 9 "Institute fu""r Anorganische Chemie der Universia""t, Auf der Morgrnstelle 18,72076 Tu""bingen, Germany" "Physica C,251(1995)238-246" "Bi, Sr, Ca, Cu, O"
150544 PHC2510238 volume fraction of SC < 5%. "(Bi,Pb,La,Sr)2SrCu2Oz" Bi0.3Pb0.2La1.5Sr1Cu2O5.94 Bi 0.3 Pb 0.2 La 1.5 Sr 1 Cu 2 O z 5.94 1995 Bi0212 I4/mmm A 3.866 19.97 K 24 24 Neutron powder diffraction and magnetic properties of Bi-0212 1995 9 "Institute fu""r Anorganische Chemie der Universia""t, Auf der Morgrnstelle 18,72076 Tu""bingen, Germany" "Physica C,251(1995)238-246" "Bi, Sr, Ca, Cu, O"
150545 PHC2510238 volume fraction of SC < 5%. "(Bi,Pb,La,Sr)2SrCu2Oz" Bi0.3Pb0.3La1.2Sr1.2Cu2O5.81 Bi 0.3 Pb 0.3 La 1.2 Sr 1.2 Cu 2 O z 5.81 1995 Bi0212 I4/mmm A 3.852 19.94 K 55 55 Neutron powder diffraction and magnetic properties of Bi-0212 1995 9 "Institute fu""r Anorganische Chemie der Universia""t, Auf der Morgrnstelle 18,72076 Tu""bingen, Germany" "Physica C,251(1995)238-246" "Bi, Sr, Ca, Cu, O"
150546 PHC2510238 volume fraction of SC < 5%. "(Bi,Pb,La,Sr)2SrCu2Oz" Bi0.2Pb0.4La1.2Sr1.3Cu1.9O5.78 Bi 0.2 Pb 0.4 La 1.2 Sr 1.3 Cu 1.9 O z 5.78 1995 Bi0212 I4/mmm A 3.867 20.01 K 75 75 Neutron powder diffraction and magnetic properties of Bi-0212 1995 9 "Institute fu""r Anorganische Chemie der Universia""t, Auf der Morgrnstelle 18,72076 Tu""bingen, Germany" "Physica C,251(1995)238-246" "Bi, Sr, Ca, Cu, O"
150547 PHC2510238 volume fraction of SC < 5%. "(Bi,Pb,La,Sr)2SrCu2Oz" Bi0.2Pb0.3La1.3Sr1.2Cu2O5.78 Bi 0.2 Pb 0.3 La 1.3 Sr 1.2 Cu 2 O z 5.78 1995 Bi0212 I4/mmm A 3.863 19.96 K 50 50 Neutron powder diffraction and magnetic properties of Bi-0212 1995 9 "Institute fu""r Anorganische Chemie der Universia""t, Auf der Morgrnstelle 18,72076 Tu""bingen, Germany" "Physica C,251(1995)238-246" "Bi, Sr, Ca, Cu, O"
150548 PHC2510238 volume fraction of SC < 5%. "(Bi,Pb,La,Sr)2SrCu2Oz" Bi0.1Pb0.4La1.2Sr1.3Cu2O5.78 Bi 0.1 Pb 0.4 La 1.2 Sr 1.3 Cu 2 O z 5.78 1995 Bi0212 I4/mmm A 3.852 19.93 K 44 44 Neutron powder diffraction and magnetic properties of Bi-0212 1995 9 "Institute fu""r Anorganische Chemie der Universia""t, Auf der Morgrnstelle 18,72076 Tu""bingen, Germany" "Physica C,251(1995)238-246" "Bi, Sr, Ca, Cu, O"
150549 PHC2510238 volume fraction of SC < 5%. "(Bi,Pb,La,Sr)2SrCu2Oz" Bi0.1Pb0.4La1.3Sr1.2Cu2O5.83 Bi 0.1 Pb 0.4 La 1.3 Sr 1.2 Cu 2 O z 5.83 1995 Bi0212 I4/mmm A 3.856 19.94 K 25 25 Neutron powder diffraction and magnetic properties of Bi-0212 1995 9 "Institute fu""r Anorganische Chemie der Universia""t, Auf der Morgrnstelle 18,72076 Tu""bingen, Germany" "Physica C,251(1995)238-246" "Bi, Sr, Ca, Cu, O"
150550 PHC2510238 volume fraction of SC < 5%. "(Bi,Pb,La,Sr)2SrCu2Oz" Bi0.1Pb0.4La1.4Sr1.1Cu2O5.84 Bi 0.1 Pb 0.4 La 1.4 Sr 1.1 Cu 2 O z 5.84 1995 Bi0212 I4/mmm A 3.855 19.83 K 25 25 Neutron powder diffraction and magnetic properties of Bi-0212 1995 9 "Institute fu""r Anorganische Chemie der Universia""t, Auf der Morgrnstelle 18,72076 Tu""bingen, Germany" "Physica C,251(1995)238-246" "Bi, Sr, Ca, Cu, O"
150551 PHC4680169 "Tc,Hc2 plotted for lattice constant, nat Nb- and Ta-concentrations. values in DB show for a = 4.465 A." "(Ta,Nb)C" Ta0.5Nb0.5C1 Ta 0.5 Nb 0.5 C 1 1 2008 NaCl A 4.4637 K 11.1 11.1 MTC150551 T MHC150551 "C,Nb-Ta" using pulsed arc discharge method under partial pressure P(He) = 100 - 300 Torr. A sharp change of Tc in polycrystalline NbxTa1-xCy and nanocrystals encapsulated in multiwall carbon nanocages 2008 "Department of Life and Environmental Science, College of Science and Engineering, Iwaki Meisei University, Iwaki, Fukushima 970-8551, Japan" "Physica C, 468(2008)169"
150552 PHC4680244 Hc2(0) = 6.21 T using linear approx. G-L parameter = 15.5 . thermodynamic Hc(0) = 2094 Oe. Li2Pd3B Li2Pd3B1B1 Li 2 Pd 3 B 1 B 1 1 2008 P4<2>32 A 6.751 K 8.19 8.08 8.19 Oe M-H curve 230 T M-H curve 4.64 A 85.3 A "from Hc1, G-L parameter" 1330 two-step arc-melting Ni substitution effect on structure and superconductivity properties in Li2(Pd1-xNix)3B boride system 2008 "Graduate School of Science and Engineering, University of Toyama, Toyama 930-8555, Japan" "Physica C, 468(2008)244"
150553 PHC4680244 Hc2(0) = 4.91 T using linear approx. G-L parameter = 19.3 . thermodynamic Hc(0) = 1400 Oe. "Li2(Pd,Ni)3B" Li2Pd2.85Ni0.15B1 Li 2 Pd 2.85 Ni 0.15 B 1 1 2008 P4<2>32 A 6.7497 K 7.58 7.38 7.58 Oe M-H curve 135 T M-H curve 3.91 A 92.2 A "from Hc1, G-L parameter" 1790 two-step arc-melting Ni substitution effect on structure and superconductivity properties in Li2(Pd1-xNix)3B boride system 2008 "Graduate School of Science and Engineering, University of Toyama, Toyama 930-8555, Japan" "Physica C, 468(2008)244"
150554 PHC4680244 Hc2(0) = 3.91 T using linear approx. G-L parameter = 18.7 . thermodynamic Hc(0) = 1089 Oe. "Li2(Pd,Ni)3B" Li2Pd2.7Ni0.3B1 Li 2 Pd 2.7 Ni 0.3 B 1 1 2008 P4<2>32 A 6.7419 K 7 6.79 7 Oe M-H curve 110 T M-H curve 2.82 A 108 A "from Hc1, G-L parameter" 2020 two-step arc-melting Ni substitution effect on structure and superconductivity properties in Li2(Pd1-xNix)3B boride system 2008 "Graduate School of Science and Engineering, University of Toyama, Toyama 930-8555, Japan" "Physica C, 468(2008)244"
150555 PHC4680244 Hc2(0) = 3.52 T using linear approx. G-L parameter = 19.4 . thermodynamic Hc(0) = 853 Oe. "Li2(Pd,Ni)3B" Li2Pd2.55Ni0.45B1 Li 2 Pd 2.55 Ni 0.45 B 1 1 2008 P4<2>32 A 6.7311 K 6.58 6.4 6.58 Oe M-H curve 91 T M-H curve 2.33 A 121 A "from Hc1, G-L parameter" 2350 two-step arc-melting Ni substitution effect on structure and superconductivity properties in Li2(Pd1-xNix)3B boride system 2008 "Graduate School of Science and Engineering, University of Toyama, Toyama 930-8555, Japan" "Physica C, 468(2008)244"
150556 PHC4680244 Hc2(0) = 3.24 T using linear approx. G-L parameter = 23.2 . thermodynamic Hc(0) = 673 Oe. "Li2(Pd,Ni)3B" Li2Pd2.4Ni0.6B1 Li 2 Pd 2.4 Ni 0.6 B 1 1 2008 P4<2>32 A 6.7263 K 6.5 6.4 6.5 Oe M-H curve 70 T M-H curve 2.21 A 123 A "from Hc1, G-L parameter" 2850 two-step arc-melting Ni substitution effect on structure and superconductivity properties in Li2(Pd1-xNix)3B boride system 2008 "Graduate School of Science and Engineering, University of Toyama, Toyama 930-8555, Japan" "Physica C, 468(2008)244"
150557 ARX080329 "compositions: 29.2Mo-70.8Sb by EDX. lattice term in SP = 0.85 mJ/mol.K4. e-ph = 0.6. G-L = 54.6. thermodynamic Hc(0) = 0.029 T from SP. two gap analysis, lower one: GAPENE(L) = 2.5." Mo3Sb7 Mo3Sb7 Mo 3 Sb 7 2008 A 9.551 K 2.2 2.2 T SP and parabolicapprox. 2.24 T/K SP 1.25 MHC150557 A 120 A 4200 4 14 MSP150557 mJ/mol.K2 34.5 SP 283 uOhm.cm 95 "Mo,Sb" "mixture - ANN(700C,3d, in evacuated silica) - press - ANN(600C,2d)" Low-temperature specific heat of the superconductor Mo3Sb7 2008 "W. Trzebiatowski Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 1410, 50-950 Wroc law, Poland" "Acta Materialia, 56(2008)5694"
150558 L100157001 "sharp decrease of C at T=Tc/5, shows two gaps. lattice term of SP = 0.276 mJ/mol.K4. (dC/gamma*Tc) = 1.05. lower gap(2d) = 1.1 kTc." Lu2Fe3Si5 Lu2Fe3Si5 Lu 2 Fe 3 Si 5 3 2008 Sc2Fe3Si5 K 6.2 6.2 MHC150558 MSP150558 mJ/mol.K 150 mJ/mol.K2 23.7 SP fitting for T2>40 MRH150558 "floating zone method - ANN(800C,4w) - ANN(1250C,5d)" Specific-Heat Evidence for Two-Gap Superconductivity in the Ternary-Iron Silicide Lu2Fe3Si5 2008 "Department of Applied Physics, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.Lett., 100(2008)157001"
150559 PHB1941975 Hc2 defined as T2. two transitions : 2.8 K(incommensurate AFM) and 2.4 K(commensurate) Er2Fe3Si5 Er2Fe3Si5 Er 2 Fe 3 Si 5 1 1994 Sc2Fe3Si5 P4/mnc A 10.39 5.429 K 0.47 0.93 1.3 0.67 0.93 T "resistive, WHH" 0.13 T/K resistive 0.19 MHC150559 A 500 uOhm.cm 254 "arc-melting - wrapped in Ta-foil - ANN(1000C,4d + 900C,2d + 800C,2d, in evacuated quartz tube)" A new magnetic superconductor Er2Fe3Si5 1994 "University of Osaka Prefecture, Sakai, Osaka, Japan" "Physica B, 194-196(1994)1975"
150560 P077140506 RRR = 27 Curie-T from SUS( Curie-Weis law) UCoGe U1Co1Ge1 U 1 Co 1 Ge 1 1 2008 2.81 TiNiSi A 6.864 4.196 7.261 K 0.766 0.604 0.766 uOhm.cm 26 "U,Co,Ge,Si" "nominal(U1.02Co1.02Ge1-xSix) - arcmelting - ANN(875C,10d)" Simultaneous suppression of ferromagnetism and superconductivity in UCoGe by Si substitution 2008 "Van der Waals?Zeeman Institute, University of Amsterdam, Valckenierstraat 65, 1018 XE Amsterdam, The Netherlands" "Phys.Rev.B, 77(2008)140506"
150561 P077140506 Curie-T from SUS( Curie-Weis law) "UCo(Ge,Si)" U1Co1Ge0.98Si0.02 U 1 Co 1 Ge 0.98 Si 0.02 1 2008 2.34 TiNiSi K 0.667 0.541 0.667 "U,Co,Ge,Si" "nominal(U1.02Co1.02Ge1-xSix) - arcmelting - ANN(875C,10d)" Simultaneous suppression of ferromagnetism and superconductivity in UCoGe by Si substitution 2008 "Van der Waals?Zeeman Institute, University of Amsterdam, Valckenierstraat 65, 1018 XE Amsterdam, The Netherlands" "Phys.Rev.B, 77(2008)140506"
150562 P077140506 Curie-T from SUS( Curie-Weis law) "UCo(Ge,Si)" U1Co1Ge0.96Si0.04 U 1 Co 1 Ge 0.96 Si 0.04 1 2008 1.8 TiNiSi K 0.541 0.459 0.541 "U,Co,Ge,Si" "nominal(U1.02Co1.02Ge1-xSix) - arcmelting - ANN(875C,10d)" Simultaneous suppression of ferromagnetism and superconductivity in UCoGe by Si substitution 2008 "Van der Waals?Zeeman Institute, University of Amsterdam, Valckenierstraat 65, 1018 XE Amsterdam, The Netherlands" "Phys.Rev.B, 77(2008)140506"
150563 P077140506 Curie-T from SUS( Curie-Weis law) "UCo(Ge,Si)" U1Co1Ge0.94Si0.06 U 1 Co 1 Ge 0.94 Si 0.06 1 2008 1.27 TiNiSi K 0.423 0.333 0.423 "U,Co,Ge,Si" "nominal(U1.02Co1.02Ge1-xSix) - arcmelting - ANN(875C,10d)" Simultaneous suppression of ferromagnetism and superconductivity in UCoGe by Si substitution 2008 "Van der Waals?Zeeman Institute, University of Amsterdam, Valckenierstraat 65, 1018 XE Amsterdam, The Netherlands" "Phys.Rev.B, 77(2008)140506"
150564 P077140506 Curie-T from SUS( Curie-Weis law) "UCo(Ge,Si)" U1Co1Ge0.92Si0.08 U 1 Co 1 Ge 0.92 Si 0.08 1 2008 0.775 TiNiSi K 0.288 0.288 "U,Co,Ge,Si" "nominal(U1.02Co1.02Ge1-xSix) - arcmelting - ANN(875C,10d)" Simultaneous suppression of ferromagnetism and superconductivity in UCoGe by Si substitution 2008 "Van der Waals?Zeeman Institute, University of Amsterdam, Valckenierstraat 65, 1018 XE Amsterdam, The Netherlands" "Phys.Rev.B, 77(2008)140506"
150565 P077140506 Curie-T from SUS( Curie-Weis law) "UCo(Ge,Si)" U1Co1Ge0.9Si0.1 U 1 Co 1 Ge 0.9 Si 0.1 1 2008 0.37 TiNiSi K 0.153 0.153 "U,Co,Ge,Si" "nominal(U1.02Co1.02Ge1-xSix) - arcmelting - ANN(875C,10d)" Simultaneous suppression of ferromagnetism and superconductivity in UCoGe by Si substitution 2008 "Van der Waals?Zeeman Institute, University of Amsterdam, Valckenierstraat 65, 1018 XE Amsterdam, The Netherlands" "Phys.Rev.B, 77(2008)140506"
150566 P077140506 not SC UCoSi U1Co1Si1 U 1 Co 1 Si 1 1 2008 TiNiSi A 6.876 4.108 7.154 K 0.23 "U,Co,Ge,Si" "nominal(U1.02Co1.02Ge1-xSix) - arcmelting - ANN(875C,10d)" Simultaneous suppression of ferromagnetism and superconductivity in UCoGe by Si substitution 2008 "Van der Waals?Zeeman Institute, University of Amsterdam, Valckenierstraat 65, 1018 XE Amsterdam, The Netherlands" "Phys.Rev.B, 77(2008)140506"
150567 P077165129 "(Nd,Ce)CoIn5" Nd0.4Ce0.6Co1In5 Nd 0.4 Ce 0.6 Co 1 In 5 3 2008 myu-B 2.83 1.98 HoCoGa5 A 4.605 K excess In-flux method Composition and field-tuned magnetism and superconductivity in Nd1-xCexCoIn5 2008 "Condensed Matter Physics, Brookhaven National Laboratory, Upton, New York 11973-5000, USA" "Phys.Rev.B, 77(2008)165129"
150568 P077165129 "(Nd,Ce)CoIn5" Nd0.4Ce0.83Co1In5 Nd 0.4 Ce 0.83 Co 1 In 5 3 2008 myu-B 2.73 HoCoGa5 K 0.74 0.74 excess In-flux method Composition and field-tuned magnetism and superconductivity in Nd1-xCexCoIn5 2008 "Condensed Matter Physics, Brookhaven National Laboratory, Upton, New York 11973-5000, USA" "Phys.Rev.B, 77(2008)165129"
150569 P077165129 "(Nd,Ce)CoIn5" Nd0.4Ce0.85Co1In5 Nd 0.4 Ce 0.85 Co 1 In 5 3 2008 myu-B 2.67 HoCoGa5 K 1.42 1.42 excess In-flux method Composition and field-tuned magnetism and superconductivity in Nd1-xCexCoIn5 2008 "Condensed Matter Physics, Brookhaven National Laboratory, Upton, New York 11973-5000, USA" "Phys.Rev.B, 77(2008)165129"
150570 P077165129 "(Nd,Ce)CoIn5" Nd0.4Ce0.6Co1In5 Nd 0.4 Ce 0.6 Co 1 In 5 3 2008 HoCoGa5 A 4.61 K 1.74 1.74 excess In-flux method Composition and field-tuned magnetism and superconductivity in Nd1-xCexCoIn5 2008 "Condensed Matter Physics, Brookhaven National Laboratory, Upton, New York 11973-5000, USA" "Phys.Rev.B, 77(2008)165129"
150571 P077165129 CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2008 myu-B 2.59 HoCoGa5 A 4.613 K 2.25 2.25 MTC150568 excess In-flux method Composition and field-tuned magnetism and superconductivity in Nd1-xCexCoIn5 2008 "Condensed Matter Physics, Brookhaven National Laboratory, Upton, New York 11973-5000, USA" "Phys.Rev.B, 77(2008)165129"
150572 J077043701 P-induced SC. SC properties at P = 10.8 GPa. another magnetic transition at 2.9 K. Moment & Curie-T for H//[001] from Curie-Weis law(T<200K). CePd5Al2 Ce1Pd5Al2 Ce 1 Pd 5 Al 2 3 2008 myu-B/Ce 2.41 54 4.1 ZrNi2Al5 A 4.156 14.883 K 0.57 0 0.57 MPH150572 T 0.25 T/K 1.04 MHC150572 mJ/mol.K2 56 "Bridgeman method. arc-melting - heat(1130C,2h,in evacuated quartz tube) - cool to RT(2days)" Pressure-Induced Superconductivity in Antiferromagnet CePd5Al2 2008 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043" "J.Phys.Soc.Jpn, 77(2008)043701"
150573 J077043701 ANN(800C). not SC. LuPd5Al2 Lu1Pd5Al2 Lu 1 Pd 5 Al 2 3 2008 ZrNi2Al5 A 4.0894 14.615 K 0.1 mJ/mol.K2 8 310 "Bridgeman method. arc-melting - heat(1130C,2h,in evacuated quartz tube) - cool to RT(2days)" Pressure-Induced Superconductivity in Antiferromagnet CePd5Al2 2008 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043" "J.Phys.Soc.Jpn, 77(2008)043701"
150574 J077043704 "impurity = OsO2. a=0.00756 /GPa, b = 0.000198 /(GPa)^2 in (dV/V0) = -a*P + b*P^2." CsOs2O6 Cs1Os2O6 Cs 1 Os 2 O 6 1 2008 pyrochlore K 3.3 3.3 TC150574 solid state reaction "Superconducting Transition in the beta-Pyrochlore AOs2O6 (A = Cs, Rb, K) under Pressure" 2008 "Department of Material Science, Shimane University, Matsue 690-8504" "J.Phys.Soc.Jpn, 77(2008)043704"
150575 J077043704 "impurity = OsO2. a=0.00777 /GPa, b = 0 /(GPa)^2 in (dV/V0) = -a*P + b*P^2." RbOs2O6 Rb1Os2O6 Rb 1 Os 2 O 6 1 2008 pyrochlore K 6.3 6.3 TC150575 solid state reaction "Superconducting Transition in the beta-Pyrochlore AOs2O6 (A = Cs, Rb, K) under Pressure" 2008 "Department of Material Science, Shimane University, Matsue 690-8504" "J.Phys.Soc.Jpn, 77(2008)043704"
150576 J077043704 "impurity = OsO2. a=0.00726 /GPa, b = 0 /(GPa)^2 in (dV/V0) = -a*P + b*P^2." KOs2O6 K1Os2O6 K 1 Os 2 O 6 1 2008 pyrochlore K 9.6 9.6 TC150576 solid state reaction "Superconducting Transition in the beta-Pyrochlore AOs2O6 (A = Cs, Rb, K) under Pressure" 2008 "Department of Material Science, Shimane University, Matsue 690-8504" "J.Phys.Soc.Jpn, 77(2008)043704"
150577 J076014702 "Tc(R)=0.75 K. from resistive transition. large difference between Tc(R) and Tc(SP). Hc2 determined by SP. lattice term (beta) = 165 mJ/mol.K4. below Tc(SP), Cs/T = 34.1(mJ/mol.K2) + 1290(mJ/mol.K3)*T" CePt3Si Ce1Pt3Si1 Ce 1 Pt 3 Si 1 3 2007 CePt3B K 0.46 0.46 T SP heat 2.3 T/K SP heat 7.2 MHC150577 MSP150577 mJ/mol.K2 335 SP Bridgeman method. Specific Heat and de Haas-van Alphen Experiments on the Heavy-Fermion Superconductor CePt3Si 2007 "Low Temperature Center, Osaka University, Toyonaka, Osaka 560-0043" "J.Phys.Soc.Jpn, 76(2007)014702"
150578 J076014702 Tc defined from SP. LaPt3Si La1Pt3Si1 La 1 Pt 3 Si 1 3 2007 CePt3B K 0.6 0.6 2.7 14 MSP150578 mJ/mol.K2 11 SP 170 SP Bridgeman method. Specific Heat and de Haas-van Alphen Experiments on the Heavy-Fermion Superconductor CePt3Si 2007 "Low Temperature Center, Osaka University, Toyonaka, Osaka 560-0043" "J.Phys.Soc.Jpn, 76(2007)014702"
150579 JAC25600L1 "ANN(1000C, 1w)" ZrRuGe Zr1Ru1Ge1 Zr 1 Ru 1 Ge 1 1 1997 3 TiFeSi A 7.479 11.669 6.777 K 7 11 9 T "resistive, midpoint" 0.5 "high-P, high-T synthesis(stoichiometric powder mixture, 1400C, 4 GPa)" Superconductivity of ZrRuGe with TiFeSi-type structure 1997 Muroran I.stitute of Technology. 27-I. Mizumoto. Muroran-shi 050. Japan "J.Alloys Compd., 256(1997)L1"
150580 JAC4440114 "using 94% enriched Pu<239>. KAIZERO: DB-value for H//[100], =4.5 E-4 emu/mol for H//[001]." PuRhGa5 Pu1Rh1Ga5 Pu 1 Rh 1 Ga 5 3 2007 emu/mol 0.00043 myu-B/Pu 0.85 HoCoGa5 K 8.6 8.6 T/K SUS 3.5 2 MHC150580 "Ga- and In-flux method, heat(1100C,2h)" "Single crystal growth, superconductivity and Fermi surface study of plutonium compounds" 2007 "Advanced Science Research Center, Japan Atomic Energy Agency, Tokai, Ibaraki 319-1195, Japan" "J.Alloys Compd., 444(2007)114"
150581 JAC4520241 lattice term of C = 6.2 E-4 J/mol.K4 LaRhSn La1Rh1Sn1 La 1 Rh 1 Sn 1 3 2008 ZrNiAl P6[-]2m A 7.479 4.217 K 1.85 1.85 T extraporation to 0 K. 0.84 0.52 0.1 0.5 MHC150581 MSP150581 mJ/mol.K2 10.9 "SP, relaxation method" 211 SP modified Czochralski method in a tri-arc furnace. Superconductivity and physical properties of a LaRhSn single crystal 2008 "Charles University, Faculty of Mathematics and Physics, Department of Condensed Matter Physics, Ke Karlovu 5, 121 16 Prague 2, Czech Republic" "J.Alloys Compd., 452(2008)241"
150582 JAC2320071 LaRhSn La1Rh1Sn1 La 1 Rh 1 Sn 1 1996 ZrNiAl A 7.478 4.223 K 1.7 1.9 1.9 uOhm.cm 16 arc-melting Equiatomic ternary lanthanum-transition metal-tin phases: structural and electrical results 1996 "Istituto di Chimica Fisica, Universitri di Genova, Corso Europa 26, 16132 Genova, Italy" "J.Alloys Compd., 232(1996)71"
150583 PHI0842119 some weak magnetic transition at 6.2 K. CeRhSn Ce1Rh1Sn1 Ce 1 Rh 1 Sn 1 1 2004 ZrNiAl or Fe2P K 0.1 MSP150583 uOhm.cm 27.4 "arc-melting, ANN(800C,8d)" Non-Fermi-liquid behaviour in CeRhSn 2004 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093-0360, USA" "Philos.Mag., 84(2004)2119"
150584 SSC0500061 LaPtSi La1Pt1Si1 La 1 Pt 1 Si 1 1 1984 LaPtSi A 4.245 14.54 K 3.3 3.3 melt by induction method SUPRACONDUCTIVITY OF LaPtSi AND LaPtGe 1984 "Institut fur Anorganische Chemie der Universitat Mtinchen, Meiserstr. 1, D-8000 Miinchen 2, Federal Republic of Germany" "Solid State Commun., 50(1984)61"
150585 SSC0500061 LaPtGe La1Pt1Ge1 La 1 Pt 1 Ge 1 1 1984 LaPtSi A 4.266 14.96 K 3.4 3.4 melt by induction method SUPRACONDUCTIVITY OF LaPtSi AND LaPtGe 1984 "Institut fur Anorganische Chemie der Universitat Mtinchen, Meiserstr. 1, D-8000 Miinchen 2, Federal Republic of Germany" "Solid State Commun., 50(1984)61"
150586 PHI0842119 LaRhSn La1Rh1Sn1 La 1 Rh 1 Sn 1 1 2004 ZrNiAl K 2 2 T "extraporation to 0 K., resistive" 0.7 MHC150586 uOhm.cm 11 "arc-melting, ANN(800C,8d)" Non-Fermi-liquid behaviour in CeRhSn 2004 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093-0360, USA" "Philos.Mag., 84(2004)2119"
150587 L100197003 P-induced SC. impurity phase < 5vol%. Pressure by DAC. Tc by as(13Hz) resistivity. RRR=170 CaLi2 Ca1Li2 Ca 1 Li 2 1 2008 MgZn2(Laves) A 6.293 10.236 "MgZn2(Laves),C14" K 13 1.1 13 MTC150587 "Ca(3N),Li(4N)" "melting (stoichiometric amount of Ca,Li in stainless crucible), then stirring them at 235 C for 30 min." Pressure-Induced Superconductivity in CaLi2 2008 "Department of Physics, Washington University, CB 1105, One Brookings Drive, St. Louis, Missouri 63130, USA" "Phys.Rev.Lett., 100(2008)197003"
150588 MRB0430779 RbxWO3 Rb0.14W1O3 Rb 0.14 W 1 O 3 1 2008 bronze P6<3>/mcm K 4.9 5.3 5.1 "Rb2CO3,WO3" "mixture - CAL(750C,24h) - pellet - microwave heating(400W,10min), hybrid microwave method" Crystal structure and superconductivity of rubidium tungsten bronzes RbxWO3 prepared by a hybrid microwave method 2008 "School of Physics and Engineering, Zhengzhou University, Zhengzhou, Henan 450052, China" "Mater.Res.Bull., 43(2008)779"
150589 MRB0430779 RbxWO3 Rb0.16W1O3 Rb 0.16 W 1 O 3 1 2008 bronze P6<3>/mcm K 4.9 5.3 5.1 "Rb2CO3,WO3" "mixture - CAL(750C,24h) - pellet - microwave heating(400W,10min), hybrid microwave method" Crystal structure and superconductivity of rubidium tungsten bronzes RbxWO3 prepared by a hybrid microwave method 2008 "School of Physics and Engineering, Zhengzhou University, Zhengzhou, Henan 450052, China" "Mater.Res.Bull., 43(2008)779"
150590 MRB0430779 RbxWO3 Rb0.2W1O3 Rb 0.2 W 1 O 3 1 2008 bronze P6<3>/mcm K 4.5 4.9 4.7 "Rb2CO3,WO3" "mixture - CAL(750C,24h) - pellet - microwave heating(400W,10min), hybrid microwave method" Crystal structure and superconductivity of rubidium tungsten bronzes RbxWO3 prepared by a hybrid microwave method 2008 "School of Physics and Engineering, Zhengzhou University, Zhengzhou, Henan 450052, China" "Mater.Res.Bull., 43(2008)779"
150591 P077174501 RRR = 1.69 MgB2 B2Mg1 B 2 Mg 1 2008 AlB2 A 3.0837 3.5287 K 37 37 MJC150591 uOhm.cm 49 83 "Mg,a-B,C6H8O7" "mixture(Mg,B,C6H8O7) -sealed in iron tube - SIN(850C,0.5h,in Ar) - FC to RT" Effects of C substitution on the pinning mechanism of MgB2 2008 "Institute for Superconducting and Electronic Materials, University of Wollongong, Northfields Avenue, Wollongong, New South Wales 2522, Australia" "Phys.Rev.B, 77(2008)174501"
150592 P077174501 RRR = 1.71 "Mg(B,C)2" Mg1B1.924C0.076 Mg 1 B 1.924 C 0.076 2008 AlB2 A 3.0758 3.5233 K 35.8 35.8 uOhm.cm 156 267 "Mg,a-B,C6H8O7" "mixture(Mg,B,C6H8O7) -sealed in iron tube - SIN(850C,0.5h,in Ar) - FC to RT" Effects of C substitution on the pinning mechanism of MgB2 2008 "Institute for Superconducting and Electronic Materials, University of Wollongong, Northfields Avenue, Wollongong, New South Wales 2522, Australia" "Phys.Rev.B, 77(2008)174501"
150593 P077174501 "SIN(950C,0.5h). RRR = 1.62" "Mg(B,C)2" Mg1B1.904C0.096 Mg 1 B 1.904 C 0.096 2008 AlB2 A 3.0724 3.5239 K 35.5 35.5 uOhm.cm 142 230 "Mg,a-B,C6H8O7" "mixture(Mg,B,C6H8O7) -sealed in iron tube - SIN(850C,0.5h,in Ar) - FC to RT" Effects of C substitution on the pinning mechanism of MgB2 2008 "Institute for Superconducting and Electronic Materials, University of Wollongong, Northfields Avenue, Wollongong, New South Wales 2522, Australia" "Phys.Rev.B, 77(2008)174501"
150594 P077174503 impurity phase = La4.67(SiO4)3O. "La(O,F)FeAs" La1Fe1As1F0.11O0.89 La 1 Fe 1 As 1 F 0.11 O 0.89 0.89 1 2008 2 oxypnictide P4/nmm 129 A 4.0277 8.7125 ZrCuSiAs-type K 28.2 27.5 4.5 27.5 T "resistive, WHH" 25 T/K "resistive, midpoint" 1.41 HC150594 A 36 4.1 SP 325 SP THC150594 uV/K -42 TP150594 mOhm.cm 2.7 RH150594 /cm3 1.70E+21 "LaAs,Fe2As,La2O3,LaF3,As" "mixture - pellet - heat(1250C,15h,in silica tube) - FC to RT - ANN(1250C)" Electronic correlations in the superconductor LaFeAsO0.89F0.11 with low carrier density 2008 "Materials Science and Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 77(2008)174503"
150595 ACS1303296 undoped-F. not SC. R(drop) at 150 K. R(min) at 100K. LaOFeAs La1Fe1As1O1 La 1 Fe 1 As 1 O 1 2008 2 oxypnictide P4/nmm A 4.0355 8.7393 ZrCuSiAs-type K 1.8 "LaAs,Fe2As,La2O3" "mixture - put in silica tube(Ar) - heat(1250C,40h) - ADD(LaF3,La)" Iron-Based Layered Superconductor La[O1-xFx]FeAs (x = 0.05 - 0.12) with Tc = 26 K 2008 "Frontier Research Center, Tokyo Institute of Technology, Mail Box S2-13, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 130(2008)3296"
150596 ACS1303296 5 at% F-doped. R(min) at 60 K. "La(O,F)FeAs" La1F0.05Fe1As1O0.95 La 1 F 0.05 Fe 1 As 1 O 0.95 2008 2 oxypnictide P4/nmm A 4.032 8.7263 ZrCuSiAs-type K 26 26 TC150596 "LaAs,Fe2As,La2O3" "mixture - put in silica tube(Ar) - heat(1250C,40h) - ADD(LaF3,La)" Iron-Based Layered Superconductor La[O1-xFx]FeAs (x = 0.05 - 0.12) with Tc = 26 K 2008 "Frontier Research Center, Tokyo Institute of Technology, Mail Box S2-13, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 130(2008)3296"
150597 IOC0467719 "impurity phase = LaNi2P2(8 vol%), La3PO7(1 vol%)" LaONiP La1Ni1P1O1 La 1 Ni 1 P 1 O 1 2007 oxypnictide ZrCuSiAs-type K 2.1 3 3.8 3 40 Oe 20 1.8 Oe 800 1.8 "Nickel-Based Oxyphosphide Superconductor with a Layered Crystal Structure, LaNiOP" 2007 "Frontier CollaboratiVe Research Center, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama, Japan" "Inorg.Chem., 46(2007)7719"
150598 SST0200687 LaOFeP La1Fe1P1O1 La 1 Fe 1 P 1 O 1 2007 2 oxypnictide A 3.962 8.511 ZrCuSiAs-type K 4.1 4.1 4.1 mOhm.cm 0.342 "(La-Fe alloy + red P) - heat(650-800C,12h,in quartz tube), then (La-Fe-P alloy + La2O3) - heat(1240C,48h,in quartz tube)" Synthesis and structural characterization of LaOFeP superconductors 2007 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100080, People's Republic of China" "Supercond.Sci.Technol., 20(2007)687"
150599 NAT4470187 Tc measured by pick-up coil. Tc extraporated to zero field from Tc values in the static field produced by pick-up coil. Tc=0.2-0.4 mK. magnetic transition at 80 K. Li Li1 Li 1 2007 K 0.0004 0.0004 nominal Li(92 %Li<7>. magnetic contamination of 4 ppm. Superconductivity in lithium below 0.4 millikelvin at ambient pressure 2007 "Low Temperature Laboratory, Helsinki University of Technology, PO Box 2200 FI-02015 TKK, Finland. {Present address: Philips Medical Systems,Ayritie 4, FI-01510 Vantaa, Finland." "Nature, 447(2007)187"
150600 P077180504 RRR=100. Tc=4.62 K from SP measurement. G-L = 14. ThPt4Ge12 Th1Pt4Ge12 Th 1 Pt 4 Ge 12 1 2008 skutterudite Im3{-} A 8.5924 K 4.8 4.4 4.8 mT deviation from linear M 3 1.72 T WHH approx. 0.29 0.2 1.72 T/K 0.085 A from Hc2 350 A "from Hc1,G-L," 1500 mJ/mol.K2 40 SP 217 SP nOhm.cm 6.5 750 "arc-melting - wrapped in Ta foil - ANN(800C,3w,in evacuated quartz tube)" Superconductivity in the actinoid-bearing filled skutterudite ThPt4Ge12 2008 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 1410, 50-950 Wroc?aw, Poland" "Phys.Rev.B, 77(2008)180504"
150601 P077184512 Muon-SR. G-L. = 17. "(Sr,La)CuO2" Sr0.9La0.1Cu1O2 Sr 0.9 La 0.1 Cu 1 O 2 2008 IL K 43 43 T WHH approx. 10.7 A u-SR 930 "See Physica C, 366(2002)299." Nodeless superconductivity in the infinite-layer electron-doped cuprate superconductor Sr0.9La0.1CuO2 2008 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 77(2008)184512"
150602 P077193106 "purple bronze. ANN(200C,10h) leads to non-SC. a = 0.43, b = -1.6 in R = A*T^a + B*T^b" Li0.9Mo6O17 Li0.9Mo6O17 Li 0.9 Mo 6 O 17 3 2008 bronze K 1.2 1.92 1.56 "See Phys.Rev.Lett., 98(2007)266405" Electrical transport in single-crystalline Li0.9Mo6O17: A two-band Luttinger liquid exhibiting Bose metal behavior 2008 "Department of Physics, Montana State University, P.O. Box 173840, Bozeman, Montana 59717-3840, USA" "Phys.Rev.B, 77(2008)193106"
150603 P077193106 purple bronze. insulator(not SC). M-I transition at 28 K. Li0.9Mo6O17 Li0.9Mo6O17 Li 0.9 Mo 6 O 17 3 2008 bronze K 0.4 "See Phys.Rev.Lett., 98(2007)266405" Electrical transport in single-crystalline Li0.9Mo6O17: A two-band Luttinger liquid exhibiting Bose metal behavior 2008 "Department of Physics, Montana State University, P.O. Box 173840, Bozeman, Montana 59717-3840, USA" "Phys.Rev.B, 77(2008)193106"
150604 PCS0682178 MgCyNi3 Mg1C0.98Ni3 Mg 1 C 0.98 Ni 3 2007 CaTiO3 K 6.5 6.5 "Mg,Zn,C,Ni-powder" nominal=(Mg1-xZnx)1.5CyNi3. reaction temperature = 900C for y => 0.95 and = 800-900C for y < 0.95. Magnetism on Mg1-xZnxCyNi3 2007 "Department of Physics, Faculty of Engineering, Yokohama National University, Japan" "J.Phys.Chem.Solids, 68(2007)2178"
150605 PCS0682178 MgCyNi3 Mg1C0.69Ni3 Mg 1 C 0.69 Ni 3 2007 CaTiO3 K 1.8 1.8 "Mg,Zn,C,Ni-powder" nominal=(Mg1-xZnx)1.5CyNi3. reaction temperature = 900C for y => 0.95 and = 800-900C for y < 0.95. Magnetism on Mg1-xZnxCyNi3 2007 "Department of Physics, Faculty of Engineering, Yokohama National University, Japan" "J.Phys.Chem.Solids, 68(2007)2178"
150606 PCS0682178 sample contains impurity phases. "(Mg,Zn)CyNi3" Mg0.9Zn0.1C0.98Ni3 Mg 0.9 Zn 0.1 C 0.98 Ni 3 2007 CaTiO3 K 4.5 4.5 MPH150606 "Mg,Zn,C,Ni-powder" nominal=(Mg1-xZnx)1.5CyNi3. reaction temperature = 900C for y => 0.95 and = 800-900C for y < 0.95. Magnetism on Mg1-xZnxCyNi3 2007 "Department of Physics, Faculty of Engineering, Yokohama National University, Japan" "J.Phys.Chem.Solids, 68(2007)2178"
150607 PCS0682178 sample contains impurity phases. "(Mg,Zn)CyNi3" Mg0.8Zn0.2C1.05Ni3 Mg 0.8 Zn 0.2 C 1.05 Ni 3 2007 CaTiO3 K 4 4 "Mg,Zn,C,Ni-powder" nominal=(Mg1-xZnx)1.5CyNi3. reaction temperature = 900C for y => 0.95 and = 800-900C for y < 0.95. Magnetism on Mg1-xZnxCyNi3 2007 "Department of Physics, Faculty of Engineering, Yokohama National University, Japan" "J.Phys.Chem.Solids, 68(2007)2178"
150608 PCS0682178 sample contains impurity phases. "(Mg,Zn)CyNi3" Mg0.7Zn0.3C0.99Ni3 Mg 0.7 Zn 0.3 C 0.99 Ni 3 2007 CaTiO3 K 2.5 2.5 "Mg,Zn,C,Ni-powder" nominal=(Mg1-xZnx)1.5CyNi3. reaction temperature = 900C for y => 0.95 and = 800-900C for y < 0.95. Magnetism on Mg1-xZnxCyNi3 2007 "Department of Physics, Faculty of Engineering, Yokohama National University, Japan" "J.Phys.Chem.Solids, 68(2007)2178"
150609 PHC4680405 "R,XPS,FITR were measured." "(Cu,Tl)Ba2Ca2Cu3O10" Tl0.5Ba2Ca2Cu3.5O10-z Tl 0.5 Ba 2 Ca 2 Cu 3.5 O 10-z 2008 M1223 A 14.852 "(Cu,Tl)-1223" K 95.5 17.3 95.5 "Ba(NO3)2,Ca(NO3)2,Cu(CN),MgO" "precursor(Cu0.5Ba2Ca2-xMgxCu3O10) prepared by SIN(840C,24h).then mixed with Tl2O3" Enhanced inter-plane coupling of Mg doped Cu0.5Tl0.5Ba2Ca2-xMgxCu3O10-z superconductors: XPS and FTIR studies 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad 45320, Pakistan" "Physica C, 468(2008)405"
150610 PHC4680405 "R,XPS,FITR were measured." "(Cu,Tl)Ba2(Ca,Mg)2Cu3O10" Tl0.5Ba2Ca1.5Mg0.5Cu3.5O10-z Tl 0.5 Ba 2 Ca 1.5 Mg 0.5 Cu 3.5 O 10-z 2008 M1223 A 14.606 "(Cu,Tl)-1223" K 96.5 13.5 96.5 "Ba(NO3)2,Ca(NO3)2,Cu(CN),MgO" "precursor(Cu0.5Ba2Ca2-xMgxCu3O10) prepared by SIN(840C,24h).then mixed with Tl2O3" Enhanced inter-plane coupling of Mg doped Cu0.5Tl0.5Ba2Ca2-xMgxCu3O10-z superconductors: XPS and FTIR studies 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad 45320, Pakistan" "Physica C, 468(2008)405"
150611 PHC4680405 "R,XPS,FITR were measured." "(Cu,Tl)Ba2(Ca,Mg)2Cu3O10" Tl0.5Ba2Ca1Mg1Cu3.5O10-z Tl 0.5 Ba 2 Ca 1 Mg 1 Cu 3.5 O 10-z 2008 M1223 "(Cu,Tl)-1223" K 96.5 14.5 96.5 "Ba(NO3)2,Ca(NO3)2,Cu(CN),MgO" "precursor(Cu0.5Ba2Ca2-xMgxCu3O10) prepared by SIN(840C,24h).then mixed with Tl2O3" Enhanced inter-plane coupling of Mg doped Cu0.5Tl0.5Ba2Ca2-xMgxCu3O10-z superconductors: XPS and FTIR studies 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad 45320, Pakistan" "Physica C, 468(2008)405"
150612 PHC4680405 "R,XPS,FITR were measured." "(Cu,Tl)Ba2(Ca,Mg)2Cu3O10" Tl0.5Ba2Ca0.5Mg1.5Cu3.5O10-z Tl 0.5 Ba 2 Ca 0.5 Mg 1.5 Cu 3.5 O 10-z 2008 M1223 A 14.198 "(Cu,Tl)-1223" K 98 15 98 "Ba(NO3)2,Ca(NO3)2,Cu(CN),MgO" "precursor(Cu0.5Ba2Ca2-xMgxCu3O10) prepared by SIN(840C,24h).then mixed with Tl2O3" Enhanced inter-plane coupling of Mg doped Cu0.5Tl0.5Ba2Ca2-xMgxCu3O10-z superconductors: XPS and FTIR studies 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad 45320, Pakistan" "Physica C, 468(2008)405"
150613 PHC4680411 SIN(600C). not SC NbB2 B2Nb1 B 2 Nb 1 1 2008 AlB2 A 3.108 3.285 K 0 0 "NbB2,a-B" solid state reaction Structural phase evolution and superconductivity in the non-stoichiometric intermetallic compound niobium diboride 2008 "Department of Physics and Mathematics, Aoyama-Gakuin University, Sagamihara, Kanagawa 229-8558, Japan" "Physica C, 468(2008)411"
150614 PHC4680411 SIN(1000C) NbxB2 B2Nb0.83 B 2 Nb 0.83 1 2008 AlB2 A 3.102 3.322 K 9.77 9.77 MTC150614 "NbB2,a-B" solid state reaction Structural phase evolution and superconductivity in the non-stoichiometric intermetallic compound niobium diboride 2008 "Department of Physics and Mathematics, Aoyama-Gakuin University, Sagamihara, Kanagawa 229-8558, Japan" "Physica C, 468(2008)411"
150615 PHC4680411 SIN(1500C). not SC. NbxBy B1.92Nb0.86 B 1.92 Nb 0.86 1 2008 AlB2 A 3.082 3.303 K 0 0 "NbB2,a-B" solid state reaction Structural phase evolution and superconductivity in the non-stoichiometric intermetallic compound niobium diboride 2008 "Department of Physics and Mathematics, Aoyama-Gakuin University, Sagamihara, Kanagawa 229-8558, Japan" "Physica C, 468(2008)411"
150616 PHC4680411 ratio of Nb/B not determined. table values are tentative. NbB2 B2Nb1 B 2 Nb 1 1 2008 AlB2 K 5.53 5.53 mJ/mol.K2 3.69 SP 644 SP "high-P-synthesis (1500C, P=3-3.5 GPa)" Structural phase evolution and superconductivity in the non-stoichiometric intermetallic compound niobium diboride 2008 "Department of Physics and Mathematics, Aoyama-Gakuin University, Sagamihara, Kanagawa 229-8558, Japan" "Physica C, 468(2008)411"
150617 PHC4680411 ratio of Nb/B not determined. table values are tentative. NbB2 B2Nb1 B 2 Nb 1 1 2008 AlB2 K 6.13 6.13 mJ/mol.K2 3.82 SP 642 SP "high-P-synthesis (1500C, P=3-3.5 GPa)" Structural phase evolution and superconductivity in the non-stoichiometric intermetallic compound niobium diboride 2008 "Department of Physics and Mathematics, Aoyama-Gakuin University, Sagamihara, Kanagawa 229-8558, Japan" "Physica C, 468(2008)411"
150618 PHC4680411 ratio of Nb/B not determined. table values are tentative. (dC/gamma*Tc) = 0.71 NbB2 B2Nb1 B 2 Nb 1 1 2008 AlB2 K 7.83 7.83 2.78 14 mJ/mol.K2 3.99 SP 737 SP "high-P-synthesis (1500C, P=3-3.5 GPa)" Structural phase evolution and superconductivity in the non-stoichiometric intermetallic compound niobium diboride 2008 "Department of Physics and Mathematics, Aoyama-Gakuin University, Sagamihara, Kanagawa 229-8558, Japan" "Physica C, 468(2008)411"
150619 CEM0690093 LaRu2P2 La1Ru2P2 La 1 Ru 2 P 2 1987 ThCr2Si2 I4/nmm A 4.031 10.675 K 4.1 4.1 Superconducting LaRu2P2 and Other Alkaline Earth and Rare Earth Metal Ruthenium and Osmium Phosphides and Arsenides with ThCr2Si2 Structure 1987 "Anorganisch-Chemisches Institut, Universitat Munster, Corrensstrasse 36, D-4400 Munster, West Germany" "J.Solid State Chem., 69(1987)93"
150620 CEM0690093 CaRu2P2 Ca1Ru2P2 Ca 1 Ru 2 P 2 1987 ThCr2Si2 I4/nmm A 4.048 9.773 K 1.8 Superconducting LaRu2P2 and Other Alkaline Earth and Rare Earth Metal Ruthenium and Osmium Phosphides and Arsenides with ThCr2Si2 Structure 1987 "Anorganisch-Chemisches Institut, Universitat Munster, Corrensstrasse 36, D-4400 Munster, West Germany" "J.Solid State Chem., 69(1987)93"
150621 CEM0690093 SrRu2P2 Sr1Ru2P2 Sr 1 Ru 2 P 2 1987 ThCr2Si2 I4/nmm A 4.032 11.122 K 1.8 Superconducting LaRu2P2 and Other Alkaline Earth and Rare Earth Metal Ruthenium and Osmium Phosphides and Arsenides with ThCr2Si2 Structure 1987 "Anorganisch-Chemisches Institut, Universitat Munster, Corrensstrasse 36, D-4400 Munster, West Germany" "J.Solid State Chem., 69(1987)93"
150622 CEM0690093 BaRu2P2 Ba1Ru2P2 Ba 1 Ru 2 P 2 1987 ThCr2Si2 I4/nmm A 4.031 12.062 K 1.8 Superconducting LaRu2P2 and Other Alkaline Earth and Rare Earth Metal Ruthenium and Osmium Phosphides and Arsenides with ThCr2Si2 Structure 1987 "Anorganisch-Chemisches Institut, Universitat Munster, Corrensstrasse 36, D-4400 Munster, West Germany" "J.Solid State Chem., 69(1987)93"
150623 CEM0690093 YRu2P2 Y1Ru2P2 Y 1 Ru 2 P 2 1987 ThCr2Si2 I4/nmm A 4.03 9.545 K 1.8 Superconducting LaRu2P2 and Other Alkaline Earth and Rare Earth Metal Ruthenium and Osmium Phosphides and Arsenides with ThCr2Si2 Structure 1987 "Anorganisch-Chemisches Institut, Universitat Munster, Corrensstrasse 36, D-4400 Munster, West Germany" "J.Solid State Chem., 69(1987)93"
150624 CEM0690093 SrOs2P2 Sr1Os2P2 Sr 1 Os 2 P 2 1987 ThCr2Si2 I4/nmm A 4.035 11.283 K 1.8 Superconducting LaRu2P2 and Other Alkaline Earth and Rare Earth Metal Ruthenium and Osmium Phosphides and Arsenides with ThCr2Si2 Structure 1987 "Anorganisch-Chemisches Institut, Universitat Munster, Corrensstrasse 36, D-4400 Munster, West Germany" "J.Solid State Chem., 69(1987)93"
150625 CEM0690093 BaOs2P2 Ba1Os2P2 Ba 1 Os 2 P 2 1987 ThCr2Si2 I4/nmm A 4.028 12.193 K 1.8 Superconducting LaRu2P2 and Other Alkaline Earth and Rare Earth Metal Ruthenium and Osmium Phosphides and Arsenides with ThCr2Si2 Structure 1987 "Anorganisch-Chemisches Institut, Universitat Munster, Corrensstrasse 36, D-4400 Munster, West Germany" "J.Solid State Chem., 69(1987)93"
150626 LES1130231 LaIr2Ge2 La1Ir2Ge2 La 1 Ir 2 Ge 2 1985 CaBe2Ge2 P4/nmm A 4.273 10.134 K 1.5 1.5 "De nouvelles Series de Germaniures, Isotypes de U4Re7Si6, ThCr2Si2 et CaBe2Ge2, dans less Systemes Ternarires R-T-Ge ou R est un Element des Terres Rares et T = Ru,Os,Rh,Ir: Superconductivite de LaIr2Ge2" 1985 "J.Less-Comm.Metals,113(1985)231"
150627 SSC1470111 "impurity phases: BaNi9P5(9%),Ba(PO3)2(2%), BaNi2(PO4)2 (1%)" BaNi2P2 Ba1Ni2P2 Ba 1 Ni 2 P 2 2008 ThCr2Si2 I4/nmm K 2.7 3 3 3 Oe 150 1.9 Oe 550 1.9 mOhm.cm 2.8 "Ba,P,Ni" 1 "solid state reaction. mixture(powder sample) - pellet - heat(400C,12h) - SIN(1000C,12h, in evacuated silica tube)" "Nickel-based phosphide superconductor with infinite-layer structure, BaNi2P2" 2008 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 147(2008)111"
150628 EP08217009 "(La,Sr)OFeAs" La0.87Sr0.13Fe1As1O1 La 0.87 Sr 0.13 Fe 1 As 1 O 1 2008 oxypnictide A 4.035 8.771 K 15 25.6 20.3 TC150628 E-8 m3/C 0.06 RH150628 "mixture(Fe,As) - heat(700C,10h), then mix(FeAs powder + SrCO3 + La2O3 + La) - heat(940C,4h + 1150C,48h,in sealed quartz tube)" Superconductivity at 25K in hole-doped (La1-xSrx)OFeAs 2008 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences - P.O. Box 603, Beijing 100080, PRC" "EuroPhys.Lett., 82(2008)17009"
150629 EP08217009 "impurity phases: FeAs,LaAs. Tc shows Tc(on)." "La(O,F)FeAs" La1Fe1As1F0.1O0.9 La 1 Fe 1 As 1 F 0.1 O 0.9 2008 oxypnictide K 25.8 25.8 TC150629 "mixture(Fe,As) - heat(700C,10h), then mix(FeAs powder + SrCO3 + La2O3 + La) - heat(940C,4h + 1150C,48h,in sealed quartz tube)" Superconductivity at 25K in hole-doped (La1-xSrx)OFeAs 2008 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences - P.O. Box 603, Beijing 100080, PRC" "EuroPhys.Lett., 82(2008)17009"
150630 L100247005 interlayer spacing d = 9.37.. LixHfNCl Li0.37Hf1N1Cl1 Li 0.37 Hf 1 N 1 Cl 1 2008 K 20 20 MTC150630 93 Interlayer-Spacing Dependence of Tc in LixMyHfNCl (M: Molecule) Superconductors 2008 "Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan" "Phys.Rev.Lett., 100(2008)247005"
150631 L100247005 M=NH3. interlayer spacing d = 12.1. LixMyHfNCl Li0.37M0.3Hf1N1Cl1 Li 0.37 M 0.3 Hf 1 N 1 Cl 1 2008 K 22.5 22.5 MTC150630 Interlayer-Spacing Dependence of Tc in LixMyHfNCl (M: Molecule) Superconductors 2008 "Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan" "Phys.Rev.Lett., 100(2008)247005"
150632 L100247005 M=THF(tetrahydrofuran). interlayer spacing d = 13.6. LixMyHfNCl Li0.37M0.2Hf1N1Cl1 Li 0.37 M 0.2 Hf 1 N 1 Cl 1 2008 K 25.6 25.6 MTC150630 Interlayer-Spacing Dependence of Tc in LixMyHfNCl (M: Molecule) Superconductors 2008 "Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan" "Phys.Rev.Lett., 100(2008)247005"
150633 L100247005 M=PC(propylene carbonate). interlayer spacing d = 22.1 LixMyHfNCl Li0.37M0.2Hf1N1Cl1 Li 0.37 M 0.2 Hf 1 N 1 Cl 1 2008 K 25 25 Interlayer-Spacing Dependence of Tc in LixMyHfNCl (M: Molecule) Superconductors 2008 "Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan" "Phys.Rev.Lett., 100(2008)247005"
150634 L093237005 diamond film with B in E+20 - E+21 /cm3. thickness d = 3.0 micron-m. carrier n = 9 E+20 /cm3. ratio (B/C) = 1730 ppm. B-doped diamond C1 C 1 2004 diamond K 0.9 0.9 MTC150635 T/K 1 MHC150634 substrate: [001]1b diamond. 0.5 buffer layer at 820C. dibrome introduced in the vertical Si wall reactor in (B/C) = 1500 - 3000 ppm Dependence of the Superconducting Transition Temperature on the Doping Level in Single-Crystalline Diamond Films 2004 "Laboratoire d'Etudes des Proprietes Electroniques des Solides, CNRS, B.P.166, 38042 Grenoble Cedex 9, France" "Phys.Rev.Lett., 93(2004)237005"
150635 L093237005 diamond film with B in E+20 - E+21 /cm3. thickness d = 0.15 micron-m. carrier n = 19 E+20 /cm3. ratio (B/C) = 2800 ppm. B-doped diamond C1 C 1 2004 diamond K 2.1 2 2 MTC150635 T "RES, Tc(on)" 1.4 T/K 1 MHC150634 A 150 substrate: [001]1b diamond. 0.5 buffer layer at 820C. dibrome introduced in the vertical Si wall reactor in (B/C) = 1500 - 3000 ppm Dependence of the Superconducting Transition Temperature on the Doping Level in Single-Crystalline Diamond Films 2004 "Laboratoire d'Etudes des Proprietes Electroniques des Solides, CNRS, B.P.166, 38042 Grenoble Cedex 9, France" "Phys.Rev.Lett., 93(2004)237005"
150636 NAT4280542 B-doped diamond. grain size = a few micron-meter. carrier n => 2E+21 /cm3. d(lnTc)/dP = 0.0279 /GPa. B-doped diamond C1 C 1 2004 diamond K 2.9 4 2.9 K/GPa -0.0642 T "resistive,WHH" 3.4 T/K 1.7 A 100 "high-pressure synthesis(100000 ATM, 2500-2800K). (B4C + graphite) - heat(8-9 GPa, 2500-2800 K, 5s)" Superconductivity in diamond 2004 "Vereshchagin Institute for High Pressure Physics, Russian Academy of Sciences, 142190 Troitsk, Moscow region, Russia" "Nature, 428(2004)542"
150637 L100227001 Hc2 measured by Andreev bound states(ABS) using 24 and 30 degree GBJ(grain boundary junction). Hc2(0) = 25 T by ABS method. "(La,Ce)2CuO4" La1.92Ce0.08Cu1O4 La 1.92 Ce 0.08 Cu 1 O 4 2008 T' K 29 29 T Andreev junction 25 HC150637 900 nm films were deposited by MBE on SrTiO3 symmetric [001]-tilt bicrystal substrates. Phase Diagram of the Electron-Doped La2-xCexCuO4 Cuprate Superconductor from Andreev Bound States at Grain Boundary Junctions 2008 "Physikalisches Institut?Experimentalphysik II and Center for Collective Quantum Phenomena, Universitat Tubingen, Auf der Morgenstelle 14, D-72076 Tubingen, Germany" "Phys.Rev.Lett., 100(2008)227001"
150638 L101017005 P-induced SC. Tc shows Tc(max). Hc2(0) and cohere(0) at P=15.2 kbar. "(Ce,La)RhIn5" Ce0.9La0.1Rh1In5 Ce 0.9 La 0.1 Rh 1 In 5 3 2008 HoCoGa5 K 1.6 0.3 1.6 MTC150638 T 8 MHC150638 A 60 single crystals grown by In-flux method Tuning the Pressure-Induced Superconducting Phase in Doped CeRhIn5 2008 "Instituto de F?sica Gleb Wataghin, UNICAMP, C.P. 6165, 13083-970, Campinas, Brazil" "Phys.Rev.Lett., 100(2008)017005"
150639 L101017005 P-induced SC. Tc shows Tc(max). Hc2(0) and cohere(0) at P=15.2 kbar. P(crit) = 4 kbar. "CeRh(In,Sn)5" Ce1Rh1In4.84Sn0.16 Ce 1 Rh 1 In 4.84 Sn 0.16 3 2008 HoCoGa5 K 1.2 0.3 1.2 MTC150639 T 7 MHC150639 A 70 single crystals grown by In-flux method Tuning the Pressure-Induced Superconducting Phase in Doped CeRhIn5 2008 "Instituto de F?sica Gleb Wataghin, UNICAMP, C.P. 6165, 13083-970, Campinas, Brazil" "Phys.Rev.Lett., 100(2008)017005"
150640 P077212502 NpPd5Al2 Np1Pd5Al2 Np 1 Pd 5 Al 2 3 2008 myu-B 3.02 -42 ZrNi2Al5 I4/mmm A 4.141 14.6851 K 5 5 mT 10 2 T 15 4.3 T/K 5.2 3.3 MHC150640 mJ/mol.K2 190 uV/K MTP150640 MRH150640 arc-melting Transport and magnetic properties of the superconductor NpPd5Al2 2008 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, Karlsruhe 76125, Germany" "Phys.Rev., 77(2008)212502"
150641 P077212503 delta-MoN Mo1N1 Mo 1 N 1 2008 delta-phase K 13.5 13.5 T 9.6 MHC150641 A 60 MJC150641 "MoN by reacting Mo-coated carbon fibers in 1 atm stream of ammonia gas(NH3) at 850-1000C. (900C,90min is the best)" Critical current behavior of superconducting MoN and Mo3Sb7 microfibers 2008 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana 70803, USA" "Phys.Rev., 77(2008)212503"
150642 P077212503 Mo3Sb7 Mo3Sb7 Mo 3 Sb 7 2008 Ir3Ge7 K 7.5 7.5 T 9.6 MHC150641 A 60 MJC150642 "Mo-coated carbon fibers in evacuated quartz tube with Sb shot - heat(900C,80min) - Q to RT" Critical current behavior of superconducting MoN and Mo3Sb7 microfibers 2008 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana 70803, USA" "Phys.Rev., 77(2008)212503"
150643 P077214507 "formula-weight = 45.44, unit cell volume = 29.09 A^3" MgB2 B2Mg0.98 B 2 Mg 0.98 3 2008 AlB2 A 3.0875 3.5239 K 38.4 38.5 38.4 High-pressure synthesis MgB2 single crystals substituted with Li and with Li-C: Structural and superconducting properties 2008 "Laboratory for Solid State Physics, Eidgenossische Technische Hochschule, 8093 Zurich, Switzerland" "Phys.Rev., 77(2008)214507"
150644 P077214507 "formula-weight = 45.06, unit cell volume = 28.968 A^3" "(Mg,Li)B2" Mg0.95Li0.05B2 Mg 0.95 Li 0.05 B 2 3 2008 AlB2 A 3.0837 3.5176 K 38.25 38.5 38.25 LAT150644 High-pressure synthesis MgB2 single crystals substituted with Li and with Li-C: Structural and superconducting properties 2008 "Laboratory for Solid State Physics, Eidgenossische Technische Hochschule, 8093 Zurich, Switzerland" "Phys.Rev., 77(2008)214507"
150645 P077214507 "formula-weight = 44.19, unit cell volume = 28.91 A^3" "(Mg,Li)B2" Mg0.9Li0.1B2 Mg 0.9 Li 0.1 B 2 3 2008 AlB2 K 35.55 35.6 35.55 MTC150645 High-pressure synthesis MgB2 single crystals substituted with Li and with Li-C: Structural and superconducting properties 2008 "Laboratory for Solid State Physics, Eidgenossische Technische Hochschule, 8093 Zurich, Switzerland" "Phys.Rev., 77(2008)214507"
150646 P077214507 "(Mg,Li)B2" Mg0.92Li0.08B2 Mg 0.92 Li 0.08 B 2 3 2008 AlB2 K 38 38 T MHC150646 High-pressure synthesis MgB2 single crystals substituted with Li and with Li-C: Structural and superconducting properties 2008 "Laboratory for Solid State Physics, Eidgenossische Technische Hochschule, 8093 Zurich, Switzerland" "Phys.Rev., 77(2008)214507"
150647 P077214507 "formula-weight = 44.02, unit cell volume = 28.89 A^3" "(Mg,Li)B2" Mg0.89Li0.11B2 Mg 0.89 Li 0.11 B 2 3 2008 AlB2 A 3.0826 3.5109 K 35.3 35.8 35.3 T MHC150647 High-pressure synthesis MgB2 single crystals substituted with Li and with Li-C: Structural and superconducting properties 2008 "Laboratory for Solid State Physics, Eidgenossische Technische Hochschule, 8093 Zurich, Switzerland" "Phys.Rev., 77(2008)214507"
150648 P077214507 "Mg(B,C)2" Mg1B1.9C0.1 Mg 1 B 1.9 C 0.1 3 2008 AlB2 K 34.3 34.3 T MHC150648 High-pressure synthesis MgB2 single crystals substituted with Li and with Li-C: Structural and superconducting properties 2008 "Laboratory for Solid State Physics, Eidgenossische Technische Hochschule, 8093 Zurich, Switzerland" "Phys.Rev., 77(2008)214507"
150649 P077214507 "formula-weight = 44.94, unit cell volume = 28.84 A^3" "(Mg,Li)(B,C)2" Mg0.94Li0.06B1.96C0.04 Mg 0.94 Li 0.06 B 1.96 C 0.04 3 2008 AlB2 A 3.075 3.522 K 35.6 35.8 35.6 High-pressure synthesis MgB2 single crystals substituted with Li and with Li-C: Structural and superconducting properties 2008 "Laboratory for Solid State Physics, Eidgenossische Technische Hochschule, 8093 Zurich, Switzerland" "Phys.Rev., 77(2008)214507"
150650 P077214507 "formula-weight = 44.56, unit cell volume = 28.46 A^3" "(Mg,Li)(B,C)2" Mg0.91Li0.09B1.84C0.16 Mg 0.91 Li 0.09 B 1.84 C 0.16 3 2008 AlB2 A 3.0561 3.519 K 30.15 30.6 30.15 High-pressure synthesis MgB2 single crystals substituted with Li and with Li-C: Structural and superconducting properties 2008 "Laboratory for Solid State Physics, Eidgenossische Technische Hochschule, 8093 Zurich, Switzerland" "Phys.Rev., 77(2008)214507"
150651 P077214507 "formula-weight = 44.41, unit cell volume = 28.43 A^3" "(Mg,Li)(B,C)2" Mg0.9Li0.1B1.82C0.18 Mg 0.9 Li 0.1 B 1.82 C 0.18 3 2008 AlB2 A 3.053 3.522 K 28.5 28.5 28.5 High-pressure synthesis MgB2 single crystals substituted with Li and with Li-C: Structural and superconducting properties 2008 "Laboratory for Solid State Physics, Eidgenossische Technische Hochschule, 8093 Zurich, Switzerland" "Phys.Rev., 77(2008)214507"
150652 P077214507 "formula-weight = 44.16, unit cell volume = 28.58 A^3" "(Mg,Li)(B,C)2" Mg0.89Li0.11B1.88C0.12 Mg 0.89 Li 0.11 B 1.88 C 0.12 3 2008 AlB2 A 3.0602 3.5243 K 29.9 30.2 29.9 T MHC150652 High-pressure synthesis MgB2 single crystals substituted with Li and with Li-C: Structural and superconducting properties 2008 "Laboratory for Solid State Physics, Eidgenossische Technische Hochschule, 8093 Zurich, Switzerland" "Phys.Rev., 77(2008)214507"
150653 P077214524 optimally doped. LTO-LTT transition at 77 K. "(La,Nd,Sr)2CuO4" La1.45Nd0.4Sr0.15Cu1O4 La 1.45 Nd 0.4 Sr 0.15 Cu 1 O 4 3 2008 T K 13.6 30 21.8 single crystals grown by TSFZ method Two-dimensional superconductivity in stripe-ordered La1.6-xNd0.4SrxCuO4 single crystals 2008 "Hefei National Laboratory for Physical Sciences at Microscale, Department of Physics, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev., 77(2008)214524"
150654 PHB3780142 "not SC. Tn decreases as increasing x, and goes to zero at x = 0.35." "CeRh(In,Sn)5" Ce1Rh1In4.88Sn0.12 Ce 1 Rh 1 In 4.88 Sn 0.12 3 2006 HoCoGa5 K 0.5 MTN150654 Antiferromagnetic quantum critical point in CeRhIn5-xSnx 2006 "Los Alamos National Laboratory, Los Alamos, NM 87545, USA" "Physica B, 378-380(2006)142"
150655 PSS2360412 penetration depth measured by mutual inductance technique. "(La,Ce)2CuO4" La1.925Ce0.075Cu1O4 La 1.925 Ce 0.075 Cu 1 O 4 5 2003 T' K 25 25 T 7 MBE method Vortex pinning in electron-doped cuprate superconductor La2-xCexCuO4 2003 "Department of Physics, Ohio State University, Columbus, OH 43210, USA" "phys.stat.sol.(b), 236(2003)412"
150656 PSS2360412 penetration depth measured by mutual inductance technique. "(La,Ce)2CuO4" La1.89Ce0.11Cu1O4 La 1.89 Ce 0.11 Cu 1 O 4 5 2003 T' K 29 29 T 9 MBE method Vortex pinning in electron-doped cuprate superconductor La2-xCexCuO4 2003 "Department of Physics, Ohio State University, Columbus, OH 43210, USA" "phys.stat.sol.(b), 236(2003)412"
150657 PSS2360412 penetration depth measured by mutual inductance technique. "(La,Ce)2CuO4" La1.865Ce0.135Cu1O4 La 1.865 Ce 0.135 Cu 1 O 4 5 2003 T' K 21.2 21.2 T 10 MBE method Vortex pinning in electron-doped cuprate superconductor La2-xCexCuO4 2003 "Department of Physics, Ohio State University, Columbus, OH 43210, USA" "phys.stat.sol.(b), 236(2003)412"
150658 PR05802952 it composed of 5-15nm Be nanocrystallites.(amorphous-like XRD). d=4.0 nm. R(T) shows hysteresis for H//plane. tricritical point=190 mK. Be Be1 Be 1 4 1998 K 0.6 0.6 MHC150658 thermally evaporating 99.5 % pure Be powder onto fire-polished glass substrates held at 84 K. First-order spin-paramagnetic transition and tricritical point in ultrathin Be films 1998 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana 70803" "Phys.Rev.B, 85(1998)2952"
150659 PRL0731412 R(H) shows great hysteresis for H//plane at a fixed T. tricritical point=250 mK. Al Al1 Al 1 4 1994 K 1.8 1.8 MHC150659 films were made by a standard electrochemical anodizetion process which reduced 20 nm Al films evaporated on glass substrates. Superconductor-insulator transition in a parallel magnetic field 1994 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana 70803" "Phys.Rev.Lett., 73(1994)1412"
150660 PRL0813765 eutectic structure of Sr2RuO4 and Ru. Hc2 defined as Tc(mid). anisotropy (pcohere/ncohere) = 3.6 at 0 K. Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 1998 Sr2RuO4 K 2.69 2.69 T resistive 3.64 1.04 HC150660 A 180 50 single crystals grown by floating zone method with Ru self-flux using Ru-rich feed and/or faster growth rate. Enhancement of Superconductivity of Sr2RuO4 to 3 K by Embedded Metallic Microdomains 1998 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" Phys.Rev.Lett.81(1998)3765
150661 P077214514 Tc defined as a sudden drop in microwave absorption. Tm : the peak of microwave absorption. RuSr2EuCu2O8 Ru1Sr2Eu1Cu2O8 Ru 1 Sr 2 Eu 1 Cu 2 O 8 1 2008 128 Ru1212 K 32.9 32.9 19.1 5 HC150661 solid state reaction "Microwave and magnetotransport properties of RuSr2RCu2O8 (R=Eu,Gd) doped with Sn" 2008 "Department of Physics, Faculty of Science, University of Zagreb, P.O. Box 331, HR-10002 Zagreb, Croatia" "Phys.Rev.B, 77(2008)214514"
150662 P077214514 Tc defined as a sudden drop in microwave absorption. Tm : the peak of microwave absorption. "(Ru,Sn)Sr2EuCu2O8" Ru0.9Sn0.1Sr2Eu1Cu2O8 Ru 0.9 Sn 0.1 Sr 2 Eu 1 Cu 2 O 8 1 2008 85.5 Ru1212 K 28.4 28.4 25 5 solid state reaction "Microwave and magnetotransport properties of RuSr2RCu2O8 (R=Eu,Gd) doped with Sn" 2008 "Department of Physics, Faculty of Science, University of Zagreb, P.O. Box 331, HR-10002 Zagreb, Croatia" "Phys.Rev.B, 77(2008)214514"
150663 P077214514 Tc defined as a sudden drop in microwave absorption. Tm : the peak of microwave absorption. "(Ru,Sn)Sr2EuCu2O8" Ru0.8Sn0.2Sr2Eu1Cu2O8 Ru 0.8 Sn 0.2 Sr 2 Eu 1 Cu 2 O 8 1 2008 82.5 Ru1212 K 30.3 30.3 24 5 solid state reaction "Microwave and magnetotransport properties of RuSr2RCu2O8 (R=Eu,Gd) doped with Sn" 2008 "Department of Physics, Faculty of Science, University of Zagreb, P.O. Box 331, HR-10002 Zagreb, Croatia" "Phys.Rev.B, 77(2008)214514"
150664 P077214514 Tc defined as a sudden drop in microwave absorption. Tm : the peak of microwave absorption. "(Ru,Sn)Sr2EuCu2O8" Ru0.7Sn0.3Sr2Eu1Cu2O8 Ru 0.7 Sn 0.3 Sr 2 Eu 1 Cu 2 O 8 1 2008 Ru1212 K 29.5 29.5 26 5 HC150661 solid state reaction "Microwave and magnetotransport properties of RuSr2RCu2O8 (R=Eu,Gd) doped with Sn" 2008 "Department of Physics, Faculty of Science, University of Zagreb, P.O. Box 331, HR-10002 Zagreb, Croatia" "Phys.Rev.B, 77(2008)214514"
150665 P077214514 Tc defined as a sudden drop in microwave absorption. Tm : the peak of microwave absorption. "(Ru,Sn)Sr2EuCu2O8" Ru0.6Sn0.4Sr2Eu1Cu2O8 Ru 0.6 Sn 0.4 Sr 2 Eu 1 Cu 2 O 8 1 2008 Ru1212 K 24.2 24.2 17 5 solid state reaction "Microwave and magnetotransport properties of RuSr2RCu2O8 (R=Eu,Gd) doped with Sn" 2008 "Department of Physics, Faculty of Science, University of Zagreb, P.O. Box 331, HR-10002 Zagreb, Croatia" "Phys.Rev.B, 77(2008)214514"
150666 P077214514 Tc defined as a sudden drop in microwave absorption. Tm : the peak of microwave absorption. RuSr2GdCu2O8 Ru1Sr2Gd1Cu2O8 Ru 1 Sr 2 Gd 1 Cu 2 O 8 1 2008 132 Ru1212 K 50.7 50.7 HC150666 solid state reaction "Microwave and magnetotransport properties of RuSr2RCu2O8 (R=Eu,Gd) doped with Sn" 2008 "Department of Physics, Faculty of Science, University of Zagreb, P.O. Box 331, HR-10002 Zagreb, Croatia" "Phys.Rev.B, 77(2008)214514"
150667 P077214514 Tc defined as a sudden drop in microwave absorption. Tm : the peak of microwave absorption. "(Ru,Sn)Sr2GdCu2O8" Ru0.8Sn0.2Sr2Gd1Cu2O8 Ru 0.8 Sn 0.2 Sr 2 Gd 1 Cu 2 O 8 1 2008 70.4 Ru1212 K 48.1 48.1 HC150666 solid state reaction "Microwave and magnetotransport properties of RuSr2RCu2O8 (R=Eu,Gd) doped with Sn" 2008 "Department of Physics, Faculty of Science, University of Zagreb, P.O. Box 331, HR-10002 Zagreb, Croatia" "Phys.Rev.B, 77(2008)214514"
150668 P077224410 "Td1(HTT-MTO transition) = 305 K, Td2(MTO-LTT transition) = 35 K, incommensulability : delta = 0.107" "(La,Ba)2CuO4" La1.92Ba0.08Cu1O4 La 1.92 Ba 0.08 Cu 1 O 4 3 2008 39 T K 29 29 Floating zone image furnace Incommensurate spin ordering and fluctuations in underdoped La2-xBaxCuO4 2008 "Department of Physics and Astronomy, McMaster University, Hamilton, Ontario, Canada L8S 4M1" "Phys.Rev.B, 77(2008)224410"
150669 P077224410 "Td1(HTT-MTO transition) = 272 K, Td2(MTO-LTT transition) = 45 K, incommensulability : delta = 0.112" "(La,Ba)2CuO4" La1.905Ba0.095Cu1O4 La 1.905 Ba 0.095 Cu 1 O 4 3 2008 39.5 T K 27 27 Floating zone image furnace Incommensurate spin ordering and fluctuations in underdoped La2-xBaxCuO4 2008 "Department of Physics and Astronomy, McMaster University, Hamilton, Ontario, Canada L8S 4M1" "Phys.Rev.B, 77(2008)224410"
150670 P077224410 "Td1(HTT-MTO transition) = 232 K, Td2(MTO-LTT transition) = 60 K, incommensulability : delta = 0.118" "(La,Ba)2CuO4" La1.875Ba0.125Cu1O4 La 1.875 Ba 0.125 Cu 1 O 4 3 2008 50 T K 4 4 Floating zone image furnace Incommensurate spin ordering and fluctuations in underdoped La2-xBaxCuO4 2008 "Department of Physics and Astronomy, McMaster University, Hamilton, Ontario, Canada L8S 4M1" "Phys.Rev.B, 77(2008)224410"
150671 P078014502 SC properties obtained from TF-muonSR data. GL parameter = 55 at 0 K. Mo3Sb7 Mo3Sb7 Mo 3 Sb 7 3 2008 Ir3Ge7 K 2.1 2.1 mT muon-SR 1.8 T muon-SR 1.9 A 130 A muon-SR 7200 meV 0.35 3.83 16 peritectic reaction between Mo and liquid Sb. Muon-spin rotation measurements of the penetration depth of the Mo3Sb7 superconductor 2008 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 78(2008)014502"
150672 P077224503 impurity phase(LaCuO2.5)}}} LaONiAs La1Ni1As1O1 La 1 Ni 1 As 1 O 1 1 2008 oxypnictide P4/nmm A 4.1231 8.1885 ZrCuSiAs-type K 2.4 2.4 20 Oe 15 1.8 Oe 400 1.8 mOhm.cm 3.5 "La,As(3N),NiO(3N)" 1 "LaAs by heating (400C,12h) + (700C,6h), then press(LaAs+NiO) - pellet - heat(1000C,1d, in evacuated silica tube)" "Nickel-based layered superconductor, LaNiOAs" 2008 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" cond-mat/0805.4340(2008)
150747 MAT8064215 "Tc defined as 0.8Rn. R(min) at 70 K. Hc2 defined as R(onset), R(off), and TDO(Tunnel Diode Oscillator method)" "La(O,F)FeAs" La1Fe1As1F0.05O0.95 La 1 Fe 1 As 1 F 0.05 O 0.95 0.95 1 2008 oxypnictide ZrCuSiAs-type K 26.3 26.3 HC150747 RH150747 E+21/cm3 2.99 solid state reaction Hall coefficient and Hc2 in underdoped LaFeAsO0.95F0.05 2008 "MPA-NHMFL, Los Alamos National Laboratory, Los Alamos, New Mexico 87545" cond-mat/0806.4215(2008)
150748 MAT8072223 SrFe2As2 Sr1Fe2As2 Sr 1 Fe 2 As 2 1 2008 A 3.924 12.34 K 1.8 "SrAs,Co2As,Fe2As" "(powder mixture) - (welded in Ta container) - (sealed in quartz) - heat(900C,16h)" Superconductivity in SrFe2-xCoxAs2: Internal Doping of the Iron Arsenide Layers 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Str. 40, 01187 Dresden, Germany" cond-mat/0807.2223
150749 MAT8072223 "Sr(Fe,Co)2As2" Sr1Fe1.85Co0.15As2 Sr 1 Fe 1.85 Co 0.15 As 2 1 2008 emu/mol 0.00078 3.9272 12.3123 K 1.8 mOhm.cm 0.008 "SrAs,Co2As,Fe2As" "(powder mixture) - (welded in Ta container) - (sealed in quartz) - heat(900C,16h)" Superconductivity in SrFe2-xCoxAs2: Internal Doping of the Iron Arsenide Layers 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Str. 40, 01187 Dresden, Germany" cond-mat/0807.2223
150750 MAT8072223 (dC/Tc) = 10 mJ/mol.K2 "Sr(Fe,Co)2As2" Sr1Fe1.8Co0.2As2 Sr 1 Fe 1.8 Co 0.2 As 2 1 2008 emu/mol 0.0006 3.9278 12.3026 K 19.2 19.2 MTC150750 mJ/mol.K2 12.6 255 "SrAs,Co2As,Fe2As" "(powder mixture) - (welded in Ta container) - (sealed in quartz) - heat(900C,16h)" Superconductivity in SrFe2-xCoxAs2: Internal Doping of the Iron Arsenide Layers 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Str. 40, 01187 Dresden, Germany" cond-mat/0807.2223
150751 MAT8072223 "Sr(Fe,Co)2As2" Sr1Fe1.75Co0.25As2 Sr 1 Fe 1.75 Co 0.25 As 2 1 2008 3.9296 12.2925 K 18.1 18.1 "SrAs,Co2As,Fe2As" "(powder mixture) - (welded in Ta container) - (sealed in quartz) - heat(900C,16h)" Superconductivity in SrFe2-xCoxAs2: Internal Doping of the Iron Arsenide Layers 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Str. 40, 01187 Dresden, Germany" cond-mat/0807.2223
150752 MAT8072223 "Sr(Fe,Co)2As2" Sr1Fe1.6Co0.4As2 Sr 1 Fe 1.6 Co 0.4 As 2 1 2008 emu/mol 0.00036 3.9293 12.2711 K 12.9 12.9 "SrAs,Co2As,Fe2As" "(powder mixture) - (welded in Ta container) - (sealed in quartz) - heat(900C,16h)" Superconductivity in SrFe2-xCoxAs2: Internal Doping of the Iron Arsenide Layers 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Str. 40, 01187 Dresden, Germany" cond-mat/0807.2223
150753 MAT8072223 "Sr(Fe,Co)2As2" Sr1Fe1.5Co0.5As2 Sr 1 Fe 1.5 Co 0.5 As 2 1 2008 3.9287 12.2187 K 1.8 mOhm.cm 0.002 "SrAs,Co2As,Fe2As" "(powder mixture) - (welded in Ta container) - (sealed in quartz) - heat(900C,16h)" Superconductivity in SrFe2-xCoxAs2: Internal Doping of the Iron Arsenide Layers 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Str. 40, 01187 Dresden, Germany" cond-mat/0807.2223
150754 MAT8072223 "Sr(Fe,Co)2As2" Sr1Fe1Co1As2 Sr 1 Fe 1 Co 1 As 2 1 2008 myu-B/f.u 2.06 -29 3.9618 11.6378 K 1.8 "SrAs,Co2As,Fe2As" "(powder mixture) - (welded in Ta container) - (sealed in quartz) - heat(900C,16h)" Superconductivity in SrFe2-xCoxAs2: Internal Doping of the Iron Arsenide Layers 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Str. 40, 01187 Dresden, Germany" cond-mat/0807.2223
150755 MAT8082026 "P-induced SC. R not to zero at P=2.0 GPa, T=1.8 K. Pcrit = 2.0 GPa. SC properties at P=2.16 GPa. SDW-temperature = 180 K." EuFe2As2 Eu1Fe2As2 Eu 1 Fe 2 As 2 3 2008 20 ThCr2Si2 K 29.5 0 29.5 MTC150755 T/K 0.368 mOhm.cm 1.6 Bridgman method Possible re-entrant superconductivity in EuFe2As2 under pressure 2008 "Max Planck Institute for Chemical Physics of Solids, Nothnitzer Str. 40, 01187 Dresden, Germany" cond-mat/0808.2026:PRB079212509
150800 NAS0741334 Tc was measured for MRh4B4 + 2[RhB] material. structure type not clear. TmRh4B4 Tm1Rh4B4 Tm 1 Rh 4 B 4 1977 AB4C4 RT4B4 K 9.73 9.86 9.86 High superconducting transition temperatures of new rare earth ternary borides 1977 "Bell Laboratories, Murray Hill,New Jersey" "Proc.Natl.Acad.Sci.USA, 74(1977)1334"
150801 NAS0741334 Tc was measured for MRh4B4 + 2[RhB] material. structure type not clear. LuRh4B4 Lu1Rh4B4 Lu 1 Rh 4 B 4 1977 AB4C4 RT4B4 K 11.54 11.76 11.76 High superconducting transition temperatures of new rare earth ternary borides 1977 "Bell Laboratories, Murray Hill,New Jersey" "Proc.Natl.Acad.Sci.USA, 74(1977)1334"
150802 NAS0741334 Tc was measured for MRh4B4 + 2[RhB] material. structure type not clear. "(Lu,Th)Rh4B4" Lu0.75Th0.25Rh4B4 Lu 0.75 Th 0.25 Rh 4 B 4 1977 AB4C4 RT4B4 K 11.3 11.93 11.93 High superconducting transition temperatures of new rare earth ternary borides 1977 "Bell Laboratories, Murray Hill,New Jersey" "Proc.Natl.Acad.Sci.USA, 74(1977)1334"
150803 NAS0741334 Tc was measured for MRh4B4 + 2[RhB] material. structure type not clear. "(Sc,Th)Rh4B4" Sc0.75Th0.25Rh4B4 Sc 0.75 Th 0.25 Rh 4 B 4 1977 AB4C4 RT4B4 K 8.49 8.74 8.74 High superconducting transition temperatures of new rare earth ternary borides 1977 "Bell Laboratories, Murray Hill,New Jersey" "Proc.Natl.Acad.Sci.USA, 74(1977)1334"
150804 NAS0741334 Tc was measured for MRh4B4 + 2[RhB] material. structure type not clear. ThRh4B4 Th1Rh4B4 Th 1 Rh 4 B 4 1977 AB4C4 RT4B4 K 4.29 4.34 4.34 High superconducting transition temperatures of new rare earth ternary borides 1977 "Bell Laboratories, Murray Hill,New Jersey" "Proc.Natl.Acad.Sci.USA, 74(1977)1334"
150805 NAS0741334 structure type not clear. GdRh4B4 Gd1Rh4B4 Gd 1 Rh 4 B 4 1977 5.62 AB4C4 RT4B4 K 1 High superconducting transition temperatures of new rare earth ternary borides 1977 "Bell Laboratories, Murray Hill,New Jersey" "Proc.Natl.Acad.Sci.USA, 74(1977)1334"
150806 NAS0741334 structure type not clear. TbRh4B4 Tb1Rh4B4 Tb 1 Rh 4 B 4 1977 7.08 AB4C4 RT4B4 K 1 High superconducting transition temperatures of new rare earth ternary borides 1977 "Bell Laboratories, Murray Hill,New Jersey" "Proc.Natl.Acad.Sci.USA, 74(1977)1334"
150807 NAS0741334 structure type not clear. DyRh4B4 Dy1Rh4B4 Dy 1 Rh 4 B 4 1977 12.03 AB4C4 RT4B4 K 1 High superconducting transition temperatures of new rare earth ternary borides 1977 "Bell Laboratories, Murray Hill,New Jersey" "Proc.Natl.Acad.Sci.USA, 74(1977)1334"
150808 NAS0741334 structure type not clear. HoRh4B4 Ho1Rh4B4 Ho 1 Rh 4 B 4 1977 6.56 AB4C4 RT4B4 K 1 High superconducting transition temperatures of new rare earth ternary borides 1977 "Bell Laboratories, Murray Hill,New Jersey" "Proc.Natl.Acad.Sci.USA, 74(1977)1334"
150809 IOC0082690 Tc measured by self-inductance and resistivity. NbPS Nb1P1S1 Nb 1 P 1 S 1 3 1969 NbPS Immm A 3.438 11.88 4.725 K 12.5 12.5 "high pressure synthesis (1200C, 65 kbar) using excess P." "The Synthesis, Crystal Structure, and Superconducting Properties of Niobium Phosphorus Sulfide, Niobium Phosphorus Selenide, and Tantalum Phosphorus Sulfide" 1969 "Inorg.Chem., 8(1969)2690"
150810 IOC0082690 NbPSe Nb1P1Se1 Nb 1 P 1 Se 1 3 1969 NbPS Immm A 3.462 12.33 4.821 K 1.25 "high pressure synthesis (1200C, 65 kbar) using excess P." "The Synthesis, Crystal Structure, and Superconducting Properties of Niobium Phosphorus Sulfide, Niobium Phosphorus Selenide, and Tantalum Phosphorus Sulfide" 1969 "Inorg.Chem., 8(1969)2690"
150811 IOC0082690 TaPS Ta1P1S1 Ta 1 P 1 S 1 1 1969 NbPS Immm A 3.43 11.85 4.728 K 1.25 "high pressure synthesis (1200C, 65 kbar) using excess P." "The Synthesis, Crystal Structure, and Superconducting Properties of Niobium Phosphorus Sulfide, Niobium Phosphorus Selenide, and Tantalum Phosphorus Sulfide" 1969 "Inorg.Chem., 8(1969)2690"
150812 BUL0070215 NbRuSi Nb1Ru1Si1 Nb 1 Ru 1 Si 1 1985 TiFeSi A 7.123 11.413 6.535 K 2.65 2.65 uV/K -4.3 "arc-melting, then ANN(900C, 7-10d, in vac)" "Structure and superconductivity studies on ternary equiatomic silisides, MM'Si" 1985 "Indian Institute of Technology, Madras, India" "Bull.Mater.Sci.(India), 7(1985)215"
150813 BUL0070215 TaRuSi Ta1Ru1Si1 Ta 1 Ru 1 Si 1 1985 TiFeSi A 7.222 11.111 6.482 K 3.15 3.15 uV/K -7.5 mOhm.cm 3.3 "arc-melting, then ANN(900C, 7-10d, in vac)" "Structure and superconductivity studies on ternary equiatomic silisides, MM'Si" 1985 "Indian Institute of Technology, Madras, India" "Bull.Mater.Sci.(India), 7(1985)215"
150814 BUL0070215 NbReSi Nb1Re1Si1 Nb 1 Re 1 Si 1 1985 TiFeSi A 7.07 11.442 6.606 K 5.1 5.1 "arc-melting, then ANN(900C, 7-10d, in vac)" "Structure and superconductivity studies on ternary equiatomic silisides, MM'Si" 1985 "Indian Institute of Technology, Madras, India" "Bull.Mater.Sci.(India), 7(1985)215"
150815 BUL0070215 TaReSi Ta1Re1Si1 Ta 1 Re 1 Si 1 1985 TiFeSi A 7.002 11.614 6.605 K 4.4 4.4 "arc-melting, then ANN(900C, 7-10d, in vac)" "Structure and superconductivity studies on ternary equiatomic silisides, MM'Si" 1985 "Indian Institute of Technology, Madras, India" "Bull.Mater.Sci.(India), 7(1985)215"
150816 JP01011179 P-induced SC. Tc at P=51 GPa. molecular metal. metallic for P > 35 GPa. Tc decreases as increasing P upto 78 GPa. C6I4O2 C6I4O2 C 6 I 4 O 2 1998 K 0.8 2.5 0 0.8 Observation of pressure-induced superconductivity in the megabar region 1998 "Faculty of Engineering Science, Osaka University, Toyonaka, Osaka, Japan" "J.Phys.:Condens.Matter, 10(1998)11179"
150817 JPS0653400 P-induced SC. sample recrystalizes at about 60 GPa. SC properties are at P=64 GPa. Tc(P=35 GPa) = 1.32 K for amorphous phase. SnI4 I4Sn1 I 4 Sn 1 1996 K 1.96 0 1.96 MTC150817 T 1.7 Pressure-induced superconductivity of SnI4 1996 "Osaka University,Osaka,Japan" "J.Phys.Soc.Jpn, 65(1996)3400"
150818 ZPS1950228 Sn(II) - Sn(III) transition at P=113 kbar. Sn(III) Sn1 Sn 1 1966 K 5.3 5.3 MTC150818 K/GPa -0.1 Die Supraleitung von Zinn und Blei unter sehr hohem Druck 1966 "Z.Phys., 195(1966)228"
150819 ZPS1950228 Pb(I) - Pb(II) transition at P=160 kbar. Pb Pb1 Pb 1 1966 K 7.2 7.2 MTC150819 K/GPa -0.48 Die Supraleitung von Zinn und Blei unter sehr hohem Druck 1966 "Z.Phys., 195(1966)228"
150820 ZPS1950228 P-induced SC. Tc and (dTc/dP) shows at P=81 kbar. Bi(V) Bi1 Bi 1 1966 K 8.3 0 8.3 K/GPa -0.18 Die Supraleitung von Zinn und Blei unter sehr hohem Druck 1966 "Z.Phys., 195(1966)228"
150821 JET0121082 P-induced SC. Tc at P=25.3 kbar. Bi(II) Bi1 Bi 1 1961 K 3.93 0 3.93 K/GPa -0.345 Superconductivity of crystalline modifications of bismuth 1961 "JETP, 12(1961)1082"
150822 JET0121082 P-induced SC. Tc at P=26.3 kbar. Bi(III) for 25.3 < P < 29.4. Bi(III) Bi1 Bi 1 1961 K 7.25 0 7.25 K/GPa 0 Superconductivity of crystalline modifications of bismuth 1961 "JETP, 12(1961)1082"
150823 PLA0180228 P-induced SC. Tc and Hc measured at P=37 kbar. Bi(III) Bi1 Bi 1 1965 K 6.55 0 6.55 kOe MHC150823 Critical fields of superconducting bismuth at high pressure 1965 "U.S.Naval Research Laboratory, Washington,D.C." "Phys.Lett., 18(1965)228"
150824 L101077001 Tc is for <16>O. Tc(<18>O) = 90.99 K. oz(<18>O) = 6.953. spin glass temp: Tg(<16>O = . YBa2Cu3O7 Y1Ba2Cu3O6.951 Y 1 Ba 2 Cu 3 O 7-z 6.951 1 2008 Y123 K 91.19 91.19 0.018 O 80 0.2 1 standard solid state reaction. <18>O content determined from the sample weight. Oxygen Isotope Effects on the Superconducting Transition and Magnetic States Within the Phase Diagram of Y1-xPrxBa2Cu3O7-z 2008 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.Lett., 101(2008)077001"
150825 L101077001 Tc is for <16>O. Tc(<18>O) = 73.27 K. "(Y,Pr)Ba2Cu3O7" Y0.8Pr0.2Ba2Cu3O7-z Y 0.8 Pr 0.2 Ba 2 Cu 3 O 7-z 1 2008 Y123 K 74.07 74.07 0.086 O 80 0.8 1 standard solid state reaction. <18>O content determined from the sample weight. Oxygen Isotope Effects on the Superconducting Transition and Magnetic States Within the Phase Diagram of Y1-xPrxBa2Cu3O7-z 2008 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.Lett., 101(2008)077001"
150826 L101077001 Tc is for <16>O. Tc(<18>O) = 56.79 K. spin glass temp: Tg(<16>O) = 1.13 K. Tg(<18>O) = 1.66 K. Tg exponent: alpha-Tg = -3.8. "(Y,Pr)Ba2Cu3O7" Y0.7Pr0.3Ba2Cu3O7-z Y 0.7 Pr 0.3 Ba 2 Cu 3 O 7-z 1 2008 Y123 K 57.97 57.97 PH150826 0.163 O 80 1.18 1 standard solid state reaction. <18>O content determined from the sample weight. Oxygen Isotope Effects on the Superconducting Transition and Magnetic States Within the Phase Diagram of Y1-xPrxBa2Cu3O7-z 2008 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.Lett., 101(2008)077001"
150827 L101077001 Tc is for <16>O. Tc(<18>O) = 43.25 K. oz(<18>O) = 6.934. spin glass temp: Tg(<16>O) = 7.07 K. Tg(<18>O) = 7.56 K. Tg exponent: alpha-Tg = -0.55. "(Y,Pr)Ba2Cu3O7" Y0.6Pr0.4Ba2Cu3O6.929 Y 0.6 Pr 0.4 Ba 2 Cu 3 O 7-z 6.929 1 2008 Y123 K 44.8 44.8 0.277 O 80 1.55 1 standard solid state reaction. <18>O content determined from the sample weight. Oxygen Isotope Effects on the Superconducting Transition and Magnetic States Within the Phase Diagram of Y1-xPrxBa2Cu3O7-z 2008 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.Lett., 101(2008)077001"
150828 L101077001 Tc is for <16>O. Tc(<18>O) = 35.12 K. . spin glass temp: Tg(<16>O) = 15.54 K . Tg(<18>O) = 16.58 K. Tg exponent: alpha-Tg = -0.54. "(Y,Pr)Ba2Cu3O7" Y0.55Pr0.45Ba2Cu3O7-z Y 0.55 Pr 0.45 Ba 2 Cu 3 O 7-z 1 2008 Y123 K 36.5 36.5 0.302 O 80 1.38 1 standard solid state reaction. <18>O content determined from the sample weight. Oxygen Isotope Effects on the Superconducting Transition and Magnetic States Within the Phase Diagram of Y1-xPrxBa2Cu3O7-z 2008 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.Lett., 101(2008)077001"
150829 L101077001 Tc is for <16>O. Tc(<18>O) = 20.16 K. . spin glass temp: Tg(<16>O) = 17.82 K. Tg(<18>O) = 18.46 K . Tg exponent: alpha-Tg = -0.29. "(Y,Pr)Ba2Cu3O7" Y0.5Pr0.5Ba2Cu3O7-z Y 0.5 Pr 0.5 Ba 2 Cu 3 O 7-z 1 2008 Y123 K 23.12 23.12 1.024 O 80 2.96 1 standard solid state reaction. <18>O content determined from the sample weight. Oxygen Isotope Effects on the Superconducting Transition and Magnetic States Within the Phase Diagram of Y1-xPrxBa2Cu3O7-z 2008 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.Lett., 101(2008)077001"
150830 L101077001 Tc is for <16>O. Tc(<18>O) <1.7 K. oz(<18>O) = 6.954. spin glass temp: Tg(<16>O) = 21.05 K. Tg(<18>O) = 21.65 K. Tg exponent: alpha-Tg = -0.23. "(Y,Pr)Ba2Cu3O7" Y0.45Pr0.55Ba2Cu3O6.953 Y 0.45 Pr 0.55 Ba 2 Cu 3 O 7-z 6.953 1 2008 Y123 K 14.4 14.4 7 O 80 14.4 1 standard solid state reaction. <18>O content determined from the sample weight. Oxygen Isotope Effects on the Superconducting Transition and Magnetic States Within the Phase Diagram of Y1-xPrxBa2Cu3O7-z 2008 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.Lett., 101(2008)077001"
150831 L101077001 spin glass temp: Tg(<16>O) = 22.8 K. Tg(<18>O) = 23.2 K. Tg exponent: alpha-Tg = -0.13. "(Y,Pr)Ba2Cu3O7" Y0.42Pr0.58Ba2Cu3O7-z Y 0.42 Pr 0.58 Ba 2 Cu 3 O 7-z 1 2008 Y123 K 1.7 1 standard solid state reaction. <18>O content determined from the sample weight. Oxygen Isotope Effects on the Superconducting Transition and Magnetic States Within the Phase Diagram of Y1-xPrxBa2Cu3O7-z 2008 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.Lett., 101(2008)077001"
150832 L101077001 spin glass temp: Tg(<16>O) = 32.4 K. Tg(<18>O) = 34.4 K. Tg exponent: alpha-Tg = -0.52. "(Y,Pr)Ba2Cu3O7" Y0.35Pr0.65Ba2Cu3O7-z Y 0.35 Pr 0.65 Ba 2 Cu 3 O 7-z 1 2008 Y123 K 1.7 1 standard solid state reaction. <18>O content determined from the sample weight. Oxygen Isotope Effects on the Superconducting Transition and Magnetic States Within the Phase Diagram of Y1-xPrxBa2Cu3O7-z 2008 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.Lett., 101(2008)077001"
150833 L101077001 oz(<18>O) = 6.957. Tn(<18>O) = 116.8 K. Tn exponent: alpha-Tn = -1.30. "(Y,Pr)Ba2Cu3O7" Y0.3Pr0.7Ba2Cu3O6.946 Y 0.3 Pr 0.7 Ba 2 Cu 3 O 7-z 6.946 1 2008 100.5 Y123 K 1.7 1 standard solid state reaction. <18>O content determined from the sample weight. Oxygen Isotope Effects on the Superconducting Transition and Magnetic States Within the Phase Diagram of Y1-xPrxBa2Cu3O7-z 2008 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.Lett., 101(2008)077001"
150834 L101077001 Tn(<18>O) = 212.6 K. Tn exponent: alpha-Tn = -0.09. "(Y,Pr)Ba2Cu3O7" Y0.2Pr0.8Ba2Cu3O7-z Y 0.2 Pr 0.8 Ba 2 Cu 3 O 7-z 1 2008 210.2 Y123 K 1.7 1 standard solid state reaction. <18>O content determined from the sample weight. Oxygen Isotope Effects on the Superconducting Transition and Magnetic States Within the Phase Diagram of Y1-xPrxBa2Cu3O7-z 2008 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.Lett., 101(2008)077001"
150835 L101077001 oz(<18>O) = 6.949. Tn(<18>O) = 282.5 K. Tn exponent: alpha-Tn = 0.02. PrBa2Cu3O7 Pr1Ba2Cu3O6.953 Pr 1 Ba 2 Cu 3 O 7-z 6.953 1 2008 283.2 Y123 K 1.7 1 standard solid state reaction. <18>O content determined from the sample weight. Oxygen Isotope Effects on the Superconducting Transition and Magnetic States Within the Phase Diagram of Y1-xPrxBa2Cu3O7-z 2008 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.Lett., 101(2008)077001"
150836 P078012505 Tc defined as inflection point in R-T curve. Tc(max) = 25.6 K at P=1.0 GPa. "Sm(O,F)FeAs" Sm1Fe1As1F0.13O0.87 Sm 1 Fe 1 As 1 F 0.13 O 0.87 0.87 2008 oxypnictide ZrCuSiAs-type K 24.7 24.7 K/GPa 0.9 Effect of pressure on the superconducting and spin-density-wave states of SmFeAsO1-xFx 2008 "Department of Physics and TCSUH, University of Houston, Houston, Texas 77204, USA" "Phys.Rev.B, 78(2008)012505"
150837 P078012505 Tc defined as inflection point in R-T curve. Tc(1.6 GPa) = 40 K "Sm(O,F)FeAs" Sm1Fe1As1F0.3O0.7 Sm 1 Fe 1 As 1 F 0.3 O 0.7 0.7 2008 oxypnictide ZrCuSiAs-type K 43.5 43.5 K/GPa -2.3 Effect of pressure on the superconducting and spin-density-wave states of SmFeAsO1-xFx 2008 "Department of Physics and TCSUH, University of Houston, Houston, Texas 77204, USA" "Phys.Rev.B, 78(2008)012505"
150838 NAT4530376 Tc(max) = 43 K at P=4 GPa. (dTc/dP) = 6.5 K/GPa for 0 < P < 4 GPa and (dTc/dP) = -1.38 K/GPa for 4 < P . "La(O,F)FeAs" La1Fe1As1F0.11O0.89 La 1 Fe 1 As 1 F 0.11 O 0.89 0.89 2008 oxypnictide ZrCuSiAs-type K 27.9 27.9 TC150838 K/GPa 6.5 Superconductivity at 43 K in an iron-based layered compound LaO1-xFxFeAs 2008 "Department of Physics, College of Humanities and Sciences, Nihon University, Sakurajosui, Setagaya-ku, Tokyo 156-8550, Japan" "Nature, 453(2008)376"
150839 NAT4530376 R(min) at T=60 K. "La(O,F)FeAs" La1Fe1As1F0.05O0.95 La 1 Fe 1 As 1 F 0.05 O 0.95 0.95 2008 oxypnictide ZrCuSiAs-type K 23.3 24.7 23.3 TC150839 K/GPa 2 Superconductivity at 43 K in an iron-based layered compound LaO1-xFxFeAs 2008 "Department of Physics, College of Humanities and Sciences, Nihon University, Sakurajosui, Setagaya-ku, Tokyo 156-8550, Japan" "Nature, 453(2008)376"
150840 NAT4530903 Figure shows Hc2//n (perpendicular to the plane) "La(O,F)FeAs" La1Fe1As1F0.11O0.89 La 1 Fe 1 As 1 F 0.11 O 0.89 0.89 1 2008 oxypnictide ZrCuSiAs-type K 23 26 28 26 HC150840 Two-band superconductivity in LaFeAsO0.89F0.11 at very high magnetic fields 2008 "National High Magnetic Field Laboratory, Florida State University, Tallahassee, Florida 32310, USA" "Nature, 453(2008)903"
150841 P078024509 "monoclinic, beta=89.96. lattice term(beta) in SP = 2.7 mJ/mol.K4." Bi2Pd3S2 Bi2Pd3S2 Bi 2 Pd 3 S 2 1 2008 4 C2/m A 11.751 8.303 11.74 Bi2Ni3S2-type.parkerite K 0.35 mJ/mol.K2 5.9 SP 170 SP "mixture - pellet - heat(1270K,12h, in evacuated quartz tube with carbon coated)" Transport properties in normal-metal Bi2Pd3S2 and superconducting Bi2Pd3Se2 2008 "Division of Chemistry, Graduate School of Science, Hokkaido University, Sapporo 060-0810, Japan" "Phys.Rev.B, 78(2008)024509"
150842 P078024509 not the same structure as Bi2Ni3S2-type. Tc(mid) = 0.81 K in SP transition. Hc(0) = 5.72 mTfrom SP. GL-parameter = 38.9. (dC/gamma*Tc) = 1.15. lattice term(beta) in SP = 4.0 mJ/mol.K4. Bi2Pd3Se2 Bi2Pd3Se2 Bi 2 Pd 3 Se 2 1 2008 K 0.9 0.96 1.1 0.96 Oe from Hc(0) using GL theory 3.8 T "resistive, WHH" 0.315 T/K 0.473 MHC150842 resistive A from Hc2 323 um from Hc(0) using GL theory 1.259 MSP150842 mJ/mol.K2 8.3 SP 150 SP uV/K -6.05 "mixture - pellet - heat(1270K,12h, in evacuated quartz tube with carbon coated)" Transport properties in normal-metal Bi2Pd3S2 and superconducting Bi2Pd3Se2 2008 "Division of Chemistry, Graduate School of Science, Hokkaido University, Sapporo 060-0810, Japan" "Phys.Rev.B, 78(2008)024509"
150843 P078052504 "T2 defined as midpoint in SP-jump. (dC/Tc) = 48.5 mJ/mol.K2, (dC/gamma*Tc) = 1.03." BaPt4Ge12 Ba1Pt4Ge12 Ba 1 Pt 4 Ge 12 1 2008 emu/mol -0.0001 skutterudite A 8.6835 K 5.03 4.98 5.03 T "resistive, extraporation" 2 MHC150843 mJ/mol.K2 47.3 SP 215 SP "melting in glassy carbon crucible. ANN(800C(x=0), 700C(x=0.25, 0.75), 600C(x=1, 2), in sealed Ta tube in vac ampoule), Q to cold water" Optimization of the superconducting transition temperature of the filled skutterudite BaPt4Ge12 by gold substitution 2008 "Max-Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.B, 78(2008)052504"
150844 P078052504 T2 defined as midpoint in SP-jump. "Ba(Pt,Au)4Ge12" Ba1Pt3.75Au0.25Ge12 Ba 1 Pt 3.75 Au 0.25 Ge 12 1 2008 emu/mol -0.00017 skutterudite A 8.6895 K 5.05 5.05 "melting in glassy carbon crucible. ANN(800C(x=0), 700C(x=0.25, 0.75), 600C(x=1, 2), in sealed Ta tube in vac ampoule), Q to cold water" Optimization of the superconducting transition temperature of the filled skutterudite BaPt4Ge12 by gold substitution 2008 "Max-Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.B, 78(2008)052504"
150845 P078052504 T2 defined as midpoint in SP-jump. (dC/Tc) = 55.0 mJ/mol.K2. "Ba(Pt,Au)4Ge12" Ba1Pt3.5Au0.5Ge12 Ba 1 Pt 3.5 Au 0.5 Ge 12 1 2008 emu/mol -0.00013 skutterudite A 8.6943 K 5.19 5.27 5.19 mJ/mol.K2 49.1 SP 218 SP "melting in glassy carbon crucible. ANN(800C(x=0), 700C(x=0.25, 0.75), 600C(x=1, 2), in sealed Ta tube in vac ampoule), Q to cold water" Optimization of the superconducting transition temperature of the filled skutterudite BaPt4Ge12 by gold substitution 2008 "Max-Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.B, 78(2008)052504"
150846 P078052504 T2 defined as midpoint in SP-jump. (dC/Tc) = 70.4 mJ/mol.K2. "Ba(Pt,Au)4Ge12" Ba1Pt3.25Au0.75Ge12 Ba 1 Pt 3.25 Au 0.75 Ge 12 1 2008 emu/mol -0.00003 skutterudite A 8.6985 K 6.25 6.27 6.25 mJ/mol.K2 48.1 SP 217 SP "melting in glassy carbon crucible. ANN(800C(x=0), 700C(x=0.25, 0.75), 600C(x=1, 2), in sealed Ta tube in vac ampoule), Q to cold water" Optimization of the superconducting transition temperature of the filled skutterudite BaPt4Ge12 by gold substitution 2008 "Max-Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.B, 78(2008)052504"
150847 P078052504 "T2 defined as midpoint in SP-jump. (dC/Tc) = 77.0 mJ/mol.K2, (dC/gamma*Tc) = 1.37." "Ba(Pt,Au)4Ge12" Ba1Pt3Au1Ge12 Ba 1 Pt 3 Au 1 Ge 12 1 2008 emu/mol 0.00001 skutterudite A 8.7124 K 7 7 7 T "resistive, extraporation" 2 MHC150847 mJ/mol.K2 56.3 SP 224 SP "melting in glassy carbon crucible. ANN(800C(x=0), 700C(x=0.25, 0.75), 600C(x=1, 2), in sealed Ta tube in vac ampoule), Q to cold water" Optimization of the superconducting transition temperature of the filled skutterudite BaPt4Ge12 by gold substitution 2008 "Max-Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.B, 78(2008)052504"
150848 P078012507 microwave surface impedance. RRR = 12.1. RESN = 0.2 mOhm(T=30 K). R shows T^2 dependence for T < 200K. "La(O,F)FeAs" La1Fe1As1F0.1O0.9 La 1 Fe 1 As 1 F 0.1 O 0.9 1 2008 oxypnictide K 23.7 22 23.7 T "resistive, WHH" 56 T/K resistive 2.5 mOhm.cm 0.2 "solid state reaction, ANN in vac." "Upper critical field, penetration depth, and depinning frequency of the high-temperature superconductor LaFeAsO0.9F0.1 studied by microwave surface impedance" 2008 "Institute for Solid State Research, IFW Dresden, D-01101 Dresden, Germany" "Phys.Rev.B, 78(2008)012507"
150849 P078014507 R(min) at T=85 K. tetra(H) to ortho(L) phase transition. not SC. lattice term of SP (beta) = 0.60 mJ/mol.K4. BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 2008 A 3.9436 13.115 K 1.8 mJ/mol.K2 37 SP 250 SP "Sn-flux method. (Ba,K)Fe2As2:Sn = 1:48 in MgO crucible.." Anisotropic thermodynamic and transport properties of single-crystalline Ba1-xKxFe2As2 (x=0 and 0.45) 2008 "Ames Laboratory US DOE, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 78(2008)014507"
150850 P078014507 K-content by wave length dispersive x-ray spectroscopy(WDS). lattice term of SP: beta=0.83 mJ/mol.K4. "(Ba,K)Fe2As2" Ba0.55K0.45Fe2As2 Ba 0.55 K 0.45 Fe 2 As 2 3 2008 A 3.9186 13.256 K 29.5 30 29.5 50 MHC150850 resistive mJ/mol.K2 23 SP 230 SP "Sn-flux method. (Ba,K)Fe2As2:Sn = 1:48 in MgO crucible.." Anisotropic thermodynamic and transport properties of single-crystalline Ba1-xKxFe2As2 (x=0 and 0.45) 2008 "Ames Laboratory US DOE, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 78(2008)014507"
150851 L101057007 Hc2 using pulse field(upto 55 T). [gapene]=3.5-4.2 by far-infrared reflectance. "La(O,F)FeAs" La1Fe1As1F0.1O0.9 La 1 Fe 1 As 1 F 0.1 O 0.9 1 2008 oxypnictide P4/nmm A 4.024 8.717 ZrCuSiAs-type K 26 26 T "resistive,TDO frequency" HC150851 "resistive,TDO frequency" 3.5 2 "LaAs,Fe2O3,Fe,LaF3" "mixture - pellet - Ta crucible in quartz tube(Ar). ANN(1150C,50h)" Superconducting Properties of the Fe-Based Layered Superconductor LaFeAsO0.9F0.1-z 2008 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.Lett., 101(2008)057007"
150852 L101057006 P-induced SC. Pcrit = 2 kbar. Tc(max) = 12 K at P=3.5 kbar. Hc2(T) at P=3.5 and 5.0 kbar. CaFe2As2 Ca1Fe2As2 Ca 1 Fe 2 As 2 3 2008 K 12 0 12 MTC150852 MHC150852 resistive Sn-flux method Pressure Induced Superconductivity in CaFe2As2 2008 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.Lett., 101(2008)057006"
150853 P078020512 LaOFeAs La1Fe1As1O1 La 1 Fe 1 As 1 O 1 2008 oxypnictide ZrCuSiAs-type K mJ/mol.K2 1.6 SP "LaAs,FeAs,Fe2As,La,LaF3,La2O3" solid state reaction Ferromagnetic spin fluctuation in LaFeAsO1-xFx 2008 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 78(2008)020512"
150854 P078020512 "La(O,F)FeAs" La1Fe1As1F0.025O0.975 La 1 Fe 1 As 1 F 0.025 O 0.975 2008 oxypnictide ZrCuSiAs-type K mJ/mol.K2 3.2 SP "LaAs,FeAs,Fe2As,La,LaF3,La2O3" solid state reaction Ferromagnetic spin fluctuation in LaFeAsO1-xFx 2008 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 78(2008)020512"
150855 P078020512 "La(O,F)FeAs" La1Fe1As1F0.05O0.95 La 1 Fe 1 As 1 F 0.05 O 0.95 2008 oxypnictide ZrCuSiAs-type K 20.5 20.5 mJ/mol.K2 8.4 SP 319 SP "LaAs,FeAs,Fe2As,La,LaF3,La2O3" solid state reaction Ferromagnetic spin fluctuation in LaFeAsO1-xFx 2008 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 78(2008)020512"
150856 P078020512 "La(O,F)FeAs" La1Fe1As1F0.11O0.89 La 1 Fe 1 As 1 F 0.11 O 0.89 2008 oxypnictide ZrCuSiAs-type K 21.1 21.1 mJ/mol.K2 5.1 SP 308 SP "LaAs,FeAs,Fe2As,La,LaF3,La2O3" solid state reaction Ferromagnetic spin fluctuation in LaFeAsO1-xFx 2008 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 78(2008)020512"
150857 P078020512 "La(O,F)FeAs" La1Fe1As1F0.14O0.86 La 1 Fe 1 As 1 F 0.14 O 0.86 2008 oxypnictide ZrCuSiAs-type K mJ/mol.K2 3.8 SP 332 SP "LaAs,FeAs,Fe2As,La,LaF3,La2O3" solid state reaction Ferromagnetic spin fluctuation in LaFeAsO1-xFx 2008 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 78(2008)020512"
150858 P078024514 "two gaps((2d/kTc)=3.72, =1.08) were obtained from fitting of supercurrent density." Lu2Fe3Si5 Lu2Fe3Si5 Lu 2 Fe 3 Si 5 3 2008 Sc2Fe3Si5 K 6 6 MHC150858 um tunnel diode resonator 0.2 0.2 3.72 1 floating zone method Two-gap superconductivity seen in penetration-depth measurements of Lu2Fe3Si5 single crystals 2008 "Ames Laboratory and Department of Physics & Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 78(2008)024514"
150859 P078024517 "three phases(3C-SiC(main phase), 6H-SiC, Si). RRR=10.0. GL parameter = 0.35. beta(lattice term of SP) = 0.0193 mJ/mol.K4.type-I SC(Hc2 = Hc)" B-doped SiC C1Si1 C 1 Si 1 2008 K 1.45 1.45 Oe 115 A 3600 A 130 MSP150859 mJ/mol.K2 0.294 SP 590 SP uOhm.cm 60 E+21 /cm3 1.91 "beta-SiC,Si,a-B" "starting mixture: SiC:B:Si = 4:1.15:1. solid state reaction. SIN(1600C,12h, in flowing Ar/H2 gas (60/60 ml/min)" Specific heat and electronic states of superconducting boron-doped silicon carbide 2008 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 78(2008)024517"
150860 J076103710 "RRR = 10. carrier by Hall effect measurements. three phases(3C-SiC(main phase), 6H-SiC, Si) were included. Hc determined for S to N transition." B-doped SiC C1Si1 C 1 Si 1 2007 A 4.3575 K 1.45 1.45 Oe ac-SUS 110 MHC150860 E+21 /cm3 1.91 "beta-SiC,Si,a-B" "starting mixture: SiC:B:Si = 4:1.15:1. solid state reaction. SIN(1600C,12h, in flowing Ar/H2 gas (60/60 ml/min)" Superconductivity in Boron-doped SiC 2007 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara, Kanagawa 229-8558" "J.Phys.Soc.Jpn, 76(2007)103710"
150861 NAT4440465 non-uniform distribution of B. Hc2 defined as 0.1Rn. RRR=1.2. B-doped Si Si1 Si 1 2006 K 0.34 0.4 0.34 T resistive 0.4 MHC150861 uOhm.cm 130 160 E+21 /cm3 2.8 samples prepared by gas immersion layer doping: precursor gas(BCl3) chemisorbed on a (001) Si-wafer. Superconductivity in doped cubic silicon 2006 "Laboratoire dEtudes des Proprietes Electroniques des Solides, CNRS, BP166, 38042 Grenoble, France" "Nature, 444(2006)465"
150862 P078060505 LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 1 2008 PbFCl P4/nmm 129 A 3.7914 6.3639 K 18 18 MHC150862 MTP150862 "Li,Fe,As" "stoichiometric amount - sealed in Nb tube(Ar) - heat(740C,24h) - cool to RT (1d)" LiFeAs: An intrinsic FeAs-based superconductor with Tc=18 K 2008 "TCSUH and Department of Chemistry, University of Houston, Houston, Texas 77204, USA" "Phys.Rev.B, 78(2008)060505"
150863 P078064506 Tc drop around 9 GPa comes from lattice sotening. CaC6 C6Ca1 C 6 Ca 1 2008 GIC A 4.33 13.57 A/GPa -0.0038 -0.081 K 11.6 11.6 MLAT150863 Maximum Tc at the verge of a simultaneous order-disorder and lattice-softening transition in superconducting CaC6 2008 "Institut de Mineralogie et de Physique des Milieux Condenses, Universite Pierre et Marie Curie Paris VI and CNRS, 75005 Paris, France" "Phys.Rev.B, 78(2008)060506"
150864 P078064510 Tc by ac-SUS. <123>Sb-NQR measured. PrOs4Sb12 Pr1Os4Sb12 Pr 1 Os 4 Sb 12 3 2008 skutterudite K 1.87 1.87 MTC150864 K/GPa -0.17 Sb-flux method <123>Sb-NQR study of unconventional superconductivity in the filled skutterudite heavy-fermion compound PrOs4Sb12 under high pressure up to 3.82 GPa 2008 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 78(2008)064510"
150865 P078064511 "La(O,F)FeAs" La1Fe1As1F0.11O0.89 La 1 Fe 1 As 1 F 0.11 O 0.89 1 2008 oxypnictide K 23 25 28 25 HC150865 E-3 cm3/C -3.774 RH150865 solid state reaction "Comparative high-field magnetotransport of the oxypnictide superconductors RFeAsO1-xFx (R=La, Nd) and SmFeAsO1-z" 2008 "National High Magnetic Field Laboratory, Florida State University, Tallahassee, Florida 32310, USA" "Phys.Rev.B, 78(2008)064511"
150866 P078064511 "Nd(O,F)FeAs" Nd1Fe1As1F0.06O0.94 Nd 1 Fe 1 As 1 F 0.06 O 0.94 1 2008 oxypnictide K 46 47.5 50.5 47.5 HC150866 E-3 cm3/C -1.253 RH150866 solid state reaction "Comparative high-field magnetotransport of the oxypnictide superconductors RFeAsO1-xFx (R=La, Nd) and SmFeAsO1-z" 2008 "National High Magnetic Field Laboratory, Florida State University, Tallahassee, Florida 32310, USA" "Phys.Rev.B, 78(2008)064511"
150867 P078064511 SmOFeAs Sm1Fe1As1O0.85 Sm 1 Fe 1 As 1 O 0.85 1 2008 oxypnictide K 51 52 53.5 52 HC150867 E-3 cm3/C -0.705 RH150867 solid state reaction "Comparative high-field magnetotransport of the oxypnictide superconductors RFeAsO1-xFx (R=La, Nd) and SmFeAsO1-z" 2008 "National High Magnetic Field Laboratory, Florida State University, Tallahassee, Florida 32310, USA" "Phys.Rev.B, 78(2008)064511"
150868 ZFP2080142 V V1 V 1 1968 K 5.16 5.16 MTC150868 K/GPa 0.176 "Superleitung von Vanadium, Niob und Tantal unter hohem Druck" 1968 "Z.Physik, 208(1968)142"
150869 ZFP2080142 Nb Nb1 Nb 1 1968 K 9.4 9.4 MTC150869 K/GPa 0.12 "Superleitung von Vanadium, Niob und Tantal unter hohem Druck" 1968 "Z.Physik, 208(1968)142"
150870 ZFP2080142 Ta Ta1 Ta 1 1968 K 4.43 4.43 MTC150870 K/GPa -0.26 "Superleitung von Vanadium, Niob und Tantal unter hohem Druck" 1968 "Z.Physik, 208(1968)142"
150871 JET0340342 Sn1-xBix Bi0.1Sn0.9 Bi 0.1 Sn 0.9 1972 K 6.5 6.5 T 0.23 4.2 "melt in pyrex ampoule - ANN(373K,100h,in vac)" Superconductivity of Bi-Sn alloys under high pressure 1972 "Institute of Chemical Physics, USSR Academy of Science" "Sov.Phys.JETP, 34(1972)342"
150872 JET0340342 Sn1-xBix Bi0.8Sn0.2 Bi 0.8 Sn 0.2 1972 K 7.3 7.3 T 0.7 4.2 "melt in pyrex ampoule - ANN(373K,100h,in vac)" Superconductivity of Bi-Sn alloys under high pressure 1972 "Institute of Chemical Physics, USSR Academy of Science" "Sov.Phys.JETP, 34(1972)342"
150873 USP0080202 Ta Ta1 Ta 1 1965 K 4.31 4.31 MTC150873 K/GPa -0.243 Effect of high pressure on the superconducting properties of metals 1965 "Sov.Phys.USP, 8(1965)202"
150874 USP0080202 (dTc/dP) shows for 20 < P < 28 katm Tl Tl1 Tl 1 1965 K 2.376 2.376 MTC150874 K/GPa -0.142 Effect of high pressure on the superconducting properties of metals 1965 "Sov.Phys.USP, 8(1965)202"
150875 USP0080202 Cd Cd1 Cd 1 1965 K 0.52 0.52 MTC150875 K/GPa -0.182 Effect of high pressure on the superconducting properties of metals 1965 "Sov.Phys.USP, 8(1965)202"
150876 JET0230838 (dTc/dP) =-0.171 K/GPa for 20 < P < 26 katm Zn Zn1 Zn 1 1966 K 0.867 0.867 MTC150876 K/GPa -0.243 Pressure dependence of the superconducting transition temperature in Zinc 1966 "Sov.Phys.JETP, 23(1966)838"
150877 JAP0404457 Ti-Ta-Nb Nb0.36Ti0.64 Nb 0.36 Ti 0.64 1969 K 9.05 9.05 T 8.51 Some superconducting properties of Ti-Nb-Ta ternary alloys 1969 "J.Appl.Phys., 40(1969)4457"
150878 JAP0404457 Ti-Ta-Nb Ti0.64Ta0.075Nb0.285 Ti 0.64 Ta 0.075 Nb 0.285 1969 K 8.73 8.73 MTC150878 T 11.9 MHC150878 Some superconducting properties of Ti-Nb-Ta ternary alloys 1969 "J.Appl.Phys., 40(1969)4457"
150879 L101107004 s-wave SC.. [penet] = 2000 +- 80 A from infrared spectroscopy. "(Ba,K)Fe2As2" Ba0.6K0.4Fe2As2 Ba 0.6 K 0.4 Fe 2 As 2 3 2008 ThCr2Si2 K 37 37 A infrared 2000 single crystals grown by FeAs flux method Probing the Superconducting Energy Gap from Infrared Spectroscopy on a Ba0:6K0:4Fe2As2 Single Crystal with Tc = 37 K 2008 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev,Lett., 101(2008)107004"
150880 SSC1470439 B/Nb ratio(by rietveld analysis) = 2.038 NbB2-x B2Nb1 B 2 Nb 1 2008 AlB2 A 3.1103 3.2639 K 1 "solid state reaction. heat(1100C,20h, in Ar flow" Superconductivity of non-stoichiometric intermetallic compound NbB2 2008 "National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi-110012, India" "Solid State Commun., 147(2008)439"
150881 SSC1470439 B/Nb ratio(by rietveld analysis) = 2.184 NbB2-x B2.2Nb1 B 2.2 Nb 1 2008 AlB2 A 3.1013 3.3051 K 9.01 9.01 "solid state reaction. heat(1100C,20h, in Ar flow" Superconductivity of non-stoichiometric intermetallic compound NbB2 2008 "National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi-110012, India" "Solid State Commun., 147(2008)439"
150882 SSC1470439 B/Nb ratio(by rietveld analysis) = 2.405 NbB2-x B2.4Nb1 B 2.4 Nb 1 2008 AlB2 A 3.1042 3.3202 K 9.96 9.96 "solid state reaction. heat(1100C,20h, in Ar flow" Superconductivity of non-stoichiometric intermetallic compound NbB2 2008 "National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi-110012, India" "Solid State Commun., 147(2008)439"
150883 SSC1470439 B/Nb ratio(by rietveld analysis) = 2.626 NbB2-x B2.6Nb1 B 2.6 Nb 1 2008 AlB2 A 3.10187 3.3195 K 10.9 10.9 "solid state reaction. heat(1100C,20h, in Ar flow" Superconductivity of non-stoichiometric intermetallic compound NbB2 2008 "National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi-110012, India" "Solid State Commun., 147(2008)439"
150884 SSC1470439 B/Nb ratio(by rietveld analysis) = 2.614 NbB2-x B2.8Nb1 B 2.8 Nb 1 2008 AlB2 A 3.10397 3.3172 K 9.96 9.96 "solid state reaction. heat(1100C,20h, in Ar flow" Superconductivity of non-stoichiometric intermetallic compound NbB2 2008 "National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi-110012, India" "Solid State Commun., 147(2008)439"
150885 SSC1470439 B/Nb ratio(by rietveld analysis) = 2.674 NbB2-x B3Nb1 B 3 Nb 1 2008 AlB2 A 3.1025 3.3196 K 9.96 9.96 "solid state reaction. heat(1100C,20h, in Ar flow" Superconductivity of non-stoichiometric intermetallic compound NbB2 2008 "National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi-110012, India" "Solid State Commun., 147(2008)439"
150886 L101097011 infrared ellipsometry. [penet]c => 6 um. anisotropy => 30. "Nd(O,F)FeAs" Nd1Fe1As1F0.18O0.82 Nd 1 Fe 1 As 1 F 0.18 O 0.82 1 2008 oxypnictide ZrCuSiAs-type K 52 52 um infrared 6 solid state reaction "Superconducting Energy Gap and c-Axis Plasma Frequency of (Nd,Sm)FeAsO0.82F0.18 Superconductors from Infrared Ellipsometry" 2008 "Department of Physics and Fribourg Center for Nanomaterials, University of Fribourg, Chemin du Musee 3, CH-1700 Fribourg, Switzerland" "Phys.Rev,Lett., 101(2008)097011"
150887 L101097009 grain size = 1-100 um. [penet] from muon-SR. [ppenet] using [penet] = 1.31*[ppenet]. "La(O,F)FeAs" La1Fe1As1F0.1O0.9 La 1 Fe 1 As 1 F 0.1 O 0.9 1 2008 oxypnictide A 4.0245 8.7099 ZrCuSiAs-type K 26 26 A muon-SR 333 254 "two step solid state reaction, then annealed in vac." Field and Temperature Dependence of the Superfluid Density in LaFeAsO1-xFx Superconductors: A Muon Spin Relaxation Study 2008 "Laboratory for Muon-Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Phys.Rev,Lett., 101(2008)097009"
150888 L101097009 grain size = 1-100 um. [penet] from muon-SR. [ppenet] using [penet] = 1.31*[ppenet]. "La(O,F)FeAs" La1Fe1As1F0.075O0.925 La 1 Fe 1 As 1 F 0.075 O 0.925 1 2008 oxypnictide A 4.0266 8.7123 ZrCuSiAs-type K 22 22 A muon-SR 364 364 "two step solid state reaction, then annealed in vac." Field and Temperature Dependence of the Superfluid Density in LaFeAsO1-xFx Superconductors: A Muon Spin Relaxation Study 2008 "Laboratory for Muon-Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Phys.Rev,Lett., 101(2008)097009"
150889 L101107007 KFe2As2 K1Fe2As2 K 1 Fe 2 As 2 2008 ThCr2Si2 I4/mmm A 3.8414 13.837 K 3.8 3.8 "AFe2As2(A=Sr,K,Cs) by heating (1000, 950, 700C, 20-24h). Then mixture(K/Sr, Cs/Sr) - press - ANN(900C, 20-30h, in Nb container)" Superconducting Fe-Based Compounds (A1-xSrx)Fe2As2 with A = K and Cs with Transition Temperatures up to 37 K 2008 "TCSUH and Department of Physics, University of Houston, Houston, Texas 77204, USA" "Phys.Rev,Lett., 101(2008)107007"
150890 L101107007 Hc2(0) defined as T1 = 153 T. "(K,Sr)Fe2As2" K0.4Sr0.6Fe2As2 K 0.4 Sr 0.6 Fe 2 As 2 2008 ThCr2Si2 I4/mmm K 36 36 MTC150890 T "resistive, GL theory" 190 MHC150890 uV/K 23.9 MTP150890 "AFe2As2(A=Sr,K,Cs) by heating (1000, 950, 700C, 20-24h). Then mixture(K/Sr, Cs/Sr) - press - ANN(900C, 20-30h, in Nb container)" Superconducting Fe-Based Compounds (A1-xSrx)Fe2As2 with A = K and Cs with Transition Temperatures up to 37 K 2008 "TCSUH and Department of Physics, University of Houston, Houston, Texas 77204, USA" "Phys.Rev,Lett., 101(2008)107007"
150891 L101107007 CsFe2As2 Cs1Fe2As2 Cs 1 Fe 2 As 2 2008 ThCr2Si2 I4/mmm A 3.8894 15.066 K 2.6 2.6 "AFe2As2(A=Sr,K,Cs) by heating (1000, 950, 700C, 20-24h). Then mixture(K/Sr, Cs/Sr) - press - ANN(900C, 20-30h, in Nb container)" Superconducting Fe-Based Compounds (A1-xSrx)Fe2As2 with A = K and Cs with Transition Temperatures up to 37 K 2008 "TCSUH and Department of Physics, University of Houston, Houston, Texas 77204, USA" "Phys.Rev,Lett., 101(2008)107007"
150892 L101107007 Hc2(0) defined as T1 = 110 T. "(Cs,Sr)Fe2As2" Cs0.4Sr0.6Fe2As2 Cs 0.4 Sr 0.6 Fe 2 As 2 2008 ThCr2Si2 I4/mmm K 36.6 36.6 T "resistive, GL theory" 140 MHC150892 "AFe2As2(A=Sr,K,Cs) by heating (1000, 950, 700C, 20-24h). Then mixture(K/Sr, Cs/Sr) - press - ANN(900C, 20-30h, in Nb container)" Superconducting Fe-Based Compounds (A1-xSrx)Fe2As2 with A = K and Cs with Transition Temperatures up to 37 K 2008 "TCSUH and Department of Physics, University of Houston, Houston, Texas 77204, USA" "Phys.Rev,Lett., 101(2008)107007"
150893 L101117004 BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2008 ThCr2Si2 I4/mmm A 3.9635 13.022 K 1.8 mOhm.cm 5 5.9 FeAs flux method Superconductivity at 22 K in Co-Doped BaFe2As2 Crystals 2008 "Materials Science & Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev,Lett., 101(2008)117004"
150894 L101117004 "Ba(Fe,Co)2As2" Ba1Fe1.8Co0.2As2 Ba 1 Fe 1.8 Co 0.2 As 2 3 2008 ThCr2Si2 I4/mmm A 3.9639 12.98 K 22 0.6 22 E-3 cm3/C -1.14 8 MRH150894 E+21/cm3 6 FeAs flux method Superconductivity at 22 K in Co-Doped BaFe2As2 Crystals 2008 "Materials Science & Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev,Lett., 101(2008)117004"
150895 P078104520 Cu intercalated in TaS2 layers. CuxTaS2 Cu0.03Ta1S2 Cu 0.03 Ta 1 S 2 2008 TX2 A 3.3198 12.1166 2H-TaS2 K 3.79 3.79 mJ/mol.K2 13.78 SP-heat Tuning the charge density wave and superconductivity in CuxTaS2 2008 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 78(2008)104520"
150896 P078104520 Cu intercalated in TaS2 layers. CuxTaS2 Cu0.04Ta1S2 Cu 0.04 Ta 1 S 2 2008 TX2 A 3.3195 12.1243 2H-TaS2 K 4.2 4.2 T 4.2 MHC150896 mJ/mol.K2 11.61 SP-heat 165 SP-heat uV/K -4.97 MTP150896 Tuning the charge density wave and superconductivity in CuxTaS2 2008 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 78(2008)104520"
150897 P078104520 Cu intercalated in TaS2 layers. CuxTaS2 Cu0.06Ta1S2 Cu 0.06 Ta 1 S 2 2008 TX2 A 3.3213 12.1509 2H-TaS2 K 4.16 4.16 mJ/mol.K2 10.1 SP-heat Tuning the charge density wave and superconductivity in CuxTaS2 2008 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 78(2008)104520"
150898 P078104520 Cu intercalated in TaS2 layers. CuxTaS2 Cu0.08Ta1S2 Cu 0.08 Ta 1 S 2 2008 TX2 A 3.3219 12.1629 2H-TaS2 K 3.45 3.45 mJ/mol.K2 8.69 SP-heat Tuning the charge density wave and superconductivity in CuxTaS2 2008 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 78(2008)104520"
150899 P078104520 Cu intercalated in TaS2 layers. CuxTaS2 Cu0.1Ta1S2 Cu 0.1 Ta 1 S 2 2008 TX2 A 3.3245 12.2074 2H-TaS2 K 2.71 2.71 mJ/mol.K2 9.87 SP-heat Tuning the charge density wave and superconductivity in CuxTaS2 2008 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 78(2008)104520"
150900 P078104520 Cu intercalated in TaS2 layers. CuxTaS2 Cu0.12Ta1S2 Cu 0.12 Ta 1 S 2 2008 TX2 A 3.3195 12.2091 2H-TaS2 K 1.82 1.82 mJ/mol.K2 7.54 SP-heat uV/K -5.59 MTP150900 Tuning the charge density wave and superconductivity in CuxTaS2 2008 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 78(2008)104520"
150901 P078104520 T = 72 K 2H-TaS2 S2Ta1 S 2 Ta 1 2008 TX2 A 3.3216 12.102 2H-TaS2 K 0.8 0.8 mJ/mol.K2 8.13 uV/K -0.556 MTP150901 Tuning the charge density wave and superconductivity in CuxTaS2 2008 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 78(2008)104520"
150902 P078100503 "[isotope] = 0.08, 0.085, 0.090, 0.094 for P=0, 0.5, 1.0, 1.5 GPa, respectively. (d[isotope]/dP) = 0.0094 /GPa." YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 2008 Y124 K 81.6 81.6 TC150902 K/GPa 5.4 0.0805 O 95 1 "solid state reaction(945C, in 60 bar O2) - ANN(760C,6h, in 0.95 bar (95%-<18>O2 atmosphere)" Pressure dependence of the oxygen isotope effect in the superconductor YBa2Cu4O8 2008 "MacDiarmid Institute, Industrial Research Ltd., P.O. Box 31310, Lower Hutt, New Zealand" "Phys.Rev.B, 78(2008)100503"
150903 PHC1680482 "[oz] from volumetric analysis. Tc(max) = 108 K at P=12 GPa. (dL/dP) from Physica C, 167(1990)335." YBa2Cu4O8 Y1Ba2Cu4O7.986 Y 1 Ba 2 Cu 4 O 8 7.986 1990 Y124 K 79.2 79.2 TC150903 K/GPa 5 "mixture(YBa2Cu3O7 + CuO) - heat(980C,30h, in 21 MPa-O2) - slow cool to RT(5C/min)" SUPERCONDUCTIVITY AT 108 K IN YBA2CU4O8 AT PRESSURES UP TO 12GPA 1990 "DEPARTMENT OF PHYSICS AND ASTRONOMY OF THE FREE UNIVERSITY, 1081 HV AMSTERDAM, THE NETHERLANDS" "PHYSICA C,186(1990)482" "Y,BA,CU,O"
150904 P078104505 "at 4K, space-G = Cmma, a=5.6823, b=5.7103, c=8.7117 A" LaOFeAs La1Fe1As1O1 La 1 Fe 1 As 1 O 1 2008 oxypnictide P4/nmm 129 A 4.0345 8.7387 ZrCuSiAs-type K 1.8 "LaAs,Co3O4,Fe2O3,Fe" "mixture - pellet - sealed in silica tube - heat(1220C,12h, in Ar)" Superconductivity in LaFe1-xCoxAsO 2008 "Materials Science & Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 78(2008)104505"
150905 P078104505 "at 4K, space-G = P4/nmm, a=4.02771, c=8.6860 A." "LaO(Fe,Co)As" La1Fe0.95Co0.05As1O1 La 1 Fe 0.95 Co 0.05 As 1 O 1 2008 oxypnictide ZrCuSiAs-type K 11 3.2 11 HC150905 "LaAs,Co3O4,Fe2O3,Fe" "mixture - pellet - sealed in silica tube - heat(1220C,12h, in Ar)" Superconductivity in LaFe1-xCoxAsO 2008 "Materials Science & Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 78(2008)104505"
150906 P078104505 "LaO(Fe,Co)As" La1Fe0.89Co0.11As1O1 La 1 Fe 0.89 Co 0.11 As 1 O 1 2008 oxypnictide P4/nmm 129 A 4.0351 8.7132 ZrCuSiAs-type K 14 2.3 14 HC150906 uV/K -50 TP150906 "LaAs,Co3O4,Fe2O3,Fe" "mixture - pellet - sealed in silica tube - heat(1220C,12h, in Ar)" Superconductivity in LaFe1-xCoxAsO 2008 "Materials Science & Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 78(2008)104505"
150907 P078104505 "LaO(Fe,Co)As" La1Fe0.85Co0.15As1O1 La 1 Fe 0.85 Co 0.15 As 1 O 1 2008 oxypnictide ZrCuSiAs-type K 6 3.9 6 HC150907 "LaAs,Co3O4,Fe2O3,Fe" "mixture - pellet - sealed in silica tube - heat(1220C,12h, in Ar)" Superconductivity in LaFe1-xCoxAsO 2008 "Materials Science & Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 78(2008)104505"
150908 P078104505 "LaO(Fe,Co)As" La1Fe0.8Co0.2As1O1 La 1 Fe 0.8 Co 0.2 As 1 O 1 2008 oxypnictide ZrCuSiAs-type K 1.8 mJ/mol.K2 1.405 SP-heat 342 "LaAs,Co3O4,Fe2O3,Fe" "mixture - pellet - sealed in silica tube - heat(1220C,12h, in Ar)" Superconductivity in LaFe1-xCoxAsO 2008 "Materials Science & Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 78(2008)104505"
150909 P078104505 "LaO(Fe,Co)As" La1Fe0.5Co0.5As1O1 La 1 Fe 0.5 Co 0.5 As 1 O 1 2008 oxypnictide ZrCuSiAs-type K 1.8 LAT150909 mJ/mol.K2 1.68 SP-heat 342 "LaAs,Co3O4,Fe2O3,Fe" "mixture - pellet - sealed in silica tube - heat(1220C,12h, in Ar)" Superconductivity in LaFe1-xCoxAsO 2008 "Materials Science & Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 78(2008)104505"
150910 P078104505 effective moment = 1.4 myu-B/Co. Ferromagnetic Curie T = 57K from Arrott plot. LaOCoAs La1Co1As1O1 La 1 Co 1 As 1 O 1 2008 emu/mol -0.000006 myu-B/Co 1.4 90 oxypnictide ZrCuSiAs-type K 1.8 mJ/mol.K2 4.02 SP-heat 342 "LaAs,Co3O4,Fe2O3,Fe" "mixture - pellet - sealed in silica tube - heat(1220C,12h, in Ar)" Superconductivity in LaFe1-xCoxAsO 2008 "Materials Science & Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 78(2008)104505"
150911 P078104520 Cu intercalated in TaS2 layers. CuxTaS2 Cu0.01Ta1S2 Cu 0.01 Ta 1 S 2 2008 TX2 A 3.3181 12.1054 2H-TaS2 K 3.05 3.05 mJ/mol.K2 11 uV/K -3.71 MTP150911 Tuning the charge density wave and superconductivity in CuxTaS2 2008 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 78(2008)104520"
150912 P078092406 "ZFC signal, SP-heat also measured. (dC/Tc) = 50 mJ/mol.K2." "(Eu,K)Fe2As2" Eu0.5K0.5Fe2As2 Eu 0.5 K 0.5 Fe 2 As 2 1 2008 ThCr2Si2 A 3.8671 13.091 K 32 32 "Eu,K,Fe,As" 1 "solid state reaction. mixture - sealed in Ta crucible(Ar) - SIN(900C,24h) - (grounded, pressed) - heat treatment" High-temperature superconductivity in Eu0.5K0.5Fe2As2 2008 "I. Physik. Institut, Georg-August-Universitat Gottingen, D-37077 Gottingen, Germany" "Phys.Rev.B, 78(2008)092406"
150913 P078092406 SDW at 190 K. EuFe2As2 Eu1Fe2As2 Eu 1 Fe 2 As 2 2008 K High-temperature superconductivity in Eu0.5K0.5Fe2As2 2008 "I. Physik. Institut, Georg-August-Universitat Gottingen, D-37077 Gottingen, Germany" "Phys.Rev.B, 78(2008)092406"
150914 P078064519 P-induced SC. Tc(max) = 19.6K at P=107 GPa. Phase transition (II-III) at 107 GPa. (dHc2/dT) = -0.25 T/K at P=102 GPa. Sc Sc1 Sc 1 2008 K 19.6 0 19.6 MTC150914 "Comparison of the pressure dependences of Tc in the trivalent d-electron superconductors Sc, Y, La, and Lu up to megabar pressures" 2008 "Department of Physics, Washington University, CB 1105, One Brookings Drive, St. Louis, Missouri 63130, USA" "Phys.Rev.B, 78(2008)064519"
150915 P078064519 P-induced SC. Pcrit = 88 GPa. Tc(max) = 12.2 K at P=174 GPa. (dHc2/dT) = -0.162 T/K at P=140 GPa. Lu Lu1 Lu 1 2008 K 12.2 0 12.2 MTC150915 "Comparison of the pressure dependences of Tc in the trivalent d-electron superconductors Sc, Y, La, and Lu up to megabar pressures" 2008 "Department of Physics, Washington University, CB 1105, One Brookings Drive, St. Louis, Missouri 63130, USA" "Phys.Rev.B, 78(2008)064519"
150916 P078092503 "(La,Sr)OzFeAs" La0.85Sr0.15Fe1As1O1-z La 0.85 Sr 0.15 Fe 1 As 1 O 1-z 1 2008 oxypnictide A 4.019 8.723 ZrCuSiAs K 23 26 23 23 uV/K -10.8 TP150916 m3/C -7.52E-10 RH150916 "LaAs,SrCO3,Fe,As,Fe2O3" "mixture - press - wrapped in Ta foil - sealed in quartz tube - ANN(1160C,40h)" Superconductivity induced by oxygen deficiency in La0.85Sr0.15FeAsO1-z 2008 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 78(2008)092503"
150917 L101097010 [penet] from muon-SR. "Sm(O,F)FeAs" Sm1Fe1As1F0.18O0.82 Sm 1 Fe 1 As 1 F 0.18 O 0.82 2008 oxypnictide ZrCuSiAs K 45 3 45 A muon-SR 1900 conventional solid state reaction Coexistence of Magnetic Fluctuations and Superconductivity in the Pnictide High Temperature Superconductor SmFeAsO1-xFx Measured by Muon Spin Rotation 2008 "Department of Physics and Fribourg Center for Nanomaterials, University of Fribourg, Chemin du Musee 3, CH-1700 Fribourg, Switzerland" "Phys.Rev.Lett., 101(2008)097010"
150918 ZFP2630001 as-synthesized sample. H-concentration not determined. R measured upto P=21.6 kbar. PdHx H1Pd1 H 1 Pd 1 1973 K 3.5 4 3.5 K/GPa -0.3 H-doped into Pd using electrochemical-loading method. Effect of high pressure on the superconducting transition temperature of Pd-H 1973 "Z.Physik, 263(1973)1"
150919 L096087001 "under doped. ANN(280h,in Ar). Cu-NMR studies show that CuO2 planes composed of three AFM-CuO2 planes and two SC+AFM planes." HgBa2Ca4Cu5Oz Hg1Ba2Ca4Cu5Oz Hg 1 Ba 2 Ca 4 Cu 5 O z 1 2006 290 Hg1245 K 72 72 1 high-pressure synthesis Uniform Mixing of High-Tc Superconductivity and Antiferromagnetism on a Single CuO2 Plane of a Hg-Based Five-Layered Cuprate 2006 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.Lett., 96(2006)087001"
150920 L096087001 optimal doped. as-grown. Cu-NMR studies show that CuO2 planes composed of three AFM-CuO2 planes(Tn=60K) + two SC planes(Tc=108K). HgBa2Ca4Cu5Oz Hg1Ba2Ca4Cu5Oz Hg 1 Ba 2 Ca 4 Cu 5 O z 1 2006 60 Hg1245 K 108 108 1 high-pressure synthesis Uniform Mixing of High-Tc Superconductivity and Antiferromagnetism on a Single CuO2 Plane of a Hg-Based Five-Layered Cuprate 2006 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.Lett., 96(2006)087001"
150921 L096087001 optimal doped. as-grown. Cu-NMR studies show that CuO2 planes composed of three AFM-CuO2 planes(Tn=45K) + two SC planes(Tc=100K). TlBa2Ca4Cu5Oz Tl1Ba2Ca4Cu5Oz Tl 1 Ba 2 Ca 4 Cu 5 O z 1 2006 45 Tl1245 K 100 100 1 high-pressure synthesis Uniform Mixing of High-Tc Superconductivity and Antiferromagnetism on a Single CuO2 Plane of a Hg-Based Five-Layered Cuprate 2006 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.Lett., 96(2006)087001"
150922 L101027002 Films from 1.5at%B-target. B-doped CNT B0.015C0.985 B 0.015 C 0.985 4 2008 K 12 12 Oe from (dHc2/dT) using WHH 1700 Oe/K 200 MHC150922 A 170 A 1000 Films synthesized from target with 1.5at%B. Superconductivity in Thin Films of Boron-Doped Carbon Nanotubes 2008 "School of Science and Engineering, Material Science Course, Aoyama Gakuin University, 5-10-1 Fuchinobe, Sagamihara, Kanagawa 229-8558, Japan" "Phys.Rev.Lett., 101(2008)027002"
150923 P075184512 MoGe Ge2Mo1 Ge 2 Mo 1 4 2007 AMOR K 6.11 6.11 T/K 2.6 uOhm.cm 1.84 films sputtered on Si-substrates (Tsub = RT) mounted on rotating Cu Dynamic ordering of driven vortex matter in the peak effect regime of amorphous MoGe films and 2H-NbSe2 crystals 2007 "Institute of Materials Science, University of Tsukuba, 1-1-1, Tennoudai, Tsukuba, Ibaraki 305-8573, Japan" "Phys.Rev.B, 75(2007)184512"
150924 P075184512 RRR=30 2H-NbSe2 Nb1Se2 Nb 1 Se 2 3 2007 K 7.2 0.05 7.2 T/K 0.72 uOhm.cm 0.034 single crystals grown by iodine vapor transport method. Dynamic ordering of driven vortex matter in the peak effect regime of amorphous MoGe films and 2H-NbSe2 crystals 2007 "Institute of Materials Science, University of Tsukuba, 1-1-1, Tennoudai, Tsukuba, Ibaraki 305-8573, Japan" "Phys.Rev.B, 75(2007)184512"
150925 J077103704 "La(O,F)FeAs" La1Fe1As1F0.11O0.89 La 1 Fe 1 As 1 F 0.11 O 0.89 2008 oxypnictide ZrCuSiAs K 28 28 TC150926 "solid state reaction. heat(1150C,38h) - slow cool to 700C - FC to RT." Superconductivity of LaFe1-yCoyAsO1-xFx 2008 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc.Jpn, 77(2008)103704"
150926 J077103704 "Tc is correlated with resistivity(R300), not with Co-content." "La(O,F)(Fe,Co)As" La1Fe0.9875Co0.0125As1F0.11O0.89 La 1 Fe 0.9875 Co 0.0125 As 1 F 0.11 O 0.89 2008 oxypnictide ZrCuSiAs K 25 25 TC150926 "solid state reaction. heat(1150C,38h) - slow cool to 700C - FC to RT." Superconductivity of LaFe1-yCoyAsO1-xFx 2008 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc.Jpn, 77(2008)103704"
150927 J077103704 "Tc is correlated with resistivity(R300), not with Co-content. TCFIG shows Tc vs x (Co-content)" "La(O,F)(Fe,Co)As" La1Fe0.98Co0.02As1F0.11O0.89 La 1 Fe 0.98 Co 0.02 As 1 F 0.11 O 0.89 2008 oxypnictide ZrCuSiAs K 10.3 10.3 TC150927 "solid state reaction. heat(1150C,38h) - slow cool to 700C - FC to RT." Superconductivity of LaFe1-yCoyAsO1-xFx 2008 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602" "J.Phys.Soc.Jpn, 77(2008)103704"
150928 J077094709 Field reentrant SC. magnetic easy axis changes from c- to b-axis at reentrant field. URhGe U1Rh1Ge1 U 1 Rh 1 Ge 1 3 2008 9.5 TiNiSi K 0.25 0.25 MPH150928 "Czochralski method. ANN(1300C,1d,in UHV) - ANN(900C,20d, in UHV-electrical furnace)" Field Re-entrant Superconductivity Induced by the Enhancement of Effective Mass in URhGe 2008 "INAC/SPSMS, CEA-Grenoble, 17 rue des Martyrs, 38054 Genoble, France" "J.Phys.Soc.Jpn, 77(2008)094709"
150929 J077094715 Tc determined by SP-heat. (lattice term coefficient of C) = 0.15 mJ/mol.K4. (dC/gamma*Tc) = 0.29. LaOFeP La1Fe1P1O1 La 1 Fe 1 P 1 O 1 2008 oxypnictide ZrCuSiAs K 3.3 3.3 mJ/mol.K2 10.6 SP-heat 371 SP-heat /eV.cm3 6.73E+22 Possible Unconventional Superconductivity in Iron-Based Layered Compound LaFePO: Study of Heat Capacity 2008 "Materials and Structures Laboratory, Tokyo Institute of Technology, R3-7, 4259 Nagatsuta-cho, Midori-ku, Yokohama" "J.Phys.Soc.Jpn, 77(2008)094715"
150930 J077094715 Tc determined by SP-heat. (lattice term coefficient of C) = 0.17 mJ/mol.K4. (dC/gamma*Tc) = 0.44. "La(O,F)FeP" La1Fe1P1F0.06O0.94 La 1 Fe 1 P 1 F 0.06 O 0.94 2008 oxypnictide ZrCuSiAs K 5.8 5.8 mJ/mol.K2 8.3 SP-heat 361 SP-heat /eV.cm3 5.26E+22 Possible Unconventional Superconductivity in Iron-Based Layered Compound LaFePO: Study of Heat Capacity 2008 "Materials and Structures Laboratory, Tokyo Institute of Technology, R3-7, 4259 Nagatsuta-cho, Midori-ku, Yokohama" "J.Phys.Soc.Jpn, 77(2008)094715"
150931 J077083702 Energy gap from <27>Al-NMR. Tc(H=4.06T) = 4 K. NpPd5Al2 Np1Pd5Al2 Np 1 Pd 5 Al 2 3 2008 ZrNi2Al5 K 4.9 4.9 6.4 6 Pb-flux method <27>Al NMR Evidence for the Strong-Coupling d-Wave Superconductivity in NpPd5Al2 2008 "Advanced Science Research Center, Japan Atomic Energy Agency, Tokai, Ibaraki 319-1195" "J.Phys.Soc.Jpn, 77(2008)083702"
150932 J077054714 monoclinic. RRR = 18.5. G-L = 9.3. thermodynamic-Hc(0) = 207 Oe. (dC/gamma*Tc) = 1.1. Y3Pt4Ge6 Y3Pt4Ge6 Y 3 Pt 4 Ge 6 2008 2P<1>/m A 8.6922 4.3062 13.1615 "monoclinic(YIrGe2 + BaAl4) type, beta=99.45" K 2.6 3.4 2.6 0.5 2.6 90 Oe 54 T from (dHc2/dT) using WHH 0.273 T/K resistive 0.146 MHC150932 A 347 A using G-L eq. 3230 meV 0.35 3.2 14 mJ/mol.K2 12.7 SP-heat 355 SP-heat mOhm.cm 0.021 0.37 "Y(3N),Pt(3N),Ge(5N)" "mixture - (arc-melting in Ar) - ANN(1050C,1w,in evacuated silica) - slow cool to RT(1d)" Superconductivity in the ternary germanide Y3Pt4Ge6 2008 "Department of Physics and Mathematics, Aoyana Gakuin University, 5-10-1 Fuchinobe, Sagamihara, Kanagawa 229-8558" "J.Phys.Soc.Jpn, 77(2008)054714"
150933 PHC1851379 <18>O-content determined by SIMS. <18>O-exchange: 75-94.3 %. "EuBa2(Cu,Zn)3O7" Eu1Ba2Cu2.955Zn0.045O6.92 Eu 1 Ba 2 Cu 2.955 Zn 0.045 O 7-z 6.92 1991 Y123 K O "The oxygen isotope effect in Pr, Ca, and Zn substituted YBa2Cu3O7-z and EuBa2Cu3O7-z" 1991 "Physica C, 185-189(1991)1379"
150934 PHC1851379 <18>O-content determined by SIMS. <18>O-exchange: 75-94.3 %. "EuBa2(Cu,Zn)3O7" Eu1Ba2Cu2.925Zn0.075O6.92 Eu 1 Ba 2 Cu 2.925 Zn 0.075 O 7-z 6.92 1991 Y123 K O "The oxygen isotope effect in Pr, Ca, and Zn substituted YBa2Cu3O7-z and EuBa2Cu3O7-z" 1991 "Physica C, 185-189(1991)1379"
150935 PHC1851379 <18>O-content determined by SIMS. <18>O-exchange: 75-94.3 %. "EuBa2(Cu,Zn)3O7" Eu1Ba2Cu2.895Zn0.105O6.92 Eu 1 Ba 2 Cu 2.895 Zn 0.105 O 7-z 6.92 1991 Y123 K O "The oxygen isotope effect in Pr, Ca, and Zn substituted YBa2Cu3O7-z and EuBa2Cu3O7-z" 1991 "Physica C, 185-189(1991)1379"
150936 PHC1851379 "YBa2(Cu,Zn)3O7" Y1Ba2Cu2.82Zn0.18O7-z Y 1 Ba 2 Cu 2.82 Zn 0.18 O 7-z 1991 Y123 K 32 32 O 92 "The oxygen isotope effect in Pr, Ca, and Zn substituted YBa2Cu3O7-z and EuBa2Cu3O7-z" 1991 "Physica C, 185-189(1991)1379"
150937 SCI2381558 "(La,Ca)2CuO4" La1.85Ca0.15Cu1O4 La 1.85 Ca 0.15 Cu 1 O 4 1987 T K 20.6 20.6 0.74 O 75 1.3 Oxygen isotope effect in high-temperature oxide superconductors 1987 "Science, 238(1989)1558"
150938 SSC0670789 O-exchange: 0.9<16>O-6.1<18>O YBa2Cu3O7 Y1Ba2Cu3O7 Y 1 Ba 2 Cu 3 O 7 1988 Y123 K 92 92 0.06 O 85 Effect of isotopic substitution of oxygen on Tc and the phonon frequencies of high Tc superconductors 1988 "Solid State Commun., 67(1988)789"
150939 SCI2501390 "(La,Ba)2CuO4" La1.925Ba0.075Cu1O4 La 1.925 Ba 0.075 Cu 1 O 4 1990 T K 24 24 0.3 O 92 0.76 Oxygen isotope effect and structural phase transitions in La2CuO4-based superconductors 1990 "Science, 250(1990)1390"
150940 SCI2501390 "(La,Ba)2CuO4" La1.91Ba0.09Cu1O4 La 1.91 Ba 0.09 Cu 1 O 4 1990 T K 29.3 29.3 0.53 O 90 1.6 Oxygen isotope effect and structural phase transitions in La2CuO4-based superconductors 1990 "Science, 250(1990)1390"
150941 SCI2501390 "(La,Ba)2CuO4" La1.9Ba0.1Cu1O4 La 1.9 Ba 0.1 Cu 1 O 4 1990 T K 29.1 29.1 IS150941 0.62 O 91 1.9 Oxygen isotope effect and structural phase transitions in La2CuO4-based superconductors 1990 "Science, 250(1990)1390"
150942 SCI2501390 isotope effect not clear due to broadness of SC transition "(La,Ba)2CuO4" La1.89Ba0.11Cu1O4 La 1.89 Ba 0.11 Cu 1 O 4 1990 T K 29.1 29.1 O Oxygen isotope effect and structural phase transitions in La2CuO4-based superconductors 1990 "Science, 250(1990)1390"
150943 SCI2501390 isotope effect not clear due to broadness of SC transition "(La,Ba)2CuO4" La1.875Ba0.125Cu1O4 La 1.875 Ba 0.125 Cu 1 O 4 1990 T K 29 29 O Oxygen isotope effect and structural phase transitions in La2CuO4-based superconductors 1990 "Science, 250(1990)1390"
150944 SCI2501390 "(La,Ba)2CuO4" La1.85Ba0.15Cu1O4 La 1.85 Ba 0.15 Cu 1 O 4 1990 T K 29.1 29.1 0.21 O 86 0.6 Oxygen isotope effect and structural phase transitions in La2CuO4-based superconductors 1990 "Science, 250(1990)1390"
150945 SCI2501390 "(La,Ba)2CuO4" La1.825Ba0.175Cu1O4 La 1.825 Ba 0.175 Cu 1 O 4 1990 T K 24.6 24.6 0.11 O 92 0.29 Oxygen isotope effect and structural phase transitions in La2CuO4-based superconductors 1990 "Science, 250(1990)1390"
150946 SCI2501390 isotope effect not clear due to broadness of SC transition "(La,Ba)2CuO4" La1.8Ba0.2Cu1O4 La 1.8 Ba 0.2 Cu 1 O 4 1990 T K 23.4 23.4 O Oxygen isotope effect and structural phase transitions in La2CuO4-based superconductors 1990 "Science, 250(1990)1390"
150947 SCI2501390 broad SC transition (Tc(SUS-mid) = 25.4 K. "(La,Sr)2CuO4" La1.88Sr0.12Cu1O4 La 1.88 Sr 0.12 Cu 1 O 4 1990 T K 29.4 29.4 0.78 O 92 2.2 Oxygen isotope effect and structural phase transitions in La2CuO4-based superconductors 1990 "Science, 250(1990)1390"
150948 SCI2501390 "ANN(700C,72h). Lattice const(20K, LTO): a=5.3245, b=5.3629, C=13.1771. broad SC transition (Tc(SUS-mid) = 25.4 K." "(La,Sr)2CuO4" La1.88Sr0.12Cu1O4 La 1.88 Sr 0.12 Cu 1 O 4 1990 T A 3.7813 13.224 K 29.1 29.1 0.85 O 87 2.3 Oxygen isotope effect and structural phase transitions in La2CuO4-based superconductors 1990 "Science, 250(1990)1390"
150949 SCI2501390 broad SC transition (Tc(SUS-mid) = 29.8 K. "(La,Sr)2CuO4" La1.87Sr0.13Cu1O4 La 1.87 Sr 0.13 Cu 1 O 4 1990 T K 34.4 34.4 IS150949 0.57 O 89 2 Oxygen isotope effect and structural phase transitions in La2CuO4-based superconductors 1990 "Science, 250(1990)1390"
150950 SCI2501390 broad SC transition (Tc(SUS-mid) = 32.4 K. "(La,Sr)2CuO4" La1.86Sr0.14Cu1O4 La 1.86 Sr 0.14 Cu 1 O 4 1990 T K 36.9 36.9 0.15 O 90 0.59 Oxygen isotope effect and structural phase transitions in La2CuO4-based superconductors 1990 "Science, 250(1990)1390"
150951 PHC1851385 <18>O exchange > 85%. Tc defined as onset of Tc(SUS). [ISOTOPE] =< 0.05. "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 1 1991 T' K 24.5 24.5 0.05 O 85 0.1 same batch samples. Two halves of sample placed in the same furnace in <18>O and <18>O riched atmosphere at 900C. Oxygen isotope effect in Nd1.85Ce0.15CuO4 1991 "Physica C, 185-189(1991)1385"
150952 PHC1851345 cell volume = 188.70 A3 "(La,Ca)2CuO4" La1.875Ca0.125Cu1O4 La 1.875 Ca 0.125 Cu 1 O 4 1991 T K 21.7 21.7 0.7 O 90 1.56 Oxygen isotope effect and structural phase transitions in La2-xMxCuO4 1991 "Physica C, 185-189(1991)1345"
150953 PHC1851345 "(La,Sr,Ca)2CuO4" La1.84Sr0.05Ca0.11Cu1O4 La 1.84 Sr 0.05 Ca 0.11 Cu 1 O 4 1991 T K 33.2 33.2 0.19 O 85 0.59 Oxygen isotope effect and structural phase transitions in La2-xMxCuO4 1991 "Physica C, 185-189(1991)1345"
150954 PHC1851345 Tc by SUS. <18>O-content by infrared spectroscopy. "(La,Ca)2CuO4" La1.925Ca0.075Cu1O4 La 1.925 Ca 0.075 Cu 1 O 4 1991 T K 9.2 9.2 0.81 O 92 0.78 "See Phys.Rev.B, 41(1990)282" Oxygen isotope effect and structural phase transitions in La2-xMxCuO4 1991 "Physica C, 185-189(1991)1345"
150955 PHC1851345 Tc by SUS. <18>O-content by infrared spectroscopy. "(La,Ca)2CuO4" La1.912Ca0.0875Cu1O4 La 1.912 Ca 0.0875 Cu 1 O 4 1991 T K 16 16 0.66 O 89 1.07 "See Phys.Rev.B, 41(1990)282" Oxygen isotope effect and structural phase transitions in La2-xMxCuO4 1991 "Physica C, 185-189(1991)1345"
150956 PHC1851345 Tc by SUS. <18>O-content by infrared spectroscopy. "(La,Ca)2CuO4" La1.9Ca0.1Cu1O4 La 1.9 Ca 0.1 Cu 1 O 4 1991 T K 19.5 19.5 0.5 O 17 0.33 "See Phys.Rev.B, 41(1990)282" Oxygen isotope effect and structural phase transitions in La2-xMxCuO4 1991 "Physica C, 185-189(1991)1345"
150957 PHC1851345 Tc by SUS. <18>O-content by infrared spectroscopy. "(La,Ca)2CuO4" La1.9Ca0.1Cu1O4 La 1.9 Ca 0.1 Cu 1 O 4 1991 T K 19.5 19.5 0.51 O 49 0.59 "See Phys.Rev.B, 41(1990)282" Oxygen isotope effect and structural phase transitions in La2-xMxCuO4 1991 "Physica C, 185-189(1991)1345"
150958 PHC1851345 Tc by SUS. <18>O-content by infrared spectroscopy. "(La,Ca)2CuO4" La1.9Ca0.1Cu1O4 La 1.9 Ca 0.1 Cu 1 O 4 1991 T K 19.5 19.5 0.52 O 72 0.94 "See Phys.Rev.B, 41(1990)282" Oxygen isotope effect and structural phase transitions in La2-xMxCuO4 1991 "Physica C, 185-189(1991)1345"
150959 PHC1851345 Tc by SUS. <18>O-content by infrared spectroscopy. "(La,Ca)2CuO4" La1.9Ca0.1Cu1O4 La 1.9 Ca 0.1 Cu 1 O 4 1991 T K 19.5 19.5 0.55 O 93 1.17 "See Phys.Rev.B, 41(1990)282" Oxygen isotope effect and structural phase transitions in La2-xMxCuO4 1991 "Physica C, 185-189(1991)1345"
150960 PHC1851345 Tc by SUS. <18>O-content by infrared spectroscopy. "(La,Ca)2CuO4" La1.887Ca0.1125Cu1O4 La 1.887 Ca 0.1125 Cu 1 O 4 1991 T K 20.1 20.1 0.71 O 89 1.46 "See Phys.Rev.B, 41(1990)282" Oxygen isotope effect and structural phase transitions in La2-xMxCuO4 1991 "Physica C, 185-189(1991)1345"
150961 PHC1850901 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1991 2 T K 36.5 36.5 0.12 O 53 0.3 citration technique using sol-gel method. Heat treatment (<16>O2 or 93% enriched <18>O2 atmosphere) Oxygen isotope effect in La-Sr-Cu-O system with Tc modified by Ni and Zn doping 1991 "Physica C, 185-189(1991)901"
150962 PHC1850901 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.995Ni0.005O4 La 1.85 Sr 0.15 Cu 0.995 Ni 0.005 O 4 1 1991 2 T K 33 33 0.14 O 54 0.3 citration technique using sol-gel method. Heat treatment (<16>O2 or 93% enriched <18>O2 atmosphere) Oxygen isotope effect in La-Sr-Cu-O system with Tc modified by Ni and Zn doping 1991 "Physica C, 185-189(1991)901"
150963 PHC1850901 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.99Ni0.01O4 La 1.85 Sr 0.15 Cu 0.99 Ni 0.01 O 4 1 1991 2 T K 29 29 0.2 O 53 0.4 citration technique using sol-gel method. Heat treatment (<16>O2 or 93% enriched <18>O2 atmosphere) Oxygen isotope effect in La-Sr-Cu-O system with Tc modified by Ni and Zn doping 1991 "Physica C, 185-189(1991)901"
150964 PHC1850901 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.985Ni0.015O4 La 1.85 Sr 0.15 Cu 0.985 Ni 0.015 O 4 1 1991 2 T K 25.5 25.5 0.23 O 54 0.4 citration technique using sol-gel method. Heat treatment (<16>O2 or 93% enriched <18>O2 atmosphere) Oxygen isotope effect in La-Sr-Cu-O system with Tc modified by Ni and Zn doping 1991 "Physica C, 185-189(1991)901"
150965 PHC1850901 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.98Ni0.02O4 La 1.85 Sr 0.15 Cu 0.98 Ni 0.02 O 4 1 1991 2 T K 21.5 21.5 0.27 O 55 0.3 citration technique using sol-gel method. Heat treatment (<16>O2 or 93% enriched <18>O2 atmosphere) Oxygen isotope effect in La-Sr-Cu-O system with Tc modified by Ni and Zn doping 1991 "Physica C, 185-189(1991)901"
150966 PHC1850901 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.975Ni0.025O4 La 1.85 Sr 0.15 Cu 0.975 Ni 0.025 O 4 1 1991 2 T K 16.5 16.5 0.37 O 52 0.4 citration technique using sol-gel method. Heat treatment (<16>O2 or 93% enriched <18>O2 atmosphere) Oxygen isotope effect in La-Sr-Cu-O system with Tc modified by Ni and Zn doping 1991 "Physica C, 185-189(1991)901"
150967 PHC1850901 "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.97Ni0.03O4 La 1.85 Sr 0.15 Cu 0.97 Ni 0.03 O 4 1 1991 2 T K 13.5 13.5 0.45 O 53 0.4 citration technique using sol-gel method. Heat treatment (<16>O2 or 93% enriched <18>O2 atmosphere) Oxygen isotope effect in La-Sr-Cu-O system with Tc modified by Ni and Zn doping 1991 "Physica C, 185-189(1991)901"
150968 PHC1850901 "(La,Sr)2(Cu,Zn)O4" La1.834Sr0.166Cu1O4 La 1.834 Sr 0.166 Cu 1 O 4 1991 T K 35 35 0.16 O 70 0.5 isotope samples prepared in 93%-<18>O2 atmosphere. Oxygen isotope effect in La-Sr-Cu-O system with Tc modified by Ni and Zn doping 1991 "Physica C, 185-189(1991)901"
150969 PHC1850901 "(La,Sr)2(Cu,Zn)O4" La1.834Sr0.166Cu0.99Zn0.01O4 La 1.834 Sr 0.166 Cu 0.99 Zn 0.01 O 4 1991 T K 26.5 26.5 0.17 O 70 0.4 isotope samples prepared in 93%-<18>O2 atmosphere. Oxygen isotope effect in La-Sr-Cu-O system with Tc modified by Ni and Zn doping 1991 "Physica C, 185-189(1991)901"
150970 PHC1850901 "(La,Ca)2CuO4" La1.9Ca0.1Cu1O4 La 1.9 Ca 0.1 Cu 1 O 4 1991 T K 20 20 0.6 O 67 1 isotope samples prepared in 93%-<18>O2 atmosphere. Oxygen isotope effect in La-Sr-Cu-O system with Tc modified by Ni and Zn doping 1991 "Physica C, 185-189(1991)901"
150971 PHC1850901 "(La,Ca)2CuO4" La1.92Ca0.08Cu1O4 La 1.92 Ca 0.08 Cu 1 O 4 1991 T K 14 14 0.66 O 69 0.8 isotope samples prepared in 93%-<18>O2 atmosphere. Oxygen isotope effect in La-Sr-Cu-O system with Tc modified by Ni and Zn doping 1991 "Physica C, 185-189(1991)901"
150972 APS0010359 Tc by SUS. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1993 T K 37.43 37.43 0.14 O 55 0.36 citration technique using sol-gel method. Anomalously enhanced oxygen isotope effect in La1.85Sr0.15CuO4 doped with Fe 1993 "Kurchatov Institute, Moscow,Russia" "Appl.Supercond., 1(1993)359"
150973 APS0010359 Tc by SUS. "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.995Ni0.005O4 La 1.85 Sr 0.15 Cu 0.995 Ni 0.005 O 4 1993 T K 34.41 34.41 0.13 O 55 0.29 citration technique using sol-gel method. Anomalously enhanced oxygen isotope effect in La1.85Sr0.15CuO4 doped with Fe 1993 "Kurchatov Institute, Moscow,Russia" "Appl.Supercond., 1(1993)359"
150974 APS0010359 Tc by SUS. "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.99Ni0.01O4 La 1.85 Sr 0.15 Cu 0.99 Ni 0.01 O 4 1993 T K 30 30 0.15 O 55 0.29 citration technique using sol-gel method. Anomalously enhanced oxygen isotope effect in La1.85Sr0.15CuO4 doped with Fe 1993 "Kurchatov Institute, Moscow,Russia" "Appl.Supercond., 1(1993)359"
150975 APS0010359 Tc by SUS. "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.985Ni0.015O4 La 1.85 Sr 0.15 Cu 0.985 Ni 0.015 O 4 1993 T K 25.9 25.9 0.25 O 55 0.43 citration technique using sol-gel method. Anomalously enhanced oxygen isotope effect in La1.85Sr0.15CuO4 doped with Fe 1993 "Kurchatov Institute, Moscow,Russia" "Appl.Supercond., 1(1993)359"
150976 APS0010359 Tc by SUS. "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu98Ni0.02O4 La 1.85 Sr 0.15 Cu 98 Ni 0.02 O 4 1993 T K 21.96 21.96 0.25 O 80 0.55 citration technique using sol-gel method. Anomalously enhanced oxygen isotope effect in La1.85Sr0.15CuO4 doped with Fe 1993 "Kurchatov Institute, Moscow,Russia" "Appl.Supercond., 1(1993)359"
150977 APS0010359 Tc by SUS. "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.975Ni0.025O4 La 1.85 Sr 0.15 Cu 0.975 Ni 0.025 O 4 1993 T K 16.6 16.6 0.37 O 55 0.4 citration technique using sol-gel method. Anomalously enhanced oxygen isotope effect in La1.85Sr0.15CuO4 doped with Fe 1993 "Kurchatov Institute, Moscow,Russia" "Appl.Supercond., 1(1993)359"
150978 APS0010359 Tc by SUS. "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.97Ni0.03O4 La 1.85 Sr 0.15 Cu 0.97 Ni 0.03 O 4 1993 T K 12.7 12.7 0.34 O 55 0.28 citration technique using sol-gel method. Anomalously enhanced oxygen isotope effect in La1.85Sr0.15CuO4 doped with Fe 1993 "Kurchatov Institute, Moscow,Russia" "Appl.Supercond., 1(1993)359"
150979 APS0010359 Tc by SUS. "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.996Zn0.004O4 La 1.85 Sr 0.15 Cu 0.996 Zn 0.004 O 4 1993 T K 32.7 32.7 0.16 O 80 0.49 citration technique using sol-gel method. Anomalously enhanced oxygen isotope effect in La1.85Sr0.15CuO4 doped with Fe 1993 "Kurchatov Institute, Moscow,Russia" "Appl.Supercond., 1(1993)359"
150980 APS0010359 Tc by SUS. "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.992Zn0.008O4 La 1.85 Sr 0.15 Cu 0.992 Zn 0.008 O 4 1993 T K 28.5 28.5 0.2 O 80 0.55 citration technique using sol-gel method. Anomalously enhanced oxygen isotope effect in La1.85Sr0.15CuO4 doped with Fe 1993 "Kurchatov Institute, Moscow,Russia" "Appl.Supercond., 1(1993)359"
150981 APS0010359 Tc by SUS. "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.988Zn0.012O4 La 1.85 Sr 0.15 Cu 0.988 Zn 0.012 O 4 1993 T K 23.7 23.7 0.26 O 80 0.58 citration technique using sol-gel method. Anomalously enhanced oxygen isotope effect in La1.85Sr0.15CuO4 doped with Fe 1993 "Kurchatov Institute, Moscow,Russia" "Appl.Supercond., 1(1993)359"
150982 APS0010359 Tc by SUS. "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.984Zn0.016O4 La 1.85 Sr 0.15 Cu 0.984 Zn 0.016 O 4 1993 T K 19 19 0.44 O 80 0.78 citration technique using sol-gel method. Anomalously enhanced oxygen isotope effect in La1.85Sr0.15CuO4 doped with Fe 1993 "Kurchatov Institute, Moscow,Russia" "Appl.Supercond., 1(1993)359"
150983 APS0010359 Tc by SUS. "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.978Zn0.022O4 La 1.85 Sr 0.15 Cu 0.978 Zn 0.022 O 4 1993 T K 13.6 13.6 0.68 O 80 0.8 citration technique using sol-gel method. Anomalously enhanced oxygen isotope effect in La1.85Sr0.15CuO4 doped with Fe 1993 "Kurchatov Institute, Moscow,Russia" "Appl.Supercond., 1(1993)359"
150984 APS0010359 Tc by SUS. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1993 T K 37.5 37.5 0.15 O 80 0.53 citration technique using sol-gel method. Anomalously enhanced oxygen isotope effect in La1.85Sr0.15CuO4 doped with Fe 1993 "Kurchatov Institute, Moscow,Russia" "Appl.Supercond., 1(1993)359"
150985 APS0010359 Tc by SUS. "(La,Sr)2(Cu,Fe)O4" La1.85Sr0.15Cu0.997Fe0.003O4 La 1.85 Sr 0.15 Cu 0.997 Fe 0.003 O 4 1993 T K 33.6 33.6 0.2 O 80 0.64 citration technique using sol-gel method. Anomalously enhanced oxygen isotope effect in La1.85Sr0.15CuO4 doped with Fe 1993 "Kurchatov Institute, Moscow,Russia" "Appl.Supercond., 1(1993)359"
150986 APS0010359 Tc by SUS. "(La,Sr)2(Cu,Fe)O4" La1.85Sr0.15Cu0.995Fe0.005O4 La 1.85 Sr 0.15 Cu 0.995 Fe 0.005 O 4 1993 T K 30.82 30.82 0.27 O 80 0.79 citration technique using sol-gel method. Anomalously enhanced oxygen isotope effect in La1.85Sr0.15CuO4 doped with Fe 1993 "Kurchatov Institute, Moscow,Russia" "Appl.Supercond., 1(1993)359"
150987 APS0010359 Tc by SUS. "(La,Sr)2(Cu,Fe)O4" La1.85Sr0.15Cu0.993Fe0.007O4 La 1.85 Sr 0.15 Cu 0.993 Fe 0.007 O 4 1993 T K 26.25 26.25 0.69 O 80 1.67 citration technique using sol-gel method. Anomalously enhanced oxygen isotope effect in La1.85Sr0.15CuO4 doped with Fe 1993 "Kurchatov Institute, Moscow,Russia" "Appl.Supercond., 1(1993)359"
150988 APS0010359 Tc by SUS. "(La,Sr)2(Cu,Fe)O4" La1.85Sr0.15Cu0.992Fe0.008O4 La 1.85 Sr 0.15 Cu 0.992 Fe 0.008 O 4 1993 T K 24.73 24.73 0.81 O 80 1.83 citration technique using sol-gel method. Anomalously enhanced oxygen isotope effect in La1.85Sr0.15CuO4 doped with Fe 1993 "Kurchatov Institute, Moscow,Russia" "Appl.Supercond., 1(1993)359"
150989 APS0010359 Tc by SUS. "(La,Sr)2(Cu,Fe)O4" La1.85Sr0.15Cu0.991Fe0.009O4 La 1.85 Sr 0.15 Cu 0.991 Fe 0.009 O 4 1993 T K 19.85 19.85 0.97 O 80 1.75 citration technique using sol-gel method. Anomalously enhanced oxygen isotope effect in La1.85Sr0.15CuO4 doped with Fe 1993 "Kurchatov Institute, Moscow,Russia" "Appl.Supercond., 1(1993)359"
150990 APS0010359 Tc by SUS. "(La,Sr)2(Cu,Fe)O4" La1.85Sr0.15Cu0.99Fe0.01O4 La 1.85 Sr 0.15 Cu 0.99 Fe 0.01 O 4 1993 T K 17.7 17.7 1.3 O 80 2.06 citration technique using sol-gel method. Anomalously enhanced oxygen isotope effect in La1.85Sr0.15CuO4 doped with Fe 1993 "Kurchatov Institute, Moscow,Russia" "Appl.Supercond., 1(1993)359"
150991 PHC1851345 cell volume = 188.70 A3 "(La,Ca)2CuO4" La1.85Ca0.15Cu1O4 La 1.85 Ca 0.15 Cu 1 O 4 1991 T K 22.1 22.1 0.72 O 90 1.56 Oxygen isotope effect and structural phase transitions in La2-xMxCuO4 1991 "Physica C, 185-189(1991)1345"
150992 PHB1941433 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1994 T K 38 38 0.15 O 80 "heat treatment (950C in <16>O2, <18>O2 atmosphere)" "Oxygen isotope effect in Tc of La2-ySryCu1-xMexO4 (Me=Ni, Zn, Co, Fe)" 1994 "Russian Scientific Center ""Kurchatov Institute"", 123182 Moscow, Russia" "Physica B, 194-196(1994)1433"
150993 PHB1941433 "(La,Sr)2(Cu,Co)O4" La1.85Sr0.15Cu0.9975Co0.0025O4 La 1.85 Sr 0.15 Cu 0.9975 Co 0.0025 O 4 1994 T K 34.8 34.8 0.15 O 80 "heat treatment (950C in <16>O2, <18>O2 atmosphere)" "Oxygen isotope effect in Tc of La2-ySryCu1-xMexO4 (Me=Ni, Zn, Co, Fe)" 1994 "Russian Scientific Center ""Kurchatov Institute"", 123182 Moscow, Russia" "Physica B, 194-196(1994)1433"
150994 PHB1941433 "(La,Sr)2(Cu,Co)O4" La1.85Sr0.15Cu0.995Co0.005O4 La 1.85 Sr 0.15 Cu 0.995 Co 0.005 O 4 1994 T K 33 33 0.15 O 80 "heat treatment (950C in <16>O2, <18>O2 atmosphere)" "Oxygen isotope effect in Tc of La2-ySryCu1-xMexO4 (Me=Ni, Zn, Co, Fe)" 1994 "Russian Scientific Center ""Kurchatov Institute"", 123182 Moscow, Russia" "Physica B, 194-196(1994)1433"
150995 PHB1941433 "(La,Sr)2(Cu,Co)O4" La1.85Sr0.15Cu0.9925Co0.0075O4 La 1.85 Sr 0.15 Cu 0.9925 Co 0.0075 O 4 1994 T K 30.6 30.6 0.22 O 80 "heat treatment (950C in <16>O2, <18>O2 atmosphere)" "Oxygen isotope effect in Tc of La2-ySryCu1-xMexO4 (Me=Ni, Zn, Co, Fe)" 1994 "Russian Scientific Center ""Kurchatov Institute"", 123182 Moscow, Russia" "Physica B, 194-196(1994)1433"
150996 PHB1941433 "(La,Sr)2(Cu,Co)O4" La1.85Sr0.15Cu0.99Co0.01O4 La 1.85 Sr 0.15 Cu 0.99 Co 0.01 O 4 1994 T K 25.2 25.2 0.4 O 80 "heat treatment (950C in <16>O2, <18>O2 atmosphere)" "Oxygen isotope effect in Tc of La2-ySryCu1-xMexO4 (Me=Ni, Zn, Co, Fe)" 1994 "Russian Scientific Center ""Kurchatov Institute"", 123182 Moscow, Russia" "Physica B, 194-196(1994)1433"
150997 PHB1941433 "(La,Sr)2(Cu,Co)O4" La1.85Sr0.15Cu0.9875Co0.0125O4 La 1.85 Sr 0.15 Cu 0.9875 Co 0.0125 O 4 1994 T K 22.9 22.9 0.46 O 80 "heat treatment (950C in <16>O2, <18>O2 atmosphere)" "Oxygen isotope effect in Tc of La2-ySryCu1-xMexO4 (Me=Ni, Zn, Co, Fe)" 1994 "Russian Scientific Center ""Kurchatov Institute"", 123182 Moscow, Russia" "Physica B, 194-196(1994)1433"
150998 PHB1941433 "(La,Sr)2(Cu,Co)O4" La1.85Sr0.15Cu0.985Co0.015O4 La 1.85 Sr 0.15 Cu 0.985 Co 0.015 O 4 1994 T K 13.5 13.5 1.07 O 80 "heat treatment (950C in <16>O2, <18>O2 atmosphere)" "Oxygen isotope effect in Tc of La2-ySryCu1-xMexO4 (Me=Ni, Zn, Co, Fe)" 1994 "Russian Scientific Center ""Kurchatov Institute"", 123182 Moscow, Russia" "Physica B, 194-196(1994)1433"
150999 PHB1941433 "(La,Sr)2(Cu,Co)O4" La1.85Sr0.15Cu0.9825Co0.0175O4 La 1.85 Sr 0.15 Cu 0.9825 Co 0.0175 O 4 1994 T K 13.2 13.2 1.3 O 80 "heat treatment (950C in <16>O2, <18>O2 atmosphere)" "Oxygen isotope effect in Tc of La2-ySryCu1-xMexO4 (Me=Ni, Zn, Co, Fe)" 1994 "Russian Scientific Center ""Kurchatov Institute"", 123182 Moscow, Russia" "Physica B, 194-196(1994)1433"
151000 J077063707 ZrCuSiAs-type for 0 =< y =< 0.6 in NdFeAsO1-y. NdOxFeAs Nd1Fe1As1O0.6 Nd 1 Fe 1 As 1 O 0.6 2008 oxypnictide P4/nmm A 3.943 8.529 ZrCuSiAs-type K 52 54.2 53 53 TC151000 82 "NdAs,Fe,Fe2O3" "high-P-synthesis using cubic anvil. Mixture - heat(1200C,2h, P=2GPa, in BN crucible)" Superconductivity at 54K in F-Free NdFeAsO1-y 2008 "Nanoelectronics Research Institute (NeRI), National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Central 2, Umezono, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 77(2008)063707"
151001 J077063707 impurity phase appears. NdOxFeAs Nd1Fe1As1O0.2 Nd 1 Fe 1 As 1 O 0.2 2008 oxypnictide A 3.9346 8.5324 ZrCuSiAs-type K 54 54 19 "NdAs,Fe,Fe2O3" "high-P-synthesis using cubic anvil. Mixture - heat(1200C,2h, P=2GPa, in BN crucible)" Superconductivity at 54K in F-Free NdFeAsO1-y 2008 "Nanoelectronics Research Institute (NeRI), National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Central 2, Umezono, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 77(2008)063707"
151002 J077063707 LaOxFeAs La1Fe1As1O0.6 La 1 Fe 1 As 1 O 0.6 2008 oxypnictide ZrCuSiAs-type K 27 27 "NdAs,Fe,Fe2O3" "high-P-synthesis using cubic anvil. Mixture - heat(1200C,2h, P=2GPa, in BN crucible)" Superconductivity at 54K in F-Free NdFeAsO1-y 2008 "Nanoelectronics Research Institute (NeRI), National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Central 2, Umezono, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 77(2008)063707"
151003 J077063707 PrOxFeAs Pr1Fe1As1O0.6 Pr 1 Fe 1 As 1 O 0.6 2008 oxypnictide ZrCuSiAs-type K 44 44 "NdAs,Fe,Fe2O3" "high-P-synthesis using cubic anvil. Mixture - heat(1200C,2h, P=2GPa, in BN crucible)" Superconductivity at 54K in F-Free NdFeAsO1-y 2008 "Nanoelectronics Research Institute (NeRI), National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Central 2, Umezono, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 77(2008)063707"
151004 PHC4682229 hydrostatic pressure. Diamond anvil cell. "La(O,F)FeAs" La1Fe1As1F0.11O0.89 La 1 Fe 1 As 1 F 0.11 O 0.89 1 2008 oxypnictide ZrCuSiAs-type K 28 28 TC151004 K/GPa 2.2 Effect of pressure on the superconducting critical temperature of La[O0.89F0.11]FeAs and Ce[O0.88F0.12]FeAs 2008 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, CA 92093, USA" "Physica C, 468(2008)2229"
151005 PHC4682229 Tc < 1.1 K at P=265 kbar. "Ce(O,F)FeAs" Ce1Fe1As1F0.12O0.88 Ce 1 Fe 1 As 1 F 0.12 O 0.88 1 2008 oxypnictide ZrCuSiAs-type K 47 47 TC151005 sample prepared using Bridgman anvil cell. Effect of pressure on the superconducting critical temperature of La[O0.89F0.11]FeAs and Ce[O0.88F0.12]FeAs 2008 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, CA 92093, USA" "Physica C, 468(2008)2229"
151006 PHC4682341 post annealed sample. "(Cu,Tl)Ba2Ca2Cu3O10" Tl0.5Ba2Ca2Cu3O10-z Tl 0.5 Ba 2 Ca 2 Cu 3 O 10-z 2 2008 Tl1223 "(Cu,Tl)1223" K 114 110 112 "Two step solid state reaction. precursor(Cu-Ba-Ca-Ge-O) was prepared. Then, addition(Tl2O3) - wrapped in Au - heat(860C,8min) - Q to RT" "(Cu0.5Tl0.5)Ba2Can-1Cun-yGeyO2n+4-d (n = 3, 4 and y = 0.5, 0.75, 1.0); superconductors with GeO2 planes" 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Physica C, 468(2008)2341"
151007 PHC4682341 "(Cu,Tl)Ba2Ca2(Cu,Ge)3O10" Tl0.5Ba2Ca2Cu3Ge0.5O10-z Tl 0.5 Ba 2 Ca 2 Cu 3 Ge 0.5 O 10-z 2 2008 Tl1223 "(Cu,Tl)1223" K 104 102 103 "Two step solid state reaction. precursor(Cu-Ba-Ca-Ge-O) was prepared. Then, addition(Tl2O3) - wrapped in Au - heat(860C,8min) - Q to RT" "(Cu0.5Tl0.5)Ba2Can-1Cun-yGeyO2n+4-d (n = 3, 4 and y = 0.5, 0.75, 1.0); superconductors with GeO2 planes" 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Physica C, 468(2008)2341"
151008 PHC4682341 "(Cu,Tl)Ba2Ca2(Cu,Ge)3O10" Tl0.5Ba2Ca2Cu2.75Ge0.75O10-z Tl 0.5 Ba 2 Ca 2 Cu 2.75 Ge 0.75 O 10-z 2 2008 Tl1223 "(Cu,Tl)1223" K 112 104 108 "Two step solid state reaction. precursor(Cu-Ba-Ca-Ge-O) was prepared. Then, addition(Tl2O3) - wrapped in Au - heat(860C,8min) - Q to RT" "(Cu0.5Tl0.5)Ba2Can-1Cun-yGeyO2n+4-d (n = 3, 4 and y = 0.5, 0.75, 1.0); superconductors with GeO2 planes" 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Physica C, 468(2008)2341"
151009 PHC4682341 "(Cu,Tl)Ba2Ca2(Cu,Ge)3O10" Tl0.5Ba2Ca2Cu2.5Ge1O10-z Tl 0.5 Ba 2 Ca 2 Cu 2.5 Ge 1 O 10-z 2 2008 Tl1223 "(Cu,Tl)1223" K 108 100 104 "Two step solid state reaction. precursor(Cu-Ba-Ca-Ge-O) was prepared. Then, addition(Tl2O3) - wrapped in Au - heat(860C,8min) - Q to RT" "(Cu0.5Tl0.5)Ba2Can-1Cun-yGeyO2n+4-d (n = 3, 4 and y = 0.5, 0.75, 1.0); superconductors with GeO2 planes" 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Physica C, 468(2008)2341"
151010 JJP0262085 O<18>O exchange: 65 - 85%. YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 1987 Y123 K 92 92 0.05 O 85 0.4 "heat(650C,16h,in vac) - heat(950C,19h,in(98%<18>O+0.57%<17>O+1.32%<16>O)atmosphere)" Isotope effect in superconducting YBa2Cu3O7-z system 1987 "Jpn.J.Appl.Phys., 26(1987)L2085"
151011 JJP0262085 O<18>O exchange: 65 - 85%. No appreciable isotope effect for Cu. YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 1987 Y123 K 92 92 0 Cu 85 "heat(650C,16h,in vac) - heat(950C,19h,in(98%<18>O+0.57%<17>O+1.32%<16>O)atmosphere)" Isotope effect in superconducting YBa2Cu3O7-z system 1987 "Jpn.J.Appl.Phys., 26(1987)L2085"
151012 PHC1560481 Bi2Sr2CaCu2O8 Bi2Sr2Ca1Cu2O8 Bi 2 Sr 2 Ca 1 Cu 2 O 8 1988 Bi2212 K 75 75 0.034 O 100 0.3 "heat(in vav, 5h) - heat(850C,30h,in <18>O atmosphere)" OXYGEN ISOTOPE EFFECT IN THE SUPERCONDUCTING BI-SR-CA-CU-O SYSTEM 1988 "PHYSICA C,156(1988)481"
151013 PHC1560481 Bi2Sr2Ca2Cu3O10 Bi2Sr2Ca2Cu3O10 Bi 2 Sr 2 Ca 2 Cu 3 O 10 1988 Bi2223 K 110 110 0.026 O 100 0.34 "heat(in vav, 5h) - heat(850C,30h,in <18>O atmosphere)" OXYGEN ISOTOPE EFFECT IN THE SUPERCONDUCTING BI-SR-CA-CU-O SYSTEM 1988 "PHYSICA C,156(1988)481"
151014 NAT3350419 "[isotope] = 0.41 or 0.48 assuming exchenge ratio = 100 or 85 %, respectively." "(Ba,K)BiO3" Ba0.625K0.375Bi1O3 Ba 0.625 K 0.375 Bi 1 O 3 1988 BKBO K 29 29.4 30 29.4 0.41 O 1.4 The oxygen isotope effect in Ba0.625K0.375BiO3 1988 Argonne National Lab. "Nature, 335(1988)419"
151015 SCI2381558 "Ba(Pb,Bi)O3" Ba1Pb0.75Bi0.25O3 Ba 1 Pb 0.75 Bi 0.25 O 3 1987 BPBO K 11 6 11 0.64 O 60 0.5 Oxygen isotope effect in high-temperature oxide superconductors 1987 "Science, 238(1989)1558"
151016 PHC1570469 "x=0.25 in Ba1-xKxBiO3 from lattice constant, EPMA." "(Ba,K)BiO3" Ba0.7K0.6Bi1O3 Ba 0.7 K 0.6 Bi 1 O 3 1989 BKBO K 29.35 29.35 0.35 O uV/K TP151016 cm3/C RH151016 "BaO2,KO2,Bi2O3" using <18>O-riched oxide "Normal state properties and oxygen isotope effect of (Ba,K)BiO3" 1989 "Physica C, 157(1989)469"
151017 JJP027L553 "two samples(average Ba mass = 134.57, 137.34) were measured. dM = 2.8. no significant difference in Tc (dTc < 0.1 K)" YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 1 1988 Y123 K 89.9 89.9 0 Ba "two samples - heat(930C,5h, in Pt crucible) - pellet - heat(950C, 1 atm O2 flow)" Ba isotope effect in a Ba2YCu3O7-z superconductor 1988 "Electrotechnical Laboratory, Umezono,Tsukuba City, Ibaraki" "Jpn.J.Appl.Phys., 27(1988)L553"
151018 PR0363990 [isotope] = 0 +- 0.07. Tc(99.7%<65>Cu) - Tc(99.6%<63>Cu) = 0.2 K. YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 1 1987 Y123 K 89.7 89.7 0 Cu Complete absence of isotope effect in YBa2Cu3O7: Consequences for phonon-mediated superconductivity 1987 "University of California, Berkeley, California" "Phys.Rev.B, 36(1987)3990"
151019 PR0363990 [isotope] = 0 +- 0.10. Tc(99.7%<138>Ba) - Tc(78.8%<135>Ba) = 0.1 K. YBa2Cu3O7 Y1Ba2Cu3O7-z Y 1 Ba 2 Cu 3 O 7-z 1 1987 Y123 K 91.95 91.95 0 Ba Complete absence of isotope effect in YBa2Cu3O7: Consequences for phonon-mediated superconductivity 1987 "University of California, Berkeley, California" "Phys.Rev.B, 36(1987)3990"
151020 SCI2590655 Tc(55%<13>C) - Tc(<12>C) = 0.5 K. Rb3C60 C60Rb3 C 60 Rb 3 1993 fullerene K 29.55 29.55 0.39 C 55 0.5 Isotope effect and superconductivity in metal-doped C60 1993 "Department of Chemistry , Harvard University, Cambridge, MA, USA" Science 259(1993)655
151021 SCI2590655 Tc(50%<13>C) - Tc(<12>C) = 0.9 K. Rb3C60 C60Rb3 C 60 Rb 3 1993 fullerene K 29.55 29.55 0.77 C 50 0.9 Isotope effect and superconductivity in metal-doped C60 1993 "Department of Chemistry , Harvard University, Cambridge, MA, USA" Science 259(1993)655
151022 MTL0624400 "(Pb,M)SrLaCuOz (M=P,S) are not SC." "(Pb,B)SrLaCuOz" Pb0.5B0.5Sr1La1Cu1Oz Pb 0.5 B 0.5 Sr 1 La 1 Cu 1 O z 1 2008 Pb1201 A 3.779 8.654 K 25 32 30 30 19 "Sr2CuO3,PbO,La2O3,CuO,B2O3" "mixture - pellet - CAL(800C,24h,in air) - pellet - SIN(890C,24h,in air) - cool to RT" "New superconducting lead cuprate with 1201 structure, (Pb0.5B0.5) (SrLa)CuOz" 2008 "Department of Physics, Hamamatsu University School of Medicine, 1-20-1 Handayama, Higashi-ku, Hamamatsu, Shizuoka 431-3192, Japan" "Mater.Lett., 62(2008)4400"
151023 JAC4640550 as-grown sample "(Cu,Tl,Li)Ba2Ca2(Cu,Ni)3O10" Tl0.25Li0.25Ba2Ca2Cu2Ni1.5O10-z Tl 0.25 Li 0.25 Ba 2 Ca 2 Cu 2 Ni 1.5 O 10-z 2008 Tl1223 "(Cu,Tl)1223" K 108.4 110 110 "two step method. firstly precursor materials with Tl-free synthesized. Then, precursor + Tl2O3, solid state reaction in Au-capsule." "Effect of Mg doping in enhancing superconductivity in Ni doped (Cu0.5Tl0.25Li0.25)Ba2Ca2-yMgy (Cu1.5Ni1.5)O10-z (y = 0, 0.5, 1.0, 1.5) superconductors" 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "J.Alloys & Compd., 464(2008)550"
151024 JAC4640550 as-grown sample "(Cu,Tl,Li)Ba2(Ca,Mg)2(Cu,Ni)3O10" Tl0.25Li0.25Ba2Ca1.5Mg0.5Cu2Ni1.5O10-z Tl 0.25 Li 0.25 Ba 2 Ca 1.5 Mg 0.5 Cu 2 Ni 1.5 O 10-z 2008 Tl1223 "(Cu,Tl)1223" K 106 107 107 "two step method. firstly precursor materials with Tl-free synthesized. Then, precursor + Tl2O3, solid state reaction in Au-capsule." "Effect of Mg doping in enhancing superconductivity in Ni doped (Cu0.5Tl0.25Li0.25)Ba2Ca2-yMgy (Cu1.5Ni1.5)O10-z (y = 0, 0.5, 1.0, 1.5) superconductors" 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "J.Alloys & Compd., 464(2008)550"
151025 JAC4640550 as-grown sample "(Cu,Tl,Li)Ba2(Ca,Mg)2(Cu,Ni)3O10" Tl0.25Li0.25Ba2Ca1Mg1Cu2Ni1.5O10-z Tl 0.25 Li 0.25 Ba 2 Ca 1 Mg 1 Cu 2 Ni 1.5 O 10-z 2008 Tl1223 "(Cu,Tl)1223" K 101 105 105 "two step method. firstly precursor materials with Tl-free synthesized. Then, precursor + Tl2O3, solid state reaction in Au-capsule." "Effect of Mg doping in enhancing superconductivity in Ni doped (Cu0.5Tl0.25Li0.25)Ba2Ca2-yMgy (Cu1.5Ni1.5)O10-z (y = 0, 0.5, 1.0, 1.5) superconductors" 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "J.Alloys & Compd., 464(2008)550"
151026 JAC4640550 as-grown sample "(Cu,Tl,Li)Ba2(Ca,Mg)2(Cu,Ni)3O10" Tl0.25Li0.25Ba2Ca0.5Mg1.5Cu2Ni1.5O10-z Tl 0.25 Li 0.25 Ba 2 Ca 0.5 Mg 1.5 Cu 2 Ni 1.5 O 10-z 2008 Tl1223 "(Cu,Tl)1223" K 96.5 103 103 "two step method. firstly precursor materials with Tl-free synthesized. Then, precursor + Tl2O3, solid state reaction in Au-capsule." "Effect of Mg doping in enhancing superconductivity in Ni doped (Cu0.5Tl0.25Li0.25)Ba2Ca2-yMgy (Cu1.5Ni1.5)O10-z (y = 0, 0.5, 1.0, 1.5) superconductors" 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "J.Alloys & Compd., 464(2008)550"
151027 JAC4640550 as-grown sample "(Cu,Tl)Ba2Ca2(Cu,Ni)3O10" Tl0.5Ba2Ca2Cu2Ni1.5O10-z Tl 0.5 Ba 2 Ca 2 Cu 2 Ni 1.5 O 10-z 2008 Tl1223 "(Cu,Tl)1223" K 90 97 97 "two step method. firstly precursor materials with Tl-free synthesized. Then, precursor + Tl2O3, solid state reaction in Au-capsule." "Effect of Mg doping in enhancing superconductivity in Ni doped (Cu0.5Tl0.25Li0.25)Ba2Ca2-yMgy (Cu1.5Ni1.5)O10-z (y = 0, 0.5, 1.0, 1.5) superconductors" 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "J.Alloys & Compd., 464(2008)550"
151028 JAC4640550 as-grown sample "(Cu,Tl)Ba2(Ca,Mg)2(Cu,Ni)3O10" Tl0.5Ba2Ca1.5Mg0.5Cu2Ni1.5O10-z Tl 0.5 Ba 2 Ca 1.5 Mg 0.5 Cu 2 Ni 1.5 O 10-z 2008 Tl1223 "(Cu,Tl)1223" K 97 99.7 99.7 "two step method. firstly precursor materials with Tl-free synthesized. Then, precursor + Tl2O3, solid state reaction in Au-capsule." "Effect of Mg doping in enhancing superconductivity in Ni doped (Cu0.5Tl0.25Li0.25)Ba2Ca2-yMgy (Cu1.5Ni1.5)O10-z (y = 0, 0.5, 1.0, 1.5) superconductors" 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "J.Alloys & Compd., 464(2008)550"
151029 JAC4640550 as-grown sample "(Cu,Tl)Ba2(Ca,Mg)2(Cu,Ni)3O10" Tl0.5Ba2Ca1Mg1Cu2Ni1.5O10-z Tl 0.5 Ba 2 Ca 1 Mg 1 Cu 2 Ni 1.5 O 10-z 2008 Tl1223 "(Cu,Tl)1223" K 97 99.8 99.8 "two step method. firstly precursor materials with Tl-free synthesized. Then, precursor + Tl2O3, solid state reaction in Au-capsule." "Effect of Mg doping in enhancing superconductivity in Ni doped (Cu0.5Tl0.25Li0.25)Ba2Ca2-yMgy (Cu1.5Ni1.5)O10-z (y = 0, 0.5, 1.0, 1.5) superconductors" 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "J.Alloys & Compd., 464(2008)550"
151030 JAC4640550 as-grown sample "(Cu,Tl)Ba2(Ca,Mg)2(Cu,Ni)3O10" Tl0.5Ba2Ca0.5Mg1.5Cu2Ni1.5O10-z Tl 0.5 Ba 2 Ca 0.5 Mg 1.5 Cu 2 Ni 1.5 O 10-z 2008 Tl1223 "(Cu,Tl)1223" K 95 100 100 "two step method. firstly precursor materials with Tl-free synthesized. Then, precursor + Tl2O3, solid state reaction in Au-capsule." "Effect of Mg doping in enhancing superconductivity in Ni doped (Cu0.5Tl0.25Li0.25)Ba2Ca2-yMgy (Cu1.5Ni1.5)O10-z (y = 0, 0.5, 1.0, 1.5) superconductors" 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "J.Alloys & Compd., 464(2008)550"
151031 MCP1120412 "95%-1223phase, 5%-1234phase" "(Cu,Tl)Ba2(Ca,Be)2(Cu,Ni)3O10" Tl0.5Ba2Ca1.5Be0.5Cu2Ni1.5O10-z Tl 0.5 Ba 2 Ca 1.5 Be 0.5 Cu 2 Ni 1.5 O 10-z 2008 Tl1223 A 4.0303 14.8424 "(Cu,Tl)1223" K 98 100 100 two step synthesis. Tl-free precursor firstly synthesized "Enhancement of superconducting properties in Cu0.5Tl0.5Ba2Ca0.5M1.5Cu1.5Ni1.5O10-z (M= Mg, Be) superconductors" 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Mater.Chem.Phys., 112(2008)412"
151032 MCP1120412 "90%-1223phase, 10%-1234phase" "(Cu,Tl)Ba2(Ca,Be)2(Cu,Ni)3O10" Tl0.5Ba2Ca1Be1Cu2Ni1.5O10-z Tl 0.5 Ba 2 Ca 1 Be 1 Cu 2 Ni 1.5 O 10-z 2008 Tl1223 A 4.0156 14.8219 "(Cu,Tl)1223" K 102 104 104 two step synthesis. Tl-free precursor firstly synthesized "Enhancement of superconducting properties in Cu0.5Tl0.5Ba2Ca0.5M1.5Cu1.5Ni1.5O10-z (M= Mg, Be) superconductors" 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Mater.Chem.Phys., 112(2008)412"
151033 MCP1120412 "93%-1223phase, 7%-1234phase" "(Cu,Tl)Ba2(Ca,Be)2(Cu,Ni)3O10" Tl0.5Ba2Ca0.5Be1.5Cu2Ni1.5O10-z Tl 0.5 Ba 2 Ca 0.5 Be 1.5 Cu 2 Ni 1.5 O 10-z 2008 Tl1223 A 4.0089 14.8007 "(Cu,Tl)1223" K 104 107 107 two step synthesis. Tl-free precursor firstly synthesized "Enhancement of superconducting properties in Cu0.5Tl0.5Ba2Ca0.5M1.5Cu1.5Ni1.5O10-z (M= Mg, Be) superconductors" 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Mater.Chem.Phys., 112(2008)412"
151034 MCP1120412 "85%-1223phase, 11%-1234phase, 4%-1212phase" "(Cu,Tl)Ba2(Ca,Mg)2(Cu,Ni)3O10" Tl0.5Ba2Ca1.5Mg0.5Cu2Ni1.5O10-z Tl 0.5 Ba 2 Ca 1.5 Mg 0.5 Cu 2 Ni 1.5 O 10-z 2008 Tl1223 A 4.0455 14.8737 "(Cu,Tl)1223" K 96 101 101 two step synthesis. Tl-free precursor firstly synthesized "Enhancement of superconducting properties in Cu0.5Tl0.5Ba2Ca0.5M1.5Cu1.5Ni1.5O10-z (M= Mg, Be) superconductors" 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Mater.Chem.Phys., 112(2008)412"
151035 MCP1120412 "84%-1223phase, 12%-1234phase, 4%-1212phase" "(Cu,Tl)Ba2(Ca,Mg)2(Cu,Ni)3O10" Tl0.5Ba2Ca1Mg1Cu2Ni1.5O10-z Tl 0.5 Ba 2 Ca 1 Mg 1 Cu 2 Ni 1.5 O 10-z 2008 Tl1223 A 4.0281 14.8404 "(Cu,Tl)1223" K 97 102.5 102.5 two step synthesis. Tl-free precursor firstly synthesized "Enhancement of superconducting properties in Cu0.5Tl0.5Ba2Ca0.5M1.5Cu1.5Ni1.5O10-z (M= Mg, Be) superconductors" 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Mater.Chem.Phys., 112(2008)412"
151036 MCP1120412 "80%-1223phase, 15%-1234phase, 5%-1212phase" "(Cu,Tl)Ba2(Ca,Mg)2(Cu,Ni)3O10" Tl0.5Ba2Ca0.5Mg1.5Cu2Ni1.5O10-z Tl 0.5 Ba 2 Ca 0.5 Mg 1.5 Cu 2 Ni 1.5 O 10-z 2008 Tl1223 A 4.0152 14.8108 "(Cu,Tl)1223" K 98 103.5 103.5 two step synthesis. Tl-free precursor firstly synthesized "Enhancement of superconducting properties in Cu0.5Tl0.5Ba2Ca0.5M1.5Cu1.5Ni1.5O10-z (M= Mg, Be) superconductors" 2008 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Mater.Chem.Phys., 112(2008)412"
151037 PRL0590915 Tc measured by magnetization. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1987 T K 35 35 0.22 O 68 0.6 different <18>O concentration from different annealing conditions. Observation of oxygen isotope shift in the superconducting transition temperature of La1.85Sr0.15CuO4 1987 "Phys.Rev.Lett., 59(1987)915"
151038 PRL0590915 Tc measured by magnetization. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1987 T K 37 37 0.13 O 75 0.45 different <18>O concentration from different annealing conditions. Observation of oxygen isotope shift in the superconducting transition temperature of La1.85Sr0.15CuO4 1987 "Phys.Rev.Lett., 59(1987)915"
151039 PRL0590915 Tc measured by resistive transition. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1987 T K 34.5 34.5 0.09 O 65 0.25 different <18>O concentration from different annealing conditions. Observation of oxygen isotope shift in the superconducting transition temperature of La1.85Sr0.15CuO4 1987 "Phys.Rev.Lett., 59(1987)915"
151040 PRL0590915 Tc measured by resistive transition. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1987 T K 37 37 0.11 O 65 0.33 different <18>O concentration from different annealing conditions. Observation of oxygen isotope shift in the superconducting transition temperature of La1.85Sr0.15CuO4 1987 "Phys.Rev.Lett., 59(1987)915"
151041 PRL0590915 Tc measured by resistive transition. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 1 1987 T K 37 37 0.1 O 65 0.3 different <18>O concentration from different annealing conditions. Observation of oxygen isotope shift in the superconducting transition temperature of La1.85Sr0.15CuO4 1987 "Phys.Rev.Lett., 59(1987)915"
151042 P078100507 Tc(mid) defined as a peak of (dR/dT). [dTc/dP] for P > 0.2 GPa. "La(O,F)FeAs" La1Fe1As1F0.1O0.9 La 1 Fe 1 As 1 F 0.1 O 0.9 1 2008 GPa 78 oxypnictide A 4.004 8.689 K 22.8 23.8 22.8 TC151042 K/Gpa -0.73 "La2O3,LaF3,La or Fe,Fe2O3,As,LaAs" "High-P-T(HIP) synthesis. T-dependence of lattice constant a(T), c(T) were measured." Correlated pressure effects on the structure and superconductivity of LaFeAsO0.9F0.1 2008 "European Synchrotron Radiation Facility (ESRF), BP 220, 6 Rue Jules Horowitz, 38043 Grenoble Cedex, France" "Phys.Rev.B, 78(2008)100507"
151043 P078104527 "(dTc(on)/dP) = -1.5 K/GPa), (dTc(off)/dP) = -2.1 K/GPa)," "(Ba,K)Fe2As2" Ba0.55K0.45Fe2As2 Ba 0.55 K 0.45 Fe 2 As 2 2008 ThCr2Si2 K 28.6 30.2 29.4 MTC151043 K/Gpa -1.5 MHC151043 Sn-flux method using high-temperature solution growth techniques. Effect of pressure on the structural phase transition and superconductivity in (Ba1-xKx)Fe2As2 (x=0 and 0.45) and SrFe2As2 single crystals 2008 "Department of Physics, San Diego State University, San Diego, California 92182-1233, USA" "Phys.Rev.B, 78(2008)104527"
151044 P078104527 "not SC. AFM phase: Tn(P) = 173(0), 144(2.3), 128(3.52): P in kbar." CaFe2As2 Ca1Fe2As2 Ca 1 Fe 2 As 2 2008 173 ThCr2Si2 K 0.5 Sn-flux method using high-temperature solution growth techniques. Effect of pressure on the structural phase transition and superconductivity in (Ba1-xKx)Fe2As2 (x=0 and 0.45) and SrFe2As2 single crystals 2008 "Department of Physics, San Diego State University, San Diego, California 92182-1233, USA" "Phys.Rev.B, 78(2008)104527"
151045 P078104527 "not SC. AFM phase: Tn(P) = 86.1(0), 79.5(5.49), 74.7(9.33), 69.8(15.2), 64.7(20.1): P in kbar)." BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 2008 86.1 ThCr2Si2 K 0.5 Sn-flux method using high-temperature solution growth techniques. Effect of pressure on the structural phase transition and superconductivity in (Ba1-xKx)Fe2As2 (x=0 and 0.45) and SrFe2As2 single crystals 2008 "Department of Physics, San Diego State University, San Diego, California 92182-1233, USA" "Phys.Rev.B, 78(2008)104527"
151046 P078104527 not SC. AFM phase: Tn(P) : AFM151046 in [TCFIG] SrFe2As2 Sr1Fe2As2 Sr 1 Fe 2 As 2 2008 205 ThCr2Si2 K 0.5 AFM151046 Sn-flux method using high-temperature solution growth techniques. Effect of pressure on the structural phase transition and superconductivity in (Ba1-xKx)Fe2As2 (x=0 and 0.45) and SrFe2As2 single crystals 2008 "Department of Physics, San Diego State University, San Diego, California 92182-1233, USA" "Phys.Rev.B, 78(2008)104527"
151047 MAT8071896 "P-induced-SC. resistivity not measured. Tc(max) = 29K(P=4.0GPa), [VOLS](max) = 25%(P=4.0GPa). Pc = 2.8 GPa." BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2008 ThCr2Si2 K 29 0 29 MTC151047 single crystals grown by Sn-flux method. Superconductivity up to 29 K in SrFe2As2 and BaFe2As2 at high pressures 2008 "Department of Physics, University of Cambridge, Cavendish Laboratory, JJ Thomson Avenue, Cambridge CB3 0HE, UK" cond-mat/0807.1896(2008)
151048 MAT8071896 "P-induced-SC. resistivity not measured. Tc(max) = 27K(P=3.0GPa), [VOLS](max) = 25%(P=3.8GPa). Pc = 2.7 GPa." SrFe2As2 Sr1Fe2As2 Sr 1 Fe 2 As 2 3 2008 ThCr2Si2 K 27 0 27 MTC151048 single crystals grown by Sn-flux method. Superconductivity up to 29 K in SrFe2As2 and BaFe2As2 at high pressures 2008 "Department of Physics, University of Cambridge, Cavendish Laboratory, JJ Thomson Avenue, Cambridge CB3 0HE, UK" cond-mat/0807.1896(2008)
151049 MAT8074283 "P-induced SC.Tc=27 K at P=2.8 GPa, but zero-resistivity not obtained. tetre-to-ortho transition at 205 K." SrFe2As2 Sr1Fe2As2 Sr 1 Fe 2 As 2 1 2008 ThCr2Si2 K 27 0 27 mOhm.cm 0.83 mixture(Sr:Fe:As=1:2:2) in Al2O3 crucible - sealed in quartz tube(inert gas) - heat. Effect of pressure on the magnetostructural transition in SrFe2As2 2008 "Max Planck Institute for Chemical Physics of Solids, Nothnitzer Str. 40, 01187 Dresden, Germany" cond-mat/0807.4283(2008)
151050 P078132506 not SC. R-anomaly(peak) at T* = 124 K. TbOFeAs Tb1Fe1As1O1 Tb 1 Fe 1 As 1 O 1 1 2008 oxypnictide P4/nmm A 3.8994 8.4029 ZrCuSiAs-type K 4 uV/K -12.55 TP151052 "Tb,Tb4O7,ThO2,Fe,As" "FeAs,TbAs firstly made. Then, mixture - pellet(at 200MPa, in Ar) - wrapped(Ta-foil) - sealed in evacuated quartz ampoule - heat(1453K,48h) - FC to RT" Superconductivity above 50 K in Tb1-xThxFeAsO 2008 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 78(2008)132506"
151051 P078132506 R-anomaly(peak) at T* = 120 K. "(Tb,Th)OFeAs" Tb0.9Th0.1Fe1As1O1 Tb 0.9 Th 0.1 Fe 1 As 1 O 1 1 2008 oxypnictide P4/nmm A 3.8998 8.409 ZrCuSiAs-type K 45 45 uV/K -13.09 TP151052 "Tb,Tb4O7,ThO2,Fe,As" "FeAs,TbAs firstly made. Then, mixture - pellet(at 200MPa, in Ar) - wrapped(Ta-foil) - sealed in evacuated quartz ampoule - heat(1453K,48h) - FC to RT" Superconductivity above 50 K in Tb1-xThxFeAsO 2008 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 78(2008)132506"
151052 P078132506 "(Tb,Th)OFeAs" Tb0.8Th0.2Fe1As1O1 Tb 0.8 Th 0.2 Fe 1 As 1 O 1 1 2008 oxypnictide P4/nmm A 3.9025 8.4131 ZrCuSiAs-type K 52 52 50 uV/K -32.73 TP151052 "Tb,Tb4O7,ThO2,Fe,As" "FeAs,TbAs firstly made. Then, mixture - pellet(at 200MPa, in Ar) - wrapped(Ta-foil) - sealed in evacuated quartz ampoule - heat(1453K,48h) - FC to RT" Superconductivity above 50 K in Tb1-xThxFeAsO 2008 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 78(2008)132506"
151053 P078134504 Tc by SP-heat. (dC/gamma*Tc) = 1.14. e-ph coupling = 0.41. LuB12 B12Lu1 B 12 Lu 1 2008 UB12 K 0.42 0.42 3.2 14 MSP151053 mJ/mol.K2 0.26 SP-heat zone melting using high-frequency induction heating. Effect of electron-phonon coupling on the superconducting transition temperature in dodecaboride superconductors: A comparison of LuB12 with ZrB12 2008 "Departement de Physique de la Matiere Condensee, Universite de Geneve, Quai Ernest-Ansermet 24, 1211 Geneve 4, Switzerland" "Phys.Rev.B, 78(2008)134504"
151054 P078134508 magnetoresistance is very weak. [RESN] at 55 K. "Nd(O,F)FeAs" Nd1Fe1As1F0.18O0.82 Nd 1 Fe 1 As 1 F 0.18 O 0.82 3 2008 oxypnictide ZrCuSiAs-type K 50 2 50 mOhm.cm 0.2 m3/C -1.66E-09 RH151054 flux method using NaCl-flux. Hall effect and magnetoresistance in single crystals of NdFeAsO1-xFx (x=0 and 0.18) 2008 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, People's Republic of China" "Phys.Rev.B, 78(2008)134508"
151055 JAC21700L1 resistivity measured for [100] direction. RRR=70. LuB12 B12Lu1 B 12 Lu 1 3 1995 UB12 K 0.44 0.44 uOhm.cm 0.16 floating zone method. Electrical resistivity and superconductivity of LaB6 and LuB12 1995 "J.Alloys Compd., 217(1995)L1"
151056 JAC21700L1 not SC. resistivity measured for [100] direction. RRR=80. R shows Kondo-like increase of R below 12 K. LaB6 B6La1 B 6 La 1 3 1995 K 0.005 uOhm.cm 0.092 floating zone method. Electrical resistivity and superconductivity of LaB6 and LuB12 1995 "J.Alloys Compd., 217(1995)L1"
151057 LTP1400339 "RRR=70. Tc by SP-heat. [gamma] by fitting for T < 14K. (dC/gamma*Tc) = 1.3. gap by point contact tunneling. R = R0 + A*T^5,R0=1.6uOhm.cm, A=1.2E-9 Ohm.cm/K^5 for 1.6 < T < 30 K." LuB12 B12Lu1 B 12 Lu 1 3 2005 UB12 K 0.4 0.4 meV 0.06 1 mJ/mol.K2 4 SP-heat 1100 SP-heat floating zone method. Low Temperature Properties and Superconductivity of LuB12 2005 "Centre of Low Temperature Physics, Institute of Experimental Physics, Slovak Academy of Sciences, SK-04353 Kosice, Slovakia" "J.Low Temp.Phys., 140(2005)339"
151058 LES0670167 YB6 B6Y1 B 6 Y 1 1979 K 6 6 "LaB6(6N),La2O3(5N)" borothermal reaction: RO3 + 15B = 2RB6 + (3/2)B2O2 Superconductivity in the hexaborides 1979 "J.Less-Common Met., 67(1979)167"
151059 LES0670167 "(Y,La)B6" Y0.6La0.4B6 Y 0.6 La 0.4 B 6 1979 K 4.4 4.4 "LaB6(6N),La2O3(5N)" borothermal reaction: RO3 + 15B = 2RB6 + (3/2)B2O2 Superconductivity in the hexaborides 1979 "J.Less-Common Met., 67(1979)167"
151060 LES0670167 "(Y,Fe)B6" Y0.9Fe0.1B6 Y 0.9 Fe 0.1 B 6 1979 K 3.3 3.3 "LaB6(6N),La2O3(5N)" borothermal reaction: RO3 + 15B = 2RB6 + (3/2)B2O2 Superconductivity in the hexaborides 1979 "J.Less-Common Met., 67(1979)167"
151061 LES0670167 "(Y,Ce)B6" Y0.95Ce0.05B6 Y 0.95 Ce 0.05 B 6 1979 K 1.6 1.6 "LaB6(6N),La2O3(5N)" borothermal reaction: RO3 + 15B = 2RB6 + (3/2)B2O2 Superconductivity in the hexaborides 1979 "J.Less-Common Met., 67(1979)167"
151062 LES0670167 "(Y,La)B6" Y0.5La0.5B6 Y 0.5 La 0.5 B 6 1979 K 1.6 1.6 "LaB6(6N),La2O3(5N)" borothermal reaction: RO3 + 15B = 2RB6 + (3/2)B2O2 Superconductivity in the hexaborides 1979 "J.Less-Common Met., 67(1979)167"
151063 PR134A385 "Debye-T shows at zero-K-value. Hc2(0) shows Hc(0), type-I SC. (Ces(Tc)/gamma*Tc) = 2.44" Ga Ga1 Ga 1 1964 K 1.078 1.078 Oe 58.9 MSP151063 mJ/mol.K2 0.596 SP-heat 324.7 SP-heat "Low-temperature heat capacities of gallium, cadmium, and copper" 1964 "University of California, Berkeley" "Phys.Rev., 134(1964)A385"
151064 PR134A385 "Debye-T shows at zero-K-value. Hc2(0) shows Hc(0), type-I SC. (Ces(Tc)/gamma*Tc) = 2.32" Cd Cd1 Cd 1 1964 K 0.518 0.518 Oe 29.6 MSP151064 mJ/mol.K2 0.688 SP-heat 209 SP-heat "Low-temperature heat capacities of gallium, cadmium, and copper" 1964 "University of California, Berkeley" "Phys.Rev., 134(1964)A385"
151065 PR137A748 "lattice term of SP, beta = 1.42 mJ/mol.K4 for 0.1Ga-NMR measurements. PuCoGa5 Pu1Co1Ga5 Pu 1 Co 1 Ga 5 3 2005 ABC5 HoCoGa5 K 18 18 8 6 Unconventional superconductivity in PuCoGa5 2005 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Nature, 434(2005)622"
151072 JPS0741710 "<69>Ga, <71>Ga-NMR,NQR were measured. [gap] calculated from fitting of T1(T). Tc=9 K just after synthesis." PuRhGa5 Pu1Rh1Ga5 Pu 1 Rh 1 Ga 5 3 2005 ABC5 HoCoGa5 A 4.2354 6.7939 K 8.5 8.5 5 6 Ga-flux method Anisotropic Superconducting Gap in Transuranium Superconductor PuRhGa5: Ga NQR Study on a Single Crystal 2005 "Advanced Science Research Center, Japan Atomic Energy Research Institute, Tokai, Ibaraki 319-1195" "J.Phys.Soc.Jpn, 74(2005)1710"
151073 P064134526 "<115>In, <59>Co-NMR, NQR measured. [gap] from fitting of T1(T)." CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2001 ABC5 HoCoGa5 K 2.3 2.3 10 6 In-flux method NMR and NQR studies of the heavy fermion superconductors CeTIn5 (T = Co and Ir) 2001 "Department of Material Science, Faculty of Science, Himeji Institute of Technology, Kamigori-cho Ako-gun, Hyogo 678-1297, Japan" "Phys.Rev.B, 64(2001)134526"
151074 P064134526 "<115>In, <59>Co-NMR, NQR measured. [gap] from fitting of T1(T)." CeIrIn5 Ce1Ir1In5 Ce 1 Ir 1 In 5 3 2001 ABC5 HoCoGa5 K 0.4 0.4 5 6 In-flux method NMR and NQR studies of the heavy fermion superconductors CeTIn5 (T = Co and Ir) 2001 "Department of Material Science, Faculty of Science, Himeji Institute of Technology, Kamigori-cho Ako-gun, Hyogo 678-1297, Japan" "Phys.Rev.B, 64(2001)134526"
151075 L101207004 SrFe2As2 Sr1Fe2As2 Sr 1 Fe 2 As 2 2008 BaAl4 I4/mmm A 3.924 12.34 K 1.8 "SrAs,Co2As,Fe2As" "SIN(900C,16h,in Ta)" Superconducting State in SrFe2-xCoxAs2 by Internal Doping of the Iron Arsenide Layers 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.Lett., 101(2008)207004"
151076 L101207004 "Sr(Fe,Co)2As2" Sr1Fe1.9Co0.1As2 Sr 1 Fe 1.9 Co 0.1 As 2 2008 BaAl4 I4/mmm A 3.929 12.3321 K 1.8 "SrAs,Co2As,Fe2As" "SIN(900C,16h,in Ta)" Superconducting State in SrFe2-xCoxAs2 by Internal Doping of the Iron Arsenide Layers 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.Lett., 101(2008)207004"
151077 L101207004 "Sr(Fe,Co)2As2" Sr1Fe1.85Co0.15As2 Sr 1 Fe 1.85 Co 0.15 As 2 2008 emu/mol 0.00078 BaAl4 I4/mmm A 3.9272 12.3123 K 1.8 uOhm.cm 8 "SrAs,Co2As,Fe2As" "SIN(900C,16h,in Ta)" Superconducting State in SrFe2-xCoxAs2 by Internal Doping of the Iron Arsenide Layers 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.Lett., 101(2008)207004"
151078 L101207004 [gamma] is linear term below Tc under H=0. "Sr(Fe,Co)2As2" Sr1Fe1.8Co0.2As2 Sr 1 Fe 1.8 Co 0.2 As 2 2008 emu/mol 0.0006 BaAl4 I4/mmm A 3.9278 12.3026 K 19.2 19.2 MTC151078 mJ/mol.K2 12.6 SP-heat 255 SP-heat "SrAs,Co2As,Fe2As" "SIN(900C,16h,in Ta)" Superconducting State in SrFe2-xCoxAs2 by Internal Doping of the Iron Arsenide Layers 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.Lett., 101(2008)207004"
151079 L101207004 "Sr(Fe,Co)2As2" Sr1Fe1.75Co0.25As2 Sr 1 Fe 1.75 Co 0.25 As 2 2008 emu/mol 0.00085 BaAl4 I4/mmm A 3.9296 12.2925 K 18.1 18.1 "SrAs,Co2As,Fe2As" "SIN(900C,16h,in Ta)" Superconducting State in SrFe2-xCoxAs2 by Internal Doping of the Iron Arsenide Layers 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.Lett., 101(2008)207004"
151080 L101207004 "Sr(Fe,Co)2As2" Sr1Fe1.7Co0.3As2 Sr 1 Fe 1.7 Co 0.3 As 2 2008 emu/mol 0.00046 BaAl4 I4/mmm A 3.9291 12.2704 K 13.2 13.2 255 SP-heat "SrAs,Co2As,Fe2As" "SIN(900C,16h,in Ta)" Superconducting State in SrFe2-xCoxAs2 by Internal Doping of the Iron Arsenide Layers 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.Lett., 101(2008)207004"
151081 L101207004 "Sr(Fe,Co)2As2" Sr1Fe1.6Co0.4As2 Sr 1 Fe 1.6 Co 0.4 As 2 2008 emu/mol 0.00036 BaAl4 I4/mmm A 3.9293 12.2711 K 12.9 12.9 "SrAs,Co2As,Fe2As" "SIN(900C,16h,in Ta)" Superconducting State in SrFe2-xCoxAs2 by Internal Doping of the Iron Arsenide Layers 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.Lett., 101(2008)207004"
151082 L101207004 "Sr(Fe,Co)2As2" Sr1Fe1.5Co0.5As2 Sr 1 Fe 1.5 Co 0.5 As 2 2008 BaAl4 I4/mmm A 3.9287 12.2187 K 1.8 uOhm.cm 2 "SrAs,Co2As,Fe2As" "SIN(900C,16h,in Ta)" Superconducting State in SrFe2-xCoxAs2 by Internal Doping of the Iron Arsenide Layers 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.Lett., 101(2008)207004"
151083 L101237003 "compositions are nominal values. As-content=1-z, because As react with Ta. Hc2 defined as 0.9Rn without magnetoresistance." "La(O,F)FeAs" La1Fe1As1F0.1O0.9 La 1 Fe 1 As 1 F 0.1 O 0.9 1 2008 oxypnictide A 4.0282 8.7239 ZrCuSiAs K 28.5 28.5 T from (dHc2/dT) using WHH 106 T/K resistive 5.4 HC151083 Ta-foil was used to wrap the pellet High-Field Pauli-Limiting Behavior and Strongly Enhanced Upper Critical Magnetic Fields near the Transition Temperature of an Arsenic-Deficient LaO0.9F0.1FeAs1-z Superconductor 2008 "IFW Dresden, P.O. Box 270116, D-01171 Dresden, Germany" "Phys.Rev.Lett., 101(2008)237003"
151084 L101237005 THC(0)/T = 0.46 mW/cm.K2. THC(T)/T = THC(0)/T + beta*T2. PrOs4Sb12 Pr1Os4Sb12 Pr 1 Os 4 Sb 12 3 2008 skutterudite K MTHC151084 Multiband Order Parameters for the PrOs4Sb12 and PrRu4Sb12 Skutterudite Superconductors from Thermal Conductivity Measurements 2008 "Guelph-Waterloo Physics Institute and Department of Physics and Astronomy, University of Waterloo, Waterloo, Ontario, Canada" "Phys.Rev.Lett., 101(2008)237005"
151085 L101237005 THC(0)/T = 0.058 mW/cm.K2. THC(T)/T = THC(0)/T + beta*T2. PrRu4Sb12 Pr1Ru4Sb12 Pr 1 Ru 4 Sb 12 3 2008 skutterudite K MTHC151085 Multiband Order Parameters for the PrOs4Sb12 and PrRu4Sb12 Skutterudite Superconductors from Thermal Conductivity Measurements 2008 "Guelph-Waterloo Physics Institute and Department of Physics and Astronomy, University of Waterloo, Waterloo, Ontario, Canada" "Phys.Rev.Lett., 101(2008)237005"
151086 P078014520 Heat capacity measured. O-content determined by TGA. "(Pr,La,Ce)2CuO4" Pr0.88La1Ce0.12Cu1O3.908 Pr 0.88 La 1 Ce 0.12 Cu 1 O 4-z 3.908 3 2008 T' K 27 27 T from (dHc2/dT) using WHH 8.5 A 62 single crystals grown by TSFZ method. samples with different Tc obtained by different ANN conditions in vac. Impact of oxygen annealing on the heat capacity and magnetic resonance of superconducting Pr0.88LaCe0.12CuO4-z 2008 "Department of Physics and Astronomy, The University of Tennessee, Knoxville, Tennessee 37996-1200, USA" "Phys.Rev.B, 78(2008)014520"
151087 P078014520 Heat capacity measured. O-content determined by TGA. "(Pr,La,Ce)2CuO4" Pr0.88La1Ce0.12Cu1O3.934 Pr 0.88 La 1 Ce 0.12 Cu 1 O 4-z 3.934 3 2008 T' K 24 24 T from (dHc2/dT) using WHH 12 A 57 single crystals grown by TSFZ method. samples with different Tc obtained by different ANN conditions in vac. Impact of oxygen annealing on the heat capacity and magnetic resonance of superconducting Pr0.88LaCe0.12CuO4-z 2008 "Department of Physics and Astronomy, The University of Tennessee, Knoxville, Tennessee 37996-1200, USA" "Phys.Rev.B, 78(2008)014520"
151088 P078014520 Heat capacity measured. O-content determined by TGA. "(Pr,La,Ce)2CuO4" Pr0.88La1Ce0.12Cu1O3.947 Pr 0.88 La 1 Ce 0.12 Cu 1 O 4-z 3.947 3 2008 T' K 22 22 T from (dHc2/dT) using WHH 15 A 47 single crystals grown by TSFZ method. samples with different Tc obtained by different ANN conditions in vac. Impact of oxygen annealing on the heat capacity and magnetic resonance of superconducting Pr0.88LaCe0.12CuO4-z 2008 "Department of Physics and Astronomy, The University of Tennessee, Knoxville, Tennessee 37996-1200, USA" "Phys.Rev.B, 78(2008)014520"
151089 PHC4682403 "Angular dependence of Hc2 obeys Tinkham model. [cohere] calculated using Hc2(T) = A*(1-(T/Tc)) near Tc. anisotyopy, (Hc2//ab)/(Hc2//c) = 2.1 at 2K." YbC6 C6Yb1 C 6 Yb 1 3 2008 GIC K 6.47 6.5 0.1 6.47 A resistive 370 170 "Yb,HOPG" "vapor transport method. pellet(Yb,HOPG) - heat(400C,2d, in glass)" Anisotropic superconductivity in graphite intercalation compound YbC6 2008 "Department of Physics, Graduate School of Science, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-0033, Japan" "Physica C, 468(2008)2403"
151090 MMM3210388 Mo-1212 phase(80%) is Mo0.5Sr2.2HoCu2.5Oz by SEM. impurity phase: SrMoO4. T-T curve shows two step SC transitions. MoSr2HoCu2O8 Mo1Sr2Ho1Cu2O8 Mo 1 Sr 2 Ho 1 Cu 2 O 8 2009 13 M1212 A 3.837 11.511 Mo-1212 K 22 27 30 27 "Mo,Ho2O3,SrCO3,CuO" "mixture - pellet - heat(750C,24h,in air) - SIN(950C,24h,in O2-flow) - regrind - heat(1050C,48h,in O2-flow)" "Structure, magnetic and superconducting properties of MoSr2HoCu2O8-z" 2009 "aInstitute of Solid State Physics, Bulgarian Academy of Sciences, 1784 Sofia, Bulgaria" "J.Magn,Magn,Mater., 321(2009)388"
151091 P078180508 "SDW temperature, T = 139 and 129K at P=0 and 15 kbar, respectively." "(K,Sr)Fe2As2" K0.2Sr0.8Fe2As2 K 0.2 Sr 0.8 Fe 2 As 2 2008 K 13 13 MTC151091 "Pressure-induced shift of Tc in KxSr1-xFe2As2 (x=0.2, 0.4, 0.7): Analogy to the high-Tc cuprate superconductors" 2008 "TCSUH and Department of Physics, University of Houston, Houston, Texas 77204, USA" "Phys.Rev.B, 78(2008)180508(R)"
151092 P078180508 "(K,Sr)Fe2As2" K0.4Sr0.6Fe2As2 K 0.4 Sr 0.6 Fe 2 As 2 2008 K 37 37 MTC151092 "Pressure-induced shift of Tc in KxSr1-xFe2As2 (x=0.2, 0.4, 0.7): Analogy to the high-Tc cuprate superconductors" 2008 "TCSUH and Department of Physics, University of Houston, Houston, Texas 77204, USA" "Phys.Rev.B, 78(2008)180508(R)"
151093 P078180508 "(K,Sr)Fe2As2" K0.7Sr0.3Fe2As2 K 0.7 Sr 0.3 Fe 2 As 2 2008 K 12.2 12.2 MTC151093 "Pressure-induced shift of Tc in KxSr1-xFe2As2 (x=0.2, 0.4, 0.7): Analogy to the high-Tc cuprate superconductors" 2008 "TCSUH and Department of Physics, University of Houston, Houston, Texas 77204, USA" "Phys.Rev.B, 78(2008)180508(R)"
151094 P078174523 "Nd(O,F)FeAs" Nd1Fe1As1F0.3O0.7 Nd 1 Fe 1 As 1 F 0.3 O 0.7 3 2008 oxypnictide ZrCuSiAs K 46 46 T/K 9 1.2 HC151094 A from (dHc2/dT)//c 23 2.6 m3/C -1.30E-09 "NdAs,NdF3,Fe2O3,Fe" "NaCl-flux. Mass ratio of NaCl:NdFeAs(O,F) = 10:1. sealed in evacuated quartz tube - heat(1050C,10d) - cool to 850C(3C/h) - quick cool to RT" Upper critical fields and thermally-activated transport of NdFeAsO0.7F0.3 single crystal 2008 "National High Magnetic Field Laboratory, Florida State University, Tallahassee, Florida 32310, USA" "Phys.Rev.B, 78(2008)174523"
151095 P078224503 FeSe0.82 Fe1Se0.8 Fe 1 Se 0.8 2008 P4/nmm A 3.77 5.5204 K 10.3 10.3 1 "mixture - pellet - sealed in evacuated quartz tube - SIN(700C,24h) - reground - pellet - SIN(700C,24h)" Superconductivity close to magnetic instability in Fe(Se1-xTex)0.82 2008 "Department of Physics, Tulane University, New Orleans, Louisiana 70118, USA" "Phys.Rev.B, 78(2008)224503"
151096 P078224503 "Fe(Se,Te)0.82" Fe1Se0.779Te0.041 Fe 1 Se 0.779 Te 0.041 2008 P4/nmm A 3.7654 5.543 K 8.12 8.12 1 "mixture - pellet - sealed in evacuated quartz tube - SIN(700C,24h) - reground - pellet - SIN(700C,24h)" Superconductivity close to magnetic instability in Fe(Se1-xTex)0.82 2008 "Department of Physics, Tulane University, New Orleans, Louisiana 70118, USA" "Phys.Rev.B, 78(2008)224503"
151097 P078224503 "Fe(Se,Te)0.82" Fe1Se0.656Te0.164 Fe 1 Se 0.656 Te 0.164 2008 P4/nmm A 3.772 5.5656 K 10.7 10.7 1 "mixture - pellet - sealed in evacuated quartz tube - SIN(700C,24h) - reground - pellet - SIN(700C,24h)" Superconductivity close to magnetic instability in Fe(Se1-xTex)0.82 2008 "Department of Physics, Tulane University, New Orleans, Louisiana 70118, USA" "Phys.Rev.B, 78(2008)224503"
151098 P078224503 "Fe(Se,Te)0.82" Fe1Se0.574Te0.246 Fe 1 Se 0.574 Te 0.246 2008 P4/nmm A 3.7829 5.552 K 10.01 10.01 1 "mixture - pellet - sealed in evacuated quartz tube - SIN(700C,24h) - reground - pellet - SIN(700C,24h)" Superconductivity close to magnetic instability in Fe(Se1-xTex)0.82 2008 "Department of Physics, Tulane University, New Orleans, Louisiana 70118, USA" "Phys.Rev.B, 78(2008)224503"
151099 P078224503 "Fe(Se,Te)0.82" Fe1Se0.492Te0.328 Fe 1 Se 0.492 Te 0.328 2008 P4/nmm A 3.7824 5.9095 K 12.7 12.7 1 "mixture - pellet - sealed in evacuated quartz tube - SIN(700C,24h) - reground - pellet - SIN(700C,24h)" Superconductivity close to magnetic instability in Fe(Se1-xTex)0.82 2008 "Department of Physics, Tulane University, New Orleans, Louisiana 70118, USA" "Phys.Rev.B, 78(2008)224503"
151100 P078224503 "Fe(Se,Te)0.82" Fe1Se0.41Te0.41 Fe 1 Se 0.41 Te 0.41 2008 P4/nmm A 3.7933 5.9728 K 13.2 13.2 1 "mixture - pellet - sealed in evacuated quartz tube - SIN(700C,24h) - reground - pellet - SIN(700C,24h)" Superconductivity close to magnetic instability in Fe(Se1-xTex)0.82 2008 "Department of Physics, Tulane University, New Orleans, Louisiana 70118, USA" "Phys.Rev.B, 78(2008)224503"
151101 P078224503 "Fe(Se,Te)0.82" Fe1Se0.328Te0.492 Fe 1 Se 0.328 Te 0.492 2008 P4/nmm A 3.8021 6.0407 K 13.8 13.8 MTC151101 MRH151101 1 "mixture - pellet - sealed in evacuated quartz tube - SIN(700C,24h) - reground - pellet - SIN(700C,24h)" Superconductivity close to magnetic instability in Fe(Se1-xTex)0.82 2008 "Department of Physics, Tulane University, New Orleans, Louisiana 70118, USA" "Phys.Rev.B, 78(2008)224503"
151102 P078224503 "Fe(Se,Te)0.82" Fe1Se0.246Te0.574 Fe 1 Se 0.246 Te 0.574 2008 P4/nmm A 3.8067 6.1267 K 13.7 13.7 1 "mixture - pellet - sealed in evacuated quartz tube - SIN(700C,24h) - reground - pellet - SIN(700C,24h)" Superconductivity close to magnetic instability in Fe(Se1-xTex)0.82 2008 "Department of Physics, Tulane University, New Orleans, Louisiana 70118, USA" "Phys.Rev.B, 78(2008)224503"
151103 P078224503 "Fe(Se,Te)0.82" Fe1Se0.164Te0.656 Fe 1 Se 0.164 Te 0.656 2008 P4/nmm A 3.8083 6.1538 K 13.1 13.1 1 "mixture - pellet - sealed in evacuated quartz tube - SIN(700C,24h) - reground - pellet - SIN(700C,24h)" Superconductivity close to magnetic instability in Fe(Se1-xTex)0.82 2008 "Department of Physics, Tulane University, New Orleans, Louisiana 70118, USA" "Phys.Rev.B, 78(2008)224503"
151104 P078224503 "Fe(Se,Te)0.82" Fe1Se0.082Te0.738 Fe 1 Se 0.082 Te 0.738 2008 P4/nmm A 3.8176 6.2127 K 10.9 10.9 1 "mixture - pellet - sealed in evacuated quartz tube - SIN(700C,24h) - reground - pellet - SIN(700C,24h)" Superconductivity close to magnetic instability in Fe(Se1-xTex)0.82 2008 "Department of Physics, Tulane University, New Orleans, Louisiana 70118, USA" "Phys.Rev.B, 78(2008)224503"
151105 P078224503 magnetic anomaly at 125 K. R-anomaly at 65 K. "Fe(Se,Te)0.82" Fe1Te0.82 Fe 1 Te 0.82 2008 P4/nmm A 3.8202 6.2443 K 2 MRH151105 1 "mixture - pellet - sealed in evacuated quartz tube - SIN(700C,24h) - reground - pellet - SIN(700C,24h)" Superconductivity close to magnetic instability in Fe(Se1-xTex)0.82 2008 "Department of Physics, Tulane University, New Orleans, Louisiana 70118, USA" "Phys.Rev.B, 78(2008)224503"
151106 PRB078224512 T = 200 K. dC = 185 J/mol.K. latent heat = 463 j/mol corresponding to structural and SDW transitions. anisotropy Rc/Rab = 130 at 25K. SrFe2As2 Sr1Fe2As2 Sr 1 Fe 2 As 2 2008 K 1.8 mJ/mol.K2 6.5 SP-heat 245 SP-heat MRH151106 /cm3 1.50E+22 high-T solution method using Sn-flux. "Transport and anisotropy in single-crystalline SrFe2As2 and A0.6K0.4Fe2As2 (A=Sr, Ba) superconductors" 2008 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 78(2008)224512"
151107 PRB078224512 "(dC/Tc) = 48 mJ/mol.K2. anisotropy Rc/Rab = 21, (Hc2//ab)/(Hc2//c) = 2.0" "(Sr,K)Fe2As2" Sr0.6K0.4Fe2As2 Sr 0.6 K 0.4 Fe 2 As 2 2008 K 35.6 35.6 T resistivity. 0.9Rn 185.4 93.1 T/K resistivity 7.57 3.8 MHC151107 high-T solution method using Sn-flux. "Transport and anisotropy in single-crystalline SrFe2As2 and A0.6K0.4Fe2As2 (A=Sr, Ba) superconductors" 2008 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 78(2008)224512"
151108 PRB078224512 "(Ba,K)Fe2As2" Ba0.6K0.4Fe2As2 Ba 0.6 K 0.4 Fe 2 As 2 2008 K 38 38 "high-T solution method using FeAs-flux. Sr or Ba & K:FeAs = 0.5:1.4 in alumina crucible - sealed in Ta(1.6atm Ar) - heat(1150C,5h) - cool to 800C(within 50h)" "Transport and anisotropy in single-crystalline SrFe2As2 and A0.6K0.4Fe2As2 (A=Sr, Ba) superconductors" 2008 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 78(2008)224512"
151109 PRL101107006 "(Ba,K)Fe2As2" Ba0.6K0.4Fe2As2 Ba 0.6 K 0.4 Fe 2 As 2 2008 ThCr2Si2 I4/mmm A 3.917 13.2968 K 37.2 38.1 39 38.3 1.5 38.1 "mixture - heat to 873K(50K/h) in alumina(Ar) - ANN(925K,15h) - SIN(1023K,12h)" Superconductivity at 38 K in the Iron Arsenide (Ba1-xKx)Fe2As2 2008 "Department Chemie und Biochemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstrasse 5-13 (Haus D), 81377 Munchen, Germany" "Phys.Rev.Lett., 101(2008)107006"
151110 PRL102017002 underdoped sample. 28GHz microwave measurements. (2d/kTc) > 1.6 for all Fermi surface. PrOFeAs Pr1Fe1As1O1-z Pr 1 Fe 1 As 1 O 1-z 3 2009 oxypnictide K 35 35 A microwave 2800 4 7 "high-P synthesis. nominal(PrFeAsO0.6) - heat(1300C,2h,P=2GPa in BN crucible)" Microwave Penetration Depth and Quasiparticle Conductivity of PrFeAsO1-y Single Crystals: Evidence for a Full-Gap Superconductor 2009 "Department of Physics, Kyoto University, Sakyo-ku, Kyoto 606-8502, Japan" "Phys.Rev.Lett., 102(2009)017002"
151111 PRB079014522 ANN(300C). lattice term of SP: beta = 0.463 mJ/mol.K4. (dC/kTc) = 1.3 FeSe Fe1.01Se1 Fe 1.01 Se 1 2009 P4/nmm A 3.7734 5.5258 beta-FeSe K 8.5 8.5 MTC151111 mJ/mol.K2 5.4 SP-heat 200 SP-heat "(Fe,Se) - sealed in silica tube - heat(750C,5d until Se vapor disappeaed) - heat(1075C,3d) - fast cool to 420C - Q to (-13C) - ANN(300-500C,2d) - Q to (-13C)" Extreme sensitivity of superconductivity to stoichiometry in Fe1+zSe 2009 "1Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 79(2009)014522"
151112 PRB079014522 ANN(380C) FeSe Fe1.02Se1 Fe 1.02 Se 1 2009 P4/nmm beta-FeSe K 6 6 "(Fe,Se) - sealed in silica tube - heat(750C,5d until Se vapor disappeaed) - heat(1075C,3d) - fast cool to 420C - Q to (-13C) - ANN(300-500C,2d) - Q to (-13C)" Extreme sensitivity of superconductivity to stoichiometry in Fe1+zSe 2009 "1Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 79(2009)014522"
151113 PRB079014522 ANN(400C). lattice term of SP: beta = 0.496 mJ/mol.K4 FeSe Fe1.03Se1 Fe 1.03 Se 1 2009 P4/nmm beta-FeSe K 0.6 mJ/mol.K2 1.3 SP-heat "(Fe,Se) - sealed in silica tube - heat(750C,5d until Se vapor disappeaed) - heat(1075C,3d) - fast cool to 420C - Q to (-13C) - ANN(300-500C,2d) - Q to (-13C)" Extreme sensitivity of superconductivity to stoichiometry in Fe1+zSe 2009 "1Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 79(2009)014522"
151114 PRB079014519 "The best fit (Rietveld) is FeSe0.99. Structural transition(tetra-to-ortho) at 60-80 K. Low-Temp phase: space-G = Cmme, a=5.3081, b=5.3354, c=5.4879 at 6K." FeSe Fe1Se0.72 Fe 1 Se 0.72 2009 P4/nmm A 3.7724 5.5217 K 8 8 "(Fe,Se powder) - mixture - sealed in tube - heat(670C,13h, in vac) - heat(670C,24h) - hold(400C,36h)" Neutron scattering measurements of the phonon density of states of FeSe1-x superconductors 2009 "NIST Center for Neutron Research, National Institute of Standards and Technology, Gaithersburg, Maryland 20899, USA" "Phys.Rev.B, 79(2009)014519"
151115 PRB079012504 not SC. T = 170 K. CaFe2As2 Ca1Fe2As2 Ca 1 Fe 2 As 2 3 2009 ThCr2Si2 I4/mmm A 3.8942 11.746 K 4.2 "high-T solution method using Sn-flux. nominal composition, Ca:(Fe,Co):As:Sn = 1:2:2:19. sealed in quart - heat(1050C,24h) - cool to 450C(3 weeks) - rapid cool to RT" "Anisotropic magnetic and superconducting properties of CaFe2-xCoxAs2 (x=0, 0.06) single crystals" 2009 "Department of Condensed Matter Physics and Material Sciences, Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai 400 005, India" "Phys.Rev.B, 79(2009)012504"
151116 PRB079012504 parallel H means H//[100] . normal means H//[001] "Ca(Fe,Co)2As2" Ca1Fe2.94Co0.06As2 Ca 1 Fe 2.94 Co 0.06 As 2 3 2009 ThCr2Si2 I4/mmm A 3.8875 11.687 K 17 17 60 T "resistivity, WHH" 22 17 T/K resistivity 1.82 1.43 MHC151116 A 40 "high-T solution method using Sn-flux. nominal composition, Ca:(Fe,Co):As:Sn = 1:2:2:19. sealed in quart - heat(1050C,24h) - cool to 450C(3 weeks) - rapid cool to RT" "Anisotropic magnetic and superconducting properties of CaFe2-xCoxAs2 (x=0, 0.06) single crystals" 2009 "Department of Condensed Matter Physics and Material Sciences, Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai 400 005, India" "Phys.Rev.B, 79(2009)012504"
151117 LTP0680147 RRR=3.7. G-L = 19.4. ScRu4B4 Sc1Ru4B4 Sc 1 Ru 4 B 4 1 1987 AB4C4 RT4B4 I4<1>/acd A 7.357 14.924 LuRu4B4 type K 7.1 7.34 7.7 7.34 T "resistivity, WHH" 3.95 T/K resistivity 0.777 MHC151117 A 718 mOhm.cm 0.038 arc-melting Comparative critical field study of superconducting ternary borides 1987 "J.Low Temp. Phys, 68(1987)147"
151118 LTP0680147 RRR=1.4. G-L = 38.4. LuRh4B4 Lu1Rh4B4 Lu 1 Rh 4 B 4 1 1987 AB4C4 RT4B4 I4<1>/acd A 7.445 14.851 LuRu4B4 type K 8.05 8.28 8.37 8.28 T "resistivity, WHH" 8.66 T/K resistivity 1.51 A 762 mOhm.cm 0.077 arc-melting Comparative critical field study of superconducting ternary borides 1987 "J.Low Temp. Phys, 68(1987)147"
151119 LTP0680147 RRR=1.8. G-L = 10.5. ThRh4B4 Th1Rh4B4 Th 1 Rh 4 B 4 1 1987 AB4C4 RT4B4 P4<2>/nnc A 5.358 7.546 CeCo4B4 type K 4.41 4.69 4.62 4.69 T "resistivity, WHH" 0.75 T/K resistivity 0.239 A 4129 mOhm.cm 0.036 arc-melting Comparative critical field study of superconducting ternary borides 1987 "J.Low Temp. Phys, 68(1987)147"
151120 LTP0680147 G-L = 7.2. YRh4B4 Y1Rh4B4 Y 1 Rh 4 B 4 1 1987 AB4C4 RT4B4 P4<2>/nnc A 5.308 7.403 CeCo4B4 type K 10.6 10.6 T "resistivity, WHH" 2.1 T/K resistivity 0.286 A 585 arc-melting Comparative critical field study of superconducting ternary borides 1987 "J.Low Temp. Phys, 68(1987)147"
151121 LTP0680147 G-L = 5.4. LuRh4B4 Lu1Rh4B4 Lu 1 Rh 4 B 4 1 1987 AB4C4 RT4B4 P4<2>/nnc A 5.294 7.359 CeCo4B4 type K 11.45 11.45 T "resistivity, WHH" 1.78 T/K resistivity 0.224 A 492 arc-melting Comparative critical field study of superconducting ternary borides 1987 "J.Low Temp. Phys, 68(1987)147"
151122 LTP0680147 RRR=6.6. G-L = 19.1. LuRuB2 Lu1Ru1B2 Lu 1 Ru 1 B 2 1 1987 LuRuB2 Pnma A 5.815 5.23 6.29 K 10.4 10.6 10.7 10.6 T "resistivity, WHH" 5.73 T/K resistivity 0.78 MHC151122 A 130 mOhm.cm 0.037 "arc-melting - sealed in Ta tube - ANN(1250C,2d,in quartz) - ANN(1000C,10-12d)" Comparative critical field study of superconducting ternary borides 1987 "J.Low Temp. Phys, 68(1987)147"
151123 LTP0680147 RRR=12.4. G-L = 12.6. YRuB2 Y1Ru1B2 Y 1 Ru 1 B 2 1 1987 LuRuB2 Pnma A 5.91 5.306 6.363 K 7.61 7.7 8.07 7.7 T "resistivity, WHH" 4.8 T/K resistivity 0.62 MHC151123 A 83 mOhm.cm 0.013 arc-melting Comparative critical field study of superconducting ternary borides 1987 "J.Low Temp. Phys, 68(1987)147"
151124 LTP0680147 RRR=6.5. G-L = 15.8. LuOs3B2 Lu1Os3B2 Lu 1 Os 3 B 2 1 1987 CeCo3B2 P6/mmm A 5.455 3.064 K 4.57 4.69 4.73 4.69 T "resistivity, WHH" 1.93 T/K resistivity 0.595 MHC151124 A 1635 mOhm.cm 0.033 arc-melting Comparative critical field study of superconducting ternary borides 1987 "J.Low Temp. Phys, 68(1987)147"
151125 PRB079012505 "impurity phases: LaNiPO(10.0%), LaNi5P3(6.1%). coefficient of lattice term and Schottky in SP-heat are 0.14 mJ/mol-Ni.K4 and 0.49 mJ/mol-Ni.K. (dC/gamma*Tc) = 1.25" La3Ni4P4O2 La3Ni4P4O2 La 3 Ni 4 P 4 O 2 1 2009 oxypnictide I4/mmm 139 A 4.0107 26.1811 Pr3Cu4P4O2 type K 2.2 2.2 Oe deviation from linear M 520 90 1.9 T "resistivity, WHH" 0.6 T/K resistivity 0.31 A 240 A estimation from Hc1 550 mJ/Ni.K2 6.2 SP-heat 360 SP-heat "Ni5P4,P,La2O3" "mixture - pellet - alumina crucible in quartz tube - heat(750C to 1050C,overnight) - addition of 2% excess P - heat(1200C,overnight)" Superconductivity at 2.2 K in the layered oxypnictide La3Ni4P4O2 2009 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 79(2009)012505"
151126 PRB079014506 Co-content from EPMA. "Ba(Fe,Co)2As2" Ba1Fe1.91Co0.09As2 Ba 1 Fe 1.91 Co 0.09 As 2 3 2009 K 14.5 14.5 MTC151127 "self-flux method. Ba:As=1:4. (Ba,FeAs,Co) - heat(1150C,24h) - slow cool to 1000C." Determination of the phase diagram of the electron-doped superconductor Ba(Fe1-xCox)2As2 2009 "Geballe Laboratory for Advanced Materials and Department of Applied Physics, Stanford University, Stanford, California 94305, USA" "Phys.Rev.B, 79(2009)014506"
151127 PRB079014506 Co-content from EPMA. optimal Co content. (dC/Tc) = 23 mJ/mol.K2. SC for 0.05 < x < 0.368. "Ba(Fe,Co)2As2" Ba1Fe1.878Co0.122As2 Ba 1 Fe 1.878 Co 0.122 As 2 3 2009 K 24 24 MTC151127 "self-flux method. Ba:As=1:4. (Ba,FeAs,Co) - heat(1150C,24h) - slow cool to 1000C." Determination of the phase diagram of the electron-doped superconductor Ba(Fe1-xCox)2As2 2009 "Geballe Laboratory for Advanced Materials and Department of Applied Physics, Stanford University, Stanford, California 94305, USA" "Phys.Rev.B, 79(2009)014506"
151128 PRB079014506 Co-content from EPMA. "Ba(Fe,Co)2As2" Ba1Fe1.782Co0.218As2 Ba 1 Fe 1.782 Co 0.218 As 2 3 2009 K 14.1 14.1 MTC151127 "self-flux method. Ba:As=1:4. (Ba,FeAs,Co) - heat(1150C,24h) - slow cool to 1000C." Determination of the phase diagram of the electron-doped superconductor Ba(Fe1-xCox)2As2 2009 "Geballe Laboratory for Advanced Materials and Department of Applied Physics, Stanford University, Stanford, California 94305, USA" "Phys.Rev.B, 79(2009)014506"
151129 PRB079014514 under-doped sample. RRR=2.7. anisotropy = 2.7(24.8K) - 4.0(26.8K) from Hc2. vortex-glass transition at 20.7 K. "(Ba,K)Fe2As2" Ba0.64K0.36Fe2As2 Ba 0.64 K 0.36 Fe 2 As 2 3 2009 ThCr2Si2 K 26.2 25.6 1.2 25.6 T/K resistivity 6.58 3.14 MHC151129 850000 mOhm.cm 0.4 Sn-flux method. nominal molar volume: Ba:K:Fe:As:Sn=0.6:0.8:2:20 - heat(850C) - cool(4C/h) "Vortex-glass phase transition and superconductivity in an underdoped (Ba,K)Fe2As2 single crystal" 2009 "Department of Physics and Astronomy, CSCMR & FPRD, Seoul National University, Seoul 151-747, Republic of Korea" "Phys.Rev.B, 79(2009)014514"
151130 PRB079020508 "F-concentration not given. anisotropy = 4.0(penetration depth), =5.5(coherence length)." "Nd(O,F)FeAs" Nd1Fe1As1F0.2O0.8 Nd 1 Fe 1 As 1 F 0.2 O 0.8 3 2009 oxypnictide K 32.6 32.6 Oe magnetization 40 140 T "SP-heat, WHH" 170 85 HC151130 A 2700 12000 high pressure synthesis using cubic multianvil apparatus. Upper and lower critical magnetic fields of superconducting NdFeAsO1-xFx single crystals studied by Hall-probe magnetization and specific heat 2009 "Institut Neel, CNRS, BP 166, 38042 Grenoble Cedex 9, France" "Phys.Rev.B, 79(2009)020508"
151131 JPS078023701 "Tc(P=0) not given. Tc in DB shows the extraporated value. Tc(max) = 8.8K at P=0.8GPa. a/a0 = 0.955, c/c0 = ** at P=10GPa. compressibility k = 10.4E-3 /GPa." LaOFeP La1Fe1P1O1 La 1 Fe 1 P 1 O 1 1 2009 oxypnictide (GPa)^(-1) 0.00274 0.00495 K 4.8 4.8 TC151131 K/GPa 4 solid state reaction Pressure Study of Superconducting Oxypnictide LaFePO 2009 "Department of Physics, College of Humanities and Sciences, Nihon University, Sakurajousui, Setagaya-ku, Tokyo 156-8550" "J.Phys.Soc.Jpn, 78(2009)023701"
151132 JPS078023702 RRR=2.6. Hc2 defined as midpoint. anisotropy = 3-4 derived from Hc2. Jc > 1E+5 A/cm2 for T < 17K. "Ba(Fe,Co)2As2" Ba1Fe1.8Co0.2As2 Ba 1 Fe 1.8 Co 0.2 As 2 3 2009 ThCr2Si2 K 24 24 T "resistivity, WHH" 8.5 28 T/K resistivity 5.21 1.68 MHC151132 cm3/C -0.00122 MRH151132 "FeAs/CoAs self flux method. mixture(Ba:FeAs:CoAs = 1:4.5:0.5) - (placed in almina crucible) - heat(1150C,10h) - slow cool to 1090C(1.3 C/h)" Possible Superconductivity above 25K in Single-Crystalline Co-Doped BaFe2As2 2009 "Department of Applied Physiscs, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656" "J.Phys.Soc.Jpn, 78(2009)023702"
151133 LES0620251 lattice term of SP: beta=0.2 mJ/mol.K4. e-ph coupling = 0.63. LuRh4B4 Lu1Rh4B4 Lu 1 Rh 4 B 4 1978 AB4C4 RT4B4 LuRh4B4 type K 11.5 11.5 T 6.5 mJ/mol.K 474 mJ/mol.K2 24 SP-heat 444 SP-heat "arc-melting - sealed in Ta tube - ANN(1150C,2w + 900C,1h + 800C,1w)" Interaction between superconductivity and magnetism in the pseudoternary system (Lu1-xHox)Rh4B4 1978 "University of California, San Diego," "J.Less-Common Metals, 62(1978)251"
151134 LES0620251 Tc and Tm by ac-SUS. x = 0.92. "(Lu,Ho)Rh4B4" Lu0.5Ho0.5Rh4B4 Lu 0.5 Ho 0.5 Rh 4 B 4 1978 AB4C4 RT4B4 LuRh4B4 type K 8.43 8.43 MPH151134 "arc-melting - sealed in Ta tube - ANN(1150C,2w + 900C,1h + 800C,1w)" Interaction between superconductivity and magnetism in the pseudoternary system (Lu1-xHox)Rh4B4 1978 "University of California, San Diego," "J.Less-Common Metals, 62(1978)251"
151135 LES0620251 Tc and Tm by ac-SUS. x = 0.92. "(Lu,Ho)Rh4B4" Lu0.255Ho0.745Rh4B4 Lu 0.255 Ho 0.745 Rh 4 B 4 1978 AB4C4 RT4B4 LuRh4B4 type K MPH151134 "arc-melting - sealed in Ta tube - ANN(1150C,2w + 900C,1h + 800C,1w)" Interaction between superconductivity and magnetism in the pseudoternary system (Lu1-xHox)Rh4B4 1978 "University of California, San Diego," "J.Less-Common Metals, 62(1978)251"
151136 LES0620251 Tc and Tm by ac-SUS. x = 0.92. "(Lu,Ho)Rh4B4" Lu0.099Ho0.901Rh4B4 Lu 0.099 Ho 0.901 Rh 4 B 4 1978 AB4C4 RT4B4 LuRh4B4 type K MPH151134 "arc-melting - sealed in Ta tube - ANN(1150C,2w + 900C,1h + 800C,1w)" Interaction between superconductivity and magnetism in the pseudoternary system (Lu1-xHox)Rh4B4 1978 "University of California, San Diego," "J.Less-Common Metals, 62(1978)251"
151137 LES0620251 Tc and Tm by ac-SUS. x = 0.92. "(Lu,Ho)Rh4B4" Lu0.067Ho0.933Rh4B4 Lu 0.067 Ho 0.933 Rh 4 B 4 1978 AB4C4 RT4B4 LuRh4B4 type K "arc-melting - sealed in Ta tube - ANN(1150C,2w + 900C,1h + 800C,1w)" Interaction between superconductivity and magnetism in the pseudoternary system (Lu1-xHox)Rh4B4 1978 "University of California, San Diego," "J.Less-Common Metals, 62(1978)251"
151138 LES0620251 HoRh4B4 Ho1Rh4B4 Ho 1 Rh 4 B 4 1978 2 6.7 AB4C4 RT4B4 LuRh4B4 type K "arc-melting - sealed in Ta tube - ANN(1150C,2w + 900C,1h + 800C,1w)" Interaction between superconductivity and magnetism in the pseudoternary system (Lu1-xHox)Rh4B4 1978 "University of California, San Diego," "J.Less-Common Metals, 62(1978)251"
151139 APL093152505 "impurity phase = NiAs-type FeSe. (dTc/dP) for Tc(on). Hc2, Hirr defined as Tc(on) and Tc(zero), respectively. Hc2(0) defined as Tcon = 72 T for P=1.48 GPa" FeSe Fe1Se1 Fe 1 Se 1 2008 P4/nmm A 3.7696 5.52 K 7.5 9.45 13.5 8 9.45 MTC151139 K/GPa 9.1 11 T "resistivity, linear extraporation" 28 MHC151139 "Fe,Se" 1 "solid state reaction. mixture(Fe,Se powder) - (sealed in evacuated quartz tube) - heat(680C,12h) - reground - pellet -heat(680C,12-30h)" Superconductivity at 27 K in tetragonal FeSe under high pressure 2008 "National Institute for Materials Science, 1-2-1, Sengen, Tsukuba 305-0047, Japan" "Appl.Phys.Lett., 93(2008)152505"
151140 SSC1490467 "Nb5(Si,B)3" Nb5Si2.8B0.2 Nb 5 Si 2.8 B 0.2 2009 Cr5Si3 A 6.5288 11.829 alpha-Nb5Si3 type K 5.9 5.9 "Nb,B,Si powder" "mixture - (saled in quartz tube) - heat(1200C, 100h) - (reground) - pellet - heat(1700C,11h)" Superconductivity in the new Nb5Si3-xBx phase 2009 "Departamento de Engenharia de Materiais, EEL-USP, Lorena 12600970, SP, Brazil" "Solid State Commun., 149(2009)467"
151141 SSC1490467 "Nb5(Si,B)3" Nb5Si2.6B0.4 Nb 5 Si 2.6 B 0.4 2009 Cr5Si3 A 6.4895 11.787 alpha-Nb5Si3 type K 6.4 6.4 "Nb,B,Si powder" "mixture - (saled in quartz tube) - heat(1200C, 100h) - (reground) - pellet - heat(1700C,11h)" Superconductivity in the new Nb5Si3-xBx phase 2009 "Departamento de Engenharia de Materiais, EEL-USP, Lorena 12600970, SP, Brazil" "Solid State Commun., 149(2009)467"
151142 SSC1490467 "Nb5(Si,B)3" Nb5Si2.4B0.6 Nb 5 Si 2.4 B 0.6 2009 Cr5Si3 A 6.4503 11.748 alpha-Nb5Si3 type K 7.8 0.5 7.8 32 T 4.2 A 88.6 "Nb,B,Si powder" "mixture - (saled in quartz tube) - heat(1200C, 100h) - (reground) - pellet - heat(1700C,11h)" Superconductivity in the new Nb5Si3-xBx phase 2009 "Departamento de Engenharia de Materiais, EEL-USP, Lorena 12600970, SP, Brazil" "Solid State Commun., 149(2009)467"
151143 SSC1490467 "Nb5(Si,B)3" Nb5Si2.2B0.8 Nb 5 Si 2.2 B 0.8 2009 Cr5Si3 A 6.4096 11.705 alpha-Nb5Si3 type K 6.6 6.6 "Nb,B,Si powder" "mixture - (saled in quartz tube) - heat(1200C, 100h) - (reground) - pellet - heat(1700C,11h)" Superconductivity in the new Nb5Si3-xBx phase 2009 "Departamento de Engenharia de Materiais, EEL-USP, Lorena 12600970, SP, Brazil" "Solid State Commun., 149(2009)467"
151144 SSC1490467 "Nb5(Si,B)3" Nb5Si2B1 Nb 5 Si 2 B 1 2009 Cr5Si3 A 6.3834 11.68 alpha-Nb5Si3 type K 6.4 6.4 "Nb,B,Si powder" "mixture - (saled in quartz tube) - heat(1200C, 100h) - (reground) - pellet - heat(1700C,11h)" Superconductivity in the new Nb5Si3-xBx phase 2009 "Departamento de Engenharia de Materiais, EEL-USP, Lorena 12600970, SP, Brazil" "Solid State Commun., 149(2009)467"
151145 SSC1490448 LaNiC2 La1Ni1C2 La 1 Ni 1 C 2 2009 CeNiC2 Amm2 A 3.954 4.557 6.193 K 3.06 3.51 2.99 2.99 MSP151145 mJ/mol.K2 8.23 "arc-melting - ANN(1000C,7d)" Alloying effects of Y on Tc in superconducting (La1-xYx)NiC2 2009 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Solid State Commun., 149(2009)448"
151146 SSC1490448 "(La,Y)NiC2" La0.95Y0.05Ni1C2 La 0.95 Y 0.05 Ni 1 C 2 2009 CeNiC2 Amm2 A 3.938 4.554 6.188 K 2.82 2.98 2.79 2.79 "arc-melting - ANN(1000C,7d)" Alloying effects of Y on Tc in superconducting (La1-xYx)NiC2 2009 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Solid State Commun., 149(2009)448"
151147 SSC1490448 "(La,Y)NiC2" La0.9Y0.1Ni1C2 La 0.9 Y 0.1 Ni 1 C 2 2009 CeNiC2 Amm2 A 3.919 4.551 6.178 K 2.36 2.77 2.29 2.29 "arc-melting - ANN(1000C,7d)" Alloying effects of Y on Tc in superconducting (La1-xYx)NiC2 2009 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Solid State Commun., 149(2009)448"
151148 SSC1490448 "(La,Y)NiC2" La0.85Y0.15Ni1C2 La 0.85 Y 0.15 Ni 1 C 2 2009 CeNiC2 Amm2 A 3.899 4.547 6.172 K 2.13 2.54 2.08 2.08 "arc-melting - ANN(1000C,7d)" Alloying effects of Y on Tc in superconducting (La1-xYx)NiC2 2009 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Solid State Commun., 149(2009)448"
151149 SSC1490448 "(La,Y)NiC2" La0.8Y0.2Ni1C2 La 0.8 Y 0.2 Ni 1 C 2 2009 CeNiC2 Amm2 A 3.877 4.544 6.162 K 1.26 1.26 mJ/mol.K2 6.47 "arc-melting - ANN(1000C,7d)" Alloying effects of Y on Tc in superconducting (La1-xYx)NiC2 2009 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Solid State Commun., 149(2009)448"
151150 SSC1490448 two SC phases "(La,Y)NiC2" La0.75Y0.25Ni1C2 La 0.75 Y 0.25 Ni 1 C 2 2009 CeNiC2 Amm2 A 3.856 4.539 6.15 K 1.65 1.65 mJ/mol.K2 6.45 "arc-melting - ANN(1000C,7d)" Alloying effects of Y on Tc in superconducting (La1-xYx)NiC2 2009 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Solid State Commun., 149(2009)448"
151151 SSC1490448 YNiC2 Y1Ni1C2 Y 1 Ni 1 C 2 2009 CeNiC2 Amm2 A 3.568 4.5 6.02 K 1.5 "arc-melting - ANN(1000C,7d)" Alloying effects of Y on Tc in superconducting (La1-xYx)NiC2 2009 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Solid State Commun., 149(2009)448"
151152 SSC1490181 "CeO(Fe,Co)As" Ce1Fe0.9Co0.1As1O1 Ce 1 Fe 0.9 Co 0.1 As 1 O 1 2009 oxypnictide P4/nmm K 11.3 10 1.3 10 T "resistivity, WHH" 45.22 T/K resistivity 5.8 "Ce,As,CeO2,Co3O4,FeAs" "mixture - (sealed in silica ampoule) - heat(950C,24h) - (wrapped in Ta-foil) - (sealed in silica ampoule) - heat(1180C,48h)" Superconductivity at 11.3 K induced by cobalt doping in CeFeAsO 2009 "Department of Chemistry, Indian Institute of Technology, New Delhi 110016, India" "Solid State Commun., 149(2009)181"
151153 SSC1490181 R not to zero down to 4.2 K. "CeO(Fe,Co)As" Ce1Fe0.85Co0.15As1O1 Ce 1 Fe 0.85 Co 0.15 As 1 O 1 2009 oxypnictide P4/nmm K 5 5 "Ce,As,CeO2,Co3O4,FeAs" "mixture - (sealed in silica ampoule) - heat(950C,24h) - (wrapped in Ta-foil) - (sealed in silica ampoule) - heat(1180C,48h)" Superconductivity at 11.3 K induced by cobalt doping in CeFeAsO 2009 "Department of Chemistry, Indian Institute of Technology, New Delhi 110016, India" "Solid State Commun., 149(2009)181"
151154 JPS078023706 (dC/gamma*Tc) = 0.87. latticeterm of SP = 0.54 mJ/mol.K4(beta) BaRh2P2 Ba1Rh2P2 Ba 1 Rh 2 P 2 2009 emu/mol 0.000134 ThCr2Si2 I4/mmm A 3.939 12.576 K 1 1 T "resistivity, WHH" 0.07 T/K resistivity 1.13 A 690 mJ/mol.K2 9.75 SP-heat 268 SP-heat "solid state reaction. mixture(Ba,Rh(Ir),P-powder) - heat(400C,16h + 1000C,16h, in evacuated silica tube)" Superconductivity in Layered Pnictides BaRh2P2 and BaIr2P2 2009 "Department of Advanced Materials, University of Tokyo, Kashiwa, Chiba 277-8561" "J.Phys.Soc.Jpn, 78(2009)023706"
151155 JPS078023706 (dC/gamma*Tc) = 1.53. latticeterm of SP = 0.390 mJ/mol.K4(beta) BaIr2P2 Ba1Ir2P2 Ba 1 Ir 2 P 2 2009 emu/mol 0.000121 ThCr2Si2 I4/mmm A 3.946 12.572 K 2.1 2.1 T "resistivity, WHH" 0.14 T/K resistivity 1.05 A 480 mJ/mol.K2 6.86 SP-heat 292 SP-heat "solid state reaction. mixture(Ba,Rh(Ir),P-powder) - heat(400C,16h + 1000C,16h, in evacuated silica tube)" Superconductivity in Layered Pnictides BaRh2P2 and BaIr2P2 2009 "Department of Advanced Materials, University of Tokyo, Kashiwa, Chiba 277-8561" "J.Phys.Soc.Jpn, 78(2009)023706"
151156 PHC4690082 "impurity phases=CeAs,Fe2As. RRR = 4.34." "Ce(O,F)FeAs" Ce1Fe1As1F0.1O0.9 Ce 1 Fe 1 As 1 F 0.1 O 0.9 2009 oxypnictide P4/nmm A 3.991 8.613 K 38.4 38.2 2 38.2 75 T "resistivity, WHH" 94 T/K resistivity 3.52 A 19 "Ce,CeO2,CeF3,FeAs" "mixture - heat(1000C,48h, in vac) - pellet - wrapped in Ta-foil - heat(1180C,48h, in evacuated silica tube)" Superconductivity in CeO1-xFxFeAs with upper critical field of 94 T 2009 "Department of Chemistry, Indian Institute of Technology, New Delhi 110016, India" "Physica C, 469(2009)82"
151157 PHC4690082 "impurity phases=CeAs,Fe2As. RRR = 6.67." "Ce(O,F)FeAs" Ce1Fe1As1F0.2O0.8 Ce 1 Fe 1 As 1 F 0.2 O 0.8 2009 oxypnictide P4/nmm A 3.988 8.607 K 42.5 40.4 7 40.4 T "resistivity, WHH" 43 T/K resistivity 1.45 A 27 uV/K -21 "Ce,CeO2,CeF3,FeAs" "mixture - heat(1000C,48h, in vac) - pellet - wrapped in Ta-foil - heat(1180C,48h, in evacuated silica tube)" Superconductivity in CeO1-xFxFeAs with upper critical field of 94 T 2009 "Department of Chemistry, Indian Institute of Technology, New Delhi 110016, India" "Physica C, 469(2009)82"
151158 JET0221167 lathe-turned polycrystalline sample Ti Ti1 Ti 1 1966 K 0.34 0.34 K/GPa 0.069 Investigation of the effects of hydrostatic pressure and plastic deformation on the superconducting properties of titanium 1966 Moscow State University "Soviet Phys. JETP, 22(1966)1167"
151159 JET0240040 "(Mo,Re)" Mo0.9Re0.1 Mo 0.9 Re 0.1 1967 K 2.92 2.92 K/GPa 0 heat by high-frequency furnace The effect of high pressure on the superconducting transition temperature of alloys Mo90Re10 and Nb75Mo25 1967 Moscow State University "Soviet Phys. JETP, 24(1967)40"
151160 JET0240040 "(Nb,Mo)" Mo0.25Nb0.75 Mo 0.25 Nb 0.75 1967 K 3.47 3.47 K/GPa -0.04 heat by high-frequency furnace The effect of high pressure on the superconducting transition temperature of alloys Mo90Re10 and Nb75Mo25 1967 Moscow State University "Soviet Phys. JETP, 24(1967)40"
151161 JPM0182955 GdBa2Cu3Oz Gd1Ba2Cu3Oz Gd 1 Ba 2 Cu 3 O z 2006 Y123 K 90.52 90.52 mJ/mol.K 4.1 "Y2O3(Gd2O3),BaCO3,CuO,MnO" 1 "mixture - CAL(930C,12h,in air) - pellet - ANN(930C,72h, in O2) - slow cool to 450C - ANN(450C,6h)" "Effect of Mn doping on the specific heat of the high Tc superconductor REBa2Cu3Oy (RE = Y, Gd)" 2006 "Department of Physics, Sikkim Manipal Institute of Technology, Majitar, Rangpo, Sikkim-737132, India" "J.Phys. Condens.Matter, 18(2006)2955"
151162 JPM0182955 R(100K) = 0.3 mOhm.cm "GdBa2(Cu,Mn)3Oz" Gd1Ba2Cu2.985Mn0.015Oz Gd 1 Ba 2 Cu 2.985 Mn 0.015 O z 2006 Y123 K 91 91 mJ/mol.K 3.5 "Y2O3(Gd2O3),BaCO3,CuO,MnO" 1 "mixture - CAL(930C,12h,in air) - pellet - ANN(930C,72h, in O2) - slow cool to 450C - ANN(450C,6h)" "Effect of Mn doping on the specific heat of the high Tc superconductor REBa2Cu3Oy (RE = Y, Gd)" 2006 "Department of Physics, Sikkim Manipal Institute of Technology, Majitar, Rangpo, Sikkim-737132, India" "J.Phys. Condens.Matter, 18(2006)2955"
151163 JPM0182955 "GdBa2(Cu,Mn)3Oz" Gd1Ba2Cu2.97Mn0.03Oz Gd 1 Ba 2 Cu 2.97 Mn 0.03 O z 2006 Y123 K 86.18 86.18 TC151163 "Y2O3(Gd2O3),BaCO3,CuO,MnO" 1 "mixture - CAL(930C,12h,in air) - pellet - ANN(930C,72h, in O2) - slow cool to 450C - ANN(450C,6h)" "Effect of Mn doping on the specific heat of the high Tc superconductor REBa2Cu3Oy (RE = Y, Gd)" 2006 "Department of Physics, Sikkim Manipal Institute of Technology, Majitar, Rangpo, Sikkim-737132, India" "J.Phys. Condens.Matter, 18(2006)2955"
151164 JPM0182955 "GdBa2(Cu,Mn)3Oz" Gd1Ba2Cu2.94Mn0.06Oz Gd 1 Ba 2 Cu 2.94 Mn 0.06 O z 2006 Y123 K 71.08 71.08 "Y2O3(Gd2O3),BaCO3,CuO,MnO" 1 "mixture - CAL(930C,12h,in air) - pellet - ANN(930C,72h, in O2) - slow cool to 450C - ANN(450C,6h)" "Effect of Mn doping on the specific heat of the high Tc superconductor REBa2Cu3Oy (RE = Y, Gd)" 2006 "Department of Physics, Sikkim Manipal Institute of Technology, Majitar, Rangpo, Sikkim-737132, India" "J.Phys. Condens.Matter, 18(2006)2955"
151165 JPM0182955 YBa2Cu3Oz Y1Ba2Cu3Oz Y 1 Ba 2 Cu 3 O z 2006 Y123 K 91.58 91.58 mJ/mol.K 5.7 "Y2O3(Gd2O3),BaCO3,CuO,MnO" 1 "mixture - CAL(930C,12h,in air) - pellet - ANN(930C,72h, in O2) - slow cool to 450C - ANN(450C,6h)" "Effect of Mn doping on the specific heat of the high Tc superconductor REBa2Cu3Oy (RE = Y, Gd)" 2006 "Department of Physics, Sikkim Manipal Institute of Technology, Majitar, Rangpo, Sikkim-737132, India" "J.Phys. Condens.Matter, 18(2006)2955"
151166 JPM0182955 "YBa2(Cu,Mn)3Oz" Y1Ba2Cu2.985Mn0.015Oz Y 1 Ba 2 Cu 2.985 Mn 0.015 O z 2006 Y123 K 92.41 92.41 TC151163 "Y2O3(Gd2O3),BaCO3,CuO,MnO" 1 "mixture - CAL(930C,12h,in air) - pellet - ANN(930C,72h, in O2) - slow cool to 450C - ANN(450C,6h)" "Effect of Mn doping on the specific heat of the high Tc superconductor REBa2Cu3Oy (RE = Y, Gd)" 2006 "Department of Physics, Sikkim Manipal Institute of Technology, Majitar, Rangpo, Sikkim-737132, India" "J.Phys. Condens.Matter, 18(2006)2955"
151167 JPM0182955 "YBa2(Cu,Mn)3Oz" Y1Ba2Cu2.97Mn0.03Oz Y 1 Ba 2 Cu 2.97 Mn 0.03 O z 2006 Y123 K 92.17 92.17 "Y2O3(Gd2O3),BaCO3,CuO,MnO" 1 "mixture - CAL(930C,12h,in air) - pellet - ANN(930C,72h, in O2) - slow cool to 450C - ANN(450C,6h)" "Effect of Mn doping on the specific heat of the high Tc superconductor REBa2Cu3Oy (RE = Y, Gd)" 2006 "Department of Physics, Sikkim Manipal Institute of Technology, Majitar, Rangpo, Sikkim-737132, India" "J.Phys. Condens.Matter, 18(2006)2955"
151168 JPM0182955 "YBa2(Cu,Mn)3Oz" Y1Ba2Cu2.94Mn0.06Oz Y 1 Ba 2 Cu 2.94 Mn 0.06 O z 2006 Y123 K 91.11 91.11 "Y2O3(Gd2O3),BaCO3,CuO,MnO" 1 "mixture - CAL(930C,12h,in air) - pellet - ANN(930C,72h, in O2) - slow cool to 450C - ANN(450C,6h)" "Effect of Mn doping on the specific heat of the high Tc superconductor REBa2Cu3Oy (RE = Y, Gd)" 2006 "Department of Physics, Sikkim Manipal Institute of Technology, Majitar, Rangpo, Sikkim-737132, India" "J.Phys. Condens.Matter, 18(2006)2955"
151169 JPM019256212 "values of [Tc], [DebyeT], [Gapene] are obtained by curve fitting of thermal conductivity k(T)." YBa2Cu3Oz Y1Ba2Cu3Oz Y 1 Ba 2 Cu 3 O z 2007 Y123 K 91.2 91.2 5 3 384.5 thermal conductivity "Y2O3(Gd2O3),BaCO3,CuO,MnO" 1 "mixture - CAL(930C,12h,in air) - pellet - ANN(930C,72h, in O2) - slow cool to 450C - ANN(450C,6h)" "Thermal transport in (Y, Gd)Ba2(Cu1-xMnx)3O7-z for x =< 0.02" 2007 "Superconductivity and Cryogenics Division, National Physical Laboratory, Dr K S Krishnan Road, New Delhi-110012, India" "J.Phys. Condens.Matter, 19(2007)256212"
151170 JPM019256212 "values of [Tc], [DebyeT], [Gapene] are obtained by curve fitting of thermal conductivity k(T)." "YBa2(Cu,Mn)3Oz" Y1Ba2Cu2.985Mn0.015Oz Y 1 Ba 2 Cu 2.985 Mn 0.015 O z 2007 Y123 K 90.3 90.3 3.7 3 396.5 thermal conductivity "Y2O3(Gd2O3),BaCO3,CuO,MnO" 1 "mixture - CAL(930C,12h,in air) - pellet - ANN(930C,72h, in O2) - slow cool to 450C - ANN(450C,6h)" "Thermal transport in (Y, Gd)Ba2(Cu1-xMnx)3O7-z for x =< 0.02" 2007 "Superconductivity and Cryogenics Division, National Physical Laboratory, Dr K S Krishnan Road, New Delhi-110012, India" "J.Phys. Condens.Matter, 19(2007)256212"
151171 JPM019256212 "values of [Tc], [DebyeT], [Gapene] are obtained by curve fitting of thermal conductivity k(T)." "YBa2(Cu,Mn)3Oz" Y1Ba2Cu2.97Mn0.0225Oz Y 1 Ba 2 Cu 2.97 Mn 0.0225 O z 2007 Y123 K 89.9 89.9 3.7 3 393.5 thermal conductivity "Y2O3(Gd2O3),BaCO3,CuO,MnO" 1 "mixture - CAL(930C,12h,in air) - pellet - ANN(930C,72h, in O2) - slow cool to 450C - ANN(450C,6h)" "Thermal transport in (Y, Gd)Ba2(Cu1-xMnx)3O7-z for x =< 0.02" 2007 "Superconductivity and Cryogenics Division, National Physical Laboratory, Dr K S Krishnan Road, New Delhi-110012, India" "J.Phys. Condens.Matter, 19(2007)256212"
151172 JPM019256212 "values of [Tc], [DebyeT], [Gapene] are obtained by curve fitting of thermal conductivity k(T)." "YBa2(Cu,Mn)3Oz" Y1Ba2Cu2.97Mn0.03Oz Y 1 Ba 2 Cu 2.97 Mn 0.03 O z 2007 Y123 K 90.2 90.2 3.4 3 392.5 thermal conductivity THC151172 TP151172 "Y2O3(Gd2O3),BaCO3,CuO,MnO" 1 "mixture - CAL(930C,12h,in air) - pellet - ANN(930C,72h, in O2) - slow cool to 450C - ANN(450C,6h)" "Thermal transport in (Y, Gd)Ba2(Cu1-xMnx)3O7-z for x =< 0.02" 2007 "Superconductivity and Cryogenics Division, National Physical Laboratory, Dr K S Krishnan Road, New Delhi-110012, India" "J.Phys. Condens.Matter, 19(2007)256212"
151173 JPM019256212 "values of [Tc], [DebyeT], [Gapene] are obtained by curve fitting of thermal conductivity k(T)." "YBa2(Cu,Mn)3Oz" Y1Ba2Cu2.94Mn0.06Oz Y 1 Ba 2 Cu 2.94 Mn 0.06 O z 2007 Y123 K 86.5 86.5 3.2 3 391.5 thermal conductivity "Y2O3(Gd2O3),BaCO3,CuO,MnO" 1 "mixture - CAL(930C,12h,in air) - pellet - ANN(930C,72h, in O2) - slow cool to 450C - ANN(450C,6h)" "Thermal transport in (Y, Gd)Ba2(Cu1-xMnx)3O7-z for x =< 0.02" 2007 "Superconductivity and Cryogenics Division, National Physical Laboratory, Dr K S Krishnan Road, New Delhi-110012, India" "J.Phys. Condens.Matter, 19(2007)256212"
151174 JPM019256212 "values of [Tc], [DebyeT], [Gapene] are obtained by curve fitting of thermal conductivity k(T)." GdBa2Cu3Oz Gd1Ba2Cu3Oz Gd 1 Ba 2 Cu 3 O z 2007 Y123 K 91.8 91.8 4.1 3 383 thermal conductivity "Y2O3(Gd2O3),BaCO3,CuO,MnO" 1 "mixture - CAL(930C,12h,in air) - pellet - ANN(930C,72h, in O2) - slow cool to 450C - ANN(450C,6h)" "Thermal transport in (Y, Gd)Ba2(Cu1-xMnx)3O7-z for x =< 0.02" 2007 "Superconductivity and Cryogenics Division, National Physical Laboratory, Dr K S Krishnan Road, New Delhi-110012, India" "J.Phys. Condens.Matter, 19(2007)256212"
151175 JPM019256212 "values of [Tc], [DebyeT], [Gapene] are obtained by curve fitting of thermal conductivity k(T)." "GdBa2(Cu,Mn)3Oz" Gd1Ba2Cu2.985Mn0.015Oz Gd 1 Ba 2 Cu 2.985 Mn 0.015 O z 2007 Y123 K 91.8 91.8 2.9 3 393 thermal conductivity "Y2O3(Gd2O3),BaCO3,CuO,MnO" 1 "mixture - CAL(930C,12h,in air) - pellet - ANN(930C,72h, in O2) - slow cool to 450C - ANN(450C,6h)" "Thermal transport in (Y, Gd)Ba2(Cu1-xMnx)3O7-z for x =< 0.02" 2007 "Superconductivity and Cryogenics Division, National Physical Laboratory, Dr K S Krishnan Road, New Delhi-110012, India" "J.Phys. Condens.Matter, 19(2007)256212"
151176 JPM019256212 "values of [Tc], [DebyeT], [Gapene] are obtained by curve fitting of thermal conductivity k(T)." "GdBa2(Cu,Mn)3Oz" Gd1Ba2Cu2.97Mn0.0225Oz Gd 1 Ba 2 Cu 2.97 Mn 0.0225 O z 2007 Y123 K 90.4 90.4 2.6 3 388 thermal conductivity "Y2O3(Gd2O3),BaCO3,CuO,MnO" 1 "mixture - CAL(930C,12h,in air) - pellet - ANN(930C,72h, in O2) - slow cool to 450C - ANN(450C,6h)" "Thermal transport in (Y, Gd)Ba2(Cu1-xMnx)3O7-z for x =< 0.02" 2007 "Superconductivity and Cryogenics Division, National Physical Laboratory, Dr K S Krishnan Road, New Delhi-110012, India" "J.Phys. Condens.Matter, 19(2007)256212"
151177 JPM019256212 "values of [Tc], [DebyeT], [Gapene] are obtained by curve fitting of thermal conductivity k(T)." "GdBa2(Cu,Mn)3Oz" Gd1Ba2Cu2.97Mn0.03Oz Gd 1 Ba 2 Cu 2.97 Mn 0.03 O z 2007 Y123 K 89.2 89.2 2.3 3 384 thermal conductivity THC151177 TP151177 "Y2O3(Gd2O3),BaCO3,CuO,MnO" 1 "mixture - CAL(930C,12h,in air) - pellet - ANN(930C,72h, in O2) - slow cool to 450C - ANN(450C,6h)" "Thermal transport in (Y, Gd)Ba2(Cu1-xMnx)3O7-z for x =< 0.02" 2007 "Superconductivity and Cryogenics Division, National Physical Laboratory, Dr K S Krishnan Road, New Delhi-110012, India" "J.Phys. Condens.Matter, 19(2007)256212"
151178 JPM019256212 "values of [Tc], [DebyeT], [Gapene] are obtained by curve fitting of thermal conductivity k(T)." "GdBa2(Cu,Mn)3Oz" Gd1Ba2Cu2.94Mn0.06Oz Gd 1 Ba 2 Cu 2.94 Mn 0.06 O z 2007 Y123 K 86.3 86.3 2.2 3 393 thermal conductivity "Y2O3(Gd2O3),BaCO3,CuO,MnO" 1 "mixture - CAL(930C,12h,in air) - pellet - ANN(930C,72h, in O2) - slow cool to 450C - ANN(450C,6h)" "Thermal transport in (Y, Gd)Ba2(Cu1-xMnx)3O7-z for x =< 0.02" 2007 "Superconductivity and Cryogenics Division, National Physical Laboratory, Dr K S Krishnan Road, New Delhi-110012, India" "J.Phys. Condens.Matter, 19(2007)256212"
151180 JPS078034710 lattice term of SP (beta) = 0.626 mJ/mol.K4. (dC/gamma*Tc) = 1.45. Rh2Ga9 Ga9Rh2 Ga 9 Rh 2 3 2009 Pc A 6.4008 6.3944 8.7519 K 1.95 1.95 meV 0.295 3.5 MSP151180 mJ/mol.K 21.5 mJ/mol.K2 7.64 SP-heat 324 SP-heat "Rh(3N),Ir(3N),Ga(4N)" 1 "weight ratio: Rh(Ir) : Ga = 1 : 10, mixture - (sealed in evacuated quartz tube) - heat to 1050C(200C/h) - hold(1050C,5h) - cool to 100C(2C/h)" Thermodynamic Properties of the Non-centrosymmetric Type-I Superconductor Rh2Ga9 and Ir2Ga9 2009 "Department of Physics and Mathematics, Aoyama Gakuin University, 5-10-1 Fuchinobe, Sagamihara, Kanagawa 229-8558" "J.Phys.Soc.Jpn, 78(2009)034710"
151181 JPS078034710 "lattice term of SP (beta) = 0.618 mJ/mol.K4. (dC/gamma*Tc) = 1.42. G-L parameter = 0.377. HCFIG shows Hc(T), not Hc2." Ir2Ga9 Ga9Ir2 Ga 9 Ir 2 3 2009 Pc A 6.4185 6.3918 8.7761 K 2.25 2.25 MHC151181 meV 0.345 3.54 MSP151181 mJ/mol.K 23.4 mJ/mol.K2 7.32 SP-heat 325 SP-heat "Rh(3N),Ir(3N),Ga(4N)" 1 "weight ratio: Rh(Ir) : Ga = 1 : 10, mixture - (sealed in evacuated quartz tube) - heat to 1050C(200C/h) - hold(1050C,5h) - cool to 100C(2C/h)" Thermodynamic Properties of the Non-centrosymmetric Type-I Superconductor Rh2Ga9 and Ir2Ga9 2009 "Department of Physics and Mathematics, Aoyama Gakuin University, 5-10-1 Fuchinobe, Sagamihara, Kanagawa 229-8558" "J.Phys.Soc.Jpn, 78(2009)034710"
151182 JPS078033702 N-content = 1.012 by Rietvelt analysis. G-L parameter = 16.7. ZnNNi3 Zn1N1Ni3 Zn 1 N 1 Ni 3 2009 Pm3m A 3.756 K 3 3 mT "M-H curve, T2 dependence" 6.9 T "resistive, WHH" 0.96 A from Hc2 185 A calculate from Hc1(0) 3089 mJ/mol.K2 13 SP-heat 336 SP-heat "Zn-, Ni-powder" "mixture(Zn:Ni = 1.05:3) - pellet - SIN(40C,3h + 520C,15h + 600C,5h, in NH3 gas)" New Antiperovskite-Type Superconductor ZnNyNi3 2009 "Department of Physics, Faculty of Engineering, Yokohama National University, Hodogaya-ku, Yokohama 240-8501" "J.Phys.Soc.Jpn, 78(2009)033702"
151183 JPS078025003 <71>Ga-NQR measured. gap from curve fitting of T1(T) using isotropic gap model. Ir2Ga9 Ga9Ir2 Ga 9 Ir 2 3 2009 Rh2Ga9 K 2.2 2.2 4.4 6 Ga-flux method Conventional s-Wave Superconductivity in Noncentrosymmetric Ir2Ga9: 71Ga-NQR Evidence 2009 "Department of Materials Engineering Science, Osaka University, Toyonaka, Osaka 560-8531" "J.Phys.Soc.Jpn, 78(2009)025003"
151184 JPS078025001 hydrostatic pressure. tetra-to-ortho transition at T0 defined as max of (dR/dT). SrFe2As2 Sr1Fe2As2 Sr 1 Fe 2 As 2 1 2009 ThCr2Si2 K 38 0 38 MPH151184 solid state reaction Pressure-Induced Superconductivity in Iron Pnictide Compound SrFe2As2 2009 "Department of Physics, College of Humanities and Sciences, Nihon University, Sakurajosui, Setagaya-ku, Tokyo 156-8550" "J.Phys.Soc.Jpn, 78(2009)025001"
151185 JPS078023710 "Energy gap measured by muon-SR. gap in DB obtained using isotropic model. Using two gap model, gap= 12meV ([gapene]=7.3) and 6.8 meV ([gapnene]= 4.1) are obtained." "(Ba,K)Fe2As2" Ba0.6K0.4Fe2As2 Ba 0.6 K 0.4 Fe 2 As 2 2009 K 38 38 meV 8.35 5.05 16 solid state reaction Full Gap Superconductivity in Ba0:6K0:4Fe2As2 Probed by Muon Spin Rotation 2009 "Department of Materials Structure Science, School of High Energy Accelerator Science, The Graduate University for Advanced Studies, 1-1 Oho, Tsukuba, Ibaraki 305-0801" "J.Phys.Soc.Jpn, 78(2009)023710"
151186 JPS078034712 O-content is nominal. Tc depends on synthesized pressure. Tc in DB shows for the best sample (synthesized at P=2.0 GPa). LaOFeAs La1Fe1As1O0.7 La 1 Fe 1 As 1 O 0.7 2009 oxypnictide P4/nmm A 4.0257 8.719 K 26.2 28.4 29 27.8 28.4 46 "high-P-synthesis. RAs firstly made by reacting (500C,15h), then react(850C or 1000C,5h). mixture (RAs, Fe, Fe2O3) - pellet - heat(1050-1150C,2h, 2.0 =< P =< 5.0 GPa)" "Superconductivity above 50K in LnFeAsO1-y (Ln = Nd, Sm, Gd, Tb, and Dy) Synthesized by High-Pressure Technique" 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 78(2009)034712"
151187 JPS078034712 O-content is nominal. Tc depends on synthesized pressure. Tc in DB shows for the best sample (synthesized at P=2.0 GPa). CeOFeAs Ce1Fe1As1O0.7 Ce 1 Fe 1 As 1 O 0.7 2009 oxypnictide P4/nmm A 3.995 8.631 K 35.5 40.2 41.2 38.5 40.2 43 "high-P-synthesis. RAs firstly made by reacting (500C,15h), then react(850C or 1000C,5h). mixture (RAs, Fe, Fe2O3) - pellet - heat(1050-1150C,2h, 2.0 =< P =< 5.0 GPa)" "Superconductivity above 50K in LnFeAsO1-y (Ln = Nd, Sm, Gd, Tb, and Dy) Synthesized by High-Pressure Technique" 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 78(2009)034712"
151188 JPS078034712 O-content is nominal. Tc depends on synthesized pressure. Tc in DB shows for the best sample (synthesized at P=2.0 GPa). PrOFeAs Pr1Fe1As1O0.7 Pr 1 Fe 1 As 1 O 0.7 2009 oxypnictide P4/nmm A 3.9627 8.5721 K 46 48.5 49.2 48.1 48.5 31 "high-P-synthesis. RAs firstly made by reacting (500C,15h), then react(850C or 1000C,5h). mixture (RAs, Fe, Fe2O3) - pellet - heat(1050-1150C,2h, 2.0 =< P =< 5.0 GPa)" "Superconductivity above 50K in LnFeAsO1-y (Ln = Nd, Sm, Gd, Tb, and Dy) Synthesized by High-Pressure Technique" 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 78(2009)034712"
151189 JPS078034712 O-content is nominal. Tc depends on synthesized pressure. Tc in DB shows for the best sample (synthesized at P=2.0 GPa). NdOFeAs Nd1Fe1As1O0.7 Nd 1 Fe 1 As 1 O 0.7 2009 oxypnictide P4/nmm A 3.9432 8.529 K 52.1 53.7 54.3 53 53.7 80 "high-P-synthesis. RAs firstly made by reacting (500C,15h), then react(850C or 1000C,5h). mixture (RAs, Fe, Fe2O3) - pellet - heat(1050-1150C,2h, 2.0 =< P =< 5.0 GPa)" "Superconductivity above 50K in LnFeAsO1-y (Ln = Nd, Sm, Gd, Tb, and Dy) Synthesized by High-Pressure Technique" 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 78(2009)034712"
151190 JPS078034712 O-content is nominal. Tc depends on synthesized pressure. Tc in DB shows for the best sample (synthesized at P=5.0 GPa). SmOFeAs Sm1Fe1As1O0.7 Sm 1 Fe 1 As 1 O 0.7 2009 oxypnictide P4/nmm A 3.9218 8.4522 K 50.5 52.1 53.3 52.5 52.1 60 "high-P-synthesis. RAs firstly made by reacting (500C,15h), then react(850C or 1000C,5h). mixture (RAs, Fe, Fe2O3) - pellet - heat(1050-1150C,2h, 2.0 =< P =< 5.0 GPa)" "Superconductivity above 50K in LnFeAsO1-y (Ln = Nd, Sm, Gd, Tb, and Dy) Synthesized by High-Pressure Technique" 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 78(2009)034712"
151191 JPS078034712 O-content is nominal. Tc depends on synthesized pressure. Tc in DB shows for the best sample (synthesized at P=5.0 GPa). GdOFeAs Gd1Fe1As1O0.7 Gd 1 Fe 1 As 1 O 0.7 2009 oxypnictide P4/nmm A 3.8905 8.3928 K 52.4 53.6 54 53.5 53.6 70 "high-P-synthesis. RAs firstly made by reacting (500C,15h), then react(850C or 1000C,5h). mixture (RAs, Fe, Fe2O3) - pellet - heat(1050-1150C,2h, 2.0 =< P =< 5.0 GPa)" "Superconductivity above 50K in LnFeAsO1-y (Ln = Nd, Sm, Gd, Tb, and Dy) Synthesized by High-Pressure Technique" 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 78(2009)034712"
151192 JPS078034712 O-content is nominal. Tc depends on synthesized pressure. Tc in DB shows for the best sample (synthesized at P=5.0 GPa). TbOFeAs Tb1Fe1As1O0.7 Tb 1 Fe 1 As 1 O 0.7 2009 oxypnictide P4/nmm A 3.8753 8.3527 K 50.2 52.2 52.6 52.4 52.2 64 "high-P-synthesis. RAs firstly made by reacting (500C,15h), then react(850C or 1000C,5h). mixture (RAs, Fe, Fe2O3) - pellet - heat(1050-1150C,2h, 2.0 =< P =< 5.0 GPa)" "Superconductivity above 50K in LnFeAsO1-y (Ln = Nd, Sm, Gd, Tb, and Dy) Synthesized by High-Pressure Technique" 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 78(2009)034712"
151193 JPS078034712 O-content is nominal. Tc depends on synthesized pressure. Tc in DB shows for the best sample (synthesized at P=5.5 GPa). DyOFeAs Dy1Fe1As1O0.7 Dy 1 Fe 1 As 1 O 0.7 2009 oxypnictide P4/nmm A 3.8625 8.3216 K 49.8 51.2 51.6 51.2 51.2 63 "high-P-synthesis. RAs firstly made by reacting (500C,15h), then react(850C or 1000C,5h). mixture (RAs, Fe, Fe2O3) - pellet - heat(1050-1150C,2h, 2.0 =< P =< 5.0 GPa)" "Superconductivity above 50K in LnFeAsO1-y (Ln = Nd, Sm, Gd, Tb, and Dy) Synthesized by High-Pressure Technique" 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 78(2009)034712"
151194 PRB079054506 Tc defined as (dR/dT) = 0. T = 28.2 K defined as the peak of (dR/dT). (delta-Tc) = Tc - T. "NbSr2(Eu,Ce)2Cu2O10" Nb1Sr2Eu1.5Ce0.5Cu2O10 Nb 1 Sr 2 Eu 1.5 Ce 0.5 Cu 2 O 10 1 2009 Ru1222 K 30.2 2.2 30.2 "standard solid state reaction. oxygenation(600C,5d)" Two-dimensional frustrated magnetic state in superconducting RuSr2Eu1.5Ce0.5Cu2O10 2009 "Instituto de Fisica, Universidade Federal do Rio de Janeiro, CP 68528, Rio de Janeiro RJ 21941-972, Brazil" "Phys.Rev.B, 79(2009)054506"
151195 PRB079054506 Tc defined as (dR/dT) = 0. T = 34.1 K defined as the peak of (dR/dT). (delta-Tc) = Tc - T. "(Nb,Ru)Sr2(Eu,Ce)2Cu2O10" Nb0.6Ru0.4Sr2Eu1.5Ce0.5Cu2O10 Nb 0.6 Ru 0.4 Sr 2 Eu 1.5 Ce 0.5 Cu 2 O 10 1 2009 Ru1222 K 37.3 3.36 37.3 "standard solid state reaction. oxygenation(600C,5d)" Two-dimensional frustrated magnetic state in superconducting RuSr2Eu1.5Ce0.5Cu2O10 2009 "Instituto de Fisica, Universidade Federal do Rio de Janeiro, CP 68528, Rio de Janeiro RJ 21941-972, Brazil" "Phys.Rev.B, 79(2009)054506"
151196 PRB079054506 Tc defined as (dR/dT) = 0. T = 37.1 K defined as the peak of (dR/dT). (delta-Tc) = Tc - T. "(Nb,Ru)Sr2(Eu,Ce)2Cu2O10" Nb0.6Ru0.6Sr2Eu1.5Ce0.5Cu2O10 Nb 0.6 Ru 0.6 Sr 2 Eu 1.5 Ce 0.5 Cu 2 O 10 1 2009 Ru1222 K 41.4 4.17 41.4 "standard solid state reaction. oxygenation(600C,5d)" Two-dimensional frustrated magnetic state in superconducting RuSr2Eu1.5Ce0.5Cu2O10 2009 "Instituto de Fisica, Universidade Federal do Rio de Janeiro, CP 68528, Rio de Janeiro RJ 21941-972, Brazil" "Phys.Rev.B, 79(2009)054506"
151197 PRB079054506 Tc defined as (dR/dT) = 0. T = 39.7 K defined as the peak of (dR/dT). (delta-Tc) = Tc - T. "RuSr2(Eu,Ce)2Cu2O10" Ru1Sr2Eu1.5Ce0.5Cu2O10 Ru 1 Sr 2 Eu 1.5 Ce 0.5 Cu 2 O 10 1 2009 Ru1222 K 44.3 4.71 44.3 "standard solid state reaction. oxygenation(600C,5d)" Two-dimensional frustrated magnetic state in superconducting RuSr2Eu1.5Ce0.5Cu2O10 2009 "Instituto de Fisica, Universidade Federal do Rio de Janeiro, CP 68528, Rio de Janeiro RJ 21941-972, Brazil" "Phys.Rev.B, 79(2009)054506"
151198 PRB079054517 K-content not shown. two gaps ([gapene] = 6.8(large) and < 3.0 (small)). momentum dependence of gaps are extracted from ARPES and IEDS using new model. [gapene] = 9 for X pocket. "(Ba,K)Fe2As2" Ba0.6K0.4Fe2As2 Ba 0.6 K 0.4 Fe 2 As 2 3 2009 ThCr2Si2 K 32 32 6.8 12 Sn-flux method. heat(850C) - cool to 550C (3C/h) Momentum dependence of the superconducting gap in Ba1-xKxFe2As2 2009 "Institute for Solid State Research, IFW Dresden, P.O. Box 270116, D-01171 Dresden, Germany" "Phys.Rev.B, 79(2009)054517"
151199 PRB079054520 ThPt4Ge12 Th1Pt4Ge12 Th 1 Pt 4 Ge 12 1 2009 skutterudite A 8.5924 K 4.62 4.62 uV/K -0.656 MTP151199 m3/C 5.76E-11 9 MRH151199 See PRB077180504 Two-band conduction in superconducting ThPt4Ge12 2009 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 1410, 50-950 Wroc?aw, Poland" "Phys.Rev.B, 79(2009)054520"
151200 PRB079054525 "uniaxial P-dependence of Tc estimated from thermal expansion using Ehrenfest relation: (dTc/dP)a = -4.1, (dTc/dP)c = 1.7 K/kbar. (dTc/dP) = 2*(dTc/dP)a + (dTc/dP)c. (dC/Tc) = 4 mJ/mol.K2" "Ba(Fe,Co)2As2" Ba1Fe1.924Co0.076As2 Ba 1 Fe 1.924 Co 0.076 As 2 3 2009 ThCr2Si2 K 10.6 6.48 6.48 K/GPa -61 Thermal expansion and anisotropic pressure derivatives of Tc in Ba(Fe1-xCox)2As2 single crystals 2009 "Ames Laboratory U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 79(2009)054525"
151201 PRB079054525 "uniaxial P-dependence of Tc estimated from thermal expansion using Ehrenfest relation: (dTc/dP)a = 0.3, (dTc/dP)c = -2.6 K/kbar. (dTc/dP) = 2*(dTc/dP)a + (dTc/dP)c. (dC/Tc) = 28 mJ/mol.K2." "Ba(Fe,Co)2As2" Ba1Fe1.852Co0.148As2 Ba 1 Fe 1.852 Co 0.148 As 2 3 2009 ThCr2Si2 K 22.5 22.5 K/GPa -18 Thermal expansion and anisotropic pressure derivatives of Tc in Ba(Fe1-xCox)2As2 single crystals 2009 "Ames Laboratory U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 79(2009)054525"
151202 PRB079064507 "Bi:Sr:Ca:Cu = 2.16:1.85:1.06:2 by ICP. optimal sample, but O-content not given." Bi2Sr2CaCu2O8 Bi2.2Sr1.8Ca1Cu2O8+z Bi 2.2 Sr 1.8 Ca 1 Cu 2 O 8+z 3 2009 Bi2212 K 92 92 "single crystals grown by TSFZ method. growth speed = 0.15-0.2 mm/h for Pb-free Bi2212, = 0.5 mm/h for Pb-doped Bi2212." Enhancement of the superconducting critical temperature in Bi2Sr2CaCu2O8+z by controlling disorder outside CuO2 planes 2009 "Department of Physics, University of Tokyo, Tokyo 113-0033, Japan" "Phys.Rev.B, 79(2009)064507"
151203 PRB079064507 "Bi:Sr:Ca:Y:Cu = 2.02:1.98:0.85:0.08:2 by ICP. optimal sample, but O-content not given." "Bi2Sr2(Ca,Y)Cu2O8" Bi2Sr2Ca0.92Y0.08Cu2O8+z Bi 2 Sr 2 Ca 0.92 Y 0.08 Cu 2 O 8+z 3 2009 Bi2212 K 96 96 "single crystals grown by TSFZ method. growth speed = 0.15-0.2 mm/h for Pb-free Bi2212, = 0.5 mm/h for Pb-doped Bi2212." Enhancement of the superconducting critical temperature in Bi2Sr2CaCu2O8+z by controlling disorder outside CuO2 planes 2009 "Department of Physics, University of Tokyo, Tokyo 113-0033, Japan" "Phys.Rev.B, 79(2009)064507"
151204 PRB079064507 "Bi:Pb:Sr:Ca:Cu =1.69:0.33:1.96:0.92:2 by ICP. optimal sample, but O-content not given." "(Bi,Pb)2Sr2CaCu2O8" Bi1.6Pb0.4Sr2Ca1Cu2O8+z Bi 1.6 Pb 0.4 Sr 2 Ca 1 Cu 2 O 8+z 3 2009 Bi2212 K 96 96 "single crystals grown by TSFZ method. growth speed = 0.15-0.2 mm/h for Pb-free Bi2212, = 0.5 mm/h for Pb-doped Bi2212." Enhancement of the superconducting critical temperature in Bi2Sr2CaCu2O8+z by controlling disorder outside CuO2 planes 2009 "Department of Physics, University of Tokyo, Tokyo 113-0033, Japan" "Phys.Rev.B, 79(2009)064507"
151205 PRB079064507 "Bi:Pb:Sr:Ca:Cu = 1.42:0.55:1.97:0.96:2 by ICP. optimal sample, but O-content not given." "(Bi,Pb)2Sr2CaCu2O8" Bi1.4Pb0.8Sr2Ca1Cu2O8+z Bi 1.4 Pb 0.8 Sr 2 Ca 1 Cu 2 O 8+z 3 2009 Bi2212 K 97.5 97.5 "single crystals grown by TSFZ method. growth speed = 0.15-0.2 mm/h for Pb-free Bi2212, = 0.5 mm/h for Pb-doped Bi2212." Enhancement of the superconducting critical temperature in Bi2Sr2CaCu2O8+z by controlling disorder outside CuO2 planes 2009 "Department of Physics, University of Tokyo, Tokyo 113-0033, Japan" "Phys.Rev.B, 79(2009)064507"
151206 PRB079064507 "Bi:Pb:Sr:Ca:Cu = 1.31:0.66:1.94:1.08:2 by ICP. optimal sample, but O-content not given." "(Bi,Pb)2Sr2CaCu2O8" Bi1.3Pb0.9Sr2Ca1Cu2O8+z Bi 1.3 Pb 0.9 Sr 2 Ca 1 Cu 2 O 8+z 3 2009 Bi2212 K 94 94 "single crystals grown by TSFZ method. growth speed = 0.15-0.2 mm/h for Pb-free Bi2212, = 0.5 mm/h for Pb-doped Bi2212." Enhancement of the superconducting critical temperature in Bi2Sr2CaCu2O8+z by controlling disorder outside CuO2 planes 2009 "Department of Physics, University of Tokyo, Tokyo 113-0033, Japan" "Phys.Rev.B, 79(2009)064507"
151207 PRB079064507 "Bi:Pb:Sr:Ca:Y:Cu = 1.58:0.36:1.92:0.93:0.11:2 by ICP. optimal sample, but O-content not given." "(Bi,Pb)2Sr2(Ca,Y)Cu2O8" Bi1.6Pb0.4Sr2Ca0.9Y0.1Cu2O8+z Bi 1.6 Pb 0.4 Sr 2 Ca 0.9 Y 0.1 Cu 2 O 8+z 3 2009 Bi2212 K 94 94 "single crystals grown by TSFZ method. growth speed = 0.15-0.2 mm/h for Pb-free Bi2212, = 0.5 mm/h for Pb-doped Bi2212." Enhancement of the superconducting critical temperature in Bi2Sr2CaCu2O8+z by controlling disorder outside CuO2 planes 2009 "Department of Physics, University of Tokyo, Tokyo 113-0033, Japan" "Phys.Rev.B, 79(2009)064507"
151208 PRB079064507 "Bi:Pb:Sr:Ca:Y:Cu = 1.50:0.37:1.97:0.92:0.05:2 by ICP. optimal sample, but O-content not given." "(Bi,Pb)2Sr2(Ca,Y)Cu2O8" Bi1.6Pb0.4Sr2Ca0.95Y0.05Cu2O8+z Bi 1.6 Pb 0.4 Sr 2 Ca 0.95 Y 0.05 Cu 2 O 8+z 3 2009 Bi2212 K 96 96 "single crystals grown by TSFZ method. growth speed = 0.15-0.2 mm/h for Pb-free Bi2212, = 0.5 mm/h for Pb-doped Bi2212." Enhancement of the superconducting critical temperature in Bi2Sr2CaCu2O8+z by controlling disorder outside CuO2 planes 2009 "Department of Physics, University of Tokyo, Tokyo 113-0033, Japan" "Phys.Rev.B, 79(2009)064507"
151209 PRB079064507 "Bi:Pb:Sr:Ca:Y:Cu = 1.33:0.65:2.0:0.98:0.03:2 by ICP. optimal sample, but O-content not given." "(Bi,Pb)2Sr2(Ca,Y)Cu2O8" Bi1.4Pb0.7Sr2Ca0.97Y0.03Cu2O8+z Bi 1.4 Pb 0.7 Sr 2 Ca 0.97 Y 0.03 Cu 2 O 8+z 3 2009 Bi2212 K 98 98 TC151209 "single crystals grown by TSFZ method. growth speed = 0.15-0.2 mm/h for Pb-free Bi2212, = 0.5 mm/h for Pb-doped Bi2212." Enhancement of the superconducting critical temperature in Bi2Sr2CaCu2O8+z by controlling disorder outside CuO2 planes 2009 "Department of Physics, University of Tokyo, Tokyo 113-0033, Japan" "Phys.Rev.B, 79(2009)064507"
151210 PRB079052508 89.5% LixFeAs + 10.5% FeAs. [penet] at 1.6 K from muon-SR . LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 2009 P4/nmm A 3.774 6.353 K 16 16 A muon-SR 1950 "mixture(Li + FeAs) - heat(800C, in Ta-tube)" "Enhanced superfluid stiffness, lowered superconducting transition temperature, and field-induced magnetic state of the pnictide superconductor LiFeAs" 2009 "ISIS Muon Facility, ISIS, Chilton, Oxon., OX11 0QX, United Kingdom" "Phys.Rev.B, 79(2009)052508"
151211 PRB079052508 almost single phase. [penet] at 1.6 K from muon-SR . LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 1 2009 P4/nmm A 3.774 6.354 K 12 12 A muon-SR 2440 "mixture(Li3As+Fe+FeAs) - heat(800C,48h, in alumina crucible)" "Enhanced superfluid stiffness, lowered superconducting transition temperature, and field-induced magnetic state of the pnictide superconductor LiFeAs" 2009 "ISIS Muon Facility, ISIS, Chilton, Oxon., OX11 0QX, United Kingdom" "Phys.Rev.B, 79(2009)052508"
151212 JP020472201 TCFIG shows the data from reference papers. BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2008 ThCr2Si2 K 28.6 0 28.6 MTC151212 FeAs-flux method Pressure effects on the electron-doped high Tc superconductor BaFe2-xCoxAs2 2008 "Department of Physics and Astronomy, McMaster University, Hamilton, ON, L8S4M1, Canada" "J.Phys.:Condens.Matter, 20(2008)472201"
151213 JP020472201 "R=A+BT^n, n = 1.6 for P=0 and n =1.4 for P=2.5 GPa." "Ba(Fe,Co)2As2" Ba1Fe1.92Co0.08As2 Ba 1 Fe 1.92 Co 0.08 As 2 3 2008 ThCr2Si2 K 11 11 MTC151213 K/GPa 4 FeAs-flux method Pressure effects on the electron-doped high Tc superconductor BaFe2-xCoxAs2 2008 "Department of Physics and Astronomy, McMaster University, Hamilton, ON, L8S4M1, Canada" "J.Phys.:Condens.Matter, 20(2008)472201"
151214 JP020472201 "R=A+BT^n, n = 1.33 for P < 2.5 GPa." "Ba(Fe,Co)2As2" Ba1Fe1.8Co0.2As2 Ba 1 Fe 1.8 Co 0.2 As 2 3 2008 ThCr2Si2 K 22 22 K/GPa 0.65 FeAs-flux method Pressure effects on the electron-doped high Tc superconductor BaFe2-xCoxAs2 2008 "Department of Physics and Astronomy, McMaster University, Hamilton, ON, L8S4M1, Canada" "J.Phys.:Condens.Matter, 20(2008)472201"
151215 PRB078214515 Co-content determined by WDS(wavelength dispersive x-ray spectroscopy "Ba(Fe,Co)2As2" Ba1Fe1.924Co0.076As2 Ba 1 Fe 1.924 Co 0.076 As 2 3 2008 ThCr2Si2 A 3.9604 12.9964 K 10.5 6.5 10.5 MTC151215 MHC151215 "resistive, onset" "self-flux method using Ba:FeAs:CoAs = 1:4(1-x):4x solution. heat(1180C,2h) - cool to 100C (5 C/h)" Effects of Co substitution on thermodynamic and transport properties and anisotropic Hc2 in Ba(Fe1-xCox)2As2 single crystals 2008 "Ames Laboratory U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 78(2008)214515"
151216 PRB078214515 Co-content determined by WDS(wavelength dispersive x-ray spectroscopy "Ba(Fe,Co)2As2" Ba1Fe1.906Co0.094As2 Ba 1 Fe 1.906 Co 0.094 As 2 3 2008 ThCr2Si2 A 3.9605 12.9915 K 16.7 14 16.7 MHC151216 "resistive, onset" "self-flux method using Ba:FeAs:CoAs = 1:4(1-x):4x solution. heat(1180C,2h) - cool to 100C (5 C/h)" Effects of Co substitution on thermodynamic and transport properties and anisotropic Hc2 in Ba(Fe1-xCox)2As2 single crystals 2008 "Ames Laboratory U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 78(2008)214515"
151217 PRB078214515 Co-content determined by WDS(wavelength dispersive x-ray spectroscopy "Ba(Fe,Co)2As2" Ba1Fe1.884Co0.116As2 Ba 1 Fe 1.884 Co 0.116 As 2 3 2008 ThCr2Si2 A 3.9605 12.984 K 22.8 22.8 MTC151215 MHC151217 "resistive, onset" "self-flux method using Ba:FeAs:CoAs = 1:4(1-x):4x solution. heat(1180C,2h) - cool to 100C (5 C/h)" Effects of Co substitution on thermodynamic and transport properties and anisotropic Hc2 in Ba(Fe1-xCox)2As2 single crystals 2008 "Ames Laboratory U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 78(2008)214515"
151218 PRB078214515 Co-content determined by WDS(wavelength dispersive x-ray spectroscopy "Ba(Fe,Co)2As2" Ba1Fe1.852Co0.148As2 Ba 1 Fe 1.852 Co 0.148 As 2 3 2008 ThCr2Si2 A 3.9598 12.9782 K 22.5 22.5 MHC151218 "resistive, onset" "self-flux method using Ba:FeAs:CoAs = 1:4(1-x):4x solution. heat(1180C,2h) - cool to 100C (5 C/h)" Effects of Co substitution on thermodynamic and transport properties and anisotropic Hc2 in Ba(Fe1-xCox)2As2 single crystals 2008 "Ames Laboratory U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 78(2008)214515"
151219 PRB078214515 Co-content determined by WDS(wavelength dispersive x-ray spectroscopy "Ba(Fe,Co)2As2" Ba1Fe1.8Co0.2As2 Ba 1 Fe 1.8 Co 0.2 As 2 3 2008 ThCr2Si2 A 3.9598 12.9718 K 17.4 17.4 MHC151219 "resistive, onset" "self-flux method using Ba:FeAs:CoAs = 1:4(1-x):4x solution. heat(1180C,2h) - cool to 100C (5 C/h)" Effects of Co substitution on thermodynamic and transport properties and anisotropic Hc2 in Ba(Fe1-xCox)2As2 single crystals 2008 "Ames Laboratory U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 78(2008)214515"
151220 PRB078214515 Co-content determined by WDS(wavelength dispersive x-ray spectroscopy "Ba(Fe,Co)2As2" Ba1Fe1.772Co0.228As2 Ba 1 Fe 1.772 Co 0.228 As 2 3 2008 ThCr2Si2 A 3.9592 12.9594 K 10.6 10.6 MTC151215 MHC151220 "resistive, onset" "self-flux method using Ba:FeAs:CoAs = 1:4(1-x):4x solution. heat(1180C,2h) - cool to 100C (5 C/h)" Effects of Co substitution on thermodynamic and transport properties and anisotropic Hc2 in Ba(Fe1-xCox)2As2 single crystals 2008 "Ames Laboratory U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 78(2008)214515"
151221 PRL099257004 "C=[gamma]T+[beta]T^3+[delta]T^5 fitting. [gamma] corrected by subtracting impurity part. [beta]=3.97 mJ/mol.K4, [delta]=7.4 uJ/mol.K6. [Debye-T] obtained from Debye and Einstein(147 K) model." Mg10Ir19B16 Mg10Ir19B16 Mg 10 Ir 19 B 16 2007 I-43m A 10.5668 K 4.45 4.45 Oe M-H curve 30 T SP-heat 0.77 MHC151221 "resistive, SP-heat" A from Hc2 206 A from Hc1 4040 meV 0.7 14 mJ/mol.K2 52.6 SP-heat 740 SP-heat "Mg,Ir,B" "solid state reaction. ANN(850C,100h, in Ta-tube)" Physical Properties of the Noncentrosymmetric Superconductor Mg10Ir19B16 2007 "Condensed Matter and Thermal Physics, Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 99(2007)257004"
151222 PRB079064508 definition oh Hc1 not clear. Pd2ZrAl Pd2Zr1Al1 Pd 2 Zr 1 Al 1 2009 Heusler Fm3[-]m L2<1> K 3.2 3.1 3.2 Oe 60 "arc-melting. ANN(1073K,2w, in evacuated quartz tube) - Q to 273 K." Superconductivity in palladium-based Heusler compounds 2009 "Institut fur Anorganische und Analytische Chemie, Johannes Gutenberg-Universitat, 55099 Mainz, Germany" "Phys.Rev.B, 79(2009)064508"
151223 PRB079064508 definition oh Hc1 not clear. Pd2HfAl Pd2Hf1Al1 Pd 2 Hf 1 Al 1 2009 Heusler Fm3[-]m L2<1> K 3.8 3.4 3.8 Oe 103 "arc-melting. ANN(1073K,2w, in evacuated quartz tube) - Q to 273 K." Superconductivity in palladium-based Heusler compounds 2009 "Institut fur Anorganische und Analytische Chemie, Johannes Gutenberg-Universitat, 55099 Mainz, Germany" "Phys.Rev.B, 79(2009)064508"
151224 PRB079064508 definition oh Hc1 not clear. Pd2ZrIn Pd2Zr1In1 Pd 2 Zr 1 In 1 2009 Heusler Fm3[-]m L2<1> K 3.1 3 3.1 Oe 123 "arc-melting. ANN(1073K,2w, in evacuated quartz tube) - Q to 273 K." Superconductivity in palladium-based Heusler compounds 2009 "Institut fur Anorganische und Analytische Chemie, Johannes Gutenberg-Universitat, 55099 Mainz, Germany" "Phys.Rev.B, 79(2009)064508"
151225 PRB079064508 definition oh Hc1 not clear. anomalous R drop at around 3.1 K. Pd2HfIn Pd2Hf1In1 Pd 2 Hf 1 In 1 2009 Heusler Fm3[-]m L2<1> K 2.4 2.3 2.4 Oe 62 "arc-melting. ANN(1073K,2w, in evacuated quartz tube) - Q to 273 K." Superconductivity in palladium-based Heusler compounds 2009 "Institut fur Anorganische und Analytische Chemie, Johannes Gutenberg-Universitat, 55099 Mainz, Germany" "Phys.Rev.B, 79(2009)064508"
151226 PRB079064508 not SC. small drop in resistivity at around 2.6 K. "Pd2(Zr,Y)Al" Pd2Zr0.9Y0.1Al1 Pd 2 Zr 0.9 Y 0.1 Al 1 2009 Heusler Fm3[-]m A 6.432 K 1.8 "arc-melting. ANN(1073K,2w, in evacuated quartz tube) - Q to 273 K." Superconductivity in palladium-based Heusler compounds 2009 "Institut fur Anorganische und Analytische Chemie, Johannes Gutenberg-Universitat, 55099 Mainz, Germany" "Phys.Rev.B, 79(2009)064508"
151227 PRB079064508 "Pd2(Zr,Nb)Al" Pd2Zr0.9Nb0.1Al1 Pd 2 Zr 0.9 Nb 0.1 Al 1 2009 Heusler Fm3[-]m A 6.372 K 2.1 2.1 "arc-melting. ANN(1073K,2w, in evacuated quartz tube) - Q to 273 K." Superconductivity in palladium-based Heusler compounds 2009 "Institut fur Anorganische und Analytische Chemie, Johannes Gutenberg-Universitat, 55099 Mainz, Germany" "Phys.Rev.B, 79(2009)064508"
151228 PRB079064508 "Pd2(Hf,Y)Al" Pd2Hf0.75Y0.25Al1 Pd 2 Hf 0.75 Y 0.25 Al 1 2009 Heusler Fm3[-]m A 6.393 K 3.2 3.2 "arc-melting. ANN(1073K,2w, in evacuated quartz tube) - Q to 273 K." Superconductivity in palladium-based Heusler compounds 2009 "Institut fur Anorganische und Analytische Chemie, Johannes Gutenberg-Universitat, 55099 Mainz, Germany" "Phys.Rev.B, 79(2009)064508"
151229 PRB079054521 T = 147 K. LaOFeAs La1Fe1As1O1 La 1 Fe 1 As 1 O 1 1 2009 oxypnictide A 4.0349 8.736 ZrCuSiAs-type K uV/K -28.7 TP151229 "LaAs(SmAs),La2O3(Sm2O3),FeAs,Fe2As,Co3O4" solid state reaction Effects of cobalt doping and phase diagrams of LFe1-xCoxAsO (L=La and Sm) 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 79(2009)054521"
151230 PRB079054521 T = 135 K. "LaO(Fe,Co)As" La1Fe0.99Co0.01As1O1 La 1 Fe 0.99 Co 0.01 As 1 O 1 1 2009 oxypnictide A 4.0341 8.7321 ZrCuSiAs-type K "LaAs(SmAs),La2O3(Sm2O3),FeAs,Fe2As,Co3O4" solid state reaction Effects of cobalt doping and phase diagrams of LFe1-xCoxAsO (L=La and Sm) 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 79(2009)054521"
151231 PRB079054521 Tmin(R shows minimum) = 111 K. "LaO(Fe,Co)As" La1Fe0.975Co0.025As1O1 La 1 Fe 0.975 Co 0.025 As 1 O 1 1 2009 oxypnictide A 4.0355 8.7235 ZrCuSiAs-type K 8.58 11.17 8.58 "LaAs(SmAs),La2O3(Sm2O3),FeAs,Fe2As,Co3O4" solid state reaction Effects of cobalt doping and phase diagrams of LFe1-xCoxAsO (L=La and Sm) 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 79(2009)054521"
151232 PRB079054521 Tmin(R shows minimum) = 89.5 K. "LaO(Fe,Co)As" La1Fe0.95Co0.05As1O1 La 1 Fe 0.95 Co 0.05 As 1 O 1 1 2009 oxypnictide A 4.0343 8.7238 ZrCuSiAs-type K 13.02 12.84 13.02 TC151232 uV/K -60.6 TP151232 "LaAs(SmAs),La2O3(Sm2O3),FeAs,Fe2As,Co3O4" solid state reaction Effects of cobalt doping and phase diagrams of LFe1-xCoxAsO (L=La and Sm) 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 79(2009)054521"
151233 PRB079054521 Tmin(R shows minimum) = 51.4 K. "LaO(Fe,Co)As" La1Fe0.925Co0.075As1O1 La 1 Fe 0.925 Co 0.075 As 1 O 1 1 2009 oxypnictide A 4.0345 8.7152 ZrCuSiAs-type K 12.66 12.48 12.66 "LaAs(SmAs),La2O3(Sm2O3),FeAs,Fe2As,Co3O4" solid state reaction Effects of cobalt doping and phase diagrams of LFe1-xCoxAsO (L=La and Sm) 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 79(2009)054521"
151234 PRB079054521 Tmin(R shows minimum) = 40.0 K. "LaO(Fe,Co)As" La1Fe0.9Co0.1As1O1 La 1 Fe 0.9 Co 0.1 As 1 O 1 1 2009 oxypnictide A 4.0353 8.7254 ZrCuSiAs-type K 11.02 10.87 11.02 TC151232 uV/K -73.4 TP151234 "LaAs(SmAs),La2O3(Sm2O3),FeAs,Fe2As,Co3O4" solid state reaction Effects of cobalt doping and phase diagrams of LFe1-xCoxAsO (L=La and Sm) 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 79(2009)054521"
151235 PRB079054521 Tmin(R shows minimum) = 35.3 K. "LaO(Fe,Co)As" La1Fe0.875Co0.125As1O1 La 1 Fe 0.875 Co 0.125 As 1 O 1 1 2009 oxypnictide A 4.0351 8.7075 ZrCuSiAs-type K 6.6 6.97 6.6 "LaAs(SmAs),La2O3(Sm2O3),FeAs,Fe2As,Co3O4" solid state reaction Effects of cobalt doping and phase diagrams of LFe1-xCoxAsO (L=La and Sm) 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 79(2009)054521"
151236 PRB079054521 Tmin(R shows minimum) = 18.4 K. "LaO(Fe,Co)As" La1Fe0.85Co0.15As1O1 La 1 Fe 0.85 Co 0.15 As 1 O 1 1 2009 oxypnictide A 4.0351 8.6924 ZrCuSiAs-type K 1.8 "LaAs(SmAs),La2O3(Sm2O3),FeAs,Fe2As,Co3O4" solid state reaction Effects of cobalt doping and phase diagrams of LFe1-xCoxAsO (L=La and Sm) 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 79(2009)054521"
151237 PRB079054521 Tmin(R shows minimum) = 20.3 K. "LaO(Fe,Co)As" La1Fe0.8Co0.2As1O1 La 1 Fe 0.8 Co 0.2 As 1 O 1 1 2009 oxypnictide A 4.0343 8.6767 ZrCuSiAs-type K 1.8 "LaAs(SmAs),La2O3(Sm2O3),FeAs,Fe2As,Co3O4" solid state reaction Effects of cobalt doping and phase diagrams of LFe1-xCoxAsO (L=La and Sm) 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 79(2009)054521"
151238 PRB079054521 T = 93.1 K. Tmin(R shows minimum) = 196.7 K. "SmO(Fe,Co)As" Sm1Fe0.975Co0.025As1O1 Sm 1 Fe 0.975 Co 0.025 As 1 O 1 1 2009 oxypnictide A 3.9385 8.4837 ZrCuSiAs-type K 1.8 "LaAs(SmAs),La2O3(Sm2O3),FeAs,Fe2As,Co3O4" solid state reaction Effects of cobalt doping and phase diagrams of LFe1-xCoxAsO (L=La and Sm) 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 79(2009)054521"
151239 PRB079054521 T = 42.8 K. Tmin(R shows minimum) = 174.3 K. "SmO(Fe,Co)As" Sm1Fe0.95Co0.05As1O1 Sm 1 Fe 0.95 Co 0.05 As 1 O 1 1 2009 oxypnictide A 3.939 8.4725 ZrCuSiAs-type K 5.13 5.13 uV/K -35 TP151239 "LaAs(SmAs),La2O3(Sm2O3),FeAs,Fe2As,Co3O4" solid state reaction Effects of cobalt doping and phase diagrams of LFe1-xCoxAsO (L=La and Sm) 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 79(2009)054521"
151240 PRB079054521 Tmin(R shows minimum) = 143.8 K. "SmO(Fe,Co)As" Sm1Fe0.925Co0.075As1O1 Sm 1 Fe 0.925 Co 0.075 As 1 O 1 1 2009 oxypnictide A 3.9396 8.4686 ZrCuSiAs-type K 15 15 "LaAs(SmAs),La2O3(Sm2O3),FeAs,Fe2As,Co3O4" solid state reaction Effects of cobalt doping and phase diagrams of LFe1-xCoxAsO (L=La and Sm) 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 79(2009)054521"
151241 PRB079054521 Tmin(R shows minimum) = 117.5 K. "SmO(Fe,Co)As" Sm1Fe0.9Co0.1As1O1 Sm 1 Fe 0.9 Co 0.1 As 1 O 1 1 2009 oxypnictide A 3.9397 8.4668 ZrCuSiAs-type K 17.3 17.3 uV/K -51.5 TP151241 "LaAs(SmAs),La2O3(Sm2O3),FeAs,Fe2As,Co3O4" solid state reaction Effects of cobalt doping and phase diagrams of LFe1-xCoxAsO (L=La and Sm) 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 79(2009)054521"
151242 PRB079054521 Tmin(R shows minimum) = 52.4 K. "SmO(Fe,Co)As" Sm1Fe0.875Co0.125As1O1 Sm 1 Fe 0.875 Co 0.125 As 1 O 1 1 2009 oxypnictide A 3.9391 8.4558 ZrCuSiAs-type K 15.8 15.8 "LaAs(SmAs),La2O3(Sm2O3),FeAs,Fe2As,Co3O4" solid state reaction Effects of cobalt doping and phase diagrams of LFe1-xCoxAsO (L=La and Sm) 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 79(2009)054521"
151243 PRB079054521 "SmO(Fe,Co)As" Sm1Fe0.85Co0.15As1O1 Sm 1 Fe 0.85 Co 0.15 As 1 O 1 1 2009 oxypnictide A 3.9391 8.4459 ZrCuSiAs-type K 11.75 11.75 "LaAs(SmAs),La2O3(Sm2O3),FeAs,Fe2As,Co3O4" solid state reaction Effects of cobalt doping and phase diagrams of LFe1-xCoxAsO (L=La and Sm) 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 79(2009)054521"
151244 PRB079054521 Tmin(R shows minimum) = 17.4 K. "SmO(Fe,Co)As" Sm1Fe0.8Co0.2As1O1 Sm 1 Fe 0.8 Co 0.2 As 1 O 1 1 2009 oxypnictide A 3.9393 8.4334 ZrCuSiAs-type K 3.79 3.79 uV/K -43.8 TP151244 "LaAs(SmAs),La2O3(Sm2O3),FeAs,Fe2As,Co3O4" solid state reaction Effects of cobalt doping and phase diagrams of LFe1-xCoxAsO (L=La and Sm) 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 79(2009)054521"
151245 PRB079054521 Tmin(R shows minimum) = 14.1 K. "SmO(Fe,Co)As" Sm1Fe0.775Co0.225As1O1 Sm 1 Fe 0.775 Co 0.225 As 1 O 1 1 2009 oxypnictide A 3.9393 8.4256 ZrCuSiAs-type K 1.8 "LaAs(SmAs),La2O3(Sm2O3),FeAs,Fe2As,Co3O4" solid state reaction Effects of cobalt doping and phase diagrams of LFe1-xCoxAsO (L=La and Sm) 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 79(2009)054521"
151246 PRB079054521 Tmin(R shows minimum) = 13.0 K. "SmO(Fe,Co)As" Sm1Fe0.75Co0.25As1O1 Sm 1 Fe 0.75 Co 0.25 As 1 O 1 1 2009 oxypnictide A 3.9399 8.4203 ZrCuSiAs-type K 1.8 "LaAs(SmAs),La2O3(Sm2O3),FeAs,Fe2As,Co3O4" solid state reaction Effects of cobalt doping and phase diagrams of LFe1-xCoxAsO (L=La and Sm) 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 79(2009)054521"
151247 PRB079054521 Tmin(R shows minimum) = 16.1 K. "SmO(Fe,Co)As" Sm1Fe0.7Co0.3As1O1 Sm 1 Fe 0.7 Co 0.3 As 1 O 1 1 2009 oxypnictide A 3.9401 8.4102 ZrCuSiAs-type K 1.8 "LaAs(SmAs),La2O3(Sm2O3),FeAs,Fe2As,Co3O4" solid state reaction Effects of cobalt doping and phase diagrams of LFe1-xCoxAsO (L=La and Sm) 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 79(2009)054521"
151249 PRB079064508 "Pd2(Hf,Y)Al" Pd2Hf0.5Y0.5Al1 Pd 2 Hf 0.5 Y 0.5 Al 1 2009 Heusler Fm3[-]m A 6.404 K 2.9 2.9 "arc-melting. ANN(1073K,2w, in evacuated quartz tube) - Q to 273 K." Superconductivity in palladium-based Heusler compounds 2009 "Institut fur Anorganische und Analytische Chemie, Johannes Gutenberg-Universitat, 55099 Mainz, Germany" "Phys.Rev.B, 79(2009)064508"
151250 PRB079024520 Figure contains T values which are structural phase transition. T = 60.8 K. (dC/gamma*Tc) = 0.615. "(Sn,In)Te" Sn0.979In0.021Te1 Sn 0.979 In 0.021 Te 1 3 2009 K 0.936 0.855 0.936 mJ/mol.K2 0.964 "starting materials(Sn:In:Te=85(1-x):85x:15) - sealed in quartz (vac) - heat(725C) - cool to 400C(2C/h) - (sn rich flux decanted) - ANN(550C,48h)" Enhanced superconducting pairing interaction in indium-doped tin telluride 2009 "Department of Applied Physics and Geballe Laboratory for Advanced Materials, Stanford University, Stanford, California 94305, USA" "Phys.Rev.B, 79(2009)024520"
151251 PRB079024520 "(dC/gamma*Tc) = 1.039, 1.311." "(Sn,In)Te" Sn0.956In0.044Te1 Sn 0.956 In 0.044 Te 1 3 2009 K 1.017 1.017 mJ/mol.K2 1.035 "starting materials(Sn:In:Te=85(1-x):85x:15) - sealed in quartz (vac) - heat(725C) - cool to 400C(2C/h) - (sn rich flux decanted) - ANN(550C,48h)" Enhanced superconducting pairing interaction in indium-doped tin telluride 2009 "Department of Applied Physics and Geballe Laboratory for Advanced Materials, Stanford University, Stanford, California 94305, USA" "Phys.Rev.B, 79(2009)024520"
151252 PRB079024520 (dC/gamma*Tc) = 1.186. "(Sn,In)Te" Sn0.949In0.051Te1 Sn 0.949 In 0.051 Te 1 3 2009 K 1.653 1.121 1.653 mJ/mol.K2 1.027 "starting materials(Sn:In:Te=85(1-x):85x:15) - sealed in quartz (vac) - heat(725C) - cool to 400C(2C/h) - (sn rich flux decanted) - ANN(550C,48h)" Enhanced superconducting pairing interaction in indium-doped tin telluride 2009 "Department of Applied Physics and Geballe Laboratory for Advanced Materials, Stanford University, Stanford, California 94305, USA" "Phys.Rev.B, 79(2009)024520"
151253 PRB079024520 "(Sn,In)Te" Sn0.901In0.099Te1 Sn 0.901 In 0.099 Te 1 3 2009 K 1.746 1.746 "starting materials(Sn:In:Te=85(1-x):85x:15) - sealed in quartz (vac) - heat(725C) - cool to 400C(2C/h) - (sn rich flux decanted) - ANN(550C,48h)" Enhanced superconducting pairing interaction in indium-doped tin telluride 2009 "Department of Applied Physics and Geballe Laboratory for Advanced Materials, Stanford University, Stanford, California 94305, USA" "Phys.Rev.B, 79(2009)024520"
151254 PRB079064520 Hc1 obtained by measuring local magnetization and extraporation to 0 K. Anisotropy = 2.5 at low temperature. PrOFeAs Pr1Fe1As1O1-z Pr 1 Fe 1 As 1 O 1-z 3 2009 oxypnictide K 34 34 Oe "M-H curve, extraporation" 45 102 HC151254 A 2800 "PrAs,Fe,Fe2O3" "mixture(Pr:Fe:As:O=1:1:1:0.6) - pellet - heat(1300C,2h,P=2 GPa, in BN crucible)" Lower critical fields of superconducting PrFeAsO1-y single crystals 2009 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 79(2009)064520"
151255 PHC4690256 intercalation of In to Nb2C. lattice term coeffic. in C (beta) = 0.54 mJ/mol.K4. Nb2InC Nb2In1C1 Nb 2 In 1 C 1 2009 Cr2AlC A 3.172 14.37 K 7.5 7.5 7.5 33 Oe M-H curve 90 1.8 A 2710 mJ/mol.K2 12.6 SP-heat 154 SP-heat "graphite,Nb,In" "mixture(graphite,Nb,In powder) - sealed in quartz ampoule - heat(1000C,48h) pellet - SIN(1000C,120h)" Superconductivity in Nb2InC 2009 "Departamento de Engenharia de Materiais, Escola de Engenharia de Lorena ? USP, P.O. Box 116, Lorena, SP 12600-970, Brazil" "Physica C, 469(2009)256"
151256 SCI3191506 "P-induced SC. Tc(max) = 17.5 K at 96 GPa. molecular structure of SiH4 is SnBr4-like. (melting point = 88K, boiling point = 161 K from data book)" SiH4 H4Si1 H 4 Si 1 2009 K 17 0 17 MTC151256 Superconductivity in Hydrogen Dominant Materials: Silane 2009 "Max Planck Institute fur Chemie, Postfach 3060, 55020 Mainz, Germany. 2Department of Physics and Engineering Physics, University of Saskatchewan, Saskatoon, S7N 5E2, Canada" Science 319(2009)1506
151257 PHC4690300 not SC. R-anomaly at 150 K. "(La,Na)(O,F)FeAs" La0.9Na0.1Fe1As1F0.1O0.9 La 0.9 Na 0.1 Fe 1 As 1 F 0.1 O 0.9 2009 A 4.031 8.7381 K "La2O3,NaF,La,FeAs" "mixture - (wrapped in Ta-foil and sealed in evacuated silica) - heat(800C,12h + 950C,24h) -pellet - (wrapped in Ta-foil and sealed in evacuated silica) - heat(1080C,48h)" Compositionally controlled semimetal to superconducting transition in NaF doped LaOFeAs: Enhancement in Tc due to Na-doping 2009 "Department of Chemistry, Indian Institute of Technology, New Delhi 110 016, India" "Physica C, 469(2009)300"
151258 PHC4690300 RRR = 7.27. R = A + B*T^2 for 45 < T < 151 K. "(La,Na)(O,F)FeAs" La0.85Na0.15Fe1As1F0.15O0.85 La 0.85 Na 0.15 Fe 1 As 1 F 0.15 O 0.85 2009 A 4.0252 8.7208 K 30.9 28 28 T "resistivity, WHH" 63.5 T/K resistivity 2.97 HC151258 "La2O3,NaF,La,FeAs" "mixture - (wrapped in Ta-foil and sealed in evacuated silica) - heat(800C,12h + 950C,24h) -pellet - (wrapped in Ta-foil and sealed in evacuated silica) - heat(1080C,48h)" Compositionally controlled semimetal to superconducting transition in NaF doped LaOFeAs: Enhancement in Tc due to Na-doping 2009 "Department of Chemistry, Indian Institute of Technology, New Delhi 110 016, India" "Physica C, 469(2009)300"
151259 PHC4690300 RRR = 13.79. "(La,Na)(O,F)FeAs" La0.8Na0.2Fe1As1F0.2O0.8 La 0.8 Na 0.2 Fe 1 As 1 F 0.2 O 0.8 2009 A 4.0232 8.6919 K 23.02 23.02 T "resistivity, WHH" 19 T/K resistivity 1.18 uV/K -34 TP151259 "La2O3,NaF,La,FeAs" "mixture - (wrapped in Ta-foil and sealed in evacuated silica) - heat(800C,12h + 950C,24h) -pellet - (wrapped in Ta-foil and sealed in evacuated silica) - heat(1080C,48h)" Compositionally controlled semimetal to superconducting transition in NaF doped LaOFeAs: Enhancement in Tc due to Na-doping 2009 "Department of Chemistry, Indian Institute of Technology, New Delhi 110 016, India" "Physica C, 469(2009)300"
151260 PHC4690259 (dTc/dP) is the uniaxial pressure (P//c) dependence obtained from thermal expansion measurements. T = 32 K from thermal expansion measurements. 2H-NbSe2 Nb1Se2 Nb 1 Se 2 3 2009 2H-NbSe2 K 7.2 0.02 7.2 K/GPa 1.45 T/K SP-heat 0.85 MHC151260 mJ/mol.K 206 Chemical transport method. Thermal gradient of 1000 - 900C. "Heat capacity, thermal expansion and pressure derivative of critical temperature at the superconducting and charge density wave (CDW) transitions in NbSe2" 2009 "B.I. Verkin Institute for Low Temperature Physics NASU, Kharkov, Ukraine" "Physica C, 469(2009)259"
151261 PRB079094505 SP-heat measured at various H. thermodynamic Hc(0) = 0.9 T using BCS. Hc2-anisotropy = 2.6. (dC/Tc) = 0.1 J/mol.K2. "(Ba,K)Fe2As2" Ba0.6K0.4Fe2As2 Ba 0.6 K 0.4 Fe 2 As 2 3 2009 ThCr2Si2 K 34.6 34.6 T "SP-heat, WHH" 415 155 T/K SP-heat 17.4 6.5 MHC151261 A from Hc2(0) 12 4.5 A 1250 See Supercond.Sci.Technol. 2(2008)125014 Anisotropic phase diagram and strong coupling effects in Ba1-xKxFe2As2 from specific-heat measurements 2009 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439, USA" "Phys.Rev.B, 79(2009)094505"
151262 PRB079094507 optimally doped sample. Hc2 measured using tunnel diode resonator method (TDR). Hc2-anisotropy = 2.1 - 2.6 "Ba(Fe,Co)2As2" Ba1Fe1.852Co0.148As2 Ba 1 Fe 1.852 Co 0.148 As 2 3 2009 ThCr2Si2 K 23 23 T/K TDR 4.56 1.87 MHC151262 flux-method using (FeAs/CoAS) flux. Starting material (Ba:FeAs:CoAs = 1:3.6:0.4) "Anisotropy of the iron pnictide superconductor Ba(Fe1-xCox)2As2 (x=0.074, Tc=23 K)" 2009 "Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 79(2009)094507"
151263 PRB079094508 tetra-to-ortho transition at 136 K. SUS= SUS = 6.7E-4 cm3/mol. R = 0.50 & R = 16.44 mOhm.cm at 300K. RRR = 4. SP-fitting for T>150K. BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2009 132 ThCr2Si2 A 3.9635 13.022 K 1.8 mJ/mol.K2 6.1 SP-heat 260 SP-heat "(Ba:FeAs = 1:5) - heat(1180C,8h) - cool to 1090C(4C/h) - decant at 1090C." "Structure and anisotropic properties of BaFe2-xNixAs2 (x=0, 1, and 2) single crystals" 2009 "Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 79(2009)094508"
151264 PRB079094508 R = 0.08 & R = 2.25 mOhm.cm at 300K. RRR = 12 BaFeNiAs2 Ba1Fe1Ni1As2 Ba 1 Fe 1 Ni 1 As 2 3 2009 ThCr2Si2 I4/mmm A 4.0002 12.6767 K 1.8 "(Ba:NiAs = 1:4) - heat(1180C,10h,in alumina) - cool to 1025C(3C/h)" "Structure and anisotropic properties of BaFe2-xNixAs2 (x=0, 1, and 2) single crystals" 2009 "Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 79(2009)094508"
151265 PRB079094508 tetra-to-triclinic transition below 130 K. R = 0.07 & R = 4.69 mOhm.cm at 300K. RRR = 8. (dC/gamma*Tc) = 1.38 BaNi2As2 Ba1Ni2As2 Ba 1 Ni 2 As 2 3 2009 ThCr2Si2 A 4.1441 11.6325 K 0.69 1.5 1.095 T "SP-heat, WHH" 0.069 T/K SP-heat 0.142 A from Hc2(0) 691 mJ/mol.K 12.6 mJ/mol.K2 13.2 SP-heat 250 SP-heat FeAs:NiAs = 1:1 "Structure and anisotropic properties of BaFe2-xNixAs2 (x=0, 1, and 2) single crystals" 2009 "Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 79(2009)094508"
151266 PRB079094521 not bulk SC. Fe1.06Te0.68Se0.32 from XDS analysis. "Fe(Te,Se)" Fe1Te0.67Se0.33 Fe 1 Te 0.67 Se 0.33 3 2009 3.803 6.118 K 14 14 mJ/mol.K2 39 SP-heat 174 SP-heat "modified Bridgeman method. melt(1070C,36h) - cool to (350-750C) with a rate(3-6) C/h depending on Se composition." Bulk superconductivity at 14 K in single crystals of Fe1+yTexSe1-x 2009 "Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 79(2009)094521"
151267 PRB079094521 Fe1.00Te0.54Se0.46 from XDS analysis. bulk SC ( large diamagnetic screening). gap (=1.3 kTc) estimasted using SP-SP(normal state of #151266 sample). "Fe(Te,Se)" Fe1Te0.5Se0.5 Fe 1 Te 0.5 Se 0.5 3 2009 3.815 6.069 K 14 14 14 2.6 14 "modified Bridgeman method. melt(1070C,36h) - cool to (350-750C) with a rate(3-6) C/h depending on Se composition." Bulk superconductivity at 14 K in single crystals of Fe1+yTexSe1-x 2009 "Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 79(2009)094521"
151268 NAS10514262 RRR = 6. impurity: beta-phase(NiAs-type). low-temp-phase transition(P4/nmm to P-1) at 105 K. (dC/gamma*Tc) = 0.61. Hc2(T) has (1-t^2) dependence. alpha-FeSe Fe1Se0.88 Fe 1 Se 0.88 2008 PbO P4/nmm A 3.7676 5.4847 alpha-phase K 8 8 8 T resistivity 16.3 MHC151268 A from Hc2(0) 45 mJ/mol.K2 9.17 "mixture(appropriate stoichiometry) - (press to disc) - heat to 700C(100C/h, in evacuated quartz) - SIN(700C,24h) - ANN(400C,36h)" Superconductivity in the PbO-type structure alpha-FeSe 2008 "Institute of Physics, Academia Sinica, Nankang, Taipei 115, Taiwan" "Proc.Nat.Acad.Sci., 105(2008)14262"
151269 PRB079104515 [cohere] calculated asuming anisotropy factor. "Sm(O,F)FeAs" Sm1Fe1As1F0.07O0.93 Sm 1 Fe 1 As 1 F 0.07 O 0.93 2009 oxypnictide K 33 3 33 T/K resistivity 7 A from Hc2(0) 37 5.5 "See Supercond.Sci.Technol., 21(2008)095017." Upper critical field and fluctuation conductivity in the critical regime of doped SmFeAsO 2009 "CNR-INFM-LAMIA, via Dodecaneso 33, 16146 Genova, Italy and Universita di Genova, via Dodecaneso 33, 16146 Genova, Italy" "Phys.Rev.B, 79(2009)104515"
151270 PRB079104515 [cohere] calculated asuming anisotropy factor. "Sm(O,F)FeAs" Sm1Fe1As1F0.1O0.9 Sm 1 Fe 1 As 1 F 0.1 O 0.9 2009 oxypnictide K 41.5 2 41.5 T/K resistivity 7.5 A from Hc2(0) 32 4.8 "See Supercond.Sci.Technol., 21(2008)095017." Upper critical field and fluctuation conductivity in the critical regime of doped SmFeAsO 2009 "CNR-INFM-LAMIA, via Dodecaneso 33, 16146 Genova, Italy and Universita di Genova, via Dodecaneso 33, 16146 Genova, Italy" "Phys.Rev.B, 79(2009)104515"
151271 PRB079104515 [cohere] calculated asuming anisotropy factor. "Sm(O,F)FeAs" Sm1Fe1As1F0.15O0.85 Sm 1 Fe 1 As 1 F 0.15 O 0.85 2009 oxypnictide K 51.5 2 51.5 T 400 T/K resistivity 12 A from Hc2(0) 23 3.4 "See Supercond.Sci.Technol., 21(2008)095017." Upper critical field and fluctuation conductivity in the critical regime of doped SmFeAsO 2009 "CNR-INFM-LAMIA, via Dodecaneso 33, 16146 Genova, Italy and Universita di Genova, via Dodecaneso 33, 16146 Genova, Italy" "Phys.Rev.B, 79(2009)104515"
151272 PRB079104501 "Hc2(0) = 52 T using Hc2(T)=Hc2(0)[(1-t^2)/(1+t^2)] dependence. R = R0 + AT^n where R0=0.306 mOhm.cm, n=2.00." "(Pr,Sr)OFeAs" Pr0.75Sr0.25Fe1As1O1 Pr 0.75 Sr 0.25 Fe 1 As 1 O 1 1 2009 oxypnictide K 16.3 16.3 50 T "resistivity, WHH" 45.1 T/K resistivity 4 cm3/C -6.50E-10 RH151272 "precursors(PrAs,SrAs) firstly synthesized. mixture(PrAs,SrAs,Fe,Fe2O3) - pellet - (sealed in quartz tube(20% Ar) - heat to 1150C (120C/h) - react(1150C,60h) cool to RT." "Synthesis, structural, and transport properties of the hole-doped superconductor Pr1-xSrxFeAsO" 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, People's Republic of China" "Phys.Rev.B, 79(2009)104501"
151273 PLA3731482 "Ba(Pb,Bi)O3" Ba1Pb0.75Bi0.253 Ba 1 Pb 0.75 Bi 0.25 O 3 2009 BPBO perovskite K 12.5 12.5 "precursor(BaPb0.75-xBi0.25O3) by solid state reaction. mixture(precursor:HgO = 1:x) - heat(800C,48h) - slow cool to RT - add(30% excess HgO) ANN(500C,in flowing Ar(4h) and O2(20h))" Superconductivity in Hg-substituted BaPb0.75Bi0.25O3 2009 "Key Laboratory of Advanced Technologies of Materials (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Phys.Lett.A, 373(2009)1482"
151274 PLA3731482 "Ba(Pb,Hg,Bi)O3" Ba1Pb0.65Hg0.1Bi0.25O3 Ba 1 Pb 0.65 Hg 0.1 Bi 0.25 O 3 2009 BPBO K 10 10 MTC151274 "precursor(BaPb0.75-xBi0.25O3) by solid state reaction. mixture(precursor:HgO = 1:x) - heat(800C,48h) - slow cool to RT - add(30% excess HgO) ANN(500C,in flowing Ar(4h) and O2(20h))" Superconductivity in Hg-substituted BaPb0.75Bi0.25O3 2009 "Key Laboratory of Advanced Technologies of Materials (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Phys.Lett.A, 373(2009)1482"
151275 PLA3731482 "Ba(Pb,Hg,Bi)O3" Ba1Pb0.55Hg0.2Bi0.25O3 Ba 1 Pb 0.55 Hg 0.2 Bi 0.25 O 3 2009 BPBO distorted perovskite K 3.83 3.83 "precursor(BaPb0.75-xBi0.25O3) by solid state reaction. mixture(precursor:HgO = 1:x) - heat(800C,48h) - slow cool to RT - add(30% excess HgO) ANN(500C,in flowing Ar(4h) and O2(20h))" Superconductivity in Hg-substituted BaPb0.75Bi0.25O3 2009 "Key Laboratory of Advanced Technologies of Materials (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Phys.Lett.A, 373(2009)1482"
151276 PLA3731482 "Ba(Pb,Hg,Bi)O3" Ba1Pb0.45Hg0.3Bi0.25O3 Ba 1 Pb 0.45 Hg 0.3 Bi 0.25 O 3 2009 BPBO distorted perovskite K 4.42 4.42 "precursor(BaPb0.75-xBi0.25O3) by solid state reaction. mixture(precursor:HgO = 1:x) - heat(800C,48h) - slow cool to RT - add(30% excess HgO) ANN(500C,in flowing Ar(4h) and O2(20h))" Superconductivity in Hg-substituted BaPb0.75Bi0.25O3 2009 "Key Laboratory of Advanced Technologies of Materials (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Phys.Lett.A, 373(2009)1482"
151277 PLA3731482 "Ba(Pb,Hg,Bi)O3" Ba1Pb0.35Hg0.4Bi0.25O3 Ba 1 Pb 0.35 Hg 0.4 Bi 0.25 O 3 2009 BPBO perovskite K 10.7 10.7 MTC151274 "precursor(BaPb0.75-xBi0.25O3) by solid state reaction. mixture(precursor:HgO = 1:x) - heat(800C,48h) - slow cool to RT - add(30% excess HgO) ANN(500C,in flowing Ar(4h) and O2(20h))" Superconductivity in Hg-substituted BaPb0.75Bi0.25O3 2009 "Key Laboratory of Advanced Technologies of Materials (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Phys.Lett.A, 373(2009)1482"
151278 PRB079104521 composition determined by EDX. "(Ba,Rb,Sn)Fe2As2" Ba0.84Rb0.1Sn0.09Fe2As2 Ba 0.84 Rb 0.1 Sn 0.09 Fe 2 As 2 3 2009 ThCr2Si2 K 22.6 22.6 T "resistivity, WHH" 120 70 T/K resistivity 7.1 4.2 MHC151278 "Ba,Rb,Fe2As,As,Sn" "Sn-flux method(Fe:Sn = 1:24). mixture(in alumina crucible) - heat(850C,3h) - cool to 500C in 50h" Superconductivity at 23 K and low anisotropy in Rb-substituted BaFe2As2 single crystals 2009 "Laboratory for Solid State Physics, ETH Zurich, CH-8093 Zurich, Switzerland" "Phys.Rev.B, 79(2009)104521"
151279 PHC4690297 impurity: beta-FeSe "alpha-Fe(Se,S)" Fe1Se0.9S0.1 Fe 1 Se 0.9 S 0.1 2009 PbO P4/nmm A 3.758 5.468 alpha-phase K 9.94 9.94 "Fe,S,Se" "mixture - sealed in quartz tube - SIN(700C,24h) - reground - pellet - SIN(700C,24h)" Sulfur substitution and pressure effect on superconductivity of alpha-FeSe 2009 "National High Magnetic Field Laboratory, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Physica C, 469(2009)297"
151280 PHC4690297 "alpha-Fe(Se,S)" Fe1Se0.8S0.2 Fe 1 Se 0.8 S 0.2 2009 PbO P4/nmm A 3.751 5.453 alpha-phase K 9.23 9.23 "Fe,S,Se" "mixture - sealed in quartz tube - SIN(700C,24h) - reground - pellet - SIN(700C,24h)" Sulfur substitution and pressure effect on superconductivity of alpha-FeSe 2009 "National High Magnetic Field Laboratory, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Physica C, 469(2009)297"
151281 PRB079134507 RRR=40. Rn = 1.8 uOhm.cm(4.2K). SC properties from analysis of SP-heat data. (dC/gamma*Tc) = 1.27. G-L parameter = 2.1. beta(lattice term in SP) = 0.23 mJ/mol.K4. SrNi2P2 Sr1Ni2P2 Sr 1 Ni 2 P 2 3 2009 AB2C2 ThCr2Si2 I4/mmm A 3.951 11.853 10.432 K 1.415 1.415 MTC151281 Oe from Hc(0) 88 T "SP-heat, WHH" 0.039 T/K SP-heat 0.039 A from Hc2 920 A 1935 mJ/mol.K2 15 SP-heat 348 SP-heat mOhm.cm 0.042 0.068 "Sn-flux method. (Sr:Ni:P:Sn = 1.3:2:2.3:6) - (alumina crucible) - (sealed in quartz) - heat(600C,4h + 900C,200h) - cool to 600C(3.5C/h)" Superconductivity and the effects of pressure and structure in single-crystalline SrNi2P2 2009 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 79(2009)134507"
151282 PRB079113107 not SC upto 23 kbar. RRR = 1.6. SP-heat measured. [gamma] using data below 2 K. PrRh2B2C Pr1Rh2B2C1 Pr 1 Rh 2 B 2 C 1 1 2009 myuB/mol 3.59 -3.9 ABC2D2 2 LuNi2B2C I4/mmm A 3.855 10.257 K mJ/mol.K2 250 SP-heat "arc-melting, ANN(1200C,1w)" Heavy fermion behavior in PrRh2B2C: Excitonic mass enhancement 2009 "Department of Physics, Indian Institute of Technology, Kanpur 208016, India" "Phys.Rev.B, 79(2009)113107"
151283 PRL102137002 "RRR = 5.2. small R-peak appears at 16 K, which comes from FM impurity." "EuFe2(As,P)2" Eu1Fe2As1.4P0.6 Eu 1 Fe 2 As 1.4 P 0.6 1 2009 emu/mol 0.044 emu.K/mol 8.1 myuB/mol 8 22 AB2C2 ThCr2Si2 I4/mmm A 3.889 11.831 K 26 26 T "resistivity, linear approx." 30 T/K resistivity 1.18 MHC151283 mJ/mol.K 300 345 "SP-heat, T>100K" uV/K MTP151283 "EuAs,Fe2As,Fe2P" 1 "(mixture powder) - pellet - (sealed in evacuated quartz) - ANN(1273K,20h) - cool to RT" Superconductivity Induced by Phosphorus Doping and Its Coexistence with Ferromagnetism in EuFe2(As0.7P0.3)2 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.Lett., 102(2009)137002"
151284 PRL101037001 Cd-concentration shows actual values (=0.11*nominal values) by wavelength dispersive spectroscopy. Tc by SP-heat. "CeCo(In,Cd)5" Ce1Co1In4.9945Cd0.0055 Ce 1 Co 1 In 4.9945 Cd 0.0055 3 2008 ABC5 HoCoGa5 K 2.222 2.222 MTC151284 In-flux method Anisotropic Effect of Cd and Hg Doping on the Pauli Limited Superconductor CeCoIn5 2008 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 101(2008)037001"
151285 PRL101037001 Cd-concentration shows actual values (=0.11*nominal values) by wavelength dispersive spectroscopy. Tc by SP-heat. "CeCo(In,Cd)5" Ce1Co1In4.9835Cd0.0165 Ce 1 Co 1 In 4.9835 Cd 0.0165 3 2008 ABC5 HoCoGa5 K 2.15 2.15 MTC151284 In-flux method Anisotropic Effect of Cd and Hg Doping on the Pauli Limited Superconductor CeCoIn5 2008 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 101(2008)037001"
151286 PRL101037001 Hg-concentration shows actual values (=0.11*nominal values) by wavelength dispersive spectroscopy. Tc by SP-heat. "CeCo(In,Hg)5" Ce1Co1In4.9992Hg0.0008 Ce 1 Co 1 In 4.9992 Hg 0.0008 3 2008 ABC5 HoCoGa5 K 2.254 2.254 In-flux method Anisotropic Effect of Cd and Hg Doping on the Pauli Limited Superconductor CeCoIn5 2008 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 101(2008)037001"
151287 PRL101037001 Hg-concentration shows actual values (=0.11*nominal values) by wavelength dispersive spectroscopy. Tc by SP-heat. "CeCo(In,Hg)5" Ce1Co1In4.9976Hg0.0024 Ce 1 Co 1 In 4.9976 Hg 0.0024 3 2008 ABC5 HoCoGa5 K 2.252 2.252 In-flux method Anisotropic Effect of Cd and Hg Doping on the Pauli Limited Superconductor CeCoIn5 2008 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 101(2008)037001"
151288 PRB079140505 "Boron-nanowire (BNW): 200 < diameter < 500 nm, 20 < length < 50 um. P-induce SC. P = 84 GPa. Tc and (dTc/dP) at 84 GPa. Tc(max) = 5.56 K at 240 GPa." B-nanowire B105 B 105 2009 A BNW "(beta)-(gamma)-B, rhombohedral B105" K 1.5 1.5 MTC151288 K/GPa 0.02 CVD method Pressure-induced superconducting state in crystalline boron nanowires 2009 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" "Phys.Rev.B, 79(2009)140505"
151289 PRB079140501 [penet] obtained by data analysis of radio frequency TDO results using two gap model ( higher and lower gaps are 1.7 and 1.01 kTc. "Sm(O,F)FeAs" Sm1Fe1As1F0.2O0.8 Sm 1 Fe 1 As 1 F 0.2 O 0.8 3 2009 ABCD oxypnictide K 45 45 A TDO 1400 kTc 1.7 3.4 high-P synthesis using NaCl/KCl flux. Magnetic penetration depth of single-crystalline SmFeAsO1-xFy 2009 "H. H. Wills Physics Laboratory, University of Bristol, Tyndall Avenue, BS8 1TL, United Kingdom" "Phys.Rev.B, 79(2009)140501"
151290 PRB069184411 not SC. RRR = 80 at low pressure. NpCoGa5 Np1Co1Ga5 Np 1 Co 1 Ga 5 1 2004 myuB/Np 0.34 42 47 ABC5 HoCoGa5 P4/mmm A 4.2377 6.7871 K 0.4 mJ/mol.K2 64 SP-heat arc-melting Magnetic and electronic properties of the antiferromagnet NpCoGa5 2004 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 69(2004)184411"
151291 JNM3850011 not SC. PuPd5Al2 Pu1Pd5Al2 Pu 1 Pd 5 Al 2 1 2009 emu/mol 0.00069 myuB/mol 1.05 -12.5 5.6 AB2C5 ZrNi2Al5 I4/nmm A 4.1302 14.8428 K 2 "Pd(4N),Al(5N),Pu(3N)" arc-melting Crystal structure and physical properties of PuPd5Al2 2009 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, 76125 Karlsruhe, Germany" "J.Nuclear Mater., 385(2009)11"
151292 JAC4760519 Tc determined as max-(dR/dT). Tc depends on Li-content. LixNbO2 Li0.5Nb1O2 Li 0.5 Nb 1 O 2 2009 ABC2 NaCoO2 A 2.91 10.502 K 16.4 16.4 84.6 T "resistivity,WHH" 12.1 HC151292 "SIN(1100C,70h) - SIN(1035C,50h) in quartz tube." Structure and electrical characterization of Li1-xNbO2 superconductor with Tc =14-17K 2009 "Key Laboratory of Condition Monitoring and Control for Power Plant Equipment,Ministry of Education, North China Electrical Power University, Beijing 102206, China" "J.Alloy Compd., 476(2009)519"
151293 PRB079144527 Hc2 defined as 0.8Rn. Hc2(0) calculated using two band theory. G-L parameter = 190-270. "La(O,F)FeAs" La1Fe1As1F0.05O0.95 La 1 Fe 1 As 1 F 0.05 O 0.95 2009 ABCD oxypnictide K 25.4 25.4 Oe linear M-H curve 60 T resistivity 121 HC151293 A G-L theory 15 A G-L theory 3600 1 solid state reaction "Doping dependence of the upper critical field and Hall resistivity of LaFeAsO1-xFx (x=0, 0.025, 0.05, 0.07, 0.11, and 0.14)" 2009 "MPA-NHMFL, Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 79(2009)144527"
151294 PRB079144527 Hc2 defined as 0.8Rn. Hc2(0) calculated using two band theory "La(O,F)FeAs" La1Fe1As1F0.07O0.93 La 1 Fe 1 As 1 F 0.07 O 0.93 2009 ABCD oxypnictide K 25.2 25.2 T resistivity 69 HC151294 1 solid state reaction "Doping dependence of the upper critical field and Hall resistivity of LaFeAsO1-xFx (x=0, 0.025, 0.05, 0.07, 0.11, and 0.14)" 2009 "MPA-NHMFL, Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 79(2009)144527"
151295 PRB079144527 Hc2 defined as 0.8Rn. Hc2(0) calculated using two band theory "La(O,F)FeAs" La1Fe1As1F0.11O0.89 La 1 Fe 1 As 1 F 0.11 O 0.89 2009 ABCD oxypnictide K 27.9 27.9 T resistivity 59.5 HC151294 1 solid state reaction "Doping dependence of the upper critical field and Hall resistivity of LaFeAsO1-xFx (x=0, 0.025, 0.05, 0.07, 0.11, and 0.14)" 2009 "MPA-NHMFL, Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 79(2009)144527"
151296 PRB079144527 Hc2 defined as 0.8Rn. Hc2(0) calculated using two band theory "La(O,F)FeAs" La1Fe1As1F0.14O0.86 La 1 Fe 1 As 1 F 0.14 O 0.86 2009 ABCD oxypnictide K 17.8 17.8 T resistivity 37.8 HC151294 1 solid state reaction "Doping dependence of the upper critical field and Hall resistivity of LaFeAsO1-xFx (x=0, 0.025, 0.05, 0.07, 0.11, and 0.14)" 2009 "MPA-NHMFL, Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 79(2009)144527"
151297 JPS078044710 "RRR=3.9 and 3.7, G=L parameter = 25.5 and 21.6 for H//[001] and H//[100], respectively. H// represent [001] direction. (dC/gamma*Tc) = 1.4. Hc(0) = 480 and 520 Oe for H// and H/n, respectively." Ru7B3 Ru7B3 Ru 7 B 3 3 2009 A3B7 Th7Fe3 P6<3>mc 186 A 7.441 4.7 hexagonal K 2.8 2.8 Oe linear M-H curve 53 68 T SP-heat 1.72 1.58 T/K SP-heat 0.782 0.707 MHC151297 A from Hc2 138 144 A "G-L theory, Hc(0)" 3520 3110 meV 0.38 3.3 14 mJ/mol.K2 43.7 SP-heat 640 SP-heat mOhm.cm 0.014 0.026 0.055 0.097 arc-melting (nominal: Ru/B = 2.0). single crystals grown by Czochralski pulling method in tetra-arc-furnace. Superconducting State of the Binary Boride Ru7B3 with the Noncentrosymmetric Crystal Structure 2009 "Department of Physics and Mathematics, Aoyama Gakuin University, 5-10-1 Fuchinobe, Sagamihara, Kanagawa 229-8558" "J.Phys.Soc.Jpn, 78(2009)044710"
151298 JPS078044710 higher Tc due to (maybe) lack of stoichiometry Ru7B3 Ru7B3 Ru 7 B 3 1 2009 A3B7 Th7Fe3 P6<3>mc 186 hexagonal K 3.3 3.3 arc-melting (nominal: Ru/B = 2.0). single crystals grown by Czochralski pulling method in tetra-arc-furnace. Superconducting State of the Binary Boride Ru7B3 with the Noncentrosymmetric Crystal Structure 2009 "Department of Physics and Mathematics, Aoyama Gakuin University, 5-10-1 Fuchinobe, Sagamihara, Kanagawa 229-8558" "J.Phys.Soc.Jpn, 78(2009)044710"
151299 SST022075008 impurity phase: SrFe2P2. Fe-Fe distance = 2.840A. large diamagnetic due to (maybe) porous microstructures. Sr4Sc2O6Fe2P2 Sr4Sc2Fe2P2O6 Sr 4 Sc 2 Fe 2 P 2 O 6 2009 22426 P4/nmm A 4.016 15.543 K 9.8 17 17 17 "FeP,SrO(2N),Sr(2N),Sc2O3(4N)" 1 "mixture - heat(900-1200, 12-40h, in evacuated quartz ampoule)" Superconductivity at 17K in (Fe2P2)(Sr4Sc2O6): a new superconducting layered oxypnictides with thick perovskite oxide layer 2009 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Supercond,Sci.Technol., 22(2009)075008"
151300 PRB079220512 "impurity phases: FeAs, Sr2VO4. Hc2 and Hirr defined as 0.9Rn and 0.1Rn, respectively." Sr4V2O6Fe2As2 Sr4V2Fe2As2O6 Sr 4 V 2 Fe 2 As 2 O 6 2009 22426 P4/nmm A 3.9302 15.6664 K 31 37.2 31.5 31.5 T "resistivity, 0.9Rn" 302 T/K "resistivity, 0.9Rn" 11.3 HC151300 m3/C 9 RH151300 "SrAs,V2O5,SrO,Fe,Sr" 1 "mixture - sealed in silica tube(0.2bar Ar) - heat(1150C,40h) - slow cool to RT" Transition of stoichiometric Sr2VO3FeAs to a superconducting state at 37.2 K 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P. O. Box 603, Beijing 100190, China" cond-mat/0904.1732
151301 SSC1490899 Hc2(WHH) = 5.4 T. "Li2(Pd,Ni)3B" Li2Pd2.85Ni0.15B1 Li 2 Pd 2.85 Ni 0.15 B 1 2009 AB2C3 P4<2>32 K 7.91 7.91 T "resistivity, linear approx." 7.8 T/K resistivity 1.02 A 78 Upper critical field and thermopower studies in Ni substituted Li2Pd3B superconductor 2009 "Materials Science Group, Indira Gandhi Centre for Atomic Research, Kalpakkam - 603 102, Tamilnadu, India" "Solid State Commun., 149(2009)899"
151302 SSC1490899 Hc2(WHH) = 5.3 T. "Li2(Pd,Ni)3B" Li2Pd2.7Ni0.3B1 Li 2 Pd 2.7 Ni 0.3 B 1 2009 AB2C3 P4<2>32 K 7.4 7.4 T "resistivity, linear approx." 7.5 T/K resistivity 1.02 A 79 Upper critical field and thermopower studies in Ni substituted Li2Pd3B superconductor 2009 "Materials Science Group, Indira Gandhi Centre for Atomic Research, Kalpakkam - 603 102, Tamilnadu, India" "Solid State Commun., 149(2009)899"
151303 SSC1490899 Hc2(WHH) = 4.8 T. "Li2(Pd,Ni)3B" Li2Pd2.4Ni0.6B1 Li 2 Pd 2.4 Ni 0.6 B 1 2009 AB2C3 P4<2>32 K 6.91 6.91 T "resistivity, linear approx." 6.9 T/K resistivity 1.02 A 83 Upper critical field and thermopower studies in Ni substituted Li2Pd3B superconductor 2009 "Materials Science Group, Indira Gandhi Centre for Atomic Research, Kalpakkam - 603 102, Tamilnadu, India" "Solid State Commun., 149(2009)899"
151304 1257 Re1-xWx Re0.999W0.001 Re 0.999 W 0.001 1970 bcc K 1.723 1.723 MTC151304 Study of fermi-surface topology changes in rhenium and dilute Re solid solutions from Tc measurements at high pressure 1970 "PHYS.REV.B,1(1970)214"
151305 1257 Re1-xMox Re0.9993Mo0.0007 Re 0.9993 Mo 0.0007 1970 bcc K 1.694 1.694 MTC151305 Study of fermi-surface topology changes in rhenium and dilute Re solid solutions from Tc measurements at high pressure 1970 "PHYS.REV.B,1(1970)214"
151306 1257 Re1-xOsx Re0.9467Os0.0533 Re 0.9467 Os 0.0533 1970 bcc K 1.934 1.934 MTC151306 Study of fermi-surface topology changes in rhenium and dilute Re solid solutions from Tc measurements at high pressure 1970 "PHYS.REV.B,1(1970)214"
151307 658 Tc measured upto P(max) = 0.9 GPa. La7Rh3 La7Rh3 La 7 Rh 3 1967 A3B7 K 2.58 2.58 K/GPa -0.28 Superconductivity of lanthanum and lanthanum compounds at zero and high pressure 1967 "J.PHYS.CHEM.SOLIDS,28(1967)569"
151308 658 Tc measured upto P(max) = 1.3 GPa. La7Ir3 La7Ir3 La 7 Ir 3 1967 A3B7 K 2.33 2.33 K/GPa -0.22 Superconductivity of lanthanum and lanthanum compounds at zero and high pressure 1967 "J.PHYS.CHEM.SOLIDS,28(1967)569"
151309 658 Tc measured upto P(max) = 1.1 GPa. LaAl2 La1Al2 La 1 Al 2 1967 AB2 K 3.23 3.23 K/GPa -0.175 Superconductivity of lanthanum and lanthanum compounds at zero and high pressure 1967 "J.PHYS.CHEM.SOLIDS,28(1967)569"
151310 NJP011025008 not SC "Ba(Fe,Ni)2As2" Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2009 AB2C2 ThCr2Si2 A 13.03 K 4 uV/K -4.66 MTP151310 "Ba-rod,Fe and Ni-powder,As-pieces" "self-flux method. Ba:(FeAs/NiAs) = 1:5, mixture - (sealed in quartz tube) - heat(973K,5h) - -heat(1453K,10h) - cool to 1363 K (2K/h)" Superconductivity induced by Ni doping in BaFe2As2 single crystals 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "New J.Phys., 11(2009)025008"
151311 NJP011025008 "Ba(Fe,Ni)2As2" Ba1Fe1.945Ni0.055As2 Ba 1 Fe 1.945 Ni 0.055 As 2 3 2009 AB2C2 ThCr2Si2 A 13.016 K 7.4 12.56 7.4 uV/K -18.2 MTP151310 "Ba-rod,Fe and Ni-powder,As-pieces" "self-flux method. Ba:(FeAs/NiAs) = 1:5, mixture - (sealed in quartz tube) - heat(973K,5h) - -heat(1453K,10h) - cool to 1363 K (2K/h)" Superconductivity induced by Ni doping in BaFe2As2 single crystals 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "New J.Phys., 11(2009)025008"
151312 NJP011025008 "Ba(Fe,Ni)2As2" Ba1Fe1.904Ni0.096As2 Ba 1 Fe 1.904 Ni 0.096 As 2 3 2009 AB2C2 ThCr2Si2 A 12.995 K 20.2 20.5 1 20.2 uV/K -24.4 MTP151312 "Ba-rod,Fe and Ni-powder,As-pieces" "self-flux method. Ba:(FeAs/NiAs) = 1:5, mixture - (sealed in quartz tube) - heat(973K,5h) - -heat(1453K,10h) - cool to 1363 K (2K/h)" Superconductivity induced by Ni doping in BaFe2As2 single crystals 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "New J.Phys., 11(2009)025008"
151313 NJP011025008 "Ba(Fe,Ni)2As2" Ba1Fe1.82Ni0.18As2 Ba 1 Fe 1.82 Ni 0.18 As 2 3 2009 AB2C2 ThCr2Si2 A 12.985 K 17.4 18.4 17.4 uV/K -25.7 MTP151312 "Ba-rod,Fe and Ni-powder,As-pieces" "self-flux method. Ba:(FeAs/NiAs) = 1:5, mixture - (sealed in quartz tube) - heat(973K,5h) - -heat(1453K,10h) - cool to 1363 K (2K/h)" Superconductivity induced by Ni doping in BaFe2As2 single crystals 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "New J.Phys., 11(2009)025008"
151314 NJP011025008 "Ba(Fe,Ni)2As2" Ba1Fe1.77Ni0.23As2 Ba 1 Fe 1.77 Ni 0.23 As 2 3 2009 AB2C2 ThCr2Si2 A 12.968 K 3.53 5.43 3.53 "Ba-rod,Fe and Ni-powder,As-pieces" "self-flux method. Ba:(FeAs/NiAs) = 1:5, mixture - (sealed in quartz tube) - heat(973K,5h) - -heat(1453K,10h) - cool to 1363 K (2K/h)" Superconductivity induced by Ni doping in BaFe2As2 single crystals 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "New J.Phys., 11(2009)025008"
151315 PRB079132506 size = 0.50*0.13*0.013mm3. carrier is electron-type (toally). RRR=18.7 and 34.3 for in- and out-of plane. Tc=2.31 K for out-of plane resistivity. anisotropy (Hc2) = 2.2. BaNi2P2 Ba1Ni2P2 Ba 1 Ni 2 P 2 3 2009 AB2C2 ThCr2Si2 K 2.51 2.51 56 Oe M-H curve 52 82 2 T midpoint in R(T) 0.141 0.065 MHC151315 midpoint in R(T) A from Hc2(0) 710 330 uOhm.cm 4.15 14.4 80 500 MRH151315 high-P-synthesis using cubic-anvil Three-dimensional nature of normal and superconducting states in BaNi2P2 single crystals with the ThCr2Si2-type structure 2009 "Nano Electronics Research Institute (NeRI), National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba 305-8562, Japan" "Phys.Rev.B, 79(2009)132506"
151316 PRB079140509 structural and magnetic transition at 65 K. FeTe Fe1.05Te1 Fe 1.05 Te 1 3 2009 AB K 1.8 mJ/mol.K2 34 SP-heat 141 SP-heat "Bridgeman method. mixture(Fe-Te,Fe-Se-Te) - (sealed in evacuated quartz tube) - heat(920C) - cool (4C/h)" Electronic properties of single-crystalline Fe1.05Te and Fe1.03Se0.30Te0.70 2009 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" "Phys.Rev.B, 79(2009)140509"
151317 PRB079140509 "Fe(Te,Se)" Fe1.03Te0.7Se0.3 Fe 1.03 Te 0.7 Se 0.3 3 2009 AB K 12.4 12.4 T midpoint in R(T) 51 31 T/K midpoint in R(T) 5.96 3.69 MHC151317 MRH151317 "Bridgeman method. mixture(Fe-Te,Fe-Se-Te) - (sealed in evacuated quartz tube) - heat(920C) - cool (4C/h)" Electronic properties of single-crystalline Fe1.05Te and Fe1.03Se0.30Te0.70 2009 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" "Phys.Rev.B, 79(2009)140509"
151318 PRB079144527 Hall coeffic. RH(50K)=0.253 cm3/C. DOS = 0.682 states/eV from SP-data. LaOFeAs La1Fe1As1O1 La 1 Fe 1 As 1 O 1 1 2009 ABCD oxypnictide K 5 1 solid state reaction "Doping dependence of the upper critical field and Hall resistivity of LaFeAsO1-xFx (x=0, 0.025, 0.05, 0.07, 0.11, and 0.14)" 2009 "MPA-NHMFL, Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 79(2009)144527"
151319 PRB079144527 Hall coeffic. RH(50K)=0.0621 cm3/C. DOS = 1.36 states/eV from SP-data. "La(O,F)FeAs" La1Fe1As1F0.025O0.975 La 1 Fe 1 As 1 F 0.025 O 0.975 1 2009 ABCD oxypnictide K 4 1 solid state reaction "Doping dependence of the upper critical field and Hall resistivity of LaFeAsO1-xFx (x=0, 0.025, 0.05, 0.07, 0.11, and 0.14)" 2009 "MPA-NHMFL, Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 79(2009)144527"
151320 PRB079144527 Hall coeffic. RH(50K)=11.3 E-3 cm3/C. DOS = 3.56 states/eV from SP-data. G-L parameter = 190-270. Hc2 defined as R=0.8Rn. [cohere]=15-19A. [penet]=3600-4100A. "La(O,F)FeAs" La1Fe1As1F0.05O0.95 La 1 Fe 1 As 1 F 0.05 O 0.95 1 2009 ABCD oxypnictide K 25.5 25.5 Oe M-H curve 60 T "R=0.8Rn, two band model" 122 HC151320 A 15 A from Hc1 3600 1 solid state reaction "Doping dependence of the upper critical field and Hall resistivity of LaFeAsO1-xFx (x=0, 0.025, 0.05, 0.07, 0.11, and 0.14)" 2009 "MPA-NHMFL, Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 79(2009)144527"
151321 PRB079144527 Hall coeffic. RH(50K)=7.66 E-3 cm3/C. Hc2 defined as R=0.8Rn. "La(O,F)FeAs" La1Fe1As1F0.07O0.93 La 1 Fe 1 As 1 F 0.07 O 0.93 1 2009 ABCD oxypnictide K 25.2 25.2 T "R=0.8Rn, two band model" 69.6 HC151321 1 solid state reaction "Doping dependence of the upper critical field and Hall resistivity of LaFeAsO1-xFx (x=0, 0.025, 0.05, 0.07, 0.11, and 0.14)" 2009 "MPA-NHMFL, Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 79(2009)144527"
151322 PRB079144527 Hall coeffic. RH(50K)=5.98 E-3 cm3/C. DOS = 2.18 states/eV from SP-data. Hc2 defined as R=0.8Rn. "La(O,F)FeAs" La1Fe1As1F0.11O0.89 La 1 Fe 1 As 1 F 0.11 O 0.89 1 2009 ABCD oxypnictide K 27.9 27.9 T "R=0.8Rn, two band model" 59.9 HC151322 1 solid state reaction "Doping dependence of the upper critical field and Hall resistivity of LaFeAsO1-xFx (x=0, 0.025, 0.05, 0.07, 0.11, and 0.14)" 2009 "MPA-NHMFL, Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 79(2009)144527"
151323 PRB079144527 Hall coeffic. RH(50K)=2.55 E-3 cm3/C. DOS = 1.61 states/eV from SP-data. Hc2 defined as R=0.8Rn. "La(O,F)FeAs" La1Fe1As1F0.14O0.86 La 1 Fe 1 As 1 F 0.14 O 0.86 1 2009 ABCD oxypnictide K 18 18 T "R=0.8Rn, two band model" 37.5 HC151323 1 solid state reaction "Doping dependence of the upper critical field and Hall resistivity of LaFeAsO1-xFx (x=0, 0.025, 0.05, 0.07, 0.11, and 0.14)" 2009 "MPA-NHMFL, Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 79(2009)144527"
151324 PRB079172506 single crystal (surface: (001). P-induce SC. BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2009 AB2C2 ThCr2Si2 K 35 0 35 MTC151324 "high-P-synthesis using cubic anvil. mixture - heat(1473K,2h,P=3GPa, in BN crucible)" Zero-resistance superconducting phase in BaFe2As2 under high pressure 2009 "Graduate School of Science and Technology, Niigata University, Niigata 950-2181, Japan" "Phys.Rev.B, 79(2009)172506"
151325 JPS077105004 BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 1 2008 AB2C2 ThCr2Si2 K 34 0 34 MTC151325 high-p & high-T synthesis Suppression of Magnetic Order by Pressure in BaFe2As2 2008 "Department of Physics, Chiba University, Chiba 263-8522" "J.Phys.Soc,Jpn, 77(2008)105004"
151326 PRB079172507 "P-induced SC. several % impurity phases(CePt2Si2, CePtSi3). (dTn/dP) = -1 K/GPa. SC-properties at P=1.7 GPa. [lattice const] and [gamma] from PRB04206542." CePtSi2 Ce1Pt1Si2 Ce 1 Pt 1 Si 2 1 2009 1.8 ABC2 CeNiSi2 Cmcm A 4.288 16.718 4.238 K 0.14 0 0.14 30 T P=1.7 GPa 0.7 mJ/mol.K2 145 "SP-heat, 14 < T < 30 K" 298 "SP-heat, 14 < T < 30 K" "arc-melting. ANN(1000C,3w, in vac)" Pressure-induced superconductivity in the orthorhombic Kondo compound CePtSi2 2009 "Department of Physics, Kyushu University, Hakozaki 6-10-1, Fukuoka 810-8581, Japan" "Phys.Rev.B, 79(2009)172507"
151327 PRB079174505 (dC/gamma*Tc) = 0.73. lattice term coeff. in C (beta) = 0.254 mJ/mol.K4 "LaO(Fe,Ni)As" La1Fe0.96Ni0.04As1O1 La 1 Fe 0.96 Ni 0.04 As 1 O 1 2009 ABCD oxypnictide P4/nmm A 4.0376 8.7208 ZrCuSiAs K 6.5 6.5 TC151327 45 T "R=0.5Rn, WHH" 17 T/K midpoint in R(T) 3.81 HC151327 mJ/mol.K2 5.74 SP-heat 285 SP-heat "LaAs,La2O3,FeAs,Fe2As,NiO" "solid state reaction. Heat(1433K, 48h)" Narrow superconducting window in LaFe1-xNixAsO 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 79(2009)174505"
151328 NJP011025013 "(Sr,K)Fe2As2" Sr0.8K0.2Fe2As2 Sr 0.8 K 0.2 Fe 2 As 2 2009 AB2C2 ThCr2Si2 I4/mmm A 3.9071 12.613 K 13.6 13.6 T "R=0.5Rn, GL theory" 32.5 MHC151328 "mixture(KFe2As2, SrFe2As2) - (compress) - ANN(700C,100-120h, in welded Nb container)" The superconductor KxSr1-xFe2As2: normal state and superconducting properties 2009 "TCSUH and Department of Chemistry, University of Houston, Houston, TX 77204, USA" "New J.Phys., 11(2009)025013"
151329 NJP011025013 "(Sr,K)Fe2As2" Sr0.42K0.58Fe2As2 Sr 0.42 K 0.58 Fe 2 As 2 2009 AB2C2 ThCr2Si2 I4/mmm A 3.8852 12.988 K 36 36 MTC151329 T "R=0.5Rn, GL theory" 197.4 MHC151329 "mixture(KFe2As2, SrFe2As2) - (compress) - ANN(700C,100-120h, in welded Nb container)" The superconductor KxSr1-xFe2As2: normal state and superconducting properties 2009 "TCSUH and Department of Chemistry, University of Houston, Houston, TX 77204, USA" "New J.Phys., 11(2009)025013"
151330 NJP011025013 "(Sr,K)Fe2As2" Sr0.67K0.33Fe2As2 Sr 0.67 K 0.33 Fe 2 As 2 2009 AB2C2 ThCr2Si2 I4/mmm A 3.8711 13.309 K 21.7 21.7 T "R=0.5Rn, GL theory" 64.3 MHC151330 "mixture(KFe2As2, SrFe2As2) - (compress) - ANN(700C,100-120h, in welded Nb container)" The superconductor KxSr1-xFe2As2: normal state and superconducting properties 2009 "TCSUH and Department of Chemistry, University of Houston, Houston, TX 77204, USA" "New J.Phys., 11(2009)025013"
151331 NJP011025013 "(Sr,K)Fe2As2" Sr0.9K0.1Fe2As2 Sr 0.9 K 0.1 Fe 2 As 2 2009 AB2C2 ThCr2Si2 I4/mmm A 3.8551 13.745 K 5.11 5.11 T "R=0.5Rn, GL theory" 7.79 MHC151331 "mixture(KFe2As2, SrFe2As2) - (compress) - ANN(700C,100-120h, in welded Nb container)" The superconductor KxSr1-xFe2As2: normal state and superconducting properties 2009 "TCSUH and Department of Chemistry, University of Houston, Houston, TX 77204, USA" "New J.Phys., 11(2009)025013"
151332 NJP011025013 "(Sr,K)Fe2As2" Sr0.5K0.5Fe2As2 Sr 0.5 K 0.5 Fe 2 As 2 2009 AB2C2 ThCr2Si2 I4/mmm K 37.7 37.7 T "R=0.5Rn, GL theory" 204.5 MHC151332 "mixture(KFe2As2, SrFe2As2) - (compress) - ANN(700C,100-120h, in welded Nb container)" The superconductor KxSr1-xFe2As2: normal state and superconducting properties 2009 "TCSUH and Department of Chemistry, University of Houston, Houston, TX 77204, USA" "New J.Phys., 11(2009)025013"
151333 NJP011025005 "impurity phases: Ho2O3, HoAs, FeAs" HoO0.8FeAs Ho1Fe1As1O0.85 Ho 1 Fe 1 As 1 O 0.85 1 2009 oxypnictide P4/nmm A 3.846 8.295 ZrCuSiAs K 50.3 49.1 49.1 "RAs obtained by reacting(650C,12h + 1180C,40h). mixture(RAs,Fe,Fe2O3) - sealed in BN crucible) - heat(100C,1h, P=5GPa) - rapid cool to RT" "Superconductivity in some heavy rare-earth iron arsenide REFeAsO1-d (RE=Ho, Y, Dy and Tb) compounds" 2009 "National Laboratory for Superconductivity, Institute of Physics and BeijingNational Laboratory for Condensed Matter Physics, Chinese Academyof Sciences, Beijing 100190, People's Republic of China" "New J.Phys., 11(2009)025005"
151334 NJP011025005 "impurity phases: Y2O3, YAs, FeAs" YO0.8FeAs Y1Fe1As1O0.85 Y 1 Fe 1 As 1 O 0.85 1 2009 oxypnictide P4/nmm A 3.842 8.303 ZrCuSiAs K 46.5 45.2 45.2 "RAs obtained by reacting(650C,12h + 1180C,40h). mixture(RAs,Fe,Fe2O3) - sealed in BN crucible) - heat(100C,1h, P=5GPa) - rapid cool to RT" "Superconductivity in some heavy rare-earth iron arsenide REFeAsO1-d (RE=Ho, Y, Dy and Tb) compounds" 2009 "National Laboratory for Superconductivity, Institute of Physics and BeijingNational Laboratory for Condensed Matter Physics, Chinese Academyof Sciences, Beijing 100190, People's Republic of China" "New J.Phys., 11(2009)025005"
151335 NJP011025005 "impurity phases: Dy2O3, DyAs, FeAs" DyO0.8FeAs Dy1Fe1As1O0.85 Dy 1 Fe 1 As 1 O 0.85 1 2009 oxypnictide P4/nmm A 3.859 8.341 ZrCuSiAs K 52.2 51 51 "RAs obtained by reacting(650C,12h + 1180C,40h). mixture(RAs,Fe,Fe2O3) - sealed in BN crucible) - heat(100C,1h, P=5GPa) - rapid cool to RT" "Superconductivity in some heavy rare-earth iron arsenide REFeAsO1-d (RE=Ho, Y, Dy and Tb) compounds" 2009 "National Laboratory for Superconductivity, Institute of Physics and BeijingNational Laboratory for Condensed Matter Physics, Chinese Academyof Sciences, Beijing 100190, People's Republic of China" "New J.Phys., 11(2009)025005"
151336 NJP011025005 "impurity phases: Tb2O3, TbAs, FeAs" TbO0.8FeAs Tb1Fe1As1O0.85 Tb 1 Fe 1 As 1 O 0.85 1 2009 oxypnictide P4/nmm A 3.878 8.354 ZrCuSiAs K 48.5 46.8 1.8 46.8 "RAs obtained by reacting(650C,12h + 1180C,40h). mixture(RAs,Fe,Fe2O3) - sealed in BN crucible) - heat(100C,1h, P=5GPa) - rapid cool to RT" "Superconductivity in some heavy rare-earth iron arsenide REFeAsO1-d (RE=Ho, Y, Dy and Tb) compounds" 2009 "National Laboratory for Superconductivity, Institute of Physics and BeijingNational Laboratory for Condensed Matter Physics, Chinese Academyof Sciences, Beijing 100190, People's Republic of China" "New J.Phys., 11(2009)025005"
151337 NJP011025005 not SC. TbOFeAs Tb1Fe1As1O1 Tb 1 Fe 1 As 1 O 1 1 2009 oxypnictide P4/nmm A 3.898 8.404 ZrCuSiAs K "RAs obtained by reacting(650C,12h + 1180C,40h). mixture(RAs,Fe,Fe2O3) - sealed in BN crucible) - heat(100C,1h, P=5GPa) - rapid cool to RT" "Superconductivity in some heavy rare-earth iron arsenide REFeAsO1-d (RE=Ho, Y, Dy and Tb) compounds" 2009 "National Laboratory for Superconductivity, Institute of Physics and BeijingNational Laboratory for Condensed Matter Physics, Chinese Academyof Sciences, Beijing 100190, People's Republic of China" "New J.Phys., 11(2009)025005"
151338 NJP011025006 T* = 110 K at ambient pressure. (dT*/dP) = -4.69 K/GPa estimated from Fig.7 where T* is the temperature of TP(max). SmO0.85FeAs Sm1Fe1As1O0.85 Sm 1 Fe 1 As 1 O 0.85 2009 oxypnictide P4/nmm ZrCuSiAs K 53 53 K/GPa -1.5 uV/K TP151338 high-P-synthesis Pressure dependence of the thermoelectric power of the iron-based high-Tc superconductor SmFeAsO0.85 2009 "Laboratoire de Physique des Solides, Universite Paris-Sud, 91405 Orsay, France" "New J.Phys., 11(2009)025006"
151339 NJP011025012 not SC. "CaF(Fe,Co)As" Ca1Fe0.95Co0.05F1 Ca 1 Fe 0.95 Co 0.05 F 1 2009 P4/nmm A 3.8801 8.5775 ZrCuSiAs K 2 "CaF2,CaAs,Fe2As,T2As(T=Co,Ni,Cu,Cr,Mn)" "mixture - heat(1000C,10h, in evacuated silica tube)" Effect of 3d transition metal doping on the superconductivity in quaternary fluoroarsenide CaFeAsF 2009 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama, Japan" "New J.Phys., 11(2009)025012"
151340 NJP011025012 "CaF(Fe,Co)As" Ca1Fe0.93Co0.07F1 Ca 1 Fe 0.93 Co 0.07 F 1 2009 P4/nmm A 3.8804 8.5626 ZrCuSiAs K 9.1 9.1 "CaF2,CaAs,Fe2As,T2As(T=Co,Ni,Cu,Cr,Mn)" "mixture - heat(1000C,10h, in evacuated silica tube)" Effect of 3d transition metal doping on the superconductivity in quaternary fluoroarsenide CaFeAsF 2009 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama, Japan" "New J.Phys., 11(2009)025012"
151341 NJP011025012 "CaF(Fe,Co)As" Ca1Fe0.9Co0.1As1F1 Ca 1 Fe 0.9 Co 0.1 As 1 F 1 2009 P4/nmm A 3.8801 8.5517 ZrCuSiAs K 23 23 MTC151341 "CaF2,CaAs,Fe2As,T2As(T=Co,Ni,Cu,Cr,Mn)" "mixture - heat(1000C,10h, in evacuated silica tube)" Effect of 3d transition metal doping on the superconductivity in quaternary fluoroarsenide CaFeAsF 2009 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama, Japan" "New J.Phys., 11(2009)025012"
151342 NJP011025012 "CaF(Fe,Co)As" Ca1Fe0.85Co0.15As1F1 Ca 1 Fe 0.85 Co 0.15 As 1 F 1 2009 P4/nmm A 3.8815 8.5374 ZrCuSiAs K 21.2 21.2 "CaF2,CaAs,Fe2As,T2As(T=Co,Ni,Cu,Cr,Mn)" "mixture - heat(1000C,10h, in evacuated silica tube)" Effect of 3d transition metal doping on the superconductivity in quaternary fluoroarsenide CaFeAsF 2009 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama, Japan" "New J.Phys., 11(2009)025012"
151343 NJP011025012 "CaF(Fe,Co)As" Ca1Fe0.8Co0.2As1F1 Ca 1 Fe 0.8 Co 0.2 As 1 F 1 2009 P4/nmm A 3.8827 8.5261 ZrCuSiAs K 16.6 16.6 "CaF2,CaAs,Fe2As,T2As(T=Co,Ni,Cu,Cr,Mn)" "mixture - heat(1000C,10h, in evacuated silica tube)" Effect of 3d transition metal doping on the superconductivity in quaternary fluoroarsenide CaFeAsF 2009 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama, Japan" "New J.Phys., 11(2009)025012"
151344 NJP011025012 "CaF(Fe,Co)As" Ca1Fe0.74Co0.26As1F1 Ca 1 Fe 0.74 Co 0.26 As 1 F 1 2009 P4/nmm A 3.8831 8.4997 ZrCuSiAs K 3.49 3.49 "CaF2,CaAs,Fe2As,T2As(T=Co,Ni,Cu,Cr,Mn)" "mixture - heat(1000C,10h, in evacuated silica tube)" Effect of 3d transition metal doping on the superconductivity in quaternary fluoroarsenide CaFeAsF 2009 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama, Japan" "New J.Phys., 11(2009)025012"
151345 NJP011025012 not SC "CaF(Fe,Ni)As" Ca1Fe0.95Ni0.05As1F1 Ca 1 Fe 0.95 Ni 0.05 As 1 F 1 2009 P4/nmm A 3.8794 8.5777 ZrCuSiAs K 2 "CaF2,CaAs,Fe2As,T2As(T=Co,Ni,Cu,Cr,Mn)" "mixture - heat(1000C,10h, in evacuated silica tube)" Effect of 3d transition metal doping on the superconductivity in quaternary fluoroarsenide CaFeAsF 2009 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama, Japan" "New J.Phys., 11(2009)025012"
151346 NJP011025012 "CaF(Fe,Ni)As" Ca1Fe0.9Ni0.1As1F1 Ca 1 Fe 0.9 Ni 0.1 As 1 F 1 2009 P4/nmm A 3.8828 8.5541 ZrCuSiAs K 15.4 15.4 "CaF2,CaAs,Fe2As,T2As(T=Co,Ni,Cu,Cr,Mn)" "mixture - heat(1000C,10h, in evacuated silica tube)" Effect of 3d transition metal doping on the superconductivity in quaternary fluoroarsenide CaFeAsF 2009 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama, Japan" "New J.Phys., 11(2009)025012"
151347 NJP011025012 "CaF(Fe,Ni)As" Ca1Fe0.85Ni0.15As1F1 Ca 1 Fe 0.85 Ni 0.15 As 1 F 1 2009 P4/nmm A 3.8845 8.5359 ZrCuSiAs K 8.72 8.72 MTC151347 "CaF2,CaAs,Fe2As,T2As(T=Co,Ni,Cu,Cr,Mn)" "mixture - heat(1000C,10h, in evacuated silica tube)" Effect of 3d transition metal doping on the superconductivity in quaternary fluoroarsenide CaFeAsF 2009 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama, Japan" "New J.Phys., 11(2009)025012"
151348 NJP011025012 "CaF(Fe,Ni)As" Ca1Fe0.8Ni0.2As1F1 Ca 1 Fe 0.8 Ni 0.2 As 1 F 1 2009 P4/nmm A 3.8854 8.528 ZrCuSiAs K 3.92 3.92 "CaF2,CaAs,Fe2As,T2As(T=Co,Ni,Cu,Cr,Mn)" "mixture - heat(1000C,10h, in evacuated silica tube)" Effect of 3d transition metal doping on the superconductivity in quaternary fluoroarsenide CaFeAsF 2009 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama, Japan" "New J.Phys., 11(2009)025012"
151349 NJP011025012 not SC for 0=< x =<0.20 in CaFe1-xCrxAsF "CaF(Fe,Cr)As" Ca1Fe0.9Cr0.1As1F1 Ca 1 Fe 0.9 Cr 0.1 As 1 F 1 2009 P4/nmm A 3.8749 8.638 ZrCuSiAs K 2 "CaF2,CaAs,Fe2As,T2As(T=Co,Ni,Cu,Cr,Mn)" "mixture - heat(1000C,10h, in evacuated silica tube)" Effect of 3d transition metal doping on the superconductivity in quaternary fluoroarsenide CaFeAsF 2009 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama, Japan" "New J.Phys., 11(2009)025012"
151350 NJP011025012 not SC for 0=< x =<0.15 in CaFe1-xMnxAsF "CaF(Fe,Mn)As" Ca1Fe0.9Mn0.1As1F1 Ca 1 Fe 0.9 Mn 0.1 As 1 F 1 2009 P4/nmm A 3.887 8.6308 ZrCuSiAs K 2 "CaF2,CaAs,Fe2As,T2As(T=Co,Ni,Cu,Cr,Mn)" "mixture - heat(1000C,10h, in evacuated silica tube)" Effect of 3d transition metal doping on the superconductivity in quaternary fluoroarsenide CaFeAsF 2009 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama, Japan" "New J.Phys., 11(2009)025012"
151351 NJP011025012 not SC "CaF(Fe,Cu)As" Ca1Fe0.95Cu0.05As1F1 Ca 1 Fe 0.95 Cu 0.05 As 1 F 1 2009 P4/nmm A 3.8875 8.5884 ZrCuSiAs K 2 "CaF2,CaAs,Fe2As,T2As(T=Co,Ni,Cu,Cr,Mn)" "mixture - heat(1000C,10h, in evacuated silica tube)" Effect of 3d transition metal doping on the superconductivity in quaternary fluoroarsenide CaFeAsF 2009 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama, Japan" "New J.Phys., 11(2009)025012"
151352 EPL08357002 "(dTc/dP) = -1.3 and -2.0 K/GPa for the definition of Tc(on) and Tc(SUS), respectively" SmOFeAs Sm1Fe1As1O0.85 Sm 1 Fe 1 As 1 O 0.85 1 2008 oxypnictide P4/nmm ZrCuSiAs K 55 55 K/GPa -2 high-P synthesis Pressure effect on superconductivity of iron-based arsenic-oxide ReFeAsO0.85 (Re = Sm and Nd) 2008 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences - Beijing 100190, PRC" "EuroPhys.Lett., 83(2008)57002"
151353 EPL08357002 NdOFeAs Nd1Fe1As1O0.85 Nd 1 Fe 1 As 1 O 0.85 1 2008 oxypnictide P4/nmm ZrCuSiAs K 51.9 51.9 K/GPa -2.6 high-P synthesis Pressure effect on superconductivity of iron-based arsenic-oxide ReFeAsO0.85 (Re = Sm and Nd) 2008 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences - Beijing 100190, PRC" "EuroPhys.Lett., 83(2008)57002"
151354 JPS077075003 nearly hydrostatic pressure upto 18 GPa. (dTc/dP) obtained for around 8 GPa. NdOFeAs Nd1Fe1As1O0.6 Nd 1 Fe 1 As 1 O 0.6 2008 oxypnictide K 54 54 TC151354 K/GPa -3 high-P synthesis Remarkable Suppression of Tc by Pressure in NdFeAsO1-y ( y = 0.4) 2008 "Nanoelectronics Research Institute (NeRI), National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8562" "J.Phys.Soc.Jpn, 77(2008)075003"
151355 EPL08467007 not SC. phase transition(structural and magnetic) at 175 K. lattice term in SP (beta) = 0.2 mJ/mol.K4 SrFFeAs Sr1Fe1As1F1 Sr 1 Fe 1 As 1 F 1 2008 P4/nmm A 3.993 8.9546 ZrCuSiAs K 4 mJ/mol.K2 1.5 SP-heat 339 SP-heat "(SrF2:Sr:Fe:As = 1:1:2:2, in sealed Nb tube) - heat to 1173K(50K/h) - hold(40h) - cool to RT - SIN(1273K,48h)" "Synthesis, crystal structure and spin-density-wave anomaly of the iron arsenide-fluoride SrFeAsF" 2008 "Department Chemie und Biochemie, Ludwig-Maximilians-Universitat Munchen - Butenandtstrasse 5-13 (Haus D), 81377 Munchen, Germany, EU" "EuroPhys.Lett., 84(2008)67007"
151356 PRB078180503 "not SC. T = 173 K. Hall coeff. RH(T) obtained from Rxy(H,T)." SrFFeAs Sr1Fe1As1F1 Sr 1 Fe 1 As 1 F 1 2008 P4/nmm A 4.004 8.971 ZrCuSiAs K 2 MRH151356 "FeAs,Fe,FeF3" "mixture - pellet - sealed in quartz tube(0.2 bar Ar) - heat(950C,60h) - cool to RT" SrFeAsF as a parent compound for iron pnictide superconductors 2008 "National Laboratory for Superconductivity, Institute of Physics, and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 78(2008)180503"
151357 PRB079174511 oriented crystal. applied field //<100> for muon-SR. PrOs4Sb12 Pr1Os4Sb12 Pr 1 Os 4 Sb 12 2009 skutterudite K 1.85 1.85 A muon-SR 3534 4.9 16 "Penetration depth, multiband superconductivity, and absence of muon-induced perturbation in superconducting PrOs4Sb12" 2009 "Department of Physics, University of California, Riverside, California 92521, USA" "Phys.Rev.B, 79(2009)174511"
151358 PRB079174523 T = 138 K defined as R(T) anomaly. LaOFeAs La1Fe1As1O1 La 1 Fe 1 As 1 O 1 2009 oxypnictide P4/nmm A 4.0328 8.7446 ZrCuSiAs K 10 "(La,Y)As,Fe2O3,Fe,FeF3" "solid state reaction. two step reaction using Ta-crucible. heat(1000C,70h) - ANN(1250C,25h)" Effect of chemical pressure on spin density wave and superconductivity in undoped and 15% F-doped La1-yYyFeAsO compounds 2009 "CNR/INFM-LAMIA, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 79(2009)174523"
151359 PRB079174523 T = 130 K defined as R(T) anomaly. "(La,Y)OFeAs" La0.7Y0.3Fe1As1O1 La 0.7 Y 0.3 Fe 1 As 1 O 1 2009 oxypnictide P4/nmm A 4.0009 8.6856 ZrCuSiAs K 10 "(La,Y)As,Fe2O3,Fe,FeF3" "solid state reaction. two step reaction using Ta-crucible. heat(1000C,70h) - ANN(1250C,25h)" Effect of chemical pressure on spin density wave and superconductivity in undoped and 15% F-doped La1-yYyFeAsO compounds 2009 "CNR/INFM-LAMIA, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 79(2009)174523"
151360 PRB079174523 T = 125 K defined as R(T) anomaly. "(La,Y)OFeAs" La0.5Y0.5Fe1As1O1 La 0.5 Y 0.5 Fe 1 As 1 O 1 2009 oxypnictide P4/nmm A 3.9761 8.6326 ZrCuSiAs K 10 "(La,Y)As,Fe2O3,Fe,FeF3" "solid state reaction. two step reaction using Ta-crucible. heat(1000C,70h) - ANN(1250C,25h)" Effect of chemical pressure on spin density wave and superconductivity in undoped and 15% F-doped La1-yYyFeAsO compounds 2009 "CNR/INFM-LAMIA, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 79(2009)174523"
151361 PRB079174523 T = 120 K defined as R(T) anomaly. "(La,Y)OFeAs" La0.3Y0.7Fe1As1O1 La 0.3 Y 0.7 Fe 1 As 1 O 1 2009 oxypnictide P4/nmm A 3.9623 8.5976 ZrCuSiAs K 10 "(La,Y)As,Fe2O3,Fe,FeF3" "solid state reaction. two step reaction using Ta-crucible. heat(1000C,70h) - ANN(1250C,25h)" Effect of chemical pressure on spin density wave and superconductivity in undoped and 15% F-doped La1-yYyFeAsO compounds 2009 "CNR/INFM-LAMIA, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 79(2009)174523"
151362 PRB079174523 LaOFeAs La1Fe1As1F0.15O0.85 La 1 Fe 1 As 1 F 0.15 O 0.85 2009 oxypnictide P4/nmm A 4.0269 8.7097 ZrCuSiAs K 24.3 24.3 "(La,Y)As,Fe2O3,Fe,FeF3" "solid state reaction. two step reaction using Ta-crucible. heat(1000C,70h) - ANN(1250C,25h)" Effect of chemical pressure on spin density wave and superconductivity in undoped and 15% F-doped La1-yYyFeAsO compounds 2009 "CNR/INFM-LAMIA, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 79(2009)174523"
151363 PRB079174523 "impurity: (La,Y)As 6.4 %, (La,Y)OF 8%." "(La,Y)(O,F)FeAs" La0.7Y0.3Fe1As1F0.15O0.85 La 0.7 Y 0.3 Fe 1 As 1 F 0.15 O 0.85 2009 oxypnictide P4/nmm A 3.9977 8.662 ZrCuSiAs K 36.2 36.2 30 "(La,Y)As,Fe2O3,Fe,FeF3" "solid state reaction. two step reaction using Ta-crucible. heat(1000C,70h) - ANN(1250C,25h)" Effect of chemical pressure on spin density wave and superconductivity in undoped and 15% F-doped La1-yYyFeAsO compounds 2009 "CNR/INFM-LAMIA, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 79(2009)174523"
151364 PRB079174523 "(La,Y)(O,F)FeAs" La0.5Y0.5Fe1As1F0.15O0.85 La 0.5 Y 0.5 Fe 1 As 1 F 0.15 O 0.85 2009 oxypnictide P4/nmm A 3.9759 8.6248 ZrCuSiAs K 40.2 40.2 "(La,Y)As,Fe2O3,Fe,FeF3" "solid state reaction. two step reaction using Ta-crucible. heat(1000C,70h) - ANN(1250C,25h)" Effect of chemical pressure on spin density wave and superconductivity in undoped and 15% F-doped La1-yYyFeAsO compounds 2009 "CNR/INFM-LAMIA, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 79(2009)174523"
151365 PRB079174523 "(La,Y)(O,F)FeAs" La0.3Y0.7Fe1As1F0.15O0.85 La 0.3 Y 0.7 Fe 1 As 1 F 0.15 O 0.85 2009 oxypnictide P4/nmm A 3.9519 8.5777 ZrCuSiAs K 38 38 15 "(La,Y)As,Fe2O3,Fe,FeF3" "solid state reaction. two step reaction using Ta-crucible. heat(1000C,70h) - ANN(1250C,25h)" Effect of chemical pressure on spin density wave and superconductivity in undoped and 15% F-doped La1-yYyFeAsO compounds 2009 "CNR/INFM-LAMIA, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 79(2009)174523"
151366 DRM0160911 <111> films. carrier n = 8.4 E+21/cm3 (B/C = 5 %). Hc2 = 15.7T and Hirr = 9 T from linear approx. in-plane thermal expansion = 0.48 %. B-doped C C1 C 1 2007 diamond K 7.4 11.4 9.4 T "resistivity, GL approx." 10.8 A 55.1 microwave plasma-assisted CVD on Si<001> substrates. Superconducting properties of homoepitaxial CVD diamond 2007 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba 305-0047, Japan" "Diamond Relat.Mater., 16(2007)911"
151367 DRM0160911 <111> films. carrier n = 8.2 E+21/cm3. Hc2 = 7.7T and Hirr = 4.5 T from linear approx. in-plane thermal expansion = 0.46 %. B-doped C C1 C 1 2007 diamond K 3.2 6.3 4.75 T "resistivity, GL approx." 5.3 A 78.9 microwave plasma-assisted CVD on Si<001> substrates. Superconducting properties of homoepitaxial CVD diamond 2007 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba 305-0047, Japan" "Diamond Relat.Mater., 16(2007)911"
151368 SST021065019 crystals contain Cr and Ga precipitation. SC maybe comes from Ga precipitation(beta-Ga) Cr-doped GaP Ga1P1 Ga 1 P 1 2008 K 6.2 6.2 T 0.06 The appearance of superconductivity in GaP and GaAs samples highly doped with Cr 2008 "Institute of Experimental Physics, University of Warsaw, Hoza 69, PL-00-681Warsaw, Poland" "Supercond.Sci.Technol., 21(2008)065019"
151369 SST021065019 crystals contain Cr and Ga precipitation. SC properties maybe from beta-Ga precipitations. Cr-doped GaAs As1Ga1 As 1 Ga 1 2008 K 6.2 6.2 T 0.06 The appearance of superconductivity in GaP and GaAs samples highly doped with Cr 2008 "Institute of Experimental Physics, University of Warsaw, Hoza 69, PL-00-681Warsaw, Poland" "Supercond.Sci.Technol., 21(2008)065019"
151370 STA007S112 InN[12[-]10] // Al2O3[101[-]0]. carrier n = 4.5 E+20/cm3. InN In1N1 In 1 N 1 2006 A 3.53 5.7 hexagonal K 2 2.35 2.8 2.35 "Films grown by MBE, MOCVD method on sapphire (0001) substrates." Electronic structure of superconducting InN 2006 "Department of Electronics, Tokai University, 1117 Kitakaname, Hiratsuka, Kanagawa 259-1292, Japan" "Sci.Technol.Adv.Mater., 7(2006)S112"
151371 STA007S112 previous data Fig.1 in this paper. InN In1N1 In 1 N 1 2006 hexagonal K 3 3 MTC151371 Electronic structure of superconducting InN 2006 "Department of Electronics, Tokai University, 1117 Kitakaname, Hiratsuka, Kanagawa 259-1292, Japan" "Sci.Technol.Adv.Mater., 7(2006)S112"
151372 STA009044204 "3C-SiC:B, n = 1.91 E+21/cm3. type-I SC(GL=0.32)." B-doped SiC Si1C1 Si 1 C 1 2008 A 4.3575 K 1.45 1.45 100 Oe resistivity 132 MHC151372 "SiC,B" "mixture(powders) - pellet - SIN(1600C,12h, in Ar/H2 gas)" Superconductivity in carrier-doped silicon carbide 2008 "Department of Physics and Mathematics, Aoyama-Gakuin University, 5-10-1 Fuchinobe, Sagamihara, Kanagawa 229-8558, Japan" "Sci.Technol.Adv.Mater., 9(2008)044204"
151373 STA009044204 "6H-SiC:B, n = 2.53 E+20/cm3. type-I SC(GL = 0.31)." B-doped SiC Si1C1 Si 1 C 1 2008 A 3.064 K 1.45 1.45 Oe resistivity 125 MHC151373 "SiC,B" "mixture(powders) - pellet - SIN(1600C,12h, in Ar/H2 gas)" Superconductivity in carrier-doped silicon carbide 2008 "Department of Physics and Mathematics, Aoyama-Gakuin University, 5-10-1 Fuchinobe, Sagamihara, Kanagawa 229-8558, Japan" "Sci.Technol.Adv.Mater., 9(2008)044204"
151374 STA009044204 "three phases(3C-SiC(main phase), Si, Al). carrier n = 3.86-7.06)E+20/cm3 from Hall coeffic. type-II SC(GL = 1.8). RRR = 5.3." Al-doped SiC Si1C1 Si 1 C 1 2008 ZnS A 4.342 cubic Zn blende K 1.35 1.5 1.4 1.4 100 Oe 53 0.45 Oe "resistivity, parabolic approx." 370 MHC151374 A 1480 A 2810 mOhm.cm 0.746 Superconductivity in carrier-doped silicon carbide 2008 "Department of Physics and Mathematics, Aoyama-Gakuin University, 5-10-1 Fuchinobe, Sagamihara, Kanagawa 229-8558, Japan" "Sci.Technol.Adv.Mater., 9(2008)044204"
151375 STA009044208 sample film (d=350nm) has x=0.01 in weight for In2O3-x(ZnO). as-grown sample(amorphous) annealed at 200C for 2h. Zn-doped In2O3 In2O3 In 2 O 3 4 2008 K 3.2 3.2 MTC151376 T "resistivity, linear approx." 4.6 T/K 1.49 MHC151375 A 100 dc-magnetron sputtering on glass substrates using the ceramic oxide In2O3-ZnO target under 0.3 Pa of Ar. Superconductivity in transparent zinc-doped In2O3 films having low carrier density 2008 "High Voltage Electron Microscopy Station, National Institute for Material Science, 3?13 Sakura, Tsukuba, Ibaraki 305-3003, Japan" "Sci.Technol.Adv.Mater., 9(2008)044208"
151376 STA009044208 sample film (d=350nm) has x=0.02 in weight for In2O3-x(ZnO). as-grown sample(amorphous) annealed at 200C for 2h. Zn-doped In2O3 In2O3 In 2 O 3 4 2008 K 3.4 3.4 MTC151376 dc-magnetron sputtering on glass substrates using the ceramic oxide In2O3-ZnO target under 0.3 Pa of Ar. Superconductivity in transparent zinc-doped In2O3 films having low carrier density 2008 "High Voltage Electron Microscopy Station, National Institute for Material Science, 3?13 Sakura, Tsukuba, Ibaraki 305-3003, Japan" "Sci.Technol.Adv.Mater., 9(2008)044208"
151377 PRB079174501 lattice term in SP: (beta) = 0.473 mJ/mol.K4. SP measured under pressure (upto 9 T). "(Ba,K)Fe2As2" Ba0.6K0.4Fe2As2 Ba 0.6 K 0.4 Fe 2 As 2 3 2009 ThCr2Si2 K 36.5 1 36.5 T "resistivity, WHH" 100 T/K "resistivity, 0.5Rn" 4.1 mJ/mol.K2 7.7 self-flux method using FeAs flux. melting(1273-1423 K) Low temperature specific heat of the hole-doped Ba0.6K0.4Fe2As2 single crystals 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" "Phys.Rev.B, 79(2009)174501"
151378 NJP011025014 "Mossbauer effect also measured. tetra-ortho transition at T=125K. 10K-phase( Fmmm:a=5.6007,b=5.5620,c=13.0135)." "(Ba,K)Fe2As2" Ba0.9K0.1Fe2As2 Ba 0.9 K 0.1 Fe 2 As 2 1 2009 ThCr2Si2 A 3.9537 13.106 K 5 5 mJ/mol.K2 47 SP-heat 418 SP-heat "mixture - (sealed in alumina crusible(Ar)) - heat(873 K, rate 50K/h) - keep(873K,15h) - cool to RT - ANN(923K,15h) - reground - pellet - SIN(1023K,15h)" Competition of magnetism and superconductivity in underdoped (Ba1-xKx)Fe2As2 2009 "Department Chemie und Biochemie der Ludwig-Maximilians-Universitat Munchen, Butenandtstr.-5-13 (Haus D), 81377 Munchen, Germany" "New J.Phys., 11(2009)025014"
151379 NJP011025014 "Mossbauer effect also measured. tetra-ortho transition at T=105K. 10K-phase( Fmmm:a=5.5734,b=5.5464,c=13.0926)." "(Ba,K)Fe2As2" Ba0.8K0.2Fe2As2 Ba 0.8 K 0.2 Fe 2 As 2 1 2009 ThCr2Si2 A 3.9395 13.189 K 23.6 23.6 mJ/mol.K2 5.6 SP-heat 238 SP-heat "mixture - (sealed in alumina crusible(Ar)) - heat(873 K, rate 50K/h) - keep(873K,15h) - cool to RT - ANN(923K,15h) - reground - pellet - SIN(1023K,15h)" Competition of magnetism and superconductivity in underdoped (Ba1-xKx)Fe2As2 2009 "Department Chemie und Biochemie der Ludwig-Maximilians-Universitat Munchen, Butenandtstr.-5-13 (Haus D), 81377 Munchen, Germany" "New J.Phys., 11(2009)025014"
151380 NJP011025014 impurity phase: FeAs(9%). "(Ba,K)Fe2As2" Ba0.7K0.3Fe2As2 Ba 0.7 K 0.3 Fe 2 As 2 2009 ThCr2Si2 A 3.9257 13.2702 K 37.5 37.5 "mixture - (sealed in alumina crusible(Ar)) - heat(873 K, rate 50K/h) - keep(873K,15h) - cool to RT - ANN(923K,15h) - reground - pellet - SIN(1023K,15h)" Competition of magnetism and superconductivity in underdoped (Ba1-xKx)Fe2As2 2009 "Department Chemie und Biochemie der Ludwig-Maximilians-Universitat Munchen, Butenandtstr.-5-13 (Haus D), 81377 Munchen, Germany" "New J.Phys., 11(2009)025014"
151381 NJP011025015 "gap measured by point contact Andreev reflection method(PCAR). two gaps ((2d/kTc) = 2.1, 3.9 ) observed. summary of gap for this sample system shown in table." "Tb(O,F)FeAs" Tb1Fe1As1F0.1O0.9 Tb 1 Fe 1 As 1 F 0.1 O 0.9 1 2009 oxypnictide K 50 3 50 3.9 1 high-P-synthesis Investigation of superconducting gap structure in TbFeAsO0.9F0.1 using point contact Andreev reflection 2009 "The Blackett Laboratory, Physics Department, Imperial College London, London SW7 2AZ, UK" "New J.Phys., 11(2009)025015"
151382 NJP011025018 unannealed. RRR = 32. lattice term in SP: (beta) = 0.10 mJ/mol.K4. LaFePO La1Fe1P1O1 La 1 Fe 1 P 1 O 1 3 2009 oxypnictide K 6.6 1.3 6.6 mJ/mol.K2 12.7 SP-heat 427 SP-heat mOhm.cm 0.014 single crystals grown from the melt using Sn:P flux. "Superconductivity in LnFePO (Ln=La, Pr and Nd) single crystals" 2009 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "New J.Phys., 11(2009)025018"
151383 NJP011025018 unannealed. RRR = 14. lattice term in SP: (beta) = 0.28 mJ/mol.K4. PrFePO Pr1Fe1P1O1 Pr 1 Fe 1 P 1 O 1 3 2009 cm3/mol 0 -46.7 oxypnictide K 3.2 2 3.2 mJ/mol.K2 10 SP-heat 0.021 single crystals grown from the melt using Sn:P flux. "Superconductivity in LnFePO (Ln=La, Pr and Nd) single crystals" 2009 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "New J.Phys., 11(2009)025018"
151384 NJP011025018 unannealed. RRR = 28 NdFePO Nd1Fe1P1O1 Nd 1 Fe 1 P 1 O 1 3 2009 cm3/mol 0.039 -8.1 oxypnictide K 3.1 3.1 3.1 0.0139 single crystals grown from the melt using Sn:P flux. "Superconductivity in LnFePO (Ln=La, Pr and Nd) single crystals" 2009 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "New J.Phys., 11(2009)025018"
151385 NJP011025018 annealed. lattice term in SP: (beta) = 0.22 mJ/mol.K4. PrFePO Pr1Fe1P1O1 Pr 1 Fe 1 P 1 O 1 3 2009 oxypnictide K 3.6 3.6 mJ/mol.K 15.1 mJ/mol.K2 3 SP-heat single crystals grown from the melt using Sn:P flux. "Superconductivity in LnFePO (Ln=La, Pr and Nd) single crystals" 2009 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "New J.Phys., 11(2009)025018"
151386 NJP011025023 not SC. T = 165 K "Sr(Fe,Mn)2As2" Sr1Fe1.9Mn0.1As2 Sr 1 Fe 1.9 Mn 0.1 As 2 1 2009 ThCr2Si2 A 3.9319 12.4161 K 4 solid state reaction "AFe2As2 (A= Ca, Sr, Ba, Eu) and SrFe2-xTMxAs2 (TM = Mn, Co, Ni): crystal structure, charge doping, magnetism and superconductivity" 2009 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Dresden, Germany" "New J.Phys., 11(2009)025023"
151387 NJP011025023 not SC. T = 130 K "Sr(Fe,Mn)2As2" Sr1Fe1.8Mn0.2As2 Sr 1 Fe 1.8 Mn 0.2 As 2 1 2009 ThCr2Si2 A 3.9384 12.4615 K 4 solid state reaction "AFe2As2 (A= Ca, Sr, Ba, Eu) and SrFe2-xTMxAs2 (TM = Mn, Co, Ni): crystal structure, charge doping, magnetism and superconductivity" 2009 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Dresden, Germany" "New J.Phys., 11(2009)025023"
151388 NJP011025023 not SC. T = 130 K. "Sr(Fe,Mn)2As2" Sr1Fe1.7Mn0.3As2 Sr 1 Fe 1.7 Mn 0.3 As 2 1 2009 ThCr2Si2 A 3.9441 12.4832 K 4 solid state reaction "AFe2As2 (A= Ca, Sr, Ba, Eu) and SrFe2-xTMxAs2 (TM = Mn, Co, Ni): crystal structure, charge doping, magnetism and superconductivity" 2009 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Dresden, Germany" "New J.Phys., 11(2009)025023"
151390 CC20092189 no impurity phases (XRD analysis). Na0.98FeAs0.98 (NPD). [vols] = 10 % at 2K. NaFeAs Na1Fe1As1 Na 1 Fe 1 As 1 1 2009 ABC PbFCl P4/nmm A 3.9494 7.0396 K 9 9 10 "(Fe-,As-powders) - ground) - ADD(Na-pieces) - (sealed in Ta tube) - heat(800C,2d)" "Structure, antiferromagnetism and superconductivity of the layered iron arsenide NaFeAs" 2009 "Department of Chemistry, University of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford, UK" "Chem.Commun., (2009) 2189"
151391 PRB079184516 SC volume fraction is very small. NaFeAs Na1Fe1As1 Na 1 Fe 1 As 1 1 2009 ABC PbFCl P4/nmm A 3.9866 7.094 K 6 6 "FeAs firstly made(600-800C), then ADD(Na-ingot) - (sealed in Nb tube) heat(750C,3d) - cool to 300C - ANN(300-400C)" Unusual doping dependence of superconductivity in NayFeAs 2009 "Department of Physics and TCSUH, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 79(2009)184516"
151392 PRB079184516 "[vols] = 75% at 2 K. R(H,T) and Hall effect measured." NaFeAs Na0.9Fe1As1 Na 0.9 Fe 1 As 1 1 2009 ABC PbFCl P4/nmm K 7 7 75 "FeAs firstly made(600-800C), then ADD(Na-ingot) - (sealed in Nb tube) heat(750C,3d) - cool to 300C - ANN(300-400C)" Unusual doping dependence of superconductivity in NayFeAs 2009 "Department of Physics and TCSUH, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 79(2009)184516"
151393 PRB079184516 SC volume fraction is very small. NaFeAs Na0.5Fe1As1 Na 0.5 Fe 1 As 1 1 2009 ABC PbFCl P4/nmm K 12 12 "FeAs firstly made(600-800C), then ADD(Na-ingot) - (sealed in Nb tube) heat(750C,3d) - cool to 300C - ANN(300-400C)" Unusual doping dependence of superconductivity in NayFeAs 2009 "Department of Physics and TCSUH, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 79(2009)184516"
151394 PRB079180502 "RRR=16.5. (dC/gamma*Tc) = 1.41. BaIr2P2(85%), Ba3(PO4)2 (10%), a few % of Ir2P, IrP2" BaIr2P2 Ba1Ir2P2 Ba 1 Ir 2 P 2 1 2009 AB2C2 ThCr2Si2 A 3.9469 12.559 K 2.1 2.1 100 Oe resistivity 410 Oe/K 279 A from Hc2 800 mJ/mol.K2 9.3 SP-heat single crystals grown by metal flux method. Ba:Ir:P:Pb:Cu = 1.3:2:2:40:5 used Superconductivity without Fe or Ni in the phosphides BaIr2P2 and BaRh2P2 2009 "Department of Physics and Astronomy, University of California?Irvine, Irvine, California 92697-4575, USA" "Phys.Rev.B, 79(2009)180502"
151395 PRB079180502 RRR=7.5. (dC/gamma*Tc) = 1.17. BaRh2P2 Ba1Rh2P2 Ba 1 Rh 2 P 2 3 2009 AB2C2 ThCr2Si2 A 3.9308 12.574 K 1 1 Oe resistivity 370 Oe/K 528 A from Hc2 950 mJ/mol.K2 9.2 SP-heat single crystals grown by metal flux method. Ba:Ir:P:Pb:Cu = 1.3:2:2:40:5 used Superconductivity without Fe or Ni in the phosphides BaIr2P2 and BaRh2P2 2009 "Department of Physics and Astronomy, University of California?Irvine, Irvine, California 92697-4575, USA" "Phys.Rev.B, 79(2009)180502"
151396 PRB079180502 CaRh2P2 Ca1Rh2P2 Ca 1 Rh 2 P 2 3 2009 AB2C2 ThCr2Si2 A 4.0179 9.655 K 0.5 mJ/mol.K2 10.7 SP-heat single crystals grown by metal flux method. Ba:Ir:P:Pb:Cu = 1.3:2:2:40:5 used Superconductivity without Fe or Ni in the phosphides BaIr2P2 and BaRh2P2 2009 "Department of Physics and Astronomy, University of California?Irvine, Irvine, California 92697-4575, USA" "Phys.Rev.B, 79(2009)180502"
151397 PRB078104512 "RRR = 5.3. lattice term in SP: (beta) = 1.93 mJ/mol.K4. no indication of SC, SDW, and structural transition." BaRh2As2 Ba1Rh2As2 Ba 1 Rh 2 As 2 3 2008 AB2C2 ThCr2Si2 I4/mmm A 4.0564 12.797 K 2 mJ/mol.K2 4.7 SP-heat 171 SP-heat mOhm.cm 0.029 cm3/C 0.00035 8 cm(-3) 1.80E+22 Pb-flux method Single-crystal growth and physical properties of the layered arsenide BaRh2As2 2008 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 78(2008)104512"
151398 PRB079184508 "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 3 2009 T K 45.3 45.3 T "resistivity, WHH" 67.4 HC151398 A from Hc2 22.1 TSFZ method Zn-doping effects on the electrical resistivity of La1.85Sr0.15CuO4 under a magnetic field 2009 "Department of Physics, Tohoku University, Sendai 980-8578, Japan" "Phys.Rev.B, 79(2009)184508"
151399 PRB079184508 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.996Zn0.004O4 La 1.85 Sr 0.15 Cu 0.996 Zn 0.004 O 4 3 2009 T K 39 39 T "resistivity, WHH" 53.1 HC151398 A from Hc2 24.9 TSFZ method Zn-doping effects on the electrical resistivity of La1.85Sr0.15CuO4 under a magnetic field 2009 "Department of Physics, Tohoku University, Sendai 980-8578, Japan" "Phys.Rev.B, 79(2009)184508"
151400 PRB079184508 "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.992Zn0.008O4 La 1.85 Sr 0.15 Cu 0.992 Zn 0.008 O 4 3 2009 T K 35.7 35.7 T "resistivity, WHH" 38.1 HC151398 A from Hc2 29.4 TSFZ method Zn-doping effects on the electrical resistivity of La1.85Sr0.15CuO4 under a magnetic field 2009 "Department of Physics, Tohoku University, Sendai 980-8578, Japan" "Phys.Rev.B, 79(2009)184508"
151401 PRB079184508 "Zn-content by ICP. Hc2 defined as 0.95Rn from H//c, J//ab measurements. Hc2(0) estimated by us." "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.983Zn0.017O4 La 1.85 Sr 0.15 Cu 0.983 Zn 0.017 O 4 3 2009 T K 22.8 22.8 T "resistivity, WHH" 13.8 HC151398 A from Hc2 48.8 TSFZ method Zn-doping effects on the electrical resistivity of La1.85Sr0.15CuO4 under a magnetic field 2009 "Department of Physics, Tohoku University, Sendai 980-8578, Japan" "Phys.Rev.B, 79(2009)184508"
151402 PRB079184525 "Tc, Hc2 defined as 0.5 Rn. G-L parameter = 79" NiZr2 Ni1Zr2 Ni 1 Zr 2 2009 AB2 AMOR K 2.44 2.44 T 4.7 0.33 T/K "resistive, 0.5Rn" 3 A from Hc2 81 uOhm.m 1.68 "arc-melting. melt-spinning the bottans(40 kPa-He, Cu-wheel 50 m/s, cooling rate = E;5-E;6 K/s)" Superconductivity and short-range order in metallic glasses FexNi1-xZr2 2009 "Department of Physics, McGill University, Montreal, Canada H3A 2T8" "Phys.Rev.B, 79(2009)184525"
151403 PRB079184525 "Tc, Hc2 defined as 0.5 Rn. G-L parameter = 68" "(Fe,Ni)Zr2" Fe0.1Ni0.9Zr2 Fe 0.1 Ni 0.9 Zr 2 2009 AB2 AMOR K 2.65 2.65 T 5.3 0.33 T/K "resistive, 0.5Rn" 2.2 A from Hc2 80 uOhm.m 1.68 "arc-melting. melt-spinning the bottans(40 kPa-He, Cu-wheel 50 m/s, cooling rate = E;5-E;6 K/s)" Superconductivity and short-range order in metallic glasses FexNi1-xZr2 2009 "Department of Physics, McGill University, Montreal, Canada H3A 2T8" "Phys.Rev.B, 79(2009)184525"
151404 PRB079184525 "Tc, Hc2 defined as 0.5 Rn. G-L parameter = 75" "(Fe,Ni)Zr2" Fe0.15Ni0.85Zr2 Fe 0.15 Ni 0.85 Zr 2 2009 AB2 AMOR K 2.31 2.31 T 4.5 0.33 T/K "resistive, 0.5Rn" 2.8 A from Hc2 83 uOhm.m 1.62 "arc-melting. melt-spinning the bottans(40 kPa-He, Cu-wheel 50 m/s, cooling rate = E;5-E;6 K/s)" Superconductivity and short-range order in metallic glasses FexNi1-xZr2 2009 "Department of Physics, McGill University, Montreal, Canada H3A 2T8" "Phys.Rev.B, 79(2009)184525"
151405 PRB079184525 "Tc, Hc2 defined as 0.5 Rn. G-L parameter = 71" "(Fe,Ni)Zr2" Fe0.2Ni0.8Zr2 Fe 0.2 Ni 0.8 Zr 2 2009 AB2 AMOR K 2.13 2.13 MTC151405 T 4.29 0.33 T/K "resistive, 0.5Rn" 2.4 MHC151405 A from Hc2 82 uOhm.m 1.69 "arc-melting. melt-spinning the bottans(40 kPa-He, Cu-wheel 50 m/s, cooling rate = E;5-E;6 K/s)" Superconductivity and short-range order in metallic glasses FexNi1-xZr2 2009 "Department of Physics, McGill University, Montreal, Canada H3A 2T8" "Phys.Rev.B, 79(2009)184525"
151406 PRB079184525 "Tc, Hc2 defined as 0.5 Rn. G-L parameter = 78" "(Fe,Ni)Zr2" Fe0.3Ni0.7Zr2 Fe 0.3 Ni 0.7 Zr 2 2009 AB2 AMOR K 2.02 2.02 T 4.03 0.33 T/K "resistive, 0.5Rn" 2.8 A from Hc2 88 uOhm.m 1.75 "arc-melting. melt-spinning the bottans(40 kPa-He, Cu-wheel 50 m/s, cooling rate = E;5-E;6 K/s)" Superconductivity and short-range order in metallic glasses FexNi1-xZr2 2009 "Department of Physics, McGill University, Montreal, Canada H3A 2T8" "Phys.Rev.B, 79(2009)184525"
151407 PRB079184525 "Tc, Hc2 defined as 0.5 Rn. G-L parameter = 86" "(Fe,Ni)Zr2" Fe0.33Ni0.67Zr2 Fe 0.33 Ni 0.67 Zr 2 2009 AB2 AMOR K 2.13 2.13 T 3.81 0.33 T/K "resistive, 0.5Rn" 3.2 A from Hc2 87 uOhm.m 1.84 "arc-melting. melt-spinning the bottans(40 kPa-He, Cu-wheel 50 m/s, cooling rate = E;5-E;6 K/s)" Superconductivity and short-range order in metallic glasses FexNi1-xZr2 2009 "Department of Physics, McGill University, Montreal, Canada H3A 2T8" "Phys.Rev.B, 79(2009)184525"
151408 PRB079184525 "Tc, Hc2 defined as 0.5 Rn. G-L parameter = 83" "(Fe,Ni)Zr2" Fe0.36Ni0.64Zr2 Fe 0.36 Ni 0.64 Zr 2 2009 AB2 AMOR K 2.04 2.04 T/K "resistive, 0.5Rn" 3.2 uOhm.m 1.72 "arc-melting. melt-spinning the bottans(40 kPa-He, Cu-wheel 50 m/s, cooling rate = E;5-E;6 K/s)" Superconductivity and short-range order in metallic glasses FexNi1-xZr2 2009 "Department of Physics, McGill University, Montreal, Canada H3A 2T8" "Phys.Rev.B, 79(2009)184525"
151409 PRB079184525 "Tc, Hc2 defined as 0.5 Rn. G-L parameter = 74" "(Fe,Ni)Zr2" Fe0.4Ni0.6Zr2 Fe 0.4 Ni 0.6 Zr 2 2009 AB2 AMOR K 1.78 1.78 T 3.35 0.33 T/K "resistive, 0.5Rn" 2.6 A from Hc2 96 uOhm.m 1.7 "arc-melting. melt-spinning the bottans(40 kPa-He, Cu-wheel 50 m/s, cooling rate = E;5-E;6 K/s)" Superconductivity and short-range order in metallic glasses FexNi1-xZr2 2009 "Department of Physics, McGill University, Montreal, Canada H3A 2T8" "Phys.Rev.B, 79(2009)184525"
151410 PRB079184525 "Tc, Hc2 defined as 0.5 Rn. G-L parameter = 70" "(Fe,Ni)Zr2" Fe0.5Ni0.5Zr2 Fe 0.5 Ni 0.5 Zr 2 2009 AB2 AMOR K 1.25 1.25 T 1.69 0.33 T/K "resistive, 0.5Rn" 2.3 A from Hc2 123 uOhm.m 1.69 "arc-melting. melt-spinning the bottans(40 kPa-He, Cu-wheel 50 m/s, cooling rate = E;5-E;6 K/s)" Superconductivity and short-range order in metallic glasses FexNi1-xZr2 2009 "Department of Physics, McGill University, Montreal, Canada H3A 2T8" "Phys.Rev.B, 79(2009)184525"
151411 PRB079184525 "Tc, Hc2 defined as 0.5 Rn." "(Fe,Ni)Zr2" Fe0.6Ni0.4Zr2 Fe 0.6 Ni 0.4 Zr 2 2009 AB2 AMOR K 0.2 0.2 T 1.05 0.33 T/K "resistive, 0.5Rn" A from Hc2 162 uOhm.m 1.67 "arc-melting. melt-spinning the bottans(40 kPa-He, Cu-wheel 50 m/s, cooling rate = E;5-E;6 K/s)" Superconductivity and short-range order in metallic glasses FexNi1-xZr2 2009 "Department of Physics, McGill University, Montreal, Canada H3A 2T8" "Phys.Rev.B, 79(2009)184525"
151412 PRB079184524 local magnetization measured by Hall sensors. Tc from PRB079184525 NiZr2 Ni1Zr2 Ni 1 Zr 2 2009 AB2 AMOR K 2.44 2.44 Oe 4.7 MHC151412 "arc-melting. melt-spinning the bottans(40 kPa-He, Cu-wheel 50 m/s, cooling rate = E;5-E;6 K/s)" Local magnetization fluctuations in superconducting glasses resolved by Hall sensors 2009 "Department of Physics, McGill University, Montreal, Canada H3A 2T8" "Phys.Rev.B, 79(2009)184524"
151413 PRB079184524 local magnetization measured by Hall sensors. Tc from PRB079184525 "(Fe,Ni)Zr2" Fe0.1Ni0.9Zr2 Fe 0.1 Ni 0.9 Zr 2 2009 AB2 AMOR K 2.65 2.65 Oe 5.9 MHC151413 "arc-melting. melt-spinning the bottans(40 kPa-He, Cu-wheel 50 m/s, cooling rate = E;5-E;6 K/s)" Local magnetization fluctuations in superconducting glasses resolved by Hall sensors 2009 "Department of Physics, McGill University, Montreal, Canada H3A 2T8" "Phys.Rev.B, 79(2009)184524"
151414 PRB079184524 local magnetization measured by Hall sensors. Tc from PRB079184525 "(Fe,Ni)Zr2" Fe0.2Ni0.8Zr2 Fe 0.2 Ni 0.8 Zr 2 2009 AB2 AMOR K 2.13 2.13 Oe 5.9 MHC151412 "arc-melting. melt-spinning the bottans(40 kPa-He, Cu-wheel 50 m/s, cooling rate = E;5-E;6 K/s)" Local magnetization fluctuations in superconducting glasses resolved by Hall sensors 2009 "Department of Physics, McGill University, Montreal, Canada H3A 2T8" "Phys.Rev.B, 79(2009)184524"
151415 PRB079184524 local magnetization measured by Hall sensors. Tc from PRB079184525 "(Fe,Ni)Zr2" Fe0.3Ni0.7Zr2 Fe 0.3 Ni 0.7 Zr 2 2009 AB2 AMOR K 2.02 2.02 Oe 6 MHC151415 "arc-melting. melt-spinning the bottans(40 kPa-He, Cu-wheel 50 m/s, cooling rate = E;5-E;6 K/s)" Local magnetization fluctuations in superconducting glasses resolved by Hall sensors 2009 "Department of Physics, McGill University, Montreal, Canada H3A 2T8" "Phys.Rev.B, 79(2009)184524"
151416 PRB079184524 local magnetization measured by Hall sensors. Tc from PRB079184525 "(Fe,Ni)Zr2" Fe0.4Ni0.6Zr2 Fe 0.4 Ni 0.6 Zr 2 2009 AB2 AMOR K 1.78 1.78 Oe 6.9 MHC151413 "arc-melting. melt-spinning the bottans(40 kPa-He, Cu-wheel 50 m/s, cooling rate = E;5-E;6 K/s)" Local magnetization fluctuations in superconducting glasses resolved by Hall sensors 2009 "Department of Physics, McGill University, Montreal, Canada H3A 2T8" "Phys.Rev.B, 79(2009)184524"
151417 PRB079184524 local magnetization measured by Hall sensors. Tc from PRB079184525 "(Fe,Ni)Zr2" Fe0.5Ni0.5Zr2 Fe 0.5 Ni 0.5 Zr 2 2009 AB2 AMOR K 1.25 1.25 Oe 3.4 MHC151415 "arc-melting. melt-spinning the bottans(40 kPa-He, Cu-wheel 50 m/s, cooling rate = E;5-E;6 K/s)" Local magnetization fluctuations in superconducting glasses resolved by Hall sensors 2009 "Department of Physics, McGill University, Montreal, Canada H3A 2T8" "Phys.Rev.B, 79(2009)184524"
151418 PRB079214505 Co-content confirmed by EMS. thermal expansin(TE) measured by capacitance dilatometer. (dTc/dP) calculated from SP and TE using Ehrenfest relation. "Ba(Fe,Co)2As2" Ba1Fe1.84Co0.16As2 Ba 1 Fe 1.84 Co 0.16 As 2 3 2009 AB2C2 ThCr2Si2 A 3.9534 12.942 K 21.5 21.5 K/GPa -1.7 J/mol.K 0.471 FeAs-flux method High-resolution measurements of the thermal expansion of superconducting Co-doped BaFe2As2 2009 "Department of Physics, Montana State University, Bozeman, P.O. Box 173840, Montana 59717-3840, USA" "Phys.Rev.B, 79(2009)214505"
151419 PRB079214505 Co-content confirmed by EMS. thermal expansin(TE) measured by capacitance dilatometer. (dTc/dP) calculated from SP and TE using Ehrenfest relation. "Ba(Fe,Co)2As2" Ba1Fe1.77Co0.23As2 Ba 1 Fe 1.77 Co 0.23 As 2 3 2009 AB2C2 ThCr2Si2 A 3.9519 12.937 K 16.5 16.5 K/GPa -13 J/mol.K 0.281 FeAs-flux method High-resolution measurements of the thermal expansion of superconducting Co-doped BaFe2As2 2009 "Department of Physics, Montana State University, Bozeman, P.O. Box 173840, Montana 59717-3840, USA" "Phys.Rev.B, 79(2009)214505"
151420 PRL102187004 RRR=4. uniaxial P-dependence of Tc measured by thermal expansion and SP. (dTc/dP)a = 3.1 K/GPa. (dTc/dP)c = -7.0 K/GPa. (dC/Tc) = 28 mJ/mol.K2 "Ba(Fe,Co)2As2" Ba1Fe1.84Co0.16As2 Ba 1 Fe 1.84 Co 0.16 As 2 3 2009 AB2C2 ThCr2Si2 K 21.8 19.8 21.8 K/GPa -0.9 J/mol.K 0.554 "FeAs,CoAs,Ba" "mixture(Ba:Fe:Co:As=1:2.67:0.33:3) - (placed in Al2O3) - (sealed in evacuated SiO2) - heat(650C, then 1170C) - hold(5h) - cool (1.5C/h)" Large Anisotropic Uniaxial Pressure Dependencies of Tc in Single Crystalline Ba(Fe0.92Co0.08)2As2 2009 "Forschungszentrum Karlsruhe, Institut fur Festkorperphysik, PO Box 3640, 76021 Karlsruhe, Germany" "Phys.Rev.Lett., 102(2009)187004"
151421 PRL102187005 "K-content not given. two gaps ( higher 9.1 meV(DB), lower 1.5 meV) . anisotropy(penet) increases from 1.1(Tc) to 1.9(low-T)." "(Ba,K)Fe2As2" Ba0.5K0.5Fe2As2 Ba 0.5 K 0.5 Fe 2 As 2 3 2009 AB2C2 ThCr2Si2 K 32 32 A muon-SR 3200 meV 9.1 Two-Gap Superconductivity in Ba1-xKxFe2As2: A Complementary Study of the Magnetic Penetration Depth by Muon-Spin Rotation and Angle-Resolved Photoemission 2009 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.Lett., 102(2009)187005"
151422 PRB078220505 K-content measured by X-ray spectroscopy. Hc2(T) and [penet] measured by rf field sensor using 60T pulsed field. anisotropy(Hc2) decreases from 3.5(at Tc) to 1.16 (14 K). "(Ba,K)Fe2As2" Ba0.55K0.45Fe2As2 Ba 0.55 K 0.45 Fe 2 As 2 3 2008 AB2C2 ThCr2Si2 K 32 32 MHC151422 A 34 29 Determination of anisotropic Hc2 up to 60 T in Ba0.55K0.45Fe2As2 single crystals 2008 "MPA-NHMFL, Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 78(2008)220505"
151423 NAT4570565 K-content (nominal). anisotropy(Hc2) decreases from 2.0(Tc) to 1(10K). nHc2(0) by extraporation. "(Ba,K)Fe2As2" Ba0.6K0.4Fe2As2 Ba 0.6 K 0.4 Fe 2 As 2 3 2009 AB2C2 ThCr2Si2 K 28.2 28.2 T "resistive, 0.5Rn" 70 T/K "resistive, 0.5Rn" 5.4 2.9 MHC151423 MRH151423 "Nearly isotropic superconductivity in (Ba,K)Fe2As2" 2009 "Department of Physics, Zhejiang University, Hangzhou, Zhejiang 310027, China." Nature 457(2009)565
151424 PRL102187005 "K-content not given. two gaps ( higher 9.1 meV(DB), lower <4 meV) ." "(Ba,K)Fe2As2" Ba0.5K0.5Fe2As2 Ba 0.5 K 0.5 Fe 2 As 2 3 2009 AB2C2 ThCr2Si2 K 32 32 A ARPES 2700 meV 9.1 Two-Gap Superconductivity in Ba1-xKxFe2As2: A Complementary Study of the Magnetic Penetration Depth by Muon-Spin Rotation and Angle-Resolved Photoemission 2009 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.Lett., 102(2009)187005"
151425 PRL102227004 "Na-deficiency < 1%. structural(52K), magnetic(41K) transition observed in R and SUS measurements." NaFeAs Na1Fe1As1 Na 1 Fe 1 As 1 3 2009 ABC PbFCl A 7.028 K 8 15 15 T "resistive, 0.5Rn, WHH" 41.2 22.7 T/K "resistive, 0.5Rn" 3.98 2.19 MHC151425 mJ/mol.K2 5 MRH151425 "single crystal grown by self-flux method. starting(Li1.5FeAs. mixture(Na,FeAs) - (sealed in Ta crucible) - (evacuated quartz ampoule) - heat(1100C) - cool(5C/h)" Multiple Phase Transitions in Single-Crystalline Na1-zFeAs 2009 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" "Phys.Rev.Lett., 102(2009)227004"
151427 PRL102217003 Ga-ion inplantation. maximum Ga concentration = 8 at% (60 nm depth). flash annealing at 50.8 J/cm2. Hc2 measured for H// and H/n to sample plane. Ga-doped Ge Ge0.92Ga0.08 Ge 0.92 Ga 0.08 2009 AB K 0.45 0.45 T "resistive, 0.5Rn, extraporation" 1.1 0.3 MHC151427 Superconducting State in a Gallium-Doped Germanium Layer at Low Temperatures 2009 "Dresden High Magnetic Field Laboratory (HLD) and Institute of Ion Beam Physics and Materials Research, Forschungszentrum Dresden-Rossendorf (FZD), Dresden, Germany" "Phys.Rev.Lett., 102(2009)217003"
151428 PRL102197001 (dTc/dP) calculated from uniaxial values (dTc/dP)//c = -0.66 K/GPa and (dTc/dP)//a = 0.56 K/GPa. Tc defined as maximum of C/T. (dC/gamma*Tc) = 0.73 CeInIn5 Ce1Ir1In5 Ce 1 Ir 1 In 5 3 2009 ABC5 HoCoGa5 K 0.4 0.4 MTC151428 K/GPa 0.46 crystals grown in alumina crucible from the melt with excess In. Anisotropic Dependence of Superconductivity on Uniaxial Pressure in CeIrIn5 2009 "Department of Physics, University of California Davis, Davis, California 95616, USA" "Phys.Rev.Lett., 102(2009)197001"
151429 PRL102197002 "P induced SC. Eu: 99.98 % from Ames Lab. pressure by DAC. P = 80 GPa, Tc=1.78 K. Tc = 2.75 K at P=142 GPa." Eu Eu1 Eu 1 2009 K 2.75 0 2.75 MTC151429 K/GPa 0.018 Pressure-Induced Superconducting State of Europium Metal at Low Temperatures 2009 "Department of Physics, Washington University, CB 1105, One Brookings Drive, Saint Louis, Missouri 63130, USA" "Phys.Rev.Lett., 102(2009)197002"
151430 PRL102206602 "negative MR, field induced I-S transition, etc shows quasi-one-dimensional SC: Tc(onset) > 10 K." Li0.9Mo6O17 Li0.9Mo6O17 Li 0.9 Mo 6 O 17 3 2009 AB6C17 bronze K 10 10 Temperature gradient flux method Directional Field-Induced Metallization of Quasi-One-Dimensional Li0.9Mo6O17 2009 "H. H. Wills Physics Laboratory, University of Bristol, Tyndall Avenue, BS8 1TL, United Kingdom" "Phys.Rev.Lett., 102(2009)206602"
151431 NAP0040603 "RRR = 300 for R//ab. For RRR=70 sample, not SC (Tcn=0.03). [npenet] is preliminary data. structure data from Chem.Mater., 19(2007)1918." beta-YbAlB4 Yb1Al1B4 Yb 1 Al 1 B 4 3 2008 myu-B/Yb 3.1 -210 ABC4 3 ThMoB4 Cmmm 65 A 7.308 9.315 3.498 K 0.08 0.08 15 um 6 uOhmcm 0.4 Al-flux method Superconductivity and quantum criticality in the heavy-fermion system beta-YbAlB4 2008 "Institute for Solid State Physics (ISSP), University of Tokyo, Kashiwa 277-8581, Japan" Nature Phys.. 4(2008)603
151432 JPS078083702 PM(tetra) to AFM(ortho) transition at 200K. uniaxial(c-axis)-P-dependence of Tc for various pressure mediums were measured. Table values show for Daphne7474. SrFe2As2 Sr1Fe2As2 Sr 1 Fe 2 As 2 2009 200 AB2C2 ThCr2Si2 K 30.1 0 30.1 MTC151432 Effect of Uniaxial Stress for Pressure-Induced Superconductor SrFe2As2 2009 "Department of Physics, Kobe University, Kobe 657-8501" "J.Phys.Soc.Jpn, 78(2009)083702"
151433 JPS077064716 "P-induced SC. SC properties for P=6.5 GPa. For P=5.4 GPa, Tc=0.13K and Hc2(0)//[001] = 1.5 kOe. Hc2-Fig for H//[001]." CeCoGe3 Ce1Co1Ge3 Ce 1 Co 1 Ge 3 3 2008 21 ABC3 BaNiSn3 K 0.69 0 0.69 MTC151433 T/K resistivity 20 MHC151433 Bi-flux method Magnetic and Superconducting Properties of CeTX3 (T: Transition Metal and X: Si and Ge) with Non-centrosymmetric Crystal Structure 2008 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043" "J.Phys.Soc.Jpn, 77(2008)064716"
151434 11 BaBi3 Ba1Bi3 Ba 1 Bi 3 1952 AB3 K 5.69 5.69 A search for new superconducting compounds 1952 "Phys.Rev., 87(1952)799"
151435 JPS078083701 P-induced SC. SC properties show for P=28 kbar. (dHc2/dT) estimated from the data for H =< 0.5 T. EuFe2As2 Eu1Fe2As2 Eu 1 Fe 2 As 2 3 2009 AB2C2 ThCr2Si2 K 29 30 0 29 100 T/K resistivity 0.19 0.5 MHC151435 Bridgman method EuFe2As2 under High Pressure: An Antiferromagnetic Bulk Superconductor 2009 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0003" "J.Phys.Soc.Jpn, 78(2009)083702"
151436 JPS078063703 RRR=50. pressure medium = Daphne7373. Field(H//baxis) reentrant SC measured for various P (0 < P < 0.84 GPa). Tc(max) = 0.4 K for reentrant SC. (dTm/dP) = 0.95 K/GPa and (dTc/dP) estimated from Fig. URhGe U1Rh1Ge1 U 1 Rh 1 Ge 1 3 2009 ABC TiNiSi K 0.26 0.26 MTC151436 K/GPa -0.036 Czochralski method Pressure Evolution of the Ferromagnetic and Field Re-entrant Superconductivity in URhGe 2009 "INAC/SPSMS, CEA-Grenoble, 17 rue des Martyrs, 38054 Grenoble, France" "J.Phys.Soc.Jpn, 78(2009)063703"
151437 JPS078063704 (dTc/dT) estimated from Fig for P < 0.5 GPa. FeSe0.92 Fe1Se0.92 Fe 1 Se 0.92 1 2009 AB K 7.2 7.2 MTC151437 K/GPa 6.7 Solid state reaction Precise Pressure Dependence of the Superconducting Transition Temperature of FeSe: Resistivity and <77>Se-NMR Study 2009 "Department of Physics, Kobe University, Kobe 658-8530" "J.Phys.Soc.Jpn, 78(2009)063704"
151438 JPS078064702 Hc(0) = 1.5 mT. kappa(GL) = 14. (dHc/dT) = -24.7 mT/K. (dC/gamma*Tc) = 1.15. data from PCS0631021. alpha-Cd2Re2O7 Cd2Re2O7 Cd 2 Re 2 O 7 2009 A2B2C7 pyrochlore K 0.97 0.97 mT 2.1 T SP-heat 0.29 T/K SP-heat 0.42 A 340 A 4600 458 SP-heat Rattling-Induced Superconductiviy in thebeta-Pyrochlore Oxides AOs2O6 2009 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581" "J.Phys.Soc.Jpn, 78(2009)064702"
151439 JPS078064702 RRR=550. Hc(0) = 59.0 mT. kappa(GL) = 14. (dHc/dT) = -30.3 mT/K. (dC/gamma*Tc) = 1.49. [gapene] using single gap model. beta-CsOs2O6 Cs1Os2O6 Cs 1 Os 2 O 6 3 2009 AB2C6 pyrochlore K 3.25 3.25 mT 8.2 T SP-heat 1.15 T/K SP-heat 0.44 HC151439 A 170 A 2300 3.66 14 mJ/mol.K2 41.3 SP-heat uOhmcm 0.75 410 Rattling-Induced Superconductiviy in thebeta-Pyrochlore Oxides AOs2O6 2009 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581" "J.Phys.Soc.Jpn, 78(2009)064702"
151440 JPS078064702 RRR = 1250. Hc(0) = 125.9 mT. kappa(GL) = 27. (dHc/dT) = -36.5 mT/K. (dC/gamma*Tc) = 1.83. [gapene] using single gap model. beta-RbOs2O6 Rb1Os2O6 Rb 1 Os 2 O 6 3 2009 AB2C6 pyrochlore K 6.28 6.28 mT 11.1 T SP-heat 4.81 T/K SP-heat 0.88 HC151440 A 83 A 2200 4 14 mJ/mol.K2 44.7 SP-heat uOhmcm 1.1 1370 Rattling-Induced Superconductiviy in thebeta-Pyrochlore Oxides AOs2O6 2009 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581" "J.Phys.Soc.Jpn, 78(2009)064702"
151441 JPS078064702 Hc(0) = 124.9 mT. kappa(GL) = 34. (dHc/dT) = -37.0 mT/K. (dC/gamma*Tc) = 1.9. data from PRB071214517 beta-RbOs2O6 Rb1Os2O6 Rb 1 Os 2 O 6 2009 AB2C6 pyrochlore K 6.4 6.4 mT 9.2 T SP-heat 6 T/K SP-heat 1.2 A 74 A 2520 Rattling-Induced Superconductiviy in thebeta-Pyrochlore Oxides AOs2O6 2009 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581" "J.Phys.Soc.Jpn, 78(2009)064702"
151442 JPS078064702 Hc(0) = 255 mT. kappa(GL) = 82. (dHc/dT) = -56.1 mT/K. (dC/gamma*Tc) = 2.87. data from PRB07076014523 beta-KOs2O6 K1Os2O6 K 1 Os 2 O 6 2009 AB2C6 pyrochlore K 9.6 9.6 mT 10.1 T SP-heat 30.6 T/K SP-heat 3.61 A 33 A 2700 5 14 Rattling-Induced Superconductiviy in thebeta-Pyrochlore Oxides AOs2O6 2009 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581" "J.Phys.Soc.Jpn, 78(2009)064702"
151443 PRB079233409 "S-doped amorphous-C. mass ratio (m/m) = 3 for a-C + S) sample. resistivity not measured. Hc2=Hc2(0)(1-t^2)^n, Hc2(0)=650 kOe, n=2.4. S-content not given." S-doped a-C C0.9S0.1 C 0.9 S 0.1 2009 AB K 38 38 Oe M-H curve 550 MHC151443 "mixture(amorphous C + S(4N) powder) - press - sealed in evacuated quartz tube - heat(250C,24h) cool to RT" Magnetization measurement of a possible high-temperature superconducting state in amorphous carbon doped with sulfur 2009 "Racah Institute of Physics, The Hebrew University, Jerusalem 91904, Israel" "Phys.Rev.B, 79(2009)233409"
151444 PRB079233409 a-C (amorphous-C). mass ratio (m/m) = 174 for a-C (amorphous-C). a-C C1 C 1 2009 A K 32 32 "mixture(amorphous C + S(4N) powder) - press - sealed in evacuated quartz tube - heat(250C,24h) cool to RT" Magnetization measurement of a possible high-temperature superconducting state in amorphous carbon doped with sulfur 2009 "Racah Institute of Physics, The Hebrew University, Jerusalem 91904, Israel" "Phys.Rev.B, 79(2009)233409"
151445 PMB0821335 composites of C & S. S-content not clear. resistivity not measured. remanent for H//a goes to zero at 570 K by extraporation. weak itinerant FM. C1-xSx C1S1 C 1 S 1 2002 AB A 6.72 K 9 9 Oe M-H curve 64 MHC151445 A 2270 "graphite rod,S-chunk" "mixture(C-powder + S-chunk) - press to pellet - sealed in evacuated quartz tube(0.5 atm-Ar) - heat(400C,1h) - cool to RT(4C/h)" Coexistence of superconductivity and ferromagnetism in the graphite-sulphur system 2002 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, California 92093-0360, USA" "Phylos.Mag. B, 82(2002)1335"
151446 PRB080014506 LixFeAs Li0.8Fe1As1 Li 0.8 Fe 1 As 1 2009 ABC PbFCl K 17.6 17.6 MTC151446 K/GPa -1.48 "Effect of pressure on the iron arsenide superconductor LixFeAs (x=0.8, 1.0, 1.1)" 2009 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 80(2009)014506"
151447 PRB080014506 LixFeAs Li1Fe1As1 Li 1 Fe 1 As 1 2009 ABC PbFCl K 18.3 18.3 MTC151446 K/GPa -1.38 "Effect of pressure on the iron arsenide superconductor LixFeAs (x=0.8, 1.0, 1.1)" 2009 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 80(2009)014506"
151448 PRB080014506 LixFeAs Li1.1Fe1As1 Li 1.1 Fe 1 As 1 2009 ABC PbFCl K 20 20 MTC151446 K/GPa -1.22 "Effect of pressure on the iron arsenide superconductor LixFeAs (x=0.8, 1.0, 1.1)" 2009 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 80(2009)014506"
151449 JPS077113712 Tc defined as Tc(on). T0 is the temperature of maximum (dR/dT) . LaOFeAs La1Fe1As1O1.0 La 1 Fe 1 As 1 O 1 1 2008 ABCD oxypnictide ZrCuSiAs K 10.2 10.2 MTC151449 1 solid state reaction Superconductivity under High Pressure in LaFeAsO 2008 "Department of Physics, College of Humanities and Sciences, Nihon University, Sakurajosui, Setagaya-ku, Tokyo 156-8550" "J.Phys.Soc.Jpn, 77(2008)113712"
151450 JPS077113712 Tc defined as Tc(on). "La(O,F)FeAs" La1Fe1As1F0.05O0.95 La 1 Fe 1 As 1 F 0.05 O 0.95 1 2008 ABCD oxypnictide ZrCuSiAs K 24.8 24.8 MTC151450 1 solid state reaction Superconductivity under High Pressure in LaFeAsO 2008 "Department of Physics, College of Humanities and Sciences, Nihon University, Sakurajosui, Setagaya-ku, Tokyo 156-8550" "J.Phys.Soc.Jpn, 77(2008)113712"
151451 JPS077113712 Tc defined as Tc(on). "La(O,F)FeAs" La1Fe1As1F0.11O0.89 La 1 Fe 1 As 1 F 0.11 O 0.89 1 2008 ABCD oxypnictide ZrCuSiAs K 28.5 28.5 MTC151451 1 solid state reaction Superconductivity under High Pressure in LaFeAsO 2008 "Department of Physics, College of Humanities and Sciences, Nihon University, Sakurajosui, Setagaya-ku, Tokyo 156-8550" "J.Phys.Soc.Jpn, 77(2008)113712"
151452 JPS077113712 Tc defined as Tc(on). "La(O,F)FeAs" La1Fe1As1F0.14O0.86 La 1 Fe 1 As 1 F 0.14 O 0.86 1 2008 ABCD oxypnictide ZrCuSiAs K 19 19 MTC151452 1 solid state reaction Superconductivity under High Pressure in LaFeAsO 2008 "Department of Physics, College of Humanities and Sciences, Nihon University, Sakurajosui, Setagaya-ku, Tokyo 156-8550" "J.Phys.Soc.Jpn, 77(2008)113712"
151453 JPS078064705 hole(outer plane) = 0.207. hole(inner plane) = 0.165 determined from NMR(Knight shift). "Ba2Ca3Cu4O8(O,F)2" Ba2Ca3Cu4F1.2O8.8 Ba 2 Ca 3 Cu 4 F 1.2 O 8.8 1 2009 234 K 102 102 high pressure synthesis Antiferromagnetic Phase Transition in Four-Layered High-Tc Superconductors Ba2Ca3Cu4O8(FyO1-y)2 with Tc=55-102 K: <63>Cu- and <19>F-NMR studies 2009 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531" "J.Phys.Soc.Jpn, 78(2009)064705"
151454 JPS078064705 hole(outer plane) = 0.189. hole(inner plane) = 0.150 determined from NMR(Knight shift). Neel-T from T1(NMR). "Ba2Ca3Cu4O8(O,F)2" Ba2Ca3Cu4F1.4O8.6 Ba 2 Ca 3 Cu 4 F 1.4 O 8.6 1 2009 30 234 K 91 91 high pressure synthesis Antiferromagnetic Phase Transition in Four-Layered High-Tc Superconductors Ba2Ca3Cu4O8(FyO1-y)2 with Tc=55-102 K: <63>Cu- and <19>F-NMR studies 2009 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531" "J.Phys.Soc.Jpn, 78(2009)064705"
151455 JPS078064705 hole(outer plane) = 0.167. hole(inner plane) = 0.144 determined from NMR(Knight shift). Neel-T from T1(NMR). "Ba2Ca3Cu4O8(O,F)2" Ba2Ca3Cu4F1.6O8.4 Ba 2 Ca 3 Cu 4 F 1.6 O 8.4 1 2009 50 234 K 77 77 high pressure synthesis Antiferromagnetic Phase Transition in Four-Layered High-Tc Superconductors Ba2Ca3Cu4O8(FyO1-y)2 with Tc=55-102 K: <63>Cu- and <19>F-NMR studies 2009 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531" "J.Phys.Soc.Jpn, 78(2009)064705"
151456 JPS078064705 hole(outer plane) = 0.148. hole(inner plane) = 0.132 determined from NMR(Knight shift). Neel-T from T1(NMR). spontaneous moment below Tn* = 30 K. Ba2Ca3Cu4O10 Ba2Ca3Cu4F2O8 Ba 2 Ca 3 Cu 4 F 2 O 8 1 2009 80 234 K 55 55 high pressure synthesis Antiferromagnetic Phase Transition in Four-Layered High-Tc Superconductors Ba2Ca3Cu4O8(FyO1-y)2 with Tc=55-102 K: <63>Cu- and <19>F-NMR studies 2009 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531" "J.Phys.Soc.Jpn, 78(2009)064705"
151457 JPS076094711 HgBa2Ca5Cu6Oz Hg1Ba2Ca5Cu6Oz Hg 1 Ba 2 Ca 5 Cu 6 O z 2007 Hg12nm A 25.34 "Hg12(n-1)n, n = 6" K 106.9 106.9 86 "HgO,CuO,Cu2O,Ca2CuO3,Ba2Ca2Cu3Oz" "mixture - pellet - encapsulated in Au - heat(950-1100C,2-5h, P=3.5 GPa)" Tc vs n Relationship for Multilayered High-Tc Superconductors 2007 "Nanoelectronics Research Institute, National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 76(2007)094711"
151458 JPS076094711 HgBa2Ca6Cu7Oz Hg1Ba2Ca6Cu7Oz Hg 1 Ba 2 Ca 6 Cu 7 O z 2007 Hg12nm A 28.47 "Hg12(n-1)n, n = 7" K 104.8 104.8 "HgO,CuO,Cu2O,Ca2CuO3,Ba2Ca2Cu3Oz" "mixture - pellet - encapsulated in Au - heat(950-1100C,2-5h, P=3.5 GPa)" Tc vs n Relationship for Multilayered High-Tc Superconductors 2007 "Nanoelectronics Research Institute, National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 76(2007)094711"
151459 JPS076094711 HgBa2Ca7Cu8Oz Hg1Ba2Ca7Cu8Oz Hg 1 Ba 2 Ca 7 Cu 8 O z 2007 Hg12nm A 31.64 "Hg12(n-1)n, n = 8" K 105.1 105.1 82 "HgO,CuO,Cu2O,Ca2CuO3,Ba2Ca2Cu3Oz" "mixture - pellet - encapsulated in Au - heat(950-1100C,2-5h, P=3.5 GPa)" Tc vs n Relationship for Multilayered High-Tc Superconductors 2007 "Nanoelectronics Research Institute, National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 76(2007)094711"
151460 JPS076094711 HgBa2Ca8Cu9Oz Hg1Ba2Ca8Cu9Oz Hg 1 Ba 2 Ca 8 Cu 9 O z 2007 Hg12nm A 34.81 "Hg12(n-1)n, n = 9" K 105.1 105.1 "HgO,CuO,Cu2O,Ca2CuO3,Ba2Ca2Cu3Oz" "mixture - pellet - encapsulated in Au - heat(950-1100C,2-5h, P=3.5 GPa)" Tc vs n Relationship for Multilayered High-Tc Superconductors 2007 "Nanoelectronics Research Institute, National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 76(2007)094711"
151461 JPS076094711 HgBa2Ca9Cu10Oz Hg1Ba2Ca9Cu10Oz Hg 1 Ba 2 Ca 9 Cu 10 O z 2007 Hg12nm A 37.99 "Hg12(n-1)n, n = 10" K 105.1 105.1 83 "HgO,CuO,Cu2O,Ca2CuO3,Ba2Ca2Cu3Oz" "mixture - pellet - encapsulated in Au - heat(950-1100C,2-5h, P=3.5 GPa)" Tc vs n Relationship for Multilayered High-Tc Superconductors 2007 "Nanoelectronics Research Institute, National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 76(2007)094711"
151462 JPS076094711 HgBa2Ca10Cu11Oz Hg1Ba2Ca10Cu11Oz Hg 1 Ba 2 Ca 10 Cu 11 O z 2007 Hg12nm A 41.16 "Hg12(n-1)n, n = 11" K 105.1 105.1 "HgO,CuO,Cu2O,Ca2CuO3,Ba2Ca2Cu3Oz" "mixture - pellet - encapsulated in Au - heat(950-1100C,2-5h, P=3.5 GPa)" Tc vs n Relationship for Multilayered High-Tc Superconductors 2007 "Nanoelectronics Research Institute, National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 76(2007)094711"
151463 JPS076094711 HgBa2Ca11Cu12Oz Hg1Ba2Ca11Cu12Oz Hg 1 Ba 2 Ca 11 Cu 12 O z 2007 Hg12nm A 44.33 "Hg12(n-1)n, n = 12" K 105.1 105.1 "HgO,CuO,Cu2O,Ca2CuO3,Ba2Ca2Cu3Oz" "mixture - pellet - encapsulated in Au - heat(950-1100C,2-5h, P=3.5 GPa)" Tc vs n Relationship for Multilayered High-Tc Superconductors 2007 "Nanoelectronics Research Institute, National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 76(2007)094711"
151464 JPS076094711 HgBa2Ca12Cu13Oz Hg1Ba2Ca12Cu13Oz Hg 1 Ba 2 Ca 12 Cu 13 O z 2007 Hg12nm A 47.5 "Hg12(n-1)n, n = 13" K 104.8 104.8 "HgO,CuO,Cu2O,Ca2CuO3,Ba2Ca2Cu3Oz" "mixture - pellet - encapsulated in Au - heat(950-1100C,2-5h, P=3.5 GPa)" Tc vs n Relationship for Multilayered High-Tc Superconductors 2007 "Nanoelectronics Research Institute, National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 76(2007)094711"
151465 JPS076094711 HgBa2Ca13Cu14Oz Hg1Ba2Ca13Cu14Oz Hg 1 Ba 2 Ca 13 Cu 14 O z 2007 Hg12nm A 50.68 "Hg12(n-1)n, n = 14" K 105.1 105.1 69 "HgO,CuO,Cu2O,Ca2CuO3,Ba2Ca2Cu3Oz" "mixture - pellet - encapsulated in Au - heat(950-1100C,2-5h, P=3.5 GPa)" Tc vs n Relationship for Multilayered High-Tc Superconductors 2007 "Nanoelectronics Research Institute, National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 76(2007)094711"
151466 JPS076094711 HgBa2Ca14Cu15Oz Hg1Ba2Ca14Cu15Oz Hg 1 Ba 2 Ca 14 Cu 15 O z 2007 Hg12nm A 53.86 "Hg12(n-1)n, n = 15" K 105.1 105.1 "HgO,CuO,Cu2O,Ca2CuO3,Ba2Ca2Cu3Oz" "mixture - pellet - encapsulated in Au - heat(950-1100C,2-5h, P=3.5 GPa)" Tc vs n Relationship for Multilayered High-Tc Superconductors 2007 "Nanoelectronics Research Institute, National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 76(2007)094711"
151467 JPS076094711 HgBa2Ca15Cu16Oz Hg1Ba2Ca15Cu16Oz Hg 1 Ba 2 Ca 15 Cu 16 O z 2007 Hg12nm A 57.03 "Hg12(n-1)n, n = 16" K 105.1 105.1 "HgO,CuO,Cu2O,Ca2CuO3,Ba2Ca2Cu3Oz" "mixture - pellet - encapsulated in Au - heat(950-1100C,2-5h, P=3.5 GPa)" Tc vs n Relationship for Multilayered High-Tc Superconductors 2007 "Nanoelectronics Research Institute, National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 76(2007)094711"
151468 PHC3920140 "Ba2Ca3Cu4O8(O,F)2" Ba2Ca3Cu4F1O9.0 Ba 2 Ca 3 Cu 4 F 1 O 9 2003 234 A 3.8573 K 103 103 "CuF2,CuO,Cu2O,Ba2Cu3O2" "mixture - press to pellet - put into Au capsule - heat(1000-1150C,2h,P=4.5 GPa)" Preparation of polycrystals with various Tc and single crystal growth of Ba2Ca3Cu4O8(O1-yFy)2 under high pressure 2003 "AIST and CREST, AIST Central 2, Tsukuba, Ibaraki 305-8568, Japan" "Physica C, 392-396(2003)140"
151469 PHC3920140 "Ba2Ca3Cu4O8(O,F)2" Ba2Ca3Cu4F1.2O8.8 Ba 2 Ca 3 Cu 4 F 1.2 O 8.8 2003 234 A 3.8597 K 105 105 "CuF2,CuO,Cu2O,Ba2Cu3O2" "mixture - press to pellet - put into Au capsule - heat(1000-1150C,2h,P=4.5 GPa)" Preparation of polycrystals with various Tc and single crystal growth of Ba2Ca3Cu4O8(O1-yFy)2 under high pressure 2003 "AIST and CREST, AIST Central 2, Tsukuba, Ibaraki 305-8568, Japan" "Physica C, 392-396(2003)140"
151470 PHC3920140 "Ba2Ca3Cu4O8(O,F)2" Ba2Ca3Cu4F1.4O8.6 Ba 2 Ca 3 Cu 4 F 1.4 O 8.6 2003 234 A 3.8607 K 91 91 "CuF2,CuO,Cu2O,Ba2Cu3O2" "mixture - press to pellet - put into Au capsule - heat(1000-1150C,2h,P=4.5 GPa)" Preparation of polycrystals with various Tc and single crystal growth of Ba2Ca3Cu4O8(O1-yFy)2 under high pressure 2003 "AIST and CREST, AIST Central 2, Tsukuba, Ibaraki 305-8568, Japan" "Physica C, 392-396(2003)140"
151471 PHC3920140 "Ba2Ca3Cu4O8(O,F)2" Ba2Ca3Cu4F1.6O8.4 Ba 2 Ca 3 Cu 4 F 1.6 O 8.4 2003 234 A 3.8625 K 79 79 "CuF2,CuO,Cu2O,Ba2Cu3O2" "mixture - press to pellet - put into Au capsule - heat(1000-1150C,2h,P=4.5 GPa)" Preparation of polycrystals with various Tc and single crystal growth of Ba2Ca3Cu4O8(O1-yFy)2 under high pressure 2003 "AIST and CREST, AIST Central 2, Tsukuba, Ibaraki 305-8568, Japan" "Physica C, 392-396(2003)140"
151472 PHC3920140 "Ba2Ca3Cu4O8(O,F)2" Ba2Ca3Cu4F1.8O8.2 Ba 2 Ca 3 Cu 4 F 1.8 O 8.2 2003 234 A 3.8641 K 66 66 "CuF2,CuO,Cu2O,Ba2Cu3O2" "mixture - press to pellet - put into Au capsule - heat(1000-1150C,2h,P=4.5 GPa)" Preparation of polycrystals with various Tc and single crystal growth of Ba2Ca3Cu4O8(O1-yFy)2 under high pressure 2003 "AIST and CREST, AIST Central 2, Tsukuba, Ibaraki 305-8568, Japan" "Physica C, 392-396(2003)140"
151473 PHC3920140 "Ba2Ca3Cu4O8(O,F)2" Ba2Ca3Cu4F2O8 Ba 2 Ca 3 Cu 4 F 2 O 8 2003 234 A 3.8666 K 56 56 "CuF2,CuO,Cu2O,Ba2Cu3O2" "mixture - press to pellet - put into Au capsule - heat(1000-1150C,2h,P=4.5 GPa)" Preparation of polycrystals with various Tc and single crystal growth of Ba2Ca3Cu4O8(O1-yFy)2 under high pressure 2003 "AIST and CREST, AIST Central 2, Tsukuba, Ibaraki 305-8568, Japan" "Physica C, 392-396(2003)140"
151474 APL092222501 valence of Cu(calculated) = 2.06. "Ba2CaCu2O4(O,F)2" Ba2Ca1Cu2F1.4O4.6 Ba 2 Ca 1 Cu 2 F 1.4 O 4.6 2008 212 A 3.8689 21.093 K 106 106 "BaO2,BaF2,CaF2,Cu2O,CuO,Ba2Cu3Oz" "mixture - pellet - sealed in Au capsule - heat(1323K,2h,P=5 GPa)" "Simplest nontoxic double-layered cuprate Ba2CaCu2O4(O,F)2 superconductor with a transition temperature of 108 K" 2008 "National Institute of Advanced Industrial Science and Technology (AIST), Central 2, 1-1-1, Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Appl.Phys.Lett., 92(2008)222501"
151475 APL092222501 valence of Cu(calculated) = 2.05. "Ba2CaCu2O4(O,F)2" Ba2Ca1Cu2F1.6O4.4 Ba 2 Ca 1 Cu 2 F 1.6 O 4.4 2008 212 A 3.873 21.054 K 108 108 "BaO2,BaF2,CaF2,Cu2O,CuO,Ba2Cu3Oz" "mixture - pellet - sealed in Au capsule - heat(1323K,2h,P=5 GPa)" "Simplest nontoxic double-layered cuprate Ba2CaCu2O4(O,F)2 superconductor with a transition temperature of 108 K" 2008 "National Institute of Advanced Industrial Science and Technology (AIST), Central 2, 1-1-1, Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Appl.Phys.Lett., 92(2008)222501"
151476 APL092222501 valence of Cu(calculated) = 2.04. "Ba2CaCu2O4(O,F)2" Ba2Ca1Cu2F1.8O4.2 Ba 2 Ca 1 Cu 2 F 1.8 O 4.2 2008 212 A 3.8749 20.973 K 87 87 "BaO2,BaF2,CaF2,Cu2O,CuO,Ba2Cu3Oz" "mixture - pellet - sealed in Au capsule - heat(1323K,2h,P=5 GPa)" "Simplest nontoxic double-layered cuprate Ba2CaCu2O4(O,F)2 superconductor with a transition temperature of 108 K" 2008 "National Institute of Advanced Industrial Science and Technology (AIST), Central 2, 1-1-1, Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Appl.Phys.Lett., 92(2008)222501"
151477 APL092222501 valence of Cu(calculated) = 2.03. "Ba2CaCu2O4(O,F)2" Ba2Ca1Cu2F2O4 Ba 2 Ca 1 Cu 2 F 2 O 4 2008 212 A 3.879 20.975 K 82 82 "BaO2,BaF2,CaF2,Cu2O,CuO,Ba2Cu3Oz" "mixture - pellet - sealed in Au capsule - heat(1323K,2h,P=5 GPa)" "Simplest nontoxic double-layered cuprate Ba2CaCu2O4(O,F)2 superconductor with a transition temperature of 108 K" 2008 "National Institute of Advanced Industrial Science and Technology (AIST), Central 2, 1-1-1, Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Appl.Phys.Lett., 92(2008)222501"
151478 APL092222501 valence of Cu(calculated) = 2.03. "Ba2CaCu2O4(O,F)2" Ba2Ca1Cu2F2.2O3.8 Ba 2 Ca 1 Cu 2 F 2.2 O 3.8 2008 212 A 3.8814 20.939 K 40 40 "BaO2,BaF2,CaF2,Cu2O,CuO,Ba2Cu3Oz" "mixture - pellet - sealed in Au capsule - heat(1323K,2h,P=5 GPa)" "Simplest nontoxic double-layered cuprate Ba2CaCu2O4(O,F)2 superconductor with a transition temperature of 108 K" 2008 "National Institute of Advanced Industrial Science and Technology (AIST), Central 2, 1-1-1, Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Appl.Phys.Lett., 92(2008)222501"
151479 JPS078073701 Tc depends on R-site disorder "Nd(O,F)FeAs" Nd1Fe1As1F0.175O0.825 Nd 1 Fe 1 As 1 F 0.175 O 0.825 2009 oxypnictide A 3.964 8.572 K 53 53 "sintering(1050C,10h,in quartz tube)" "Effect of Ln-Site Disorder on Tc of Oxypnictide Superconductor LnFeAsO1-xFx (Ln = Nd, Ce-Gd, and La-Dy)" 2009 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-8603" "J.Phys.Soc.Jpn, 78(2009)073701"
151480 JPS078073701 Tc depends on R-site disorder "N(Ce,Gd)(O,F)FeAs" Ce0.62Gd0.38Fe1As1F0.175O0.825 Ce 0.62 Gd 0.38 Fe 1 As 1 F 0.175 O 0.825 2009 oxypnictide A 3.961 8.579 K 44 44 "sintering(1050C,10h,in quartz tube)" "Effect of Ln-Site Disorder on Tc of Oxypnictide Superconductor LnFeAsO1-xFx (Ln = Nd, Ce-Gd, and La-Dy)" 2009 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-8603" "J.Phys.Soc.Jpn, 78(2009)073701"
151481 JPS078073701 Tc depends on R-site disorder "(La,Dy)(O,F)FeAs" La0.62Dy0.38Fe1As1F0.175O0.825 La 0.62 Dy 0.38 Fe 1 As 1 F 0.175 O 0.825 2009 oxypnictide A 3.974 8.617 K 38 38 "sintering(1050C,10h,in quartz tube)" "Effect of Ln-Site Disorder on Tc of Oxypnictide Superconductor LnFeAsO1-xFx (Ln = Nd, Ce-Gd, and La-Dy)" 2009 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-8603" "J.Phys.Soc.Jpn, 78(2009)073701"
151482 JPS078073706 not SC upto 8 GPa. hydrostatic pressure using cubic anvil. structural transition at Ts = 138 K(P = 0). (dTs/dP) = -7.0 K/GPa. BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2009 AB2C2 ThCr2Si2 K 0 "FeAs self-flux method. heat(1100C,in quartz tube) - cool to 900C in 50h." "Intrinsic Properties of AFe2As2 (A= Ba, Sr) Single Crystal under Highly Hydrostatic Pressure Conditions" 2009 "Institute for Solid State Physics, The University of Tokyo, Kashiwanoha, Kashiwa, Chiba 277-8581" "J.Phys.Soc.Jpn, 78(2009)073706"
151483 JPS078073706 P-induced SC. Tc(max) = 31.7 K at P= 5 GPa. Tc defined as R=0. hydrostatic pressure using cubic anvil. SrFe2As2 Sr1Fe2As2 Sr 1 Fe 2 As 2 3 2009 AB2C2 ThCr2Si2 K 31.7 26.3 0 26.3 MPH151483 "FeAs self-flux method. heat(1100C,in quartz tube) - cool to 900C in 50h." "Intrinsic Properties of AFe2As2 (A= Ba, Sr) Single Crystal under Highly Hydrostatic Pressure Conditions" 2009 "Institute for Solid State Physics, The University of Tokyo, Kashiwanoha, Kashiwa, Chiba 277-8581" "J.Phys.Soc.Jpn, 78(2009)073706"
151484 JPS078073708 superparamagnetism start below 13K. Re-entrant SC. Tm in FIG shows reentrant temperature. "(Sn,Tm)Tm4Rh6Sn18" Tm5Rh6Sn18 Tm 5 Rh 6 Sn 18 3 2009 myu-B/Tm 7.5 A5B6C18 I4<1>/acd A 13.73 27.41 K 2.2 2.3 0.07 2.25 MTC151484 "Sn-flux method. starting composition: Tm:Rh:Sn=1:1.2:10. heat(1050C,3h) - cool to 200C(5C/h)." Coexistence of Superconductivity and Magnetism in the Tm-Based Reentrant Superconductor Tm5Rh6Sn18 2009 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara, Kanagawa 229-8558" "J.Phys.Soc.Jpn, 78(2009)073708"
151485 JPS078074712 FeTe Fe1Te1 Fe 1 Te 1 2009 AB PbO P4/nmm A 3.8097 6.2756 K 2 solid state reaction. heat(680-800C) Substitution Effects on FeSe Superconductor 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047" "J.Phys.Soc.Jpn, 78(2009)074712"
151486 JPS078074712 FeTex Fe1Te0.92 Fe 1 Te 0.92 2009 AB PbO P4/nmm A 3.822 6.292 K 2 solid state reaction. heat(680-800C) Substitution Effects on FeSe Superconductor 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047" "J.Phys.Soc.Jpn, 78(2009)074712"
151487 JPS078074712 "Fe(Se,Te)" Fe1Se0.25Te0.75 Fe 1 Se 0.25 Te 0.75 1 2009 AB PbO P4/nmm A 3.814 6.157 K 11.8 13.2 13.4 9.5 13.2 100 solid state reaction. heat(680-800C) Substitution Effects on FeSe Superconductor 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047" "J.Phys.Soc.Jpn, 78(2009)074712"
151488 JPS078074712 "Fe(Se,Te)" Fe1Se0.5Te0.5 Fe 1 Se 0.5 Te 0.5 1 2009 AB PbO P4/nmm A 3.7909 5.957 K 10.8 12.3 14.7 10.5 12.3 100 solid state reaction. heat(680-800C) Substitution Effects on FeSe Superconductor 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047" "J.Phys.Soc.Jpn, 78(2009)074712"
151489 JPS078074712 "Fe(Se,Te)" Fe1Se0.75Te0.25 Fe 1 Se 0.75 Te 0.25 2009 AB PbO P4/nmm A 3.7989 5.968 K 9.1 13.3 15.3 13.5 13.3 40 solid state reaction. heat(680-800C) Substitution Effects on FeSe Superconductor 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047" "J.Phys.Soc.Jpn, 78(2009)074712"
151490 JPS078074712 "Fe(Se,Te)" Fe1Se1 Fe 1 Se 1 2009 AB PbO P4/nmm A 3.7696 5.52 K 7.51 9.51 13.5 9.51 27 solid state reaction. heat(680-800C) Substitution Effects on FeSe Superconductor 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047" "J.Phys.Soc.Jpn, 78(2009)074712"
151491 JPS078074712 "Fe(Se,S)" Fe1Se0.9S0.1 Fe 1 Se 0.9 S 0.1 2009 AB PbO P4/nmm A 3.763 5.503 K 8.92 10.6 14.8 10.6 68 solid state reaction. heat(680-800C) Substitution Effects on FeSe Superconductor 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047" "J.Phys.Soc.Jpn, 78(2009)074712"
151492 JPS078074712 "Fe(Se,S)" Fe1Se0.8S0.2 Fe 1 Se 0.8 S 0.2 2009 AB PbO P4/nmm A 3.754 5.442 K 8.92 10.8 15.5 10.8 solid state reaction. heat(680-800C) Substitution Effects on FeSe Superconductor 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047" "J.Phys.Soc.Jpn, 78(2009)074712"
151493 JPS078074712 "Fe(Se,S)" Fe1Se0.7S0.3 Fe 1 Se 0.7 S 0.3 2009 AB PbO P4/nmm A 3.75 5.399 K 3.42 5.94 11.8 5.94 solid state reaction. heat(680-800C) Substitution Effects on FeSe Superconductor 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047" "J.Phys.Soc.Jpn, 78(2009)074712"
151494 JPS078074712 "Fe(Se,S)" Fe1Se0.6S0.4 Fe 1 Se 0.6 S 0.4 2009 AB PbO P4/nmm A 3.747 5.342 K 3.73 11 3.73 solid state reaction. heat(680-800C) Substitution Effects on FeSe Superconductor 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047" "J.Phys.Soc.Jpn, 78(2009)074712"
151495 JPS078074712 "Fe(Se,S)" Fe1Se0.5S0.5 Fe 1 Se 0.5 S 0.5 2009 AB PbO P4/nmm A 3.732 5.381 K 2.75 6.53 2.75 solid state reaction. heat(680-800C) Substitution Effects on FeSe Superconductor 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047" "J.Phys.Soc.Jpn, 78(2009)074712"
151496 JPS078074712 "(Fe,Co)Se" Fe0.95Co0.05Se1 Fe 0.95 Co 0.05 Se 1 2009 AB PbO P4/nmm A 3.7675 5.512 K 10 10 solid state reaction. heat(680-800C) Substitution Effects on FeSe Superconductor 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047" "J.Phys.Soc.Jpn, 78(2009)074712"
151497 JPS078074712 "(Fe,Co)Se" Fe0.9Co0.1Se1 Fe 0.9 Co 0.1 Se 1 2009 AB PbO P4/nmm A 3.7637 5.5043 K 5 5 solid state reaction. heat(680-800C) Substitution Effects on FeSe Superconductor 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047" "J.Phys.Soc.Jpn, 78(2009)074712"
151498 JPS078074712 "(Fe,Co)Se" Fe0.8Co0.2Se1 Fe 0.8 Co 0.2 Se 1 2009 AB PbO P4/nmm A 3.7562 5.483 K 2 solid state reaction. heat(680-800C) Substitution Effects on FeSe Superconductor 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047" "J.Phys.Soc.Jpn, 78(2009)074712"
151499 JPS078074712 "(Fe,Ni)Se" Fe0.95Ni0.05Se1 Fe 0.95 Ni 0.05 Se 1 2009 AB PbO P4/nmm A 3.7714 5.508 K 10 10 solid state reaction. heat(680-800C) Substitution Effects on FeSe Superconductor 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047" "J.Phys.Soc.Jpn, 78(2009)074712"
151500 JPS078074712 "(Fe,Ni)Se" Fe0.9Ni0.1Se1 Fe 0.9 Ni 0.1 Se 1 2009 AB PbO P4/nmm A 3.7713 5.503 K 2 solid state reaction. heat(680-800C) Substitution Effects on FeSe Superconductor 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047" "J.Phys.Soc.Jpn, 78(2009)074712"
151501 JPS078074712 "(Fe,Ni)Se" Fe0.8Ni0.2Se1 Fe 0.8 Ni 0.2 Se 1 2009 AB PbO P4/nmm A 3.775 5.489 K 2 solid state reaction. heat(680-800C) Substitution Effects on FeSe Superconductor 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047" "J.Phys.Soc.Jpn, 78(2009)074712"
151502 PRB080024511 Compositions determined by WDS. T0 (in Figure) is structural transition temperature. Tc=23.2 K (SP-heat). (dC) and [gamma] estimated asuming BCS (dC/gamma*Tc) = 1.43 "Ba(Fe,Rh)2As2" Ba1Fe1.886Rh0.114As2 Ba 1 Fe 1.886 Rh 0.114 As 2 3 2009 AB2C2 ThCr2Si2 K 24.9 0.7 24.9 MTC151502 mJ/mol.K 700 mJ/mol.K2 20 SP-heat "self-flux method(Ba:MAs=1:4). heat(1180C,5h) - cool to 1050C(/36h) in sealed quartz tube." Phase diagrams of Ba(Fe1-xMx)2As2 single crystals (M=Rh and Pd) 2009 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 80(2009)024511"
151503 PRB080024511 Compositions determined by WDS.. "Ba(Fe,Rh)2As2" Ba1Fe1.808Rh0.192As2 Ba 1 Fe 1.808 Rh 0.192 As 2 3 2009 AB2C2 ThCr2Si2 K 17.8 17.8 "self-flux method(Ba:MAs=1:4). heat(1180C,5h) - cool to 1050C(/36h) in sealed quartz tube." Phase diagrams of Ba(Fe1-xMx)2As2 single crystals (M=Rh and Pd) 2009 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 80(2009)024511"
151504 PRB080024511 Compositions determined by WDS. T0 (in Figure) is structural transition temperature. "Ba(Fe,Pd)2As2" Ba1Fe1.914Pd0.086As2 Ba 1 Fe 1.914 Pd 0.086 As 2 3 2009 AB2C2 ThCr2Si2 K 18.9 0.6 18.9 MTC151503 mJ/mol.K 410 mJ/mol.K2 16 SP-heat "self-flux method(Ba:MAs=1:4). heat(1180C,5h) - cool to 1050C(/36h) in sealed quartz tube." Phase diagrams of Ba(Fe1-xMx)2As2 single crystals (M=Rh and Pd) 2009 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 80(2009)024511"
151505 PRB080024511 Compositions determined by WDS. T0 (in Figure) is structural transition temperature. (dC) and [gamma] estimated asuming BCS (dC/gamma*Tc) = 1.43 "Ba(Fe,Pd)2As2" Ba1Fe1.958Rh0.042As2 Ba 1 Fe 1.958 Rh 0.042 As 2 3 2009 AB2C2 ThCr2Si2 K 5.41 5.41 "self-flux method(Ba:MAs=1:4). heat(1180C,5h) - cool to 1050C(/36h) in sealed quartz tube." Phase diagrams of Ba(Fe1-xMx)2As2 single crystals (M=Rh and Pd) 2009 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 80(2009)024511"
151506 PRB080024506 Tc defined as Tc(on). sample has maximum-Tc for this system. "Sr(Fe,Rh)2As2" Sr1Fe1.75Rh0.25As2 Sr 1 Fe 1.75 Rh 0.25 As 2 1 2009 AB2C2 ThCr2Si2 A 3.9478 12.232 K 21.9 21.9 MPH151506 MHC151506 "SrAs,FeAs,MAs(M=Rh,Ir,Pd)" "two step solid state reaction. mixture(with Fe) - sealed in silica tube(Ar) - heat(900C,30h) - cool to RT" "Superconductivity and phase diagrams of the 4d- and 5d-metal-doped iron arsenides SrFe2-xMxAs2 (M=Rh, Ir,Pd)" 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 80(2009)024506"
151507 PRB080024506 Tc defined as Tc(on). sample has maximum-Tc for this system. "Sr(Fe,Ir)2As2" Sr1Fe1.57Ir0.43As2 Sr 1 Fe 1.57 Ir 0.43 As 2 1 2009 AB2C2 ThCr2Si2 A 3.9501 12.25 K 24.2 24.2 MPH151507 MHC151507 "SrAs,FeAs,MAs(M=Rh,Ir,Pd)" "two step solid state reaction. mixture(with Fe) - sealed in silica tube(Ar) - heat(900C,30h) - cool to RT" "Superconductivity and phase diagrams of the 4d- and 5d-metal-doped iron arsenides SrFe2-xMxAs2 (M=Rh, Ir,Pd)" 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 80(2009)024506"
151508 PRB080024506 Tc defined as Tc(on). sample has maximum-Tc for this system. "Sr(Fe,Pd)2As2" Sr1Fe1.85Pd0.15As2 Sr 1 Fe 1.85 Pd 0.15 As 2 1 2009 AB2C2 ThCr2Si2 A 3.9537 12.278 K 8.7 8.7 MPH151508 MHC151508 "SrAs,FeAs,MAs(M=Rh,Ir,Pd)" "two step solid state reaction. mixture(with Fe) - sealed in silica tube(Ar) - heat(900C,30h) - cool to RT" "Superconductivity and phase diagrams of the 4d- and 5d-metal-doped iron arsenides SrFe2-xMxAs2 (M=Rh, Ir,Pd)" 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 80(2009)024506"
151509 PRB080024518 "nominal: FeSe0.82. Thermal conductivity k: (k/T) = a + b*T^(p-1), a=16 uW/K2.cm, p=2.47 from fitting." FeSe Fe1Se1 Fe 1 Se 1 3 2009 AB K 8.8 11.9 8.8 T "resistivity, parabolic T-dependence of Hc2, Tc(on)" 20.1 14.5 6.3 MTHC151509 mOhm.cm 0.0579 single crystals grown by vapor self-transport method. Multigap nodeless superconductivity in FeSex: Evidence from quasiparticle heat transport 2009 "Department of Physics, Surface Physics Laboratory (National Key Laboratory), and Laboratory of Advanced Materials, Fudan University, Shanghai 200433, People's Republic of China" "Phys.Rev.B, 80(2009)024518"
151510 PRB080024519 P-induced SC. CaFe2As2 Ca1Fe2As2 Ca 1 Fe 2 As 2 3 2009 171 AB2C2 ThCr2Si2 K 11.6 0 11.6 MTC151510 Sn-flux method Pressure-induced superconducting state of antiferromagnetic CaFe2As2 2009 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 80(2009)024519"
151511 PRL103027003 Tc defined as R=0.1Rn. another transition at T=1.7 K. GL parameter = 21. e-ph coupling = 0.49. (dC/gamma*Tc) = 1.5. Ce2PdIn8 Ce2Pd1In8 Ce 2 Pd 1 In 8 3 2009 myu-B/Ce 2.51 -42.6 10 AB2C8 Ho2CoGa8 K 0.68 0.68 T "resstivity, extraporation" 4.8 T/K resistivity 14.3 MHC151511 A Hc2(0) 82 A 1740 MSP151511 mJ/mol.K2 1000 SP-heat In-flux method Emergence of a Superconducting State from an Antiferromagnetic Phase in Single Crystals of the Heavy Fermion Compound Ce2PdIn8 2009 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P. O. Box 1410, 50-950 Wroc?aw, Poland" "Phys.Rev.Lett., 103(2009)027003"
151512 PRB080060502 "gap measured by point contact Andreev reflection. Two gaps: upper = 15 meV(ratio = 8.31), lower = 4.9 meV(ratio = 2.71)" "Sm(O,F)FeAs" Sm1Fe1As1F0.09O0.91 Sm 1 Fe 1 As 1 F 0.09 O 0.91 1 2009 ABCD oxypnictide K 42 42 meV 15 8.31 "SmAs,FeAs,SmF3,Fe2O3,Fe" "mixture - heat(1350-1450C,5h,P=30 kbar)" Evidence for two-gap nodeless superconductivity in SmFeAsO1-xFx from point-contact Andreev-reflection spectroscopy 2009 "Dipartimento di Fisica and CNISM, Politecnico di Torino, 10129 Torino, Italy" "Phys.Rev.B, 80(2009)060502"
151513 PRB080060502 "gap measured by point contact Andreev reflection. Two gaps: upper = 18 meV(ratio = 8.05), lower = 6.15 meV(ratio = 2.75)" "Sm(O,F)FeAs" Sm1Fe1As1F0.2O0.8 Sm 1 Fe 1 As 1 F 0.2 O 0.8 1 2009 ABCD oxypnictide K 52 52 meV 18 8.05 "SmAs,FeAs,SmF3,Fe2O3,Fe" "mixture - heat(1350-1450C,5h,P=30 kbar)" Evidence for two-gap nodeless superconductivity in SmFeAsO1-xFx from point-contact Andreev-reflection spectroscopy 2009 "Dipartimento di Fisica and CNISM, Politecnico di Torino, 10129 Torino, Italy" "Phys.Rev.B, 80(2009)060502"
151514 PRB080054502 LaOFeAs La1Fe1As1O1 La 1 Fe 1 As 1 O 1 2009 ABCD oxypnictide A 4.0328 8.7372 ZrCuSiAs K 2 "La,Fe,Fe2O3,Ir,As" "mixture - (sealed in Nb-tube) - heat(1180C,45h)" Superconductivity in Ir-doped LaFe1-xIrxAsO 2009 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences, P.O. Box 2703, Beijing 100190, China" "Phys.Rev.B, 80(2009)054502"
151515 PRB080054502 "LaO(Fe,Ir)As" La1Fe0.95Ir0.05As1O1 La 1 Fe 0.95 Ir 0.05 As 1 O 1 2009 ABCD oxypnictide A 4.0356 8.7146 ZrCuSiAs K 7.18 7.18 "La,Fe,Fe2O3,Ir,As" "mixture - (sealed in Nb-tube) - heat(1180C,45h)" Superconductivity in Ir-doped LaFe1-xIrxAsO 2009 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences, P.O. Box 2703, Beijing 100190, China" "Phys.Rev.B, 80(2009)054502"
151516 PRB080054502 carrier = 3.71 E+20 /cm3 at 100K. from Hall coefficient. "LaO(Fe,Ir)As" La1Fe0.925Ir0.075As1O1 La 1 Fe 0.925 Ir 0.075 As 1 O 1 2009 ABCD oxypnictide A 4.0361 8.7071 ZrCuSiAs K 11.85 11.85 T "resistivity, WHH" 54.3 T/K resistivity 6.7 MHC151516 "La,Fe,Fe2O3,Ir,As" "mixture - (sealed in Nb-tube) - heat(1180C,45h)" Superconductivity in Ir-doped LaFe1-xIrxAsO 2009 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences, P.O. Box 2703, Beijing 100190, China" "Phys.Rev.B, 80(2009)054502"
151517 PRB080054502 "LaO(Fe,Ir)As" La1Fe0.9Ir0.1As1O1 La 1 Fe 0.9 Ir 0.1 As 1 O 1 2009 ABCD oxypnictide A 4.0381 8.6986 ZrCuSiAs K 10.9 10.9 "La,Fe,Fe2O3,Ir,As" "mixture - (sealed in Nb-tube) - heat(1180C,45h)" Superconductivity in Ir-doped LaFe1-xIrxAsO 2009 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences, P.O. Box 2703, Beijing 100190, China" "Phys.Rev.B, 80(2009)054502"
151518 PRB080054502 "LaO(Fe,Ir)As" La1Fe0.875Ir0.125As1O1 La 1 Fe 0.875 Ir 0.125 As 1 O 1 2009 ABCD oxypnictide A 4.04 8.6921 ZrCuSiAs K 4.56 4.56 "La,Fe,Fe2O3,Ir,As" "mixture - (sealed in Nb-tube) - heat(1180C,45h)" Superconductivity in Ir-doped LaFe1-xIrxAsO 2009 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences, P.O. Box 2703, Beijing 100190, China" "Phys.Rev.B, 80(2009)054502"
151519 PRL103037005 some samples are not SC. Maybe strain-induced SC. structural(tetra-to-ortho)transition with AFM at 198 K. SrFe2As2 Sr1Fe2As2 Sr 1 Fe 2 As 2 3 2009 AB2C2 ThCr2Si2 K 21 21 21 T resistivity MHC151519 FeAs self-flux method Superconducting and Ferromagnetic Phases Induced by Lattice Distortions in Stoichiometric SrFe2As2 Single Crystals 2009 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.Lett., 103(2009)037005"
151520 PRB078220510 "[penet] measured using muon-SR. TBL values of gap are for anisotropic s-wave model. For two gap model, gap(0) = 1.60 and 0.38 meV, gap ratio = 4.49 and 1.07.respectively." FeSe0.85 Fe1Se0.85 Fe 1 Se 0.85 2008 AB K 8.26 8.26 A muon-SR 4050 meV 2.24 6.27 16 Evidence of nodeless superconductivity in FeSe0.85 from a muon-spin-rotation study of the in-plane magnetic penetration depth 2008 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 78(2008)220510"
151521 PRL103067010 "[penet] obtained using alpha-model for muon-SR. TBL values for dirty model.two gaps. [gapene] for the higher. for clean model,[penet]=315(ab), 870(c)nm. [gapene]=7.2(H), 2.7(L)" "Sr(Fe,Co)2As2" Sr1Fe1.75Co0.25As2 Sr 1 Fe 1.75 Co 0.25 As 2 3 2009 AB2C2 ThCr2Si2 K 13.3 13.3 100 A muon-SR 3150 8700 5.8 16 Superconductivity and Field-Induced Magnetism in SrFe1.75Co0.25As2 2009 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.Lett., 103(2009)067010"
151522 PRL103077004 SP-heat measured for H//c. [gamma] increases and [gapene] decreases with x (from 0.05 to 0.45). LixZrNCl Li0.1Zr1N1Cl1 Li 0.1 Zr 1 N 1 Cl 1 2009 ABCD K 14 14 4.14 14 mJ/mol.K2 0.99 SP-heat Enhancement of Pairing Interaction and Magnetic Fluctuations toward a Band Insulator in an Electron-Doped LixZrNCl Superconductor 2009 "Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan" "Phys.Rev.Lett., 103(2009)077004"
151523 PRL103077004 SP-heat measured for H//c. [gamma] increases and [gapene] decreases with x (from 0.05 to 0.45). LixZrNCl Li0.28Zr1N1Cl1 Li 0.28 Zr 1 N 1 Cl 1 2009 ABCD K 11.6 11.6 2.9 14 mJ/mol.K2 1.14 SP-heat Enhancement of Pairing Interaction and Magnetic Fluctuations toward a Band Insulator in an Electron-Doped LixZrNCl Superconductor 2009 "Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan" "Phys.Rev.Lett., 103(2009)077004"
151524 PRL103087001 "structural transition (tetra-ortho) temperatureat 60 K, higher than AFM transition temperature( Tn = 47 K). Neutron diffraction method." "Ba(Fe,Co)2As2" Ba1Fe1.906Co0.094As2 Ba 1 Fe 1.906 Co 0.094 As 2 2009 47 AB2C2 ThCr2Si2 K 17 17 Coexistence of Competing Antiferromagnetic and Superconducting Phases in the Underdoped Ba(Fe0.953Co0.047)2As2 Compound Using X-ray and Neutron Scattering Techniques 2009 "Department of Physics and Astronomy and Ames Laboratory, Iowa State University, Ames, Iowa 50011 USA" "Phys.Rev.Lett., 103(2009)087001"
151525 SSC1491296 compositions confirmed by EDS. no sign of CDW. Tc measured for J//ab. NixTaS2 Ni0.05Ta1S2 Ni 0.05 Ta 1 S 2 3 2009 AB2 2H-TaS2 P6<3>/mmc A 3.3128 11.999 K 2.2 3.9 1.4 3.05 "Ni,Ta,S powder" "mixture - heat(900C,4d, in evacuated quartz tube) - heat(850C,6h,with NaCl/KCl flux, in quartz tube) - cool to 650C(2C/h) - keep(2d) - FC to RT" Superconductivity and single crystal growth of Ni0.05TaS2 2009 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Solid State Commun., 149(2009)1296"
151526 PRL0341502 Fe intercalated TaS2 FexTaS2 Fe0.05Ta1S2 Fe 0.05 Ta 1 S 2 1975 AB2 2H-TaS2 K 3 3 SIN(TaS2+Fe) Superconductivity in dilute alloys of TaS2 with Fe 1975 "Phys.Rev.Lett., 34(1975)1502"
151527 PRL0341502 M=pyridine. M-intercalated TaS2 MxTaS2 M0.5Ta1S2 M 0.5 Ta 1 S 2 1975 AB2 2H-TaS2 K 3.2 3.2 SIN(TaS2+Fe) Superconductivity in dilute alloys of TaS2 with Fe 1975 "Phys.Rev.Lett., 34(1975)1502"
151528 PRB0152943 lattice term coeffic. off SP : (beta) = 0.55 mJ/mol.K4. CDW temperature(onset) = 33.5 K. 2H-NbSe2 Nb1Se2 Nb 1 Se 2 1977 AB2 K 7.2 7.2 mJ/mol.K2 16 SP-heat 222 SP-heat vapor transport method Thermal properties of layered transition-metal dichalcogenides at charge-density-wave transition 1977 "Phys.Rev.B, 15(1977)2943"
151529 PRB0152943 lattice term coeffic. off SP : (beta) = 0.44 mJ/mol.K4. CDW temperature(onset) = 78.0 K. 2H-TaS2 Ta1S2 Ta 1 S 2 1977 AB2 K 0.8 0.8 mJ/mol.K2 7.5 SP-heat 236 SP-heat vapor transport method Thermal properties of layered transition-metal dichalcogenides at charge-density-wave transition 1977 "Phys.Rev.B, 15(1977)2943"
151530 PRB0152943 lattice term coeffic. off SP : (beta) = 0.71 mJ/mol.K4. CDW temperature(onset) = 121 K. 2H-TaSe2 Ta1Se2 Ta 1 Se 2 1977 AB2 K 0.15 0.15 mJ/mol.K2 4.5 SP-heat 202 SP-heat vapor transport method Thermal properties of layered transition-metal dichalcogenides at charge-density-wave transition 1977 "Phys.Rev.B, 15(1977)2943"
151531 PRB0152943 lattice term coeffic. off SP : (beta) = 0.45 mJ/mol.K4. CDW temperature(onset) = 317 K. 4Hb-TaS2 Ta1S2 Ta 1 S 2 1977 AB2 K 1.1 mJ/mol.K2 3 SP-heat 234 SP-heat vapor transport method Thermal properties of layered transition-metal dichalcogenides at charge-density-wave transition 1977 "Phys.Rev.B, 15(1977)2943"
151532 PRB0152943 lattice term coeffic. off SP : (beta) = 0.83 mJ/mol.K4. CDW temperature(onset) = 75 K. 4Hb-TaSe2 Ta1Se2 Ta 1 Se 2 1977 AB2 K 1.1 mJ/mol.K2 4.5 SP-heat 192 SP-heat vapor transport method Thermal properties of layered transition-metal dichalcogenides at charge-density-wave transition 1977 "Phys.Rev.B, 15(1977)2943"
151533 PRB0152943 CDW temperature(onset) = 110 K. 1T-VSe2 V1Se2 V 1 Se 2 1977 AB2 K 1.1 vapor transport method Thermal properties of layered transition-metal dichalcogenides at charge-density-wave transition 1977 "Phys.Rev.B, 15(1977)2943"
151534 PRB080060503 compositions by ICP. energy gap by NMR. Mg10Ir19B16 Mg9.3Ir19B16.7 Mg 9.3 Ir 19 B 16.7 2009 A10B16C19 K 5.8 5.8 3 6 "mixture(powder) - pellet - wrapped in Ta foil - SIN(600C,30min + 950C,3h, in evacuated quartz tube) - reground - pellet - ANN(950C,12h)" Superconducting state in the noncentrosymmetric Mg9.3Ir19B16.7 and Mg10.5Ir19B17.1 revealed by NMR 2009 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 80(2009)060503"
151535 PRB080060503 compositions by ICP. energy gap by NMR. Mg10Ir19B16 Mg10.5Ir19B17.1 Mg 10.5 Ir 19 B 17.1 2009 A10B16C19 K 4.8 4.8 2.2 6 "mixture(powder) - pellet - wrapped in Ta foil - SIN(600C,30min + 950C,3h, in evacuated quartz tube) - reground - pellet - ANN(950C,12h)" Superconducting state in the noncentrosymmetric Mg9.3Ir19B16.7 and Mg10.5Ir19B17.1 revealed by NMR 2009 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 80(2009)060503"
151536 PRB080064504 (dC/Tc) = 7.8 mJ/mol.K2. (dC/gamma*Tc) = 1.38. (dHc2/dT) = -0.1 T/K from resistive transition. BaPtSi3 Ba1Pt1Si3 Ba 1 Pt 1 Si 3 2009 ABC3 BaNiSn3 I4mm A 4.4013 10.013 K 2 2 K/GPa -0.6 T "SP heat, WHH" 0.053 T/K SP heat -0.033 mJ/mol.K2 5.7 SP-heat 345 resistivity uOhm.cm 6 "arc-melting. ANN(900C,100h, in quartz tube) - Q to water" BaPtSi3: A noncentrosymmetric BCS-like superconductor 2009 "Institute of Solid State Physics, Vienna University of Technology, A-1040 Wien, Austria" "Phys.Rev.B, 80(2009)064504"
151537 PRB080064514 CaAlSi Ca1Al1Si1 Ca 1 Al 1 Si 1 1 2009 ABC AlB2 P6/mmm A 4.186 4.3972 K 7.8 7.8 arc-melting "Structural properties and superconductivity in the ternary intermetallic compounds MAB (M=Ca, Sr, Ba; A=Al, Ga, In; B=Si, Ge, Sn)" 2009 "Department of Chemistry and Biochemistry, Arizona State University, Tempe, Arizona 85287-1604, USA" "Phys.Rev.B, 80(2009)064514"
151538 PRB080064514 SrAlSi Sr1Al1Si1 Sr 1 Al 1 Si 1 1 2009 ABC AlB2 P6/mmm A 4.2433 4.7435 K 4.7 4.7 arc-melting "Structural properties and superconductivity in the ternary intermetallic compounds MAB (M=Ca, Sr, Ba; A=Al, Ga, In; B=Si, Ge, Sn)" 2009 "Department of Chemistry and Biochemistry, Arizona State University, Tempe, Arizona 85287-1604, USA" "Phys.Rev.B, 80(2009)064514"
151539 PRB080064514 BaAlSi Ba1Al1Si1 Ba 1 Al 1 Si 1 1 2009 ABC AlB2 P6/mmm A 4.3 5.1438 K 2 arc-melting "Structural properties and superconductivity in the ternary intermetallic compounds MAB (M=Ca, Sr, Ba; A=Al, Ga, In; B=Si, Ge, Sn)" 2009 "Department of Chemistry and Biochemistry, Arizona State University, Tempe, Arizona 85287-1604, USA" "Phys.Rev.B, 80(2009)064514"
151540 PRB080064514 SrAlGe Sr1Al1Ge1 Sr 1 Al 1 Ge 1 1 2009 ABC SrPtSb P6[-]m2 A 4.3043 4.7407 K 6.7 6.7 arc-melting "Structural properties and superconductivity in the ternary intermetallic compounds MAB (M=Ca, Sr, Ba; A=Al, Ga, In; B=Si, Ge, Sn)" 2009 "Department of Chemistry and Biochemistry, Arizona State University, Tempe, Arizona 85287-1604, USA" "Phys.Rev.B, 80(2009)064514"
151541 PRB080064514 BaAlGe Ba1Al1Ge1 Ba 1 Al 1 Ge 1 1 2009 ABC SrPtSb P6[-]m2 A 4.3512 4.1401 K 6.3 6.3 arc-melting "Structural properties and superconductivity in the ternary intermetallic compounds MAB (M=Ca, Sr, Ba; A=Al, Ga, In; B=Si, Ge, Sn)" 2009 "Department of Chemistry and Biochemistry, Arizona State University, Tempe, Arizona 85287-1604, USA" "Phys.Rev.B, 80(2009)064514"
151542 PRB080064514 BaAlSn Ba1Al1Sn1 Ba 1 Al 1 Sn 1 1 2009 ABC AlB2 P6/mmm A 4.6331 5.1408 K 2.9 2.9 arc-melting "Structural properties and superconductivity in the ternary intermetallic compounds MAB (M=Ca, Sr, Ba; A=Al, Ga, In; B=Si, Ge, Sn)" 2009 "Department of Chemistry and Biochemistry, Arizona State University, Tempe, Arizona 85287-1604, USA" "Phys.Rev.B, 80(2009)064514"
151543 PRB080064514 CaGaSi Ca1Ga1Si1 Ca 1 Ga 1 Si 1 1 2009 ABC AlB2 P6/mmm A 4.1101 4.4466 K 4.4 4.4 arc-melting "Structural properties and superconductivity in the ternary intermetallic compounds MAB (M=Ca, Sr, Ba; A=Al, Ga, In; B=Si, Ge, Sn)" 2009 "Department of Chemistry and Biochemistry, Arizona State University, Tempe, Arizona 85287-1604, USA" "Phys.Rev.B, 80(2009)064514"
151544 PRB080064514 SrGaSi Sr1Ga1Si1 Sr 1 Ga 1 Si 1 1 2009 ABC AlB2 P6/mmm A 4.1835 4.7422 K 4.9 4.9 arc-melting "Structural properties and superconductivity in the ternary intermetallic compounds MAB (M=Ca, Sr, Ba; A=Al, Ga, In; B=Si, Ge, Sn)" 2009 "Department of Chemistry and Biochemistry, Arizona State University, Tempe, Arizona 85287-1604, USA" "Phys.Rev.B, 80(2009)064514"
151545 PRB080064514 BaGaSi Ba1Ga1Si1 Ba 1 Ga 1 Si 1 1 2009 ABC AlB2 P6/mmm A 4.2479 5.1106 K 4.2 4.2 arc-melting "Structural properties and superconductivity in the ternary intermetallic compounds MAB (M=Ca, Sr, Ba; A=Al, Ga, In; B=Si, Ge, Sn)" 2009 "Department of Chemistry and Biochemistry, Arizona State University, Tempe, Arizona 85287-1604, USA" "Phys.Rev.B, 80(2009)064514"
151546 PRB080064514 CaGaGe Ca1Ga1Ge1 Ca 1 Ga 1 Ge 1 1 2009 ABC YPtAs P6<3>/mmc A 4.2203 17.2876 K 2 arc-melting "Structural properties and superconductivity in the ternary intermetallic compounds MAB (M=Ca, Sr, Ba; A=Al, Ga, In; B=Si, Ge, Sn)" 2009 "Department of Chemistry and Biochemistry, Arizona State University, Tempe, Arizona 85287-1604, USA" "Phys.Rev.B, 80(2009)064514"
151547 PRB080064514 SrGaGe Sr1Ga1Ge1 Sr 1 Ga 1 Ge 1 1 2009 ABC AlB2 P6/mmm A 4.2718 4.7179 K 2.6 2.6 arc-melting "Structural properties and superconductivity in the ternary intermetallic compounds MAB (M=Ca, Sr, Ba; A=Al, Ga, In; B=Si, Ge, Sn)" 2009 "Department of Chemistry and Biochemistry, Arizona State University, Tempe, Arizona 85287-1604, USA" "Phys.Rev.B, 80(2009)064514"
151548 PRB080064514 BsGaGe Ba1Ga1Ge1 Ba 1 Ga 1 Ge 1 1 2009 ABC AlB2 P6/mmm A 4.3351 5.0947 K 2.4 2.4 arc-melting "Structural properties and superconductivity in the ternary intermetallic compounds MAB (M=Ca, Sr, Ba; A=Al, Ga, In; B=Si, Ge, Sn)" 2009 "Department of Chemistry and Biochemistry, Arizona State University, Tempe, Arizona 85287-1604, USA" "Phys.Rev.B, 80(2009)064514"
151549 PRB080064514 SrGaSn Sr1Ga1Sn1 Sr 1 Ga 1 Sn 1 1 2009 ABC YPtAs P6<3>/mmc A 4.5505 18.71 K 2 arc-melting "Structural properties and superconductivity in the ternary intermetallic compounds MAB (M=Ca, Sr, Ba; A=Al, Ga, In; B=Si, Ge, Sn)" 2009 "Department of Chemistry and Biochemistry, Arizona State University, Tempe, Arizona 85287-1604, USA" "Phys.Rev.B, 80(2009)064514"
151550 PRB080064514 BaGaSn Ba1Ca1Sn1 Ba 1 Ca 1 Sn 1 1 2009 ABC CaIn2 P6<3>/mmc A 4.5807 10.3303 K 2 arc-melting "Structural properties and superconductivity in the ternary intermetallic compounds MAB (M=Ca, Sr, Ba; A=Al, Ga, In; B=Si, Ge, Sn)" 2009 "Department of Chemistry and Biochemistry, Arizona State University, Tempe, Arizona 85287-1604, USA" "Phys.Rev.B, 80(2009)064514"
151551 PRB080064514 BaInGe Ba1In1Ge1 Ba 1 In 1 Ge 1 1 2009 ABC EuGe2 P3[-]m1 A 4.5709 5.0994 K 2 arc-melting "Structural properties and superconductivity in the ternary intermetallic compounds MAB (M=Ca, Sr, Ba; A=Al, Ga, In; B=Si, Ge, Sn)" 2009 "Department of Chemistry and Biochemistry, Arizona State University, Tempe, Arizona 85287-1604, USA" "Phys.Rev.B, 80(2009)064514"
151552 PRB080052501 "The film exposed (air,6h) is SC. Tc(on) = 25 K. c-axis distance reduces due to water vapor." (H2O)-SrFe2As2 Sr1Fe2As2 Sr 1 Fe 2 As 2 2009 204 AB2C2 ThCr2Si2 K 21 25 23 "films grown on (La,Sr)(Al,Ta)O3[001] substrates by pulsed laser deposition using SrFe2As2 target. T_{= 700C." Water-induced superconductivity in SrFe2As2 2009 "ERATO-SORST, Japan Science and Technology Agency, in Frontier Research Center, Tokyo Institute of Technology, S2-6F East, Mailbox S2-13, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 80(2009)052501"
151553 PRB080052508 optimal F-content. Tc depends on Fe-As-Fe angle. "Tb(O,F)FeAs" Tb1Fe1As1F0.1O0.9 Tb 1 Fe 1 As 1 F 0.1 O 0.9 2009 ABCD oxypnictide K 51 51 "Suppression of the superconducting transition of RFeAsO1-xFx (R=Tb, Dy, and Ho)" 2009 "Centre for Science at Extreme Conditions, University of Edinburgh, King's Buildings, Mayfield Road, Edinburgh EH9 3JZ, United Kingdom" "Phys.Rev.B, 80(2009)052508"
151554 PRB080052508 optimal F-content. Tc depends on Fe-As-Fe angle. "Dy(O,F)FeAs" Dy1Fe1As1F0.1O0.9 Dy 1 Fe 1 As 1 F 0.1 O 0.9 2009 ABCD oxypnictide K 45 45 "Suppression of the superconducting transition of RFeAsO1-xFx (R=Tb, Dy, and Ho)" 2009 "Centre for Science at Extreme Conditions, University of Edinburgh, King's Buildings, Mayfield Road, Edinburgh EH9 3JZ, United Kingdom" "Phys.Rev.B, 80(2009)052508"
151555 PRB080052508 optimal F-content. Tc depends on Fe-As-Fe angle. "Ho(O,F)FeAs" Ho1Fe1As1F0.1O0.9 Ho 1 Fe 1 As 1 F 0.1 O 0.9 2009 ABCD oxypnictide K 36 36 "Suppression of the superconducting transition of RFeAsO1-xFx (R=Tb, Dy, and Ho)" 2009 "Centre for Science at Extreme Conditions, University of Edinburgh, King's Buildings, Mayfield Road, Edinburgh EH9 3JZ, United Kingdom" "Phys.Rev.B, 80(2009)052508"
151556 PRB080052503 magnetic order detected by ZF-muonSR. "Sm(O,F)FeAs" Sm1Fe1As1F0.085O0.915 Sm 1 Fe 1 As 1 F 0.085 O 0.915 1 2009 22 ABCD K 14 14 TC151556 polycrystalline sample synthesized in sealed Ta-ampoules. Magnetic-superconducting phase boundary of SmFeAsO1-xFx studied via muon spin rotation: Unified behavior in a pnictide family 2009 "Dipartimento di Fisica, Unita CNISM di Parma, I 43100 Parma, Italy" "Phys.Rev.B, 80(2009)052503"
151557 PRB080052503 magnetic order detected by ZF-muonSR. "Sm(O,F)FeAs" Sm1Fe1As1F0.2O0.8 Sm 1 Fe 1 As 1 F 0.2 O 0.8 1 2009 ABCD K 50 50 TC151556 polycrystalline sample synthesized in sealed Ta-ampoules. Magnetic-superconducting phase boundary of SmFeAsO1-xFx studied via muon spin rotation: Unified behavior in a pnictide family 2009 "Dipartimento di Fisica, Unita CNISM di Parma, I 43100 Parma, Italy" "Phys.Rev.B, 80(2009)052503"
151560 JAP0374880 impurity phase: NbSn2 < 3%. Nb6Sn5 Nb6Sn5 Nb 6 Sn 5 1966 A5B6 3 A 5.656 9.212 16.8 K 2.7 2.8 3 0.4 2.8 Oe resistivity 600 2.1 (Nb rod + Sn) - heat(temperature gradient range from 1000C to 800C for 2w). Unreacted Sn was removed by etching in 50 HCl + 50 H2O solution. Superconducting properties of Nb6Sn5 and of multiphase Nb-Sn alloya 1966 "RCA Laboratories, Princeton, New Jersey" "J.Appl.Phys., 37(1966)4880"
151561 JEL0140011 "P-induced SC. P = 250 kbar, (dTc/dP) for 260 - 300 kbar. semicon to metal transition at P=250 kbar, RT." GaAs As1Ga1 As 1 Ga 1 1971 AB ZnS K 4.8 0 4.8 K/GPa 0.02 Superconductivity of gallium arsenide at high pressures 1971 "JETP Lett., 14(1971)11"
151562 PRB080094501 (2d/kTc) = 3.768 and 1.57 for higher and lower gap using two gap model fitting from muon-SR data. "Ba(Fe,Co)2As2" Ba1Fe1.852Co0.148As2 Ba 1 Fe 1.852 Co 0.148 As 2 3 2009 AB2C2 ThCr2Si2 K 22.2 22.5 22.8 22.2 22.5 3.768 16 Muon spin rotation measurement of the magnetic field penetration depth in Ba(Fe0.926Co0.074)2As2: Evidence for multiple superconducting gaps 2009 "Department of Physics and Astronomy, McMaster University, Hamilton, Ontario, Canada L8S 4M1" "Phys.Rev.B, 80(2009)094501"
151563 PRB080104501 TbOxFeAs Tb1Fe1As1O1 Tb 1 Fe 1 As 1 O 1 1 2009 ABCD oxypnictide P4/nmm K high pressure synthesis Superconducting properties of the oxygen-deficient iron oxyarsenide TbFeAsO1-z from underdoped to overdoped compositions 2009 "International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 80(2009)104501"
151564 PRB080104501 TbOxFeAs Tb1Fe1As1O0.9 Tb 1 Fe 1 As 1 O 0.9 0.9 2009 ABCD oxypnictide P4/nmm A 3.8912 8.3788 K 22.8 22.8 high pressure synthesis Superconducting properties of the oxygen-deficient iron oxyarsenide TbFeAsO1-z from underdoped to overdoped compositions 2009 "International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 80(2009)104501"
151565 PRB080104501 TbOxFeAs Tb1Fe1As1O0.85 Tb 1 Fe 1 As 1 O 0.85 0.85 2009 ABCD oxypnictide P4/nmm A 3.8887 8.3744 K 42 42 high pressure synthesis Superconducting properties of the oxygen-deficient iron oxyarsenide TbFeAsO1-z from underdoped to overdoped compositions 2009 "International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 80(2009)104501"
151566 PRB080104501 (dC/Tc) = 5 mJ/mol.K2. X-ray density = 7.887 g/cm3 TbOxFeAs Tb1Fe1As1O0.82 Tb 1 Fe 1 As 1 O 0.82 0.82 2009 ABCD oxypnictide P4/nmm A 3.8891 8.3744 K 43.8 43.8 Oe M vs H curve 20 high pressure synthesis Superconducting properties of the oxygen-deficient iron oxyarsenide TbFeAsO1-z from underdoped to overdoped compositions 2009 "International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 80(2009)104501"
151567 PRB080104501 TbOxFeAs Tb1Fe1As1O0.8 Tb 1 Fe 1 As 1 O 0.8 0.8 2009 ABCD oxypnictide P4/nmm A 3.889 8.3793 K 35.7 35.7 high pressure synthesis Superconducting properties of the oxygen-deficient iron oxyarsenide TbFeAsO1-z from underdoped to overdoped compositions 2009 "International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 80(2009)104501"
151568 PRB080104501 TbOxFeAs Tb1Fe1As1O0.75 Tb 1 Fe 1 As 1 O 0.75 0.75 2009 ABCD oxypnictide P4/nmm A 3.8919 8.3812 K 34.8 34.8 high pressure synthesis Superconducting properties of the oxygen-deficient iron oxyarsenide TbFeAsO1-z from underdoped to overdoped compositions 2009 "International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 80(2009)104501"
151569 PRB080104501 TbOxFeAs Tb1Fe1As1O0.7 Tb 1 Fe 1 As 1 O 0.7 0.7 2009 ABCD oxypnictide P4/nmm A 3.8922 8.3828 K 14.9 14.9 high pressure synthesis Superconducting properties of the oxygen-deficient iron oxyarsenide TbFeAsO1-z from underdoped to overdoped compositions 2009 "International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 80(2009)104501"
151570 PRB079220516 (dC/Tc) = 2.8 mJ/mol.K2 "Ba(Fe,Co)2As2" Ba1Fe1.924Co0.076As2 Ba 1 Fe 1.924 Co 0.076 As 2 3 2009 AB2C2 ThCr2Si2 K 6.85 6.85 self-flux method Jump in specific heat at the superconducting transition temperature in Ba(Fe1-xCox)2As2 and Ba(Fe1-xNix)2As2 single crystals 2009 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 79(2009)220516"
151571 PRB079220516 (dC/Tc) = 11.2 mJ/mol.K2 "Ba(Fe,Co)2As2" Ba1Fe1.906Co0.094As2 Ba 1 Fe 1.906 Co 0.094 As 2 3 2009 AB2C2 ThCr2Si2 K 14.6 14.6 self-flux method Jump in specific heat at the superconducting transition temperature in Ba(Fe1-xCox)2As2 and Ba(Fe1-xNix)2As2 single crystals 2009 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 79(2009)220516"
151572 PRB079220516 (dC/Tc) = 26.8 mJ/mol.K2 "Ba(Fe,Co)2As2" Ba1Fe1.884Co0.116As2 Ba 1 Fe 1.884 Co 0.116 As 2 3 2009 AB2C2 ThCr2Si2 K 22.7 22.7 MTC151572 self-flux method Jump in specific heat at the superconducting transition temperature in Ba(Fe1-xCox)2As2 and Ba(Fe1-xNix)2As2 single crystals 2009 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 79(2009)220516"
151573 PRB079220516 (dC/Tc) = 24.2 mJ/mol.K2 "Ba(Fe,Co)2As2" Ba1Fe1.844Co0.156As2 Ba 1 Fe 1.844 Co 0.156 As 2 3 2009 AB2C2 ThCr2Si2 K 21.7 21.7 self-flux method Jump in specific heat at the superconducting transition temperature in Ba(Fe1-xCox)2As2 and Ba(Fe1-xNix)2As2 single crystals 2009 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 79(2009)220516"
151574 PRB079220516 (dC/Tc) = 11.8 mJ/mol.K2 "Ba(Fe,Co)2As2" Ba1Fe1.8Co0.2As2 Ba 1 Fe 1.8 Co 0.2 As 2 3 2009 AB2C2 ThCr2Si2 K 15.5 15.5 self-flux method Jump in specific heat at the superconducting transition temperature in Ba(Fe1-xCox)2As2 and Ba(Fe1-xNix)2As2 single crystals 2009 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 79(2009)220516"
151575 PRB079220516 (dC/Tc) = 6.37 mJ/mol.K2 "Ba(Fe,Co)2As2" Ba1Fe1.772Co0.228As2 Ba 1 Fe 1.772 Co 0.228 As 2 3 2009 AB2C2 ThCr2Si2 K 8.52 8.52 self-flux method Jump in specific heat at the superconducting transition temperature in Ba(Fe1-xCox)2As2 and Ba(Fe1-xNix)2As2 single crystals 2009 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 79(2009)220516"
151576 PRB079220516 (dC/Tc) = 0.51 mJ/mol.K2 "Ba(Fe,Ni)2As2" Ba1Fe1.952Ni0.048As2 Ba 1 Fe 1.952 Ni 0.048 As 2 3 2009 AB2C2 ThCr2Si2 K 2.39 2.39 self-flux method Jump in specific heat at the superconducting transition temperature in Ba(Fe1-xCox)2As2 and Ba(Fe1-xNix)2As2 single crystals 2009 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 79(2009)220516"
151577 PRB079220516 (dC/Tc) = 11.8 mJ/mol.K2 "Ba(Fe,Ni)2As2" Ba1Fe1.936Ni0.064As2 Ba 1 Fe 1.936 Ni 0.064 As 2 3 2009 AB2C2 ThCr2Si2 K 14.6 14.6 self-flux method Jump in specific heat at the superconducting transition temperature in Ba(Fe1-xCox)2As2 and Ba(Fe1-xNix)2As2 single crystals 2009 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 79(2009)220516"
151578 PRB079220516 (dC/Tc) = 20.8 mJ/mol.K2 "Ba(Fe,Ni)2As2" Ba1Fe1.908Ni0.092As2 Ba 1 Fe 1.908 Ni 0.092 As 2 3 2009 AB2C2 ThCr2Si2 K 17.8 17.8 MTC151578 self-flux method Jump in specific heat at the superconducting transition temperature in Ba(Fe1-xCox)2As2 and Ba(Fe1-xNix)2As2 single crystals 2009 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 79(2009)220516"
151579 PRB079220516 (dC/Tc) = 12.4 mJ/mol.K2 "Ba(Fe,Ni)2As2" Ba1Fe1.892Ni0.108As2 Ba 1 Fe 1.892 Ni 0.108 As 2 3 2009 AB2C2 ThCr2Si2 K 13.9 13.9 self-flux method Jump in specific heat at the superconducting transition temperature in Ba(Fe1-xCox)2As2 and Ba(Fe1-xNix)2As2 single crystals 2009 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 79(2009)220516"
151580 PRB079220516 (dC/Tc) = 0.76 mJ/mol.K2 "Ba(Fe,Ni)2As2" Ba1Fe1.856Ni0.144As2 Ba 1 Fe 1.856 Ni 0.144 As 2 3 2009 AB2C2 ThCr2Si2 K 5.1 5.1 self-flux method Jump in specific heat at the superconducting transition temperature in Ba(Fe1-xCox)2As2 and Ba(Fe1-xNix)2As2 single crystals 2009 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 79(2009)220516"
151581 PRL103097003 RRR=30. Hc2(T) measured a various P for H//a and H//c. Tm(FM) defined as kink in R(T) curves. Tc defined as R=0.5Rn. P for FM is 1.46 Gpa. (dTm/dP) = -2.4 K/GPa UCoGe U1Co1Ge1 U 1 Co 1 Ge 1 3 2009 ABC TiNiSi Pnma K 0.5 0.5 MPH151581 K/Gpa 0.2 MHC151581 Enhancement of Superconductivity near the Ferromagnetic Quantum Critical Point in UCoGe 2009 "Van der Waals-Zeeman Institute, University of Amsterdam, Valckenierstraat 65, 1018 XE Amsterdam, The Netherlands" "Phys.Rev.Lett., 103(2009)097003"
151582 PRL100077002 RRR=30 (I//a). Ordered moment = 0.07 myuB along c-axis. anisotropy (Hc2}/Hc2) = 10. UCoGe U1Co1Ge1 U 1 Co 1 Ge 1 3 2008 ABC 3 TiNiSi Pnma K 0.6 0.1 0.6 T resistivity 5 T/K resistivity 7.9 MHC151582 mJ/mol.K2 57 uOhm.cm 10.2 polycristalline made using arc-melting. single crystal obtained using Czochralski method from the melt. Unusual Upper Critical Field of the Ferromagnetic Superconductor UCoGe 2008 "Van der Waals-Zeeman Institute, University of Amsterdam, Valckenierstraat 65, 1018 XE Amsterdam, The Netherlands" "Phys.Rev.Lett., 100(2008)077002"
151583 PHC4690332 structural(tetra-to-ortho) and magnetic(para-to-AF) transition at 90 K. Mossbauer effect measured. "(Ba,K)Fe2As2" Ba0.8K0.2Fe2As2 Ba 0.8 K 0.2 Fe 2 As 2 3 2009 AB2C2 ThCr2Si2 K 25.3 25.3 MTC151583 "Superconductivity, magnetism and crystal chemistry of Ba1-xKxFe2As2" 2009 "Department Chemie und Biochemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstrasse 5?13 (Haus D), 81377 Munchen, Germany" "Physica C, 469(2009)332"
151584 PHC4690350 RRR=8. no structural phase transition down to 0.5 K. BaCo2As2 Ba1Co2As2 Ba 1 Co 2 As 2 2009 AB2C2 ThCr2Si2 I4/mmm 139 K 0.5 mJ/mol.K2 41.6 "mOhm,cm" 0.0057 0.07 "(Ba:CoAs=1:5) - heat)1180C,15h) - cool(2-4 C/h)" "BaT2As2 single crystals (T = Fe, Co, Ni) and superconductivity upon Co-doping" 2009 "Materials Science and Technology Division, Oak Ridge National Laboratory, 1 Bethel Valley Road, Oak Ridge, TN 37831, USA" "Physica C, 469(2009)350"
151585 PHC4690350 "Ba(Fe,Co)2As2" Ba1Fe1.84Co0.16As2 Ba 1 Fe 1.84 Co 0.16 As 2 2009 AB2C2 ThCr2Si2 I4/mmm 139 A 3.9639 12.98 K 22 22 0.6 22 "mOhm,cm" 0.32 "(Ba:FeAs:CoAs=1:4.45:0.55) - heat(1180C, 10h) - cool(4C/h)" "BaT2As2 single crystals (T = Fe, Co, Ni) and superconductivity upon Co-doping" 2009 "Materials Science and Technology Division, Oak Ridge National Laboratory, 1 Bethel Valley Road, Oak Ridge, TN 37831, USA" "Physica C, 469(2009)350"
151586 PHC4690894 LaOFeAs La1Fe1As1O1 La 1 Fe 1 As 1 O 1 2009 ABCD oxypnictide A 4.0312 8.7371 K 1.2 "1st step: LaAs(PrAs), SrAs were prepared by solid state reaction. Then, mixture(LaAs(PrAs),SrAs,Fe powder,Fe2O3) - pellet - heat(1150C,60h, in quartz tube with 20%Ar)" "Superconductivity in the hole-doped oxy-arsenide RE1-xSrxFeAsO (RE = La, Pr)" 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, People's Republic of China" "Physica C, 469(2009)894"
151587 PHC4690894 "(La,Sr)OFeAs" La0.96Sr0.04Fe1As1O1 La 0.96 Sr 0.04 Fe 1 As 1 O 1 2009 ABCD oxypnictide A 4.035 8.7497 K 3.65 3.65 "1st step: LaAs(PrAs), SrAs were prepared by solid state reaction. Then, mixture(LaAs(PrAs),SrAs,Fe powder,Fe2O3) - pellet - heat(1150C,60h, in quartz tube with 20%Ar)" "Superconductivity in the hole-doped oxy-arsenide RE1-xSrxFeAsO (RE = La, Pr)" 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, People's Republic of China" "Physica C, 469(2009)894"
151588 PHC4690894 "(La,Sr)OFeAs" La0.92Sr0.08Fe1As1O1 La 0.92 Sr 0.08 Fe 1 As 1 O 1 2009 ABCD oxypnictide A 4.0369 8.7698 K 18.9 18.9 "1st step: LaAs(PrAs), SrAs were prepared by solid state reaction. Then, mixture(LaAs(PrAs),SrAs,Fe powder,Fe2O3) - pellet - heat(1150C,60h, in quartz tube with 20%Ar)" "Superconductivity in the hole-doped oxy-arsenide RE1-xSrxFeAsO (RE = La, Pr)" 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, People's Republic of China" "Physica C, 469(2009)894"
151589 PHC4690894 "(La,Sr)OFeAs" La0.9Sr0.1Fe1As1O1 La 0.9 Sr 0.1 Fe 1 As 1 O 1 2009 ABCD oxypnictide A 4.0381 8.7849 K 24.6 24.6 "1st step: LaAs(PrAs), SrAs were prepared by solid state reaction. Then, mixture(LaAs(PrAs),SrAs,Fe powder,Fe2O3) - pellet - heat(1150C,60h, in quartz tube with 20%Ar)" "Superconductivity in the hole-doped oxy-arsenide RE1-xSrxFeAsO (RE = La, Pr)" 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, People's Republic of China" "Physica C, 469(2009)894"
151590 PHC4690894 "(La,Sr)OFeAs" La0.89Sr0.11Fe1As1O1 La 0.89 Sr 0.11 Fe 1 As 1 O 1 2009 ABCD oxypnictide A 4.0449 8.7887 K 25.5 25.5 "1st step: LaAs(PrAs), SrAs were prepared by solid state reaction. Then, mixture(LaAs(PrAs),SrAs,Fe powder,Fe2O3) - pellet - heat(1150C,60h, in quartz tube with 20%Ar)" "Superconductivity in the hole-doped oxy-arsenide RE1-xSrxFeAsO (RE = La, Pr)" 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, People's Republic of China" "Physica C, 469(2009)894"
151591 PHC4690894 "(La,Sr)OFeAs" La0.87Sr0.13Fe1As1O1 La 0.87 Sr 0.13 Fe 1 As 1 O 1 2009 ABCD oxypnictide A 4.0457 8.8189 K 25.9 25.9 E-8 m3/C -0.067 RH151591 "1st step: LaAs(PrAs), SrAs were prepared by solid state reaction. Then, mixture(LaAs(PrAs),SrAs,Fe powder,Fe2O3) - pellet - heat(1150C,60h, in quartz tube with 20%Ar)" "Superconductivity in the hole-doped oxy-arsenide RE1-xSrxFeAsO (RE = La, Pr)" 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, People's Republic of China" "Physica C, 469(2009)894"
151592 PHC4690894 "(La,Sr)OFeAs" La0.85Sr0.15Fe1As1O1 La 0.85 Sr 0.15 Fe 1 As 1 O 1 2009 ABCD oxypnictide A 4.0385 8.7774 K 25.4 25.4 T resistivity 112 T/K "resistivity, G-L fitting" 4.6 "1st step: LaAs(PrAs), SrAs were prepared by solid state reaction. Then, mixture(LaAs(PrAs),SrAs,Fe powder,Fe2O3) - pellet - heat(1150C,60h, in quartz tube with 20%Ar)" "Superconductivity in the hole-doped oxy-arsenide RE1-xSrxFeAsO (RE = La, Pr)" 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, People's Republic of China" "Physica C, 469(2009)894"
151593 PHC4690894 "(La,Sr)OFeAs" La0.8Sr0.2Fe1As1O1 La 0.8 Sr 0.2 Fe 1 As 1 O 1 2009 ABCD oxypnictide A 4.04 8.7824 K 24.9 24.9 "1st step: LaAs(PrAs), SrAs were prepared by solid state reaction. Then, mixture(LaAs(PrAs),SrAs,Fe powder,Fe2O3) - pellet - heat(1150C,60h, in quartz tube with 20%Ar)" "Superconductivity in the hole-doped oxy-arsenide RE1-xSrxFeAsO (RE = La, Pr)" 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, People's Republic of China" "Physica C, 469(2009)894"
151594 PHC4690894 PrOFeAs Pr1Fe1As1O1 Pr 1 Fe 1 As 1 O 1 2009 ABCD oxypnictide A 3.9831 8.6163 K 1.2 "1st step: LaAs(PrAs), SrAs were prepared by solid state reaction. Then, mixture(LaAs(PrAs),SrAs,Fe powder,Fe2O3) - pellet - heat(1150C,60h, in quartz tube with 20%Ar)" "Superconductivity in the hole-doped oxy-arsenide RE1-xSrxFeAsO (RE = La, Pr)" 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, People's Republic of China" "Physica C, 469(2009)894"
151595 PHC4690894 "(Pr,Sr)OFeAs" Pr0.95Sr0.05Fe1As1O1 Pr 0.95 Sr 0.05 Fe 1 As 1 O 1 2009 ABCD oxypnictide A 3.9846 8.6226 K 4.86 4.86 "1st step: LaAs(PrAs), SrAs were prepared by solid state reaction. Then, mixture(LaAs(PrAs),SrAs,Fe powder,Fe2O3) - pellet - heat(1150C,60h, in quartz tube with 20%Ar)" "Superconductivity in the hole-doped oxy-arsenide RE1-xSrxFeAsO (RE = La, Pr)" 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, People's Republic of China" "Physica C, 469(2009)894"
151596 PHC4690894 "(Pr,Sr)OFeAs" Pr0.9Sr0.1Fe1As1O1 Pr 0.9 Sr 0.1 Fe 1 As 1 O 1 2009 ABCD oxypnictide A 3.9899 8.6402 K 12.8 12.8 "1st step: LaAs(PrAs), SrAs were prepared by solid state reaction. Then, mixture(LaAs(PrAs),SrAs,Fe powder,Fe2O3) - pellet - heat(1150C,60h, in quartz tube with 20%Ar)" "Superconductivity in the hole-doped oxy-arsenide RE1-xSrxFeAsO (RE = La, Pr)" 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, People's Republic of China" "Physica C, 469(2009)894"
151597 PHC4690894 "(Pr,Sr)OFeAs" Pr0.85Sr0.15Fe1As1O1 Pr 0.85 Sr 0.15 Fe 1 As 1 O 1 2009 ABCD oxypnictide A 3.9919 8.6516 K 15.5 15.5 "1st step: LaAs(PrAs), SrAs were prepared by solid state reaction. Then, mixture(LaAs(PrAs),SrAs,Fe powder,Fe2O3) - pellet - heat(1150C,60h, in quartz tube with 20%Ar)" "Superconductivity in the hole-doped oxy-arsenide RE1-xSrxFeAsO (RE = La, Pr)" 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, People's Republic of China" "Physica C, 469(2009)894"
151599 PHC4690894 "(Pr,Sr)OFeAs" Pr0.75Sr0.25Fe1As1O1 Pr 0.75 Sr 0.25 Fe 1 As 1 O 1 2009 ABCD oxypnictide A 3.9968 8.6591 K 16.2 16.2 T resistivity 52 T/K "resistivity, G-L fitting" 4 E-8 m3/C -0.067 RH151599 "1st step: LaAs(PrAs), SrAs were prepared by solid state reaction. Then, mixture(LaAs(PrAs),SrAs,Fe powder,Fe2O3) - pellet - heat(1150C,60h, in quartz tube with 20%Ar)" "Superconductivity in the hole-doped oxy-arsenide RE1-xSrxFeAsO (RE = La, Pr)" 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, People's Republic of China" "Physica C, 469(2009)894"
151600 PRB080100503 P-induced SC. optimal-P(for Tc) = 3.8 GPa. P-dependence of NMR investigated. spin gap(D) plotted in figure (degree unit). Sr2Ca12Cu24O41 Sr2Ca12Cu24O41 Sr 2 Ca 12 Cu 24 O 41 3 2009 A2B3C5 LAD K 8.8 9.7 0 9.25 TC151600 NMR and NQR study of pressure-induced superconductivity and the origin of critical-temperature enhancement in the spin-ladder cuprate Sr2Ca12Cu24O41 2009 "Graduate School of Human and Environmental Studies, Kyoto University, Yoshida-Nihonmatsu-cyo, Sakyo-ku, Kyoto 606-8501, Japan" "Phys.Rev.B, 80(2009)100503"
151601 PRB080100502 Lu2Fe3Si5 Lu2Fe3Si5 Lu 2 Fe 3 Si 5 3 2009 A2B3C5 Sc2Fe3Si5 K 6.1 6.15 6.15 uOhm.cm 22 7 floating zone method "Disorder-sensitive superconductivity in the doped iron silicide superconductor (Lu1-xRx)2Fe3Si5 (R=Sc, Y, and Dy)" 2009 "Department of Physics, College of Science and Technology (CST), Nihon University, Chiyoda-ku, Tokyo 101-8308, Japan" "Phys.Rev.B, 80(2009)100502"
151602 PRB080100502 Lu2Fe3Si5 Lu2Fe3Si5 Lu 2 Fe 3 Si 5 1 2009 A2B3C5 Sc2Fe3Si5 K 5.85 5.85 5.85 uOhm.cm 30 "Disorder-sensitive superconductivity in the doped iron silicide superconductor (Lu1-xRx)2Fe3Si5 (R=Sc, Y, and Dy)" 2009 "Department of Physics, College of Science and Technology (CST), Nihon University, Chiyoda-ku, Tokyo 101-8308, Japan" "Phys.Rev.B, 80(2009)100502"
151603 PRB080100502 "(Lu,Y)2Fe3Si5" Lu1.9Y0.1Fe3Si5 Lu 1.9 Y 0.1 Fe 3 Si 5 1 2009 A2B3C5 Sc2Fe3Si5 K 4.16 4.19 4.16 "Disorder-sensitive superconductivity in the doped iron silicide superconductor (Lu1-xRx)2Fe3Si5 (R=Sc, Y, and Dy)" 2009 "Department of Physics, College of Science and Technology (CST), Nihon University, Chiyoda-ku, Tokyo 101-8308, Japan" "Phys.Rev.B, 80(2009)100502"
151604 PRB080100502 "(Lu,Sc)2Fe3Si5" Lu1.86Sc0.14Fe3Si5 Lu 1.86 Sc 0.14 Fe 3 Si 5 1 2009 A2B3C5 Sc2Fe3Si5 K 3.51 3.6 3.51 "Disorder-sensitive superconductivity in the doped iron silicide superconductor (Lu1-xRx)2Fe3Si5 (R=Sc, Y, and Dy)" 2009 "Department of Physics, College of Science and Technology (CST), Nihon University, Chiyoda-ku, Tokyo 101-8308, Japan" "Phys.Rev.B, 80(2009)100502"
151605 PRB080100502 "(Lu,Dy)2Fe3Si5" Lu1.94Dy0.06Fe3Si5 Lu 1.94 Dy 0.06 Fe 3 Si 5 1 2009 A2B3C5 Sc2Fe3Si5 K 4.4 4.52 4.38 4.52 "Disorder-sensitive superconductivity in the doped iron silicide superconductor (Lu1-xRx)2Fe3Si5 (R=Sc, Y, and Dy)" 2009 "Department of Physics, College of Science and Technology (CST), Nihon University, Chiyoda-ku, Tokyo 101-8308, Japan" "Phys.Rev.B, 80(2009)100502"
151606 PRB080100502 "(Lu,Dy)2Fe3Si5" Lu1.9Dy0.1Fe3Si5 Lu 1.9 Dy 0.1 Fe 3 Si 5 1 2009 A2B3C5 Sc2Fe3Si5 K 3.77 3.77 "Disorder-sensitive superconductivity in the doped iron silicide superconductor (Lu1-xRx)2Fe3Si5 (R=Sc, Y, and Dy)" 2009 "Department of Physics, College of Science and Technology (CST), Nihon University, Chiyoda-ku, Tokyo 101-8308, Japan" "Phys.Rev.B, 80(2009)100502"
151607 PRB080100502 "(Lu,Sc)2Fe3Si5" Lu1.94Sc0.06Fe3Si5 Lu 1.94 Sc 0.06 Fe 3 Si 5 1 2009 A2B3C5 Sc2Fe3Si5 K 4.83 4.83 "Disorder-sensitive superconductivity in the doped iron silicide superconductor (Lu1-xRx)2Fe3Si5 (R=Sc, Y, and Dy)" 2009 "Department of Physics, College of Science and Technology (CST), Nihon University, Chiyoda-ku, Tokyo 101-8308, Japan" "Phys.Rev.B, 80(2009)100502"
151608 PRB080100502 "(Lu,Sc)2Fe3Si5" Lu1.9Sc0.1Fe3Si5 Lu 1.9 Sc 0.1 Fe 3 Si 5 1 2009 A2B3C5 Sc2Fe3Si5 K 4.33 4.33 "Disorder-sensitive superconductivity in the doped iron silicide superconductor (Lu1-xRx)2Fe3Si5 (R=Sc, Y, and Dy)" 2009 "Department of Physics, College of Science and Technology (CST), Nihon University, Chiyoda-ku, Tokyo 101-8308, Japan" "Phys.Rev.B, 80(2009)100502"
151609 PRB080100502 "(Lu,Y)2Fe3Si5" Lu1.86Y0.14Fe3Si5 Lu 1.86 Y 0.14 Fe 3 Si 5 1 2009 A2B3C5 Sc2Fe3Si5 K 3.51 3.51 "Disorder-sensitive superconductivity in the doped iron silicide superconductor (Lu1-xRx)2Fe3Si5 (R=Sc, Y, and Dy)" 2009 "Department of Physics, College of Science and Technology (CST), Nihon University, Chiyoda-ku, Tokyo 101-8308, Japan" "Phys.Rev.B, 80(2009)100502"
151610 PHC4691921 SrFe2As2 Sr1Fe2As2 Sr 1 Fe 2 As 2 2009 AB2C2 ThCr2Si2 A 3.9207 12.3592 K 2 "Sr,Fe,Ru,As" "mixture - sealed(Nb-tube) - heat(850C,35h) - cool to RT" Superconductivity induced by doping Ru in SrFe2-xRuxAs2 2009 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences, P.O. Box 2703, Beijing 100190, China" "Physica C, 469(2009)1921"
151611 PHC4691921 "Sr(Fe,Ru)2As2" Sr1Fe1.7Ru0.3As2 Sr 1 Fe 1.7 Ru 0.3 As 2 2009 AB2C2 ThCr2Si2 A 3.9355 12.309 K 2 "Sr,Fe,Ru,As" "mixture - sealed(Nb-tube) - heat(850C,35h) - cool to RT" Superconductivity induced by doping Ru in SrFe2-xRuxAs2 2009 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences, P.O. Box 2703, Beijing 100190, China" "Physica C, 469(2009)1921"
151612 PHC4691921 R not to zero at 2K. "Sr(Fe,Ru)2As2" Sr1Fe1.5Ru0.5As2 Sr 1 Fe 1.5 Ru 0.5 As 2 2009 AB2C2 ThCr2Si2 A 3.9551 12.196 K 13.5 13.5 "Sr,Fe,Ru,As" "mixture - sealed(Nb-tube) - heat(850C,35h) - cool to RT" Superconductivity induced by doping Ru in SrFe2-xRuxAs2 2009 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences, P.O. Box 2703, Beijing 100190, China" "Physica C, 469(2009)1921"
151613 PHC4691921 "Sr(Fe,Ru)2As2" Sr1Fe1.3Ru0.7As2 Sr 1 Fe 1.3 Ru 0.7 As 2 2009 AB2C2 ThCr2Si2 A 3.9709 12.093 K 13.5 5 13.5 "Sr,Fe,Ru,As" "mixture - sealed(Nb-tube) - heat(850C,35h) - cool to RT" Superconductivity induced by doping Ru in SrFe2-xRuxAs2 2009 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences, P.O. Box 2703, Beijing 100190, China" "Physica C, 469(2009)1921"
151614 CAL0330027 not SC. small diamag-signal maybe from Bi-film on the surface. beta-RhBi2 Bi2Rh1 Bi 2 Rh 1 3 2009 AB2 P1[-] A 6.728 7.022 7.0655 "alpha=104.916, beta-100.82, gamma=105.583 degree." K 1.8 Bi-flux method Phase relationship and superconductivity in the Bi-rich part of the binary system Rh-Bi 2009 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Dresden, Germany" "CALPHAD:phase diagram, 33(2009)27"
151615 CAL0330027 RhBi4 Bi4Rh1 Bi 4 Rh 1 3 2009 AB4 Ia3[-]d A 14.9304 K 3.15 3.15 Bi-flux method Phase relationship and superconductivity in the Bi-rich part of the binary system Rh-Bi 2009 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Dresden, Germany" "CALPHAD:phase diagram, 33(2009)27"
151616 CAL0330027 Rh3Bi4 Bi14Rh3 Bi 14 Rh 3 3 2009 A3B14 Fddd A 6.9041 17.3816 31.752 K 2.85 2.85 Bi-flux method Phase relationship and superconductivity in the Bi-rich part of the binary system Rh-Bi 2009 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Dresden, Germany" "CALPHAD:phase diagram, 33(2009)27"
151617 CAL0330027 small Meissner effect RhBi3 Bi3Rh1 Bi 3 Rh 1 3 2009 AB3 Pnma A 8.8761 4.242 11.3627 K 3.15 3.15 Bi-flux method Phase relationship and superconductivity in the Bi-rich part of the binary system Rh-Bi 2009 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Dresden, Germany" "CALPHAD:phase diagram, 33(2009)27"
151618 JPS078085001 "RRR = 3. (dC/gamma*Tc) = 1.0. lattice term coeff.(beta) = 1.2 mJ/mol.K4. Hc2 defined as R=zero. H// means b-axis. H/n means a-axis. For H//c[001], Hc2(0)=0.35T, -(dHc2/dT)=0.32 T/K, cohere=260A" Ca2Pt3Sig Ca2Pt3Si5 Ca 2 Pt 3 Si 5 3 2009 A2B3C5 3 U2Co3Si5 Ibam 72 A 10.0676 11.5465 5.9237 K 1.3 0.1 1.3 T resistivity 0.5 0.35 T/K 0.44 0.23 MHC151618 A 370 260 mJ/mol.K2 9.4 SP-heat 253 SP-heat uOhm.cm 19 Sn-flux method. Ca:Pt:Si:Sn = 1:1:3:20 Superconductivity in a Ternary Silicide Ca2Pt3Si5 2009 "Low Temperature Center, Osaka University, Toyonaka, Osaka 560-0043, Osaka University, Toyonaka, Osaka 560-0043" "J.Phys.Soc.Jpn, 78(2009)085001"
151619 JPS078084710 Tc defined from ac-SUS. FeSe0.88 Fe1Se0.88 Fe 1 Se 0.88 2009 AB K 8.69 8.69 MTC151619 K/GPa 0.836 solid state reaction Pressure Effects on Superconductivity and Magnetism in FeSe1-xTex 2009 "Department of Physics, Center for Nanoscience and Nanotechnology, National Sun Yat-Sen University, Kaohsiung 804, Taiwan" "J.Phys.Soc.Jpn, 78(2009)084710"
151620 JPS078084710 Tc defined from ac-SUS. FeSe0.5Te0.5 Fe1Se0.5Te0.5 Fe 1 Se 0.5 Te 0.5 2009 AB K 8.47 8.47 MTC151620 K/GPa 14.7 solid state reaction Pressure Effects on Superconductivity and Magnetism in FeSe1-xTex 2009 "Department of Physics, Center for Nanoscience and Nanotechnology, National Sun Yat-Sen University, Kaohsiung 804, Taiwan" "J.Phys.Soc.Jpn, 78(2009)084710"
151621 PRL089166402 Pressure by miniature saphire anvil cell(Ar). Shubnikov-deHaas effect measured. Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 2002 Sr2RuO4 K 1.5 1.5 TC151621 K/GPa 0.216 floating zone method Evolution of Fermi-Liquid Interactions in Sr2RuO4 under Pressure 2002 "Cavendish Laboratory, University of Cambridge, Madingley Road, Cambridge CB3 OHE, United Kingdom" "Phys.Rev.Lett., 89(2002)166402"
151622 PRB0567890 platelike(1.5*0.6*0.04 mm3). hydrastatic pressure. Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 1997 Sr2RuO4 K 0.77 0.9 0.91 0.9 TC151622 K/GPa 0.3 410 floating zone method Pressure dependence of superconducting critical temperature of Sr2RuO4 1997 "Electrotechnical Laboratory, Tsukuba 305, Japan" "Phys.Rev.B, 56(1997)7890"
151623 JPS078063705 "P using cubic anvil, nearly hydrostatic. Tc(max) = 26.2 K at P=2 GPa. For P>2 GPa, dTc/dP = -2.8 K/GPa." "Fe(Se,Te)" Fe1Se0.5Te0.5 Fe 1 Se 0.5 Te 0.5 2009 AB K 12.5 13.5 13 MTC151623 K/GPa 7.4 solid state reaction First Investigation of Pressure Effects on Transition from Superconductive to Metallic Phase in FeSe0.5Te0.5 2009 "WPI-AIMR, Tohoku University, Sendai 980-8577" "J.Phys.Soc.Jpn, 78(2009)063705"
151624 JPS078063705 "Fe(Se,Te)" Fe1Se0.38Te0.62 Fe 1 Se 0.38 Te 0.62 2009 AB K 13.5 13.5 solid state reaction First Investigation of Pressure Effects on Transition from Superconductive to Metallic Phase in FeSe0.5Te0.5 2009 "WPI-AIMR, Tohoku University, Sendai 980-8577" "J.Phys.Soc.Jpn, 78(2009)063705"
151625 JPS078063705 "Fe(Se,Te)" Fe1Se0.25Te0.75 Fe 1 Se 0.25 Te 0.75 2009 AB K 12 12 solid state reaction First Investigation of Pressure Effects on Transition from Superconductive to Metallic Phase in FeSe0.5Te0.5 2009 "WPI-AIMR, Tohoku University, Sendai 980-8577" "J.Phys.Soc.Jpn, 78(2009)063705"
151626 JPS078063705 "Fe(Se,Te)" Fe1Se0.13Te0.87 Fe 1 Se 0.13 Te 0.87 2009 AB K 6 6 solid state reaction First Investigation of Pressure Effects on Transition from Superconductive to Metallic Phase in FeSe0.5Te0.5 2009 "WPI-AIMR, Tohoku University, Sendai 980-8577" "J.Phys.Soc.Jpn, 78(2009)063705"
151627 EPL08627001 impurity: alpha-FeSe(NiAs-type). tetra-to-ortho(space-G=Pbnm) transition at 12.5 GPa. SDW temperature T* = 125 K(P=0). beta-FeSe Fe1Se1 Fe 1 Se 1 2009 GPa 28.9 AB PbO P4/nmm A 3.7699 5.5184 K 8.5 8.5 MTC151627 K/GPa 3.2 "Fe(4N),Se(5N)" "Fe:Se=1:0.82, mixture - sealed in quartz tube - heat(700C,48h)" High-temperature superconductivity (Tc onset at 34 K) in the high-pressure orthorhombic phase of FeSe 2009 "European Synchrotron Radiation Facility (ESRF) - 6 Rue Jules Horowitz, BP 220, F-38043 Grenoble Cedex, France, EU" "Euro.Phys.Lett., 86(2009)27001"
151628 PRB080092502 "Annealed sample. compositions and homogeneity measured by EDX analysis. Jc(5K,0 T) = 1 E+5 A/cm2 using Bean model." "Fe(Se,Te)" Fe1Se0.39Te0.61 Fe 1 Se 0.39 Te 0.61 3 2009 AB A 3.798 6.052 K 14 14 mOhm.cm 0.4 "nominal(FeSe0.5Te0.5) - sealed in silica tube - heat to 710 C(6C/h) - cool to RT - ANN(400C,10d) - Quench" Superconductivity at Tc = 14 K in single-crystalline FeTe0.61Se0.39 2009 "Department of Applied Physics, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B, 80(2009)092502"
151629 SSI1010009 (MX)n(TX2)m compounds. periodic length = 24.306 A. (BiSe)xTaSe2 Bi1.09Ta1Se3.09 Bi 1.09 Ta 1 Se 3.09 1997 ABC2 K 1.8 1.8 "(BiSe)1.09(TaSe2)m: m=1,2,3, mixture - sealed in silica tube - heat(500C,12h + 800C,24h) - crush - heat(500-900C) - Q to water" "Preparation, characterization and intercalation of ternary chalcogenides with layered composite crystal structures formed in the Bi-Ta-S and Bi-Ta-Se systems" 1997 "National Institute of Materials and Chemical Research, Higashi,Tsukuba,Ibaraki,Japan" "Solid State Ionics, 101-103(1997)9"
151630 SSI1010009 (MX)n(TX2)m compounds. periodic length = 18.445 A (BiSe)x(TaSe2)2 Bi1.09Ta2Se5.09 Bi 1.09 Ta 2 Se 5.09 1997 AB2C4 K 1.8 1.8 "(BiSe)1.09(TaSe2)m: m=1,2,3, mixture - sealed in silica tube - heat(500C,12h + 800C,24h) - crush - heat(500-900C) - Q to water" "Preparation, characterization and intercalation of ternary chalcogenides with layered composite crystal structures formed in the Bi-Ta-S and Bi-Ta-Se systems" 1997 "National Institute of Materials and Chemical Research, Higashi,Tsukuba,Ibaraki,Japan" "Solid State Ionics, 101-103(1997)9"
151631 SSI1010009 (MX)n(TX2)m compounds (BiS)xTaS2 Bi1.09Ta1S3.09 Bi 1.09 Ta 1 S 3.09 1997 ABC2 K 1.5 "(BiS)1.08(TaS2)m: m=1,2,3, mixture - sealed in silica tube - heat(500C,12h + 800C,24h) - crush - heat(500-900C) - Q to water" "Preparation, characterization and intercalation of ternary chalcogenides with layered composite crystal structures formed in the Bi-Ta-S and Bi-Ta-Se systems" 1997 "National Institute of Materials and Chemical Research, Higashi,Tsukuba,Ibaraki,Japan" "Solid State Ionics, 101-103(1997)9"
151632 SSI1010009 (MX)n(TX2)m compounds (BiS)x(TaS2)2 Bi1.09Ta2S5.09 Bi 1.09 Ta 2 S 5.09 1997 AB2C4 K 2.5 2.8 2.65 "(BiS)1.08(TaS2)m: m=1,2,3, mixture - sealed in silica tube - heat(500C,12h + 800C,24h) - crush - heat(500-900C) - Q to water" "Preparation, characterization and intercalation of ternary chalcogenides with layered composite crystal structures formed in the Bi-Ta-S and Bi-Ta-Se systems" 1997 "National Institute of Materials and Chemical Research, Higashi,Tsukuba,Ibaraki,Japan" "Solid State Ionics, 101-103(1997)9"
151633 JJP031L1096 (MX)n(TX2)m compounds "(Pb,Se)x(NbSe2)2" Pb1.14Nb2Se5.14 Pb 1.14 Nb 2 Se 5.14 1992 AB2C4 K 3.4 3.4 "Pb(3N),Nb(2N),Se(3N)" "(PbSe)1.09(NbSe2)m: m=1,2,3, mixture - sealed in silica tube - heat(500C,48h) - crush - heat(500-900C) - Q to water" Three types of ternary selenides with layered composite crystal structures formed in the Pb-Nb-Se system 1992 "National Chemical Laboratory for Industry, Higashi, Tsukuba, Ibaraki,Japan" "Jpn.J.Appl.Phys., 31(1992)L1096"
151634 JJP031L1096 (MX)n(TX2)m compounds "(Pb,Se)x(NbSe2)3" Pb1.14Nb3Se7.14 Pb 1.14 Nb 3 Se 7.14 1992 AB3C6 K 4.8 4.8 "Pb(3N),Nb(2N),Se(3N)" "(PbSe)1.09(NbSe2)m: m=1,2,3, mixture - sealed in silica tube - heat(500C,48h) - crush - heat(500-900C) - Q to water" Three types of ternary selenides with layered composite crystal structures formed in the Pb-Nb-Se system 1992 "National Chemical Laboratory for Industry, Higashi, Tsukuba, Ibaraki,Japan" "Jpn.J.Appl.Phys., 31(1992)L1096"
151635 JJP031L1096 (MX)n(TX2)m compounds. R starts to decrease at 2.0 K. "(Pb,Se)xNbSe2" Pb1.14Nb1Se3.14 Pb 1.14 Nb 1 Se 3.14 1992 ABC2 K 2 "Pb(3N),Nb(2N),Se(3N)" "(PbSe)1.09(NbSe2)m: m=1,2,3, mixture - sealed in silica tube - heat(500C,48h) - crush - heat(500-900C) - Q to water" Three types of ternary selenides with layered composite crystal structures formed in the Pb-Nb-Se system 1992 "National Chemical Laboratory for Industry, Higashi, Tsukuba, Ibaraki,Japan" "Jpn.J.Appl.Phys., 31(1992)L1096"
151636 PRB080134523 anisotropic thermal expansion coeff. negative sign for and positive for direction. "Fe(Te,Se)" Fe1.06Te0.5Se0.5 Fe 1.06 Te 0.5 Se 0.5 3 2009 AB K 14 14 K/GPa -5.4 Bridgman method Anisotropic thermal expansion of Fe1.06Te and FeTe0.5Se0.5 single crystals 2009 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 80(2009)134523"
151637 PRB080134523 not SC. tetra(H) to monocl(L) structural transition. anisotropic thermal expansion coeff. negative sign for and positive for direction. FeTe Fe1.06Te1 Fe 1.06 Te 1 3 2009 AB K 2 mJ/mol.K2 34 Bridgman method Anisotropic thermal expansion of Fe1.06Te and FeTe0.5Se0.5 single crystals 2009 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 80(2009)134523"
151638 PRB080140513 H//c-axis. Tc(max) = 0.63 K at P=0.4 GPa. Two SC regions (SC1 for low-P and SC2 for high-P region). (dC/[gamma]*Tc) for SC1 is larger than that of SC2. CeCu2Si2 Ce1Cu2Si2 Ce 1 Cu 2 Si 2 3 2009 AB2C2 ThCr2Si2 A 4.099 9.923 K 0.46 0.46 MTC151638 T SP-heat MHC151638 mOhm.cm 0.01 modified Bridgman method in Al-oxide crucible using Cu excess flux Pressure-induced change of the pairing symmetry in superconducting CeCu2Si2 2009 "Max Planck Institute for Chemical Physics of Solids, 01187 Dresden, Germany" "Phys.Rev.B, 80(2009)140513"
151639 PRB080144512 "RRR = 4.5. Hc2(0)//c and Hc2(0)//ab obtained using two band theory and WHH theory, respectively. anisotropy(Hc2) = 3 for low-T." SmOFeAs Sm1Fe1As1O0.85 Sm 1 Fe 1 As 1 O 0.85 2009 ABCD oxypnictide ZrCuSiAs type K 50.5 0.5 50.5 T resistivity 150 110 T/K resistivity 11 2.5 HC151639 A 17 3.6 "two-step solid state reaction. mixture - pellet(0.38GPa) - wrapped in Ta foil - heat(1150C,50h, in sealed quartz tube(Ar))" Effects of two gaps and paramagnetic pair breaking on the upper critical field of SmFeAsO0.85 and SmFeAsO0.8F0.2 single crystals 2009 "Department of Physics, Pohang University of Science and Technology, Pohang 790-784, Republic of Korea" "Phys.Rev.B, 80(2009)144512"
151640 PRB080144512 "RRR = 2.2. Hc2(0)//c and Hc2(0)//ab obtained using two band theory and WHH theory, respectively. anisotropy(Hc2) = 4 for low T." "Sm(O,F)FeAs" Sm1Fe1As1F0.2O0.8 Sm 1 Fe 1 As 1 F 0.2 O 0.8 2009 ABCD oxypnictide ZrCuSiAs type K 42 0.8 42 T resistivity 100 50 T/K resistivity 9.9 1.7 HC151640 A 26 3.6 "two-step solid state reaction. mixture - pellet(0.38GPa) - wrapped in Ta foil - heat(1150C,50h, in sealed quartz tube(Ar))" Effects of two gaps and paramagnetic pair breaking on the upper critical field of SmFeAsO0.85 and SmFeAsO0.8F0.2 single crystals 2009 "Department of Physics, Pohang University of Science and Technology, Pohang 790-784, Republic of Korea" "Phys.Rev.B, 80(2009)144512"
151641 PRB080144517 not SC. structural transition(P4nmm-to-Cmma) at 150 K. T = 105 K. F-content by WDS (not nominal). "Pr(O,F)FeAs" Pr1Fe1As1F0.044O0.956 Pr 1 Fe 1 As 1 F 0.044 O 0.956 1 2009 ABCD oxypnictide ZrCuSiAs type K 1.5 Phase diagram of the PrFeAsO1-xFx superconductor 2009 "Materials Sciences Division, Lawrence Berkeley National Laboratory, Berkeley, California 94720, USA" "Phys.Rev.B, 80(2009)144517"
151642 PRB080144517 F-content by WDS (not nominal). "Pr(O,F)FeAs" Pr1Fe1As1F0.082O0.918 Pr 1 Fe 1 As 1 F 0.082 O 0.918 1 2009 ABCD oxypnictide ZrCuSiAs type K 14.6 14.6 PH151642 Phase diagram of the PrFeAsO1-xFx superconductor 2009 "Materials Sciences Division, Lawrence Berkeley National Laboratory, Berkeley, California 94720, USA" "Phys.Rev.B, 80(2009)144517"
151643 PRB080144517 F-content by WDS (not nominal). "Pr(O,F)FeAs" Pr1Fe1As1F0.154O0.846 Pr 1 Fe 1 As 1 F 0.154 O 0.846 1 2009 ABCD oxypnictide ZrCuSiAs type K 46.4 46.4 PH151642 Phase diagram of the PrFeAsO1-xFx superconductor 2009 "Materials Sciences Division, Lawrence Berkeley National Laboratory, Berkeley, California 94720, USA" "Phys.Rev.B, 80(2009)144517"
151644 PRB080144517 F-content by WDS (not nominal). "Pr(O,F)FeAs" Pr1Fe1As1F0.225O0.775 Pr 1 Fe 1 As 1 F 0.225 O 0.775 1 2009 ABCD oxypnictide ZrCuSiAs type K 50 50 PH151642 Phase diagram of the PrFeAsO1-xFx superconductor 2009 "Materials Sciences Division, Lawrence Berkeley National Laboratory, Berkeley, California 94720, USA" "Phys.Rev.B, 80(2009)144517"
151645 JPS078113701 Hc2(0) = 95.9 T using WHH fitting from (dHc2/dT) at Tc. Tc defined as midpoint. Hc2 measured for Tc(on) and Tc(zero) definitions. "Fe(Se,Te)" Fe1Se0.25Te0.75 Fe 1 Se 0.25 Te 0.75 1 2009 AB PbO P4/nmm K 13.2 13.7 14.2 13.7 T "resistivity, extraporation" 45 T/K resistivity 10.1 MHC151645 solid state reaction Upper Critical Fields of the 11-System Iron-Chalcogenide Superconductor FeSe0.25Te0.75 2009 "KYOKUGEN, Osaka University, 1-3 Machikaneyama, Toyonaka, Osaka 560-8531" "J.Phys.Soc.Jpn, 78(2009)113701"
151646 JPS078114707 "(La,Sr)2CuO4" La1.943Sr0.057Cu1O4 La 1.943 Sr 0.057 Cu 1 O 4 3 2009 T K 4.51 4.51 TC151648 mJ/mol.K2 4.473 "four crystal rods(0.04 = 172 K. CaFe2As2 Ca1Fe2As2 Ca 1 Fe 2 As 2 3 2009 AB2C2 ThCr2Si2 A 3.8852 11.764 K 2 single crystals grown by Sn-flux method "Evolution of the bulk properties, structure, magnetic order, and superconductivity with Ni doping in CaFe2-xNixAs2" 2009 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai 400 005, India" "Phys.Rev.B, 80(2009)144524"
151667 PRB080144524 Ni-content shows actual value from EPMA. T = 129 K. Filamentary SC appears at 15 K. R not to zero. "Ca(Fe,Ni)2As2" Ca1Fe1.973Ni0.027As2 Ca 1 Fe 1.973 Ni 0.027 As 2 3 2009 AB2C2 ThCr2Si2 A 3.8912 11.743 K 2 single crystals grown by Sn-flux method "Evolution of the bulk properties, structure, magnetic order, and superconductivity with Ni doping in CaFe2-xNixAs2" 2009 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai 400 005, India" "Phys.Rev.B, 80(2009)144524"
151668 PRB080174512 Taps(1-100micron grains) "La(O,F)FeAs" La1Fe1As1F0.1O0.9 La 1 Fe 1 As 1 F 0.1 O 0.9 1 2009 oxypnictide K 29.4 29.4 T resistivity HC151668 Two step solid state reaction Neutron-irradiation effects in polycrystalline LaFeAsO0.9F0.1 superconductors 2009 "Institute of Metal Physics, Ural Branch, Russian Academy of Sciences, 620219 Ekaterinburg, Russia" "Phys.Rev.B, 80(2009)174512"
151669 PRB080174512 "The sample prepared by N-irradiated (n= 1.6 E+19 /cm2) to #151668 sample, then annealed at 500C. Figs of Hc2, Tc, and RH shows ANN-T dependences" "La(O,F)FeAs" La1Fe1As1F0.1O0.9 La 1 Fe 1 As 1 F 0.1 O 0.9 1 2009 oxypnictide K 17 17 TC151669 T resistivity HC151669 RH151669 Two step solid state reaction Neutron-irradiation effects in polycrystalline LaFeAsO0.9F0.1 superconductors 2009 "Institute of Metal Physics, Ural Branch, Russian Academy of Sciences, 620219 Ekaterinburg, Russia" "Phys.Rev.B, 80(2009)174512"
151670 JPS078093703 FeSe Fe1Se1 Fe 1 Se 1 1 2009 AB PbO K 7.1 7.1 MTC151670 solid state reaction Anomalous Pressure Dependence of the Superconducting Transition Temperature in FeSe1 x Studied by DC Magnetic Measurements 2009 "Department of Material Science, Shimane University, Matsue 690-8504" "J.Phys.Soc.Jpn, 78(2009)093703"
151671 JPS078093703 FeSe0.8 Fe1Se0.8 Fe 1 Se 0.8 1 2009 AB PbO K 7 7 MTC151671 solid state reaction Anomalous Pressure Dependence of the Superconducting Transition Temperature in FeSe1 x Studied by DC Magnetic Measurements 2009 "Department of Material Science, Shimane University, Matsue 690-8504" "J.Phys.Soc.Jpn, 78(2009)093703"
151672 PHB4043223 "P-induced SC. SC for 2.3 < x < 8.6 kbar. Hc2 defined as ""onset"". Hc2(0)//ab = 20 T for P=3.5 kbar, Hc2(0)//c = 15 T for P=4.3 kbar." CaFe2As2 Ca1Fe2As2 Ca 1 Fe 2 As 2 3 2009 AB2C2 ThCr2Si2 K 12 0 12 T resistivity 20 MHC151672 Sn-flux method Hydrostatic pressure study of the structural phase transitions and superconductivity in single crystals of (Ba1-xKx)Fe2As2 (x = 0 and 0.45) and CaFe2As2 2009 "Department of Physics, San Diego State University, San Diego, CA92182-1233, USA" "Physica B, 404(2009)3223"
151674 PHB4043223 "Hc2 defined as ""onset"". -(dHc2/dT) = 6.7 T/K for P=20.4 kbar" "(Ba,K)Fe2As2" Ba0.55K0.45Fe2As2 Ba 0.55 K 0.45 Fe 2 As 2 3 2009 AB2C2 ThCr2Si2 K 28.8 30.7 29.75 MTC151674 K/GPa -2.5 T/K resistivity 8 MHC151674 Sn-flux method Hydrostatic pressure study of the structural phase transitions and superconductivity in single crystals of (Ba1-xKx)Fe2As2 (x = 0 and 0.45) and CaFe2As2 2009 "Department of Physics, San Diego State University, San Diego, CA92182-1233, USA" "Physica B, 404(2009)3223"
151675 SSC0040611 gamma-Ga. Tc = 6.20 K for beta-phase. Ga Gs1 Gs 1 1966 A K 7.62 7.62 T LC 0.308 MHC151675 Hysteresis effects in three superconducting phases of gallium 1966 "Solid State Commun., 4(1966)611"
151676 PHC4691958 "T = 101.6 K, structural transition T* = 83.2 K." FeSe0.82 Fe1Se0.82 Fe 1 Se 0.82 2009 AB PbO P4/nmm A 3.7729 5.523 alpha-phase K 4.33 11.33 7.83 "Se(4N),Fe(3N),Ni(2N)" "mixture - sealed in quartz tube - heat(700C,24h) - FC to RT - reground - heat(700C,24h) - ANN(400C,36h)" Divergency of SDW and structure transition in Fe1-xNixSe0.82 superconductors 2009 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei, China" "Physica C, 469(2009)1958"
151677 PHC4691958 "T = 145.1 K, structural transition T* = 84.9 K." "(Fe,Ni)Se0.82" Fe0.99Ni0.01Se0.82 Fe 0.99 Ni 0.01 Se 0.82 2009 AB PbO P4/nmm A 3.7719 5.5209 alpha-phase K 2 11.3 6.65 "Se(4N),Fe(3N),Ni(2N)" "mixture - sealed in quartz tube - heat(700C,24h) - FC to RT - reground - heat(700C,24h) - ANN(400C,36h)" Divergency of SDW and structure transition in Fe1-xNixSe0.82 superconductors 2009 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei, China" "Physica C, 469(2009)1958"
151678 PHC4691958 "T = 156.5 K, structural transition T* = 85.1 K." "(Fe,Ni)Se0.82" Fe0.98Ni0.02Se0.82 Fe 0.98 Ni 0.02 Se 0.82 2009 AB PbO P4/nmm A 3.7717 5.5202 alpha-phase K 11.3 11.3 "Se(4N),Fe(3N),Ni(2N)" "mixture - sealed in quartz tube - heat(700C,24h) - FC to RT - reground - heat(700C,24h) - ANN(400C,36h)" Divergency of SDW and structure transition in Fe1-xNixSe0.82 superconductors 2009 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei, China" "Physica C, 469(2009)1958"
151679 PHC4691958 "not SC. T = 187.8 K, structural transition T* = 83.7 K." "(Fe,Ni)Se0.82" Fe0.97Ni0.03Se0.82 Fe 0.97 Ni 0.03 Se 0.82 2009 AB PbO P4/nmm A 3.7704 5.5119 alpha-phase K 2 "Se(4N),Fe(3N),Ni(2N)" "mixture - sealed in quartz tube - heat(700C,24h) - FC to RT - reground - heat(700C,24h) - ANN(400C,36h)" Divergency of SDW and structure transition in Fe1-xNixSe0.82 superconductors 2009 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei, China" "Physica C, 469(2009)1958"
151680 PHC4691958 "not SC. T = 185.0 K, structural transition T* = 85.9 K." "(Fe,Ni)Se0.82" Fe0.96Ni0.04Se0.82 Fe 0.96 Ni 0.04 Se 0.82 2009 AB PbO P4/nmm A 3.7704 5.5115 alpha-phase K 2 "Se(4N),Fe(3N),Ni(2N)" "mixture - sealed in quartz tube - heat(700C,24h) - FC to RT - reground - heat(700C,24h) - ANN(400C,36h)" Divergency of SDW and structure transition in Fe1-xNixSe0.82 superconductors 2009 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei, China" "Physica C, 469(2009)1958"
151681 PHC4692000 "x is not given.Tc decrease from 11.5 to 10 K for hydrogen exposure(500C,10 bar H2,15 min). SC volume fraction decreases due to CaH2 formation." CaC6Hx C6Ca1H C 6 Ca 1 H 2009 GIC K 10 10 CaC6 synthesized from molten Li-Cu and HOPG. hydrogenation(500C under 10 bar H2 in stainless reactor) High temperature hydrogenation of CaC6 2009 "London Centre for Nanotechnology, University College London, 17-19 Gordon Street, London WC1H 0AH, UK" "Physica C, 469(2009)2000"
151682 PRB080172501 RRR=45. Hc2 defined as R=0.5Rn. Anisotropy(cohere) = 1/0.35 URu2Si2 U1Ru2Si2 U 1 Ru 2 Si 2 3 2009 AB2C2 ThCr2Si2 beta-phase K 1.51 1.51 T resistivity T/K resistivity 11.5 4.1 MHC151682 mJ/mol.K2 65 Czochralski method Anisotropic inelastic scattering and its interplay with superconductivity in URu2Si2 2009 "Laboratoire Photons Et Matiere (UPMC-CNRS), ESPCI, 75005 Paris, France" "Phys.Rev.B, 80(2009)172501"
151683 PRB080174509 EDX analysis: Fe1.03Te0.63Se0.37. "Fe(Te,Se)" Fe1Te0.6Se0.4 Fe 1 Te 0.6 Se 0.4 3 2009 PbO P4/nmm beta-phase K 14.8 1.3 14.8 m3/C 1.17E-09 MRH151683 flux method. mixture - sealed in quartz tube - heat(930C) - slow cool to 400C(3C/h) - FC to RT. Charge-carrier localization induced by excess Fe in the superconductor Fe1+yTe1-xSex 2009 "Department of Physics, Tulane University, New Orleans, Louisiana 70118, USA" "Phys.Rev.B, 80(2009)174509"
151684 PRB080174509 EDX analysis: Fe1.11Te0.64Se0.36 "Fe(Te,Se)" Fe1.18Te0.6Se0.4 Fe 1.18 Te 0.6 Se 0.4 3 2009 PbO P4/nmm beta-phase K 11.6 5.1 11.6 m3/C 6.32E-10 MRH151684 flux method. mixture - sealed in quartz tube - heat(930C) - slow cool to 400C(3C/h) - FC to RT. Charge-carrier localization induced by excess Fe in the superconductor Fe1+yTe1-xSex 2009 "Department of Physics, Tulane University, New Orleans, Louisiana 70118, USA" "Phys.Rev.B, 80(2009)174509"
151685 PRB080174509 not SC. EDX analysis: Fe1.04Te. structural transition at 72 K. FeSex Fe1.04Te1 Fe 1.04 Te 1 3 2009 PbO P4/nmm beta-phase K 4 mJ/mol.K2 33 m3/C 1.11E-09 flux method. mixture - sealed in quartz tube - heat(930C) - slow cool to 400C(3C/h) - FC to RT. Charge-carrier localization induced by excess Fe in the superconductor Fe1+yTe1-xSex 2009 "Department of Physics, Tulane University, New Orleans, Louisiana 70118, USA" "Phys.Rev.B, 80(2009)174509"
151686 PRB080174509 not SC. EDX analysis: Fe1.11Te. structural transition at 65 K. FeSex Fe1.18Te1 Fe 1.18 Te 1 3 2009 PbO P4/nmm beta-phase K 4 mJ/mol.K2 27 m3/C 4.59E-10 flux method. mixture - sealed in quartz tube - heat(930C) - slow cool to 400C(3C/h) - FC to RT. Charge-carrier localization induced by excess Fe in the superconductor Fe1+yTe1-xSex 2009 "Department of Physics, Tulane University, New Orleans, Louisiana 70118, USA" "Phys.Rev.B, 80(2009)174509"
151687 JPS0512375 first stage KC8. C8KH0.19 C8K1H0.19 C 8 K 1 H 0.19 1982 GIC K 0.22 0.22 Oe SUS MHC151687 "(HOPG + K) - heat(280C,5d). Hydrogenation by chemisorption (RT, 0.5 atm-H2)" Superconductivity in the potassium graphite hydride C8KH0.19 1982 "Kyoto University, Kyoto" "J.Phys.Soc.Jpn, 51(1982)2375"
151688 JPS0512375 2nd stage KC8 C8KH0.67 C8K1H0.67 C 8 K 1 H 0.67 1982 GIC K 0.052 "(HOPG + K) - heat(280C,5d). Hydrogenation by chemisorption (RT, 0.5 atm-H2)" Superconductivity in the potassium graphite hydride C8KH0.19 1982 "Kyoto University, Kyoto" "J.Phys.Soc.Jpn, 51(1982)2375"
151689 PRB02200137 Tc(V3Ga) = 15.3 K. (dTc/dx) = -0.7 K/at%H. V3GaHx Ga1V3H0.37 Ga 1 V 3 H 0.37 1980 Cr3Si(A15) K 8.1 8.1 MTC151689 "V3Ga(or Ge) by arc-melting, then ANN(750C,25h). Hydrogenation(600C,12h, 150 bar-H2) - slow cool to RT" Study of some hydrogenated vanadium-based A15 compounds 1980 "University of Houston, Houston, Texas" "Phys.Rev.B, 22(1980)137"
151690 PRB02200137 Tc(V3Ge) = 6.1 K. V3GeHx Ge1V3H0.033 Ge 1 V 3 H 0.033 1980 Cr3Si(A15) K 5.83 5.83 MTC151690 "V3Ga(or Ge) by arc-melting, then ANN(750C,25h). Hydrogenation(600C,12h, 150 bar-H2) - slow cool to RT" Study of some hydrogenated vanadium-based A15 compounds 1980 "University of Houston, Houston, Texas" "Phys.Rev.B, 22(1980)137"
151691 PRB080140503 "thermal conductivity k was measured down to 50 mK: k/T = a + b*T^(alpha), where a(=k0/T) = 5 uW/K2cm, alpha=1.65." "(Ba,K)Fe2As2" Ba0.75K0.25Fe2As2 Ba 0.75 K 0.25 Fe 2 As 2 3 2009 AB2C2 ThCr2Si2 K 26 26 mOhm.cm 0.047 flux(FeAs) method Quasiparticle heat transport in single-crystalline Ba1-xKxFe2As2: Evidence for a k-dependent superconducting gap without nodes 2009 "Departement de Physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec J1K 2R1, Canada" "Phys.Rev.B, 80(2009)140503"
151692 PRB080140503 "thermal conductivity k was measured down to 50 mK: k/T = a + b*T^(alpha), where a(=k0/T) = 7 uW/K2cm, alpha=1.5." "(Ba,K)Fe2As2" Ba0.72K0.28Fe2As2 Ba 0.72 K 0.28 Fe 2 As 2 3 2009 AB2C2 ThCr2Si2 K 30 30 mOhm.cm 0.028 flux(FeAs) method Quasiparticle heat transport in single-crystalline Ba1-xKxFe2As2: Evidence for a k-dependent superconducting gap without nodes 2009 "Departement de Physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec J1K 2R1, Canada" "Phys.Rev.B, 80(2009)140503"
151693 PRB080140511 magnetic phase volume measured by muon-SR. (P4/nmm) phase volume = 99 %. "Fe1.03(Se,Te)" Fe1.03Se0.25Te0.75 Fe 1.03 Se 0.25 Te 0.75 3 2009 AB PbO P4/nmm K 12.5 12.5 MPH151694 "Bridgeman method. melt and homogenize(1200C,4h) - cool to 750C (4C/h, then 50C/h)" Coexistence of incommensurate magnetism and superconductivity in Fe1+ySexTe1-x 2009 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 80(2009)140511"
151694 PRB080140511 magnetic phase volume measured by muon-SR. (P4/nmm) phase volume = 97 %. "Fe1.03(Se,Te)" Fe1.03Se0.45Te0.55 Fe 1.03 Se 0.45 Te 0.55 3 2009 AB PbO P4/nmm K 0 7.96 0 MPH151694 "Bridgeman method. melt and homogenize(1200C,4h) - cool to 750C (4C/h, then 50C/h)" Coexistence of incommensurate magnetism and superconductivity in Fe1+ySexTe1-x 2009 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 80(2009)140511"
151695 PRB080140511 magnetic phase volume measured by muon-SR. (P4/nmm) phase volume = 94 %. "Fe1.03(Se,Te)" Fe1.03Se0.5Te0.5 Fe 1.03 Se 0.5 Te 0.5 3 2009 AB PbO P4/nmm K 14.3 14.3 14.3 "Bridgeman method. melt and homogenize(1200C,4h) - cool to 750C (4C/h, then 50C/h)" Coexistence of incommensurate magnetism and superconductivity in Fe1+ySexTe1-x 2009 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 80(2009)140511"
151697 PRL103236401 "P-induced SC. SC for 2 defined as max of (dR/dT) ." 1T-TiSe2 Ti1Se2 Ti 1 Se 2 3 2009 AB2 TX2 K 1.8 0 1.8 MPH151697 MHC151697 vapor transport method. Pressure Induced Superconductivity in Pristine 1T-TiSe2 2009 "Ecole Polytechnique Federale de Lausanne, IPMC, CH-1015 Lausanne, Switzerland" "Phys.Rev.Lett., 103(2009)236401"
151698 PRB080180507 composition determined by EDX ( Fe1.05Se0.15Te0.85). (dI/dV) measured for cleaved surface. "Fe(Se,Te)" Fe1Se0.25Te0.75 Fe 1 Se 0.25 Te 0.75 3 2009 AB K 14 14 meV 2.3 3.8 1 "self-flux method. mixture(Fe:Se:Te = 1:0.25:0.75) - sealed in evacuated quartz tube - heat(950C,10h) - cool to 700C(5C/h) - ANN(400C,100h)" Local density of states and superconducting gap in the iron chalcogenide superconductor Fe1+zSe1-xTex observed by scanning tunneling spectroscopy 2009 "Department of Physics, Tokyo University of Science, 1-3 Kagurazaka, Shinjuku-ku, Tokyo 162-8601, Japan" "Phys.Rev.B, 80(2009)180507"
151699 PRB080212501 Tc0 = 40K(perfect order). isotope(alpha) = 0.153 for Tc=40K. disorder(out-of-plane) increases isotope effect. dTc(<16>O2 -<18>O2) = 0.80K. "Bi2(Sr,La)2CuO6" Bi2Sr1.6La0.4Cu1O6+z Bi 2 Sr 1.6 La 0.4 Cu 1 O 6+z 3 2009 Bi2201 K 32.83 32.83 0.214 O 0.8 "TSFZ method. (as-grown) - ANN(700C,96h,in air) - ANN(700C,168h,in 0.2 bar<16>O2 or <18>O2) - Q to RT." Enhancement of oxygen isotope effect due to out-of-plane disorder in Bi2Sr2Ln0.4CuO6+z superconductors 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568, Japan" "Phys.Rev.B, 80(2009)212501"
151700 PRB080212501 Tc0 = 40K(perfect order). isotope(alpha) = 0.153 for Tc=40K. disorder(out-of-plane) increases isotope effect. dTc(<16>O2 -<18>O2) = 0.71K. "Bi2(Sr,Nd)2CuO6" Bi2Sr1.6Nd0.4Cu1O6+z Bi 2 Sr 1.6 Nd 0.4 Cu 1 O 6+z 3 2009 Bi2201 K 30.07 30.07 0.206 O 0.71 "TSFZ method. (as-grown) - ANN(700C,96h,in air) - ANN(700C,168h,in 0.2 bar<16>O2 or <18>O2) - Q to RT." Enhancement of oxygen isotope effect due to out-of-plane disorder in Bi2Sr2Ln0.4CuO6+z superconductors 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568, Japan" "Phys.Rev.B, 80(2009)212501"
151701 PRB080212501 Tc0 = 40K(perfect order). isotope(alpha) = 0.153 for Tc=40K. disorder(out-of-plane) increases isotope effect. dTc(<16>O2 -<18>O2) = 0.72K. "Bi2(Sr,Eu)2CuO6" Bi2Sr1.6Eu0.4Cu1O6+z Bi 2 Sr 1.6 Eu 0.4 Cu 1 O 6+z 3 2009 Bi2201 K 16.9 16.9 0.38 O 0.72 "TSFZ method. (as-grown) - ANN(700C,96h,in air) - ANN(700C,168h,in 0.2 bar<16>O2 or <18>O2) - Q to RT." Enhancement of oxygen isotope effect due to out-of-plane disorder in Bi2Sr2Ln0.4CuO6+z superconductors 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568, Japan" "Phys.Rev.B, 80(2009)212501"
151702 PRB080212501 Tc0 = 40K(perfect order). isotope(alpha) = 0.153 for Tc=40K. disorder(out-of-plane) increases isotope effect. dTc(<16>O2 -<18>O2) = 0.97K. "Bi2(Sr,Gd)2CuO6" Bi2Sr1.6Gd0.4Cu1O6+z Bi 2 Sr 1.6 Gd 0.4 Cu 1 O 6+z 3 2009 Bi2201 K 12.27 12.27 0.68 O 0.97 "TSFZ method. (as-grown) - ANN(700C,96h,in air) - ANN(700C,168h,in 0.2 bar<16>O2 or <18>O2) - Q to RT." Enhancement of oxygen isotope effect due to out-of-plane disorder in Bi2Sr2Ln0.4CuO6+z superconductors 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568, Japan" "Phys.Rev.B, 80(2009)212501"
151703 PRB080214514 Curie-T estimated from high-T SUS. "Fe(Se,Te)" Fe1.12Se0.03Te0.97 Fe 1.12 Se 0.03 Te 0.97 3 2009 -175 AB K 6.5 6.5 "(Te-Se)-flux method. heat(430-450C, 24h) - heat(850-900C) - slow cool to (800-840C)" "Superconductivity, magnetism, and stoichiometry of single crystals of Fe1+y(Te1-xSx)z" 2009 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 80(2009)214514"
151704 PRB080214514 Curie-T estimated from high-T SUS. "Fe(Se,Te)" Fe1.13Se0.1Te0.85 Fe 1.13 Se 0.1 Te 0.85 3 2009 -186 AB K 2 8.5 5.25 "(Te-Se)-flux method. heat(430-450C, 24h) - heat(850-900C) - slow cool to (800-840C)" "Superconductivity, magnetism, and stoichiometry of single crystals of Fe1+y(Te1-xSx)z" 2009 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 80(2009)214514"
151705 PRB080214514 Curie-T estimated from high-T SUS. Anisotropy(Hc2) = 1.05. "Fe(Se,Te)" Fe1.12Se0.11Te0.83 Fe 1.12 Se 0.11 Te 0.83 3 2009 -162 AB K 3.5 8.6 6.05 T "resistivity, WHH" 19 18 T/K "resistivity, WHH" 4.9 4.6 MHC151705 A from Hc2 43 43 "(Te-Se)-flux method. heat(430-450C, 24h) - heat(850-900C) - slow cool to (800-840C)" "Superconductivity, magnetism, and stoichiometry of single crystals of Fe1+y(Te1-xSx)z" 2009 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 80(2009)214514"
151706 PRB080214514 "Curie-T estimated from high-T SUS. Jc from M-loops. Jc(1.8K, H=0T) = 0.6E+6 A/cm2 for H//ab." "Fe(Se,Te)" Fe1.06Se0.14Te0.83 Fe 1.06 Se 0.14 Te 0.83 3 2009 -156 AB K 7 8.7 7.85 T "resistivity, WHH" 56 44 T/K "resistivity, WHH" 10.7 8.4 MHC151706 A from Hc2 27 24 "(Te-Se)-flux method. heat(430-450C, 24h) - heat(850-900C) - slow cool to (800-840C)" "Superconductivity, magnetism, and stoichiometry of single crystals of Fe1+y(Te1-xSx)z" 2009 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 80(2009)214514"
151707 PRB080214514 Curie-T estimated from high-T SUS. "Fe(Se,Te)" Fe0.98Se0.15Te0.9 Fe 0.98 Se 0.15 Te 0.9 3 2009 -167 AB K 8.8 8.8 "(Te-Se)-flux method. heat(430-450C, 24h) - heat(850-900C) - slow cool to (800-840C)" "Superconductivity, magnetism, and stoichiometry of single crystals of Fe1+y(Te1-xSx)z" 2009 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 80(2009)214514"
151708 PRB080214514 not SC. two anomalies in SP-heat. lattice term in SP (beta) = 0.49 mJ/mol.K4. "Fe(Se,Te)" Fe1.14Te0.1 Fe 1.14 Te 0.1 3 2009 -191 AB K 1.8 mJ/mol.K2 32 SP-heat 228 SP-heat "(Te-Se)-flux method. heat(430-450C, 24h) - heat(850-900C) - slow cool to (800-840C)" "Superconductivity, magnetism, and stoichiometry of single crystals of Fe1+y(Te1-xSx)z" 2009 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 80(2009)214514"
151709 PRB080214511 composition determined by X-ray Rietveld analysis (nominal = FeTe). structure/magnetic transition at 66K. FeTe Fe1.087Te1 Fe 1.087 Te 1 3 2009 AB K 5 uV/K -0.886 MTP151709 mixture - heat(930-960C in sealed quartz) - slow cool to RT Seebeck effect in Fe1+xTe1-ySey single crystals 2009 "CNR-INFM-LAMIA and Universita di Genova, via Dodecaneso 33, 16146 Genova, Italy" "Phys.Rev.B, 80(2009)214511"
151710 PRB080214511 structure/magnetic transition at 39K. R is not zero at 5K. "Fe(Se,Te)" Fe1Se0.1Te0.9 Fe 1 Se 0.1 Te 0.9 3 2009 AB K 10 10 uV/K 0.955 MTP151710 mixture - heat(930-960C in sealed quartz) - slow cool to RT Seebeck effect in Fe1+xTe1-ySey single crystals 2009 "CNR-INFM-LAMIA and Universita di Genova, via Dodecaneso 33, 16146 Genova, Italy" "Phys.Rev.B, 80(2009)214511"
151711 PRB080214511 composition determined by X-ray Rietveld analysis (nominal = FeTe). "Fe(Se,Te)" Fe1.049Se0.2Te0.8 Fe 1.049 Se 0.2 Te 0.8 3 2009 AB K 11 11 uV/K 3 MTP151711 mixture - heat(930-960C in sealed quartz) - slow cool to RT Seebeck effect in Fe1+xTe1-ySey single crystals 2009 "CNR-INFM-LAMIA and Universita di Genova, via Dodecaneso 33, 16146 Genova, Italy" "Phys.Rev.B, 80(2009)214511"
151712 PRB080214511 composition determined by X-ray Rietveld analysis (nominal = FeTe). "Fe(Se,Te)" Fe1.053Se0.3Te0.7 Fe 1.053 Se 0.3 Te 0.7 3 2009 AB K 12.5 12.5 uV/K 6.07 MTP151712 mixture - heat(930-960C in sealed quartz) - slow cool to RT Seebeck effect in Fe1+xTe1-ySey single crystals 2009 "CNR-INFM-LAMIA and Universita di Genova, via Dodecaneso 33, 16146 Genova, Italy" "Phys.Rev.B, 80(2009)214511"
151713 PRB080214511 composition determined by X-ray Rietveld analysis (nominal = FeTe). "Fe(Se,Te)" Fe1.013Se0.3Te0.7 Fe 1.013 Se 0.3 Te 0.7 3 2009 AB K 13 13 uV/K 7.64 MTP151713 mixture - heat(930-960C in sealed quartz) - slow cool to RT Seebeck effect in Fe1+xTe1-ySey single crystals 2009 "CNR-INFM-LAMIA and Universita di Genova, via Dodecaneso 33, 16146 Genova, Italy" "Phys.Rev.B, 80(2009)214511"
151714 PRB080214511 "Fe(Se,Te)" Fe1Se0.45Te0.55 Fe 1 Se 0.45 Te 0.55 3 2009 AB K 12.6 12.6 uV/K 7.16 MTP151714 mixture - heat(930-960C in sealed quartz) - slow cool to RT Seebeck effect in Fe1+xTe1-ySey single crystals 2009 "CNR-INFM-LAMIA and Universita di Genova, via Dodecaneso 33, 16146 Genova, Italy" "Phys.Rev.B, 80(2009)214511"
151715 JPS078123602 beta-pyrochlore. Anomalies in SP are found at 9.65K(SC) and 7.8K(1st order transition) T^5 term coeff. in SP = 0.37 mJ/mol.K6. (dC/Tc) = 0.21 J/mol.K2. Tc by SP. KOs2O6 K1Os2O6 K 1 Os 2 O 6 3 2009 pyrochlore K 9.65 9.65 TC151715 T/GPa 7.5 Sudden Disappearance of the First-Order Transition in beta-Pyrochlore KOs2O6 under Low Pressure 2009 "N-BARD, Hiroshima University, Higashihiroshima, Hiroshima 739-8526" "J.Phys.Soc.Jpn, 78(2009)123602"
151716 JPS078123707 Sr2VFeAsO3 Sr2V1Fe1As1O3 Sr 2 V 1 Fe 1 As 1 O 3 1 2009 21113 K 32.5 36.4 34.45 TC151716 T/GPa 4.6 solid state reaction Contrasting Pressure Effects in Sr2VFeAsO3 and Sr2ScFePO3 2009 "Department of Physics, Kobe University, Kobe 657-8501" "J.Phys.Soc.Jpn, 78(2009)123707"
151717 JPS078123707 Sr2ScFePO3 Sr2Sc1Fe1P1O3 Sr 2 Sc 1 Fe 1 P 1 O 3 1 2009 21113 K 8.4 15.6 12 TC151717 T/GPa -3.6 solid state reaction Contrasting Pressure Effects in Sr2VFeAsO3 and Sr2ScFePO3 2009 "Department of Physics, Kobe University, Kobe 657-8501" "J.Phys.Soc.Jpn, 78(2009)123707"
151718 JPS078124713 "P-induced SC. SC properties are for P = 7.1 GPa. parallel means H//[001], perpendicular means H//[100]. Tc = 0.58 K for [100] direction." CeCoGe3 Ce1Co1Ge3 Ce 1 Co 1 Ge 3 3 2009 ABC3 perovskite K 0.64 0 0.64 T resistivity 24 3.1 T/K resistivity 30 7.5 Bi-flux method "Magnetic Properties of RCoGe3 (R: Ce, Pr, and Nd) and Strong Anisotropy of the Upper Critical Field in Non-centrosymmetric Compound CeCoGe3" 2009 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0044" "J.Phys.Soc.Jpn, 78(2009)124713"
151719 JPS078124713 not SC. effective moment = 3.60 myu-B/Pr. PrCoGe3 Pr1Co1Ge3 Pr 1 Co 1 Ge 3 3 2009 -18 ABC3 perovskite K 0 mJ/mol.K2 6.1 Bi-flux method "Magnetic Properties of RCoGe3 (R: Ce, Pr, and Nd) and Strong Anisotropy of the Upper Critical Field in Non-centrosymmetric Compound CeCoGe3" 2009 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0044" "J.Phys.Soc.Jpn, 78(2009)124713"
151720 JPS078124713 not SC. effective moment = 3.62 myu-B/Nd. Curie-T = -23.8 K for [001] direction. NdeCoGe3 Nd1Co1Ge3 Nd 1 Co 1 Ge 3 3 2009 -1.2 3.8 ABC3 perovskite K 0 Bi-flux method "Magnetic Properties of RCoGe3 (R: Ce, Pr, and Nd) and Strong Anisotropy of the Upper Critical Field in Non-centrosymmetric Compound CeCoGe3" 2009 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0044" "J.Phys.Soc.Jpn, 78(2009)124713"
151721 PRL101087001 "Sm(O,F)FeAs" Sm1Fe1As1F0.12O0.88 Sm 1 Fe 1 As 1 F 0.12 O 0.88 2008 oxypnictide ZrCuSiAs K 17.1 17.1 "SmAs,SmF3,Fe,Fe2O3" "pellet - ANN(1160C,40h, in Ta foil in quartz) - cool to 400C(4C/min) - FC to RT" Anomalous Transport Properties and Phase Diagram of the FeAs-Based SmFeAsO1-xFx Superconductors 2008 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.Lett., 101(2008)087001"
151722 PRL101087001 "Sm(O,F)FeAs" Sm1Fe1As1F0.14O0.86 Sm 1 Fe 1 As 1 F 0.14 O 0.86 2008 oxypnictide ZrCuSiAs K 27 27 "SmAs,SmF3,Fe,Fe2O3" "pellet - ANN(1160C,40h, in Ta foil in quartz) - cool to 400C(4C/min) - FC to RT" Anomalous Transport Properties and Phase Diagram of the FeAs-Based SmFeAsO1-xFx Superconductors 2008 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.Lett., 101(2008)087001"
151723 PRL101087001 "Sm(O,F)FeAs" Sm1Fe1As1F0.15O0.85 Sm 1 Fe 1 As 1 F 0.15 O 0.85 2008 oxypnictide A 3.9316 8.4932 ZrCuSiAs K 41.8 41.8 "SmAs,SmF3,Fe,Fe2O3" "pellet - ANN(1160C,40h, in Ta foil in quartz) - cool to 400C(4C/min) - FC to RT" Anomalous Transport Properties and Phase Diagram of the FeAs-Based SmFeAsO1-xFx Superconductors 2008 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.Lett., 101(2008)087001"
151724 PRL101087001 "Sm(O,F)FeAs" Sm1Fe1As1F0.2O0.8 Sm 1 Fe 1 As 1 F 0.2 O 0.8 2008 oxypnictide A 3.9261 8.4799 ZrCuSiAs K 54 51.8 51.8 "SmAs,SmF3,Fe,Fe2O3" "pellet - ANN(1160C,40h, in Ta foil in quartz) - cool to 400C(4C/min) - FC to RT" Anomalous Transport Properties and Phase Diagram of the FeAs-Based SmFeAsO1-xFx Superconductors 2008 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.Lett., 101(2008)087001"
151725 PRL101087001 R not to zero at 5K. "Sm(O,F)FeAs" Sm1Fe1As1F0.1O0.9 Sm 1 Fe 1 As 1 F 0.1 O 0.9 2008 oxypnictide A 3.9355 8.4962 ZrCuSiAs K 12 12 "SmAs,SmF3,Fe,Fe2O3" "pellet - ANN(1160C,40h, in Ta foil in quartz) - cool to 400C(4C/min) - FC to RT" Anomalous Transport Properties and Phase Diagram of the FeAs-Based SmFeAsO1-xFx Superconductors 2008 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.Lett., 101(2008)087001"
151726 PHC4690381 not SC. structural/AF transition at 173 K. SrFeAsF Sr1Fe1As1F1 Sr 1 Fe 1 As 1 F 1 2009 ABCD oxypnictide A 4.004 8.971 ZrCuSiAs K 2 "Two step heating. pellet - heat(1000C,30h, in evacuated siloca)" Parent phase and superconductors in the fluorine derivative family 2009 "National Laboratory for Superconductivity, Institute of Physics and National Laboratory for Condensed Matter Physics, P.O. Box 603, Beijing 100190, PR China" "Physica C, 469(2009)381"
151727 PHC4690381 not SC. structural/AF transition at 118 K. CaFeAsF Ca1Fe1As1F1 Ca 1 Fe 1 As 1 F 1 2009 ABCD oxypnictide A 3.88 8.594 ZrCuSiAs K 2 "Two step heating. pellet - heat(1000C,30h, in evacuated siloca)" Parent phase and superconductors in the fluorine derivative family 2009 "National Laboratory for Superconductivity, Institute of Physics and National Laboratory for Condensed Matter Physics, P.O. Box 603, Beijing 100190, PR China" "Physica C, 469(2009)381"
151728 PHC4690381 not SC. structural/AF transition at 153 K. EuFeAsF Eu1Fe1As1F1 Eu 1 Fe 1 As 1 F 1 2009 ABCD oxypnictide A 3.974 8.929 ZrCuSiAs K 2 "Two step heating. pellet - heat(1000C,30h, in evacuated siloca)" Parent phase and superconductors in the fluorine derivative family 2009 "National Laboratory for Superconductivity, Institute of Physics and National Laboratory for Condensed Matter Physics, P.O. Box 603, Beijing 100190, PR China" "Physica C, 469(2009)381"
151729 PHC4690381 "(Sr,La)FeAsF" Sr0.6La0.4Fe1As1F1 Sr 0.6 La 0.4 Fe 1 As 1 F 1 2009 ABCD oxypnictide K 24.6 29.5 27.05 "Two step heating. pellet - heat(1000C,30h, in evacuated siloca)" Parent phase and superconductors in the fluorine derivative family 2009 "National Laboratory for Superconductivity, Institute of Physics and National Laboratory for Condensed Matter Physics, P.O. Box 603, Beijing 100190, PR China" "Physica C, 469(2009)381"
151730 PHC4690381 "(Ca,Nd)FeAsF" Ca0.4Nd0.6Fe1As1F1 Ca 0.4 Nd 0.6 Fe 1 As 1 F 1 2009 ABCD oxypnictide K 57.4 54 54 "Two step heating. pellet - heat(1000C,30h, in evacuated siloca)" Parent phase and superconductors in the fluorine derivative family 2009 "National Laboratory for Superconductivity, Institute of Physics and National Laboratory for Condensed Matter Physics, P.O. Box 603, Beijing 100190, PR China" "Physica C, 469(2009)381"
151731 PHC4690381 "(Ca,Pr)FeAsF" Ca0.4Pr0.6Fe1As1F1 Ca 0.4 Pr 0.6 Fe 1 As 1 F 1 2009 ABCD oxypnictide K 52.8 50 50 "Two step heating. pellet - heat(1000C,30h, in evacuated siloca)" Parent phase and superconductors in the fluorine derivative family 2009 "National Laboratory for Superconductivity, Institute of Physics and National Laboratory for Condensed Matter Physics, P.O. Box 603, Beijing 100190, PR China" "Physica C, 469(2009)381"
151732 MCP1190208 Major phase(by EDX): Y1.0Ba1.9Cu4.1Ox YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 2010 Y124 A 3.846 3.869 27.241 K 71 78 7 74.5 "Y2O3,Sc2O3,Ga(HO3)3,BaM2,CuM2/H2O" "M=Ch3COO. aqeous sol-gel method. (precursor gel powder) - CAL(700C,10h,in flowing O2) - reground - heat(780C,10h) - ANN(780C,20h,in flowing O2)" Scandium and gallium substitution effects in the (Y1-xScx)Ba2Cu4O8 and (Y1-xGax)Ba2Cu4O8 superconducting oxides 2010 "Department of General and Inorganic Chemistry, Vilnius University, Naugarduko 24, LT-03225 Vilnius, Lithuania" "Mat.Chem.Phys., 119(2010)208"
151733 MCP1190208 Major phase(by EDX): Y0.95Sc0.05Ba1.8Cu4.2Ox "(Y,Sc)Ba2Cu4O8" Y0.95Sc0.05Ba2Cu4O8 Y 0.95 Sc 0.05 Ba 2 Cu 4 O 8 2010 Y124 A 3.845 3.869 27.24 K 79 79 "Y2O3,Sc2O3,Ga(HO3)3,BaM2,CuM2/H2O" "M=Ch3COO. aqeous sol-gel method. (precursor gel powder) - CAL(700C,10h,in flowing O2) - reground - heat(780C,10h) - ANN(780C,20h,in flowing O2)" Scandium and gallium substitution effects in the (Y1-xScx)Ba2Cu4O8 and (Y1-xGax)Ba2Cu4O8 superconducting oxides 2010 "Department of General and Inorganic Chemistry, Vilnius University, Naugarduko 24, LT-03225 Vilnius, Lithuania" "Mat.Chem.Phys., 119(2010)208"
151734 MCP1190208 Major phase(by EDX): Y0.90Sc0.10Ba2.1Cu3.9Ox "(Y,Sc)Ba2Cu4O8" Y0.9Sc0.1Ba2Cu4O8 Y 0.9 Sc 0.1 Ba 2 Cu 4 O 8 2010 Y124 A 3.847 3.872 27.239 K 81 81 "Y2O3,Sc2O3,Ga(HO3)3,BaM2,CuM2/H2O" "M=Ch3COO. aqeous sol-gel method. (precursor gel powder) - CAL(700C,10h,in flowing O2) - reground - heat(780C,10h) - ANN(780C,20h,in flowing O2)" Scandium and gallium substitution effects in the (Y1-xScx)Ba2Cu4O8 and (Y1-xGax)Ba2Cu4O8 superconducting oxides 2010 "Department of General and Inorganic Chemistry, Vilnius University, Naugarduko 24, LT-03225 Vilnius, Lithuania" "Mat.Chem.Phys., 119(2010)208"
151735 MCP1190208 Major phase(by EDX): Y0.79Sc0.21Ba1.7Cu4.3Ox. small amount of ortho-Y123 phase. Tc(on)- increase maybe from Y123 phase. "(Y,Sc)Ba2Cu4O8" Y0.8Sc0.2Ba2Cu4O8 Y 0.8 Sc 0.2 Ba 2 Cu 4 O 8 2010 Y124 A 3.845 3.874 27.232 K 87 87 "Y2O3,Sc2O3,Ga(HO3)3,BaM2,CuM2/H2O" "M=Ch3COO. aqeous sol-gel method. (precursor gel powder) - CAL(700C,10h,in flowing O2) - reground - heat(780C,10h) - ANN(780C,20h,in flowing O2)" Scandium and gallium substitution effects in the (Y1-xScx)Ba2Cu4O8 and (Y1-xGax)Ba2Cu4O8 superconducting oxides 2010 "Department of General and Inorganic Chemistry, Vilnius University, Naugarduko 24, LT-03225 Vilnius, Lithuania" "Mat.Chem.Phys., 119(2010)208"
151736 MCP1190208 Major phase(by EDX): Y0.95Ga0.05Ba2.0Cu4.0Ox "(Y,Ga)Ba2Cu4O8" Y0.95Ga0.05Ba2Cu4O8 Y 0.95 Ga 0.05 Ba 2 Cu 4 O 8 2010 Y124 A 3.844 3.868 27.237 K 75 75 "Y2O3,Sc2O3,Ga(HO3)3,BaM2,CuM2/H2O" "M=Ch3COO. aqeous sol-gel method. (precursor gel powder) - CAL(700C,10h,in flowing O2) - reground - heat(780C,10h) - ANN(780C,20h,in flowing O2)" Scandium and gallium substitution effects in the (Y1-xScx)Ba2Cu4O8 and (Y1-xGax)Ba2Cu4O8 superconducting oxides 2010 "Department of General and Inorganic Chemistry, Vilnius University, Naugarduko 24, LT-03225 Vilnius, Lithuania" "Mat.Chem.Phys., 119(2010)208"
151737 MCP1190208 Major phase(by EDX): Y0.91Ga0.09Ba1.9Cu4.1Ox "(Y,Ga)Ba2Cu4O8" Y0.9Ga0.1Ba2Cu4O8 Y 0.9 Ga 0.1 Ba 2 Cu 4 O 8 2010 Y124 A 3.846 3.871 27.233 K 74 74 "Y2O3,Sc2O3,Ga(HO3)3,BaM2,CuM2/H2O" "M=Ch3COO. aqeous sol-gel method. (precursor gel powder) - CAL(700C,10h,in flowing O2) - reground - heat(780C,10h) - ANN(780C,20h,in flowing O2)" Scandium and gallium substitution effects in the (Y1-xScx)Ba2Cu4O8 and (Y1-xGax)Ba2Cu4O8 superconducting oxides 2010 "Department of General and Inorganic Chemistry, Vilnius University, Naugarduko 24, LT-03225 Vilnius, Lithuania" "Mat.Chem.Phys., 119(2010)208"
151738 MCP1190208 Major phase(by EDX): Y0.80Ga0.20Ba2.3Cu3.7Ox. Tc-decrease maybe from non-SC-tetragonal Y123 phase "(Y,Ga)Ba2Cu4O8" Y0.8Ga0.2Ba2Cu4O8 Y 0.8 Ga 0.2 Ba 2 Cu 4 O 8 2010 Y124 A 3.847 3.872 27.229 K 69 69 "Y2O3,Sc2O3,Ga(HO3)3,BaM2,CuM2/H2O" "M=Ch3COO. aqeous sol-gel method. (precursor gel powder) - CAL(700C,10h,in flowing O2) - reground - heat(780C,10h) - ANN(780C,20h,in flowing O2)" Scandium and gallium substitution effects in the (Y1-xScx)Ba2Cu4O8 and (Y1-xGax)Ba2Cu4O8 superconducting oxides 2010 "Department of General and Inorganic Chemistry, Vilnius University, Naugarduko 24, LT-03225 Vilnius, Lithuania" "Mat.Chem.Phys., 119(2010)208"
151739 PHC4690905 single crystal: 0.5*0.2*0.02 mm3. Anisotropy(RES) = 6.3 at 300K. R(T) = a*T^n (n=5 for T < 20 K) BaNi2P2 Ba1Ni2P2 Ba 1 Ni 2 P 2 3 2009 Ab2C2 ThCr2Si2 K 3 3 mOhm.cm 4.1 0.078 0.494 MRH151739 High-P-synthesis Transport properties of single crystal BaNi2P2 2009 "Department of Physics, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-0033, Japan" "Physica C, 469(2009)905"
151740 PHC4690898 "PrO(Fe,Co)As" Pr1Fe0.925Co0.075As1O1 Pr 1 Fe 0.925 Co 0.075 As 1 O 1 2009 oxypnictide P4/nmm A 3.9834 8.6102 ZrCuSiAs K 15 15 50 "PrAs,Fe,Co,Fe2O3" "high-P synthesis. mixture - heat(1150C,2h, P=2 GPa)" Search for new iron oxypnictide superconductors by using high-pressure synthesis technique 2009 "Nanoelectronics Research Institute (NeRI), National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Central 2, Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Physica C, 469(2009)898"
151741 PHC4690985 O-content from iodometric method GdBaSrCu3Oz Gd1Ba1Sr1Cu3O6.9371 Gd 1 Ba 1 Sr 1 Cu 3 O z 6.9371 1 2009 Y123 A 3.854 11.571 K 70 83 76.5 "Gd2O3,CaCO3,BaCO3,SrCO3,CuO" 1 "mixture - pellet - heat(950C,24h) - ANN(950C,10h,in flowing O2) - cool to 600C (80C/h) - FC to RT" Effect of Ca doping on the superconducting properties of GdBaSrCu3O7 d bulk samples 2009 "Human Sensing Program, Graduate School of Science and Engineering, Yamagata University, 4-3-16 Johnan, Yonezawa City, Yamagata 992-8510, Japan" "Physica C, 469(2009)985"
151742 PHC4690985 O-content from iodometric method "(Gd,Ca)BaSrCu3Oz" Gd0.99Ca0.01Ba1Sr1Cu3O6.9198 Gd 0.99 Ca 0.01 Ba 1 Sr 1 Cu 3 O z 6.9198 1 2009 Y123 A 3.841 11.536 K 64 77 70.5 "Gd2O3,CaCO3,BaCO3,SrCO3,CuO" 1 "mixture - pellet - heat(950C,24h) - ANN(950C,10h,in flowing O2) - cool to 600C (80C/h) - FC to RT" Effect of Ca doping on the superconducting properties of GdBaSrCu3O7 d bulk samples 2009 "Human Sensing Program, Graduate School of Science and Engineering, Yamagata University, 4-3-16 Johnan, Yonezawa City, Yamagata 992-8510, Japan" "Physica C, 469(2009)985"
151743 PHC4690985 O-content from iodometric method "(Gd,Ca)BaSrCu3Oz" Gd0.96Ca0.04Ba1Sr1Cu3O6.9138 Gd 0.96 Ca 0.04 Ba 1 Sr 1 Cu 3 O z 6.9138 1 2009 Y123 A 3.84 11.53 K 65 77 71 "Gd2O3,CaCO3,BaCO3,SrCO3,CuO" 1 "mixture - pellet - heat(950C,24h) - ANN(950C,10h,in flowing O2) - cool to 600C (80C/h) - FC to RT" Effect of Ca doping on the superconducting properties of GdBaSrCu3O7 d bulk samples 2009 "Human Sensing Program, Graduate School of Science and Engineering, Yamagata University, 4-3-16 Johnan, Yonezawa City, Yamagata 992-8510, Japan" "Physica C, 469(2009)985"
151744 PHC4690985 O-content from iodometric method "(Gd,Ca)BaSrCu3Oz" Gd0.93Ca0.07Ba1Sr1Cu3O6.8804 Gd 0.93 Ca 0.07 Ba 1 Sr 1 Cu 3 O z 6.8804 1 2009 Y123 A 3.842 11.54 K 50 57 53.5 "Gd2O3,CaCO3,BaCO3,SrCO3,CuO" 1 "mixture - pellet - heat(950C,24h) - ANN(950C,10h,in flowing O2) - cool to 600C (80C/h) - FC to RT" Effect of Ca doping on the superconducting properties of GdBaSrCu3O7 d bulk samples 2009 "Human Sensing Program, Graduate School of Science and Engineering, Yamagata University, 4-3-16 Johnan, Yonezawa City, Yamagata 992-8510, Japan" "Physica C, 469(2009)985"
151745 PHC4690985 O-content from iodometric method "(Gd,Ca)BaSrCu3Oz" Gd0.9Ca0.1Ba1Sr1Cu3O6.8754 Gd 0.9 Ca 0.1 Ba 1 Sr 1 Cu 3 O z 6.8754 1 2009 Y123 A 3.851 11.569 K 34 52 43 "Gd2O3,CaCO3,BaCO3,SrCO3,CuO" 1 "mixture - pellet - heat(950C,24h) - ANN(950C,10h,in flowing O2) - cool to 600C (80C/h) - FC to RT" Effect of Ca doping on the superconducting properties of GdBaSrCu3O7 d bulk samples 2009 "Human Sensing Program, Graduate School of Science and Engineering, Yamagata University, 4-3-16 Johnan, Yonezawa City, Yamagata 992-8510, Japan" "Physica C, 469(2009)985"
151746 PHC4690901 single crystal: 0.6*0.8*0.03 mm3. O-content not measured. Anisotropy = 5 from Hc2. PrOFeAs Pr1Fe1As1O0.7 Pr 1 Fe 1 As 1 O 0.7 3 2009 oxypnictide ZrCuSiAs K 44 44 44 T "resistivity, 0.5Rn" HC151746 "high-P-synthesis. (1300-1400C,2h,P=2 GPa, in BN crucible)" Growth of single crystal PrFeAsO1-y and its characterization 2009 "Quantum Beam Science Directorate, Japan Atomic Energy Agency, Tokai, Naka, Ibaraki 319-1195, Japan" "Physica C, 469(2009)901"
151747 PHC4690965 Whiskers. Whiskers grown from precursor pellet composed of LuCaBa3Cu3OzTe0.5. Compositions of whiskers not given. LuBa2Cu3Oz Lu1Ba2Cu3O7-z Lu 1 Ba 2 Cu 3 O 7-z 2009 Y123 A 11.72 K 79 83 81 Whiskers gron from precursor pellet with Te "Growth of superconducting single-crystalline (Lu, Ca) Ba2Cu3O7 d whiskers" 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba 305-0047, Japan" "Physica C, 469(2009)965"
151748 PHC4692012 R(T) measured for H < 1.5 T. Tc(zero) sensitive to H. Y3Ba5Cu8O18 Y3Ba5Cu8O18 Y 3 Ba 5 Cu 8 O 18 1 2009 Y358 Pnm2 A 3.888 3.823 31.013 K 98 100.1 102 2.4 100.1 "Y2O3,BaCO3,CuO" 1 "mixture - react(840C,12h,in air) - pellet - heat to 1000C(20C/min) - SIN(890-930C,24h,in O2) - cool to 500C - ANN(500C,10h,in flowing O2) - FC to RT" A new Y-based HTSC with Tc above 100 K 2009 "Magnet Research Laboratory (MRL), Department of Physics, Sharif University of Technology, P.O. Box 11365-9161 Tehran, Iran" "Physica C, 469(2009)2012"
151749 PRB080220509 single crystal: 0.8*0.4*0.05 mm3. RRR=28 LaFePO La1Fe1P1O1 La 1 Fe 1 P 1 O 1 3 2009 oxypnictide K 7.4 7.4 T thermal conductivity 8.6 1 W/K.m THC151749 UOhm.cm 4.9 Sn-flux method Thermal conductivity measurements of the energy-gap anisotropy of superconducting LaFePO at low temperatures 2009 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 80(2009)220509"
151750 JPS078044712 not SC NpAl4 Np1Al4 Np 1 Al 4 3 2009 49 AB4 Imma A 4.4036 6.226 13.7219 K 1 mJ/mol.K2 20 SP-heat UOhm.cm 2.9 Al-flux method Magnetic and Electrical Properties in NpAl4 and UAl4 2009 "Institute for Materials Research, Tohoku University, Oarai, Ibaraki 311-1313" "J.Phys.Soc.Jpn, 78(2009)044712"
151751 JPS078044712 not SC UAl4 U1Al4 U 1 Al 4 3 2009 AB4 Imma K 1 mJ/mol.K2 89 SP-heat 275 SP-heat UOhm.cm 3.2 Al-flux method Magnetic and Electrical Properties in NpAl4 and UAl4 2009 "Institute for Materials Research, Tohoku University, Oarai, Ibaraki 311-1313" "J.Phys.Soc.Jpn, 78(2009)044712"
151752 PRL103257003 "Fe-isotope effect. using original method to rule out K-concentration difference between two samples (<57>, <54>Fe). Higher Tc for large Fe mass. [isotope] shows average for 7 sets." "(Ba,K)Fe2As2" Ba0.6K0.4Fe2As2 Ba 0.6 K 0.4 Fe 2 As 2 1 2009 ThCr2Si2 K 37.8 37.8 -0.18 Fe "high-P-synthesis. using <57>Fe, Fe, <54>Fe" "Inverse Iron Isotope Effect on the Transition Temperature of the (Ba,K)Fe2As2 Superconductor" 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568, Japan" "Phys.Rev.Lett., 103(2009)257003"
151753 NAT4590064 "not SC. T = 130 K. isotope effect of SDW, a = 0.05 and 0.39, for O- and Fe-isotope, respectively." SmOFeAs Sm1Fe1As1O1 Sm 1 Fe 1 As 1 O 1 2009 oxypnictide K solid state reaction A large iron isotope effect in SmFeAsO1-xFx and Ba1-xKxFe2As2 2009 "Hefei National Laboratory for Physical Sciences at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, China" "Nature, 459(2009)64"
151754 NAT4590064 dTc(O-<18>O) = -0.2 K. "Sm(O,F)FeAs" Sm1Fe1As1F0.15O0.85 Sm 1 Fe 1 As 1 F 0.15 O 0.85 2009 oxypnictide K 41.5 41.5 -0.06 O 77 -0.2 solid state reaction A large iron isotope effect in SmFeAsO1-xFx and Ba1-xKxFe2As2 2009 "Hefei National Laboratory for Physical Sciences at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, China" "Nature, 459(2009)64"
151755 NAT4590064 dTc(<54>Fe-<56>Fe) = 0.5 K. "Sm(O,F)FeAs" Sm1Fe1As1F0.15O0.85 Sm 1 Fe 1 As 1 F 0.15 O 0.85 2009 oxypnictide K 41 41 0.34 Fe 98 0.5 solid state reaction A large iron isotope effect in SmFeAsO1-xFx and Ba1-xKxFe2As2 2009 "Hefei National Laboratory for Physical Sciences at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, China" "Nature, 459(2009)64"
151756 NAT4590064 "not SC. T defined as the peak of (dR/dT). isotope effect of T, a = 0.36 using 92 %<54>Fe." BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 2009 ThCr2Si2 K solid state reaction A large iron isotope effect in SmFeAsO1-xFx and Ba1-xKxFe2As2 2009 "Hefei National Laboratory for Physical Sciences at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, China" "Nature, 459(2009)64"
151757 NAT4590064 sample purity is good. "(Ba,K)Fe2As2" Ba0.6K0.4Fe2As2 Ba 0.6 K 0.4 Fe 2 As 2 2009 ThCr2Si2 K 37.3 37.3 0.37 Fe 91 0.5 solid state reaction A large iron isotope effect in SmFeAsO1-xFx and Ba1-xKxFe2As2 2009 "Hefei National Laboratory for Physical Sciences at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, China" "Nature, 459(2009)64"
151758 JPC021382203 "impurity : Fe2P(10%). P-content determined by Vegard's law. R=R0 + a*T^n, n = 1.87. T = 142 K." BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 1 2009 AB2C2 ThCr2Si2 A 3.9612 13.006 K 4 "solid state reaction. mixture - pellet - (quartz tube) - ANN(600K,12h) - ANN(1173K,40h) - reground - (quartz tube) - ANN(1273K,24h) - FC to RT" Superconductivity up to 30 K in the vicinity of the quantum critical point in BaFe2(As1-xPx)2 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "J.Phys.:Condens.Matter, 21(2009)382203"
151759 JPC021382203 P-content determined by Vegard's law. T = 136 K. "BaFe2(As,P)2" Ba1Fe2As1.96P0.04 Ba 1 Fe 2 As 1.96 P 0.04 1 2009 AB2C2 ThCr2Si2 A 3.9603 12.99 K 4 "solid state reaction. mixture - pellet - (quartz tube) - ANN(600K,12h) - ANN(1173K,40h) - reground - (quartz tube) - ANN(1273K,24h) - FC to RT" Superconductivity up to 30 K in the vicinity of the quantum critical point in BaFe2(As1-xPx)2 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "J.Phys.:Condens.Matter, 21(2009)382203"
151760 JPC021382203 "P-content determined by Vegard's law. R=R0 + a*T^n, n = 2.15. T = 97 K." "BaFe2(As,P)2" Ba1Fe2As1.74P0.26 Ba 1 Fe 2 As 1.74 P 0.26 1 2009 AB2C2 ThCr2Si2 A 3.9471 12.992 K 4 "solid state reaction. mixture - pellet - (quartz tube) - ANN(600K,12h) - ANN(1173K,40h) - reground - (quartz tube) - ANN(1273K,24h) - FC to RT" Superconductivity up to 30 K in the vicinity of the quantum critical point in BaFe2(As1-xPx)2 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "J.Phys.:Condens.Matter, 21(2009)382203"
151761 JPC021382203 "P-content determined by Vegard's law. R=R0 + a*T^n, n = 1.97 T = 70 K." "BaFe2(As,P)2" Ba1Fe2As1.6P0.4 Ba 1 Fe 2 As 1.6 P 0.4 1 2009 AB2C2 ThCr2Si2 A 3.9376 12.876 K 7.2 7.2 "solid state reaction. mixture - pellet - (quartz tube) - ANN(600K,12h) - ANN(1173K,40h) - reground - (quartz tube) - ANN(1273K,24h) - FC to RT" Superconductivity up to 30 K in the vicinity of the quantum critical point in BaFe2(As1-xPx)2 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "J.Phys.:Condens.Matter, 21(2009)382203"
151762 JPC021382203 "P-content determined by Vegard's law. R=R0 + a*T^n, n = 0.267" "BaFe2(As,P)2" Ba1Fe2As1.52P0.48 Ba 1 Fe 2 As 1.52 P 0.48 1 2009 AB2C2 ThCr2Si2 A 3.9338 12.864 K 30.1 30.1 "solid state reaction. mixture - pellet - (quartz tube) - ANN(600K,12h) - ANN(1173K,40h) - reground - (quartz tube) - ANN(1273K,24h) - FC to RT" Superconductivity up to 30 K in the vicinity of the quantum critical point in BaFe2(As1-xPx)2 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "J.Phys.:Condens.Matter, 21(2009)382203"
151763 JPC021382203 P-content determined by Vegard's law. "BaFe2(As,P)2" Ba1Fe2As1.36P0.64 Ba 1 Fe 2 As 1.36 P 0.64 1 2009 AB2C2 ThCr2Si2 A 3.9231 12.805 K 29.1 30 29.1 100 "solid state reaction. mixture - pellet - (quartz tube) - ANN(600K,12h) - ANN(1173K,40h) - reground - (quartz tube) - ANN(1273K,24h) - FC to RT" Superconductivity up to 30 K in the vicinity of the quantum critical point in BaFe2(As1-xPx)2 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "J.Phys.:Condens.Matter, 21(2009)382203"
151764 JPC021382203 "P-content determined by Vegard's law. R=R0 + a*T^n, n = 1.02" "BaFe2(As,P)2" Ba1Fe2As1.28P0.72 Ba 1 Fe 2 As 1.28 P 0.72 1 2009 AB2C2 ThCr2Si2 A 3.9206 12.792 K 22.4 22.4 "solid state reaction. mixture - pellet - (quartz tube) - ANN(600K,12h) - ANN(1173K,40h) - reground - (quartz tube) - ANN(1273K,24h) - FC to RT" Superconductivity up to 30 K in the vicinity of the quantum critical point in BaFe2(As1-xPx)2 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "J.Phys.:Condens.Matter, 21(2009)382203"
151765 JPC021382203 "P-content determined by Vegard's law. R=R0 + a*T^n, n = 1.58" "BaFe2(As,P)2" Ba1Fe2As1.06P0.94 Ba 1 Fe 2 As 1.06 P 0.94 1 2009 AB2C2 ThCr2Si2 A 3.9074 12.724 K 20.8 20.8 "solid state reaction. mixture - pellet - (quartz tube) - ANN(600K,12h) - ANN(1173K,40h) - reground - (quartz tube) - ANN(1273K,24h) - FC to RT" Superconductivity up to 30 K in the vicinity of the quantum critical point in BaFe2(As1-xPx)2 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "J.Phys.:Condens.Matter, 21(2009)382203"
151766 JPC021382203 "P-content determined by Vegard's law. R=R0 + a*T^n, n = 1.69" "BaFe2(As,P)2" Ba1Fe2As0.88P1.12 Ba 1 Fe 2 As 0.88 P 1.12 1 2009 AB2C2 ThCr2Si2 A 3.8952 12.678 K 13.9 13.9 "solid state reaction. mixture - pellet - (quartz tube) - ANN(600K,12h) - ANN(1173K,40h) - reground - (quartz tube) - ANN(1273K,24h) - FC to RT" Superconductivity up to 30 K in the vicinity of the quantum critical point in BaFe2(As1-xPx)2 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "J.Phys.:Condens.Matter, 21(2009)382203"
151767 JPC021382203 "P-content determined by Vegard's law. R=R0 + a*T^n, n = 1.9" "BaFe2(As,P)2" Ba1Fe2As0.74P1.26 Ba 1 Fe 2 As 0.74 P 1.26 1 2009 AB2C2 ThCr2Si2 A 3.8857 12.634 K 7.73 7.73 "solid state reaction. mixture - pellet - (quartz tube) - ANN(600K,12h) - ANN(1173K,40h) - reground - (quartz tube) - ANN(1273K,24h) - FC to RT" Superconductivity up to 30 K in the vicinity of the quantum critical point in BaFe2(As1-xPx)2 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "J.Phys.:Condens.Matter, 21(2009)382203"
151768 JPC021382203 "RRR = 20. P-content determined by Vegard's law. R=R0 + a*T^n, n = 2.16" "BaFe2(As,P)2" Ba1Fe2As0.46P1.54 Ba 1 Fe 2 As 0.46 P 1.54 1 2009 AB2C2 ThCr2Si2 A 3.8697 12.554 K 4 "solid state reaction. mixture - pellet - (quartz tube) - ANN(600K,12h) - ANN(1173K,40h) - reground - (quartz tube) - ANN(1273K,24h) - FC to RT" Superconductivity up to 30 K in the vicinity of the quantum critical point in BaFe2(As1-xPx)2 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "J.Phys.:Condens.Matter, 21(2009)382203"
151769 JPC021382203 "RRR = 35. P-content determined by Vegard's law. R=R0 + a*T^n, n = 2.48" "BaFe2(As,P)2" Ba1Fe2As0.2P1.8 Ba 1 Fe 2 As 0.2 P 1.8 1 2009 AB2C2 ThCr2Si2 A 3.8509 12.489 K 4 "solid state reaction. mixture - pellet - (quartz tube) - ANN(600K,12h) - ANN(1173K,40h) - reground - (quartz tube) - ANN(1273K,24h) - FC to RT" Superconductivity up to 30 K in the vicinity of the quantum critical point in BaFe2(As1-xPx)2 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "J.Phys.:Condens.Matter, 21(2009)382203"
151770 JPC021382203 "RRR = 75. P-content determined by Vegard's law. R=R0 + a*T^n, n = 2.58" BaFe2P2 Ba1Fe2P2 Ba 1 Fe 2 P 2 1 2009 AB2C2 ThCr2Si2 A 3.8386 12.442 K 4 "solid state reaction. mixture - pellet - (quartz tube) - ANN(600K,12h) - ANN(1173K,40h) - reground - (quartz tube) - ANN(1273K,24h) - FC to RT" Superconductivity up to 30 K in the vicinity of the quantum critical point in BaFe2(As1-xPx)2 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "J.Phys.:Condens.Matter, 21(2009)382203"
151771 EPL08737004 "[FeP4] tetradon slightly distorted. bulk-SC(SUS, SP-heat)" LiFeP Li1Fe1P1 Li 1 Fe 1 P 1 2009 ABC P4/nmm A 3.692 6.031 K 6 6 6 mJ/mol.K2 16.08 "Li(3N),FeP" "mixture - pellet - (wrapped in Au-foil) - SIN(800C,60min, P=1.8 GPa)" "A new ""111"" type iron pnictide superconductor LiFeP" 2009 "Institute of Physics, Chinese Academy of Sciences - Beijing, China" "EuroPhys.Lett., 87(2009)37004"
151772 PRB081024518 SrFe2As2 Sr1Fe2As2 Sr 1 Fe 2 As 2 3 2010 AB2C2 ThCr2Si2 K 1.8 MTP151772 MRH151772 single crystals prepared fromexcess FeAs by annealing in inert gas. Effective carrier type and field dependence of the reduced-Tc superconducting state in SrFe2-xNixAs2 2010 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 81(2010)024518"
151773 PRB081024518 "Sr(Fe,Ni)2As2" Sr1Fe1.92Ni0.08As2 Sr 1 Fe 1.92 Ni 0.08 As 2 3 2010 AB2C2 ThCr2Si2 K 1.8 MTP151772 MRH151772 single crystals prepared fromexcess FeAs by annealing in inert gas. Effective carrier type and field dependence of the reduced-Tc superconducting state in SrFe2-xNixAs2 2010 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 81(2010)024518"
151774 PRB081024518 R not to zero at 1.8K. Anisotropy(Hc2) = 2.2 T-independent. "Sr(Fe,Ni)2As2" Sr1Fe1.88Ni0.12As2 Sr 1 Fe 1.88 Ni 0.12 As 2 3 2010 AB2C2 ThCr2Si2 K 3.74 3.74 7 Oe M-H curve 510 1.8 T "resistive, R-0.5Rn" T/K 1.8 MHC151774 MTP151772 single crystals prepared fromexcess FeAs by annealing in inert gas. Effective carrier type and field dependence of the reduced-Tc superconducting state in SrFe2-xNixAs2 2010 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 81(2010)024518"
151775 PRB081024518 optimal dope. Anisotropy(hc2) = 1.5 at T=0.5Tc. Jc(1.8K) = 3 E+4 A/cm2 for H//ab. "Sr(Fe,Ni)2As2" Sr1Fe1.84Ni0.16As2 Sr 1 Fe 1.84 Ni 0.16 As 2 3 2010 AB2C2 ThCr2Si2 K 8.65 8.65 95 Oe M-H curve 800 3600 1.8 T "resistive, R-0.5Rn, linear approx." 25 T/K 2.9 MHC151775 MTP151775 single crystals prepared fromexcess FeAs by annealing in inert gas. Effective carrier type and field dependence of the reduced-Tc superconducting state in SrFe2-xNixAs2 2010 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 81(2010)024518"
151776 PRB081024518 "Sr(Fe,Ni)2As2" Sr1Fe1.7Ni0.3As2 Sr 1 Fe 1.7 Ni 0.3 As 2 3 2010 AB2C2 ThCr2Si2 K 1.8 MTP151775 single crystals prepared fromexcess FeAs by annealing in inert gas. Effective carrier type and field dependence of the reduced-Tc superconducting state in SrFe2-xNixAs2 2010 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 81(2010)024518"
151777 PRB081024518 "Sr(Fe,Ni)2As2" Sr1Fe1.8Ni0.2As2 Sr 1 Fe 1.8 Ni 0.2 As 2 3 2010 AB2C2 ThCr2Si2 K 7.4 7.4 95 Oe M-H curve 600 1.8 T "resistive, R-0.5Rn" MHC151777 single crystals prepared fromexcess FeAs by annealing in inert gas. Effective carrier type and field dependence of the reduced-Tc superconducting state in SrFe2-xNixAs2 2010 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 81(2010)024518"
151778 PRB081024518 "Sr(Fe,Ni)2As2" Sr1Fe1.78Ni0.22As2 Sr 1 Fe 1.78 Ni 0.22 As 2 3 2010 AB2C2 ThCr2Si2 K 2.34 2.34 63 Oe M-H curve 90 1.8 T "resistive, R-0.5Rn" T/K 1.1 MHC151777 single crystals prepared fromexcess FeAs by annealing in inert gas. Effective carrier type and field dependence of the reduced-Tc superconducting state in SrFe2-xNixAs2 2010 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 81(2010)024518"
151779 EPL08647002 "LaOFe(As,P)" La1Fe1As0.8P0.2O1 La 1 Fe 1 As 0.8 P 0.2 O 1 1 2009 oxypnictide A 4.0276 8.6846 ZrCuSiAs K 7 7 "LaAs,La2O3,FeAs,Fe2As,FeP,Fe2P" "solid state reaction. SIN(1373K,40h,in quartz tube) - FC to RT" Superconductivity in LaFeAs1-xPxO: Effect of chemical pressures and bond covalency 2009 "Department of Physics, Zhejiang University - Hangzhou 310027, China" "EuroPhys.Lett., 86(2009)47002"
151780 EPL08647002 "LaOFe(As,P)" La1Fe1As0.75P0.25O1 La 1 Fe 1 As 0.75 P 0.25 O 1 1 2009 oxypnictide A 4.0237 8.6632 ZrCuSiAs K 10.3 11 10.3 "LaAs,La2O3,FeAs,Fe2As,FeP,Fe2P" "solid state reaction. SIN(1373K,40h,in quartz tube) - FC to RT" Superconductivity in LaFeAs1-xPxO: Effect of chemical pressures and bond covalency 2009 "Department of Physics, Zhejiang University - Hangzhou 310027, China" "EuroPhys.Lett., 86(2009)47002"
151781 EPL08647002 "LaOFe(As,P)" La1Fe1As0.7P0.3O1 La 1 Fe 1 As 0.7 P 0.3 O 1 1 2009 oxypnictide A 4.0219 8.6616 ZrCuSiAs K 10.8 11 10.8 TC151781 65 T "resistivity, WHH" 27 T/K "resistivity, R=0.9Rn" 3.59 m3/C -5.70E-09 RH151781 "LaAs,La2O3,FeAs,Fe2As,FeP,Fe2P" "solid state reaction. SIN(1373K,40h,in quartz tube) - FC to RT" Superconductivity in LaFeAs1-xPxO: Effect of chemical pressures and bond covalency 2009 "Department of Physics, Zhejiang University - Hangzhou 310027, China" "EuroPhys.Lett., 86(2009)47002"
151782 EPL08647002 "LaOFe(As,P)" La1Fe1As0.6P0.4O1 La 1 Fe 1 As 0.6 P 0.4 O 1 1 2009 oxypnictide A 4.0139 8.633 ZrCuSiAs K 5 5 "LaAs,La2O3,FeAs,Fe2As,FeP,Fe2P" "solid state reaction. SIN(1373K,40h,in quartz tube) - FC to RT" Superconductivity in LaFeAs1-xPxO: Effect of chemical pressures and bond covalency 2009 "Department of Physics, Zhejiang University - Hangzhou 310027, China" "EuroPhys.Lett., 86(2009)47002"
151783 PRB079224519 mag/str transition at 134 K. "Sr(Fe,Ni)2As2" Sr1Fe1.92Ni0.08As2 Sr 1 Fe 1.92 Ni 0.08 As 2 3 2009 AB2C2 ThCr2Si2 A 3.9222 12.321 K 1.8 "FeAs,NiAs,Sr" mixture - (sealed in alumina crucible in quartz tube) - heat(1200C) - slow cool - quench to RT Evolution of bulk superconductivity in SrFe2As2 with Ni substitution 2009 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 79(2009)224519"
151784 PRB079224519 mag/str transition at 126 K.. R not to zero at 1.8K. "Sr(Fe,Ni)2As2" Sr1Fe1.9Ni0.1As2 Sr 1 Fe 1.9 Ni 0.1 As 2 3 2009 AB2C2 ThCr2Si2 A 3.9221 12.295 K 5.5 5.51 5.5 0 "FeAs,NiAs,Sr" mixture - (sealed in alumina crucible in quartz tube) - heat(1200C) - slow cool - quench to RT Evolution of bulk superconductivity in SrFe2As2 with Ni substitution 2009 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 79(2009)224519"
151785 PRB079224519 mag/str transition at 80 K. "Sr(Fe,Ni)2As2" Sr1Fe1.88Ni0.12As2 Sr 1 Fe 1.88 Ni 0.12 As 2 3 2009 AB2C2 ThCr2Si2 A 3.927 12.294 K 8.1 5.75 3.81 8.1 11 "FeAs,NiAs,Sr" mixture - (sealed in alumina crucible in quartz tube) - heat(1200C) - slow cool - quench to RT Evolution of bulk superconductivity in SrFe2As2 with Ni substitution 2009 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 79(2009)224519"
151786 PRB079224519 mag/str transition at 36 K. (dC/gamma*Tc) = 0.12 "Sr(Fe,Ni)2As2" Sr1Fe1.85Ni0.15As2 Sr 1 Fe 1.85 Ni 0.15 As 2 3 2009 AB2C2 ThCr2Si2 A 3.9251 12.287 K 8.66 7.81 1.12 8.66 100 mJ/mol.K2 32 SP-heat 234 SP-heat "FeAs,NiAs,Sr" mixture - (sealed in alumina crucible in quartz tube) - heat(1200C) - slow cool - quench to RT Evolution of bulk superconductivity in SrFe2As2 with Ni substitution 2009 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 79(2009)224519"
151787 PRB079224519 "Sr(Fe,Ni)2As2" Sr1Fe1.82Ni0.18As2 Sr 1 Fe 1.82 Ni 0.18 As 2 3 2009 AB2C2 ThCr2Si2 A 3.9322 12.264 K 9.6 9.8 8.5 0.245 9.6 MTC151786 95.2 "FeAs,NiAs,Sr" mixture - (sealed in alumina crucible in quartz tube) - heat(1200C) - slow cool - quench to RT Evolution of bulk superconductivity in SrFe2As2 with Ni substitution 2009 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 79(2009)224519"
151788 PRB079224519 R not to zero at 1.8K. "Sr(Fe,Ni)2As2" Sr1Fe1.78Ni0.22As2 Sr 1 Fe 1.78 Ni 0.22 As 2 3 2009 AB2C2 ThCr2Si2 A 3.9308 12.262 K 2.27 3.1 3.19 2.27 0 "FeAs,NiAs,Sr" mixture - (sealed in alumina crucible in quartz tube) - heat(1200C) - slow cool - quench to RT Evolution of bulk superconductivity in SrFe2As2 with Ni substitution 2009 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 79(2009)224519"
151790 PRB081020509 single crystal (2*0.5*0.1 mm3). R not zero due to dissipation for H//ab. Anisotropy from Hc2 decrease 2 (at Tc) to 0.95 (T=0). "Fe(Te,Se)" Fe1.11Te0.6Se0.4 Fe 1.11 Te 0.6 Se 0.4 3 2010 AB K 14 14 T "resistivity, extraporation" 47 47 T/K resistivity 8.9 3.82 MHC151790 A Hc2 26.5 self-flux method. starting(Fe(Te0.6Se0.4)0.85) - sealed in quartz tube) - heat(920C) - slow cool Weak anisotropy of the superconducting upper critical field in Fe1.11Te0.6Se0.4 single crystals 2010 "Department of Physics, Zhejiang University, Hangzhou, Zhejiang 310027, China" "Phys.Rev.B, 81(2010)020509"
151791 PRB081020510 "T-dependence of Nernst coefficient shows much difference between SC-Ca(Fe,Co)2As2 and non-SC-CaFe2As2." CaFe2As2 Ca1Fe2As2 Ca 1 Fe 2 As 2 3 2010 AB2C2 ThCr2Si2 I4/mmm A 3.883 11.725 K uV/K 5.03 MTP151791 m3/C -3.30E-10 MRH151791 "Sn-flux method. Ca:Fe:As:Sn = 1.1:2:2.1:40. heat(1050C,5h) - slow cool(2K/h) to 600C - FC to RT." Nernst effect in single crystals of the pnictide superconductor CaFe1.92Co0.08As2 and parent compound CaFe2As2 2010 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 1410, 50-950 Wroc?aw, Poland" "Phys.Rev.B, 81(2010)020510"
151792 PRB081020510 "Co-content determined by EDX Tc = 12.6 K at H=13T. T-dependence of Nernst coefficient shows much difference between SC-Ca(Fe,Co)2As2 and non-SC-CaFe2As2." "Ca(Fe,Co)2As2" Ca1Fe1.92Co0.08As2 Ca 1 Fe 1.92 Co 0.08 As 2 3 2010 AB2C2 ThCr2Si2 I4/mmm A 3.886 11.695 K 20.4 20.4 uV/K -1.5 MTP151792 m3/C -4.80E-10 MRH151792 "Sn-flux method. Ca:Fe:Co:As:Sn = 1.1:1.85:0.2:2:40. heat(1050C,5h) - slow cool(2K/h) to 600C - FC to RT." Nernst effect in single crystals of the pnictide superconductor CaFe1.92Co0.08As2 and parent compound CaFe2As2 2010 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 1410, 50-950 Wroc?aw, Poland" "Phys.Rev.B, 81(2010)020510"
151793 PRB081014529 [gamma] obtained by fitting using Debye and Einstein models. Tc and [gapene] from SP-heat. "(Ba,K)Fe2As2" Ba0.7K0.3Fe2As2 Ba 0.7 K 0.3 Fe 2 As 2 1 2010 AB2C2 ThCr2Si2 K 36.5 36.5 3.73 14 mJ/mol.K2 53 SP-heat "See New J.Phys., 11(2009)025014." Magnetic and superconducting transitions in Ba1-xKxFe2As2 studied by specific heat 2010 "Experimentalphysik V, Center for Electronic Correlations and Magnetism, Institute for Physics, Augsburg University, D-86135 Augsburg, Germany" "Phys.Rev.B, 81(2010)014529"
151794 PRB081014529 [gamma] obtained by fitting using Debye and Einstein models. Tc and [gapene] from SP-heat. "(Ba,K)Fe2As2" Ba0.6K0.4Fe2As2 Ba 0.6 K 0.4 Fe 2 As 2 1 2010 AB2C2 ThCr2Si2 K 37.3 37.3 4.14 14 mJ/mol.K2 49 SP-heat "See New J.Phys., 11(2009)025014." Magnetic and superconducting transitions in Ba1-xKxFe2As2 studied by specific heat 2010 "Experimentalphysik V, Center for Electronic Correlations and Magnetism, Institute for Physics, Augsburg University, D-86135 Augsburg, Germany" "Phys.Rev.B, 81(2010)014529"
151795 PRB081014529 [gamma] obtained by fitting using Debye and Einstein models. Tc and [gapene] from SP-heat. "(Ba,K)Fe2As2" Ba0.5K0.5Fe2As2 Ba 0.5 K 0.5 Fe 2 As 2 1 2010 AB2C2 ThCr2Si2 K 36 36 3.67 14 mJ/mol.K2 54 SP-heat "See New J.Phys., 11(2009)025014." Magnetic and superconducting transitions in Ba1-xKxFe2As2 studied by specific heat 2010 "Experimentalphysik V, Center for Electronic Correlations and Magnetism, Institute for Physics, Augsburg University, D-86135 Augsburg, Germany" "Phys.Rev.B, 81(2010)014529"
151796 PRB081014529 [gamma] obtained by fitting using Debye and Einstein models. Tc and [gapene] from SP-heat. "(Ba,K)Fe2As2" Ba0.4K0.6Fe2As2 Ba 0.4 K 0.6 Fe 2 As 2 1 2010 AB2C2 ThCr2Si2 K 29.7 29.7 3.57 14 mJ/mol.K2 58 SP-heat "See New J.Phys., 11(2009)025014." Magnetic and superconducting transitions in Ba1-xKxFe2As2 studied by specific heat 2010 "Experimentalphysik V, Center for Electronic Correlations and Magnetism, Institute for Physics, Augsburg University, D-86135 Augsburg, Germany" "Phys.Rev.B, 81(2010)014529"
151797 PRB081054507 "P-induced SC. P = 5 GPa. R not to zero at (5GPa, 4.2 K). magnetic transition at Tm = 112 K.. (dTm/dP) = 12.3 K/GPa." CaFeAsF Ca1Fe1As1F1 Ca 1 Fe 1 As 1 F 1 1 2010 ABCD oxypnictide ZrCuSiAs-type K 29 0 29 MTC151797 solid state reaction Pressure dependence of the superconductor transition temperature of Ca(Fe1-xCox)AsF compounds: A comparison with the effect of pressure on LaFeAsO1-xFx 2010 "Department of Physics, College of Humanities and Sciences, Nihon University, Sakurajosui, Setagaya-ku, Tokyo 156-8550, Japan" "Phys.Rev.B, 81(2010)054507"
151798 PRB081054507 Tc(max) = 24.7 K (P=1.0 GPa). "Ca(Fe,Co)AsF" Ca1Fe0.9Co0.1As1F1 Ca 1 Fe 0.9 Co 0.1 As 1 F 1 1 2010 ABCD oxypnictide ZrCuSiAs-type K 23.8 23.8 MTC151798 solid state reaction Pressure dependence of the superconductor transition temperature of Ca(Fe1-xCox)AsF compounds: A comparison with the effect of pressure on LaFeAsO1-xFx 2010 "Department of Physics, College of Humanities and Sciences, Nihon University, Sakurajosui, Setagaya-ku, Tokyo 156-8550, Japan" "Phys.Rev.B, 81(2010)054507"
151799 PRB081054507 "Ca(Fe,Co)AsF" Ca1Fe0.85Co0.15As1F1 Ca 1 Fe 0.85 Co 0.15 As 1 F 1 1 2010 ABCD oxypnictide ZrCuSiAs-type K 20.4 20.4 MTC151799 solid state reaction Pressure dependence of the superconductor transition temperature of Ca(Fe1-xCox)AsF compounds: A comparison with the effect of pressure on LaFeAsO1-xFx 2010 "Department of Physics, College of Humanities and Sciences, Nihon University, Sakurajosui, Setagaya-ku, Tokyo 156-8550, Japan" "Phys.Rev.B, 81(2010)054507"
151800 PRB081054507 Tc(max) = 16.7 K (P=0.4 GPa). "Ca(Fe,Co)AsF" Ca1Fe0.8Co0.2As1F1 Ca 1 Fe 0.8 Co 0.2 As 1 F 1 1 2010 ABCD oxypnictide ZrCuSiAs-type K 16.4 16.4 MTC151800 solid state reaction Pressure dependence of the superconductor transition temperature of Ca(Fe1-xCox)AsF compounds: A comparison with the effect of pressure on LaFeAsO1-xFx 2010 "Department of Physics, College of Humanities and Sciences, Nihon University, Sakurajosui, Setagaya-ku, Tokyo 156-8550, Japan" "Phys.Rev.B, 81(2010)054507"
151801 PRB081054507 P-induced SC. Tc(max) = 21 K at P=12 GPa. LaOFeAs La1Fe1As1O1 La 1 Fe 1 As 1 O 1 1 2010 ABCD oxypnictide K 21 0 21 solid state reaction Pressure dependence of the superconductor transition temperature of Ca(Fe1-xCox)AsF compounds: A comparison with the effect of pressure on LaFeAsO1-xFx 2010 "Department of Physics, College of Humanities and Sciences, Nihon University, Sakurajosui, Setagaya-ku, Tokyo 156-8550, Japan" "Phys.Rev.B, 81(2010)054507"
151802 PRB081054507 Tc(max) = 29.3 K at P=3 GPa "La(O,F)FeAs" La1Fe1As1F0.05O0.95 La 1 Fe 1 As 1 F 0.05 O 0.95 1 2010 ABCD oxypnictide K 24.9 24.9 solid state reaction Pressure dependence of the superconductor transition temperature of Ca(Fe1-xCox)AsF compounds: A comparison with the effect of pressure on LaFeAsO1-xFx 2010 "Department of Physics, College of Humanities and Sciences, Nihon University, Sakurajosui, Setagaya-ku, Tokyo 156-8550, Japan" "Phys.Rev.B, 81(2010)054507"
151803 PRB081054507 Tc(max) = 35.3 K at P=4 GPa "La(O,F)FeAs" La1Fe1As1F0.08O0.92 La 1 Fe 1 As 1 F 0.08 O 0.92 1 2010 ABCD oxypnictide K 30.4 30.4 solid state reaction Pressure dependence of the superconductor transition temperature of Ca(Fe1-xCox)AsF compounds: A comparison with the effect of pressure on LaFeAsO1-xFx 2010 "Department of Physics, College of Humanities and Sciences, Nihon University, Sakurajosui, Setagaya-ku, Tokyo 156-8550, Japan" "Phys.Rev.B, 81(2010)054507"
151804 PRB081054507 Tc(max) = 43.8 K at P=4 GPa "La(O,F)FeAs" La1Fe1As1F0.11O0.89 La 1 Fe 1 As 1 F 0.11 O 0.89 1 2010 ABCD oxypnictide K 28.6 28.6 solid state reaction Pressure dependence of the superconductor transition temperature of Ca(Fe1-xCox)AsF compounds: A comparison with the effect of pressure on LaFeAsO1-xFx 2010 "Department of Physics, College of Humanities and Sciences, Nihon University, Sakurajosui, Setagaya-ku, Tokyo 156-8550, Japan" "Phys.Rev.B, 81(2010)054507"
151805 PRB081054507 Tc(max) = 43.5 K at P=6 GPa "La(O,F)FeAs" La1Fe1As1F0.14O0.86 La 1 Fe 1 As 1 F 0.14 O 0.86 1 2010 ABCD oxypnictide K 19 19 solid state reaction Pressure dependence of the superconductor transition temperature of Ca(Fe1-xCox)AsF compounds: A comparison with the effect of pressure on LaFeAsO1-xFx 2010 "Department of Physics, College of Humanities and Sciences, Nihon University, Sakurajosui, Setagaya-ku, Tokyo 156-8550, Japan" "Phys.Rev.B, 81(2010)054507"
151806 PRB081060501 Co-content by EDX. no traces of SDW. [vols] estimated tobe 75 % from finite [gamma] at 0 K. [gapene] = 4.4 and 1.9 from two gap model using SP-heat data. "Ba(Fe,Co)2As2" Ba1Fe1.85Co0.15As2 Ba 1 Fe 1.85 Co 0.15 As 2 3 2010 AB2C2 ThCr2Si2 K 21.4 21.4 75 4.4 14 mJ/mol.K2 23.8 SP-heat "FeAs,CoAs,Ba" "self-flux method. mixture - (sealed in SiO2 ampoule) - heat(1200C,5h) - cool to 1000C (1C/h)." Calorimetric evidence of multiband superconductivity in Ba(Fe0.925Co0.075)2As2 single crystals 2010 "Karlsruher Institut fur Technologie, Institut fur Festkorperphysik, 76021 Karlsruhe, Germany" "Phys.Rev.B, 81(2010)060501"
151807 PRB081060501 not SC. Co-content by EDX. "Ba(Fe,Co)2As2" Ba1Fe1.697Co0.306As2 Ba 1 Fe 1.697 Co 0.306 As 2 3 2010 AB2C2 ThCr2Si2 K 0.5 mJ/mol.K2 15.8 SP-heat "FeAs,CoAs,Ba" "self-flux method. mixture - (sealed in SiO2 ampoule) - heat(1200C,5h) - cool to 1000C (1C/h)." Calorimetric evidence of multiband superconductivity in Ba(Fe0.925Co0.075)2As2 single crystals 2010 "Karlsruher Institut fur Technologie, Institut fur Festkorperphysik, 76021 Karlsruhe, Germany" "Phys.Rev.B, 81(2010)060501"
151808 PRB081060501 not SC. Co-content by EDX. BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2010 AB2C2 ThCr2Si2 K 0.5 mJ/mol.K2 5.3 SP-heat "FeAs,CoAs,Ba" "self-flux method. mixture - (sealed in SiO2 ampoule) - heat(1200C,5h) - cool to 1000C (1C/h)." Calorimetric evidence of multiband superconductivity in Ba(Fe0.925Co0.075)2As2 single crystals 2010 "Karlsruher Institut fur Technologie, Institut fur Festkorperphysik, 76021 Karlsruhe, Germany" "Phys.Rev.B, 81(2010)060501"
151809 MAT8110761 "impurity phases: SrF2,SmAs." "(Sr,Sm)FeAsF" Sr0.5Sm0.5Fe1As1F1 Sr 0.5 Sm 0.5 Fe 1 As 1 F 1 1 2008 ABCD oxypnictide A 3.918 8.956 ZrCuSiAs-type K 56 53.5 53.5 "SrF2,SrAs,SmAs,Fe2As" solid state reaction Superconductivity at 56 K in Samarium-doped SrFeAsF 2008 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, China" cond-mat/0811.0761
151810 MAT8110761 impurity phase: SrF2. R(T) anomaly at 163 K from SDW. "(Sr,Sm)FeAsF" Sr0.8Sm0.2Fe1As1F1 Sr 0.8 Sm 0.2 Fe 1 As 1 F 1 1 2008 ABCD oxypnictide A 3.929 8.958 ZrCuSiAs-type K 4 "SrF2,SrAs,SmAs,Fe2As" solid state reaction Superconductivity at 56 K in Samarium-doped SrFeAsF 2008 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, China" cond-mat/0811.0761
151811 MAT8110761 R(T) anomaly at 173 K from SDW. SrFeAsF Sr1Fe1As1F1 Sr 1 Fe 1 As 1 F 1 1 2008 ABCD oxypnictide A 3.995 8.961 ZrCuSiAs-type K 4 "SrF2,SrAs,SmAs,Fe2As" solid state reaction Superconductivity at 56 K in Samarium-doped SrFeAsF 2008 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, China" cond-mat/0811.0761
151812 PRL104057001 "Cu-intercalated between Se-layers, not substitute for Bi-site. SC for 0.10 < x < 0.15 in CuxBi2Se3. G-L parameter = 50. R not to zero n-type semiconductor (carrier = 2 E+20 /cm3)" CuxBi2Se3 Cu0.12Bi2Se3 Cu 0.12 Bi 2 Se 3 3 2010 A2B3 R3[-]m A 28.736 K 3.8 3.8 20 T resistivity 4.6 1.7 0.3 MHC151812 A 140 52 "Bi(5N),Cu(4N),Se(5N)" "mixture - heat(850C,overnight, in sealed quartz tube) - slow cool to 620C - Q to water." Superconductivity in CuxBi2Se3 and its Implications for Pairing in the Undoped Topological Insulator 2010 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.Lett., 104(2010)057001"
151813 PRL104057001 not SC. Cu substitutes for Bi. "(Bi,Cu)2Se3" Cu0.1Bi1.9Se3 Cu 0.1 Bi 1.9 Se 3 3 2010 A2B3 K 1.8 "Bi(5N),Cu(4N),Se(5N)" "mixture - heat(850C,overnight, in sealed quartz tube) - slow cool to 620C - Q to water." Superconductivity in CuxBi2Se3 and its Implications for Pairing in the Undoped Topological Insulator 2010 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.Lett., 104(2010)057001"
151814 PRL104057004 "Pressure effect of structure (LTO,HTT, Charge order) studied. For P=0, HTT(235K), LTO(54K), charge order(54K)." "(La,Ba)2CuO4" La1.875Ba0.125Cu1O4 La 1.875 Ba 0.125 Cu 1 O 4 3 2010 T K 3 3 TC151814 Spontaneous Symmetry Breaking by Charge Stripes in the High Pressure Phase of Superconducting La1.875Ba0.125CuO4 2010 "Brookhaven National Laboratory, Upton, New York 11973-5000, USA" "Phys.Rev.Lett., 104(2010)057004"
151815 PRL104057007 structure distortion at 62.2 K. NaFeAs Na1Fe1As1 Na 1 Fe 1 As 1 2010 45.2 ABC K 9 9 "mixture - heat(200C,48h, in sealed Nb tube) - heat(750C,48h, in sealed Nb tube)" Control of the Competition between a Magnetic Phase and a Superconducting Phase in Cobalt-Doped and Nickel-Doped NaFeAs Using Electron Count 2010 "Department of Chemistry, University of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford, OX1 3QR, United Kingdom" "Phys.Rev.Lett., 104(2010)057007"
151816 PRL104057007 structure distortion at 41.1 K. "Na(Fe,Co)As" Na1Fe0.99Co0.01As1 Na 1 Fe 0.99 Co 0.01 As 1 2010 28 ABC K 17.9 17.9 "mixture - heat(200C,48h, in sealed Nb tube) - heat(750C,48h, in sealed Nb tube)" Control of the Competition between a Magnetic Phase and a Superconducting Phase in Cobalt-Doped and Nickel-Doped NaFeAs Using Electron Count 2010 "Department of Chemistry, University of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford, OX1 3QR, United Kingdom" "Phys.Rev.Lett., 104(2010)057007"
151817 PRL104057007 "Na(Fe,Co)As" Na1Fe0.975Co0.025As1 Na 1 Fe 0.975 Co 0.025 As 1 2010 ABC K 21.1 21.1 MTC151817 "mixture - heat(200C,48h, in sealed Nb tube) - heat(750C,48h, in sealed Nb tube)" Control of the Competition between a Magnetic Phase and a Superconducting Phase in Cobalt-Doped and Nickel-Doped NaFeAs Using Electron Count 2010 "Department of Chemistry, University of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford, OX1 3QR, United Kingdom" "Phys.Rev.Lett., 104(2010)057007"
151818 PRL104057007 "Na(Fe,Co)As" Na1Fe0.95Co0.05As1 Na 1 Fe 0.95 Co 0.05 As 1 2010 ABC K 16 16 "mixture - heat(200C,48h, in sealed Nb tube) - heat(750C,48h, in sealed Nb tube)" Control of the Competition between a Magnetic Phase and a Superconducting Phase in Cobalt-Doped and Nickel-Doped NaFeAs Using Electron Count 2010 "Department of Chemistry, University of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford, OX1 3QR, United Kingdom" "Phys.Rev.Lett., 104(2010)057007"
151819 PRL104057007 "Na(Fe,Co)As" Na1Fe0.93Co0.07As1 Na 1 Fe 0.93 Co 0.07 As 1 2010 ABC K 14 14 "mixture - heat(200C,48h, in sealed Nb tube) - heat(750C,48h, in sealed Nb tube)" Control of the Competition between a Magnetic Phase and a Superconducting Phase in Cobalt-Doped and Nickel-Doped NaFeAs Using Electron Count 2010 "Department of Chemistry, University of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford, OX1 3QR, United Kingdom" "Phys.Rev.Lett., 104(2010)057007"
151820 PRL104057007 "Na(Fe,Co)As" Na1Fe0.9Co0.1As1 Na 1 Fe 0.9 Co 0.1 As 1 2010 ABC K 0 0 "mixture - heat(200C,48h, in sealed Nb tube) - heat(750C,48h, in sealed Nb tube)" Control of the Competition between a Magnetic Phase and a Superconducting Phase in Cobalt-Doped and Nickel-Doped NaFeAs Using Electron Count 2010 "Department of Chemistry, University of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford, OX1 3QR, United Kingdom" "Phys.Rev.Lett., 104(2010)057007"
151821 PRL104057007 "Na(Fe,Ni)As" Na1Fe0.975Ni0.025As1 Na 1 Fe 0.975 Ni 0.025 As 1 2010 ABC K 15.4 15.4 "mixture - heat(200C,48h, in sealed Nb tube) - heat(750C,48h, in sealed Nb tube)" Control of the Competition between a Magnetic Phase and a Superconducting Phase in Cobalt-Doped and Nickel-Doped NaFeAs Using Electron Count 2010 "Department of Chemistry, University of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford, OX1 3QR, United Kingdom" "Phys.Rev.Lett., 104(2010)057007"
151822 MMM3221137 impurity phase: U3Co4Ge7 UCoGe U1Co1Ge1 U 1 Co 1 Ge 1 2010 ABC TiNiSi Pnma A 6.847 4.208 7.229 K 0.65 0.65 "arc-melting - ANN(800 or 900C,10d)" Magnetism of UCoGe and U3Co4Ge7 2010 "Charles University Prague, Faculty of Mathematics and Physics, Department of Condensed Matter Physics, Ke Karlovu 5, 121 16 Praha 2, Czech Republic" "J.Mag.Mag.Mat., 322(2010)1137"
151823 MMM3221137 not SC. spontaneous magnetization (ferromagnetic) below Tm = 21 K. U3Co4Ge7 U3Co4Ge7 U 3 Co 4 Ge 7 2010 21.5 A3B4C7 A 4.116 27.5 K 1.8 "arc-melting - ANN(800 or 900C,10d)" Magnetism of UCoGe and U3Co4Ge7 2010 "Charles University Prague, Faculty of Mathematics and Physics, Department of Condensed Matter Physics, Ke Karlovu 5, 121 16 Praha 2, Czech Republic" "J.Mag.Mag.Mat., 322(2010)1137"
151824 PHB4050955 RRR = 13.0 2H-NbSe2 Nb1Se2 Nb 1 Se 2 1 2010 AB2 2H-NbSe2 A 3.445 12.551 K 7.4 7.4 uV/K -3.7 MTP151824 mOhm.cm 0.196 "Ga(4N),Nb(2N),Se(5N)" "mixture - heat(750C, in quartz tube) - pelletization - SIN(700C,7d)" Transport properties of 2H-NbSe2: Effect of Ga-intercalation 2010 "Department of Physics, North Orissa University, Takatpur, Baripada?757003, India" "Physica B, 405(2010)955"
151825 PHB4050955 RRR = 66.7. T = 35 K. 2H-NbSe2 Nb1Se2 Nb 1 Se 2 3 2010 AB2 2H-NbSe2 K 7.4 7.4 uV/K -4.08 MTP151825 mOhm.cm 0.068 "Ga(4N),Nb(2N),Se(5N)" "mixture - heat(750C, in quartz tube) - pelletization - SIN(700C,7d)" Transport properties of 2H-NbSe2: Effect of Ga-intercalation 2010 "Department of Physics, North Orissa University, Takatpur, Baripada?757003, India" "Physica B, 405(2010)955"
151826 PHB4050955 Ga-intercalated. RRR = 2.9. 2H-Ga0.05NbSe2 Ga0.05Nb1Se2 Ga 0.05 Nb 1 Se 2 1 2010 AB2 2H-NbSe2 A 3.45 12.592 K 5.6 5.6 uV/K -6.33 MTP151826 mOhm.cm 0.418 "Ga(4N),Nb(2N),Se(5N)" "mixture - heat(750C, in quartz tube) - pelletization - SIN(700C,7d)" Transport properties of 2H-NbSe2: Effect of Ga-intercalation 2010 "Department of Physics, North Orissa University, Takatpur, Baripada?757003, India" "Physica B, 405(2010)955"
151827 PHB4050955 Ga-intercalated. RRR = 1.5. 2H-Ga0.1NbSe2 Ga0.1Nb1Se2 Ga 0.1 Nb 1 Se 2 1 2010 AB2 2H-NbSe2 A 3.453 12.605 K 2.7 2.7 uV/K -11.21 MTP151827 mOhm.cm 1.23 "Ga(4N),Nb(2N),Se(5N)" "mixture - heat(750C, in quartz tube) - pelletization - SIN(700C,7d)" Transport properties of 2H-NbSe2: Effect of Ga-intercalation 2010 "Department of Physics, North Orissa University, Takatpur, Baripada?757003, India" "Physica B, 405(2010)955"
151828 PLA0290571 [t2] from SP-heat. Hall coeffic(77 K) = 1.7 cm3/C. lattice term of SP-heat(beta) = 0.31 mJ/mol.K4 NbS2 Nb1S2 Nb 1 S 2 1969 AB2 K 5.4 5.5 5.4 mJ/mol.K2 10.7 SP-heat 265 SP-heat mOhm.cm 0.05 0.15 An energy band model of Nb- and Ta-dichalcogenide superconductors 1969 "N.V.Philips Gloeilampenfabrieken, Philips Research Laboratories, Eindhoven, Netherlands" "Phys.Lett. A, 29(1969)571"
151829 PLA0290571 [t2] from SP-heat. Hall coeffic(77 K) = 0.6 cm3/C. lattice term of SP-heat(beta) = 0.62 mJ/mol.K4 NbSe2 Nb1Se2 Nb 1 Se 2 1969 AB2 K 6.9 6.9 6.9 mJ/mol.K2 20.5 SP-heat 210 SP-heat mOhm.cm 0.04 0.18 An energy band model of Nb- and Ta-dichalcogenide superconductors 1969 "N.V.Philips Gloeilampenfabrieken, Philips Research Laboratories, Eindhoven, Netherlands" "Phys.Lett. A, 29(1969)571"
151830 PLA0290571 Hall coeffic(77 K) = 2.0 cm3/C. lattice term of SP-heat(beta) = 0.79 mJ/mol.K4 NbTe2 Nb1Te2 Nb 1 Te 2 1969 AB2 K 0.6 0.6 mJ/mol.K2 3 SP-heat 195 SP-heat mOhm.cm 0.03 0.13 An energy band model of Nb- and Ta-dichalcogenide superconductors 1969 "N.V.Philips Gloeilampenfabrieken, Philips Research Laboratories, Eindhoven, Netherlands" "Phys.Lett. A, 29(1969)571"
151831 PLA0290571 [t2] from SP-heat. Hall coeffic(77 K) = 5.0 cm3/C. lattice term of SP-heat(beta) = 0.66 mJ/mol.K4 TaS2 Ta1S2 Ta 1 S 2 1969 AB2 K 1.6 1.5 1.6 mJ/mol.K2 9.1 SP-heat 205 SP-heat mOhm.cm 0.3 0.6 An energy band model of Nb- and Ta-dichalcogenide superconductors 1969 "N.V.Philips Gloeilampenfabrieken, Philips Research Laboratories, Eindhoven, Netherlands" "Phys.Lett. A, 29(1969)571"
151832 PLA0290571 Hall coeffic(77 K) = -0.2 cm3/C. lattice term of SP-heat(beta) = 0.61 mJ/mol.K4 TaSe2 Ta1Se2 Ta 1 Se 2 1969 AB2 K 0.2 0.2 mJ/mol.K2 5.5 SP-heat 215 SP-heat mOhm.cm 0.04 0.13 An energy band model of Nb- and Ta-dichalcogenide superconductors 1969 "N.V.Philips Gloeilampenfabrieken, Philips Research Laboratories, Eindhoven, Netherlands" "Phys.Lett. A, 29(1969)571"
151833 PLA0290571 Hall coeffic(77 K) = 3.2 cm3/C. lattice term of SP-heat(beta) = 0.90 mJ/mol.K4 TaTe2 Ta1Te2 Ta 1 Te 2 1969 AB2 K 0.05 mJ/mol.K2 3 SP-heat 185 SP-heat mOhm.cm 0.4 0.21 An energy band model of Nb- and Ta-dichalcogenide superconductors 1969 "N.V.Philips Gloeilampenfabrieken, Philips Research Laboratories, Eindhoven, Netherlands" "Phys.Lett. A, 29(1969)571"
151834 PHC4700165 impurity phase(<2%): Nd(OH)3. Metal-to semiconduct transition at 163 K. "NdO(Fe,Rh)As" Nd1Fe0.9Rh0.1As1O1 Nd 1 Fe 0.9 Rh 0.1 As 1 O 1 2010 oxypnictide A 3.978 8.537 K 18 15 15 20 TP151834 "Nd,As,Fe,Rh,Fe2O3,FeF2" "mixture - press(200MPa) - heat(1150C,48h,in air)" Superconductivity at 15 K in NdFe0.9Rh0.1AsO without F-doping 2010 "Institut de Chimie Moleculaire et des Materiaux d'Orsay (UMR CNRS 8182), Bat 410, Univ. Paris-Sud 11, 91405 Orsay, France" "Physica C, 470(2010)165"
151835 PHC4700165 "Nd(O,F)FeAs" Nd1Fe1As1F0.12O0.88 Nd 1 Fe 1 As 1 F 0.12 O 0.88 2010 oxypnictide K 52 52 TP151835 "Nd,As,Fe,Rh,Fe2O3,FeF2" "mixture - press(200MPa) - heat(1150C,48h,in air)" Superconductivity at 15 K in NdFe0.9Rh0.1AsO without F-doping 2010 "Institut de Chimie Moleculaire et des Materiaux d'Orsay (UMR CNRS 8182), Bat 410, Univ. Paris-Sud 11, 91405 Orsay, France" "Physica C, 470(2010)165"
151836 PLA0240645 Tc by mutual inductance(21Hz). synthesized at 1200K. NbTe2 Nb1Te2 Nb 1 Te 2 1967 K 0.74 0.74 Some new superconducting group V dichalcogenides 1967 "N.V.Philips Gloeilampenfabrieken, Philips Research Laboratories, Eindhoven, Netherlands" "Phys.Lett. A, 24(1967)645"
151837 PLA0240645 Tc by mutual inductance(21Hz). synthesized at 1250K. TaS2 Ta1S2 Ta 1 S 2 1967 K 2.1 2.1 Some new superconducting group V dichalcogenides 1967 "N.V.Philips Gloeilampenfabrieken, Philips Research Laboratories, Eindhoven, Netherlands" "Phys.Lett. A, 24(1967)645"
151838 PLA0240645 Tc by mutual inductance(21Hz). synthesized at 1250K. 3s-TaSe2 Ta1Se2 Ta 1 Se 2 1967 K 0.22 0.22 Some new superconducting group V dichalcogenides 1967 "N.V.Philips Gloeilampenfabrieken, Philips Research Laboratories, Eindhoven, Netherlands" "Phys.Lett. A, 24(1967)645"
151840 PHC4700178 impurity phase: SrMoO4. microcrystals( 10 micron-m) = Mo0.45Sr2YCu2.87Ox by EDS MoSr2YCu2O8 Mo1Sr2Y1Cu2O8 Mo 1 Sr 2 Y 1 Cu 2 O 8 2010 5 M1212 A 3.815 11.446 K 21 21 14 "MoO3,Y2O3,CaCO3,SrCO3,CuO" 1 "mixture - pellet - SIN(750C,24h,in air) - SIN(950C,24h,in O2-flow) - ANN(600C,48h + 400C,24h, in O2-flow)" Superconducting properties of Ca-doped MoSr2YCu2O8-d 2010 "Institute of Solid State Physics, Bulgarian Academy of Sciences, 1784 Sofia, Bulgaria" "Physica C, 470(2010)178"
151841 PHC4700178 "MoSr2(Y,Ca)Cu2O8" Mo1Sr2Y0.8Ca0.2Cu2O8 Mo 1 Sr 2 Y 0.8 Ca 0.2 Cu 2 O 8 2010 4.8 M1212 A 3.813 11.438 K 26 26 14 "MoO3,Y2O3,CaCO3,SrCO3,CuO" 1 "mixture - pellet - SIN(750C,24h,in air) - SIN(950C,24h,in O2-flow) - ANN(600C,48h + 400C,24h, in O2-flow)" Superconducting properties of Ca-doped MoSr2YCu2O8-d 2010 "Institute of Solid State Physics, Bulgarian Academy of Sciences, 1784 Sofia, Bulgaria" "Physica C, 470(2010)178"
151842 PHC4700313 surface /n (001). lattice term in SP (beta) = 0.37 mJ/mol.K4. 2H-TaS2 Ta1S2 Ta 1 S 2 3 2010 2H-TaS2 A 3.3119 12.08 K 0.643 0.786 0.7145 mJ/mol.K2 8.5 NaCl/KCl flux method Superconductivity of Ni-doping 2H-TaS2 2010 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Physica C, 470(2010)313"
151843 PHC4700313 surface /n (001) 2H-NixTaS2 Ni0.02Ta1S2 Ni 0.02 Ta 1 S 2 3 2010 2H-TaS2 A 3.3109 12.041 K 3 3.65 3.325 NaCl/KCl flux method Superconductivity of Ni-doping 2H-TaS2 2010 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Physica C, 470(2010)313"
151844 PHC4700313 surface /n (001). Thermodynamic Hc(0) = 0.2 T. Anisotropy = 3.6. lattice term in SP (beta) = 0.398 mJ/mol.K4. 2H-NixTaS2 Ni0.04Ta1S2 Ni 0.04 Ta 1 S 2 3 2010 2H-TaS2 A 3.3109 12.033 K 4.04 4.15 4.095 T "resistivity,WHH" 17.3 4.85 MHC151844 A from Hc2 82.4 23.1 MSP151844 mJ/mol.K2 13.02 SP-heat 244 NaCl/KCl flux method Superconductivity of Ni-doping 2H-TaS2 2010 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Physica C, 470(2010)313"
151845 PHC4700313 surface /n (001) 2H-NixTaS2 Ni0.05Ta1S2 Ni 0.05 Ta 1 S 2 3 2010 2H-TaS2 A 3.31 12.024 K 1.99 2.62 2.305 NaCl/KCl flux method Superconductivity of Ni-doping 2H-TaS2 2010 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Physica C, 470(2010)313"
151846 PHC4700313 surface /n (001) 2H-NixTaS2 Ni0.06Ta1S2 Ni 0.06 Ta 1 S 2 3 2010 2H-TaS2 A 3.309 12.011 K 1.9 1.9 NaCl/KCl flux method Superconductivity of Ni-doping 2H-TaS2 2010 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Physica C, 470(2010)313"
151847 PHC4700313 surface /n (001) 2H-NixTaS2 Ni0.08Ta1S2 Ni 0.08 Ta 1 S 2 3 2010 2H-TaS2 A 3.308 11.976 K 1.8 NaCl/KCl flux method Superconductivity of Ni-doping 2H-TaS2 2010 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Physica C, 470(2010)313"
151848 PHC4700357 "impurity phase: La2O3,FeAs" "(La,Sr)OFeAs" La0.87Sr0.13Fe1As1O1 La 0.87 Sr 0.13 Fe 1 As 1 O 1 2010 oxypnictide K 20 20 "(La,Sm)As,FeAs,SrO,Fe,Fe2O3" "mixture - press to pellet - sealed in quartz tube - heat(940C,4h) - heat(1150-1200C,48h) - slow cool to RT" Coexistence of magnetism and superconductivity in the hole doped FeAs-based superconducting compound 2010 "Department of Physics, National Chung Hsing University, Taiwan, ROC" "Physica C, 470(2010)357"
151849 PHC4700357 "(La,Sm,Sr)OFeAs" La0.77Sm0.1Sr0.13Fe1As1O1 La 0.77 Sm 0.1 Sr 0.13 Fe 1 As 1 O 1 2010 oxypnictide K 18 18 "(La,Sm)As,FeAs,SrO,Fe,Fe2O3" "mixture - press to pellet - sealed in quartz tube - heat(940C,4h) - heat(1150-1200C,48h) - slow cool to RT" Coexistence of magnetism and superconductivity in the hole doped FeAs-based superconducting compound 2010 "Department of Physics, National Chung Hsing University, Taiwan, ROC" "Physica C, 470(2010)357"
151850 CEM1830338 not SC. R anomaly at 155K due to structural transformation. Hall coeffic. [RHN] and [carrier] at 30K PrOFeAs Pr1Fe1As1O1 Pr 1 Fe 1 As 1 O 1 2010 oxypnictide P4/nmm A 3.9866 8.6042 ZrCuSiAs-type K 2.5 m3/C -8.40E-08 n/cm3 7.40E+19 "Pr,Pr6O11,Co3O4,FeAs,As" "mixture - heat(950C,24h,in sealed silica) - disk - wrapped in Ta foil - SIN(1100C,48h,in silica ampoule) - cool to RT" New oxypnictide superconductors: PrOFe1-xCoxAs 2010 "Department of Chemistry, Indian Institute of Technology, NewDelhi 110016, India" "J.Solid State Chem., 183(2010)338"
151851 CEM1830338 Hall coeffic. [RHN] and [carrier] at 30K "PrO(Fe,Co)As" Pr1Fe0.95Co0.05As1O1 Pr 1 Fe 0.95 Co 0.05 As 1 O 1 2010 oxypnictide P4/nmm A 3.9861 8.6002 ZrCuSiAs-type K 4.7 4.7 m3/C -2.47E-08 n/cm3 2.70E+20 "Pr,Pr6O11,Co3O4,FeAs,As" "mixture - heat(950C,24h,in sealed silica) - disk - wrapped in Ta foil - SIN(1100C,48h,in silica ampoule) - cool to RT" New oxypnictide superconductors: PrOFe1-xCoxAs 2010 "Department of Chemistry, Indian Institute of Technology, NewDelhi 110016, India" "J.Solid State Chem., 183(2010)338"
151852 CEM1830338 Hall coeffic. [RHN] and [carrier] at 30K "PrO(Fe,Co)As" Pr1Fe0.9Co0.1As1O1 Pr 1 Fe 0.9 Co 0.1 As 1 O 1 2010 oxypnictide P4/nmm A 3.986 8.59 ZrCuSiAs-type K 14.2 13.8 13.8 T "resistivity,WHH" 50.2 T/K resistivity 5.11 uV/K -25.24 TP151852 m3/C -5.37E-09 n/cm3 1.16E+21 "Pr,Pr6O11,Co3O4,FeAs,As" "mixture - heat(950C,24h,in sealed silica) - disk - wrapped in Ta foil - SIN(1100C,48h,in silica ampoule) - cool to RT" New oxypnictide superconductors: PrOFe1-xCoxAs 2010 "Department of Chemistry, Indian Institute of Technology, NewDelhi 110016, India" "J.Solid State Chem., 183(2010)338"
151853 CEM1830338 "PrO(Fe,Co)As" Pr1Fe0.85Co0.15As1O1 Pr 1 Fe 0.85 Co 0.15 As 1 O 1 2010 oxypnictide P4/nmm A 3.9852 8.5772 ZrCuSiAs-type K 5.9 5.9 "Pr,Pr6O11,Co3O4,FeAs,As" "mixture - heat(950C,24h,in sealed silica) - disk - wrapped in Ta foil - SIN(1100C,48h,in silica ampoule) - cool to RT" New oxypnictide superconductors: PrOFe1-xCoxAs 2010 "Department of Chemistry, Indian Institute of Technology, NewDelhi 110016, India" "J.Solid State Chem., 183(2010)338"
151854 CEM1830338 R not to zero at 2.5 K "PrO(Fe,Co)As" Pr1Fe0.8Co0.2As1O1 Pr 1 Fe 0.8 Co 0.2 As 1 O 1 2010 oxypnictide P4/nmm A 3.9843 8.5569 ZrCuSiAs-type K 4 4 "Pr,Pr6O11,Co3O4,FeAs,As" "mixture - heat(950C,24h,in sealed silica) - disk - wrapped in Ta foil - SIN(1100C,48h,in silica ampoule) - cool to RT" New oxypnictide superconductors: PrOFe1-xCoxAs 2010 "Department of Chemistry, Indian Institute of Technology, NewDelhi 110016, India" "J.Solid State Chem., 183(2010)338"
151855 CEM1830338 R not to zero at 2.5 K "PrO(Fe,Co)As" Pr1Fe0.7Co0.3As1O1 Pr 1 Fe 0.7 Co 0.3 As 1 O 1 2010 oxypnictide P4/nmm A 3.9839 8.537 ZrCuSiAs-type K 4 4 "Pr,Pr6O11,Co3O4,FeAs,As" "mixture - heat(950C,24h,in sealed silica) - disk - wrapped in Ta foil - SIN(1100C,48h,in silica ampoule) - cool to RT" New oxypnictide superconductors: PrOFe1-xCoxAs 2010 "Department of Chemistry, Indian Institute of Technology, NewDelhi 110016, India" "J.Solid State Chem., 183(2010)338"
151856 PRL104087004 "two gaps: 1.27 meV(DB) and 0.487 meV. [penet] = 5220 A(DB) and 5320A for two gaps, respectively. [gap] and [penet] measured for various pressure from muon-SR." FeSex Fe1Se0.94 Fe 1 Se 0.94 2010 K 8.3 8.3 A muon-SR 5220 meV 1.27 solid state reaction Evolution of Two-Gap Behavior of the Superconductor FeSe1-x 2010 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.Lett., 104(2010)087004"
151857 PRB081094506 "NdO(Fe,Rh)As" Nd1Fe0.95Rh0.05As1O1 Nd 1 Fe 0.95 Rh 0.05 As 1 O 1 1 2010 oxypnictide A 3.9731 8.5638 ZrCuSiAs-type K 7.1 7.1 uV/K -25.7 mOhm.cm 2.59 "Fe,Fe2O3,Rh,NdAs" "solid state reaction. mixture - press to bar - heat(1150C,48h,in air)" Electronic phase diagram of NdFe1-xRhxAsO 2010 "Institut de Chimie Moleculaire et des Materiaux d'Orsay, UMR CNRS 8182, Bat. 410, Univ. Paris-Sud 11, 91405 Orsay, France" "Phys.Rev.B, 81(2010)094506"
151858 PRB081094506 "NdO(Fe,Rh)As" Nd1Fe0.9Rh0.1As1O1 Nd 1 Fe 0.9 Rh 0.1 As 1 O 1 1 2010 oxypnictide A 3.9782 8.5372 ZrCuSiAs-type K 16.6 1.8 16.6 TC151858 20 T "resistivity,WHH" 100 T/K resistivity 9 HC151858 uV/K -33.7 TP151858 mOhm.cm 2.2 "Fe,Fe2O3,Rh,NdAs" "solid state reaction. mixture - press to bar - heat(1150C,48h,in air)" Electronic phase diagram of NdFe1-xRhxAsO 2010 "Institut de Chimie Moleculaire et des Materiaux d'Orsay, UMR CNRS 8182, Bat. 410, Univ. Paris-Sud 11, 91405 Orsay, France" "Phys.Rev.B, 81(2010)094506"
151859 PRB081094506 "NdO(Fe,Rh)As" Nd1Fe0.85Rh0.15As1O1 Nd 1 Fe 0.85 Rh 0.15 As 1 O 1 1 2010 oxypnictide A 3.9829 8.5139 ZrCuSiAs-type K 14.7 14.7 mOhm.cm 1.76 "Fe,Fe2O3,Rh,NdAs" "solid state reaction. mixture - press to bar - heat(1150C,48h,in air)" Electronic phase diagram of NdFe1-xRhxAsO 2010 "Institut de Chimie Moleculaire et des Materiaux d'Orsay, UMR CNRS 8182, Bat. 410, Univ. Paris-Sud 11, 91405 Orsay, France" "Phys.Rev.B, 81(2010)094506"
151860 PRB081094506 "NdO(Fe,Rh)As" Nd1Fe0.8Rh0.2As1O1 Nd 1 Fe 0.8 Rh 0.2 As 1 O 1 1 2010 oxypnictide A 3.9875 8.4965 ZrCuSiAs-type K 10 10 uV/K -40.8 TP151860 mOhm.cm 1.53 "Fe,Fe2O3,Rh,NdAs" "solid state reaction. mixture - press to bar - heat(1150C,48h,in air)" Electronic phase diagram of NdFe1-xRhxAsO 2010 "Institut de Chimie Moleculaire et des Materiaux d'Orsay, UMR CNRS 8182, Bat. 410, Univ. Paris-Sud 11, 91405 Orsay, France" "Phys.Rev.B, 81(2010)094506"
151861 PRL104067002 "underdoped. Thermal conductivity k: k/T = a + b*T^n, where n = 1 - 1.5 for T < 0.25 K." "Ba(Fe,Co)2As2" Ba1Fe1.904Co0.096As2 Ba 1 Fe 1.904 Co 0.096 As 2 2010 AB2C2 ThCr2Si2 K 17.1 17.1 mOhm.cm 0.203 Doping Dependence of Heat Transport in the Iron-Arsenide Superconductor Ba(Fe1-xCox)2As2 From Isotropic to a Strongly k-Dependent Gap Structure 2010 "Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.Lett., 104(2010)067002"
151862 PRL104067002 "optimal-doped. Thermal conductivity k: k/T = a + b*T^n, where n = 1 - 1.5 for T < 0.25 K." "Ba(Fe,Co)2As2" Ba1Fe1.852Co0.148As2 Ba 1 Fe 1.852 Co 0.148 As 2 2010 AB2C2 ThCr2Si2 K 22.2 22.2 mOhm.cm 0.062 Doping Dependence of Heat Transport in the Iron-Arsenide Superconductor Ba(Fe1-xCox)2As2 From Isotropic to a Strongly k-Dependent Gap Structure 2010 "Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.Lett., 104(2010)067002"
151863 PRL104067002 "overdoped. Thermal conductivity k: k/T = a + b*T^n, where n = 1 - 1.5 for T < 0.25 K." "Ba(Fe,Co)2As2" Ba1Fe1.784Co0.216As2 Ba 1 Fe 1.784 Co 0.216 As 2 2010 AB2C2 ThCr2Si2 K 14.6 14.6 mOhm.cm 0.059 Doping Dependence of Heat Transport in the Iron-Arsenide Superconductor Ba(Fe1-xCox)2As2 From Isotropic to a Strongly k-Dependent Gap Structure 2010 "Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.Lett., 104(2010)067002"
151864 PRL104067002 "overdoped. Thermal conductivity k: k/T = a + b*T^n, where n = 1 - 1.5 for T < 0.25 K." "Ba(Fe,Co)2As2" Ba1Fe1.772Co0.228As2 Ba 1 Fe 1.772 Co 0.228 As 2 2010 AB2C2 ThCr2Si2 K 10.1 10.1 mOhm.cm 0.059 Doping Dependence of Heat Transport in the Iron-Arsenide Superconductor Ba(Fe1-xCox)2As2 From Isotropic to a Strongly k-Dependent Gap Structure 2010 "Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.Lett., 104(2010)067002"
151865 SSC1500411 resistivity masx: R(max) at 30 K. GL parameter: k = 37. (dC/gamma*Tc) = 1.74 Ce2PdIn8 Ce2Pd1In8 Ce 2 Pd 1 In 8 1 2010 nyu-B/mol 2.41 -41.8 AB2C8 Ho2CoGa8 K 0.7 0.7 T "resistivity, extraporation" 2.5 T/K resistivity 13.5 MHC151865 A from Hc2 115 A 4220 J/mol.K2 1.5 mJ/mol.K2 1220 SP-heat 193 SP-heat uOhm.cm 6.4 "arc-melting in Ar with controlled (O2+H2O) gas. -- wrapped in Ta foil - ANN(700C,5w, in evacuated quartz tube)" Heavy-fermion superconductivity in Ce2PdIn8 2010 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P. O. Box 1410, 50-950 Wrodaw 2, Poland" "Solid State Commun., 150(2010)411"
151866 PRB081020503 consisting of single crystals (100*100*50 um3). NMR of <31>P and <75>As were measured. "BaFe2(As,P)2" Ba1Fe2As1.34P0.66 Ba 1 Fe 2 As 1.34 P 0.66 1 2010 AB2C2 ThCr2Si2 K 30 30 <31>P and <75>As NMR evidence for a residual density of states at zero energy in superconducting BaFe2(As0.67P0.33)2 2010 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 81(2010)020503"
151867 PRB081060509 optical conductivity measured. thickness d = 90 nm. "Ba(Fe,Co)2As2" Ba1Fe1.8Co0.2As2 Ba 1 Fe 1.8 Co 0.2 As 2 4 2010 AB2C2 ThCr2Si2 K 20 22 2 20 A optical conductivity 3600 meV 1.85 2.1 2 "deposited on (001)(La,Sr)(Al,Ta)O3 substrates by PLD" Direct observation of the superconducting energy gap in the optical conductivity of the iron pnictide superconductor Ba(Fe0.9Co0.1)2As2 2010 "Physikalisches Institut, Universitat Stuttgart, Pfaffenwaldring 57, 70550 Stuttgart, Germany" "Phys.Rev.B, 81(2010)060509"
151868 PRB081092506 "epitaxial films, thickness d=1000 A. O-content not given. Tc sensitive to O-content. Hc2 defined as Tc(on) for H perpendicular to film plane. O may substituts for Te." FeTe:O Fe1.08Te1Ox Fe 1.08 Te 1 O x 5 2010 AB PbO A 3.821 6.275 K 8 12 10 T "resistivity,WHH" 200 T/K resistivity 23 MHC151868 epitaxial films grown on (100)STO substrates. deposited by laser under about 1 E-4 Torr O2 atmosphere. Superconductivity in epitaxial thin films of Fe1.08Te:Ox 2010 "Department of Condensed Matter Physics and Materials Science, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 81(2010)092506"
151869 APL094012503 small amount of impurity phase. "Fe(Te,S)" Fe1Te0.9S0.1 Fe 1 Te 0.9 S 0.1 1 2009 K 10 10 "Fe,Te,S powder" "mixture - heat(800C,12h,in evacuated quartz tube)" Superconductivity in S-substituted FeTe 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba 305-0047, Japan" "Appl.Phys.Lett., 94(2009)012503"
151870 APL094012503 small amount of impurity phase. Hc2(0) and Hirr(0) are 102 and 56 T using linear extraporation. "Fe(Te,S)" Fe1Te0.8S0.2 Fe 1 Te 0.8 S 0.2 1 2009 K 7.8 10.5 8.6 8.6 T "resistivity,WHH" 70 A from Hc2 22 "Fe,Te,S powder" "mixture - heat(800C,12h,in evacuated quartz tube)" Superconductivity in S-substituted FeTe 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba 305-0047, Japan" "Appl.Phys.Lett., 94(2009)012503"
151871 APL094012503 no impurity phases. S-content less than starting compositions. "Fe(Te,S)" Fe1Te0.8S0.2 Fe 1 Te 0.8 S 0.2 1 2009 P4/nmm A 3.8123 6.2444 K 2.8 8.8 8.6 8.6 "TaS,Fe,Te" "mixture - heat(600C,12h) - reground - pellet - heat(600C,12h, in evacuated quartz tube)" Superconductivity in S-substituted FeTe 2009 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba 305-0047, Japan" "Appl.Phys.Lett., 94(2009)012503"
151872 SSC0960539 Ba4C60 Ba4C60 Ba 4 C 60 1995 fullerene A 11.25 11.69 10.9 K 6.8 6.8 T "susceptibility, WHH" 2.4 T/K susceptibility 0.35 MHC151872 A from Hc2 116 Superconductivity of Ba doped C60 - Superconductivity results and upper critical field 1995 "Solid State Commun., 96(1995)539"
151873 PCS0710491 "O-content determined to be 0.67(optimal). samples with 0.4= = Debye + Einstein, where Einstein-T = 360 K.. (dC/gamma*Tc) = 1.1" SmOxFeAs Sm1Fe1As1O0.67 Sm 1 Fe 1 As 1 O 0.6 0.67 2010 oxypnictide P4/nmm A 3.90236 8.43148 K 55 55 1.4 55 100 meV 10.85 4.57 14 210 SP-heat mOhm.cm 0.09 n/cm3 1.00E+21 "SmAs,Fe,Fe2O3" "mixture - sealed in BN crucible covered by Pt foil - SIN(1300C,2h,P=3GPa)" Superconducting properties of SmFeAsO1-x prepared under high-pressure condition 2010 "WPI and Department of Physics, Graduate School of Science, Tohoku University, Japan" "J.Phys.Chem.Solids, 71(2010)491"
151874 PCS0710700 single crystals from large grains. J//<110> parallel direction. Hc2 defined as R=0. RRR = 19. Hc1(T) = Hc1(0)(1-t^2). GL parameter = 120. thermodynamic-Hc(0) = 0.12 T. Rh17S15 Rh17S15 Rh 17 S 15 3 2010 cubic K 5.4 5.4 K/GPa -0.17 Oe M -H deviation 33 T "resistivity,WHH" 20.5 T/K resistivity 6 5.6 MHC151874 A from Hc2 40 A from Hc1 4900 uOhm.cm 3.5 "Rh(4N),S(5N)" crystals grown by mineralization. mixture - pellet(under pressure) - heat to 1150C - cool to 1100C (2 C/h) - rapid cool to RT Superconducting properties in Rh17S15 under magnetic field and pressure 2010 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Chem.Solids, 71(2010)700"
151875 CEM1830769 nominal = FeTe "Fe(Te,Se)" Fe1.087Te1 Fe 1.087 Te 1 3 2010 67 Cu2Sb P4/nmm A 3.826 6.273 K 1.8 crystals grown by Bridgeman-Stockbarger method "Effect of Fe excess on structural, magnetic and superconducting properties of single-crystalline Fe1+xTe1-ySey" 2010 "J.Solid State Chem., 183(2010)769"
151876 CEM1830769 nominal = FeTe0.8Se0.2 "Fe(Te,Se)" Fe1.049Te0.79Se0.21 Fe 1.049 Te 0.79 Se 0.21 3 2010 14 Cu2Sb P4/nmm A 3.815 6.187 K 1.8 crystals grown by Bridgeman-Stockbarger method "Effect of Fe excess on structural, magnetic and superconducting properties of single-crystalline Fe1+xTe1-ySey" 2010 "J.Solid State Chem., 183(2010)769"
151877 CEM1830769 nominal = Fe0.9Te0.8Se0.2 "Fe(Te,Se)" Fe1.035Te0.78Se0.22 Fe 1.035 Te 0.78 Se 0.22 3 2010 Cu2Sb P4/nmm A 3.803 6.136 K 6 6 crystals grown by Bridgeman-Stockbarger method "Effect of Fe excess on structural, magnetic and superconducting properties of single-crystalline Fe1+xTe1-ySey" 2010 "J.Solid State Chem., 183(2010)769"
151878 CEM1830769 nominal = Fe0.9Te0.7Se0.3 "Fe(Te,Se)" Fe1.013Te0.68Se0.32 Fe 1.013 Te 0.68 Se 0.32 3 2010 Cu2Sb P4/nmm A 3.806 6.187 K 11 11 crystals grown by Bridgeman-Stockbarger method "Effect of Fe excess on structural, magnetic and superconducting properties of single-crystalline Fe1+xTe1-ySey" 2010 "J.Solid State Chem., 183(2010)769"
151879 JAC4810065 not annealed "(Cu,Te,Li)Ba2(Ca,Mg)2(Cu,Co)3O10" Tl0.25Li0.25Ba2Ca1Mg1Cu3.45Co0.05O10-z Tl 0.25 Li 0.25 Ba 2 Ca 1 Mg 1 Cu 3.45 Co 0.05 O 10-z 2009 Cu1223 K 112 112 "solid state reaction. (precursor+Tl2O3) - heat(840C,10min) - Q to RT" "Superconductivity in Co doped Cu0.5Tl0.5Ba2(CaM)Cu2.95Co0.05O10-z (M= Mg, Be) samples" 2009 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "J.Alloy Compd., 481(2009)65"
151880 JAC4810065 post annealed in O2 "(Cu,Tl,Li)Ba2(Ca,Be)2(Cu,Co)3O10" Tl0.25Li0.25Ba2Ca1Be1Cu3.45Co0.05O10-z Tl 0.25 Li 0.25 Ba 2 Ca 1 Be 1 Cu 3.45 Co 0.05 O 10-z 2009 Cu1223 K 105 105 "solid state reaction. (precursor+Tl2O3) - heat(840C,10min) - Q to RT" "Superconductivity in Co doped Cu0.5Tl0.5Ba2(CaM)Cu2.95Co0.05O10-z (M= Mg, Be) samples" 2009 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "J.Alloy Compd., 481(2009)65"
151881 JAC4810065 not annealed "(Cu,Tl)Ba2Ca2(Cu,Co)3O10" Tl0.5Ba2Ca2Cu3.45Co0.05O10-z Tl 0.5 Ba 2 Ca 2 Cu 3.45 Co 0.05 O 10-z 2009 Cu1223 K 104 104 "solid state reaction. (precursor+Tl2O3) - heat(840C,10min) - Q to RT" "Superconductivity in Co doped Cu0.5Tl0.5Ba2(CaM)Cu2.95Co0.05O10-z (M= Mg, Be) samples" 2009 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "J.Alloy Compd., 481(2009)65"
151882 JAC4810065 not annealed "(Cu,Tl)Ba2(Ca,Mg)2(Cu,Co)3O10" Tl0.5Ba2Ca1Mg1Cu3.45Co0.05O10-z Tl 0.5 Ba 2 Ca 1 Mg 1 Cu 3.45 Co 0.05 O 10-z 2009 Cu1223 K 96 96 "solid state reaction. (precursor+Tl2O3) - heat(840C,10min) - Q to RT" "Superconductivity in Co doped Cu0.5Tl0.5Ba2(CaM)Cu2.95Co0.05O10-z (M= Mg, Be) samples" 2009 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "J.Alloy Compd., 481(2009)65"
151883 JAC4810065 not annealed "(Cu,Tl)Ba2(Ca,Be)2(Cu,Co)3O10" Tl0.5Ba2Ca1Be1Cu3.45Co0.05O10-z Tl 0.5 Ba 2 Ca 1 Be 1 Cu 3.45 Co 0.05 O 10-z 2009 Cu1223 K 90 90 "solid state reaction. (precursor+Tl2O3) - heat(840C,10min) - Q to RT" "Superconductivity in Co doped Cu0.5Tl0.5Ba2(CaM)Cu2.95Co0.05O10-z (M= Mg, Be) samples" 2009 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "J.Alloy Compd., 481(2009)65"
151884 JPS079024702 P-induced SC. magnetic easy axis //[001]. Neel-T = 4.1 & 2.9 K for H//[001]. Curie-T = -129 K(H//[100] and 54 K (H//[001]. SC properties for P=10.8 GPa. CePd5Al2 Ce1Pd5Al2 Ce 1 Pd 5 Al 2 3 2010 AB2C5 ZrNi2Al5 K 0.9 0 0.9 kOe "resistive, extraporation" 6.8 4.5 T/K resistivity 10 1.8 MHC151884 Bridgman method Magnetic and Fermi Surface Properties of CePd5Al2 and PrPd5Al2 2010 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 79(2010)024702"
151885 JPS079033704 structural transition at 150 K. LaRu2Zn20 La1Ru2Zn20 La 1 Ru 2 Zn 20 3 2010 AB2C20 CeCr2Al20 A 14.9263 K 0.2 0.2 0.2 single crystals were grown by self-flux method "Superconductivity and Structural Phase Transitions in Caged Compounds RT2Zn20 (R=La,Pr, T=Ru,Ir)" 2010 "Department of Quantum Matter, Graduate School of Advanced Sciences of Matter, Hiroshima University, Higashihiroshima, Hiroshima 739-8530, Japan" "J.Phys.Soc.Jpn, 79(2010)033704"
151886 JPS079033704 structural transition at 138 K. PrRu2Zn20 Pr1Ru2Zn20 Pr 1 Ru 2 Zn 20 3 2010 nyu-B/Pr 3.5 -5.6 AB2C20 CeCr2Al20 A 14.3467 K 0.04 single crystals were grown by self-flux method "Superconductivity and Structural Phase Transitions in Caged Compounds RT2Zn20 (R=La,Pr, T=Ru,Ir)" 2010 "Department of Quantum Matter, Graduate School of Advanced Sciences of Matter, Hiroshima University, Higashihiroshima, Hiroshima 739-8530, Japan" "J.Phys.Soc.Jpn, 79(2010)033704"
151887 JPS079033704 structural transition at 200 K.. (dC/gamma*Tc) = 0.53 LaIr2Zn20 La1Ir2Zn20 La 1 Ir 2 Zn 20 3 2010 AB2C20 CeCr2Al20 A 14.3535 K 0.6 0.6 0.6 MSP151887 mJ/mol.K2 14.4 single crystals were grown by self-flux method "Superconductivity and Structural Phase Transitions in Caged Compounds RT2Zn20 (R=La,Pr, T=Ru,Ir)" 2010 "Department of Quantum Matter, Graduate School of Advanced Sciences of Matter, Hiroshima University, Higashihiroshima, Hiroshima 739-8530, Japan" "J.Phys.Soc.Jpn, 79(2010)033704"
151888 JPS079033704 PrIr2Zn20 Pr1Ir2Zn20 Pr 1 Ir 2 Zn 20 3 2010 nyu-B/Pr 3.49 -2.3 AB2C20 CeCr2Al20 A 14.2729 K 0.05 0.05 0.05 single crystals were grown by self-flux method "Superconductivity and Structural Phase Transitions in Caged Compounds RT2Zn20 (R=La,Pr, T=Ru,Ir)" 2010 "Department of Quantum Matter, Graduate School of Advanced Sciences of Matter, Hiroshima University, Higashihiroshima, Hiroshima 739-8530, Japan" "J.Phys.Soc.Jpn, 79(2010)033704"
151889 MRB0450392 "LaO(Fe,Rh)As" La1Fe0.95Rh0.05As1O1 La 1 Fe 0.95 Rh 0.05 As 1 O 1 1 2010 oxypnictide A 4.0364 8.7147 K 12 12 "La2O3,La,LaF,Fe,Rh,As" "mixture - pellet - heat(400C,12h - 850C,12h - 1090C,48h with ramp rate (300C/h), in evacuated fused silica)" Synthesis of LaRhAsO and superconductivity within the LaFe1-xRhxAsO system 2010 "Department of Chemistry, Oregon State University, Corvallis, OR 97331, USA" "Mat.Res.Bull., 45(2010)392"
151890 MRB0450392 Hc2(0) > 4T "LaO(Fe,Rh)As" La1Fe0.9Rh0.1As1O1 La 1 Fe 0.9 Rh 0.1 As 1 O 1 1 2010 oxypnictide A 4.0396 8.7 K 16 14 14 "La2O3,La,LaF,Fe,Rh,As" "mixture - pellet - heat(400C,12h - 850C,12h - 1090C,48h with ramp rate (300C/h), in evacuated fused silica)" Synthesis of LaRhAsO and superconductivity within the LaFe1-xRhxAsO system 2010 "Department of Chemistry, Oregon State University, Corvallis, OR 97331, USA" "Mat.Res.Bull., 45(2010)392"
151891 MRB0450392 R not zero at 5K. "LaO(Fe,Rh)As" La1Fe0.85Rh0.15As1O1 La 1 Fe 0.85 Rh 0.15 As 1 O 1 1 2010 oxypnictide A 4.0431 8.6838 K 14 14 "La2O3,La,LaF,Fe,Rh,As" "mixture - pellet - heat(400C,12h - 850C,12h - 1090C,48h with ramp rate (300C/h), in evacuated fused silica)" Synthesis of LaRhAsO and superconductivity within the LaFe1-xRhxAsO system 2010 "Department of Chemistry, Oregon State University, Corvallis, OR 97331, USA" "Mat.Res.Bull., 45(2010)392"
151892 MRB0450392 "LaO(Fe,Rh)As" La1Fe0.8Rh0.2As1O1 La 1 Fe 0.8 Rh 0.2 As 1 O 1 1 2010 oxypnictide A 4.0503 8.6662 K 5 "La2O3,La,LaF,Fe,Rh,As" "mixture - pellet - heat(400C,12h - 850C,12h - 1090C,48h with ramp rate (300C/h), in evacuated fused silica)" Synthesis of LaRhAsO and superconductivity within the LaFe1-xRhxAsO system 2010 "Department of Chemistry, Oregon State University, Corvallis, OR 97331, USA" "Mat.Res.Bull., 45(2010)392"
151893 MRB0450392 LaORhAs La1Rh1As1O1 La 1 Rh 1 As 1 O 1 1 2010 oxypnictide A 4.1226 8.4692 K 5 "La2O3,La,LaF,Fe,Rh,As" "mixture - pellet - heat(400C,12h - 850C,12h - 1090C,48h with ramp rate (300C/h), in evacuated fused silica)" Synthesis of LaRhAsO and superconductivity within the LaFe1-xRhxAsO system 2010 "Department of Chemistry, Oregon State University, Corvallis, OR 97331, USA" "Mat.Res.Bull., 45(2010)392"
151894 MRB0450392 "La(O,F)RhAs" La1Rh1As1F0.13O0.87 La 1 Rh 1 As 1 F 0.13 O 0.87 1 2010 oxypnictide K 5 "La2O3,La,LaF,Fe,Rh,As" "mixture - pellet - heat(400C,12h - 850C,12h - 1090C,48h with ramp rate (300C/h), in evacuated fused silica)" Synthesis of LaRhAsO and superconductivity within the LaFe1-xRhxAsO system 2010 "Department of Chemistry, Oregon State University, Corvallis, OR 97331, USA" "Mat.Res.Bull., 45(2010)392"
151895 JPS079014707 basal plane spacing d = 9.3 A. Li0.16ZrNCl Li0.16Zr1N1Cl1 Li 0.16 Zr 1 N 1 Cl 1 2010 K 12.6 12.6 Effect of Swelling on the Superconducting Characteristics in Electron-Doped beta-ZrNCl and HfNCl 2010 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashihiroshima, Hiroshima 739-8527, Japan" "J.Phys.Soc.Jpn, 79(2010)014707"
151896 JPS079014707 M=THF(=tetrahydrofuran). y not given(maybe 0.3). basal plane spacing d = 14.9 A Li0.16(THF)yZrNCl Li0.16M0.3Zr1N1Cl1 Li 0.16 M 0.3 Zr 1 N 1 Cl 1 2010 K 15 15 Effect of Swelling on the Superconducting Characteristics in Electron-Doped beta-ZrNCl and HfNCl 2010 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashihiroshima, Hiroshima 739-8527, Japan" "J.Phys.Soc.Jpn, 79(2010)014707"
151897 JPS079014707 M=PC(=propylen carbonate). y is not given. basal plane spacing d = 27.8 A. Li0.16(PC)yZrNCl Li0.16M1Zr1N1Cl1 Li 0.16 M 1 Zr 1 N 1 Cl 1 2010 K 15 15 Effect of Swelling on the Superconducting Characteristics in Electron-Doped beta-ZrNCl and HfNCl 2010 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashihiroshima, Hiroshima 739-8527, Japan" "J.Phys.Soc.Jpn, 79(2010)014707"
151898 JPS079014707 basal plane spacing d = 10.6 A. Na0.28HfNCl Na0.28Hf1N1Cl1 Na 0.28 Hf 1 N 1 Cl 1 2010 K 23.1 22.8 22.8 Effect of Swelling on the Superconducting Characteristics in Electron-Doped beta-ZrNCl and HfNCl 2010 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashihiroshima, Hiroshima 739-8527, Japan" "J.Phys.Soc.Jpn, 79(2010)014707"
151899 JPS079014707 M=PC(=propylen carbonate). y is not given. basal plane spacing d = 22.2 A. Na0.28(PC)HfNCl Na0.28M1Hf1N1Cl1 Na 0.28 M 1 Hf 1 N 1 Cl 1 2010 K 25.3 24.6 24.6 Effect of Swelling on the Superconducting Characteristics in Electron-Doped beta-ZrNCl and HfNCl 2010 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashihiroshima, Hiroshima 739-8527, Japan" "J.Phys.Soc.Jpn, 79(2010)014707"
151900 JPS079014707 M=THF(=tetrahydrofuran). y not given(maybe 0.3). basal plane spacing d = 18.7 A. Li0.50(THF)yHfNCl Li0.5M0.3Hf1N1Cl1 Li 0.5 M 0.3 Hf 1 N 1 Cl 1 2010 K 25.5 25.5 25.5 MHC151900 Effect of Swelling on the Superconducting Characteristics in Electron-Doped beta-ZrNCl and HfNCl 2010 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashihiroshima, Hiroshima 739-8527, Japan" "J.Phys.Soc.Jpn, 79(2010)014707"
151901 PRB081094511 P-induced SC. Tc(4.0 GPa) = 1.8 K. The values of Tc and Tn are measured by SP-heat and SUS at P=5.6 GPa. Sr2Ca12Cu24O41 Sr2Ca12Cu24O41 Sr 2 Ca 12 Cu 24 O 41 3 2010 5.05 LAD K 9.1 0 9.1 PH151901 TSFZ method Coexistence of bulk superconducting and antiferromagnetic order in the spin-ladder system Sr2Ca12Cu24O41 2010 "INAC/SPSMS, CEA-Grenoble, 17 rue des Martyrs, 38054 Grenoble, France" "Phys.Rev.B, 81(2010)094511"
151902 PHC2720335 YBa2Cu4O8 Y1Ba2Cu4O8 Y 1 Ba 2 Cu 4 O 8 1 1996 3 Y124 A 3.8305 3.8659 27.19 K 78.1 79.8 3 79.8 mOhm.cm 0.89 "Y2O3,Ba(NO3)2,CuO,Co3O4,NiO" "mixture - preheat(700C,30min) - press to pellet - heat(815C,24h) - cool (4C/min). process repeated several times." Comparison of Co and Ni doping at copper sites in Y-124 high temperature superconductor 1996 "National Physical Laboratory, Dr.K.S. Krishnan Marg, New Delhi-110002, India" "Physica.C,272(1996)335-341"
151903 PHC2720335 "YBa2(Cu,Co)4O8" Y1Ba2Cu3.96Co0.04O8 Y 1 Ba 2 Cu 3.96 Co 0.04 O 8 1 1996 3 Y124 A 3.8393 3.8612 27.19 K 57.9 57.9 "Y2O3,Ba(NO3)2,CuO,Co3O4,NiO" "mixture - preheat(700C,30min) - press to pellet - heat(815C,24h) - cool (4C/min). process repeated several times." Comparison of Co and Ni doping at copper sites in Y-124 high temperature superconductor 1996 "National Physical Laboratory, Dr.K.S. Krishnan Marg, New Delhi-110002, India" "Physica.C,272(1996)335-341"
151904 PHC2720335 dTc/dx = 21 K/at%Co "YBa2(Cu,Co)4O8" Y1Ba2Cu3.92Co0.08O8 Y 1 Ba 2 Cu 3.92 Co 0.08 O 8 1 1996 3 Y124 A 3.8471 3.8561 27.19 K 36.2 36.2 "Y2O3,Ba(NO3)2,CuO,Co3O4,NiO" "mixture - preheat(700C,30min) - press to pellet - heat(815C,24h) - cool (4C/min). process repeated several times." Comparison of Co and Ni doping at copper sites in Y-124 high temperature superconductor 1996 "National Physical Laboratory, Dr.K.S. Krishnan Marg, New Delhi-110002, India" "Physica.C,272(1996)335-341"
151905 PHC2720335 "YBa2(Cu,Co)4O8" Y1Ba2Cu3.88Co0.12O8 Y 1 Ba 2 Cu 3.88 Co 0.12 O 8 1 1996 2 Y124 A 3.8517 27.19 K 16.9 16.9 "Y2O3,Ba(NO3)2,CuO,Co3O4,NiO" "mixture - preheat(700C,30min) - press to pellet - heat(815C,24h) - cool (4C/min). process repeated several times." Comparison of Co and Ni doping at copper sites in Y-124 high temperature superconductor 1996 "National Physical Laboratory, Dr.K.S. Krishnan Marg, New Delhi-110002, India" "Physica.C,272(1996)335-341"
151906 PHC2720335 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.96Ni0.04O8 Y 1 Ba 2 Cu 3.96 Ni 0.04 O 8 1 1996 3 Y124 A 3.832 3.8648 27.191 K 62.4 62.4 "Y2O3,Ba(NO3)2,CuO,Co3O4,NiO" "mixture - preheat(700C,30min) - press to pellet - heat(815C,24h) - cool (4C/min). process repeated several times." Comparison of Co and Ni doping at copper sites in Y-124 high temperature superconductor 1996 "National Physical Laboratory, Dr.K.S. Krishnan Marg, New Delhi-110002, India" "Physica.C,272(1996)335-341"
151907 PHC2720335 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.92Ni0.08O8 Y 1 Ba 2 Cu 3.92 Ni 0.08 O 8 1 1996 3 Y124 A 3.831 3.8649 27.191 K 44.6 44.6 "Y2O3,Ba(NO3)2,CuO,Co3O4,NiO" "mixture - preheat(700C,30min) - press to pellet - heat(815C,24h) - cool (4C/min). process repeated several times." Comparison of Co and Ni doping at copper sites in Y-124 high temperature superconductor 1996 "National Physical Laboratory, Dr.K.S. Krishnan Marg, New Delhi-110002, India" "Physica.C,272(1996)335-341"
151908 PHC2720335 "YBa2(Cu,Ni)4O8" Y1Ba2Cu3.88Ni0.12O8 Y 1 Ba 2 Cu 3.88 Ni 0.12 O 8 1 1996 3 Y124 A 3.831 3.8556 27.191 K 28.5 28.5 "Y2O3,Ba(NO3)2,CuO,Co3O4,NiO" "mixture - preheat(700C,30min) - press to pellet - heat(815C,24h) - cool (4C/min). process repeated several times." Comparison of Co and Ni doping at copper sites in Y-124 high temperature superconductor 1996 "National Physical Laboratory, Dr.K.S. Krishnan Marg, New Delhi-110002, India" "Physica.C,272(1996)335-341"
151909 PRB081094524 RRR = 0.387. T = 200K. TiSe2 Ti1Se2 Ti 1 Se 2 2010 TX2 3.5382 6.01 1H-TiSe2 K 0.3 "Pd,Ti,Se powder." "mixture - heat(650C,overnight) - Q - ANN(650C,1d) - Q to RT" Multiple electronic transitions and superconductivity in PdxTiSe2 2010 "Department of Physics and Astronomy, Rice University, Houston, Texas 77005, USA" "Phys.Rev.B, 81(2010)094524"
151910 PRB081094524 Pd-intercalated to TiSe2 layers. RRR = 2.20 PdxTiSe2 Pd0.11Ti1Se2 Pd 0.11 Ti 1 Se 2 2010 TX2 3.5468 6.0339 1H-TiSe2 K 1.82 1.82 "Pd,Ti,Se powder." "mixture - heat(650C,overnight) - Q - ANN(650C,1d) - Q to RT" Multiple electronic transitions and superconductivity in PdxTiSe2 2010 "Department of Physics and Astronomy, Rice University, Houston, Texas 77005, USA" "Phys.Rev.B, 81(2010)094524"
151911 PRB081094524 Pd-intercalated to TiSe2 layers. RRR = 2.09 PdxTiSe2 Pd0.12Ti1Se2 Pd 0.12 Ti 1 Se 2 2010 TX2 3.5473 6.0337 1H-TiSe2 K 1.93 1.93 mJ/mol.K2 3.31 "Pd,Ti,Se powder." "mixture - heat(650C,overnight) - Q - ANN(650C,1d) - Q to RT" Multiple electronic transitions and superconductivity in PdxTiSe2 2010 "Department of Physics and Astronomy, Rice University, Houston, Texas 77005, USA" "Phys.Rev.B, 81(2010)094524"
151912 PRB081094524 Pd-intercalated to TiSe2 layers. RRR = 0.58. T = 158 K. PdxTiSe2 Pd0.08Ti1Se2 Pd 0.08 Ti 1 Se 2 2010 TX2 3.543 6.024 1H-TiSe2 K 0.3 mJ/mol.K2 2.03 "Pd,Ti,Se powder." "mixture - heat(650C,overnight) - Q - ANN(650C,1d) - Q to RT" Multiple electronic transitions and superconductivity in PdxTiSe2 2010 "Department of Physics and Astronomy, Rice University, Houston, Texas 77005, USA" "Phys.Rev.B, 81(2010)094524"
151913 PRB081094524 Pd-intercalated to TiSe2 layers. RRR = 1.95 PdxTiSe2 Pd0.14Ti1Se2 Pd 0.14 Ti 1 Se 2 2010 TX2 3.5516 6.0434 1H-TiSe2 K 0.3 mJ/mol.K2 2.8 "Pd,Ti,Se powder." "mixture - heat(650C,overnight) - Q - ANN(650C,1d) - Q to RT" Multiple electronic transitions and superconductivity in PdxTiSe2 2010 "Department of Physics and Astronomy, Rice University, Houston, Texas 77005, USA" "Phys.Rev.B, 81(2010)094524"
151914 PRB081094524 Pd-intercalated to TiSe2 layers. RRR = 1.49 PdxTiSe2 Pd0.1Ti1Se2 Pd 0.1 Ti 1 Se 2 2010 TX2 3.5449 6.0281 1H-TiSe2 K 0.3 mJ/mol.K2 3.61 "Pd,Ti,Se powder." "mixture - heat(650C,overnight) - Q - ANN(650C,1d) - Q to RT" Multiple electronic transitions and superconductivity in PdxTiSe2 2010 "Department of Physics and Astronomy, Rice University, Houston, Texas 77005, USA" "Phys.Rev.B, 81(2010)094524"
151915 PRB081094520 "nominal: BaFe1.7Co0.3As2. cleaved sample: d = 25 micron-m along c-axis. ab-plane thermal conductivity measured for T > 80 mK, H < 14.5 T." "Ba(Fe,Co)2As2" Ba1Fe1.73Co0.27As2 Ba 1 Fe 1.73 Co 0.27 As 2 3 2010 AB2C2 ThCr2Si2 K 8.1 8.1 T "resistivity, R(on),parabolic approx," 17 mOhm.cm 0.0648 self-flux method Thermal conductivity of overdoped BaFe1.73Co0.27As2 single crystal: Evidence for nodeless multiple superconducting gaps and interband interactions 2010 "Department of Physics, Surface Physics Laboratory (National Key Laboratory), and Laboratory of Advanced Materials, Fudan University, Shanghai 200433, China" "Phys.Rev.B, 81(2010)094520"
151916 PRB081104525 nt SC. Tn = 140 K. tetra-to-ortho transition at 125 K. BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 1 2010 140 AB2C2 ThCr2Si2 A 3.9609 13.017 K 0 "two-step solid state reaction. mixture - pellet- -sealed in silica tube- -heat(900C,30h) - slow cool to RT" Superconductivity induced by doping platinum in BaFe2As2 2010 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 81(2010)104525"
151917 PRB081104525 "Ba(Fe,Pt)2As2" Ba1Fe1.98Pt0.02As2 Ba 1 Fe 1.98 Pt 0.02 As 2 1 2010 AB2C2 ThCr2Si2 A 3.9647 13.01 K 0 0 0 "two-step solid state reaction. mixture - pellet- -sealed in silica tube- -heat(900C,30h) - slow cool to RT" Superconductivity induced by doping platinum in BaFe2As2 2010 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 81(2010)104525"
151918 PRB081104525 "Ba(Fe,Pt)2As2" Ba1Fe1.9Pt0.1As2 Ba 1 Fe 1.9 Pt 0.1 As 2 1 2010 AB2C2 ThCr2Si2 A 3.9688 12.986 K 25.2 25.2 T "resistivity, 0.9Rn, WHH" 93 T/K "resistivity, 0.9Rn" 5.4 MHC151918 "two-step solid state reaction. mixture - pellet- -sealed in silica tube- -heat(900C,30h) - slow cool to RT" Superconductivity induced by doping platinum in BaFe2As2 2010 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 81(2010)104525"
151919 PRB081104525 "Ba(Fe,Pt)2As2" Ba1Fe1.85Pt0.15As2 Ba 1 Fe 1.85 Pt 0.15 As 2 1 2010 AB2C2 ThCr2Si2 A 3.9745 12.96 K 23.4 23.4 "two-step solid state reaction. mixture - pellet- -sealed in silica tube- -heat(900C,30h) - slow cool to RT" Superconductivity induced by doping platinum in BaFe2As2 2010 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 81(2010)104525"
151920 PRB081104525 "Ba(Fe,Pt)2As2" Ba1Fe1.75Pt0.25As2 Ba 1 Fe 1.75 Pt 0.25 As 2 1 2010 AB2C2 ThCr2Si2 A 3.9819 12.95 K 21.1 21.1 "two-step solid state reaction. mixture - pellet- -sealed in silica tube- -heat(900C,30h) - slow cool to RT" Superconductivity induced by doping platinum in BaFe2As2 2010 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 81(2010)104525"
151921 PRB081094115 "structural data at 300K. At 2K, a = 3.8312, b = 3.7830, c = 6.2643 beta = 89.17 degree. tetra-mono transformation at 72.5 K." FeTe Fe1.05Te1 Fe 1.05 Te 1 2010 72.5 P4/nmm A 3.8219 6.2851 K 2 "two-step solid state reaction. mixture - sealed in Pyrex (400-450C,15-20h) - pellet - heat(800C,7-8days)" From antiferromagnetism to superconductivity in Fe1+yTe1-xSex (0 =< x =< 0.20): Neutron powder diffraction analysis 2010 "CNR-SPIN, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 81(2010)094115"
151922 PRB081094115 Fe-content not given. tetra-mono transformation at 62.5 K "Fe(Te,Se)" Fe1Te0.975Se0.025 Fe 1 Te 0.975 Se 0.025 2010 62.5 K 2 "two-step solid state reaction. mixture - sealed in Pyrex (400-450C,15-20h) - pellet - heat(800C,7-8days)" From antiferromagnetism to superconductivity in Fe1+yTe1-xSex (0 =< x =< 0.20): Neutron powder diffraction analysis 2010 "CNR-SPIN, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 81(2010)094115"
151923 PRB081094115 "structural data at 300K. At 2K, a = 3.8216, b = 3.7893, c = 6.2331 beta = 89.37 degree. tetra-mono transformation at 50.0 K" "Fe(Te,Se)" Fe1.04Te0.95Se0.05 Fe 1.04 Te 0.95 Se 0.05 2010 50 A 3.8184 6.2617 K 11 11 "two-step solid state reaction. mixture - sealed in Pyrex (400-450C,15-20h) - pellet - heat(800C,7-8days)" From antiferromagnetism to superconductivity in Fe1+yTe1-xSex (0 =< x =< 0.20): Neutron powder diffraction analysis 2010 "CNR-SPIN, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 81(2010)094115"
151924 PRB081094115 Fe-content not given. tetra-mono transformation at 43.0 K "Fe(Te,Se)" Fe1Te0.925Se0.075 Fe 1 Te 0.925 Se 0.075 2010 43 K 11.5 11.5 "two-step solid state reaction. mixture - sealed in Pyrex (400-450C,15-20h) - pellet - heat(800C,7-8days)" From antiferromagnetism to superconductivity in Fe1+yTe1-xSex (0 =< x =< 0.20): Neutron powder diffraction analysis 2010 "CNR-SPIN, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 81(2010)094115"
151925 PRB081094115 "structural data at 300K. At 2K, a = 3.8118, c = 6.1898." "Fe(Te,Se)" Fe1.03Te0.9Se0.1 Fe 1.03 Te 0.9 Se 0.1 2010 A 3.816 6.2381 K 11.9 11.9 "two-step solid state reaction. mixture - sealed in Pyrex (400-450C,15-20h) - pellet - heat(800C,7-8days)" From antiferromagnetism to superconductivity in Fe1+yTe1-xSex (0 =< x =< 0.20): Neutron powder diffraction analysis 2010 "CNR-SPIN, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 81(2010)094115"
151926 PRB081094115 "structural data at 300K. At 2K, a = 3.8106, c = 6.1606." "Fe(Te,Se)" Fe1.02Te0.85Se0.15 Fe 1.02 Te 0.85 Se 0.15 2010 A 3.8133 6.2116 K 12.7 12.7 "two-step solid state reaction. mixture - sealed in Pyrex (400-450C,15-20h) - pellet - heat(800C,7-8days)" From antiferromagnetism to superconductivity in Fe1+yTe1-xSex (0 =< x =< 0.20): Neutron powder diffraction analysis 2010 "CNR-SPIN, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 81(2010)094115"
151927 PRB081094115 "structural data at 300K. At 2K, a = 3.8089, c = 6.1316." "Fe(Te,Se)" Fe1.02Te0.8Se0.2 Fe 1.02 Te 0.8 Se 0.2 2010 A 3.8114 6.1843 K 13.6 13.6 "two-step solid state reaction. mixture - sealed in Pyrex (400-450C,15-20h) - pellet - heat(800C,7-8days)" From antiferromagnetism to superconductivity in Fe1+yTe1-xSex (0 =< x =< 0.20): Neutron powder diffraction analysis 2010 "CNR-SPIN, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 81(2010)094115"
151928 PRB081094115 Fe-content not given "Fe(Te,Se)" Fe1Te0.5Se0.5 Fe 1 Te 0.5 Se 0.5 2010 K 15 15 "two-step solid state reaction. mixture - sealed in Pyrex (400-450C,15-20h) - pellet - heat(800C,7-8days)" From antiferromagnetism to superconductivity in Fe1+yTe1-xSex (0 =< x =< 0.20): Neutron powder diffraction analysis 2010 "CNR-SPIN, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 81(2010)094115"
151929 PRB081104522 "gaps measured by STM using in situ cleaved grains. two gaps: large gap in DB, small gap = 0.9 meV (2d/kTc = 2.56)" Ba8Si46 Ba8Si46 Ba 8 Si 46 1 2010 clathrate K 8.1 8.1 meV 1.3 3.7 1 synthesized at high-P and high-T conditions Two energy gaps in the tunneling-conductance spectra of the superconducting clathrate Ba8Si46 2010 "Institut des Nanosciences de Paris, Universite Pierre et Marie Curie-Paris 6, CNRS-UMR 7588, 4 place Jussieu, 75252 Paris, Franc" "Phys.Rev.B, 81(2010)104522"
151930 PRB081134521 bars cleaved from crystals for transport measurements. I//[100]. RRR = 2.32. (dC/gamma*Tc) = 1.214. "(Pb,Tl)Te" Pb0.99Tl0.01Te1 Pb 0.99 Tl 0.01 Te 1 3 2010 K 1.3 1.3 MSP151930 mJ/mol.K2 0.504 n/cm3 9.14E+19 vapor transport method Correlation of anomalous normal state properties with superconductivity in Pb1-x-yTlxInyTe 2010 "Stanford Institute for Materials and Energy Sciences, SLAC National Accelerator Laboratory, 2575 Sand Hill Road, Menlo Park, California 94025, USA" "Phys.Rev.B, 81(2010)134521"
151931 PRB081134521 bars cleaved from crystals for transport measurements. I//[100]. RRR = 2.53. (dC/gamma*Tc) = 1.119. "(Pb,Tl,In)Te" Pb0.985Tl0.01In0.005Te1 Pb 0.985 Tl 0.01 In 0.005 Te 1 3 2010 K 0.954 0.954 mJ/mol.K2 0.493 n/cm3 7.19E+19 vapor transport method Correlation of anomalous normal state properties with superconductivity in Pb1-x-yTlxInyTe 2010 "Stanford Institute for Materials and Energy Sciences, SLAC National Accelerator Laboratory, 2575 Sand Hill Road, Menlo Park, California 94025, USA" "Phys.Rev.B, 81(2010)134521"
151932 PRB081134521 bars cleaved from crystals for transport measurements. I//[100]. RRR = 2.58. (dC/gamma*Tc) = 0.656. "(Pb,Tl,In)Te" Pb0.982Tl0.01In0.008Te1 Pb 0.982 Tl 0.01 In 0.008 Te 1 3 2010 K 0.818 0.818 mJ/mol.K2 0.497 n/cm3 7.34E+19 vapor transport method Correlation of anomalous normal state properties with superconductivity in Pb1-x-yTlxInyTe 2010 "Stanford Institute for Materials and Energy Sciences, SLAC National Accelerator Laboratory, 2575 Sand Hill Road, Menlo Park, California 94025, USA" "Phys.Rev.B, 81(2010)134521"
151933 PRB081134521 not SC. bars cleaved from crystals for transport measurements. I//[100]. RRR = 4.47. "(Pb,Tl,In)Te" Pb0.978Tl0.01In0.012Te1 Pb 0.978 Tl 0.01 In 0.012 Te 1 3 2010 K 0.05 mJ/mol.K2 0.291 n/cm3 2.90E+18 vapor transport method Correlation of anomalous normal state properties with superconductivity in Pb1-x-yTlxInyTe 2010 "Stanford Institute for Materials and Energy Sciences, SLAC National Accelerator Laboratory, 2575 Sand Hill Road, Menlo Park, California 94025, USA" "Phys.Rev.B, 81(2010)134521"
151934 PRB081134521 not SC. bars cleaved from crystals for transport measurements. I//[100]. RRR = 8.26. "(Pb,Tl,In)Te" Pb0.969Tl0.01In0.021Te1 Pb 0.969 Tl 0.01 In 0.021 Te 1 3 2010 K 0.05 mJ/mol.K2 0.135 n/cm3 2.20E+18 vapor transport method Correlation of anomalous normal state properties with superconductivity in Pb1-x-yTlxInyTe 2010 "Stanford Institute for Materials and Energy Sciences, SLAC National Accelerator Laboratory, 2575 Sand Hill Road, Menlo Park, California 94025, USA" "Phys.Rev.B, 81(2010)134521"
151935 PRB081140507 P-induced SC. J//[100]. zero resistivity appears at P=24 GPa. SC properties at 24 GPa. Hc2 measured for H//[001]. CeIrGe3 Ce1Ir1Ge3 Ce 1 Ir 1 Ge 3 2010 8.3 BaNiSn3 K 1.61 0 1.61 MPH151935 T/K 16 MHC151935 "Sn-flux method. sample:Sn = 1:20. sealed in alumina crucible, heat(1000C,2d) - cool to 800C - slow cool to 600C(1C/h) - Q to RT" Pressure-induced superconductivity and large upper critical field in the noncentrosymmetric antiferromagnet CeIrGe3 2010 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "Phys.Rev.B, 81(2010)140507"
151936 PRB081140509 NQR measured LaONiAs La1Ni1As1O1 La 1 Ni 1 As 1 O 1 2010 oxypnictide K 2.98 2.98 "NiO,Ni,As,La,LaF3" "solid state reaction. mixture - pellet ANN(1150C,50h)" Evidence for a full energy gap in the nickel pnictide superconductor LaNiAsO1-xFx from 75As nuclear quadrupole resonance 2010 "1Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 81(2010)140509"
151937 PRB081140509 NQR measured "La(O,F)NiAs" La1Ni1As1F0.06O0.94 La 1 Ni 1 As 1 F 0.06 O 0.94 2010 oxypnictide K 3.64 3.64 "NiO,Ni,As,La,LaF3" "solid state reaction. mixture - pellet ANN(1150C,50h)" Evidence for a full energy gap in the nickel pnictide superconductor LaNiAsO1-xFx from 75As nuclear quadrupole resonance 2010 "1Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 81(2010)140509"
151938 PRB081140509 NQR measured "La(O,F)NiAs" La1Ni1As1F0.1O0.9 La 1 Ni 1 As 1 F 0.1 O 0.9 2010 oxypnictide K 4 4 3.2 "NiO,Ni,As,La,LaF3" "solid state reaction. mixture - pellet ANN(1150C,50h)" Evidence for a full energy gap in the nickel pnictide superconductor LaNiAsO1-xFx from 75As nuclear quadrupole resonance 2010 "1Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 81(2010)140509"
151939 PRB081140509 NQR measured "La(O,F)NiAs" La1Ni1As1F0.12O0.88 La 1 Ni 1 As 1 F 0.12 O 0.88 2010 oxypnictide K 3.59 3.59 3.1 "NiO,Ni,As,La,LaF3" "solid state reaction. mixture - pellet ANN(1150C,50h)" Evidence for a full energy gap in the nickel pnictide superconductor LaNiAsO1-xFx from 75As nuclear quadrupole resonance 2010 "1Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 81(2010)140509"
151940 PRB081144513 FeSe0.88 Fe1Se0.88 Fe 1 Se 0.88 2010 K 9.84 9.84 Magnetic fluctuations in FeSe1-z and Cu-doped FeSe1-z : 77Se NMR experiments 2010 "Department of Electrophysics, National Chiao Tung University, Hsinchu 30010, Taiwan" "Phys.Rev.B, 81(2010)144513"
151941 PRB081144513 "(Fe,Cu)Se0.88" Fe0.99Cu0.01Se0.88 Fe 0.99 Cu 0.01 Se 0.88 2010 K 5.64 5.64 Magnetic fluctuations in FeSe1-z and Cu-doped FeSe1-z : 77Se NMR experiments 2010 "Department of Electrophysics, National Chiao Tung University, Hsinchu 30010, Taiwan" "Phys.Rev.B, 81(2010)144513"
151942 PRB081144513 "(Fe,Cu)Se0.88" Fe0.98Cu0.02Se0.88 Fe 0.98 Cu 0.02 Se 0.88 2010 K 4 4 Magnetic fluctuations in FeSe1-z and Cu-doped FeSe1-z : 77Se NMR experiments 2010 "Department of Electrophysics, National Chiao Tung University, Hsinchu 30010, Taiwan" "Phys.Rev.B, 81(2010)144513"
151943 PRB081144513 "(Fe,Cu)Se0.88" Fe0.97Cu0.03Se0.88 Fe 0.97 Cu 0.03 Se 0.88 2010 K 1.6 Magnetic fluctuations in FeSe1-z and Cu-doped FeSe1-z : 77Se NMR experiments 2010 "Department of Electrophysics, National Chiao Tung University, Hsinchu 30010, Taiwan" "Phys.Rev.B, 81(2010)144513"
151944 SSC1501108 Two phases: Ca4(PO4)2O and CaO from XRD. Not clear which phase is SC. Samples were prepared by shock-wave pressure upto 65 GPa. Tc from SQUID. CaO+Ca4(PO4)2O Ca5P2O10 Ca 5 P 2 O 10 2 2010 K 50 50 "Ca(4N, grain size:200micron) : Ca3(PO4)2 = 1:1. pelletized - pressure(65 GPa) by shock wave. samples hold in Liq.N2." Superconductivity at 50 K in a mixed-phase Ca P O compound system treated by shock-wave pressure up to 65 GPa 2010 "Institute of Solid State Physics, Russian Academy of Sciences, Chernogolovka, Moscow District, 142432, Russia" "Solid State Commun., 150(2010)1108"
151945 MAT09074001 beta-FeSe type FeSe0.85 Fe1Se0.85 Fe 1 Se 0.85 2009 PbO K 10.6 10.6 "See Physica C, 469(2009)340" Structural phase transition in TmxFe1-xSe0.85 (Tm = Mn and Cu) and its relation to superconductivity 2009 cond-mat/0907.4001
151946 MAT09074001 beta-FeSe type "(Cu,Fe)Se0.85" Cu0.01Fe0.99Se0.85 Cu 0.01 Fe 0.99 Se 0.85 2009 PbO K 8.6 8.6 "See Physica C, 469(2009)340" Structural phase transition in TmxFe1-xSe0.85 (Tm = Mn and Cu) and its relation to superconductivity 2009 cond-mat/0907.4001
151947 MAT09074001 beta-FeSe type "(Cu,Fe)Se0.85" Cu0.02Fe0.98Se0.85 Cu 0.02 Fe 0.98 Se 0.85 2009 PbO K 4.1 4.1 "See Physica C, 469(2009)340" Structural phase transition in TmxFe1-xSe0.85 (Tm = Mn and Cu) and its relation to superconductivity 2009 cond-mat/0907.4001
151948 MAT09074001 beta-FeSe type "(Mn,Fe)Se0.85" Mn0.1Fe0.9Se0.85 Mn 0.1 Fe 0.9 Se 0.85 2009 PbO K 11 11 "See Physica C, 469(2009)340" Structural phase transition in TmxFe1-xSe0.85 (Tm = Mn and Cu) and its relation to superconductivity 2009 cond-mat/0907.4001
151949 MAT09074001 beta-FeSe type "(Mn,Fe)Se0.85" Mn0.2Fe0.8Se0.85 Mn 0.2 Fe 0.8 Se 0.85 2009 PbO K 11.1 11.1 "See Physica C, 469(2009)340" Structural phase transition in TmxFe1-xSe0.85 (Tm = Mn and Cu) and its relation to superconductivity 2009 cond-mat/0907.4001
151950 MAT09074001 beta-FeSe type "(Mn,Fe)Se0.85" Mn0.3Fe0.7Se0.85 Mn 0.3 Fe 0.7 Se 0.85 2009 PbO K 9.7 9.7 "See Physica C, 469(2009)340" Structural phase transition in TmxFe1-xSe0.85 (Tm = Mn and Cu) and its relation to superconductivity 2009 cond-mat/0907.4001
151951 PHC4690340 FeSe0.85 Fe1Se0.85 Fe 1 Se 0.85 2009 PbO K 10 10 "(powder mixture) - pellet - heat(600-650C, 20h) - reground - pellet - SIN(650-700C, 20h)" The development of the superconducting PbO-type beta-FeSe and related compounds 2009 "Institute of Physics, Academia Sinica, Nankang, Taipei 115, Taiwan" "Physica C, 469(2009)340"
151952 PHC4690340 "(Al,Fe)Se0.85" Al0.1Fe0.9Se0.85 Al 0.1 Fe 0.9 Se 0.85 2009 PbO K 8.5 8.5 "(powder mixture) - pellet - heat(600-650C, 20h) - reground - pellet - SIN(650-700C, 20h)" The development of the superconducting PbO-type beta-FeSe and related compounds 2009 "Institute of Physics, Academia Sinica, Nankang, Taipei 115, Taiwan" "Physica C, 469(2009)340"
151953 PHC4690340 "(Al,Fe)Se0.85" Al0.25Fe0.75Se0.85 Al 0.25 Fe 0.75 Se 0.85 2009 PbO K 8.5 8.5 "(powder mixture) - pellet - heat(600-650C, 20h) - reground - pellet - SIN(650-700C, 20h)" The development of the superconducting PbO-type beta-FeSe and related compounds 2009 "Institute of Physics, Academia Sinica, Nankang, Taipei 115, Taiwan" "Physica C, 469(2009)340"
151954 PHC4690340 "(Ga,Fe)Se0.85" Ga0.1Fe0.9Se0.85 Ga 0.1 Fe 0.9 Se 0.85 2009 PbO K 6.8 6.8 "(powder mixture) - pellet - heat(600-650C, 20h) - reground - pellet - SIN(650-700C, 20h)" The development of the superconducting PbO-type beta-FeSe and related compounds 2009 "Institute of Physics, Academia Sinica, Nankang, Taipei 115, Taiwan" "Physica C, 469(2009)340"
151955 PHC4690340 "(Ga,Fe)Se0.85" Ga0.25Fe0.75Se0.85 Ga 0.25 Fe 0.75 Se 0.85 2009 PbO K 6.8 6.8 "(powder mixture) - pellet - heat(600-650C, 20h) - reground - pellet - SIN(650-700C, 20h)" The development of the superconducting PbO-type beta-FeSe and related compounds 2009 "Institute of Physics, Academia Sinica, Nankang, Taipei 115, Taiwan" "Physica C, 469(2009)340"
151956 PHC4690340 "(Sm,Fe)Se0.85" Sm0.1Fe0.9Se0.85 Sm 0.1 Fe 0.9 Se 0.85 2009 PbO K 10.6 10.6 "(powder mixture) - pellet - heat(600-650C, 20h) - reground - pellet - SIN(650-700C, 20h)" The development of the superconducting PbO-type beta-FeSe and related compounds 2009 "Institute of Physics, Academia Sinica, Nankang, Taipei 115, Taiwan" "Physica C, 469(2009)340"
151957 PHC4690340 "(Sm,Fe)Se0.85" Sm0.25Fe0.75Se0.85 Sm 0.25 Fe 0.75 Se 0.85 2009 PbO K 9.2 9.2 "(powder mixture) - pellet - heat(600-650C, 20h) - reground - pellet - SIN(650-700C, 20h)" The development of the superconducting PbO-type beta-FeSe and related compounds 2009 "Institute of Physics, Academia Sinica, Nankang, Taipei 115, Taiwan" "Physica C, 469(2009)340"
151958 PHC4690894 "(Pr,Sr)OFeAs" Pr0.8Sr0.2Fe1As1O1 Pr 0.8 Sr 0.2 Fe 1 As 1 O 1 2009 ABCD oxypnictide A 3.9926 8.6629 K 15.8 15.8 "1st step: LaAs(PrAs), SrAs were prepared by solid state reaction. Then, mixture(LaAs(PrAs),SrAs,Fe powder,Fe2O3) - pellet - heat(1150C,60h, in quartz tube with 20%Ar)" "Superconductivity in the hole-doped oxy-arsenide RE1-xSrxFeAsO (RE = La, Pr)" 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, People's Republic of China" "Physica C, 469(2009)894"
151960 PHC4690340 "(Ba,Fe)Se0.85" Ba0.1Fe0.9Se0.85 Ba 0.1 Fe 0.9 Se 0.85 2009 PbO K 10.6 10.6 "(powder mixture) - pellet - heat(600-650C, 20h) - reground - pellet - SIN(650-700C, 20h)" The development of the superconducting PbO-type beta-FeSe and related compounds 2009 "Institute of Physics, Academia Sinica, Nankang, Taipei 115, Taiwan" "Physica C, 469(2009)340"
151962 PHC4690340 "Fe(Se,Te)" Fe1Se0.5Te0.5 Fe 1 Se 0.5 Te 0.5 2009 PbO K 13.8 13.8 T "resistivity, 0.9Rn" 72.5 MHC151962 "(powder mixture) - pellet - heat(600-650C, 20h) - reground - pellet - SIN(650-700C, 20h)" The development of the superconducting PbO-type beta-FeSe and related compounds 2009 "Institute of Physics, Academia Sinica, Nankang, Taipei 115, Taiwan" "Physica C, 469(2009)340"
151963 SPS0230817 carrier from Hall coeff. at 77K. "(Pb,Tl)Te" Pb0.99Tl0.01Te1 Pb 0.99 Tl 0.01 Te 1 1981 K 1.14 1.14 n/cm3 7.50E+19 "powder metallurgy method. mixture - evacuated quartz ampoules - ANN(650C,100h)" Bulk superconductivity of doped lead telluride at 1.4 K 1981 "Sov.Phys.Solid State, 23(1981)817"
151964 SPS0230817 carrier from Hall coeff. at 77K. "(Pb,Tl)Te" Pb0.9875Tl0.0125Te1 Pb 0.9875 Tl 0.0125 Te 1 1981 K 1.35 1.35 n/cm3 8.60E+19 "powder metallurgy method. mixture - evacuated quartz ampoules - ANN(650C,100h)" Bulk superconductivity of doped lead telluride at 1.4 K 1981 "Sov.Phys.Solid State, 23(1981)817"
151965 SPS0230817 carrier from Hall coeff. at 77K. G-L parameter = 80. "(Pb,Tl)Te" Pb0.985Tl0.015Te1 Pb 0.985 Tl 0.015 Te 1 1981 K 1.4 1.4 Oe 0.6 1 T 0.5 0.25 1 132 SP-heat n/cm3 9.60E+19 "powder metallurgy method. mixture - evacuated quartz ampoules - ANN(650C,100h)" Bulk superconductivity of doped lead telluride at 1.4 K 1981 "Sov.Phys.Solid State, 23(1981)817"
151966 PRB080184514 Tc defined as 0.9Rn. reentrant at 17 K due to magnetic order of Eu. R not zwro down to 4K.. Anisotropy(Hc2) = 30 at 17 K. "Eu(Fe,Co)2As2" Eu1Fe1.78Co0.22As2 Eu 1 Fe 1.78 Co 0.22 As 2 3 2009 AB2C2 ThCr2Si2 K 21 21 T "resistivity, linear extrapolation" 26 T/K resistivity 1.3 MHC151696 "self-flux method. (Eu:Fe1-xCoxAs=1:4) - alumina in quartz tube) - heat(1053K,10h) - heat(1398K,5h) - cool to 1223 K(2K/h)" Superconductivity and local-moment magnetism in Eu(Fe0.89Co0.11)2As2 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 80(2009)184514"
151980 SPS0241661 "(Pb,Tl,Na)Te" Pb0.99Tl0.005Na0.005Te1 Pb 0.99 Tl 0.005 Na 0.005 Te 1 1982 K 1.61 1.61 mJ/mol.K2 0.72 cm3/C 0.109 The nature of the superconducting state in PbTe doped with thallium 1982 "Sov.Phys.Solid State, 24(1982)1661"
151981 SPS0241661 "(Pb,Tl,Na)Te" Pb0.985Tl0.005Na0.01Te1 Pb 0.985 Tl 0.005 Na 0.01 Te 1 1982 K 1.38 1.38 mJ/mol.K2 0.37 cm3/C 0.128 The nature of the superconducting state in PbTe doped with thallium 1982 "Sov.Phys.Solid State, 24(1982)1661"
151982 SPS0241661 "(Pb,Tl,Na)Te" Pb0.987Tl0.0125Na0.005Te1 Pb 0.987 Tl 0.0125 Na 0.005 Te 1 1982 K 1.87 1.87 MTC151982 mJ/mol.K2 0.851 cm3/C 0.081 The nature of the superconducting state in PbTe doped with thallium 1982 "Sov.Phys.Solid State, 24(1982)1661"
151983 SPS0241661 "(Pb,Tl,Na)Te" Pb0.975Tl0.0125Na0.0125Te1 Pb 0.975 Tl 0.0125 Na 0.0125 Te 1 1982 K 1.71 1.71 mJ/mol.K2 0.486 cm3/C 0.118 The nature of the superconducting state in PbTe doped with thallium 1982 "Sov.Phys.Solid State, 24(1982)1661"
151984 PHC4700511 RRR = 4.5 "La(O,F)FeAs" La1Fe1As1F0.1O0.9 La 1 Fe 1 As 1 F 0.1 O 0.9 1 2010 ABCD oxypnictide A 4.028 8.72 ZrCuSiAs K 28 28 uV/K -31.4 TP151984 RH151984 "La,La2O3,Y2O3,LaF3,FeAs" "solid state reaction. mixture - sealed in evacuated silica ampoule - heat(900C,30h) - pelletized - wrapped in Ta foil - sealed in silica tube- -heat(1180C,30h)" Yttrium doped La1-xYxO0.9F0.1FeAs superconductors: Hall and thermopower studies 2010 "School of Physical Sciences, Jawaharlal Nehru University, New Delhi 110 067, India" "Physica C, 470(2010)511"
151985 PHC4700511 RRR = 1.5 "(La,Y)(O,F)FeAs" La0.9Y0.1Fe1As1F0.1O0.9 La 0.9 Y 0.1 Fe 1 As 1 F 0.1 O 0.9 1 2010 ABCD oxypnictide A 4.0269 8.718 ZrCuSiAs K 7 7 "La,La2O3,Y2O3,LaF3,FeAs" "solid state reaction. mixture - sealed in evacuated silica ampoule - heat(900C,30h) - pelletized - wrapped in Ta foil - sealed in silica tube- -heat(1180C,30h)" Yttrium doped La1-xYxO0.9F0.1FeAs superconductors: Hall and thermopower studies 2010 "School of Physical Sciences, Jawaharlal Nehru University, New Delhi 110 067, India" "Physica C, 470(2010)511"
151986 PHC4700511 RRR = 7.1 "(La,Y)(O,F)FeAs" La0.8Y0.2Fe1As1F0.1O0.9 La 0.8 Y 0.2 Fe 1 As 1 F 0.1 O 0.9 1 2010 ABCD oxypnictide A 4.02 8.7109 ZrCuSiAs K 32 32 uV/K -33.1 TP151986 "La,La2O3,Y2O3,LaF3,FeAs" "solid state reaction. mixture - sealed in evacuated silica ampoule - heat(900C,30h) - pelletized - wrapped in Ta foil - sealed in silica tube- -heat(1180C,30h)" Yttrium doped La1-xYxO0.9F0.1FeAs superconductors: Hall and thermopower studies 2010 "School of Physical Sciences, Jawaharlal Nehru University, New Delhi 110 067, India" "Physica C, 470(2010)511"
151987 PHC4700511 RRR = 17.2 "(La,Y)(O,F)FeAs" La0.7Y0.3Fe1As1F0.1O0.9 La 0.7 Y 0.3 Fe 1 As 1 F 0.1 O 0.9 1 2010 ABCD oxypnictide A 4.0159 8.7026 ZrCuSiAs K 34.8 34.8 T "resistivity, WHH" 60.5 T/K resistivity 2.51 HC151987 uV/K -30.3 TP151987 RH151987 n/cm3 7.10E+20 "La,La2O3,Y2O3,LaF3,FeAs" "solid state reaction. mixture - sealed in evacuated silica ampoule - heat(900C,30h) - pelletized - wrapped in Ta foil - sealed in silica tube- -heat(1180C,30h)" Yttrium doped La1-xYxO0.9F0.1FeAs superconductors: Hall and thermopower studies 2010 "School of Physical Sciences, Jawaharlal Nehru University, New Delhi 110 067, India" "Physica C, 470(2010)511"
151988 PHC4700511 "(La,Y)(O,F)FeAs" La0.5Y0.5Fe1As1F0.1O0.9 La 0.5 Y 0.5 Fe 1 As 1 F 0.1 O 0.9 1 2010 ABCD oxypnictide A 4.01 8.6901 ZrCuSiAs K 31.4 31.4 uV/K -22.1 TP151988 RH151988 n/cm3 1.10E+21 "La,La2O3,Y2O3,LaF3,FeAs" "solid state reaction. mixture - sealed in evacuated silica ampoule - heat(900C,30h) - pelletized - wrapped in Ta foil - sealed in silica tube- -heat(1180C,30h)" Yttrium doped La1-xYxO0.9F0.1FeAs superconductors: Hall and thermopower studies 2010 "School of Physical Sciences, Jawaharlal Nehru University, New Delhi 110 067, India" "Physica C, 470(2010)511"
151989 PRB081180511 Neel-T defined as a inflection point in R(T). Tc defined as R=0.1Rn and 0.9Rn. "CePt3(Si,Ge)" Ce1Pt3Si0.94Ge0.06 Ce 1 Pt 3 Si 0.94 Ge 0.06 2010 2.14 ABC3 CePt3B K 0.291 0.61 0.4505 MTC151989 Pair breaking by nonmagnetic impurities in the noncentrosymmetric superconductor CePt3Si 2010 "Max Planck Institute for Chemical Physics of Solids, D-01187 Dresden, Germany" "Phys.Rev.B, 81(2010)180511"
151990 PRB081180511 Neel-T defined as a inflection point in R(T). Tc defined as R=0.1Rn and 0.9Rn. CePt3Si Ce1Pt3Si1 Ce 1 Pt 3 Si 1 2010 2.25 ABC3 CePt3B K 0.696 0.8 0.748 MTC151990 Pair breaking by nonmagnetic impurities in the noncentrosymmetric superconductor CePt3Si 2010 "Max Planck Institute for Chemical Physics of Solids, D-01187 Dresden, Germany" "Phys.Rev.B, 81(2010)180511"
151991 PRB081180507 2 vol.% of Ce3Pt4In13. Pcr = 1 GPa. Tc(max) and SP-jump(max) at 3.5 GPa. QCP = 3.58 GPa. [gamma] and beta (=2.88 mJ/mol.K4) obtained by fitting for 12: Tc saturates at (1-y) < 0.65. For (1-y) = 0.65, Tc goes to zero." "(La,Y)O0.6FeAsO" La0.5Y0.5Fe1As1O0.6 La 0.5 Y 0.5 Fe 1 As 1 O 0.6 2008 oxypnictide P4/nmm A 3.995 8.6586 ZrCuSiAs-type K 22.5 39.3 37.9 39.3 "LaAs,YAs,Fe,Fe2O3" "High-P-synthesis. mixture - heat(1150C,2h,P=2GPa,in BN crucible)" Superconductivity at 43 K at ambient pressure in the iron-based layered compound La1-xYxFeAsOy 2008 "Nanoelectronics Research Institute (NeRI), National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Central 2, Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Phys.Rev.B, 78(2008)172503"
152014 P078172503 "(La,Y)O0.6FeAsO" La1Fe1As1O0.6 La 1 Fe 1 As 1 O 0.6 2008 oxypnictide P4/nmm A 4.0298 8.7292 ZrCuSiAs-type K 16.9 21.8 16.9 21.8 "LaAs,YAs,Fe,Fe2O3" "High-P-synthesis. mixture - heat(1150C,2h,P=2GPa,in BN crucible)" Superconductivity at 43 K at ambient pressure in the iron-based layered compound La1-xYxFeAsOy 2008 "Nanoelectronics Research Institute (NeRI), National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Central 2, Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Phys.Rev.B, 78(2008)172503"
152015 P078172504 lattice const. = at 24 K. RRR=11. Tc(SP) = 0.62 K. (dC/gamma*Tc) = 1.0. lattice term of SP (beta) = 0.67 mJ/mol.K4. Hc2//ab < Hc2//c. (Hc2//c)/(Hc2//ab) = 1.4. SrNi2As2 Sr1Ni2As2 Sr 1 Ni 2 As 2 3 2008 14 AB2C2 ThCr2Si2 I4/mmm 139 A 4.1374 10.188 K 0.66 0.66 MSP152015 mJ/mol.K2 8.7 SP-heat 224 mOhm.cm 0.007 "Pb-flux method. heat(1050C,in alumina crucible in sealed quartz tube) - slow cool (5C/h) to 600 C." Superconductivity in SrNi2As2 single crystals 2008 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 78(2008)172504"
152016 P078172504 not SC. lattice const. = at 24 K. magnetic order of Eu(2+) at 14 K (Curie-T). EuNi2As2 Eu1Ni2As2 Eu 1 Ni 2 As 2 3 2008 AB2C2 ThCr2Si2 I4/mmm 139 A 4.0964 10.029 K 0.4 Oe "resistivity, WHH" 150 210 MHC152015 A from Hc2 1477 1250 "Pb-flux method. heat(1050C,in alumina crucible in sealed quartz tube) - slow cool (5C/h) to 600 C." Superconductivity in SrNi2As2 single crystals 2008 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 78(2008)172504"
152017 P078140510 anisotropy = 4 from coherence length. "Nd(O,F)FeAs" Nd1Fe1As1F0.18O0.82 Nd 1 Fe 1 As 1 F 0.18 O 0.82 3 2008 oxypnictide ZrCuSiAs-type K 47 47 T "SP, WHH" 100 23 T/K SP-heat 3.1 0.72 HC152017 A from Hc2 3.7 0.9 NaCl flux method Calorimetric determination of the upper critical fields and anisotropy of NdFeAsO1-xFx single crystals 2008 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439, USA" "Phys.Rev.B, 78(2008)140510(R)"
152018 P078172505 "muon-SR measured. SC properties obtained by curve-fitting of relaxation rate. two gaps: higher one (written in DB), lower one (2d/kTc) = 2.73. effective mass = 18.7 m" Mo3Sb7 Mo3Sb7 Mo 3 Sb 7 2008 Ir3Ge7 K 2.2 2.2 A muon-SR 125 A muon-SR 6650 4.54 16 n/cm3 1.20E+21 "solid state reaction of Mo, Sb powders" Muon-spin-rotation study of the superconducting properties of Mo3Sb7 2008 "W. Trzebiatowski Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 1410, 50-950 Wroc aw, Poland" "Phys.Rev.B, 78(2008)172505"
152019 P077214515 LaOFeP La1Fe1P1O1 La 1 Fe 1 P 1 O 1 2008 oxypnictide A 3.962 8.511 K 5.5 5.5 "LaP,Fe2P,FeP,La2O3,LaF3" "mixture - heat(1200C,40h, in vac)" Electromagnetic properties and electronic structure of the iron-based layered superconductor LaFePO 2008 "ERATO-SORST, JST, in Frontier Research Center, Tokyo Institute of Technology, Mail Box S2-13,259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 77(2008)214515"
152020 P077214515 "La(O,F)FeP" La1Fe1P1F0.06O0.94 La 1 Fe 1 P 1 F 0.06 O 0.94 2008 oxypnictide A 3.957 8.503 K 7.1 7.1 "LaP,Fe2P,FeP,La2O3,LaF3" "mixture - heat(1200C,40h, in vac)" Electromagnetic properties and electronic structure of the iron-based layered superconductor LaFePO 2008 "ERATO-SORST, JST, in Frontier Research Center, Tokyo Institute of Technology, Mail Box S2-13,259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 77(2008)214515"
152021 P077214515 "(La,Ca)OFeP" La0.9Ca0.1Fe1P1O1 La 0.9 Ca 0.1 Fe 1 P 1 O 1 2008 oxypnictide A 3.961 8.516 K 5.67 5.67 "LaP,Fe2P,FeP,La2O3,LaF3" "mixture - heat(1200C,40h, in vac)" Electromagnetic properties and electronic structure of the iron-based layered superconductor LaFePO 2008 "ERATO-SORST, JST, in Frontier Research Center, Tokyo Institute of Technology, Mail Box S2-13,259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 77(2008)214515"
152022 P078184512 "SC appears for 18 < R(6 K) < 542 uOhm.cm, in a narrow region of lattice constants. moment = 0.37 myu-B/Sm" SmOFeP Sm1Fe1P1O1 Sm 1 Fe 1 P 1 O 1 1 2008 5 oxypnictide A 3.8807 8.2054 K 2 3 2.5 "Sm2O3,SmP,Fe2P,FeP" "mixture - heat(1200C, 40h)" Coexistence of superconductivity and antiferromagnetic ordering in the layered superconductor SmFePO 2008 "ERATO-SORST, JST, Frontier Research Center, Tokyo Institute of Technology, Mail Box S2-13, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 78(2008)184512"
152023 P078184506 (dC/gamma*Tc) = 1.41. thermodynamic Hc(0) = 44.6 mT. G-L = 23.5 Ni2ZrGa Ni2Zr1Ga1 Ni 2 Zr 1 Ga 1 2008 Heusler Fm3[-]m A 6.098 L2<1> K 2.87 2.94 2.8 2.87 Oe M-H curve 160 2 T resistive 1.48 T/K resistive 0.75 MHC152023 A 150 A 3500 3.53 14 MSP152023 mJ/mol.K2 17.3 SP-heat 300 SP-heat "arc-melting - ANN(1073K,2w) - Q to ice & water" Ni-based superconductor: Heusler compound ZrNi2Ga 2008 "Institut fur Anorganische und Analytische Chemie, Johannes Gutenberg-Universitat, 55099 Mainz, Germany" "Phys.Rev.B, 78(2008)184506"
152024 P078184506 "Ni2(Zr,Nb)Ga" Ni2Zr0.85Nb0.15Ga1 Ni 2 Zr 0.85 Nb 0.15 Ga 1 2008 Heusler Fm3[-]m A 6.074 L2<1> K 2.4 2.4 "arc-melting - ANN(1073K,2w) - Q to ice & water" Ni-based superconductor: Heusler compound ZrNi2Ga 2008 "Institut fur Anorganische und Analytische Chemie, Johannes Gutenberg-Universitat, 55099 Mainz, Germany" "Phys.Rev.B, 78(2008)184506"
152025 P078184506 "Ni2(Zr,Nb)Ga" Ni2Zr0.7Nb0.3Ga1 Ni 2 Zr 0.7 Nb 0.3 Ga 1 2008 Heusler Fm3[-]m A 6.037 L2<1> K 2.3 2.3 "arc-melting - ANN(1073K,2w) - Q to ice & water" Ni-based superconductor: Heusler compound ZrNi2Ga 2008 "Institut fur Anorganische und Analytische Chemie, Johannes Gutenberg-Universitat, 55099 Mainz, Germany" "Phys.Rev.B, 78(2008)184506"
152026 P078184506 "Ni2(Zr,Nb)Ga" Ni2Zr0.5Nb0.5Ga1 Ni 2 Zr 0.5 Nb 0.5 Ga 1 2008 Heusler Fm3[-]m A 5.99 L2<1> K 2 2 "arc-melting - ANN(1073K,2w) - Q to ice & water" Ni-based superconductor: Heusler compound ZrNi2Ga 2008 "Institut fur Anorganische und Analytische Chemie, Johannes Gutenberg-Universitat, 55099 Mainz, Germany" "Phys.Rev.B, 78(2008)184506"
152027 P078184506 "Ni2(Zr,Nb)Ga" Ni2Zr0.3Nb0.7Ga1 Ni 2 Zr 0.3 Nb 0.7 Ga 1 2008 Heusler Fm3[-]m A 5.972 L2<1> K 1.8 "arc-melting - ANN(1073K,2w) - Q to ice & water" Ni-based superconductor: Heusler compound ZrNi2Ga 2008 "Institut fur Anorganische und Analytische Chemie, Johannes Gutenberg-Universitat, 55099 Mainz, Germany" "Phys.Rev.B, 78(2008)184506"
152028 PHB2690154 SC not investigated. Einstein-T = 95.1 K. SP-heat analyzed using Debye and Einstein model. Ni2TiAl Ni2Ti1Al1 Ni 2 Ti 1 Al 1 1999 Heusler A 5.8948 L2<1> K mJ/mol.K2 13.38 SP-heat 411 SP-heat "arc-melting - ANN(800C, 5d, in vac)" "Specific heat and electronic structure of Heusler compounds Ni2TAl (T = Ti, Zr, Hf, V, Nb, Ta)" 1999 "IF-UFRGS, Porto Alegre, 91501-970, Brazil" "Physica B, 269(1999)154"
152029 PHB2690154 SC not investigated. Einstein-T = 76.6 K. SP-heat analyzed using Debye and Einstein model. Ni2ZrAl Ni2Zr1Al1 Ni 2 Zr 1 Al 1 1999 Heusler A 6.1147 L2<1> K mJ/mol.K2 13.67 SP-heat 278 SP-heat "arc-melting - ANN(800C, 5d, in vac)" "Specific heat and electronic structure of Heusler compounds Ni2TAl (T = Ti, Zr, Hf, V, Nb, Ta)" 1999 "IF-UFRGS, Porto Alegre, 91501-970, Brazil" "Physica B, 269(1999)154"
152030 PHB2690154 SC not investigated. Einstein-T = 70.4 K. SP-heat analyzed using Debye and Einstein model. Ni2HfAl Ni2Hf1Al1 Ni 2 Hf 1 Al 1 1999 Heusler A 6.081 L2<1> K mJ/mol.K2 10.91 SP-heat 288 SP-heat "arc-melting - ANN(800C, 5d, in vac)" "Specific heat and electronic structure of Heusler compounds Ni2TAl (T = Ti, Zr, Hf, V, Nb, Ta)" 1999 "IF-UFRGS, Porto Alegre, 91501-970, Brazil" "Physica B, 269(1999)154"
152031 PHB2690154 SC not investigated. Einstein-T = 81.3 K. SP-heat analyzed using Debye and Einstein model. Ni2VAl Ni2V1Al1 Ni 2 V 1 Al 1 1999 Heusler A 5.8031 L2<1> K mJ/mol.K2 14.18 SP-heat 358 SP-heat "arc-melting - ANN(800C, 5d, in vac)" "Specific heat and electronic structure of Heusler compounds Ni2TAl (T = Ti, Zr, Hf, V, Nb, Ta)" 1999 "IF-UFRGS, Porto Alegre, 91501-970, Brazil" "Physica B, 269(1999)154"
152032 PHB2690154 SC not investigated. Einstein-T = 75.1 K. SP-heat analyzed using Debye and Einstein model. Ni2NbAl Ni2Nb1Al1 Ni 2 Nb 1 Al 1 1999 Heusler A 5.9755 L2<1> K mJ/mol.K2 11.03 SP-heat 300 SP-heat "arc-melting - ANN(800C, 5d, in vac)" "Specific heat and electronic structure of Heusler compounds Ni2TAl (T = Ti, Zr, Hf, V, Nb, Ta)" 1999 "IF-UFRGS, Porto Alegre, 91501-970, Brazil" "Physica B, 269(1999)154"
152033 PHB2690154 SC not investigated. Einstein-T = 73.4 K. SP-heat analyzed using Debye and Einstein model. Ni2TaAl Ni2Ta1Al1 Ni 2 Ta 1 Al 1 1999 Heusler A 5.9608 L2<1> K mJ/mol.K2 10.06 SP-heat 301 SP-heat "arc-melting - ANN(800C, 5d, in vac)" "Specific heat and electronic structure of Heusler compounds Ni2TAl (T = Ti, Zr, Hf, V, Nb, Ta)" 1999 "IF-UFRGS, Porto Alegre, 91501-970, Brazil" "Physica B, 269(1999)154"
152034 JPS0541673 e-ph coupling = 0.52. (dC/gamma*Tc) = 1.8. Ni2NbAl Ni2Nb1Al1 Ni 2 Nb 1 Al 1 1985 Heusler A 5.969 L2<1> K 2.15 0.1 2.15 T 1.35 T/K 0.65 MHC152034 A 160 4 14 mJ/mol.K2 8 SP-heat 280 SP-heat "arc-melting - ANN(850-950C,7d)" "Superconductivity of Ni2NbX (X = Al, Ga and Sn)" 1985 "Electrotechnical Laboratory, Ibaraki 305, Japan" "J.Phys.Soc.Jpn, 54(1985)1673"
152035 JPS0541673 e-ph coupling = 0.50 Ni2NbGa Ni2Nb1Ga1 Ni 2 Nb 1 Ga 1 1985 Heusler A 5.956 L2<1> K 1.54 1.54 T 0.6 T/K 0.64 MHC152035 A 230 mJ/mol.K2 6.5 SP-heat 240 SP-heat "arc-melting - ANN(850-950C,7d)" "Superconductivity of Ni2NbX (X = Al, Ga and Sn)" 1985 "Electrotechnical Laboratory, Ibaraki 305, Japan" "J.Phys.Soc.Jpn, 54(1985)1673"
152036 JPS0541673 e-ph coupling = 0.61. (dC/gamma*Tc) = 1.6. Ni2NbSn Ni2Nb1Sn1 Ni 2 Nb 1 Sn 1 1985 Heusler A 6.157 L2<1> K 2.9 2.9 T 0.63 T/K 0.37 MHC152035 A 230 mJ/mol.K2 4 SP-heat 206 SP-heat "arc-melting - ANN(850-950C,7d)" "Superconductivity of Ni2NbX (X = Al, Ga and Sn)" 1985 "Electrotechnical Laboratory, Ibaraki 305, Japan" "J.Phys.Soc.Jpn, 54(1985)1673"
152037 PHB3781118 G-L = 54. (dC/gamma*Tc) = 1.90. W7Re13B W7Re13B1 W 7 Re 13 B 1 2006 beta-Mn P4<1>32 K 7.1 7.1 Oe 77 T 11.4 A 54 A 2925 mJ/mol.K2 65.2 SP-heat "W(4N),Mo(4N),Re(4N),a-B,a-C" arc-melting "Superconductivity in M7Re13X (M = W, Mo, X = B, C) compounds" 2006 "Department of Physics and Mathematics, Aoyama-Gakuin University, Fushinobe 5-10-1, Sagamihara, Kanagawa, Japan" "Physica B, 378-380(2006)1118"
152038 PHB3781118 G-L = 80. (dC/gamma*Tc) = 1.93. W7Re13C W7Re13C1 W 7 Re 13 C 1 2006 beta-Mn P4<1>32 K 7.3 7.3 Oe 40 T 12.6 A 51 A 4060 mJ/mol.K2 64.2 SP-heat "W(4N),Mo(4N),Re(4N),a-B,a-C" arc-melting "Superconductivity in M7Re13X (M = W, Mo, X = B, C) compounds" 2006 "Department of Physics and Mathematics, Aoyama-Gakuin University, Fushinobe 5-10-1, Sagamihara, Kanagawa, Japan" "Physica B, 378-380(2006)1118"
152039 PHB3781118 G-L = 101. (dC/gamma*Tc) = 1.84. Mo7Re13B Mo7Re13B1 Mo 7 Re 13 B 1 2006 beta-Mn P4<1>32 K 8.3 8.3 Oe 30 T 15.4 A 46 A 4684 mJ/mol.K2 66.9 SP-heat "W(4N),Mo(4N),Re(4N),a-B,a-C" arc-melting "Superconductivity in M7Re13X (M = W, Mo, X = B, C) compounds" 2006 "Department of Physics and Mathematics, Aoyama-Gakuin University, Fushinobe 5-10-1, Sagamihara, Kanagawa, Japan" "Physica B, 378-380(2006)1118"
152040 PHB3781118 G-L = 98. (dC/gamma*Tc) = 2.53. Mo7Re13C Mo7Re13C1 Mo 7 Re 13 C 1 2006 beta-Mn P4<1>32 K 8.1 8.1 Oe 31 T 14.8 A 47 A 4608 mJ/mol.K2 57.5 SP-heat "W(4N),Mo(4N),Re(4N),a-B,a-C" arc-melting "Superconductivity in M7Re13X (M = W, Mo, X = B, C) compounds" 2006 "Department of Physics and Mathematics, Aoyama-Gakuin University, Fushinobe 5-10-1, Sagamihara, Kanagawa, Japan" "Physica B, 378-380(2006)1118"
152041 PCS0693011 gap measured by point contact tunneling. Heat capacity by ac-calorimetry. [gamma] estimated using entropy conservation law. (dC/gamma*Tc) = 1.71 MgCNi3 Mg1C1Ni3 Mg 1 C 1 Ni 3 3 2008 CaTiO3 K 6.6 6.6 meV 1 3.8 1 crystals grown by high pressure closed system. Superconducting energy gap in MgCNi3 single crystals 2008 "Centre of Low Temperature Physics, Institute of Experimental Physics, Slovak Academy of Sciences, Slovakia" "J.Phys.Chem.Solids, 69(2008)3011"
152042 PCS0693074 slightly overdoped. Gaps measured by Raman. Tl2Ba2CuO6 Tl2Ba2Cu1O6+z Tl 2 Ba 2 Cu 1 O 6+z 3 2008 Tl2201 K 80 80 6.8 4 flux method. O-content [oz] controlled by annealing condition in Ar. Superconducting gap of overdoped Tl2Ba2CuO6+d observed by Raman scattering 2008 "Department of Physics, Graduate School of Science, Osaka University, Osaka 560-0043, Japan" "J.Phys.Chem.Solids, 69(2008)3074"
152043 PCS0693074 overdoped sample. hole concentration estimated to be p = 0.22 from Tallon's eq. using Tc(max) = 90 K. Gaps measured by Raman. Tl2Ba2CuO6 Tl2Ba2Cu1O6+z Tl 2 Ba 2 Cu 1 O 6+z 3 2008 Tl2201 K 62 62 7.2 4 flux method. O-content [oz] controlled by annealing condition in Ar. Superconducting gap of overdoped Tl2Ba2CuO6+d observed by Raman scattering 2008 "Department of Physics, Graduate School of Science, Osaka University, Osaka 560-0043, Japan" "J.Phys.Chem.Solids, 69(2008)3074"
152044 PCS0693074 overdoped sample. hole concentration estimated to be p = 0.23 from Tallon's eq. using Tc(max) = 90 K. Gaps measured by Raman. Tl2Ba2CuO6 Tl2Ba2Cu1O6+z Tl 2 Ba 2 Cu 1 O 6+z 3 2008 Tl2201 K 52 52 3.9 4 flux method. O-content [oz] controlled by annealing condition in Ar. Superconducting gap of overdoped Tl2Ba2CuO6+d observed by Raman scattering 2008 "Department of Physics, Graduate School of Science, Osaka University, Osaka 560-0043, Japan" "J.Phys.Chem.Solids, 69(2008)3074"
152045 PCS0693153 [gapene] from <11>B NMR measurements. e-ph coupling = 0.69 from McMillan's eq. Debye-T from PRB0331671 LuRuB2 Lu1Ru1B2 Lu 1 Ru 1 B 2 1 2008 LuRuB2 K 10.2 10.2 3.52 6 487 SP-heat arc-melting in Ar - ANN(1050C) <11>B NMR relaxation in superconductors: YRuB2 and LuRuB2 2008 "Department of Quantum Materials Science, University of Tokushima, 2-1 Minami-josanjima, Tokushima 770-8506, Japan" "J.Phys.Chem.Solids, 69(2008)3153"
152046 PCS0693153 [gapene] from <11>B NMR measurements. e-ph coupling = 0.63 from McMillan's eq. YRuB2 Y1Ru1B2 Y 1 Ru 1 B 2 1 2008 LuRuB2 K 7.6 7.6 3.52 6 arc-melting in Ar - ANN(1050C) <11>B NMR relaxation in superconductors: YRuB2 and LuRuB2 2008 "Department of Quantum Materials Science, University of Tokushima, 2-1 Minami-josanjima, Tokushima 770-8506, Japan" "J.Phys.Chem.Solids, 69(2008)3153"
152047 PRB0331671 RRR=6. [gamma] calculated from [dHc2/dT] and Rn. LuRUB2 Lu1Ru1B2 Lu 1 Ru 1 B 2 1 1986 LuRuB2 A 5.7973 5.233 6.2817 K 10.44 10.72 10.58 kOe/K resistivity 7.5 MHC152047 mJ/mol.K2 8.7 calc from (dHc2/dT) and RESN uOhm.cm 55 "arc-melting(Lu,Er) - arc-melting(Lu1-xErx, RuB2) - sealed in Ta-tube(Ar) - ANN(1250C,2d) - ANN(1000C,2-3w) Q to RT" Upper critical field and heat capacity in the reentrant superconducting system (Lu1-xErx)RuB2 1986 "Iowa State University, Ames, Iowa 50011" "Phys.Rev.B, 33(1986)1671"
152048 PRB0331671 [gamma] calculated from [dHc2/dT] and Rn. "(Lu,Er)RUB2" Lu0.85Er0.15Ru1B2 Lu 0.85 Er 0.15 Ru 1 B 2 1 1986 LuRuB2 A 5.8049 5.2389 6.2866 K 8.51 9.21 8.86 kOe/K resistivity 5.8 MHC152047 mJ/mol.K2 8.4 calc from (dHc2/dT) and RESN uOhm.cm 44 "arc-melting(Lu,Er) - arc-melting(Lu1-xErx, RuB2) - sealed in Ta-tube(Ar) - ANN(1250C,2d) - ANN(1000C,2-3w) Q to RT" Upper critical field and heat capacity in the reentrant superconducting system (Lu1-xErx)RuB2 1986 "Iowa State University, Ames, Iowa 50011" "Phys.Rev.B, 33(1986)1671"
152049 PRB0331671 [gamma] calculated from [dHc2/dT] and Rn. "(Lu,Er)RUB2" Lu0.65Er0.35Ru1B2 Lu 0.65 Er 0.35 Ru 1 B 2 1 1986 LuRuB2 K 6.85 7.03 6.94 kOe/K resistivity 2.5 MHC152047 mJ/mol.K2 7.3 calc from (dHc2/dT) and RESN uOhm.cm 22 "arc-melting(Lu,Er) - arc-melting(Lu1-xErx, RuB2) - sealed in Ta-tube(Ar) - ANN(1250C,2d) - ANN(1000C,2-3w) Q to RT" Upper critical field and heat capacity in the reentrant superconducting system (Lu1-xErx)RuB2 1986 "Iowa State University, Ames, Iowa 50011" "Phys.Rev.B, 33(1986)1671"
152050 PRB0331671 [gamma] calculated from [dHc2/dT] and Rn. magnetic order (re-entrant = 1.91 K) defined as the peak of ac-SUS. "(Lu,Er)RUB2" Lu0.6Er0.4Ru1B2 Lu 0.6 Er 0.4 Ru 1 B 2 1 1986 LuRuB2 A 5.8157 5.2481 6.2908 K 6.17 6.42 6.295 MTC152050 kOe/K resistivity 2 MHC152050 mJ/mol.K2 6.7 calc from (dHc2/dT) and RESN uOhm.cm 19 "arc-melting(Lu,Er) - arc-melting(Lu1-xErx, RuB2) - sealed in Ta-tube(Ar) - ANN(1250C,2d) - ANN(1000C,2-3w) Q to RT" Upper critical field and heat capacity in the reentrant superconducting system (Lu1-xErx)RuB2 1986 "Iowa State University, Ames, Iowa 50011" "Phys.Rev.B, 33(1986)1671"
152051 PRB0331671 RRR=14. [gamma] calculated from [dHc2/dT] and Rn. magnetic order (re-entrant = 3.75 K) defined as the peak of ac-SUS. "(Lu,Er)RUB2" Lu0.55Er0.45Ru1B2 Lu 0.55 Er 0.45 Ru 1 B 2 1 1986 LuRuB2 A 5.82 5.2514 6.2924 K 4.95 5.57 5.26 MTC152050 kOe/K resistivity 0.9 MHC152050 mJ/mol.K2 3.6 calc from (dHc2/dT) and RESN uOhm.cm 15 "arc-melting(Lu,Er) - arc-melting(Lu1-xErx, RuB2) - sealed in Ta-tube(Ar) - ANN(1250C,2d) - ANN(1000C,2-3w) Q to RT" Upper critical field and heat capacity in the reentrant superconducting system (Lu1-xErx)RuB2 1986 "Iowa State University, Ames, Iowa 50011" "Phys.Rev.B, 33(1986)1671"
152052 PRB0331671 Tc from SP-heat. e-ph coupling = 0.59. (dC/gamma*Tc) = 1.09. lattice term const.of SP: beta = 0.0675 mJ/mol.K4 LuRUB2 Lu1Ru1B2 Lu 1 Ru 1 B 2 1 1986 LuRuB2 K 8.9 8.9 3.02 14 mJ/mol.K 68 7.05 SP-heat 487 SP-heat "arc-melting(Lu,Er) - arc-melting(Lu1-xErx, RuB2) - sealed in Ta-tube(Ar) - ANN(1250C,2d) - ANN(1000C,2-3w) Q to RT" Upper critical field and heat capacity in the reentrant superconducting system (Lu1-xErx)RuB2 1986 "Iowa State University, Ames, Iowa 50011" "Phys.Rev.B, 33(1986)1671"
152053 SSC0400237 LuRuB2 Lu1Ru1B2 Lu 1 Ru 1 B 2 1 1981 LuRuB2 A 5.809 5.229 6.284 K 9.84 9.99 9.99 "arc-melting - ANN(1000C,1w)" Reentrant superconductivity in the orthorhombic system (Tm1-xLux)RuB2 1981 "University of California,San Diego,La Jolla, CA 92093" "Solid State Commun., 40(1981)237"
152054 SSC0400237 "(Lu,Tm)RuB2" Lu0.8Tm0.2Ru1B2 Lu 0.8 Tm 0.2 Ru 1 B 2 1 1981 LuRuB2 K 7.28 7.28 "arc-melting - ANN(1000C,1w)" Reentrant superconductivity in the orthorhombic system (Tm1-xLux)RuB2 1981 "University of California,San Diego,La Jolla, CA 92093" "Solid State Commun., 40(1981)237"
152055 SSC0400237 "(Lu,Tm)RuB2" Lu0.6Tm0.4Ru1B2 Lu 0.6 Tm 0.4 Ru 1 B 2 1 1981 1.08 LuRuB2 K 4.31 4.31 MTC152056 "arc-melting - ANN(1000C,1w)" Reentrant superconductivity in the orthorhombic system (Tm1-xLux)RuB2 1981 "University of California,San Diego,La Jolla, CA 92093" "Solid State Commun., 40(1981)237"
152056 SSC0400237 "(Lu,Tm)RuB2" Lu0.55Tm0.45Ru1B2 Lu 0.55 Tm 0.45 Ru 1 B 2 1 1981 1.69 LuRuB2 K 2.94 2.94 MTC152056 "arc-melting - ANN(1000C,1w)" Reentrant superconductivity in the orthorhombic system (Tm1-xLux)RuB2 1981 "University of California,San Diego,La Jolla, CA 92093" "Solid State Commun., 40(1981)237"
152057 SSC0400237 not SC. magnetic ordering (AF) at 4.07 K. "(Lu,Tm)RuB2" Tm1Ru1B2 Tm 1 Ru 1 B 2 1 1981 4.07 LuRuB2 A 5.831 5.254 6.299 K 1.2 "arc-melting - ANN(1000C,1w)" Reentrant superconductivity in the orthorhombic system (Tm1-xLux)RuB2 1981 "University of California,San Diego,La Jolla, CA 92093" "Solid State Commun., 40(1981)237"
152058 SSC0400237 "(Lu,Gd)RuB2" Lu0.9Gd0.1Ru1B2 Lu 0.9 Gd 0.1 Ru 1 B 2 1 1981 LuRuB2 K 6.4 6.4 "arc-melting - ANN(1000C,1w)" Reentrant superconductivity in the orthorhombic system (Tm1-xLux)RuB2 1981 "University of California,San Diego,La Jolla, CA 92093" "Solid State Commun., 40(1981)237"
152059 SSC0400237 "(Lu,Tb)RuB2" Lu0.9Tb0.1Ru1B2 Lu 0.9 Tb 0.1 Ru 1 B 2 1 1981 LuRuB2 K 4.76 4.76 "arc-melting - ANN(1000C,1w)" Reentrant superconductivity in the orthorhombic system (Tm1-xLux)RuB2 1981 "University of California,San Diego,La Jolla, CA 92093" "Solid State Commun., 40(1981)237"
152060 SSC0400237 "(Lu,Dy)RuB2" Lu0.9Dy0.1Ru1B2 Lu 0.9 Dy 0.1 Ru 1 B 2 1 1981 LuRuB2 K 7.34 7.34 "arc-melting - ANN(1000C,1w)" Reentrant superconductivity in the orthorhombic system (Tm1-xLux)RuB2 1981 "University of California,San Diego,La Jolla, CA 92093" "Solid State Commun., 40(1981)237"
152061 SSC0400237 "(Lu,Ho)RuB2" Lu0.9Ho0.1Ru1B2 Lu 0.9 Ho 0.1 Ru 1 B 2 1 1981 LuRuB2 K 7.53 7.53 "arc-melting - ANN(1000C,1w)" Reentrant superconductivity in the orthorhombic system (Tm1-xLux)RuB2 1981 "University of California,San Diego,La Jolla, CA 92093" "Solid State Commun., 40(1981)237"
152062 SSC0400237 "(Lu,Er)RuB2" Lu0.9Er0.1Ru1B2 Lu 0.9 Er 0.1 Ru 1 B 2 1 1981 LuRuB2 K 8.77 8.77 "arc-melting - ANN(1000C,1w)" Reentrant superconductivity in the orthorhombic system (Tm1-xLux)RuB2 1981 "University of California,San Diego,La Jolla, CA 92093" "Solid State Commun., 40(1981)237"
152063 SSC0400237 "(Lu,Tm)RuB2" Lu0.9Tm0.1Ru1B2 Lu 0.9 Tm 0.1 Ru 1 B 2 1 1981 LuRuB2 K 8.72 8.72 "arc-melting - ANN(1000C,1w)" Reentrant superconductivity in the orthorhombic system (Tm1-xLux)RuB2 1981 "University of California,San Diego,La Jolla, CA 92093" "Solid State Commun., 40(1981)237"
152064 SSC0400237 "(Lu,Gd)RuB2" Lu0.8Gd0.2Ru1B2 Lu 0.8 Gd 0.2 Ru 1 B 2 1 1981 LuRuB2 K 4.84 4.84 "arc-melting - ANN(1000C,1w)" Reentrant superconductivity in the orthorhombic system (Tm1-xLux)RuB2 1981 "University of California,San Diego,La Jolla, CA 92093" "Solid State Commun., 40(1981)237"
152065 SSC0400237 not SC "(Lu,Tb)RuB2" Lu0.8Tb0.2Ru1B2 Lu 0.8 Tb 0.2 Ru 1 B 2 1 1981 LuRuB2 K 1.2 "arc-melting - ANN(1000C,1w)" Reentrant superconductivity in the orthorhombic system (Tm1-xLux)RuB2 1981 "University of California,San Diego,La Jolla, CA 92093" "Solid State Commun., 40(1981)237"
152066 SSC0400237 "(Lu,Dy)RuB2" Lu0.8Dy0.2Ru1B2 Lu 0.8 Dy 0.2 Ru 1 B 2 1 1981 LuRuB2 K 5.07 5.07 "arc-melting - ANN(1000C,1w)" Reentrant superconductivity in the orthorhombic system (Tm1-xLux)RuB2 1981 "University of California,San Diego,La Jolla, CA 92093" "Solid State Commun., 40(1981)237"
152067 SSC0400237 "(Lu,Ho)RuB2" Lu0.8Ho0.2Ru1B2 Lu 0.8 Ho 0.2 Ru 1 B 2 1 1981 LuRuB2 K 6.46 6.46 "arc-melting - ANN(1000C,1w)" Reentrant superconductivity in the orthorhombic system (Tm1-xLux)RuB2 1981 "University of California,San Diego,La Jolla, CA 92093" "Solid State Commun., 40(1981)237"
152068 SSC0400237 "(Lu,Er)RuB2" Lu0.8Er0.2Ru1B2 Lu 0.8 Er 0.2 Ru 1 B 2 1 1981 LuRuB2 K 7.85 7.85 "arc-melting - ANN(1000C,1w)" Reentrant superconductivity in the orthorhombic system (Tm1-xLux)RuB2 1981 "University of California,San Diego,La Jolla, CA 92093" "Solid State Commun., 40(1981)237"
152069 SSC0400237 "(Lu,Tm)RuB2" Lu0.8Tm0.2Ru1B2 Lu 0.8 Tm 0.2 Ru 1 B 2 1 1981 LuRuB2 K 7.31 7.31 "arc-melting - ANN(1000C,1w)" Reentrant superconductivity in the orthorhombic system (Tm1-xLux)RuB2 1981 "University of California,San Diego,La Jolla, CA 92093" "Solid State Commun., 40(1981)237"
152100 JAP0491392 "(Y,Gd)Rh4B4" Y0.99Gd0.01Rh4B4 Y 0.99 Gd 0.01 Rh 4 B 4 1978 AB4C4 RT4B4 CeCo4B4 K 10.1 10.1 MHC152100 "arc-melting(in Ar) - ANN(1000C, 1-14d)" Magnetic and superconducting transitions in GdxEr1-xRh4B4 and GdxY1-xEh4B4 1978 "Los Alamos Scientific Laboratory, Los Alamos, New Mexico" "J.Appl.Phys., 49(1978)1392"
152101 JAP0491392 "(Y,Gd)Rh4B4" Y0.9Gd0.1Rh4B4 Y 0.9 Gd 0.1 Rh 4 B 4 1978 AB4C4 RT4B4 CeCo4B4 K 8.66 8.66 MHC152100 "arc-melting(in Ar) - ANN(1000C, 1-14d)" Magnetic and superconducting transitions in GdxEr1-xRh4B4 and GdxY1-xEh4B4 1978 "Los Alamos Scientific Laboratory, Los Alamos, New Mexico" "J.Appl.Phys., 49(1978)1392"
152102 JAP0491392 ErRh4B4 Er1Rh4B4 Er 1 Rh 4 B 4 1978 0.77 AB4C4 RT4B4 CeCo4B4 K 8.66 8.66 MHC152102 "arc-melting(in Ar) - ANN(1000C, 1-14d)" Magnetic and superconducting transitions in GdxEr1-xRh4B4 and GdxY1-xEh4B4 1978 "Los Alamos Scientific Laboratory, Los Alamos, New Mexico" "J.Appl.Phys., 49(1978)1392"
152103 JAP0491392 "(Er,Gd)Rh4B4" Er0.98Gd0.02Rh4B4 Er 0.98 Gd 0.02 Rh 4 B 4 1978 0.89 AB4C4 RT4B4 CeCo4B4 K 8.22 8.22 MHC152102 "arc-melting(in Ar) - ANN(1000C, 1-14d)" Magnetic and superconducting transitions in GdxEr1-xRh4B4 and GdxY1-xEh4B4 1978 "Los Alamos Scientific Laboratory, Los Alamos, New Mexico" "J.Appl.Phys., 49(1978)1392"
152104 JAP0491392 "(Er,Gd)Rh4B4" Er0.97Gd0.03Rh4B4 Er 0.97 Gd 0.03 Rh 4 B 4 1978 0.94 AB4C4 RT4B4 CeCo4B4 K 8.06 8.06 K/GPa 0.05 MHC152104 "arc-melting(in Ar) - ANN(1000C, 1-14d)" Magnetic and superconducting transitions in GdxEr1-xRh4B4 and GdxY1-xEh4B4 1978 "Los Alamos Scientific Laboratory, Los Alamos, New Mexico" "J.Appl.Phys., 49(1978)1392"
152105 JAP0491392 "(Er,Gd)Rh4B4" Er0.95Gd0.05Rh4B4 Er 0.95 Gd 0.05 Rh 4 B 4 1978 0.98 AB4C4 RT4B4 CeCo4B4 K 7.61 7.61 MTC152105 K/GPa 0.05 MHC152104 "arc-melting(in Ar) - ANN(1000C, 1-14d)" Magnetic and superconducting transitions in GdxEr1-xRh4B4 and GdxY1-xEh4B4 1978 "Los Alamos Scientific Laboratory, Los Alamos, New Mexico" "J.Appl.Phys., 49(1978)1392"
152106 JAP0491392 "(Er,Gd)Rh4B4" Er0.91Gd0.09Rh4B4 Er 0.91 Gd 0.09 Rh 4 B 4 1978 1.26 AB4C4 RT4B4 CeCo4B4 K 6.87 6.87 MHC152106 "arc-melting(in Ar) - ANN(1000C, 1-14d)" Magnetic and superconducting transitions in GdxEr1-xRh4B4 and GdxY1-xEh4B4 1978 "Los Alamos Scientific Laboratory, Los Alamos, New Mexico" "J.Appl.Phys., 49(1978)1392"
152107 JAP0491392 "(Er,Gd)Rh4B4" Er0.8Gd0.2Rh4B4 Er 0.8 Gd 0.2 Rh 4 B 4 1978 1.78 AB4C4 RT4B4 CeCo4B4 K 4.41 4.41 MTC152107 MHC152106 "arc-melting(in Ar) - ANN(1000C, 1-14d)" Magnetic and superconducting transitions in GdxEr1-xRh4B4 and GdxY1-xEh4B4 1978 "Los Alamos Scientific Laboratory, Los Alamos, New Mexico" "J.Appl.Phys., 49(1978)1392"
152108 JAP0491392 "(Er,Gd)Rh4B4" Er0.76Gd0.24Rh4B4 Er 0.76 Gd 0.24 Rh 4 B 4 1978 1.89 AB4C4 RT4B4 CeCo4B4 K 4.18 4.18 MHC152106 "arc-melting(in Ar) - ANN(1000C, 1-14d)" Magnetic and superconducting transitions in GdxEr1-xRh4B4 and GdxY1-xEh4B4 1978 "Los Alamos Scientific Laboratory, Los Alamos, New Mexico" "J.Appl.Phys., 49(1978)1392"
152110 JAP0501862 "(Er,Gd)Rh4B4" Er0.9Gd0.1Rh4B4 Er 0.9 Gd 0.1 Rh 4 B 4 1979 1.34 AB4C4 RT4B4 CeCo4B4 K 6.88 6.88 MTC152110 "ANN(1000C,30d)" Magnetic ordering of GdxEr1-xRh4B4 near the superconducting region 1979 "Los Alamos Scientific Laboratory, Los Alamos, New Mexico" "J.Appl.Phys., 50(1979)1862"
152111 JAP0501862 "(Er,Gd)Rh4B4" Er0.72Gd0.28Rh4B4 Er 0.72 Gd 0.28 Rh 4 B 4 1979 2.25 AB4C4 RT4B4 CeCo4B4 K 2.5 2.5 "ANN(1000C,30d)" Magnetic ordering of GdxEr1-xRh4B4 near the superconducting region 1979 "Los Alamos Scientific Laboratory, Los Alamos, New Mexico" "J.Appl.Phys., 50(1979)1862"
152112 PRB0220164 ErRh4B4 Er1Rh4B4 Er 1 Rh 4 B 4 1980 AB4C4 RT4B4 CeCo4B4 K 8.7 8.7 Crystal-field effects in magnetic superconducting Er1-xTmxRh4B4 and Er1-xHoxRh4B4 1980 "Phys.Rev.B, 22(1980)164"
152113 PRB0220164 "(Er,Tm)Rh4B4" Er0.97Tm0.15Rh4B4 Er 0.97 Tm 0.15 Rh 4 B 4 1980 AB4C4 RT4B4 CeCo4B4 K 8.86 8.86 MTC152113 Crystal-field effects in magnetic superconducting Er1-xTmxRh4B4 and Er1-xHoxRh4B4 1980 "Phys.Rev.B, 22(1980)164"
152114 PRB0220164 "(Er,Tm)Rh4B4" Er0.97Tm0.3Rh4B4 Er 0.97 Tm 0.3 Rh 4 B 4 1980 AB4C4 RT4B4 CeCo4B4 K 9.03 9.03 MTC152113 Crystal-field effects in magnetic superconducting Er1-xTmxRh4B4 and Er1-xHoxRh4B4 1980 "Phys.Rev.B, 22(1980)164"
152115 PRB0220164 "(Er,Tm)Rh4B4" Tm1Rh4B4 Tm 1 Rh 4 B 4 1980 AB4C4 RT4B4 CeCo4B4 K 9.6 9.6 Crystal-field effects in magnetic superconducting Er1-xTmxRh4B4 and Er1-xHoxRh4B4 1980 "Phys.Rev.B, 22(1980)164"
152116 SSC0320929 "(Y,Gd)Rh4B4" Y0.7Gd0.3Rh4B4 Y 0.7 Gd 0.3 Rh 4 B 4 1979 AB4C4 RT4B4 CeCo4B4 K 3.54 3.54 MHC152116 Anomalous temperature dependence of the upper critical fields in magnetic-superconducting Y1-xGdxRh4B4 1979 "Solid State Commun., 32(1979)929"
152117 SSC0320185 "(Y,Er)Rh4B4" Y0.83Er0.17Rh4B4 Y 0.83 Er 0.17 Rh 4 B 4 1979 AB4C4 RT4B4 CeCo4B4 K 10.4 10.4 MTC152117 MHC152117 "arc-melting(MB4 + Rh) - ANN(1050C, 1w)" Superconducting phase transitions in ErcY1-cRh4B4 1979 "Osaka University,Toyonaka,Osaka,Japan" "Solid State Commun., 32(1979)185"
152118 SSC0320185 "(Y,Er)Rh4B4" Y0.71Er0.29Rh4B4 Y 0.71 Er 0.29 Rh 4 B 4 1979 AB4C4 RT4B4 CeCo4B4 K 10 10 MHC152118 "arc-melting(MB4 + Rh) - ANN(1050C, 1w)" Superconducting phase transitions in ErcY1-cRh4B4 1979 "Osaka University,Toyonaka,Osaka,Japan" "Solid State Commun., 32(1979)185"
152119 SSC0320185 magnetic order: Ferromagnetic "(Y,Er)Rh4B4" Y0.56Er0.44Rh4B4 Y 0.56 Er 0.44 Rh 4 B 4 1979 0.104 AB4C4 RT4B4 CeCo4B4 K 9.64 9.64 MHC152117 "arc-melting(MB4 + Rh) - ANN(1050C, 1w)" Superconducting phase transitions in ErcY1-cRh4B4 1979 "Osaka University,Toyonaka,Osaka,Japan" "Solid State Commun., 32(1979)185"
152120 SSC0320185 magnetic order: Ferromagnetic "(Y,Er)Rh4B4" Y0.47Er0.53Rh4B4 Y 0.47 Er 0.53 Rh 4 B 4 1979 0.306 AB4C4 RT4B4 CeCo4B4 K 9.5 9.5 MTC152117 MHC152118 "arc-melting(MB4 + Rh) - ANN(1050C, 1w)" Superconducting phase transitions in ErcY1-cRh4B4 1979 "Osaka University,Toyonaka,Osaka,Japan" "Solid State Commun., 32(1979)185"
152121 SSC0320185 magnetic order: Ferromagnetic "(Y,Er)Rh4B4" Y0.28Er0.72Rh4B4 Y 0.28 Er 0.72 Rh 4 B 4 1979 0.626 AB4C4 RT4B4 CeCo4B4 K 9.05 9.05 MHC152117 "arc-melting(MB4 + Rh) - ANN(1050C, 1w)" Superconducting phase transitions in ErcY1-cRh4B4 1979 "Osaka University,Toyonaka,Osaka,Japan" "Solid State Commun., 32(1979)185"
152122 SSC0320185 magnetic order: Ferromagnetic "(Y,Er)Rh4B4" Y0.12Er0.88Rh4B4 Y 0.12 Er 0.88 Rh 4 B 4 1979 0.766 AB4C4 RT4B4 CeCo4B4 K 8.74 8.74 "arc-melting(MB4 + Rh) - ANN(1050C, 1w)" Superconducting phase transitions in ErcY1-cRh4B4 1979 "Osaka University,Toyonaka,Osaka,Japan" "Solid State Commun., 32(1979)185"
152123 SSC0260141 ErRh4B4 Er1Rh4B4 Er 1 Rh 4 B 4 1978 0.924 AB4C4 RT4B4 CeCo4B4 K 8.76 8.76 "arc-melting in Ar. ANN(1200C,1w, in sealed Ta-tube) - ANN(900C,3w)" Re-entrant superconductivity and magnetic ordering in the pseudoternary system (Er1-xHox)Rh4B4 1978 "Solid State Commun., 26(1978)141"
152124 SSC0260141 "(Er,Ho)Rh4B4" Er0.73Ho0.27Rh4B4 Er 0.73 Ho 0.27 Rh 4 B 4 1978 0.721 AB4C4 RT4B4 CeCo4B4 K 8.06 8.06 MTC152124 "arc-melting in Ar. ANN(1200C,1w, in sealed Ta-tube) - ANN(900C,3w)" Re-entrant superconductivity and magnetic ordering in the pseudoternary system (Er1-xHox)Rh4B4 1978 "Solid State Commun., 26(1978)141"
152125 SSC0260141 "(Er,Ho)Rh4B4" Er0.187Ho0.813Rh4B4 Er 0.187 Ho 0.813 Rh 4 B 4 1978 5.21 AB4C4 RT4B4 CeCo4B4 K 6.43 6.43 "arc-melting in Ar. ANN(1200C,1w, in sealed Ta-tube) - ANN(900C,3w)" Re-entrant superconductivity and magnetic ordering in the pseudoternary system (Er1-xHox)Rh4B4 1978 "Solid State Commun., 26(1978)141"
152126 SSC0260141 "(Er,Ho)Rh4B4" Er0.11Ho0.89Rh4B4 Er 0.11 Ho 0.89 Rh 4 B 4 1978 5.87 AB4C4 RT4B4 CeCo4B4 K 5.96 5.96 MTC152124 "arc-melting in Ar. ANN(1200C,1w, in sealed Ta-tube) - ANN(900C,3w)" Re-entrant superconductivity and magnetic ordering in the pseudoternary system (Er1-xHox)Rh4B4 1978 "Solid State Commun., 26(1978)141"
152127 SSC0260141 not SC "(Er,Ho)Rh4B4" Er0.085Ho0.915Rh4B4 Er 0.085 Ho 0.915 Rh 4 B 4 1978 6.11 AB4C4 RT4B4 CeCo4B4 K 1 "arc-melting in Ar. ANN(1200C,1w, in sealed Ta-tube) - ANN(900C,3w)" Re-entrant superconductivity and magnetic ordering in the pseudoternary system (Er1-xHox)Rh4B4 1978 "Solid State Commun., 26(1978)141"
152128 SSC0260141 not SC HoRh4B4 Ho1Rh4B4 Ho 1 Rh 4 B 4 1978 6.69 AB4C4 RT4B4 CeCo4B4 K 1 "arc-melting in Ar. ANN(1200C,1w, in sealed Ta-tube) - ANN(900C,3w)" Re-entrant superconductivity and magnetic ordering in the pseudoternary system (Er1-xHox)Rh4B4 1978 "Solid State Commun., 26(1978)141"
152129 SSC0350937 DyRh4B4 Dy1Rh4B4 Dy 1 Rh 4 B 4 1980 11.2 AB4C4 RT4B4 A 5.3023 7.3944 K 1 arc-melting Superconducting Dy(IrxRh1-x)4B4 system 1980 "Solid State Commun., 35(1980)937"
152130 SSC0350937 "Dy(Rh,Ir)4B4" Dy1Rh3.6Ir0.4B4 Dy 1 Rh 3.6 Ir 0.4 B 4 1980 4.78 AB4C4 RT4B4 A 5.313 7.4039 K 1 arc-melting Superconducting Dy(IrxRh1-x)4B4 system 1980 "Solid State Commun., 35(1980)937"
152131 SSC0350937 "Dy(Rh,Ir)4B4" Dy1Rh3.2Ir0.8B4 Dy 1 Rh 3.2 Ir 0.8 B 4 1980 AB4C4 RT4B4 A 5.3202 7.4089 K 1.78 1.78 arc-melting Superconducting Dy(IrxRh1-x)4B4 system 1980 "Solid State Commun., 35(1980)937"
152132 SSC0350937 "Dy(Rh,Ir)4B4" Dy1Rh2.8Ir1.2B4 Dy 1 Rh 2.8 Ir 1.2 B 4 1980 AB4C4 RT4B4 A 5.3251 7.4127 K 2.82 2.82 MTC152132 arc-melting Superconducting Dy(IrxRh1-x)4B4 system 1980 "Solid State Commun., 35(1980)937"
152133 SSC0350937 "Dy(Rh,Ir)4B4" Dy1Rh2.4Ir1.6B4 Dy 1 Rh 2.4 Ir 1.6 B 4 1980 AB4C4 RT4B4 A 5.3312 7.4141 K 3.83 3.83 arc-melting Superconducting Dy(IrxRh1-x)4B4 system 1980 "Solid State Commun., 35(1980)937"
152134 SSC0350937 "Dy(Rh,Ir)4B4" Dy1Rh2Ir2B4 Dy 1 Rh 2 Ir 2 B 4 1980 AB4C4 RT4B4 A 5.3442 7.4145 K 4.53 4.53 arc-melting Superconducting Dy(IrxRh1-x)4B4 system 1980 "Solid State Commun., 35(1980)937"
152136 SSC0350937 "Dy(Rh,Ir)4B4" Dy1Rh1.6Ir2.4B4 Dy 1 Rh 1.6 Ir 2.4 B 4 1980 3.78 AB4C4 RT4B4 A 5.3445 7.4148 K 4.3 4.3 arc-melting Superconducting Dy(IrxRh1-x)4B4 system 1980 "Solid State Commun., 35(1980)937"
152137 SSC0350937 "Dy(Rh,Ir)4B4" Dy1Rh1.2Ir2.8B4 Dy 1 Rh 1.2 Ir 2.8 B 4 1980 4.39 AB4C4 RT4B4 A 5.3598 7.3853 K 1.63 1.63 MTC152132 arc-melting Superconducting Dy(IrxRh1-x)4B4 system 1980 "Solid State Commun., 35(1980)937"
152138 SSC0350937 "Dy(Rh,Ir)4B4" Dy1Rh0.8Ir3.2B4 Dy 1 Rh 0.8 Ir 3.2 B 4 1980 AB4C4 RT4B4 A 5.3763 7.3545 K 1.17 1.17 arc-melting Superconducting Dy(IrxRh1-x)4B4 system 1980 "Solid State Commun., 35(1980)937"
152139 SSC0350937 "Dy(Rh,Ir)4B4" Dy1Rh0.56Ir3.44B4 Dy 1 Rh 0.56 Ir 3.44 B 4 1980 AB4C4 RT4B4 A 5.3845 7.3397 K 1.29 1.29 arc-melting Superconducting Dy(IrxRh1-x)4B4 system 1980 "Solid State Commun., 35(1980)937"
152140 SSC0320937 "Er(Rh,Ir)4B4" Er1Rh3.6Ir0.4B4 Er 1 Rh 3.6 Ir 0.4 B 4 1979 AB4C4 RT4B4 K 7.95 7.95 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
152141 SSC0320937 "Er(Rh,Ir)4B4" Er1Rh2.4Ir1.6B4 Er 1 Rh 2.4 Ir 1.6 B 4 1979 AB4C4 RT4B4 K 7.56 7.56 MTC152141 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
152142 SSC0320937 "Er(Rh,Ir)4B4" Er1Rh2Ir2B4 Er 1 Rh 2 Ir 2 B 4 1979 AB4C4 RT4B4 K 6.76 6.76 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
152143 SSC0320937 "Er(Rh,Ir)4B4" Er1Rh1.6Ir2.4B4 Er 1 Rh 1.6 Ir 2.4 B 4 1979 AB4C4 RT4B4 K 2.11 2.11 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
152144 SSC0350937 "Ho(Rh,Ir)4B4" Ho1Rh3.6Ir0.4B4 Ho 1 Rh 3.6 Ir 0.4 B 4 1980 AB4C4 RT4B4 K 5.09 5.09 Superconducting Dy(IrxRh1-x)4B4 system 1980 "Solid State Commun., 35(1980)937"
152145 SSC0350937 "Ho(Rh,Ir)4B4" Ho1Rh2Ir2B4 Ho 1 Rh 2 Ir 2 B 4 1980 AB4C4 RT4B4 K 6.35 6.35 MTC152145 Superconducting Dy(IrxRh1-x)4B4 system 1980 "Solid State Commun., 35(1980)937"
152146 SSC0350937 "Ho(Rh,Ir)4B4" Ho1Rh1.6Ir2.4B4 Ho 1 Rh 1.6 Ir 2.4 B 4 1980 AB4C4 RT4B4 K 2.2 2.2 Superconducting Dy(IrxRh1-x)4B4 system 1980 "Solid State Commun., 35(1980)937"
152147 SSC0350937 "Ho(Rh,Ir)4B4" Ho1Rh0.8Ir3.2B4 Ho 1 Rh 0.8 Ir 3.2 B 4 1980 AB4C4 RT4B4 K 1.26 1.26 Superconducting Dy(IrxRh1-x)4B4 system 1980 "Solid State Commun., 35(1980)937"
152148 SSC0330843 Tm is FM order (M//ab-plane). (dTc2/dP) = 0 K/GPa for normal-to-SC transition. ErRh4B4 Er1Rh4B4 Er 1 Rh 4 B 4 1980 AB4C4 RT4B4 CeCo4B4 K 8.7 8.7 K/GPa 0.05 "arc-melting - ANN(1200C,1w, in Ta-tube) - ANN(900C,3w)" Pressure enhanced superconductive and magnetic interactions in the system (Er1-xHox)Rh4B4 1980 "Ames Lab, Iowa State University, Ames, Iowa" "Solid State Commun., 33(1980)843"
152149 SSC0330843 Tm is FM order (M//ab-plane). (dTc2/dP) = 0.019 K/GPa for normal-to-SC transition. "(Er,Ho)Rh4B4" Er0.79Ho0.21Rh4B4 Er 0.79 Ho 0.21 Rh 4 B 4 1980 AB4C4 RT4B4 CeCo4B4 K 8.22 8.22 K/GPa 0.05 "arc-melting - ANN(1200C,1w, in Ta-tube) - ANN(900C,3w)" Pressure enhanced superconductive and magnetic interactions in the system (Er1-xHox)Rh4B4 1980 "Ames Lab, Iowa State University, Ames, Iowa" "Solid State Commun., 33(1980)843"
152150 SSC0330843 Tm is FM order (M//ab-plane). (dTc2/dP) = 0.041 K/GPa for normal-to-SC transition. "(Er,Ho)Rh4B4" Er0.46Ho0.54Rh4B4 Er 0.46 Ho 0.54 Rh 4 B 4 1980 AB4C4 RT4B4 CeCo4B4 K 7.32 7.32 K/GPa 0.028 "arc-melting - ANN(1200C,1w, in Ta-tube) - ANN(900C,3w)" Pressure enhanced superconductive and magnetic interactions in the system (Er1-xHox)Rh4B4 1980 "Ames Lab, Iowa State University, Ames, Iowa" "Solid State Commun., 33(1980)843"
152151 SSC0330843 Tm is FM order (M//ab-plane). (dTc2/dP) = 0.085 K/GPa for normal-to-SC transition. "(Er,Ho)Rh4B4" Er0.134Ho0.866Rh4B4 Er 0.134 Ho 0.866 Rh 4 B 4 1980 AB4C4 RT4B4 CeCo4B4 K 6.15 6.15 MTC152151 K/GPa 0.022 "arc-melting - ANN(1200C,1w, in Ta-tube) - ANN(900C,3w)" Pressure enhanced superconductive and magnetic interactions in the system (Er1-xHox)Rh4B4 1980 "Ames Lab, Iowa State University, Ames, Iowa" "Solid State Commun., 33(1980)843"
152152 SSC0330843 Tm is FM order (M//ab-plane). (dTc2/dP) = 0.146 K/GPa for normal-to-SC transition. "(Er,Ho)Rh4B4" Er0.11Ho0.89Rh4B4 Er 0.11 Ho 0.89 Rh 4 B 4 1980 AB4C4 RT4B4 CeCo4B4 K 5.98 5.98 MTC152152 K/GPa 0.055 "arc-melting - ANN(1200C,1w, in Ta-tube) - ANN(900C,3w)" Pressure enhanced superconductive and magnetic interactions in the system (Er1-xHox)Rh4B4 1980 "Ames Lab, Iowa State University, Ames, Iowa" "Solid State Commun., 33(1980)843"
152153 SSC0330843 "For FM order, (dTm/dP) = 0.093 K/GPa." "(Er,Ho)Rh4B4" Er0.085Ho0.915Rh4B4 Er 0.085 Ho 0.915 Rh 4 B 4 1980 AB4C4 RT4B4 CeCo4B4 K 0.3 "arc-melting - ANN(1200C,1w, in Ta-tube) - ANN(900C,3w)" Pressure enhanced superconductive and magnetic interactions in the system (Er1-xHox)Rh4B4 1980 "Ames Lab, Iowa State University, Ames, Iowa" "Solid State Commun., 33(1980)843"
152154 PRL0380987 XRD shows impurity phases(several %). long range magnetic order FM) at 0.9 K. lattice term coeff. in SP (beta) = 3.1 mJ/mol.K4. ErRh4B4 Er1Rh4B4 Er 1 Rh 4 B 4 1977 myu-B/Er 9.62 1 AB4C4 RT4B4 A 5.299 7.388 CeCo4B4 K 8.7 8.7 mJ/mol.K2 29 SP-heat arc-melting - ANN Destruction of superconductivity at the onset of long-range magnetic order in the compound ErRh4B4 1977 "University of California, San Diego, La Jolla, California" "Phys.Rev.Lett., 38(1977)987"
152160 PRB081174512 "Ba(Fe,Ru)2As2" Ba1Fe1.5Ru0.5As2 Ba 1 Fe 1.5 Ru 0.5 As 2 2010 AB2C2 ThCr2Si2 A 3.9774 12.934 K 0 0 "FeAs,RuAs,Ba" "solid state reaction. heat(1173K,5h)" Superconductivity in Ru-substituted polycrystalline BaFe2-xRuxAs2 2010 "Condensed Matter Physics Division, Materials Science Group, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Phys.Rev.B, 81(2010)174512"
152161 PRB081174512 Hall effect at H=2 T. "Ba(Fe,Ru)2As2" Ba1Fe1.25Ru0.75As2 Ba 1 Fe 1.25 Ru 0.75 As 2 2010 AB2C2 ThCr2Si2 A 4.0059 12.85 K 21 21 MHC152161 MRH152161 "FeAs,RuAs,Ba" "solid state reaction. heat(1173K,5h)" Superconductivity in Ru-substituted polycrystalline BaFe2-xRuxAs2 2010 "Condensed Matter Physics Division, Materials Science Group, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Phys.Rev.B, 81(2010)174512"
152162 PRB081174512 "Ba(Fe,Ru)2As2" Ba1Fe1.125Ru0.875As2 Ba 1 Fe 1.125 Ru 0.875 As 2 2010 AB2C2 ThCr2Si2 A 4.0298 12.775 K 22.5 22.5 MTC152162 MHC152162 "FeAs,RuAs,Ba" "solid state reaction. heat(1173K,5h)" Superconductivity in Ru-substituted polycrystalline BaFe2-xRuxAs2 2010 "Condensed Matter Physics Division, Materials Science Group, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Phys.Rev.B, 81(2010)174512"
152163 PRB081174512 "Ba(Fe,Ru)2As2" Ba1Fe0.875Ru1.125As2 Ba 1 Fe 0.875 Ru 1.125 As 2 2010 AB2C2 ThCr2Si2 A 4.0502 12.679 K 21.3 21.3 MHC152163 "FeAs,RuAs,Ba" "solid state reaction. heat(1173K,5h)" Superconductivity in Ru-substituted polycrystalline BaFe2-xRuxAs2 2010 "Condensed Matter Physics Division, Materials Science Group, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Phys.Rev.B, 81(2010)174512"
152164 PRB081174512 "Ba(Fe,Ru)2As2" Ba1Fe0.75Ru1.25As2 Ba 1 Fe 0.75 Ru 1.25 As 2 2010 AB2C2 ThCr2Si2 A 4.0692 12.595 K 0 0 "FeAs,RuAs,Ba" "solid state reaction. heat(1173K,5h)" Superconductivity in Ru-substituted polycrystalline BaFe2-xRuxAs2 2010 "Condensed Matter Physics Division, Materials Science Group, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Phys.Rev.B, 81(2010)174512"
152165 PRB081184519 T = 134 K. BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2010 AB2C2 ThCr2Si2 A 3.9613 13.019 K 0 0 "mixture in alumina - sealed in quartz tube - heat(1150C-1200C,12h) - cool to 800C(1.5C/h)" Evolution from non-Fermi- to Fermi-liquid transport via isovalent doping in BaFe2(As1-xPx)2 superconductors 2010 "Research Center for Low Temperature and Materials Sciences, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 81(2010)184519"
152166 PRB081184519 "P-content by EDX. T = 94.4 K, T = 101 K." "BaFe2(As,P)2" Ba1Fe2As1.72P0.28 Ba 1 Fe 2 As 1.72 P 0.28 3 2010 AB2C2 ThCr2Si2 K 0 0 "mixture in alumina - sealed in quartz tube - heat(1150C-1200C,12h) - cool to 800C(1.5C/h)" Evolution from non-Fermi- to Fermi-liquid transport via isovalent doping in BaFe2(As1-xPx)2 superconductors 2010 "Research Center for Low Temperature and Materials Sciences, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 81(2010)184519"
152167 PRB081184519 "P-content by EDX. T = 72.8 K, T = 87 K." "BaFe2(As,P)2" Ba1Fe2As1.6P0.4 Ba 1 Fe 2 As 1.6 P 0.4 3 2010 AB2C2 ThCr2Si2 A 3.9419 12.899 K 5.95 21 13.475 MPH152167 "mixture in alumina - sealed in quartz tube - heat(1150C-1200C,12h) - cool to 800C(1.5C/h)" Evolution from non-Fermi- to Fermi-liquid transport via isovalent doping in BaFe2(As1-xPx)2 superconductors 2010 "Research Center for Low Temperature and Materials Sciences, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 81(2010)184519"
152168 PRB081184519 P-content by EDX. "BaFe2(As,P)2" Ba1Fe2As1.34P0.66 Ba 1 Fe 2 As 1.34 P 0.66 3 2010 AB2C2 ThCr2Si2 A 3.9247 12.813 K 30.5 30.5 30.5 "mixture in alumina - sealed in quartz tube - heat(1150C-1200C,12h) - cool to 800C(1.5C/h)" Evolution from non-Fermi- to Fermi-liquid transport via isovalent doping in BaFe2(As1-xPx)2 superconductors 2010 "Research Center for Low Temperature and Materials Sciences, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 81(2010)184519"
152169 PRB081184519 P-content by EDX. "BaFe2(As,P)2" Ba1Fe2As1.18P0.82 Ba 1 Fe 2 As 1.18 P 0.82 3 2010 AB2C2 ThCr2Si2 A 3.9161 12.778 K 23.8 26.8 25.3 "mixture in alumina - sealed in quartz tube - heat(1150C-1200C,12h) - cool to 800C(1.5C/h)" Evolution from non-Fermi- to Fermi-liquid transport via isovalent doping in BaFe2(As1-xPx)2 superconductors 2010 "Research Center for Low Temperature and Materials Sciences, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 81(2010)184519"
152170 PRB081184519 P-content by EDX. "BaFe2(As,P)2" Ba1Fe2As0.72P1.28 Ba 1 Fe 2 As 0.72 P 1.28 3 2010 AB2C2 ThCr2Si2 A 3.8839 12.632 K 6.69 10.4 8.545 "mixture in alumina - sealed in quartz tube - heat(1150C-1200C,12h) - cool to 800C(1.5C/h)" Evolution from non-Fermi- to Fermi-liquid transport via isovalent doping in BaFe2(As1-xPx)2 superconductors 2010 "Research Center for Low Temperature and Materials Sciences, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 81(2010)184519"
152171 PRB081174524 "Ba(Fe,Ni)2As2" Ba1Fe1.925Ni0.075As2 Ba 1 Fe 1.925 Ni 0.075 As 2 3 2010 58 AB2C2 ThCr2Si2 K 12.2 12.2 self-flux method Electron-doping evolution of the low-energy spin excitations in the iron arsenide superconductor BaFe2-xNixAs2 2010 "Department of Physics and Astronomy, The University of Tennessee, Knoxville, Tennessee 37996-1200, USA" "Phys.Rev.B, 81(2010)174524"
152172 PRB081174524 "Ba(Fe,Ni)2As2" Ba1Fe1.85Ni0.15As2 Ba 1 Fe 1.85 Ni 0.15 As 2 3 2010 AB2C2 ThCr2Si2 K 13.8 13.8 self-flux method Electron-doping evolution of the low-energy spin excitations in the iron arsenide superconductor BaFe2-xNixAs2 2010 "Department of Physics and Astronomy, The University of Tennessee, Knoxville, Tennessee 37996-1200, USA" "Phys.Rev.B, 81(2010)174524"
152173 PRB081184509 P-induced SC. Tc defined as R-anomaly. single crystals(1*0.25*0.025 mm3) was located in Be-Cu Bridgman anvil clamped cell. Quasihydrostatic pressure. Bi2Sr2YCu2O8 Bi1.98Sr2.06Y0.68Cu2O8+z Bi 1.98 Sr 2.06 Y 0.68 Cu 2 O 8+z 3 2010 Bi2212 K 8 0 8 TC152173 floating zone method Signatures of pressure-induced superconductivity in insulating Bi1.98Sr2.06Y0.68CaCu2O8+z 2010 "Materials Science Division, Lawrence Berkeley National Laboratory, University of California-Berkeley, Berkeley, California 94720, USA" "Phys.Rev.B, 81(2010)184509"
152174 SSC0320937 ErIr4B4 Er1Ir4B4 Er 1 Ir 4 B 4 1979 AB4C4 RT4B4 A 5.408 7.278 CeCo4B4 K 2.34 2.34 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
152175 SSC0320937 TmIr4B4 Tm1Ir4B4 Tm 1 Ir 4 B 4 1979 AB4C4 RT4B4 A 5.404 7.281 CeCo4B4 K 1.75 1.75 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
152176 SSC0320937 HoIr4B4 Ho1.1Ir4B3.6 Ho 1.1 Ir 4 B 3.6 1979 AB4C4 RT4B4 CeCo4B4 K 2.12 2.12 "Superconductivity, Magnetism and metastability of new ternary iridium borides" 1979 "Univ. California, San Diego, La Jolla, CA, USA" "Solid State Commun., 32(1979)937"
152177 PRB081184504 Hall coeff. RH(150K) = -4.10 E-9 m3/C. "Sm(O,F)FeAs" Sm1Fe1As1F0.15O0.85 Sm 1 Fe 1 As 1 F 0.15 O 0.85 2010 oxypnictide I4/nmm K 51.1 51.1 T/K resistivity 11.3 HC152177 mOhm.cm 0.286 RH152177 "SmAs,Fe2O3,RuO2,FeF2,Fe,Ru" "mixture - pellet - sealed in pyrex flask - heat(450C,15-20h) - reground - pellet - sealed in quartz tube - heat(1000-1075C,50h)" "Isoelectronic Ru substitution at the iron site in SmFe1-xRuxAsO0.85F0.15 and its effects on structural, superconducting, and normal-state properties" 2010 "CNR-SPIN, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 81(2010)184504"
152178 PRB081184504 Hall coeff. RH(150K) = -3.87 E-9 m3/C. "Sm(O,F)(Fe,Ru)As" Sm1Fe0.95Ru0.05As1F0.15O0.85 Sm 1 Fe 0.95 Ru 0.05 As 1 F 0.15 O 0.85 2010 oxypnictide I4/nmm A 3.9351 8.47 K 42.7 42.7 T/K resistivity 7.89 HC152177 mOhm.cm 0.921 RH152177 "SmAs,Fe2O3,RuO2,FeF2,Fe,Ru" "mixture - pellet - sealed in pyrex flask - heat(450C,15-20h) - reground - pellet - sealed in quartz tube - heat(1000-1075C,50h)" "Isoelectronic Ru substitution at the iron site in SmFe1-xRuxAsO0.85F0.15 and its effects on structural, superconducting, and normal-state properties" 2010 "CNR-SPIN, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 81(2010)184504"
152179 PRB081184504 Hall coeff. RH(150K) = -3.29 E-9 m3/C. "Sm(O,F)(Fe,Ru)As" Sm1Fe0.9Ru0.1As1F0.15O0.85 Sm 1 Fe 0.9 Ru 0.1 As 1 F 0.15 O 0.85 2010 oxypnictide I4/nmm A 3.9401 8.4702 K 21.7 21.7 TC152179 T/K resistivity 4.69 HC152177 mOhm.cm 1.33 "SmAs,Fe2O3,RuO2,FeF2,Fe,Ru" "mixture - pellet - sealed in pyrex flask - heat(450C,15-20h) - reground - pellet - sealed in quartz tube - heat(1000-1075C,50h)" "Isoelectronic Ru substitution at the iron site in SmFe1-xRuxAsO0.85F0.15 and its effects on structural, superconducting, and normal-state properties" 2010 "CNR-SPIN, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 81(2010)184504"
152180 PRB081184504 Hall coeff. RH(150K) = -2.03 E-9 m3/C. "Sm(O,F)(Fe,Ru)As" Sm1Fe0.8Ru0.2As1F0.15O0.85 Sm 1 Fe 0.8 Ru 0.2 As 1 F 0.15 O 0.85 2010 oxypnictide I4/nmm A 3.9507 8.4457 K 18.5 18.5 T/K resistivity 4.8 mOhm.cm 1.58 RH152177 "SmAs,Fe2O3,RuO2,FeF2,Fe,Ru" "mixture - pellet - sealed in pyrex flask - heat(450C,15-20h) - reground - pellet - sealed in quartz tube - heat(1000-1075C,50h)" "Isoelectronic Ru substitution at the iron site in SmFe1-xRuxAsO0.85F0.15 and its effects on structural, superconducting, and normal-state properties" 2010 "CNR-SPIN, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 81(2010)184504"
152181 PRB081184504 "Sm(O,F)(Fe,Ru)As" Sm1Fe0.7Ru0.3As1F0.15O0.85 Sm 1 Fe 0.7 Ru 0.3 As 1 F 0.15 O 0.85 2010 oxypnictide I4/nmm A 3.9597 8.4211 K 13.9 13.9 T/K resistivity 4.29 HC152177 mOhm.cm 1.7 "SmAs,Fe2O3,RuO2,FeF2,Fe,Ru" "mixture - pellet - sealed in pyrex flask - heat(450C,15-20h) - reground - pellet - sealed in quartz tube - heat(1000-1075C,50h)" "Isoelectronic Ru substitution at the iron site in SmFe1-xRuxAsO0.85F0.15 and its effects on structural, superconducting, and normal-state properties" 2010 "CNR-SPIN, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 81(2010)184504"
152182 PRB081184504 Hall coeff. RH(150K) = -1.403 E-9 m3/C. "Sm(O,F)(Fe,Ru)As" Sm1Fe0.64Ru0.36As1F0.15O0.85 Sm 1 Fe 0.64 Ru 0.36 As 1 F 0.15 O 0.85 2010 oxypnictide I4/nmm A 3.9691 8.3905 K 15.9 15.9 T/K resistivity 5.2 HC152177 mOhm.cm 1.58 RH152177 "SmAs,Fe2O3,RuO2,FeF2,Fe,Ru" "mixture - pellet - sealed in pyrex flask - heat(450C,15-20h) - reground - pellet - sealed in quartz tube - heat(1000-1075C,50h)" "Isoelectronic Ru substitution at the iron site in SmFe1-xRuxAsO0.85F0.15 and its effects on structural, superconducting, and normal-state properties" 2010 "CNR-SPIN, Corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.B, 81(2010)184504"
152183 PHC4690064 SP-heat measured semi-adiabatic heat pulse method MgB2 Mg1B2 Mg 1 B 2 1 2009 AB2 AlB2 A 3.084 3.513 K 39 39 T "resistivity, extrapolation" 26.3 mJ/mol.K 100 "solid state reaction. pellet - wrapped in Ta foil - ANN(900C,15min) - FC to RT" Low temperature specific heat (zero field and with field) of Fe and Mn-doped MgB2 2009 "Department of Physics, Manipal Institute of Technology, Manipal 576104, India" "Physica C, 469(2009)64"
152184 PHC4690064 SP-heat measured semi-adiabatic heat pulse method "(Mg,Mn)B2" Mg1.995Mn0.005B2 Mg 1.995 Mn 0.005 B 2 1 2009 AB2 AlB2 A 3.08 3.535 K 37.7 37.7 T "resistivity, extrapolation" 24.9 mJ/mol.K 96.2 "solid state reaction. pellet - wrapped in Ta foil - ANN(900C,15min) - FC to RT" Low temperature specific heat (zero field and with field) of Fe and Mn-doped MgB2 2009 "Department of Physics, Manipal Institute of Technology, Manipal 576104, India" "Physica C, 469(2009)64"
152185 PHC4690064 SP-heat measured semi-adiabatic heat pulse method "(Mg,Mn)B2" Mg1.99Mn0.01B2 Mg 1.99 Mn 0.01 B 2 1 2009 AB2 AlB2 A 3.081 3.525 K 37.6 37.6 T "resistivity, extrapolation" 23.7 mJ/mol.K 86.9 "solid state reaction. pellet - wrapped in Ta foil - ANN(900C,15min) - FC to RT" Low temperature specific heat (zero field and with field) of Fe and Mn-doped MgB2 2009 "Department of Physics, Manipal Institute of Technology, Manipal 576104, India" "Physica C, 469(2009)64"
152186 PHC4690064 SP-heat measured semi-adiabatic heat pulse method "(Mg,Mn)B2" Mg1.985Mn0.015B2 Mg 1.985 Mn 0.015 B 2 1 2009 AB2 AlB2 A 3.079 3.526 K 37.4 37.4 T "resistivity, extrapolation" 23.6 mJ/mol.K 80 "solid state reaction. pellet - wrapped in Ta foil - ANN(900C,15min) - FC to RT" Low temperature specific heat (zero field and with field) of Fe and Mn-doped MgB2 2009 "Department of Physics, Manipal Institute of Technology, Manipal 576104, India" "Physica C, 469(2009)64"
152187 PHC4690064 SP-heat measured semi-adiabatic heat pulse method "(Mg,Mn)B2" Mg1.98Mn0.02B2 Mg 1.98 Mn 0.02 B 2 1 2009 AB2 AlB2 A 3.081 3.527 K 36.9 36.9 T "resistivity, extrapolation" 23.1 mJ/mol.K 78 "solid state reaction. pellet - wrapped in Ta foil - ANN(900C,15min) - FC to RT" Low temperature specific heat (zero field and with field) of Fe and Mn-doped MgB2 2009 "Department of Physics, Manipal Institute of Technology, Manipal 576104, India" "Physica C, 469(2009)64"
152188 PRB081184522 "Hc2(0),[cohere] are estimated by fitting using Maki parameters(alpha and ramda(s-o). WHH values ( Hc2//ab=75, Hc2//c=49 T) are different from experimental ones." "Fe(Te,S)" Fe1.14Te0.91S0.09 Fe 1.14 Te 0.91 S 0.09 3 2010 AB PbO K 8.5 8.5 T "resistivity, R=0.9Rn" 27.83 28.28 T/K resistivity 12.82 8.44 MHC152188 A Hc2(0) 34.1 34.2 self-flux method Effects of excess Fe on upper critical field and magnetotransport in Fe1+y(Te1-xSx)z 2010 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 81(2010)184522"
152189 PRB081205119 striking correlation between Tc and anion hight( distance of anion from the nearest iron layer). FeSe Fe1Se0.99 Fe 1 Se 0.99 1 2010 AB PbO K 6.99 6.99 MTC152189 solid state reaction Pressure-induced high-Tc superconducting phase in FeSe: Correlation between anion height and Tc 2010 "Department of Physics and Mathematics, Aoyama Gakuin University, Fuchinobe 5-10-1, Sagamihara, Kanagawa 229-8558, Japan" "Phys.Rev.B, 81(2010)205119"
152190 PRB081214510 as-grown sample. filamentary SC. R not zero at 2K. "Fe(Te,S)" Fe1Te0.8S0.2 Fe 1 Te 0.8 S 0.2 2010 AB PbO A 3.8158 6.2445 K 0 9 4.5 "mixture(Fe,Te,TeS) - sealed in quartz tube - heat(600C,15h)" Moisture-induced superconductivity in FeTe0.8S0.2 2010 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba 305-0047, Japan" "Phys.Rev.B, 81(2010)214510"
152191 PRB081214510 "110-days-air exposure sample. Moisture-induced SC. For 140-days sample, Tc(zero) = 7.2 K, SC volume = 49 %." "Fe(Te,S)" Fe1Te0.8S0.2 Fe 1 Te 0.8 S 0.2 2010 AB PbO A 3.8114 6.2421 K 6.93 10 8.465 MTC152191 42.8 "mixture(Fe,Te,TeS) - sealed in quartz tube - heat(600C,15h)" Moisture-induced superconductivity in FeTe0.8S0.2 2010 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba 305-0047, Japan" "Phys.Rev.B, 81(2010)214510"
152192 PRB081214517 magnetization and SP-heat also measured. Neel-T from SP-heat DyNi2B2C Dy1Ni2B2C1 Dy 1 Ni 2 B 2 C 1 1 2010 myu-B/R 10.32 10.1 ABC2D2 LuNi2B2C I4/mmm K 6.38 6.38 "arc-melting - ANN(1323K,7h, in vac)" Effects of Tm substitution on superconductivity and magnetism in the antiferromagnetic borocarbide superconductor Dy1-xTmxNi2B2C 2010 "Institute of Materials Physics, Hangzhou Dianzi University, Hangzhou 310018, China" "Phys.Rev.B, 81(2010)214517"
152193 PRB081214517 magnetization and SP-heat also measured. Neel-T from SP-heat "(Dy,Tm)Ni2B2C" Dy0.9Tm0.1Ni2B2C1 Dy 0.9 Tm 0.1 Ni 2 B 2 C 1 1 2010 myu-B/R 10.33 7.59 ABC2D2 LuNi2B2C I4/mmm K 4.55 4.55 "arc-melting - ANN(1323K,7h, in vac)" Effects of Tm substitution on superconductivity and magnetism in the antiferromagnetic borocarbide superconductor Dy1-xTmxNi2B2C 2010 "Institute of Materials Physics, Hangzhou Dianzi University, Hangzhou 310018, China" "Phys.Rev.B, 81(2010)214517"
152194 PRB081214517 magnetization and SP-heat also measured. Neel-T from SP-heat "(Dy,Tm)Ni2B2C" Dy0.85Tm0.15Ni2B2C1 Dy 0.85 Tm 0.15 Ni 2 B 2 C 1 1 2010 myu-B/R 10.08 7.41 ABC2D2 LuNi2B2C I4/mmm K 2.3 2.3 "arc-melting - ANN(1323K,7h, in vac)" Effects of Tm substitution on superconductivity and magnetism in the antiferromagnetic borocarbide superconductor Dy1-xTmxNi2B2C 2010 "Institute of Materials Physics, Hangzhou Dianzi University, Hangzhou 310018, China" "Phys.Rev.B, 81(2010)214517"
152195 PRB081214517 magnetization and SP-heat also measured. Neel-T from SP-heat "(Dy,Tm)Ni2B2C" Dy0.8Tm0.2Ni2B2C1 Dy 0.8 Tm 0.2 Ni 2 B 2 C 1 1 2010 myu-B/R 9.96 7.03 ABC2D2 LuNi2B2C I4/mmm K 3.42 3.42 MTC152195 "arc-melting - ANN(1323K,7h, in vac)" Effects of Tm substitution on superconductivity and magnetism in the antiferromagnetic borocarbide superconductor Dy1-xTmxNi2B2C 2010 "Institute of Materials Physics, Hangzhou Dianzi University, Hangzhou 310018, China" "Phys.Rev.B, 81(2010)214517"
152196 PRB081214517 magnetization and SP-heat also measured. Neel-T from SP-heat "(Dy,Tm)Ni2B2C" Dy0.6Tm0.4Ni2B2C1 Dy 0.6 Tm 0.4 Ni 2 B 2 C 1 1 2010 myu-B/R 9.29 5.77 ABC2D2 LuNi2B2C I4/mmm K 5.77 5.77 "arc-melting - ANN(1323K,7h, in vac)" Effects of Tm substitution on superconductivity and magnetism in the antiferromagnetic borocarbide superconductor Dy1-xTmxNi2B2C 2010 "Institute of Materials Physics, Hangzhou Dianzi University, Hangzhou 310018, China" "Phys.Rev.B, 81(2010)214517"
152197 PRB081214517 magnetization and SP-heat also measured. Neel-T from SP-heat "(Dy,Tm)Ni2B2C" Dy0.4Tm0.6Ni2B2C1 Dy 0.4 Tm 0.6 Ni 2 B 2 C 1 1 2010 myu-B/R 8.52 4.31 ABC2D2 LuNi2B2C I4/mmm K 9 9 "arc-melting - ANN(1323K,7h, in vac)" Effects of Tm substitution on superconductivity and magnetism in the antiferromagnetic borocarbide superconductor Dy1-xTmxNi2B2C 2010 "Institute of Materials Physics, Hangzhou Dianzi University, Hangzhou 310018, China" "Phys.Rev.B, 81(2010)214517"
152198 PRB081214517 magnetization and SP-heat also measured. Neel-T from SP-heat "(Dy,Tm)Ni2B2C" Dy0.2Tm0.8Ni2B2C1 Dy 0.2 Tm 0.8 Ni 2 B 2 C 1 1 2010 myu-B/R 8.13 2.67 ABC2D2 LuNi2B2C I4/mmm K 9.75 9.75 "arc-melting - ANN(1323K,7h, in vac)" Effects of Tm substitution on superconductivity and magnetism in the antiferromagnetic borocarbide superconductor Dy1-xTmxNi2B2C 2010 "Institute of Materials Physics, Hangzhou Dianzi University, Hangzhou 310018, China" "Phys.Rev.B, 81(2010)214517"
152199 PRB081214517 magnetization and SP-heat also measured. Neel-T from SP-heat TmNi2B2C Tm1Ni2B2C1 Tm 1 Ni 2 B 2 C 1 1 2010 myu-B/R 7.35 2.3 ABC2D2 LuNi2B2C I4/mmm K 10.92 10.92 "arc-melting - ANN(1323K,7h, in vac)" Effects of Tm substitution on superconductivity and magnetism in the antiferromagnetic borocarbide superconductor Dy1-xTmxNi2B2C 2010 "Institute of Materials Physics, Hangzhou Dianzi University, Hangzhou 310018, China" "Phys.Rev.B, 81(2010)214517"
152200 PRB081220505 "Cu-content from XRD. [gap], [penet] calculated from muon-SR data." CuxTiSe2 Cu0.044Ti1Se2 Cu 0.044 Ti 1 Se 2 2010 K 1.5 1.5 A muon-SR 9180 meV 0.095 mV/K -62.9 "See Nat.Phys., 2(2006)544" Possible evidence of a two-gap structure for the CuxTiSe2 superconductor 2010 "Physics Department, Technion?Israel Institute of Technology, Haifa 32000, Israel" "Phys.Rev.B, 81(2010)220505"
152201 PRB081220505 "Cu-content from XRD. [gap], [penet] calculated from muon-SR data." CuxTiSe2 Cu0.057Ti1Se2 Cu 0.057 Ti 1 Se 2 2010 K 3.49 3.49 A muon-SR 5460 meV 0.48 mV/K -55.3 "See Nat.Phys., 2(2006)544" Possible evidence of a two-gap structure for the CuxTiSe2 superconductor 2010 "Physics Department, Technion?Israel Institute of Technology, Haifa 32000, Israel" "Phys.Rev.B, 81(2010)220505"
152202 PRB081220505 "Cu-content from XRD. [gap], [penet] calculated from muon-SR data." CuxTiSe2 Cu0.064Ti1Se2 Cu 0.064 Ti 1 Se 2 2010 K 3.62 3.62 A muon-SR 4800 mV/K -56.3 "See Nat.Phys., 2(2006)544" Possible evidence of a two-gap structure for the CuxTiSe2 superconductor 2010 "Physics Department, Technion?Israel Institute of Technology, Haifa 32000, Israel" "Phys.Rev.B, 81(2010)220505"
152203 PRB081220505 "Cu-content from XRD. [gap], [penet] calculated from muon-SR data." CuxTiSe2 Cu0.081Ti1Se2 Cu 0.081 Ti 1 Se 2 2010 K 4.17 4.17 T 0.85 0.64 1.7 A 180 A muon-SR 3900 meV 0.6 mV/K -42.8 "See Nat.Phys., 2(2006)544" Possible evidence of a two-gap structure for the CuxTiSe2 superconductor 2010 "Physics Department, Technion?Israel Institute of Technology, Haifa 32000, Israel" "Phys.Rev.B, 81(2010)220505"
152204 PRL104187001 SC properties obtained from small angle neutron scattering and ARPES LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 3 2010 ABC PbFCl K 17 17 A ARPES 70 A ARPES 2100 meV 3 4.1 12 self-flux method Weak Superconducting Pairing and a Single Isotropic Energy Gap in Stoichiometric LiFeAs 2010 "Max Planck Institute for Solid State Research, Heisenbergstrase 1, D-70569 Stuttgart, Germany" "Phys.Rev.Lett., 104(2010)187001"
152205 PRL105027003 SP-heat measured by thermal relaxation method(2 - 200K). Two gaps (2D/kTc = 6.6(H) and 2.2 (L).). lattice term coeff. in SP (beta) = 0.496 mJ/mol.K4. Thermodynamic Hc(0) = 0.85 T. "(Ba,K)Fe2As2" Ba0.68K0.32Fe2As2 Ba 0.68 K 0.32 Fe 2 As 2 3 2010 AB2C2 ThCr2Si2 K 38.5 38.5 T/K SP-heat 6.7 meV 11 6.6 14 mJ/mol.K2 1.2 Specific Heat Measurements of Ba0:68K0:32Fe2As2 Single Crystals: Evidence for a Multiband Strong-Coupling Superconducting State 2010 "Max-Planck-Institut fur Festkorperforschung, Heisenbergstrasse 1, D-70569 Stuttgart, Germany" "Phys.Rev.Lett., 105(2010)027003"
152206 PRB0302986 G-L parameter = 20 at T=0.35 K. UPt3 Pt3U1 Pt 3 U 1 1 1984 AB3 Mg3Cd P6<3>/mmc K 0.49 0.49 80 mT dc-SUS 2.2 0.353 T ac-SUS 0.6 0.35 T/K 4.4 "arc-melting. ANN(900C,48h)" Bulk superconductivity in the heavy-fermion superconductor UPt3 1984 "Phys.Rev.B, 30(1984)2986"
152207 PRL0693120 [cohere] calculated from vortex lattice structure by small-angle neutron scattering. UPt3 Pt3U1 Pt 3 U 1 3 1992 AB3 Mg3Cd P6<3>/mmc K 0.507 0.507 A 111 A London 6000 "crystals grown by Czochralski and float zone purified. ANN(1300C,150h) - slow cool to RT" Neutron diffraction from the vortex lattice in the heavy-fermion superconductor UPt3 1992 "Phys.Rev.Lett., 69(1992)3120"
152208 PRB0311654 pressure effect upto 19.1 kbar. twined sample. d(lnTc)/dP = 0.26 /GPa. UPt3 Pt3U1 Pt 3 U 1 3 1985 AB3 Mg3Cd P6<3>/mmc K 0.48 0.48 K/GPa 0.126 T/K resistivity 7.2 "crystals grown by Bi-flux method. ANN(1200C,4h + 1100C,20h)" Effect of pressure on spin fluctuations and superconductivity in heavy-fermion UPt3 1985 "Phys.Rev.B, 31(1985)1654"
152209 PRL0741218 RRR = 190. SC properties extracted from SP-heat analysis. G-L parameter = 58. UPt3 Pt3U1 Pt 3 U 1 3 1995 AB3 Mg3Cd P6<3>/mmc K 0.55 0.55 A 120 A 7000 crystals grown by Czochralski method Magnetic Field Dependent Speciffic Heat Across the Middle and Upper Critical Field Lines In UPt3 1995 2 "AT&T Bell Laboratories,600 Mountain Avenue,Murray Hill,New Jersey 07974" "Phys.Rev.Lett.,74(1995)1218" "U,Pt"
152210 PRL0570234 "For P = 0.38(0.89) GPa, Tc = 0.44(0.36) K, [gamma] = 384(334) mJ/mol.K2." UPt3 Pt3U1 Pt 3 U 1 1986 AB3 Mg3Cd K 0.5 0.5 mJ/mol.K2 426 SP-heat 141 SP-heat Pressure dependence of spin-fluctuation effects in the specific heat of heavy-fermion superconductor UPt3 1986 "Phys.Rev.Lett., 57(1986)234"
152211 PRL0571259 J//c. RRR = 155. UPt3 Pt3U1 Pt 3 U 1 1986 AB3 Mg3Cd K 0.53 0.53 T 2.81 T/K 7.76 4.51 uOhm.cm 125 "See Phys.Rev.Lett., 56(1986)1078" Unusual angular and temperature dependence of the upper critical field in UPt3 1986 "Phys.Rev.Lett., 57(1986)1256"
152212 PRL0571259 J//b-axis. RRR = 110. UPt3 Pt3U1 Pt 3 U 1 1986 AB3 Mg3Cd K 0.53 0.53 T 2.11 2.59 T/K 7.72 4.59 uOhm.cm 230 "See Phys.Rev.Lett., 56(1986)1078" Unusual angular and temperature dependence of the upper critical field in UPt3 1986 "Phys.Rev.Lett., 57(1986)1256"
152213 PRL0631723 Tc measured by LC method. Hc1(T) and Hc2(T) shown in Fig. UPt3 Pt3U1 Pt 3 U 1 3 1989 AB3 Mg3Cd P6<3>/mmc K 0.55 0.55 T/K 4.6 8.15 MHC152213 Lower and upper critical fields in the heavy-electron superconductor UPt3 1989 "Phys.Rev.Lett., 63(1989)1723"
152214 SSC0630599 ultrasound attenuation measurement. UPt3 Pt3U1 Pt 3 U 1 1987 AB3 Mg3Cd K 0.51 0.03 0.51 T attenuation 2 LONGITUDINAL SOUND MEASUREMENTS ON UPt3 IN A MAGNETIC F ELD 1987 "Solid State Commun.,63(1987)559"
152215 SSC0850355 nearly isotropic. Hc1(T) = Hc1(0)(1-t^2)^n n=1.3. Jc(0) = 3.8E+3 A/cm2 UPt3 Pt3U1 Pt 3 U 1 3 1993 AB3 Mg3Cd K 0.5 0.5 mT M-H curve 6.5 6.5 MAGNETIC PROPERTIES OF THE HEAVY-FERMION SUPERCONDUCTORS UPT3AND URU2SI2 1993 1 "MAGNETIZATION ,CRITICAL FIELD ,CRITICAL CURRENTS ,HEAVY-FERMION" "CRTBT-C.N.R.S.," "SOLID STATE COMMUN.,85(1993)355" "V,PT,RU,SI"
152216 SSC0850355 nearly isotropic. Hc1(T) = Hc1(0)(1-t^2)^n n=1.7. Jc(0) = 2.4E+4 A/cm2 URu2Si2 U1Ru2Si2 U 1 Ru 2 Si 2 3 1993 AB2C2 K 1.2 1.2 mT M-H curve 3.3 3.3 MAGNETIC PROPERTIES OF THE HEAVY-FERMION SUPERCONDUCTORS UPT3AND URU2SI2 1993 1 "MAGNETIZATION ,CRITICAL FIELD ,CRITICAL CURRENTS ,HEAVY-FERMION" "CRTBT-C.N.R.S.," "SOLID STATE COMMUN.,85(1993)355" "V,PT,RU,SI"
152217 PHB1941981 "RRR = 6.2. [resrt] shows R(280K). R measured along the layer. Structure, beta = 134deg 35'. Hc1 < 0.5 Oe (estimated)." NbTe2 Nb1Te2 Nb 1 Te 2 3 1994 AB2 NbTe2 C2/m A 19.39 3.642 9.375 K 0.5 0.58 0.5 0.5 uOhm.cm 29 180 crystals grown by chemical vapor transport method Superconductivity in layered-structure compound NbTe2 1994 "Physica B., 194-196(1994)1981"
152218 SSC0680085 Ti Ti1 Ti 1 1988 A K 0.4 0.4 mJ/gat.K2 3.34 SP-heat 529 SP-heat "ELECTRONIC PROPERTIES,SUPERCONDUCTIVITY AND STABILITY OF THE ORDERED ALLOYS OF THE TI-RH,ZR-RH AND HF-RH ISOELECTRONIC SYSTEMS" 1988 "SOLID STATE COMMUN.,68(1988)85" "TI,RH,ZR,HF"
152219 SSC0680085 Ti2Rh Rh1Ti2 Rh 1 Ti 2 1988 AB2 K 1.4 mJ/gat.K2 1.58 SP-heat 478 SP-heat "ELECTRONIC PROPERTIES,SUPERCONDUCTIVITY AND STABILITY OF THE ORDERED ALLOYS OF THE TI-RH,ZR-RH AND HF-RH ISOELECTRONIC SYSTEMS" 1988 "SOLID STATE COMMUN.,68(1988)85" "TI,RH,ZR,HF"
152220 SSC0680085 TiRh Rh1Ti1 Rh 1 Ti 1 1988 AB K 1.4 mJ/gat.K2 2.46 SP-heat 383 SP-heat "ELECTRONIC PROPERTIES,SUPERCONDUCTIVITY AND STABILITY OF THE ORDERED ALLOYS OF THE TI-RH,ZR-RH AND HF-RH ISOELECTRONIC SYSTEMS" 1988 "SOLID STATE COMMUN.,68(1988)85" "TI,RH,ZR,HF"
152221 SSC0680085 "ANN(1600C,3h)" TiRh3 Rh3Ti1 Rh 3 Ti 1 1988 AB3 K 1.4 mJ/gat.K2 2.85 SP-heat 526 SP-heat "ELECTRONIC PROPERTIES,SUPERCONDUCTIVITY AND STABILITY OF THE ORDERED ALLOYS OF THE TI-RH,ZR-RH AND HF-RH ISOELECTRONIC SYSTEMS" 1988 "SOLID STATE COMMUN.,68(1988)85" "TI,RH,ZR,HF"
152222 SSC0680085 Zr Zr1 Zr 1 1988 A K 0.55 0.55 mJ/gat.K2 2.8 SP-heat 291 SP-heat "ELECTRONIC PROPERTIES,SUPERCONDUCTIVITY AND STABILITY OF THE ORDERED ALLOYS OF THE TI-RH,ZR-RH AND HF-RH ISOELECTRONIC SYSTEMS" 1988 "SOLID STATE COMMUN.,68(1988)85" "TI,RH,ZR,HF"
152223 SSC0680085 "ANN(1000C,3h). Data from SSC0540517" Zr2Rh Rh1Zr2 Rh 1 Zr 2 1988 AB2 K 11.2 11.2 mJ/gat.K2 25.6 SP-heat 212 SP-heat "ELECTRONIC PROPERTIES,SUPERCONDUCTIVITY AND STABILITY OF THE ORDERED ALLOYS OF THE TI-RH,ZR-RH AND HF-RH ISOELECTRONIC SYSTEMS" 1988 "SOLID STATE COMMUN.,68(1988)85" "TI,RH,ZR,HF"
152224 SSC0680085 "ANN(1500C,3h). Data from SSC0540517" ZrRh Rh1Zr1 Rh 1 Zr 1 1988 AB K 1.4 mJ/gat.K2 1.2 SP-heat 300 SP-heat "ELECTRONIC PROPERTIES,SUPERCONDUCTIVITY AND STABILITY OF THE ORDERED ALLOYS OF THE TI-RH,ZR-RH AND HF-RH ISOELECTRONIC SYSTEMS" 1988 "SOLID STATE COMMUN.,68(1988)85" "TI,RH,ZR,HF"
152225 SSC0680085 "ANN(1550C,3h). Data from SSC0540517" ZrRh3 Rh3Zr Rh 3 Zr 1988 AB3 K 1.4 mJ/gat.K2 2.75 SP-heat 436 SP-heat "ELECTRONIC PROPERTIES,SUPERCONDUCTIVITY AND STABILITY OF THE ORDERED ALLOYS OF THE TI-RH,ZR-RH AND HF-RH ISOELECTRONIC SYSTEMS" 1988 "SOLID STATE COMMUN.,68(1988)85" "TI,RH,ZR,HF"
152226 SSC0680085 Hf Hf1 Hf 1 1988 A K 0.128 0.128 mJ/gat.K2 2.15 SP-heat 252 SP-heat "ELECTRONIC PROPERTIES,SUPERCONDUCTIVITY AND STABILITY OF THE ORDERED ALLOYS OF THE TI-RH,ZR-RH AND HF-RH ISOELECTRONIC SYSTEMS" 1988 "SOLID STATE COMMUN.,68(1988)85" "TI,RH,ZR,HF"
152227 SSC0680085 as-cast Hf2Rh Hf2Rh1 Hf 2 Rh 1 1988 AB2 K 1.54 1.54 mJ/gat.K2 2.72 SP-heat 176 SP-heat "ELECTRONIC PROPERTIES,SUPERCONDUCTIVITY AND STABILITY OF THE ORDERED ALLOYS OF THE TI-RH,ZR-RH AND HF-RH ISOELECTRONIC SYSTEMS" 1988 "SOLID STATE COMMUN.,68(1988)85" "TI,RH,ZR,HF"
152228 SSC0680085 "ANN(1300C,2h)" Hf2Rh Hf2Rh1 Hf 2 Rh 1 1988 AB2 K 1.6 1.6 mJ/gat.K2 2.79 SP-heat 178 SP-heat "ELECTRONIC PROPERTIES,SUPERCONDUCTIVITY AND STABILITY OF THE ORDERED ALLOYS OF THE TI-RH,ZR-RH AND HF-RH ISOELECTRONIC SYSTEMS" 1988 "SOLID STATE COMMUN.,68(1988)85" "TI,RH,ZR,HF"
152229 SSC0680085 "ANN(1600C,3h)" HfRh Hf1Rh1 Hf 1 Rh 1 1988 AB K 1.4 mJ/gat.K2 1.52 SP-heat 270 SP-heat "ELECTRONIC PROPERTIES,SUPERCONDUCTIVITY AND STABILITY OF THE ORDERED ALLOYS OF THE TI-RH,ZR-RH AND HF-RH ISOELECTRONIC SYSTEMS" 1988 "SOLID STATE COMMUN.,68(1988)85" "TI,RH,ZR,HF"
152230 SSC0680085 "ANN(1700C,3h)" HfRh3 Hf1Rh3 Hf 1 Rh 3 1988 AB3 K 1.4 mJ/gat.K2 2.54 SP-heat 400 SP-heat "ELECTRONIC PROPERTIES,SUPERCONDUCTIVITY AND STABILITY OF THE ORDERED ALLOYS OF THE TI-RH,ZR-RH AND HF-RH ISOELECTRONIC SYSTEMS" 1988 "SOLID STATE COMMUN.,68(1988)85" "TI,RH,ZR,HF"
152231 SSC0680085 Rh Rh1 Rh 1 1988 A K 0.325 0.000325 mJ/gat.K2 4.7 SP-heat 500 SP-heat "ELECTRONIC PROPERTIES,SUPERCONDUCTIVITY AND STABILITY OF THE ORDERED ALLOYS OF THE TI-RH,ZR-RH AND HF-RH ISOELECTRONIC SYSTEMS" 1988 "SOLID STATE COMMUN.,68(1988)85" "TI,RH,ZR,HF"
152232 PRB0530384 lattice term in SP (beta) = 0.328 mJ/mol.K4. (dC/gamma*Tc) = 1.11. e-ph coupling = 0.51. thermodynamic Hc(0) = 353 Oe. Nb3S4 Nb3S4 Nb 3 S 4 1996 A3B4 Nb3Te4 K 3.78 0.14 3.78 3.1 14 MSP152232 mJ/mol.K2 13.6 SP-heat 346 SP-heat iodine vapor transport method "Specific heat of an anisotropic superconductor: Nb3X4 with X=S, Se, and Te" 1996 "Department of Physics, Faculty of Science, Kanazawa University, Kanazawa 920-11, Japan" "Phys.Rev.B, 53(1996)384"
152233 PRB0530384 lattice term in SP (beta) = 1.27 mJ/mol.K4. (dC/gamma*Tc) = 0.66. e-ph coupling = 0.51. thermodynamic Hc(0) = 244 Oe. Nb3Se4 Nb3Se4 Nb 3 Se 4 1996 A3B4 Nb3Te4 K 2.31 2.31 2.8 14 MSP152233 mJ/mol.K2 21.4 SP-heat 220 SP-heat iodine vapor transport method "Specific heat of an anisotropic superconductor: Nb3X4 with X=S, Se, and Te" 1996 "Department of Physics, Faculty of Science, Kanazawa University, Kanazawa 920-11, Japan" "Phys.Rev.B, 53(1996)384"
152234 PRB0530384 lattice term in SP (beta) = 11.4 mJ/mol.K4. Nb3Te4 Nb3Te4 Nb 3 Te 4 1996 A3B4 Nb3Te4 K 1.95 1.95 mJ/mol.K2 18.7 SP-heat 106 SP-heat iodine vapor transport method "Specific heat of an anisotropic superconductor: Nb3X4 with X=S, Se, and Te" 1996 "Department of Physics, Faculty of Science, Kanazawa University, Kanazawa 920-11, Japan" "Phys.Rev.B, 53(1996)384"
152235 SSC0450129 RRR = 3. T = 80 K from R(T). anisotropy(Hc2) = 4.8 Nb3Te4 Nb3Te4 Nb 3 Te 4 1983 A3B4 Nb3Te4 A 10.671 3.6468 K 1.95 0.2 1.95 MHC152235 A 464 97 iodine vapor transport method. T-gradient (3C/cm) at 1000C ELECTRICAL TRANSPORT PROPERTIES OF A QUASI-ONE-DIMENSIONAL Nb3Te4 SINGLE CRYSTAL 1983 "Faculty of Science, Kanazawa University, Kanazawa, Japan" "Solid State Commun., 45(1983)129"
152236 PRB05312299 Zr2Rh Rh1Zr2 Rh 1 Zr 2 1996 AB2 6.53 5.629 K 11.2 11.2 mJ/mol.K2 68 SP-heat 214 SP-heat Electronic-structure effects in the suppression of superconductivity in hydrogenated Zr2Rh 1996 "Solid State Physics Division, Bhabha Atomic Research Centre, Bombay 400085, India" "Phys.Rev.B, 53(1996)12299"
152237 PRB05312299 Zr2RhH2 Zr2Rh1H2 Zr 2 Rh 1 H 2 1996 6.81 5.598 K 2 mJ/mol.K2 6.5 SP-heat 350 SP-heat Electronic-structure effects in the suppression of superconductivity in hydrogenated Zr2Rh 1996 "Solid State Physics Division, Bhabha Atomic Research Centre, Bombay 400085, India" "Phys.Rev.B, 53(1996)12299"
152238 PRB05312299 Zr2RhH4 Zr2Rh1H4 Zr 2 Rh 1 H 4 1996 6.867 5.624 K 2 mJ/mol.K2 21 SP-heat 371 SP-heat Electronic-structure effects in the suppression of superconductivity in hydrogenated Zr2Rh 1996 "Solid State Physics Division, Bhabha Atomic Research Centre, Bombay 400085, India" "Phys.Rev.B, 53(1996)12299"
152239 SSC0151797 Zr2Rh Rh1Zr2 Rh 1 Zr 2 1974 AB2 CuAl2 K 11.3 11.3 mJ/mol.K2 46 SP-heat 188 SP-heat The relation between normal state properties and Tc for some Zr2X compounds 1974 "Solid State Commun., 15(1974)1797"
152240 SSC0151797 Zr2Ir Ir1Zr2 Ir 1 Zr 2 1974 AB2 CuAl2 K 7.5 7.5 mJ/mol.K2 17 SP-heat 200 SP-heat The relation between normal state properties and Tc for some Zr2X compounds 1974 "Solid State Commun., 15(1974)1797"
152241 SSC0151797 Zr2Co Co1Zr2 Co 1 Zr 2 1974 AB2 CuAl2 K 5.5 5.5 mJ/mol.K2 28 SP-heat 180 SP-heat The relation between normal state properties and Tc for some Zr2X compounds 1974 "Solid State Commun., 15(1974)1797"
152242 SSC0151797 Zr2Ni Ni1Zr2 Ni 1 Zr 2 1974 AB2 CuAl2 K 1.6 1.6 mJ/mol.K2 18 SP-heat 221 SP-heat The relation between normal state properties and Tc for some Zr2X compounds 1974 "Solid State Commun., 15(1974)1797"
152243 PRB081224511 P-induced SC. (dTn/dP) = -7.0 K/GPa. Tc(max) = 13 K(P=11.5 GPa). R not to zero at P=16 GPa. Tn is sensitive to uniaxial stress. BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2010 AB2C2 ThCr2Si2 K 13 0 13 crystals grown by FeAs self-flux method. Appearance of pressure-induced superconductivity in BaFe2As2 under hydrostatic conditions and its extremely high sensitivity to uniaxial stress 2010 "Phys.Rev.B, 81(2010)224511"
152244 PRB081224520 "refined stoichiometry: Fe1.045Se0.406Te0.594 by NPD. impurity phase(Fe7Se8). gap(S) = 0.51 meV, [gapene] = 0.84 for small gap from two-gap model fitting." "Fe(Se,Te)" Fe1Se0.5Te0.5 Fe 1 Se 0.5 Te 0.5 3 2010 6.04 AB PbO P4/nmm A 3.798 6.038 K 14.6 14.6 Oe "magnetization, extrapolation" 20 45 MHIR152244 A muon-SR 4910 13200 meV 2.61 4.3 16 Bridgman method Anisotropic superconducting properties of single-crystalline FeSe0.5Te0.5 2010 "Phys.Rev.B, 81(2010)224520"
152245 PRB081235107 "(Ba,K)Fe2As2" Ba0.6K0.4Fe2As2 Ba 0.6 K 0.4 Fe 2 As 2 1 2010 AB2C2 ThCr2Si2 I4/mmm K 35 35 uV/K 13.84 MTP152245 solid state reaction Thermoelectric properties of electron- and hole-doped BaFe2As2 2010 "Phys.Rev.B, 81(2010)235107"
152246 PRB081235107 "(Ba,K)Fe2As2" Ba0.5K0.5Fe2As2 Ba 0.5 K 0.5 Fe 2 As 2 1 2010 AB2C2 ThCr2Si2 I4/mmm K 36.9 36.9 MTC152246 uV/K 16.25 MTP152246 solid state reaction Thermoelectric properties of electron- and hole-doped BaFe2As2 2010 "Phys.Rev.B, 81(2010)235107"
152247 PRB081235107 "(Ba,K)Fe2As2" Ba0.4K0.6Fe2As2 Ba 0.4 K 0.6 Fe 2 As 2 1 2010 AB2C2 ThCr2Si2 I4/mmm K 35.2 35.2 uV/K 20.36 MTP152247 solid state reaction Thermoelectric properties of electron- and hole-doped BaFe2As2 2010 "Phys.Rev.B, 81(2010)235107"
152248 PRB081235107 "(Ba,K)Fe2As2" Ba0.2K0.8Fe2As2 Ba 0.2 K 0.8 Fe 2 As 2 1 2010 AB2C2 ThCr2Si2 I4/mmm K 13.9 13.9 uV/K 16.45 MTP152248 solid state reaction Thermoelectric properties of electron- and hole-doped BaFe2As2 2010 "Phys.Rev.B, 81(2010)235107"
152249 PRB081235107 "Ba(Fe,Co)2As2" Ba1Fe1.8Co0.2As2 Ba 1 Fe 1.8 Co 0.2 As 2 3 2010 AB2C2 ThCr2Si2 I4/mmm K 25.4 25.4 uV/K -22.9 MTP152249 self-flux method Thermoelectric properties of electron- and hole-doped BaFe2As2 2010 "Phys.Rev.B, 81(2010)235107"
152250 PRB081235107 "Ba(Fe,Co)2As2" Ba1Fe1.75Co0.25As2 Ba 1 Fe 1.75 Co 0.25 As 2 3 2010 AB2C2 ThCr2Si2 I4/mmm K 22 22 uV/K -27.4 MTP152250 self-flux method Thermoelectric properties of electron- and hole-doped BaFe2As2 2010 "Phys.Rev.B, 81(2010)235107"
152251 PRB081235107 "Ba(Fe,Co)2As2" Ba1Fe1.73Co0.27As2 Ba 1 Fe 1.73 Co 0.27 As 2 3 2010 AB2C2 ThCr2Si2 I4/mmm K 17.1 17.1 MTC152251 uV/K -34.3 MTP152251 self-flux method Thermoelectric properties of electron- and hole-doped BaFe2As2 2010 "Phys.Rev.B, 81(2010)235107"
152252 PRB082014503 "Jc(H=0,T=0.5Tc) = 0.698 E+3 A/cm2." "Ca(Fe,Co)2As2" Ca1Fe1.898Co0.102As2 Ca 1 Fe 1.898 Co 0.102 As 2 2010 AB2C2 ThCr2Si2 K 18.5 20.3 18.5 Critical current and vortex dynamics in single crystals of?Ca(Fe1-xCox)2As2 2010 "Phys.Rev.B, 82(2010)014503"
152253 PRB082014503 "Jc(H=0,T=0.5Tc) = 7.56 E+3 A/cm2. Jc(H=0) = 18,16.4,10,2.14,0.14 E+3 A/cm2 for T=1.92,4.96,9.92,14.9,18.0 K, respectively." "Ca(Fe,Co)2As2" Ca1Fe1.888Co0.112As2 Ca 1 Fe 1.888 Co 0.112 As 2 2010 AB2C2 ThCr2Si2 K 19 20.3 19 Critical current and vortex dynamics in single crystals of?Ca(Fe1-xCox)2As2 2010 "Phys.Rev.B, 82(2010)014503"
152254 PRB082014503 "Jc(H=0,T=0.5Tc) = 15.7 E+3 A/cm2." "Ca(Fe,Co)2As2" Ca1Fe1.87Co0.13As2 Ca 1 Fe 1.87 Co 0.13 As 2 2010 AB2C2 ThCr2Si2 K 17.2 18.6 17.2 Critical current and vortex dynamics in single crystals of?Ca(Fe1-xCox)2As2 2010 "Phys.Rev.B, 82(2010)014503"
152255 PRB082014503 "Jc(H=0,T=0.5Tc) = 9.53 E+3 A/cm2." "Ca(Fe,Co)2As2" Ca1Fe1.854Co0.146As2 Ca 1 Fe 1.854 Co 0.146 As 2 2010 AB2C2 ThCr2Si2 K 16.8 17.2 16.8 Critical current and vortex dynamics in single crystals of?Ca(Fe1-xCox)2As2 2010 "Phys.Rev.B, 82(2010)014503"
152256 PRB082024503 misfit crystal. RRR = 18.8 for in-plane resistivity. (PbSe)1.16(TiSe2)2 Pb1.16Ti2Se5.16 Pb 1.16 Ti 2 Se 5.16 3 2010 TX2 A 3.553 18.247 layered TX2 K 2.3 2.3 uV/K -54.2 MTP152256 misfit crystals grown using vapor transport with iodine as transport agent Superconductivity at 2.3 K in the misfit compound (PbSe)1.16(TiSe2)2 2010 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 82(2010)024503"
152257 SSC1020401 "misfit layer compound. RRR = 7.3. subsystems(NbSe2, PbSe) are monoclinic." (PbSe)1.12(NbSe2)2 Pb1.12Nb2Se5.12 Pb 1.12 Nb 2 Se 5.12 1997 TX2 layered TX2 K 2.9 0.12 2.9 T "resistivity, extrapolation" 4.9 1.01 MHC152257 A from Hc2 168 34 SUPERCONDUCTIVITY IN THE MISFIT LAYER COMPOUND (PbSe)1.12(NbSe2)2 1997 "Solid State Commun., 102(1997)401"
152258 SSC1010149 misfit layer compound. RRR = 4. anisotropy = 1.29 at Tc. (BiSe)1.1(NbSe2) Bi1.1Nb1Se3.1 Bi 1.1 Nb 1 Se 3.1 1997 TX2 layered TX2 K 2.36 0.12 2.36 T "resistivity, extrapolation" 0.703 0.52 T/K resistivity 0.305 0.237 MHC152258 A from Hc2 240 186 SUPERCONDUCTIVITY IN THE MISFIT LAYER COMPOUNDS (BiSe)1.10(NbSe2) and (BiS)1.11(NbS2) 1997 "Solid State Commun., 101(1997)149"
152259 SSC1010149 misfit layer compound. RRR = 7 (BiS)1.11(NbS2) Bi1.1Nb1S3.1 Bi 1.1 Nb 1 S 3.1 1997 TX2 layered TX2 K 0.415 0.03 0.415 T "resistivity, extrapolation" 0.0385 0.0155 T/K resistivity 0.093 0.039 MHC152259 A from Hc2 1430 600 SUPERCONDUCTIVITY IN THE MISFIT LAYER COMPOUNDS (BiSe)1.10(NbSe2) and (BiS)1.11(NbS2) 1997 "Solid State Commun., 101(1997)149"
152260 SYN0970147 RRR = 3.5. (LaSe)1.14(NbSe2) La1.14Nb1Se3.14 La 1.14 Nb 1 Se 3.14 1998 TX2 A 6.016 6.07 24.072 layered TX2 K 1.32 0.12 1.32 T "resistivity, extrapolation" 0.475 MHC152260 "mixture - heat(600C,a few days) - grind - heat(1000C,10d) - add(iodine) - vapor transport(T-gradient,100C)" Structural characterization and superconductivity in the misfit layer compound (LaSe)1.14(NbSe2) 1998 "Atomic Energy Commission of Syria, Physics Department, PO Box 6091, Damascus, Syria" "Synth.Met.,97(1998)147"
152261 AAC6190117 misfit layer compound. LaNb2Se5 (LaSe)1.14(NbSe)2 La1.14Nb2Se5.14 La 1.14 Nb 2 Se 5.14 1993 TX2 K 5.3 5.3 "Structure and Electronic Transport Properties of the Misfit Layer Compound (LaSe)1.14(NbSe2)2, ""LaNb2Se5""" 1993 "Z.anorg.allg.Chem., 619(1993)117"
152262 PRL104256402 "P-induced SC. Pcrit = 3.0 kbar. Tc = 28, 29, 31.3, 32.7, 34.9 K for P=3.9, 4.8, 5.7, 6.6, 7.6 kbar, respectively." Cs3C60 C60Cs3 C 60 Cs 3 2010 A3B60 fullerene fcc K 34.9 2 34.9 NMR Study of the Mott Transitions to Superconductivity in the Two Cs3C60 Phases 2010 "Laboratoire de Physique des Solides, Universite Paris-Sud 11, CNRS UMR 8502, 91405 Orsay, France" "Phys.Rev.Lett., 104(2010)256402"
152263 PRL104256402 P-induced SC. Pcrit = 5.5 kbar. Cs3C60 C60Cs3 C 60 Cs 3 2010 47.1 A3B60 fullerene A15 K 35.7 2 35.7 MTC152263 NMR Study of the Mott Transitions to Superconductivity in the Two Cs3C60 Phases 2010 "Laboratoire de Physique des Solides, Universite Paris-Sud 11, CNRS UMR 8502, 91405 Orsay, France" "Phys.Rev.Lett., 104(2010)256402"
152265 PRB082014534 Ru-content determined by WDS. "Ba(Fe,Ru)2As2" Ba1Fe1.854Ru0.146As2 Ba 1 Fe 1.854 Ru 0.146 As 2 3 2010 105.6 AB2C2 ThCr2Si2 A 3.9689 12.952 K 2 single crystals grown by self-flux method Physical and magnetic properties of Ba(Fe1-xRux)2As2 single crystals 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)014534"
152266 PRB082014534 Ru-content determined by WDS. "Ba(Fe,Ru)2As2" Ba1Fe1.748Ru0.252As2 Ba 1 Fe 1.748 Ru 0.252 As 2 3 2010 88.8 AB2C2 ThCr2Si2 A 3.9735 12.935 K 2 single crystals grown by self-flux method Physical and magnetic properties of Ba(Fe1-xRux)2As2 single crystals 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)014534"
152267 PRB082014534 Ru-content determined by WDS. "Ba(Fe,Ru)2As2" Ba1Fe1.678Ru0.322As2 Ba 1 Fe 1.678 Ru 0.322 As 2 3 2010 70.5 AB2C2 ThCr2Si2 A 3.9813 12.884 K 9.31 9.31 single crystals grown by self-flux method Physical and magnetic properties of Ba(Fe1-xRux)2As2 single crystals 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)014534"
152268 PRB082014534 Ru-content determined by WDS. "Ba(Fe,Ru)2As2" Ba1Fe1.58Ru0.42As2 Ba 1 Fe 1.58 Ru 0.42 As 2 3 2010 41.5 AB2C2 ThCr2Si2 K 8.95 19.3 14.125 MTC152268 single crystals grown by self-flux method Physical and magnetic properties of Ba(Fe1-xRux)2As2 single crystals 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)014534"
152269 PRB082014534 Ru-content determined by WDS. "Ba(Fe,Ru)2As2" Ba1Fe1.52Ru0.48As2 Ba 1 Fe 1.52 Ru 0.48 As 2 3 2010 29.7 AB2C2 ThCr2Si2 A 3.9976 12.833 K 13.6 17.5 15.55 single crystals grown by self-flux method Physical and magnetic properties of Ba(Fe1-xRux)2As2 single crystals 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)014534"
152270 PRB082014534 Ru-content determined by WDS. "Ba(Fe,Ru)2As2" Ba1Fe1.42Ru0.58As2 Ba 1 Fe 1.42 Ru 0.58 As 2 3 2010 AB2C2 ThCr2Si2 A 4.0054 12.813 K 14.7 16.5 15.6 single crystals grown by self-flux method Physical and magnetic properties of Ba(Fe1-xRux)2As2 single crystals 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)014534"
152271 PRB082014534 Ru-content determined by WDS. "Ba(Fe,Ru)2As2" Ba1Fe1.28Ru0.72As2 Ba 1 Fe 1.28 Ru 0.72 As 2 3 2010 AB2C2 ThCr2Si2 A 4.0132 12.773 K 4.3 13.6 8.95 single crystals grown by self-flux method Physical and magnetic properties of Ba(Fe1-xRux)2As2 single crystals 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)014534"
152272 PHC4700689 anisotropy (Hc2) = 7.5 "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4-z Nd 1.85 Ce 0.15 Cu 1 O 4-z 3 2010 T' K 26.2 0.7 26.2 T "resistivity, WHH approx." 87 11.6 T/K resistivity 4.8 0.64 HC152272 A from Hc2 53.3 7.1 TSFZ method Anisotropic magnetotransport of superconducting and normal state in an electron-doped Nd1.85Ce0.15CuO4-z single crystal 2010 "State Key Laboratory for Mesoscopic Physics and School of Physics, Peking University, Beijing 100871, China" "Physica C, 470(2010)689"
152273 PHC4700682 SUS(300K) = 0.339 E-3 emu/mol.Oe. "(Rh,Ir)17S15" Rh16Ir1S15 Rh 16 Ir 1 S 15 2010 A15B17 A 9.9144 K 4.08 4.08 MHC152273 mJ/mol.K2 89.1 SP-heat 349 SP-heat mOhm.cm 0.3223 "Rh(3N),Ir(3N),S(5N) powder" solid state reaction. Suppression of electron correlations in the superconducting alloys of Rh17-xIrxS15 2010 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Mumbai 400 005, India" "Physica C, 470(2010)682"
152274 PHC4700682 SUS(300K) = 0.092 E-3 emu/mol.Oe. "(Rh,Ir)17S15" Rh15Ir2S15 Rh 15 Ir 2 S 15 2010 A15B17 A 9.9183 K 3.5 3.5 MHC152273 mJ/mol.K2 80.5 SP-heat 327 SP-heat mOhm.cm 0.3416 "Rh(3N),Ir(3N),S(5N) powder" solid state reaction. Suppression of electron correlations in the superconducting alloys of Rh17-xIrxS15 2010 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Mumbai 400 005, India" "Physica C, 470(2010)682"
152275 PHC4700682 SUS(300K) = 1.07 E-3 emu/mol.Oe. Rh17S15 Rh17S15 Rh 17 S 15 2010 A15B17 A 9.9093 K 5.4 5.4 MHC152273 mJ/mol.K2 104.8 SP-heat 424 SP-heat mOhm.cm 0.1951 "Rh(3N),Ir(3N),S(5N) powder" solid state reaction. Suppression of electron correlations in the superconducting alloys of Rh17-xIrxS15 2010 "Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Mumbai 400 005, India" "Physica C, 470(2010)682"
152276 PRB082085318 epitaxial-(111) film. d =< 1000A.. critical B-content = 3 E+20 /cm3. B-content by SIMS. Tc not saturate at 1.0 E+22 /cm3. B-doped C film C1 C 1 2010 diamond K 8.3 8.3 MTC152276 epitaxial films grown by microwave plasma-assisted CVD Superconductor-to-insulator transition in boron-doped diamond films grown using chemical vapor deposition 2010 "School of Science and Engineering, Waseda University, 3-4-1 Okubo, Shinjuku, Tokyo 169-8555, Japan" "Phys.Rev.B, 82(2010)085318"
152277 PRB082085318 epitaxial-(001) film. d =< 1000A.. critical B-content = 3 E+20 /cm3. B-content by SIMS. Tc saturate for n > 1.0 E+21 /cm3. B-doped C film C1 C 1 2010 diamond K 4 4 MTC152276 epitaxial films grown by microwave plasma-assisted CVD Superconductor-to-insulator transition in boron-doped diamond films grown using chemical vapor deposition 2010 "School of Science and Engineering, Waseda University, 3-4-1 Okubo, Shinjuku, Tokyo 169-8555, Japan" "Phys.Rev.B, 82(2010)085318"
152278 PRB082085318 epitaxial-(110) film. d =< 1000A.. critical B-content = 0.9 E+20 /cm3. B-content by SIMS. Tc saturate for n > 2.0 E+21 /cm3. B-doped C film C1 C 1 2010 diamond K 3.5 3.5 MTC152276 epitaxial films grown by microwave plasma-assisted CVD Superconductor-to-insulator transition in boron-doped diamond films grown using chemical vapor deposition 2010 "School of Science and Engineering, Waseda University, 3-4-1 Okubo, Shinjuku, Tokyo 169-8555, Japan" "Phys.Rev.B, 82(2010)085318"
152279 PRB082064511 G-L parameter = 76. (dC/gamma*Tc) = 2.28. thermodynamic Hc(0) = 0.146 T Mo3Al2C Al2C1Mo3 Al 2 C 1 Mo 3 2010 AB2C3 beta-Mn P4<1>32 A 6.863 beta-Mn K 9 9 MTC152279 T WHH approx. 15.7 T/K 3 A from Hc2 46 A London 3800 mJ/mol.K2 17.8 SP-heat 315 SP-heat "powder mixture - cold compact - heat(1500C,24h,in vac) - hot press(1250C,56 MPa)" Unconventional superconducting phase in the weakly correlated noncentrosymmetric Mo3Al2C compound 2010 "Institute of Solid State Physics, Vienna University of Technology, A-1040 Wien, Austria" "Phys.Rev.B, 82(2010)064511"
152280 PRB082064512 RRR = 1.09. G-L parameter = 88.56. (dC/gamma*Tc) = 2.14(dC/Tc = 40). Hc2(0) = 18.2 T from empirical eq. fitting . Mo3Al2C Al2C1Mo3 Al 2 C 1 Mo 3 2010 AB2C3 beta-Mn P4<1>32 A 6.866 beta-Mn K 9.1 9.2 0.2 9.1 Oe M-H curve 47 T WHH approx. 15.08 T/K resistivity 2.39 MHC152280 A from Hc2 46.84 A from Hc1 3755 4.028 14 MSP152280 mJ/mol.K2 18.65 SP-heat 338.5 SP-heat mOhm.cm 0.19 arc-melting Structure and physical properties of the noncentrosymmetric superconductor Mo3Al2C 2010 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana 70803, USA" "Phys.Rev.B, 82(2010)064512"
152281 PRB082054507 "Co-content determined from WDS. [penet] from TDR method. Al-film coating (Tc=1.2 K, [penet] = 50 nm) to obtain absolute [penet] values." "Ba(Fe,Co)2As2" Ba1Fe1.924Co0.076As2 Ba 1 Fe 1.924 Co 0.076 As 2 3 2010 AB2C2 ThCr2Si2 K 7.4 7.4 A TDR method 6730 "See Phys Rev.B, 78(2008)214515" Doping evolution of the absolute value of the London penetration depth and superfluid density in single crystals of Ba(Fe1-xCox)2As2 2010 "Ames Laboratory, U.S. DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)054507"
152282 PRB082054507 "Co-content determined from WDS. [penet] from TDR method. Al-film coating (Tc=1.2 K, [penet] = 50 nm) to obtain absolute [penet] values." "Ba(Fe,Co)2As2" Ba1Fe1.924Co0.076As2 Ba 1 Fe 1.924 Co 0.076 As 2 3 2010 AB2C2 ThCr2Si2 K 11.6 11.6 A TDR method 9210 "See Phys Rev.B, 78(2008)214515" Doping evolution of the absolute value of the London penetration depth and superfluid density in single crystals of Ba(Fe1-xCox)2As2 2010 "Ames Laboratory, U.S. DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)054507"
152283 PRB082054507 "Co-content determined from WDS. [penet] from TDR method. Al-film coating (Tc=1.2 K, [penet] = 50 nm) to obtain absolute [penet] values." "Ba(Fe,Co)2As2" Ba1Fe1.916Co0.084As2 Ba 1 Fe 1.916 Co 0.084 As 2 3 2010 AB2C2 ThCr2Si2 K 15.5 15.5 A TDR method 9350 "See Phys Rev.B, 78(2008)214515" Doping evolution of the absolute value of the London penetration depth and superfluid density in single crystals of Ba(Fe1-xCox)2As2 2010 "Ames Laboratory, U.S. DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)054507"
152284 PRB082054507 "Co-content determined from WDS. [penet] from TDR method. Al-film coating (Tc=1.2 K, [penet] = 50 nm) to obtain absolute [penet] values." "Ba(Fe,Co)2As2" Ba1Fe1.906Co0.094As2 Ba 1 Fe 1.906 Co 0.094 As 2 3 2010 AB2C2 ThCr2Si2 K 18.5 18.5 A TDR method 2580 "See Phys Rev.B, 78(2008)214515" Doping evolution of the absolute value of the London penetration depth and superfluid density in single crystals of Ba(Fe1-xCox)2As2 2010 "Ames Laboratory, U.S. DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)054507"
152285 PRB082054507 "Co-content determined from WDS. [penet] from TDR method. Al-film coating (Tc=1.2 K, [penet] = 50 nm) to obtain absolute [penet] values." "Ba(Fe,Co)2As2" Ba1Fe1.906Co0.094As2 Ba 1 Fe 1.906 Co 0.094 As 2 3 2010 AB2C2 ThCr2Si2 K 18.3 18.3 A TDR method 2850 "See Phys Rev.B, 78(2008)214515" Doping evolution of the absolute value of the London penetration depth and superfluid density in single crystals of Ba(Fe1-xCox)2As2 2010 "Ames Laboratory, U.S. DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)054507"
152286 PRB082054507 "Co-content determined from WDS. [penet] from TDR method. Al-film coating (Tc=1.2 K, [penet] = 50 nm) to obtain absolute [penet] values." "Ba(Fe,Co)2As2" Ba1Fe1.892Co0.108As2 Ba 1 Fe 1.892 Co 0.108 As 2 3 2010 AB2C2 ThCr2Si2 K 20.5 20.5 A TDR method 3050 "See Phys Rev.B, 78(2008)214515" Doping evolution of the absolute value of the London penetration depth and superfluid density in single crystals of Ba(Fe1-xCox)2As2 2010 "Ames Laboratory, U.S. DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)054507"
152287 PRB082054507 "Co-content determined from WDS. [penet] from TDR method. Al-film coating (Tc=1.2 K, [penet] = 50 nm) to obtain absolute [penet] values." "Ba(Fe,Co)2As2" Ba1Fe1.884Co0.116As2 Ba 1 Fe 1.884 Co 0.116 As 2 3 2010 AB2C2 ThCr2Si2 K 23.3 23.3 A TDR method 1950 "See Phys Rev.B, 78(2008)214515" Doping evolution of the absolute value of the London penetration depth and superfluid density in single crystals of Ba(Fe1-xCox)2As2 2010 "Ames Laboratory, U.S. DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)054507"
152288 PRB082054507 "Co-content determined from WDS. [penet] from TDR method. Al-film coating (Tc=1.2 K, [penet] = 50 nm) to obtain absolute [penet] values." "Ba(Fe,Co)2As2" Ba1Fe1.874Co0.126As2 Ba 1 Fe 1.874 Co 0.126 As 2 3 2010 AB2C2 ThCr2Si2 K 23.4 23.4 A TDR method 1500 "See Phys Rev.B, 78(2008)214515" Doping evolution of the absolute value of the London penetration depth and superfluid density in single crystals of Ba(Fe1-xCox)2As2 2010 "Ames Laboratory, U.S. DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)054507"
152289 PRB082054507 "Co-content determined from WDS. [penet] from TDR method. Al-film coating (Tc=1.2 K, [penet] = 50 nm) to obtain absolute [penet] values." "Ba(Fe,Co)2As2" Ba1Fe1.874Co0.126As2 Ba 1 Fe 1.874 Co 0.126 As 2 3 2010 AB2C2 ThCr2Si2 K 23.5 23.5 A TDR method 2170 "See Phys Rev.B, 78(2008)214515" Doping evolution of the absolute value of the London penetration depth and superfluid density in single crystals of Ba(Fe1-xCox)2As2 2010 "Ames Laboratory, U.S. DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)054507"
152290 PRB082054507 "Co-content determined from WDS. [penet] from TDR method. Al-film coating (Tc=1.2 K, [penet] = 50 nm) to obtain absolute [penet] values." "Ba(Fe,Co)2As2" Ba1Fe1.852Co0.148As2 Ba 1 Fe 1.852 Co 0.148 As 2 3 2010 AB2C2 ThCr2Si2 K 22.8 22.8 A TDR method 2700 "See Phys Rev.B, 78(2008)214515" Doping evolution of the absolute value of the London penetration depth and superfluid density in single crystals of Ba(Fe1-xCox)2As2 2010 "Ames Laboratory, U.S. DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)054507"
152291 PRB082054507 "Co-content determined from WDS. [penet] from TDR method. Al-film coating (Tc=1.2 K, [penet] = 50 nm) to obtain absolute [penet] values." "Ba(Fe,Co)2As2" Ba1Fe1.824Co0.176As2 Ba 1 Fe 1.824 Co 0.176 As 2 3 2010 AB2C2 ThCr2Si2 K 21.1 21.1 A TDR method 1210 "See Phys Rev.B, 78(2008)214515" Doping evolution of the absolute value of the London penetration depth and superfluid density in single crystals of Ba(Fe1-xCox)2As2 2010 "Ames Laboratory, U.S. DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)054507"
152292 PRB082054507 "Co-content determined from WDS. [penet] from TDR method. Al-film coating (Tc=1.2 K, [penet] = 50 nm) to obtain absolute [penet] values." "Ba(Fe,Co)2As2" Ba1Fe1.824Co0.176As2 Ba 1 Fe 1.824 Co 0.176 As 2 3 2010 AB2C2 ThCr2Si2 K 21 21 A TDR method 1400 "See Phys Rev.B, 78(2008)214515" Doping evolution of the absolute value of the London penetration depth and superfluid density in single crystals of Ba(Fe1-xCox)2As2 2010 "Ames Laboratory, U.S. DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)054507"
152293 PRB082054507 "Co-content determined from WDS. [penet] from TDR method. Al-film coating (Tc=1.2 K, [penet] = 50 nm) to obtain absolute [penet] values." "Ba(Fe,Co)2As2" Ba1Fe1.8Co0.2As2 Ba 1 Fe 1.8 Co 0.2 As 2 3 2010 AB2C2 ThCr2Si2 K 17.2 17.2 A TDR method 1820 "See Phys Rev.B, 78(2008)214515" Doping evolution of the absolute value of the London penetration depth and superfluid density in single crystals of Ba(Fe1-xCox)2As2 2010 "Ames Laboratory, U.S. DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)054507"
152294 PRB082054506 LaFeAsO0.85 La1Fe1As1O0.85 La 1 Fe 1 As 1 O 0.85 2010 oxypnictide A 4.0325 8.7134 ZrCuSiAs-type K 24 24 "solid state reaction - sealed in Au - heat(1300C,2h,P=6 GPa, in h-BN cell) - Q to RT" Large decrease in the critical temperature of superconducting LaFeAsO0.85 compounds doped with 3% atomic weight of nonmagnetic Zn impurities 2010 "International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 82(2010)054506"
152295 PRB082054506 lattice term in SP (beta) = 2.79 E-4 J/mol.K4 "La(Fe,Zn)AsO0.85" La1Fe0.995Zn0.005As1O0.85 La 1 Fe 0.995 Zn 0.005 As 1 O 0.85 2010 oxypnictide A 4.0305 8.7141 ZrCuSiAs-type K 14.1 14.1 mJ/mol.K2 2 SP-heat 299 SP-heat "solid state reaction - sealed in Au - heat(1300C,2h,P=6 GPa, in h-BN cell) - Q to RT" Large decrease in the critical temperature of superconducting LaFeAsO0.85 compounds doped with 3% atomic weight of nonmagnetic Zn impurities 2010 "International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 82(2010)054506"
152296 PRB082054506 (dTc/dx) = 9 K/at%Zn "La(Fe,Zn)AsO0.85" La1Fe0.99Zn0.01As1O0.85 La 1 Fe 0.99 Zn 0.01 As 1 O 0.85 2010 oxypnictide A 4.0292 8.7149 ZrCuSiAs-type K 10.04 10.04 "solid state reaction - sealed in Au - heat(1300C,2h,P=6 GPa, in h-BN cell) - Q to RT" Large decrease in the critical temperature of superconducting LaFeAsO0.85 compounds doped with 3% atomic weight of nonmagnetic Zn impurities 2010 "International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 82(2010)054506"
152297 PRB082054506 "La(Fe,Zn)AsO0.85" La1Fe0.985Zn0.015As1O0.85 La 1 Fe 0.985 Zn 0.015 As 1 O 0.85 2010 oxypnictide A 4.0271 8.7155 ZrCuSiAs-type K 6.01 6.01 "solid state reaction - sealed in Au - heat(1300C,2h,P=6 GPa, in h-BN cell) - Q to RT" Large decrease in the critical temperature of superconducting LaFeAsO0.85 compounds doped with 3% atomic weight of nonmagnetic Zn impurities 2010 "International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 82(2010)054506"
152298 PRB082054506 "La(Fe,Zn)AsO0.85" La1Fe0.98Zn0.02As1O0.85 La 1 Fe 0.98 Zn 0.02 As 1 O 0.85 2010 oxypnictide A 4.026 8.7159 ZrCuSiAs-type K 4.32 4.32 "solid state reaction - sealed in Au - heat(1300C,2h,P=6 GPa, in h-BN cell) - Q to RT" Large decrease in the critical temperature of superconducting LaFeAsO0.85 compounds doped with 3% atomic weight of nonmagnetic Zn impurities 2010 "International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 82(2010)054506"
152299 PRL105087001 RH become positive below 115 K. [RH300] at 294 K. "Ba(Fe,Ru)2As2" Ba1Fe1.3Ru0.7As2 Ba 1 Fe 1.3 Ru 0.7 As 2 3 2010 AB2C2 ThCr2Si2 A 4.0344 12.76 K 19.5 19.5 m3/C -2.81E-10 MRH152299 self-flux method Significant Reduction of Electronic Correlations upon Isovalent Ru Substitution of BaFe2As2 2010 "Laboratoire de Physique des Solides, Universite Paris Sud, CNRS-UMR8502, 91405 Orsay, France" "Phys.Rev.Lett., 105(2010)087001"
152300 PRB081224503 cleaved sample(d=20 micron-m). T = 137 K "Ba(Fe,Ru)2As2" Ba1Fe2As2 Ba 1 Fe 2 As 2 1 2010 AB2C2 ThCr2Si2 3.9633 13.022 K 4 "FeAs/Ru + As self-flux method. mixture - sealed in evacuated quartz (aluminum crucible) - heat(1180C,4h) - slow cool to 1000C(3-6 C/h) - rapid cool to RT" Hole and electron contributions to the transport properties of Ba(Fe1-xRux)2As2 single crystals 2010 "Service de Physique de lEtat Condense, Orme des Merisiers, IRAMIS, CEA-Saclay (CNRS URA 2464), 91191 Gif sur Yvette Cedex, France" "Phys.Rev.B, 81(2010)224503"
152301 PRB081224503 cleaved sample(d=20 micron-m). T = 77.8 K "Ba(Fe,Ru)2As2" Ba1Fe1.64Ru0.36As2 Ba 1 Fe 1.64 Ru 0.36 As 2 1 2010 AB2C2 ThCr2Si2 K 8.43 8.43 "FeAs/Ru + As self-flux method. mixture - sealed in evacuated quartz (aluminum crucible) - heat(1180C,4h) - slow cool to 1000C(3-6 C/h) - rapid cool to RT" Hole and electron contributions to the transport properties of Ba(Fe1-xRux)2As2 single crystals 2010 "Service de Physique de lEtat Condense, Orme des Merisiers, IRAMIS, CEA-Saclay (CNRS URA 2464), 91191 Gif sur Yvette Cedex, France" "Phys.Rev.B, 81(2010)224503"
152302 PRB081224503 cleaved sample(d=20 micron-m). T = 54.9 K "Ba(Fe,Ru)2As2" Ba1Fe1.48Ru0.52As2 Ba 1 Fe 1.48 Ru 0.52 As 2 1 2010 AB2C2 ThCr2Si2 K 18.9 18.9 MTC152302 "FeAs/Ru + As self-flux method. mixture - sealed in evacuated quartz (aluminum crucible) - heat(1180C,4h) - slow cool to 1000C(3-6 C/h) - rapid cool to RT" Hole and electron contributions to the transport properties of Ba(Fe1-xRux)2As2 single crystals 2010 "Service de Physique de lEtat Condense, Orme des Merisiers, IRAMIS, CEA-Saclay (CNRS URA 2464), 91191 Gif sur Yvette Cedex, France" "Phys.Rev.B, 81(2010)224503"
152303 PRB081224503 cleaved sample(d=20 micron-m). "Ba(Fe,Ru)2As2" Ba1Fe1.3Ru0.7As2 Ba 1 Fe 1.3 Ru 0.7 As 2 1 2010 AB2C2 ThCr2Si2 A 4.0347 12.766 K 19.6 19.6 "FeAs/Ru + As self-flux method. mixture - sealed in evacuated quartz (aluminum crucible) - heat(1180C,4h) - slow cool to 1000C(3-6 C/h) - rapid cool to RT" Hole and electron contributions to the transport properties of Ba(Fe1-xRux)2As2 single crystals 2010 "Service de Physique de lEtat Condense, Orme des Merisiers, IRAMIS, CEA-Saclay (CNRS URA 2464), 91191 Gif sur Yvette Cedex, France" "Phys.Rev.B, 81(2010)224503"
152304 PRB081224503 cleaved sample(d=20 micron-m). "Ba(Fe,Ru)2As2" Ba1Fe1.24Ru0.76As2 Ba 1 Fe 1.24 Ru 0.76 As 2 1 2010 AB2C2 ThCr2Si2 A 4.0342 12.749 K 7.1 7.1 "FeAs/Ru + As self-flux method. mixture - sealed in evacuated quartz (aluminum crucible) - heat(1180C,4h) - slow cool to 1000C(3-6 C/h) - rapid cool to RT" Hole and electron contributions to the transport properties of Ba(Fe1-xRux)2As2 single crystals 2010 "Service de Physique de lEtat Condense, Orme des Merisiers, IRAMIS, CEA-Saclay (CNRS URA 2464), 91191 Gif sur Yvette Cedex, France" "Phys.Rev.B, 81(2010)224503"
152305 PRB081224503 cleaved sample(d=20 micron-m). T = 132 K "Ba(Fe,Ru)2As2" Ba1Fe1.9Ru0.1As2 Ba 1 Fe 1.9 Ru 0.1 As 2 1 2010 AB2C2 ThCr2Si2 K 4 MRH152305 "FeAs/Ru + As self-flux method. mixture - sealed in evacuated quartz (aluminum crucible) - heat(1180C,4h) - slow cool to 1000C(3-6 C/h) - rapid cool to RT" Hole and electron contributions to the transport properties of Ba(Fe1-xRux)2As2 single crystals 2010 "Service de Physique de lEtat Condense, Orme des Merisiers, IRAMIS, CEA-Saclay (CNRS URA 2464), 91191 Gif sur Yvette Cedex, France" "Phys.Rev.B, 81(2010)224503"
152306 PRB082054504 "interlayer distance, d=9.35 A." LixZrNCl Li0.13Zr1N1Cl1 Li 0.13 Zr 1 N 1 Cl 1 2010 K 12.2 12.2 3.4 14 mJ/mol.K2 1.1 SP-heat See text. Superconductivity in molecule-intercalated LixZrNCl with variable interlayer spacing 2010 "Quantum-Phase Electronics Center, School of Engineering, University of Tokyo, Tokyo 113-8656, Japan" "Phys.Rev.B, 82(2010)054504"
152307 PRB082054504 "M = C3H7NO. interlayer distance, d = 13.0 A.." LixMyZrNCl Li0.13M0.26Zr1N1Cl1 Li 0.13 M 0.26 Zr 1 N 1 Cl 1 2010 K 13.7 13.7 4 14 mJ/mol.K2 1.2 SP-heat See text. Superconductivity in molecule-intercalated LixZrNCl with variable interlayer spacing 2010 "Quantum-Phase Electronics Center, School of Engineering, University of Tokyo, Tokyo 113-8656, Japan" "Phys.Rev.B, 82(2010)054504"
152308 PRB082054504 "M = (CH3)2SO. interlayer distance, d = 17.7 A.." LixMyZrNCl Li0.13M0.39Zr1N1Cl1 Li 0.13 M 0.39 Zr 1 N 1 Cl 1 2010 K 13.1 13.1 4.2 14 mJ/mol.K2 1.2 SP-heat See text. Superconductivity in molecule-intercalated LixZrNCl with variable interlayer spacing 2010 "Quantum-Phase Electronics Center, School of Engineering, University of Tokyo, Tokyo 113-8656, Japan" "Phys.Rev.B, 82(2010)054504"
152309 PRB082054504 "interlayer distance, d=9.35 A." LixZrNCl Li0.05Zr1N1Cl1 Li 0.05 Zr 1 N 1 Cl 1 2010 K 15 15 See text. Superconductivity in molecule-intercalated LixZrNCl with variable interlayer spacing 2010 "Quantum-Phase Electronics Center, School of Engineering, University of Tokyo, Tokyo 113-8656, Japan" "Phys.Rev.B, 82(2010)054504"
152310 PRB082054504 "M = C3H7NO. interlayer distance, d = 13.0 A.." LixMyZrNCl Li0.05M0.26Zr1N1Cl1 Li 0.05 M 0.26 Zr 1 N 1 Cl 1 2010 K 15 15 See text. Superconductivity in molecule-intercalated LixZrNCl with variable interlayer spacing 2010 "Quantum-Phase Electronics Center, School of Engineering, University of Tokyo, Tokyo 113-8656, Japan" "Phys.Rev.B, 82(2010)054504"
152311 PRB082054504 "M = (CH3)2SO. interlayer distance, d = 17.7 A.." LixMyZrNCl Li0.05M0.39Zr1N1Cl1 Li 0.05 M 0.39 Zr 1 N 1 Cl 1 2010 K 14.2 14.2 See text. Superconductivity in molecule-intercalated LixZrNCl with variable interlayer spacing 2010 "Quantum-Phase Electronics Center, School of Engineering, University of Tokyo, Tokyo 113-8656, Japan" "Phys.Rev.B, 82(2010)054504"
152312 PRB082024519 structural transition (tetra-ortho) at 134 K. magnetic transition at 134 K. BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 2010 AB2C2 ThCr2Si2 A 3.9621 13.018 K 2 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152313 PRB082024519 structural transition (tetra-ortho) at 121 K. magnetic transition at 118 K. "Ba(Fe,Ni)2As2" Ba1Fe1.9866Ni0.0134As2 Ba 1 Fe 1.9866 Ni 0.0134 As 2 2010 AB2C2 ThCr2Si2 A 3.9606 13.016 K 2 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152314 PRB082024519 structural transition (tetra-ortho) at 100 K. magnetic transition at 94 K. "Ba(Fe,Ni)2As2" Ba1Fe1.968Ni0.032As2 Ba 1 Fe 1.968 Ni 0.032 As 2 2010 AB2C2 ThCr2Si2 A 3.9615 13.008 K 2 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152315 PRB082024519 structural transition (tetra-ortho) at 77 K. magnetic transition at 66 K. "Ba(Fe,Ni)2As2" Ba1Fe1.952Ni0.048As2 Ba 1 Fe 1.952 Ni 0.048 As 2 2010 AB2C2 ThCr2Si2 A 3.9615 13.001 K 6.8 8.6 3.9 3.9 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152316 PRB082024519 "Ba(Fe,Ni)2As2" Ba1Fe1.936Ni0.064As2 Ba 1 Fe 1.936 Ni 0.064 As 2 2010 AB2C2 ThCr2Si2 A 3.9614 12.997 K 15.9 16.6 15.1 15.1 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152317 PRB082024519 "Ba(Fe,Ni)2As2" Ba1Fe1.908Ni0.092As2 Ba 1 Fe 1.908 Ni 0.092 As 2 2010 AB2C2 ThCr2Si2 A 3.9628 12.987 K 18.8 19.4 18.4 18.4 T "resistivity(on), WHH" 80 40 T/K resistivity(on) 5.7 3 MHC152317 A from Hc2 30 14 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152318 PRB082024519 "Ba(Fe,Ni)2As2" Ba1Fe1.892Ni0.108As2 Ba 1 Fe 1.892 Ni 0.108 As 2 2010 AB2C2 ThCr2Si2 A 3.9625 12.982 K 14.3 15.5 14.4 14.4 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152319 PRB082024519 "Ba(Fe,Ni)2As2" Ba1Fe1.856Ni0.144As2 Ba 1 Fe 1.856 Ni 0.144 As 2 2010 AB2C2 ThCr2Si2 A 3.9638 12.976 K 5.7 7.5 6 6 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152320 PRB082024519 structural transition (tetra-ortho) at 119 K. magnetic transition at 117 K. "Ba(Fe,Cu)2As2" Ba1Fe1.9846Cu0.0154As2 Ba 1 Fe 1.9846 Cu 0.0154 As 2 2010 AB2C2 ThCr2Si2 A 3.9636 13.0136 K 2 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152321 PRB082024519 structural transition (tetra-ortho) at 93 K. magnetic transition at 86 K. "Ba(Fe,Cu)2As2" Ba1Fe1.856Cu0.04As2 Ba 1 Fe 1.856 Cu 0.04 As 2 2010 AB2C2 ThCr2Si2 A 3.9647 13.0046 K 2 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152322 PRB082024519 structural transition (tetra-ortho) at 79 K. magnetic transition at 71 K. "Ba(Fe,Cu)2As2" Ba1Fe1.856Cu0.052As2 Ba 1 Fe 1.856 Cu 0.052 As 2 2010 AB2C2 ThCr2Si2 A 3.9668 13.0063 K 2 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152323 PRB082024519 structural transition (tetra-ortho) at 57 K. magnetic transition at 48 K. "Ba(Fe,Cu)2As2" Ba1Fe1.856Cu0.07As2 Ba 1 Fe 1.856 Cu 0.07 As 2 2010 AB2C2 ThCr2Si2 A 3.9674 12.997 K 2 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152324 PRB082024519 "SC regin is very small (maybe, 0.04 < x , 0.045 in Ba(Fe1-xCux)2As2)" "Ba(Fe,Cu)2As2" Ba1Fe1.856Cu0.088As2 Ba 1 Fe 1.856 Cu 0.088 As 2 2010 AB2C2 ThCr2Si2 K 2.1 2.2 2.15 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152325 PRB082024519 structural transition (tetra-ortho) at 103 K. magnetic transition at 99 K. "Ba(Fe,Cu)2As2" Ba1Fe1.856Cu0.1As2 Ba 1 Fe 1.856 Cu 0.1 As 2 2010 AB2C2 ThCr2Si2 A 3.9723 13.001 K 2 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152326 PRB082024519 structural transition (tetra-ortho) at 85 K. magnetic transition at 78 K. "Ba(Fe,Cu)2As2" Ba1Fe1.856Cu0.122As2 Ba 1 Fe 1.856 Cu 0.122 As 2 2010 AB2C2 ThCr2Si2 A 3.9756 12.9937 K 2 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152327 PRB082024519 structural transition (tetra-ortho) at 75 K. magnetic transition at 68 K. "Ba(Fe,Co)2As2" Ba1Fe1.952Co0.048As2 Ba 1 Fe 1.952 Co 0.048 As 2 2010 AB2C2 ThCr2Si2 K 2 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152328 PRB082024519 structural transition (tetra-ortho) at 41 K. magnetic transition at 29 K. "Ba(Fe,Co,Cu)2As2" Ba1Fe1.942Co0.048Cu0.01As2 Ba 1 Fe 1.942 Co 0.048 Cu 0.01 As 2 2010 AB2C2 ThCr2Si2 K 2 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152329 PRB082024519 "Ba(Fe,Co,Cu)2As2" Ba1Fe1.936Co0.044Cu0.02As2 Ba 1 Fe 1.936 Co 0.044 Cu 0.02 As 2 2010 AB2C2 ThCr2Si2 K 0 4.7 2.35 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152330 PRB082024519 "Ba(Fe,Co,Cu)2As2" Ba1Fe1.918Co0.044Cu0.038As2 Ba 1 Fe 1.918 Co 0.044 Cu 0.038 As 2 2010 AB2C2 ThCr2Si2 K 9 11 8.7 8.7 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152331 PRB082024519 "Ba(Fe,Co,Cu)2As2" Ba1Fe1.906Co0.042Cu0.052As2 Ba 1 Fe 1.906 Co 0.042 Cu 0.052 As 2 2010 AB2C2 ThCr2Si2 K 11 12.1 11.6 11.6 T "resistivity(on), WHH" 64 28 T/K resistivity(on) 7.8 3.5 MHC152331 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152332 PRB082024519 "Ba(Fe,Co,Cu)2As2" Ba1Fe1.894Co0.042Cu0.064As2 Ba 1 Fe 1.894 Co 0.042 Cu 0.064 As 2 2010 AB2C2 ThCr2Si2 K 8.3 8.9 9.6 9.6 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152333 PRB082024519 "Ba(Fe,Co,Cu)2As2" Ba1Fe1.872Co0.042Cu0.086As2 Ba 1 Fe 1.872 Co 0.042 Cu 0.086 As 2 2010 AB2C2 ThCr2Si2 K 2 4.6 4.3 4.3 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152334 PRB082024519 structural transition (tetra-ortho) at 59 K. magnetic transition at 40 K. "Ba(Fe,Co)2As2" Ba1Fe1.906Co0.094As2 Ba 1 Fe 1.906 Co 0.094 As 2 2010 AB2C2 ThCr2Si2 K 16.5 17.8 17.15 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152335 PRB082024519 structural transition (tetra-ortho) at 48 K. "Ba(Fe,Co,Cu)2As2" Ba1Fe1.889Co0.102Cu0.009As2 Ba 1 Fe 1.889 Co 0.102 Cu 0.009 As 2 2010 AB2C2 ThCr2Si2 K 20.4 21.5 20.95 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152336 PRB082024519 "Ba(Fe,Co,Cu)2As2" Ba1Fe1.868Co0.094Cu0.038As2 Ba 1 Fe 1.868 Co 0.094 Cu 0.038 As 2 2010 AB2C2 ThCr2Si2 K 15.2 15.9 15.55 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152337 PRB082024519 "Ba(Fe,Co,Cu)2As2" Ba1Fe1.838Co0.094Cu0.068As2 Ba 1 Fe 1.838 Co 0.094 Cu 0.068 As 2 2010 AB2C2 ThCr2Si2 K 4.6 6 5.3 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152338 PRB082024519 "Ba(Fe,Co,Cu)2As2" Ba1Fe1.818Co0.09Cu0.092As2 Ba 1 Fe 1.818 Co 0.09 Cu 0.092 As 2 2010 AB2C2 ThCr2Si2 K 2 "Temperature versus doping phase diagrams for Ba(Fe1-xTMx)2As2 (TM=Ni,Cu,Cu/Co) single crystals" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)024519"
152339 PRB082024520 energy gap calculated from muon-SR(TF=500G) fitting. fitting Tc = 3.8 K. Mg10Ir19B16 Mg10Ir19B16 Mg 10 Ir 19 B 16 2010 A10B16C19 I4[-]3m A 10.5629 K 3.8 4.8 3.8 A muon-SR 3570 meV 1.6 4.74 16 solid state reaction Muon spin rotation/relaxation measurements of the noncentrosymmetric superconductor Mg10Ir19B16 2010 "Department of Physics and Astronomy, McMaster University, Hamilton, Ontario, Canada L8S 4M1" "Phys.Rev.B, 82(2010)024520"
152340 PRB082024520 energy gap calculated from muon-SR(TF=500G) fitting. fitting Tc = 3.7 K. Mg10Ir19B16 Mg10Ir19B16 Mg 10 Ir 19 B 16 2010 A10B16C19 I4[-]3m A 10.5655 K 3.7 4.6 3.7 A muon-SR 3230 meV 1.6 4.93 16 solid state reaction Muon spin rotation/relaxation measurements of the noncentrosymmetric superconductor Mg10Ir19B16 2010 "Department of Physics and Astronomy, McMaster University, Hamilton, Ontario, Canada L8S 4M1" "Phys.Rev.B, 82(2010)024520"
152341 NAT4440465 B-doped Si. two phases: 5.7at%B (2.8 E+21 B/cm3) and 8.4at%B (4.2 E+21 B/cm3) B-doped Si B0.057Si0.943 B 0.057 Si 0.943 2006 diamond K 0.15 0.4 0.34 0.34 T "resistivity, extrapolation" 0.39 MHC152341 "gas immersion laser doping method. chemical absorbed (BCl3) on (001) Si-wafer, then UV laser, melt and defuse into Si" Superconductivity in doped cubic silicon 2006 "Laboratoire dEtudes des Proprietes Electroniques des Solides, CNRS, BP166, 38042 Grenoble, France" "Nature, 444(2006)465"
152342 JPS076103710 B substitutes for C. GL parameter = 0.3 (type-I SC). supercooling appears. Hc(0) = 115 Oe for warming (S-to-N) . B-doped SiC B0.039C0.961Si1 B 0.039 C 0.961 Si 1 2007 K 1.4 0.15 1.4 Oe "resistivity, extrapolation" 80 MHC152342 7 n/cm3 1.91E+21 "beta-SiC,Si,a-B" "mixture - pellet - SIN(1620C,12h,in flowing gas(Ar + H))" Superconductivity in Boron-doped SiC 2007 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara, Kanagawa 229-8558" "J.Phys.Soc.Jpn, 76(2007)103710"
152343 JPS076103710 B substitutes for C. B-doped SiC B0.978C0.022Si1 B 0.978 C 0.022 Si 1 2007 K 1.35 0.15 1.35 7 n/cm3 1.06E+21 "beta-SiC,Si,a-B" "mixture - pellet - SIN(1620C,12h,in flowing gas(Ar + H))" Superconductivity in Boron-doped SiC 2007 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara, Kanagawa 229-8558" "J.Phys.Soc.Jpn, 76(2007)103710"
152344 PRB082054510 under doped sample. anisotropy depends on temperature and magnetic field. SmBa2Cu3O7 Sm1Ba2Cu3O7-z Sm 1 Ba 2 Cu 3 O 7-z 3 2010 Y123 A 3.8619 3.9092 11.7738 K 42.8 42.8 T "magnetization, WHH" 7.5 T/K magnetization 0.24 "single crystals grown by top-seeded solution growth. ANN(490 - 505 C, in flowing O+He gas" Evidence for a temperature dependent anisotropy of the superconducting state parameters in underdoped SmBa2Cu3Ox 2010 "Institute of Physics, Polish Academy of Sciences, Aleja Lotnikow 32/46, PL-02-668 Warsaw, Poland" "Phys.Rev.B, 82(2010)054510"
152345 PRB082054510 under doped sample. anisotropy depends on temperature and magnetic field. SmBa2Cu3O7 Sm1Ba2Cu3O7-z Sm 1 Ba 2 Cu 3 O 7-z 3 2010 Y123 A 3.8573 3.9131 11.7585 K 51.5 51.5 T "magnetization, WHH" 16.8 T/K magnetization 0.45 "single crystals grown by top-seeded solution growth. ANN(490 - 505 C, in flowing O+He gas" Evidence for a temperature dependent anisotropy of the superconducting state parameters in underdoped SmBa2Cu3Ox 2010 "Institute of Physics, Polish Academy of Sciences, Aleja Lotnikow 32/46, PL-02-668 Warsaw, Poland" "Phys.Rev.B, 82(2010)054510"
152346 PRB082054510 under doped sample. anisotropy depends on temperature and magnetic field. SmBa2Cu3O7 Sm1Ba2Cu3O7-z Sm 1 Ba 2 Cu 3 O 7-z 3 2010 Y123 A 3.8533 3.9131 11.7491 K 56.5 56.5 T "magnetization, WHH" 24.6 T/K magnetization 0.6 "single crystals grown by top-seeded solution growth. ANN(490 - 505 C, in flowing O+He gas" Evidence for a temperature dependent anisotropy of the superconducting state parameters in underdoped SmBa2Cu3Ox 2010 "Institute of Physics, Polish Academy of Sciences, Aleja Lotnikow 32/46, PL-02-668 Warsaw, Poland" "Phys.Rev.B, 82(2010)054510"
152347 PRB082054510 under doped sample. anisotropy depends on temperature and magnetic field. SmBa2Cu3O7 Sm1Ba2Cu3O7-z Sm 1 Ba 2 Cu 3 O 7-z 3 2010 Y123 A 3.8516 3.9131 11.7438 K 63.6 63.6 T "magnetization, WHH" 48.5 T/K magnetization 1.05 "single crystals grown by top-seeded solution growth. ANN(490 - 505 C, in flowing O+He gas" Evidence for a temperature dependent anisotropy of the superconducting state parameters in underdoped SmBa2Cu3Ox 2010 "Institute of Physics, Polish Academy of Sciences, Aleja Lotnikow 32/46, PL-02-668 Warsaw, Poland" "Phys.Rev.B, 82(2010)054510"
152348 PRL098047003 "(111) diamond film, n = 8.4 E+21 /cm3. B/C = 5%. energy gap measured by PES. gap(4.5K) = 0.78 meV. [gapene] obtained byasuming BCS-like T-dependency." B-doped C B0.048C0.952 B 0.048 C 0.952 2007 diamond K 6.6 6.6 3.56 9 microwave plasma CVD Observation of a Superconducting Gap in Boron-Doped Diamond by Laser-Excited Photoemission Spectroscopy 2007 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.Lett., 98(2007)047003"
152349 PRB082094506 P-induced SC. P = 23 GPa. Tc(max) = 2 K(P=65GPa). lattice const. a = 4.879 A for fcc at P= 23 GPa. BI3 B1I3 B 1 I 3 2010 AB3 P6<3>/m A 4.879 K 1.86 0 1.86 MTC152349 from Sigma Aldrich Japan "Pressure-induced phase transition, metallization, and superconductivity in boron triiodide" 2010 "Graduate School of Humanities and Sciences, Ochanomizu University, 2-1-1 Ohtsuka, Bunkyo-ku, Tokyo 112-8610, Japan" "Phys.Rev.B, 82(2010)094506"
152350 PRB082052501 difference of Tc comes from Ir-vacancies. [RH300] shows at 280 K. Mg12Ir19B16 Mg12Ir19B16 Mg 12 Ir 19 B 16 2010 A12B16C19 K 2.5 2.5 m3/C -3.48E-10 9 MRH152350 Multiband effect in the noncentrosymmetric superconductors Mg12-zIr19B16 revealed by Hall effect and magnetoresistance measurements 2010 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" "Phys.Rev.B, 82(2010)052501"
152351 PRB082052501 difference of Tc comes from Ir-vacancies. [RH300] shows at 280 K. Mg12Ir19B16 Mg12Ir19B16 Mg 12 Ir 19 B 16 2010 A12B16C19 K 4.7 4.7 m3/C -3.29E-10 9 MRH152351 Multiband effect in the noncentrosymmetric superconductors Mg12-zIr19B16 revealed by Hall effect and magnetoresistance measurements 2010 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" "Phys.Rev.B, 82(2010)052501"
152352 PRB082052501 difference of Tc comes from Ir-vacancies. [RH300] shows at 280 K. Mg12Ir19B16 Mg12Ir19B16 Mg 12 Ir 19 B 16 2010 A12B16C19 K 5.7 5.7 m3/C -1.58E-10 9 MRH152352 Multiband effect in the noncentrosymmetric superconductors Mg12-zIr19B16 revealed by Hall effect and magnetoresistance measurements 2010 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" "Phys.Rev.B, 82(2010)052501"
152353 JPC020095225 Tc defined as 0.5Rn. RRR=10.6. hidden order T0 and AFM order Tn shown in Fig. (dT0/dp) = 0.10 K/kbar. (dTn/dP) = 0.23 K/kbar. URu2Si2 U1Ru2Si2 U 1 Ru 2 Si 2 3 2008 AB2C2 ThCr2Si2 A 4.14 9.56 K 1.41 1.41 MPH152353 MHC152353 "tri-arc furnace equipped with Czochralski crystal puller. ANN(900C,7d,in 150 Torr Ar)" The evolution of the ordered states of single-crystal URu2Si2 under pressure 2008 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "J.Phys.: Condens.Matter, 20(2008)095225"
152354 PRB082064517 "(Sm,Th)OFeAs" Sm0.9Th0.1Fe1As1O1 Sm 0.9 Th 0.1 Fe 1 As 1 O 1 1 2010 ABCD oxypnictide ZrCuSiAs-type K 51.4 51.4 HIR152354 "SmAs,ThAs,Fe2O3,Fe" high-P synthesis Th-substituted SmFeAsO: Structural details and superconductivity with Tc above 50 K 2010 "Laboratory for Solid State Physics, ETH Zurich, Schafmattstrasse 16, CH-8093 Zurich, Switzerland" "Phys.Rev.B, 82(2010)064517"
152355 PRB082064517 "(Sm,Th)OFeAs" Sm0.89Th0.11Fe1As1O1 Sm 0.89 Th 0.11 Fe 1 As 1 O 1 3 2010 ABCD oxypnictide A 3.9369 8.451 ZrCuSiAs-type K 47.4 48.9 49.7 49.5 48.9 T/K 5.4 2.7 "SmAs,ThAs,Fe2O3,Fe" high-P synthesis Th-substituted SmFeAsO: Structural details and superconductivity with Tc above 50 K 2010 "Laboratory for Solid State Physics, ETH Zurich, Schafmattstrasse 16, CH-8093 Zurich, Switzerland" "Phys.Rev.B, 82(2010)064517"
152356 PRB082064517 "(Sm,Th)OFeAs" Sm0.65Th0.35Fe1As1O1 Sm 0.65 Th 0.35 Fe 1 As 1 O 1 2010 ABCD oxypnictide ZrCuSiAs-type K 53 53 "SmAs,ThAs,Fe2O3,Fe" high-P synthesis Th-substituted SmFeAsO: Structural details and superconductivity with Tc above 50 K 2010 "Laboratory for Solid State Physics, ETH Zurich, Schafmattstrasse 16, CH-8093 Zurich, Switzerland" "Phys.Rev.B, 82(2010)064517"
152357 PRB082094502 "Anisotropy = 1.44 at P = 0. P=0.94 GPa: Tc=28.0K, cohere(ab)=35.7A, cohere(c)=15.4A. P=2.15GPa: Tc=24.5K, cohere(ab)=42.6A, cohere(c)=14.5A" "BaFe2(As,P)2" Ba1Fe2As1.3P0.7 Ba 1 Fe 2 As 1.3 P 0.7 3 2010 AB2C2 ThCr2Si2 A 3.9266 12.8271 K 30.5 30.5 K/GPa -1.8 T WHH approx. 50.7 35.1 T/K 2.4 1.67 MHC152357 A from Hc2 30.6 21.2 "mixture - sealed in evacuated quartz tube - heat(1150C-1200C,12h) - slow cool to 900C(1.5C/h)" Anisotropic superconducting properties of optimally doped BaFe2(As0.65P0.35)2 under pressure 2010 "Cavendish Laboratory, University of Cambridge, J.J. Thomson Avenue, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.B, 82(2010)094502"
152358 CHM0207201 Th:Nd:O:Fe:As = 5.5:22:24:26.1:22.4. impurity phase : ThO2 "(Nd,Th)OFeAs" Nd0.8Th0.2Fe1As1O1 Nd 0.8 Th 0.2 Fe 1 As 1 O 1 2008 ABCD oxypnictide A 3.9802 8.6124 ZrCuSiAs-type K 43 47 38 5 43 m3/C -6.00E-10 RH152358 "NdAs,ThO2,FeAs,Fe,Fe2O3" "solid state reaction. pellet - wrapped (Ta-foil) - sealed(quartz tube) - heat(940C,10h) - SIN(1150C,48h)" Synthesis of a New Member in Iron-Based Layered Superconductor: Nd0.8Th0.2OFeAs with Tc = 38 K 2008 "Department of Physics, Surface Physics Laboratory, AdVanced Materials Laboratory, Fudan UniVersity, Shanghai 200433, P.R. China" "Chem.Mater., 20(2008)7201"
152359 SNM0230199 "(Cu,Tl)Ba2Ca2Cu3O10" Tl0.5Ba2Ca2Cu3.5O10-z Tl 0.5 Ba 2 Ca 2 Cu 3.5 O 10-z 2010 Tl1223 A 3.91 14.89 K 90 118 104 "solid state reaction. precursor(Cu-Ba-Ca-Cd-O) mixed with Tl2O3, then pelletized, heat(860C), quenched" Cd-doped Cu0.5Tl0.5Ba2Ca2Cu3-yCdyO10-z (y = 00.51.01.52.0) superconductors 2010 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad 45320, Pakistan" "J.Supercond.Nov Magn., 23(2010)199"
152360 SNM0230199 "(Cu,Tl)Ba2Ca2(Cu,Cd)3O10" Tl0.5Ba2Ca2Cu3Cd0.5O10-z Tl 0.5 Ba 2 Ca 2 Cu 3 Cd 0.5 O 10-z 2010 Tl1223 A 3.9 14.91 K 85 101 93 "solid state reaction. precursor(Cu-Ba-Ca-Cd-O) mixed with Tl2O3, then pelletized, heat(860C), quenched" Cd-doped Cu0.5Tl0.5Ba2Ca2Cu3-yCdyO10-z (y = 00.51.01.52.0) superconductors 2010 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad 45320, Pakistan" "J.Supercond.Nov Magn., 23(2010)199"
152361 SNM0230199 "(Cu,Tl)Ba2Ca2(Cu,Cd)3O10" Tl0.5Ba2Ca2Cu2.5Cd1O10-z Tl 0.5 Ba 2 Ca 2 Cu 2.5 Cd 1 O 10-z 2010 Tl1223 A 3.89 14.95 K 86 103 94.5 "solid state reaction. precursor(Cu-Ba-Ca-Cd-O) mixed with Tl2O3, then pelletized, heat(860C), quenched" Cd-doped Cu0.5Tl0.5Ba2Ca2Cu3-yCdyO10-z (y = 00.51.01.52.0) superconductors 2010 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad 45320, Pakistan" "J.Supercond.Nov Magn., 23(2010)199"
152362 SNM0230199 "(Cu,Tl)Ba2Ca2(Cu,Cd)3O10" Tl0.5Ba2Ca2Cu2Cd1.5O10-z Tl 0.5 Ba 2 Ca 2 Cu 2 Cd 1.5 O 10-z 2010 Tl1223 A 3.91 14.99 K 84 100 92 "solid state reaction. precursor(Cu-Ba-Ca-Cd-O) mixed with Tl2O3, then pelletized, heat(860C), quenched" Cd-doped Cu0.5Tl0.5Ba2Ca2Cu3-yCdyO10-z (y = 00.51.01.52.0) superconductors 2010 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad 45320, Pakistan" "J.Supercond.Nov Magn., 23(2010)199"
152363 PRB082104503 AFM at low temperature SmOFeAs Sm1Fe1As1O1 Sm 1 Fe 1 As 1 O 1 2010 ABCD oxypnictide A 3.9367 8.5142 K 1.8 "solid state reaction. mixture - wrapped in Ta foil - heat(1160C, 48h, in quartz tube)" "Structural and physical properties of SmFe1-xIrxAsO (0 =< x =< 0.275) obtained by synchrotron x-ray diffraction, Raman spectroscopy, and magnetization measurements" 2010 "Dipartimento di Chimica Fisica ""M. Rolla,"" INSTM (UdR Pavia) and IENI-CNR, Universita di Pavia, Viale Taramelli 16, 27100 Pavia, Italy" "Phys.Rev.B, 82(2010)104503"
152364 PRB082104503 AFM at low temperature "SmO(Fe,Ir)As" Sm1Fe0.97Ir0.03As1O1 Sm 1 Fe 0.97 Ir 0.03 As 1 O 1 2010 ABCD oxypnictide A 3.942 8.4947 K 1.8 "solid state reaction. mixture - wrapped in Ta foil - heat(1160C, 48h, in quartz tube)" "Structural and physical properties of SmFe1-xIrxAsO (0 =< x =< 0.275) obtained by synchrotron x-ray diffraction, Raman spectroscopy, and magnetization measurements" 2010 "Dipartimento di Chimica Fisica ""M. Rolla,"" INSTM (UdR Pavia) and IENI-CNR, Universita di Pavia, Viale Taramelli 16, 27100 Pavia, Italy" "Phys.Rev.B, 82(2010)104503"
152365 PRB082104503 AFM at low temperature "SmO(Fe,Ir)As" Sm1Fe0.96Ir0.04As1O1 Sm 1 Fe 0.96 Ir 0.04 As 1 O 1 2010 ABCD oxypnictide A 3.9435 8.4918 K 1.8 "solid state reaction. mixture - wrapped in Ta foil - heat(1160C, 48h, in quartz tube)" "Structural and physical properties of SmFe1-xIrxAsO (0 =< x =< 0.275) obtained by synchrotron x-ray diffraction, Raman spectroscopy, and magnetization measurements" 2010 "Dipartimento di Chimica Fisica ""M. Rolla,"" INSTM (UdR Pavia) and IENI-CNR, Universita di Pavia, Viale Taramelli 16, 27100 Pavia, Italy" "Phys.Rev.B, 82(2010)104503"
152366 PRB082104503 "SmO(Fe,Ir)As" Sm1Fe0.94Ir0.06As1O1 Sm 1 Fe 0.94 Ir 0.06 As 1 O 1 2010 ABCD oxypnictide A 3.9468 8.477 K 18 18 "solid state reaction. mixture - wrapped in Ta foil - heat(1160C, 48h, in quartz tube)" "Structural and physical properties of SmFe1-xIrxAsO (0 =< x =< 0.275) obtained by synchrotron x-ray diffraction, Raman spectroscopy, and magnetization measurements" 2010 "Dipartimento di Chimica Fisica ""M. Rolla,"" INSTM (UdR Pavia) and IENI-CNR, Universita di Pavia, Viale Taramelli 16, 27100 Pavia, Italy" "Phys.Rev.B, 82(2010)104503"
152367 PRB082104503 "SmO(Fe,Ir)As" Sm1Fe0.89Ir0.11As1O1 Sm 1 Fe 0.89 Ir 0.11 As 1 O 1 2010 ABCD oxypnictide A 3.9518 8.4472 K 18.3 18.3 "solid state reaction. mixture - wrapped in Ta foil - heat(1160C, 48h, in quartz tube)" "Structural and physical properties of SmFe1-xIrxAsO (0 =< x =< 0.275) obtained by synchrotron x-ray diffraction, Raman spectroscopy, and magnetization measurements" 2010 "Dipartimento di Chimica Fisica ""M. Rolla,"" INSTM (UdR Pavia) and IENI-CNR, Universita di Pavia, Viale Taramelli 16, 27100 Pavia, Italy" "Phys.Rev.B, 82(2010)104503"
152368 PRB082104503 "SmO(Fe,Ir)As" Sm1Fe0.84Ir0.16As1O1 Sm 1 Fe 0.84 Ir 0.16 As 1 O 1 2010 ABCD oxypnictide A 3.957 8.4335 K 17.3 17.3 "solid state reaction. mixture - wrapped in Ta foil - heat(1160C, 48h, in quartz tube)" "Structural and physical properties of SmFe1-xIrxAsO (0 =< x =< 0.275) obtained by synchrotron x-ray diffraction, Raman spectroscopy, and magnetization measurements" 2010 "Dipartimento di Chimica Fisica ""M. Rolla,"" INSTM (UdR Pavia) and IENI-CNR, Universita di Pavia, Viale Taramelli 16, 27100 Pavia, Italy" "Phys.Rev.B, 82(2010)104503"
152369 PRB082104503 not any magnetic order "SmO(Fe,Ir)As" Sm1Fe0.85Ir0.25As1O1 Sm 1 Fe 0.85 Ir 0.25 As 1 O 1 2010 ABCD oxypnictide A 3.9686 8.3864 K 1.8 "solid state reaction. mixture - wrapped in Ta foil - heat(1160C, 48h, in quartz tube)" "Structural and physical properties of SmFe1-xIrxAsO (0 =< x =< 0.275) obtained by synchrotron x-ray diffraction, Raman spectroscopy, and magnetization measurements" 2010 "Dipartimento di Chimica Fisica ""M. Rolla,"" INSTM (UdR Pavia) and IENI-CNR, Universita di Pavia, Viale Taramelli 16, 27100 Pavia, Italy" "Phys.Rev.B, 82(2010)104503"
152370 PRB082104503 not any magnetic order "SmO(Fe,Ir)As" Sm1Fe0.725Ir0.275As1O1 Sm 1 Fe 0.725 Ir 0.275 As 1 O 1 2010 ABCD oxypnictide A 3.9719 8.3766 K 1.8 "solid state reaction. mixture - wrapped in Ta foil - heat(1160C, 48h, in quartz tube)" "Structural and physical properties of SmFe1-xIrxAsO (0 =< x =< 0.275) obtained by synchrotron x-ray diffraction, Raman spectroscopy, and magnetization measurements" 2010 "Dipartimento di Chimica Fisica ""M. Rolla,"" INSTM (UdR Pavia) and IENI-CNR, Universita di Pavia, Viale Taramelli 16, 27100 Pavia, Italy" "Phys.Rev.B, 82(2010)104503"
152371 PRB082104507 "final heat treatment(930-960C, total 72h)" "(Cu,M0)Sr2YCu2O7" Mo0.25Sr2Y1Cu2.75O7+z Mo 0.25 Sr 2 Y 1 Cu 2.75 O 7+z 2010 Cu1212 P4/mmm A 3.816 11.471 "(Cu,Mo)-1212" K 87 87 "high-pressure-oxygenation (500C,30min,5 GPa) in cubic cell with KClO3" "Superconductivity and oxygen ordering correlations in the homologous series of (Cu,Mo)Sr2(Ce,Y)sCu2O5+2s+z" 2010 "Physics Department, Northern Illinois University, DeKalb, Illinois 60115, USA" "Phys.Rev.B, 82(2010)104507"
152372 PRB082104507 "final heat treatment(950-1005C, total 120h)" "(Cu,M0)Sr2(Ce,Y)2Cu2O9" Mo0.25Sr2Ce1Y1Cu2.75O9+z Mo 0.25 Sr 2 Ce 1 Y 1 Cu 2.75 O 9+z 2010 Cu1222 I4/mmm A 3.83 28.454 "(Cu,Mo)-1222" K 56 56 "high-pressure-oxygenation (500C,30min,5 GPa) in cubic cell with KClO3" "Superconductivity and oxygen ordering correlations in the homologous series of (Cu,Mo)Sr2(Ce,Y)sCu2O5+2s+z" 2010 "Physics Department, Northern Illinois University, DeKalb, Illinois 60115, USA" "Phys.Rev.B, 82(2010)104507"
152373 PRB082104507 "final heat treatment(950-1005C, total 168h)" "(Cu,Mo)Sr2(Ce,Y)3Cu2O11" Mo0.25Sr2Ce2Y1Cu2.75O11+z Mo 0.25 Sr 2 Ce 2 Y 1 Cu 2.75 O 11+z 2010 Cu1232 P4/mmm A 3.8262 16.9047 "(Cu,Mo)-1232" K 54.5 54.5 "high-pressure-oxygenation (500C,30min,5 GPa) in cubic cell with KClO3" "Superconductivity and oxygen ordering correlations in the homologous series of (Cu,Mo)Sr2(Ce,Y)sCu2O5+2s+z" 2010 "Physics Department, Northern Illinois University, DeKalb, Illinois 60115, USA" "Phys.Rev.B, 82(2010)104507"
152374 PRB082104507 "final heat treatment(950-985C, total 264h). structural data for as-synthesized sample." "(Cu,Mo)Sr2(Ce,Y)4Cu2O13" Mo0.25Sr2Ce3Y1Cu2.75O13+z Mo 0.25 Sr 2 Ce 3 Y 1 Cu 2.75 O 13+z 2010 Cu1242 I4/mmm A 3.8308 39.344 "(Cu,Mo)-1242" K 56 56 "high-pressure-oxygenation (500C,30min,5 GPa) in cubic cell with KClO3" "Superconductivity and oxygen ordering correlations in the homologous series of (Cu,Mo)Sr2(Ce,Y)sCu2O5+2s+z" 2010 "Physics Department, Northern Illinois University, DeKalb, Illinois 60115, USA" "Phys.Rev.B, 82(2010)104507"
152375 PRL105126401 Tc(P) measured. P: hydrostatic. R(T) shows max at T=50 K. "CeCo(In,Sn)5" Ce1Co1In4.92Sn0.08 Ce 1 Co 1 In 4.92 Sn 0.08 3 2010 ABC5 HoCoGa5 K 1.22 1.22 MTC152375 self-flux method Superconducting Quantum Critical Point in CeCoIn5-xSnx 2010 "Centro Brasileiro de Pesquisas Fisicas, Rua Dr. Xavier Sigaud 150, 22290-180, Rio de Janeiro, RJ, Brazil" "Phys.Rev.Lett., 105(2010)126401"
152376 PRL105126401 Tc(P) measured. P: hydrostatic. R(T) shows max at T=51.5 K. "CeCo(In,Sn)5" Ce1Co1In4.9Sn0.1 Ce 1 Co 1 In 4.9 Sn 0.1 3 2010 ABC5 HoCoGa5 K 1.02 1.02 MTC152375 self-flux method Superconducting Quantum Critical Point in CeCoIn5-xSnx 2010 "Centro Brasileiro de Pesquisas Fisicas, Rua Dr. Xavier Sigaud 150, 22290-180, Rio de Janeiro, RJ, Brazil" "Phys.Rev.Lett., 105(2010)126401"
152377 PRL105126401 Tc(P) measured. P: hydrostatic. R(T) shows max at T=52.3 K. "CeCo(In,Sn)5" Ce1Co1In4.88Sn0.12 Ce 1 Co 1 In 4.88 Sn 0.12 3 2010 ABC5 HoCoGa5 K 0.81 0.81 MTC152375 self-flux method Superconducting Quantum Critical Point in CeCoIn5-xSnx 2010 "Centro Brasileiro de Pesquisas Fisicas, Rua Dr. Xavier Sigaud 150, 22290-180, Rio de Janeiro, RJ, Brazil" "Phys.Rev.Lett., 105(2010)126401"
152378 PRL105126401 Tc(P) measured. P: hydrostatic. R(T) shows max at T=55.7 K. x = 0.18 in CeCoIn5-xSnx) "CeCo(In,Sn)5" Ce1Co1In4.86Sn0.14 Ce 1 Co 1 In 4.86 Sn 0.14 3 2010 ABC5 HoCoGa5 K 0.556 0.556 MTC152375 self-flux method Superconducting Quantum Critical Point in CeCoIn5-xSnx 2010 "Centro Brasileiro de Pesquisas Fisicas, Rua Dr. Xavier Sigaud 150, 22290-180, Rio de Janeiro, RJ, Brazil" "Phys.Rev.Lett., 105(2010)126401"
152379 JPS079074704 anisotropy (Hc2) = 1.54 "Fe(Se,Te)" Fe1.12Se0.3Te0.7 Fe 1.12 Se 0.3 Te 0.7 3 2010 A 3.7982 6.0651 K 13.7 13.7 T "magnetic, extrapolation" 57 37 T/K magnetic 6 3.9 MHC152379 A from Hc2 30 24 mixture - load into quartz - sealed in evacuated quartz tube - heat to 920C(over36h) - hold(12h) - cool to 400C(140h) Magnetic and Superconducting Properties in Single Crystalline Fe1+zTe1-xSex (x < 0.50) System 2010 "Department of Chemistry, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "J.Phys.Soc.Jpn, 79(2010)074704"
152380 JPS079074704 anisotropy (Hc2) = 2.1 "Fe(Se,Te)" Fe1.04Se0.33Te0.67 Fe 1.04 Se 0.33 Te 0.67 3 2010 K 14.1 14.1 T "magnetic, extrapolation" 85 40 T/K magnetic 8.7 4.2 MHC152380 A from Hc2 29 20 mixture - load into quartz - sealed in evacuated quartz tube - heat to 920C(over36h) - hold(12h) - cool to 400C(140h) Magnetic and Superconducting Properties in Single Crystalline Fe1+zTe1-xSex (x < 0.50) System 2010 "Department of Chemistry, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "J.Phys.Soc.Jpn, 79(2010)074704"
152381 JPS079074706 "composition by EDX. For WHH approx, Hc2(0) = 167 and 50.3 T for // and /n, respectively. anisotropy (Hc2) = 1(T=0) , 2.5(near Tc)." "Fe(Se,Te)" Fe1.05Se0.15Te0.85 Fe 1.05 Se 0.15 Te 0.85 3 2010 K 14.1 14.1 T "resistivity, extrapolation" 47 47 T/K resistivity 17.2 5.2 MHC152381 A from Hc2 26 26 self-flux method Weak Superconducting Fluctuations and Small Anisotropy of the Upper Critical Fields in an Fe1.05Te0.85Se0.15 Single Crystal 2010 "KYOKUGEN, Osaka University, 1-3 Machikaneyama, Toyonaka, Osaka 560-8531, Japan" "J.Phys.Soc.Jpn, 79(2010)074706"
152382 PHC4701092 Fe-diffusion using micro-size Fe powder "(Mg,Fe)B2" Mg0.99Fe0.01B2 Mg 0.99 Fe 0.01 B 2 2010 AB2 AlB2 K 38.2 38.2 hybridized diffusion method Iron doping effect on superconducting properties of MgB2 2010 "Key Laboratory of Advanced Technology of Materials (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 470(2010)1092"
152383 PHC4701092 Fe-diffusion using nano-size Fe powder "(Mg,Fe)B2" Mg0.99Fe0.01B2 Mg 0.99 Fe 0.01 B 2 2010 AB2 AlB2 K 31.2 31.2 hybridized diffusion method Iron doping effect on superconducting properties of MgB2 2010 "Key Laboratory of Advanced Technology of Materials (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 470(2010)1092"
152384 PHC4701092 Fe-diffusion using nano-size Fe powder "(Mg,Fe)B2" Mg0.95Fe0.05B2 Mg 0.95 Fe 0.05 B 2 2010 AB2 AlB2 K 29.5 29.5 hybridized diffusion method Iron doping effect on superconducting properties of MgB2 2010 "Key Laboratory of Advanced Technology of Materials (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 470(2010)1092"
152385 SSS0121058 O2-annealed sample. O-content by iodometric titration. "(Cu,Tl,Li)Ba2Ca2Cu3O10" Tl0.25Li0.25Ba2Ca2Cu3.5O7.955 Tl 0.25 Li 0.25 Ba 2 Ca 2 Cu 3.5 O 10-z 7.955 2010 Cu1223 P4/mmm "(Cu,Tl)-1223" K 117 117 two step synthesize. (precursor +Tl2O3) Superconductivity in (Cu0.5Tl0.25Li0.25)Ba2Ca2Cu3-ySiyO10-z samples 2010 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Solid State Sci., 12(2010)1058"
152386 SSS0121058 O2-annealed sample. O-content by iodometric titration. "(Cu,Tl,Li)Ba2Ca2(Cu,Si)3O10" Tl0.25Li0.25Ba2Ca2Cu3Si0.5O7.835 Tl 0.25 Li 0.25 Ba 2 Ca 2 Cu 3 Si 0.5 O 10-z 7.835 2010 Cu1223 P4/mmm "(Cu,Tl)-1223" K 111 111 two step synthesize. (precursor +Tl2O3) Superconductivity in (Cu0.5Tl0.25Li0.25)Ba2Ca2Cu3-ySiyO10-z samples 2010 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Solid State Sci., 12(2010)1058"
152387 SSS0121058 O2-annealed sample. O-content by iodometric titration. "(Cu,Tl,Li)Ba2Ca2(Cu,Si)3O10" Tl0.25Li0.25Ba2Ca2Cu2.5Si1O7.853 Tl 0.25 Li 0.25 Ba 2 Ca 2 Cu 2.5 Si 1 O 10-z 7.853 2010 Cu1223 P4/mmm "(Cu,Tl)-1223" K 113 113 two step synthesize. (precursor +Tl2O3) Superconductivity in (Cu0.5Tl0.25Li0.25)Ba2Ca2Cu3-ySiyO10-z samples 2010 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Solid State Sci., 12(2010)1058"
152388 SSS0121058 O2-annealed sample. O-content by iodometric titration. "(Cu,Tl,Li)Ba2Ca2(Cu,Si)3O10" Tl0.25Li0.25Ba2Ca2Cu2.25Si1.25O7.719 Tl 0.25 Li 0.25 Ba 2 Ca 2 Cu 2.25 Si 1.25 O 10-z 7.719 2010 Cu1223 P4/mmm "(Cu,Tl)-1223" K 99 99 two step synthesize. (precursor +Tl2O3) Superconductivity in (Cu0.5Tl0.25Li0.25)Ba2Ca2Cu3-ySiyO10-z samples 2010 "Materials Science Laboratory, Department of Physics, Quaid-i-Azam University, Islamabad, Pakistan" "Solid State Sci., 12(2010)1058"
152389 SSC1501364 Ti2InN Ti2In1N1 Ti 2 In 1 N 1 2010 ABC2 P6<3>/mmc A 3.074 13.975 K 7.3 1.3 7.3 18 Oe M-H curve 70 1.8 T "resistivity, GL theory approx." 10.8 MHC152389 A from Hc2 55 "TiN,Ti,In" "mixture - sealed in quartz ampoule under Ar - heat(900C,24h) repeat - heat(900C,10h, 130bar-Ar)" Superconductivity at 7.3 K in Ti2InN 2010 "Departamento de Engenharia de Materiais, Escola de Engenharia de Lorena - USP, P.O. BOX 116, Lorena SP, 12600-970, Brazil" "Solid State Commun., 150(2010)1364"
152390 PHC4700986 "K-content not given. Optimal concentration. natural Fe<55.85> Tc=37.76, F<54> Tc=37.51." "(Ba,K)Fe2As2" Ba0.6K0.4Fe2As2 Ba 0.6 K 0.4 Fe 2 As 2 2010 AB2C2 ThCr2Si2 K 37.76 37.76 -0.18 Fe -0.19 "Iron isotope effect on Tc in optimally-doped (Ba,K)Fe2As2 (Tc = 38 K) and SmFeAsO1-y (Tc = 54 K) superconductors" 2010 "Nanoelectronics Research Institute (NeRI), National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Central 2, Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Physica C, 470(2010)986"
152391 PHC4700986 Tc depends on O-content. SmOzFeAs Sm1Fe1As1O1-z Sm 1 Fe 1 As 1 O 1-z 2010 ABCD oxypnictide K 53.8 53.8 -0.02 Fe -0.01 "Iron isotope effect on Tc in optimally-doped (Ba,K)Fe2As2 (Tc = 38 K) and SmFeAsO1-y (Tc = 54 K) superconductors" 2010 "Nanoelectronics Research Institute (NeRI), National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Central 2, Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Physica C, 470(2010)986"
152392 PHC4700989 using nano-sized SmF3 "Sm(O,F)FeAs" Sm1Fe1As1F0.05O0.95 Sm 1 Fe 1 As 1 F 0.05 O 0.95 1 2010 ABCD oxypnictide A 3.9355 8.4883 K 39 39 1 "mixture - pellet - wrapped(Ta-foil) - sealed in quartz tube) - ANN(1100C,36h, in Ar)" Low temperature preparation and superconductivity of F-doped SmFeAsO 2010 "Key Laboratory of Magnetic Levitation Technologies and Maglev Trains (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 470(2010)989"
152393 PHC4700989 using nano-sized SmF3 "Sm(O,F)FeAs" Sm1Fe1As1F0.1O0.9 Sm 1 Fe 1 As 1 F 0.1 O 0.9 1 2010 ABCD oxypnictide A 3.9332 8.4823 K 47 47 1 "mixture - pellet - wrapped(Ta-foil) - sealed in quartz tube) - ANN(1100C,36h, in Ar)" Low temperature preparation and superconductivity of F-doped SmFeAsO 2010 "Key Laboratory of Magnetic Levitation Technologies and Maglev Trains (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 470(2010)989"
152394 PHC4700989 using nano-sized SmF3 "Sm(O,F)FeAs" Sm1Fe1As1F0.2O0.8 Sm 1 Fe 1 As 1 F 0.2 O 0.8 1 2010 ABCD oxypnictide A 3.9309 8.4768 K 49 49 1 "mixture - pellet - wrapped(Ta-foil) - sealed in quartz tube) - ANN(1100C,36h, in Ar)" Low temperature preparation and superconductivity of F-doped SmFeAsO 2010 "Key Laboratory of Magnetic Levitation Technologies and Maglev Trains (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 470(2010)989"
152395 PHC4700989 using nano-sized SmF3 "Sm(O,F)FeAs" Sm1Fe1As1F0.3O0.7 Sm 1 Fe 1 As 1 F 0.3 O 0.7 1 2010 ABCD oxypnictide A 3.9308 8.4781 K 53.56 53.56 1 "mixture - pellet - wrapped(Ta-foil) - sealed in quartz tube) - ANN(1100C,36h, in Ar)" Low temperature preparation and superconductivity of F-doped SmFeAsO 2010 "Key Laboratory of Magnetic Levitation Technologies and Maglev Trains (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 470(2010)989"
152396 PHC4700989 "Sm(O,F)FeAs" Sm1Fe1As1F0.6O0.6 Sm 1 Fe 1 As 1 F 0.6 O 0.6 1 2010 ABCD oxypnictide K 55 55 1 "mixture - pellet - wrapped(Ta-foil) - sealed in quartz tube) - ANN(1100C,36h, in Ar)" Low temperature preparation and superconductivity of F-doped SmFeAsO 2010 "Key Laboratory of Magnetic Levitation Technologies and Maglev Trains (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 470(2010)989"
152397 PRB078060504 T = 150 K from R(T). LaONiAs La1Ni1As1O1 La 1 Ni 1 As 1 O 1 2008 ABCD oxypnictide P4/nmm A 4.119 8.18 ZrCuSiAs K 2.75 2.75 2 2.36 RH152397 "NiO,N,La,As,LaF3" "mixture - pellet - wrapped(Ta-foil) - sealed in quartz tube) - ANN(1150C, 50h)" Strong-coupling superconductivity in the nickel-based oxypnictide LaNiAsO1-xFx 2008 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 78(2008)060504"
152398 PRB078060504 lattice term in SP (beta) = 0.808 mJ/mol.K4. "La(O,F)NiAs" La1Ni1As1F0.1O0.9 La 1 Ni 1 As 1 F 0.1 O 0.9 2008 ABCD oxypnictide P4/nmm A 4.115 8.169 ZrCuSiAs K 3.8 0.05 3.8 TC152398 84 T "resistivity, GL theory approx." 4.6 1 3.08 mJ/mol.K2 4.75 RH152398 "NiO,N,La,As,LaF3" "mixture - pellet - wrapped(Ta-foil) - sealed in quartz tube) - ANN(1150C, 50h)" Strong-coupling superconductivity in the nickel-based oxypnictide LaNiAsO1-xFx 2008 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 78(2008)060504"
152399 PHC4701077 "not SC, T = 130 K." GdOFeAs Gd1Fe1As1O1 Gd 1 Fe 1 As 1 O 1 2010 ABCD oxypnictide A 3.9214 8.4661 ZrCuSiAs K "GdAs,Fe,Ir,Fe2O3" "mixture - pellet - wrapped(Ta-foil) - sealed in quartz tube) - ANN(1200C,72h, in Ar) - FC to RT" Superconductivity and magnetism in Ir-doped GdFeAsO 2010 "Key Laboratory of Magnetic Levitation Technologies and Maglev Trains (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 470(2010)1077"
152400 PHC4701077 R not to zero. "GdO(Fe,Ir)As" Gd1Fe0.95Ir0.05As1O1 Gd 1 Fe 0.95 Ir 0.05 As 1 O 1 2010 ABCD oxypnictide A 3.9227 8.4415 ZrCuSiAs K 0 0 "GdAs,Fe,Ir,Fe2O3" "mixture - pellet - wrapped(Ta-foil) - sealed in quartz tube) - ANN(1200C,72h, in Ar) - FC to RT" Superconductivity and magnetism in Ir-doped GdFeAsO 2010 "Key Laboratory of Magnetic Levitation Technologies and Maglev Trains (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 470(2010)1077"
152401 PHC4701077 "GdO(Fe,Ir)As" Gd1Fe0.8Ir0.2As1O1 Gd 1 Fe 0.8 Ir 0.2 As 1 O 1 2010 ABCD oxypnictide A 3.9339 8.4007 ZrCuSiAs K 18.9 17.6 17.6 TC152401 T "resistivity, WHH" 24 T/K resistivity 1.9 HC152401 "GdAs,Fe,Ir,Fe2O3" "mixture - pellet - wrapped(Ta-foil) - sealed in quartz tube) - ANN(1200C,72h, in Ar) - FC to RT" Superconductivity and magnetism in Ir-doped GdFeAsO 2010 "Key Laboratory of Magnetic Levitation Technologies and Maglev Trains (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 470(2010)1077"
152402 PHC4701077 "GdO(Fe,Ir)As" Gd1Fe0.7Ir0.3As1O1 Gd 1 Fe 0.7 Ir 0.3 As 1 O 1 2010 ABCD oxypnictide A 3.9413 8.3593 ZrCuSiAs K 11.6 11.6 TC152401 "GdAs,Fe,Ir,Fe2O3" "mixture - pellet - wrapped(Ta-foil) - sealed in quartz tube) - ANN(1200C,72h, in Ar) - FC to RT" Superconductivity and magnetism in Ir-doped GdFeAsO 2010 "Key Laboratory of Magnetic Levitation Technologies and Maglev Trains (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 470(2010)1077"
152403 PHC4701077 R not to zero. "GdO(Fe,Ir)As" Gd1Fe0.67Ir0.33As1O1 Gd 1 Fe 0.67 Ir 0.33 As 1 O 1 2010 ABCD oxypnictide A 3.9449 8.344 ZrCuSiAs K 0 0 "GdAs,Fe,Ir,Fe2O3" "mixture - pellet - wrapped(Ta-foil) - sealed in quartz tube) - ANN(1200C,72h, in Ar) - FC to RT" Superconductivity and magnetism in Ir-doped GdFeAsO 2010 "Key Laboratory of Magnetic Levitation Technologies and Maglev Trains (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 470(2010)1077"
152404 PRB082132502 Tc defined as mid of SUS. hydrostatic P: He-gas(P<0.6 GPa) and DAC (P<32 GPa). Tc < 2K for P > 20 GPa. First order phase transition at about 10 GPa. CaC6 C6Ca1 C 6 Ca 1 2010 2.53 AB6 GIC A 4.33 13.57 K 11.48 11.48 MTC152404 K/GPa 0.39 "heat(350C,10d) using HOPG(highly oriented pyrolitic graphite." Superconductivity for CaC6 to 32 GPa hydrostatic pressure 2010 "Department of Physics, Washington University, CB 1105, One Brookings Dr., Saint Louis, Missouri 63130, USA" "Phys.Rev.B, 82(2010)132502"
152405 PRL105157001 P-induced SC. P = 5 GPa. Tc defined as 0.9Rn. Tc(max) = 1.4 K (9.3GPa). values of SC properties are for P = 9.3 GPa. SnO Sn1O1 Sn 1 O 1 2010 AB alpha-PbO K 1.4 0 1.4 TC152405 K/GPa 0.28 T "resistivity, extrapolation" 0.58 HC152405 A from Hc2 240 single phase sample obtained from Alfa Aesar Superconductivity in SnO: A Nonmagnetic Analog to Fe-Based Superconductors? 2010 "II. Physikalisches Institut, Universitat zu Koln, Zulpicher Strase 77, D-50937 Koln, Germany" "Phys.Rev.Lett., 105(2010)157001"
152406 PRB082134520 RRR = 1.4. GL parameter = 13. (dC/gamma*Tc) = 1.7. YRh2Sn Y1Rh2Sn1 Y 1 Rh 2 Sn 1 2010 ABC2 Heusler Fm3[-]m A 6.7139 "Cu2MnAl, L2<1>" K 4.1 0.5 4.1 Oe M-H curve 98 T "resistivity, WHH" 1.26 MHC152406 A from Hc2 163 A from Hc1 2070 meV 0.7 4 14 mJ/mol.K2 8.55 SP-heat 219 SP-heat "arc-melting. ANN(750C,1w)" Superconductivity in the Rh-based Heusler family MRh2Sn 2010 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 82(2010)134520"
152407 PRB082134520 quenched to -13 C brine. RRR = 2.4. GL parameter = 8. (dC/gamma*Tc) = 1.49. LuRh2Sn Lu1Rh2Sn1 Lu 1 Rh 2 Sn 1 2010 ABC2 Heusler Fm3[-]m A 6.6417 "Cu2MnAl, L2<1>" K 2.9 2.9 Oe M-H curve 75 T "resistivity, WHH" 0.5 A from Hc2 257 A from Hc1 2170 meV 0.44 3.6 14 mJ/mol.K2 6.74 SP-heat 228 SP-heat "arc-melting. ANN(750C,1w)" Superconductivity in the Rh-based Heusler family MRh2Sn 2010 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 82(2010)134520"
152408 PRB082134520 quenched to -13 C brine. RRR = 21. ScRh2Sn Sc1Rh2Sn1 Sc 1 Rh 2 Sn 1 2010 ABC2 Heusler Fm3[-]m A 6.5079 "Cu2MnAl, L2<1>" K 2 2 T "resistivity, WHH" 0.3 A from Hc2 330 meV 0.27 3.2 14 mJ/mol.K2 6.57 SP-heat 282 SP-heat "arc-melting. ANN(750C,1w)" Superconductivity in the Rh-based Heusler family MRh2Sn 2010 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 82(2010)134520"
152409 PRB082140507 "nominal/ Sr:V:Fe(III)-oxide:As-oxide = 20:11:5:5. SIN(1323 K, 60h)" Sr2VO3FeAs Sr2V1Fe1As1O3 Sr 2 V 1 Fe 1 As 1 O 3 2010 22426 A 3.9458 15.731 K 33 33 Possible magnetic order and suppression of superconductivity by V doping in Sr2VO3FeAs 2010 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstrasse 5-13 (Haus D), 81377 Munchen, Germany" "Phys.Rev.B, 82(2010)140507"
152410 PRB082140507 not SC. nomonal/ Sr:V:Fe(III)-oxide:As-oxide:V-oxide = 100:54:20:25:3. SC sensitive to V impurity in FeAs layer. "Sr2VO3(Fe,V)As" Sr2V1.07Fe0.93As1O3 Sr 2 V 1.07 Fe 0.93 As 1 O 3 2010 22426 A 3.9338 15.731 K 4 Possible magnetic order and suppression of superconductivity by V doping in Sr2VO3FeAs 2010 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstrasse 5-13 (Haus D), 81377 Munchen, Germany" "Phys.Rev.B, 82(2010)140507"
152411 PRB082144118 bulk modulus = 57.7 GPa for 0 < P < 16.7 GPa. P-dependence of lattice parameter shown in MTC152411 with Tc(P). BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2010 GPa 57.7 AB2C2 ThCr2Si2 A 3.9635 13.022 K 22 22 MTC152411 FeAs flux method Collapsed tetragonal phase and superconductivity of BaFe2As2 under high pressure 2010 "Department of Physics, University of Alabama at Birmingham (UAB), Birmingham, Alabama 35294, USA" "Phys.Rev.B, 82(2010)144118"
152412 STAM007S22 ( 111)-oriented films. B-concentration estimated to be n=6 E+21 /cm3 by tunneling(STM/STS). energy gap at 0.47 K. B-doped C C1 C 1 4 2006 3 diamond Pmmn 59 A 4.6729 2.8702 4.0792 K 5.4 5.4 meV 0.87 3.7 1 "oriented films grown by MPCVD. ANN(400C, in UHV)" Scanning tunneling microscopy and spectroscopy studies of superconducting boron-doped diamond films 2006 "Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan" "Sci.Tech.Adv.Mat., 7(2006)S22"
152413 PRB082144532 RRR = 22 (R//b-axis). (dC/gamma*Tc) = 1.32. Thermodynamic Hc(0) = 153 Oe. GL-parameter = 2. Two gaps( higher in TBL. lower -[gapene]= 2.5. OsB2 B2Os1 B 2 Os 1 3 2010 AB2 K 2.14 2.2 2.17 Oe 186 A from Hc2 1330 A 3000 3.8 mJ/mol.K2 1.95 SP-heat 539 SP-heat uOhm.cm 1.55 OsB2 by arc-melting. heat(1450C) - cool to 1020 C (2C/h) Multigap superconductivity and Shubnikov-de Haas oscillations in single crystals of the layered boride OsB2 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)144532"
152414 PRB082144518 [gamma] estimated from (dC/Tc)=17 mJ/mol.K and BCS value of 1.43. "Sr(Fe,Pt)2As2" Sr1Fe1.84Pt0.16As2 Sr 1 Fe 1.84 Pt 0.16 As 2 2010 AB2C2 ThCr2Si2 A 12.322 K 16 16 MTC152414 T/K resistivity 3.16 MHC152414 mJ/mol.K2 12 BCS self-flux method. mixture - in alumina crucible - heat(1150C) - cool (2C/h) Superconductivity and magnetism in platinum-substituted SrFe2As2 single crystals 2010 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 82(2010)144518"
152415 PRB082144527 "[penet] by muon-SR. Hc2 defined as Tc(zero). Two gaps, large gap in DB, small gap(0) = 0.15 meV , (2d/kTc) = 1.4" RbFe2As2 Rb1Fe2As2 Rb 1 Fe 2 As 2 1 2010 AB2C2 ThCr2Si2 K 2.52 2.52 T resistivity. extrapolation 2.6 MHC152415 A muon-SR 2670 meV 0.49 4.5 16 Microscopic study of the superconducting state of the iron pnictide RbFe2As2 via muon spin rotation 2010 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 82(2010)144527"
152416 PRB082184510 "(Ba,K)(Fe,Co)2As2" Ba0.7K0.3Fe1.66Co0.34As2 Ba 0.7 K 0.3 Fe 1.66 Co 0.34 As 2 3 2010 AB2C2 ThCr2Si2 K 12 12 "Ba,K,FeAs,CoAs" "(mixture in alumina) - (sealed in quartz tube, Ar) - heat(1273 K, 2h) - slow cool to 1073 K(24h) - Q to RT" Transition from antiferromagnetism to superconductivity in the compensated metallic state of Ba1-xKx(Fe1-yCoy)2As2 2010 "Institute for Solid State Physics, University of Tokyo, Kashiwanoha, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 82(2010)184510"
152417 PRB082184510 "(Ba,K)(Fe,Co)2As2" Ba0.7K0.3Fe1.72Co0.28As2 Ba 0.7 K 0.3 Fe 1.72 Co 0.28 As 2 3 2010 AB2C2 ThCr2Si2 A 3.913 13.12 K 12 12 "Ba,K,FeAs,CoAs" "(mixture in alumina) - (sealed in quartz tube, Ar) - heat(1273 K, 2h) - slow cool to 1073 K(24h) - Q to RT" Transition from antiferromagnetism to superconductivity in the compensated metallic state of Ba1-xKx(Fe1-yCoy)2As2 2010 "Institute for Solid State Physics, University of Tokyo, Kashiwanoha, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 82(2010)184510"
152418 PRB082184510 "(Ba,K)(Fe,Co)2As2" Ba0.95K0.05Fe1.782Co0.212As2 Ba 0.95 K 0.05 Fe 1.782 Co 0.212 As 2 3 2010 AB2C2 ThCr2Si2 K 16 16 "Ba,K,FeAs,CoAs" "(mixture in alumina) - (sealed in quartz tube, Ar) - heat(1273 K, 2h) - slow cool to 1073 K(24h) - Q to RT" Transition from antiferromagnetism to superconductivity in the compensated metallic state of Ba1-xKx(Fe1-yCoy)2As2 2010 "Institute for Solid State Physics, University of Tokyo, Kashiwanoha, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 82(2010)184510"
152419 PRB082184510 "(Ba,K)(Fe,Co)2As2" Ba0.86K0.14Fe1.68Co0.32As2 Ba 0.86 K 0.14 Fe 1.68 Co 0.32 As 2 3 2010 AB2C2 ThCr2Si2 K 11 11 "Ba,K,FeAs,CoAs" "(mixture in alumina) - (sealed in quartz tube, Ar) - heat(1273 K, 2h) - slow cool to 1073 K(24h) - Q to RT" Transition from antiferromagnetism to superconductivity in the compensated metallic state of Ba1-xKx(Fe1-yCoy)2As2 2010 "Institute for Solid State Physics, University of Tokyo, Kashiwanoha, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 82(2010)184510"
152420 PRB082184510 "(Ba,K)(Fe,Co)2As2" Ba0.82K0.18Fe1.654Co0.346As2 Ba 0.82 K 0.18 Fe 1.654 Co 0.346 As 2 3 2010 AB2C2 ThCr2Si2 K 11 11 "Ba,K,FeAs,CoAs" "(mixture in alumina) - (sealed in quartz tube, Ar) - heat(1273 K, 2h) - slow cool to 1073 K(24h) - Q to RT" Transition from antiferromagnetism to superconductivity in the compensated metallic state of Ba1-xKx(Fe1-yCoy)2As2 2010 "Institute for Solid State Physics, University of Tokyo, Kashiwanoha, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 82(2010)184510"
152421 PRB082184510 "(Ba,K)(Fe,Co)2As2" Ba0.805K0.195Fe1.738Co0.262As2 Ba 0.805 K 0.195 Fe 1.738 Co 0.262 As 2 3 2010 AB2C2 ThCr2Si2 K 14 14 "Ba,K,FeAs,CoAs" "(mixture in alumina) - (sealed in quartz tube, Ar) - heat(1273 K, 2h) - slow cool to 1073 K(24h) - Q to RT" Transition from antiferromagnetism to superconductivity in the compensated metallic state of Ba1-xKx(Fe1-yCoy)2As2 2010 "Institute for Solid State Physics, University of Tokyo, Kashiwanoha, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 82(2010)184510"
152422 PRB082184510 "(Ba,K)(Fe,Co)2As2" Ba0.694K0.306Fe1.826Co0.174As2 Ba 0.694 K 0.306 Fe 1.826 Co 0.174 As 2 3 2010 AB2C2 ThCr2Si2 K 18 18 "Ba,K,FeAs,CoAs" "(mixture in alumina) - (sealed in quartz tube, Ar) - heat(1273 K, 2h) - slow cool to 1073 K(24h) - Q to RT" Transition from antiferromagnetism to superconductivity in the compensated metallic state of Ba1-xKx(Fe1-yCoy)2As2 2010 "Institute for Solid State Physics, University of Tokyo, Kashiwanoha, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 82(2010)184510"
152423 PRB082184510 "(Ba,K)(Fe,Co)2As2" Ba0.66K0.34Fe1.8Co0.2As2 Ba 0.66 K 0.34 Fe 1.8 Co 0.2 As 2 3 2010 AB2C2 ThCr2Si2 K 19 19 "Ba,K,FeAs,CoAs" "(mixture in alumina) - (sealed in quartz tube, Ar) - heat(1273 K, 2h) - slow cool to 1073 K(24h) - Q to RT" Transition from antiferromagnetism to superconductivity in the compensated metallic state of Ba1-xKx(Fe1-yCoy)2As2 2010 "Institute for Solid State Physics, University of Tokyo, Kashiwanoha, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 82(2010)184510"
152424 PRB082184510 "(Ba,K)(Fe,Co)2As2" Ba0.68K0.32Fe1.954Co0.046As2 Ba 0.68 K 0.32 Fe 1.954 Co 0.046 As 2 3 2010 AB2C2 ThCr2Si2 K 35 35 "Ba,K,FeAs,CoAs" "(mixture in alumina) - (sealed in quartz tube, Ar) - heat(1273 K, 2h) - slow cool to 1073 K(24h) - Q to RT" Transition from antiferromagnetism to superconductivity in the compensated metallic state of Ba1-xKx(Fe1-yCoy)2As2 2010 "Institute for Solid State Physics, University of Tokyo, Kashiwanoha, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 82(2010)184510"
152425 PRB082184510 "(Ba,K)(Fe,Co)2As2" Ba0.511K0.489Fe1.772Co0.228As2 Ba 0.511 K 0.489 Fe 1.772 Co 0.228 As 2 3 2010 AB2C2 ThCr2Si2 K 22 22 "Ba,K,FeAs,CoAs" "(mixture in alumina) - (sealed in quartz tube, Ar) - heat(1273 K, 2h) - slow cool to 1073 K(24h) - Q to RT" Transition from antiferromagnetism to superconductivity in the compensated metallic state of Ba1-xKx(Fe1-yCoy)2As2 2010 "Institute for Solid State Physics, University of Tokyo, Kashiwanoha, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 82(2010)184510"
152426 PRB082184510 "(Ba,K)(Fe,Co)2As2" Ba0.49K0.51Fe1.79Co0.21As2 Ba 0.49 K 0.51 Fe 1.79 Co 0.21 As 2 3 2010 AB2C2 ThCr2Si2 K 15 15 "Ba,K,FeAs,CoAs" "(mixture in alumina) - (sealed in quartz tube, Ar) - heat(1273 K, 2h) - slow cool to 1073 K(24h) - Q to RT" Transition from antiferromagnetism to superconductivity in the compensated metallic state of Ba1-xKx(Fe1-yCoy)2As2 2010 "Institute for Solid State Physics, University of Tokyo, Kashiwanoha, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 82(2010)184510"
152427 SSC1502248 Tc from R. T = 96.2 K. lattice term in SP = 0.77 mJ/mol.K4 2H-NixTaSe2 Ni0.02Ta1Se2 Ni 0.02 Ta 1 Se 2 3 2010 2H-TaS2 A 12.733 K 2.58 2.79 2.5 2.5 mJ/mol.K2 8.13 SP-heat 196.8 SP-heat "stoichiometric polycrystals by solid state reaction. Then, zone melting" Growth and superconductivity of 2H-Ni0.02TaSe2 single crystals 2010 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Solid State Commun., 150(2010)2248"
152428 SSC1502248 T = 115.5 K (incommensulate) from SP-heat. T = 110.5 K (commensulate) lattice term in SP = 0.64 mJ/mol.K4 TaSe2 Se2Ta1 Se 2 Ta 1 3 2010 AB2 2H-TaS2 A 12.71 K 0.14 0.14 mJ/mol.K2 6.83 SP-heat 208 SP-heat "stoichiometric polycrystals by solid state reaction. Then, zone melting" Growth and superconductivity of 2H-Ni0.02TaSe2 single crystals 2010 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Solid State Commun., 150(2010)2248"
152429 PHC4701029 d nearly 800 A. NdxCuO4 Nd1.4Cu1O4 Nd 1.4 Cu 1 O 4 4 2010 T' A 3.9437 12.124 K 26.3 29.4 27.85 TC152429 mOhm.cm 0.985 MOD method using Nd- and Cu-naphthenate solutions. spin coated on SrTiO3(001) substrates. Finally films reduced in vac(Fe(M=54.0 g/mol). tetra-to-ortho transition at 100K. at 5 K: Cmma, a=5.3343, b=5.3093, c=5.4879, vol=155.423 A3." FeSe0.98 Fe1Se0.98 Fe 1 Se 0.98 2010 AB P4/nmm A 3.7698 5.5164 at 250 K K 8.21 8.21 0.81 Fe 100 0.22 "Fe(3N),<54>Fe(4N),Se(5N)" 1 solid state reaction Iron isotope effect on the superconducting transition temperature and the crystal structure of FeSe1-x 2010 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "New J.Phys., 12(2010)073024"
152513 PRL105037004 optimum O-content sample(O-content not given). Tc depends on lattice parameter-a. SmOFeAs Sm1Fe1As1O0.85 Sm 1 Fe 1 As 1 O 0.85 2010 oxypnictide A 3.915 K 54 54 TC152513 -0.02 Fe 43 "Fe,Fe2O3,As,Sm(OH)3,SmAs" 1 high-P synthesize. Absence of an Appreciable Iron Isotope Effect on the Transition Temperature of the Optimally Doped SmFeAsO1-y Superconductor 2010 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568, Japan" "Phys.Rev.Lett., 105(2010)037004"
152514 PRL105037004 H doped from Sm(OH)3. "Sm(O,H)FeAs" Sm1Fe1As1H0.3O0.6 Sm 1 Fe 1 As 1 H 0.3 O 0.6 2010 oxypnictide K 51.4 51.4 TC152513 "Fe,Fe2O3,As,Sm(OH)3,SmAs" 1 high-P synthesize. Absence of an Appreciable Iron Isotope Effect on the Transition Temperature of the Optimally Doped SmFeAsO1-y Superconductor 2010 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568, Japan" "Phys.Rev.Lett., 105(2010)037004"
152515 PRL105037004 H doped from Sm(OH)3. "Sm(O,H)FeAs" Sm1Fe1As1H0.12O0.77 Sm 1 Fe 1 As 1 H 0.12 O 0.77 2010 oxypnictide K 54.2 54.2 "Fe,Fe2O3,As,Sm(OH)3,SmAs" 1 high-P synthesize. Absence of an Appreciable Iron Isotope Effect on the Transition Temperature of the Optimally Doped SmFeAsO1-y Superconductor 2010 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568, Japan" "Phys.Rev.Lett., 105(2010)037004"
152516 PRL105037004 SmO0.8FeAs Sm1Fe1As1O0.8 Sm 1 Fe 1 As 1 O 0.8 2010 oxypnictide K 40.1 40.1 "Fe,Fe2O3,As,Sm(OH)3,SmAs" 1 high-P synthesize. Absence of an Appreciable Iron Isotope Effect on the Transition Temperature of the Optimally Doped SmFeAsO1-y Superconductor 2010 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568, Japan" "Phys.Rev.Lett., 105(2010)037004"
152517 PRB082220504 proton irradiation effect of Tc. under doped sample "Ba(Fe,Co)2As2" Ba1Fe1.91Co0.09As2 Ba 1 Fe 1.91 Co 0.09 As 2 3 2010 AB2C2 ThCr2Si2 K 15.1 15.1 MTC152517 A 2000 "FeAs/CoAs self-flux method. mixture in alumina crucible - sealed in silica tube - heat and keep(1150C,10h) - slow cool to 800C(5C/h)" Suppression of the critical temperature of superconducting Ba(Fe1-xCox)2As2 by point defects from proton irradiation 2010 "Department of Applied Physics, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B, 82(2010)220504"
152518 PRB082220504 proton irradiation effect of Tc. optimum sample "Ba(Fe,Co)2As2" Ba1Fe1.85Co0.15As2 Ba 1 Fe 1.85 Co 0.15 As 2 3 2010 AB2C2 ThCr2Si2 A 12.978 K 24.8 24.8 MTC152518 A 2000 "FeAs/CoAs self-flux method. mixture in alumina crucible - sealed in silica tube - heat and keep(1150C,10h) - slow cool to 800C(5C/h)" Suppression of the critical temperature of superconducting Ba(Fe1-xCox)2As2 by point defects from proton irradiation 2010 "Department of Applied Physics, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B, 82(2010)220504"
152519 PRB082220504 proton irradiation effect of Tc. overdoped sample "Ba(Fe,Co)2As2" Ba1Fe1.774Co0.226As2 Ba 1 Fe 1.774 Co 0.226 As 2 3 2010 AB2C2 ThCr2Si2 K 12.8 12.8 MTC152519 A 2000 "FeAs/CoAs self-flux method. mixture in alumina crucible - sealed in silica tube - heat and keep(1150C,10h) - slow cool to 800C(5C/h)" Suppression of the critical temperature of superconducting Ba(Fe1-xCox)2As2 by point defects from proton irradiation 2010 "Department of Applied Physics, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B, 82(2010)220504"
152520 APL096072514 "La(O,H)FeAs" La1Fe1As1H0.6O0.6 La 1 Fe 1 As 1 H 0.6 O 0.6 1 2010 oxypnictide A 3.9938 8.6898 K 34 38.5 35 35 56 "Fe,Fe2O3,As,La(Ce,Pr)As,La(OH)3" "mixture(LaFeAsO1-xHx) - pellet heat(1100C,2h, P=3.5 GPa)" Possible hydrogen doping and enhancement of Tc (=35 K) in a LaFeAsO-based superconductor 2010 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568, Japan" "Appl.Phys.Lett.,96(2010)072514"
152521 APL096072514 "Ce(O,H)FeAs" Ce1Fe1As1H0.6O0.6 Ce 1 Fe 1 As 1 H 0.6 O 0.6 1 2010 oxypnictide A 3.974 8.5953 K 44.6 48 45.8 45.8 "Fe,Fe2O3,As,La(Ce,Pr)As,La(OH)3" "mixture(LaFeAsO1-xHx) - pellet heat(1100C,2h, P=3.5 GPa)" Possible hydrogen doping and enhancement of Tc (=35 K) in a LaFeAsO-based superconductor 2010 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568, Japan" "Appl.Phys.Lett.,96(2010)072514"
152522 APL096072514 "Pr(O,H)FeAs" Pr1Fe1As1H0.6O0.6 Pr 1 Fe 1 As 1 H 0.6 O 0.6 1 2010 oxypnictide A 3.9522 8.5608 K 49.6 51.9 49.7 49.7 "Fe,Fe2O3,As,La(Ce,Pr)As,La(OH)3" "mixture(LaFeAsO1-xHx) - pellet heat(1100C,2h, P=3.5 GPa)" Possible hydrogen doping and enhancement of Tc (=35 K) in a LaFeAsO-based superconductor 2010 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568, Japan" "Appl.Phys.Lett.,96(2010)072514"
152523 JPS078034712 synthesized under P=3.5 GPa. DyOxFeAs Dy1Fe1As1O0.7 Dy 1 Fe 1 As 1 O 0.7 1 2009 oxypnictide A 3.8748 8.345 K 37 37 53 "high-P synthesis. heat(1050-1150C, P=<5.5 GPa)" "Superconductivity above 50K in LnFeAsO1-y (Ln = Nd, Sm, Gd, Tb, and Dy) Synthesized by High-Pressure Technique" 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 78(2009)034712"
152524 JPS078034712 synthesized under P43.5 GPa. DyOxFeAs Dy1Fe1As1O0.7 Dy 1 Fe 1 As 1 O 0.7 1 2009 oxypnictide A 3.8668 8.3355 K 44 44 61 "high-P synthesis. heat(1050-1150C, P=<5.5 GPa)" "Superconductivity above 50K in LnFeAsO1-y (Ln = Nd, Sm, Gd, Tb, and Dy) Synthesized by High-Pressure Technique" 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 78(2009)034712"
152525 JPS078034712 synthesized under P=5.5 GPa. DyOxFeAs Dy1Fe1As1O0.7 Dy 1 Fe 1 As 1 O 0.7 1 2009 oxypnictide A 3.8625 8.3216 K 49.8 51.2 51.6 51.2 51.2 63 "high-P synthesis. heat(1050-1150C, P=<5.5 GPa)" "Superconductivity above 50K in LnFeAsO1-y (Ln = Nd, Sm, Gd, Tb, and Dy) Synthesized by High-Pressure Technique" 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 78(2009)034712"
152526 JPS078034712 synthesized under P=5.5 GPa. LaOxFeAs La1Fe1As1O0.7 La 1 Fe 1 As 1 O 0.7 1 2009 oxypnictide A 4.0257 8.719 K 26.2 28.4 29 27.8 28.4 "high-P synthesis. heat(1100-1150C, P=5.5 GPa)" "Superconductivity above 50K in LnFeAsO1-y (Ln = Nd, Sm, Gd, Tb, and Dy) Synthesized by High-Pressure Technique" 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 78(2009)034712"
152527 JPS078034712 synthesized under P=5.5 GPa. CeOxFeAs Ce1Fe1As1O0.7 Ce 1 Fe 1 As 1 O 0.7 1 2009 oxypnictide A 3.995 8.631 K 35.5 40.2 41.2 38.5 40.2 "high-P synthesis. heat(1100-1150C, P=5.5 GPa)" "Superconductivity above 50K in LnFeAsO1-y (Ln = Nd, Sm, Gd, Tb, and Dy) Synthesized by High-Pressure Technique" 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 78(2009)034712"
152528 JPS078034712 synthesized under P=5.5 GPa. PrOxFeAs Pr1Fe1As1O0.7 Pr 1 Fe 1 As 1 O 0.7 1 2009 oxypnictide A 3.9627 8.5721 K 46 48.5 49.2 48.1 48.5 "high-P synthesis. heat(1100-1150C, P=5.5 GPa)" "Superconductivity above 50K in LnFeAsO1-y (Ln = Nd, Sm, Gd, Tb, and Dy) Synthesized by High-Pressure Technique" 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 78(2009)034712"
152529 JPS078034712 synthesized under P=5.5 GPa. NdOxFeAs Nd1Fe1As1O0.7 Nd 1 Fe 1 As 1 O 0.7 1 2009 oxypnictide A 3.9432 8.529 K 52.1 53.7 54.3 53 53.7 "high-P synthesis. heat(1100-1150C, P=5.5 GPa)" "Superconductivity above 50K in LnFeAsO1-y (Ln = Nd, Sm, Gd, Tb, and Dy) Synthesized by High-Pressure Technique" 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 78(2009)034712"
152530 JPS078034712 synthesized under P=5.5 GPa. SmOxFeAs Sm1Fe1As1O0.7 Sm 1 Fe 1 As 1 O 0.7 1 2009 oxypnictide A 3.9218 8.4522 K 50.5 52.1 53.3 52.5 52.1 "high-P synthesis. heat(1100-1150C, P=5.5 GPa)" "Superconductivity above 50K in LnFeAsO1-y (Ln = Nd, Sm, Gd, Tb, and Dy) Synthesized by High-Pressure Technique" 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 78(2009)034712"
152531 JPS078034712 synthesized under P=5.5 GPa. GdOxFeAs Gd1Fe1As1O0.7 Gd 1 Fe 1 As 1 O 0.7 1 2009 oxypnictide A 3.8905 8.3928 K 52.4 53.6 54 53.5 53.6 "high-P synthesis. heat(1050-1150C, P=<5.5 GPa)" "Superconductivity above 50K in LnFeAsO1-y (Ln = Nd, Sm, Gd, Tb, and Dy) Synthesized by High-Pressure Technique" 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 78(2009)034712"
152532 JPS078034712 synthesized under P=5.5 GPa. TbOxFeAs Tb1Fe1As1O0.7 Tb 1 Fe 1 As 1 O 0.7 1 2009 oxypnictide A 3.8753 8.3527 K 50.2 52.2 52.6 52.4 52.2 "high-P synthesis. heat(1050-1150C, P=<5.5 GPa)" "Superconductivity above 50K in LnFeAsO1-y (Ln = Nd, Sm, Gd, Tb, and Dy) Synthesized by High-Pressure Technique" 2009 "National Institute of Advanced Industrial Science and Technology, Tsukuba, Ibaraki 305-8568" "J.Phys.Soc.Jpn, 78(2009)034712"
152533 SST023115005 "impurity phaes: FeAs,CaFe2As2,Fe2As2Ca5(Al,Ti)3O9" "Fe2As2Ca4(Al,Ti)2O6" Fe2As2Ca4Al1.34Ti0.66O6 Fe 2 As 2 Ca 4 Al 1.34 Ti 0.66 O 6 2 2010 2 P4/nmm A 3.77 15.4 K 12.5 12.5 "reaction(1000C,100h)" "A new homologous series of iron pnictide oxide superconductors (Fe2As2)(Can+2(Al, Ti)nOy) (n = 2, 3, 4)" 2010 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Supercond.Sci.Technol., 23(2010)115005"
152534 SST023115005 "impurity phaes: Fe2As2Ca6(Al,Ti)4O12" "Fe2As2Ca5(Al,Ti)3O9" Fe2As2Ca5Al1.5Ti1.5O9 Fe 2 As 2 Ca 5 Al 1.5 Ti 1.5 O 9 2 2010 2 P4mm A 3.79 19 K 15 15 "reaction(1050C,100h)" "A new homologous series of iron pnictide oxide superconductors (Fe2As2)(Can+2(Al, Ti)nOy) (n = 2, 3, 4)" 2010 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Supercond.Sci.Technol., 23(2010)115005"
152535 SST023115005 nearly single phase "Fe2As2Ca6(Al,Ti)4O12" Fe2As2Ca6Al1.32Ti2.68O12 Fe 2 As 2 Ca 6 Al 1.32 Ti 2.68 O 12 1 2010 2 P4/nmm A 3.815 22.68 K 39 36 36 "reaction(1100C,100h)" "A new homologous series of iron pnictide oxide superconductors (Fe2As2)(Can+2(Al, Ti)nOy) (n = 2, 3, 4)" 2010 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Supercond.Sci.Technol., 23(2010)115005"
152536 APL097072506 "SIN(1050C,72h). impurity phases: CaSc2O4, CaFe2As2" "Fe2As2Ca4(Sc,Ti)3O7.5" Fe2As2Ca4Sc2.01Ti0.99O7.5 Fe 2 As 2 Ca 4 Sc 2.01 Ti 0.99 O 7.5 2010 I4/mmm A 3.922 33.56 K 33 31 31 "FeAs,CaO,Ti,TiO2,Sc2O3" 1 "solid state reaction. mixture - pellet - (sealed in quartz tube) - heat(1000-1200C,60-100h) - slow cool to RT" "Homologous series of iron pnictide oxide superconductors (Fe2As2)[Can+1(Sc,Ti)nOy] (n=3,4,5) with extremely thick blocking layers" 2010 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656," "Appl.Phys.Lett., 97(2010)072506"
152537 APL097072506 "SIN(1100C,72h)" "Fe2As2Ca5(Sc,Ti)4O710" Fe2As2Ca5Sc2Ti2O10 Fe 2 As 2 Ca 5 Sc 2 Ti 2 O 10 2010 I4/mmm A 3.902 41.26 K 41 36 36 "FeAs,CaO,Ti,TiO2,Sc2O3" 1 "solid state reaction. mixture - pellet - (sealed in quartz tube) - heat(1000-1200C,60-100h) - slow cool to RT" "Homologous series of iron pnictide oxide superconductors (Fe2As2)[Can+1(Sc,Ti)nOy] (n=3,4,5) with extremely thick blocking layers" 2010 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656," "Appl.Phys.Lett., 97(2010)072506"
152538 APL097072506 "SIN(1200C,72h)" "Fe2As2Ca6(Sc,Ti)5O13" Fe2As2Ca4Sc2Ti3O13 Fe 2 As 2 Ca 4 Sc 2 Ti 3 O 13 2010 I4/mmm A 3.884 49.16 K 42 36 36 "FeAs,CaO,Ti,TiO2,Sc2O3" 1 "solid state reaction. mixture - pellet - (sealed in quartz tube) - heat(1000-1200C,60-100h) - slow cool to RT" "Homologous series of iron pnictide oxide superconductors (Fe2As2)[Can+1(Sc,Ti)nOy] (n=3,4,5) with extremely thick blocking layers" 2010 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656," "Appl.Phys.Lett., 97(2010)072506"
152539 JPS079114723 Tc by self-induction of NMR-coil. lattice term of SP (beta) = 0.90 mJ/mol.K4. Rh17S15 Rh17S15 Rh 17 S 15 1 2010 A15B17 Pd17Se15 Pm3m K 5.4 5.4 T 7.1 3.8 4 14 mJ/mol.K2 110 SP-heat 410 SP-heat solid state reaction Electron Correlations in Superconductor Rh17S15 Studied by <103>Rh NMR and Specific Heat Measurements 2010 "Graduate School of Material Science, University of Hyogo, Kamigori, Hyogo 678-1297, Japan" "J.Phys.Soc.Jpn, 79(2010)114723"
152540 JPS079083708 "M-H curves measured for H//c-axis. samples show the absence of Meissner state, then lower critical field not observed" UCoGe U1Co1Ge1 U 1 Co 1 Ge 1 3 2010 2.55 ABC TiNiSi K 0.48 0.48 Czochralski method Absence of Meissner State and Robust Ferromagnetism in the Superconducting State of UCoGe: Possible Evidence of Spontaneous Vortex State 2010 "Department of Physics, Graduate School of Science, Nagoya University, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)083708"
152541 JPS079093709 optimally F-doped sample. NMR and NQR of <75>As were measured. "La(O,F)FeAs" La1Fe1As1F0.11O0.89 La 1 Fe 1 As 1 F 0.11 O 0.89 1 2010 oxypnictide A 8.717 K 27.6 26.3 26.3 TC152541 <75>As-NMR Studies of LaFeAsO1-xFx for Various x Values 2010 "Department of Physics, Division of Material Science, Nagoya University, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)093709"
152542 JPS079114710 beta-pyrochlore. Structural transition (low-T phase = monoclinic) at P=3.6 GPa. KOs2O6 K1Os2O6 K 1 Os 2 O 6 2010 AB2C6 pyrochlore Fd3[-]m K 9.62 9.62 TC152542 "flux method. KOsO4:OsO2 = 3:1 in quartz ampoule - heat(748K,24h)" Superconducting and Structural Transitions in the beta-Pyrochlore Oxide KOs2O6 under High Pressure 2010 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "J.Phys.Soc.Jpn, 79(2010)114710"
152543 PHC4702040 major grain: Mo0.45Sr2YCu2.87Oz by EDX MoSr2YCu2O8 Mo1Sr2Y1Cu2O8-z Mo 1 Sr 2 Y 1 Cu 2 O 8-z 2010 M1212 3.815 11.446 K 22 22 14 Oe M-H curve 60 2 T R=0.5Rn 2.5 "MoO3,SnO2,Y2O3,SrCO3,CuO" 1 "mixture - pellet - preheat(750C,24h, in air) - (grind & pellet) - SIN(950C,24h, in O2-flow) - (grid & pellet) - (1050C,48h, in O2-flow) - ANN(600C,48h + 400C,24h, in O2-flow)" Superconductivity and critical fields in undoped and Sn-doped MoSr2YCu2O8 2010 "Institute of Solid State Physics, Bulgarian Academy of Sciences, 1784 Sofia, Bulgaria" "Physica C, 470(2010)2040"
152545 PHC4702040 "major grain: Mo0.4Sn0.1Sr1.5YCu2.9Oz by EDX position of Sn : Mo-site, grain boundary" Mo(Snx)Sr2YCu2O8 Mo1Sn0.075Sr2Y1Cu2O8-z Mo 1 Sn 0.075 Sr 2 Y 1 Cu 2 O 8-z 2010 M1212 3.793 11.379 K 22 22 T "MoO3,SnO2,Y2O3,SrCO3,CuO" 1 "mixture - pellet - preheat(750C,24h, in air) - (grind & pellet) - SIN(950C,24h, in O2-flow) - (grid & pellet) - (1050C,48h, in O2-flow) - ANN(600C,48h + 400C,24h, in O2-flow)" Superconductivity and critical fields in undoped and Sn-doped MoSr2YCu2O8 2010 "Institute of Solid State Physics, Bulgarian Academy of Sciences, 1784 Sofia, Bulgaria" "Physica C, 470(2010)2040"
152547 PHC470S631 "P-induced SC. Tc measured by resistivity at P=159 GPa. Hc2 = 0, 1, 2, 3 T for T = 6.0, 5.43, 4.70, 3.74 K, respectively." alpha-B B1 B 1 2010 A K 6 0 6 T resistivity 3 3.74 Superconductivity in alpha-boron at Mbar pressure 2010 "KYOKUGEN, Center for Quantum Science and Technology under Extreme Conditions, Osaka University, Toyonaka, Osaka 560-8531, Japan" "Physica C, 470(2010)S631"
152548 PHC470S328 Thermodynamic Hc(0) = 100 mT. RbFe2As2 Rb1Fe2As2 Rb 1 Fe 2 As 2 1 2010 AB2C2 ThCr2Si2 A 3.863 14.447 K 2.6 2.6 Oe M-H curve 40 T "magnetization, WHH" 2.5 T/K magnetization 1.4 MHC152548 "RbAs,Fe2As2" "mixture - pellet - ANN(650C,several days)" Bulk superconductivity at 2.6 K in undoped RbFe2As2 2010 "Laboratory for Solid State Physics, ETH Zurich, CH-8093 Zurich, Switzerland" "Physica C, 470(2010)S328"
152549 PHC470S404 "composition: YFe1.8Si2 by X-ray analysis. SP heat: C=gamma*T + beta*T^3 + delta*T5 (beta=0.115 mJ/mol.K4, delta=0.52E-4 mJ/mol.K6). no anomaly at Tc in C(T)." YFe2Si2 Y1Fe2Si2 Y 1 Fe 2 Si 2 3 2010 AB2C2 ThCr2Si2 A 3.915 9.936 K 2.8 2.9 3.5 2.9 0.6 mJ/mol.K2 26 Czochralski method. nominal(Y:Fe:Si=2:3:5) - (arc-melting) - Czochralski method Superconductivity in ternary iron silicide YFe2-zSi2 single crystal 2010 "Department of Physics and Electronics, Osaka Prefecture University, Sakai, Osaka 599-8531, Japan" "Physica C, 470(2010)S404"
152550 P072064502 "Sr- and Zn-content by ICP. optimal doping: Sr=0.144, Zn=0.0044" "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.996Zn0.004O4 La 1.85 Sr 0.15 Cu 0.996 Zn 0.004 O 4 3 2005 T K 32.6 2.2 32.6 TSFZ. cylinder axis//-axis. Zn and Ni doping effects on the low-energy spin excitations in La1.85Sr0.15CuO4 2005 "Institute for Solid State Physics, University of Tokyo, Kashiwa 277-8581, Japan" "Phys.Rev.B, 72(2005)064502"
152551 P072064502 "Sr- and Zn-content by ICP. optimal doping: Sr=0.147, Zn=0.0083. structural transition Td1 = 192 K." "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.992Zn0.008O4 La 1.85 Sr 0.15 Cu 0.992 Zn 0.008 O 4 3 2005 T K 27.8 2.5 27.8 TSFZ. cylinder axis//-axis. Zn and Ni doping effects on the low-energy spin excitations in La1.85Sr0.15CuO4 2005 "Institute for Solid State Physics, University of Tokyo, Kashiwa 277-8581, Japan" "Phys.Rev.B, 72(2005)064502"
152552 P072064502 "Sr- and Zn-content by ICP. optimal doping: Sr=0.144, Zn=0.0112" "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.989Zn0.011O4 La 1.85 Sr 0.15 Cu 0.989 Zn 0.011 O 4 3 2005 T K 23.2 2.9 23.2 TSFZ. cylinder axis//-axis. Zn and Ni doping effects on the low-energy spin excitations in La1.85Sr0.15CuO4 2005 "Institute for Solid State Physics, University of Tokyo, Kashiwa 277-8581, Japan" "Phys.Rev.B, 72(2005)064502"
152553 P072064502 "Sr- and Zn-content by ICP. optimal doping: Sr=0.145, Zn=0.0170. structural transition Td1 = 202 K." "(La,Sr)2(Cu,Zn)O4" La1.85Sr0.15Cu0.983Zn0.017O4 La 1.85 Sr 0.15 Cu 0.983 Zn 0.017 O 4 3 2005 T K 16 3.8 16 TSFZ. cylinder axis//-axis. Zn and Ni doping effects on the low-energy spin excitations in La1.85Sr0.15CuO4 2005 "Institute for Solid State Physics, University of Tokyo, Kashiwa 277-8581, Japan" "Phys.Rev.B, 72(2005)064502"
152554 P072064502 Sr- and Zn-content by ICP. optimal doping: Sr=0.142. structural transition Td1 = 186 K. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 3 2005 T K 36.8 1.7 36.8 TSFZ. cylinder axis//-axis. Zn and Ni doping effects on the low-energy spin excitations in La1.85Sr0.15CuO4 2005 "Institute for Solid State Physics, University of Tokyo, Kashiwa 277-8581, Japan" "Phys.Rev.B, 72(2005)064502"
152555 P072064502 "Sr- and Zn-content by ICP. optimal doping: Sr=0.145, Zn=0.0090" "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.991Ni0.009O4 La 1.85 Sr 0.15 Cu 0.991 Ni 0.009 O 4 3 2005 T K 30 2.8 30 TSFZ. cylinder axis//-axis. Zn and Ni doping effects on the low-energy spin excitations in La1.85Sr0.15CuO4 2005 "Institute for Solid State Physics, University of Tokyo, Kashiwa 277-8581, Japan" "Phys.Rev.B, 72(2005)064502"
152556 P072064502 "Sr- and Zn-content by ICP. optimal doping: Sr=0.144, Zn=0.0185. structural transition Td1 = 184 K." "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.982Ni0.018O4 La 1.85 Sr 0.15 Cu 0.982 Ni 0.018 O 4 3 2005 T K 22.5 5.9 22.5 TSFZ. cylinder axis//-axis. Zn and Ni doping effects on the low-energy spin excitations in La1.85Sr0.15CuO4 2005 "Institute for Solid State Physics, University of Tokyo, Kashiwa 277-8581, Japan" "Phys.Rev.B, 72(2005)064502"
152557 P072064502 "Sr- and Zn-content by ICP. optimal doping: Sr=0.142, Zn=0.0287. structural transition Td1 = 182 K." "(La,Sr)2(Cu,Ni)O4" La1.85Sr0.15Cu0.971Ni0.029O4 La 1.85 Sr 0.15 Cu 0.971 Ni 0.029 O 4 3 2005 T K 11.6 9.2 11.6 TSFZ. cylinder axis//-axis. Zn and Ni doping effects on the low-energy spin excitations in La1.85Sr0.15CuO4 2005 "Institute for Solid State Physics, University of Tokyo, Kashiwa 277-8581, Japan" "Phys.Rev.B, 72(2005)064502"
152558 P072064503 thickness = 100A. [penet] measured by transmission microwavw method. Nb Nb1 Nb 1 4 2005 W K 7.13 0.1 7.13 A mivrowave 2174 uOhm.cm 16.1 dc magnetron sputtering in Ar. substrate: Si(100). deposition rate = 2 nm/s. Dependence of magnetic penetration depth on the thickness of superconducting Nb thin films 2005 "Institut fur Schichten und Grenzflachen and CNI?Centre of Nanoelectronic Systems for Information Technology, Forschungszentrum Julich, D-52425 Julich, Germany" "Phys.Rev.B, 72(2005)064503"
152559 P072064503 thickness = 200A. [penet] measured by transmission microwavw method. Nb Nb1 Nb 1 4 2005 W K 7.95 0.1 7.95 A mivrowave 1361 uOhm.cm 11.8 dc magnetron sputtering in Ar. substrate: Si(100). deposition rate = 2 nm/s. Dependence of magnetic penetration depth on the thickness of superconducting Nb thin films 2005 "Institut fur Schichten und Grenzflachen and CNI?Centre of Nanoelectronic Systems for Information Technology, Forschungszentrum Julich, D-52425 Julich, Germany" "Phys.Rev.B, 72(2005)064503"
152560 P072064503 thickness = 500A. [penet] measured by transmission microwavw method. Nb Nb1 Nb 1 4 2005 W K 8.81 0.1 8.81 A mivrowave 1191 uOhm.cm 10.3 dc magnetron sputtering in Ar. substrate: Si(100). deposition rate = 2 nm/s. Dependence of magnetic penetration depth on the thickness of superconducting Nb thin films 2005 "Institut fur Schichten und Grenzflachen and CNI?Centre of Nanoelectronic Systems for Information Technology, Forschungszentrum Julich, D-52425 Julich, Germany" "Phys.Rev.B, 72(2005)064503"
152561 P072064503 thickness = 1000A. [penet] measured by transmission microwavw method. Nb Nb1 Nb 1 4 2005 W K 9.09 0.1 9.09 A mivrowave 1008 uOhm.cm 5.37 dc magnetron sputtering in Ar. substrate: Si(100). deposition rate = 2 nm/s. Dependence of magnetic penetration depth on the thickness of superconducting Nb thin films 2005 "Institut fur Schichten und Grenzflachen and CNI?Centre of Nanoelectronic Systems for Information Technology, Forschungszentrum Julich, D-52425 Julich, Germany" "Phys.Rev.B, 72(2005)064503"
152562 P072064503 thickness = 2000A. [penet] measured by transmission microwavw method. Nb Nb1 Nb 1 4 2005 W K 9.47 0.1 9.47 A mivrowave 872 uOhm.cm 4.48 dc magnetron sputtering in Ar. substrate: Si(100). deposition rate = 2 nm/s. Dependence of magnetic penetration depth on the thickness of superconducting Nb thin films 2005 "Institut fur Schichten und Grenzflachen and CNI?Centre of Nanoelectronic Systems for Information Technology, Forschungszentrum Julich, D-52425 Julich, Germany" "Phys.Rev.B, 72(2005)064503"
152563 P072064503 thickness = 3000A. [penet] measured by transmission microwavw method. Nb Nb1 Nb 1 4 2005 W K 9.71 0.1 9.71 A mivrowave 772 uOhm.cm 3.75 dc magnetron sputtering in Ar. substrate: Si(100). deposition rate = 2 nm/s. Dependence of magnetic penetration depth on the thickness of superconducting Nb thin films 2005 "Institut fur Schichten und Grenzflachen and CNI?Centre of Nanoelectronic Systems for Information Technology, Forschungszentrum Julich, D-52425 Julich, Germany" "Phys.Rev.B, 72(2005)064503"
152564 PHC470S379 structural transition (tetra-to-ortho) at 198 K. SrFe2As2 Sr1Fe2As2 Sr 1 Fe 2 As 2 3 2010 AB2C2 ThCr2Si2 K 1.8 "self-flux method. mixture(FeAs:NiAs:Sr=(4-2x):2x:1) - alumina crucible) - heat(1200C in quartz tube) - ANN(700C,14d, in Ar)" Annealing effects on superconductivity in SrFe2-xNixAs2 2010 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, MD 20742, USA" "Physica C, 470(2010)S379"
152565 PHC470S379 annealing effect of Tc measured. "Sr(Fe,Ni)2As2" Sr1Fe1.85Ni0.15As2 Sr 1 Fe 1.85 Ni 0.15 As 2 3 2010 AB2C2 ThCr2Si2 K 9.8 9.2 9.2 "self-flux method. mixture(FeAs:NiAs:Sr=(4-2x):2x:1) - alumina crucible) - heat(1200C in quartz tube) - ANN(700C,14d, in Ar)" Annealing effects on superconductivity in SrFe2-xNixAs2 2010 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, MD 20742, USA" "Physica C, 470(2010)S379"
152566 PHC470S296 (dC/gamma*Tc) = 0.87. no detail for Hc2. BaRh2P2 Ba1Rh2P2 Ba 1 Rh 2 P 2 2010 AB2C2 ThCr2Si2 A 3.939 12.576 K 1 1 1 T 0.07 mJ/mol.K2 9.75 SP-heat "In(3N),Rh(3N),Ba(3N),Sr(4N),P(5N),As(5N)" "mixture - pellet - (alumina crucible) - heat(400C,16h + 1000C,12h, in sealed quartz tube)" "Superconductivity in 4d and 5d transition metal layered pnictides BaRh2P2, BaIr2P2 and SrIr2As2" 2010 "Department of Advanced Materials, The University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba 277-8561, Japan" "Physica C, 470(2010)S296"
152567 PHC470S296 (dC/gamma*Tc) = 1.53. no detail for Hc2. BaIr2P2 Ba1Ir2P2 Ba 1 Ir 2 P 2 2010 AB2C2 ThCr2Si2 A 3.946 12.572 K 2.1 2.1 2.1 T 0.14 mJ/mol.K2 6.86 SP-heat "In(3N),Rh(3N),Ba(3N),Sr(4N),P(5N),As(5N)" "mixture - pellet - (alumina crucible) - heat(400C,16h + 1000C,12h, in sealed quartz tube)" "Superconductivity in 4d and 5d transition metal layered pnictides BaRh2P2, BaIr2P2 and SrIr2As2" 2010 "Department of Advanced Materials, The University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba 277-8561, Japan" "Physica C, 470(2010)S296"
152568 PHC470S296 "more heat treatment: SIN(1150C,48h). (dC/gamma*Tc) = 0.93. no detail for Hc2." SrIr2As2 Sr1Ir2As2 Sr 1 Ir 2 As 2 2010 AB2C2 ThCr2Si2 A 4.068 11.794 K 2.9 2.8 2.8 T 1.4 mJ/mol.K2 7.03 SP-heat "In(3N),Rh(3N),Ba(3N),Sr(4N),P(5N),As(5N)" "mixture - pellet - (alumina crucible) - heat(400C,16h + 1000C,12h, in sealed quartz tube)" "Superconductivity in 4d and 5d transition metal layered pnictides BaRh2P2, BaIr2P2 and SrIr2As2" 2010 "Department of Advanced Materials, The University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba 277-8561, Japan" "Physica C, 470(2010)S296"
152569 JPS079063701 P-induced SC. SC properties at P = 2.35 GPa. Hc2 measured for H//J//c-axis CeRhSi3 Ce1Rh1Si3 Ce 1 Rh 1 Si 3 3 2010 ABC3 BaNiSn3 K 1.06 0 1.06 MTC152569 T/K resistivity 12.3 MHC152569 "See Phys.Rev.Lett., 98(2007)197001" Anomalous Behavior of the Upper-Critical-Field in Heavy-Fermion Superconductor CeRhSi3 2010 "Graduate School of Science, Tohoku University, Sendai 980-8578, Japan" "J.Phys.Soc.Jpn, 79(2010)063701"
152570 JPS079063701 P-induced SC. SC properties at P = 2.85 GPa. Hc2 measured for H//J//c-axis CeRhSi3 Ce1Rh1Si3 Ce 1 Rh 1 Si 3 3 2010 ABC3 BaNiSn3 K 1.09 0 1.09 MTC152569 T/K resistivity 19.1 MHC152570 "See Phys.Rev.Lett., 98(2007)197001" Anomalous Behavior of the Upper-Critical-Field in Heavy-Fermion Superconductor CeRhSi3 2010 "Graduate School of Science, Tohoku University, Sendai 980-8578, Japan" "J.Phys.Soc.Jpn, 79(2010)063701"
152571 JPS079023702 "Nd(O,F)FeAs" Nd1Fe1As1F0.11O0.89 Nd 1 Fe 1 As 1 F 0.11 O 0.89 1 2010 ABCD oxypnictide A 3.9562 8.5404 K 48 48 uV/K -35.6 MTP152571 cm3/C MRH152571 "Nd,Nd2O3,NdF3,FeAs,RuAs,As" "solid state reacton . See J.Phys.Soc.Jpn, 78(2009)013701" Effects of Ru Doping on the Transport Behavior and Superconducting Transition Temperature of NdFeAsO0:89F0:11 2010 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)023702"
152572 JPS079023702 "Nd(O,F)FeAs" Nd1Fe0.98Ru0.02As1F0.11O0.89 Nd 1 Fe 0.98 Ru 0.02 As 1 F 0.11 O 0.89 1 2010 ABCD oxypnictide A 3.9591 8.5441 K 46.5 46.5 MTC152572 uV/K -37.3 MTP152572 cm3/C MRH152572 "Nd,Nd2O3,NdF3,FeAs,RuAs,As" "solid state reacton . See J.Phys.Soc.Jpn, 78(2009)013701" Effects of Ru Doping on the Transport Behavior and Superconducting Transition Temperature of NdFeAsO0:89F0:11 2010 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)023702"
152573 JPS079023702 "Nd(O,F)FeAs" Nd1Fe0.9Ru0.1As1F0.11O0.89 Nd 1 Fe 0.9 Ru 0.1 As 1 F 0.11 O 0.89 1 2010 ABCD oxypnictide A 3.9687 8.5249 K 40 40 uV/K -45 cm3/C MRH152573 "Nd,Nd2O3,NdF3,FeAs,RuAs,As" "solid state reacton . See J.Phys.Soc.Jpn, 78(2009)013701" Effects of Ru Doping on the Transport Behavior and Superconducting Transition Temperature of NdFeAsO0:89F0:11 2010 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)023702"
152574 JPS079023702 "Nd(O,F)FeAs" Nd1Fe0.85Ru0.15As1F0.11O0.89 Nd 1 Fe 0.85 Ru 0.15 As 1 F 0.11 O 0.89 1 2010 ABCD oxypnictide A 3.973 8.5069 K 34 34 uV/K MTP152574 cm3/C MRH152574 "Nd,Nd2O3,NdF3,FeAs,RuAs,As" "solid state reacton . See J.Phys.Soc.Jpn, 78(2009)013701" Effects of Ru Doping on the Transport Behavior and Superconducting Transition Temperature of NdFeAsO0:89F0:11 2010 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)023702"
152575 JPS079023702 "Nd(O,F)FeAs" Nd1Fe0.5Ru0.5As1F0.11O0.89 Nd 1 Fe 0.5 Ru 0.5 As 1 F 0.11 O 0.89 1 2010 ABCD oxypnictide A 4.0208 8.3778 K 14.5 14.5 uV/K 0 "Nd,Nd2O3,NdF3,FeAs,RuAs,As" "solid state reacton . See J.Phys.Soc.Jpn, 78(2009)013701" Effects of Ru Doping on the Transport Behavior and Superconducting Transition Temperature of NdFeAsO0:89F0:11 2010 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)023702"
152576 JPS079084705 RRR>700. Hc1 determined by micro Hall censor (first induction). anisotropy (Hc1) = 3 at Tc. URu2Si2 U1Ru2Si2 U 1 Ru 2 Si 2 3 2010 AB2C2 ThCr2Si2 K 1.4 1.4 mT magnetization MHC152576 um from Hc1 0.8 Czochralski method Anomalous Temperature Dependence of Lower Critical Field in Ultraclean URu2Si2 2010 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "J.Phys.Soc.Jpn, 79(2010)084705"
152577 JAC5091401 "impurity phases: Y2O3, YPd6Al3. Tc(R) defined as max of (dR/dT). (dC/gamma*Tc) = 0.2. e-ph coupling = 0.19" YPd2Al3 Y1Pd2Al3 Y 1 Pd 2 Al 3 2011 AB2C3 PrNi2Al3 P6/mmm A 5.3704 4.1932 K 2.2 2.3 2.2 T "resistivity, WHH" 0.96 T/K ac-SUS 0.7 MHC152577 A from Hc2 192 mJ/mol.K2 7.2 SP-heat 200 SP-heat YPd2Al3-A new superconducting compound 2011 "Charles University Prague, Faculty of Mathematics and Physics, Department of Condensed Matter Physics, Ke Karlovu 5, 121 16 Prague, Czech Republic" "J.Alloys Compd., 509(2011)1401"
152578 JPS080013702 "Li/Rh = 0.95, B/Rh = 1.48 from ICP analysis." LixRhBy Li1Rh1B1.5 Li 1 Rh 1 B 1.5 2011 ABC2 P2<1>3 K 2.5 2.5 K/GPa 0.15 "mixture(Rh,B) - addition(Li) - (Ta-foil or BN crucible) - (sealed in stainless, Ar) - heat(700-900C, 20h) FC to RT" A New Noncentrosymmetric Superconducting Phase in the Li-Rh-B System 2011 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.Soc.Jpn, 80(2011)013702"
152579 JPS080013702 Tc defined as R(mid). G-L parameter = 1. non-centrosymmetry sample. LixRhBy Li1.2Rh1B1.5 Li 1.2 Rh 1 B 1.5 2011 ABC2 P2<1>3 K 2.5 2.5 Oe 65.5 T "resistivity, linear extrapolation" 1.59 MHC152579 A 144 A from Hc1 145 "mixture(Rh,B) - addition(Li) - (Ta-foil or BN crucible) - (sealed in stainless, Ar) - heat(700-900C, 20h) FC to RT" A New Noncentrosymmetric Superconducting Phase in the Li-Rh-B System 2011 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.Soc.Jpn, 80(2011)013702"
152580 JPS080014716 RRR = 5.7. (dC/gamma*Tc) = 1.45. Thermodynamic Hc(0) = 23.7 mT. GL parameter = 38. Y2AlGe3 Y2Al1Ge3 Y 2 Al 1 Ge 3 2011 AB2C3 3 Y2AlGe3 Pnma 62 A 6.785 4.189 17.676 ThCr2Si2-derivative K 4.4 4.8 4.5 0.4 4.5 90 Oe M-H curve 16.6 T "resistivity, extrapolation" 1.26 MHC152580 A from Hc2 162 A from Hc1 6310 meV 0.595 3.54 14 mJ/mol.K2 6.91 SP-heat 407 SP-heat uOhm.cm 37.6 214 "mixture(Y:Al:Ge=2:1:3) - (arc-melting) - ANN(850C,1w, in vac)" Superconducting State in the Ternary Germanide Y2AlGe3 with Related ThCr2Si2-Type Structure 2011 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan" "J.Phys.Soc.Jpn, 80(2011)014716"
152581 PHC4710077 SC appears for 0.1=< x =<0.3 in FeTe1-xSx. Tc independent of x. SC volume increases with x. "Fe(Te,S)" Fe1Te0.75S0.25 Fe 1 Te 0.75 S 0.25 2011 AB 2 P4/nmm A 3.806 6.226 tetragonal K 5.5 7.28 10 7.28 T "resistivity, WHH" 65 MHC152581 uV/K -16 MTP152581 "solid state reaction. mixture - pellet - (sealed in quartz, vac) - SIN(750C,12h) - ANN(200C,12h, in O2-flow) cool to RT" Superconductivity and thermal properties of sulphur doped FeTe with effect of oxygen post annealing 2011 "National Physical Laboratory (CSIR), Quantum Phenomena & Applications, Division Dr. K.S. Krishnan Marg, New Delhi 110 012, India" "Physica C, 471(2011)77"
152582 PHC4710077 "not SC. Structural phase transition at 78 K, obseved in R(T) , C(T)." FeTe Fe1Te1 Fe 1 Te 1 2011 AB 2 P4/nmm A 3.821 6.285 K 5 "solid state reaction. mixture - pellet - (sealed in quartz, vac) - SIN(750C,12h) - ANN(200C,12h, in O2-flow) cool to RT" Superconductivity and thermal properties of sulphur doped FeTe with effect of oxygen post annealing 2011 "National Physical Laboratory (CSIR), Quantum Phenomena & Applications, Division Dr. K.S. Krishnan Marg, New Delhi 110 012, India" "Physica C, 471(2011)77"
152585 ZAN6220589 Y2AlGe3 Y2Al1Ge3 Y 2 Al 1 Ge 3 1996 5.587 AB2C3 Y2AlGe3 Pmma A 6.785 4.189 17.676 K 4.5 4.5 heat(950C) Y2AlGe3 - a Superconductive Metallic Zintl Compound 1996 "Dusseldorf, Institut fur Anorganische Chemie und Strukturchemie der Heinrich-Heine-Universitat" "Z.anorg.allg.Chem., 622(1996)589"
152586 PRB082235128 "Tl-site occupancy = 0.94 from XRD. anisotropy(Hc2) = 12.6. GL parameter(kappa) = 202 for H//a, =1.3 for H//c. thermodynamic Hc(0) = 0.0207 T." Tl2Mo6Se6 Tl2Mo6Se6 Tl 2 Mo 6 Se 6 3 2010 A2B6C6 Tl2Fe6Te6 P6<3>/m A 8.934 4.494 K 4.2 4.2 T resistivity 5.9 0.47 A from Hc2 940 75 um "estimate from Hc(0),GL" 0.12 1.5 meV 0.9 5 mJ/gat.K2 0.13 "heat(1700C, in sealed Mo-crucible)" "Phonon mode spectroscopy, electron-phonon coupling, and the metal-insulator transition in quasi-one-dimensional M2Mo6Se6" 2010 "DPMC-MaNEP, Universite de Geneve, Quai Ernest-Ansermet 24, 1211 Geneve 4, Switzerland" "Phys.Rev.B, 82(2010)235128"
152587 PRB082235128 "In-site occupancy = 0.95 from XRD. anisotropy(Hc2) = 17.2. GL parameter(kappa) = 260 for H//a, = 0.87 for H//c. thermodynamic Hc(0) = 0.0119 T." In2Mo6Se6 In2Mo6Se6 In 2 Mo 6 Se 6 3 2010 A2B6C6 Tl2Fe6Te6 P6<3>/m A 8.854 4.493 K 2.85 2.85 T resistivity 4.35 0.25 A from Hc2 1500 87 um "estimate from Hc(0),GL" 0.13 2.2 0.4 3.5 mJ/gat.K2 0.13 "heat(1100C, in evacuated silica tube)" "Phonon mode spectroscopy, electron-phonon coupling, and the metal-insulator transition in quasi-one-dimensional M2Mo6Se6" 2010 "DPMC-MaNEP, Universite de Geneve, Quai Ernest-Ansermet 24, 1211 Geneve 4, Switzerland" "Phys.Rev.B, 82(2010)235128"
152588 PRB082235128 Rb-site occupancy = 0.95 from XRD. not SC. Rb2Mo6Se6 Rb2Mo6Se6 Rb 2 Mo 6 Se 6 3 2010 A2B6C6 Tl2Fe6Te6 P6<3>/m A 9.257 4.487 K 1.7 "heat(1500C, in sealed Mo-crucible)" "Phonon mode spectroscopy, electron-phonon coupling, and the metal-insulator transition in quasi-one-dimensional M2Mo6Se6" 2010 "DPMC-MaNEP, Universite de Geneve, Quai Ernest-Ansermet 24, 1211 Geneve 4, Switzerland" "Phys.Rev.B, 82(2010)235128"
152589 PHC4600702 Thermodynamic Hc(0) = 208 Oe from SP-heat. GL-parameter(Hc2) = 340 for H//a and = 1.7 for H//c. Tl2Mo6Se6 Tl2Mo6Se6 Tl 2 Mo 6 Se 6 2007 A2B6C6 Tl2Fe6Te6 K 5 5 Oe SQUID 19 T "resistivity, linear extrapolation" 10 0.71 A from Hc2 800 57 um "estimate from Hc(0),GL" 0.14 1.9 Unconventional resistive transitions in the extreme type-II superconductor Tl2Mo6Se6 2007 "Department of Condensed Matter Physics, University of Geneva, Quai Ernest-Ansermet 24, 1211 Geneva, Switzerland" "Physica C, 460-462(2007)702"
152590 PRL100037004 "RRR=670. THCFIG shows THC/T vs T at H=3 T. HCFIG shows Hc2(T), 1st and 2nd order transition, and lattice melting field Hm." URu2Si2 U1Ru2Si2 U 1 Ru 2 Si 2 3 2008 AB2C2 ThCr2Si2 K 1.45 0.1 1.45 T resistivity MHC152590 W/m.K MTHC152590 uOhm.cm 0.5 Flux Line Lattice Melting and the Formation of a Coherent Quasiparticle Bloch State in the Ultraclean URu2Si2 Superconductor 2008 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.Lett., 100(2008)037004"
152591 JPS079073704 P-induced SC. P = 1.2 GPa. Tc(max) = 24 K at P= 2.14 GPa. T decreases with increasing P. Neel-T = 4 K (nearly independent of P) "(Eu,Ca)Fe2As2" Eu0.5Ca0.5Fe2As2 Eu 0.5 Ca 0.5 Fe 2 As 2 3 2010 4 AB2C2 ThCr2Si2 A 3.897 12.006 K 24 24 "Sn-flux method. (Eu:Ca:Fe:As:Sn = 0.5:0.5:2:2:48). heat(1000C,24h) - cool to 500C (14C/h) in sealed quartz tube (1/3 atm-Ar)" Pressure-Induced Superconductivity in Eu0.5Ca0.5Fe2As2: Wide Zero-Resistivity Region Due to Suppression of Eu Magnetic Order and Chemical Pressure 2010 "Department of Physics, Kyushu University, 6-10-1 Hakozaki, Higashi-ku, Fukuoka 812-8581, Japan" "J.Phys.Soc.Jpn, 79(2010)073704"
152592 PRB065024437 Neel-T and T( spin glass temp) defined as the peak of ac-SUS. UPd2Al3 U1Pd2Al3 U 1 Pd 2 Al 3 2001 cm3/mol -0.0004 myu-B/mol 3.77 -52 14.6 AB2C3 PrNi2Al3 A 5.3646 4.1876 K 1.9 1.9 MTC152593 "arc-melting. - (wrapped in Ta-foil ) - ANN(900C,7d,in Ar)" Magnetic and non-Fermi-liquid properties of U1-xLaxPd2Al3 2001 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla" "Phys.Rev.B, 65(2001)024437"
152593 PRB065024437 Neel-T and T( spin glass temp) defined as the peak of ac-SUS. "(U,La)Pd2Al3" U0.85La0.15Pd2Al3 U 0.85 La 0.15 Pd 2 Al 3 2001 cm3/mol 0.00036 myu-B/mol 2.5 -81 4.3 AB2C3 PrNi2Al3 A 5.3828 4.1892 K 1.2 MTC152593 "arc-melting. - (wrapped in Ta-foil ) - ANN(900C,7d,in Ar)" Magnetic and non-Fermi-liquid properties of U1-xLaxPd2Al3 2001 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla" "Phys.Rev.B, 65(2001)024437"
152594 PRB065024437 Neel-T and T( spin glass temp) defined as the peak of ac-SUS. T = 3.4 K. "(U,La)Pd2Al3" U0.7La0.3Pd2Al3 U 0.7 La 0.3 Pd 2 Al 3 2001 cm3/mol 0.00035 myu-B/mol 3.1 -1 AB2C3 PrNi2Al3 A 5.4096 4.2056 K 1.2 MTC152593 "arc-melting. - (wrapped in Ta-foil ) - ANN(900C,7d,in Ar)" Magnetic and non-Fermi-liquid properties of U1-xLaxPd2Al3 2001 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla" "Phys.Rev.B, 65(2001)024437"
152595 PRB065024437 Neel-T and T( spin glass temp) defined as the peak of ac-SUS. T = 3.6 K. "(U,La)Pd2Al3" U0.4La0.6Pd2Al3 U 0.4 La 0.6 Pd 2 Al 3 2001 cm3/mol 0.0004 myu-B/mol 2.5 -15 AB2C3 PrNi2Al3 A 5.4465 4.2172 K 1.2 "arc-melting. - (wrapped in Ta-foil ) - ANN(900C,7d,in Ar)" Magnetic and non-Fermi-liquid properties of U1-xLaxPd2Al3 2001 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla" "Phys.Rev.B, 65(2001)024437"
152596 PRB065024437 (dC/gamma*Tc) = 0.8 LaPd2Al3 La1Pd2Al3 La 1 Pd 2 Al 3 2001 1 AB2C3 PrNi2Al3 A 5.5086 4.2289 K 0.75 0.85 0.9 0.85 "arc-melting. - (wrapped in Ta-foil ) - ANN(900C,7d,in Ar)" Magnetic and non-Fermi-liquid properties of U1-xLaxPd2Al3 2001 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla" "Phys.Rev.B, 65(2001)024437"
152597 JPC022235701 reentrant temperature = 16.1 K due to FM. Hc2 extracted from R(T) figure defined as 0.5Rnby DB-stuffs "Eu(Fe,Co)2As2" Eu1Fe1.715Co0.285As2 Eu 1 Fe 1.715 Co 0.285 As 2 2010 AB2C2 ThCr2Si2 K 21 21 MHC152597 self-flux method Evidence for competing magnetic and superconducting phases in superconducting Eu1-xSrxFe2-yCoyAs2 single crystals 2010 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J. Phys.: Condens. Matter 22 (2010) 235701
152598 JPC022235701 no reentrant behaviour. "(Eu,Sr)(Fe,Co)2As2" Eu0.6Sr0.4Fe1.715Co0.285As2 Eu 0.6 Sr 0.4 Fe 1.715 Co 0.285 As 2 2010 AB2C2 ThCr2Si2 K 13.9 13.9 MTC152598 self-flux method Evidence for competing magnetic and superconducting phases in superconducting Eu1-xSrxFe2-yCoyAs2 single crystals 2010 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J. Phys.: Condens. Matter 22 (2010) 235701
152599 JPC022235701 reentrant temperature = 6.2 K due to FM. Hc2 extracted from R(T) figure defined as 0.5Rnby DB-stuffs "(Eu,Sr)(Fe,Co)2As2" Eu0.7Sr0.3Fe1.715Co0.285As2 Eu 0.7 Sr 0.3 Fe 1.715 Co 0.285 As 2 2010 AB2C2 ThCr2Si2 K 10.2 10.2 MHC152599 self-flux method Evidence for competing magnetic and superconducting phases in superconducting Eu1-xSrxFe2-yCoyAs2 single crystals 2010 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J. Phys.: Condens. Matter 22 (2010) 235701
152600 JPS079094702 "La(O,F)FeAs" La1Fe1As1F0.11O0.89 La 1 Fe 1 As 1 F 0.11 O 0.89 1 2010 oxypnictide A 4.0286 8.7219 K 27.1 27.1 uV/K -27.4 TP152600 cm3/C -0.0016 RH152600 "See J.Phys.Soc.Jpn. 77(2008) Suppl. C, p 147" Superconducting Transition Temperatures and Transport Properties of LaFe1-yRuyAsO0.89F0.11 and LaFeAsO0.89-xF0.11+x 2010 "Department of Physics, Division of Material Science, Nagoya University, Furocho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)094702"
152601 JPS079094702 "La(O,F)(Fe,Ru)As" La1Fe0.985Ru0.015As1F0.11O0.89 La 1 Fe 0.985 Ru 0.015 As 1 F 0.11 O 0.89 1 2010 oxypnictide A 4.0309 8.7194 K 27.5 27.5 uV/K -34.7 TP152601 cm3/C -0.00208 RH152601 "See J.Phys.Soc.Jpn. 77(2008) Suppl. C, p 147" Superconducting Transition Temperatures and Transport Properties of LaFe1-yRuyAsO0.89F0.11 and LaFeAsO0.89-xF0.11+x 2010 "Department of Physics, Division of Material Science, Nagoya University, Furocho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)094702"
152602 JPS079094702 "La(O,F)(Fe,Ru)As" La1Fe0.97Ru0.03As1F0.11O0.89 La 1 Fe 0.97 Ru 0.03 As 1 F 0.11 O 0.89 1 2010 oxypnictide A 4.0297 8.7192 K 25.6 25.6 uV/K -23.8 TP152602 cm3/C -0.00189 RH152602 "See J.Phys.Soc.Jpn. 77(2008) Suppl. C, p 147" Superconducting Transition Temperatures and Transport Properties of LaFe1-yRuyAsO0.89F0.11 and LaFeAsO0.89-xF0.11+x 2010 "Department of Physics, Division of Material Science, Nagoya University, Furocho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)094702"
152603 JPS079094702 "La(O,F)(Fe,Ru)As" La1Fe0.9Ru0.1As1F0.11O0.89 La 1 Fe 0.9 Ru 0.1 As 1 F 0.11 O 0.89 1 2010 oxypnictide A 4.0393 8.7007 K 23.6 23.6 23.6 uV/K -21.1 TP152603 cm3/C -0.00373 RH152603 "See J.Phys.Soc.Jpn. 77(2008) Suppl. C, p 147" Superconducting Transition Temperatures and Transport Properties of LaFe1-yRuyAsO0.89F0.11 and LaFeAsO0.89-xF0.11+x 2010 "Department of Physics, Division of Material Science, Nagoya University, Furocho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)094702"
152604 JPS079094702 "La(O,F)(Fe,Ru)As" La1Fe0.85Ru0.15As1F0.11O0.89 La 1 Fe 0.85 Ru 0.15 As 1 F 0.11 O 0.89 1 2010 oxypnictide A 4.0402 8.6826 K 23.6 23.6 cm3/C -0.00161 RH152604 "See J.Phys.Soc.Jpn. 77(2008) Suppl. C, p 147" Superconducting Transition Temperatures and Transport Properties of LaFe1-yRuyAsO0.89F0.11 and LaFeAsO0.89-xF0.11+x 2010 "Department of Physics, Division of Material Science, Nagoya University, Furocho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)094702"
152605 JPS079094702 "La(O,F)(Fe,Ru)As" La1Fe0.7Ru0.3As1F0.11O0.89 La 1 Fe 0.7 Ru 0.3 As 1 F 0.11 O 0.89 1 2010 oxypnictide A 4.0555 8.6441 K 17.2 17.3 17.2 uV/K -17.5 TP152605 cm3/C -0.00098 RH152605 "See J.Phys.Soc.Jpn. 77(2008) Suppl. C, p 147" Superconducting Transition Temperatures and Transport Properties of LaFe1-yRuyAsO0.89F0.11 and LaFeAsO0.89-xF0.11+x 2010 "Department of Physics, Division of Material Science, Nagoya University, Furocho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)094702"
152606 JPS079094702 "La(O,F)FeAs" La1Fe1As1F0.11O0.89 La 1 Fe 1 As 1 F 0.11 O 0.89 1 2010 oxypnictide K 27.3 27.3 uV/K -49.6 TP152606 "See J.Phys.Soc.Jpn. 77(2008) Suppl. C, p 147" Superconducting Transition Temperatures and Transport Properties of LaFe1-yRuyAsO0.89F0.11 and LaFeAsO0.89-xF0.11+x 2010 "Department of Physics, Division of Material Science, Nagoya University, Furocho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)094702"
152607 JPS079094702 "La(O,F)FeAs" La1Fe1As1F0.13O0.87 La 1 Fe 1 As 1 F 0.13 O 0.87 1 2010 oxypnictide K 25.4 25.4 uV/K -33.4 TP152607 "See J.Phys.Soc.Jpn. 77(2008) Suppl. C, p 147" Superconducting Transition Temperatures and Transport Properties of LaFe1-yRuyAsO0.89F0.11 and LaFeAsO0.89-xF0.11+x 2010 "Department of Physics, Division of Material Science, Nagoya University, Furocho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)094702"
152608 JPS079094702 "La(O,F)FeAs" La1Fe1As1F0.15O0.85 La 1 Fe 1 As 1 F 0.15 O 0.85 1 2010 oxypnictide K 20 20 uV/K -28.4 TP152608 "See J.Phys.Soc.Jpn. 77(2008) Suppl. C, p 147" Superconducting Transition Temperatures and Transport Properties of LaFe1-yRuyAsO0.89F0.11 and LaFeAsO0.89-xF0.11+x 2010 "Department of Physics, Division of Material Science, Nagoya University, Furocho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)094702"
152609 JPS079094702 "La(O,F)FeAs" La1Fe1As1F0.2O0.8 La 1 Fe 1 As 1 F 0.2 O 0.8 1 2010 oxypnictide K 4.52 4.52 uV/K -29 TP152609 "See J.Phys.Soc.Jpn. 77(2008) Suppl. C, p 147" Superconducting Transition Temperatures and Transport Properties of LaFe1-yRuyAsO0.89F0.11 and LaFeAsO0.89-xF0.11+x 2010 "Department of Physics, Division of Material Science, Nagoya University, Furocho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)094702"
152610 JPS079094702 "La(O,F)FeAs" La1Fe1As1F0.18O0.82 La 1 Fe 1 As 1 F 0.18 O 0.82 1 2010 oxypnictide K 14.3 14.3 "See J.Phys.Soc.Jpn. 77(2008) Suppl. C, p 147" Superconducting Transition Temperatures and Transport Properties of LaFe1-yRuyAsO0.89F0.11 and LaFeAsO0.89-xF0.11+x 2010 "Department of Physics, Division of Material Science, Nagoya University, Furocho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)094702"
152611 PRB083024511 PrOs4Sb12 Pr1Os4Sb12 Pr 1 Os 4 Sb 12 3 2011 AB4C12 skutterudite LaFe4P12-type K 1.86 1.82 1.86 T "resistivity, extrapolation" 2.22 MHC152611 flux method "Superconductivity, magnetic order, and quadrupolar order in the filled skutterudite system Pr1-xNdxOs4Sb12" 2011 "Department of Physics, University of California, San Diego, La Jolla, CA 92093-0319, USA" "Phys.Rev.B, 83(2011)024511"
152612 PRB083024511 "(Pr,Nd)Os4Sb12" Pr0.9Nd0.1Os4Sb12 Pr 0.9 Nd 0.1 Os 4 Sb 12 3 2011 -1.06 AB4C12 skutterudite LaFe4P12-type K 1.73 1.73 MTC152612 T "resistivity, extrapolation" 1.87 MHC152611 flux method "Superconductivity, magnetic order, and quadrupolar order in the filled skutterudite system Pr1-xNdxOs4Sb12" 2011 "Department of Physics, University of California, San Diego, La Jolla, CA 92093-0319, USA" "Phys.Rev.B, 83(2011)024511"
152613 PRB083024511 "(Pr,Nd)Os4Sb12" Pr0.8Nd0.2Os4Sb12 Pr 0.8 Nd 0.2 Os 4 Sb 12 3 2011 -0.45 AB4C12 skutterudite LaFe4P12-type K 1.61 1.43 1.61 T "resistivity, extrapolation" 1.44 MHC152611 flux method "Superconductivity, magnetic order, and quadrupolar order in the filled skutterudite system Pr1-xNdxOs4Sb12" 2011 "Department of Physics, University of California, San Diego, La Jolla, CA 92093-0319, USA" "Phys.Rev.B, 83(2011)024511"
152614 PRB083024511 "(Pr,Nd)Os4Sb12" Pr0.75Nd0.25Os4Sb12 Pr 0.75 Nd 0.25 Os 4 Sb 12 3 2011 AB4C12 skutterudite LaFe4P12-type K 1.48 1.48 T "resistivity, extrapolation" 0.924 MHC152611 flux method "Superconductivity, magnetic order, and quadrupolar order in the filled skutterudite system Pr1-xNdxOs4Sb12" 2011 "Department of Physics, University of California, San Diego, La Jolla, CA 92093-0319, USA" "Phys.Rev.B, 83(2011)024511"
152615 PRB083024511 "(Pr,Nd)Os4Sb12" Pr0.7Nd0.3Os4Sb12 Pr 0.7 Nd 0.3 Os 4 Sb 12 3 2011 AB4C12 skutterudite LaFe4P12-type K 1.27 1.26 1.27 T "resistivity, extrapolation" 0.389 MHC152611 flux method "Superconductivity, magnetic order, and quadrupolar order in the filled skutterudite system Pr1-xNdxOs4Sb12" 2011 "Department of Physics, University of California, San Diego, La Jolla, CA 92093-0319, USA" "Phys.Rev.B, 83(2011)024511"
152616 PRB083024511 "(Pr,Nd)Os4Sb12" Pr0.6Nd0.4Os4Sb12 Pr 0.6 Nd 0.4 Os 4 Sb 12 3 2011 AB4C12 skutterudite LaFe4P12-type K 0.89 0.89 T "resistivity, extrapolation" 0.132 flux method "Superconductivity, magnetic order, and quadrupolar order in the filled skutterudite system Pr1-xNdxOs4Sb12" 2011 "Department of Physics, University of California, San Diego, La Jolla, CA 92093-0319, USA" "Phys.Rev.B, 83(2011)024511"
152617 PRB083024511 "(Pr,Nd)Os4Sb12" Pr0.5Nd0.5Os4Sb12 Pr 0.5 Nd 0.5 Os 4 Sb 12 3 2011 AB4C12 skutterudite LaFe4P12-type K 0.6 0.71 0.6 MHC152617 flux method "Superconductivity, magnetic order, and quadrupolar order in the filled skutterudite system Pr1-xNdxOs4Sb12" 2011 "Department of Physics, University of California, San Diego, La Jolla, CA 92093-0319, USA" "Phys.Rev.B, 83(2011)024511"
152618 PRB083024512 lattice const. at 100 K. RRR = 4. [vols]>100 maybe due to demagneitizing factor. Hc2 defined as SUS(on). thermodynamic Hc(0) = 0. 023 T. GL-parameter = 8.3. CaIrSi3 Ca1Ir1Si3 Ca 1 Ir 1 Si 3 1 2011 ABC3 I4mm 107 A 4.1833 9.8728 K 3.6 3.7 3.6 170 T "SUS, linear extrapolation" 0.27 MHC152618 A from Hc2 340 A "from GL, Hc(0)" 2800 mJ/mol.K2 5.8 SP-heat 360 SP-heat arc-melting. nominalcompositions are (Ca:Ir:Si=3:1:4.7) and (Ca:Pt:Si=3:1:5). single phase isolated using dilute hydrochloric acid. "Crystallographic and superconducting properties of the fully gapped noncentrosymmetric 5d-electron superconductors CaMSi3 (M = Ir, Pt)" 2011 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 83(2011)024512"
152619 PRB083024512 lattice const. at 100 K. RRR = 1.6. [vols] > 100 maybe due to demagneitizing factor. Hc2 defined as SUS(on). thermodynamic Hc(0) = 0.0094 T. GL-parameter = 11. CaPtSi3 Ca1Pt1Si3 Ca 1 Pt 1 Si 3 1 2011 ABC3 I4mm 107 A 4.1988 9.8111 K 2.3 2.3 2.3 100 T "SUS, linear extrapolation" 0.15 MHC152619 A from Hc2 470 A "from GL, Hc(0)" 5200 mJ/mol.K2 4 SP-heat 370 SP-heat arc-melting. nominalcompositions are (Ca:Ir:Si=3:1:4.7) and (Ca:Pt:Si=3:1:5). single phase isolated using dilute hydrochloric acid. "Crystallographic and superconducting properties of the fully gapped noncentrosymmetric 5d-electron superconductors CaMSi3 (M = Ir, Pt)" 2011 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 83(2011)024512"
152620 PRB083014503 R(T) anomaly at 140 K due to AFM & structural transformation. PrFeAsO Pr1Fe1As1O1 Pr 1 Fe 1 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9893 8.6148 K 2 "mixture - pellet - heat(1173K,5h + 1433K,40h, in evacuated quartz) - FC to RT" Charge compensation effect in Pr1-ySryFe1-xCoxAsO codoped with Sr and Co 2011 "State Key Laboratory of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 83(2011)014503"
152621 PRB083014503 "small amount of Pr2O3, FeAs, SrFe2As2 impurities. R(T) anomaly at 80 K due to AFM & structural transformation." "Pr(Fe,Co)AsO" Pr1Fe0.975Co0.025As1O1 Pr 1 Fe 0.975 Co 0.025 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm K 2 "mixture - pellet - heat(1173K,5h + 1433K,40h, in evacuated quartz) - FC to RT" Charge compensation effect in Pr1-ySryFe1-xCoxAsO codoped with Sr and Co 2011 "State Key Laboratory of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 83(2011)014503"
152622 PRB083014503 "small amount of Pr2O3, FeAs, SrFe2As2 impurities." "Pr(Fe,Co)AsO" Pr1Fe0.95Co0.05As1O1 Pr 1 Fe 0.95 Co 0.05 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9864 8.5964 K 8.76 9.28 8.76 "mixture - pellet - heat(1173K,5h + 1433K,40h, in evacuated quartz) - FC to RT" Charge compensation effect in Pr1-ySryFe1-xCoxAsO codoped with Sr and Co 2011 "State Key Laboratory of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 83(2011)014503"
152623 PRB083014503 "small amount of Pr2O3, FeAs, SrFe2As2 impurities." "Pr(Fe,Co)AsO" Pr1Fe0.925Co0.075As1O1 Pr 1 Fe 0.925 Co 0.075 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9855 8.5902 K 15.7 16.3 15.7 "mixture - pellet - heat(1173K,5h + 1433K,40h, in evacuated quartz) - FC to RT" Charge compensation effect in Pr1-ySryFe1-xCoxAsO codoped with Sr and Co 2011 "State Key Laboratory of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 83(2011)014503"
152624 PRB083014503 "small amount of Pr2O3, FeAs, SrFe2As2 impurities." "Pr(Fe,Co)AsO" Pr1Fe0.9Co0.1As1O1 Pr 1 Fe 0.9 Co 0.1 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9873 8.5815 K 16 16.6 16 "mixture - pellet - heat(1173K,5h + 1433K,40h, in evacuated quartz) - FC to RT" Charge compensation effect in Pr1-ySryFe1-xCoxAsO codoped with Sr and Co 2011 "State Key Laboratory of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 83(2011)014503"
152625 PRB083014503 "small amount of Pr2O3, FeAs, SrFe2As2 impurities." "Pr(Fe,Co)AsO" Pr1Fe0.85Co0.15As1O1 Pr 1 Fe 0.85 Co 0.15 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9859 8.5673 K 9.07 9.07 9.07 "mixture - pellet - heat(1173K,5h + 1433K,40h, in evacuated quartz) - FC to RT" Charge compensation effect in Pr1-ySryFe1-xCoxAsO codoped with Sr and Co 2011 "State Key Laboratory of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 83(2011)014503"
152626 PRB083014503 "small amount of Pr2O3, FeAs, SrFe2As2 impurities." "Pr(Fe,Co)AsO" Pr1Fe0.8Co0.2As1O1 Pr 1 Fe 0.8 Co 0.2 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9858 8.5549 K 2 "mixture - pellet - heat(1173K,5h + 1433K,40h, in evacuated quartz) - FC to RT" Charge compensation effect in Pr1-ySryFe1-xCoxAsO codoped with Sr and Co 2011 "State Key Laboratory of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 83(2011)014503"
152627 PRB083014503 "small amount of Pr2O3, FeAs, SrFe2As2 impurities." "(Pr,Sr)FeAsO" Pr0.8Sr0.2Fe1As1O1 Pr 0.8 Sr 0.2 Fe 1 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9945 8.6563 K 14 15.5 14 "mixture - pellet - heat(1173K,5h + 1433K,40h, in evacuated quartz) - FC to RT" Charge compensation effect in Pr1-ySryFe1-xCoxAsO codoped with Sr and Co 2011 "State Key Laboratory of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 83(2011)014503"
152628 PRB083014503 "small amount of Pr2O3, FeAs, SrFe2As2 impurities." "(Pr,Sr)(Fe,Co)AsO" Pr0.8Sr0.2Fe0.95Co0.05As1O1 Pr 0.8 Sr 0.2 Fe 0.95 Co 0.05 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9943 8.6495 K 7.05 11.1 7.05 "mixture - pellet - heat(1173K,5h + 1433K,40h, in evacuated quartz) - FC to RT" Charge compensation effect in Pr1-ySryFe1-xCoxAsO codoped with Sr and Co 2011 "State Key Laboratory of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 83(2011)014503"
152629 PRB083014503 "small amount of Pr2O3, FeAs, SrFe2As2 impurities." "(Pr,Sr)(Fe,Co)AsO" Pr0.8Sr0.2Fe0.925Co0.075As1O1 Pr 0.8 Sr 0.2 Fe 0.925 Co 0.075 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9939 8.645 K 3.5 7.81 3.5 "mixture - pellet - heat(1173K,5h + 1433K,40h, in evacuated quartz) - FC to RT" Charge compensation effect in Pr1-ySryFe1-xCoxAsO codoped with Sr and Co 2011 "State Key Laboratory of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 83(2011)014503"
152630 PRB083014503 "small amount of Pr2O3, FeAs, SrFe2As2 impurities." "(Pr,Sr)(Fe,Co)AsO" Pr0.8Sr0.2Fe0.9Co0.1As1O1 Pr 0.8 Sr 0.2 Fe 0.9 Co 0.1 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9925 8.6385 K 6.86 12.9 6.86 "mixture - pellet - heat(1173K,5h + 1433K,40h, in evacuated quartz) - FC to RT" Charge compensation effect in Pr1-ySryFe1-xCoxAsO codoped with Sr and Co 2011 "State Key Laboratory of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 83(2011)014503"
152631 PRB083014503 "small amount of Pr2O3, FeAs, SrFe2As2 impurities." "(Pr,Sr)(Fe,Co)AsO" Pr0.8Sr0.2Fe0.85Co0.15As1O1 Pr 0.8 Sr 0.2 Fe 0.85 Co 0.15 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9929 8.6204 K 16 18.7 16 "mixture - pellet - heat(1173K,5h + 1433K,40h, in evacuated quartz) - FC to RT" Charge compensation effect in Pr1-ySryFe1-xCoxAsO codoped with Sr and Co 2011 "State Key Laboratory of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 83(2011)014503"
152632 PRB083014503 "small amount of Pr2O3, FeAs, SrFe2As2 impurities." "(Pr,Sr)(Fe,Co)AsO" Pr0.8Sr0.2Fe0.8Co0.2As1O1 Pr 0.8 Sr 0.2 Fe 0.8 Co 0.2 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9926 8.6102 K 11.5 13.8 11.5 "mixture - pellet - heat(1173K,5h + 1433K,40h, in evacuated quartz) - FC to RT" Charge compensation effect in Pr1-ySryFe1-xCoxAsO codoped with Sr and Co 2011 "State Key Laboratory of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 83(2011)014503"
152633 PRB083014503 "small amount of Pr2O3, FeAs, SrFe2As2 impurities." "(Pr,Sr)(Fe,Co)AsO" Pr0.8Sr0.2Fe0.7Co0.3As1O1 Pr 0.8 Sr 0.2 Fe 0.7 Co 0.3 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9924 8.5831 K 4.48 7.23 4.48 "mixture - pellet - heat(1173K,5h + 1433K,40h, in evacuated quartz) - FC to RT" Charge compensation effect in Pr1-ySryFe1-xCoxAsO codoped with Sr and Co 2011 "State Key Laboratory of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "Phys.Rev.B, 83(2011)014503"
152634 PRL105197001 energy gap measured by ARPES. "Fe(Te,Se)" Fe1.03Te0.7Se0.3 Fe 1.03 Te 0.7 Se 0.3 3 2010 AB Chevrel K 13 13 meV 4 7 12 Bridgeman method Angle-Resolved Photoemission Spectroscopy of the Iron-Chalcogenide Superconductor Fe1.03Te0.7Se0.3: Strong Coupling Behavior and the Universality of Interband Scattering 2010 "Department of Physics, Tohoku University, Sendai 980-8578, Japan" "Phys.Rev.Lett., 105(2010)197001"
152635 PRL106017003 RT cleaved sample. Two gaps: small gap = 1.05 meV. SnMo6S8 Sn1Mo6S8 Sn 1 Mo 6 S 8 3 2011 AB6C8 Chevrel K 14.2 14.2 meV 2.95 5 11 Multiband Superconductivity in the Chevrel Phases SnMo6S8 and PbMo6S8 2011 "DPMC-MaNEP, Universite de Geneve, Quai Ernest-Ansermet 24, 1211 Geneve 4, Switzerland" "Phys.Rev.Lett.,106(2011)017003"
152636 PRL106017003 Two gaps: small one = 0.86 meV by SP-heat measurements SnMo6S8 Sn1Mo6S8 Sn 1 Mo 6 S 8 3 2011 AB6C8 Chevrel K 14.2 14.2 T 42 meV 3.06 14 mJ/gat.K2 6.4 Multiband Superconductivity in the Chevrel Phases SnMo6S8 and PbMo6S8 2011 "DPMC-MaNEP, Universite de Geneve, Quai Ernest-Ansermet 24, 1211 Geneve 4, Switzerland" "Phys.Rev.Lett.,106(2011)017003"
152637 PRL106017003 RT cleaved sample. Two gaps: small gap = 1.36 meV. PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 3 2011 AB6C8 Chevrel K 14.9 14.9 meV 3.06 5 11 Multiband Superconductivity in the Chevrel Phases SnMo6S8 and PbMo6S8 2011 "DPMC-MaNEP, Universite de Geneve, Quai Ernest-Ansermet 24, 1211 Geneve 4, Switzerland" "Phys.Rev.Lett.,106(2011)017003"
152638 PRL106017003 Two gaps: small one = 1.41 meV by SP-heat measurements PbMo6S8 Pb1Mo6S8 Pb 1 Mo 6 S 8 3 2011 AB6C8 Chevrel K 14.9 14.9 T 86 meV 3.15 14 mJ/gat.K2 6.7 Multiband Superconductivity in the Chevrel Phases SnMo6S8 and PbMo6S8 2011 "DPMC-MaNEP, Universite de Geneve, Quai Ernest-Ansermet 24, 1211 Geneve 4, Switzerland" "Phys.Rev.Lett.,106(2011)017003"
152639 PRL106017001 "Hg2(2+) polycation, Debye-T from simple Debye model. GL-parameter = 38." HgxReO3 Hg0.44Re1O3 Hg 0.44 Re 1 O 3 1 2011 ABC3 bronze P6<3>/mcm A 7.366 7.506 K 7.7 7.7 TC152639 Oe M-H curve 60 T "resistivitymid),extrapolation" 4.8 HC152639 A from Hc2 82 A from Hc1 3200 mJ/mol.K2 4.9 SP-heat 147 SP-heat "cubic-anvil-type high-P synthesis. mixture(HgO,ReO2) - in Au capsule - press(4GPa) - heat(873K,15min)" Superconducting Phase at 7.7 K in the HgxReO3 Compound with a Hexagonal Bronze Structure 2011 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.Lett.,106(2011)017001"
152640 SSC1510227 RRR = 7.7. H//c. Hc2(0) = 0.6 T by parabolic fitting . T = 120K 200K from kink in R(T). Cu0.1TiSe2 Cu0.1Ti1Se2 Cu 0.1 Ti 1 Se 2 3 2011 A 6.042 K 3.9 0.12 3.9 T "resistivity, WHH" 0.67 T/K "resistivity, 0.5Rn" 0.25 A from Hc2 230 A 6100 uOhm.cm 36 277 transport method Superconducting and normal state parameters of single crystal Cu0.10TiSe2 2011 "Institute of Electrical Engineering, Slovak Academy of Sciences, Dubravska cesta 9, 841 04 Bratislava, Slovakia" "Solid State Commun., 151(2011)227"
152641 CEM1270169 [gamma] < 20 mJ/mol.K2 NdPd2Al3 Nd1Pd2Al3 Nd 1 Pd 2 Al 3 1996 myu-B/mole 2.28 7.7 PrNi2Al3 A 5.4419 4.2069 K 1.5 mJ/mol.K2 20 Sample Dependence of Magnetic Properties and Determination of Antiferromagnetic Structure of NdPd2Al3 1996 "Laboratory for Neutron Scattering, ETH Zurich and Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "J.Solid State Chem., 127(1996)169"
152642 PHB1990128 "(U,Y)Pd2Al3" U0.99Y0.01Pd2Al3 U 0.99 Y 0.01 Pd 2 Al 3 1994 14.2 PrNi2Al3 K 1.09 1.09 Doping effects on UPd2A13 1994 "Institut fur Festkforperphysik, TH Darmstadt, SFB 252. D-64289 Darmstadt, Germany" "Physica B, 199&200(1994)128"
152643 PHB1990128 "(U,Y)Pd2Al3" U0.98Y0.02Pd2Al3 U 0.98 Y 0.02 Pd 2 Al 3 1994 13.7 PrNi2Al3 K 0 Doping effects on UPd2A13 1994 "Institut fur Festkforperphysik, TH Darmstadt, SFB 252. D-64289 Darmstadt, Germany" "Physica B, 199&200(1994)128"
152644 PHB1990128 "(U,Gd)Pd2Al3" U0.99Gd0.01Pd2Al3 U 0.99 Gd 0.01 Pd 2 Al 3 1994 14 PrNi2Al3 K 1.16 1.16 Doping effects on UPd2A13 1994 "Institut fur Festkforperphysik, TH Darmstadt, SFB 252. D-64289 Darmstadt, Germany" "Physica B, 199&200(1994)128"
152645 PHB1990128 "(U,Gd)Pd2Al3" U0.92Gd0.02Pd2Al3 U 0.92 Gd 0.02 Pd 2 Al 3 1994 13.8 PrNi2Al3 K 0.64 0.64 Doping effects on UPd2A13 1994 "Institut fur Festkforperphysik, TH Darmstadt, SFB 252. D-64289 Darmstadt, Germany" "Physica B, 199&200(1994)128"
152646 PHB1990128 "(U,Gd)Pd2Al3" U0.95Gd0.05Pd2Al3 U 0.95 Gd 0.05 Pd 2 Al 3 1994 12.7 PrNi2Al3 K 0 Doping effects on UPd2A13 1994 "Institut fur Festkforperphysik, TH Darmstadt, SFB 252. D-64289 Darmstadt, Germany" "Physica B, 199&200(1994)128"
152647 PHB3120448 "Tc, Neel-T, spin-glass T measured." "(U,Th)Pd2Al3" U0.98Th0.02Pd2Al3 U 0.98 Th 0.02 Pd 2 Al 3 2002 13.8 AB2C3 PrNi2Al3 K 1.97 1.97 MPH152647 "Comparison of magnetic and NFL behavior in U1-xMxPd2Al3 (M = La, Y, Th)" 2002 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, 9500 Gilman Drive 0350, San Diego, La Jolla, CA 92093-0350, USA" "Physica B, 312(2002)448"
152648 PHB3120448 "(U,Th)Pd2Al3" U0.9Th0.1Pd2Al3 U 0.9 Th 0.1 Pd 2 Al 3 2002 12.9 AB2C3 PrNi2Al3 K 1.28 1.28 "Comparison of magnetic and NFL behavior in U1-xMxPd2Al3 (M = La, Y, Th)" 2002 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, 9500 Gilman Drive 0350, San Diego, La Jolla, CA 92093-0350, USA" "Physica B, 312(2002)448"
152649 PHB3120448 "(U,La)Pd2Al3" U0.9La0.1Pd2Al3 U 0.9 La 0.1 Pd 2 Al 3 2002 9 AB2C3 PrNi2Al3 K 0 "Comparison of magnetic and NFL behavior in U1-xMxPd2Al3 (M = La, Y, Th)" 2002 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, 9500 Gilman Drive 0350, San Diego, La Jolla, CA 92093-0350, USA" "Physica B, 312(2002)448"
152650 PHB3120448 "Tc, Neel-T, spin-glass T measured." "(U,La)Pd2Al3" U0.6La0.4Pd2Al3 U 0.6 La 0.4 Pd 2 Al 3 2002 4.83 AB2C3 PrNi2Al3 K 0 MPH152650 "Comparison of magnetic and NFL behavior in U1-xMxPd2Al3 (M = La, Y, Th)" 2002 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, 9500 Gilman Drive 0350, San Diego, La Jolla, CA 92093-0350, USA" "Physica B, 312(2002)448"
152651 PHB3120448 "(U,La)Pd2Al3" U0.4La0.6Pd2Al3 U 0.4 La 0.6 Pd 2 Al 3 2002 5 AB2C3 PrNi2Al3 K 0 "Comparison of magnetic and NFL behavior in U1-xMxPd2Al3 (M = La, Y, Th)" 2002 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, 9500 Gilman Drive 0350, San Diego, La Jolla, CA 92093-0350, USA" "Physica B, 312(2002)448"
152652 PHB3120448 "Tc, Neel-T, spin-glass T measured." "(U,Y)Pd2Al3" U0.99Y0.01Pd2Al3 U 0.99 Y 0.01 Pd 2 Al 3 2002 AB2C3 PrNi2Al3 K 1.13 1.13 MPH152652 "Comparison of magnetic and NFL behavior in U1-xMxPd2Al3 (M = La, Y, Th)" 2002 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, 9500 Gilman Drive 0350, San Diego, La Jolla, CA 92093-0350, USA" "Physica B, 312(2002)448"
152653 PHB3120448 "(U,Y)Pd2Al3" U0.98Y0.02Pd2Al3 U 0.98 Y 0.02 Pd 2 Al 3 2002 AB2C3 PrNi2Al3 K 0 "Comparison of magnetic and NFL behavior in U1-xMxPd2Al3 (M = La, Y, Th)" 2002 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, 9500 Gilman Drive 0350, San Diego, La Jolla, CA 92093-0350, USA" "Physica B, 312(2002)448"
152654 PHB3120448 "(U,Y)Pd2Al3" U0.8Y0.2Pd2Al3 U 0.8 Y 0.2 Pd 2 Al 3 2002 6.16 AB2C3 PrNi2Al3 K 0 "Comparison of magnetic and NFL behavior in U1-xMxPd2Al3 (M = La, Y, Th)" 2002 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, 9500 Gilman Drive 0350, San Diego, La Jolla, CA 92093-0350, USA" "Physica B, 312(2002)448"
152655 SSC0070299 KxMoO3 K0.5Mo1O3 K 0.5 Mo 1 O 3 1969 ABC3 2 bronze A 12.36 3.86 tetragonal K 4.2 4.2 samples prepared at P = 65 kbar SUPERCONDUCTING OXIDES OF RHENIUM AND MOLYBDENUM WITH TUNGSTEN BRONZE TYPE STRUCTURES 1969 "Solid State Commun., 7(1969)299"
152656 SSC0070299 KxReO3 K0.3Re1O3 K 0.3 Re 1 O 3 1969 ABC3 7 bronze A 7.335 7.48 hexagonal K 3.6 3.6 samples prepared at P = 65 kbar SUPERCONDUCTING OXIDES OF RHENIUM AND MOLYBDENUM WITH TUNGSTEN BRONZE TYPE STRUCTURES 1969 "Solid State Commun., 7(1969)299"
152657 SSC0070299 NaxMoO3 Na0.3Mo1O3 Na 0.3 Mo 1 O 3 1969 ABC3 1 bronze cubic K 1.3 samples prepared at P = 65 kbar SUPERCONDUCTING OXIDES OF RHENIUM AND MOLYBDENUM WITH TUNGSTEN BRONZE TYPE STRUCTURES 1969 "Solid State Commun., 7(1969)299"
152658 SSC0070299 KxMoO3 K0.3Mo1O3 K 0.3 Mo 1 O 3 1969 ABC3 1 bronze cubic K 1.3 samples prepared at P = 65 kbar SUPERCONDUCTING OXIDES OF RHENIUM AND MOLYBDENUM WITH TUNGSTEN BRONZE TYPE STRUCTURES 1969 "Solid State Commun., 7(1969)299"
152659 SSC0070299 NaxReO3 Na0.3Re1O3 Na 0.3 Re 1 O 3 1969 ABC3 1 bronze cubic K 1.3 samples prepared at P = 65 kbar SUPERCONDUCTING OXIDES OF RHENIUM AND MOLYBDENUM WITH TUNGSTEN BRONZE TYPE STRUCTURES 1969 "Solid State Commun., 7(1969)299"
152660 SSC0070299 ReO3 Re1O3 Re 1 O 3 1969 ABC3 1 bronze cubic K 1.3 samples prepared at P = 65 kbar SUPERCONDUCTING OXIDES OF RHENIUM AND MOLYBDENUM WITH TUNGSTEN BRONZE TYPE STRUCTURES 1969 "Solid State Commun., 7(1969)299"
152661 PRB0203670 "Hc2 measured for c-axis and in ab-plane, but absolute values of Hc2 not given (only T-dependency of Hc2)" CexWO3 Cs0.19W1O3 Cs 0.19 W 1 O 3 1979 ABC3 bronze K 6.7 0.1 6.7 "single crystals prepared by thermal vapor growth method. Heat(800C,24h, in vac) - heat to 950C(5 or 7 days) - cool to RT(over 24h)" Normal and superconducting properties of CsxWO3 1979 "Department of Physics, Florida State University, Tallahassee, Florida" "Phys.Rev.B, 20(1979)3670"
152662 PRB0203670 [TP300] in DB shows the value at 250 K. CexWO3 Cs0.23W1O3 Cs 0.23 W 1 O 3 1979 ABC3 bronze K 6 6 TC152662 uV/K -37.1 "single crystals prepared by thermal vapor growth method. Heat(800C,24h, in vac) - heat to 950C(5 or 7 days) - cool to RT(over 24h)" Normal and superconducting properties of CsxWO3 1979 "Department of Physics, Florida State University, Tallahassee, Florida" "Phys.Rev.B, 20(1979)3670"
152663 PRB0203670 [TP300] in DB shows the value at 250 K. CexWO3 Cs0.25W1O3 Cs 0.25 W 1 O 3 1979 ABC3 bronze K 4 4 TC152662 uV/K -32.5 "single crystals prepared by thermal vapor growth method. Heat(800C,24h, in vac) - heat to 950C(5 or 7 days) - cool to RT(over 24h)" Normal and superconducting properties of CsxWO3 1979 "Department of Physics, Florida State University, Tallahassee, Florida" "Phys.Rev.B, 20(1979)3670"
152664 PRB0203670 [TP300] in DB shows the value at 250 K. CexWO3 Cs0.3W1O3 Cs 0.3 W 1 O 3 1979 ABC3 bronze K 2 2 TC152662 uV/K -25.2 "single crystals prepared by thermal vapor growth method. Heat(800C,24h, in vac) - heat to 950C(5 or 7 days) - cool to RT(over 24h)" Normal and superconducting properties of CsxWO3 1979 "Department of Physics, Florida State University, Tallahassee, Florida" "Phys.Rev.B, 20(1979)3670"
152665 PRB0203670 angular dependence of Hc2 measured CexWO3 Cs0.33W1O3 Cs 0.33 W 1 O 3 1979 ABC3 bronze K 1.4 380 from the paper "single crystals prepared by thermal vapor growth method. Heat(800C,24h, in vac) - heat to 950C(5 or 7 days) - cool to RT(over 24h)" Normal and superconducting properties of CsxWO3 1979 "Department of Physics, Florida State University, Tallahassee, Florida" "Phys.Rev.B, 20(1979)3670"
152666 PRB0201903 angular dependence of Hc2 measured RbxWO3 Rb0.33W1O3 Rb 0.33 W 1 O 3 3 1979 7.31 ABC3 bronze K 1.98 0.03 1.98 T resistivity 0.0297 T/K 0.032 solid state reaction. Mixtures were heated at 90C for 5 days. Needles were grown. "Conduction properties of the hexagonal tungsten bronze, RbxWO3" 1979 "Department of Physics, Florida State University, Tallahassee, Florida" "Phys.Rev.B, 20(1979)1903"
152667 PRB0201903 angular dependence of Hc2 measured RbxWO3 Rb0.2W1O3 Rb 0.2 W 1 O 3 3 1979 6.98 ABC3 bronze K 3.52 0.15 3.52 T resistivity 4.86 0.8 T/K 2.03 0.333 solid state reaction. Mixtures were heated at 90C for 5 days. Needles were grown. "Conduction properties of the hexagonal tungsten bronze, RbxWO3" 1979 "Department of Physics, Florida State University, Tallahassee, Florida" "Phys.Rev.B, 20(1979)1903"
152668 PRB0201903 angular dependence of Hc2 measured RbxWO3 Rb0.18W1O3 Rb 0.18 W 1 O 3 3 1979 6.93 ABC3 bronze K 4.24 0.16 4.24 T resistivity 1.364 T/K 0.471 solid state reaction. Mixtures were heated at 90C for 5 days. Needles were grown. "Conduction properties of the hexagonal tungsten bronze, RbxWO3" 1979 "Department of Physics, Florida State University, Tallahassee, Florida" "Phys.Rev.B, 20(1979)1903"
152669 PRB0201903 angular dependence of Hc2 measured RbxWO3 Rb0.16W1O3 Rb 0.16 W 1 O 3 3 1979 6.88 ABC3 bronze K 4.8 0.17 4.8 solid state reaction. Mixtures were heated at 90C for 5 days. Needles were grown. "Conduction properties of the hexagonal tungsten bronze, RbxWO3" 1979 "Department of Physics, Florida State University, Tallahassee, Florida" "Phys.Rev.B, 20(1979)1903"
152670 PRB0201903 angular dependence of Hc2 measured RbxWO3 Rb0.25W1O3 Rb 0.25 W 1 O 3 3 1979 7.11 ABC3 bronze K 0.6 solid state reaction. Mixtures were heated at 90C for 5 days. Needles were grown. "Conduction properties of the hexagonal tungsten bronze, RbxWO3" 1979 "Department of Physics, Florida State University, Tallahassee, Florida" "Phys.Rev.B, 20(1979)1903"
152671 PRB081092507 "Tc by SP-heat. GL-parameter = 44. [gap], [cohere], [penet] from muon-SR." CuxTiSe2 Cu0.06Ti1Se2 Cu 0.06 Ti 1 Se 2 2010 K 2.5 2.5 A muon-SR 150 A muon-SR 6600 meV 0.27 2.5 16 "mixture - pellet - (evacuated silica tube) - heat(350C,1h) - heat(650C,20h) cool to RT - ANN(650C,50h) - cool to RT(1C/min)" Probing the superconducting ground state near the charge density wave phase transition in Cu0.06TiSe2 2010 "ISIS facility, STFC, Rutherford Appleton Laboratory, Chilton, Oxfordshire OX11 0QX, United Kingdom" "Phys.Rev.B, 81(2010)092507"
152672 JPS079014710 "La(O,F)(Fe,Mn)As" La1Fe0.9975Mn0.0025As1F0.11O0.89 La 1 Fe 0.9975 Mn 0.0025 As 1 F 0.11 O 0.89 2010 ABCD oxypnictide K 10.1 10.1 uV/K -31.1 TP152672 See J.Phys.Soc.Jpn 77(2008)103704 Studies on Effects of Impurity Doping and NMR Measurements of La 1111 and/or Nd 1111 Fe-Pnictide Superconductors 2010 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)014710"
152673 JPS079014710 "La(O,F)FeAs" La1Fe1As1F0.11O0.89 La 1 Fe 1 As 1 F 0.11 O 0.89 2010 ABCD oxypnictide K 27 27 uV/K -50.1 TP152673 See J.Phys.Soc.Jpn 77(2008)103704 Studies on Effects of Impurity Doping and NMR Measurements of La 1111 and/or Nd 1111 Fe-Pnictide Superconductors 2010 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)014710"
152674 JPS079014710 "La(O,F)(Fe,Co)As" La1Fe0.9875Co0.0125As1F0.11O0.89 La 1 Fe 0.9875 Co 0.0125 As 1 F 0.11 O 0.89 2010 ABCD oxypnictide K 24 24 TC152674 uV/K -40.9 TP152674 See J.Phys.Soc.Jpn 77(2008)103704 Studies on Effects of Impurity Doping and NMR Measurements of La 1111 and/or Nd 1111 Fe-Pnictide Superconductors 2010 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)014710"
152675 JPS079014710 "La(O,F)(Fe,Co)As" La1Fe0.95Co0.05As1F0.11O0.89 La 1 Fe 0.95 Co 0.05 As 1 F 0.11 O 0.89 2010 ABCD oxypnictide K 16.1 16.1 TC152674 uV/K -45.1 TP152675 See J.Phys.Soc.Jpn 77(2008)103704 Studies on Effects of Impurity Doping and NMR Measurements of La 1111 and/or Nd 1111 Fe-Pnictide Superconductors 2010 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)014710"
152676 JPS079014710 "Nd(O,F)(Fe,Mn)As" Nd1Fe0.97Mn0.03As1F0.11O0.89 Nd 1 Fe 0.97 Mn 0.03 As 1 F 0.11 O 0.89 2010 ABCD oxypnictide K 11.9 11.9 TC152676 See J.Phys.Soc.Jpn 77(2008)103704 Studies on Effects of Impurity Doping and NMR Measurements of La 1111 and/or Nd 1111 Fe-Pnictide Superconductors 2010 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)014710"
152677 JPS079014710 "Nd(O,F)(Fe,Mn)As" Nd1Fe0.98Mn0.02As1F0.11O0.89 Nd 1 Fe 0.98 Mn 0.02 As 1 F 0.11 O 0.89 2010 ABCD oxypnictide K 27.1 27.1 See J.Phys.Soc.Jpn 77(2008)103704 Studies on Effects of Impurity Doping and NMR Measurements of La 1111 and/or Nd 1111 Fe-Pnictide Superconductors 2010 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)014710"
152678 JPS079014710 "Nd(O,F)(Fe,Mn)As" Nd1Fe0.99Mn0.01As1F0.11O0.89 Nd 1 Fe 0.99 Mn 0.01 As 1 F 0.11 O 0.89 2010 ABCD oxypnictide K 38 38 See J.Phys.Soc.Jpn 77(2008)103704 Studies on Effects of Impurity Doping and NMR Measurements of La 1111 and/or Nd 1111 Fe-Pnictide Superconductors 2010 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)014710"
152679 JPS079014710 "Nd(O,F)(Fe,Co)As" Nd1Fe0.98Co0.02As1F0.11O0.89 Nd 1 Fe 0.98 Co 0.02 As 1 F 0.11 O 0.89 2010 ABCD oxypnictide K 40.1 40.1 TC152679 See J.Phys.Soc.Jpn 77(2008)103704 Studies on Effects of Impurity Doping and NMR Measurements of La 1111 and/or Nd 1111 Fe-Pnictide Superconductors 2010 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)014710"
152680 JPS079014710 "Nd(O,F)(Fe,Co)As" Nd1Fe0.95Co0.05As1F0.11O0.89 Nd 1 Fe 0.95 Co 0.05 As 1 F 0.11 O 0.89 2010 ABCD oxypnictide K 30.1 30.1 See J.Phys.Soc.Jpn 77(2008)103704 Studies on Effects of Impurity Doping and NMR Measurements of La 1111 and/or Nd 1111 Fe-Pnictide Superconductors 2010 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)014710"
152681 JPS079014710 "Nd(O,F)(Fe,Co)As" Nd1Fe0.9Co0.1As1F0.11O0.89 Nd 1 Fe 0.9 Co 0.1 As 1 F 0.11 O 0.89 2010 ABCD oxypnictide K 9 9 See J.Phys.Soc.Jpn 77(2008)103704 Studies on Effects of Impurity Doping and NMR Measurements of La 1111 and/or Nd 1111 Fe-Pnictide Superconductors 2010 "Department of Physics, Division of Material Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 79(2010)014710"
152682 JAC2130509 RRR = 23. UNi2Al3 U1Ni2Al3 U 1 Ni 2 Al 3 1994 AB2C3 PrNi2Al3 K 1.126 0.46 1.126 arc-melting Influence of off-stoichiometry on the properties of the heavy fermion superconductors UNi2A13 and UPd2AI3 1994 "Institut fur Festkorperphysik Technische Hochschule Darmstadt, D-64289 Darmstadt (Germany)" "J.Alloys Compd., 213(1994)509"
152683 JAC2130509 RRR = 7. UNi2Al3 U1.02Ni2Al3 U 1.02 Ni 2 Al 3 1994 AB2C3 PrNi2Al3 K 0.51 0.51 arc-melting Influence of off-stoichiometry on the properties of the heavy fermion superconductors UNi2A13 and UPd2AI3 1994 "Institut fur Festkorperphysik Technische Hochschule Darmstadt, D-64289 Darmstadt (Germany)" "J.Alloys Compd., 213(1994)509"
152684 JAC2130509 RRR = 9. UNi2Al3 U0.98Ni2Al3 U 0.98 Ni 2 Al 3 1994 AB2C3 PrNi2Al3 K 1.145 1.145 arc-melting Influence of off-stoichiometry on the properties of the heavy fermion superconductors UNi2A13 and UPd2AI3 1994 "Institut fur Festkorperphysik Technische Hochschule Darmstadt, D-64289 Darmstadt (Germany)" "J.Alloys Compd., 213(1994)509"
152685 JAC2130509 RRR = 5. UNi2Al3 U1Ni2.02Al3 U 1 Ni 2.02 Al 3 1994 AB2C3 PrNi2Al3 K 1.14 1.14 arc-melting Influence of off-stoichiometry on the properties of the heavy fermion superconductors UNi2A13 and UPd2AI3 1994 "Institut fur Festkorperphysik Technische Hochschule Darmstadt, D-64289 Darmstadt (Germany)" "J.Alloys Compd., 213(1994)509"
152686 JAC2130509 RRR = 4. UNi2Al3 U1Ni1.98Al3 U 1 Ni 1.98 Al 3 1994 AB2C3 PrNi2Al3 K 1.13 1.13 arc-melting Influence of off-stoichiometry on the properties of the heavy fermion superconductors UNi2A13 and UPd2AI3 1994 "Institut fur Festkorperphysik Technische Hochschule Darmstadt, D-64289 Darmstadt (Germany)" "J.Alloys Compd., 213(1994)509"
152687 JAC2130509 RRR = 8. UNi2Al3 U1Ni2Al3.02 U 1 Ni 2 Al 3.02 1994 AB2C3 PrNi2Al3 K 1.135 1.135 arc-melting Influence of off-stoichiometry on the properties of the heavy fermion superconductors UNi2A13 and UPd2AI3 1994 "Institut fur Festkorperphysik Technische Hochschule Darmstadt, D-64289 Darmstadt (Germany)" "J.Alloys Compd., 213(1994)509"
152688 JAC2130509 RRR = 11. UNi2Al3 U1Ni2Al2.98 U 1 Ni 2 Al 2.98 1994 AB2C3 PrNi2Al3 K 1.155 1.155 arc-melting Influence of off-stoichiometry on the properties of the heavy fermion superconductors UNi2A13 and UPd2AI3 1994 "Institut fur Festkorperphysik Technische Hochschule Darmstadt, D-64289 Darmstadt (Germany)" "J.Alloys Compd., 213(1994)509"
152690 JAC2130509 RRR = 7. UNi2Al3 U1Ni1.95Al3.05 U 1 Ni 1.95 Al 3.05 1994 AB2C3 PrNi2Al3 K 0.16 0.16 arc-melting Influence of off-stoichiometry on the properties of the heavy fermion superconductors UNi2A13 and UPd2AI3 1994 "Institut fur Festkorperphysik Technische Hochschule Darmstadt, D-64289 Darmstadt (Germany)" "J.Alloys Compd., 213(1994)509"
152691 JAC2130509 RRR = 25. UPd2Al3 U1Pd2Al3 U 1 Pd 2 Al 3 1994 14.5 AB2C3 PrNi2Al3 K 2 0.2 2 arc-melting Influence of off-stoichiometry on the properties of the heavy fermion superconductors UNi2A13 and UPd2AI3 1994 "Institut fur Festkorperphysik Technische Hochschule Darmstadt, D-64289 Darmstadt (Germany)" "J.Alloys Compd., 213(1994)509"
152692 JAC2130509 RRR = 17. UPd2Al3 U1.01Pd2Al3 U 1.01 Pd 2 Al 3 1994 14.7 AB2C3 PrNi2Al3 K 1.88 0.14 1.88 arc-melting Influence of off-stoichiometry on the properties of the heavy fermion superconductors UNi2A13 and UPd2AI3 1994 "Institut fur Festkorperphysik Technische Hochschule Darmstadt, D-64289 Darmstadt (Germany)" "J.Alloys Compd., 213(1994)509"
152693 JAC2130509 RRR = 15. UPd2Al3 U0.99Pd2Al3 U 0.99 Pd 2 Al 3 1994 14.8 AB2C3 PrNi2Al3 K 1.94 0.07 1.94 arc-melting Influence of off-stoichiometry on the properties of the heavy fermion superconductors UNi2A13 and UPd2AI3 1994 "Institut fur Festkorperphysik Technische Hochschule Darmstadt, D-64289 Darmstadt (Germany)" "J.Alloys Compd., 213(1994)509"
152694 JAC2130509 RRR = 4. UPd2Al3 U1Pd2.02Al3 U 1 Pd 2.02 Al 3 1994 14.9 AB2C3 PrNi2Al3 K 0.83 0.25 0.83 arc-melting Influence of off-stoichiometry on the properties of the heavy fermion superconductors UNi2A13 and UPd2AI3 1994 "Institut fur Festkorperphysik Technische Hochschule Darmstadt, D-64289 Darmstadt (Germany)" "J.Alloys Compd., 213(1994)509"
152695 JAC2130509 RRR = 3. UPd2Al3 U1Pd1.98Al3 U 1 Pd 1.98 Al 3 1994 14.9 AB2C3 PrNi2Al3 K 1.2 0.23 1.2 arc-melting Influence of off-stoichiometry on the properties of the heavy fermion superconductors UNi2A13 and UPd2AI3 1994 "Institut fur Festkorperphysik Technische Hochschule Darmstadt, D-64289 Darmstadt (Germany)" "J.Alloys Compd., 213(1994)509"
152696 JAC2130509 RRR = 5. UPd2Al3 U1Pd2Al3.03 U 1 Pd 2 Al 3.03 1994 14.8 AB2C3 PrNi2Al3 K 0.61 0.19 0.61 arc-melting Influence of off-stoichiometry on the properties of the heavy fermion superconductors UNi2A13 and UPd2AI3 1994 "Institut fur Festkorperphysik Technische Hochschule Darmstadt, D-64289 Darmstadt (Germany)" "J.Alloys Compd., 213(1994)509"
152697 JAC2130509 RRR = 3. UPd2Al3 U1Pd2Al2.97 U 1 Pd 2 Al 2.97 1994 14.5 AB2C3 PrNi2Al3 K 0.04 arc-melting Influence of off-stoichiometry on the properties of the heavy fermion superconductors UNi2A13 and UPd2AI3 1994 "Institut fur Festkorperphysik Technische Hochschule Darmstadt, D-64289 Darmstadt (Germany)" "J.Alloys Compd., 213(1994)509"
152698 JPS0640378 "[phc2]//c-axis ([001]), [nhc2]//c-plane ([100])" UPd2Al3 U1Pd2Al3 U 1 Pd 2 Al 3 3 1995 AB2C3 PrNi2Al3 K 2 2 T 3.9 3.3 MHC152698 Anomalous susceptibility of UPd2Al3 near the upper critical field 1995 "Department of Physics,Faculty of Science,Tohoku University,Sendai" "J.Phys.Soc.Jpn, 64(1995)378"
152699 MAT1006.3769 "Fe2As2Ca5(Mg,Ti)4O9.5" Fe2As2Ca5Mg0.8Ti3.2O9.8 Fe 2 As 2 Ca 5 Mg 0.8 Ti 3.2 O 9.8 1 2010 AB2C3 I4/mmm A 3.864 41.05 structure=2254(11) K 43 39 39 "A New Iron Pnictide Oxide superconductor (Fe2As2)(Ca5(Mg,Ti)4Oy)" 2010 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" cond-mat/1006.3769
152700 APEX003063103 "impurity phasa: CaTiO3, CaO" "Fe2As2Ca4(Mg,Ti)3O7" Fe2As2Ca4Mg0.75Ti2.25O7.5 Fe 2 As 2 Ca 4 Mg 0.75 Ti 2.25 O 7.5 2010 I4/mmm A 3.877 33.37 structure=22438 K 42 47 43 5 43 100 "solid state reaction. mixture - pellet - sealed in evacuated quartz - heat(1000-1100C,60-100h) - slow cool to RT" "Superconductivity Above 40K Observed in a New Iron Arsenide Oxide (Fe2As2)(Ca4(Mg,Ti)3Oy)" 2010 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo, Tokyo 113-8656, Japan" "Appl.Phys.Express, 3(2010)063103"
152701 JPCONF234012025 Ni2P2Sr4Sc2O6 Ni2P2Sr4Sc2O6 Ni 2 P 2 Sr 4 Sc 2 O 6 2010 P4/nmm A 4.044 15.232 "structure=22426, bond angle = 102.6" K 3.6 3.6 "solid state reaction. mixture - pellet - SIN(1100-1200C,40-120h, in evacuated quartz ampoule)" "Structural investigation of new series of nickel-based pnictide oxide superconductors (Ni2Pn2)(Sr4M2O6) (Pn = P, As; M = Sc, V)" 2010 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo, Tokyo 113-8656, Japan" "J.Phys.: Conf.Ser., 234(2010)012025"
152702 JPCONF234012025 Ni2As2Sr4Sc2O6 Ni2As2Sr4Sc2O6 Ni 2 As 2 Sr 4 Sc 2 O 6 2010 P4/nmm A 4.0787 15.414 "structure=22426, bond angle = 104.4" K 2.7 2.7 "solid state reaction. mixture - pellet - SIN(1100-1200C,40-120h, in evacuated quartz ampoule)" "Structural investigation of new series of nickel-based pnictide oxide superconductors (Ni2Pn2)(Sr4M2O6) (Pn = P, As; M = Sc, V)" 2010 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo, Tokyo 113-8656, Japan" "J.Phys.: Conf.Ser., 234(2010)012025"
152703 JPCONF234012025 Ni2As2Sr4V2O6 Ni2As2Sr4V2O6 Ni 2 As 2 Sr 4 V 2 O 6 2010 P4/nmm A 3.949 15.582 "structure=22426, bond angle = 109" K 2 "solid state reaction. mixture - pellet - SIN(1100-1200C,40-120h, in evacuated quartz ampoule)" "Structural investigation of new series of nickel-based pnictide oxide superconductors (Ni2Pn2)(Sr4M2O6) (Pn = P, As; M = Sc, V)" 2010 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo, Tokyo 113-8656, Japan" "J.Phys.: Conf.Ser., 234(2010)012025"
152704 SST023045001 "Fe2As2Sr4(Mg,Ti)2O6" Fe2As2Sr4Mg0.9Ti1.1O6 Fe 2 As 2 Sr 4 Mg 0.9 Ti 1.1 O 6 2010 P4/nmm A 3.935 15.929 structure=22426 K 14 33 23.5 "solid state reaction. heat(1000-1250C,40-72h)" "Superconductivity in a new iron pnictide oxide (Fe2As2)(Sr4(Mg, Ti)2O6)" 2010 "Department of Applied Chemistry, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Supercond.Sci.Technol., 23(2010)045001"
152705 SST023045001 "Fe2As2Sr4(Mg,Ti)2O6" Fe2As2Sr4Mg0.8Ti1.2O6 Fe 2 As 2 Sr 4 Mg 0.8 Ti 1.2 O 6 2010 P4/nmm A 3.936 15.931 structure=22426 K 18 34 26 "solid state reaction. heat(1000-1250C,40-72h)" "Superconductivity in a new iron pnictide oxide (Fe2As2)(Sr4(Mg, Ti)2O6)" 2010 "Department of Applied Chemistry, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Supercond.Sci.Technol., 23(2010)045001"
152706 SST023045001 Tc(on): max = 43K at P=4.2 GPa. "Fe2As2Sr4(Mg,Ti)2O6" Fe2As2Sr4Mg0.6Ti1.4O6 Fe 2 As 2 Sr 4 Mg 0.6 Ti 1.4 O 6 2010 P4/nmm A 3.936 15.904 structure=22426 K 22 36 29 K/GPa 2.5 "solid state reaction. heat(1000-1250C,40-72h)" "Superconductivity in a new iron pnictide oxide (Fe2As2)(Sr4(Mg, Ti)2O6)" 2010 "Department of Applied Chemistry, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Supercond.Sci.Technol., 23(2010)045001"
152707 SST023045001 "Fe2As2Sr4(Mg,Ti)2O6" Fe2As2Sr4Mg0.4Ti1.6O6 Fe 2 As 2 Sr 4 Mg 0.4 Ti 1.6 O 6 2010 P4/nmm structure=22426 K 17 39 28 "solid state reaction. heat(1000-1250C,40-72h)" "Superconductivity in a new iron pnictide oxide (Fe2As2)(Sr4(Mg, Ti)2O6)" 2010 "Department of Applied Chemistry, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Supercond.Sci.Technol., 23(2010)045001"
152708 SST023045001 "Fe2As2Sr4(Mg,Ti)2O6" Fe2As2Sr4Mg1Ti1O6 Fe 2 As 2 Sr 4 Mg 1 Ti 1 O 6 2010 P4/nmm A 3.935 15.952 structure=22426 K 2 10 6 1.5 "solid state reaction. heat(1000-1250C,40-72h)" "Superconductivity in a new iron pnictide oxide (Fe2As2)(Sr4(Mg, Ti)2O6)" 2010 "Department of Applied Chemistry, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Supercond.Sci.Technol., 23(2010)045001"
152709 SST023045001 "(Fe,Co)2As2Sr4(Mg,Ti)2O6" Fe1.9Co0.1As2Sr4Mg1Ti1O6 Fe 1.9 Co 0.1 As 2 Sr 4 Mg 1 Ti 1 O 6 2010 P4/nmm A 3.935 15.943 structure=22426 K 15 26 22 22 "solid state reaction. heat(1000-1250C,40-72h)" "Superconductivity in a new iron pnictide oxide (Fe2As2)(Sr4(Mg, Ti)2O6)" 2010 "Department of Applied Chemistry, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Supercond.Sci.Technol., 23(2010)045001"
152710 SST023045001 "(Fe,Co)2As2Sr4(Mg,Ti)2O6" Fe1.8Co0.2As2Sr4Mg1Ti1O6 Fe 1.8 Co 0.2 As 2 Sr 4 Mg 1 Ti 1 O 6 2010 P4/nmm A 3.935 15.912 structure=22426 K 11 26 24 24 "solid state reaction. heat(1000-1250C,40-72h)" "Superconductivity in a new iron pnictide oxide (Fe2As2)(Sr4(Mg, Ti)2O6)" 2010 "Department of Applied Chemistry, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Supercond.Sci.Technol., 23(2010)045001"
152711 SST023045001 "(Fe,Co)2As2Sr4(Mg,Ti)2O6" Fe1.7Co0.3As2Sr4Mg1Ti1O6 Fe 1.7 Co 0.3 As 2 Sr 4 Mg 1 Ti 1 O 6 2010 P4/nmm A 3.935 15.905 structure=22426 K 9 18 16 16 "solid state reaction. heat(1000-1250C,40-72h)" "Superconductivity in a new iron pnictide oxide (Fe2As2)(Sr4(Mg, Ti)2O6)" 2010 "Department of Applied Chemistry, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Supercond.Sci.Technol., 23(2010)045001"
152712 ZAAC6352242 Fe2As2(Sr2CrO3)2 Fe1As1Sr2Cr1O3 Fe 1 As 1 Sr 2 Cr 1 O 3 2009 myu-B/Cr 3.83 -141 31 P4/nmm A 3.9112 15.7905 CuS(Sr2GaO3)-type K 1.8 The Layered Iron Arsenide Oxides Sr2CrO3FeAs and Ba2ScO3FeAs 2009 "Universitat Munchen Butenandtstrasse 5?13 (Haus D) 81377 Munchen, Germany" "Z. Anorg. Allg. Chem., 635(2009)2242"
152713 ZAAC6352242 Fe2As2(Ba2ScO3)2 Fe1As1Ba2Sc1O3 Fe 1 As 1 Ba 2 Sc 1 O 3 2009 P4/nmm A 4.1266 16.8 CuS(Sr2GaO3)-type K 1.8 The Layered Iron Arsenide Oxides Sr2CrO3FeAs and Ba2ScO3FeAs 2009 "Universitat Munchen Butenandtstrasse 5?13 (Haus D) 81377 Munchen, Germany" "Z. Anorg. Allg. Chem., 635(2009)2242"
152714 PRB079024516 Fe2As2(Sr3Sc2O5) Fe2As2Sr3Sc2O5 Fe 2 As 2 Sr 3 Sc 2 O 5 2009 I4/mmm A 4.069 26.876 FeAs32522 K 2 m3/C RH152714 "solid state reaction. mixture - pellet - sealed in quartz tube(0.2 bar-Ar) - heat(1000C,40h) - slow cool to RT" Sr3Sc2Fe2As2O5 as a possible parent compound for FeAs-based superconductors 2009 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 79(2009)024516"
152715 SST023022001 grain size= 20 um. impurity phase: SrFe2P2. point contact Andreev reflection. data analized using nodal d-wave model. FeP(Sr2ScO3) Fe1P1Sr2Sc1O3 Fe 1 P 1 Sr 2 Sc 1 O 3 1 2010 K 15 15 meV 4.34 6.7 1 solid state reaction Evidence for nodal superconductivity in Sr2ScFePO3 2010 "Physics Department, The Blackett Laboratory, Imperial College London, London SW7 2AZ, UK" "Supercond. Sci. Technol., 23(2010)022001"
152716 SST022085001 Fe2As2(Sr4Sc2O6) Fe2As2Sr4Sc2O6 Fe 2 As 2 Sr 4 Sc 2 O 6 1 2009 P4/nmm A 4.05 15.809 Cu2S2(Sr4Cr2O6)-type K 1.8 "FeAs,SrO,Sr,Cr,Sc2O3(Cr2O3)" "solid state reaction. heat(1000-1200C, 24-50h)" "New iron-based arsenide oxides (Fe2As2)(Sr4M2O6) (M = Sc, Cr)" 2009 "Department of Applied Chemistry, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Supercond. Sci. Technol., 22(2009)085001"
152717 SST022085001 "impurity phase: FeAs, SrO" Fe2As2(Sr4Cr2O6) Fe2As2Sr4Cr2O6 Fe 2 As 2 Sr 4 Cr 2 O 6 1 2009 P4/nmm A 3.918 15.683 Cu2S2(Sr4Cr2O6)-type K 1.8 "FeAs,SrO,Sr,Cr,Sc2O3(Cr2O3)" "solid state reaction. heat(1000-1200C, 24-50h)" "New iron-based arsenide oxides (Fe2As2)(Sr4M2O6) (M = Sc, Cr)" 2009 "Department of Applied Chemistry, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Supercond. Sci. Technol., 22(2009)085001"
152718 SST022075008 Fe2P2(Sr4Sc2O6) Fe2P2Sr4Sc2O6 Fe 2 P 2 Sr 4 Sc 2 O 6 1 2009 P4/nmm A 4.016 15.543 22426-type K 9.8 17 17 17 "FeP,SrO,Sr,Sc2O3" "solid state reaction. mixture - pellet - sealed in evacuated quartz ampoule - heat(900-1200C, 12-40h)" Superconductivity at 17K in (Fe2P2)(Sr4Sc2O6): a new superconducting layered oxypnictides with thick perovskite oxide layer 2009 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Supercond,Sci.Technol., 22(2009)075008"
152719 PRL106127004 "Hall coeff. weak temperature dependence. lattice term of SP (beta=2.22 mJ/mol K4, delta=0.05 mJ/mol.K6). GL-parameter=128. thermal-Hc(0) = 16.7 mT." CuxBi2Se3 Cu0.29Bi2Se3 Cu 0.29 Bi 2 Se 3 3 2011 R3[-]m 166 K 2.8 3.6 3.2 3.2 43 Oe M-H curve 4.3 T "R=0.5Rn, WHH" 3.02 1.71 MHC152719 A from Hc2 139 79 mJ/mol.K2 1.95 SP-heat n/cm3 1.30E+20 "Bi(6N),Se(5N)" "single crystal of Bi2Se3 grown by: heat(800C,48h) - slow cool to 550C(over 48h) - keep(550C,24h) - Cu-intercalation from cleaved surface)" Bulk Superconducting Phase with a Full Energy Gap in the Doped Topological Insulator CuxBi2Se3 2011 "Institute of Scientific and Industrial Research, Osaka University, Osaka 567-0047, Japan" "Phys.Rev.Lett., 106(2011)127004"
152720 JACS1302886 compositions: Yb0.98Ga1.15Si0.87 by EPMA. RRR = 1.38 YbGaSi Yb1Ga1.1Si0.9 Yb 1 Ga 1.1 Si 0.9 1 2008 emu/mol-Yb 0.0000493 emu.K/Yb 0.00901 -4.152 7.336 ABC AlB2 P6/mmm 191 A 4.1275 4.2357 K 2.3 2.5 2.4 0.2 2.4 100 mOhm.cm 0.219 "Yb(3N),Ga(5N),Si(6N)" "arc-melting. ANN(1273K,1h) - slow cool to 1073K(0.1K/min)" Superconductivity in the AlB2-Type Ternary Rare-Earth Silicide YbGa1.1Si0.9 2008 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "J. AM. CHEM. SOC., 130(2008)2886"
152721 IOC0468801 Curie-Weis-law for T>86 K. FM order below 8.8 K EuGaSi Eu1Ga1Si1 Eu 1 Ga 1 Si 1 1 2007 8.8 ABC AlB2 P6/mmm 191 A 4.1687 4.5543 K 2 arc-melting "Planar versus Puckered Nets in the Polar Intermetallic Series EuGaTt (Tt = Si, Ge, Sn)" 2007 "Inorg.Chem., 46(2007)8801"
152722 IOC0468801 Curie-Weis-law for T > 95 K. FM order below 14.5 K EuGaGe Eu1Ga1Ge1 Eu 1 Ga 1 Ge 1 1 2007 14.5 ABC YPtAs P6<3>mmc 194 A 4.2646 18.041 K 2 arc-melting "Planar versus Puckered Nets in the Polar Intermetallic Series EuGaTt (Tt = Si, Ge, Sn)" 2007 "Inorg.Chem., 46(2007)8801"
152723 IOC0468801 Curie-Weis-law for T > 116 K. AFM order below 15.2 K EuGaSn Eu1Ga1Sn1 Eu 1 Ga 1 Sn 1 1 2007 15.2 ABC YPtAs P6<3>mmc 194 A 4.5243 18.067 K 2 arc-melting "Planar versus Puckered Nets in the Polar Intermetallic Series EuGaTt (Tt = Si, Ge, Sn)" 2007 "Inorg.Chem., 46(2007)8801"
152724 PRB083054517 "as-cast sample: Tc=4.8K. residual [gamma] = 7.21 mJ/mol.K2. Two gaps: large (2d/kTc) =4.26 at Tc , smaller ()=1.02 at Tc/5. [penet] from muon-SR. lattice term in SP(beta) = 0.247 mJ/mol.K4" Lu2Fe3Si5 Lu2Fe3Si5 Lu 2 Fe 3 Si 5 1 2011 A2B3C5 Sc2Fe3Si5 K 6.1 6.1 A muon-SR 3530 4.26 14 mJ/mol.K2 24.9 SP-heat "Lu(4N),Fe(5N),Si(4N)" "arc-melting -heat to 800C(200C/h) - ANN(800C,48h) - ANN(1100C,72h) - cool to 800C(200C/h) - ANN(800C,72h)" Two-gap superconductivity in Lu2Fe3Si5: A transverse-field muon spin rotation study 2011 "Physics Department, University of Warwick, Coventry CV4 7AL, United Kingdom" "Phys.Rev.B, 83(2011)054517"
152725 PHC470S356 BiOCuS Bi1Cu0.9S1O1 Bi 1 Cu 0.9 S 1 O 1 2010 A 3.8686 8.5682 K 5.8 5.8 4 solid sate reaction. SIN(520C) BiOCuS: A new superconducting compound with oxypnictide-related structure 2010 "Departement de Physique de la Matiere Condensee, University of Geneva, 24 quai Ernest-Ansermet, CH-1211 Geneva, Switzerland" "Physica C, 470(2010)S356"
152726 PRB083054511 EuFe2As2 Eu1Fe2As2 Eu 1 Fe 2 As 2 3 2011 19 AB2C2 ThCr2Si2 A 3.907 12.114 K 2 "Eu(4N),Fe(4N),As(7N),P(4N)" "Bridgman method. mixture - sealed in Ta crucible - heat to 1300C(50C/h) - keep(1300C,12h) - cool to 950C(3C/h)" "Interplay of antiferromagnetism, ferromagnetism, and superconductivity in EuFe2(As1-xPx)2 single crystals" 2011 "I. Physikalisches Institut, Georg-August-Universitat Gottingen, D-37077 Gottingen, Germany" "Phys.Rev.B, 83(2011)054511"
152727 PRB083054511 "EuFe2(As,P)2" Eu1Fe2As1.74P0.26 Eu 1 Fe 2 As 1.74 P 0.26 3 2011 17.8 AB2C2 ThCr2Si2 K 2 "Eu(4N),Fe(4N),As(7N),P(4N)" "Bridgman method. mixture - sealed in Ta crucible - heat to 1300C(50C/h) - keep(1300C,12h) - cool to 950C(3C/h)" "Interplay of antiferromagnetism, ferromagnetism, and superconductivity in EuFe2(As1-xPx)2 single crystals" 2011 "I. Physikalisches Institut, Georg-August-Universitat Gottingen, D-37077 Gottingen, Germany" "Phys.Rev.B, 83(2011)054511"
152728 PRB083054511 "EuFe2(As,P)2" Eu1Fe2As1.7P0.3 Eu 1 Fe 2 As 1.7 P 0.3 3 2011 AB2C2 ThCr2Si2 A 3.891 11.948 K 21 21 MPH152728 "Eu(4N),Fe(4N),As(7N),P(4N)" "Bridgman method. mixture - sealed in Ta crucible - heat to 1300C(50C/h) - keep(1300C,12h) - cool to 950C(3C/h)" "Interplay of antiferromagnetism, ferromagnetism, and superconductivity in EuFe2(As1-xPx)2 single crystals" 2011 "I. Physikalisches Institut, Georg-August-Universitat Gottingen, D-37077 Gottingen, Germany" "Phys.Rev.B, 83(2011)054511"
152729 PRB083054511 "EuFe2(As,P)2" Eu1Fe2As1.68P0.32 Eu 1 Fe 2 As 1.68 P 0.32 3 2011 18.4 AB2C2 ThCr2Si2 A 3.89 11.93 K 22 22 MPH152728 "Eu(4N),Fe(4N),As(7N),P(4N)" "Bridgman method. mixture - sealed in Ta crucible - heat to 1300C(50C/h) - keep(1300C,12h) - cool to 950C(3C/h)" "Interplay of antiferromagnetism, ferromagnetism, and superconductivity in EuFe2(As1-xPx)2 single crystals" 2011 "I. Physikalisches Institut, Georg-August-Universitat Gottingen, D-37077 Gottingen, Germany" "Phys.Rev.B, 83(2011)054511"
152730 PRB083054511 sharp SC transition. Tc(zero) = 25 K for H = 9 T. "EuFe2(As,P)2" Eu1Fe2As1.6P0.4 Eu 1 Fe 2 As 1.6 P 0.4 3 2011 18.9 AB2C2 ThCr2Si2 A 3.887 11.89 K 29 29 "Eu(4N),Fe(4N),As(7N),P(4N)" "Bridgman method. mixture - sealed in Ta crucible - heat to 1300C(50C/h) - keep(1300C,12h) - cool to 950C(3C/h)" "Interplay of antiferromagnetism, ferromagnetism, and superconductivity in EuFe2(As1-xPx)2 single crystals" 2011 "I. Physikalisches Institut, Georg-August-Universitat Gottingen, D-37077 Gottingen, Germany" "Phys.Rev.B, 83(2011)054511"
152731 PRB083054511 not SC for x >=0.26 in EuFe2(As1-xPx)2 "EuFe2(As,P)2" Eu1Fe2As1.48P0.52 Eu 1 Fe 2 As 1.48 P 0.52 3 2011 AB2C2 ThCr2Si2 A 3.889 11.87 K 2 "Eu(4N),Fe(4N),As(7N),P(4N)" "Bridgman method. mixture - sealed in Ta crucible - heat to 1300C(50C/h) - keep(1300C,12h) - cool to 950C(3C/h)" "Interplay of antiferromagnetism, ferromagnetism, and superconductivity in EuFe2(As1-xPx)2 single crystals" 2011 "I. Physikalisches Institut, Georg-August-Universitat Gottingen, D-37077 Gottingen, Germany" "Phys.Rev.B, 83(2011)054511"
152732 PRL105207003 R shows he peak at 18 K (T) shows maximum at 150 K. anisotropy(Hc2) = 3.0 RbxFe2Se2 Rb0.88Fe1.81Se2 Rb 0.88 Fe 1.81 Se 2 3 2011 AB2C2 ThCr2Si2 I4/mmm A 3.925 14.5655 K 30 32.1 30.6 30.6 T "R=0.9Rn, WHH" 180 59 T/K resistivity 8.09 2.66 MHC152737 "Rb,FeSe" "Bridgman method. mixture in quartz tube(vac) - heat(980C,10h) - keep(4h) - melt(1080C,2h) - slow cool to 780C(6C/h) - RT" Superconductivity at 32 K in single-crystalline RbxFe2-ySe2 2011 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 83(2011)060512"
152738 APL098042511 compositions: K0.6Fe1.5Se2 from EDX. R(T) shows maximum at 207 K.. Anisotropy(Hc2) = 3.6 KxFe2Se2 K0.8Fe1.5Se2 K 0.8 Fe 1.5 Se 2 3 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9034 14.165 K 31.8 33 32.4 T "R=0.9Rn, WHH" 192 54 MHC152738 "nominal(K:FeSe=0.8:2) - alumina crucible in stainless tube - heat(1030C,2h) - cool to 750C(6C/h)" Transport properties of the new Fe-based superconductor KxFe2Se2 (Tc = 33 K) 2011 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba 305-0047, Japan" "Appl.Phys.Lett., 98(2011)042511"
152739 JPCM023052203 CsxFe2Se2 Cs0.8Fe2Se1.96 Cs 0.8 Fe 2 Se 1.96 3 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9601 15.2846 K 27.4 27.4 "Bridgman method. ANN and melt(1030C,2h) - cool to 750C(6C/h) - cool to RT(200C/h)" Synthesis and crystal growth of Cs0.8(FeSe0.98)2: a new iron-based superconductor with Tc = 27 K 2011 "Laboratory for Developments and Methods, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" J. Phys.: Condens. Matter 23 (2011) 052203
152740 JPCM023052203 "lattice conct. a=3.9038, C=14.1148 from NPD." KxFe2Se2 K0.8Fe2Se1.96 K 0.8 Fe 2 Se 1.96 3 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9092 14.1353 K 29.5 29.5 "Bridgman method. ANN and melt(1030C,2h) - cool to 750C(6C/h) - cool to RT(200C/h)" Synthesis and crystal growth of Cs0.8(FeSe0.98)2: a new iron-based superconductor with Tc = 27 K 2011 "Laboratory for Developments and Methods, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" J. Phys.: Condens. Matter 23 (2011) 052203
152741 MAT1012.5552 R(max) at 125 K. KxFe2Se2 K0.86Fe2Se1.82 K 0.86 Fe 2 Se 1.82 3 2011 AB2C2 ThCr2Si2 I4/mmm 3.8912 14.139 K 28.7 31 29 29 90 T "resistivity, WHH" 208 67 T/K resistivity 9.86 3.17 MHC152741 "self-flux method. K(Cs)+FeSe) - (quartz tube) - heat(1030C,4h) - keep(2h) - cool to 750C(6C/h) - FC to RT" Superconductivity and Magnetic Properties of single crystals of K0.75Fe1.66Se2 and Cs0.81Fe1.61Se2 2011 cond-mat/1012.5552 "Phys.Rev.B, 83(2011)212502"
152742 MAT1012.5552 no peak in R(T). CsxFe2Se2 Cs0.86Fe1.66Se2 Cs 0.86 Fe 1.66 Se 2 3 2011 AB2C2 ThCr2Si2 I4/mmm 3.9618 15.285 K 26.5 30 25.5 25.5 100 T "resistivity, WHH" 126 43 T/K resistivity 6.21 2.13 MHC152742 "self-flux method. K(Cs)+FeSe) - (quartz tube) - heat(1030C,4h) - keep(2h) - cool to 750C(6C/h) - FC to RT" Superconductivity and Magnetic Properties of single crystals of K0.75Fe1.66Se2 and Cs0.81Fe1.61Se2 2011 cond-mat/1012.5552 "Phys.Rev.B, 83(2011)212502"
152743 PRB083100503 gap measured by broad-band infrared spectroscopy. s-wave gap "EuFe2(As,P)2" Eu1Fe1As1.64P0.36 Eu 1 Fe 1 As 1.64 P 0.36 3 2011 AB2C2 ThCr2Si2 I4/mmm K 28 28 A infrared spectroscopy 3000 meV 4.75 3.7 2 "See Phys.Rev.B, 78(2008)092406" Optical investigations of chemically pressurized EuFe2(As1-xPx)2: An s-wave superconductor with strong interband interactions 2011 "Physikalisches Institut, Universitat Stuttgart, Pfaffenwaldring 57, DE-70550 Stuttgart, Germany" "Phys.Rev.B, 83(2011)100503"
152744 PRB083100513 crystal size = 108*95*7 um3. [ncohere] estimated from anisotropy(=8). Thermodynamic Hc2(0) = 1.24 T. GL parameter = 99. "Sm(O,F)FeAs" Sm1Fe1As1F0.15O0.85 Sm 1 Fe 1 As 1 F 0.15 O 0.85 3 2011 ABCD oxypnictide K 49.5 49.5 T/K SP-heat 3.5 A from Hc2 14 1.8 mJ/mol.K2 8 SP and entropy high-P synthesis using NaCl/KCl flux. Anisotropic phase diagram and superconducting fluctuations of single-crystalline SmFeAsO0.85F0.15 2011 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439, USA" "Phys.Rev.B, 83(2011)100513"
152745 PRB083104414 T(T-to-O) = 153 K and T = 153 K by neutron diffraction. moment shows /Fe-stite. "Ca(Fe,Co)2As2" Ca1Fe1.936Co0.064As2 Ca 1 Fe 1.936 Co 0.064 As 2 3 2011 myu-B/mol 0.747 153 AB2C2 ThCr2Si2 I4/mmm K 5 "CaAs,Fe2As,Co2As" "mixture - pellet - sealed in quartz ampoule(vac) - heat(850C) - SIN(1090C,24h) slow cool to 600C" Effect of Co substitution on the magnetic order in Ca(Fe1-xCox)2As2 single crystals studied by neutron diffraction 2011 "Helmholtz-Zentrum Berlin fur Materialien und Energie, M-I1, Hahn-Meitner Platz 1, D-14109 Berlin, Germany" "Phys.Rev.B, 83(2011)104414"
152746 PRB083104414 T(T-to-O) = 136 K and T = 133 K by neutron diffraction. moment shows /Fe-stite. "Ca(Fe,Co)2As2" Ca1Fe1.922Co0.078As2 Ca 1 Fe 1.922 Co 0.078 As 2 3 2011 myu-B/mol 0.703 133 AB2C2 ThCr2Si2 I4/mmm K 21.2 21.2 "CaAs,Fe2As,Co2As" "mixture - pellet - sealed in quartz ampoule(vac) - heat(850C) - SIN(1090C,24h) slow cool to 600C" Effect of Co substitution on the magnetic order in Ca(Fe1-xCox)2As2 single crystals studied by neutron diffraction 2011 "Helmholtz-Zentrum Berlin fur Materialien und Energie, M-I1, Hahn-Meitner Platz 1, D-14109 Berlin, Germany" "Phys.Rev.B, 83(2011)104414"
152747 PRB083104414 T(T-to-O) = 129 K and T = 120 K by neutron diffraction. moment shows /Fe-stite. "Ca(Fe,Co)2As2" Ca1Fe1.898Co0.102As2 Ca 1 Fe 1.898 Co 0.102 As 2 3 2011 myu-B/mol 0.561 120 AB2C2 ThCr2Si2 I4/mmm K 19.9 19.9 "CaAs,Fe2As,Co2As" "mixture - pellet - sealed in quartz ampoule(vac) - heat(850C) - SIN(1090C,24h) slow cool to 600C" Effect of Co substitution on the magnetic order in Ca(Fe1-xCox)2As2 single crystals studied by neutron diffraction 2011 "Helmholtz-Zentrum Berlin fur Materialien und Energie, M-I1, Hahn-Meitner Platz 1, D-14109 Berlin, Germany" "Phys.Rev.B, 83(2011)104414"
152748 PRB083104414 T(T-to-O) = 105 K and T = 94 K by neutron diffraction. moment shows /Fe-stite. "Ca(Fe,Co)2As2" Ca1Fe1.888Co0.112As2 Ca 1 Fe 1.888 Co 0.112 As 2 3 2011 myu-B/mol 0.475 94 AB2C2 ThCr2Si2 I4/mmm K 16.5 16.5 "CaAs,Fe2As,Co2As" "mixture - pellet - sealed in quartz ampoule(vac) - heat(850C) - SIN(1090C,24h) slow cool to 600C" Effect of Co substitution on the magnetic order in Ca(Fe1-xCox)2As2 single crystals studied by neutron diffraction 2011 "Helmholtz-Zentrum Berlin fur Materialien und Energie, M-I1, Hahn-Meitner Platz 1, D-14109 Berlin, Germany" "Phys.Rev.B, 83(2011)104414"
152749 PRB083104414 T(T-to-O) and T not obseved by neutron diffraction. "Ca(Fe,Co)2As2" Ca1Fe1.874Co0.126As2 Ca 1 Fe 1.874 Co 0.126 As 2 3 2011 AB2C2 ThCr2Si2 I4/mmm K 14.8 14.8 "CaAs,Fe2As,Co2As" "mixture - pellet - sealed in quartz ampoule(vac) - heat(850C) - SIN(1090C,24h) slow cool to 600C" Effect of Co substitution on the magnetic order in Ca(Fe1-xCox)2As2 single crystals studied by neutron diffraction 2011 "Helmholtz-Zentrum Berlin fur Materialien und Energie, M-I1, Hahn-Meitner Platz 1, D-14109 Berlin, Germany" "Phys.Rev.B, 83(2011)104414"
152750 PRB083064504 "RRR = 12. R(max) at 26 K. P = 2.1 GPa(Tc(on) go to zero). For P=0.45 GPa, Hc2(0)=2.2 T, [cohere] = 122 A." Ce2PdIn8 Ce2Pd1In8 Ce 2 Pd 1 In 8 1 2011 AB2C8 Ho2CoGa8 K 0.7 0.7 K/GPa 0.15 T "resistivity, extrapolation" 2.5 T/K resistivity 16 A from Hc2 105 uOhm.cm 6.58 "Ce(3N),Pd(3N),In(6N)" arc-melting Superconductivity and non-Fermi-liquid behavior of Ce2PdIn8 2011 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P. O. Box 1410, PL-50-950 Wroc?aw, Poland" "Phys.Rev.B, 83(2011)064504"
152751 PRB083064522 "RRR=60. Debye-T = 348 K from resistivity analysis. Type-I SC (GL parameter = 0.25, then Hc2 in DB shows thermodynamic Hc(0). e-ph coupling = 0.499. (dC/gamma*Tc) = 1.25" LaRhSi3 La1Rh1Si3 La 1 Rh 1 Si 3 1 2011 ABC3 BaNiSn3 I4mm A 4.2694 9.8357 K 2.16 2.24 2.16 100 T SP-heat 0.0171 A 1750 A 440 meV 0.3 3.24 14 mJ/mol.K 16 mJ/mol.K2 6.04 SP-heat 357 SP-heat uOhm.cm 1.08 arc-melting Specific heat and myu-SR study on the noncentrosymmetric superconductor LaRhSi3 2011 "ISIS Facility, Rutherford Appleton Laboratory, Chilton, Didcot Oxon OX11 0QX, United Kingdom" "Phys.Rev.B, 83(2011)064522"
152752 PRB083100502 energy gap measured by tunneling diode resonator. LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 3 2011 ABC PbFCl K 17.5 18.2 17.5 A tunneling 2800 2.18 1 Bridgman method using W-crucible. Nodeless two-gap superconducting state in single crystals of the stoichiometric iron pnictide LiFeAs 2011 "The Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)100502"
152753 PRB083100501 "RRR = 7. P-induced SC. SC properties measured at P=2.5 GPa. AFM ordered T of Eu moment =20 K, AFM ordered T in FeAs plane =190 K at P=0." EuFe2As2 Eu1Fe2As2 Eu 1 Fe 2 As 2 3 2011 AB2C2 ThCr2Si2 K 30 0 30 T "resistivity, extrapolation" 24.7 21.5 MHC152753 Bridgman method Upper critical field of the pressure-induced superconductor EuFe2As2 2011 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0003, Japan" "Phys.Rev.B, 83(2011)100501"
152754 PRB083094511 lattice term coeff. in SP (beta)=0.75 mJ/mol.K4 Tc=2.65 K from SP(mid). SrPd2Ge2 Sr1Pd2Ge2 Sr 1 Pd 2 Ge 2 3 2011 AB2C2 ThCr2Si2 A 4.4129 10.1204 K 2.7 2.7 T "magnetization, WHH" 0.4927 0.4921 T/K magnetization 0.2653 0.264 A from Hc2 214.8 214.5 mJ/mol.K2 7.8 SP-heat 235 SP-heat "self-flux method. (Sr:Pd:Ge=1:5:5) - (sealed in quartz tube, Ar) - heat to 1100C (200C/h) - keep(1100C,2d) - cool to 850C (3C/h)" Superconductivity and anomalous transport in SrPd2Ge2 single crystals 2011 "School of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), Gwangju 500-712, Korea" "Phys.Rev.B, 83(2011)094511"
152755 PRB079224522 RRR = 12. Thermodynamic Hc(0) = 770 Oe. SrPd2Ge2 Sr1Pd2Ge2 Sr 1 Pd 2 Ge 2 1 2009 AB2C2 ThCr2Si2 I4/mmm A 4.4088 10.127 K 3.03 3.09 3.04 3.04 Oe M-H curve 180 T "magnetization, WHH" 0.18 T/K magnetization 0.084 MHC152755 A from Hc2 433 A "Hc1, Hc(0)" 711 uOhm.cm 2.5 30 "Sr(2N),Pd(3N),Ge(4N)" "arc-melting - wrapped in Ti-foil - ANN(1173 K. 1w, in silica tube)" Superconductivity in SrPd2Ge2 2009 "Superconducting Materials Center, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 79(2009)224522"
152756 PRL102147004 Hc2 defined as mid point of SP-transition. Thermal conductivity measured for current q//[100] BaNi2As2 Ba1Ni2As2 Ba 1 Ni 2 As 2 3 2009 AB2C2 ThCr2Si2 K 0.68 0.68 T "SP-heat, WHH" 0.11 T/K SP-heat 0.226 A from Hc2 550 meV 0.0946 3.22 14 mJ/mol.K2 12.3 Pb-flux method Low-Temperature Magnetothermal Transport Investigation of a Ni-Based Superconductor BaNi2As2: Evidence for Fully Gapped Superconductivity 2009 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 102(2009)147004"
152757 JPCM020342203 T = 130 K. Hc2 defined as R(zero). lattice term coeff. in SP (beta) = 1.10 mJ/mol.K4 BaNi2As2 Ba1Ni2As2 Ba 1 Ni 2 As 2 3 2008 AB2C2 ThCr2Si2 A 4.112 11.54 K 0.68 0.68 T "resistivity, WHH" 0.19 0.09 T/K resistivity 0.396 0.186 MHC152757 A from Hc2 420 610 11.15 mJ/mol.K2 10.8 SP-heat 206 SP-heat "Pb-flux method. (Ba:Ni:As:Pb=1:2:2:20) - alumina crucible - quartz tube - heat to 900C(100C/h) - hold(1075C,4h) - cool to 650C(7C/h)" The first order phase transition and superconductivity in BaNi2As2 single crystals 2008 "Los Alamos National Laboratory, Los Alamos, NM 87545, USA" J. Phys.: Condens. Matter 20 (2008) 342203
152758 PRB083094523 not SC. RRR = 3.6. structural transition at T=166 K. CaFe2As2 Ca1Fe2As2 Ca 1 Fe 2 As 2 3 2011 155 AB2C2 ThCr2Si2 K "crystals grown by Sn-flux method. (pellet:Sn = 1:30) - (in alumina crucible) - heat(1090C,24h) - cool to 600C(2.5C/h) FC to RT" Phase diagram of the iron arsenide superconductors Ca(Fe1-xCox)2As2 (0 =< x =< 0.2) 2011 "Leibniz-Institute for Solid State and Materials Research, (IFW)-Dresden, D-01171 Dresden, Germany" "Phys.Rev.B, 83(2011)094523"
152759 PRB083094523 RRR = 1.97. structural transition at T=155 K. Co-content x shows nominal value. [EDX] = 0.7*[nominal] "Ca(Fe,Co)2As2" Ca1Fe1.94Co0.06As2 Ca 1 Fe 1.94 Co 0.06 As 2 3 2011 154 AB2C2 ThCr2Si2 K 15.5 15.5 "crystals grown by Sn-flux method. (pellet:Sn = 1:30) - (in alumina crucible) - heat(1090C,24h) - cool to 600C(2.5C/h) FC to RT" Phase diagram of the iron arsenide superconductors Ca(Fe1-xCox)2As2 (0 =< x =< 0.2) 2011 "Leibniz-Institute for Solid State and Materials Research, (IFW)-Dresden, D-01171 Dresden, Germany" "Phys.Rev.B, 83(2011)094523"
152760 PRB083094523 RRR = 1.29. structural transition at T=142 K. Co-content x shows nominal value. [EDX] = 0.7*[nominal] "Ca(Fe,Co)2As2" Ca1Fe1.9Co0.1As2 Ca 1 Fe 1.9 Co 0.1 As 2 3 2011 142 AB2C2 ThCr2Si2 K 17.7 17.7 0 "crystals grown by Sn-flux method. (pellet:Sn = 1:30) - (in alumina crucible) - heat(1090C,24h) - cool to 600C(2.5C/h) FC to RT" Phase diagram of the iron arsenide superconductors Ca(Fe1-xCox)2As2 (0 =< x =< 0.2) 2011 "Leibniz-Institute for Solid State and Materials Research, (IFW)-Dresden, D-01171 Dresden, Germany" "Phys.Rev.B, 83(2011)094523"
152761 PRB083094523 RRR = 5.08. structural transition at T=108 K. Co-content x shows nominal value. [EDX] = 0.7*[nominal] "Ca(Fe,Co)2As2" Ca1Fe1.85Co0.15As2 Ca 1 Fe 1.85 Co 0.15 As 2 3 2011 108 AB2C2 ThCr2Si2 K 18 15.2 2.9 15.2 43 "crystals grown by Sn-flux method. (pellet:Sn = 1:30) - (in alumina crucible) - heat(1090C,24h) - cool to 600C(2.5C/h) FC to RT" Phase diagram of the iron arsenide superconductors Ca(Fe1-xCox)2As2 (0 =< x =< 0.2) 2011 "Leibniz-Institute for Solid State and Materials Research, (IFW)-Dresden, D-01171 Dresden, Germany" "Phys.Rev.B, 83(2011)094523"
152762 PRB083094523 RRR = 15.1 Co-content x shows nominal value. [EDX] = 0.7*[nominal] "Ca(Fe,Co)2As2" Ca1Fe1.82Co0.18As2 Ca 1 Fe 1.82 Co 0.18 As 2 3 2011 AB2C2 ThCr2Si2 K 15.7 2.65 15.7 86 "crystals grown by Sn-flux method. (pellet:Sn = 1:30) - (in alumina crucible) - heat(1090C,24h) - cool to 600C(2.5C/h) FC to RT" Phase diagram of the iron arsenide superconductors Ca(Fe1-xCox)2As2 (0 =< x =< 0.2) 2011 "Leibniz-Institute for Solid State and Materials Research, (IFW)-Dresden, D-01171 Dresden, Germany" "Phys.Rev.B, 83(2011)094523"
152763 PRB083094523 RRR = 18.0 Co-content x shows nominal value. [EDX] = 0.7*[nominal] "Ca(Fe,Co)2As2" Ca1Fe1.8Co0.2As2 Ca 1 Fe 1.8 Co 0.2 As 2 3 2011 AB2C2 ThCr2Si2 K 18 17.1 3.16 17.1 63 "crystals grown by Sn-flux method. (pellet:Sn = 1:30) - (in alumina crucible) - heat(1090C,24h) - cool to 600C(2.5C/h) FC to RT" Phase diagram of the iron arsenide superconductors Ca(Fe1-xCox)2As2 (0 =< x =< 0.2) 2011 "Leibniz-Institute for Solid State and Materials Research, (IFW)-Dresden, D-01171 Dresden, Germany" "Phys.Rev.B, 83(2011)094523"
152764 PRB083094523 RRR = 12.8 Co-content x shows nominal value. [EDX] = 0.7*[nominal] "Ca(Fe,Co)2As2" Ca1Fe1.75Co0.25As2 Ca 1 Fe 1.75 Co 0.25 As 2 3 2011 AB2C2 ThCr2Si2 K 8.3 14.1 9.2 14.1 41 "crystals grown by Sn-flux method. (pellet:Sn = 1:30) - (in alumina crucible) - heat(1090C,24h) - cool to 600C(2.5C/h) FC to RT" Phase diagram of the iron arsenide superconductors Ca(Fe1-xCox)2As2 (0 =< x =< 0.2) 2011 "Leibniz-Institute for Solid State and Materials Research, (IFW)-Dresden, D-01171 Dresden, Germany" "Phys.Rev.B, 83(2011)094523"
152765 PRB083094523 RRR = 13.9 Co-content x shows nominal value. [EDX] = 0.7*[nominal] "Ca(Fe,Co)2As2" Ca1Fe1.73Co0.27As2 Ca 1 Fe 1.73 Co 0.27 As 2 3 2011 AB2C2 ThCr2Si2 K 8.3 12 8.48 12 22.8 "crystals grown by Sn-flux method. (pellet:Sn = 1:30) - (in alumina crucible) - heat(1090C,24h) - cool to 600C(2.5C/h) FC to RT" Phase diagram of the iron arsenide superconductors Ca(Fe1-xCox)2As2 (0 =< x =< 0.2) 2011 "Leibniz-Institute for Solid State and Materials Research, (IFW)-Dresden, D-01171 Dresden, Germany" "Phys.Rev.B, 83(2011)094523"
152766 PRB083094523 RRR = 12.0 Co-content x shows nominal value. [EDX] = 0.7*[nominal] "Ca(Fe,Co)2As2" Ca1Fe1.7Co0.3As2 Ca 1 Fe 1.7 Co 0.3 As 2 3 2011 AB2C2 ThCr2Si2 K 10.8 10.8 5.5 "crystals grown by Sn-flux method. (pellet:Sn = 1:30) - (in alumina crucible) - heat(1090C,24h) - cool to 600C(2.5C/h) FC to RT" Phase diagram of the iron arsenide superconductors Ca(Fe1-xCox)2As2 (0 =< x =< 0.2) 2011 "Leibniz-Institute for Solid State and Materials Research, (IFW)-Dresden, D-01171 Dresden, Germany" "Phys.Rev.B, 83(2011)094523"
152767 PRB083094523 RRR = 9.84 Co-content x shows nominal value. [EDX] = 0.7*[nominal] "Ca(Fe,Co)2As2" Ca1Fe1.6Co0.4As2 Ca 1 Fe 1.6 Co 0.4 As 2 3 2011 AB2C2 ThCr2Si2 K 2 0 "crystals grown by Sn-flux method. (pellet:Sn = 1:30) - (in alumina crucible) - heat(1090C,24h) - cool to 600C(2.5C/h) FC to RT" Phase diagram of the iron arsenide superconductors Ca(Fe1-xCox)2As2 (0 =< x =< 0.2) 2011 "Leibniz-Institute for Solid State and Materials Research, (IFW)-Dresden, D-01171 Dresden, Germany" "Phys.Rev.B, 83(2011)094523"
152768 PRB083094520 Co-content by WDS. structural transition at T=130 K. "Sr(Fe,Co)2As2" Sr1Fe1.916Co0.084As2 Sr 1 Fe 1.916 Co 0.084 As 2 3 2011 AB2C2 ThCr2Si2 A 3.9313 12.329 K 2 "self-flux method. nominal = (Sr:FeAs:CoAs = 1:(4-4x):4x). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152769 PRB083094520 Co-content by WDS. structural transition at T=105 K. "Sr(Fe,Co)2As2" Sr1Fe1.888Co0.112As2 Sr 1 Fe 1.888 Co 0.112 As 2 3 2011 AB2C2 ThCr2Si2 A 3.9333 12.313 K 2 "self-flux method. nominal = (Sr:FeAs:CoAs = 1:(4-4x):4x). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152770 PRB083094520 Co-content by WDS. structural transition at T=57.6 K. "Sr(Fe,Co)2As2" Sr1Fe1.86Co0.14As2 Sr 1 Fe 1.86 Co 0.14 As 2 3 2011 AB2C2 ThCr2Si2 A 3.9319 12.31 K 10.4 12.7 7.2 7.2 "self-flux method. nominal = (Sr:FeAs:CoAs = 1:(4-4x):4x). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152771 PRB083094520 Co-content by WDS. structural transition at T=28.4 K. "Sr(Fe,Co)2As2" Sr1Fe1.826Co0.174As2 Sr 1 Fe 1.826 Co 0.174 As 2 3 2011 AB2C2 ThCr2Si2 A 3.9339 12.295 K 10.9 13.7 9.5 9.5 "self-flux method. nominal = (Sr:FeAs:CoAs = 1:(4-4x):4x). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152772 PRB083094520 Co-content by WDS. "Sr(Fe,Co)2As2" Sr1Fe1.816Co0.184As2 Sr 1 Fe 1.816 Co 0.184 As 2 3 2011 AB2C2 ThCr2Si2 A 3.9313 12.285 K 13.6 16.5 13.4 13.4 MTC152773 "self-flux method. nominal = (Sr:FeAs:CoAs = 1:(4-4x):4x). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152773 PRB083094520 Co-content by WDS. "Sr(Fe,Co)2As2" Sr1Fe1.792Co0.208As2 Sr 1 Fe 1.792 Co 0.208 As 2 3 2011 AB2C2 ThCr2Si2 A 3.9323 12.283 K 14.7 18 13.9 13.9 MTC152773 "self-flux method. nominal = (Sr:FeAs:CoAs = 1:(4-4x):4x). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152774 PRB083094520 Co-content by WDS. "Sr(Fe,Co)2As2" Sr1Fe1.766Co0.234As2 Sr 1 Fe 1.766 Co 0.234 As 2 3 2011 AB2C2 ThCr2Si2 A 3.9334 12.279 K 16.4 18.7 14.4 14.4 "self-flux method. nominal = (Sr:FeAs:CoAs = 1:(4-4x):4x). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152775 PRB083094520 Co-content by WDS. "Sr(Fe,Co)2As2" Sr1Fe1.752Co0.248As2 Sr 1 Fe 1.752 Co 0.248 As 2 3 2011 AB2C2 ThCr2Si2 A 3.9305 12.266 K 16.6 18.6 13.2 13.2 "self-flux method. nominal = (Sr:FeAs:CoAs = 1:(4-4x):4x). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152776 PRB083094520 Co-content by WDS. "Sr(Fe,Co)2As2" Sr1Fe1.732Co0.268As2 Sr 1 Fe 1.732 Co 0.268 As 2 3 2011 AB2C2 ThCr2Si2 A 3.9336 12.265 K 14.2 16.5 11 11 "self-flux method. nominal = (Sr:FeAs:CoAs = 1:(4-4x):4x). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152777 PRB083094520 Co-content by WDS. "Sr(Fe,Co)2As2" Sr1Fe1.66Co0.34As2 Sr 1 Fe 1.66 Co 0.34 As 2 3 2011 AB2C2 ThCr2Si2 A 3.9356 12.261 K 8.9 11.3 5.56 5.56 "self-flux method. nominal = (Sr:FeAs:CoAs = 1:(4-4x):4x). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152778 PRB083094520 Eu-content by WDS. "Sr(Fe,Co)2As2" Sr1Fe1.76Co0.24As2 Sr 1 Fe 1.76 Co 0.24 As 2 3 2011 AB2C2 ThCr2Si2 A 3.9333 12.278 K 16.6 18.6 13.5 13.5 "self-flux method. nominal = (Sr:Eu:FeAs:CoAs = 1:(1-x):x:3.44:0.56). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152779 PRB083094520 Eu-content by WDS. "(Sr,Eu)(Fe,Co)2As2" Sr0.958Eu0.042Fe1.76Co0.24As2 Sr 0.958 Eu 0.042 Fe 1.76 Co 0.24 As 2 3 2011 AB2C2 ThCr2Si2 A 3.9312 12.274 K 16.2 19 13.3 13.3 "self-flux method. nominal = (Sr:Eu:FeAs:CoAs = 1:(1-x):x:3.44:0.56). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152780 PRB083094520 Eu-content by WDS. "(Sr,Eu)(Fe,Co)2As2" Sr0.85Eu0.15Fe1.76Co0.24As2 Sr 0.85 Eu 0.15 Fe 1.76 Co 0.24 As 2 3 2011 AB2C2 ThCr2Si2 A 3.9314 12.258 K 15.6 17.8 12.5 12.5 MTC152780 "self-flux method. nominal = (Sr:Eu:FeAs:CoAs = 1:(1-x):x:3.44:0.56). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152781 PRB083094520 Eu-content by WDS. "(Sr,Eu)(Fe,Co)2As2" Sr0.81Eu0.19Fe1.76Co0.24As2 Sr 0.81 Eu 0.19 Fe 1.76 Co 0.24 As 2 3 2011 AB2C2 ThCr2Si2 A 3.9302 12.228 K 15.3 16.3 12 12 MTC152780 "self-flux method. nominal = (Sr:Eu:FeAs:CoAs = 1:(1-x):x:3.44:0.56). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152782 PRB083094520 Eu-content by WDS. "(Sr,Eu)(Fe,Co)2As2" Sr0.66Eu0.34Fe1.76Co0.24As2 Sr 0.66 Eu 0.34 Fe 1.76 Co 0.24 As 2 3 2011 AB2C2 ThCr2Si2 A 3.9276 12.189 K 11.6 14.9 9.82 9.82 "self-flux method. nominal = (Sr:Eu:FeAs:CoAs = 1:(1-x):x:3.44:0.56). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152783 PRB083094520 Eu-content by WDS. Tn by SUS. "(Sr,Eu)(Fe,Co)2As2" Sr0.57Eu0.43Fe1.76Co0.24As2 Sr 0.57 Eu 0.43 Fe 1.76 Co 0.24 As 2 3 2011 3.52 AB2C2 ThCr2Si2 A 3.9252 12.168 K 11.7 13.5 8.78 8.78 "self-flux method. nominal = (Sr:Eu:FeAs:CoAs = 1:(1-x):x:3.44:0.56). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152784 PRB083094520 Eu-content by WDS. Tn by SUS. "(Sr,Eu)(Fe,Co)2As2" Sr0.5Eu0.5Fe1.76Co0.24As2 Sr 0.5 Eu 0.5 Fe 1.76 Co 0.24 As 2 3 2011 4.51 AB2C2 ThCr2Si2 A 3.9258 12.16 K 10.2 15.3 8.45 8.45 "self-flux method. nominal = (Sr:Eu:FeAs:CoAs = 1:(1-x):x:3.44:0.56). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152785 PRB083094520 Eu-content by WDS. Tn by SUS. "(Sr,Eu)(Fe,Co)2As2" Sr0.4Eu0.6Fe1.76Co0.24As2 Sr 0.4 Eu 0.6 Fe 1.76 Co 0.24 As 2 3 2011 6.27 AB2C2 ThCr2Si2 A 3.9243 12.133 K 9.97 13.4 7.97 7.97 "self-flux method. nominal = (Sr:Eu:FeAs:CoAs = 1:(1-x):x:3.44:0.56). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152786 PRB083094520 Eu-content by WDS. Tn by SUS. "(Sr,Eu)(Fe,Co)2As2" Sr0.28Eu0.72Fe1.76Co0.24As2 Sr 0.28 Eu 0.72 Fe 1.76 Co 0.24 As 2 3 2011 9.52 AB2C2 ThCr2Si2 A 3.9258 12.112 K 12.3 12.3 "self-flux method. nominal = (Sr:Eu:FeAs:CoAs = 1:(1-x):x:3.44:0.56). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152787 PRB083094520 Eu-content by WDS. Tn by SUS. "(Sr,Eu)(Fe,Co)2As2" Sr0.15Eu0.85Fe1.76Co0.24As2 Sr 0.15 Eu 0.85 Fe 1.76 Co 0.24 As 2 3 2011 11.8 AB2C2 ThCr2Si2 A 3.9211 12.073 K 2 "self-flux method. nominal = (Sr:Eu:FeAs:CoAs = 1:(1-x):x:3.44:0.56). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152788 PRB083094520 Eu-content by WDS. Tn by SUS. "(Sr,Eu)(Fe,Co)2As2" Sr0.05Eu0.95Fe1.76Co0.24As2 Sr 0.05 Eu 0.95 Fe 1.76 Co 0.24 As 2 3 2011 14.4 AB2C2 ThCr2Si2 A 3.9226 12.047 K 2 "self-flux method. nominal = (Sr:Eu:FeAs:CoAs = 1:(1-x):x:3.44:0.56). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152789 PRB083094520 Eu-content by WDS. Tn by SUS. "Eu(Fe,Co)2As2" Eu1Fe1.76Co0.24As2 Eu 1 Fe 1.76 Co 0.24 As 2 3 2011 16.8 AB2C2 ThCr2Si2 A 3.9194 12.023 K 2 "self-flux method. nominal = (Sr:Eu:FeAs:CoAs = 1:(1-x):x:3.44:0.56). heat(1180C) - slow cool to 1000C, ANN(500C,24h, in Ar)" Phase diagram of superconductivity and antiferromagnetism in single crystals of Sr(Fe1-xCox)2As2 and Sr1-yEuy(Fe0.88Co0.12)2As2 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)094520"
152790 PRB083140508 Energy gap (isotropic) measured by ARPES at near the M point. KxFe2Se2 K0.68Fe1.79Se2 K 0.68 Fe 1.79 Se 2 3 2011 K 32 1 32 meV 9 12 Bridgeman method Common Fermi-surface topology and nodeless superconducting gap of K0.68Fe1.79Se2 and (Tl0.45K0.34)Fe1.84Se2 superconductors revealed via angle-resolved photoemission 2011 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 83(2011)140508"
152791 PRB083140508 Energy gap (isotropic) measured by ARPES at near the M point. "(K,Tl)xFe2Se2" Tl0.45K0.34Fe1.84Se2 Tl 0.45 K 0.34 Fe 1.84 Se 2 3 2011 K 28 1 28 meV 8 12 Bridgeman method Common Fermi-surface topology and nodeless superconducting gap of K0.68Fe1.79Se2 and (Tl0.45K0.34)Fe1.84Se2 superconductors revealed via angle-resolved photoemission 2011 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 83(2011)140508"
152792 PRB083104508 compositions : K0.65Fe1.41Se2.0 by EDX. [penet] measured at T=8K by NMR line broadening. gap by ARPES KxFe2Se2 K0.8Fe2Se2 K 0.8 Fe 2 Se 2 3 2011 K 33 33 A "NMR, 8K" 2900 5.6 12 self-flux method <77>Se NMR investigation of the KxFe2-ySe2 high-Tc superconductor (Tc = 33 K) 2011 "Department of Physics and Astronomy, McMaster University, Hamilton, Ontario L8S 4M1, Canada" "Phys.Rev.B, 83(2011)104508"
152793 CM0224690 "Yb(Ga,Si)2" Yb1Ga1.15Si0.85 Yb 1 Ga 1.15 Si 0.85 1 2010 emu.K/mol 0.0234 -20 AlB2 P6/mmm A 4.1315 4.2378 K 2.6 2.6 MTC152793 "arc-melting - ANN(1073 K,10d, in Ta-foil)" Phase Stability and Superconducting Properties of AlB2-Type YbGaxSi2-x (1.12 =< x =< 1.49) 2010 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba 305-0047, Japan" "Chem.Mater., 22(2010)4690"
152794 ACS1302886 RRR=1.38. Hc2(2.0K) is nearly 3.0 kOe "Yb(Ga,Si)2" Yb1Ga1.1Si0.9 Yb 1 Ga 1.1 Si 0.9 3 2008 emu/mol-Yb 0.0000493 emu.K/mol 0.00901 -4.152 7.336 AlB2 P6/mmm A 4.1275 4.2357 K 2.3 2.4 2.5 0.2 2.4 mOhm.cm 0.219 "Yb(3N),Ga(5N),Si(6N)" "arc-melting(Yb:Ga:Si=1.1:15:0.85) - ANN(1273K, 1h) - cool to 1073 K(0.1 K/min)" Superconductivity in the AlB2-Type Ternary Rare-Earth Silicide YbGa1.1Si0.9 2008 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "J.Am.Chem.Soc., 130(2008)2886"
152795 PRB083104519 RRR=21. gap measured by point contact Andreev reflection. I /n [001] LuNi2B2C Lu1Ni2B2C1 Lu 1 Ni 2 B 2 C 1 3 2011 LuNi2B2C K 16 0.53 16 meV 2.4 3.48 1 "solid state reaction. mixture(Sr,PtAs2,Pt) - (alumina crucible) - (evacuated silica tube) - heat(700C,10h+1100C,24h) - (wrapped in Ta-foil) - heat(700C,10h)" "Superconducting order parameter in nonmagnetic borocarbides RNi2B2C (R =Y, Lu) probed by point-contact Andreev reflection spectroscopy" 2011 "Department of Physics and the Frederick Seitz Materials Research Laboratory, University of Illinois at Urbana-Champaign, Urbana, Illinois 61801, USA" "Phys.Rev.B, 83(2011)104519"
152796 PRB083104519 RRR=21. gap measured by point contact Andreev reflection. I /n [110] LuNi2B2C Lu1Ni2B2C1 Lu 1 Ni 2 B 2 C 1 3 2011 LuNi2B2C K 16.1 0.2 16.1 meV 2.6 3.75 1 "solid state reaction. mixture(Sr,PtAs2,Pt) - (alumina crucible) - (evacuated silica tube) - heat(700C,10h+1100C,24h) - (wrapped in Ta-foil) - heat(700C,10h)" "Superconducting order parameter in nonmagnetic borocarbides RNi2B2C (R =Y, Lu) probed by point-contact Andreev reflection spectroscopy" 2011 "Department of Physics and the Frederick Seitz Materials Research Laboratory, University of Illinois at Urbana-Champaign, Urbana, Illinois 61801, USA" "Phys.Rev.B, 83(2011)104519"
152797 PRB083104519 RRR=20. gap measured by point contact Andreev reflection. I /n [100] LuNi2B2C Lu1Ni2B2C1 Lu 1 Ni 2 B 2 C 1 3 2011 LuNi2B2C K 15 0.5 15 meV 2.3 3.56 1 "solid state reaction. mixture(Sr,PtAs2,Pt) - (alumina crucible) - (evacuated silica tube) - heat(700C,10h+1100C,24h) - (wrapped in Ta-foil) - heat(700C,10h)" "Superconducting order parameter in nonmagnetic borocarbides RNi2B2C (R =Y, Lu) probed by point-contact Andreev reflection spectroscopy" 2011 "Department of Physics and the Frederick Seitz Materials Research Laboratory, University of Illinois at Urbana-Champaign, Urbana, Illinois 61801, USA" "Phys.Rev.B, 83(2011)104519"
152798 PRB083104519 "RRR=26. gap measured by point contact Andreev reflection. I //ab-plane. gap=2.5 meV, (2d/kTc)=3.60 for [001] and 2.7 meV, 3.89 for [001]" LuNi2B2C Lu1Ni2B2C1 Lu 1 Ni 2 B 2 C 1 3 2011 LuNi2B2C K 16.1 0.56 16.1 meV 2.8 4.04 1 "solid state reaction. mixture(Sr,PtAs2,Pt) - (alumina crucible) - (evacuated silica tube) - heat(700C,10h+1100C,24h) - (wrapped in Ta-foil) - heat(700C,10h)" "Superconducting order parameter in nonmagnetic borocarbides RNi2B2C (R =Y, Lu) probed by point-contact Andreev reflection spectroscopy" 2011 "Department of Physics and the Frederick Seitz Materials Research Laboratory, University of Illinois at Urbana-Champaign, Urbana, Illinois 61801, USA" "Phys.Rev.B, 83(2011)104519"
152799 PRB083104519 "RRR=24. gap measured by point contact Andreev reflection. I //ab-plane. gap=2.0 meV, (2d/kTc)=3.00 for [001] and 2.5 meV, 4.04 for [001]" YNi2B2C Y1Ni2B2C1 Y 1 Ni 2 B 2 C 1 3 2011 LuNi2B2C K 15.5 0.15 15.5 meV 2.1 3.15 1 "solid state reaction. mixture(Sr,PtAs2,Pt) - (alumina crucible) - (evacuated silica tube) - heat(700C,10h+1100C,24h) - (wrapped in Ta-foil) - heat(700C,10h)" "Superconducting order parameter in nonmagnetic borocarbides RNi2B2C (R =Y, Lu) probed by point-contact Andreev reflection spectroscopy" 2011 "Department of Physics and the Frederick Seitz Materials Research Laboratory, University of Illinois at Urbana-Champaign, Urbana, Illinois 61801, USA" "Phys.Rev.B, 83(2011)104519"
152800 JPS079123710 T = 470 K. (dC/gamma*Tc) = 1.67 SrPt2As2 Sr1Pt2As2 Sr 1 Pt 2 As 2 1 2010 AB2C2 CaBe2Ge2 P4/nmm A 4.46 4.51 9.81 K 5.2 5.7 0.4 5.45 T "resistivity, WHH" 2.5 T/K "resistivity, 0.5Rn" 0.68 MHC152800 A from Hc2 115 MSP152800 mJ/mol.K2 9.72 SP-heat 211 SP-heat Coexistence of Superconductivity and Charge Density Wave in SrPt2As2 2010 "Department of Physics, Faculty of Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 79(2010)123710"
152801 PRB083144525 RRR=1.35. GL = 83.14. (2d/kTc) = 3.67 from SP. (dC/gamma*Tc) = 1.86. e-ph coupling = 0.73. thermodynamic Hc(0) = 0.13 T. Hc2(0) = 14.04 T using WHH approx. Nb1-xRex Nb0.18Re0.82 Nb 0.18 Re 0.82 1 2011 alpha-Mn I43m 217 A 9.6293 K 8.75 8.75 Oe "M-H curve,parabollic" 55.67 T "resistivity, 0.5Rn,emperical eq." 17.3 T/K "resistivity, 0.5Rn" 2.31 MHC152801 A from Hc2 43.6 A "from Hc1, Hc" 3625 mJ/mol.K2 53.5 SP-heat 383 SP-heat uOhm.cm 189 189 250 "Nb(3N),Re(5N)" arc-melting Physical properties of the noncentrosymmetric superconductor Nb0.18Re0.82 2011 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana 70803, USA" "Phys.Rev.B, 83(2011)144525"
152802 PRB083144511 "2*2*0.5 mm3 for SP. a(H=0) =0.394, a(H=9T)=1.4 mJ/mol.K2, b=1.018 mJ/mol.K4, c=0.003 mJ/mol.K6, using C=a(H) + bT^3 + cT^5. (dC/Tc) = 11.6 mJ/mol.K2" KxFe2Se2 K0.8Fe2Se2 K 0.8 Fe 2 Se 2 3 2011 K 32 32 mJ/mol.K2 6 SP-heat 212 SP-heat flux method Nodeless superconductivity of single-crystalline KxFe2-ySe2 revealed by the low-temperature specific heat 2011 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 83(2011)144511"
152803 PRB083144510 uniaxial (//c-axis) pressure effect CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2011 ABC5 HoCoGa5 K 2.325 2.325 MTC152803 K/GPa 0.17 "flux method. (Ce,Co,excess In) - (alumina crucible, in evacuated quartz tube) - heat(1150C) - slow cool to 450C" Nonlinear effect of uniaxial pressure on superconductivity in CeCoIn5 2011 "Physics Department, University of California, Davis, Davis, California 95616, USA" "Phys.Rev.B, 83(2011)144510"
152804 PRB083140504 "P-induced SC. ambient-P phase(I, II), high-P phase (III,IV). (dTc/dP) = +0.50(I), -0.13 (II), +1.37 (III), -0.18 (IV) K/GPa. Hall const. measured at 30K, H=5T. Tc(max) = 9.5K(13.6GPa)" Bi2Te3 Bi2Te3 Bi 2 Te 3 3 2011 K 9.5 0 9.5 MTC152804 K/GPa 0.5 MHC152804 m3/C 5 MRH152804 "self-flux method. stoichiometric(Bi,Te) - (alumina crucible, in quatz tube) - heat(1000C,12h) - slow cool to500C over 100h - cool to RT" Phase diagram of a pressure-induced superconducting state and its relation to the Hall coefficient of Bi2Te3 single crystals 2011 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 83(2011)140504"
152805 PRB083115131 La3Ni2B2N3 La3Ni2B2N2.7 La 3 Ni 2 B 2 N 2.7 1 2011 emu/mol 0.0002 emu.K/mol 0.004 A2B2C3D3 La3Ni2B2N3 I4/mmm A 3.7184 20.539 borocarbide K 12.5 13.2 12.5 10 mJ/mol.K2 26 SP-heat 329 SP-heat "inductive levitation melting. 1st(Ni+B, in Ar) - 2nd(La+Ce, in vac and with NiB) - 3rd((La,Ce)3Ni2b2, in Ar/La atmosphere) - ANN(1100C,1w, in vac)" Anderson lattice in the intermediate valence compound Ce3Ni2B2N3-z 2011 "Institut fur Festkorperphysik, Technische Universitat Wien, A-1040 Wien, Austria" "Phys.Rev.B, 83(2011)115131"
152806 PRB083115131 (dTc/dx) = -8.9 K/mol-Ce. "(La,Ce)3Ni2B2N3" La2.95Ce0.05Ni2B2N2.7 La 2.95 Ce 0.05 Ni 2 B 2 N 2.7 1 2011 A2B2C3D3 La3Ni2B2N3 I4/mmm A 3.7165 20.542 borocarbide K 10.2 10.2 "inductive levitation melting. 1st(Ni+B, in Ar) - 2nd(La+Ce, in vac and with NiB) - 3rd((La,Ce)3Ni2b2, in Ar/La atmosphere) - ANN(1100C,1w, in vac)" Anderson lattice in the intermediate valence compound Ce3Ni2B2N3-z 2011 "Institut fur Festkorperphysik, Technische Universitat Wien, A-1040 Wien, Austria" "Phys.Rev.B, 83(2011)115131"
152807 PRB083115131 "(La,Ce)3Ni2B2N3" La2.9Ce0.1Ni2B2N2.7 La 2.9 Ce 0.1 Ni 2 B 2 N 2.7 1 2011 A2B2C3D3 La3Ni2B2N3 I4/mmm A 3.7132 20.544 borocarbide K 4.9 4.9 "inductive levitation melting. 1st(Ni+B, in Ar) - 2nd(La+Ce, in vac and with NiB) - 3rd((La,Ce)3Ni2b2, in Ar/La atmosphere) - ANN(1100C,1w, in vac)" Anderson lattice in the intermediate valence compound Ce3Ni2B2N3-z 2011 "Institut fur Festkorperphysik, Technische Universitat Wien, A-1040 Wien, Austria" "Phys.Rev.B, 83(2011)115131"
152808 PRB083115131 "(La,Ce)3Ni2B2N3" La2.85Ce0.15Ni2B2N2.7 La 2.85 Ce 0.15 Ni 2 B 2 N 2.7 1 2011 A2B2C3D3 La3Ni2B2N3 I4/mmm A 3.7108 20.545 borocarbide K 0.35 "inductive levitation melting. 1st(Ni+B, in Ar) - 2nd(La+Ce, in vac and with NiB) - 3rd((La,Ce)3Ni2b2, in Ar/La atmosphere) - ANN(1100C,1w, in vac)" Anderson lattice in the intermediate valence compound Ce3Ni2B2N3-z 2011 "Institut fur Festkorperphysik, Technische Universitat Wien, A-1040 Wien, Austria" "Phys.Rev.B, 83(2011)115131"
152809 PRB083115131 lattice term in SP (beta) = 0.36 mJ/mol.K4 Ce3Ni2B2N3 Ce3Ni2B2N2.7 Ce 3 Ni 2 B 2 N 2.7 1 2011 emu/mol 0.0016 emu.K/mol 0.009 A2B2C3D3 La3Ni2B2N3 I4/mmm A 3.576 20.263 borocarbide K 0.35 mJ/mol.K2 54 SP-heat 378 SP-heat uOhm.cm 17.6 "inductive levitation melting. 1st(Ni+B, in Ar) - 2nd(La+Ce, in vac and with NiB) - 3rd((La,Ce)3Ni2b2, in Ar/La atmosphere) - ANN(1100C,1w, in vac)" Anderson lattice in the intermediate valence compound Ce3Ni2B2N3-z 2011 "Institut fur Festkorperphysik, Technische Universitat Wien, A-1040 Wien, Austria" "Phys.Rev.B, 83(2011)115131"
152810 PRB05207428 impurity phase < 2%. main impurity = CeB2C2 "(Y,Ce)Ni2B2C" Y0.95Ce0.05Ni2B2C1 Y 0.95 Ce 0.05 Ni 2 B 2 C 1 1 1995 ABC2D2 LuNi2B2C I4/mmm borocarbide K 13.8 13.8 "arc-melting. 1st melting(Ce(Y)+Ni+B) , then C was added to (Ce(Y)+Ni+B). final ANN(1050C,4d, in vac)" "Intermediate valence of Ce in y1-xCexNi2B2C (x=0, 0.05, 0.1, 0.25, 0.5, and 1)" 1995 "CERS, Meudon, France" "Phys.Rev.B, 83(1995)7428"
152811 PRB05207428 impurity phase < 2%. main impurity = CeB2C2 "(Y,Ce)Ni2B2C" Y0.9Ce0.1Ni2B2C1 Y 0.9 Ce 0.1 Ni 2 B 2 C 1 1 1995 ABC2D2 LuNi2B2C I4/mmm borocarbide K 11.9 11.9 "arc-melting. 1st melting(Ce(Y)+Ni+B) , then C was added to (Ce(Y)+Ni+B). final ANN(1050C,4d, in vac)" "Intermediate valence of Ce in y1-xCexNi2B2C (x=0, 0.05, 0.1, 0.25, 0.5, and 1)" 1995 "CERS, Meudon, France" "Phys.Rev.B, 83(1995)7428"
152812 PRB05207428 impurity phase < 2%. main impurity = CeB2C2 "(Y,Ce)Ni2B2C" Y0.75Ce0.25Ni2B2C1 Y 0.75 Ce 0.25 Ni 2 B 2 C 1 1 1995 ABC2D2 LuNi2B2C I4/mmm borocarbide K 5 "arc-melting. 1st melting(Ce(Y)+Ni+B) , then C was added to (Ce(Y)+Ni+B). final ANN(1050C,4d, in vac)" "Intermediate valence of Ce in y1-xCexNi2B2C (x=0, 0.05, 0.1, 0.25, 0.5, and 1)" 1995 "CERS, Meudon, France" "Phys.Rev.B, 83(1995)7428"
152813 PRB05207428 impurity phase < 2%. main impurity = CeB2C2 "(Y,Ce)Ni2B2C" Y0.5Ce0.5Ni2B2C1 Y 0.5 Ce 0.5 Ni 2 B 2 C 1 1 1995 ABC2D2 LuNi2B2C I4/mmm borocarbide K 5 "arc-melting. 1st melting(Ce(Y)+Ni+B) , then C was added to (Ce(Y)+Ni+B). final ANN(1050C,4d, in vac)" "Intermediate valence of Ce in y1-xCexNi2B2C (x=0, 0.05, 0.1, 0.25, 0.5, and 1)" 1995 "CERS, Meudon, France" "Phys.Rev.B, 83(1995)7428"
152814 PRB05207428 impurity phase < 2%. main impurity = CeB2C2 CeNi2B2C Ce1Ni2B2C1 Ce 1 Ni 2 B 2 C 1 1 1995 emu/mol 0.00069 ABC2D2 LuNi2B2C I4/mmm A 3.637 10.224 borocarbide K 5 "arc-melting. 1st melting(Ce(Y)+Ni+B) , then C was added to (Ce(Y)+Ni+B). final ANN(1050C,4d, in vac)" "Intermediate valence of Ce in y1-xCexNi2B2C (x=0, 0.05, 0.1, 0.25, 0.5, and 1)" 1995 "CERS, Meudon, France" "Phys.Rev.B, 83(1995)7428"
152815 PHC3040184 impurity phase < 6%. main impurity = CeB2C2 CeNi2B2C Ce1Ni2B2C1 Ce 1 Ni 2 B 2 C 1 1 1998 ABC2D2 LuNi2B2C I4/mmm A 3.637 10.226 borocarbide K 0.1 0.1 mJ/mol.K 3 mJ/mol.K2 25 SP-heat arc-melting Superconductivity in the intermediate-valence CeNi2B2C 1998 "IF-UFRJ, CxP68-528, CEP21945-970, Riode Janeiro, Brazil" "Physica C,304(1998)184-190"
152816 PHC3040184 impurity phase < 6%. main impurity = CeB2C2 CeCo2B2C Ce1Co2B2C1 Ce 1 Co 2 B 2 C 1 1 1998 ABC2D2 LuNi2B2C I4/mmm A 3.581 10.249 borocarbide K 0.1 mJ/mol.K2 12 SP-heat arc-melting Superconductivity in the intermediate-valence CeNi2B2C 1998 "IF-UFRJ, CxP68-528, CEP21945-970, Riode Janeiro, Brazil" "Physica C,304(1998)184-190"
152817 PHC3040184 impurity phase < 6%. main impurity = LaB2C2 LaNi2B2C La1Ni2B2C1 La 1 Ni 2 B 2 C 1 1 1998 ABC2D2 LuNi2B2C I4/mmm A 3.801 9.861 borocarbide K 0.1 mJ/mol.K2 8 SP-heat arc-melting Superconductivity in the intermediate-valence CeNi2B2C 1998 "IF-UFRJ, CxP68-528, CEP21945-970, Riode Janeiro, Brazil" "Physica C,304(1998)184-190"
152818 PRB083140501 sample is the compacted(5 kbar) nanostructured Bi3Ni. [cohere] calculated usind d=1nm. M-H loop shows FM + SC. Bi3Ni Bi3Ni1 Bi 3 Ni 1 2011 AB3 K 3.85 3.85 T "resistivity, 0.5Rn,emperical eq." 11 MHC152818 A "from Hc2, d=1nm" using Bi12Ni4I3 Structure-induced coexistence of ferromagnetic and superconducting states of single-phase Bi3Ni seen via magnetization and resistance measurements 2011 "Dresden High Magnetic Field Laboratory (HLD), Helmholtz-Zentrum Dresden Rossendorf, D-01328 Dresden, Germany" "Phys.Rev.B, 83(2011)140501"
152819 PRB083134521 "compositions by EDS. From SP measurements, two gaps (2D/kTc) = 3.92 and 5.84 (DB) are obtained. (dC/Tc) = 51.0mJ/mol.K2. (dC/gamma*Tc) = 2.11" "Fe(Te,Se)" Fe1Te0.57Se0.43 Fe 1 Te 0.57 Se 0.43 2011 AB P4/nmm K 15 14 1 15 5.84 14 mJ/mol.K2 26.6 SP-heat flux method Calorimetric evidence of strong-coupling multiband superconductivity in Fe(Te0.57Se0.43) single crystal 2011 "Department of Physics and Engineering Physics, Tulane University, New Orleans, Louisiana, 70118, USA" "Phys.Rev.B, 83(2011)134521"
152820 PRB083184507 "compositions : nominal values. Tc = 3.2 - 7 K, for 1.0 < x < 2.5 in LixB12." LixB12 B12Li2.5 B 12 Li 2.5 2011 rhombohedral K 6.62 6.62 "vapor diffusion process in Ta or Mo tube. Raw alpha-B refined by ANN(amorphous-B, 1200C, 50h)" Superconductivity in Li-doped alpha-rhombohedral boron 2011 "Department of Advanced Materials Science, The University of Tokyo, Japan" "Phys.Rev.B, 83(2011)184507"
152821 PRB083184507 "compositions : nominal values. Tc = 3.2 - 7 K, for 1.0 < x < 2.5 in LixB12." LixB12 B12Li1.7 B 12 Li 1.7 2011 rhombohedral K 7.05 7.05 2.76 "vapor diffusion process in Ta or Mo tube. Raw alpha-B refined by ANN(amorphous-B, 1200C, 50h)" Superconductivity in Li-doped alpha-rhombohedral boron 2011 "Department of Advanced Materials Science, The University of Tokyo, Japan" "Phys.Rev.B, 83(2011)184507"
152822 PRL106117602 AFM confirmed by SP-heat. AFM order observed by muon-SR below Tc. CsxFe2Se2 Cs0.8Fe2Se1.96 Cs 0.8 Fe 2 Se 1.96 3 2011 478.5 AB2C2 ThCr2Si2 K 29.6 29.6 29.6 Bridgman method Coexistence of Magnetism and Superconductivity in the Iron-Based Compound Cs0.8(FeSe0.98)2 2011 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.Lett., 106(2011)117602"
152823 JPS080014712 "Ca(n+1)M(n)Fe2As2O(3n-1) series, n=3" "Ca4(Sc,Ti)3Fe2As2Oz" Ca4Sc2.01Ti0.99Fe2As2Oz Ca 4 Sc 2.01 Ti 0.99 Fe 2 As 2 O z 2011 A 3.922 Ca-4322 K 28.4 34.8 31.6 TC152823 solid state reaction Pressure Dependence of Superconducting Transition Temperature on Perovskite-Type Fe-Based Superconductors and NMR Study of Sr2VFeAsO3 2011 "Department of Physics, Kobe University, Kobe 657-8501, Japan" "J.Phys.Soc.Jpn, 80(2011)014712"
152824 JPS080014712 "Ca(n+1)M(n)Fe2As2O(3n-1) series, n=4" "Ca5(Sc,Ti)4Fe2As2Oz" Ca5Sc2Ti2Fe2As2Oz Ca 5 Sc 2 Ti 2 Fe 2 As 2 O z 2011 A 3.902 Ca-5422 K 31.4 41.3 36.35 TC152824 solid state reaction Pressure Dependence of Superconducting Transition Temperature on Perovskite-Type Fe-Based Superconductors and NMR Study of Sr2VFeAsO3 2011 "Department of Physics, Kobe University, Kobe 657-8501, Japan" "J.Phys.Soc.Jpn, 80(2011)014712"
152825 JPS080014712 "Ca(n+1)M(n)Fe2As2O(3n-1) series, n=5" "Ca6(Sc,Ti)5Fe2As2Oz" Ca6Sc2Ti3Fe2As2Oz Ca 6 Sc 2 Ti 3 Fe 2 As 2 O z 2011 A 3.884 Ca-6522 K 29.4 43.3 36.35 TC152825 solid state reaction Pressure Dependence of Superconducting Transition Temperature on Perovskite-Type Fe-Based Superconductors and NMR Study of Sr2VFeAsO3 2011 "Department of Physics, Kobe University, Kobe 657-8501, Japan" "J.Phys.Soc.Jpn, 80(2011)014712"
152826 JPS080014712 "Ca(n+1)M(n)Fe2As2O(3n-1) series, n=3" "Ca4(Mg,Ti)3Fe2As2Oz" Ca4Mg0.75Ti1.25Fe2As2Oz Ca 4 Mg 0.75 Ti 1.25 Fe 2 As 2 O z 2011 A 3.877 Ca-4322 K 41.8 47.3 44.55 TC152826 solid state reaction Pressure Dependence of Superconducting Transition Temperature on Perovskite-Type Fe-Based Superconductors and NMR Study of Sr2VFeAsO3 2011 "Department of Physics, Kobe University, Kobe 657-8501, Japan" "J.Phys.Soc.Jpn, 80(2011)014712"
152827 JPS080014712 High-Tc phase Sr2VFeAsO3 Sr2V1Fe1As1O3 Sr 2 V 1 Fe 1 As 1 O 3 2011 21113 A 3.93 K 36.4 36.4 TC152827 solid state reaction Pressure Dependence of Superconducting Transition Temperature on Perovskite-Type Fe-Based Superconductors and NMR Study of Sr2VFeAsO3 2011 "Department of Physics, Kobe University, Kobe 657-8501, Japan" "J.Phys.Soc.Jpn, 80(2011)014712"
152828 JPS080014712 Low-Tc phase Sr2VFeAsO3 Sr2V1Fe1As1O3 Sr 2 V 1 Fe 1 As 1 O 3 2011 21113 A 3.93 K 26 26 TC152828 solid state reaction Pressure Dependence of Superconducting Transition Temperature on Perovskite-Type Fe-Based Superconductors and NMR Study of Sr2VFeAsO3 2011 "Department of Physics, Kobe University, Kobe 657-8501, Japan" "J.Phys.Soc.Jpn, 80(2011)014712"
152829 JPS080014712 "Sr2(Mg,Ti)FeAsO3" Sr2Mg0.3Ti0.7Fe1As1O3 Sr 2 Mg 0.3 Ti 0.7 Fe 1 As 1 O 3 2011 21113 A 3.936 K 36.7 36.7 TC152829 solid state reaction Pressure Dependence of Superconducting Transition Temperature on Perovskite-Type Fe-Based Superconductors and NMR Study of Sr2VFeAsO3 2011 "Department of Physics, Kobe University, Kobe 657-8501, Japan" "J.Phys.Soc.Jpn, 80(2011)014712"
152830 JPS080014712 "Sr2(Mg,Ti)(Fe,Co)AsO3" Sr2Mg0.5Ti0.5Fe0.95Co0.05As1O3 Sr 2 Mg 0.5 Ti 0.5 Fe 0.95 Co 0.05 As 1 O 3 2011 21113 K 26.2 26.2 TC152830 solid state reaction Pressure Dependence of Superconducting Transition Temperature on Perovskite-Type Fe-Based Superconductors and NMR Study of Sr2VFeAsO3 2011 "Department of Physics, Kobe University, Kobe 657-8501, Japan" "J.Phys.Soc.Jpn, 80(2011)014712"
152831 JPS080023715 "RRR=40 (RRR=2.2 for P=4.0 GPa). Tc shows four different phases (See [TC152831], critical-p - 2.7 3.7 4.2 GPa). Fig-[HC152831] shows Hc2(T) for every phases." Cd2Re2O7 Cd2Re2O7 Cd 2 Re 2 O 7 2011 A2B2C7 pyroclore Fd3[-]m K 0.97 0.97 TC152831 T "resistivity, extrapolation" 0.29 HC152831 A from Hc2 370 Superconductivity of Heavy Carriers in the Pressure-Induced Phases of Cd2Re2O7 2011 "Graduate School of Natural Science and Technology, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 80(2011)023715"
152832 JPS080024702 impurity (WSi2) < 20%.). RRR=12. GL = 8. thermodynamic-Hc = 790 Oe. (dTc/gamma*Tc) = 1.49. SP-heat corrected by subtracted ones of WSi2(impurity phase). W5SiB2 W5Si1B2 W 5 Si 1 B 2 1 2011 AB2C5 Mo5siB2 I4/mcm 140 A 6.032 11.02 T2-phase K 5.8 5.8 5.8 25 Oe "M-H curves, T2 approx.." 120 T "resistivity, extrapolation" 0.52 MHC152832 A from Hc2 252 A from Hc1 2110 mJ/mol.K2 12.8 SP-heat 470 "solid state reaction. mixture - pellet - heat(1300C,30h, in Ar)" Superconductivity in W5SiB2 with the T2 Phase Structure 2011 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 229-8558, Japan" "J.Phys.Soc.Jpn, 80(2011)024702"
152833 JAP0502863 high-temperaturephase. impurity phase(< 3%) beta-Nb5Si3 Nb5Si3 Nb 5 Si 3 1979 A3B5 W5Si3 A 10.0289 5.0698 K 0.69 0.25 0.69 T/K resistivity 0.067 MHC152833 "Nb(3N),Si(5N)" "arc-melting, then Q to RT" Superconductivity in Nb5Si3 1979 "Naval Research Laboratory, Washington, D.C. 20375" "J.Appl.Phys., 50(1979)2863"
152834 JAP0502863 low-temperature phase. not SC. alpha-Nb5Si3 Nb5Si3 Nb 5 Si 3 1979 A3B5 Cr5B3 A 6.5698 11.8877 K 0.01 "Nb(3N),Si(5N)" "arc-melting, then ANN(1600C)" Superconductivity in Nb5Si3 1979 "Naval Research Laboratory, Washington, D.C. 20375" "J.Appl.Phys., 50(1979)2863"
152835 JPCONF105052106 (dC/gamma*Tc) = 1.40. W5Si3 Si3W5 Si 3 W 5 3 2009 A3B5 W5Si3 I4/mcm 140 K 2.6 2.7 2.8 2.7 2.7 Oe M-H curve 33 1.8 T "resistivity, WHH" 0.52 T/K resistivity 0.27 MHC152835 A from Hc2 250 A "from Hc1, T=1.8 K." 4500 "W(4N), Si(5N)" synthesized using tetra-arc furnace. Superconductivity in transition metal-silicide W5Si3 2009 "Department of Physics and Mathematics, Aoyama Gakuin University, Fuchinobe, Kanagawa, Japan" "J.Phys.:Conf.Ser., 150(2009)052106"
152836 JPS080024711 P-induced SC. P = 7 GPa. CeRhGe2 Ce1Ge2Rh1 Ce 1 Ge 2 Rh 1 3 2011 myu-B/mol 2.41 -26.3 7.6 ABC2 CeNiSi2 A 4.3335 17.115 4.3196 K 0.45 0 0.45 MTC152836 mJ/mol.K2 70 SP-heat Bridgman method Magnetic and Superconducting Properties of CeRhGe2 and CePtSi2 2011 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 80(2011)024711"
152837 JPS080024711 "P-induced SC. P = 7 GPa. (Tc, -(dTc/dT), Hc2(0)) are (0.14, 35, 1.1), (0.16, 24, 2.2) and (0.15, 8.9, 0.3) in (K, T/K, T) unit for H// a-, b-, c-axis, respectively." CePtSi2 Ce1Pt1Si2 Ce 1 Pt 1 Si 2 3 2011 1.9 ABC2 CeNiSi2 K 0.14 0 0.14 MTC152837 T resistivity 2.2 0.3 T/K resistivity 24 8.9 MHC152837 mJ/mol.K2 800 SP-heat Czochralski method from CePt1.1Si2.2 using tetra-arc furnace Magnetic and Superconducting Properties of CeRhGe2 and CePtSi2 2011 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 80(2011)024711"
152838 EPL09427009 "Fe-site vacancy. not SC. AFM at 365 K," TlFezSe2 Tl1Fe1.3Se2 Tl 1 Fe 1.3 Se 2 3 2011 365 AB2C2 ThCr2Si2 I4/mmm K 0 "Tl2Se,K2Se,Fe,Se" Bridgeman method. mixture - (alumina crucible) - (sealed in evacuated quartz) - slow heat to 950C & hold for 6h - cool to 700C(3C/h) - FC to RT "Fe-based superconductivity with Tc = 31 K bordering an antiferromagnetic insulator in (TI,K) FexSe2" 2011 "Department of Physics, Zhejiang University - Hangzhou 310027, China" "Europhys.Lett.,94(2011)27009"
152839 EPL09427009 Fe-site vacancy. SC volume fraction < 1%. TlFezSe2 Tl1Fe1.7Se2 Tl 1 Fe 1.7 Se 2 3 2011 AB2C2 ThCr2Si2 I4/mmm K 20 22.4 22.4 1 "Tl2Se,K2Se,Fe,Se" Bridgeman method. mixture - (alumina crucible) - (sealed in evacuated quartz) - slow heat to 950C & hold for 6h - cool to 700C(3C/h) - FC to RT "Fe-based superconductivity with Tc = 31 K bordering an antiferromagnetic insulator in (TI,K) FexSe2" 2011 "Department of Physics, Zhejiang University - Hangzhou 310027, China" "Europhys.Lett.,94(2011)27009"
152840 EPL09427009 Fe-site vacancy. sharp transition in R (T). "(Tl,K)Fe2Se2" Tl0.63K0.37Fe1.78Se2 Tl 0.63 K 0.37 Fe 1.78 Se 2 3 2011 AB2C2 ThCr2Si2 I4/mmm K 28.4 28.4 MTC152840 "Tl2Se,K2Se,Fe,Se" Bridgeman method. mixture - (alumina crucible) - (sealed in evacuated quartz) - slow heat to 950C & hold for 6h - cool to 700C(3C/h) - FC to RT "Fe-based superconductivity with Tc = 31 K bordering an antiferromagnetic insulator in (TI,K) FexSe2" 2011 "Department of Physics, Zhejiang University - Hangzhou 310027, China" "Europhys.Lett.,94(2011)27009"
152841 EPL09427009 Fe-site vacancy. two SC transition in R(T) "(Tl,K)Fe2Se2" Tl0.75K0.25Fe1.84Se2 Tl 0.75 K 0.25 Fe 1.84 Se 2 3 2011 AB2C2 ThCr2Si2 I4/mmm K 29.8 33 29.8 MTC152840 "Tl2Se,K2Se,Fe,Se" Bridgeman method. mixture - (alumina crucible) - (sealed in evacuated quartz) - slow heat to 950C & hold for 6h - cool to 700C(3C/h) - FC to RT "Fe-based superconductivity with Tc = 31 K bordering an antiferromagnetic insulator in (TI,K) FexSe2" 2011 "Department of Physics, Zhejiang University - Hangzhou 310027, China" "Europhys.Lett.,94(2011)27009"
152842 EPL09427009 Fe-site vacancy. three SC transition in R(T) "(Tl,K)Fe2Se2" Tl0.54K0.46Fe1.88Se2 Tl 0.54 K 0.46 Fe 1.88 Se 2 3 2011 AB2C2 ThCr2Si2 I4/mmm K 30.4 40.4 30.4 MTC152840 "Tl2Se,K2Se,Fe,Se" Bridgeman method. mixture - (alumina crucible) - (sealed in evacuated quartz) - slow heat to 950C & hold for 6h - cool to 700C(3C/h) - FC to RT "Fe-based superconductivity with Tc = 31 K bordering an antiferromagnetic insulator in (TI,K) FexSe2" 2011 "Department of Physics, Zhejiang University - Hangzhou 310027, China" "Europhys.Lett.,94(2011)27009"
152843 PRB083132502 RRR = 42. nominal : K0.8Fe2Se2. compositions by ICP. R(T) shows maximum at about 140 K. Anisotropy(Hc2) = 3.3 KxFe2Se2 K0.82Fe1.63Se2 K 0.82 Fe 1.63 Se 2 3 2011 AB2C2 ThCr2Si2 I4/mmm K 31.5 32 32 100 T "resistivity, WHH, R=0.5Rn" 159 48 T/K "resistivity, R=0.5Rn" 7.2 2.17 MHC152843 Bridgeman method. mixture - (alumina crucible) - (sealed in evacuated quartz) - slow heat to 1050 C & hold for 2h - cool to 750 C(60-200 h) - FC to RT Effect of varying iron content on the transport properties of the potassium-intercalated iron selenide KxFe2-ySe2 2011 "Department of Physics, Renmin University of China, 100872 Beijing, People's Republic of China" "Phys.Rev.B, 83(2011)132502"
152844 PRB083132502 "nominal: K0.8Fe2Se2. Two step transition in R(T), Tc(on) = 44K and 38 K." KxFe2Se2 K0.8Fe2Se2 K 0.8 Fe 2 Se 2 3 2011 AB2C2 ThCr2Si2 I4/mmm K 22 44 33 Bridgeman method. mixture - (alumina crucible) - (sealed in evacuated quartz) - slow heat to 1050 C & hold for 2h - cool to 750 C(60-200 h) - FC to RT Effect of varying iron content on the transport properties of the potassium-intercalated iron selenide KxFe2-ySe2 2011 "Department of Physics, Renmin University of China, 100872 Beijing, People's Republic of China" "Phys.Rev.B, 83(2011)132502"
152845 PRB083094519 SC properties derived from magnetization measurements. Anisotropy factor = 1.8 "(Ba,K)Fe2As2" Ba0.72K0.28Fe2As2 Ba 0.72 K 0.28 Fe 2 As 2 3 2011 AB2C2 ThCr2Si2 K 33.1 33.1 T/K magnetization 4.2 A 15 8.3 Observation of anisotropic diamagnetism above the superconducting transition in iron pnictide Ba1-xKxFe2As2 single crystals due to thermodynamic fluctuations 2011 "Laboratorio de Baixas Temperaturas e Superconductividade (LBTS), Facultade de Fisica, Universidade de Santiago de Compostela, E-15782 Santiago de Compostela, Spain" "Phys.Rev.B, 83(2011)094519"
152846 PRB083174510 "compositions by ICP. A0.8Fe1.6Se2-type (A=K.Rb,Cs). NMR measurements of <77>Se and <87>Rb" "(Tl,Rb)FexSe2" Tl0.47Rb0.34Fe1.63Se2 Tl 0.47 Rb 0.34 Fe 1.63 Se 2 3 2011 AB2C2 ThCr2Si2 K 32 32 Superconducting and normal-state properties of single-crystalline Tl0.47Rb0.34Fe1.63Se2 as seen via <77>Se and <87>Rb NMR 2011 "Department of Physics, Renmin University of China, Beijing 100872, China" "Phys.Rev.B, 83(2011)174510"
152847 PRL106107002 Thermal conductivity THC(K) = measured for various fields. multigaps were analyzed. Lu2Fe3Si5 Lu2Fe3Si5 Lu 2 Fe 3 Si 5 3 2011 A2B3C5 Sc2Fe3Si5 K 6 6 W/K2.m MTHC152847 floating zone method Enhanced Quasiparticle Heat Conduction in the Multigap Superconductor Lu2Fe3Si5 2011 "Department of Physics, Tokyo Institute of Technology, Meguro, Tokyo 152-8551, Japan" "Phys.Rev.Lett., 106(2011)107002"
152848 PRL106156403 [gamma] shows for T=2.3 K CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2011 ABC5 HoCoGa5 K 2.24 2.24 mJ/mol.K 3460 mJ/mol.K2 359 SP-heat In-flux method Correlated Electron State in Ce1-xYbxCoIn5 Stabilized by Cooperative Valence Fluctuations 2011 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.Lett., 106(2011)156403"
152849 PRL106156403 [gamma] shows for T=2.3 K "(Ce,Yb)CoIn5" Ce0.95Yb0.05Co1In5 Ce 0.95 Yb 0.05 Co 1 In 5 3 2011 ABC5 HoCoGa5 K 2.16 2.16 mJ/mol.K 3040 mJ/mol.K2 373 SP-heat In-flux method Correlated Electron State in Ce1-xYbxCoIn5 Stabilized by Cooperative Valence Fluctuations 2011 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.Lett., 106(2011)156403"
152850 PRL106156403 [gamma] shows for T=2.3 K "(Ce,Yb)CoIn5" Ce0.9Yb0.1Co1In5 Ce 0.9 Yb 0.1 Co 1 In 5 3 2011 ABC5 HoCoGa5 K 2.09 2.09 mJ/mol.K 2240 mJ/mol.K2 347 SP-heat In-flux method Correlated Electron State in Ce1-xYbxCoIn5 Stabilized by Cooperative Valence Fluctuations 2011 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.Lett., 106(2011)156403"
152851 PRL106156403 [gamma] shows for T=2.3 K "(Ce,Yb)CoIn5" Ce0.875Yb0.125Co1In5 Ce 0.875 Yb 0.125 Co 1 In 5 3 2011 ABC5 HoCoGa5 K 1.97 1.97 mJ/mol.K 1810 mJ/mol.K2 332 SP-heat In-flux method Correlated Electron State in Ce1-xYbxCoIn5 Stabilized by Cooperative Valence Fluctuations 2011 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.Lett., 106(2011)156403"
152852 PRL106156403 [gamma] shows for T=2.3 K "(Ce,Yb)CoIn5" Ce0.5Yb0.5Co1In5 Ce 0.5 Yb 0.5 Co 1 In 5 3 2011 ABC5 HoCoGa5 K 1.19 1.19 mJ/mol.K 235 mJ/mol.K2 330 SP-heat In-flux method Correlated Electron State in Ce1-xYbxCoIn5 Stabilized by Cooperative Valence Fluctuations 2011 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.Lett., 106(2011)156403"
152853 PRL106156403 [gamma] shows for T=2.3 K "(Ce,Yb)CoIn5" Ce0.225Yb0.775Co1In5 Ce 0.225 Yb 0.775 Co 1 In 5 3 2011 ABC5 HoCoGa5 K 0.4 mJ/mol.K2 140 SP-heat In-flux method Correlated Electron State in Ce1-xYbxCoIn5 Stabilized by Cooperative Valence Fluctuations 2011 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.Lett., 106(2011)156403"
152854 PRB066054534 CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2002 ABC5 HoCoGa5 A 4.613 7.542 K 2.3 2.3 T "resistivity, WHH" 37 17 T/K resistivity 24 11 self flux method Effects of La substitution on the superconducting state of CeCoIn5 2002 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B, 66(2002)054534"
152855 PRB066054534 "(Ce,La)CoIn5" Ce0.98La0.02Co1In5 Ce 0.98 La 0.02 Co 1 In 5 3 2002 ABC5 HoCoGa5 A 4.613 7.551 K 2 2 T "resistivity, WHH" 23.5 11.9 T/K resistivity 17 8.6 MHC152855 self flux method Effects of La substitution on the superconducting state of CeCoIn5 2002 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B, 66(2002)054534"
152856 PRB066054534 "(Ce,La)CoIn5" Ce0.95La0.05Co1In5 Ce 0.95 La 0.05 Co 1 In 5 3 2002 ABC5 HoCoGa5 A 4.614 7.551 K 1.68 1.68 T "resistivity, WHH" 21.4 10.7 T/K resistivity 19 9.5 MHC152856 self flux method Effects of La substitution on the superconducting state of CeCoIn5 2002 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B, 66(2002)054534"
152857 PRB066054534 "(Ce,La)CoIn5" Ce0.925La0.075Co1In5 Ce 0.925 La 0.075 Co 1 In 5 3 2002 ABC5 HoCoGa5 A 4.615 7.551 K 1.31 1.31 T "resistivity, WHH" 18.8 8.9 T/K resistivity 20.7 9.8 MHC152857 self flux method Effects of La substitution on the superconducting state of CeCoIn5 2002 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B, 66(2002)054534"
152858 PRB066054534 "(Ce,La)CoIn5" Ce0.9La0.1Co1In5 Ce 0.9 La 0.1 Co 1 In 5 3 2002 ABC5 HoCoGa5 A 4.615 7.537 K 1.22 1.22 self flux method Effects of La substitution on the superconducting state of CeCoIn5 2002 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B, 66(2002)054534"
152859 PRB066054534 "(Ce,La)CoIn5" Ce0.875La0.125Co1In5 Ce 0.875 La 0.125 Co 1 In 5 3 2002 ABC5 HoCoGa5 A 4.623 7.546 K 0.86 0.86 self flux method Effects of La substitution on the superconducting state of CeCoIn5 2002 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B, 66(2002)054534"
152860 PRB066054534 "(Ce,La)CoIn5" Ce0.85La0.15Co1In5 Ce 0.85 La 0.15 Co 1 In 5 3 2002 ABC5 HoCoGa5 A 4.619 7.563 K 0.78 0.78 T "resistivity, WHH" 12.7 5.5 T/K resistivity 23.6 10.3 MHC152860 self flux method Effects of La substitution on the superconducting state of CeCoIn5 2002 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B, 66(2002)054534"
152861 PRB066054534 "(Ce,La)CoIn5" Ce0.825La0.175Co1In5 Ce 0.825 La 0.175 Co 1 In 5 3 2002 ABC5 HoCoGa5 A 4.619 7.567 K 0.35 self flux method Effects of La substitution on the superconducting state of CeCoIn5 2002 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B, 66(2002)054534"
152862 PRB066054534 LaCoIn5 La1Co1In5 La 1 Co 1 In 5 3 2002 ABC5 HoCoGa5 A 4.638 7.612 K 0.35 self flux method Effects of La substitution on the superconducting state of CeCoIn5 2002 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B, 66(2002)054534"
152863 PRB066054534 "(Ce,Nd)CoIn5" Ce0.95Nd0.05Co1In5 Ce 0.95 Nd 0.05 Co 1 In 5 3 2002 ABC5 HoCoGa5 A 4.601 7.546 K 2 2 self flux method Effects of La substitution on the superconducting state of CeCoIn5 2002 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011" "Phys.Rev.B, 66(2002)054534"
152864 JPS0573289 "P-induced SC. Tc depends on pressurizing path. (A): P increases at RT, (B): P increases at 4.2 K. Tc shows Tc(max) = 7.7 K (P=13 GPa)." Si Si1 Si 1 1988 A K 7.7 0 7.7 MTC152864 "Tc enhancement observed in Si, Ge and GaP under low-temperature pressurizing" 1988 "National Research Institute for Metals, 1-2-1, Sengen, Tsukuba, 305" "J.Phys.Soc.Jpn, 57(1988)3289"
152865 JPS0573289 "P-induced SC. Tc depends on pressurizing path. (A): P increases at RT, (B): P increases at 4.2 K. Tc shows Tc(max) = 5.5 K (P=11GPa)." Ge Ge1 Ge 1 1988 A K 5.5 0 5.5 MTC152865 "Tc enhancement observed in Si, Ge and GaP under low-temperature pressurizing" 1988 "National Research Institute for Metals, 1-2-1, Sengen, Tsukuba, 305" "J.Phys.Soc.Jpn, 57(1988)3289"
152866 JPS0573289 "P-induced SC. Tc depends on pressurizing path. (A): P increases at RT, (B): P increases at 4.2 K. Tc shows Tc(max) = 10.3 K (P=22GPa)." GaP Ga1P1 Ga 1 P 1 1988 AB K 10.3 0 10.3 MTC152866 "Tc enhancement observed in Si, Ge and GaP under low-temperature pressurizing" 1988 "National Research Institute for Metals, 1-2-1, Sengen, Tsukuba, 305" "J.Phys.Soc.Jpn, 57(1988)3289"
152867 JPCONF215012036 P-induced SC. using Bridgman anvil cell. P = 9.0 GPa. Phase II for P > 8GPa(RT) Bi2Te3 Bi2Te3 Bi 2 Te 3 2010 A2B3 A 4.385 30.51 K 3.7 5 0 4.35 MTC152867 Bi2Te3(99.99%) from Kojundo Chem.Lab. New superconducting phase of Bi2Te3 under pressure above 11 GPa 2010 "Graduate School of Science & Technology, Niigata University, Niigata 950-2181,Japan" "J.Phys.Conf.Ser., 215(2010)012036"
152868 PNAS1080024 SC properties at P = 6.1 GPa. Bi2Te3 Bi2Te3 Bi 2 Te 3 3 2010 A2B3 K 2.6 3.2 0 2.9 T "resistivity, WHH" 1.8 MHC152868 Pressure-induced superconductivity in topological parent compound Bi2Te3 2010 "Beijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of Sciences, Beijing 100190" "Proc.Natl,Acad.Sci.USA, 108(2010)24"
152869 PRL102237001 "P-induced SC. Tc, Hc at P=10.7 GPa. Type-I SC, then Hc2 shows Hc. Ge-II for P > 10 Gpa." Ge-II Ge1 Ge 1 3 2009 A beta-Sn K 4.89 4.94 5.07 0 4.94 MTC152869 Oe "resistivity, R=0.9Rn,extrapolation" 300 MHC152869 Pressure-Dependent Metallic and Superconducting Phases in a Germanium Artificial Metal 2009 "Department of Physics and National High Magnetic Field Laboratory, Florida State University, Tallahassee, Florida 32310, USA" "Phys.Rev.Lett., 102(2009)237001"
152870 PCS0720426 as grown. d=1000 A. not SC FeTe-film Fe1Te1 Fe 1 Te 1 4 2011 AB A 3.8358 6.2734 K 1.5 films were grown on STO(100) substrates by pulsed laser depositions SuperconductivityandpropertiesofFeTeOx films 2011 "Department of Physics, University of Connecticut, Storrs, CT06269, USA" "J.Phys.Chem.Solids, 72(2011)426"
152871 PCS0720426 d=1000 A. Annealing in O2. Oxygen incorporated into intersticial sites. nominal Fe valence = +3. O-content not given. FeTe-film Fe1Te1 Fe 1 Te 1 4 2011 AB A 3.7782 6.2835 K 3 3 films were grown on STO(100) substrates by pulsed laser depositions SuperconductivityandpropertiesofFeTeOx films 2011 "Department of Physics, University of Connecticut, Storrs, CT06269, USA" "J.Phys.Chem.Solids, 72(2011)426"
152872 JAP0502863 as grown. beta-Nb5Si3 Nb5Si3 Nb 5 Si 3 1979 A3B5 W5Si3 A 10.0289 5.0698 beta-phase K 0.69 0.25 0.69 T/K 0.067 "Nb(3N),Si(5N)" arc-melting Superconductivity in Nb5Si3 1979 "Naval Research Laboratory, Washington, D.C. 20375" "J.Appl.Phys., 50(1979)2863"
152873 JAP0502863 "ANN(1600C,4h, in vac)" alpha-Nb5Si3 Nb5Si3 Nb 5 Si 3 1979 A3B5 Cr5B3 A 6.5698 11.8877 K 0.01 "Nb(3N),Si(5N)" arc-melting Superconductivity in Nb5Si3 1979 "Naval Research Laboratory, Washington, D.C. 20375" "J.Appl.Phys., 50(1979)2863"
152874 SSC0660181 needle (c-axis long). GL parameter = 2500. Tl2Mo6Se6 Tl2Mo6Se6 Tl 2 Mo 6 Se 6 3 1988 A2B6C6 Tl2Fe6Te6 K 6.5 6.5 Oe 0.095 T 37.5 17.5 1.35 4.2 T/K 0.6 The exotic superconductor Tl2Mo6Se6 investigated by low field magnetization measurements 1988 "Solid State Commun., 66(1988)181"
152875 SSC0330607 needle (c-axis long). 0.1*0.1*5 mm3. Tl2Mo6Se6 Tl2Mo6Se6 Tl 2 Mo 6 Se 6 3 1980 A2B6C6 Tl2Fe6Te6 K 2.6 2.6 T 5.2 0.2 T/K 2.6 0.1 A 2030 78 uOhm.cm 35 220 A new pseudo-one-dimensional superconductor: Tl2Mo6Se6 1980 "Solid State Commun., 33(1980)607"
152876 PCS0720572 Pd-intercalated Bi2Se3. Tc is constant tobe 5.5 K for 0.15 < x < 1.0 in PdxBi2Te3. PdxBi2Te3 Pd0.5Bi2Te3 Pd 0.5 Bi 2 Te 3 2011 K 5.5 5.5 "Bi(5N),Te(5N),Pd(4N)" "single crystal grown by modified Bridgman method. Mixture - heat(800C,16h) - slow cool to 550 C(3d)" Superconductivity and non-metallicity induced by doping the topological insulators Bi2Se3 and Bi2Te3 2011 "Department of Chemistry, Princeton University, NJ 08544, USA" "J.Phys.Chem.Solids, 72(2011)572"
152877 PCS0720597 "Ba(Pb,Bi)O3" Ba1Pb0.75Bi0.25O3 Ba 1 Pb 0.75 Bi 0.25 O 3 2011 BKBO K 12 12 "precursor BaPb0.75-xBi0.25O3 was firstly made, then followed by reaction with HgO inside an evacuated quartz tube." Metal-insulator transition and superconductivity in Hg-doped BaPb0.75Bi0.25O3 2011 "Key Laboratory of Advanced Technologies of Materials(Ministry of Education o f China), Superconductivity R&D Center(SRDC), Mail Stop165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "J.Phys.Chem.Solids, 72(2011)597"
152878 PCS0720597 "Ba(Pb,Hg,Bi)O3" Ba1Pb0.5Hg0.25Bi0.25O3 Ba 1 Pb 0.5 Hg 0.25 Bi 0.25 O 3 2011 BKBO K 2.93 2.93 TC152878 "precursor BaPb0.75-xBi0.25O3 was firstly made, then followed by reaction with HgO inside an evacuated quartz tube." Metal-insulator transition and superconductivity in Hg-doped BaPb0.75Bi0.25O3 2011 "Key Laboratory of Advanced Technologies of Materials(Ministry of Education o f China), Superconductivity R&D Center(SRDC), Mail Stop165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "J.Phys.Chem.Solids, 72(2011)597"
152879 PCS0720597 "Ba(Pb,Hg,Bi)O3" Ba1Pb0.4Hg0.35Bi0.25O3 Ba 1 Pb 0.4 Hg 0.35 Bi 0.25 O 3 2011 BKBO K 9.97 9.97 TC152878 "precursor BaPb0.75-xBi0.25O3 was firstly made, then followed by reaction with HgO inside an evacuated quartz tube." Metal-insulator transition and superconductivity in Hg-doped BaPb0.75Bi0.25O3 2011 "Key Laboratory of Advanced Technologies of Materials(Ministry of Education o f China), Superconductivity R&D Center(SRDC), Mail Stop165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "J.Phys.Chem.Solids, 72(2011)597"
152880 JPS080013704 Tc defined as onset of real part of surface impedance. Two isotropic gaps: LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 2011 ABC PbFCl K 17 17 A surface impedance 4500 meV 2.93 4 7 "self flux method (Li:Fe:As=2:1:2). Mixture - (BN crucible) - (double well quartz tube) - heat (1000C,80h) - cool to RT (1d)" Microwave Surface Impedance Measurements of LiFeAs Single Crystals 2011 "Department of Basic Science, the University of Tokyo, Meguro, Tokyo 153-8902, Japan" "J.Phys.Soc.Jpn, 80(2011)013704"
152881 JPS080013704 "Tc defined as onset of real part of surface impedance. Two isotropic gaps: 2.97 and 1.65 meV, (2d/kTc) = 4.42, and 2.46" LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 2011 ABC PbFCl K 15.6 15.6 A surface impedance 5100 meV 2.97 4.42 7 "self flux method (Li:Fe:As=2:1:2). Mixture - (BN crucible) - (double well quartz tube) - heat (1000C,80h) - cool to RT (1d)" Microwave Surface Impedance Measurements of LiFeAs Single Crystals 2011 "Department of Basic Science, the University of Tokyo, Meguro, Tokyo 153-8902, Japan" "J.Phys.Soc.Jpn, 80(2011)013704"
152882 JPS080013704 "Tc defined as onset of real part of surface impedance. Two isotropic gaps: 2.98 and 1.10 meV, (2d/kTc) = 4.24, and 1.57" LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 2011 ABC PbFCl K 16.3 16.3 A surface impedance 6000 meV 2.98 4.24 7 "self flux method (Li:Fe:As=2:1:2). Mixture - (BN crucible) - (double well quartz tube) - heat (1000C,80h) - cool to RT (1d)" Microwave Surface Impedance Measurements of LiFeAs Single Crystals 2011 "Department of Basic Science, the University of Tokyo, Meguro, Tokyo 153-8902, Japan" "J.Phys.Soc.Jpn, 80(2011)013704"
152883 JPS080013706 Hc2 defined as disappearance of H irreversibility. RRR = 45. Anisotropy (Hc2) = 3.1 at Tc. LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 2011 ABC PbFCl K 16 16 16 T "magnetization, WHH" 47.2 15.3 26.3 15.5 0.3 T/K magnetization 4.43 1.44 MHC152883 A from Hc2 46.4 15 "self flux method (Li:Fe:As=2:1:2). Mixture - (BN crucible) - (double well quartz tube) - heat (1000C,80h) - cool to RT (1d)" Determination of the Upper Critical Field of a Single Crystal LiFeAs: The Magnetic Torque Study up to 35 Tesla 2011 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0003, Japan" "J.Phys.Soc.Jpn, 80(2011)013706"
152884 JPS078063702 RRR = 87. Anisotropy = 5.5 at Tc KFe2As2 K1Fe2As2 K 1 Fe 2 As 2 3 2009 AB2C2 ThCr2Si2 K 2.79 2.79 T "resistivity, extrapolation" 4.47 1.25 T/K resistivity 3.8 0.71 MHC152884 A from Hc2 163 24.5 mJ/mol.K2 51 uOhm.cm 5.6 flux method Resistivity and Upper Critical Field in KFe2As2 Single Crystals 2009 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0003" "J.Phys.Soc.Jpn, 78(2009)063702"
152885 JAC5095216 "(Ce,Th)Pt3Si" Ce0.98Th0.02Pt3Si1 Ce 0.98 Th 0.02 Pt 3 Si 1 1 2011 ABC3 CePt3B P4mm A 4.0781 5.4491 K 0.4 0.4 "arc-melting. ANN(760C,7d in evacuated quartz tube) - Q to water" Effect of Th doping on superconductivity in CePt3Si 2011 "Institute of Physical Chemistry, University of Vienna, Wahringerstr. 42, A-1090 Wien, Austria" "J.Alloys and Compounds, 509(2011)5216"
152886 JAC5095216 "(Ce,Th)Pt3Si" Ce0.96Th0.04Pt3Si1 Ce 0.96 Th 0.04 Pt 3 Si 1 1 2011 ABC3 CePt3B P4mm A 4.0795 5.4484 K 0.07 "arc-melting. ANN(760C,7d in evacuated quartz tube) - Q to water" Effect of Th doping on superconductivity in CePt3Si 2011 "Institute of Physical Chemistry, University of Vienna, Wahringerstr. 42, A-1090 Wien, Austria" "J.Alloys and Compounds, 509(2011)5216"
152887 PRB083172502 RRR = 650. Hc2t) = 7.08(1-t^2) KFe2As2 K1Fe2As2 K 1 Fe 2 As 2 3 2011 AB2C2 ThCr2Si2 K 3.7 3.7 T "SP-onset," 7.1 MHC152887 MSP152887 mJ/mol.K2 101 SP-heat Kas self-flux method.KFe2As2:Kas = 1:6 in alumina crucible - heat (930C) - slow cool to 500 C. Specific heat in KFe2As2 in zero and applied magnetic field 2011 "Department of Physics, University of Florida, Gainesville, Florida 32611, USA" "Phys.Rev.B, 83(2011)172502"
152888 PRB083172502 RRR = 90. KFe2As2 K1Fe2As2 K 1 Fe 2 As 2 3 2011 AB2C2 ThCr2Si2 K 3.1 3.1 T "SP-onset," 4.5 MSP152888 mJ/mol.K2 91 SP-heat FeAs self-flux method Specific heat in KFe2As2 in zero and applied magnetic field 2011 "Department of Physics, University of Florida, Gainesville, Florida 32611, USA" "Phys.Rev.B, 83(2011)172502"
152889 PRB083174520 "RRR = 70 ~ 90. Anisotropy(Hc2) = 1.75 at T=0. Tc data shows for I//ab. For I//c, Tc(on) = 1.0 & Tc(zero)=0.5 K." LaSb2 La1Sb2 La 1 Sb 2 3 2011 AB2 SmSb2 A 6.219 6.278 18.46 K 0.7 1.7 1.2 uOhm.cm 1.2 Dimensional crossover in the electrical and magnetic properties of the layered LaSb2 superconductor under pressure: The role of phase fluctuations 2011 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana 70803, USA" "Phys.Rev.B, 83(2011)174520"
152890 PRL106237001 not SC. LaCo2B2 La1Co2B2 La 1 Co 2 B 2 2011 AB2C2 ThCr2Si2 I4/mmm 139 A 3.6108 10.2052 K 2 uV/K -7.4 uOhm.cm 70 "arc-melting from mixture of elements. ANN(1273 K, in evacuated silica ampoule." LaCo2B2: A Co-Based Layered Superconductor with a ThCr2Si2-Type Structure 2011 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.Lett., 106(2011)237001"
152891 PRL106237001 "(La,Y)Co2B2" La0.9Y0.1Co2B2 La 0.9 Y 0.1 Co 2 B 2 2011 AB2C2 ThCr2Si2 I4/mmm 139 K 4.1 4.4 4.25 "arc-melting from mixture of elements. ANN(1273 K, in evacuated silica ampoule." LaCo2B2: A Co-Based Layered Superconductor with a ThCr2Si2-Type Structure 2011 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.Lett., 106(2011)237001"
152892 PRL106237001 SC for x >= 0.1 in La(Co1-xFex)2B2 "La(Co,Fe)2B2" La1Co1.4Fe0.6B2 La 1 Co 1.4 Fe 0.6 B 2 2011 AB2C2 ThCr2Si2 I4/mmm 139 K 4 4 "arc-melting from mixture of elements. ANN(1273 K, in evacuated silica ampoule." LaCo2B2: A Co-Based Layered Superconductor with a ThCr2Si2-Type Structure 2011 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.Lett., 106(2011)237001"
152893 PRL106237001 not SC "LaCo2(B,Si)2" La1Co2B1.8Si0.2 La 1 Co 2 B 1.8 Si 0.2 2011 AB2C2 ThCr2Si2 I4/mmm 139 K 2 Oe M-H curve 90 2 "arc-melting from mixture of elements. ANN(1273 K, in evacuated silica ampoule." LaCo2B2: A Co-Based Layered Superconductor with a ThCr2Si2-Type Structure 2011 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.Lett., 106(2011)237001"
152894 SSC1510425 "impurities: Bi, NiBi less than 2%. Coercive field (750K) = 70 Oe. FM persists upto 750 K. (dHc1/dT) - -40 Oe/K. G-L parameter - 5.1. thermodynamic Hc(0) = 490 Oe" NiBi3 Bi3Ni1 Bi 3 Ni 1 1 2011 10.884 AB3 NiBi3 Pnma A 8.879 4.0998 11.483 K 4.05 4.05 54.1 Oe "M-H curve, WHH approx." 110 T magnetization. WHH approx. 0.362 T/K magnetization 0.129 A from Hc2 302 A G-L theory 1549 "Bi(5N),Ni(3N)" "mixture in evacuated quartz tube - melt(1000C,7d)" Possible coexistence of superconductivity and magnetism in intermetallic NiBi3 2011 "Instituto de Investigaciones en Materiales, Universidad Nacional Autonoma de Mexico, A. Postal 70-360, Mexico, D.F. 04510, Mexico" "Solid State Commum., 151(2011)425"
152895 PRB083214514 hole concentration P = 0.156 and 0.111 for outer and inner layers. P estimated from Knight shift in NMR. "Ba2Ca2Cu3O6(F,O)2" Ba2Ca2Cu3F1.2O6.8 Ba 2 Ca 2 Cu 3 F 1.2 O 6.8 2011 223 K 120 120 high-pressure synthesis "Antiferromagnetism, superconductivity, and pseudogap in three-layered high-Tc cuprates Ba2Ca2Cu3O6(F,O)2 probed by Cu-NMR" 2011 "Department of Materials Engineering Science, Osaka University, Osaka 560-8531, Japan" "Phys.Rev.B, 83(2011)214514"
152896 PRB083214514 hole concentration P = 0.113 and 0.087 for outer and inner layers. P estimated from Knight shift in NMR. Critical p for AFM order (Pcr) = 0.075 "Ba2Ca2Cu3O6(F,O)2" Ba2Ca2Cu3F1.6O6.4 Ba 2 Ca 2 Cu 3 F 1.6 O 6.4 2011 223 K 102 102 high-pressure synthesis "Antiferromagnetism, superconductivity, and pseudogap in three-layered high-Tc cuprates Ba2Ca2Cu3O6(F,O)2 probed by Cu-NMR" 2011 "Department of Materials Engineering Science, Osaka University, Osaka 560-8531, Japan" "Phys.Rev.B, 83(2011)214514"
152897 PRB083214514 hole concentration P = 0.086 and 0.073 for outer and inner layers. P estimated from Knight shift in NMR. "Ba2Ca2Cu3O6(F,O)2" Ba2Ca2Cu3F1.8O6.2 Ba 2 Ca 2 Cu 3 F 1.8 O 6.2 2011 223 K 81 81 high-pressure synthesis "Antiferromagnetism, superconductivity, and pseudogap in three-layered high-Tc cuprates Ba2Ca2Cu3O6(F,O)2 probed by Cu-NMR" 2011 "Department of Materials Engineering Science, Osaka University, Osaka 560-8531, Japan" "Phys.Rev.B, 83(2011)214514"
152898 PRL106227001 T = 0.5 K. T(tetra-to-ortho) = 165 K. "SmFeAs(O,F)" Sm1Fe1As1F0.1O0.9 Sm 1 Fe 1 As 1 F 0.1 O 0.9 2011 oxypnictide P4/nmm K 38.9 38.9 PH152898 Retention of the Tetragonal to Orthorhombic Structural Transition in F-Substituted SmFeAsO: A New Phase Diagram for SmFeAs(O1-xFx) 2011 "SPIN-CNR, corso Perrone 24, 16152 Genova, Italy" "Phys.Rev.Lett., 106(2011)227001"
152899 PRL106246404 "e-ph coupling = 0.68. GL-parameter = 93 (//ab), =28 (//c).Thermodynamic Hc(0) = 240 (//ab) , =330 Oe (//c). Lattice term in SP (beta) = 1.21 mJ/mol.K2" CuxZrTe3 Cu0.05Zr1Te3 Cu 0.05 Zr 1 Te 3 3 2011 A 5.88 3.92 10.11 K 3.8 3.8 Oe "M-H curve, WHH approx." 8.3 27.7 T resistivity. R=0.9Rn. WHH approx. 3.2 1.3 MHC152899 A from Hc2 160 65 A G-L theory 6050 14900 mJ/mol.K2 2.64 SP-heat 186 SP-heat crystals grownby chemical vapor transport method T-gradient(1023 - 923 K) Coexistence of Bulk Superconductivity and Charge Density Wave in CuxZrTe3 2011 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.Lett., 106(2011)246404"
152900 PRL106246404 ZrTe3 Te3Zr1 Te 3 Zr 1 3 2011 A 5.86 3.92 10.09 K 1.8 crystals grownby chemical vapor transport method T-gradient(1023 - 923 K) Coexistence of Bulk Superconductivity and Charge Density Wave in CuxZrTe3 2011 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.Lett., 106(2011)246404"
152901 JPS080055002 SC with honeycom lattice SrPtAs Sr1Pt1As1 Sr 1 Pt 1 As 1 2011 ABC KZnAs P6<3>/mmc 194 A 4.244 8.989 "hexagonal, KZnAs-type" K 2.4 0.06 2.4 T "resistivity, linear approx. R=0.5Rn" 0.22 MHC152901 A from Hc2 387 "solid state reaction. mixture - (ground, pelletize, wrapped) - heat(700C,3h + 1000C,24h) heat(950C,2h)" Superconductivity in the Honeycomb-Lattice Pnictide SrPtAs 2011 "Department of Physics, Faculty of Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 80(2011)055002"
152902 PCS0720430 "Ce(O,F)FeAs" Ce1Fe1As1F0.05O0.95 Ce 1 Fe 1 As 1 F 0.05 O 0.95 2011 2.73 ADCD oxypnictide P4/nmm 129 A 3.999 8.6241 K 13.2 11.7 11.7 "solid state reaction. mixture - pellet - (sealed in evacuated quartz tube) - heat(1448 K, 50h)" Chemical pressure effect in CeFeAs1-xPxO0.95F0.05 2011 "J.Phys.Chem. Solids, 72(2011)430"
152903 PCS0720430 "Ce(O,F)Fe(As,P)" Ce1Fe1As0.95P0.05F0.05O0.95 Ce 1 Fe 1 As 0.95 P 0.05 F 0.05 O 0.95 2011 2.92 ADCD oxypnictide K 17.5 17.2 17.2 "solid state reaction. mixture - pellet - (sealed in evacuated quartz tube) - heat(1448 K, 50h)" Chemical pressure effect in CeFeAs1-xPxO0.95F0.05 2011 "J.Phys.Chem. Solids, 72(2011)430"
152904 PCS0720430 "Ce(O,F)Fe(As,P)" Ce1Fe1As0.9P0.1F0.05O0.95 Ce 1 Fe 1 As 0.9 P 0.1 F 0.05 O 0.95 2011 3.06 ADCD oxypnictide A 3.9936 8.5872 K 19.3 19.3 19.3 "solid state reaction. mixture - pellet - (sealed in evacuated quartz tube) - heat(1448 K, 50h)" Chemical pressure effect in CeFeAs1-xPxO0.95F0.05 2011 "J.Phys.Chem. Solids, 72(2011)430"
152905 PCS0720430 "Ce(O,F)Fe(As,P)" Ce1Fe1As0.85P0.15F0.05O0.95 Ce 1 Fe 1 As 0.85 P 0.15 F 0.05 O 0.95 2011 3.19 ADCD oxypnictide K 21.3 21.8 21.8 "solid state reaction. mixture - pellet - (sealed in evacuated quartz tube) - heat(1448 K, 50h)" Chemical pressure effect in CeFeAs1-xPxO0.95F0.05 2011 "J.Phys.Chem. Solids, 72(2011)430"
152906 PCS0720430 "Ce(O,F)Fe(As,P)" Ce1Fe1As0.8P0.2F0.05O0.95 Ce 1 Fe 1 As 0.8 P 0.2 F 0.05 O 0.95 2011 3.26 ADCD oxypnictide A 3.9877 8.5585 K 20.3 20.6 20.6 "solid state reaction. mixture - pellet - (sealed in evacuated quartz tube) - heat(1448 K, 50h)" Chemical pressure effect in CeFeAs1-xPxO0.95F0.05 2011 "J.Phys.Chem. Solids, 72(2011)430"
152907 PCS0720430 "Ce(O,F)Fe(As,P)" Ce1Fe1As0.7P0.3F0.05O0.95 Ce 1 Fe 1 As 0.7 P 0.3 F 0.05 O 0.95 2011 3.52 ADCD oxypnictide A 3.9823 8.5369 K 18.3 18.2 18.2 "solid state reaction. mixture - pellet - (sealed in evacuated quartz tube) - heat(1448 K, 50h)" Chemical pressure effect in CeFeAs1-xPxO0.95F0.05 2011 "J.Phys.Chem. Solids, 72(2011)430"
152908 PCS0720430 "Ce(O,F)Fe(As,P)" Ce1Fe1As0.6P0.4F0.05O0.95 Ce 1 Fe 1 As 0.6 P 0.4 F 0.05 O 0.95 2011 3.46 ADCD oxypnictide A 3.9737 8.5072 K 16 16 16 "solid state reaction. mixture - pellet - (sealed in evacuated quartz tube) - heat(1448 K, 50h)" Chemical pressure effect in CeFeAs1-xPxO0.95F0.05 2011 "J.Phys.Chem. Solids, 72(2011)430"
152909 PHC4710185 d=900 A. MBE method. "(Sr,Nd)CuO2" Sr0.95Nd0.05Cu1O2 Sr 0.95 Nd 0.05 Cu 1 O 2 5 2011 IL A 3.024 K 11.4 30 20.7 "epitaxial films were grown on (110)DSO (DySeO3) substrates by MBE. growth rate = 1.6 A/s. ANN(500C, 10min)" "Growth of infinite-layer (Sr, Nd)CuO2 films by MBE" 2011 "NTT Basic Research Laboratories, NTT Corporation, 3-1 Morinosato-Wakamiya, Atsugi, Kanagawa 243-0198, Japan" "Physica C, 471(2011)185"
152910 PHC4710308 "(Y,Ca)Ba2(Cu,Zn)3Oz" Y0.95Ca0.05Ba2Cu2.8Zn0.2O6.74 Y 0.95 Ca 0.05 Ba 2 Cu 2.8 Zn 0.2 O z 6.74 2011 Y123 K 3.5 3.5 uV/K 11.5 TP152910 "solid state reaction. SIN( 900, 920, 930C) - ANN(460C, 2h, in flowing O2)" Mechanism of a strong rise of Tc due to the calcium doping in Y1-xCaxBa2Cu2.8Zn0.2Oy 2011 "Department of Semiconductor Physics and Nanoelectronics, St. Petersburg State Polytechnical University, 29 Polytekhnicheskaya, St. Petersburg 195251, Russia" "Physica C, 471(2011)308"
152911 PHC4710308 "(Y,Ca)Ba2(Cu,Zn)3Oz" Y0.9Ca0.1Ba2Cu2.8Zn0.2O6.74 Y 0.9 Ca 0.1 Ba 2 Cu 2.8 Zn 0.2 O z 6.74 2011 Y123 K 15.8 15.8 uV/K 8.35 "solid state reaction. SIN( 900, 920, 930C) - ANN(460C, 2h, in flowing O2)" Mechanism of a strong rise of Tc due to the calcium doping in Y1-xCaxBa2Cu2.8Zn0.2Oy 2011 "Department of Semiconductor Physics and Nanoelectronics, St. Petersburg State Polytechnical University, 29 Polytekhnicheskaya, St. Petersburg 195251, Russia" "Physica C, 471(2011)308"
152912 PHC4710308 "(Y,Ca)Ba2(Cu,Zn)3Oz" Y0.85Ca0.15Ba2Cu2.8Zn0.2O6.74 Y 0.85 Ca 0.15 Ba 2 Cu 2.8 Zn 0.2 O z 6.74 2011 Y123 K 34.6 34.6 uV/K 3.77 "solid state reaction. SIN( 900, 920, 930C) - ANN(460C, 2h, in flowing O2)" Mechanism of a strong rise of Tc due to the calcium doping in Y1-xCaxBa2Cu2.8Zn0.2Oy 2011 "Department of Semiconductor Physics and Nanoelectronics, St. Petersburg State Polytechnical University, 29 Polytekhnicheskaya, St. Petersburg 195251, Russia" "Physica C, 471(2011)308"
152913 PHC4710308 "(Y,Ca)Ba2(Cu,Zn)3Oz" Y0.8Ca0.2Ba2Cu2.8Zn0.2O6.74 Y 0.8 Ca 0.2 Ba 2 Cu 2.8 Zn 0.2 O z 6.74 2011 Y123 K 44 44 uV/K 3.09 TP152913 "solid state reaction. SIN( 900, 920, 930C) - ANN(460C, 2h, in flowing O2)" Mechanism of a strong rise of Tc due to the calcium doping in Y1-xCaxBa2Cu2.8Zn0.2Oy 2011 "Department of Semiconductor Physics and Nanoelectronics, St. Petersburg State Polytechnical University, 29 Polytekhnicheskaya, St. Petersburg 195251, Russia" "Physica C, 471(2011)308"
152914 PHC4710363 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 86/3" "(Tl,Cr)Sr2CaCu2O7-z" Tl0.85Cr0.15Sr2Ca1Cu2O7-z Tl 0.85 Cr 0.15 Sr 2 Ca 1 Cu 2 O 7-z 2011 2 Tl1212 A 3.825 12.056 K 98.6 102.2 100.4 "precursor(Sr2Ca(Cu,Ge)2Oz) + (Tl2O3, Cr2O3) - SIN(1000C,5min, in flowing O2) - FC to RT" "Effect of Ge4+ and Mg2+ doping on superconductivity, fluctuation induced conductivity and interplanar coupling of TlSr2CaCu2O7-d superconductors" 2011 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "Physica C, 471(2011)363"
152915 PHC4710363 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 91/3" "(Tl,Cr)Sr2Ca(Cu,Ge)2O7-z" Tl0.85Cr0.15Sr2Ca1Cu1.9Ge0.1O7-z Tl 0.85 Cr 0.15 Sr 2 Ca 1 Cu 1.9 Ge 0.1 O 7-z 2011 2 Tl1212 A 3.824 12.033 K 100.2 104.8 102.5 "precursor(Sr2Ca(Cu,Ge)2Oz) + (Tl2O3, Cr2O3) - SIN(1000C,5min, in flowing O2) - FC to RT" "Effect of Ge4+ and Mg2+ doping on superconductivity, fluctuation induced conductivity and interplanar coupling of TlSr2CaCu2O7-d superconductors" 2011 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "Physica C, 471(2011)363"
152916 PHC4710363 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 84/9" "(Tl,Cr)Sr2Ca(Cu,Ge)2O7-z" Tl0.85Cr0.15Sr2Ca1Cu1.8Ge0.2O7-z Tl 0.85 Cr 0.15 Sr 2 Ca 1 Cu 1.8 Ge 0.2 O 7-z 2011 2 Tl1212 A 3.827 12.008 K 86.2 93.4 89.8 "precursor(Sr2Ca(Cu,Ge)2Oz) + (Tl2O3, Cr2O3) - SIN(1000C,5min, in flowing O2) - FC to RT" "Effect of Ge4+ and Mg2+ doping on superconductivity, fluctuation induced conductivity and interplanar coupling of TlSr2CaCu2O7-d superconductors" 2011 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "Physica C, 471(2011)363"
152917 PHC4710363 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 83/7" "(Tl,Cr)Sr2Ca(Cu,Ge)2O7-z" Tl0.85Cr0.15Sr2Ca1Cu1.7Ge0.3O7-z Tl 0.85 Cr 0.15 Sr 2 Ca 1 Cu 1.7 Ge 0.3 O 7-z 2011 2 Tl1212 A 3.823 12.004 K 84.5 92.8 88.65 "precursor(Sr2Ca(Cu,Ge)2Oz) + (Tl2O3, Cr2O3) - SIN(1000C,5min, in flowing O2) - FC to RT" "Effect of Ge4+ and Mg2+ doping on superconductivity, fluctuation induced conductivity and interplanar coupling of TlSr2CaCu2O7-d superconductors" 2011 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "Physica C, 471(2011)363"
152918 PHC4710363 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 72/15" "(Tl,Cr)Sr2Ca(Cu,Ge)2O7-z" Tl0.85Cr0.15Sr2Ca1Cu1.6Ge0.4O7-z Tl 0.85 Cr 0.15 Sr 2 Ca 1 Cu 1.6 Ge 0.4 O 7-z 2011 2 Tl1212 A 3.822 11.984 K 54 54 "precursor(Sr2Ca(Cu,Ge)2Oz) + (Tl2O3, Cr2O3) - SIN(1000C,5min, in flowing O2) - FC to RT" "Effect of Ge4+ and Mg2+ doping on superconductivity, fluctuation induced conductivity and interplanar coupling of TlSr2CaCu2O7-d superconductors" 2011 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "Physica C, 471(2011)363"
152919 PHC4710363 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 60/25" "(Tl,Cr)Sr2Ca(Cu,Ge)2O7-z" Tl0.85Cr0.15Sr2Ca1Cu1.4Ge0.6O7-z Tl 0.85 Cr 0.15 Sr 2 Ca 1 Cu 1.4 Ge 0.6 O 7-z 2011 2 Tl1212 A 3.827 11.98 K "precursor(Sr2Ca(Cu,Ge)2Oz) + (Tl2O3, Cr2O3) - SIN(1000C,5min, in flowing O2) - FC to RT" "Effect of Ge4+ and Mg2+ doping on superconductivity, fluctuation induced conductivity and interplanar coupling of TlSr2CaCu2O7-d superconductors" 2011 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "Physica C, 471(2011)363"
152920 PHC4710363 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 85/7" "(Tl,Pb)(Sr,Yb)2CaCu2O7-z" Tl0.5Pb0.5Sr1.8Yb0.2Ca1Cu2O7-z Tl 0.5 Pb 0.5 Sr 1.8 Yb 0.2 Ca 1 Cu 2 O 7-z 2011 2 Tl1212 A 3.793 12.151 K 89.6 107.3 98.45 "precursor (Sr1.8Yb0.2(Ca,Mg)Cu2Oz + (tl2O3, PbO) - SIN(1000C,5min, in flowing O2) - FC to RT" "Effect of Ge4+ and Mg2+ doping on superconductivity, fluctuation induced conductivity and interplanar coupling of TlSr2CaCu2O7-d superconductors" 2011 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "Physica C, 471(2011)363"
152921 PHC4710363 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 85/5" "(Tl,Pb)(Sr,Yb)2(Ca,Mg)Cu2O7-z" Tl0.5Pb0.5Sr1.8Yb0.2Ca0.8Mg0.2Cu2O7-z Tl 0.5 Pb 0.5 Sr 1.8 Yb 0.2 Ca 0.8 Mg 0.2 Cu 2 O 7-z 2011 2 Tl1212 A 3.8 12.129 K 86 107.6 96.8 "precursor (Sr1.8Yb0.2(Ca,Mg)Cu2Oz + (tl2O3, PbO) - SIN(1000C,5min, in flowing O2) - FC to RT" "Effect of Ge4+ and Mg2+ doping on superconductivity, fluctuation induced conductivity and interplanar coupling of TlSr2CaCu2O7-d superconductors" 2011 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "Physica C, 471(2011)363"
152922 PHC4710363 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 90/4" "(Tl,Pb)(Sr,Yb)2(Ca,Mg)Cu2O7-z" Tl0.5Pb0.5Sr1.8Yb0.2Ca0.6Mg0.4Cu2O7-z Tl 0.5 Pb 0.5 Sr 1.8 Yb 0.2 Ca 0.6 Mg 0.4 Cu 2 O 7-z 2011 2 Tl1212 A 3.798 12.113 K 93.6 108.6 101.1 "precursor (Sr1.8Yb0.2(Ca,Mg)Cu2Oz + (tl2O3, PbO) - SIN(1000C,5min, in flowing O2) - FC to RT" "Effect of Ge4+ and Mg2+ doping on superconductivity, fluctuation induced conductivity and interplanar coupling of TlSr2CaCu2O7-d superconductors" 2011 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "Physica C, 471(2011)363"
152923 PHC4710363 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 90/4" "(Tl,Pb)(Sr,Yb)2(Ca,Mg)Cu2O7-z" Tl0.5Pb0.5Sr1.8Yb0.2Ca0.4Mg0.6Cu2O7-z Tl 0.5 Pb 0.5 Sr 1.8 Yb 0.2 Ca 0.4 Mg 0.6 Cu 2 O 7-z 2011 2 Tl1212 A 3.817 12.063 K 95.9 109.6 102.75 "precursor (Sr1.8Yb0.2(Ca,Mg)Cu2Oz + (tl2O3, PbO) - SIN(1000C,5min, in flowing O2) - FC to RT" "Effect of Ge4+ and Mg2+ doping on superconductivity, fluctuation induced conductivity and interplanar coupling of TlSr2CaCu2O7-d superconductors" 2011 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "Physica C, 471(2011)363"
152924 PHC4710363 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 66/11" "(Tl,Pb)(Sr,Yb)2(Ca,Mg)Cu2O7-z" Tl0.5Pb0.5Sr1.8Yb0.2Ca0.2Mg0.8Cu2O7-z Tl 0.5 Pb 0.5 Sr 1.8 Yb 0.2 Ca 0.2 Mg 0.8 Cu 2 O 7-z 2011 2 Tl1212 A 3.798 12.143 K 55.1 95.3 75.2 "precursor (Sr1.8Yb0.2(Ca,Mg)Cu2Oz + (tl2O3, PbO) - SIN(1000C,5min, in flowing O2) - FC to RT" "Effect of Ge4+ and Mg2+ doping on superconductivity, fluctuation induced conductivity and interplanar coupling of TlSr2CaCu2O7-d superconductors" 2011 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "Physica C, 471(2011)363"
152925 PHC4710363 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 60/11" "(Tl,Pb)(Sr,Yb)2(Ca,Mg)Cu2O7-z" Tl0.5Pb0.5Sr1.8Yb0.2Mg1Cu2O7-z Tl 0.5 Pb 0.5 Sr 1.8 Yb 0.2 Mg 1 Cu 2 O 7-z 2011 2 Tl1212 A 3.805 12.125 K 34.9 95 64.95 "precursor (Sr1.8Yb0.2(Ca,Mg)Cu2Oz + (tl2O3, PbO) - SIN(1000C,5min, in flowing O2) - FC to RT" "Effect of Ge4+ and Mg2+ doping on superconductivity, fluctuation induced conductivity and interplanar coupling of TlSr2CaCu2O7-d superconductors" 2011 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "Physica C, 471(2011)363"
152926 INOV0130406 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 85/15" "(Tl,Cu)(Sr,Yb)2CaCu2O7" Tl1Sr1.8Yb0.2Ca1Cu2O7-z Tl 1 Sr 1.8 Yb 0.2 Ca 1 Cu 2 O 7-z 2009 2 Tl1212 A 3.79 12.017 K 52.5 77 64.75 "Precursor made by calcination (900C,48h) - mix with tl2O3 - SIN(1000C,5min) - slow cool to RT" Effects of Cu substitution on superconductivity and excess conductivity of Tl1-xCuxSr1.8Yb0.2CaCu2O7-z (x=0-0.6) ceramics 2009 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "Mat.Res.Innovations, 13(2009)406"
152927 INOV0130406 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 71/29" "(Tl,Cu)(Sr,Yb)2CaCu2O7" Tl0.9Sr1.8Yb0.2Ca1Cu2.1O7-z Tl 0.9 Sr 1.8 Yb 0.2 Ca 1 Cu 2.1 O 7-z 2009 2 Tl1212 A 3.79 12.063 K 55.4 81.7 68.55 "Precursor made by calcination (900C,48h) - mix with tl2O3 - SIN(1000C,5min) - slow cool to RT" Effects of Cu substitution on superconductivity and excess conductivity of Tl1-xCuxSr1.8Yb0.2CaCu2O7-z (x=0-0.6) ceramics 2009 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "Mat.Res.Innovations, 13(2009)406"
152928 INOV0130406 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 73/27" "(Tl,Cu)(Sr,Yb)2CaCu2O7" Tl0.8Sr1.8Yb0.2Ca1Cu2.2O7-z Tl 0.8 Sr 1.8 Yb 0.2 Ca 1 Cu 2.2 O 7-z 2009 2 Tl1212 A 3.79 12.011 K 71.3 85.4 78.35 "Precursor made by calcination (900C,48h) - mix with tl2O3 - SIN(1000C,5min) - slow cool to RT" Effects of Cu substitution on superconductivity and excess conductivity of Tl1-xCuxSr1.8Yb0.2CaCu2O7-z (x=0-0.6) ceramics 2009 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "Mat.Res.Innovations, 13(2009)406"
152929 INOV0130406 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 66/34" "(Tl,Cu)(Sr,Yb)2CaCu2O7" Tl0.7Sr1.8Yb0.2Ca1Cu2.3O7-z Tl 0.7 Sr 1.8 Yb 0.2 Ca 1 Cu 2.3 O 7-z 2009 2 Tl1212 A 3.79 12.009 K 73 86 79.5 "Precursor made by calcination (900C,48h) - mix with tl2O3 - SIN(1000C,5min) - slow cool to RT" Effects of Cu substitution on superconductivity and excess conductivity of Tl1-xCuxSr1.8Yb0.2CaCu2O7-z (x=0-0.6) ceramics 2009 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "Mat.Res.Innovations, 13(2009)406"
152930 INOV0130406 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 69/31" "(Tl,Cu)(Sr,Yb)2CaCu2O7" Tl0.6Sr1.8Yb0.2Ca1Cu2.4O7-z Tl 0.6 Sr 1.8 Yb 0.2 Ca 1 Cu 2.4 O 7-z 2009 2 Tl1212 A 3.79 12.093 K 77.6 92.5 85.05 "Precursor made by calcination (900C,48h) - mix with tl2O3 - SIN(1000C,5min) - slow cool to RT" Effects of Cu substitution on superconductivity and excess conductivity of Tl1-xCuxSr1.8Yb0.2CaCu2O7-z (x=0-0.6) ceramics 2009 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "Mat.Res.Innovations, 13(2009)406"
152931 INOV0130406 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 70/30" "(Tl,Cu)(Sr,Yb)2CaCu2O7" Tl0.5Sr1.8Yb0.2Ca1Cu2.5O7-z Tl 0.5 Sr 1.8 Yb 0.2 Ca 1 Cu 2.5 O 7-z 2009 2 Tl1212 A 3.79 12.012 K 63.8 88.5 76.15 "Precursor made by calcination (900C,48h) - mix with tl2O3 - SIN(1000C,5min) - slow cool to RT" Effects of Cu substitution on superconductivity and excess conductivity of Tl1-xCuxSr1.8Yb0.2CaCu2O7-z (x=0-0.6) ceramics 2009 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "Mat.Res.Innovations, 13(2009)406"
152932 INOV0130406 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 62/38" "(Tl,Cu)(Sr,Yb)2CaCu2O7" Tl0.4Sr1.8Yb0.2Ca1Cu2.6O7-z Tl 0.4 Sr 1.8 Yb 0.2 Ca 1 Cu 2.6 O 7-z 2009 2 Tl1212 A 3.79 12.09 K 56.4 89.4 72.9 "Precursor made by calcination (900C,48h) - mix with tl2O3 - SIN(1000C,5min) - slow cool to RT" Effects of Cu substitution on superconductivity and excess conductivity of Tl1-xCuxSr1.8Yb0.2CaCu2O7-z (x=0-0.6) ceramics 2009 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "Mat.Res.Innovations, 13(2009)406"
152933 JAC4920473 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 93/4" "Tl(Sr,Yb)2CaCu2O7" Tl1Sr1.6Yb0.4Ca1Cu2O7-z Tl 1 Sr 1.6 Yb 0.4 Ca 1 Cu 2 O 7-z 2010 2 Tl1212 A 3.797 12.014 K 78 96 87 Superconducting fluctuation behavior and infrared absorption properties of Tl1-xCuxSr1.6Yb0.4CaCu2O7-z and Tl0.5Pb0.5Sr2-yMgyCa0.8Yb0.2Cu2O7-z ceramics 2010 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "J.Alloys Compd, 492(2010)473"
152934 JAC4920473 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 93/4" "(Tl,Cu)(Sr,Yb)2CaCu2O7" Tl0.9Sr1.6Yb0.4Ca1Cu2.1O7-z Tl 0.9 Sr 1.6 Yb 0.4 Ca 1 Cu 2.1 O 7-z 2010 2 Tl1212 A 3.798 12.015 K 69 87 78 Superconducting fluctuation behavior and infrared absorption properties of Tl1-xCuxSr1.6Yb0.4CaCu2O7-z and Tl0.5Pb0.5Sr2-yMgyCa0.8Yb0.2Cu2O7-z ceramics 2010 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "J.Alloys Compd, 492(2010)473"
152935 JAC4920473 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 92/4" "(Tl,Cu)(Sr,Yb)2CaCu2O7" Tl0.2Sr1.6Yb0.4Ca1Cu2.2O7-z Tl 0.2 Sr 1.6 Yb 0.4 Ca 1 Cu 2.2 O 7-z 2010 2 Tl1212 A 3.796 12.014 K 53 79 66 Superconducting fluctuation behavior and infrared absorption properties of Tl1-xCuxSr1.6Yb0.4CaCu2O7-z and Tl0.5Pb0.5Sr2-yMgyCa0.8Yb0.2Cu2O7-z ceramics 2010 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "J.Alloys Compd, 492(2010)473"
152936 JAC4920473 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 94/3" "(Tl,Cu)(Sr,Yb)2CaCu2O7" Tl0.3Sr1.6Yb0.4Ca1Cu2.3O7-z Tl 0.3 Sr 1.6 Yb 0.4 Ca 1 Cu 2.3 O 7-z 2010 2 Tl1212 A 3.797 12.007 K 80 95 87.5 Superconducting fluctuation behavior and infrared absorption properties of Tl1-xCuxSr1.6Yb0.4CaCu2O7-z and Tl0.5Pb0.5Sr2-yMgyCa0.8Yb0.2Cu2O7-z ceramics 2010 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "J.Alloys Compd, 492(2010)473"
152937 JAC4920473 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 93/5" "(Tl,Cu)(Sr,Yb)2CaCu2O7" Tl0.4Sr1.6Yb0.4Ca1Cu2.4O7-z Tl 0.4 Sr 1.6 Yb 0.4 Ca 1 Cu 2.4 O 7-z 2010 2 Tl1212 A 3.796 12.005 K 42 85 63.5 Superconducting fluctuation behavior and infrared absorption properties of Tl1-xCuxSr1.6Yb0.4CaCu2O7-z and Tl0.5Pb0.5Sr2-yMgyCa0.8Yb0.2Cu2O7-z ceramics 2010 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "J.Alloys Compd, 492(2010)473"
152938 JAC4920473 "major phase= Tl1212, minor phase = Tl1201. volume ratio(Tl1212/tl1201) = 92/4" "(Tl,Cu)(Sr,Yb)2CaCu2O7" Tl0.5Sr1.6Yb0.4Ca1Cu2.5O7-z Tl 0.5 Sr 1.6 Yb 0.4 Ca 1 Cu 2.5 O 7-z 2010 2 Tl1212 A 3.798 12.004 K 64 64 Superconducting fluctuation behavior and infrared absorption properties of Tl1-xCuxSr1.6Yb0.4CaCu2O7-z and Tl0.5Pb0.5Sr2-yMgyCa0.8Yb0.2Cu2O7-z ceramics 2010 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia" "J.Alloys Compd, 492(2010)473"
152939 SSC1490281 cohere(c) calculated using GL theory "(Tl,Hg)Ba2Ca2Cu3O9" Tl0.8Hg0.2Ba2Ca2Cu3O9-z Tl 0.8 Hg 0.2 Ba 2 Ca 2 Cu 3 O 9-z 2009 Tl1223 K 134.8 137.4 137.4 A GL theory 5.3 mOhm.cm 1.05 Excess conductivity analysis for Tl0:8Hg0:2Ba2Ca2Cu3O9-z substituted by Sm and Yb 2009 "Physics Department, Faculty of Science, Alexandria University, Alexandria, Egypt" "Solid State Commun., 149(2009)281"
152940 SSC1490281 cohere(c) calculated using GL theory "(Tl,Hg)Ba2(Ca,Sm)2Cu3O9" Tl0.8Hg0.2Ba2Ca1.975Sm0.025Cu3O9-z Tl 0.8 Hg 0.2 Ba 2 Ca 1.975 Sm 0.025 Cu 3 O 9-z 2009 Tl1223 K 119.5 123.4 123.4 A GL theory 6.01 mOhm.cm 1.41 Excess conductivity analysis for Tl0:8Hg0:2Ba2Ca2Cu3O9-z substituted by Sm and Yb 2009 "Physics Department, Faculty of Science, Alexandria University, Alexandria, Egypt" "Solid State Commun., 149(2009)281"
152941 SSC1490281 cohere(c) calculated using GL theory "(Tl,Hg)Ba2(Ca,Sm)2Cu3O9" Tl0.8Hg0.2Ba2Ca1.95Sm0.05Cu3O9-z Tl 0.8 Hg 0.2 Ba 2 Ca 1.95 Sm 0.05 Cu 3 O 9-z 2009 Tl1223 K 114.6 114.1 114.1 A GL theory 6.7 mOhm.cm 1.78 Excess conductivity analysis for Tl0:8Hg0:2Ba2Ca2Cu3O9-z substituted by Sm and Yb 2009 "Physics Department, Faculty of Science, Alexandria University, Alexandria, Egypt" "Solid State Commun., 149(2009)281"
152942 SSC1490281 cohere(c) calculated using GL theory "(Tl,Hg)Ba2(Ca,Sm)2Cu3O9" Tl0.8Hg0.2Ba2Ca1.9Sm0.1Cu3O9-z Tl 0.8 Hg 0.2 Ba 2 Ca 1.9 Sm 0.1 Cu 3 O 9-z 2009 Tl1223 K 91 97.9 97.9 A GL theory 8.5 mOhm.cm 2.75 Excess conductivity analysis for Tl0:8Hg0:2Ba2Ca2Cu3O9-z substituted by Sm and Yb 2009 "Physics Department, Faculty of Science, Alexandria University, Alexandria, Egypt" "Solid State Commun., 149(2009)281"
152943 SSC1490281 cohere(c) calculated using GL theory "(Tl,Hg)Ba2(Ca,Sm)2Cu3O9" Tl0.8Hg0.2Ba2Ca1.85Sm0.15Cu3O9-z Tl 0.8 Hg 0.2 Ba 2 Ca 1.85 Sm 0.15 Cu 3 O 9-z 2009 Tl1223 K 84.25 90.5 90.5 A GL theory 12.71 mOhm.cm 4.33 Excess conductivity analysis for Tl0:8Hg0:2Ba2Ca2Cu3O9-z substituted by Sm and Yb 2009 "Physics Department, Faculty of Science, Alexandria University, Alexandria, Egypt" "Solid State Commun., 149(2009)281"
152944 SSC1490281 cohere(c) calculated using GL theory "(Tl,Hg)Ba2(Ca,Yb)2Cu3O9" Tl0.8Hg0.2Ba2Ca1.975Yb0.025Cu3O9-z Tl 0.8 Hg 0.2 Ba 2 Ca 1.975 Yb 0.025 Cu 3 O 9-z 2009 Tl1223 K 119.6 124.5 124.5 A GL theory 5.84 mOhm.cm 1.55 Excess conductivity analysis for Tl0:8Hg0:2Ba2Ca2Cu3O9-z substituted by Sm and Yb 2009 "Physics Department, Faculty of Science, Alexandria University, Alexandria, Egypt" "Solid State Commun., 149(2009)281"
152945 SSC1490281 cohere(c) calculated using GL theory "(Tl,Hg)Ba2(Ca,Yb)2Cu3O9" Tl0.8Hg0.2Ba2Ca1.95Yb0.05Cu3O9-z Tl 0.8 Hg 0.2 Ba 2 Ca 1.95 Yb 0.05 Cu 3 O 9-z 2009 Tl1223 K 108 112.2 112.2 A GL theory 7.27 mOhm.cm 1.89 Excess conductivity analysis for Tl0:8Hg0:2Ba2Ca2Cu3O9-z substituted by Sm and Yb 2009 "Physics Department, Faculty of Science, Alexandria University, Alexandria, Egypt" "Solid State Commun., 149(2009)281"
152946 SSC1490281 cohere(c) calculated using GL theory "(Tl,Hg)Ba2(Ca,Yb)2Cu3O9" Tl0.8Hg0.2Ba2Ca1.9Yb0.1Cu3O9-z Tl 0.8 Hg 0.2 Ba 2 Ca 1.9 Yb 0.1 Cu 3 O 9-z 2009 Tl1223 K 99.65 105.7 105.7 A GL theory 31.78 mOhm.cm 2.94 Excess conductivity analysis for Tl0:8Hg0:2Ba2Ca2Cu3O9-z substituted by Sm and Yb 2009 "Physics Department, Faculty of Science, Alexandria University, Alexandria, Egypt" "Solid State Commun., 149(2009)281"
152947 SSC1490281 cohere(c) calculated using GL theory "(Tl,Hg)Ba2(Ca,Yb)2Cu3O9" Tl0.8Hg0.2Ba2Ca1.85Yb0.15Cu3O9-z Tl 0.8 Hg 0.2 Ba 2 Ca 1.85 Yb 0.15 Cu 3 O 9-z 2009 Tl1223 K 87.78 90.5 90.5 A GL theory 24.7 mOhm.cm 4.4 Excess conductivity analysis for Tl0:8Hg0:2Ba2Ca2Cu3O9-z substituted by Sm and Yb 2009 "Physics Department, Faculty of Science, Alexandria University, Alexandria, Egypt" "Solid State Commun., 149(2009)281"
152948 PRB084024509 Rh-composition from WDXS. magnetic properties from Mossbauer measurements of <57>Fe. direct evidence of coexistence(SC& magnetic order). Structural transition (tetra- to orth- ) at 59 K. "Ba(Fe,Rh)2As2" Ba1Fe1.922Rh0.078As2 Ba 1 Fe 1.922 Rh 0.078 As 2 3 2011 myu-B/Fe 0.35 55.5 AB2C2 ThCr2Si2 I4/mmm 139 K 14 14 357 FeAs self flux method Coexistence of antiferromagnetic ordering and superconductivity in the Ba(Fe0.961Rh0.039)2As2 compound studied by Mossbauer spectroscopy 2011 "Department of Physics, University of Ottawa, Ottawa, Ontario K1N 6N5, Canada" "Phys.Rev.B, 84(2011)024509"
152949 PRB084033101 "not SC down to 50 mK, upto 120 GPa using designer diamond anvils." Pr Pr1 Pr 1 2011 A K 0.05 Low-temperature electrical resistivity of praseodymium at pressures up to 120 GPa 2011 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 84(2011)033101"
152950 SCI2050188 total impurity = 50 - 500 ppm. Pa Pa1 Pa 1 3 1979 A K 0.43 0.43 T ac-SUS 0.0056 T/K ac-SUS 0.026 MHC152950 Superconducting Properties of Protactinium 1979 "Los Alamos Scientific Laboratory, Los Alamos, New Mexico" "Science, 205(1979)188"
152951 PCS0720442 Tc defined as max of dR/dT "(La,Sm,Sr)FeAsO" La0.81Sm0.06Sr0.13Fe1As1O1 La 0.81 Sm 0.06 Sr 0.13 Fe 1 As 1 O 1 2011 ABCD oxypnictide A 8.8034 K 18.5 18.5 "Coexistence of superconductivity and magnetism in the La0.87-xLnxSr0.13FeAsO (Ln = Sm, Gd, Dy) system" 2011 "Department of Physics, National Chung Hsing University, Taiwan, ROC" "J.Phys.Chem. Solids, 72(2011)442"
152952 PCS0720442 Tc defined as max of dR/dT "(La,Gd,Sr)FeAsO" La0.81Gd0.06Sr0.13Fe1As1O1 La 0.81 Gd 0.06 Sr 0.13 Fe 1 As 1 O 1 2011 ABCD oxypnictide A 8.7574 K 17.1 17.1 "Coexistence of superconductivity and magnetism in the La0.87-xLnxSr0.13FeAsO (Ln = Sm, Gd, Dy) system" 2011 "Department of Physics, National Chung Hsing University, Taiwan, ROC" "J.Phys.Chem. Solids, 72(2011)442"
152953 PCS0720442 Tc defined as max of dR/dT "(La,Dy,Sr)FeAsO" La0.81Dy0.06Sr0.13Fe1As1O1 La 0.81 Dy 0.06 Sr 0.13 Fe 1 As 1 O 1 2011 ABCD oxypnictide A 8.7441 K 16.5 16.5 "Coexistence of superconductivity and magnetism in the La0.87-xLnxSr0.13FeAsO (Ln = Sm, Gd, Dy) system" 2011 "Department of Physics, National Chung Hsing University, Taiwan, ROC" "J.Phys.Chem. Solids, 72(2011)442"
152954 PRB083220512 Pressure by DAC. Phase transition (Ca-VI to Ca-VII) at about 210 GPa. Tc(onset) defined as deviation from normal linear T dependence of R. Ca-VII Ca1 Ca 1 2011 A K 29 0 29 MTC152954 Ca(4N) Superconducting state of Ca-VII below a critical temperature of 29 K at a pressure of 216 GPa 2011 "KYOKUGEN, Osaka University, Machikaneyama-cho, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.B, 83(2011)220512"
152955 PRB083224512 RRR = 38. Two s-wave gaps (d = 1.2 and 2.6 meV) obtained using SP-heat analysis. (dC/gamma*Tc) = 1.24. [gamma] = 8.5 mJ/mol.K2 at H=9T. LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 3 2011 ABC PbFCl P4/nmm K 16.9 16.9 91 meV 2.6 14 mJ/mol.K2 10 SP-heat 310 SP-heat uOhm.cm 15.2 self-flux method Specific heat and angle-resolved photoemission spectroscopy study of the superconducting gaps in LiFeAs 2011 "Institute for Solid State Research, IFW Dresden, DE-01171 Dresden, Germany" "Phys.Rev.B, 83(2011)224512"
152956 PHC4690326 Li:Fe:As = 1.00:1.03:1.00 from ICP. [gamma] obtained from analysis of the data for 10 < T < 20 K at H = 7T. LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 1 2009 ABC PbFCl P4/nmm A 3.7914 6.364 anti-PbFCl type K 18 18 18 MTC152956 K/GPa -1.56 100 mJ/mol.K2 22.5 SP-heat "Li(Na),FeAs" "mixture - (sealed in Nb-tube) - heat to 750C (1C/min) and hold(750C,4d) - slow cool to 150C(0.05C/min) - Q to RT" The synthesis and characterization of LiFeAs and NaFeAs 2009 "Department of Physics and TCSUH, University of Houston, Houston, TX 77204-5002, USA" "Physica C, 469(2009)326"
152957 PHC4690326 nominal x = 0.9 for NaxFeAs. SUS shows possibility of Tc = 25 K. NaFeAs Na0.9Fe1As1 Na 0.9 Fe 1 As 1 1 2009 ABC PbFCl P4/nmm A 3.9866 7.094 anti-PbFCl type K 12 18 18 10 "Li(Na),FeAs" "mixture - (sealed in Nb-tube) - heat to 750C (1C/min) and hold(750C,4d) - slow cool to 150C(0.05C/min) - Q to RT" The synthesis and characterization of LiFeAs and NaFeAs 2009 "Department of Physics and TCSUH, University of Houston, Houston, TX 77204-5002, USA" "Physica C, 469(2009)326"
152958 PRB084024502 "Two kinds of AF(Fe-itinerant(1) and Eu-localizedmoment(2)) observed. P-induced SC. SC appears only for 2.4 , P < 2.7 GPa." EuFe2As2 Eu1Fe2As2 Eu 1 Fe 2 As 2 3 2011 AB2C2 ThCr2Si2 K 25 0 25 MPH152958 100 self-flux method. starting(Eu:Fe:As = 1:5:5) - (sealed in double-quartz tube) - heat(1120C) - slow cool to 900 C within 72h Pressure-induced changes in the magnetic and valence state of EuFe2As2 2011 "Institute for Solid State Physics, The University of Tokyo, Kashiwanoha, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 84(2011)024502"
152959 PRL107047002 <75>As NQR measured. (Ca4Al2O6)Fe2As2 Ca4Al2Fe2As2O5.785 Ca 4 Al 2 Fe 2 As 2 O 6-z 5.785 1 2011 ThCr2Si2 A 3.71 14.4 Al-42622 K 27 27 Antiferromagnetic Spin Fluctuations and Unconventional Nodeless Superconductivity in an Iron-Based New Superconductor (Ca4Al2O6-y)(Fe2As2) : <75>As Nuclear Quadrupole Resonance Study 2011 "Graduate School of Engineering Science, Osaka University, Osaka 560-8531, Japan" "Phys.Rev.Lett., 107(2011)047002"
152960 APL097172506 [vols] at 5 K. Phase and Tc depend on O-content of nominal materials (Ca4Al2O6)Fe2As2 Ca4Al2Fe2As2O5.65 Ca 4 Al 2 Fe 2 As 2 O 6-z 5.65 1 2010 ThCr2Si2 A 3.713 15.407 Al-42622 K 23 28.3 26.8 26.8 115 "CaO,Al,As,P,Fe,Fe2O3" "high-P synthesis: mixture - pellet - heat(1150 C for As, 1300C for P, P=4.5 Gpa, for ih)" "Homologous series of iron pnictide oxide superconductors (Fe2As2)[Can+1(Sc,Ti)nOy] (n=3,4,5) with extremely thick blocking layers" 2010 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan and JST-TRIP, Sanban-cho, Chiyoda-ku, Tokyo 102-0075, Japan" "Appl.Phys.Lett., 97(2010)072506"
152961 APL097172506 [vols] at 5 K. Phase and Tc depend on O-content of nominal materials (Ca4Al2O6)Fe2P2 Ca4Al2Fe2P2O5.8 Ca 4 Al 2 Fe 2 P 2 O 6-z 5.8 1 2010 ThCr2Si2 A 3.692 14.934 Al-42622 K 6 17.1 17 17 96 "CaO,Al,As,P,Fe,Fe2O3" "high-P synthesis: mixture - pellet - heat(1150 C for As, 1300C for P, P=4.5 Gpa, for ih)" "Homologous series of iron pnictide oxide superconductors (Fe2As2)[Can+1(Sc,Ti)nOy] (n=3,4,5) with extremely thick blocking layers" 2010 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan and JST-TRIP, Sanban-cho, Chiyoda-ku, Tokyo 102-0075, Japan" "Appl.Phys.Lett., 97(2010)072506"
152962 APEX003063102 mean valence = 3.3. "Fe2As2(Sr4(Sc,Ti)3O8)" Fe2As2Sr4Sc1.8Ti1.2O8 Fe 2 As 2 Sr 4 Sc 1.8 Ti 1.2 O 8 1 2010 22438 I4/mmm A 4.024 35.546 K 30 28 28 13 "FeAs,SrO,Sr2O3,Ti,TiO2,Ba,BaO2" "mixture - pellet - (sealed in evacuated quartz ampoule) - heat(1000-1250 C, 40-120 h)" "New Iron Arsenide Oxides (Fe2As2)(Sr4(Sc,Ti)3O8), (Fe2As2)(Ba4Sc3O7.5), and (Fe2As2)(Ba3Sc2O5)" 2010 "1Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo, Tokyo 113-8656, Japa" "Appl.Phys.Exp., 3(2010)063102"
152963 APEX003063102 "Fe2As2(Sr4(Sc,Ti)3O8)" Fe2As2Sr4Sc1.5Ti1.5O8 Fe 2 As 2 Sr 4 Sc 1.5 Ti 1.5 O 8 1 2010 22438 I4/mmm A 4.01 35.294 K 22 22 "FeAs,SrO,Sr2O3,Ti,TiO2,Ba,BaO2" "mixture - pellet - (sealed in evacuated quartz ampoule) - heat(1000-1250 C, 40-120 h)" "New Iron Arsenide Oxides (Fe2As2)(Sr4(Sc,Ti)3O8), (Fe2As2)(Ba4Sc3O7.5), and (Fe2As2)(Ba3Sc2O5)" 2010 "1Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo, Tokyo 113-8656, Japa" "Appl.Phys.Exp., 3(2010)063102"
152964 APEX003063102 "Fe2As2(Sr4(Sc,Ti)3O8)" Fe2As2Sr4Sc1.2Ti1.8O8 Fe 2 As 2 Sr 4 Sc 1.2 Ti 1.8 O 8 1 2010 22438 I4/mmm A 4.006 35.032 K 2 0 "FeAs,SrO,Sr2O3,Ti,TiO2,Ba,BaO2" "mixture - pellet - (sealed in evacuated quartz ampoule) - heat(1000-1250 C, 40-120 h)" "New Iron Arsenide Oxides (Fe2As2)(Sr4(Sc,Ti)3O8), (Fe2As2)(Ba4Sc3O7.5), and (Fe2As2)(Ba3Sc2O5)" 2010 "1Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo, Tokyo 113-8656, Japa" "Appl.Phys.Exp., 3(2010)063102"
152965 APEX003063102 Fe2As2Ba4Sc3O7.5 Fe2As2Ba4Sc3O7.5 Fe 2 As 2 Ba 4 Sc 3 O 7.5 1 2010 22438 I4/mmm A 4.123 37.565 K 13 11 11 "FeAs,SrO,Sr2O3,Ti,TiO2,Ba,BaO2" "mixture - pellet - (sealed in evacuated quartz ampoule) - heat(1000-1250 C, 40-120 h)" "New Iron Arsenide Oxides (Fe2As2)(Sr4(Sc,Ti)3O8), (Fe2As2)(Ba4Sc3O7.5), and (Fe2As2)(Ba3Sc2O5)" 2010 "1Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo, Tokyo 113-8656, Japa" "Appl.Phys.Exp., 3(2010)063102"
152966 APEX003063102 Fe2As2Ba3Sc2O5 Fe2As2Ba3Sc2O5 Fe 2 As 2 Ba 3 Sc 2 O 5 1 2010 22325 I4/mmm A 4.133 28.355 K 2 "FeAs,SrO,Sr2O3,Ti,TiO2,Ba,BaO2" "mixture - pellet - (sealed in evacuated quartz ampoule) - heat(1000-1250 C, 40-120 h)" "New Iron Arsenide Oxides (Fe2As2)(Sr4(Sc,Ti)3O8), (Fe2As2)(Ba4Sc3O7.5), and (Fe2As2)(Ba3Sc2O5)" 2010 "1Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo, Tokyo 113-8656, Japa" "Appl.Phys.Exp., 3(2010)063102"
152969 PRB084014519 magnetic transition = 54.4 K. Pseudogap temp (Rmax) = 174 K. "Ba(Fe,Rh)2As2" Ba1Fe1.922Rh0.078As2 Ba 1 Fe 1.922 Rh 0.078 As 2 3 2011 AB2C2 ThCr2Si2 K 17.8 17.8 "Systematics of the temperature-dependent interplane resistivity in Ba(Fe1-xMx)2As2 (M = Co, Rh, Ni, and Pd)" 2011 "Ames Laboratory US DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 84(2011)014519"
152970 PRB084014519 Pseudogap temp (Rmax) = 174 K. "Ba(Fe,Rh)2As2" Ba1Fe1.848Rh0.152As2 Ba 1 Fe 1.848 Rh 0.152 As 2 3 2011 AB2C2 ThCr2Si2 K 22.2 22.2 "Systematics of the temperature-dependent interplane resistivity in Ba(Fe1-xMx)2As2 (M = Co, Rh, Ni, and Pd)" 2011 "Ames Laboratory US DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 84(2011)014519"
152972 PRB084014519 Pseudogap temp (Rmax) = 122 K. "Ba(Fe,Rh)2As2" Ba1Fe1.738Rh0.262As2 Ba 1 Fe 1.738 Rh 0.262 As 2 3 2011 AB2C2 ThCr2Si2 K 8.3 8.3 "Systematics of the temperature-dependent interplane resistivity in Ba(Fe1-xMx)2As2 (M = Co, Rh, Ni, and Pd)" 2011 "Ames Laboratory US DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 84(2011)014519"
152973 PRB084014519 magnetic transition = 79.8 K. Pseudogap temp (Rmax) = 143 K. structural transition T = 90.0 K. "Ba(Fe,Pd)2As2" Ba1Fe1.958Pd0.042As2 Ba 1 Fe 1.958 Pd 0.042 As 2 3 2011 AB2C2 ThCr2Si2 K 4.1 4.1 "Systematics of the temperature-dependent interplane resistivity in Ba(Fe1-xMx)2As2 (M = Co, Rh, Ni, and Pd)" 2011 "Ames Laboratory US DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 84(2011)014519"
152974 PRB084014519 magnetic transition = 50.1 K. Pseudogap temp (Rmax) = 123 K. structural transition T = 66.0 K "Ba(Fe,Pd)2As2" Ba1Fe1.946Pd0.054As2 Ba 1 Fe 1.946 Pd 0.054 As 2 3 2011 AB2C2 ThCr2Si2 K 12.3 12.3 "Systematics of the temperature-dependent interplane resistivity in Ba(Fe1-xMx)2As2 (M = Co, Rh, Ni, and Pd)" 2011 "Ames Laboratory US DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 84(2011)014519"
152975 PRB084014519 Pseudogap temp (Rmax) = 109 K. structural transition T = 45.0 K "Ba(Fe,Pd)2As2" Ba1Fe1.94Pd0.06As2 Ba 1 Fe 1.94 Pd 0.06 As 2 3 2011 AB2C2 ThCr2Si2 K 16.4 16.4 "Systematics of the temperature-dependent interplane resistivity in Ba(Fe1-xMx)2As2 (M = Co, Rh, Ni, and Pd)" 2011 "Ames Laboratory US DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 84(2011)014519"
152976 PRB084014519 Pseudogap temp (Rmax) = 82.9 K. "Ba(Fe,Pd)2As2" Ba1Fe1.894Pd0.106As2 Ba 1 Fe 1.894 Pd 0.106 As 2 3 2011 AB2C2 ThCr2Si2 K 13.3 13.3 "Systematics of the temperature-dependent interplane resistivity in Ba(Fe1-xMx)2As2 (M = Co, Rh, Ni, and Pd)" 2011 "Ames Laboratory US DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 84(2011)014519"
152977 PRB084014519 Pseudogap temp (Rmax) = 38.4 K. "Ba(Fe,Pd)2As2" Ba1Fe1.866Pd0.134As2 Ba 1 Fe 1.866 Pd 0.134 As 2 3 2011 AB2C2 ThCr2Si2 K 7.16 7.16 "Systematics of the temperature-dependent interplane resistivity in Ba(Fe1-xMx)2As2 (M = Co, Rh, Ni, and Pd)" 2011 "Ames Laboratory US DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 84(2011)014519"
152978 PRB084014519 magnetic transition = 65.5 K. Pseudogap temp (Rmax) = 109 K. structural transition T = 81.8 K "Ba(Fe,Ni)2As2" Ba1Fe1.952Ni0.048As2 Ba 1 Fe 1.952 Ni 0.048 As 2 3 2011 AB2C2 ThCr2Si2 K 4.1 4.1 "Systematics of the temperature-dependent interplane resistivity in Ba(Fe1-xMx)2As2 (M = Co, Rh, Ni, and Pd)" 2011 "Ames Laboratory US DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 84(2011)014519"
152979 PRB084014519 magnetic transition = 36.3 K. Pseudogap temp (Rmax) = 92.1 K. structural transition T = 55.8 K "Ba(Fe,Ni)2As2" Ba1Fe1.936Ni0.064As2 Ba 1 Fe 1.936 Ni 0.064 As 2 3 2011 AB2C2 ThCr2Si2 K 14.8 14.8 "Systematics of the temperature-dependent interplane resistivity in Ba(Fe1-xMx)2As2 (M = Co, Rh, Ni, and Pd)" 2011 "Ames Laboratory US DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 84(2011)014519"
152980 PRB084014519 Pseudogap temp (Rmax) = 74.2 K "Ba(Fe,Ni)2As2" Ba1Fe1.908Ni0.092As2 Ba 1 Fe 1.908 Ni 0.092 As 2 3 2011 AB2C2 ThCr2Si2 K 18.9 18.9 MTC152980 "Systematics of the temperature-dependent interplane resistivity in Ba(Fe1-xMx)2As2 (M = Co, Rh, Ni, and Pd)" 2011 "Ames Laboratory US DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 84(2011)014519"
152981 PRB084014519 Pseudogap temp (Rmax) = 59.8 K "Ba(Fe,Ni)2As2" Ba1Fe1.892Ni0.108As2 Ba 1 Fe 1.892 Ni 0.108 As 2 3 2011 AB2C2 ThCr2Si2 K 14.8 14.8 "Systematics of the temperature-dependent interplane resistivity in Ba(Fe1-xMx)2As2 (M = Co, Rh, Ni, and Pd)" 2011 "Ames Laboratory US DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 84(2011)014519"
152982 PRB084014519 Pseudogap temp (Rmax) = 36.3 K "Ba(Fe,Ni)2As2" Ba1Fe1.856Ni0.144As2 Ba 1 Fe 1.856 Ni 0.144 As 2 3 2011 AB2C2 ThCr2Si2 K 6.14 6.14 "Systematics of the temperature-dependent interplane resistivity in Ba(Fe1-xMx)2As2 (M = Co, Rh, Ni, and Pd)" 2011 "Ames Laboratory US DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 84(2011)014519"
152983 PHC2330077 d=2000 A energy gap estimated by T-dependence of [penet] "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 4 1994 T' K 20.9 20.9 A ac-SUS 1810 4.28 5 "pulsed laser deposition under N2O atmosphere, on YSZ substrates (720-820 C)" Penetration depth measurements for Nd1.85Ce0.15CuO4 and NbCN thin films using a kinetic inductance technique 1994 11 "Physica C,233 (1994) 77-84" "Nd,Ce,Cu,O"
152984 PHC2330077 d=1100 A energy gap estimated by T-dependence of [penet] "(Nd,Ce)2CuO4" Nd1.85Ce0.15Cu1O4 Nd 1.85 Ce 0.15 Cu 1 O 4 4 1994 T' K 19.4 19.4 A ac-SUS 1610 4.2 5 "pulsed laser deposition under N2O atmosphere, on YSZ substrates (720-820 C)" Penetration depth measurements for Nd1.85Ce0.15CuO4 and NbCN thin films using a kinetic inductance technique 1994 11 "Physica C,233 (1994) 77-84" "Nd,Ce,Cu,O"
152985 PHC2330077 "substrats; silica, d=800 A. energy gap estimated by T-dependence of [penet]" NbCN Nb1C1N1 Nb 1 C 1 N 1 4 1994 K 15.75 15.75 A ac-SUS 2250 4.46 5 "reactive DC-magnetron sputtering. sputtering gas : 3.2 Pa(1.3%-C2H2, 30%-N2, Ar). deposition rates = 1.3 nm/s on substrates(850 C" Penetration depth measurements for Nd1.85Ce0.15CuO4 and NbCN thin films using a kinetic inductance technique 1994 11 "Physica C,233 (1994) 77-84" "Nd,Ce,Cu,O"
152986 PHC2330077 "substrats; saphire(c-plane), d=800 A. energy gap estimated by T-dependence of [penet]" NbCN Nb1C1N1 Nb 1 C 1 N 1 5 1994 K 16.5 16.5 A ac-SUS 1340 4.3 5 "reactive DC-magnetron sputtering. sputtering gas : 3.2 Pa(1.3%-C2H2, 30%-N2, Ar). deposition rates = 1.3 nm/s on substrates(850 C" Penetration depth measurements for Nd1.85Ce0.15CuO4 and NbCN thin films using a kinetic inductance technique 1994 11 "Physica C,233 (1994) 77-84" "Nd,Ce,Cu,O"
152987 JPS080074706 "RRR=500-1400. NMR for <1>H, <14>N, <19>F, <109>Ag were measured (B=1-16 T)" Ag6O8Ag(NO3) Ag7N1O11 Ag 7 N 1 O 11 3 2011 clathrate A 9.89 K 1.04 1.04 uOhm.cm 0.2 Guest Molecular Dynamics in Superconducting Clathrates Ag6O8AgX (X = NO3 and HF2): NMR Investigation 2011 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "J.Phys.Soc.Jpn., 80(2011)074706"
152988 JPS080074706 "RRR=15. NMR for <1>H, <14>N, <19>F, <109>Ag were measured (B=1-16 T)" Ag6O8Ag(HF2) Ag7H1F2O8 Ag 7 H 1 F 2 O 8 3 2011 clathrate A 9.82 K 1.38 1.38 uOhm.cm 29 Guest Molecular Dynamics in Superconducting Clathrates Ag6O8AgX (X = NO3 and HF2): NMR Investigation 2011 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "J.Phys.Soc.Jpn., 80(2011)074706"
152989 PRL0170917 "R(T) anomalies at 220, 180(cubic-to-tetra transition), 110 K. GL-parameter=about 100. thermodynamic Hc(0) = 57 Oe." Ag6O8Ag(NO3) Ag7N1O11 Ag 7 N 1 O 11 3 1966 clathrate A 9.893 K 1.04 1.04 mJ/mol.K2 0.05 electrolytic oxidation of aqueous solutions of AgX Metallic conductivity and superconductivity in some silver clathrate salts 1966 "Bell Telephone Lab,New Jersey,USA" "Phys.Rev.Lett., 17(1966)917"
152990 PRL0170917 Ag6O8Ag(F) Ag7F1O8 Ag 7 F 1 O 8 3 1966 clathrate A 9.833 K 0.3 0.3 electrolytic oxidation of aqueous solutions of AgX Metallic conductivity and superconductivity in some silver clathrate salts 1966 "Bell Telephone Lab,New Jersey,USA" "Phys.Rev.Lett., 17(1966)917"
152991 PRL0170917 Ag6O8Ag(BF4) Ag7B1F4O8 Ag 7 B 1 F 4 O 8 3 1966 clathrate A 9.942 K 0.15 0.15 electrolytic oxidation of aqueous solutions of AgX Metallic conductivity and superconductivity in some silver clathrate salts 1966 "Bell Telephone Lab,New Jersey,USA" "Phys.Rev.Lett., 17(1966)917"
152993 PHC4701048 main phase: Zr2Co Zr55Co30Al15 Zr55Co30Al15 Zr 55 Co 30 Al 15 2 2010 K 2.4 2.4 87 Ar-arc-melting - tilt casting in Ar - metallic glass (thickness 5mm) Superconducting property of Zr-Co and Zr-Co-Al alloys fabricated by rapid solidification 2010 "Department of Materials Science and Chemistry, Graduate School of Engineering, University of Hyogo, 2167 Shosha, Himeji 671-2280, Japan" "Physica C, 470(2010)1048"
152994 PHC4701048 "ANN(1000K, in vac), ZrCo, Zr2Co, Zr6CoAl2 are in amorphous phase. glass transition at 797 K." Zr85Co15 Co15Zr85 Co 15 Zr 85 2 2010 K 3.3 3.3 MTC152994 rappid solidification using melt spun technique Superconducting property of Zr-Co and Zr-Co-Al alloys fabricated by rapid solidification 2010 "Department of Materials Science and Chemistry, Graduate School of Engineering, University of Hyogo, 2167 Shosha, Himeji 671-2280, Japan" "Physica C, 470(2010)1048"
152995 MSE4490548 as-cast. amorphous. Zr55Cu30Al10Ni5 Zr55Cu30Al10Ni5 Zr 55 Cu 30 Al 10 Ni 5 2007 AMOR K 1.7 arc-melting - squeeze casting method - amorphous sample Temperature dependence of electrical resistivity of Zr-Cu-Al-Ni-Nb bulk metallic glasses below 300K 2007 "Department of Materials Science and Chemistry, Graduate School of Engineering, University of Hyogo, 2167 Shosha, Himeji 671-2280, Japan" "Mat.Sci.Eng. A, 449(2007)548"
152996 MSE4490548 "annealed sample. crystallized. Zr2Cu(Tc=2.2K), ZrCu, Zr2Ni(Tc=2.75K),Zr3Al, and unknown phases are observed." Zr55Cu30Al10Ni5 Zr55Cu30Al10Ni5 Zr 55 Cu 30 Al 10 Ni 5 2007 K 2.7 2.7 arc-melting - squeeze casting method - amorphous sample Temperature dependence of electrical resistivity of Zr-Cu-Al-Ni-Nb bulk metallic glasses below 300K 2007 "Department of Materials Science and Chemistry, Graduate School of Engineering, University of Hyogo, 2167 Shosha, Himeji 671-2280, Japan" "Mat.Sci.Eng. A, 449(2007)548"
152997 MSE4490548 crystallites(grain size=5-8 nm) are in amorphous phase. "Zr55(Cu,Nb)30Al10Ni5" Zr55Cu25Nb5Al10Ni5 Zr 55 Cu 25 Nb 5 Al 10 Ni 5 2007 K 3 3 arc-melting - squeeze casting method - amorphous sample Temperature dependence of electrical resistivity of Zr-Cu-Al-Ni-Nb bulk metallic glasses below 300K 2007 "Department of Materials Science and Chemistry, Graduate School of Engineering, University of Hyogo, 2167 Shosha, Himeji 671-2280, Japan" "Mat.Sci.Eng. A, 449(2007)548"
152998 PRB084052503 "H//ab direction. Hc1, Hc2 from dc-M measurements. Hc3 from ac SUS. Hc3/Hc2 = 4.4. -(dHc3/dT) = 4.0 T/K at Tc. GL parameter = 58." K0.75Fe1.68Se2 K0.75Fe1.68Se2 K 0.75 Fe 1.68 Se 2 3 2011 AB2C2 ThCr2Si2 K 31 31 Oe M-H curve 130 T dc-M 19.3 T/K dc-M 0.9 MHC152998 A from Hc2 100 A "from Hc1, Hc2," 5800 flux method Superconducting critical fields of single-crystalline K0.73Fe1.68Se2 2011 "The Racah Institute of Physics, The Hebrew University of Jerusalem, 91904 Jerusalem, Israel" "Phys.Rev.B, 84(2011)052503"
152999 PRB083100514 "R(max) at 220 K. [pcohere] calculated from Hc2=60 T(extrapolated value, not WHH). Anisotropy(max) = 3.6 (27K). measured values = pHc2(18K)=54 T, nHc2(1.6K)=56 T." K0.8Fe1.76Se2 K0.8Fe1.76Se2 K 0.8 Fe 1.76 Se 2 3 2011 AB2C2 ThCr2Si2 K 32.2 32.2 T "resistivity,pulsed field, WHH" 102 31 T/K 4.6 1.4 MHC152999 A 23 14 single crystals from melt process Anisotropic Hc2 of K0.8Fe1.76Se2 determined up to 60 T 2011 "National High Magnetic Field Laboratory, Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 83(2011)100514"
153000 EPL09347004 "compositions from EDXS. Hc2 defined as onset. anisotropy = 30-80 (Rc/Rab), and 5.0 (Hc2) at Tc." "(Tl,Rb)Fe1.72Se2" Tl0.58Rb0.42Fe1.72Se2 Tl 0.58 Rb 0.42 Fe 1.72 Se 2 3 2011 AB2C2 ThCr2Si2 I4/mmm A 3.896 14.303 K 31.4 31.5 32 31.5 98 T "resistivity, WHH" 221 44.2 T/K resistivity 10 2 MHC153000 m3/C 2.40E-09 MRH153000 "Rb2Se,Tl2Se,Fe,Se" "Bridgeman method. mixture - (alumina crucible in sealed silica) - heat(950C,6h) - cool to 700C (3C/h) - RT" Superconductivity at 32K and anisotropy in Tl0.58Rb0.42Fe1.72Se2 crystals 2011 "Department of Physics, Zhejiang University - Hangzhou 310027, China" "EuroPhys.Lett., 93(2011)47004"
153001 PRB084054513 topological SC. high-Tc samples have low SC volume fraction. SC appears for 0.1 < x < 0.6 in CuxBi2Se3. CuxBi2Se3 Cu0.4Bi2Se3 Cu 0.4 Bi 2 Se 3 3 2011 R3[-]m 166 K 3.09 3.09 MTC153001 48.8 mOhm.cm 1.16 m3/C -2.66E-08 "Bi(6N),Se(5N)" "single crystal Bi2Se3 synthesized by melting, slow cooling.. Cu-doping by acting as working electrode of 0.5 mm Cu wire." Electrochemical synthesis and superconducting phase diagram of CuxBi2Se3 2011 "Institute of Scientific and Industrial Research, Osaka University, Osaka 567-0047, Japan" "Phys.Rev.B, 84(2011)054513"
153002 PRB084054507 isotropic energy gap without nodes from thermal conductivity measurements for heat current direction of J//c and J//ab.absolute gap values not given. LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 3 2011 ABC PbFCl K 18 18 T "thermopower, extrapolation" 18 MHC153002 uV/K MTP153002 Bridgeman method using W-crucible. Isotropic three-dimensional gap in the iron arsenide superconductor LiFeAs from directional heat transport measurements 2011 "The Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 84(2011)054507"
153003 PRB083060502 "anisotropy(Hc2) = 2.5 at Tc. Hc2 = 51 and 22.3 T for H//ab and H//c, respectively, estimated using WHH theory." LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 3 2011 ABC PbFCl K 17.8 17.8 T "TDR, extrapolation" 26 17 MHC153003 Bridgeman method using W-crucible Anisotropic upper critical field and possible Fulde-Ferrel-Larkin-Ovchinnikov state in the stoichiometric pnictide superconductor LiFeAs 2011 "Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 83(2011)060502"
153004 PRB083174506 compositions determined by ICP. RRR = 24. anisotropy = 1.5 (T=1.4K) and =2.5 at near Tc LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 3 2011 ABC PbFCl K 17.5 17 17.5 T "resistivity, extrapolation" 24.2 15 T/K resistivity 3.3 1.2 MHC153004 A from Hc2 48 17 mOhm.cm 0.05 "Li3As,Fe,As" "self-flux method. heat(800C,10h) - heat(1100C,10h) - slow cool to 800C (5C/h)" Upper critical field and its anisotropy in LiFeAs 2011 "Department of Physics, Zhejiang University, Hangzhou, Zhejiang 310027, China" "Phys.Rev.B, 83(2011)174506"
153005 PRB084054521 Hc2 defined by ac-SUS and SP-heat Li2Pd3B Li2Pd3B1 Li 2 Pd 3 B 1 1 2011 AB2C3 K 7.46 7.46 T "ac-SUS, extrapolation" 4.08 MHC153005 A from Hc2 90 "Li(3N),Pt(5N),Pd(3N),B(2N)" two step arc-melting using excess Li. Magnetic phase diagram of Li2(Pd1-xPtx)3B by ac susceptometry 2011 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 84(2011)054521"
153006 PRB084054521 Hc2 defined by ac-SUS and SP-heat "Li2(Pd,Pt)3B" Li2Pd2.85Pt0.15B1 Li 2 Pd 2.85 Pt 0.15 B 1 1 2011 AB2C3 K 6.4 6.4 T "ac-SUS, extrapolation" 3.6 MHC153006 A from Hc2 96 "Li(3N),Pt(5N),Pd(3N),B(2N)" two step arc-melting using excess Li. Magnetic phase diagram of Li2(Pd1-xPtx)3B by ac susceptometry 2011 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 84(2011)054521"
153007 PRB084054521 Hc2 defined by ac-SUS and SP-heat "Li2(Pd,Pt)3B" Li2Pd2.4Pt0.6B1 Li 2 Pd 2.4 Pt 0.6 B 1 1 2011 AB2C3 K 5.47 5.47 T "ac-SUS, extrapolation" 3.25 MHC153007 A from Hc2 100 "Li(3N),Pt(5N),Pd(3N),B(2N)" two step arc-melting using excess Li. Magnetic phase diagram of Li2(Pd1-xPtx)3B by ac susceptometry 2011 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 84(2011)054521"
153008 PRB084054521 Hc2 defined by ac-SUS and SP-heat "Li2(Pd,Pt)3B" Li2Pd1.5Pt1.5B1 Li 2 Pd 1.5 Pt 1.5 B 1 1 2011 AB2C3 K 4.36 4.36 T "ac-SUS, extrapolation" 2.17 MHC153008 A from Hc2 123 "Li(3N),Pt(5N),Pd(3N),B(2N)" two step arc-melting using excess Li. Magnetic phase diagram of Li2(Pd1-xPtx)3B by ac susceptometry 2011 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 84(2011)054521"
153009 PRB084054521 Hc2 defined by ac-SUS and SP-heat "Li2(Pd,Pt)3B" Li2Pd0.48Pt2.52B1 Li 2 Pd 0.48 Pt 2.52 B 1 1 2011 AB2C3 K 3.07 3.07 T "ac-SUS, extrapolation" 1.41 MHC153009 A from Hc2 155 "Li(3N),Pt(5N),Pd(3N),B(2N)" two step arc-melting using excess Li. Magnetic phase diagram of Li2(Pd1-xPtx)3B by ac susceptometry 2011 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 84(2011)054521"
153010 PRB084054521 Hc2 defined by ac-SUS and SP-heat "Li2(Pd,Pt)3B" Li2Pd0.3Pt2.7B1 Li 2 Pd 0.3 Pt 2.7 B 1 1 2011 AB2C3 K 3.37 3.37 T "ac-SUS, extrapolation" 1.56 MHC153010 A from Hc2 147 "Li(3N),Pt(5N),Pd(3N),B(2N)" two step arc-melting using excess Li. Magnetic phase diagram of Li2(Pd1-xPtx)3B by ac susceptometry 2011 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 84(2011)054521"
153011 PRB084054521 Hc2 defined by ac-SUS and SP-heat Li2Pt3B Li2Pt3B1 Li 2 Pt 3 B 1 1 2011 AB2C3 K 3.12 3.12 T "ac-SUS, extrapolation" 1.48 MHC153011 A from Hc2 151 "Li(3N),Pt(5N),Pd(3N),B(2N)" two step arc-melting using excess Li. Magnetic phase diagram of Li2(Pd1-xPtx)3B by ac susceptometry 2011 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 84(2011)054521"
153012 PHC470S762 "RRR = 4.3, Hc2(0) = 0.385 T using WHH. thermodynamic Hc(0) = 6.5 mT. GL parameter = 48. TP300 shows one for 285 K." CaIrSi3 Ca1Ir1Si3 Ca 1 Ir 1 Si 3 2010 ABC3 I4mm A 4.19 9.86 K 3.2 3 0.22 3 T "ac-SUS, extrapolation" 0.44 T/K ac-SUS 0.186 MHC153012 A from Hc2 270 mJ/mol.K2 0.377 SP-heat W/K.m 3.84 uV/K -100 mOhm.cm 0.013 "CaSi(3N),Ir(4N),Si(5N)" mixture - press to rod - melt in image furnace(1900K) - cool slowly Superconducting properties of noncentrosymmetric CaIrSi3 2010 "aDepartment of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "Physica C, 470(2010)S762"
153013 PRB084054526 compositions by EDX. thermopower S/T = -0.48 uV/K2 for T=0 K extrapolated from normal values. KxFeySe2 K0.64Fe1.44Se2 K 0.64 Fe 1.44 Se 2 3 2011 AB2C2 ThCr2Si2 K 31 31 mJ/mol.K2 6 SP-heat W/K.m 5.05 uV/K -152 single crystals were grown from nominal (K:Fe:Se:S = 0.8:2:2-z:z) Evolution of correlation strength in KxFe2- ySe2 superconductor doped with S 2011 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 84(2011)054526"
153014 PRB084054526 compositions by EDX. thermopower S/T = -0.38 uV/K2 for T=0 K extrapolated from normal values. "KxFey(Se,S)2" K0.73Fe1.44Se1.68S0.32 K 0.73 Fe 1.44 Se 1.68 S 0.32 3 2011 AB2C2 ThCr2Si2 K 31.4 31.4 mJ/mol.K2 3.5 SP-heat uV/K -93.4 single crystals were grown from nominal (K:Fe:Se:S = 0.8:2:2-z:z) Evolution of correlation strength in KxFe2- ySe2 superconductor doped with S 2011 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 84(2011)054526"
153015 PRB084054526 compositions by EDX. thermopower S/T = -0.11 uV/K2 for T=0 K extrapolated from normal values. "KxFey(Se,S)2" K0.7Fe1.55Se1.01S0.99 K 0.7 Fe 1.55 Se 1.01 S 0.99 3 2011 AB2C2 ThCr2Si2 K 21.4 21.4 mJ/mol.K2 2.8 SP-heat W/K.m 3.66 uV/K -46.9 single crystals were grown from nominal (K:Fe:Se:S = 0.8:2:2-z:z) Evolution of correlation strength in KxFe2- ySe2 superconductor doped with S 2011 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 84(2011)054526"
153016 PRB084054526 compositions by EDX. thermopower S/T = -0.13 uV/K2 for T=0 K extrapolated from normal values. "KxFey(Se,S)2" K0.76Fe1.61Se0.96S1.04 K 0.76 Fe 1.61 Se 0.96 S 1.04 3 2011 AB2C2 ThCr2Si2 K 16.4 16.4 mJ/mol.K2 1.5 SP-heat W/K.m 8.13 uV/K -2.86 single crystals were grown from nominal (K:Fe:Se:S = 0.8:2:2-z:z) Evolution of correlation strength in KxFe2- ySe2 superconductor doped with S 2011 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 84(2011)054526"
153017 PRB084054526 K and Fe content not given. "KxFey(Se,S)2" K0.8Fe2Se0.42S1.58 K 0.8 Fe 2 Se 0.42 S 1.58 3 2011 AB2C2 ThCr2Si2 K 1.9 single crystals were grown from nominal (K:Fe:Se:S = 0.8:2:2-z:z) Evolution of correlation strength in KxFe2- ySe2 superconductor doped with S 2011 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 84(2011)054526"
153018 PRB083180503 XRD data shows K0.88Fe1.63S2. space-G = I4/m. spin glass state below 32 K. [RESN] = 11.7 mOhm.cm estimated from R(T) between 70 and 300 K. KxFe2S2 K0.2Fe2S2 K 0.2 Fe 2 S 2 3 2011 AB2C2 ThCr2Si2 I4/m A 8.3984 13.5988 K 1.8 mJ/mol.K2 1.58 SP-heat 284 SP-heat mOhm.cm 11.7 100 single crystals grown via self flux method with nominal (K:Fe:S = 0.8:2:2) Spin-glass behavior of semiconducting KxFe2-yS2 2011 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 83(2011)180503"
153019 PRB083174503 "TP(120 K) = -58.7 uV/K. THC has a peak value (3.27 W/K.m) at 23.5 K (from Fig.), but text says 17 K." KxFe2Se2 K0.65Fe1.41Se2 K 0.65 Fe 1.41 Se 2 3 2011 AB2C2 ThCr2Si2 K 32 32 W/K.m MTHC153019 uV/K MTP153019 single crystals grown via self flux method Thermoelectric studies of KxFe2-ySe2 indicating a weakly correlated superconductor 2011 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 83(2011)174503"
153020 PRB084054531 "CDW not exist down to 0.1K by STM. Two-gap model is best fitting for penet(T) data by TDO. small gap = 1.05 , large gap = 1.8 kTc." 2H-NbS2 Nb1S2 Nb 1 S 2 3 2011 AB2 2H-NbSe2 MX2 K 6.05 0.3 6.05 3.6 vapor transport method with excess S. In-plane magnetic penetration depth in NbS2 2011 "Institut Neel, CNRS/UJF 25 rue des Martyrs, BP 166, F-38042 Grenoble cedex 9, France" "Phys.Rev.B, 84(2011)054531"
153021 PRB082014518 "sample: 500*500*30 um3. SP-heat measured down to 0.6 K, up to 8T.Two-gap model fitting: (2d/kTc) = 2.1 (small), and = 4.6 (large). Anisotropy (Hc2) = 7.5" 2H-NbS2 Nb1S2 Nb 1 S 2 3 2010 AB2 2H-NbSe2 MX2 K 6.05 0.4 6.05 T SP-heat MHC153021 4.6 14 vapor transport method with excess S. Specific heat measurements of a superconducting NbS2 single crystal in an external magnetic field: Energy gap structure 2010 "Centre of Very Low Temperature Physics at Institute of Experimental Physics, Slovak Academy of Sciences, Watsonova 47, SK-04001 Kosice, Slovakia" "Phys.Rev.B, 82(2010)014518"
153022 PRL101166407 "STM, tunneling. Two gaps observed: d(S) = 0.53 meV, 2d(S) = 2.07 kTc and d(L) = 0.93 meV, 2d(L) = 3.79 kTc. Ordered vortex lattice is observed at 0.1 K, H-0.15 T." 2H-NbS2 Nb1S2 Nb 1 S 2 3 2008 AB2 2H-NbSe2 MX2 K 5.7 5.7 meV 0.93 3.79 1 "See Inorg.Chem.,19(1980)39" Superconducting Density of States and Vortex Cores of 2H-NbS2 2008 "Laboratorio de Bajas Temperaturas, Departamento de Fisica de la Materia Condensada, E-28049 Madrid, Spain" "Phys.Rev.Lett., 101(2008)166407"
153023 PRB076212504 "SP-heat C(T,H) measured. gap(L) = 1.26 meV, gap(S) = 0.73 meV, DOS(SC) = 20 % are obtained from C(T,H) analysis. (dC/gamma*Tc) = 2.12. (delta) = 2.7E-4 mJ/mol.K6" 2H-NbSe2 Nb1Se2 Nb 1 Se 2 3 2007 AB2 2H-NbSe2 MX2 K 6.7 6.7 meV 1.26 4.36 14 mJ/mol.K2 19.09 SP-heat 224 SP-heat "Nb(3N),Se(5N)" vapor transport method. Experimental evidence for a two-gap structure of superconducting NbSe2: A specific-heat study in external magnetic fields 2007 "Department of Physics, Center of Nanoscience and Nanotechnology, National Sun Yat-Sen University, Kaohsiung 804, Taiwan" "Phys.Rev.B, 76(2007)212504"
153024 MAT1104.2318 "compositions by EDX. anisotropy (Hc2,T=0) = 4.25" "KxFey(Se,S)2" Nb0.7Fe1.55Se1.01S0.99 Nb 0.7 Fe 1.55 Se 1.01 S 0.99 3 2011 AB2C2 2H-NbSe2 MX2 K 23.5 23.5 T "resistivity, WHH" 44.69 10.51 T/K "resistivity, R=0.9Rn" 2.74 0.649 MHC153024 A from Hc2 56 13.2 Upper critical fields and superconducting anisotropy of K0.70Fe1.55Se1.01S0.99 and K0.76Fe1.61Se0.96S1.04 single crystals 2011 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" cond-mat/1104.2318
153025 MAT1104.2318 "compositions by EDX. anisotropy (Hc2,T=0) = 6.34" "KxFey(Se,S)2" Nb0.76Fe1.61Se0.96S1.04 Nb 0.76 Fe 1.61 Se 0.96 S 1.04 3 2011 AB2C2 2H-NbSe2 MX2 K 18 18 T "resistivity, WHH" 39.22 6.19 T/K "resistivity, R=0.9Rn" 3.15 0.499 MHC153025 A from Hc2 72.9 11.5 Upper critical fields and superconducting anisotropy of K0.70Fe1.55Se1.01S0.99 and K0.76Fe1.61Se0.96S1.04 single crystals 2011 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" cond-mat/1104.2318
153026 PRB084054534 RRR = 11 . cleaved sample(ab-plane) . Co-content = 3.6% by EDX. "Li(Fe,Co)As" Li1Fe0.975Co0.025As1 Li 1 Fe 0.975 Co 0.025 As 1 3 2011 ABC PbFCl K 13.4 13.8 1.1 13.8 "self-flux method. small lumps of Li were added to mixture(fe,Co,As). nominal: Li:(Fe,Co):As = 3:2:3. heat(1363K,18h) - hold(5h) - cool to 873K (4.5 K/H)" Suppressed superconductivity in charge-doped Li(Fe1-xCox)As single crystals 2011 "Leibniz Institute for Solid State and Materials Research, D-01069 Dresden, Germany" "Phys.Rev.B, 84(2011)054534"
153027 PRB084054534 RRR = 7. cleaved sample(ab-plane) . Co-content = 5.6% by EDX. "Li(Fe,Co)As" Li1Fe0.95Co0.05As1 Li 1 Fe 0.95 Co 0.05 As 1 3 2011 ABC PbFCl K 11.2 10.8 1.2 10.8 "self-flux method. small lumps of Li were added to mixture(fe,Co,As). nominal: Li:(Fe,Co):As = 3:2:3. heat(1363K,18h) - hold(5h) - cool to 873K (4.5 K/H)" Suppressed superconductivity in charge-doped Li(Fe1-xCox)As single crystals 2011 "Leibniz Institute for Solid State and Materials Research, D-01069 Dresden, Germany" "Phys.Rev.B, 84(2011)054534"
153028 PRB084054534 RRR = 24 LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 3 2011 ABC PbFCl K 15.6 16.8 0.7 16.8 "self-flux method. small lumps of Li were added to mixture(fe,Co,As). nominal: Li:(Fe,Co):As = 3:2:3. heat(1363K,18h) - hold(5h) - cool to 873K (4.5 K/H)" Suppressed superconductivity in charge-doped Li(Fe1-xCox)As single crystals 2011 "Leibniz Institute for Solid State and Materials Research, D-01069 Dresden, Germany" "Phys.Rev.B, 84(2011)054534"
153029 AMC13210467 "XPD,NPD analysis: Li1.001Fe0.999As." LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 1 2010 ABC PbFCl P4/nmm A 3.7768 6.3559 K 16.6 16.6 "Li added to mixture(Fe,As) - sealed in Nb tube(Ar) - heat 220K,12h) - reground - ANN(800C,48h)" Compositional Control of the Superconducting Properties of LiFeAs 2010 "Department of Chemistry, UniVersity of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford OX1 3QR, United Kingdom" "J.Am.Chem.Soc., 132(2010)10467"
153030 AMC13210467 "XPD,NPD analysis: Li1.002Fe0.998As. Tc linearly increase with increasing volume." Li(1-y)Fe(1+y)As Li0.99Fe1.01As1 Li 0.99 Fe 1.01 As 1 1 2010 ABC PbFCl P4/nmm A 3.776 6.3554 K 14 14 "Li added to mixture(Fe,As) - sealed in Nb tube(Ar) - heat 220K,12h) - reground - ANN(800C,48h)" Compositional Control of the Superconducting Properties of LiFeAs 2010 "Department of Chemistry, UniVersity of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford OX1 3QR, United Kingdom" "J.Am.Chem.Soc., 132(2010)10467"
153031 AMC13210467 "XPD,NPD analysis: Li0.99Fe1.01As. Tc linearly increase with increasing volume." Li(1-y)Fe(1+y)As Li0.98Fe1.02As1 Li 0.98 Fe 1.02 As 1 1 2010 ABC PbFCl P4/nmm A 3.7738 6.3485 K 4.61 4.61 "Li added to mixture(Fe,As) - sealed in Nb tube(Ar) - heat 220K,12h) - reground - ANN(800C,48h)" Compositional Control of the Superconducting Properties of LiFeAs 2010 "Department of Chemistry, UniVersity of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford OX1 3QR, United Kingdom" "J.Am.Chem.Soc., 132(2010)10467"
153032 AMC13210467 "XPD,NPD analysis: Li0.982Fe1.018As. Tc linearly increase with increasing volume." Li(1-y)Fe(1+y)As Li0.97Fe1.03As1 Li 0.97 Fe 1.03 As 1 1 2010 ABC PbFCl P4/nmm A 3.7725 6.3451 K 1.5 "Li added to mixture(Fe,As) - sealed in Nb tube(Ar) - heat 220K,12h) - reground - ANN(800C,48h)" Compositional Control of the Superconducting Properties of LiFeAs 2010 "Department of Chemistry, UniVersity of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford OX1 3QR, United Kingdom" "J.Am.Chem.Soc., 132(2010)10467"
153033 AMC13210467 Tc = 13.52 from muon-SR. "Li(Fe,Co)As" Li1Fe0.975Co0.025As1 Li 1 Fe 0.975 Co 0.025 As 1 1 2010 ABC PbFCl P4/nmm A 3.7778 6.3502 K 13 13 A muon-SR. fitting 2170 "Li added to mixture(Fe,Co or Ni), As) - sealed in Nb tube(Ar) - heat 220K,12h) - reground - ANN(800C,48h)" Compositional Control of the Superconducting Properties of LiFeAs 2010 "Department of Chemistry, UniVersity of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford OX1 3QR, United Kingdom" "J.Am.Chem.Soc., 132(2010)10467"
153034 AMC13210467 Tc = 10.00 from muon-SR. "Li(Fe,Co)As" Li1Fe0.95Co0.05As1 Li 1 Fe 0.95 Co 0.05 As 1 1 2010 ABC PbFCl P4/nmm A 3.7789 6.3424 K 9.78 9.78 MTC153034 A muon-SR. fitting 2400 "Li added to mixture(Fe,Co or Ni), As) - sealed in Nb tube(Ar) - heat 220K,12h) - reground - ANN(800C,48h)" Compositional Control of the Superconducting Properties of LiFeAs 2010 "Department of Chemistry, UniVersity of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford OX1 3QR, United Kingdom" "J.Am.Chem.Soc., 132(2010)10467"
153035 AMC13210467 Tc = 7.35 from muon-SR. "Li(Fe,Co)As" Li1Fe0.925Co0.075As1 Li 1 Fe 0.925 Co 0.075 As 1 1 2010 ABC PbFCl P4/nmm A 3.7792 6.3322 K 7.66 7.66 MTC153034 A muon-SR. fitting 3030 "Li added to mixture(Fe,Co or Ni), As) - sealed in Nb tube(Ar) - heat 220K,12h) - reground - ANN(800C,48h)" Compositional Control of the Superconducting Properties of LiFeAs 2010 "Department of Chemistry, UniVersity of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford OX1 3QR, United Kingdom" "J.Am.Chem.Soc., 132(2010)10467"
153036 AMC13210467 Tc = 13.41 from muon-SR. "Li(Fe,Ni)As" Li1Fe0.99Ni0.01As1 Li 1 Fe 0.99 Ni 0.01 As 1 1 2010 ABC PbFCl P4/nmm K 13.35 13.35 MTC153036 A muon-SR. fitting 2180 "Li added to mixture(Fe,Co or Ni), As) - sealed in Nb tube(Ar) - heat 220K,12h) - reground - ANN(800C,48h)" Compositional Control of the Superconducting Properties of LiFeAs 2010 "Department of Chemistry, UniVersity of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford OX1 3QR, United Kingdom" "J.Am.Chem.Soc., 132(2010)10467"
153037 AMC13210467 Tc = 10.93 from muon-SR. "Li(Fe,Ni)As" Li1Fe0.98Ni0.02As1 Li 1 Fe 0.98 Ni 0.02 As 1 1 2010 ABC PbFCl P4/nmm A 3.7773 6.3485 K 10.58 10.58 MTC153036 A muon-SR. fitting 2730 "Li added to mixture(Fe,Co or Ni), As) - sealed in Nb tube(Ar) - heat 220K,12h) - reground - ANN(800C,48h)" Compositional Control of the Superconducting Properties of LiFeAs 2010 "Department of Chemistry, UniVersity of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford OX1 3QR, United Kingdom" "J.Am.Chem.Soc., 132(2010)10467"
153038 JPS080093704 "Ca10(Pt4As8)((Fe,Pt)2As2)5" Ca10Fe8.2Pt4.8As18 Ca 10 Fe 8.2 Pt 4.8 As 18 2011 P1[-] A 8.719 8.727 11.161 "triclinic, alpha=99.04, beta=108.21, gamma=90.0" K 38 38 "mixture(Ca:Fe:Pt:As=23:23:10:44) - (alumina crucible sealed in quartz tube) - heat(700C,3h + 1000C,72h) - slow cool to RT" Superconductivity at 38K in Iron-Based Compound with Platinum-Arsenide Layers Ca10(Pt4As8)(Fe2-xPtxAs2)5 2011 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 80(2011)093704"
153039 JPS080093704 "Ca10(Pt3As8)((Fe,Pt)2As2)5" Ca10Fe9.2Pt3.8As18 Ca 10 Fe 9.2 Pt 3.8 As 18 2011 P1[-] A 8.795 8.789 21.008 "triclinic, alpha=94.82, beta=99.62, gamma=89.99" K 13 13 cm3/C -0.00088 MRH153039 mixture(Ca:Fe:Pt:As=23:23:10:44) - (alumina crucible sealed in quartz tube) - heat(1100C ) - slow cool to 1050C for 40h Superconductivity at 38K in Iron-Based Compound with Platinum-Arsenide Layers Ca10(Pt4As8)(Fe2-xPtxAs2)5 2011 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 80(2011)093704"
153040 JPS080094703 Tc and Hc2(0) shows for P=2.63 GPa. Hc2 for J//H//[001]. Neel-T depends on magnetic field CeIrSi3 Ce1Ir1Si3 Ce 1 Ir 1 Si 3 3 2011 5 ABC3 BaNiSn3 K 1.6 0 1.6 MTC153040 T resistivity 45 MHC153040 single crystals grown by Czochralski method in tetra-arc furnace Field-Induced Antiferromagnetic State in Non-centrosymmetric Superconductor CeIrSi3 2011 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 80(2011)094703"
153041 PRB084054541 defect introduced by n-irradiation 2E;19/cm2 (E>0.1MeV). defect control by isochronal ANN(0.5h) at various T. this sample : ANN(900C) Lu2Fe3Si5 Lu2Fe3Si5 Lu 2 Fe 3 Si 5 1 2011 A2B3C5 Sc2Fe3Si5 K 2.78 2.78 MTC153041 T/K "resistivity, R=0.9Rn" 0.93 "arc-melting, then ANN(1200C,19h)" Superconductivity in iron silicide Lu2Fe3Si5 probed by radiation-induced disordering 2011 "Institute of Metal Physics UB RAS, 18 S. Kovalevskoi Street, Ekaterinburg 620219, Russia" "Phys.Rev.B, 84(2011)054541"
153042 PRL107057001 "Tn=0 at P = 0.39 Gpa, where Tc(max) = 0.63 K. Hc2(0.24 K) = 2 T for H//c. (dTn/dT) = -1.17 K/GPa at P=0" CeCu2Si2 Ce1Cu2Si2 Ce 1 Cu 2 Si 2 3 2011 0.69 AB2C2 CeCu2Si2 K 0.46 0.46 MTC153042 K/GPa 2.33 Pressure Tuning of the Interplay of Magnetism and Superconductivity in CeCu2Si2 2011 "Max Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.Lett., 107(2011)057001"
153043 SSC1511504 hexagonal ZrRuP Zr1Ru1P1 Zr 1 Ru 1 P 1 2011 ABC Fe2P K 13.8 13.8 "FeP,RuP,Zr" "arc-melting, then ANN(1000C,3d, in vac)" The effect of Fe doping on superconductivity in ZrRuP 2011 "Institut fur Anorganische und Analytische Chemie, Johannes Gutenberg - Universitat, 55099 Mainz, Germany" "Solid State Commun., 151(2011)1504"
153044 SSC1511504 hexagonal "Zr(Ru,Fe)P" Zr1Ru0.95Fe0.05P1 Zr 1 Ru 0.95 Fe 0.05 P 1 2011 ABC Fe2P K 10.3 10.3 "FeP,RuP,Zr" "arc-melting, then ANN(1000C,3d, in vac)" The effect of Fe doping on superconductivity in ZrRuP 2011 "Institut fur Anorganische und Analytische Chemie, Johannes Gutenberg - Universitat, 55099 Mainz, Germany" "Solid State Commun., 151(2011)1504"
153045 SSC1511504 two phaes(hexa + ortho ). impurity : ZrRu by XRD. no magnetic order from Mossbauer results. "Zr(Ru,Fe)P" Zr1Ru0.8Fe0.2P1 Zr 1 Ru 0.8 Fe 0.2 P 1 2011 ABC Fe2P two phases (Fe2P+Co2P) K 2.6 2.6 "FeP,RuP,Zr" "arc-melting, then ANN(1000C,3d, in vac)" The effect of Fe doping on superconductivity in ZrRuP 2011 "Institut fur Anorganische und Analytische Chemie, Johannes Gutenberg - Universitat, 55099 Mainz, Germany" "Solid State Commun., 151(2011)1504"
153046 SSC1511504 two phaes(hexa + ortho ). impurity : ZrRu by XRD. no magnetic order from Mossbauer results. "Zr(Ru,Fe)P" Zr1Ru0.6Fe0.4P1 Zr 1 Ru 0.6 Fe 0.4 P 1 2011 ABC Fe2P two phases (Fe2P+Co2P) K 1.8 "FeP,RuP,Zr" "arc-melting, then ANN(1000C,3d, in vac)" The effect of Fe doping on superconductivity in ZrRuP 2011 "Institut fur Anorganische und Analytische Chemie, Johannes Gutenberg - Universitat, 55099 Mainz, Germany" "Solid State Commun., 151(2011)1504"
153047 SSC1511504 ortho ZrFeP Zr1Fe1P1 Zr 1 Fe 1 P 1 2011 ABC Co2P K 1.8 "FeP,RuP,Zr" "arc-melting, then ANN(1000C,3d, in vac)" The effect of Fe doping on superconductivity in ZrRuP 2011 "Institut fur Anorganische und Analytische Chemie, Johannes Gutenberg - Universitat, 55099 Mainz, Germany" "Solid State Commun., 151(2011)1504"
153048 JPC0139393 electron = 16 e/f.u ZrRuSi Zr1Ru1Si1 Zr 1 Ru 1 Si 1 1 2001 ABC Fe2P A 6.684 3.672 K 12.2 12.2 "high-P synthesis (1200-1600C, P=4 GPa)" Superconductivity and crystal structure of ZrRu1-xRhxP alloys prepared at high pressure 2001 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi 050-8585, Japan" "J.Phys.:Condens.Mater, 13(2001)9393"
153049 JPC0139393 electron = 17 e/f.u High T (1600C) synthesis. ZrRuP Zr1Ru1P1 Zr 1 Ru 1 P 1 1 2001 8.148 ABC Fe2P A 6.459 3.778 K 13 13 "high-P synthesis (1200-1600C, P=4 GPa)" Superconductivity and crystal structure of ZrRu1-xRhxP alloys prepared at high pressure 2001 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi 050-8585, Japan" "J.Phys.:Condens.Mater, 13(2001)9393"
153050 JPC0139393 electron = 17 e/f.u Low T (1200C) synthesis. ZrRuP Zr1Ru1P1 Zr 1 Ru 1 P 1 1 2001 8.172 ABC Co2P A 6.417 7.322 3.862 K 4 4 "high-P synthesis (1200-1600C, P=4 GPa)" Superconductivity and crystal structure of ZrRu1-xRhxP alloys prepared at high pressure 2001 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi 050-8585, Japan" "J.Phys.:Condens.Mater, 13(2001)9393"
153051 JPC0139393 electron = 18 e/f.u ZrRhP Zr1Rh1P1 Zr 1 Rh 1 P 1 1 2001 ABC Co2P A 6.438 7.393 3.787 K 1.5 1.5 "high-P synthesis (1200-1600C, P=4 GPa)" Superconductivity and crystal structure of ZrRu1-xRhxP alloys prepared at high pressure 2001 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi 050-8585, Japan" "J.Phys.:Condens.Mater, 13(2001)9393"
153052 JPC0139393 "Zr(Ru,Rh)P" Zr1Ru0.99Rh0.01P1 Zr 1 Ru 0.99 Rh 0.01 P 1 2001 ABC Fe2P K 10.1 10.1 MTC153052 "high-P synthesis (1300 C, P=4 GPa)" Superconductivity and crystal structure of ZrRu1-xRhxP alloys prepared at high pressure 2001 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi 050-8585, Japan" "J.Phys.:Condens.Mater, 13(2001)9393"
153053 JPC0139393 Two step transition ( correspond to hexa and ortho-phases). "Zr(Ru,Rh)P" Zr1Ru0.95Rh0.05P1 Zr 1 Ru 0.95 Rh 0.05 P 1 2001 ABC Fe2P K 9.3 9.3 MTC153052 "high-P synthesis (1300 C, P=4 GPa)" Superconductivity and crystal structure of ZrRu1-xRhxP alloys prepared at high pressure 2001 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi 050-8585, Japan" "J.Phys.:Condens.Mater, 13(2001)9393"
153054 JPC0139393 "Zr(Ru,Rh)P" Zr1Ru0.95Rh0.05P1 Zr 1 Ru 0.95 Rh 0.05 P 1 2001 ABC Co2P K 3 3 MTC153052 "high-P synthesis (1300 C, P=4 GPa)" Superconductivity and crystal structure of ZrRu1-xRhxP alloys prepared at high pressure 2001 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi 050-8585, Japan" "J.Phys.:Condens.Mater, 13(2001)9393"
153055 JPC0139393 "Zr(Ru,Rh)P" Zr1Ru0.9Rh0.1P1 Zr 1 Ru 0.9 Rh 0.1 P 1 2001 ABC Co2P K 2.9 2.9 MTC153052 "high-P synthesis (1300 C, P=4 GPa)" Superconductivity and crystal structure of ZrRu1-xRhxP alloys prepared at high pressure 2001 "Faculty of Engineering, Muroran Institute of Technology, Muroran-shi 050-8585, Japan" "J.Phys.:Condens.Mater, 13(2001)9393"
153056 LTP0550011 lattice term coeff.(beta) = 0.0207 mJ/gat.K4. DOS = N(0)= 0.72 sttes/eV.atom. e-ph = 0.48. ZrRuP Zr1Ru1P1 Zr 1 Ru 1 P 1 1984 ABC Co2P A 6.43 3.861 7.334 TiNiSi type K 3.76 3.76 MSP153056 mJ/gat.K2 2.52 SP-heat 454 SP-heat "SIN(900C,1h) - reground - wrapped in Ta foil - ANN(1200C,3d)" Phonon Anomalies in ZrRuP? 1984 "Kernforschungszentrum Karlsruhe, Institut fiur Technische Physik, and Universitat Karlsruhe, Karlsruhe, Federal Republic of Germany" "J.Low Temp.Phys., 55(1984)11"
153057 MRB0391231 impurity: ZrRu ZrRuP Zr1Ru1P1 Zr 1 Ru 1 P 1 2004 ABC Fe2P A 6.445 3.765 K 10.1 10.1 "mixture - preheating (900C,1d) - arc melting with excess P" Boron substitution in ternary metal phosphide superconductors 2004 "Department of Chemistry and Princeton Materials Institute, Princeton University, Princeton, NJ 08544, USA" "Mat.Res.Bull., 39(2004)1231"
153058 MRB0391231 impurity: ZrRu "ZrRu(P,B)" Zr1Ru1P0.95B0.05 Zr 1 Ru 1 P 0.95 B 0.05 2004 ABC Fe2P A 6.466 3.753 K 8.4 8.4 "mixture - preheating (900C,1d) - arc melting with excess P" Boron substitution in ternary metal phosphide superconductors 2004 "Department of Chemistry and Princeton Materials Institute, Princeton University, Princeton, NJ 08544, USA" "Mat.Res.Bull., 39(2004)1231"
153059 MRB0391231 impurity: ZrRu "ZrRu(P,B)" Zr1Ru1P0.9B0.1 Zr 1 Ru 1 P 0.9 B 0.1 2004 ABC Fe2P A 6.471 3.737 K 8.1 8.1 "mixture - preheating (900C,1d) - arc melting with excess P" Boron substitution in ternary metal phosphide superconductors 2004 "Department of Chemistry and Princeton Materials Institute, Princeton University, Princeton, NJ 08544, USA" "Mat.Res.Bull., 39(2004)1231"
153060 MRB0391231 impurity: ZrRu "ZrRu(P,B)" Zr1Ru1P0.85B0.15 Zr 1 Ru 1 P 0.85 B 0.15 2004 ABC Fe2P A 6.481 3.686 K 6.4 6.4 "mixture - preheating (900C,1d) - arc melting with excess P" Boron substitution in ternary metal phosphide superconductors 2004 "Department of Chemistry and Princeton Materials Institute, Princeton University, Princeton, NJ 08544, USA" "Mat.Res.Bull., 39(2004)1231"
153061 MRB0391231 impurity: ZrRu "ZrRu(P,B)" Zr1Ru1P0.8B0.2 Zr 1 Ru 1 P 0.8 B 0.2 2004 ABC Fe2P A 6.487 3.66 K 5.4 5.4 "mixture - preheating (900C,1d) - arc melting with excess P" Boron substitution in ternary metal phosphide superconductors 2004 "Department of Chemistry and Princeton Materials Institute, Princeton University, Princeton, NJ 08544, USA" "Mat.Res.Bull., 39(2004)1231"
153062 MRB0391231 impurity: ZrRu "ZrRu(P,B)" Zr1Ru1P0.6B0.4 Zr 1 Ru 1 P 0.6 B 0.4 2004 ABC Fe2P A 6.494 3.601 K 5.6 5.6 "mixture - preheating (900C,1d) - arc melting with excess P" Boron substitution in ternary metal phosphide superconductors 2004 "Department of Chemistry and Princeton Materials Institute, Princeton University, Princeton, NJ 08544, USA" "Mat.Res.Bull., 39(2004)1231"
153063 MRB0391231 LaRu2P2 La1Ru2P2 La 1 Ru 2 P 2 2004 AB2C2 ThCr2Si2 A 4.032 10.632 K 4 4 "mixture - preheating (900C,1d) - arc melting with excess P" Boron substitution in ternary metal phosphide superconductors 2004 "Department of Chemistry and Princeton Materials Institute, Princeton University, Princeton, NJ 08544, USA" "Mat.Res.Bull., 39(2004)1231"
153064 MRB0391231 "LaRu2(P,B)2" La1Ru2P1.6B0.4 La 1 Ru 2 P 1.6 B 0.4 2004 AB2C2 ThCr2Si2 A 4.037 10.477 K 2 2 "mixture - preheating (900C,1d) - arc melting with excess P" Boron substitution in ternary metal phosphide superconductors 2004 "Department of Chemistry and Princeton Materials Institute, Princeton University, Princeton, NJ 08544, USA" "Mat.Res.Bull., 39(2004)1231"
153065 PHC2920079 hydrostatic pressure. Debye-T calculated using McMillan's equation. e-ph = 1.1 ZrRuP Zr1Ru1P1 Zr 1 Ru 1 P 1 1 1997 ABC Fe2P hexagonal K 10.3 10.3 K/GPa -0.053 180 calculated arc melting Effect of pressure on the superconductivity of ZrRuP 1997 12 "Department of Physics, Brock University, St. Catharines, Ontario, Canada L2S 3AI" "Physica.C,292(1997)79-82"
153066 PCS0720434 "Pr(Fe,Co)AsO" Pr1Fe0.95Co0.05As1O1 Pr 1 Fe 0.95 Co 0.05 As 1 O 1 1 2011 ABCD oxypnictide 3.9865 8.5988 K 4.96 4.96 uV/K -36.9 MTP153066 "PrAs,SrAs,Pr6O11,CoAs,Fe,PrAs,FeAs,CoAs" "mixture - pellet - (sealed in evacuated quartz tube) - heat(1173K,5h) - heat(1433K,40h) FC to RT" Superconductivity in Sr and Co co-doped PrFeAsO 2011 "State Key Laboratory of Silicon Materials and Department of Physics , Zhejiang University, Hangzhou 310027, China" "J.Phys.Chem.Solids, 72(2011)434"
153067 PCS0720434 "Pr(Fe,Co)AsO" Pr1Fe0.8Co0.2As1O1 Pr 1 Fe 0.8 Co 0.2 As 1 O 1 1 2011 ABCD oxypnictide 3.986 8.5548 K 1.5 uV/K -44.6 MTP153067 "PrAs,SrAs,Pr6O11,CoAs,Fe,PrAs,FeAs,CoAs" "mixture - pellet - (sealed in evacuated quartz tube) - heat(1173K,5h) - heat(1433K,40h) FC to RT" Superconductivity in Sr and Co co-doped PrFeAsO 2011 "State Key Laboratory of Silicon Materials and Department of Physics , Zhejiang University, Hangzhou 310027, China" "J.Phys.Chem.Solids, 72(2011)434"
153068 PCS0720434 "(Pr,Sr)FeAsO" Pr0.8Sr0.2Fe1As1O1 Pr 0.8 Sr 0.2 Fe 1 As 1 O 1 1 2011 ABCD oxypnictide K 15 15 MTC153068 uV/K 11 MTP153068 "PrAs,SrAs,Pr6O11,CoAs,Fe,PrAs,FeAs,CoAs" "mixture - pellet - (sealed in evacuated quartz tube) - heat(1173K,5h) - heat(1433K,40h) FC to RT" Superconductivity in Sr and Co co-doped PrFeAsO 2011 "State Key Laboratory of Silicon Materials and Department of Physics , Zhejiang University, Hangzhou 310027, China" "J.Phys.Chem.Solids, 72(2011)434"
153069 PCS0720434 "(Pr,Sr)(Fe,Co)AsO" Pr0.8Sr0.2Fe0.85Co0.15As1O1 Pr 0.8 Sr 0.2 Fe 0.85 Co 0.15 As 1 O 1 1 2011 ABCD oxypnictide 3.9922 8.6203 K 15.8 15.8 MTC153068 uV/K -40.2 MTP153069 "PrAs,SrAs,Pr6O11,CoAs,Fe,PrAs,FeAs,CoAs" "mixture - pellet - (sealed in evacuated quartz tube) - heat(1173K,5h) - heat(1433K,40h) FC to RT" Superconductivity in Sr and Co co-doped PrFeAsO 2011 "State Key Laboratory of Silicon Materials and Department of Physics , Zhejiang University, Hangzhou 310027, China" "J.Phys.Chem.Solids, 72(2011)434"
153070 PHC4710476 hydrostatic-P. AF. (dTn/dP) = 0.35 K/GPa EuFe2As2 Eu1Fe2As2 Eu 1 Fe 2 As 2 3 2011 18.5 AB2C2 ThCr2Si2 A 12.07 K 10 "polycrystals - reground - pellet - (in Al2O3) - sealed in evacuated quartz tube) - heat(1190C,24h) cool to 1100 C within 100h" Dependence of magnetic ordering temperature of doped and undoped EuFe2As2 on hydrostatic pressure to 0.8 GPa 2011 "Department of Physics, Washington University, One Brookings Dr., St. Louis, MO 63130, USA" "Physica C, 471(2011)476"
153071 PHC4710476 "hydrostatic-P. Ferro-mag, (dTm/dP) = 2.4 K/GPa" "EuFe2(As,P)2" Eu1Fe2As1.4P0.6 Eu 1 Fe 2 As 1.4 P 0.6 3 2011 19 AB2C2 ThCr2Si2 A 11.88 K 10 "polycrystals - reground - pellet - (in Al2O3) - sealed in evacuated quartz tube) - heat(1190C,24h) cool to 1100 C within 100h" Dependence of magnetic ordering temperature of doped and undoped EuFe2As2 on hydrostatic pressure to 0.8 GPa 2011 "Department of Physics, Washington University, One Brookings Dr., St. Louis, MO 63130, USA" "Physica C, 471(2011)476"
153072 PHC4710476 "hydrostatic-P. Ferro-mag, (dTm/dP) = 2.0 K/GPa" "Eu(Fe,Co)2As2" Eu1Fe1.715Co0.285As2 Eu 1 Fe 1.715 Co 0.285 As 2 3 2011 17.7 AB2C2 ThCr2Si2 K 10 "polycrystals - reground - pellet - (in Al2O3) - sealed in evacuated quartz tube) - heat(1190C,24h) cool to 1100 C within 100h" Dependence of magnetic ordering temperature of doped and undoped EuFe2As2 on hydrostatic pressure to 0.8 GPa 2011 "Department of Physics, Washington University, One Brookings Dr., St. Louis, MO 63130, USA" "Physica C, 471(2011)476"
153073 PHC4710528 second SC-Tc = 9.25 K (diamag appears). SC remained upto x = 0.15 for La1.85-1.5xSr0.15+1.5xCu1-xMnxO4 "(La,Sr)2(Cu,Mn)O4" La1.76Sr0.24Cu0.94Mn0.06O4 La 1.76 Sr 0.24 Cu 0.94 Mn 0.06 O 4 1 2011 T I4/mmm A 3.778 13.202 K 34 34 "La2O3,SrCO3,CuO,MnO2" "mixture - heat(900C,36h, in air) - SIN(1120C - 1200C,24h)" The suppression of superconductivity by the localization of oxygen holes in the double-doped La1.85-1.5xSr0.15+1.5xCu1-xMnxO4 system 2011 "College of Physics Science and Technology, Yangzhou University, Yangzhou 225002, China" "Physica C, 471(2011)528"
153074 PHC2920079 quasi-hydrostatic pressure upto 7 GPa. e-ph = 0.92 ZrRuP Zr1Ru1P1 Zr 1 Ru 1 P 1 1 1997 ABC Co2P ortho- K 7.6 7.6 K/GPa -0.098 arc melting Effect of pressure on the superconductivity of ZrRuP 1997 12 "Department of Physics, Brock University, St. Catharines, Ontario, Canada L2S 3AI" "Physica.C,292(1997)79-82"
153075 PHC4710591 minor phase (second phase) : CsFeCl3(BaNiO3-phase) about 10% "(Tl,Cs)xFeySe2" Tl0.59Cs0.26Fe1.9Se2 Tl 0.59 Cs 0.26 Fe 1.9 Se 2 2 2011 AB2C2 2 ThCr2Si2 I4/mmm A 3.881 14.057 K 28 32.6 30.3 "Tl(5N),CsCl(4N),Fe(4N),Se(6N)" "mixture(Tl:Cs:Fe:Se:Cl=0.5:0.3:1.73:1.7:0.3) - heat(600C5-6h, then 800C,9-12h) - Q to ice water" "Synthesis and superconductivity in (Tl, Cs)1-xFe2-ySe2" 2011 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Physica C, 471(2011)591"
153076 PHC4710594 1st principle calculation. bulk and shear modulus from Voigt model. compressibility = 0.023 SrPtAs Sr1Pt1As1 Sr 1 Pt 1 As 1 2011 GPa 30 GPa 79 ABC KZnAs P6/mmm 194 A 4.2976 9.0884 K 2.4 2.4 "Electronic bands, Fermi surface, and elastic properties of new 4.2 K superconductor SrPtAs with a honeycomb structure from first principles calculations" 2011 "Institute of Solid State Chemistry, Ural Branch of the Russian Academy of Sciences, 620990 Ekaterinburg, Russia" "Physica C, 471(2011)594"
153077 SSC1510130 "impurity phases: delta-FeSe, Fe3O4. Debye-T estimated from isomer shift(Mossbauer). [TP300] = TP(?K)." "Fe(Se,Te)" Fe1Se0.5Te0.5 Fe 1 Se 0.5 Te 0.5 2011 AB 2 PbO P4/nmm K 12.5 12.5 460 isomer shift uV/K MTP153077 "Se(4N),Fe(3N),Te(2N)" "mixture - sealed in quartz tube(vac) - heat(600C,20h) - reground - heat(650C,20h) - FC to RT" Observation of lattice softening at Tc in the FeSe0.5Te0.5 superconductor 2011 "Department of Physics, Abo Akademi, FI-20500 Turku, Finland" "Solid State Commun., 151(2011)130"
153078 SSC1510404 Zr2Co Co1Zr2 Co 1 Zr 2 1 2011 AB2 2 I4/mcm A 6.366 5.511 K 5.47 5.74 5.38 5.47 "Zr(2N),C0(3N),Ga(6N)" "arc-melting. ANN(820C,5d, in air) - Q to water(RT)" Substitute effects of Ga on Tc in superconducting Zr2(Co1-xGax) 2011 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Solid State Commun., 151(2011)404"
153079 SSC1510404 "Zr2(Co,Ga)" Zr2Co0.95Ga0.05 Zr 2 Co 0.95 Ga 0.05 1 2011 AB2 2 I4/mcm A 6.379 5.476 K 5.79 6.05 5.79 5.79 "Zr(2N),C0(3N),Ga(6N)" "arc-melting. ANN(820C,5d, in air) - Q to water(RT)" Substitute effects of Ga on Tc in superconducting Zr2(Co1-xGax) 2011 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Solid State Commun., 151(2011)404"
153080 SSC1510404 "Zr2(Co,Ga)" Zr2Co0.9Ga0.1 Zr 2 Co 0.9 Ga 0.1 1 2011 AB2 2 I4/mcm A 6.409 5.462 K 5.72 6 5.71 5.72 "Zr(2N),C0(3N),Ga(6N)" "arc-melting. ANN(820C,5d, in air) - Q to water(RT)" Substitute effects of Ga on Tc in superconducting Zr2(Co1-xGax) 2011 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Solid State Commun., 151(2011)404"
153081 SSC1510404 "Zr2(Co,Ga)" Zr2Co0.85Ga0.15 Zr 2 Co 0.85 Ga 0.15 1 2011 AB2 2 I4/mcm A 6.426 5.441 K 5.56 5.81 5.35 5.56 "Zr(2N),C0(3N),Ga(6N)" "arc-melting. ANN(820C,5d, in air) - Q to water(RT)" Substitute effects of Ga on Tc in superconducting Zr2(Co1-xGax) 2011 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Solid State Commun., 151(2011)404"
153082 SSC1510404 "Zr2(Co,Ga)" Zr2Co0.8Ga0.2 Zr 2 Co 0.8 Ga 0.2 1 2011 AB2 2 I4/mcm A 6.46 5.441 K 5.29 5.55 4.92 5.29 "Zr(2N),C0(3N),Ga(6N)" "arc-melting. ANN(820C,5d, in air) - Q to water(RT)" Substitute effects of Ga on Tc in superconducting Zr2(Co1-xGax) 2011 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Solid State Commun., 151(2011)404"
153083 SSC1510404 "Zr2(Co,Ga)" Zr2Co0.75Ga0.25 Zr 2 Co 0.75 Ga 0.25 1 2011 AB2 2 I4/mcm A 6.463 5.413 K 5.1 5.31 4.76 5.1 "Zr(2N),C0(3N),Ga(6N)" "arc-melting. ANN(820C,5d, in air) - Q to water(RT)" Substitute effects of Ga on Tc in superconducting Zr2(Co1-xGax) 2011 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Solid State Commun., 151(2011)404"
153084 SSC1510404 "Zr2(Co,Ga)" Zr2Co0.7Ga0.3 Zr 2 Co 0.7 Ga 0.3 1 2011 AB2 2 I4/mcm A 6.463 5.403 K 4.97 5.18 4.74 4.97 "Zr(2N),C0(3N),Ga(6N)" "arc-melting. ANN(820C,5d, in air) - Q to water(RT)" Substitute effects of Ga on Tc in superconducting Zr2(Co1-xGax) 2011 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Solid State Commun., 151(2011)404"
153085 SSC1510557 FeCrxSe Fe1Cr0.01Se1 Fe 1 Cr 0.01 Se 1 2011 AB 2 P4/nmm beta-FeSe K 10.4 10.4 "mixture - sealed in quartz tube - heat(500C,24h) - reground - heat(1050C,24h) - ANN(360C,3h)" Enhanced superconducting properties in FeCrxSe 2011 "Department of Physics, IIT Bombay, Mumbai 400076, India" "Solid State Commun., 151(2011)557"
153086 SSC1510557 impurity: alpha-FeSe(NiAs-type) FeCrxSe Fe1Cr0.01Se1 Fe 1 Cr 0.01 Se 1 2011 AB 2 P4/nmm beta-FeSe K 11.2 11.2 T "resistivity 0.5Rn, WHH" 23.66 MHC153086 A from Hc2 37.3 "mixture - sealed in quartz tube - heat(500C,24h) - reground - heat(1050C,24h) - ANN(360C,3h)" Enhanced superconducting properties in FeCrxSe 2011 "Department of Physics, IIT Bombay, Mumbai 400076, India" "Solid State Commun., 151(2011)557"
153087 JPS0290879 Zr2Co Co1Zr2 Co 1 Zr 2 1 1970 AB2 CuAl2 A 6.4 5.5331 "CuAl2, C16" K 5 5 230 Lindeman eq. "Co(4N),Ni(4N),Zr" "melt in plasma jet furnace. ANN(900C,10d, in vac)" Superconductivity and magnetic susceptibility of Zr2Co-Zr2Ni system 1970 "Department of Physics, Faculty of Science, Hokkaido University, Sapporo" "J.Phys.Soc.Jpn, 29(1970)879"
153088 JPS0290879 "Zr2(Co,Ni)" Zr2Co0.85Ni0.15 Zr 2 Co 0.85 Ni 0.15 1 1970 AB2 CuAl2 A 6.4106 5.4906 "CuAl2, C16" K 5.92 5.92 "Co(4N),Ni(4N),Zr" "melt in plasma jet furnace. ANN(900C,10d, in vac)" Superconductivity and magnetic susceptibility of Zr2Co-Zr2Ni system 1970 "Department of Physics, Faculty of Science, Hokkaido University, Sapporo" "J.Phys.Soc.Jpn, 29(1970)879"
153089 JPS0290879 "Zr2(Co,Ni)" Zr2Co0.75Ni0.25 Zr 2 Co 0.75 Ni 0.25 1 1970 AB2 CuAl2 A 6.4288 5.4469 "CuAl2, C16" K 4.91 4.91 "Co(4N),Ni(4N),Zr" "melt in plasma jet furnace. ANN(900C,10d, in vac)" Superconductivity and magnetic susceptibility of Zr2Co-Zr2Ni system 1970 "Department of Physics, Faculty of Science, Hokkaido University, Sapporo" "J.Phys.Soc.Jpn, 29(1970)879"
153090 JPS0290879 "Zr2(Co,Ni)" Zr2Co0.5Ni0.5 Zr 2 Co 0.5 Ni 0.5 1 1970 AB2 CuAl2 A 6.45 5.3925 "CuAl2, C16" K 3.11 3.11 "Co(4N),Ni(4N),Zr" "melt in plasma jet furnace. ANN(900C,10d, in vac)" Superconductivity and magnetic susceptibility of Zr2Co-Zr2Ni system 1970 "Department of Physics, Faculty of Science, Hokkaido University, Sapporo" "J.Phys.Soc.Jpn, 29(1970)879"
153091 JPS0290879 "Zr2(Co,Ni)" Zr2Co0.3Ni0.7 Zr 2 Co 0.3 Ni 0.7 1 1970 AB2 CuAl2 A 6.4794 5.3538 "CuAl2, C16" K 1.87 1.87 "Co(4N),Ni(4N),Zr" "melt in plasma jet furnace. ANN(900C,10d, in vac)" Superconductivity and magnetic susceptibility of Zr2Co-Zr2Ni system 1970 "Department of Physics, Faculty of Science, Hokkaido University, Sapporo" "J.Phys.Soc.Jpn, 29(1970)879"
153092 JPS0290879 "Zr2(Co,Ni)" Zr2Co0.15Ni0.85 Zr 2 Co 0.15 Ni 0.85 1 1970 AB2 CuAl2 A 6.495 5.3181 "CuAl2, C16" K 1.4 1.4 "Co(4N),Ni(4N),Zr" "melt in plasma jet furnace. ANN(900C,10d, in vac)" Superconductivity and magnetic susceptibility of Zr2Co-Zr2Ni system 1970 "Department of Physics, Faculty of Science, Hokkaido University, Sapporo" "J.Phys.Soc.Jpn, 29(1970)879"
153093 JPS0290879 Zr2Ni Ni1Zr2 Ni 1 Zr 2 1 1970 AB2 CuAl2 A 6.5163 5.2869 "CuAl2, C16" K 1.56 1.56 "Co(4N),Ni(4N),Zr" "melt in plasma jet furnace. ANN(900C,10d, in vac)" Superconductivity and magnetic susceptibility of Zr2Co-Zr2Ni system 1970 "Department of Physics, Faculty of Science, Hokkaido University, Sapporo" "J.Phys.Soc.Jpn, 29(1970)879"
153094 SSC0940425 LaPtSi La1Pt1Si1 La 1 Pt 1 Si 1 1 1995 ABC LaPtSi I4<1>md A 4.25 14.52 K 5.2 3.4 4.3 mOhm.cm 0.625 "Pt(5N),Ni(3N),Si(9N),La(3N)" "arc-melting. ANN(1200C,4d, in Ar) or ANN(1000C,7-10d) for Ni-rich compounds" SUPERCONDUCTIVITY OF Ni-DOPED LaPtSi 1995 "Department of Physics, National Chung Cheng University Ming-Hsiung, Chia-Yi 621. Taiwun, Republic of China" "Solid State Commun., 94(1995)425"
153095 SSC0940425 "La(Pt,Ni)Si" La1Pt0.9Ni0.1Si1 La 1 Pt 0.9 Ni 0.1 Si 1 1 1995 ABC LaPtSi I4<1>md A 4.247 14.483 K 3.18 3.28 3.23 mOhm.cm 0.195 "Pt(5N),Ni(3N),Si(9N),La(3N)" "arc-melting. ANN(1200C,4d, in Ar) or ANN(1000C,7-10d) for Ni-rich compounds" SUPERCONDUCTIVITY OF Ni-DOPED LaPtSi 1995 "Department of Physics, National Chung Cheng University Ming-Hsiung, Chia-Yi 621. Taiwun, Republic of China" "Solid State Commun., 94(1995)425"
153096 SSC0940425 "La(Pt,Ni)Si" La1Pt0.8Ni0.2Si1 La 1 Pt 0.8 Ni 0.2 Si 1 1 1995 ABC LaPtSi I4<1>md A 4.241 14.442 K 2.81 2.83 2.82 mOhm.cm 0.28 "Pt(5N),Ni(3N),Si(9N),La(3N)" "arc-melting. ANN(1200C,4d, in Ar) or ANN(1000C,7-10d) for Ni-rich compounds" SUPERCONDUCTIVITY OF Ni-DOPED LaPtSi 1995 "Department of Physics, National Chung Cheng University Ming-Hsiung, Chia-Yi 621. Taiwun, Republic of China" "Solid State Commun., 94(1995)425"
153097 SSC0940425 "La(Pt,Ni)Si" La1Pt0.7Ni0.3Si1 La 1 Pt 0.7 Ni 0.3 Si 1 1 1995 ABC LaPtSi I4<1>md A 4.232 14.392 K 2.71 2.84 2.775 mOhm.cm 0.285 "Pt(5N),Ni(3N),Si(9N),La(3N)" "arc-melting. ANN(1200C,4d, in Ar) or ANN(1000C,7-10d) for Ni-rich compounds" SUPERCONDUCTIVITY OF Ni-DOPED LaPtSi 1995 "Department of Physics, National Chung Cheng University Ming-Hsiung, Chia-Yi 621. Taiwun, Republic of China" "Solid State Commun., 94(1995)425"
153098 SSC0940425 "La(Pt,Ni)Si" La1Pt0.6Ni0.4Si1 La 1 Pt 0.6 Ni 0.4 Si 1 1 1995 ABC LaPtSi I4<1>md A 4.228 14.348 K 2.56 2.7 2.63 mOhm.cm 0.19 "Pt(5N),Ni(3N),Si(9N),La(3N)" "arc-melting. ANN(1200C,4d, in Ar) or ANN(1000C,7-10d) for Ni-rich compounds" SUPERCONDUCTIVITY OF Ni-DOPED LaPtSi 1995 "Department of Physics, National Chung Cheng University Ming-Hsiung, Chia-Yi 621. Taiwun, Republic of China" "Solid State Commun., 94(1995)425"
153099 SSC0940425 "La(Pt,Ni)Si" La1Pt0.5Ni0.5Si1 La 1 Pt 0.5 Ni 0.5 Si 1 1 1995 ABC LaPtSi I4<1>md A 4.219 14.306 K 2.2 2.37 2.285 mOhm.cm 0.32 "Pt(5N),Ni(3N),Si(9N),La(3N)" "arc-melting. ANN(1200C,4d, in Ar) or ANN(1000C,7-10d) for Ni-rich compounds" SUPERCONDUCTIVITY OF Ni-DOPED LaPtSi 1995 "Department of Physics, National Chung Cheng University Ming-Hsiung, Chia-Yi 621. Taiwun, Republic of China" "Solid State Commun., 94(1995)425"
153100 SSC0940425 "La(Pt,Ni)Si" La1Pt0.4Ni0.6Si1 La 1 Pt 0.4 Ni 0.6 Si 1 1 1995 ABC LaPtSi I4<1>md A 4.211 14.245 K 1.9 1.99 1.945 MTC153100 mOhm.cm 0.205 "Pt(5N),Ni(3N),Si(9N),La(3N)" "arc-melting. ANN(1200C,4d, in Ar) or ANN(1000C,7-10d) for Ni-rich compounds" SUPERCONDUCTIVITY OF Ni-DOPED LaPtSi 1995 "Department of Physics, National Chung Cheng University Ming-Hsiung, Chia-Yi 621. Taiwun, Republic of China" "Solid State Commun., 94(1995)425"
153101 SSC0940425 "La(Pt,Ni)Si" La1Pt0.3Ni0.7Si1 La 1 Pt 0.3 Ni 0.7 Si 1 1 1995 ABC LaPtSi I4<1>md A 4.203 14.199 K 1.62 1.69 1.655 mOhm.cm 0.15 "Pt(5N),Ni(3N),Si(9N),La(3N)" "arc-melting. ANN(1200C,4d, in Ar) or ANN(1000C,7-10d) for Ni-rich compounds" SUPERCONDUCTIVITY OF Ni-DOPED LaPtSi 1995 "Department of Physics, National Chung Cheng University Ming-Hsiung, Chia-Yi 621. Taiwun, Republic of China" "Solid State Commun., 94(1995)425"
153102 SSC0940425 "La(Pt,Ni)Si" La1Pt0.1Ni0.9Si1 La 1 Pt 0.1 Ni 0.9 Si 1 1 1995 ABC LaPtSi I4<1>md A 4.191 14.127 K 1.26 1.29 1.275 mOhm.cm 0.1 "Pt(5N),Ni(3N),Si(9N),La(3N)" "arc-melting. ANN(1200C,4d, in Ar) or ANN(1000C,7-10d) for Ni-rich compounds" SUPERCONDUCTIVITY OF Ni-DOPED LaPtSi 1995 "Department of Physics, National Chung Cheng University Ming-Hsiung, Chia-Yi 621. Taiwun, Republic of China" "Solid State Commun., 94(1995)425"
153103 SSC0940425 LaNiSi La1Ni1Si1 La 1 Ni 1 Si 1 1 1995 ABC LaPtSi I4<1>md A 4.181 14.069 K 1.2 1.26 1.23 mOhm.cm 0.1 "Pt(5N),Ni(3N),Si(9N),La(3N)" "arc-melting. ANN(1200C,4d, in Ar) or ANN(1000C,7-10d) for Ni-rich compounds" SUPERCONDUCTIVITY OF Ni-DOPED LaPtSi 1995 "Department of Physics, National Chung Cheng University Ming-Hsiung, Chia-Yi 621. Taiwun, Republic of China" "Solid State Commun., 94(1995)425"
153104 PRB05006523 RRR=7.2. (dC/gamma*Tc) = 1.46. lattice term in SP(beta) = 0.487 mJ/mol.K4. LaNiSi La1Ni1Si1 La 1 Ni 1 Si 1 1994 ABC LaPtSi I4<1>md A 4.181 14.069 K 1.2 1.26 0.06 1.23 3.5 14 MSP153104 mJ/mol.K2 8.89 SP-heat 229 SP-heat uOhm.cm 13.9 "See Phys.Rev.B, 79(2009)014522" Crystal structure and superconductivity in the Ni-based ternary compound LaNisi 1994 "Department of Physics, National Chung Cheng University, Ming Hsi-ung, Chia Yi -621, Taiwan, Republic of China" "Phys.Rev.B, 50(1994)6523"
153105 NMT008L630 "Tc(max) = 36.7 K at P = 8.9 GPa. (dTc/dP) = 3.2 and -1.7 K/GPa for 08.9 GPa, respectively. Mossbauer effect measured." beta-Fe1.01Se Fe1.01Se1 Fe 1.01 Se 1 1 2009 AB K 8 8 MTC153105 K/GPa 12.6 Electronic and magnetic phase diagram of beta-Fe1:01Se with superconductivity at 36.7 K under pressure 2009 "Institut fur Anorganische und Analytische Chemie, University Mainz, 55099 Mainz, Germany," "Nature Materials, 8(2009)L630"
153106 PRB084092505 Phase-I (P<8.2 GPa). not SC. B4Te3-I Bi4Te3 Bi 4 Te 3 2011 GPa 52 A3B4 R3[-]m A 4.451 41.888 trigonal K 1 "Bi,Te(4N)" "mixture - (evacuated quartz tube) - melt(700C,5d) - Q to Liq.N2 - ANN(440C,14d)" Distinct superconducting states in the pressure-induced metallic structures of the nominal semimetal Bi4Te3 2011 "Condensed Matter and Materials Division, Lawrence Livermore National Laboratory, Livermore, California 94550, USA" "Phys.Rev.B, 84(2011)092505"
153107 PRB084092505 Phase-II (8.2 16.2 GPa. B4Te3-IV Bi4Te3 Bi 4 Te 3 2011 120 A3B4 Im3[-]4 A 3.6702 bcc K 8.4 8.4 MTC153107 "Bi,Te(4N)" "mixture - (evacuated quartz tube) - melt(700C,5d) - Q to Liq.N2 - ANN(440C,14d)" Distinct superconducting states in the pressure-induced metallic structures of the nominal semimetal Bi4Te3 2011 "Condensed Matter and Materials Division, Lawrence Livermore National Laboratory, Livermore, California 94550, USA" "Phys.Rev.B, 84(2011)092505"
153109 EPL09567002 compositions by EDXS. Anisotropy (Hc2) = 3.3 "(Ca,La)Fe2As2" Ca0.8La0.2Fe2As2 Ca 0.8 La 0.2 Fe 2 As 2 3 2011 AB2C2 ThCr2Si2 K 42.7 40 40 T "resistivity 0.9Rn, WHH" 185 55.6 T/K resistivity 0.5+AD919Rn 6.25 1.88 MHC153109 FeAs self-flux method Synthesis and properties of La-doped CaFe2As2 single crystals with Tc = 42.7K 2011 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences Beijing 100190, China" "EuroPhys. Lett., 95(2011)67002"
153110 PRB084094513 "[gap], [penet] are from muon-SR analysis. Two gaps: large gap in DB, small one = 3.2 meV, (2d/kTc) = 2.0" "(Ba,Rb)Fe2As2" Ba0.7Rb0.3Fe2As2 Ba 0.7 Rb 0.3 Fe 2 As 2 1 2011 AB2C2 ThCr2Si2 K 36.9 36.9 A muon-SR 2490 meV 9.2 5.8 16 "BaAs,RbAs,Fe2As" "solid state reaction. mixture - pellet - (alumina crucible) - ANN(650C, 100h)" Muon-spin rotation measurements of the magnetic penetration depth in the iron-based superconductor Ba1-xRbxFe2As2 2011 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 84(2011)094513"
153111 PRB084094513 "[gap], [penet] are from muon-SR analysis. Two gaps: large gap in DB, small one = 2.9 meV, (2d/kTc) = 1.9" "(Ba,Rb)Fe2As2" Ba0.65Rb0.35Fe2As2 Ba 0.65 Rb 0.35 Fe 2 As 2 1 2011 AB2C2 ThCr2Si2 K 35.8 35.8 A muon-SR 2500 meV 8.8 5.7 16 "BaAs,RbAs,Fe2As" "solid state reaction. mixture - pellet - (alumina crucible) - ANN(650C, 100h)" Muon-spin rotation measurements of the magnetic penetration depth in the iron-based superconductor Ba1-xRbxFe2As2 2011 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 84(2011)094513"
153112 PRB084094513 "[gap], [penet] are from muon-SR analysis. Two gaps: large gap in DB, small one = 1.1 meV, (2d/kTc) = 0.8" "(Ba,Rb)Fe2As2" Ba0.6Rb0.4Fe2As2 Ba 0.6 Rb 0.4 Fe 2 As 2 1 2011 AB2C2 ThCr2Si2 K 34 34 A muon-SR 2550 meV 7.5 5.1 16 "BaAs,RbAs,Fe2As" "solid state reaction. mixture - pellet - (alumina crucible) - ANN(650C, 100h)" Muon-spin rotation measurements of the magnetic penetration depth in the iron-based superconductor Ba1-xRbxFe2As2 2011 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 84(2011)094513"
153113 PRB084100501 hydrostatic pressure. Neel-T defined as T where magnetic volume fraction = 50%. "La(O,F)FeAs" La1Fe1As1F0.055O0.945 La 1 Fe 1 As 1 F 0.055 O 0.945 2011 44 ABCD oxypnictide K 7 7 TC153113 "LaAs,FeAs,Fe2O3,Fe,LaF3" "high-P synthesis. mixture - (P=3GPa) - heat(1320C,5.5h,P=3 GPa) - Q to RT." Tuning of competing magnetic and superconducting phase volumes in LaFeAsO0.945F0.055 by hydrostatic pressure 2011 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 84(2011)100501"
153114 PRB084064518 RRR = 160.GL-parameter=7.6. thermodynamic Hc(0)=650 Oe. (dC/gamma*Tc) = 1.2. lattice term in SP(beta) = 0.8 mJ/mol.K4 alpha-BiPd Bi1Pd1 Bi 1 Pd 1 3 2011 AB P2<1> A 5.6284 10.6615 5.6752 "alpha-BiPd(monoclinic), beta=101 degree" K 3.8 0.01 3.8 Oe "gamma, Hc1,Hc2" 123 T "resistivity 0.5Rn, parabolic" 0.7 T/K resistivity 0.5Rn 0.3 MHC153114 A from Hc2 170 A calculate from other data using GL-eq 1292 mJ/mol.K2 4 "SP-heat, 1.9 = 160 K. At T=2K, space-G: cmme, a = 5.7063, b = 5.6788 , c = 8.7094" LaOFeAs La1Fe1As1O1 La 1 Fe 1 As 1 O 1 1 2011 145 ABCD oxypnictide P4/nmm A 4.0322 8.7364 K 4 solid state reaction Effect of the isoelectronic substitution of Sb for As on the magnetic and structural properties of LaFe(As1-xSbx)O 2011 "Institut Neel, CNRS and UJF, 38042 Grenoble, France" "Phys.Rev.B, 84(2011)104523"
153119 PRB084104523 "structural transition T = 150 K. At T=2K, space-G: cmme, a = 5.7482, b = 5.7185 , c = 8.7799" "LaOFe(As,Sb)" La1Fe1As0.8Sb0.2O1 La 1 Fe 1 As 0.8 Sb 0.2 O 1 1 2011 140 ABCD oxypnictide P4/nmm A 4.0607 8.8133 K 4 solid state reaction Effect of the isoelectronic substitution of Sb for As on the magnetic and structural properties of LaFe(As1-xSbx)O 2011 "Institut Neel, CNRS and UJF, 38042 Grenoble, France" "Phys.Rev.B, 84(2011)104523"
153120 PRB084104523 "structural transition T = 130 K. At T=2K, space-G: cmme, a = 5.7830, b = 5.7507 , c = 8.8606" "LaOFe(As,Sb)" La1Fe1As0.6Sb0.4O1 La 1 Fe 1 As 0.6 Sb 0.4 O 1 1 2011 120 ABCD oxypnictide P4/nmm A 4.0835 8.9014 K 4 solid state reaction Effect of the isoelectronic substitution of Sb for As on the magnetic and structural properties of LaFe(As1-xSbx)O 2011 "Institut Neel, CNRS and UJF, 38042 Grenoble, France" "Phys.Rev.B, 84(2011)104523"
153121 PRB077144502 1H-CaAlSi Ca1Al1Si1 Ca 1 Al 1 Si 1 3 2008 ABC AlB2 K 6.5 0.1 6.5 MTC153121 K/GPa -0.3 single crystals grown by floating zone method Pressure effects on the superconducting transition in nH-CaAlSi 2008 "Max-Planck-Institut fur Festkorperforschung, Heisenbergstrasse 1, 70569 Stuttgart, Germany" "Phys.Rev.B, 77(2008)144502"
153122 PRB077144502 5H-CaAlSi Ca1Al1Si1 Ca 1 Al 1 Si 1 3 2008 ABC AlB2 K 5.95 0.4 5.95 MTC153122 K/GPa 0.13 single crystals grown by floating zone method Pressure effects on the superconducting transition in nH-CaAlSi 2008 "Max-Planck-Institut fur Festkorperforschung, Heisenbergstrasse 1, 70569 Stuttgart, Germany" "Phys.Rev.B, 77(2008)144502"
153123 PRB077144502 6H-CaAlSi Ca1Al1Si1 Ca 1 Al 1 Si 1 3 2008 ABC AlB2 K 7.89 0.1 7.89 MTC153123 single crystals grown by floating zone method Pressure effects on the superconducting transition in nH-CaAlSi 2008 "Max-Planck-Institut fur Festkorperforschung, Heisenbergstrasse 1, 70569 Stuttgart, Germany" "Phys.Rev.B, 77(2008)144502"
153124 SST022045017 RRR = 5.8. "La(O,F)Fe(As,Sb)" La1Fe1As0.95Sb0.05F0.2O0.8 La 1 Fe 1 As 0.95 Sb 0.05 F 0.2 O 0.8 1 2009 ABCD oxypnictide A 4.02 8.701 K 30.1 30.1 T "resistivity 0.9Rn, WHH" 69 T/K "resistivity, 0.9Rn" 3.34 HC153124 A from Hc2 22 uV/K -25 TP153125 mOrm.cm 3.8 n/cm3 7.30E+20 "LaO3,LaF3,La,FeAs,FeSb,Fe" "two step solid state reaction. mixture - pellet - wrapped in Ta foil - sealed in silica ampules - ANN(1150C,48h) - cool to RT" Enhancement of the superconducting transition temperature and upper critical field of LaO0.8F0.2FeAs with antimony doping 2009 "School of Physical Sciences, Jawaharlal Nehru University, New Delhi 110067, India" "Supercond.Sci.Technol., 22(2009)045017"
153125 SST022045017 RRR = 3.9 "La(O,F)Fe(As,Sb)" La1Fe1As0.9Sb0.1F0.2O0.8 La 1 Fe 1 As 0.9 Sb 0.1 F 0.2 O 0.8 1 2009 ABCD oxypnictide A 4.023 8.719 K 28.6 28.6 T "resistivity 0.9Rn, WHH" 73 T/K "resistivity, 0.9Rn" 3.7 mOrm.cm 5.9 n/cm3 6.50E+20 "LaO3,LaF3,La,FeAs,FeSb,Fe" "two step solid state reaction. mixture - pellet - wrapped in Ta foil - sealed in silica ampules - ANN(1150C,48h) - cool to RT" Enhancement of the superconducting transition temperature and upper critical field of LaO0.8F0.2FeAs with antimony doping 2009 "School of Physical Sciences, Jawaharlal Nehru University, New Delhi 110067, India" "Supercond.Sci.Technol., 22(2009)045017"
153126 PRL107137003 new formula: Rb2Fe4Se5. magnetic moment at 295 K. Fe vacancy order-disorder transition temperature T = 515 K. Rb2Fe4Se5 Rb0.88Fe1.81Se2 Rb 0.88 Fe 1.81 Se 2 3 2011 myu-B/Fe 3.3 502 A2B4C5 I4/mmm A 8.788 14.597 K 32 32 "Common Crystalline and Magnetic Structure of Superconducting A2Fe4Se5 (A = K, Rb, Cs, Tl) Single Crystals Measured Using Neutron Diffraction" 2011 "Neutron Scattering Science Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.Lett., 107(2011)137003"
153127 PRL107137003 new formula: Cs2Fe4Se5. magnetic moment at 295 K. Fe vacancy order-disorder transition temperature T = 500 K. Cs2Fe4Se5 Cs0.86Fe1.66Se2 Cs 0.86 Fe 1.66 Se 2 3 2011 myu-B/Fe 3.4 471 A2B4C5 I4/mmm A 8.865 15.289 K 29 29 "Common Crystalline and Magnetic Structure of Superconducting A2Fe4Se5 (A = K, Rb, Cs, Tl) Single Crystals Measured Using Neutron Diffraction" 2011 "Neutron Scattering Science Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.Lett., 107(2011)137003"
153128 PRL107137003 "new formula: (Tl,K)2Fe4Se5. magnetic moment at 295 K. Fe vacancy order-disorder transition temperature T = 533 K." "(Tl,K)2Fe4Se5" Tl0.4K0.3Fe1.7Se2 Tl 0.4 K 0.3 Fe 1.7 Se 2 3 2011 myu-B/Fe 3.2 506 A2B4C5 I4/mmm A 8.645 14.061 K 28 28 "Common Crystalline and Magnetic Structure of Superconducting A2Fe4Se5 (A = K, Rb, Cs, Tl) Single Crystals Measured Using Neutron Diffraction" 2011 "Neutron Scattering Science Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.Lett., 107(2011)137003"
153129 PRL107137003 "new formula: (Tl,Rb)2Fe4Se5. magnetic moment at 295 K. Fe vacancy order-disorder transition temperature T = 512 K." "(Tl,Rb)2Fe4Se5" Tl0.4Rb0.4Fe1.6Se2 Tl 0.4 Rb 0.4 Fe 1.6 Se 2 3 2011 myu-B/Fe 3.2 511 A2B4C5 I4/mmm A 8.683 14.388 K 32 32 "Common Crystalline and Magnetic Structure of Superconducting A2Fe4Se5 (A = K, Rb, Cs, Tl) Single Crystals Measured Using Neutron Diffraction" 2011 "Neutron Scattering Science Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.Lett., 107(2011)137003"
153130 PRL107137003 new formula: K2Fe4Se5. magnetic moment at 295 K. Fe vacancy order-disorder transition temperature T = 578 K. K2Fe4Se5 K0.86Fe1.66Se2 K 0.86 Fe 1.66 Se 2 3 2011 myu-B/Fe 3.31 559 A2B4C5 I4/mmm A 8.7306 14.1128 K 32 32 "Common Crystalline and Magnetic Structure of Superconducting A2Fe4Se5 (A = K, Rb, Cs, Tl) Single Crystals Measured Using Neutron Diffraction" 2011 "Neutron Scattering Science Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.Lett., 107(2011)137003"
153131 EPL09427008 Fe-content not given(estimated value). Fe-vacancy ordered temperture T = 551 K. KxFeySe2 K0.8Fe1.7Se2 K 0.8 Fe 1.7 Se 2 3 2011 540 AB2C2 ThCr2Si2 K 30.5 31.5 31 Bridgeman method "Coexistence of superconductivity and antiferromagnetism in single crystals A0.8Fe2-ySe2 (A = K, Rb, Cs, Tl/K and Tl/Rb): Evidence from magnetization and resistivity" 2011 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China - Hefei, Anhui 230026, PRC" "EuroPhys.Lett., 94(2011)27008"
153132 EPL09427008 Fe-content not given(estimated value). Fe-vacancy ordered temperture T = 540 K. RbxFeySe2 Rb0.8Fe1.7Se2 Rb 0.8 Fe 1.7 Se 2 3 2011 534 AB2C2 ThCr2Si2 K 31.5 32 31.75 Bridgeman method "Coexistence of superconductivity and antiferromagnetism in single crystals A0.8Fe2-ySe2 (A = K, Rb, Cs, Tl/K and Tl/Rb): Evidence from magnetization and resistivity" 2011 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China - Hefei, Anhui 230026, PRC" "EuroPhys.Lett., 94(2011)27008"
153133 EPL09427008 Fe-content not given(estimated value). Fe-vacancy ordered temperture T = 525 K. CsxFeySe2 Cs0.8Fe1.7Se2 Cs 0.8 Fe 1.7 Se 2 3 2011 504 AB2C2 ThCr2Si2 K 27.5 30.9 29.2 Bridgeman method "Coexistence of superconductivity and antiferromagnetism in single crystals A0.8Fe2-ySe2 (A = K, Rb, Cs, Tl/K and Tl/Rb): Evidence from magnetization and resistivity" 2011 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China - Hefei, Anhui 230026, PRC" "EuroPhys.Lett., 94(2011)27008"
153134 EPL09427008 Fe-content not given(estimated value). Fe-vacancy ordered temperture T = 515 K. "(Tl,K)xFeySe2" Tl0.4K0.3Fe1.7Se2 Tl 0.4 K 0.3 Fe 1.7 Se 2 3 2011 496 AB2C2 ThCr2Si2 K 24.8 27.7 26.25 Bridgeman method "Coexistence of superconductivity and antiferromagnetism in single crystals A0.8Fe2-ySe2 (A = K, Rb, Cs, Tl/K and Tl/Rb): Evidence from magnetization and resistivity" 2011 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China - Hefei, Anhui 230026, PRC" "EuroPhys.Lett., 94(2011)27008"
153135 EPL09427008 Fe-content not given(estimated value). Fe-vacancy ordered temperture T = 512 K. "(Tl,Rb)xFeySe2" Tl0.4Rb0.4Fe1.7Se2 Tl 0.4 Rb 0.4 Fe 1.7 Se 2 3 2011 500 AB2C2 ThCr2Si2 K 30.9 31.8 31.35 Bridgeman method "Coexistence of superconductivity and antiferromagnetism in single crystals A0.8Fe2-ySe2 (A = K, Rb, Cs, Tl/K and Tl/Rb): Evidence from magnetization and resistivity" 2011 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China - Hefei, Anhui 230026, PRC" "EuroPhys.Lett., 94(2011)27008"
153136 SSC1511455 GL-parameter = 4.8. lattice term in SP (beta) = 0.114 mJ/mol.K4. (dC/gamma*Tc) = 1.39 Mo5SiB2 Mo5Si1B2 Mo 5 Si 1 B 2 1 2011 Cr5B3 A 6.001 11.022 K 5.8 5.8 5.8 120 Oe M-H curve 262 232 1.8 T SUS. WHH 0.606 0.55 1.8 MHC153136 A from Hc2 233 A "Hc1,Hc2,GL" 1120 MSP153136 mJ/mol.K2 16.98 SP-heat 515 SP-heat "arc-melting - ANN(1800C,24h, in vac)" Superconductivity in Mo5SiB2 2011 "Escola de Engenharia de Lorena, Universidade de Sao Paulo, P.O. Box 116, Lorena, SP, Brazil" "Solid State Commum., 151(2011)1455"
153137 PRB084064533 Anisotropy(Hc2) = 1.85. GL-parameter = 82. "(Ca,Na)Fe2As2" Ca0.5Na0.5Fe2As2 Ca 0.5 Na 0.5 Fe 2 As 2 3 2011 AB2C2 ThCr2Si2 A 3.87 12.049 K 19.4 19.4 T/K resistivity 4 2.2 MHC153137 A penet(L) 1460 "NaAs,CaAs,FeAs,Fe2As" "self-flux method. mixture - (alumina crucible) - Ta crucible, 1.6 atm Ar) - (quartz ampoule) - heat(1160C) - cool slowly(5C/h)" "Effect of doping on structural and superconducting properties in Ca1-xNaxFe2As2 single crystals (x =0.5, 0.6, 0.75)" 2011 "MPA-STC, Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 84(2011)064533"
153138 PRB084064533 "(Ca,Na)Fe2As2" Ca0.4Na0.6Fe2As2 Ca 0.4 Na 0.6 Fe 2 As 2 3 2011 AB2C2 ThCr2Si2 A 3.8496 12.147 K 25 25 "NaAs,CaAs,FeAs,Fe2As" "self-flux method. mixture - (alumina crucible) - Ta crucible, 1.6 atm Ar) - (quartz ampoule) - heat(1160C) - cool slowly(5C/h)" "Effect of doping on structural and superconducting properties in Ca1-xNaxFe2As2 single crystals (x =0.5, 0.6, 0.75)" 2011 "MPA-STC, Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 84(2011)064533"
153139 PRB084064533 Two step transition in R(T). Anisotropy(Hc2) = 1.85. GL-parameter = 91. "(Ca,Na)Fe2As2" Ca0.25Na0.75Fe2As2 Ca 0.25 Na 0.75 Fe 2 As 2 3 2011 AB2C2 ThCr2Si2 A 3.84 12.248 K 33.4 33.4 T/K resistivity 7.15 4 MHC153139 A penet(L) 1000 "NaAs,CaAs,FeAs,Fe2As" "self-flux method. mixture - (alumina crucible) - Ta crucible, 1.6 atm Ar) - (quartz ampoule) - heat(1160C) - cool slowly(5C/h)" "Effect of doping on structural and superconducting properties in Ca1-xNaxFe2As2 single crystals (x =0.5, 0.6, 0.75)" 2011 "MPA-STC, Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 84(2011)064533"
153140 PRB084064525 Two gaps: (2d/kTc) = 2.12 and 4.16 from best-fitting of SP-data. SP shows anomaly around 12 K (maybe 2nd gap). (dC/gamma*Tc) = 1.26 "(Ba,Na)Fe2As2" Ba0.65Na0.35Fe2As2 Ba 0.65 Na 0.35 Fe 2 As 2 3 2011 AB2C2 ThCr2Si2 K 29.4 29.7 29.4 MSP153140 mJ/mol.K2 57.5 SP-heat self-flux method Multigap superconductivity in single crystals of Ba0.65Na0.35Fe2As2: A calorimetric investigation 2011 "Institute for Solid State Research, IFW Dresden, D-01171 Dresden, Germany" "Phys.Rev.B, 84(2011)064525"
153141 SSC1510778 "R(T,H) shows Hc2(0) nearly equal to 500 Oe. SP shows bulk SP transition. (dC/gamma*Tc) = 0.50. compositions: Y1.3Ni0.9Ge2.8 from XRD." YNiGe3 Y1Ni1Ge3 Y 1 Ni 1 Ge 3 1 2011 ABC3 SmNiGe3 A 4.06 21.529 4.063 K 0.46 0.46 "mixture - pellet - wrapped in Mo-foil - sealed in silica tube - ANN(800C,1w)" "Superconducting phase transition in YNiGe3, a non-f -electron reference to the unconventional superconductor CeNiGe3" 2011 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P Nr 1410, 50-950 Wroc?aw 2, Poland" "Solid State Commum., 151(2011)778"
153142 SSC1510956 Hirr(0) = 146 T. Hc1( 4.1K) = 1120 Oe "(Nd,Ba)(O,F)FeAs" Nd0.8Ba0.2Fe1As1F0.4O0.6 Nd 0.8 Ba 0.2 Fe 1 As 1 F 0.4 O 0.6 2011 ABCD oxypnictide P4/nmm A 3.962 8.536 K 50.03 1.86 50.03 Oe M-H curve 1120 4.1 T "resistivity 0.9Rn, WHH" 162.8 T/K resistivity 0.85 HC153142 "Fe2As,NdAs,FeO" solid state reaction. mixture - pellet - sealed in quartz tube - ANN(1160C) Magnetization and characteristic fields in Nd0.8Ba0.2FeAsO0.6F0.4 with binary doping 2011 "Research Center for Superconductors and Applied Technologies, Physics Department, Shanghai University, Shanghai 200444, China" "Solid State Commum., 151(2011)956"
153143 SSC1511117 "thermal conductivity, thermo power, SP-heat were measured." GdBa2Cu3O7 Gd1Ba2Cu3O7-z Gd 1 Ba 2 Cu 3 O 7-z 1 2011 Y123 A 3.854 3.898 11.698 K 91.8 91.8 T "resistivity, WHH" 84 "mixture - CAL(930C,12h, in air) - cold press - SIN(930C,72h, in flowing O2) - cool to 450C and hold(6h) - slow cool to RT" "Magneto-resistance, thermal conductivity, thermo-electric power and specific heat of superconductor Gd0.95Pr0.05Ba2Cu2.94M0.06O7-z (M = Fe, Ni, Zn and Mn)" 2011 "Department of Electronics and Telecommunication Engineering, Jadavpur University, Kolkata-700032, India" "Solid State Commum., 151(2011)1117"
153144 SSC1511117 "thermal conductivity, thermo power, SP-heat were measured." "(Gd,Pr)Ba2Cu3O7" Gd0.95Pr0.05Ba2Cu3O7-z Gd 0.95 Pr 0.05 Ba 2 Cu 3 O 7-z 1 2011 Y123 A 3.844 3.904 11.675 K 86.5 86.5 T "resistivity, WHH" 95 "mixture - CAL(930C,12h, in air) - cold press - SIN(930C,72h, in flowing O2) - cool to 450C and hold(6h) - slow cool to RT" "Magneto-resistance, thermal conductivity, thermo-electric power and specific heat of superconductor Gd0.95Pr0.05Ba2Cu2.94M0.06O7-z (M = Fe, Ni, Zn and Mn)" 2011 "Department of Electronics and Telecommunication Engineering, Jadavpur University, Kolkata-700032, India" "Solid State Commum., 151(2011)1117"
153145 SSC1511117 "thermal conductivity, thermo power, SP-heat were measured." "(Gd,Pr)Ba2(Cu,Mn)3O7" Gd0.95Pr0.05Ba2Cu2.94Mn0.06O7-z Gd 0.95 Pr 0.05 Ba 2 Cu 2.94 Mn 0.06 O 7-z 1 2011 Y123 A 3.851 3.898 11.689 K 68 68 T "resistivity, WHH" 160 "mixture - CAL(930C,12h, in air) - cold press - SIN(930C,72h, in flowing O2) - cool to 450C and hold(6h) - slow cool to RT" "Magneto-resistance, thermal conductivity, thermo-electric power and specific heat of superconductor Gd0.95Pr0.05Ba2Cu2.94M0.06O7-z (M = Fe, Ni, Zn and Mn)" 2011 "Department of Electronics and Telecommunication Engineering, Jadavpur University, Kolkata-700032, India" "Solid State Commum., 151(2011)1117"
153146 SSC1511117 "thermal conductivity, thermo power, SP-heat were measured." "(Gd,Pr)Ba2(Cu,Fe)3O7" Gd0.95Pr0.05Ba2Cu2.94Fe0.06O7-z Gd 0.95 Pr 0.05 Ba 2 Cu 2.94 Fe 0.06 O 7-z 1 2011 Y123 A 3.863 3.895 11.679 K 54.5 54.5 T "resistivity, WHH" 140 "mixture - CAL(930C,12h, in air) - cold press - SIN(930C,72h, in flowing O2) - cool to 450C and hold(6h) - slow cool to RT" "Magneto-resistance, thermal conductivity, thermo-electric power and specific heat of superconductor Gd0.95Pr0.05Ba2Cu2.94M0.06O7-z (M = Fe, Ni, Zn and Mn)" 2011 "Department of Electronics and Telecommunication Engineering, Jadavpur University, Kolkata-700032, India" "Solid State Commum., 151(2011)1117"
153147 SSC1511117 "thermal conductivity, thermo power, SP-heat were measured." "(Gd,Pr)Ba2(Cu,Ni)3O7" Gd0.95Pr0.05Ba2Cu2.94Ni0.06O7-z Gd 0.95 Pr 0.05 Ba 2 Cu 2.94 Ni 0.06 O 7-z 1 2011 Y123 A 3.824 3.913 11.651 K 64 64 T "resistivity, WHH" 64 "mixture - CAL(930C,12h, in air) - cold press - SIN(930C,72h, in flowing O2) - cool to 450C and hold(6h) - slow cool to RT" "Magneto-resistance, thermal conductivity, thermo-electric power and specific heat of superconductor Gd0.95Pr0.05Ba2Cu2.94M0.06O7-z (M = Fe, Ni, Zn and Mn)" 2011 "Department of Electronics and Telecommunication Engineering, Jadavpur University, Kolkata-700032, India" "Solid State Commum., 151(2011)1117"
153148 SSC1511117 "thermal conductivity, thermo power, SP-heat were measured." "(Gd,Pr)Ba2(Cu,Zn)3O7" Gd0.95Pr0.05Ba2Cu2.94Zn0.06O7-z Gd 0.95 Pr 0.05 Ba 2 Cu 2.94 Zn 0.06 O 7-z 1 2011 Y123 A 3.834 3.913 11.675 K 46.2 46.2 T "resistivity, WHH" 48 "mixture - CAL(930C,12h, in air) - cold press - SIN(930C,72h, in flowing O2) - cool to 450C and hold(6h) - slow cool to RT" "Magneto-resistance, thermal conductivity, thermo-electric power and specific heat of superconductor Gd0.95Pr0.05Ba2Cu2.94M0.06O7-z (M = Fe, Ni, Zn and Mn)" 2011 "Department of Electronics and Telecommunication Engineering, Jadavpur University, Kolkata-700032, India" "Solid State Commum., 151(2011)1117"
153149 SSC1511400 O-content not given "(Cu,Mo)Sr2(Y,Ce)5Cu2O15" Mo0.25Sr2Y1Ce4Cu2.75O15+z Mo 0.25 Sr 2 Y 1 Ce 4 Cu 2.75 O 15+z 2 2011 "(Cu,Mo)1252" K 55 55 20 "high-P oxygenation (500C,30 min, under 33 mol-% KClO3)" "Homologous series of (Cu,Mo)Sr2(Y,Ce)sCu2O5+2s+z copper-oxide superconductors: Synthesis of members up to s = 6" 2011 "Laboratory of Inorganic Chemistry, Department of Chemistry, School of Chemical Technology, Aalto University, P.O. Box 16100, FI-00076 AALTO, Finland" "Solid State Commum., 151(2011)1400"
153150 SSC1511400 O-content not given "(Cu,Mo)Sr2(Y,Ce)6Cu2O17" Mo0.25Sr2Y1.002Ce4.998Cu2.75O17+z Mo 0.25 Sr 2 Y 1.002 Ce 4.998 Cu 2.75 O 17+z 2 2011 "(Cu,Mo)1262" K 55 55 "high-P oxygenation (500C,30 min, under 33 mol-% KClO3)" "Homologous series of (Cu,Mo)Sr2(Y,Ce)sCu2O5+2s+z copper-oxide superconductors: Synthesis of members up to s = 6" 2011 "Laboratory of Inorganic Chemistry, Department of Chemistry, School of Chemical Technology, Aalto University, P.O. Box 16100, FI-00076 AALTO, Finland" "Solid State Commum., 151(2011)1400"
153151 APEX001081702 "nominal compositions. impurity phases: FeAs, CaO, unknown" "(Ca,Na)Fe2As2" Ca0.8Na0.2Fe2As2 Ca 0.8 Na 0.2 Fe 2 As 2 1 2008 AB2C2 ThCr2Si2 I4/mmm A 3.8931 11.771 K 14 14 4 "Ca,As,Fe,Na" "mixture - heat(1100,2h, P=2 GPa, in BN crucible)" Superconductivity at 26K in (Ca1-xNax)Fe2As2 2008 "Nanoelectronics Research Institute (NeRI), National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Central 2, Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Appl.Phys.Express, 1(2008)081702"
153152 APEX001081702 "nominal compositions. impurity phases: FeAs, CaO, unknown" "(Ca,Na)Fe2As2" Ca0.6Na0.4Fe2As2 Ca 0.6 Na 0.4 Fe 2 As 2 1 2008 AB2C2 ThCr2Si2 I4/mmm A 3.8801 11.892 K 21 26 17.2 21 48 "Ca,As,Fe,Na" "mixture - heat(1100,2h, P=2 GPa, in BN crucible)" Superconductivity at 26K in (Ca1-xNax)Fe2As2 2008 "Nanoelectronics Research Institute (NeRI), National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Central 2, Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Appl.Phys.Express, 1(2008)081702"
153153 APEX002063007 "impurity phases: SrP, Sc2O3" Ni2P2(Sr4Sc2O6) Ni2P2Sr4Sc2O6 Ni 2 P 2 Sr 4 Sc 2 O 6 2009 A 4.044 15.23 Sc-42622 K 3.3 3.6 3.45 140 T 1.2 2 "SrO,Sc2O3,Ni,P (or NiAs)" "mixture - SIN(1100-1200C, 18-48h, in evacuated quaetz ampoule)" "New Series of Nickel-Based Pnictide Oxide Superconductors (Ni2Pn2)(Sr4Sc2O6) (Pn = P, As)" 2009 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo, Tokyo 113-8656, Japan" "Appl.Phys.Express, 2(2009)063007"
153154 APEX002063007 "impurity phases: SrP, Sc2O3" Ni2As2(Sr4Sc2O6) Ni2As2Sr4Sc2O6 Ni 2 As 2 Sr 4 Sc 2 O 6 2009 A 4.078 15.41 Sc-42622 K 2.7 2.9 2.8 150 T 0.5 2 "SrO,Sc2O3,Ni,P (or NiAs)" "mixture - SIN(1100-1200C, 18-48h, in evacuated quaetz ampoule)" "New Series of Nickel-Based Pnictide Oxide Superconductors (Ni2Pn2)(Sr4Sc2O6) (Pn = P, As)" 2009 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo, Tokyo 113-8656, Japan" "Appl.Phys.Express, 2(2009)063007"
153155 JPCM022125702 T = 220 K estimated from R(T). SrFe2As2 Sr1Fe2As2 Sr 1 Fe 2 As 2 1 2010 AB2C2 ThCr2Si2 I4/mmm 139 A 3.928 12.388 K 4 "Ca(chunk) or Sr(chunk), Fe,As,P" "mixture - pellet - (alumina in quartz) - heat(800C,24h) - cool to RT - reground - heat(850C,48h) cool to RT within 12h" Structural properties and superconductivity of SrFe2As2-xPx (0.0=< x =<1.0) and CaFe2As2-yPy (0.0 =< y =< 0.3) 2010 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" J.Phys.Condens.Matter. 22(2010)125702
153156 JPCM022125702 T = 182 K estimated from R(T). "SrFe2(As,P)2" Sr1Fe2As1.8P0.2 Sr 1 Fe 2 As 1.8 P 0.2 1 2010 AB2C2 ThCr2Si2 I4/mmm 139 A 3.927 12.292 K 4 "Ca(chunk) or Sr(chunk), Fe,As,P" "mixture - pellet - (alumina in quartz) - heat(800C,24h) - cool to RT - reground - heat(850C,48h) cool to RT within 12h" Structural properties and superconductivity of SrFe2As2-xPx (0.0=< x =<1.0) and CaFe2As2-yPy (0.0 =< y =< 0.3) 2010 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" J.Phys.Condens.Matter. 22(2010)125702
153157 JPCM022125702 T = 134 K estimated from R(T). "SrFe2(As,P)2" Sr1Fe2As1.5P0.5 Sr 1 Fe 2 As 1.5 P 0.5 1 2010 AB2C2 ThCr2Si2 I4/mmm 139 A 3.92 12.21 K 4 "Ca(chunk) or Sr(chunk), Fe,As,P" "mixture - pellet - (alumina in quartz) - heat(800C,24h) - cool to RT - reground - heat(850C,48h) cool to RT within 12h" Structural properties and superconductivity of SrFe2As2-xPx (0.0=< x =<1.0) and CaFe2As2-yPy (0.0 =< y =< 0.3) 2010 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" J.Phys.Condens.Matter. 22(2010)125702
153158 JPCM022125702 "SrFe2(As,P)2" Sr1Fe2As1.4P0.6 Sr 1 Fe 2 As 1.4 P 0.6 1 2010 AB2C2 ThCr2Si2 I4/mmm 139 A 3.909 12.122 K 25 25 MTC153159 "Ca(chunk) or Sr(chunk), Fe,As,P" "mixture - pellet - (alumina in quartz) - heat(800C,24h) - cool to RT - reground - heat(850C,48h) cool to RT within 12h" Structural properties and superconductivity of SrFe2As2-xPx (0.0=< x =<1.0) and CaFe2As2-yPy (0.0 =< y =< 0.3) 2010 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" J.Phys.Condens.Matter. 22(2010)125702
153159 JPCM022125702 "SrFe2(As,P)2" Sr1Fe2As1.3P0.7 Sr 1 Fe 2 As 1.3 P 0.7 1 2010 AB2C2 ThCr2Si2 I4/mmm 139 A 3.902 12.089 K 27 27 MTC153159 "Ca(chunk) or Sr(chunk), Fe,As,P" "mixture - pellet - (alumina in quartz) - heat(800C,24h) - cool to RT - reground - heat(850C,48h) cool to RT within 12h" Structural properties and superconductivity of SrFe2As2-xPx (0.0=< x =<1.0) and CaFe2As2-yPy (0.0 =< y =< 0.3) 2010 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" J.Phys.Condens.Matter. 22(2010)125702
153160 JPCM022125702 "SrFe2(As,P)2" Sr1Fe2As1.2P0.8 Sr 1 Fe 2 As 1.2 P 0.8 1 2010 AB2C2 ThCr2Si2 I4/mmm 139 A 3.898 12.043 K 27 27 MTC153159 "Ca(chunk) or Sr(chunk), Fe,As,P" "mixture - pellet - (alumina in quartz) - heat(800C,24h) - cool to RT - reground - heat(850C,48h) cool to RT within 12h" Structural properties and superconductivity of SrFe2As2-xPx (0.0=< x =<1.0) and CaFe2As2-yPy (0.0 =< y =< 0.3) 2010 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" J.Phys.Condens.Matter. 22(2010)125702
153161 JPCM022125702 T = 145 K estimated from R(T). CaFe2As2 Ca1Fe2As2 Ca 1 Fe 2 As 2 1 2010 AB2C2 ThCr2Si2 I4/mmm 139 A 3.889 11.701 K 4 "Ca(chunk) or Sr(chunk), Fe,As,P" "mixture - pellet - (alumina in quartz) - heat(800C,24h) - cool to RT - reground - heat(850C,48h) cool to RT within 12h" Structural properties and superconductivity of SrFe2As2-xPx (0.0=< x =<1.0) and CaFe2As2-yPy (0.0 =< y =< 0.3) 2010 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" J.Phys.Condens.Matter. 22(2010)125702
153162 JPCM022125702 R not to zero at 4 K. "CaFe2(As,P)2" Ca1Fe2As1.925P0.075 Ca 1 Fe 2 As 1.925 P 0.075 1 2010 AB2C2 ThCr2Si2 I4/mmm 139 A 3.898 11.691 K 13 13 "Ca(chunk) or Sr(chunk), Fe,As,P" "mixture - pellet - (alumina in quartz) - heat(800C,24h) - cool to RT - reground - heat(850C,48h) cool to RT within 12h" Structural properties and superconductivity of SrFe2As2-xPx (0.0=< x =<1.0) and CaFe2As2-yPy (0.0 =< y =< 0.3) 2010 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" J.Phys.Condens.Matter. 22(2010)125702
153163 JPCM020422201 T = 165 K. Anisotropy (R) = 50. CaFe2As2 Ca1Fe2As2 Ca 1 Fe 2 As 2 3 2008 AB2C2 ThCr2Si2 I4/mmm A 3.872 11.73 K 4 uV/K -5.47 MTP153163 m3/C 5.53E-10 MRH153163 self-flux method Different resistivity response to spin-density wave and superconductivity at 20 K in Ca1-xNaxFe2As2 2008 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.Condens.Matter. 20(2008)422201
153164 JPCM020422201 "(Ca,Na)Fe2As2" Ca0.5Na0.5Fe2As2 Ca 0.5 Na 0.5 Fe 2 As 2 1 2008 AB2C2 ThCr2Si2 I4/mmm A 3.829 11.862 K 20 20 Different resistivity response to spin-density wave and superconductivity at 20 K in Ca1-xNaxFe2As2 2008 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" J.Phys.Condens.Matter. 20(2008)422201
153165 JPCM023402201 "impurity phase(0.8 % mass fraction): FeSe1.974 (a=3.7738, c=5.5235)" BaFe2Se3 Ba1Fe2Se3 Ba 1 Fe 2 Se 3 3 2011 240 AB2C3 Pnma A 11.8903 5.4079 9.1375 K 11 11 1 "Fe(4N),Se(4N)" "Bridgeman method. mixture(Fe2Se3) - press to rod - sealed in silica ampoule(Fe2Se3+Ba) - ANN(1150C,24h) - cool to 750C(6 C/h) - cool to RT(200C/h)" "The synthesis, and crystal and magnetic structure of the iron selenide BaFe2Se3 with possible superconductivity at Tc = 11 K" 2011 "Laboratory for Development and Methods, Paul Scherrer Institute, 5232 Villigen PSI, Switzerland" J.Phys.Condens.Matter. 23(2011)402201
153166 EPL08717004 P-induced SC. Tc(max) = 35.4 at P=1.4 GPa.. T = 139 (102) K at P = 0 (1.6) GPa obtained from the peak of (dR/dT). BaFe2As2 Ba1Fe2As3 Ba 1 Fe 2 As 3 3 2009 AB2C2 ThCr2Si2 I4/mmm K 35.4 0 35.4 MTC153166 "self-flux method. heat(1100 C,27h) - cool (5C/min)" Pressure-induced superconductivity in BaFe2As2 single crystal 2009 "Materials Science Group, Indira Gandhi Centre for Atomic Research - Kalpakkam, 603102, Tamilnadu, India" "EuroPhys.Lett., 87(2009)17004"
153167 EPL08847008 NaxFeAs Na0.86Fe1As1 Na 0.86 Fe 1 As 1 2009 ABC Cu2Sb P4/nmm K 26 26 MTC153167 "Na3As,Fe,As" "solid state reaction. mixture(Na:Fe:As = 1.2:1:1) - wrapped in Ta foil - sealed in quartz tube - SIN(800C,20h)" "Superconductivity at 31K in the ""111""-type iron arsenide superconductor Na1-xFeAs induced by pressure" 2009 "Institute of Physics, Chinese Academy of Sciences - Beijing 100190, China" "EuroPhys.Lett., 88(2009)47008"
153168 EPL08927002 "(Tb,Ca)FeAsO" Tb0.56Ca0.44Fe1As1O1 Tb 0.56 Ca 0.44 Fe 1 As 1 O 1 2010 ABCD oxypnictide A 3.9 8.423 ZrCuSiAs-type K 15.6 15.6 50 T "resistivity, 0.95Rn, WHH" 77 T/K "resistivity, 0.95Rn" 7.1 MHC153168 m3/C 1.80E-10 9 mixture - pellet - (sealed in quartz tube) - heat to (1150-1170 C) (120C/h) to hold(40h) Superconductivity at 15.6K in calcium-doped Tb1-xCaxFeAsO: The structure requirement for achieving superconductivity in the hole-doped 1111 phase 2010 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences - P. O. Box 603, Beijing 100190, PRC" "EuroPhys.Lett.,89(2010)27002"
153169 EPL08927002 "(Pr,Ca)FeAsO" Pr0.6Ca0.4Fe1As1O1 Pr 0.6 Ca 0.4 Fe 1 As 1 O 1 2010 ABCD oxypnictide A 3.9871 8.6275 ZrCuSiAs-type K 1.8 m3/C -1.04E-09 9 "TbAs,CaAs,Fe,Fe2O3" Superconductivity at 15.6K in calcium-doped Tb1-xCaxFeAsO: The structure requirement for achieving superconductivity in the hole-doped 1111 phase 2010 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences - P. O. Box 603, Beijing 100190, PRC" "EuroPhys.Lett.,89(2010)27002"
153170 CC2009707 structural transformation(tetra- to orth-) at 115 K. "(Nd,Sr)FeAsO" Nd0.95Sr0.05Fe1As1O1 Nd 0.95 Sr 0.05 Fe 1 As 1 O 1 2009 ABCD oxypnictide A 3.9718 8.5733 K 1.8 "Fe,Fe2O3,SrO,FeAs,NdAs" "mixture - pellet - heat(1100C,48h)" Structural and electronic response upon hole doping of rare-earth iron oxyarsenides Nd1-xSrxFeAsO (0 < x =< 0.2) 2009 "School of Chemistry, University of Edinburgh, Edinburgh, UK" "Chem. Commun., (2009) 707"
153171 CC2009707 structural transformation(tetra- to orth-) at 130 K. "(Nd,Sr)FeAsO" Nd0.9Sr0.1Fe1As1O1 Nd 0.9 Sr 0.1 Fe 1 As 1 O 1 2009 ABCD oxypnictide A 3.9733 8.5808 K 1.8 "Fe,Fe2O3,SrO,FeAs,NdAs" "mixture - pellet - heat(1100C,48h)" Structural and electronic response upon hole doping of rare-earth iron oxyarsenides Nd1-xSrxFeAsO (0 < x =< 0.2) 2009 "School of Chemistry, University of Edinburgh, Edinburgh, UK" "Chem. Commun., (2009) 707"
153172 CC2009707 structural transformation(tetra- to orth-) at 130 K. "(Nd,Sr)FeAsO" Nd0.8Sr0.2Fe1As1O1 Nd 0.8 Sr 0.2 Fe 1 As 1 O 1 2009 ABCD oxypnictide A 3.9777 8.6417 K 13.5 13.5 17 "Fe,Fe2O3,SrO,FeAs,NdAs" "mixture - pellet - heat(1100C,48h)" Structural and electronic response upon hole doping of rare-earth iron oxyarsenides Nd1-xSrxFeAsO (0 < x =< 0.2) 2009 "School of Chemistry, University of Edinburgh, Edinburgh, UK" "Chem. Commun., (2009) 707"
153173 EPL09147008 "residual-[gamma] = 9.8 mJ/mol.K2. (dC/gamma*Tc) = 0.27 . Two gap model: large one in DB, small one (2D/kTc) = 1.54." "Ba(Fe,Co)2As2" Ba1Fe1.92Co0.08As2 Ba 1 Fe 1.92 Co 0.08 As 2 3 2010 AB2C2 ThCr2Si2 K 5.8 5.8 3.49 14 mJ/mol.K2 14.9 SP-heat self-flux method Doping evolution of superconducting gaps and electronic densities of states in Ba(Fe1-xCox)2As2 iron pnictides 2010 "Karlsruher Institut fur Technologie, Institut fur Festkorperphysik - 76021 Karlsruhe, Germany, EU" "EuroPhys.Lett.,91(2010)47008"
153174 EPL09147008 "residual-[gamma] = 2.5 mJ/mol.K2. (dC/gamma*Tc) = 1.23 . Two gap model: large one in DB, small one (2D/kTc) = 1.60." "Ba(Fe,Co)2As2" Ba1Fe1.9Co0.1As2 Ba 1 Fe 1.9 Co 0.1 As 2 3 2010 AB2C2 ThCr2Si2 K 19.5 19.5 4.15 14 mJ/mol.K2 17.2 SP-heat self-flux method Doping evolution of superconducting gaps and electronic densities of states in Ba(Fe1-xCox)2As2 iron pnictides 2010 "Karlsruher Institut fur Technologie, Institut fur Festkorperphysik - 76021 Karlsruhe, Germany, EU" "EuroPhys.Lett.,91(2010)47008"
153175 EPL09147008 "residual-[gamma] = 2.1 mJ/mol.K2. (dC/gamma*Tc) = 1.52 . Two gap model: large one in DB, small one (2D/kTc) = 2.02." "Ba(Fe,Co)2As2" Ba1Fe1.89Co0.11As2 Ba 1 Fe 1.89 Co 0.11 As 2 3 2010 AB2C2 ThCr2Si2 K 21.5 21.5 4.77 14 mJ/mol.K2 19 SP-heat self-flux method Doping evolution of superconducting gaps and electronic densities of states in Ba(Fe1-xCox)2As2 iron pnictides 2010 "Karlsruher Institut fur Technologie, Institut fur Festkorperphysik - 76021 Karlsruhe, Germany, EU" "EuroPhys.Lett.,91(2010)47008"
153176 EPL09147008 "residual-[gamma] = 2.6 mJ/mol.K2. (dC/gamma*Tc) = 1.55 . Two gap model: large one in DB, small one (2D/kTc) = 1.85." "Ba(Fe,Co)2As2" Ba1Fe1.885Co0.115As2 Ba 1 Fe 1.885 Co 0.115 As 2 3 2010 AB2C2 ThCr2Si2 K 24.3 24.3 MTC153176 4.96 14 mJ/mol.K2 21.3 SP-heat self-flux method Doping evolution of superconducting gaps and electronic densities of states in Ba(Fe1-xCox)2As2 iron pnictides 2010 "Karlsruher Institut fur Technologie, Institut fur Festkorperphysik - 76021 Karlsruhe, Germany, EU" "EuroPhys.Lett.,91(2010)47008"
153177 EPL09147008 "residual-[gamma] = 2.9 mJ/mol.K2. (dC/gamma*Tc) = 1.25 . Two gap model: large one in DB, small one (2D/kTc) = 1.85." "Ba(Fe,Co)2As2" Ba1Fe1.85Co0.15As2 Ba 1 Fe 1.85 Co 0.15 As 2 3 2010 AB2C2 ThCr2Si2 K 22.9 22.9 4.18 14 mJ/mol.K2 22.1 SP-heat self-flux method Doping evolution of superconducting gaps and electronic densities of states in Ba(Fe1-xCox)2As2 iron pnictides 2010 "Karlsruher Institut fur Technologie, Institut fur Festkorperphysik - 76021 Karlsruhe, Germany, EU" "EuroPhys.Lett.,91(2010)47008"
153178 EPL09147008 "residual-[gamma] = 3.6 mJ/mol.K2. (dC/gamma*Tc) = 1.16 . Two gap model: large one in DB, small one (2D/kTc) = 1.81." "Ba(Fe,Co)2As2" Ba1Fe1.82Co0.18As2 Ba 1 Fe 1.82 Co 0.18 As 2 3 2010 AB2C2 ThCr2Si2 K 20.7 20.7 4.26 14 mJ/mol.K2 20 SP-heat self-flux method Doping evolution of superconducting gaps and electronic densities of states in Ba(Fe1-xCox)2As2 iron pnictides 2010 "Karlsruher Institut fur Technologie, Institut fur Festkorperphysik - 76021 Karlsruhe, Germany, EU" "EuroPhys.Lett.,91(2010)47008"
153179 EPL09147008 "residual-[gamma] = 7.9 mJ/mol.K2. (dC/gamma*Tc) = 0.48 . Two gap model: large one in DB, small one (2D/kTc) = 1.72" "Ba(Fe,Co)2As2" Ba1Fe1.776Co0.224As2 Ba 1 Fe 1.776 Co 0.224 As 2 3 2010 AB2C2 ThCr2Si2 K 11.1 11.1 3.6 14 mJ/mol.K2 17 SP-heat self-flux method Doping evolution of superconducting gaps and electronic densities of states in Ba(Fe1-xCox)2As2 iron pnictides 2010 "Karlsruher Institut fur Technologie, Institut fur Festkorperphysik - 76021 Karlsruhe, Germany, EU" "EuroPhys.Lett.,91(2010)47008"
153180 EPL09147008 "residual-[gamma] = 10.4 mJ/mol.K2. (dC/gamma*Tc) = 0.22 . Two gap model: large one in DB, small one (2D/kTc) = 1.29." "Ba(Fe,Co)2As2" Ba1Fe1.76Co0.24As2 Ba 1 Fe 1.76 Co 0.24 As 2 3 2010 AB2C2 ThCr2Si2 K 5.1 5.1 3.26 14 mJ/mol.K2 14.6 SP-heat self-flux method Doping evolution of superconducting gaps and electronic densities of states in Ba(Fe1-xCox)2As2 iron pnictides 2010 "Karlsruher Institut fur Technologie, Institut fur Festkorperphysik - 76021 Karlsruhe, Germany, EU" "EuroPhys.Lett.,91(2010)47008"
153181 EPL09517011 "Ni-content by EDS. T = 41 K. anisotropy (Hc1) = 6.4 at 1.8 K. (dC/gamma*Tc) = 1.20. Hc() = 449 Oe. GL-parameter = 19.3(ab), =3.0 (c)." NixZrTe3 Ni0.05Zr1Te3 Ni 0.05 Zr 1 Te 3 3 2011 A 5.895 3.923 10.16 "monoclinic, beta = 97.76" K 3.1 3.59 3.1 Oe M-H curve 50 321 T "resistivity, 0.95Rn" 1.2281 0.4862 MHC153181 A from Hc2 260 100 A 780 12420 3 14 MSP153181 mJ/mol.K2 2.7 SP-heat 192.4 SP-heat Chemical vapor transport (CVT) method. 720C(H) - 645C(L) for 10 days. Raising Tc in charge density wave superconductor ZrTe3 by Ni intercalation 2011 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory Upton, NY 11973, USA" "EuroPhys.Lett.,95(2011)17011"
153182 EPL09157008 "CeFeAs(O,F)" Ce1Fe1As1F0.16O0.84 Ce 1 Fe 1 As 1 F 0.16 O 0.84 2010 ABCD oxypnictide A 3.989 8.631 ZrCuSiAs-type K 41 41 TC153182 solid state reaction Pressure-induced competition between superconductivity and Kondo effect in CeFeAsO1-xFx (x = 0.16 and 0.3) 2010 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences Beijing 100190, China" "EuroPhys.Lett.,91(2010)57008"
153183 EPL09157008 "CeFeAs(O,F)" Ce1Fe1As1F0.3O0.7 Ce 1 Fe 1 As 1 F 0.3 O 0.7 2010 ABCD oxypnictide A 3.985 8.598 ZrCuSiAs-type K 46 46 TC153183 high-P synthesis Pressure-induced competition between superconductivity and Kondo effect in CeFeAsO1-xFx (x = 0.16 and 0.3) 2010 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences Beijing 100190, China" "EuroPhys.Lett.,91(2010)57008"
153184 EPL09167002 RRR = 24. Tc = 16.8 K from SP. (dC/Tc) = 20.2 mJ/mol.K2. Anisotropy = 2.3 near Tc. LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 3 2010 ABC Cu2Sb P4/nmm K 16.8 18.2 16.8 T "resistivity, 0.5Rn" 36.9 17.2 T/K "resistivity, 0.5Rn" 2.99 1.39 A from Hc2 440 20 mJ/mol.K2 35 SP-heat 300 SP-heat Sn-flux method. (LiFeAs):Sn = 1:10. alumina crucible/quartz ampoule - heat to and hold at 850 C cool to 500C (3.5 C/h) Single-crystal growth and superconducting properties of LiFeAs 2010 "CeNSCMR & Department of Physics and Astronomy, Seoul National University - Seoul 151-747, Republic of Korea" "EuroPhys.Lett.,91(2010)67002"
153185 EPL09257004 Anisotropy = 2.58 "Fe(Te,Se)" Fe1.04Te0.6Se0.4 Fe 1.04 Te 0.6 Se 0.4 3 2010 A 6.014 K 14 14 T "resistivity, 0.1Rn, WHH" 91 35 T/K "resistivity, 0.1Rn" 9.43 3.65 MHC153185 3.48 14 mJ/mol.K2 27.61 SP-heat "unidirectional solidification method. heat(970-1000C,for 12h) - slow cool to 400 C(2-4 C/h)" Superconductivity and vortex pinning in Fe1.04Te0.60Se0.40 single crystal 2010 "Max-Planck-Institut fur Festkorperforschung - Heisenbergstrasse 1, D-70569 Stuttgart, Germany, EU" "EuroPhys.Lett.,92(2010)57004"
153186 EPL09427008 not SC. AFM due to Fe-site vacancy. vacancy content not given. STR transition at 540 K KFe2Se2 K1Fe2Se2 K 1 Fe 2 Se 2 3 2011 527 AB2C2 ThCr2Si2 K 5 Bridgeman method "Coexistence of superconductivity and antiferromagnetism in single crystals A0.8Fe2-ySe2 (A = K, Rb, Cs, Tl/K and Tl/Rb): Evidence from magnetization and resistivity" 2011 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China - Hefei, Anhui 230026, PRC" "EuroPhys.Lett., 94(2011)27008"
153187 EPL09427008 AFM due to Fe-site vacancy. vacancy content not given. STR transition at 551 K. Resistivity shows maximum at 170 K. KxFe2Se2 K0.8Fe2Se2 K 0.8 Fe 2 Se 2 3 2011 540 AB2C2 ThCr2Si2 K 30.5 31.5 31 Bridgeman method "Coexistence of superconductivity and antiferromagnetism in single crystals A0.8Fe2-ySe2 (A = K, Rb, Cs, Tl/K and Tl/Rb): Evidence from magnetization and resistivity" 2011 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China - Hefei, Anhui 230026, PRC" "EuroPhys.Lett., 94(2011)27008"
153188 EPL09427008 AFM due to Fe-site vacancy. vacancy content not given. STR transition at 540 K. Resistivity shows maximum at 250 K. RbxFe2Se2 Rb0.8Fe2Se2 Rb 0.8 Fe 2 Se 2 3 2011 534 AB2C2 ThCr2Si2 K 31.5 32 31.75 Bridgeman method "Coexistence of superconductivity and antiferromagnetism in single crystals A0.8Fe2-ySe2 (A = K, Rb, Cs, Tl/K and Tl/Rb): Evidence from magnetization and resistivity" 2011 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China - Hefei, Anhui 230026, PRC" "EuroPhys.Lett., 94(2011)27008"
153189 EPL09427008 AFM due to Fe-site vacancy. vacancy content not given. STR transition at 525 K. Resistivity shows maximum at 270 K. CsxFe2Se2 Cs0.8Fe2Se2 Cs 0.8 Fe 2 Se 2 3 2011 504 AB2C2 ThCr2Si2 K 27.5 30.9 29.2 Bridgeman method "Coexistence of superconductivity and antiferromagnetism in single crystals A0.8Fe2-ySe2 (A = K, Rb, Cs, Tl/K and Tl/Rb): Evidence from magnetization and resistivity" 2011 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China - Hefei, Anhui 230026, PRC" "EuroPhys.Lett., 94(2011)27008"
153190 EPL09427008 AFM due to Fe-site vacancy. vacancy content not given. STR transition at 515 K. Resistivity shows maximum at 78 K. "(Tl,K)xFe2Se2" Tl0.4K0.3Fe2Se2 Tl 0.4 K 0.3 Fe 2 Se 2 3 2011 496 AB2C2 ThCr2Si2 K 24.8 27.7 26.25 Bridgeman method "Coexistence of superconductivity and antiferromagnetism in single crystals A0.8Fe2-ySe2 (A = K, Rb, Cs, Tl/K and Tl/Rb): Evidence from magnetization and resistivity" 2011 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China - Hefei, Anhui 230026, PRC" "EuroPhys.Lett., 94(2011)27008"
153191 EPL09427008 AFM due to Fe-site vacancy. vacancy content not given. STR transition at 512 K. Resistivity shows maximum at 180 K. "(Tl,Rb)xFe2Se2" Tl0.4Rb0.4Fe2Se2 Tl 0.4 Rb 0.4 Fe 2 Se 2 3 2011 500 AB2C2 ThCr2Si2 K 30.9 31.8 31.35 Bridgeman method "Coexistence of superconductivity and antiferromagnetism in single crystals A0.8Fe2-ySe2 (A = K, Rb, Cs, Tl/K and Tl/Rb): Evidence from magnetization and resistivity" 2011 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China - Hefei, Anhui 230026, PRC" "EuroPhys.Lett., 94(2011)27008"
153192 EPL09567007 chemical formula from EDX. SC apears for small range of Ru-content (around 25 %) "Eu(Fe,Ru)2As2" Eu1Fe1.5Ru0.5As2 Eu 1 Fe 1.5 Ru 0.5 As 2 3 2011 myu-B/f.u 7.9 17 AB2C2 ThCr2Si2 A 11.79 K 20 23 21.5 "self flux method. (Eu:Fe:Ru:As = 0.5:0.73:0.27:1) - melt(1473 K) - cool( 5 K/h) - ANN(973K,48h, in vac)" Anisotropic superconductivity in Eu(Fe0.75Ru0.25)2As2 ferromagnetic superconductor 2011 "Department of Physics, Zhejiang University - Hangzhou 310027, China" "EuroPhys.Lett.,95(2011)67007"
153193 EPL09617007 not SC. SmOFeAs Sm1Fe1As1O1 Sm 1 Fe 1 As 1 O 1 1 2011 138 ABCD oxypnictide P4/nmm A 3.9391 8.5017 ZrCuSiAs-type K 2 "Sm,As,Fe,Co,Co2O3,Fe2O3" "mixture - (sealed in Nb tube) - heat(1180C,45h, in flowing Ar)" Superconductivity and magnetic properties in SmFe1-xCoxAsO (x = 0 to 1) 2011 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences P. O. Box 2703, Beijing 100190, China" "EuroPhys.Lett., 96(2011)17007"
153194 EPL09617007 not SC. "SmO(Fe,Co)As" Sm1Fe0.975Co0.025As1O1 Sm 1 Fe 0.975 Co 0.025 As 1 O 1 1 2011 85 ABCD oxypnictide P4/nmm A 3.9395 8.4965 ZrCuSiAs-type K 2 "Sm,As,Fe,Co,Co2O3,Fe2O3" "mixture - (sealed in Nb tube) - heat(1180C,45h, in flowing Ar)" Superconductivity and magnetic properties in SmFe1-xCoxAsO (x = 0 to 1) 2011 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences P. O. Box 2703, Beijing 100190, China" "EuroPhys.Lett., 96(2011)17007"
153195 EPL09617007 not SC. "SmO(Fe,Co)As" Sm1Fe0.95Co0.05As1O1 Sm 1 Fe 0.95 Co 0.05 As 1 O 1 1 2011 55 ABCD oxypnictide P4/nmm A 3.9397 8.4953 ZrCuSiAs-type K 2 "Sm,As,Fe,Co,Co2O3,Fe2O3" "mixture - (sealed in Nb tube) - heat(1180C,45h, in flowing Ar)" Superconductivity and magnetic properties in SmFe1-xCoxAsO (x = 0 to 1) 2011 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences P. O. Box 2703, Beijing 100190, China" "EuroPhys.Lett., 96(2011)17007"
153196 EPL09617007 "SmO(Fe,Co)As" Sm1Fe0.925Co0.075As1O1 Sm 1 Fe 0.925 Co 0.075 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9399 8.4864 ZrCuSiAs-type K 11.6 11.6 "Sm,As,Fe,Co,Co2O3,Fe2O3" "mixture - (sealed in Nb tube) - heat(1180C,45h, in flowing Ar)" Superconductivity and magnetic properties in SmFe1-xCoxAsO (x = 0 to 1) 2011 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences P. O. Box 2703, Beijing 100190, China" "EuroPhys.Lett., 96(2011)17007"
153197 EPL09617007 "SmO(Fe,Co)As" Sm1Fe0.9Co0.1As1O1 Sm 1 Fe 0.9 Co 0.1 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9402 8.4852 ZrCuSiAs-type K 15 15 "Sm,As,Fe,Co,Co2O3,Fe2O3" "mixture - (sealed in Nb tube) - heat(1180C,45h, in flowing Ar)" Superconductivity and magnetic properties in SmFe1-xCoxAsO (x = 0 to 1) 2011 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences P. O. Box 2703, Beijing 100190, China" "EuroPhys.Lett., 96(2011)17007"
153198 EPL09617007 "SmO(Fe,Co)As" Sm1Fe0.875Co0.125As1O1 Sm 1 Fe 0.875 Co 0.125 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9403 8.4637 ZrCuSiAs-type K 12.8 12.8 TC153198 "Sm,As,Fe,Co,Co2O3,Fe2O3" "mixture - (sealed in Nb tube) - heat(1180C,45h, in flowing Ar)" Superconductivity and magnetic properties in SmFe1-xCoxAsO (x = 0 to 1) 2011 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences P. O. Box 2703, Beijing 100190, China" "EuroPhys.Lett., 96(2011)17007"
153199 EPL09617007 "SmO(Fe,Co)As" Sm1Fe0.85Co0.15As1O1 Sm 1 Fe 0.85 Co 0.15 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9404 8.4586 ZrCuSiAs-type K 10 10 "Sm,As,Fe,Co,Co2O3,Fe2O3" "mixture - (sealed in Nb tube) - heat(1180C,45h, in flowing Ar)" Superconductivity and magnetic properties in SmFe1-xCoxAsO (x = 0 to 1) 2011 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences P. O. Box 2703, Beijing 100190, China" "EuroPhys.Lett., 96(2011)17007"
153200 EPL09617007 "SmO(Fe,Co)As" Sm1Fe0.825Co0.175As1O1 Sm 1 Fe 0.825 Co 0.175 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9406 8.4508 ZrCuSiAs-type K 5.8 5.8 "Sm,As,Fe,Co,Co2O3,Fe2O3" "mixture - (sealed in Nb tube) - heat(1180C,45h, in flowing Ar)" Superconductivity and magnetic properties in SmFe1-xCoxAsO (x = 0 to 1) 2011 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences P. O. Box 2703, Beijing 100190, China" "EuroPhys.Lett., 96(2011)17007"
153201 EPL09617007 "SmO(Fe,Co)As" Sm1Fe0.8Co0.2As1O1 Sm 1 Fe 0.8 Co 0.2 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9411 8.4454 ZrCuSiAs-type K 2 "Sm,As,Fe,Co,Co2O3,Fe2O3" "mixture - (sealed in Nb tube) - heat(1180C,45h, in flowing Ar)" Superconductivity and magnetic properties in SmFe1-xCoxAsO (x = 0 to 1) 2011 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences P. O. Box 2703, Beijing 100190, China" "EuroPhys.Lett., 96(2011)17007"
153202 EPL09617007 not SC. SmOCoAs Sm1Co1As1O1 Sm 1 Co 1 As 1 O 1 1 2011 56 38 ABCD oxypnictide P4/nmm A 3.954 8.2533 ZrCuSiAs-type K 2 "Sm,As,Fe,Co,Co2O3,Fe2O3" "mixture - (sealed in Nb tube) - heat(1180C,45h, in flowing Ar)" Superconductivity and magnetic properties in SmFe1-xCoxAsO (x = 0 to 1) 2011 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences P. O. Box 2703, Beijing 100190, China" "EuroPhys.Lett., 96(2011)17007"
153203 EPL08967007 "SmO(Fe,Co)As" Sm1Fe0.9Co0.1As1O1 Sm 1 Fe 0.9 Co 0.1 As 1 O 1 1 2010 ABCD oxypnictide P4/nmm A 3.9391 8.497 ZrCuSiAs-type K 15.6 15.6 15.6 TC153203 T "resistivity, 0.9Rn, WHH" 48 T/K "resistivity, 0.9Rn" 4.5 HC153203 "solid state reaction. heat(1180C, 45h)" "Superconductivity in SmFe1-xMxAsO (M= Co, Rh, Ir)" 2010 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences P. O. Box 2703, Beijing 100190, China" "EuroPhys.Lett., 89(2010)67007"
153204 EPL08967007 "SmO(Fe,Rh)As" Sm1Fe0.9Rh0.1As1O1 Sm 1 Fe 0.9 Rh 0.1 As 1 O 1 1 2010 ABCD oxypnictide P4/nmm A 3.9427 8.4501 ZrCuSiAs-type K 9.6 9.6 9.6 TC153204 T "resistivity, 0.9Rn, WHH" 25.6 T/K "resistivity, 0.9Rn" 3.6 HC153204 "solid state reaction. heat(1180C, 45h)" "Superconductivity in SmFe1-xMxAsO (M= Co, Rh, Ir)" 2010 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences P. O. Box 2703, Beijing 100190, China" "EuroPhys.Lett., 89(2010)67007"
153205 EPL08967007 "SmO(Fe,Ir)As" Sm1Fe0.875Ir0.125As1O1 Sm 1 Fe 0.875 Ir 0.125 As 1 O 1 1 2010 ABCD oxypnictide P4/nmm A 3.9521 8.419 ZrCuSiAs-type K 16.5 16.5 16.5 TC153205 T "resistivity, 0.9Rn, WHH" 51 T/K "resistivity, 0.9Rn" 4.2 HC153205 "solid state reaction. heat(1180C, 45h)" "Superconductivity in SmFe1-xMxAsO (M= Co, Rh, Ir)" 2010 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences P. O. Box 2703, Beijing 100190, China" "EuroPhys.Lett., 89(2010)67007"
153206 SSC1511767 "Fe(Te,Se)" Fe1Te0.5Se0.5 Fe 1 Te 0.5 Se 0.5 2011 Fe-11 P4/nmm A 3.7945 6.0311 K 13 13 mixture - pellet - encapsulate in quartz(vac) - heat(750C) - cool to 300C - Q to RT "Role of interstitial ""caged"" Fe in the superconductivity of FeTe1/2Se1/2" 2011 "Quantum Phenomena and Application Division, National Physical Laboratory (CSIR), Dr. K. S. Krishnan Road, New Delhi-110012, India" "Solid State Commun., 151(2011)1767"
153207 SST024085017 "impurity: Fe2P. RRR = 4.8(rab), =4.6(Rc). Anisotropy (R) = 1.1, (Hc2) = 1.25. Curie-T and moment = 18.95K and 8.59 myu-B/Eu for H//c." "(Eu,Na)Fe2(As,P)" Eu0.7Na0.3Fe2As1.4P0.6 Eu 0.7 Na 0.3 Fe 2 As 1.4 P 0.6 3 2011 myu-B/Eu 8.48 25.2 AB2C2 ThCr2Si2 I4/mmm A 3.871 11.924 K 25.2 3.3 25.2 T "resistivity, 0.9Rn, WHH" 36.6 29.2 T/K "resistivity, 0.9Rn" 1.59 1.26 A from Hc2 33.5 26.9 mJ/mol.K 300 mJ/mol.K2 503 SP-heat 376 SP-heat "Bridgeman nethod. Eu:Na:Fe2(As0.7P0.4)2.3 = 0.7:0.6:1, melt(1650C) - cool slowly (melting point not known)" Interplay of the superconductivity and magnetism in Eu0.7Na0.3Fe2As1.4P0.6 2011 "Department of Physics, Sungkyunkwan University, Suwon 440-746, Republic of Korea" "Supercond.Sci.Technol., 24(2011)085017"
153208 SST024085020 "new phase confirmed by XRD, STEM. single phase not obtained. Ti-concentration is tentative value," "(Ca8(Mg,Ti)6)O9.5Fe2As2" Ca8Mg1.5Ti4.5Fe2As2O9.5 Ca 8 Mg 1.5 Ti 4.5 Fe 2 As 2 O 9.5 2011 A 3.86 30 K 40 40 40 "Fe,CaO,MgO,Ti,TiO2" "nominal: Fe2As2(Ca8(Mg0.25Ti0.75)6O9.5). mixture - pellet - (sealed in quartz ampoule) - heat(1000-1200C,72-100h)" "A new iron pnictide oxide (Fe2As2)(Ca5(Mg, Ti)4Oy) and a new phase in the Fe-As-Ca-Mg-Ti-O system" 2011 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Supercond.Sci.Technol., 24(2011)085020"
153209 SST024095006 not SC. CaFeAsF Ca1Fe1As1F1 Ca 1 Fe 1 As 1 F 1 1 2011 114 ABCD oxypnictide A 3.879 8.597 K "solid state reaction. precursor(Fe2-xRhxAs) mixed with CaAs, CaF2. mixture - pellet - heat(900C,9h) - hold(900C,24h) - FC to RT" Superconductivity in Rh-doped CaFeAsF 2011 "Department of Physics, Renmin University of China, Beijing 100872, People's Republic of China" "Supercond.Sci.Technol., 24(2011)095006"
153210 SST024095006 "Ca(Fe,Rh)AsF" Ca1Fe0.95Rh0.05As1F1 Ca 1 Fe 0.95 Rh 0.05 As 1 F 1 1 2011 51 ABCD oxypnictide A 3.8852 8.5726 K 3.81 3.81 "solid state reaction. precursor(Fe2-xRhxAs) mixed with CaAs, CaF2. mixture - pellet - heat(900C,9h) - hold(900C,24h) - FC to RT" Superconductivity in Rh-doped CaFeAsF 2011 "Department of Physics, Renmin University of China, Beijing 100872, People's Republic of China" "Supercond.Sci.Technol., 24(2011)095006"
153211 SST024095006 "Ca(Fe,Rh)AsF" Ca1Fe0.92Rh0.08As1F1 Ca 1 Fe 0.92 Rh 0.08 As 1 F 1 1 2011 ABCD oxypnictide A 3.8923 8.5387 K 15 22.2 25 22.2 MTC153211 T "resistivity, 0.9Rn, WHH" 31 T/K "resistivity, 0.9Rn" 3 MHC153211 "solid state reaction. precursor(Fe2-xRhxAs) mixed with CaAs, CaF2. mixture - pellet - heat(900C,9h) - hold(900C,24h) - FC to RT" Superconductivity in Rh-doped CaFeAsF 2011 "Department of Physics, Renmin University of China, Beijing 100872, People's Republic of China" "Supercond.Sci.Technol., 24(2011)095006"
153212 SST024095006 "Ca(Fe,Rh)AsF" Ca1Fe0.85Rh0.15As1F1 Ca 1 Fe 0.85 Rh 0.15 As 1 F 1 1 2011 ABCD oxypnictide A 3.9043 8.4951 K 18.4 18.4 "solid state reaction. precursor(Fe2-xRhxAs) mixed with CaAs, CaF2. mixture - pellet - heat(900C,9h) - hold(900C,24h) - FC to RT" Superconductivity in Rh-doped CaFeAsF 2011 "Department of Physics, Renmin University of China, Beijing 100872, People's Republic of China" "Supercond.Sci.Technol., 24(2011)095006"
153213 SST024095007 impuity phase: ThC2. lattice term in SP (beta) = 1.012 mJ/mol K4. (dC/gamma*Tc) = 1.1. GL parameter = 25. Th3Ni5C5 Th3Ni5C5 Th 3 Ni 5 C 5 2011 A3B5C5 Cmcm A 13.92 7.14 7.04 ortho- K 5 5 0.2 5 85 Oe M-H curve 80 T "resistivity, extrapolation" 5.8 MHC153213 A from Hc2 75 A 2070 mJ/mol.K2 38.84 SP-heat 293 SP-heat "Ni,Th,graphite" "arc-melting. ANN(900C,2d) - Q to Liq.N2" Superconductivity in Th3Ni5C5 2011 "Escola de Engenharia de Lorena, Universidade de Sao Paulo, PO Box 116, Lorena, SP, Brazil" "Supercond.Sci.Technol., 24(2011)095007"
153214 CEM0700019 Tc measured by ac-induction. Y2FeC4 Y2Fe1C4 Y 2 Fe 1 C 4 1 1987 AB2C4 Ibam A 7.529 9.565 5.0406 ortho- K 3.6 3.6 "R(chips),Fe(powder),graphite" "arc-melting - ANN(900C,0d, in silica tube(vac))" Preparation and Crystal Structure of Superconducting Y2FeC4 and lsotypic Lanthanoid Iron Carbides 1987 "Anorganisch-Chemisches Institut, Universittat Munster, Corrensstrasse 36, D-4400 Munster, Federal Republic of Germany" "J.solid State Chem., 70(1987)19"
153215 CEM0700019 Lu2FeC4 Lu2Fe1C4 Lu 2 Fe 1 C 4 1 1987 AB2C4 Ibam A 7.494 9.249 4.9508 ortho- K 1.8 "R(chips),Fe(powder),graphite" "arc-melting - ANN(900C,0d, in silica tube(vac))" Preparation and Crystal Structure of Superconducting Y2FeC4 and lsotypic Lanthanoid Iron Carbides 1987 "Anorganisch-Chemisches Institut, Universittat Munster, Corrensstrasse 36, D-4400 Munster, Federal Republic of Germany" "J.solid State Chem., 70(1987)19"
153216 CEM0700019 Tm2FeC4 Tm2Fe1C4 Tm 2 Fe 1 C 4 1 1987 7.97 AB2C4 Ibam A 7.494 9.367 4.9792 ortho- K 1.8 "R(chips),Fe(powder),graphite" "arc-melting - ANN(900C,0d, in silica tube(vac))" Preparation and Crystal Structure of Superconducting Y2FeC4 and lsotypic Lanthanoid Iron Carbides 1987 "Anorganisch-Chemisches Institut, Universittat Munster, Corrensstrasse 36, D-4400 Munster, Federal Republic of Germany" "J.solid State Chem., 70(1987)19"
153217 SST024105015 "SP coeffic, (beta) = 0.657 mJ/mol.K2, (delta) = 0.001 mJ/mol.K6. e-ph = 0.58. (dC/gamma*Tc) = 2.68. gap = 0.9 meV assuming single gap model. GL parameter = 150." Rh7S15 Rh17S15 Rh 17 S 15 1 2011 A15B17 Pm3m cubic K 5.36 5.36 Oe "Hc2,GL" 16 T "ac-SUS, extrapolation" 20 T/K ac-SUS 3.6 MHC153217 A from Hc2 40 A 6000 4 14 mJ/mol.K2 108.41 SP-heat 456 SP-heat "Rh(4N),S(5N),Pd(3N),Se(5N)" "mixture - heat to 1150C(8C/h) in alumina crucible - ANN(1050C,2d) - cool to 600C(8C/h) - cool to RT (30C/h)" Normal state and superconducting properties of Rh17S15 and Pd17Se15 2011 "Tata Institute of Fundamental Research, Mumbai, India" "Supercond.Sci.Technol., 24(2011)105015"
153218 SST024105015 "SP coeffic, (beta) = 4.9 mJ/mol.K2, (delta) = 0.11 uJ/mol.K6. e-ph = 0.54.." Pd17Se15 Pd17Se15 Pd 17 Se 15 1 2011 A15B17 Pm3m A 10.604 cubic K 2.2 2.2 T "ac-SUS, extrapolation" 3.3 T/K ac-SUS 1.5 MHC153218 A from Hc2 100 mJ/mol.K2 22 SP-heat 233.3 SP-heat mOhm.cm 0.0432 "Rh(4N),S(5N),Pd(3N),Se(5N)" "mixture - heat to 1150C(8C/h) in alumina crucible - ANN(1050C,2d) - cool to 600C(8C/h) - cool to RT (30C/h)" Normal state and superconducting properties of Rh17S15 and Pd17Se15 2011 "Tata Institute of Fundamental Research, Mumbai, India" "Supercond.Sci.Technol., 24(2011)105015"
153219 PRB084132503 "concentration: Se:Te = 1:2 by EDX. [penet] is London-P , measured by surface impedance." "Fe(Se,Te)" Fe1Se0.4Te0.6 Fe 1 Se 0.4 Te 0.6 2011 AB K 14 14 A surface impedance 4700 Bridgeman method Anomalous temperature dependence of the superfluid density caused by a dirty-to-clean crossover in superconducting FeSe0.4Te0.6 single crystals 2011 "Department of Basic Science, the University of Tokyo, 3-8-1 Komaba, Meguro-ku, Tokyo 153-8902, Japan" "Phys.Rev.B, 84(2011)132503"
153220 PRB084134525 P-induced SC. Pc=4.8 GPa. Tc(max) = 16.6 K at P=5.31 GPa. magnetic(para-AFM) and structural(tetra-ortho) transitions at T=134 K. BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2011 AB2C2 ThCr2Si2 K 16.6 0 16.6 MTC153220 self-flux method Combined effects of pressure and Ru substitution on BaFe2As2 2011 "Ames Laboratory, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 84(2011)134525"
153221 PRB084134525 P-induced SC. Pc = 5.1 GPa. Tc(max) = 25.8 K at P = 4.94 GPa. magnetic(para-AFM) and structural(tetra-ortho) transitions at T = 98K. "Ba(Fe,Ru)2As2" Ba1Fe1.82Ru0.18As2 Ba 1 Fe 1.82 Ru 0.18 As 2 3 2011 AB2C2 ThCr2Si2 K 25.8 0 25.8 MTC153221 self-flux method Combined effects of pressure and Ru substitution on BaFe2As2 2011 "Ames Laboratory, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 84(2011)134525"
153222 PRB084134525 P-induced SC. Pc = 2.4 GPa. Tc(max) = 23.0 K at P = 3.58 GPa. magnetic(para-AFM) and structural(tetra-ortho) transitions at T = 71 K. "Ba(Fe,Ru)2As2" Ba1Fe1.68Ru0.32As2 Ba 1 Fe 1.68 Ru 0.32 As 2 3 2011 AB2C2 ThCr2Si2 K 23 0 23 MTC153222 self-flux method Combined effects of pressure and Ru substitution on BaFe2As2 2011 "Ames Laboratory, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 84(2011)134525"
153223 PRB084134525 magnetic(para-AFM) and structural(tetra-ortho) transitions at T = 45.2 K "Ba(Fe,Ru)2As2" Ba1Fe1.58Ru0.42As2 Ba 1 Fe 1.58 Ru 0.42 As 2 3 2011 AB2C2 ThCr2Si2 K 6.83 6.83 MTC153223 self-flux method Combined effects of pressure and Ru substitution on BaFe2As2 2011 "Ames Laboratory, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 84(2011)134525"
153224 PRB084134525 "Ba(Fe,Ru)2As2" Ba1Fe1.44Ru0.56As2 Ba 1 Fe 1.44 Ru 0.56 As 2 3 2011 AB2C2 ThCr2Si2 K 15 15 MTC153224 self-flux method Combined effects of pressure and Ru substitution on BaFe2As2 2011 "Ames Laboratory, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 84(2011)134525"
153225 PRB084134526 "SmOFe(As,P)" Sm1Fe1As0.5P0.5O1 Sm 1 Fe 1 As 0.5 P 0.5 O 1 1 2011 ABCD oxypnictide A 3.9066 8.3489 ZrCuSiAs-type K 23.4 23.4 "SmAs,SmP,Fe2O3,Fe" mixture - pellet - alumina crucible in quartz ampoule. high pressure(P=3.5 GPa) synthesis. "Interplay of composition, structure, magnetism, and superconductivity in SmFeAs1-xPxO1-y" 2011 "Laboratory for Solid State Physics, ETH Zurich, CH-8093 Zurich, Switzerland" "Phys.Rev.B, 84(2011)134526"
153226 PRB084134526 "SmOFe(As,P)" Sm1Fe1As0.5P0.5O1 Sm 1 Fe 1 As 0.5 P 0.5 O 1 1 2011 ABCD oxypnictide A 3.9042 8.3206 ZrCuSiAs-type K 1.2 "SmAs,SmP,Fe2O3,Fe" mixture - pellet - alumina crucible in quartz ampoule - heat(660 C + 1060 C). ambient pressure synthesis "Interplay of composition, structure, magnetism, and superconductivity in SmFeAs1-xPxO1-y" 2011 "Laboratory for Solid State Physics, ETH Zurich, CH-8093 Zurich, Switzerland" "Phys.Rev.B, 84(2011)134526"
153227 PRB084134526 "Two gaps: small gap = 3.5 meV, (2D/kTc) = 4. large gap in DB. These gap measured by Point contact Andreev reflection using Ag/SmFeAs0.5P0.5O junction" "SmOFe(As,P)" Sm1Fe1As0.5P0.5O1 Sm 1 Fe 1 As 0.5 P 0.5 O 1 1 2011 ABCD oxypnictide ZrCuSiAs-type K 20 20 meV 11.9 13 1 "SmAs,SmP,Fe2O3,Fe" mixture - pellet - alumina crucible in quartz ampoule. high pressure(P=3.5 GPa) synthesis. "Interplay of composition, structure, magnetism, and superconductivity in SmFeAs1-xPxO1-y" 2011 "Laboratory for Solid State Physics, ETH Zurich, CH-8093 Zurich, Switzerland" "Phys.Rev.B, 84(2011)134526"
153228 PRB084134526 "SmOFe(As,P)" Sm1Fe1As0.5P0.5O0.85 Sm 1 Fe 1 As 0.5 P 0.5 O 0.85 3 2011 7.297 ABCD oxypnictide A 3.9102 8.3367 ZrCuSiAs-type K 17 17 A from Hc1 2000 NaCl/KCl flux method "Interplay of composition, structure, magnetism, and superconductivity in SmFeAs1-xPxO1-y" 2011 "Laboratory for Solid State Physics, ETH Zurich, CH-8093 Zurich, Switzerland" "Phys.Rev.B, 84(2011)134526"
153229 PRB084134526 "SmOFe(As,P)" Sm1Fe1As0.5P0.5O0.85 Sm 1 Fe 1 As 0.5 P 0.5 O 0.85 3 2011 ABCD oxypnictide ZrCuSiAs-type K 21.7 21.7 T/K "resistivity, R=0.9Rn" 5.7 1.3 HC153229 NaCl/KCl flux method "Interplay of composition, structure, magnetism, and superconductivity in SmFeAs1-xPxO1-y" 2011 "Laboratory for Solid State Physics, ETH Zurich, CH-8093 Zurich, Switzerland" "Phys.Rev.B, 84(2011)134526"
153230 PRB084140507 SP heat measured for magnetic fields H//[001] and H/n [001]//c-axis Ce2PdIn8 Ce2Pd1In8 Ce 2 Pd 1 In 8 3 2011 AB2C8 Ho2CoGa8 K 0.68 0.68 T 2.2 1.8 MHC153230 self-flux method Quantum criticality near the upper critical field of Ce2PdIn8 2011 "I. Physikalisches Institut, Georg-August-Universitat Gottingen, D-37077 Gottingen, Germany" "Phys.Rev.B, 84(2011)140507"
153231 PRB084144520 [gamma] estimated from entropy constraint using SP-data. residual [gamma] = 0.85 mJ/mol.K2. lattice term (beta) = 0.96 mJ/mol.K4. (dC/gamma*Tc) = 1.0. RbxFezSe2 Rb0.653Fe1.532Se2 Rb 0.653 Fe 1.532 Se 2 3 2011 AB2C2 ThCr2Si2 A 3.9285 14.6003 K 30.9 2.8 30.9 mJ/mol.K2 10 SP-heat self flux method. starting mixture(Rb+2.5FeSe) - heat to 1030C with soaking time (3h) - cooling (rate = 6 C/h) "Anisotropic magnetism, superconductivity, and the phase diagram of Rb1-xFe2-ySe2" 2011 "Experimental Physics 5, Center for Electronic Correlations and Magnetism, Institute of Physics, University of Augsburg, DE-86159, Augsburg, Germany" "Phys.Rev.B, 84(2011)144520"
153232 PRB084144520 [gamma] estimated from entropy constraint using SP-data. residual [gamma] = 0.18 mJ/mol.K2. lattice term (beta) = 1.09 mJ/mol.K4. (dC/gamma*Tc) = 0.95. RbxFezSe2 Rb0.796Fe1.596Se2 Rb 0.796 Fe 1.596 Se 2 3 2011 AB2C2 ThCr2Si2 A 3.9228 14.5909 K 32.4 1.5 32.4 MPH153232 T "resistivity, 0.9Rn, WHH" 63 25 MHC153232 mJ/mol.K2 12 SP-heat "Anisotropic magnetism, superconductivity, and the phase diagram of Rb1-xFe2-ySe2" 2011 "Experimental Physics 5, Center for Electronic Correlations and Magnetism, Institute of Physics, University of Augsburg, DE-86159, Augsburg, Germany" "Phys.Rev.B, 84(2011)144520"
153233 PRB084144520 [gamma] estimated from entropy constraint using SP-data. residual [gamma] = 0.46 mJ/mol.K2. lattice term (beta) = 1.04 mJ/mol.K4. (dC/gamma*Tc) = 0.96. RbxFezSe2 Rb0.801Fe1.602Se2 Rb 0.801 Fe 1.602 Se 2 3 2011 AB2C2 ThCr2Si2 A 3.9304 14.605 K 32.4 1.6 32.4 mJ/mol.K2 12 SP-heat Bridgeman method. starting mixture(Rb+2.5FeSe) - heat to 1070C with soaking time (3h) - cooling (rate = 3 mm/h) "Anisotropic magnetism, superconductivity, and the phase diagram of Rb1-xFe2-ySe2" 2011 "Experimental Physics 5, Center for Electronic Correlations and Magnetism, Institute of Physics, University of Augsburg, DE-86159, Augsburg, Germany" "Phys.Rev.B, 84(2011)144520"
153234 PRB084144520 [gamma] estimated from entropy constraint using SP-data. residual [gamma] = 0.33 mJ/mol.K2. lattice term (beta) = 0.90 mJ/mol.K4. RbxFezSe2 Rb0.737Fe1.439Se2 Rb 0.737 Fe 1.439 Se 2 3 2011 AB2C2 ThCr2Si2 A 3.9117 14.6516 K 1.8 Bridgeman method. starting mixture(0.9Rb+2FeSe) - heat to 1070C with soaking time (3h) - cooling (rate = 3 mm/h) "Anisotropic magnetism, superconductivity, and the phase diagram of Rb1-xFe2-ySe2" 2011 "Experimental Physics 5, Center for Electronic Correlations and Magnetism, Institute of Physics, University of Augsburg, DE-86159, Augsburg, Germany" "Phys.Rev.B, 84(2011)144520"
153235 PRB084144520 [gamma] estimated from entropy constraint using SP-data. lattice term (beta) = 0.95 mJ/mol.K4. RbxFezSe2 Rb0.698Fe1.497Se2 Rb 0.698 Fe 1.497 Se 2 3 2011 AB2C2 ThCr2Si2 A 3.9379 14.5983 K 1.8 Bridgeman method. starting mixture(Rb+2FeSe+0.5Se) - heat to 1070C with soaking time (3h) - cooling (rate = 3 mm/h) "Anisotropic magnetism, superconductivity, and the phase diagram of Rb1-xFe2-ySe2" 2011 "Experimental Physics 5, Center for Electronic Correlations and Magnetism, Institute of Physics, University of Augsburg, DE-86159, Augsburg, Germany" "Phys.Rev.B, 84(2011)144520"
153236 PRB084144520 [gamma] estimated from entropy constraint using SP-data. residual [gamma] = 0.3 mJ/mol.K2. lattice term (beta) = 1.36 mJ/mol.K4. RbxFezSe2 Rb0.644Fe1.62Se2 Rb 0.644 Fe 1.62 Se 2 3 2011 AB2C2 ThCr2Si2 A 3.9021 14.6484 K 1.8 Bridgeman method. starting mixture(Rb+2.5FeSe+0.5Se) - heat to 1070C with soaking time (5h) - cooling (rate = 3 mm/h) "Anisotropic magnetism, superconductivity, and the phase diagram of Rb1-xFe2-ySe2" 2011 "Experimental Physics 5, Center for Electronic Correlations and Magnetism, Institute of Physics, University of Augsburg, DE-86159, Augsburg, Germany" "Phys.Rev.B, 84(2011)144520"
153237 PRB084144520 [gamma] estimated from entropy constraint using SP-data. residual [gamma] = 0.34 mJ/mol.K2. lattice term (beta) = 0.94 mJ/mol.K4. (dC/gamma*Tc) = 2.2. RbxFezSe2 Rb0.74Fe1.6Se2 Rb 0.74 Fe 1.6 Se 2 3 2011 AB2C2 ThCr2Si2 A 3.919 14.5515 K 32.4 1.5 32.4 mJ/mol.K2 7.4 SP-heat Bridgeman method. starting mixture(Rb+2.5FeSe) - heat to 1070C with soaking time (5h) - cooling (rate = 3 mm/h) "Anisotropic magnetism, superconductivity, and the phase diagram of Rb1-xFe2-ySe2" 2011 "Experimental Physics 5, Center for Electronic Correlations and Magnetism, Institute of Physics, University of Augsburg, DE-86159, Augsburg, Germany" "Phys.Rev.B, 84(2011)144520"
153238 PRL107177005 sample: mosaic of single crystals. Rb2Fe4Se5 = Rb0.796Fe1.596Se2 Rb2Fe4Se5 Rb2Fe4Se5 Rb 2 Fe 4 Se 5 3 2011 A2B4C5 K 32 32 7.2 Bridgeman method Magnetic Resonant Mode in the Low-Energy Spin-Excitation Spectrum of Superconducting Rb2Fe4Se5 Single Crystals 2011 "Max-Planck-Institut fur Festkorperforschung, Heisenbergstrasse 1, 70569 Stuttgart, Germany" "Phys.Rev.Lett., 107(2011)177005"
153239 EPL08437002 "Fe(Se,Te)" Fe1Se0.5Te0.5 Fe 1 Se 0.5 Te 0.5 2008 AB PbO I4/nmm K 15.2 15.2 MTC153239 "mixture - pellet - heat(600C,20h) - SIN(650C,20h, in quartz tube)" Tellurium substitution effect on superconductivity of the alpha-phase iron selenide 2008 "Institute of Physics, Academia Sinica - Nankang, Taipei, Taiwan" "EuroPhys Lett., 84(2008)37002"
153240 PRB083184521 "Rb-, and Fe-content by ICP. Semicon-Metal transition at 150 K. Anisotropy = 3.5." RbxFeySe2 Rb0.76Fe1.62Se2 Rb 0.76 Fe 1.62 Se 2 3 2011 AB2C2 ThCr2Si2 K 28 31 29.5 42 T "resistivity, 0.9Rn, WHH" 145 42 T/K "resistivity, R=0.9Rn" 6.78 1.98 MHC153240 "Se(4N),Fe(3N),Rb(99.75%)" Bridgeman method. mixture - alumina crucible - sealed in silica ampoule(vac) - heat(1030C) - hold(3h) - cool to 730C(6 C/h) - FC to RT Transport properties and anisotropy of Rb1-xFe2-ySe2 single crystals 2011 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O.Box 603, Beijing 100190, China" "Phys.Rev.B, 83(2011)184521"
153241 PRB083184521 "Rb-, and Fe-content by ICP. RRR = 14. Semicon-Metal transition at 186 K. Anisotropy = 4.8." RbxFeySe2 Rb0.8Fe1.68Se2 Rb 0.8 Fe 1.68 Se 2 3 2011 AB2C2 ThCr2Si2 K 31.5 32.5 32 80 T "resistivity, 0.9Rn, WHH" 198 41 T/K "resistivity, R=0.9Rn" 8.84 1.92 MHC153241 "Se(4N),Fe(3N),Rb(99.75%)" Bridgeman method. mixture - alumina crucible - sealed in silica ampoule(vac) - heat(1050C) - hold(8h) - cool to 700C(3.5 C/h) - FC to RT Transport properties and anisotropy of Rb1-xFe2-ySe2 single crystals 2011 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O.Box 603, Beijing 100190, China" "Phys.Rev.B, 83(2011)184521"
153242 PRL106067001 [penet] measured by magnetic force microscopy(MFM). Two gaps obtained by fitting. large gap in DB. small one (2D/kTc) = 1.2 "Ba(Fe,Co)2As" Ba1Fe1.902Co0.098As2 Ba 1 Fe 1.902 Co 0.098 As 2 2011 AB2C2 ThCr2Si2 K 15.8 15.8 A MFM 4000 4.4 self-flux method Local Measurement of the Superfluid Density in the Pnictide Superconductor Ba(Fe1-xCox)2 across the Superconducting Dome 2011 "Stanford Institute for Materials and Energy Science, SLAC National Accelerator Laboratory, 2575 Sand Hill Road, Menlo Park, California 94025, USA, and Geballe Laboratory for Advanced Materials, Stanford University, Stanford, California 94305, USA" "Phys.Rev.Lett., 106(2011)067001"
153243 PRL106067001 [penet] measured by magnetic force microscopy(MFM). Two gaps obtained by fitting. large gap in DB. small one (2D/kTc) = 1.4 "Ba(Fe,Co)2As" Ba1Fe1.898Co0.102As2 Ba 1 Fe 1.898 Co 0.102 As 2 2011 AB2C2 ThCr2Si2 K 18.6 18.6 A MFM 3200 4.6 self-flux method Local Measurement of the Superfluid Density in the Pnictide Superconductor Ba(Fe1-xCox)2 across the Superconducting Dome 2011 "Stanford Institute for Materials and Energy Science, SLAC National Accelerator Laboratory, 2575 Sand Hill Road, Menlo Park, California 94025, USA, and Geballe Laboratory for Advanced Materials, Stanford University, Stanford, California 94305, USA" "Phys.Rev.Lett., 106(2011)067001"
153244 PRL106067001 [penet] measured by magnetic force microscopy(MFM). Two gaps obtained by fitting. large gap in DB. small one (2D/kTc) = 2.6 "Ba(Fe,Co)2As" Ba1Fe1.86Co0.14As2 Ba 1 Fe 1.86 Co 0.14 As 2 2011 AB2C2 ThCr2Si2 K 22.4 22.4 A MFM 2510 6.6 self-flux method Local Measurement of the Superfluid Density in the Pnictide Superconductor Ba(Fe1-xCox)2 across the Superconducting Dome 2011 "Stanford Institute for Materials and Energy Science, SLAC National Accelerator Laboratory, 2575 Sand Hill Road, Menlo Park, California 94025, USA, and Geballe Laboratory for Advanced Materials, Stanford University, Stanford, California 94305, USA" "Phys.Rev.Lett., 106(2011)067001"
153245 PRL106067001 [penet] measured by magnetic force microscopy(MFM). Two gaps obtained by fitting. large gap in DB. small one (2D/kTc) = 1.2 "Ba(Fe,Co)2As" Ba1Fe1.83Co0.17As2 Ba 1 Fe 1.83 Co 0.17 As 2 2011 AB2C2 ThCr2Si2 K 19.6 19.6 A MFM 3.8 self-flux method Local Measurement of the Superfluid Density in the Pnictide Superconductor Ba(Fe1-xCox)2 across the Superconducting Dome 2011 "Stanford Institute for Materials and Energy Science, SLAC National Accelerator Laboratory, 2575 Sand Hill Road, Menlo Park, California 94025, USA, and Geballe Laboratory for Advanced Materials, Stanford University, Stanford, California 94305, USA" "Phys.Rev.Lett., 106(2011)067001"
153246 PRL106067001 [penet] measured by magnetic force microscopy(MFM). Two gaps obtained by fitting. large gap in DB. small one (2D/kTc) = 1.2 "Ba(Fe,Co)2As" Ba1Fe1.78Co0.22As2 Ba 1 Fe 1.78 Co 0.22 As 2 2011 AB2C2 ThCr2Si2 K 13.5 13.5 A MFM 2740 3.4 self-flux method Local Measurement of the Superfluid Density in the Pnictide Superconductor Ba(Fe1-xCox)2 across the Superconducting Dome 2011 "Stanford Institute for Materials and Energy Science, SLAC National Accelerator Laboratory, 2575 Sand Hill Road, Menlo Park, California 94025, USA, and Geballe Laboratory for Advanced Materials, Stanford University, Stanford, California 94305, USA" "Phys.Rev.Lett., 106(2011)067001"
153247 STAM009044206 "Hall effect measured for H//ab and H//c. Anisotropy (Hc2) = 2.0. Two gaps, large one in DB. small one (2D/kTc) = 1.1 measured by SP heat" Lu2Fe3Si5 Lu2Fe3Si5 Lu 2 Fe 3 Si 5 2008 A2B3C5 Sc2Fe3Si5 K 5.6 5.6 4.4 14 m3/C -3.34E-10 MRH153247 floating zone method using image furnace. starting rod made from arc-melting. ANN(1250C) "Two-gap superconductivity in R2Fe3Si5 (R= Lu, Sc) and Sc5Ir4Si10" 2008 "Department of Applied Physics, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Sci.Technol.Adv.Mater., 9(2008)044206"
153248 STAM009044206 "Hc2 defined as Tc(SUS). Hc2//c>Hc2//ab. Anisotropy (Hc2) = 2.0. Two gaps, large one in DB. small one (2D/kTc) = 1.70 measured by SP heat" Sc2Fe3Si5 Sc2Fe3Si5 Sc 2 Fe 3 Si 5 2008 A2B3C5 Sc2Fe3Si5 K 4.8 4.8 T SUS MHC153248 3.53 14 floating zone method using image furnace. starting rod made from arc-melting. ANN(1250C) "Two-gap superconductivity in R2Fe3Si5 (R= Lu, Sc) and Sc5Ir4Si10" 2008 "Department of Applied Physics, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Sci.Technol.Adv.Mater., 9(2008)044206"
153249 STAM009044206 "Hc2 defined as Tc(SUS). Hc2//c>Hc2//ab. Two gaps, large one in DB. small one (2D/kTc) = 1.90 measured by SP heat" Sc5Ir4Si10 Sc5Ir4Si10 Sc 5 Ir 4 Si 10 2008 A4B5C10 Sc5Co4Si10 K 8.4 8.4 T SUS MHC153249 4.1 14 mJ/mol.K2 30.5 SP-heat floating zone method using image furnace. starting rod made from arc-melting. ANN(1250C) "Two-gap superconductivity in R2Fe3Si5 (R= Lu, Sc) and Sc5Ir4Si10" 2008 "Department of Applied Physics, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Sci.Technol.Adv.Mater., 9(2008)044206"
153250 SST024045009 impurity phase: Fe7Se8(P63/mmc) 1.4%. Jc(2K) = 86 kA. residual gamma = 0.96 mJ/mol.K2. lattice term (beta) = 0.94 mJ/mol.K4 using Debye and Einstein model "Fe(Se,Te)" Fe1Se0.5Te0.5 Fe 1 Se 0.5 Te 0.5 3 2011 AB P4/nmm 3.8025 6.03 Fe-11 K 13.6 13.9 13.9 T "resistivity, 0.9Rn, WHH" 37 MHC153250 meV 2.26 3.57 14 mJ/mol.K2 25 SP-heat "Fe(3N),Se(5N),Te(5N),Mn(4N)" "self-flux method. crytals grown in double quartz ampoule. mixture - heat(650C,10h) - heat(700C,24h) - heat(1100C,72h) - cool to 400C(1 C/min) - ANN(100h) - Q to ice water" Improvement of superconducting properties of FeSe0.5Te0.5 single crystals by Mn substitution 2011 "Experimental Physics 5, Center for Electronic Correlations and Magnetism, Institute of Physics, University of Augsburg, D-86159 Augsburg, Germany" "Supercond.Sci.Technol., 24(2011)045009"
153251 SST024045009 impurity phase: Fe7Se8(P63/mmc) 4.7%. Jc(2K) = 85 kA. residual gamma = 0.1.88 mJ/mol.K2. lattice term (beta) = 0.74 mJ/mol.K4 using Debye and Einstein model "(Fe,Mn)(Se,Te)" Fe0.98Mn0.02Se0.5Te0.5 Fe 0.98 Mn 0.02 Se 0.5 Te 0.5 3 2011 AB P4/nmm 3.8013 6.06 Fe-11 K 14.4 14.4 14.4 T "resistivity, 0.9Rn, WHH" 42 MHC153251 meV 2.7 4.47 14 mJ/mol.K2 30 SP-heat "Fe(3N),Se(5N),Te(5N),Mn(4N)" "self-flux method. crytals grown in double quartz ampoule. mixture - heat(650C,10h) - heat(700C,24h) - heat(1100C,72h) - cool to 400C(1 C/min) - ANN(100h) - Q to ice water" Improvement of superconducting properties of FeSe0.5Te0.5 single crystals by Mn substitution 2011 "Experimental Physics 5, Center for Electronic Correlations and Magnetism, Institute of Physics, University of Augsburg, D-86159 Augsburg, Germany" "Supercond.Sci.Technol., 24(2011)045009"
153252 JPS080114710 RRR = 5. hidden order temperature T = 17.5 K. RRR defined as R300/R2K for I//a. URu2Si2 U1Ru2Si2 U 1 Ru 2 Si 2 3 2011 AB2C2 ThCr2Si2 I4/mmm 139 K 0.95 0.95 MTC153252 Czochralski method in tetra-arc furnace under Ar Details of Sample Dependence and Transport Properties of URu2Si2 2011 "ASRC, JAEA, Tokai, Ibaraki 319-1195, Japan" "J.Phys.Soc.Jpn, 80(2011)114710"
153253 JPS080114710 RRR = 46. hidden order temperature T = 17.6 K. RRR defined as R300/R2K for I//a. URu2Si2 U1Ru2Si2 U 1 Ru 2 Si 2 3 2011 AB2C2 ThCr2Si2 I4/mmm 139 K 1.42 1.42 MTC153252 Czochralski method in tetra-arc furnace under Ar Details of Sample Dependence and Transport Properties of URu2Si2 2011 "ASRC, JAEA, Tokai, Ibaraki 319-1195, Japan" "J.Phys.Soc.Jpn, 80(2011)114710"
153254 JPS080114710 RRR = 270. hidden order temperature T = 17.7 K. RRR defined as R300/R2K for I//a. URu2Si2 U1Ru2Si2 U 1 Ru 2 Si 2 3 2011 AB2C2 ThCr2Si2 I4/mmm 139 K 1.45 1.45 MTC153252 Czochralski method in tetra-arc furnace under Ar Details of Sample Dependence and Transport Properties of URu2Si2 2011 "ASRC, JAEA, Tokai, Ibaraki 319-1195, Japan" "J.Phys.Soc.Jpn, 80(2011)114710"
153255 PRB080064506 "lattice parameter shows for T=16 K, P=0.25 GPa. max-Tc(on) = 37 K at P=7 GPa. volume compressibility = 0.033" FeSe Fe1Se1 Fe 1 Se 1 1 2009 GPa 30.7 AB PbO Cmma 5.2952 5.3066 5.4545 alpha-FeSe K 13.4 13.4 Pressure evolution of the low-temperature crystal structure and bonding of the superconductor FeSe (Tc = 37 K) 2009 "School of Chemistry, University of Edinburgh, Edinburgh EH9 3JJ, United Kingdom" "Phys.Rev.B, 80(2009)064506"
153256 JPCM022222203 RRR = 6. Anisotropy = 2 at 0 K. "(Ca,Na)Fe2As2" Ca0.33Na0.66Fe2As2 Ca 0.33 Na 0.66 Fe 2 As 2 3 2010 AB2C2 ThCr2Si2 A 3.841 12.2 K 33 33 30 T "resistivity, 0.5Rn, WHH" 172 85 T/K "resistivity, 0.5Rn" 7.53 3.73 mJ/mol.K2 17.262 "CaAs,Na3As,FeAs,Fe" self flux method Superconductivity above 33 K in (Ca1-xNax)Fe2As2 2010 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" "J.Phys.: Condens.Matter, 22(2010)222203"
153257 PRB084174501 paramag ESR signal measured. R has the peak at 131 K "KFe2(Se,S)2" K0.74Fe1.67Se1.61S0.4 K 0.74 Fe 1.67 Se 1.61 S 0.4 3 2011 AB2C2 ThCr2Si2 I4/mmm A 3.856 14.0344 K 31.2 32.8 32 self flux method "Coexistence of superconductivity and magnetism in KxFe2-ySe2-zSz (z = 0,0.4)" 2011 "High Magnetic Field Laboratory, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 84(2011)174501"
153258 NJP013033008 R has the peak at 275 K. Tc(max) = 30.6 K at P = 0.82 GPa CsFe2Se2 Cs0.86Fe1.66Se2 Cs 0.86 Fe 1.66 Se 2 3 2011 AB2C2 ThCr2Si2 K 30 30 MTC153258 K/GPa 1.3 1.64 mOhm.cm 117 self flux method Pressure effect on superconductivity of AxFe2Se2 (A = K and Cs) 2011 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "New J.Phys., 13(2011)033008"
153259 NJP013033008 R has the peak at 245 K. Tc monotonicaly decreases with increasing P. KFe2Se2 K0.85Fe2Se1.8 K 0.85 Fe 2 Se 1.8 3 2011 AB2C2 ThCr2Si2 K 32.6 32.6 MTC153259 K/GPa 1.68 Ohm.cm 1.49 self flux method Pressure effect on superconductivity of AxFe2Se2 (A = K and Cs) 2011 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "New J.Phys., 13(2011)033008"
153260 NJP013033008 R has the peak at 130 K. Tc(max) = 32.4 K at P = 0.48 GPa KFe2Se2 K0.86Fe2Se1.82 K 0.86 Fe 2 Se 1.82 3 2011 AB2C2 ThCr2Si2 K 31.1 31.1 MTC153260 K/GPa 1.68 mOhm.cm 59.6 self flux method Pressure effect on superconductivity of AxFe2Se2 (A = K and Cs) 2011 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "New J.Phys., 13(2011)033008"
153261 PRB084174501 paramag ESR signal measured. R has the peak at 120 K KFe2Se2 K0.79Fe1.64Se2 K 0.79 Fe 1.64 Se 2 3 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9106 14.0663 K 28.4 31.2 30.4 30.4 92 self flux method "Coexistence of superconductivity and magnetism in KxFe2-ySe2-zSz (z = 0,0.4)" 2011 "High Magnetic Field Laboratory, University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 84(2011)174501"
153262 PRB084174502 "London [penet] measured by tunnel diode resonator TDR. Two gaps obtained using gamma-model. large gap in DB. small one: gap = 1.1 meV, [gapene] = 1.8." "Fe(Te,Se)" Fe1Se0.42Te0.58 Fe 1 Se 0.42 Te 0.58 3 2011 AB AlB2 P6/mmm Fe-11 K 14.8 14.8 A TDR 5600 meV 2.5 3.86 7 self flux method Precision global measurements of London penetration depth in FeTe0.58Se0.42 2011 "The Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 84(2011)174502"
153263 SUP0180667 <10>B-isotope compounds. Tc defined as max-(dR/dT). MgB2 B2Mg1 B 2 Mg 1 1 2005 AB2 AlB2 P6/mmm hexagonal K 40.5 40.5 "Sc,B or <10>B isotope(97.5%)" direct reaction Tc as a Function of Electron Doping in Mg<10>B2 Using Sc for Mg Substitution 2005 "Dipartimento di Fisica, Universita di Roma ""La Sapienza,"", P. le Aldo Moro 2, 00185 Rome, Italy" "J.Supercon.: Incorp.Novel Mag., 18(2005)667"
153264 SUP0180667 <10>B-isotope compounds. Tc defined as max-(dR/dT). TCFIG shows isotope effect. "(Mg,Sc)B2" B2Mg0.988Sc0.012 B 2 Mg 0.988 Sc 0.012 1 2005 AB2 AlB2 P6/mmm hexagonal K 41.4 41.4 MTC153264 "Sc,B or <10>B isotope(97.5%)" direct reaction Tc as a Function of Electron Doping in Mg<10>B2 Using Sc for Mg Substitution 2005 "Dipartimento di Fisica, Universita di Roma ""La Sapienza,"", P. le Aldo Moro 2, 00185 Rome, Italy" "J.Supercon.: Incorp.Novel Mag., 18(2005)667"
153265 SSC1501483 "interface SC. Interface composed of NaO2,Na2O2,Na2O,NaO3. 20 < Tc < 34 K, observed by ac-SUS." Na/NaOx Na1Ox Na 1 O x 2010 K 28 28 Na(4N) "tablets of Na(4N) in quartz ampoule - oxydize at RT - evacuated ampoule - ANN(473 K, 1-15 h) - rapid quench to 77 K (rate of 80K/s)" Superconductivity in the metallic oxidized sodium interface 2010 "Institute of Solid State Physics, Russian Academy of Sciences, Chernogolovka, Moscow District, 142432, Russia" "Solid State Commun., 150(2010)1483"
153266 PRB082214513 surface /n/ c-axisis. d = 45 nm. Tc measured by ac-resistivity (50 kHz). [penet] measured by superfluid density. [abres77] shows the valu at 50 K. "(La,Sr)2CuO4" La1.85Sr0.15Cu1O4 La 1.85 Sr 0.15 Cu 1 O 4 5 2010 T K 44 4 44 A ac-resistivity 2400 mOhm.cm 0.09 MBE method. substrates = (001)LaSrAlO4 (a = 3.754 A). Anomalously sharp superconducting transitions in overdoped La2-xSrxCuO4 films 2010 "Department of Physics, The Ohio State University, Columbus, Ohio 43210, USA" "Phys.Rev.B, 82(2010)214513"
153267 PRB082214513 surface /n/ c-axisis. d = 45 nm. Tc measured by ac-resistivity (50 kHz). [penet] measured by superfluid density. [abres77] shows the valu at 50 K. "(La,Sr)2CuO4" La1.82Sr0.18Cu1O4 La 1.82 Sr 0.18 Cu 1 O 4 5 2010 T K 41 6 41 A ac-resistivity 2100 mOhm.cm 0.054 MBE method. substrates = (001)LaSrAlO4 (a = 3.754 A). Anomalously sharp superconducting transitions in overdoped La2-xSrxCuO4 films 2010 "Department of Physics, The Ohio State University, Columbus, Ohio 43210, USA" "Phys.Rev.B, 82(2010)214513"
153268 PRB082214513 surface /n/ c-axisis. d = 45 nm. Tc measured by ac-resistivity (50 kHz). [penet] measured by superfluid density. [abres77] shows the valu at 50 K. "(La,Sr)2CuO4" La1.79Sr0.21Cu1O4 La 1.79 Sr 0.21 Cu 1 O 4 5 2010 T K 33 4 33 A ac-resistivity 2200 mOhm.cm 0.048 MBE method. substrates = (001)LaSrAlO4 (a = 3.754 A). Anomalously sharp superconducting transitions in overdoped La2-xSrxCuO4 films 2010 "Department of Physics, The Ohio State University, Columbus, Ohio 43210, USA" "Phys.Rev.B, 82(2010)214513"
153269 PRB082214513 surface /n/ c-axisis. d = 45 nm. Tc measured by ac-resistivity (50 kHz). [penet] measured by superfluid density. [abres77] shows the valu at 50 K. "(La,Sr)2CuO4" La1.76Sr0.24Cu1O4 La 1.76 Sr 0.24 Cu 1 O 4 5 2010 T K 19 3 19 A ac-resistivity 3000 mOhm.cm 0.037 MBE method. substrates = (001)LaSrAlO4 (a = 3.754 A). Anomalously sharp superconducting transitions in overdoped La2-xSrxCuO4 films 2010 "Department of Physics, The Ohio State University, Columbus, Ohio 43210, USA" "Phys.Rev.B, 82(2010)214513"
153270 PRB082214513 surface /n/ c-axisis. d = 45 nm. Tc measured by ac-resistivity (50 kHz). [penet] measured by superfluid density. [abres77] shows the valu at 50 K. "(La,Sr)2CuO4" La1.73Sr0.27Cu1O4 La 1.73 Sr 0.27 Cu 1 O 4 5 2010 T K 4 2 4 A ac-resistivity 5800 mOhm.cm 0.031 MBE method. substrates = (001)LaSrAlO4 (a = 3.754 A). Anomalously sharp superconducting transitions in overdoped La2-xSrxCuO4 films 2010 "Department of Physics, The Ohio State University, Columbus, Ohio 43210, USA" "Phys.Rev.B, 82(2010)214513"
153271 PRB082214513 surface /n/ c-axisis. d =905 nm. Tc measured by ac-resistivity (50 kHz). [penet] measured by superfluid density. [abres77] shows the valu at 50 K. "(La,Sr)2CuO4" La1.73Sr0.27Cu1O4 La 1.73 Sr 0.27 Cu 1 O 4 5 2010 T K 21 1.6 21 A ac-resistivity 3800 mOhm.cm 0.07 MBE method. substrates = (001)LaSrAlO4 (a = 3.754 A). Anomalously sharp superconducting transitions in overdoped La2-xSrxCuO4 films 2010 "Department of Physics, The Ohio State University, Columbus, Ohio 43210, USA" "Phys.Rev.B, 82(2010)214513"
153272 PRB082214513 surface /n/ c-axisis. d =905 nm. Tc measured by ac-resistivity (50 kHz). [penet] measured by superfluid density. [abres77] shows the valu at 50 K. "(La,Sr)2CuO4" La1.7Sr0.3Cu1O4 La 1.7 Sr 0.3 Cu 1 O 4 5 2010 T K 9 0.2 9 A ac-resistivity 7900 mOhm.cm 0.056 MBE method. substrates = (001)LaSrAlO4 (a = 3.754 A). Anomalously sharp superconducting transitions in overdoped La2-xSrxCuO4 films 2010 "Department of Physics, The Ohio State University, Columbus, Ohio 43210, USA" "Phys.Rev.B, 82(2010)214513"
153273 PRB084174519 [resn] shows the value at T=0.5 K. "W(O,F)3" W1F0.45O2.55 W 1 F 0.45 O 2.55 1 2011 AB3 Pm3[-]m cubic K 0.373 0.38 0.4 0.38 T "resistivity, 0.9Rn, WHH" 0.53 A from Hc2 250 mOhm.cm 4.66 cm3/C RH153273 "(WO3+excess PTFE powder) - (in evacuated quartz tube) - SIN(550C, 36h)" Superconductivity in WO2.6F0.4 synthesized by reaction of WO3 with teflon 2011 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 84(2011)174519"
153274 PRB084174519 [resn] shows the value at T=0.5 K. "W(O,F)3" W1F0.41O2.59 W 1 F 0.41 O 2.59 1 2011 AB3 Pm3[-]m A 3.8122 cubic K 0.4 0.42 0.452 0.42 HC153274 mOhm.cm 22 "(WO3+excess PTFE powder) - (in evacuated quartz tube) - SIN(550C, 36h)" Superconductivity in WO2.6F0.4 synthesized by reaction of WO3 with teflon 2011 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 84(2011)174519"
153275 PRB084174519 lattice term in SP (beta) = 0.197 mJ/mol.K4. [resn] shows the value at T=0.5 K. "W(O,F)3" W1F0.44O2.56 W 1 F 0.44 O 2.56 1 2011 AB3 Pm3[-]m A 3.8143 cubic K 0.39 0.41 0.43 0.41 mJ/mol.K2 1.59 SP-heat 340 SP-heat mOhm.cm 12.7 "(WO3+excess PTFE powder) - (in evacuated quartz tube) - SIN(550C, 36h)" Superconductivity in WO2.6F0.4 synthesized by reaction of WO3 with teflon 2011 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 84(2011)174519"
153276 NJP011053008 "LaO(Fe,Zn)As" La1Fe0.98Zn0.02As1O1 La 1 Fe 0.98 Zn 0.02 As 1 O 1 1 2009 ABCD oxypnictide P4/nmm A 4.036 8.7321 ZrCuSiAs K 2 uV/K -22 TP153276 "LaAs,La2O3,FeAs,Fe2As,LaF3,ZnO" "mixture - pellet - (sealed in quartz tube) - heat(1433K,40h)" Effect of Zn doping on magnetic order and superconductivity in LaFeAsO 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "New J.Phys., 11(2009)053008"
153277 NJP011053008 "LaO(Fe,Zn)As" La1Fe0.95Zn0.05As1O1 La 1 Fe 0.95 Zn 0.05 As 1 O 1 1 2009 ABCD oxypnictide P4/nmm A 4.0364 8.7278 ZrCuSiAs K 2 uV/K -20.3 TP153277 "LaAs,La2O3,FeAs,Fe2As,LaF3,ZnO" "mixture - pellet - (sealed in quartz tube) - heat(1433K,40h)" Effect of Zn doping on magnetic order and superconductivity in LaFeAsO 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "New J.Phys., 11(2009)053008"
153278 NJP011053008 "La(O,F)FeAs" La1Fe1As1F0.1O0.9 La 1 Fe 1 As 1 F 0.1 O 0.9 1 2009 ABCD oxypnictide P4/nmm A 4.0314 8.7134 ZrCuSiAs K 23 26.8 22.2 23 100 uV/K -49.2 TP153278 "LaAs,La2O3,FeAs,Fe2As,LaF3,ZnO" "mixture - pellet - (sealed in quartz tube) - heat(1433K,40h)" Effect of Zn doping on magnetic order and superconductivity in LaFeAsO 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "New J.Phys., 11(2009)053008"
153279 NJP011053008 "La(O,F)(Fe,Zn)As" La1Fe0.98Zn0.02As1F0.1O0.9 La 1 Fe 0.98 Zn 0.02 As 1 F 0.1 O 0.9 1 2009 ABCD oxypnictide P4/nmm A 4.0304 8.7174 ZrCuSiAs K 25.5 24.1 25.5 100 "LaAs,La2O3,FeAs,Fe2As,LaF3,ZnO" "mixture - pellet - (sealed in quartz tube) - heat(1433K,40h)" Effect of Zn doping on magnetic order and superconductivity in LaFeAsO 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "New J.Phys., 11(2009)053008"
153280 NJP011053008 "La(O,F)(Fe,Zn)As" La1Fe0.95Zn0.05As1F0.1O0.9 La 1 Fe 0.95 Zn 0.05 As 1 F 0.1 O 0.9 1 2009 ABCD oxypnictide P4/nmm A 4.0295 8.7192 ZrCuSiAs K 25.4 24.1 25.4 100 "LaAs,La2O3,FeAs,Fe2As,LaF3,ZnO" "mixture - pellet - (sealed in quartz tube) - heat(1433K,40h)" Effect of Zn doping on magnetic order and superconductivity in LaFeAsO 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "New J.Phys., 11(2009)053008"
153281 NJP011053008 "La(O,F)(Fe,Zn)As" La1Fe0.9Zn0.1As1F0.1O0.9 La 1 Fe 0.9 Zn 0.1 As 1 F 0.1 O 0.9 2009 ABCD oxypnictide P4/nmm A 4.0291 8.7191 ZrCuSiAs K 19.9 16.3 19.9 uV/K -50.4 TP153281 "LaAs,La2O3,FeAs,Fe2As,LaF3,ZnO" "mixture - pellet - (sealed in quartz tube) - heat(1433K,40h)" Effect of Zn doping on magnetic order and superconductivity in LaFeAsO 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "New J.Phys., 11(2009)053008"
153282 NJP011053008 "La(O,F)(Fe,Zn)As" La1Fe0.85Zn0.15As1F0.1O0.9 La 1 Fe 0.85 Zn 0.15 As 1 F 0.1 O 0.9 2009 ABCD oxypnictide P4/nmm A 4.0292 8.7193 ZrCuSiAs K 19.9 16.4 19.9 "LaAs,La2O3,FeAs,Fe2As,LaF3,ZnO" "mixture - pellet - (sealed in quartz tube) - heat(1433K,40h)" Effect of Zn doping on magnetic order and superconductivity in LaFeAsO 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "New J.Phys., 11(2009)053008"
153283 PHC4710618 "Sm(O,F)(Fe,Zn)As" Sm1Fe1As1F0.2O0.8 Sm 1 Fe 1 As 1 F 0.2 O 0.8 1 2011 ABCD oxypnictide P4/nmm A 3.9351 8.4861 ZrCuSiAs K 52.5 52.5 "SmAs,Fe,ZnO,FeF3,Fe2O3" "mixture - pellet - wrapped in Ta foil - (sealed in quartz tube) - ANN(1150C,36h, in Ar) - FC to RT" Suppression of superconductivity in Zn-doped SmFeAsO0.8F0.2 system 2011 "Key Laboratory of Advanced Technology of Materials (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 471(2011)618"
153284 PHC4710618 "Sm(O,F)(Fe,Zn)As" Sm1Fe0.95Zn0.05As1F0.2O0.8 Sm 1 Fe 0.95 Zn 0.05 As 1 F 0.2 O 0.8 1 2011 ABCD oxypnictide P4/nmm A 3.9399 8.4974 ZrCuSiAs K 23.3 23.3 "SmAs,Fe,ZnO,FeF3,Fe2O3" "mixture - pellet - wrapped in Ta foil - (sealed in quartz tube) - ANN(1150C,36h, in Ar) - FC to RT" Suppression of superconductivity in Zn-doped SmFeAsO0.8F0.2 system 2011 "Key Laboratory of Advanced Technology of Materials (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 471(2011)618"
153285 PHC4710618 "Sm(O,F)(Fe,Zn)As" Sm1Fe0.9Zn0.1As1F0.2O0.8 Sm 1 Fe 0.9 Zn 0.1 As 1 F 0.2 O 0.8 1 2011 ABCD oxypnictide P4/nmm A 3.94 8.4979 ZrCuSiAs K 18.2 18.2 "SmAs,Fe,ZnO,FeF3,Fe2O3" "mixture - pellet - wrapped in Ta foil - (sealed in quartz tube) - ANN(1150C,36h, in Ar) - FC to RT" Suppression of superconductivity in Zn-doped SmFeAsO0.8F0.2 system 2011 "Key Laboratory of Advanced Technology of Materials (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 471(2011)618"
153286 PHC4710618 R anomaly (SDW) at 140 K. "Sm(O,F)(Fe,Zn)As" Sm1Fe0.8Zn0.2As1F0.2O0.8 Sm 1 Fe 0.8 Zn 0.2 As 1 F 0.2 O 0.8 1 2011 ABCD oxypnictide P4/nmm A 3.9439 8.503 ZrCuSiAs K 5 "SmAs,Fe,ZnO,FeF3,Fe2O3" "mixture - pellet - wrapped in Ta foil - (sealed in quartz tube) - ANN(1150C,36h, in Ar) - FC to RT" Suppression of superconductivity in Zn-doped SmFeAsO0.8F0.2 system 2011 "Key Laboratory of Advanced Technology of Materials (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 471(2011)618"
153287 PHC4710618 R anomaly (SDW) at 130 K. impurity phase: SmZnAsO "Sm(O,F)(Fe,Zn)As" Sm1Fe0.6Zn0.4As1F0.2O0.8 Sm 1 Fe 0.6 Zn 0.4 As 1 F 0.2 O 0.8 2 2011 ABCD oxypnictide P4/nmm A 3.9417 8.5006 ZrCuSiAs K 5 "SmAs,Fe,ZnO,FeF3,Fe2O3" "mixture - pellet - wrapped in Ta foil - (sealed in quartz tube) - ANN(1150C,36h, in Ar) - FC to RT" Suppression of superconductivity in Zn-doped SmFeAsO0.8F0.2 system 2011 "Key Laboratory of Advanced Technology of Materials (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 471(2011)618"
153288 PHC4710711 (dC/gamma*Tc) = 2.11. GL parameter = 22. Thermodynamic Hc(0) = 117 mT. Ca3Co4Sn13 Ca3Co4Sn13 Ca 3 Co 4 Sn 13 3 2011 A3B4C13 Yb3Rh4Sn13 Pm3[-]n 223 A 9.745 stannide K 5.75 6 5.75 Oe "Hc(0), GL theory" 110 T "resistivity, GL theory" 3.72 MHC153288 A from Hc2 130 A "Hc, GL theory" 2370 meV 0.988 4.09 14 mJ/mol.K2 61.6 SP-heat 215 SP-heat Sn-flux method "Superconducting state in the ternary stannide R3Co4Sn13 (R = Ca, La)" 2011 "Department of Physics and Mathematics, Aoyama-Gakuin University, Fuchinobe 5-10-1, Sagamihara, Kanagawa 252-5258, Japan" "Physica C, 471(2011)711"
153289 PHC4710711 (dC/gamma*Tc) = 1.75. GL parameter = 18. Thermodynamic Hc(0) = 39.8 mT. La3Co4Sn13 La3Co4Sn13 La 3 Co 4 Sn 13 3 2011 A3B4C13 Yb3Rh4Sn13 Pm3[-]n 223 A 9.755 stannide K 2.7 2.7 2.7 Oe "Hc(0), GL theory" 46 T "resistivity, GL theory" 1.06 MHC153289 A from Hc2 250 A "Hc, GL theory" 3770 meV 0.436 3.61 14 mJ/mol.K2 33.2 SP-heat 286 SP-heat Sn-flux method "Superconducting state in the ternary stannide R3Co4Sn13 (R = Ca, La)" 2011 "Department of Physics and Mathematics, Aoyama-Gakuin University, Fuchinobe 5-10-1, Sagamihara, Kanagawa 252-5258, Japan" "Physica C, 471(2011)711"
153290 PHC4710714 (dC/gamma*Tc) = 1.49. W5SiB2 W5Si1B2 W 5 Si 1 B 2 1 2011 AB2C5 Mo5SiB2 I4/mcm A 6.034 11.02 K 5.8 5.8 T "resistivity, GL theory" 0.52 3.32 14 solid state reaction Superconductivity in W5SiB2 with the T2-phase structure studied by the specific heat measurement and band structure calculation 2011 "Department of Physics and Mathematics, Aoyama Gakuin University, Fuchinobe 5-10-1, Chuo-ku, Sagamihara-shi, Kanagawa 229-8558, Japan" "Physica C, 471(2011)714"
153291 PRB084184529 a-Mn phase. RRR = 1.15. GL parameter = 50. Re3W Re3W1 Re 3 W 1 1 2011 AB3 a-Mn I4[-]3m A 9.5987 "a-Mn type, noncentosymmetric" K 7.85 7.8 0.05 7.8 Oe M-H curve 97 T "resistivity, 0.9Rn, WHH" 12.5 T/K "resistivity, 0.9Rn" 2.3 MHC153291 A from Hc2 51.3 A Hc1(0) 2570 uOhm.cm 1.7 "arc-melting. ANN(1500C, 5d, in Ar)" Structure and superconductivity of two different phases of Re3W 2011 "Physics Department, University of Warwick, Coventry, CV4 7AL, United Kingdom" "Phys.Rev.B, 84(2011)184529"
153292 PRB084184529 hexagonal phase. RRR = 1.52. GL parameter = 30. Re3W Re3W1 Re 3 W 1 1 2011 AB3 P6<3>/mmc A 2.77 4.5207 "hexagonal, centrosymmetric" K 9.45 9.4 0.32 9.4 Oe M-H curve 279 T "resistivity, 0.9Rn, WHH" 14.7 T/K "resistivity, 0.9Rn" 2.1 MHC153292 A from Hc2 47.3 A Hc1(0) 1410 uOhm.cm 2.1 arc-melting. as-grown Structure and superconductivity of two different phases of Re3W 2011 "Physics Department, University of Warwick, Coventry, CV4 7AL, United Kingdom" "Phys.Rev.B, 84(2011)184529"
153293 PRB084184534 T = 165 K. CaFe2As2 Ca1Fe2As2 Ca 1 Fe 2 As 2 1 2011 AB2C2 ThCr2Si2 I4/mmm A 3.8938 11.718 K 5 Doping dependence of the superconductivity of (Ca1-xNax)Fe2As2 2011 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 84(2011)184534"
153294 PRB084184534 T = 150 K. "(Ca,Na)Fe2As2" Ca0.9Na0.1Fe2As2 Ca 0.9 Na 0.1 Fe 2 As 2 1 2011 AB2C2 ThCr2Si2 I4/mmm A 3.8825 11.83 K 5 Doping dependence of the superconductivity of (Ca1-xNax)Fe2As2 2011 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 84(2011)184534"
153295 PRB084184534 T = 135 K. "(Ca,Na)Fe2As2" Ca0.8Na0.2Fe2As2 Ca 0.8 Na 0.2 Fe 2 As 2 1 2011 AB2C2 ThCr2Si2 I4/mmm A 3.8752 11.913 K 5 Doping dependence of the superconductivity of (Ca1-xNax)Fe2As2 2011 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 84(2011)184534"
153296 PRB084184534 T = 120 K. "(Ca,Na)Fe2As2" Ca0.7Na0.3Fe2As2 Ca 0.7 Na 0.3 Fe 2 As 2 1 2011 AB2C2 ThCr2Si2 I4/mmm A 3.8664 11.981 K 5 Doping dependence of the superconductivity of (Ca1-xNax)Fe2As2 2011 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 84(2011)184534"
153297 PRB084184534 RRR = 10 "(Ca,Na)Fe2As2" Ca0.64Na0.36Fe2As2 Ca 0.64 Na 0.36 Fe 2 As 2 1 2011 AB2C2 ThCr2Si2 I4/mmm A 3.859 12.0155 K 17 17 MTC153297 Doping dependence of the superconductivity of (Ca1-xNax)Fe2As2 2011 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 84(2011)184534"
153298 PRB084184534 RRR = 18 "(Ca,Na)Fe2As2" Ca0.5Na0.5Fe2As2 Ca 0.5 Na 0.5 Fe 2 As 2 1 2011 AB2C2 ThCr2Si2 I4/mmm A 3.851 12.0874 K 22 22 Doping dependence of the superconductivity of (Ca1-xNax)Fe2As2 2011 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 84(2011)184534"
153299 PRB084184534 RRR = 30. (dC/T) = 66 mJ/mol.K2 "(Ca,Na)Fe2As2" Ca0.34Na0.66Fe2As2 Ca 0.34 Na 0.66 Fe 2 As 2 1 2011 AB2C2 ThCr2Si2 I4/mmm A 3.8423 12.212 K 34 34 T "resistivity, 0.5Rn, WHH" 106 T/K "resistivity, 0.5Rn" 4.49 Doping dependence of the superconductivity of (Ca1-xNax)Fe2As2 2011 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 84(2011)184534"
153300 PRB084214511 semiconductor-like. lattice term in C (beta) = 1.357 mJ/mol.K4. SC maybe from beta-FeSe impurity phase. BaFe2Se3 Ba1Fe1.9Se3 Ba 1 Fe 1.9 Se 3 3 2011 255 AB2C3 Pnma A 11.94 5.444 9.174 K 11 11 0.15 205 SP-heat Ohm.cm 17 "mixture - (put in carbon crucible) - (sealed in quartz tube) - ANN(1150C,24h) - slow cool to 750C(6C/h) - FC to RT" Anisotropy in BaFe2Se3 single crystals with double chains of FeSe tetrahedra 2011 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 84(2011)214511"
153301 PRB084214527 "impurity: Ru. SP = gamma*T + beta*T^3 + delta*T^5. beta = 0.1467 mJ/mol.K4, delta = 0.00465 mJ/mol.K6." LaRu3Si2 La1Ru3Si2 La 1 Ru 3 Si 2 1 2011 AB2C3 A 5.68 3.565 hexagonal K 6.8 7.9 7.8 7.8 100 T resistivity MHC153301 mJ/mol.K2 36.8 SP-heat 412 SP-heat arc-melting Anomalous properties in the normal and superconducting states of LaRu3Si2 2011 "Center for Superconducting Physics and Materials, National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 84(2011)214527"
153302 PRB084220504 topological SC. Hall mobility(300K) = 1000 cm3/V.s. carrier(2K) = 2 E+18 / cm3. YPtBi Y1Pt1Bi1 Y 1 Pt 1 Bi 1 3 2011 ABC F-43m 216 A 6.6522 cubic K 0.77 0.77 T "resistivity, 0.5Rn, extrapolation" 1.5 MHC153302 A from Hc2 150 cm3/C 0.339 MRH153302 n/cm3 2.00E+19 single crystals prepared in excess molten Bi. Superconductivity in the topological semimetal YPtBi 2011 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 84(2011)220504"
153303 PRB084224506 "ANN(270C, in air)" FeTe Fe1Te1 Fe 1 Te 1 3 2011 70 AB Fe-11 K 2 "Fe(4N),Te(5N),Se(5N)" "mixture - Bridgeman ampoule - (evacuated, sealed, heat(920C)) - slow cool to RT" Revised phase diagram for the FeTe1-xSex system with fewer excess Fe atoms 2011 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 84(2011)220506"
153304 PRB084224506 "ANN(270C, in air)" "Fe(Te,Se)" Fe1Te0.98Se0.02 Fe 1 Te 0.98 Se 0.02 3 2011 62.6 AB Fe-11 K 2 "Fe(4N),Te(5N),Se(5N)" "mixture - Bridgeman ampoule - (evacuated, sealed, heat(920C)) - slow cool to RT" Revised phase diagram for the FeTe1-xSex system with fewer excess Fe atoms 2011 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 84(2011)220506"
153305 PRB084224506 "ANN(270C, in air)" "Fe(Te,Se)" Fe1Te0.95Se0.05 Fe 1 Te 0.95 Se 0.05 3 2011 54 AB Fe-11 K 6.7 6.7 "Fe(4N),Te(5N),Se(5N)" "mixture - Bridgeman ampoule - (evacuated, sealed, heat(920C)) - slow cool to RT" Revised phase diagram for the FeTe1-xSex system with fewer excess Fe atoms 2011 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 84(2011)220506"
153306 PRB084224506 "ANN(270C, in air)" "Fe(Te,Se)" Fe1Te0.93Se0.07 Fe 1 Te 0.93 Se 0.07 3 2011 46.8 AB Fe-11 K 4 8.2 8.2 MTC153306 "Fe(4N),Te(5N),Se(5N)" "mixture - Bridgeman ampoule - (evacuated, sealed, heat(920C)) - slow cool to RT" Revised phase diagram for the FeTe1-xSex system with fewer excess Fe atoms 2011 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 84(2011)220506"
153307 PRB084224506 "ANN(270C, in air)" "Fe(Te,Se)" Fe1Te0.9Se0.1 Fe 1 Te 0.9 Se 0.1 3 2011 35.8 AB Fe-11 A 3.826 6.245 K 7.6 9.6 9.6 30 "Fe(4N),Te(5N),Se(5N)" "mixture - Bridgeman ampoule - (evacuated, sealed, heat(920C)) - slow cool to RT" Revised phase diagram for the FeTe1-xSex system with fewer excess Fe atoms 2011 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 84(2011)220506"
153308 PRB084224506 "ANN(270C, in air). not bulk SC for 0.3 =< x" "Fe(Te,Se)" Fe1Te0.7Se0.3 Fe 1 Te 0.7 Se 0.3 3 2011 AB Fe-11 K 12.9 12.9 "Fe(4N),Te(5N),Se(5N)" "mixture - Bridgeman ampoule - (evacuated, sealed, heat(920C)) - slow cool to RT" Revised phase diagram for the FeTe1-xSex system with fewer excess Fe atoms 2011 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 84(2011)220506"
153309 PRB084224506 "ANN(270C, in air). not bulk SC for 0.3 =< x" "Fe(Te,Se)" Fe1Te0.4Se0.4 Fe 1 Te 0.4 Se 0.4 3 2011 AB Fe-11 A 3.804 6.069 K 14.4 14.4 MTC153306 "Fe(4N),Te(5N),Se(5N)" "mixture - Bridgeman ampoule - (evacuated, sealed, heat(920C)) - slow cool to RT" Revised phase diagram for the FeTe1-xSex system with fewer excess Fe atoms 2011 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 84(2011)220506"
153310 PRB084224518 "P4/mcc(80%), I4/mcm(10%), impurity phase: Nb3Ni2Si(2 vol%), NbNi3(5%), Nb(3%). (dC/gamma*Tc) = 0.93. lattice term in SP (beta) = 0.1615 mJ/mol.K4. e-ph = 0.60" Nb4NiSi Nb4Ni1Si1 Nb 4 Ni 1 Si 1 1 2011 ABC4 CuAl2 P4/mcc 124 A 6.1948 5.039 K 7.3 7.7 7.7 7.7 42 Oe "M-H curve, GL theory" 109 T "resistivity, 0.9Rn, GL theory" 1.89 mJ/mol.K2 14.1 SP-heat 415 SP-heat mOhm.cm 0.113 "Nb(3N),Ni(4N),Co(4N),Fe(4N),Si(4N)" "arc-melting - ANN(1373-1573, 96-144 h, in vac)" "Superconductivity in Nb4MSi (M=Ni, Co, and Fe) with a quasi-two-dimensional Nb network" 2011 "Materials and Structures Laboratory, Tokyo Institute of Technology, Mail Box S2-13, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 84(2011)224518"
153311 PRB084224518 "P4/mcc(84%), I4/mcm(13%), impurity phase: Nb(2%)." Nb4CoSi Nb4Co1Si1 Nb 4 Co 1 Si 1 1 2011 ABC4 CuAl2 P4/mcc 124 A 6.1637 5.0563 K 6 6 7 "Nb(3N),Ni(4N),Co(4N),Fe(4N),Si(4N)" "arc-melting - ANN(1373-1573, 96-144 h, in vac)" "Superconductivity in Nb4MSi (M=Ni, Co, and Fe) with a quasi-two-dimensional Nb network" 2011 "Materials and Structures Laboratory, Tokyo Institute of Technology, Mail Box S2-13, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 84(2011)224518"
153312 PRB084224518 "P4/mcc(84%), I4/mcm(2%), impurity phase: Nb(8%)." Nb4FeSi Nb4Fe1Si1 Nb 4 Fe 1 Si 1 1 2011 ABC4 CuAl2 P4/mcc 124 A 6.1819 5.0364 K 6.8 6.8 78 "Nb(3N),Ni(4N),Co(4N),Fe(4N),Si(4N)" "arc-melting - ANN(1373-1573, 96-144 h, in vac)" "Superconductivity in Nb4MSi (M=Ni, Co, and Fe) with a quasi-two-dimensional Nb network" 2011 "Materials and Structures Laboratory, Tokyo Institute of Technology, Mail Box S2-13, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 84(2011)224518"
153313 PHC4710600 not SC. T = 210 K. SrFe2As2 Sr1Fe2As2 Sr 1 Fe 2 As 2 1 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9263 12.377 K 1.6 "solid state reaction. mixture (press in Ta capsule) - (sealed in quartz tube) - heat(1000C,48h)" Superconductivity of the platinum doped 122 iron arsenide SrFe2-xPtxAs2 2011 "International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science, Tsukuba, Ibaraki 305-0044, Japan" "Physica C, 471(2011)600"
153314 PHC4710600 R not to zero at 1.6 K.. T = 143 K. "Sr(Fe,Pt)2As2" Sr1Fe1.9Pt0.1As2 Sr 1 Fe 1.9 Pt 0.1 As 2 1 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9355 12.351 K 1.6 17.3 1.6 "solid state reaction. mixture (press in Ta capsule) - (sealed in quartz tube) - heat(1000C,48h)" Superconductivity of the platinum doped 122 iron arsenide SrFe2-xPtxAs2 2011 "International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science, Tsukuba, Ibaraki 305-0044, Japan" "Physica C, 471(2011)600"
153315 PHC4710600 T = 94 K "Sr(Fe,Pt)2As2" Sr1Fe1.85Pt0.15As2 Sr 1 Fe 1.85 Pt 0.15 As 2 1 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9416 12.333 K 11.7 11.7 "solid state reaction. mixture (press in Ta capsule) - (sealed in quartz tube) - heat(1000C,48h)" Superconductivity of the platinum doped 122 iron arsenide SrFe2-xPtxAs2 2011 "International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science, Tsukuba, Ibaraki 305-0044, Japan" "Physica C, 471(2011)600"
153316 PHC4710600 "Sr(Fe,Pt)2As2" Sr1Fe1.8Pt0.2As2 Sr 1 Fe 1.8 Pt 0.2 As 2 1 2011 AB2C2 ThCr2Si2 I4/mmm A 3.947 12.322 K 15.8 15.8 "solid state reaction. mixture (press in Ta capsule) - (sealed in quartz tube) - heat(1000C,48h)" Superconductivity of the platinum doped 122 iron arsenide SrFe2-xPtxAs2 2011 "International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science, Tsukuba, Ibaraki 305-0044, Japan" "Physica C, 471(2011)600"
153317 PHC4710600 "Sr(Fe,Pt)2As2" Sr1Fe1.7Pt0.3As2 Sr 1 Fe 1.7 Pt 0.3 As 2 1 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9529 12.305 K 12.6 12.6 "solid state reaction. mixture (press in Ta capsule) - (sealed in quartz tube) - heat(1000C,48h)" Superconductivity of the platinum doped 122 iron arsenide SrFe2-xPtxAs2 2011 "International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science, Tsukuba, Ibaraki 305-0044, Japan" "Physica C, 471(2011)600"
153318 PHC4710600 R not to zero at 1.6 K. "Sr(Fe,Pt)2As2" Sr1Fe1.6Pt0.4As2 Sr 1 Fe 1.6 Pt 0.4 As 2 1 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9663 12.259 K 7 7 "solid state reaction. mixture (press in Ta capsule) - (sealed in quartz tube) - heat(1000C,48h)" Superconductivity of the platinum doped 122 iron arsenide SrFe2-xPtxAs2 2011 "International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science, Tsukuba, Ibaraki 305-0044, Japan" "Physica C, 471(2011)600"
153319 PHC4710704 lattice parameter a = 4.3548 - 0.1743x for Ba1-xKxBiO3. Tc depends on x (see TCFIG) "(Ba,K)BiO3" Ba0.6K0.4O3 Ba 0.6 K 0.4 O 3 1 2011 ABC3 BKBO Pm3[-]m A 4.2856 K 30.6 30.6 TC153319 molten salts method using KOH Synthesis and superconductivity properties of Ba1-xKxBiO3 2011 "Key Laboratory of Advanced Technology of Materials (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 471(2011)704"
153320 PHC4710704 lattice parameter a = 4.3548 - 0.1743x for Ba1-xKxBiO3. Tc depends on x (see TCFIG) "(Ba,K)BiO3" Ba0.4K0.6O3 Ba 0.4 K 0.6 O 3 1 2011 ABC3 BKBO Pm3[-]m A 4.25 K 7 7 molten salts method using KOH Synthesis and superconductivity properties of Ba1-xKxBiO3 2011 "Key Laboratory of Advanced Technology of Materials (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "Physica C, 471(2011)704"
153321 PHC4710717 films with various carrier concentration obtained by annealing at temperatures for 1h or 4h. Zn-doped In2O3 Zn0.025In2O3 Zn 0.025 In 2 O 3 2011 K 2.68 2.68 TC153321 Zn-doped In2O3 films (350 nm thickness) were prepared by DC magnetron sputtering using (In2O3)1-x(ZnO)x target Superconducting characteristics and microstructure of polycrystalline Zn-doped In2O3 films 2011 "Department of Physics, Kyushu University, Fukuoka 812-8581, Japan" "Physica C, 471(2011)717"
153322 JPS079095002 Tc is almost independent of x "Sr(Fe,Pt)2As2" Sr1Fe1.75Pt0.25As2 Sr 1 Fe 1.75 Pt 0.25 As 2 1 2010 AB2C2 ThCr2Si2 I4/mmm K 15.6 17 16.3 MTC153322 57 "mixture - (wrapped in Ta foil) - heat(900C,in evacuated quartz tube)" Superconductivity in SrFe2As2 with Pt Doping 2010 "Department of Physics, Faculty of Science, Okayama University, 3-1-1 Tsushima-naka, Kita-ku, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 79(2010)095002"
153323 PRB079214516 small amount of Ru1-xFexAs impurity. T = 190 K. "Sr(Fe,Ru)2As2" Sr1Fe1.9Ru0.1As2 Sr 1 Fe 1.9 Ru 0.1 As 2 1 2009 AB2C2 ThCr2Si2 I4/mmm A 3.9321 12.3446 Fe-122 K 2 "SrAs,Fe2As,As,Ru" "(mixture in glassy-carbon) - (Ta-crucible in evacuated quartz tube) - heat(900C, 24h-7d)" Substitution-induced superconductivity in SrFe2-xRuxAs2 (0=< x =<2) 2009 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.B, 79(2009)214516"
153324 PRB079214516 small amount of Ru1-xFexAs impurity. T = 165 K. "Sr(Fe,Ru)2As2" Sr1Fe1.8Ru0.2As2 Sr 1 Fe 1.8 Ru 0.2 As 2 1 2009 AB2C2 ThCr2Si2 I4/mmm A 3.9439 12.2905 Fe-122 K 2 "SrAs,Fe2As,As,Ru" "(mixture in glassy-carbon) - (Ta-crucible in evacuated quartz tube) - heat(900C, 24h-7d)" Substitution-induced superconductivity in SrFe2-xRuxAs2 (0=< x =<2) 2009 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.B, 79(2009)214516"
153325 PRB079214516 small amount of Ru1-xFexAs impurity. T = 140 K. "Sr(Fe,Ru)2As2" Sr1Fe1.7Ru0.3As2 Sr 1 Fe 1.7 Ru 0.3 As 2 1 2009 AB2C2 ThCr2Si2 I4/mmm A 3.9515 12.2551 Fe-122 K 2 "SrAs,Fe2As,As,Ru" "(mixture in glassy-carbon) - (Ta-crucible in evacuated quartz tube) - heat(900C, 24h-7d)" Substitution-induced superconductivity in SrFe2-xRuxAs2 (0=< x =<2) 2009 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.B, 79(2009)214516"
153326 PRB079214516 small amount of Ru1-xFexAs impurity. T = 140 K.. not bulk SC(from SP) "Sr(Fe,Ru)2As2" Sr1Fe1.6Ru0.4As2 Sr 1 Fe 1.6 Ru 0.4 As 2 1 2009 AB2C2 ThCr2Si2 I4/mmm A 3.9669 12.1772 Fe-122 K 2 "SrAs,Fe2As,As,Ru" "(mixture in glassy-carbon) - (Ta-crucible in evacuated quartz tube) - heat(900C, 24h-7d)" Substitution-induced superconductivity in SrFe2-xRuxAs2 (0=< x =<2) 2009 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.B, 79(2009)214516"
153327 PRB079214516 small amount of Ru1-xFexAs impurity. not bulk SC(from SP) "Sr(Fe,Ru)2As2" Sr1Fe1.5Ru0.5As2 Sr 1 Fe 1.5 Ru 0.5 As 2 1 2009 AB2C2 ThCr2Si2 I4/mmm A 3.9772 12.13 Fe-122 K 7 7 "SrAs,Fe2As,As,Ru" "(mixture in glassy-carbon) - (Ta-crucible in evacuated quartz tube) - heat(900C, 24h-7d)" Substitution-induced superconductivity in SrFe2-xRuxAs2 (0=< x =<2) 2009 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.B, 79(2009)214516"
153328 PRB079214516 small amount of Ru1-xFexAs impurity. ( dC/Tc) = 13.4 mJ/mol.K2 "Sr(Fe,Ru)2As2" Sr1Fe1.4Ru0.6As2 Sr 1 Fe 1.4 Ru 0.6 As 2 1 2009 AB2C2 ThCr2Si2 I4/mmm A 3.9918 12.0635 Fe-122 K 17.5 19.8 19.3 19.8 mJ/mol.K2 6.2 SP-heat 232 SP-heat "SrAs,Fe2As,As,Ru" "(mixture in glassy-carbon) - (Ta-crucible in evacuated quartz tube) - heat(900C, 24h-7d)" Substitution-induced superconductivity in SrFe2-xRuxAs2 (0=< x =<2) 2009 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.B, 79(2009)214516"
153329 PRB079214516 small amount of Ru1-xFexAs impurity. ( dC/Tc) = 11.6 mJ/mol.K2 "Sr(Fe,Ru)2As2" Sr1Fe1.3Ru0.7As2 Sr 1 Fe 1.3 Ru 0.7 As 2 1 2009 AB2C2 ThCr2Si2 I4/mmm A 4.0051 12.0087 Fe-122 K 16 20.1 19.3 20.1 mJ/mol.K2 7.3 SP-heat 229 SP-heat "SrAs,Fe2As,As,Ru" "(mixture in glassy-carbon) - (Ta-crucible in evacuated quartz tube) - heat(900C, 24h-7d)" Substitution-induced superconductivity in SrFe2-xRuxAs2 (0=< x =<2) 2009 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.B, 79(2009)214516"
153330 PRB079214516 small amount of Ru1-xFexAs impurity. ( dC/Tc) = 13.6 mJ/mol.K2 "Sr(Fe,Ru)2As2" Sr1Fe1.2Ru0.8As2 Sr 1 Fe 1.2 Ru 0.8 As 2 1 2009 AB2C2 ThCr2Si2 I4/mmm A 4.011 11.9835 Fe-122 K 18 17.2 17.6 17.2 mJ/mol.K2 6.7 SP-heat 231 SP-heat "SrAs,Fe2As,As,Ru" "(mixture in glassy-carbon) - (Ta-crucible in evacuated quartz tube) - heat(900C, 24h-7d)" Substitution-induced superconductivity in SrFe2-xRuxAs2 (0=< x =<2) 2009 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.B, 79(2009)214516"
153331 PRB079214516 "Sr(Fe,Ru)2As2" Sr1Fe1Ru1As2 Sr 1 Fe 1 Ru 1 As 2 1 2009 AB2C2 ThCr2Si2 I4/mmm A 4.0444 11.8097 Fe-122 K 2 mJ/mol.K2 6.9 SP-heat 243 SP-heat "SrAs,Fe2As,As,Ru" "(mixture in glassy-carbon) - (Ta-crucible in evacuated quartz tube) - heat(900C, 24h-7d)" Substitution-induced superconductivity in SrFe2-xRuxAs2 (0=< x =<2) 2009 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.B, 79(2009)214516"
153332 MAT0901.4582 RRR = 17. lattice term in SP (beta) = 0.49 mJ/mol.K4. SDW not observed. BaRu2As2 Ba1Ru2As2 Ba 1 Ru 2 As 2 1 2009 AB2C2 ThCr2Si2 I4/mmm A 4.1525 12.2504 K 1.8 mJ/mol.K2 4.9 SP-heat 271 SP-heat uOhm.cm 9.7 170 "Ba(5N),Sr(4N),Ru(6N),As(5N)" "mixture - Al2O3 crucible - (heat(610,10h + 850C,20h) - (grind pelletize) - (wrapped in Ta) - heat(1000C)" "Magnetic, Thermal, and Transport Properties of Layered Arsenides BaRu2As2 and SrRu2As2" 2009 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" cond-mat/0901.4582
153333 MAT0901.4582 RRR = 5. lattice term in SP (beta) = 0.49 mJ/mol.K4. SDW not observed. SrRu2As2 Ba1Ru2As2 Ba 1 Ru 2 As 2 1 2009 AB2C2 ThCr2Si2 I4/mmm A 4.1713 11.1545 K 1.8 mJ/mol.K2 4.1 SP-heat 271 SP-heat mOhm.cm 2.3 10.7 "Ba(5N),Sr(4N),Ru(6N),As(5N)" "mixture - Al2O3 crucible - (heat(610,10h + 850C,20h) - (grind pelletize) - (wrapped in Ta) - heat(1000C)" "Magnetic, Thermal, and Transport Properties of Layered Arsenides BaRu2As2 and SrRu2As2" 2009 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" cond-mat/0901.4582
153334 APL096012507 BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 1 2010 AB2C2 ThCr2Si2 I4/mmm A 3.961 13.017 Fe-122 K 2 "BaAs,Fe1-xIrxAs" "mixture - pellet - SIN(1100C,20h, in quartz tube)" Microstructure and superconductivity of Ir-doped BaFe2As2 superconductor 2010 "Department of Physics, Renmin University of China, Beijing 100872, People's Republic of China" "Appl.Phys.Lett., 96(2010)012507"
153335 APL096012507 "Ba(Fe,Ir)2As2" Ba1Fe1.8Ir0.2As2 Ba 1 Fe 1.8 Ir 0.2 As 2 1 2010 AB2C2 ThCr2Si2 I4/mmm A 3.975 12.997 Fe-122 K 27.4 28.2 27.3 1.1 27.4 T "resistivity, 0.5Rn, WHH" 65.4 T/K "resistivity, 0.5Rn" 3.46 MHC153335 "BaAs,Fe1-xIrxAs" "mixture - pellet - SIN(1100C,20h, in quartz tube)" Microstructure and superconductivity of Ir-doped BaFe2As2 superconductor 2010 "Department of Physics, Renmin University of China, Beijing 100872, People's Republic of China" "Appl.Phys.Lett., 96(2010)012507"
153336 APL096012507 "Ba(Fe,Ir)2As2" Ba1Fe1.7Ir0.3As2 Ba 1 Fe 1.7 Ir 0.3 As 2 1 2010 AB2C2 ThCr2Si2 I4/mmm A 3.989 12.985 Fe-122 K 27 28.2 27 27 "BaAs,Fe1-xIrxAs" "mixture - pellet - SIN(1100C,20h, in quartz tube)" Microstructure and superconductivity of Ir-doped BaFe2As2 superconductor 2010 "Department of Physics, Renmin University of China, Beijing 100872, People's Republic of China" "Appl.Phys.Lett., 96(2010)012507"
153337 APL096012507 "Ba(Fe,Ir)2As2" Ba1Fe1.6Ir0.4As2 Ba 1 Fe 1.6 Ir 0.4 As 2 1 2010 AB2C2 ThCr2Si2 I4/mmm A 3.987 12.981 Fe-122 K 24.5 26.4 24.7 24.5 "BaAs,Fe1-xIrxAs" "mixture - pellet - SIN(1100C,20h, in quartz tube)" Microstructure and superconductivity of Ir-doped BaFe2As2 superconductor 2010 "Department of Physics, Renmin University of China, Beijing 100872, People's Republic of China" "Appl.Phys.Lett., 96(2010)012507"
153338 JPCM022072204 H//c-axis. (dC/Tc) = 20 mJ/mol.K2 in SP measurements. "Ba(Fe,Pt)2As2" Ba1Fe1.9Pt0.1As2 Ba 1 Fe 1.9 Pt 0.1 As 2 3 2010 AB2C2 ThCr2Si2 I4/mmm A 3.9772 12.988 Fe-122 K 21.5 23 23 1.5 23 100 mT M-H curve 200 1.8 T "resistivity, 0.5Rn, WHH" 45 T/K "resistivity, 0.5Rn" 2.8 MHC153338 "Fe(5N),Pt(4N),As(4N),Ba(3N)" "FeAs self-flux method. (FeAs:PtAs:Ba = 4-2x:2x:1 , in alumina crucible) - heat(1150C) - slow cool - Q to RT" Superconductivity at 23 K in Pt doped BaFe2As2 single crystals 2010 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, MD 20742, USA" "J.Phys.:Condens.Matter, 22(2010)072204"
153339 PRB078020503 "not SC. T=139.9K, wherestructural transformation to Fmmm ( a=5.6146, b=5.5742, c=12.9453). Debye-T calculate from (beta)=2.0 mJ/mol.K4 (3.1 = 50K. Tc defined based on entropy conservationusing SP. (dC/gamma*Tc) = 1.36. Wilson ratio R = 2.21. lattice term in SP: beta = 0.857 mJ/mol.K4 BaTi2Sb2O Ba1Ti2Sb2O1 Ba 1 Ti 2 Sb 2 O 1 1 2012 emu/mol 0.00041 ABC2D2 2 P4/mmm A 4.1104 8.0864 K 1.2 2 1.2 58 MSP153436 mJ/mol.K2 13.5 SP-heat 239 SP-heat "BaO(4N),Ti(3N),Sb(3N)" 1 "mixture - pellet - wrapped in Ta foil - sealed in quartz tube - heat(1000C,40h) - cool to RT with 25C/h" Superconductivity in BaTi2Sb2O with a d1 Square Lattice 2012 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 81(2012)103706"
153437 JPS081084709 "two phases: non-SC phase(delta-hexagonal phase, 24%) and SC phase(beta-tetragonal phase)" FeSe1-xClx Fe1Se0.82Cl0.18 Fe 1 Se 0.82 Cl 0.18 2 2012 AB 2 A 3.609 5.899 K 11.5 10.5 10.5 "Fe(4N),FeCl(3N),Se(6N)" mixture - pellet - sealed in quartz tube(Ar) - slow heating to 680C - hold(16h) . Chlorine-Doping Dependence of Crystal Structure and Superconductivity in FeSe1-xClx 2012 "Department of Physics, National Chung Cheng University, Minghsiung, Chiayi 62199, Taiwan, Republic of China" "J.Phys.Soc.Jpn, 81(2012)084709"
153438 JPS081054708 "C = aT+bT^3+cT^5+dT^7. b=0.782 mJ/mol.K4, (dC/gamma*Tc) = 2.09 . thermodynamic Hc(0) = 0.4T" FeSe1-xTex Fe1Se0.4Te0.6 Fe 1 Se 0.4 Te 0.6 3 2012 AB Fe-11 K 14.4 14.4 meV 2.53 4.16 14 mJ/mol.K2 26.5 SP-heat "Bridgman method. heat(950-1050C) - cool to RT - ANN(400C,200h)" "Specific-Heat Study of Superconducting and Normal States in FeSe1-xTex (0.6 =< x =< 1 Single Crystals: Strong-Coupling Superconductivity, Strong Electron-Correlation, and Inhomogeneity" 2012 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 81(2012)054708"
153439 JPS081054708 "C = aT+bT^3+cT^5+dT^7. b=0.782 mJ/mol.K4, (dC/gamma*Tc) = 2.76 . thermodynamic Hc(0) = 0.48 T." FeSe1-xTex Fe1Se0.3Te0.7 Fe 1 Se 0.3 Te 0.7 3 2012 AB Fe-11 K 14.8 14.8 meV 2.62 4.31 14 mJ/mol.K2 35.7 SP-heat "Bridgman method. heat(950-1050C) - cool to RT - ANN(400C,200h)" "Specific-Heat Study of Superconducting and Normal States in FeSe1-xTex (0.6 =< x =< 1 Single Crystals: Strong-Coupling Superconductivity, Strong Electron-Correlation, and Inhomogeneity" 2012 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 81(2012)054708"
153440 JPS081054708 "C = aT+bT^3+cT^5+dT^7. b=0.782 mJ/mol.K4, (dC/gamma*Tc) = 0.99 . thermodynamic Hc(0) = 0.28 T." FeSe1-xTex Fe1Se0.2Te0.8 Fe 1 Se 0.2 Te 0.8 3 2012 AB Fe-11 K 12.8 12.8 meV 1.19 1.97 14 mJ/mol.K2 57.2 SP-heat "Bridgman method. heat(950-1050C) - cool to RT - ANN(400C,200h)" "Specific-Heat Study of Superconducting and Normal States in FeSe1-xTex (0.6 =< x =< 1 Single Crystals: Strong-Coupling Superconductivity, Strong Electron-Correlation, and Inhomogeneity" 2012 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 81(2012)054708"
153441 JPS081054708 "C = aT+bT^3+cT^5+dT^7. b=0.782 mJ/mol.K4, (dC/gamma*Tc) = 0.738 . thermodynamic Hc(0) = 0.18 T." FeSe1-xTex Fe1Se0.1Te0.9 Fe 1 Se 0.1 Te 0.9 3 2012 AB Fe-11 K 9.1 9.1 meV 1.2 3.03 14 mJ/mol.K2 66.6 SP-heat "Bridgman method. heat(950-1050C) - cool to RT - ANN(400C,200h)" "Specific-Heat Study of Superconducting and Normal States in FeSe1-xTex (0.6 =< x =< 1 Single Crystals: Strong-Coupling Superconductivity, Strong Electron-Correlation, and Inhomogeneity" 2012 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 81(2012)054708"
153442 JPS081054708 C = aT+bT^3+cT^5+dT^7. b=0.652 mJ/mol.K4. FeSe1-xTex Fe1Se0.05Te0.95 Fe 1 Se 0.05 Te 0.95 3 2012 AB Fe-11 K 2 mJ/mol.K2 33.7 SP-heat "Bridgman method. heat(950-1050C) - cool to RT - ANN(400C,200h)" "Specific-Heat Study of Superconducting and Normal States in FeSe1-xTex (0.6 =< x =< 1 Single Crystals: Strong-Coupling Superconductivity, Strong Electron-Correlation, and Inhomogeneity" 2012 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 81(2012)054708"
153443 JPS081054708 C = aT+bT^3+cT^5+dT^7. b=0.643 mJ/mol.K4. FeTe Fe1Te1 Fe 1 Te 1 3 2012 AB Fe-11 K 2 mJ/mol.K2 25.6 SP-heat "Bridgman method. heat(950-1050C) - cool to RT - ANN(400C,200h)" "Specific-Heat Study of Superconducting and Normal States in FeSe1-xTex (0.6 =< x =< 1 Single Crystals: Strong-Coupling Superconductivity, Strong Electron-Correlation, and Inhomogeneity" 2012 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 81(2012)054708"
153444 PHC4750010 "Epitaxial film, d=1000-1700A. Substrate= CaF2(a=5.463A). F introduced by diffusin process. F-content not given. impurity phases: SmOF, SmO0.7F1.6" "Sm(O,F)FeAs" Sm1Fe1As1F0.5Ox Sm 1 Fe 1 As 1 F 0.5 O x 5 2012 oxypnictide K 56.4 57.8 57.1 "MBE method. F-free SmFeAsO films at T_{= 650C. deposit SmF3 overlayer film (200A). F-diffusion (650C, 30min)" "Substrate effect on structure and superconductivity in SmFeAs(O,F) epitaxial films" 2012 "Department of Applied Physics, Tokyo University of Agriculture and Technology, Naka-cho 2-24-16, Koganei, Tokyo 184-8588, Japan" "Physica C, 475(2012)10"
153445 PHC4750010 "Epitaxial film, d=1000-1700A. Substrate= SrF2(a=5.800A). F introduced by diffusin process. F-content not given. impurity phases: SmOF, SmO0.7F1.6" "Sm(O,F)FeAs" Sm1Fe1As1F0.5Ox Sm 1 Fe 1 As 1 F 0.5 O x 5 2012 oxypnictide K 55.5 57.3 56.4 "MBE method. F-free SmFeAsO films at T_{= 650C. deposit SmF3 overlayer film (200A). F-diffusion (650C, 30min)" "Substrate effect on structure and superconductivity in SmFeAs(O,F) epitaxial films" 2012 "Department of Applied Physics, Tokyo University of Agriculture and Technology, Naka-cho 2-24-16, Koganei, Tokyo 184-8588, Japan" "Physica C, 475(2012)10"
153446 PHC4750010 "Epitaxial film, d=1000-1700A. Substrate= BaF2(a=6.200A). F introduced by diffusin process. F-content not given. impurity phases: SmOF, SmO0.7F1.6" "Sm(O,F)FeAs" Sm1Fe1As1F0.5Ox Sm 1 Fe 1 As 1 F 0.5 O x 5 2012 oxypnictide K 51.8 56.4 54.1 "MBE method. F-free SmFeAsO films at T_{= 650C. deposit SmF3 overlayer film (200A). F-diffusion (650C, 30min)" "Substrate effect on structure and superconductivity in SmFeAs(O,F) epitaxial films" 2012 "Department of Applied Physics, Tokyo University of Agriculture and Technology, Naka-cho 2-24-16, Koganei, Tokyo 184-8588, Japan" "Physica C, 475(2012)10"
153447 PHC4750010 "Epitaxial film, d=1000-1700A. Substrate= LaAlO3(rhombohedral, a=5.356, alpha= 60.06). F introduced by diffusin process. F-content not given. impurity phases: SmOF, SmO0.7F1.6" "Sm(O,F)FeAs" Sm1Fe1As1F0.5Ox Sm 1 Fe 1 As 1 F 0.5 O x 5 2012 oxypnictide K 49.3 50.3 49.8 "MBE method. F-free SmFeAsO films at T_{= 650C. deposit SmF3 overlayer film (200A). F-diffusion (650C, 30min)" "Substrate effect on structure and superconductivity in SmFeAs(O,F) epitaxial films" 2012 "Department of Applied Physics, Tokyo University of Agriculture and Technology, Naka-cho 2-24-16, Koganei, Tokyo 184-8588, Japan" "Physica C, 475(2012)10"
153448 PHC4750028 co-doped Y123 materials "Y(Ba,La)2(Cu,Al)3Oz" Y1Ba1.95La0.05Cu2.95Al0.05Oz Y 1 Ba 1.95 La 0.05 Cu 2.95 Al 0.05 O z 1 2012 AB2C3D7 3 Y123 A 3.8793 3.8282 11.662 K 90 90 "Y2O3,BaCO3,La2O3,CuO,Al2O3" 1 "mixture-CAL(930C,18h in air) - reground - pellet - SIN(940C,24h) - ANN(400C,24h, in flowing O2)" "Structural and superconducting properties of co-doped YBa2-xLaxCu3-xMxOz and La-free YBa2Cu3-xMxOz (M = Al, Zn) high-TC superconductors" 2012 "Materials Physics Laboratory, State Key Laboratory for Mesoscopic Physics, Department of Physics, Peking University, Beijing 100871, PR China" "Physica C, 475(2012)28"
153449 PHC4750028 co-doped Y123 materials "Y(Ba,La)2(Cu,Al)3Oz" Y1Ba1.9La0.1Cu2.9Al0.1Oz Y 1 Ba 1.9 La 0.1 Cu 2.9 Al 0.1 O z 1 2012 AB2C3D7 3 Y123 A 3.8665 3.8527 11.6478 K 84 84 "Y2O3,BaCO3,La2O3,CuO,Al2O3" 1 "mixture-CAL(930C,18h in air) - reground - pellet - SIN(940C,24h) - ANN(400C,24h, in flowing O2)" "Structural and superconducting properties of co-doped YBa2-xLaxCu3-xMxOz and La-free YBa2Cu3-xMxOz (M = Al, Zn) high-TC superconductors" 2012 "Materials Physics Laboratory, State Key Laboratory for Mesoscopic Physics, Department of Physics, Peking University, Beijing 100871, PR China" "Physica C, 475(2012)28"
153450 PHC4750028 co-doped Y123 materials "Y(Ba,La)2(Cu,Al)3Oz" Y1Ba1.85La0.15Cu2.85Al0.15Oz Y 1 Ba 1.85 La 0.15 Cu 2.85 Al 0.15 O z 1 2012 AB2C3D7 3 Y123 A 3.8647 3.8589 11.6336 K 83 83 "Y2O3,BaCO3,La2O3,CuO,Al2O3" 1 "mixture-CAL(930C,18h in air) - reground - pellet - SIN(940C,24h) - ANN(400C,24h, in flowing O2)" "Structural and superconducting properties of co-doped YBa2-xLaxCu3-xMxOz and La-free YBa2Cu3-xMxOz (M = Al, Zn) high-TC superconductors" 2012 "Materials Physics Laboratory, State Key Laboratory for Mesoscopic Physics, Department of Physics, Peking University, Beijing 100871, PR China" "Physica C, 475(2012)28"
153451 PHC4750028 co-doped Y123 materials "Y(Ba,La)2(Cu,Al)3Oz" Y1Ba1.8La0.2Cu2.8Al0.2Oz Y 1 Ba 1.8 La 0.2 Cu 2.8 Al 0.2 O z 1 2012 AB2C3D7 3 Y123 A 3.8655 3.85 11.63 K 82 82 "Y2O3,BaCO3,La2O3,CuO,Al2O3" 1 "mixture-CAL(930C,18h in air) - reground - pellet - SIN(940C,24h) - ANN(400C,24h, in flowing O2)" "Structural and superconducting properties of co-doped YBa2-xLaxCu3-xMxOz and La-free YBa2Cu3-xMxOz (M = Al, Zn) high-TC superconductors" 2012 "Materials Physics Laboratory, State Key Laboratory for Mesoscopic Physics, Department of Physics, Peking University, Beijing 100871, PR China" "Physica C, 475(2012)28"
153452 PHC4750028 co-doped Y123 materials "Y(Ba,La)2(Cu,Al)3Oz" Y1Ba1.75La0.25Cu2.75Al0.25Oz Y 1 Ba 1.75 La 0.25 Cu 2.75 Al 0.25 O z 1 2012 AB2C3D7 3 Y123 A 3.8612 3.8536 11.6107 K 81 81 "Y2O3,BaCO3,La2O3,CuO,Al2O3" 1 "mixture-CAL(930C,18h in air) - reground - pellet - SIN(940C,24h) - ANN(400C,24h, in flowing O2)" "Structural and superconducting properties of co-doped YBa2-xLaxCu3-xMxOz and La-free YBa2Cu3-xMxOz (M = Al, Zn) high-TC superconductors" 2012 "Materials Physics Laboratory, State Key Laboratory for Mesoscopic Physics, Department of Physics, Peking University, Beijing 100871, PR China" "Physica C, 475(2012)28"
153453 PHC4750028 co-doped Y123 materials "Y(Ba,La)2(Cu,Al)3Oz" Y1Ba1.7La0.3Cu2.7Al0.3Oz Y 1 Ba 1.7 La 0.3 Cu 2.7 Al 0.3 O z 1 2012 AB2C3D7 3 Y123 A 3.861 3.8554 11.5971 K 79 79 "Y2O3,BaCO3,La2O3,CuO,Al2O3" 1 "mixture-CAL(930C,18h in air) - reground - pellet - SIN(940C,24h) - ANN(400C,24h, in flowing O2)" "Structural and superconducting properties of co-doped YBa2-xLaxCu3-xMxOz and La-free YBa2Cu3-xMxOz (M = Al, Zn) high-TC superconductors" 2012 "Materials Physics Laboratory, State Key Laboratory for Mesoscopic Physics, Department of Physics, Peking University, Beijing 100871, PR China" "Physica C, 475(2012)28"
153454 PHC4750028 co-doped Y123 materials "Y(Ba,La)2(Cu,Zn)3Oz" Y1Ba1.95La0.05Cu2.95Zn0.05Oz Y 1 Ba 1.95 La 0.05 Cu 2.95 Zn 0.05 O z 1 2012 AB2C3D7 3 Y123 A 3.8873 3.8239 11.6583 K 71.9 71.9 "Y2O3,BaCO3,La2O3,CuO,ZnO" 1 "mixture-CAL(930C,18h in air) - reground - pellet - SIN(940C,24h) - ANN(400C,24h, in flowing O2)" "Structural and superconducting properties of co-doped YBa2-xLaxCu3-xMxOz and La-free YBa2Cu3-xMxOz (M = Al, Zn) high-TC superconductors" 2012 "Materials Physics Laboratory, State Key Laboratory for Mesoscopic Physics, Department of Physics, Peking University, Beijing 100871, PR China" "Physica C, 475(2012)28"
153455 PHC4750028 co-doped Y123 materials "Y(Ba,La)2(Cu,Zn)3Oz" Y1Ba1.9La0.1Cu2.9Zn0.1Oz Y 1 Ba 1.9 La 0.1 Cu 2.9 Zn 0.1 O z 1 2012 AB2C3D7 3 Y123 A 3.8873 3.8276 11.6465 K 50.8 50.8 "Y2O3,BaCO3,La2O3,CuO,ZnO" 1 "mixture-CAL(930C,18h in air) - reground - pellet - SIN(940C,24h) - ANN(400C,24h, in flowing O2)" "Structural and superconducting properties of co-doped YBa2-xLaxCu3-xMxOz and La-free YBa2Cu3-xMxOz (M = Al, Zn) high-TC superconductors" 2012 "Materials Physics Laboratory, State Key Laboratory for Mesoscopic Physics, Department of Physics, Peking University, Beijing 100871, PR China" "Physica C, 475(2012)28"
153456 PHC4750028 co-doped Y123 materials "Y(Ba,La)2(Cu,Zn)3Oz" Y1Ba1.85La0.15Cu2.85Zn0.15Oz Y 1 Ba 1.85 La 0.15 Cu 2.85 Zn 0.15 O z 1 2012 AB2C3D7 3 Y123 A 3.8865 3.8284 11.6391 K 49.9 49.9 "Y2O3,BaCO3,La2O3,CuO,ZnO" 1 "mixture-CAL(930C,18h in air) - reground - pellet - SIN(940C,24h) - ANN(400C,24h, in flowing O2)" "Structural and superconducting properties of co-doped YBa2-xLaxCu3-xMxOz and La-free YBa2Cu3-xMxOz (M = Al, Zn) high-TC superconductors" 2012 "Materials Physics Laboratory, State Key Laboratory for Mesoscopic Physics, Department of Physics, Peking University, Beijing 100871, PR China" "Physica C, 475(2012)28"
153457 PHC4750028 co-doped Y123 materials "Y(Ba,La)2(Cu,Zn)3Oz" Y1Ba1.8La0.2Cu2.8Zn0.2Oz Y 1 Ba 1.8 La 0.2 Cu 2.8 Zn 0.2 O z 1 2012 AB2C3D7 3 Y123 A 3.8708 3.8495 11.6299 K 28.7 28.7 "Y2O3,BaCO3,La2O3,CuO,ZnO" 1 "mixture-CAL(930C,18h in air) - reground - pellet - SIN(940C,24h) - ANN(400C,24h, in flowing O2)" "Structural and superconducting properties of co-doped YBa2-xLaxCu3-xMxOz and La-free YBa2Cu3-xMxOz (M = Al, Zn) high-TC superconductors" 2012 "Materials Physics Laboratory, State Key Laboratory for Mesoscopic Physics, Department of Physics, Peking University, Beijing 100871, PR China" "Physica C, 475(2012)28"
153458 PHC4750028 co-doped Y123 materials "Y(Ba,La)2(Cu,Zn)3Oz" Y1Ba1.75La0.25Cu2.75Zn0.25Oz Y 1 Ba 1.75 La 0.25 Cu 2.75 Zn 0.25 O z 1 2012 AB2C3D7 3 Y123 A 3.8704 3.8544 11.6187 K 23.8 23.8 "Y2O3,BaCO3,La2O3,CuO,ZnO" 1 "mixture-CAL(930C,18h in air) - reground - pellet - SIN(940C,24h) - ANN(400C,24h, in flowing O2)" "Structural and superconducting properties of co-doped YBa2-xLaxCu3-xMxOz and La-free YBa2Cu3-xMxOz (M = Al, Zn) high-TC superconductors" 2012 "Materials Physics Laboratory, State Key Laboratory for Mesoscopic Physics, Department of Physics, Peking University, Beijing 100871, PR China" "Physica C, 475(2012)28"
153459 PHC4750028 co-doped Y123 materials "Y(Ba,La)2(Cu,Zn)3Oz" Y1Ba1.7La0.3Cu2.7Zn0.3Oz Y 1 Ba 1.7 La 0.3 Cu 2.7 Zn 0.3 O z 1 2012 AB2C3D7 3 Y123 A 3.8678 3.8571 11.5934 K 0 0 "Y2O3,BaCO3,La2O3,CuO,ZnO" 1 "mixture-CAL(930C,18h in air) - reground - pellet - SIN(940C,24h) - ANN(400C,24h, in flowing O2)" "Structural and superconducting properties of co-doped YBa2-xLaxCu3-xMxOz and La-free YBa2Cu3-xMxOz (M = Al, Zn) high-TC superconductors" 2012 "Materials Physics Laboratory, State Key Laboratory for Mesoscopic Physics, Department of Physics, Peking University, Beijing 100871, PR China" "Physica C, 475(2012)28"
153460 PHC4770036 grain size = 8.1 micron by SEM. "(Y,Ca)Ba2(Cu,Mg)3Oz" Y0.95Ca0.05Ba2Cu2.97Mg0.03Oz Y 0.95 Ca 0.05 Ba 2 Cu 2.97 Mg 0.03 O z 1 2012 AB2C3D7 3 Y123 A 3.8138 3.8771 11.666 K 76.6 76.6 "Y2O3,CaCO3,BaCO3,MgO,CuO" 1 "mixture - heat(750C,900C,5h) - SIN(915,930C,24h) - heat(940C,6h,in flowing O2) - rapid cool to 400C - ANN(400C,24h) - FC to RT" Effect of double substitution on structural and magnetic properties of Y1-xCaxBa2(Cu1-yMgy)3O7-z 2012 "Universite Mentouri, Laboratoire de Couches Minces et Interfaces, Campus de Chaabet Erssas, 25017 Constantine, Algeria" "Physica C, 477(2012)36"
153461 PHC4770036 grain size = 6.5 micron by SEM. Tc not measured. "(Y,Ca)Ba2(Cu,Mg)3Oz" Y0.9Ca0.1Ba2Cu2.97Mg0.03Oz Y 0.9 Ca 0.1 Ba 2 Cu 2.97 Mg 0.03 O z 1 2012 AB2C3D7 3 Y123 A 3.8111 3.872 11.665 K "Y2O3,CaCO3,BaCO3,MgO,CuO" 1 "mixture - heat(750C,900C,5h) - SIN(915,930C,24h) - heat(940C,6h,in flowing O2) - rapid cool to 400C - ANN(400C,24h) - FC to RT" Effect of double substitution on structural and magnetic properties of Y1-xCaxBa2(Cu1-yMgy)3O7-z 2012 "Universite Mentouri, Laboratoire de Couches Minces et Interfaces, Campus de Chaabet Erssas, 25017 Constantine, Algeria" "Physica C, 477(2012)36"
153462 PHC4770036 grain size = 4.6 micron by SEM. "(Y,Ca)Ba2(Cu,Mg)3Oz" Y0.85Ca0.15Ba2Cu2.97Mg0.03Oz Y 0.85 Ca 0.15 Ba 2 Cu 2.97 Mg 0.03 O z 1 2012 AB2C3D7 3 Y123 A 3.8131 3.8724 11.668 K 73.5 73.5 "Y2O3,CaCO3,BaCO3,MgO,CuO" 1 "mixture - heat(750C,900C,5h) - SIN(915,930C,24h) - heat(940C,6h,in flowing O2) - rapid cool to 400C - ANN(400C,24h) - FC to RT" Effect of double substitution on structural and magnetic properties of Y1-xCaxBa2(Cu1-yMgy)3O7-z 2012 "Universite Mentouri, Laboratoire de Couches Minces et Interfaces, Campus de Chaabet Erssas, 25017 Constantine, Algeria" "Physica C, 477(2012)36"
153463 PHC4770036 grain size = 3.6 micron by SEM. "(Y,Ca)Ba2(Cu,Mg)3Oz" Y0.8Ca0.2Ba2Cu2.97Mg0.03Oz Y 0.8 Ca 0.2 Ba 2 Cu 2.97 Mg 0.03 O z 1 2012 AB2C3D7 3 Y123 A 3.8132 3.8749 11.668 K 71.85 71.85 "Y2O3,CaCO3,BaCO3,MgO,CuO" 1 "mixture - heat(750C,900C,5h) - SIN(915,930C,24h) - heat(940C,6h,in flowing O2) - rapid cool to 400C - ANN(400C,24h) - FC to RT" Effect of double substitution on structural and magnetic properties of Y1-xCaxBa2(Cu1-yMgy)3O7-z 2012 "Universite Mentouri, Laboratoire de Couches Minces et Interfaces, Campus de Chaabet Erssas, 25017 Constantine, Algeria" "Physica C, 477(2012)36"
153464 PHC4770036 "grain size = 4.3 micron by SEM. atomic compo. O(53.98),Mg(0.89),Ca(0.37),Cu(22.27),Y(6.66),Ba(15.83)" "(Y,Ca)Ba2(Cu,Mg)3Oz" Y0.95Ca0.05Ba2Cu2.94Mg0.06Oz Y 0.95 Ca 0.05 Ba 2 Cu 2.94 Mg 0.06 O z 1 2012 AB2C3D7 3 Y123 A 3.8179 3.8856 11.683 K 75.92 75.92 "Y2O3,CaCO3,BaCO3,MgO,CuO" 1 "mixture - heat(750C,900C,5h) - SIN(915,930C,24h) - heat(940C,6h,in flowing O2) - rapid cool to 400C - ANN(400C,24h) - FC to RT" Effect of double substitution on structural and magnetic properties of Y1-xCaxBa2(Cu1-yMgy)3O7-z 2012 "Universite Mentouri, Laboratoire de Couches Minces et Interfaces, Campus de Chaabet Erssas, 25017 Constantine, Algeria" "Physica C, 477(2012)36"
153465 PHC4770036 grain size = 3.2 micron by SEM. Tc not measured. "(Y,Ca)Ba2(Cu,Mg)3Oz" Y0.9Ca0.1Ba2Cu2.94Mg0.06Oz Y 0.9 Ca 0.1 Ba 2 Cu 2.94 Mg 0.06 O z 1 2012 AB2C3D7 3 Y123 A 3.8179 3.8789 11.673 K "Y2O3,CaCO3,BaCO3,MgO,CuO" 1 "mixture - heat(750C,900C,5h) - SIN(915,930C,24h) - heat(940C,6h,in flowing O2) - rapid cool to 400C - ANN(400C,24h) - FC to RT" Effect of double substitution on structural and magnetic properties of Y1-xCaxBa2(Cu1-yMgy)3O7-z 2012 "Universite Mentouri, Laboratoire de Couches Minces et Interfaces, Campus de Chaabet Erssas, 25017 Constantine, Algeria" "Physica C, 477(2012)36"
153466 PHC4770036 grain size = 2.8 micron by SEM. "(Y,Ca)Ba2(Cu,Mg)3Oz" Y0.85Ca0.15Ba2Cu2.94Mg0.06Oz Y 0.85 Ca 0.15 Ba 2 Cu 2.94 Mg 0.06 O z 1 2012 AB2C3D7 3 Y123 A 3.8095 3.8522 11.629 K 72.6 72.6 "Y2O3,CaCO3,BaCO3,MgO,CuO" 1 "mixture - heat(750C,900C,5h) - SIN(915,930C,24h) - heat(940C,6h,in flowing O2) - rapid cool to 400C - ANN(400C,24h) - FC to RT" Effect of double substitution on structural and magnetic properties of Y1-xCaxBa2(Cu1-yMgy)3O7-z 2012 "Universite Mentouri, Laboratoire de Couches Minces et Interfaces, Campus de Chaabet Erssas, 25017 Constantine, Algeria" "Physica C, 477(2012)36"
153467 PHC4770036 "grain size = 1.7 micron by SEM. O(53.94),Mg(0.80),Ca(1.44),Cu(23.12),Y(5.40),Ba(15.30)" "(Y,Ca)Ba2(Cu,Mg)3Oz" Y0.8Ca0.2Ba2Cu2.94Mg0.06Oz Y 0.8 Ca 0.2 Ba 2 Cu 2.94 Mg 0.06 O z 1 2012 AB2C3D7 3 Y123 A 3.8068 3.8542 11.619 K 72.3 72.3 "Y2O3,CaCO3,BaCO3,MgO,CuO" 1 "mixture - heat(750C,900C,5h) - SIN(915,930C,24h) - heat(940C,6h,in flowing O2) - rapid cool to 400C - ANN(400C,24h) - FC to RT" Effect of double substitution on structural and magnetic properties of Y1-xCaxBa2(Cu1-yMgy)3O7-z 2012 "Universite Mentouri, Laboratoire de Couches Minces et Interfaces, Campus de Chaabet Erssas, 25017 Constantine, Algeria" "Physica C, 477(2012)36"
153468 PHC4770063 impurity phase: YNi2Ge2. AlB2 derived structure. Y2NiGe3 Y2Ni1Ge3 Y 2 Ni 1 Ge 3 1 2012 AB2C3 A 4.066 4.025 K 0.533 0.037 0.533 480 "R(T), fitting Broch eq." "Y(4N) or La(4N),Ni(5N),Ge(4N)" "arc-melting - wrapped in Ta foil - sealed in evacuated quartz tube - ANN(700C,1w)" Superconductivity of the Ni-based ternary compounds with AlB2-type structure Y2NiGe3 and La2NiGe3 2012 "Department of Physics, National Taiwan University, Taipei, Taiwan, ROC" "Physica C, 477(2012)63"
153469 PHC4770063 impurity phase: LaNi2Ge2. AlB2 derived structure. La2NiGe3 La2Ni1Ge3 La 2 Ni 1 Ge 3 1 2012 AB2C3 A 4.18 4.334 K 0.394 0.091 0.394 300 "R(T), fitting Broch eq." "Y(4N) or La(4N),Ni(5N),Ge(4N)" "arc-melting - wrapped in Ta foil - sealed in evacuated quartz tube - ANN(700C,1w)" Superconductivity of the Ni-based ternary compounds with AlB2-type structure Y2NiGe3 and La2NiGe3 2012 "Department of Physics, National Taiwan University, Taipei, Taiwan, ROC" "Physica C, 477(2012)63"
153470 PHC4780005 "Two gap model: gap(0.19, 1.02 meV), Tc(4.1, 5.4K), penet(2050, 3210 A), (2D/kTc) = (1.08, 4.37). Hc2 and cohere from PRL100157001." Lu2Fe3Si5 Lu2Fe3Si5 Lu 2 Fe 3 Si 5 3 2012 A2B3C5 Sc2Fe3Si5 K 6.1 1 6.1 Oe "M-H curve, considering demag factor" 121 32.5 2 T 13 MHC153470 A from Hc2 50 A "Hc1, GL theory" 2420 4.37 floating zone method. ANN for 2 weeks. Two energy gaps in superconducting Lu2Fe3Si5 single crystal derived from the temperature dependence of lower critical field Hc1(T) 2012 "INPAC?Institute for Nanoscale Physics and Chemistry, KU Leuven, Celestijnenlaan 200D, B-3001 Leuven, Belgium" "Physica C, 478(2012)5"
153471 PHC4780029 Ca2-xNaxCuO2Cl2 Ca1.875Na0.125Cu1Cl2O2 Ca 1.875 Na 0.125 Cu 1 Cl 2 O 2 3 2012 AB2C4 T A 15.1388 K 15 15 "Ca2CuO2Cl2,NaClO4,NaCl" mixture - sealed in Pt capsules - heat to 1200c with 10 min - keep for 40min - cool to 10toc for 6h High-pressure growth of Ca2-xNaxCuO2Cl2 single crystals and pressure effect on superconductivity 2012 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Physica C, 478(2012)29"
153472 PHC4780029 Ca2-xNaxCuO2Cl2 Ca1.867Na0.133Cu1Cl2O2 Ca 1.867 Na 0.133 Cu 1 Cl 2 O 2 3 2012 AB2C4 T A 15.1481 K 20 20 TC153472 K/GPa -1.87 "Ca2CuO2Cl2,NaClO4,NaCl" mixture - sealed in Pt capsules - heat to 1200c with 10 min - keep for 40min - cool to 10toc for 6h High-pressure growth of Ca2-xNaxCuO2Cl2 single crystals and pressure effect on superconductivity 2012 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Physica C, 478(2012)29"
153473 PHC4780029 Ca2-xNaxCuO2Cl2 Ca1.843Na0.157Cu1Cl2O2 Ca 1.843 Na 0.157 Cu 1 Cl 2 O 2 3 2012 AB2C4 T A 15.1565 K 25 25 "Ca2CuO2Cl2,NaClO4,NaCl" mixture - sealed in Pt capsules - heat to 1200c with 10 min - keep for 40min - cool to 10toc for 6h High-pressure growth of Ca2-xNaxCuO2Cl2 single crystals and pressure effect on superconductivity 2012 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Physica C, 478(2012)29"
153474 PHC4790095 gap paameter obtained by BCS fitting of STS conductance (at T=0.42 K) SrPd2Ge2 Sr1Pd2Ge2 Sr 1 Pd 2 Ge 2 3 2012 AB2C2 ThCr2Si2 K 2.6 2.6 meV 0.43 3.84 1 high-T flux method using PdGe self flux. Superconducting density of states and vortex studies on SrPd2Ge2 2012 "Centre of Low Temperature Physics, Institute of Experimental Physics SAS & Faculty of Science, P.J. Safarik University, Kosice, Slovakia" "Physica C, 479(2012)95"
153475 PHC4800001 72h-reduction. grain size: several micron meter by SEM. Pr2Ba4Cu7O15 Pr2Ba4Cu7O14.06 Pr 2 Ba 4 Cu 7 O 15-z 14.06 1 2012 A2B4C7D15 Y247 K 30.5 30.5 TC153475 uV/K 29.2 TP153475 "sol-gel method. mixture - CAL(800C,24h,in air) - press to pellet - SIN(875-876C,180h, in O2) - ANN(500C,48 or 72h, in vac)" Magnetization and transport properties in the superconducting Pr2Ba4Cu7O15-z with metallic double-chain 2012 "Department of Materials Science and Engineering, Iwate University, Morioka 020-8551, Japan" "Physica C, 480(2012)1"
153476 PHC4800001 48h-reduction. grain size: several micron meter by SEM. Pr2Ba4Cu7O15 Pr2Ba4Cu7O14.3 Pr 2 Ba 4 Cu 7 O 15-z 14.3 1 2012 A2B4C7D15 Y247 K 21 21 "sol-gel method. mixture - CAL(800C,24h,in air) - press to pellet - SIN(875-876C,180h, in O2) - ANN(500C,48 or 72h, in vac)" Magnetization and transport properties in the superconducting Pr2Ba4Cu7O15-z with metallic double-chain 2012 "Department of Materials Science and Engineering, Iwate University, Morioka 020-8551, Japan" "Physica C, 480(2012)1"
153477 PHC4830162 "grain size = 20 nm. Film thickness = 80 nm. Film compositions : 71.1 at % Pb, 28.9 at % Bi. Hc2 for H perpendicular to film plane." Pb7Bi3 Pb7Bi3 Pb 7 Bi 3 4 2012 A3B7 P63mmc A 3.5058 5.7959 K 10.3 10.3 electroplating on brass substrates. various electroplating parameters are tested The superconducting properties of nanostructured Pb7Bi3 films obtained by pulse electroplating 2012 "Institute of Solid State Physics RAS, Academika Osipyana, 2, Chernogolovka, Moscow Reg., Russia" "Physica C, 483(2012)162"
153478 PHC4830162 Film thickness = submicron. electroplating with no Ce(+3) ion in electrolyte. Pb7Bi3 Pb7Bi3 Pb 7 Bi 3 4 2012 A3B7 P63mmc K 7.8 7.8 T 0.7 4.2 electroplating on brass substrates. various electroplating parameters are tested The superconducting properties of nanostructured Pb7Bi3 films obtained by pulse electroplating 2012 "Institute of Solid State Physics RAS, Academika Osipyana, 2, Chernogolovka, Moscow Reg., Russia" "Physica C, 483(2012)162"
153479 PHC4830207 grain size = 100 um. Tc determind by sound velocity. longitudinal sound velocity decreases at Tc. BaFe2-xNixAs2 Ba1Fe1.93Ni0.07As2 Ba 1 Fe 1.93 Ni 0.07 As 2 3 2012 AB2C2 K 17 17 K/GPa 9 crystals grown using Fe/Ni -As self flux method Elastic anomalies in BaFe2-xNixAs2 crystals 2012 "Institut Neel, CNRS et Universite Joseph Fourier BP 166, F 38042 Grenoble Cedex 9, France" "Physica C, 483(2012)207"
153480 PHC4830207 elastic constant c<66> is minimum at Tc. (dTc/dP) is calculated from sonic velocity. BaFe2-xNixAs2 Ba1Fe1.85Ni0.15As2 Ba 1 Fe 1.85 Ni 0.15 As 2 3 2012 AB2C2 K 13.5 13.5 crystals grown using Fe/Ni -As self flux method Elastic anomalies in BaFe2-xNixAs2 crystals 2012 "Institut Neel, CNRS et Universite Joseph Fourier BP 166, F 38042 Grenoble Cedex 9, France" "Physica C, 483(2012)207"
153481 SSC1520513 "Tc = 0.825 K from SP-heat. There are three different Tc (SUS, Res, SP)." YIn3 Y1In3 Y 1 In 3 3 2012 AB3 AuCu3 A 4.593 "triclinic, alpha=99.04, beta=108.21, gamma=90.0" K 1.08 0.96 0.1 0.96 "In(6N),Y(3N)" "excess In flux(In:Y = 50:1) in Al-crucible. sealed in quartz( Ar) - heat an hold(1150C, 72h) - slow cool to 450 C." Superconductivity in single-crystal YIn3 2012 "Physics Department, University of California Davis, Davis, CA 95616, United States" "Solid State Commun., 152(2012)513"
153482 SSC1520635 alpha-phase. Hc2 defined as R/Rn = 0.5. Ca10(Pt4As8)(Fe1.64Pt0.36As2)5 Ca10Pt5.8Fe8.2As18 Ca 10 Pt 5.8 Fe 8.2 As 18 3 2012 P1[-] A 8.719 8.727 11.161 "triclinic, alpha=94.82, beta=99.62, gamma=89.99" K 32.7 34.6 33.65 MTC153482 K/GPa -0.9 T "resistivity, WHH theory" 35 T/K resistivity 1.6 See J.Phys.Soc.Jpn 80(2011)093704 Iron-platinum-arsenide superconductors Ca10(PtnAs8)(Fe2-xPtxAs2)5 2012 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Solid State Commun., 152(2012)635"
153483 SSC1520635 beta-phase. Hc2 defined as R/Rn = 0.5. Ca10(Pt4As8)(Fe1.84Pt0.16As2)5 Ca10Pt4.8Fe9.2As18 Ca 10 Pt 4.8 Fe 9.2 As 18 3 2012 P1[-] A 8.795 8.789 21.008 K 13.7 13.7 T "resistivity, WHH theory" 22 T/K resistivity 2.3 See J.Phys.Soc.Jpn 80(2011)093704 Iron-platinum-arsenide superconductors Ca10(PtnAs8)(Fe2-xPtxAs2)5 2012 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Solid State Commun., 152(2012)635"
153484 SSC1520640 compositions are nominal values. Fe2As2(Sr4V2O6) Fe2As2Sr4V2O6 Fe 2 As 2 Sr 4 V 2 O 6 1 2012 FA22426 A 15.7 XRD K 27 27 1 solid state reaction in sealed quartz ampoule. details are in Appl.Phys.Exp. 3(2010)63102 Irreversibility lines of layered Fe-based superconductors with thick blocking layers 2012 "Department of Applied Chemistry, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Solid State Commun., 152(2012)640"
153485 SSC1520640 compositions are nominal values. Tirr/Tc at H=100Oe = 0.95. Hirr(T=0.7Tc) = 123 mT . anisotropy < 80. Fe2As2(Ca4(Mg0.25Ti0.75)3O7.5) Fe2As2Ca4Mg0.75Ti2.25O7.5 Fe 2 As 2 Ca 4 Mg 0.75 Ti 2.25 O 7.5 1 2012 FA22438 A 16.7 XRD K 42 42 1 solid state reaction in sealed quartz ampoule. details are in Appl.Phys.Exp. 3(2010)63102 Irreversibility lines of layered Fe-based superconductors with thick blocking layers 2012 "Department of Applied Chemistry, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Solid State Commun., 152(2012)640"
153486 SSC1520640 compositions are nominal values. Tirr/Tc at H=100Oe = 0.72. Hirr(T=0.7Tc) = 16.9 mT . anisotropy > 100. Fe2As2(Ca5(Sc0.5Ti0.5)4O10.5) Fe2As2Ca5Sc2Ti2O10.5 Fe 2 As 2 Ca 5 Sc 2 Ti 2 O 10.5 1 2012 FA2254(11) A 20.6 XRD K 33 33 1 solid state reaction in sealed quartz ampoule. details are in Appl.Phys.Exp. 3(2010)63102 Irreversibility lines of layered Fe-based superconductors with thick blocking layers 2012 "Department of Applied Chemistry, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Solid State Commun., 152(2012)640"
153487 SSC1520640 compositions are nominal values. Tirr/Tc at H=100Oe = 0.67. Hirr(T=0.7Tc) = 4.1 mT . anisotropy > 100. Fe2As2(Ca6(Al0.25Ti0.75)4O11) Fe2As2Ca6Al1Ti3O11 Fe 2 As 2 Ca 6 Al 1 Ti 3 O 11 1 2012 FA2264(12) A 22.7 XRD K 32 32 1 solid state reaction in sealed quartz ampoule. details are in Appl.Phys.Exp. 3(2010)63102 Irreversibility lines of layered Fe-based superconductors with thick blocking layers 2012 "Department of Applied Chemistry, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Solid State Commun., 152(2012)640"
153488 SSC1520640 compositions are nominal values. Tirr/Tc at H=100Oe = 0.61. Hirr(T=0.7Tc) = 0.35 mT. anisotropy > 100. Fe2As2(Ca5(Mg0.25Ti0.75)4O9.5) Fe2As2Ca5Mg1Ti3O9.5 Fe 2 As 2 Ca 5 Mg 1 Ti 3 O 9.5 2012 FA2286(18) A 30 XRD K 36 36 1 "solid state reaction in sealed quartz ampoule. main phase (FA2286(18) ) formed by SIN(1125 C, 72h)." Irreversibility lines of layered Fe-based superconductors with thick blocking layers 2012 "Department of Applied Chemistry, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Solid State Commun., 152(2012)640"
153489 SSC1520671 single crystals were cleaved into thin slices. RH150 = -29.97 m3/C. carrier shows at 150 K. "Ba(Fe,Zn,Co)2As2" Ba1Fe1.91Co0.09As2 Ba 1 Fe 1.91 Co 0.09 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 16.76 16.76 T "resistivity, WHH" 2.861 T/K resistivity 0.252 m3/C -2.04E-09 MRH153491 n/cm3 2.12E+21 "HP method. mixture in BN - Ta capsule - preheat(1900C,1h, in N2) -heat(1300C,2h, at P=3 GPa) - cool to 1100C within 1h" Impurity effects on the Fe-based superconductor A(Fe1-yCoy)2As2 (A = Ba and Sr) 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Solid State Commun., 152(2012)671"
153490 SSC1520671 single crystals were cleaved into thin slices. "Ba(Fe,Co)2As2" Ba1Fe1.87Zn0.04Co0.09As2 Ba 1 Fe 1.87 Zn 0.04 Co 0.09 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 13.42 13.42 T "resistivity, WHH" 1.278 T/K resistivity 0.123 "HP method. mixture in BN - Ta capsule - preheat(1900C,1h, in N2) -heat(1300C,2h, at P=3 GPa) - cool to 1100C within 1h" Impurity effects on the Fe-based superconductor A(Fe1-yCoy)2As2 (A = Ba and Sr) 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Solid State Commun., 152(2012)671"
153491 SSC1520671 single crystals were cleaved into thin slices. RH150 = -31.33 m3/C. carrier shows at 150 K. "Ba(Fe,Zn,Co)2As2" Ba1Fe1.83Zn0.08Co0.09As2 Ba 1 Fe 1.83 Zn 0.08 Co 0.09 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 7.54 7.54 m3/C -3.47E-09 n/cm3 2.03E+21 "HP method. mixture in BN - Ta capsule - preheat(1900C,1h, in N2) -heat(1300C,2h, at P=3 GPa) - cool to 1100C within 1h" Impurity effects on the Fe-based superconductor A(Fe1-yCoy)2As2 (A = Ba and Sr) 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Solid State Commun., 152(2012)671"
153492 SSC1520671 single crystals were cleaved into thin slices. RH150 = -71.53 m3/C. carrier shows at 150 K. "Ba(Fe,Co)2As2" Ba1Fe1.78Co0.22As2 Ba 1 Fe 1.78 Co 0.22 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 18.96 18.96 T "resistivity, WHH" 1.747 T/K resistivity 0.135 m3/C -4.29E-09 n/cm3 8.87E+20 "HP method. mixture in BN - Ta capsule - preheat(1900C,1h, in N2) -heat(1300C,2h, at P=3 GPa) - cool to 1100C within 1h" Impurity effects on the Fe-based superconductor A(Fe1-yCoy)2As2 (A = Ba and Sr) 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Solid State Commun., 152(2012)671"
153493 SSC1520671 single crystals were cleaved into thin slices. "Ba(Fe,Zn,Co)2As2" Ba1Fe1.74Zn0.04Co0.22As2 Ba 1 Fe 1.74 Zn 0.04 Co 0.22 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 15.82 15.82 T "resistivity, WHH" 2.87 T/K resistivity 0.265 "HP method. mixture in BN - Ta capsule - preheat(1900C,1h, in N2) -heat(1300C,2h, at P=3 GPa) - cool to 1100C within 1h" Impurity effects on the Fe-based superconductor A(Fe1-yCoy)2As2 (A = Ba and Sr) 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Solid State Commun., 152(2012)671"
153494 SSC1520671 single crystals were cleaved into thin slices. RH150 = -65.40 m3/C. carrier shows at 150 K. "Ba(Fe,Zn,Co)2As2" Ba1Fe1.7Zn0.08Co0.22As2 Ba 1 Fe 1.7 Zn 0.08 Co 0.22 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 8.77 8.77 m3/C -3.95E-09 n/cm3 9.60E+20 "HP method. mixture in BN - Ta capsule - preheat(1900C,1h, in N2) -heat(1300C,2h, at P=3 GPa) - cool to 1100C within 1h" Impurity effects on the Fe-based superconductor A(Fe1-yCoy)2As2 (A = Ba and Sr) 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Solid State Commun., 152(2012)671"
153495 SSC1520671 single crystals were cleaved into thin slices. "Ba(Fe,Zn,Co)2As2" Ba1Fe1.66Zn0.12Co0.22As2 Ba 1 Fe 1.66 Zn 0.12 Co 0.22 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 4.6 4.6 "HP method. mixture in BN - Ta capsule - preheat(1900C,1h, in N2) -heat(1300C,2h, at P=3 GPa) - cool to 1100C within 1h" Impurity effects on the Fe-based superconductor A(Fe1-yCoy)2As2 (A = Ba and Sr) 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Solid State Commun., 152(2012)671"
153496 SSC1520671 single crystals were cleaved into thin slices. "Ba(Fe,Zn,Co)2As2" Ba1Fe1.79Zn0.12Co0.09As2 Ba 1 Fe 1.79 Zn 0.12 Co 0.09 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 3.37 3.37 "HP method. mixture in BN - Ta capsule - preheat(1900C,1h, in N2) -heat(1300C,2h, at P=3 GPa) - cool to 1100C within 1h" Impurity effects on the Fe-based superconductor A(Fe1-yCoy)2As2 (A = Ba and Sr) 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Solid State Commun., 152(2012)671"
153497 SSC1520671 "Sr(Fe,Co)2As2" Sr1Fe1.8Co0.2As2 Sr 1 Fe 1.8 Co 0.2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 17.53 17.53 "HP method. mixture in BN - Ta capsule - preheat(1900C,1h, in N2) -heat(1300C,2h, at P=3 GPa) - cool to 1100C within 1h" Impurity effects on the Fe-based superconductor A(Fe1-yCoy)2As2 (A = Ba and Sr) 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Solid State Commun., 152(2012)671"
153498 SSC1520671 "Sr(Fe,Zn,Co)2As2" Sr1Fe1.76Zn0.04Co0.2As2 Sr 1 Fe 1.76 Zn 0.04 Co 0.2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 12.1 12.1 "HP method. mixture in BN - Ta capsule - preheat(1900C,1h, in N2) -heat(1300C,2h, at P=3 GPa) - cool to 1100C within 1h" Impurity effects on the Fe-based superconductor A(Fe1-yCoy)2As2 (A = Ba and Sr) 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Solid State Commun., 152(2012)671"
153499 SSC1520671 "Sr(Fe,Zn,Co)2As2" Sr1Fe1.72Zn0.08Co0.2As2 Sr 1 Fe 1.72 Zn 0.08 Co 0.2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 9.41 9.41 "HP method. mixture in BN - Ta capsule - preheat(1900C,1h, in N2) -heat(1300C,2h, at P=3 GPa) - cool to 1100C within 1h" Impurity effects on the Fe-based superconductor A(Fe1-yCoy)2As2 (A = Ba and Sr) 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Solid State Commun., 152(2012)671"
153500 SSC1520671 "Sr(Fe,Zn,Co)2As2" Sr1Fe1.68Zn0.12Co0.2As2 Sr 1 Fe 1.68 Zn 0.12 Co 0.2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 6.22 6.22 "HP method. mixture in BN - Ta capsule - preheat(1900C,1h, in N2) -heat(1300C,2h, at P=3 GPa) - cool to 1100C within 1h" Impurity effects on the Fe-based superconductor A(Fe1-yCoy)2As2 (A = Ba and Sr) 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Solid State Commun., 152(2012)671"
153501 JPS081033701 "P-content by EDX. T = 84.7 K, T = 75.6 K." "BaFe2(As,P)2" Ba1Fe2As1.6P0.4 Ba 1 Fe 2 As 1.6 P 0.4 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 8.6 8.6 "See Phys.Rev.B, 81(2010)184519" Microscopic Evidence of Direct Coupling between Magnetic and Superconducting Order Parameters in BaFe2(As1-xPx)2 2012 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "J.Phys.Soc.Jpn, 81(2012)033701"
153502 JPS081033701 "P-content by EDX. T = 61.6 K, T = 53.4 K. not bulk SC. At P=2 GPa, sample shows bulk SC (Tc=13 K) from Meissner signal." "BaFe2(As,P)2" Ba1Fe2As1.5P0.5 Ba 1 Fe 2 As 1.5 P 0.5 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 29.9 29.9 "See Phys.Rev.B, 81(2010)184519" Microscopic Evidence of Direct Coupling between Magnetic and Superconducting Order Parameters in BaFe2(As1-xPx)2 2012 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "J.Phys.Soc.Jpn, 81(2012)033701"
153503 SSC1520849 "Hc, Hc2 defined as SP using entropy conservation. (dC/gamma*Tc) = 1.89. e-ph coupling = 0.66. residual [gamma] = 0.4 mJ/mol.K2." CuRh2S4 Cu1Rh2S4 Cu 1 Rh 2 S 4 1 2012 AB2C4 spinel K 4.72 4.72 T SP-heat 3.3 MHC153503 MSP153503 mJ/mol.K2 26.9 SP-heat 258 SP-heat solid state reaction in evacuated quartz tube Heat capacity of the spinel superconductors CuRh2S4 and CuRh2Se4 2012 "National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Solid State Commun., 152(2012)849"
153504 SSC1520849 "Hc, Hc2 defined as SP using entropy conservation. (dC/gamma*Tc) = 1.68. e-ph coupling = 0.63. residual [gamma] = 0.2 mJ/mol.K2." CuRh2Se4 Cu1Rh2Se4 Cu 1 Rh 2 Se 4 1 2012 AB2C4 spinel K 3.38 3.38 T SP-heat 0.58 MHC153504 MSP153504 mJ/mol.K2 21.4 SP-heat 218 SP-heat solid state reaction in evacuated quartz tube Heat capacity of the spinel superconductors CuRh2S4 and CuRh2Se4 2012 "National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Solid State Commun., 152(2012)849"
153505 JPS081044704 InN[12[-]10] // substrate Al2O3[101[-]0]. Tc defined as 0.5 Rn. InN In1N1 In 1 N 1 5 2012 AB 7 hexagonal. c-axis /n sapphire(0001) K 0.25 0.47 1 0.47 ga-source MBE with GaN & AlN buffer layers. Superconducting Properties of InN with Low Carrier Density near the Mott Transition 2012 "Department of Electronics, Tokai University, Hiratsuka, Kanagawa 259-1292, Japan" "J.Phys.Soc.Jpn, 81(2012)044704"
153506 JPS081044704 InN[12[-]10] // substrate Al2O3[101[-]0]. Tc defined as 0.5 Rn. InN In1N1 In 1 N 1 5 2012 AB 7 hexagonal. c-axis /n sapphire(0001) K 1.8 2.4 3.5 2.4 ga-source MBE with GaN & AlN buffer layers. Superconducting Properties of InN with Low Carrier Density near the Mott Transition 2012 "Department of Electronics, Tokai University, Hiratsuka, Kanagawa 259-1292, Japan" "J.Phys.Soc.Jpn, 81(2012)044704"
153507 JPS081044704 InN[12[-]10] // substrate Al2O3[101[-]0]. Tc defined as 0.5 Rn. BCS-type SC. Hc2 measured by ac-SUS. InN In1N1 In 1 N 1 5 2012 AB 7 hexagonal. c-axis /n sapphire(0001) K 1.3 1.3 A from Hc2 3100 meV 0.43 rf-MBE Superconducting Properties of InN with Low Carrier Density near the Mott Transition 2012 "Department of Electronics, Tokai University, Hiratsuka, Kanagawa 259-1292, Japan" "J.Phys.Soc.Jpn, 81(2012)044704"
153508 JPS081044704 InN[12[-]10] // substrate Al2O3[101[-]0]. Tc defined as 0.5 Rn. InN In1N1 In 1 N 1 5 2012 AB 7 hexagonal. c-axis /n sapphire(0001) K 2 2.7 3 2.7 metalorganic vapor epitaxy with GaN buffer layer Superconducting Properties of InN with Low Carrier Density near the Mott Transition 2012 "Department of Electronics, Tokai University, Hiratsuka, Kanagawa 259-1292, Japan" "J.Phys.Soc.Jpn, 81(2012)044704"
153509 SSC1521135 as-grown sample. not bulk SC. bulk SC for x >= 0.4 FeTe1-xSex Fe1Te0.8Se0.2 Fe 1 Te 0.8 Se 0.2 3 2012 AB Fe-11 K 10.5 10.5 MTC153509 "Fe(3N),Te(5N),Se(5N)" "self-flux method. mixture - evacuated double quartz tube - heat(1100C,20h) - cool to 650C (4-5 K/h) - FC to RT" Phase diagram and oxygen annealing effect of FeTe1-xSex iron-based superconductor 2012 "National Institute for Materials Science, 1-2-1Sengen, Tsukuba 305-0047, Japan" "Solid State Commun., 152(2012)1135"
153510 SSC1521135 O2-anneald sample. typical O-content: Fe1+xTe0.9Se0.1O0.07. bulk SC for 0.1 =< x FeTe1-xSex Fe1Te0.6Se0.4 Fe 1 Te 0.6 Se 0.4 3 2012 AB Fe-11 K 14.3 14.3 MTC153510 "Fe(3N),Te(5N),Se(5N)" "self-flux method. mixture - evacuated double quartz tube - heat(1100C,20h) - cool to 650C (4-5 K/h) - FC to RT" Phase diagram and oxygen annealing effect of FeTe1-xSex iron-based superconductor 2012 "National Institute for Materials Science, 1-2-1Sengen, Tsukuba 305-0047, Japan" "Solid State Commun., 152(2012)1135"
153511 SSC1521076 "Hc2 defined as STM tunneling spectroscopy, down to 0.1 K. Hc2 feature shows three phases at T= 2, 4, 6 K. H//a-axis." ErNi2B2C Er1Ni2B2C Er 1 Ni 2 B 2 C 3 2012 ABC2D2 LuNi2B2C K 11 11 T STM MHC153511 sample was prepared by cutting a suitable needle out of single crystalline platelets of several mm thickness along tha basal plane. Magnetic and superconducting phase diagrams in ErNi2B2C 2012 "Laboratorio de Bajas Temperaturas, Departamento de Fisica de la Materia Condensada, Instituto de Ciencia de Materiales Nicolas Cabrera Facultad de Ciencias, Universidad Autonoma de Madrid, 28049 Madrid, Spain" "Solid State Commun., 152(2012)1076"
153512 SSC1521678 "Hc1=85 Oe (4K), = 35 Oe (6K)." "Mg1.2(C,B)1.6Ni3" Mg1.2C1.6Ni3 Mg 1.2 C 1.6 Ni 3 2012 ABC3 CaTiO3 Pm3m A 3.8106 K 7.3 7.3 Oe M-H curve 150 2 T M-H curve 9.17 2 "Mg(2N),Ni(4N),amor-C,B(3N)" "mixture - pellet - iron alloy capsule - heat(600C,2h, at 10C/min in Ar-flow) - heat(950C,3h) - cool to RT" Effect of Boron substitution on the superconductivity of non-oxide perovskite MgCNi3 2012 "Quantum Phenomena and Application Division, National Physical Laboratory (CSIR), Dr. K.S. Krishnan Road, New Delhi 110012, India" "Solid State Commun., 152(2012)1678"
153513 SSC1521678 "Hc1=95 Oe (4K), = 50 Oe (6K)." "Mg1.2(C,B)1.6Ni3" Mg1.2C1.52B0.08Ni3 Mg 1.2 C 1.52 B 0.08 Ni 3 2012 ABC3 CaTiO3 Pm3m A 3.8164 K 6.9 6.9 Oe M-H curve 160 2 T M-H curve 5.844 2 "Mg(2N),Ni(4N),amor-C,B(3N)" "mixture - pellet - iron alloy capsule - heat(600C,2h, at 10C/min in Ar-flow) - heat(950C,3h) - cool to RT" Effect of Boron substitution on the superconductivity of non-oxide perovskite MgCNi3 2012 "Quantum Phenomena and Application Division, National Physical Laboratory (CSIR), Dr. K.S. Krishnan Road, New Delhi 110012, India" "Solid State Commun., 152(2012)1678"
153514 SSC1521678 "Hc1=160 Oe (4K), = 70 Oe (6K)." "Mg1.2(C,B)1.6Ni3" Mg1.2C1.44B0.16Ni3 Mg 1.2 C 1.44 B 0.16 Ni 3 2012 ABC3 CaTiO3 Pm3m A 3.8173 K 6.6 6.6 Oe M-H curve 200 2 T M-H curve 4.25 2 "Mg(2N),Ni(4N),amor-C,B(3N)" "mixture - pellet - iron alloy capsule - heat(600C,2h, at 10C/min in Ar-flow) - heat(950C,3h) - cool to RT" Effect of Boron substitution on the superconductivity of non-oxide perovskite MgCNi3 2012 "Quantum Phenomena and Application Division, National Physical Laboratory (CSIR), Dr. K.S. Krishnan Road, New Delhi 110012, India" "Solid State Commun., 152(2012)1678"
153515 PRB085014510 fresh sample (d=0 in Na1-dFeAs). TCFIG shows Na-deintercalated effect by air exposure NaFeAs Na1Fe1As1 Na 1 Fe 1 As 1 2012 ABC PbFCl K 12 14 13 MTC153515 "mixture(Na,Fe,As) - seal in Ta tube - heat(950C) - cool to 900C with 5C/h - stored in sealed container(inert gas)" Evolution of normal and superconducting properties of single crystals of Na1-zFeAs upon interaction with environment 2012 "Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 85(2012)014510"
153516 PRB085014510 stored in Apiezon greese for 8.5h. NaFeAs Na1Fe1As1 Na 1 Fe 1 As 1 2012 ABC PbFCl K 26 26 "mixture(Na,Fe,As) - seal in Ta tube - heat(950C) - cool to 900C with 5C/h - stored in sealed container(inert gas)" Evolution of normal and superconducting properties of single crystals of Na1-zFeAs upon interaction with environment 2012 "Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 85(2012)014510"
153517 PRB085024503 "Ba-content by EDS. Tn nearly equal to T measured by SUS and RES. Tc defined as sharp drop of R, but not to zero (maybe filamentary SC)" "Ba(Fe,Mo)2As2" Ba1Fe1.988Mo0.012As2 Ba 1 Fe 1.988 Mo 0.012 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm A 3.9617 13.0195 Fe-122 K 16.3 16.3 MTC153517 "mixture - heat(1200C,20h) - cool (2C/h) - decanting of flux at 1100C or 1120C" Effect of molybdenum 4d hole substitution in BaFe2As2 2012 "Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 85(2012)024503"
153518 PRB085024503 "Ba-content by EDS. Tn nearly equal to T measured by SUS and RES. Tc defined as sharp drop of R, but not to zero (maybe filamentary SC)" "Ba(Fe,Mo)2As2" Ba1Fe1.982Mo0.018As2 Ba 1 Fe 1.982 Mo 0.018 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm A 3.9613 13.0208 Fe-122 K 16.7 16.7 MTC153517 "mixture - heat(1200C,20h) - cool (2C/h) - decanting of flux at 1100C or 1120C" Effect of molybdenum 4d hole substitution in BaFe2As2 2012 "Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 85(2012)024503"
153519 PRB085024503 "Ba-content by EDS. Tn nearly equal to T measured by SUS and RES. Tc defined as sharp drop of R, but not to zero (maybe filamentary SC)" "Ba(Fe,Mo)2As2" Ba1Fe1.974Mo0.026As2 Ba 1 Fe 1.974 Mo 0.026 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm A 3.9607 13.0298 Fe-122 K 12.5 12.5 "mixture - heat(1200C,20h) - cool (2C/h) - decanting of flux at 1100C or 1120C" Effect of molybdenum 4d hole substitution in BaFe2As2 2012 "Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 85(2012)024503"
153520 PRB085024503 "Ba-content by EDS. Tn nearly equal to T measured by SUS and RES. Tc defined as sharp drop of R, but not to zero (maybe filamentary SC)" "Ba(Fe,Mo)2As2" Ba1Fe1.948Mo0.052As2 Ba 1 Fe 1.948 Mo 0.052 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm A 3.9612 13.0484 Fe-122 K 7.4 7.4 "mixture - heat(1200C,20h) - cool (2C/h) - decanting of flux at 1100C or 1120C" Effect of molybdenum 4d hole substitution in BaFe2As2 2012 "Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 85(2012)024503"
153521 PRB085024503 "Ba-content by EDS. Tn nearly equal to T measured by SUS and RES. Tc defined as sharp drop of R, but not to zero (maybe filamentary SC)" "Ba(Fe,Mo)2As2" Ba1Fe1.946Mo0.056As2 Ba 1 Fe 1.946 Mo 0.056 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm A 3.9605 13.0517 Fe-122 K 4.9 4.9 "mixture - heat(1200C,20h) - cool (2C/h) - decanting of flux at 1100C or 1120C" Effect of molybdenum 4d hole substitution in BaFe2As2 2012 "Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 85(2012)024503"
153522 PRB085024503 "Ba-content by EDS. Tn nearly equal to T measured by SUS and RES. Tc defined as sharp drop of R, but not to zero (maybe filamentary SC)" "Ba(Fe,Mo)2As2" Ba1Fe1.91Mo0.09As2 Ba 1 Fe 1.91 Mo 0.09 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm A 3.9602 13.074 Fe-122 K 0 "mixture - heat(1200C,20h) - cool (2C/h) - decanting of flux at 1100C or 1120C" Effect of molybdenum 4d hole substitution in BaFe2As2 2012 "Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 85(2012)024503"
153523 PRB085024503 "Ba-content by EDS. Tn nearly equal to T measured by SUS and RES. Tc defined as sharp drop of R, but not to zero (maybe filamentary SC)" "Ba(Fe,Mo)2As2" Ba1Fe1.902Mo0.098As2 Ba 1 Fe 1.902 Mo 0.098 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm A 3.9598 13.0948 Fe-122 K 0 "mixture - heat(1200C,20h) - cool (2C/h) - decanting of flux at 1100C or 1120C" Effect of molybdenum 4d hole substitution in BaFe2As2 2012 "Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 85(2012)024503"
153524 PRB085024503 "Ba-content by EDS. Tn nearly equal to T measured by SUS and RES. Tc defined as sharp drop of R, but not to zero (maybe filamentary SC)" "Ba(Fe,Mo)2As2" Ba1Fe1.868Mo0.132As2 Ba 1 Fe 1.868 Mo 0.132 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm A 3.9612 13.12 Fe-122 K 0 "mixture - heat(1200C,20h) - cool (2C/h) - decanting of flux at 1100C or 1120C" Effect of molybdenum 4d hole substitution in BaFe2As2 2012 "Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 85(2012)024503"
153525 PRB085020504 "In-plane London [penet] measured by TDR, but values not shown . T = 90 K. At low temp, d[penet] = A*T^n." Ca10(Pt3As8)[(Fe2-xPtx)As2]5 Ca10Pt3.04Fe9.96As18 Ca 10 Pt 3.04 Fe 9.96 As 18 3 2012 Ca-10-3-8 Ca-10-3-8 K 0 "See Angew.Chem.Int.Ed., 50(2011)9195" Doping-dependent superconducting gap anisotropy in the two-dimensional pnictide Ca10(Pt3As8)[(Fe1-xPtx)2As2]5 2012 "The Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 85(2012)020504"
153526 PRB085020504 "In-plane London [penet] measured by TDR, but values not shown . T = 50 K. At low temp, d[penet] = A*T^n." Ca10(Pt3As8)[(Fe2-xPtx)As2]5 Ca10Pt3.18Fe9.82As18 Ca 10 Pt 3.18 Fe 9.82 As 18 3 2012 Ca-10-3-8 Ca-10-3-8 K 0 "See Angew.Chem.Int.Ed., 50(2011)9195" Doping-dependent superconducting gap anisotropy in the two-dimensional pnictide Ca10(Pt3As8)[(Fe1-xPtx)2As2]5 2012 "The Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 85(2012)020504"
153527 PRB085020504 "In-plane London [penet] measured by TDR, but values not shown . no structural transition. At low temp, d[penet] = A*T^n." Ca10(Pt3As8)[(Fe2-xPtx)As2]5 Ca10Pt3.28Fe9.72As18 Ca 10 Pt 3.28 Fe 9.72 As 18 3 2012 Ca-10-3-8 Ca-10-3-8 K 6 6 "See Angew.Chem.Int.Ed., 50(2011)9195" Doping-dependent superconducting gap anisotropy in the two-dimensional pnictide Ca10(Pt3As8)[(Fe1-xPtx)2As2]5 2012 "The Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 85(2012)020504"
153528 PRB085020504 "In-plane London [penet] measured by TDR, but values not shown . no structural transition. At low temp, d[penet] = A*T^n." Ca10(Pt3As8)[(Fe2-xPtx)As2]5 Ca10Pt3.41Fe9.59As18 Ca 10 Pt 3.41 Fe 9.59 As 18 3 2012 Ca-10-3-8 Ca-10-3-8 K 7.38 7.38 "See Angew.Chem.Int.Ed., 50(2011)9195" Doping-dependent superconducting gap anisotropy in the two-dimensional pnictide Ca10(Pt3As8)[(Fe1-xPtx)2As2]5 2012 "The Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 85(2012)020504"
153529 PRB085020504 "In-plane London [penet] measured by TDR, but values not shown . no structural transition. At low temp, d[penet] = A*T^n." Ca10(Pt3As8)[(Fe2-xPtx)As2]5 Ca10Pt3.42Fe9.58As18 Ca 10 Pt 3.42 Fe 9.58 As 18 3 2012 Ca-10-3-8 Ca-10-3-8 K 8.78 8.78 "See Angew.Chem.Int.Ed., 50(2011)9195" Doping-dependent superconducting gap anisotropy in the two-dimensional pnictide Ca10(Pt3As8)[(Fe1-xPtx)2As2]5 2012 "The Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 85(2012)020504"
153530 PRB085020504 "In-plane London [penet] measured by TDR, but values not shown . no structural transition. At low temp, d[penet] = A*T^n." Ca10(Pt3As8)[(Fe2-xPtx)As2]5 Ca10Pt3.97Fe9.03As18 Ca 10 Pt 3.97 Fe 9.03 As 18 3 2012 Ca-10-3-8 Ca-10-3-8 K 10.5 10.5 "See Angew.Chem.Int.Ed., 50(2011)9195" Doping-dependent superconducting gap anisotropy in the two-dimensional pnictide Ca10(Pt3As8)[(Fe1-xPtx)2As2]5 2012 "The Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 85(2012)020504"
153531 PRB085024511 T = 189K EuFe2As2 Eu1Fe2As2 Eu 1 Fe 2 As 2 3 2012 19.4 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 0 uV/K 6.87 MTP153531 "FeAs,KAs,Fe,Eu" "self flux method. mixture - sealed in Ta crucible (Ar) - heat to 1100C (50C/h) - hold (1100C,4h) - cool to 900C (3C/h) - quick cool to RT" Signatures of quantum criticality in hole-doped and chemically pressurized EuFe2As2 single crystals 2012 "Physikalisches Institut, Georg-August-Universitat Gottingen, D-37077 Gottingen, Germany" "Phys.Rev.B, 85(2012)024511"
153532 PRB085024511 T = 178 K Eu1-xKxFe2As2 Eu0.887K0.113Fe2As2 Eu 0.887 K 0.113 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 0 MPH153532 "FeAs,KAs,Fe,Eu" "self flux method. mixture - sealed in Ta crucible (Ar) - heat to 1100C (50C/h) - hold (1100C,4h) - cool to 900C (3C/h) - quick cool to RT" Signatures of quantum criticality in hole-doped and chemically pressurized EuFe2As2 single crystals 2012 "Physikalisches Institut, Georg-August-Universitat Gottingen, D-37077 Gottingen, Germany" "Phys.Rev.B, 85(2012)024511"
153533 PRB085024511 T = 162 K Eu1-xKxFe2As2 Eu0.784K0.216Fe2As2 Eu 0.784 K 0.216 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 0 "FeAs,KAs,Fe,Eu" "self flux method. mixture - sealed in Ta crucible (Ar) - heat to 1100C (50C/h) - hold (1100C,4h) - cool to 900C (3C/h) - quick cool to RT" Signatures of quantum criticality in hole-doped and chemically pressurized EuFe2As2 single crystals 2012 "Physikalisches Institut, Georg-August-Universitat Gottingen, D-37077 Gottingen, Germany" "Phys.Rev.B, 85(2012)024511"
153534 PRB085024511 Eu1-xKxFe2As2 Eu0.64K0.36Fe2As2 Eu 0.64 K 0.36 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 27.6 27.6 "FeAs,KAs,Fe,Eu" "self flux method. mixture - sealed in Ta crucible (Ar) - heat to 1100C (50C/h) - hold (1100C,4h) - cool to 900C (3C/h) - quick cool to RT" Signatures of quantum criticality in hole-doped and chemically pressurized EuFe2As2 single crystals 2012 "Physikalisches Institut, Georg-August-Universitat Gottingen, D-37077 Gottingen, Germany" "Phys.Rev.B, 85(2012)024511"
153535 PRB085024511 Eu1-xKxFe2As2 Eu0.56K0.44Fe2As2 Eu 0.56 K 0.44 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 28.7 28.7 uV/K 22.3 MTP153535 "FeAs,KAs,Fe,Eu" "self flux method. mixture - sealed in Ta crucible (Ar) - heat to 1100C (50C/h) - hold (1100C,4h) - cool to 900C (3C/h) - quick cool to RT" Signatures of quantum criticality in hole-doped and chemically pressurized EuFe2As2 single crystals 2012 "Physikalisches Institut, Georg-August-Universitat Gottingen, D-37077 Gottingen, Germany" "Phys.Rev.B, 85(2012)024511"
153536 PRB085024511 Eu1-xKxFe2As2 Eu0.51K0.49Fe2As2 Eu 0.51 K 0.49 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 32.5 32.5 MPH153532 "FeAs,KAs,Fe,Eu" "self flux method. mixture - sealed in Ta crucible (Ar) - heat to 1100C (50C/h) - hold (1100C,4h) - cool to 900C (3C/h) - quick cool to RT" Signatures of quantum criticality in hole-doped and chemically pressurized EuFe2As2 single crystals 2012 "Physikalisches Institut, Georg-August-Universitat Gottingen, D-37077 Gottingen, Germany" "Phys.Rev.B, 85(2012)024511"
153537 PRB085024511 Eu1-xKxFe2As2 Eu0.48K0.52Fe2As2 Eu 0.48 K 0.52 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 30 30 "FeAs,KAs,Fe,Eu" "self flux method. mixture - sealed in Ta crucible (Ar) - heat to 1100C (50C/h) - hold (1100C,4h) - cool to 900C (3C/h) - quick cool to RT" Signatures of quantum criticality in hole-doped and chemically pressurized EuFe2As2 single crystals 2012 "Physikalisches Institut, Georg-August-Universitat Gottingen, D-37077 Gottingen, Germany" "Phys.Rev.B, 85(2012)024511"
153538 PRB085024511 T = 150 K. EuFe(As1-xPx)2 Eu1Fe2As1.89P0.11 Eu 1 Fe 2 As 1.89 P 0.11 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 0 uV/K 3.94 MTP153538 Signatures of quantum criticality in hole-doped and chemically pressurized EuFe2As2 single crystals 2012 "Physikalisches Institut, Georg-August-Universitat Gottingen, D-37077 Gottingen, Germany" "Phys.Rev.B, 85(2012)024511"
153539 PRB085024511 SC for 0.16 < x < 0.22 in EuFe2(As1-xPx)2 EuFe(As1-xPx)2 Eu1Fe2As1.58P0.42 Eu 1 Fe 2 As 1.58 P 0.42 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 29 29 uV/K -0.24 MTP153539 Signatures of quantum criticality in hole-doped and chemically pressurized EuFe2As2 single crystals 2012 "Physikalisches Institut, Georg-August-Universitat Gottingen, D-37077 Gottingen, Germany" "Phys.Rev.B, 85(2012)024511"
153540 PRB085024511 EuFe(As1-xPx)2 Eu1Fe2As1.48P0.52 Eu 1 Fe 2 As 1.48 P 0.52 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 0 uV/K -2.65 MTP153540 Signatures of quantum criticality in hole-doped and chemically pressurized EuFe2As2 single crystals 2012 "Physikalisches Institut, Georg-August-Universitat Gottingen, D-37077 Gottingen, Germany" "Phys.Rev.B, 85(2012)024511"
153541 PRB085024511 EuFe(As1-xPx)2 Eu1Fe2As1.28P0.72 Eu 1 Fe 2 As 1.28 P 0.72 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 0 uV/K -7.1 MTP153541 Signatures of quantum criticality in hole-doped and chemically pressurized EuFe2As2 single crystals 2012 "Physikalisches Institut, Georg-August-Universitat Gottingen, D-37077 Gottingen, Germany" "Phys.Rev.B, 85(2012)024511"
153542 PRB085024525 "La-content by WDS. Tc, Tn measured by Res and SUS. Xc(AFM disappears) = 0.14." Ca1-xLaxFe2As2 Ca0.895La0.105Fe2As2 Ca 0.895 La 0.105 Fe 2 As 2 3 2012 97 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 0 self-flux method Structural collapse and superconductivity in rare-earth-doped CaFe2As2 2012 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 85(2012)024525"
153543 PRB085024525 "La-content by WDS. Tc, Tn measured by Res and SUS. Xc(AFM disappears) = 0.14." Ca1-xLaxFe2As2 Ca0.835La0.165Fe2As2 Ca 0.835 La 0.165 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 41.2 41.2 MPH153543 self-flux method Structural collapse and superconductivity in rare-earth-doped CaFe2As2 2012 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 85(2012)024525"
153544 PRB085024525 "La-content by WDS. Tc, Tn measured by Res and SUS. Xc(AFM disappears) = 0.14." Ca1-xLaxFe2As2 Ca0.719La0.281Fe2As2 Ca 0.719 La 0.281 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 31.7 31.7 self-flux method Structural collapse and superconductivity in rare-earth-doped CaFe2As2 2012 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 85(2012)024525"
153545 PRB085024525 "Ce-content by WDS. Tc, Tn measured by Res and SUS. Xc(AFM disappears) = 0.14." Ca1-xCexFe2As2 Ca0.88Ce0.12Fe2As2 Ca 0.88 Ce 0.12 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 33.2 33.2 MPH153545 self-flux method Structural collapse and superconductivity in rare-earth-doped CaFe2As2 2012 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 85(2012)024525"
153546 PRB085024525 "Ce-content by WDS. Tc, Tn measured by Res and SUS. Xc(AFM disappears) = 0.14." Ca1-xCexFe2As2 Ca0.78Ce0.22Fe2As2 Ca 0.78 Ce 0.22 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 36.2 36.2 self-flux method Structural collapse and superconductivity in rare-earth-doped CaFe2As2 2012 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 85(2012)024525"
153547 PRB085024525 Ca1-xPrxFe2As2 Ca0.956Pr0.044Fe2As2 Ca 0.956 Pr 0.044 Fe 2 As 2 3 2012 133 AB2C2 ThCr2Si2 I4/mmm A 3.9047 11.6557 "Fe-122, XRD at 250 K." K 0 MPH153547 self-flux method Structural collapse and superconductivity in rare-earth-doped CaFe2As2 2012 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 85(2012)024525"
153548 PRB085024525 Ca1-xPrxFe2As2 Ca0.902Pr0.098Fe2As2 Ca 0.902 Pr 0.098 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 40 40 self-flux method Structural collapse and superconductivity in rare-earth-doped CaFe2As2 2012 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 85(2012)024525"
153549 PRB085024525 Ca1-xPrxFe2As2 Ca0.858Pr0.142Fe2As2 Ca 0.858 Pr 0.142 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 45.3 45.3 self-flux method Structural collapse and superconductivity in rare-earth-doped CaFe2As2 2012 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 85(2012)024525"
153550 PRB085024525 Ca1-xNdxFe2As2 Ca0.923Nd0.077Fe2As2 Ca 0.923 Nd 0.077 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 41.8 41.8 MPH153550 self-flux method Structural collapse and superconductivity in rare-earth-doped CaFe2As2 2012 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 85(2012)024525"
153551 PRB085024525 Ca1-xNdxFe2As2 Ca0.906Nd0.094Fe2As2 Ca 0.906 Nd 0.094 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm A 3.9022 11.5908 "Fe-122, XRD at 250 K." K 19.3 19.3 self-flux method Structural collapse and superconductivity in rare-earth-doped CaFe2As2 2012 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 85(2012)024525"
153552 PRB085024526 RRR = 30. Thermopower measured for H//b upto 16 T. UCoGe U1Co1Ge1 U 1 Co 1 Ge 1 3 2012 2.8 ABC TiNiSi K 0.6 0.6 uV/K MTP153552 Czhochralski method Thermoelectricity of the ferromagnetic superconductor UCoGe 2012 "Laboratoire National des Champs Magnetiques Intenses, UPR 3228, CNRS-INSA-UJF-UPS, F-31400 Toulouse, France" "Phys.Rev.B, 85(2012)024526"
153553 PRB085024536 in-plane R and Hall effect measured. BaFe2-xRuxAs2 Ba1Fe1.55Ru0.45As2 Ba 1 Fe 1.55 Ru 0.45 As 2 3 2012 37.8 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 8.18 8.18 MPH153553 "flux method using FeAs, RuAs flux." Evolution of transport properties of BaFe2-xRuxAs2 in a wide range of isovalent Ru substitution 2012 "Department of Physics, Pohang University of Science and Technology, Pohang 790-784, Korea" "Phys.Rev.B, 85(2012)024536"
153554 PRB085024536 in-plane R and Hall effect measured. BaFe2-xRuxAs2 Ba1Fe1.32Ru0.68As2 Ba 1 Fe 1.32 Ru 0.68 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 14.5 14.5 "flux method using FeAs, RuAs flux." Evolution of transport properties of BaFe2-xRuxAs2 in a wide range of isovalent Ru substitution 2012 "Department of Physics, Pohang University of Science and Technology, Pohang 790-784, Korea" "Phys.Rev.B, 85(2012)024536"
153555 PRB085024536 in-plane R and Hall effect measured. BaFe2-xRuxAs2 Ba1Fe1.2Ru0.8As2 Ba 1 Fe 1.2 Ru 0.8 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 5.02 5.02 "flux method using FeAs, RuAs flux." Evolution of transport properties of BaFe2-xRuxAs2 in a wide range of isovalent Ru substitution 2012 "Department of Physics, Pohang University of Science and Technology, Pohang 790-784, Korea" "Phys.Rev.B, 85(2012)024536"
153556 PRB085024536 in-plane R and Hall effect measured. BaFe2-xRuxAs2 Ba1Fe1.68Ru0.32As2 Ba 1 Fe 1.68 Ru 0.32 As 2 3 2012 74.2 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 0 uOhm.cm 26.5 120 "flux method using FeAs, RuAs flux." Evolution of transport properties of BaFe2-xRuxAs2 in a wide range of isovalent Ru substitution 2012 "Department of Physics, Pohang University of Science and Technology, Pohang 790-784, Korea" "Phys.Rev.B, 85(2012)024536"
153557 PRB085024538 (dC/gamma*Tc) = 1.20. SrNi2Ge2 Sr1Ni2Ge2 Sr 1 Ni 2 Ge 2 1 2012 AB2C2 ThCr2Si2 I4/mmm A 4.181 10.251 Fe-122 K 0.87 0.92 0.895 MSP153557 mJ/mol.K2 15.5 SP-heat 175 SP-heat "two step arc melting . 1st, (T,T')Ge were made by arc melting. 2nd, melted with Sr by arc melting" "Superconductivity and structural variation of the electron-correlated layer systems Sr(Pd1-xTx)2Ge2 (T = Co, Ni, Rh; 0=< x =< 1)" 2012 "Department of Physics, National Tsing Hua University, Hsinchu 30013, Taiwan, Republic of China" "Phys.Rev.B, 85(2012)024538"
153558 PRB085024538 "grain size (1-10 um), aligned along c-axis. H//c" SrPd2Ge2 Sr1Pd2Ge2 Sr 1 Pd 2 Ge 2 1 2012 AB2C2 ThCr2Si2 I4/mmm A 4.42 10.104 Fe-122 K 3.12 3.12 Oe M-H 44 2 T M(T) 0.1 2 "two step arc melting . 1st, (T,T')Ge were made by arc melting. 2nd, melted with Sr by arc melting" "Superconductivity and structural variation of the electron-correlated layer systems Sr(Pd1-xTx)2Ge2 (T = Co, Ni, Rh; 0=< x =< 1)" 2012 "Department of Physics, National Tsing Hua University, Hsinchu 30013, Taiwan, Republic of China" "Phys.Rev.B, 85(2012)024538"
153559 PRB085024538 SrCo2Ge2 Sr1Co2Ge2 Sr 1 Co 2 Ge 2 1 2012 AB2C2 ThCr2Si2 I4/mmm A 4.071 10.683 Fe-122 K 2 "two step arc melting . 1st, (T,T')Ge were made by arc melting. 2nd, melted with Sr by arc melting" "Superconductivity and structural variation of the electron-correlated layer systems Sr(Pd1-xTx)2Ge2 (T = Co, Ni, Rh; 0=< x =< 1)" 2012 "Department of Physics, National Tsing Hua University, Hsinchu 30013, Taiwan, Republic of China" "Phys.Rev.B, 85(2012)024538"
153560 PRB085024538 SrRh2Ge2 Sr1Rh2Ge2 Sr 1 Rh 2 Ge 2 1 2012 AB2C2 ThCr2Si2 I4/mmm A 4.193 10.724 Fe-122 K 2 "two step arc melting . 1st, (T,T')Ge were made by arc melting. 2nd, melted with Sr by arc melting" "Superconductivity and structural variation of the electron-correlated layer systems Sr(Pd1-xTx)2Ge2 (T = Co, Ni, Rh; 0=< x =< 1)" 2012 "Department of Physics, National Tsing Hua University, Hsinchu 30013, Taiwan, Republic of China" "Phys.Rev.B, 85(2012)024538"
153561 PRB085024538 TCFIG shows Tc(x) for Sr(Pd1-xNix)2Ge2 Sr(Pd1-xNix)2Ge2 Sr1Pd1.8Ni0.2Ge2 Sr 1 Pd 1.8 Ni 0.2 Ge 2 1 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 3.1 3.1 MTC153561 "two step arc melting . 1st, (T,T')Ge were made by arc melting. 2nd, melted with Sr by arc melting" "Superconductivity and structural variation of the electron-correlated layer systems Sr(Pd1-xTx)2Ge2 (T = Co, Ni, Rh; 0=< x =< 1)" 2012 "Department of Physics, National Tsing Hua University, Hsinchu 30013, Taiwan, Republic of China" "Phys.Rev.B, 85(2012)024538"
153562 PRB085024538 TCFIG shows Tc(x) for Sr(Pd1-xRhx)2Ge2 Sr(Pd1-xRhx)2Ge2 Sr1Pd1.8Rh0.2Ge2 Sr 1 Pd 1.8 Rh 0.2 Ge 2 1 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 2.92 2.92 MTC153561 "two step arc melting . 1st, (T,T')Ge were made by arc melting. 2nd, melted with Sr by arc melting" "Superconductivity and structural variation of the electron-correlated layer systems Sr(Pd1-xTx)2Ge2 (T = Co, Ni, Rh; 0=< x =< 1)" 2012 "Department of Physics, National Tsing Hua University, Hsinchu 30013, Taiwan, Republic of China" "Phys.Rev.B, 85(2012)024538"
153563 PRB085024538 TCFIG shows Tc(x) for Sr(Pd1-xCox)2Ge2 Sr(Pd1-xCox)2Ge2 Sr1Pd1.94Co0.06Ge2 Sr 1 Pd 1.94 Co 0.06 Ge 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 2.58 2.58 MTC153561 "two step arc melting . 1st, (T,T')Ge were made by arc melting. 2nd, melted with Sr by arc melting" "Superconductivity and structural variation of the electron-correlated layer systems Sr(Pd1-xTx)2Ge2 (T = Co, Ni, Rh; 0=< x =< 1)" 2012 "Department of Physics, National Tsing Hua University, Hsinchu 30013, Taiwan, Republic of China" "Phys.Rev.B, 85(2012)024538"
153564 PRB085054507 atomic compositiond measured by ICP-AES. SUS for H//c K0.8Fe1.7S2 K0.8Fe1.7S2 K 0.8 Fe 1.7 S 2 3 2012 260 AB2C2 ThCr2Si2 I4/mmm A 3.7451 13.5782 Fe-122 K 4 "Fe2-xS2 and FeSSe firstly prepared, then mixed with K." "Effect of doping on electrical, magnetic, and superconducting properties of KxFe2-yS2" 2012 "Research & Development Center for Functional Crystals, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 85(2012)054507"
153565 PRB085054507 atomic compositiond measured by ICP-AES. Hc2 measured for H//c. K0.8Fe1.7SSe K0.8Fe1.7S1Se1 K 0.8 Fe 1.7 S 1 Se 1 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 24.6 26.3 24.5 24.5 80 T "RES, WHH approx." 13.5 T/K resistivity 0.74 "Fe2-xS2 and FeSSe firstly prepared, then mixed with K." "Effect of doping on electrical, magnetic, and superconducting properties of KxFe2-yS2" 2012 "Research & Development Center for Functional Crystals, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 85(2012)054507"
153566 PRB085054507 atomic compositiond measured by ICP-AES. magnetic prop. for H//c KFe1.5S2 K1Fe1.5S2 K 1 Fe 1.5 S 2 3 2012 emu/g.Oe 0.0000261 emu.K/g.Oe 0.000256 -112 43 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 4 "Fe2-xS2 and FeSSe firstly prepared, then mixed with K." "Effect of doping on electrical, magnetic, and superconducting properties of KxFe2-yS2" 2012 "Research & Development Center for Functional Crystals, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 85(2012)054507"
153567 PRB085054517 lattice term in SP (beta=0.37 mJ/mol.K4). Debye-T(RES) = 148 K. LaNi2Ge2 La1Ni2Ge2 La 1 Ni 2 Ge 2 1 2012 AB2C2 ThCr2Si2 I4/mmm 4.1859 9.9042 Fe-122 K 1.8 mJ/mol.K2 12.4 SP-heat 297 SP-heat uOhm.cm 6.8 85 "stoichiometric (La,Ni,Ge) were melted in arc furnace, then thoroughly ground and mixed with P. sealed in evacuated quartz tube, heat(990C,6d)" "Structural, thermal, magnetic, and electronic transport properties of the LaNi2(Ge1-xPx)2 system" 2012 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 85(2012)054517"
153568 PRB085054517 lattice term in SP (beta=0.26 mJ/mol.K4). Debye-T(RES) = 119 K. LaNi2(Ge1-xPx)2 La1Ni2Ge1.5P0.5 La 1 Ni 2 Ge 1.5 P 0.5 1 2012 AB2C2 ThCr2Si2 I4/mmm 4.1353 9.8012 Fe-122 K 1.8 mJ/mol.K2 11.27 SP-heat 333.9 SP-heat uOhm.cm 95.9 189 "stoichiometric (La,Ni,Ge) were melted in arc furnace, then thoroughly ground and mixed with P. sealed in evacuated quartz tube, heat(990C,6d)" "Structural, thermal, magnetic, and electronic transport properties of the LaNi2(Ge1-xPx)2 system" 2012 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 85(2012)054517"
153569 PRB085054517 lattice term in SP (beta=0.194 mJ/mol.K4). Debye-T(RES) = 208 K. LaNi2(Ge1-xPx)2 La1Ni2Ge1P1 La 1 Ni 2 Ge 1 P 1 1 2012 AB2C2 ThCr2Si2 I4/mmm 4.0813 9.7424 Fe-122 K 1.8 mJ/mol.K2 9.3 SP-heat 369 SP-heat uOhm.cm 249.79 401 "stoichiometric (La,Ni,Ge) were melted in arc furnace, then thoroughly ground and mixed with P. sealed in evacuated quartz tube, heat(990C,6d)" "Structural, thermal, magnetic, and electronic transport properties of the LaNi2(Ge1-xPx)2 system" 2012 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 85(2012)054517"
153570 PRB085054517 lattice term in SP (beta=0.159 mJ/mol.K4). Debye-T(RES) = 242 K. LaNi2(Ge1-xPx)2 La1Ni2Ge0.5P1.5 La 1 Ni 2 Ge 0.5 P 1.5 1 2012 AB2C2 ThCr2Si2 I4/mmm 4.055 9.7289 Fe-122 K 1.8 mJ/mol.K2 7.4 SP-heat 394 SP-heat uOhm.cm 191.51 300 "stoichiometric (La,Ni,Ge) were melted in arc furnace, then thoroughly ground and mixed with P. sealed in evacuated quartz tube, heat(990C,6d)" "Structural, thermal, magnetic, and electronic transport properties of the LaNi2(Ge1-xPx)2 system" 2012 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 85(2012)054517"
153571 PRB085054517 "Annealed sample. lattice term in SP (beta=0.126 mJ/mol.K4). Debye-T(RES) = 265 K. Res and SUS show occurrence of SC, but not clear bulk SC or impurity phase." LaNi2P2 La1Ni2P2 La 1 Ni 2 P 2 1 2012 AB2C2 ThCr2Si2 I4/mmm 4.0145 9.6471 Fe-122 K 2.1 2.6 2.6 mJ/mol.K2 5.87 SP-heat 426 SP-heat uOhm.cm 36 1520 "stoichiometric (La,Ni,Ge) were melted in arc furnace, then thoroughly ground and mixed with P. sealed in evacuated quartz tube, heat(990C,6d)" "Structural, thermal, magnetic, and electronic transport properties of the LaNi2(Ge1-xPx)2 system" 2012 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 85(2012)054517"
153572 PRB085064504 non-SC Fe1.08Te0.55Se0.45 become SC after O2-annealing. O-content not given. O2-annealing inproved Jc value (maybe precipitates of hexagonal phase. "Fe1.08(Te,Se)Ox" Fe1.08Te0.55Se0.45Ox Fe 1.08 Te 0.55 Se 0.45 O x 3 2012 AB PbO P4/nmm Fe-11 K 11.5 14.5 14.5 Structure of the oxygen-annealed chalcogenide superconductor Fe1.08Te0.55Se0.45Ox 2012 "Department of Physics, University of Illinois at Urbana-Champaign, Urbana, Illinois 61801, USA" "Phys.Rev.B, 85(2012)064504"
153573 PRB085092503 T = 167.5 K Eu1-xLaxFe2As2 Eu0.92La0.08Fe2As2 Eu 0.92 La 0.08 Fe 2 As 2 3 2012 20 AB2C2 ThCr2Si2 I4/mmm Fe-122 K MPH153573 "self-flux method. mixture - alumina crucible - sealed in quartz tube - slow heat to 680C - hold(680C,12h) - heat(1190C,10h) - cool to 900C(4K/h) - FC to RT" Phase diagram as a function of doping level and pressure in the Eu1-xLaxFe2As2 system 2012 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 85(2012)092503"
153574 PRB085092503 T = 102.0 K Eu1-xLaxFe2As2 Eu0.78La0.22Fe2As2 Eu 0.78 La 0.22 Fe 2 As 2 3 2012 20 AB2C2 ThCr2Si2 I4/mmm Fe-122 K MPH153574 "self-flux method. mixture - alumina crucible - sealed in quartz tube - slow heat to 680C - hold(680C,12h) - heat(1190C,10h) - cool to 900C(4K/h) - FC to RT" Phase diagram as a function of doping level and pressure in the Eu1-xLaxFe2As2 system 2012 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 85(2012)092503"
153575 PRB085092503 T = 84.6 K Eu1-xLaxFe2As2 Eu0.73La0.27Fe2As2 Eu 0.73 La 0.27 Fe 2 As 2 3 2012 20 AB2C2 ThCr2Si2 I4/mmm Fe-122 K MPH153575 "self-flux method. mixture - alumina crucible - sealed in quartz tube - slow heat to 680C - hold(680C,12h) - heat(1190C,10h) - cool to 900C(4K/h) - FC to RT" Phase diagram as a function of doping level and pressure in the Eu1-xLaxFe2As2 system 2012 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 85(2012)092503"
153576 PRB085100501 Compositions by x-ray fluorescence. SC parameters obtained by fitting to muon-SR data using s-wave model. Rb0.77Fe1.61Se2 Rb0.77Fe1.61Se2 Rb 0.77 Fe 1.61 Se 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 32.6 32.6 100 A muon-SR 2580 meV 7.7 5.5 Bridgman method "Superconducting properties of single-crystalline AxFe2-ySe2 (A=Rb, K) studied using muon spin spectroscopy" 2012 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 85(2012)100501"
153577 PRB085100501 Compositions by x-ray fluorescence. SC parameters obtained by fitting to muon-SR data using s-wave model. K0.74Fe1.66Se2 K0.74Fe1.66Se2 K 0.74 Fe 1.66 Se 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 31 31 100 A muon-SR 2250 meV 6.3 4.7 Bridgman method "Superconducting properties of single-crystalline AxFe2-ySe2 (A=Rb, K) studied using muon spin spectroscopy" 2012 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 85(2012)100501"
153578 PRB085100502 "(Pt4-0.246As8) sample. Hc2 using rf-[penet] measurement in pulsed field. Hc2 has upward curvature, not explained one-gap WHH. Anisotropy factor = 7(Tc), =1 (zero K)." Ca10(Pt3.754As8)((Fe1.94Pt0.06)2As2)5 Ca10Pt4.054Fe9.7As18 Ca 10 Pt 4.054 Fe 9.7 As 18 3 2012 2 P4/n Ca-10-4-8 K 26.5 26.5 T "rf-penet, WHH" 132 24 MHC153578 "See Proc.Natl.Acad.Sci.USA, 108(2011)E1019" Anisotropic Hc2 up to 92 T and the signature of multiband superconductivity in Ca10(Pt4As8)((Fe1-xPtx)2As2)5 2012 "National High Magnetic Field Laboratory, Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 85(2012)100502"
153579 PRB085140509 pseudogap phase transition temperature T = 409 K. Ru1-xRhxP Ru0.7Rh0.3P1 Ru 0.7 Rh 0.3 P 1 1 2012 AB 3 MnP Pnma K 1.13 1.13 "solid state reaction. mixture - SIN((580C,10h) + (1050C,48h) , in quartz tube) - reground - pellet - SIN(72h)" "Metal-insulator transition and superconductivity induced by Rh doping in the binary pnictides RuPn (Pn = P, As, Sb)" 2012 "Department of Advanced Materials, University of Tokyo and JST-TRIP, Kashiwa 277-8561, Japan" "Phys.Rev.B, 85(2012)140509"
153580 PRB085140509 Ru1-xRhxP Ru0.55Rh0.45P1 Ru 0.55 Rh 0.45 P 1 1 2012 AB 3 MnP Pnma K 3.6 3.6 MTC153580 "solid state reaction. mixture - SIN((580C,10h) + (1050C,48h) , in quartz tube) - reground - pellet - SIN(72h)" "Metal-insulator transition and superconductivity induced by Rh doping in the binary pnictides RuPn (Pn = P, As, Sb)" 2012 "Department of Advanced Materials, University of Tokyo and JST-TRIP, Kashiwa 277-8561, Japan" "Phys.Rev.B, 85(2012)140509"
153581 PRB085140509 Ru1-xRhxP Ru0.4Rh0.6P1 Ru 0.4 Rh 0.6 P 1 1 2012 AB 3 MnP Pnma K 1.27 1.27 "solid state reaction. mixture - SIN((580C,10h) + (1050C,48h) , in quartz tube) - reground - pellet - SIN(72h)" "Metal-insulator transition and superconductivity induced by Rh doping in the binary pnictides RuPn (Pn = P, As, Sb)" 2012 "Department of Advanced Materials, University of Tokyo and JST-TRIP, Kashiwa 277-8561, Japan" "Phys.Rev.B, 85(2012)140509"
153582 PRB085140509 pseudogap phase transition temperature T = 155 K. Ru1-xRhxAs Ru0.86Rh0.14As1 Ru 0.86 Rh 0.14 As 1 1 2012 AB 3 MnP Pnma K 0.75 0.75 "solid state reaction. mixture - SIN((580C,10h) + (950C,48h) , in quartz tube) - reground - pellet - SIN(72h)" "Metal-insulator transition and superconductivity induced by Rh doping in the binary pnictides RuPn (Pn = P, As, Sb)" 2012 "Department of Advanced Materials, University of Tokyo and JST-TRIP, Kashiwa 277-8561, Japan" "Phys.Rev.B, 85(2012)140509"
153583 PRB085140509 Ru1-xRhxAs Ru0.77Rh0.23As1 Ru 0.77 Rh 0.23 As 1 1 2012 AB 3 MnP Pnma K 1.88 1.88 MTC153583 "solid state reaction. mixture - SIN((580C,10h) + (950C,48h) , in quartz tube) - reground - pellet - SIN(72h)" "Metal-insulator transition and superconductivity induced by Rh doping in the binary pnictides RuPn (Pn = P, As, Sb)" 2012 "Department of Advanced Materials, University of Tokyo and JST-TRIP, Kashiwa 277-8561, Japan" "Phys.Rev.B, 85(2012)140509"
153584 PRB085140509 Ru1-xRhxAs Ru0.58Rh0.42As1 Ru 0.58 Rh 0.42 As 1 1 2012 AB 3 MnP Pnma K 0.68 0.68 "solid state reaction. mixture - SIN((580C,10h) + (950C,48h) , in quartz tube) - reground - pellet - SIN(72h)" "Metal-insulator transition and superconductivity induced by Rh doping in the binary pnictides RuPn (Pn = P, As, Sb)" 2012 "Department of Advanced Materials, University of Tokyo and JST-TRIP, Kashiwa 277-8561, Japan" "Phys.Rev.B, 85(2012)140509"
153585 PRB085140509 RuSb Ru1Sb1 Ru 1 Sb 1 1 2012 AB 3 MnP Pnma K 1.2 1.2 "solid state reaction. mixture - SIN((580C,10h) + (900C,48h) , in quartz tube) - reground - pellet - SIN(72h)" "Metal-insulator transition and superconductivity induced by Rh doping in the binary pnictides RuPn (Pn = P, As, Sb)" 2012 "Department of Advanced Materials, University of Tokyo and JST-TRIP, Kashiwa 277-8561, Japan" "Phys.Rev.B, 85(2012)140509"
153586 PRB085144513 lattice term in SP beta= 0.46 mJ/mol.K4 Eu0.5K0.5Fe2As2 Eu0.5K0.5Fe2As2 Eu 0.5 K 0.5 Fe 2 As 2 1 2012 AB2C2 ThCr2Si2 I4/mmm A 3.875 13.0309 Fe-122 K 33 33 mJ/mol.K2 260 SP-heat 276 SP-heat mOhm.cm 6.3 "solid state reaction. mixture - alumina crucible - sealed in Ta crucible in quartz - heat to 600C(50C/h) - keep 12h - reground - pellet - ANN(90C,5d)" Effect of Ni doping on magnetism and superconductivity in Eu0.5K0.5Fe2As2 2012 "Department of Physics, Indian Institute of Technology Kanpur, Kanpur 208016, India" "Phys.Rev.B, 85(2012)144513"
153587 PRB085144513 lattice term in SP beta= 0.496 mJ/mol.K4. reentrant RES at 6 K. Eu0.5K0.5(Fe1-xNix)2As2 Eu0.5K0.5Fe1.94Ni0.06As2 Eu 0.5 K 0.5 Fe 1.94 Ni 0.06 As 2 1 2012 AB2C2 ThCr2Si2 I4/mmm A 3.8781 12.8472 Fe-122 K 23 23 mJ/mol.K2 230 SP-heat 269 SP-heat mOhm.cm 0.68 "solid state reaction. mixture - alumina crucible - sealed in Ta crucible in quartz - heat to 600C(50C/h) - keep 12h - reground - pellet - ANN(90C,5d)" Effect of Ni doping on magnetism and superconductivity in Eu0.5K0.5Fe2As2 2012 "Department of Physics, Indian Institute of Technology Kanpur, Kanpur 208016, India" "Phys.Rev.B, 85(2012)144513"
153588 PRB085144513 lattice term in SP beta= 0.515 mJ/mol.K4 Eu0.5K0.5(Fe1-xNix)2As2 Eu0.5K0.5Fe1.9Ni0.1As2 Eu 0.5 K 0.5 Fe 1.9 Ni 0.1 As 2 1 2012 AB2C2 ThCr2Si2 I4/mmm A 3.8791 12.8931 Fe-122 K 18 18 mJ/mol.K2 187 SP-heat 265 SP-heat mOhm.cm 0.42 "solid state reaction. mixture - alumina crucible - sealed in Ta crucible in quartz - heat to 600C(50C/h) - keep 12h - reground - pellet - ANN(90C,5d)" Effect of Ni doping on magnetism and superconductivity in Eu0.5K0.5Fe2As2 2012 "Department of Physics, Indian Institute of Technology Kanpur, Kanpur 208016, India" "Phys.Rev.B, 85(2012)144513"
153589 PRB085144513 lattice term in SP beta= 0.532 mJ/mol.K4 Eu0.5K0.5(Fe1-xNix)2As2 Eu0.5K0.5Fe1.84Ni0.16As2 Eu 0.5 K 0.5 Fe 1.84 Ni 0.16 As 2 1 2012 8.5 AB2C2 ThCr2Si2 I4/mmm A 3.8907 12.6054 Fe-122 K 1.8 mT M-H 8 1.8 T resistivity(0.9Rn). WHH 39.3 T/K resistivity 3.15 MHC153588 A from Hc2 27 mJ/mol.K2 236 SP-heat 263 SP-heat mOhm.cm 54 "solid state reaction. mixture - alumina crucible - sealed in Ta crucible in quartz - heat to 600C(50C/h) - keep 12h - reground - pellet - ANN(90C,5d)" Effect of Ni doping on magnetism and superconductivity in Eu0.5K0.5Fe2As2 2012 "Department of Physics, Indian Institute of Technology Kanpur, Kanpur 208016, India" "Phys.Rev.B, 85(2012)144513"
153590 PRB085144513 lattice term in SP beta= 0.562 mJ/mol.K4. T = 200 K. Eu0.5K0.5(Fe1-xNix)2As2 Eu0.5K0.5Fe1.76Ni0.24As2 Eu 0.5 K 0.5 Fe 1.76 Ni 0.24 As 2 1 2012 7 AB2C2 ThCr2Si2 I4/mmm A 3.8854 12.717 Fe-122 K 1.8 mJ/mol.K2 206 SP-heat 258 SP-heat mOhm.cm 46 "solid state reaction. mixture - alumina crucible - sealed in Ta crucible in quartz - heat to 600C(50C/h) - keep 12h - reground - pellet - ANN(90C,5d)" Effect of Ni doping on magnetism and superconductivity in Eu0.5K0.5Fe2As2 2012 "Department of Physics, Indian Institute of Technology Kanpur, Kanpur 208016, India" "Phys.Rev.B, 85(2012)144513"
153591 PRB085144517 gap measured by STM using UHV-cleaved sample. KxTiNCl K0.5Ti1N1Cl1 K 0.5 Ti 1 N 1 Cl 1 1 2012 FeOCl alpha-type K 16 16 meV 10.2 15 react alpha-TiNCl with KN3 Nanoscale electronic structure of the layered nitride superconductors alpha-KxTiNCl and beta-HfNCly observed by scanning tunneling microscopy and spectroscopy 2012 "Graduate School of Integrated Arts and Sciences, Hiroshima University, Higashi-Hiroshima 739-8521, Japan" "Phys.Rev.B, 85(2012)144517"
153592 PRB085144517 gap measured by STM using UHV-cleaved sample. HfNClx Hf1N1Cl0.7 Hf 1 N 1 Cl 0.7 1 2012 SmSI beta-type K 24 24 meV 7.5 7.2 sample prepared by reacting with K formed by the thermal decomposition of KN3 Nanoscale electronic structure of the layered nitride superconductors alpha-KxTiNCl and beta-HfNCly observed by scanning tunneling microscopy and spectroscopy 2012 "Graduate School of Integrated Arts and Sciences, Hiroshima University, Higashi-Hiroshima 739-8521, Japan" "Phys.Rev.B, 85(2012)144517"
153593 PRB085174505 (dC/gamma*Tc) = 1.73. thermodynamic Hc = 62 mT. GL-parameter = 10. e-ph coupling = 0.70. Energy gap from SP-heat fitting. YPd2Sn Y1Pd2Sn1 Y 1 Pd 2 Sn 1 1 2012 ABC2 Heusler L2<1> 225 A 6.716 Fm3[-]m K 4.7 4.7 mT "m-H, 2.5% deviate" 10 T resistivity(0.5Rn). WHH 0.9 T/K resistivity 0.273 MHC153593 A from Hc2 190 A GL theory 1960 meV 0.83 4.1 mJ/mol.K2 9.2 SP-heat 210 SP-heat "arc-melting in Ar. ANN(750C,2w, in evacuated quartz tube) - Q to (-13 K brine" Superconductivity in the Heusler family of intermetallics 2012 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 85(2012)174505"
153594 PRB085174505 (dC/gamma*Tc) = 1.45. e-ph coupling = 0.58 LuPd2Sn Lu1Pd2Sn1 Lu 1 Pd 2 Sn 1 1 2012 ABC2 Heusler L2<1> 225 A 6.6401 Fm3[-]m K 2.8 2.8 T resistivity(0.5Rn). WHH 0.45 A from Hc2 270 mJ/mol.K2 7.4 SP-heat 246 SP-heat "arc-melting in Ar. ANN(750C,2w, in evacuated quartz tube) - Q to (-13 K brine" Superconductivity in the Heusler family of intermetallics 2012 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 85(2012)174505"
153595 PRB085174505 e-ph coupling = 0.52 ScPd2Sn Sc1Pd2Sn1 Sc 1 Pd 2 Sn 1 1 2012 ABC2 Heusler L2<1> 225 A 6.5021 Fm3[-]m K 2 2 T resistivity(0.5Rn). WHH 0.26 A from Hc2 360 mJ/mol.K2 6.6 SP-heat 277 SP-heat "arc-melting in Ar. ANN(750C,2w, in evacuated quartz tube) - Q to (-13 K brine" Superconductivity in the Heusler family of intermetallics 2012 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 85(2012)174505"
153596 PRB085174505 (dC/gamma*Tc) = 1.50. thermodynamic Hc = 76 mT. GL-parameter = 17. e-ph coupling = 0.68. Energy gap from SP-heat fitting. HfPd2Al Hf1Pd2Al1 Hf 1 Pd 2 Al 1 1 2012 ABC2 Heusler L2<1> 225 A 6.3728 Fm3[-]m K 3.66 3.66 mT "m-H, 2.5% deviate" 9 T resistivity(0.5Rn). WHH 1.81 A from Hc2 130 A GL theory 2250 meV 0.59 3.74 mJ/mol.K2 7.9 SP-heat 182 SP-heat "arc-melting in Ar. ANN(840C,2w, in evacuated quartz tube) - Q to (-13 K brine" Superconductivity in the Heusler family of intermetallics 2012 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 85(2012)174505"
153597 PRB085174505 (dC/gamma*Tc) = 1.02. e-ph coupling = 0.65. Energy gap from SP-heat fitting. ZrPd2Al Zr1Pd2Al1 Zr 1 Pd 2 Al 1 1 2012 ABC2 Heusler L2<1> 225 A 6.3942 Fm3[-]m K 3.4 3.4 T resistivity(0.5Rn). WHH 2.82 A from Hc2 110 meV 0.51 3.48 mJ/mol.K2 9 SP-heat 189 SP-heat "arc-melting in Ar. ANN(840C,2w, in evacuated quartz tube) - Q to (-13 K brine" Superconductivity in the Heusler family of intermetallics 2012 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 85(2012)174505"
153598 PRB085174505 e-ph coupling = 0.58 HfPd2In Hf1Pd2In1 Hf 1 Pd 2 In 1 1 2012 ABC2 Heusler L2<1> 225 A 6.5342 Fm3[-]m K 2.86 2.86 T resistivity(0.5Rn). WHH 1 A from Hc2 180 mJ/mol.K2 8.5 SP-heat 243 SP-heat "arc-melting in Ar. ANN(840C,2w, in evacuated quartz tube) - Q to (-13 K brine" Superconductivity in the Heusler family of intermetallics 2012 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 85(2012)174505"
153599 PRB085174505 e-ph coupling = 0.55 ZrPd2Al Zr1Pd2In1 Zr 1 Pd 2 In 1 1 2012 ABC2 Heusler L2<1> 225 A 6.5534 Fm3[-]m K 2.19 2.19 T resistivity(0.5Rn). WHH 0.63 A from Hc2 230 mJ/mol.K2 10.9 SP-heat 236 SP-heat "arc-melting in Ar. ANN(840C,2w, in evacuated quartz tube) - Q to (-13 K brine" Superconductivity in the Heusler family of intermetallics 2012 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 85(2012)174505"
153600 PRB085174514 Type-1 SC. RRR=14.0. GL(kappa) = 0.23. effective mass = 3.03 m0. (dC/gamma*Tc) = 1.44. e-ph coupling = 0.45. latticeterm in SP (beta)=0.027 mJ/mol.K2. H//a-axis. ScGa3 Ga3Sc1 Ga 3 Sc 1 3 2012 AB3 Pm3[-]m A 4.0919 K 2.1 2.1 Oe "M(H), SP" 209 MHC153600 um effective mass 0.26 nm effective mass 59 meV 0.18 14 mJ/mol.K2 7.03 SP-heat 660 SP-heat "Sc(6N),Lu(6N),Ga" "self flux method. mixture(Sc(or Lu):Ga = 1:9) - alumina crucible - heat(930 C) - slow cool to 760 C - wrapped in Ta foil - ANN(800C, 1w)" Type-I superconductivity in ScGa3 and LuGa3 single crystals 2012 "Department of Physics and Astronomy, Rice University, Houston, Texas 77005, USA" "Phys.Rev.B, 85(2012)174514"
153601 PRB085174514 Type-1 SC. RRR=6.5. GL(kappa) = 0.30. effective mass = 3.49 m0. (dC/gamma*Tc) = 1.44. e-ph coupling = 0.55. latticeterm in SP (beta)=0.621 mJ/mol.K2. H//a-axis. LuGa3 Ga3Lu1 Ga 3 Lu 1 3 2012 AB3 Pm3[-]m A 4.19 K 2.2 2.2 Oe "M(H), SP" 226 MHC153601 um effective mass 0.21 nm effective mass 63 meV 0.17 14 mJ/mol.K2 8.52 SP-heat 232 SP-heat "Sc(6N),Lu(6N),Ga" "self flux method. mixture(Sc(or Lu):Ga = 1:9) - alumina crucible - heat(930 C) - slow cool to 760 C - wrapped in Ta foil - ANN(800C, 1w)" Type-I superconductivity in ScGa3 and LuGa3 single crystals 2012 "Department of Physics and Astronomy, Rice University, Houston, Texas 77005, USA" "Phys.Rev.B, 85(2012)174514"
153602 PRB085174523 Actual composition: Rb0.74Fe1.7Se2 by ICP. Structurl transition at 556 K Rb0.8Fe2Se2 Rb0.8Fe2Se2 Rb 0.8 Fe 2 Se 2 3 2012 514 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 30.7 31.4 31.05 "(FeSe,FeTe) mingled with Rb - alumina crucible - sealed in silica ampoule - slowly heat to 1000 C and keep for 5h - heat to 1100C, keep 5h - cool to 800C with 4C/h -FC to RT" Correlation between superconductivity and antiferromagnetism in Rb0.8Fe2-ySe2-xTex single crystals 2012 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 85(2012)174523"
153603 PRB085174523 Actual composition: Rb0.78Fe1.67Se1.9Te0.095 by ICP Rb0.8Fe2Se2-xTex Rb0.8Fe2Se1.9Te0.1 Rb 0.8 Fe 2 Se 1.9 Te 0.1 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 23 29.5 26.25 MPH153603 "(FeSe,FeTe) mingled with Rb - alumina crucible - sealed in silica ampoule - slowly heat to 1000 C and keep for 5h - heat to 1100C, keep 5h - cool to 800C with 4C/h -FC to RT" Correlation between superconductivity and antiferromagnetism in Rb0.8Fe2-ySe2-xTex single crystals 2012 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 85(2012)174523"
153604 PRB085174523 Actual composition: Rb0.83Fe1.66Se1.8Te0.198 by ICP Rb0.8Fe2Se2-xTex Rb0.8Fe2Se1.8Te0.2 Rb 0.8 Fe 2 Se 1.8 Te 0.2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 21.6 28.5 25.05 "(FeSe,FeTe) mingled with Rb - alumina crucible - sealed in silica ampoule - slowly heat to 1000 C and keep for 5h - heat to 1100C, keep 5h - cool to 800C with 4C/h -FC to RT" Correlation between superconductivity and antiferromagnetism in Rb0.8Fe2-ySe2-xTex single crystals 2012 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 85(2012)174523"
153605 PRB085174523 Actual composition: Rb0.79Fe1.63Se1.75Te0.210 by ICP Rb0.8Fe2Se2-xTex Rb0.8Fe2Se1.75Te0.25 Rb 0.8 Fe 2 Se 1.75 Te 0.25 3 2012 508 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 17.2 27.2 22.2 "(FeSe,FeTe) mingled with Rb - alumina crucible - sealed in silica ampoule - slowly heat to 1000 C and keep for 5h - heat to 1100C, keep 5h - cool to 800C with 4C/h -FC to RT" Correlation between superconductivity and antiferromagnetism in Rb0.8Fe2-ySe2-xTex single crystals 2012 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 85(2012)174523"
153606 PRB085174523 Actual composition: Rb0.82Fe1.63Se1.7Te0.272 by ICP Rb0.8Fe2Se2-xTex Rb0.8Fe2Se1.7Te0.3 Rb 0.8 Fe 2 Se 1.7 Te 0.3 3 2012 506 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 25.5 25.5 "(FeSe,FeTe) mingled with Rb - alumina crucible - sealed in silica ampoule - slowly heat to 1000 C and keep for 5h - heat to 1100C, keep 5h - cool to 800C with 4C/h -FC to RT" Correlation between superconductivity and antiferromagnetism in Rb0.8Fe2-ySe2-xTex single crystals 2012 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 85(2012)174523"
153607 PRB085174523 Actual composition: Rb0.8Fe1.66Se1.6Te0.400 by ICP. Both SC and AFM not observed. Rb0.8Fe2Se2-xTex Rb0.8Fe2Se1.6Te0.4 Rb 0.8 Fe 2 Se 1.6 Te 0.4 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 4 "(FeSe,FeTe) mingled with Rb - alumina crucible - sealed in silica ampoule - slowly heat to 1000 C and keep for 5h - heat to 1100C, keep 5h - cool to 800C with 4C/h -FC to RT" Correlation between superconductivity and antiferromagnetism in Rb0.8Fe2-ySe2-xTex single crystals 2012 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 85(2012)174523"
153608 PRB085184501 P-induced SC. incomplete SC for P < 1.76 GPa. T in Fig. means Collapsed tetragonal transition temperature. Ca0.67Sr0.33Fe2As2 Ca0.67Sr0.33Fe2As2 Ca 0.67 Sr 0.33 Fe 2 As 2 3 2012 200 AB2C2 ThCr2Si2 I4/mmm A 3.907 11.988 Fe-122 K 22 0 22 MPH153608 flux method Suppression of magnetism and development of superconductivity within the collapsed tetragonal phase of Ca0.67Sr0.33Fe2As2 under pressure 2012 "Condensed Matter and Materials Division, Lawrence Livermore National Laboratory, Livermore, California 94550, USA" "Phys.Rev.B, 85(2012)184501"
153609 PRB085184513 "filamentary SC(high T) and bulk-SC(low T). Tc in DB shows for R//b. For R//a, Tc(on) = 5K. lattice term inSP beta=0.985 mJ/mol.K4. (dC/gamma*Tc) = 0.99. T = 63 K." ZrTe3 Te3Zr1 Te 3 Zr 1 3 2012 AB3 K 1.5 2.1 0.6 1.8 MSP153609 mJ/mol.K 2.13 mJ/mol.K2 2.15 mOhm.cm 0.3 "Zr(4N),Te(5N)" Iodine vapor transport method T-gradient (730 - 680 C) Mixed bulk-filament nature in superconductivity of the charge-density-wave conductor ZrTe3 2012 "Center of Education and Research for Topological Science and Technology, Hokkaido University, Kita 13, Nishi 8 Kita-Ku, Sapporo 060-8628, Japan" "Phys.Rev.B, 85(2012)184513"
153610 PRB085205105 "S, Rxy, SP measured for various P, T. H. Figure shows P-dependence of Tc(SP), Rxy(T=0.75K,H=8T), S(2K,8T) ." CeCu2Si2 Ce1Cu2Si2 Ce 1 Cu 2 Si 2 3 2012 AB2C2 K 0.78 0.8 0.8 MTC153610 T MHC153610 uV/K MTP153610 uOhm.cm 8.3 MRH153610 Heavy fermion superconductor CeCu2Si2 under high pressure: Multiprobing the valence crossover 2012 "DPMC-Universite de Geneve, 24 Quai Ernest Ansermet, 1211 Geneva 4, Switzerland" "Phys.Rev.B, 85(2012)205105"
153611 PRB085214509 (dC/Tc) = 44.50 mJ/mol.K2. Tc defined as max of (dR/dT). Ba0.5K0.5Fe2As2 Ba0.5K0.5Fe2As2 Ba 0.5 K 0.5 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm A 4.014 13.298 Fe-122 K 37.78 37.78 m3/C 1.60E-09 MRH153611 n/cm3 3.75E+21 high-P synthesis. cleaved in to thin slices along c-axis on MgO substrate "Superconductivity suppression of Ba0.5K0.5Fe2-2xM2xAs2 single crystals by substitution of transition metal (M = Mn, Ru, Co, Ni, Cu, and Zn)" 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 85(2012)214509"
153612 PRB085214509 "real conc. x = 0.039 in (Ba,K)(Fe1-xMx)2As2 by EPMA. Tc defined as max of (dR/dT)." Ba0.5K0.5(Fe1-xMnx)2As2 Ba0.5K0.5Fe1.9Mn0.1As2 Ba 0.5 K 0.5 Fe 1.9 Mn 0.1 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm A 3.984 13.196 Fe-122 K 9.53 13.1 9.53 m3/C 1.57E-09 MRH153611 n/cm3 3.89E+21 high-P synthesis. cleaved in to thin slices along c-axis on MgO substrate "Superconductivity suppression of Ba0.5K0.5Fe2-2xM2xAs2 single crystals by substitution of transition metal (M = Mn, Ru, Co, Ni, Cu, and Zn)" 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 85(2012)214509"
153613 PRB085214509 "real conc. x = 0.032 in (Ba,K)(Fe1-xMx)2As2 by EPMA. (dC/Tc) = 73.49 mJ/mol.K2. Tc defined as max of (dR/dT)." Ba0.5K0.5(Fe1-xRux)2As2 Ba0.5K0.5Fe1.9Ru0.1As2 Ba 0.5 K 0.5 Fe 1.9 Ru 0.1 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm A 4.051 13.419 Fe-122 K 37.14 36.1 37.14 m3/C -5.44E-10 MRH153613 n/cm3 1.21E+22 high-P synthesis. cleaved in to thin slices along c-axis on MgO substrate "Superconductivity suppression of Ba0.5K0.5Fe2-2xM2xAs2 single crystals by substitution of transition metal (M = Mn, Ru, Co, Ni, Cu, and Zn)" 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 85(2012)214509"
153614 PRB085214509 "real conc. x = 0.052 in (Ba,K)(Fe1-xMx)2As2 by EPMA. (dC/Tc) = 39.26 mJ/mol.K2. Tc defined as max of (dR/dT)." Ba0.5K0.5(Fe1-xCox)2As2 Ba0.5K0.5Fe1.9Co0.1As2 Ba 0.5 K 0.5 Fe 1.9 Co 0.1 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm A 4.038 13.383 Fe-122 K 30.31 30.1 30.31 m3/C 6.10E-10 MRH153611 n/cm3 9.63E+21 high-P synthesis. cleaved in to thin slices along c-axis on MgO substrate "Superconductivity suppression of Ba0.5K0.5Fe2-2xM2xAs2 single crystals by substitution of transition metal (M = Mn, Ru, Co, Ni, Cu, and Zn)" 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 85(2012)214509"
153615 PRB085214509 "real conc. x = 0.039 in (Ba,K)(Fe1-xMx)2As2 by EPMA. Tc defined as max of (dR/dT)." Ba0.5K0.5(Fe1-xNix)2As2 Ba0.5K0.5Fe1.9Ni0.1As2 Ba 0.5 K 0.5 Fe 1.9 Ni 0.1 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm A 3.99 13.229 Fe-122 K 26.75 26.7 26.75 m3/C 2.43E-10 MRH153611 n/cm3 3.06E+22 high-P synthesis. cleaved in to thin slices along c-axis on MgO substrate "Superconductivity suppression of Ba0.5K0.5Fe2-2xM2xAs2 single crystals by substitution of transition metal (M = Mn, Ru, Co, Ni, Cu, and Zn)" 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 85(2012)214509"
153616 PRB085214509 "real conc. x = 0.044 in (Ba,K)(Fe1-xMx)2As2 by EPMA. Tc defined as max of (dR/dT)." Ba0.5K0.5(Fe1-xCux)2As2 Ba0.5K0.5Fe1.9Cu0.1As2 Ba 0.5 K 0.5 Fe 1.9 Cu 0.1 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm A 3.97 13.05 Fe-122 K 22.29 26.2 22.29 m3/C 2.90E-10 MRH153613 n/cm3 2.29E+22 high-P synthesis. cleaved in to thin slices along c-axis on MgO substrate "Superconductivity suppression of Ba0.5K0.5Fe2-2xM2xAs2 single crystals by substitution of transition metal (M = Mn, Ru, Co, Ni, Cu, and Zn)" 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 85(2012)214509"
153617 PRB085214509 "real conc. x = 0.040 in (Ba,K)(Fe1-xMx)2As2 by EPMA. (dC/Tc) = 21.66 mJ/mol.K2. Tc defined as max of (dR/dT)." Ba0.5K0.5(Fe1-xZnx)2As2 Ba0.5K0.5Fe1.9Zn0.1As2 Ba 0.5 K 0.5 Fe 1.9 Zn 0.1 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm A 4.102 13.322 Fe-122 K 30.15 31 30.15 m3/C -5.62E-10 MRH153613 n/cm3 1.21E+22 high-P synthesis. cleaved in to thin slices along c-axis on MgO substrate "Superconductivity suppression of Ba0.5K0.5Fe2-2xM2xAs2 single crystals by substitution of transition metal (M = Mn, Ru, Co, Ni, Cu, and Zn)" 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 85(2012)214509"
153618 PRB085214509 "real conc. x = 0.013 in (Ba,K)(Fe1-xMx)2As2 by EPMA. Tc defined as max of (dR/dT)." Ba0.5K0.5(Fe1-xMnx)2As2 Ba0.5K0.5Fe1.96Mn0.04As2 Ba 0.5 K 0.5 Fe 1.96 Mn 0.04 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 23.3 20.1 23.3 high-P synthesis. cleaved in to thin slices along c-axis on MgO substrate "Superconductivity suppression of Ba0.5K0.5Fe2-2xM2xAs2 single crystals by substitution of transition metal (M = Mn, Ru, Co, Ni, Cu, and Zn)" 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 85(2012)214509"
153619 PRB085214509 "real conc. x = 0.087 in (Ba,K)(Fe1-xMx)2As2 by EPMA. Tc defined as max of (dR/dT)." Ba0.5K0.5(Fe1-xCux)2As2 Ba0.5K0.5Fe1.8Cu0.2As2 Ba 0.5 K 0.5 Fe 1.8 Cu 0.2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 11.83 13.04 11.83 high-P synthesis. cleaved in to thin slices along c-axis on MgO substrate "Superconductivity suppression of Ba0.5K0.5Fe2-2xM2xAs2 single crystals by substitution of transition metal (M = Mn, Ru, Co, Ni, Cu, and Zn)" 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 85(2012)214509"
153620 PRB085214509 "real conc. x = 0.089 in (Ba,K)(Fe1-xMx)2As2 by EPMA. Tc defined as max of (dR/dT)." Ba0.5K0.5(Fe1-xNix)2As2 Ba0.5K0.5Fe1.8Ni0.2As2 Ba 0.5 K 0.5 Fe 1.8 Ni 0.2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 11.1 12.1 11.1 high-P synthesis. cleaved in to thin slices along c-axis on MgO substrate "Superconductivity suppression of Ba0.5K0.5Fe2-2xM2xAs2 single crystals by substitution of transition metal (M = Mn, Ru, Co, Ni, Cu, and Zn)" 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 85(2012)214509"
153621 PRB085214509 "real conc. x = 0.149 in (Ba,K)(Fe1-xMx)2As2 by EPMA. Tc defined as max of (dR/dT)." Ba0.5K0.5(Fe1-xNix)2As2 Ba0.5K0.5Fe1.7Ni0.3As2 Ba 0.5 K 0.5 Fe 1.7 Ni 0.3 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 5.1 5.01 5.1 high-P synthesis. cleaved in to thin slices along c-axis on MgO substrate "Superconductivity suppression of Ba0.5K0.5Fe2-2xM2xAs2 single crystals by substitution of transition metal (M = Mn, Ru, Co, Ni, Cu, and Zn)" 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 85(2012)214509"
153622 PRB085214509 "real conc. x = 0.079 in (Ba,K)(Fe1-xMx)2As2 by EPMA. Tc defined as max of (dR/dT)." Ba0.5K0.5(Fe1-xZnx)2As2 Ba0.5K0.5Fe1.8Zn0.2As2 Ba 0.5 K 0.5 Fe 1.8 Zn 0.2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 18.3 19.95 18.3 high-P synthesis. cleaved in to thin slices along c-axis on MgO substrate "Superconductivity suppression of Ba0.5K0.5Fe2-2xM2xAs2 single crystals by substitution of transition metal (M = Mn, Ru, Co, Ni, Cu, and Zn)" 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 85(2012)214509"
153623 PRB085214509 "real conc. x = 0.139 in (Ba,K)(Fe1-xMx)2As2 by EPMA. Tc defined as max of (dR/dT)." Ba0.5K0.5(Fe1-xZnx)2As2 Ba0.5K0.5Fe1.7Zn0.3As2 Ba 0.5 K 0.5 Fe 1.7 Zn 0.3 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 7.86 9.07 7.86 high-P synthesis. cleaved in to thin slices along c-axis on MgO substrate "Superconductivity suppression of Ba0.5K0.5Fe2-2xM2xAs2 single crystals by substitution of transition metal (M = Mn, Ru, Co, Ni, Cu, and Zn)" 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 85(2012)214509"
153624 PRB085214509 "real conc. x = 0.092 in (Ba,K)(Fe1-xMx)2As2 by EPMA. Tc defined as max of (dR/dT)." Ba0.5K0.5(Fe1-xCox)2As2 Ba0.5K0.5Fe1.8Co0.2As2 Ba 0.5 K 0.5 Fe 1.8 Co 0.2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 19.95 22.89 19.95 high-P synthesis. cleaved in to thin slices along c-axis on MgO substrate "Superconductivity suppression of Ba0.5K0.5Fe2-2xM2xAs2 single crystals by substitution of transition metal (M = Mn, Ru, Co, Ni, Cu, and Zn)" 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 85(2012)214509"
153625 PRB085214509 "real conc. x = 0.147 in (Ba,K)(Fe1-xMx)2As2 by EPMA. Tc defined as max of (dR/dT)." Ba0.5K0.5(Fe1-xCox)2As2 Ba0.5K0.5Fe1.7Co0.3As2 Ba 0.5 K 0.5 Fe 1.7 Co 0.3 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 13.56 14 13.56 high-P synthesis. cleaved in to thin slices along c-axis on MgO substrate "Superconductivity suppression of Ba0.5K0.5Fe2-2xM2xAs2 single crystals by substitution of transition metal (M = Mn, Ru, Co, Ni, Cu, and Zn)" 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 85(2012)214509"
153626 PRB085214509 "real conc. x = 0.063 in (Ba,K)(Fe1-xMx)2As2 by EPMA. Tc defined as max of (dR/dT)." Ba0.5K0.5(Fe1-xRux)2As2 Ba0.5K0.5Fe1.8Ru0.2As2 Ba 0.5 K 0.5 Fe 1.8 Ru 0.2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 36.5 35.1 36.5 high-P synthesis. cleaved in to thin slices along c-axis on MgO substrate "Superconductivity suppression of Ba0.5K0.5Fe2-2xM2xAs2 single crystals by substitution of transition metal (M = Mn, Ru, Co, Ni, Cu, and Zn)" 2012 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 85(2012)214509"
153627 PRB085214519 sample has two paramag-regions and AFM phase. Abrupt decrease of Tc at around 5GPa related to tha change of hyperfine field (Mossbauer) Rb0.8Fe2Se2 Rb0.8Fe1.6Se2 Rb 0.8 Fe 1.6 Se 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 32.4 32.4 MTC153627 Bridgman method Superconductivity and magnetism in Rb0.8Fe1.6Se2 under pressure 2012 "Institut fur Anorganische und Analytische Chemie, Johannes Gutenberg-Universitat, D-55099 Mainz, Germany" "Phys.Rev.B, 85(2012)214519"
153628 PRB085014514 real H conc. = 0.07. Ce:Fe:As:O:H = 1.01:1:1.00:0.89:0.07 by EPMA. "Ce(O,H)FeAs" Ce1Fe1As1H0.07O0.93 Ce 1 Fe 1 As 1 H 0.07 O 0.93 2012 ABCD oxypnictide P4/nmm Fe-1111 K 31.3 31.3 2.94 "CeAs,Fe2As,CeO2,CeD2" "CeD2 synthesized by heating Ce in D2. mixture of starting materials and Ca(OD)2 , NaBD4(as excess D-sources) - heat(1473K, 30min, P=2 GPa)" Structural analysis and superconductivity of CeFeAsO1-xHx 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, S2-13, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 85(2012)014514"
153629 PRB085014514 real H conc. = 0.22. Ce:Fe:As:O:H = 1.00:1:1.00:0.74:0.22 by EPMA. "Ce(O,H)FeAs" Ce1Fe1As1H0.2O0.8 Ce 1 Fe 1 As 1 H 0.2 O 0.8 2012 ABCD oxypnictide P4/nmm Fe-1111 K 45.6 45.6 TC153629 69 "CeAs,Fe2As,CeO2,CeD2" "CeD2 synthesized by heating Ce in D2. mixture of starting materials and Ca(OD)2 , NaBD4(as excess D-sources) - heat(1473K, 30min, P=2 GPa)" Structural analysis and superconductivity of CeFeAsO1-xHx 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, S2-13, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 85(2012)014514"
153630 PRB085014514 real H conc. = 0.32. Ce:Fe:As:O:H = 1.01:1:0.99:0.73:0.32 by EPMA. "Ce(O,H)FeAs" Ce1Fe1As1H0.3O0.7 Ce 1 Fe 1 As 1 H 0.3 O 0.7 2012 ABCD oxypnictide P4/nmm Fe-1111 K 44.9 44.9 98 "CeAs,Fe2As,CeO2,CeD2" "CeD2 synthesized by heating Ce in D2. mixture of starting materials and Ca(OD)2 , NaBD4(as excess D-sources) - heat(1473K, 30min, P=2 GPa)" Structural analysis and superconductivity of CeFeAsO1-xHx 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, S2-13, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 85(2012)014514"
153631 PRB085014514 real H conc. = 0.40. Ce:Fe:As:O:H = 1.01:1:1.01:0.60:0.40 by EPMA. "Ce(O,H)FeAs" Ce1Fe1As1H0.4O0.6 Ce 1 Fe 1 As 1 H 0.4 O 0.6 2012 ABCD oxypnictide P4/nmm Fe-1111 K 37.3 37.3 58 "CeAs,Fe2As,CeO2,CeD2" "CeD2 synthesized by heating Ce in D2. mixture of starting materials and Ca(OD)2 , NaBD4(as excess D-sources) - heat(1473K, 30min, P=2 GPa)" Structural analysis and superconductivity of CeFeAsO1-xHx 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, S2-13, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 85(2012)014514"
153632 PRB085014514 real O-conc. = 0.721 by EPMA. "Ce(O,D)FeAs" Ce1Fe1As1D0.3O0.7 Ce 1 Fe 1 As 1 D 0.3 O 0.7 2012 ABCD oxypnictide P4/nmm A 3.9775 8.6091 Fe-1111 K 47.2 47.2 TC153629 44 "CeAs,Fe2As,CeO2,CeH2" "CeH2 synthesized by heating Ce in H2. mixture of starting materials and Ca(OH)2 , NaBH4(as excess H-sources) - heat(1473K, 30min, P=2 GPa)" Structural analysis and superconductivity of CeFeAsO1-xHx 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, S2-13, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 85(2012)014514"
153633 PRB085014514 real O-conc. = 0.574 by EPMA. "Ce(O,D)FeAs" Ce1Fe1As1D0.4O0.6 Ce 1 Fe 1 As 1 D 0.4 O 0.6 2012 ABCD oxypnictide P4/nmm A 3.9538 8.5926 Fe-1111 K 43 43 27 "CeAs,Fe2As,CeO2,CeH2" "CeH2 synthesized by heating Ce in H2. mixture of starting materials and Ca(OH)2 , NaBH4(as excess H-sources) - heat(1473K, 30min, P=2 GPa)" Structural analysis and superconductivity of CeFeAsO1-xHx 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, S2-13, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 85(2012)014514"
153689 JAC2130509 RRR = 3. UNi2Al3 U1Ni2.05Al2.98 U 1 Ni 2.05 Al 2.98 1994 AB2C3 PrNi2Al3 K 0.4 arc-melting Influence of off-stoichiometry on the properties of the heavy fermion superconductors UNi2A13 and UPd2AI3 1994 "Institut fur Festkorperphysik Technische Hochschule Darmstadt, D-64289 Darmstadt (Germany)" "J.Alloys Compd., 213(1994)509"
153700 PRB085214526 "remanent Sb-flux(5%). RRR = 186. Type-I SC (Hc2 = Hc). .(dC/gamma*Tc)= 0.85. GL = 0.05. e-ph = 0.51. Hc(by resonant freq) shows 2nd SC phase (Tc=0.41K, Hc=430 Oe)" YbSb2 Yb1Sb2 Yb 1 Sb 2 3 2012 AB2 3 ZrSi2 Cmcm A 4.554 16.715 4.267 K 1.3 1.3 100 Oe "Type-1, Hc,SUS, SP" 55 MHC153700 A effective mass 1.39m0 8260 A effective mass 1.39m0 400 mJ/mol.K2 3.18 SP 186 SP uOhm.cm 0.53 "Yb(5N),Sb(6N)" "(Yb:Sb=1:9) - alumina crucible in quartz ampoule(Ar) - heat to 650 C - hold(650C,4h) - slow cool to 620 C - excess flux was removed." Type-I superconductivity in YbSb2 single crystals 2012 "Department of Physics & Astronomy, Rice University, Houston, Texas 77005, USA" "Phys.Rev.B, 85(2012)214526"
153701 PRB085224504 "BCS-alpha-model. SC parameters calculated from C(T,H) and thermodynamic analysis(entropy conservation). Hc(0)=0.63T, GL=78. (dC/gamma*Tc) = 2.9. Hc2(0) = 224T from WHH." "(Ba,K)(Fe,Co)2As2" Ba0.55K0.45Fe1.95Co0.05As2 Ba 0.55 K 0.45 Fe 1.95 Co 0.05 As 2 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 32.5 32.5 Oe "Hc2, GL" 240 T "C(T,H) measurement," 70 T/K SP-heat 10 A "Hc(0), GL-eq." 22 A GL parameter 1700 meV 7.2 5.14 14 MSP153701 mJ/mol.K2 118 mJ/mol.K2 40.5 SP powder metallurgical method Fully-gapped superconductivity in Ba0.55K0.45Fe1.95Co0.05As2: A low-temperature specific heat study 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 85(2012)224504"
153702 PRB085224521 "T, T measured by (dR/dT). Tc defined as R=0. no SP-jump at Tc." NaFeAs Na1Fe1As1 Na 1 Fe 1 As 1 3 2012 ABC PbFCl A 7.056 Fe-111 K 9.58 9.58 "NaAs flux method. (NaAs:Fe:Co = 4:1-x:x) - alumina crucible - sealed in Fe crucible(Ar) - heat to 950C (60C/h) - keep(950C,10h) - cool to 600 C(3C/h)" Phase diagram and calorimetric properties of NaFe1-xCoxAs 2012 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 85(2012)224521"
153703 PRB085224521 "T, T measured by (dR/dT)." "Na(Fe,Co)As" Na1Fe0.99Co0.01As1 Na 1 Fe 0.99 Co 0.01 As 1 3 2012 ABC PbFCl A 7.0499 Fe-111 K 13.7 13.7 "NaAs flux method. (NaAs:Fe:Co = 4:1-x:x) - alumina crucible - sealed in Fe crucible(Ar) - heat to 950C (60C/h) - keep(950C,10h) - cool to 600 C(3C/h)" Phase diagram and calorimetric properties of NaFe1-xCoxAs 2012 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 85(2012)224521"
153704 PRB085224521 "T, T measured by (dR/dT)." "Na(Fe,Co)As" Na1Fe0.979Co0.021As1 Na 1 Fe 0.979 Co 0.021 As 1 3 2012 ABC PbFCl A 7.0417 Fe-111 K 19.4 19.4 "NaAs flux method. (NaAs:Fe:Co = 4:1-x:x) - alumina crucible - sealed in Fe crucible(Ar) - heat to 950C (60C/h) - keep(950C,10h) - cool to 600 C(3C/h)" Phase diagram and calorimetric properties of NaFe1-xCoxAs 2012 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 85(2012)224521"
153705 PRB085224521 "SP-heat, beta - 0.23 mJ.mol.K4, delta = -0.0589 mJ/mol.K6. gamma(0) = 1.5 mJ/mol.K2. SP-heat shows two band s-wave SC. (gap size(L) = 3.56, (H) = 6.22 in DB)" "Na(Fe,Co)As" Na1Fe0.972Co0.028As1 Na 1 Fe 0.972 Co 0.028 As 1 3 2012 ABC PbFCl A 7.0376 Fe-111 K 20.1 20.1 MPH153705 6.22 14 mJ/mol.K2 10.1 "NaAs flux method. (NaAs:Fe:Co = 4:1-x:x) - alumina crucible - sealed in Fe crucible(Ar) - heat to 950C (60C/h) - keep(950C,10h) - cool to 600 C(3C/h)" Phase diagram and calorimetric properties of NaFe1-xCoxAs 2012 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 85(2012)224521"
153706 PRB085224521 "Na(Fe,Co)As" Na1Fe0.939Co0.061As1 Na 1 Fe 0.939 Co 0.061 As 1 3 2012 ABC PbFCl A 7.021 Fe-111 K 13.4 13.4 MPH153705 "NaAs flux method. (NaAs:Fe:Co = 4:1-x:x) - alumina crucible - sealed in Fe crucible(Ar) - heat to 950C (60C/h) - keep(950C,10h) - cool to 600 C(3C/h)" Phase diagram and calorimetric properties of NaFe1-xCoxAs 2012 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 85(2012)224521"
153707 PRB085224521 "Na(Fe,Co)As" Na1Fe0.925Co0.075As1 Na 1 Fe 0.925 Co 0.075 As 1 3 2012 ABC PbFCl A 7.0132 Fe-111 K 10.6 10.6 "NaAs flux method. (NaAs:Fe:Co = 4:1-x:x) - alumina crucible - sealed in Fe crucible(Ar) - heat to 950C (60C/h) - keep(950C,10h) - cool to 600 C(3C/h)" Phase diagram and calorimetric properties of NaFe1-xCoxAs 2012 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 85(2012)224521"
153708 PRB085224521 not SC "Na(Fe,Co)As" Na1Fe0.891Co0.109As1 Na 1 Fe 0.891 Co 0.109 As 1 3 2012 ABC PbFCl A 6.9871 Fe-111 K 2 "NaAs flux method. (NaAs:Fe:Co = 4:1-x:x) - alumina crucible - sealed in Fe crucible(Ar) - heat to 950C (60C/h) - keep(950C,10h) - cool to 600 C(3C/h)" Phase diagram and calorimetric properties of NaFe1-xCoxAs 2012 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 85(2012)224521"
153709 PRB085224527 not SC. Fe-plane distance d=10.066 A.. Ca10(Pt3As8)(Fe2As2)5 Ca10Pt3Fe10As18 Ca 10 Pt 3 Fe 10 As 18 3 2012 10-3-8 phase K 2 mOhm.cm 1.92 cm3/C 0.00196 MRH153709 "CaAs,FeAs,Pt" "mixture(CaAs:FeAs:Pt=2:2:(0.6+x)) - alumina crucible - sealed in quartz tube - heat(1323K,75h) - cool to 1173K (4.5K/h) - FC to RT" Transport properties and electronic phase diagram of single-crystalline Ca10(Pt3As8)((Fe1-xPtx)2As2)5 2012 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 85(2012)224527"
153710 PRB085224527 Fe-plane distance d=10.147 A. Ca10(Pt3As8)((Fe1-xPtx)2As2)5 Ca10Pt3.213Fe9.787As18 Ca 10 Pt 3.213 Fe 9.787 As 18 3 2012 A 8.7608 8.7551 10.6831 "10-3-8 phase. triclinic, alpha=94.6823,beta=104.2267,gamma=89.9874" K 4.3 4.3 5 cm3/C 0.0054 MRH153710 "CaAs,FeAs,Pt" "mixture(CaAs:FeAs:Pt=2:2:(0.6+x)) - alumina crucible - sealed in quartz tube - heat(1323K,75h) - cool to 1173K (4.5K/h) - FC to RT" Transport properties and electronic phase diagram of single-crystalline Ca10(Pt3As8)((Fe1-xPtx)2As2)5 2012 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 85(2012)224527"
153711 PRB085224527 Fe-plane distance d=10.221 A. Ca10(Pt3As8)((Fe1-xPtx)2As2)5 Ca10Pt3.474Fe9.526As18 Ca 10 Pt 3.474 Fe 9.526 As 18 3 2012 10-3-8 phase K 11.6 11.85 13.52 11.1 11.85 30 MHC153711 mOhm.cm 1.11 "CaAs,FeAs,Pt" "mixture(CaAs:FeAs:Pt=2:2:(0.6+x)) - alumina crucible - sealed in quartz tube - heat(1323K,75h) - cool to 1173K (4.5K/h) - FC to RT" Transport properties and electronic phase diagram of single-crystalline Ca10(Pt3As8)((Fe1-xPtx)2As2)5 2012 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 85(2012)224527"
153712 PRB085224527 anisotropy(Hc2) = 10. Fe-plane distance d=10.25 A. Ca10(Pt3As8)((Fe1-xPtx)2As2)5 Ca10Pt3.53Fe9.47As18 Ca 10 Pt 3.53 Fe 9.47 As 18 3 2012 10-3-8 phase K 13.6 15.8 20 13.6 15.8 MTC153712 80 T "RES (0.5Rn), WHH" 143.4 14.13 MHC153712 mOhm.cm 0.882 cm3/C 0.00218 MRH153712 "CaAs,FeAs,Pt" "mixture(CaAs:FeAs:Pt=2:2:(0.6+x)) - alumina crucible - sealed in quartz tube - heat(1323K,75h) - cool to 1173K (4.5K/h) - FC to RT" Transport properties and electronic phase diagram of single-crystalline Ca10(Pt3As8)((Fe1-xPtx)2As2)5 2012 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 85(2012)224527"
153713 PRB085224527 Fe-plane distance d=10.252 A. Ca10(Pt3As8)((Fe1-xPtx)2As2)5 Ca10Pt3.617Fe9.383As18 Ca 10 Pt 3.617 Fe 9.383 As 18 3 2012 10-3-8 phase K 13.6 13.6 13.6 100 "CaAs,FeAs,Pt" "mixture(CaAs:FeAs:Pt=2:2:(0.6+x)) - alumina crucible - sealed in quartz tube - heat(1323K,75h) - cool to 1173K (4.5K/h) - FC to RT" Transport properties and electronic phase diagram of single-crystalline Ca10(Pt3As8)((Fe1-xPtx)2As2)5 2012 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 85(2012)224527"
153714 PRB085224527 Ca10(Pt3As8)((Fe1-xPtx)2As2)5 Ca10Pt3.981Fe9.019As18 Ca 10 Pt 3.981 Fe 9.019 As 18 3 2012 10-3-8 phase K 7.49 7.49 mOhm.cm 0.694 cm3/C 0.00201 MRH153714 "CaAs,FeAs,Pt" "mixture(CaAs:FeAs:Pt=2:2:(0.6+x)) - alumina crucible - sealed in quartz tube - heat(1323K,75h) - cool to 1173K (4.5K/h) - FC to RT" Transport properties and electronic phase diagram of single-crystalline Ca10(Pt3As8)((Fe1-xPtx)2As2)5 2012 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 85(2012)224527"
153715 PRB086020501 not SC. Tn(from Fe and Ce moment) = 145 K and 4 K CeFeAsO Ce1Fe1As1O1 Ce 1 Fe 1 As 1 O 1 3 2012 145 ABCD oxypnictide Fe-1111 K 1.8 "See Phys.Rev.B, 81(2010)134525" Ferromagnetism and superconductivity in CeFeAs1-xPxO (0 =< x =<40%) 2012 "Max Planck Institute for Chemical Physics of Solids, D-01187 Dresden, Germany" "Phys.Rev.B, 86(2012)020501"
153716 PRB086020501 Tn(from Fe and Ce moment) = 40 K and 4 K. Curie-T ( from Ce-moment) = 5 K. dL(10-100K)/L(100K) = -6.9 E-4 by thermal expansion. "CeFe(As,P)O" Ce1Fe1As0.7P0.3O1 Ce 1 Fe 1 As 0.7 P 0.3 O 1 3 2012 5 40 ABCD oxypnictide Fe-1111 K 4 4 "See Phys.Rev.B, 81(2010)134525" Ferromagnetism and superconductivity in CeFeAs1-xPxO (0 =< x =<40%) 2012 "Max Planck Institute for Chemical Physics of Solids, D-01187 Dresden, Germany" "Phys.Rev.B, 86(2012)020501"
153717 PRB086020501 not SC. Curie-T ( from Ce-moment) = 5 K. CeFePO Ce1Fe1P1O1 Ce 1 Fe 1 P 1 O 1 3 2012 1 AB2C3 oxypnictide Fe-1111 K 1.8 Oe 70 2.6 "See Phys.Rev.B, 81(2010)134525" Ferromagnetism and superconductivity in CeFeAs1-xPxO (0 =< x =<40%) 2012 "Max Planck Institute for Chemical Physics of Solids, D-01187 Dresden, Germany" "Phys.Rev.B, 86(2012)020501"
153718 PRB086024513 "magnetic properties using Curie-Weiss , Curie constant in emu.K/mol.Oe." LaRu3Si2 La1Ru3Si2 La 1 Ru 3 Si 2 1 2012 comment 0.00403 nyu-B/mol 0.12 -7.025 AB2C3 LaRu3Si2 A 5.6748 3.5569 K 7.18 7.18 "La(3N),Fe(4N),Co(4N),Ru(4N),Si(4N)" "arc-melting. To avoid the formation of LaRu2Si2 phase, excess Ru (about 15 %) are added." Distinct behaviors of suppression to superconductivity in LaRu3Si2 induced by Fe and Co dopants 2012 "Center for Superconducting Physics and Materials, National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 86(2012)024513"
153719 PRB086024513 "magnetic properties using Curie-Weiss , Curie constant in emu.K/mol.Oe." "La(Ru,Fe)3Si2" La1Ru2.97Fe0.03Si2 La 1 Ru 2.97 Fe 0.03 Si 2 1 2012 comment 0.00613 nyu-B/mol 0.76 -4.553 AB2C3 LaRu3Si2 A 5.6765 3.5595 K 6.22 6.22 "La(3N),Fe(4N),Co(4N),Ru(4N),Si(4N)" "arc-melting. To avoid the formation of LaRu2Si2 phase, excess Ru (about 15 %) are added." Distinct behaviors of suppression to superconductivity in LaRu3Si2 induced by Fe and Co dopants 2012 "Center for Superconducting Physics and Materials, National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 86(2012)024513"
153720 PRB086024513 "magnetic properties using Curie-Weiss , Curie constant in emu.K/mol.Oe." "La(Ru,Fe)3Si2" La1Ru2.94Fe0.06Si2 La 1 Ru 2.94 Fe 0.06 Si 2 1 2012 comment 0.0188 nyu-B/mol 1.4 -5.097 AB2C3 LaRu3Si2 A 5.6755 3.5601 K 4.58 4.58 MTC153720 "La(3N),Fe(4N),Co(4N),Ru(4N),Si(4N)" "arc-melting. To avoid the formation of LaRu2Si2 phase, excess Ru (about 15 %) are added." Distinct behaviors of suppression to superconductivity in LaRu3Si2 induced by Fe and Co dopants 2012 "Center for Superconducting Physics and Materials, National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 86(2012)024513"
153721 PRB086024513 "magnetic properties using Curie-Weiss , Curie constant in emu.K/mol.Oe." "La(Ru,Fe)3Si2" La1Ru2.925Fe0.075Si2 La 1 Ru 2.925 Fe 0.075 Si 2 1 2012 comment 0.02304 nyu-B/mol 1.42 -4.89 AB2C3 LaRu3Si2 A 5.6739 3.5577 K 3.12 3.12 "La(3N),Fe(4N),Co(4N),Ru(4N),Si(4N)" "arc-melting. To avoid the formation of LaRu2Si2 phase, excess Ru (about 15 %) are added." Distinct behaviors of suppression to superconductivity in LaRu3Si2 induced by Fe and Co dopants 2012 "Center for Superconducting Physics and Materials, National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 86(2012)024513"
153722 PRB086024513 "magnetic properties using Curie-Weiss , Curie constant in emu.K/mol.Oe." "La(Ru,Fe)3Si2" La1Ru2.9175Fe0.0825Si2 La 1 Ru 2.9175 Fe 0.0825 Si 2 1 2012 comment 0.02723 nyu-B/mol 1.51 -4.628 AB2C3 LaRu3Si2 A 5.6747 3.5588 K 2.51 2.51 "La(3N),Fe(4N),Co(4N),Ru(4N),Si(4N)" "arc-melting. To avoid the formation of LaRu2Si2 phase, excess Ru (about 15 %) are added." Distinct behaviors of suppression to superconductivity in LaRu3Si2 induced by Fe and Co dopants 2012 "Center for Superconducting Physics and Materials, National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 86(2012)024513"
153723 PRB086024513 "magnetic properties using Curie-Weiss , Curie constant in emu.K/mol.Oe." "La(Ru,Fe)3Si2" La1Ru2.91Fe0.09Si2 La 1 Ru 2.91 Fe 0.09 Si 2 1 2012 AB2C3 LaRu3Si2 A 5.6738 3.559 K 0 0 "La(3N),Fe(4N),Co(4N),Ru(4N),Si(4N)" "arc-melting. To avoid the formation of LaRu2Si2 phase, excess Ru (about 15 %) are added." Distinct behaviors of suppression to superconductivity in LaRu3Si2 induced by Fe and Co dopants 2012 "Center for Superconducting Physics and Materials, National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 86(2012)024513"
153724 PRB086024513 "La(Ru,Co)3Si2" La1Ru2.94Co0.06Si2 La 1 Ru 2.94 Co 0.06 Si 2 1 2012 comment 0.00883 nyu-B/mol 0.81 -5.596 AB2C3 LaRu3Si2 A 5.6734 3.5568 K 6.62 6.62 "La(3N),Fe(4N),Co(4N),Ru(4N),Si(4N)" "arc-melting. To avoid the formation of LaRu2Si2 phase, excess Ru (about 15 %) are added." Distinct behaviors of suppression to superconductivity in LaRu3Si2 induced by Fe and Co dopants 2012 "Center for Superconducting Physics and Materials, National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 86(2012)024513"
153725 PRB086024513 "La(Ru,Co)3Si2" La1Ru2.85Co0.15Si2 La 1 Ru 2.85 Co 0.15 Si 2 1 2012 comment 0.01046 nyu-B/mol 0.59 -12.608 AB2C3 LaRu3Si2 A 5.6722 3.5555 K 6.45 6.45 MTC153725 "La(3N),Fe(4N),Co(4N),Ru(4N),Si(4N)" "arc-melting. To avoid the formation of LaRu2Si2 phase, excess Ru (about 15 %) are added." Distinct behaviors of suppression to superconductivity in LaRu3Si2 induced by Fe and Co dopants 2012 "Center for Superconducting Physics and Materials, National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 86(2012)024513"
153726 PRB086024513 "La(Ru,Co)3Si2" La1Ru2.76Co0.24Si2 La 1 Ru 2.76 Co 0.24 Si 2 1 2012 comment 0.00984 nyu-B/mol 0.45 -9.307 AB2C3 LaRu3Si2 A 5.6635 3.5536 K 6.04 6.04 "La(3N),Fe(4N),Co(4N),Ru(4N),Si(4N)" "arc-melting. To avoid the formation of LaRu2Si2 phase, excess Ru (about 15 %) are added." Distinct behaviors of suppression to superconductivity in LaRu3Si2 induced by Fe and Co dopants 2012 "Center for Superconducting Physics and Materials, National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 86(2012)024513"
153727 PRB086024516 Basal plane distance d = 7.7979 A alpha-TiNCl Ti1N1Cl1 Ti 1 N 1 Cl 1 2012 Pmmm 3.937 3.2548 7.7979 alpha-ATiNCl K 0 Alkali metal intercalation was carried out using 0.1 M alkali-metal naphthalene solutions in tetrahydrofuran (A-Naph/THF) Superconductivity in electron-doped layered TiNCl with variable interlayer coupling 2012 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "Phys.Rev.B, 86(2012)024516"
153728 PRB086024516 Na-intercalated TiNCl. Na-content by ICP. Basal plane distance d = 8.442 A. Anisotropy (cohere) = 1.2. alpha-Na1.16TiNCl Na0.16Ti1N1Cl1 Na 0.16 Ti 1 N 1 Cl 1 2012 Bmmb 4.0187 3.2738 16.884 alpha-ATiNCl K 10 18 14 100 MHC153728 A from (dHc2/dT) 33 28 Alkali metal intercalation was carried out using 0.1 M alkali-metal naphthalene solutions in tetrahydrofuran (A-Naph/THF) Superconductivity in electron-doped layered TiNCl with variable interlayer coupling 2012 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "Phys.Rev.B, 86(2012)024516"
153729 PRB086024516 Na(THF) intercalated TiNCl. M=(THF)y: THF=tetrahydrofuran. Na-content by ICP. Basal plane distance d = 13.105 A. Anisotropy (cohere) = 1.5. alpha-Na1.16(THF)yTiNCl Na0.16M1Ti1N1Cl1 Na 0.16 M 1 Ti 1 N 1 Cl 1 2012 Immm 3.9687 3.2694 26.21 alpha-ATiNCl K 10.2 10.2 60 MHC153729 A from (dHc2/dT) 55 35 Alkali metal intercalation was carried out using 0.1 M alkali-metal naphthalene solutions in tetrahydrofuran (A-Naph/THF) Superconductivity in electron-doped layered TiNCl with variable interlayer coupling 2012 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "Phys.Rev.B, 86(2012)024516"
153730 PRB086024516 Na(PC) intercalated TiNCl. M=(PC): PC= propylene carbonate. Na-content by ICP. Basal plane distance d = 20.53 A. alpha-Na1.16(PC)yTiNCl Na0.16M1Ti1N1Cl1 Na 0.16 M 1 Ti 1 N 1 Cl 1 2012 Immm 3.982 3.273 41.07 alpha-ATiNCl K 7.4 7.4 38 MHC153730 A from (dHc2/dT) 84 Alkali metal intercalation was carried out using 0.1 M alkali-metal naphthalene solutions in tetrahydrofuran (A-Naph/THF) Superconductivity in electron-doped layered TiNCl with variable interlayer coupling 2012 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "Phys.Rev.B, 86(2012)024516"
153731 PRB086024524 "R not zero at 1.8K. T = 202 K, cohere = 5.4 A." Lu2Ir3Si5 Lu2Ir3Si5 Lu 2 Ir 3 Si 5 1 2012 A2B3C5 U2Co3Si5 Ibam 72 A 9.915 11.287 5.722 K 5.55 5.55 mJ/mol.K2 7.5 SP 376 SP "5N-Lu,Si,Ge, 4N-Sc,Ir,Rh" "arc-melting(seveal times) - wrapped in Ta foil - sealed in quartz tube - ANN(1000C, 10d)" "Interplay of superconductivity and charge density wave ordering in pseudoternary alloy compounds: Lu2Ir3(Si1-xGex)5, Lu2(Ir1-xRhx)3Si5, and (Lu1-xScx)2Ir3Si5" 2012 "Department of Physics, Indian Institute of Technology Guwahati, Guwahati, Assam 781039, India" "Phys.Rev.B, 86(2012)024524"
153732 PRB086024524 "T = 192 K, cohere = 6.8 A. Two step SC transition in SUS and RES." "Lu2Ir3(Si,Ge)5" Lu2Ir3Si4.98Ge0.02 Lu 2 Ir 3 Si 4.98 Ge 0.02 1 2012 A2B3C5 U2Co3Si5 Ibam 72 A 9.917 11.302 5.728 K 6.32 6.32 mJ/mol.K2 8.7 SP 367 SP "5N-Lu,Si,Ge, 4N-Sc,Ir,Rh" "arc-melting(seveal times) - wrapped in Ta foil - sealed in quartz tube - ANN(1000C, 10d)" "Interplay of superconductivity and charge density wave ordering in pseudoternary alloy compounds: Lu2Ir3(Si1-xGex)5, Lu2(Ir1-xRhx)3Si5, and (Lu1-xScx)2Ir3Si5" 2012 "Department of Physics, Indian Institute of Technology Guwahati, Guwahati, Assam 781039, India" "Phys.Rev.B, 86(2012)024524"
153733 PRB086024524 "T = 174 K, cohere = 9.66 A. Two step SC transition in SUS and RES." "Lu2Ir3(Si,Ge)5" Lu2Ir3Si4.95Ge0.05 Lu 2 Ir 3 Si 4.95 Ge 0.05 1 2012 A2B3C5 U2Co3Si5 Ibam 72 A 9.924 11.302 5.732 K 6.75 6.75 mJ/mol.K2 9.1 SP 367 SP "5N-Lu,Si,Ge, 4N-Sc,Ir,Rh" "arc-melting(seveal times) - wrapped in Ta foil - sealed in quartz tube - ANN(1000C, 10d)" "Interplay of superconductivity and charge density wave ordering in pseudoternary alloy compounds: Lu2Ir3(Si1-xGex)5, Lu2(Ir1-xRhx)3Si5, and (Lu1-xScx)2Ir3Si5" 2012 "Department of Physics, Indian Institute of Technology Guwahati, Guwahati, Assam 781039, India" "Phys.Rev.B, 86(2012)024524"
153734 PRB086024524 "T = 160 K, cohere = 11.37 A. Two step SC transition in SUS and RES." "Lu2Ir3(Si,Ge)5" Lu2Ir3Si4.9Ge0.1 Lu 2 Ir 3 Si 4.9 Ge 0.1 1 2012 A2B3C5 U2Co3Si5 Ibam 72 A 9.926 11.331 5.738 K 7.74 7.74 mJ/mol.K2 9.7 SP 348 SP "5N-Lu,Si,Ge, 4N-Sc,Ir,Rh" "arc-melting(seveal times) - wrapped in Ta foil - sealed in quartz tube - ANN(1000C, 10d)" "Interplay of superconductivity and charge density wave ordering in pseudoternary alloy compounds: Lu2Ir3(Si1-xGex)5, Lu2(Ir1-xRhx)3Si5, and (Lu1-xScx)2Ir3Si5" 2012 "Department of Physics, Indian Institute of Technology Guwahati, Guwahati, Assam 781039, India" "Phys.Rev.B, 86(2012)024524"
153735 PRB086024524 "T = 181 K, cohere = 13.54 A." "Lu2Ir3(Si,Ge)5" Lu2Ir3Si4.75Ge0.25 Lu 2 Ir 3 Si 4.75 Ge 0.25 1 2012 A2B3C5 U2Co3Si5 Ibam 72 A 9.91 11.348 5.748 K 6.2 6.2 mJ/mol.K2 8.5 SP 318 SP "5N-Lu,Si,Ge, 4N-Sc,Ir,Rh" "arc-melting(seveal times) - wrapped in Ta foil - sealed in quartz tube - ANN(1000C, 10d)" "Interplay of superconductivity and charge density wave ordering in pseudoternary alloy compounds: Lu2Ir3(Si1-xGex)5, Lu2(Ir1-xRhx)3Si5, and (Lu1-xScx)2Ir3Si5" 2012 "Department of Physics, Indian Institute of Technology Guwahati, Guwahati, Assam 781039, India" "Phys.Rev.B, 86(2012)024524"
153736 PRB086024524 "T = 204 K, cohere = 14.85 A." "Lu2Ir3(Si,Ge)5" Lu2Ir3Si4.5Ge0.5 Lu 2 Ir 3 Si 4.5 Ge 0.5 1 2012 A2B3C5 U2Co3Si5 Ibam 72 A 9.909 11.389 5.759 K 5.2 5.2 mJ/mol.K2 7.9 SP 299 SP "5N-Lu,Si,Ge, 4N-Sc,Ir,Rh" "arc-melting(seveal times) - wrapped in Ta foil - sealed in quartz tube - ANN(1000C, 10d)" "Interplay of superconductivity and charge density wave ordering in pseudoternary alloy compounds: Lu2Ir3(Si1-xGex)5, Lu2(Ir1-xRhx)3Si5, and (Lu1-xScx)2Ir3Si5" 2012 "Department of Physics, Indian Institute of Technology Guwahati, Guwahati, Assam 781039, India" "Phys.Rev.B, 86(2012)024524"
153737 PRB086024524 "T = 214 K, cohere = 16.68 A." "Lu2Ir3(Si,Ge)5" Lu2Ir3Si4.25Ge0.75 Lu 2 Ir 3 Si 4.25 Ge 0.75 1 2012 A2B3C5 U2Co3Si5 Ibam 72 A 9.854 11.423 5.786 K 4.6 4.6 mJ/mol.K2 6.9 SP 295 SP "5N-Lu,Si,Ge, 4N-Sc,Ir,Rh" "arc-melting(seveal times) - wrapped in Ta foil - sealed in quartz tube - ANN(1000C, 10d)" "Interplay of superconductivity and charge density wave ordering in pseudoternary alloy compounds: Lu2Ir3(Si1-xGex)5, Lu2(Ir1-xRhx)3Si5, and (Lu1-xScx)2Ir3Si5" 2012 "Department of Physics, Indian Institute of Technology Guwahati, Guwahati, Assam 781039, India" "Phys.Rev.B, 86(2012)024524"
153738 PRB086024524 "T = 231 K, cohere = 23.67 A." "Lu2Ir3(Si,Ge)5" Lu2Ir3Si4Ge1 Lu 2 Ir 3 Si 4 Ge 1 1 2012 A2B3C5 U2Co3Si5 Ibam 72 A 9.709 11.562 5.984 K 3.6 3.6 mJ/mol.K2 5.7 SP 284 SP "5N-Lu,Si,Ge, 4N-Sc,Ir,Rh" "arc-melting(seveal times) - wrapped in Ta foil - sealed in quartz tube - ANN(1000C, 10d)" "Interplay of superconductivity and charge density wave ordering in pseudoternary alloy compounds: Lu2Ir3(Si1-xGex)5, Lu2(Ir1-xRhx)3Si5, and (Lu1-xScx)2Ir3Si5" 2012 "Department of Physics, Indian Institute of Technology Guwahati, Guwahati, Assam 781039, India" "Phys.Rev.B, 86(2012)024524"
153739 PRB086024524 "T = 220 K, cohere = 9.01 A." "Lu2(Ir,Rh)3Si5" Lu2Ir2.97Rh0.03Si5 Lu 2 Ir 2.97 Rh 0.03 Si 5 1 2012 A2B3C5 U2Co3Si5 Ibam 72 A 9.881 11.264 5.709 K 4.6 4.6 mJ/mol.K2 6.3 SP 310 SP "5N-Lu,Si,Ge, 4N-Sc,Ir,Rh" "arc-melting(seveal times) - wrapped in Ta foil - sealed in quartz tube - ANN(1000C, 10d)" "Interplay of superconductivity and charge density wave ordering in pseudoternary alloy compounds: Lu2Ir3(Si1-xGex)5, Lu2(Ir1-xRhx)3Si5, and (Lu1-xScx)2Ir3Si5" 2012 "Department of Physics, Indian Institute of Technology Guwahati, Guwahati, Assam 781039, India" "Phys.Rev.B, 86(2012)024524"
153740 PRB086024524 "T = 233 K, cohere = 10 A." "Lu2(Ir,Rh)3Si5" Lu2Ir2.91Rh0.09Si5 Lu 2 Ir 2.91 Rh 0.09 Si 5 1 2012 A2B3C5 U2Co3Si5 Ibam 72 A 9.76 11.251 5.661 K 3.8 3.8 mJ/mol.K2 5.7 SP 3.9 SP "5N-Lu,Si,Ge, 4N-Sc,Ir,Rh" "arc-melting(seveal times) - wrapped in Ta foil - sealed in quartz tube - ANN(1000C, 10d)" "Interplay of superconductivity and charge density wave ordering in pseudoternary alloy compounds: Lu2Ir3(Si1-xGex)5, Lu2(Ir1-xRhx)3Si5, and (Lu1-xScx)2Ir3Si5" 2012 "Department of Physics, Indian Institute of Technology Guwahati, Guwahati, Assam 781039, India" "Phys.Rev.B, 86(2012)024524"
153741 PRB086024524 "T = 262 K, cohere = 8.61 A." "Lu2(Ir,Rh)3Si5" Lu2Ir2.7Rh0.3Si5 Lu 2 Ir 2.7 Rh 0.3 Si 5 1 2012 A2B3C5 U2Co3Si5 Ibam 72 A 9.711 11.173 5.652 K 3.1 3.1 mJ/mol.K2 4.6 SP 297 SP "5N-Lu,Si,Ge, 4N-Sc,Ir,Rh" "arc-melting(seveal times) - wrapped in Ta foil - sealed in quartz tube - ANN(1000C, 10d)" "Interplay of superconductivity and charge density wave ordering in pseudoternary alloy compounds: Lu2Ir3(Si1-xGex)5, Lu2(Ir1-xRhx)3Si5, and (Lu1-xScx)2Ir3Si5" 2012 "Department of Physics, Indian Institute of Technology Guwahati, Guwahati, Assam 781039, India" "Phys.Rev.B, 86(2012)024524"
153742 PRB086024524 "T = 283 K, cohere = 11.16 A." "Lu2(Ir,Rh)3Si5" Lu2Ir2.4Rh0.6Si5 Lu 2 Ir 2.4 Rh 0.6 Si 5 1 2012 A2B3C5 U2Co3Si5 Ibam 72 A 9.666 11.171 5.645 K 2.5 2.5 mJ/mol.K2 3.6 SP 3.9 SP "5N-Lu,Si,Ge, 4N-Sc,Ir,Rh" "arc-melting(seveal times) - wrapped in Ta foil - sealed in quartz tube - ANN(1000C, 10d)" "Interplay of superconductivity and charge density wave ordering in pseudoternary alloy compounds: Lu2Ir3(Si1-xGex)5, Lu2(Ir1-xRhx)3Si5, and (Lu1-xScx)2Ir3Si5" 2012 "Department of Physics, Indian Institute of Technology Guwahati, Guwahati, Assam 781039, India" "Phys.Rev.B, 86(2012)024524"
153743 PRB086024524 not SC above 1.8 K. no SDW "Lu2(Ir,Rh)3Si5" Lu2Ir2.1Rh0.9Si5 Lu 2 Ir 2.1 Rh 0.9 Si 5 1 2012 A2B3C5 U2Co3Si5 Ibam 72 A 9.561 11.161 5.622 K 1.8 "5N-Lu,Si,Ge, 4N-Sc,Ir,Rh" "arc-melting(seveal times) - wrapped in Ta foil - sealed in quartz tube - ANN(1000C, 10d)" "Interplay of superconductivity and charge density wave ordering in pseudoternary alloy compounds: Lu2Ir3(Si1-xGex)5, Lu2(Ir1-xRhx)3Si5, and (Lu1-xScx)2Ir3Si5" 2012 "Department of Physics, Indian Institute of Technology Guwahati, Guwahati, Assam 781039, India" "Phys.Rev.B, 86(2012)024524"
153744 PRB086024524 "T = 182 K," "(Lu,Sc)2Ir3Si5" Lu1.96Sc0.04Ir3Si5 Lu 1.96 Sc 0.04 Ir 3 Si 5 1 2012 A2B3C5 U2Co3Si5 Ibam 72 A 9.898 11.167 5.684 K 2.8 2.8 "5N-Lu,Si,Ge, 4N-Sc,Ir,Rh" "arc-melting(seveal times) - wrapped in Ta foil - sealed in quartz tube - ANN(1000C, 10d)" "Interplay of superconductivity and charge density wave ordering in pseudoternary alloy compounds: Lu2Ir3(Si1-xGex)5, Lu2(Ir1-xRhx)3Si5, and (Lu1-xScx)2Ir3Si5" 2012 "Department of Physics, Indian Institute of Technology Guwahati, Guwahati, Assam 781039, India" "Phys.Rev.B, 86(2012)024524"
153745 PRB086024524 "T = 174 K," "(Lu,Sc)2Ir3Si5" Lu1.92Sc0.08Ir3Si5 Lu 1.92 Sc 0.08 Ir 3 Si 5 1 2012 A2B3C5 U2Co3Si5 Ibam 72 A 9.644 10.831 5.656 K 3.1 3.1 "5N-Lu,Si,Ge, 4N-Sc,Ir,Rh" "arc-melting(seveal times) - wrapped in Ta foil - sealed in quartz tube - ANN(1000C, 10d)" "Interplay of superconductivity and charge density wave ordering in pseudoternary alloy compounds: Lu2Ir3(Si1-xGex)5, Lu2(Ir1-xRhx)3Si5, and (Lu1-xScx)2Ir3Si5" 2012 "Department of Physics, Indian Institute of Technology Guwahati, Guwahati, Assam 781039, India" "Phys.Rev.B, 86(2012)024524"
153746 PRB086024524 "T = 163 K," "(Lu,Sc)2Ir3Si5" Lu1.9Sc0.1Ir3Si5 Lu 1.9 Sc 0.1 Ir 3 Si 5 1 2012 A2B3C5 U2Co3Si5 Ibam 72 A 9.601 10.801 5.616 K 3.2 3.2 "5N-Lu,Si,Ge, 4N-Sc,Ir,Rh" "arc-melting(seveal times) - wrapped in Ta foil - sealed in quartz tube - ANN(1000C, 10d)" "Interplay of superconductivity and charge density wave ordering in pseudoternary alloy compounds: Lu2Ir3(Si1-xGex)5, Lu2(Ir1-xRhx)3Si5, and (Lu1-xScx)2Ir3Si5" 2012 "Department of Physics, Indian Institute of Technology Guwahati, Guwahati, Assam 781039, India" "Phys.Rev.B, 86(2012)024524"
153747 PRB086054502 RRR = 9.3. lattice term in C beta=22.39 mJ/mol.K4. Debye-T = 95.08 K by R(T). (dC/gammma*Tc) = 1.8. Anisotropy = 1.08. e-ph coupling = 0.74 Rh3Bi14 Rh3Bi14 Rh 3 Bi 14 2012 A3B14 Fddd A 6.891 17.388 31.718 K 2.84 2.94 3.04 2.91 0.3 2.94 81 Oe M-H curve 90 63 T "RES(onset), WHH" 1.24 1.34 T/K RES(onset) 0.601 0.647 MHC153747 A 157 169 A 2730 1660 mJ/mol.K2 8 SP 113.9 SP "Rh(3N),Bi(3N)" "flux growth method. mixture - alumina crucible covered with quartz wool - sealed in quartz tube - heat(1000C,2h) - cool to 300C (3.5C/h)" Superconducting state in the metastable binary bismuthide Rh3Bi14 single crystals 2012 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 86(2012)054502"
153748 PRB086054512 Heavy fermion SC. Heavy fermion state for T< 20 K. lattice term in SP beta=1.03 mJ/mol.K4 and delta= 9.3 mJ/mol.K6 for 2 < T < 10K. KNi2Se2 K1Ni2Se2 K 1 Ni 2 Se 2 1 2012 AB2C2 ThCr2Si2 A 3.9098 13.4145 Fe-122 K 0.8 0.8 mT "SP, WHH" 50 MHC153748 A from Hc2 800 mJ/mol.K2 44 SP 211 "SP, 2 are measured by thermal expansion coefficient. P-content by EDX. BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 Fe-122 K 0 mJ/mol.K2 4.73 SP self flux method. (Ba:FeP=1:5) - heat(1300C) - slow cool to 1200C (0.3 C/h) "Thermodynamic phase diagram, phase competition, and uniaxial pressure effects in BaFe2(As1-xPx)2 studied by thermal expansion" 2012 "Institut fur Festkorperphysik, Karlsruhe Institute of Technology, 76021 Karlsruhe, Germany" "Phys.Rev.B, 86(2012)094521"
153757 PRB086094521 Tc and T are measured by thermal expansion coefficient. P-content by EDX. T = 48.5 K. "BaFe2(As,P)2" Ba1Fe2As1.5P0.5 Ba 1 Fe 2 As 1.5 P 0.5 3 2012 AB2C2 ThCr2Si2 Fe-122 K 15.9 19.4 15.9 MPH153757 self flux method. (Ba:FeP=1:5) - heat(1300C) - slow cool to 1200C (0.3 C/h) "Thermodynamic phase diagram, phase competition, and uniaxial pressure effects in BaFe2(As1-xPx)2 studied by thermal expansion" 2012 "Institut fur Festkorperphysik, Karlsruhe Institute of Technology, 76021 Karlsruhe, Germany" "Phys.Rev.B, 86(2012)094521"
153758 PRB086094521 Tc and T are measured by thermal expansion coefficient. P-content by EDX. T = 40.9 K. "BaFe2(As,P)2" Ba1Fe2As1.46P0.54 Ba 1 Fe 2 As 1.46 P 0.54 3 2012 AB2C2 ThCr2Si2 Fe-122 K 24.5 30.3 24.5 MPH153757 mJ/mol.K2 22.4 SP self flux method. (Ba:FeP=1:5) - heat(1300C) - slow cool to 1200C (0.3 C/h) "Thermodynamic phase diagram, phase competition, and uniaxial pressure effects in BaFe2(As1-xPx)2 studied by thermal expansion" 2012 "Institut fur Festkorperphysik, Karlsruhe Institute of Technology, 76021 Karlsruhe, Germany" "Phys.Rev.B, 86(2012)094521"
153759 PRB086094521 Tc and T are measured by thermal expansion coefficient. P-content by EDX. (dTc/dPa) = 1.4 K/GPa. (dTc/dPc) = -6.3 K/GPa. (dC/Tc) = 38 mJ/mol.K2 "BaFe2(As,P)2" Ba1Fe2As1.34P0.66 Ba 1 Fe 2 As 1.34 P 0.66 3 2012 AB2C2 ThCr2Si2 Fe-122 K 28.8 28.8 28.8 K/GPa -3.5 mJ/mol.K2 21.9 SP self flux method. (Ba:FeP=1:5) - heat(1300C) - slow cool to 1200C (0.3 C/h) "Thermodynamic phase diagram, phase competition, and uniaxial pressure effects in BaFe2(As1-xPx)2 studied by thermal expansion" 2012 "Institut fur Festkorperphysik, Karlsruhe Institute of Technology, 76021 Karlsruhe, Germany" "Phys.Rev.B, 86(2012)094521"
153760 PRB086100505 not SC. T = 791 K. lattice distortion due to Ge-Ge dimer. BaNi2Ge2 Ba1Ni2Ge2 Ba 1 Ni 2 Ge 2 1 2012 AB2C2 ThCr2Si2 Pnma A 8.3888 11.3217 4.293 Fe-122 K 0 mJ/mol.K2 5.69 SP 255 SP "2 step reaction. mixture(Ba:Ni:Ge(P) = 1.05:2:2) - SIN(550C,10h + 800C,48h) - mixture(BaNi2Ge2,BaNi2P2) - heat(800C,24h) - reground - pellet - SIN(800C,24h)" Emergence of superconductivity in BaNi2(Ge1-xPx)2 at a structural instability 2012 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 86(2012)100505"
153761 PRB086100505 not SC. lattice distortion due to Ge-Ge dimer. "BaNi2(Ge,P)2" Ba1Ni2Ge1.8P0.2 Ba 1 Ni 2 Ge 1.8 P 0.2 1 2012 AB2C2 ThCr2Si2 Pnma A 8.3912 11.29 4.2742 Fe-122 K 0 mJ/mol.K2 6.35 SP 244 SP "2 step reaction. mixture(Ba:Ni:Ge(P) = 1.05:2:2) - SIN(550C,10h + 800C,48h) - mixture(BaNi2Ge2,BaNi2P2) - heat(800C,24h) - reground - pellet - SIN(800C,24h)" Emergence of superconductivity in BaNi2(Ge1-xPx)2 at a structural instability 2012 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 86(2012)100505"
153762 PRB086100505 not SC. lattice distortion due to Ge-Ge dimer. "BaNi2(Ge,P)2" Ba1Ni2Ge1.6P0.4 Ba 1 Ni 2 Ge 1.6 P 0.4 1 2012 AB2C2 ThCr2Si2 Pnma A 8.356 11.3184 4.2472 Fe-122 K 0 mJ/mol.K2 6.23 SP 242 SP "2 step reaction. mixture(Ba:Ni:Ge(P) = 1.05:2:2) - SIN(550C,10h + 800C,48h) - mixture(BaNi2Ge2,BaNi2P2) - heat(800C,24h) - reground - pellet - SIN(800C,24h)" Emergence of superconductivity in BaNi2(Ge1-xPx)2 at a structural instability 2012 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 86(2012)100505"
153763 PRB086100505 not SC. T = 320 K. lattice distortion due to Ge-Ge dimer. Two phases with spaceG (Pnma and I4/mmm) "BaNi2(Ge,P)2" Ba1Ni2Ge1.4P0.6 Ba 1 Ni 2 Ge 1.4 P 0.6 1 2012 AB2C2 ThCr2Si2 Pnma A 8.3067 11.3502 4.2038 Fe-122 K 0 mJ/mol.K2 6.59 SP 226 SP "2 step reaction. mixture(Ba:Ni:Ge(P) = 1.05:2:2) - SIN(550C,10h + 800C,48h) - mixture(BaNi2Ge2,BaNi2P2) - heat(800C,24h) - reground - pellet - SIN(800C,24h)" Emergence of superconductivity in BaNi2(Ge1-xPx)2 at a structural instability 2012 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 86(2012)100505"
153764 PRB086100505 not SC. T = 352-160 K. "BaNi2(Ge,P)2" Ba1Ni2Ge1.2P0.8 Ba 1 Ni 2 Ge 1.2 P 0.8 1 2012 AB2C2 ThCr2Si2 I4/mmm A 4.1228 11.4438 Fe-122 K 0 mJ/mol.K2 8.52 SP 217 SP "2 step reaction. mixture(Ba:Ni:Ge(P) = 1.05:2:2) - SIN(550C,10h + 800C,48h) - mixture(BaNi2Ge2,BaNi2P2) - heat(800C,24h) - reground - pellet - SIN(800C,24h)" Emergence of superconductivity in BaNi2(Ge1-xPx)2 at a structural instability 2012 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 86(2012)100505"
153765 PRB086100505 T = 217-88.2 K. (dC/gamma*Tc) = 1.28 "BaNi2(Ge,P)2" Ba1Ni2Ge1P1 Ba 1 Ni 2 Ge 1 P 1 1 2012 AB2C2 ThCr2Si2 I4/mmm A 4.0806 11.5191 Fe-122 K 0.68 0.68 mJ/mol.K2 8.58 SP 220 SP "2 step reaction. mixture(Ba:Ni:Ge(P) = 1.05:2:2) - SIN(550C,10h + 800C,48h) - mixture(BaNi2Ge2,BaNi2P2) - heat(800C,24h) - reground - pellet - SIN(800C,24h)" Emergence of superconductivity in BaNi2(Ge1-xPx)2 at a structural instability 2012 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 86(2012)100505"
153766 PRB086100505 T = 140-43.7 K. (dC/gamma*Tc) = 1.44 "BaNi2(Ge,P)2" Ba1Ni2Ge0.8P1.2 Ba 1 Ni 2 Ge 0.8 P 1.2 1 2012 AB2C2 ThCr2Si2 I4/mmm A 4.0419 11.6027 Fe-122 K 1.38 1.38 mJ/mol.K2 9.61 SP 224 SP "2 step reaction. mixture(Ba:Ni:Ge(P) = 1.05:2:2) - SIN(550C,10h + 800C,48h) - mixture(BaNi2Ge2,BaNi2P2) - heat(800C,24h) - reground - pellet - SIN(800C,24h)" Emergence of superconductivity in BaNi2(Ge1-xPx)2 at a structural instability 2012 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 86(2012)100505"
153767 PRB086100505 (dC/gamma*Tc) = 1.59 "BaNi2(Ge,P)2" Ba1Ni2Ge0.6P1.4 Ba 1 Ni 2 Ge 0.6 P 1.4 1 2012 AB2C2 ThCr2Si2 I4/mmm A 4.0102 11.8746 Fe-122 K 2.45 2.45 mJ/mol.K2 11.6 SP 221 SP "2 step reaction. mixture(Ba:Ni:Ge(P) = 1.05:2:2) - SIN(550C,10h + 800C,48h) - mixture(BaNi2Ge2,BaNi2P2) - heat(800C,24h) - reground - pellet - SIN(800C,24h)" Emergence of superconductivity in BaNi2(Ge1-xPx)2 at a structural instability 2012 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 86(2012)100505"
153768 PRB086100505 (dC/gamma*Tc) = 1.63 "BaNi2(Ge,P)2" Ba1Ni2Ge0.4P1.6 Ba 1 Ni 2 Ge 0.4 P 1.6 1 2012 AB2C2 ThCr2Si2 I4/mmm A 3.9821 11.7381 Fe-122 K 2.84 2.84 MTC153768 mJ/mol.K2 11.72 SP 253 SP "2 step reaction. mixture(Ba:Ni:Ge(P) = 1.05:2:2) - SIN(550C,10h + 800C,48h) - mixture(BaNi2Ge2,BaNi2P2) - heat(800C,24h) - reground - pellet - SIN(800C,24h)" Emergence of superconductivity in BaNi2(Ge1-xPx)2 at a structural instability 2012 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 86(2012)100505"
153769 PRB086100505 (dC/gamma*Tc) = 1.45 "BaNi2(Ge,P)2" Ba1Ni2Ge0.2P1.8 Ba 1 Ni 2 Ge 0.2 P 1.8 1 2012 AB2C2 ThCr2Si2 I4/mmm A 3.9563 11.9967 Fe-122 K 2.59 2.59 mJ/mol.K2 12.81 SP 291 SP "2 step reaction. mixture(Ba:Ni:Ge(P) = 1.05:2:2) - SIN(550C,10h + 800C,48h) - mixture(BaNi2Ge2,BaNi2P2) - heat(800C,24h) - reground - pellet - SIN(800C,24h)" Emergence of superconductivity in BaNi2(Ge1-xPx)2 at a structural instability 2012 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 86(2012)100505"
153770 PRB086100505 (dC/gamma*Tc) = 1.11 BaNi2P2 Ba1Ni2P2 Ba 1 Ni 2 P 2 1 2012 AB2C2 ThCr2Si2 I4/mmm A 3.9457 11.8117 Fe-122 K 2.55 2.55 mJ/mol.K2 14.43 SP 294 SP "2 step reaction. mixture(Ba:Ni:Ge(P) = 1.05:2:2) - SIN(550C,10h + 800C,48h) - mixture(BaNi2Ge2,BaNi2P2) - heat(800C,24h) - reground - pellet - SIN(800C,24h)" Emergence of superconductivity in BaNi2(Ge1-xPx)2 at a structural instability 2012 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 86(2012)100505"
153771 PRB086134501 "spacing between HfNCl plane, d = 9.24 A." beta-HfNCl Hf1N1Cl1 Hf 1 N 1 Cl 1 2012 SmSI R3[-]m A 3.58 27.71 K 0 Co-intercalation of Yb and NH3 or THF by liquid ammonia method at RT Superconductivity in YbxMyHfNCl (M = NH3 and THF) 2012 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 86(2012)134501"
153772 PRB086134501 "M = NH3. spacing between HfNCl plane, d = 11.95 A." Yb0.2(NH3)xHfNCl Yb0.2M1Hf1N1Cl1 Yb 0.2 M 1 Hf 1 N 1 Cl 1 2012 SmSI P3[-]m A 3.59 11.95 K 23 23 170 T "SUS,WHH" 4 T/K SUS 0.25 MHC153772 Co-intercalation of Yb and NH3 or THF by liquid ammonia method at RT Superconductivity in YbxMyHfNCl (M = NH3 and THF) 2012 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 86(2012)134501"
153773 PRB086134501 "M = NH3. spacing between HfNCl plane, d = 13.20 A." Yb0.3(NH3)xHfNCl Yb0.3M1Hf1N1Cl1 Yb 0.3 M 1 Hf 1 N 1 Cl 1 2012 SmSI P3[-]m A 3.59 13.2 K 24.8 24.8 145 Co-intercalation of Yb and NH3 or THF by liquid ammonia method at RT Superconductivity in YbxMyHfNCl (M = NH3 and THF) 2012 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 86(2012)134501"
153774 PRB086134501 "M = THF. spacing between HfNCl plane, d = 15.05 A." Yb0.2(THF)xHfNCl Yb0.2M1Hf1N1Cl1 Yb 0.2 M 1 Hf 1 N 1 Cl 1 2012 SmSI P3[-]m A 3.59 15.05 K 25.2 25.2 MTC153774 K/GPa -0.6 160 T "SUS,WHH" 6.6 T/K SUS 0.38 MHC153774 Ybx(NH3)HfNCl - immersing into THF solution for 1-2 days Superconductivity in YbxMyHfNCl (M = NH3 and THF) 2012 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 86(2012)134501"
153775 PRB086144509 [penet] measured by magnetic force microscopy. Anisotropy(H) = 1.85 "(Ca,Na)Fe2As2" Ca0.5Na0.5Fe2As2 Ca 0.5 Na 0.5 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 Fe-122 K 19.4 19.4 T/K 4 2.2 A from (dHc2/dT) 28 nm MFM(magnetic force microscopy) 260 Magnetic penetration-depth measurements of a suppressed superfluid density of superconducting Ca0.5Na0.5Fe2As2 single crystals by proton irradiation 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545 USA" "Phys.Rev.B, 86(2012)144509"
153776 PRB086144509 Proton(3.5 MeV)-irradiated sample. total proton dose = 2 E+16 /cm2. sample thickness = 28 um. [penet] measured by magnetic force microscopy. Anisotropy(H) = 1.65 "(Ca,Na)Fe2As2" Ca0.5Na0.5Fe2As2 Ca 0.5 Na 0.5 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 Fe-122 K 17.8 17.8 T/K 3.8 2.3 MHC153776 A from (dHc2/dT) 28 nm MFM(magnetic force microscopy) 430 Magnetic penetration-depth measurements of a suppressed superfluid density of superconducting Ca0.5Na0.5Fe2As2 single crystals by proton irradiation 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545 USA" "Phys.Rev.B, 86(2012)144509"
153777 PRB085180504 Ca10(Pt3As8)((Fe0.903Pt0.097)2As2)5 Ca10Pt3.97Fe9.03As18 Ca 10 Pt 3.97 Fe 9.03 As 18 3 2012 10-3-8 phase K 11 11 nm MFM(magnetic force microscopy) 1000 Large magnetic penetration depth and thermal fluctuations in a superconducting Ca10(Pt3As8)[(Fe1-xPtx)2As2]5 (x=0.097) single crystal 2012 Los Alamos "Phys.Rev.B, 85(2012)180504"
153778 PRB086174522 R not to zero at 5 K. Tc defined by SUS. no structural transformation upto 15 GPa. extrapolated Tc = 0 at P = 4.8 GPa. lattice parameters measured upto 15 GPa. NaAlSi Na1Al1Si1 Na 1 Al 1 Si 1 2012 ABC PbFCl P4/nmm 129 A 4.1247 7.368 K 7.4 7.4 MTC153778 "mixture(Na:Al:Si=3:1:1) - sealed in Ta tube - encapsuled in glass - heat to 970K with 50 K/h - ANN(970K,3d) - cool to RT with 50K/h - excess Na distilled off in vac." Effect of pressure on superconductivity in NaAlSi 2012 "Graduate School Material Science in Mainz, 55099 Mainz, Germany" "Phys.Rev.B, 86(2012)174522"
153779 PRB086174522 not SC NaAlGe Na1Al1Ge1 Na 1 Al 1 Ge 1 2012 ABC PbFCl P4/nmm 129 K 1.8 Effect of pressure on superconductivity in NaAlSi 2012 "Graduate School Material Science in Mainz, 55099 Mainz, Germany" "Phys.Rev.B, 86(2012)174522"
153780 PRB086180501 "K-content by EDX. NMR data shows microscopic coexistence of AFM and NMR. Tc = 16 K and 15.5 K for H//a = 12T and H//c =12T, respectively." "(Ba,K)Fe2As2" Ba0.77K0.23Fe2As2 Ba 0.77 K 0.23 Fe 2 As 2 3 2012 46 AB2C2 ThCr2Si2 Fe-122 K 16.5 16.5 MPH153780 self flux method Microscopic coexistence of antiferromagnetic order and superconductivity in Ba0.77K0.23Fe2As2 2012 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 86(2012)180501"
153781 PRB086180501 K-content by EDX. "(Ba,K)Fe2As2" Ba0.68K0.32Fe2As2 Ba 0.68 K 0.32 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 Fe-122 K 38.5 38.5 MPH153780 self flux method Microscopic coexistence of antiferromagnetic order and superconductivity in Ba0.77K0.23Fe2As2 2012 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 86(2012)180501"
153782 PRB086180501 K-content by EDX. "(Ba,K)Fe2As2" Ba0.39K0.61Fe2As2 Ba 0.39 K 0.61 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 Fe-122 K 24.5 24.5 self flux method Microscopic coexistence of antiferromagnetic order and superconductivity in Ba0.77K0.23Fe2As2 2012 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 86(2012)180501"
153783 PRB086214517 "hydrostatic P using He-gas. Tc by RES. (P,Tc) = (0.36,6.22), (0.67,5.29)" LaOFeP La1Fe1P1O1 La 1 Fe 1 P 1 O 1 3 2012 ABCD oxypnictide ZrCuSiAs K 7.32 7.32 K/GPa -3 "(R:Fe2O3:P:Sn = 9:3:6:80.5) - quartz ampoules - heat to 1135 C with 35C/h - keep (1135C,96h) - rapid cool to 700C - remove excess flux. O2-annealing(700C,24h, in flowing O2)" "Intrinsic dependence of Tc on hydrostatic (He-gas) pressure for superconducting LaFePO, PrFePO, and NdFePO single crystals" 2012 "Department of Physics, Washington University, CB 1105, One Brookings Dr., St. Louis, Missouri 63130, USA" "Phys.Rev.B, 86(2012)214517"
153784 PRB086214517 "hydrostatic P using He-gas. Tc by SUS. (P,Tc) = (0.24,6.03). (0.52,5.31), (0.76,4.79)" LaOFeP La1Fe1P1O1 La 1 Fe 1 P 1 O 1 3 2012 ABCD oxypnictide ZrCuSiAs K 6.72 6.72 K/GPa -2.46 "(R:Fe2O3:P:Sn = 9:3:6:80.5) - quartz ampoules - heat to 1135 C with 35C/h - keep (1135C,96h) - rapid cool to 700C - remove excess flux. O2-annealing(700C,24h, in flowing O2)" "Intrinsic dependence of Tc on hydrostatic (He-gas) pressure for superconducting LaFePO, PrFePO, and NdFePO single crystals" 2012 "Department of Physics, Washington University, CB 1105, One Brookings Dr., St. Louis, Missouri 63130, USA" "Phys.Rev.B, 86(2012)214517"
153785 PRB086214517 "hydrostatic P using He-gas. Tc by SUS. (P,Tc) = (0.36,3.30), (0.74,2.71)" PrOFeP Pr1Fe1P1O1 Pr 1 Fe 1 P 1 O 1 3 2012 ABCD oxypnictide ZrCuSiAs K 3.96 3.96 K/GPa -1.7 "(R:Fe2O3:P:Sn = 9:3:6:80.5) - quartz ampoules - heat to 1135 C with 35C/h - keep (1135C,96h) - rapid cool to 700C - remove excess flux. O2-annealing(700C,24h, in flowing O2)" "Intrinsic dependence of Tc on hydrostatic (He-gas) pressure for superconducting LaFePO, PrFePO, and NdFePO single crystals" 2012 "Department of Physics, Washington University, CB 1105, One Brookings Dr., St. Louis, Missouri 63130, USA" "Phys.Rev.B, 86(2012)214517"
153786 PRB086214517 "hydrostatic P using He-gas. Tc by SUS. (P,Tc) = (0.38,3.08), (0.76,2.35)" NdOFeP Nd1Fe1P1O1 Nd 1 Fe 1 P 1 O 1 3 2012 ABCD oxypnictide ZrCuSiAs K 3.83 3.83 K/GPa -1.94 "(R:Fe2O3:P:Sn = 9:3:6:80.5) - quartz ampoules - heat to 1135 C with 35C/h - keep (1135C,96h) - rapid cool to 700C - remove excess flux. O2-annealing(700C,24h, in flowing O2)" "Intrinsic dependence of Tc on hydrostatic (He-gas) pressure for superconducting LaFePO, PrFePO, and NdFePO single crystals" 2012 "Department of Physics, Washington University, CB 1105, One Brookings Dr., St. Louis, Missouri 63130, USA" "Phys.Rev.B, 86(2012)214517"
153787 PRB086214517 "poly crystal. unannealed sample.hydrostatic P using He-gas. Tc by SUS. (P,Tc) = (0.38,5.29), (0.73,4.23)" LaOFeP La1Fe1P1O1 La 1 Fe 1 P 1 O 1 1 2012 ABCD oxypnictide ZrCuSiAs K 6.61 6.61 K/GPa -3.24 "(R:Fe2O3:P:Sn = 9:3:6:80.5) - quartz ampoules - heat to 1135 C with 35C/h - keep (1135C,96h) - rapid cool to 700C - remove excess flux. O2-annealing(700C,24h, in flowing O2)" "Intrinsic dependence of Tc on hydrostatic (He-gas) pressure for superconducting LaFePO, PrFePO, and NdFePO single crystals" 2012 "Department of Physics, Washington University, CB 1105, One Brookings Dr., St. Louis, Missouri 63130, USA" "Phys.Rev.B, 86(2012)214517"
153788 PRB086214517 "poly crystal. unannealed sample.hydrostatic P using He-gas. Tc by RES. (P,Tc) = (0.29,4.88), (0.56,4.39), (0.78,3.72)" LaOFeP La1Fe1P1O1 La 1 Fe 1 P 1 O 1 1 2012 ABCD oxypnictide ZrCuSiAs K 5.63 5.63 K/GPa -2.3 "(R:Fe2O3:P:Sn = 9:3:6:80.5) - quartz ampoules - heat to 1135 C with 35C/h - keep (1135C,96h) - rapid cool to 700C - remove excess flux. O2-annealing(700C,24h, in flowing O2)" "Intrinsic dependence of Tc on hydrostatic (He-gas) pressure for superconducting LaFePO, PrFePO, and NdFePO single crystals" 2012 "Department of Physics, Washington University, CB 1105, One Brookings Dr., St. Louis, Missouri 63130, USA" "Phys.Rev.B, 86(2012)214517"
153789 PRB086214517 Piston cylinder cell. P-medium = Fluorinert FC-70. LaOFeP La1Fe1P1O1 La 1 Fe 1 P 1 O 1 3 2012 ABCD oxypnictide ZrCuSiAs K 7.22 7.22 MTC153789 K/GPa -4.5 "Ce,CeF3,CeO2,Bi2S3,S" "solid state reaction. mixture - pellet - sealed in quartz - heat(700C,10h) - cool to RT. reground - pellet - ANN(600C,10h)" "Intrinsic dependence of Tc on hydrostatic (He-gas) pressure for superconducting LaFePO, PrFePO, and NdFePO single crystals" 2012 "Department of Physics, Washington University, CB 1105, One Brookings Dr., St. Louis, Missouri 63130, USA" "Phys.Rev.B, 86(2012)214517"
153790 PRB086214518 "not SC. RES, Hall effect, magnetoresistance measured." CeOBiS2 Ce1Bi1S2O1 Ce 1 Bi 1 S 2 O 1 2012 ABCD2 P4/nmmz A 4.016 13.607 "CeOBiS2, 1112" K 1.8 Superconductivity appears in the vicinity of semiconducting-like behavior in CeO1-xFxBiS2 2012 "National Laboratory of Solid State Microstructures and Department of Physics, Center for Superconducting Physics and Materials, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 86(2012)214518"
153791 PRB086214518 "not SC. RES, Hall effect, magnetoresistance measured." "Ce(O,F)BiS2" Ce1Bi1S2F0.25O0.75 Ce 1 Bi 1 S 2 F 0.25 O 0.75 2012 ABCD2 P4/nmmz A 4.0329 13.519 "CeOBiS2, 1112" K 1.8 Superconductivity appears in the vicinity of semiconducting-like behavior in CeO1-xFxBiS2 2012 "National Laboratory of Solid State Microstructures and Department of Physics, Center for Superconducting Physics and Materials, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 86(2012)214518"
153792 PRB086214518 "RES, Hall effect, magnetoresistance measured." "Ce(O,F)BiS2" Ce1Bi1S2F0.33O0.67 Ce 1 Bi 1 S 2 F 0.33 O 0.67 2012 ABCD2 P4/nmmz A 4.0361 13.465 "CeOBiS2, 1112" K 2.25 2.25 Superconductivity appears in the vicinity of semiconducting-like behavior in CeO1-xFxBiS2 2012 "National Laboratory of Solid State Microstructures and Department of Physics, Center for Superconducting Physics and Materials, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 86(2012)214518"
153793 PRB086214518 "RES, Hall effect, magnetoresistance measured." "Ce(O,F)BiS2" Ce1Bi1S2F0.4O0.6 Ce 1 Bi 1 S 2 F 0.4 O 0.6 2012 ABCD2 P4/nmmz A 4.0383 13.406 "CeOBiS2, 1112" K 2.77 2.77 Superconductivity appears in the vicinity of semiconducting-like behavior in CeO1-xFxBiS2 2012 "National Laboratory of Solid State Microstructures and Department of Physics, Center for Superconducting Physics and Materials, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 86(2012)214518"
153794 PRB086214518 "RES, Hall effect, magnetoresistance measured. FM below 5 K." "Ce(O,F)BiS2" Ce1Bi1S2F0.5O0.5 Ce 1 Bi 1 S 2 F 0.5 O 0.5 2012 ABCD2 P4/nmmz A 4.0388 13.373 "CeOBiS2, 1112" K 3 3 MTC153794 Superconductivity appears in the vicinity of semiconducting-like behavior in CeO1-xFxBiS2 2012 "National Laboratory of Solid State Microstructures and Department of Physics, Center for Superconducting Physics and Materials, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 86(2012)214518"
153795 PRB086214518 "RES, Hall effect, magnetoresistance measured." "Ce(O,F)BiS2" Ce1Bi1S2F0.6O0.4 Ce 1 Bi 1 S 2 F 0.6 O 0.4 2012 ABCD2 P4/nmmz A 4.0371 13.341 "CeOBiS2, 1112" K 2.96 2.96 Superconductivity appears in the vicinity of semiconducting-like behavior in CeO1-xFxBiS2 2012 "National Laboratory of Solid State Microstructures and Department of Physics, Center for Superconducting Physics and Materials, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 86(2012)214518"
153796 PRB086220509 Pressure by piston-sylinder using FC75 fluorinert medium. Energy gap by neutron spin resonance. "Fe(Te,Se)" Fe1Te0.6Se0.4 Fe 1 Te 0.6 Se 0.4 3 2012 AB PbO A 3.8023 6.069 K 11.5 13.6 11 11 MTC153796 4.6 8 Bridgman method Effect of pressure on the neutron spin resonance in the unconventional superconductor FeTe0.6Se0.4 2012 "Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 86(2012)220509"
153797 JPS081114725 "2nd annealing (800C,10h)." "La(O,F)BiS2" La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 2012 P4/nmmz A 4.0614 13.379 "CeOBiS2, 1112" K 2.7 2.7 11 "LanO3(3N),LaF3(3N),La2S3(3N),Bi2S3,Bi" "mixture - pellet - sealed in quartz tube - heat(800C,10h) - ground - mixture - pellet - ANN(800C,10h)" Superconductivity in Novel BiS2-Based Layered Superconductor LaO1-xFxBiS2 2012 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 81(2012)114725"
153798 JPS081114725 "2nd annealing (700C,10h)." "La(O,F)BiS2" La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 2012 P4/nmmz A 4.0528 13.321 "CeOBiS2, 1112" K 3 3 13.4 "LanO3(3N),LaF3(3N),La2S3(3N),Bi2S3,Bi" "mixture - pellet - sealed in quartz tube - heat(800C,10h) - ground - mixture - pellet - ANN(800C,10h)" Superconductivity in Novel BiS2-Based Layered Superconductor LaO1-xFxBiS2 2012 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 81(2012)114725"
153799 JPS081114725 "high-P annealing ANN(700C) and ANN(600C, P=2 GPa). Hc2 defined as R deviate from normal value." "La(O,F)BiS2" La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 2012 P4/nmmz A "CeOBiS2, 1112" K 7.58 10.6 9.09 100 T "RES(onset), WHH" 10 T/K RES(onset) 1.37 MHC153799 "LanO3(3N),LaF3(3N),La2S3(3N),Bi2S3,Bi" "mixture - pellet - sealed in quartz tube - heat(800C,10h) - ground - mixture - pellet - ANN(800C,10h)" Superconductivity in Novel BiS2-Based Layered Superconductor LaO1-xFxBiS2 2012 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 81(2012)114725"
153800 PRB086220510 SC volume fraction at 2K = 100%. Bi4O4S3 Bi4S3O4 Bi 4 S 3 O 4 2012 A3B4C4 I4/mmm A 3.9592 41.241 "another candidate of space G , I-42m" K 4.5 8.6 6.55 100 T "RES(onset), WHH" 21 T/K RES(onset) 3.54 MHC153800 "Bi2S3,Bi2O3,S" "mixture - ground - pellet - sealed in quartz tube - heat(510C,10h) - reground - pellet - ANN(510C,10h in evacuated quartz tube)" BiS2-based layered superconductor Bi4O4S3 2012 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1 Minami-osawa, Hachioji, Tokyo 192-0397, Japan" "Phys.Rev.B, 86(2012)220510"
153801 PRB086224507 "isotropic magnetic behaviour. (dC/gamma*Tc) = 0.36. Lattice term in SP, beta=1.18 mJ/mol.K4, delta = 0.0103 mJ/mol.K6. Comp = La2.1Pt2.8Ge5.1 by EDX" La2Pt3Ge5 La2Pt3Ge5 La 2 Pt 3 Ge 5 3 2012 A2B3C5 U2Co3Si5 Ibam A 10.1508 12.03 6.2709 K 8.1 8.1 mJ/mol.K2 4.65 SP "La(3N),Pr(3N),Pt(4N),Ge(5N)" "Pt-Ge mixture as flux. La(or Pr):Pt:Ge = 1:4:20, -alumina crucible - sealed in quartz tube(1/3 atm Ar) - heat to 1130C(200C/h) - keep(40h) - cool to 850C(3C/h)" Possible multigap superconductivity and magnetism in single crystals of superconducting La2Pt3Ge5 and Pr2Pt3Ge5 2012 "School of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), Gwangju 500-712, Korea" "Phys.Rev.B, 86(2012)224507"
153802 PRB086224507 "Curie-T = -54.63 K, Meff = 3.65 myu-B/Pr for H//ab. For H//c, data in DB. Comp = Pr2.1Pt2.9Ge5.0 by EDX" Pr2Pt3Ge5 Pr2Pt3Ge5 Pr 2 Pt 3 Ge 5 3 2012 mB/Pr 3.65 -40.35 A2B3C5 U2Co3Si5 Ibam A 10.1333 11.86 6.2288 K 7.8 7.8 "La(3N),Pr(3N),Pt(4N),Ge(5N)" "Pt-Ge mixture as flux. La(or Pr):Pt:Ge = 1:4:20, -alumina crucible - sealed in quartz tube(1/3 atm Ar) - heat to 1130C(200C/h) - keep(40h) - cool to 850C(3C/h)" Possible multigap superconductivity and magnetism in single crystals of superconducting La2Pt3Ge5 and Pr2Pt3Ge5 2012 "School of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), Gwangju 500-712, Korea" "Phys.Rev.B, 86(2012)224507"
153803 PRB086224514 (dC/Tc) = 67 mJ/mol.K2. Thermal expansin jump at Tc = 1.2 E-6 /K. c-axis uniaxial P dependence of Tc: (dTc/dP) = 1.1 K/GPa estimated from thermal expansion KFe2As2 K1Fe2As2 K 1 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 0.0057 "Fe-122, (dL/L)c = 0.0006 at 77K." K 3.4 3.43 3.4 MTC153803 K/GPa -1.04 mJ/mol.K2 107 SP 224 SP KAs flux method.. mixture(K:Fe:As=5:2:6) - alumina crucible - sealed fused silica ampule - heat to 920 C - slow cool to 620 C(1C/h) Hydrostatic and uniaxial pressure dependence of superconducting transition temperature of KFe2As2 single crystals 2012 "The Ames Laboratory, US Department of Energy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 86(2012)224514"
153805 CIN039S257 "(Tl,Bi)(Sr,Yb)2Ca(Cu,Fe)2O7" Tl0.9Bi0.1Sr1.8Yb0.2Ca1Cu1.99Fe0.01O7-z Tl 0.9 Bi 0.1 Sr 1.8 Yb 0.2 Ca 1 Cu 1.99 Fe 0.01 O 7-z 2013 2 Tl1212 A 3.797 12.126 Tl-1212 K 40 88.1 64.05 "SrCO3,CaO,CuO,CdO,A2O3(A=Yb,Fe,Tl,Bi)" 1 "Precursor(Sr-Yb-Ca-Cu-Fe-Cd-O) - heat(900C,24h), then mixed with Tl2O3 & Bi2O3 - pellet - heat(1000C, 5min) - FC to RT" Superconducting fluctuation and infrared absorption of Cd-substituted Tl0.9Bi0.1Sr1.8Yb0.2Ca1-xCdxCu1.99Fe0.01O7-d ceramics 2013 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Malaysia" "Ceramics International, 39(2013)S257"
153806 CIN039S257 "[cohere]c calculates from resistivity using LD model, Josephson coupling. Anisotropy(cohere) = 14.641 assuming [cohere]ab = 10 A." "(Tl,Bi)(Sr,Yb)2(Ca,Cd)(Cu,Fe)2O7" Tl0.9Bi0.1Sr1.8Yb0.2Ca0.9Cd0.1Cu1.99Fe0.01O7-z Tl 0.9 Bi 0.1 Sr 1.8 Yb 0.2 Ca 0.9 Cd 0.1 Cu 1.99 Fe 0.01 O 7-z 2013 2 Tl1212 A 3.796 12.121 Tl-1212 K 57.5 85.1 71.3 A "from resistivity, L-D model" 0.683 "SrCO3,CaO,CuO,CdO,A2O3(A=Yb,Fe,Tl,Bi)" 1 "Precursor(Sr-Yb-Ca-Cu-Fe-Cd-O) - heat(900C,24h), then mixed with Tl2O3 & Bi2O3 - pellet - heat(1000C, 5min) - FC to RT" Superconducting fluctuation and infrared absorption of Cd-substituted Tl0.9Bi0.1Sr1.8Yb0.2Ca1-xCdxCu1.99Fe0.01O7-d ceramics 2013 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Malaysia" "Ceramics International, 39(2013)S257"
153807 CIN039S257 "[cohere]c calculates from resistivity using LD model, Josephson coupling. Anisotropy(cohere) = 17.699 assuming [cohere]ab = 10 A." "(Tl,Bi)(Sr,Yb)2(Ca,Cd)(Cu,Fe)2O7" Tl0.9Bi0.1Sr1.8Yb0.2Ca0.8Cd0.2Cu1.99Fe0.01O7-z Tl 0.9 Bi 0.1 Sr 1.8 Yb 0.2 Ca 0.8 Cd 0.2 Cu 1.99 Fe 0.01 O 7-z 2013 2 Tl1212 A 3.795 12.118 Tl-1212 K 68.2 88.5 78.35 A "from resistivity, L-D model" 0.565 "SrCO3,CaO,CuO,CdO,A2O3(A=Yb,Fe,Tl,Bi)" 1 "Precursor(Sr-Yb-Ca-Cu-Fe-Cd-O) - heat(900C,24h), then mixed with Tl2O3 & Bi2O3 - pellet - heat(1000C, 5min) - FC to RT" Superconducting fluctuation and infrared absorption of Cd-substituted Tl0.9Bi0.1Sr1.8Yb0.2Ca1-xCdxCu1.99Fe0.01O7-d ceramics 2013 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Malaysia" "Ceramics International, 39(2013)S257"
153808 CIN039S257 "[cohere]c calculates from resistivity using LD model, Josephson coupling. Anisotropy(cohere) = 14.184 assuming [cohere]ab = 10 A." "(Tl,Bi)(Sr,Yb)2(Ca,Cd)(Cu,Fe)2O7" Tl0.9Bi0.1Sr1.8Yb0.2Ca0.7Cd0.3Cu1.99Fe0.01O7-z Tl 0.9 Bi 0.1 Sr 1.8 Yb 0.2 Ca 0.7 Cd 0.3 Cu 1.99 Fe 0.01 O 7-z 2013 2 Tl1212 A 3.794 12.116 Tl-1212 K 76.4 93.6 85 A "from resistivity, L-D model" 0.705 "SrCO3,CaO,CuO,CdO,A2O3(A=Yb,Fe,Tl,Bi)" 1 "Precursor(Sr-Yb-Ca-Cu-Fe-Cd-O) - heat(900C,24h), then mixed with Tl2O3 & Bi2O3 - pellet - heat(1000C, 5min) - FC to RT" Superconducting fluctuation and infrared absorption of Cd-substituted Tl0.9Bi0.1Sr1.8Yb0.2Ca1-xCdxCu1.99Fe0.01O7-d ceramics 2013 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Malaysia" "Ceramics International, 39(2013)S257"
153809 CIN039S257 "[cohere]c calculates from resistivity using LD model, Josephson coupling. Anisotropy(cohere) = 14.038 assuming [cohere]ab = 10 A." "(Tl,Bi)(Sr,Yb)2(Ca,Cd)(Cu,Fe)2O7" Tl0.9Bi0.1Sr1.8Yb0.2Ca0.6Cd0.4Cu1.99Fe0.01O7-z Tl 0.9 Bi 0.1 Sr 1.8 Yb 0.2 Ca 0.6 Cd 0.4 Cu 1.99 Fe 0.01 O 7-z 2013 2 Tl1212 A 3.793 12.111 Tl-1212 K 74.8 91.9 83.35 A "from resistivity, L-D model" 0.665 "SrCO3,CaO,CuO,CdO,A2O3(A=Yb,Fe,Tl,Bi)" 1 "Precursor(Sr-Yb-Ca-Cu-Fe-Cd-O) - heat(900C,24h), then mixed with Tl2O3 & Bi2O3 - pellet - heat(1000C, 5min) - FC to RT" Superconducting fluctuation and infrared absorption of Cd-substituted Tl0.9Bi0.1Sr1.8Yb0.2Ca1-xCdxCu1.99Fe0.01O7-d ceramics 2013 "Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam, Malaysia" "Ceramics International, 39(2013)S257"
153810 JPS082013703 BaTi2Bi2O Ba1Ti2Bi2O1 Ba 1 Ti 2 Bi 2 O 1 2013 A1B1C2D2 P4/mmm A 4.1232 8.3447 oxybismuthide K 4.6 4.6 4.6 60 "BaO(4N),Ti(3N),Bi(3N)" "pellet - wrapped in Ta foil - sealed in quartz tube - heat(850C,50h)" Synthesis and Physical Properties of the New Oxybismuthides BaTi2Bi2O and (SrF)2Ti2Bi2O with a d1 Square Net 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)013703"
153811 JPS082013703 not SC (SrF)2Ti2Bi2O Sr1F1Ti2Bi2O1 Sr 1 F 1 Ti 2 Bi 2 O 1 2013 A1B2C2D2 I4/mmm A 4.1178 21.3703 oxybismuthide K 1.85 "SrF2,SrO(3N),Ti(3N),Bi(3N)" "pellet - wrapped in Ta foil - sealed in quartz tube - heat(900C,50h)" Synthesis and Physical Properties of the New Oxybismuthides BaTi2Bi2O and (SrF)2Ti2Bi2O with a d1 Square Net 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)013703"
153812 JPS082023711 "impurity phases: Hg1234, HgO. (dTc/dP) = 2.5 K/GPa for P<5 GPa and = 1.0 K/GPa for P > 10GPa" HgBa2Ca2Cu3O8 Hg1Ba2Ca2Cu3O8+z Hg 1 Ba 2 Ca 2 Cu 3 O 8+z 1 2013 Hg1223 K 130.5 130.9 131.7 130.9 TC153812 K/GPa 2.5 "high P synthesis. mixture(HgO:precursor Ba2Ca2Cu3Oz = 0.75:1) - press - charged in Au capsule - heat(830C,0.5h,P=2 GPa using cubic-anvil HP apparatus)" Zero Resistivity above 150K in HgBa2Ca2Cu3O8t at High Pressure 2013 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "J.Phys.Soc.Jpn, 82(2013)023711"
153813 JPS082033705 T = 203 K BaTi2As2O Ba1Ti2As2O1 Ba 1 Ti 2 As 2 O 1 1 2013 A 4.0454 7.2776 K 1.85 "BaO(4N),Ti(3N),As(6N),Sb(3N)" "solid state reaction. mixture - pellet - wrapped in Ta foil - sealed in quartz tube - heat to 1000C(100C/h) - keep(1000C,40h) - cool to RT(50C/h)" "Two Superconducting Phases in the Isovalent Solid Solutions BaTi2Pn2O (Pn = As, Sb, and Bi)" 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)033705"
153814 JPS082033705 T = 160 K "BaTi2(As,Sb)2O" Ba1Ti2As1.2Sb0.8O1 Ba 1 Ti 2 As 1.2 Sb 0.8 O 1 1 2013 A 4.0759 7.5589 K 1.85 "BaO(4N),Ti(3N),As(6N),Sb(3N)" "solid state reaction. mixture - pellet - wrapped in Ta foil - sealed in quartz tube - heat to 1000C(100C/h) - keep(1000C,40h) - cool to RT(50C/h)" "Two Superconducting Phases in the Isovalent Solid Solutions BaTi2Pn2O (Pn = As, Sb, and Bi)" 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)033705"
153815 JPS082033705 T = 95 K "BaTi2(As,Sb)2O" Ba1Ti2As0.4Sb1.6O1 Ba 1 Ti 2 As 0.4 Sb 1.6 O 1 1 2013 A 4.1012 7.8953 K 1.85 TC153815 "BaO(4N),Ti(3N),As(6N),Sb(3N)" "solid state reaction. mixture - pellet - wrapped in Ta foil - sealed in quartz tube - heat to 1000C(100C/h) - keep(1000C,40h) - cool to RT(50C/h)" "Two Superconducting Phases in the Isovalent Solid Solutions BaTi2Pn2O (Pn = As, Sb, and Bi)" 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)033705"
153816 JPS082033705 T = 85 K "BaTi2(As,Sb)2O" Ba1Ti2As0.2Sb1.8O1 Ba 1 Ti 2 As 0.2 Sb 1.8 O 1 1 2013 A 4.1066 7.9991 K 0.48 0.48 50 "BaO(4N),Ti(3N),As(6N),Sb(3N)" "solid state reaction. mixture - pellet - wrapped in Ta foil - sealed in quartz tube - heat to 1000C(100C/h) - keep(1000C,40h) - cool to RT(50C/h)" "Two Superconducting Phases in the Isovalent Solid Solutions BaTi2Pn2O (Pn = As, Sb, and Bi)" 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)033705"
153817 JPS082033705 T = 50 K BaTi2Sb2O Ba1Ti2Sb2O1 Ba 1 Ti 2 Sb 2 O 1 1 2013 A 4.1126 8.0804 K 1.48 1.48 50 "BaO(4N),Ti(3N),As(6N),Sb(3N)" "solid state reaction. mixture - pellet - wrapped in Ta foil - sealed in quartz tube - heat to 1000C(100C/h) - keep(1000C,40h) - cool to RT(50C/h)" "Two Superconducting Phases in the Isovalent Solid Solutions BaTi2Pn2O (Pn = As, Sb, and Bi)" 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)033705"
153818 JPS082033705 "BaTi2(Sb,Bi)2O" Ba1Ti2Sb1.6Bi0.4O1 Ba 1 Ti 2 Sb 1.6 Bi 0.4 O 1 1 2013 A 4.1121 8.1252 K 3.47 3.47 TC153818 50 "BaO(4N),Ti(3N),Bi(3N),Sb(3N)" "solid state reaction. mixture - pellet - wrapped in Ta foil - sealed in quartz tube - heat to 900 C(100C/h) - keep(900C,40h) - cool to RT(50C/h)" "Two Superconducting Phases in the Isovalent Solid Solutions BaTi2Pn2O (Pn = As, Sb, and Bi)" 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)033705"
153819 JPS082033705 "BaTi2(Sb,Bi)2O" Ba1Ti2Sb1.4Bi0.6O1 Ba 1 Ti 2 Sb 1.4 Bi 0.6 O 1 1 2013 A 4.1138 8.1617 K 2.59 2.59 50 "BaO(4N),Ti(3N),Bi(3N),Sb(3N)" "solid state reaction. mixture - pellet - wrapped in Ta foil - sealed in quartz tube - heat to 900 C(100C/h) - keep(900C,40h) - cool to RT(50C/h)" "Two Superconducting Phases in the Isovalent Solid Solutions BaTi2Pn2O (Pn = As, Sb, and Bi)" 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)033705"
153820 JPS082033705 not bulk SC. but SC sign at 3.0 K "BaTi2(Sb,Bi)2O" Ba1Ti2Sb1.2Bi0.8O1 Ba 1 Ti 2 Sb 1.2 Bi 0.8 O 1 1 2013 A 4.1169 8.1897 K 1.85 "BaO(4N),Ti(3N),Bi(3N),Sb(3N)" "solid state reaction. mixture - pellet - wrapped in Ta foil - sealed in quartz tube - heat to 900 C(100C/h) - keep(900C,40h) - cool to RT(50C/h)" "Two Superconducting Phases in the Isovalent Solid Solutions BaTi2Pn2O (Pn = As, Sb, and Bi)" 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)033705"
153821 JPS082033705 not bulk SC. but SC sign at 2.0 K "BaTi2(Sb,Bi)2O" Ba1Ti2Sb1Bi1O1 Ba 1 Ti 2 Sb 1 Bi 1 O 1 1 2013 A 4.1175 8.2093 K 1.85 "BaO(4N),Ti(3N),Bi(3N),Sb(3N)" "solid state reaction. mixture - pellet - wrapped in Ta foil - sealed in quartz tube - heat to 900 C(100C/h) - keep(900C,40h) - cool to RT(50C/h)" "Two Superconducting Phases in the Isovalent Solid Solutions BaTi2Pn2O (Pn = As, Sb, and Bi)" 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)033705"
153822 JPS082033705 "BaTi2(Sb,Bi)2O" Ba1Ti2Sb0.8Bi1.2O1 Ba 1 Ti 2 Sb 0.8 Bi 1.2 O 1 1 2013 A 4.1199 8.2177 K 4.02 4.02 TC153818 50 "BaO(4N),Ti(3N),Bi(3N),Sb(3N)" "solid state reaction. mixture - pellet - wrapped in Ta foil - sealed in quartz tube - heat to 900 C(100C/h) - keep(900C,40h) - cool to RT(50C/h)" "Two Superconducting Phases in the Isovalent Solid Solutions BaTi2Pn2O (Pn = As, Sb, and Bi)" 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)033705"
153823 JPS082033705 "BaTi2(Sb,Bi)2O" Ba1Ti2Sb0.4Bi1.6O1 Ba 1 Ti 2 Sb 0.4 Bi 1.6 O 1 1 2013 A 4.1211 8.2794 K 4.52 4.52 50 "BaO(4N),Ti(3N),Bi(3N),Sb(3N)" "solid state reaction. mixture - pellet - wrapped in Ta foil - sealed in quartz tube - heat to 900 C(100C/h) - keep(900C,40h) - cool to RT(50C/h)" "Two Superconducting Phases in the Isovalent Solid Solutions BaTi2Pn2O (Pn = As, Sb, and Bi)" 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)033705"
153824 JPS082033705 BaTi2Bi2O Ba1Ti2Bi2O1 Ba 1 Ti 2 Bi 2 O 1 1 2013 A 4.1253 8.3439 K 4.6 4.6 50 "BaO(4N),Ti(3N),Bi(3N),Sb(3N)" "solid state reaction. mixture - pellet - wrapped in Ta foil - sealed in quartz tube - heat to 900 C(100C/h) - keep(900C,40h) - cool to RT(50C/h)" "Two Superconducting Phases in the Isovalent Solid Solutions BaTi2Pn2O (Pn = As, Sb, and Bi)" 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)033705"
153825 JPS082033708 "impurity phases: NdOF, Bi2S3" "Nd(O,F)Bi2S2" Nd1Bi1S2F0.1O0.9 Nd 1 Bi 1 S 2 F 0.1 O 0.9 2013 ABCD2 P4/nmm A 3.9999 13.583 "CeOBiS2, 1112" K 4.24 4.24 "Bi,Bi2S3,Nd2O3,Nd2S3,NdF3" "mixture - ground - pelletize - sealed in evacuated quartz tube - heat(800 C,10h)" New Member of BiS2-Based Superconductor NdO1-xFxBiS2 2013 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.Soc.Jpn, 82(2013)033708"
153826 JPS082033708 "impurity phases: NdOF, Bi2S3" "Nd(O,F)Bi2S2" Nd1Bi1S2F0.2O0.8 Nd 1 Bi 1 S 2 F 0.2 O 0.8 2013 ABCD2 P4/nmm A 3.9981 13.581 "CeOBiS2, 1112" K 5.12 5.12 "Bi,Bi2S3,Nd2O3,Nd2S3,NdF3" "mixture - ground - pelletize - sealed in evacuated quartz tube - heat(800 C,10h)" New Member of BiS2-Based Superconductor NdO1-xFxBiS2 2013 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.Soc.Jpn, 82(2013)033708"
153827 JPS082033708 "impurity phases: NdOF, Bi2S3" "Nd(O,F)Bi2S2" Nd1Bi1S2F0.3O0.7 Nd 1 Bi 1 S 2 F 0.3 O 0.7 2013 ABCD2 P4/nmm A 3.9976 13.4703 "CeOBiS2, 1112" K 5.2 6.7 5.12 5.12 TC153827 T "RES, WHH" 3.3 HC153827 "Bi,Bi2S3,Nd2O3,Nd2S3,NdF3" "mixture - ground - pelletize - sealed in evacuated quartz tube - heat(800 C,10h)" New Member of BiS2-Based Superconductor NdO1-xFxBiS2 2013 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.Soc.Jpn, 82(2013)033708"
153828 JPS082033708 "impurity phases: NdOF, Bi2S3" "Nd(O,F)Bi2S2" Nd1Bi1S2F0.4O0.6 Nd 1 Bi 1 S 2 F 0.4 O 0.6 2013 ABCD2 P4/nmm A 4.0035 13.4423 "CeOBiS2, 1112" K 5.25 5.25 "Bi,Bi2S3,Nd2O3,Nd2S3,NdF3" "mixture - ground - pelletize - sealed in evacuated quartz tube - heat(800 C,10h)" New Member of BiS2-Based Superconductor NdO1-xFxBiS2 2013 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.Soc.Jpn, 82(2013)033708"
153829 JPS082033708 "impurity phases: NdOF, Bi2S3" "Nd(O,F)Bi2S2" Nd1Bi1S2F0.5O0.5 Nd 1 Bi 1 S 2 F 0.5 O 0.5 2013 ABCD2 P4/nmm A 3.9991 13.4067 "CeOBiS2, 1112" K 4.7 4.7 "Bi,Bi2S3,Nd2O3,Nd2S3,NdF3" "mixture - ground - pelletize - sealed in evacuated quartz tube - heat(800 C,10h)" New Member of BiS2-Based Superconductor NdO1-xFxBiS2 2013 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.Soc.Jpn, 82(2013)033708"
153830 JPS082033708 "impurity phases: NdOF, Bi2S3" "Nd(O,F)Bi2S2" Nd1Bi1S2F0.6O0.4 Nd 1 Bi 1 S 2 F 0.6 O 0.4 2013 ABCD2 P4/nmm A 4.0016 13.4019 "CeOBiS2, 1112" K 4.35 4.35 "Bi,Bi2S3,Nd2O3,Nd2S3,NdF3" "mixture - ground - pelletize - sealed in evacuated quartz tube - heat(800 C,10h)" New Member of BiS2-Based Superconductor NdO1-xFxBiS2 2013 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.Soc.Jpn, 82(2013)033708"
153831 JPS082033708 "impurity phases: NdOF, Bi2S3" "Nd(O,F)Bi2S2" Nd1Bi1S2F0.7O0.3 Nd 1 Bi 1 S 2 F 0.7 O 0.3 2013 ABCD2 P4/nmm A 3.9953 13.4115 "CeOBiS2, 1112" K 4.25 4.25 "Bi,Bi2S3,Nd2O3,Nd2S3,NdF3" "mixture - ground - pelletize - sealed in evacuated quartz tube - heat(800 C,10h)" New Member of BiS2-Based Superconductor NdO1-xFxBiS2 2013 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.Soc.Jpn, 82(2013)033708"
153832 JPS082034718 "impurity phase: Bi2S3. as-grown and 400C-annealed samples show no SC. Hc1, Hc2 at 0 K estimate assuming Hc1, Hc2(t) = [(1-t^2)/(1+t^2)]Hc1(0),Hc2(0). GL(kappa) = 59.46" Bi6O8S5 Bi6S5O8 Bi 6 S 5 O 8 2013 A5B6C8 I4/mmm A 3.9 39.91 K 0.6 4.2 2.4 Oe M-H curve 2.69 2 2 kOe M-H curve 4.565 3.4 2 nm from Hc2(0) 26.86 um "Hc1, GL equation" 1.6 "Bi,Bi2S3,Bi2O3,S" "solid state reaction. mixture - pellet -sealed in evacuated quartz tube - heat (510C,18h) - ANN(200C,4h, in O2" Superconductivity in Vacuum Annealed Bi6O8S5 2013 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People's Republic of China" "J.Phys.Soc.Jpn, 82(2013)034718"
153833 PHB4120119 "impurity phases: Bi,Bi2S3" Bi4O4S3 Bi4S3O4 Bi 4 S 3 O 4 2013 I4/mmm A 3.9753 41.4287 K 4.15 4.85 4.11 4.11 "Cu(4N),Bi(5N),S(3N),Bi2O3(3N)" "mixture - pellet - sealed in silica tube - heat(450C,10h) - heat(510C,10h) - one more process." The effects o fCu doping on the physical properties of the new layered superconductor Bi4-xCuxO4S3 2013 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Physica B, 412(2013)119"
153834 PHB4120119 "impurity phases: Bi,Bi2S3" "(Bi,Cu)4O4S3" Bi3.99Cu0.01S3O4 Bi 3.99 Cu 0.01 S 3 O 4 2013 I4/mmm A 3.975 41.4083 K 3.91 4.51 3.93 3.93 "Cu(4N),Bi(5N),S(3N),Bi2O3(3N)" "mixture - pellet - sealed in silica tube - heat(450C,10h) - heat(510C,10h) - one more process." The effects o fCu doping on the physical properties of the new layered superconductor Bi4-xCuxO4S3 2013 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Physica B, 412(2013)119"
153835 PHB4120119 "impurity phases: Bi,Bi2S3" "(Bi,Cu)4O4S3" Bi3.975Cu0.025S3O4 Bi 3.975 Cu 0.025 S 3 O 4 2013 I4/mmm A 3.9687 41.4009 K 3.1 3.91 2.99 2.99 TC153835 "Cu(4N),Bi(5N),S(3N),Bi2O3(3N)" "mixture - pellet - sealed in silica tube - heat(450C,10h) - heat(510C,10h) - one more process." The effects o fCu doping on the physical properties of the new layered superconductor Bi4-xCuxO4S3 2013 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Physica B, 412(2013)119"
153836 PHB4120119 "impurity phases: Bi,Bi2S3" "(Bi,Cu)4O4S3" Bi3.95Cu0.05S3O4 Bi 3.95 Cu 0.05 S 3 O 4 2013 I4/mmm A 3.9668 41.3861 K 2.68 3.51 2.59 2.59 "Cu(4N),Bi(5N),S(3N),Bi2O3(3N)" "mixture - pellet - sealed in silica tube - heat(450C,10h) - heat(510C,10h) - one more process." The effects o fCu doping on the physical properties of the new layered superconductor Bi4-xCuxO4S3 2013 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Physica B, 412(2013)119"
153837 PHB4120119 "impurity phases: Bi,Bi2S3. R not to zero at 2K." "(Bi,Cu)4O4S3" Bi3.9Cu0.1S3O4 Bi 3.9 Cu 0.1 S 3 O 4 2013 I4/mmm A 3.9655 41.3954 K 2.99 2.99 "Cu(4N),Bi(5N),S(3N),Bi2O3(3N)" "mixture - pellet - sealed in silica tube - heat(450C,10h) - heat(510C,10h) - one more process." The effects o fCu doping on the physical properties of the new layered superconductor Bi4-xCuxO4S3 2013 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Physica B, 412(2013)119"
153838 PHB4130036 volume fraction: Tl2223:Tl1223 = 43.07:45.74 another phase=Ba2Cu3O5 (volume fraction not shown). lattice const. for Tl2223 phase. Tl2Ba2Ca2Cu3Oz Tl2Ba2Ca2Cu3Oz Tl 2 Ba 2 Ca 2 Cu 3 O z 2 2013 Tl2223 A 3.83 35.01 "Tl-1223(a=3.83, c=15.85)" K 102.1 113.3 11.2 107.7 "precursor(ba-Cu-Ca-V-O) synthsized by heating(880C,4h,O2-flow) - mixed with Tl2O3 - wrapped in Au foil - heat(880C,30min)" Effect of vanadium substitution on the microstructural and superconducting properties of Tl2Ba2Ca2-xVxCu3Oy superconductors 2013 "Superconductivity and Thermal Analysis Laboratory, Department of Physics, Faculty of Science, Gazi University, 06531 Ankara, Turkey" "Physica B, 413(2013)36"
153839 PHB4130036 volume fraction: Tl2223:Tl1223 = 41.83:43.24 another phase=Ba2Cu3O5 (volume fraction not shown). lattice const. for Tl2223 phase. "Tl2Ba2(Ca,V)2Cu3Oz" Tl2Ba2Ca1.9Cu0.1Cu3Oz Tl 2 Ba 2 Ca 1.9 Cu 0.1 Cu 3 O z 2 2013 Tl2223 A 3.85 35.31 "Tl-1223(a=3.84, c=15.93)" K 105.9 115.8 9.9 110.85 "precursor(ba-Cu-Ca-V-O) synthsized by heating(880C,4h,O2-flow) - mixed with Tl2O3 - wrapped in Au foil - heat(880C,30min)" Effect of vanadium substitution on the microstructural and superconducting properties of Tl2Ba2Ca2-xVxCu3Oy superconductors 2013 "Superconductivity and Thermal Analysis Laboratory, Department of Physics, Faculty of Science, Gazi University, 06531 Ankara, Turkey" "Physica B, 413(2013)36"
153840 PHB4130036 volume fraction: Tl2223:Tl1223 = 39.27:36.91 another phase=Ba2Cu3O5 (volume fraction not shown). lattice const. for Tl2223 phase. "Tl2Ba2(Ca,V)2Cu3Oz" Tl2Ba2Ca1.7Cu0.3Cu3Oz Tl 2 Ba 2 Ca 1.7 Cu 0.3 Cu 3 O z 2 2013 Tl2223 A 3.84 35.38 "Tl-1223(a=3.84, c=15.93)" K 107.6 115.4 7.8 111.5 "precursor(ba-Cu-Ca-V-O) synthsized by heating(880C,4h,O2-flow) - mixed with Tl2O3 - wrapped in Au foil - heat(880C,30min)" Effect of vanadium substitution on the microstructural and superconducting properties of Tl2Ba2Ca2-xVxCu3Oy superconductors 2013 "Superconductivity and Thermal Analysis Laboratory, Department of Physics, Faculty of Science, Gazi University, 06531 Ankara, Turkey" "Physica B, 413(2013)36"
153841 PHB4130036 volume fraction: Tl2223:Tl1223 = 33.88:29.68 another phase=Ba2Cu3O5 (volume fraction not shown). lattice const. for Tl2223 phase. "Tl2Ba2(Ca,V)2Cu3Oz" Tl2Ba2Ca1.5Cu0.5Cu3Oz Tl 2 Ba 2 Ca 1.5 Cu 0.5 Cu 3 O z 2 2013 Tl2223 A 4.13 34.79 "Tl-1223(a=3.83, c=15.89)" K 99 113.2 14.2 106.1 "precursor(ba-Cu-Ca-V-O) synthsized by heating(880C,4h,O2-flow) - mixed with Tl2O3 - wrapped in Au foil - heat(880C,30min)" Effect of vanadium substitution on the microstructural and superconducting properties of Tl2Ba2Ca2-xVxCu3Oy superconductors 2013 "Superconductivity and Thermal Analysis Laboratory, Department of Physics, Faculty of Science, Gazi University, 06531 Ankara, Turkey" "Physica B, 413(2013)36"
153842 PHB4130036 volume fraction: Tl2223:Tl1223 = 29.03:24.97 another phase=Ba2Cu3O5 (volume fraction not shown). lattice const. for Tl2223 phase. "Tl2Ba2(Ca,V)2Cu3Oz" Tl2Ba2Ca1.3Cu0.7Cu3Oz Tl 2 Ba 2 Ca 1.3 Cu 0.7 Cu 3 O z 2 2013 Tl2223 A 3.85 35.48 "Tl-1223(a=3.82, c=15.96)" K 102 112.1 10.1 107.05 "precursor(ba-Cu-Ca-V-O) synthsized by heating(880C,4h,O2-flow) - mixed with Tl2O3 - wrapped in Au foil - heat(880C,30min)" Effect of vanadium substitution on the microstructural and superconducting properties of Tl2Ba2Ca2-xVxCu3Oy superconductors 2013 "Superconductivity and Thermal Analysis Laboratory, Department of Physics, Faculty of Science, Gazi University, 06531 Ankara, Turkey" "Physica B, 413(2013)36"
153843 PHC4840012 As-Fe-As bond angle = 102.16 degree Ca4Al2O6Fe2As2 Ca4Al2Fe2As2O6 Ca 4 Al 2 Fe 2 As 2 O 6 2013 Fe-42622 A 3.713 15.407 Al-42622As K 28.2 28.2 "HP synthesis. mixture((Ca4Al2O6-x)(Fe2Pn2) or (Ca3Al2O5-x)(Fe2Pn2) ) -pellet - heat(1150C(Pn=As) or 1300C(Pn=P), 1h, P=4.5 GPa)" "Discovery of the Ca4Al2O6Fe2Pn2 ""Al-42622(Pn)"" and Ca3Al2O5Fe2Pn2 ""Al-32522(Pn)"" (Pn = As, P) superconductors" 2013 "National Institute of Advanced Industrial Science and Technology (AIST), Central-2, 1-1-1, Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Physica C, 484(2013)12"
153844 PHC4840012 As-Fe-As bond angle = 109.4 degree Ca4Al2O6Fe2P2 Ca4Al2Fe2P2O6 Ca 4 Al 2 Fe 2 P 2 O 6 2013 Fe-42622 A 3.692 14.934 Al-42622P K 17.1 17.1 "HP synthesis. mixture((Ca4Al2O6-x)(Fe2Pn2) or (Ca3Al2O5-x)(Fe2Pn2) ) -pellet - heat(1150C(Pn=As) or 1300C(Pn=P), 1h, P=4.5 GPa)" "Discovery of the Ca4Al2O6Fe2Pn2 ""Al-42622(Pn)"" and Ca3Al2O5Fe2Pn2 ""Al-32522(Pn)"" (Pn = As, P) superconductors" 2013 "National Institute of Advanced Industrial Science and Technology (AIST), Central-2, 1-1-1, Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Physica C, 484(2013)12"
153845 PHC4840012 As-Fe-As bond angle = 103.28 degree Ca3Al2O5Fe2As2 Ca3Al2Fe2As2O5 Ca 3 Al 2 Fe 2 As 2 O 5 2013 Fe-32522 A 4.742 26.078 Al-32522As K 30.2 30.2 "HP synthesis. mixture((Ca4Al2O6-x)(Fe2Pn2) or (Ca3Al2O5-x)(Fe2Pn2) ) -pellet - heat(1150C(Pn=As) or 1300C(Pn=P), 1h, P=4.5 GPa)" "Discovery of the Ca4Al2O6Fe2Pn2 ""Al-42622(Pn)"" and Ca3Al2O5Fe2Pn2 ""Al-32522(Pn)"" (Pn = As, P) superconductors" 2013 "National Institute of Advanced Industrial Science and Technology (AIST), Central-2, 1-1-1, Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Physica C, 484(2013)12"
153846 PHC4840012 As-Fe-As bond angle = 110.46 degree Ca3Al2O5Fe2P2 Ca3Al2Fe2P2O5 Ca 3 Al 2 Fe 2 P 2 O 5 2013 Fe-32522 A 3.715 25.236 Al-32522P K 16.6 16.6 "HP synthesis. mixture((Ca4Al2O6-x)(Fe2Pn2) or (Ca3Al2O5-x)(Fe2Pn2) ) -pellet - heat(1150C(Pn=As) or 1300C(Pn=P), 1h, P=4.5 GPa)" "Discovery of the Ca4Al2O6Fe2Pn2 ""Al-42622(Pn)"" and Ca3Al2O5Fe2Pn2 ""Al-32522(Pn)"" (Pn = As, P) superconductors" 2013 "National Institute of Advanced Industrial Science and Technology (AIST), Central-2, 1-1-1, Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Physica C, 484(2013)12"
153847 PHC4840052 Y2C3 C3Y2 C 3 Y 2 1 2013 A2B3 Pu2C3 K 15.4 15.9 0.5 15.65 3.4 1 "Polycrystals were prepared by arc-melting, followed by high-P(4-5.5 GPa) and high-T(1673-1873 K) treatment." Tunneling break-junction measurements of the superconducting gap in Y2C3 2013 "Hiroshima University, Graduate School of Integrated Arts and Sciences, Higashi-Hiroshima 739-8521, Japan" "Physica C, 484(2013)52"
153848 PHC4850160 impurity phase: PrGe2(1 %). Tc(0.58 GPa) = 7.83 K. PrPt4Ge12 Pr1Pt4Ge12 Pr 1 Pt 4 Ge 12 1 2013 AB4C12 skutterudite A 8.61 K 7.91 7.91 MTC153848 K/GPa -0.19 "arc-melting(5 times) - sealed in quartz tube(200 Torr Ar) - ANN(800C,2w)" Dependence of the superconducting transition temperature of the filled skutterudite compound PrPt4Ge12 on hydrostatic pressure 2013 "Department of Physics, Washington University, St. Louis, MO 63130, United States" "Physica C, 485(2013)160"
153849 PHC4850168 "6% MgB2C2 phase. Two gap model: gap(meV), gamma(mJ/mol.K2) are (1.68, 0.99) and (6.77, 0.51) for pai- and sigma- band electron, respectively. C(T,H) measured" "Mg(B,C)2" Mg1B1.9C0.1 Mg 1 B 1.9 C 0.1 1 2013 AB2 AlB2 K 31.4 31.4 6.77 5 14 mJ/mol.K2 1.5 "Specific heat of Mg(B1-xCx)2, x = 0.05, 0.1" 2013 "Lawrence Berkeley National Laboratory, USA" "Physica C, 485(2013)168"
153850 PHC4850168 "10% MgB2C2 phase. Two gap model: gap(meV), gamma(mJ/mol.K2) are (1.39, 1.42) and (3.57, 0.35) for pai- and sigma- band electron, respectively. C(T,H) measured" "Mg(B,C)2" Mg1B1.8C0.2 Mg 1 B 1.8 C 0.2 1 2013 AB2 AlB2 K 19.7 19.7 meV 3.57 4.2 14 mJ/mol.K2 1.77 "Specific heat of Mg(B1-xCx)2, x = 0.05, 0.1" 2013 "Lawrence Berkeley National Laboratory, USA" "Physica C, 485(2013)168"
153851 PHC4890032 compositions by SEM. Fe-content = 1.03 - - 1.04. Hc2 defined as R=0.5Rn. Fe1.03Te1-xSex Fe1.03Te0.9Se0.1 Fe 1.03 Te 0.9 Se 0.1 3 2013 myu-B/mol 4.1 85 34 Fe-11 Fe-11 K 11.5 11.9 12.4 11.9 T/K RES(0.5Rn) 14.4 5.33 crystals grown by KCl/NaCl flux technique in evacuated quartz tube for 21 days. T-gradient: high-T(765 C) and low-T(720 C) "Coexistence of superconductivity and magnetism in Fe1+d Te1-xSex (x = 0.1, 0.2, 0.28, 0.4 and 0.45)" 2013 "Low Temperature Physics and Superconductivity Department, M.V. Lomonosov Moscow State University, Moscow 119991, Russia" "Physica C, 489(2013)32"
153852 PHC4890032 compositions by SEM. Fe-content = 1.03 - - 1.04. Hc2 defined as R=0.5Rn. Fe1.03Te1-xSex Fe1.03Te0.8Se0.2 Fe 1.03 Te 0.8 Se 0.2 3 2013 myu-B/mol 3.67 22 Fe-11 Fe-11 K 12.8 13.5 13.8 13.5 T/K RES(0.5Rn) 13.5 5.29 crystals grown by KCl/NaCl flux technique in evacuated quartz tube for 21 days. T-gradient: high-T(765 C) and low-T(720 C) "Coexistence of superconductivity and magnetism in Fe1+d Te1-xSex (x = 0.1, 0.2, 0.28, 0.4 and 0.45)" 2013 "Low Temperature Physics and Superconductivity Department, M.V. Lomonosov Moscow State University, Moscow 119991, Russia" "Physica C, 489(2013)32"
153853 PHC4890032 compositions by SEM. Fe-content = 1.03 - - 1.04. Hc2 defined as R=0.5Rn. Fe1.03Te1-xSex Fe1.03Te0.72Se0.28 Fe 1.03 Te 0.72 Se 0.28 3 2013 myu-B/mol 3.72 18 Fe-11 Fe-11 K 13.3 13.9 14.1 13.9 T/K RES(0.5Rn) 12.6 4.4 crystals grown by KCl/NaCl flux technique in evacuated quartz tube for 21 days. T-gradient: high-T(765 C) and low-T(720 C) "Coexistence of superconductivity and magnetism in Fe1+d Te1-xSex (x = 0.1, 0.2, 0.28, 0.4 and 0.45)" 2013 "Low Temperature Physics and Superconductivity Department, M.V. Lomonosov Moscow State University, Moscow 119991, Russia" "Physica C, 489(2013)32"
153854 PHC4890032 compositions by SEM. Fe-content = 1.03 - - 1.04. Hc2 defined as R=0.5Rn. Fe1.03Te1-xSex Fe1.03Te0.6Se0.4 Fe 1.03 Te 0.6 Se 0.4 3 2013 myu-B/mol 4.27 16 Fe-11 Fe-11 K 13.7 14 14.3 14 T/K RES(0.5Rn) 12.5 3.77 crystals grown by KCl/NaCl flux technique in evacuated quartz tube for 21 days. T-gradient: high-T(765 C) and low-T(720 C) "Coexistence of superconductivity and magnetism in Fe1+d Te1-xSex (x = 0.1, 0.2, 0.28, 0.4 and 0.45)" 2013 "Low Temperature Physics and Superconductivity Department, M.V. Lomonosov Moscow State University, Moscow 119991, Russia" "Physica C, 489(2013)32"
153855 PHC4890032 compositions by SEM. Fe-content = 1.03 - - 1.04. Hc2 defined as R=0.5Rn. Fe1.03Te1-xSex Fe1.03Te0.5Se0.5 Fe 1.03 Te 0.5 Se 0.5 3 2013 myu-B/mol 4.1 250 15 Fe-11 Fe-11 K 11.9 12.9 13.6 12.9 T/K RES(0.5Rn) 8.8 3.76 MHC153855 crystals grown by KCl/NaCl flux technique in evacuated quartz tube for 21 days. T-gradient: high-T(765 C) and low-T(720 C) "Coexistence of superconductivity and magnetism in Fe1+d Te1-xSex (x = 0.1, 0.2, 0.28, 0.4 and 0.45)" 2013 "Low Temperature Physics and Superconductivity Department, M.V. Lomonosov Moscow State University, Moscow 119991, Russia" "Physica C, 489(2013)32"
153856 PHC4920018 "compositions by EDX. Bump in R(T) at 230 K( maybe I-M transition). Hc2 defined as R=0.9Rn. Anisotropy(Hc2) = 3.3. Jc(5K,0T) = 1.7E+4 A/cm2" K0.58Fe1.56Se2 K0.58Fe1.56Se2 K 0.58 Fe 1.56 Se 2 3 2013 AB2C2 ThCr2Si2 Fe-122 K 31.9 31.9 T "RES(0.9Rn), WHH" 276 84 T/K RES(0.9Rn) 12.5 3.8 MHC153856 17000 mixture(K & (Fe+Se)) - alumina crucible - sealed in pure-Fe tube - heat(1050C) - hold(2h) - cool to780C (6C/h) Upper fields and critical current density of K0.58Fe1.56Se2 single crystals grown by one step technique 2013 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences, Beijing 100190, China" "Physica C, 492(2013)18"
153857 PHC4920090 "I,H//[110]. (dC/gamma*Tc) = 0.85. thermodynamic Hc(0) = 218 Oe.[cohere],[penet] estimated from Hc(0) and GL theory. G-L = 12.6. e-ph = 0.53. dC at Tc = 17 mJ/mol.K" Y3Ru4Ge13 Y3Ru4Ge13 Y 3 Ru 4 Ge 13 3 2013 A3B4C13 Yb3Rh4Sn13 Pm3n A 8.9723 K 2.85 2.85 Oe estimated using GL. 31 T "RES(0.5Rn), WHH, for H//[110]" 4.91 T/K RES(0.5Rn) 2.49 nm "GL, Hc(0)" 39.3 nm "GL, Hc(0)" 495.1 meV 0.21 1.7 14 mJ/mol.K2 7.08 SP 222.9 SP uOhm.cm 93 77 "Y(3N),Ru(5N),Ge(5N)" "Czochralski method using tetra-arc furnace. W-seeded rod, pulling rate 10 mm/h." Superconductivity in a low carrier density system: A single crystal study of cubic Y3Ru4Ge13 2013 "Dept. of Condensed Matter Physics and Material Science, Tata Institute of Fundamental Research, Dr. Homi Bhabha Road, Colaba, Mumbai 400 005, India" "Physica C, 492(2013)92"
153858 PRB087020504 impurity phase : Bi2S3(15%) SrFBiS2 Sr1F1Bi1S2 Sr 1 F 1 Bi 1 S 2 1 2013 ABCD2 2 P4/nmm A 4.082 13.8025 BiS2 layerd K 2 "La,SrF2,Bi,S" "two step solid state reaction. La2S3 firstly made ( mixture(La,S) - heat(873K,10h)). mixture(La2S3,SrS,SrF2,Bi,S) - pellet - heat(1073K,10h,in quartz tube) - FC to RT" Superconductivity induced by La doping in Sr1-xLaxFBiS2 2013 "Department of Physics, Hangzhou Normal University, Hangzhou 310036, China" "Phys.Rev.B, 87(2013)020504"
153859 PRB087020504 impurity phase : Bi2S3(12%). Hc2(T) by GL theory. carrier concentration at 2K in DB. lattice term in SP (beta) = 0.414 mJ/mol.K4. (dC/gamma*Tc) = 1.4 "(Sr,La)FBiS2" Sr0.5La0.5F1Bi1S2 Sr 0.5 La 0.5 F 1 Bi 1 S 2 1 2013 ABCD2 2 A 4.0822 13.335 BiS2 layerd K 2.8 2.8 20 T "RES(0.9Rn), Hc2(T) by GL" 1.04 MHC153859 mJ/mol.K2 1.42 SP 265 SP m3/C MRH153859 n/cm3 1.05E+19 "La,SrF2,Bi,S" "two step solid state reaction. La2S3 firstly made ( mixture(La,S) - heat(873K,10h)). mixture(La2S3,SrS,SrF2,Bi,S) - pellet - heat(1073K,10h,in quartz tube) - FC to RT" Superconductivity induced by La doping in Sr1-xLaxFBiS2 2013 "Department of Physics, Hangzhou Normal University, Hangzhou 310036, China" "Phys.Rev.B, 87(2013)020504"
153860 PRB087024508 "High-T synthesis. Zr:Tl = 1:3 by EDS, WDS. T = 61 K. SC due to disorder along a-c plane. Hc1(2K)//b-axis = 4 Oe. residual gamma = 1.1 mJ/mol.K2" Te3Zr Te3Zr1 Te 3 Zr 1 3 2013 AB3 4 TiS3 P2<1>/m 11 A 5.917 3.948 10.155 "monoclinic. alpha=90, beta=97.90, gamma=90" K 4 3 3 60 Oe "M-H curve, H//b-axis" 4 2 mJ/mol.K2 2.4 SP Chemical transport method using iodine as agent. Low-T synthesis: 735C(source)/660C(sink) Disorder-induced bulk superconductivity in ZrTe3 single crystals via growth control 2013 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 87(2013)024508"
153861 PRB087024508 "Low-T synthesis. Zr:Tl = 1:3 by EDS, WDS. not SC. T = 72 K." Te3Zr Te3Zr1 Te 3 Zr 1 3 2013 AB3 4 TiS3 P2<1>/m 11 A 5.898 3.924 10.109 "monoclinic. alpha=90, beta=97.88, gamma=90" K 2 Chemical transport method using iodine as agent. High-T synthesis: 950C(source)/850C(sink) Disorder-induced bulk superconductivity in ZrTe3 single crystals via growth control 2013 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 87(2013)024508"
153862 JPS076S0120 impurity phase: SrMoO4. Tc defined as Tc(on). Tm independent of P. MoSr2YCu2O8 Mo1Sr2Y1Cu2O8-z Mo 1 Sr 2 Y 1 Cu 2 O 8-z 1 2007 9.9 M1212 P4/mmm Mo-1212 K 39.8 39.8 TC153862 K/GPa 3.3 "Y2O3,CuO,SrCO3,Mo" solid state reaction Pressure Effects on the Physical and Magnetic Properties of MoSr2YCu2O8-z Oxide Superconductor 2007 "Graduate School of Science and Technology, Niigata University, Ikarashi 2-8050, Niigata 950-2181" "J.Phys.Soc.Jpn. Suppl.A, 76(2007)120"
153863 JPS076S0120 impurity phase: SrMoO4. Tc defined as Tc(on) "MoSr2(Y,Ca)Cu2O8" Mo1Sr2Y0.93Ca0.07Cu2O8-z Mo 1 Sr 2 Y 0.93 Ca 0.07 Cu 2 O 8-z 1 2007 M1212 P4/mmm Mo-1212 K 50.1 50.1 TC153862 K/GPa 3.5 "Y2O3,CuO,SrCO3,Mo" solid state reaction Pressure Effects on the Physical and Magnetic Properties of MoSr2YCu2O8-z Oxide Superconductor 2007 "Graduate School of Science and Technology, Niigata University, Ikarashi 2-8050, Niigata 950-2181" "J.Phys.Soc.Jpn. Suppl.A, 76(2007)120"
153864 PRB087054504 residual [gamma] = 5 mJ/mol.K2. (dC/Tc) = 5.2 mJ/mol.K2. LiFeP Li1Fe1P1 Li 1 Fe 1 P 1 1 2013 ABC PbFCl Fe-111 K 4.86 4.86 MSP153864 mJ/mol.K2 9.2 SP "mixture(Li3P,Fe,P) - pellet - sealed in Nb tube(1 atm-Ar) - heat(700C,20h, in evacuated quartz tube)" LiFeP: A nodal superconductor with an unusually large (dC/Tc) 2013 "Department of Physics, University of Florida, Gainesville, Florida 32611-8440, USA" "Phys.Rev.B, 87(2013)054504"
153865 PRB087060501 not SC. Anomaly in R(T) at 150 K (= T) SmOFeAs Sm1Fe1As1O1 Sm 1 Fe 1 As 1 O 1 1 2013 ABCD oxypnictide P4/nmm A 3.9396 8.4921 "ZrCuSiAs, Fe-1111" K 4 m3/C RH153865 "SmAs,U3O8,FeAs,Fe,Fe2O3" "mixture - pellet - sealed in evacuated quartz tube - heat(1180C,90h) - FC to RT" Superconductivity induced by U doping in the SmFeAsO system 2013 "Key Laboratory of Radiation Physics and Technology, Ministry of Education, Institute of Nuclear Science and Technology, Sichuan University, Chengdu 610064, People's Republic of China" "Phys.Rev.B, 87(2013)060501"
153866 PRB087060501 impurity phase: UO2 "(Sm,U)OFeAs" Sm0.9U0.1Fe1As1O1 Sm 0.9 U 0.1 Fe 1 As 1 O 1 1 2013 ABCD oxypnictide P4/nmm A 3.9315 8.4654 "ZrCuSiAs, Fe-1111" K 47 47 m3/C RH153865 "SmAs,U3O8,FeAs,Fe,Fe2O3" "mixture - pellet - sealed in evacuated quartz tube - heat(1180C,90h) - FC to RT" Superconductivity induced by U doping in the SmFeAsO system 2013 "Key Laboratory of Radiation Physics and Technology, Ministry of Education, Institute of Nuclear Science and Technology, Sichuan University, Chengdu 610064, People's Republic of China" "Phys.Rev.B, 87(2013)060501"
153867 PRB087060501 impurity phase: UO2 "(Sm,U)OFeAs" Sm0.8U0.2Fe1As1O1 Sm 0.8 U 0.2 Fe 1 As 1 O 1 1 2013 ABCD oxypnictide P4/nmm A 3.9214 8.4165 "ZrCuSiAs, Fe-1111" K 49 46 46 T "RES(0.95Rn), WHH" 250 T/K RES(0.95Rn) 7.4 m3/C RH153865 "SmAs,U3O8,FeAs,Fe,Fe2O3" "mixture - pellet - sealed in evacuated quartz tube - heat(1180C,90h) - FC to RT" Superconductivity induced by U doping in the SmFeAsO system 2013 "Key Laboratory of Radiation Physics and Technology, Ministry of Education, Institute of Nuclear Science and Technology, Sichuan University, Chengdu 610064, People's Republic of China" "Phys.Rev.B, 87(2013)060501"
153868 PRB087060507 Ca10(Pt3As8)(Fe2As2)5 Ca10Pt3Fe10As18 Ca 10 Pt 3 Fe 10 As 18 3 2013 5 P-1 10-3-8 phase K 2 mJ/mol.K2 4.8 SP 256 SP mOhm.cm 0.57 n/cm3 8.70E+21 "CaAs-rich flux. CaAs, FeAs, and LaAs precursors were made using the solid state reaction. mixture(precursors+Pt) - pellet - Al2O3 crucible - quartz tube - heat(1150C,96h) - slow cool to 885C - quench" Transport and thermodynamic properties of (Ca1-xLax)10(Pt3As8)(Fe2As2)5 superconductors 2013 "Los Alamos National Laboratory, Los Alamos, New Mexico 87544, USA" "Phys.Rev.B, 87(2013)060507"
153869 PRB087060507 La-content x by WDS.two kink point in (dR/dT); 103 K (STR) and 95 K (MAG). lattice term in SP (beta) = 0.95 mJ/mol-Fe2.K4. [gamma] in mol-Fe2 "(Ca,La)10(Pt3As8)(Fe2As2)5" Ca9.79La0.21Pt3Fe10As18 Ca 9.79 La 0.21 Pt 3 Fe 10 As 18 3 2013 5 P-1 10-3-8 phase K 2 "CaAs-rich flux. CaAs, FeAs, and LaAs precursors were made using the solid state reaction. mixture(precursors+Pt) - pellet - Al2O3 crucible - quartz tube - heat(1150C,96h) - slow cool to 885C - quench" Transport and thermodynamic properties of (Ca1-xLax)10(Pt3As8)(Fe2As2)5 superconductors 2013 "Los Alamos National Laboratory, Los Alamos, New Mexico 87544, USA" "Phys.Rev.B, 87(2013)060507"
153870 PRB087060507 La-content x by WDS. "(Ca,La)10(Pt3As8)(Fe2As2)5" Ca9.57La0.43Pt3Fe10As18 Ca 9.57 La 0.43 Pt 3 Fe 10 As 18 3 2013 5 P-1 10-3-8 phase K 13.3 14.6 13.3 "CaAs-rich flux. CaAs, FeAs, and LaAs precursors were made using the solid state reaction. mixture(precursors+Pt) - pellet - Al2O3 crucible - quartz tube - heat(1150C,96h) - slow cool to 885C - quench" Transport and thermodynamic properties of (Ca1-xLax)10(Pt3As8)(Fe2As2)5 superconductors 2013 "Los Alamos National Laboratory, Los Alamos, New Mexico 87544, USA" "Phys.Rev.B, 87(2013)060507"
153871 PRB087060507 La-content x by WDS. "(Ca,La)10(Pt3As8)(Fe2As2)5" Ca9.35La0.65Pt3Fe10As18 Ca 9.35 La 0.65 Pt 3 Fe 10 As 18 3 2013 5 P-1 10-3-8 phase K 19.7 21.4 19.7 "CaAs-rich flux. CaAs, FeAs, and LaAs precursors were made using the solid state reaction. mixture(precursors+Pt) - pellet - Al2O3 crucible - quartz tube - heat(1150C,96h) - slow cool to 885C - quench" Transport and thermodynamic properties of (Ca1-xLax)10(Pt3As8)(Fe2As2)5 superconductors 2013 "Los Alamos National Laboratory, Los Alamos, New Mexico 87544, USA" "Phys.Rev.B, 87(2013)060507"
153872 PRB087060507 La-content x by WDS. [gamma] in mJ/mol-Fe2.K2. (dC/Tc) = 13 mJ/mol-Fe2.K "(Ca,La)10(Pt3As8)(Fe2As2)5" Ca9.07La0.93Pt3Fe10As18 Ca 9.07 La 0.93 Pt 3 Fe 10 As 18 3 2013 5 P-1 10-3-8 phase K 22.2 22.7 22.2 MPH153872 mJ/mol.K2 5.8 SP 257 SP "CaAs-rich flux. CaAs, FeAs, and LaAs precursors were made using the solid state reaction. mixture(precursors+Pt) - pellet - Al2O3 crucible - quartz tube - heat(1150C,96h) - slow cool to 885C - quench" Transport and thermodynamic properties of (Ca1-xLax)10(Pt3As8)(Fe2As2)5 superconductors 2013 "Los Alamos National Laboratory, Los Alamos, New Mexico 87544, USA" "Phys.Rev.B, 87(2013)060507"
153873 PRB087060507 La-content x by WDS. "(Ca,La)10(Pt3As8)(Fe2As2)5" Ca8.55La1.45Pt3Fe10As18 Ca 8.55 La 1.45 Pt 3 Fe 10 As 18 3 2013 5 P-1 10-3-8 phase K 26.1 26.5 26.1 MPH153872 T "RES(0.95Rn), WHH" 400 60 MHC153873 n/cm3 1.06E+22 "CaAs-rich flux. CaAs, FeAs, and LaAs precursors were made using the solid state reaction. mixture(precursors+Pt) - pellet - Al2O3 crucible - quartz tube - heat(1150C,96h) - slow cool to 885C - quench" Transport and thermodynamic properties of (Ca1-xLax)10(Pt3As8)(Fe2As2)5 superconductors 2013 "Los Alamos National Laboratory, Los Alamos, New Mexico 87544, USA" "Phys.Rev.B, 87(2013)060507"
153874 PRB087060507 La-content x by WDS. "(Ca,La)10(Pt3As8)(Fe2As2)5" Ca8.18La1.82Pt3Fe10As18 Ca 8.18 La 1.82 Pt 3 Fe 10 As 18 3 2013 5 P-1 10-3-8 phase K 22.1 25.2 22.1 "CaAs-rich flux. CaAs, FeAs, and LaAs precursors were made using the solid state reaction. mixture(precursors+Pt) - pellet - Al2O3 crucible - quartz tube - heat(1150C,96h) - slow cool to 885C - quench" Transport and thermodynamic properties of (Ca1-xLax)10(Pt3As8)(Fe2As2)5 superconductors 2013 "Los Alamos National Laboratory, Los Alamos, New Mexico 87544, USA" "Phys.Rev.B, 87(2013)060507"
153875 PRB085085108 "not SC. RRR = 1.35. <243>Am isotope, Am:Pd:Al = 1:5:1.70 by EDX. Hall coeff. = -2 E-10 m3/C for T>100K. Thermopower ; see Fig.5" AmPd5Al2 Am1Pd5Al2 Am 1 Pd 5 Al 2 3 2012 AB2C5 ZrNi2Al5 I4/mmm 139 A 4.1298 14.792 K 2 mJ/mol.K2 19 SP 295 SP uV/K -1.2 uOhm.cm 16.8 m3/C -2.00E-10 "Pd(4N),Al(5N),Am(99.85)" arc-melting. Single crystal(50*50*20 um3 extracted from button Crystal structure and physical properties of <243>AmPd5Al2 2012 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, D-76125 Karlsruhe, Germany" "Phys.Rev.B, 85(2012)085108"
153876 PRB085060503 RRR = 150. GL(kappa) = 4.4. nodal energy gap. LiFeP Li1Fe1P1 Li 1 Fe 1 P 1 3 2012 ABC PbFCl A 3.6955 6.0411 Fe-111 K 4.9 5.3 4.9 T "RES(0.5Rn), WHH" 1.7 0.29 T/K RES(0.5Rn) 0.085 MHC153876 nm from Hc2 34 5.8 nm 150 uOhm.cm 310 "Li(ingot),FeAs/FeP(powder)" self-flux method. mixture in BN crucible - sealed in quartz tube - heat to 1100C - slow cool to 600C Contrasts in electron correlations and inelastic scattering between LiFeP and LiFeAs revealed by charge transport 2012 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 85(2012)060503"
153877 PRB085060503 RRR = 150. GL(kappa) = 51. nodeless energy gap. LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 3 2012 ABC PbFCl A 3.7914 6.3639 Fe-111 K 17.3 17.8 17.3 T "RES(0.5Rn), WHH" 48 20 T/K RES(0.5Rn) 1.6 MHC153877 nm from Hc2 4.1 1.6 nm 210 uOhm.cm 690 "Li(ingot),FeAs/FeP(powder)" self-flux method. mixture in BN crucible - sealed in quartz tube - heat to 1100C - slow cool to 600C Contrasts in electron correlations and inelastic scattering between LiFeP and LiFeAs revealed by charge transport 2012 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 85(2012)060503"
153878 SST026075001 "SP-heat coeff. (beta) = 1.58 mJ/mol.K4, (delta) = 0.14 mJ/mol.K6. (dC/gamma*Tc) = 1.29. R(T) has anomaly at 270 K (STR transition by XRD)" SrPt2Sb2 Sr1Pt2Sb2 Sr 1 Pt 2 Sb 2 1 2013 AB2C2 ThCr2Si2 A 4.603 10.565 K 2.1 2.1 2.1 114 Oe M-H curve 6 1.8 T M-H curve 0.1 1.8 mJ/mol.K2 9.2 SP 183 SP "Sr(3N),Pt(3N),Sb(5N)" "mixture(Sr:Pt:Sb=1.03:2:2) - arc-melting - remelt - sealed in BN - heat(1470C,2h) - cool to 1160C with 5 K/min" Superconductivity in 122 antimonide SrPt2Sb2 2013 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0047, Japan" "Supercond.Sci.Technol., 26(2013)075001"
153879 PRB087064502 "RRR = 19. Two gaps analysis of SP-data: D1(lower) = 0.8 kTc, D2(higher) = 2.0 kTc. [penet](T) = A*T^n , (n = 3.2)." PrPt4Ge12 Pr1Pt4Ge12 Pr 1 Pt 4 Ge 12 3 2013 AB4C12 skutterudite A 8.6105 K 7.8 7.8 7.8 nm "muon-SR, TDO" 114 4 14 mJ/mol.K2 69 SP 190 SP uOhm.cm 3.5 "Pr(3N),Pt(3N),Ge(6N)" "arc-melting - glassy carbon crucible - heat(800C,120h in silica tube) - powdered - pellet - glassy carbon crucible - weld in Ta-container - heat(85-67C,60d)" Multiband superconductivity in PrPt4Ge12 single crystals 2013 "Department of Physics and Center for Correlated Matter, Zhejiang University, Hangzhou, Zhejiang 310027, China" "Phys.Rev.B, 87(2013)064502"
153880 PRB086060516 Ca10(Pt4As8)(FeAs)10 Ca10Pt4Fe10As18 Ca 10 Pt 4 Fe 10 As 18 1 2012 Ca-10-4-8 phase K 38 38 "solid state reaction. See Angew.Chem.Int.Ed., 50(2011)9195" Role of different negatively charged layers in Ca10(FeAs)10(Pt4As8) and superconductivity at 30 K in electron-doped (Ca0.8La0.2)10(FeAs)10(Pt3As8) 2012 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstrasse 5-13 (Haus D), 81377 Munchen, Germany" "Phys.Rev.B, 86(2012)060516"
153881 PRB086060516 Ca10(Pt4As8)(Fe1-xPtxAs)10 Ca10Pt4.1Fe9.9As18 Ca 10 Pt 4.1 Fe 9.9 As 18 1 2012 Ca-10-4-8 phase K 32.2 32.2 "solid state reaction. See Angew.Chem.Int.Ed., 50(2011)9195" Role of different negatively charged layers in Ca10(FeAs)10(Pt4As8) and superconductivity at 30 K in electron-doped (Ca0.8La0.2)10(FeAs)10(Pt3As8) 2012 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstrasse 5-13 (Haus D), 81377 Munchen, Germany" "Phys.Rev.B, 86(2012)060516"
153882 PRB086060516 Ca10(Pt4As8)(Fe1-xPtxAs)10 Ca10Pt4.3Fe9.7As18 Ca 10 Pt 4.3 Fe 9.7 As 18 1 2012 Ca-10-4-8 phase K 33.9 33.9 MTC153882 "solid state reaction. See Angew.Chem.Int.Ed., 50(2011)9195" Role of different negatively charged layers in Ca10(FeAs)10(Pt4As8) and superconductivity at 30 K in electron-doped (Ca0.8La0.2)10(FeAs)10(Pt3As8) 2012 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstrasse 5-13 (Haus D), 81377 Munchen, Germany" "Phys.Rev.B, 86(2012)060516"
153883 PRB086060516 Ca10(Pt4As8)(Fe1-xPtxAs)10 Ca10Pt4.6Fe9.4As18 Ca 10 Pt 4.6 Fe 9.4 As 18 1 2012 Ca-10-4-8 phase K 22.5 22.5 MTC153882 "solid state reaction. See Angew.Chem.Int.Ed., 50(2011)9195" Role of different negatively charged layers in Ca10(FeAs)10(Pt4As8) and superconductivity at 30 K in electron-doped (Ca0.8La0.2)10(FeAs)10(Pt3As8) 2012 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstrasse 5-13 (Haus D), 81377 Munchen, Germany" "Phys.Rev.B, 86(2012)060516"
153884 PRB086060516 Ca10(Pt4As8)(Fe1-xPtxAs)10 Ca10Pt5Fe9As18 Ca 10 Pt 5 Fe 9 As 18 1 2012 Ca-10-4-8 phase K 9.78 9.78 "solid state reaction. See Angew.Chem.Int.Ed., 50(2011)9195" Role of different negatively charged layers in Ca10(FeAs)10(Pt4As8) and superconductivity at 30 K in electron-doped (Ca0.8La0.2)10(FeAs)10(Pt3As8) 2012 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstrasse 5-13 (Haus D), 81377 Munchen, Germany" "Phys.Rev.B, 86(2012)060516"
153885 PRB086060516 Ca10(Pt3As8)(Fe1-xPtxAs)10 Ca10Pt3.33Fe9.67As18 Ca 10 Pt 3.33 Fe 9.67 As 18 1 2012 Ca-10-3-8 phase K 0 0 "solid state reaction. See Angew.Chem.Int.Ed., 50(2011)9195" Role of different negatively charged layers in Ca10(FeAs)10(Pt4As8) and superconductivity at 30 K in electron-doped (Ca0.8La0.2)10(FeAs)10(Pt3As8) 2012 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstrasse 5-13 (Haus D), 81377 Munchen, Germany" "Phys.Rev.B, 86(2012)060516"
153886 PRB086060516 Ca10(Pt4As8)(Fe1-xPtxAs)10 Ca10Pt3.42Fe9.58As18 Ca 10 Pt 3.42 Fe 9.58 As 18 1 2012 Ca-10-3-8 phase K 10.96 10.96 "solid state reaction. See Angew.Chem.Int.Ed., 50(2011)9195" Role of different negatively charged layers in Ca10(FeAs)10(Pt4As8) and superconductivity at 30 K in electron-doped (Ca0.8La0.2)10(FeAs)10(Pt3As8) 2012 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstrasse 5-13 (Haus D), 81377 Munchen, Germany" "Phys.Rev.B, 86(2012)060516"
153887 PRB086060516 Ca10(Pt4As8)(Fe1-xPtxAs)10 Ca10Pt3.51Fe9.49As18 Ca 10 Pt 3.51 Fe 9.49 As 18 1 2012 Ca-10-3-8 phase K 12.44 12.44 MTC153887 "solid state reaction. See Angew.Chem.Int.Ed., 50(2011)9195" Role of different negatively charged layers in Ca10(FeAs)10(Pt4As8) and superconductivity at 30 K in electron-doped (Ca0.8La0.2)10(FeAs)10(Pt3As8) 2012 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstrasse 5-13 (Haus D), 81377 Munchen, Germany" "Phys.Rev.B, 86(2012)060516"
153888 PRB086060516 Ca10(Pt4As8)(Fe1-xPtxAs)10 Ca10Pt3.72Fe9.28As18 Ca 10 Pt 3.72 Fe 9.28 As 18 1 2012 Ca-10-3-8 phase K 14.9 14.9 MTC153887 "solid state reaction. See Angew.Chem.Int.Ed., 50(2011)9195" Role of different negatively charged layers in Ca10(FeAs)10(Pt4As8) and superconductivity at 30 K in electron-doped (Ca0.8La0.2)10(FeAs)10(Pt3As8) 2012 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstrasse 5-13 (Haus D), 81377 Munchen, Germany" "Phys.Rev.B, 86(2012)060516"
153889 PRB086060516 electron doped Ca-10-3-8 phase (Ca0.8La0.2)10(Pt4As8)(Fe1-xPtxAs)10 Ca8La2Pt3.3Fe9.7As18 Ca 8 La 2 Pt 3.3 Fe 9.7 As 18 1 2012 Ca-10-3-8 phase K 29.4 29.4 "solid state reaction. See Angew.Chem.Int.Ed., 50(2011)9195" Role of different negatively charged layers in Ca10(FeAs)10(Pt4As8) and superconductivity at 30 K in electron-doped (Ca0.8La0.2)10(FeAs)10(Pt3As8) 2012 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstrasse 5-13 (Haus D), 81377 Munchen, Germany" "Phys.Rev.B, 86(2012)060516"
153890 PRB087064512 SC parameters in DB calculated using Hc2(SUS). GL(kappa) = 55. [cohere](Pippard) = 181 nm. [penet](London) = 48.3 nm. AgSnSe2 Ag1Sn1Se2 Ag 1 Sn 1 Se 2 1 2013 emu/g 0.000000042 ABC2 NaCl Fm3m A 5.675 K 4.55 4.55 mT M-H curve 1.58 T "Tc(SUS), WHH" 2.26 MHC153890 nm from Hc2 12.5 nm "Hc1,Hc2,GL theory" 685 3.85 14 n/cm3 2.00E+22 "Ag(5N),Sn(4N),Se(5N)" "mixture - sealed in quartz tube - melt(800C,48h) - quench to cold water - ANN(450C,2w) - quench to cold water" Anomalous metallic state above the upper critical field of the conventional three-dimensional superconductor AgSnSe2 with strong intrinsic disorder 2013 "Institute of Scientific and Industrial Research, Osaka University, Ibaraki, Osaka 567-0047, Japan" "Phys.Rev.B, 87(2013)064512"
153891 PRB087094503 "RRR = 4.5. Anisotropy (Hc2) = 1.22(1.5K), 1.554(15K). Tc by TDR." "SrFe2(As,P)2" Sr1Fe2As1.3P0.7 Sr 1 Fe 2 As 1.3 P 0.7 1 2013 AB2C2 ThCr2Si2 Fe-122 K 23.3 25 23.3 MHC153891 uOhm.cm 300 Self-flux method. Upper critical field of isoelectron substituted SrFe2(As1-xPx)2 2013 "The Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 87(2013)094503"
153892 PRB087094503 "E=1.4 GeV-Pb-ion irradiated sample. dose = 1.2 E+12 ion/cm2. Anisotropy (Hc2) = 1.22(1.5K), 1.354(15K). Tc by TDR." "SrFe2(As,P)2" Sr1Fe2As1.3P0.7 Sr 1 Fe 2 As 1.3 P 0.7 1 2013 AB2C2 ThCr2Si2 Fe-122 K 23.3 23.3 MHC153892 Self-flux method. Upper critical field of isoelectron substituted SrFe2(As1-xPx)2 2013 "The Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 87(2013)094503"
153893 PRB087094505 slightly overdoped sample. angular dependence of Hc2 were measured at various temperatures. "Ba(Fe,Ni)2As2" Ba1Fe1.892Ni0.108As2 Ba 1 Fe 1.892 Ni 0.108 As 2 3 2013 AB2C2 ThCr2Si2 Fe-122 K 16 16 MHC153893 FeAs flux method Angular-dependent upper critical field of overdoped Ba(Fe1-xNix)2As2 2013 "Ames Laboratory, US DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 87(2013)094505"
153894 PRB087094505 strongly overdoped sample. angular dependence of Hc2 were measured at various temperatures. "Ba(Fe,Ni)2As2" Ba1Fe1.856Ni0.144As2 Ba 1 Fe 1.856 Ni 0.144 As 2 3 2013 AB2C2 ThCr2Si2 Fe-122 K 7.5 7.5 MHC153894 FeAs flux method Angular-dependent upper critical field of overdoped Ba(Fe1-xNix)2As2 2013 "Ames Laboratory, US DOE, Ames, Iowa 50011, USA" "Phys.Rev.B, 87(2013)094505"
153895 PRB087094508 "broad hump at 180 K in R(T). No structural transition. Tc(H//ab) = 28 K, and Tc(H//c) = 25 K by TDO. difference between Tc(RES) and Tc(TDO) due to air degradation." K0.83Fe1.83Se2 K0.83Fe1.83Se2 K 0.83 Fe 1.83 Se 2 3 2013 AB2C2 ThCr2Si2 Fe-122 K 32.5 32.5 T "TDO, extrapolation" 73.9 55.4 MHC153895 Optical floating zone method Upper critical magnetic field of KxFe2-ySe2 and Eu0.5K0.5Fe2As2 single crystals 2013 "Institute of Solid State Physics RAS, 142432 Chernogolovka, Moscow District Russian Federation" "Phys.Rev.B, 87(2013)094508"
153896 PRB087094508 "Hc2//ab = 73.9, Hc2//c = 55.4 T obtained by extrapolation. Anisotropy = 2 near Tc." K0.8Fe2Se2 K0.8Fe2Se2 K 0.8 Fe 2 Se 2 3 2013 AB2C2 ThCr2Si2 Fe-122 K 32.5 32.5 T "TDO, WHH" 120 36 T/K TDO 5.5 1.68 MHC1538956 nm from Hc2 2.83 1.2 High temperature flux method Upper critical magnetic field of KxFe2-ySe2 and Eu0.5K0.5Fe2As2 single crystals 2013 "Institute of Solid State Physics RAS, 142432 Chernogolovka, Moscow District Russian Federation" "Phys.Rev.B, 87(2013)094508"
153897 PRB087094508 "Hc2//ab = 65.9, Hc2//c = 54.8 T obtained by extrapolation. Anisotropy nealy T-independent." "(Eu,K)Fe2As2" Eu0.5K0.5Fe2As2 Eu 0.5 K 0.5 Fe 2 As 2 3 2013 AB2C2 ThCr2Si2 Fe-122 K 31.5 31.5 T "TDO, WHH" 115 75 T/K TDO 5.3 3.5 MHC153897 nm from Hc2 2.1 1.36 self flux method Upper critical magnetic field of KxFe2-ySe2 and Eu0.5K0.5Fe2As2 single crystals 2013 "Institute of Solid State Physics RAS, 142432 Chernogolovka, Moscow District Russian Federation" "Phys.Rev.B, 87(2013)094508"
153898 PRB087094515 "Tc,[penet] by TDR measurements. London's [penet] = 50 nm using single gap model. Campbwll penetration depth also estimated." SrPd2Ge2 Sr1Pd2Ge2 Sr 1 Pd 2 Ge 2 3 2013 AB2C2 ThCr2Si2 Fe-122 K 2.7 2.7 T "TDR, Helfand-Werthamer theory" 0.4817 nm "TDR, superfluid density" 426 self flux method Magnetic penetration depth in single crystals of SrPd2Ge2 superconductor 2013 "The Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 87(2013)094515"
153899 PRB087100509 Tc(P) measured by DC-magnetization upto 1.2 GPa. "(Ba,K)Fe2As2" Ba0.8K0.2Fe2As2 Ba 0.8 K 0.2 Fe 2 As 2 1 2013 AB2C2 ThCr2Si2 Fe-122 K 7.28 7.28 K/GPa 5.7 mJ/mol.K 4.43 "KAs,BaAs,Fe2As" "mixture - load in alumina crucible - in Nb-tube sealed in quartz tube - preheat(600C,12h) - reground - pellet - heat(800-1100C, 24-48h, depends on compositions)" Heat capacity jump at Tc and pressure derivatives of superconducting transition temperature in the Ba1-xKxFe2As2 (0.2 =< x =< 1.0) series 2013 "Ames Laboratory, US DOE, and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 87(2013)100509"
153900 PRB087100509 Tc(P) measured by DC-magnetization upto 1.2 GPa. "(Ba,K)Fe2As2" Ba0.7K0.3Fe2As2 Ba 0.7 K 0.3 Fe 2 As 2 1 2013 AB2C2 ThCr2Si2 Fe-122 K 37.4 37.4 MTC153900 K/GPa -0.29 mJ/mol.K 4703 "KAs,BaAs,Fe2As" "mixture - load in alumina crucible - in Nb-tube sealed in quartz tube - preheat(600C,12h) - reground - pellet - heat(800-1100C, 24-48h, depends on compositions)" Heat capacity jump at Tc and pressure derivatives of superconducting transition temperature in the Ba1-xKxFe2As2 (0.2 =< x =< 1.0) series 2013 "Ames Laboratory, US DOE, and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 87(2013)100509"
153901 PRB087100509 Optimal sample. Tc(P) measured by DC-magnetization upto 1.2 GPa. "(Ba,K)Fe2As2" Ba0.6K0.4Fe2As2 Ba 0.6 K 0.4 Fe 2 As 2 1 2013 AB2C2 ThCr2Si2 Fe-122 K 38 38 MTC153900 K/GPa -0.37 mJ/mol.K 3054 "KAs,BaAs,Fe2As" "mixture - load in alumina crucible - in Nb-tube sealed in quartz tube - preheat(600C,12h) - reground - pellet - heat(800-1100C, 24-48h, depends on compositions)" Heat capacity jump at Tc and pressure derivatives of superconducting transition temperature in the Ba1-xKxFe2As2 (0.2 =< x =< 1.0) series 2013 "Ames Laboratory, US DOE, and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 87(2013)100509"
153902 PRB087100509 Tc(P) measured by DC-magnetization upto 1.2 GPa. "(Ba,K)Fe2As2" Ba0.4K0.6Fe2As2 Ba 0.4 K 0.6 Fe 2 As 2 1 2013 AB2C2 ThCr2Si2 Fe-122 K 28.7 28.7 MTC153900 K/GPa -0.62 mJ/mol.K 1760 "KAs,BaAs,Fe2As" "mixture - load in alumina crucible - in Nb-tube sealed in quartz tube - preheat(600C,12h) - reground - pellet - heat(800-1100C, 24-48h, depends on compositions)" Heat capacity jump at Tc and pressure derivatives of superconducting transition temperature in the Ba1-xKxFe2As2 (0.2 =< x =< 1.0) series 2013 "Ames Laboratory, US DOE, and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 87(2013)100509"
153903 PRB087100509 Tc(P) measured by DC-magnetization upto 1.2 GPa. "(Ba,K)Fe2As2" Ba0.3K0.7Fe2As2 Ba 0.3 K 0.7 Fe 2 As 2 1 2013 AB2C2 ThCr2Si2 Fe-122 K 19.4 19.4 K/GPa -1.07 mJ/mol.K 434 "KAs,BaAs,Fe2As" "mixture - load in alumina crucible - in Nb-tube sealed in quartz tube - preheat(600C,12h) - reground - pellet - heat(800-1100C, 24-48h, depends on compositions)" Heat capacity jump at Tc and pressure derivatives of superconducting transition temperature in the Ba1-xKxFe2As2 (0.2 =< x =< 1.0) series 2013 "Ames Laboratory, US DOE, and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 87(2013)100509"
153904 PRB087100509 Tc(P) measured by DC-magnetization upto 1.2 GPa. "(Ba,K)Fe2As2" Ba0.2K0.8Fe2As2 Ba 0.2 K 0.8 Fe 2 As 2 1 2013 AB2C2 ThCr2Si2 Fe-122 K 11.7 11.7 K/GPa -2.01 mJ/mol.K 559 "KAs,BaAs,Fe2As" "mixture - load in alumina crucible - in Nb-tube sealed in quartz tube - preheat(600C,12h) - reground - pellet - heat(800-1100C, 24-48h, depends on compositions)" Heat capacity jump at Tc and pressure derivatives of superconducting transition temperature in the Ba1-xKxFe2As2 (0.2 =< x =< 1.0) series 2013 "Ames Laboratory, US DOE, and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 87(2013)100509"
153905 PRB087100509 Tc(P) measured by DC-magnetization upto 1.2 GPa. "(Ba,K)Fe2As2" Ba0.1K0.9Fe2As2 Ba 0.1 K 0.9 Fe 2 As 2 1 2013 AB2C2 ThCr2Si2 Fe-122 K 6.86 6.86 K/GPa -1.6 mJ/mol.K 317 "KAs,BaAs,Fe2As" "mixture - load in alumina crucible - in Nb-tube sealed in quartz tube - preheat(600C,12h) - reground - pellet - heat(800-1100C, 24-48h, depends on compositions)" Heat capacity jump at Tc and pressure derivatives of superconducting transition temperature in the Ba1-xKxFe2As2 (0.2 =< x =< 1.0) series 2013 "Ames Laboratory, US DOE, and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 87(2013)100509"
153906 PRB087100509 Tc(P) measured by DC-magnetization upto 1.2 GPa. KFe2As2 K1Fe2As2 K 1 Fe 2 As 2 1 2013 AB2C2 ThCr2Si2 Fe-122 K 3 3 K/GPa -1.02 mJ/mol.K 225 "KAs,BaAs,Fe2As" "mixture - load in alumina crucible - in Nb-tube sealed in quartz tube - preheat(600C,12h) - reground - pellet - heat(800-1100C, 24-48h, depends on compositions)" Heat capacity jump at Tc and pressure derivatives of superconducting transition temperature in the Ba1-xKxFe2As2 (0.2 =< x =< 1.0) series 2013 "Ames Laboratory, US DOE, and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 87(2013)100509"
153907 PRB087104515 STR transition at T = 53 K. Lattice term in SP (beta) = 0.64 mJ/mol.K2. e-ph = 0.59. N(0) = 8.5 stats/eV.f.u. Curie Weis law for 220 < T. (dC/gamma*Tc) = 1.49 Mo3Sb7 Mo3Sb7 Mo 3 Sb 7 3 2013 Myu-B/Mo 1.67 -1078 A3B7 Ir3Ge7 IM3[-]m 229 "phase transition at 53 K(a=9.551, c=9.523" K 2.35 2.35 2.35 mJ/mol.K2 31.8 "SP, fitting for 2.8 14 GPa.." 2H-NbS2 Nb1S2 Nb 1 S 2 3 2013 AB2 2H-NbSe2 2H-NbS2 K 6 6 MTC153908 K/GPa 0.09 T "SUS, extrapolation" 2.6 MHC153908 "See Inorg.Chem., 19(1980)39" Pressure dependence of superconducting critical temperature and upper critical field of 2H-NbS2 2013 "Institute of Solid State Physics, Chernogolovka, 142432 Moscow Region, Russia" "Phys.Rev.B, 87(2013)134502"
153909 PRB087134512 "average composition: FeSe0.89-0.90. 85%-tetra-phase, minor phase: hexagonal (a=3.605, c=5.889 A)." FeSe Fe1Se1 Fe 1 Se 1 3 2013 AB PbO A 3.78 5.49 K 8.65 9.9 12 9.9 T "RES(0.9Rn), WHH" 34 29 T/K RES(0.9Rn) 5 3.65 MHC153909 A from Hc2 33 28.5 crystals grown by KCl-solution-mwlt free grown method Temperature dependence of the upper critical field of FeSe single crystals 2013 "Laboratoire National des Champs Magnetiques Intenses, CNRS-UJF-UPS-INSA, 25 avenue des Martyrs, 38042 Grenoble, France" "Phys.Rev.B, 87(2013)134512"
153910 PRB087134513 "RRR = 2500-3000.Hc2 criterion (Rn, 0.9Rn, 0.5Rn,R-0) discussed." KFe2As2 K1Fe2As2 K 1 Fe 2 As 2 3 2013 AB2C2 ThCr2Si2 Fe-122 K 3.8 3.5 3.8 T "RES(0.5Rn), WHH" 1.5 MHC153910 nm from Hc2 20 KAs flux method. mixture(K:Fe:As=5:2:6) - alumina crucible with Sn chunk on the bottom - sealed in quartz tube - heat - cool from 920C to 820C (4C/h) - cool to 620C (1C/h) Upper critical field of high-quality single crystals of KFe2As2 2013 "Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 87(2013)134513"
153911 PRB087094501 "Na-content estimated from Tc(x). band dependent gaps. higher one(in DB) for inner barrel, lower : (2d/kTc) = 3.15 for outer barrel. gap by ARPES." "(Ca,Na)Fe2As2" Ca0.8Na0.2Fe2As2 Ca 0.8 Na 0.2 Fe 2 As 2 3 2013 AB2C2 ThCr2Si2 Fe-122 K 14 14 meV 3.5 5.81 12 Electronic band structure and momentum dependence of the superconducting gap in Ca1-xNaxFe2As2 from angle-resolved photoemission spectroscopy 2013 "Institute for Solid State Research, IFW Dresden, P. O. Box 270116, D-01171 Dresden, Germany" "Phys.Rev.B, 87(2013)094501"
153912 PRB087094501 "energy gap measured by ARPES. band dependent gaps. higher one(in DB) for inner barrel, lower : (2d/kTc) = 1.62 for outer barrel." "(Ca,Na)Fe2As2" Ca0.32Na0.68Fe2As2 Ca 0.32 Na 0.68 Fe 2 As 2 3 2013 AB2C2 ThCr2Si2 Fe-122 K 33 33 meV 7.8 5.46 12 Electronic band structure and momentum dependence of the superconducting gap in Ca1-xNaxFe2As2 from angle-resolved photoemission spectroscopy 2013 "Institute for Solid State Research, IFW Dresden, P. O. Box 270116, D-01171 Dresden, Germany" "Phys.Rev.B, 87(2013)094501"
153950 PRB087134518 "La(O,F)(Fe,Ru)As" La1Fe0.98Ru0.02As1F0.11O0.89 La 1 Fe 0.98 Ru 0.02 As 1 F 0.11 O 0.89 2013 ABCD oxypnictide Fe-1111 K 27.4 27.4 "Onset of magnetism in optimally electron-doped LFe1-xRuxAsO1-yFy (L = La, Nd, or Sm) superconductors around x = 1/4" 2013 "Department of Physics, University of Pavia?CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 87(2013)134518"
153951 PRB087134518 "La(O,F)(Fe,Ru)As" La1Fe0.9Ru0.1As1F0.11O0.89 La 1 Fe 0.9 Ru 0.1 As 1 F 0.11 O 0.89 2013 ABCD oxypnictide Fe-1111 K 23.7 23.7 "Onset of magnetism in optimally electron-doped LFe1-xRuxAsO1-yFy (L = La, Nd, or Sm) superconductors around x = 1/4" 2013 "Department of Physics, University of Pavia?CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 87(2013)134518"
153952 PRB087134518 "La(O,F)(Fe,Ru)As" La1Fe0.8Ru0.2As1F0.11O0.89 La 1 Fe 0.8 Ru 0.2 As 1 F 0.11 O 0.89 2013 0 ABCD oxypnictide Fe-1111 K 19.7 19.7 MPH153953 T "SUS, WHH" 49.7 "Onset of magnetism in optimally electron-doped LFe1-xRuxAsO1-yFy (L = La, Nd, or Sm) superconductors around x = 1/4" 2013 "Department of Physics, University of Pavia?CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 87(2013)134518"
153953 PRB087134518 "La(O,F)(Fe,Ru)As" La1Fe0.75Ru0.25As1F0.11O0.89 La 1 Fe 0.75 Ru 0.25 As 1 F 0.11 O 0.89 2013 11 ABCD oxypnictide Fe-1111 K 17.6 17.6 MPH153953 T "SUS, WHH" 48.7 "Onset of magnetism in optimally electron-doped LFe1-xRuxAsO1-yFy (L = La, Nd, or Sm) superconductors around x = 1/4" 2013 "Department of Physics, University of Pavia?CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 87(2013)134518"
153954 PRB087134518 "La(O,F)(Fe,Ru)As" La1Fe0.7Ru0.3As1F0.11O0.89 La 1 Fe 0.7 Ru 0.3 As 1 F 0.11 O 0.89 2013 0 ABCD oxypnictide Fe-1111 K 18.3 18.3 MPH153953 T "SUS, WHH" 42.1 "Onset of magnetism in optimally electron-doped LFe1-xRuxAsO1-yFy (L = La, Nd, or Sm) superconductors around x = 1/4" 2013 "Department of Physics, University of Pavia?CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 87(2013)134518"
153955 PRB087134518 "La(O,F)(Fe,Ru)As" La1Fe0.5Ru0.5As1F0.11O0.89 La 1 Fe 0.5 Ru 0.5 As 1 F 0.11 O 0.89 2013 ABCD oxypnictide Fe-1111 K 13.6 13.6 T "SUS, WHH" 26.4 "Onset of magnetism in optimally electron-doped LFe1-xRuxAsO1-yFy (L = La, Nd, or Sm) superconductors around x = 1/4" 2013 "Department of Physics, University of Pavia?CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 87(2013)134518"
153956 PRB087134518 "La(O,F)FeAs" La1Fe1As1F0.11O0.89 La 1 Fe 1 As 1 F 0.11 O 0.89 2013 ABCD oxypnictide Fe-1111 K 28 28 T "SUS, WHH" 88.7 "Onset of magnetism in optimally electron-doped LFe1-xRuxAsO1-yFy (L = La, Nd, or Sm) superconductors around x = 1/4" 2013 "Department of Physics, University of Pavia?CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 87(2013)134518"
153957 PRB087134518 "Nd(O,F)(Fe,Ru)As" Nd1Fe0.98Ru0.02As1F0.11O0.89 Nd 1 Fe 0.98 Ru 0.02 As 1 F 0.11 O 0.89 2013 ABCD oxypnictide Fe-1111 K 46.7 46.7 "Onset of magnetism in optimally electron-doped LFe1-xRuxAsO1-yFy (L = La, Nd, or Sm) superconductors around x = 1/4" 2013 "Department of Physics, University of Pavia?CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 87(2013)134518"
153958 PRB087134518 "Nd(O,F)(Fe,Ru)As" Nd1Fe0.9Ru0.1As1F0.11O0.89 Nd 1 Fe 0.9 Ru 0.1 As 1 F 0.11 O 0.89 2013 0 ABCD oxypnictide Fe-1111 K 37.4 37.4 MPH153959 "Onset of magnetism in optimally electron-doped LFe1-xRuxAsO1-yFy (L = La, Nd, or Sm) superconductors around x = 1/4" 2013 "Department of Physics, University of Pavia?CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 87(2013)134518"
153959 PRB087134518 "Nd(O,F)(Fe,Ru)As" Nd1Fe0.8Ru0.2As1F0.11O0.89 Nd 1 Fe 0.8 Ru 0.2 As 1 F 0.11 O 0.89 2013 6.9 ABCD oxypnictide Fe-1111 K 22.1 22.1 MPH153959 "Onset of magnetism in optimally electron-doped LFe1-xRuxAsO1-yFy (L = La, Nd, or Sm) superconductors around x = 1/4" 2013 "Department of Physics, University of Pavia?CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 87(2013)134518"
153960 PRB087134518 "Nd(O,F)(Fe,Ru)As" Nd1Fe0.7Ru0.3As1F0.11O0.89 Nd 1 Fe 0.7 Ru 0.3 As 1 F 0.11 O 0.89 2013 6.7 ABCD oxypnictide Fe-1111 K 21.3 21.3 MPH153959 "Onset of magnetism in optimally electron-doped LFe1-xRuxAsO1-yFy (L = La, Nd, or Sm) superconductors around x = 1/4" 2013 "Department of Physics, University of Pavia?CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 87(2013)134518"
153961 PRB087134518 "Nd(O,F)(Fe,Ru)As" Nd1Fe0.5Ru0.5As1F0.11O0.89 Nd 1 Fe 0.5 Ru 0.5 As 1 F 0.11 O 0.89 2013 0 ABCD oxypnictide Fe-1111 K 13.7 13.7 "Onset of magnetism in optimally electron-doped LFe1-xRuxAsO1-yFy (L = La, Nd, or Sm) superconductors around x = 1/4" 2013 "Department of Physics, University of Pavia?CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 87(2013)134518"
153962 PRB087134518 "Sm(O,F)(Fe,Ru)As" Sm1Fe0.95Ru0.05As1F0.15O0.85 Sm 1 Fe 0.95 Ru 0.05 As 1 F 0.15 O 0.85 2013 0 ABCD oxypnictide Fe-1111 K 39.3 39.3 T "SUS, WHH" 140 "Onset of magnetism in optimally electron-doped LFe1-xRuxAsO1-yFy (L = La, Nd, or Sm) superconductors around x = 1/4" 2013 "Department of Physics, University of Pavia?CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 87(2013)134518"
153963 PRB087134518 "Sm(O,F)(Fe,Ru)As" Sm1Fe0.8Ru0.2As1F0.15O0.85 Sm 1 Fe 0.8 Ru 0.2 As 1 F 0.15 O 0.85 2013 27.5 ABCD oxypnictide Fe-1111 K 16.9 16.9 MPH153964 T "SUS, WHH" 37.6 "Onset of magnetism in optimally electron-doped LFe1-xRuxAsO1-yFy (L = La, Nd, or Sm) superconductors around x = 1/4" 2013 "Department of Physics, University of Pavia?CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 87(2013)134518"
153964 PRB087134518 "Sm(O,F)(Fe,Ru)As" Sm1Fe0.7Ru0.3As1F0.15O0.85 Sm 1 Fe 0.7 Ru 0.3 As 1 F 0.15 O 0.85 2013 29.5 ABCD oxypnictide Fe-1111 K 11.1 11.1 MPH153964 T "SUS, WHH" 21.8 "Onset of magnetism in optimally electron-doped LFe1-xRuxAsO1-yFy (L = La, Nd, or Sm) superconductors around x = 1/4" 2013 "Department of Physics, University of Pavia?CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 87(2013)134518"
153965 PRB087134518 "Sm(O,F)(Fe,Ru)As" Sm1Fe0.5Ru0.5As1F0.15O0.85 Sm 1 Fe 0.5 Ru 0.5 As 1 F 0.15 O 0.85 2013 4.67 ABCD oxypnictide Fe-1111 K 4.26 4.26 "Onset of magnetism in optimally electron-doped LFe1-xRuxAsO1-yFy (L = La, Nd, or Sm) superconductors around x = 1/4" 2013 "Department of Physics, University of Pavia?CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 87(2013)134518"
153966 JPS081053701 "STR transition (Trigonal to monoclinic) at Ts ( = 270 K(heating), =236 K(cooling)). lattice const. at RT. SP data for monoclinic phase." IrTe2 Ir1Te2 Ir 1 Te 2 2012 AB2 6 P3[-]m1 A 3.9333 5.4017 STR transitin to monoclinic (C2/m) at Ts K 0.32 mJ/mol.K2 3.05 SP 212 SP Superconductivity Induced by Bond Breaking in the Triangular Lattice of IrTe2 2012 "Department of Physics, Faculty of Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 81(2012)053701"
153967 JPS081053701 "STR transition (Trigonal to monoclinic) at Ts ( = 226 K(heating), = 184 K(cooling)). lattice const. at RT. SP data for monoclinic phase. Tc in Fig. shows bulk-Tc(SP)." Ir1-xPtxTe2 Ir0.99Pt0.01Te2 Ir 0.99 Pt 0.01 Te 2 2012 AB2 6 P3[-]m1 A 3.9333 5.3966 STR transitin to monoclinic (C2/m) at Ts K 2.05 2.05 mJ/mol.K2 3.05 SP 209 SP Superconductivity Induced by Bond Breaking in the Triangular Lattice of IrTe2 2012 "Department of Physics, Faculty of Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 81(2012)053701"
153968 JPS081053701 "STR transition (Trigonal to monoclinic) at Ts ( = 174 K(heating), = 118 K(cooling)). lattice const. at RT. SP data for monoclinic phase. Tc in Fig. shows bulk-Tc(SP)." Ir1-xPtxTe2 Ir0.98Pt0.02Te2 Ir 0.98 Pt 0.02 Te 2 2012 AB2 6 P3[-]m1 A 3.9317 5.3915 STR transitin to monoclinic (C2/m) at Ts K 2.78 2.93 2.855 mJ/mol.K2 4.02 SP 203 SP Superconductivity Induced by Bond Breaking in the Triangular Lattice of IrTe2 2012 "Department of Physics, Faculty of Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 81(2012)053701"
153969 JPS081053701 "STR transition (Trigonal to monoclinic) at Ts ( = 157 K(heating), = 90.5 K(cooling)). lattice const. at RT. SP data for monoclinic phase. Tc in Fig. shows bulk-Tc(SP)." Ir1-xPtxTe2 Ir0.97Pt0.03Te2 Ir 0.97 Pt 0.03 Te 2 2012 AB2 6 P3[-]m1 A 3.9383 5.3932 STR transitin to monoclinic (C2/m) at Ts K 3.04 3.1 3.07 MPH153969 MSP153969 mJ/mol.K2 5.69 SP 196 SP Superconductivity Induced by Bond Breaking in the Triangular Lattice of IrTe2 2012 "Department of Physics, Faculty of Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 81(2012)053701"
153970 JPS081053701 STR transition for x =< 0.035. (dC/gamma*Tc) = 1.50. Tc in Fig. shows bulk-Tc(SP). Ir1-xPtxTe2 Ir0.96Pt0.04Te2 Ir 0.96 Pt 0.04 Te 2 2012 AB2 6 P3[-]m1 A 3.9383 5.3881 K 2.92 2.97 2.945 MPH153969 T "RES(0.5Rn), WHH" 0.17 MHC153970 nm 44 MSP153970 mJ/mol.K2 6.29 SP 195 SP Superconductivity Induced by Bond Breaking in the Triangular Lattice of IrTe2 2012 "Department of Physics, Faculty of Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 81(2012)053701"
153971 JPS081053701 Tc in Fig. shows bulk-Tc(SP). Ir1-xPtxTe2 Ir0.94Pt0.06Te2 Ir 0.94 Pt 0.06 Te 2 2012 AB2 6 P3[-]m1 A 3.9417 5.3831 K 2.65 2.73 2.69 mJ/mol.K2 5.88 SP 197 SP Superconductivity Induced by Bond Breaking in the Triangular Lattice of IrTe2 2012 "Department of Physics, Faculty of Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 81(2012)053701"
153972 JPS081053701 Tc in Fig. shows bulk-Tc(SP). Ir1-xPtxTe2 Ir0.92Pt0.08Te2 Ir 0.92 Pt 0.08 Te 2 2012 AB2 6 P3[-]m1 A 3.945 5.378 K 2.2 2.36 2.28 MSP153972 mJ/mol.K2 5.32 SP 198 SP Superconductivity Induced by Bond Breaking in the Triangular Lattice of IrTe2 2012 "Department of Physics, Faculty of Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 81(2012)053701"
153973 JPS081053701 not-SC Ir1-xPtxTe2 Ir0.9Pt0.1Te2 Ir 0.9 Pt 0.1 Te 2 2012 AB2 6 P3[-]m1 A 3.95 5.3746 K 2 mJ/mol.K2 4.76 SP 199 SP Superconductivity Induced by Bond Breaking in the Triangular Lattice of IrTe2 2012 "Department of Physics, Faculty of Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 81(2012)053701"
153974 JPS081053701 not-SC Ir1-xPtxTe2 Ir0.85Pt0.15Te2 Ir 0.85 Pt 0.15 Te 2 2012 AB2 6 P3[-]m1 A 3.955 5.3525 K 2 mJ/mol.K2 4.65 SP 201 SP Superconductivity Induced by Bond Breaking in the Triangular Lattice of IrTe2 2012 "Department of Physics, Faculty of Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 81(2012)053701"
153975 JPS081053701 not-SC Ir1-xPtxTe2 Ir0.8Pt0.2Te2 Ir 0.8 Pt 0.2 Te 2 2012 AB2 6 P3[-]m1 A 3.96 5.3458 K 2 mJ/mol.K2 3.61 SP 207 SP Superconductivity Induced by Bond Breaking in the Triangular Lattice of IrTe2 2012 "Department of Physics, Faculty of Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 81(2012)053701"
153976 JPS081053701 not-SC Ir1-xPtxTe2 Ir0.75Pt0.25Te2 Ir 0.75 Pt 0.25 Te 2 2012 AB2 6 P3[-]m1 A 3.965 5.3322 K 2 mJ/mol.K2 3.16 SP 208 SP Superconductivity Induced by Bond Breaking in the Triangular Lattice of IrTe2 2012 "Department of Physics, Faculty of Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 81(2012)053701"
153977 PRB087140507 RRR = 17. SnTe Sn1Te1 Sn 1 Te 1 2013 AB 1 Fm3[-]m A 6.321 K 1.8 "Sn(4N),In(4N),Te(4N)" modified Bridgman method. mixture - sealed in evacuated quartz tube - heat(900C) - slow cool to 700C (2C/h) - fast cool to RT Superconducting properties of the In-substituted topological crystalline insulator SnTe 2013 "Department of Physics, University of Warwick, Coventry, CV4 7AL, United Kingdom" "Phys.Rev.B, 87(2013)140507"
153978 PRB087140507 "RRR = 1.3. GK(kappa) = 56.4. Lattice term in SP (beta) = 0.635 mJ/mol.K4, (delta) = 8.0 uJ/mol.K6. (dC/gamma*Tc) = 1.26. e-ph = 0.67." Sn1-xInxTe Sn0.6In0.4Te1 Sn 0.6 In 0.4 Te 1 2013 AB 1 Fm3[-]m A 6.28 K 3.5 4.7 4.75 1 4.75 98 mT "M-H curve, parabolic T-dependency" 0.9 T "RES(R=0), GL-approx." 1.42 MHC153978 nm from Hc2 15.2 nm "Hc1,Hc2,GL theory" 860 mJ/mol.K2 2.62 SP 183 SP "Sn(4N),In(4N),Te(4N)" modified Bridgman method. mixture - sealed in evacuated quartz tube - heat(900C) - slow cool to 700C (2C/h) - fast cool to RT Superconducting properties of the In-substituted topological crystalline insulator SnTe 2013 "Department of Physics, University of Warwick, Coventry, CV4 7AL, United Kingdom" "Phys.Rev.B, 87(2013)140507"
153980 MAT1009.0090 concentration by EPMA. Mother compound SnTe has 1.2% Sn vacancy from RH. RRR = 2.57. not SC. Sn1-xInxTe Sn0.98In0.008Te1 Sn 0.98 In 0.008 Te 1 3 2010 AB K 0.7 uOhm.cm 112 n/cm3 4.59E+20 "vapor transport method. mixture - pellet - SIN(600C,36h) - once more - homogeneous mixture - evacuated quartz tube - heat(750C,9d under T-gradient (1 C/cm) - ANN(550C,12h)" Anomalous scattering in superconducting indium-doped tin telluride 2010 "Department of Applied Physics and Geballe Laboratory for Advanced Materials, Stanford University, CA 94305" Cond-Mat/1009.0090
153981 MAT1009.0090 concentration by EPMA. Mother compound SnTe has 1.2% Sn vacancy from RH. RRR = 2.60. not SC. Sn1-xInxTe Sn0.979In0.009Te1 Sn 0.979 In 0.009 Te 1 3 2010 AB K 0.7 mJ/mol.K2 0.803 SP uOhm.cm 87.5 n/cm3 3.77E+20 "vapor transport method. mixture - pellet - SIN(600C,36h) - once more - homogeneous mixture - evacuated quartz tube - heat(750C,9d under T-gradient (1 C/cm) - ANN(550C,12h)" Anomalous scattering in superconducting indium-doped tin telluride 2010 "Department of Applied Physics and Geballe Laboratory for Advanced Materials, Stanford University, CA 94305" Cond-Mat/1009.0090
153982 MAT1009.0090 concentration by EPMA. Mother compound SnTe has 1.2% Sn vacancy from RH. RRR = 1.13. Tc(SP) = 0(not bulk SC). Sn1-xInxTe Sn0.961In0.027Te1 Sn 0.961 In 0.027 Te 1 3 2010 AB K 1.85 0.7 1.85 uOhm.cm 800 "vapor transport method. mixture - pellet - SIN(600C,36h) - once more - homogeneous mixture - evacuated quartz tube - heat(750C,9d under T-gradient (1 C/cm) - ANN(550C,12h)" Anomalous scattering in superconducting indium-doped tin telluride 2010 "Department of Applied Physics and Geballe Laboratory for Advanced Materials, Stanford University, CA 94305" Cond-Mat/1009.0090
153983 MAT1009.0090 concentration by EPMA. Mother compound SnTe has 1.2% Sn vacancy from RH. RRR = 1.09. Tc(SP) = 0 (not bulk SC) Sn1-xInxTe Sn0.95In0.038Te1 Sn 0.95 In 0.038 Te 1 3 2010 AB K 1.9 0.7 1.9 mJ/mol.K2 0.796 SP uOhm.cm 1250 n/cm3 5.12E+20 "vapor transport method. mixture - pellet - SIN(600C,36h) - once more - homogeneous mixture - evacuated quartz tube - heat(750C,9d under T-gradient (1 C/cm) - ANN(550C,12h)" Anomalous scattering in superconducting indium-doped tin telluride 2010 "Department of Applied Physics and Geballe Laboratory for Advanced Materials, Stanford University, CA 94305" Cond-Mat/1009.0090
153984 MAT1009.0090 concentration by EPMA. Mother compound SnTe has 1.2% Sn vacancy from RH. RRR = 1.09. Tc(SP) = 1.67. (dC/gamma*Tc) = 0.816. Sn1-xInxTe Sn0.927In0.061Te1 Sn 0.927 In 0.061 Te 1 3 2010 AB K 1.8 1.8 T RES. MHC153984 mJ/mol.K2 0.973 SP uOhm.cm 793 "vapor transport method. mixture - pellet - SIN(600C,36h) - once more - homogeneous mixture - evacuated quartz tube - heat(750C,9d under T-gradient (1 C/cm) - ANN(550C,12h)" Anomalous scattering in superconducting indium-doped tin telluride 2010 "Department of Applied Physics and Geballe Laboratory for Advanced Materials, Stanford University, CA 94305" Cond-Mat/1009.0090
153985 MAT1009.0090 concentration by EPMA. Mother compound SnTe has 1.2% Sn vacancy from RH. RRR = 1.66. Tc(SP) = 1.74 K. (dC/gamma*Tc) = 0.632 Sn1-xInxTe Sn0.923In0.065Te1 Sn 0.923 In 0.065 Te 1 3 2010 AB K 1.8 1.8 T RES. MHC153985 mJ/mol.K2 1.11 SP uOhm.cm 437 n/cm3 1.14E+21 "vapor transport method. mixture - pellet - SIN(600C,36h) - once more - homogeneous mixture - evacuated quartz tube - heat(750C,9d under T-gradient (1 C/cm) - ANN(550C,12h)" Anomalous scattering in superconducting indium-doped tin telluride 2010 "Department of Applied Physics and Geballe Laboratory for Advanced Materials, Stanford University, CA 94305" Cond-Mat/1009.0090
153986 MAT1009.0090 concentration by EPMA. Mother compound SnTe has 1.2% Sn vacancy from RH. RRR = 1.40. Tc(SP) = 1.86 K. (dC/gamma*Tc) = 1.14. Sn1-xInxTe Sn0.915In0.073Te1 Sn 0.915 In 0.073 Te 1 3 2010 AB K 1.9 1.9 mJ/mol.K2 1.05 SP uOhm.cm 687 n/cm3 1.45E+21 "vapor transport method. mixture - pellet - SIN(600C,36h) - once more - homogeneous mixture - evacuated quartz tube - heat(750C,9d under T-gradient (1 C/cm) - ANN(550C,12h)" Anomalous scattering in superconducting indium-doped tin telluride 2010 "Department of Applied Physics and Geballe Laboratory for Advanced Materials, Stanford University, CA 94305" Cond-Mat/1009.0090
153987 MAT1009.0090 concentration by EPMA. Mother compound SnTe has 1.2% Sn vacancy from RH. RRR = 1.74. Tc(SP) = 1.94. (dC/gamma*Tc) = 1.16 Sn1-xInxTe Sn0.904In0.084Te1 Sn 0.904 In 0.084 Te 1 3 2010 AB K 1.76 1.76 mJ/mol.K2 1.19 SP uOhm.cm 475 "vapor transport method. mixture - pellet - SIN(600C,36h) - once more - homogeneous mixture - evacuated quartz tube - heat(750C,9d under T-gradient (1 C/cm) - ANN(550C,12h)" Anomalous scattering in superconducting indium-doped tin telluride 2010 "Department of Applied Physics and Geballe Laboratory for Advanced Materials, Stanford University, CA 94305" Cond-Mat/1009.0090
153988 ACS13110338 "R(min) at T=224 K. R(anomaly, max) at T=151 K." SmOFeAs Sm1Fe1As1O1 Sm 1 Fe 1 As 1 O 1 1 2009 ABCD 2 oxypnictide A 3.936 8.503 "Fe-1111, ZrCuSiAs-type" K 5 "SmAs(3N),Fe(4N),Ir(4N),Fe2O3(3N)" "solid state reaction. mixture - pellet - wrapped with Ta foil - sealed in evacuated quartz tube - ANN(1150C,36h, in Ar)" Ir Doping-Induced Superconductivity in the SmFeAsO System 2009 "Key Laboratory of AdVanced Technology of Materials, Peking UniVersity, Beijing 100871, China" "J.Am.Chem.Soc., 131(2009)10338"
153989 ACS13110338 R(min) at T=151 K "SmO(Fe,Ir)As" Sm1Fe0.85Ir0.15As1O1 Sm 1 Fe 0.85 Ir 0.15 As 1 O 1 1 2009 ABCD 2 oxypnictide A 3.953 8.434 "Fe-1111, ZrCuSiAs-type" K 16 17.3 16 16 MTC153989 60 "SmAs(3N),Fe(4N),Ir(4N),Fe2O3(3N)" "solid state reaction. mixture - pellet - wrapped with Ta foil - sealed in evacuated quartz tube - ANN(1150C,36h, in Ar)" Ir Doping-Induced Superconductivity in the SmFeAsO System 2009 "Key Laboratory of AdVanced Technology of Materials, Peking UniVersity, Beijing 100871, China" "J.Am.Chem.Soc., 131(2009)10338"
153990 CRY0510253 "impurity phase: Fe7Se8. Tc defined as max of dR/dT. T(Tetra-to Ortho) = 90 K, defined as max of dR/dT." FeSe0.92 Fe1Se0.92 Fe 1 Se 0.92 1 2011 AB P4/nmm Fe-11 K 7.6 7.6 "Fe(9N),Se(3N),Sb(4N)" "mixture - sealed in evacuated quartz tube - heat(700C,13h) - reground - pellet - heat(680C,40h, in vac) - FC to RT" The transport properties in antimony doped iron selenide Fe(Se1-xSbx)0.92 system 2011 "Department of Physics, Shanghai University, Shanghai 200444, China" "Cryogenics, 51(2011)253"
153991 CRY0510253 "impurity phase: Fe7Se8. Tc defined as max of dR/dT. T(Tetra-to Ortho) = 100 K, defined as max of dR/dT." "Fe(Se,Sb)0.92" Fe1Se0.874Sb0.046 Fe 1 Se 0.874 Sb 0.046 1 2011 AB P4/nmm Fe-11 K 9.2 9.2 "Fe(9N),Se(3N),Sb(4N)" "mixture - sealed in evacuated quartz tube - heat(700C,13h) - reground - pellet - heat(680C,40h, in vac) - FC to RT" The transport properties in antimony doped iron selenide Fe(Se1-xSbx)0.92 system 2011 "Department of Physics, Shanghai University, Shanghai 200444, China" "Cryogenics, 51(2011)253"
153992 CRY0510253 "impurity phase: Fe7Se8. Tc defined as max of dR/dT. T(Tetra-to Ortho) = 97 K, defined as max of dR/dT." "Fe(Se,Sb)0.92" Fe1Se0.828Sb0.092 Fe 1 Se 0.828 Sb 0.092 1 2011 AB P4/nmm Fe-11 K 8.3 7.2 8.3 "Fe(9N),Se(3N),Sb(4N)" "mixture - sealed in evacuated quartz tube - heat(700C,13h) - reground - pellet - heat(680C,40h, in vac) - FC to RT" The transport properties in antimony doped iron selenide Fe(Se1-xSbx)0.92 system 2011 "Department of Physics, Shanghai University, Shanghai 200444, China" "Cryogenics, 51(2011)253"
153993 CRY0510253 "impurity phase: Fe7Se8. Tc defined as max of dR/dT. T(Tetra-to Ortho) = 98 K, defined as max of dR/dT." "Fe(Se,Sb)0.92" Fe1Se0.736Sb0.184 Fe 1 Se 0.736 Sb 0.184 1 2011 AB P4/nmm Fe-11 K 8.85 8.85 "Fe(9N),Se(3N),Sb(4N)" "mixture - sealed in evacuated quartz tube - heat(700C,13h) - reground - pellet - heat(680C,40h, in vac) - FC to RT" The transport properties in antimony doped iron selenide Fe(Se1-xSbx)0.92 system 2011 "Department of Physics, Shanghai University, Shanghai 200444, China" "Cryogenics, 51(2011)253"
153994 JPCONF215012035 Hydrostatic P (medium: Daphne 7373) YbGa1.1Si0.9 Yb1Ga1.1Si0.9 Yb 1 Ga 1.1 Si 0.9 1 2010 ABC AlB2 P6/mmm K 2.4 0.1 2.4 MTC153994 K/GPa -0.78 mJ/mol.K2 10 "Ar-arcmelting - ANN. sample loaded in BN capsule. Sealed in quartz tube. Remelt(1470K,6h) - cool to 1270 K(4K/h)." Pressure dependence of superconducting-transition temperature of YbGa1.1Si0.9 2010 "Center for Transdisciplinary Research, Niigata University, 8050, Ikarashi 2-no-cho, Nishi-ku, Niigata, 950-2181, Japan" "J.Phys.Conf.Ser., 215(2010)012035"
153995 JPCONF215012035 Hydrostatic P (medium: Daphne 7373) CaGaSi Ca1Ga1Si1 Ca 1 Ga 1 Si 1 1 2010 ABC AlB2 P6/mmm K 4.2 4.2 MTC153995 K/GPa -0.11 "Ar-arcmelting - ANN. sample loaded in BN capsule. Sealed in quartz tube. Remelt(1470K,6h) - cool to 1270 K(4K/h)." Pressure dependence of superconducting-transition temperature of YbGa1.1Si0.9 2010 "Center for Transdisciplinary Research, Niigata University, 8050, Ikarashi 2-no-cho, Nishi-ku, Niigata, 950-2181, Japan" "J.Phys.Conf.Ser., 215(2010)012035"
153996 JPCONF215012036 "P-induced SC. P = 9.0 GPa. For P > 11 GPa, 2nd SC phase ( dTc/dP = +0.3 K/GPa). R(P,RT)) shows the electrical topological transition at 2GPa" Bi2Te3 Bi2Te3 Bi 2 Te 3 1 2010 A2B3 7 R3[-]m A 4.385 30.51 hexagonal K 2.74 2.95 0 2.845 MTC153996 K/GPa -0.3 "Polycrystalline Bi2Te3(99.99%) from Kojundo Chemical Lab., Ltd." New superconducting phase of Bi2Te3 under pressure above 11 GPa 2010 "Graduate School of Science & Technology, Niigata University, Niigata 950-2181,Japan" "J.Phys.Conf.Ser., 215(2010)012036"
153997 JPCONF400022088 "P-induce SC. P = 4.5 GPa. R(P,RT)shows transition from A7 to incommensurate host-guest composite at 3 GPa." Bi0.85Sb0.15 Bi0.85Sb0.15 Bi 0.85 Sb 0.15 1 2012 A7 R-3m A 4.5186 11.774 superspace group (gamma)4/mcm(00[gamma])0000 at P=3GPa. K 6.79 0 0.2 6.79 MTC153997 "Bi(5N),Sb(5N)" "mixture - loaded in quartz tube - sealed in vac - melt(420 C,24h) - Q in water - ANN(264 C,1w)" Pressure-induced superconductivity in Bi0.85Sb0.15 alloy 2012 "Center for Transdisciplinary Research, Niigata University, 8050, Ikarashi 2-no-cho, Nishi-ku, Niigata, 950-2181, Japan" "J.Phys.Conf.Ser., 400(2012)022088"
153998 PCS0520761 "b-axis whisker. RRR = 114. Tc(R) depends on current density. small diamagnetism. Maybe, sample composed of isolated filament SCs with diameter less than [penet]" TaSe3 Ta1Se3 Ta 1 Se 3 1991 AB3 P2<1>/m A 10.402 3.495 9.829 "monoclinic, beta = 106.26 degree" K 2 2 uOhm.cm 7.91 898 SUPERCONDUCTIVITY IN THE FILAMENTARY CONDUCTOR TaSe3 1991 "Department of Applied Materials Science,Muroran Institute of Technology, Muroran 050,Japan" "J.Phys.Chem.Solids, 52(1991)761"
153999 ACS1320908 LiCu2P2 Li1Cu2P2 Li 1 Cu 2 P 2 1 2010 AB2C2 2 CeAl2Ca2 I4/mmm A 3.8888 9.562 Fe-122 K 3.7 3.7 15 "solid state reaction. mixture - pellet - wrapped in Ta foil - sealed in quartz tube - ANN(650-850 C,24-48h)" A New Pnictide Superconductor without Iron 2010 "Texas Materials Institute, ETC 9.102, UniVersity of Texas at Austin, Austin, Texas 78712" "J.Am.Chem.Soc., 132(2010)0908"
154000 ACS1320908 LiFeP Li1Fe1P1 Li 1 Fe 1 P 1 1 2010 ABC P4/nmm A 3.6992 6.0374 Fe-111 K 4.1 4.1 15 "solid state reaction. mixture - pellet - wrapped in Ta foil - sealed in quartz tube - ANN(650-850 C,24-48h)" A New Pnictide Superconductor without Iron 2010 "Texas Materials Institute, ETC 9.102, UniVersity of Texas at Austin, Austin, Texas 78712" "J.Am.Chem.Soc., 132(2010)0908"
154001 ACS1331751 impurity phase: Cu3P (5%). not SC LiCu2P2 Li1Cu2P2 Li 1 Cu 2 P 2 1 2011 AB2C2 2 CeAl2Ca2 I4/mmm A 3.89152 9.56114 K 2 m3/C 4.29E-10 MRH154001 n/m3 1.46E+28 "Li(foil),CuP(powder)" "mixture - pellet - in Ta boat - sealed in quartz tube(0.2 bar Ar) - heat(170C,20h) - RT - reground - pellet - ANN(675C,20h)" Absence of Superconductivity in LiCu2P2 2011 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "J.Am.Chem.Soc., 133(2011)1751"
154002 ACS1331751 not SC LiCu2P2 Li1Cu2P2 Li 1 Cu 2 P 2 3 2011 AB2C2 2 CeAl2Ca2 I4/mmm A 3.89152 9.56114 K 2 "Sn-flux method. (Li:Cu:P:Sn = 1:2:2:15) in alumina crucible - sealed in quartz tube(vac) - heat(900C,180h) - cool to 600C (3.5C/h)" Absence of Superconductivity in LiCu2P2 2011 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "J.Am.Chem.Soc., 133(2011)1751"
154003 JMC0192573 M = pyridine (C5H5N). Intercalated material M0.25TiNCl M0.25Ti1N1Cl1 M 0.25 Ti 1 N 1 Cl 1 2009 ABC FeOCl Bmmb 63 A 3.9787 3.283 27.014 alpha-MNX(metal nitride halides) K 8.6 8.6 "mixture(TiNCl + alkalimetal azide) loaded in BN cell. After decomposition(250-350 C) of azide, ANN(300C,7days)" Structure and superconductivity of the intercalation compounds of TiNCl with pyridine and alkali metals as intercalants 2009 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Mater.Chem., 19(2009)2573"
154004 JMC0192573 "Intercalated material. K-content, x not measured. DB value is tentative." KxTiNCl K0.5Ti1N1Cl1 K 0.5 Ti 1 N 1 Cl 1 2009 ABC FeOCl Immm 71 A 4.0605 3.2932 17.722 alpha-MNX(metal nitride halides) K 16.3 16.3 "mixture(TiNCl + alkalimetal azide) loaded in BN cell. After decomposition(250-350 C) of azide, ANN(300C,7days)" Structure and superconductivity of the intercalation compounds of TiNCl with pyridine and alkali metals as intercalants 2009 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Mater.Chem., 19(2009)2573"
154005 JMC0192573 TiN Ti1N1 Ti 1 N 1 2009 ABC NaCl Fm-3m 225 A 4.244 K 5.6 5.6 "mixture(TiNCl + alkalimetal azide) loaded in BN cell. After decomposition(250-350 C) of azide, ANN(300C,7days)" Structure and superconductivity of the intercalation compounds of TiNCl with pyridine and alkali metals as intercalants 2009 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Mater.Chem., 19(2009)2573"
154006 JMC0192573 "Intercalated material. Li-content, x not measured. DB value is tentative." LixTiNCl Li0.5Ti1N1Cl1 Li 0.5 Ti 1 N 1 Cl 1 1 2009 ABC FeOCl Pmmn 59 A 4.0114 3.2726 7.9211 alpha-MNX(metal nitride halides) K 16.5 16.5 "mixture(TiNCl + alkalimetal azide) loaded in BN cell. After decomposition(250-350 C) of azide, ANN(300C,7days)" Structure and superconductivity of the intercalation compounds of TiNCl with pyridine and alkali metals as intercalants 2009 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Mater.Chem., 19(2009)2573"
154007 JMC0192573 "Intercalated material. Na-content, x not measured. DB value is tentative." NaxTiNCl Na0.5Ti1N1Cl1 Na 0.5 Ti 1 N 1 Cl 1 1 2009 ABC FeOCl Bmmb 63 A 4.017 3.2737 16.8835 alpha-MNX(metal nitride halides) K 16.3 16.3 "mixture(TiNCl + alkalimetal azide) loaded in BN cell. After decomposition(250-350 C) of azide, ANN(300C,7days)" Structure and superconductivity of the intercalation compounds of TiNCl with pyridine and alkali metals as intercalants 2009 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Mater.Chem., 19(2009)2573"
154009 JMC0192573 "Intercalated material. Rb-content, x not measured. DB value is tentative." RbxTiNCl Rb0.5Ti1N1Cl1 Rb 0.5 Ti 1 N 1 Cl 1 1 2009 ABC FeOCl Immm 71 A 4.0375 3.2899 18.398 alpha-MNX(metal nitride halides) K 16.3 16.3 "mixture(TiNCl + alkalimetal azide) loaded in BN cell. After decomposition(250-350 C) of azide, ANN(300C,7days)" Structure and superconductivity of the intercalation compounds of TiNCl with pyridine and alkali metals as intercalants 2009 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Mater.Chem., 19(2009)2573"
154010 JMC0192573 TiNCl Ti1N1Cl1 Ti 1 N 1 Cl 1 1 2009 ABC Pmmn 59 A 3.9382 3.2582 7.8 K 2 "mixture(TiNCl + alkalimetal azide) loaded in BN cell. After decomposition(250-350 C) of azide, ANN(300C,7days)" Structure and superconductivity of the intercalation compounds of TiNCl with pyridine and alkali metals as intercalants 2009 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Mater.Chem., 19(2009)2573"
154011 JPCONF150052079 O-content calculated from the weight change during ANN. Pr2Ba4Cu7O15 Pr2Ba4Cu7O14.74 Pr 2 Ba 4 Cu 7 O 15-z 14.74 1 2009 A2B4C7D15 Y247 K 15.5 15.5 "Pr6O11,CuO,Ba(NO3)2" "precursor(decomposed at 800-880C in air for 24h. pellet - reaction(973C,18h in 5 atm-O2) - ANN(400C)" Pressure effects on the electrical resistivity of Pr2Ba4Cu7O15-z oxide superconductor 2009 "Graduate School of Science and Technology, Niigata University, Niigata, Japan" "J.Phys.Conf.Ser., 150(2009)052079"
154012 JPCONF150052079 O-content calculated from the weight change during ANN. R not zero for P>2 GPa. Tc(on) = 3.3 K at 2.5 GPa. Pr2Ba4Cu7O15 Pr2Ba4Cu7O14.36 Pr 2 Ba 4 Cu 7 O 15-z 14.36 1 2009 A2B4C7D15 Y247 K 22.7 20.6 20.6 MTC154012 "Pr6O11,CuO,Ba(NO3)2" "precursor(decomposed at 800-880C in air for 24h. pellet - reaction(973C,18h in 5 atm-O2) - ANN(400C)" Pressure effects on the electrical resistivity of Pr2Ba4Cu7O15-z oxide superconductor 2009 "Graduate School of Science and Technology, Niigata University, Niigata, Japan" "J.Phys.Conf.Ser., 150(2009)052079"
154013 JPCONF150052079 O-content calculated from the weight change during ANN. Zero resistivity observed for P=<2.0 GPa. Tc(on) = 25.5 K at 2.5 GPa. Pr2Ba4Cu7O15 Pr2Ba4Cu7O14.21 Pr 2 Ba 4 Cu 7 O 15-z 14.21 1 2009 A2B4C7D15 Y247 K 23 23 MTC154012 60 "Pr6O11,CuO,Ba(NO3)2" "precursor(decomposed at 800-880C in air for 24h. pellet - reaction(973C,18h in 5 atm-O2) - ANN(400C)" Pressure effects on the electrical resistivity of Pr2Ba4Cu7O15-z oxide superconductor 2009 "Graduate School of Science and Technology, Niigata University, Niigata, Japan" "J.Phys.Conf.Ser., 150(2009)052079"
154014 JPCONF273012089 SrPd2Ge2 Sr1Pd2Ge2 Sr 1 Pd 2 Ge 2 1 2011 AB2C2 ThCr2Si2 I4/mmm 139 A 4.422 10.131 Fe-122 K 3 3 "Pd(4N),Ni(4N),Ge(6N),Sr(99.5%)" Two step arc melting. Stoichiometric (Pd-Ni-Ge) firstly arc melted. Then Sr rock was added and arc melted. Superconductivity in Sr(Pd1-xNix)2Ge2 2011 "Department of Physics, National Taiwan Normal University, Taipei 11677, Taiwan" "J.Phys.Conf.Ser., 273(2011)012089"
154015 JPCONF273012089 Sr(Pd1-xNix)2Ge2 Sr1Pd1.8Ni0.2Ge2 Sr 1 Pd 1.8 Ni 0.2 Ge 2 1 2011 AB2C2 ThCr2Si2 I4/mmm 139 Fe-122 K 3.2 3.2 MTC154015 "Pd(4N),Ni(4N),Ge(6N),Sr(99.5%)" Two step arc melting. Stoichiometric (Pd-Ni-Ge) firstly arc melted. Then Sr rock was added and arc melted. Superconductivity in Sr(Pd1-xNix)2Ge2 2011 "Department of Physics, National Taiwan Normal University, Taipei 11677, Taiwan" "J.Phys.Conf.Ser., 273(2011)012089"
154016 JPCONF273012089 Sr(Pd1-xNix)2Ge2 Sr1Pd1Ni1Ge2 Sr 1 Pd 1 Ni 1 Ge 2 1 2011 AB2C2 ThCr2Si2 I4/mmm 139 A 4.292 10.179 Fe-122 K 2.1 2.1 MTC154015 "Pd(4N),Ni(4N),Ge(6N),Sr(99.5%)" Two step arc melting. Stoichiometric (Pd-Ni-Ge) firstly arc melted. Then Sr rock was added and arc melted. Superconductivity in Sr(Pd1-xNix)2Ge2 2011 "Department of Physics, National Taiwan Normal University, Taipei 11677, Taiwan" "J.Phys.Conf.Ser., 273(2011)012089"
154017 JPCONF273012089 SrNi2Ge2 Sr1Ni2Ge2 Sr 1 Ni 2 Ge 2 1 2011 AB2C2 ThCr2Si2 I4/mmm 139 A 4.178 10.252 Fe-122 K 0.845 0.87 0.915 0.036 0.87 "Pd(4N),Ni(4N),Ge(6N),Sr(99.5%)" Two step arc melting. Stoichiometric (Pd-Ni-Ge) firstly arc melted. Then Sr rock was added and arc melted. Superconductivity in Sr(Pd1-xNix)2Ge2 2011 "Department of Physics, National Taiwan Normal University, Taipei 11677, Taiwan" "J.Phys.Conf.Ser., 273(2011)012089"
154018 JPC024475701 residual [gamma] due to normal volume fraction. (dC/Tc) = 16.7 mJ/mol.K2. residual [gamma] = 0.4 mJ/mol.K2. gamma(H) = 0.4 + 3.1*H^0.66. LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 3 2012 ABC Fe-111 K 15.1 1 15.1 "LiAs,FeAs,As" "self flux method. mixture - pellet - alumina-oxide tube in Nb-tube(1atm-air) - sealed in quartz tube - heat(1100C,10h) - cool to 700C (5c/h)" Specific heat versus field for LiFe1-xCuxAs 2012 "Department of Physics, University of Florida, Gainesville, FL 32611-8440, USA" "J.Phys.:Condens.Matter, 24(2012)475701"
154019 JPC024475701 residual [gamma] due to normal volume fraction. (dC/Tc) = 5.0 mJ/mol.K2. residual [gamma] = 0.31 mJ/mol.K2. gamma(H) = 0.31 + 4.16*H^0.57. "Li(Fe,Cu)As" Li1Fe0.98Cu0.02As1 Li 1 Fe 0.98 Cu 0.02 As 1 3 2012 ABC Fe-111 K 9.3 9.3 "LiAs,FeAs,As" "self flux method. mixture - pellet - alumina-oxide tube in Nb-tube(1atm-air) - sealed in quartz tube - heat(1100C,10h) - cool to 700C (5c/h)" Specific heat versus field for LiFe1-xCuxAs 2012 "Department of Physics, University of Florida, Gainesville, FL 32611-8440, USA" "J.Phys.:Condens.Matter, 24(2012)475701"
154020 JPC022075702 not SC. SUS-anomaly at 200K due to SDW/CDW. Lattice term in SP (beta) = 0.79 mJ/mol.K4 derived for 3.9 < T < 25 K. BaTi2As2O Ba1Ti2As2O1 Ba 1 Ti 2 As 2 O 1 1 2010 ABC2D2 P4/nmm 123 A 4.0456 7.2723 K 0 mJ/mol.K2 15.3 SP 223 SP "BaO(3N),Ti(4N),As(6N)" "mixture - pellet - wrapped in Ta foil - sealed in quartz tube - react(850C,40h)" Structure and physical properties for a new layered pnictide-oxide: BaTi2As2O 2010 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "J.Phys.:Condens.Matter, 22(2010)075702"
154021 JPC022075702 not SC. BaLixTi2As2O were measured for x < 0.2. BaLixTi2As2O Ba1Li0.05Ti2As2O1 Ba 1 Li 0.05 Ti 2 As 2 O 1 1 2010 ABC2D2 P4/nmm 123 A 4.038 7.2664 Lattice parameters in Fig. K 0 MLAT154021 "LiAs,BaO,Ti,As" "Firstly LiAs obtained by reacting Li and As at 500C for 10h. mixture - pellet - heat(800C,4h)" Structure and physical properties for a new layered pnictide-oxide: BaTi2As2O 2010 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "J.Phys.:Condens.Matter, 22(2010)075702"
154022 JAP11107E117 Sr(Pd1-xPtx)2Ge2 Sr1Pd2Ge2 Sr 1 Pd 2 Ge 2 3 2012 AB2C2 ThCr2Si2 A 4.4113 10.12 Fe-122 K 2.7 2.7 Oe 1596 2 single crystals grown using high-T flux method Chemical pressure and electron doping effects in SrPd2Ge2 single crystals 2012 "School of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), Gwangju 500-712, Korea" "J.Appl.Phys., 111(2012)07E117"
154023 JAP11107E117 Pt-content (measured by WDS) = 0.015 in Sr(Pd1-xPtx)2Ge2. Hc2// measured at 2 K. Sr(Pd1-xPtx)2Ge2 Sr1Pd1.99Pt0.01Ge2 Sr 1 Pd 1.99 Pt 0.01 Ge 2 3 2012 AB2C2 ThCr2Si2 A 4.4099 10.1184 Fe-122 K 2.82 2.82 Oe 1799 2 single crystals grown using high-T flux method Chemical pressure and electron doping effects in SrPd2Ge2 single crystals 2012 "School of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), Gwangju 500-712, Korea" "J.Appl.Phys., 111(2012)07E117"
154024 JAP11107E117 Pt-content (measured by WDS) = 0.0298 in Sr(Pd1-xPtx)2Ge2. Hc2// measured at 2 K. Sr(Pd1-xPtx)2Ge2 Sr1Pd1.98Pt0.02Ge2 Sr 1 Pd 1.98 Pt 0.02 Ge 2 3 2012 AB2C2 ThCr2Si2 A 4.4102 10.1162 Fe-122 K 2.96 2.96 Oe 1995 2 single crystals grown using high-T flux method Chemical pressure and electron doping effects in SrPd2Ge2 single crystals 2012 "School of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), Gwangju 500-712, Korea" "J.Appl.Phys., 111(2012)07E117"
154025 JAP11107E117 Pt-content (measured by WDS) = 0.0543 in Sr(Pd1-xPtx)2Ge2. Hc2// measured at 2 K. Sr(Pd1-xPtx)2Ge2 Sr1Pd1.96Pt0.04Ge2 Sr 1 Pd 1.96 Pt 0.04 Ge 2 3 2012 AB2C2 ThCr2Si2 A 4.4075 10.1177 Fe-122 K 3.16 3.16 Oe 2700 2 single crystals grown using high-T flux method Chemical pressure and electron doping effects in SrPd2Ge2 single crystals 2012 "School of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), Gwangju 500-712, Korea" "J.Appl.Phys., 111(2012)07E117"
154026 JAP11107E117 Pt-content (measured by WDS) = 0.0606 in Sr(Pd1-xPtx)2Ge2. Hc2// measured at 2 K. Sr(Pd1-xPtx)2Ge2 Sr1Pd1.94Pt0.06Ge2 Sr 1 Pd 1.94 Pt 0.06 Ge 2 3 2012 AB2C2 ThCr2Si2 A 4.4084 10.1162 Fe-122 K 3.22 3.22 MTC154026 Oe 2896 2 MHC154026 single crystals grown using high-T flux method Chemical pressure and electron doping effects in SrPd2Ge2 single crystals 2012 "School of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), Gwangju 500-712, Korea" "J.Appl.Phys., 111(2012)07E117"
154027 JAP11107E117 Pt-content (measured by WDS) = 0.0617 in Sr(Pd1-xPtx)2Ge2. Hc2// measured at 2 K. Sr(Pd1-xPtx)2Ge2 Sr1Pd1.93Pt0.07Ge2 Sr 1 Pd 1.93 Pt 0.07 Ge 2 3 2012 AB2C2 ThCr2Si2 A 4.4099 10.1251 Fe-122 K 3.24 3.24 Oe 3100 2 single crystals grown using high-T flux method Chemical pressure and electron doping effects in SrPd2Ge2 single crystals 2012 "School of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), Gwangju 500-712, Korea" "J.Appl.Phys., 111(2012)07E117"
154028 JAP11107E117 Pt-content (measured by WDS) = 0.0649 in Sr(Pd1-xPtx)2Ge2. Hc2// measured at 2 K. Sr(Pd1-xPtx)2Ge2 Sr1Pd1.92Pt0.08Ge2 Sr 1 Pd 1.92 Pt 0.08 Ge 2 3 2012 AB2C2 ThCr2Si2 A 4.409 10.128 Fe-122 K 3.23 3.23 Oe 3304 2 single crystals grown using high-T flux method Chemical pressure and electron doping effects in SrPd2Ge2 single crystals 2012 "School of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), Gwangju 500-712, Korea" "J.Appl.Phys., 111(2012)07E117"
154029 JAP11107E117 Pt-content (measured by WDS) = 0.1287 in Sr(Pd1-xPtx)2Ge2. Hc2// measured at 2 K. Sr(Pd1-xPtx)2Ge2 Sr1Pd1.9Pt0.1Ge2 Sr 1 Pd 1.9 Pt 0.1 Ge 2 3 2012 AB2C2 ThCr2Si2 A 4.4065 10.1268 Fe-122 K 2.89 2.89 Oe 1494 2 single crystals grown using high-T flux method Chemical pressure and electron doping effects in SrPd2Ge2 single crystals 2012 "School of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), Gwangju 500-712, Korea" "J.Appl.Phys., 111(2012)07E117"
154030 JAP11107E117 Pt-content (measured by WDS) = 0.1457 in Sr(Pd1-xPtx)2Ge2. Hc2// measured at 2 K. Sr(Pd1-xPtx)2Ge2 Sr1Pd1.86Pt0.14Ge2 Sr 1 Pd 1.86 Pt 0.14 Ge 2 3 2012 AB2C2 ThCr2Si2 A 4.4106 10.1358 Fe-122 K 2.6 2.6 Oe 1007 2 single crystals grown using high-T flux method Chemical pressure and electron doping effects in SrPd2Ge2 single crystals 2012 "School of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), Gwangju 500-712, Korea" "J.Appl.Phys., 111(2012)07E117"
154031 JAP11107E117 Si-content (measured by WDS) = 0.0053 in Sr(Pd1-xPtx)2Ge2. Hc2// measured at 2 K. "SrPd2(Ge1-x,Six)2" Sr1Pd2Si0.02Ge1.98 Sr 1 Pd 2 Si 0.02 Ge 1.98 3 2012 AB2C2 ThCr2Si2 Fe-122 K 2.76 2.76 Oe 1596 2 single crystals grown using high-T flux method Chemical pressure and electron doping effects in SrPd2Ge2 single crystals 2012 "School of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), Gwangju 500-712, Korea" "J.Appl.Phys., 111(2012)07E117"
154032 JAP11107E117 Si-content (measured by WDS) = 0.0096 in Sr(Pd1-xPtx)2Ge2. Hc2// measured at 2 K. "SrPd2(Ge1-x,Six)2" Sr1Pd2Si0.04Ge1.96 Sr 1 Pd 2 Si 0.04 Ge 1.96 3 2012 AB2C2 ThCr2Si2 Fe-122 K 2.72 2.72 Oe 1589 2 single crystals grown using high-T flux method Chemical pressure and electron doping effects in SrPd2Ge2 single crystals 2012 "School of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), Gwangju 500-712, Korea" "J.Appl.Phys., 111(2012)07E117"
154033 JAP11107E117 Si-content (measured by WDS) = 0.0266 in Sr(Pd1-xPtx)2Ge2. Hc2// measured at 2 K. "SrPd2(Ge1-x,Six)2" Sr1Pd2Si0.1Ge1.9 Sr 1 Pd 2 Si 0.1 Ge 1.9 3 2012 AB2C2 ThCr2Si2 Fe-122 K 2.7 2.7 Oe 1589 2 single crystals grown using high-T flux method Chemical pressure and electron doping effects in SrPd2Ge2 single crystals 2012 "School of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), Gwangju 500-712, Korea" "J.Appl.Phys., 111(2012)07E117"
154034 JAP11107E117 Ag-content (measured by WDS) = 0.0564 in Sr(Pd1-xPtx)2Ge2. Hc2// measured at 2 K. Sr(Pd1-xAgx)2Ge2 Sr1Pd1.98Ag0.02Ge2 Sr 1 Pd 1.98 Ag 0.02 Ge 2 3 2012 AB2C2 ThCr2Si2 Fe-122 K 2.64 2.64 Oe 1589 2 single crystals grown using high-T flux method Chemical pressure and electron doping effects in SrPd2Ge2 single crystals 2012 "School of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), Gwangju 500-712, Korea" "J.Appl.Phys., 111(2012)07E117"
154035 JAP11107E117 Ag-content (measured by WDS) = 0.0755 in Sr(Pd1-xPtx)2Ge2. Hc2// measured at 2 K. Sr(Pd1-xAgx)2Ge2 Sr1Pd1.9Ag0.1Ge2 Sr 1 Pd 1.9 Ag 0.1 Ge 2 3 2012 AB2C2 ThCr2Si2 Fe-122 K 2.62 2.62 MTC154026 Oe 1487 2 MHC154026 single crystals grown using high-T flux method Chemical pressure and electron doping effects in SrPd2Ge2 single crystals 2012 "School of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), Gwangju 500-712, Korea" "J.Appl.Phys., 111(2012)07E117"
154036 JAP11107E117 Ag-content (measured by WDS) = 0.117 in Sr(Pd1-xPtx)2Ge2. Hc2// measured at 2 K. Sr(Pd1-xAgx)2Ge2 Sr1Pd1.8Ag0.2Ge2 Sr 1 Pd 1.8 Ag 0.2 Ge 2 3 2012 AB2C2 ThCr2Si2 Fe-122 K 2.52 2.52 Oe 1385 2 single crystals grown using high-T flux method Chemical pressure and electron doping effects in SrPd2Ge2 single crystals 2012 "School of Materials Science and Engineering, Gwangju Institute of Science and Technology (GIST), Gwangju 500-712, Korea" "J.Appl.Phys., 111(2012)07E117"
154038 JPS078113709 "Tc defined as R=0.5Rn. Hc2(T)//b for sample #1(Tc=0.55 K), Hc2(T)//a and //c for sample #2 (Tc=0.71 K)" UCoGe U1Co1Ge1 U 1 Co 1 Ge 1 3 2009 2.6 ABC TiNiSi K 0.48 0.55 0.72 0.55 T "RES, R=0.5Rn" 0.6 MHC154038 Czochralski method Extremely Large and Anisotropic Upper Critical Field and the Ferromagnetic Instability in UCoGe 2009 "INAC/SPSMS, CEA-Grenoble, 17 rue des Martyrs, 38054 Grenoble, France" "J.Phys.Soc.Jpn., 78(2009)113709"
154039 JPS078113709 Curie-T(H) from SP and change of (dR/dT). Angular dependence of Hc2(T) measured for small deviation from b- and a-axis. UCoGe U1Co1Ge1 U 1 Co 1 Ge 1 3 2009 2.6 ABC TiNiSi K 0.48 0.55 0.72 0.55 MPH154039 MHC154039 Czochralski method Extremely Large and Anisotropic Upper Critical Field and the Ferromagnetic Instability in UCoGe 2009 "INAC/SPSMS, CEA-Grenoble, 17 rue des Martyrs, 38054 Grenoble, France" "J.Phys.Soc.Jpn., 78(2009)113709"
154040 JPS079113705 "magnetic properties for H//[110]. SUS(T) shows max at 45 K, but no anomaly in SP. Hc2(0) = 7 Tby extrapolation. (dC/gamma:Tc) = 2.78. Wilson ratio R = 1.7" Ca3Ir4Sn13 Ca3Ir4Sn13 Ca 3 Ir 4 Sn 13 3 2010 emu/mol -0.00013 emu.K/mol 0.18 Myu-B/mol 1.2 -211 A3B4C13 Yb3Rh4Sn13 Pm3[-]n 223 A 9.7437 K 7 7.3 7 0.3 7 80 T "RES, R=0.5Rn, WHH" 5.5 MHC154040 A from Hc2 79 mJ/mol.K 798 mJ/mol.K2 41 SP 149.5 flux method Coexistence of Superconductivity and Ferromagnetic Spin-Fluctuationin Ca3Ir4Sn13 Single Crystal 2010 "Department of Chemistry, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "J.Phys.Soc.Jpn., 79(2010)113705"
154041 JPS080075002 "Pressure medium , ( FC70:FC77= 1:1). R(T) has a hump around 200 K.. Tc(on) and Tc(zero) measured for P < 2.0 GPa (See Fig.)" K0.82Fe2Se2 K0.8Fe2Se2 K 0.8 Fe 2 Se 2 3 2011 AB2C2 ThCr2Si2 Fe-122 K 31.5 33 32.25 MTC154041 K/GPa crystals preoared by melting ( FeAs + K) Pressure Study of the New Iron-Based Superconductor K0:8Fe2Se2 2011 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.Soc.Jpn.,80(2011)075002"
154042 MTL0010071 SUS(300K) = 0.24 E-3 emu/mol. Tc(H=100Oe) = 0.55 K. LaNi2Ge2 La1Ni2Ge2 La 1 Ni 2 Ge 2 1 1982 AB2C2 ThCr2Si2 K 0.69 0.047 0.69 90 "induction melting (stoichiometric) in vitreous carbon crucible (1 atm-Ar) - ANN(750C,5days)" Superconductivity in LaNi2Ge2 and Related Intermetallics 1982 "Bell Laboratories, Murray Hill, New Jersey 07974, USA" "Materials Letters, 1(1982)71"
154043 MTL0010071 "x=0.2 and 0.3 (in LaPd2(Ge1-xSnx)2 samples were multi-phase even after ANN(750C,5days)." "LaPd2(Ge,Sn)2" La1Pd2Ge1.9Sn0.1 La 1 Pd 2 Ge 1.9 Sn 0.1 2 1982 AB2C2 ThCr2Si2 K 1.25 0.04 1.25 80 "induction melting (stoichiometric) in vitreous carbon crucible (1 atm-Ar) - ANN(750C,5days)" Superconductivity in LaNi2Ge2 and Related Intermetallics 1982 "Bell Laboratories, Murray Hill, New Jersey 07974, USA" "Materials Letters, 1(1982)71"
154044 MTL0010071 some second phases present. "LaPt2(Ge,Sn)2" La1Pt2Ge1.8Sn0.2 La 1 Pt 2 Ge 1.8 Sn 0.2 1982 AB2C2 ThCr2Si2 K 1.3 0.22 1.3 90 "induction melting (stoichiometric) in vitreous carbon crucible (1 atm-Ar) - ANN(750C,5days)" Superconductivity in LaNi2Ge2 and Related Intermetallics 1982 "Bell Laboratories, Murray Hill, New Jersey 07974, USA" "Materials Letters, 1(1982)71"
154045 MTL0010071 "LaPd2(Ge,Sn)2" La1Pd2Ge1.96Sn0.04 La 1 Pd 2 Ge 1.96 Sn 0.04 1982 AB2C2 ThCr2Si2 K 0.82 0.82 epitaxial growth on sapphire [101[-]0] substrate. Superconductivity in LaNi2Ge2 and Related Intermetallics 1982 "Bell Laboratories, Murray Hill, New Jersey 07974, USA" "Materials Letters, 1(1982)71"
154046 MTL0010071 "LaPd2(Ge,Sn)2" La1Pd2Ge1.92Sn0.08 La 1 Pd 2 Ge 1.92 Sn 0.08 1982 AB2C2 ThCr2Si2 K 1.44 1.44 epitaxial growth on sapphire [101[-]0] substrate. Superconductivity in LaNi2Ge2 and Related Intermetallics 1982 "Bell Laboratories, Murray Hill, New Jersey 07974, USA" "Materials Letters, 1(1982)71"
154047 PSS0071287 "Thickness=0.4um. Tc=2.2 K for J//[112[-]0] and = 1.5 K for J//[101[-]0]. Figure shows Hc2(T), defined as ac-SUS(onset). R(J//[112[-]0] goes to infinite (insulator) down to 0 K for H=3mT." InN In1N1 In 1 N 1 5 2010 AB K 1.1 2.2 0.2 0.2 mT "SUS, two fluid approx." 13.9 3.5 MHC154047 A from Hc2 1500 3100 meV 0.43 3.9 17 n/cm3 7.00E+18 Meissner effect of superconducting InN 2010 "Department of Electronics, Tokai University, 1117 Kitakaname, Hiratsuka 259-1292 Japan" "Phys.Status Solidi, C7(2010)1287"
154048 PHC4710213 residual resistivity at Tc(on) "Ba(Fe,Co)2As2" Ba1Fe1.87Co0.13As2 Ba 1 Fe 1.87 Co 0.13 As 2 1 2011 AB2C2 ThCr2Si2 I4/mmm A 3.96 13 Fe-122 K 25 25 mOhm.cm 0.42 "BaAs,FeAs,Fe(3N),Co(99.5%),Zn(4N)" "stoichiometric mixture - (Pt capsule with h-BN inner) - sealed in evacuated quartz tube - heat(1100C,20h)" Non-magnetic impurity effect on the optimally carrier doped superconductor BaFe1.87Co0.13As2 prepared at ambient pressure 2011 "Superconducting Materials Center, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Physica C, 471(2011)213"
154049 PHC4710213 residual resistivity at Tc(on) "Ba(Fe,Zn,Co)2As2" Ba1Fe1.83Zn0.04Co0.13As2 Ba 1 Fe 1.83 Zn 0.04 Co 0.13 As 2 1 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9633 13 Fe-122 K 20 20 mOhm.cm 0.54 "BaAs,FeAs,Fe(3N),Co(99.5%),Zn(4N)" "stoichiometric mixture - (Pt capsule with h-BN inner) - sealed in evacuated quartz tube - heat(1100C,20h)" Non-magnetic impurity effect on the optimally carrier doped superconductor BaFe1.87Co0.13As2 prepared at ambient pressure 2011 "Superconducting Materials Center, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Physica C, 471(2011)213"
154050 PHC4710213 residual resistivity at Tc(on) "Ba(Fe,Zn,Co)2As2" Ba1Fe1.81Zn0.06Co0.13As2 Ba 1 Fe 1.81 Zn 0.06 Co 0.13 As 2 1 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9645 13.0352 Fe-122 K 19 19 mOhm.cm 0.66 "BaAs,FeAs,Fe(3N),Co(99.5%),Zn(4N)" "stoichiometric mixture - (Pt capsule with h-BN inner) - sealed in evacuated quartz tube - heat(1100C,20h)" Non-magnetic impurity effect on the optimally carrier doped superconductor BaFe1.87Co0.13As2 prepared at ambient pressure 2011 "Superconducting Materials Center, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Physica C, 471(2011)213"
154051 PHC4710213 residual resistivity at Tc(on) "Ba(Fe,Zn,Co)2As2" Ba1Fe1.79Zn0.08Co0.13As2 Ba 1 Fe 1.79 Zn 0.08 Co 0.13 As 2 1 2011 AB2C2 ThCr2Si2 I4/mmm A 3.961 13.0446 Fe-122 K 19 19 mOhm.cm 0.73 "BaAs,FeAs,Fe(3N),Co(99.5%),Zn(4N)" "stoichiometric mixture - (Pt capsule with h-BN inner) - sealed in evacuated quartz tube - heat(1100C,20h)" Non-magnetic impurity effect on the optimally carrier doped superconductor BaFe1.87Co0.13As2 prepared at ambient pressure 2011 "Superconducting Materials Center, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Physica C, 471(2011)213"
154052 PRB070064403 Tc(SP) = 2.8 K. (dC/gamma*Tc) = 0.85. Y2Ir3Si5 Y2Ir3Si5 Y 2 Ir 3 Si 5 1 2004 emu/mol.K 0.003371 A2B3C5 U2Co3Si5 Ibam A 9.918 11.472 5.795 K 2.96 2.85 2.96 MSP154052 mJ/mol.K2 35 "R(3N),Ir(3N),Si(5N)" "Ar-arcmelting. wrapped in Zr-foil - ANN(900C,10d)" "Low-temperature studies of the magnetic and superconducting properties of the R2Ir3Si5 (R=Y,La,Ce-Nd,Gd-Tm) system" 2004 "Tata Institute of Fundamental Research, Bombay-400005, India" "Phys.Rev.B, 70(2004)064403"
154053 PRB070064403 Tc(SP) = 1.96 K. (dC/gamma*Tc) = 0.41. La2Ir3Si5 La2Ir3Si5 La 2 Ir 3 Si 5 1 2004 emu/mol.K 0.002034 A2B3C5 U2Co3Si5 Ibam A 9.979 11.649 5.924 K 1.99 1.95 1.99 MSP154053 mJ/mol.K2 19.4 "R(3N),Ir(3N),Si(5N)" "Ar-arcmelting. wrapped in Zr-foil - ANN(900C,10d)" "Low-temperature studies of the magnetic and superconducting properties of the R2Ir3Si5 (R=Y,La,Ce-Nd,Gd-Tm) system" 2004 "Tata Institute of Fundamental Research, Bombay-400005, India" "Phys.Rev.B, 70(2004)064403"
154054 PRB070064403 not SC Ce2Ir3Si5 Ce2Ir3Si5 Ce 2 Ir 3 Si 5 1 2004 emu/mol.K 0.002115 A2B3C5 U2Co3Si5 Ibam A 9.96 11.629 5.879 K 1.5 mJ/mol.K2 45 "R(3N),Ir(3N),Si(5N)" "Ar-arcmelting. wrapped in Zr-foil - ANN(900C,10d)" "Low-temperature studies of the magnetic and superconducting properties of the R2Ir3Si5 (R=Y,La,Ce-Nd,Gd-Tm) system" 2004 "Tata Institute of Fundamental Research, Bombay-400005, India" "Phys.Rev.B, 70(2004)064403"
154055 PRB070064403 not SC Pr2Ir3Si5 Pr2Ir3Si5 Pr 2 Ir 3 Si 5 1 2004 emu/mol.K -0.0001507 myu-B/mol 4.38 -21.4 A2B3C5 U2Co3Si5 Ibam A 9.947 11.615 5.872 K 1.5 "R(3N),Ir(3N),Si(5N)" "Ar-arcmelting. wrapped in Zr-foil - ANN(900C,10d)" "Low-temperature studies of the magnetic and superconducting properties of the R2Ir3Si5 (R=Y,La,Ce-Nd,Gd-Tm) system" 2004 "Tata Institute of Fundamental Research, Bombay-400005, India" "Phys.Rev.B, 70(2004)064403"
154056 PRB070064403 not SC Nd2Ir3Si5 Nd2Ir3Si5 Nd 2 Ir 3 Si 5 1 2004 emu/mol.K 0.0001557 myu-B/mol 3.79 -4.65 5 A2B3C5 U2Co3Si5 Ibam A 9.939 11.587 5.857 K 1.5 "R(3N),Ir(3N),Si(5N)" "Ar-arcmelting. wrapped in Zr-foil - ANN(900C,10d)" "Low-temperature studies of the magnetic and superconducting properties of the R2Ir3Si5 (R=Y,La,Ce-Nd,Gd-Tm) system" 2004 "Tata Institute of Fundamental Research, Bombay-400005, India" "Phys.Rev.B, 70(2004)064403"
154057 PRB070064403 not SC Gd2Ir3Si5 Gd2Ir3Si5 Gd 2 Ir 3 Si 5 1 2004 emu/mol.K -0.0004762 myu-B/mol 8.14 -22.1 4.82 A2B3C5 U2Co3Si5 Ibam A 9.925 11.521 5.822 K 1.5 "R(3N),Ir(3N),Si(5N)" "Ar-arcmelting. wrapped in Zr-foil - ANN(900C,10d)" "Low-temperature studies of the magnetic and superconducting properties of the R2Ir3Si5 (R=Y,La,Ce-Nd,Gd-Tm) system" 2004 "Tata Institute of Fundamental Research, Bombay-400005, India" "Phys.Rev.B, 70(2004)064403"
154058 PRB070064403 not SC Tb2Ir3Si5 Tb2Ir3Si5 Tb 2 Ir 3 Si 5 1 2004 emu/mol.K -0.000936 myu-B/mol 9.99 -31.5 3.21 A2B3C5 U2Co3Si5 Ibam A 9.916 11.487 5.799 K 1.5 "R(3N),Ir(3N),Si(5N)" "Ar-arcmelting. wrapped in Zr-foil - ANN(900C,10d)" "Low-temperature studies of the magnetic and superconducting properties of the R2Ir3Si5 (R=Y,La,Ce-Nd,Gd-Tm) system" 2004 "Tata Institute of Fundamental Research, Bombay-400005, India" "Phys.Rev.B, 70(2004)064403"
154059 PRB070064403 not SC Dy2Ir3Si5 Dy2Ir3Si5 Dy 2 Ir 3 Si 5 1 2004 emu/mol.K 0.002913 myu-B/mol 10.32 -11.81 6.35 A2B3C5 U2Co3Si5 Ibam A 9.897 11.406 5.779 K 1.5 "R(3N),Ir(3N),Si(5N)" "Ar-arcmelting. wrapped in Zr-foil - ANN(900C,10d)" "Low-temperature studies of the magnetic and superconducting properties of the R2Ir3Si5 (R=Y,La,Ce-Nd,Gd-Tm) system" 2004 "Tata Institute of Fundamental Research, Bombay-400005, India" "Phys.Rev.B, 70(2004)064403"
154060 PRB070064403 not SC Ho2Ir3Si5 Ho2Ir3Si5 Ho 2 Ir 3 Si 5 1 2004 5.38 A2B3C5 U2Co3Si5 Ibam A 9.883 11.371 5.759 K 1.5 "R(3N),Ir(3N),Si(5N)" "Ar-arcmelting. wrapped in Zr-foil - ANN(900C,10d)" "Low-temperature studies of the magnetic and superconducting properties of the R2Ir3Si5 (R=Y,La,Ce-Nd,Gd-Tm) system" 2004 "Tata Institute of Fundamental Research, Bombay-400005, India" "Phys.Rev.B, 70(2004)064403"
154061 PRB070064403 not SC Er2Ir3Si5 Er2Ir3Si5 Er 2 Ir 3 Si 5 1 2004 emu/mol.K -0.000339 myu-B/mol 9.92 0.63 2.2 A2B3C5 U2Co3Si5 Ibam A 9.872 11.364 5.751 K 1.5 "R(3N),Ir(3N),Si(5N)" "Ar-arcmelting. wrapped in Zr-foil - ANN(900C,10d)" "Low-temperature studies of the magnetic and superconducting properties of the R2Ir3Si5 (R=Y,La,Ce-Nd,Gd-Tm) system" 2004 "Tata Institute of Fundamental Research, Bombay-400005, India" "Phys.Rev.B, 70(2004)064403"
154062 PRB070064403 not SC Tm2Ir3Si5 Tm2Ir3Si5 Tm 2 Ir 3 Si 5 1 2004 emu/mol.K -0.002134 myu-B/mol 7.78 2.64 A2B3C5 U2Co3Si5 Ibam A 9.866 11.33 5.745 K 1.5 "R(3N),Ir(3N),Si(5N)" "Ar-arcmelting. wrapped in Zr-foil - ANN(900C,10d)" "Low-temperature studies of the magnetic and superconducting properties of the R2Ir3Si5 (R=Y,La,Ce-Nd,Gd-Tm) system" 2004 "Tata Institute of Fundamental Research, Bombay-400005, India" "Phys.Rev.B, 70(2004)064403"
154063 PRB04810435 not SC. (dR/dT) = 1.20 uOhm.cm/K at 300 K. Nd3Ru4Ge13 Nd3Ru4Ge13 Nd 3 Ru 4 Ge 13 1993 emu/mol.K 4.4 myu-B/mol 3.4 2.7 A3B4C13 Pr3Rh4Sn13 Pm3n A 9.0535 K 1.5 "R(3N),Ru(4N),Ge(4N)" "arc-melting - ANN(900C,2w, in sealed quartz tube with He)" "Resistivity and magnetic-susceptibility studies in the R3Ru4Ge13 (R=Nd, Dy, Ho, Er, Yb, Lu, and Y) system" 1993 "Tata Institute of Fundamental Research, Bombay-400005, India" "Phys.Rev.B, 48(1993)104353"
154064 PRB04810435 not SC. (dR/dT) = 0.66 uOhm.cm/K at 300 K. Dy3Ru4Ge13 Dy3Ru4Ge13 Dy 3 Ru 4 Ge 13 1993 emu/mol.K 39.5 myu-B/mol 10.3 2.3 A3B4C13 Pr3Rh4Sn13 Pm3n A 8.9548 K 1.5 "R(3N),Ru(4N),Ge(4N)" "arc-melting - ANN(900C,2w, in sealed quartz tube with He)" "Resistivity and magnetic-susceptibility studies in the R3Ru4Ge13 (R=Nd, Dy, Ho, Er, Yb, Lu, and Y) system" 1993 "Tata Institute of Fundamental Research, Bombay-400005, India" "Phys.Rev.B, 48(1993)104353"
154065 PRB04810435 not SC. (dR/dT) = 0.348 uOhm.cm/K at 300 K. Er3Ru4Ge13 Er3Ru4Ge13 Er 3 Ru 4 Ge 13 1993 emu/mol.K 30.6 myu-B/mol 9.04 8.3 A3B4C13 Pr3Rh4Sn13 Pm3n A 8.9303 K 1.5 "R(3N),Ru(4N),Ge(4N)" "arc-melting - ANN(900C,2w, in sealed quartz tube with He)" "Resistivity and magnetic-susceptibility studies in the R3Ru4Ge13 (R=Nd, Dy, Ho, Er, Yb, Lu, and Y) system" 1993 "Tata Institute of Fundamental Research, Bombay-400005, India" "Phys.Rev.B, 48(1993)104353"
154066 PRB04810435 not SC. (dR/dT) = 0.46 uOhm.cm/K at 300 K. Ho3Ru4Ge13 Ho3Ru4Ge13 Ho 3 Ru 4 Ge 13 1993 emu/mol.K 42.5 myu-B/mol 10.6 -6 A3B4C13 Pr3Rh4Sn13 Pm3n A 8.9444 K 1.5 "R(3N),Ru(4N),Ge(4N)" "arc-melting - ANN(900C,2w, in sealed quartz tube with He)" "Resistivity and magnetic-susceptibility studies in the R3Ru4Ge13 (R=Nd, Dy, Ho, Er, Yb, Lu, and Y) system" 1993 "Tata Institute of Fundamental Research, Bombay-400005, India" "Phys.Rev.B, 48(1993)104353"
154067 PRB04810435 not SC. anomalous R(T) behaviour. Yb3Ru4Ge13 Yb3Ru4Ge13 Yb 3 Ru 4 Ge 13 1993 emu/mol 0.0013 emu/mol.K 2.6 myu-B/mol 2.6 -49.2 A3B4C13 Pr3Rh4Sn13 Pm3n A 8.9073 K 1.5 "R(3N),Ru(4N),Ge(4N)" "arc-melting - ANN(900C,2w, in sealed quartz tube with He)" "Resistivity and magnetic-susceptibility studies in the R3Ru4Ge13 (R=Nd, Dy, Ho, Er, Yb, Lu, and Y) system" 1993 "Tata Institute of Fundamental Research, Bombay-400005, India" "Phys.Rev.B, 48(1993)104353"
154068 PRB04810435 SUS(T) nearly T-independent down to 2.3 K (diamag). (dR/dT) = 0.243 uOhm.cm/K at 300 K Lu3Ru4Ge13 Lu3Ru4Ge13 Lu 3 Ru 4 Ge 13 1993 A3B4C13 Pr3Rh4Sn13 Pm3n A 8.9068 K 2.3 2.3 2.3 "R(3N),Ru(4N),Ge(4N)" "arc-melting - ANN(900C,2w, in sealed quartz tube with He)" "Resistivity and magnetic-susceptibility studies in the R3Ru4Ge13 (R=Nd, Dy, Ho, Er, Yb, Lu, and Y) system" 1993 "Tata Institute of Fundamental Research, Bombay-400005, India" "Phys.Rev.B, 48(1993)104353"
154069 PRB04810435 SUS(T) nearly T-independent down to 2 K (paramag). (dR/dT) = 0.897 uOhm.cm/K at 300 K Y3Ru4Ge13 Y3Ru4Ge13 Y 3 Ru 4 Ge 13 1993 A3B4C13 Pr3Rh4Sn13 Pm3n K 1.8 1.8 1.8 "R(3N),Ru(4N),Ge(4N)" "arc-melting - ANN(900C,2w, in sealed quartz tube with He)" "Resistivity and magnetic-susceptibility studies in the R3Ru4Ge13 (R=Nd, Dy, Ho, Er, Yb, Lu, and Y) system" 1993 "Tata Institute of Fundamental Research, Bombay-400005, India" "Phys.Rev.B, 48(1993)104353"
154070 PRB071045109 "R not to zero down to 1.8K. R(T) has huge thermal hysteresis : 208 K(warming), 164 K(cooling). CDW-like phase transition. SP heat also shows these anomalies." Lu2Ir3Si5 Lu2Ir3Si5 Lu 2 Ir 3 Si 5 1 2005 A2B3C5 U2Co3Si5 Ibam A 9.91457 11.2866 5.72191 K 3.3 3.3 3.3 "Lu(3N),Ir(3N),Si(5N)" "arc-melting 6 times. wrapped in Zr foil - sealed in evacuated quartz tube - ANN(950C,8d)" Phase transitions in Lu2Ir3Si5 2005 "Tata Institute of Fundamental Research, Bombay-400005, India" "Phys.Rev.B, 71(2005)045109"
154072 PRB079224524 not SC "Ba(Fe,Cr)2As2" Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2009 132 6.454 AB2C2 ThCr2Si2 I4/mmm A 3.9642 13.018 Fe-122 K 1.8 mJ/mol.K2 6.1 SP "mixture(Ba,FeAs,CrAs) - heat in alumina crucible(1230C,13h) - cool (1.8 C/h) - decanting FeAs/CrAs flux at 1100C" Absence of superconductivity in hole-doped BaFe2-xCrxAs2 single crystals 2009 "Materials Science and Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831-6114, USA" "Phys.Rev.B, 79(2009)224524"
154073 PRB079224524 not SC "Ba(Fe,Cr)2As2" Ba1Fe1.96Cr0.04As2 Ba 1 Fe 1.96 Cr 0.04 As 2 3 2009 118 AB2C2 ThCr2Si2 I4/mmm A 3.962 13.04 Fe-122 K 1.8 mJ/mol.K2 6.1 SP MRH154073 "mixture(Ba,FeAs,CrAs) - heat in alumina crucible(1230C,13h) - cool (1.8 C/h) - decanting FeAs/CrAs flux at 1100C" Absence of superconductivity in hole-doped BaFe2-xCrxAs2 single crystals 2009 "Materials Science and Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831-6114, USA" "Phys.Rev.B, 79(2009)224524"
154074 PRB079224524 not SC "Ba(Fe,Cr)2As2" Ba1Fe1.86Cr0.14As2 Ba 1 Fe 1.86 Cr 0.14 As 2 3 2009 88 AB2C2 ThCr2Si2 I4/mmm A 3.9618 13.085 Fe-122 K 1.8 MPH154074 mJ/mol.K2 30 SP MRH154074 "mixture(Ba,FeAs,CrAs) - heat in alumina crucible(1230C,13h) - cool (1.8 C/h) - decanting FeAs/CrAs flux at 1100C" Absence of superconductivity in hole-doped BaFe2-xCrxAs2 single crystals 2009 "Materials Science and Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831-6114, USA" "Phys.Rev.B, 79(2009)224524"
154075 PRB079224524 not SC "Ba(Fe,Cr)2As2" Ba1Fe1.8Cr0.2As2 Ba 1 Fe 1.8 Cr 0.2 As 2 3 2009 80 AB2C2 ThCr2Si2 I4/mmm A 3.9665 13.112 Fe-122 K 1.8 mJ/mol.K2 38 SP "mixture(Ba,FeAs,CrAs) - heat in alumina crucible(1230C,13h) - cool (1.8 C/h) - decanting FeAs/CrAs flux at 1100C" Absence of superconductivity in hole-doped BaFe2-xCrxAs2 single crystals 2009 "Materials Science and Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831-6114, USA" "Phys.Rev.B, 79(2009)224524"
154076 PRB079224524 not SC "Ba(Fe,Cr)2As2" Ba1Fe1.64Cr0.36As2 Ba 1 Fe 1.64 Cr 0.36 As 2 3 2009 58 AB2C2 ThCr2Si2 I4/mmm A 3.9657 13.165 Fe-122 K 1.8 mJ/mol.K2 65.4 SP "mixture(Ba,FeAs,CrAs) - heat in alumina crucible(1230C,10h) - cool (2.0 C/h) - decanting FeAs/CrAs flux at 1120 C" Absence of superconductivity in hole-doped BaFe2-xCrxAs2 single crystals 2009 "Materials Science and Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831-6114, USA" "Phys.Rev.B, 79(2009)224524"
154077 PRB079224524 not SC "Ba(Fe,Cr)2As2" Ba1Fe1.25Cr0.75As2 Ba 1 Fe 1.25 Cr 0.75 As 2 3 2009 AB2C2 ThCr2Si2 I4/mmm A 3.9792 13.26 Fe-122 K 1.8 mJ/mol.K2 70 SP "mixture(Ba,FeAs,CrAs) - heat in alumina crucible(1230C,10h) - cool (2.0 C/h) - decanting FeAs/CrAs flux at 1120 C" Absence of superconductivity in hole-doped BaFe2-xCrxAs2 single crystals 2009 "Materials Science and Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831-6114, USA" "Phys.Rev.B, 79(2009)224524"
154078 PRB082180520 K:Fe:Se = 0.39:0.85:1 by ICP. Broad maximun in R(T) at 105 K. KxFe2Se2 K0.8Fe2Se2 K 0.8 Fe 2 Se 2 2010 AB2C2 ThCr2Si2 I4/mmm 139 A 3.9136 14.0367 Fe-122 K 27.2 28.3 30.1 31 28.3 T M-H curve 0.2 5 n/cm3 1.76E+23 "Two step method. 1stly, precursor made by solid state reactin , then flux method. alumina crucible - sealed in silica ampoule - heat(1300K) - cool to 1000K with 4 K/h - FC" Superconductivity in the iron selenide KxFe2Se2 (0 =< x =<1.0) 2010 "Research & Development Center for Functional Crystals, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 82(2010)180520"
154079 PRB080224522 "Thermal conductivity k(H,T) were measured for H??[110]. Figure shows Hc2 and Hd , where the slope of k(H) changes significantly." HoNi2B2C Ho1Ni2B2C Ho 1 Ni 2 B 2 C 3 2009 ABC2D2 LuNi2B2C K 8.6 8.6 T RES MHC154079 "floating zone method. - ANN(1000C,72h)" Magnetic pair breaking in superconducting HoNi2B2C studied on a single crystal by thermal conductivity in magnetic fields 2009 "Institut fur Festkorper- und Werkstoffforschung Dresden (IFW), D-01171 Dresden, Germany" "Phys.Rev.B, 80(2009)224522"
154080 PRB084020513 Tc(R) defined as max of (dR/dT). Hall const (150K) measured for H//c. "Ba(Fe,Co)2As2" Ba1Fe1.89Co0.11As2 Ba 1 Fe 1.89 Co 0.11 As 2 3 2011 AB2C2 ThCr2Si2 I4/mmm A 3.955 12.976 Fe-122 K 25 25 mOhm.cm 0.26 m3/C -2.92E-09 "BaAs,FeAs,Fe(3N),Co(99.5),Zn(4N)" "mixture in BN - in Ta capsule - high-P synthesis: heat(1300C,2h, P=3 GPa) - slow cool to 1000C (2h) - Q to RT - keep in vac for 3-5 days." Linear decrease of critical temperature with increasing Zn substitution in the iron-based superconductor BaFe1.89-2xZn2xCo0.11As2 2011 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 84(2011)020513"
154081 PRB084020513 Zn-content x (in Ba(Fe1.89-2xCo2x)As2) = 0.008 by EPMA.Tc(R) defined as max of (dR/dT). "Ba(Fe,Zn,Co)2As2" Ba1Fe1.87Zn0.02Co0.11As2 Ba 1 Fe 1.87 Zn 0.02 Co 0.11 As 2 3 2011 AB2C2 ThCr2Si2 I4/mmm A 3.957 12.98 Fe-122 K 20 20 mOhm.cm 0.42 "BaAs,FeAs,Fe(3N),Co(99.5),Zn(4N)" "mixture in BN - in Ta capsule - high-P synthesis: heat(1300C,2h, P=3 GPa) - slow cool to 1000C (2h) - Q to RT - keep in vac for 3-5 days." Linear decrease of critical temperature with increasing Zn substitution in the iron-based superconductor BaFe1.89-2xZn2xCo0.11As2 2011 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 84(2011)020513"
154082 PRB084020513 Zn-content x (in Ba(Fe1.89-2xCo2x)As2) = 0.021 by EPMA.Tc(R) defined as max of (dR/dT). Hall const (150K) measured for H//c. "Ba(Fe,Zn,Co)2As2" Ba1Fe1.85Zn0.04Co0.11As2 Ba 1 Fe 1.85 Zn 0.04 Co 0.11 As 2 3 2011 AB2C2 ThCr2Si2 I4/mmm A 3.963 12.983 Fe-122 K 18.5 18.5 mOhm.cm 0.4 m3/C -2.82E-09 "BaAs,FeAs,Fe(3N),Co(99.5),Zn(4N)" "mixture in BN - in Ta capsule - high-P synthesis: heat(1300C,2h, P=3 GPa) - slow cool to 1000C (2h) - Q to RT - keep in vac for 3-5 days." Linear decrease of critical temperature with increasing Zn substitution in the iron-based superconductor BaFe1.89-2xZn2xCo0.11As2 2011 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 84(2011)020513"
154083 PRB084020513 Zn-content x (in Ba(Fe1.89-2xCo2x)As2) = 0.033 by EPMA.Tc(R) defined as max of (dR/dT). "Ba(Fe,Zn,Co)2As2" Ba1Fe1.83Zn0.06Co0.11As2 Ba 1 Fe 1.83 Zn 0.06 Co 0.11 As 2 3 2011 AB2C2 ThCr2Si2 I4/mmm A 3.967 12.989 Fe-122 K 17 17 mOhm.cm 0.48 "BaAs,FeAs,Fe(3N),Co(99.5),Zn(4N)" "mixture in BN - in Ta capsule - high-P synthesis: heat(1300C,2h, P=3 GPa) - slow cool to 1000C (2h) - Q to RT - keep in vac for 3-5 days." Linear decrease of critical temperature with increasing Zn substitution in the iron-based superconductor BaFe1.89-2xZn2xCo0.11As2 2011 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 84(2011)020513"
154084 PRB084020513 Zn-content x (in Ba(Fe1.89-2xCo2x)As2) = 0.044 by EPMA.Tc(R) defined as max of (dR/dT). Hall const (150K) measured for H//c. "Ba(Fe,Zn,Co)2As2" Ba1Fe1.81Zn0.08Co0.11As2 Ba 1 Fe 1.81 Zn 0.08 Co 0.11 As 2 3 2011 AB2C2 ThCr2Si2 I4/mmm A 3.968 13.002 Fe-122 K 11 11 mOhm.cm 0.57 m3/C -4.57E-09 "BaAs,FeAs,Fe(3N),Co(99.5),Zn(4N)" "mixture in BN - in Ta capsule - high-P synthesis: heat(1300C,2h, P=3 GPa) - slow cool to 1000C (2h) - Q to RT - keep in vac for 3-5 days." Linear decrease of critical temperature with increasing Zn substitution in the iron-based superconductor BaFe1.89-2xZn2xCo0.11As2 2011 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 84(2011)020513"
154085 PRB084020513 Zn-content x (in Ba(Fe1.89-2xCo2x)As2) = 0.052 by EPMA.Tc(R) defined as max of (dR/dT). "Ba(Fe,Zn,Co)2As2" Ba1Fe1.79Zn0.1Co0.11As2 Ba 1 Fe 1.79 Zn 0.1 Co 0.11 As 2 3 2011 AB2C2 ThCr2Si2 I4/mmm A 3.968 13.001 Fe-122 K 8 8 mOhm.cm 0.59 "BaAs,FeAs,Fe(3N),Co(99.5),Zn(4N)" "mixture in BN - in Ta capsule - high-P synthesis: heat(1300C,2h, P=3 GPa) - slow cool to 1000C (2h) - Q to RT - keep in vac for 3-5 days." Linear decrease of critical temperature with increasing Zn substitution in the iron-based superconductor BaFe1.89-2xZn2xCo0.11As2 2011 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 84(2011)020513"
154086 PRB084020513 Zn-content x (in Ba(Fe1.89-2xCo2x)As2) = 0.073 by EPMA.Tc(R) defined as max of (dR/dT). Hall const (150K) measured for H//c. "Ba(Fe,Zn,Co)2As2" Ba1Fe1.75Zn0.14Co0.11As2 Ba 1 Fe 1.75 Zn 0.14 Co 0.11 As 2 3 2011 AB2C2 ThCr2Si2 I4/mmm A 3.972 13.026 Fe-122 K 5 5 mOhm.cm 0.76 m3/C -4.81E-09 "BaAs,FeAs,Fe(3N),Co(99.5),Zn(4N)" "mixture in BN - in Ta capsule - high-P synthesis: heat(1300C,2h, P=3 GPa) - slow cool to 1000C (2h) - Q to RT - keep in vac for 3-5 days." Linear decrease of critical temperature with increasing Zn substitution in the iron-based superconductor BaFe1.89-2xZn2xCo0.11As2 2011 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 84(2011)020513"
154087 PRB084020513 Zn-content x (in Ba(Fe1.89-2xCo2x)As2) = 0.082 by EPMA.Tc(R) defined as max of (dR/dT). "Ba(Fe,Zn,Co)2As2" Ba1Fe1.73Zn0.16Co0.11As2 Ba 1 Fe 1.73 Zn 0.16 Co 0.11 As 2 3 2011 AB2C2 ThCr2Si2 I4/mmm A 3.977 13.033 Fe-122 K 2 mOhm.cm 1.02 "BaAs,FeAs,Fe(3N),Co(99.5),Zn(4N)" "mixture in BN - in Ta capsule - high-P synthesis: heat(1300C,2h, P=3 GPa) - slow cool to 1000C (2h) - Q to RT - keep in vac for 3-5 days." Linear decrease of critical temperature with increasing Zn substitution in the iron-based superconductor BaFe1.89-2xZn2xCo0.11As2 2011 "Superconducting Properties Unit, National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 84(2011)020513"
154088 PRB084014502 K:Fe:Se = 0.79:1.64:2 measured by EDX. broad hump at 115 K in R(T). K0.8Fe2Se2 K0.8Fe2Se2 K 0.8 Fe 2 Se 2 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9106 14.0662 Fe-122 K 30.5 30.5 mOhm.cm 0.168 "mixture((Fe,M):Se=1:1) - heat(650C,12h). Stoichiometric mixture - sealed in quartz tube(vac) - put in bigger quartz tube - heat(1050C,4h) - slow cool to 700C(4C/h) - FC to RT" "Different response of superconductivity to the transition-metal impurities in K0.8Fe2-y-xMxSe2 (M = Cr, Mn, Co, Zn)" 2011 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 84(2011)014502"
154089 PRB084014502 "compositions of K and Fe are nearly 0.8 and 1.65 , respectively by EDX." K0.8Fe2-xCrxSe2 K0.8Fe1.996Cr0.004Se2 K 0.8 Fe 1.996 Cr 0.004 Se 2 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9111 14.0545 Fe-122 K 20 20 mOhm.cm 0.32 "mixture((Fe,M):Se=1:1) - heat(650C,12h). Stoichiometric mixture - sealed in quartz tube(vac) - put in bigger quartz tube - heat(1050C,4h) - slow cool to 700C(4C/h) - FC to RT" "Different response of superconductivity to the transition-metal impurities in K0.8Fe2-y-xMxSe2 (M = Cr, Mn, Co, Zn)" 2011 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 84(2011)014502"
154090 PRB084014502 "compositions of K and Fe are nearly 0.8 and 1.65 , respectively by EDX." K0.8Fe2-xCrxSe2 K0.8Fe1.993Cr0.007Se2 K 0.8 Fe 1.993 Cr 0.007 Se 2 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9114 14.0455 Fe-122 K 11 11 mOhm.cm 1.282 "mixture((Fe,M):Se=1:1) - heat(650C,12h). Stoichiometric mixture - sealed in quartz tube(vac) - put in bigger quartz tube - heat(1050C,4h) - slow cool to 700C(4C/h) - FC to RT" "Different response of superconductivity to the transition-metal impurities in K0.8Fe2-y-xMxSe2 (M = Cr, Mn, Co, Zn)" 2011 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 84(2011)014502"
154091 PRB084014502 "compositions of K and Fe are nearly 0.8 and 1.65 , respectively by EDX." K0.8Fe2-xCoxSe2 K0.8Fe1.996Co0.004Se2 K 0.8 Fe 1.996 Co 0.004 Se 2 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9108 14.0583 Fe-122 K 22 22 mOhm.cm 0.236 "mixture((Fe,M):Se=1:1) - heat(650C,12h). Stoichiometric mixture - sealed in quartz tube(vac) - put in bigger quartz tube - heat(1050C,4h) - slow cool to 700C(4C/h) - FC to RT" "Different response of superconductivity to the transition-metal impurities in K0.8Fe2-y-xMxSe2 (M = Cr, Mn, Co, Zn)" 2011 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 84(2011)014502"
154092 PRB084014502 "compositions of K and Fe are nearly 0.8 and 1.65 , respectively by EDX." K0.8Fe2-xCoxSe2 K0.8Fe1.992Co0.008Se2 K 0.8 Fe 1.992 Co 0.008 Se 2 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9116 14.0496 Fe-122 K 17 17 mOhm.cm 0.301 "mixture((Fe,M):Se=1:1) - heat(650C,12h). Stoichiometric mixture - sealed in quartz tube(vac) - put in bigger quartz tube - heat(1050C,4h) - slow cool to 700C(4C/h) - FC to RT" "Different response of superconductivity to the transition-metal impurities in K0.8Fe2-y-xMxSe2 (M = Cr, Mn, Co, Zn)" 2011 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 84(2011)014502"
154093 PRB084014502 "compositions of K and Fe are nearly 0.8 and 1.65 , respectively by EDX." K0.8Fe2-xCoxSe2 K0.8Fe1.988Co0.012Se2 K 0.8 Fe 1.988 Co 0.012 Se 2 2011 AB2C2 ThCr2Si2 I4/mmm A 3.912 14.0387 Fe-122 K 11 11 mOhm.cm 0.482 "mixture((Fe,M):Se=1:1) - heat(650C,12h). Stoichiometric mixture - sealed in quartz tube(vac) - put in bigger quartz tube - heat(1050C,4h) - slow cool to 700C(4C/h) - FC to RT" "Different response of superconductivity to the transition-metal impurities in K0.8Fe2-y-xMxSe2 (M = Cr, Mn, Co, Zn)" 2011 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 84(2011)014502"
154094 PRB084014502 "compositions of K and Fe are nearly 0.8 and 1.65 , respectively by EDX." K0.8Fe2-xMnxSe2 K0.8Fe1.99Mn0.01Se2 K 0.8 Fe 1.99 Mn 0.01 Se 2 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9122 14.058 Fe-122 K 31 31 mOhm.cm 0.185 "mixture((Fe,M):Se=1:1) - heat(650C,12h). Stoichiometric mixture - sealed in quartz tube(vac) - put in bigger quartz tube - heat(1050C,4h) - slow cool to 700C(4C/h) - FC to RT" "Different response of superconductivity to the transition-metal impurities in K0.8Fe2-y-xMxSe2 (M = Cr, Mn, Co, Zn)" 2011 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 84(2011)014502"
154095 PRB084014502 K:Fe:Mn:Se = 0.8:1.59:0.021:2 by EDX. K0.8Fe2-xMnxSe2 K0.8Fe1.979Mn0.021Se2 K 0.8 Fe 1.979 Mn 0.021 Se 2 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9133 14.0533 Fe-122 K 31 31 mOhm.cm 0.228 "mixture((Fe,M):Se=1:1) - heat(650C,12h). Stoichiometric mixture - sealed in quartz tube(vac) - put in bigger quartz tube - heat(1050C,4h) - slow cool to 700C(4C/h) - FC to RT" "Different response of superconductivity to the transition-metal impurities in K0.8Fe2-y-xMxSe2 (M = Cr, Mn, Co, Zn)" 2011 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 84(2011)014502"
154096 PRB084014502 "compositions of K and Fe are nearly 0.8 and 1.65 , respectively by EDX." K0.8Fe2-xMnxSe2 K0.8Fe1.97Mn0.03Se2 K 0.8 Fe 1.97 Mn 0.03 Se 2 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9141 14.0412 Fe-122 K 31.5 31.5 mOhm.cm 0.224 "mixture((Fe,M):Se=1:1) - heat(650C,12h). Stoichiometric mixture - sealed in quartz tube(vac) - put in bigger quartz tube - heat(1050C,4h) - slow cool to 700C(4C/h) - FC to RT" "Different response of superconductivity to the transition-metal impurities in K0.8Fe2-y-xMxSe2 (M = Cr, Mn, Co, Zn)" 2011 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 84(2011)014502"
154097 PRB084014502 K:Fe:Mn:Se = 0.8:1.61:0.049:2 by EDX K0.8Fe2-xMnxSe2 K0.8Fe1.951Mn0.049Se2 K 0.8 Fe 1.951 Mn 0.049 Se 2 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9153 14.0296 Fe-122 K 31.9 31.9 mOhm.cm 0.262 "mixture((Fe,M):Se=1:1) - heat(650C,12h). Stoichiometric mixture - sealed in quartz tube(vac) - put in bigger quartz tube - heat(1050C,4h) - slow cool to 700C(4C/h) - FC to RT" "Different response of superconductivity to the transition-metal impurities in K0.8Fe2-y-xMxSe2 (M = Cr, Mn, Co, Zn)" 2011 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 84(2011)014502"
154098 PRB084014502 "compositions of K and Fe are nearly 0.8 and 1.65 , respectively by EDX." K0.8Fe2-xMnxSe2 K0.8Fe1.933Mn0.067Se2 K 0.8 Fe 1.933 Mn 0.067 Se 2 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9158 14.0202 Fe-122 K 32 32 mOhm.cm 0.193 "mixture((Fe,M):Se=1:1) - heat(650C,12h). Stoichiometric mixture - sealed in quartz tube(vac) - put in bigger quartz tube - heat(1050C,4h) - slow cool to 700C(4C/h) - FC to RT" "Different response of superconductivity to the transition-metal impurities in K0.8Fe2-y-xMxSe2 (M = Cr, Mn, Co, Zn)" 2011 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 84(2011)014502"
154099 PRB084014502 "compositions of K and Fe are nearly 0.8 and 1.65 , respectively by EDX." K0.8Fe2-xZnxSe2 K0.8Fe1.995Zn0.005Se2 K 0.8 Fe 1.995 Zn 0.005 Se 2 2011 AB2C2 ThCr2Si2 I4/mmm A 3.9103 14.0583 Fe-122 K 4 mOhm.cm 1.352 "mixture((Fe,M):Se=1:1) - heat(650C,12h). Stoichiometric mixture - sealed in quartz tube(vac) - put in bigger quartz tube - heat(1050C,4h) - slow cool to 700C(4C/h) - FC to RT" "Different response of superconductivity to the transition-metal impurities in K0.8Fe2-y-xMxSe2 (M = Cr, Mn, Co, Zn)" 2011 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People's Republic of China" "Phys.Rev.B, 84(2011)014502"
154100 PRB085014520 London [penet] and [cohere] estimated from Fermiology(ARPES). GL(kappa) = 0.13. Energy gap from STS. SrPd2Ge2 Sr1Pd2Ge2 Sr 1 Pd 2 Ge 2 3 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 2.9 2.7 2.7 A esitmated from Fermiology(ARPES) 2990 A "London, esitmated from Fermiology(ARPES)" 400 meV 0.5 4 11 high-temperature flux method using PdGe self-flux. Conventional superconductivity in SrPd2Ge2 2012 "Diamond Light Source Ltd., Didcot OX11 0DE, United Kingdom" "Phys.Rev.B, 85(2012)014520"
154101 PRB085180505 multi-band s-wave SC. (beta) = 0.231 mJ/mol.K4 and (delta) = -0.0001 mJ/mol.K6 in SP. Hc(0) = 0.23 T from entropy analysis. GL parameter=29. (dC/Tc) = 7.65 mJ/mol.K2 LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 3 2012 ABC Cu2Sb P4/nmm A 3.7818 6.3463 Fe-111 K 15 15 T "calculate from Hc(0),GL-parameter" 9.4 mJ/mol.K2 17 SP 294 SP Bridgman method using W-crucible. Evidence for s+- - wave pairing symmetry in LiFeAs from its low-temperature specific heat 2012 "Department of Physics, Sungkyunkwan University, Suwon 440-746, Republic of Korea" "Phys.Rev.B, 85(2012)180505"
154102 PRB085184507 T = 138.17 K BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 2012 myu-B/mol 0.756 139 AB2C2 b-SrRh2As2 Fmmm A 5.6157 5.5718 12.9424 Fe-122. NPD(HRPD) results at 1.7 K K 0 "BaAs,KAs,Fe2As" "mixture - ANN(1050C, in Nb-tube, sealed in quartz tube)" Phase diagram of Ba1-xKxFe2As2 2012 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 85(2012)184507"
154103 PRB085184507 T = 136.02 K "(Ba,K)Fe2As2" Ba0.9K0.1Fe2As2 Ba 0.9 K 0.1 Fe 2 As 2 2012 myu-B/mol 0.741 136.5 AB2C2 b-SrRh2As2 Fmmm A 5.5997 5.5587 13.0031 Fe-122. NPD(HRPD) results at 1.7 K K 0 "BaAs,KAs,Fe2As" "mixture - ANN(1050C, in Nb-tube, sealed in quartz tube)" Phase diagram of Ba1-xKxFe2As2 2012 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 85(2012)184507"
154104 PRB085184507 T = 128.29K "(Ba,K)Fe2As2" Ba0.875K0.125Fe2As2 Ba 0.875 K 0.125 Fe 2 As 2 2012 myu-B/mol 0.697 130 AB2C2 b-SrRh2As2 Fmmm A 5.594 5.5551 13.0243 Fe-122. NPD(HRPD) results at 1.7 K K 0 "BaAs,KAs,Fe2As" "mixture - ANN(1050C, in Nb-tube, sealed in quartz tube)" Phase diagram of Ba1-xKxFe2As2 2012 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 85(2012)184507"
154105 PRB085184507 T = 122.09 K "(Ba,K)Fe2As2" Ba0.85K0.15Fe2As2 Ba 0.85 K 0.15 Fe 2 As 2 2012 myu-B/mol 0.702 122.1 AB2C2 b-SrRh2As2 Fmmm A 5.589 5.5517 13.0404 Fe-122. NPD(HRPD) results at 1.7 K K 4 4 "BaAs,KAs,Fe2As" "mixture - ANN(1050C, in Nb-tube, sealed in quartz tube)" Phase diagram of Ba1-xKxFe2As2 2012 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 85(2012)184507"
154106 PRB085184507 T = 112.1 K "(Ba,K)Fe2As2" Ba0.825K0.175Fe2As2 Ba 0.825 K 0.175 Fe 2 As 2 2012 myu-B/mol 0.683 113.9 AB2C2 b-SrRh2As2 Fmmm A 5.5842 5.5492 13.0563 Fe-122. NPD(HRPD) results at 1.7 K K 10 10 "BaAs,KAs,Fe2As" "mixture - ANN(1050C, in Nb-tube, sealed in quartz tube)" Phase diagram of Ba1-xKxFe2As2 2012 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 85(2012)184507"
154107 PRB085184507 T = 102.00 K "(Ba,K)Fe2As2" Ba0.8K0.2Fe2As2 Ba 0.8 K 0.2 Fe 2 As 2 2012 myu-B/mol 0.652 102 AB2C2 b-SrRh2As2 Fmmm A 5.5767 5.546 13.0736 Fe-122. NPD(HRPD) results at 1.7 K K 17 17 "BaAs,KAs,Fe2As" "mixture - ANN(1050C, in Nb-tube, sealed in quartz tube)" Phase diagram of Ba1-xKxFe2As2 2012 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 85(2012)184507"
154108 PRB085184507 T = 96.0 K "(Ba,K)Fe2As2" Ba0.79K0.21Fe2As2 Ba 0.79 K 0.21 Fe 2 As 2 2012 myu-B/mol 0.61 96 AB2C2 b-SrRh2As2 Fmmm A 5.575 5.5462 13.0749 Fe-122. NPD(HRPD) results at 1.7 K K 18 18 "BaAs,KAs,Fe2As" "mixture - ANN(1050C, in Nb-tube, sealed in quartz tube)" Phase diagram of Ba1-xKxFe2As2 2012 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 85(2012)184507"
154109 PRB085184507 T = 93.93 K "(Ba,K)Fe2As2" Ba0.78K0.22Fe2As2 Ba 0.78 K 0.22 Fe 2 As 2 2012 myu-B/mol 0.55 93.97 AB2C2 b-SrRh2As2 Fmmm A 5.5706 5.5461 13.0803 Fe-122. NPD(HRPD) results at 1.7 K K 23.5 23.5 "BaAs,KAs,Fe2As" "mixture - ANN(1050C, in Nb-tube, sealed in quartz tube)" Phase diagram of Ba1-xKxFe2As2 2012 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 85(2012)184507"
154110 PRB085184507 T = 80.0 K "(Ba,K)Fe2As2" Ba0.76K0.24Fe2As2 Ba 0.76 K 0.24 Fe 2 As 2 2012 myu-B/mol 0.572 79.9 AB2C2 b-SrRh2As2 Fmmm A 5.5672 5.5449 13.0888 Fe-122. NPD(HRPD) results at 1.7 K K 26 26 "BaAs,KAs,Fe2As" "mixture - ANN(1050C, in Nb-tube, sealed in quartz tube)" Phase diagram of Ba1-xKxFe2As2 2012 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 85(2012)184507"
154111 PRB085184507 T = 74.8 K "(Ba,K)Fe2As2" Ba0.75K0.25Fe2As2 Ba 0.75 K 0.25 Fe 2 As 2 2012 myu-B/mol 0.456 74.9 AB2C2 b-SrRh2As2 Fmmm A 5.5636 5.5476 13.1027 Fe-122. NPD(HRPD) results at 1.7 K K 28.5 28.5 "BaAs,KAs,Fe2As" "mixture - ANN(1050C, in Nb-tube, sealed in quartz tube)" Phase diagram of Ba1-xKxFe2As2 2012 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 85(2012)184507"
154112 PRB085184507 "(Ba,K)Fe2As2" Ba0.72K0.28Fe2As2 Ba 0.72 K 0.28 Fe 2 As 2 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122. NPD(HRPD) results at 1.7 K K 34 34 "BaAs,KAs,Fe2As" "mixture - ANN(1050C, in Nb-tube, sealed in quartz tube)" Phase diagram of Ba1-xKxFe2As2 2012 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 85(2012)184507"
154113 PRB085184507 Tc(x) and Tn(x) shown in Fig. "(Ba,K)Fe2As2" Ba0.7K0.3Fe2As2 Ba 0.7 K 0.3 Fe 2 As 2 2012 AB2C2 ThCr2Si2 I4/mmm A 3.9165 13.1614 Fe-122. NPD(HRPD) results at 1.7 K K 36 36 MPH154113 "BaAs,KAs,Fe2As" "mixture - ANN(1050C, in Nb-tube, sealed in quartz tube)" Phase diagram of Ba1-xKxFe2As2 2012 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 85(2012)184507"
154114 PRB085184507 "(Ba,K)Fe2As2" Ba0.6K0.4Fe2As2 Ba 0.6 K 0.4 Fe 2 As 2 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122. NPD(HRPD) results at 1.7 K K 38 38 "BaAs,KAs,Fe2As" "mixture - ANN(1050C, in Nb-tube, sealed in quartz tube)" Phase diagram of Ba1-xKxFe2As2 2012 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 85(2012)184507"
154115 PRB085184507 "(Ba,K)Fe2As2" Ba0.5K0.5Fe2As2 Ba 0.5 K 0.5 Fe 2 As 2 2012 AB2C2 ThCr2Si2 I4/mmm A 3.8893 13.3242 Fe-122. NPD(HRPD) results at 1.7 K K 34 34 "BaAs,KAs,Fe2As" "mixture - ANN(1050C, in Nb-tube, sealed in quartz tube)" Phase diagram of Ba1-xKxFe2As2 2012 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 85(2012)184507"
154116 PRB085184507 "(Ba,K)Fe2As2" Ba0.3K0.7Fe2As2 Ba 0.3 K 0.7 Fe 2 As 2 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122. NPD(HRPD) results at 1.7 K K 20 20 "BaAs,KAs,Fe2As" "mixture - ANN(1050C, in Nb-tube, sealed in quartz tube)" Phase diagram of Ba1-xKxFe2As2 2012 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 85(2012)184507"
154117 PRB085184507 "(Ba,K)Fe2As2" Ba0.1K0.9Fe2As2 Ba 0.1 K 0.9 Fe 2 As 2 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122. NPD(HRPD) results at 1.7 K K 7 7 "BaAs,KAs,Fe2As" "mixture - ANN(1050C, in Nb-tube, sealed in quartz tube)" Phase diagram of Ba1-xKxFe2As2 2012 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 85(2012)184507"
154118 PRB085184507 KFe2As2 K1Fe2As2 K 1 Fe 2 As 2 2012 AB2C2 ThCr2Si2 I4/mmm A 3.8251 13.7846 Fe-122. NPD(HRPD) results at 1.7 K K 3 3 "BaAs,KAs,Fe2As" "mixture - ANN(1050C, in Nb-tube, sealed in quartz tube)" Phase diagram of Ba1-xKxFe2As2 2012 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 85(2012)184507"
154119 PRB086140502 "New phase appears at T0 K for P > 1.0 GPa, which defined as a peak of (dR/dT). shown in Fig." "(Ba,K)Fe2As2" Ba0.84K0.16Fe2As2 Ba 0.84 K 0.16 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 Fe-122 K 7.3 7.3 MPH154119 self-flux method Pressure-induced Fermi-surface reconstruction in the iron-arsenide superconductor Ba1-xKxFe2As2: Evidence of a phase transition inside the antiferromagnetic phase 2012 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada J1K 2R1" "Phys.Rev.B, 86(2012)140502"
154120 PRB086140502 "New phase appears at T0 K for P > 1.0 GPa, which defined as a peak of (dR/dT). shown in Fig." "(Ba,K)Fe2As2" Ba0.82K0.18Fe2As2 Ba 0.82 K 0.18 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 Fe-122 K 10.5 10.5 MPH154120 self-flux method Pressure-induced Fermi-surface reconstruction in the iron-arsenide superconductor Ba1-xKxFe2As2: Evidence of a phase transition inside the antiferromagnetic phase 2012 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada J1K 2R1" "Phys.Rev.B, 86(2012)140502"
154121 PRB086140502 "New phase appears at T0 K for P > 1.0 GPa, which defined as a peak of (dR/dT). shown in Fig." "(Ba,K)Fe2As2" Ba0.81K0.19Fe2As2 Ba 0.81 K 0.19 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 Fe-122 K 15 15 MPH154121 self-flux method Pressure-induced Fermi-surface reconstruction in the iron-arsenide superconductor Ba1-xKxFe2As2: Evidence of a phase transition inside the antiferromagnetic phase 2012 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada J1K 2R1" "Phys.Rev.B, 86(2012)140502"
154122 PRB086140502 "New phase appears at T0 K for P > 1.0 GPa, which defined as a peak of (dR/dT). shown in Fig." "(Ba,K)Fe2As2" Ba0.79K0.21Fe2As2 Ba 0.79 K 0.21 Fe 2 As 2 3 2012 AB2C2 ThCr2Si2 Fe-122 K 18 18 MPH154122 self-flux method Pressure-induced Fermi-surface reconstruction in the iron-arsenide superconductor Ba1-xKxFe2As2: Evidence of a phase transition inside the antiferromagnetic phase 2012 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada J1K 2R1" "Phys.Rev.B, 86(2012)140502"
154123 SST023115009 "RRR = 12.4. demagnetising correction. PHirr(1.8K)=550 Oe, nHirr(1.8K) = 544 Oe. Isotropic SC, then Hc1//,Hc2// = Hc1/n/, Hc2/n/. GL)kappa) = 1.48." LaRu2P2 La1Ru2P2 La 1 Ru 2 P 2 3 2010 AB2C2 ThCr2Si2 I4/mmm A 10.67 K 3.7 0.1 3.7 80 Oe "M-H curve, linear approx." 230 114 100 1.8 Oe "RES, R=0.5Rn, WHH" 1140 1140 MHC154123 A from Hc2(0) 540 A from Hc1(T) 800 uOhm.cm 8.9 110 cm3/C MRH154123 n/cm3 3.00E+22 "La,Ru,P" "Sn-flux method. mixture(La:Ru:P:Sn=1:2:2:20) - in alumina crucible - sealed in quartz tube(vac) heat to 1473K(100K/h) - hold (1473K,12h) - cool to 1173K(3K/h) - FC to RT" Isotropic superconductivity in LaRu2P2 with the ThCr2Si2-type structure 2010 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Supercond.Sci.Technol., 23(2010)115009"
154124 SST023054001 not SC "SmFeAs(O,F)" Sm1Fe1As1O1 Sm 1 Fe 1 As 1 O 1 1 2010 131 ABCD oxypnictide Fe-1111 K 5 W/m.K 11.9 THC154124 uV/K -11.8 TP154125 RH154125 See SST021095017(2008) Transport and superconducting properties of Fe-based superconductors: a comparison between SmFeAsO1-xFx and Fe1+yTe1-xSex 2010 "CNR/INFM-LAMIA Corso Perrone 24, 16152 Genova, Italy" "Supercond.Sci.Technol., 23(2010)054001"
154125 SST023054001 "SmFeAs(O,F)" Sm1Fe1As1F0.075O0.925 Sm 1 Fe 1 As 1 F 0.075 O 0.925 1 2010 ABCD oxypnictide Fe-1111 K 33 33 T/K 5.36 uV/K -36.1 TP154125 RH154125 See SST021095017(2008) Transport and superconducting properties of Fe-based superconductors: a comparison between SmFeAsO1-xFx and Fe1+yTe1-xSex 2010 "CNR/INFM-LAMIA Corso Perrone 24, 16152 Genova, Italy" "Supercond.Sci.Technol., 23(2010)054001"
154126 SST023054001 "SmFeAs(O,F)" Sm1Fe1As1F0.15O0.85 Sm 1 Fe 1 As 1 F 0.15 O 0.85 1 2010 ABCD oxypnictide Fe-1111 K 51.5 51.5 T/K 11.35 W/m.K 2.11 THC154124 uV/K -29.4 TP154125 RH154125 "Fe(4N),Se(3N),Te(5N)" "stoichiometric mixture - react(400-450C,1-2 days in Pyrex) - ground - pellet - heat(800C,7-8 days, in SiO2 tube)" Transport and superconducting properties of Fe-based superconductors: a comparison between SmFeAsO1-xFx and Fe1+yTe1-xSex 2010 "CNR/INFM-LAMIA Corso Perrone 24, 16152 Genova, Italy" "Supercond.Sci.Technol., 23(2010)054001"
154127 SST023054001 not SC Fe1+yTe Fe1.05Te1 Fe 1.05 Te 1 1 2010 AB PbO A 3.8219 6.2851 Fe-11 K 5 MTHC154127 uV/K -6.67 MTP154127 m3/C 2.98E-09 MRH154127 "Fe(4N),Se(3N),Te(5N)" "stoichiometric mixture - react(400-450C,1-2 days in Pyrex) - ground - pellet - heat(800C,7-8 days, in SiO2 tube)" Transport and superconducting properties of Fe-based superconductors: a comparison between SmFeAsO1-xFx and Fe1+yTe1-xSex 2010 "CNR/INFM-LAMIA Corso Perrone 24, 16152 Genova, Italy" "Supercond.Sci.Technol., 23(2010)054001"
154128 SST023054001 Fe1+yTe1-xSex Fe1.04Te0.95Se0.05 Fe 1.04 Te 0.95 Se 0.05 1 2010 AB PbO A 3.8184 6.2617 Fe-11 K 11 11 m3/C 1.29E-09 MRH154127 "Fe(4N),Se(3N),Te(5N)" "stoichiometric mixture - react(400-450C,1-2 days in Pyrex) - ground - pellet - heat(800C,7-8 days, in SiO2 tube)" Transport and superconducting properties of Fe-based superconductors: a comparison between SmFeAsO1-xFx and Fe1+yTe1-xSex 2010 "CNR/INFM-LAMIA Corso Perrone 24, 16152 Genova, Italy" "Supercond.Sci.Technol., 23(2010)054001"
154129 SST023054001 Fe1+yTe1-xSex Fe0.03Te0.9Se0.1 Fe 0.03 Te 0.9 Se 0.1 1 2010 AB PbO A 3.816 6.2381 Fe-11 K 11.9 11.9 T/K 16.3 MTHC154127 uV/K -7.58 MTP154127 m3/C 5.00E-10 MRH154129 "Fe(4N),Se(3N),Te(5N)" "stoichiometric mixture - react(400-450C,1-2 days in Pyrex) - ground - pellet - heat(800C,7-8 days, in SiO2 tube)" Transport and superconducting properties of Fe-based superconductors: a comparison between SmFeAsO1-xFx and Fe1+yTe1-xSex 2010 "CNR/INFM-LAMIA Corso Perrone 24, 16152 Genova, Italy" "Supercond.Sci.Technol., 23(2010)054001"
154130 SST023054001 Fe1+yTe1-xSex Fe0.02Te0.85Se0.15 Fe 0.02 Te 0.85 Se 0.15 1 2010 AB PbO A 3.8133 6.2116 Fe-11 K 12.7 12.7 m3/C 8.10E-10 MRH154129 "Fe(4N),Se(3N),Te(5N)" "stoichiometric mixture - react(400-450C,1-2 days in Pyrex) - ground - pellet - heat(800C,7-8 days, in SiO2 tube)" Transport and superconducting properties of Fe-based superconductors: a comparison between SmFeAsO1-xFx and Fe1+yTe1-xSex 2010 "CNR/INFM-LAMIA Corso Perrone 24, 16152 Genova, Italy" "Supercond.Sci.Technol., 23(2010)054001"
154131 SST023054001 Fe1+yTe1-xSex Fe0.02Te0.8Se0.2 Fe 0.02 Te 0.8 Se 0.2 1 2010 AB PbO A 3.8114 6.1843 Fe-11 K 13.6 13.6 T/K 12.9 MTHC154131 uV/K -4.77 MTP154131 m3/C 1.36E-09 MRH154131 "Fe(4N),Se(3N),Te(5N)" "stoichiometric mixture - react(400-450C,1-2 days in Pyrex) - ground - pellet - heat(800C,7-8 days, in SiO2 tube)" Transport and superconducting properties of Fe-based superconductors: a comparison between SmFeAsO1-xFx and Fe1+yTe1-xSex 2010 "CNR/INFM-LAMIA Corso Perrone 24, 16152 Genova, Italy" "Supercond.Sci.Technol., 23(2010)054001"
154132 SST023054001 Fe1+yTe1-xSex Fe1Te0.5Se0.5 Fe 1 Te 0.5 Se 0.5 1 2010 AB PbO A 3.8041 6.053 Fe-11 K 15.6 15.6 T/K 8.2 MTHC154131 uV/K 0.08 MTP154131 m3/C 1.13E-09 MRH154131 "Fe(4N),Se(3N),Te(5N)" "stoichiometric mixture - react(400-450C,1-2 days in Pyrex) - ground - pellet - heat(800C,7-8 days, in SiO2 tube)" Transport and superconducting properties of Fe-based superconductors: a comparison between SmFeAsO1-xFx and Fe1+yTe1-xSex 2010 "CNR/INFM-LAMIA Corso Perrone 24, 16152 Genova, Italy" "Supercond.Sci.Technol., 23(2010)054001"
154133 PRB086174516 "P = 0 GPa. SC parameters were calculated from muon-SR data. Two gaps: lower gap, d=0.15 meV (2D/kTc) = 1.5. higher one in DB. GL(kappa) = 24" RbFe2As2 Rb1Fe2As2 Rb 1 Fe 2 As 2 1 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 2.55 2.55 MTC154133 K/GPa -1.32 T MHC154133 A Myu-SR 2670 meV 0.49 4.5 "RbAs,Fe2As" "mixture - pellet - ANN(650C,several days, in sealed silica ampoule)" Superfluid density and superconducting gaps of RbFe2As2 as a function of hydrostatic pressure 2012 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 86(2012)174516"
154134 PRB086174516 "P = 0.6 GPa. SC parameters were calculated from muon-SR data. Two gaps: lower gap, d=0.08 meV (2D/kTc) = 1.1. higher one in DB. GL(kappa) = 17" RbFe2As2 Rb1Fe2As2 Rb 1 Fe 2 As 2 1 2012 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 1.73 1.73 MHC154134 A Myu-SR 2870 meV 0.3 4.1 "RbAs,Fe2As" "mixture - pellet - ANN(650C,several days, in sealed silica ampoule)" Superfluid density and superconducting gaps of RbFe2As2 as a function of hydrostatic pressure 2012 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 86(2012)174516"
154135 SST023054003 "For P=1.56 GPa, Hc2/n/ = 48T, dHc2/dT = -1.93 T/K. For P=1.99 GPa, Hc2/n/ = 56T, dHc2/dT = -2.05 T/K" "Ba(Fe,Co)2As2" Ba1Fe1.924Co0.076As2 Ba 1 Fe 1.924 Co 0.076 As 2 3 2010 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 14.2 14.2 MTC154135 T "RES, R=0.9Rn, linear approx." 35 T/K 2.38 MHC154135 flux method using FeAs/CoAs flux. "Electrical transport measurements under pressure for BaFe2As2 compounds doped with Co, Cr, or Sn" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "Supercond.Sci.Technol., 23(2010)054003"
154136 SST023054003 "Ba(Fe,Co)2As2" Ba1Fe1.906Co0.094As2 Ba 1 Fe 1.906 Co 0.094 As 2 3 2010 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 20 20 MTC154136 T "RES, R=0.9Rn, linear approx." 46 flux method using FeAs/CoAs flux. "Electrical transport measurements under pressure for BaFe2As2 compounds doped with Co, Cr, or Sn" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "Supercond.Sci.Technol., 23(2010)054003"
154137 SST023054003 "For P=1.51 GPa, Hc2/n/ = 67T, dHc2/dT = -2.68 T/K. For P=1.92 GPa, Hc2/n/ = 57.6T, dHc2/dT = -2.36 T/K" "Ba(Fe,Co)2As2" Ba1Fe1.852Co0.148As2 Ba 1 Fe 1.852 Co 0.148 As 2 3 2010 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 23.4 23.4 MTC154137 T "RES, R=0.9Rn, linear approx." 73 T/K 3.07 MHC154137 flux method using FeAs/CoAs flux. "Electrical transport measurements under pressure for BaFe2As2 compounds doped with Co, Cr, or Sn" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "Supercond.Sci.Technol., 23(2010)054003"
154138 SST023054003 "Ba(Fe,Co)2As2" Ba1Fe1.8Co0.2As2 Ba 1 Fe 1.8 Co 0.2 As 2 3 2010 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 18.9 18.9 MTC154138 flux method using FeAs/CoAs flux. "Electrical transport measurements under pressure for BaFe2As2 compounds doped with Co, Cr, or Sn" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "Supercond.Sci.Technol., 23(2010)054003"
154139 SST023054003 "For P=2.04 GPa, Hc2/n/ = 35.8T, dHc2/dT = -2.01 T/K." "Ba(Fe,Co)2As2" Ba1Fe1.772Co0.228As2 Ba 1 Fe 1.772 Co 0.228 As 2 3 2010 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 16.4 16.4 MTC154139 T "RES, R=0.9Rn, linear approx." 27.56 T/K 1.77 MHC154139 flux method using FeAs/CoAs flux. "Electrical transport measurements under pressure for BaFe2As2 compounds doped with Co, Cr, or Sn" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "Supercond.Sci.Technol., 23(2010)054003"
154140 SST023054003 not SC upto 6 GPa. "Ba(Fe,Cr)2As2" Ba1Fe1.946Cr0.054As2 Ba 1 Fe 1.946 Cr 0.054 As 2 3 2010 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 2 flux method using FeAs/CrAs flux. "Electrical transport measurements under pressure for BaFe2As2 compounds doped with Co, Cr, or Sn" 2010 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "Supercond.Sci.Technol., 23(2010)054003"
154141 SST024065006 "compositions by WDS. R(ab) and R(c) have broad peak at 160 K and 180 K,respectively. RRR = 6. Anisotropy R(c)/R(ab) = 4 at 300K.. (dC/gamma*Tc) = 1.33. L-[penet] measured by TDR method" K0.80Fe1.76Se2 K0.8Fe1.76Se2 K 0.8 Fe 1.76 Se 2 3 2011 AB2C2 ThCr2Si2 I4/mmm A 3.8897 14.141 Fe-122 K 30.9 31.6 30.1 0.7 30.1 mJ/mol.K2 5.8 SP uV/K -67 "precusor(FeAs) by reacting(1050C). mixture(K,FeAs) - alumina crucible - sealed in silica tube - heat(1050C) - hold(2h) - slow cool to 750C within 50h - FC to RT" "Anisotropic magnetism, resistivity, London penetration depth and magneto-optical imaging of superconducting K0.80Fe1.76Se2 single crystals" 2011 "Ames Laboratory, US DOE and Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "Supercond.Sci.Technol., 24(2011)065006"
154142 SST024065020 PrO(Fe0.9Co0.1)As Pr1Fe0.9Co0.1As1O1 Pr 1 Fe 0.9 Co 0.1 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9867 8.5915 ZrCuSiAs-type. Fe-1111 K 14.5 13.8 13.8 T "RES,R=0.9Rn, WHH" 64 "Pr,Pr6O11,Co3O4,FeAs,FeP,As" "mixture - sealed in silica tube(vac) - heat(950C,24h) - ground - disc - wrapped in Ta foil - SIN(1100C,48h, in evacuated silica) - cool to RT" Superconducting and critical properties of PrOFe0.9Co0.1As: effect of P doping 2011 "Material Science Group, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Supercond.Sci.Technol., 24(2011)065020"
154143 SST024065020 PrO(Fe0.9Co0.1)As1-xPx Pr1Fe0.9Co0.1As0.95P0.05O1 Pr 1 Fe 0.9 Co 0.1 As 0.95 P 0.05 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9817 8.563 ZrCuSiAs-type. Fe-1111 K 14.9 14.2 14.2 "Pr,Pr6O11,Co3O4,FeAs,FeP,As" "mixture - sealed in silica tube(vac) - heat(950C,24h) - ground - disc - wrapped in Ta foil - SIN(1100C,48h, in evacuated silica) - cool to RT" Superconducting and critical properties of PrOFe0.9Co0.1As: effect of P doping 2011 "Material Science Group, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Supercond.Sci.Technol., 24(2011)065020"
154144 SST024065020 Hc2 defined as R=0.9Rn. Hirr defined as R= zero. PrO(Fe0.9Co0.1)As1-xPx Pr1Fe0.9Co0.1As0.9P0.1O1 Pr 1 Fe 0.9 Co 0.1 As 0.9 P 0.1 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.981 8.5585 ZrCuSiAs-type. Fe-1111 K 15.9 14.7 14.7 TC154144 HC154144 "Pr,Pr6O11,Co3O4,FeAs,FeP,As" "mixture - sealed in silica tube(vac) - heat(950C,24h) - ground - disc - wrapped in Ta foil - SIN(1100C,48h, in evacuated silica) - cool to RT" Superconducting and critical properties of PrOFe0.9Co0.1As: effect of P doping 2011 "Material Science Group, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Supercond.Sci.Technol., 24(2011)065020"
154145 SST024065020 PrO(Fe0.9Co0.1)As1-xPx Pr1Fe0.9Co0.1As0.85P0.15O1 Pr 1 Fe 0.9 Co 0.1 As 0.85 P 0.15 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9764 8.5446 ZrCuSiAs-type. Fe-1111 K 12.9 12.2 12.2 "Pr,Pr6O11,Co3O4,FeAs,FeP,As" "mixture - sealed in silica tube(vac) - heat(950C,24h) - ground - disc - wrapped in Ta foil - SIN(1100C,48h, in evacuated silica) - cool to RT" Superconducting and critical properties of PrOFe0.9Co0.1As: effect of P doping 2011 "Material Science Group, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Supercond.Sci.Technol., 24(2011)065020"
154146 SST024065020 Hc2 defined as R=0.9Rn. Hirr defined as R= zero. PrO(Fe0.9Co0.1)As1-xPx Pr1Fe0.9Co0.1As0.8P0.2O1 Pr 1 Fe 0.9 Co 0.1 As 0.8 P 0.2 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9756 8.5416 ZrCuSiAs-type. Fe-1111 K 11.5 10.9 10.9 HC154146 "Pr,Pr6O11,Co3O4,FeAs,FeP,As" "mixture - sealed in silica tube(vac) - heat(950C,24h) - ground - disc - wrapped in Ta foil - SIN(1100C,48h, in evacuated silica) - cool to RT" Superconducting and critical properties of PrOFe0.9Co0.1As: effect of P doping 2011 "Material Science Group, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Supercond.Sci.Technol., 24(2011)065020"
154147 SST024065020 Hc2 defined as R=0.9Rn. Hirr defined as R= zero. PrO(Fe0.9Co0.1)As1-xPx Pr1Fe0.9Co0.1As0.7P0.3O1 Pr 1 Fe 0.9 Co 0.1 As 0.7 P 0.3 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9743 8.5197 ZrCuSiAs-type. Fe-1111 K 10.6 9.86 9.86 T "RES,R=0.9Rn, WHH" 29 HC154147 "Pr,Pr6O11,Co3O4,FeAs,FeP,As" "mixture - sealed in silica tube(vac) - heat(950C,24h) - ground - disc - wrapped in Ta foil - SIN(1100C,48h, in evacuated silica) - cool to RT" Superconducting and critical properties of PrOFe0.9Co0.1As: effect of P doping 2011 "Material Science Group, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Supercond.Sci.Technol., 24(2011)065020"
154148 SST024065020 "Fe2As2O12(5%), FePO4(5%)" PrO(Fe0.9Co0.1)As1-xPx Pr1Fe0.9Co0.1As0.5P0.5O1 Pr 1 Fe 0.9 Co 0.1 As 0.5 P 0.5 O 1 1 2011 ABCD oxypnictide P4/nmm A 3.9637 8.4756 ZrCuSiAs-type. Fe-1111 K 7.46 7.46 "Pr,Pr6O11,Co3O4,FeAs,FeP,As" "mixture - sealed in silica tube(vac) - heat(950C,24h) - ground - disc - wrapped in Ta foil - SIN(1100C,48h, in evacuated silica) - cool to RT" Superconducting and critical properties of PrOFe0.9Co0.1As: effect of P doping 2011 "Material Science Group, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India" "Supercond.Sci.Technol., 24(2011)065020"
154150 SST024065010 "Film. Fe-content, x not given. gap measured by point contact Andreev reflection. contact resistance = 26 Ohm. gap(T) tend to zero at 21.6 K.(fitting parameter)" Sm(O1-xFx)FeAs Sm1Fe1As1F0.2O0.8 Sm 1 Fe 1 As 1 F 0.2 O 0.8 4 2011 ABCD oxypnictide Fe-1111 K 25 29 34 3 29 meV 10 3.6 1 uOhm.cm 100 pulsed laser deposition "Point-contact study of ReFeAsO1-xFx (Re = La, Sm) superconducting films" 2011 "B Verkin Institute for Low Temperature Physics and Engineering, National Academy of Sciences of Ukraine, 47 Lenin Avenue, 61103, Kharkiv, Ukraine" "Supercond.Sci.Technol., 24(2011)065010"
154151 SST024065010 "Film. Fe-content, x not given. gap measured by point contact Andreev reflection. gap(T) tend to zero at 18 K. (fitting parameter). carrier < 1 E+21 /cm3 from Hall coeffic." La(O1-xFx)FeAs La1Fe1As1F0.2O0.8 La 1 Fe 1 As 1 F 0.2 O 0.8 4 2011 ABCD oxypnictide Fe-1111 K 25 25 3.5 1 pulsed laser deposition "Point-contact study of ReFeAsO1-xFx (Re = La, Sm) superconducting films" 2011 "B Verkin Institute for Low Temperature Physics and Engineering, National Academy of Sciences of Ukraine, 47 Lenin Avenue, 61103, Kharkiv, Ukraine" "Supercond.Sci.Technol., 24(2011)065010"
154152 PRL103147002 "gap by muon-SR. C = A*T + B*T^3 (A=1.31 mJ/mol.K2, B=2.88 mJ/mol.K4). (dC/Tc) = 130 mJ/mol.K2. (dC/gamma:Tc) = 2.06." PrPt4Ge12 Pr1Pt4Ge12 Pr 1 Pt 4 Ge 12 2009 AB4C12 skutterudite K 7.9 7.9 T RES. extrapolation 1.82 MHC154152 A from Hc2 181 A 1140 4.7 16 mJ/mol.K2 63 SP 189 SP See PRL100017002 Superfluid Density and Energy Gap Function of Superconducting PrPt4Ge12 2009 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.Lett., 103(2009)147002"
154153 PRB087144502 "RRR = 200. R =A*T^1.5 for T > 9 K. thermal conductivity THC = a + (ph-term). residual linear term, a = 1.27 mW/cm.K2. FIG shows k/T vs H" CsFe2As2 Cs1Fe2As2 Cs 1 Fe 2 As 2 3 2013 AB2C2 ThCr2Si2 Fe-122 K 1.81 1.81 T RES(R= 0 ). extrapolation 1.4 MHC154153 MTHC154153 uOhm.cm 1.8 "self-flux method. cleaved sample (3.5*10 mm, 30um thickness)" Nodal gap in iron-based superconductor CsFe2As2 probed by quasiparticle heat transport 2013 "State Key Laboratory of Surface Physics, Department of Physics, and Laboratory of Advanced Materials, Fudan University, Shanghai 200433, P. R. China" "Phys.Rev.B, 87(2013)144502"
154154 PRB087174502 Zr1-xVxB2 Zr0.99V0.01B2 Zr 0.99 V 0.01 B 2 1 2013 AB2 AlB2 P6/mmm A 3.1647 3.529 K 6.4 6.4 MTC154154 Ar-arc melting. 5 times for homogenizing Evidence of multiband behavior in the superconducting alloy Zr0.96V0.04B2 2013 "Escola de Engenharia de Lorena, Universidade de Sao Paulo, P.O. Box 116, Lorena, SP, Brazil" "Phys.Rev.B, 87(2013)174502"
154155 PRB087174502 optimal. lattice term in SP beta = 0.034 mJ/mol.K4. (dC/gamma*T) = 0.42. Zr1-xVxB2 Zr0.96V0.04B2 Zr 0.96 V 0.04 B 2 1 2013 AB2 AlB2 P6/mmm A 3.1641 3.524 K 8.7 8.7 mT M-H curve 2.5 T "RES, WHH" 16.3 11.5 4.5 MHC154155 A from Hc2 44.9 MSP154155 mJ/mol.K2 3.8 SP 555.6 SP Ar-arc melting. 5 times for homogenizing Evidence of multiband behavior in the superconducting alloy Zr0.96V0.04B2 2013 "Escola de Engenharia de Lorena, Universidade de Sao Paulo, P.O. Box 116, Lorena, SP, Brazil" "Phys.Rev.B, 87(2013)174502"
154156 PRB087174502 secondary phase. solubility limit x = 0.04. Zr1-xVxB2 Zr0.95V0.05B2 Zr 0.95 V 0.05 B 2 1 2013 AB2 AlB2 P6/mmm A 3.1631 3.522 K 8.2 8.2 Ar-arc melting. 5 times for homogenizing Evidence of multiband behavior in the superconducting alloy Zr0.96V0.04B2 2013 "Escola de Engenharia de Lorena, Universidade de Sao Paulo, P.O. Box 116, Lorena, SP, Brazil" "Phys.Rev.B, 87(2013)174502"
154157 PRB087174510 "T = 350K. For T>350K, cubic, Pa3, #205, a=6.4152, alpha=90. (dC/gamma*Tc) - 1.0." Ir3Te8 Ir3Te8 Ir 3 Te 8 3 2013 uB/Ir 0.024 -0.7 A3B8 R-3 148 A 6.4024 "rhombohedral , alpha = 90.017 for T < 350 K." K 1.8 1.8 1.8 16 mJ/mol.K2 11 SP 246 SP uOhm.cm 45 "poly crystal(ir3Te8) made by slow heating to 1000C and hold 7 days. mixed with Te powder - heat(1050C, 48h , in quartz tube) - slow cool to 700C." Observation of superconductivity and anomalous electrical resistivity in single-crystal Ir3Te8 2013 "Department of Physics and Astronomy, Center for Advanced Materials, University of Kentucky, Lexington, Kentucky 40506, USA" "Phys.Rev.B, 87(2013)174510"
154158 PRB087174512 Tc= 1.42 K by ac-SUS. lattice term in SP (beta) = 0.82 mJ/mol.K4 "(La,Hf)OBiS2" La0.8Hf0.2Bi1S2O1 La 0.8 Hf 0.2 Bi 1 S 2 O 1 1 2013 ABCD2 CeOBiS2 P4/nmm 129 A 4.0589 13.818 K 2.36 2.81 2.36 T "RES, R=0.5Rn" HC154158 mJ/mol.K2 2.12 SP 228 SP "solid state metathesis reaction: details, see ""Solid State Commun., 152(2012)632""" "Superconductivity induced by electron doping in La1-xMxOBiS2 (M= Ti, Zr, Hf, Th)" 2013 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 87(2013)174512"
154159 PRB087174512 "(La,Hf)OBiS2" La0.7Hf0.3Bi1S2O1 La 0.7 Hf 0.3 Bi 1 S 2 O 1 1 2013 ABCD2 CeOBiS2 P4/nmm 129 K 1.74 1.74 "solid state metathesis reaction: details, see ""Solid State Commun., 152(2012)632""" "Superconductivity induced by electron doping in La1-xMxOBiS2 (M= Ti, Zr, Hf, Th)" 2013 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 87(2013)174512"
154160 PRB087174512 "(La,Hf)OBiS2" La0.6Hf0.4Bi1S2O1 La 0.6 Hf 0.4 Bi 1 S 2 O 1 1 2013 ABCD2 CeOBiS2 P4/nmm 129 K 1.74 1.74 "solid state metathesis reaction: details, see ""Solid State Commun., 152(2012)632""" "Superconductivity induced by electron doping in La1-xMxOBiS2 (M= Ti, Zr, Hf, Th)" 2013 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 87(2013)174512"
154161 PRB087174512 "(La,Zr)OBiS2" La0.8Zr0.2Bi1S2O1 La 0.8 Zr 0.2 Bi 1 S 2 O 1 1 2013 ABCD2 CeOBiS2 P4/nmm 129 A 4.0585 13.807 K 1.66 1.66 "solid state metathesis reaction: details, see ""Solid State Commun., 152(2012)632""" "Superconductivity induced by electron doping in La1-xMxOBiS2 (M= Ti, Zr, Hf, Th)" 2013 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 87(2013)174512"
154162 PRB087174512 "(La,Ti)OBiS2" La0.8Ti0.2Bi1S2O1 La 0.8 Ti 0.2 Bi 1 S 2 O 1 1 2013 ABCD2 CeOBiS2 P4/nmm 129 A 4.0524 13.804 K 2.35 2.35 "solid state metathesis reaction: details, see ""Solid State Commun., 152(2012)632""" "Superconductivity induced by electron doping in La1-xMxOBiS2 (M= Ti, Zr, Hf, Th)" 2013 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 87(2013)174512"
154163 PRB087174512 "(La,Ti)OBiS2" La0.7Ti0.3Bi1S2O1 La 0.7 Ti 0.3 Bi 1 S 2 O 1 1 2013 ABCD2 CeOBiS2 P4/nmm 129 K 2.22 2.22 "solid state metathesis reaction: details, see ""Solid State Commun., 152(2012)632""" "Superconductivity induced by electron doping in La1-xMxOBiS2 (M= Ti, Zr, Hf, Th)" 2013 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 87(2013)174512"
154164 PRB087174512 not SC. "(La,Sr)OBiS2" La0.8Sr0.2Bi1S2O1 La 0.8 Sr 0.2 Bi 1 S 2 O 1 1 2013 ABCD2 CeOBiS2 P4/nmm 129 A 4.0692 13.694 K 1.2 "solid state metathesis reaction: details, see ""Solid State Commun., 152(2012)632""" "Superconductivity induced by electron doping in La1-xMxOBiS2 (M= Ti, Zr, Hf, Th)" 2013 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 87(2013)174512"
154165 PRB087174512 R(T) minimum at 220 K. LaOBiS2 La1Bi1S2O1 La 1 Bi 1 S 2 O 1 1 2013 ABCD2 CeOBiS2 P4/nmm 129 A 4.0624 13.858 K 1.2 "solid state metathesis reaction: details, see ""Solid State Commun., 152(2012)632""" "Superconductivity induced by electron doping in La1-xMxOBiS2 (M= Ti, Zr, Hf, Th)" 2013 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 87(2013)174512"
154166 PRB087174512 Tc= 2.05 K by ac-SUS. lattice term in SP (beta) = 0.91 mJ/mol.K4. (dC/gamma*Tc) = 0.91 "(La,Th)OBiS2" La0.85Th0.15Bi1S2O1 La 0.85 Th 0.15 Bi 1 S 2 O 1 1 2013 ABCD2 CeOBiS2 P4/nmm 129 K 2.85 2.51 2.85 T "RES, R=0.5Rn" HC154166 mJ/mol.K2 0.58 SP 0.91 SP "solid state metathesis reaction: details, see ""Solid State Commun., 152(2012)632""" "Superconductivity induced by electron doping in La1-xMxOBiS2 (M= Ti, Zr, Hf, Th)" 2013 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 87(2013)174512"
154167 PRB087174512 Tc= 1.65 K by ac-SUS. "(La,Th)OBiS2" La0.8Th0.2Bi1S2O1 La 0.8 Th 0.2 Bi 1 S 2 O 1 1 2013 ABCD2 CeOBiS2 P4/nmm 129 A 4.0506 13.774 K 2.046 2.046 "solid state metathesis reaction: details, see ""Solid State Commun., 152(2012)632""" "Superconductivity induced by electron doping in La1-xMxOBiS2 (M= Ti, Zr, Hf, Th)" 2013 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 87(2013)174512"
154168 PRB087174512 Tc= 1.73 K by ac-SUS. "(La,Th)OBiS2" La0.7Th0.3Bi1S2O1 La 0.7 Th 0.3 Bi 1 S 2 O 1 1 2013 ABCD2 CeOBiS2 P4/nmm 129 K 2.04 2.04 "solid state metathesis reaction: details, see ""Solid State Commun., 152(2012)632""" "Superconductivity induced by electron doping in La1-xMxOBiS2 (M= Ti, Zr, Hf, Th)" 2013 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 87(2013)174512"
154169 PRB087174512 "(La,Th)OBiS2" La0.6Th0.4Bi1S2O1 La 0.6 Th 0.4 Bi 1 S 2 O 1 1 2013 ABCD2 CeOBiS2 P4/nmm 129 K 2.12 2.12 "solid state metathesis reaction: details, see ""Solid State Commun., 152(2012)632""" "Superconductivity induced by electron doping in La1-xMxOBiS2 (M= Ti, Zr, Hf, Th)" 2013 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 87(2013)174512"
154170 PRB087174512 R(T) minimum at 206 K. ThOBiS2 Th1Bi1S2O1 Th 1 Bi 1 S 2 O 1 1 2013 ABCD2 CeOBiS2 P4/nmm 129 A 3.9623 13.5062 K 1.2 "solid state metathesis reaction: details, see ""Solid State Commun., 152(2012)632""" "Superconductivity induced by electron doping in La1-xMxOBiS2 (M= Ti, Zr, Hf, Th)" 2013 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 87(2013)174512"
154171 PRB087174515 not SC for x = < 0.2 in LaO(Fe1-xMnx)As "LaO(Fe,Mn)As" La1Fe0.9Mn0.1As1O1 La 1 Fe 0.9 Mn 0.1 As 1 O 1 1 2013 ABCD oxypnictide 4.0393 8.7739 Fe-1111 K 12 LAT154171 Short-range magnetic order and effective suppression of superconductivity by manganese doping in LaFe1-xMnxAsO1-yFy 2013 "Department Chemie, Ludwig-Maximilians Universitat Munchen, 81377 Munchen, Germany" "Phys.Rev.B, 87(2013)174515"
154172 PRB087174515 "not SC for y = < 0.5 in La(O1-yFy)(Fe0.9Mn0.1)As. Impurity: LaAs,Na1.5La1.5F6" "La(O,F)(Fe0.9Mn0.1)As" La1Fe0.9Mn0.1As1F0.2O0.8 La 1 Fe 0.9 Mn 0.1 As 1 F 0.2 O 0.8 1 2013 ABCD oxypnictide 4.0287 8.7538 Fe-1111 K 12 LAT154172 Short-range magnetic order and effective suppression of superconductivity by manganese doping in LaFe1-xMnxAsO1-yFy 2013 "Department Chemie, Ludwig-Maximilians Universitat Munchen, 81377 Munchen, Germany" "Phys.Rev.B, 87(2013)174515"
154173 PRB087174517 NMR of <75>As and <23>Na were measured at H//c = 6.4 T. gap (single isotropic) from Knight shift of <23>Na. (dC/gamma*Tc) = 1.14. "Na(Fe,Co)As" Na1Fe0.975Co0.025As1 Na 1 Fe 0.975 Co 0.025 As 1 3 2013 ABC PbFCl Fe-111 K 21 21 A NMR of <23>Na 5327 meV 3.6 4 6 crystals were grown at Univ. of Tennessee Spin pairing and penetration depth measurements from nuclear magnetic resonance in NaFe0.975Co0.025As 2013 "Department of Physics and Astronomy, Northwestern University, Evanston, Illinois 60208, USA" "Phys.Rev.B, 87(2013)174517"
154174 PRB087180501 "Tn = 203 and 116 K for heating and cooling proces, respectively, measured by R(T). For IrTe2 , Tn = 268K and 238 K., respectively." CuxIrTe2 Cu0.03Ir1Te2 Cu 0.03 Ir 1 Te 2 1 2013 203 CdI2 P-3m A 3.9344 5.3974 "1T-TaS2, trigonal at RT" K 2.53 2.53 "mixture(Ir,Te powder) - heat(900C,20h) - mixed with Cu powder - pellet - heat(300C,200h)" Superconductivity in CuxIrTe2 driven by interlayer hybridization 2013 "Department of Applied Physics and Quantum-Phase Electronics Center (QPEC), University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 87(2013)180501"
154175 PRB087180501 CuxIrTe2 Cu0.05Ir1Te2 Cu 0.05 Ir 1 Te 2 1 2013 CdI2 P-3m A 3.9408 5.3975 "1T-TaS2, trigonal at RT" K 2.84 2.84 "mixture(Ir,Te powder) - heat(900C,20h) - mixed with Cu powder - pellet - heat(300C,200h)" Superconductivity in CuxIrTe2 driven by interlayer hybridization 2013 "Department of Applied Physics and Quantum-Phase Electronics Center (QPEC), University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 87(2013)180501"
154176 PRB087180501 CuxIrTe2 Cu0.07Ir1Te2 Cu 0.07 Ir 1 Te 2 1 2013 CdI2 P-3m A 3.9426 5.3975 "1T-TaS2, trigonal at RT" K 2.71 2.71 "mixture(Ir,Te powder) - heat(900C,20h) - mixed with Cu powder - pellet - heat(300C,200h)" Superconductivity in CuxIrTe2 driven by interlayer hybridization 2013 "Department of Applied Physics and Quantum-Phase Electronics Center (QPEC), University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 87(2013)180501"
154177 PRB087180501 CuxIrTe2 Cu0.1Ir1Te2 Cu 0.1 Ir 1 Te 2 1 2013 CdI2 P-3m A 3.9503 5.3992 "1T-TaS2, trigonal at RT" K 2.41 2.41 "mixture(Ir,Te powder) - heat(900C,20h) - mixed with Cu powder - pellet - heat(300C,200h)" Superconductivity in CuxIrTe2 driven by interlayer hybridization 2013 "Department of Applied Physics and Quantum-Phase Electronics Center (QPEC), University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 87(2013)180501"
154178 PRB087180508 H//c. kappa(GL) = 80. calculated from Hc2/Hc1 = 2k^2*ln(k) Pr4Fe2As2TexO4 Pr4Fe2As2Te0.88O4 Pr 4 Fe 2 As 2 Te 0.88 O 4 3 2013 oxypnictide I4/mmm 139 A 4.0165 29.8572 FeAs-42214 or Fe-22414 K 24.8 25.1 25.5 25 25.1 95 mT M-H curve 2 5 T "SUS(on), WHH" 6.5 T/K SUS(on) 0.35 HC154178 A from Hc2 70 A "cohere, kappa(GL)" 5600 mOhm.cm 1.84 "PrAs,PrTe,FeO" "precursor made from mixture(PeAs:PrTe:FeO=0.9:0.1:1) - high-P synthesis(3.5GPa,NaCl/KCl flux) - heat(1500C,1h) - keep(60h) - cool to 1050C(45C/h) - cool to RT" Pr4Fe2As2Te1-xO4: A layered FeAs-based superconductor 2013 "Institute of Condensed Matter Physics, EPFL, CH-1015 Lausanne, Switzerland" "Phys.Rev.B, 87(2013)180508"
154179 PRB087214504 "RRR = 60. STM measured for various T, (0.15 < T < 1.2) and H. gap size and gap(T) well described by BCS." LaSb2 La1Sb2 La 1 Sb 2 3 2013 AB2 SmSb2 A 6.319 6.1739 18.57 K 1.2 1.2 T STM 0.7 0.15 A from Hc2 100 460 meV 0.182 3.52 11 Flux method using excess Sb-flux. Scanning tunneling microscopy in the superconductor LaSb2 2013 "Laboratorio de Bajas Temperaturas, Departamento de F?sica de la Materia Condensada, Instituto de Ciencia de Materiales Nicolas Cabrera, Facultad de Ciencias, Universidad Autonoma de Madrid, E-28049 Madrid, Spain" "Phys.Rev.B, 87(2013)214504"
154180 PRB087184504 bulk SC. Half-Heusler compound. Topological SC. Hall const.(2K) = 256 mm3/C. n(2K) = 2.44E+19/cm3 LuPtBi Lu1Pt1Bi1 Lu 1 Pt 1 Bi 1 3 2013 ABC A 6.578 cubic. K 1 1 T RES(0.9Rn). GL-theory 1.6 MHC154180 A from Hc2 140 uOhm.cm 74 137 cm3/C 0.256 10 MRH154180 n/cm3 2.44E+19 flux method using Bi-flux. Superconductivity in the noncentrosymmetric half-Heusler compound LuPtBi: A candidate for topological superconductivity 2013 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada J1K 2R1" "Phys.Rev.B, 87(2013)184504"
154200 PRB087214510 impurity phase: IrSe2(<5%). e-ph = 0.51. "Cu(Ir,Pt)2Se4" Cu1Ir1.8Pt0.2Se4 Cu 1 Ir 1.8 Pt 0.2 Se 4 1 2013 AB2C4 spinel Fd-3m 229 A 10.3358 K 1.06 0.1 1.06 mJ/mol.K2 13.1 SP 225 SP "Cu(99.5),Ir(99.95),Pt(99.95),Se(5N)" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(1123K,96h) - reground - pellet - SIN(1123K,48h)" Superconductivity in the Cu(Ir1-xPtx)2Se4 spinel 2013 "Department of Chemistry, Princeton University, Princeton, New Jersey, 08544, USA" "Phys.Rev.B, 87(2013)214510"
154201 PRB087214510 impurity phase: IrSe2(<5%). e-ph = 0.57. (dC/gamma*Tc) = 1.58 "Cu(Ir,Pt)2Se4" Cu1Ir1.6Pt0.4Se4 Cu 1 Ir 1.6 Pt 0.4 Se 4 1 2013 AB2C4 spinel Fd-3m 229 A 10.3453 K 1.76 1.76 MTC154201 T RES. WHH 3.2 T/K RES 2.6 A from Hc2 101 MSP154201 mJ/mol.K2 16.5 SP 212 SP "Cu(99.5),Ir(99.95),Pt(99.95),Se(5N)" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(1123K,96h) - reground - pellet - SIN(1123K,48h)" Superconductivity in the Cu(Ir1-xPtx)2Se4 spinel 2013 "Department of Chemistry, Princeton University, Princeton, New Jersey, 08544, USA" "Phys.Rev.B, 87(2013)214510"
154202 PRB087214510 impurity phase: IrSe2(<5%). e-ph = 0.56. (dC/gamma*Tc) = 1.44. "Cu(Ir,Pt)2Se4" Cu1Ir1.4Pt0.6Se4 Cu 1 Ir 1.4 Pt 0.6 Se 4 1 2013 AB2C4 spinel Fd-3m 229 A 10.3625 K 1.64 1.64 MTC154201 T RES. WHH 3.6 T/K RES 3.2 A from Hc2 96 mJ/mol.K2 15.7 SP 227 SP "Cu(99.5),Ir(99.95),Pt(99.95),Se(5N)" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(1123K,96h) - reground - pellet - SIN(1123K,48h)" Superconductivity in the Cu(Ir1-xPtx)2Se4 spinel 2013 "Department of Chemistry, Princeton University, Princeton, New Jersey, 08544, USA" "Phys.Rev.B, 87(2013)214510"
154203 PRB087214510 impurity phase: IrSe2(<5%). not SC "Cu(Ir,Pt)2Se4" Cu1Ir1.2Pt0.8Se4 Cu 1 Ir 1.2 Pt 0.8 Se 4 1 2013 AB2C4 spinel Fd-3m 229 A 10.3742 K 0.5 mJ/mol.K2 10.9 SP 211 SP "Cu(99.5),Ir(99.95),Pt(99.95),Se(5N)" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(1123K,96h) - reground - pellet - SIN(1123K,48h)" Superconductivity in the Cu(Ir1-xPtx)2Se4 spinel 2013 "Department of Chemistry, Princeton University, Princeton, New Jersey, 08544, USA" "Phys.Rev.B, 87(2013)214510"
154204 PRB087214510 not SC. "Cu(Ir,Pt)2Se4" Cu1Ir1Pt1Se4 Cu 1 Ir 1 Pt 1 Se 4 1 2013 AB2C4 spinel Fd-3m 229 A 10.3864 K 0.5 mJ/mol.K2 3 SP 249 SP "Cu(99.5),Ir(99.95),Pt(99.95),Se(5N)" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(1123K,96h) - reground - pellet - SIN(1123K,48h)" Superconductivity in the Cu(Ir1-xPtx)2Se4 spinel 2013 "Department of Chemistry, Princeton University, Princeton, New Jersey, 08544, USA" "Phys.Rev.B, 87(2013)214510"
154205 PRB087214510 "not SC. Semiconductor-like(dR/dT<0). R(T) = R0*exp(-T0/T)^(1/n), n=4." "Cu(Ir,Pt)2Se4" Cu1Ir2Se4 Cu 1 Ir 2 Se 4 1 2013 AB2C4 spinel Fd-3m 229 A 10.3199 K 0.5 mJ/mol.K2 7 SP 222 SP "Cu(99.5),Ir(99.95),Pt(99.95),Se(5N)" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(1123K,96h) - reground - pellet - SIN(1123K,48h)" Superconductivity in the Cu(Ir1-xPtx)2Se4 spinel 2013 "Department of Chemistry, Princeton University, Princeton, New Jersey, 08544, USA" "Phys.Rev.B, 87(2013)214510"
154206 SSC1570021 RH300 shows Hall const. at 10 K. "La(O,F)BiS2" La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 1 2013 ABCD2 P4/nmm A 4.069 13.366 ZrCuSiAs K 2.7 2.7 6 T RES. WHH 1.9 T/K RES 1 HC154206 A from Hc2 130 m3/C 5.04E-08 n/cm3 1.24E+20 "La,Bi,S,LaF3,La2O3" "mixture - pellet - sealed in quartz tube(vac) - heat to 800C(2C/min) - keep(800C,12h) - cool to RT within 6h" Appearance of superconductivity in layered LaO0.5F0.5BiS2 2013 "Quantum Phenomena and Applications Division, National Physical Laboratory (CSIR), Dr.K.S.Krishnan Road, New Delhi 110012, India" "Solid State Commun., 157(2013)21"
154207 SSC1570021 not SC LaOBiS2 La1Bi1S2O1 La 1 Bi 1 S 2 O 1 1 2013 ABCD2 P4/nmm A 4.066 13.862 ZrCuSiAs K 1.5 "La,Bi,S,LaF3,La2O3" "mixture - pellet - sealed in quartz tube(vac) - heat to 800C(2C/min) - keep(800C,12h) - cool to RT within 6h" Appearance of superconductivity in layered LaO0.5F0.5BiS2 2013 "Quantum Phenomena and Applications Division, National Physical Laboratory (CSIR), Dr.K.S.Krishnan Road, New Delhi 110012, India" "Solid State Commun., 157(2013)21"
154208 PRB084184512 "[RH300] shows RH200. RH100 = -4.48 E-9 m3/C. Rab = R0 + A*T^n for Tc < T < Tn: R0(uOhm.cm), A, n are (71.78, 0.3662, 2.13)" BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2011 137 AB2C2 ThCr2Si2 Fe-122 K 2 m3/C -9.57E-10 self flux method using FeAs flux Transport properties and asymmetric scattering in Ba1-xKxFe2As2 single crystals 2011 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 84(2011)184512"
154209 PRB084184512 "[RH300] shows RH200. RH100 = 6.41 E-9 m3/C. Rab = R0 + A*T^n for Tc < T < Tn: R0(uOhm.cm), A, n are (33.87, 0.1767, 2.32)" "(Ba,K)Fe2As2" Ba0.9K0.1Fe2As2 Ba 0.9 K 0.1 Fe 2 As 2 3 2011 123 AB2C2 ThCr2Si2 Fe-122 K 5.5 5.5 m3/C 3.65E-10 self flux method using FeAs flux Transport properties and asymmetric scattering in Ba1-xKxFe2As2 single crystals 2011 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 84(2011)184512"
154210 PRB084184512 "[RH300] shows RH200. RH100 = 4.71 E-9 m3/C. Rab = R0 + A*T^n for Tc < T < Tn: R0(uOhm.cm), A, n are (33.04, 0.2898, 2.20)" "(Ba,K)Fe2As2" Ba0.88K0.12Fe2As2 Ba 0.88 K 0.12 Fe 2 As 2 3 2011 117 AB2C2 ThCr2Si2 Fe-122 K 10 10 m3/C 6.17E-10 self flux method using FeAs flux Transport properties and asymmetric scattering in Ba1-xKxFe2As2 single crystals 2011 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 84(2011)184512"
154211 PRB084184512 "[RH300] shows RH200. RH100 = 3.32 E-9 m3/C. Rab = R0 + A*T^n for Tc < T < Tn: R0(uOhm.cm), A, n are (26.86, 1.168, 1.94)" "(Ba,K)Fe2As2" Ba0.85K0.15Fe2As2 Ba 0.85 K 0.15 Fe 2 As 2 3 2011 100 AB2C2 ThCr2Si2 Fe-122 K 18 18 m3/C 5.54E-10 self flux method using FeAs flux Transport properties and asymmetric scattering in Ba1-xKxFe2As2 single crystals 2011 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 84(2011)184512"
154212 PRB084184512 "[RH300] shows RH200. RH100 = 2.44 E-9 m3/C. Rab = R0 + A*T^n for Tc < T < Tn: R0(uOhm.cm), A, n are (26.82, 1.4735, 1.892)" "(Ba,K)Fe2As2" Ba0.8K0.2Fe2As2 Ba 0.8 K 0.2 Fe 2 As 2 3 2011 90.5 AB2C2 ThCr2Si2 Fe-122 K 22 22 m3/C 6.80E-10 self flux method using FeAs flux Transport properties and asymmetric scattering in Ba1-xKxFe2As2 single crystals 2011 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 84(2011)184512"
154213 PRB084184512 "[RH300] shows RH200. RH100 = 2.32 E-9 m3/C. Rab = R0 + A*T^n for Tc < T < Tn: R0(uOhm.cm), A, n are (16.51, 7.24, 1.56)" "(Ba,K)Fe2As2" Ba0.75K0.25Fe2As2 Ba 0.75 K 0.25 Fe 2 As 2 3 2011 AB2C2 ThCr2Si2 Fe-122 K 31 31 m3/C 6.80E-10 self flux method using FeAs flux Transport properties and asymmetric scattering in Ba1-xKxFe2As2 single crystals 2011 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 84(2011)184512"
154214 PRB084184512 "[RH300] shows RH200. RH100 = 1.436 E-9 m3/C. Rab = R0 + A*T^n for Tc < T < Tn: R0(uOhm.cm), A, n are (-1.46, 104.68, 1.01)" "(Ba,K)Fe2As2" Ba0.63K0.37Fe2As2 Ba 0.63 K 0.37 Fe 2 As 2 3 2011 AB2C2 ThCr2Si2 Fe-122 K 39 39 m3/C 7.43E-10 self flux method using FeAs flux Transport properties and asymmetric scattering in Ba1-xKxFe2As2 single crystals 2011 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, China" "Phys.Rev.B, 84(2011)184512"
154215 PRL108237001 "C = gamma*T + beta*T^3 + delta*T^5 : beta=1.29 mJ/mol.K4, delta= 0.00798 mJ/mol.K6. Gap from SP fitting using alpha-model" SrPt3P Sr1Pt3P1 Sr 1 Pt 3 P 1 1 2012 ABC3 P4/nmm 129 5.8094 5.3833 K 8.4 8.4 97 T "RES(0.5Rn), linear approx." 5.7 MHC154215 A from Hc2 76 meV 1.85 5.1 14 mJ/mol.K2 12.7 SP 190 SP MRH154215 "Pt,P,Sr(Ca,La)" "solid state reaction. mixture - sealed in quartz tube(Ar) - heat to 400 C - hold(400C,12h) - CAL(900C,12h) - ANN(900C,several days, in Ar)" Strong Coupling Superconductivity at 8.4 K in an Antiperovskite Phosphide SrPt3P 2012 "Department of Advanced Materials, University of Tokyo, and JST-TRIP, Kashiwa, Chiba 275-8651, Japan" "Phys.Rev.Lett., 108(2012)237001"
154216 PRL108237001 CaPt3P Ca1Pt3P1 Ca 1 Pt 3 P 1 1 2012 ABC3 P4/nmm 129 5.6673 5.4665 K 6.6 6.6 mJ/mol.K2 17.7 SP "Pt,P,Sr(Ca,La)" "solid state reaction. mixture - sealed in quartz tube(Ar) - heat to 400 C - hold(400C,12h) - CAL(900C,12h) - ANN(900C,several days, in Ar)" Strong Coupling Superconductivity at 8.4 K in an Antiperovskite Phosphide SrPt3P 2012 "Department of Advanced Materials, University of Tokyo, and JST-TRIP, Kashiwa, Chiba 275-8651, Japan" "Phys.Rev.Lett., 108(2012)237001"
154217 PRL108237001 LaPt3P La1Pt3P1 La 1 Pt 3 P 1 1 2012 ABC3 P4/nmm 129 5.7626 5.465 K 1.5 1.5 mJ/mol.K2 6.7 SP "Pt,P,Sr(Ca,La)" "solid state reaction. mixture - sealed in quartz tube(Ar) - heat to 400 C - hold(400C,12h) - CAL(900C,12h) - ANN(900C,several days, in Ar)" Strong Coupling Superconductivity at 8.4 K in an Antiperovskite Phosphide SrPt3P 2012 "Department of Advanced Materials, University of Tokyo, and JST-TRIP, Kashiwa, Chiba 275-8651, Japan" "Phys.Rev.Lett., 108(2012)237001"
154218 PRL108187003 "Anisotropy, R(a):R(b):R(c) = 80:1:1600(at 300K) and 150:1:1600(at 4.2 K). (-dHc2/dT) = 1.5, 19.5, 0.5 T/K for a, b, c axis , respectively. [cohere] = 100, 300, 25 A for a, b, c axis." Li0.9Mo6O17 Li0.9Mo6O17 Li 0.9 Mo 6 O 17 3 2012 AB6C17 bronze K 2.2 2.2 T/K RES(max of dR/dT) 19.5 0.5 HC154218 A from Hc2(extrapolation) 300 25 Upper Critical Magnetic Field far above the Paramagnetic Pair-Breaking Limit of Superconducting One-Dimensional Li0:9Mo6O17 Single Crystals 2012 "H.H. Wills Physics Laboratory, University of Bristol, Tyndall Avenue, BS8 1TL, United Kingdom" "Phys.Rev.Lett., 108(2012)187003"
154219 MAT1209.4229 "R = R0 + A*T^n (R0=4.34 uOhm.cm, n = 3.01) for 3.5 < T <31 K. Nodeless SC from thermal conductivity measurements" Ir0.5Pt0.5Te2 Ir0.5Pt0.5Te2 Ir 0.5 Pt 0.5 Te 2 3 2012 AB2 CdI2 K 3 3 100 T "RES(zero), extrapolation)" 0.09 MHC154219 MSP154219 mJ/mol.K2 9.2 SP MTHC154219 self-flux method Nodeless superconductivity in Ir1-xPtxTe2 with strong spin-orbital coupling 2012 "State Key Laboratory of Surface Physics, Department of Physics,and Laboratory of Advanced Materials, Fudan University, Shanghai 200433, P. R. China" cond-mat/1209.4229
154220 DRM0201273 thickness = 3 um B-doped diamond C1 C 1 2011 diamond K 3.1 3.1 "1st: undoped diamond films on Si using MPCVD reactor, then pyramidal surface with [111], 2nd: B-doped films using MPCVD reactor, thickness = 3 um" Superconductivity in heavily B-doped diamond layers deposited on highly oriented diamond films 2011 Aoyama-Gakuin University "Diamond Relat.Mater., 20(2011)1273"
154221 DRM0201273 thickness = 2 um. Carrier density (n) estimated from Tc vs n curve B-doped diamond C1 C 1 2011 diamond K 4.1 4.1 T RES(on) 3.98 T/K RES(on) 1.48 A 88 n/cm3 2.20E+21 "1st: Si[100] films by bias-nucleation method, then undoped diamond films with pyramidal surface. 2nd: B-doped films deposited. d = 2 um." Superconductivity in heavily B-doped diamond layers deposited on highly oriented diamond films 2011 Aoyama-Gakuin University "Diamond Relat.Mater., 20(2011)1273"
154222 DRM0201273 thickness = 7 um. Carrier density (n) estimated from Tc vs n curve B-doped diamond C1 C 1 2011 diamond K 5 5 T RES(on) 3.4 T/K RES(on) 1.12 A 80 n/cm3 5.00E+21 High-oriented diamond films with ajimuthally aligned [100] surface by MPCVD. then pyramidal surface and B-doped diamond films. d = 7 um. Superconductivity in heavily B-doped diamond layers deposited on highly oriented diamond films 2011 Aoyama-Gakuin University "Diamond Relat.Mater., 20(2011)1273"
154223 EPL08357001 "Energy gaps measured by Knight shift using <75>As NMR. Two gap fitting with nodes: higher gap in DB, lower one is 1.1 kTc with weight of 0.6" "Pr(O,F)FeAs" Pr1Fe1As1F0.11O0.89 Pr 1 Fe 1 As 1 F 0.11 O 0.89 1 2008 ABCD oxypnictide P4/nmm "Fe-1111, ZrCuSiAs-type" K 45 45 3.5 6 "PrAs,Fe,Fe2O3,FeF3" "high pressure synthesis. mixture - grind - pellet - SIN(1250C,2h, P=6 GPa)" Spin-singlet superconductivity with multiple gaps in PrFeAsO0.89F0.11 2008 "Department of Physics, Okayama University - Okayama 700-8530, Japan" "EuroPhys.Lett., 83(2008)57001"
154224 IMET0380088 not SC down to 300 mK. R measured for 0.3 < T < 300 K. Ni2Zn11 Ni2Zn11 Ni 2 Zn 11 3 2013 GPa 141 GPa 56.4 GPa 94 0.25 A2B11 Cu5Zn8 I4[-]3m A 8.911 gamma-brass type K 0.3 mJ/mol.K2 4 SP uOhm.cm 11 "Zn(granules),Ni(powder)" mixture(14 at.%Ni) - compact in steel dia in quartz tube - heat to 870C - cool to 800C and keep for 4 days - water quench Physical properties of non-centrosymmetric Ni2Zn11 2013 "Institute of Physical Chemistry, University of Vienna, Wahringerstrasse 42, A-1090 Vienna, Austria" "Intermetallics, 38(2013)88"
154225 JAC5630261 Young's modulus by sound resonance method. Fracture toughness = 0.57 MPa.m^0.5. "La(O,F)(Fe,Zn)As" La1Fe1As1F0.15O0.85 La 1 Fe 1 As 1 F 0.15 O 0.85 2013 GPa 0.306 GPa 19.6 ABCD oxypnictide P4/nmm "Fe-1111, ZrCuSiAs-type" K 26.2 26.2 "LaAs,Fe2O3,FeF2,Zn,Fe" "mixture - press(250 MPa) to bar - wrapped in Ta-foil - sealed in silica tube(Ar) - heat (1150C,50h)" Superconductivity and mechanical properties for LaFe1-xZnxAsO0.85F0.15 2013 "School of Materials Science and Engineering, Beihang University, Beijing 100191, China" "J.Alloys & Compounds., 563(2013)261"
154226 JAC5630261 Young's modulus by sound resonance method. Fracture toughness = 0.625 MPa.m^0.5. "La(O,F)(Fe,Zn)As" La1Fe0.8Zn0.2As1F0.15O0.85 La 1 Fe 0.8 Zn 0.2 As 1 F 0.15 O 0.85 2013 GPa 0.345 GPa 22.5 ABCD oxypnictide P4/nmm "Fe-1111, ZrCuSiAs-type" K 25.5 25.5 "LaAs,Fe2O3,FeF2,Zn,Fe" "mixture - press(250 MPa) to bar - wrapped in Ta-foil - sealed in silica tube(Ar) - heat (1150C,50h)" Superconductivity and mechanical properties for LaFe1-xZnxAsO0.85F0.15 2013 "School of Materials Science and Engineering, Beihang University, Beijing 100191, China" "J.Alloys & Compounds., 563(2013)261"
154227 JAC5630261 Young's modulus by sound resonance method. Fracture toughness = 0.693 MPa.m^0.5. "La(O,F)(Fe,Zn)As" La1Fe0.4Zn0.6As1F0.15O0.85 La 1 Fe 0.4 Zn 0.6 As 1 F 0.15 O 0.85 2013 GPa 0.395 GPa 25.7 ABCD oxypnictide P4/nmm "Fe-1111, ZrCuSiAs-type" K 24.6 24.6 "LaAs,Fe2O3,FeF2,Zn,Fe" "mixture - press(250 MPa) to bar - wrapped in Ta-foil - sealed in silica tube(Ar) - heat (1150C,50h)" Superconductivity and mechanical properties for LaFe1-xZnxAsO0.85F0.15 2013 "School of Materials Science and Engineering, Beihang University, Beijing 100191, China" "J.Alloys & Compounds., 563(2013)261"
154228 JAC5630261 Young's modulus by sound resonance method. Fracture toughness = 0.699 MPa.m^0.5. "La(O,F)(Fe,Zn)As" La1Fe0.2Zn0.8As1F0.15O0.85 La 1 Fe 0.2 Zn 0.8 As 1 F 0.15 O 0.85 2013 GPa 0.42 GPa 26.7 ABCD oxypnictide P4/nmm "Fe-1111, ZrCuSiAs-type" K 23.9 23.9 "LaAs,Fe2O3,FeF2,Zn,Fe" "mixture - press(250 MPa) to bar - wrapped in Ta-foil - sealed in silica tube(Ar) - heat (1150C,50h)" Superconductivity and mechanical properties for LaFe1-xZnxAsO0.85F0.15 2013 "School of Materials Science and Engineering, Beihang University, Beijing 100191, China" "J.Alloys & Compounds., 563(2013)261"
154229 JAC5880418 "multi-phases: beta(SC) = 27.80%, Fe7Se8=61.41%." FeSe0.93 Fe1Se0.93 Fe 1 Se 0.93 2 2014 AB A 3.772 5.522 Fe-11 K 4.5 9.5 7 "Fe(4N),Se(4N),Sn(3N)" "solid state reaction.mixture(Fe+Se) - SIN(650C,24h) - ANN - mixed with Sn - mixture - press - SIN(600C,5h)" Influence of Sn doping on the phase formation and superconductivity of FeSe0.93 2014 "Tianjin Key Laboratory of Composite and Functional Materials, School of Materials Science & Engineering, Tianjin University, Tianjin 300072, People's Republic of China" "J.Alloys & Compounds., 588(2014)418"
154230 JAC5880418 "Sn-doped(5wt%)-FeSe0.93. multi-phases: beta(SC) = 47.30%, Fe7Se8=33.27%. Sn-content in DB is tentative value." Sn-doped FeSe0.93 Sn0.05Fe1Se0.93 Sn 0.05 Fe 1 Se 0.93 2 2014 AB Fe-11 K 4.5 9.5 7 "Fe(4N),Se(4N),Sn(3N)" "solid state reaction.mixture(Fe+Se) - SIN(650C,24h) - ANN - mixed with Sn - mixture - press - SIN(600C,5h)" Influence of Sn doping on the phase formation and superconductivity of FeSe0.93 2014 "Tianjin Key Laboratory of Composite and Functional Materials, School of Materials Science & Engineering, Tianjin University, Tianjin 300072, People's Republic of China" "J.Alloys & Compounds., 588(2014)418"
154231 JAC5880418 "Sn-doped(10wt%)-FeSe0.93. multi-phases: beta(SC) = 53.26%, Fe7Se8=25.02%. Sn-content in DB is tentative value." Sn-doped FeSe0.93 Sn0.1Fe1Se0.93 Sn 0.1 Fe 1 Se 0.93 2 2014 AB Fe-11 K 4.5 9.5 7 "Fe(4N),Se(4N),Sn(3N)" "solid state reaction.mixture(Fe+Se) - SIN(650C,24h) - ANN - mixed with Sn - mixture - press - SIN(600C,5h)" Influence of Sn doping on the phase formation and superconductivity of FeSe0.93 2014 "Tianjin Key Laboratory of Composite and Functional Materials, School of Materials Science & Engineering, Tianjin University, Tianjin 300072, People's Republic of China" "J.Alloys & Compounds., 588(2014)418"
154232 CEM1980445 sample obtained by thermal decomposition from CaAl2Si2 at high-T-high-P condition Ca2Al3Si4 Ca2Al3Si4 Ca 2 Al 3 Si 4 1 2013 A2B3C4 Cmc2 36 A 5.8605 15.036 7.7659 K 6.2 6.2 "Zintl compound CaAl2Si2 is peritectically decomposed to a mixture of Ca2Al3Si4 and Al at T > 600C, under P=5 GPa." High pressure synthesis and crystal structure of a ternary superconductor Ca2Al3Si4 containing layer structured calcium sub-network isomorphous with black phosphorus 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527,Japan" "J.Solid State Chem., 198(2013)445"
154233 CEM1980445 sample obtained by thermal decomposition from CaAl2Si2 at high-T-high-P condition Ca2Al3-xSi4+x Ca2Al2.73Si4.27 Ca 2 Al 2.73 Si 4.27 3 2013 A2B3C4 Cmc2 36 A 5.8846 14.973 7.7966 K 6.4 6.4 22 "Zintl compound CaAl2Si2 is peritectically decomposed to a mixture of Ca2Al3Si4 and Al at T > 600C, under P=5 GPa." High pressure synthesis and crystal structure of a ternary superconductor Ca2Al3Si4 containing layer structured calcium sub-network isomorphous with black phosphorus 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527,Japan" "J.Solid State Chem., 198(2013)445"
154234 CEM1980445 sample obtained by thermal decomposition from CaAl2Si2 at high-T-high-P condition Ca2Al3-xSi4+x Ca2Al2.39Si4.61 Ca 2 Al 2.39 Si 4.61 2 2013 A2B3C4 Cmc2 36 K 5.4 5.4 80 "High pressure synthesis (1200C, P = 13 GPa)" High pressure synthesis and crystal structure of a ternary superconductor Ca2Al3Si4 containing layer structured calcium sub-network isomorphous with black phosphorus 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527,Japan" "J.Solid State Chem., 198(2013)445"
154235 PHB4120119 Bi4O4S3 Bi4S3O4 Bi 4 S 3 O 4 2013 A3B4C4 I4/mmm A 3.9754 41.4286 K 4.16 4.85 4.11 4.11 "Cu(4N),Bi(5N),S(3N),Bi2O3(3N)" "mixture - pellet - sealed in evacuated silica tube - heat(450C,10h + 510C,10h)" The effects o fCu doping on the physical properties of the new layered superconductor Bi4-xCuxO4S3 2013 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Physica B, 412(2013)119"
154236 PHB4120119 "impurity phase: Bi, Bi2O3" Bi4-xCuxO4S3 Bi3.99Cu0.01S3O4 Bi 3.99 Cu 0.01 S 3 O 4 2013 A3B4C4 I4/mmm A 3.975 41.4082 K 3.93 4.51 3.94 3.94 MTC154236 "Cu(4N),Bi(5N),S(3N),Bi2O3(3N)" "mixture - pellet - sealed in evacuated silica tube - heat(450C,10h + 510C,10h)" The effects o fCu doping on the physical properties of the new layered superconductor Bi4-xCuxO4S3 2013 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Physica B, 412(2013)119"
154237 PHB4120119 "impurity phase: Bi, Bi2O3" Bi4-xCuxO4S3 Bi3.975Cu0.025S3O4 Bi 3.975 Cu 0.025 S 3 O 4 2013 A3B4C4 I4/mmm A 3.9688 41.401 K 3.11 3.92 2.99 2.99 "Cu(4N),Bi(5N),S(3N),Bi2O3(3N)" "mixture - pellet - sealed in evacuated silica tube - heat(450C,10h + 510C,10h)" The effects o fCu doping on the physical properties of the new layered superconductor Bi4-xCuxO4S3 2013 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Physica B, 412(2013)119"
154238 PHB4120119 "impurity phase: Bi, Bi2O3" Bi4-xCuxO4S3 Bi3.95Cu0.05S3O4 Bi 3.95 Cu 0.05 S 3 O 4 2013 A3B4C4 I4/mmm A 3.9669 41.3847 K 2.69 3.52 2.6 2.6 "Cu(4N),Bi(5N),S(3N),Bi2O3(3N)" "mixture - pellet - sealed in evacuated silica tube - heat(450C,10h + 510C,10h)" The effects o fCu doping on the physical properties of the new layered superconductor Bi4-xCuxO4S3 2013 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Physica B, 412(2013)119"
154239 PHB4120119 "impurity phase: Bi, Bi2O3" Bi4-xCuxO4S3 Bi3.9Cu0.1S3O4 Bi 3.9 Cu 0.1 S 3 O 4 2013 A3B4C4 I4/mmm A 3.9655 41.3959 K 3 3 "Cu(4N),Bi(5N),S(3N),Bi2O3(3N)" "mixture - pellet - sealed in evacuated silica tube - heat(450C,10h + 510C,10h)" The effects o fCu doping on the physical properties of the new layered superconductor Bi4-xCuxO4S3 2013 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Physica B, 412(2013)119"
154240 PHB4120119 "impurity phase: Bi, Bi2O3" Bi4-xCuxO4S3 Bi3.85Cu0.15S3O4 Bi 3.85 Cu 0.15 S 3 O 4 2013 A3B4C4 I4/mmm A 3.9577 41.4184 K 1.5 "Cu(4N),Bi(5N),S(3N),Bi2O3(3N)" "mixture - pellet - sealed in evacuated silica tube - heat(450C,10h + 510C,10h)" The effects o fCu doping on the physical properties of the new layered superconductor Bi4-xCuxO4S3 2013 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Physica B, 412(2013)119"
154241 JAC5830151 Tc = 1.38K from SP. (dC/Tc) = 9.13 mJ/mol.K2. (dC/gamma*Tc) = 1.325. lattice term in SP (beta) = 1.266 mJ/mol.K4. e-ph = 0.496. Hc2(0) = 0.86 T from linear approx. LaPd2Sb2 La1Pd2Sb2 La 1 Pd 2 Sb 2 1 2014 AB2C2 CaBe2Ge2 P4/nmm A 4.568 10.266 M-122 K 1.2 1.4 1.3 90 T RES(R=0.5Rn). WHH 0.58 T/K RES(R=0.5Rn). 0.6 MHC154241 A from Hc2 233 mJ/mol.K2 6.89 SP 210 SP "La(3N),Sb(3N),Pd(3N)" "mixture - pellet - heat(900C,40h) - Q - reground - pellet - heat(900C,40h) - Q to RT" LaPd2Sb2: A pnictide superconductor with CaBe2Ge2 type structure 2014 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Alloys & Compounds., 583(2014)151"
154242 PHC4920165 not SC EuSr2NbCu2O8-x Eu1Sr2Nb1Cu2O8-z Eu 1 Sr 2 Nb 1 Cu 2 O 8-z 1 2013 M1212 A 3.874 11.631 K 2 "Eu2O3,SrCO3,CuO,Nb,Nb2O5,SnO2" "mixture - CAL(1000C,12h,in air) -reground - pellet - SIN(1010C,24h,in air) - FC to RT" "New superconductor EuSr2Cu2(Nb,Sn)O8-y with the RE-123 type structure" 2013 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Sendai 980-8579, Japan" "Physica C, 492(2013)165"
154243 PHC4920165 R(T) is semiconductor-like for T < 200K. "EuSr2(Nb,Sn)Cu2O8-x" Eu1Sr2Nb0.8Sn0.2Cu2O8-z Eu 1 Sr 2 Nb 0.8 Sn 0.2 Cu 2 O 8-z 1 2013 M1212 A 3.874 11.663 K 40 40 40 "Eu2O3,SrCO3,CuO,Nb,Nb2O5,SnO2" "mixture - CAL(1000C,12h,in air) -reground - pellet - SIN(1010C,24h,in air) - FC to RT" "New superconductor EuSr2Cu2(Nb,Sn)O8-y with the RE-123 type structure" 2013 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Sendai 980-8579, Japan" "Physica C, 492(2013)165"
154244 PHC4930075 P-induced SC. P = 8.5 GPa. Topological compound. Structural transition at P=9.8 GPa at RT. Cu0.14Bi2Te3 Cu0.14Bi2Te3 Cu 0.14 Bi 2 Te 3 3 2013 R-3m A 4.385 30.48 rhombohedral K 6 0 6 "Bi(5N),Te(5N),Cu(4N)" single crystals were prepared by Bridgman method. Superconductivity in copper intercalated topological compound CuxBi2Te3 induced via high pressure 2013 "Institute of Physics, Chinese Academy of Sciences, Beijing, China" "Physica C, 493(2013)75"
154245 PHC4930093 "Major phase SrPt2Ge2 (not SC): SG=P2<1>, a=4.401, b=4.435, c=9.764 A, beta= 90.5degree. Minor phase SrPt2Ge2 shows SC." SrPt2Ge2 Sr1Pt2Ge2 Sr 1 Pt 2 Ge 2 2 2013 AB2C2 I4/mmm A 4.4 9.8 unstable K 10.2 10.2 "PtGe firstly arc-melted. then, melted with Sr and extra-Sr for stoichiometly. Wrapped in Ta-foil - ANN(1000-1200C,5d) - rapid quench" New superconductor SrPt2Ge2 with Tc = 10.2 K 2013 "Department of Physics, National Tsing Hua University, Hsinchu 30013, Taiwan, ROC" "Physica C, 493(2013)93"
154246 PHC4940057 R(60K) = 2.13 mOhm.cm "Sm(O,F)FeAs" Sm1Fe1As1F0.12O0.88 Sm 1 Fe 1 As 1 F 0.12 O 0.88 1 2013 ABCD oxypnictide A 3.9307 8.4786 "Fe-1111, ZrCuSiAs-type" K 50.1 50.1 HC154246 uV/K -33.6 TP154246 "SmAs,Fe2O3,FeF2,Fe,Ma(or Ni)" "mixture - pellet(40 MPa) - wrapped in Ta-foil - heat(900C,45h, in evacuated quartz ampoules)" "Effects of Mn and Ni doping on the superconductivity of SmFeAs(O,F)" 2013 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Physica C, 494(2013)57"
154247 PHC4940057 R(60K) = 2.78 mOhm.cm "Sm(O,F)(Fe,Mn)As" Sm1Fe0.99Mn0.01As1F0.12O0.88 Sm 1 Fe 0.99 Mn 0.01 As 1 F 0.12 O 0.88 1 2013 ABCD oxypnictide A 3.9347 8.4912 "Fe-1111, ZrCuSiAs-type" K 37.2 37.2 HC154246 "SmAs,Fe2O3,FeF2,Fe,Ma(or Ni)" "mixture - pellet(40 MPa) - wrapped in Ta-foil - heat(900C,45h, in evacuated quartz ampoules)" "Effects of Mn and Ni doping on the superconductivity of SmFeAs(O,F)" 2013 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Physica C, 494(2013)57"
154248 PHC4940057 R(60K) = 4.41 mOhm.cm "Sm(O,F)(Fe,Mn)As" Sm1Fe0.97Mn0.03As1F0.12O0.88 Sm 1 Fe 0.97 Mn 0.03 As 1 F 0.12 O 0.88 1 2013 ABCD oxypnictide A 3.9373 8.4951 "Fe-1111, ZrCuSiAs-type" K 31.3 31.3 HC154248 uV/K -19.4 TP154248 "SmAs,Fe2O3,FeF2,Fe,Ma(or Ni)" "mixture - pellet(40 MPa) - wrapped in Ta-foil - heat(900C,45h, in evacuated quartz ampoules)" "Effects of Mn and Ni doping on the superconductivity of SmFeAs(O,F)" 2013 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Physica C, 494(2013)57"
154249 PHC4940057 R(60K) = 7.10 mOhm.cm "Sm(O,F)(Fe,Mn)As" Sm1Fe0.94Mn0.06As1F0.12O0.88 Sm 1 Fe 0.94 Mn 0.06 As 1 F 0.12 O 0.88 1 2013 ABCD oxypnictide A 3.9407 8.5005 "Fe-1111, ZrCuSiAs-type" K 16 16 HC154248 "SmAs,Fe2O3,FeF2,Fe,Ma(or Ni)" "mixture - pellet(40 MPa) - wrapped in Ta-foil - heat(900C,45h, in evacuated quartz ampoules)" "Effects of Mn and Ni doping on the superconductivity of SmFeAs(O,F)" 2013 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Physica C, 494(2013)57"
154250 PHC4940057 R(60K) = 11.27 mOhm.cm "Sm(O,F)(Fe,Mn)As" Sm1Fe0.92Mn0.08As1F0.12O0.88 Sm 1 Fe 0.92 Mn 0.08 As 1 F 0.12 O 0.88 1 2013 ABCD oxypnictide A 3.9429 8.5121 "Fe-1111, ZrCuSiAs-type" K 0 0 "SmAs,Fe2O3,FeF2,Fe,Ma(or Ni)" "mixture - pellet(40 MPa) - wrapped in Ta-foil - heat(900C,45h, in evacuated quartz ampoules)" "Effects of Mn and Ni doping on the superconductivity of SmFeAs(O,F)" 2013 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Physica C, 494(2013)57"
154251 PHC4940057 R(60K) = 23.38 mOhm.cm "Sm(O,F)(Fe,Mn)As" Sm1Fe0.9Mn0.1As1F0.12O0.88 Sm 1 Fe 0.9 Mn 0.1 As 1 F 0.12 O 0.88 1 2013 ABCD oxypnictide A 3.9458 8.5208 "Fe-1111, ZrCuSiAs-type" K 0 0 "SmAs,Fe2O3,FeF2,Fe,Ma(or Ni)" "mixture - pellet(40 MPa) - wrapped in Ta-foil - heat(900C,45h, in evacuated quartz ampoules)" "Effects of Mn and Ni doping on the superconductivity of SmFeAs(O,F)" 2013 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Physica C, 494(2013)57"
154254 PHC4940057 R(60K) = 2.18 mOhm.cm "Sm(O,F)(Fe,Ni)As" Sm1Fe0.99Ni0.01As1F0.12O0.88 Sm 1 Fe 0.99 Ni 0.01 As 1 F 0.12 O 0.88 1 2013 ABCD oxypnictide A 3.9323 8.4753 K 45.7 45.7 HC154255 "SmAs,Fe2O3,FeF2,Fe,Ma(or Ni)" "mixture - pellet(40 MPa) - wrapped in Ta-foil - heat(900C,45h, in evacuated quartz ampoules)" "Effects of Mn and Ni doping on the superconductivity of SmFeAs(O,F)" 2013 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Physica C, 494(2013)57"
154255 PHC4940057 R(60K) = 2.27 mOhm.cm "Sm(O,F)(Fe,Ni)As" Sm1Fe0.97Ni0.03As1F0.12O0.88 Sm 1 Fe 0.97 Ni 0.03 As 1 F 0.12 O 0.88 1 2013 ABCD oxypnictide A 3.9361 8.4699 K 34.5 34.5 HC154255 uV/K -36.1 TP154255 "SmAs,Fe2O3,FeF2,Fe,Ma(or Ni)" "mixture - pellet(40 MPa) - wrapped in Ta-foil - heat(900C,45h, in evacuated quartz ampoules)" "Effects of Mn and Ni doping on the superconductivity of SmFeAs(O,F)" 2013 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Physica C, 494(2013)57"
154256 PHC4940057 R(60K) = 2.78 mOhm.cm "Sm(O,F)(Fe,Ni)As" Sm1Fe0.94Ni0.06As1F0.12O0.88 Sm 1 Fe 0.94 Ni 0.06 As 1 F 0.12 O 0.88 1 2013 ABCD oxypnictide A 3.9391 8.4685 K 18.8 18.8 HC154255 "SmAs,Fe2O3,FeF2,Fe,Ma(or Ni)" "mixture - pellet(40 MPa) - wrapped in Ta-foil - heat(900C,45h, in evacuated quartz ampoules)" "Effects of Mn and Ni doping on the superconductivity of SmFeAs(O,F)" 2013 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Physica C, 494(2013)57"
154257 PHC4940057 R(60K) = 2.69 mOhm.cm "Sm(O,F)(Fe,Ni)As" Sm1Fe0.9Ni0.1As1F0.12O0.88 Sm 1 Fe 0.9 Ni 0.1 As 1 F 0.12 O 0.88 1 2013 ABCD oxypnictide A 3.9404 8.4622 K 5.6 5.6 "SmAs,Fe2O3,FeF2,Fe,Ma(or Ni)" "mixture - pellet(40 MPa) - wrapped in Ta-foil - heat(900C,45h, in evacuated quartz ampoules)" "Effects of Mn and Ni doping on the superconductivity of SmFeAs(O,F)" 2013 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Physica C, 494(2013)57"
154258 PHC4940065 "RRR=1.65. Jc(2K) = 3E+5 A/cm2. Proton irradiation effect were investigated, Anisotropy(Hc2) = 10. R(T) has minimum at 80 K." Ca10(Pt3As8)(Fe1.79Pt0.21As2)5 Ca10Pt4.05Fe8.95As18 Ca 10 Pt 4.05 Fe 8.95 As 18 3 2013 Ca-10-3-8 phase K 13 13 T RES(R=0.9Rn). WHH 65.1 15.3 MHC154258 uOhm.cm 300 "Cu(99.5),Pt(3N),As(7N),FeAs" "mixture - heat(700C,6h) - react(1065C,10h) - alumina crucible - sealed in quartz tube - heat(1100C,72h) - cool to 1050C(1C/h) - FC to RT" "Superconducting properties of iron-platinum-arsenides Ca10(PtnAs8)(Fe2-xPtxAs2)5 (n = 3, 4)" 2013 "Department of Applied Physics, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Physica C, 494(2013)65"
154259 PHC4940065 "RRR=2.15. Jc(2K) = 3E+5 A/cm2. Proton irradiation effect were investigated, Anisotropy(Hc2) = 10." Ca10(Pt4As8)(Fe1.96Pt0.04As2)5 Ca10Pt4.2Fe9.8As18 Ca 10 Pt 4.2 Fe 9.8 As 18 3 2013 Ca-10-4-8 phase K 30 30 T RES(R=0.9Rn). WHH 115.4 33.9 MHC154259 uOhm.cm 100 "Cu(99.5),Pt(3N),As(7N),FeAs" "mixture - heat(700C,6h) - react(1065C,10h) - alumina crucible - sealed in quartz tube - heat(1000C,72h) - cool to 800C(3C/h) - FC to RT" "Superconducting properties of iron-platinum-arsenides Ca10(PtnAs8)(Fe2-xPtxAs2)5 (n = 3, 4)" 2013 "Department of Applied Physics, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Physica C, 494(2013)65"
154260 PHC4940077 "impurity phase: Lu2O3,LuCx. Hc1(T), Hc2(T) have GL-type T-dependency. Hc(0) = 704 Oe. kappa(GL) = 9.2" Lu2SnC Lu2Sn1C1 Lu 2 Sn 1 C 1 1 2013 ABC2 7 Cr2AlC P6<3>/mmc A 3.51 15.15 "M2AX phase, hexagonal" K 5.2 5.2 Oe "M-H curve, GL" 110 T "SUS(on), Hc2(T) by GL" 0.45 MHC154260 A from Hc2 270 A from Hc1 2500 "arc-melting - ANN(1100C,several days)" Superconductivity in Lu2SnC 2013 "Department of Physics and Mathematics, Aoyama-Gakuin University, 5-10-1 Fuchinobe, Sagamihara, Kanagawa 252-5258, Japan" "Physica C, 494(2013)77"
154261 PHC4940095 BCS coherence qsi-0 = 116 A. mean free pass = 637 A from residual -R ( = 8.32 uOhm.cm). Li2Pd3B Li2Pd3B1 Li 2 Pd 3 B 1 2013 AB2C3 P4<3>32 K 8.29 8.29 T RES(R=0.5Rn) MHC154262 A 110 uOhm.cm 8.32 "Pd(3N),B(99.5),Li(3N)" "Firstly Pd3B was synthesized by arc-melting, then arc-melted with 10% excess Li and Al." "Influence on superconductivity in the parity mixing superconductor Li2T3B(T:Pt,Pd) by non-magnetic impurity and defect doping" 2013 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Physica C, 494(2013)95"
154262 PHC4940095 Al-doped Li2Pd3B. mean free pass = 83 A from residual -R ( = 64.6 uOhm.cm). "Li2Pd3(B,Al)" Li2Pd3B0.95Al0.05 Li 2 Pd 3 B 0.95 Al 0.05 2013 AB2C3 P4<3>32 K 7.75 7.75 T RES(R=0.5Rn) MHC154262 A 82 uOhm.cm 64.6 "Pd(3N),B(99.5),Li(3N)" "Firstly Pd3B was synthesized by arc-melting, then arc-melted with 10% excess Li and Al." "Influence on superconductivity in the parity mixing superconductor Li2T3B(T:Pt,Pd) by non-magnetic impurity and defect doping" 2013 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Physica C, 494(2013)95"
154263 PHC4940095 Al-doped Li2Pd3B. mean free pass = 76 A from residual -R ( = 71.5 uOhm.cm). "Li2Pd3(B,Al)" Li2Pd3B0.9Al0.1 Li 2 Pd 3 B 0.9 Al 0.1 2013 AB2C3 P4<3>32 K 7.49 7.49 T RES(R=0.5Rn) MHC154262 A 77 uOhm.cm 71.5 "Pd(3N),B(99.5),Li(3N)" "Firstly Pd3B was synthesized by arc-melting, then arc-melted with 10% excess Li and Al." "Influence on superconductivity in the parity mixing superconductor Li2T3B(T:Pt,Pd) by non-magnetic impurity and defect doping" 2013 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Physica C, 494(2013)95"
154264 PHC4940095 mean free pass = 491 A from residual -R ( = 30.2 uOhm.cm). Li2Pt3B Li2Pt3B1 Li 2 Pt 3 B 1 2013 AB2C3 P4<3>32 K 3.19 3.19 T RES(R=0.5Rn) MHC154265 A 135 uOhm.cm 30.2 "Pt(3N),B(99.5),Li(3N)" "Firstly Pt3B was synthesized by arc-melting, then arc-melted with 10% excess Li and Al." "Influence on superconductivity in the parity mixing superconductor Li2T3B(T:Pt,Pd) by non-magnetic impurity and defect doping" 2013 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Physica C, 494(2013)95"
154265 PHC4940095 Al-doped Li2Pt3B. mean free pass = 129 A from residual -R ( = 116 uOhm.cm). "Li2Pt3(B,Al)" Li2Pt3B0.99Al0.01 Li 2 Pt 3 B 0.99 Al 0.01 2013 AB2C3 P4<3>32 K 2.86 2.86 T RES(R=0.5Rn) MHC154265 A 142 uOhm.cm 116 "Pt(3N),B(99.5),Li(3N)" "Firstly Pt3B was synthesized by arc-melting, then arc-melted with 10% excess Li and Al." "Influence on superconductivity in the parity mixing superconductor Li2T3B(T:Pt,Pd) by non-magnetic impurity and defect doping" 2013 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Physica C, 494(2013)95"
154266 PHC4940095 Al-doped Li2Pt3B. mean free pass = 91 A from residual -R ( = 166 uOhm.cm). "Li2Pt3(B,Al)" Li2Pt3B0.95Al0.05 Li 2 Pt 3 B 0.95 Al 0.05 2013 AB2C3 P4<3>32 K 2.12 2.12 T RES(R=0.5Rn) MHC154265 A 166 uOhm.cm 166 "Pt(3N),B(99.5),Li(3N)" "Firstly Pt3B was synthesized by arc-melting, then arc-melted with 10% excess Li and Al." "Influence on superconductivity in the parity mixing superconductor Li2T3B(T:Pt,Pd) by non-magnetic impurity and defect doping" 2013 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Physica C, 494(2013)95"
154267 PHC4940080 "Trigonal to monoclinic phase transition at 219K(heating) , 205K(cooling)" Ir1-xPtxTe2 Ir0.98Pt0.02Te2 Ir 0.98 Pt 0.02 Te 2 3 2013 AB2 6 P3[-]ml trigonal K 1.8 "self-flux method. mixture(Ir:Pt:Te=0.18(1-x):0.18x:0.82) - alumina crucible - quartz tube - heat(950C,10h) - slow cool to 1160C - cool to 900C( (1 C/h) - Q to ice" Emergence of superconductivity near the structural phase boundary in Pt-doped IrTe2 single crystals 2013 "Department of Physics, Okayama University, 3-1-1 Tsushima-naka, Kita-ku, Okayama 700-8530, Japan" "Physica C, 494(2013)80"
154268 PHC4940080 "Trigonal to monoclinic phase transition at 145K(heating) , 91K(cooling)" Ir1-xPtxTe2 Ir0.96Pt0.04Te2 Ir 0.96 Pt 0.04 Te 2 3 2013 AB2 6 P3[-]ml trigonal K 3 3 MTC154268 "self-flux method. mixture(Ir:Pt:Te=0.18(1-x):0.18x:0.82) - alumina crucible - quartz tube - heat(950C,10h) - slow cool to 1160C - cool to 900C( (1 C/h) - Q to ice" Emergence of superconductivity near the structural phase boundary in Pt-doped IrTe2 single crystals 2013 "Department of Physics, Okayama University, 3-1-1 Tsushima-naka, Kita-ku, Okayama 700-8530, Japan" "Physica C, 494(2013)80"
154269 PHC4940080 Ir1-xPtxTe2 Ir0.92Pt0.08Te2 Ir 0.92 Pt 0.08 Te 2 3 2013 AB2 6 P3[-]ml trigonal K 2.49 2.49 "self-flux method. mixture(Ir:Pt:Te=0.18(1-x):0.18x:0.82) - alumina crucible - quartz tube - heat(950C,10h) - slow cool to 1160C - cool to 900C( (1 C/h) - Q to ice" Emergence of superconductivity near the structural phase boundary in Pt-doped IrTe2 single crystals 2013 "Department of Physics, Okayama University, 3-1-1 Tsushima-naka, Kita-ku, Okayama 700-8530, Japan" "Physica C, 494(2013)80"
154270 PHC4940080 Ir1-xPtxTe2 Ir0.88Pt0.12Te2 Ir 0.88 Pt 0.12 Te 2 3 2013 AB2 6 P3[-]ml trigonal K 1.92 1.92 "self-flux method. mixture(Ir:Pt:Te=0.18(1-x):0.18x:0.82) - alumina crucible - quartz tube - heat(950C,10h) - slow cool to 1160C - cool to 900C( (1 C/h) - Q to ice" Emergence of superconductivity near the structural phase boundary in Pt-doped IrTe2 single crystals 2013 "Department of Physics, Okayama University, 3-1-1 Tsushima-naka, Kita-ku, Okayama 700-8530, Japan" "Physica C, 494(2013)80"
154271 PHC4940109 [penet] measured by surface impedance (f = 19 GHz) "Na(Fe,Co)As" Na1Fe0.97Co0.03As1 Na 1 Fe 0.97 Co 0.03 As 1 3 2013 ABC Fe-111 K 22 22 T "RES(R=0.9Rn and calc from Rn, viscous drag coeff." MHC154271 A "surface impedance, f=19 GHz" 3750 "self-flux method. mixture(Na:Fe:Co:As=2:0.95:0.05:2) - alumina crucible - qurtz tube - heat(950C) - slow cool (from 900 to 400 C, in 100h) - cool to RT in a day" Magnetic penetration depth and flux-flow resistivity measurements on NaFe0.97Co0.03As single crystals 2013 "Department of Basic Science, The University of Tokyo, Meguro, Tokyo 153-8902, Japan" "Physica C, 494(2013)109"
154272 PHC4950010 Zr2Co Zr2Co1 Zr 2 Co 1 1 2013 AB2 2 CuAl2 I4/mcm A 6.354 5.512 tetragonal K 5.47 6.2 5.58 5.47 "Zr(99.95),Co(3N),Cu(6N)" "arc-melting - ANN(820C,5d, in quartz tube) - Q to RT" Superconductivity in Zr2(Co1-xCux) 2013 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Physica C, 495(2013)10"
154273 PHC4950010 Zr2(Co1-xCux) Zr2Co0.95Cu0.05 Zr 2 Co 0.95 Cu 0.05 1 2013 AB2 2 CuAl2 I4/mcm A 6.371 5.483 tetragonal K 6.52 6.69 6.01 6.52 MTC154273 "Zr(99.95),Co(3N),Cu(6N)" "arc-melting - ANN(820C,5d, in quartz tube) - Q to RT" Superconductivity in Zr2(Co1-xCux) 2013 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Physica C, 495(2013)10"
154274 PHC4950010 Zr2(Co1-xCux) Zr2Co0.9Cu0.1 Zr 2 Co 0.9 Cu 0.1 1 2013 AB2 2 CuAl2 I4/mcm A 6.389 5.463 tetragonal K 6.07 6.6 5.8 6.07 "Zr(99.95),Co(3N),Cu(6N)" "arc-melting - ANN(820C,5d, in quartz tube) - Q to RT" Superconductivity in Zr2(Co1-xCux) 2013 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Physica C, 495(2013)10"
154275 PHC4950010 Zr2(Co1-xCux) Zr2Co0.85Cu0.15 Zr 2 Co 0.85 Cu 0.15 1 2013 AB2 2 CuAl2 I4/mcm A 6.407 5.443 tetragonal K 5.88 6.4 5.69 5.88 "Zr(99.95),Co(3N),Cu(6N)" "arc-melting - ANN(820C,5d, in quartz tube) - Q to RT" Superconductivity in Zr2(Co1-xCux) 2013 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Physica C, 495(2013)10"
154276 PHC4950010 Zr2(Co1-xCux) Zr2Co0.8Cu0.2 Zr 2 Co 0.8 Cu 0.2 1 2013 AB2 2 CuAl2 I4/mcm A 6.416 5.421 tetragonal K 5.41 5.7 5.29 5.41 "Zr(99.95),Co(3N),Cu(6N)" "arc-melting - ANN(820C,5d, in quartz tube) - Q to RT" Superconductivity in Zr2(Co1-xCux) 2013 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Physica C, 495(2013)10"
154277 PHC4950010 Zr2(Co1-xCux) Zr2Co0.75Cu0.25 Zr 2 Co 0.75 Cu 0.25 1 2013 AB2 2 CuAl2 I4/mcm A 6.428 5.402 tetragonal K 4.89 5.3 4.79 4.89 "Zr(99.95),Co(3N),Cu(6N)" "arc-melting - ANN(820C,5d, in quartz tube) - Q to RT" Superconductivity in Zr2(Co1-xCux) 2013 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Physica C, 495(2013)10"
154278 PHC4950010 Zr2(Co1-xCux) Zr2Co0.7Cu0.3 Zr 2 Co 0.7 Cu 0.3 1 2013 AB2 2 CuAl2 I4/mcm A 6.452 5.386 tetragonal K 4.39 4.89 4.49 4.39 "Zr(99.95),Co(3N),Cu(6N)" "arc-melting - ANN(820C,5d, in quartz tube) - Q to RT" Superconductivity in Zr2(Co1-xCux) 2013 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Physica C, 495(2013)10"
154279 PHC4980014 splat-cooled sample. alpha-(ortho) + gamma(bcc) phase. Hc2(0) = 0.3 T by using T^2 approx. U U1 U 1 2014 18.06 A alpha- & gamma-phase K 1.24 1.24 T "RES(R=0.5Rn), WHH" 0.3 T/K RES(R=0.5Rn) 0.35 MHC154280 mJ/mol.K2 11 SP 179 SP uOhm.cm 53 "(natural-U + Mo) - arc melting - splatcooling on Cu (cooling rate = 1 E+6 K/s) to irregular disc( dia = 20mm, d = 1-2 mm)" Electronic properties of gamma-U and superconductivity of U-Mo alloys 2014 "Faculty of Mathematics and Physics, Charles University, Ke Karlovu 5, 12116 Prague, Czech Republic" "Physica C, 498(2014)14"
154280 PHC4980014 splat-cooled sample. alpha-(ortho) + gamma(bcc) phase. U1-xMox U0.97Mo0.03 U 0.97 Mo 0.03 2014 A alpha- & gamma-phase K 0.65 0.65 "(natural-U + Mo) - arc melting - splatcooling on Cu (cooling rate = 1 E+6 K/s) to irregular disc( dia = 20mm, d = 1-2 mm)" Electronic properties of gamma-U and superconductivity of U-Mo alloys 2014 "Faculty of Mathematics and Physics, Charles University, Ke Karlovu 5, 12116 Prague, Czech Republic" "Physica C, 498(2014)14"
154281 PHC4980014 splat-cooled sample. alpha-(ortho) + gamma(bcc) phase. U1-xMox U0.94Mo0.06 U 0.94 Mo 0.06 2014 A alpha- & gamma-phase K 0.7 0.7 T "RES(R=0.5Rn), WHH" 1.3 T/K RES(R=0.5Rn) 2.6 MHC154280 "(natural-U + Mo) - arc melting - splatcooling on Cu (cooling rate = 1 E+6 K/s) to irregular disc( dia = 20mm, d = 1-2 mm)" Electronic properties of gamma-U and superconductivity of U-Mo alloys 2014 "Faculty of Mathematics and Physics, Charles University, Ke Karlovu 5, 12116 Prague, Czech Republic" "Physica C, 498(2014)14"
154282 PHC4980014 splat-cooled sample. gamma(bcc) phase. U1-xMox U0.89Mo0.11 U 0.89 Mo 0.11 2014 A 2 A 3.4841 3.4041 gamma-phase K 1.25 1.25 T "RES(R=0.5Rn), WHH" 3.3 T/K RES(R=0.5Rn) 3.8 MHC154284 mJ/mol.K2 13 SP 147 SP uOhm.cm 105 "(natural-U + Mo) - arc melting - splatcooling on Cu (cooling rate = 1 E+6 K/s) to irregular disc( dia = 20mm, d = 1-2 mm)" Electronic properties of gamma-U and superconductivity of U-Mo alloys 2014 "Faculty of Mathematics and Physics, Charles University, Ke Karlovu 5, 12116 Prague, Czech Republic" "Physica C, 498(2014)14"
154283 PHC4980014 splat-cooled sample. gamma(bcc) phase. Hc2(0) = 6.0 T by using T^2 approx. U1-xMox U0.88Mo0.12 U 0.88 Mo 0.12 2014 A 2 A 3.4451 3.3966 gamma-phase K 1.91 1.91 T "RES(R=0.5Rn), WHH" 5.2 T/K RES(R=0.5Rn) 3.9 MHC154284 mJ/mol.K2 15.8 SP 139 SP uOhm.cm 80 "(natural-U + Mo) - arc melting - splatcooling on Cu (cooling rate = 1 E+6 K/s) to irregular disc( dia = 20mm, d = 1-2 mm)" Electronic properties of gamma-U and superconductivity of U-Mo alloys 2014 "Faculty of Mathematics and Physics, Charles University, Ke Karlovu 5, 12116 Prague, Czech Republic" "Physica C, 498(2014)14"
154284 PHC4980014 splat-cooled sample. gamma(bcc) phase. Hc2(0) = 6.7 T by using T^2 approx. U1-xMox U0.85Mo0.15 U 0.85 Mo 0.15 2014 A 2 A 3.4409 3.4409 gamma-phase K 2.11 2.11 T "RES(R=0.5Rn), WHH" 5.3 T/K RES(R=0.5Rn) 3.6 MHC154284 mJ/mol.K2 16 SP 139 SP uOhm.cm 89 "(natural-U + Mo) - arc melting - splatcooling on Cu (cooling rate = 1 E+6 K/s) to irregular disc( dia = 20mm, d = 1-2 mm)" Electronic properties of gamma-U and superconductivity of U-Mo alloys 2014 "Faculty of Mathematics and Physics, Charles University, Ke Karlovu 5, 12116 Prague, Czech Republic" "Physica C, 498(2014)14"
154285 PHC4980045 "impurity phases: Bi, Bi2S3" Bi4O4S3 Bi4S3O4 Bi 4 S 3 O 4 1 2014 2 I4/mmm A 3.9708 41.357 K 4.5 4.4 4.4 T "RES(R=0.9Rn), WHH" 2.3 MHC154285 "solid state reaction. mixture - pellet - sealed in quartz ampoule - heat to 400C (2C/min) - keep(400C,10h) - slow cool to RT within 6h" Effect of Se doping in recently discovered layered Bi4O4S3 superconductor 2014 "CSIR-National Physical Laboratory (CSIR), Dr. K.S. Krishnan Road, New Delhi 110012, India" "Physica C, 498(2014)45"
154286 PHC4980045 "Bi4O4(S,Se)3" Bi4S2.97Se0.03O4 Bi 4 S 2.97 Se 0.03 O 4 1 2014 2 I4/mmm K 4.2 4.2 T "RES(R=0.9Rn), WHH" 2.1 MHC154286 "solid state reaction. mixture - pellet - sealed in quartz ampoule - heat to 400C (2C/min) - keep(400C,10h) - slow cool to RT within 6h" Effect of Se doping in recently discovered layered Bi4O4S3 superconductor 2014 "CSIR-National Physical Laboratory (CSIR), Dr. K.S. Krishnan Road, New Delhi 110012, India" "Physica C, 498(2014)45"
154287 PHC4980045 "Bi4O4(S,Se)3" Bi4S2.91Se0.09O4 Bi 4 S 2.91 Se 0.09 O 4 1 2014 2 I4/mmm K 3.7 3.7 "solid state reaction. mixture - pellet - sealed in quartz ampoule - heat to 400C (2C/min) - keep(400C,10h) - slow cool to RT within 6h" Effect of Se doping in recently discovered layered Bi4O4S3 superconductor 2014 "CSIR-National Physical Laboratory (CSIR), Dr. K.S. Krishnan Road, New Delhi 110012, India" "Physica C, 498(2014)45"
154288 PHC4980045 "Bi4O4(S,Se)3" Bi4S2.85Se0.15O4 Bi 4 S 2.85 Se 0.15 O 4 1 2014 2 I4/mmm A 3.9717 41.419 K 4 3.5 3.5 T "RES(R=0.9Rn), WHH" 1.8 MHC154288 "solid state reaction. mixture - pellet - sealed in quartz ampoule - heat to 400C (2C/min) - keep(400C,10h) - slow cool to RT within 6h" Effect of Se doping in recently discovered layered Bi4O4S3 superconductor 2014 "CSIR-National Physical Laboratory (CSIR), Dr. K.S. Krishnan Road, New Delhi 110012, India" "Physica C, 498(2014)45"
154289 PHC4980050 RRR = 6.98. Hall coeffic. RH(25K) = 0.85 E-8 m3/C. "(Pr,Sr)Fe(As,Sb)O" Pr0.65Sr0.35Fe1As0.9Sb0.1O1 Pr 0.65 Sr 0.35 Fe 1 As 0.9 Sb 0.1 O 1 1 2014 ABCD oxypnictide ZrCuSiAs-type K 21.87 21.87 T "RES(R=0.95Rn), WHH" 17.8 T/K RES(R=0.95Rn) 1.3 HC154289 "Two step solid state reaction. 1st step: PrAs,SrAs,PrSb(or PrP) were prepared. 2nd step: mixture - pellet - ANN(1150C,40h) - FC to RT" Enhancement of superconductivity by Sb-doping in the hole-doped iron-pnictide superconductor Pr1-xSrxFeAsO 2014 "State Key Laboratory of Functional Materials for Informatics, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, Shanghai 200050, China" "Physica C, 498(2014)50"
154290 PHC4980050 RRR = 4.85. Hall coeffic. RH(25K) = 0.70 E-8 m3/C. "(Pr,Sr)Fe(As,Sb)O" Pr0.65Sr0.35Fe1As0.8Sb0.2O1 Pr 0.65 Sr 0.35 Fe 1 As 0.8 Sb 0.2 O 1 1 2014 ABCD oxypnictide ZrCuSiAs-type K 22 22 T "RES(R=0.95Rn), WHH" 30.7 T/K RES(R=0.95Rn) 2.1 HC154290 "Two step solid state reaction. 1st step: PrAs,SrAs,PrSb(or PrP) were prepared. 2nd step: mixture - pellet - ANN(1150C,40h) - FC to RT" Enhancement of superconductivity by Sb-doping in the hole-doped iron-pnictide superconductor Pr1-xSrxFeAsO 2014 "State Key Laboratory of Functional Materials for Informatics, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, Shanghai 200050, China" "Physica C, 498(2014)50"
154291 PHC4980050 RRR = 8.47. Hall coeffic. RH(25K) = 0.45 E-8 m3/C. "(Pr,Sr)Fe(As,Sb)O" Pr0.65Sr0.35Fe1As0.85Sb0.15O1 Pr 0.65 Sr 0.35 Fe 1 As 0.85 Sb 0.15 O 1 1 2014 ABCD oxypnictide A 3.996 8.648 ZrCuSiAs-type K 21.9 21.9 "Two step solid state reaction. 1st step: PrAs,SrAs,PrSb(or PrP) were prepared. 2nd step: mixture - pellet - ANN(1150C,40h) - FC to RT" Enhancement of superconductivity by Sb-doping in the hole-doped iron-pnictide superconductor Pr1-xSrxFeAsO 2014 "State Key Laboratory of Functional Materials for Informatics, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, Shanghai 200050, China" "Physica C, 498(2014)50"
154292 PHC4980050 RRR = 8.51. Hall coeffic. RH(25K) = 0.51 E-8 m3/C. "(Pr,Sr)Fe(As,P)O" Pr0.65Sr0.35Fe1As0.95P0.05O1 Pr 0.65 Sr 0.35 Fe 1 As 0.95 P 0.05 O 1 1 2014 ABCD oxypnictide ZrCuSiAs-type K 15.4 15.4 "Two step solid state reaction. 1st step: PrAs,SrAs,PrSb(or PrP) were prepared. 2nd step: mixture - pellet - ANN(1150C,40h) - FC to RT" Enhancement of superconductivity by Sb-doping in the hole-doped iron-pnictide superconductor Pr1-xSrxFeAsO 2014 "State Key Laboratory of Functional Materials for Informatics, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, Shanghai 200050, China" "Physica C, 498(2014)50"
154293 PHC4980050 Hall coeffic. RH(25K) = 4.49 E-8 m3/C. "(Pr,Sr)Fe(As,P)O" Pr0.65Sr0.35Fe1As0.9P0.1O1 Pr 0.65 Sr 0.35 Fe 1 As 0.9 P 0.1 O 1 1 2014 ABCD oxypnictide A 3.979 8.598 ZrCuSiAs-type K 0 2 0 "Two step solid state reaction. 1st step: PrAs,SrAs,PrSb(or PrP) were prepared. 2nd step: mixture - pellet - ANN(1150C,40h) - FC to RT" Enhancement of superconductivity by Sb-doping in the hole-doped iron-pnictide superconductor Pr1-xSrxFeAsO 2014 "State Key Laboratory of Functional Materials for Informatics, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, Shanghai 200050, China" "Physica C, 498(2014)50"
154294 PHC4980050 RRR = 8.41 "(Pr,Sr)Fe(As,Sb)O" Pr0.6Sr0.4Fe1As0.9Sb0.1O1 Pr 0.6 Sr 0.4 Fe 1 As 0.9 Sb 0.1 O 1 1 2014 ABCD oxypnictide A 3.998 8.662 K 22 22 "Two step solid state reaction. 1st step: PrAs,SrAs,PrSb(or PrP) were prepared. 2nd step: mixture - pellet - ANN(1150C,40h) - FC to RT" Enhancement of superconductivity by Sb-doping in the hole-doped iron-pnictide superconductor Pr1-xSrxFeAsO 2014 "State Key Laboratory of Functional Materials for Informatics, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, Shanghai 200050, China" "Physica C, 498(2014)50"
154295 PHC4980050 RRR = 9.45. Hall coeffic. RH(25K) = 0.604 E-8 m3/C. "(Pr,Sr)FeAsO" Pr0.65Sr0.35Fe1As1O1 Pr 0.65 Sr 0.35 Fe 1 As 1 O 1 1 2014 ABCD oxypnictide A 3.994 8.655 K 16.5 16.5 "Two step solid state reaction. 1st step: PrAs,SrAs,PrSb(or PrP) were prepared. 2nd step: mixture - pellet - ANN(1150C,40h) - FC to RT" Enhancement of superconductivity by Sb-doping in the hole-doped iron-pnictide superconductor Pr1-xSrxFeAsO 2014 "State Key Laboratory of Functional Materials for Informatics, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, Shanghai 200050, China" "Physica C, 498(2014)50"
154296 PRB087180507 RRR=380. Tc(SP)=3.5K. (dC/Tc) = 46 mJ/mol.K2. Low-T SP represented by C=A*T+B*T^2+C*T^3. B=33.7 mJ/mol.K3 from cluster-glass phase. KFe2As2 K1Fe2As2 K 1 Fe 2 As 2 3 2013 AB2C2 Fe-122 K 3.6 3.6 MSP154296 mJ/mol.K2 44.8 262 uOhm.cm 1.44 crystals grown using KAs as a flux. "Evidence of d-wave superconductivity in K1-xNaxFe2As2 (x = 0,0.1) single crystals from low-temperature specific-heat measurements" 2013 "Leibniz Institute for Solid State and Materials Research, IFW-Dresden, D-01171 Dresden, Germany" "Phys.Rev.B, 87(2013)180507"
154297 PRB087180507 RRR=120. Tc(SP)=2.75K. (dC/Tc) = 40 mJ/mol.K2. Low-T SP represented by C=A*T+B*T^2+C*T^3. B=35.4 mJ/mol.K3 from cluster-glass phase. "(K,Na)Fe2As2" K0.9Na0.1Fe2As2 K 0.9 Na 0.1 Fe 2 As 2 3 2013 AB2C2 Fe-122 K 2.9 2.9 MSP154297 mJ/mol.K2 55.2 264 uOhm.cm 3.82 crystals grown using KAs as a flux. "Evidence of d-wave superconductivity in K1-xNaxFe2As2 (x = 0,0.1) single crystals from low-temperature specific-heat measurements" 2013 "Leibniz Institute for Solid State and Materials Research, IFW-Dresden, D-01171 Dresden, Germany" "Phys.Rev.B, 87(2013)180507"
154298 PRB087224504 (dC/gamma*Tc) = 2.0. R(T) = R0 + A*T^n: n = 1.61 Ir0.95Te2 Ir0.95Te2 Ir 0.95 Te 2 1 2013 AB2 pyrite A 6.4361 K 4.68 4.68 260 "mixture - pelletized - h-BN capsule - heat(1573 K,2h, P=5 GPa)" Structure and superconductivity in pyrite Ir0.95-xRhxTe2: A comparison with analogous selenides 2013 "Frontier research center, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 87(2013)224504"
154299 PRB087224504 (dC/gamma*Tc) = 1.92. R(T) = R0 + A*T^n: n = 1.65 Ir0.95-xRhxTe2 Ir0.85Rh0.1Te2 Ir 0.85 Rh 0.1 Te 2 1 2013 AB2 pyrite A 6.44 K 4.49 4.49 257 "mixture - pelletized - h-BN capsule - heat(1573 K,2h, P=5 GPa)" Structure and superconductivity in pyrite Ir0.95-xRhxTe2: A comparison with analogous selenides 2013 "Frontier research center, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 87(2013)224504"
154300 PRB087224504 (dC/gamma*Tc) = 1.77. R(T) = R0 + A*T^n: n = 1.93 Ir0.95-xRhxTe2 Ir0.75Rh0.2Te2 Ir 0.75 Rh 0.2 Te 2 1 2013 AB2 pyrite A 6.4433 K 4.33 4.33 MTC154300 mJ/mol.K2 7.66 288 "mixture - pelletized - h-BN capsule - heat(1573 K,2h, P=5 GPa)" Structure and superconductivity in pyrite Ir0.95-xRhxTe2: A comparison with analogous selenides 2013 "Frontier research center, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 87(2013)224504"
154301 PRB087224504 (dC/gamma*Tc) = 1.60. R(T) = R0 + A*T^n: n = 1.92 Ir0.95-xRhxTe2 Ir0.68Rh0.27Te2 Ir 0.68 Rh 0.27 Te 2 1 2013 AB2 pyrite A 6.4447 K 4.02 4.02 mJ/mol.K2 7.79 309 "mixture - pelletized - h-BN capsule - heat(1573 K,2h, P=5 GPa)" Structure and superconductivity in pyrite Ir0.95-xRhxTe2: A comparison with analogous selenides 2013 "Frontier research center, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 87(2013)224504"
154302 PRB087224504 (dC/gamma*Tc) = 1.52. R(T) = R0 + A*T^n: n = 2.02 Ir0.95-xRhxTe2 Ir0.58Rh0.37Te2 Ir 0.58 Rh 0.37 Te 2 1 2013 AB2 pyrite A 6.4464 K 3.76 3.76 339 "mixture - pelletized - h-BN capsule - heat(1573 K,2h, P=5 GPa)" Structure and superconductivity in pyrite Ir0.95-xRhxTe2: A comparison with analogous selenides 2013 "Frontier research center, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 87(2013)224504"
154303 PRB087224504 (dC/gamma*Tc) = 1.49. R(T) = R0 + A*T^n: n = 2.15 Ir0.95-xRhxTe2 Ir0.53Rh0.42Te2 Ir 0.53 Rh 0.42 Te 2 1 2013 AB2 pyrite A 6.4463 K 3.2 3.2 mJ/mol.K2 8.77 "mixture - pelletized - h-BN capsule - heat(1573 K,2h, P=5 GPa)" Structure and superconductivity in pyrite Ir0.95-xRhxTe2: A comparison with analogous selenides 2013 "Frontier research center, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 87(2013)224504"
154304 PRB087224504 (dC/gamma*Tc) = 1.30. R(T) = R0 + A*T^n: n = 2.09 Ir0.95-xRhxTe2 Ir0.43Rh0.52Te2 Ir 0.43 Rh 0.52 Te 2 1 2013 AB2 pyrite A 6.4462 K 2.82 2.82 "mixture - pelletized - h-BN capsule - heat(1573 K,2h, P=5 GPa)" Structure and superconductivity in pyrite Ir0.95-xRhxTe2: A comparison with analogous selenides 2013 "Frontier research center, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 87(2013)224504"
154305 PRB087235111 optimal F-cintent sample. Tc(P) measured upto 8GPa. Tc defined as SUS(on) "La(O,F)FeAs" La1Fe1As1F0.1O0.9 La 1 Fe 1 As 1 F 0.1 O 0.9 1 2013 ABCD oxypnictide Fe-1111 K 27 27 TC154305 "RAs,Fe,Fe2O3,FeF2" "solid state reaction. mixture - heat(1100C,20h) - wrapped (Ta-foil) - silica tube - heat(250-1000C)" "Superconductivity under pressure in RFeAsO1-xFx (R = La, Ce-Sm) by dc magnetization measurements" 2013 "Department of Material Science, Shimane University, Matsue 690-8504, Japan" "Phys.Rev.B, 87(2013)235111"
154306 PRB087235111 optimal F-cintent sample. Tc(P) measured upto 8GPa. Tc defined as SUS(on) "Ce(O,F)FeAs" Ce1Fe1As1F0.1O0.9 Ce 1 Fe 1 As 1 F 0.1 O 0.9 1 2013 ABCD oxypnictide Fe-1111 K 38 38 TC154306 "RAs,Fe,Fe2O3,FeF2" "solid state reaction. mixture - heat(1100C,20h) - wrapped (Ta-foil) - silica tube - heat(250-1000C)" "Superconductivity under pressure in RFeAsO1-xFx (R = La, Ce-Sm) by dc magnetization measurements" 2013 "Department of Material Science, Shimane University, Matsue 690-8504, Japan" "Phys.Rev.B, 87(2013)235111"
154307 PRB087235111 optimal F-cintent sample. Tc(P) measured upto 8GPa. Tc defined as SUS(on) "Pr(O,F)FeAs" Pr1Fe1As1F0.1O0.9 Pr 1 Fe 1 As 1 F 0.1 O 0.9 1 2013 ABCD oxypnictide Fe-1111 K 43 43 TC154307 "RAs,Fe,Fe2O3,FeF2" "solid state reaction. mixture - heat(1100C,20h) - wrapped (Ta-foil) - silica tube - heat(250-1000C)" "Superconductivity under pressure in RFeAsO1-xFx (R = La, Ce-Sm) by dc magnetization measurements" 2013 "Department of Material Science, Shimane University, Matsue 690-8504, Japan" "Phys.Rev.B, 87(2013)235111"
154308 PRB087235111 optimal F-cintent sample. Tc(P) measured upto 8GPa. Tc defined as SUS(on) "Nd(O,F)FeAs" Nd1Fe1As1F0.1O0.9 Nd 1 Fe 1 As 1 F 0.1 O 0.9 1 2013 ABCD oxypnictide Fe-1111 K 48 48 TC154308 "RAs,Fe,Fe2O3,FeF2" "solid state reaction. mixture - heat(1100C,20h) - wrapped (Ta-foil) - silica tube - heat(250-1000C)" "Superconductivity under pressure in RFeAsO1-xFx (R = La, Ce-Sm) by dc magnetization measurements" 2013 "Department of Material Science, Shimane University, Matsue 690-8504, Japan" "Phys.Rev.B, 87(2013)235111"
154309 PRB087235111 optimal F-cintent sample. Tc(P) measured upto 8GPa. Tc defined as SUS(on) "Sm(O,F)FeAs" Sm1Fe1As1F0.1O0.9 Sm 1 Fe 1 As 1 F 0.1 O 0.9 1 2013 ABCD oxypnictide Fe-1111 K 53 53 TC154309 "RAs,Fe,Fe2O3,FeF2" "solid state reaction. mixture - heat(1100C,20h) - wrapped (Ta-foil) - silica tube - heat(250-1000C)" "Superconductivity under pressure in RFeAsO1-xFx (R = La, Ce-Sm) by dc magnetization measurements" 2013 "Department of Material Science, Shimane University, Matsue 690-8504, Japan" "Phys.Rev.B, 87(2013)235111"
154310 PRB088024423 "impurity phase: La2Pd3Si3. (dC/T) = 27 mJ/mol.K2. (dC/gamma*Tc) = 1.03. Debye-T = 155K calculated from R(T). Hc2(0) represented by two band model (a1=1.95, a2=1.1)" La3Pd4Si4 La3Pd4Si4 La 3 Pd 4 Si 4 1 2013 A3B4C4 U3Ni4Si4 Immm A 4.2358 4.29 24.54 K 1.98 1.98 T "RES,Two band model" 0.6 MHC154310 MSP154310 mJ/mol.K2 26 SP 280 SP "R(3N),Si(5N),Pd(4N)" "arc-melting - ANN(800C,30days, in quartz tube) - Q to cold water" Superconductivity and non-Fermi-liquid behavior of La3Pd4Si4 and Ce3Pd4Si4 2013 "Institute of Solid State Physics, Vienna University of Technology, A-1040 Wien, Austria" "Phys.Rev.B, 88(2013)024423"
154311 PRB088024423 not SC. Kondo lattice system. R(T) has max around 8.5 K. Ce3Pd4Si4 Ce3Pd4Si4 Ce 3 Pd 4 Si 4 1 2013 A3B4C4 U3Ni4Si4 Immm K 0.34 "R(3N),Si(5N),Pd(4N)" "arc-melting - ANN(800C,30days, in quartz tube) - Q to cold water" Superconductivity and non-Fermi-liquid behavior of La3Pd4Si4 and Ce3Pd4Si4 2013 "Institute of Solid State Physics, Vienna University of Technology, A-1040 Wien, Austria" "Phys.Rev.B, 88(2013)024423"
154312 PRB088024508 "SC for very narrow region of x (Pd-content): for 0.68= 50K. Nb2Pd0.67Se5 Nb2Pd0.67Se5 Nb 2 Pd 0.67 Se 5 3 2013 C2/m A 12.8325 3.39327 15.3859 "beta=101.471, alpha and gammma = 90.0" K 1.2 1.2 "Nb(4N),Pd(4N),Se(5N)" "mixture(Nb:Pd:Se = 4:1:10) - sealed in quartz tube - heat to 850C(100C/h) - keep(850C,48h) -Q to RT" Anomalous metallic state and anisotropic multiband superconductivity in Nb3Pd0.7Se7 2013 "National High Magnetic Field Laboratory, Florida State University, Tallahassee, Florida 32310, USA" "Phys.Rev.B, 88(2013)024508"
154314 PRB088064503 Tc(max) = 10.1 K (P=1.1 GPa). (dTc/dP) = -0.30 K/GPa for P>1.1 GPa. "La(O,F)BiS2" La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 1 2013 A 4.0613 13.3157 K 3.34 3.34 TC154314 "La2O3(3N),LaF3(3N),La2S3(3N),Bi2S3(3N)" "solid state reaction. mixture - pellet - sealed in evacuated quartz tube - ANN(800C,10h) - reground - pellet - ANN(800C,10h)" "Pressure-induced enhancement of superconductivity and suppression of semiconducting behavior in LnO0.5F0.5BiS2 (Ln = La,Ce) compounds" 2013 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 88(2013)064503"
154315 PRB088064503 Tc(max) = 6.7 K (P = 2 GPa). (dTc/dP) = -0.30 K/GPa for P > 2 GPa. "Ce(O,F)BiS2" Ce1Bi1S2F0.5O0.5 Ce 1 Bi 1 S 2 F 0.5 O 0.5 1 2013 A 4.0398 13.4513 K 2.27 2.27 TC154315 "CeF3(3N),CeO2(3N),Bi2S3(3N)" "solid state reaction. mixture - pellet - sealed in evacuated quartz tube - ANN(800C,10h) - reground - pellet - ANN(800C,10h)" "Pressure-induced enhancement of superconductivity and suppression of semiconducting behavior in LnO0.5F0.5BiS2 (Ln = La,Ce) compounds" 2013 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 88(2013)064503"
154316 PRB088064510 e-ph coupling = 0.49 BaTi2Sb2O Ba1Ti2Sb2O1 Ba 1 Ti 2 Sb 2 O 1 1 2013 ABC2D2 oxypnictide P4/mmm Ti-oxypnictide K 1.2 0.2 1.2 T "SP, WHH" 0.08 HC154316 A from Hc2 640 meV 0.15 2.91 14 mJ/mol.K2 10.9 SP 230 SP "BaO(4N),Ti(4N),Sb(5N)" "mixture - pellet - in welded Nb container in quartz - heat to 900C(2C/min) - keep(900c3d) - slow cool to 200C(1C/min) - reground - pellet - ANN(900C,3d)" Weak coupling BCS-like superconductivity in the pnictide oxide Ba1-xNaxTi2Sb2O (x = 0 and 0.15) 2013 "TCSUH and Department of Physics, University of Houston, Houston, Texas 77204, USA" "Phys.Rev.B, 88(2013)064510"
154317 PRB088064510 Tc = 4.2 K from SP. e-ph coupling = 0.68 "(Ba,Na)Ri2Sb2O" Ba0.85Na0.15Ti2Sb2O1 Ba 0.85 Na 0.15 Ti 2 Sb 2 O 1 1 2013 ABC2D2 oxypnictide P4/mmm Ti-oxypnictide K 5 5 T "SP, WHH" 1.7 HC154317 A from Hc2 140 meV 0.65 3.6 14 mJ/mol.K2 13 SP 210 SP "BaO(4N),BaO2,Na2O,Na2O2,Ti(4N),Sb(5N)" "mixture - pellet - in welded Nb container in quartz - heat to 900C(2C/min) - keep(900c3d) - slow cool to 200C(1C/min) - reground - pellet - ANN(900C,3d)" Weak coupling BCS-like superconductivity in the pnictide oxide Ba1-xNaxTi2Sb2O (x = 0 and 0.15) 2013 "TCSUH and Department of Physics, University of Houston, Houston, Texas 77204, USA" "Phys.Rev.B, 88(2013)064510"
154318 ZAAC5840150 Na2Ti2Sb2O Na2Ti2Sb2O1 Na 2 Ti 2 Sb 2 O 1 1 1990 oxypnictide I4/mmm 139 A 4.144 16.561 K 4 solid stte reaction Darstellung und Kristallstructur der Pnictidoxide Na2Ti2As2O und Na2Ti2Sb2O 1990 "Z.Anorg.Allg.Chem., 584(1990)150"
154319 PRB088094521 "M = NH3. M-content (y) not given. impurity phases are beta-FeSe(37%), alpha-FeSe(26%). Cs-content = Cs0.255 in this formula by XRD. R not to zero at5K." (NH3)yCs0.4FeSe M1Cs0.4Fe1Se1 M 1 Cs 0.4 Fe 1 Se 1 1 2013 I4/mmm A 3.8331 16.217 K 31.2 36 31.2 MTC154320 K/GPa -4.33 31.2 annealing method using liquid NH3 technique. Superconductivity in (NH3)yCs0.4FeSe 2013 "Research Laboratory for Surface Science, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 88(2013)094521"
154320 PRB088094521 beta-FeSe(80%) + alpha-FeSe(20%). beta-FeSe Fe1Se1 Fe 1 Se 1 1 2013 P4/mmm A 3.771 5.5234 K 8.2 9 8.2 92 Superconductivity in (NH3)yCs0.4FeSe 2013 "Research Laboratory for Surface Science, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 88(2013)094521"
154321 PRB088094521 M = NH3. M-content (y) not given. M(=NH3) intercalated sample. (NH3)yK0.4FeSe M1K0.4Fe1Se1 M 1 K 0.4 Fe 1 Se 1 1 2013 K 27.2 30 27.2 annealing method using liquid NH3 technique. Superconductivity in (NH3)yCs0.4FeSe 2013 "Research Laboratory for Surface Science, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 88(2013)094521"
154322 PRB088094521 M = NH3. M-content (y) not given. M(=NH3) intercalated sample. (NH3)yRb0.4FeSe M1Rb0.4Fe1Se1 M 1 Rb 0.4 Fe 1 Se 1 1 2013 K 29.9 31 29.9 annealing method using liquid NH3 technique. Superconductivity in (NH3)yCs0.4FeSe 2013 "Research Laboratory for Surface Science, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 88(2013)094521"
154323 SCIR0031446 needle like crystals(b-axis long). (dC/gamma) = 0.37. Anisotropy (Hc2//b)/(Hc2//ab) = 3 (Tc) and 1.5 (T<1 K). Nb2Pd0.81S5 Nb2Pd0.81S5 Nb 2 Pd 0.81 S 5 3 2013 4 C2/m 12 monoclinic K 6.6 6.6 T RES. extrapolation 37 MHC154323 mJ/mol.K2 15 Superconductivity with extremely large upper critical fields in Nb2Pd0.81S5 2013 "National High Magnetic Field Laboratory, Florida State University, Tallahassee, Florida, USA" "Scientific Reports, 3(2013)1446"
154324 PRB088104507 Nb2Pd2S5 Nb2Pd1S5 Nb 2 Pd 1 S 5 1 2013 AB2C5 4 C2/m A 12.2077 3.3797 15.0656 monoclinic K 6.25 6.25 T "RES(R=0.9Rn), WHH" 20.8 MHC154324 "Nb(4N),Pd(3N),S(4N),Se(4N)" "solid state reaction. mixture(Nb:Pd:(S,Se) = 2:1:7.2) - pellet - sealed in quartz tube - heat(825C,48h) - Q to RT" Effect of selenium doping on the superconductivity of Nb2Pd(S1-xSex)5 2013 "Department of Physics and Hangzhou Key Laboratory of Quantum Matters, Hangzhou Normal University, Hangzhou 310036, China" "Phys.Rev.B, 88(2013)104507"
154325 PRB088104507 "R(T) has minimum at 17.3 K. SP-heat coeffic.: (beta) = 2.97 mJ/mol.K4, (delta) = -0.00738 mJ/mol.K6. (dC/gamma:Tc) = 1.2." "Nb2Pd2(S,Se)5" Nb2Pd1S4.5Se0.5 Nb 2 Pd 1 S 4.5 Se 0.5 1 2013 AB2C5 4 C2/m A 12.3 3.3753 15.092 monoclinic K 4.27 4.27 T "RES(R=0.9Rn), WHH" 14.6 MHC154324 mJ/mol.K2 19.2 "Nb(4N),Pd(3N),S(4N),Se(4N)" "solid state reaction. mixture(Nb:Pd:(S,Se) = 2:1:7.2) - pellet - sealed in quartz tube - heat(825C,48h) - Q to RT" Effect of selenium doping on the superconductivity of Nb2Pd(S1-xSex)5 2013 "Department of Physics and Hangzhou Key Laboratory of Quantum Matters, Hangzhou Normal University, Hangzhou 310036, China" "Phys.Rev.B, 88(2013)104507"
154326 PRB088104507 R(T) has minimum at 24.7 K "Nb2Pd2(S,Se)5" Nb2Pd1S4.25Se0.75 Nb 2 Pd 1 S 4.25 Se 0.75 1 2013 AB2C5 4 C2/m A 12.3132 3.3792 15.1088 monoclinic K 3.18 3.18 T "RES(R=0.9Rn), WHH" 10.4 MHC154326 "Nb(4N),Pd(3N),S(4N),Se(4N)" "solid state reaction. mixture(Nb:Pd:(S,Se) = 2:1:7.2) - pellet - sealed in quartz tube - heat(825C,48h) - Q to RT" Effect of selenium doping on the superconductivity of Nb2Pd(S1-xSex)5 2013 "Department of Physics and Hangzhou Key Laboratory of Quantum Matters, Hangzhou Normal University, Hangzhou 310036, China" "Phys.Rev.B, 88(2013)104507"
154327 PRB088104507 R(T) has minimum at 27.7 K "Nb2Pd2(S,Se)5" Nb2Pd1S4Se1 Nb 2 Pd 1 S 4 Se 1 1 2013 AB2C5 4 C2/m A 12.3527 3.3896 15.1568 monoclinic K 2.76 2.76 T "RES(R=0.9Rn), WHH" 9.36 MHC154326 "Nb(4N),Pd(3N),S(4N),Se(4N)" "solid state reaction. mixture(Nb:Pd:(S,Se) = 2:1:7.2) - pellet - sealed in quartz tube - heat(825C,48h) - Q to RT" Effect of selenium doping on the superconductivity of Nb2Pd(S1-xSex)5 2013 "Department of Physics and Hangzhou Key Laboratory of Quantum Matters, Hangzhou Normal University, Hangzhou 310036, China" "Phys.Rev.B, 88(2013)104507"
154328 PRB088104507 R(T) has minimum at 44.9 K. "Nb2Pd2(S,Se)5" Nb2Pd1S3.75Se1.25 Nb 2 Pd 1 S 3.75 Se 1.25 1 2013 AB2C5 4 C2/m A 12.4758 3.3929 15.1712 monoclinic K 2.23 2.23 "Nb(4N),Pd(3N),S(4N),Se(4N)" "solid state reaction. mixture(Nb:Pd:(S,Se) = 2:1:7.2) - pellet - sealed in quartz tube - heat(825C,48h) - Q to RT" Effect of selenium doping on the superconductivity of Nb2Pd(S1-xSex)5 2013 "Department of Physics and Hangzhou Key Laboratory of Quantum Matters, Hangzhou Normal University, Hangzhou 310036, China" "Phys.Rev.B, 88(2013)104507"
154329 PRB088104507 R(T) has minimum at 59.4 K. "Nb2Pd2(S,Se)5" Nb2Pd1S3.5Se1.5 Nb 2 Pd 1 S 3.5 Se 1.5 1 2013 AB2C5 4 C2/m A 12.4978 3.3885 15.2036 monoclinic K 1.87 1.87 T "RES(R=0.9Rn), WHH" 6.49 MHC154329 "Nb(4N),Pd(3N),S(4N),Se(4N)" "solid state reaction. mixture(Nb:Pd:(S,Se) = 2:1:7.2) - pellet - sealed in quartz tube - heat(825C,48h) - Q to RT" Effect of selenium doping on the superconductivity of Nb2Pd(S1-xSex)5 2013 "Department of Physics and Hangzhou Key Laboratory of Quantum Matters, Hangzhou Normal University, Hangzhou 310036, China" "Phys.Rev.B, 88(2013)104507"
154330 PRB088104507 R(T) has minimum at 98.7 K. "Nb2Pd2(S,Se)5" Nb2Pd1S3Se2 Nb 2 Pd 1 S 3 Se 2 1 2013 AB2C5 4 C2/m A 12.5593 3.3808 15.2096 monoclinic K 1.17 1.17 T "RES(R=0.9Rn), WHH" 4.04 MHC154329 "Nb(4N),Pd(3N),S(4N),Se(4N)" "solid state reaction. mixture(Nb:Pd:(S,Se) = 2:1:7.2) - pellet - sealed in quartz tube - heat(825C,48h) - Q to RT" Effect of selenium doping on the superconductivity of Nb2Pd(S1-xSex)5 2013 "Department of Physics and Hangzhou Key Laboratory of Quantum Matters, Hangzhou Normal University, Hangzhou 310036, China" "Phys.Rev.B, 88(2013)104507"
154331 PRB088104507 R(T) has minimum at 150.2 K. "Nb2Pd2(S,Se)5" Nb2Pd1S2Se3 Nb 2 Pd 1 S 2 Se 3 1 2013 AB2C5 4 C2/m A 12.6033 3.3863 15.2732 monoclinic K 0.8 "Nb(4N),Pd(3N),S(4N),Se(4N)" "solid state reaction. mixture(Nb:Pd:(S,Se) = 2:1:7.2) - pellet - sealed in quartz tube - heat(825C,48h) - Q to RT" Effect of selenium doping on the superconductivity of Nb2Pd(S1-xSex)5 2013 "Department of Physics and Hangzhou Key Laboratory of Quantum Matters, Hangzhou Normal University, Hangzhou 310036, China" "Phys.Rev.B, 88(2013)104507"
154332 PRB088104507 R(T) has minimum at 179.5 K. "Nb2Pd2(S,Se)5" Nb2Pd1S1Se4 Nb 2 Pd 1 S 1 Se 4 1 2013 AB2C5 4 C2/m A 12.722 3.3907 15.3308 monoclinic K 0.8 "Nb(4N),Pd(3N),S(4N),Se(4N)" "solid state reaction. mixture(Nb:Pd:(S,Se) = 2:1:7.2) - pellet - sealed in quartz tube - heat(825C,48h) - Q to RT" Effect of selenium doping on the superconductivity of Nb2Pd(S1-xSex)5 2013 "Department of Physics and Hangzhou Key Laboratory of Quantum Matters, Hangzhou Normal University, Hangzhou 310036, China" "Phys.Rev.B, 88(2013)104507"
154333 PRB088134520 minor phase(less than 5%) Y5Bi3-type Zr5Sb. Zr5Sb Sb3Zr5 Sb 3 Zr 5 1 2013 A3B5 7 Mo5Si3 P6<3>mcm A 8.4053 5.764 K 2.3 0.2 2.3 Oe M-H curve 5 1.9 T "SP, WHH" 2.8 MSP154333 mJ/mol.K2 24.1 SP 240 SP mOhm.cm 0.36 "arc-melting (Zr:Sb = 5:3+d, d=0.3)" Superconductivity in the Mn5Si3-type Zr5Sb3 system 2013 "Department of Physics and Texas Center for Superconductivity, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 88(2013)134520"
154334 PRB088134520 not SC. Zr5Sn Sn3Zr5 Sn 3 Zr 5 1 2013 A3B5 7 Mo5Si3 P6<3>mcm A 8.4603 5.7771 K 1.9 mJ/mol.K2 14 SP 280 SP "arc-melting (Zr:Sb = 5:3+d, d=0.3)" Superconductivity in the Mn5Si3-type Zr5Sb3 system 2013 "Department of Physics and Texas Center for Superconductivity, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 88(2013)134520"
154335 PRB088134520 5 % Hf- or Y-doped Zr5Sb3. Zr5Sb Sb3Zr5 Sb 3 Zr 5 1 2013 A3B5 7 Mo5Si3 P6<3>mcm A K 2.2 2.2 "arc-melting (Zr:Sb = 5:3+d, d=0.3)" Superconductivity in the Mn5Si3-type Zr5Sb3 system 2013 "Department of Physics and Texas Center for Superconductivity, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 88(2013)134520"
154336 PRB088140501 Energy gap by muon-SR. Tc(x) in Ba1-xNaxTi2Sb2O [MTCFIG} festimated from M(T) -graoh. "(Ba,Na)Ti2Sb2O" Ba0.75Na0.25Ti2Sb2O1 Ba 0.75 Na 0.25 Ti 2 Sb 2 O 1 1 2013 ABC2D2 oxypnictide P4/mmm Ti-oxypnictide K 4.5 5.1 4.5 T 1.5 1.5 nm muon-SR 307 meV 0.56 2.9 16 "BaO2,Na2O2,Ti,Sb" "mixture - pellet - sealed in Nb ampule - SIN(1000C, 24h) -redround - pellet - SIN(1000C,36h)" Conventional superconductivity and charge-density-wave ordering in Ba1-xNaxTi2Sb2O 2013 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 88(2013)140501"
154337 PRB088140502 "BCS-alpha-model, alpha(= gap/Tc) = 1.77. rhombohedral for hole density < 4.8 E+20 /cm3" "(Sn,In)Te" Sn0.975In0.025Te1 Sn 0.975 In 0.025 Te 1 3 2013 rhombohedral K 1.42 0.022 1.42 mJ/mol.K2 0.87 mOhm.cm 0.46 n/cm3 3.20E+20 "Sn(4N),In(4N),Te(5N)" "vapor transport method. source materials - keep (( center(630C), T-gradient = 1.5K/cm), 1 week)" Unusual nature of fully gapped superconductivity in In-doped SnTe 2013 "Institute of Scientific and Industrial Research, Osaka University, Ibaraki, Osaka 567-0047, Japan" "Phys.Rev.B, 88(2013)140502"
154338 PRB088140502 "BCS-alpha-model, alpha(= gap/Tc) = 1.83" "(Sn,In)Te" Sn0.96In0.04Te1 Sn 0.96 In 0.04 Te 1 3 2013 1 cubic K 1.22 1.22 MTC154338 n/cm3 5.00E+20 "Sn(4N),In(4N),Te(5N)" "vapor transport method. source materials - keep (( center(630C), T-gradient = 1.5K/cm), 1 week)" Unusual nature of fully gapped superconductivity in In-doped SnTe 2013 "Institute of Scientific and Industrial Research, Osaka University, Ibaraki, Osaka 567-0047, Japan" "Phys.Rev.B, 88(2013)140502"
154339 PRB088140502 "BCS-alpha-model, alpha(= gap/Tc) = 1.88" "(Sn,In)Te" Sn0.95In0.05Te1 Sn 0.95 In 0.05 Te 1 3 2013 1 cubic K 1.41 1.41 n/cm3 7.00E+20 "Sn(4N),In(4N),Te(5N)" "vapor transport method. source materials - keep (( center(630C), T-gradient = 1.5K/cm), 1 week)" Unusual nature of fully gapped superconductivity in In-doped SnTe 2013 "Institute of Scientific and Industrial Research, Osaka University, Ibaraki, Osaka 567-0047, Japan" "Phys.Rev.B, 88(2013)140502"
154340 PRB088140507 Compositions by EPMA. Structure analyzed by Ba3Rh4Ge16. (dC/gamma*Tc) = 1.85 Ba3Ir4Ge16 Ba3Ir4Ge16 Ba 3 Ir 4 Ge 16 1 2013 A3B4C16 2 I4/mmm A 6.5387 22.2834 K 6.1 6.1 T "RES(R=0.9Rn), linear approx." 1.82 T/K RES(R=0.9Rn) 0.315 MHC154340 A from Hc2 134.5 MSP154340 mJ/mol.K2 21 SP 240 SP "arc-melting. ANN(1073K,10h) - ANN(1273K,10h)" "Superconductivity in Ban+2Ir4nGe12n+4 (n = 1,2) with cage structure and softening of low-lying localized mode" 2013 "Frontier Research Center, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 88(2013)140507"
154341 PRB088140507 Compositions by EPMA. (dC/gamma*Tc) = 1.31 Ba4Ir8Ge28 Ba4Ir8Ge28 Ba 4 Ir 8 Ge 28 3 2013 A4B8C28 3 Pmna A 37.737 6.4246 6.4567 K 3.2 3.2 T "RES(R=0.9Rn), linear approx." 1.63 T/K RES(R=0.9Rn) 0.492 MHC154340 A from Hc2 142.1 MSP154341 mJ/mol.K2 36 SP 254 SP IrGe-flux method: mixture - heat to 1373K - cool to 1173K(4K/h) - FC to RT "Superconductivity in Ban+2Ir4nGe12n+4 (n = 1,2) with cage structure and softening of low-lying localized mode" 2013 "Frontier Research Center, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 88(2013)140507"
154342 PRB088144510 (dC/gamma*Tc) = 1.86. gap(0) = 1.93Tc Nb0.18Re0.82 Nb 0.18 Re 0.82 1 2013 "cubic, Ti5Re24 structure type" K 8.9 8.6 8.9 T "RES(R=0.5Rn), linear approx." 23 nm TDO method 414 mJ/mol.K2 4.8 SP "Nb(4N),Re(4N)" "arc-melting. ANN(800C,7d. in evacuated quartz tube)" BCS-like superconductivity in the noncentrosymmetric compounds NbxRe1-x (0.13 =< x =< 0.38) 2013 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou, Zhejiang 310027, China" "Phys.Rev.B, 88(2013)144510"
154343 PRB088144510 Nb0.25Re0.75 Nb 0.25 Re 0.75 1 2013 "cubic, Ti5Re24 structure type" K 6.75 6.52 6.75 T "RES(R=0.5Rn), linear approx." 14.5 mJ/mol.K2 4.24 SP "Nb(4N),Re(4N)" "arc-melting. ANN(800C,7d. in evacuated quartz tube)" BCS-like superconductivity in the noncentrosymmetric compounds NbxRe1-x (0.13 =< x =< 0.38) 2013 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou, Zhejiang 310027, China" "Phys.Rev.B, 88(2013)144510"
154344 PRB088144510 Nb0.29Re0.71 Nb 0.29 Re 0.71 1 2013 "cubic, Ti5Re24 structure type" K 5.62 5.03 5.62 T "RES(R=0.5Rn), linear approx." 11.8 mJ/mol.K2 3.46 SP "Nb(4N),Re(4N)" "arc-melting. ANN(800C,7d. in evacuated quartz tube)" BCS-like superconductivity in the noncentrosymmetric compounds NbxRe1-x (0.13 =< x =< 0.38) 2013 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou, Zhejiang 310027, China" "Phys.Rev.B, 88(2013)144510"
154345 PRB088144510 (dC/gamma*Tc) = 0.5 Nb0.31Re0.69 Nb 0.31 Re 0.69 1 2013 "cubic, Ti5Re24 structure type" K 4.92 4.3 4.92 T "RES(R=0.5Rn), linear approx." 9 mJ/mol.K2 2.99 SP "Nb(4N),Re(4N)" "arc-melting. ANN(800C,7d. in evacuated quartz tube)" BCS-like superconductivity in the noncentrosymmetric compounds NbxRe1-x (0.13 =< x =< 0.38) 2013 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou, Zhejiang 310027, China" "Phys.Rev.B, 88(2013)144510"
154346 PRB088144511 Pd-content by X-ray analysis. RRR=2.45(in-plane). nearly T-independent Hall const. LaPdxBi2 La1Pd0.85Bi2 La 1 Pd 0.85 Bi 2 3 2013 10.068 2 ZrCuSi2 P4/nmm A 4.634 9.9436 K 2 4 2.1 2.1 T "RES(R=0.9Rn), GL" 3 MHC154346 cm3/C -0.00017 "La(Ce),Pd,Bi" "self-flux method. mixture(La/Ce:Pd:Bi = 1:1:12) - alumina crucible - evacuated silica tube - heat to 900C - keep(900C,10h) - slow cool to 500C - remove excess Bi" Superconductivity and strong intrinsic defects in LaPd1-xBi2 2013 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439, United States" "Phys.Rev.B, 88(2013)144511"
154347 PRB088144511 not SC. Tn(AFM) for H//c-axis. CePdxBi2 Ce1Pd0.78Bi2 Ce 1 Pd 0.78 Bi 2 3 2013 myu-B/Ce 2.86 -1.5 6 10.366 2 ZrCuSi2 P4/nmm A 4.6136 9.65 K 2 n/cm3 3.70E+22 "La(Ce),Pd,Bi" "self-flux method. mixture(La/Ce:Pd:Bi = 1:1:12) - alumina crucible - evacuated silica tube - heat to 900C - keep(900C,10h) - slow cool to 500C - remove excess Bi" Superconductivity and strong intrinsic defects in LaPd1-xBi2 2013 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439, United States" "Phys.Rev.B, 88(2013)144511"
154348 PRB088174512 Hc1(T) well described by two gap model(lower 0.41 and higher 3.33 meV) or anisotropic s-wave model (1.663 meV in DB). Jc(2K) = 1.34 E+4 A/cm2 for H//c. FeSe Fe1Se1 Fe 1 Se 1 3 2013 AB Fe-11 K 9.4 9.4 Oe M-H curve 25 2 MHC154348 nm Hc1 445 meV 1.663 4.11 "single crystals grown in evacuated quartz ampoule using AlCl3/KCl flux method. hot end(427C), cold end(380C, T-gradient(5C/cm." Temperature dependence of lower critical field Hc1(T) shows nodeless superconductivity in FeSe 2013 "Departement de Physique, Universite de Liege, B-4000 Sart Tilman, Belgium" "Phys.Rev.B, 88(2013)174512"
154349 PRB088184508 impurity phase: rhombohedral Bi(0.5%). RRR = 15.3. C(T) has anomaly at 2K maybe FM origin. [gamma] estimated asuming (dC/gamma*Tc) = 1.43(BCS) NiBi3 Bi3Ni1 Bi 3 Ni 1 3 2013 AB3 3 CaLiSi2 Pnma A 8.877 4.097 11.48 K 3.9 4 3.95 Oe M-H curve 120 1.8 T M-H curve 0.35 1.8 mJ/mol.K2 9 "SP, BCS" "Bi(4N),Ni(4N)" "mixture(Bi:Ni = 9:1) - sealed in quartz ampoule - heat to 1100C(4h) - keep(1100C,100h) - cool to 300C within 300h - keep(100h) - remove Bi-flux." Superconductivity and magnetism on flux-grown single crystals of NiBi3 2013 "Laboratorio de Bajas Temperaturas, Departamento de Fsica de la Materia Condensada, Instituto Nicolas Cabrera and Condensed Matter Physics Center (IFIMAC), Universidad Autonoma de Madrid, E-28049 Madrid, Spain" "Phys.Rev.B, 88(2013)184508"
154350 PRB088195134 "Ce(Co,Ru)In5" Ce1Co0.9Ru0.1In5 Ce 1 Co 0.9 Ru 0.1 In 5 3 2013 ABC5 HoCoG5 A 4.6143 7.5529 K 2.25 2.25 MTC154350 self-flux method in In solvent Hole doping effect on superconductivity in Ce(Co1-xRux)In5 2013 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 88(2013)195134"
154351 PRB088195134 Ru-content x = 0.055 in CeCo1-xRuxIn5 By EDX "Ce(Co,Ru)In5" Ce1Co0.8Ru0.2In5 Ce 1 Co 0.8 Ru 0.2 In 5 3 2013 ABC5 HoCoG5 A 4.6195 7.5596 K 2.18 2.18 self-flux method in In solvent Hole doping effect on superconductivity in Ce(Co1-xRux)In5 2013 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 88(2013)195134"
154352 PRB088195134 Ru-content x = 0.116 in CeCo1-xRuxIn5 By EDX "Ce(Co,Ru)In5" Ce1Co0.7Ru0.3In5 Ce 1 Co 0.7 Ru 0.3 In 5 3 2013 ABC5 HoCoG5 A 4.619 7.5607 K 2.13 2.13 self-flux method in In solvent Hole doping effect on superconductivity in Ce(Co1-xRux)In5 2013 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 88(2013)195134"
154353 PRB088195134 Ru-content x = 0.097 in CeCo1-xRuxIn5 By EDX "Ce(Co,Ru)In5" Ce1Co0.6Ru0.4In5 Ce 1 Co 0.6 Ru 0.4 In 5 3 2013 ABC5 HoCoG5 A 4.6205 7.5606 K 1.8 1.8 self-flux method in In solvent Hole doping effect on superconductivity in Ce(Co1-xRux)In5 2013 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 88(2013)195134"
154354 PRB088195134 Ru-content x = 0.097 in CeCo1-xRuxIn5 By EDX "Ce(Co,Ru)In5" Ce1Co0.5Ru0.5In5 Ce 1 Co 0.5 Ru 0.5 In 5 3 2013 ABC5 HoCoG5 A 4.6184 7.5606 K 1.77 1.77 self-flux method in In solvent Hole doping effect on superconductivity in Ce(Co1-xRux)In5 2013 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 88(2013)195134"
154355 PRB088224510 "P-induced SC. Pcr = 2.5 GPa. RRR = 7. RH(31K) = -2 E-9 m3/C, where RH = (dRxy/dB) at B=0" EuFe2As2 Eu1Fe2As2 Eu 1 Fe 2 As 2 3 2013 AB2C2 ThCr2Si2 Fe-122 K 31 0 31 T RES(R=0.5Rn) MHC154355 m3/C MRH154355 Bridgman method Pressure-induced superconductivity in EuFe2As2 without a quantum critical point: Magnetotransport and upper critical field measurements under high pressure 2013 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0003, Japan" "Phys.Rev.B, 88(2013)224510"
154356 PRB088224515 "[penet] measured by muon-SR. penet(T) fitting shows two gap model is better: the lower d=0.09 meV (2d/kTc = 0.44), the higher(in DB) d=0.93 meV (2d/kTc = 4.76)" Bi4O4S3 Bi4S3O4 Bi 4 S 3 O 4 1 2013 K 4.6 4.8 4.7 T RES(R=0.9Rn). charged boson model 1.53 HC154356 A from Hc2 120 nm muon-SR 861 meV 0.93 4.76 16 mOhm.cm 2 solid state reaction Low superfluid density and possible multigap superconductivity in the BiS2-based layered superconductor Bi4O4S3 2013 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 88(2013)224515"
154357 PRB089014512 "FM layers ordered AFM along c-axis. The behaviou of Eu moment upon field wre investigated. (dC) = 350 mJ/mol.K, but [gamma] not determined because of magnetic effect." "EuFe2(As,P)2" Eu1Fe2As1.7P0.3 Eu 1 Fe 2 As 1.7 P 0.3 3 2014 19 AB2C2 ThCr2Si2 Fe-122 K 25 25 FeAs-flux method Coexistence of superconductivity and ferromagnetism in P-doped EuFe2As2 2014 "Julich Centre for Neutron Science JCNS and Peter Grunberg Institut PGI, JARA-FIT, Forschungszentrum Julich GmbH, D-52425 Julich, Germany" "Phys.Rev.B, 89(2014)014512"
154358 PRB089020507 LiFeO2(anti-PbO type)-intercalated Fe2Se2. annealed sample. Tc(P) shows T-dependence of Tc(SUS-on). LiFeO2Fe2Se2 Li1Fe3Se2O2 Li 1 Fe 3 Se 2 O 2 1 2014 P4/nmm 129 A 3.7926 9.2845 LiFeO2-intercalated Fe-122 K 20 42 42.8 42.8 MTC154358 K/GPa -5.16 Oe M-H curve 300 5 "0.012?0.02 mol selenourea, 0.0075 mol Fe powder and 12 g LiOH H2O were put into a Teflon-lined steel autoclave (50 mL) and mixed together with 10 ml de ionized water and heated (160, 3?10 days)." Superconductivity in LiFeO2Fe2Se2 with anti-PbO-type spacer layers 2014 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 89(2014)020507"
154359 PRB089035145 "R = R0+A*T^n, Curie-Weis law, Debye-model, are used.. Tc(SP) = 7.92 K. (gap/Tc) = 3.46 from SP(electron)- data-fitting." PrPt4Ge12 Pr1Pt4Ge12 Pr 1 Pt 4 Ge 12 1 2014 myu-B/R 3.68 -0.7 AB4C12 skutterudite K 7.92 7.92 14 mJ/mol.K2 47.6 SP 193 SP uOhm.cm 1.88 "Ce(rod),Pr(3N),Pt(6N),Ge(6N)" "arc-melting - ANN(800C,336h, in sealed quartz tube)" Probing the superconductivity of PrPt4Ge12 through Ce substitution 2014 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 89(2014)035145"
154360 PRB089035145 "R = R0+A*T^n, Curie-Weis law, Debye-model, are used.. Tc(SP) = 5.29 K. (gap/Tc) = 2.97 from SP(electron)- data-fitting." "(Pr,Ce)Pt4Ge12" Pr0.95Ce0.05Pt4Ge12 Pr 0.95 Ce 0.05 Pt 4 Ge 12 1 2014 myu-B/R 3.58 -18.5 AB4C12 skutterudite A 8.612 K 5.75 5.58 5.75 MTC154360 14 mJ/mol.K2 45.6 SP 192 SP uOhm.cm 8.83 "Ce(rod),Pr(3N),Pt(6N),Ge(6N)" "arc-melting - ANN(800C,336h, in sealed quartz tube)" Probing the superconductivity of PrPt4Ge12 through Ce substitution 2014 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 89(2014)035145"
154361 PRB089035145 "R = R0+A*T^n, Curie-Weis law, Debye-model, are used.. Tc(SP) = 4.76 K. (gap/Tc) = 3.49 from SP(electron)- data-fitting." "(Pr,Ce)Pt4Ge12" Pr0.94Ce0.06Pt4Ge12 Pr 0.94 Ce 0.06 Pt 4 Ge 12 1 2014 -51.9 AB4C12 skutterudite A 8.6117 K MTC154360 14 mJ/mol.K2 53.7 SP 192 SP "Ce(rod),Pr(3N),Pt(6N),Ge(6N)" "arc-melting - ANN(800C,336h, in sealed quartz tube)" Probing the superconductivity of PrPt4Ge12 through Ce substitution 2014 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 89(2014)035145"
154362 PRB089035145 "R = R0+A*T^n, Curie-Weis law, Debye-model, are used.. Tc(SP) = 4.37 K. (gap/Tc) = 3.38 from SP(electron)- data-fitting." "(Pr,Ce)Pt4Ge12" Pr0.93Ce0.07Pt4Ge12 Pr 0.93 Ce 0.07 Pt 4 Ge 12 1 2014 myu-B/R 3.57 -18.5 AB4C12 skutterudite K 5.52 4.953 5.52 MTC154360 14 mJ/mol.K2 59.4 SP 195 SP uOhm.cm 7.64 "Ce(rod),Pr(3N),Pt(6N),Ge(6N)" "arc-melting - ANN(800C,336h, in sealed quartz tube)" Probing the superconductivity of PrPt4Ge12 through Ce substitution 2014 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 89(2014)035145"
154363 PRB089035145 "R = R0+A*T^n, Curie-Weis law, Debye-model, are used.. (gap/Tc) = 3.47 from SP(electron)- data-fitting." "(Pr,Ce)Pt4Ge12" Pr0.915Ce0.085Pt4Ge12 Pr 0.915 Ce 0.085 Pt 4 Ge 12 1 2014 myu-B/R 3.62 -16.1 AB4C12 skutterudite A 8.6104 K 4.61 4.1 4.61 14 mJ/mol.K2 58.9 SP 194 SP "Ce(rod),Pr(3N),Pt(6N),Ge(6N)" "arc-melting - ANN(800C,336h, in sealed quartz tube)" Probing the superconductivity of PrPt4Ge12 through Ce substitution 2014 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 89(2014)035145"
154364 PRB089035145 "R = R0+A*T^n, Curie-Weis law, Debye-model, are used.. Tc(SP) = 3.13 K. (gap/Tc) = 2.92 from SP(electron)- data-fitting." "(Pr,Ce)Pt4Ge12" Pr0.9Ce0.1Pt4Ge12 Pr 0.9 Ce 0.1 Pt 4 Ge 12 1 2014 myu-B/R 3.63 -22.1 AB4C12 skutterudite K 4.11 4.11 14 mJ/mol.K2 53.7 SP 196 SP uOhm.cm 9.67 "Ce(rod),Pr(3N),Pt(6N),Ge(6N)" "arc-melting - ANN(800C,336h, in sealed quartz tube)" Probing the superconductivity of PrPt4Ge12 through Ce substitution 2014 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 89(2014)035145"
154365 PRB089035145 "R = R0+A*T^n, Curie-Weis law, Debye-model, are used.." "(Pr,Ce)Pt4Ge12" Pr0.86Ce0.14Pt4Ge12 Pr 0.86 Ce 0.14 Pt 4 Ge 12 1 2014 myu-B/R 3.62 -19.3 AB4C12 skutterudite K 3.43 3.121 3.43 mJ/mol.K2 82.1 SP 200 SP uOhm.cm 17.6 "Ce(rod),Pr(3N),Pt(6N),Ge(6N)" "arc-melting - ANN(800C,336h, in sealed quartz tube)" Probing the superconductivity of PrPt4Ge12 through Ce substitution 2014 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 89(2014)035145"
154366 PRB089035145 "R = R0+A*T^n, Curie-Weis law, Debye-model, are used.." "(Pr,Ce)Pt4Ge12" Pr0.8Ce0.2Pt4Ge12 Pr 0.8 Ce 0.2 Pt 4 Ge 12 1 2014 myu-B/R 3.61 -36.3 AB4C12 skutterudite A 8.612 K 1.767 2 1.767 mJ/mol.K2 86.6 SP 209 SP uOhm.cm 14.4 "Ce(rod),Pr(3N),Pt(6N),Ge(6N)" "arc-melting - ANN(800C,336h, in sealed quartz tube)" Probing the superconductivity of PrPt4Ge12 through Ce substitution 2014 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 89(2014)035145"
154367 PRB089035145 "R = R0+A*T^n, Curie-Weis law, Debye-model, are used.." "(Pr,Ce)Pt4Ge12" Pr0.75Ce0.25Pt4Ge12 Pr 0.75 Ce 0.25 Pt 4 Ge 12 1 2014 myu-B/R 3.39 -8.1 AB4C12 skutterudite A 8.6124 K 1.015 1.015 mJ/mol.K2 91.5 SP 194 SP uOhm.cm 31.1 "Ce(rod),Pr(3N),Pt(6N),Ge(6N)" "arc-melting - ANN(800C,336h, in sealed quartz tube)" Probing the superconductivity of PrPt4Ge12 through Ce substitution 2014 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 89(2014)035145"
154368 PRB089035145 "R = R0+A*T^n, Curie-Weis law, Debye-model, are used.." "(Pr,Ce)Pt4Ge12" Pr0.7Ce0.3Pt4Ge12 Pr 0.7 Ce 0.3 Pt 4 Ge 12 1 2014 myu-B/R 3.5 -41.2 AB4C12 skutterudite K mJ/mol.K2 109.4 SP 197 SP uOhm.cm 22.7 "Ce(rod),Pr(3N),Pt(6N),Ge(6N)" "arc-melting - ANN(800C,336h, in sealed quartz tube)" Probing the superconductivity of PrPt4Ge12 through Ce substitution 2014 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 89(2014)035145"
154369 PRB089035145 "R = R0+A*T^n, Curie-Weis law, Debye-model, are used.." "(Pr,Ce)Pt4Ge12" Pr0.65Ce0.35Pt4Ge12 Pr 0.65 Ce 0.35 Pt 4 Ge 12 1 2014 myu-B/R 3.37 -30.8 AB4C12 skutterudite K 0.29 0.29 mJ/mol.K2 95.3 SP 2.9 SP uOhm.cm 38.4 "Ce(rod),Pr(3N),Pt(6N),Ge(6N)" "arc-melting - ANN(800C,336h, in sealed quartz tube)" Probing the superconductivity of PrPt4Ge12 through Ce substitution 2014 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 89(2014)035145"
154370 PRB089035145 "R = R0+A*T^n, Curie-Weis law, Debye-model, are used.." "(Pr,Ce)Pt4Ge12" Pr0.6Ce0.4Pt4Ge12 Pr 0.6 Ce 0.4 Pt 4 Ge 12 1 2014 myu-B/R 3.23 -25.3 AB4C12 skutterudite A 8.6127 K 0.05 mJ/mol.K2 98.3 SP 204 SP uOhm.cm 31 "Ce(rod),Pr(3N),Pt(6N),Ge(6N)" "arc-melting - ANN(800C,336h, in sealed quartz tube)" Probing the superconductivity of PrPt4Ge12 through Ce substitution 2014 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 89(2014)035145"
154371 PRB089035145 "R = R0+A*T^n, Curie-Weis law, Debye-model, are used.." "(Pr,Ce)Pt4Ge12" Pr0.55Ce0.45Pt4Ge12 Pr 0.55 Ce 0.45 Pt 4 Ge 12 1 2014 myu-B/R 3.22 -35.3 AB4C12 skutterudite A 8.6133 K 0.05 mJ/mol.K2 102.7 SP 209 SP "Ce(rod),Pr(3N),Pt(6N),Ge(6N)" "arc-melting - ANN(800C,336h, in sealed quartz tube)" Probing the superconductivity of PrPt4Ge12 through Ce substitution 2014 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 89(2014)035145"
154372 PRB089035145 "R = R0+A*T^n, Curie-Weis law, Debye-model, are used.." "(Pr,Ce)Pt4Ge12" Pr0.5Ce0.5Pt4Ge12 Pr 0.5 Ce 0.5 Pt 4 Ge 12 1 2014 myu-B/R 3.19 -39.5 AB4C12 skutterudite A 8.6136 K 0.05 mJ/mol.K2 119.1 SP 215 SP uOhm.cm 36.9 "Ce(rod),Pr(3N),Pt(6N),Ge(6N)" "arc-melting - ANN(800C,336h, in sealed quartz tube)" Probing the superconductivity of PrPt4Ge12 through Ce substitution 2014 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 89(2014)035145"
154373 PRB089035145 "R = R0+A*T^n, Curie-Weis law, Debye-model, are used.." "(Pr,Ce)Pt4Ge12" Pr0.375Ce0.625Pt4Ge12 Pr 0.375 Ce 0.625 Pt 4 Ge 12 1 2014 myu-B/R 3.05 -31.7 AB4C12 skutterudite A 8.6135 K 0.05 mJ/mol.K2 113.8 SP 213 SP "Ce(rod),Pr(3N),Pt(6N),Ge(6N)" "arc-melting - ANN(800C,336h, in sealed quartz tube)" Probing the superconductivity of PrPt4Ge12 through Ce substitution 2014 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 89(2014)035145"
154374 PRB089035145 "R = R0+A*T^n, Curie-Weis law, Debye-model, are used.." "(Pr,Ce)Pt4Ge12" Pr0.25Ce0.75Pt4Ge12 Pr 0.25 Ce 0.75 Pt 4 Ge 12 1 2014 myu-B/R 2.94 -44.1 AB4C12 skutterudite A 8.6149 K 0.05 mJ/mol.K2 113.8 SP 213 SP uOhm.cm 44.3 "Ce(rod),Pr(3N),Pt(6N),Ge(6N)" "arc-melting - ANN(800C,336h, in sealed quartz tube)" Probing the superconductivity of PrPt4Ge12 through Ce substitution 2014 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 89(2014)035145"
154375 PRB089035145 "R = R0+A*T^n, Curie-Weis law, Debye-model, are used.." "(Pr,Ce)Pt4Ge12" Pr0.125Ce0.875Pt4Ge12 Pr 0.125 Ce 0.875 Pt 4 Ge 12 1 2014 myu-B/R 2.63 -41.1 AB4C12 skutterudite A 8.6155 K 0.05 mJ/mol.K2 113.8 SP 219 SP "Ce(rod),Pr(3N),Pt(6N),Ge(6N)" "arc-melting - ANN(800C,336h, in sealed quartz tube)" Probing the superconductivity of PrPt4Ge12 through Ce substitution 2014 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 89(2014)035145"
154376 PRB089035145 "R = R0+A*T^n, Curie-Weis law, Debye-model, are used.." CePt4Ge12 Ce1Pt4Ge12 Ce 1 Pt 4 Ge 12 1 2014 myu-B/R 2.69 -84 AB4C12 skutterudite A 8.6149 K 0.05 mJ/mol.K2 86.2 SP 217 SP uOhm.cm 13.2 "Ce(rod),Pr(3N),Pt(6N),Ge(6N)" "arc-melting - ANN(800C,336h, in sealed quartz tube)" Probing the superconductivity of PrPt4Ge12 through Ce substitution 2014 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 89(2014)035145"
154377 PRB089054512 Ca11Bi9.88 by XRD analysis. RRR = 120. H-direction not shown. Ca11Bi10 Ca10Bi9.88 Ca 10 Bi 9.88 3 2014 6.175 A11B10 2 Ho10Ge11 I4/mmm A 12.2842 17.866 K 1.95 2.2 2.075 90 Oe "RES(onset), GL fitting" 172 MHC154377 uOhm.cm 129.4 m3/C 1.51E-08 9 n/cm3 6.50E+18 self-flux method using excess Bi. mixture(Ca:Bi = 1:5) - loaded(Nb-tube and weld(Ar)) - heat to 1373 K 10h - hold(100h) - slow cool to 773K (10K/h) Superconductivity in the intermetallic pnictide compound Ca11Bi10-x 2014 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439, USA" "Phys.Rev.B, 89(2014)054512"
154378 PRL111207001 "RRR = 103. (Rc/Rab) = 1.57 (at RT). SP heat (beta) = 1.65 mJ/mol.K4, (delta) = 0.135 mJ/mol.K6. Two gaps from SP, the lower (d1) = 0.84 kTc, higher (d2) = 2.01 kTc(in DB)" TlNi2Se2 Tl1Ni2Se2 Tl 1 Ni 2 Se 2 3 2013 emu/mol 0.0006064 AB2C2 2 ThCr2Si2 I4/mmm A 3.87 13.435 Fe-122 K 3.7 0.05 3.7 Oe M-H curve 170 T "RES(R=0.5Rn), GL-fitting" 0.802 MHC154378 A from Hc2 203 4.02 14 mJ/mol.K2 40 SP 175 SP uOhm.cm 0.615 68.69 108.1 "self-flux method. mixture(Tl:Ni:Se = 1:2:2) - alumina crucible in sealed quartz tube - heat(950C,12h) - cool to700C (6C/h) - FC to RT" Multiband Superconductivity of Heavy Electrons in a TlNi2Se2 Single Crystal 2013 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.Lett., 111(2013)207001"
154379 SSC1570021 not SC. LaOBiS2 La1Bi1S2O1 La 1 Bi 1 S 2 O 1 2013 ABCD2 2 CeOBiS2 P4/nmm A 4.066 13.862 ZrCuSiAs-type K 1.8 "La,Bi,S,LaF3,La2O3" "solid state reaction. mixture - pellet - sealed in quartz ampoule - heat(800C,12h) - cool to RT witin 6h" Appearance of superconductivity in layered LaO0.5F0.5BiS2 2013 "Quantum Phenomena and Applications Division, National Physical Laboratory (CSIR), Dr.K.S.Krishnan Road, New Delhi 110012, India" "Solid State Commun., 157(2013)21"
154380 SSC1570021 Hall coeff. RH(10K) = 5.04 E-8 m3/C. Carrier n(10K) = 1.24 E+20 /cm3 "La(O,F)BiS2" La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 2013 ABCD2 2 CeOBiS2 P4/nmm A 4.069 13.366 ZrCuSiAs-type K 2.4 2.7 2.7 2.7 6 T "RES(R=0.9Rn), WHH" 1.9 T/K RES(R=0.9Rn) 1 MHC154380 A from Hc2 130 "La,Bi,S,LaF3,La2O3" "solid state reaction. mixture - pellet - sealed in quartz ampoule - heat(800C,12h) - cool to RT witin 6h" Appearance of superconductivity in layered LaO0.5F0.5BiS2 2013 "Quantum Phenomena and Applications Division, National Physical Laboratory (CSIR), Dr.K.S.Krishnan Road, New Delhi 110012, India" "Solid State Commun., 157(2013)21"
154381 SSC1590026 resistive transition foe P < 20 GPa. Rb0.19WO3 Rb0.19W1O3 Rb 0.19 W 1 O 3 2013 3 bronze K 5.5 5.5 MTC154381 The samples obtained by acid etching stoichiometric single crystal Rb0.33WO3. Effect of pressure on the superconductivity of Rb0.19WO3 2013 "Institut Neel, Centre Nationale de la Recherche Scientifique - Universite Joseph Fourier, BP166 Cedex 09, 38042 Grenoble, France" "Solid State Commun., 159(2013)26"
154382 SSC1720001 "Fe(Se,Br)" Fe1Se0.82Br0.18 Fe 1 Se 0.82 Br 0.18 2013 AB 2 PbO P4/nmm A 3.77 5.518 beta-FeSe phase K 5 5 40 "mixture - pellet - sealed in quartz tube - heat(680C,16h) - reground - pellet - ANN(400C,4d) - q to ice water" Bromine-doping dependence of crystal structure and superconductivity in FeSe1-xBrx 2013 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, Republic of China" "Solid State Commun., 172(2013)1"
154383 SSC1720001 "Fe(Se,Br)" Fe1Se0.8Br0.2 Fe 1 Se 0.8 Br 0.2 2013 AB 2 PbO P4/nmm A 3.774 5.528 beta-FeSe phase K 5 5 40 "mixture - pellet - sealed in quartz tube - heat(680C,16h) - reground - pellet - ANN(400C,4d) - q to ice water" Bromine-doping dependence of crystal structure and superconductivity in FeSe1-xBrx 2013 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, Republic of China" "Solid State Commun., 172(2013)1"
154384 SSC1720001 small SC volume fraction "Fe(Se,Br)" Fe1Se0.7Br0.3 Fe 1 Se 0.7 Br 0.3 2013 AB 2 PbO P4/nmm A 3.773 5.528 beta-FeSe phase K 5 5 "mixture - pellet - sealed in quartz tube - heat(680C,16h) - reground - pellet - ANN(400C,4d) - q to ice water" Bromine-doping dependence of crystal structure and superconductivity in FeSe1-xBrx 2013 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, Republic of China" "Solid State Commun., 172(2013)1"
154385 SSC1780033 F-content x in LaO1-xFx)BiS2 = 0.23 by EPMA. R not to zero at 2 K. "La(O,F)BiS2" La1Bi1S2F0.3O0.77 La 1 Bi 1 S 2 F 0.3 O 0.7 0.77 3 2014 ABCD2 CeOBiS2 A 13.57 K 3.1 3.1 "R2S2,Bi,Bi2S2,Bi2O3,BiF3,CsCl,KCl" "CsCl/KCl flux method. mixture - heat(800C,10h) - slow cool to 600C (1C/h) - FC to RT" "Growth and superconducting properties of F-substituted = ROBiS2 (R = La, Ce, Nd) singlecrystals" 2014 "University of Yamanashi, 7-32 Miyamae, Kofu, Yamanashi 400-8511, Japan" "Solid State Commun., 178(2014)33"
154386 SSC1780033 F-content x in LaO1-xFx)BiS2 = 0.46 by EPMA. "La(O,F)BiS2" La1Bi1S2F0.7O0.54 La 1 Bi 1 S 2 F 0.7 O 0.3 0.54 3 2014 ABCD2 CeOBiS2 A 13.37 K 4.46 4.46 "R2S2,Bi,Bi2S2,Bi2O3,BiF3,CsCl,KCl" "CsCl/KCl flux method. mixture - heat(800C,10h) - slow cool to 600C (1C/h) - FC to RT" "Growth and superconducting properties of F-substituted = ROBiS2 (R = La, Ce, Nd) singlecrystals" 2014 "University of Yamanashi, 7-32 Miyamae, Kofu, Yamanashi 400-8511, Japan" "Solid State Commun., 178(2014)33"
154387 SSC1780033 F-content x in LaO1-xFx)BiS2 = 0.46 by EPMA. "La(O,F)BiS2" La1Bi1S2F0.9O0.54 La 1 Bi 1 S 2 F 0.9 O 0.1 0.54 3 2014 ABCD2 CeOBiS2 A 13.39 K 4.55 4.55 "R2S2,Bi,Bi2S2,Bi2O3,BiF3,CsCl,KCl" "CsCl/KCl flux method. mixture - heat(800C,10h) - slow cool to 600C (1C/h) - FC to RT" "Growth and superconducting properties of F-substituted = ROBiS2 (R = La, Ce, Nd) singlecrystals" 2014 "University of Yamanashi, 7-32 Miyamae, Kofu, Yamanashi 400-8511, Japan" "Solid State Commun., 178(2014)33"
154388 SSC1780033 F-content x in LaO1-xFx)BiS2 = 0.53 by EPMA. "Ce(O,F)BiS2" Ce1Bi1S2F0.3O0.47 Ce 1 Bi 1 S 2 F 0.3 O 0.7 0.47 3 2014 ABCD2 CeOBiS2 A 13.54 K 2 "R2S2,Bi,Bi2S2,Bi2O3,BiF3,CsCl,KCl" "CsCl/KCl flux method. mixture - heat(800C,10h) - slow cool to 600C (1C/h) - FC to RT" "Growth and superconducting properties of F-substituted = ROBiS2 (R = La, Ce, Nd) singlecrystals" 2014 "University of Yamanashi, 7-32 Miyamae, Kofu, Yamanashi 400-8511, Japan" "Solid State Commun., 178(2014)33"
154389 SSC1780033 F-content x in LaO1-xFx)BiS2 = 0.65 by EPMA. "Ce(O,F)BiS2" Ce1Bi1S2F0.7O0.35 Ce 1 Bi 1 S 2 F 0.7 O 0.3 0.35 3 2014 ABCD2 CeOBiS2 A 13.39 K 4 4 "R2S2,Bi,Bi2S2,Bi2O3,BiF3,CsCl,KCl" "CsCl/KCl flux method. mixture - heat(800C,10h) - slow cool to 600C (1C/h) - FC to RT" "Growth and superconducting properties of F-substituted = ROBiS2 (R = La, Ce, Nd) singlecrystals" 2014 "University of Yamanashi, 7-32 Miyamae, Kofu, Yamanashi 400-8511, Japan" "Solid State Commun., 178(2014)33"
154390 SSC1780033 F-content x in LaO1-xFx)BiS2 = 0.66 by EPMA. "Ce(O,F)BiS2" Ce1Bi1S2F0.9O0.34 Ce 1 Bi 1 S 2 F 0.9 O 0.1 0.34 3 2014 ABCD2 CeOBiS2 A 13.4 K 3.51 3.51 "R2S2,Bi,Bi2S2,Bi2O3,BiF3,CsCl,KCl" "CsCl/KCl flux method. mixture - heat(800C,10h) - slow cool to 600C (1C/h) - FC to RT" "Growth and superconducting properties of F-substituted = ROBiS2 (R = La, Ce, Nd) singlecrystals" 2014 "University of Yamanashi, 7-32 Miyamae, Kofu, Yamanashi 400-8511, Japan" "Solid State Commun., 178(2014)33"
154391 SSC1780033 F-content x in LaO1-xFx)BiS2 = 0.26 by EPMA. "Nd(O,F)BiS2" Nd1Bi1S2F0.3O0.74 Nd 1 Bi 1 S 2 F 0.3 O 0.7 0.74 3 2014 ABCD2 CeOBiS2 A 13.56 K 3.51 3.51 "R2S2,Bi,Bi2S2,Bi2O3,BiF3,CsCl,KCl" "CsCl/KCl flux method. mixture - heat(800C,10h) - slow cool to 600C (1C/h) - FC to RT" "Growth and superconducting properties of F-substituted = ROBiS2 (R = La, Ce, Nd) singlecrystals" 2014 "University of Yamanashi, 7-32 Miyamae, Kofu, Yamanashi 400-8511, Japan" "Solid State Commun., 178(2014)33"
154392 SSC1780033 F-content x in LaO1-xFx)BiS2 = 0.37 by EPMA. "Nd(O,F)BiS2" Nd1Bi1S2F0.7O0.63 Nd 1 Bi 1 S 2 F 0.7 O 0.3 0.63 3 2014 ABCD2 CeOBiS2 A 13.43 K 5.24 5.24 "R2S2,Bi,Bi2S2,Bi2O3,BiF3,CsCl,KCl" "CsCl/KCl flux method. mixture - heat(800C,10h) - slow cool to 600C (1C/h) - FC to RT" "Growth and superconducting properties of F-substituted = ROBiS2 (R = La, Ce, Nd) singlecrystals" 2014 "University of Yamanashi, 7-32 Miyamae, Kofu, Yamanashi 400-8511, Japan" "Solid State Commun., 178(2014)33"
154393 SSC1780033 F-content x in LaO1-xFx)BiS2 = 0.38 by EPMA. "Nd(O,F)BiS2" Nd1Bi1S2F0.9O0.62 Nd 1 Bi 1 S 2 F 0.9 O 0.1 0.62 3 2014 ABCD2 CeOBiS2 A 13.01 K 5.44 5.44 "R2S2,Bi,Bi2S2,Bi2O3,BiF3,CsCl,KCl" "CsCl/KCl flux method. mixture - heat(800C,10h) - slow cool to 600C (1C/h) - FC to RT" "Growth and superconducting properties of F-substituted = ROBiS2 (R = La, Ce, Nd) singlecrystals" 2014 "University of Yamanashi, 7-32 Miyamae, Kofu, Yamanashi 400-8511, Japan" "Solid State Commun., 178(2014)33"
154394 PRL112047005 "inhomogeneity: gap=15 meV(2/3 volume) , gap=30 meV(1/3 volume) in the normal states by STM. SC(45K) comes from clover like defect around Pr atom." "(Ca,Pr)Fe2As2" Ca0.86Pr0.14Fe2As2 Ca 0.86 Pr 0.14 Fe 2 As 2 3 2014 AB2C2 ThCr2Si2 K 20 45 32.5 5 meV 12 6.3 11 mJ/mol.K2 50 FeAs flux method Local Inhomogeneity and Filamentary Superconductivity in Pr-Doped CaFe2As2 2014 "Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.Lett., 112(2014)047005"
154395 PRL112067002 C = A*exp(-d0/T) + gamma-0*T: d0 = 0.39 K and gamma-0 = 0.028 mJ/mol for T<0.15 K.. Hc2 measured for H//[100] CeCu2Si2 Ce1Cu2Si2 Ce 1 Cu 2 Si 2 3 2014 AB2C2 K 0.6 0.6 MHC154395 "See Phys.Status Solidi B, 247(2010)614" Multiband Superconductivity with Unexpected Deficiency of Nodal Quasiparticles in CeCu2Si2 2014 "Institute for Solid State Physics (ISSP), University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.Lett., 112(2014)067002"
154400 PRB087224510 "RRR = 3. SP-heat:(beta=0.463 mJ/mol.K4, (delta)=6.8 mJ/mol.K6. Debye-T(RES) = 135K. DOS(FL) = 2.76 states/eV.f.u. (dC/gamma*Tc) = 1.14. GL = 11.7 e-ph = 0.474" CaPd2As2 Ca1Pd2As2 Ca 1 Pd 2 As 2 3 2013 7.23 AB2C2 2 ThCr2Si2 I4/mmm A 4.2824 10.088 K 1.27 1.8 1.27 Oe GL 14 T "RES, SP" 0.157 MHC154400 A from Hc2 458 A 2100 3.16 14 MSP154400 mJ/mol.K 9.4 mJ/mol.K2 6.52 SP 276 SP uOhm.cm 43 "Ca(3N),Pd(4N),As(7N),Sr(3N),Ba(4N)" "flux method(PdAs flux). Ca(or Sr, Ba):PdAs flux = 1:4(mol ratio). alumina crucible - sealed in fused silica tube - heat to 1100C (60-80 C/h) - keep(12h) - cool to 800C (2.5 C/h)" "Superconducting and normal-state properties of APd2As2 (A=Ca, Sr, Ba) single crystals" 2013 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 87(2013)224510"
154401 PRB087224510 "RRR = 8. SP-heat:(beta=0.369 mJ/mol.K4, (delta)=3.7 mJ/mol.K6. Debye-T(RES) = 170K. DOS(FL) = 2.73 states/eV.f.u. (dC/gamma*Tc) = 1.03" SrPd2As2 Sr1Pd2As2 Sr 1 Pd 2 As 2 3 2013 7.682 AB2C2 2 ThCr2Si2 I4/mmm A 4.3759 10.1671 K 0.92 1.5 0.92 Oe SP 11.7 T SP 0.07 MHC154401 A from Hc2 690 A 1700 3 14 MSP154401 mJ/mol.K2 6.43 SP 298 SP uOhm.cm 7.57 "Ca(3N),Pd(4N),As(7N),Sr(3N),Ba(4N)" "flux method(PdAs flux). Ca(or Sr, Ba):PdAs flux = 1:4(mol ratio). alumina crucible - sealed in fused silica tube - heat to 1100C (60-80 C/h) - keep(12h) - cool to 800C (2.5 C/h)" "Superconducting and normal-state properties of APd2As2 (A=Ca, Sr, Ba) single crystals" 2013 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 87(2013)224510"
154402 PRB087224510 "RRR = 25. not bulk SC. SP-heat:(beta=0.638 mJ/mol.K4, (delta)=4.0 mJ/mol.K6. Debye-T(RES) = 114K. DOS(FL) = 2.03 states/eV.f.u." BaPd2As2 Ba1Pd2As2 Ba 1 Pd 2 As 2 3 2013 7.648 AB2C2 2 CeMg2Si2 P4/mmm A 4.3438 5.7536 K 2 2 mJ/mol.K2 4.79 SP 248 SP uOhm.cm 1.02 "Ca(3N),Pd(4N),As(7N),Sr(3N),Ba(4N)" "flux method(PdAs flux). Ca(or Sr, Ba):PdAs flux = 1:4(mol ratio). alumina crucible - sealed in fused silica tube - heat to 1100C (60-80 C/h) - keep(12h) - cool to 800C (2.5 C/h)" "Superconducting and normal-state properties of APd2As2 (A=Ca, Sr, Ba) single crystals" 2013 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 87(2013)224510"
154403 SST022014003 Gap measured by Point Contact Andreev Reflection (PCAR ). Tc(PCAR=45 K. Two gaps: d1=5 meV (2d/kTc = 2.6) and d2 = 11 meV (=5.7) "NdFeAs)O,F)" Nd1Fe1As1F0.1O0.9 Nd 1 Fe 1 As 1 F 0.1 O 0.9 3 2009 ABCD oxypnictide Fe-1111 K 51 51 meV 11 5.7 1 "Nd2O3,NdF3,Nd" High-P synthesis. mixture - pellet - BN crucible - P=3.4 GPa heat to 1300-1400C - hold(8h) - Q to RT Possible two-gap superconductivity in NdFeAsO0.9F0.1 probed by point-contact Andreev-reflection spectroscopy 2009 "Centre of Low Temperature Physics, IEP Slovak Academy of Sciences and P J Safarik University, Watsonova 47, SK-04001 Kosice, Slovakia" "Supercond.Sci.Technol., 22(2009)014003"
154404 SST023054009 "Gap measured by Point Contact Andreev Reflection (PCAR ), analyzed using single gap BTK model. Surface is sensitive to air exposure." "(Ba,K)Fe2As2" Ba0.6K0.4Fe2As2 Ba 0.6 K 0.4 Fe 2 As 2 3 2010 AB2C2 ThCr2Si2 Fe-122 K 32 32 meV 3.5 2.5 1 FeAs flux method Point-contact spectroscopic studies on normal and superconducting AFe2As2-type iron pnictide single crystals 2010 "Department of Physics and Fredrick Seitz Materials Research Laboratory, University of Illinois at Urbana-Champaign, IL 61801, USA" "Supercond.Sci.Technol., 23(2010)054009"
154405 SST027025005 beta-Po type structure AuxSb1-2xTex Au0.05Sb0.9Te0.05 Au 0.05 Sb 0.9 Te 0.05 1 2014 "beta-Po type, rhombohedral" K 2 MTC154405 "Sb(4N),Te(5N),AuSb2" "mixture - pellet - BN vessel - heat(800C,25min, P=3.4 GPa) - cool to 200C within 10s" Superconductivity at the highest transition temperature of 8.1 K in a simple cubic AuxSb1-x-yTey alloy system synthesized under high pressure 2014 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "Supercond.Sci.Technol., 27(2014)025005"
154406 SST027025005 beta-Po type structure AuxSb1-2xTex Au0.075Sb0.85Te0.075 Au 0.075 Sb 0.85 Te 0.075 1 2014 "beta-Po type, rhombohedral" K 4.5 4.5 "Sb(4N),Te(5N),AuSb2" "mixture - pellet - BN vessel - heat(800C,25min, P=3.4 GPa) - cool to 200C within 10s" Superconductivity at the highest transition temperature of 8.1 K in a simple cubic AuxSb1-x-yTey alloy system synthesized under high pressure 2014 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "Supercond.Sci.Technol., 27(2014)025005"
154407 SST027025005 AuxSb1-2xTex Au0.1Sb0.8Te0.1 Au 0.1 Sb 0.8 Te 0.1 1 2014 1 A 3.027 "alpha-Po type, simple cubic" K 6 6 "Sb(4N),Te(5N),AuSb2" "mixture - pellet - BN vessel - heat(800C,25min, P=3.4 GPa) - cool to 200C within 10s" Superconductivity at the highest transition temperature of 8.1 K in a simple cubic AuxSb1-x-yTey alloy system synthesized under high pressure 2014 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "Supercond.Sci.Technol., 27(2014)025005"
154408 SST027025005 AuxSb1-2xTex Au0.125Sb0.75Te0.125 Au 0.125 Sb 0.75 Te 0.125 1 2014 1 A 3.016 "alpha-Po type, simple cubic" K 6.7 6.7 T "SUS, extrapolation" 1.17 MHC154408 "Sb(4N),Te(5N),AuSb2" "mixture - pellet - BN vessel - heat(800C,25min, P=3.4 GPa) - cool to 200C within 10s" Superconductivity at the highest transition temperature of 8.1 K in a simple cubic AuxSb1-x-yTey alloy system synthesized under high pressure 2014 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "Supercond.Sci.Technol., 27(2014)025005"
154409 SST027025005 multi-phase alpha-Po type structure. AuxSb1-2xTex Au0.2Sb0.6Te0.2 Au 0.2 Sb 0.6 Te 0.2 1 2014 1 "alpha-Po type, simple cubic" K 6.6 6.6 "Sb(4N),Te(5N),AuSb2" "mixture - pellet - BN vessel - heat(800C,25min, P=3.4 GPa) - cool to 200C within 10s" Superconductivity at the highest transition temperature of 8.1 K in a simple cubic AuxSb1-x-yTey alloy system synthesized under high pressure 2014 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "Supercond.Sci.Technol., 27(2014)025005"
154410 SST027025005 AuxSb1-x Au0.1Sb0.9 Au 0.1 Sb 0.9 1 2014 1 "alpha-Po type, simple cubic" K 8 8 "Sb(4N),Te(5N),AuSb2" "mixture - pellet - BN vessel - heat(800C,25min, P=3.4 GPa) - cool to 200C within 10s" Superconductivity at the highest transition temperature of 8.1 K in a simple cubic AuxSb1-x-yTey alloy system synthesized under high pressure 2014 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "Supercond.Sci.Technol., 27(2014)025005"
154411 SST027025005 AuxSb1-x Au0.1Sb0.9 Au 0.1 Sb 0.9 1 2014 1 "alpha-Po type, simple cubic" K 7 7 "Sb(4N),Te(5N),AuSb2" "mixture - pellet - BN vessel - heat(800C,25min, P=3.4 GPa) - cool to 200C within 10s" Superconductivity at the highest transition temperature of 8.1 K in a simple cubic AuxSb1-x-yTey alloy system synthesized under high pressure 2014 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "Supercond.Sci.Technol., 27(2014)025005"
154412 SST027025005 AuxSb1-x Au0.15Sb0.85 Au 0.15 Sb 0.85 1 2014 1 A 3.0012 "alpha-Po type, simple cubic" K 8.1 8.1 MTC154412 T "SUS, extrapolation" 1.36 MHC154412 "Sb(4N),Te(5N),AuSb2" "mixture - pellet - BN vessel - heat(800C,25min, P=3.4 GPa) - cool to 200C within 10s" Superconductivity at the highest transition temperature of 8.1 K in a simple cubic AuxSb1-x-yTey alloy system synthesized under high pressure 2014 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "Supercond.Sci.Technol., 27(2014)025005"
154413 SST027072001 RRR = 27.3. e-ph = 1.0 using Debye-T = 75.9K( from R(T) analysis). Ba2Bi3 Ba2Bi3 Ba 2 Bi 3 1 2014 A2B3 Immm 71 A 4.813 7.994 9.971 K 4.4 0.15 4.4 MTC154413 T/GPa -0.56 T "RES(R=0.5Rn), extrapolation" 1.23 MHC154413 A from Hc2 164 75.9 R(T) analysis uOhm.cm 22.7 619 "mixture( with 25%-excess Ba) - pellet - (solid state reaction) - BN crucible - heat(800C,1h, P= 1 GPa)" Superconductivity at 4.4 K in Ba2Bi3 2014 "National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Supercond.Sci.Technol., 27(2014)072001"
154420 PRL101147003 gap measured by ARPES. nodeless SC gap observed. gap size calculated from gap=15 meV. "NdFeAs(O,F)" Nd1Fe1As1F0.1O0.9 Nd 1 Fe 1 As 1 F 0.1 O 0.9 3 2008 ABCD oxypnictide K 53 53 meV 15 6.58 12 "NdFe3As3,Nd2O3,NdF3,Nd" "high-P synthesis. mixture - pellet - BN crucible - heat to 1350-1400C (within 1h) - hold(8h, P=3.3 GPa) - Q to RT" Momentum Dependence of the Superconducting Gap in NdFeAsO0:9F0:1 Single Crystals Measured by Angle Resolved Photoemission Spectroscopy 2008 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.Lett., 101(2008)147003"
154421 ACS13416520 "T,T = 54 K." BaTi2Sb2O Ba1Ti2Sb2O1 Ba 1 Ti 2 Sb 2 O 1 2012 ABC2D2 oxypnictide P4/mmm A 4.1196 8.0951 "Ti-oxypnictide, BaTi2As2o" K 2 "BaO,BaO2,Na2O,Na2O2,Ti,Sb" "mixture - weld in Nb container - heat(900C,3d) - cool to 200C(2C/min) - reground - SIN(900C,3d)" Ba1-xNaxTi2Sb2O (0.0<=x<=0.33): A Layered Titanium-Based Pnictide Oxide Superconductor 2012 "Department of Chemistry, University of Houston, Houston, Texas 77204, United States" "J.Am.Chem.Soc., 134(2012)16520"
154422 ACS13416520 "T,T = 45.3 K." "(Ba,Na)Ti2Sb2O" Ba0.95Na0.05Ti2Sb2O1 Ba 0.95 Na 0.05 Ti 2 Sb 2 O 1 2012 ABC2D2 oxypnictide P4/mmm "Ti-oxypnictide, CeCr2Si2C" K 3.14 3.14 "BaO,BaO2,Na2O,Na2O2,Ti,Sb" "mixture - weld in Nb container - heat(900C,3d) - cool to 200C(2C/min) - reground - SIN(900C,3d)" Ba1-xNaxTi2Sb2O (0.0<=x<=0.33): A Layered Titanium-Based Pnictide Oxide Superconductor 2012 "Department of Chemistry, University of Houston, Houston, Texas 77204, United States" "J.Am.Chem.Soc., 134(2012)16520"
154423 ACS13416520 "T,T = 40.8 K." "(Ba,Na)Ti2Sb2O" Ba0.9Na0.1Ti2Sb2O1 Ba 0.9 Na 0.1 Ti 2 Sb 2 O 1 2012 ABC2D2 oxypnictide P4/mmm "Ti-oxypnictide, CeCr2Si2C" K 4.24 4.24 MTC154423 "BaO,BaO2,Na2O,Na2O2,Ti,Sb" "mixture - weld in Nb container - heat(900C,3d) - cool to 200C(2C/min) - reground - SIN(900C,3d)" Ba1-xNaxTi2Sb2O (0.0<=x<=0.33): A Layered Titanium-Based Pnictide Oxide Superconductor 2012 "Department of Chemistry, University of Houston, Houston, Texas 77204, United States" "J.Am.Chem.Soc., 134(2012)16520"
154424 ACS13416520 "T,T = 34 K. (dC/Tc) = 8 mJ/mol.K2" "(Ba,Na)Ti2Sb2O" Ba0.85Na0.15Ti2Sb2O1 Ba 0.85 Na 0.15 Ti 2 Sb 2 O 1 2012 ABC2D2 oxypnictide P4/mmm "Ti-oxypnictide, CeCr2Si2C" K 5.22 5.22 MTC154423 MSP154424 "BaO,BaO2,Na2O,Na2O2,Ti,Sb" "mixture - weld in Nb container - heat(900C,3d) - cool to 200C(2C/min) - reground - SIN(900C,3d)" Ba1-xNaxTi2Sb2O (0.0<=x<=0.33): A Layered Titanium-Based Pnictide Oxide Superconductor 2012 "Department of Chemistry, University of Houston, Houston, Texas 77204, United States" "J.Am.Chem.Soc., 134(2012)16520"
154425 ACS13416520 "T,T = 31.1 K." "(Ba,Na)Ti2Sb2O" Ba0.75Na0.25Ti2Sb2O1 Ba 0.75 Na 0.25 Ti 2 Sb 2 O 1 2012 ABC2D2 oxypnictide P4/mmm "Ti-oxypnictide, CeCr2Si2C" K 5.53 5.53 "BaO,BaO2,Na2O,Na2O2,Ti,Sb" "mixture - weld in Nb container - heat(900C,3d) - cool to 200C(2C/min) - reground - SIN(900C,3d)" Ba1-xNaxTi2Sb2O (0.0<=x<=0.33): A Layered Titanium-Based Pnictide Oxide Superconductor 2012 "Department of Chemistry, University of Houston, Houston, Texas 77204, United States" "J.Am.Chem.Soc., 134(2012)16520"
154426 ACS13502951 M = NH3. K-intercalated sample. compositions: K0.28Fe1.97Se2M0.47 by ICP-AES. Tc not depends on M-content KxFe2Se2(NH3)y K0.3Fe2Se2M0.47 K 0.3 Fe 2 Se 2 M 0.47 1 2013 A 15.56 K 44 44 synthesized by a liquid NH3 method. Superconducting Phases in Potassium-Intercalated Iron Selenides 2013 "Research & Development Center for Functional Crystals, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Am.Chem.Soc., 135(2013)02951"
154427 ACS13502951 "M = NH3. K-intercalated sample. compositions: K0.4Fe2Se2M0.5 by ICP-AES. sample composed of two Tc phases (Tc-44K and 30 K, correspond to x=0.3 and 0.6, respectively. Tc not depends on M-content" KxFe2Se2(NH3)y K0.4Fe2Se2M0.47 K 0.4 Fe 2 Se 2 M 0.47 1 2013 K 36 36 synthesized by a liquid NH3 method. Superconducting Phases in Potassium-Intercalated Iron Selenides 2013 "Research & Development Center for Functional Crystals, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Am.Chem.Soc., 135(2013)02951"
154428 ACS13502951 M = NH3. K-intercalated sample. compositions: K0.57Fe2.02Se2M0.34 by ICP-AES. Tc not depends on M-content KxFe2Se2(NH3)y K0.7Fe2Se2M0.47 K 0.7 Fe 2 Se 2 M 0.47 1 2013 A 14.84 K 30 30 synthesized by a liquid NH3 method. Superconducting Phases in Potassium-Intercalated Iron Selenides 2013 "Research & Development Center for Functional Crystals, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Am.Chem.Soc., 135(2013)02951"
154429 CEM2160091 "impurity phases: FeAs(1.4 wt%), Sr3V2O7(5.7 wt%), SrFe2As2(9.1 wt%)." Sr2VO3FeAs Sr2V1Fe1As1O3 Sr 2 V 1 Fe 1 As 1 O 3 2014 22426 P4/nmm A 3.93621 15.7047 STR = 21113 type K 24.8 24.8 31 "SrO,CaO,V,Fe2O3,Fe,As" mixture - pellet - alumina crucible - sealed in silica ampoule - heat to 1100C(1C/min) - hold(48h) -cool to RT Control of the superconducting properties of Sr2-xCaxVO3FeAs through isovalent substitution 2014 "Department of Chemistry, University of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford, OX13QR, UK" "J.Solid State Chem., 216(2014)91"
154430 CEM2160091 "impurity phases: FeAs(3.4 wt%), Sr3V2O7(1.78 wt%), SrFe2As2(0.79 wt%)." "(Sr,Ca)VO3FeAs" Sr1.9Ca0.1V1Fe1As1O3 Sr 1.9 Ca 0.1 V 1 Fe 1 As 1 O 3 2014 22426 P4/nmm A 3.93561 15.6711 STR = 21113 type K 25.8 25.8 MTC154430 32 "SrO,CaO,V,Fe2O3,Fe,As" mixture - pellet - alumina crucible - sealed in silica ampoule - heat to 1100C(1C/min) - hold(48h) -cool to RT Control of the superconducting properties of Sr2-xCaxVO3FeAs through isovalent substitution 2014 "Department of Chemistry, University of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford, OX13QR, UK" "J.Solid State Chem., 216(2014)91"
154431 CEM2160091 "impurity phases: FeAs(3.2 wt%), Sr3V2O7(1.13 wt%), SrFe2As2(0.6 wt%)." "(Sr,Ca)VO3FeAs" Sr1.8Ca0.2V1Fe1As1O3 Sr 1.8 Ca 0.2 V 1 Fe 1 As 1 O 3 2014 22426 P4/nmm A 3.93387 15.6611 STR = 21113 type K 13.7 13.7 MTC154430 8.5 "SrO,CaO,V,Fe2O3,Fe,As" mixture - pellet - alumina crucible - sealed in silica ampoule - heat to 1100C(1C/min) - hold(48h) -cool to RT Control of the superconducting properties of Sr2-xCaxVO3FeAs through isovalent substitution 2014 "Department of Chemistry, University of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford, OX13QR, UK" "J.Solid State Chem., 216(2014)91"
154432 CEM2160091 "impurity phases: FeAs(5.4 wt%), Sr3V2O7(1.2 wt%), SrFe2As2(1.4 wt%)." "(Sr,Ca)VO3FeAs" Sr1.7Ca0.3V1Fe1As1O3 Sr 1.7 Ca 0.3 V 1 Fe 1 As 1 O 3 2014 22426 P4/nmm A 3.9312 15.6602 STR = 21113 type K 0.8 0.8 "SrO,CaO,V,Fe2O3,Fe,As" mixture - pellet - alumina crucible - sealed in silica ampoule - heat to 1100C(1C/min) - hold(48h) -cool to RT Control of the superconducting properties of Sr2-xCaxVO3FeAs through isovalent substitution 2014 "Department of Chemistry, University of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford, OX13QR, UK" "J.Solid State Chem., 216(2014)91"
154433 EPJB0850279 M = NH3 Li0.9Fe2As2(NH3)0.5 Li0.9Fe2Se2M0.5 Li 0.9 Fe 2 Se 2 M 0.5 2012 A 3.8273 16.518 SC phase: 245 structure K 44 44 "LixFe2Se2 - NH3-intercalation(-75C,1-4h)" Superconductivity at Tc = 44 K in LixFe2Se2(NH3)y 2012 "CPM, Institute of Physics, University of Augsburg, 86157 Augsburg, Germany" "Eur.Phys.J. B., 85(2012)279"
154434 EPJB0850279 M = (NH3)[LiNH2]0.5 Li1.8Fe2Se2(NH3)[LiNH2]0.5 Li1.8Fe2Se2M1 Li 1.8 Fe 2 Se 2 M 1 2012 A 3.79607 16.998 SC phase: 245 structure K 40 40 Excess Li used for intercalation process Superconductivity at Tc = 44 K in LixFe2Se2(NH3)y 2012 "CPM, Institute of Physics, University of Augsburg, 86157 Augsburg, Germany" "Eur.Phys.J. B., 85(2012)279"
154435 EPL10117004 "High pressure annealing(600C, P=2 GPa)." "La(O,F)BiS2" La1Bi1S2F0.2O0.8 La 1 Bi 1 S 2 F 0.2 O 0.8 1 2013 ABCD2 P4/nmm A 4.0574 13.5147 BiS2-layer K 3.8 6.55 7.11 7.11 "Bi2O3,BiF3,La2S3,Bi" "mixture - pellet - sealed in quartz tube - heat(700C,10h) - ground - ANN(600C,1h, P = 2 GPa)" Evolution of superconductivity in LaO1-xFxBiS2 prepared by high-pressure technique 2013 "National Institute for Materials Science - 1-2-1, Sengen, Tsukuba, 305-0047, Ibaraki, Japan" "Europhys.Lett., 101(2013)17004"
154436 EPL10117004 "High pressure annealing(600C, P=2 GPa)." "La(O,F)BiS2" La1Bi1S2F0.4O0.6 La 1 Bi 1 S 2 F 0.4 O 0.6 1 2013 ABCD2 P4/nmm A 4.0616 13.4284 BiS2-layer K 4.76 8.77 10.26 10.26 "Bi2O3,BiF3,La2S3,Bi" "mixture - pellet - sealed in quartz tube - heat(700C,10h) - ground - ANN(600C,1h, P = 2 GPa)" Evolution of superconductivity in LaO1-xFxBiS2 prepared by high-pressure technique 2013 "National Institute for Materials Science - 1-2-1, Sengen, Tsukuba, 305-0047, Ibaraki, Japan" "Europhys.Lett., 101(2013)17004"
154437 EPL10117004 "High pressure annealing(600C, P=2 GPa)." "La(O,F)BiS2" La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 1 2013 ABCD2 P4/nmm A 4.062 13.2998 BiS2-layer K 7.65 10.36 10.96 10.96 MTC154437 "Bi2O3,BiF3,La2S3,Bi" "mixture - pellet - sealed in quartz tube - heat(700C,10h) - ground - ANN(600C,1h, P = 2 GPa)" Evolution of superconductivity in LaO1-xFxBiS2 prepared by high-pressure technique 2013 "National Institute for Materials Science - 1-2-1, Sengen, Tsukuba, 305-0047, Ibaraki, Japan" "Europhys.Lett., 101(2013)17004"
154438 EPL10117004 "High pressure annealing(600C, P=2 GPa)." "La(O,F)BiS2" La1Bi1S2F0.6O0.4 La 1 Bi 1 S 2 F 0.6 O 0.4 1 2013 ABCD2 P4/nmm A 4.0598 13.1037 BiS2-layer K 6.38 8.78 9.5 9.5 "Bi2O3,BiF3,La2S3,Bi" "mixture - pellet - sealed in quartz tube - heat(700C,10h) - ground - ANN(600C,1h, P = 2 GPa)" Evolution of superconductivity in LaO1-xFxBiS2 prepared by high-pressure technique 2013 "National Institute for Materials Science - 1-2-1, Sengen, Tsukuba, 305-0047, Ibaraki, Japan" "Europhys.Lett., 101(2013)17004"
154439 EPL10117004 "High pressure annealing(600C, P=2 GPa)." "La(O,F)BiS2" La1Bi1S2F0.7O0.3 La 1 Bi 1 S 2 F 0.7 O 0.3 1 2013 ABCD2 P4/nmm A 4.0546 13.0594 BiS2-layer K 4.56 7.63 7.86 7.86 "Bi2O3,BiF3,La2S3,Bi" "mixture - pellet - sealed in quartz tube - heat(700C,10h) - ground - ANN(600C,1h, P = 2 GPa)" Evolution of superconductivity in LaO1-xFxBiS2 prepared by high-pressure technique 2013 "National Institute for Materials Science - 1-2-1, Sengen, Tsukuba, 305-0047, Ibaraki, Japan" "Europhys.Lett., 101(2013)17004"
154440 EPL10117004 No post annealing.. Tc data not shown. "La(O,F)BiS2" La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 1 2013 ABCD2 P4/nmm A 4.0721 13.4242 BiS2-layer K "Bi2O3,BiF3,La2S3,Bi" "mixture - pellet - sealed in quartz tube - heat(700C,10h)" Evolution of superconductivity in LaO1-xFxBiS2 prepared by high-pressure technique 2013 "National Institute for Materials Science - 1-2-1, Sengen, Tsukuba, 305-0047, Ibaraki, Japan" "Europhys.Lett., 101(2013)17004"
154441 EPL10427001 "impurity phase: maybe alpha-Bi2Pd(Tc=1.72 K). Tn, Tc defined as max of (dR/dT)." ErPdBi Er1Pd1Bi1 Er 1 Pd 1 Bi 1 3 2013 myu-B/mol 3.54 -3.5 ABC F4[-]3m A 6.595 cubic K 1.24 1.22 1.24 15 Oe preriminary 2 T RES(max of (dR/dT). extrapolation 1.6 MHC154441 A from Hc2 140 A "calc using Hc1,Hc2,GL eq." 4480 "Er(3N5),Pd(4N),Bi(5N)" "arc-melting - alumina crucible with excess Bi-flux - heat to 1150C( in quartz tube, 0.3 bar-Ar-gas) - keep(36h) - slow cool to 500C(3C/h)" Superconductivity and magnetic order in the noncentrosymmetric half-Heusler compound ErPdBi 2013 "Van der Waals - Zeeman Institute, University of Amsterdam - Science Park 904, 1098 XH Amsterdam, The Netherlands" "Europhys.Lett., 104(2013)27001"
154442 JAC5540304 "compositions by WDS, not bulk SC. SC maybe from Ni-Bi compounds (but not detected by XRD." LaNi1-xBi2+y La1Ni0.84Bi2.04 La 1 Ni 0.84 Bi 2.04 3 2013 P4/nmm A 4.56 9.78 ZrCuSi2-type K 4.41 4.41 3 kOe RES(on) MHC154442 crystals grown from excess Bi-flux via high temperature solution method. "Anisotropic magnetization and resistivity of single crystalline RNi1-xBi2+-y (R = La-Nd, Sm, Gd-Dy)" 2013 "Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J.Alloy Compd., 554(2013)304"
154443 JAC5540304 "compositions by WDS, not bulk SC. SC maybe from Ni-Bi compounds (but not detected by XRD." CeNi1-xBi2+y Ce1Ni0.8Bi2.03 Ce 1 Ni 0.8 Bi 2.03 3 2013 emu/mole 0.001 myu-B/mol 2.4 -17 4.8 P4/nmm A 4.54 9.64 ZrCuSi2-type K 4.2 4.2 3 kOe RES(on) MHC154443 crystals grown from excess Bi-flux via high temperature solution method. "Anisotropic magnetization and resistivity of single crystalline RNi1-xBi2+-y (R = La-Nd, Sm, Gd-Dy)" 2013 "Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J.Alloy Compd., 554(2013)304"
154444 JAC5540304 "compositions by WDS, not bulk SC. SC maybe from Ni-Bi compounds (but not detected by XRD." PrNi1-xBi2+y Pr1Ni0.79Bi1.98 Pr 1 Ni 0.79 Bi 1.98 3 2013 emu/mole 0.0001 myu-B/mol 3.6 -12 6.4 P4/nmm A 4.52 9.6001 ZrCuSi2-type K 4.2 4.2 crystals grown from excess Bi-flux via high temperature solution method. "Anisotropic magnetization and resistivity of single crystalline RNi1-xBi2+-y (R = La-Nd, Sm, Gd-Dy)" 2013 "Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J.Alloy Compd., 554(2013)304"
154445 JAC5540304 "compositions by WDS, not bulk SC. SC maybe from Ni-Bi compounds (but not detected by XRD." NdNi1-xBi2+y Nd1Ni0.72Bi2.14 Nd 1 Ni 0.72 Bi 2.14 3 2013 emu/mole 0.0002 myu-B/mol 3.8 -16 3.8 P4/nmm A 4.52 9.53 ZrCuSi2-type K 4.2 4.2 crystals grown from excess Bi-flux via high temperature solution method. "Anisotropic magnetization and resistivity of single crystalline RNi1-xBi2+-y (R = La-Nd, Sm, Gd-Dy)" 2013 "Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J.Alloy Compd., 554(2013)304"
154446 JAC5540304 "compositions by WDS, not bulk SC. SC maybe from Ni-Bi compounds (but not detected by XRD." SmNi1-xBi2+y Sm1Ni0.78Bi2.08 Sm 1 Ni 0.78 Bi 2.08 3 2013 3.3 P4/nmm A 4.5001 9.42 ZrCuSi2-type K 4.2 4.2 crystals grown from excess Bi-flux via high temperature solution method. "Anisotropic magnetization and resistivity of single crystalline RNi1-xBi2+-y (R = La-Nd, Sm, Gd-Dy)" 2013 "Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J.Alloy Compd., 554(2013)304"
154447 JAC5540304 "compositions by WDS, not bulk SC. SC maybe from Ni-Bi compounds (but not detected by XRD." GdNi1-xBi2+y Gd1Ni0.72Bi1.91 Gd 1 Ni 0.72 Bi 1.91 3 2013 emu/mole 0.001 myu-B/mol 7.9 -51 9.8 P4/nmm A 4.49 9.37 ZrCuSi2-type K 4.2 4.2 crystals grown from excess Bi-flux via high temperature solution method. "Anisotropic magnetization and resistivity of single crystalline RNi1-xBi2+-y (R = La-Nd, Sm, Gd-Dy)" 2013 "Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J.Alloy Compd., 554(2013)304"
154448 JAC5540304 "compositions by WDS, not bulk SC. SC maybe from Ni-Bi compounds (but not detected by XRD." TbNi1-xBi2+y Tb1Ni0.74Bi1.9 Tb 1 Ni 0.74 Bi 1.9 3 2013 emu/mole -0.0012 myu-B/mol 10 -40 10.2 P4/nmm A 4.48 9.3001 ZrCuSi2-type K 4.2 4.2 crystals grown from excess Bi-flux via high temperature solution method. "Anisotropic magnetization and resistivity of single crystalline RNi1-xBi2+-y (R = La-Nd, Sm, Gd-Dy)" 2013 "Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J.Alloy Compd., 554(2013)304"
154449 JAC5540304 "compositions by WDS, not bulk SC. SC maybe from Ni-Bi compounds (but not detected by XRD." DyNi1-xBi2+y Dy1Ni0.74Bi1.78 Dy 1 Ni 0.74 Bi 1.78 3 2013 emu/mole 0.0028 myu-B/mol 10.8 -24 5.4 P4/nmm A 4.47 9.29 ZrCuSi2-type K 4.2 4.2 crystals grown from excess Bi-flux via high temperature solution method. "Anisotropic magnetization and resistivity of single crystalline RNi1-xBi2+-y (R = La-Nd, Sm, Gd-Dy)" 2013 "Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J.Alloy Compd., 554(2013)304"
154450 JAP113056102 Lattice term in SP (beta) = 1.428 mJ/mol.K4 "Nd(O,F)BiS2" Nd1Bi1S2F0.5O0.5 Nd 1 Bi 1 S 2 F 0.5 O 0.5 1 2013 ABCD2 P4/nmm A 3.9911 13.383 "BiS2-layer, 1112 phase." K 4.7 5.2 4.95 T RES(on). WHH 2.3 T/K RES(on) 0.75 MHC154450 mJ/mol.K2 26.23 SP 189.55 SP "Nd,Bi,S,NdF3,Nd2O3" mixture - solid state reaction Superconductivity at 5K in NdO0.5F0.5BiS2 2013 "Quantum Phenomena and Application Division, National Physical Laboratory (CSIR), Dr. K. S. Krishnan Road, New Delhi 110012, India" "J.Appl.Phys., 113(2013)056102"
154451 JPCM01410759 Black-P. Tc measured for 0 < P < 160 GPa. Tc(max) = 9.5 K at 32 GPa. Black-P P1 P 1 2002 A K 9.5 0 9.5 MTC154451 K/GPa 0.58 The pressure effect on the superconducting transition temperature of black phosphorus 2002 "Research Centre for Materials Science at Extreme Conditions (KYOKUGEN), Osaka University, Toyonaka, Osaka 560-8531, Japan" "J.Phys.: Condens.Matter, 14(2002)10759"
154452 JPCM020165207 RRR = 21 LaNiC2 La1Ni1C2 La 1 Ni 1 C 2 1 2008 ABC2 CeNiC2 Amm2 A 3.954 4.557 6.193 K 3.07 3.45 2.86 2.86 uOhm.cm 191 arc-melting The antipressure effect of Cu on Tc in superconducting La(Ni1-xCux)C2 (0 =< x =<0.25) 2008 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, Republic of China" "J.Phys.: Condens.Matter, 20(2008)165207"
154453 JPCM020165207 "La(Ni,Cu)C2" La1Ni0.95Cu0.05C2 La 1 Ni 0.95 Cu 0.05 C 2 1 2008 ABC2 CeNiC2 Amm2 A 3.954 4.557 6.195 K 3.15 4.05 3.15 3.15 uOhm.cm 168 arc-melting The antipressure effect of Cu on Tc in superconducting La(Ni1-xCux)C2 (0 =< x =<0.25) 2008 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, Republic of China" "J.Phys.: Condens.Matter, 20(2008)165207"
154454 JPCM020165207 "La(Ni,Cu)C2" La1Ni0.9Cu0.1C2 La 1 Ni 0.9 Cu 0.1 C 2 1 2008 ABC2 CeNiC2 Amm2 A 3.954 4.558 6.196 K 3.45 4.21 3.24 3.24 MTC154454 uOhm.cm 120 arc-melting The antipressure effect of Cu on Tc in superconducting La(Ni1-xCux)C2 (0 =< x =<0.25) 2008 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, Republic of China" "J.Phys.: Condens.Matter, 20(2008)165207"
154455 JPCM020165207 "La(Ni,Cu)C2" La1Ni0.85Cu0.15C2 La 1 Ni 0.85 Cu 0.15 C 2 1 2008 ABC2 CeNiC2 Amm2 A 3.955 4.559 6.199 K 3.72 4.25 3.31 3.31 uOhm.cm 107 arc-melting The antipressure effect of Cu on Tc in superconducting La(Ni1-xCux)C2 (0 =< x =<0.25) 2008 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, Republic of China" "J.Phys.: Condens.Matter, 20(2008)165207"
154456 JPCM020165207 RRR = 9.4 "La(Ni,Cu)C2" La1Ni0.8Cu0.2C2 La 1 Ni 0.8 Cu 0.2 C 2 1 2008 ABC2 CeNiC2 Amm2 A 3.956 4.56 6.201 K 4.02 4.61 3.45 3.45 uOhm.cm 90 arc-melting The antipressure effect of Cu on Tc in superconducting La(Ni1-xCux)C2 (0 =< x =<0.25) 2008 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, Republic of China" "J.Phys.: Condens.Matter, 20(2008)165207"
154457 JPCM020165207 "La(Ni,Cu)C2" La1Ni0.75Cu0.25C2 La 1 Ni 0.75 Cu 0.25 C 2 1 2008 ABC2 CeNiC2 Amm2 A 3.957 4.56 6.201 K 4.05 4.65 3.48 3.48 uOhm.cm 107 arc-melting The antipressure effect of Cu on Tc in superconducting La(Ni1-xCux)C2 (0 =< x =<0.25) 2008 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, Republic of China" "J.Phys.: Condens.Matter, 20(2008)165207"
154458 JPCM020385204 Lattice term in SP (beta)=0.393 mJ/mol.K4. (delta)=5.05 uJ/mol.K6. e-ph = 0.39-0.45. DOS = 1.69-1.63 states/ev.fu. (dC/gamma*Tc) = 1.05 LaPd2Ge2 La1Pd2Ge2 La 1 Pd 2 Ge 2 1 2008 AB2C2 ThCr2Si2 K 0.96 1.1 0.96 meV 0.15 3.65 14 MSP154458 mJ/mol.K2 8.26 SP 291 SP "arc-melting - ANN(900-1100C, 1week, in vac)" "Low temperature specific heat of superconducting ternary intermetallics La3Pd4Ge4, La3Ni4Si4, and La3Ni4Ge4 with U3Ni4Si4-type structure" 2008 "SuperconductingMaterials Center, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.: Condens.Matter, 20(2008)385204"
154459 JPCM020385204 Lattice term in SP (beta)=0.208 mJ/mol.K4. (delta)=1.97 uJ/mol.K6 LaNi2Si2 La1Ni2Si2 La 1 Ni 2 Si 2 1 2008 AB2C2 ThCr2Si2 K 0.4 mJ/mol.K2 11.3 SP 360 SP "arc-melting - ANN(900-1100C, 1week, in vac)" "Low temperature specific heat of superconducting ternary intermetallics La3Pd4Ge4, La3Ni4Si4, and La3Ni4Ge4 with U3Ni4Si4-type structure" 2008 "SuperconductingMaterials Center, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.: Condens.Matter, 20(2008)385204"
154460 JPCM020385204 Lattice term in SP (beta)=0.273 mJ/mol.K4. (delta)=3.14 uJ/mol.K6 LaNi2Ge2 La1Ni2Ge2 La 1 Ni 2 Ge 2 1 2008 AB2C2 ThCr2Si2 K 0.4 mJ/mol.K2 14.5 SP 328 SP "arc-melting - ANN(900-1100C, 1week, in vac)" "Low temperature specific heat of superconducting ternary intermetallics La3Pd4Ge4, La3Ni4Si4, and La3Ni4Ge4 with U3Ni4Si4-type structure" 2008 "SuperconductingMaterials Center, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.: Condens.Matter, 20(2008)385204"
154461 JPCM020385204 Lattice term in SP (beta)=1.27 mJ/mol.K4. (delta)=12.7 uJ/mol.K6. e-ph = 0.48-0.55. DOS = 3.86-3.69 states/ev.fu. (dC/gamma*Tc) = 1.24 La3Pd4Ge4 La3Pd4Ge4 La 3 Pd 4 Ge 4 1 2008 A3B4C4 U3Ni4Si4 K 2.23 2.5 2.23 meV 0.3 3.08 14 MSP154461 mJ/mol.K2 27 SP 256 SP "arc-melting - ANN(900-1100C, 1week, in vac)" "Low temperature specific heat of superconducting ternary intermetallics La3Pd4Ge4, La3Ni4Si4, and La3Ni4Ge4 with U3Ni4Si4-type structure" 2008 "SuperconductingMaterials Center, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.: Condens.Matter, 20(2008)385204"
154462 JPCM020385204 Lattice term in SP (beta)=0.645 mJ/mol.K4. (delta)=4.40 uJ/mol.K6. e-ph = 0.39-0.43. DOS = 5.43-5.32 states/ev.fu. (dC/gamma*Tc) = 1.32 La3Ni4Si4 La3Ni4Si4 La 3 Ni 4 Si 4 1 2008 A3B4C4 U3Ni4Si4 K 0.96 1 0.96 meV 0.14 3.26 14 MSP154462 mJ/mol.K2 36.9 SP 321 SP "arc-melting - ANN(900-1100C, 1week, in vac)" "Low temperature specific heat of superconducting ternary intermetallics La3Pd4Ge4, La3Ni4Si4, and La3Ni4Ge4 with U3Ni4Si4-type structure" 2008 "SuperconductingMaterials Center, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.: Condens.Matter, 20(2008)385204"
154463 JPCM020385204 Lattice term in SP (beta)=0.930 mJ/mol.K4. (delta)=2.76 uJ/mol.K6. e-ph = 0.38-0.43. DOS = 5.16-4.97 states/ev.fu. (dC/gamma*Tc) = 0.95 La3Ni4Ge4 La3Ni4Ge4 La 3 Ni 4 Ge 4 1 2008 A3B4C4 U3Ni4Si4 K 0.74 0.76 0.74 meV 0.09 2.83 14 MSP154463 mJ/mol.K2 34.5 SP 284 SP "arc-melting - ANN(900-1100C, 1week, in vac)" "Low temperature specific heat of superconducting ternary intermetallics La3Pd4Ge4, La3Ni4Si4, and La3Ni4Ge4 with U3Ni4Si4-type structure" 2008 "SuperconductingMaterials Center, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.: Condens.Matter, 20(2008)385204"
154464 JPCM022075702 not SC. Lattice term in SP (beta) = 0.79 mJ/mol.K4 for 3.9 < T < 25 K. T = 200 K. BaTi2As2O Ba1Ti2As2O1 Ba 1 Ti 2 As 2 O 1 1 2010 ABC2D2 P4/mmm 123 A 4.0456 7.2723 K 3.9 mJ/mol.K2 15.3 SP 223 SP "BaO(3N),Ti(4N),As(6N)" "solid state reaction. mixture - pellet - wrapped by Ta-foil - sealed in quartz tube - heat(850C, 40h)" Structure and physical properties for a new layered pnictide-oxide: BaTi2As2O 2010 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "J.Phys.: Condens.Matter, 22(2010)075702"
154465 JPCM022075702 not SC. T = 150 K. Interstitial site doping of Li. BaLixTi2As2O Ba1Li0.2Ti2As2O1 Ba 1 Li 0.2 Ti 2 As 2 O 1 1 2010 ABC2D2 P4/mmm 123 K 3.9 "LiAs,BaO,Ti,As" "mixture - react(500C,10h) - reground - pellet heat(800C,40h)" Structure and physical properties for a new layered pnictide-oxide: BaTi2As2O 2010 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "J.Phys.: Condens.Matter, 22(2010)075702"
154467 JPCM023464203 "impurity phases: Pr2O3, FeAs. R(T) shows hump around 150K." "(Pr,Sr)FeAsO" Pr0.8Sr0.2Fe1As1O1 Pr 0.8 Sr 0.2 Fe 1 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm Fe-1111 K 13.6 13.6 MRH154467 "PrAs,SrAs,Pr6O11,FeAs,Fe,ZnO" "mixture - pellet - ANN(1443K,40h, in evacuated quartz tube) - FC to RT" "Effect of Zn doping in hole-type 1111 phase (Pr, Sr)FeAsO" 2011 "State Key Laboratory of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "J.Phys.: Condens.Matter, 23(2011)464203"
154468 JPCM023464203 "impurity phases: Pr2O3, FeAs. R(T) shows hump around 150K." "(Pr,Sr)(Fe,Zn)AsO" Pr0.8Sr0.2Fe0.97Zn0.03As1O1 Pr 0.8 Sr 0.2 Fe 0.97 Zn 0.03 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm Fe-1111 K 13 13 "PrAs,SrAs,Pr6O11,FeAs,Fe,ZnO" "mixture - pellet - ANN(1443K,40h, in evacuated quartz tube) - FC to RT" "Effect of Zn doping in hole-type 1111 phase (Pr, Sr)FeAsO" 2011 "State Key Laboratory of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "J.Phys.: Condens.Matter, 23(2011)464203"
154469 JPCM023464203 "impurity phases: Pr2O3, FeAs. R(T) shows hump around 150K." "(Pr,Sr)(Fe,Zn)AsO" Pr0.8Sr0.2Fe0.94Zn0.06As1O1 Pr 0.8 Sr 0.2 Fe 0.94 Zn 0.06 As 1 O 1 1 2011 ABCD oxypnictide P4/nmm Fe-1111 K 12 12 MRH154469 "PrAs,SrAs,Pr6O11,FeAs,Fe,ZnO" "mixture - pellet - ANN(1443K,40h, in evacuated quartz tube) - FC to RT" "Effect of Zn doping in hole-type 1111 phase (Pr, Sr)FeAsO" 2011 "State Key Laboratory of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "J.Phys.: Condens.Matter, 23(2011)464203"
154470 JPCM024382202 compositions by EDAX. M=C5H5N(pyridine). M-content not measured. (tentative value of 1) Kx(C5H5N)yFe2Se2 K1.15M1Fe2.02Se2 K 1.15 M 1 Fe 2.02 Se 2 2012 I4/mmm Fe-122 K 10 10 appropriate amount of powdered FeAs precursor was placed into container filled with 0.2M solution of pure alkali metal dissoved in anhydrous pyridine. Synthesis of a new alkali metal-organic solvent intercalated iron selenide superconductor with Tc = 45 K 2012 "Laboratory for Developments and Methods, Paul Scherrer Institute, 5232 Villigen PSI, Switzerland" "J.Phys.: Condens.Matter, 24(2012)382202"
154471 JPCM024382202 compositions by EDAX. M=C5H5N(pyridine). M-content not measured. (tentative value of 1) Nax(C5H5N)yFe2Se2 Na1.23M1Fe1.85Se2 Na 1.23 M 1 Fe 1.85 Se 2 2012 I4/mmm Fe-122 K 35 35 appropriate amount of powdered FeAs precursor was placed into container filled with 0.2M solution of pure alkali metal dissoved in anhydrous pyridine. Synthesis of a new alkali metal-organic solvent intercalated iron selenide superconductor with Tc = 45 K 2012 "Laboratory for Developments and Methods, Paul Scherrer Institute, 5232 Villigen PSI, Switzerland" "J.Phys.: Condens.Matter, 24(2012)382202"
154472 JPCM024382202 compositions by EDAX. M=C5H5N(pyridine). M-content not measured. (tentative value of 1) Rbx(C5H5N)yFe2Se2 Rb1.21M1Fe1.85Se2 Rb 1.21 M 1 Fe 1.85 Se 2 2012 I4/mmm Fe-122 K 15 15 appropriate amount of powdered FeAs precursor was placed into container filled with 0.2M solution of pure alkali metal dissoved in anhydrous pyridine. Synthesis of a new alkali metal-organic solvent intercalated iron selenide superconductor with Tc = 45 K 2012 "Laboratory for Developments and Methods, Paul Scherrer Institute, 5232 Villigen PSI, Switzerland" "J.Phys.: Condens.Matter, 24(2012)382202"
154473 JPCM024382202 "M = C5H5N(pyridine). M-content not measured. (tentative value of 1). compositions(Li,Fe,Se) not measured. R(T) shows 2 step transitions (45 and 31 K)" Lix(C5H5N)yFe2Se2 Li1M1Fe2Se2 Li 1 M 1 Fe 2 Se 2 2012 I4/mmm Fe-122 K 45 45 appropriate amount of powdered FeAs precursor was placed into container filled with 0.2M solution of pure alkali metal dissoved in anhydrous pyridine. Synthesis of a new alkali metal-organic solvent intercalated iron selenide superconductor with Tc = 45 K 2012 "Laboratory for Developments and Methods, Paul Scherrer Institute, 5232 Villigen PSI, Switzerland" "J.Phys.: Condens.Matter, 24(2012)382202"
154474 JPCM024382202 Anneald((215 C)-sample. M = C5H5N(pyridine). M-content not measured. (tentative value of 1). compositions not measured. sharp transitions. Lix(C5H5N)yFe2Se2 Li1M1Fe2Se2 Li 1 M 1 Fe 2 Se 2 2012 P4/mmm Fe-122 K 40 40 100 appropriate amount of powdered FeAs precursor was placed into container filled with 0.2M solution of pure alkali metal dissoved in anhydrous pyridine. Synthesis of a new alkali metal-organic solvent intercalated iron selenide superconductor with Tc = 45 K 2012 "Laboratory for Developments and Methods, Paul Scherrer Institute, 5232 Villigen PSI, Switzerland" "J.Phys.: Condens.Matter, 24(2012)382202"
154475 JPCM025155701 RRR = 27. Hall const. at 2K. Lattice term in SP (beta) = 0.91 mJ/mol.K4. (dC/gamma*Tc) = 1.3. e-ph = 0.5. GL = 0.6 beta-IrSn4 Ir1Sn4 Ir 1 Sn 4 3 2013 AB4 MoSn4 I4<1>/acd A 6.308 22.739 MoSn4-type K 0.84 0.93 1 0.9 0.15 0.93 mT M-H curve 3 0.5 mT "RES, WHH" 8 6.8 0.15 mT/K 9.83 MHC154475 A "Hc2, spherical Fermi surface model" 1930 A "Hc2, spherical Fermi surface model" 1150 3.55 14 MSP154475 mJ/mol.K2 5.2 SP 221 SP uOhm.cm 3 80 m3/C 8.95E-10 n/m3 6.98E+27 "Ir(4N),Sn(5N)" self-flux method. mixture(Ir:Sn=1:80) - alumina crucible - sealed in quartz ampule - heat to 900C - cool to 600C(5C/h) - FC to 300C within 3h. Observation of superconductivity in the intermetallic compound beta-IrSn4 2013 "J. Phys. Cond. Mater., 25(2013)155701"
154476 JPS077124702 RRR = 20. SUS(300K) = -9.79 E-5 emu/fu. LaPt4Ge12 La1Pt4Ge12 La 1 Pt 4 Ge 12 1 2008 AB4C12 skutterudite A 8.618 K 8.2 8.2 uOhm.cm 18.3 "arc-melting - ANN(800C,200h, in vac)" "Electrical, Magnetic and NMR Studies of Ge-Based Filled Skutterudites RPt4Ge12 (R = La, Ce, Pr, Nd)" 2008 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Tokushima 770-8502" "J.Phys.Soc. Jpn, 77(2008)124702"
154477 JPS077124702 RRR = 24. Curie-Weis Law for T > 200K. CePt4Ge12 Ce1Pt4Ge12 Ce 1 Pt 4 Ge 12 1 2008 myu-B/fu 2.58 -62 AB4C12 skutterudite A 8.61 K 0.37 uOhm.cm 11.4 "arc-melting - ANN(800C,200h, in vac)" "Electrical, Magnetic and NMR Studies of Ge-Based Filled Skutterudites RPt4Ge12 (R = La, Ce, Pr, Nd)" 2008 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Tokushima 770-8502" "J.Phys.Soc. Jpn, 77(2008)124702"
154478 JPS077124702 RRR = 42. Curie-Weis Law for T > 100K. PrPt4Ge12 Pr1Pt4Ge12 Pr 1 Pt 4 Ge 12 1 2008 myu-B/fu 3.59 -16.8 AB4C12 skutterudite A 8.608 K 7.8 7.8 uOhm.cm 4.5 "arc-melting - ANN(800C,200h, in vac)" "Electrical, Magnetic and NMR Studies of Ge-Based Filled Skutterudites RPt4Ge12 (R = La, Ce, Pr, Nd)" 2008 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Tokushima 770-8502" "J.Phys.Soc. Jpn, 77(2008)124702"
154479 JPS077124702 RRR = 100. Curie-Weis Law for T > 100K. NdPt4Ge12 Nd1Pt4Ge12 Nd 1 Pt 4 Ge 12 1 2008 myu-B/fu 3.72 -31.1 AB4C12 skutterudite A 8.602 K 0.7 0.7 uOhm.cm 4.5 "arc-melting - ANN(800C,200h, in vac)" "Electrical, Magnetic and NMR Studies of Ge-Based Filled Skutterudites RPt4Ge12 (R = La, Ce, Pr, Nd)" 2008 "Faculty of Integrated Arts and Sciences, The University of Tokushima, Tokushima 770-8502" "J.Phys.Soc. Jpn, 77(2008)124702"
154480 JPS081103702 Metallic R(T) for T > Tc Bi4O4S3 Bi4S3O4 Bi 4 S 3 O 4 1 2012 A3B4C4 K 4.34 4.6 4.47 MTC154480 K/GPa -1.1 solid state reaction "Pressure Study of BiS2-Based Superconductors Bi4O4S3 and La(O,F)BiS2" 2012 "Department of Physics, Kobe University, Kobe 658-8530, Japan" "J.Phys.Soc.Jpn, 81(2012)103702"
154481 JPS081103702 Semiconductor-like R(T) for T > Tc. (dTc/dP) = -0.4 K/GPa for P > 1.0 GPa. La(O0.5F0.5)BiS2 La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 1 2012 ABCD2 CeOBiS2 "CeOBiS2, BiS2 layer" K 7.63 9.67 8.65 MTC154481 solid state reaction "Pressure Study of BiS2-Based Superconductors Bi4O4S3 and La(O,F)BiS2" 2012 "Department of Physics, Kobe University, Kobe 658-8530, Japan" "J.Phys.Soc.Jpn, 81(2012)103702"
154482 JSNM0220343 120 K SC observed by SUS for reduced HxWO3 crystals (proton doped-WO3). H-dependence of Tc measured. HxWO3 H1W1O3 H 1 W 1 O 3 2009 K 120 120 Crystals with HxWO3 surface were prepared by reduction of WO3 in 0.2N HCl in the presence of Zn metal chips at 90 C. Reduction (a few min) A Possible 2D HxWO3 Superconductor with a T c of 120 K 2009 "Department of Materials and Interfaces, Weizmann Institute of Science, Rehovot 76100, Israel" "J.Supercond. Nov. Magn., 22(2009)343"
154483 NATM0120015 "M = (NH2)0.2(NH3)0.8, Substitution of H-to-D shows no effect for Tc." Lix(NH2)y(NH3)1-yFe2Se2 Li0.6M1Fe2Se2 Li 0.6 M 1 Fe 2 Se 2 2013 K 43 43 Enhancement of the superconducting transition temperature of FeSe by intercalation of a molecular spacer layer 2013 "Department of Chemistry, University of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford OX1 3QR, UK" "Nature Mat., 12(2013)15"
154484 PHB4031119 "Tc by SP. Lattice term in SP (beta)=1.27 mJ/mol.K4, (delta)=12.7 mJ/mol.K6, e-ph = 0.48-0.55. DOS = 3.86-3.69 states/eV.fu. (dC/gamma*Tc) = 1.24." La3Pd4Ge4 La3Pd4Ge4 La 3 Pd 4 Ge 4 2008 A3B4C4 U3Ni4Si4 K 2.5 2.5 meV 0.3 14 MSP154484 mJ/mol.K2 27 SP 256 SP "arc-melting - ANN(900-1000C,1w)" Low temperature specific heat of ternary germanide superconductor La3Pd4Ge4 2008 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Physica B, 403(2008)1119"
154485 PHC4630182 impurity phase = LaPd2Ge2. Details of phases are investigated by NPD. La3Pd4Ge4 La3Pd4Ge4 La 3 Pd 4 Ge 4 2007 A3B4C4 U3Ni4Si4 A 4.2293 4.3823 25.0109 K 2.75 2.75 "arc-melting - wrapped in Mo foil - ANN(900C,1w, in vac)" BaAl4-type derivative structure in superconducting La-Pd-Ge system 2007 "Superconducting Materials Center, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Physica C, 463(2007)182"
154486 PHC4970043 RRR = 1.44 MgB2 Mg1B2 Mg 1 B 2 2014 AlB2 A 3.0864 3.5255 K 33 33 Enhancing the superconducting temperature of MgB2 by SWCNT dilution 2014 "Department of Energy and Environmental Engineering, The Pennsylvania State University, University Park, PA 16802, USA" "Physica C, 497(2014)43"
154487 PHC4970043 composite material (MgB2+SWCNT). M = SWCNT(wt% in DB). charge transfer = 0.0023/carbon. RRR = 1.39 MgB2(SWCNT)x Mg1B2M0.05 Mg 1 B 2 M 0.05 2014 AlB2 A 3.0871 3.5256 K 37.5 37.5 "purification of SWCNT - dispersion of SWCNT in MgB2 (ultrasonic bath, 3h,ethanol) - evaporation of ethanol(100C) - pellet" Enhancing the superconducting temperature of MgB2 by SWCNT dilution 2014 "Department of Energy and Environmental Engineering, The Pennsylvania State University, University Park, PA 16802, USA" "Physica C, 497(2014)43"
154488 PHC4970043 composite material (MgB2+SWCNT). M = SWCNT(wt% in DB). charge transfer = 0.0018/carbon. RRR = 1.27 MgB2(SWCNT)x Mg1B2M0.5 Mg 1 B 2 M 0.5 2014 AlB2 A 3.0869 3.5257 K 37.8 37.8 "purification of SWCNT - dispersion of SWCNT in MgB2 (ultrasonic bath, 3h,ethanol) - evaporation of ethanol(100C) - pellet" Enhancing the superconducting temperature of MgB2 by SWCNT dilution 2014 "Department of Energy and Environmental Engineering, The Pennsylvania State University, University Park, PA 16802, USA" "Physica C, 497(2014)43"
154489 PHC4970043 composite material (MgB2+SWCNT). M = SWCNT(wt% in DB). charge transfer = 0.0008/carbon. RRR = 1.20 MgB2(SWCNT)x Mg1B2M5 Mg 1 B 2 M 5 2014 AlB2 A 3.0869 3.5255 K 36.4 36.4 "purification of SWCNT - dispersion of SWCNT in MgB2 (ultrasonic bath, 3h,ethanol) - evaporation of ethanol(100C) - pellet" Enhancing the superconducting temperature of MgB2 by SWCNT dilution 2014 "Department of Energy and Environmental Engineering, The Pennsylvania State University, University Park, PA 16802, USA" "Physica C, 497(2014)43"
154490 PLA0340080 metastable alloy made by liquid quenching. Tc measured by ac bridge. Au25Sb75 Au25Sb75 Au 25 Sb 75 1971 amorphous-like K 6.7 0.5 6.7 melt by induction under Ar atmosphere. Then quenched at a rate of 10E+7 C/sec. SUPERCONDUCTING METASTABLE SIMPLE CUBIC ALLOYS 1971 "W. M. Keck Laboratory of Engineering Materials, California Institute of Technology, Pasadena, California 91109, USA" "Phys.Lett., 34A(1971)80"
154491 PLA0340080 metastable alloy made by liquid quenching. Tc measured by ac bridge. Pd16.5Sb83.5 Pd16.5Sb83.5 Pd 16.5 Sb 83.5 1971 amorphous-like K 4.9 4.9 melt by induction under Ar atmosphere. Then quenched at a rate of 10E+7 C/sec. SUPERCONDUCTING METASTABLE SIMPLE CUBIC ALLOYS 1971 "W. M. Keck Laboratory of Engineering Materials, California Institute of Technology, Pasadena, California 91109, USA" "Phys.Lett., 34A(1971)80"
154492 PLA0340080 metastable alloy made by liquid quenching. Tc measured by ac bridge. In25Sb75 In25Sb75 In 25 Sb 75 1971 amorphous-like K 4.1 4.1 melt by induction under Ar atmosphere. Then quenched at a rate of 10E+7 C/sec. SUPERCONDUCTING METASTABLE SIMPLE CUBIC ALLOYS 1971 "W. M. Keck Laboratory of Engineering Materials, California Institute of Technology, Pasadena, California 91109, USA" "Phys.Lett., 34A(1971)80"
154493 PLA0340080 metastable alloy made by liquid quenching. Tc measured by ac bridge. In31.5Sb68.3 In31.5Sb68.5 In 31.5 Sb 68.5 1971 amorphous-like K 3.7 3.7 melt by induction under Ar atmosphere. Then quenched at a rate of 10E+7 C/sec. SUPERCONDUCTING METASTABLE SIMPLE CUBIC ALLOYS 1971 "W. M. Keck Laboratory of Engineering Materials, California Institute of Technology, Pasadena, California 91109, USA" "Phys.Lett., 34A(1971)80"
154494 PLA0340080 metastable alloy made by liquid quenching. Tc measured by ac bridge. Au30Pd3.3Te66.6 Au30Pd3.3Te66.6 Au 30 Pd 3.3 Te 66.6 1971 A 2.85 amorphous-like K 2.6 2.6 melt by induction under Ar atmosphere. Then quenched at a rate of 10E+7 C/sec. SUPERCONDUCTING METASTABLE SIMPLE CUBIC ALLOYS 1971 "W. M. Keck Laboratory of Engineering Materials, California Institute of Technology, Pasadena, California 91109, USA" "Phys.Lett., 34A(1971)80"
154495 PLA0340080 metastable alloy made by liquid quenching. Tc measured by ac bridge. Au16.7Pd16.6Te66.7 Au16.7Pd16.6Te66.7 Au 16.7 Pd 16.6 Te 66.7 1971 A 2.93 amorphous-like K 4.6 4.6 melt by induction under Ar atmosphere. Then quenched at a rate of 10E+7 C/sec. SUPERCONDUCTING METASTABLE SIMPLE CUBIC ALLOYS 1971 "W. M. Keck Laboratory of Engineering Materials, California Institute of Technology, Pasadena, California 91109, USA" "Phys.Lett., 34A(1971)80"
154496 PMB0930673 SP measured for 1.8 < T < 50 K. Tc(SP) = 2.93 K. Lattice term in SP (beta) = 0.904 mJ/mol.K4. (dC/gamma*Tc) = 0.94 "La(O,F)BiS2" La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 2013 ABCD2 CeOBiS2 P4/nmm A 4.0613 13.3157 K 3.1 3.6 2.8 3.1 T 0.757 mJ/mol.K2 2.53 SP 221 SP "Ln2O3(or CeO2),LnF3,Ln2S3,Bi2S3" "mixture - pellet - sealed in quartz tube(vac) - ANN(800C,10h) - reground - pellet - ANN(800C,10h)" "Superconductivity of F-substituted LnOBiS2 (Ln = La, Ce, Pr, Nd, Yb) compounds" 2013 "Department of Physics, University of California, San Diego, La Jolla, CA 92093, USA" "Philos.Magazine, 93(2013)673"
154497 PMB0930673 SP measured for 1.8 < T < 50 K. "Ce(O,F)BiS2" Ce1Bi1S2F0.5O0.5 Ce 1 Bi 1 S 2 F 0.5 O 0.5 2013 ABCD2 CeOBiS2 P4/nmm A 4.0398 13.4513 K 1.89 2.2 5 1.89 mJ/mol.K2 58.1 SP 224 SP "Ln2O3(or CeO2),LnF3,Ln2S3,Bi2S3" "mixture - pellet - sealed in quartz tube(vac) - ANN(800C,10h) - reground - pellet - ANN(800C,10h)" "Superconductivity of F-substituted LnOBiS2 (Ln = La, Ce, Pr, Nd, Yb) compounds" 2013 "Department of Physics, University of California, San Diego, La Jolla, CA 92093, USA" "Philos.Magazine, 93(2013)673"
154498 PMB0930673 "Pr(O,F)BiS2" Pr1Bi1S2F0.5O0.5 Pr 1 Bi 1 S 2 F 0.5 O 0.5 2013 ABCD2 CeOBiS2 P4/nmm A 4.0192 13.4238 K 4.29 4.5 3.5 4.29 "Ln2O3(or CeO2),LnF3,Ln2S3,Bi2S3" "mixture - pellet - sealed in quartz tube(vac) - ANN(800C,10h) - reground - pellet - ANN(800C,10h)" "Superconductivity of F-substituted LnOBiS2 (Ln = La, Ce, Pr, Nd, Yb) compounds" 2013 "Department of Physics, University of California, San Diego, La Jolla, CA 92093, USA" "Philos.Magazine, 93(2013)673"
154499 PMB0930673 "LNdO,F)BiS2" Nd1Bi1S2F0.5O0.5 Nd 1 Bi 1 S 2 F 0.5 O 0.5 2013 ABCD2 CeOBiS2 P4/nmm A 4.0102 13.4468 K 4.37 4.4 4 4.37 "Ln2O3(or CeO2),LnF3,Ln2S3,Bi2S3" "mixture - pellet - sealed in quartz tube(vac) - ANN(800C,10h) - reground - pellet - ANN(800C,10h)" "Superconductivity of F-substituted LnOBiS2 (Ln = La, Ce, Pr, Nd, Yb) compounds" 2013 "Department of Physics, University of California, San Diego, La Jolla, CA 92093, USA" "Philos.Magazine, 93(2013)673"
154500 PMB0930673 SP measured for 1.8 < T < 50 K. Neel-T by SP "Yb(O,F)BiS2" Yb1Bi1S2F0.5O0.5 Yb 1 Bi 1 S 2 F 0.5 O 0.5 2013 2.65 ABCD2 CeOBiS2 P4/nmm A 3.9851 13.5057 K 5.3 5.4 5 5.3 1.38 mJ/mol.K2 30.1 SP 186 SP "Ln2O3(or CeO2),LnF3,Ln2S3,Bi2S3" "mixture - pellet - sealed in quartz tube(vac) - ANN(800C,10h) - reground - pellet - ANN(800C,10h)" "Superconductivity of F-substituted LnOBiS2 (Ln = La, Ce, Pr, Nd, Yb) compounds" 2013 "Department of Physics, University of California, San Diego, La Jolla, CA 92093, USA" "Philos.Magazine, 93(2013)673"
154501 PHC4630076 "[penet] measured by dM/d(lnH). [penet](T) good fitting to BCS model. Jc(2K,0.5T) = 612 A/cm2." Sc5Ir4Si10 Sc5Ir4Si10 Sc 5 Ir 4 Si 10 3 2007 A4B5C10 Sc5Co4Si10 K 8.4 0.4 8.4 T "SUS, WHH" 0.93 2.03 T/K SUS 0.16 0.35 MHC154501 A from Hc2 127 279 A dM/d(lnH) 2100 840 arc-melting. Crystals grown by floating zone method with growth rate = 2mm/h. Anisotropic superconducting properties in Sc5Ir4Si10 2007 "Department of Applied Physics, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo, Japan" "Physica C, 463-465(2007)76"
154502 PRB082104513 "RRR = 94. Lattice term in SP (beta) = 0.813 mJ/mol.K4. (dTc/gamma*Tc) = 1.53. Hc2(0) = 0.74 T, [cohere] = 210 A by WHH mobel," PrRu4As12 Pr1Ru4As12 Pr 1 Ru 4 As 12 3 2010 myu-B/Pr 3.52 -6.21 AB4C12 skutterudite A 8.508 K 2.5 2.5 100 T SP. linear approx.. 1.07 T/K SP. 0.43 MHC154502 A "from (dHc2/dT), linear approx." 178 mJ/mol.K2 70 SP 344 SP uV/K 18 MTP154502 uOhm.cm 1.04 135 Crystals grown in a molten Cd:As flux. small crystals collected and etched in HCL acid to remove any impurities from surface Superconductivity and crystalline electric field effects in the filled skutterudite PrRu4As12 2010 "Department of Physics, University of California?San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 82(2010)104513"
154503 PRB083214513 RRR = 7. P-induced SC. Tc(zero) appears for 2.5=}}}}
and Tn from Eu<2+>. EuFe2As2 Eu1Fe2As2 Eu 1 Fe 2 As 2 3 2011 AB2C2 ThCr2Si2 Fe-122. K 29 30 0 29 MPH154503 Bridgman method Phase diagram of pressure-induced superconductivity in EuFe2As2 probed by high-pressure resistivity up to 3.2 GPa 2011 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0003, Japan" "Phys.Rev.B, 83(2011)214513"
154504 PRB085054503 T is transition temperature from P4/nmm to Cmma NaFeAs Na1Fe1As1 Na 1 Fe 1 As 1 3 2012 ABC PbFCl P4/nmm K 8.94 8.94 7.8 "See Phys.Rev.Lett., 104(2010)057007" Gradual destruction of magnetism in the superconducting family NaFe1-xCoxAs 2012 "Department of Physics, Clarendon Laboratory, University of Oxford, Parks Road, Oxford, OX1 3PU, United Kingdom" "Phys.Rev.B, 85(2012)054503"
154505 PRB085054503 T is transition temperature from P4/nmm to Cmma "Na(Fe,Co)As" Na1Fe0.995Co0.005As1 Na 1 Fe 0.995 Co 0.005 As 1 3 2012 ABC PbFCl P4/nmm K 9.81 9.81 MPH154505 35.6 "See Phys.Rev.Lett., 104(2010)057007" Gradual destruction of magnetism in the superconducting family NaFe1-xCoxAs 2012 "Department of Physics, Clarendon Laboratory, University of Oxford, Parks Road, Oxford, OX1 3PU, United Kingdom" "Phys.Rev.B, 85(2012)054503"
154506 PRB085054503 T is transition temperature from P4/nmm to Cmma "Na(Fe,Co)As" Na1Fe0.99Co0.01As1 Na 1 Fe 0.99 Co 0.01 As 1 3 2012 ABC PbFCl P4/nmm K 17.8 17.8 79.4 "See Phys.Rev.Lett., 104(2010)057007" Gradual destruction of magnetism in the superconducting family NaFe1-xCoxAs 2012 "Department of Physics, Clarendon Laboratory, University of Oxford, Parks Road, Oxford, OX1 3PU, United Kingdom" "Phys.Rev.B, 85(2012)054503"
154507 PRB085054503 T is transition temperature from P4/nmm to Cmma "Na(Fe,Co)As" Na1Fe0.985Co0.015As1 Na 1 Fe 0.985 Co 0.015 As 1 3 2012 ABC PbFCl P4/nmm K 19.9 19.9 MPH154505 94.1 "See Phys.Rev.Lett., 104(2010)057007" Gradual destruction of magnetism in the superconducting family NaFe1-xCoxAs 2012 "Department of Physics, Clarendon Laboratory, University of Oxford, Parks Road, Oxford, OX1 3PU, United Kingdom" "Phys.Rev.B, 85(2012)054503"
154508 PRB085054503 "Na(Fe,Co)As" Na1Fe0.97Co0.03As1 Na 1 Fe 0.97 Co 0.03 As 1 3 2012 ABC PbFCl P4/nmm K 21 21 100 "See Phys.Rev.Lett., 104(2010)057007" Gradual destruction of magnetism in the superconducting family NaFe1-xCoxAs 2012 "Department of Physics, Clarendon Laboratory, University of Oxford, Parks Road, Oxford, OX1 3PU, United Kingdom" "Phys.Rev.B, 85(2012)054503"
154509 PRB085054503 "Na(Fe,Co)As" Na1Fe0.95Co0.05As1 Na 1 Fe 0.95 Co 0.05 As 1 3 2012 ABC PbFCl P4/nmm K 15.9 15.9 100 "See Phys.Rev.Lett., 104(2010)057007" Gradual destruction of magnetism in the superconducting family NaFe1-xCoxAs 2012 "Department of Physics, Clarendon Laboratory, University of Oxford, Parks Road, Oxford, OX1 3PU, United Kingdom" "Phys.Rev.B, 85(2012)054503"
154510 PRB086064516 RRR = 45. Tc and flux flow resistivity measured by surface impedance. Hc2 defined by R and flux flow. [penet] measured. LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 3 2012 ABC PbFCl K 17 17 T "RES, flux flow" 22 MHC154510 A surface impedance 3900 uOhm.cm 30 1350 self-flux method Microwave surface-impedance measurements of the electronic state and dissipation of magnetic vortices in superconducting LiFeAs single crystals 2012 "Department of Basic Science, The University of Tokyo, Meguro, Tokyo 153-8902, Japan" "Phys.Rev.B, 86(2012)064516"
154511 PRB086144525 [penet] measured by nicro wave surface impedance. "SrFe2(As,P)2" Sr1Fe2As1.4P0.6 Sr 1 Fe 2 As 1.4 P 0.6 3 2012 AB2C2 ThCr2Si2 K 25 25 A surface impedance 2700 uOhm.cm 53.8 240 SrAs self-flux method Investigation of the superconducting gap structure in SrFe2(As0.7P0.3)2 by magnetic penetration depth and flux flow resistivity analysis 2012 "Department of Basic Science, the University of Tokyo, 3-8-1 Komaba, Meguro-ku, Tokyo 153-8902, Japan" "Phys.Rev.B, 86(2012)144525"
154512 PRB087060510 <121/123>Sb-NQR measured. better fitting to s-wave full gap model. T=T= 40 K.from NMR-NQR. BaTi2Sb2O Ba1Ti2Sb2O1 Ba 1 Ti 2 Sb 2 O 1 1 2013 ABC2D2 K 0.95 0.95 4.4 6 solid state reaction s-wave superconductivity in superconducting BaTi2Sb2O revealed by <121/123>Sb-NMR/nuclear quadrupole resonance measurements 2013 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 87(2013)060510"
154513 PRB089014510 dC at Tc = 16.9 mJ/mol.K extracted from Fig.2 (BNC-scaling) "(Ba,Na)Fe2As2" Ba0.85Na0.15Fe2As2 Ba 0.85 Na 0.15 Fe 2 As 2 1 2014 AB2C2 ThCr2Si2 Fe-122 K 5.3 5.3 -0.82 "mixture - sealed in Nb-tube - alumina crucible - sealed in fused silica tube - heat(800C,1-3 days) - heat(850C,1 day) - Q" Heat capacity jump at Tc and pressure derivatives of superconducting transition temperature in the Ba1-xNaxFe2As2 (0.1=< x =< 0.9) series 2014 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)014510"
154514 PRB089014510 dC at Tc = 206 mJ/mol.K extracted from Fig.2 (BNC-scaling) "(Ba,Na)Fe2As2" Ba0.8Na0.2Fe2As2 Ba 0.8 Na 0.2 Fe 2 As 2 1 2014 AB2C2 ThCr2Si2 Fe-122 K 11.8 11.8 MTC154514 5.44 "mixture - sealed in Nb-tube - alumina crucible - sealed in fused silica tube - heat(800C,1-3 days) - heat(850C,1 day) - Q" Heat capacity jump at Tc and pressure derivatives of superconducting transition temperature in the Ba1-xNaxFe2As2 (0.1=< x =< 0.9) series 2014 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)014510"
154515 PRB089014510 dC at Tc = 298 mJ/mol.K extracted from Fig.2 (BNC-scaling) "(Ba,Na)Fe2As2" Ba0.76Na0.24Fe2As2 Ba 0.76 Na 0.24 Fe 2 As 2 1 2014 AB2C2 ThCr2Si2 Fe-122 K 15.9 15.9 MTC154515 -3.5 "mixture - sealed in Nb-tube - alumina crucible - sealed in fused silica tube - heat(800C,1-3 days) - heat(850C,1 day) - Q" Heat capacity jump at Tc and pressure derivatives of superconducting transition temperature in the Ba1-xNaxFe2As2 (0.1=< x =< 0.9) series 2014 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)014510"
154516 PRB089014510 dC at Tc = 533 mJ/mol.K extracted from Fig.2 (BNC-scaling) "(Ba,Na)Fe2As2" Ba0.7Na0.3Fe2As2 Ba 0.7 Na 0.3 Fe 2 As 2 1 2014 AB2C2 ThCr2Si2 Fe-122 K 23.8 23.8 MTC154516 -2.62 "mixture - sealed in Nb-tube - alumina crucible - sealed in fused silica tube - heat(800C,1-3 days) - heat(850C,1 day) - Q" Heat capacity jump at Tc and pressure derivatives of superconducting transition temperature in the Ba1-xNaxFe2As2 (0.1=< x =< 0.9) series 2014 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)014510"
154517 PRB089014510 dC at Tc = 4537 mJ/mol.K extracted from Fig.2 (BNC-scaling) "(Ba,Na)Fe2As2" Ba0.65Na0.35Fe2As2 Ba 0.65 Na 0.35 Fe 2 As 2 1 2014 AB2C2 ThCr2Si2 Fe-122 K 33.1 33.1 MTC154516 -0.63 "mixture - sealed in Nb-tube - alumina crucible - sealed in fused silica tube - heat(800C,1-3 days) - heat(850C,1 day) - Q" Heat capacity jump at Tc and pressure derivatives of superconducting transition temperature in the Ba1-xNaxFe2As2 (0.1=< x =< 0.9) series 2014 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)014510"
154518 PRB089014510 dC at Tc = 4332 mJ/mol.K extracted from Fig.2 (BNC-scaling) "(Ba,Na)Fe2As2" Ba0.6Na0.4Fe2As2 Ba 0.6 Na 0.4 Fe 2 As 2 1 2014 AB2C2 ThCr2Si2 Fe-122 K 33.7 33.7 MTC154516 -0.87 "mixture - sealed in Nb-tube - alumina crucible - sealed in fused silica tube - heat(800C,1-3 days) - heat(850C,1 day) - Q" Heat capacity jump at Tc and pressure derivatives of superconducting transition temperature in the Ba1-xNaxFe2As2 (0.1=< x =< 0.9) series 2014 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)014510"
154519 PRB089014510 dC at Tc = 3789 mJ/mol.K extracted from Fig.2 (BNC-scaling) "(Ba,Na)Fe2As2" Ba0.5Na0.5Fe2As2 Ba 0.5 Na 0.5 Fe 2 As 2 1 2014 AB2C2 ThCr2Si2 Fe-122 K 32.8 32.8 MTC154516 -1.14 "mixture - sealed in Nb-tube - alumina crucible - sealed in fused silica tube - heat(800C,1-3 days) - heat(850C,1 day) - Q" Heat capacity jump at Tc and pressure derivatives of superconducting transition temperature in the Ba1-xNaxFe2As2 (0.1=< x =< 0.9) series 2014 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)014510"
154520 PRB089014510 dC at Tc = 2987 mJ/mol.K extracted from Fig.2 (BNC-scaling) "(Ba,Na)Fe2As2" Ba0.4Na0.6Fe2As2 Ba 0.4 Na 0.6 Fe 2 As 2 1 2014 AB2C2 ThCr2Si2 Fe-122 K 28.7 28.7 MTC154520 -1.07 "mixture - sealed in Nb-tube - alumina crucible - sealed in fused silica tube - heat(800C,1-3 days) - heat(850C,1 day) - Q" Heat capacity jump at Tc and pressure derivatives of superconducting transition temperature in the Ba1-xNaxFe2As2 (0.1=< x =< 0.9) series 2014 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)014510"
154521 PRB089014510 dC at Tc = 1397 mJ/mol.K extracted from Fig.2 (BNC-scaling) "(Ba,Na)Fe2As2" Ba0.3Na0.7Fe2As2 Ba 0.3 Na 0.7 Fe 2 As 2 1 2014 AB2C2 ThCr2Si2 Fe-122 K 24.2 24.2 MTC154520 -1.04 "mixture - sealed in Nb-tube - alumina crucible - sealed in fused silica tube - heat(800C,1-3 days) - heat(850C,1 day) - Q" Heat capacity jump at Tc and pressure derivatives of superconducting transition temperature in the Ba1-xNaxFe2As2 (0.1=< x =< 0.9) series 2014 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)014510"
154522 PRB089014510 dC at Tc = 868 mJ/mol.K extracted from Fig.2 (BNC-scaling) "(Ba,Na)Fe2As2" Ba0.2Na0.8Fe2As2 Ba 0.2 Na 0.8 Fe 2 As 2 1 2014 AB2C2 ThCr2Si2 Fe-122 K 19.2 19.2 MTC154520 -0.78 "mixture - sealed in Nb-tube - alumina crucible - sealed in fused silica tube - heat(800C,1-3 days) - heat(850C,1 day) - Q" Heat capacity jump at Tc and pressure derivatives of superconducting transition temperature in the Ba1-xNaxFe2As2 (0.1=< x =< 0.9) series 2014 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)014510"
154523 PRB089014510 dC at Tc = 150 mJ/mol.K extracted from Fig.2 (BNC-scaling) "(Ba,Na)Fe2As2" Ba0.1Na0.9Fe2As2 Ba 0.1 Na 0.9 Fe 2 As 2 1 2014 AB2C2 ThCr2Si2 Fe-122 K 18.4 18.4 MTC154520 -0.49 "mixture - sealed in Nb-tube - alumina crucible - sealed in fused silica tube - heat(800C,1-3 days) - heat(850C,1 day) - Q" Heat capacity jump at Tc and pressure derivatives of superconducting transition temperature in the Ba1-xNaxFe2As2 (0.1=< x =< 0.9) series 2014 "Ames Laboratory, U.S. DOE and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)014510"
154524 PRB089024517 "Debye-T(RES) = 302K, Hc2(0) = 0.21Tby WHH, (dC/gamma*Tc) = 0.73, e-ph = 0.52, DOS = 2.95 states/eV.f.u from [gamma]" LaRhP La1Rh1P1 La 1 Rh 1 P 1 1 2014 ABC 2 LaPtSi I4<1>md A 4.1846 14.9358 K 2.5 0.2 2.5 T "RES(0.9Rn), GL" 0.27 MHC154524 A from Hc2 349 mJ/mol.K2 6.95 SP 328 SP "LaP,LaAs,(Rh or Ir)" "mixture - h-BN capsule - heat(1673 K,2h, P=5 GPa)" Superconductivity in noncentrosymmetric ternary equiatomic pnictides LaMP (M = Ir and Rh; P = P and As) 2014 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta, Midori, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)024517"
154525 PRB089024517 "not SC. Debye-T(RES) = 237K, DOS = 3.27 states/eV.f.u from [gamma]" LaRhAs La1Rh1As1 La 1 Rh 1 As 1 1 2014 ABC 2 LaPtSi I4<1>md A 4.1257 14.3839 K 1.9 mJ/mol.K2 7.71 SP 263 SP "LaP,LaAs,(Rh or Ir)" "mixture - h-BN capsule - heat(1673 K,2h, P=5 GPa)" Superconductivity in noncentrosymmetric ternary equiatomic pnictides LaMP (M = Ir and Rh; P = P and As) 2014 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta, Midori, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)024517"
154526 PRB089024517 "Debye-T(RES) = 294K, Hc2(0) = 1.38 Tby WHH, (dC/gamma*Tc) = 0.65, e-ph = 0.67, DOS = 3.84 states/eV.f.u from [gamma]" LaIrP La1Ir1P1 La 1 Ir 1 P 1 1 2014 ABC 2 LaPtSi I4<1>md A 4.2065 14.9379 K 5.3 0.2 5.3 T "RES(0.9Rn), GL" 1.64 T/K RES(R=0.9Rn) 0.377 MHC154526 A from Hc2 142 mJ/mol.K2 9.07 SP 282 SP "LaP,LaAs,(Rh or Ir)" "mixture - h-BN capsule - heat(1673 K,2h, P=5 GPa)" Superconductivity in noncentrosymmetric ternary equiatomic pnictides LaMP (M = Ir and Rh; P = P and As) 2014 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta, Midori, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)024517"
154527 PRB089024517 "Debye-T(RES) = 240 K, Hc2(0) = 0.55 T by WHH, (dC/gamma*Tc) = 0.84, e-ph = 0.58, DOS = 3.74 states/eV.f.u from [gamma]" LaIrAs La1Ir1As1 La 1 Ir 1 As 1 1 2014 ABC 2 LaPtSi I4<1>md A 4.1505 14.3277 K 3.1 0.2 3.1 T "RES(0.9Rn), GL" 0.64 MHC154527 A from Hc2 227 mJ/mol.K2 8.82 SP 261 SP "LaP,LaAs,(Rh or Ir)" "mixture - h-BN capsule - heat(1673 K,2h, P=5 GPa)" Superconductivity in noncentrosymmetric ternary equiatomic pnictides LaMP (M = Ir and Rh; P = P and As) 2014 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta, Midori, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)024517"
154528 PRB089024518 Pr4Fe2As2TexO4 Pr4Fe2As2Te0.88O4 Pr 4 Fe 2 As 2 Te 0.88 O 4 3 2014 AB2C2D4E4 2 I4/mmm A 4.0165 29.8572 42214-type K 25 25 "crystals grown at high pressure from precursor in NaCl/KCl flux. See Phys.Rev.B, 87(2013)180508" "L4Fe2As2Te1-xO4-yFy (L = Pr, Sm, Gd): A layered oxypnictide superconductor with Tc up to 45 K" 2014 "Institute of Condensed Matter Physics, EPFL, CH-1015 Lausanne, Switzerland" "Phys.Rev.B, 89(2014)024518"
154529 PRB089024518 Sm4Fe2As2TexO4 Sm4Fe2As2Te0.92O4 Sm 4 Fe 2 As 2 Te 0.92 O 4 3 2014 AB2C2D4E4 2 I4/mmm A 3.9642 29.509 42214-type K 25 25 "crystals grown at high pressure from precursor in NaCl/KCl flux. See Phys.Rev.B, 87(2013)180508" "L4Fe2As2Te1-xO4-yFy (L = Pr, Sm, Gd): A layered oxypnictide superconductor with Tc up to 45 K" 2014 "Institute of Condensed Matter Physics, EPFL, CH-1015 Lausanne, Switzerland" "Phys.Rev.B, 89(2014)024518"
154530 PRB089024518 Gd4Fe2As2TexO4 Gd4Fe2As2Te0.9O4 Gd 4 Fe 2 As 2 Te 0.9 O 4 3 2014 AB2C2D4E4 2 I4/mmm A 3.9353 29.369 42214-type K 25 25 "crystals grown at high pressure from precursor in NaCl/KCl flux. See Phys.Rev.B, 87(2013)180508" "L4Fe2As2Te1-xO4-yFy (L = Pr, Sm, Gd): A layered oxypnictide superconductor with Tc up to 45 K" 2014 "Institute of Condensed Matter Physics, EPFL, CH-1015 Lausanne, Switzerland" "Phys.Rev.B, 89(2014)024518"
154531 PRB089024518 F and O content by nominal value. "Sm4Fe2As2Tex(O,F)4" Sm4Fe2As2Te0.72F1.2O2.8 Sm 4 Fe 2 As 2 Te 0.72 F 1.2 O 2.8 3 2014 AB2C2D4E4 2 I4/mmm A 3.9597 29.268 42214-type K 37 40 40 "crystals grown at high pressure from precursor in NaCl/KCl flux. See Phys.Rev.B, 87(2013)180508" "L4Fe2As2Te1-xO4-yFy (L = Pr, Sm, Gd): A layered oxypnictide superconductor with Tc up to 45 K" 2014 "Institute of Condensed Matter Physics, EPFL, CH-1015 Lausanne, Switzerland" "Phys.Rev.B, 89(2014)024518"
154532 PRB089024518 F and O content by nominal value. "Gd4Fe2As2Tex(O,F)4" Gd4Fe2As2Te0.92F0.8O3.2 Gd 4 Fe 2 As 2 Te 0.92 F 0.8 O 3.2 3 2014 AB2C2D4E4 2 I4/mmm A 3.9363 29.35 42214-type K 45 45 "crystals grown at high pressure from precursor in NaCl/KCl flux. See Phys.Rev.B, 87(2013)180508" "L4Fe2As2Te1-xO4-yFy (L = Pr, Sm, Gd): A layered oxypnictide superconductor with Tc up to 45 K" 2014 "Institute of Condensed Matter Physics, EPFL, CH-1015 Lausanne, Switzerland" "Phys.Rev.B, 89(2014)024518"
154533 PRB089035114 NMR of <75>As measured. "Ba(Fe,Co,Mn)2As2" Ba1Fe1.857Co0.13Mn0.013As2 Ba 1 Fe 1.857 Co 0.13 Mn 0.013 As 2 3 2014 AB2C2 ThCr2Si2 Fe-122 K 18 18 "self flux method. mixture(Ba:FeAs:CoAs:MnAs = 1:4-x-y:x:y) - heat(1180C,6h, in evacuated quartz tube) - cool to 1000C(6C/h) - cool to RT." NMR study of electronic correlations in Mn-doped Ba(Fe1-xCox)2As2 and BaFe2(As1-xPx)2 2014 "Laboratoire de Physique des Solides, Universite Paris-Sud, UMR8502, CNRS - F-91405 Orsay Cedex, France" "Phys.Rev.B, 89(2014)035114"
154534 PRB089035114 NMR of <75>As measured. "Ba(Fe,Co,Mn)2As2" Ba1Fe1.832Co0.15Mn0.018As2 Ba 1 Fe 1.832 Co 0.15 Mn 0.018 As 2 3 2014 AB2C2 ThCr2Si2 Fe-122 K 13.5 13.5 "self flux method. mixture(Ba:FeAs:CoAs:MnAs = 1:4-x-y:x:y) - heat(1180C,6h, in evacuated quartz tube) - cool to 1000C(6C/h) - cool to RT." NMR study of electronic correlations in Mn-doped Ba(Fe1-xCox)2As2 and BaFe2(As1-xPx)2 2014 "Laboratoire de Physique des Solides, Universite Paris-Sud, UMR8502, CNRS - F-91405 Orsay Cedex, France" "Phys.Rev.B, 89(2014)035114"
154535 PRB089035114 NMR of <75>As measured. "Ba(Fe,Co,Mn)2As2" Ba1Fe1.86Co0.12Mn0.02As2 Ba 1 Fe 1.86 Co 0.12 Mn 0.02 As 2 3 2014 AB2C2 ThCr2Si2 Fe-122 K 12.5 12.5 "self flux method. mixture(Ba:FeAs:CoAs:MnAs = 1:4-x-y:x:y) - heat(1180C,6h, in evacuated quartz tube) - cool to 1000C(6C/h) - cool to RT." NMR study of electronic correlations in Mn-doped Ba(Fe1-xCox)2As2 and BaFe2(As1-xPx)2 2014 "Laboratoire de Physique des Solides, Universite Paris-Sud, UMR8502, CNRS - F-91405 Orsay Cedex, France" "Phys.Rev.B, 89(2014)035114"
154536 PRB089035114 NMR of <75>As measured. "Ba(Fe,Co,Mn)2As2" Ba1Fe1.84Co0.13Mn0.03As2 Ba 1 Fe 1.84 Co 0.13 Mn 0.03 As 2 3 2014 AB2C2 ThCr2Si2 Fe-122 K 8 8 "self flux method. mixture(Ba:FeAs:CoAs:MnAs = 1:4-x-y:x:y) - heat(1180C,6h, in evacuated quartz tube) - cool to 1000C(6C/h) - cool to RT." NMR study of electronic correlations in Mn-doped Ba(Fe1-xCox)2As2 and BaFe2(As1-xPx)2 2014 "Laboratoire de Physique des Solides, Universite Paris-Sud, UMR8502, CNRS - F-91405 Orsay Cedex, France" "Phys.Rev.B, 89(2014)035114"
154537 PRB089035114 NMR of <75>As and (31>P measured. "BaFe2(As,P)2" Ba1Fe2As1.3P0.7 Ba 1 Fe 2 As 1.3 P 0.7 1 2014 AB2C2 ThCr2Si2 Fe-122 K 30 30 "Ba,Fe,MnAs,P,As" "solid state reaction. mixture - heat(950C,36h)" NMR study of electronic correlations in Mn-doped Ba(Fe1-xCox)2As2 and BaFe2(As1-xPx)2 2014 "Laboratoire de Physique des Solides, Universite Paris-Sud, UMR8502, CNRS - F-91405 Orsay Cedex, France" "Phys.Rev.B, 89(2014)035114"
154538 PRB089035114 NMR of <75>As and (31>P measured. "Ba(Fe,Mn)2(As,P)2" Ba1Fe1.97Mn0.03As1.3P0.7 Ba 1 Fe 1.97 Mn 0.03 As 1.3 P 0.7 1 2014 AB2C2 ThCr2Si2 Fe-122 K 16 16 "Ba,Fe,MnAs,P,As" "solid state reaction. mixture - heat(950C,36h)" NMR study of electronic correlations in Mn-doped Ba(Fe1-xCox)2As2 and BaFe2(As1-xPx)2 2014 "Laboratoire de Physique des Solides, Universite Paris-Sud, UMR8502, CNRS - F-91405 Orsay Cedex, France" "Phys.Rev.B, 89(2014)035114"
154539 PRB089035114 NMR of <75>As and (31>P measured. "Ba(Fe,Mn)2(As,P)2" Ba1Fe1.94Mn0.06As1.3P0.7 Ba 1 Fe 1.94 Mn 0.06 As 1.3 P 0.7 1 2014 AB2C2 ThCr2Si2 Fe-122 K 2 "Ba,Fe,MnAs,P,As" "solid state reaction. mixture - heat(950C,36h)" NMR study of electronic correlations in Mn-doped Ba(Fe1-xCox)2As2 and BaFe2(As1-xPx)2 2014 "Laboratoire de Physique des Solides, Universite Paris-Sud, UMR8502, CNRS - F-91405 Orsay Cedex, France" "Phys.Rev.B, 89(2014)035114"
154540 PRB089041101 Actualconcentration of Hg (in DB value) is 20 % of nominal values. CeIrIn5 Ce1Ir1In5 Ce 1 Ir 1 In 5 3 2014 ABC5 2 HoCoGa5 K 1.273 1.273 mJ/mol.K2 726 SP single crystals grown by In self-flux method. CeIrIn5: Superconductivity on a magnetic instability 2014 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 89(2014)041101"
154544 PHC4702040 "major grain: Mo0.32Sn0.01Sr1.9Y1.2Cu2.9Oz by EDX position of Sn : Mo-site, grain boundary" Mo(Snx)Sr2YCu2O8 Mo1Sn0.03Sr2Y1Cu2O8-z Mo 1 Sn 0.03 Sr 2 Y 1 Cu 2 O 8-z 2010 M1212 3.82 11.459 K 26 26 Oe M-H curve 70 2 T R=0.5Rn 3.2 "MoO3,SnO2,Y2O3,SrCO3,CuO" 1 "mixture - pellet - preheat(750C,24h, in air) - (grind & pellet) - SIN(950C,24h, in O2-flow) - (grid & pellet) - (1050C,48h, in O2-flow) - ANN(600C,48h + 400C,24h, in O2-flow)" Superconductivity and critical fields in undoped and Sn-doped MoSr2YCu2O8 2010 "Institute of Solid State Physics, Bulgarian Academy of Sciences, 1784 Sofia, Bulgaria" "Physica C, 470(2010)2040"
154550 PRB089041101 Actualconcentration of Hg (in DB value) is 20 % of nominal values. CeIrIn5-xHgx Ce1Ir1In4.973Hg0.027 Ce 1 Ir 1 In 4.973 Hg 0.027 3 2014 ABC5 2 HoCoGa5 K 0.955 0.955 mJ/mol.K2 769 SP single crystals grown by In self-flux method. CeIrIn5: Superconductivity on a magnetic instability 2014 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 89(2014)041101"
154551 PRB089041101 Actualconcentration of Hg (in DB value) is 20 % of nominal values. CeIrIn5-xHgx Ce1Ir1In4.955Hg0.045 Ce 1 Ir 1 In 4.955 Hg 0.045 3 2014 1.49 ABC5 2 HoCoGa5 K 0.993 0.993 MTC154551 mJ/mol.K2 679 SP single crystals grown by In self-flux method. CeIrIn5: Superconductivity on a magnetic instability 2014 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 89(2014)041101"
154552 PRB089041101 Actualconcentration of Hg (in DB value) is 20 % of nominal values. CeIrIn5-xHgx Ce1Ir1In4.946Hg0.054 Ce 1 Ir 1 In 4.946 Hg 0.054 3 2014 1.77 ABC5 2 HoCoGa5 K 0.476 0.476 MTC154551 mJ/mol.K2 629 SP single crystals grown by In self-flux method. CeIrIn5: Superconductivity on a magnetic instability 2014 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 89(2014)041101"
154553 PRB089041101 Actualconcentration of Hg (in DB value) is 20 % of nominal values. CeIrIn5-xHgx Ce1Ir1In4.775Hg0.225 Ce 1 Ir 1 In 4.775 Hg 0.225 3 2014 8.6 ABC5 2 HoCoGa5 K 0.2 mJ/mol.K2 175 SP single crystals grown by In self-flux method. CeIrIn5: Superconductivity on a magnetic instability 2014 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 89(2014)041101"
154554 PRB089041101 Actualconcentration of Sn (in DB value) is 50 % of nominal values. CeIrIn5-xSnx Ce1Ir1In4.996Sn0.004 Ce 1 Ir 1 In 4.996 Sn 0.004 3 2014 ABC5 2 HoCoGa5 K 1.043 1.043 single crystals grown by In self-flux method. CeIrIn5: Superconductivity on a magnetic instability 2014 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 89(2014)041101"
154555 PRB089041101 Actualconcentration of Sn (in DB value) is 50 % of nominal values. CeIrIn5-xSnx Ce1Ir1In4.986Sn0.014 Ce 1 Ir 1 In 4.986 Sn 0.014 3 2014 ABC5 2 HoCoGa5 K 0.8 0.8 MTC154555 single crystals grown by In self-flux method. CeIrIn5: Superconductivity on a magnetic instability 2014 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 89(2014)041101"
154556 PRB089041101 Actualconcentration of Sn (in DB value) is 50 % of nominal values. CeIrIn5-xSnx Ce1Ir1In4.97Sn0.03 Ce 1 Ir 1 In 4.97 Sn 0.03 3 2014 ABC5 2 HoCoGa5 K 0.66 0.66 MTC154555 single crystals grown by In self-flux method. CeIrIn5: Superconductivity on a magnetic instability 2014 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 89(2014)041101"
154557 PRB089041101 Actualconcentration of Pt (in DB value) is 44 % of nominal values. CeIr1-xPtxIn5 Ce1Ir0.987Pt0.013In5 Ce 1 Ir 0.987 Pt 0.013 In 5 3 2014 ABC5 2 HoCoGa5 K 0.897 0.897 mJ/mol.K2 692 SP single crystals grown by In self-flux method. CeIrIn5: Superconductivity on a magnetic instability 2014 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 89(2014)041101"
154558 PRB089041101 Actualconcentration of Pt (in DB value) is 44 % of nominal values. CeIr1-xPtxIn5 Ce1Ir0.978Pt0.022In5 Ce 1 Ir 0.978 Pt 0.022 In 5 3 2014 ABC5 2 HoCoGa5 K 0.734 0.734 MTC154558 single crystals grown by In self-flux method. CeIrIn5: Superconductivity on a magnetic instability 2014 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 89(2014)041101"
154559 PRB089041101 Actualconcentration of Pt (in DB value) is 44 % of nominal values. CeIr1-xPtxIn5 Ce1Ir0.956Pt0.044In5 Ce 1 Ir 0.956 Pt 0.044 In 5 3 2014 ABC5 2 HoCoGa5 K 0.429 0.429 MTC154558 mJ/mol.K2 633 SP single crystals grown by In self-flux method. CeIrIn5: Superconductivity on a magnetic instability 2014 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 89(2014)041101"
154560 PRB089041101 not SC. Actualconcentration of Sn (in DB value) is 50 % of nominal values. Fermi liquid temperature T = 1.0 K. CeIrIn5-xSnx Ce1Ir1In4.95Sn0.05 Ce 1 Ir 1 In 4.95 Sn 0.05 3 2014 ABC5 2 HoCoGa5 K 0.2 mJ/mol.K2 611 SP single crystals grown by In self-flux method. CeIrIn5: Superconductivity on a magnetic instability 2014 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 89(2014)041101"
154561 PRB089041101 not SC. Actualconcentration of Sn (in DB value) is 50 % of nominal values. Fermi liquid temperature T = 2.21 K. CeIrIn5-xSnx Ce1Ir1In4.9Sn0.1 Ce 1 Ir 1 In 4.9 Sn 0.1 3 2014 ABC5 2 HoCoGa5 K 0.2 mJ/mol.K2 519 SP single crystals grown by In self-flux method. CeIrIn5: Superconductivity on a magnetic instability 2014 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 89(2014)041101"
154562 PRB089041101 not SC. Actualconcentration of Sn (in DB value) is 50 % of nominal values. Fermi liquid temperature T = 2.79 K. CeIrIn5-xSnx Ce1Ir1In4.85Sn0.15 Ce 1 Ir 1 In 4.85 Sn 0.15 3 2014 ABC5 2 HoCoGa5 K 0.2 mJ/mol.K2 474 SP single crystals grown by In self-flux method. CeIrIn5: Superconductivity on a magnetic instability 2014 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 89(2014)041101"
154563 PRB089041101 not SC. Actualconcentration of Sn (in DB value) is 50 % of nominal values. Fermi liquid temperature T = 3.51 K. CeIrIn5-xSnx Ce1Ir1In4.8Sn0.2 Ce 1 Ir 1 In 4.8 Sn 0.2 3 2014 ABC5 2 HoCoGa5 K 0.2 MTC154555 mJ/mol.K2 423 SP single crystals grown by In self-flux method. CeIrIn5: Superconductivity on a magnetic instability 2014 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 89(2014)041101"
154564 PRB089041101 not SC. Actualconcentration of Sn (in DB value) is 50 % of nominal values. Fermi liquid temperature T = 4.49 K. CeIrIn5-xSnx Ce1Ir1In4.65Sn0.35 Ce 1 Ir 1 In 4.65 Sn 0.35 3 2014 ABC5 2 HoCoGa5 K 0.2 mJ/mol.K2 298 SP single crystals grown by In self-flux method. CeIrIn5: Superconductivity on a magnetic instability 2014 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 89(2014)041101"
154565 PRB089041101 not SC. Actualconcentration of Pt (in DB value) is 44 % of nominal values. Fermi liquid temperature T = 1.21 K. CeIr1-xPtxIn5 Ce1Ir0.932Pt0.068In5 Ce 1 Ir 0.932 Pt 0.068 In 5 3 2014 ABC5 2 HoCoGa5 K 0.2 mJ/mol.K2 532 SP single crystals grown by In self-flux method. CeIrIn5: Superconductivity on a magnetic instability 2014 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 89(2014)041101"
154566 PRB089041101 not SC. Actualconcentration of Pt (in DB value) is 44 % of nominal values. Fermi liquid temperature T = 2.84 K. CeIr1-xPtxIn5 Ce1Ir0.828Pt0.172In5 Ce 1 Ir 0.828 Pt 0.172 In 5 3 2014 ABC5 2 HoCoGa5 K 0.2 MTC154558 mJ/mol.K2 420 SP single crystals grown by In self-flux method. CeIrIn5: Superconductivity on a magnetic instability 2014 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 89(2014)041101"
154567 PRB089041101 not SC. Actualconcentration of Pt (in DB value) is 44 % of nominal values. Fermi liquid temperature T = 4.22 K. CeIr1-xPtxIn5 Ce1Ir0.736Pt0.264In5 Ce 1 Ir 0.736 Pt 0.264 In 5 3 2014 ABC5 2 HoCoGa5 K 0.2 mJ/mol.K2 255 SP single crystals grown by In self-flux method. CeIrIn5: Superconductivity on a magnetic instability 2014 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 89(2014)041101"
154568 PRB089054502 "Hc2(0) by WHH for H//ab, Gurevich model for H//c. Anisotropy(Hc2) = 2.83 at t=0.6. T = 53.6 K." NsFeAs Na1Fe1As1 Na 1 Fe 1 As 1 3 2014 44.4 ABC PbFCl Fe-111 K 11.1 11.1 T "pulsed H, resonance,WHH" 16.4 10.1 T/K "pulsed H, resonance" 6 MHC154568 A from Hc2 57.5 34.2 um SC carrier density 1.36 mixture(NaAs:Fe1-xCox=2:1) - alumina crucible - sealed in Nb tube - silica ampule - heat to 900C (1C/min) - slow cool to 400C (5C/h) - Q to RT Upper critical field of NaFe1-xCoxAs superconductors 2014 "Clarendon Laboratory, Department of Physics, University of Oxford, Parks Road, Oxford OX1 3PU, United Kingdom" "Phys.Rev.B, 89(2014)054502"
154569 PRB089054502 "Hc2(0) by WHH for H//ab, Gurevich model for H//c. Anisotropy(Hc2) = 1.96 at t=0.9. T = 30.8 K." NaFe1-xCoxAs Na1Fe0.99Co0.01As1 Na 1 Fe 0.99 Co 0.01 As 1 3 2014 27.6 ABC PbFCl Fe-111 K 13 13 T "pulsed H, resonance,WHH" 45.5 36.9 T/K "pulsed H, resonance" 5.44 MHC154569 A from Hc2 28.7 24.9 um SC carrier density 0.544 mixture(NaAs:Fe1-xCox=2:1) - alumina crucible - sealed in Nb tube - silica ampule - heat to 900C (1C/min) - slow cool to 400C (5C/h) - Q to RT Upper critical field of NaFe1-xCoxAs superconductors 2014 "Clarendon Laboratory, Department of Physics, University of Oxford, Parks Road, Oxford OX1 3PU, United Kingdom" "Phys.Rev.B, 89(2014)054502"
154570 PRB089054502 "Hc2(0) by WHH for H//ab, Gurevich model for H//c. Anisotropy(Hc2) = 2.78 at t=0.9. T = 29.8 K." NaFe1-xCoxAs Na1Fe0.98Co0.02As1 Na 1 Fe 0.98 Co 0.02 As 1 3 2014 ABC PbFCl Fe-111 K 18.8 18.8 MPH154570 T "pulsed H, resonance,WHH" 50.9 44.1 T/K "pulsed H, resonance" 10 MHC154570 A from Hc2 27 23.8 um SC carrier density 0.402 mixture(NaAs:Fe1-xCox=2:1) - alumina crucible - sealed in Nb tube - silica ampule - heat to 900C (1C/min) - slow cool to 400C (5C/h) - Q to RT Upper critical field of NaFe1-xCoxAs superconductors 2014 "Clarendon Laboratory, Department of Physics, University of Oxford, Parks Road, Oxford OX1 3PU, United Kingdom" "Phys.Rev.B, 89(2014)054502"
154571 PRB089054502 "Hc2(0) by WHH for H//ab, Gurevich model for H//c. Anisotropy(Hc2) = 6.77 at t=0.9." NaFe1-xCoxAs Na1Fe0.97Co0.03As1 Na 1 Fe 0.97 Co 0.03 As 1 3 2014 ABC PbFCl Fe-111 K 20.4 20.4 T "pulsed H, resonance,WHH" 61.9 55.9 T/K "pulsed H, resonance" 10 MHC154571 A from Hc2 24.2 22 um SC carrier density 0.309 mixture(NaAs:Fe1-xCox=2:1) - alumina crucible - sealed in Nb tube - silica ampule - heat to 900C (1C/min) - slow cool to 400C (5C/h) - Q to RT Upper critical field of NaFe1-xCoxAs superconductors 2014 "Clarendon Laboratory, Department of Physics, University of Oxford, Parks Road, Oxford OX1 3PU, United Kingdom" "Phys.Rev.B, 89(2014)054502"
154572 PRB089054502 "Hc2(0) by WHH for H//ab, Gurevich model for H//c. Anisotropy(Hc2) = 5.89 at t=0.9." NaFe1-xCoxAs Na1Fe0.95Co0.05As1 Na 1 Fe 0.95 Co 0.05 As 1 3 2014 ABC PbFCl Fe-111 K 17 17 T "pulsed H, resonance,WHH" 50.4 45 T/K "pulsed H, resonance" 9.78 MHC154572 A from Hc2 26.3 24.9 um SC carrier density 0.517 mixture(NaAs:Fe1-xCox=2:1) - alumina crucible - sealed in Nb tube - silica ampule - heat to 900C (1C/min) - slow cool to 400C (5C/h) - Q to RT Upper critical field of NaFe1-xCoxAs superconductors 2014 "Clarendon Laboratory, Department of Physics, University of Oxford, Parks Road, Oxford OX1 3PU, United Kingdom" "Phys.Rev.B, 89(2014)054502"
154573 PRB089054502 "Hc2(0) by WHH for H//ab, Gurevich model for H//c. Anisotropy(Hc2) = 4.94 at t=0.9." NaFe1-xCoxAs Na1Fe0.92Co0.08As1 Na 1 Fe 0.92 Co 0.08 As 1 3 2014 ABC PbFCl Fe-111 K 7.53 7.53 T "pulsed H, resonance,WHH" 26 15.7 T/K "pulsed H, resonance" 7.22 MHC154573 A from Hc2 44.5 28 um SC carrier density 0.667 mixture(NaAs:Fe1-xCox=2:1) - alumina crucible - sealed in Nb tube - silica ampule - heat to 900C (1C/min) - slow cool to 400C (5C/h) - Q to RT Upper critical field of NaFe1-xCoxAs superconductors 2014 "Clarendon Laboratory, Department of Physics, University of Oxford, Parks Road, Oxford OX1 3PU, United Kingdom" "Phys.Rev.B, 89(2014)054502"
154574 PRB089054514 not SC Ba(Fe1-xCox)2As2 Ba1Fe1.93Co0.07As2 Ba 1 Fe 1.93 Co 0.07 As 2 3 2014 AB2C2 ThCr2Si2 Fe-122 K 0.2 "mixture(FeAs,CoAs,Ba) - in glassy carbon crucible - sealed in SiO2 ampoule - heat to 650C - heat (1200C,5h) - cool to 1000C (1C/h)" High-pressure evolution of the specific heat of a strongly underdoped Ba(Fe0.963Co0.037)As2 iron-based superconductor 2014 "Department of Physics, Hong Kong University of Science & Technology, Clear Water Bay, Kowloon, Hong Kong" "Phys.Rev.B, 89(2014)054514"
154575 PRB089054514 Tc(max) = 27.7 K (Cmid) at P = 2.3 GPa. Ba(Fe1-xCox)2As2 Ba1Fe1.926Co0.074As2 Ba 1 Fe 1.926 Co 0.074 As 2 3 2014 AB2C2 ThCr2Si2 Fe-122 K 6.2 6.2 MTC154575 MSP154575 "mixture(FeAs,CoAs,Ba) - in glassy carbon crucible - sealed in SiO2 ampoule - heat to 650C - heat (1200C,5h) - cool to 1000C (1C/h)" High-pressure evolution of the specific heat of a strongly underdoped Ba(Fe0.963Co0.037)As2 iron-based superconductor 2014 "Department of Physics, Hong Kong University of Science & Technology, Clear Water Bay, Kowloon, Hong Kong" "Phys.Rev.B, 89(2014)054514"
154576 PRB089054514 Ba(Fe1-xCox)2As2 Ba1Fe1.92Co0.08As2 Ba 1 Fe 1.92 Co 0.08 As 2 3 2014 AB2C2 ThCr2Si2 Fe-122 K 6.7 6.7 "mixture(FeAs,CoAs,Ba) - in glassy carbon crucible - sealed in SiO2 ampoule - heat to 650C - heat (1200C,5h) - cool to 1000C (1C/h)" High-pressure evolution of the specific heat of a strongly underdoped Ba(Fe0.963Co0.037)As2 iron-based superconductor 2014 "Department of Physics, Hong Kong University of Science & Technology, Clear Water Bay, Kowloon, Hong Kong" "Phys.Rev.B, 89(2014)054514"
154577 PRB089094505 T = 331. K. Ba1-xRbxTi2Sb2O Ba0.95Rb0.05Ti2Sb2O1 Ba 0.95 Rb 0.05 Ti 2 Sb 2 O 1 1 2014 ABC2D2 CeCr2Si2C P4/mmm A 4.1065 8.0875 K 4.25 4.25 T "RES(0.5Rn),WHH" 1.3 T/K RES(0.5Rn) 0.49 MHC154577 A from Hc2 160 "BaO(4N),Rb2O,Ti(4N),TiO2,Sb(5N)" "mixture - pellet - sealed in Nb ampoule(Ar) -SIN(1000C,72h) - reground - pellet -SIN(1000C,24h)" Superconductivity in rubidium-substituted Ba1-xRbxTi2Sb2O 2014 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 89(2014)094505"
154578 PRB089094505 T = 12.2. K. Ba1-xRbxTi2Sb2O Ba0.9Rb0.1Ti2Sb2O1 Ba 0.9 Rb 0.1 Ti 2 Sb 2 O 1 1 2014 ABC2D2 CeCr2Si2C P4/mmm A 4.1053 8.1011 K 5.33 5.33 "BaO(4N),Rb2O,Ti(4N),TiO2,Sb(5N)" "mixture - pellet - sealed in Nb ampoule(Ar) -SIN(1000C,72h) - reground - pellet -SIN(1000C,24h)" Superconductivity in rubidium-substituted Ba1-xRbxTi2Sb2O 2014 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 89(2014)094505"
154579 PRB089094505 lattice term in SP (beta) = 1.63 mJ/mol.K4. (dC/gamma*Tc) = 1.6 Tc(SP) = 5.4 K. Ba1-xRbxTi2Sb2O Ba0.8Rb0.2Ti2Sb2O1 Ba 0.8 Rb 0.2 Ti 2 Sb 2 O 1 1 2014 ABC2D2 CeCr2Si2C P4/mmm A 4.1016 8.1279 K 6.19 6.19 MPH154579 T "RES(0.5Rn),WHH" 2.3 T/K RES(0.5Rn) 0.61 MHC154579 A from Hc2 120 MSP154579 mJ/mol.K2 14 SP 193 SP "BaO(4N),Rb2O,Ti(4N),TiO2,Sb(5N)" "mixture - pellet - sealed in Nb ampoule(Ar) -SIN(1000C,72h) - reground - pellet -SIN(1000C,24h)" Superconductivity in rubidium-substituted Ba1-xRbxTi2Sb2O 2014 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 89(2014)094505"
154580 PRB089094505 Ba1-xRbxTi2Sb2O Ba0.7Rb0.3Ti2Sb2O1 Ba 0.7 Rb 0.3 Ti 2 Sb 2 O 1 1 2014 ABC2D2 CeCr2Si2C P4/mmm A 4.0983 8.1386 K 5.93 5.93 "BaO(4N),Rb2O,Ti(4N),TiO2,Sb(5N)" "mixture - pellet - sealed in Nb ampoule(Ar) -SIN(1000C,72h) - reground - pellet -SIN(1000C,24h)" Superconductivity in rubidium-substituted Ba1-xRbxTi2Sb2O 2014 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 89(2014)094505"
154581 PRB089094505 Ba1-xRbxTi2Sb2O Ba0.6Rb0.4Ti2Sb2O1 Ba 0.6 Rb 0.4 Ti 2 Sb 2 O 1 1 2014 ABC2D2 CeCr2Si2C P4/mmm A 4.0937 8.1773 K 5.71 5.71 "BaO(4N),Rb2O,Ti(4N),TiO2,Sb(5N)" "mixture - pellet - sealed in Nb ampoule(Ar) -SIN(1000C,72h) - reground - pellet -SIN(1000C,24h)" Superconductivity in rubidium-substituted Ba1-xRbxTi2Sb2O 2014 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 89(2014)094505"
154582 PRB089094509 impurity phase: LaSi2(5wt%). lattice term in SP (beta) = 0.155 mJ/mol.K4. e-ph = 0.51. (dC/gamma*Tc) = 1.37. type-I SC. LaPdSi3 La1Pd1Si3 La 1 Pd 1 Si 3 1 2014 ABC3 BaNiSn3 I4/mm 107 A 4.3542 9.664 K 2.63 2.65 2.7 2.6 2.65 100 Oe "SP, muon-SR, extrapolation" 182.7 MHC154582 3.514 14 mJ/mol.K2 4.67 SP 397 SP "arc-melting - wrapped in Ta foil - in quartz tube - ANN(900C,2w)" Investigations of the superconducting states of noncentrosymmetric LaPdSi3 and LaPtSi3 2014 "Department of Physics, University of Warwick, Coventry CV4 7AL, United Kingdom" "Phys.Rev.B, 89(2014)094509"
154583 PRB089094509 lattice term in SP (beta) = 0.238 mJ/mol.K4. e-ph = 0.47. (dC/gamma*Tc) = 1.33. Hc2(0) = 526 G from R(zero) and WHH.. GL-parameter=2.49. LaPtSi3 La1Pt1Si3 La 1 Pt 1 Si 3 1 2014 ABC3 BaNiSn3 I4/mm 107 A 4.3474 9.6368 K 1.43 1.52 1.58 1.58 1.52 Oe "muon-SR, extrapolation" 360 MHC154583 A from Hc2 960 A muon-R 2390 mJ/mol.K2 4.41 SP 344 SP "arc-melting - wrapped in Ta foil - in quartz tube - ANN(900C,2w)" Investigations of the superconducting states of noncentrosymmetric LaPdSi3 and LaPtSi3 2014 "Department of Physics, University of Warwick, Coventry CV4 7AL, United Kingdom" "Phys.Rev.B, 89(2014)094509"
154584 PRB089094514 "not SC. MI(Mott insulator) to M'(intermediate metallic state) transition at T. Reentrant to MI at T'. For P>10GPa, R(T) shows kink at T." "(Tl,Rb)Fe2Se2" Tl0.36Rb0.44Fe1.56Se2 Tl 0.36 Rb 0.44 Fe 1.56 Se 2 3 2014 AB2C2 ThCr2Si2 245-phase K 4 MPH154584 Bridgeman method Role of the 245 phase in alkaline iron selenide superconductors revealed by high-pressure studies 2014 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 89(2014)094514"
154585 PRB089094514 "not SC. MI(Mott insulator) to M'(intermediate metallic state) transition at T. Reentrant to MI at T'. For P>10GPa, R(T) shows kink at T." KFe2Se2 K0.8Fe1.6Se2 K 0.8 Fe 1.6 Se 2 3 2014 AB2C2 ThCr2Si2 245-phase K 4 MPH154585 Bridgeman method Role of the 245 phase in alkaline iron selenide superconductors revealed by high-pressure studies 2014 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 89(2014)094514"
154586 PRB089094514 "MI(Mott insulator) to M'(intermediate metallic state) transition at T. For P>10 GPa, second SC dome apperas (Tc(max) = 47 K at P=12.4 GPa)" "(Tl,Rb)Fe2Se2" Tl0.4Rb0.4Fe1.67Se2 Tl 0.4 Rb 0.4 Fe 1.67 Se 2 3 2014 AB2C2 ThCr2Si2 K 31.8 31.8 MPH154586 Bridgeman method Role of the 245 phase in alkaline iron selenide superconductors revealed by high-pressure studies 2014 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 89(2014)094514"
154587 PRB089094514 "MI(Mott insulator) to M'(intermediate metallic state) transition at T. For P>10 GPa, second SC dome apperas (Tc(max) = 48 K at P=12.5 GPa)" KFe2Se2 K0.8Fe1.7Se2 K 0.8 Fe 1.7 Se 2 3 2014 AB2C2 ThCr2Si2 K 32 32 MPH154587 Bridgeman method Role of the 245 phase in alkaline iron selenide superconductors revealed by high-pressure studies 2014 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 89(2014)094514"
154588 PRB089094520 "RRR = 18.4. R(T) has a hump at 147 K, where thermal conductivity shows clear drop and SP-jump (dC = 20.2J/mol.K)." Sr3Ir4Sn13 Sr3Ir4Sn13 Sr 3 Ir 4 Sn 13 3 2014 A3B4C13 Yb3Rh4Sn13 Pm3[-]n A 9.7964 K 5 5 W/m.K 22.7 uV/K 2.94 MTP154588 uOhm.cm 1.93 35.5 cm3/C -0.0000863 3 MRH154588 self-flux method. mixture(Sr:Ir:Sn = 2.5:1:25) - sealed in evacuated quartz tube - heat to 1323 K - cool to 773 K over 72h. Characteristics of the phase transition near 147 K in Sr3Ir4Sn13 2014 "Department of Physics, National Cheng Kung University, Tainan 70101, Taiwan" "Phys.Rev.B, 89(2014)094520"
154589 PRB089100501 Anisotropy(Hc2) = 2. Energy gap(0.4 K) = 0.36 meV by STS tunneling. "(Ir,Pd)Te2" Ir0.95Pd0.05Te2 Ir 0.95 Pd 0.05 Te 2 3 2014 AB2 P3[-]ml A 5.372 K 2 2.5 2.5 2.5 60 T "SUS,WHH" 0.33 0.16 A from Hc2 450 220 meV 0.39 3.6 1 crystals grown by chemical vapor transport method. T-gradient = 60 C (Hot-880C) Fully gapped s-wave-like superconducting state and electronic structure in Ir0.95Pd0.05Te2 single crystals with strong spin-orbital coupling 2014 "Key Laboratory of Artificial Structures and Quantum Control (Ministry of Education), Department of Physics and Astronomy, Shanghai Jiao Tong University, Shanghai 200240, China" "Phys.Rev.B, 89(2014)100501"
154590 PRB089104520 KxWO3 K0.38W1O3 K 0.38 W 1 O 3 1 2014 2 bronze P4/mbm 127 A 12.256 3.8247 K 2 2.09 2.19 0.2 2.09 "K2WO4,WO3,WO2" solid state reaction Superconducting properties of the KxWO3 tetragonal tungsten bronze and the superconducting phase diagram of the tungsten bronze family 2014 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 89(2014)104520"
154591 PRB089104520 "(dC/gamma*Tc) = 1.03, Tc(SP) = 1.5 K. Lattice term in SP 8beta) = 0.59 mJ/mol.K2. e-ph coupling = 0.52. DOS = 0.27 states /eV.f.u fro [gamma]" KxWO3 K0.4W1O3 K 0.4 W 1 O 3 1 2014 2 bronze P4/mbm 127 A 12.258 3.8252 K 1.65 1.74 1.81 0.2 1.74 T "RES(0.5Rn), WHH" 0.14 T/K RES(0.5Rn) 0.12 MHC154591 A from Hc2 485 MSP154591 mJ/mol.K2 4.15 SP 242 SP mOhm.cm 0.27 "K2WO4,WO3,WO2" solid state reaction Superconducting properties of the KxWO3 tetragonal tungsten bronze and the superconducting phase diagram of the tungsten bronze family 2014 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 89(2014)104520"
154592 PRB089104520 KxWO3 K0.42W1O3 K 0.42 W 1 O 3 1 2014 2 bronze P4/mbm 127 A 12.264 3.8271 K 1.3 1.34 1.5 0.2 1.34 "K2WO4,WO3,WO2" solid state reaction Superconducting properties of the KxWO3 tetragonal tungsten bronze and the superconducting phase diagram of the tungsten bronze family 2014 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 89(2014)104520"
154593 PRB089104520 KxWO3 K0.45W1O3 K 0.45 W 1 O 3 1 2014 2 bronze P4/mbm 127 A 12.272 3.829 K 0.811 0.885 1.1 0.2 0.885 "K2WO4,WO3,WO2" solid state reaction Superconducting properties of the KxWO3 tetragonal tungsten bronze and the superconducting phase diagram of the tungsten bronze family 2014 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 89(2014)104520"
154594 PRB089104520 not SC. KxWO3 K0.5W1O3 K 0.5 W 1 O 3 1 2014 2 bronze P4/mbm 127 A 12.279 3.831 K 0.4 0.2 "K2WO4,WO3,WO2" solid state reaction Superconducting properties of the KxWO3 tetragonal tungsten bronze and the superconducting phase diagram of the tungsten bronze family 2014 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 89(2014)104520"
154595 PRB089125111 Hc2(T) fitting to GL theory. Residual gamma = 9 mJ/mol.K2. Lattice term in SP (beta) = 2 mJ/mol.K2. (dC/gamma*Tc) = 1.5 La3Co4Sn13 La3Co4Sn13 La 3 Co 4 Sn 13 1 2014 A3B4C13 Yb3Co4Sn13 K 1.95 1.95 MTC154595 K/GPa 0.03 T "RES(0.5Rn), GL" 1.38 MHC154595 A from Hc2 160 K 3.5 3.6 14 mJ/mol.K2 26 SP 268 SP "arc-melting. ANN(870C,12d)" Superconductivity of La3Co4Sn13 and La3Rh4Sn13: A comparative study 2014 "Institute of Physics, University of Silesia, 40-007 Katowice, Poland" "Phys.Rev.B, 89(2014)125111"
154596 PRB089125111 Two step SC transition (2.85 and 2.10 K)Hc2(T) fitting to GL theory. Residual gamma = 6 mJ/mol.K2. Lattice term in SP (beta) = 3 mJ/mol.K2. (dC/gamma*Tc) = 1.5 La3Rh4Sn13 La3Co4Sn13 La 3 Co 4 Sn 13 1 2014 A3B4C13 Yb3Co4Sn13 K 2.85 2.85 MTC154596 K/GPa -0.05 T "RES(0.5Rn), GL" 1.6 MHC154596 A from Hc2 140 K 4.4 4.1 14 mJ/mol.K2 15 SP 234 SP "arc-melting. ANN(870C,12d)" Superconductivity of La3Co4Sn13 and La3Rh4Sn13: A comparative study 2014 "Institute of Physics, University of Silesia, 40-007 Katowice, Poland" "Phys.Rev.B, 89(2014)125111"
154597 PRB089174515 "Hc2(T) for samples with randomly oriented powder sample, was discussed. Anisotropy = 7.4." "La(O,F)BiS2" La1F0.5Bi1S2O0.5 La 1 F 0.5 Bi 1 S 2 O 0.5 1 2014 ABCD2 CeOBiS2 P4/nmm K 7.7 10.8 9.25 T RES(0.99Rn) MHC154597 "La2S3,Bi2O3,BiF3,Bi2S3,Bi" "High-P synthesis. mixture - pellet - sealed in BN crucible - high-P cell - heat(700C,1h, P=2 GPa)" Anisotropic upper critical field of the BiS2-based superconductor LaO0.5F0.5BiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1 Minami-osawa, Hachioji, Tokyo 192-0397, Japan" "Phys.Rev.B, 89(2014)174515"
154598 PRB089205136 "Magnetic phase diagram(T vs H) measured by torque, RES,tunnel diode method. Anisotropy(Hc2) = 10." Ca10(Pt3As8)[(Fe0.922Pt0.078)2As2]5 Ca10Pt0.78Fe9.22As18 Ca 10 Pt 0.78 Fe 9.22 As 18 3 2014 Ca-10-3-8 K 9.96 9.96 T "RES(R=0), WHH" 30 20 MHC154598 "See Proc.Natl.Acad.Sci.USA, 108,E1019(2011)" Field-induced magnetic transitions in Ca10(Pt3As8)((Fe1-xPtx)2As2)5 compounds 2014 "Clarendon Laboratory, Department of Physics, University of Oxford, Parks Road, Oxford OX1 3PU, United Kindom" "Phys.Rev.B, 89(2014)205136"
154599 PRB089214516 slightly over-doped sample. Hc2(T) obtained from fluctuation conductivity for H > Tc(H). Bi2Sr2CuO6 Bi2.15Sr1.9Cu1O6+z Bi 2.15 Sr 1.9 Cu 1 O 6+z 3 2014 Bi2201 K 4 4 T "RES,fluctuation" MHC154599 Low anisotropy of the upper critical field in a strongly anisotropic layered cuprate Bi2.15Sr1.9CuO6+z: Evidence for a paramagnetically limited superconductivity 2014 "Department of Physics, Stockholm University, AlbaNova University Center, SE-10691 Stockholm, Sweden" "Phys.Rev.B, 89(2014)214516"
154600 PRB089214516 optimally-doped sample. Hc2(T) obtained from fluctuation conductivity for H > Tc(H). Bi2Sr2CuO6 Bi2.15Sr1.9Cu1O6+z Bi 2.15 Sr 1.9 Cu 1 O 6+z 3 2014 Bi2201 K 4.3 4.3 T "RES,fluctuation" MHC154600 Low anisotropy of the upper critical field in a strongly anisotropic layered cuprate Bi2.15Sr1.9CuO6+z: Evidence for a paramagnetically limited superconductivity 2014 "Department of Physics, Stockholm University, AlbaNova University Center, SE-10691 Stockholm, Sweden" "Phys.Rev.B, 89(2014)214516"
154601 PRB089224504 "RRR = 10. (dC/Tc) = 38 mJ/mol.K2, (dC/gamma*Tc) = 1.52. DOS = 10.6 states/eV from [gamma]. R(T) = R0 + A*T^2 (A=1.94E-5 mOhm.cm/K2." Ca3Ir4Ge4 Ca3Ir4Ge4 Ca 3 Ir 4 Ge 4 1 2014 4.517 A3B4C4 Na3Pt4Ge4 I4[-]3m 217 A 7.5689 K 1.4 1.7 1.7 MSP154601 mJ/mol.K2 25 SP 235 SP mOhm.cm 0.04 0.4 "Ir(5N),Ge(5N),Ca(3N)" "solid state reaction. IrGe by heating(600C,12h, in quartz tube). Then, mixture(IrGe+Ca) - pellet - in alumina crucible - sealed in quartz tube - heat to 800C(100C/h) - (800c,20h) - Q to water" Superconductivity and correlated Fermi liquid behavior in noncentrosymmetric Ca3Ir4Ge4 2014 "Physik-Institut der Universitat Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland" "Phys.Rev.B, 89(2014)224504"
154602 PRB090020504 not SC (PbSe)5(Bi2Se3)6 Pb5Bi12Se23 Pb 5 Bi 12 Se 23 3 2014 4 C2/m A 21.551 4.1774 52.918 "monoclinic, alpha=90.0, beta=107.224, gamma=90.0" K 1.2 self-flux method "Dirac fermions and superconductivity in the homologous structures (AgxPb1-xSe)5(Bi2Se3)3m (m = 1,2)" 2014 "Department of Chemistry, Northwestern University, Evanston, Illinois 60208, USA" "Phys.Rev.B, 90(2014)020504"
154603 PRB090020504 not SC (Pb1-xAgxSe)5(Bi2Se3)6 Pb4Ag1Bi12Se23 Pb 4 Ag 1 Bi 12 Se 23 3 2014 4 C2/m A 21.521 4.1747 52.927 "monoclinic, alpha=90.0, beta=107.423, gamma=90.0" K 1.2 self-flux method "Dirac fermions and superconductivity in the homologous structures (AgxPb1-xSe)5(Bi2Se3)3m (m = 1,2)" 2014 "Department of Chemistry, Northwestern University, Evanston, Illinois 60208, USA" "Phys.Rev.B, 90(2014)020504"
154604 PRB090020504 not SC (PbSe)5(Bi2Se3)3 Pb5Bi6Se14 Pb 5 Bi 6 Se 14 3 2014 4 P21/m A 21.4727 4.1915 15.984 "monoclinic, alpha=90.0, beta=97.475, gamma=90.0" K 1.2 self-flux method "Dirac fermions and superconductivity in the homologous structures (AgxPb1-xSe)5(Bi2Se3)3m (m = 1,2)" 2014 "Department of Chemistry, Northwestern University, Evanston, Illinois 60208, USA" "Phys.Rev.B, 90(2014)020504"
154605 PRB090020504 Anisotropy(Hc2) = 1.5. Angular dependence of Hc2 measured. (Pb1-xAgxSe)5(Bi2Se3)3 Pb4Ag1Bi6Se14 Pb 4 Ag 1 Bi 6 Se 14 3 2014 4 P21/m monoclinic K 0.55 1.6 1.075 T "RES(0.9Rn), WHH" 1.1 0.74 T/K RES(0.9Rn) 1.7 0.67 MHC154605 A from Hc2 217 self-flux method "Dirac fermions and superconductivity in the homologous structures (AgxPb1-xSe)5(Bi2Se3)3m (m = 1,2)" 2014 "Department of Chemistry, Northwestern University, Evanston, Illinois 60208, USA" "Phys.Rev.B, 90(2014)020504"
154606 PRB090020504 (Pb1-xAgxSe)5(Bi2Se3)3 Pb3.9Ag1.1Bi6Se14 Pb 3.9 Ag 1.1 Bi 6 Se 14 3 2014 4 P21/m monoclinic K 1.7 1.7 self-flux method "Dirac fermions and superconductivity in the homologous structures (AgxPb1-xSe)5(Bi2Se3)3m (m = 1,2)" 2014 "Department of Chemistry, Northwestern University, Evanston, Illinois 60208, USA" "Phys.Rev.B, 90(2014)020504"
154607 CEM2100238 "sample: (Nb0.87Si0.09X0.04)(N0.87O0.13), where X is cationic vacancy" (Nb0.87Si0.09X0.04)(N0.87O0.13) Nb0.87Si0.09N0.87O0.13 Nb 0.87 Si 0.09 N 0.87 O 0.13 1 2014 AB NaCl K 15.28 16.35 16.62 16.35 T "RES(0.5Rn), Linear approx." 28.07 MHC154607 A from Hc2 34.25 "amorphous oxide precursor - nitride in alumina boat with ammonia - ANN(1200 or 1500C,3h, under 0.5 MPa-N2 in graphite furnace" Local structure around the flux pinning centers in superconducting niobium silicon oxynitride (Nb0.87Si0.09X0.04)(N0.87O0.13) 2014 "Faculty of Engineering, Hokkaido University, N13W8, Kita-ku, Sapporo, Hokkaido 060-8628, Japan" "J.Solid State Chem., 210(2014)238"
154608 CEM2100238 Nb-oxynitrides Nb(N0.87O0.13) Nb1N0.87O0.13 Nb 1 N 0.87 O 0.13 1 2014 AB NaCl K 16.76 17.2 17.72 17.2 T "RES(0.5Rn), Linear approx." 19.8 MHC154608 A from Hc2 40.78 "amorphous oxide precursor - nitride in alumina boat with ammonia - ANN(1200 or 1500C,3h, under 0.5 MPa-N2 in graphite furnace" Local structure around the flux pinning centers in superconducting niobium silicon oxynitride (Nb0.87Si0.09X0.04)(N0.87O0.13) 2014 "Faculty of Engineering, Hokkaido University, N13W8, Kita-ku, Sapporo, Hokkaido 060-8628, Japan" "J.Solid State Chem., 210(2014)238"
154609 PR06012467 compositions not given. Bi-2201 Bi2Sr2CuOz Bi2Sr2Cu1O6+z Bi 2 Sr 2 Cu 1 O 6+z 3 1999 Bi2201 K 6 6 T RES MHC154609 Sr-deficient Bi3Sr2CuOz crystals were grown in a gaseous phase in the large closed cavities of KCl solution melt. Temperature dependence of the upper critical field of Bi2Sr2CuOx single crystals 1999 "High Magnetic Field Laboratory, Max-Planck-Institut fur Festkorperforschung and Centre National de la Recherche Scientifique, Boite Postale, Grenoble Cedex 9, France" "Phys.Rev.B, 60(1999)12467"
154610 PR06012467 compositions not given. Bi-2201 Bi2Sr2CuOz Bi2Sr2Cu1O6+z Bi 2 Sr 2 Cu 1 O 6+z 3 1999 Bi2201 K 9 9 T "RES(0.5Rn), Linear approx." 43 16 MHC154610 A from Hc2 45 15 Sr-deficient Bi3Sr2CuOz crystals were grown in a gaseous phase in the large closed cavities of KCl solution melt. Temperature dependence of the upper critical field of Bi2Sr2CuOx single crystals 1999 "High Magnetic Field Laboratory, Max-Planck-Institut fur Festkorperforschung and Centre National de la Recherche Scientifique, Boite Postale, Grenoble Cedex 9, France" "Phys.Rev.B, 60(1999)12467"
154611 PRB090020505 (Pb0.5Sn0.5)Te Pb0.5Sn0.5Te1 Pb 0.5 Sn 0.5 Te 1 3 2014 NaCl Fm3[-]m A 6.329 K 1.75 modified floating zone method. (5N purity elements) - melt(900C) - cool to RT(100C/h) - floating zone furnace - pre-melt(200mm/h) - growth(1.0 mm/h) Superconductivity induced by In substitution into the topological crystalline insulator Pb0.5Sn0.5Te 2014 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 90(2014)020505"
154612 PRB090020505 (Pb0.5Sn0.5)1-xInxTe Pb0.47Sn0.47In0.06Te1 Pb 0.47 Sn 0.47 In 0.06 Te 1 3 2014 NaCl Fm3[-]m A 6.386 K 1.75 modified floating zone method. (5N purity elements) - melt(900C) - cool to RT(100C/h) - floating zone furnace - pre-melt(200mm/h) - growth(1.0 mm/h) Superconductivity induced by In substitution into the topological crystalline insulator Pb0.5Sn0.5Te 2014 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 90(2014)020505"
154613 PRB090020505 (Pb0.5Sn0.5)1-xInxTe Pb0.445Sn0.445In0.13Te1 Pb 0.445 Sn 0.445 In 0.13 Te 1 3 2014 NaCl Fm3[-]m A 6.378 K 3.2 3.2 MTC154615 T "RES(on), WHH" 4.86 T/K RES(on) 2.2 MHC154614 modified floating zone method. (5N purity elements) - melt(900C) - cool to RT(100C/h) - floating zone furnace - pre-melt(200mm/h) - growth(1.0 mm/h) Superconductivity induced by In substitution into the topological crystalline insulator Pb0.5Sn0.5Te 2014 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 90(2014)020505"
154614 PRB090020505 (Pb0.5Sn0.5)1-xInxTe Pb0.42Sn0.42In0.16Te1 Pb 0.42 Sn 0.42 In 0.16 Te 1 3 2014 NaCl Fm3[-]m A 6.375 K 3.4 3.4 MTC154615 T "RES(on), WHH" 5.07 T/K RES(on) 2.16 MHC154614 modified floating zone method. (5N purity elements) - melt(900C) - cool to RT(100C/h) - floating zone furnace - pre-melt(200mm/h) - growth(1.0 mm/h) Superconductivity induced by In substitution into the topological crystalline insulator Pb0.5Sn0.5Te 2014 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 90(2014)020505"
154615 PRB090020505 (Pb0.5Sn0.5)1-xInxTe Pb0.4Sn0.4In0.2Te1 Pb 0.4 Sn 0.4 In 0.2 Te 1 3 2014 NaCl Fm3[-]m A 6.372 K 4 4 MTC154615 T "RES(on), WHH" 5.11 T/K RES(on) 1.85 MHC154614 modified floating zone method. (5N purity elements) - melt(900C) - cool to RT(100C/h) - floating zone furnace - pre-melt(200mm/h) - growth(1.0 mm/h) Superconductivity induced by In substitution into the topological crystalline insulator Pb0.5Sn0.5Te 2014 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 90(2014)020505"
154616 PRB090020505 "For x > 0.3, secondary phase appears." (Pb0.5Sn0.5)1-xInxTe Pb0.35Sn0.35In0.3Te1 Pb 0.35 Sn 0.35 In 0.3 Te 1 3 2014 NaCl Fm3[-]m A 6.359 K 4.8 4.8 MTC154615 T "RES(on), WHH" 5.1 T/K RES(on) 1.54 MHC154614 modified floating zone method. (5N purity elements) - melt(900C) - cool to RT(100C/h) - floating zone furnace - pre-melt(200mm/h) - growth(1.0 mm/h) Superconductivity induced by In substitution into the topological crystalline insulator Pb0.5Sn0.5Te 2014 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 90(2014)020505"
154617 EPL10427001 Half Heusler SC. Tn(H) defined by (dR/dT). carrier: n(hole) = 7.4 E+18 /cm3 at 4 K from Hall coeffic. ErPdBi Er1Pd1Bi1 Er 1 Pd 1 Bi 1 3 2013 myu-B/mol 3.54 -3.5 1.06 ABC 1 F4[-]3m A 6.595 K 1.24 1.22 1.24 MPH154617 mT 0.2 T "RES, Linear approx." 1.6 A from Hc2 140 "Er(3N5),Pd(4N),Bi(5N)" "Bi-flux method. melt(alumina crucible with excess Bi) - heat(1150C,36h, in quartz tube, 0.3 bar Ar) - slow cool to 500C(3C/h)" Superconductivity and magnetic order in the noncentrosymmetric half-Heusler compound ErPdBi 2013 "Van der Waals - Zeeman Institute, University of Amsterdam - Science Park 904, 1098 XH Amsterdam, The Netherlands" "Europhys.Lett., 104(2013)27001"
154618 JPCM025155701 RRR = 27. Debye-T = 216 K by R(T). Lattice term in SP (beta) = 0.91 mJ/mol.K4. (dC/gamma*Tc) = 1.29. e-ph = 0.5 beta-IrSn4 Ir1Sn4 Ir 1 Sn 4 3 2013 AB4 MoSn4 I4<1>/acd A 6.308 22.739 K 0.84 0.93 1 0.15 0.93 mT M-H curve 3 0.5 mT "SP,RES,WHH" 8.1 mT/K "RES,SP" 9.83 3.55 14 MSP154618 mJ/mol.K2 5.2 SP 221 SP uOhm.cm 3 80 m3/C 8.95E-10 n/m3 6.98E+27 "Ir(4N),Sn(5N)" self-flux method. mixture(Ir:Sn=1:80) - alumina crucible in sealed quartz tube - heat(900C) - cool to 600 C(5C/h) - FC to 300 C within 3h. Observation of superconductivity in the intermetallic compound beta-IrSn4 2013 "J. Phys. Cond. Mater., 25(2013)155701"
154619 PRB088014526 not SC. RRR=15.3. Debye-T = 167K from R(T). lattice term in SP (beta) = 0.611 mJ/mol.K2. Kadowaki-Woods = 5.7E-3 mOhm.cm.mol2/J2 ScCo2As2 Sc1Co2As2 Sc 1 Co 2 As 2 3 2013 cm3K/mol 0.65 myu-B/Co 1.61 -102 AB2C2 ThCr2Si2 I4/mmm A 3.9471 11.801 Fe-122 K 3 mJ/mol.K2 37.8 SP 251 SP uOhm.cm 12 "Sr(3N5),Co(4N8),As(7N),Sn(5N)" "Sn-flux method. mixture(Sr:Co:As:Sn=1:2:2:45) - alumina crucible - sealed in evacuated silica tube - heat(600C,5h) - heat(1150C,8h) - cool to 700C within 160h" "Crystallographic, electronic, thermal, and magnetic properties of single-crystal SrCo2As2" 2013 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 88(2013)014526"
154620 SSC1810001 as-grown sample "La(O,F)BiS2" La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 1 2014 P4/nmm A 4.071 13.3495 K 2.54 2.65 2.4 2.65 "La2S3,Bi2O3,BiF3,Bi2S3,Bi" "solid state reaction. mixture - pellet - sealed in evacuated quartz tube - heat(700C,10h)" Correlation between crystal structure and superconductivity in LaO0.5F0.5BiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1, Minami-Osawa, Hachioji, Tokyo 192-0397, Japan" "Solid State Commun., 181(2014)1"
154621 SSC1810001 "as-grown - high-P annealing(600C,2 GPa)" "La(O,F)BiS2" La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 1 2014 P4/nmm K 7 7.92 6.9 7.92 "La2S3,Bi2O3,BiF3,Bi2S3,Bi" "solid state reaction. mixture - pellet - sealed in evacuated quartz tube - heat(700C,10h)" Correlation between crystal structure and superconductivity in LaO0.5F0.5BiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1, Minami-Osawa, Hachioji, Tokyo 192-0397, Japan" "Solid State Commun., 181(2014)1"
154622 SSC1810001 "as-grown - high-P annealing(600C,2 GPa) - post annealing(300C,10h). Tc extracted from R(T) plot." "La(O,F)BiS2" La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 1 2014 P4/nmm K 5.43 5.43 "La2S3,Bi2O3,BiF3,Bi2S3,Bi" "solid state reaction. mixture - pellet - sealed in evacuated quartz tube - heat(700C,10h)" Correlation between crystal structure and superconductivity in LaO0.5F0.5BiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1, Minami-Osawa, Hachioji, Tokyo 192-0397, Japan" "Solid State Commun., 181(2014)1"
154623 SSC1810001 "as-grown - high-P annealing(600C,2 GPa) - post annealing(500C,10h). Tc extracted from R(T) plot." "La(O,F)BiS2" La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 1 2014 P4/nmm K 4.51 4.51 "La2S3,Bi2O3,BiF3,Bi2S3,Bi" "solid state reaction. mixture - pellet - sealed in evacuated quartz tube - heat(700C,10h)" Correlation between crystal structure and superconductivity in LaO0.5F0.5BiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1, Minami-Osawa, Hachioji, Tokyo 192-0397, Japan" "Solid State Commun., 181(2014)1"
154624 SSC1810001 "as-grown - high-P annealing(600C,2 GPa) - post annealing(700C,10h). Tc extracted from R(T) plot." "La(O,F)BiS2" La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 1 2014 P4/nmm K 2.75 2.75 "La2S3,Bi2O3,BiF3,Bi2S3,Bi" "solid state reaction. mixture - pellet - sealed in evacuated quartz tube - heat(700C,10h)" Correlation between crystal structure and superconductivity in LaO0.5F0.5BiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1, Minami-Osawa, Hachioji, Tokyo 192-0397, Japan" "Solid State Commun., 181(2014)1"
154625 SSC1830013 [penet] measured by muon-SR. GL = 94 using [cohere] = 17 nm(DB-data). Tc(SUS) = 0.80 K for H = 0.026 mT) YPtBi Y1Pt1Bi1 Y 1 Pt 1 Bi 1 3 2014 ABC F4[-]3m "half-Heusler, MgAgAs-type" K 0.98 0.8 0.36 0.98 67 mT M-H curve 0.0087 MHC154625 um muon-SR 1.6 n/cm3 1.30E+18 Bi-flux method Low field magnetic response of the non-centrosymmetric superconductor YPtBi 2014 "Van der Waals-Zeeman Institute, University of Amsterdam, Science Park 904, 1098 XH Amsterdam, The Netherlands" "Solid State Commun., 183(2014)13"
154626 SST027035005 GL = 4.42. Lattice term in SP (beta) = 0.293 mJ/mol.K4. e-ph = 0.62. Nb2BN Nb2B1N1 Nb 2 B 1 N 1 1 2014 ABC2 Mo2BN cmcm K 4.4 4.4 0.1 4.4 60 Oe "M-H curve, GL fitting" 93 Oe WHH 2082 MHC154626 A from Hc2 425 nm from Hc1 188 3.45 14 mJ/mol.K2 6.3 SP 298 SP "Nb(4N,powder),BN(5N)" "solid state reaction. BN degassed(1000C,24h,in vac) - mixture(Nb:BN=2:1) - pellet - sealed in quartz tube - heat(1200C) - ANN - Q to RT - pellet - heat(1200C,28d)" Conventional superconductivity properties of the ternary boron-nitride Nb2BN 2014 "Escola de Engenharia de Lorena, Universidade de Sao Paulo, PO Box 116, Lorena-SP, Brazil" "Supercond.Sci.Technol., 27(2014)035005"
154627 SSC1520666 Tn by SP. CeNixBi2 Ce1Ni0.8Bi2 Ce 1 Ni 0.8 Bi 2 1 2012 5 ABC2 HfCuSi2 P4/nmm K 4.2 4.2 95 mJ/mol.K2 400 solid state reaction Superconducting compounds with metallic square net 2012 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 152(2012)666"
154628 SSC1520666 not SC. LaCo2B2 La1Co2B2 La 1 Co 2 B 2 1 2012 AB2C2 ThCr2Si2 K 1.8 uV/K -7.4 uOhm.cm 70 arc-melting Superconducting compounds with metallic square net 2012 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 152(2012)666"
154629 SSC1520666 "(La,Y)Co2B2" La0.9Y0.1Co2B2 La 0.9 Y 0.1 Co 2 B 2 1 2012 AB2C2 ThCr2Si2 K 4.1 4.1 15 arc-melting Superconducting compounds with metallic square net 2012 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 152(2012)666"
154630 SSC1520666 La2Sb La2Sb1 La 2 Sb 1 1 2012 AB2 K 5.3 5.3 130 solid state reaction Superconducting compounds with metallic square net 2012 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Solid State Commun., 152(2012)666"
154631 SSS0150123 not SC. T = 144 K. SmFeAsO Sm1Fe1As1O1 Sm 1 Fe 1 As 1 O 1 1 2013 ABCD oxypnictide P4/nmm A 3.9373 8.4913 Fe-1111 K 3 "Sm,Fe2O3,Fe,Ni" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(550C,12h + 850C,12h) - heat(1150C,33h) - slow cool to RT" Appearance and disappearance of superconductivity in SmFe1-xNixAsO (x = 0.0 - 1.0) 2013 "Quamtum Phenomenon and Applications (QPA) Division, National Physical Laboratory (CS/R). Dr.K .S. Krishnan Marg, New Delhi 110012, India" "Solid State Science, 15(2013)123"
154632 SSS0150123 not SC. T = 88 K. "Sm(Fe,Ni)AsO" Sm1Fe0.99Ni0.01As1O1 Sm 1 Fe 0.99 Ni 0.01 As 1 O 1 1 2013 ABCD oxypnictide P4/nmm A 3.9375 8.4868 Fe-1111 K 3 "Sm,Fe2O3,Fe,Ni" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(550C,12h + 850C,12h) - heat(1150C,33h) - slow cool to RT" Appearance and disappearance of superconductivity in SmFe1-xNixAsO (x = 0.0 - 1.0) 2013 "Quamtum Phenomenon and Applications (QPA) Division, National Physical Laboratory (CS/R). Dr.K .S. Krishnan Marg, New Delhi 110012, India" "Solid State Science, 15(2013)123"
154633 SSS0150123 not SC. T = 56 K. "Sm(Fe,Ni)AsO" Sm1Fe0.98Ni0.02As1O1 Sm 1 Fe 0.98 Ni 0.02 As 1 O 1 1 2013 ABCD oxypnictide P4/nmm A 3.9375 8.4794 Fe-1111 K 3 "Sm,Fe2O3,Fe,Ni" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(550C,12h + 850C,12h) - heat(1150C,33h) - slow cool to RT" Appearance and disappearance of superconductivity in SmFe1-xNixAsO (x = 0.0 - 1.0) 2013 "Quamtum Phenomenon and Applications (QPA) Division, National Physical Laboratory (CS/R). Dr.K .S. Krishnan Marg, New Delhi 110012, India" "Solid State Science, 15(2013)123"
154634 SSS0150123 "Sm(Fe,Ni)AsO" Sm1Fe0.96Ni0.04As1O1 Sm 1 Fe 0.96 Ni 0.04 As 1 O 1 1 2013 ABCD oxypnictide P4/nmm A 3.9383 8.4719 Fe-1111 K 7.5 7.5 T "RES(0.5Rn), GL-approx." 17.8 MHC154634 "Sm,Fe2O3,Fe,Ni" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(550C,12h + 850C,12h) - heat(1150C,33h) - slow cool to RT" Appearance and disappearance of superconductivity in SmFe1-xNixAsO (x = 0.0 - 1.0) 2013 "Quamtum Phenomenon and Applications (QPA) Division, National Physical Laboratory (CS/R). Dr.K .S. Krishnan Marg, New Delhi 110012, India" "Solid State Science, 15(2013)123"
154635 SSS0150123 "Sm(Fe,Ni)AsO" Sm1Fe0.94Ni0.06As1O1 Sm 1 Fe 0.94 Ni 0.06 As 1 O 1 1 2013 ABCD oxypnictide P4/nmm A 3.9339 8.46 Fe-1111 K 9 9 T "RES(0.5Rn), GL-approx." 16.9 MHC154635 "Sm,Fe2O3,Fe,Ni" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(550C,12h + 850C,12h) - heat(1150C,33h) - slow cool to RT" Appearance and disappearance of superconductivity in SmFe1-xNixAsO (x = 0.0 - 1.0) 2013 "Quamtum Phenomenon and Applications (QPA) Division, National Physical Laboratory (CS/R). Dr.K .S. Krishnan Marg, New Delhi 110012, India" "Solid State Science, 15(2013)123"
154636 SSS0150123 "Sm(Fe,Ni)AsO" Sm1Fe0.92Ni0.08As1O1 Sm 1 Fe 0.92 Ni 0.08 As 1 O 1 1 2013 ABCD oxypnictide P4/nmm A 3.94 8.4496 Fe-1111 K 6 6 "Sm,Fe2O3,Fe,Ni" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(550C,12h + 850C,12h) - heat(1150C,33h) - slow cool to RT" Appearance and disappearance of superconductivity in SmFe1-xNixAsO (x = 0.0 - 1.0) 2013 "Quamtum Phenomenon and Applications (QPA) Division, National Physical Laboratory (CS/R). Dr.K .S. Krishnan Marg, New Delhi 110012, India" "Solid State Science, 15(2013)123"
154637 SSS0150123 Tc < 3. "Sm(Fe,Ni)AsO" Sm1Fe0.9Ni0.1As1O1 Sm 1 Fe 0.9 Ni 0.1 As 1 O 1 1 2013 ABCD oxypnictide P4/nmm A 3.9411 8.4422 Fe-1111 K 3 "Sm,Fe2O3,Fe,Ni" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(550C,12h + 850C,12h) - heat(1150C,33h) - slow cool to RT" Appearance and disappearance of superconductivity in SmFe1-xNixAsO (x = 0.0 - 1.0) 2013 "Quamtum Phenomenon and Applications (QPA) Division, National Physical Laboratory (CS/R). Dr.K .S. Krishnan Marg, New Delhi 110012, India" "Solid State Science, 15(2013)123"
154638 SSS0280031 T = 50K and T = 47.7 K from SUS(T) at H=2T. BaTi2Sb2O Ba1Ti2Sb2O1 Ba 1 Ti 2 Sb 2 O 1 1 2014 ABC2D2 CeCr2Si2C A 4.111 8.07 K 1.2 1.2 100 "Ba(4N),BaO2(4N),K(3N5),Sb(5N),Ti(2N5)," solid state reaction Superconductivity in Ba1-xl = 33K and from SUS(T) at H=2T. "(Ba,K)Ti2Sb2O" Ba0.96K0.04Ti2Sb2O1 Ba 0.96 K 0.04 Ti 2 Sb 2 O 1 1 2014 ABC2D2 CeCr2Si2C A 4.1079 8.0937 K 3.88 3.88 100 "Ba(4N),BaO2(4N),K(3N5),Sb(5N),Ti(2N5)," solid state reaction Superconductivity in Ba1-xl = 32.3K ,and T = 30.8 K from SUS(T) at H=2T." "(Ba,K)Ti2Sb2O" Ba0.95K0.05Ti2Sb2O1 Ba 0.95 K 0.05 Ti 2 Sb 2 O 1 1 2014 ABC2D2 CeCr2Si2C A 4.1067 8.0972 K 4.25 4.25 100 "Ba(4N),BaO2(4N),K(3N5),Sb(5N),Ti(2N5)," solid state reaction Superconductivity in Ba1-xl = 25.5K ,and T = 24.9 K from SUS(T) at H=2T." "(Ba,K)Ti2Sb2O" Ba0.9K0.1Ti2Sb2O1 Ba 0.9 K 0.1 Ti 2 Sb 2 O 1 1 2014 ABC2D2 CeCr2Si2C A 4.1047 8.1112 K 5.13 5.13 MPH154642 100 "Ba(4N),BaO2(4N),K(3N5),Sb(5N),Ti(2N5)," solid state reaction Superconductivity in Ba1-xl/c A 10.037 4.508 8.987 "monoclinic, beta = 90.72" K 0.41 0.41 "La(3N),Pt(5N),Ge(5N)" "arc melting in Ar(6N) atmosphere - wrapped in Ta-foil - sealed in quartz tube - ANN(1000 C,3d) - slow cool to RT" Superconductivity in Tetragonal LaPt2-xGe2+x 2013 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 82(2013)065002"
154758 JPS082065002 LaPt1.85Ge2.15 La1Pt1.85Ge2.15 La 1 Pt 1.85 Ge 2.15 2013 AB2C2 CaBe2Ge2 P4/nmm A 4.396 10.031 K 1.85 1.85 "La(3N),Pt(5N),Ge(5N)" "arc melting in Ar(6N) atmosphere - wrapped in Ta-foil - sealed in quartz tube - ANN(1000 C,3d) - slow cool to RT" Superconductivity in Tetragonal LaPt2-xGe2+x 2013 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 82(2013)065002"
154759 JPS082065002 LaPt1.8Ge2.2 La1Pt1.8Ge2.2 La 1 Pt 1.8 Ge 2.2 2013 AB2C2 CaBe2Ge2 P4/nmm A 4.395 10.05 K 1.95 1.95 "La(3N),Pt(5N),Ge(5N)" "arc melting in Ar(6N) atmosphere - wrapped in Ta-foil - sealed in quartz tube - ANN(1000 C,3d) - slow cool to RT" Superconductivity in Tetragonal LaPt2-xGe2+x 2013 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 82(2013)065002"
154760 JPS082073709 CDW around 200 K from R(T) and SUS(T). gap from NMR. Tc(H=4T) = 8.2 K. Mo3Al2C Al2C1Mo3 Al 2 C 1 Mo 3 1 2013 AB2C3 beta-Mn K 8.2 8.2 2.8 6 "sparc plasma sintering. mixture - in carbon die - heat(600C,10min) - heatto 1300C for 1h - cool to RT. heating and cooling rate = 100C/min in flowing Ar" Normal and Superconducting Properties of the Noncentrosymmetric Mo3Al2C 2013 "Graduate School of Material Science, University of Hyogo, Kamigori, Hyogo 678-1297, Japan" "J.Phys.Soc.Jpn, 82(2013)073709"
154761 JPS082074706 "reduction. ANN(500C,48h, in vac)." Pr2Ba4Cu7O15-z Pr2Ba4Cu7O14.44 Pr 2 Ba 4 Cu 7 O 15 14.44 1 2013 Y247 K 15 26.5 20.75 T R(on) 21 MHC154761 uV/K MTP154761 "sol-gel method. precursor - pellet - CAL(875-887 C,120-180 h, in O2)" Effect of Magnetic Field on the Superconducting Phase in the Electron-Doped Metallic Double-Chain Compound Pr2Ba4Cu7O15-z 2013 "Department of Materials Science and Engineering, Iwate University, Morioka 020-8551, Japan" "J.Phys.Soc.Jpn, 82(2013)074706"
154762 JPS082074706 as-synthesized. no O2-reduction. not SC Pr2Ba4Cu7O15-z Pr2Ba4Cu7O15-z Pr 2 Ba 4 Cu 7 O 15-z 1 2013 Y247 K 2 uV/K MTP154762 "sol-gel method. precursor - pellet - CAL(875-887 C,120-180 h, in O2)" Effect of Magnetic Field on the Superconducting Phase in the Electron-Doped Metallic Double-Chain Compound Pr2Ba4Cu7O15-z 2013 "Department of Materials Science and Engineering, Iwate University, Morioka 020-8551, Japan" "J.Phys.Soc.Jpn, 82(2013)074706"
154763 JAC2190313 "(Sn,In)Te" Sn0.95In0.05Te1 Sn 0.95 In 0.05 Te 1 1995 NaCl K 1.21 1.21 T 0.348 metallocermic technique. ANN(650C) Superconductivity and magnetism in In-doped lead-tin tellurides 1995 "A.F.Ioffe Physical Technical Institute, Russian Academy of Sciences, St.Petersburg, Russia" "J.Alloys & Compd., 219(1995)313"
154764 JAC2190313 "(Pb,Sn,In)Te" Pb0.2375Sn0.7125In0.05Te1 Pb 0.2375 Sn 0.7125 In 0.05 Te 1 1995 NaCl K 2.66 2.66 MTC154764 T 2.57 MHC154764 metallocermic technique. ANN(650C) Superconductivity and magnetism in In-doped lead-tin tellurides 1995 "A.F.Ioffe Physical Technical Institute, Russian Academy of Sciences, St.Petersburg, Russia" "J.Alloys & Compd., 219(1995)313"
154765 JAC2190313 "(Pb,Sn,In)Te" Pb0.3325Sn0.6175In0.05Te1 Pb 0.3325 Sn 0.6175 In 0.05 Te 1 1995 NaCl K 1.61 1.61 T 0.922 metallocermic technique. ANN(650C) Superconductivity and magnetism in In-doped lead-tin tellurides 1995 "A.F.Ioffe Physical Technical Institute, Russian Academy of Sciences, St.Petersburg, Russia" "J.Alloys & Compd., 219(1995)313"
154766 JAC2190313 "(Pb,Sn,In)Te" Sn0.84In0.16Te1 Sn 0.84 In 0.16 Te 1 1995 NaCl K 2.14 2.14 T 0.796 metallocermic technique. ANN(650C) Superconductivity and magnetism in In-doped lead-tin tellurides 1995 "A.F.Ioffe Physical Technical Institute, Russian Academy of Sciences, St.Petersburg, Russia" "J.Alloys & Compd., 219(1995)313"
154767 JAC2190313 "(Pb,Sn,In)Te" Pb0.252Sn0.588In0.16Te1 Pb 0.252 Sn 0.588 In 0.16 Te 1 1995 NaCl K 3.92 3.92 MTC154764 T 2.75 MHC154767 metallocermic technique. ANN(650C) Superconductivity and magnetism in In-doped lead-tin tellurides 1995 "A.F.Ioffe Physical Technical Institute, Russian Academy of Sciences, St.Petersburg, Russia" "J.Alloys & Compd., 219(1995)313"
154768 JAC2190313 "(Pb,Sn,In)Te" Pb0.42Sn0.42In0.16Te1 Pb 0.42 Sn 0.42 In 0.16 Te 1 1995 NaCl K 4.21 4.21 T 4.43 metallocermic technique. ANN(650C) Superconductivity and magnetism in In-doped lead-tin tellurides 1995 "A.F.Ioffe Physical Technical Institute, Russian Academy of Sciences, St.Petersburg, Russia" "J.Alloys & Compd., 219(1995)313"
154769 JAC2190313 "(Sn,In)Te" Sn0.975In0.025Te1 Sn 0.975 In 0.025 Te 1 1995 K 0.84 0.84 T 0.221 metallocermic technique. ANN(650C) Superconductivity and magnetism in In-doped lead-tin tellurides 1995 "A.F.Ioffe Physical Technical Institute, Russian Academy of Sciences, St.Petersburg, Russia" "J.Alloys & Compd., 219(1995)313"
154770 JAC2190313 "(Sn,In)Te" Sn0.92In0.08Te1 Sn 0.92 In 0.08 Te 1 1995 K 1.36 1.36 MTC154770 T 0.415 MHC154770 metallocermic technique. ANN(650C) Superconductivity and magnetism in In-doped lead-tin tellurides 1995 "A.F.Ioffe Physical Technical Institute, Russian Academy of Sciences, St.Petersburg, Russia" "J.Alloys & Compd., 219(1995)313"
154771 JAC2190313 "(Sn,In)Te" Sn0.84In0.16Te1 Sn 0.84 In 0.16 Te 1 1995 K 2.12 2.12 T 0.77 metallocermic technique. ANN(650C) Superconductivity and magnetism in In-doped lead-tin tellurides 1995 "A.F.Ioffe Physical Technical Institute, Russian Academy of Sciences, St.Petersburg, Russia" "J.Alloys & Compd., 219(1995)313"
154772 JAC2190313 "(Pb,Sn,In)Te" Pb0.196Sn0.784In0.02Te1 Pb 0.196 Sn 0.784 In 0.02 Te 1 1995 K 1.68 1.68 T 0.685 metallocermic technique. ANN(650C) Superconductivity and magnetism in In-doped lead-tin tellurides 1995 "A.F.Ioffe Physical Technical Institute, Russian Academy of Sciences, St.Petersburg, Russia" "J.Alloys & Compd., 219(1995)313"
154773 JAC2190313 "(Pb,Sn,In)Te" Pb0.184Sn0.736In0.08Te1 Pb 0.184 Sn 0.736 In 0.08 Te 1 1995 K 2.84 2.84 MTC154773 T 2.52 MHC154773 metallocermic technique. ANN(650C) Superconductivity and magnetism in In-doped lead-tin tellurides 1995 "A.F.Ioffe Physical Technical Institute, Russian Academy of Sciences, St.Petersburg, Russia" "J.Alloys & Compd., 219(1995)313"
154774 JAC2190313 "(Pb,Sn,In)Te" Pb0.16Sn0.64In0.2Te1 Pb 0.16 Sn 0.64 In 0.2 Te 1 1995 K 3.31 3.31 T 1.78 metallocermic technique. ANN(650C) Superconductivity and magnetism in In-doped lead-tin tellurides 1995 "A.F.Ioffe Physical Technical Institute, Russian Academy of Sciences, St.Petersburg, Russia" "J.Alloys & Compd., 219(1995)313"
154775 JAC2190313 "(Pb,Sn,In)Te" Pb0.38Sn0.57In0.05Te1 Pb 0.38 Sn 0.57 In 0.05 Te 1 1995 K 0.68 0.68 T 0.471 metallocermic technique. ANN(650C) Superconductivity and magnetism in In-doped lead-tin tellurides 1995 "A.F.Ioffe Physical Technical Institute, Russian Academy of Sciences, St.Petersburg, Russia" "J.Alloys & Compd., 219(1995)313"
154776 JAC2190313 "(Pb,Sn,In)Te" Pb0.352Sn0.528In0.12Te1 Pb 0.352 Sn 0.528 In 0.12 Te 1 1995 K 3.6 3.6 MTC154776 T 5.23 MHC154776 metallocermic technique. ANN(650C) Superconductivity and magnetism in In-doped lead-tin tellurides 1995 "A.F.Ioffe Physical Technical Institute, Russian Academy of Sciences, St.Petersburg, Russia" "J.Alloys & Compd., 219(1995)313"
154777 JAC2190313 "(Pb,Sn,In)Te" Pb0.32Sn0.48In0.2Te1 Pb 0.32 Sn 0.48 In 0.2 Te 1 1995 K 4.19 4.19 T 2.9 metallocermic technique. ANN(650C) Superconductivity and magnetism in In-doped lead-tin tellurides 1995 "A.F.Ioffe Physical Technical Institute, Russian Academy of Sciences, St.Petersburg, Russia" "J.Alloys & Compd., 219(1995)313"
154778 JPS082064715 several % impurity phases. YPt2Si2 Y1Pt2Si2 Y 1 Pt 2 Si 2 1 2013 AB2C2 CaBe2Ge2 A 4.16 9.805 K 1.5 1.5 uOhm.cm 12 "R(3N),Pt(3N),Si(5N)" "arc-melting - ANN(1000 C,1w)" "Charge Density Wave and Superconductivity of RPt2Si2 (R = Y, La, Nd, and Lu)" 2013 "Department of Physics, Kyushu University, Fukuoka 812-8581, Japan" "J.Phys.Soc.Jpn, 82(2013)064715"
154779 JPS082064715 "T = 112 K. Two step SC transition. T-O transition at 112 K. Orth-phase has a=6.0529, b=6.0396 A at 10 K." LaPt2Si2 La1Pt2Si2 La 1 Pt 2 Si 2 1 2013 AB2C2 CaBe2Ge2 A 4.288 9.833 K 1.2 1.8 1.5 uOhm.cm 40 90 "R(3N),Pt(3N),Si(5N)" "arc-melting - ANN(1000 C,1w)" "Charge Density Wave and Superconductivity of RPt2Si2 (R = Y, La, Nd, and Lu)" 2013 "Department of Physics, Kyushu University, Fukuoka 812-8581, Japan" "J.Phys.Soc.Jpn, 82(2013)064715"
154780 JPS082064715 T = 77 K NdPt2Si2 Nd1Pt2Si2 Nd 1 Pt 2 Si 2 1 2013 myu-B/mol 3.62 -2.96 AB2C2 CaBe2Ge2 A 4.23 9.78 K 2 "R(3N),Pt(3N),Si(5N)" "arc-melting - ANN(1000 C,1w)" "Charge Density Wave and Superconductivity of RPt2Si2 (R = Y, La, Nd, and Lu)" 2013 "Department of Physics, Kyushu University, Fukuoka 812-8581, Japan" "J.Phys.Soc.Jpn, 82(2013)064715"
154781 JPS082064715 several % impurity phases. LuPt2Si2 Lu1Pt2Si2 Lu 1 Pt 2 Si 2 1 2013 AB2C2 CaBe2Ge2 A 4.092 9.922 K 1.9 1.9 uOhm.cm 40 "R(3N),Pt(3N),Si(5N)" "arc-melting - ANN(1000 C,1w)" "Charge Density Wave and Superconductivity of RPt2Si2 (R = Y, La, Nd, and Lu)" 2013 "Department of Physics, Kyushu University, Fukuoka 812-8581, Japan" "J.Phys.Soc.Jpn, 82(2013)064715"
154782 JPS082074707 Metal to CDW/SDW transition at T* (RES) = 55K BaTi2Sb2O Ba1Ti2Sb2O1 Ba 1 Ti 2 Sb 2 O 1 1 2013 ABC2D2 BaTi2Sb2O P4/mmm A 4.1104 8.0864 K 1.19 1.19 MPH154784 "BaO(4N),Ti(3N),Sb(3N),Sn(3N)" mixture - pellet - wrapped in Ta foil - sealed in quartz tube - heat to 1000 C(50C/h) - hold(50h) - cool to RT(20C/h) Tc Enhancement by Aliovalent Anionic Substitution in Superconducting BaTi2(Sb1-xSnx)2O 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)074707"
154783 JPS082074707 Tc not given. "BaTi2(Sb,Sn)2O" Ba1Ti2Sb1.9Sn0.1O1 Ba 1 Ti 2 Sb 1.9 Sn 0.1 O 1 1 2013 ABC2D2 BaTi2Sb2O P4/mmm A 4.108 8.0777 K MPH154784 "BaO(4N),Ti(3N),Sb(3N),Sn(3N)" mixture - pellet - wrapped in Ta foil - sealed in quartz tube - heat to 1000 C(50C/h) - hold(50h) - cool to RT(20C/h) Tc Enhancement by Aliovalent Anionic Substitution in Superconducting BaTi2(Sb1-xSnx)2O 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)074707"
154784 JPS082074707 Tc(SP) = 2.29 K. Metal to CDW/SDW transition at T* (RES) = 44.5 K "BaTi2(Sb,Sn)2O" Ba1Ti2Sb1.8Sn0.2O1 Ba 1 Ti 2 Sb 1.8 Sn 0.2 O 1 1 2013 ABC2D2 BaTi2Sb2O P4/mmm A 4.1045 8.073 K 2.2 2.2 MPH154784 "BaO(4N),Ti(3N),Sb(3N),Sn(3N)" mixture - pellet - wrapped in Ta foil - sealed in quartz tube - heat to 1000 C(50C/h) - hold(50h) - cool to RT(20C/h) Tc Enhancement by Aliovalent Anionic Substitution in Superconducting BaTi2(Sb1-xSnx)2O 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)074707"
154785 JPS082074707 Metal to CDW/SDW transition at T* (RES) = 40 K "BaTi2(Sb,Sn)2O" Ba1Ti2Sb1.7Sn0.3O1 Ba 1 Ti 2 Sb 1.7 Sn 0.3 O 1 1 2013 ABC2D2 BaTi2Sb2O P4/mmm A 4.1005 8.0681 K 2.2 2.2 MPH154784 "BaO(4N),Ti(3N),Sb(3N),Sn(3N)" mixture - pellet - wrapped in Ta foil - sealed in quartz tube - heat to 1000 C(50C/h) - hold(50h) - cool to RT(20C/h) Tc Enhancement by Aliovalent Anionic Substitution in Superconducting BaTi2(Sb1-xSnx)2O 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)074707"
154786 JPS082074707 Metal to CDW/SDW transition at T* (RES) =36.8 5K "BaTi2(Sb,Sn)2O" Ba1Ti2Sb1.6Sn0.4O1 Ba 1 Ti 2 Sb 1.6 Sn 0.4 O 1 1 2013 ABC2D2 BaTi2Sb2O P4/mmm A 4.0998 8.058 K 2.31 2.31 MPH154784 Oe 15 1.85 "BaO(4N),Ti(3N),Sb(3N),Sn(3N)" mixture - pellet - wrapped in Ta foil - sealed in quartz tube - heat to 1000 C(50C/h) - hold(50h) - cool to RT(20C/h) Tc Enhancement by Aliovalent Anionic Substitution in Superconducting BaTi2(Sb1-xSnx)2O 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)074707"
154787 JPS082074707 Metal to CDW/SDW transition at T* (RES) = 30.9 K "BaTi2(Sb,Sn)2O" Ba1Ti2Sb1.4Sn0.6O1 Ba 1 Ti 2 Sb 1.4 Sn 0.6 O 1 1 2013 ABC2D2 BaTi2Sb2O P4/mmm A 4.0954 8.0518 K 2.49 2.49 MPH154784 "BaO(4N),Ti(3N),Sb(3N),Sn(3N)" mixture - pellet - wrapped in Ta foil - sealed in quartz tube - heat to 1000 C(50C/h) - hold(50h) - cool to RT(20C/h) Tc Enhancement by Aliovalent Anionic Substitution in Superconducting BaTi2(Sb1-xSnx)2O 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)074707"
154788 JPS082074707 Tc not given. Solubility limit : x = 0.3 in BaTi2(Sb1-xSnx)2O "BaTi2(Sb,Sn)2O" Ba1Ti2Sb1.2Sn0.8O1 Ba 1 Ti 2 Sb 1.2 Sn 0.8 O 1 2013 ABC2D2 BaTi2Sb2O P4/mmm A 4.0982 8.0592 K "BaO(4N),Ti(3N),Sb(3N),Sn(3N)" mixture - pellet - wrapped in Ta foil - sealed in quartz tube - heat to 1000 C(50C/h) - hold(50h) - cool to RT(20C/h) Tc Enhancement by Aliovalent Anionic Substitution in Superconducting BaTi2(Sb1-xSnx)2O 2013 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 82(2013)074707"
154789 JPS082074713 textured sample. surface plane=(110)//c-axis. Anisotropic s-wave SC. Anisotropic factor (Hc2) = 0.45. (dC/gamma*Tc) = 1.75. e-ph = 0.63. (2D/kTc) = 3.80 for s-wave fitting. Sc5Ir4Si10 Sc5Ir4Si10 Sc 5 Ir 4 Si 10 1 2013 A4B5C10 Sc5Co4Si10 K 8 0.2 8 T "SUS, WHH" 1.17 2.78 T/K SUS 0.2 0.4 MHC154789 3.8 14 MSP154789 mJ/mol.K2 32.4 SP 371.5 SP arc-melting Specific Heat and Upper Critical Field of Sc5Ir4Si10 Superconductor 2013 "Department of Physics, Southeast University, Nanjing 211189, People's Republic of China" "J.Phys.Soc.Jpn, 82(2013)074713"
154790 JPS082105003 As-synthesized. not SC Pr2Ba4Cu7O15-z Pr2Ba4Cu7O15-z Pr 2 Ba 4 Cu 7 O 15-z 1 2013 Y247 K 2 cm3/C 7 MRH154790 Hall Coefficient in the Superconducting and Non-Superconducting Pr2Ba4Cu7O15-z Compounds with Metallic Double Chains 2013 "Department of Materials Science and Engineering, Iwate University, Morioka 020-8551, Japan" "J.Phys.Soc.Jpn, 82(2013)105003"
154791 JPS082105003 "reduced(500C,48h, in vac)" Pr2Ba4Cu7O15-z Pr2Ba4Cu7O15-z Pr 2 Ba 4 Cu 7 O 15-z 1 2013 Y247 K 27 27 cm3/C 7 MRH154791 Hall Coefficient in the Superconducting and Non-Superconducting Pr2Ba4Cu7O15-z Compounds with Metallic Double Chains 2013 "Department of Materials Science and Engineering, Iwate University, Morioka 020-8551, Japan" "J.Phys.Soc.Jpn, 82(2013)105003"
154792 JPS082113701 "Nd0.98O0.7F0.3Bi0.98S2 by EPMA. I//ab plane. Hirr//ab = 16T, Hirr//c = 0.64T. Anisotropy(Hc2) = 32.3" "Nd(O,F)BiS2" Nd1Bi1S2F0.3O0.7 Nd 1 Bi 1 S 2 F 0.3 O 0.7 3 2013 ABCD2 P4/nmm 129 A 3.996 13.464 BiS2-plane K 5 5.5 5.25 T "R(onset), linear approx." 42 1.3 MHC154792 "CsCl/KCl flux method. mixture(nominal NdO0.7F0.3BiS2 + flux) - sealed in quartz tube - heat (800C,10h) - cool to 600C(0.5C/h) - FC to RT" Structural Analysis and Superconducting Properties of F-Substituted NdOBiS2 Single Crystals 2013 "Center for Crystal Science and Technology, University of Yamanashi, Kofu 400-8511, Japan" "J.Phys.Soc.Jpn, 82(2013)113701"
154793 JPS082113704 P-induced SC. Pcr = 1.77 GPa. 1st order phase transition (broad) at 2.61 GPa. RRR = 350. AuTe2 Au1Te2 Au 1 Te 2 3 2013 AB2 CdI2 C2/m K 2.3 0 2.3 MPH154793 uOhm.cm 0.78 "Au(4N),Te(4N)" mixture - sealed in quartz tube - heat to 470 C(18C/h) - heat to 600 C(6.5C/h) - cool to RT(11.5C/h) Pressure-Induced Superconductivity in Mineral Calaverite AuTe2 2013 "Department of Physics, Kobe University, Kobe 658-8530, Japan" "J.Phys.Soc.Jpn, 82(2013)113704"
154794 JPS082114702 "RRR = 560. Hydrostatic P. (dTc/dP) = 1.04 K/GPa (Tc by M) in DB, = 0.71K/GPa (Tc by R)." LaFe4P12 La1Fe4P12 La 1 Fe 4 P 12 3 2013 GPa 150 AB4C12 skutterudite Im3[-] 204 A 7.8311 K 4.5 4.9 4.1 0.5 4.1 MTC154794 K/GPa 1.04 7 Sn-flux method. mixture(La:Fe:P:Sn = 1:4:20:50) - sealed in vac - heat(1050C) - cool to 600C(1C/h) - "Pressure Effect on the Structure and Superconducting Transition Temperature of Filled Skutterudites LaT4P12 (T = Fe, Ru)" 2013 "Muroran Institute of Technology, Muroran, Hokkaido 050-8585, Japan" "J.Phys.Soc.Jpn, 82(2013)114702"
154795 JPS082114702 "RRR = 7. Hydrostatic P. (dTc/dP) = -0.07 K/GPa for 0 < P <2 GPa , = -0.29 K/GPa for 6 < P < 8 GPa (Tc by R)." LaRu4P12 La1Ru4P12 La 1 Ru 4 P 12 1 2013 GPa 170 AB4C12 skutterudite Im3[-] 204 A 8.05645 K 6.57 6.57 MTC154795 K/GPa -0.07 "HTHP reaction (1050C,0.5h, P=4.5h)" "Pressure Effect on the Structure and Superconducting Transition Temperature of Filled Skutterudites LaT4P12 (T = Fe, Ru)" 2013 "Muroran Institute of Technology, Muroran, Hokkaido 050-8585, Japan" "J.Phys.Soc.Jpn, 82(2013)114702"
154796 JPS082123702 Ca0.84La0.16Fe1.03As2.37 by EDS. novel 112-type SC. "(Ca,La)FeAs2" Ca0.9La0.1Fe1As2 Ca 0.9 La 0.1 Fe 1 As 2 3 2013 ABC2 P2<1> 4 A 3.9471 3.8724 10.321 "monoclinic, alpha=90,beta=91.415, gamma=90. HfCuSi2-type, Fe-112" K 36 39 34 2.4 34 66 "Ca,La,FeAs,As" "mixture - in Al crucible - sealed in quartz tube - heat(700C,3h) - heat to 1100C and cool to 1050C at 1.25C/h) - FC to RT" Superconductivity in Ca1-xLaxFeAs2: A Novel 112-Type Iron Pnictide with Arsenic Zigzag Bonds 2013 "Department of Applied Physics, Nagoya University, Nagoya 464-8603, Japan" "J.Phys.Soc.Jpn, 82(2013)123702"
154797 JPS082123702 Ca0.81La0.19Fe1.03As2.34 by EDS. High-Tc(45K) SC observed. Fe-112 "(Ca,La)FeAs2" Ca0.79La0.21Fe1As2 Ca 0.79 La 0.21 Fe 1 As 2 3 2013 ABC2 P2<1> 4 Fe-112 K 25 45 25 25 "Ca,La,FeAs,As" "mixture - in Al crucible - sealed in quartz tube - heat(700C,3h) - heat to 1100C and cool to 1050C at 1.25C/h) - FC to RT" Superconductivity in Ca1-xLaxFeAs2: A Novel 112-Type Iron Pnictide with Arsenic Zigzag Bonds 2013 "Department of Applied Physics, Nagoya University, Nagoya 464-8603, Japan" "J.Phys.Soc.Jpn, 82(2013)123702"
154798 JPS082123705 "M= C2H8N2: ethylenediamine(EDA). as-intercalated sample. compositions (x,y,z) not shown. lower Tc = 8 K from non-intercalated regin(FAs)" LixMyFe2-zSe2 Li1M1Fe2Se2 Li 1 M 1 Fe 2 Se 2 2013 A 3.458 20.74 K 45 45 EDA-intercalation as follows. poly-FeAs powder - placed in beaker with 0.2M Li-metal dessolved in EDA. Li:FeAs = 1:2 New Li-Ethylenediamine-Intercalated Superconductor Lix(C2H8N2)yFe2-zSe2 with Tc = 45K 2013 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 82(2013)123705"
154799 JPS082123705 "M= C2H8N2: Vethylenediamine(EDA). intercalated sample. post-ANN(150C,60h). compositions (x,y,z) not shown 8K and 18K Tc phase observed." LixMyFe2-zSe2 Li1M1Fe2Se2 Li 1 M 1 Fe 2 Se 2 2013 A 3.438 20.92 K 41 41 EDA-intercalation as follows. poly-FeAs powder - placed in beaker with 0.2M Li-metal dessolved in EDA. Li:FeAs = 1:2 New Li-Ethylenediamine-Intercalated Superconductor Lix(C2H8N2)yFe2-zSe2 with Tc = 45K 2013 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 82(2013)123705"
154800 JPS082123705 "M= C2H8N2: ethylenediamine(EDA). intercalated sample. as sintered(200C,20h). compositions (x,y,z) not shown" LixMyFe2-zSe2 Li1M1Fe2Se2 Li 1 M 1 Fe 2 Se 2 2013 A 3.436 20.92 K 18 43 35 35 EDA-intercalation as follows. poly-FeAs powder - placed in beaker with 0.2M Li-metal dessolved in EDA. Li:FeAs = 1:2 New Li-Ethylenediamine-Intercalated Superconductor Lix(C2H8N2)yFe2-zSe2 with Tc = 45K 2013 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 82(2013)123705"
154801 JPS082124703 RR=10.9. Hc(0) = 389 Oe. GL(kappa) = 7.6. (dC/gamma*Tc) = 1.26. R=R0+A*T^2 (A=4.8 uOhm.cm/K). lattice term in SP (beta) = 0.373 mJ/mol.K4. LuRu2 Lu1Ru2 Lu 1 Ru 2 1 2013 emu/mol 0.000439 AB2 7 Laves A 5.211 8.73 "Laves(C14, hexagonal)" K 2.23 2.23 Oe "M-H curve,parabolic." 80 T "RES, WHH" 0.231 T/K RES 0.149 MHC154801 A from Hc2 378 A from Hc1 2870 meV 0.322 3.35 14 MSP154801 mJ/mol.K2 17.5 SP 250 SP "Ru(4N),Lu(3N),Y(3N),Sc(3N)" "arc-melting several times. ANN(1000C,2w, in evacuated silica)" "Comprehensive Macroscopic Investigation on Hexagonal C14 Laves-Type Ru-Based Superconductors ARu2 (A = Lu, Y, Sc) with Effective Electron Correlation" 2013 "RIKEN, Wako, Saitama 351-0198, Japan" "J.Phys.Soc.Jpn, 82(2013)124703"
154802 JPS082124703 RR=10.3. Hc(0) = 460 Oe. GL(kappa) = 7.9. (dC/gamma*Tc) = 1.18. R=R0+A*T^2 (A=6.2 uOhm.cm/K). lattice term in SP (beta) = 0.220 mJ/mol.K4. YRu2 Ru2Y1 Ru 2 Y 1 1 2013 emu/mol 0.000458 AB2 7 Laves A 5.226 8.799 "Laves(C14, hexagonal)" K 2.75 2.75 Oe "M-H curve,parabolic." 121 T "RES, WHH" 0.375 T/K RES 0.197 MHC154802 A from Hc2 296 A from Hc1 2330 meV 0.383 3.23 14 MSP154802 mJ/mol.K2 17.8 SP 298 SP "Ru(4N),Lu(3N),Y(3N),Sc(3N)" "arc-melting several times. ANN(1000C,2w, in evacuated silica)" "Comprehensive Macroscopic Investigation on Hexagonal C14 Laves-Type Ru-Based Superconductors ARu2 (A = Lu, Y, Sc) with Effective Electron Correlation" 2013 "RIKEN, Wako, Saitama 351-0198, Japan" "J.Phys.Soc.Jpn, 82(2013)124703"
154803 JPS082124703 RR=39.1. Hc(0) = 413 Oe. GL(kappa) = 4.1. (dC/gamma*Tc) = 1.28. R=R0+A*T^2 (A=1.6 uOhm.cm/K). lattice term in SP (beta) = 0.067 mJ/mol.K4. ScRu2 Ru2Sc1 Ru 2 Sc 1 1 2013 emu/mol 0.000455 AB2 7 Laves A 5.115 8.54 "Laves(C14, hexagonal)" K 2.36 2.36 Oe "M-H curve,parabolic." 166 T "RES, WHH" 0.139 T/K RES 0.085 MHC154803 A from Hc2 486 A from Hc1 1990 meV 0.345 3.39 14 MSP154803 mJ/mol.K2 16.3 SP 442 SP "Ru(4N),Lu(3N),Y(3N),Sc(3N)" "arc-melting several times. ANN(1000C,2w, in evacuated silica)" "Comprehensive Macroscopic Investigation on Hexagonal C14 Laves-Type Ru-Based Superconductors ARu2 (A = Lu, Y, Sc) with Effective Electron Correlation" 2013 "RIKEN, Wako, Saitama 351-0198, Japan" "J.Phys.Soc.Jpn, 82(2013)124703"
154804 JPS083013707 Tc > Tn. Tc(SP) = 1.84 K. Tn measured by specific heat(SP) and neutron scattering. "(Ce,Nd)CoIn5" Ce0.95Nd0.05Co1In5 Ce 0.95 Nd 0.05 Co 1 In 5 3 2014 0.9 ABC5 HoCoGa5 K 1.9 1.9 MSP154804 self-flux method Magnetic Order in Ce0.95Nd0.05CoIn5: The Q-Phase at Zero Magnetic Field 2014 "SPSMS, UMR-E 9001, CEA-INAC/UJF-Grenoble 1, 38054 Grenoble, France" "J.Phys.Soc.Jpn, 83(2014)013707"
154805 JPS083013707 no magnetic order. "(Ce,La)CoIn5" Ce0.965La0.035Co1In5 Ce 0.965 La 0.035 Co 1 In 5 3 2014 ABC5 HoCoGa5 K 1.84 1.84 MSP154805 self-flux method Magnetic Order in Ce0.95Nd0.05CoIn5: The Q-Phase at Zero Magnetic Field 2014 "SPSMS, UMR-E 9001, CEA-INAC/UJF-Grenoble 1, 38054 Grenoble, France" "J.Phys.Soc.Jpn, 83(2014)013707"
154806 JPS083014709 not SC SrFBiS2 Sr1Bi1S2F1 Sr 1 Bi 1 S 2 F 1 1 2014 ABCD2 P4/nmm A 4.0833 13.808 K 1.8 "SrF2,SrS,LaF3,LaS3,Bi,S" "mixture - pellet - heat(600C,10h, in evacuated quartz)" Insulator-to-Superconductor Transition upon Electron Doping in a BiS2-Based Superconductor Sr1-xLaxFBiS2 2014 "Department of Applied Physics, University of Tokyo, Bunkyo, Tokyo 113-8656, Japan" "J.Phys.Soc.Jpn, 83(2014)014709"
154807 JPS083014709 not SC "(Sr,La)FBiS2" Sr0.75La0.25Bi1S2F1 Sr 0.75 La 0.25 Bi 1 S 2 F 1 1 2014 ABCD2 P4/nmm A 4.0753 13.4994 K 1.8 "SrF2,SrS,LaF3,LaS3,Bi,S" "mixture - pellet - heat(600C,10h, in evacuated quartz)" Insulator-to-Superconductor Transition upon Electron Doping in a BiS2-Based Superconductor Sr1-xLaxFBiS2 2014 "Department of Applied Physics, University of Tokyo, Bunkyo, Tokyo 113-8656, Japan" "J.Phys.Soc.Jpn, 83(2014)014709"
154808 JPS083014709 not SC "(Sr,La)FBiS2" Sr0.6La0.4Bi1S2F1 Sr 0.6 La 0.4 Bi 1 S 2 F 1 1 2014 ABCD2 P4/nmm A 4.0811 13.3587 K 1.8 "SrF2,SrS,LaF3,LaS3,Bi,S" "mixture - pellet - heat(600C,10h, in evacuated quartz)" Insulator-to-Superconductor Transition upon Electron Doping in a BiS2-Based Superconductor Sr1-xLaxFBiS2 2014 "Department of Applied Physics, University of Tokyo, Bunkyo, Tokyo 113-8656, Japan" "J.Phys.Soc.Jpn, 83(2014)014709"
154809 JPS083014709 R(1.8K) not zero. "(Sr,La)FBiS2" Sr0.58La0.42Bi1S2F1 Sr 0.58 La 0.42 Bi 1 S 2 F 1 1 2014 ABCD2 P4/nmm A 4.0819 13.3344 K 1.71 2.13 2.13 "SrF2,SrS,LaF3,LaS3,Bi,S" "mixture - pellet - heat(600C,10h, in evacuated quartz)" Insulator-to-Superconductor Transition upon Electron Doping in a BiS2-Based Superconductor Sr1-xLaxFBiS2 2014 "Department of Applied Physics, University of Tokyo, Bunkyo, Tokyo 113-8656, Japan" "J.Phys.Soc.Jpn, 83(2014)014709"
154810 JPS083014709 RH(4K)= positive value(hole). gamma = 1.2 mJ/mol.K2 after SC volume correction. (dC/gamma*Tc) = 1.1. "(Sr,La)FBiS2" Sr0.55La0.45Bi1S2F1 Sr 0.55 La 0.45 Bi 1 S 2 F 1 1 2014 ABCD2 P4/nmm A 4.0851 13.3269 K 3 3.1 3.1 MTC154810 75 mJ/mol.K2 1.6 SP cm3/C MRH154810 "SrF2,SrS,LaF3,LaS3,Bi,S" "mixture - pellet - heat(600C,10h, in evacuated quartz)" Insulator-to-Superconductor Transition upon Electron Doping in a BiS2-Based Superconductor Sr1-xLaxFBiS2 2014 "Department of Applied Physics, University of Tokyo, Bunkyo, Tokyo 113-8656, Japan" "J.Phys.Soc.Jpn, 83(2014)014709"
154811 JPS083014709 impurity phase: Bi. RH(4K)= positive value(hole). "(Sr,La)FBiS2" Sr0.5La0.5Bi1S2F1 Sr 0.5 La 0.5 Bi 1 S 2 F 1 1 2014 ABCD2 P4/nmm A 4.0839 13.3219 K 2.85 3.04 3.04 mJ/mol.K2 1.3 SP cm3/C "SrF2,SrS,LaF3,LaS3,Bi,S" "mixture - pellet - heat(600C,10h, in evacuated quartz)" Insulator-to-Superconductor Transition upon Electron Doping in a BiS2-Based Superconductor Sr1-xLaxFBiS2 2014 "Department of Applied Physics, University of Tokyo, Bunkyo, Tokyo 113-8656, Japan" "J.Phys.Soc.Jpn, 83(2014)014709"
154812 JPS083014709 impurity phase: Bi. RH(4K) = -8.3 E-2 cm3/C. "(Sr,La)FBiS2" Sr0.4La0.6Bi1S2F1 Sr 0.4 La 0.6 Bi 1 S 2 F 1 1 2014 ABCD2 P4/nmm A 4.0815 13.3025 K 2.67 2.96 2.96 "SrF2,SrS,LaF3,LaS3,Bi,S" "mixture - pellet - heat(600C,10h, in evacuated quartz)" Insulator-to-Superconductor Transition upon Electron Doping in a BiS2-Based Superconductor Sr1-xLaxFBiS2 2014 "Department of Applied Physics, University of Tokyo, Bunkyo, Tokyo 113-8656, Japan" "J.Phys.Soc.Jpn, 83(2014)014709"
154813 JPS083033705 not SC. R(T) anomaly at 95.8 K. La-content = 0 by EPMA. H-content = 1.0 by TDS. O-content = 0.06 by EPMA. CaFeAsH Ca1Fe1As1H1 Ca 1 Fe 1 As 1 H 1 2014 ABCD oxypnictide P4/nmm A 3.8785 8.2551 ZrCuSiAs-type. Fe-1111 K 5 "mixture(CaH2,LaH2,FeAs,Ca(OH)2,NaBH4) - in BN capsule - in stainless capsule - heat(1173K,30min, P=2.5 GPa)" La-Substituted CaFeAsH Superconductor with Tc = 47K 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Phys.Soc.Jpn, 83(2014)033705"
154814 JPS083033705 La-content = 0.85 by EPMA. H-content = 0.952 by TDS. O-content = 0.081 by EPMA. "(Ca,La)FeAsH" Ca0.9La0.1Fe1As1H1 Ca 0.9 La 0.1 Fe 1 As 1 H 1 2014 ABCD oxypnictide P4/nmm A 3.8918 8.2671 ZrCuSiAs-type. Fe-1111 K 47 28.2 10 28.2 "mixture(CaH2,LaH2,FeAs,Ca(OH)2,NaBH4) - in BN capsule - in stainless capsule - heat(1173K,30min, P=2.5 GPa)" La-Substituted CaFeAsH Superconductor with Tc = 47K 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Phys.Soc.Jpn, 83(2014)033705"
154815 JPS083033705 La-content = 0.203 by EPMA. H-content = 0.937 by TDS. O-content = 0.099 by EPMA. "(Ca,La)FeAsH" Ca0.8La0.2Fe1As1H1 Ca 0.8 La 0.2 Fe 1 As 1 H 1 2014 ABCD oxypnictide P4/nmm A 3.9075 8.2728 ZrCuSiAs-type. Fe-1111 K 47.4 40.6 40.6 "mixture(CaH2,LaH2,FeAs,Ca(OH)2,NaBH4) - in BN capsule - in stainless capsule - heat(1173K,30min, P=2.5 GPa)" La-Substituted CaFeAsH Superconductor with Tc = 47K 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Phys.Soc.Jpn, 83(2014)033705"
154816 JPS083033705 La-content = 313 by EPMA. H-content = 0.944 by TDS. O-content = 0.1 by EPMA. "(Ca,La)FeAsH" Ca0.7La0.3Fe1As1H1 Ca 0.7 La 0.3 Fe 1 As 1 H 1 2014 ABCD oxypnictide P4/nmm A 3.9177 8.3067 ZrCuSiAs-type. Fe-1111 K 47 35.7 35.7 "mixture(CaH2,LaH2,FeAs,Ca(OH)2,NaBH4) - in BN capsule - in stainless capsule - heat(1173K,30min, P=2.5 GPa)" La-Substituted CaFeAsH Superconductor with Tc = 47K 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Phys.Soc.Jpn, 83(2014)033705"
154817 JPS083044702 RRR=1.5. not-SC hexagonal Cr-Re alloy phase(30 mol%) by XRD. gamma = 11.2 mJ/mol.K2 using alpha-model. (dC/gamma*Tc) = 2.11. GL = 62.5. beta in SP = 0.51 mJ/mol.K4 Cr2Re3B Cr2Re3B1 Cr 2 Re 3 B 1 1 2014 AB2C3 beta-Mn P4<1>32 213 A 6.61 K 4.8 5.3 4.8 4.8 15 Oe "M-H curve,parabolic." 52 T "R(zero), Hc2=Hc2(0)(1-t^(1.5))^(1.5)" 10 MHC154817 A from Hc2 57 A from Hc1. Hc1(0)=fai0/(pai*penet^2) 3560 3.66 14 mJ/mol.K2 18 SP "Cr(4N),Re(4N),B(2N)" arc-melting Superconductivity in the Ternary Boride Cr2Re3B with the beta-Mn-Type Structure 2014 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan" "J.Phys.Soc.Jpn, 83(2014)044702"
154818 JPS083073703 P-induced SC. Tc(max) = 14.7 K at P=3.0 GPa.. Pcr = 1.8 GPa. Tn measured by SUS for H//c. SrCa13Cu24O41 Sr1Ca13Cu24O41 Sr 1 Ca 13 Cu 24 O 41 3 2014 4.2 LAD two-leg ladder K 14.7 11.8 11.8 MTC154818 single crysta grown with 63.2% powder of four 300W halogen lamps using modified mirror floating zone furnace(35 bar O2) Superconductivity on a Crossover Phenomenon of Spin-Ladder System SrCa13Cu24O41 Single Crystals 2014 "Institute of Socio-Arts and Sciences, The University of Tokushima, Tokushima 770-8502, Japan" "J.Phys.Soc.Jpn, 83(2014)073703"
154819 JPS083073705 T measured by R(T). Ortho to monoclinic transition at 230 K. Ba2Bi(Sb1-xBix)2 Ba2Bi1Sb2 Ba 2 Bi 1 Sb 2 2014 3 A 4.8067 7.6717 9.8968 K 1.8 "Ba(2N),Bi(3N),Sb(3N)" solid state rection. mixture(Bi+Sb) - pellet - (pellet+Ba) - sealed in quartz tube - heat to 800C(100C/h) - keep (72h) - cool to RT (100C/h) Superconductivity in the Hypervalent Compound Ba2Bi(Sb1-xBix)2 with a Square-Honeycomb Lattice 2014 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 83(2014)073705"
154820 JPS083073705 T measured by R(T). Ba2Bi(Sb1-xBix)2 Ba2Bi1.25Sb1.75 Ba 2 Bi 1.25 Sb 1.75 2014 3 A 4.8091 7.6903 9.9027 K 1.8 "Ba(2N),Bi(3N),Sb(3N)" solid state rection. mixture(Bi+Sb) - pellet - (pellet+Ba) - sealed in quartz tube - heat to 800C(100C/h) - keep (72h) - cool to RT (100C/h) Superconductivity in the Hypervalent Compound Ba2Bi(Sb1-xBix)2 with a Square-Honeycomb Lattice 2014 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 83(2014)073705"
154821 JPS083073705 T measured by R(T). Ba2Bi(Sb1-xBix)2 Ba2Bi1.5Sb1.5 Ba 2 Bi 1.5 Sb 1.5 2014 3 A 4.8115 7.7325 9.9095 K 1.8 "Ba(2N),Bi(3N),Sb(3N)" solid state rection. mixture(Bi+Sb) - pellet - (pellet+Ba) - sealed in quartz tube - heat to 800C(100C/h) - keep (72h) - cool to RT (100C/h) Superconductivity in the Hypervalent Compound Ba2Bi(Sb1-xBix)2 with a Square-Honeycomb Lattice 2014 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 83(2014)073705"
154822 JPS083073705 T measured by R(T). Ba2Bi(Sb1-xBix)2 Ba2Bi1.75Sb1.25 Ba 2 Bi 1.75 Sb 1.25 2014 3 A 4.8115 7.7723 9.9126 K 3.51 3.51 "Ba(2N),Bi(3N),Sb(3N)" solid state rection. mixture(Bi+Sb) - pellet - (pellet+Ba) - sealed in quartz tube - heat to 800C(100C/h) - keep (72h) - cool to RT (100C/h) Superconductivity in the Hypervalent Compound Ba2Bi(Sb1-xBix)2 with a Square-Honeycomb Lattice 2014 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 83(2014)073705"
154823 JPS083073705 T measured by R(T). Ba2Bi(Sb1-xBix)2 Ba2Bi2Sb1 Ba 2 Bi 2 Sb 1 2014 3 A 4.8125 7.8117 9.9158 K 3.92 3.92 MTC154823 "Ba(2N),Bi(3N),Sb(3N)" solid state rection. mixture(Bi+Sb) - pellet - (pellet+Ba) - sealed in quartz tube - heat to 800C(100C/h) - keep (72h) - cool to RT (100C/h) Superconductivity in the Hypervalent Compound Ba2Bi(Sb1-xBix)2 with a Square-Honeycomb Lattice 2014 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 83(2014)073705"
154824 JPS083073705 Ba2Bi(Sb1-xBix)2 Ba2Bi2.25Sb0.75 Ba 2 Bi 2.25 Sb 0.75 2014 3 A 4.8139 7.8656 9.9339 K 4.06 4.06 "Ba(2N),Bi(3N),Sb(3N)" solid state rection. mixture(Bi+Sb) - pellet - (pellet+Ba) - sealed in quartz tube - heat to 800C(100C/h) - keep (72h) - cool to RT (100C/h) Superconductivity in the Hypervalent Compound Ba2Bi(Sb1-xBix)2 with a Square-Honeycomb Lattice 2014 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 83(2014)073705"
154825 JPS083073705 Ba2Bi(Sb1-xBix)2 Ba2Bi2.5Sb0.5 Ba 2 Bi 2.5 Sb 0.5 2014 3 A 4.8148 7.9151 9.9452 K 4.25 4.25 "Ba(2N),Bi(3N),Sb(3N)" solid state rection. mixture(Bi+Sb) - pellet - (pellet+Ba) - sealed in quartz tube - heat to 800C(100C/h) - keep (72h) - cool to RT (100C/h) Superconductivity in the Hypervalent Compound Ba2Bi(Sb1-xBix)2 with a Square-Honeycomb Lattice 2014 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 83(2014)073705"
154826 JPS083073705 Ba2Bi(Sb1-xBix)2 Ba2Bi2.75Sb0.25 Ba 2 Bi 2.75 Sb 0.25 2014 3 A 4.816 7.9579 9.9615 K 4.46 4.46 "Ba(2N),Bi(3N),Sb(3N)" solid state rection. mixture(Bi+Sb) - pellet - (pellet+Ba) - sealed in quartz tube - heat to 800C(100C/h) - keep (72h) - cool to RT (100C/h) Superconductivity in the Hypervalent Compound Ba2Bi(Sb1-xBix)2 with a Square-Honeycomb Lattice 2014 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 83(2014)073705"
154827 JPS083073705 Ba2Bi(Sb1-xBix)2 Ba2Bi3 Ba 2 Bi 3 2014 3 A 4.8188 7.9991 9.9756 K 4.48 4.48 "Ba(2N),Bi(3N),Sb(3N)" solid state rection. mixture(Bi+Sb) - pellet - (pellet+Ba) - sealed in quartz tube - heat to 800C(100C/h) - keep (72h) - cool to RT (100C/h) Superconductivity in the Hypervalent Compound Ba2Bi(Sb1-xBix)2 with a Square-Honeycomb Lattice 2014 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Phys.Soc.Jpn, 83(2014)073705"
154828 JPS083074713 ZrP2-xSex Zr1P1.5Se0.5 Zr 1 P 1.5 Se 0.5 1 2014 ABC 2 PbFCl P4/nmm A 3.626 7.906 K 5.76 5.76 "mixture - pellet - BN crucible - heat(1300-1400C, 1-2h, P=2 GPa)" "New Intermetallic Ternary Phosphide Chalcogenide AP2-xXx (A = Zr, Hf; X = S, Se) Superconductors with PbFCl-Type Crystal Structure" 2014 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "J.Phys.Soc.Jpn, 83(2014)074713"
154829 JPS083074713 ZrP2-xSex Zr1P1.35Se0.65 Zr 1 P 1.35 Se 0.65 1 2014 ABC 2 PbFCl P4/nmm K 6.24 6.24 MTC154829 "mixture - pellet - BN crucible - heat(1300-1400C, 1-2h, P=2 GPa)" "New Intermetallic Ternary Phosphide Chalcogenide AP2-xXx (A = Zr, Hf; X = S, Se) Superconductors with PbFCl-Type Crystal Structure" 2014 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "J.Phys.Soc.Jpn, 83(2014)074713"
154830 JPS083074713 ZrP2-xSex Zr1P1.25Se0.75 Zr 1 P 1.25 Se 0.75 1 2014 ABC 2 PbFCl P4/nmm K 6.5 6.3 6.3 MTC154829 129 Oe M-H curve 210 2 T "R(onset), WHH" 2.92 T/K R(onset) 0.65 MHC154830 mOhm.cm 0.23 "mixture - pellet - BN crucible - heat(1300-1400C, 1-2h, P=2 GPa)" "New Intermetallic Ternary Phosphide Chalcogenide AP2-xXx (A = Zr, Hf; X = S, Se) Superconductors with PbFCl-Type Crystal Structure" 2014 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "J.Phys.Soc.Jpn, 83(2014)074713"
154831 JPS083074713 ZrP2-xSex Zr1P1.1Se0.9 Zr 1 P 1.1 Se 0.9 1 2014 ABC 2 PbFCl P4/nmm K 5.34 5.34 "mixture - pellet - BN crucible - heat(1300-1400C, 1-2h, P=2 GPa)" "New Intermetallic Ternary Phosphide Chalcogenide AP2-xXx (A = Zr, Hf; X = S, Se) Superconductors with PbFCl-Type Crystal Structure" 2014 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "J.Phys.Soc.Jpn, 83(2014)074713"
154832 JPS083074713 ZrP2-xSex Zr1P0.6Se1.4 Zr 1 P 0.6 Se 1.4 1 2014 ABC 2 PbFCl P4/nmm K 4.11 4.11 "mixture - pellet - BN crucible - heat(1300-1400C, 1-2h, P=2 GPa)" "New Intermetallic Ternary Phosphide Chalcogenide AP2-xXx (A = Zr, Hf; X = S, Se) Superconductors with PbFCl-Type Crystal Structure" 2014 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "J.Phys.Soc.Jpn, 83(2014)074713"
154833 JPS083074713 ZrP2-xSx Zr1P1.6S0.4 Zr 1 P 1.6 S 0.4 1 2014 ABC 2 PbFCl P4/nmm K 4.36 4.36 "mixture - pellet - BN crucible - heat(1300-1400C, 1-2h, P=2 GPa)" "New Intermetallic Ternary Phosphide Chalcogenide AP2-xXx (A = Zr, Hf; X = S, Se) Superconductors with PbFCl-Type Crystal Structure" 2014 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "J.Phys.Soc.Jpn, 83(2014)074713"
154834 JPS083074713 ZrP2-xSx Zr1P1.4S0.6 Zr 1 P 1.4 S 0.6 1 2014 ABC 2 PbFCl P4/nmm K 4.99 4.99 MTC154834 "mixture - pellet - BN crucible - heat(1300-1400C, 1-2h, P=2 GPa)" "New Intermetallic Ternary Phosphide Chalcogenide AP2-xXx (A = Zr, Hf; X = S, Se) Superconductors with PbFCl-Type Crystal Structure" 2014 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "J.Phys.Soc.Jpn, 83(2014)074713"
154835 JPS083074713 ZrP2-xSx Zr1P1.25S0.75 Zr 1 P 1.25 S 0.75 1 2014 ABC 2 PbFCl P4/nmm K 4.85 4.85 "mixture - pellet - BN crucible - heat(1300-1400C, 1-2h, P=2 GPa)" "New Intermetallic Ternary Phosphide Chalcogenide AP2-xXx (A = Zr, Hf; X = S, Se) Superconductors with PbFCl-Type Crystal Structure" 2014 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "J.Phys.Soc.Jpn, 83(2014)074713"
154836 JPS083074713 ZrP2-xSx Zr1P1S1 Zr 1 P 1 S 1 1 2014 ABC 2 PbFCl P4/nmm K 3.6 3.6 "mixture - pellet - BN crucible - heat(1300-1400C, 1-2h, P=2 GPa)" "New Intermetallic Ternary Phosphide Chalcogenide AP2-xXx (A = Zr, Hf; X = S, Se) Superconductors with PbFCl-Type Crystal Structure" 2014 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "J.Phys.Soc.Jpn, 83(2014)074713"
154837 JPS083074713 HfP2-xSx Hf1P1.5S0.5 Hf 1 P 1.5 S 0.5 1 2014 ABC 2 PbFCl P4/nmm K 4.63 4.63 "mixture - pellet - BN crucible - heat(1300-1400C, 1-2h, P=2 GPa)" "New Intermetallic Ternary Phosphide Chalcogenide AP2-xXx (A = Zr, Hf; X = S, Se) Superconductors with PbFCl-Type Crystal Structure" 2014 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "J.Phys.Soc.Jpn, 83(2014)074713"
154838 JPS083074713 HfP2-xSex Hf1P1.7S0.3 Hf 1 P 1.7 S 0.3 1 2014 ABC 2 PbFCl P4/nmm K 3.71 3.71 "mixture - pellet - BN crucible - heat(1300-1400C, 1-2h, P=2 GPa)" "New Intermetallic Ternary Phosphide Chalcogenide AP2-xXx (A = Zr, Hf; X = S, Se) Superconductors with PbFCl-Type Crystal Structure" 2014 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "J.Phys.Soc.Jpn, 83(2014)074713"
154839 JPS083074713 HfP2-xSex Hf1P1.5S0.5 Hf 1 P 1.5 S 0.5 1 2014 ABC 2 PbFCl P4/nmm K 5.31 5.31 MTC154839 "mixture - pellet - BN crucible - heat(1300-1400C, 1-2h, P=2 GPa)" "New Intermetallic Ternary Phosphide Chalcogenide AP2-xXx (A = Zr, Hf; X = S, Se) Superconductors with PbFCl-Type Crystal Structure" 2014 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "J.Phys.Soc.Jpn, 83(2014)074713"
154840 JPS083093702 "P induced SC. Pcr = 0.73 GPa. RRR=290 for P=0.73 GPa.. SC properties in DB for P=1.0 GPa(Tcmax). (Tc,Hc2(0), cohere) = (2.1,1.6,164) and (1.88,0.79,197) in(K,T,A) unit for P=1.40 and .88 GPa." CrAs As1Cr1 As 1 Cr 1 3 2014 265 AB MnP Pmma K 2.17 0 2.17 MTC154840 T WHH 1.37 T/K 0.91 MHC154840 Sn-flux method. (Cr:As:Sn = 1:1:10) - in alumina crucible - sealed in quartz tube - heat to 1050C - hold(2h) - cool to 600C(5 C/h) Superconductivity of 2.2K under Pressure in Helimagnet CrAs 2014 "Department of Physics, Kobe University, Kobe 658-8530, Japan" "J.Phys.Soc.Jpn, 83(2014)093702"
154841 JPS083103703 mixed phase: IrSi3 and unknown phase. Lattice term in SP (beta) = 0.101 mJ/mol.K4. (dC/gamma*Tc) = 1.40. e-ph = 0.52 Li2IrSi3 Li2Ir1Si3 Li 2 Ir 1 Si 3 2014 AB2C3 P6<3> 194 A 5.01762 7.84022 K 3.7 3.7 3.7 80 T R(mid) 0.21 MHC154841 A from Hc2 400 3.26 14 mJ/mol.K2 5.37 SP 486 SP "solid stae reaction. mixture(Si+Ir) - mixed with Li - pellet - sealed in Ti tube(arc-welded) - SIN(850C,48h in carbon coeted quartz tube)" Superconductivity at 3.7K in Ternary Silicide Li2IrSi3 2014 "Department of Physics, University of Tokyo, Bunkyo, Tokyo 113-0033, Japan" "J.Phys.Soc.Jpn, 83(2014)103703"
154842 NAT4830067 2nd high-TC SC phase appears for high-P region. no-structure change upto 15 GPa. Tc defines as intersection of (dR/dT)max to normal line. KFe2Se2 K0.8Fe1.7Se2 K 0.8 Fe 1.7 Se 2 3 2012 AB2C2 ThCr2Si2 Fe-122 K 32 32 MTC154842 Bridgman method Re-emerging superconductivity at 48 kelvin in iron chalcogenides 2012 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Nature, 483(2012)67"
154843 NAT4830067 2nd high-TC SC phase appears for high-P region. no-structure change upto 15 GPa. Tc defines as intersection of (dR/dT)max to normal line. KFe2Se2 K0.8Fe1.78Se2 K 0.8 Fe 1.78 Se 2 3 2012 AB2C2 ThCr2Si2 Fe-122 K 32 32 MTC154843 Bridgman method Re-emerging superconductivity at 48 kelvin in iron chalcogenides 2012 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Nature, 483(2012)67"
154844 NAT4830067 2nd high-TC SC phase appears for high-P region. no-structure change upto 15 GPa. Tc defines as intersection of (dR/dT)max to normal line. "(Tl,Rb)Fe2Se2" Tl0.6Rb0.4Fe1.67Se2 Tl 0.6 Rb 0.4 Fe 1.67 Se 2 3 2012 AB2C2 ThCr2Si2 Fe-122 K 32 32 MTC154844 Bridgman method Re-emerging superconductivity at 48 kelvin in iron chalcogenides 2012 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Nature, 483(2012)67"
154845 NATCOM0030943 Fermi liquid. R(T): expornent = 1.92. Tc(P) defined as Tc(on) "La(O,H)FeAs" La1Fe1As1H0.08O0.92 La 1 Fe 1 As 1 H 0.08 O 0.92 1 2012 ABCD oxypnictide Fe-1111 K 28.7 28.7 MTC154845 Two-dome structure in electron-doped iron arsenide superconductors 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Nature Commun., 3(2012)943"
154846 NATCOM0030943 Fermi liquid. R(T): expornent = 2.25. Tc(P) defined as Tc(on) "La(O,H)FeAs" La1Fe1As1H0.21O0.79 La 1 Fe 1 As 1 H 0.21 O 0.79 1 2012 ABCD oxypnictide Fe-1111 K 17.8 17.8 MTC154846 Two-dome structure in electron-doped iron arsenide superconductors 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Nature Commun., 3(2012)943"
154847 NATCOM0030943 "La(O,H)FeAs" La1Fe1As1H0.3O0.7 La 1 Fe 1 As 1 H 0.3 O 0.7 1 2012 ABCD oxypnictide Fe-1111 K 38 38 MTC154847 Two-dome structure in electron-doped iron arsenide superconductors 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Nature Commun., 3(2012)943"
154848 NATCOM0030943 R(T): expornent = 0.7. Tc(P) defined as Tc(on) "La(O,H)FeAs" La1Fe1As1H0.46O0.54 La 1 Fe 1 As 1 H 0.46 O 0.54 1 2012 ABCD oxypnictide Fe-1111 K 36.2 36.2 MTC154848 Two-dome structure in electron-doped iron arsenide superconductors 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Nature Commun., 3(2012)943"
154849 NATCOM0030943 R(T): expornent = 1.14. Tc(P) defined as Tc(on) "La(O,H)FeAs" La1Fe1As1H0.24O0.76 La 1 Fe 1 As 1 H 0.24 O 0.76 1 2012 ABCD oxypnictide Fe-1111 K 30.1 30.1 MTC154849 Two-dome structure in electron-doped iron arsenide superconductors 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Nature Commun., 3(2012)943"
154850 NATCOM0030943 R(T): expornent = 1.1. "Gd(O,H)FeAs" Gd1Fe1As1H0.1O0.9 Gd 1 Fe 1 As 1 H 0.1 O 0.9 1 2012 ABCD oxypnictide Fe-1111 K 55 55 MTC154850 Two-dome structure in electron-doped iron arsenide superconductors 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Nature Commun., 3(2012)943"
154851 NATCOM0030943 R(T): expornent = 0.81. "Gd(O,H)FeAs" Gd1Fe1As1H0.3O0.7 Gd 1 Fe 1 As 1 H 0.3 O 0.7 1 2012 ABCD oxypnictide Fe-1111 K 45.9 45.9 Two-dome structure in electron-doped iron arsenide superconductors 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Nature Commun., 3(2012)943"
154852 NATCOM0030943 R(T): expornent = 0.93. "Sm(O,H)FeAs" Sm1Fe1As1H0.066O0.934 Sm 1 Fe 1 As 1 H 0.066 O 0.934 1 2012 ABCD oxypnictide Fe-1111 K 43.3 43.3 Two-dome structure in electron-doped iron arsenide superconductors 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Nature Commun., 3(2012)943"
154853 NATCOM0030943 "Sm(O,H)FeAs" Sm1Fe1As1H0.25O0.75 Sm 1 Fe 1 As 1 H 0.25 O 0.75 1 2012 ABCD oxypnictide Fe-1111 K 54.7 54.7 MTC154853 Two-dome structure in electron-doped iron arsenide superconductors 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Nature Commun., 3(2012)943"
154854 NATCOM0030943 "Sm(O,H)FeAs" Sm1Fe1As1H0.4O0.6 Sm 1 Fe 1 As 1 H 0.4 O 0.6 1 2012 ABCD oxypnictide Fe-1111 K 46.4 46.4 Two-dome structure in electron-doped iron arsenide superconductors 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Nature Commun., 3(2012)943"
154855 NATCOM0030943 "Ce(O,H)FeAs" Ce1Fe1As1H0.065O0.935 Ce 1 Fe 1 As 1 H 0.065 O 0.935 1 2012 ABCD oxypnictide Fe-1111 K 41.1 41.1 Two-dome structure in electron-doped iron arsenide superconductors 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Nature Commun., 3(2012)943"
154856 NATCOM0030943 R(T): expornent = 1.46. "Ce(O,H)FeAs" Ce1Fe1As1H0.22O0.78 Ce 1 Fe 1 As 1 H 0.22 O 0.78 1 2012 ABCD oxypnictide Fe-1111 K 48 48 MTC154856 Two-dome structure in electron-doped iron arsenide superconductors 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Nature Commun., 3(2012)943"
154857 NATCOM0030943 R(T): expornent = 0.53. "Ce(O,H)FeAs" Ce1Fe1As1H0.4O0.6 Ce 1 Fe 1 As 1 H 0.4 O 0.6 1 2012 ABCD oxypnictide Fe-1111 K 43.1 43.1 Two-dome structure in electron-doped iron arsenide superconductors 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Nature Commun., 3(2012)943"
154858 NJP012123003 R measured. Energy gap measured by time-resolved optical reflection. "Ba(Fe,Ni)2As2" Ba1Fe1.9Ni0.1As2 Ba 1 Fe 1.9 Ni 0.1 As 2 3 2010 AB2C2 ThCr2Si2 Fe-122 K 20 0.7 20 6.6 15 self flux method "Distinct quasiparticle relaxation dynamics in an electron-doped superconductor, BaFe1.9Ni0.1As2" 2010 "Department of Physics and Astronomy, Hunter College, the City University of New York, 695 Park Avenue, New York, NY 10065, USA" "New J.Phys., 12(2010)123003"
154859 PHC5020010 impurity phase : Fe3O4(NiAs type phase) "Fe(Te,Se)" Fe1.02Te0.5Se0.5 Fe 1.02 Te 0.5 Se 0.5 2014 AB PbO A 3.7879 5.9833 Fe-11 K 12.2 13.6 15 13.6 mOhm.cm 1 1.1 "Fe(3N8),Te(4N),Se(4N),S(4N)" "solid state reaction. mixture - sealed in quartz tube - heat(700C,24h) - reground - ANN(500C,10h) - ANN(700C,38h) - ANN(700C,120h)" Properties of FeSe-type superconductors with ternary mixture of chalcogens 2014 "Institute of Natural Sciences, Ural Federal University, 620083 Ekaterinburg, Russia" "Physca C, 502(2014)10"
154860 PHC5020010 impurity phase : Fe3O4(NiAs type phase) "Fe(Te,Se,S)" Fe1.02Te0.5Se0.4S0.1 Fe 1.02 Te 0.5 Se 0.4 S 0.1 2014 AB PbO A 3.7915 6.0265 Fe-11 K 11.8 13 14.3 13 mOhm.cm 1.38 1.16 "Fe(3N8),Te(4N),Se(4N),S(4N)" "solid state reaction. mixture - sealed in quartz tube - heat(700C,24h) - reground - ANN(500C,10h) - ANN(700C,38h) - ANN(700C,120h)" Properties of FeSe-type superconductors with ternary mixture of chalcogens 2014 "Institute of Natural Sciences, Ural Federal University, 620083 Ekaterinburg, Russia" "Physca C, 502(2014)10"
154861 PHC5020010 impurity phase : Fe3O4(NiAs type phase) "Fe(Te,Se,S)" Fe1.02Te0.5Se0.3S0.2 Fe 1.02 Te 0.5 Se 0.3 S 0.2 2014 AB PbO A 3.796 6.0643 Fe-11 K 10.41 11.64 12.9 11.64 MTC154862 mOhm.cm 2.14 1.54 "Fe(3N8),Te(4N),Se(4N),S(4N)" "solid state reaction. mixture - sealed in quartz tube - heat(700C,24h) - reground - ANN(500C,10h) - ANN(700C,38h) - ANN(700C,120h)" Properties of FeSe-type superconductors with ternary mixture of chalcogens 2014 "Institute of Natural Sciences, Ural Federal University, 620083 Ekaterinburg, Russia" "Physca C, 502(2014)10"
154862 PHC5020010 impurity phase : Fe3O4(NiAs type phase) "Fe(Te,Se,S)" Fe1.02Te0.5Se0.2S0.3 Fe 1.02 Te 0.5 Se 0.2 S 0.3 2014 AB PbO A 3.7968 6.11 Fe-11 K 8.79 10.16 11.5 10.16 MTC154862 mOhm.cm 4.18 2.38 "Fe(3N8),Te(4N),Se(4N),S(4N)" "solid state reaction. mixture - sealed in quartz tube - heat(700C,24h) - reground - ANN(500C,10h) - ANN(700C,38h) - ANN(700C,120h)" Properties of FeSe-type superconductors with ternary mixture of chalcogens 2014 "Institute of Natural Sciences, Ural Federal University, 620083 Ekaterinburg, Russia" "Physca C, 502(2014)10"
154863 PHC5020010 impurity phase : Fe3O4(NiAs type phase) "Fe(Te,Se,S)" Fe1.02Te0.5Se0.1S0.4 Fe 1.02 Te 0.5 Se 0.1 S 0.4 2014 AB PbO A 3.8008 6.1702 Fe-11 K 7.31 8.45 10.02 8.45 mOhm.cm 6.94 4.48 "Fe(3N8),Te(4N),Se(4N),S(4N)" "solid state reaction. mixture - sealed in quartz tube - heat(700C,24h) - reground - ANN(500C,10h) - ANN(700C,38h) - ANN(700C,120h)" Properties of FeSe-type superconductors with ternary mixture of chalcogens 2014 "Institute of Natural Sciences, Ural Federal University, 620083 Ekaterinburg, Russia" "Physca C, 502(2014)10"
154864 PHC5020010 not SC. impurity phase : Fe3O4(NiAs type phase) "Fe(Te,S)" Fe1.02Te0.5S0.5 Fe 1.02 Te 0.5 S 0.5 2014 AB PbO A 3.8013 6.2295 Fe-11 K 2 mOhm.cm 18.3 10.1 "Fe(3N8),Te(4N),Se(4N),S(4N)" "solid state reaction. mixture - sealed in quartz tube - heat(700C,24h) - reground - ANN(500C,10h) - ANN(700C,38h) - ANN(700C,120h)" Properties of FeSe-type superconductors with ternary mixture of chalcogens 2014 "Institute of Natural Sciences, Ural Federal University, 620083 Ekaterinburg, Russia" "Physca C, 502(2014)10"
154865 PHC5040001 Impurity phase: SrSnO3. SC volume increases by high P ANN process. "EuSr2(Ta,Sn)Cu2O8-z" Eu1Sr2Ta0.8Sn0.2O8-z Eu 1 Sr 2 Ta 0.8 Sn 0.2 O 8-z 2014 M1212 A 3.872 11.674 Ta-1212 K 13 40 40 40 "mixture - SIN(1000C,12h,in air) - reground - pellet - SIN(1030C,24h in air) - cool to RT - ANN(200-400C,40h, in flowing O2)" "Synthesis of a new superconductor EuSr2Cu2(Ta,Sn)O8-z" 2014 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Sendai 980-8579, Japan" "Physca C, 504(2014)1"
154866 PHC5040001 "SmSr2(Ta,Sn)Cu2O8-z" Sm1Sr2Ta0.8Sn0.2O8-z Sm 1 Sr 2 Ta 0.8 Sn 0.2 O 8-z 2014 M1212 Ta-1212 K 30 30 "mixture - SIN(1000C,12h,in air) - reground - pellet - SIN(1030C,24h in air) - cool to RT - ANN(200-400C,40h, in flowing O2)" "Synthesis of a new superconductor EuSr2Cu2(Ta,Sn)O8-z" 2014 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Sendai 980-8579, Japan" "Physca C, 504(2014)1"
154867 PHC5040001 not SC "NdSr2(Ta,Sn)Cu2O8-z" Nd1Sr2Ta0.8Sn0.2O8-z Nd 1 Sr 2 Ta 0.8 Sn 0.2 O 8-z 2014 M1212 Ta-1212 K 2 "mixture - SIN(1000C,12h,in air) - reground - pellet - SIN(1030C,24h in air) - cool to RT - ANN(200-400C,40h, in flowing O2)" "Synthesis of a new superconductor EuSr2Cu2(Ta,Sn)O8-z" 2014 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Sendai 980-8579, Japan" "Physca C, 504(2014)1"
154868 PHC4690370 "(dHc2/dT) depends on Tc-criterion. Energy gap by PCAR. two gaps: d1 = 6.45 me,V(2d1/kTc) = 2.8-3.1, d2=16.6 meV, (2d2/kTc) = 6.8-8.5. Anisotropy(Hc2) = 7-7.5" "Sm(O,F)FeAs" Sm1Fe1As1F0.25O0.7 Sm 1 Fe 1 As 1 F 0.25 O 0.7 3 2009 ABCD 2 oxypnictide P4/nmm Fe-1111 K 49.6 49.6 T R(0.5Rn) T/K R(0.5Rn) 8 3.3 MHC154868 meV 16.6 6.8 1 cubic anvil high pressure method "Single crystals of LnFeAsO1-xFx (Ln = La, Pr, Nd, Sm, Gd) and Ba1-xRbxFe2As2: Growth, structure and superconducting properties" 2009 "Laboratory for Solid State Physics, ETH Zurich, 8093 Zurich, Switzerland" "Physca C, 469(2009)370"
154869 PHC4690370 Anisotropy(Hc2) = 2.5-3.2 near Tc. "(Ba,Rb)Fe2As2" Ba0.9Rb0.1Fe2As2 Ba 0.9 Rb 0.1 Fe 2 As 2 3 2009 AB2C2 2 ThCr2Si2 I4/mmm A 3.925 13.2096 Fe-122 K 23.3 23.3 T R(0.5Rn) T/K R(0.5Rn) 7.1 4.2 MHC154869 "Sn-flux method. Fe:Sn=1:24. mixture - alumina crucible in sealed quartz tube - heat(850C,3h) - cool to 500C over 50h." "Single crystals of LnFeAsO1-xFx (Ln = La, Pr, Nd, Sm, Gd) and Ba1-xRbxFe2As2: Growth, structure and superconducting properties" 2009 "Laboratory for Solid State Physics, ETH Zurich, 8093 Zurich, Switzerland" "Physca C, 469(2009)370"
154870 PHC5040016 "Energy gap measured by SP using two band model. Large & Small gaps are (d1,d2) = (4.09, 2.60) meV for H = 0 T." "Fe(Se,Te)" Fe1Se0.4Te0.6 Fe 1 Se 0.4 Te 0.6 2014 AB Fe-11 Fe-11 K 14.2 14.2 meV 4.09 14 "Bridgman method. as-grown sample - ANN(400C,200h, in vac)" Specific heat in magnetic fields and superconducting gap structure in FeSe1-xTex (0.6 =< x =<1) 2014 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "Physca C, 504(2014)16"
154871 PHC5040019 "impurity phases(SmAs,SmOF,Fe2P) are observed by XRD. [RES77] shows RES at 60 K. Carrier conc. = 7.8 E+22 /cm3 at 60 K." "Sm(O,F)FeAs" Sm1Fe1As1F0.12O0.88 Sm 1 Fe 1 As 1 F 0.12 O 0.88 1 2014 ABCD oxypnictide P4/nmm A 3.9301 8.4781 ZrCuSiAs type. Fe-1111 K 48.4 50.3 49.35 T "R(0.9Rn), WHH" 292 T/K R(0.9Rn) 8.4 MHC154871 A from Hc2 10.6 uV/K -34 MTP154871 mOhm.cm 3.25 m3/C -2.52E-09 MRH154871 "SmAs,Fe2O3,FeF2,Fe,FeP" "solid state reaction. mixture - pellet - wrapped in Ta foil - SIN(900C,45h, in evacuated quartz tube)" "Effects of phosphorous doping on the superconducting properties of SmFeAs(O,F)" 2014 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Physca C, 504(2014)19"
154872 PHC5040019 "impurity phases(SmAs,SmOF,Fe2P) are observed by XRD. [RES77] shows RES at 60 K. Carrier conc. = 5.8 E+22 /cm3 at 60 K." "Sm(O,F)Fe(As,P)" Sm1Fe1As0.95P0.05F0.12O0.88 Sm 1 Fe 1 As 0.95 P 0.05 F 0.12 O 0.88 1 2014 ABCD oxypnictide P4/nmm A 3.9306 8.4747 ZrCuSiAs type. Fe-1111 K 44.4 49.2 46.8 MTC154872 T "R(0.9Rn), WHH" 194 T/K R(0.9Rn) 6 MHC154872 uV/K -28.6 MTP154872 mOhm.cm 2.32 m3/C -3.55E-09 MRH154872 "SmAs,Fe2O3,FeF2,Fe,FeP" "solid state reaction. mixture - pellet - wrapped in Ta foil - SIN(900C,45h, in evacuated quartz tube)" "Effects of phosphorous doping on the superconducting properties of SmFeAs(O,F)" 2014 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Physca C, 504(2014)19"
154873 PHC5040019 "impurity phases(SmAs,SmOF,Fe2P) are observed by XRD. [RES77] shows RES at 60 K. Carrier conc. = 4.8 E+22 /cm3 at 60 K." "Sm(O,F)Fe(As,P)" Sm1Fe1As0.9P0.1F0.12O0.88 Sm 1 Fe 1 As 0.9 P 0.1 F 0.12 O 0.88 1 2014 ABCD oxypnictide P4/nmm A 3.9307 8.4714 ZrCuSiAs type. Fe-1111 K 33.5 39.2 36.35 T "R(0.9Rn), WHH" 116 T/K R(0.9Rn) 4.5 MHC154873 uV/K -26.5 MTP154873 mOhm.cm 6.7 m3/C -3.66E-09 MRH154873 "SmAs,Fe2O3,FeF2,Fe,FeP" "solid state reaction. mixture - pellet - wrapped in Ta foil - SIN(900C,45h, in evacuated quartz tube)" "Effects of phosphorous doping on the superconducting properties of SmFeAs(O,F)" 2014 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Physca C, 504(2014)19"
154874 PHC5040019 "impurity phases(SmAs,SmOF,Fe2P) are observed by XRD. [RES77] shows RES at 60 K." "Sm(O,F)Fe(As,P)" Sm1Fe1As0.85P0.15F0.12O0.88 Sm 1 Fe 1 As 0.85 P 0.15 F 0.12 O 0.88 1 2014 ABCD oxypnictide P4/nmm A 3.9311 8.4664 ZrCuSiAs type. Fe-1111 K 14.9 20.7 17.8 T "R(0.9Rn), WHH" 36 T/K R(0.9Rn) 2.7 MHC154874 uV/K -24.1 MTP154874 mOhm.cm 9.9 "SmAs,Fe2O3,FeF2,Fe,FeP" "solid state reaction. mixture - pellet - wrapped in Ta foil - SIN(900C,45h, in evacuated quartz tube)" "Effects of phosphorous doping on the superconducting properties of SmFeAs(O,F)" 2014 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Physca C, 504(2014)19"
154875 PHC5040019 "impurity phases(SmAs,SmOF,Fe2P) are observed by XRD. [RES77] shows RES at 60 K. Carrier conc. = 7.8 E+22 /cm3 at 60 K." "Sm(O,F)Fe(As,P)" Sm1Fe1As0.8P0.2F0.12O0.88 Sm 1 Fe 1 As 0.8 P 0.2 F 0.12 O 0.88 1 2014 ABCD oxypnictide P4/nmm A 3.9316 8.4604 ZrCuSiAs type. Fe-1111 K 13.1 18.1 15.6 T "R(0.9Rn), WHH" 31 T/K R(0.9Rn) 2.6 MHC154875 mOhm.cm 10.5 "SmAs,Fe2O3,FeF2,Fe,FeP" "solid state reaction. mixture - pellet - wrapped in Ta foil - SIN(900C,45h, in evacuated quartz tube)" "Effects of phosphorous doping on the superconducting properties of SmFeAs(O,F)" 2014 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Physca C, 504(2014)19"
154876 PHC5040019 "not SC. impurity phases(SmAs,SmOF,Fe2P) are observed by XRD. [RES77] shows RES at 60 K. Carrier conc. = 7.8 E+22 /cm3 at 60 K." "Sm(O,F)Fe(As,P)" Sm1Fe1As0.75P0.25F0.12O0.88 Sm 1 Fe 1 As 0.75 P 0.25 F 0.12 O 0.88 1 2014 ABCD oxypnictide P4/nmm ZrCuSiAs type. Fe-1111 K 2 mOhm.cm 11.6 "SmAs,Fe2O3,FeF2,Fe,FeP" "solid state reaction. mixture - pellet - wrapped in Ta foil - SIN(900C,45h, in evacuated quartz tube)" "Effects of phosphorous doping on the superconducting properties of SmFeAs(O,F)" 2014 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Physca C, 504(2014)19"
154877 PHC5040033 "(Ce,Nd)(O,F)BiS2" Ce0.6Nd0.4F0.5Bi1S2O0.5 Ce 0.6 Nd 0.4 F 0.5 Bi 1 S 2 O 0.5 1 2014 P4/nmm BiS2 layer K 3 3 MTC154877 "Bi,Ce2S3,Nd2S3,BiF3,Bi2O3,Bi2S3" "mixture - pellet - sealed in quartz tube - heat(700C,10h) - reground - heat(700C,10h)" Chemical pressure effect on Tc in BiS2-based Ce1-xNdxO0.5F0.5BiS2 2014 "Tokyo Metropolitan University, 1-1 Minami-Osawa, Hachioji, Tokyo 192-0397, Japan" "Physca C, 504(2014)33"
154878 PHC5040033 "(Ce,Nd)(O,F)BiS2" Ce0.5Nd0.5F0.5Bi1S2O0.5 Ce 0.5 Nd 0.5 F 0.5 Bi 1 S 2 O 0.5 1 2014 P4/nmm BiS2 layer K 3.46 3.46 MTC154877 "Bi,Ce2S3,Nd2S3,BiF3,Bi2O3,Bi2S3" "mixture - pellet - sealed in quartz tube - heat(700C,10h) - reground - heat(700C,10h)" Chemical pressure effect on Tc in BiS2-based Ce1-xNdxO0.5F0.5BiS2 2014 "Tokyo Metropolitan University, 1-1 Minami-Osawa, Hachioji, Tokyo 192-0397, Japan" "Physca C, 504(2014)33"
154879 PHC5040033 "(Ce,Nd)(O,F)BiS2" Ce0.4Nd0.6F0.5Bi1S2O0.5 Ce 0.4 Nd 0.6 F 0.5 Bi 1 S 2 O 0.5 1 2014 P4/nmm BiS2 layer K 3.94 3.94 "Bi,Ce2S3,Nd2S3,BiF3,Bi2O3,Bi2S3" "mixture - pellet - sealed in quartz tube - heat(700C,10h) - reground - heat(700C,10h)" Chemical pressure effect on Tc in BiS2-based Ce1-xNdxO0.5F0.5BiS2 2014 "Tokyo Metropolitan University, 1-1 Minami-Osawa, Hachioji, Tokyo 192-0397, Japan" "Physca C, 504(2014)33"
154880 PHC5040033 "(Ce,Nd)(O,F)BiS2" Ce0.3Nd0.7F0.5Bi1S2O0.5 Ce 0.3 Nd 0.7 F 0.5 Bi 1 S 2 O 0.5 1 2014 P4/nmm BiS2 layer K 4.07 4.07 "Bi,Ce2S3,Nd2S3,BiF3,Bi2O3,Bi2S3" "mixture - pellet - sealed in quartz tube - heat(700C,10h) - reground - heat(700C,10h)" Chemical pressure effect on Tc in BiS2-based Ce1-xNdxO0.5F0.5BiS2 2014 "Tokyo Metropolitan University, 1-1 Minami-Osawa, Hachioji, Tokyo 192-0397, Japan" "Physca C, 504(2014)33"
154881 PHC5040033 "(Ce,Nd)(O,F)BiS2" Ce0.2Nd0.8F0.5Bi1S2O0.5 Ce 0.2 Nd 0.8 F 0.5 Bi 1 S 2 O 0.5 1 2014 P4/nmm BiS2 layer K 4.42 4.42 "Bi,Ce2S3,Nd2S3,BiF3,Bi2O3,Bi2S3" "mixture - pellet - sealed in quartz tube - heat(700C,10h) - reground - heat(700C,10h)" Chemical pressure effect on Tc in BiS2-based Ce1-xNdxO0.5F0.5BiS2 2014 "Tokyo Metropolitan University, 1-1 Minami-Osawa, Hachioji, Tokyo 192-0397, Japan" "Physca C, 504(2014)33"
154882 PHC5040033 "(Ce,Nd)(O,F)BiS2" Ce0.1Nd0.9F0.5Bi1S2O0.5 Ce 0.1 Nd 0.9 F 0.5 Bi 1 S 2 O 0.5 1 2014 P4/nmm BiS2 layer K 4.68 4.68 "Bi,Ce2S3,Nd2S3,BiF3,Bi2O3,Bi2S3" "mixture - pellet - sealed in quartz tube - heat(700C,10h) - reground - heat(700C,10h)" Chemical pressure effect on Tc in BiS2-based Ce1-xNdxO0.5F0.5BiS2 2014 "Tokyo Metropolitan University, 1-1 Minami-Osawa, Hachioji, Tokyo 192-0397, Japan" "Physca C, 504(2014)33"
154883 PHC5040033 "Nd(O,F)BiS2" Nd1F0.5Bi1S2O0.5 Nd 1 F 0.5 Bi 1 S 2 O 0.5 1 2014 P4/nmm BiS2 layer K 4.79 4.79 "Bi,Ce2S3,Nd2S3,BiF3,Bi2O3,Bi2S3" "mixture - pellet - sealed in quartz tube - heat(700C,10h) - reground - heat(700C,10h)" Chemical pressure effect on Tc in BiS2-based Ce1-xNdxO0.5F0.5BiS2 2014 "Tokyo Metropolitan University, 1-1 Minami-Osawa, Hachioji, Tokyo 192-0397, Japan" "Physca C, 504(2014)33"
154884 PHC5040036 DOS estimated to be 5.7 states/eV/f.u. BaTi2Sb2O Ba1Ti2Sb2O1 Ba 1 Ti 2 Sb 2 O 1 1 2014 ABC2D2 K 1.2 1.2 T "R(0.5Rn), Linear approx." 1.32 MHC154884 A from Hc2 158 "BaO(4N),Ti(3N),Sb(3N)" "mixture - pellet - wrapped with Ta foil - sealed in quartz tube - heat(1000C,50h) - cool to RT(25C/h)" "Superconducting properties of BaTi2Pn2O (Pn = Sb, Bi)" 2014 "Institute for Solid State Physics, The University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "Physca C, 504(2014)36"
154885 PHC5040036 "impurity phases: Bi, BaO. GL(kappa) = 20.8. DOS estimated to be 4.79 states/eV/f.u." BaTi2Bi2O Ba1Ti2Bi2O1 Ba 1 Ti 2 Bi 2 O 1 1 2014 ABC2D2 K 4.6 4.6 Oe M-H curve 60 T "R(0.5Rn), Linear approx." 1.7 MHC154885 A from Hc2 139 A "from Hc1, GL theory" 2900 "BaO(4N),Ti(3N),Bi(3N)" "mixture - pellet - wrapped with Ta foil - sealed in quartz tube - heat(850C,50h) - cool to RT(25C/h)" "Superconducting properties of BaTi2Pn2O (Pn = Sb, Bi)" 2014 "Institute for Solid State Physics, The University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "Physca C, 504(2014)36"
154886 PHC5060040 "K0.63Fe1.37Mn0.028Se2 by EDX. Three step SC transitions. Tc=31.9, 36.8, 42.5 K. DB shows for 2nd transition. Tc defined as R=0.5Rn." "K0.8(Fe,Mn)2Se2" K0.8Fe1.97Mn0.03Se2 K 0.8 Fe 1.97 Mn 0.03 Se 2 3 2014 AB2C2 ThCr2Si2 K 32.1 37.4 39.6 36.8 37.4 T "RES, WHH" 137.4 51.8 T/K RES 5.3 2 MHC154886 A from Hc2 25.2 9.5 melting process Anisotropic characteristics and critical behaviors in Mn doped K0.8Fe2Se2 single crystal 2014 "Department of Physics, Shanghai University, 200444 Shanghai, China" "Physca C, 506(2014)40"
154887 PHC5060040 "K0.38Fe1.68Mn0.023Se2 by EDX. Three step SC transitions. Tc=31.9, 36.8, 42.5 K. DB shows for 3rd transition. Tc defined as R=0.9Rn." "K0.8(Fe,Mn)2Se2" K0.8Fe1.97Mn0.03Se2 K 0.8 Fe 1.97 Mn 0.03 Se 2 3 2014 AB2C2 ThCr2Si2 K 42.2 46.1 42.5 42.2 T "RES, WHH" 178.4 52.6 T/K RES 6.1 1.8 MHC154887 A from Hc2 25 7.4 melting process Anisotropic characteristics and critical behaviors in Mn doped K0.8Fe2Se2 single crystal 2014 "Department of Physics, Shanghai University, 200444 Shanghai, China" "Physca C, 506(2014)40"
154888 PHC5060094 Al-content = 2.89 by EDS. "Ba8(Si,Al)46" Ba8Si44Al2 Ba 8 Si 44 Al 2 2014 A8B46 clathrate Pm3[-]n 223 A 10.40759 K 5.85 5.85 "Ba(4N),Si(5N),Al(5N)" arc-melting with extra Ba (5%) The effect of Al-substitution on superconducting type-I clathrate Ba8Si46 2014 "Department of Physics, School of Mathematics and Physics, University of Science and Technology Beijing, Beijing 100083, China" "Physca C, 506(2014)94"
154889 PHC5060094 Al-content = 3.79 by EDS. "Ba8(Si,Al)46" Ba8Si43Al3 Ba 8 Si 43 Al 3 2014 A8B46 clathrate Pm3[-]n 223 A 10.41768 K 5.75 5.75 "Ba(4N),Si(5N),Al(5N)" arc-melting with extra Ba (5%) The effect of Al-substitution on superconducting type-I clathrate Ba8Si46 2014 "Department of Physics, School of Mathematics and Physics, University of Science and Technology Beijing, Beijing 100083, China" "Physca C, 506(2014)94"
154890 PHC5060094 Al-content = 5.39 by EDS. "Ba8(Si,Al)46" Ba8Si41Al5 Ba 8 Si 41 Al 5 2014 A8B46 clathrate Pm3[-]n 223 A 10.44446 K 6 6 "Ba(4N),Si(5N),Al(5N)" arc-melting with extra Ba (5%) The effect of Al-substitution on superconducting type-I clathrate Ba8Si46 2014 "Department of Physics, School of Mathematics and Physics, University of Science and Technology Beijing, Beijing 100083, China" "Physca C, 506(2014)94"
154891 PHC5060094 Al-content = 6.51 by EDS. "Ba8(Si,Al)46" Ba8Si40Al6 Ba 8 Si 40 Al 6 2014 A8B46 clathrate Pm3[-]n 223 A 10.45573 K 5.6 5.6 "Ba(4N),Si(5N),Al(5N)" arc-melting with extra Ba (5%) The effect of Al-substitution on superconducting type-I clathrate Ba8Si46 2014 "Department of Physics, School of Mathematics and Physics, University of Science and Technology Beijing, Beijing 100083, China" "Physca C, 506(2014)94"
154892 PHC5060094 Al-content = 7.24 by EDS. "Ba8(Si,Al)46" Ba8Si39Al7 Ba 8 Si 39 Al 7 2014 A8B46 clathrate Pm3[-]n 223 A 10.47502 K 4 4 "Ba(4N),Si(5N),Al(5N)" arc-melting with extra Ba (5%) The effect of Al-substitution on superconducting type-I clathrate Ba8Si46 2014 "Department of Physics, School of Mathematics and Physics, University of Science and Technology Beijing, Beijing 100083, China" "Physca C, 506(2014)94"
154893 PHC5060094 Al-content = 8.06 by EDS. "Ba8(Si,Al)46" Ba8Si38Al8 Ba 8 Si 38 Al 8 2014 A8B46 clathrate Pm3[-]n 223 A 10.49473 K 3 3 "Ba(4N),Si(5N),Al(5N)" arc-melting with extra Ba (5%) The effect of Al-substitution on superconducting type-I clathrate Ba8Si46 2014 "Department of Physics, School of Mathematics and Physics, University of Science and Technology Beijing, Beijing 100083, China" "Physca C, 506(2014)94"
154894 PHC5070085 O-content by mass change during ANN. Mossbauer effect measured. FeSr2YCu2O6+z Fe1Sr2Y1Cu2O7.51 Fe 1 Sr 2 Y 1 Cu 2 O 6+z 7.51 2014 cm3/g 0.0000024 myu-B/Y 3.6 -56 2 M1212 Fe-1212 K 42 65 23 53.5 "R2O3,SrCO3,CuO,Fe2O3" "mixture - CAL(850C,24h, in air) - ground - pellet - SIN(950C,24h, in air) - ANN(790C,24h, in flowing N2) - ANN(270C,24h, in flowing O2) - ANN(270C,24h, in O2)" "Fe ion distribution and superconductivity of FeSr2RECu2O6ty (RE = Eu, Er, Gd, Nd and Y)" 2014 "Department of Applied Physics, National Defense Academy, 1-10-20 Hashirimizu, Yokosuka 239-8686, Japan" "Physca C, 507(2014)85"
154895 PHC5070085 R not zero down to 4.2 K. O-content by mass change during ANN. Mossbauer effect measured. FeSr2EuCu2O6+z Fe1Sr2Eu1Cu2O7.51 Fe 1 Sr 2 Eu 1 Cu 2 O 6+z 7.51 2014 cm3/g 0.0000368 myu-B/Eu 2.87 -330 2 M1212 Fe-1212 K 22 22 "R2O3,SrCO3,CuO,Fe2O3" "mixture - CAL(850C,24h, in air) - ground - pellet - SIN(950C,24h, in air) - ANN(790C,24h, in flowing N2) - ANN(270C,24h, in flowing O2) - ANN(270C,24h, in O2)" "Fe ion distribution and superconductivity of FeSr2RECu2O6ty (RE = Eu, Er, Gd, Nd and Y)" 2014 "Department of Applied Physics, National Defense Academy, 1-10-20 Hashirimizu, Yokosuka 239-8686, Japan" "Physca C, 507(2014)85"
154896 PHC5070085 O-content by mass change during ANN. Mossbauer effect measured. FeSr2GdCu2O6+z Fe1Sr2Gd1Cu2O7.58 Fe 1 Sr 2 Gd 1 Cu 2 O 6+z 7.58 2014 cm3/g 0.00000191 myu-B/Gd 7.77 1 2 M1212 Fe-1212 K 26 47 21 36.5 "R2O3,SrCO3,CuO,Fe2O3" "mixture - CAL(850C,24h, in air) - ground - pellet - SIN(950C,24h, in air) - ANN(790C,24h, in flowing N2) - ANN(270C,24h, in flowing O2) - ANN(270C,24h, in O2)" "Fe ion distribution and superconductivity of FeSr2RECu2O6ty (RE = Eu, Er, Gd, Nd and Y)" 2014 "Department of Applied Physics, National Defense Academy, 1-10-20 Hashirimizu, Yokosuka 239-8686, Japan" "Physca C, 507(2014)85"
154897 PHC5070085 not SC. O-content by mass change during ANN. Mossbauer effect measured. FeSr2NdCu2O6+z Fe1Sr2Nd1Cu2O7.54 Fe 1 Sr 2 Nd 1 Cu 2 O 6+z 7.54 2014 cm3/g 0.000000471 myu-B/Nd 4.4 -11.7 2 M1212 Fe-1212 K 4.2 "R2O3,SrCO3,CuO,Fe2O3" "mixture - CAL(850C,24h, in air) - ground - pellet - SIN(950C,24h, in air) - ANN(790C,24h, in flowing N2) - ANN(270C,24h, in flowing O2) - ANN(270C,24h, in O2)" "Fe ion distribution and superconductivity of FeSr2RECu2O6ty (RE = Eu, Er, Gd, Nd and Y)" 2014 "Department of Applied Physics, National Defense Academy, 1-10-20 Hashirimizu, Yokosuka 239-8686, Japan" "Physca C, 507(2014)85"
154898 PHC5070085 O-content by mass change during ANN. Mossbauer effect measured. FeSr2ErCu2O6+z Fe1Sr2Er1Cu2O7.5 Fe 1 Sr 2 Er 1 Cu 2 O 6+z 7.5 2014 cm3/g 0.00000314 myu-B/Er 9.5 -10.2 2 M1212 Fe-1212 K 42 62 20 52 "R2O3,SrCO3,CuO,Fe2O3" "mixture - CAL(850C,24h, in air) - ground - pellet - SIN(950C,24h, in air) - ANN(790C,24h, in flowing N2) - ANN(270C,24h, in flowing O2) - ANN(270C,24h, in O2)" "Fe ion distribution and superconductivity of FeSr2RECu2O6ty (RE = Eu, Er, Gd, Nd and Y)" 2014 "Department of Applied Physics, National Defense Academy, 1-10-20 Hashirimizu, Yokosuka 239-8686, Japan" "Physca C, 507(2014)85"
154899 PHC5070055 "M(H//ab) shows 3 step transition at 4K (H=0.78, 1.0, 1.25 T). For T < 2 K, (dHc2/dT) = 0.031 T/K, then Hc2//ab = 0.13 T by WHH." DyNi2B2C Dy1Ni2B2C1 Dy 1 Ni 2 B 2 C 1 3 2014 10.3 ABC2D2 LuNi2B2C K 6.2 6.4 0.2 6.3 T "RES,WHH" 0.55 T/K "RES, (2La-NQR. LaNiC2 La1Ni1C2 La 1 Ni 1 C 2 1 1998 ABC2 3 CeNiC2 A 3.96 4.565 6.207 K 3 3 3.34 6 "La(3N),Ni(3N),C(5N)" arc-melting Microscopic measurements in <139>La-NQR of the ternary carbide superconductor LaNiC2 1998 "Department of Material Science. Faculty of Science, Hirneji Institute of Technogy, Ako-gun, Hyogo 678.1297, Japan" "Phys.Lett. A, 250(1998)439"
154929 PRB081144414 "R(T) shows SC transition at 3.7 K, maybe filamentary Sn impurity incorporated during growth. Two successive magnetic transition , Tn = 17K and 16K in SP." EuPtSi3 Eu1Pt1Si3 Eu 1 Pt 1 Si 3 3 2010 17 ABC3 I4mm A 4.266 9.8768 K 3.7 3.7 High-T solution growth using Sn solvent Magnetic properties of EuPtSi3 single crystals 2010 "Department of Condensed Matter Physics and Material Sciences, Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai 400 005, India" "Phys.Rev.B, 81(2010)144414"
154930 PRB081220501 "[penet]^2 = (1-t^n): n=1.13. Thermal cond. k/T = T^2 + b, b = 25 mW/K2m for low T region. sign changing line node SC." "BaFe2(As,P)2" Ba1Fe2As1.34P0.66 Ba 1 Fe 2 As 1.34 P 0.66 3 2010 AB2C2 ThCr2Si2 Fe-122 K 29.8 30 30.5 30 T "SP, Torque" 51.6 MHC154930 nm tunnel diode 200 W/K.m MTHC154930 62 30 self-flux method Line nodes in the energy gap of superconducting BaFe2(As1-xPx)2 single crystals as seen via penetration depth and thermal conductivity 2010 "Department of Physics, Kyoto University, Sakyo-ku, Kyoto 606-8502, Japan" "Phys.Rev.B, 81(2010)220501"
154931 PRB086064515 RRR = 1.4 for P=0 GPa. Tc defined as max of (dR/dT). HCFIG shows Hc2(T) for various P. YPtBi Y1Pt1Bi1 Y 1 Pt 1 Bi 1 3 2012 ABC F4[-]3m A 6.65 Half Heusler compd. K 0.77 0.06 0.77 MTC154931 K/GPa 0.044 T "Max of (dR/dT), extraporation" 1.23 T/K Max of (dR/dT) 1.9 MHC154931 uOhm.cm 160 4 230 n/cm3 2.20E+19 "Y:Pt:Bi=1:1:1.4. melt(Y,Pt) with Bi - in alumina crucible - in quartz tube(Ar) - heat(1250C,24h) -cool to 900C(1C/h)" Superconductivity in noncentrosymmetric YPtBi under pressure 2012 "Van der Waals - Zeeman Institute, University of Amsterdam, Science Park 904, 1098 XH Amsterdam, The Netherlands" "Phys.Rev.B, 86(2012)064515"
154932 PRB090035115 "T = 147 K (Fm3[-]n to I4[-]3d observed in R(T9, C(T), and SUS(T)." Sr3Ir4Sn13 Sr3Ir4Sn13 Sr 3 Ir 4 Sn 13 3 2014 A3B4C13 Yb3Rh4Sn13 Pm3[-]n A 9.8156 K 5 5 MSP154932 mJ/mol.K2 40 self-flux method using Sn-flux. Unconventional charge-density wave in Sr3Ir4Sn13 cubic superconductor revealed by optical spectroscopy study 2014 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" "Phys.Rev.B, 90(2014)035115"
154933 PRB090014513 RRR=31. Tc(SP)=0.72 K. DOS=1.95 states/eV.mol. GL = 0.55(Type-1 SC). e-ph = 0.41. (dC/gamma*Tc) = 1.09. cohere(L) = 2081nm. penet(clean) = 33.7 nm LaIrSi3 La1Ir1Si3 La 1 Ir 1 Si 3 1 2014 ABC3 BaNiSn3 I4mm 107 A 4.2784 9.8308 K 1.3 1.45 1.6 1.45 mT Hc(0) estimated from Ce(T) using entropy 6.1 mT MHC154933 "Hc from RES, Hc from C(T)" nm 373 nm dirty limit 205 3.08 14 MSP154933 mJ/mol.K 3.6 mJ/mol.K2 4.6 SP 385 SP uOhm.cm 2.7 1.6 83.7 "La(3N),Ir(4N),Si(5N)" "arc-melting - ANN(900C,1w, in vac)" Physical properties of noncentrosymmetric superconductor LaIrSi3: A muon-SR study 2014 "ISIS Facility, Rutherford Appleton Laboratory, Chilton, Didcot, Oxon OX11 0QX, United Kingdom" "Phys.Rev.B, 90(2014)014513"
154934 PRB090054510 "La2O2S,Y2O2S impurity phases(total less than 1% in mass fraction) . lattice term in SP (beta)=0.88 mJ/mol.K4. (dC/gamma*Tc) = 0.8" "(La,Y)(O,F)BiS2" La0.95Y0.05F0.5Bi1S2O0.5 La 0.95 Y 0.05 F 0.5 Bi 1 S 2 O 0.5 1 2014 CeOBiS2 P4/nmm K 2.5 2.5 2.5 MTC154934 mJ/mol.K2 3.22 SP 222 SP "La,Y,S,LaF3,Bi2O3,Bi2S3" "mixture - pellet - in evacuated quartz tube - ANN(800C,2d)" Effect of yttrium substitution on the superconducting properties of La1-xYxO0.5F0.5BiS2 2014 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 90(2014)054510"
154935 PRB090054510 "La2O2S,Y2O2S impurity phases(total nearly 8% in mass fraction) . lattice term in SP (beta)=0.83 mJ/mol.K4. (dC/gamma*Tc) = 0.9" "(La,Y)(O,F)BiS2" La0.75Y0.25F0.5Bi1S2O0.5 La 0.75 Y 0.25 F 0.5 Bi 1 S 2 O 0.5 1 2014 CeOBiS2 P4/nmm K 3.1 3.1 3.1 MTC154934 mJ/mol.K2 2.21 SP 227 SP "La,Y,S,LaF3,Bi2O3,Bi2S3" "mixture - pellet - in evacuated quartz tube - ANN(800C,2d)" Effect of yttrium substitution on the superconducting properties of La1-xYxO0.5F0.5BiS2 2014 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 90(2014)054510"
155000 JPCM025362204 P-induced SC. Pcr = 12 GPa. Tc(max) = 8.2 K(P=17.2 GPa). Low-P phase for P < 12 GPa. High-P phase for P > 12 GPa. lattice C at P=0.35 GPa. SC properties for P=23 GPa. Bi2Se3 Bi2Se3 Bi 2 Se 3 3 2013 A2B3 R3[-]m values for P<12 GPa: rhombohedral K 8.2 0 8.2 MTC155000 T "RES(onset), WHH" 4.7 T/K RES(onset) 1.02 MHC155000 n/cm3 2.00E+18 "Bi(5N),Se(5N)" Bridgman method. mixture(Bi:Se=2:3) - pellet - sealed in quartz ampule) - heat to 800C for 2 days - cool to 550 C(3 C/h) - hold(3d) - slow cool to RT Superconductivity of the topological insulator Bi2Se3 at high pressure 2013 "Beijing National Laboratory for Condensed Matter Physics, and Institute of Physics, Chinese Academy of Sciences, Beijing, 100190, People's Republic of China" "J.Phys:Condens.Matter, 25(2013)362204"
155001 PRB084184523 "SC properties at P = 0 GPa. Tc, gap measured by muon-SR at H=0.1 T. [penet] not given explicitly" YBa2Cu3Oz Y1Ba2Cu3O6.98 Y 1 Ba 2 Cu 3 O z 6.98 1 2011 Y123 K 89.6 89.6 3.87 16 "Y2O3,CuO,BaCO3" 1 solid state reaction method Muon spin rotation investigation of the pressure effect on the magnetic penetration depth in YBa2Cu3Ox 2011 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institut , CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 84(2011)184523"
155002 PRB084184523 "SC properties at P = 1.4 GPa. Tc, gap measured by muon-SR at H=0.1 T. [penet] not given explicitly" YBa2Cu3Oz Y1Ba2Cu3O6.98 Y 1 Ba 2 Cu 3 O z 6.98 1 2011 Y123 K 89.5 89.5 3.6 16 "Y2O3,CuO,BaCO3" 1 solid state reaction method Muon spin rotation investigation of the pressure effect on the magnetic penetration depth in YBa2Cu3Ox 2011 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institut , CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 84(2011)184523"
155003 PRB084184523 "SC properties at P = 0 GPa. Tc, gap measured by muon-SR at H=0.1 T. [penet] not given explicitly" YBa2Cu3Oz Y1Ba2Cu3O6.8 Y 1 Ba 2 Cu 3 O z 6.8 1 2011 Y123 K 77.1 77.1 3.02 16 "Y2O3,CuO,BaCO3" 1 solid state reaction method Muon spin rotation investigation of the pressure effect on the magnetic penetration depth in YBa2Cu3Ox 2011 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institut , CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 84(2011)184523"
155004 PRB084184523 "SC properties at P = 1.1 GPa. Tc, gap measured by muon-SR at H=0.1 T. [penet] not given explicitly" YBa2Cu3Oz Y1Ba2Cu3O6.8 Y 1 Ba 2 Cu 3 O z 6.8 1 2011 Y123 K 83.2 83.2 3.48 16 "Y2O3,CuO,BaCO3" 1 solid state reaction method Muon spin rotation investigation of the pressure effect on the magnetic penetration depth in YBa2Cu3Ox 2011 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institut , CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 84(2011)184523"
155005 PRB084184523 "SC properties at P = 0 GPa. Tc, gap measured by muon-SR at H=0.1 T. [penet] not given explicitly" YBa2Cu3Oz Y1Ba2Cu3O6.66 Y 1 Ba 2 Cu 3 O z 6.66 1 2011 Y123 K 58.9 58.9 3.02 16 "Y2O3,CuO,BaCO3" 1 solid state reaction method Muon spin rotation investigation of the pressure effect on the magnetic penetration depth in YBa2Cu3Ox 2011 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institut , CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 84(2011)184523"
155006 PRB084184523 "SC properties at P = 1.1 GPa. Tc, gap measured by muon-SR at H=0.1 T. [penet] not given explicitly" YBa2Cu3Oz Y1Ba2Cu3O6.66 Y 1 Ba 2 Cu 3 O z 6.66 1 2011 Y123 K 62.6 62.6 3.27 16 "Y2O3,CuO,BaCO3" 1 solid state reaction method Muon spin rotation investigation of the pressure effect on the magnetic penetration depth in YBa2Cu3Ox 2011 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institut , CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 84(2011)184523"
155007 PRB084184523 "SC properties at P = 0 GPa. Tc, gap measured by muon-SR at H=0.1 T. [penet] not given explicitly" YBa2Cu3Oz Y1Ba2Cu3O6.45 Y 1 Ba 2 Cu 3 O z 6.45 1 2011 Y123 K 45.4 45.4 3 16 "Y2O3,CuO,BaCO3" 1 solid state reaction method Muon spin rotation investigation of the pressure effect on the magnetic penetration depth in YBa2Cu3Ox 2011 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institut , CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 84(2011)184523"
155008 PRB084184523 "SC properties at P = 1.1 GPa. Tc, gap measured by muon-SR at H=0.1 T. [penet] not given explicitly" YBa2Cu3Oz Y1Ba2Cu3O6.45 Y 1 Ba 2 Cu 3 O z 6.45 1 2011 Y123 K 49.5 49.5 3 16 "Y2O3,CuO,BaCO3" 1 solid state reaction method Muon spin rotation investigation of the pressure effect on the magnetic penetration depth in YBa2Cu3Ox 2011 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institut , CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 84(2011)184523"
155009 MAT1208.5873 Lattice term in SP (beta) = 0.764 mJ/mol.K4 "Pr(O,F)BiS2" Pr1Bi1S2F0.5O0.5 Pr 1 Bi 1 S 2 F 0.5 O 0.5 1 2012 ABCD2 CeOBiS2 P4/nmm A 4.015 13.362 K 3.1 3.7 3.7 3.7 Oe M-H curve 8 2.1 T "peak of (dR/dT), WHH" 6.4 T/K peak of (dR/dT) 3 mJ/mol.K2 286.36 SP "Pr,Bi,S,PrF3,Pr6O11" "solid state reaction. mixture - pellet - sealed in quartzampule - heat(780C,12h, at a rate of 2C/min) - cool to RT (6h)" Synthesis and superconductivity of new BiS2 based superconductor PrO0.5F0.5BiS2 2012 "Quantum Phenomena and Applications Division, National Physical Laboratory (CSIR), Dr. K.S. Krishnan Marg, New Delhi-110012, India" cond-mat/1208.5873
155010 NJP013123022 [penet] measured by diode method. Absolute value of [penet] estimated from [gamma] and Hc2(0). LaNiC2 La1Ni1C2 La 1 Ni 1 C 2 1 2011 ABC2 CeNiC2 Amm2 K 3 3 T 0.125 A diode method 1230 mJ/mol.K2 7 "La(3N),C(5N5),Ni(4N5)" "arc-melting - ANN(1273C,10d, in quartz tube(Ar)) - Q to water(RT)" Nodal gap structure in the noncentrosymmetric superconductor LaNiC2 from magnetic-penetration-depth measurements 2011 "Centro de Fisica, Instituto Venezolano de Investigaciones Cientificas, Apartado 20632, Caracas 1020-A, Venezuela" "J.New Phys., 13(2011)123022"
155011 PHC5030132 Film(100nm thickness) on Fe film(20nm). Energy gap measured by reflectivity. Reflectivity change could be influenced by SDW. "Ba(Fe,Co)2As2" Ba1Fe1.84Co0.16As2 Ba 1 Fe 1.84 Co 0.16 As 2 4 2014 ThCr2Si2 K 26.3 26.3 meV 3.67 3.4 17 Laser deposition on substrate (001)[100]MgO. Evaluation of superconducting gaps in optimally doped Ba(Fe1-xCox)2As2/Fe bilayers by ultrafast time-resolved spectroscopy 2014 "Dipartimento Scienze Fisiche, Universita di Napoli Federico II, Facolta di Ingegneria, I-80125 Napoli, Italy" "Physica C, 503(2014)132"
155012 PRB090054505 not SC Mo2As3 As3Mo2 As 3 Mo 2 1 2014 A2B3 4 C2/m A 13.3684 3.2347 9.642 "monoclinic, beta = 124.593" K 2 mJ/mol.K2 7.2 SP "mixture(Mo:As=2:3) - heat to 350C(50C/h,hold 5h) - heat to 600C(30C/h,hold 20h) - heat to 650C(20C/h,hold 40h) - pellet - ANN(875C,45h) - ANN(1080C,80h)" Evidence for superconductivity at Tc = 12 K in oxygen-deficient MoO2-z and properties of molybdenum arsenide and oxide binaries 2014 "Materials Science & Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 90(2014)054505"
155013 PRB090054505 not SC Mo5As4 As4Mo5 As 4 Mo 5 1 2014 A4B5 2 I4/m A 9.5957 3.2273 tetragonal K 2 mJ/mol.K2 13.4 SP "mixture(Mo:As=5:4) - heat to 350C(50C/h,hold 5h) - heat to 600C(30C/h,hold 20h) - heat to 650C(20C/h,hold 40h) - pellet - ANN(875C,45h) - ANN(975C,50h)" Evidence for superconductivity at Tc = 12 K in oxygen-deficient MoO2-z and properties of molybdenum arsenide and oxide binaries 2014 "Materials Science & Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 90(2014)054505"
155014 PRB090054505 "mixture of Mo2As3, Mo5As4, MoO2. Then SC comes from MoO2(4% difficient-O)" MoO2-z Mo1O2-z Mo 1 O 2-z 2014 AB2 4 P2<1>/c A 5.5397 4.8566 5.626 "monoclinic, beta = 119.70" K 12 12 8 Oe M-H curve 900 2 Evidence for superconductivity at Tc = 12 K in oxygen-deficient MoO2-z and properties of molybdenum arsenide and oxide binaries 2014 "Materials Science & Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 90(2014)054505"
155015 ACS13014428 "T = 120 K, where structural and/or magnetic transitions, measured by R-anomaly." CaFeAsF Ca1Fe1As1F1 Ca 1 Fe 1 As 1 F 1 2008 ABCD P4/nmm A 3.878 8.593 ZrCuSiAs-type K 2 "CaF2(4N),CaAs,Fe2As,Co2As" "mixture - press - heat(1000C,10h, in evacuated silica tube)" Superconductivity Induced by Co-Doping in Quaternary Fluoroarsenide CaFeAsF 2008 "Frontier Research Center, Materials and Structures Laboratory, and ERATO-SORST, JST, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 130(2008)14428"
155016 ACS13014428 "Ca(Fe,Co)AsF" Ca1Fe0.9Co0.1As1F1 Ca 1 Fe 0.9 Co 0.1 As 1 F 1 2008 ABCD A 3.881 8.552 ZrCuSiAs-type K 22 23 22 MTC155016 "CaF2(4N),CaAs,Fe2As,Co2As" "mixture - press - heat(1000C,10h, in evacuated silica tube)" Superconductivity Induced by Co-Doping in Quaternary Fluoroarsenide CaFeAsF 2008 "Frontier Research Center, Materials and Structures Laboratory, and ERATO-SORST, JST, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 130(2008)14428"
155017 ACS1360846 "not SC. CaFe2As2, PrAs detected." "(Ca,Pr)Fe1.9As2.1" Ca0.9Pr0.1Fe1.9As2.1 Ca 0.9 Pr 0.1 Fe 1.9 As 2.1 2014 AB2C2 122-type K 2 "FeAs(3N),PrAs(3N),Ca(2N),As(4N),CaO(3N)" "mixture - pellet - sealed in evacuated quartz ampules with alumina crucible - heat(1000-1200C,24h)" "A New Layered Iron Arsenide Superconductor: (Ca,Pr)FeAs2" 2014 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo, Tokyo 113-8656, Japan" "J.Am.Chem.Soc., 136(2014)846"
155018 ACS1360846 "CaFe2As2, PrAs detected. Plate like single crystals(112-phase)" "(Ca,Pr)Fe1.3As1.8O0.2" Ca0.9Pr0.1Fe1.3As1.8O0.2 Ca 0.9 Pr 0.1 Fe 1.3 As 1.8 O 0.2 3 2014 ABC2 P2<1>/m A 3.9163 3.8953 10.311 "112-phase. monoclinic, beta=90.788" K 12 24 20 20 "FeAs(3N),PrAs(3N),Ca(2N),As(4N),CaO(3N)" "mixture - pellet - sealed in evacuated quartz ampules with alumina crucible - heat(1000-1200C,24h)" "A New Layered Iron Arsenide Superconductor: (Ca,Pr)FeAs2" 2014 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo, Tokyo 113-8656, Japan" "J.Am.Chem.Soc., 136(2014)846"
155019 ACS1360846 FeAs2 detected. 112-phase. "(Ca,Pr)FeAs2" Ca0.9Pr0.1Fe1As2 Ca 0.9 Pr 0.1 Fe 1 As 2 2014 ABC2 112-type phase K 20 20 "FeAs(3N),PrAs(3N),Ca(2N),As(4N),CaO(3N)" "mixture - pellet - sealed in evacuated quartz ampules with alumina crucible - heat(1000-1200C,24h)" "A New Layered Iron Arsenide Superconductor: (Ca,Pr)FeAs2" 2014 "Department of Applied Chemistry, The University of Tokyo, 7-3-1 Hongo, Bunkyo, Tokyo 113-8656, Japan" "J.Am.Chem.Soc., 136(2014)846"
155020 EPL08467007 not SC. T = 175 K = T. SDW induced structural transition . lattice term in SP (beta) = 0.2 mJ/mol.K4 SrFeAsF Sr1Fe1As1F1 Sr 1 Fe 1 As 1 F 1 1 2008 ABCD 2 P4/nmm A 3.993 8.9546 "ZrCuSiAs-type. For T<175, space-G = Cmme, a=5.6155, b=5.6602, c=8.9173 at T=10 K." K 4.2 mJ/mol.K2 1.5 SP 339 SP "mixture(SrF2:Sr:Fe:As=1:1:2:2) - heat to 1173 K(50K/h) - keep(40h) - cool to RT - reground - press to pellet - SIN(1273K,48h)" "Synthesis, crystal structure and spin-density-wave anomaly of the iron arsenide-fluoride SrFeAsF" 2008 "Department Chemie und Biochemie, Ludwig-Maximilians-Universitat Munchen - Butenandtstrasse 5-13 (Haus D), 81377 Munchen, Germany, EU" "EuroPhys.Lett., 84(2008)67007"
155021 EPL08517011 T = T = 173 K determined by R(T) SrFeAsF Sr1Fe1As1F1 Sr 1 Fe 1 As 1 F 1 2009 ABCD 2 A 4.004 8.971 ZrCuSiAs-type K 2 "LaAs,SrAs,FeF3(2N),Fe(4N)" "mixture - pellet - sealed in silica tube(0.2 bar(Ar) - heat(950C,60h) - slow cool to RT - reground - SIN(1000C,30h)" Superconductivity in fluoride-arsenide Sr1-xLaxFeAsF compounds 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences - P. O. Box 603, Beijing 100190, PRC" "Europhys.Lett., 85(2009)17011"
155022 EPL08517011 T = T = 60 K determined by R(T) "(Sr,La)FeAsF" Sr0.8La0.2Fe1As1F1 Sr 0.8 La 0.2 Fe 1 As 1 F 1 2009 ABCD 2 A 3.976 8.96 ZrCuSiAs-type K 24.4 24.4 "LaAs,SrAs,FeF3(2N),Fe(4N)" "mixture - pellet - sealed in silica tube(0.2 bar(Ar) - heat(950C,60h) - slow cool to RT - reground - SIN(1000C,30h)" Superconductivity in fluoride-arsenide Sr1-xLaxFeAsF compounds 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences - P. O. Box 603, Beijing 100190, PRC" "Europhys.Lett., 85(2009)17011"
155023 EPL08517011 "(Sr,La)FeAsF" Sr0.6La0.4Fe1As1F1 Sr 0.6 La 0.4 Fe 1 As 1 F 1 2009 ABCD 2 ZrCuSiAs-type K 24.6 29.5 27.05 "LaAs,SrAs,FeF3(2N),Fe(4N)" "mixture - pellet - sealed in silica tube(0.2 bar(Ar) - heat(950C,60h) - slow cool to RT - reground - SIN(1000C,30h)" Superconductivity in fluoride-arsenide Sr1-xLaxFeAsF compounds 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences - P. O. Box 603, Beijing 100190, PRC" "Europhys.Lett., 85(2009)17011"
155024 EPL08517011 T = T = 153 K determined by R(T) EuFeAsF Eu1Fe1As1F1 Eu 1 Fe 1 As 1 F 1 2009 ABCD 2 A 3.974 8.929 ZrCuSiAs-type K 2 "EuAs,FeF3(2N),Fe(4N)" "mixture - pellet - sealed in silica tube(0.2 bar(Ar) - heat(950C,60h) - slow cool to RT - reground - SIN(1000C,30h)" Superconductivity in fluoride-arsenide Sr1-xLaxFeAsF compounds 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences - P. O. Box 603, Beijing 100190, PRC" "Europhys.Lett., 85(2009)17011"
155025 EPL08517011 T = T = 118 K determined by R(T) CaFeAsF Ca1Fe1As1F1 Ca 1 Fe 1 As 1 F 1 2009 ABCD 2 A 3.88 8.594 ZrCuSiAs-type K 2 "CaAs,FeF3(2N),Fe(4N)" "mixture - pellet - sealed in silica tube(0.2 bar(Ar) - heat(950C,60h) - slow cool to RT - reground - SIN(1000C,30h)" Superconductivity in fluoride-arsenide Sr1-xLaxFeAsF compounds 2009 "National Laboratory for Superconductivity, Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences - P. O. Box 603, Beijing 100190, PRC" "Europhys.Lett., 85(2009)17011"
155026 JAC6220640 "impurity: 7 wt%Sn. not SC. R(T), C(T) shows anomaly at 0.9 K due to AFM short range order (maybe). RRR = 3. Debye-T = 81.3K from R(T)." TmSnGe Tm1Sn1Ge1 Tm 1 Sn 1 Ge 1 2015 myu-B/mol 7.61 0 0.9 ABC 3 Cmcm 63 A 4.2029 15.9695 4.0211 K 0.35 uOhm.cm 23 67 "Tm(or Lu),Sn(4N),Ge(4N)" "arcmelting - ANN(773K,1W, in evacuated silica tube)" Low-temperature physical properties of TmSnGe and LuSnGe 2015 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 1410, 50-950 Wroc?aw, Poland" "J.Alloys Compd., 622(2015)640"
155027 JAC6220640 impurity= 5 wt%-Sn. RRR = 3. Debye-T = 119.9 K from R(T). lattice term in SP: beta = 2.12E-4 mJ/mol.K4. (dC) = 3.5 mJ/K at Tc(=0.74K). (dC/gamma*Tc) = 1.28 LuSnGe Lu1Sn1Ge1 Lu 1 Sn 1 Ge 1 2015 ABC 3 Cmcm 63 A 4.1791 15.858 4.013 K 0.4 0.74 0.57 T SP 0.04 A from Hc2 910 A GL eq. 2830 mJ/mol.K2 3.7 SP 302 SP uOhm.cm 8 25 "Tm(or Lu),Sn(4N),Ge(4N)" "arcmelting - ANN(773K,1W, in evacuated silica tube)" Low-temperature physical properties of TmSnGe and LuSnGe 2015 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O. Box 1410, 50-950 Wroc?aw, Poland" "J.Alloys Compd., 622(2015)640"
155028 JPS083063704 Low-P phase for P < 0.7 GPa. Phase transition to high-P phase at P=0.7 GPa. "La(O,F)BiS2" La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 1 2014 2 P4/nmm A 4.0877 13.4703 K 2.5 2.5 K/GPa -0.28 Pressure-Induced Enhancement of Superconductivity and Structural Transition in BiS2-Layered LaO1-xFxBiS2 2014 "Department of Physics, College of Humanities and Sciences, Nihon University, Setagaya, Tokyo 156-8550, Japan" "J.Phys.Soc.Jpn, 83(2014)063704"
155029 JPS083063704 High-P phase for P > 0.7 GPa. "La(O,F)BiS2" La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 1 2014 4 P2<1>/m A 4.046 4.025 13.022 monoclinic. beta = 97.902 K 10.7 10.7 Pressure-Induced Enhancement of Superconductivity and Structural Transition in BiS2-Layered LaO1-xFxBiS2 2014 "Department of Physics, College of Humanities and Sciences, Nihon University, Setagaya, Tokyo 156-8550, Japan" "J.Phys.Soc.Jpn, 83(2014)063704"
155030 JPS083093705 plate like single crystals obtained from samples. "(Ca,La)Fe(As,Sb)2" Ca0.88La0.12Fe1As1.8Sb0.2 Ca 0.88 La 0.12 Fe 1 As 1.8 Sb 0.2 3 2014 ABC2 4 Fe-112 P2<1> A 3.9738 3.896 10.3495 monoclinic. beta = 91.72 Fe-112 type K 47 49 47.2 47.2 100 mOhm.cm 0.454 "Ca,R,FeAs,As,Sb" "mixture(x=0.1, 0= A 3.9516 3.8895 10.3466 monoclinic. beta = 91.44 Fe-112 type K 43 43 mOhm.cm 0.349 "Ca,R,FeAs,As,Sb" "mixture(x=0.1, 0= A 3.9523 3.8762 10.3505 monoclinic. beta = 91.18 Fe-112 type K 35.1 35.1 "Ca,R,FeAs,As,Sb" "mixture(x=0.1, 0= A 3.9525 3.8797 10.3505 monoclinic. beta = 91.19 Fe-112 type K 34 34 mOhm.cm 0.251 "Ca,R,FeAs,As,Sb" "mixture(x=0.1, 0= A monoclinic. Fe-112 type K 28.1 28.1 "Ca,R,FeAs,As,Sb" "mixture(x=0.1, 0= A 3.9489 3.8816 10.3522 monoclinic. beta = 91.33 Fe-112 type K 28 28 "Ca,R,FeAs,As,Sb" "mixture(x=0.1, 0= A 3.9497 3.8793 10.3452 monoclinic. beta = 91.20 Fe-112 type K 21.8 21.8 "Ca,R,FeAs,As,Sb" "mixture(x=0.1, 0= A 3.9577 3.8781 10.3693 monoclinic. beta = 91.37 Fe-112 type K 0 0 "Ca,R,FeAs,As,Sb" "mixture(x=0.1, 0= monoclinic. Fe-112 type K 0 0 mOhm.cm 0.488 "Ca,R,FeAs,As,Sb" "mixture(x=0.1, 0= monoclinic. Fe-112 type K 21 21 mOhm.cm 0.36 "Ca,R,FeAs,As,Sb" "mixture(x=0.1, 0= monoclinic. Fe-112 type K 43 43 "Ca,R,FeAs,As,Sb" "mixture(x=0.1, 0= monoclinic. Fe-112 type K 10 10 5 mOhm.cm 0.423 "Ca,R,FeAs,As,Sb" "mixture(x=0.1, 0= monoclinic. Fe-112 type K 26 26 mOhm.cm 0.499 "Ca,R,FeAs,As,Sb" "mixture(x=0.1, 0= monoclinic. Fe-112 type K 43 43 43 mOhm.cm 0.55 "Ca,R,FeAs,As,Sb" "mixture(x=0.1, 0= monoclinic. Fe-112 type K 11 11 5 mOhm.cm 0.336 "Ca,R,FeAs,As,Sb" "mixture(x=0.1, 0= monoclinic. Fe-112 type K 24 24 mOhm.cm 0.689 "Ca,R,FeAs,As,Sb" "mixture(x=0.1, 0= monoclinic. Fe-112 type K 37 43 43 mOhm.cm 0.328 "Ca,R,FeAs,As,Sb" "mixture(x=0.1, 0= in FIg. shows T where R is min in R(T). Nernst effect measured and analysed for Hc2. "(Pr,Ce)CuO4" Pr1.87Ce0.13Cu1O4 Pr 1.87 Ce 0.13 Cu 1 O 4 5 2014 T' "PCCO, Pr-214" K 8.8 8.8 T RES(R=zero). extraporation 3.4 epitaxial films with[001]. pulsed laser deposition. substrate = LSAT [(LaAlO3)0.3(Sr2AlTaO6)0.7] "Nernst effect in the electron-doped cuprate superconductor Pr2-xCexCuO4: Superconducting fluctuations, upper critical field Hc2, and the origin of the Tc dome" 2014 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada J1K 2R1" "Phys.Rev.B, 90(2014)024519"
155121 PRB090024519 thickness d=3000A. Hc2 defined R=zero (Hirr). T in FIg. shows T where R is min in R(T). Nernst effect measured and analysed for Hc2. "(Pr,Ce)CuO4" Pr1.86Ce0.14Cu1O4 Pr 1.86 Ce 0.14 Cu 1 O 4 5 2014 T' "PCCO, Pr-214" K 17.7 17.7 T RES(R=zero). extraporation 10.1 MHC155121 epitaxial films with[001]. pulsed laser deposition. substrate = LSAT [(LaAlO3)0.3(Sr2AlTaO6)0.7] "Nernst effect in the electron-doped cuprate superconductor Pr2-xCexCuO4: Superconducting fluctuations, upper critical field Hc2, and the origin of the Tc dome" 2014 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada J1K 2R1" "Phys.Rev.B, 90(2014)024519"
155122 PRB090024519 thickness d=3000A. Hc2 defined R=zero (Hirr). T in FIg. shows T where R is min in R(T). Nernst effect measured and analysed for Hc2. "(Pr,Ce)CuO4" Pr1.85Ce0.15Cu1O4 Pr 1.85 Ce 0.15 Cu 1 O 4 5 2014 T' "PCCO, Pr-214" K 19.5 19.5 MPH155122 T RES(R=zero). extraporation 8.9 mW/K.m MTHC155122 epitaxial films with[001]. pulsed laser deposition. substrate = LSAT [(LaAlO3)0.3(Sr2AlTaO6)0.7] "Nernst effect in the electron-doped cuprate superconductor Pr2-xCexCuO4: Superconducting fluctuations, upper critical field Hc2, and the origin of the Tc dome" 2014 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada J1K 2R1" "Phys.Rev.B, 90(2014)024519"
155123 PRB090024519 thickness d=3000A. Hc2 defined R=zero (Hirr). T in FIg. shows T where R is min in R(T). Nernst effect measured and analysed for Hc2. "(Pr,Ce)CuO4" Pr1.83Ce0.17Cu1O4 Pr 1.83 Ce 0.17 Cu 1 O 4 5 2014 T' "PCCO, Pr-214" K 13.4 13.4 T RES(R=zero). extraporation 3 epitaxial films with[001]. pulsed laser deposition. substrate = LSAT [(LaAlO3)0.3(Sr2AlTaO6)0.7] "Nernst effect in the electron-doped cuprate superconductor Pr2-xCexCuO4: Superconducting fluctuations, upper critical field Hc2, and the origin of the Tc dome" 2014 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada J1K 2R1" "Phys.Rev.B, 90(2014)024519"
155124 PRB090064518 "T = 280K by R(T) anomaly, not detected by XRD. Hall number = 0.24 electron/f.u.. Lattice term in SP (beta) = 1.19 mJ/mol.K4." EuFBiS2 Eu1Bi1S2F1 Eu 1 Bi 1 S 2 F 1 2014 emu/mol 0.0032 myu-B/mole 7.2 ABCD2 2 CeBiS2O P4/nmm 129 A 4.0508 13.5338 K 0.3 0.3 T RES(0.9Rn). Extraporation 0.16 0.16 0.018 MHC155124 mJ/mol.K2 73.3 SP 201 SP m3/C -2.30E-09 MRH155124 n/m3 2.10E+27 "Eu(3N),S(5N),EuF3(3N),Bi2F3(4N5)" "mixture - in evacuated quartz tube - heat(1053 K,20h, in muffle furnace) - ground - pellet - SIN(1053 K,20h)" "Possible charge-density wave, superconductivity, and f -electron valence instability in EuBiS2F" 2014 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 90(2014)064518"
155125 PRB090094507 High-Tc phase for P > 1.5 GPa. RRR < 2. "La(O,F)BiSe2" La1Bi1Se2F0.5O0.5 La 1 Bi 1 Se 2 F 0.5 O 0.5 3 2014 ABCD2 2 CeBiS2O P4/nmm A 14.05 K 3.43 3.43 MTC155125 T RES(0.9Rn) MHC155125 "La2O3,LaF3,Bi2Se3,Se,La" "flux method. mixture(CsCl:KCl:(LaO0.5F0.5BiSe2) = 12:8:1) - sealed in quartz tube - heat(800C,50h) - cool to 600C (3C/h)" Pressure-tuned enhancement of superconductivity and change of ground state properties in LaO0.5F0.5BiSe2 single crystals 2014 "Center for Superconducting Physics and Materials, National Laboratory of Solid State Microstructures and Department of Physics, National Center of Microstructures and Quantum Manipulation, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 90(2014)094507"
155126 PRB090094507 R(T) shows upturn behavior in low T . High -Tc phase for P > 1.95 GPa. RESN minimum at P = 1.95 GPa. "La(O,F)BiSe2" La1Bi1Se2F0.5O0.5 La 1 Bi 1 Se 2 F 0.5 O 0.5 3 2014 ABCD2 K 3.57 3.57 MTC155126 "La2O3,LaF3,Bi2Se3,Se,La" "flux method. mixture(CsCl:KCl:(LaO0.5F0.5BiSe2) = 12:8:1) - sealed in quartz tube - heat(800C,50h) - cool to 600C (3C/h)" Pressure-tuned enhancement of superconductivity and change of ground state properties in LaO0.5F0.5BiSe2 single crystals 2014 "Center for Superconducting Physics and Materials, National Laboratory of Solid State Microstructures and Department of Physics, National Center of Microstructures and Quantum Manipulation, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 90(2014)094507"
155127 PRB090104511 "Tn, magnetic exchange interaction J measured by Raman. O-content by iodometric titration" "(Ca,La)(Ba,La)Cu3Oz" La1.25Ba1.65Ca0.1Cu3O7.15 La 1.25 Ba 1.65 Ca 0.1 Cu 3 O z 7.15 3 2014 AB2C3D7 2 Y123 P4/mmm K 57.3 57.3 MPH155127 Floating zone method Relation between cuprate superconductivity and magnetism: A Raman study of (CaLa)1(BaLa)2Cu3Oy 2014 "Center for Artificial Low Dimensional Electronic Systems, Institute for Basic Science, 77 Cheongam-Ro, Nam-Gu, Pohang 790-784, Korea" "Phys.Rev.B, 90(2014)104511"
155128 PRB090104511 "Tn, magnetic exchange interaction J measured by Raman. O-content by iodometric titration" "(Ca,La)(Ba,La)Cu3Oz" La1.25Ba1.55Ca0.2Cu3O7.16 La 1.25 Ba 1.55 Ca 0.2 Cu 3 O z 7.16 3 2014 AB2C3D7 2 Y123 P4/mmm K 68.5 68.5 MPH155128 Floating zone method Relation between cuprate superconductivity and magnetism: A Raman study of (CaLa)1(BaLa)2Cu3Oy 2014 "Center for Artificial Low Dimensional Electronic Systems, Institute for Basic Science, 77 Cheongam-Ro, Nam-Gu, Pohang 790-784, Korea" "Phys.Rev.B, 90(2014)104511"
155129 PRB090104511 "Tn, magnetic exchange interaction J measured by Raman. O-content by iodometric titration" "(Ca,La)(Ba,La)Cu3Oz" La1.25Ba1.45Ca0.3Cu3O7.15 La 1.25 Ba 1.45 Ca 0.3 Cu 3 O z 7.15 3 2014 AB2C3D7 2 Y123 P4/mmm K 75.2 75.2 MPH155129 Floating zone method Relation between cuprate superconductivity and magnetism: A Raman study of (CaLa)1(BaLa)2Cu3Oy 2014 "Center for Artificial Low Dimensional Electronic Systems, Institute for Basic Science, 77 Cheongam-Ro, Nam-Gu, Pohang 790-784, Korea" "Phys.Rev.B, 90(2014)104511"
155130 PRB090104511 "Tn, magnetic exchange interaction J measured by Raman. O-content by iodometric titration" "(Ca,La)(Ba,La)Cu3Oz" La1.25Ba1.35Ca0.4Cu3O7.16 La 1.25 Ba 1.35 Ca 0.4 Cu 3 O z 7.16 3 2014 AB2C3D7 2 Y123 P4/mmm K 79.8 79.8 MPH155130 Floating zone method Relation between cuprate superconductivity and magnetism: A Raman study of (CaLa)1(BaLa)2Cu3Oy 2014 "Center for Artificial Low Dimensional Electronic Systems, Institute for Basic Science, 77 Cheongam-Ro, Nam-Gu, Pohang 790-784, Korea" "Phys.Rev.B, 90(2014)104511"
155131 PRB090104514 Absolute value of [penet] estimated from d-[penet] usind tunnel diode method assuming [penet] (optimal sample) = 200 nm. T = 103 K by R(T) anomaly "(Ba,K)Fe2As2" Ba0.81K0.19Fe2As2 Ba 0.81 K 0.19 Fe 2 As 2 3 2014 AB2C2 ThCr2Si2 Fe-122 K 14 14 nm tunnel diode resonator 356 High-T FeAs flux method. Compositions measured by WDS. Effects of electron irradiation on resistivity and London penetration depth of Ba1-xKxFe2As2 (x =< 0.34) iron-pnictide superconductor 2014 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 90(2014)104514"
155132 PRB090104514 electron (2.5MeV) irradiation to nominal single crystal. dose = 1.12E+19 el/cm2. T = 97.9 K by R(T) "(Ba,K)Fe2As2" Ba0.81K0.19Fe2As2 Ba 0.81 K 0.19 Fe 2 As 2 3 2014 AB2C2 ThCr2Si2 Fe-122 k 9.2 9.2 nm tunnel diode resonator 427 High-T FeAs flux method. Compositions measured by WDS. Effects of electron irradiation on resistivity and London penetration depth of Ba1-xKxFe2As2 (x =< 0.34) iron-pnictide superconductor 2014 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 90(2014)104514"
155133 PRB090104514 "[penet] = 226, 237, 242 nm for dose = 0, 9.36, 16.2 E+18 e/cm2 samples, respectively." "(Ba,K)Fe2As2" Ba0.74K0.26Fe2As2 Ba 0.74 K 0.26 Fe 2 As 2 3 2014 AB2C2 ThCr2Si2 Fe-122 K 32 32 nm tunnel diode resonator 226 High-T FeAs flux method. Compositions measured by WDS. Effects of electron irradiation on resistivity and London penetration depth of Ba1-xKxFe2As2 (x =< 0.34) iron-pnictide superconductor 2014 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 90(2014)104514"
155134 PRB090104514 "[penet] = 205, 238 nm for dose = 0, 5.18 E+19 e/cm2, respectively." "(Ba,K)Fe2As2" Ba0.68K0.32Fe2As2 Ba 0.68 K 0.32 Fe 2 As 2 3 2014 AB2C2 ThCr2Si2 Fe-122 K 37 37 nm tunnel diode resonator 205 High-T FeAs flux method. Compositions measured by WDS. Effects of electron irradiation on resistivity and London penetration depth of Ba1-xKxFe2As2 (x =< 0.34) iron-pnictide superconductor 2014 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 90(2014)104514"
155135 PRB090104514 "[penet] = 200, 212 nm for dose = 0, 1.25 E+19 e/cm2, respectively." "(Ba,K)Fe2As2" Ba0.64K0.34Fe2As2 Ba 0.64 K 0.34 Fe 2 As 2 3 2014 AB2C2 ThCr2Si2 Fe-122 K 39 39 nm tunnel diode resonator 200 High-T FeAs flux method. Compositions measured by WDS. Effects of electron irradiation on resistivity and London penetration depth of Ba1-xKxFe2As2 (x =< 0.34) iron-pnictide superconductor 2014 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 90(2014)104514"
155136 PRB090125126 "Hydrostatic pressure. SC induced for P > 7GPa, where structure is monoclinic. Tc(max) = K at P= 8 GPa." Bi2Te3 Bi2Te3 Bi 2 Te 3 3 2014 A2B3 rhombohedral K 0 MTC155136 m3/C 0.00000041 MRH155136 flux method Superconductivity in the topological insulator Bi2Te3 under hydrostatic pressure 2014 "Institute for Solid State Physics, The University of Tokyo, Kashiwanoha, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 90(2014)125126"
155137 PRB090144508 Intergrowth(BaFe2As2 + BaTi2As2O).Optical reflectance measured. Density wave(SDW or CDW) at 125 K. [penet] estimated from plasma freqency. Two gaps(3.4 and 7.9 meV) Ba2Ti2Fe2As4O Ba2Ti2Fe2As4O1 Ba 2 Ti 2 Fe 2 As 4 O 1 3 2014 K 21.5 21.5 A Optical reflectance 2900 meV 7.9 8.7 15 Ba2As3 flux method Coexistence of superconductivity and density wave in Ba2Ti2Fe2As4O: An optical spectroscopy study 2014 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 90(2014)144508"
155138 PRB090214520 AFM order from (Li0.8Fe0.2)OH layers. Tn measured by SP-heat. Anion hight from Fe(2) layers = 1.501 A. "(Li,Fe)OH(Se,S)" Li0.8Fe1.2Se1H1O1 Li 0.8 Fe 1.2 Se 1 H 1 O 1 1 2014 8.67 2 P4/nmm 129 A 3.7924 9.2824 FeSe-derived SC K 40.9 40.9 "hydrothermal reaction method. stoichiometric mixture in 10mL water - mixed with Fe powder & LiOH/H2O - sealed in Teflon autoclave - heat(150-160C,3-10 days)" Superconductivity and phase diagram of (Li0.8Fe0.2)OHFeSe1-xSx 2014 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 90(2014)214520"
155139 PRB090214520 AFM order from (Li0.8Fe0.2)OH layers. Tn measured by SP-heat. "(Li,Fe)OH(Se,S)" Li0.8Fe1.2Se0.92S0.08H1O1 Li 0.8 Fe 1.2 Se 0.92 S 0.08 H 1 O 1 1 2014 2 P4/nmm 129 A 3.789 9.2559 FeSe-derived SC K "hydrothermal reaction method. stoichiometric mixture in 10mL water - mixed with Fe powder & LiOH/H2O - sealed in Teflon autoclave - heat(150-160C,3-10 days)" Superconductivity and phase diagram of (Li0.8Fe0.2)OHFeSe1-xSx 2014 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 90(2014)214520"
155140 PRB090214520 AFM order from (Li0.8Fe0.2)OH layers. Tn measured by SP-heat. Anion hight from Fe(2) layers = 1.456 A. "(Li,Fe)OH(Se,S)" Li0.8Fe1.2Se0.84S0.16H1O1 Li 0.8 Fe 1.2 Se 0.84 S 0.16 H 1 O 1 1 2014 2 P4/nmm 129 A 3.7752 9.2467 FeSe-derived SC K 38.6 38.6 69 "hydrothermal reaction method. stoichiometric mixture in 10mL water - mixed with Fe powder & LiOH/H2O - sealed in Teflon autoclave - heat(150-160C,3-10 days)" Superconductivity and phase diagram of (Li0.8Fe0.2)OHFeSe1-xSx 2014 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 90(2014)214520"
155141 PRB090214520 AFM order from (Li0.8Fe0.2)OH layers. Tn measured by SP-heat. Anion hight from Fe(2) layers = 1.438 A. "(Li,Fe)OH(Se,S)" Li0.8Fe1.2Se0.78S0.22H1O1 Li 0.8 Fe 1.2 Se 0.78 S 0.22 H 1 O 1 1 2014 2 P4/nmm 129 A 3.7672 9.221 FeSe-derived SC K 35.6 35.6 MPH155140 "hydrothermal reaction method. stoichiometric mixture in 10mL water - mixed with Fe powder & LiOH/H2O - sealed in Teflon autoclave - heat(150-160C,3-10 days)" Superconductivity and phase diagram of (Li0.8Fe0.2)OHFeSe1-xSx 2014 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 90(2014)214520"
155142 PRB090214520 AFM order from (Li0.8Fe0.2)OH layers. Tn measured by SP-heat. Anion hight from Fe(2) layers = 1.431 A. "(Li,Fe)OH(Se,S)" Li0.8Fe1.2Se0.72S0.28H1O1 Li 0.8 Fe 1.2 Se 0.72 S 0.28 H 1 O 1 1 2014 8.45 2 P4/nmm 129 A 3.7618 9.1972 FeSe-derived SC K 35 35 "hydrothermal reaction method. stoichiometric mixture in 10mL water - mixed with Fe powder & LiOH/H2O - sealed in Teflon autoclave - heat(150-160C,3-10 days)" Superconductivity and phase diagram of (Li0.8Fe0.2)OHFeSe1-xSx 2014 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 90(2014)214520"
155143 PRB090214520 AFM order from (Li0.8Fe0.2)OH layers. Tn measured by SP-heat. Anion hight from Fe(2) layers = 1.411 A. "(Li,Fe)OH(Se,S)" Li0.8Fe1.2Se0.59S0.41H1O1 Li 0.8 Fe 1.2 Se 0.59 S 0.41 H 1 O 1 1 2014 2 P4/nmm 129 A 3.7538 9.1656 FeSe-derived SC K 32 32 "hydrothermal reaction method. stoichiometric mixture in 10mL water - mixed with Fe powder & LiOH/H2O - sealed in Teflon autoclave - heat(150-160C,3-10 days)" Superconductivity and phase diagram of (Li0.8Fe0.2)OHFeSe1-xSx 2014 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 90(2014)214520"
155144 PRB090214520 AFM order from (Li0.8Fe0.2)OH layers. Tn measured by SP-heat. Anion hight from Fe(2) layers = 1.397 A. "(Li,Fe)OH(Se,S)" Li0.8Fe1.2Se0.47S0.53H1O1 Li 0.8 Fe 1.2 Se 0.47 S 0.53 H 1 O 1 1 2014 8.48 2 P4/nmm 129 A 3.7455 9.1351 FeSe-derived SC K 24.2 24.2 MPH155140 "hydrothermal reaction method. stoichiometric mixture in 10mL water - mixed with Fe powder & LiOH/H2O - sealed in Teflon autoclave - heat(150-160C,3-10 days)" Superconductivity and phase diagram of (Li0.8Fe0.2)OHFeSe1-xSx 2014 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 90(2014)214520"
155145 PRB090214520 AFM order from (Li0.8Fe0.2)OH layers. Tn measured by SP-heat. Anion hight from Fe(2) layers = 1.370 A. "(Li,Fe)OH(Se,S)" Li0.8Fe1.2Se0.34S0.66H1O1 Li 0.8 Fe 1.2 Se 0.34 S 0.66 H 1 O 1 1 2014 2 P4/nmm 129 A 3.7325 9.0979 FeSe-derived SC K 18.4 18.4 "hydrothermal reaction method. stoichiometric mixture in 10mL water - mixed with Fe powder & LiOH/H2O - sealed in Teflon autoclave - heat(150-160C,3-10 days)" Superconductivity and phase diagram of (Li0.8Fe0.2)OHFeSe1-xSx 2014 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 90(2014)214520"
155146 PRB090214520 AFM order from (Li0.8Fe0.2)OH layers. Tn measured by SP-heat. "(Li,Fe)OH(Se,S)" Li0.8Fe1.2Se0.23S0.77H1O1 Li 0.8 Fe 1.2 Se 0.23 S 0.77 H 1 O 1 1 2014 2 P4/nmm 129 A 3.7197 9.0339 FeSe-derived SC K 11 11 "hydrothermal reaction method. stoichiometric mixture in 10mL water - mixed with Fe powder & LiOH/H2O - sealed in Teflon autoclave - heat(150-160C,3-10 days)" Superconductivity and phase diagram of (Li0.8Fe0.2)OHFeSe1-xSx 2014 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 90(2014)214520"
155147 PRB090214520 AFM order from (Li0.8Fe0.2)OH layers. Tn measured by SP-heat. Anion hight from Fe(2) layers = 1.288 A. "(Li,Fe)OH(Se,S)" Li0.8Fe1.2Se0.1S0.9H1O1 Li 0.8 Fe 1.2 Se 0.1 S 0.9 H 1 O 1 1 2014 2 P4/nmm 129 A 3.7124 8.9678 FeSe-derived SC K 0 0 0 "hydrothermal reaction method. stoichiometric mixture in 10mL water - mixed with Fe powder & LiOH/H2O - sealed in Teflon autoclave - heat(150-160C,3-10 days)" Superconductivity and phase diagram of (Li0.8Fe0.2)OHFeSe1-xSx 2014 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 90(2014)214520"
155148 PRB090214520 AFM order from (Li0.8Fe0.2)OH layers. Tn measured by SP-heat. Anion hight from Fe(2) layers = 1.263 A. "(Li,Fe)OH(Se,S)" Li0.8Fe1.2S0.41H1O1 Li 0.8 Fe 1.2 S 0.41 H 1 O 1 1 2014 8.51 2 P4/nmm 129 A 3.7067 8.9104 FeSe-derived SC K 0 0 0 "hydrothermal reaction method. stoichiometric mixture in 10mL water - mixed with Fe powder & LiOH/H2O - sealed in Teflon autoclave - heat(150-160C,3-10 days)" Superconductivity and phase diagram of (Li0.8Fe0.2)OHFeSe1-xSx 2014 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 90(2014)214520"
155149 PRB090220510 "Tc increases with P. High-Tc and low-Tc phases exist. For P>1.1 GPa, H-Tc phase appears. At P=2.26 GPa, H-Tc phase only." Eu3Bi2S4F4 Eu3Bi2S4F4 Eu 3 Bi 2 S 4 F 4 1 2014 A2B3C4D4 2 I4/mmm 139 Eu3F4-layer + BiS2-bilayer K 1.43 1.45 1.45 MPH155149 T RES(on) MHC155149 mOhm.cm 2.41 2.16 2.27 solid state reaction. See J.Am.Chem.Soc. 136(2014)15386 Pressure-enhanced superconductivity in Eu3Bi2S4F4 2014 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 90(2014)220510"
155150 PRB090224410 FM ordering along c-axis below Tm=7 K.. Tm = 6.54 K from neutron diffraction. Lattice const. at 20 K. SC & FM coexist below Tc. "Ce(O,F)BiS2" Ce1Bi1S2F0.7O0.3 Ce 1 Bi 1 S 2 F 0.7 O 0.3 1 2014 myu-B/Ce 0.52 7 ABCD2 2 P4/nmm A 4.039 13.566 BiS2-layer-SC K 4.5 4.5 "Bi,Bi2S3,Bi2O3,BiF3,Ce2S3" "mixture - pellet - sealed in quartz tube - heat(800C,10h) - reground - ANN(600C,1h, under P=3 GPa)" Coexistence of ferromagnetism and superconductivity in CeO0.3F0.7BiS2 2014 "Department of Physics, University of Virginia, Charlottesville, Virginia 22904, USA" "Phys.Rev.B, 90(2014)224410"
155151 PRB091014508 Impurity phase: Bi2S3(6%). Ce-moment order FM below Tm = 7.5 K. Pauli limit = 1.84Tc = 5T. SP data analyzed for 10 < T < 15 K. "(Sr,Ce)FBiS2" Sr0.5Ce0.5Bi1S2F1 Sr 0.5 Ce 0.5 Bi 1 S 2 F 1 1 2015 emu.K/Ce 0.8 myu-B/Ce 2.53 -19.2 ABCD2 2 P4/nmm A 4.0695 13.3491 BiS2-layer-SC K 2.8 2.8 T "RES(0.9Rn), GL theory" 1.16 MHC155151 mJ/mol.K2 58.6 SP 220 SP "Ce2S3,SrF2,CeF3,Bi2S3,S" "mixture - pellet - sealed in quartz tube - heat(1073K,24h) - Q to RT - ANN(973K,10h)" Coexistence of superconductivity and ferromagnetism in Sr0.5Ce0.5FBiS2 2015 "Department of Physics, Hangzhou Normal University, Hangzhou 310036, China" "Phys.Rev.B, 91(2015)014508"
155152 PRB091014513 "RRR=4.04.SP (beta=2.32 mJ/mol.K4, delta=0.11 mJ/mol.K6). (dC/Tc) = 11.8 where Tc= 1.66K(SP-mid), then (dC/gamma*Tc) = 1.37." BaPt2Sb2 Ba1Pt2Sb2 Ba 1 Pt 2 Sb 2 1 2015 AB2C2 4 CaBa2Ge2 C2/m 12 A 6.7015 6.7524 10.4744 "monoclinic, beta=91.227. Fe-122" K 1.82 1.85 1.835 100 T "RES(on), extraporation" 0.27 MHC155152 A from Hc2 350 mJ/mol.K2 8.6 SP 146 SP "Ba(3N),Pt(3N5),Sb(5N)" "nominal (Ba:Pt:Sb = 1.05:2:2), arc-mwlting. Sample compositions: (Ba:Pt:Sb = 20.2:40.6:39.3) by EPMA" Superconductivity in 122-type antimonide BaPt2Sb2 2015 "Superconducting Properties Unit, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 91(2015)014513"
155153 PRB091020506 Hp = 9.0 T. Hc2(0) = 32 T using WHH theory. (dC/gamma*Tc) = 1.8. Lattice term in SP: beta = 2.9 mJ/mol.K4. Rb2Cr3As3 Rb2Cr3As3 Rb 2 Cr 3 As 3 1 2015 A2B3C3 7 K2Cr3As3 P6[-]m2 187 A 10.281 4.2421 Hexagonal K 4.8 4.8 0.44 4.8 91 T "RES(0.9Rn), GL theory" 20 T/K RES(0.9Rn) 5.08 MHC155153 MSP155153 mJ/mol.K2 55.1 SP 175 SP "Rb,Cr,As" "nominal(3% excess-Rb). mixture - sealed in quartz ampoule - heat(523K, 15h) - grind - pellet - in alumina tube - sealed in Ta tube - SIN(973K, 24h)" Unconventional superconductivity in quasi-one-dimensional Rb2Cr3As3 2015 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 91(2015)020506"
155154 MAT1412.0067 "Hp = 11 T. Hc2(0) = 32 T using WHH theory.. (dC/gamma*Tc) = 2.4. Lattice term in SP: beta = 1.51 mJ/mol.K4. R=R0 + A*T, where R0=0.195 mOhm.cm, A=0.0067 mOhm.cm/K" K2Cr3As3 K2Cr3As3 K 2 Cr 3 As 3 1 2014 A2B3C3 7 K2Cr3As3 P6[-]m2 187 A 9.9832 4.2304 Hexagonal K 6.1 0.24 6.1 100 T "RES(0.9Rn), Linear approx." 44.7 T/K RES(0.9Rn) 7.43 MHC155154 MSP155154 mJ/mol.K2 75 SP 218 SP mOhm.cm 0.195 "solid state reaction. After initial reaction, mixture - ground - pellet - SIN(973K + 1173K, 24h)" Superconductivity in quasi-one-dimensional K2Cr3As3 with significant electron correlations 2014 "Department of Physics, Zhejiang University, Hangzhou 310027, China" cond-mat/1412.0067
155155 PRB091024408 SP-heat measured down to 2 K "U2(Pt,Rh)C2" U2Rh1C2 U 2 Rh 1 C 2 1 2015 emu/g 0.0000037 emu/g.K 0.00028 myu-B/U 2.8 44 22.5 AB2C2 Na2HgO2 A 3.4662 12.5206 K 0.38 "arc-melting(U:Pt:Rh:C = 2:1.1x:1.1(1-x):2.2) - wrapped in Ta foil - sealed in quartz tube - ANN(1050C, 2 month)" Magnetism and superconductivity in U2PtxRh1-xC2 2015 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 91(2015)024408"
155156 PRB091024408 SP-heat measured down to 2 K "U2(Pt,Rh)C2" U2Pt0.1Rh0.9C2 U 2 Pt 0.1 Rh 0.9 C 2 1 2015 23 AB2C2 Na2HgO2 K 0.38 MPH155155 "arc-melting(U:Pt:Rh:C = 2:1.1x:1.1(1-x):2.2) - wrapped in Ta foil - sealed in quartz tube - ANN(1050C, 2 month)" Magnetism and superconductivity in U2PtxRh1-xC2 2015 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 91(2015)024408"
155157 PRB091024408 SP-heat measured down to 2 K "U2(Pt,Rh)C2" U2Pt0.2Rh0.8C2 U 2 Pt 0.2 Rh 0.8 C 2 1 2015 21.1 AB2C2 Na2HgO2 K 0.38 "arc-melting(U:Pt:Rh:C = 2:1.1x:1.1(1-x):2.2) - wrapped in Ta foil - sealed in quartz tube - ANN(1050C, 2 month)" Magnetism and superconductivity in U2PtxRh1-xC2 2015 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 91(2015)024408"
155158 PRB091024408 SP-heat measured down to 2 K "U2(Pt,Rh)C2" U2Pt0.3Rh0.7C2 U 2 Pt 0.3 Rh 0.7 C 2 1 2015 18.4 AB2C2 Na2HgO2 K 0.38 "arc-melting(U:Pt:Rh:C = 2:1.1x:1.1(1-x):2.2) - wrapped in Ta foil - sealed in quartz tube - ANN(1050C, 2 month)" Magnetism and superconductivity in U2PtxRh1-xC2 2015 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 91(2015)024408"
155159 PRB091024408 SP-heat measured down to 2 K "U2(Pt,Rh)C2" U2Pt0.4Rh0.6C2 U 2 Pt 0.4 Rh 0.6 C 2 1 2015 15.1 AB2C2 Na2HgO2 A 3.4868 12.552 K 0.38 "arc-melting(U:Pt:Rh:C = 2:1.1x:1.1(1-x):2.2) - wrapped in Ta foil - sealed in quartz tube - ANN(1050C, 2 month)" Magnetism and superconductivity in U2PtxRh1-xC2 2015 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 91(2015)024408"
155160 PRB091024408 SP-heat measured down to 2 K "U2(Pt,Rh)C2" U2Pt0.5Rh0.5C2 U 2 Pt 0.5 Rh 0.5 C 2 1 2015 9.96 AB2C2 Na2HgO2 K 0.38 "arc-melting(U:Pt:Rh:C = 2:1.1x:1.1(1-x):2.2) - wrapped in Ta foil - sealed in quartz tube - ANN(1050C, 2 month)" Magnetism and superconductivity in U2PtxRh1-xC2 2015 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 91(2015)024408"
155161 PRB091024408 "U2(Pt,Rh)C2" U2Pt0.6Rh0.4C2 U 2 Pt 0.6 Rh 0.4 C 2 1 2015 4.33 AB2C2 Na2HgO2 A 3.5036 12.5697 K 0.38 "arc-melting(U:Pt:Rh:C = 2:1.1x:1.1(1-x):2.2) - wrapped in Ta foil - sealed in quartz tube - ANN(1050C, 2 month)" Magnetism and superconductivity in U2PtxRh1-xC2 2015 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 91(2015)024408"
155162 PRB091024408 Tn < 0.38 K. SP-heat measured down to 0.38 K "U2(Pt,Rh)C2" U2Pt0.7Rh0.3C2 U 2 Pt 0.7 Rh 0.3 C 2 1 2015 AB2C2 Na2HgO2 A 3.5086 12.5684 K 0.38 "arc-melting(U:Pt:Rh:C = 2:1.1x:1.1(1-x):2.2) - wrapped in Ta foil - sealed in quartz tube - ANN(1050C, 2 month)" Magnetism and superconductivity in U2PtxRh1-xC2 2015 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 91(2015)024408"
155163 PRB091024408 SP-heat measured down to 0.38 K "U2(Pt,Rh)C2" U2Pt0.8Rh0.2C2 U 2 Pt 0.8 Rh 0.2 C 2 1 2015 AB2C2 Na2HgO2 A 3.5175 12.5766 K 0.38 "arc-melting(U:Pt:Rh:C = 2:1.1x:1.1(1-x):2.2) - wrapped in Ta foil - sealed in quartz tube - ANN(1050C, 2 month)" Magnetism and superconductivity in U2PtxRh1-xC2 2015 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 91(2015)024408"
155164 PRB091024408 SP-heat measured down to 0.38 K "U2(Pt,Rh)C2" U2Pt0.9Rh0.1C2 U 2 Pt 0.9 Rh 0.1 C 2 1 2015 AB2C2 Na2HgO2 A 3.5247 12.5763 K 1.09 1.09 uOhm.cm 42 "arc-melting(U:Pt:Rh:C = 2:1.1x:1.1(1-x):2.2) - wrapped in Ta foil - sealed in quartz tube - ANN(1050C, 2 month)" Magnetism and superconductivity in U2PtxRh1-xC2 2015 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 91(2015)024408"
155165 PRB091024408 SP-heat measured down to 0.38 K "U2(Pt,Rh)C2" U2Pt0.95Rh0.05C2 U 2 Pt 0.95 Rh 0.05 C 2 1 2015 AB2C2 Na2HgO2 A 3.5243 12.5687 K 1.41 1.41 MPH155155 "arc-melting(U:Pt:Rh:C = 2:1.1x:1.1(1-x):2.2) - wrapped in Ta foil - sealed in quartz tube - ANN(1050C, 2 month)" Magnetism and superconductivity in U2PtxRh1-xC2 2015 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 91(2015)024408"
155166 PRB091024408 spin triplet SC. SP-heat measured down to 0.38 K "U2(Pt,Rh)C2" U2Pt1C2 U 2 Pt 1 C 2 1 2015 AB2C2 Na2HgO2 A 3.5288 12.5729 K 1.45 1.45 uOhm.cm 5 "arc-melting(U:Pt:Rh:C = 2:1.1x:1.1(1-x):2.2) - wrapped in Ta foil - sealed in quartz tube - ANN(1050C, 2 month)" Magnetism and superconductivity in U2PtxRh1-xC2 2015 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 91(2015)024408"
155167 PRB091024509 Tc=3.53 K(SP). Thermal expansion (alpha) = 1.40 E-5 /K for 300 < T <700 K. SP-fitting for 2 < T < 5 K. (dC/gamma*Tc) = 1.59. e-ph = 0.657 HfPd2Al Pd2Hf1Al1 Pd 2 Hf 1 Al 1 1 2015 GPa 97 ABC2 Heusler A 6.367 K 3.55 3.55 MTC155167 K/GPa -0.13 MSP155167 mJ/mol.K2 7.6 SP 177 SP "Hf(2N5),Pd(3N5),Al(3N)" arc-melting. as-grown(not ANN) sample Pressure effects on the superconductivity of the HfPd2Al Heusler compound: Experimental and theoretical study 2015 "AGH University of Science and Technology, Faculty of Physics and Applied Computer Science, Aleja Mickiewicza 30, 30-059 Krakow, Poland" "Phys.Rev.B, 91(2015)024509"
155168 PRB091045108 Antiferrodistortive phase transition at 104 K by SP. Hall mobility = 9000 cm3/V.sec. mean free path = 1380 A. SrTiO3-d Sr1Ti1O3-d Sr 1 Ti 1 O 3-d 3 2015 ABC3 ABO3 K 0.085 0.085 MTC155168 A from (dhc2/dT) 990 n/cm3 5.20E+17 "Commercial SrTiO3:Ca single crystals. O-deficient samples obtained by ANN (700 - 1000 C, 2h, in vac)" "Interplay between antiferrodistortive, ferroelectric, and superconducting instabilities in Sr1-x Cax TiO3-z" 2015 "Universidade de Sao Paulo, Escola de Engenharia de Lorena, Lorena, Brazil" "Phys.Rev.B, 91(2015)045108"
155169 PRB091045108 Antiferrodistortive phase transition at 104 K by SP. Hall mobility = 10000 cm3/V.sec. mean free path = 1860 A. SrTiO3-d Sr1Ti1O3-d Sr 1 Ti 1 O 3-d 3 2015 ABC3 ABO3 K 0.175 0.175 A from (dhc2/dT) 790 n/cm3 1.08E+18 "Commercial SrTiO3:Ca single crystals. O-deficient samples obtained by ANN (700 - 1000 C, 2h, in vac)" "Interplay between antiferrodistortive, ferroelectric, and superconducting instabilities in Sr1-x Cax TiO3-z" 2015 "Universidade de Sao Paulo, Escola de Engenharia de Lorena, Lorena, Brazil" "Phys.Rev.B, 91(2015)045108"
155170 PRB091045108 Antiferrodistortive phase transition at 104 K by SP. Hall mobility = 8000 cm3/V.sec. mean free path = 1800 A. SrTiO3-d Sr1Ti1O3-d Sr 1 Ti 1 O 3-d 3 2015 ABC3 ABO3 K 0.201 0.201 A from (dhc2/dT) 580 n/cm3 2.20E+18 "Commercial SrTiO3:Ca single crystals. O-deficient samples obtained by ANN (700 - 1000 C, 2h, in vac)" "Interplay between antiferrodistortive, ferroelectric, and superconducting instabilities in Sr1-x Cax TiO3-z" 2015 "Universidade de Sao Paulo, Escola de Engenharia de Lorena, Lorena, Brazil" "Phys.Rev.B, 91(2015)045108"
155171 PRB091045108 Antiferrodistortive phase transition at 110 K by SP. Hall mobility = 6100 cm3/V.sec. mean free path = 1080 A. "(Sr,Ca)TiO3-d" Sr0.9978Ca0.0022Ti1O3-d Sr 0.9978 Ca 0.0022 Ti 1 O 3-d 3 2015 ABC3 ABO3 K 0.067 0.067 A from (dhc2/dT) 3740 n/cm3 5.20E+17 "Commercial SrTiO3:Ca single crystals. O-deficient samples obtained by ANN (700 - 1000 C, 2h, in vac)" "Interplay between antiferrodistortive, ferroelectric, and superconducting instabilities in Sr1-x Cax TiO3-z" 2015 "Universidade de Sao Paulo, Escola de Engenharia de Lorena, Lorena, Brazil" "Phys.Rev.B, 91(2015)045108"
155172 PRB091045108 Antiferrodistortive phase transition at 104 K by SP. Hall mobility = 3900 cm3/V.sec. mean free path = 810 A. "(Sr,Ca)TiO3-d" Sr0.9978Ca0.0022Ti1O3-d Sr 0.9978 Ca 0.0022 Ti 1 O 3-d 3 2015 ABC3 ABO3 K 0.132 0.132 MTC155171 A from (dhc2/dT) 1080 n/cm3 1.08E+18 "Commercial SrTiO3:Ca single crystals. O-deficient samples obtained by ANN (700 - 1000 C, 2h, in vac)" "Interplay between antiferrodistortive, ferroelectric, and superconducting instabilities in Sr1-x Cax TiO3-z" 2015 "Universidade de Sao Paulo, Escola de Engenharia de Lorena, Lorena, Brazil" "Phys.Rev.B, 91(2015)045108"
155173 PRB091045108 Antiferrodistortive phase transition at 104 K by SP. Hall mobility = 3000 cm3/V.sec. mean free path = 800 A. "(Sr,Ca)TiO3-d" Sr0.9978Ca0.0022Ti1O3-d Sr 0.9978 Ca 0.0022 Ti 1 O 3-d 3 2015 ABC3 ABO3 K 0.182 0.182 A from (dhc2/dT) 840 n/cm3 2.20E+18 "Commercial SrTiO3:Ca single crystals. O-deficient samples obtained by ANN (700 - 1000 C, 2h, in vac)" "Interplay between antiferrodistortive, ferroelectric, and superconducting instabilities in Sr1-x Cax TiO3-z" 2015 "Universidade de Sao Paulo, Escola de Engenharia de Lorena, Lorena, Brazil" "Phys.Rev.B, 91(2015)045108"
155175 PRB091060510 "Coexistence of two CDW and SC. <75>As-NMR/NQR and <195>Pt-NMR measured. T = 410 K and 255 K for As-Pt-As layer and Pt-As-Pt layer, respectively. Gap from NMR" SrPt2As2 Sr1Pt2As2 Sr 1 Pt 2 As 2 1 2015 AB2C2 CaBe2Ge2 Fe-122 K 5.2 5.2 3.1 6 solid state reaction Coexistence of multiple charge-density waves and superconductivity in SrPt2As2 revealed by <75>As-NMR/NQR and <195>Pt-NMR 2015 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 91(2015)060510"
155176 NATCOM0030943 "GdFeAs(O,H)" Gd1Fe1As1H0.1O0.9 Gd 1 Fe 1 As 1 H 0.1 O 0.9 1 2012 ABCD oxypnictide Fe-1111 K 56.2 56.2 MTC155176 Two-dome structure in electron-doped iron arsenide superconductors 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Nature Commun., 3(2012)943"
155177 NATCOM0030943 "SmFeAs(O,H)" Sm1Fe1As1H0.25O0.75 Sm 1 Fe 1 As 1 H 0.25 O 0.75 1 2012 ABCD oxypnictide Fe-1111 K 55 55 MTC155177 Two-dome structure in electron-doped iron arsenide superconductors 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Nature Commun., 3(2012)943"
155178 NATCOM0030943 "CeFeAs(O,H)" Ce1Fe1As1H0.21O0.79 Ce 1 Fe 1 As 1 H 0.21 O 0.79 1 2012 ABCD oxypnictide Fe-1111 K 48 48 MTC155178 Two-dome structure in electron-doped iron arsenide superconductors 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Nature Commun., 3(2012)943"
155179 NATCOM0030943 "LaFeAs(O,H)" La1Fe1As1H0.36O0.64 La 1 Fe 1 As 1 H 0.36 O 0.64 1 2012 ABCD oxypnictide Fe-1111 K 36 36 MTC155179 Two-dome structure in electron-doped iron arsenide superconductors 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Nature Commun., 3(2012)943"
155180 PRB091064509 SC and AF are segregated in electronic phase diagram. T = 156 K. Pseudogap Temp (defined as deviation from Curie-Weis law) = 69.6 K. H-content by TDS (not nominal) "LaFeAs(O,H)" La1Fe1As1H0.44O0.56 La 1 Fe 1 As 1 H 0.44 O 0.56 2015 ABCD oxypnictide Fe-1111 K 21 21 Quantum critical behavior in heavily doped LaFeAsO1-xHx pnictide superconductors analyzed using nuclear magnetic resonance 2015 "Graduate School of Human and Environmental Studies, Kyoto University, Yoshida-Nihonmatsu-cyo, Sakyo-ku, Kyoto 606-8501, Japan" "Phys.Rev.B, 91(2015)064509"
155181 PRB091064509 Pseudogap Temp (defined as deviation from Curie-Weis law) = 81 K. H-content by TDS (not nominal) "LaFeAs(O,H)" La1Fe1As1H0.49O0.51 La 1 Fe 1 As 1 H 0.49 O 0.51 2015 60 ABCD oxypnictide Fe-1111 K 4 Quantum critical behavior in heavily doped LaFeAsO1-xHx pnictide superconductors analyzed using nuclear magnetic resonance 2015 "Graduate School of Human and Environmental Studies, Kyoto University, Yoshida-Nihonmatsu-cyo, Sakyo-ku, Kyoto 606-8501, Japan" "Phys.Rev.B, 91(2015)064509"
155182 PRB091064509 Pseudogap Temp (defined as deviation from Curie-Weis law) = 90 K. H-content by TDS (not nominal) "LaFeAs(O,H)" La1Fe1As1H0.51O0.49 La 1 Fe 1 As 1 H 0.51 O 0.49 2015 70 ABCD oxypnictide Fe-1111 K 4 Quantum critical behavior in heavily doped LaFeAsO1-xHx pnictide superconductors analyzed using nuclear magnetic resonance 2015 "Graduate School of Human and Environmental Studies, Kyoto University, Yoshida-Nihonmatsu-cyo, Sakyo-ku, Kyoto 606-8501, Japan" "Phys.Rev.B, 91(2015)064509"
155183 PRB091064509 H-content by TDS (not nominal) "LaFeAs(O,H)" La1Fe1As1H0.6O0.4 La 1 Fe 1 As 1 H 0.6 O 0.4 2015 110 ABCD oxypnictide Fe-1111 K 4 Quantum critical behavior in heavily doped LaFeAsO1-xHx pnictide superconductors analyzed using nuclear magnetic resonance 2015 "Graduate School of Human and Environmental Studies, Kyoto University, Yoshida-Nihonmatsu-cyo, Sakyo-ku, Kyoto 606-8501, Japan" "Phys.Rev.B, 91(2015)064509"
155184 PRB091064509 H-content by TDS (not nominal) "LaFeAs(O,H)" La1Fe1As1O1 La 1 Fe 1 As 1 O 1 2015 138 ABCD oxypnictide Fe-1111 K 4 Quantum critical behavior in heavily doped LaFeAsO1-xHx pnictide superconductors analyzed using nuclear magnetic resonance 2015 "Graduate School of Human and Environmental Studies, Kyoto University, Yoshida-Nihonmatsu-cyo, Sakyo-ku, Kyoto 606-8501, Japan" "Phys.Rev.B, 91(2015)064509"
155186 PRB091064510 ANN(800 C). Schottky anomaly below 3.7 K in SP. SP-FIG shows C obtainedby extracted C and C from C. (dC/gamma*Tc) = 0.21 "(La,Sm)(O,F)BiS2" La0.9Sm0.1Bi1S2F0.5O0.5 La 0.9 Sm 0.1 Bi 1 S 2 F 0.5 O 0.5 1 2015 2 CeOBiS2 P4/nmm A 4.0563 13.333 BiS2-layer SC K 2.93 2.76 2.93 MSP155186 mJ/mol.K2 9 SP solid state reaction Enhancement of superconductivity in La1-xSmxO0.5F0.5BiS2 2015 "Center for Advanced Nanoscience, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 91(2015)064510"
155187 PRB091064510 ANN(800 C). "(La,Sm)(O,F)BiS2" La0.7Sm0.3Bi1S2F0.5O0.5 La 0.7 Sm 0.3 Bi 1 S 2 F 0.5 O 0.5 1 2015 2 CeOBiS2 P4/nmm A 4.0317 13.3686 BiS2-layer SC K 3.11 2.87 3.11 solid state reaction Enhancement of superconductivity in La1-xSmxO0.5F0.5BiS2 2015 "Center for Advanced Nanoscience, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 91(2015)064510"
155188 PRB091064510 ANN(800 C) "(La,Sm)(O,F)BiS2" La0.6Sm0.4Bi1S2F0.5O0.5 La 0.6 Sm 0.4 Bi 1 S 2 F 0.5 O 0.5 1 2015 2 CeOBiS2 P4/nmm A 4.0266 13.3804 BiS2-layer SC K 3.26 3 3.26 MTC155188 solid state reaction Enhancement of superconductivity in La1-xSmxO0.5F0.5BiS2 2015 "Center for Advanced Nanoscience, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 91(2015)064510"
155189 PRB091064510 ANN(750C) "(La,Sm)(O,F)BiS2" La0.5Sm0.5Bi1S2F0.5O0.5 La 0.5 Sm 0.5 Bi 1 S 2 F 0.5 O 0.5 1 2015 2 CeOBiS2 P4/nmm A 4.0155 13.407 BiS2-layer SC K 4.05 3.86 4.05 solid state reaction Enhancement of superconductivity in La1-xSmxO0.5F0.5BiS2 2015 "Center for Advanced Nanoscience, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 91(2015)064510"
155190 PRB091064510 ANN(750C) "(La,Sm)(O,F)BiS2" La0.4Sm0.6Bi1S2F0.5O0.5 La 0.4 Sm 0.6 Bi 1 S 2 F 0.5 O 0.5 1 2015 2 CeOBiS2 P4/nmm A 4.0077 13.4096 BiS2-layer SC K 4.21 4.95 4.21 MTC155188 solid state reaction Enhancement of superconductivity in La1-xSmxO0.5F0.5BiS2 2015 "Center for Advanced Nanoscience, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 91(2015)064510"
155191 PRB091064510 ANN(750C) "(La,Sm)(O,F)BiS2" La0.3Sm0.7Bi1S2F0.5O0.5 La 0.3 Sm 0.7 Bi 1 S 2 F 0.5 O 0.5 1 2015 2 CeOBiS2 P4/nmm A 4.3996 13.4129 BiS2-layer SC K 5.14 5.22 5.14 solid state reaction Enhancement of superconductivity in La1-xSmxO0.5F0.5BiS2 2015 "Center for Advanced Nanoscience, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 91(2015)064510"
155192 PRB091064510 ANN(710C). Schottky anomaly below 3.7 K in SP. SP-FIG shows C obtainedby extracted C and C from C. (dC/gamma*Tc) = 3.6 "(La,Sm)(O,F)BiS2" La0.2Sm0.8Bi1S2F0.5O0.5 La 0.2 Sm 0.8 Bi 1 S 2 F 0.5 O 0.5 1 2015 2 CeOBiS2 P4/nmm A 3.9831 13.434 BiS2-layer SC K 5.42 5.17 5.42 MSP155192 mJ/mol.K2 18 SP solid state reaction Enhancement of superconductivity in La1-xSmxO0.5F0.5BiS2 2015 "Center for Advanced Nanoscience, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 91(2015)064510"
155193 PRB091094427 "Magnetic order: long range FM , Tm = 19 K by muon-SR. Volume fractin = 100 % for FM and SC. Coexistence of FM and SC." "Eu(Fe,Ir)2As2" Eu1Fe1.72Ir0.28As2 Eu 1 Fe 1.72 Ir 0.28 As 2 1 2015 AB2C2 2 ThCr2Si2 I4/mmm A 3.9365 12.027 "Fe-122. ND results, a=(3.9326, 3.9287), c=(11.897, 11.884) at T=25 and 1.8 K, respectively" K 21.5 21.5 100 "Eu(3N),Fe(5N),Ir(4N),As(5N)" "solid state reaction. Eu mixed with (Fe,Ir,As-powder) - pellet - heat(900C,30h, in evacuated quartz tube) -reground - pellet -SIN(900C,5d, in quartz tube)" muon-SR and neutron diffraction investigations on the reentrant ferromagnetic superconductor Eu(Fe0.86Ir0.14)2As2 2015 "Helmholtz-Zentrum Berlin fur Materialien und Energie, Hahn-Meitner Platz 1, D-14109 Berlin, Germany" "Phys.Rev.B, 91(2015)094427"
155194 PRB091094515 "P-induced SC. magnetic order (Tm1 and Tm2). R(T) peak at T*-1,T*-2. RR=1.8 uOhm.cm (P=0). Tc(in DB) for P=21.2 GPa." CeAu2Si2 Ce1Au2Si2 Ce 1 Au 2 Si 2 3 2015 AB2C2 ThCr2Si2 Fe-122 K 2.55 2.55 MPH155194 Sn-flux method Effect of disorder on the pressure-induced superconducting state of CeAu2Si2 2015 "DQMP - University of Geneva, 24 Quai Ernest-Ansermet, 1211 Geneva 4, Switzerland" "Phys.Rev.B, 91(2015)094515"
155195 PRB091094515 "P-induced SC. magnetic order (Tm1 and Tm2). R(T) peak at T*-1,T*-2. RR=12.2 (P=0), =43.0 uOhm.cm (P=21.2 GPa). Tc(in DB) for P=21.2 GPa." CeAu2Si2 Ce1Au2Si2 Ce 1 Au 2 Si 2 3 2015 AB2C2 ThCr2Si2 Fe-122 K 1.15 1.15 MPH155195 Au-Si self flux method Effect of disorder on the pressure-induced superconducting state of CeAu2Si2 2015 "DQMP - University of Geneva, 24 Quai Ernest-Ansermet, 1211 Geneva 4, Switzerland" "Phys.Rev.B, 91(2015)094515"
155196 PRB091100504 [penet] & [gap] measured by muon-SR. nodeless SC. GL parameter = 183. Nb2PdS5 Nb2Pd1S5 Nb 2 Pd 1 S 5 1 2015 AB2C5 4 C2/m monoclinic K 6.05 6 6 Oe estimated from penet and cohere 14 T "#154324, GL fitting" 17.6 A from Hc2 43 A "muon-SR, fitting parameter" 7850 meV 1.07 4.04 16 solid state reaction Nodeless superconductivity in quasi-one-dimensional Nb2PdS5: A muon-SR study 2015 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 91(2015)100504"
155197 PRB091104506 STM measured on the cleaved surface (1[-]03) plane. Hc2 along C' axis. CDW-like modulation observed along the stripe. Gap from STM using BCS fitting. Ta4Pd3Te16 Ta4Pd3Te16 Ta 4 Pd 3 Te 16 3 2015 A3B4C16 K 4.3 4.3 T 2.9 A from Hc2 110 meV 0.66 3.56 11 self-flux method "Scanning tunneling microscopy study of superconductivity, magnetic vortices, and possible charge-density wave in Ta4Pd3Te16" 2015 "State Key Laboratory of Surface Physics, Department of Physics, and Advanced Materials Laboratory, Fudan University, Shanghai 200433, China" "Phys.Rev.B, 91(2015)104506"
155198 PRB091104511 "Impurity: Bi2OS2,Bi2O3,Bi (total < 8%). Thermopower S(T) shows semimetallic behaviour. Tc(SUS) = 3.3 K for P = 0.6 GPa." Bi3O2S3 Bi3S3O2 Bi 3 S 3 O 2 1 2015 A2B3C3 A 3.9645 41.3165 K 4.03 5.75 4.1 4.1 W/m.K 3.07 MTHC155198 uV/K -29.2 MTP155198 "Bi2O3,S" "mixture - pellet - sealed in silica tube - heat(430C,4h) - Q to ice water - reground -pellet - sealed in quartz tube - heat(430C,14h) - reground - heat (520C,17h) - Q" Superconductivity in semimetallic Bi3O2S3 2015 "Materials Science & Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 91(2015)104511"
155199 MAT1404.0371 "sample #1. R=R0+A*T^n (R0=3.96 uOhm.cm, n=2.26). Hc2//C*-axis. There exist nodes in SC-gaps from thermal conductivity." Ta4Pd3Te16 Ta4Pd3Te16 Ta 4 Pd 3 Te 16 3 2014 A3B4C16 K 4.3 4.3 4.3 T "RES(zero), extrapolation" 2.9 MHC155199 self flux method Nodal superconductivity and superconducting dome in new layered superconductor Ta4Pd3Te16 2014 "State Key Laboratory of Surface Physics, Department of Physics, and Laboratory of Advanced Materials, Fudan University, Shanghai 200433, China" cond-mat/1404.0371
155200 MAT1404.0371 "sample #6. Hc2(0) and -(dHc2/dT) = (7.9, 4.8, 3.2) in T and (1.16, 0.85, 0.53) inT/K for H//b, H//a', and H//c*, respectively." Ta4Pd3Te16 Ta4Pd3Te16 Ta 4 Pd 3 Te 16 3 2014 A3B4C16 K 4.3 4.3 T "RES(zero), extrapolation" 3.2 MHC155200 self flux method Nodal superconductivity and superconducting dome in new layered superconductor Ta4Pd3Te16 2014 "State Key Laboratory of Surface Physics, Department of Physics, and Laboratory of Advanced Materials, Fudan University, Shanghai 200433, China" cond-mat/1404.0371
155201 MAT1404.0371 Tc(max) = 6.7 K at P=0.31 GPa. R(T)-exponent (n) depends on P. n(min) = 2.1 at P=0.31 GPa. Ta4Pd3Te16 Ta4Pd3Te16 Ta 4 Pd 3 Te 16 3 2014 A3B4C16 K 4.3 4.3 MPH155201 self flux method Nodal superconductivity and superconducting dome in new layered superconductor Ta4Pd3Te16 2014 "State Key Laboratory of Surface Physics, Department of Physics, and Laboratory of Advanced Materials, Fudan University, Shanghai 200433, China" cond-mat/1404.0371
155202 APL101162602 Epitaxial thin films. CeNixBi2[100]//MgO[110]. CeNixBi2 is SC for 0.75< x <0.93 with Tc = 3.7 - 4.05. CeNixBi2 Ce1Ni0.86Bi2 Ce 1 Ni 0.86 Bi 2 5 2012 ABC2 A 4.565 K 4.05 4.15 4.1 uOhm.cm 282 426 "Ce(3N),Ni(4N5),Bi(5N)" Epitaxial thin films by MBE using e-gan. Substrate= (100)MgO. T_{= 410-440 C. growth rate = 0.5 A/s. Superconducting epitaxial thin films of CeNixBi2 with a bismuth square net structure 2012 "Institute of Materials Science, Technische Universitat Darmstadt, 64287 Darmstadt, Germany" "Appl.Phys.Lett., 101(2012)162602"
155203 SST026015014 LaNixBi2 La1Ni0.72Bi2 La 1 Ni 0.72 Bi 2 5 2013 ABC2 ZrCuSiAs P4/nmm A 4.57 9.76 K 4.05 0.1 4.05 MTC155203 uOhm.cm 545 589 "La(5N),Ni(4N5),Bi(5N)" "Epitaxial films grown by RMBE using La,Ni,Bi targets om (100)MgO substrate. T_{= 430 C. growth rate = 0.5 A/s" Growth of superconducting epitaxial LaNixBi2 pnictide thin films with a Bi square net layer by reactive molecular beam epitaxy 2013 "Institute of Materials Science, Technische Universitat Darmstadt, Petersenstr. 23, D-64287 Darmstadt,Germany" "Supercond.Sci.Technol., 26(2013)015014"
155204 PRB091104519 "Pd-content shows tentative value. Optimum Pd conc. (not measured). RRR = 1.58. R(T) = R0+A*T^2, where R0=57.4 uOhm.cm, A=2.54 nOhm.cm/K2 for 5< T <30 K" LaPdxSb2 La1Pd0.8Sb2 La 1 Pd 0.8 Sb 2 5 2015 ABC2 K 3.23 3.27 0.03 3.25 Oe M-H curve 10 1.8 T "RES(R=0.5Rn), extrapolation" 1.1 uOhm.cm 57.4 91.5 "La(3N),Pd(3N5),Sb(5N) or Bi(5N)" "Epitaxial films grown by RMBE using La,Ni,Sb or Bi targets on (100)MgO substrate. T_{= 440 - 520 C. growth rate = 0.5 A/s" "Superconductivity and role of pnictogen and Fe substitution in 112-LaPdx Pn2 (Pn = Sb, Bi)" 2015 "Institute of Materials Science, Technische Universitat Darmstadt, Alarich-Weiss-Strasse 2, 64287 Darmstadt, Germany" "Phys.Rev.B, 91(2015)104519"
155205 PRB091104519 "Pd-content shows tentative value. Optimum Pd conc. (not measured). RRR = 1.70. R(T) = R0+A*T^2, where R0=86.6 uOhm.cm, A=2.64 nOhm.cm/K2 for 5< T <30 K" LaPdxBi2 La1Pd0.8Bi2 La 1 Pd 0.8 Bi 2 5 2015 ABC2 A 4.55 9.7 K 2.7 3.03 2.865 uOhm.cm 86.6 150 "La(3N),Pd(3N5),Sb(5N) or Bi(5N)" "Epitaxial films grown by RMBE using La,Ni,Sb or Bi targets on (100)MgO substrate. T_{= 440 - 520 C. growth rate = 0.5 A/s" "Superconductivity and role of pnictogen and Fe substitution in 112-LaPdx Pn2 (Pn = Sb, Bi)" 2015 "Institute of Materials Science, Technische Universitat Darmstadt, Alarich-Weiss-Strasse 2, 64287 Darmstadt, Germany" "Phys.Rev.B, 91(2015)104519"
155206 PRB091165109 "Anisotropy(H) = 2. (dC/gamma*Tc)=2.14. Energy gap from SP. 2gap-model, large one in in DB, small (2d/kTc) = 1.76. SP heat (beta)=0.000434 mJ/mol.K4. Hc1(T) measured by M vs H." FeSe1-xSx Fe1Se1 Fe 1 Se 1 3 2015 AB 2 PbO P4/nmm A 3.77 5.52 beta-FeSe K 8.5 8.5 Oe M-H curve 28.1 2 T "RES(0.9Rn), extrapolation" 14.8 MHC155206 nm SP analysis 446 4.44 14 mJ/mol.K2 5.3 SP single crystals grown in quartz ampoule using AlCl3/KCl flux (hot 400C-cold 350C) for 45 days. Superconducting properties of sulfur-doped iron selenide 2015 "Center for High Pressure Science and Technology Advanced Research, Shanghai 201203, China" "Phys.Rev.B, 91(2015)165109"
155207 PRB091165109 "Anisotropy(H) = 4. (dC/gamma*Tc)=2.43. Energy gap from SP. 2gap-model, large one in in DB, small (2d/kTc) = 3.8. SP heat (beta)=0.00048 mJ/mol.K4. Hc1(T) measured by M vs H." FeSe1-xSx Fe1Se0.96S0.04 Fe 1 Se 0.96 S 0.04 3 2015 AB 2 PbO P4/nmm beta-FeSe K 9.58 9.58 Oe M-H curve 40.4 2 T "RES(0.9Rn), extrapolation" 17.5 MHC155207 nm SP analysis 372 5 14 mJ/mol.K2 5.1 SP single crystals grown in quartz ampoule using AlCl3/KCl flux (hot 400C-cold 350C) for 45 days. Superconducting properties of sulfur-doped iron selenide 2015 "Center for High Pressure Science and Technology Advanced Research, Shanghai 201203, China" "Phys.Rev.B, 91(2015)165109"
155208 PRB091165109 "Anisotropy(H) = 3.5. (dC/gamma*Tc)=2.2. Energy gap from SP. 2gap-model, large one in in DB, small (2d/kTc) = 4.4. SP heat (beta)=0.00036 mJ/mol.K4. Hc1(T) measured by M vs H." FeSe1-xSx Fe1Se0.91S0.09 Fe 1 Se 0.91 S 0.09 3 2015 AB 2 PbO P4/nmm beta-FeSe K 10.1 10.1 Oe M-H curve 54.5 2 T "RES(0.9Rn), extrapolation" 18.8 MHC155208 nm SP analysis 433 4.7 14 mJ/mol.K2 4.9 SP single crystals grown in quartz ampoule using AlCl3/KCl flux (hot 400C-cold 350C) for 45 days. Superconducting properties of sulfur-doped iron selenide 2015 "Center for High Pressure Science and Technology Advanced Research, Shanghai 201203, China" "Phys.Rev.B, 91(2015)165109"
155209 PRB091165109 "Anisotropy(H) = 3.5. (dC/gamma*Tc)=1.95. Energy gap from SP. 2gap-model, large one in in DB, small (2d/kTc) = 3.92. SP heat (beta)=0.00041 mJ/mol.K4. Hc1(T) measured by M vs H." FeSe1-xSx Fe1Se0.89S0.11 Fe 1 Se 0.89 S 0.11 3 2015 AB 2 PbO P4/nmm beta-FeSe K 10.7 10.7 T "RES(0.9Rn), extrapolation" 20.2 nm SP analysis 415 4.78 14 mJ/mol.K2 4.95 SP single crystals grown in quartz ampoule using AlCl3/KCl flux (hot 400C-cold 350C) for 45 days. Superconducting properties of sulfur-doped iron selenide 2015 "Center for High Pressure Science and Technology Advanced Research, Shanghai 201203, China" "Phys.Rev.B, 91(2015)165109"
155210 PRL109217002 Se-Se bond length = 2.652 A. SP (beta) = 0.376 mJ/mol.K4. (dC/gamma*Tc) = 3.1 IrxSe2 Ir0.91Se2 Ir 0.91 Se 2 2012 AB2 Pa3[-] A 5.98 pyrite K 6.4 6.5 6.45 T "estimation, not measured" 14.3 A from Hc2 48 mJ/mol.K2 6.8 SP 249 SP "Ir(3N wt%),Se(3N wt%) or Te" "mixture - in h-BN capsule - heat(1673 K,2h, 5GPa)" Superconductivity in Defective Pyrite-Type Iridium Chalcogenides IrxCh2 (Ch = Se and Te) 2012 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta, Midori, Yokohama 226-8503, Japan" "Phys.Rev.Lett., 109(2012)217002"
155211 PRL109217002 IrxSe2 Ir0.77Se2 Ir 0.77 Se 2 2012 AB2 Pa3[-] pyrite K 3.2 3.8 3.5 MTC155211 "Ir(3N wt%),Se(3N wt%) or Te" "mixture - in h-BN capsule - heat(1673 K,2h, 5GPa)" Superconductivity in Defective Pyrite-Type Iridium Chalcogenides IrxCh2 (Ch = Se and Te) 2012 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta, Midori, Yokohama 226-8503, Japan" "Phys.Rev.Lett., 109(2012)217002"
155212 PRL109217002 (dC/gamma*Tc) = 2.0 IrxTe2 Ir0.93Te2 Ir 0.93 Te 2 2012 AB2 pyrite K 4.7 4.7 T "estimation, not measured" 4.58 A from Hc2 69 262 SP "Ir(3N wt%),Se(3N wt%) or Te" "mixture - in h-BN capsule - heat(1673 K,2h, 5GPa)" Superconductivity in Defective Pyrite-Type Iridium Chalcogenides IrxCh2 (Ch = Se and Te) 2012 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta, Midori, Yokohama 226-8503, Japan" "Phys.Rev.Lett., 109(2012)217002"
155213 SSC0530119 Hydrostatic P. Tc measured by as-SUS. LaFe4P12 La1Fe4P12 La 1 Fe 4 P 12 1985 AB4C12 skutterudite A 7.8316 K 4.1 4.1 MTC155213 K/GPa 0.72 High purity elements in molten Sn (1050C). Cool to 500C over 10 days.- Q to RT "THE PRESSURE DEPENDENCE OF THE SUPERCONDUCTING TRANSITION TEMPERATURE OF LaT4PI2 (T = Fe, Ru, Os)" 1985 "Department of Physics and Astronomy, University of Kentucky, Lexington, KY 40502" "Solid State Commun., 53(1985)119"
155214 SSC0530119 RuP2 phase (5-10%). Hydrostatic P. Tc measured by as-SUS. LaRu4P12 La1Ru4P12 La 1 Ru 4 P 12 1985 AB4C12 skutterudite A 8.0561 K 7.2 7.2 MTC155213 K/GPa -0.16 High purity elements in molten Sn (1050C). Cool to 500C over 10 days.- Q to RT "THE PRESSURE DEPENDENCE OF THE SUPERCONDUCTING TRANSITION TEMPERATURE OF LaT4PI2 (T = Fe, Ru, Os)" 1985 "Department of Physics and Astronomy, University of Kentucky, Lexington, KY 40502" "Solid State Commun., 53(1985)119"
155215 SSC0530119 OsP2 phase (5-10%). Hydrostatic P. Tc measured by as-SUS. LaOs4P12 La1Os4P12 La 1 Os 4 P 12 1985 AB4C12 skutterudite A 8.0844 K 1.8 1.8 MTC155213 K/GPa -0.095 OsP2 prepared by sintering. Then added to a melt that was cooled from 1250C. "THE PRESSURE DEPENDENCE OF THE SUPERCONDUCTING TRANSITION TEMPERATURE OF LaT4PI2 (T = Fe, Ru, Os)" 1985 "Department of Physics and Astronomy, University of Kentucky, Lexington, KY 40502" "Solid State Commun., 53(1985)119"
155216 SSC2010036 (Ca1-xLax)(Pt3As8)(FeAs)10 Ca9La1Pt3Fe10As18 Ca 9 La 1 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 27.9 27.9 MTC155216 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155217 SSC2010036 (Ca1-xLax)(Pt3As8)(FeAs)10 Ca8.87La1.13Pt3Fe10As18 Ca 8.87 La 1.13 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 32.8 32.8 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155218 SSC2010036 (Ca1-xLax)(Pt3As8)(FeAs)10 Ca8.85La1.15Pt3Fe10As18 Ca 8.85 La 1.15 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 35.1 35.1 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155219 SSC2010036 (Ca1-xLax)(Pt3As8)(FeAs)10 Ca8.6La1.4Pt3Fe10As18 Ca 8.6 La 1.4 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 34.5 34.5 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155220 SSC2010036 (Ca1-xLax)(Pt3As8)(FeAs)10 Ca8.44La1.56Pt3Fe10As18 Ca 8.44 La 1.56 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 32.3 32.3 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155221 SSC2010036 (Ca1-xLax)(Pt3As8)(FeAs)10 Ca7.62La2.38Pt3Fe10As18 Ca 7.62 La 2.38 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 26 26 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155222 SSC2010036 (Ca1-xCex)(Pt3As8)(FeAs)10 Ca9.26Ce0.74Pt3Fe10As18 Ca 9.26 Ce 0.74 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 22.6 22.6 MTC155216 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155223 SSC2010036 (Ca1-xCex)(Pt3As8)(FeAs)10 Ca8.38Ce1.62Pt3Fe10As18 Ca 8.38 Ce 1.62 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 30.5 30.5 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155224 SSC2010036 (Ca1-xCex)(Pt3As8)(FeAs)10 Ca8.32Ce1.68Pt3Fe10As18 Ca 8.32 Ce 1.68 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 30.4 30.4 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155225 SSC2010036 (Ca1-xCex)(Pt3As8)(FeAs)10 Ca7.16Ce2.84Pt3Fe10As18 Ca 7.16 Ce 2.84 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 18.9 18.9 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155226 SSC2010036 (Ca1-xPrx)(Pt3As8)(FeAs)10 Ca9.39Pr0.61Pt3Fe10As18 Ca 9.39 Pr 0.61 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 19.5 19.5 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155227 SSC2010036 (Ca1-xPrx)(Pt3As8)(FeAs)10 Ca8.77Pr1.23Pt3Fe10As18 Ca 8.77 Pr 1.23 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 26.9 26.9 MTC155216 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155228 SSC2010036 (Ca1-xPrx)(Pt3As8)(FeAs)10 Ca8.48Pr1.52Pt3Fe10As18 Ca 8.48 Pr 1.52 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 31.8 31.8 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155229 SSC2010036 (Ca1-xPrx)(Pt3As8)(FeAs)10 Ca8.03Pr1.97Pt3Fe10As18 Ca 8.03 Pr 1.97 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 25 25 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155230 SSC2010036 (Ca1-xPrx)(Pt3As8)(FeAs)10 Ca6.85Pr3.15Pt3Fe10As18 Ca 6.85 Pr 3.15 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 20.5 20.5 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155231 SSC2010036 (Ca1-xNdx)(Pt3As8)(FeAs)10 Ca8.77Nd1.23Pt3Fe10As18 Ca 8.77 Nd 1.23 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 28.4 28.4 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155232 SSC2010036 (Ca1-xNdx)(Pt3As8)(FeAs)10 Ca8.41Nd1.59Pt3Fe10As18 Ca 8.41 Nd 1.59 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 28.1 28.1 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155233 SSC2010036 (Ca1-xNdx)(Pt3As8)(FeAs)10 Ca7.65Nd2.35Pt3Fe10As18 Ca 7.65 Nd 2.35 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 18.9 18.9 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155234 SSC2010036 (Ca1-xSmx)(Pt3As8)(FeAs)10 Ca9.29Sm0.71Pt3Fe10As18 Ca 9.29 Sm 0.71 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 26.2 26.2 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155235 SSC2010036 (Ca1-xSmx)(Pt3As8)(FeAs)10 Ca8.45Sm1.55Pt3Fe10As18 Ca 8.45 Sm 1.55 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 28 28 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155236 SSC2010036 (Ca1-xGdx)(Pt3As8)(FeAs)10 Ca9.06Gd0.94Pt3Fe10As18 Ca 9.06 Gd 0.94 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 25 25 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155237 SSC2010036 (Ca1-xTbx)(Pt3As8)(FeAs)10 Ca9.16Tb0.84Pt3Fe10As18 Ca 9.16 Tb 0.84 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 23.7 23.7 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155238 SSC2010036 (Ca1-xDyx)(Pt3As8)(FeAs)10 Ca9.35Dy0.65Pt3Fe10As18 Ca 9.35 Dy 0.65 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 20.9 20.9 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155239 SSC2010036 (Ca1-xHox)(Pt3As8)(FeAs)10 Ca9.68Ho0.32Pt3Fe10As18 Ca 9.68 Ho 0.32 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 19.5 19.5 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155240 SSC2010036 (Ca1-xErx)(Pt3As8)(FeAs)10 Ca9.75Er0.25Pt3Fe10As18 Ca 9.75 Er 0.25 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 17.6 17.6 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155241 SSC2010036 (Ca1-xTmx)(Pt3As8)(FeAs)10 Ca9.72Tm0.28Pt3Fe10As18 Ca 9.72 Tm 0.28 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 14.8 14.8 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155242 SSC2010036 (Ca1-xYbx)(Pt3As8)(FeAs)10 Ca9.5Yb0.5Pt3Fe10As18 Ca 9.5 Yb 0.5 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 11.6 11.6 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155243 SSC2010036 (Ca1-xLux)(Pt3As8)(FeAs)10 Ca9.75Lu0.25Pt3Fe10As18 Ca 9.75 Lu 0.25 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 10.9 10.9 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155244 SSC2010036 (Ca1-xYx)(Pt3As8)(FeAs)10 Ca9.58Y0.42Pt3Fe10As18 Ca 9.58 Y 0.42 Pt 3 Fe 10 As 18 1 2015 Ca-10-3-8 phase K 18.6 18.6 "See Phys.Rev.B., 86(2012)060516" "Superconductivity by rare earth doping in the 1038-type compounds (Ca1-xREx)10(FeAs)10(Pt3As8) with RE = Y, La-Nd, Sm-Lu" 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen, Butenandtstr. 5-13 (Haus D), 81377 Munchen, Germany" "Solid State Commun., 201(2015)36"
155245 JPS083054706 "impurity phase: Cu3As(10%), FeAs(1%). not SC. R(40K) = 0.10 mOhm.cm" CuFeAs Cu1Fe1As1 Cu 1 Fe 1 As 1 1 2014 9 ABC 2 Cu2Sb P4/nmm A 3.7442 5.8925 "As-Fe-As bond angle (alpha=94.23, beta=117.59)" K 2 mOhm.cm 0.32 "Cu2As,Fe2As" "mixture - heat(700C,24h in quartz ampoule) - regrond - pellet - heat(700C,4d, in quartz ampoule)" CuFeAs: A New Member in the 111-Family of Iron-Pnictides 2014 "Department of Chemistry, Indian Institute of Technology, New Delhi 110016, India" "J.Phys.Soc,Jpn, 83(2014)054706"
155246 JPS084024709 As-grown sample. Two type of FM(Tm= 4.5 & 7.5 K) for x >= 0.45. Lattice const. given in Fig. MPH155246 for 0== 0.45. Lattice const. given in Fig. MPH155248 for 0= 0.6. "Ce(O,F)BiS2" Ce1Bi1S2F0.6O0.4 Ce 1 Bi 1 S 2 F 0.6 O 0.4 1 2015 7.69 ABCD2 2 CeOBiS2 P4/nmm A 4.0423 13.3513 BiS2 layer SC K 3.72 5.2 4.46 MPH155248 "Bi,Bi2S3,Bi2O3,BiF3,Ce2S3" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(800C,10h) reground - ANN(600C,1h・E､P=3 GPa)" Coexistence of Bulk Superconductivity and Magnetism in CeO1-xFxBiS2 2015 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.Soc,Jpn, 84(2015)024709"
155249 JPS084024709 "Ce(O,F)BiS2" Ce1Bi1S2F0.9O0.1 Ce 1 Bi 1 S 2 F 0.9 O 0.1 1 2015 7.6 ABCD2 2 CeOBiS2 P4/nmm A 4.0322 13.3637 BiS2 layer SC K 5.96 7.75 6.855 "Bi,Bi2S3,Bi2O3,BiF3,Ce2S3" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(800C,10h) reground - ANN(600C,1h・E､P=3 GPa)" Coexistence of Bulk Superconductivity and Magnetism in CeO1-xFxBiS2 2015 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.Soc,Jpn, 84(2015)024709"
155250 JPS084024709 "Ce(O,F)BiS2" Ce1Bi1S2F0.4O0.6 Ce 1 Bi 1 S 2 F 0.4 O 0.6 1 2015 ABCD2 2 CeOBiS2 P4/nmm A 4.0339 13.4688 BiS2 layer SC K 2.85 2.85 "Bi,Bi2S3,Bi2O3,BiF3,Ce2S3" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(800C,10h) reground - ANN(600C,1h・E､P=3 GPa)" Coexistence of Bulk Superconductivity and Magnetism in CeO1-xFxBiS2 2015 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.Soc,Jpn, 84(2015)024709"
155251 PHB4590021 Anomaly in V(P) appears around P=15 GPa. Lat-a = 4.9284 A at P=41 GPa. Nb3Ga Ga1Nb3 Ga 1 Nb 3 3 2015 GPa 198 AB3 A15 A 5.1673 K 16.5 16.5 MTC155251 mixture(Nb:Ga=3:1) - pellet - arc melting High pressure transport and structural studies on Nb3Ga superconductor 2015 "High Pressure Science and Engineering Center and Department of Physics and Astronomy, University of Nevada Las Vegas, Las Vegas, NV89154 USA" "Physica B, 459(2015)21"
155252 PHC5090008 "SC(Tc= 18-20 K) for 0.05 =< x < 0.2 in Ba1-xYbxFe2As2. Tc measured by dc-SUS. Cleaved crystals were brittle, R(T) not measured." "(Ba,Yb)Fe2As2" Ba0.9Yb0.1Fe2As2 Ba 0.9 Yb 0.1 Fe 2 As 2 3 2015 AB2C2 ThCr2Si2 A 13.0213 Fe-122 K 20 20 "Ba,Yb(3N),Fe(5N),As(4N)" FeAs self-flux method. mixture - in alumina oxide crucible - sealed in quartz tube(Ar) - heat to 1150C(70C/h) - hold(8h) - cool to 1000C(2C/h) - FC to RT Superconductivity in Yb-doped BaFe2As2 2015 "Department of Physics, National Chung Cheng University, Ming-Hsiung, Chia-Yi 62199, Taiwan, ROC" "Physica C, 509(2015)8"
155253 SSC0520797 "ANN(900C,6d)" LaRh2Si2 La1Rh2Si2 La 1 Rh 2 Si 2 1 1984 AB2C2 2 ThCr2Si2 I4/mmm A 4.1109 10.289 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155254 SSC0520797 "ANN(1200C,2d) (700C,9d)" LaIr2Si2(LT) La1Ir2Si2 La 1 Ir 2 Si 2 1 1984 AB2C2 2 ThCr2Si2 I4/mmm A 4.094 10.248 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155255 SSC0520797 as-cast LaIr2Si2(HT) La1Ir2Si2 La 1 Ir 2 Si 2 1 1984 AB2C2 2 CaBe2Ge2 P4/nmm A 4.19 9.944 K 1.52 1.58 1.55 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155256 SSC0520797 "ANN(1200C2d) (700C,9d)" LaPt2Si2 La1Pt2Si2 La 1 Pt 2 Si 2 1 1984 AB2C2 2 CaBe2Ge2 P4/nmm A 4.277 9.798 K 1.31 1.42 1.365 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155257 SSC0520797 as-cast YRu2Si2 Y1Ru2Si2 Y 1 Ru 2 Si 2 1 1984 AB2C2 2 ThCr2Si2 I4/mmm A 4.157 9.522 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155258 SSC0520797 "ANN(1000C,6d)" YRh2Si2 Y1Rh2Si2 Y 1 Rh 2 Si 2 1 1984 AB2C2 2 ThCr2Si2 I4/mmm A 4.023 9.9 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155259 SSC0520797 "ANN(1000C,6d)" YPd2Si2 Y1Pd2Si2 Y 1 Pd 2 Si 2 1 1984 AB2C2 2 ThCr2Si2 I4/mmm A 4.125 9.842 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155260 SSC0520797 as-cast YOs2Si2 Y1Os2Si2 Y 1 Os 2 Si 2 1 1984 AB2C2 2 ThCr2Si2 I4/mmm A 4.128 9.667 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155261 SSC0520797 "ANN(1300C,2d) (700C,7d)" YIr2Si2(LT) Y1Ir2Si2 Y 1 Ir 2 Si 2 1 1984 AB2C2 2 ThCr2Si2 I4/mmm A 4.047 9.914 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155262 SSC0520797 "ANN(1300C,2d)" YIr2Si2(HT) Y1Ir2Si2 Y 1 Ir 2 Si 2 1 1984 AB2C2 2 CaBe2Ge2 P4/nmm A 4.081 9.754 K 2.72 2.83 2.775 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155263 SSC0520797 "ANN(1250C,2d) (1000C,6d) (700C,7d)" YPt2Si2 Y1Pt2Si2 Y 1 Pt 2 Si 2 1 1984 AB2C2 2 CaBe2Ge2 P4/nmm A 4.162 9.817 K 1.58 1.7 1.64 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155264 SSC0520797 "ANN(1000C,4d)" ThRu2Si2 Th1Ru2Si2 Th 1 Ru 2 Si 2 1 1984 AB2C2 2 ThCr2Si2 I4/mmm A 4.188 9.736 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155265 SSC0520797 as-cast ThRh2Si2 Th1Rh2Si2 Th 1 Rh 2 Si 2 1 1984 AB2C2 2 ThCr2Si2 I4/mmm A 4.089 10.018 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155266 SSC0520797 "ANN(1000C,4d)" ThPd2Si2 Th1Pd2Si2 Th 1 Pd 2 Si 2 1 1984 AB2C2 2 ThCr2Si2 I4/mmm A 4.187 9.92 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155267 SSC0520797 "ANN(1000C,4d)" ThOs2Si2 Th1Os2Si2 Th 1 Os 2 Si 2 1 1984 AB2C2 2 ThCr2Si2 I4/mmm A 4.189 9.798 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155268 SSC0520797 "ANN(1300C,2d) (1000C,2d) (700C,4d)" ThIr2Si2 Th1Ir2Si2 Th 1 Ir 2 Si 2 1 1984 AB2C2 2 CaBe2Ge2 P4/nmm A 4.15 9.887 K 2.16 2.27 2.215 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155269 SSC0520797 as-cast ThPt2Si2 Th1Pt2Si2 Th 1 Pt 2 Si 2 1 1984 AB2C2 2 CaBe2Ge2 P4/nmm A 4.238 9.713 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155270 SSC0520797 as-cast URh2Si2 U1Rh2Si2 U 1 Rh 2 Si 2 1 1984 AB2C2 2 ThCr2Si2 I4/mmm A 3.994 9.993 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155271 SSC0520797 as-cast UIr2Si2 U1Ir2Si2 U 1 Ir 2 Si 2 1 1984 AB2C2 2 CaBe2Ge2 P4/nmm A 4.088 9.938 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155272 SSC0520797 "ANN(1250C,2d)" ThRu2Ge2 Th1Ru2Ge2 Th 1 Ru 2 Ge 2 1 1984 AB2C2 2 ThCr2Si2 I4/mmm A 4.264 9.942 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155273 SSC0520797 "ANN(100C,4d) (700C,7d)" ThRh2Ge2 Th1Rh2Ge2 Th 1 Rh 2 Ge 2 1 1984 AB2C2 2 ThCr2Si2 I4/mmm A 4.23 10.042 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155274 SSC0520797 "ANN(1000C,4d)" ThPd2Ge2 Th1Pd2Ge2 Th 1 Pd 2 Ge 2 1 1984 AB2C2 2 ThCr2Si2 I4/mmm A 4.295 10.104 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155275 SSC0520797 "ANN(1300C,2d) (1000C,7d) (700C,9d)" ThOs2Ge2 Th1Os2Ge2 Th 1 Os 2 Ge 2 1 1984 AB2C2 2 ThCr2Si2 I4/mmm A 4.266 9.954 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155276 SSC0520797 "ANN(1000C,4d) (700C,9d)" ThIr2Ge2 Th1Ir2Ge2 Th 1 Ir 2 Ge 2 1 1984 AB2C2 2 CaBe2Ge2 P4/nmm A 4.222 10.087 K 1.46 1.56 1.51 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155277 SSC0520797 as-cast ThPt2Ge2 Th1Pt2Ge2 Th 1 Pt 2 Ge 2 1 1984 AB2C2 2 CaBe2Ge2 P4/nmm A 4.342 9.803 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155278 SSC0520797 as-cast URh2Ge2 U1Rh2Ge2 U 1 Rh 2 Ge 2 1 1984 AB2C2 2 ThCr2Si2 I4/mmm A 4.141 9.696 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155279 SSC0520797 as-cast UIr2Ge2 U1Ir2Ge2 U 1 Ir 2 Ge 2 1 1984 AB2C2 2 CaBe2Ge2 P4/nmm A 4.165 9.833 K 1.1 "T(3N),Si(7N5),Ge(6N5)" "arc melting - ANN using Zr, Mo, Ta foil" Superconductivity and rerative phase stability in 1:2:2 ternary transition metal silisides and germanides 1984 "Departement de Physique de la Matiere Condensee, Unversite de Geneve" "Solid State Commun., 52(1984)797"
155280 PHB1690687 "(Pb,Sn,In)Te" Pb0.19Sn0.76In0.05Te1 Pb 0.19 Sn 0.76 In 0.05 Te 1 1 1991 AB NaCl K 2.76 2.76 MTC155280 "Metalloceramic method. ANN(650C,100h)" Superconducting Properties of the SnTe-PbTe System Doped with Indium 1991 "A.F.Ioffe Physical-Technical Institute, USSR Academy of Sciences, Leningrad, USSR" "Physica B, 169(1991)687"
155281 PHB1690687 "(Pb,Sn,In)Te" Pb0.18Sn0.74In0.08Te1 Pb 0.18 Sn 0.74 In 0.08 Te 1 1 1991 AB NaCl K 2.85 2.85 MTC155284 "Metalloceramic method. ANN(650C,100h)" Superconducting Properties of the SnTe-PbTe System Doped with Indium 1991 "A.F.Ioffe Physical-Technical Institute, USSR Academy of Sciences, Leningrad, USSR" "Physica B, 169(1991)687"
155282 PHB1690687 "(Pb,Sn,In)Te" Pb0.35Sn0.53In0.12Te1 Pb 0.35 Sn 0.53 In 0.12 Te 1 1 1991 AB NaCl K 3.5 3.5 MTC155284 "Metalloceramic method. ANN(650C,100h)" Superconducting Properties of the SnTe-PbTe System Doped with Indium 1991 "A.F.Ioffe Physical-Technical Institute, USSR Academy of Sciences, Leningrad, USSR" "Physica B, 169(1991)687"
155283 PHB1690687 "(Pb,Sn,In)Te" Pb0.43Sn0.43In0.16Te1 Pb 0.43 Sn 0.43 In 0.16 Te 1 1 1991 AB NaCl K 4.17 4.17 MTC155280 "Metalloceramic method. ANN(650C,100h)" Superconducting Properties of the SnTe-PbTe System Doped with Indium 1991 "A.F.Ioffe Physical-Technical Institute, USSR Academy of Sciences, Leningrad, USSR" "Physica B, 169(1991)687"
155284 PHB1690687 "(Pb,Sn,In)Te" Pb0.4Sn0.4In0.2Te1 Pb 0.4 Sn 0.4 In 0.2 Te 1 1 1991 AB NaCl K 4.24 4.24 MTC155284 "Metalloceramic method. ANN(650C,100h)" Superconducting Properties of the SnTe-PbTe System Doped with Indium 1991 "A.F.Ioffe Physical-Technical Institute, USSR Academy of Sciences, Leningrad, USSR" "Physica B, 169(1991)687"
155300 MAT1412.0460 P-induced SC. P and T cycle: (P=100 GPa) - (cool to 4 K) - warm to 100-150 K and apply next P) - (cool to 4K). Tc increases with increasind P from 60 K phase (P<160 GPa) H2S H2S1 H 2 S 1 2014 K 60 60 MTC155300 T RES(R-on) 25 MHC155301 Conventional superconductivity at 190 K at high pressures 2014 "Max-Planck Institut fur Chemie, Chemistry and Physics at High Pressures Group, Postfach 3060, 55020 Mainz, Germany" cond-mat/1412.0460
155301 MAT1412.0460 P-induced SC. P and T cycle: (P applied at 220-300 K.) - (cool to 4K.). Two phases appears: Tc=190 K and 30 K. 30 K-phase is unstable. H2S H2S1 H 2 S 1 2014 K 185 185 MTC155301 T RES(R-on) 70 MHC155301 Conventional superconductivity at 190 K at high pressures 2014 "Max-Planck Institut fur Chemie, Chemistry and Physics at High Pressures Group, Postfach 3060, 55020 Mainz, Germany" cond-mat/1412.0460
155302 MAT1412.0460 P-induced SC. P and T cycle: (P=100 GPa) - (cool to 4 K) - warm to 100-150 K and apply next P) - (cool to 4K) D2S D2S1 D 2 S 1 2014 K 30 30 MTC155302 Conventional superconductivity at 190 K at high pressures 2014 "Max-Planck Institut fur Chemie, Chemistry and Physics at High Pressures Group, Postfach 3060, 55020 Mainz, Germany" cond-mat/1412.0460
155303 ACS1342516 nominal compositions (LaN:Ni:B = 0.9:1:1) (LaN)2(Ni2B2) La1Ni1B1N1 La 1 Ni 1 B 1 N 1 1 2012 ABCD LuNiBC P4/nmm A 3.7266 7.5759 K 3.69 3.92 4.43 3.82 3.92 "high-pressure synthesis. (1200C, 0.5h, P=5 GPa)" Superconductivity in LaTMBN and La3TM2B2N3 (TM = Transition Metal) Synthesized under High Pressure 2012 "Frontier Research Center, and Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 134(2012)2516"
155304 ACS1342516 nominal compositions (RN:Ni:B = 0.9:1:1) (LaN)2(Ru2B2) La1Ru1B1N1 La 1 Ru 1 B 1 N 1 1 2012 ABCD LuNiBC P4/nmm A 3.7646 7.9514 K 1.8 "high-pressure synthesis. (1200C, 1h, P=2 GPa)" Superconductivity in LaTMBN and La3TM2B2N3 (TM = Transition Metal) Synthesized under High Pressure 2012 "Frontier Research Center, and Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 134(2012)2516"
155305 ACS1342516 nominal compositions (RN:Ni:B = 0.9:1:1) (LaN)2(Rh2B2) La1Rh1B1N1 La 1 Rh 1 B 1 N 1 1 2012 ABCD LuNiBC P4/nmm A 3.867 7.489 K 1.8 "high-pressure synthesis. (1400C, 1h, P=5 GPa)" Superconductivity in LaTMBN and La3TM2B2N3 (TM = Transition Metal) Synthesized under High Pressure 2012 "Frontier Research Center, and Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 134(2012)2516"
155306 ACS1342516 nominal compositions (RN:Ni:B = 0.9:1:1) (LaN)2(Ir2B2) La1Ir1B1N1 La 1 Ir 1 B 1 N 1 1 2012 ABCD LuNiBC P4/nmm A 3.8458 7.639 K 1.8 "high-pressure synthesis. (1400C, 1h, P=5 GPa)" Superconductivity in LaTMBN and La3TM2B2N3 (TM = Transition Metal) Synthesized under High Pressure 2012 "Frontier Research Center, and Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 134(2012)2516"
155307 ACS1342516 nominal compositions (RN:Ni:B = 0.9:1:1) (LaN)2(Pt2B2) La1Pt1B1N1 La 1 Pt 1 B 1 N 1 1 2012 ABCD LuNiBC P4/nmm A 3.824 7.8649 K 6.54 6.7 7.58 6.97 6.7 "high-pressure synthesis. (1400C, 1h, P=5 GPa)" Superconductivity in LaTMBN and La3TM2B2N3 (TM = Transition Metal) Synthesized under High Pressure 2012 "Frontier Research Center, and Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 134(2012)2516"
155308 ACS1342516 (LaN)3(Co2B2) La3Co2B2N3 La 3 Co 2 B 2 N 3 1 2012 A2B2C3D3 La3Ni2B2N3 I4/mmm A 3.7152 20.399 K 1.8 "high-pressure synthesis. (1400C, 2h, P=5 GPa)" Superconductivity in LaTMBN and La3TM2B2N3 (TM = Transition Metal) Synthesized under High Pressure 2012 "Frontier Research Center, and Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 134(2012)2516"
155309 ACS1342516 (LaN)3(Ni2B2) La3Ni2B2N3 La 3 Ni 2 B 2 N 3 1 2012 A2B2C3D3 La3Ni2B2N3 I4/mmm A 3.7123 20.538 K 14.9 14.9 "high-pressure synthesis. (1400C, 2h, P=5 GPa)" Superconductivity in LaTMBN and La3TM2B2N3 (TM = Transition Metal) Synthesized under High Pressure 2012 "Frontier Research Center, and Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 134(2012)2516"
155310 ACS1342516 nominal compositions (LaN:Ru:B = 3.3:1.9:1) (LaN)3(Ru2B2) La3Ru2B2N3 La 3 Ru 2 B 2 N 3 1 2012 A2B2C3D3 La3Ni2B2N3 I4/mmm A 3.7454 21.222 K 1.8 "high-pressure synthesis. (1600C, 1h, P=2 GPa)" Superconductivity in LaTMBN and La3TM2B2N3 (TM = Transition Metal) Synthesized under High Pressure 2012 "Frontier Research Center, and Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 134(2012)2516"
155311 ACS1342516 (CaN)2(Ni2B2) Ca1Ni1B1N1 Ca 1 Ni 1 B 1 N 1 1 2012 ABCD LuNiBC P4/nmm A 3.5359 7.6394 K 2.08 2.12 2.08 "nominal mixture(Ca3N2,Ni,B,BN) - pellet - high pressure synthesis" Superconductivity in LaTMBN and La3TM2B2N3 (TM = Transition Metal) Synthesized under High Pressure 2012 "Frontier Research Center, and Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 134(2012)2516"
155312 ACS1355372 Bi3O2S3 Bi3S3O2 Bi 3 S 3 O 2 2013 A 41.4 Bi-O-S system K 4.5 4.5 Stacking Variants and Superconductivity in the Bi-O-S System 2013 "Department of Chemistry, Department of Physics and Astronomy, Institute for Quantum Matter, and Department of Earth andPlanetary Sciences, Johns Hopkins University, Baltimore, Maryland 21218, United State" "J.Am.Chem.Soc., 135(2013)5372"
155313 ACS1355372 Bi2OS2 Bi2S2O1 Bi 2 S 2 O 1 2013 A 4 13.8 Bi-O-S system K 2 Stacking Variants and Superconductivity in the Bi-O-S System 2013 "Department of Chemistry, Department of Physics and Astronomy, Institute for Quantum Matter, and Department of Earth andPlanetary Sciences, Johns Hopkins University, Baltimore, Maryland 21218, United State" "J.Am.Chem.Soc., 135(2013)5372"
155314 ACS1355372 sample sypws nominal composisions. Bi2OS2 intercalated in Bi3O2S3. Tc decreases with increasing Bi2OS2 intercalant. Bi12O18S11 Bi12S11O18 Bi 12 S 11 O 18 2013 Bi-O-S system K 4 4 Stacking Variants and Superconductivity in the Bi-O-S System 2013 "Department of Chemistry, Department of Physics and Astronomy, Institute for Quantum Matter, and Department of Earth andPlanetary Sciences, Johns Hopkins University, Baltimore, Maryland 21218, United State" "J.Am.Chem.Soc., 135(2013)5372"
155315 ACS13420001 R(T)-exponent = 0.03. (dC/gamma*Tc) = 3.0) Ir0.94-xRhxSe2 Ir0.94Se2 Ir 0.94 Se 2 2012 AB2 1 Pa3[-] 205 A 5.9824 K 6.24 6.24 mJ/mol.K2 6.41 SP 253 SP "Ir,Rh,Se-powder" "mixture - (h-BN capsule) - heat(1773K, 3h, P=5 GPa)" Tc Maximum in Solid Solution of Pyrite IrSe2-RhSe2 Induced by Destabilization of Anion Dimers 2012 "Frontier Research Center, and Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 134(2012)20001"
155316 ACS13420001 R(T)-exponent = 0.21. (dC/gamma*Tc) = 3.25) Ir0.94-xRhxSe2 Ir0.85Rh0.09Se2 Ir 0.85 Rh 0.09 Se 2 2012 AB2 1 Pa3[-] 205 A 5.9875 K 7.61 7.61 250 SP "Ir,Rh,Se-powder" "mixture - (h-BN capsule) - heat(1773K, 3h, P=5 GPa)" Tc Maximum in Solid Solution of Pyrite IrSe2-RhSe2 Induced by Destabilization of Anion Dimers 2012 "Frontier Research Center, and Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 134(2012)20001"
155317 ACS13420001 R(T)-exponent = 0.37. Ir0.94-xRhxSe2 Ir0.82Rh0.12Se2 Ir 0.82 Rh 0.12 Se 2 2012 AB2 1 Pa3[-] 205 A K 7.96 7.96 "Ir,Rh,Se-powder" "mixture - (h-BN capsule) - heat(1773K, 3h, P=5 GPa)" Tc Maximum in Solid Solution of Pyrite IrSe2-RhSe2 Induced by Destabilization of Anion Dimers 2012 "Frontier Research Center, and Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 134(2012)20001"
155318 ACS13420001 R(T)-exponent = 0.55. Ir0.94-xRhxSe2 Ir0.76Rh0.18Se2 Ir 0.76 Rh 0.18 Se 2 2012 AB2 1 Pa3[-] 205 A 5.9947 K 8.09 8.09 "Ir,Rh,Se-powder" "mixture - (h-BN capsule) - heat(1773K, 3h, P=5 GPa)" Tc Maximum in Solid Solution of Pyrite IrSe2-RhSe2 Induced by Destabilization of Anion Dimers 2012 "Frontier Research Center, and Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 134(2012)20001"
155319 ACS13420001 R(T)-exponent = 0.75. (dC/gamma*Tc) = 3.29) Ir0.94-xRhxSe2 Ir0.64Rh0.3Se2 Ir 0.64 Rh 0.3 Se 2 2012 AB2 1 Pa3[-] 205 A 6.0001 K 8.77 8.77 250 SP "Ir,Rh,Se-powder" "mixture - (h-BN capsule) - heat(1773K, 3h, P=5 GPa)" Tc Maximum in Solid Solution of Pyrite IrSe2-RhSe2 Induced by Destabilization of Anion Dimers 2012 "Frontier Research Center, and Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 134(2012)20001"
155320 ACS13420001 R(T)-exponent = 1.10. (dC/gamma*Tc) = 3.55). Hc2(0) = 24.5 T from GL approx. Ir0.94-xRhxSe2 Ir0.58Rh0.36Se2 Ir 0.58 Rh 0.36 Se 2 2012 AB2 1 Pa3[-] 205 A 6.005 K 9.6 9.6 MTC155320 Oe "M-H curve, linear approx." 200 T "R(on), WHH" 28.5 MHC155320 5.95 14 mJ/mol.K2 8.02 SP 242 SP "Ir,Rh,Se-powder" "mixture - (h-BN capsule) - heat(1773K, 3h, P=5 GPa)" Tc Maximum in Solid Solution of Pyrite IrSe2-RhSe2 Induced by Destabilization of Anion Dimers 2012 "Frontier Research Center, and Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 134(2012)20001"
155321 ACS13420001 R(T)-exponent = 1.08. (dC/gamma*Tc) = 3.24) Ir0.94-xRhxSe2 Ir0.44Rh0.5Se2 Ir 0.44 Rh 0.5 Se 2 2012 AB2 1 Pa3[-] 205 A 6.0068 K 9.24 9.24 247 SP "Ir,Rh,Se-powder" "mixture - (h-BN capsule) - heat(1773K, 3h, P=5 GPa)" Tc Maximum in Solid Solution of Pyrite IrSe2-RhSe2 Induced by Destabilization of Anion Dimers 2012 "Frontier Research Center, and Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 134(2012)20001"
155322 ACS13420001 R(T)-exponent = 1.27. (dC/gamma*Tc) = 3.14) Ir0.94-xRhxSe2 Ir0.37Rh0.57Se2 Ir 0.37 Rh 0.57 Se 2 2012 AB2 1 Pa3[-] 205 A 6.0077 K 9.09 9.09 251 SP "Ir,Rh,Se-powder" "mixture - (h-BN capsule) - heat(1773K, 3h, P=5 GPa)" Tc Maximum in Solid Solution of Pyrite IrSe2-RhSe2 Induced by Destabilization of Anion Dimers 2012 "Frontier Research Center, and Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 134(2012)20001"
155323 ACS13420001 R(T)-exponent = 1.39. Ir0.94-xRhxSe2 Ir0.3Rh0.64Se2 Ir 0.3 Rh 0.64 Se 2 2012 AB2 1 Pa3[-] 205 A 6.0097 K 8.39 8.39 "Ir,Rh,Se-powder" "mixture - (h-BN capsule) - heat(1773K, 3h, P=5 GPa)" Tc Maximum in Solid Solution of Pyrite IrSe2-RhSe2 Induced by Destabilization of Anion Dimers 2012 "Frontier Research Center, and Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 134(2012)20001"
155324 ACS13420001 R(T)-exponent = 1.56. (dC/gamma*Tc) = 3.06) Ir0.94-xRhxSe2 Ir0.19Rh0.75Se2 Ir 0.19 Rh 0.75 Se 2 2012 AB2 1 Pa3[-] 205 A 6.0084 K 7.49 7.49 276 SP "Ir,Rh,Se-powder" "mixture - (h-BN capsule) - heat(1773K, 3h, P=5 GPa)" Tc Maximum in Solid Solution of Pyrite IrSe2-RhSe2 Induced by Destabilization of Anion Dimers 2012 "Frontier Research Center, and Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 134(2012)20001"
155325 ACS13420001 R(T)-exponent = 2.10. (dC/gamma*Tc) = 2.80) Ir0.94-xRhxSe2 Rh0.94Se2 Rh 0.94 Se 2 2012 AB2 1 Pa3[-] 205 A 6.0093 K 5.19 5.19 mJ/mol.K2 3.57 SP 293 SP "Ir,Rh,Se-powder" "mixture - (h-BN capsule) - heat(1773K, 3h, P=5 GPa)" Tc Maximum in Solid Solution of Pyrite IrSe2-RhSe2 Induced by Destabilization of Anion Dimers 2012 "Frontier Research Center, and Materials and Structures Laboratory, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "J.Am.Chem.Soc., 134(2012)20001"
155326 ACS13412893 "Annealed ( 773K,40h, in vac) sample. impurity phases: BaFe2As2,Fe2As, BaTi2As2O. R(T) anomaly at 125 K, corresponding to CDW/SDW order." Ba2Ti2Fe2As4O Ba2Ti2Fe2As4O1 Ba 2 Ti 2 Fe 2 As 4 O 1 2012 2 I4/mmm A 4.0276 27.3441 intergrowth of BaFe2As2 and BaTi2As2O K 16 21.5 18.75 23 mOhm.cm 0.834 21.5 1.415 "Ba,Ti,Fe,As,TiO2" "mixture - alumina tube - sealed in quartz ampule - heat(1173K,24h) - reground - SIN(1373K,40h) - FC to RT" Ba2Ti2Fe2As4O: A New Superconductor Containing Fe2As2 Layers and Ti2O Sheets 2012 "Department of Physics, State Key Lab of Silicon Materials, and Center of Electron Microscope, Zhejiang University, Hangzhou 310027, China" "J.Am.Chem.Soc., 134(2012)12893"
155327 ACS1361284 RRR = 26. (dC/Tc) = 54 mJ/mol.K2. (dC/gamma*Tc) = 1.4. e-ph = 0.77. lattice term in SP (beta) = 11.11 mJ/mol.K4. DOS = 18.1 /ev.fu. Ta4Pd3Te16 Ta4Pd3Te16 Ta 4 Pd 3 Te 16 3 2014 S3B4C16 4 I2/m A 17.687 3.735 19.51 beta=110.42. structural data at 111 K from A. Mar et al K 4.11 4.46 4.62 4.6 4.46 90 MSP155327 mJ/mol.K2 42.8 SP 159 SP uOhm.m 2.34 6 61 "Ta(3N7),Pd(4N5),Te(4N)" self flux method. mixture(Ta:Pd:Te = 2:3:15) - sealed in quartz ampule - heat to 1223 K - hold(24h) - cool to 923 K(5K/h) - cool to RT Superconductivity in a Layered Ta4Pd3Te16 with PdTe2 Chains 2014 "Department of Physics, State Key Lab of Silicon Materials and Center of Electron Microscope, Zhejiang University, Hangzhou 310027, China" "J.Am.Chem.Soc., 136(2014)1284"
155328 ACS13615386 Pauli limit = 2.76 T. Hc2(0) = 0.59 T for R(0.9Rn) definition and GL fitting. lattice term in SP (beta) = 3.00 mJ/mol.K4. DOS = 65 /eV.fu. Eu3Bi2S4F4 Eu3Bi2S4F4 Eu 3 Bi 2 S 4 F 4 1 2014 myu-B/Eu 7.28 2.3 6.6413 A2B3C4D4 2 I4/mmm 139 A 4.077 32.433 Eu-3244 K 1.4 1.4 T "R(onset), GL fitting" 2.34 mJ/mol.K2 159 SP 203 SP "EuS,EuF2(3N),Bi2S3(5N)" "solid state reaction. mixture - sealed in evacuatedd quartz ampule - SIN(1123K, 35h)" Anomalous Eu Valence State and Superconductivity in Undoped Eu3Bi2S4F4 2014 "Department of Physics, State Key Lab of Silicon Materials and Center of Electron Microscope, Zhejiang University, Hangzhou 310027, China" "J.Am.Chem.Soc., 136(2014)15386"
155329 APL103142601 As-prepared sample. compositions: Ca:Fe:As:F:H:O = 1.00:1.00:0.95:0.73:0.24:0.07. not SC. R(T) anomaly around 100K. "CaFeAs(F,H)" Ca1Fe1As1F0.8H0.2 Ca 1 Fe 1 As 1 F 0.8 H 0.2 2013 ABCD 2 oxypnictide ZrCuSiAs-type. Fe-1111 K 2 "CaAs,Fe2As,CaH2" "mixture - in BN capsule - added LiAlH4 for supplementary H source - heat(1273 K, 1h, P=2GPa)" Superconductivity in 1111-type CaFeAsF1-xHx induced by selective hydrogen elimination 2013 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259-S2-13 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Appl.Phys.Lett., 103(2013)142601"
155330 APL103142601 "As-annealed (553K,72h,in He-flow) sample. compositions: Ca:Fe:As:F:H:O = 0.99:1.00:0.96:0.69:0.03:0.06. Annealing results in the formation of F vacancy." "CaFeAs(F,H)" Ca1Fe1As1F0.8H0.2 Ca 1 Fe 1 As 1 F 0.8 H 0.2 2013 ABCD 2 oxypnictide A 3.896 8.669 ZrCuSiAs-type. Fe-1111 K 29 29 31 "CaAs,Fe2As,CaH2" "mixture - in BN capsule - added LiAlH4 for supplementary H source - heat(1273 K, 1h, P=2GPa)" Superconductivity in 1111-type CaFeAsF1-xHx induced by selective hydrogen elimination 2013 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259-S2-13 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Appl.Phys.Lett., 103(2013)142601"
155331 APE007073102 x = 0.15(in Ca1-xRxFeAs2) is the best for SC. La-content = 25 % (x=0.25) by EDX. "(Ca,La)FeAs2" Ca0.85La0.15Fe1As2 Ca 0.85 La 0.15 Fe 1 As 2 3 2014 ABC2 Fe-112 P2<1>/m Fe-112 type. K 16.2 22.7 16.2 "FeAs(3N),RAs(3N),Ca(2N),As(4N)" "Powder mixture - pelletize - react(1000C,1h, P=2 GPa, in BN crucible)" Synthesis and physical properties of Ca1-xRExFeAs2 with RE = La-Gd 2014 "Department of Applied Chemistry, The University of Tokyo, Bunkyo, Tokyo 113-8656, Japan" "Appl.Phys.Exp., 7(2014)073102"
155332 APE007073102 x = 0.15(in Ca1-xRxFeAs2) is the best for SC. Ce-content = 26 % (x=0.26) by EDX. "(Ca,Ce)FeAs2" Ca0.85Ce0.15Fe1As2 Ca 0.85 Ce 0.15 Fe 1 As 2 3 2014 ABC2 Fe-112 P2<1>/m Fe-112 type. K "FeAs(3N),RAs(3N),Ca(2N),As(4N)" "Powder mixture - pelletize - react(1000C,1h, P=2 GPa, in BN crucible)" Synthesis and physical properties of Ca1-xRExFeAs2 with RE = La-Gd 2014 "Department of Applied Chemistry, The University of Tokyo, Bunkyo, Tokyo 113-8656, Japan" "Appl.Phys.Exp., 7(2014)073102"
155333 APE007073102 x = 0.15(in Ca1-xRxFeAs2) is the best for SC. Pr-content not given "(Ca,Pr)FeAs2" Ca0.85Pr0.15Fe1As2 Ca 0.85 Pr 0.15 Fe 1 As 2 3 2014 ABC2 Fe-112 P2<1>/m Fe-112 type. K 21 24.6 24.5 21 "FeAs(3N),RAs(3N),Ca(2N),As(4N)" "Powder mixture - pelletize - react(1000C,1h, P=2 GPa, in BN crucible)" Synthesis and physical properties of Ca1-xRExFeAs2 with RE = La-Gd 2014 "Department of Applied Chemistry, The University of Tokyo, Bunkyo, Tokyo 113-8656, Japan" "Appl.Phys.Exp., 7(2014)073102"
155334 APE007073102 x = 0.15(in Ca1-xRxFeAs2) is the best for SC. Nd-content = 23 % (x=0.23) by EDX. "(Ca,Nd)FeAs2" Ca0.85Nd0.15Fe1As2 Ca 0.85 Nd 0.15 Fe 1 As 2 3 2014 ABC2 Fe-112 P2<1>/m Fe-112 type. K 14 17.9 2 14 "FeAs(3N),RAs(3N),Ca(2N),As(4N)" "Powder mixture - pelletize - react(1000C,1h, P=2 GPa, in BN crucible)" Synthesis and physical properties of Ca1-xRExFeAs2 with RE = La-Gd 2014 "Department of Applied Chemistry, The University of Tokyo, Bunkyo, Tokyo 113-8656, Japan" "Appl.Phys.Exp., 7(2014)073102"
155335 APE007073102 x = 0.15(in Ca1-xRxFeAs2) is the best for SC. Sm-content = 11 % (x=0.11) by EDX. "(Ca,Sm)FeAs2" Ca0.85Sm0.15Fe1As2 Ca 0.85 Sm 0.15 Fe 1 As 2 1 2014 ABC2 Fe-112 P2<1>/m Fe-112 type. K 17.6 23.2 13.2 17.6 "FeAs(3N),RAs(3N),Ca(2N),As(4N)" "Powder mixture - pelletize - react(1000C,1h, P=2 GPa, in BN crucible)" Synthesis and physical properties of Ca1-xRExFeAs2 with RE = La-Gd 2014 "Department of Applied Chemistry, The University of Tokyo, Bunkyo, Tokyo 113-8656, Japan" "Appl.Phys.Exp., 7(2014)073102"
155336 APE007073102 x = 0.15(in Ca1-xRxFeAs2) is the best for SC. Eu-content = 17 % (x=0.17) by EDX. "(Ca,Eu)FeAs2" Ca0.85Eu0.15Fe1As2 Ca 0.85 Eu 0.15 Fe 1 As 2 3 2014 ABC2 Fe-112 P2<1>/m Fe-112 type. K 12.2 13.2 11.9 12.2 "FeAs(3N),RAs(3N),Ca(2N),As(4N)" "Powder mixture - pelletize - react(1000C,1h, P=2 GPa, in BN crucible)" Synthesis and physical properties of Ca1-xRExFeAs2 with RE = La-Gd 2014 "Department of Applied Chemistry, The University of Tokyo, Bunkyo, Tokyo 113-8656, Japan" "Appl.Phys.Exp., 7(2014)073102"
155337 APE007073102 x = 0.15(in Ca1-xRxFeAs2) is the best for SC. Gd-content not measured by EDX "(Ca,Gd)FeAs2" Ca0.85Gd0.15Fe1As2 Ca 0.85 Gd 0.15 Fe 1 As 2 1 2014 ABC2 Fe-112 P2<1>/m Fe-112 type. K 19.5 22.8 11.6 19.5 "FeAs(3N),RAs(3N),Ca(2N),As(4N)" "Powder mixture - pelletize - react(1000C,1h, P=2 GPa, in BN crucible)" Synthesis and physical properties of Ca1-xRExFeAs2 with RE = La-Gd 2014 "Department of Applied Chemistry, The University of Tokyo, Bunkyo, Tokyo 113-8656, Japan" "Appl.Phys.Exp., 7(2014)073102"
155338 CEM1960579 (dC/gamma*Tc) = 1.1. e-ph = 1.09. GL parameter = 25. delta-MoC0.681 C0.681Mo1 C 0.681 Mo 1 2012 8.907 AB 1 Fm-3m 225 A 4.26647 K 12 12 12 Oe M-H curve 310 T "SP, WHH" 11.2 T/K SP 1.45 MHC155338 A from Hc2 52.2 A from Hc1 1320 2.95 14 mJ/mol.K2 5 SP "Mo(4N),C" "powder mixture - (flat belt-type high P apparatus) - heat(2000C,10-30 min, P=6 GPa) - Q to RT" Superconducting and structural properties of delta-MoC0.681 cubic molybdenum carbide phase 2012 "Graduate School of Chemical Science sand Engineering, Hokkaido University, Sapporo, Hokkaido0 60-0810, Japan" "J.Solid State Chem., 196(2012)579"
155339 CEM2190168 target material = La(O0.5F0.5)BiSe2. resultant = La(O0.82F0.18)BiSe2 by EDX. "La(O,F)BiSe2" La1Bi1Se2F0.5O0.5 La 1 Bi 1 Se 2 F 0.5 O 0.5 3 2014 ABCD2 CeOBiS2 P4/nmm 192 A 4.1408 14.1096 K 3.2 3.48 3.6 3.6 3.48 mOhm.cm 0.136 3.6 "La(3N),Bi2O3,Se,BiF3,Bi,Bi2Se3" "CsCl-flux method. mixture(La:Bi2O3:BiF3:Bi:Bi2Se3:Se = 6:1:1:1:1:3) - sealed in quartz tube - heat(880C,10h) heat(900C,10h) - cool to 650C(1C/h) - FC to RT" "First single crystal growth and structural analysis of superconducting layered bismuth oxyselenide; La(O,F)BiSe2" 2014 "National Institute for Materials Science, 1-2-1Sengen, Tsukuba, Ibaraki 305-0047, Japan" "J.Solid State Chem., 219(2014)168"
155340 CHM0262155 molar volume: SrAuSi3:SrAu2Si2 = 0.823:0.177. VOLS nearly equal to volume of SrAuSi3. (dC/gamma*Tc)=1.92. (dC/Tc) = 11.6 mJ/mol.K2.GL = 11. C(T) has a kink at 1.3K. Hc(0) = 0.014T. SrAuSi3 Sr1Au1Si3 Sr 1 Au 1 Si 3 2014 6.3346 ABC3 BaNiSn3 I4mm 107 A 4.409 9.9475 K 1.61 1.65 1.74 1.6 1.65 75 T "R(mid), Linear approx." 0.22 MHC155340 A from Hc2 390 A 4400 MSP155340 mJ/mol.K2 6 SP 410 SP mOhm.cm 0.1 2 "SrSi(3N),Au(4N),Si(4N)" "mixture - pellet - high-P(h-BN) - heat(1500C,1h, P= 6 GPa) - Q to RT" SrAuSi3: A Noncentrosymmetric Superconductor 2014 "Superconducting Properties Unit, National Institute for Materials Science (NIMS), 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Chem.Materials, 26(2014)2155"
155341 CHM0231558 K-intercalated. K0.08ZrNCl K0.08Zr1N1Cl1 K 0.08 Zr 1 N 1 Cl 1 2011 P3[-]m 164 A K 13 13 Preparation and Superconductivity of New Stage and Polytypic Phases in Potassium-Intercalated Zirconium Nitride Chloride(KxZrNCl) 2011 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "Chem.Materials, 23(2011)1558"
155342 CHM0231558 "M = THF. M-content not given. co-intercalated (K, and M) sample" K0.08(THF)yZrNCl K0.08M1Zr1N1Cl1 K 0.08 M 1 Zr 1 N 1 Cl 1 2011 P3[-]m 164 A 3.6143 13.1449 K 15 15 Preparation and Superconductivity of New Stage and Polytypic Phases in Potassium-Intercalated Zirconium Nitride Chloride(KxZrNCl) 2011 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "Chem.Materials, 23(2011)1558"
155343 CHM0231558 K-intercalated. K0.26ZrNCl K0.26Zr1N1Cl1 K 0.26 Zr 1 N 1 Cl 1 2011 P3[-]m 164 A 3.6295 10.965 K 11.5 11.5 Preparation and Superconductivity of New Stage and Polytypic Phases in Potassium-Intercalated Zirconium Nitride Chloride(KxZrNCl) 2011 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "Chem.Materials, 23(2011)1558"
155344 CHM0231558 "M = PC (propylene carbonate). M-content not given. co-intercalated (K, and M) sample" K0.26(PC)ZrNCl K0.26M1Zr1N1Cl1 K 0.26 M 1 Zr 1 N 1 Cl 1 2011 P3[-]m 164 A 3.625 21.83 K 11.5 11.5 Preparation and Superconductivity of New Stage and Polytypic Phases in Potassium-Intercalated Zirconium Nitride Chloride(KxZrNCl) 2011 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "Chem.Materials, 23(2011)1558"
155345 EPL09927002 compositions: Nb:Si:As = 32.7:34.4:32.9 by EPMA. Tc = 7.6 K defined as (dC/2). (dC/gamma*Tc) = 1.95. lattice term in SP (beta) = 0.178 mJ/mol.K4. e-ph = 0.66. NbSiAs Nb1Si1As1 Nb 1 Si 1 As 1 1 2012 ABC PbFCl P4/nmm 129 A 3.4914 7.9005 K 8.2 8.2 40 T M-H curve 0.88 2 mJ/mol.K2 8.8 SP 324 SP "Nb(4N),Si(5N),As(4N)" "mixture - sealed in silica tube - heat(1023K, 277h)-reground - heat again" Superconductivity in a PbFCl-type pnictide: NbSiAs 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology - 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Europhys.Lett., 99(2012)27002"
155346 EPL10417003 SC from impurity phases. RRR = 4.6. DOS = 15.03 states/eV.fu LaRu2B2 La1Ru2B2 La 1 Ru 2 B 2 1 2013 AB2C2 F222 A 6.4401 9.2222 10.1574 K 1.8 mJ/mol.K2 6.8 SP 343 SP arc-melting "Superconductivity and physical properties of strongly electron correlated compounds LanRu3n-1B2n (n = 1, 2, and 3)" 2013 "Frontier Research Center, Tokyo Institute of Technology - Yokohama 226-8503, Japan" "Europhys.Lett., 104(2013)17003"
155347 EPL10417003 SC from impurity phases. RRR = 7.1. DOS = 35.26 states/eV.fu La2Ru5B4 La2Ru5B4 La 2 Ru 5 B 4 1 2013 A2B4C5 Fmmm A 5.6259 9.7464 11.562 K 1.8 mJ/mol.K2 6.9 SP 369 SP arc-melting "Superconductivity and physical properties of strongly electron correlated compounds LanRu3n-1B2n (n = 1, 2, and 3)" 2013 "Frontier Research Center, Tokyo Institute of Technology - Yokohama 226-8503, Japan" "Europhys.Lett., 104(2013)17003"
155348 EPL10417003 "RRR = 1.8. DOS = 68.49 states/eV.fu. Tc = 3.21 K from SP. GL = 17.8. Hc(0) = 852 Oe, (dC/gamma*Tc) = 0.89. e-ph = 0.56 Hp = 6.1 T." La3Ru8B6 La3Ru8B6 La 3 Ru 8 B 6 1 2013 A3B6C8 Fmmm A 5.5678 9.8106 17.5181 K 3.31 3.15 0.37 3.15 100 Oe M-H curve 100 T "RES(0.9Rn), WHH" 2.15 T/K RES(0.9Rn) 0.97 MHC155348 A from Hc2 124 A from Hc1 2210 MSP155348 mJ/mol.K2 48 SP 307 SP arc-melting "Superconductivity and physical properties of strongly electron correlated compounds LanRu3n-1B2n (n = 1, 2, and 3)" 2013 "Frontier Research Center, Tokyo Institute of Technology - Yokohama 226-8503, Japan" "Europhys.Lett., 104(2013)17003"
155349 INO0523953 Mg4AlSi3 Mg4Al1Si3 Mg 4 Al 1 Si 3 3 2013 2 P4/ncc 130 A 6.7225 13.515 tetragonal K 5.2 5.2 40 "High-P-high-T synthesis (950-1000C, 5GPa) - cool to RT" Structural Characterization of Magnesium-Based Compounds Mg9Si5 and Mg4Si3Al (Superconductor) Synthesized under High Pressure and High Temperature Conditions 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "Inorg. Chem., 52(2013)3953"
155350 INO0523953 Mg9-xAlxSi5 hexagonal phase ( x < 0.4) not SC. Mg9-xAlxSi5 Mg8.8Al0.2Si5 Mg 8.8 Al 0.2 Si 5 3 2013 hexagonal K 1.9 "High-P-high-T synthesis (950-1000C, 5GPa) - cool to RT" Structural Characterization of Magnesium-Based Compounds Mg9Si5 and Mg4Si3Al (Superconductor) Synthesized under High Pressure and High Temperature Conditions 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "Inorg. Chem., 52(2013)3953"
155351 INO0523953 "Mg(Mg1-xAlx)Si, ortho-phase (x > 0.5) is SC." Mg(Mg1-xAlx)Si Mg1.4Al0.6Si1 Mg 1.4 Al 0.6 Si 1 3 2013 3 ortho K 6 6 "High-P-high-T synthesis (950-1000C, 5GPa) - cool to RT" Structural Characterization of Magnesium-Based Compounds Mg9Si5 and Mg4Si3Al (Superconductor) Synthesized under High Pressure and High Temperature Conditions 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "Inorg. Chem., 52(2013)3953"
155352 INO0526039 "Ca(Al,Si)2" Ca1Al1Si1 Ca 1 Al 1 Si 1 2013 AB2 A 7.8112 Laves phase K 2.6 2.6 MTC155352 37 Oe M-H curve 5 1.9 T "SUS, WHH" 0.27 T/K SUS 0.15 MHC155352 "High-P-high-T synthesis (1000C, 13 GPa)" "High-Pressure Synthesis and Superconductivity of the Laves Phase Compound Ca(Al,Si)2 Composed of Truncated Tetrahedral Cages Ca@(Al,Si)12" 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "Inorg. Chem., 52(2013)6039"
155353 INO0526039 "Ca(Al,Si)2" Ca1Al0.74Si1.26 Ca 1 Al 0.74 Si 1.26 2013 AB2 Fd3[-]m 227 A 7.754 Laves phase K 2.46 2.46 MTC155352 2.4 "High-P-high-T synthesis (1000C, 13 GPa)" "High-Pressure Synthesis and Superconductivity of the Laves Phase Compound Ca(Al,Si)2 Composed of Truncated Tetrahedral Cages Ca@(Al,Si)12" 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "Inorg. Chem., 52(2013)6039"
155354 JAC2570023 LaNiSb2 La1Ni1Sb2 La 1 Ni 1 Sb 2 1 1997 ABC2 2 ZrCuSi2 P4/nmm 129 A 4.415 9.9 K 1 1 mJ/mol.K2 9.27 SP 336 SP "ar-arc-melting with excess Sb (about 3 %) - ANN(800C,1w, in evacuated quartz tube)" "Magnetic and transport properties of dense Kondo systems, CeTSb 2 (T=Ni, Cu, Pd and Ag)" 1997 "Institute for Solid State Physics, University of Tokyo, Roppongi, Minato-ku, Tokyo 106, Japan" "J.Alloys Compd., 257(1997)23"
155355 JAC2570023 T(Rmax) = 5 K. CeNiSb2 Ce1Ni1Sb2 Ce 1 Ni 1 Sb 2 1 1997 myu-B/mol 2.54 -36 ABC2 2 ZrCuSi2 P4/nmm 129 A 4.403 9.761 K 2 mJ/mol.K2 500 SP "ar-arc-melting with excess Sb (about 3 %) - ANN(800C,1w, in evacuated quartz tube)" "Magnetic and transport properties of dense Kondo systems, CeTSb 2 (T=Ni, Cu, Pd and Ag)" 1997 "Institute for Solid State Physics, University of Tokyo, Roppongi, Minato-ku, Tokyo 106, Japan" "J.Alloys Compd., 257(1997)23"
155356 JAC2570023 LaCuSb2 La1Cu1Sb2 La 1 Cu 1 Sb 2 1 1997 ABC2 2 ZrCuSi2 P4/nmm 129 A 4.363 10.317 K 0.9 0.9 mJ/mol.K2 2.92 SP 151 SP "ar-arc-melting with excess Sb (about 3 %) - ANN(800C,1w, in evacuated quartz tube)" "Magnetic and transport properties of dense Kondo systems, CeTSb 2 (T=Ni, Cu, Pd and Ag)" 1997 "Institute for Solid State Physics, University of Tokyo, Roppongi, Minato-ku, Tokyo 106, Japan" "J.Alloys Compd., 257(1997)23"
155357 JAC2570023 T(Rmax) = 5 K. CeCuSb2 Ce1Cu1Sb2 Ce 1 Cu 1 Sb 2 1 1997 myu-B/mol 2.56 -12 8 ABC2 2 ZrCuSi2 P4/nmm 129 A 4.33 10.202 K 2 mJ/mol.K2 94 SP "ar-arc-melting with excess Sb (about 3 %) - ANN(800C,1w, in evacuated quartz tube)" "Magnetic and transport properties of dense Kondo systems, CeTSb 2 (T=Ni, Cu, Pd and Ag)" 1997 "Institute for Solid State Physics, University of Tokyo, Roppongi, Minato-ku, Tokyo 106, Japan" "J.Alloys Compd., 257(1997)23"
155358 JAC2570023 LaPdSb2 La1Pd1Sb2 La 1 Pd 1 Sb 2 1 1997 ABC2 2 ZrCuSi2 P4/nmm 129 A 4.522 9.982 K 2.7 2.7 mJ/mol.K2 7.48 SP 227 SP "ar-arc-melting with excess Sb (about 3 %) - ANN(800C,1w, in evacuated quartz tube)" "Magnetic and transport properties of dense Kondo systems, CeTSb 2 (T=Ni, Cu, Pd and Ag)" 1997 "Institute for Solid State Physics, University of Tokyo, Roppongi, Minato-ku, Tokyo 106, Japan" "J.Alloys Compd., 257(1997)23"
155359 JAC2570023 T(Rmax) = 50 K. CePdSb2 Ce1Pd1Sb2 Ce 1 Pd 1 Sb 2 1 1997 myu-B/mol 2.58 -66 ABC2 2 ZrCuSi2 P4/nmm 129 A 4.486 9.879 K 2 mJ/mol.K2 150 SP "ar-arc-melting with excess Sb (about 3 %) - ANN(800C,1w, in evacuated quartz tube)" "Magnetic and transport properties of dense Kondo systems, CeTSb 2 (T=Ni, Cu, Pd and Ag)" 1997 "Institute for Solid State Physics, University of Tokyo, Roppongi, Minato-ku, Tokyo 106, Japan" "J.Alloys Compd., 257(1997)23"
155360 JAC2570023 LaAgSb2 La1Ag1Sb2 La 1 Ag 1 Sb 2 1 1997 ABC2 2 ZrCuSi2 P4/nmm 129 A 4.393 10.855 K 2 mJ/mol.K2 2.62 SP 249 SP "ar-arc-melting with excess Sb (about 3 %) - ANN(800C,1w, in evacuated quartz tube)" "Magnetic and transport properties of dense Kondo systems, CeTSb 2 (T=Ni, Cu, Pd and Ag)" 1997 "Institute for Solid State Physics, University of Tokyo, Roppongi, Minato-ku, Tokyo 106, Japan" "J.Alloys Compd., 257(1997)23"
155361 JAC2570023 T(Rmax) = 15 K. CeAgSb2 Ce1Ag1Sb2 Ce 1 Ag 1 Sb 2 1 1997 myu-B/mol 2.47 -6 10 ABC2 2 ZrCuSi2 P4/nmm 129 A 4.37 10.714 K 2 mJ/mol.K2 75 SP "ar-arc-melting with excess Sb (about 3 %) - ANN(800C,1w, in evacuated quartz tube)" "Magnetic and transport properties of dense Kondo systems, CeTSb 2 (T=Ni, Cu, Pd and Ag)" 1997 "Institute for Solid State Physics, University of Tokyo, Roppongi, Minato-ku, Tokyo 106, Japan" "J.Alloys Compd., 257(1997)23"
155362 JAC6130370 "Hc2(0) = 0.402T, (dHc2/dT) = 0.52 T/K, [cohere] = 137 A for RES(0.9Rn), WHH definition. (dC/gamma*Tc) = 1.17 using Tc(SP) = 0.90 K. e-ph = 0.45. DOS = 0.97 states/eV.fu." LaPd2As2 La1Pd2As2 La 1 Pd 2 As 2 2014 AB2C2 ThCr2Si2 I4/mmm A 4.3027 10.268 collapsed tetragonal ( stable) K 0.75 0.97 1.13 0.97 40 T "RES(0.5Rn),Linear approx." 0.334 T/K RES(0.5Rn) 0.34 MHC155362 A from Hc2 421 mJ/mol.K2 5.56 SP 261 SP "mixture (in N2 atmosphere) - pellet - heat(850C,20h) - reground - pellet - heat(850C,40h) cool to RT" Superconductivity in LaPd2As2 with a collapsed 122 structure 2014 "Department of Energy and Hydrocarbon Chemistry, Graduate School of Engineering, Kyoto University, Kyoto 615-8510, Japan" "J.Alloys Compd., 613(2014)370"
155363 JAP112073923 Tm(FM) = 70 K. ferromag. (Tm/Tc) = 7. kappa(GL) = 4.1. weak ferro-(not conventional ferro-) KxMoO2 K0.05Mo1O2-z K 0.05 Mo 1 O 2-z 2012 70 4 P2<1>/c K 9.5 9.5 0.4 Oe M-H curve 1170 2 T M-H curve 1 2 "Mo,MoO3,K2MoO4" "mixture - pellet - in quartz tube - heat(400C,1d) - heat(700C,3d)" Superconductivity and magnetism in the KxMoO2-d 2012 "Escola de Engenharia de Lorena, Universidade de Sao Paulo, Lorena, SP 12602-810, Brazil" "J.Appl.Phys., 112(2012)073923"
155364 JAP112073923 Tm(FM) = 70 K. ferromag. (Tm/Tc) = 18 KxMoO2 K0.3Mo1O2-z K 0.3 Mo 1 O 2-z 2012 70 4 P2<1>/c K 4 4 4 MTC155364 1 "Mo,MoO3,K2MoO4" "mixture - pellet - in quartz tube - heat(400C,1d) - heat(700C,3d)" Superconductivity and magnetism in the KxMoO2-d 2012 "Escola de Engenharia de Lorena, Universidade de Sao Paulo, Lorena, SP 12602-810, Brazil" "J.Appl.Phys., 112(2012)073923"
155365 JMC02210752 "M = EDA (ethylene diamine). sample prepared by reaction (75 C, 10 days)" MxTiNCl M0.23Ti1N1Cl1 M 0.23 Ti 1 N 1 Cl 1 2012 Bmmb A 3.999 3.264 22.23 M-intercalated TiNCl structure K 10.5 10.5 16.3 "mixed(TiNCl + various alkylene diamine: H2N-(cH2)n-NH2 (3= = 196 K. Tn(Eu) = 19 K. "Eu(Fe,Ir)2As2" Eu1Fe2As2 Eu 1 Fe 2 As 2 1 2013 19 AB2C2 ThCr2Si2 I4/mmm A 3.9113 12.136 K 2 "Eu(3N),Fe(5N),As(5N)" solid state reaction Reentrant superconductivity in Eu(Fe1-xIrx)2As2 2013 "Department of Physics, Indian Institute of Technology, Kanpur 208016, India" "J.Phys.:Condens.Matter, 25(2013)265701"
155388 JPCM025265701 T = 170 "Eu(Fe,Ir)2As2" Eu1Fe1.9Ir0.1As2 Eu 1 Fe 1.9 Ir 0.1 As 2 1 2013 AB2C2 ThCr2Si2 I4/mmm A 3.9163 12.122 K 2 "Eu(3N),Fe(5N),As(5N)" solid state reaction Reentrant superconductivity in Eu(Fe1-xIrx)2As2 2013 "Department of Physics, Indian Institute of Technology, Kanpur 208016, India" "J.Phys.:Condens.Matter, 25(2013)265701"
155389 JPCM025265701 T = 90. Tm(FM) = 15K reentrant behavior in R(T) "Eu(Fe,Ir)2As2" Eu1Fe1.78Ir0.22As2 Eu 1 Fe 1.78 Ir 0.22 As 2 1 2013 15 AB2C2 ThCr2Si2 I4/mmm A 3.9257 12.079 K 21 21 "Eu(3N),Fe(5N),As(5N)" solid state reaction Reentrant superconductivity in Eu(Fe1-xIrx)2As2 2013 "Department of Physics, Indian Institute of Technology, Kanpur 208016, India" "J.Phys.:Condens.Matter, 25(2013)265701"
155390 JPCM025265701 Tm(FM) = 8.94. reentrant behavior in R(T) "Eu(Fe,Ir)2As2" Eu1Fe1.72Ir0.28As2 Eu 1 Fe 1.72 Ir 0.28 As 2 1 2013 emu/mol 0.000186 emu.K/mol 8.23 myu-B/mol 8.1 22.8 AB2C2 ThCr2Si2 I4/mmm A 3.9328 12.056 K 21.6 21.6 T "RES(0.9Rn), WHH" 15 T/K RES(0.9Rn) 0.95 MHC155390 "Eu(3N),Fe(5N),As(5N)" solid state reaction Reentrant superconductivity in Eu(Fe1-xIrx)2As2 2013 "Department of Physics, Indian Institute of Technology, Kanpur 208016, India" "J.Phys.:Condens.Matter, 25(2013)265701"
155391 JPCM026435702 TCFIG shows Tc(SUS). R(T)-exponent = 1.80. compositions of O & F by EPMA. "LaFeAs(O,H)" La1Fe1As1F0.08O0.9 La 1 Fe 1 As 1 F 0.08 O 0.9 2014 ABCD 2 oxypnictide A 4.0224 8.7136 Fe-1111 K 28.4 25.9 25.9 22.2 mOhm.cm 0.134 cm3/C MRH155391 "LaAs,Fe2As,FeAs,La2O3,LaH2,ZnO" solid state reaction using a belt-type high pressure anvil cell to prevent the evaporation of volatile Zn atom during the synthesis. Comparison of impurity effect between two Tc domes in LaFeAsO1-xHx 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "J.Phys.:Condens.Matter, 26(2014)435702"
155392 JPCM026435702 TCFIG shows Tc(SUS). R(T)-exponent = 2.17. compositions of O & F by EPMA. "La(Fe,Zn)As(O,H)" La1Fe0.991Zn0.009As1F0.08O0.9 La 1 Fe 0.991 Zn 0.009 As 1 F 0.08 O 0.9 2014 ABCD 2 oxypnictide A 4.0291 8.7231 Fe-1111 K 20.4 15.6 15.6 MTC155392 9.2 mOhm.cm 1.39 cm3/C MRH155391 "LaAs,Fe2As,FeAs,La2O3,LaH2,ZnO" solid state reaction using a belt-type high pressure anvil cell to prevent the evaporation of volatile Zn atom during the synthesis. Comparison of impurity effect between two Tc domes in LaFeAsO1-xHx 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "J.Phys.:Condens.Matter, 26(2014)435702"
155393 JPCM026435702 TCFIG shows Tc(SUS). R(T)-exponent = 1.92. compositions of O & F by EPMA. "La(Fe,Zn)As(O,H)" La1Fe0.985Zn0.015As1F0.08O0.9 La 1 Fe 0.985 Zn 0.015 As 1 F 0.08 O 0.9 2014 ABCD 2 oxypnictide A 4.0242 8.7189 Fe-1111 K 11.2 0.2 0.2 1 mOhm.cm 1.56 "LaAs,Fe2As,FeAs,La2O3,LaH2,ZnO" solid state reaction using a belt-type high pressure anvil cell to prevent the evaporation of volatile Zn atom during the synthesis. Comparison of impurity effect between two Tc domes in LaFeAsO1-xHx 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "J.Phys.:Condens.Matter, 26(2014)435702"
155394 JPCM026435702 TCFIG shows Tc(SUS). R(T)-exponent = 2.15. compositions of O & F by EPMA. "La(Fe,Zn)As(O,H)" La1Fe0.973Zn0.027As1F0.08O0.9 La 1 Fe 0.973 Zn 0.027 As 1 F 0.08 O 0.9 2014 ABCD 2 oxypnictide A 4.0258 8.7278 Fe-1111 K 8.6 0 0 1 mOhm.cm 2.76 "LaAs,Fe2As,FeAs,La2O3,LaH2,ZnO" solid state reaction using a belt-type high pressure anvil cell to prevent the evaporation of volatile Zn atom during the synthesis. Comparison of impurity effect between two Tc domes in LaFeAsO1-xHx 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "J.Phys.:Condens.Matter, 26(2014)435702"
155395 JPCM026435702 TCFIG shows Tc(SUS). R(T)-exponent = 2.09. compositions of O & F by EPMA. "La(Fe,Zn)As(O,H)" La1Fe0.959Zn0.041As1F0.08O0.9 La 1 Fe 0.959 Zn 0.041 As 1 F 0.08 O 0.9 2014 ABCD 2 oxypnictide A 4.0277 8.7315 Fe-1111 K 2 mOhm.cm 1.33 "LaAs,Fe2As,FeAs,La2O3,LaH2,ZnO" solid state reaction using a belt-type high pressure anvil cell to prevent the evaporation of volatile Zn atom during the synthesis. Comparison of impurity effect between two Tc domes in LaFeAsO1-xHx 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "J.Phys.:Condens.Matter, 26(2014)435702"
155396 JPCM026435702 TCFIG shows Tc(SUS). R(T)-exponent = 1.20. compositions of O & F by EPMA. "LaFeAs(O,H)" La1Fe1As1F0.28O0.68 La 1 Fe 1 As 1 F 0.28 O 0.68 2014 ABCD 2 oxypnictide A 3.8044 8.6933 Fe-1111 K 36.5 33.5 33.5 27.2 mOhm.cm 0.202 cm3/C MRH155396 "LaAs,Fe2As,FeAs,La2O3,LaH2,ZnO" solid state reaction using a belt-type high pressure anvil cell to prevent the evaporation of volatile Zn atom during the synthesis. Comparison of impurity effect between two Tc domes in LaFeAsO1-xHx 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "J.Phys.:Condens.Matter, 26(2014)435702"
155397 JPCM026435702 TCFIG shows Tc(SUS). R(T)-exponent = 1.12. compositions of O & F by EPMA. "La(Fe,Zn)As(O,H)" La1Fe0.982Zn0.018As1F0.28O0.68 La 1 Fe 0.982 Zn 0.018 As 1 F 0.28 O 0.68 2014 ABCD 2 oxypnictide A 3.8298 8.6998 Fe-1111 K 21.1 19.6 19.6 MTC155397 12.7 mOhm.cm 0.344 cm3/C MRH155396 "LaAs,Fe2As,FeAs,La2O3,LaH2,ZnO" solid state reaction using a belt-type high pressure anvil cell to prevent the evaporation of volatile Zn atom during the synthesis. Comparison of impurity effect between two Tc domes in LaFeAsO1-xHx 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "J.Phys.:Condens.Matter, 26(2014)435702"
155398 JPCM026435702 TCFIG shows Tc(SUS). R(T)-exponent = 1.18. compositions of O & F by EPMA. "La(Fe,Zn)As(O,H)" La1Fe0.973Zn0.027As1F0.28O0.68 La 1 Fe 0.973 Zn 0.027 As 1 F 0.28 O 0.68 2014 ABCD 2 oxypnictide A 3.8224 8.7059 Fe-1111 K 16.8 12.2 12.2 5 mOhm.cm 0.825 "LaAs,Fe2As,FeAs,La2O3,LaH2,ZnO" solid state reaction using a belt-type high pressure anvil cell to prevent the evaporation of volatile Zn atom during the synthesis. Comparison of impurity effect between two Tc domes in LaFeAsO1-xHx 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "J.Phys.:Condens.Matter, 26(2014)435702"
155399 JPCM026435702 TCFIG shows Tc(SUS). R(T)-exponent = 1.17. compositions of O & F by EPMA. "La(Fe,Zn)As(O,H)" La1Fe0.951Zn0.049As1F0.28O0.68 La 1 Fe 0.951 Zn 0.049 As 1 F 0.28 O 0.68 2014 ABCD 2 oxypnictide A 3.8835 8.7146 Fe-1111 K 10.3 1 1 1 mOhm.cm 1 "LaAs,Fe2As,FeAs,La2O3,LaH2,ZnO" solid state reaction using a belt-type high pressure anvil cell to prevent the evaporation of volatile Zn atom during the synthesis. Comparison of impurity effect between two Tc domes in LaFeAsO1-xHx 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "J.Phys.:Condens.Matter, 26(2014)435702"
155400 JPCM026435702 TCFIG shows Tc(SUS). R(T)-exponent = 1.15. compositions of O & F by EPMA. "La(Fe,Zn)As(O,H)" La1Fe0.918Zn0.082As1F0.28O0.68 La 1 Fe 0.918 Zn 0.082 As 1 F 0.28 O 0.68 2014 ABCD 2 oxypnictide A 3.9331 8.7193 Fe-1111 K 8.2 8.2 mOhm.cm 2.91 "LaAs,Fe2As,FeAs,La2O3,LaH2,ZnO" solid state reaction using a belt-type high pressure anvil cell to prevent the evaporation of volatile Zn atom during the synthesis. Comparison of impurity effect between two Tc domes in LaFeAsO1-xHx 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "J.Phys.:Condens.Matter, 26(2014)435702"
155401 JPCM026435702 TCFIG shows Tc(SUS). R(T)-exponent = 1.13. compositions of O & F by EPMA. "La(Fe,Zn)As(O,H)" La1Fe0.905Zn0.095As1F0.28O0.68 La 1 Fe 0.905 Zn 0.095 As 1 F 0.28 O 0.68 2014 ABCD 2 oxypnictide A 3.9331 8.7256 Fe-1111 K 3.5 3.5 mOhm.cm 1.48 "LaAs,Fe2As,FeAs,La2O3,LaH2,ZnO" solid state reaction using a belt-type high pressure anvil cell to prevent the evaporation of volatile Zn atom during the synthesis. Comparison of impurity effect between two Tc domes in LaFeAsO1-xHx 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "J.Phys.:Condens.Matter, 26(2014)435702"
155402 JPCM026435702 TCFIG shows Tc(SUS). R(T)-exponent = 1.08. compositions of O & F by EPMA. "La(Fe,Zn)As(O,H)" La1Fe0.887Zn0.113As1F0.28O0.68 La 1 Fe 0.887 Zn 0.113 As 1 F 0.28 O 0.68 2014 ABCD 2 oxypnictide A 4.0561 8.7331 Fe-1111 K 2 mOhm.cm 2.97 "LaAs,Fe2As,FeAs,La2O3,LaH2,ZnO" solid state reaction using a belt-type high pressure anvil cell to prevent the evaporation of volatile Zn atom during the synthesis. Comparison of impurity effect between two Tc domes in LaFeAsO1-xHx 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "J.Phys.:Condens.Matter, 26(2014)435702"
155403 JPS082085001 "STR/electronic phase transition: T = 150 (heating), 107 (cooling) K." Ir1-xRhxTe2 Ir0.9Rh0.1Te2 Ir 0.9 Rh 0.1 Te 2 1 2013 AB2 CdI2 P3[-]m1 A 3.9264 5.3969 K 2.61 2.61 MTC155403 solid state reaction Suppression of Structural Phase Transition in IrTe2 by Isovalent Rh Doping 2013 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 82(2013)085001"
155404 JPS082085001 Ir1-xRhxTe2 Ir0.85Rh0.15Te2 Ir 0.85 Rh 0.15 Te 2 1 2013 AB2 CdI2 P3[-]m1 A 3.9264 5.3959 K 2.39 2.39 solid state reaction Suppression of Structural Phase Transition in IrTe2 by Isovalent Rh Doping 2013 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 82(2013)085001"
155405 JPS082085001 RH-solubility limit at 0.3< x < 0.5. Ir1-xRhxTe2 Ir0.7Rh0.3Te2 Ir 0.7 Rh 0.3 Te 2 1 2013 AB2 CdI2 P3[-]m1 A 3.9248 5.3955 K 2.09 2.09 solid state reaction Suppression of Structural Phase Transition in IrTe2 by Isovalent Rh Doping 2013 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 82(2013)085001"
155406 JPS082085001 "not SC. STR/electronic phase transition: T = 261 (heating), 236 (cooling) K." IrTe2 Ir1Te2 Ir 1 Te 2 1 2013 AB2 CdI2 P3[-]m1 A 3.9317 5.3966 K 2 solid state reaction Suppression of Structural Phase Transition in IrTe2 by Isovalent Rh Doping 2013 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 82(2013)085001"
155407 JPS082085001 "not SC. STR/electronic phase transition: T = 235 (heating), 200 (cooling) K." Ir1-xRhxTe2 Ir0.96Rh0.04Te2 Ir 0.96 Rh 0.04 Te 2 1 2013 AB2 CdI2 P3[-]m1 A 3.9265 5.3945 K 2 solid state reaction Suppression of Structural Phase Transition in IrTe2 by Isovalent Rh Doping 2013 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 82(2013)085001"
155408 JPS083025001 "(Ca,La)Fe(As,P)2" Ca0.84La0.16Fe1As1.99P0.01 Ca 0.84 La 0.16 Fe 1 As 1.99 P 0.01 3 2014 ABC2 A 3.952 3.8727 10.3364 112-phase K 43.8 41 41 mOhm.cm 0.482 "mixture - (alumina crucible) - sealed in quartz tube - heat(700C,3h) - heat to 1100C (46C/h) - cool to 1050C (1.25 C/h) - FC to RT" Enhanced Superconductivity up to 43K by P/Sb Doping of Ca1-xLaxFeAs2 2014 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 83(2014)025001"
155409 JPS083025001 "(Ca,La)Fe(As,P)2" Ca0.82La0.18Fe1As1.99P0.01 Ca 0.82 La 0.18 Fe 1 As 1.99 P 0.01 3 2014 ABC2 A 3.9492 3.8768 10.3442 112-phase K 41 39 39 MTC155409 mOhm.cm 0.482 "mixture - (alumina crucible) - sealed in quartz tube - heat(700C,3h) - heat to 1100C (46C/h) - cool to 1050C (1.25 C/h) - FC to RT" Enhanced Superconductivity up to 43K by P/Sb Doping of Ca1-xLaxFeAs2 2014 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 83(2014)025001"
155410 JPS083025001 "(Ca,La)Fe(As,P)2" Ca0.77La0.23Fe1As1.99P0.01 Ca 0.77 La 0.23 Fe 1 As 1.99 P 0.01 3 2014 ABC2 A 3.9487 3.8785 10.3589 112-phase K 30.1 28 28 "mixture - (alumina crucible) - sealed in quartz tube - heat(700C,3h) - heat to 1100C (46C/h) - cool to 1050C (1.25 C/h) - FC to RT" Enhanced Superconductivity up to 43K by P/Sb Doping of Ca1-xLaxFeAs2 2014 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 83(2014)025001"
155411 JPS083025001 "(Ca,La)FeAs2" Ca0.85La0.15Fe1As2 Ca 0.85 La 0.15 Fe 1 As 2 3 2014 ABC2 A 3.9522 3.8765 10.346 112-phase K 40 35 35 mOhm.cm 0.593 "mixture - (alumina crucible) - sealed in quartz tube - heat(700C,3h) - heat to 1100C (46C/h) - cool to 1050C (1.25 C/h) - FC to RT" Enhanced Superconductivity up to 43K by P/Sb Doping of Ca1-xLaxFeAs2 2014 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 83(2014)025001"
155412 JPS083025001 "(Ca,La)FeAs2" Ca0.81La0.19Fe1As2 Ca 0.81 La 0.19 Fe 1 As 2 3 2014 ABC2 112-phase K 45 28 28 MTC155412 mOhm.cm 0.378 "mixture - (alumina crucible) - sealed in quartz tube - heat(700C,3h) - heat to 1100C (46C/h) - cool to 1050C (1.25 C/h) - FC to RT" Enhanced Superconductivity up to 43K by P/Sb Doping of Ca1-xLaxFeAs2 2014 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 83(2014)025001"
155413 JPS083025001 "(Ca,La)FeAs2" Ca0.78La0.22Fe1As2 Ca 0.78 La 0.22 Fe 1 As 2 3 2014 ABC2 A 3.9492 3.8788 10.3456 112-phase K 30 22 22 "mixture - (alumina crucible) - sealed in quartz tube - heat(700C,3h) - heat to 1100C (46C/h) - cool to 1050C (1.25 C/h) - FC to RT" Enhanced Superconductivity up to 43K by P/Sb Doping of Ca1-xLaxFeAs2 2014 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 83(2014)025001"
155414 JPS083025001 "(Ca,La)Fe(As,Sb)2" Ca0.85La0.15Fe1As1.98Sb0.02 Ca 0.85 La 0.15 Fe 1 As 1.98 Sb 0.02 3 2014 ABC2 A 3.9502 3.8888 10.346 112-phase K 44 43 43 mOhm.cm 0.354 "mixture - (alumina crucible) - sealed in quartz tube - heat(700C,3h) - heat to 1100C (46C/h) - cool to 1050C (1.25 C/h) - FC to RT" Enhanced Superconductivity up to 43K by P/Sb Doping of Ca1-xLaxFeAs2 2014 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 83(2014)025001"
155415 MAT1407.3105 R not to zero down to 2K at ambient pressure. Hc2 data for P = 2.5 GPa. Sr0.5Ce0.5FBiS2 Sr0.5Ce0.5F1Bi1S2 Sr 0.5 Ce 0.5 F 1 Bi 1 S 2 1 2014 Myu-B/f.u 2.97 -216.31 8 ABCD2 CeOBiS2 P4/nmm A 4.065 13.35 BiS2-layered SC K 2.7 2.7 MTC155415 T "RES(0.9Rn), WHH" 13.8 MHC155415 "solid state reaction. mixture - pellet - sealed in quartz tube - SIN(650C,12h) (heating rate, 2C/min)" "Appearance of bulk Superconductivity under Hydrostatic Pressure in Sr0.5RE0.5FBiS2 (RE=Ce, Nd, Pr and Sm) compounds" 2014 "CSIR-National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi-110012, India" cond-mat/1407.3105
155416 MAT1407.3105 P-induced SC. Hc2 data for P = 2.5 GPa. Sr0.5Nd0.5FBiS2 Sr0.5Nd0.5F1Bi1S2 Sr 0.5 Nd 0.5 F 1 Bi 1 S 2 1 2014 Myu-B/f.u 2.87 -72.61 ABCD2 CeOBiS2 P4/nmm A 4.056 13.38 BiS2-layered SC K 2 MTC155416 T "RES(0.9Rn), WHH" 11.6 MHC155416 "solid state reaction. mixture - pellet - sealed in quartz tube - SIN(650C,12h) (heating rate, 2C/min)" "Appearance of bulk Superconductivity under Hydrostatic Pressure in Sr0.5RE0.5FBiS2 (RE=Ce, Nd, Pr and Sm) compounds" 2014 "CSIR-National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi-110012, India" cond-mat/1407.3105
155417 MAT1407.3105 P-induced SC. Hc2 data for P = 2.5 GPa. Sr0.5Pr0.5FBiS2 Sr0.5Pr0.5F1Bi1S2 Sr 0.5 Pr 0.5 F 1 Bi 1 S 2 1 2014 Myu-B/f.u 3.14 -59.18 ABCD2 CeOBiS2 P4/nmm A 4.061 13.36 BiS2-layered SC K 2 MTC155417 T "RES(0.9Rn), WHH" 13.5 MHC155417 "solid state reaction. mixture - pellet - sealed in quartz tube - SIN(650C,12h) (heating rate, 2C/min)" "Appearance of bulk Superconductivity under Hydrostatic Pressure in Sr0.5RE0.5FBiS2 (RE=Ce, Nd, Pr and Sm) compounds" 2014 "CSIR-National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi-110012, India" cond-mat/1407.3105
155418 MAT1407.3105 P-induced SC. Hc2 data for P = 2.5 GPa. Sr0.5Sm0.5FBiS2 Sr0.5Sm0.5F1Bi1S2 Sr 0.5 Sm 0.5 F 1 Bi 1 S 2 1 2014 Myu-B/f.u 3.24 -160.9 ABCD2 CeOBiS2 P4/nmm A 4.053 13.4 BiS2-layered SC K 2 MTC155418 T "RES(0.9Rn), WHH" 14.5 MHC155418 "solid state reaction. mixture - pellet - sealed in quartz tube - SIN(650C,12h) (heating rate, 2C/min)" "Appearance of bulk Superconductivity under Hydrostatic Pressure in Sr0.5RE0.5FBiS2 (RE=Ce, Nd, Pr and Sm) compounds" 2014 "CSIR-National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi-110012, India" cond-mat/1407.3105
155419 MAT1410.0061 ANN(800 C). (dC/gamma*Tc) = 0.21. Schottky type anomaly in low T. "(La,Sm)(O,F)BiS2" La0.9Sm0.1Bi1S2F0.5O0.5 La 0.9 Sm 0.1 Bi 1 S 2 F 0.5 O 0.5 1 2014 ABCD2 CeOBiS2 A 4.056 13.333 BiS2-layered SC K 2.93 2.64 2.93 7.3 MSP155419 mJ/mol.K2 8.9 SP solid state reaction. ANN(800C or 750 C) optimal condition Enhancement of Superconductivity in La1-xSmxO0.5F0.5BiS2 2014 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" cond-mat/1410.0061
155420 MAT1410.0061 ANN(800 C) "(La,Sm)(O,F)BiS2" La0.7Sm0.3Bi1S2F0.5O0.5 La 0.7 Sm 0.3 Bi 1 S 2 F 0.5 O 0.5 1 2014 ABCD2 CeOBiS2 A 4.0317 13.369 BiS2-layered SC K 3.11 2.85 3.11 26.7 solid state reaction. ANN(800C or 750 C) optimal condition Enhancement of Superconductivity in La1-xSmxO0.5F0.5BiS2 2014 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" cond-mat/1410.0061
155421 MAT1410.0061 ANN(800 C) "(La,Sm)(O,F)BiS2" La0.6Sm0.4Bi1S2F0.5O0.5 La 0.6 Sm 0.4 Bi 1 S 2 F 0.5 O 0.5 1 2014 ABCD2 CeOBiS2 A 4.0264 13.38 BiS2-layered SC K 3.25 3 3.25 solid state reaction. ANN(800C or 750 C) optimal condition Enhancement of Superconductivity in La1-xSmxO0.5F0.5BiS2 2014 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" cond-mat/1410.0061
155422 MAT1410.0061 ANN(750 C) "(La,Sm)(O,F)BiS2" La0.5Sm0.5Bi1S2F0.5O0.5 La 0.5 Sm 0.5 Bi 1 S 2 F 0.5 O 0.5 1 2014 ABCD2 CeOBiS2 A 4.0155 13.407 BiS2-layered SC K 4.05 2.95 4.05 MTC155422 69.4 solid state reaction. ANN(800C or 750 C) optimal condition Enhancement of Superconductivity in La1-xSmxO0.5F0.5BiS2 2014 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" cond-mat/1410.0061
155423 MAT1410.0061 ANN(750 C) "(La,Sm)(O,F)BiS2" La0.4Sm0.6Bi1S2F0.5O0.5 La 0.4 Sm 0.6 Bi 1 S 2 F 0.5 O 0.5 1 2014 ABCD2 CeOBiS2 A 4.0075 13.41 BiS2-layered SC K 4.2 3.75 4.2 80 solid state reaction. ANN(800C or 750 C) optimal condition Enhancement of Superconductivity in La1-xSmxO0.5F0.5BiS2 2014 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" cond-mat/1410.0061
155424 MAT1410.0061 ANN(750 C) "(La,Sm)(O,F)BiS2" La0.3Sm0.7Bi1S2F0.5O0.5 La 0.3 Sm 0.7 Bi 1 S 2 F 0.5 O 0.5 1 2014 ABCD2 CeOBiS2 A 3.9957 13.413 BiS2-layered SC K 5.1 4.95 5.1 108 solid state reaction. ANN(800C or 750 C) optimal condition Enhancement of Superconductivity in La1-xSmxO0.5F0.5BiS2 2014 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" cond-mat/1410.0061
155425 MAT1410.0061 ANN(750 C). Sm solubility limit X > 0.8. (dC/gamma*Tc) = 3.32 "(La,Sm)(O,F)BiS2" La0.2Sm0.8Bi1S2F0.5O0.5 La 0.2 Sm 0.8 Bi 1 S 2 F 0.5 O 0.5 1 2014 ABCD2 CeOBiS2 A 3.3983 13.434 BiS2-layered SC K 5.44 5.18 5.44 MTC155422 87 MSP155425 mJ/mol.K2 25 solid state reaction. ANN(800C or 750 C) optimal condition Enhancement of Superconductivity in La1-xSmxO0.5F0.5BiS2 2014 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" cond-mat/1410.0061
155426 MAT1410.0061 ANN(710 C) Sm solubility limit X > 0.8 "(La,Sm)(O,F)BiS2" La0.1Sm0.9Bi1S2F0.5O0.5 La 0.1 Sm 0.9 Bi 1 S 2 F 0.5 O 0.5 1 2014 ABCD2 CeOBiS2 BiS2-layered SC K 5.2 4.4 5.2 17.8 solid state reaction. ANN(800C or 750 C) optimal condition Enhancement of Superconductivity in La1-xSmxO0.5F0.5BiS2 2014 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" cond-mat/1410.0061
155427 MAT1410.0061 "lattice term in SP beta=0.655 mJ/mol.K4, delta = 4.27 uJ/mol.K6." LaOBiS2 La1Bi1S2O1 La 1 Bi 1 S 2 O 1 1 2014 ABCD2 CeOBiS2 BiS2-layered SC K 1.1 solid state reaction. ANN(800C or 750 C) optimal condition Enhancement of Superconductivity in La1-xSmxO0.5F0.5BiS2 2014 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" cond-mat/1410.0061
155428 NATCOM0053280 hole doping p = 0.078 estimated from Tc(p) in RRB073180505(2006). YBa2Cu3Oz Y1Ba2Cu3O6.45 Y 1 Ba 2 Cu 3 O 7-z 6.45 3 2014 Y123 K 45 45 T RES or Thermal conduc. 50 Flux growth method Direct measurement of the upper critical field in cuprate superconductors 2014 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada J1K 2R1." "Nat.Commun., 5(2014)3280"
155429 NATCOM0053280 hole doping p = 0.135 estimated from Tc(p) in RRB073180505(2006). YBa2Cu3Oz Y1Ba2Cu3O6.8 Y 1 Ba 2 Cu 3 O 7-z 6.8 3 2014 Y123 K 78.5 78.5 T RES or Thermal conduc. 35 Flux growth method Direct measurement of the upper critical field in cuprate superconductors 2014 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada J1K 2R1." "Nat.Commun., 5(2014)3280"
155430 NATCOM0053280 hole doping p = 0.180 estimated from Tc(p) in RRB073180505(2006). YBa2Cu3Oz Y1Ba2Cu4O6.998 Y 1 Ba 2 Cu 4 O 7-z 6.998 3 2014 Y123 K 90.5 90.5 MTC155430 T RES or Thermal conduc. 150 MHC155430 Flux growth method Direct measurement of the upper critical field in cuprate superconductors 2014 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada J1K 2R1." "Nat.Commun., 5(2014)3280"
155431 NATCOM0053280 hole doping p = 0.140 estimated from Tc(p) in RRB073180505(2006). YBa2Cu4O8 Y1Ba2Cu3O8 Y 1 Ba 2 Cu 3 O 8 3 2014 Y124 K 80 80 T RES or Thermal conduc. 45 Flux growth method Direct measurement of the upper critical field in cuprate superconductors 2014 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada J1K 2R1." "Nat.Commun., 5(2014)3280"
155432 NATCOM0053280 hole doping p = 0.190 estimated from Ca-content. "Y(Ba,Ca)2Cu3Oz" Y1Ba1.972Ba0.028Cu3O7-z Y 1 Ba 1.972 Ba 0.028 Cu 3 O 7-z 3 2014 Y123 K 87 87 T RES or Thermal conduc. 140 Flux growth method Direct measurement of the upper critical field in cuprate superconductors 2014 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada J1K 2R1." "Nat.Commun., 5(2014)3280"
155433 NATCOM0053280 hole doping p = 0.225 estimated using (Tc/Tcmax) = 1-82.6(p-0.16)^2 with Tcmax = 90 K. Tl2Ba2CuO6 Tl2Ba2Cu1O6 Tl 2 Ba 2 Cu 1 O 6 3 2014 Tl2201 K 59 59 T RES or Thermal conduc. 63 Flux growth method Direct measurement of the upper critical field in cuprate superconductors 2014 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada J1K 2R1." "Nat.Commun., 5(2014)3280"
155434 NATCOM0053280 hole doping p = 0.248 estimated using (Tc/Tcmax) = 1-82.6(p-0.16)^2 with Tcmax = 90 K. Tl2Ba2CuO6 Tl2Ba2Cu1O6 Tl 2 Ba 2 Cu 1 O 6 3 2014 Tl2201 K 33 33 T RES or Thermal conduc. 20 Flux growth method Direct measurement of the upper critical field in cuprate superconductors 2014 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada J1K 2R1." "Nat.Commun., 5(2014)3280"
155435 NATCOM0053280 hole doping p = 0.257 estimated using (Tc/Tcmax) = 1-82.6(p-0.16)^2 with Tcmax = 90 K. Tl2Ba2CuO6 Tl2Ba2Cu1O6 Tl 2 Ba 2 Cu 1 O 6 3 2014 Tl2201 K 20 20 T RES or Thermal conduc. 14 Flux growth method Direct measurement of the upper critical field in cuprate superconductors 2014 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada J1K 2R1." "Nat.Commun., 5(2014)3280"
155436 NATCOM0053280 hole doping p = 0.260 estimated using (Tc/Tcmax) = 1-82.6(p-0.16)^2 with Tcmax = 90 K. Tl2Ba2CuO6 Tl2Ba2Cu1O6 Tl 2 Ba 2 Cu 1 O 6 3 2014 Tl2201 K 15 15 T RES or Thermal conduc. 10 Flux growth method Direct measurement of the upper critical field in cuprate superconductors 2014 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada J1K 2R1." "Nat.Commun., 5(2014)3280"
155437 NATCOM0054756 "Na0.65Fe1.93(Se,S)2" Na0.65Fe1.93Se2 Na 0.65 Fe 1.93 Se 2 1 2014 ThCr2Si2 I4/mmm A 3.787 13.6678 Fe-122 K 37.5 37.5 "FeSe(3N8),Se(4N),S(4N)" "mixture - alumina crucible - sealed in silica capsule - heat(1300K,30h) - ANN(673 K,50h) - FC to RT" Superconductivity and phase instability of NH3-free Na-intercalated FeSe1-zSz 2014 "Frontier Research Center, Tokyo Institute of Technology, Yokohama 226-8503, Japan." "Nat.Commun., 5(2014)4756"
155438 NATCOM0054756 "Na0.65Fe1.93(Se,S)2" Na0.65Fe1.93Se1.8S0.2 Na 0.65 Fe 1.93 Se 1.8 S 0.2 1 2014 ThCr2Si2 I4/mmm A 3.7797 13.5302 Fe-122 K 36 36 MTC155438 "FeSe(3N8),Se(4N),S(4N)" "mixture - alumina crucible - sealed in silica capsule - heat(1300K,30h) - ANN(673 K,50h) - FC to RT" Superconductivity and phase instability of NH3-free Na-intercalated FeSe1-zSz 2014 "Frontier Research Center, Tokyo Institute of Technology, Yokohama 226-8503, Japan." "Nat.Commun., 5(2014)4756"
155439 NATCOM0054756 "Na0.65Fe1.93(Se,S)2" Na0.65Fe1.93Se1.6S0.4 Na 0.65 Fe 1.93 Se 1.6 S 0.4 1 2014 ThCr2Si2 I4/mmm A 3.7716 13.4365 Fe-122 K 32 32 "FeSe(3N8),Se(4N),S(4N)" "mixture - alumina crucible - sealed in silica capsule - heat(1300K,30h) - ANN(673 K,50h) - FC to RT" Superconductivity and phase instability of NH3-free Na-intercalated FeSe1-zSz 2014 "Frontier Research Center, Tokyo Institute of Technology, Yokohama 226-8503, Japan." "Nat.Commun., 5(2014)4756"
155440 NATCOM0054756 "Na0.65Fe1.93(Se,S)2" Na0.65Fe1.93Se1.4S0.6 Na 0.65 Fe 1.93 Se 1.4 S 0.6 1 2014 ThCr2Si2 I4/mmm A 3.7598 13.2808 Fe-122. CaAl2Si2 for x > 0.3 K 25.1 25.1 "FeSe(3N8),Se(4N),S(4N)" "mixture - alumina crucible - sealed in silica capsule - heat(1300K,30h) - ANN(673 K,50h) - FC to RT" Superconductivity and phase instability of NH3-free Na-intercalated FeSe1-zSz 2014 "Frontier Research Center, Tokyo Institute of Technology, Yokohama 226-8503, Japan." "Nat.Commun., 5(2014)4756"
155441 NATCOM0054756 M = NH3 intercalated sample. "Na0.80M0.6Fe1.86(Se,S)2" Na0.8M0.6Fe1.86Se2 Na 0.8 M 0.6 Fe 1.86 Se 2 1 2014 ThCr2Si2 I4/mmm A 3.799 17.4165 Fe-122 K 45.2 45.2 "Using (Na/NH3) concentration solution. After intercalated procedure, solutions were evaporated." Superconductivity and phase instability of NH3-free Na-intercalated FeSe1-zSz 2014 "Frontier Research Center, Tokyo Institute of Technology, Yokohama 226-8503, Japan." "Nat.Commun., 5(2014)4756"
155442 NATCOM0054756 M = NH3 intercalated sample. "Na0.80M0.6Fe1.86(Se,S)2" Na0.8M0.6Fe1.86Se1.8S0.2 Na 0.8 M 0.6 Fe 1.86 Se 1.8 S 0.2 1 2014 ThCr2Si2 I4/mmm A 3.7907 17.2089 Fe-122 K 43.7 43.7 MTC155442 "Using (Na/NH3) concentration solution. After intercalated procedure, solutions were evaporated." Superconductivity and phase instability of NH3-free Na-intercalated FeSe1-zSz 2014 "Frontier Research Center, Tokyo Institute of Technology, Yokohama 226-8503, Japan." "Nat.Commun., 5(2014)4756"
155443 NATCOM0054756 M = NH3 intercalated sample. "Na0.80M0.6Fe1.86(Se,S)2" Na0.8M0.6Fe1.86Se1.6S0.4 Na 0.8 M 0.6 Fe 1.86 Se 1.6 S 0.4 1 2014 ThCr2Si2 I4/mmm A 3.7848 17.0303 Fe-122 K 42.2 42.2 "Using (Na/NH3) concentration solution. After intercalated procedure, solutions were evaporated." Superconductivity and phase instability of NH3-free Na-intercalated FeSe1-zSz 2014 "Frontier Research Center, Tokyo Institute of Technology, Yokohama 226-8503, Japan." "Nat.Commun., 5(2014)4756"
155444 NATCOM0054756 M = NH3 intercalated sample. "Na0.80M0.6Fe1.86(Se,S)2" Na0.8M0.6Fe1.86Se1.4S0.6 Na 0.8 M 0.6 Fe 1.86 Se 1.4 S 0.6 1 2014 ThCr2Si2 I4/mmm A 3.7752 16.9039 Fe-122 K 39.2 39.2 "Using (Na/NH3) concentration solution. After intercalated procedure, solutions were evaporated." Superconductivity and phase instability of NH3-free Na-intercalated FeSe1-zSz 2014 "Frontier Research Center, Tokyo Institute of Technology, Yokohama 226-8503, Japan." "Nat.Commun., 5(2014)4756"
155445 NATCOM0054756 M = NH3 intercalated sample. "Na0.80M0.6Fe1.86(Se,S)2" Na0.8M0.6Fe1.86Se1.2S0.8 Na 0.8 M 0.6 Fe 1.86 Se 1.2 S 0.8 1 2014 ThCr2Si2 I4/mmm A 3.763 16.799 Fe-122 K 35.3 35.3 "Using (Na/NH3) concentration solution. After intercalated procedure, solutions were evaporated." Superconductivity and phase instability of NH3-free Na-intercalated FeSe1-zSz 2014 "Frontier Research Center, Tokyo Institute of Technology, Yokohama 226-8503, Japan." "Nat.Commun., 5(2014)4756"
155446 NATCOM0054756 M = NH3 intercalated sample. x = 0.5: hexagonal phase solubility limit. "Na0.80M0.6Fe1.86(Se,S)2" Na0.8M0.6Fe1.86Se1S1 Na 0.8 M 0.6 Fe 1.86 Se 1 S 1 1 2014 ThCr2Si2 I4/mmm A 3.7563 16.6896 Fe-122. K 25.3 25.3 "Using (Na/NH3) concentration solution. After intercalated procedure, solutions were evaporated." Superconductivity and phase instability of NH3-free Na-intercalated FeSe1-zSz 2014 "Frontier Research Center, Tokyo Institute of Technology, Yokohama 226-8503, Japan." "Nat.Commun., 5(2014)4756"
155447 NATM0070367 A15-type Cs3C60. P-induced SC. Pcr = 4 kbar Cs3C60 Cs3C60 Cs 3 C 60 2008 GPa 18.5 A3B60 fullerene K 38 0 38 MTC155447 "reaction of Cs metal or Cs6C60 in methylamine at -65C using a dual manifold high vacuum line. Warm to RT, solvent removed." Bulk superconductivity at 38K in a molecular system 2008 "Department of Chemistry, University of Liverpool, Liverpool L69 7ZD, UK" "Nat. Mater., 7(2008)367"
155448 NATM0080305 Not SC. Structural transition (T to O) T = 158 K. Tc and Tn from muon-SR. T from XRD and SUS. Local moment = 171 mT at 0 K. "La(O,F)FeAs" La1Fe1As1O1 La 1 Fe 1 As 1 O 1 2009 134 ABCD oxypnictide K 0 The electronic phase diagram of the LaO1-xFxFeAs superconductor 2009 "Laboratory for Muon-Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Nat. Mater., 8(2009)305"
155449 NATM0080305 Not SC. Structural transition (T to O) T = 150 K. . Tc and Tn from muon-SR. T from XRD and SUS. Local moment = 171 mT at 0 K. "La(O,F)FeAs" La1Fe1As1F0.02O0.98 La 1 Fe 1 As 1 F 0.02 O 0.98 2009 131 ABCD oxypnictide K 0 The electronic phase diagram of the LaO1-xFxFeAs superconductor 2009 "Laboratory for Muon-Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Nat. Mater., 8(2009)305"
155450 NATM0080305 Not SC. Structural transition (T to O) T = 145 K. Tc and Tn from muon-SR. T from XRD and SUS. Local moment = 164 mT at 0 K. "La(O,F)FeAs" La1Fe1As1F0.04O0.96 La 1 Fe 1 As 1 F 0.04 O 0.96 2009 120 ABCD oxypnictide K 0 The electronic phase diagram of the LaO1-xFxFeAs superconductor 2009 "Laboratory for Muon-Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Nat. Mater., 8(2009)305"
155451 NATM0080305 Tc and Tn from muon-SR. "La(O,F)FeAs" La1Fe1As1F0.05O0.95 La 1 Fe 1 As 1 F 0.05 O 0.95 2009 ABCD oxypnictide K 20 20 nm muon-SR 396 The electronic phase diagram of the LaO1-xFxFeAs superconductor 2009 "Laboratory for Muon-Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Nat. Mater., 8(2009)305"
155452 NATM0080305 Tc and Tn from muon-SR. "La(O,F)FeAs" La1Fe1As1F0.075O0.925 La 1 Fe 1 As 1 F 0.075 O 0.925 2009 ABCD oxypnictide K 21.2 21.2 MPH155452 nm muon-SR 366 The electronic phase diagram of the LaO1-xFxFeAs superconductor 2009 "Laboratory for Muon-Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Nat. Mater., 8(2009)305"
155453 NATM0080305 Tc and Tn from muon-SR. "La(O,F)FeAs" La1Fe1As1F0.1O0.9 La 1 Fe 1 As 1 F 0.1 O 0.9 2009 ABCD oxypnictide K 25.1 25.1 MPH155452 nm muon-SR 254 The electronic phase diagram of the LaO1-xFxFeAs superconductor 2009 "Laboratory for Muon-Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Nat. Mater., 8(2009)305"
155454 NATM0080305 Tc and Tn from muon-SR. "La(O,F)FeAs" La1Fe1As1F0.15O0.85 La 1 Fe 1 As 1 F 0.15 O 0.85 2009 ABCD oxypnictide K 10.5 10.5 nm muon-SR 295 The electronic phase diagram of the LaO1-xFxFeAs superconductor 2009 "Laboratory for Muon-Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Nat. Mater., 8(2009)305"
155455 NATM0080305 Tc and Tn from muon-SR. "La(O,F)FeAs" La1Fe1As1F0.2O0.8 La 1 Fe 1 As 1 F 0.2 O 0.8 2009 ABCD oxypnictide K 11.1 11.1 nm muon-SR 289 The electronic phase diagram of the LaO1-xFxFeAs superconductor 2009 "Laboratory for Muon-Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Nat. Mater., 8(2009)305"
155456 NATM0140325 absolute H content is 60 wt% in (Li0.8Fe0.2)OHFeSe. SC and AFM coexist. FM also observed by NPD. "(Li,Fe)OHFeSe" Li0.8Fe1.2Se1H1O1 Li 0.8 Fe 1.2 Se 1 H 1 O 1 2015 8.6 I4/nmm 129 A 3.77871 9.1604 K 40 40 60 uV/K -6.27 MTP155456 "SeC(NH2)2,Fe,LiOH/H2O" "mixed with 10ml de ionized water - Teflon-lined autoclave - sealed and heat(160C,3-10days) - washed and dried" Coexistence of superconductivity and antiferromagnetism in (Li0.8Fe0.2)OHFeSe 2015 "Hefei National Laboratory for Physical Sciences at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, China" "Nat. Mater., 14(2015)325"
155457 NJP015073019 Thicknwss=150-250 nm. not SC. R(T) anomaly at 130 K BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 5 2013 AB2C2 2 ThCr2Si2 I4/mmm A 3.9638 13.02 Fe-122 K 2 Epitaxial films grown on MgO(001) substrates (Ts=850C) using pulsed laser deposition(PLD) Magnetic scattering and electron pair breaking by rare-earth-ion substitution in BaFe2As2 epitaxial films 2013 "Frontier Research Center, Tokyo Institute of Technology, S2-6F East, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "New J.Phys., 15(2013)073019"
155458 NJP015073019 Thicknwss=150-250 nm. R(T) anomaly at 70 K. "(Ba,Ce)Fe2As2" Ba0.91Ce0.09Fe2As2 Ba 0.91 Ce 0.09 Fe 2 As 2 5 2013 AB2C2 2 ThCr2Si2 I4/mmm Fe-122 K 4.12 4.12 Epitaxial films grown on MgO(001) substrates (Ts=850C) using pulsed laser deposition(PLD) Magnetic scattering and electron pair breaking by rare-earth-ion substitution in BaFe2As2 epitaxial films 2013 "Frontier Research Center, Tokyo Institute of Technology, S2-6F East, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "New J.Phys., 15(2013)073019"
155459 NJP015073019 Thicknwss=150-250 nm. optimal Ce-content. "(Ba,Ce)Fe2As2" Ba0.85Ce0.15Fe2As2 Ba 0.85 Ce 0.15 Fe 2 As 2 5 2013 AB2C2 2 ThCr2Si2 I4/mmm A 3.962 12.866 Fe-122 K 13.4 13.4 MPH155459 Epitaxial films grown on MgO(001) substrates (Ts=850C) using pulsed laser deposition(PLD) Magnetic scattering and electron pair breaking by rare-earth-ion substitution in BaFe2As2 epitaxial films 2013 "Frontier Research Center, Tokyo Institute of Technology, S2-6F East, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "New J.Phys., 15(2013)073019"
155460 NJP015073019 Thicknwss=150-250 nm. optimal La-content. "(Ba,La)Fe2As2" Ba0.88La0.12Fe2As2 Ba 0.88 La 0.12 Fe 2 As 2 5 2013 AB2C2 2 ThCr2Si2 I4/mmm A 3.97 12.872 Fe-122 K 22.4 22.4 MPH155460 Epitaxial films grown on MgO(001) substrates (Ts=850C) using pulsed laser deposition(PLD) Magnetic scattering and electron pair breaking by rare-earth-ion substitution in BaFe2As2 epitaxial films 2013 "Frontier Research Center, Tokyo Institute of Technology, S2-6F East, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "New J.Phys., 15(2013)073019"
155461 NJP015073019 Thicknwss=150-250 nm. optimal Pr-content. "(Ba,Pr)Fe2As2" Ba0.82Pr0.18Fe2As2 Ba 0.82 Pr 0.18 Fe 2 As 2 5 2013 AB2C2 2 ThCr2Si2 I4/mmm A 3.952 12.879 Fe-122 K 6.2 6.2 MPH155461 Epitaxial films grown on MgO(001) substrates (Ts=850C) using pulsed laser deposition(PLD) Magnetic scattering and electron pair breaking by rare-earth-ion substitution in BaFe2As2 epitaxial films 2013 "Frontier Research Center, Tokyo Institute of Technology, S2-6F East, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "New J.Phys., 15(2013)073019"
155462 NJP015073019 "Thicknwss=150-250 nm. optimal Nd-content.. R(T) anomary at 79 K.. For x=0.071, R(T) anomaly at 109 K." "(Ba,Nd)Fe2As2" Ba0.87Nd0.13Fe2As2 Ba 0.87 Nd 0.13 Fe 2 As 2 5 2013 AB2C2 2 ThCr2Si2 I4/mmm Fe-122 K 4.76 4.76 Epitaxial films grown on MgO(001) substrates (Ts=850C) using pulsed laser deposition(PLD) Magnetic scattering and electron pair breaking by rare-earth-ion substitution in BaFe2As2 epitaxial films 2013 "Frontier Research Center, Tokyo Institute of Technology, S2-6F East, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "New J.Phys., 15(2013)073019"
155463 PRC0270300 "polycrystal films (d=500A) on MgO substrates (Ts=480C), with growth rate of 0.7 A/s. R not to zero down to 4 K." LaNiBiO La1Ni1Bi1O1 La 1 Ni 1 Bi 1 O 1 4 2012 ABCD oxypnictide Fe-1111 K 5.5 5.5 "La(3N),Ni(4N5),Bi(5N)" Reactive MBE method. Films were grown by simultaneous evaporation of elemental sources. Oxidation by activated oxygen source. MBE growth of LaNiBiO1-x thin films 2012 "Technische Universitut Darmstadt, Institute for Material Science, Petersenstr, 23, 64287 Darmstadt, Germany" "Physics Procedia, 27(2012300, ISS2011"
155464 PRB081174532 No drop in R(T) near Tc(SUS). R-exponent = 0.59. GL-parameter = 1.89. KxMoO2-z K0.05Mo1O1.63 K 0.05 Mo 1 O 2-z 1.63 1 2010 4 P2<1>/c A 5.58 4.84 5.61 "monoclinic, beta = 121 degree" K 7.25 7.25 Oe M-H curve 450 Oe M-H curve 802 MHC155464 A from Hc2 641 A from Hc1 1210 "K2CO3,MoO3,Mo" "mixture - pellet - SIN(650-750C,3days, in quartz tube). K- and O-contents depend on sintering conditions" Unconventional metallic behavior and superconductivity in the K-Mo-O system 2010 "Escola de Engenharia de Lorena, University of Sao Paulo, P.O. Box 116, 12602-810 Lorena, SP, Brazil" "Phys.Rev.B, 81(2010)174532"
155465 PRB083054501 CeFeAsO0.95F0.05 Ce1Fe1As1F0.05O0.95 Ce 1 Fe 1 As 1 F 0.05 O 0.95 1 2011 myu-B/Ce 2.47 2.61 ABCD 2 oxypnictide P4/nmm 129 A 3.9988 8.6243 "Fe-1111, ZrCuSiAs-type" K 13.2 11.9 11.9 mJ/mol.K2 22.7 SP "CeAs,CeP,CeO2,CeF3,FeAs,FeP" mixture - pellet - sealed in evacuated quartz tube - heat to 1430-1470K - keep for 50h Interplay of superconductivity and Ce 4 f magnetism in CeFeAs1-xPxO0.95F0.05 2011 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 83(2011)054501"
155466 PRB083054501 "C(T) analyzed by Debye and Einstein model. gamma= 15.3 mJ/mol.K2, Debye-T = 270.6 K, Einstein-T = 351.4 K, (dC/Tc) = 5 mJ/mol.K2" "CeFe(As,P)O0.95F0.05" Ce1Fe1As0.85P0.15F0.05O0.95 Ce 1 Fe 1 As 0.85 P 0.15 F 0.05 O 0.95 1 2011 3.3 ABCD 2 oxypnictide P4/nmm 129 "Fe-1111, ZrCuSiAs-type" K 21.3 21.7 21.7 MPH155466 mJ/mol.K2 11.3 SP 270 SP "CeAs,CeP,CeO2,CeF3,FeAs,FeP" mixture - pellet - sealed in evacuated quartz tube - heat to 1430-1470K - keep for 50h Interplay of superconductivity and Ce 4 f magnetism in CeFeAs1-xPxO0.95F0.05 2011 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 83(2011)054501"
155467 PRB083054501 "CeFe(As,P)O0.95F0.05" Ce1Fe1As0.7P0.3F0.05O0.95 Ce 1 Fe 1 As 0.7 P 0.3 F 0.05 O 0.95 1 2011 myu-B/Ce 2.53 3.66 ABCD 2 oxypnictide P4/nmm 129 A 3.9826 8.5376 "Fe-1111, ZrCuSiAs-type" K 18.2 18.1 18.1 "CeAs,CeP,CeO2,CeF3,FeAs,FeP" mixture - pellet - sealed in evacuated quartz tube - heat to 1430-1470K - keep for 50h Interplay of superconductivity and Ce 4 f magnetism in CeFeAs1-xPxO0.95F0.05 2011 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 83(2011)054501"
155468 PRB083054501 "CeFe(As,P)O0.95F0.05" Ce1Fe1As0.55P0.45F0.05O0.95 Ce 1 Fe 1 As 0.55 P 0.45 F 0.05 O 0.95 1 2011 2.57 ABCD 2 oxypnictide P4/nmm 129 "Fe-1111, ZrCuSiAs-type" K 15.1 15 15 "CeAs,CeP,CeO2,CeF3,FeAs,FeP" mixture - pellet - sealed in evacuated quartz tube - heat to 1430-1470K - keep for 50h Interplay of superconductivity and Ce 4 f magnetism in CeFeAs1-xPxO0.95F0.05 2011 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 83(2011)054501"
155469 PRB083054501 "CeFe(As,P)O0.95F0.05" Ce1Fe1As0.47P0.53F0.05O0.95 Ce 1 Fe 1 As 0.47 P 0.53 F 0.05 O 0.95 1 2011 4.36 ABCD 2 oxypnictide P4/nmm 129 "Fe-1111, ZrCuSiAs-type" K 7.32 5.84 5.84 MPH155466 mJ/mol.K2 47.3 SP "CeAs,CeP,CeO2,CeF3,FeAs,FeP" mixture - pellet - sealed in evacuated quartz tube - heat to 1430-1470K - keep for 50h Interplay of superconductivity and Ce 4 f magnetism in CeFeAs1-xPxO0.95F0.05 2011 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 83(2011)054501"
155470 PRB083054501 "CeFe(As,P)O0.95F0.05" Ce1Fe1As0.3P0.7F0.05O0.95 Ce 1 Fe 1 As 0.3 P 0.7 F 0.05 O 0.95 1 2011 myu-B/Ce 2.58 8.74 ABCD 2 oxypnictide P4/nmm 129 A 3.9493 8.4194 "Fe-1111, ZrCuSiAs-type" K 1.2 mJ/mol.K2 95.9 SP "CeAs,CeP,CeO2,CeF3,FeAs,FeP" mixture - pellet - sealed in evacuated quartz tube - heat to 1430-1470K - keep for 50h Interplay of superconductivity and Ce 4 f magnetism in CeFeAs1-xPxO0.95F0.05 2011 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 83(2011)054501"
155471 PRB083054501 "CeFe(As,P)O0.95F0.05" Ce1Fe1P1F0.05O0.95 Ce 1 Fe 1 P 1 F 0.05 O 0.95 1 2011 myu-B/Ce 2.57 1.81 ABCD 2 oxypnictide P4/nmm 129 A 3.9205 8.3439 "Fe-1111, ZrCuSiAs-type" K 1.2 mJ/mol.K2 121 SP "CeAs,CeP,CeO2,CeF3,FeAs,FeP" mixture - pellet - sealed in evacuated quartz tube - heat to 1430-1470K - keep for 50h Interplay of superconductivity and Ce 4 f magnetism in CeFeAs1-xPxO0.95F0.05 2011 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 83(2011)054501"
155472 PRB084024521 not SC. T = 144 K. SmFeAsO Sm1Fe1As1O1 Sm 1 Fe 1 As 1 O 1 1 2011 ABCD 2 oxypnictide P4/nmm 129 A 3.9387 8.4985 "Fe-1111, ZrCuSiAs-type" K 2 mOhm.cm 1.35 "SmAs,FeAs,Fe2As,Sm2O3,SmH2" "High-P synthesis. mixture - heat(1200C, P = 2GPa)" Hydrogen in layered iron arsenides: Indirect electron doping to induce superconductivity 2011 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 84(2011)024521"
155473 PRB084024521 T = 114 K. R(T) exponent = 1.83 "SmFeAs(O,H)" Sm1Fe1As1H0.03O0.97 Sm 1 Fe 1 As 1 H 0.03 O 0.97 1 2011 ABCD 2 oxypnictide P4/nmm 129 A 3.9373 8.4836 "Fe-1111, ZrCuSiAs-type" K 5 0.2 0.2 MPH155473 1.3 mOhm.cm 0.75 "SmAs,FeAs,Fe2As,Sm2O3,SmH2" "High-P synthesis. mixture - heat(1200C, P = 2GPa)" Hydrogen in layered iron arsenides: Indirect electron doping to induce superconductivity 2011 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 84(2011)024521"
155474 PRB084024521 R(T) exponent = 1.15 "SmFeAs(O,H)" Sm1Fe1As1H0.19O0.81 Sm 1 Fe 1 As 1 H 0.19 O 0.81 1 2011 ABCD 2 oxypnictide P4/nmm 129 A 3.9183 8.453 "Fe-1111, ZrCuSiAs-type" K 55.4 55.3 55.3 60 "SmAs,FeAs,Fe2As,Sm2O3,SmH2" "High-P synthesis. mixture - heat(1200C, P = 2GPa)" Hydrogen in layered iron arsenides: Indirect electron doping to induce superconductivity 2011 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 84(2011)024521"
155475 PRB084024521 R(T) exponent = 0.87 "SmFeAs(O,H)" Sm1Fe1As1H0.34O0.64 Sm 1 Fe 1 As 1 H 0.34 O 0.64 1 2011 ABCD 2 oxypnictide P4/nmm 129 A 3.8974 8.4324 "Fe-1111, ZrCuSiAs-type" K 51 51.8 51.8 77 "SmAs,FeAs,Fe2As,Sm2O3,SmH2" "High-P synthesis. mixture - heat(1200C, P = 2GPa)" Hydrogen in layered iron arsenides: Indirect electron doping to induce superconductivity 2011 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 84(2011)024521"
155476 PRB084024521 "SmFeAs(O,H)" Sm1Fe1As1H0.43O0.57 Sm 1 Fe 1 As 1 H 0.43 O 0.57 1 2011 ABCD 2 oxypnictide P4/nmm 129 A 3.8838 8.4053 "Fe-1111, ZrCuSiAs-type" K 47 45 45 45 "SmAs,FeAs,Fe2As,Sm2O3,SmH2" "High-P synthesis. mixture - heat(1200C, P = 2GPa)" Hydrogen in layered iron arsenides: Indirect electron doping to induce superconductivity 2011 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 84(2011)024521"
155477 PRB084024521 "Tc(x) from J.Supercond.Novel Magn., 22(2009)565" "SmFeAs(O,H)" Sm1Fe1As1F0.06O0.94 Sm 1 Fe 1 As 1 F 0.06 O 0.94 1 2011 ABCD 2 oxypnictide P4/nmm 129 A "Fe-1111, ZrCuSiAs-type" K 36.4 36.4 MPH155477 "SmAs,FeAs,Fe2As,Sm2O3,SmH2" "High-P synthesis. mixture - heat(1200C, P = 2GPa)" Hydrogen in layered iron arsenides: Indirect electron doping to induce superconductivity 2011 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 84(2011)024521"
155478 PRB084024521 R(T) anomaly at 100K due to T-to-O transition. CaFeAsH Ca1Fe1As1H1 Ca 1 Fe 1 As 1 H 1 2011 ABCD 2 oxypnictide P4/nmm 129 A 3.8787 8.26 "Fe-1111, ZrCuSiAs-type. Below 100K, Ortho- (a = 5.4921, b = 5.4566, c = 8.2115 A)" K 2 mOhm.cm 2.74 "SmAs,FeAs,Fe2As,Sm2O3,SmH2" "High-P synthesis. mixture - heat(1200C, P = 2GPa)" Hydrogen in layered iron arsenides: Indirect electron doping to induce superconductivity 2011 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 84(2011)024521"
155479 PRB084024521 R(T) anomaly at 100K due to T-to-O transition. CaFeAsD Ca1Fe1As1D1 Ca 1 Fe 1 As 1 D 1 2011 ABCD 2 oxypnictide P4/nmm 129 A 3.876 8.257 "Fe-1111, ZrCuSiAs-type" K 2 mOhm.cm 3.1 "SmAs,FeAs,Fe2As,Sm2O3,SmH2" "High-P synthesis. mixture - heat(1200C, P = 2GPa)" Hydrogen in layered iron arsenides: Indirect electron doping to induce superconductivity 2011 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 84(2011)024521"
155480 PRB084024521 R(T) anomaly at 120K due to T-to-O transition. CaFeAsF Ca1Fe1As1F1 Ca 1 Fe 1 As 1 F 1 2011 ABCD 2 oxypnictide P4/nmm 129 A 3.879 8.5945 "Fe-1111, ZrCuSiAs-type" K 2 mOhm.cm 4.1 "SmAs,FeAs,Fe2As,Sm2O3,SmH2" "High-P synthesis. mixture - heat(1200C, P = 2GPa)" Hydrogen in layered iron arsenides: Indirect electron doping to induce superconductivity 2011 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 84(2011)024521"
155481 PRB084024521 H-content by TG-MS method. Not SC for 0 =< x =< 1 in CaFeAsF1-xHx. "CaFeAs(F,H)" Ca1Fe1As1F0.29H0.71 Ca 1 Fe 1 As 1 F 0.29 H 0.71 2011 ABCD 2 oxypnictide P4/nmm 129 A 3.8808 8.4064 "Fe-1111, ZrCuSiAs-type" K 2 MLAT155481 "SmAs,FeAs,Fe2As,Sm2O3,SmH2" "High-P synthesis. mixture - heat(1200C, P = 2GPa)" Hydrogen in layered iron arsenides: Indirect electron doping to induce superconductivity 2011 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 84(2011)024521"
155482 PRB085140516 Thick film (d = 150-250 nm). R(T) anomaly at 131 K (structure/magnetic transition) BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 4 2012 AB2C2 2 ThCr2Si2 A 3.9741 13.0015 Fe-122 K 2 Thick films were fabricated on MgO(001) single crystal ( Ts= 850C) by PLD method. La-added Ba-122 synthesized by solid state reaction Identical effects of indirect and direct electron doping of superconducting BaFe2As2 thin films 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, Mailbox R3-1, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 85(2012)140516"
155483 PRB085140516 Thick film (d = 150-250 nm). R(T) anomaly at 120 K (structure/magnetic transition) "(Ba,La)Fe2As2" Ba0.98La0.02Fe2As2 Ba 0.98 La 0.02 Fe 2 As 2 4 2012 AB2C2 2 ThCr2Si2 A 3.9861 12.9819 Fe-122 K 2 Thick films were fabricated on MgO(001) single crystal ( Ts= 850C) by PLD method. La-added Ba-122 synthesized by solid state reaction Identical effects of indirect and direct electron doping of superconducting BaFe2As2 thin films 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, Mailbox R3-1, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 85(2012)140516"
155484 PRB085140516 Thick film (d = 150-250 nm). R(T) anomaly at 72.8 K (structure/magnetic transition). Coexistence of SC and AFM. "(Ba,La)Fe2As2" Ba0.91La0.09Fe2As2 Ba 0.91 La 0.09 Fe 2 As 2 4 2012 AB2C2 2 ThCr2Si2 A 3.9648 12.9392 Fe-122 K 7.76 7.76 Thick films were fabricated on MgO(001) single crystal ( Ts= 850C) by PLD method. La-added Ba-122 synthesized by solid state reaction Identical effects of indirect and direct electron doping of superconducting BaFe2As2 thin films 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, Mailbox R3-1, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 85(2012)140516"
155485 PRB085140516 Thick film (d = 150-250 nm). "(Ba,La)Fe2As2" Ba0.86La0.14Fe2As2 Ba 0.86 La 0.14 Fe 2 As 2 4 2012 AB2C2 2 ThCr2Si2 A 3.9765 12.872 Fe-122 K 22.7 22.7 MPH155485 cm3/C -0.000184 MRH155485 Thick films were fabricated on MgO(001) single crystal ( Ts= 850C) by PLD method. La-added Ba-122 synthesized by solid state reaction Identical effects of indirect and direct electron doping of superconducting BaFe2As2 thin films 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, Mailbox R3-1, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 85(2012)140516"
155486 PRB085140516 Thick film (d = 150-250 nm). "(Ba,La)Fe2As2" Ba0.82La0.18Fe2As2 Ba 0.82 La 0.18 Fe 2 As 2 4 2012 AB2C2 2 ThCr2Si2 A 3.9462 12.8175 Fe-122 K 14.8 14.8 Thick films were fabricated on MgO(001) single crystal ( Ts= 850C) by PLD method. La-added Ba-122 synthesized by solid state reaction Identical effects of indirect and direct electron doping of superconducting BaFe2As2 thin films 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, Mailbox R3-1, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 85(2012)140516"
155487 PRB085140516 Thick film (d = 150-250 nm). "(Ba,La)Fe2As2" Ba0.76La0.24Fe2As2 Ba 0.76 La 0.24 Fe 2 As 2 4 2012 AB2C2 2 ThCr2Si2 A 3.9662 12.7784 Fe-122 K 5.02 5.02 Thick films were fabricated on MgO(001) single crystal ( Ts= 850C) by PLD method. La-added Ba-122 synthesized by solid state reaction Identical effects of indirect and direct electron doping of superconducting BaFe2As2 thin films 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, Mailbox R3-1, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 85(2012)140516"
155488 PRB085140516 Thick film (d = 150-250 nm). "(Ba,La)Fe2As2" Ba0.7La0.3Fe2As2 Ba 0.7 La 0.3 Fe 2 As 2 4 2012 AB2C2 2 ThCr2Si2 A 3.9696 12.658 Fe-122 K 2 Thick films were fabricated on MgO(001) single crystal ( Ts= 850C) by PLD method. La-added Ba-122 synthesized by solid state reaction Identical effects of indirect and direct electron doping of superconducting BaFe2As2 thin films 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, Mailbox R3-1, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 85(2012)140516"
155489 PRB085140516 Thick film (d = 150-250 nm). "(Ba,La)Fe2As2" Ba0.56La0.44Fe2As2 Ba 0.56 La 0.44 Fe 2 As 2 4 2012 AB2C2 2 ThCr2Si2 A 3.9619 12.5472 Fe-122 K 2 Thick films were fabricated on MgO(001) single crystal ( Ts= 850C) by PLD method. La-added Ba-122 synthesized by solid state reaction Identical effects of indirect and direct electron doping of superconducting BaFe2As2 thin films 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, Mailbox R3-1, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 85(2012)140516"
155490 PRB087020504 impurity phase: Bi2S3(15%). Semiconductor (gap = 38.2 meV from R(T) analysis) SrFBiS2 Sr1Bi1S2F1 Sr 1 Bi 1 S 2 F 1 1 2013 ABCD2 CeOBiS2 A 4.082 13.8025 BiS2-layered SC K 0.4 "La2S3,SrS,SrF2,Bi,S" "mixture - pellet - heat(1073K,10h, in evacuated quartz tube) - FC to RT" Superconductivity induced by La doping in Sr1-xLaxFBiS2 2013 "Department of Physics, Hangzhou Normal University, Hangzhou 310036, China" "Phys.Rev.B, 87(2013)020504"
155491 PRB087020504 impurity phase: Bi2S3(25%). Lattice term in SP (beta) = 0.414 mJ/mol.K4. (dC/gamma*Tc) = 1.4. "(Sr,La)FBiS2" Sr0.5La0.5Bi1S2F1 Sr 0.5 La 0.5 Bi 1 S 2 F 1 1 2013 ABCD2 CeOBiS2 4.0822 13.335 BiS2-layered SC K 2.8 2.8 30 T "RES(R=0.9Rn), GL theory" 1.04 MHC155491 mJ/mol.K2 1.42 SP 265 SP MRH155491 "La2S3,SrS,SrF2,Bi,S" "mixture - pellet - heat(1073K,10h, in evacuated quartz tube) - FC to RT" Superconductivity induced by La doping in Sr1-xLaxFBiS2 2013 "Department of Physics, Hangzhou Normal University, Hangzhou 310036, China" "Phys.Rev.B, 87(2013)020504"
155492 PRB087224507 "SP data, best fitting to two gap model. [gamma-1] = 3.44, [gamma-2] = 6.35, totall [gamma] = 12.5 mJ/mol.K2. (dC/gamma*Tc) = 1.6. R(T) = R(0) + AT^2 A=3.2 nOhm.cm for T<32K." SrPt2As2 Sr1Pt2As2 Sr 1 Pt 2 As 2 3 2013 AB2C2 CaBe2Ge2 K 4.6 4.6 T RES(0.9Rn) T/K RES(0.9Rn) 0.92 MHC155492 mOhm.cm 0.078 Single crystals synthesized by self-melting technique. Evidence for two energy gaps and Fermi liquid behavior in the SrPt2As2 superconductor 2013 "Department of Physics, Hangzhou Normal University, Hangzhou 310036, China" "Phys.Rev.B, 87(2013)224507"
155493 PRB073180505 "Tc(lat-c) and Tc(p) measured. hole density as a function of lattice const. c, p = 11.491y + 5.17E+9*y^6 where y = 1-c/c0, c0 = 1.18447 nm" YBa2Cu3O6+z Y1Ba2Cu3O6 Y 1 Ba 2 Cu 3 O 6+z 6 3 2006 AB2C3D7 Y123 K 0 High-purity(4N5) YBCO crystals grown in Ba-zirconate crucible. Evaluation of CuO2 plane hole doping in YBa2Cu3O6+x single crystals 2006 "Department of Physics and Astronomy, University of British Columbia, 6224 Agricultural Road, Vancouver, British Columbia V6T 1Z1, Canada" "Phys.Rev.B, 73(2006)180505"
155494 PRB073180505 "Tc(lat-c) and Tc(p) measured. hole density as a function of lattice const. c, p = 11.491y + 5.17E+9*y^6 where y = 1-c/c0, c0 = 1.18447 nm" YBa2Cu3O6+z Y1Ba2Cu3O6.5 Y 1 Ba 2 Cu 3 O 6+z 6.5 3 2006 AB2C3D7 Y123 K 54.1 54.1 MTC155494 High-purity(4N5) YBCO crystals grown in Ba-zirconate crucible. Evaluation of CuO2 plane hole doping in YBa2Cu3O6+x single crystals 2006 "Department of Physics and Astronomy, University of British Columbia, 6224 Agricultural Road, Vancouver, British Columbia V6T 1Z1, Canada" "Phys.Rev.B, 73(2006)180505"
155495 PRB073180505 "Tc(lat-c) and Tc(p) measured. hole density as a function of lattice const. c, p = 11.491y + 5.17E+9*y^6 where y = 1-c/c0, c0 = 1.18447 nm" YBa2Cu3O6+z Y1Ba2Cu3O6.67 Y 1 Ba 2 Cu 3 O 6+z 6.67 3 2006 AB2C3D7 Y123 K 60.6 60.6 MTC155494 High-purity(4N5) YBCO crystals grown in Ba-zirconate crucible. Evaluation of CuO2 plane hole doping in YBa2Cu3O6+x single crystals 2006 "Department of Physics and Astronomy, University of British Columbia, 6224 Agricultural Road, Vancouver, British Columbia V6T 1Z1, Canada" "Phys.Rev.B, 73(2006)180505"
155496 PRB073180505 "Tc(lat-c) and Tc(p) measured. hole density as a function of lattice const. c, p = 11.491y + 5.17E+9*y^6 where y = 1-c/c0, c0 = 1.18447 nm" YBa2Cu3O6+z Y1Ba2Cu3O6.75 Y 1 Ba 2 Cu 3 O 6+z 6.75 3 2006 AB2C3D7 Y123 K 75.3 75.3 High-purity(4N5) YBCO crystals grown in Ba-zirconate crucible. Evaluation of CuO2 plane hole doping in YBa2Cu3O6+x single crystals 2006 "Department of Physics and Astronomy, University of British Columbia, 6224 Agricultural Road, Vancouver, British Columbia V6T 1Z1, Canada" "Phys.Rev.B, 73(2006)180505"
155497 PRB081134422 Not SC for 0 =< x =< 1 in CeFeAs1-xPxO. Tn = 134 K for Fe-AFM. "CeFe(As,P)O" Ce1Fe1As0.9P0.1O1 Ce 1 Fe 1 As 0.9 P 0.1 O 1 1 2010 134 ABCD 2 oxypnictide P4/nmm 129 A 3.9967 8.5995 "Fe-1111, ZrCuSiAs-type" K 2 "CeAs,CeP,CeO2,FeAs,FeP" solid state reaction. mixture - pellet - sealed in evacuated quartz tube - heat to 1448 K -keep(50h) "Phase diagram of CeFeAs1-xPxO obtained from electrical resistivity, magnetization, and specific heat measurements" 2010 "State Key Laboratory of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 81(2010)134422"
155498 PRB081134422 Not SC for 0 =< x =< 1 in CeFeAs1-xPxO. Tn = 4.12 K for Ce-AFM. Tm = 4.49 K for Ce-FM. "CeFe(As,P)O" Ce1Fe1As0.63P0.37O1 Ce 1 Fe 1 As 0.63 P 0.37 O 1 1 2010 44.1 ABCD 2 oxypnictide P4/nmm 129 "Fe-1111, ZrCuSiAs-type" K 2 MPH155498 "CeAs,CeP,CeO2,FeAs,FeP" solid state reaction. mixture - pellet - sealed in evacuated quartz tube - heat to 1448 K -keep(50h) "Phase diagram of CeFeAs1-xPxO obtained from electrical resistivity, magnetization, and specific heat measurements" 2010 "State Key Laboratory of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 81(2010)134422"
155499 PRB081134422 Not SC for 0 =< x =< 1 in CeFeAs1-xPxO. Tn = 44.1 K for Fe-AFM.Tm = 10.8 K for Ce-FM "CeFe(As,P)O" Ce1Fe1As0.4P0.6O1 Ce 1 Fe 1 As 0.4 P 0.6 O 1 1 2010 ABCD 2 oxypnictide P4/nmm 129 A 3.9586 8.4456 "Fe-1111, ZrCuSiAs-type" K 2 MPH155498 "CeAs,CeP,CeO2,FeAs,FeP" solid state reaction. mixture - pellet - sealed in evacuated quartz tube - heat to 1448 K -keep(50h) "Phase diagram of CeFeAs1-xPxO obtained from electrical resistivity, magnetization, and specific heat measurements" 2010 "State Key Laboratory of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 81(2010)134422"
155500 PRB089094501 R not zero down to 0K. Tanom = 80 K. "Ce(Fe,Co)AsH" Ce1Fe0.98Co0.02As1H1 Ce 1 Fe 0.98 Co 0.02 As 1 H 1 1 2014 ABCD 2 oxypnictide P4/nmm A 3.8788 8.2601 "Fe-1111, ZrCuSiAs-type" K 2 2 0 mOhm.cm 3.8 3.59 "CaAs,CaH2,Fe2As,Co2As" "starting material mixture - in BN capsule with Ca(OH)2, NaBH4 as a excess H source - heat (1273K,30min, P=2 GPa)" Enhancing the three-dimensional electronic structure in 1111-type iron arsenide superconductors by H substitution 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)094501"
155501 PRB089094501 R not zero down to 0K. Tanom = 55 K. "Ce(Fe,Co)AsH" Ce1Fe0.96Co0.04As1H1 Ce 1 Fe 0.96 Co 0.04 As 1 H 1 1 2014 ABCD 2 oxypnictide P4/nmm A 3.8793 8.249 "Fe-1111, ZrCuSiAs-type" K 2 2 0 mOhm.cm 4.32 4.61 "CaAs,CaH2,Fe2As,Co2As" "starting material mixture - in BN capsule with Ca(OH)2, NaBH4 as a excess H source - heat (1273K,30min, P=2 GPa)" Enhancing the three-dimensional electronic structure in 1111-type iron arsenide superconductors by H substitution 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)094501"
155502 PRB089094501 Co-rich phase 7.3% "Ce(Fe,Co)AsH" Ce1Fe0.93Co0.07As1H1 Ce 1 Fe 0.93 Co 0.07 As 1 H 1 1 2014 ABCD 2 oxypnictide P4/nmm A 3.8804 8.2395 "Fe-1111, ZrCuSiAs-type" K 23 23 MPH155502 15 mOhm.cm 3.53 4.03 "CaAs,CaH2,Fe2As,Co2As" "starting material mixture - in BN capsule with Ca(OH)2, NaBH4 as a excess H source - heat (1273K,30min, P=2 GPa)" Enhancing the three-dimensional electronic structure in 1111-type iron arsenide superconductors by H substitution 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)094501"
155503 PRB089094501 Co-rich phase 7.9% "Ce(Fe,Co)AsH" Ce1Fe0.91Co0.09As1H1 Ce 1 Fe 0.91 Co 0.09 As 1 H 1 1 2014 ABCD 2 oxypnictide P4/nmm A 3.8806 8.2317 "Fe-1111, ZrCuSiAs-type" K 23 23 25 mOhm.cm 3.24 3.06 "CaAs,CaH2,Fe2As,Co2As" "starting material mixture - in BN capsule with Ca(OH)2, NaBH4 as a excess H source - heat (1273K,30min, P=2 GPa)" Enhancing the three-dimensional electronic structure in 1111-type iron arsenide superconductors by H substitution 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)094501"
155504 PRB089094501 Co-rich phase: 9.54 % "Ce(Fe,Co)AsH" Ce1Fe0.88Co0.12As1H1 Ce 1 Fe 0.88 Co 0.12 As 1 H 1 1 2014 ABCD 2 oxypnictide P4/nmm A 3.881 8.2254 "Fe-1111, ZrCuSiAs-type" K 23 23 MPH155502 58 mOhm.cm 3.52 3.4 "CaAs,CaH2,Fe2As,Co2As" "starting material mixture - in BN capsule with Ca(OH)2, NaBH4 as a excess H source - heat (1273K,30min, P=2 GPa)" Enhancing the three-dimensional electronic structure in 1111-type iron arsenide superconductors by H substitution 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)094501"
155505 PRB089094501 Co-rich phase: 15.8 % "Ce(Fe,Co)AsH" Ce1Fe0.83Co0.17As1H1 Ce 1 Fe 0.83 Co 0.17 As 1 H 1 1 2014 ABCD 2 oxypnictide P4/nmm A 3.8816 8.2015 "Fe-1111, ZrCuSiAs-type" K 19.5 19.5 34 mOhm.cm 4.67 4.3 "CaAs,CaH2,Fe2As,Co2As" "starting material mixture - in BN capsule with Ca(OH)2, NaBH4 as a excess H source - heat (1273K,30min, P=2 GPa)" Enhancing the three-dimensional electronic structure in 1111-type iron arsenide superconductors by H substitution 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)094501"
155506 PRB089094501 Co-rich phase: 19.2 % "Ce(Fe,Co)AsH" Ce1Fe0.78Co0.22As1H1 Ce 1 Fe 0.78 Co 0.22 As 1 H 1 1 2014 ABCD 2 oxypnictide P4/nmm A 3.8825 8.1935 "Fe-1111, ZrCuSiAs-type" K 13.5 13.5 54 mOhm.cm 2.73 2.4 "CaAs,CaH2,Fe2As,Co2As" "starting material mixture - in BN capsule with Ca(OH)2, NaBH4 as a excess H source - heat (1273K,30min, P=2 GPa)" Enhancing the three-dimensional electronic structure in 1111-type iron arsenide superconductors by H substitution 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)094501"
155507 PRB089094501 Co-rich phase: 23.0 % "Ce(Fe,Co)AsH" Ce1Fe0.74Co0.26As1H1 Ce 1 Fe 0.74 Co 0.26 As 1 H 1 1 2014 ABCD 2 oxypnictide P4/nmm A 3.8827 8.1792 "Fe-1111, ZrCuSiAs-type" K 10 10 32 mOhm.cm 3.4 3.14 "CaAs,CaH2,Fe2As,Co2As" "starting material mixture - in BN capsule with Ca(OH)2, NaBH4 as a excess H source - heat (1273K,30min, P=2 GPa)" Enhancing the three-dimensional electronic structure in 1111-type iron arsenide superconductors by H substitution 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)094501"
155508 PRB089094501 Co-rich phase: 27.7 % "Ce(Fe,Co)AsH" Ce1Fe0.69Co0.31As1H1 Ce 1 Fe 0.69 Co 0.31 As 1 H 1 1 2014 ABCD 2 oxypnictide P4/nmm A 3.8841 8.1618 "Fe-1111, ZrCuSiAs-type" K 0 0 0 mOhm.cm 2.01 1.93 "CaAs,CaH2,Fe2As,Co2As" "starting material mixture - in BN capsule with Ca(OH)2, NaBH4 as a excess H source - heat (1273K,30min, P=2 GPa)" Enhancing the three-dimensional electronic structure in 1111-type iron arsenide superconductors by H substitution 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)094501"
155509 PRB089094510 SmFeAsO1-xHx Sm1Fe1As1H0.22O0.78 Sm 1 Fe 1 As 1 H 0.22 O 0.78 1 2014 ABCD 2 oxypnictide P4/nmm A 3.9112 8.4412 "Fe-1111, ZrCuSiAs-type" K 50 50 MTC155509 "SmAs,FeAs,Fe2As,Fe2P,Sm2O3,SmH2" Samples synthesized by solid state reaction using belt-type high-P anvil. H-content evaluated by thermal desorption spectroscopy. Controlling factors of Tc dome structure in 1111-type iron arsenide superconductors 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)094510"
155510 PRB089094510 SmFeAs1-yPyO1-xHx Sm1Fe1As0.77P0.23H0.11O0.89 Sm 1 Fe 1 As 0.77 P 0.23 H 0.11 O 0.89 1 2014 ABCD 2 oxypnictide P4/nmm A 3.9143 8.3763 "Fe-1111, ZrCuSiAs-type" K 31 28 28 MTC155510 "SmAs,FeAs,Fe2As,Fe2P,Sm2O3,SmH2" Samples synthesized by solid state reaction using belt-type high-P anvil. H-content evaluated by thermal desorption spectroscopy. Controlling factors of Tc dome structure in 1111-type iron arsenide superconductors 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)094510"
155511 PRB089094510 SmFeAs1-yPyO1-xHx Sm1Fe1As0.77P0.23H0.2O0.8 Sm 1 Fe 1 As 0.77 P 0.23 H 0.2 O 0.8 1 2014 ABCD 2 oxypnictide P4/nmm A 3.8943 8.3527 "Fe-1111, ZrCuSiAs-type" K 44.5 36 36 "SmAs,FeAs,Fe2As,Fe2P,Sm2O3,SmH2" Samples synthesized by solid state reaction using belt-type high-P anvil. H-content evaluated by thermal desorption spectroscopy. Controlling factors of Tc dome structure in 1111-type iron arsenide superconductors 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)094510"
155512 PRB089094510 SmFeAs1-yPyO1-xHx Sm1Fe1As0.55P0.45H0.08O0.92 Sm 1 Fe 1 As 0.55 P 0.45 H 0.08 O 0.92 1 2014 ABCD 2 oxypnictide P4/nmm A 3.9034 8.3253 "Fe-1111, ZrCuSiAs-type" K 22.5 19 19 MTC155512 "SmAs,FeAs,Fe2As,Fe2P,Sm2O3,SmH2" Samples synthesized by solid state reaction using belt-type high-P anvil. H-content evaluated by thermal desorption spectroscopy. Controlling factors of Tc dome structure in 1111-type iron arsenide superconductors 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)094510"
155513 PRB089094510 SmFeAs1-yPyO1-xHx Sm1Fe1As0.55P0.45H0.16O0.84 Sm 1 Fe 1 As 0.55 P 0.45 H 0.16 O 0.84 1 2014 ABCD 2 oxypnictide P4/nmm A 3.8947 8.3107 "Fe-1111, ZrCuSiAs-type" K 18 11 11 "SmAs,FeAs,Fe2As,Fe2P,Sm2O3,SmH2" Samples synthesized by solid state reaction using belt-type high-P anvil. H-content evaluated by thermal desorption spectroscopy. Controlling factors of Tc dome structure in 1111-type iron arsenide superconductors 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)094510"
155514 PRB089094510 SmFeAs1-yPyO1-xHx Sm1Fe1As0.55P0.45H0.26O0.74 Sm 1 Fe 1 As 0.55 P 0.45 H 0.26 O 0.74 1 2014 ABCD 2 oxypnictide P4/nmm A 3.8774 8.2804 "Fe-1111, ZrCuSiAs-type" K 24 17 17 "SmAs,FeAs,Fe2As,Fe2P,Sm2O3,SmH2" Samples synthesized by solid state reaction using belt-type high-P anvil. H-content evaluated by thermal desorption spectroscopy. Controlling factors of Tc dome structure in 1111-type iron arsenide superconductors 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)094510"
155515 PRB089094510 SmFeAs1-yPyO1-xHx Sm1Fe1As0.47P0.53H0.09O0.91 Sm 1 Fe 1 As 0.47 P 0.53 H 0.09 O 0.91 1 2014 ABCD 2 oxypnictide P4/nmm A 3.896 8.2938 "Fe-1111, ZrCuSiAs-type" K 13.5 10.5 10.5 MTC155515 "SmAs,FeAs,Fe2As,Fe2P,Sm2O3,SmH2" Samples synthesized by solid state reaction using belt-type high-P anvil. H-content evaluated by thermal desorption spectroscopy. Controlling factors of Tc dome structure in 1111-type iron arsenide superconductors 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)094510"
155516 PRB089094510 SmFeAs1-yPyO1-xHx Sm1Fe1As0.47P0.53H0.15O0.85 Sm 1 Fe 1 As 0.47 P 0.53 H 0.15 O 0.85 1 2014 ABCD 2 oxypnictide P4/nmm A 3.8843 8.2671 "Fe-1111, ZrCuSiAs-type" K 4 0 0 "SmAs,FeAs,Fe2As,Fe2P,Sm2O3,SmH2" Samples synthesized by solid state reaction using belt-type high-P anvil. H-content evaluated by thermal desorption spectroscopy. Controlling factors of Tc dome structure in 1111-type iron arsenide superconductors 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)094510"
155517 PRB089094510 SmFeAs1-yPyO1-xHx Sm1Fe1As0.47P0.53H0.24O0.76 Sm 1 Fe 1 As 0.47 P 0.53 H 0.24 O 0.76 1 2014 ABCD 2 oxypnictide P4/nmm A 3.8726 8.2479 "Fe-1111, ZrCuSiAs-type" K 12.5 5.5 5.5 "SmAs,FeAs,Fe2As,Fe2P,Sm2O3,SmH2" Samples synthesized by solid state reaction using belt-type high-P anvil. H-content evaluated by thermal desorption spectroscopy. Controlling factors of Tc dome structure in 1111-type iron arsenide superconductors 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.B, 89(2014)094510"
155518 PRB089220509 Tc and Hc2 measured for P < 7.1 GPa. R(T)= R0 +A*T^2. A decreases with P. (dHc2/dT) has linear dependence of A. . KFe2As2 K1Fe2As2 K 1 Fe 2 As 2 3 2014 AB2C2 ThCr2Si2 Fe-122 K 3.58 3.5 3.5 MTC155518 T RES(zero) 1.6 0.5 MHC155518 single crystals grown by KAs flux method. Upper critical field of KFe2As2 under pressure: A test for the change in the superconducting gap structure 2014 "Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)220509"
155519 PRB091054511 Pc(critical P where the sign of (dTc/dP) change to plus) = 11 kbar. RH = RH(0) + A*T^2 for T^2 < 12 K2. RbFe2As2 Rb1Fe2As2 Rb 1 Fe 2 As 2 3 2015 AB2C2 ThCr2Si2 A 3.86 14.45 Fe-122 K 2.5 2.5 MTC155519 T RES(zero) MHC155519 uOhm.cm 0.8 mm3/C 0.72 MRH155519 single crystals grown by self flux method. "Universal V-shaped temperature-pressure phase diagram in the iron-based superconductors KFe2As2, RbFe2As2, and CsFe2As2" 2015 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada" "Phys.Rev.B, 91(2015)054511"
155520 PRB091054511 RESN = 0.2 uOhm.cm. Pc(critical P where the sign of (dTc/dP) change to plus) = 17.5 kbar. RH = RH(0) + A*T^2 for T^2 < 12 K2. KFe2As2 K1Fe2As2 K 1 Fe 2 As 2 3 2015 AB2C2 ThCr2Si2 A 3.84 13.84 Fe-122 K 3.6 3.6 MTC155520 uOhm.cm 0.2 mm3/C 0.4 MRH155519 single crystals grown by self flux method. "Universal V-shaped temperature-pressure phase diagram in the iron-based superconductors KFe2As2, RbFe2As2, and CsFe2As2" 2015 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada" "Phys.Rev.B, 91(2015)054511"
155521 PRB091054511 RESN = 1.3 uOhm.cm. Pc(critical P where the sign of (dTc/dP) change to plus) = 17.5 kbar. KFe2As2 K1Fe2As2 K 1 Fe 2 As 2 3 2015 AB2C2 ThCr2Si2 Fe-122 K 3.1 3.1 MTC155521 T RES(zero) MHC155521 uOhm.cm 1.3 single crystals grown by self flux method. "Universal V-shaped temperature-pressure phase diagram in the iron-based superconductors KFe2As2, RbFe2As2, and CsFe2As2" 2015 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada" "Phys.Rev.B, 91(2015)054511"
155522 PRB091054511 Pc(critical P where the sign of (dTc/dP) change to plus) = 14 kbar. RH = RH(0) + A*T^2 for T^2 < 12 K2. CsFe2As2 Cs1Fe2As2 Cs 1 Fe 2 As 2 3 2015 AB2C2 ThCr2Si2 A 3.89 15.07 Fe-122 K 1.8 1.8 MTC155522 uOhm.cm 1.5 mm3/C 0.27 MRH155519 single crystals grown by self flux method. "Universal V-shaped temperature-pressure phase diagram in the iron-based superconductors KFe2As2, RbFe2As2, and CsFe2As2" 2015 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada" "Phys.Rev.B, 91(2015)054511"
155523 PRB091054511 KFe2As2 K1Fe2As2 K 1 Fe 2 As 2 3 2015 AB2C2 ThCr2Si2 Fe-122 K single crystals grown by self flux method. "Universal V-shaped temperature-pressure phase diagram in the iron-based superconductors KFe2As2, RbFe2As2, and CsFe2As2" 2015 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada" "Phys.Rev.B, 91(2015)054511"
155524 PRB091054511 RbFe2As2 Rb1Fe2As2 Rb 1 Fe 2 As 2 3 2015 AB2C2 ThCr2Si2 Fe-122 K single crystals grown by self flux method. "Universal V-shaped temperature-pressure phase diagram in the iron-based superconductors KFe2As2, RbFe2As2, and CsFe2As2" 2015 "Departement de physique & RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, Canada" "Phys.Rev.B, 91(2015)054511"
155525 PRB089220509 KFe2As2 K1Fe2As2 K 1 Fe 2 As 2 3 2014 AB2C2 ThCr2Si2 Fe-122 K 3.58 3.5 3.5 T RES(zero) 1.6 0.5 MHC155525 single crystals grown by KAs flux method. Upper critical field of KFe2As2 under pressure: A test for the change in the superconducting gap structure 2014 "Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)220509"
155526 PRL106057002 "Samples decomposed at ambient atmosphere, then stored in deciccate(vac)." LaNi0.65Bi2 La1Ni0.65Bi2 La 1 Ni 0.65 Bi 2 1 2011 ABC2 ZrCuSiAs A 4.5599 9.7544 K 4 4 1 Oe M-H curve 90 2 "La(Ce or Nd or Y),Ni,Bi" "solid state reaction. mixture - heat(773K,10h, in silica ampoule) - heat(1023K,20h) - reground - pellet - heat(1073K,10h)" Coexistence of Light and Heavy Carriers Associated with Superconductivity and Antiferromagnetism in CeNi0.8Bi2 with a Bi Square Net 2011 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.Lett., 106(2011)057002"
155527 PRL106057002 "Samples decomposed at ambient atmosphere, then stored in deciccate(vac). . [gamma] comtains two contributions of SC and AFM electrons" CeNi0.80Bi2 Ce1Ni0.8Bi2 Ce 1 Ni 0.8 Bi 2 1 2011 ABC2 ZrCuSiAs A 4.5439 9.6414 K 4 4.2 4.1 96 Oe M-H curve 65 2 "La(Ce or Nd or Y),Ni,Bi" "solid state reaction. mixture - heat(773K,10h, in silica ampoule) - heat(1023K,20h) - reground - pellet - heat(1073K,10h)" Coexistence of Light and Heavy Carriers Associated with Superconductivity and Antiferromagnetism in CeNi0.8Bi2 with a Bi Square Net 2011 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.Lett., 106(2011)057002"
155528 PRL106057002 "Samples decomposed at ambient atmosphere, then stored in deciccate(vac)." NdNi0.89Bi2 Nd1Ni0.89Bi2 Nd 1 Ni 0.89 Bi 2 1 2011 ABC2 ZrCuSiAs A 4.519 9.532 K 4.1 4.1 14 Oe M-H curve 55 2 "La(Ce or Nd or Y),Ni,Bi" "solid state reaction. mixture - heat(773K,10h, in silica ampoule) - heat(1023K,20h) - reground - pellet - heat(1073K,10h)" Coexistence of Light and Heavy Carriers Associated with Superconductivity and Antiferromagnetism in CeNi0.8Bi2 with a Bi Square Net 2011 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.Lett., 106(2011)057002"
155529 PRL106057002 "Samples decomposed at ambient atmosphere, then stored in deciccate(vac)." YNi0.82Bi2 Y1Ni0.82Bi2 Y 1 Ni 0.82 Bi 2 1 2011 ABC2 ZrCuSiAs A 4.4835 9.3003 K 4.1 4.1 17 Oe M-H curve 67 2 J/mol.K2 0.4 SP "La(Ce or Nd or Y),Ni,Bi" "solid state reaction. mixture - heat(773K,10h, in silica ampoule) - heat(1023K,20h) - reground - pellet - heat(1073K,10h)" Coexistence of Light and Heavy Carriers Associated with Superconductivity and Antiferromagnetism in CeNi0.8Bi2 with a Bi Square Net 2011 "Frontier Research Center, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan" "Phys.Rev.Lett., 106(2011)057002"
155530 PRL109097002 "T=138(heating), 132(cooling) K. (dC/gamma*Tc) = 1.3." BaNi2As2 Ba1Ni2As2 Ba 1 Ni 2 As 2 3 2012 AB2C2 ThCr2Si2 I4/mmm A 4.1478 11.6184 tetra-to-triclinic transition at 132 K. K 0.575 0.575 "Ba,NiAs,Ni,P" "self-flux method. mixture - alumina crucible - sealed in quartz tube - heat(700C,3h) - slow heating to 1150C - cool to 1000C(2 C/h) - FC to RT." Giant Phonon Softening and Enhancement of Superconductivity by Phosphorus Doping of BaNi2As2 2012 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.Lett., 109(2012)097002"
155531 PRL109097002 "T=123(heating), 118(cooling) K. (dC/gamma*Tc) = 1.3." "BaNi2(As1-x,Px)2" Ba1Ni2As1.972P0.028 Ba 1 Ni 2 As 1.972 P 0.028 3 2012 AB2C2 ThCr2Si2 I4/mmm A 4.1394 11.6195 tetra-to-triclinic transition at 118 K. K 0.634 0.634 "Ba,NiAs,Ni,P" "self-flux method. mixture - alumina crucible - sealed in quartz tube - heat(700C,3h) - slow heating to 1150C - cool to 1000C(2 C/h) - FC to RT." Giant Phonon Softening and Enhancement of Superconductivity by Phosphorus Doping of BaNi2As2 2012 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.Lett., 109(2012)097002"
155532 PRL109097002 "T=84(heating), 76(cooling) K. (dC/gamma*Tc) = 1.3." "BaNi2(As1-x,Px)2" Ba1Ni2As1.902P0.098 Ba 1 Ni 2 As 1.902 P 0.098 3 2012 AB2C2 ThCr2Si2 I4/mmm A 4.1358 11.6302 tetra-to-triclinic transition at 76 K. K 0.763 0.763 MPH155533 "Ba,NiAs,Ni,P" "self-flux method. mixture - alumina crucible - sealed in quartz tube - heat(700C,3h) - slow heating to 1150C - cool to 1000C(2 C/h) - FC to RT." Giant Phonon Softening and Enhancement of Superconductivity by Phosphorus Doping of BaNi2As2 2012 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.Lett., 109(2012)097002"
155533 PRL109097002 (dC/gamma*Tc) = 1.9. Logarithmic averaged phonon frequency = 53.4 K. "BaNi2(As1-x,Px)2" Ba1Ni2As1.846P0.154 Ba 1 Ni 2 As 1.846 P 0.154 3 2012 AB2C2 ThCr2Si2 I4/mmm A 4.1339 11.6274 K 3.28 3.28 MPH155533 MSP155533 "Ba,NiAs,Ni,P" "self-flux method. mixture - alumina crucible - sealed in quartz tube - heat(700C,3h) - slow heating to 1150C - cool to 1000C(2 C/h) - FC to RT." Giant Phonon Softening and Enhancement of Superconductivity by Phosphorus Doping of BaNi2As2 2012 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.Lett., 109(2012)097002"
155534 PRL109097002 (dC/gamma*Tc) = 11.78. Logarithmic averaged phonon frequency = 66.8 K. "BaNi2(As1-x,Px)2" Ba1Ni2As1.816P0.184 Ba 1 Ni 2 As 1.816 P 0.184 3 2012 AB2C2 ThCr2Si2 I4/mmm A 4.1248 11.6412 K 3.27 3.27 MSP155534 "Ba,NiAs,Ni,P" "self-flux method. mixture - alumina crucible - sealed in quartz tube - heat(700C,3h) - slow heating to 1150C - cool to 1000C(2 C/h) - FC to RT." Giant Phonon Softening and Enhancement of Superconductivity by Phosphorus Doping of BaNi2As2 2012 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.Lett., 109(2012)097002"
155535 PRL109097002 (dC/gamma*Tc) = 11.60. Logarithmic averaged phonon frequency = 103.8 K. Solubility limit x = 0.13 for BaNi2(As1-xPx)2 "BaNi2(As1-x,Px)2" Ba1Ni2As1.792P0.208 Ba 1 Ni 2 As 1.792 P 0.208 3 2012 AB2C2 ThCr2Si2 I4/mmm A 4.1242 11.6386 K 3.24 3.24 "Ba,NiAs,Ni,P" "self-flux method. mixture - alumina crucible - sealed in quartz tube - heat(700C,3h) - slow heating to 1150C - cool to 1000C(2 C/h) - FC to RT." Giant Phonon Softening and Enhancement of Superconductivity by Phosphorus Doping of BaNi2As2 2012 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.Lett., 109(2012)097002"
155536 PRX004031055 "P-induced SC. Tc shows Tc(max) at P=21.7 GPa.. For every pressures, R(T) = R0 + A*T^n* R0, A, n are in Fig -data MPH155536." CeAu2Si2 Ce1Au2Si2 Ce 1 Au 2 Si 2 3 2014 AB2C2 ThCr2Si2 Fe-122 K 2.33 2.58 0 2.455 MPH155536 "Ce(4N),Au(5N),Si(6N)" "Au-Si self-flux method. Ce0.05Au0.475Si0.475 are melted in alumina crucible - hold(1120C,6h) cool to 850C (1.2 C/h)" Giant Overlap between the Magnetic and Superconducting Phases of CeAu2Si2 under Pressure 2014 "DPMC-University of Geneva, 24 Quai Ernest-Ansermet, 1211 Geneva 4, Switzerland" "Phys.Rev.X, 4(2014)031055"
155537 PSS0080845 Lattice term in SP (beta) = 2.6 mJ/mol.K4. (dC/gamma*Tc) = 1.42. GL (kappa) = 56.5 from Hc1. Compositions by EDX. Hall coeff. independent of H for H<1T. Bi3O2S3 Bi3S3O3 Bi 3 S 3 O 3 1 2014 A2B3C3 I4/mmm A 3.9674 41.2825 K 5.8 5.1 5.1 96.5 Oe "M-H curve, GL theory" 30.5 25 2 T "RES(on), WHH" 4.84 MHC155537 A from Hc2 82.4 A "GL parameter, cohere" 4660 MSP155537 mJ/mol.K2 1.65 SP 182 SP mOhm.cm 3 m3/C -0.000000395 1 MRH155537 "mixture - pellet - sealed in quartz tube - heat(430C,2h) -Q to ice - (repeat) - heat(430C,15h) - Q - (repeat) - SIN(520C,17H)" Bulk superconductivity in single-phase Bi3O2S3 2014 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, P.R. China" "Phys.Status Solidi PRL, 8(2014)845"
155538 SCI3231585 A15-type Cs3C60. P-induced SC. Pc = 2.6 kbar. AFI(antiferromag-insulator) state at ambient-P. Tc(max) = 38 K at 7 kbar. Compressibility(14.6 K) = 0.054 GPa(-1) Cs3C60 Cs3C60 Cs 3 C 60 2009 46 GPa 18.5 A3B60 fullerene Pm3[-]n K 38 0 38 MPH155538 The Disorder-Free Non-BCS Superconductor Cs3C60 Emerges from an Antiferromagnetic Insulator Parent State 2009 "Department of Chemistry, University of Durham, Durham DH1 3LE, UK" "Science, 323(2009)1585"
155539 SCIR0033101 Single crystals separated from the mixture. R(T) measured for ab plane. Ca10(Ir4As8)(Fe2As2)5 Ca10Ir4Fe10As18 Ca 10 Ir 4 Fe 10 As 18 3 2013 P4/n 85 Ca-10-4-8 K 17 20 16 2 16 83 mOhm.cm 0.454 0.284 0.613 cm3/C -0.000328 MRH155539 "Ca,FeAs,IrAs2,Ir" "mixture - in alumina crucible - sealed in quartz tube - heat(700C,3h) - heat(1100-1150C,10-40h) - Q to ice" Superconductivity in Ca10(Ir4As8)(Fe2As2)5 with Square-Planar Coordination of Iridium 2013 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Science Peports, 3(2013)3101"
155540 SSC1940006 "P = 0 GPa. Impurity phase: Bi, hydrostatic pressure." "Ce(O,F)BiS2" Ce1Bi1S2F0.5O0.5 Ce 1 Bi 1 S 2 F 0.5 O 0.5 2014 ABCD2 CeOBiS2 P4/nmm A 4.037 13.407 BiS2 layer-SC K 2.2 2.7 2.45 MTC155540 T "RES(0.9Rn), WHH" 1.5 T/K RES(0.9Rn) 0.79 MHC155540 "Ce,Bi,S,CeF3,CeO2" "mixture - pellet - sealed in quartz tube - heat to 700 C(2 C/h) - keep(700C,12h) - slow cool to RT (within 6h)" Significant enhancement of superconductivity under Hydrostatic pressure in CeO0.5F0.5BiS2 superconductor 2014 "CSIR-National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi 110012, India" "Solid State Commun., 194(2014)6"
155541 SSC1940006 "P = 1.97 GPa. Impurity phase: Bi, hydrostatic pressure." "Ce(O,F)BiS2" Ce1Bi1S2F0.5O0.5 Ce 1 Bi 1 S 2 F 0.5 O 0.5 2014 ABCD2 CeOBiS2 P4/nmm BiS2 layer-SC K 6.96 8.28 7.62 MTC155540 T "RES(0.9Rn), WHH" 4.8 T/K RES(0.9Rn) 0.83 MHC155540 "Ce,Bi,S,CeF3,CeO2" "mixture - pellet - sealed in quartz tube - heat to 700 C(2 C/h) - keep(700C,12h) - slow cool to RT (within 6h)" Significant enhancement of superconductivity under Hydrostatic pressure in CeO0.5F0.5BiS2 superconductor 2014 "CSIR-National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi 110012, India" "Solid State Commun., 194(2014)6"
155542 SST023054013 Samples exposed to the air for several days (high Tc sample). Anion hight dependence of Tc measured. "Fe(Te,S)" Fe1Te0.8S0.2 Fe 1 Te 0.8 S 0.2 2010 AB Fe-11 K 6.6 9.2 7.9 MTC155542 solid state reaction. as-grown sample exposed to the air for several days Anion height dependence of Tc for the Fe-based superconductor 2010 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba 305-0047, Japan" "Supercond.Sci.Technol., 23(2010)054013"
155543 SST025084017 H-content x in LaNiAsO1-xHx measure by EPM "LaNiAs(O,H)" La1Ni1As1H0.08O0.92 La 1 Ni 1 As 1 H 0.08 O 0.92 2012 ABCD A 4.1192 8.1787 K 3.76 3.76 MTC155543 78 mOhm.cm 2.26 "LnAs,NiAs,Ni2As,LnO3,LnH2" "mixture - in BN crucible - added Ca(OH)2 and NaBH4 as excess H sources - heat(1273-1373 K,30min, P=2 GPa)" Hydrogen substitution effect on the superconductivity of LnNiAsO (Ln D La-Nd) 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Supercond.Sci.Technol., 25(2012)084017"
155544 SST025084017 H-content x in LaNiAsO1-xHx measure by EPM "LaNiAs(O,H)" La1Ni1As1H0.17O0.83 La 1 Ni 1 As 1 H 0.17 O 0.83 2012 ABCD A 4.1086 8.1453 K 3.68 3.68 MTC155543 67 mOhm.cm 1.02 "LnAs,NiAs,Ni2As,LnO3,LnH2" "mixture - in BN crucible - added Ca(OH)2 and NaBH4 as excess H sources - heat(1273-1373 K,30min, P=2 GPa)" Hydrogen substitution effect on the superconductivity of LnNiAsO (Ln D La-Nd) 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Supercond.Sci.Technol., 25(2012)084017"
155545 SST025084017 H-content x in CeNiAsO1-xHx measure by EPM. not SC for x < 0.14. "CeNiAs(O,H)" Ce1Ni1As1H0.06O0.94 Ce 1 Ni 1 As 1 H 0.06 O 0.94 2012 ABCD A 4.0928 8.0441 K 0.5 "CeAs,NiAs,Ni2As,CeO2,CeH2" "mixture - in BN crucible - added Ca(OH)2 and NaBH4 as excess H sources - heat(1273-1373 K,30min, P=2 GPa)" Hydrogen substitution effect on the superconductivity of LnNiAsO (Ln D La-Nd) 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Supercond.Sci.Technol., 25(2012)084017"
155546 SST025084017 H-content x in PrNiAsO1-xHx measure by EPM PrNiAsO Pr1Ni1As1O1 Pr 1 Ni 1 As 1 O 1 2012 ABCD K 0.5 "LnAs,NiAs,Ni2As,LnO3,LnH2" "mixture - in BN crucible - added Ca(OH)2 and NaBH4 as excess H sources - heat(1273-1373 K,30min, P=2 GPa)" Hydrogen substitution effect on the superconductivity of LnNiAsO (Ln D La-Nd) 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Supercond.Sci.Technol., 25(2012)084017"
155547 SST025084017 H-content x in PrNiAsO1-xHx measure by EPM "PrNiAs(O,H)" Pr1Ni1As1H0.06O0.94 Pr 1 Ni 1 As 1 H 0.06 O 0.94 2012 ABCD A 4.0818 8.0259 K 1.6 1.6 "LnAs,NiAs,Ni2As,LnO3,LnH2" "mixture - in BN crucible - added Ca(OH)2 and NaBH4 as excess H sources - heat(1273-1373 K,30min, P=2 GPa)" Hydrogen substitution effect on the superconductivity of LnNiAsO (Ln D La-Nd) 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Supercond.Sci.Technol., 25(2012)084017"
155548 SST025084017 H-content x in NdNiAsO1-xHx measure by EPM. Not SC for x < 0.19 "NdNiAs(O,H)" Nd1Ni1As1H0.05O0.95 Nd 1 Ni 1 As 1 H 0.05 O 0.95 2012 ABCD A 4.0586 7.9977 K 0.5 "LnAs,NiAs,Ni2As,LnO3,LnH2" "mixture - in BN crucible - added Ca(OH)2 and NaBH4 as excess H sources - heat(1273-1373 K,30min, P=2 GPa)" Hydrogen substitution effect on the superconductivity of LnNiAsO (Ln D La-Nd) 2012 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan" "Supercond.Sci.Technol., 25(2012)084017"
155549 SST026045017 "M=NH3, y not measured. co-intercalation of Eu and NH3 into ZrNCl." Eu0.16(NH3)yZrNCl Eu0.16M1Zr1N1Cl1 Eu 0.16 M 1 Zr 1 N 1 Cl 1 2013 SmSI P3[-]m 3.6113 11.889 "interlayer distance , d = 11.889" K 13.5 12.7 1.2 12.7 Oe "M-H curve, GL" 46 "RE dissolved in liquid ammonia. MNCl (M=Zr,Hf) ws dispersed into (Re+liq.NH3) for 2 h to complete intercalation in dry ice bath." "Superconductivity of metal nitride chloride beta-MNCl (M = Zr, Hf) with rare-earth metal RE (RE = Eu, Yb) doped by intercalation" 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)045017"
155550 SST026045017 "M=NH3, y not measured. co-intercalation of Yb and NH3 into ZrNCl." Yb0.31(NH3)yZrNCl Yb0.31M1Zr1N1Cl1 Yb 0.31 M 1 Zr 1 N 1 Cl 1 2013 SmSI P3[-]m 3.599 11.859 "interlayer distance , d = 11.859" K 13.1 12.5 1.5 12.5 Oe "M-H curve, GL" 46 "RE dissolved in liquid ammonia. MNCl (M=Zr,Hf) ws dispersed into (Re+liq.NH3) for 2 h to complete intercalation in dry ice bath." "Superconductivity of metal nitride chloride beta-MNCl (M = Zr, Hf) with rare-earth metal RE (RE = Eu, Yb) doped by intercalation" 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)045017"
155551 SST026045017 "M=NH3, y not measured. co-intercalation of Eu and NH3 into HfNCl." Eu0.08(NH3)yHfNCl Eu0.08M1Hf1N1Cl1 Eu 0.08 M 1 Hf 1 N 1 Cl 1 2013 myu-B/mol 7.56 SmSI P3[-]m 3.582 11.914 "interlayer distance , d = 11.914" K 24.7 24.3 2.5 24.3 Oe "M-H curve, GL" 18 72 T "RES(on), WHH" 37 9 T/K RES(on) 2.1 0.5 MHC155551 A from Hc2 60.5 14.8 A "Hc1, GL theory" 2980 12240 "RE dissolved in liquid ammonia. MNCl (M=Zr,Hf) ws dispersed into (Re+liq.NH3) for 2 h to complete intercalation in dry ice bath." "Superconductivity of metal nitride chloride beta-MNCl (M = Zr, Hf) with rare-earth metal RE (RE = Eu, Yb) doped by intercalation" 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)045017"
155552 SST026045017 "M=NH3, y not measured. co-intercalation of Eu and NH3 into HfNCl." Eu0.13(NH3)yHfNCl Eu0.13M1Hf1N1Cl1 Eu 0.13 M 1 Hf 1 N 1 Cl 1 2013 myu-B/mol 7.42 SmSI P3[-]m 3.58 11.9 "interlayer distance , d = 11.90" K 24.1 24.1 "RE dissolved in liquid ammonia. MNCl (M=Zr,Hf) ws dispersed into (Re+liq.NH3) for 2 h to complete intercalation in dry ice bath." "Superconductivity of metal nitride chloride beta-MNCl (M = Zr, Hf) with rare-earth metal RE (RE = Eu, Yb) doped by intercalation" 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)045017"
155553 SST026045017 "M=NH3, y not measured. co-intercalation of Eu and NH3 into HfNCl." Yb0.11(NH3)yHfNCl Yb0.11M1Hf1N1Cl1 Yb 0.11 M 1 Hf 1 N 1 Cl 1 2013 myu-B/mol 4.64 SmSI P3[-]m 3.5876 12.007 "interlayer distance , d = 12.007" K 23.3 23 2.7 23 Oe "M-H curve, GL" 74 "RE dissolved in liquid ammonia. MNCl (M=Zr,Hf) ws dispersed into (Re+liq.NH3) for 2 h to complete intercalation in dry ice bath." "Superconductivity of metal nitride chloride beta-MNCl (M = Zr, Hf) with rare-earth metal RE (RE = Eu, Yb) doped by intercalation" 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)045017"
155554 SST026045017 M = THF (tetrahydrofuran). co-intercalation of Eu and THF Eu0.13(THF)HfNCl Eu0.13M1Hf1N1Cl1 Eu 0.13 M 1 Hf 1 N 1 Cl 1 2013 SmSI P3[-]m K 25.8 25.8 "Superconductivity of metal nitride chloride beta-MNCl (M = Zr, Hf) with rare-earth metal RE (RE = Eu, Yb) doped by intercalation" 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)045017"
155555 SST026045017 M = PC (propylene carbonate). co-intercalation of Eu and PC Eu0.13(PC)HfNCl Eu0.13M1Hf1N1Cl1 Eu 0.13 M 1 Hf 1 N 1 Cl 1 2013 SmSI P3[-]m K 25.6 25.6 "Superconductivity of metal nitride chloride beta-MNCl (M = Zr, Hf) with rare-earth metal RE (RE = Eu, Yb) doped by intercalation" 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)045017"
155556 SST026085015 Ba0.33HfNCl Ba0.33Hf1N1Cl1 Ba 0.33 Hf 1 N 1 Cl 1 2013 SmSI P3[-]m "interlayer distance , d = 10.3931" K 20.2 20.2 AE dissolved in liquid ammonia. HfNCl ws dispersed into (AE+liq.NH3) for 2 h to complete intercalation in dry ice bath. Superconductivity of layered beta-HfNCl with varying electron-doping concentrations and interlayer spacings 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)085015"
155557 SST026085015 Sr0.38HfNCl Sr0.33Hf1N1Cl1 Sr 0.33 Hf 1 N 1 Cl 1 2013 SmSI P3[-]m "interlayer distance , d = 10.2564" K 20.3 20.3 AE dissolved in liquid ammonia. HfNCl ws dispersed into (AE+liq.NH3) for 2 h to complete intercalation in dry ice bath. Superconductivity of layered beta-HfNCl with varying electron-doping concentrations and interlayer spacings 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)085015"
155558 SST026085015 "M=NH3, y not measured. co-intercalation of Ca and NH3 into HfNCl." Cax(NH3)yHfNCl Ca0.4M1Hf1N1Cl1 Ca 0.4 M 1 Hf 1 N 1 Cl 1 2013 SmSI P3[-]m "interlayer distance , d = 11.814" K 22.4 22.4 MTC155558 Superconductivity of layered beta-HfNCl with varying electron-doping concentrations and interlayer spacings 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)085015"
155559 SST026085015 "M=NH3, y not measured. co-intercalation of Ca and NH3 into HfNCl." Cax(NH3)yHfNCl Ca0.29M1Hf1N1Cl1 Ca 0.29 M 1 Hf 1 N 1 Cl 1 2013 SmSI P3[-]m "interlayer distance , d = 11.859" K 22.7 22.7 Superconductivity of layered beta-HfNCl with varying electron-doping concentrations and interlayer spacings 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)085015"
155560 SST026085015 "M=NH3, y not measured. co-intercalation of Ca and NH3 into HfNCl." Cax(NH3)yHfNCl Ca0.24M1Hf1N1Cl1 Ca 0.24 M 1 Hf 1 N 1 Cl 1 2013 SmSI P3[-]m "interlayer distance , d = 11.937" K 22.8 22.8 MTC155560 Superconductivity of layered beta-HfNCl with varying electron-doping concentrations and interlayer spacings 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)085015"
155561 SST026085015 "M=NH3, y not measured. co-intercalation of Ca and NH3 into HfNCl." Cax(NH3)yHfNCl Ca0.11M1Hf1N1Cl1 Ca 0.11 M 1 Hf 1 N 1 Cl 1 2013 SmSI P3[-]m "interlayer distance , d = 12.045" K 23.3 23.3 Superconductivity of layered beta-HfNCl with varying electron-doping concentrations and interlayer spacings 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)085015"
155562 SST026085015 "M=NH3, y not measured. co-intercalation of Sr and NH3 into HfNCl." Srx(NH3)yHfNCl Sr0.09M1Hf1N1Cl1 Sr 0.09 M 1 Hf 1 N 1 Cl 1 2013 SmSI P3[-]m "interlayer distance , d = 12.244" K 24.1 24.1 MTC155562 Superconductivity of layered beta-HfNCl with varying electron-doping concentrations and interlayer spacings 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)085015"
155563 SST026085015 "M=NH3, y not measured. co-intercalation of Sr and NH3 into HfNCl." Srx(NH3)yHfNCl Sr0.24M1Hf1N1Cl1 Sr 0.24 M 1 Hf 1 N 1 Cl 1 2013 SmSI P3[-]m K 24.1 24.1 Superconductivity of layered beta-HfNCl with varying electron-doping concentrations and interlayer spacings 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)085015"
155564 SST026085015 "M=NH3, y not measured. co-intercalation of Ba and NH3 into HfNCl." Bax(NH3)yHfNCl Ba0.1M1Hf1N1Cl1 Ba 0.1 M 1 Hf 1 N 1 Cl 1 2013 SmSI P3[-]m "interlayer distance , d = 12.174" K 24.5 24.5 MTC155564 Superconductivity of layered beta-HfNCl with varying electron-doping concentrations and interlayer spacings 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)085015"
155565 SST026085015 M = THF (tetrahydrofuran). co-intercalation of Ba and THF Bax(THF)HfNCl Ba0.1M1Hf1N1Cl1 Ba 0.1 M 1 Hf 1 N 1 Cl 1 2013 SmSI P3[-]m "interlayer distance , d = 14.439" K 25.7 25.7 Superconductivity of layered beta-HfNCl with varying electron-doping concentrations and interlayer spacings 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)085015"
155566 SST026085015 M = THF (tetrahydrofuran). co-intercalation of Ca and THF Cax(THF)HfNCl Ca0.11M1Hf1N1Cl1 Ca 0.11 M 1 Hf 1 N 1 Cl 1 2013 SmSI P3[-]m "interlayer distance , d = 15.047" K 26 26 MTC155566 T "SUS, WHH" 61 15 T/K SUS 3.3 0.8 MHC155566 A from Hc2 46.8 11.5 Superconductivity of layered beta-HfNCl with varying electron-doping concentrations and interlayer spacings 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)085015"
155567 SST026085015 M = THF (tetrahydrofuran). co-intercalation of Sr and THF. Anisotropy(Hc2) = 4.1 Srx(THF)HfNCl Sr0.24M1Hf1N1Cl1 Sr 0.24 M 1 Hf 1 N 1 Cl 1 2013 SmSI P3[-]m "interlayer distance , d = 15.396" K 25.6 25.6 Superconductivity of layered beta-HfNCl with varying electron-doping concentrations and interlayer spacings 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)085015"
155568 SST026085015 M = PC (propylene carbonate). co-intercalation of Ca and PC Cax(PC)HfNCl Ca0.11M1Hf1N1Cl1 Ca 0.11 M 1 Hf 1 N 1 Cl 1 2013 SmSI P3[-]m "interlayer distance , d = 18.768" K 25.6 25.6 Superconductivity of layered beta-HfNCl with varying electron-doping concentrations and interlayer spacings 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)085015"
155569 SST026085015 M = PC (propylene carbonate). co-intercalation of Sr and PC Srx(PC)HfNCl Sr0.24M1Hf1N1Cl1 Sr 0.24 M 1 Hf 1 N 1 Cl 1 2013 SmSI P3[-]m "interlayer distance , d = 18.955" K 25.1 25.1 Superconductivity of layered beta-HfNCl with varying electron-doping concentrations and interlayer spacings 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)085015"
155600 SST026122001 interlayer distance d = 9.464 A. Anisotropy (Hc2) = 1.3 alpha-K0.21TiNBr K0.21Ti1N1Br1 K 0.21 Ti 1 N 1 Br 1 2013 FeOCl Immm A 4.0259 3.3769 18.927 alpha-type K 17.2 17.2 MTC155600 49 MHC155600 A 53 41 A 3045 "TiBr4 - (ammonia steam at 100C for a few hours) - heat(250C,3h) - sealed in Pyrex with NH4Br - heat(270-360C gradient,1w). Intercalation(0.1M A-naphthalene + THF)" Superconductivity of alkali metal intercalated TiNBr with alpha-type nitride layers 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)122001"
155601 SST026122001 interlayer distance d = 8.942 alpha-Na0.23TiNBr Na0.23Ti1N1Br1 Na 0.23 Ti 1 N 1 Br 1 2013 Bmmb A 4.01 3.37 17.884 alpha-type K 15.2 15.2 32 "TiBr4 - (ammonia steam at 100C for a few hours) - heat(250C,3h) - sealed in Pyrex with NH4Br - heat(270-360C gradient,1w). Intercalation(0.1M A-naphthalene + THF)" Superconductivity of alkali metal intercalated TiNBr with alpha-type nitride layers 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)122001"
155602 SST026122001 interlayer distance d = 9.691 A alpha-Rb0.22TiNBr Rb0.22Ti1N1Br1 Rb 0.22 Ti 1 N 1 Br 1 2013 Immm A 4.0187 3.3803 19.382 alpha-type K 16.3 16.3 20 "TiBr4 - (ammonia steam at 100C for a few hours) - heat(250C,3h) - sealed in Pyrex with NH4Br - heat(270-360C gradient,1w). Intercalation(0.1M A-naphthalene + THF)" Superconductivity of alkali metal intercalated TiNBr with alpha-type nitride layers 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)122001"
155603 SST026122001 interlayer distance d = 8.296 A TiNBr Ti1N1Br1 Ti 1 N 1 Br 1 2013 Pmmn A 3.9287 3.3508 8.2961 alpha-type K 0 "TiBr4 - (ammonia steam at 100C for a few hours) - heat(250C,3h) - sealed in Pyrex with NH4Br - heat(270-360C gradient,1w). Intercalation(0.1M A-naphthalene + THF)" Superconductivity of alkali metal intercalated TiNBr with alpha-type nitride layers 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)122001"
155604 SST026122001 M=THF. interlayer distance d = 14.186 A alpha-Li0.37(THF)yTiNBr Li0.37M1Ti1N1Br1 Li 0.37 M 1 Ti 1 N 1 Br 1 2013 Immm A 3.995 3.362 28.371 alpha-type K 7.5 7.5 7.5 "TiBr4 - (ammonia steam at 100C for a few hours) - heat(250C,3h) - sealed in Pyrex with NH4Br - heat(270-360C gradient,1w). Intercalation(0.1M A-naphthalene + THF)" Superconductivity of alkali metal intercalated TiNBr with alpha-type nitride layers 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)122001"
155605 SST026122001 M=THF. interlayer distance d = 12.9 A Na0.23(THF)TiNBr Na0.23M1Ti1N1Br1 Na 0.23 M 1 Ti 1 N 1 Br 1 2013 alpha-type K 11 11 "TiBr4 - (ammonia steam at 100C for a few hours) - heat(250C,3h) - sealed in Pyrex with NH4Br - heat(270-360C gradient,1w). Intercalation(0.1M A-naphthalene + THF)" Superconductivity of alkali metal intercalated TiNBr with alpha-type nitride layers 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)122001"
155606 SST026122001 M=PC. interlayer distance d = 15.7 A Na0.23(PC)TiNBr Na0.23M1Ti1N1Br1 Na 0.23 M 1 Ti 1 N 1 Br 1 2013 alpha-type K 8.6 8.6 "TiBr4 - (ammonia steam at 100C for a few hours) - heat(250C,3h) - sealed in Pyrex with NH4Br - heat(270-360C gradient,1w). Intercalation(0.1M A-naphthalene + THF)" Superconductivity of alkali metal intercalated TiNBr with alpha-type nitride layers 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)122001"
155607 SST026122001 interlayer distance alpha-K0.46TiNBr K0.46Ti1N1Br1 K 0.46 Ti 1 N 1 Br 1 2013 A 4.0329 3.3774 18.9332 alpha-type K 16.3 16.3 12 "TiBr4 - (ammonia steam at 100C for a few hours) - heat(250C,3h) - sealed in Pyrex with NH4Br - heat(270-360C gradient,1w). Intercalation(0.1M A-naphthalene + THF)" Superconductivity of alkali metal intercalated TiNBr with alpha-type nitride layers 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima, Hiroshima 739-8527, Japan" "Supercond.Sci.Technol., 26(2013)122001"
155608 SST027025012 "RRR = 4.7. SP-heat, beta=0.279 mJ/mol.K4, delta=0.0011 mJ/mol.K6. (dC/gamma:Tc) = 1.54. Tc(P) = -0.16P^2 + 0.06P + 6.02." Zr2Ru3Si4 Zr2Ru3Si4 Zr 2 Ru 3 Si 4 1 2014 A2B3C4 Hf2Ru3Si4 C2/c A 18.98 5.348 13.28 "monoclinic, beta = 127.73 degree" K 5.5 6 5.7 5.7 MTC155608 100 Oe M-H curve 100 T "RES(0.5Rn), linear approx." 10 T/K RES(0.5Rn) 1 MHC155608 A from Hc2 60 3.5 14 MSP155608 mJ/mol.K2 13.1 SP 191 SP uOhm.cm 240 "Zr(3N),Ru(3N),Si(10N)" "arc-melting. (Zr:Ru:Si = 20:35:45) - ANN(1270K,100h, in alumina crucible, sealed in quartz tube(Ar)) - FC to RT" Superconducting properties of the ternary transition-metal silicide Zr2Ru3Si4 2014 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0047, Japan" "Supercond.Sci.Technol., 27(2014)025012"
155609 SST027025012 not SC Hf2Ru3Si4 Hf2Ru3Si4 Hf 2 Ru 3 Si 4 1 2014 A2B3C4 Hf2Ru3Si4 C2/c K 1.8 Superconducting properties of the ternary transition-metal silicide Zr2Ru3Si4 2014 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0047, Japan" "Supercond.Sci.Technol., 27(2014)025012"
155610 SST027025012 not SC Yb2Ru3Ge3 Yb2Ru3Ge4 Yb 2 Ru 3 Ge 4 1 2014 A2B3C4 Hf2Ru3Si4 C2/c K 1.8 Superconducting properties of the ternary transition-metal silicide Zr2Ru3Si4 2014 "National Institute for Materials Science, Tsukuba, Ibaraki 305-0047, Japan" "Supercond.Sci.Technol., 27(2014)025012"
155611 SST027055005 R(T) measured on a cleaved surface. Tc(SP) = 0.6 K. Lattice term in SP (beta) = 1.39 mJ/mol.K4 Ca2InN Ca2In1N1 Ca 2 In 1 N 1 2014 ABC2 Cmcm A 3.52 20.2 4.96 Ca2 intercalated InN K 0.6 0.7 0.6 78 MSP155611 mJ/mol.K 2.85 mJ/mol.K2 4.24 SP 322 SP mOhm.cm 27 "mixture(Ca2N+In) - pellet - wrapped in Mo-foil - sealed in silica ampoule(Ar) - heat(873K,50h)" Superconductivity of Ca2InN with a layered structure embedding an anionic indium chain array 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Midori-ku, Yokohama, Japan" "Supercond.Sci.Technol., 27(2014)055005"
155612 SST027075012 "FM order Tm = 16.5 K. SC Tc(on) = 22.5K, Tc(zero) = 10K. reentrant SC. Eu(2+)-AFM order coexists with SC." "Eu(Fe,Ir)2As2" Eu1Fe1.72Ir0.28As2 Eu 1 Fe 1.72 Ir 0.28 As 2 3 2014 16.5 AB2C2 ThCr2Si2 A 3.932 12.056 K 21.9 21.9 MSP155612 mJ/mol.K2 35 SP 307 SP "FeAs,IrAs" "self-flux method. Eu:[(FeAs)1-x(IrAs)x] = 1:4 - in alumina crucible - sealed in Ta tube - heat(1200C,5h) - cool to 1030C (3C/h) - FC to RT" Magnetic and superconducting properties of Ir-doped EuFe2As2 2014 "Department of Physics, Indian Institute of Technology, Kanpur 208016, India" "Supercond.Sci.Technol., 27(2014)075012"
155613 PLA3792498 GL(kappa) = 4.04. Lattice term in SP beta=0.22 mJ/mol.K4. "(Th,Zr)B12" Th0.93Zr0.07B12 Th 0.93 Zr 0.07 B 12 1 2015 AB12 1 UB12 Fm-3m A 7.465 cubic K 5.5 5.5 5.5 mT M-H curve 6 T "RES(0.5Rn), WHH" 0.098 MHC155613 A from Hc2 579 A from Hc1 2340 meV 0.8 MSP155613 mJ/mol.K2 17.1 SP 486 SP arc-mwlting Superconductivity in the Th0.93Zr0.07B12 compound with UB12 prototype structure 2015 "Departamento de Engenharia de Materiais, Escola de Engenharia de Lorena, Universidade de Sao Paulo-Lorena, SP 12602-810, Brazil" "Phys.Lett.A, 379(2015)2498"
155614 ACS13413558 "meta-stable at AP. e-ph = 0.6, (dC/gamma*Tc) = 1.05-1.17" CaSi3 Ca1Si3 Ca 1 Si 3 2012 2.76 AB3 2 I4/mmm 139 A 7.2676 11.3501 K 4.25 4.5 4.5 4.25 1.4 T "SP(mid),WHH" 0.048 MSP155614 mJ/mol.K2 4.81 SP 514 SP "CaSi2(YSi2 or LuSi2),Si(6N)" "High-T-High-P synthesis (900-1400 C, 12-15 GPa)" "Dumbbells of Five-Connected Silicon Atoms and Superconductivity in the Binary Silicides MSi3 (M = Ca, Y, Lu)" 2012 "Max-Planck-Institut fur Chemische Physik fester Stoffe, 01187 Dresden, Germany" "J.Am.Chem.Soc., 134(2012)13558"
155615 ACS13413558 "meta-stable at AP. e-ph = 0.6, (dC/Tc) = 7.6, (dC/gamma*Tc) = 1.42" YSi3 Si3Y1 Si 3 Y 1 2012 4.07 AB3 2 I4/mmm 139 A 7.231 10.792 K 4.63 5 4.63 1.4 T "SP(mid),WHH" 0.08 MSP155615 mJ/mol.K2 5.16 SP 451 SP "CaSi2(YSi2 or LuSi2),Si(6N)" "High-T-High-P synthesis (900-1400 C, 12-15 GPa)" "Dumbbells of Five-Connected Silicon Atoms and Superconductivity in the Binary Silicides MSi3 (M = Ca, Y, Lu)" 2012 "Max-Planck-Institut fur Chemische Physik fester Stoffe, 01187 Dresden, Germany" "J.Am.Chem.Soc., 134(2012)13558"
155616 ACS13413558 "nominal = LuSi3 + 2Si(cI16). meta-stable at AP. e-ph = 0.65, (dC/Tc) = 9.4, (dC/gamma*Tc) = 1.50" LuSi3 Lu1Si3 Lu 1 Si 3 2012 6.37 AB3 2 I4/mmm 139 A 7.1835 10.471 K 6.78 7.1 7 6.78 2.1 T "SP(mid),WHH" 0.234 MSP155616 mJ/mol.K2 6.26 SP 365 SP "CaSi2(YSi2 or LuSi2),Si(6N)" "High-T-High-P synthesis (900-1400 C, 12-15 GPa)" "Dumbbells of Five-Connected Silicon Atoms and Superconductivity in the Binary Silicides MSi3 (M = Ca, Y, Lu)" 2012 "Max-Planck-Institut fur Chemische Physik fester Stoffe, 01187 Dresden, Germany" "J.Am.Chem.Soc., 134(2012)13558"
155617 IJIM0020581 Zn-intercalated beta-ZrNCl. Volume fraction varies with synthesis conditions. Max = 75 %. beta-Zn0.04ZrNCl Zn0.04Zr1N1Cl1 Zn 0.04 Zr 1 N 1 Cl 1 2000 ABC 7 A 3.58 hexagonal K 15 15 75 Zn intercalation by electrochemical method Novel superconductors obtained by electrochemical Zn intercalation of beta-ZrNCl and related compounds 2000 "Departmento de Quimica Inorganica, Facultad de Ciencias Quimicas, Universidad Complutense, 28040, Madrid, Spain" "Int.J.Inorg.Mater., 2(2000)581"
155618 IJIM0020581 Zn-intercalated beta-ZrNBr. Volume fraction decreases with the time of air exposure (from 86 to 66 %) beta-Zn0.035ZrNBr Zn0.035Zr1N1Br1 Zn 0.035 Zr 1 N 1 Br 1 2000 ABC 7 A 3.552 hexagonal K 14 14 86 Zn intercalation by electrochemical method Novel superconductors obtained by electrochemical Zn intercalation of beta-ZrNCl and related compounds 2000 "Departmento de Quimica Inorganica, Facultad de Ciencias Quimicas, Universidad Complutense, 28040, Madrid, Spain" "Int.J.Inorg.Mater., 2(2000)581"
155619 CEM2260024 not SC. Mg3+xNi7-xB2 prepared and measured magnetic properties. Spin freezing temperature = 33 K. Mg3Ni7B2 Mg4Ni6B2 Mg 4 Ni 6 B 2 2015 A2B4C6 R-3m 166 K 4 "Mg(3N),Ni(3N5),B(2N5)" Solid state reaction Preparation and properties of a new ternary phase Mg3+xNi7-xB2 (0.17 =< x =< 0.66) and its Cu-doping effect 2015 "Institute of Physics, Chinese Academy of Sciences, Beijing National Laboratory for Condensed Matter Physics, Beijing 100190, China" "J.Solid State Chem., 226(2015)24"
155620 INO05110300 Compositions are nominal values. multi-phase: Mg(Mg0.25Al0.75)Si (major phase) + Mg9Si5 + Al + Si by EPMA. MgAlSi Mg1Al1Si1 Mg 1 Al 1 Si 1 2012 ABC Pnma A 6.9242 4.138 7.9618 K 5.7 6 6 "High-P-High-T synthesis (5 GPa, 1000 C) - Q to RT" High Pressure Synthesis and Superconductivity of the Ternary Compounds Mg(Mg1-xAlx)Si with the Anticotunnite Structure 2012 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "Inorg. Chem., 51(2012)10300"
155621 INO0526039 Laves phase composed of truncated tetragonal cages. "Ca(Al,Si)2" Ca1Al1Si1 Ca 1 Al 1 Si 1 2013 AB2 Laves A 7.8112 K 2.6 2.6 MTC155621 Oe M-H curve 5 1.9 T "SUS, WHH" 0.27 T/K SUS 0.15 MHC155621 A from Hc2 350 "High-P-High-T synthesis (13 GPa, 1000C)" "High-Pressure Synthesis and Superconductivity of the Laves Phase Compound Ca(Al,Si)2 Composed of Truncated Tetrahedral Cages Ca@(Al,Si)12" 2013 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "Inorg. Chem., 52(2013)6039"
155622 JAC6340208 "(Ba,K)(Bi,Pb)O3" Ba0.82K0.18Bi0.53Pb0.47 Ba 0.82 K 0.18 Bi 0.53 Pb 0.47 2015 7.91 ABC3 1 Pm-3[-]m 221 A 4.28877 cubic K 15 22.8 22.8 64 Hydrothermal reaction at 240 C. Hydrothermal synthesis of a new Bi-based (Ba0.82K0.18)(Bi0.53Pb0.47)O3 superconductor 2015 "Center for Crystal Science and Technology, University of Yamanashi, 7-32 Miyamae-cho, Kofu 400-8511, Japan" "J.Alloys Compd., 634(2015)208"
155623 JPS084023705 Tsai-type approximant. gamma in mJ/k2.mol-cluster. kappa(GL)=28.6. (dC/Tc) = 138 mJ/K2.mol-cluster. (dC/gamma*Tc) = 1.26. Hc(0) = 78.7 Oe. Au64Ge22Yb14 Au64Ge22Yb14 Au 64 Ge 22 Yb 14 2015 A 14.724 Tsai-type approximant K 0.68 0.68 0.68 Oe 6.7 T "RES,WHH" 0.276 T/K RES 0.584 MHC155623 A from Hc2 322 A from Hc1 9200 MSP155623 mJ/mol.K2 109 SP 160 SP uOhm.cm 150 "Au(4N),Ge(5N),Yb(3N)" mixture - alumina crucible - sealed in quartz tube - heat to 1000C - cool to 800C- cool to 450C - Q to water Superconductivity of Au-Ge-Yb Approximants with Tsai-Type Clusters 2015 "Department of Physics, Graduate School of Science, Nagoya University, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 84(2015)023705"
155624 JPS084023705 Tsai-type approximant. gamma in mJ/k2.mol-cluster. kappa(GL)=25.9. (dC/Tc) = 218 mJ/K2.mol-cluster. (dC/gamma*Tc) = 0.54. Hc(0) = 50.0 Oe. Au63.5Ge20.5Yb16.0 Au63.5Ge20.5Yb16 Au 63.5 Ge 20.5 Yb 16 2015 A 14.605 Tsai-type approximant K 0.36 0.36 0.36 4.5 T "RES,WHH" 0.165 T/K RES 0.675 MHC155624 A from Hc2 424 A from Hc1 11000 MSP155624 mJ/mol.K2 251 SP 157 SP uOhm.cm 134.9 "Au(4N),Ge(5N),Yb(3N)" mixture - alumina crucible - sealed in quartz tube - heat to 1000C - cool to 800C- cool to 450C - slow cool to RT Superconductivity of Au-Ge-Yb Approximants with Tsai-Type Clusters 2015 "Department of Physics, Graduate School of Science, Nagoya University, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 84(2015)023705"
155625 MAT1408.2625 filamentary SC. "(Ce,Nd)(O,F)BiS2" Ce0.2Nd0.8F0.3Bi1S2O0.7 Ce 0.2 Nd 0.8 F 0.3 Bi 1 S 2 O 0.7 2014 ABCD2 P4/nmm A 4.0143 13.6366 BiS2-layer SC K 2.35 2.35 "Ce2S3,Nd2S3,Bi2O3,BiF3,BiF3,Bi2S3,Bi" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,10h) - redround - sealed in quartz tube - hea again" Chemical pressure effect on superconductivity of BiS2-based Ce1-xNdxO1-yFyBiS2 and Nd1-zSmzO1-yFyBiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, 192-0397" cond-mat/1408.2625
155626 MAT1408.2625 "(Ce,Nd)(O,F)BiS2" Nd1F0.3Bi1S2O0.7 Nd 1 F 0.3 Bi 1 S 2 O 0.7 2014 ABCD2 P4/nmm A 4.0104 13.5751 BiS2-layer SC K 3.52 3.52 "Ce2S3,Nd2S3,Bi2O3,BiF3,BiF3,Bi2S3,Bi" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,10h) - redround - sealed in quartz tube - hea again" Chemical pressure effect on superconductivity of BiS2-based Ce1-xNdxO1-yFyBiS2 and Nd1-zSmzO1-yFyBiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, 192-0397" cond-mat/1408.2625
155627 MAT1408.2625 "(Ce,Nd)(O,F)BiS2" Ce0.6Nd0.4F0.5Bi1S2O0.5 Ce 0.6 Nd 0.4 F 0.5 Bi 1 S 2 O 0.5 2014 ABCD2 P4/nmm A 4.0313 13.5133 BiS2-layer SC K 2.98 2.98 "Ce2S3,Nd2S3,Bi2O3,BiF3,BiF3,Bi2S3,Bi" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,10h) - redround - sealed in quartz tube - hea again" Chemical pressure effect on superconductivity of BiS2-based Ce1-xNdxO1-yFyBiS2 and Nd1-zSmzO1-yFyBiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, 192-0397" cond-mat/1408.2625
155628 MAT1408.2625 "(Ce,Nd)(O,F)BiS2" Ce0.2Nd0.8F0.5Bi1S2O0.5 Ce 0.2 Nd 0.8 F 0.5 Bi 1 S 2 O 0.5 2014 ABCD2 P4/nmm A 4.0187 13.4881 BiS2-layer SC K 4.46 4.46 "Ce2S3,Nd2S3,Bi2O3,BiF3,BiF3,Bi2S3,Bi" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,10h) - redround - sealed in quartz tube - hea again" Chemical pressure effect on superconductivity of BiS2-based Ce1-xNdxO1-yFyBiS2 and Nd1-zSmzO1-yFyBiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, 192-0397" cond-mat/1408.2625
155629 MAT1408.2625 "(Ce,Nd)(O,F)BiS2" Nd1F0.5Bi1S2O0.5 Nd 1 F 0.5 Bi 1 S 2 O 0.5 2014 ABCD2 P4/nmm A 4.0034 13.4639 BiS2-layer SC K 4.78 4.78 "Ce2S3,Nd2S3,Bi2O3,BiF3,BiF3,Bi2S3,Bi" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,10h) - redround - sealed in quartz tube - hea again" Chemical pressure effect on superconductivity of BiS2-based Ce1-xNdxO1-yFyBiS2 and Nd1-zSmzO1-yFyBiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, 192-0397" cond-mat/1408.2625
155630 MAT1408.2625 filamentary SC. not bulk SC "(Ce,Nd)(O,F)BiS2" Ce1F0.7Bi1S2O0.7 Ce 1 F 0.7 Bi 1 S 2 O 0.7 2014 ABCD2 P4/nmm A 4.0496 13.4378 BiS2-layer SC K 2.68 2.68 "Ce2S3,Nd2S3,Bi2O3,BiF3,BiF3,Bi2S3,Bi" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,10h) - redround - sealed in quartz tube - hea again" Chemical pressure effect on superconductivity of BiS2-based Ce1-xNdxO1-yFyBiS2 and Nd1-zSmzO1-yFyBiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, 192-0397" cond-mat/1408.2625
155631 MAT1408.2625 filamentary SC. not bulk SC "(Ce,Nd)(O,F)BiS2" Ce0.6Nd0.4F0.7Bi1S2O0.7 Ce 0.6 Nd 0.4 F 0.7 Bi 1 S 2 O 0.7 2014 ABCD2 P4/nmm A 4.0246 13.3937 BiS2-layer SC K 3.25 3.25 "Ce2S3,Nd2S3,Bi2O3,BiF3,BiF3,Bi2S3,Bi" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,10h) - redround - sealed in quartz tube - hea again" Chemical pressure effect on superconductivity of BiS2-based Ce1-xNdxO1-yFyBiS2 and Nd1-zSmzO1-yFyBiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, 192-0397" cond-mat/1408.2625
155632 MAT1408.2625 filamentary SC. not bulk SC "(Ce,Nd)(O,F)BiS2" Ce0.2Nd0.8F0.7Bi1S2O0.7 Ce 0.2 Nd 0.8 F 0.7 Bi 1 S 2 O 0.7 2014 ABCD2 P4/nmm A 4.0103 13.4216 BiS2-layer SC K 4.29 4.29 "Ce2S3,Nd2S3,Bi2O3,BiF3,BiF3,Bi2S3,Bi" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,10h) - redround - sealed in quartz tube - hea again" Chemical pressure effect on superconductivity of BiS2-based Ce1-xNdxO1-yFyBiS2 and Nd1-zSmzO1-yFyBiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, 192-0397" cond-mat/1408.2625
155633 MAT1408.2625 filamentary SC. not bulk SC "(Ce,Nd)(O,F)BiS2" Nd1F0.7Bi1S2O0.7 Nd 1 F 0.7 Bi 1 S 2 O 0.7 2014 ABCD2 P4/nmm A 4.0013 13.4231 BiS2-layer SC K 4.78 4.78 "Ce2S3,Nd2S3,Bi2O3,BiF3,BiF3,Bi2S3,Bi" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,10h) - redround - sealed in quartz tube - hea again" Chemical pressure effect on superconductivity of BiS2-based Ce1-xNdxO1-yFyBiS2 and Nd1-zSmzO1-yFyBiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, 192-0397" cond-mat/1408.2625
155634 MAT1408.2625 "(Nd,Sm)(O,F)BiS2" Nd0.8Sm0.2F0.3Bi1S2O0.7 Nd 0.8 Sm 0.2 F 0.3 Bi 1 S 2 O 0.7 2014 ABCD2 P4/nmm A 4.011 13.5727 BiS2-layer SC K 4.9 4.9 "Nd2S3,Sm2S3,Bi2O3,BiF3,Bi2S3,Bi," "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,10h) - redround - sealed in quartz tube - hea again" Chemical pressure effect on superconductivity of BiS2-based Ce1-xNdxO1-yFyBiS2 and Nd1-zSmzO1-yFyBiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, 192-0397" cond-mat/1408.2625
155635 MAT1408.2625 "(Nd,Sm)(O,F)BiS2" Nd0.6Sm0.4F0.3Bi1S2O0.7 Nd 0.6 Sm 0.4 F 0.3 Bi 1 S 2 O 0.7 2014 ABCD2 P4/nmm A 3.9784 13.4572 BiS2-layer SC K 5.21 5.21 "Nd2S3,Sm2S3,Bi2O3,BiF3,Bi2S3,Bi," "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,10h) - redround - sealed in quartz tube - hea again" Chemical pressure effect on superconductivity of BiS2-based Ce1-xNdxO1-yFyBiS2 and Nd1-zSmzO1-yFyBiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, 192-0397" cond-mat/1408.2625
155636 MAT1408.2625 "(Nd,Sm)(O,F)BiS2" Nd0.2Sm0.8F0.3Bi1S2O0.7 Nd 0.2 Sm 0.8 F 0.3 Bi 1 S 2 O 0.7 2014 ABCD2 P4/nmm A 3.9817 13.4877 BiS2-layer SC K 5.58 5.58 "Nd2S3,Sm2S3,Bi2O3,BiF3,Bi2S3,Bi," "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,10h) - redround - sealed in quartz tube - hea again" Chemical pressure effect on superconductivity of BiS2-based Ce1-xNdxO1-yFyBiS2 and Nd1-zSmzO1-yFyBiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, 192-0397" cond-mat/1408.2625
155637 MAT1408.2625 "(Nd,Sm)(O,F)BiS2" Nd0.8Sm0.2F0.3Bi1S2O0.5 Nd 0.8 Sm 0.2 F 0.3 Bi 1 S 2 O 0.5 2014 ABCD2 P4/nmm A 3.9986 13.4627 BiS2-layer SC K 5.1 5.1 "Nd2S3,Sm2S3,Bi2O3,BiF3,Bi2S3,Bi," "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,10h) - redround - sealed in quartz tube - hea again" Chemical pressure effect on superconductivity of BiS2-based Ce1-xNdxO1-yFyBiS2 and Nd1-zSmzO1-yFyBiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, 192-0397" cond-mat/1408.2625
155638 MAT1408.2625 "(Nd,Sm)(O,F)BiS2" Nd0.8Sm0.2F0.3Bi1S2O0.5 Nd 0.8 Sm 0.2 F 0.3 Bi 1 S 2 O 0.5 2014 ABCD2 P4/nmm A 3.9885 13.5351 BiS2-layer SC K 5.3 5.3 "Nd2S3,Sm2S3,Bi2O3,BiF3,Bi2S3,Bi," "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,10h) - redround - sealed in quartz tube - hea again" Chemical pressure effect on superconductivity of BiS2-based Ce1-xNdxO1-yFyBiS2 and Nd1-zSmzO1-yFyBiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, 192-0397" cond-mat/1408.2625
155639 MAT1408.2625 "(Nd,Sm)(O,F)BiS2" Nd0.6Sm0.4F0.3Bi1S2O0.5 Nd 0.6 Sm 0.4 F 0.3 Bi 1 S 2 O 0.5 2014 ABCD2 P4/nmm A 3.9809 13.54 BiS2-layer SC K 5.52 5.52 "Nd2S3,Sm2S3,Bi2O3,BiF3,Bi2S3,Bi," "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,10h) - redround - sealed in quartz tube - hea again" Chemical pressure effect on superconductivity of BiS2-based Ce1-xNdxO1-yFyBiS2 and Nd1-zSmzO1-yFyBiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, 192-0397" cond-mat/1408.2625
155640 MAT1408.2625 not bulk SC "(Nd,Sm)(O,F)BiS2" Nd0.4Sm0.6F0.3Bi1S2O0.7 Nd 0.4 Sm 0.6 F 0.3 Bi 1 S 2 O 0.7 2014 ABCD2 P4/nmm A 3.9893 13.3738 BiS2-layer SC K 4.66 4.66 "Nd2S3,Sm2S3,Bi2O3,BiF3,Bi2S3,Bi," "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,10h) - redround - sealed in quartz tube - hea again" Chemical pressure effect on superconductivity of BiS2-based Ce1-xNdxO1-yFyBiS2 and Nd1-zSmzO1-yFyBiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, 192-0397" cond-mat/1408.2625
155641 MAT1408.2625 not bulk SC "(Nd,Sm)(O,F)BiS2" Nd0.8Sm0.2F0.3Bi1S2O0.7 Nd 0.8 Sm 0.2 F 0.3 Bi 1 S 2 O 0.7 2014 ABCD2 P4/nmm A 3.9844 13.1607 BiS2-layer SC K 4.59 4.59 "Nd2S3,Sm2S3,Bi2O3,BiF3,Bi2S3,Bi," "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,10h) - redround - sealed in quartz tube - hea again" Chemical pressure effect on superconductivity of BiS2-based Ce1-xNdxO1-yFyBiS2 and Nd1-zSmzO1-yFyBiS2 2014 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, 192-0397" cond-mat/1408.2625
155642 MRB0660231 as-synthesized (not oxygenated) sample has Tc = 151.00 K. R(T) metallic. RuSr2GdCu2Oz Ru1Sr2Gd1Cu2Oz Ru 1 Sr 2 Gd 1 Cu 2 O z 1 2015 139.63 ABC2D2E8 Ru1212 P4/mmm 123 A 3.845 11.571 K 33.1 39.2 33.1 "solid state reaction with excess CuO. mixture - pellet - heat(1050C,45h). then oxygennated in quartz tube" "Magnetic, electrical and structural properties of the Re-doped ruthenocuprate Ru1-xRexSr2GdCu2Oy" 2015 "Departamento de Fisica, Universidade Federal de Pernambuco, 50670-901 Recife, PE, Brazil" "Mater.Res.Bull., 66(2015)231"
155643 MRB0660231 as-synthesized (not oxygenated) sample has Tc = 143.45 K. R(T) semicond-like "(Ru,Re)Sr2GdCu2Oz" Ru0.97Re0.03Sr2Gd1Cu2Oz Ru 0.97 Re 0.03 Sr 2 Gd 1 Cu 2 O z 1 2015 123.47 ABC2D2E8 Ru1212 P4/mmm 123 A 3.834 11.548 K 9.96 9.96 "solid state reaction with excess CuO. mixture - pellet - heat(1050C,45h). then oxygennated in quartz tube" "Magnetic, electrical and structural properties of the Re-doped ruthenocuprate Ru1-xRexSr2GdCu2Oy" 2015 "Departamento de Fisica, Universidade Federal de Pernambuco, 50670-901 Recife, PE, Brazil" "Mater.Res.Bull., 66(2015)231"
155644 MRB0660231 as-synthesized (not oxygenated) sample has Tc = 150.98 K. R(T) semicond-like "(Ru,Re)Sr2GdCu2Oz" Ru0.94Re0.06Sr2Gd1Cu2Oz Ru 0.94 Re 0.06 Sr 2 Gd 1 Cu 2 O z 1 2015 119.7 ABC2D2E8 Ru1212 P4/mmm 123 A 3.835 11.531 K 9.86 9.86 "solid state reaction with excess CuO. mixture - pellet - heat(1050C,45h). then oxygennated in quartz tube" "Magnetic, electrical and structural properties of the Re-doped ruthenocuprate Ru1-xRexSr2GdCu2Oy" 2015 "Departamento de Fisica, Universidade Federal de Pernambuco, 50670-901 Recife, PE, Brazil" "Mater.Res.Bull., 66(2015)231"
155645 MRB0660231 not SC. as-synthesized (not oxygenated) sample has Tc = 146.99 K. R(T) semicond-like "(Ru,Re)Sr2GdCu2Oz" Ru0.91Re0.09Sr2Gd1Cu2Oz Ru 0.91 Re 0.09 Sr 2 Gd 1 Cu 2 O z 1 2015 146.41 ABC2D2E8 Ru1212 P4/mmm 123 A 3.837 11.493 K 4 "solid state reaction with excess CuO. mixture - pellet - heat(1050C,45h). then oxygennated in quartz tube" "Magnetic, electrical and structural properties of the Re-doped ruthenocuprate Ru1-xRexSr2GdCu2Oy" 2015 "Departamento de Fisica, Universidade Federal de Pernambuco, 50670-901 Recife, PE, Brazil" "Mater.Res.Bull., 66(2015)231"
155646 MRB0660231 not SC. as-synthesized (not oxygenated) sample has Tc = 153.90 K. R(T) semicond-like "(Ru,Re)Sr2GdCu2Oz" Ru0.88Re0.12Sr2Gd1Cu2Oz Ru 0.88 Re 0.12 Sr 2 Gd 1 Cu 2 O z 1 2015 153.95 ABC2D2E8 Ru1212 P4/mmm 123 A 3.836 11.515 K 4 "solid state reaction with excess CuO. mixture - pellet - heat(1050C,45h). then oxygennated in quartz tube" "Magnetic, electrical and structural properties of the Re-doped ruthenocuprate Ru1-xRexSr2GdCu2Oy" 2015 "Departamento de Fisica, Universidade Federal de Pernambuco, 50670-901 Recife, PE, Brazil" "Mater.Res.Bull., 66(2015)231"
155647 NATP0090349 (dTc/dP) = -0.106 K/kbar for P < Pc(= 16.1kbar) change to +0.04 K/kbar for P > Pc. KFe2As2 K1Fe2As2 K 1 Fe 2 As 2 3 2013 AB2C2 ThCr2Si2 K 2.74 3.41 3.075 MTC155647 K/GPa -1.06 m3/C 4.00E-10 Sudden reversal in the pressure dependence of Tc in the iron-based superconductor KFe2As2 2013 "Departement de physique and RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, J1K 2R1, Canada" "Nature Phys., 9(2013)349"
155648 NATP0090349 (dTc/dP) = -0.29 K/kbar (only 2 Tc point) "K(Fe,Co)2As2" K1Fe1.932Co0.068As2 K 1 Fe 1.932 Co 0.068 As 2 3 2013 AB2C2 ThCr2Si2 K 1.7 1.99 1.845 uOhm.cm 3.8 Sudden reversal in the pressure dependence of Tc in the iron-based superconductor KFe2As2 2013 "Departement de physique and RQMP, Universite de Sherbrooke, Sherbrooke, Quebec, J1K 2R1, Canada" "Nature Phys., 9(2013)349"
155649 PRB090045136 RRR = 4.3. dH3/dP = -4.64 mT/kbar. Hc3(0) = 450 mT(=1.6 Hc2). Hc3 defined as surface Hc2 //plane. Tc defined as thepeak of dR/dT or d(SUS)/dT. YB6 B6Y1 B 6 Y 1 3 2014 GPa 166 AB6 CaB6 Pm3m K 7.5 7.5 MTC155649 K/GPa -0.44 mT 36 T 0.28 T/K MHC155649 uOhm.cm 10 Floating zone method. melting in 5bar-Ar High-pressure effect on the superconductivity of YB6 2014 "Centre of Low Temperature Physics, Institute of Experimental Physics, Slovak Academy of Sciences, Watsonova 47, 040 01 Kosice, Slovakia" "Phys.Rev.B, 90(2014)045136"
155650 PRB090045136 RRR = 2.5. (dTc/dP) = -0.44 K/GPa for P < 5GPa and = -0.15 K/GPa for P > 8 GPa. YB6 B6Y1 B 6 Y 1 3 2014 AB6 CaB6 Pm3m K 5.9 5.9 MTC155650 K/GPa -0.44 uOhm.cm 21 Floating zone method. melting in 5bar-Ar High-pressure effect on the superconductivity of YB6 2014 "Centre of Low Temperature Physics, Institute of Experimental Physics, Slovak Academy of Sciences, Watsonova 47, 040 01 Kosice, Slovakia" "Phys.Rev.B, 90(2014)045136"
155651 PRB090060504 "multiple nodeless gap SC. RRR = 120. the ratio of small to large gap = 0.6 from thermal conductivity. k/T = k0/T + b*T^2 for T^2 < 0.16, k0/T = 0.18 mW/K2.cm." TlNi2Se2 Tl1Ni2Se2 Tl 1 Ni 2 Se 2 3 2014 AB2C2 ThCr2Si2 K 3.7 3.7 T thermal conductivity 0.8 MTHC155651 self-flux method Multigap nodeless superconductivity in nickel chalcogenide TlNi2Se2 2014 "State Key Laboratory of Surface Physics, Department of Physics, and Laboratory of Advanced Materials, Fudan University, Shanghai 200433, People's Republic of China" "Phys.Rev.B, 90(2014)060504"
155652 PRB090224513 SC appears in only low-T phase (orthorhombic). Filamentary SC for P > 0.5 GPa Ca10(Ir4As8)(Fe2-xIrxAs2)5 Ca10Ir4Fe10As18 Ca 10 Ir 4 Fe 10 As 18 2014 106 "Ortho-, Ca-10-4-8" K 18.2 19.2 18.7 MPH155652 mOhm.cm 0.275 "Ca,FeAs,IrAs2,Ir" "mixture - in alumina crucible - sealed in quartz tube - heat(700C,3h) - heat(1100-1150C,10-40h) - Q to ice" Simultaneous suppression of superconductivity and structural phase transition under pressure in Ca10(Ir4As8)(Fe2-xIrxAs2)5 2014 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 90(2014)224513"
155653 PRB091125107 static magnetic order (FM-like) observed for T < 5.5 K. by NMR. Thermally intercalated into FeSe layer (Li0.8Fe0.2)OHFeSe Li0.8Fe1.2H1Se1 Li 0.8 Fe 1.2 H 1 Se 1 1 2015 K 34 34 MHC155653 Hydrothermal reaction method NMR evidence for field-induced ferromagnetism in (Li0.8Fe0.2)OHFeSe superconductor 2015 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 91(2015)125107"
155654 SSC1870018 "AFM comes from Eu-moment. Fe-agnetic freezing of moments around 15 K from Mossbauer, muon-SR." EuFe2(As0.7P0.3)2 Eu1Fe2As1.4P0.6 Eu 1 Fe 2 As 1.4 P 0.6 3 2014 18 AB2C2 ThCr2Si2 K 10 10 100 T "RES(0.5Rn), extrapolation" 10 MHC155654 "See Phys.Rev.b, 82(2010)134509" Magnetism in superconducting EuFe2As1.4P0.6 single crystals studied by local probes 2014 "Centro Brasileiro de Pesquisas Fisicas, Rua Xavier Sigaud 150, Riode Janeiro, Brazil" "Solid State Commun., 187(2014)18"
155655 PRB091174514 MgPtSi Mg1Pt1Si1 Mg 1 Pt 1 Si 1 1 2015 ABC Pnma 62 A 6.5324 4.1005 7.1752 TiNiSi-type K 2.52 2.97 2.5 0.2 2.5 86 T "RES(0.5Rn), linear extrapolation" 0.636 MHC155655 A from Hc2 230 "Mg2Si,Pt,Si" "mixture (Mg:Pt:Si = 10:7:25) - in alumina crucible - sealed in quartz tube - heat(1000C,12h) - FC to RT" Superconductivity in MgPtSi: An orthorhombic variant of MgB2 2015 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 91(2015)174514"
155656 PRB091174514 "Mg(Pt,Au)Si" Mg1Pt0.5Au0.5Si1 Mg 1 Pt 0.5 Au 0.5 Si 1 1 2015 ABC Pnma 62 TiNiSi-type K 2.9 2.9 "Mg2Si,Pt,Si" "mixture (Mg:Pt:Si = 10:7:25) - in alumina crucible - sealed in quartz tube - heat(1000C,12h) - FC to RT" Superconductivity in MgPtSi: An orthorhombic variant of MgB2 2015 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 91(2015)174514"
155657 PRB091174514 not SC down to 1.8 K MgRhSi Mg1Rh1Si1 Mg 1 Rh 1 Si 1 1 2015 ABC Pnma 62 A 6.5719 4.011 6.9798 TiNiSi-type K 1.8 "Mg2Si,Pt,Si" "mixture (Mg:Pt:Si = 10:7:25) - in alumina crucible - sealed in quartz tube - heat(1000C,12h) - FC to RT" Superconductivity in MgPtSi: An orthorhombic variant of MgB2 2015 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 91(2015)174514"
155658 PRB091174514 not SC down to 1.8 K MgIrSi Mg1Ir1Si1 Mg 1 Ir 1 Si 1 1 2015 ABC Pnma 62 A 6.574 4.0149 6.9693 TiNiSi-type K 1.8 "Mg2Si,Pt,Si" "mixture (Mg:Pt:Si = 10:7:25) - in alumina crucible - sealed in quartz tube - heat(1000C,12h) - FC to RT" Superconductivity in MgPtSi: An orthorhombic variant of MgB2 2015 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 91(2015)174514"
155659 SCIR0020426 "metal intercalated-FeAs. Synthetic conditions: Li = 0.0843g, FeAs = 0.3001g, Liq. ammonia = 15ml, reaction duration = 10 days." LiFe2Se2 Li1Fe2Se2 Li 1 Fe 2 Se 2 2012 AB2C2 A 3.775 17.04 K 44 44 32 nominal(metal/beta-FeAs = 0.5 - 1.0) - loaded in autoclave - placed in Liq.N2 ( a few min.) - Liq. ammonia filled upto a half volume of autoclave - react(2-17 days at RT) "Observation of superconductivity at 30, 46K in AxFe2Se2 (A = Li, Na, Ba, Sr, Ca, Yb, and Eu)" 2012 "Research & Development Center for Functional Crystals, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Scientific Reports, 2(2012)426"
155660 SCIR0020426 "metal intercalated-FeAs. Synthetic conditions: Na = 0.258g, FeAs = 0.3002g, Liq. ammonia = 15ml, reaction duration = 3 days." NaFe2Se2 Na1Fe2Se2 Na 1 Fe 2 Se 2 2012 AB2C2 A 3.7846 17.432 K 46 46 40 nominal(metal/beta-FeAs = 0.5 - 1.0) - loaded in autoclave - placed in Liq.N2 ( a few min.) - Liq. ammonia filled upto a half volume of autoclave - react(2-17 days at RT) "Observation of superconductivity at 30, 46K in AxFe2Se2 (A = Li, Na, Ba, Sr, Ca, Yb, and Eu)" 2012 "Research & Development Center for Functional Crystals, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Scientific Reports, 2(2012)426"
155661 SCIR0020426 "metal intercalated-FeAs. Synthetic conditions: K = 0.0290g, FeAs = 0.3999g, Liq. ammonia = 15ml, reaction duration = 2.5 days." KFe2Se2 K1Fe2Se2 K 1 Fe 2 Se 2 2012 AB2C2 K 40 40 11 nominal(metal/beta-FeAs = 0.5 - 1.0) - loaded in autoclave - placed in Liq.N2 ( a few min.) - Liq. ammonia filled upto a half volume of autoclave - react(2-17 days at RT) "Observation of superconductivity at 30, 46K in AxFe2Se2 (A = Li, Na, Ba, Sr, Ca, Yb, and Eu)" 2012 "Research & Development Center for Functional Crystals, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Scientific Reports, 2(2012)426"
155662 SCIR0020426 "metal intercalated-FeAs. Synthetic conditions: Ca = 0.0226g, FeAs = 0.3000g, Liq. ammonia = 10ml, reaction duration = 2 days." Ca0.5Fe2Se2 Ca0.5Fe2Se2 Ca 0.5 Fe 2 Se 2 2012 AB2C2 K 40 40 4 nominal(metal/beta-FeAs = 0.5 - 1.0) - loaded in autoclave - placed in Liq.N2 ( a few min.) - Liq. ammonia filled upto a half volume of autoclave - react(2-17 days at RT) "Observation of superconductivity at 30, 46K in AxFe2Se2 (A = Li, Na, Ba, Sr, Ca, Yb, and Eu)" 2012 "Research & Development Center for Functional Crystals, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Scientific Reports, 2(2012)426"
155663 SCIR0020426 "metal intercalated-FeAs. Synthetic conditions: Sr = 0.0814g, FeAs = 0.3131g, Liq. ammonia = 15ml, reaction duration = 13 days." Sr0.8Fe2Se2 Sr0.8Fe2Se2 Sr 0.8 Fe 2 Se 2 2012 AB2C2 K 38 38 60 nominal(metal/beta-FeAs = 0.5 - 1.0) - loaded in autoclave - placed in Liq.N2 ( a few min.) - Liq. ammonia filled upto a half volume of autoclave - react(2-17 days at RT) "Observation of superconductivity at 30, 46K in AxFe2Se2 (A = Li, Na, Ba, Sr, Ca, Yb, and Eu)" 2012 "Research & Development Center for Functional Crystals, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Scientific Reports, 2(2012)426"
155664 SCIR0020426 "metal intercalated-FeAs. Synthetic conditions: Ba = 0.1219g, FeAs = 0.3000g, Liq. ammonia = 10ml, reaction duration = 4 days. Lattice term in SP, beta=0.36 uJ/g.K4" Ba0.8Fe2Se2 Ba0.8Fe2Se2 Ba 0.8 Fe 2 Se 2 2012 AB2C2 A 3.7781 16.8427 K 39 39 62 mT 150 T 36.5 uJ/g.K2 3.47 SP nominal(metal/beta-FeAs = 0.5 - 1.0) - loaded in autoclave - placed in Liq.N2 ( a few min.) - Liq. ammonia filled upto a half volume of autoclave - react(2-17 days at RT) "Observation of superconductivity at 30, 46K in AxFe2Se2 (A = Li, Na, Ba, Sr, Ca, Yb, and Eu)" 2012 "Research & Development Center for Functional Crystals, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Scientific Reports, 2(2012)426"
155665 SCIR0020426 "metal intercalated-FeAs. Synthetic conditions: Eu = 0.0843g, FeAs = 0.3001g, Liq. ammonia = 15ml, reaction duration = 10 days." EuFe2Se2 Eu1Fe2Se2 Eu 1 Fe 2 Se 2 2012 AB2C2 K 40 40 8 nominal(metal/beta-FeAs = 0.5 - 1.0) - loaded in autoclave - placed in Liq.N2 ( a few min.) - Liq. ammonia filled upto a half volume of autoclave - react(2-17 days at RT) "Observation of superconductivity at 30, 46K in AxFe2Se2 (A = Li, Na, Ba, Sr, Ca, Yb, and Eu)" 2012 "Research & Development Center for Functional Crystals, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Scientific Reports, 2(2012)426"
155666 SCIR0020426 "metal intercalated-FeAs. Synthetic conditions: Yb = 0.1365g, FeAs = 0.2658g, Liq. ammonia = 10ml, reaction duration = 10 days." Yb0.8Fe2Se2 Yb0.8Fe2Se2 Yb 0.8 Fe 2 Se 2 2012 AB2C2 K 42 42 5 nominal(metal/beta-FeAs = 0.5 - 1.0) - loaded in autoclave - placed in Liq.N2 ( a few min.) - Liq. ammonia filled upto a half volume of autoclave - react(2-17 days at RT) "Observation of superconductivity at 30, 46K in AxFe2Se2 (A = Li, Na, Ba, Sr, Ca, Yb, and Eu)" 2012 "Research & Development Center for Functional Crystals, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Scientific Reports, 2(2012)426"
155667 SCIR0020426 "metal intercalated-FeAs. Synthetic conditions: FeAs = 0.2000g, Liq. ammonia = 10ml, reaction duration = 17 days." FeSe(soaked in LA) Fe1Se1 Fe 1 Se 1 2012 K 8.5 8.5 nominal(metal/beta-FeAs = 0.5 - 1.0) - loaded in autoclave - placed in Liq.N2 ( a few min.) - Liq. ammonia filled upto a half volume of autoclave - react(2-17 days at RT) "Observation of superconductivity at 30, 46K in AxFe2Se2 (A = Li, Na, Ba, Sr, Ca, Yb, and Eu)" 2012 "Research & Development Center for Functional Crystals, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Scientific Reports, 2(2012)426"
155668 SSC1850062 P-induced SC. T=T = 139 K. Ba(Fe1-xRux)2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2014 AB2C2 ThCr2Si2 K 4 MTC155668 "Ba,FeAs,RuAs" mixture - (melt) - slow cooling without using any flux Unification of the pressure and composition dependence of superconductivity in Ru substituted BaFe2As2 2014 "Materials Science Group, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, Tamil Nadu, India" "Solid State Commun., 185(2014)62"
155669 SSC1850062 P-induced SC. T=T = 103 K. Ba(Fe1-xRux)2As2 Ba1Fe1.76Ru0.24As2 Ba 1 Fe 1.76 Ru 0.24 As 2 3 2014 AB2C2 ThCr2Si2 K 4 MTC155669 "Ba,FeAs,RuAs" mixture - (melt) - slow cooling without using any flux Unification of the pressure and composition dependence of superconductivity in Ru substituted BaFe2As2 2014 "Materials Science Group, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, Tamil Nadu, India" "Solid State Commun., 185(2014)62"
155670 SSC1850062 Ba(Fe1-xRux)2As2 Ba1Fe1.48Ru0.52As2 Ba 1 Fe 1.48 Ru 0.52 As 2 3 2014 AB2C2 ThCr2Si2 K 21.2 21.2 MTC155670 "Ba,FeAs,RuAs" mixture - (melt) - slow cooling without using any flux Unification of the pressure and composition dependence of superconductivity in Ru substituted BaFe2As2 2014 "Materials Science Group, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, Tamil Nadu, India" "Solid State Commun., 185(2014)62"
155671 SSC1850062 Ba(Fe1-xRux)2As2 Ba1Fe1.3Ru0.7As2 Ba 1 Fe 1.3 Ru 0.7 As 2 3 2014 AB2C2 ThCr2Si2 K 20 20 MTC155671 K/GPa -10 "Ba,FeAs,RuAs" mixture - (melt) - slow cooling without using any flux Unification of the pressure and composition dependence of superconductivity in Ru substituted BaFe2As2 2014 "Materials Science Group, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, Tamil Nadu, India" "Solid State Commun., 185(2014)62"
155672 SSC1850062 Ba(Fe1-xRux)2As2 Ba1Fe1.58Ru0.42As2 Ba 1 Fe 1.58 Ru 0.42 As 2 3 2014 AB2C2 ThCr2Si2 K 19.2 19.2 MTC155672 "Ba,FeAs,RuAs" mixture - (melt) - slow cooling without using any flux Unification of the pressure and composition dependence of superconductivity in Ru substituted BaFe2As2 2014 "Materials Science Group, Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, Tamil Nadu, India" "Solid State Commun., 185(2014)62"
155673 PRB079094426 "not SC. impurity phase Eu2O3, Fe0.985Ni0.015As" EuFe2As2 Eu1Fe2As2 Eu 1 Fe 2 As 2 1 2009 AB2C2 2 ThCr2Si2 K 2 uV/K -2.71 MTP155673 "EuAs,Fe2As,Ni2As" "mixture - pellet - sealed in quartz tube - ANN(1173K, 24h) - FC to RT" Suppression of spin-density-wave transition and emergence of ferromagnetic ordering of Eu2+ moments in EuFe2-xNixAs2 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 79(2009)094426"
155674 PRB079094426 "not SC. impurity phase Eu2O3, Fe0.985Ni0.015As" "Eu(Fe,Ni)2As2" Eu1Fe1.91Ni0.09As2 Eu 1 Fe 1.91 Ni 0.09 As 2 1 2009 AB2C2 2 ThCr2Si2 K 2 MPH155674 uV/K -18.4 MTP155674 "EuAs,Fe2As,Ni2As" "mixture - pellet - sealed in quartz tube - ANN(1173K, 24h) - FC to RT" Suppression of spin-density-wave transition and emergence of ferromagnetic ordering of Eu2+ moments in EuFe2-xNixAs2 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 79(2009)094426"
155675 PRB079094426 "not SC. impurity phase Eu2O3, Fe0.985Ni0.015As" "Eu(Fe,Ni)2As2" Eu1Fe1.8Ni0.2As2 Eu 1 Fe 1.8 Ni 0.2 As 2 1 2009 AB2C2 2 ThCr2Si2 K 2 uV/K -31.1 MTP155675 "EuAs,Fe2As,Ni2As" "mixture - pellet - sealed in quartz tube - ANN(1173K, 24h) - FC to RT" Suppression of spin-density-wave transition and emergence of ferromagnetic ordering of Eu2+ moments in EuFe2-xNixAs2 2009 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 79(2009)094426"
155676 PRB091014508 "Tm = 7.5 K, Curie=Weis law for T>100K." Sr0.5Ce0.5FBiS2 Sr0.5Ce0.5F1Bi1S2 Sr 0.5 Ce 0.5 F 1 Bi 1 S 2 1 2015 emu.K/mol 0.8 myu-B/Ce 2.53 -19.2 P4/nmm A 4.069 13.349 BiS2-layer SC K 2.81 2.81 T "RES(0.9Rn), GL eq." 1.16 MHC155676 mJ/mol.K2 58.6 SP 220 SP "Ce2S3,SrF2,CeF2,CeF3,Bi2S3,S" "mixture - pellet - sealed in quartz tube - heat(1073K,24h) - Q to RT - ANN(973K,10h)" Coexistence of superconductivity and ferromagnetism in Sr0.5Ce0.5FBiS2 2015 "Department of Physics, Hangzhou Normal University, Hangzhou 310036, China" "Phys.Rev.B, 91(2015)014508"
155677 PRB091020506 air-snsitive. (dC/gamma*Tc) = 1.8. (residual gamma) = 5.3 mJ/mol.K2. Lattice term in SP beta = 2.9 mJ/mol.K4 Rb2Cr3As3 Rb2Cr3As3 Rb 2 Cr 3 As 3 2015 A2B3C3 2 K2Cr3As3 P6[-]m2 A 10.281 4.2421 K 4.8 0.44 4.8 91 T "RES(0.9Rn), GL-eq." 20 T/K RES(0.9Rn) 5.08 MHC155677 MSP155677 mJ/mol.K2 55 SP 175 SP "(mixture+3% excess Rb) - preheat(523K, in quartz ampoule) - grind - pellet - alumina tube - Ta tube -quartz tube - heat(973K, 24h)" Unconventional superconductivity in quasi-one-dimensional Rb2Cr3As3 2015 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 91(2015)020506"
155678 CEM1821991 alpha-LaSi5 La1Si5 La 1 Si 5 2009 AB5 C2/m A 15.19 4.01 8.2 beta = 109.44 K 10.7 11.7 11.4 11.4 100 "LaSi2,Si(powder)" "mixture -(High-P-high-T synthesis using Kawai-type anvils P=13 GPa). (LaSi2 + 3Si) - heat(700C,1h) - rapid cool to 600C" Phase diagram of the La-Si binary system under high pressure and the structures of superconducting LaSi5 and LaSi10 2009 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Solid State Chem., 182(2009)1991"
155679 CEM1821991 not SC down to 2K beta-LaSi5 La1Si5 La 1 Si 5 2009 AB5 C2/m A 14.922 3.906 8.807 beta=107.19 K 2 "LaSi2,Si(powder)" "mixture -(High-P-high-T synthesis using Kawai-type anvils P=13 GPa). (LaSi2 + 3Si) - heat(700C,1h) - slow cool to 600C" Phase diagram of the La-Si binary system under high pressure and the structures of superconducting LaSi5 and LaSi10 2009 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Solid State Chem., 182(2009)1991"
155680 CEM1821991 LaSi10 La1Si10 La 1 Si 10 2009 AB10 P6<3>/mmc A 9.623 4.723 K 6.7 6.7 mixture -(High-P-high-T synthesis using Kawai-type anvils P=13 GPa). Phase diagram of the La-Si binary system under high pressure and the structures of superconducting LaSi5 and LaSi10 2009 "Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "J.Solid State Chem., 182(2009)1991"
155681 CEM2290124 Sn0.8In0.2Te Sn0.8In0.2Te1 Sn 0.8 In 0.2 Te 1 1 2015 Fm3[-]m A 6.2832 K 3.1 3.1 Oe M-H curve 10 1.8 T "RES(0.9Rn), WHH" 1.33 T/K RES(0.9Rn) 0.62 MHC155681 A from Hc2 111 "Sn(3N),In(5N),Te(5N),Se(5N)" "mixture - sealed in carbon coated quartz tube - heat(1223K,12h) - FC to RT - reground - pellet - sealed - ANN(973K,12h) - FC to RT" Selenium doping in potential topological superconductor Sn0.8In0.2Te 2015 "CAS Key Laboratory of Materials for Energy Conversion and State Key Laboratory of High Performance Ceramics and Superfine Microstructures, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 229(2015)124"
155682 CEM2290124 Sn0.8In0.2(Te1-xSex) Sn0.8In0.2Te0.95Se0.05 Sn 0.8 In 0.2 Te 0.95 Se 0.05 1 2015 Fm3[-]m A 6.273 K 3.3 3.3 "Sn(3N),In(5N),Te(5N),Se(5N)" "mixture - sealed in carbon coated quartz tube - heat(1223K,12h) - FC to RT - reground - pellet - sealed - ANN(973K,12h) - FC to RT" Selenium doping in potential topological superconductor Sn0.8In0.2Te 2015 "CAS Key Laboratory of Materials for Energy Conversion and State Key Laboratory of High Performance Ceramics and Superfine Microstructures, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 229(2015)124"
155683 CEM2290124 Sn0.8In0.2(Te1-xSex) Sn0.8In0.2Te0.9Se0.1 Sn 0.8 In 0.2 Te 0.9 Se 0.1 1 2015 Fm3[-]m A 6.2677 K 3.7 3.7 "Sn(3N),In(5N),Te(5N),Se(5N)" "mixture - sealed in carbon coated quartz tube - heat(1223K,12h) - FC to RT - reground - pellet - sealed - ANN(973K,12h) - FC to RT" Selenium doping in potential topological superconductor Sn0.8In0.2Te 2015 "CAS Key Laboratory of Materials for Energy Conversion and State Key Laboratory of High Performance Ceramics and Superfine Microstructures, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 229(2015)124"
155684 CEM2290124 Sn0.8In0.2(Te1-xSex) Sn0.8In0.2Te0.85Se0.15 Sn 0.8 In 0.2 Te 0.85 Se 0.15 1 2015 Fm3[-]m A 6.2535 K 3.9 3.9 MTC155684 85.9 30 1.8 T "RES(0.9Rn), WHH" 2.81 T/K RES(0.9Rn) 1.04 MHC155684 A from Hc2 77 "Sn(3N),In(5N),Te(5N),Se(5N)" "mixture - sealed in carbon coated quartz tube - heat(1223K,12h) - FC to RT - reground - pellet - sealed - ANN(973K,12h) - FC to RT" Selenium doping in potential topological superconductor Sn0.8In0.2Te 2015 "CAS Key Laboratory of Materials for Energy Conversion and State Key Laboratory of High Performance Ceramics and Superfine Microstructures, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 229(2015)124"
155685 CEM2290124 Sn0.8In0.2(Te1-xSex) Sn0.8In0.2Te0.8Se0.2 Sn 0.8 In 0.2 Te 0.8 Se 0.2 1 2015 Fm3[-]m A 6.2398 K 3.8 3.8 "Sn(3N),In(5N),Te(5N),Se(5N)" "mixture - sealed in carbon coated quartz tube - heat(1223K,12h) - FC to RT - reground - pellet - sealed - ANN(973K,12h) - FC to RT" Selenium doping in potential topological superconductor Sn0.8In0.2Te 2015 "CAS Key Laboratory of Materials for Energy Conversion and State Key Laboratory of High Performance Ceramics and Superfine Microstructures, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 229(2015)124"
155686 CEM2290124 Sn0.8In0.2(Te1-xSex) Sn0.8In0.2Te0.75Se0.25 Sn 0.8 In 0.2 Te 0.75 Se 0.25 1 2015 Fm3[-]m A 6.2298 K 3.7 3.7 "Sn(3N),In(5N),Te(5N),Se(5N)" "mixture - sealed in carbon coated quartz tube - heat(1223K,12h) - FC to RT - reground - pellet - sealed - ANN(973K,12h) - FC to RT" Selenium doping in potential topological superconductor Sn0.8In0.2Te 2015 "CAS Key Laboratory of Materials for Energy Conversion and State Key Laboratory of High Performance Ceramics and Superfine Microstructures, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 229(2015)124"
155687 CEM2290124 Sn0.8In0.2(Te1-xSex) Sn0.8In0.2Te0.7Se0.3 Sn 0.8 In 0.2 Te 0.7 Se 0.3 1 2015 Fm3[-]m A 6.2174 K 3.5 3.5 "Sn(3N),In(5N),Te(5N),Se(5N)" "mixture - sealed in carbon coated quartz tube - heat(1223K,12h) - FC to RT - reground - pellet - sealed - ANN(973K,12h) - FC to RT" Selenium doping in potential topological superconductor Sn0.8In0.2Te 2015 "CAS Key Laboratory of Materials for Energy Conversion and State Key Laboratory of High Performance Ceramics and Superfine Microstructures, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 229(2015)124"
155688 CEM2320050 "compositions = Cs0.96Pb0.25Bi3.75Te6.04 by EDS. SP heat: beta = 10.11 mJ/mol.K4, delta = 0.16 mJ/mol.K6. (dCel/Tc) = 11.51 mJ/mol.K2, (dCel/gamma*Tc) =1.32" CsPbxBi4-xTe6 Cs1Pb0.3Bi3.7Te6 Cs 1 Pb 0.3 Bi 3.7 Te 6 1 2015 AB4C6 3 A 6.327 28.648 4.359 orthorhombic K 2.3 2.9 3.1 3.1 2.9 MTC155688 T "RES(0.9Rn), GL theory" 1.5 MSP155688 mJ/mol.K2 8.75 SP 128.4 SP "Bi2Te3,Pb,Te,Cs" "(mixture with small excess Cs) - alumina crucible - sealed in silica tube - preheat(200C,10h) - hold(700C,40h) - cool to RT - heat(700C,40h) - air Q to RT" Superconductivity in the orthorhombic phase of thermoelectric CsPbxBi4-xTe6 with 0.3 =< x =< 1.0 2015 "Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Solid State Chem., 232(2015)50"
155689 CEM2320050 compositions = Cs0.94Pb0.99Bi3.00Te6.07 by EDS. CsPbxBi4-xTe6 Cs1Pb1Bi3Te6 Cs 1 Pb 1 Bi 3 Te 6 1 2015 AB4C6 3 A 6.345 28.68 4.377 orthorhombic K 2.7 2.7 mOhm.cm 7 "Bi2Te3,Pb,Te,Cs" "(mixture with small excess Cs) - alumina crucible - sealed in silica tube - preheat(200C,10h) - hold(700C,40h) - cool to RT - heat(700C,40h) - air Q to RT" Superconductivity in the orthorhombic phase of thermoelectric CsPbxBi4-xTe6 with 0.3 =< x =< 1.0 2015 "Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Solid State Chem., 232(2015)50"
155690 INO0506372 "R(T) is metallic. synthesis condition (1200C,10GPa)" BaGe3 Ba1Ge3 Ba 1 Ge 3 2011 AB3 7 P6<3>/mmc 194 A 6.814 5.027 hexagonal K 4 4 4 146 "Ba(2N),Ge(5N)" "BaGe2 by arc-mwlting. mixture(BaGe2:Ge = 1:1) in h-BN cell - placed in MgO octahedral pressure medium - heat(500-1200C, 3-13GPa)" High-Pressure Synthesis and Superconductivity of a New Binary Barium Germanide BaGe3 2011 "Department of Applied Chemistry, Faculty of Engineering, Hiroshima University, Higashi-Hiroshima 739-8527, Japan" "Inorganic Chem., 50(2011)6372"
155691 INO0515509 SP fitting: C/T = gamma + beta*T^2 + delta*T^4 for 4.0 =P-NMR. Curie-T obtained from (1/T1*T). LsFe(As1-xPx)O La1Fe1As0.9P0.1O1 La 1 Fe 1 As 0.9 P 0.1 O 1 1 2014 65.2 65.7 ABCD oxypnictide "Fe-1111, ZrCuSiAs-type" K 0 0 0 solid state reaction. Powdered samples used for NMR Relationship between Superconductivity and Antiferromagnetism in LaFe(As1-xPx)O Revealed by <31>P-NMR 2014 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "J.Phys.Soc.Jpn, 83(2014)023707"
155715 JPS083023707 Tn measured from T-dependence of <31>P-NMR. Curie-T obtained from (1/T1*T). LsFe(As1-xPx)O La1Fe1As0.8P0.2O1 La 1 Fe 1 As 0.8 P 0.2 O 1 1 2014 38.9 37.3 ABCD oxypnictide "Fe-1111, ZrCuSiAs-type" K 0 0 0 solid state reaction. Powdered samples used for NMR Relationship between Superconductivity and Antiferromagnetism in LaFe(As1-xPx)O Revealed by <31>P-NMR 2014 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "J.Phys.Soc.Jpn, 83(2014)023707"
155716 JPS083023707 Tn measured from T-dependence of <31>P-NMR. Curie-T obtained from (1/T1*T). LsFe(As1-xPx)O La1Fe1As0.7P0.3O1 La 1 Fe 1 As 0.7 P 0.3 O 1 1 2014 10.6 ABCD oxypnictide "Fe-1111, ZrCuSiAs-type" K 10.6 10.6 MPH155716 solid state reaction. Powdered samples used for NMR Relationship between Superconductivity and Antiferromagnetism in LaFe(As1-xPx)O Revealed by <31>P-NMR 2014 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "J.Phys.Soc.Jpn, 83(2014)023707"
155717 JPS083023707 Tn measured from T-dependence of <31>P-NMR. Curie-T obtained from (1/T1*T). LsFe(As1-xPx)O La1Fe1As0.6P0.4O1 La 1 Fe 1 As 0.6 P 0.4 O 1 1 2014 20.7 17.6 ABCD oxypnictide "Fe-1111, ZrCuSiAs-type" K 7.73 7.73 solid state reaction. Powdered samples used for NMR Relationship between Superconductivity and Antiferromagnetism in LaFe(As1-xPx)O Revealed by <31>P-NMR 2014 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "J.Phys.Soc.Jpn, 83(2014)023707"
155718 JPS083023707 Tn measured from T-dependence of <31>P-NMR. Curie-T obtained from (1/T1*T). LsFe(As1-xPx)O La1Fe1As0.5P0.5O1 La 1 Fe 1 As 0.5 P 0.5 O 1 1 2014 14.7 16.5 ABCD oxypnictide "Fe-1111, ZrCuSiAs-type" K 0 0 0 solid state reaction. Powdered samples used for NMR Relationship between Superconductivity and Antiferromagnetism in LaFe(As1-xPx)O Revealed by <31>P-NMR 2014 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "J.Phys.Soc.Jpn, 83(2014)023707"
155719 JPS083083702 Tn by <31>P-NMR. LsFe(As1-xPx)O La1Fe1As0.6P0.4O1 La 1 Fe 1 As 0.6 P 0.4 O 1 1 2014 16 ABCD oxypnictide "Fe-1111, ZrCuSiAs-type" K 4.8 4.8 solid state reaction Emergence of Novel Antiferromagnetic Order Intervening between Two Superconducting Phases in LaFe(As1-xPx)O: <31>P-NMR Studies 2014 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "J.Phys.Soc.Jpn, 83(2014)083702"
155720 JPS083083702 Tn by <31>P-NMR. Figure shows 2nd AFM phase in LaFe(As1-xPx)O along with the results of PRB090064504(2014) and EPL08647002(2009) LsFe(As1-xPx)O La1Fe1As0.5P0.5O1 La 1 Fe 1 As 0.5 P 0.5 O 1 1 2014 13.7 ABCD oxypnictide "Fe-1111, ZrCuSiAs-type" K 0 MPH155720 solid state reaction Emergence of Novel Antiferromagnetic Order Intervening between Two Superconducting Phases in LaFe(As1-xPx)O: <31>P-NMR Studies 2014 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "J.Phys.Soc.Jpn, 83(2014)083702"
155721 JPS083083702 Tn by <31>P-NMR. LsFe(As1-xPx)O La1Fe1As0.4P0.6O1 La 1 Fe 1 As 0.4 P 0.6 O 1 1 2014 35 ABCD oxypnictide "Fe-1111, ZrCuSiAs-type" K 0 MPH155720 solid state reaction Emergence of Novel Antiferromagnetic Order Intervening between Two Superconducting Phases in LaFe(As1-xPx)O: <31>P-NMR Studies 2014 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "J.Phys.Soc.Jpn, 83(2014)083702"
155722 JPS083083702 Tn by <31>P-NMR. LsFe(As1-xPx)O La1Fe1As0.3P0.7O1 La 1 Fe 1 As 0.3 P 0.7 O 1 1 2014 15.5 ABCD oxypnictide "Fe-1111, ZrCuSiAs-type" K 0 solid state reaction Emergence of Novel Antiferromagnetic Order Intervening between Two Superconducting Phases in LaFe(As1-xPx)O: <31>P-NMR Studies 2014 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "J.Phys.Soc.Jpn, 83(2014)083702"
155723 JPS083094721 Energy gap obtained by SP using two gap model. Large and small gaps are 4.11 and 2.60 meV. FeSe1-xTex Fe1Se0.4Te0.6 Fe 1 Se 0.4 Te 0.6 3 2014 AB Fe-11 K 13.8 13.8 meV 4.11 14 MSP155723 "Single crystals grown by Bridgman method. As-grown sample - ANN(400C, 200h in vac)" Superconducting Gap and Symmetry in FeSe1-xTex Studied by Specific Heat in Magnetic Fields 2014 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 83(2014)094721"
155724 JPS083094721 Energy gap obtained by SP using two gap model. Large and small gaps are 4.60 and 3.10 meV. FeSe1-xTex Fe1Se0.3Te0.7 Fe 1 Se 0.3 Te 0.7 3 2014 AB Fe-11 K 13.7 13.7 meV 4.6 14 MSP155724 "Single crystals grown by Bridgman method. As-grown sample - ANN(400C, 200h in vac)" Superconducting Gap and Symmetry in FeSe1-xTex Studied by Specific Heat in Magnetic Fields 2014 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 83(2014)094721"
155725 JPS083094721 Energy gap obtained by SP using two gap model. Large and small gaps are 5.01 and 3.00 meV. FeSe1-xTex Fe1Se0.2Te0.8 Fe 1 Se 0.2 Te 0.8 3 2014 AB Fe-11 K 13 13 meV 5.01 14 MSP155725 "Single crystals grown by Bridgman method. As-grown sample - ANN(400C, 200h in vac)" Superconducting Gap and Symmetry in FeSe1-xTex Studied by Specific Heat in Magnetic Fields 2014 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 83(2014)094721"
155726 JPS083094721 Energy gap obtained by SP using two gap model. Large and small gaps are 2.51 and 1.81 meV. FeSe1-xTex Fe1Se0.1Te0.9 Fe 1 Se 0.1 Te 0.9 3 2014 AB Fe-11 K 11 11 meV 2.51 14 MSP155726 "Single crystals grown by Bridgman method. As-grown sample - ANN(400C, 200h in vac)" Superconducting Gap and Symmetry in FeSe1-xTex Studied by Specific Heat in Magnetic Fields 2014 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 83(2014)094721"
155727 JPS083094721 not SC. gamma from SP-heat. FeSe1-xTex Fe1Te1 Fe 1 Te 1 3 2014 AB Fe-11 K 0 0 0 mJ/mol.K2 29.43 "Single crystals grown by Bridgman method. As-grown sample - ANN(400C, 200h in vac)" Superconducting Gap and Symmetry in FeSe1-xTex Studied by Specific Heat in Magnetic Fields 2014 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 83(2014)094721"
155728 JPS083113704 "co-intercalated (Li,M)-sample. M is HMDA (C6H16N2). compositions: Li1.25M0.64Fe2.05Se2 by IPS-OES. R(T) not to zero down to 5K. FeSe layer distance d=16.225 A" LixMyFe2-zSe2 Li1.25M0.64Fe2.05Se2 Li 1.25 M 0.64 Fe 2.05 Se 2 1 2014 A 3.453 32.45 K 38 38 MTC155728 "FeSe made by solid state reaction. mixture(Fe:Se=1.02:1) - pellet - sealed in quartz - heat(800C,40h). FeSe powder - placed in beaker(0.2-0.8 M solution of Li desolved HMDA reaction(45C,5d)" New Intercalation Superconductor Lix(C6H16N2)yFe2-zSe2 with a Very Large Interlayer-Spacing and Tc = 38K 2014 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 83(2014)113704"
155729 JPS083114709 R(T) anomaly at 50 K.. Anisotropy = (Hc2//ab)/(Hc2//c) = 49. "La(,O,F)BiSe2" La1Bi1Se2F0.5O0.5 La 1 Bi 1 Se 2 F 0.5 O 0.5 1 2014 CeOBiS2 BiS2-layer SC K 3.05 3.75 3.4 T "RES(on), Linear approx." 28 0.57 MHC155729 "La,Bi,Se,Bi2Se3,BiF3" "High-T flux method. (mixture 0.8g) - mixed with CsCl flux(5g) - sealed in quartz tube - heat(900C,10h) - cool to 650C (1 C/h) - FC to RT" Superconducting Anisotropies of F-Substituted LaOBiSe2 Single Crystals 2014 "University of Yamanashi, Kofu 400-8511, Japan" "J.Phys.Soc.Jpn, 83(2014)114709"
155730 JPS084063703 RRR = 54. AF-quadrupole order Temp = 0.11K Pr1-xLaxIr2Zn20 Pr1Ir2Zn20 Pr 1 Ir 2 Zn 20 1 2015 Myu-B/Pr 3.5 AB2C20 CeCr2Al20 A 14.2729 K 0.07 0.07 mT "RES, WHH" 0.8 mT/K RES 16 MHC155730 A from Hc2 6600 uOhm.cm 1.93 "Pr(4N),La(4N),Ir(3N),Zn(6N)" melt-grown method Effect of La Substitution in PrIr2Zn20 on the Superconductivity and Antiferro-Quadrupole Order 2015 "Department of Quantum Matter, Graduate School of Advanced Sciences of Matter, Hiroshima University, Higashihiroshima, Hiroshima 739-8530, Japan" "J.Phys.Soc.Jpn, 84(2015)063703"
155731 JPS084063703 Pr1-xLaxIr2Zn20 Pr0.73La0.27Ir2Zn20 Pr 0.73 La 0.27 Ir 2 Zn 20 1 2015 Myu-B/Pr 3.4 AB2C20 CeCr2Al20 K 0.093 0.093 uOhm.cm 8.55 "Pr(4N),La(4N),Ir(3N),Zn(6N)" melt-grown method Effect of La Substitution in PrIr2Zn20 on the Superconductivity and Antiferro-Quadrupole Order 2015 "Department of Quantum Matter, Graduate School of Advanced Sciences of Matter, Hiroshima University, Higashihiroshima, Hiroshima 739-8530, Japan" "J.Phys.Soc.Jpn, 84(2015)063703"
155732 JPS084063703 Pr1-xLaxIr2Zn20 Pr0.25La0.75Ir2Zn20 Pr 0.25 La 0.75 Ir 2 Zn 20 1 2015 Myu-B/Pr 3.2 AB2C20 CeCr2Al20 K 0.28 0.28 MTC155732 uOhm.cm 22.9 "Pr(4N),La(4N),Ir(3N),Zn(6N)" melt-grown method Effect of La Substitution in PrIr2Zn20 on the Superconductivity and Antiferro-Quadrupole Order 2015 "Department of Quantum Matter, Graduate School of Advanced Sciences of Matter, Hiroshima University, Higashihiroshima, Hiroshima 739-8530, Japan" "J.Phys.Soc.Jpn, 84(2015)063703"
155733 JPS084063703 AF-quadrupole order Temp = 0.067 K Pr1-xLaxIr2Zn20 Pr0.96La0.04Ir2Zn20 Pr 0.96 La 0.04 Ir 2 Zn 20 1 2015 AB2C20 CeCr2Al20 K 0.07 0.07 MTC155733 uOhm.cm 2.2 "Pr(4N),La(4N),Ir(3N),Zn(6N)" melt-grown method Effect of La Substitution in PrIr2Zn20 on the Superconductivity and Antiferro-Quadrupole Order 2015 "Department of Quantum Matter, Graduate School of Advanced Sciences of Matter, Hiroshima University, Higashihiroshima, Hiroshima 739-8530, Japan" "J.Phys.Soc.Jpn, 84(2015)063703"
155734 JPS084063703 RRR = 12 Pr1-xLaxIr2Zn20 La1Ir2Zn20 La 1 Ir 2 Zn 20 1 2015 AB2C20 CeCr2Al20 A 14.3535 K 0.58 0.58 mT "RES, WHH" 11 mT/K RES 26 MHC155734 A from Hc2 1800 uOhm.cm 7.61 "Pr(4N),La(4N),Ir(3N),Zn(6N)" melt-grown method Effect of La Substitution in PrIr2Zn20 on the Superconductivity and Antiferro-Quadrupole Order 2015 "Department of Quantum Matter, Graduate School of Advanced Sciences of Matter, Hiroshima University, Higashihiroshima, Hiroshima 739-8530, Japan" "J.Phys.Soc.Jpn, 84(2015)063703"
155735 JPS084075001 Nominal Co-content x = 0.025. Tc defined as coset of M/H. Ca0.8La0.2Fe1-xCoxAs2 Ca0.8La0.2Fe0.978Co0.022As2 Ca 0.8 La 0.2 Fe 0.978 Co 0.022 As 2 1 2015 ABC2 Fe-112 P2<1> Fe-112 phase K 37.8 37.8 "CaO,Ca,La,FeAs,CoAs,As" self-flux method Co-co-doping Effect on Superconducting Properties of 112-Type Ca0.8La0.2FeAs2 Single Crystals 2015 "Department of Physics and Key Laboratory of MEMS of the Ministry of Education, Southeast University, Nanjing 211189, China" "J.Phys.Soc.Jpn, 84(2015)075001"
155736 JPS084075001 Nominal Co-content x = 0.0375. Tc defined as coset of M/H. Ca0.8La0.2Fe1-xCoxAs2 Ca0.8La0.2Fe0.9671Co0.0329As2 Ca 0.8 La 0.2 Fe 0.9671 Co 0.0329 As 2 1 2015 ABC2 Fe-112 P2<1> Fe-112 phase K 36.5 36.5 "CaO,Ca,La,FeAs,CoAs,As" self-flux method Co-co-doping Effect on Superconducting Properties of 112-Type Ca0.8La0.2FeAs2 Single Crystals 2015 "Department of Physics and Key Laboratory of MEMS of the Ministry of Education, Southeast University, Nanjing 211189, China" "J.Phys.Soc.Jpn, 84(2015)075001"
155737 JPS084075001 Nominal Co-content x = 0.05. Tc defined as coset of M/H. Ca0.8La0.2Fe1-xCoxAs2 Ca0.8La0.2Fe0.9558Co0.0442As2 Ca 0.8 La 0.2 Fe 0.9558 Co 0.0442 As 2 1 2015 ABC2 Fe-112 P2<1> Fe-112 phase K 35.1 35.1 "CaO,Ca,La,FeAs,CoAs,As" self-flux method Co-co-doping Effect on Superconducting Properties of 112-Type Ca0.8La0.2FeAs2 Single Crystals 2015 "Department of Physics and Key Laboratory of MEMS of the Ministry of Education, Southeast University, Nanjing 211189, China" "J.Phys.Soc.Jpn, 84(2015)075001"
155738 JPS084084703 "As-synthesized. SC disappears for P > 2 GPa. R(T) has two anomalies at T1 = and T2 = for P > 2GPa, due to Bi metal. For P=8 GPa, T1=5.83 K, T2=8.38 K." "Bi(O,F)BiS2" Bi2S2F0.5O0.5 Bi 2 S 2 F 0.5 O 0.5 1 2015 AB2C2 A 3.97 13.723 BiS2-layer SC K 5.1 5.1 5.1 MTC155738 K/GPa -1.2 "Topotactic reaction (Bi2OS2 + 0.5 XeF2 at 400C, 72H in evacuated quartz ampoule" "Pressure Effects on Superconducting Properties of the BiS2-Based Superconductor Bi2(O,F)S2" 2015 "Department of Applied Chemistry, The University of Tokyo, Bunkyo, Tokyo 113-8656, Japan" "J.Phys.Soc.Jpn, 84(2015)084703"
155739 JPS084084703 "HP-annealed (470C,2 GPa,1h) sample" "Bi(O,F)BiS2" Bi2S2F0.5O0.5 Bi 2 S 2 F 0.5 O 0.5 1 2015 AB2C2 A 3.979 13.693 BiS2-layer SC K 4.9 4.9 "Topotactic reaction (Bi2OS2 + 0.5 XeF2 at 400C, 72H in evacuated quartz ampoule" "Pressure Effects on Superconducting Properties of the BiS2-Based Superconductor Bi2(O,F)S2" 2015 "Department of Applied Chemistry, The University of Tokyo, Bunkyo, Tokyo 113-8656, Japan" "J.Phys.Soc.Jpn, 84(2015)084703"
155740 JPS084084703 "Bi(O,F)BiS2" Bi2S2F0.1O0.9 Bi 2 S 2 F 0.1 O 0.9 1 2015 AB2C2 A 3.964 13.761 BiS2-layer SC K 2.92 2.92 "Topotactic reaction (Bi2OS2 + 0.1 XeF2 at 470C, 72H in evacuated quartz ampoule" "Pressure Effects on Superconducting Properties of the BiS2-Based Superconductor Bi2(O,F)S2" 2015 "Department of Applied Chemistry, The University of Tokyo, Bunkyo, Tokyo 113-8656, Japan" "J.Phys.Soc.Jpn, 84(2015)084703"
155741 JPS084084703 "Bi(O,F)BiS2" Bi2S2F0.1O0.9 Bi 2 S 2 F 0.1 O 0.9 3 2015 AB2C2 A 3.969 13.736 BiS2-layer SC K 4.43 4.43 "Topotactic reaction (Bi2OS2 + 0.1 XeF2 at 470C, 72H in evacuated quartz ampoule" "Pressure Effects on Superconducting Properties of the BiS2-Based Superconductor Bi2(O,F)S2" 2015 "Department of Applied Chemistry, The University of Tokyo, Bunkyo, Tokyo 113-8656, Japan" "J.Phys.Soc.Jpn, 84(2015)084703"
155742 JPS084095001 "Tc, Hc2 data for P=0.4 GPa.. Hc2(T) figure by DB staff from Fig.3. Tc(onset) = 5.7 K for P=1.9 GPa." "La(O,F)BiSeS" La1Bi1Se1S1F0.5O0.5 La 1 Bi 1 Se 1 S 1 F 0.5 O 0.5 3 2015 P4/nmm A 13.54 BiS2-layer SC K 2.3 4.9 3.6 T RES(0.9Rn) MHC155742 CsCl flux method Observation of a Pressure-Induced Phase Transition for Single Crystalline LaO0.5F0.5BiSeS Using a Diamond Anvil Cell 2015 "Laboratory of Nano-Structure Physics, Research Institute for Electronic Science, University of Hokkaido, Sapporo 001-0020, Japan" "J.Phys.Soc.Jpn, 84(2015)095001"
155743 JPS084095001 Tc data for P=5.1 GPa (high-Tc phase). space group = P2<1>/m for P>3 GPa. Tc = 5.0 K (low Tc phase) "La(O,F)BiSeS" La1Bi1Se1S1F0.5 La 1 Bi 1 Se 1 S 1 F 0.5 1 2015 P2<1>/m BiS2-layer SC K 3.48 7 5.24 CsCl flux method Observation of a Pressure-Induced Phase Transition for Single Crystalline LaO0.5F0.5BiSeS Using a Diamond Anvil Cell 2015 "Laboratory of Nano-Structure Physics, Research Institute for Electronic Science, University of Hokkaido, Sapporo 001-0020, Japan" "J.Phys.Soc.Jpn, 84(2015)095001"
155744 JPS084104706 BNx N0.7V1 N 0.7 V 1 1 2015 AB NaCl Fm3m A 4.08 K 2.03 2.03 "mixture(V, VN powder) - pressed into pellet - ANN(1100C,24h, under 0.1 Pa-Ar, in quartz tube)" High Pressure Effect on the Superconductivity in VN 2015 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "J.Phys.Soc.Jpn, 84(2015)104706"
155745 JPS084104706 BNx N0.8V1 N 0.8 V 1 1 2015 AB NaCl Fm3m A 4.1152 K 4.54 4.54 "mixture(V, VN powder) - pressed into pellet - ANN(1100C,24h, under 0.1 Pa-Ar, in quartz tube)" High Pressure Effect on the Superconductivity in VN 2015 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "J.Phys.Soc.Jpn, 84(2015)104706"
155746 JPS084104706 Lattice term in SP (beta) = 0.04 mJ/mol.K4. (dC/gamma*Tc) = 1.65. e-ph = 0.75 BNx N1V1 N 1 V 1 2015 emu/mol 0.00027 emu.K/mol 0.0101 -13.5 AB NaCl Fm3m A 4.1427 K 7.98 9.23 8.32 8.32 K/GPa 0.14 T "RES(onset), WHH" 10.32 T/K RES(onset) 1.66 MHC155746 4.05 14 MSP155746 mJ/mol.K2 9.82 SP 458 SP uOhm.cm 163.6 "mixture(V, VN powder) - pressed into pellet - ANN(1100C,24h, under 0.1 Pa-Ar, in quartz tube)" High Pressure Effect on the Superconductivity in VN 2015 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "J.Phys.Soc.Jpn, 84(2015)104706"
155747 JPS084115003 "P-induced SC. Eu:F:Bi:S = 1:0.9:0.9:1.7 by EDX. R(T) anomaly at 230 K, which decreases with increasing P. I to M transition at 0.3 GPa. Tc and Hc2 for P = 1.8 GPa., where Tc(max)." EuFBiS2 Eu1Bi1S2F1 Eu 1 Bi 1 S 2 F 1 1 2015 2 CeOBiS2 A 4.0478 13.52 BiS2-layer SC K 7.8 8.6 2 8.2 MTC155747 T "RES(onset), extrapolation" 3 MHC155747 "EuS,BiF3,Bi2S3" "mixture - pellet - sealed in quartz tube - heat (700C,20h)" Pressure-Induced Superconductivity in BiS2-Based EuFBiS2 2015 "1National Institute for Materials Science, Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.Soc.Jpn, 84(2015)115003"
155748 NATM0070953 "T = 154 K ( P4/nmm to Cmma). Tn(Ce) = 3.75 K. AFM moment, data shows at 40 K. M(Fe) = 0.94 and M(Ce) = 0.83 Myu-B at T = 1.7 K." "Ce(O,F)FeAs" Ce1Fe1As1O1 Ce 1 Fe 1 As 1 O 1 2008 Myu-B/Fe 0.8 138 ABCD oxypnictide P4/nmm A 3.9959 8.6522 "data , at T=175K. For T=1.4K, SG=Cmma, a=5.6626, b=5.6327, c=8.6445" K 1.4 Structural and magnetic phase diagram of CeFeAsO1-xFx and its relation to high-temperature superconductivity 2008 "Department of Physics and Astronomy, The University of Tennessee, Knoxville, Tennessee 37996-1200, USA" "Nature Mater., 7(2008)953"
155749 NATM0070953 "T = 138 K ( P4/nmm to Cmma). Tn(Ce) = 3.91 K. AFM moment, data shows at 40 K." "Ce(O,F)FeAs" Ce1Fe1As1F0.02O0.98 Ce 1 Fe 1 As 1 F 0.02 O 0.98 2008 Myu-B/Fe 0.67 127 ABCD oxypnictide Cmma A 5.6586 5.6315 8.6382 data at T=1.4 K K 1.4 Structural and magnetic phase diagram of CeFeAsO1-xFx and its relation to high-temperature superconductivity 2008 "Department of Physics and Astronomy, The University of Tennessee, Knoxville, Tennessee 37996-1200, USA" "Nature Mater., 7(2008)953"
155750 NATM0070953 "T = 118 K ( P4/nmm to Cmma). Tn(Ce) = 3.71 K. AFM moment, data shows at 40 K." "Ce(O,F)FeAs" Ce1Fe1As1F0.04O0.96 Ce 1 Fe 1 As 1 F 0.04 O 0.96 2008 Myu-B/Fe 0.4 97.6 ABCD oxypnictide Cmma A 5.6553 5.6325 8.6355 data at T=1.4 K K 1.4 MPH155754 Structural and magnetic phase diagram of CeFeAsO1-xFx and its relation to high-temperature superconductivity 2008 "Department of Physics and Astronomy, The University of Tennessee, Knoxville, Tennessee 37996-1200, USA" "Nature Mater., 7(2008)953"
155751 NATM0070953 "T = 92 K ( P4/nmm to Cmma). Tn(Ce) = 2.89 K. AFM moment, data shows at 40 K." "Ce(O,F)FeAs" Ce1Fe1As1F0.06O0.94 Ce 1 Fe 1 As 1 F 0.06 O 0.94 2008 Myu-B/Fe 0 10.8 ABCD oxypnictide Cmma A 5.6511 5.6346 8.6335 data at T=1.4 K K 0 0 Structural and magnetic phase diagram of CeFeAsO1-xFx and its relation to high-temperature superconductivity 2008 "Department of Physics and Astronomy, The University of Tennessee, Knoxville, Tennessee 37996-1200, USA" "Nature Mater., 7(2008)953"
155752 NATM0070953 T = 60 K ( P4/nmm to Cmma). "Ce(O,F)FeAs" Ce1Fe1As1F0.08O0.92 Ce 1 Fe 1 As 1 F 0.08 O 0.92 2008 ABCD oxypnictide Cmma A 5.645 5.6352 8.6287 data at T=1.4 K K 27.6 27.6 Structural and magnetic phase diagram of CeFeAsO1-xFx and its relation to high-temperature superconductivity 2008 "Department of Physics and Astronomy, The University of Tennessee, Knoxville, Tennessee 37996-1200, USA" "Nature Mater., 7(2008)953"
155753 NATM0070953 "Ce(O,F)FeAs" Ce1Fe1As1F0.1O0.9 Ce 1 Fe 1 As 1 F 0.1 O 0.9 2008 ABCD oxypnictide Cmma A 5.6386 5.6364 8.6258 data at T=1.4 K K 32.8 32.8 Structural and magnetic phase diagram of CeFeAsO1-xFx and its relation to high-temperature superconductivity 2008 "Department of Physics and Astronomy, The University of Tennessee, Knoxville, Tennessee 37996-1200, USA" "Nature Mater., 7(2008)953"
155754 NATM0070953 "Ce(O,F)FeAs" Ce1Fe1As1F0.16O0.84 Ce 1 Fe 1 As 1 F 0.16 O 0.84 2008 ABCD oxypnictide P4/nmm A 3.9847 8.6032 data at T=60 K K 40.7 40.7 MPH155754 Structural and magnetic phase diagram of CeFeAsO1-xFx and its relation to high-temperature superconductivity 2008 "Department of Physics and Astronomy, The University of Tennessee, Knoxville, Tennessee 37996-1200, USA" "Nature Mater., 7(2008)953"
155755 PCS0840017 "max-(dTc/dP) = 8.25 K/GPa at P=0.97 GPa). For P = 1.68GPa, Tc(on) = 10.4 K, Hc2(0) =15.9 T" "La(O,F)BiS2" La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 1 2015 CeOBiS2 P4/nmm A 4.06 13.38 BiS2-layer SC K 2.1 2.1 MTC155755 T "RES(0.9Rn), WHH" 1.4 MHC155755 "La,La2O3,LaF3,Bi,S" "mixture - pellet - sealed in quartz tube(vac) - SIN(650C,12h) - slow cool to RT" "Effect of hydrostatic pressures on the superconductivity of new BiS2 based REO0.5F0.5BiS2 (RE = La, Pr and Nd) superconductors" 2015 "CSIR-National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi 110012, India" "J.Phys.Chem.Solids, 84(2015)17"
155756 PCS0840017 "For P = 1.79 GPa, Tc(on) = 7.33 K, Hc2(0) = 8.8 T" "Pr(O,F)BiS2" Pr1Bi1S2F0.5O0.5 Pr 1 Bi 1 S 2 F 0.5 O 0.5 1 2015 CeOBiS2 P4/nmm A 4.03 13.42 BiS2-layer SC K 3.2 3.2 MTC155756 T "RES(0.9Rn), WHH" 2.6 MHC155756 "Pr,Pr6O11PrF3,Bi,S" "mixture - pellet - sealed in quartz tube(vac) - SIN(650C,12h) - slow cool to RT" "Effect of hydrostatic pressures on the superconductivity of new BiS2 based REO0.5F0.5BiS2 (RE = La, Pr and Nd) superconductors" 2015 "CSIR-National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi 110012, India" "J.Phys.Chem.Solids, 84(2015)17"
155757 PCS0840017 "For P = 1.79 GPa, Tc(on) = 7.33 K, Hc2(0) = 8.2 T" "Nd(O,F)BiS2" Nd1Bi1S2F0.5O0.5 Nd 1 Bi 1 S 2 F 0.5 O 0.5 1 2015 CeOBiS2 P4/nmm A 3.99 13.38 BiS2-layer SC K 4.2 4.2 MTC155757 T "RES(0.9Rn), WHH" 2.86 MHC155757 "Nd,Nd2O3,NdF3,Bi,S" "mixture - pellet - sealed in quartz tube(vac) - SIN(650C,12h) - slow cool to RT" "Effect of hydrostatic pressures on the superconductivity of new BiS2 based REO0.5F0.5BiS2 (RE = La, Pr and Nd) superconductors" 2015 "CSIR-National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi 110012, India" "J.Phys.Chem.Solids, 84(2015)17"
155758 PHB4790051 "<119>Sn NMR. Two gaps, (2d/kTc) = 7 and 1.5) from two gap model using T-dependence of (1/T1). (1/T1) vs T shows Tc = 4.5 K for f=33 MHz, H=2.06 T." Ca3Ir4Sn13 Ca3Ir4Sn13 Ca 3 Ir 4 Sn 13 3 2015 A3B4C13 Yb3Rh4Sn13 K 7 7 7 6 single crystal - crushed - mixed powders in paraffin - NMR sample <119>Sn-NMR investigations on superconducting Ca3Ir4Sn13: Evidence for multigap superconductivity 2015 "Institute for Solid State Physics, TU Dresden, D-01069 Dresden, Germany" "Physica B, 479(2015)51"
155759 PHC470S760 "Tc = 15K for 0.01 =< x =<0.8. almost independent of x in MgxZrNCl, Mg-content x estimated from the total charge during intercalation process." beta-MgxZrNCl Mg0.16Zr1N1Cl1 Mg 0.16 Zr 1 N 1 Cl 1 2010 K 15 15 Mg-intercalation into beta-Zr(or Hf)NCl was carried out under constant current in an Ar-filled glove box. "A new family of superconducting intercalation compound of MgxMNCl (M = Zr, Hf)" 2010 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "Physica C, 470(2010)S760"
155760 PHC470S760 "Tc=25 K for 0.1=< x =<0.3 , almost independent of x in MgxHfNCl, Mg-content x estimated from the total charge during intercalation process." beta-MgxHfNCl Mg0.3Hf1N1Cl1 Mg 0.3 Hf 1 N 1 Cl 1 2010 K 25 25 Mg-intercalation into beta-Zr(or Hf)NCl was carried out under constant current in an Ar-filled glove box. "A new family of superconducting intercalation compound of MgxMNCl (M = Zr, Hf)" 2010 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "Physica C, 470(2010)S760"
155761 PHC5190104 M = PC(= C4H6O3). Pc-content not given. Na-content by Faraday's law. Sample contains Fe7Se8(FM) and FeSe(Tc=8 K). SC volume fraction (max) = 5 % for x=0.3. Tc independent of x. Nax(PC)yFe2Se2 Na0.3M1Fe2Se2 Na 0.3 M 1 Fe 2 Se 2 2015 K 43 43 5 "electrode(FeSe covered with Ni mesh), counter electrode(Na-metal) in liquid (NaPF6 in PC). Electrochemical intercalation at RT." Electrochemical Na-intercalation-induced high-temperature superconductivity in FeSe 2015 "Frontier Research Institute for Interdisciplinary Sciences (FRIS), Tohoku University, 6-3 Aoba, Aramaki, Aoba-ku Sendai 980-8579, Japan" "Physica C, 519(2015)104"
155762 PMB0933680 Pd-10-3-8 structure. SC volume fraction = 20 % at 3.5 K. "(Ca,La)10(Fe,Pd,As)10Pd2.8As8" Ca0.92La0.08Fe8.6Pd4.2As18 Ca 0.92 La 0.08 Fe 8.6 Pd 4.2 As 18 2013 P1[-] A 8.8057 8.8134 10.639 "Pd10-3-8. triclinic, alpha=85.239, beta=75.653, gamma=89.879" K 10 17 13.5 20 "solid state reaction. mixture - heat(1000C, in alumina crucible sealed in silica tube under Ar)" Superconductivity and crystal structure of the palladium-iron-arsenides Ca10(Fe1-x PdxAs)10Pd3As8 2013 "Department Chemie der Ludwig-Maximilians-Universitat, Butenandtstr. 5-13 (Haus D), 81377, Munchen, Germany" "Philo.Mag., 93(2013)3680"
155765 PRB091174513 "RRR = 6.4.(dC/gamma*Tc) = (52.4/22*1.7) = 1.39, Tc = 1.7K(SP). kappa(GL) = 50. Lattice term in SP (beta) = 1.94 mJ/mol.K4." Bi2Rh3.5S2 Bi2Rh3.5S2 Bi 2 Rh 3.5 S 2 3 2015 9.861 A2B2C3 4 C2/m A 11.5212 7.9408 7.873 "monoclinic, beta= 128.033 data at 293 K." K 2.1 2.1 T "(dR/dT)max to zero, extrapolation" 1.5 MHC155765 A from Hc2 150 A "from Hc(0) using entropy, GL theory" 7450 MSP155765 mJ/mol.K2 22 SP 196 SP "mixture(Rh:Bi:S = 55:22.5:22.5) - alumina crucible - sealed in silica ampule(Ar) - heatto 1150C,12 h - keep(1150C,3h) - cool to 700C over 70h)" Superconductivity versus structural phase transition in the closely related Bi2Rh3.5S2 and Bi2Rh3S2 2015 "Ames Laboratory, U.S. DOE, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 91(2015)174513"
155766 PRB091174513 "not SC. R(T) anomaly at 165 K due to structural transition, not CDW." Bi2Rh3S3 Bi2Rh3.5S2 Bi 2 Rh 3.5 S 2 3 2015 9.605 A2B2C3 4 C2/m A 11.29 8.378 7.932 "monoclinic, beta = 133.286 at 293 K. At 120K, monoclinic, C2/m, a=11.542, b=8.341, c=17.768, beta=107.614" K 0.5 mJ/mol.K2 9.41 SP 209 SP "mixture(Rh:Bi:S = 42.6:28.2:29.2) - alumina crucible - sealed in silica ampule(Ar) - heatto 1150C,12 h - keep(1150C,3h) - cool to 700C over 70h)" Superconductivity versus structural phase transition in the closely related Bi2Rh3.5S2 and Bi2Rh3S2 2015 "Ames Laboratory, U.S. DOE, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 91(2015)174513"
155768 PRB091174516 Tetra-to-monoclinic structural transition T = 395 K LaPt2-xGe2+x La1Pt2Ge2 La 1 Pt 2 Ge 2 1 2015 AB2C2 4 CaBe2Ge2 A 4.4445 4.429 9.894 monoclinic below T = 354 K 0.41 0.41 0.41 "La(3N),Pt(5N),Ge(5N)" "arc-melting - wrapped in Ta foil - sealed in quartz tube (He) - ANN(1000C,3d) - cool to RT over 3 days" Superconductivity and the electronic phase diagram of LaPt2-xGe2+x 2015 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 91(2015)174516"
155769 PRB091174516 Tetra-to-monoclinic structural transition T = 354 K LaPt2-xGe2+x La1Pt1.97Ge2.03 La 1 Pt 1.97 Ge 2.03 1 2015 AB2C2 4 CaBe2Ge2 A 4.431 4.4195 9.9203 K 0.83 0.85 0.83 "La(3N),Pt(5N),Ge(5N)" "arc-melting - wrapped in Ta foil - sealed in quartz tube (He) - ANN(1000C,3d) - cool to RT over 3 days" Superconductivity and the electronic phase diagram of LaPt2-xGe2+x 2015 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 91(2015)174516"
155770 PRB091174516 Tetra-to-monoclinic structural transition T = 275 K LaPt2-xGe2+x La1Pt1.94Ge2.06 La 1 Pt 1.94 Ge 2.06 1 2015 AB2C2 2 CaBe2Ge2 P4/nmm A 4.396 9.9466 K 0.95 0.96 0.95 "La(3N),Pt(5N),Ge(5N)" "arc-melting - wrapped in Ta foil - sealed in quartz tube (He) - ANN(1000C,3d) - cool to RT over 3 days" Superconductivity and the electronic phase diagram of LaPt2-xGe2+x 2015 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 91(2015)174516"
155771 PRB091174516 Tetra-to-monoclinic structural transition T = 210 K LaPt2-xGe2+x La1Pt1.9Ge2.1 La 1 Pt 1.9 Ge 2.1 1 2015 AB2C2 2 CaBe2Ge2 P4/nmm A 4.3881 9.9752 K 1.67 1.63 1.67 MPH155771 "La(3N),Pt(5N),Ge(5N)" "arc-melting - wrapped in Ta foil - sealed in quartz tube (He) - ANN(1000C,3d) - cool to RT over 3 days" Superconductivity and the electronic phase diagram of LaPt2-xGe2+x 2015 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 91(2015)174516"
155772 PRB091174516 LaPt2-xGe2+x La1Pt1.85Ge2.15 La 1 Pt 1.85 Ge 2.15 1 2015 AB2C2 2 CaBe2Ge2 P4/nmm A 4.3881 10.0131 K 1.87 1.87 "La(3N),Pt(5N),Ge(5N)" "arc-melting - wrapped in Ta foil - sealed in quartz tube (He) - ANN(1000C,3d) - cool to RT over 3 days" Superconductivity and the electronic phase diagram of LaPt2-xGe2+x 2015 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 91(2015)174516"
155773 PRB091174516 solubility limit Tetra-to-monoclinic structural transition T = 50 K LaPt2-xGe2+x La1Pt1.8Ge2.2 La 1 Pt 1.8 Ge 2.2 1 2015 AB2C2 2 CaBe2Ge2 P4/nmm A 4.3929 10.044 K 1.95 1.95 1.95 MPH155771 "La(3N),Pt(5N),Ge(5N)" "arc-melting - wrapped in Ta foil - sealed in quartz tube (He) - ANN(1000C,3d) - cool to RT over 3 days" Superconductivity and the electronic phase diagram of LaPt2-xGe2+x 2015 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 91(2015)174516"
155774 PRB091174516 "over solubility limit, Tc not measured" LaPt2-xGe2+x La1Pt1.75Ge2.25 La 1 Pt 1.75 Ge 2.25 1 2015 AB2C2 2 CaBe2Ge2 P4/nmm A 4.3928 10.0523 K "La(3N),Pt(5N),Ge(5N)" "arc-melting - wrapped in Ta foil - sealed in quartz tube (He) - ANN(1000C,3d) - cool to RT over 3 days" Superconductivity and the electronic phase diagram of LaPt2-xGe2+x 2015 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 91(2015)174516"
155775 PRB091174516 "over solubility limit, Tc not measured" LaPt2-xGe2+x La1Pt1.7Ge2.3 La 1 Pt 1.7 Ge 2.3 1 2015 AB2C2 2 CaBe2Ge2 P4/nmm A 4.3922 10.0527 K "La(3N),Pt(5N),Ge(5N)" "arc-melting - wrapped in Ta foil - sealed in quartz tube (He) - ANN(1000C,3d) - cool to RT over 3 days" Superconductivity and the electronic phase diagram of LaPt2-xGe2+x 2015 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 91(2015)174516"
156000 JPS084014707 "Tc defined by onset of ac-SUS. Tc depends on in-plane uniaxial pressure, P//[10], P//[110], P//[001]. Tc(max) = 3.3 K for high Tc phase." Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 2015 AB2C4 Sr2RuO4 K 1.5 1.5 MTC156000 Floating zone method using Ru self flux Higher-Tc Superconducting Phase in Sr2RuO4 Induced by In-Plane Uniaxial Pressure 2015 "Department of Materials Science and Engineering, Iwate University, Morioka 020-8551, Japan" "J.Phys.Soc.Jpn, 84(2015)014707"
156001 JPS084044710 "Two phases: SC phase ( 16.4 wt % in DB) and AFM phase(83.6 wt %), SG=I4/m, a=8.77540, c=14.57582 A" RbxFe2-ySe2 Rb0.8Fe1.7Se2 Rb 0.8 Fe 1.7 Se 2 3 2015 AB2C2 I4/mmm A 3.84702 14.768 "Two phases, onother phase: SG=I4/m (83.6 wt %)" K 31.4 32 32 Ohm.cm 0.012 0.771 flux method. mixture((Fe2-y):Rb = x:1) sealed in quartz tube - heat to 1030C - hold(4h) - cool to 750C (6C/h) - FC to RT Identification of Various Coexisting Phases in Superconducting and Non-superconducting Samples of RbxFe2-ySe2 2015 "Department of Physics, Graduate School of Science, Nagoya University, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 84(2015)044710"
156002 JPS084044710 "Three phases: not SC phase(68wt % in DB) and AFM-1 phase(22 wt %) SG=I4/m, a=8.7672, c=14.6058 and AFM-2 phase(10 wt %), SG=Pmna, a=5.4416, b=5.4699, c=14.328A" RbxFe2-ySe2 Rb0.7Fe1.9Se2 Rb 0.7 Fe 1.9 Se 2 3 2015 AB2C2 I4/mmm A 3.85792 14.7583 "Three phases, AFM-1 phase (22wt %, SG=I4/m, a=8.7672, c=14.6058), AFM-2 phase(10 wt %, SG=Pmna, a=5.4416, b=5.4699, c=14.328)" K 4.2 Ohm.cm 1.26 flux method. mixture((Fe2-y):Rb = x:1) sealed in quartz tube - heat to 1050C - hold(4h) - cool to 750C (6C/h) - FC to RT Identification of Various Coexisting Phases in Superconducting and Non-superconducting Samples of RbxFe2-ySe2 2015 "Department of Physics, Graduate School of Science, Nagoya University, Nagoya 464-8602, Japan" "J.Phys.Soc.Jpn, 84(2015)044710"
156003 NAP0100300 "not SC. H-content x , determined by thermal desorption spectroscopy. nominal x = 0.63. Structural transition (T-O) at 95 K. Tn(AF-2 phase) = 92 K" "LaFeAs(O,H)" La1Fe1As1H0.51O0.49 La 1 Fe 1 As 1 H 0.51 O 0.49 3 2014 92 ABCD oxypnictide P4/nmm A 3.97565 8.65241 "T-O transition at 95 K. At 43K, SG = Aem2, a=8.6365, b=5.6243, c=5.6004A." K 2 Bipartite magnetic parent phases in the iron oxypnictide superconductor 2014 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), Tsukuba, Ibaraki 305-0801, Japan" "Nature Physics, 10(2014)300"
156004 NAP0100300 "H-content x , determined by thermal desorption spectroscopy. nominal x = 0.53. Structural transition (T-O) at 79.5 K. Tn(AF-2 phase) = 76 K" "LaFeAs(O,H)" La1Fe1As1H0.45O0.55 La 1 Fe 1 As 1 H 0.45 O 0.55 3 2014 76 ABCD oxypnictide P4/nmm A 3.9788 9.0324 K 0 0 3 Bipartite magnetic parent phases in the iron oxypnictide superconductor 2014 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), Tsukuba, Ibaraki 305-0801, Japan" "Nature Physics, 10(2014)300"
156005 NAP0100300 "H-content x , determined by thermal desorption spectroscopy. nominal x = 0.53. Tn(AF-2 phase) = 43 K. Coexist of SC and AF-2 (volume fractin 61%)" "LaFeAs(O,H)" La1Fe1As1H0.42O0.58 La 1 Fe 1 As 1 H 0.42 O 0.58 3 2014 43 ABCD oxypnictide P4/nmm K 20.3 20.3 MPH156005 32 Bipartite magnetic parent phases in the iron oxypnictide superconductor 2014 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), Tsukuba, Ibaraki 305-0801, Japan" "Nature Physics, 10(2014)300"
156006 NAP0100300 "H-content x , determined by thermal desorption spectroscopy. nominal x = 0.53. Tn(AF-2 phase) = 35 K. Coexist of SC and AF-2 (volume fractin 30%)" "LaFeAs(O,H)" La1Fe1As1H0.41O0.59 La 1 Fe 1 As 1 H 0.41 O 0.59 3 2014 35 ABCD oxypnictide P4/nmm K 19.5 19.5 34 Bipartite magnetic parent phases in the iron oxypnictide superconductor 2014 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), Tsukuba, Ibaraki 305-0801, Japan" "Nature Physics, 10(2014)300"
156007 NAP0100300 "H-content x , determined by thermal desorption spectroscopy. nominal x = 0.53. Tn(AF-2 phase) = 12 K. Coexist of SC and AF-2 (volume fractin 22%)" "LaFeAs(O,H)" La1Fe1As1H0.4O0.6 La 1 Fe 1 As 1 H 0.4 O 0.6 3 2014 12 ABCD oxypnictide P4/nmm K 23.9 23.9 107 Bipartite magnetic parent phases in the iron oxypnictide superconductor 2014 "Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), Tsukuba, Ibaraki 305-0801, Japan" "Nature Physics, 10(2014)300"
156008 JPS084114701 "Analyzed by alpha-model. Two bands ( alpha = (3.30, 0.86), gap = (10.41, 2.73) meV, gamma = (31.0, 9.1 ) mJ/mol.K2). Tc defined by mid point of SP transition. C(T,H) measured." "(Ba,K)Fe2As2" Ba0.59K0.41Fe2As2 Ba 0.59 K 0.41 Fe 2 As 2 3 2015 AB2C2 ThCr2Si2 K 36.9 36.9 MSP156008 mJ/mol.K2 40.1 self-flux method. compositions by ICP "Specific Heat of Ba0.59K0.41Fe2As2, an Fe-Pnictide Superconductor with Tc = 36.9 K, and a New Method for Identifying the Electron Contribution" 2015 "Materials Sciences Division, Lawrence Berkeley National Laboratory, Berkeley, CA 94720, U.S.A." "J.Phys.Soc.Jpn, 84(2015)114701"
156009 CEM2320050 "Compositions: Cs0.96Pb0.25Bi3.75Te0.604. Lattice term in SP beta=8.75 mJ/mol.K4, delta=0.16 mJ/mol.K6. Tc(SP-mid) = 2.92 K. (dCe/Tc) = 11.51 mJ/mol.K2. (dC/gamma*Tc) = 1.32" "Cs(Bi,Pb)4Te6" Ce1Bi3.7Pb0.3Te6 Ce 1 Bi 3.7 Pb 0.3 Te 6 1 2015 A3B4C6 3 Cmcm A 6.327 28.648 4.359 K 2.3 2.9 3.1 3.1 2.9 100 MSP156009 mJ/mol.K2 8.75 SP 128.4 SP mOhm.cm 7 "Bi2Te3,Pb,Te,Cs" "mixture with 1% excess Cs - alumina crucible - sealed in silica tube - preheat(200C,10h) - hold(700C,40h) - cool to RT - heat(700C,40h) - air quench to RT" Superconductivity in the orthorhombic phase of thermoelectric CsPbxBi4-xTe6 with 0.3 =< x =< 1.0 2015 "Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Solid State Chem., 232(2015)50"
156010 CEM2320050 Compositions: Cs0.91Pb0.35Bi3.70Te0.604 "Cs(Bi,Pb)4Te6" Ce1Bi3.6Pb0.4Te6 Ce 1 Bi 3.6 Pb 0.4 Te 6 1 2015 A3B4C6 3 Cmcm K 3 3 "Bi2Te3,Pb,Te,Cs" "mixture with 1% excess Cs - alumina crucible - sealed in silica tube - preheat(200C,10h) - hold(700C,40h) - cool to RT - heat(700C,40h) - air quench to RT" Superconductivity in the orthorhombic phase of thermoelectric CsPbxBi4-xTe6 with 0.3 =< x =< 1.0 2015 "Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Solid State Chem., 232(2015)50"
156011 CEM2320050 Compositions: Cs0.95Pb0.42Bi3.62Te0.601 "Cs(Bi,Pb)4Te6" Ce1Bi3.5Pb0.5Te6 Ce 1 Bi 3.5 Pb 0.5 Te 6 1 2015 A3B4C6 3 Cmcm K 3 3 "Bi2Te3,Pb,Te,Cs" "mixture with 1% excess Cs - alumina crucible - sealed in silica tube - preheat(200C,10h) - hold(700C,40h) - cool to RT - heat(700C,40h) - air quench to RT" Superconductivity in the orthorhombic phase of thermoelectric CsPbxBi4-xTe6 with 0.3 =< x =< 1.0 2015 "Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Solid State Chem., 232(2015)50"
156012 CEM2320050 Compositions: Cs0.94Pb0.53Bi3.51Te0.602 "Cs(Bi,Pb)4Te6" Ce1Bi3.4Pb0.6Te6 Ce 1 Bi 3.4 Pb 0.6 Te 6 1 2015 A3B4C6 3 Cmcm K 3 3 "Bi2Te3,Pb,Te,Cs" "mixture with 1% excess Cs - alumina crucible - sealed in silica tube - preheat(200C,10h) - hold(700C,40h) - cool to RT - heat(700C,40h) - air quench to RT" Superconductivity in the orthorhombic phase of thermoelectric CsPbxBi4-xTe6 with 0.3 =< x =< 1.0 2015 "Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Solid State Chem., 232(2015)50"
156013 CEM2320050 Compositions: Cs0.94Pb0.68Bi3.37Te0.601 "Cs(Bi,Pb)4Te6" Ce1Bi3.3Pb0.7Te6 Ce 1 Bi 3.3 Pb 0.7 Te 6 1 2015 A3B4C6 3 Cmcm K 2.9 2.9 "Bi2Te3,Pb,Te,Cs" "mixture with 1% excess Cs - alumina crucible - sealed in silica tube - preheat(200C,10h) - hold(700C,40h) - cool to RT - heat(700C,40h) - air quench to RT" Superconductivity in the orthorhombic phase of thermoelectric CsPbxBi4-xTe6 with 0.3 =< x =< 1.0 2015 "Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Solid State Chem., 232(2015)50"
156014 CEM2320050 Compositions: Cs0.93Pb0.78Bi3.23Te0.606 "Cs(Bi,Pb)4Te6" Ce1Bi3.2Pb0.8Te6 Ce 1 Bi 3.2 Pb 0.8 Te 6 1 2015 A3B4C6 3 Cmcm K 2.9 2.9 "Bi2Te3,Pb,Te,Cs" "mixture with 1% excess Cs - alumina crucible - sealed in silica tube - preheat(200C,10h) - hold(700C,40h) - cool to RT - heat(700C,40h) - air quench to RT" Superconductivity in the orthorhombic phase of thermoelectric CsPbxBi4-xTe6 with 0.3 =< x =< 1.0 2015 "Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Solid State Chem., 232(2015)50"
156015 CEM2320050 Compositions: Cs0.92Pb0.85Bi3.20Te0.603 "Cs(Bi,Pb)4Te6" Ce1Bi3.1Pb0.9Te6 Ce 1 Bi 3.1 Pb 0.9 Te 6 1 2015 A3B4C6 3 Cmcm K 2.8 2.8 "Bi2Te3,Pb,Te,Cs" "mixture with 1% excess Cs - alumina crucible - sealed in silica tube - preheat(200C,10h) - hold(700C,40h) - cool to RT - heat(700C,40h) - air quench to RT" Superconductivity in the orthorhombic phase of thermoelectric CsPbxBi4-xTe6 with 0.3 =< x =< 1.0 2015 "Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Solid State Chem., 232(2015)50"
156016 CEM2320050 Compositions: Cs0.94Pb0.99Bi3.00Te0.607 "Cs(Bi,Pb)4Te6" Ce1Bi3Pb1Te6 Ce 1 Bi 3 Pb 1 Te 6 1 2015 A3B4C6 3 Cmcm A 6.345 28.68 4.377 K 2.7 2.7 "Bi2Te3,Pb,Te,Cs" "mixture with 1% excess Cs - alumina crucible - sealed in silica tube - preheat(200C,10h) - hold(700C,40h) - cool to RT - heat(700C,40h) - air quench to RT" Superconductivity in the orthorhombic phase of thermoelectric CsPbxBi4-xTe6 with 0.3 =< x =< 1.0 2015 "Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Solid State Chem., 232(2015)50"
156017 JAC6150921 Susceptibility obeys the modified Curie-Weis law for T > 120 K. R(0.4K) = 702 uOhm.cm. Ce3Ru4Sn13 Ce3Ru4Sn13 Ce 3 Ru 4 Sn 13 1 2014 A3B4C13 Yb3Rh4Sn13 Pm3[-]n K 0.4 uOhm.cm 943 "arc-melting several times. ANN(870C,12days)" Crystal electric field and the ground state properties of heavy fermion Ce3Ru4Sn13 2014 "Institute of Physics, University of Silesia, 40-007 Katowice, Poland" "J.Alloys Compd., 615(2014)921"
156018 JAC6150921 High-Tc phase. Tc defined at R = 0.5Rn. R(4K) = 206 uOhm.cm La3Ru4Sn13 La3Ru4Sn13 La 3 Ru 4 Sn 13 1 2014 Myu-B/mol 0.75 A3B4C13 Yb3Rh4Sn13 Pm3[-]n K 3.75 3.75 T "RES(0.5Rn, GL approx." 3.05 MHC156018 A from Hc2 90 uOhm.cm 206 363 "arc-melting several times. ANN(870C,12days)" Crystal electric field and the ground state properties of heavy fermion Ce3Ru4Sn13 2014 "Institute of Physics, University of Silesia, 40-007 Katowice, Poland" "J.Alloys Compd., 615(2014)921"
156019 JAC6150921 "bulk-Tc = 1.55 K, defined as mid point of SP-transition. Gap = 1.5 K from SP. (dC/gamma*Tc) = 1.6" La3Ru4Sn13 La3Ru4Sn13 La 3 Ru 4 Sn 13 1 2014 A3B4C13 Yb3Rh4Sn13 Pm3[-]n K 1.55 1.55 T SP. 1.45 MHC156018 A from Hc2 180 2.1 14 mJ/mol.K2 9.9 SP 150 SP "arc-melting several times. ANN(870C,12days)" Crystal electric field and the ground state properties of heavy fermion Ce3Ru4Sn13 2014 "Institute of Physics, University of Silesia, 40-007 Katowice, Poland" "J.Alloys Compd., 615(2014)921"
156020 JAC6450158 Tc(SP) = 0.65 K. U U1 U 1 2015 alpha-U type K 1.24 0.2 1.24 T "RES(0.5Rn),extrapolation" 0.3 T/K RES(0.5Rn) 0.35 MHC156023 uOhm.cm 14 53 "U(2N8),T(3N5)" arc-melting-remelt 3 times - splat cooled system (cooling rate= 10^6 K/s) - resultant sample(20mm dia x (100-200) micro-m thickness) "Structure and superconducting transition in splat-cooled U-T alloys (T = Mo, Pd, Pt)" 2015 "Institute of Physics, Pedagogical University, Podchorazych 2, 30-084 Krakow, Poland" "J. Alloys Compd., 645(2015)158"
156021 JAC6450158 Tc(SP) = 2.1 K. U1-xMox U0.85Mo0.15 U 0.85 Mo 0.15 2015 gamma-U type K 2.1 0.02 2.1 T "RES(0.5Rn),extrapolation" 6.7 T/K RES(0.5Rn) 3.6 uOhm.cm 95 89 "U(2N8),T(3N5)" arc-melting-remelt 3 times - splat cooled system (cooling rate= 10^6 K/s) - resultant sample(20mm dia x (100-200) micro-m thickness) "Structure and superconducting transition in splat-cooled U-T alloys (T = Mo, Pd, Pt)" 2015 "Institute of Physics, Pedagogical University, Podchorazych 2, 30-084 Krakow, Poland" "J. Alloys Compd., 645(2015)158"
156022 JAC6450158 Tc(SP) = 0.72 K.. R(T) shows two step like behaviour. U1-xMox U0.94Mo0.06 U 0.94 Mo 0.06 2015 (alpha+gamma)-U type K 0.78 0.56 0.78 T "RES(0.5Rn),extrapolation" 2.2 T/K RES(0.5Rn) 3.6 MHC156023 MSP156022 uOhm.cm 82 91 "U(2N8),T(3N5)" arc-melting-remelt 3 times - splat cooled system (cooling rate= 10^6 K/s) - resultant sample(20mm dia x (100-200) micro-m thickness) "Structure and superconducting transition in splat-cooled U-T alloys (T = Mo, Pd, Pt)" 2015 "Institute of Physics, Pedagogical University, Podchorazych 2, 30-084 Krakow, Poland" "J. Alloys Compd., 645(2015)158"
156023 JAC6450158 U1-xPdx U0.95Pd0.05 U 0.95 Pd 0.05 2015 K 0.69 0.08 0.69 T "RES(0.5Rn),extrapolation" 1.9 T/K RES(0.5Rn) 3.2 MHC156023 uOhm.cm 36 60 "U(2N8),T(3N5)" arc-melting-remelt 3 times - splat cooled system (cooling rate= 10^6 K/s) - resultant sample(20mm dia x (100-200) micro-m thickness) "Structure and superconducting transition in splat-cooled U-T alloys (T = Mo, Pd, Pt)" 2015 "Institute of Physics, Pedagogical University, Podchorazych 2, 30-084 Krakow, Poland" "J. Alloys Compd., 645(2015)158"
156024 JAC6450158 Tc(SP) = 0.68 K. U1-xPtx U0.95Pt0.05 U 0.95 Pt 0.05 2015 K 0.69 0.02 0.69 T "RES(0.5Rn),extrapolation" 1.8 T/K RES(0.5Rn) 3.3 MHC156023 MSP156024 uOhm.cm 162 175 "U(2N8),T(3N5)" arc-melting-remelt 3 times - splat cooled system (cooling rate= 10^6 K/s) - resultant sample(20mm dia x (100-200) micro-m thickness) "Structure and superconducting transition in splat-cooled U-T alloys (T = Mo, Pd, Pt)" 2015 "Institute of Physics, Pedagogical University, Podchorazych 2, 30-084 Krakow, Poland" "J. Alloys Compd., 645(2015)158"
156025 JAC6600044 (dC/gamma*Tc) = 1.4. Energy gap obtained from SP-fitting. Ta5GeB2 Ta5Ge1B2 Ta 5 Ge 1 B 2 2016 AB2C5 Cr5B3 I4/mcm A 6.239 11.578 K 3.5 3.8 3.8 3.8 80 T "RES(onset), WHH" 0.519 A from Hc2 252 meV 0.968 3.45 14 MSP156025 mJ/mol.K2 10.5 SP 348 SP Ta5GeB2: New T2 superconductor phase 2016 "Escola de Engenharia de Lorena e USP, Lorena 12602-810, SP, Brazil" "J. Alloys Compd., 660(2016)44"
156026 JAC6650333 "RRR = 2.18. R(T) = R0 + A*T^2, R0 in DB, A = 5.482 E-6 mOhm.cm/K^2" La3Co4Sn13 La3Co4Sn13 La 3 Co 4 Sn 13 1 2016 8.2 A3B4C13 Yb3Rh4Sn13 Pm3[-]n A 9.636 K 1.77 2.5 2.2 2.2 uOhm.cm 644 "La(4N),In(5N),Sn(5N),Co(5N)" "arc-melting - (pellet) - sealed in quartz ampoule - ANN(870C,12h)" Improved superconducting properties of La3Co4Sn13 with indium substitution 2016 "School of Physical Sciences, Jawaharlal Nehru University, New Delhi 110067, India" "J. Alloys Compd., 665(2016)333"
156027 JAC6650333 "concentrations: La:Co:Sn:In = 14.09:20.74:62.0:3.1 by EDX. RRR = 1.37. R(T) = R0 + A*T^2, R0 in DB, A = 4.542 E-4 microOhm.cm/K^2" "La3Co4(Sn,In)13" La3Co4Sn12.35In0.65 La 3 Co 4 Sn 12.35 In 0.65 1 2016 A3B4C13 Yb3Rh4Sn13 Pm3[-]n A 9.637 K 3.2 4.7 5.1 5.1 A 195 uOhm.cm 31.3 "La(4N),In(5N),Sn(5N),Co(5N)" "arc-melting - (pellet) - sealed in quartz ampoule - ANN(870C,12h)" Improved superconducting properties of La3Co4Sn13 with indium substitution 2016 "School of Physical Sciences, Jawaharlal Nehru University, New Delhi 110067, India" "J. Alloys Compd., 665(2016)333"
156028 JAC6650333 "concentrations: La:Co:Sn:In = 15.1:20.21:58.32:6.37 by EDX. RRR =2.15. GL(kappa) = 1.53. (dTc/dP) = -0.331, -0.267 for Tc(on) and Tc(zero), respectively." "La3Co4(Sn,In)13" La3Co4Sn11.7In1.3 La 3 Co 4 Sn 11.7 In 1.3 1 2016 A3B4C13 Yb3Rh4Sn13 Pm3[-]n A 9.639 K 5.1 4.6 0.1 4.6 MTC156028 K/GPa -0.311 Oe M-H curve 28 T "RES(onset), extrapolation" 0.68 MHC156028 A from Hc2 216 A "Hc1, GL theory" 332 uOhm.cm 16.45 "La(4N),In(5N),Sn(5N),Co(5N)" "arc-melting - (pellet) - sealed in quartz ampoule - ANN(870C,12h)" Improved superconducting properties of La3Co4Sn13 with indium substitution 2016 "School of Physical Sciences, Jawaharlal Nehru University, New Delhi 110067, India" "J. Alloys Compd., 665(2016)333"
156029 JJP043L1480 "bulc SC. SC-volume fraction = 6 % at 2K. Li-doping, x = 0.15 by ICP. carrier = electron." LixSr2CuO2Br2 Li0.15Sr2Cu1Br2O2 Li 0.15 Sr 2 Cu 1 Br 2 O 2 2004 A 3.99 tetragonal K 8 8 6 "SrCuO2 mixed with SrBr2 - SIN(825C,24h) - Sr2CuO2Br2 - mixed with naphthalene(30 wt%) - Li-intercalation using PC as an electrolyte" New Electron-Doped Superconducting Cuprate LixSr2CuO2Br2 2004 "Department of Applied Physics, Graduate School of Engineering, Tohoku University, 6-6-05 Aoba, Aramaki, Aoba-ku, Sendai 980-8579, Japan" "Jpn J.Appl.Phys., 43(2004)L1480"
156030 JPS0711134 "Elastic modulus measured by ultrasonic measurements. (dTc/dP) = -1.16 (in DB), +0.96 K/GPa for //a and //c uniaxial P are estimated." Sr2RuO4 Sr2Ru1O4 Sr 2 Ru 1 O 4 3 2002 T K 1.37 1.37 K/GPa -1.16 Unconventional Strain Dependence of Superconductivity in Spin-Triplet Superconductor Sr2RuO4 2002 "Department of Quantum Matter, ADSM, Hiroshima University, Higashi-Hiroshima 739-8530" "J.Phys.Soc.Jpn, 71(2002)1134"
156031 JPS080044704 "R(T) = R0 +A*T^2, R0 in DB, A = 2.31E-8 Ohm.cm/K^2." LaFePO La1Fe1P1O1 La 1 Fe 1 P 1 O 1 1 2011 ABCD oxypnictide K 5.8 5.8 uV/K -23 MTP156031 uOhm.cm 67.6 1500 "LaP,LaAs,Fe2O3,FeF2" "Two step solid state reaction. First step: raw materials prepared. mixture - pellet - ANN(1100C,40h, in silica tube)" Thermoelectric Properties of LaFePO1-xFx and LaFeAsO1-xFx : Possibility of the Hidden Mass Enhancement of LaFeAsO1-xFx 2011 "Department of Nano-Structures and Advanced Materials, Kagoshima University, 1-21-40 Korimoto, Kagohisma 890-0065, Japan" "J.Phys.Soc.Jpn, 80(2011)044704"
156032 JPS080044704 "R(T) = R0 +A*T^2, R0 in DB, A = 2.78E-8 Ohm.cm/K^2." "LaFeP(O,F)" La1Fe1P1F0.03O0.97 La 1 Fe 1 P 1 F 0.03 O 0.97 1 2011 ABCD oxypnictide K 7.8 7.8 W/K.m 2.53 MTHC156032 uV/K -34.2 MTP156032 uOhm.cm 77.1 "LaP,LaAs,Fe2O3,FeF2" "Two step solid state reaction. First step: raw materials prepared. mixture - pellet - ANN(1100C,40h, in silica tube)" Thermoelectric Properties of LaFePO1-xFx and LaFeAsO1-xFx : Possibility of the Hidden Mass Enhancement of LaFeAsO1-xFx 2011 "Department of Nano-Structures and Advanced Materials, Kagoshima University, 1-21-40 Korimoto, Kagohisma 890-0065, Japan" "J.Phys.Soc.Jpn, 80(2011)044704"
156033 JPS080044704 "R(T) = R0 +A*T^2, R0 in DB, A = 2.43E-8 Ohm.cm/K^2." "LaFeP(O,F)" La1Fe1P1F0.05O0.95 La 1 Fe 1 P 1 F 0.05 O 0.95 1 2011 ABCD oxypnictide K 8 8 uV/K -36 MTP156033 uOhm.cm 78.8 "LaP,LaAs,Fe2O3,FeF2" "Two step solid state reaction. First step: raw materials prepared. mixture - pellet - ANN(1100C,40h, in silica tube)" Thermoelectric Properties of LaFePO1-xFx and LaFeAsO1-xFx : Possibility of the Hidden Mass Enhancement of LaFeAsO1-xFx 2011 "Department of Nano-Structures and Advanced Materials, Kagoshima University, 1-21-40 Korimoto, Kagohisma 890-0065, Japan" "J.Phys.Soc.Jpn, 80(2011)044704"
156034 JPS080044704 "R(T) = R0 +A*T^2, R0 in DB, A = 3.31E-8 Ohm.cm/K^2." "LaFeP(O,F)" La1Fe1P1F0.08O0.92 La 1 Fe 1 P 1 F 0.08 O 0.92 1 2011 ABCD oxypnictide K 7.8 7.8 W/K.m 2.92 MTHC156034 uV/K -35.6 MTP156034 uOhm.cm 117 "LaP,LaAs,Fe2O3,FeF2" "Two step solid state reaction. First step: raw materials prepared. mixture - pellet - ANN(1100C,40h, in silica tube)" Thermoelectric Properties of LaFePO1-xFx and LaFeAsO1-xFx : Possibility of the Hidden Mass Enhancement of LaFeAsO1-xFx 2011 "Department of Nano-Structures and Advanced Materials, Kagoshima University, 1-21-40 Korimoto, Kagohisma 890-0065, Japan" "J.Phys.Soc.Jpn, 80(2011)044704"
156035 JPS080044704 "R(T) = R0 +A*T^2, R0 in DB, A = 3.14E-8 Ohm.cm/K^2." "LaFeP(O,F)" La1Fe1P1F0.1O0.9 La 1 Fe 1 P 1 F 0.1 O 0.9 1 2011 ABCD oxypnictide K 6.2 6.2 uV/K -34.2 MTP156035 uOhm.cm "LaP,LaAs,Fe2O3,FeF2" "Two step solid state reaction. First step: raw materials prepared. mixture - pellet - ANN(1100C,40h, in silica tube)" Thermoelectric Properties of LaFePO1-xFx and LaFeAsO1-xFx : Possibility of the Hidden Mass Enhancement of LaFeAsO1-xFx 2011 "Department of Nano-Structures and Advanced Materials, Kagoshima University, 1-21-40 Korimoto, Kagohisma 890-0065, Japan" "J.Phys.Soc.Jpn, 80(2011)044704"
156036 JPS080044704 "LaFeAs(O,F)" La1Fe1As1F0.02O0.98 La 1 Fe 1 As 1 F 0.02 O 0.98 1 2011 ABCD oxypnictide K 4 uV/K -33.1 MTP156036 "LaP,LaAs,Fe2O3,FeF2" "Two step solid state reaction. First step: raw materials prepared. mixture - pellet - ANN(1100C,40h, in silica tube)" Thermoelectric Properties of LaFePO1-xFx and LaFeAsO1-xFx : Possibility of the Hidden Mass Enhancement of LaFeAsO1-xFx 2011 "Department of Nano-Structures and Advanced Materials, Kagoshima University, 1-21-40 Korimoto, Kagohisma 890-0065, Japan" "J.Phys.Soc.Jpn, 80(2011)044704"
156037 JPS080044704 "LaFeAs(O,F)" La1Fe1As1F0.05O0.95 La 1 Fe 1 As 1 F 0.05 O 0.95 1 2011 ABCD oxypnictide K 14.5 14.5 uV/K -39.2 MTP156037 "LaP,LaAs,Fe2O3,FeF2" "Two step solid state reaction. First step: raw materials prepared. mixture - pellet - ANN(1100C,40h, in silica tube)" Thermoelectric Properties of LaFePO1-xFx and LaFeAsO1-xFx : Possibility of the Hidden Mass Enhancement of LaFeAsO1-xFx 2011 "Department of Nano-Structures and Advanced Materials, Kagoshima University, 1-21-40 Korimoto, Kagohisma 890-0065, Japan" "J.Phys.Soc.Jpn, 80(2011)044704"
156038 JPS080044704 "LaFeAs(O,F)" La1Fe1As1F0.08O0.92 La 1 Fe 1 As 1 F 0.08 O 0.92 1 2011 ABCD oxypnictide K 22.8 22.8 W/K.m 1.94 MTHC156038 uV/K -49.3 MTP156038 "LaP,LaAs,Fe2O3,FeF2" "Two step solid state reaction. First step: raw materials prepared. mixture - pellet - ANN(1100C,40h, in silica tube)" Thermoelectric Properties of LaFePO1-xFx and LaFeAsO1-xFx : Possibility of the Hidden Mass Enhancement of LaFeAsO1-xFx 2011 "Department of Nano-Structures and Advanced Materials, Kagoshima University, 1-21-40 Korimoto, Kagohisma 890-0065, Japan" "J.Phys.Soc.Jpn, 80(2011)044704"
156039 JPS080044704 "LaFeAs(O,F)" La1Fe1As1F0.1O0.9 La 1 Fe 1 As 1 F 0.1 O 0.9 1 2011 ABCD oxypnictide K 25.2 25.2 uV/K -39.4 MTP156039 "LaP,LaAs,Fe2O3,FeF2" "Two step solid state reaction. First step: raw materials prepared. mixture - pellet - ANN(1100C,40h, in silica tube)" Thermoelectric Properties of LaFePO1-xFx and LaFeAsO1-xFx : Possibility of the Hidden Mass Enhancement of LaFeAsO1-xFx 2011 "Department of Nano-Structures and Advanced Materials, Kagoshima University, 1-21-40 Korimoto, Kagohisma 890-0065, Japan" "J.Phys.Soc.Jpn, 80(2011)044704"
156040 JPS080044704 "R(T) = R0 +A*T^2, R0 in DB, A = 1.75E-8 Ohm.cm/K^2." "LaFeAs(O,F)" La1Fe1As1F0.11O0.89 La 1 Fe 1 As 1 F 0.11 O 0.89 1 2011 ABCD oxypnictide K 22.9 22.9 uV/K -45.9 MTP156040 uOhm.cm 50.1 "LaP,LaAs,Fe2O3,FeF2" "Two step solid state reaction. First step: raw materials prepared. mixture - pellet - ANN(1100C,40h, in silica tube)" Thermoelectric Properties of LaFePO1-xFx and LaFeAsO1-xFx : Possibility of the Hidden Mass Enhancement of LaFeAsO1-xFx 2011 "Department of Nano-Structures and Advanced Materials, Kagoshima University, 1-21-40 Korimoto, Kagohisma 890-0065, Japan" "J.Phys.Soc.Jpn, 80(2011)044704"
156041 JPS080044704 "R(T) = R0 +A*T^2, R0 in DB, A = 1.66E-8 Ohm.cm/K^2." "LaFeAs(O,F)" La1Fe1As1F0.14O0.86 La 1 Fe 1 As 1 F 0.14 O 0.86 1 2011 ABCD oxypnictide K 12.9 12.9 W/K.m 2.52 MTHC156041 uV/K -42.4 MTP156041 uOhm.cm 48.1 "LaP,LaAs,Fe2O3,FeF2" "Two step solid state reaction. First step: raw materials prepared. mixture - pellet - ANN(1100C,40h, in silica tube)" Thermoelectric Properties of LaFePO1-xFx and LaFeAsO1-xFx : Possibility of the Hidden Mass Enhancement of LaFeAsO1-xFx 2011 "Department of Nano-Structures and Advanced Materials, Kagoshima University, 1-21-40 Korimoto, Kagohisma 890-0065, Japan" "J.Phys.Soc.Jpn, 80(2011)044704"
156042 JPS081114717 Hc2(T) = Hc2(0)*(1-t^(1.5))^(1.5). BaPdxSi2-x Ba1Pd0.3Si1.7 Ba 1 Pd 0.3 Si 1.7 1 2012 AB2 AlB2 P6/mmm 191 A 4.154 5.009 K 2.9 2.9 Oe M-H curve. GL-approx. 16 T RES(mid). GL-approx.. 2.2 MHC156042 A from Hc2 12 A "From Hc, Hc1" 640 "Ba(2N5),Si(5N),(3N)-Pd,Pt,Cu,Ag,Au" arc-melting "Superconductivity in Ba(TM,Si)2 (TM = Pd, Pt, Cu, Ag, and Au) with the AlB2-Type Structure" 2012 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan" "J.Phys.Soc.Jpn, 81(2012)114717"
156043 JPS081114717 Impurity phase = BaSi2. Hc2(T) = Hc2(0)*(1-t^(1.5))^(1.5). BaPtxSi2-x Ba1Pt0.3Si1.7 Ba 1 Pt 0.3 Si 1.7 1 2012 AB2 AlB2 P6/mmm 191 A 4.142 5.02 K 2.6 2.6 Oe M-H curve. GL-approx. 8 T RES(mid). GL-approx.. 2.4 MHC156043 A from Hc2 12 A "From Hc, Hc1" 910 "Ba(2N5),Si(5N),(3N)-Pd,Pt,Cu,Ag,Au" arc-melting "Superconductivity in Ba(TM,Si)2 (TM = Pd, Pt, Cu, Ag, and Au) with the AlB2-Type Structure" 2012 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan" "J.Phys.Soc.Jpn, 81(2012)114717"
156044 JPS081114717 Hc2(T) = Hc2(0)*(1-t^(1.5))^(1.5). Lattice term in SP (beta) = 0.15 mJ/mol.K4. (dC/gamma*Tc) = 1.38 BaCuxSi2-x Ba1Cu0.3Si1.7 Ba 1 Cu 0.3 Si 1.7 1 2012 AB2 AlB2 P6/mmm 191 A 4.114 5.042 K 3 3 Oe M-H curve. GL-approx. 21 T RES(mid). GL-approx.. 2.2 MHC156044 A from Hc2 12 A "From Hc, Hc1" 560 MSP156044 mJ/mol.K2 4.13 SP "Ba(2N5),Si(5N),(3N)-Pd,Pt,Cu,Ag,Au" arc-melting "Superconductivity in Ba(TM,Si)2 (TM = Pd, Pt, Cu, Ag, and Au) with the AlB2-Type Structure" 2012 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan" "J.Phys.Soc.Jpn, 81(2012)114717"
156045 JPS081114717 Hc2(T) = Hc2(0)*(1-t^(1.5))^(1.5). BaAgxSi2-x Ba1Ag0.3Si1.7 Ba 1 Ag 0.3 Si 1.7 1 2012 AB2 AlB2 P6/mmm 191 A 4.218 4.993 K 3.2 3.2 Oe M-H curve. GL-approx. 18 T RES(mid). GL-approx.. 3.3 MHC156045 A from Hc2 10 A "From Hc, Hc1" 600 "Ba(2N5),Si(5N),(3N)-Pd,Pt,Cu,Ag,Au" arc-melting "Superconductivity in Ba(TM,Si)2 (TM = Pd, Pt, Cu, Ag, and Au) with the AlB2-Type Structure" 2012 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan" "J.Phys.Soc.Jpn, 81(2012)114717"
156046 JPS081114717 Hc2(T) = Hc2(0)*(1-t^(1.5))^(1.5). BaAuxSi2-x Ba1Au0.3Si1.7 Ba 1 Au 0.3 Si 1.7 1 2012 AB2 AlB2 P6/mmm 191 A 4.189 5.001 K 3.2 3.2 Oe M-H curve. GL-approx. 15 3.7 MHC156046 A from Hc2 10 A "From Hc, Hc1" 660 "Ba(2N5),Si(5N),(3N)-Pd,Pt,Cu,Ag,Au" arc-melting "Superconductivity in Ba(TM,Si)2 (TM = Pd, Pt, Cu, Ag, and Au) with the AlB2-Type Structure" 2012 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan" "J.Phys.Soc.Jpn, 81(2012)114717"
156047 JPS081114717 BaAgxSi2-x Ba1Ag0.2Si1.8 Ba 1 Ag 0.2 Si 1.8 2012 AB2 AlB2 P6/mmm 191 K 3.2 3.2 "Ba(2N5),Si(5N),(3N)-Pd,Pt,Cu,Ag,Au" arc-melting "Superconductivity in Ba(TM,Si)2 (TM = Pd, Pt, Cu, Ag, and Au) with the AlB2-Type Structure" 2012 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan" "J.Phys.Soc.Jpn, 81(2012)114717"
156048 JPS081114717 BaCuxSi2-x Ba1Cu0.2Si1.8 Ba 1 Cu 0.2 Si 1.8 2012 AB2 AlB2 P6/mmm 191 A 4.1125 5.0244 K 3.02 3.02 "Ba(2N5),Si(5N),(3N)-Pd,Pt,Cu,Ag,Au" arc-melting "Superconductivity in Ba(TM,Si)2 (TM = Pd, Pt, Cu, Ag, and Au) with the AlB2-Type Structure" 2012 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan" "J.Phys.Soc.Jpn, 81(2012)114717"
156049 JPS081114717 BaPdxSi2-x Ba1Pd0.2Si1.8 Ba 1 Pd 0.2 Si 1.8 2012 AB2 AlB2 P6/mmm 191 K 2.91 2.91 "Ba(2N5),Si(5N),(3N)-Pd,Pt,Cu,Ag,Au" arc-melting "Superconductivity in Ba(TM,Si)2 (TM = Pd, Pt, Cu, Ag, and Au) with the AlB2-Type Structure" 2012 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan" "J.Phys.Soc.Jpn, 81(2012)114717"
156050 JPS081114717 BaAgxSi2-x Ba1Ag0.4Si1.6 Ba 1 Ag 0.4 Si 1.6 2012 AB2 AlB2 P6/mmm 191 K 2.79 2.79 MTC156051 "Ba(2N5),Si(5N),(3N)-Pd,Pt,Cu,Ag,Au" arc-melting "Superconductivity in Ba(TM,Si)2 (TM = Pd, Pt, Cu, Ag, and Au) with the AlB2-Type Structure" 2012 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan" "J.Phys.Soc.Jpn, 81(2012)114717"
156051 JPS081114717 BaCuxSi2-x Ba1Cu0.4Si1.6 Ba 1 Cu 0.4 Si 1.6 2012 AB2 AlB2 P6/mmm 191 A 4.1247 5.012 K 2.11 2.11 MTC156051 "Ba(2N5),Si(5N),(3N)-Pd,Pt,Cu,Ag,Au" arc-melting "Superconductivity in Ba(TM,Si)2 (TM = Pd, Pt, Cu, Ag, and Au) with the AlB2-Type Structure" 2012 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan" "J.Phys.Soc.Jpn, 81(2012)114717"
156052 JPS081114717 BaPdxSi2-x Ba1Pd0.4Si1.6 Ba 1 Pd 0.4 Si 1.6 2012 AB2 AlB2 P6/mmm 191 K 1.11 1.11 MTC156051 "Ba(2N5),Si(5N),(3N)-Pd,Pt,Cu,Ag,Au" arc-melting "Superconductivity in Ba(TM,Si)2 (TM = Pd, Pt, Cu, Ag, and Au) with the AlB2-Type Structure" 2012 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan" "J.Phys.Soc.Jpn, 81(2012)114717"
156053 JPS081114717 BaAgxSi2-x Ba1Ag0.5Si1.5 Ba 1 Ag 0.5 Si 1.5 2012 AB2 AlB2 P6/mmm 191 K 1.21 1.21 "Ba(2N5),Si(5N),(3N)-Pd,Pt,Cu,Ag,Au" arc-melting "Superconductivity in Ba(TM,Si)2 (TM = Pd, Pt, Cu, Ag, and Au) with the AlB2-Type Structure" 2012 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan" "J.Phys.Soc.Jpn, 81(2012)114717"
156054 JPS081114717 Lattice term in SP (beta) = 0.14 mJ/mol.K4 BaCuxSi2-x Ba1Cu0.5Si1.5 Ba 1 Cu 0.5 Si 1.5 2012 AB2 AlB2 P6/mmm 191 A 4.1204 5.006 K 2.53 2.53 mJ/mol.K2 3.87 SP "Ba(2N5),Si(5N),(3N)-Pd,Pt,Cu,Ag,Au" arc-melting "Superconductivity in Ba(TM,Si)2 (TM = Pd, Pt, Cu, Ag, and Au) with the AlB2-Type Structure" 2012 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan" "J.Phys.Soc.Jpn, 81(2012)114717"
156055 JPS081114717 BaPdxSi2-x Ba1Pd0.5Si1.5 Ba 1 Pd 0.5 Si 1.5 2012 AB2 AlB2 P6/mmm 191 K 0.6 0.6 "Ba(2N5),Si(5N),(3N)-Pd,Pt,Cu,Ag,Au" arc-melting "Superconductivity in Ba(TM,Si)2 (TM = Pd, Pt, Cu, Ag, and Au) with the AlB2-Type Structure" 2012 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan" "J.Phys.Soc.Jpn, 81(2012)114717"
156056 JPS081114717 BaCuxSi2-x Ba1Cu0.6Si1.4 Ba 1 Cu 0.6 Si 1.4 2012 AB2 AlB2 P6/mmm 191 A 4.1332 4.9859 K 1.74 1.74 "Ba(2N5),Si(5N),(3N)-Pd,Pt,Cu,Ag,Au" arc-melting "Superconductivity in Ba(TM,Si)2 (TM = Pd, Pt, Cu, Ag, and Au) with the AlB2-Type Structure" 2012 "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan" "J.Phys.Soc.Jpn, 81(2012)114717"
156057 NJP010123003 "impurity phase: FeAs. RRR = 4.87. T = 200K defined as R(T) anomaly. Hc2, Hirr defined as 0.9Rn and 0.1Rn, respectively." "(Eu,Na)Fe2As2" Eu0.7Na0.3Fe2As2 Eu 0.7 Na 0.3 Fe 2 As 2 1 2008 AB2C2 ThCr2Si2 A 3.8978 12.2623 K 34.7 32 32 90 T "RES(0.9Rn), WHH" 90 T/K RES(0.9Rn) 3.87 MHC156057 A from Hc2 19 "Eu(4N),Na(2N/5),Fe(4N),As(5N)" mixture - in Nb tube - sealed in Fe-tube - slow heat to 850 C - keep (35h) - ANN ( in Ar) Superconductivity at 34.7K in the iron arsenide Eu0.7Na0.3Fe2As2 2008 "Key Laboratory of Applied Superconductivity, Institute of Electrical Engineering, Chinese Academy of Sciences, P O Box 2703, Beijing 100190, People's Republic of China" "New J.Phys., 10(2008)123003"
156058 PHB1630131 not SC. Ferromag-order at 3.9 K by SP peak. Lattice term in SP (beta) = 2.41 mJ/mol.K4 Ce4Sb3 Ce4Sb3 Ce 4 Sb 3 3 1990 A3B4 K 1.8 mJ/mol.K2 644 SP Ce4Sb3: A ferromagnetic system with Kondo behavior 1990 "Department of Physics, Faculty of Science, Tohoku University, Sendai 980, Japan" "Physica B, 163(1990)131"
156059 PHC5190137 "grain size = 423 nm, RRR = R300/R40 = 2.53. pinning force(max) = 2.97E+9 N/m3. Jc measured using Bean's model." MgB2 B2Mg1 B 2 Mg 1 2015 AB2 AlB2 A 3.0816 K 37 37 T RES(0.9Rn) 11.8 20 MHC156059 uOhm.cm 4.82 "B(4N),Mg(2N6),glucose(3N)" "ball milled using 6 ball of ZrO2 - pelletaize - wrapped in Ta foil - heat to 650 C(5C/min) - hold (650C,2h, in Ar)" Effects of glucose doping on the MgB2 superconductors using cheap crystalline boron 2015 "Department of Physics and Astronomy, College of Science, PO Box 2455, King Saud University, Riyadh 11451, Saudi Arabia" "Physica C, 519(2015)137"
156060 PHC5190137 "2%-glucose(C6H12O6) doped sample. grain size = 413 nm, RRR = R300/R40 = 2.18. pinning force(max) = 2.10E+9 N/m3. Jc measured using Bean's model." "Mg(B,C)2" Mg1B1.98C0.02 Mg 1 B 1.98 C 0.02 2015 AB2 AlB2 A 3.0783 K 37 37 T RES(0.9Rn) 12.5 20 uOhm.cm 6.52 "B(4N),Mg(2N6),glucose(3N)" "ball milled using 6 ball of ZrO2 - pelletaize - wrapped in Ta foil - heat to 650 C(5C/min) - hold (650C,2h, in Ar)" Effects of glucose doping on the MgB2 superconductors using cheap crystalline boron 2015 "Department of Physics and Astronomy, College of Science, PO Box 2455, King Saud University, Riyadh 11451, Saudi Arabia" "Physica C, 519(2015)137"
156061 PHC5190137 "4%-glucose(C6H12O6) doped sample. grain size = 387 nm, RRR = R300/R40 = 1.91. pinning force(max) = 1.43E+9 N/m3. Jc measured using Bean's model." "Mg(B,C)2" Mg1B1.968C0.032 Mg 1 B 1.968 C 0.032 2015 AB2 AlB2 A 3.0766 K 37 37 T RES(0.9Rn) 13.9 20 uOhm.cm 8.52 "B(4N),Mg(2N6),glucose(3N)" "ball milled using 6 ball of ZrO2 - pelletaize - wrapped in Ta foil - heat to 650 C(5C/min) - hold (650C,2h, in Ar)" Effects of glucose doping on the MgB2 superconductors using cheap crystalline boron 2015 "Department of Physics and Astronomy, College of Science, PO Box 2455, King Saud University, Riyadh 11451, Saudi Arabia" "Physica C, 519(2015)137"
156062 PHC5190137 "6%-glucose(C6H12O6) doped sample. grain size = 297 nm, RRR = R300/R40 = 1.72. pinning force(max) = 1.27E+9 N/m3. Jc measured using Bean's model." "Mg(B,C)2" Mg1B1.938C0.062 Mg 1 B 1.938 C 0.062 2015 AB2 AlB2 A 3.0719 K 37 37 T RES(0.9Rn) 14.6 20 MHC156062 uOhm.cm 10.51 "B(4N),Mg(2N6),glucose(3N)" "ball milled using 6 ball of ZrO2 - pelletaize - wrapped in Ta foil - heat to 650 C(5C/min) - hold (650C,2h, in Ar)" Effects of glucose doping on the MgB2 superconductors using cheap crystalline boron 2015 "Department of Physics and Astronomy, College of Science, PO Box 2455, King Saud University, Riyadh 11451, Saudi Arabia" "Physica C, 519(2015)137"
156063 PRB082104518 R(T) anomaly at 150 K due to AFM along c-axis. Curie-Weis law for 150 = 1.24 A. As-Fe-As bonding angle alpha = 116.3 degree. "LaFe(As,P)(O,F)" La1Fe1As0.6P0.4F0.1O0.9 La 1 Fe 1 As 0.6 P 0.4 F 0.1 O 0.9 1 2014 ABCD oxypnictide A 4.002 Fe-1111 K 27 27 MTC156068 "solid state reaction. See Physica C, 470(2010)S298" Enhancement of superconducting transition temperature due to antiferromagnetic spin fluctuations in iron pnictides LaFe(As1-xPx)(O1-yFy): <31>P-NMR studies 2014 "Graduate School of Engineering Science, Osaka University, Osaka 560-8531, Japan" "Phys.Rev.B, 89(2014)064511"
156069 PRB089064511 "LaFe(As,P)(O,F)" La1Fe1As0.2P0.8F0.1O0.9 La 1 Fe 1 As 0.2 P 0.8 F 0.1 O 0.9 1 2014 ABCD oxypnictide Fe-1111 K 8.8 8.8 "solid state reaction. See Physica C, 470(2010)S298" Enhancement of superconducting transition temperature due to antiferromagnetic spin fluctuations in iron pnictides LaFe(As1-xPx)(O1-yFy): <31>P-NMR studies 2014 "Graduate School of Engineering Science, Osaka University, Osaka 560-8531, Japan" "Phys.Rev.B, 89(2014)064511"
156070 PRB089064511 The hight of pnictogen from the Fe plane h = 1.15 A. As-Fe-As bonding angle alpha = 119.7 degree. "LaFeP(O,F)" La1Fe1P1F0.1O0.9 La 1 Fe 1 P 1 F 0.1 O 0.9 1 2014 ABCD oxypnictide A 3.951 Fe-1111 K 5.4 5.4 "solid state reaction. See Physica C, 470(2010)S298" Enhancement of superconducting transition temperature due to antiferromagnetic spin fluctuations in iron pnictides LaFe(As1-xPx)(O1-yFy): <31>P-NMR studies 2014 "Graduate School of Engineering Science, Osaka University, Osaka 560-8531, Japan" "Phys.Rev.B, 89(2014)064511"
156071 PRB089064511 The hight of pnictogen from the Fe plane h = 1.25 A. As-Fe-As bonding angle alpha = 116.0 degree. "LaFe(As,P)(O,F)" La1Fe1As0.6P0.4F0.05O0.95 La 1 Fe 1 As 0.6 P 0.4 F 0.05 O 0.95 1 2014 ABCD oxypnictide A 4.011 Fe-1111 K 19 19 "solid state reaction. See Physica C, 470(2010)S298" Enhancement of superconducting transition temperature due to antiferromagnetic spin fluctuations in iron pnictides LaFe(As1-xPx)(O1-yFy): <31>P-NMR studies 2014 "Graduate School of Engineering Science, Osaka University, Osaka 560-8531, Japan" "Phys.Rev.B, 89(2014)064511"
156072 PRB089064511 "LaFe(As,P)(O,F)" La1Fe1As0.4P0.6F0.05O0.95 La 1 Fe 1 As 0.4 P 0.6 F 0.05 O 0.95 1 2014 ABCD oxypnictide Fe-1111 K 24 24 MTC156072 "solid state reaction. See Physica C, 470(2010)S298" Enhancement of superconducting transition temperature due to antiferromagnetic spin fluctuations in iron pnictides LaFe(As1-xPx)(O1-yFy): <31>P-NMR studies 2014 "Graduate School of Engineering Science, Osaka University, Osaka 560-8531, Japan" "Phys.Rev.B, 89(2014)064511"
156073 PRB089064511 The hight of pnictogen from the Fe plane h = 1.12 A. As-Fe-As bonding angle alpha = 121.1 degree. "LaFeP(O,F)" La1Fe1P1F0.05O0.95 La 1 Fe 1 P 1 F 0.05 O 0.95 1 2014 ABCD oxypnictide A 3.959 Fe-1111 K 6.7 6.7 "solid state reaction. See Physica C, 470(2010)S298" Enhancement of superconducting transition temperature due to antiferromagnetic spin fluctuations in iron pnictides LaFe(As1-xPx)(O1-yFy): <31>P-NMR studies 2014 "Graduate School of Engineering Science, Osaka University, Osaka 560-8531, Japan" "Phys.Rev.B, 89(2014)064511"
156074 PRB090064504 n = 1.96 where R(T) = R0 + A*T^n for Tc < T < 100K. Hall coeffic. RH(50K) = -4.75E-3 cm3/C. LaFePO La1Fe1P1O1 La 1 Fe 1 P 1 O 1 1 2014 ABCD oxypnictide P4/nmm A 3.9653 8.5252 Fe-1111 K 5.42 6.23 5.42 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156075 PRB090064504 n = 1.75 where R(T) = R0 + A*T^n for Tc < T < 100K. "LaFe(As,P)O" La1Fe1As0.1P0.9O1 La 1 Fe 1 As 0.1 P 0.9 O 1 1 2014 ABCD oxypnictide P4/nmm A 3.9778 8.5419 Fe-1111 K 5.96 6.39 5.96 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156076 PRB090064504 n = 1.72 where R(T) = R0 + A*T^n for Tc < T < 100K. "LaFe(As,P)O" La1Fe1As0.15P0.85O1 La 1 Fe 1 As 0.15 P 0.85 O 1 1 2014 ABCD oxypnictide P4/nmm A 3.9819 8.5493 Fe-1111 K 11.67 11.2 11.67 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156077 PRB090064504 n = 1.69 where R(T) = R0 + A*T^n for Tc < T < 100K. Hall coeffic. RH(50K) = -6.26E-3 cm3/C. "LaFe(As,P)O" La1Fe1As0.2P0.8O1 La 1 Fe 1 As 0.2 P 0.8 O 1 1 2014 ABCD oxypnictide P4/nmm A 3.9846 8.556 Fe-1111 K 11.42 11.78 11.42 MPH156077 cm3/C MRH156077 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156078 PRB090064504 n = 1.80 where R(T) = R0 + A*T^n for Tc < T < 100K. "LaFe(As,P)O" La1Fe1As0.25P0.75O1 La 1 Fe 1 As 0.25 P 0.75 O 1 1 2014 ABCD oxypnictide P4/nmm A 3.9875 8.5684 Fe-1111 K 7.52 7.07 7.52 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156079 PRB090064504 n = 1.63 where R(T) = R0 + A*T^n for Tc < T < 100K. Hall coeffic. RH(50K) = -28.84E-3 cm3/C. "LaFe(As,P)O" La1Fe1As0.3P0.7O1 La 1 Fe 1 As 0.3 P 0.7 O 1 1 2014 16.2 ABCD oxypnictide P4/nmm A 3.9891 8.5758 Fe-1111 K 2 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156080 PRB090064504 n = 1.25 where R(T) = R0 + A*T^n for Tc < T < 100K. Hall coeffic. RH(50K) = -43.3E-3 cm3/C. "LaFe(As,P)O" La1Fe1As0.4P0.6O1 La 1 Fe 1 As 0.4 P 0.6 O 1 1 2014 35.2 ABCD oxypnictide P4/nmm A 3.9987 8.6011 Fe-1111 K 2 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156081 PRB090064504 As content (EDX) same as nominal value "LaFe(As,P)O" La1Fe1As0.5P0.5O1 La 1 Fe 1 As 0.5 P 0.5 O 1 1 2014 12.4 ABCD oxypnictide P4/nmm A 4.006 8.6089 Fe-1111 K 2 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156082 PRB090064504 n = 1.30 where R(T) = R0 + A*T^n for Tc < T < 100K. Hall coeffic. RH(50K) = -50.9E-3 cm3/C. "LaFe(As,P)O" La1Fe1As0.6P0.4O1 La 1 Fe 1 As 0.6 P 0.4 O 1 1 2014 15.1 ABCD oxypnictide P4/nmm A 4.0174 8.6472 Fe-1111 K 2 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156083 PRB090064504 n = 0.99 where R(T) = R0 + A*T^n for Tc < T < 100K. Hall coeffic. RH(50K) = -33.8E-3 cm3/C. "LaFe(As,P)O" La1Fe1As0.7P0.3O1 La 1 Fe 1 As 0.7 P 0.3 O 1 1 2014 ABCD oxypnictide P4/nmm A 4.0232 8.6638 Fe-1111 K 7.83 7.83 MPH156077 cm3/C MRH156083 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156084 PRB090064504 Hall coeffic. RH(50K) = -41.3E-3 cm3/C. "LaFe(As,P)O" La1Fe1As0.8P0.2O1 La 1 Fe 1 As 0.8 P 0.2 O 1 1 2014 ABCD oxypnictide P4/nmm A 4.0318 8.6932 Fe-1111 K 2.31 6.7 2.31 cm3/C MRH156084 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156085 PRB090064504 "LaFe(As,P)O" La1Fe1As0.9P0.1O1 La 1 Fe 1 As 0.9 P 0.1 O 1 1 2014 ABCD oxypnictide P4/nmm A 4.0354 8.7258 Fe-1111 K 2 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156086 PRB090064504 LaFeAsO La1Fe1As1O1 La 1 Fe 1 As 1 O 1 1 2014 ABCD oxypnictide P4/nmm A 4.0404 8.749 Fe-1111 K 2 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156087 PRB090064504 F content not measured by EDX. n = 1.79 where R(T) = R0 + A*T^n for Tc < T < 100K "LaFeP(O,F)" La1Fe1P1F0.05O0.95 La 1 Fe 1 P 1 F 0.05 O 0.95 1 2014 ABCD oxypnictide P4/nmm A 3.9636 8.5251 Fe-1111 K 6.93 6.69 6.93 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156088 PRB090064504 n = 1.50 where R(T) = R0 + A*T^n for Tc < T < 100K "LaFe(As,P)(O,F)" La1Fe1As0.2P0.8F0.05O0.95 La 1 Fe 1 As 0.2 P 0.8 F 0.05 O 0.95 1 2014 ABCD oxypnictide P4/nmm A 3.9821 8.5512 Fe-1111 K 10.87 10.41 10.87 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156089 PRB090064504 n = 1.29 where R(T) = R0 + A*T^n for Tc < T < 100K "LaFe(As,P)(O,F)" La1Fe1As0.4P0.6F0.05O0.95 La 1 Fe 1 As 0.4 P 0.6 F 0.05 O 0.95 1 2014 ABCD oxypnictide P4/nmm A 3.9995 8.5953 Fe-1111 K 24.24 24.03 24.24 MTC156089 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156090 PRB090064504 n = 1.04 where R(T) = R0 + A*T^n for Tc < T < 100K "LaFe(As,P)(O,F)" La1Fe1As0.5P0.5F0.05O0.95 La 1 Fe 1 As 0.5 P 0.5 F 0.05 O 0.95 1 2014 ABCD oxypnictide P4/nmm A 4.006 8.607 Fe-1111 K 21.2 18.14 21.2 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156091 PRB090064504 n = 1.12 where R(T) = R0 + A*T^n for Tc < T < 100K "LaFe(As,P)(O,F)" La1Fe1As0.6P0.4F0.05O0.95 La 1 Fe 1 As 0.6 P 0.4 F 0.05 O 0.95 1 2014 ABCD oxypnictide P4/nmm A 4.0133 8.6229 Fe-1111 K 19.08 18.86 19.08 MTC156089 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156092 PRB090064504 n = 1.30 where R(T) = R0 + A*T^n for Tc < T < 100K "LaFe(As,P)(O,F)" La1Fe1As0.7P0.3F0.05O0.95 La 1 Fe 1 As 0.7 P 0.3 F 0.05 O 0.95 1 2014 ABCD oxypnictide P4/nmm A 4.0212 8.6443 Fe-1111 K 15.75 15.62 15.75 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156093 PRB090064504 n = 1.58 where R(T) = R0 + A*T^n for Tc < T < 100K "LaFe(As,P)(O,F)" La1Fe1As0.75P0.25F0.05O0.95 La 1 Fe 1 As 0.75 P 0.25 F 0.05 O 0.95 1 2014 ABCD oxypnictide P4/nmm A 4.0232 8.6767 Fe-1111 K 22.38 20.22 22.38 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156094 PRB090064504 n = 1.33 where R(T) = R0 + A*T^n for Tc < T < 100K "LaFe(As,P)(O,F)" La1Fe1As0.8P0.2F0.05O0.95 La 1 Fe 1 As 0.8 P 0.2 F 0.05 O 0.95 1 2014 ABCD oxypnictide P4/nmm A 4.0252 8.6971 Fe-1111 K 25.61 25.75 25.61 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156095 PRB090064504 n = 1.52 where R(T) = R0 + A*T^n for Tc < T < 100K "LaFe(As,P)(O,F)" La1Fe1As0.9P0.1F0.05O0.95 La 1 Fe 1 As 0.9 P 0.1 F 0.05 O 0.95 1 2014 ABCD oxypnictide P4/nmm A 4.0312 8.7088 K 23.6 17.25 23.6 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156096 PRB090064504 n = 2.03 where R(T) = R0 + A*T^n for Tc < T < 100K "LaFeAs(O,F)" La1Fe1As1F0.05O0.95 La 1 Fe 1 As 1 F 0.05 O 0.95 1 2014 ABCD oxypnictide P4/nmm A 4.0386 8.7399 K 27.84 27.17 27.84 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156097 PRB090064504 n = 1.40 where R(T) = R0 + A*T^n for Tc < T < 100K "LaFe(As,P)(O,F)" La1Fe1As0.4P0.6F0.1O0.9 La 1 Fe 1 As 0.4 P 0.6 F 0.1 O 0.9 1 2014 ABCD oxypnictide P4/nmm K 21.14 21.67 21.14 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156098 PRB090064504 n = 1.16 where R(T) = R0 + A*T^n for Tc < T < 100K "LaFe(As,P)(O,F)" La1Fe1As0.6P0.4F0.1O0.9 La 1 Fe 1 As 0.6 P 0.4 F 0.1 O 0.9 1 2014 ABCD oxypnictide P4/nmm K 27 23 27 MTC156098 "LaAs,LaP,Fe2O3,Fe,LaF3" "mixture - pellet - sealed in quartz tube - heat(1100C,4d)" Evolution of the phase diagram of LaFeP1-xAsxO1- yFy ( y = 0-0.1) 2014 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 90(2014)064504"
156099 PRB091220505 "Cr chain //rod direction. Hc2 measured by R(T) for H<14T, and proximity detector oscilator for H > 14 T. Anisotropy (Hc2) = 0.35 at Tc and = 1.7 at 0.7 K." K2Cr3As3 K2Cr3As3 K 2 Cr 3 As 3 3 2015 A2B3C3 K2Cr3As3 K 6.1 6.1 T "RES(on), extrapolation." 37 23 T/K RES(on) 7 12 MHC156099 A 22 K:Cr:As = 6:1:7 - alumina crucible - welded in Ta tube - slow heat to 1000C - cool to 700C within 3 days. Anisotropy reversal of the upper critical field at low temperatures and spin-locked superconductivity in K2Cr3As3 2015 "National High Magnetic Field Laboratory, Los Alamos National Laboratory, MS-E536, Los Alamos, New Mexico 87545, USA" "Phys.Rev.B, 91(2015)220505"
156100 PRB092014517 [penet] measured by magnetic force microscope (MFM). [penet varies locally for T < T (weak FM) = 2.3 K. ErNi2B2C Er1Ni2B2C1 Er 1 Ni 2 B 2 C 1 3 2015 ABC2D2 LuNi2B2C borocarbide K 10 10 A MFM 1900 Ni2B flux method Spatially resolved penetration depth measurements and vortex manipulation in the ferromagnetic superconductor ErNi2B2C 2015 "Center for Artificial Low Dimensional Electronic Systems, Institute for Basic Science, 77 Cheongam-Ro, Nam-Gu, Pohang 790-784, Korea" "Phys.Rev.B, 92(2015)014517"
156101 PRB092020505 "La(Fe,Mn)As(O,F)" La1Fe1As1F0.11O0.89 La 1 Fe 1 As 1 F 0.11 O 0.89 1 2015 ABCD oxypnictide Fe-1111 K 27 27 Enhancement of low-frequency fluctuations and superconductivity breakdown in Mn-doped La1-yYyFeAsO0.89F0.11 superconductors 2015 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 92(2015)020505"
156102 PRB092020505 Mn-content =0.025% (x = 0.00025 in Fe1-xMnx) "La(Fe,Mn)As(O,F)" La1Fe0.9997Mn0.00025As1F0.11O0.89 La 1 Fe 0.9997 Mn 0.00025 As 1 F 0.11 O 0.89 1 2015 ABCD oxypnictide Fe-1111 K 22.8 22.8 MTC156102 Enhancement of low-frequency fluctuations and superconductivity breakdown in Mn-doped La1-yYyFeAsO0.89F0.11 superconductors 2015 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 92(2015)020505"
156103 PRB092020505 "La(Fe,Mn)As(O,F)" La1Fe0.999Mn0.001As1F0.11O0.89 La 1 Fe 0.999 Mn 0.001 As 1 F 0.11 O 0.89 1 2015 ABCD oxypnictide Fe-1111 K 9.84 9.84 Enhancement of low-frequency fluctuations and superconductivity breakdown in Mn-doped La1-yYyFeAsO0.89F0.11 superconductors 2015 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 92(2015)020505"
156104 PRB092020505 "(La,Y)(Fe,Mn)As(O,F)" La0.8Y0.2Fe1As1F0.11O0.89 La 0.8 Y 0.2 Fe 1 As 1 F 0.11 O 0.89 1 2015 ABCD oxypnictide Fe-1111 K 30.3 30.3 Enhancement of low-frequency fluctuations and superconductivity breakdown in Mn-doped La1-yYyFeAsO0.89F0.11 superconductors 2015 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 92(2015)020505"
156105 PRB092020505 "(La,Y)(Fe,Mn)As(O,F)" La0.8Y0.2Fe0.997Mn0.003As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.997 Mn 0.003 As 1 F 0.11 O 0.89 1 2015 ABCD oxypnictide Fe-1111 K 29.3 29.3 Enhancement of low-frequency fluctuations and superconductivity breakdown in Mn-doped La1-yYyFeAsO0.89F0.11 superconductors 2015 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 92(2015)020505"
156106 PRB092020505 "(La,Y)(Fe,Mn)As(O,F)" La0.8Y0.2Fe0.995Mn0.005As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.995 Mn 0.005 As 1 F 0.11 O 0.89 1 2015 ABCD oxypnictide Fe-1111 K 25.7 25.7 MTC156106 Enhancement of low-frequency fluctuations and superconductivity breakdown in Mn-doped La1-yYyFeAsO0.89F0.11 superconductors 2015 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 92(2015)020505"
156107 PRB092020505 "(La,Y)(Fe,Mn)As(O,F)" La0.8Y0.2Fe0.99Mn0.01As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.99 Mn 0.01 As 1 F 0.11 O 0.89 1 2015 ABCD oxypnictide Fe-1111 K 25.3 25.3 Enhancement of low-frequency fluctuations and superconductivity breakdown in Mn-doped La1-yYyFeAsO0.89F0.11 superconductors 2015 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 92(2015)020505"
156108 PRB092020505 "Sm(Fe,Mn)As(O,F)" Sm1Fe0.965Mn0.035As1F0.11O0.89 Sm 1 Fe 0.965 Mn 0.035 As 1 F 0.11 O 0.89 1 2015 ABCD oxypnictide Fe-1111 K 31.3 31.3 MTC156108 Enhancement of low-frequency fluctuations and superconductivity breakdown in Mn-doped La1-yYyFeAsO0.89F0.11 superconductors 2015 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 92(2015)020505"
156109 PRB092020506 "Sr0.1Bi2Se3(90.97%),BiSe(7.05%), SrBi2Se4(1.98%). RRR = 1.95. Anisotropy (penet) = 1.5. GL(kappa)//ab = 119.2. TP(50K) = -19.4 uV/K. carrier n(200K) = 1.24E+19/cm3" SrxBi2Se3 Sr0.1Bi2Se3 Sr 0.1 Bi 2 Se 3 3 2015 R3[-]m A 4.14 28.65 topological SC K 2.8 2.94 0.16 2.87 Oe M-H curve 3.9 T "RES(on), GL-fitting" 2.1 1.4 MHC156109 A from Hc2 153 102 um 1.22 uV/K -34.1 uOhm.cm 3.68 cm3/C MRH156109 "Bi(5N),Se(5N),Sr(2N)" "mixture - melt(850C.8d, in sealed quartz tube) - cool to 650C (10 C/h) - Q to ice water" Superconductivity by Sr intercalation in the layered topological insulator Bi2Se3 2015 "School of Physical Sciences, Jawaharlal Nehru University, New Delhi 110067, India" "Phys.Rev.B, 92(2015)020506"
156110 MAT1502.01105 Bi2Se3 Bi2Se3 Bi 2 Se 3 3 2015 A 4.1328 28.573 topological SC K 1.9 SrxBi2Se3(nominal Sr-content x =<0.3) were grown. Cleaved crystals were used. Superconductivity with topological surface state in SrxBi2Se3 2015 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People's Republic of China" cond-mat/1502.01105
156111 MAT1502.01105 nominal compositions = Sr0.17Bi2Se3. DB values by EDX. carrier n = 2.02 (300K) and = 2.65 (10K) E+19 /cm3. SC-volume fraction = 88%(bulk SC) SrxBi2Se3 Sr0.062Bi2Se3 Sr 0.062 Bi 2 Se 3 3 2015 A 4.1369 28.598 topological SC K 2.39 2.57 2.48 MTC156111 88 mOh..cm 0.24 cm3/C 0.31 MRH156111 n/cm3 2.02E+19 SrxBi2Se3(nominal Sr-content x =<0.3) were grown. Cleaved crystals were used. Superconductivity with topological surface state in SrxBi2Se3 2015 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People's Republic of China" cond-mat/1502.01105
156112 MAT1502.01105 nominal compositions = Sr0.19Bi2Se3. DB values by EDX. SC-volume fraction = 91.5 %(bulk SC) SrxBi2Se3 Sr0.065Bi2Se3 Sr 0.065 Bi 2 Se 3 3 2015 topological SC K 2.6 2.6 91.5 SrxBi2Se3(nominal Sr-content x =<0.3) were grown. Cleaved crystals were used. Superconductivity with topological surface state in SrxBi2Se3 2015 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People's Republic of China" cond-mat/1502.01105
156113 MAT1502.01105 not SC for x =< 0.25 in Bi2-xSrxSe3. x values(EDX) are nearly equal to nominal ones. Bi2-xSrxSe3 Bi1.85Sr0.15Se3 Bi 1.85 Sr 0.15 Se 3 3 2015 A 4.146 28.559 topological SC K 1.9 SrxBi2Se3(nominal Sr-content x =<0.3) were grown. Cleaved crystals were used. Superconductivity with topological surface state in SrxBi2Se3 2015 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People's Republic of China" cond-mat/1502.01105
156114 PRB092024511 "not SC. R(T) = R0 + A*T^n , n= 1.6" UPt3B U1Pt3B1 U 1 Pt 3 B 1 1 2015 ABC3 CePt3B P4mm A 3.8906 5.2241 K 0.34 mJ/mol.K2 221 SP "arc-melting(Ar) - sealed in quartz tube - ANN (800c,500h), (600C,1000h), (400C,2500h)" "Superconductivity and spin fluctuations in the actinoid-platinum metal borides {Th,U}Pt3B" 2015 "Institute of Solid State Physics, Vienna University of Technology, A-1040 Wien, Austria" "Phys.Rev.B, 92(2015)024511"
156115 PRB092024511 Thermodynamic Hc(0) = 6 mT. (dC/Tc) = 5 mJ/mol.K2. GL(kappa) = 43. [penet](London) = 1.3 microm-m. ThPt3B Th1Pt3B1 Th 1 Pt 3 B 1 1 2015 ABC3 CePt3B Pm3[-]m A 4.383 K 0.75 0.75 T "RES(0.5Rn), WHH" 0.42 T/K RES(0.5Rn) 0.83 MHC156115 A from Hc2 280 um 1.3 MSP156115 mJ/mol.K2 6.5 SP 220 SP uOhm.cm 196 "arc-melting(Ar) - sealed in quartz tube - ANN (800c,500h), (600C,1000h), (400C,2500h)" "Superconductivity and spin fluctuations in the actinoid-platinum metal borides {Th,U}Pt3B" 2015 "Institute of Solid State Physics, Vienna University of Technology, A-1040 Wien, Austria" "Phys.Rev.B, 92(2015)024511"
156116 PRB092054507 No trace of alpha-Bi2Pd. gap measured by STM. Samples show a single-gap multiband SC. beta-Bi2Pd Bi2Pd1 Bi 2 Pd 1 3 2015 AB2 I4/mmm A 3.36 12.97 K 5.07 0.03 5.07 MGAP156116 T RES(on) 0.45 2 MHC156116 A 230 meV 0.76 3.49 11 mJ/mol.K2 13 SP uOhm.cm 18 "Bi(4N),Pd(3N5)" mixture - quartz ampoule - sealed (140 mbar He) - heat to 900 C in 3h - hold(24h) - cool to 490 c in 96h - cool to 395 C in 200h - Q to cold water Magnetic field dependence of the density of states in the multiband superconductor betha-Bi2Pd 2015 8 "Bi2Pd, vortex, STM, multiband, single gap" "Laboratorio de Bajas Temperaturas y Altos Campos Magneticos, Departamento de Fisico de la Materia Condensada, Instituto Nicolas Cabrera and Condensed Matter Physics Center (IFIMAC), Universidad Autonoma de Madrid, E-28049 Madrid, Spain" "Physical Review B, 92(2015)054507" Bi2Pd "betha-Bi2Pd is a single-gap multiband superconductor, measured by STM."
156117 PRB092064515 Anisotropy facter = (R/R) = 2500 at 50 K. R(T) anomaly at 120 K. Hall coeff. RH = -9.66E-3 cm3/C at 50 K. (Li0.84Fe0.16)OHFe0.98Se Li0.84H1Fe1.14Se1O1 Li 0.84 H 1 Fe 1.14 Se 1 O 1 3 2015 myu-B/Fe 4.2 -6.6 ABCDE P4/nmm A 3.7827 9.3184 Fe-11111 K 42 1 42 T "RES(mid), WHH" 313 79 MHC156117 cm3/C 9 MRH156117 Crystals synthesized by hydrothermal ion-exchange method using K0.8Fe1.6Se2 crystal as a matrix. (Li0.84Fe0.16)OHFe0.98Se superconductor: Ion-exchange synthesis of large single-crystal and highly two-dimensional electron properties 2015 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Science, Beijing 100190, China" "Phys.Rev.B, 92(2015)064515"
156118 PRB092064515 not SC. K0.8Fe1.6Se2 K0.8Fe1.6Se2 K 0.8 Fe 1.6 Se 2 3 2015 538 A2B4C5 I4/m A 8.7248 14.1339 K:Fe:Se = 2:4:5 K 4 Crystals synthesized by hydrothermal ion-exchange method using K0.8Fe1.6Se2 crystal as a matrix. (Li0.84Fe0.16)OHFe0.98Se superconductor: Ion-exchange synthesis of large single-crystal and highly two-dimensional electron properties 2015 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Science, Beijing 100190, China" "Phys.Rev.B, 92(2015)064515"
156119 PRB092134517 "Sr3M-intercalated, M=(NH2)y(NH3)1-y, 0.2=As-NMR, NQR." "(Ca,La)FeAs2" Ca0.85La0.15Fe1As2 Ca 0.85 La 0.15 Fe 1 As 2 3 2015 62 ABC2 Fe-112 K 35 35 "See J.Phys.Soc.Jpn, 83(2014)025001" Doping-enhanced antiferromagnetism in Ca1-xLaxFeAs2 2015 "Department of Physics, and Research Center of New Functional Materials for Energy Production, Storage and Transport, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 92(2015)180508"
156134 PRB092180508 "Tn(AFM) measured by <75>As-NMR, NQR." "(Ca,La)FeAs2" Ca0.81La0.19Fe1As2 Ca 0.81 La 0.19 Fe 1 As 2 3 2015 63 ABC2 Fe-112 K 34 34 "See J.Phys.Soc.Jpn, 83(2014)025001" Doping-enhanced antiferromagnetism in Ca1-xLaxFeAs2 2015 "Department of Physics, and Research Center of New Functional Materials for Energy Production, Storage and Transport, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 92(2015)180508"
156135 PRB092180508 "not SC. Tn(AFM) measured by <75>As-NMR, NQR." "(Ca,La)FeAs2" Ca0.76La0.24Fe1As2 Ca 0.76 La 0.24 Fe 1 As 2 3 2015 70 ABC2 Fe-112 K 4 "See J.Phys.Soc.Jpn, 83(2014)025001" Doping-enhanced antiferromagnetism in Ca1-xLaxFeAs2 2015 "Department of Physics, and Research Center of New Functional Materials for Energy Production, Storage and Transport, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 92(2015)180508"
156136 PRB092214508 Compositions = Ba6.00Nb9.57O28.05 by EPMA. SP (beta) = 0.37 mJ/molK4. (dC/gamma*Tc) = 1.31 Thermal diffusivity (300K) = 0.6 mm2/g. Ba6Nb10O30 Ba6Nb10O30 Ba 6 Nb 10 O 30 1 2015 A6B10C30 P4/mbm A 12.6173 3.9835 K 1.65 1.65 15 meV 0.382 5.38 14 MSP156136 mJ/mol.K2 17.09 SP "BaCO3(4N),SrCO3(4N),Nb2O5(4N8)" "mixture - heat(1000C,10h, in flowing H2/Ar) - two intermwdiate regrindings - SIN(1360C,10-12h, in flowing H2/Ar)" Superconductivity and crystal structural origins of the metal-insulator transition in Ba6-xSrxNb10O30 tetragonal tungsten bronzes 2015 "National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 92(2015)214508"
156137 PRB092214508 Compositions = Ba4.99Sr1.01Nb9.91O29.16. SP (beta) = 1.15 mJ/molK4. (dC/gamma*Tc) = 1.56 "(Ba,Sr)6Nb10O30" Ba5Sr1Nb10O30 Ba 5 Sr 1 Nb 10 O 30 1 2015 A6B10C30 P4/mbm A 12.5848 3.9726 K 0.96 0.96 meV 0.236 5.7 14 mJ/mol.K2 15.75 SP "BaCO3(4N),SrCO3(4N),Nb2O5(4N8)" "mixture - heat(1000C,10h, in flowing H2/Ar) - two intermwdiate regrindings - SIN(1360C,10-12h, in flowing H2/Ar)" Superconductivity and crystal structural origins of the metal-insulator transition in Ba6-xSrxNb10O30 tetragonal tungsten bronzes 2015 "National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 92(2015)214508"
156138 PRB092214508 Compositions = Ba4.03Sr1.97Nb10.01O29.26. SP (beta) = 1.04 mJ/molK4. (dC/gamma*Tc) = 1.60 "(Ba,Sr)6Nb10O30" Ba4Sr2Nb10O30 Ba 4 Sr 2 Nb 10 O 30 1 2015 A6B10C30 P4/mbm A 12.5551 3.9576 K 0.98 0.98 30 meV 0.227 5.38 14 mJ/mol.K2 16.82 SP "BaCO3(4N),SrCO3(4N),Nb2O5(4N8)" "mixture - heat(1000C,10h, in flowing H2/Ar) - two intermwdiate regrindings - SIN(1360C,10-12h, in flowing H2/Ar)" Superconductivity and crystal structural origins of the metal-insulator transition in Ba6-xSrxNb10O30 tetragonal tungsten bronzes 2015 "National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 92(2015)214508"
156139 PRB092214508 Compositions = Ba3.12Sr2.88Nb10.11O29.79. "(Ba,Sr)6Nb10O30" Ba3Sr3Nb10O30 Ba 3 Sr 3 Nb 10 O 30 1 2015 A6B10C30 P4/mbm A 12.5168 3.9436 K 0.4 mJ/mol.K2 8.13 SP "BaCO3(4N),SrCO3(4N),Nb2O5(4N8)" "mixture - heat(1000C,10h, in flowing H2/Ar) - two intermwdiate regrindings - SIN(1360C,10-12h, in flowing H2/Ar)" Superconductivity and crystal structural origins of the metal-insulator transition in Ba6-xSrxNb10O30 tetragonal tungsten bronzes 2015 "National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 92(2015)214508"
156140 PRB092214508 Compositions = Ba2.10Sr3.90Nb10.22O29.69 "(Ba,Sr)6Nb10O30" Ba2Sr4Nb10O30 Ba 2 Sr 4 Nb 10 O 30 1 2015 A6B10C30 P4/mbm A 12.4652 3.9301 K 0.4 mJ/mol.K2 1.7 SP "BaCO3(4N),SrCO3(4N),Nb2O5(4N8)" "mixture - heat(1000C,10h, in flowing H2/Ar) - two intermwdiate regrindings - SIN(1360C,10-12h, in flowing H2/Ar)" Superconductivity and crystal structural origins of the metal-insulator transition in Ba6-xSrxNb10O30 tetragonal tungsten bronzes 2015 "National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 92(2015)214508"
156141 PRB092214508 Compositions = Ba1.05Sr4.95Nb10.41O31.37 "(Ba,Sr)6Nb10O30" Ba1Sr5Nb10O30 Ba 1 Sr 5 Nb 10 O 30 1 2015 A6B10C30 P4/mbm A 12.4149 3.9157 K 0.4 mJ/mol.K2 0.82 SP "BaCO3(4N),SrCO3(4N),Nb2O5(4N8)" "mixture - heat(1000C,10h, in flowing H2/Ar) - two intermwdiate regrindings - SIN(1360C,10-12h, in flowing H2/Ar)" Superconductivity and crystal structural origins of the metal-insulator transition in Ba6-xSrxNb10O30 tetragonal tungsten bronzes 2015 "National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 92(2015)214508"
156142 PRB092214508 Compositions = Ba6.00Nb9.26Mg0.41O28.67by EPMA Ba6Nb10O30 Ba6Nb10O30 Ba 6 Nb 10 O 30 3 2015 A6B10C30 P4/mbm A 12.5842 3.9995 "a = 12.5672, c = 3.9980 at 100K." K 1.6 1.6 "BaCO3,Nb2O5" addition of 1 wt% MgO - in Mo crucuble - heat(1400C) - cool to 1200C(10C/h) - FC to RT Superconductivity and crystal structural origins of the metal-insulator transition in Ba6-xSrxNb10O30 tetragonal tungsten bronzes 2015 "National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev.B, 92(2015)214508"
156143 PRB093014514 Phase transitions measured by thermal expansion and SP. T = 138 K (T-to-O). "(Ba,Na)Fe2As2" Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2016 AB2C2 ThCr2Si2 K 2 "self-flux method, (Ba1-xNax):FeAs = 1:4 or 1:5. melt(1150-1170 C) - cool to (940 - 1020 C) at 0.5 C/h." Complex phase diagram of Ba1-xNaxFe2As2: A multitude of phases striving for the electronic entropy 2016 "Institut fur Festkorperphysik, Karlsruhe Institute of Technology, 76021 Karlsruhe, Germany" "Phys.Rev.B, 93(2016)014514"
156144 PRB093014514 Phase transitions measured by thermal expansion and SP. T = 134 K (T-to-O). "(Ba,Na)Fe2As2" Ba0.907Na0.093Fe2As2 Ba 0.907 Na 0.093 Fe 2 As 2 3 2016 AB2C2 ThCr2Si2 K 2 "self-flux method, (Ba1-xNax):FeAs = 1:4 or 1:5. melt(1150-1170 C) - cool to (940 - 1020 C) at 0.5 C/h." Complex phase diagram of Ba1-xNaxFe2As2: A multitude of phases striving for the electronic entropy 2016 "Institut fur Festkorperphysik, Karlsruhe Institute of Technology, 76021 Karlsruhe, Germany" "Phys.Rev.B, 93(2016)014514"
156145 PRB093014514 Phase transitions measured by thermal expansion and SP. T = 111 K (T-to-O). "(Ba,Na)Fe2As2" Ba0.818Na0.182Fe2As2 Ba 0.818 Na 0.182 Fe 2 As 2 3 2016 AB2C2 ThCr2Si2 K 6.4 6.4 "self-flux method, (Ba1-xNax):FeAs = 1:4 or 1:5. melt(1150-1170 C) - cool to (940 - 1020 C) at 0.5 C/h." Complex phase diagram of Ba1-xNaxFe2As2: A multitude of phases striving for the electronic entropy 2016 "Institut fur Festkorperphysik, Karlsruhe Institute of Technology, 76021 Karlsruhe, Germany" "Phys.Rev.B, 93(2016)014514"
156146 PRB093014514 "Phase transitions measured by thermal expansion and SP. T = 100 K (T-to-O)., 21 K (O-to-T)" "(Ba,Na)Fe2As2" Ba0.779Na0.221Fe2As2 Ba 0.779 Na 0.221 Fe 2 As 2 3 2016 AB2C2 ThCr2Si2 K 8 8 MPH156146 "self-flux method, (Ba1-xNax):FeAs = 1:4 or 1:5. melt(1150-1170 C) - cool to (940 - 1020 C) at 0.5 C/h." Complex phase diagram of Ba1-xNaxFe2As2: A multitude of phases striving for the electronic entropy 2016 "Institut fur Festkorperphysik, Karlsruhe Institute of Technology, 76021 Karlsruhe, Germany" "Phys.Rev.B, 93(2016)014514"
156147 PRB093014514 "Phase transitions measured by thermal expansion and SP. T = 58 K (T-to-O), 49.4 K (O-to-O'), 36.2 K (O'-to- T)." "(Ba,Na)Fe2As2" Ba0.698Na0.302Fe2As2 Ba 0.698 Na 0.302 Fe 2 As 2 3 2016 AB2C2 ThCr2Si2 K 18 18 "self-flux method, (Ba1-xNax):FeAs = 1:4 or 1:5. melt(1150-1170 C) - cool to (940 - 1020 C) at 0.5 C/h." Complex phase diagram of Ba1-xNaxFe2As2: A multitude of phases striving for the electronic entropy 2016 "Institut fur Festkorperphysik, Karlsruhe Institute of Technology, 76021 Karlsruhe, Germany" "Phys.Rev.B, 93(2016)014514"
156148 PRB093014514 Phase transitions measured by thermal expansion and SP. T = 49.3 K (T-to-O'). "(Ba,Na)Fe2As2" Ba0.68Na0.32Fe2As2 Ba 0.68 Na 0.32 Fe 2 As 2 3 2016 AB2C2 ThCr2Si2 K 23.8 23.8 "self-flux method, (Ba1-xNax):FeAs = 1:4 or 1:5. melt(1150-1170 C) - cool to (940 - 1020 C) at 0.5 C/h." Complex phase diagram of Ba1-xNaxFe2As2: A multitude of phases striving for the electronic entropy 2016 "Institut fur Festkorperphysik, Karlsruhe Institute of Technology, 76021 Karlsruhe, Germany" "Phys.Rev.B, 93(2016)014514"
156149 PRB093014514 Phase transitions measured by thermal expansion and SP. "(Ba,Na)Fe2As2" Ba0.64Na0.36Fe2As2 Ba 0.64 Na 0.36 Fe 2 As 2 3 2016 AB2C2 ThCr2Si2 K 31 31 "self-flux method, (Ba1-xNax):FeAs = 1:4 or 1:5. melt(1150-1170 C) - cool to (940 - 1020 C) at 0.5 C/h." Complex phase diagram of Ba1-xNaxFe2As2: A multitude of phases striving for the electronic entropy 2016 "Institut fur Festkorperphysik, Karlsruhe Institute of Technology, 76021 Karlsruhe, Germany" "Phys.Rev.B, 93(2016)014514"
156150 PRB093014514 Phase transitions measured by thermal expansion and SP. "(Ba,Na)Fe2As2" Ba0.6Na0.4Fe2As2 Ba 0.6 Na 0.4 Fe 2 As 2 3 2016 AB2C2 ThCr2Si2 K 34 34 "self-flux method, (Ba1-xNax):FeAs = 1:4 or 1:5. melt(1150-1170 C) - cool to (940 - 1020 C) at 0.5 C/h." Complex phase diagram of Ba1-xNaxFe2As2: A multitude of phases striving for the electronic entropy 2016 "Institut fur Festkorperphysik, Karlsruhe Institute of Technology, 76021 Karlsruhe, Germany" "Phys.Rev.B, 93(2016)014514"
156151 PRB093014514 Phase transitions measured by thermal expansion and SP. T = 118 K (T-to-O). "(Ba,K)Fe2As2" Ba0.84K0.16Fe2As2 Ba 0.84 K 0.16 Fe 2 As 2 3 2016 AB2C2 ThCr2Si2 K 5.54 5.54 Complex phase diagram of Ba1-xNaxFe2As2: A multitude of phases striving for the electronic entropy 2016 "Institut fur Festkorperphysik, Karlsruhe Institute of Technology, 76021 Karlsruhe, Germany" "Phys.Rev.B, 93(2016)014514"
156152 PRB093014514 "Phase transitions measured by thermal expansion and SP. T = 54 K (T-to-O), 34.6 K (ortho-to-tetra)" "(Ba,K)Fe2As2" Ba0.737K0.263Fe2As2 Ba 0.737 K 0.263 Fe 2 As 2 3 2016 AB2C2 ThCr2Si2 K 24 24 MPH156152 Complex phase diagram of Ba1-xNaxFe2As2: A multitude of phases striving for the electronic entropy 2016 "Institut fur Festkorperphysik, Karlsruhe Institute of Technology, 76021 Karlsruhe, Germany" "Phys.Rev.B, 93(2016)014514"
156153 PRB093014514 Phase transitions measured by thermal expansion and SP. "(Ba,K)Fe2As2" Ba0.65K0.35Fe2As2 Ba 0.65 K 0.35 Fe 2 As 2 3 2016 AB2C2 ThCr2Si2 K 38 38 Complex phase diagram of Ba1-xNaxFe2As2: A multitude of phases striving for the electronic entropy 2016 "Institut fur Festkorperphysik, Karlsruhe Institute of Technology, 76021 Karlsruhe, Germany" "Phys.Rev.B, 93(2016)014514"
156154 PRB093045118 "Au2Pb0.95. RRR = 9. Tc(P=1GPa) = 1.1 K. Structural phase transitions at T1 = 97, T2 = 51, T3 = 40 K from R(T)." Au2Pb Au2Pb1 Au 2 Pb 1 3 2016 AB2 MgCu2(Laves) Fd3[-]m 227 A 7.9141 unit volume = 495.69 A3 K 1.2 1.2 MSP156154 mJ/mol.K2 1.9 SP 133 SP uOhm.cm 35.9 Pb flux method. mixture(Au:Pb = 2:3) - sealed in quartz tube - heat to 600C (50 C/h) - hold(24h) - cool to 300 C(3 C/h) Temperature-pressure phase diagram of cubic Laves phase Au2Pb 2016 "National High Magnetic Field Laboratory, Florida State University, Tallahassee, Florida 32306, USA" "Phys.Rev.B, 93(2016)045118"
156155 PRB093045118 RRR = 20. No anomaly in R(T). SP-heat (beta) = 1.6 mJ/mol.K4 Au2Bi Au2Bi1 Au 2 Bi 1 3 2016 AB2 MgCu2(Laves) Fd3[-]m 227 K 1.7 1.7 MSP156155 mJ/mol.K2 2.3 SP 153 SP Pb flux method. mixture(Au:Pb = 2:3) - sealed in quartz tube - heat to 600C (50 C/h) - hold(24h) - cool to 300 C(3 C/h) Temperature-pressure phase diagram of cubic Laves phase Au2Pb 2016 "National High Magnetic Field Laboratory, Florida State University, Tallahassee, Florida 32306, USA" "Phys.Rev.B, 93(2016)045118"
156156 PRB093054508 "RRR = 200. Optical conductivity measured. Two isotropic gaps: d1 = 2.9, d2 = 5.5 meV (2d/kTc = 3.7 and 7.1). coexist of clean and dirty-limit SC." LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 3 2016 ABC PbFCl K 18 18 A plasma frequency 2040 meV 5.5 7.1 15 uOhm.cm 1.45 self-flux method Coexistence of clean- and dirty-limit superconductivity in LiFeAs 2016 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 93(2016)054508"
156157 PRB093054513 "(Ca,Pr)Fe2.07As1.948" "(Ca,Pr)Fe2As2" Ca0.941Pr0.059Fe2As2 Ca 0.941 Pr 0.059 Fe 2 As 2 3 2016 AB2C2 ThCr2Si2 Fe-122 K 28.9 28.9 MTC156157 0.2 "Fe(5N),As(6N),Ca(4N),Pr(3N),La(3N)" "self-flux method. mixture((Ca+R):FeAs = 1:4) - alumina crucible in silica tube - heat(1200C,8h) - cool to 980 C (2 C/h)" Evidence for defect-induced superconductivity up to 49 K in (Ca1-x Rx)Fe2As2 2016 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 93(2016)054513"
156158 PRB093054513 "(Ca,Pr)Fe2.068As1.948. Two-step SC-transition, lower Tc = 23.9 K." "(Ca,Pr)Fe2As2" Ca0.875Pr0.125Fe2As2 Ca 0.875 Pr 0.125 Fe 2 As 2 3 2016 AB2C2 ThCr2Si2 Fe-122 K 49 49 3 "Fe(5N),As(6N),Ca(4N),Pr(3N),La(3N)" "self-flux method. mixture((Ca+R):FeAs = 1:4) - alumina crucible in silica tube - heat(1200C,8h) - cool to 980 C (2 C/h)" Evidence for defect-induced superconductivity up to 49 K in (Ca1-x Rx)Fe2As2 2016 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 93(2016)054513"
156159 PRB093054513 "(Ca,La)Fe2.00As1.970. Two-step SC-transition, lower Tc = 20.0 K." "(Ca,La)Fe2As2" Ca0.891La0.109Fe2As2 Ca 0.891 La 0.109 Fe 2 As 2 3 2016 AB2C2 ThCr2Si2 Fe-122 K 45.4 45.4 MTC156159 18.6 "Fe(5N),As(6N),Ca(4N),Pr(3N),La(3N)" "self-flux method. mixture((Ca+R):FeAs = 1:4) - alumina crucible in silica tube - heat(1200C,8h) - cool to 980 C (2 C/h)" Evidence for defect-induced superconductivity up to 49 K in (Ca1-x Rx)Fe2As2 2016 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 93(2016)054513"
156160 PRB093054513 "(Ca,La)Fe2.075As1.970, Two-step SC-transition, lower Tc = 26.3 K. SP-heat (beta) = 0.66 mJ/mol.K4" "(Ca,La)Fe2As2" Ca0.857La0.143Fe2As2 Ca 0.857 La 0.143 Fe 2 As 2 3 2016 AB2C2 ThCr2Si2 Fe-122 K 44 44 20 mJ/mol.K2 31 SP "Fe(5N),As(6N),Ca(4N),Pr(3N),La(3N)" "self-flux method. mixture((Ca+R):FeAs = 1:4) - alumina crucible in silica tube - heat(1200C,8h) - cool to 980 C (2 C/h)" Evidence for defect-induced superconductivity up to 49 K in (Ca1-x Rx)Fe2As2 2016 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 93(2016)054513"
156161 PRB093054520 "RRR = 107. Hc2(0)=0.87T(//ab), = 0.24T(//c) for GL-approx. Hc2(0) = 0.53 T(//ab), = 0.17 T(//c) for WHH-approx. using (dHc2/dT). (dC/gamma*Tc) = 1.71." PbTaSe2 Pb1Ta1Se2 Pb 1 Ta 1 Se 2 3 2016 ABC2 P6[-]m2 K 3.8 3.8 Oe M-H curve. (1-t^2) approx. 90 T R(mid). T-sweep 1.25 0.32 0.2 T/K R(mid) 0.19 0.061 MHC156161 A from Hc2 162 mJ/mol.K2 6.01 SP 161 SP uOhm.cm 3.8 "CVD method. source zone(900C,PbTaSe2 powder), sink zone(800C) in three zone furnace for 1 week using PbCl2 agent." Superconducting properties in single crystals of the topological nodal semimetal PbTaSe2 2016 "International Center for Quantum Materials, School of Physics, Peking University, Beijing 100871, China" "Phys.Rev.B, 93(2016)054520"
156162 PRB093060506 RRR = 220. [penet] estimated using Hc1(0) = 120 A and [cohere] = 162 A PbTaSe2 Pb1Ta1Se2 Pb 1 Ta 1 Se 2 3 2016 ABC2 P6[-]m2 K 3.9 3.9 Oe M-H curve. (1-t^2) approx. 120 MHC156162 A from Hc2 162 A "from Hc1, cohere," 2040 uOhm.cm 0.14 CVD method Nodeless superconductivity in noncentrosymmetric PbTaSe2 single crystals 2016 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310058, China" "Phys.Rev.B, 93(2016)060506"
156163 PRB093064502 "nodal d-wave SC. [resn] = R(0), R(T) = R(0) + A*T for T < 4 K. (k0/T) = 1.22 mW/K2.cm , (k/T) = (k0/T) + A*T for T < 0.5 K." "(Ce,Yb)CoIn5" Ce0.987Yb0.013Co1In5 Ce 0.987 Yb 0.013 Co 1 In 5 3 2016 ABC5 HoCoGa5 K 2.13 2.13 T "R(mid), extrapolation" 5.4 MHC156163 mW/K.cm uOhm.cm 7.9 In-self flux method Universal heat conduction in Ce1-xYbxCoIn5: Evidence for robust nodal d-wave superconducting gap 2016 "State Key Laboratory of Surface Physics and Department of Physics, Fudan University, Shanghai 200433, People's Republic of China" "Phys.Rev.B, 93(2016)064502"
156164 PRB093064502 "nodal d-wave SC. [resn] = R(0), R(T) = R(0) + A*T for T < 4 K. (k0/T) = 1.19 mW/K2.cm , (k/T) = (k0/T) + A*T for T < 0.5 K." "(Ce,Yb)CoIn5" Ce0.916Yb0.084Co1In5 Ce 0.916 Yb 0.084 Co 1 In 5 3 2016 ABC5 HoCoGa5 K 1.84 1.84 T "R(mid), extrapolation" 5.2 MHC156163 mW/K.cm uOhm.cm 11.2 In-self flux method Universal heat conduction in Ce1-xYbxCoIn5: Evidence for robust nodal d-wave superconducting gap 2016 "State Key Laboratory of Surface Physics and Department of Physics, Fudan University, Shanghai 200433, People's Republic of China" "Phys.Rev.B, 93(2016)064502"
156165 PRB093064502 "nodal d-wave SC. [resn] = R(0), R(T) = R(0) + A*T for T < 4 K. (k0/T) = 1.08 mW/K2.cm , (k/T) = (k0/T) + A*T for T < 0.5 K." "(Ce,Yb)CoIn5" Ce0.837Yb0.163Co1In5 Ce 0.837 Yb 0.163 Co 1 In 5 3 2016 ABC5 HoCoGa5 K 1.4 1.4 T "R(mid), extrapolation" 5.1 MHC156163 mW/K.cm uOhm.cm 20.2 In-self flux method Universal heat conduction in Ce1-xYbxCoIn5: Evidence for robust nodal d-wave superconducting gap 2016 "State Key Laboratory of Surface Physics and Department of Physics, Fudan University, Shanghai 200433, People's Republic of China" "Phys.Rev.B, 93(2016)064502"
156166 PRB093064502 "nodal d-wave SC. (k0/T) = 1.03 mW/K2.cm , (k/T) = (k0/T) + A*T for T < 0.5 K." "CeCo(In,Cd)5" Ce1Co1In4.98Cd0.02 Ce 1 Co 1 In 4.98 Cd 0.02 3 2016 ABC5 HoCoGa5 K 2.14 2.14 mW/K.cm In-self flux method Universal heat conduction in Ce1-xYbxCoIn5: Evidence for robust nodal d-wave superconducting gap 2016 "State Key Laboratory of Surface Physics and Department of Physics, Fudan University, Shanghai 200433, People's Republic of China" "Phys.Rev.B, 93(2016)064502"
156167 PRB093064502 "nodal d-wave SC. (k0/T) = 0.90 mW/K2.cm , (k/T) = (k0/T) + A*T for T < 0.5 K." "CeCo(In,Cd)5" Ce1Co1In4.96Cd0.04 Ce 1 Co 1 In 4.96 Cd 0.04 3 2016 ABC5 HoCoGa5 K 2.05 2.05 mW/K.cm In-self flux method Universal heat conduction in Ce1-xYbxCoIn5: Evidence for robust nodal d-wave superconducting gap 2016 "State Key Laboratory of Surface Physics and Department of Physics, Fudan University, Shanghai 200433, People's Republic of China" "Phys.Rev.B, 93(2016)064502"
156168 PRB093064502 "nodal d-wave SC. (k0/T) = 0.93 mW/K2.cm , (k/T) = (k0/T) + A*T for T < 0.5 K." "CeCo(In,Cd)5" Ce1Co1In4.945Cd0.055 Ce 1 Co 1 In 4.945 Cd 0.055 3 2016 ABC5 HoCoGa5 K 1.92 1.92 mW/K.cm In-self flux method Universal heat conduction in Ce1-xYbxCoIn5: Evidence for robust nodal d-wave superconducting gap 2016 "State Key Laboratory of Surface Physics and Department of Physics, Fudan University, Shanghai 200433, People's Republic of China" "Phys.Rev.B, 93(2016)064502"
156170 PRB093064507 Compositions: Mo5P1.07B1.93. Mo5P0.9B2.1 Mo5P0.9B2.1 Mo 5 P 0.9 B 2.1 1 2016 AB2C5 I4/mcm A 5.9726 11.074 K 8.7 8.9 8.9 MHC156172 "Mo(5N),P(5N),B(2N5)" "mixture - react(1050C,16-24h) - press into pellet - heat(1100-1150 C,5days)" Superconductivity at 9 K in Mo5PB2 with evidence for multiple gaps 2016 "Materials Science and Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 93(2016)064507"
156171 PRB093064507 Compositions: Mo5P1.07B1.93. (dC/gamma*Tc) = 1.30 Mo5PB2 Mo5P1B2 Mo 5 P 1 B 2 1 2016 AB2C5 I4/mcm A 5.97303 11.076 K 8.8 8.7 8.7 T "R(zero),extrapolation" 1.7 MHC156172 mJ/mol.K2 24.56 SP 501 SP "Mo(5N),P(5N),B(2N5)" "mixture - react(1050C,16-24h) - press into pellet - heat(1100-1150 C,5days)" Superconductivity at 9 K in Mo5PB2 with evidence for multiple gaps 2016 "Materials Science and Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 93(2016)064507"
156172 PRB093064507 Compositions: Mo5P1.12B1.88. RRR = 11. (dC/gamma*Tc) = 1.39. Hc2(0) = 1.3 T using (dHc2/dT) and WHH theory. Mo5P1.1PB1.9 Mo5P1.1B1.9 Mo 5 P 1.1 B 1.9 1 2016 8.97 AB2C5 I4/mcm A 5.97633 11.0813 K 9.2 9.2 9.2 120 T "R(zero),extrapolation" 1.7 T/K R(zero) 0.21 mJ/mol.K2 24.96 SP 494 SP "Mo(5N),P(5N),B(2N5)" "mixture - react(1050C,16-24h) - press into pellet - heat(1100-1150 C,5days)" Superconductivity at 9 K in Mo5PB2 with evidence for multiple gaps 2016 "Materials Science and Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 93(2016)064507"
156173 PRB093064507 Tc = 5.5 K by SP measurements. Mo3P Mo3P1 Mo 3 P 1 1 2016 AB3 K 5.5 5.5 MSP156173 "Mo,P(red)" "mixture - het(850C, in silica) - reground - pellet - hat(1150C)" Superconductivity at 9 K in Mo5PB2 with evidence for multiple gaps 2016 "Materials Science and Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 93(2016)064507"
156174 PRB093085130 ZrB12 Zr1B12 Zr 1 B 12 3 2016 AB12 UB12 K 6.09 5.95 6.09 cm3/C -0.000256 9 MRH156174 grown by vertical crucible-free inductive floating zone melting in an inert gas atmosphere. Suppression of superconductivity in LuxZr1-xB12: Evidence of static magnetic moments induced by nonmagnetic impurities 2016 "A. M. Prokhorov General Physics Institute of RAS, 38 Vavilov Street, 119991 Moscow, Russia" "Phys.Rev.B, 93(2016)085130"
156175 PRB093085130 "(Zr,Lu)B12" Zr0.993Lu0.007B12 Zr 0.993 Lu 0.007 B 12 3 2016 myu-B/kOe 0.000023 AB12 UB12 K 5.97 5.54 5.97 grown by vertical crucible-free inductive floating zone melting in an inert gas atmosphere. Suppression of superconductivity in LuxZr1-xB12: Evidence of static magnetic moments induced by nonmagnetic impurities 2016 "A. M. Prokhorov General Physics Institute of RAS, 38 Vavilov Street, 119991 Moscow, Russia" "Phys.Rev.B, 93(2016)085130"
156176 PRB093085130 "(Zr,Lu)B12" Zr0.985Lu0.015B12 Zr 0.985 Lu 0.015 B 12 3 2016 myu-B/kOe -0.000044 AB12 UB12 K 5.67 5.67 MTC156176 cm3/C -0.00025 9 MRH156176 grown by vertical crucible-free inductive floating zone melting in an inert gas atmosphere. Suppression of superconductivity in LuxZr1-xB12: Evidence of static magnetic moments induced by nonmagnetic impurities 2016 "A. M. Prokhorov General Physics Institute of RAS, 38 Vavilov Street, 119991 Moscow, Russia" "Phys.Rev.B, 93(2016)085130"
156177 PRB093085130 "(Zr,Lu)B12" Zr0.984Lu0.016B12 Zr 0.984 Lu 0.016 B 12 3 2016 myu-B/kOe 0.000112 AB12 UB12 K 5.65 5.65 grown by vertical crucible-free inductive floating zone melting in an inert gas atmosphere. Suppression of superconductivity in LuxZr1-xB12: Evidence of static magnetic moments induced by nonmagnetic impurities 2016 "A. M. Prokhorov General Physics Institute of RAS, 38 Vavilov Street, 119991 Moscow, Russia" "Phys.Rev.B, 93(2016)085130"
156178 PRB093085130 "(Zr,Lu)B12" Zr0.935Lu0.065B12 Zr 0.935 Lu 0.065 B 12 3 2016 myu-B/kOe 0.000114 AB12 UB12 K 4.77 4.53 4.77 grown by vertical crucible-free inductive floating zone melting in an inert gas atmosphere. Suppression of superconductivity in LuxZr1-xB12: Evidence of static magnetic moments induced by nonmagnetic impurities 2016 "A. M. Prokhorov General Physics Institute of RAS, 38 Vavilov Street, 119991 Moscow, Russia" "Phys.Rev.B, 93(2016)085130"
156179 PRB093085130 "(Zr,Lu)B12" Zr0.926Lu0.074B12 Zr 0.926 Lu 0.074 B 12 3 2016 myu-B/kOe 0.000033 AB12 UB12 K 4.78 4.54 4.78 grown by vertical crucible-free inductive floating zone melting in an inert gas atmosphere. Suppression of superconductivity in LuxZr1-xB12: Evidence of static magnetic moments induced by nonmagnetic impurities 2016 "A. M. Prokhorov General Physics Institute of RAS, 38 Vavilov Street, 119991 Moscow, Russia" "Phys.Rev.B, 93(2016)085130"
156180 PRB093094511 "P-induced SC. Tc(max) = 8.6 K at P=14.5 GPa), Phase-I (hexagonal, P<7 GPa), phase-II(intermediate phase) and phase-III (bcc, complete for P>17 GPa.). (dtc/dP) at P=14.5 GPa" Bi2Te Bi2Te1 Bi 2 Te 1 3 2016 AB2 A 3.747 "P=8.8 GPa.. III-phase, bcc" K 8.6 0 8.6 MTC156180 K/GPa -0.34 T "R(mid), WHH, P=14.5 GPa" 1.94 2.12 1.36 MHC156180 cm3/C MRH156180 "Bi(5N),Te(5N)" "(Bi:Te = 88:12) - in alumina crucible - sealed in quartz tube(Ar) - melt(420C,2 days) - cool to 318 C, over 4 days)" Superconducting Bi2Te: Pressure-induced universality in the (Bi2)m(Bi2Te3)n series 2016 "Materials Science Division, Lawrence Livermore National Laboratory, Livermore, California 94550, USA" "Phys.Rev.B, 93(2016)094511"
156182 PRB093104507 "R(T) = R0 + A*T^2, R0=1.93 uOhm.cm, A = 4.94 uOhm.cm/K2 for Tc^2 < T^2 < 250." PrPt4Ge12 Pr1Pt4Ge12 Pr 1 Pt 4 Ge 12 1 2016 myu-B/Pr 3.65 7.26 AB4C12 skutterudite A 8.8102 K 7.85 7.85 mJ/mol.K2 104.4 SP 238 SP uOhm.cm 1.93 "PR(3N),Pt(6N),Ge(6N),Sb(2N)" "arc-melting - ANN (750C,336h, in sealed quartz ampoule (Ar))" Investigation of superconducting and normal-state properties of the filled-skutterudite system PrPt4Ge12-xSbx 2016 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 93(2016)104507"
156183 PRB093104507 "R(T) = R0 + A*T^2, R0=28.3 uOhm.cm, A = 2.44 uOhm.cm/K2 for Tc^2 < T^2 < 250. Energy gap d, (d/Tc) = 1.3 from SP" "PrPt4(Ge,Sb)12" Pr1Pt4Ge11.5Sb0.5 Pr 1 Pt 4 Ge 11.5 Sb 0.5 1 2016 myu-B/Pr 3.6 -11 AB4C12 skutterudite A 8.6479 K 4.43 4.43 T "R(mid), WHH" 1.16 T/K R(mid) 0.39 MHC156183 mJ/mol.K2 46.1 SP 244 SP uOhm.cm 28.3 "PR(3N),Pt(6N),Ge(6N),Sb(2N)" "arc-melting - ANN (750C,336h, in sealed quartz ampoule (Ar))" Investigation of superconducting and normal-state properties of the filled-skutterudite system PrPt4Ge12-xSbx 2016 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 93(2016)104507"
156184 PRB093104507 "R(T) = R0 + A*T^2, R0=71.9 uOhm.cm, A = 2.17 uOhm.cm/K2 for Tc^2 < T^2 < 250." "PrPt4(Ge,Sb)12" Pr1Pt4Ge11Sb1 Pr 1 Pt 4 Ge 11 Sb 1 1 2016 myu-B/Pr 3.48 -17.7 AB4C12 skutterudite A 8.6756 K 2.68 2.68 MTC156184 T "R(mid), WHH" 0.61 T/K R(mid) 0.39 MHC156183 mJ/mol.K2 33.4 SP 250 SP uOhm.cm 71.9 "PR(3N),Pt(6N),Ge(6N),Sb(2N)" "arc-melting - ANN (750C,336h, in sealed quartz ampoule (Ar))" Investigation of superconducting and normal-state properties of the filled-skutterudite system PrPt4Ge12-xSbx 2016 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 93(2016)104507"
156185 PRB093104507 "R(T) = R0 + A*T^2, R0=62.4 uOhm.cm, A = 3.80 uOhm.cm/K2 for Tc^2 < T^2 < 250." "PrPt4(Ge,Sb)12" Pr1Pt4Ge10.5Sb1.5 Pr 1 Pt 4 Ge 10.5 Sb 1.5 1 2016 myu-B/Pr 3.63 -15.4 AB4C12 skutterudite A 8.6849 K 1.71 1.71 T "R(mid), WHH" 0.53 T/K R(mid) 0.39 MHC156183 uOhm.cm 62.4 "PR(3N),Pt(6N),Ge(6N),Sb(2N)" "arc-melting - ANN (750C,336h, in sealed quartz ampoule (Ar))" Investigation of superconducting and normal-state properties of the filled-skutterudite system PrPt4Ge12-xSbx 2016 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 93(2016)104507"
156186 PRB093104507 "R(T) = R0 + A*T^2, R0=143 uOhm.cm, A = 5.29 uOhm.cm/K2 for Tc^2 < T^2 < 250." "PrPt4(Ge,Sb)12" Pr1Pt4Ge10Sb2 Pr 1 Pt 4 Ge 10 Sb 2 1 2016 myu-B/Pr 3.32 -3.82 AB4C12 skutterudite A 8.7472 K 1.27 1.27 T "R(mid), WHH" 0.35 T/K R(mid) 0.39 MHC156183 mJ/mol.K2 10.9 SP 251 SP uOhm.cm 143 "PR(3N),Pt(6N),Ge(6N),Sb(2N)" "arc-melting - ANN (750C,336h, in sealed quartz ampoule (Ar))" Investigation of superconducting and normal-state properties of the filled-skutterudite system PrPt4Ge12-xSbx 2016 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 93(2016)104507"
156187 PRB093104507 "R(T) = R0 + A*T^2, R0=177 uOhm.cm, A = 1.82 uOhm.cm/K2 for Tc^2 < T^2 < 250." "PrPt4(Ge,Sb)12" Pr1Pt4Ge9.5Sb2.5 Pr 1 Pt 4 Ge 9.5 Sb 2.5 1 2016 myu-B/Pr 3.53 -11.7 AB4C12 skutterudite A 8.7571 K 0.69 0.69 T "R(mid), WHH" 0.15 T/K R(mid) 0.39 MHC156183 mJ/mol.K2 2.4 SP 252 SP uOhm.cm 177 "PR(3N),Pt(6N),Ge(6N),Sb(2N)" "arc-melting - ANN (750C,336h, in sealed quartz ampoule (Ar))" Investigation of superconducting and normal-state properties of the filled-skutterudite system PrPt4Ge12-xSbx 2016 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 93(2016)104507"
156188 PRB093104507 "PrPt4(Ge,Sb)12" Pr1Pt4Ge9Sb3 Pr 1 Pt 4 Ge 9 Sb 3 1 2016 myu-B/Pr 3.34 -2.88 AB4C12 skutterudite A 8.7918 K 1.4 1.4 mJ/mol.K2 0.594 SP 256 SP "PR(3N),Pt(6N),Ge(6N),Sb(2N)" "arc-melting - ANN (750C,336h, in sealed quartz ampoule (Ar))" Investigation of superconducting and normal-state properties of the filled-skutterudite system PrPt4Ge12-xSbx 2016 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 93(2016)104507"
156189 PRB093104507 "Major = PtSb4, minor = PrPtGe7Sb5. R(T) = R0 + A*T^2, R0=114.6 uOhm.cm, A = 10.9 uOhm.cm/K2 for Tc^2 < T^2 < 250." "PrPt4(Ge,Sb)12" Pr1Pt4Ge8Sb4 Pr 1 Pt 4 Ge 8 Sb 4 2 2016 myu-B/Pr 3.79 -24.9 AB4C12 skutterudite A 8.8602 K 1.4 1.4 mJ/mol.K2 46.9 SP 262 SP uOhm.cm 114.6 "PR(3N),Pt(6N),Ge(6N),Sb(2N)" "arc-melting - ANN (750C,336h, in sealed quartz ampoule (Ar))" Investigation of superconducting and normal-state properties of the filled-skutterudite system PrPt4Ge12-xSbx 2016 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 93(2016)104507"
156190 PRB093104507 "Major = PtSb4, minor = PrPtGe7Sb5. R(T) = R0 + A*T^2, R0=216.6 uOhm.cm, A = 30.5 uOhm.cm/K2 for Tc^2 < T^2 < 250." "PrPt4(Ge,Sb)12" Pr1Pt4Ge7Sb5 Pr 1 Pt 4 Ge 7 Sb 5 2 2016 AB4C12 skutterudite A 8.9028 K 1.4 mJ/mol.K2 182 SP 267 SP uOhm.cm 216.6 "PR(3N),Pt(6N),Ge(6N),Sb(2N)" "arc-melting - ANN (750C,336h, in sealed quartz ampoule (Ar))" Investigation of superconducting and normal-state properties of the filled-skutterudite system PrPt4Ge12-xSbx 2016 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 93(2016)104507"
156191 PRB093104516 "resistivity, Hall effect, specific heat, Nernst and Seebeck coefficient were measured up to 5.5 GPa." "(Ba,K)Fe2As2" Ba0.85K0.15Fe2As2 Ba 0.85 K 0.15 Fe 2 As 2 3 2016 AB2C2 ThCr2Si2 Fe-122 K 10 14 12 MPH156191 "self-flux method. (Ba,K,FeAs) in Al2O3 crucible - sealed in steel container - heat (1151 C) - slow cool to 1051 C(0.2-0.5 C/h)" Absence of nematic order in the pressure-induced intermediate phase of the iron-based superconductor Ba0.85K0.15Fe2As2 2016 "Department of Physics, The Hong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong Kong, China" "Phys.Rev.B, 93(2016)104516"
156192 SST028015008 "nominal=Bi2O3S2.2. 89%-Bi(O,F)BiS2 phase" BiOBiS2 Bi2.14S2O1 Bi 2.14 S 2 O 1 1 2015 ABCD2 I4/nmm A 3.9744 13.7497 BiS2 layer SC. K 2 "Bi2O3(4N),S(2N5),Bi(2N5),BiF3(2N)" "mixture - pellet - sealed in quartz tube - heat(430C,2h) - Q to ice water - reground - pellet -ANN(430C,15h) - q to ice water" Superconductivity in BiO1-xFxBiS2 and possible parent phase of Bi4O4S3 superconductor 2015 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People?s Republic of China" "Supercond.Sci.Technol., 28(2015)015008"
156193 SST028015008 "nominal=Bi2(O0.94F0.06)3S2.2. 90%-Bi(O,F)BiS2 phase" "Bi(O,F)BiS2" Bi2.13F0.17S2O0.83 Bi 2.13 F 0.17 S 2 O 0.83 1 2015 ABCD2 I4/nmm A 3.97688 13.7114 BiS2 layer SC. K 3.2 3.2 "Bi2O3(4N),S(2N5),Bi(2N5),BiF3(2N)" "mixture - pellet - sealed in quartz tube - heat(430C,2h) - Q to ice water - reground - pellet -ANN(430C,15h) - q to ice water" Superconductivity in BiO1-xFxBiS2 and possible parent phase of Bi4O4S3 superconductor 2015 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People?s Republic of China" "Supercond.Sci.Technol., 28(2015)015008"
156194 SST028015008 "nominal=Bi2(O0.9F0.1)3S2.2. 89%-Bi(O,F)BiS2 phase" "Bi(O,F)BiS2" Bi2.14F0.27S2O0.73 Bi 2.14 F 0.27 S 2 O 0.73 1 2015 ABCD2 I4/nmm A 3.9642 13.6961 BiS2 layer SC. K 2.7 2.7 "Bi2O3(4N),S(2N5),Bi(2N5),BiF3(2N)" "mixture - pellet - sealed in quartz tube - heat(430C,2h) - Q to ice water - reground - pellet -ANN(430C,15h) - q to ice water" Superconductivity in BiO1-xFxBiS2 and possible parent phase of Bi4O4S3 superconductor 2015 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People?s Republic of China" "Supercond.Sci.Technol., 28(2015)015008"
156195 SST028015008 nominal=Bi2(O0.91F0.09)3S2.2. Hc1(0) and Hc2(0) from Hc1(2K) and Hc2(2K) using GL eq. GL-parameter = 9.6 "Bi(O,F)BiS2" Bi2.14F0.24S2O0.76 Bi 2.14 F 0.24 S 2 O 0.76 1 2015 ABCD2 I4/nmm BiS2 layer SC. K 3.5 3.5 MTC156195 mT "M-H, GL approx." 2.22 1.44 2 T "R(on), GL approx." 0.178 0.115 2 A from Hc2 429 A 4120 "Bi2O3(4N),S(2N5),Bi(2N5),BiF3(2N)" "mixture - pellet - sealed in quartz tube - heat(430C,2h) - Q to ice water - reground - pellet -ANN(430C,15h) - q to ice water" Superconductivity in BiO1-xFxBiS2 and possible parent phase of Bi4O4S3 superconductor 2015 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, People?s Republic of China" "Supercond.Sci.Technol., 28(2015)015008"
156196 PRB093064504 delta-[penet](T) measured by TDO(tunnel diode oscilator). Energi gap from penetration depth analysis. SrPtAs Sr1Pt1As1 Sr 1 Pt 1 As 1 1 2016 ABC KZnAs K 2.45 2.45 A TDO 3390 3 High-resolution magnetic penetration depth and inhomogeneities in locally noncentrosymmetric SrPtAs 2016 "Centro de Fisica, Instituto Venezolano de Investigaciones Cientificas, Apartado 20632, Caracas 1020-A, Venezuela" "Phys.Rev.B, 93(2016)064504"
156197 PRB087180503 disk shaped pellet (12 mm dia.). [penet] measured by muon-SR using Brandt's eq. SrPtAs Sr1Pt1As1 Sr 1 Pt 1 As 1 1 2013 ABC KZnAs K 2.45 2.45 A muon-SR 339 Evidence for superconductivity with broken time-reversal symmetry in locally noncentrosymmetric SrPtAs 2013 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 87(2013)180503"
156198 PRB087180503 powder sample. [penet] measured by muon-SR using Brandt's eq. SrPtAs Sr1Pt1As1 Sr 1 Pt 1 As 1 1 2013 ABC KZnAs K 2.45 2.45 A muon-SR 239 Evidence for superconductivity with broken time-reversal symmetry in locally noncentrosymmetric SrPtAs 2013 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 87(2013)180503"
156200 STAM014035003 8 fu in unit cell. not SC SrRh2B2 Sr1Rh2B2 Sr 1 Rh 2 B 2 1 2013 AB2C2 Fddd A 5.9826 9.3906 10.6682 K 1.8 "solid state reaction using BN or Ta crucible. as-prepared samples - ANN(850C,18-20h, in Ta crucible" "Probing the electronic properties of ternary AnM3n-1B2n (n = 1: A = Ca, Sr; M= Rh, Ir and n = 3: A = Ca, Sr;M= Rh) phases: observation of superconductivity" 2013 "National Institute for Materials Science,1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Sci. Technol. Adv. Mater., 14 (2013) 035003"
156201 STAM014035003 8 fu in unit cell. not SC. SP fitting for 2 < T < 10K. SrIr2B3 Sr1Ir2B2 Sr 1 Ir 2 B 2 1 2013 AB2C2 Fddd A 6.0221 9.3983 10.7123 K 1.8 mJ/mol.K2 3.1 SP 282 SP "solid state reaction using BN or Ta crucible. as-prepared samples - ANN(850C,18-20h, in Ta crucible" "Probing the electronic properties of ternary AnM3n-1B2n (n = 1: A = Ca, Sr; M= Rh, Ir and n = 3: A = Ca, Sr;M= Rh) phases: observation of superconductivity" 2013 "National Institute for Materials Science,1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Sci. Technol. Adv. Mater., 14 (2013) 035003"
156202 STAM014035003 4 fu in unit cell. SP fitting for 2 < T < 10K. Hc2(0) = 0.385 T using quadratic T-dependency Sr3Rh8B6 Sr3Rh8B6 Sr 3 Rh 8 B 6 1 2013 A3B6C8 Fmmm 69 A 5.5655 9.9042 17.1186 K 3.4 3.4 T "R(onset), WHH" 0.27 MHC156202 mJ/mol.K2 19 SP 325 SP "solid state reaction using BN or Ta crucible. as-prepared samples - ANN(850C,18-20h, in Ta crucible" "Probing the electronic properties of ternary AnM3n-1B2n (n = 1: A = Ca, Sr; M= Rh, Ir and n = 3: A = Ca, Sr;M= Rh) phases: observation of superconductivity" 2013 "National Institute for Materials Science,1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Sci. Technol. Adv. Mater., 14 (2013) 035003"
156203 STAM014035003 8 fu in unit cell. not SC CaIr2B2 Ca1Ir2B2 Ca 1 Ir 2 B 2 1 2013 AB2C2 Fddd A 5.8741 9.2544 10.7267 K 1.8 mJ/mol.K2 3.1 SP 298 SP "solid state reaction using BN or Ta crucible. as-prepared samples - ANN(850C,18-20h, in Ta crucible" "Probing the electronic properties of ternary AnM3n-1B2n (n = 1: A = Ca, Sr; M= Rh, Ir and n = 3: A = Ca, Sr;M= Rh) phases: observation of superconductivity" 2013 "National Institute for Materials Science,1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Sci. Technol. Adv. Mater., 14 (2013) 035003"
156204 STAM014035003 8 fu in unit cell. not SC CaRh2B2 Ca1Rh2B2 Ca 1 Rh 2 B 2 1 2013 AB2C2 Fddd A 5.8396 9.2535 10.6071 K 1.8 mJ/mol.K2 3.4 SP 350 SP "solid state reaction using BN or Ta crucible. as-prepared samples - ANN(850C,18-20h, in Ta crucible" "Probing the electronic properties of ternary AnM3n-1B2n (n = 1: A = Ca, Sr; M= Rh, Ir and n = 3: A = Ca, Sr;M= Rh) phases: observation of superconductivity" 2013 "National Institute for Materials Science,1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Sci. Technol. Adv. Mater., 14 (2013) 035003"
156205 STAM014035003 "4 fu in unit cell. Impurity phase = CaRh2(Tc=6.4 K), unidentified phase (Tc=8.7 K). SP fitting for 2 < T < 10K. Hc2(0) = 1.2 T using quadratic T-dependency" Ca3Rh8B6 Ca3Rh8B2 Ca 3 Rh 8 B 2 2013 A3B6C8 Fmmm 69 A 5.4872 9.7035 16.9683 K 4 4 T "R(onset), WHH" 1 MHC156205 mJ/mol.K2 14 SP 325 SP "solid state reaction using BN or Ta crucible. as-prepared samples - ANN(850C,18-20h, in Ta crucible" "Probing the electronic properties of ternary AnM3n-1B2n (n = 1: A = Ca, Sr; M= Rh, Ir and n = 3: A = Ca, Sr;M= Rh) phases: observation of superconductivity" 2013 "National Institute for Materials Science,1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Sci. Technol. Adv. Mater., 14 (2013) 035003"
156206 PROC2007 4 fu in unit cell. not SC SC data from ref.22 in STAM014035003 Y3Os8B6 Y3Os8B6 Y 3 Os 8 B 6 2007 A3B6C8 Fmmm 69 K 5.8 5.8 T 2 "solid state reaction using BN or Ta crucible. as-prepared samples - ANN(850C,18-20h, in Ta crucible" Superconductivity in the new Y3Os8B6 boride 2007 "Proc. Actinides(sesmbra,Portugal (2007)"
156207 PRL108116402 T = 262 K. IrTe2 Ir1Te2 Ir 1 Te 2 1 2012 CdI2 P3[-]m1 K 0.32 "Ir(3N5),Te(4N),Pd(4N)" "mixture - pellet - sealed in quartz tube - SIN(1000C,15h) - FC to RT - repeat twice with intermediate grinding" Charge-Orbital Density Wave and Superconductivity in the Strong Spin-Orbit Coupled IrTe2:Pd 2012 "Laboratory for Pohang Emergent Materials, Pohang University of Science and Technology, Pohang 790-784, Korea" "Phys.Rev.Lett., 108(2012)116402"
156208 PRL108116402 Pd-intercalated between IrTe2 layers. T = 187 K. PdxIrTe2 Pd0.02Ir1Te2 Pd 0.02 Ir 1 Te 2 1 2012 K 2.15 2.15 "Ir(3N5),Te(4N),Pd(4N)" "mixture - pellet - sealed in quartz tube - SIN(1000C,15h) - FC to RT - repeat twice with intermediate grinding" Charge-Orbital Density Wave and Superconductivity in the Strong Spin-Orbit Coupled IrTe2:Pd 2012 "Laboratory for Pohang Emergent Materials, Pohang University of Science and Technology, Pohang 790-784, Korea" "Phys.Rev.Lett., 108(2012)116402"
156209 PRL108116402 Pd-intercalated between IrTe2 layers. T = (70 -150) K. GL-parameter (kappa) = 1.53 calculated from M-H curve. PdxIrTe2 Pd0.03Ir1Te2 Pd 0.03 Ir 1 Te 2 1 2012 K 2.68 2.68 MTC156209 "Ir(3N5),Te(4N),Pd(4N)" "mixture - pellet - sealed in quartz tube - SIN(1000C,15h) - FC to RT - repeat twice with intermediate grinding" Charge-Orbital Density Wave and Superconductivity in the Strong Spin-Orbit Coupled IrTe2:Pd 2012 "Laboratory for Pohang Emergent Materials, Pohang University of Science and Technology, Pohang 790-784, Korea" "Phys.Rev.Lett., 108(2012)116402"
156210 PRL108116402 Ir in IrTe2 layer replaced by Pd. T = 235 K. PdxIr1-xTe2 Pd0.01Ir0.99Te2 Pd 0.01 Ir 0.99 Te 2 1 2012 AB2 K 1.8 "Ir(3N5),Te(4N),Pd(4N)" "mixture - pellet - sealed in quartz tube - SIN(1000C,15h) - FC to RT - repeat twice with intermediate grinding" Charge-Orbital Density Wave and Superconductivity in the Strong Spin-Orbit Coupled IrTe2:Pd 2012 "Laboratory for Pohang Emergent Materials, Pohang University of Science and Technology, Pohang 790-784, Korea" "Phys.Rev.Lett., 108(2012)116402"
156211 PRL108116402 Ir in IrTe2 layer replaced by Pd. T = 176 K. PdxIr1-xTe2 Pd0.03Ir0.97Te2 Pd 0.03 Ir 0.97 Te 2 1 2012 AB2 K 2.7 2.7 "Ir(3N5),Te(4N),Pd(4N)" "mixture - pellet - sealed in quartz tube - SIN(1000C,15h) - FC to RT - repeat twice with intermediate grinding" Charge-Orbital Density Wave and Superconductivity in the Strong Spin-Orbit Coupled IrTe2:Pd 2012 "Laboratory for Pohang Emergent Materials, Pohang University of Science and Technology, Pohang 790-784, Korea" "Phys.Rev.Lett., 108(2012)116402"
156212 PRL108116402 Ir in IrTe2 layer replaced by Pd. GL-parameter (kappa) = 1.50 calculated from M-H curve. PdxIr1-xTe2 Pd0.04Ir0.96Te2 Pd 0.04 Ir 0.96 Te 2 1 2012 AB2 K 2.99 2.99 MTC156209 "Ir(3N5),Te(4N),Pd(4N)" "mixture - pellet - sealed in quartz tube - SIN(1000C,15h) - FC to RT - repeat twice with intermediate grinding" Charge-Orbital Density Wave and Superconductivity in the Strong Spin-Orbit Coupled IrTe2:Pd 2012 "Laboratory for Pohang Emergent Materials, Pohang University of Science and Technology, Pohang 790-784, Korea" "Phys.Rev.Lett., 108(2012)116402"
156213 PRL116127001 (97.5-99.5) % phase pure samples. RRR = 211. R(T) = R0 + A*T^(3/2). bulk-SC confirmed by SP and SUS. YFe2Ge2 Y1Fe2Ge2 Y 1 Fe 2 Ge 2 1 2016 AB2C2 A 3.964 10.457 K 1.83 1.83 MTC156213 T "R(mid), WHH" 2.24 T/K R(mid) 1.75 MHC156213 A from Hc2 120 mJ/mol.K2 100 SP "melt by induction furnace. (YFe2 + Ge) - melt - quench - ANN(1250C,1h) - ANN(800C, 8 days)" Unconventional Superconductivity in the Layered Iron Germanide YFe2Ge2 2016 "Cavendish Laboratory, University of Cambridge, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett., 116(2016)127001"
156300 ACS13514540 not SC. carrier n = 6.93E+19 /cm3 at 5 K. CsBi4Te6 Cs1Bi4Te6 Cs 1 Bi 4 Te 6 2013 AB4C6 4 C2/m A 51.9205 4.4025 14.5118 monoclinic. beta = 101.480 deg. K 2 "react(Bi2Te3 + Cs vapor, at 670C) - slow cooling - needle like crystals - cleaved samples" Superconductivity in the Narrow-Gap Semiconductor CsBi4Te6 2013 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439, United States" "J.Am.Chem.Soc., 135(2013)14540"
156301 ACS13514540 p-type semicond. n = 0.96E+19 /cm3 at 5 K. Hc2(0) = 9.7 T using GL approx. Cs0.96Bi4Te6 Cs0.96Bi4Te6 Cs 0.96 Bi 4 Te 6 2013 AB4C6 4 C2/m monoclinic K 4.4 4.4 14 T "RES(0.9Rn),WHH" 8.2 MHC156301 "react(Bi2Te3 + Cs vapor, at 670C) - slow cooling - needle like crystals - cleaved samples" Superconductivity in the Narrow-Gap Semiconductor CsBi4Te6 2013 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439, United States" "J.Am.Chem.Soc., 135(2013)14540"
156302 ACS13514540 p-type semicond. n = 1.21E+19 /cm3 at 5 K. CsBi4.1Te65.9 Cs1Bi4.1Te5.9 Cs 1 Bi 4.1 Te 5.9 2013 AB4C6 4 C2/m monoclinic K 4.4 4.4 20 "react(Bi2Te3 + Cs vapor, at 670C) - slow cooling - needle like crystals - cleaved samples" Superconductivity in the Narrow-Gap Semiconductor CsBi4Te6 2013 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439, United States" "J.Am.Chem.Soc., 135(2013)14540"
156303 EPL10837010 "RRR = 1.31. d[penet](T) measured by TDO and ARPES. As a fitting parameter, [penet] = 8320 A and energy gap are obtained.. Jc(H=0,T=2K) = 3.4E+2 A/cm2" "(Sn,In)Te" Sn0.5In0.5Te1 Sn 0.5 In 0.5 Te 1 3 2014 AB NaCl Fm3m A 6.265 K 4.3 4.5 0.2 4.4 mT M -H curve 1 2 T "RES(0.9Rn),WHH" 1.6 T/K RES(0.9Rn) 0.496 MHC156303 A from Hc2 143.5 A "from Hc1, GL eq." 8530 meV 1.247 6.4 mOhm.cm 0.67 0.88 "Sn(4N),Te(5N),In(5N)" "melt(900C,5days, in quartz tube) - slow cool to 770C over72 h - ANN(770C, 48h) - cool to RT" Superconducting properties of indium-doped topological crystalline insulator SnTe 2014 "School of Physical Sciences, Jawaharlal Nehru University - New Delhi, India" "EuroPhys.Lett., 108(2014)37010"
156304 JAP0483998 single crystals Nb5Ge3 Ge3Nb5 Ge 3 Nb 5 3 1977 A3B5 I4/mcm A 10.146 5.136 K 0.32 0.46 0.59 0.46 single crystals produced by peritectic melting Superconductivity of Nb5Ge3 1977 "Physics Department, Chalmers University of Technology, Fack, S-402 20 Goreborg 5, Sweden" "J.Appl.Phys., 48(1977)3998"
156305 JAP0483998 poly crystals with large single crystals Nb5Ge3 Ge3Nb5 Ge 3 Nb 5 1 1977 A3B5 K 0.33 0.45 1 0.45 single crystals produced by peritectic melting Superconductivity of Nb5Ge3 1977 "Physics Department, Chalmers University of Technology, Fack, S-402 20 Goreborg 5, Sweden" "J.Appl.Phys., 48(1977)3998"
156306 JPCONF391012090 RRR = 6.5. Impurity phase = WSi2.Solution limit x = 0.2 in W5-xTaxSiB2. "(W,Ta)5SiB2" W4.8Ta0.2Si1B2 W 4.8 Ta 0.2 Si 1 B 2 1 2012 AB2C5 Mo5SiB2 I4/mcm 140 T2 phase. Mo5SiB2-type K 6.4 6.6 6.5 0.15 6.5 15 See J.Phys.Soc.Jpn 80(2011)024702 Substitution effect on the superconductivity in W5-xTaxSiB2 with the T2 phase structure 2012 "Department of Physics and Mathematics, Aoyama Gakuin University, Fuchinobe 5-10-1, Chuo-ku, Sagamihara-shi, Kanagawa 252-5258, Japan" "J.Phys. Conf. Ser., 391(2012)012090"
156307 JPS0683074 "Tc defined as R(ab) = 0. (dTc/dP) = 1.7 K/GPa at P = 0 (ortho-), = -0.3 K/GPa at Pc ( = 3.3 GPa (tetragonal)" "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 3 1999 T K 22.9 22.9 MTC156307 K/GPa 1.7 "Single crystals grown by TSFZ method. - ANN ((915C,50h) + (500C,50h), in flowing O2)" Reduction of Superconducting Transition Temperature due to Orthorhombic Distortion in La2-xSrxCuO4 1999 "Department of Quantum Matter, ADSM, Hiroshima University, Higashi-Hiroshima 739-8526" "J.Phys.Soc.Jpn, 68(1999)3074"
156308 JPS0683074 "Tc defined as R(c) = 0 (dTc/dP) = 0.8 K/GPa at P = 0 (ortho-), = -3.0 K/GPa at Pc ( = 3.3 GPa (tetragonal)" "(La,Sr)2CuO4" La1.9Sr0.1Cu1O4 La 1.9 Sr 0.1 Cu 1 O 4 3 1999 T K 22.9 22.9 MTC156307 K/GPa -0.8 "Single crystals grown by TSFZ method. - ANN ((915C,50h) + (500C,50h), in flowing O2)" Reduction of Superconducting Transition Temperature due to Orthorhombic Distortion in La2-xSrxCuO4 1999 "Department of Quantum Matter, ADSM, Hiroshima University, Higashi-Hiroshima 739-8526" "J.Phys.Soc.Jpn, 68(1999)3074"
156309 JPS0683074 "Tc defined as R(ab) = 0 (dTc/dP) = 3.0 K/GPa at P = 0 (ortho-), = 0.0 K/GPa at Pc ( = 1.6 GPa (tetragonal)" "(La,Sr)2CuO4" La1.855Sr0.145Cu1O4 La 1.855 Sr 0.145 Cu 1 O 4 3 1999 T K 32.2 32.2 MTC156309 K/GPa 3 "Single crystals grown by TSFZ method. - ANN ((915C,50h) + (500C,50h), in flowing O2)" Reduction of Superconducting Transition Temperature due to Orthorhombic Distortion in La2-xSrxCuO4 1999 "Department of Quantum Matter, ADSM, Hiroshima University, Higashi-Hiroshima 739-8526" "J.Phys.Soc.Jpn, 68(1999)3074"
156310 JPS0683074 "Tc defined as R(c) = 0 (dTc/dP) = -0.5 K/GPa at P = 0 (ortho-), = -4.4 K/GPa at Pc ( = 1.6 GPa (tetragonal)" "(La,Sr)2CuO4" La1.855Sr0.145Cu1O4 La 1.855 Sr 0.145 Cu 1 O 4 3 1999 T K 32.2 32.2 MTC156309 K/GPa -0.5 "Single crystals grown by TSFZ method. - ANN ((915C,50h) + (500C,50h), in flowing O2)" Reduction of Superconducting Transition Temperature due to Orthorhombic Distortion in La2-xSrxCuO4 1999 "Department of Quantum Matter, ADSM, Hiroshima University, Higashi-Hiroshima 739-8526" "J.Phys.Soc.Jpn, 68(1999)3074"
156311 JPS078114712 (dC/gamma*Tc) = 0.32 LaFePO La1Fe1P1O1 La 1 Fe 1 P 1 O 1 1 2009 ABCD oxypnictide 3.956 8.4942 Fe-1111 K 5.8 5.8 T "RES(0.95Rn), extrapolation" 7 1 MHC156311 m3/C -3.99E-09 MRH156311 "Fe,Fe2O3,LaF3,P,LaP" "mixture - pressed into pellet - ANN(1100C,40h, in silica tube)" Systematic Study on Fluorine-Doping Dependence of Superconducting and Normal State Properties in LaFePO1-xFx 2009 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043 2JST, TRIP, Chiyoda, Tokyo 102-0075" "J.Phys.Soc.Jpn, 78(2009)114712"
156312 JPS078114712 (dC/gamma*Tc) = 0.42 "LaFeP(O,F)" La1Fe1P1F0.03O0.97 La 1 Fe 1 P 1 F 0.03 O 0.97 1 2009 ABCD oxypnictide 3.9545 8.4909 Fe-1111 K 7.8 7.8 MHC156312 m3/C -3.81E-09 MRH156311 "Fe,Fe2O3,LaF3,P,LaP" "mixture - pressed into pellet - ANN(1100C,40h, in silica tube)" Systematic Study on Fluorine-Doping Dependence of Superconducting and Normal State Properties in LaFePO1-xFx 2009 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043 2JST, TRIP, Chiyoda, Tokyo 102-0075" "J.Phys.Soc.Jpn, 78(2009)114712"
156313 JPS078114712 (dC/gamma*Tc) = 0.46 "LaFeP(O,F)" La1Fe1P1F0.05O0.95 La 1 Fe 1 P 1 F 0.05 O 0.95 1 2009 ABCD oxypnictide 3.955 8.4919 Fe-1111 K 8 8 MHC156313 m3/C -3.72E-09 MRH156311 "Fe,Fe2O3,LaF3,P,LaP" "mixture - pressed into pellet - ANN(1100C,40h, in silica tube)" Systematic Study on Fluorine-Doping Dependence of Superconducting and Normal State Properties in LaFePO1-xFx 2009 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043 2JST, TRIP, Chiyoda, Tokyo 102-0075" "J.Phys.Soc.Jpn, 78(2009)114712"
156314 JPS078114712 "LaFeP(O,F)" La1Fe1P1F0.08O0.92 La 1 Fe 1 P 1 F 0.08 O 0.92 1 2009 ABCD oxypnictide 3.954 8.4939 Fe-1111 K 7.8 7.8 "Fe,Fe2O3,LaF3,P,LaP" "mixture - pressed into pellet - ANN(1100C,40h, in silica tube)" Systematic Study on Fluorine-Doping Dependence of Superconducting and Normal State Properties in LaFePO1-xFx 2009 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043 2JST, TRIP, Chiyoda, Tokyo 102-0075" "J.Phys.Soc.Jpn, 78(2009)114712"
156315 JPS078114712 "LaFeP(O,F)" La1Fe1P1F0.1O0.9 La 1 Fe 1 P 1 F 0.1 O 0.9 1 2009 ABCD oxypnictide 3.9531 8.496 Fe-1111 K 62 62 "Fe,Fe2O3,LaF3,P,LaP" "mixture - pressed into pellet - ANN(1100C,40h, in silica tube)" Systematic Study on Fluorine-Doping Dependence of Superconducting and Normal State Properties in LaFePO1-xFx 2009 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043 2JST, TRIP, Chiyoda, Tokyo 102-0075" "J.Phys.Soc.Jpn, 78(2009)114712"
156316 JPS079103703 Fe-As-Fe(in plane) angle = 112.3 deg. energy gap measured by NMR. Y(3+) substitution does not change the doping level. "(La,Y)FeAsO0.7" La0.8Y0.2Fe1As1O0.7 La 0.8 Y 0.2 Fe 1 As 1 O 0.7 1 2010 ABCD oxypnictide A 4.004 Fe-1111 K 34 34 6.9 6 High-P synthesis "Origin of Tc Enhancement Induced by Doping Yttrium and Hydrogen into LaFeAsO-Based Superconductors: <57>Fe-, <75>As-, <139>La-, and <1>H-NMR Studies" 2010 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "J.Phys.Soc.Jpn, 79(2010)103703"
156317 JPS079103703 Fe-As-Fe(in plane) angle = 111.7 deg. energy gap measured by NMR. H-doping decreases the carrier density. LaFeAsO0.58H0.58 La1Fe1As1H0.58O0.58 La 1 Fe 1 As 1 H 0.58 O 0.58 1 2010 ABCD oxypnictide A 3.989 Fe-1111 K 32 32 4.7 6 High-P synthesis "Origin of Tc Enhancement Induced by Doping Yttrium and Hydrogen into LaFeAsO-Based Superconductors: <57>Fe-, <75>As-, <139>La-, and <1>H-NMR Studies" 2010 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "J.Phys.Soc.Jpn, 79(2010)103703"
156318 JPS082124706 "R(T) = R0 + A*T^n for Tc < T < 100K, n = 1.41, A = 0.21E-5 Ohm.cm/K^n. RH(50K) = -5.50E-3 cm3/C." "LaFe(As,P)(O,F)" La1Fe1As0.4P0.6F0.1O0.9 La 1 Fe 1 As 0.4 P 0.6 F 0.1 O 0.9 1 2013 ABCD oxypnictide A 3.9708 8.5458 Fe-1111 K 21.4 21.4 MTC156318 m3/C MRH156318 solid state reaction "Two Fermi Surface States and Two Tc-Rising Mechanisms Revealed by Transport Properties in RFeP1-xAsxO0.9F0.1 (R = La, Pr, and Nd)" 2013 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 82(2013)124706"
156319 JPS082124706 "R(T) = R0 + A*T^n for Tc < T < 100K, n = 1.31, A = 0.45E-5 Ohm.cm/K^n. RH(50K) = -8.26E-3 cm3/C." "LaFe(As,P)(O,F)" La1Fe1As0.8P0.2F0.1O0.9 La 1 Fe 1 As 0.8 P 0.2 F 0.1 O 0.9 1 2013 ABCD oxypnictide A 4.0092 8.6463 Fe-1111 K 26 26 m3/C MRH156319 solid state reaction "Two Fermi Surface States and Two Tc-Rising Mechanisms Revealed by Transport Properties in RFeP1-xAsxO0.9F0.1 (R = La, Pr, and Nd)" 2013 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 82(2013)124706"
156320 JPS082124706 "R(T) = R0 + A*T^n for Tc < T < 100K, n = 2.04, A = 0.01E-5 Ohm.cm/K^n. RH(50K) = -3.22E-3 cm3/C." "PrFeP(O,F)" Pr1Fe1P1F0.1O0.9 Pr 1 Fe 1 P 1 F 0.1 O 0.9 1 2013 ABCD oxypnictide A 3.9099 8.3452 Fe-1111 K 2.34 2.34 solid state reaction "Two Fermi Surface States and Two Tc-Rising Mechanisms Revealed by Transport Properties in RFeP1-xAsxO0.9F0.1 (R = La, Pr, and Nd)" 2013 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 82(2013)124706"
156321 JPS082124706 "R(T) = R0 + A*T^n for Tc < T < 100K, n = 1.83, A = 0.01E-5 Ohm.cm/K^n. RH(50K) = -2.56E-3 cm3/C." "PrFe(As,P)(O,F)" Pr1Fe1As0.2P0.8F0.1O0.9 Pr 1 Fe 1 As 0.2 P 0.8 F 0.1 O 0.9 1 2013 ABCD oxypnictide A 3.9292 8.3812 Fe-1111 K 8.71 8.71 solid state reaction "Two Fermi Surface States and Two Tc-Rising Mechanisms Revealed by Transport Properties in RFeP1-xAsxO0.9F0.1 (R = La, Pr, and Nd)" 2013 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 82(2013)124706"
156322 JPS082124706 "R(T) = R0 + A*T^n for Tc < T < 100K, n = 1.51, A = 0.06E-5 Ohm.cm/K^n. RH(50K) = -10.5E-3 cm3/C." "PrFe(As,P)(O,F)" Pr1Fe1As0.4P0.6F0.1O0.9 Pr 1 Fe 1 As 0.4 P 0.6 F 0.1 O 0.9 1 2013 ABCD oxypnictide A 3.9384 8.4071 Fe-1111 K 17.4 17.4 MTC156322 m3/C MRH156322 solid state reaction "Two Fermi Surface States and Two Tc-Rising Mechanisms Revealed by Transport Properties in RFeP1-xAsxO0.9F0.1 (R = La, Pr, and Nd)" 2013 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 82(2013)124706"
156323 JPS082124706 "R(T) = R0 + A*T^n for Tc < T < 100K, n = 1.21, A = 0.40E-5 Ohm.cm/K^n. RH(50K) = -24.3E-3 cm3/C." "PrFe(As,P)(O,F)" Pr1Fe1As0.6P0.4F0.1O0.9 Pr 1 Fe 1 As 0.6 P 0.4 F 0.1 O 0.9 1 2013 ABCD oxypnictide A 3.9608 8.4763 Fe-1111 K 23.4 23.4 m3/C MRH156323 solid state reaction "Two Fermi Surface States and Two Tc-Rising Mechanisms Revealed by Transport Properties in RFeP1-xAsxO0.9F0.1 (R = La, Pr, and Nd)" 2013 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 82(2013)124706"
156324 JPS082124706 "R(T) = R0 + A*T^n for Tc < T < 100K, n = 1.13, A = 0.34E-5 Ohm.cm/K^n. RH(50K) = -11.4E-3 cm3/C." "PrFe(As,P)(O,F)" Pr1Fe1As0.8P0.2F0.1O0.9 Pr 1 Fe 1 As 0.8 P 0.2 F 0.1 O 0.9 1 2013 ABCD oxypnictide A 3.9723 8.5284 Fe-1111 K 29.2 29.2 solid state reaction "Two Fermi Surface States and Two Tc-Rising Mechanisms Revealed by Transport Properties in RFeP1-xAsxO0.9F0.1 (R = La, Pr, and Nd)" 2013 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 82(2013)124706"
156325 JPS082124706 "R(T) = R0 + A*T^n for Tc < T < 100K, n = 1.31, A = 0.098E-5 Ohm.cm/K^n. RH(50K) = -2.72E-3 cm3/C." "PrFe(As,P)(O,F)" Pr1Fe1As0.9P0.1F0.1O0.9 Pr 1 Fe 1 As 0.9 P 0.1 F 0.1 O 0.9 1 2013 ABCD oxypnictide A 3.9801 8.5603 Fe-1111 K 35.2 35.2 solid state reaction "Two Fermi Surface States and Two Tc-Rising Mechanisms Revealed by Transport Properties in RFeP1-xAsxO0.9F0.1 (R = La, Pr, and Nd)" 2013 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 82(2013)124706"
156326 JPS082124706 "R(T) = R0 + A*T^n for Tc < T < 100K, n = 1.38, A = 0.1E-5 Ohm.cm/K^n. RH(50K) = -5.93E-3 cm3/C." "PrFeAs(O,F)" Pr1Fe1As1F0.1O0.9 Pr 1 Fe 1 As 1 F 0.1 O 0.9 1 2013 ABCD oxypnictide A 3.9811 8.5958 Fe-1111 K 44 44 solid state reaction "Two Fermi Surface States and Two Tc-Rising Mechanisms Revealed by Transport Properties in RFeP1-xAsxO0.9F0.1 (R = La, Pr, and Nd)" 2013 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 82(2013)124706"
156327 JPS082124706 "R(T) = R0 + A*T^n for Tc < T < 100K, n = 2.05, A = 0.03E-5 Ohm.cm/K^n. RH(50K) = -3.06E-3 cm3/C." "NdFeP(O,F)" Nd1Fe1P1F0.1O0.9 Nd 1 Fe 1 P 1 F 0.1 O 0.9 1 2013 ABCD oxypnictide A 3.8805 8.2682 Fe-1111 K 2.9 2.9 solid state reaction "Two Fermi Surface States and Two Tc-Rising Mechanisms Revealed by Transport Properties in RFeP1-xAsxO0.9F0.1 (R = La, Pr, and Nd)" 2013 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 82(2013)124706"
156328 JPS082124706 "R(T) = R0 + A*T^n for Tc < T < 100K, n = 1.89, A = 0.008E-5 Ohm.cm/K^n. RH(50K) = -2.72E-3 cm3/C." "NdFe(As,P)(O,F)" Nd1Fe1As0.2P0.8F0.1O0.9 Nd 1 Fe 1 As 0.2 P 0.8 F 0.1 O 0.9 1 2013 ABCD oxypnictide A 3.893 8.3017 Fe-1111 K 6.98 6.98 solid state reaction "Two Fermi Surface States and Two Tc-Rising Mechanisms Revealed by Transport Properties in RFeP1-xAsxO0.9F0.1 (R = La, Pr, and Nd)" 2013 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 82(2013)124706"
156329 JPS082124706 "R(T) = R0 + A*T^n for Tc < T < 100K, n = 1.43, A = 0.26E-5 Ohm.cm/K^n. RH(50K) = -8.23E-3 cm3/C." "NdFe(As,P)(O,F)" Nd1Fe1As0.4P0.6F0.1O0.9 Nd 1 Fe 1 As 0.4 P 0.6 F 0.1 O 0.9 1 2013 ABCD oxypnictide A 3.9065 8.3521 Fe-1111 K 22.6 22.6 solid state reaction "Two Fermi Surface States and Two Tc-Rising Mechanisms Revealed by Transport Properties in RFeP1-xAsxO0.9F0.1 (R = La, Pr, and Nd)" 2013 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 82(2013)124706"
156330 JPS082124706 "R(T) = R0 + A*T^n for Tc < T < 100K, n = 1.29, A = 0.46E-5 Ohm.cm/K^n. RH(50K) = -10.9E-3 cm3/C." "NdFe(As,P)(O,F)" Nd1Fe1As0.5P0.5F0.1O0.9 Nd 1 Fe 1 As 0.5 P 0.5 F 0.1 O 0.9 1 2013 ABCD oxypnictide A 3.917 8.4027 Fe-1111 K 25.2 25.2 MTC156330 m3/C MRH156330 solid state reaction "Two Fermi Surface States and Two Tc-Rising Mechanisms Revealed by Transport Properties in RFeP1-xAsxO0.9F0.1 (R = La, Pr, and Nd)" 2013 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 82(2013)124706"
156331 JPS082124706 "R(T) = R0 + A*T^n for Tc < T < 100K, n = 1.09, A = 1.71E-5 Ohm.cm/K^n. RH(50K) = -12.1E-3 cm3/C." "NdFe(As,P)(O,F)" Nd1Fe1As0.6P0.4F0.1O0.9 Nd 1 Fe 1 As 0.6 P 0.4 F 0.1 O 0.9 1 2013 ABCD oxypnictide A 3.9245 8.4126 Fe-1111 K 28 28 solid state reaction "Two Fermi Surface States and Two Tc-Rising Mechanisms Revealed by Transport Properties in RFeP1-xAsxO0.9F0.1 (R = La, Pr, and Nd)" 2013 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 82(2013)124706"
156332 JPS082124706 "R(T) = R0 + A*T^n for Tc < T < 100K, n = 1.23, A = 0.58E-5 Ohm.cm/K^n. RH(50K) = -13.9E-3 cm3/C." "NdFe(As,P)(O,F)" Nd1Fe1As0.7P0.3F0.1O0.9 Nd 1 Fe 1 As 0.7 P 0.3 F 0.1 O 0.9 1 2013 ABCD oxypnictide A 3.9279 8.4368 Fe-1111 K 29.5 29.5 m3/C MRH156332 solid state reaction "Two Fermi Surface States and Two Tc-Rising Mechanisms Revealed by Transport Properties in RFeP1-xAsxO0.9F0.1 (R = La, Pr, and Nd)" 2013 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 82(2013)124706"
156333 JPS082124706 "R(T) = R0 + A*T^n for Tc < T < 100K, n = 1.25, A = 0.35E-5 Ohm.cm/K^n. RH(50K) = -12.7E-3 cm3/C." "NdFe(As,P)(O,F)" Nd1Fe1As0.8P0.2F0.1O0.9 Nd 1 Fe 1 As 0.8 P 0.2 F 0.1 O 0.9 1 2013 ABCD oxypnictide A 3.9394 8.4596 Fe-1111 K 34.1 34.1 solid state reaction "Two Fermi Surface States and Two Tc-Rising Mechanisms Revealed by Transport Properties in RFeP1-xAsxO0.9F0.1 (R = La, Pr, and Nd)" 2013 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 82(2013)124706"
156334 JPS082124706 "R(T) = R0 + A*T^n for Tc < T < 100K, n = 1.09, A = 0.82E-5 Ohm.cm/K^n. RH(50K) = -4.31E-3 cm3/C." "NdFeAs(O,F)" Nd1Fe1As1F0.1O0.9 Nd 1 Fe 1 As 1 F 0.1 O 0.9 1 2013 ABCD oxypnictide A 3.9395 8.4961 Fe-1111 K 50.1 50.1 m3/C MRH156334 solid state reaction "Two Fermi Surface States and Two Tc-Rising Mechanisms Revealed by Transport Properties in RFeP1-xAsxO0.9F0.1 (R = La, Pr, and Nd)" 2013 "Department of Physics, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 82(2013)124706"
156335 JPS085013702 "M-intercalated materials. M = HMDA (hexamethylenediamine). As-grown(phase I). Interlayer spacing, d= 16.17 A. contents(x,y) not given" Lix(HMDA)yFe2Se2 Li1M1Fe2Se2 Li 1 M 1 Fe 2 Se 2 2016 Thcr2Si2 A 32.33 K 38 38 "powder mixture (Li:FeSe=1:2) -put into HMDA - reaction(45C, 2days) - separation from residual HMDA" New Superconducting Phase of Lix(C6H16N2)yFe2-zSe2 with Tc = 41K Obtained through the Post-Annealing 2016 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 85(2016)013702"
156336 JPS085013702 "M-intercalated materials. M = HMDA (hexamethylenediamine). Post annealing(150C)-sample(phase III). Interlayer spacing, d= 16.17 A. contents(x,y) not given" Lix(HMDA)yFe2Se2 Li1M1Fe2Se2 Li 1 M 1 Fe 2 Se 2 2016 Thcr2Si2 A 20.59 K 41 41 "powder mixture (Li:FeSe=1:2) -put into HMDA - reaction(45C, 2days) - separation from residual HMDA" New Superconducting Phase of Lix(C6H16N2)yFe2-zSe2 with Tc = 41K Obtained through the Post-Annealing 2016 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 85(2016)013702"
156337 JPS085013704 Tc(SP) = 3.5K. Lattice term in SP (beta) = 0.372 mJ/mol.K4. (dCel)/k = 4.7 mJ/mol.K2. (dCel/kTc) = 1.55. ScIrP Sc1Ir1P1 Sc 1 Ir 1 P 1 1 2016 ABC ZrNiAl P6[-]2m A 6.3309 3.8854 hexagonal K 3.3 3.46 3.65 3.4 3.46 220 T "RES(0.5Rn), GL" 5.11 MHC156337 A from Hc2 80.3 3.1 14 MSP156337 mJ/mol.K2 4.11 SP "Sc(chip),Ir(powder),P(black)" "solid state reaction. mixture - sealed in quaerz tube - heat(673K,12h +1173K,96h) - reground - pellet - wrapped un Ta-foil - sealed in quartz tube - heat(1423K,44h)" Superconductivity in the Hexagonal Ternary Phosphide ScIrP 2016 "Department of Applied Physics, Nagoya University, Nagoya 464-8603, Japan" "J.Phys.Soc.Jpn, 85(2016)013704"
156338 JPS085024715 LaRhSi3 La1Rh1Si3 La 1 Rh 1 Si 3 3 2016 ABC3 BaNiSn3 I4mm 107 K 2.3 2.3 MHC156338 Type II/I Superconductivity with Extremely High Hc3 in Noncentrosymmetric LaRhSi3 2016 "Department of Physics, Tohoku University, Sendai 980-8578, Japan" "J.Phys.Soc.Jpn, 85(2016)024715"
156339 JPS085034706 "RRR = 31, Rn = 3.4 uOhm.cm for J//[001]. (dCel/gamma*Tc) = 1.30. Hc(0) = 0.1T. Tc in Tc(P) -Fig. defined as Tc(zero)." Zr2Co Co1Zr2 Co 1 Zr 2 3 2016 AB2 CuAl2 I4/mcm 140 K 5.2 5 6 5 MTC156339 100 Oe "M-H," 112 112 T "RES,SP, WHH" 1.3 1.1 T/K 0.38 MHC156339 A from Hc2 160 A Hc1 1900 3.36 14 MSP156339 mJ/mol.K2 22.5 SP 235 SP uOhm.cm 3.4 3.8 "Zr(3N),Co(4N)" Bridgman method. poly(Zr2Co) by arc-melting - crushed - yttria crucible - quartz tube -heat to 1150C - slow cool to 1050C 84days) - cool to RT Superconducting and Fermi Surface Properties of Single Crystal Zr2Co 2016 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa 903-0213, Japan" "J.Phys.Soc.Jpn, 85(2016)034706"
156340 JPS085043701 no CDW. RRR = 1.65. GL(kappa) = 31.7. e-ph = 0.554. DOS = 2.28 states/eV.f.u. Hc(0) = 13.4 mT. (beta) in SP = 2.35 mJ/mol.K4 LT-SrPd2Sb2 Sr1Pd2Sb2 Sr 1 Pd 2 Sb 2 2016 AB2C2 CaBa2Ge2 P4/nmm 129 A 4.637 10.629 K 1.9 0.1 1.9 Oe 10.6 T "RES(0.5Rn),Linear approx." 0.6 MHC156340 A from Hc2 234 A "Hc(0),Hc1" 7890 MSP156340 mJ/mol.K2 8.36 SP 161 SP "mixture - sealed in quartz tube - heat(900C,20h + 720C,72h) - cool to RT" Superconductivity in Ternary Pnictide SrPd2Sb2 Polymorphs 2016 "Graduate School of Science and Technology, Niigata University, Niigata 950-2181, Japan" "J.Phys.Soc.Jpn, 85(2016)043701"
156341 JPS085043701 no CDW. RRR = 1.7. e-ph = 0.453. DOS = 1.54 states/eV.f.u. (beta) in SP = 3.75 mJ/mol.K4 [gamma] in SP = 5.27 mJ/mol.K2 for normal state HT-SrPd2Sb2 Sr1Pd2Sb2 Sr 1 Pd 2 Sb 2 2016 AB2C2 Thcr2Si2 I4/mmm 139 A 4.621 10.776 K 0.6 0.15 0.6 T "RES(0.5Rn),Linear approx." 0.06 MHC156341 A from Hc2 741 mJ/mol.K2 7.27 SP 137 SP mixture - ampule - heat(900C.20h) - Q to ice water Superconductivity in Ternary Pnictide SrPd2Sb2 Polymorphs 2016 "Graduate School of Science and Technology, Niigata University, Niigata 950-2181, Japan" "J.Phys.Soc.Jpn, 85(2016)043701"
156342 JPS085053702 Ag-content x = 0.18 by EDX. Tc(SUS) defined as T where SUS become negative. Sn1-xAgxTe Sn0.85Ag0.15Te1 Sn 0.85 Ag 0.15 Te 1 1 2016 AB NaCl A 6.2136 K 2.4 2.15 2.15 "Ag(3N),Sn(4N),Te(6N)" "High-P synthesis using cubic anvil type system. mixture - pressed into pellet - BN-capsule - heat(500C,30min, P=2 GPa)" High-Pressure Synthesis and Superconductivity of Ag-Doped Topological Crystalline Insulator SnTe (Sn1-xAgxTe with x = 0-0.5) 2016 "Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 85(2016)053702"
156343 JPS085053702 Ag-content x = 0.23 by EDX. Tc(SUS) defined as T where SUS become negative. Hc2(0) = 1.04 T using linear approx. Sn1-xAgxTe Sn0.8Ag0.2Te1 Sn 0.8 Ag 0.2 Te 1 1 2016 AB NaCl A 6.1768 K 2.4 2.29 2.29 MTC156343 T "SUS(negative point), WHH" 0.72 MHC156343 "Ag(3N),Sn(4N),Te(6N)" "High-P synthesis using cubic anvil type system. mixture - pressed into pellet - BN-capsule - heat(500C,30min, P=2 GPa)" High-Pressure Synthesis and Superconductivity of Ag-Doped Topological Crystalline Insulator SnTe (Sn1-xAgxTe with x = 0-0.5) 2016 "Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 85(2016)053702"
156344 JPS085053702 Ag-content x = 0.34 by EDX. Tc(SUS) defined as T where SUS become negative. Sn1-xAgxTe Sn0.75Ag0.25Te1 Sn 0.75 Ag 0.25 Te 1 1 2016 AB NaCl A 6.1407 K 2.4 2.2 2.2 "Ag(3N),Sn(4N),Te(6N)" "High-P synthesis using cubic anvil type system. mixture - pressed into pellet - BN-capsule - heat(500C,30min, P=2 GPa)" High-Pressure Synthesis and Superconductivity of Ag-Doped Topological Crystalline Insulator SnTe (Sn1-xAgxTe with x = 0-0.5) 2016 "Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 85(2016)053702"
156345 JPS085053702 Ag-content x = 0.40 by EDX. Tc(SUS) defined as T where SUS become negative. Sn1-xAgxTe Sn0.67Ag0.33Te1 Sn 0.67 Ag 0.33 Te 1 1 2016 AB NaCl A 6.1089 K 2.4 1.95 1.95 "Ag(3N),Sn(4N),Te(6N)" "High-P synthesis using cubic anvil type system. mixture - pressed into pellet - BN-capsule - heat(500C,30min, P=2 GPa)" High-Pressure Synthesis and Superconductivity of Ag-Doped Topological Crystalline Insulator SnTe (Sn1-xAgxTe with x = 0-0.5) 2016 "Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 85(2016)053702"
156346 JPS085053702 Ag-content x = 0.39 by EDX. Tc(SUS) defined as T where SUS become negative. Sn1-xAgxTe Sn0.5Ag0.5Te1 Sn 0.5 Ag 0.5 Te 1 1 2016 AB NaCl A 6.0823 K 1.8 "Ag(3N),Sn(4N),Te(6N)" "High-P synthesis using cubic anvil type system. mixture - pressed into pellet - BN-capsule - heat(500C,30min, P=2 GPa)" High-Pressure Synthesis and Superconductivity of Ag-Doped Topological Crystalline Insulator SnTe (Sn1-xAgxTe with x = 0-0.5) 2016 "Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 85(2016)053702"
156347 JPS085053702 Synthesis at ambient pressure. Two phases: phase-1(Sn-rich phase a = 6.2225 A) and phase-2(Sn0.5Ag0.5Te phase. a = 6.0789A) Sn1-xAgxTe Sn0.6Ag0.4Te1 Sn 0.6 Ag 0.4 Te 1 2 2016 AB NaCl A 6.2225 Phase-2 (a = 6.0789 A) K 1.95 1.95 "Ag(3N),Sn(4N),Te(6N)" "solid state reaction at ambient pressure (600C,10h)" High-Pressure Synthesis and Superconductivity of Ag-Doped Topological Crystalline Insulator SnTe (Sn1-xAgxTe with x = 0-0.5) 2016 "Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 85(2016)053702"
156348 JPS085064710 impurity phase = RbFe2As2. RRR = 11.2. Anomaly appears around 15 K ( due to magnetic order of Eu(2+) ) in SUS(T) EuRbFe4As4 Eu1Rb1Fe4As4 Eu 1 Rb 1 Fe 4 As 4 1 2016 ABC4D4 P4/mmm 123 A 3.889 13.3 Fe-1144 type K 35.8 36.2 36 36 T "RES(mid),WHH" 92 T/K RES(0.5Rn) 3.692 MHC156348 A from Hc2 18 "See J.Am.Chem.Soc., 138(2016)3410" Superconductivity in Fe-Based Compound EuAFe4As4 (A = Rb and Cs) 2016 "IMRA Material R&D Co., Ltd., Kariya, Aichi 448-0032, Japan" "J.Phys.Soc.Jpn, 85(2016)064710"
156349 JPS085064710 impurity phase = CsFe2As2. RRR = 14.5. Anomaly appears around 15 K ( due to magnetic order of Eu(2+) ) in SUS(T) EuCsFe4As4 Eu1Cs1Fe4As4 Eu 1 Cs 1 Fe 4 As 4 1 2016 ABC4D4 P4/mmm 123 A 3.901 13.63 Fe-1144 type K 34.9 35.1 35 35 T "RES(mid),WHH" 87.5 T/K RES(0.5Rn) 3.612 MHC156349 A from Hc2 19 "See J.Am.Chem.Soc., 138(2016)3410" Superconductivity in Fe-Based Compound EuAFe4As4 (A = Rb and Cs) 2016 "IMRA Material R&D Co., Ltd., Kariya, Aichi 448-0032, Japan" "J.Phys.Soc.Jpn, 85(2016)064710"
156350 JPS085073707 Thermal conductivity k measured down to 100 mK. k/T = 0.1 mW/K2.m when T tends to 0 K. Thermal conductivity shows fully gapped SC. "Nd(O,F)BiS2" Nd1Bi1S2F0.29O0.71 Nd 1 Bi 1 S 2 F 0.29 O 0.71 3 2016 ABCD2 BiS2 type K 5.2 5.2 100 Oe 30 T 1 A 180 A 4470 mW/K.m MTHC156350 Flux method using CsCl/KCl as flux Conventional s-Wave Superconductivity in BiS2-Based NdO0.71F0.29BiS2 Revealed by Thermal Transport Measurements 2016 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "J.Phys.Soc.Jpn, 85(2016)073707"
156351 JPS085073713 "H// = H//[001], H/n = H//[110]. gamma in mJ/U-mol.K2. (dC/gamma*Tc) = 1.58. Hc(0) = 0.065T. A = 0.012 uOhm.cm/K2 R0 = 54 uOhm.cm for R = R0 + A*T2." U6Co Co1U6 Co 1 U 6 3 2016 AB6 2 U5Mn I4/mcm 140 A 10.36 5.21 K 2.33 2.36 2.8 2.36 T RES(mid). Linear approx. 7.85 6.56 T/K RES(mid) 4.3 3.4 MHC156351 A 65 71 K 3.97 3.7 14 MSP156351 mJ/mol.K2 20 SP "self-flux method. (U:Co = 76:24) - put in alumina crucible - sealed in quartz ampoule - heat(830C,300h) - cool to 740C with 0.4C/h." Large Upper Critical Field of Superconductivity in the Single Crystal U6Co 2016 "IMR, Tohoku University, Oarai, Ibaraki 311-1313, Japan" "J.Phys.Soc.Jpn, 85(2016)073713"
156352 MMM4000066 RRR = 19. R(T) has a steep drop at T0 (= 0.67 K) due to multipolar ordering PrV2Al20 Pr1V2Al20 Pr 1 V 2 Al 20 3 2016 AB2C20 K 0.05 0.05 Al-self-flux method Strong orbital fluctuations in multipolar ordered states of PrV2Al20 2016 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Japan" "J.Mag.Mag.Mat., 400(2016)66"
156353 MMM4000066 RRR = 18 PrV2Al20 Pr1V2Al20 Pr 1 V 2 Al 20 3 2016 AB2C20 K 0.039 0.039 Al-self-flux method Strong orbital fluctuations in multipolar ordered states of PrV2Al20 2016 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Japan" "J.Mag.Mag.Mat., 400(2016)66"
156354 MMM4000066 RRR = 4. not SC. R(T) has a steep drop at T0 (= 0.5 K) due to multipolar ordering PrV2Al20 Pr1V2Al20 Pr 1 V 2 Al 20 3 2016 AB2C20 K 0.038 Al-self-flux method Strong orbital fluctuations in multipolar ordered states of PrV2Al20 2016 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Japan" "J.Mag.Mag.Mat., 400(2016)66"
156355 MMM4000066 RRR = 7. not SC. PrV2Al20 Pr1V2Al20 Pr 1 V 2 Al 20 3 2016 AB2C20 K 0.043 Al-self-flux method Strong orbital fluctuations in multipolar ordered states of PrV2Al20 2016 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Japan" "J.Mag.Mag.Mat., 400(2016)66"
156356 MMM4000066 RRR = 150. R(T) has a steep drop at T0 (= 2.0 K) due to multipolar ordering PrTi2Al20 Pr1Ti2Al20 Pr 1 Ti 2 Al 20 3 2016 AB2C20 K 0.19 0.19 Al-self-flux method Strong orbital fluctuations in multipolar ordered states of PrV2Al20 2016 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Japan" "J.Mag.Mag.Mat., 400(2016)66"
156357 MMM4170420 RRR = 2.4. unit volume = 161.4 A^3. YPd2P2 Y1Pd2P2 Y 1 Pd 2 P 2 3 2016 AB2C2 ThCr2Si2 I4/mmm A 4.05 9.84 K 0.96 0.96 "Crystals grown from self flux by adding 5-10% R in to Pd67P33. resultant(R5Pd60P35) - alumina crucible - silica ampules - heat (300C,3h + 6h) - heat(1180C,12h) - cool to 930C (90-120h)" "Magnetization and transport properties of single crystalline RPd2P2 (R=Y, La-Nd, Sm-Ho, Yb)" 2016 "Department of Physics and Astronomy, Iowa State University, Ames, IA50011, USA" "J.Mag.Mag.Mat., 417(2016)66"
156358 MMM4170420 RRR = 7.8. unit volume = 174.1 A^3. LaPd2P2 La1Pd2P2 La 1 Pd 2 P 2 3 2016 AB2C2 ThCr2Si2 I4/mmm A 4.12 9.89 K 0.75 0.75 "Crystals grown from self flux by adding 5-10% R in to Pd67P33. resultant(R5Pd60P35) - alumina crucible - silica ampules - heat (300C,3h + 6h) - heat(1180C,12h) - cool to 930C (90-120h)" "Magnetization and transport properties of single crystalline RPd2P2 (R=Y, La-Nd, Sm-Ho, Yb)" 2016 "Department of Physics and Astronomy, Iowa State University, Ames, IA50011, USA" "J.Mag.Mag.Mat., 417(2016)66"
156359 MMM4170420 "not SC. RRR = 12.4. unit volume = 171.1 A^3. Curie-T = -344K(H//ab), 64 K(H//c). Tm(ferromag) = 28.4 K." CePd2P2 Ce1Pd2P2 Ce 1 Pd 2 P 2 3 2016 myu-B/R 2.44 -344 AB2C2 ThCr2Si2 I4/mmm A 4.16 9.9 K 0.03 "Crystals grown from self flux by adding 5-10% R in to Pd67P33. resultant(R5Pd60P35) - alumina crucible - silica ampules - heat (300C,3h + 6h) - heat(1180C,12h) - cool to 930C (90-120h)" "Magnetization and transport properties of single crystalline RPd2P2 (R=Y, La-Nd, Sm-Ho, Yb)" 2016 "Department of Physics and Astronomy, Iowa State University, Ames, IA50011, USA" "J.Mag.Mag.Mat., 417(2016)66"
156360 MMM4170420 "not SC. RRR = 7. unit volume = 169.5 A^3. Curie-T = -55K(H//ab), 32 K(H//c). Tm(ferromag) = 8.3 K." YPrPd2P2 Pr1Pd2P2 Pr 1 Pd 2 P 2 3 2016 myu-B/R 3.52 -55 AB2C2 ThCr2Si2 I4/mmm A 4.14 9.88 K 0.03 "Crystals grown from self flux by adding 5-10% R in to Pd67P33. resultant(R5Pd60P35) - alumina crucible - silica ampules - heat (300C,3h + 6h) - heat(1180C,12h) - cool to 930C (90-120h)" "Magnetization and transport properties of single crystalline RPd2P2 (R=Y, La-Nd, Sm-Ho, Yb)" 2016 "Department of Physics and Astronomy, Iowa State University, Ames, IA50011, USA" "J.Mag.Mag.Mat., 417(2016)66"
156361 MMM4170420 "not SC. RRR = 5.4. unit volume = 168.1 A^3. Curie-T = -25K(H//ab), -2 K(H//c). Tm(AFM) = 6.0 K." NdPd2P2 Nd1Pd2P2 Nd 1 Pd 2 P 2 3 2016 myu-B/R 3.64 -25 6 AB2C2 ThCr2Si2 I4/mmm A 4.12 9.88 K 0.03 "Crystals grown from self flux by adding 5-10% R in to Pd67P33. resultant(R5Pd60P35) - alumina crucible - silica ampules - heat (300C,3h + 6h) - heat(1180C,12h) - cool to 930C (90-120h)" "Magnetization and transport properties of single crystalline RPd2P2 (R=Y, La-Nd, Sm-Ho, Yb)" 2016 "Department of Physics and Astronomy, Iowa State University, Ames, IA50011, USA" "J.Mag.Mag.Mat., 417(2016)66"
156362 MMM4170420 not SC. RRR = 3.8. unit volume = 165.8 A^3. Tm(AFM) = 3.3 K. SmPd2P2 Sm1Pd2P2 Sm 1 Pd 2 P 2 3 2016 3.3 AB2C2 ThCr2Si2 I4/mmm A 4.1 9.87 K 0.03 "Crystals grown from self flux by adding 5-10% R in to Pd67P33. resultant(R5Pd60P35) - alumina crucible - silica ampules - heat (300C,3h + 6h) - heat(1180C,12h) - cool to 930C (90-120h)" "Magnetization and transport properties of single crystalline RPd2P2 (R=Y, La-Nd, Sm-Ho, Yb)" 2016 "Department of Physics and Astronomy, Iowa State University, Ames, IA50011, USA" "J.Mag.Mag.Mat., 417(2016)66"
156363 MMM4170420 "not SC. RRR = 10. unit volume = 170.8 A^3. Curie-T = -30K(H//ab), -31 K(H//c). At least, 4 magnetic transitions (T1=18.2, T2=12.4, T3=9.8, T4 = 5.8 K in R(T) and SUS(T).Tm(AFM) = 18.2 K." EuPd2P2 Eu1Pd2P2 Eu 1 Pd 2 P 2 3 2016 myu-B/R 7.6 -30 18.2 AB2C2 ThCr2Si2 I4/mmm A 4.16 9.74 K 0.03 "Crystals grown from self flux by adding 5-10% R in to Pd67P33. resultant(R5Pd60P35) - alumina crucible - silica ampules - heat (300C,3h + 6h) - heat(1180C,12h) - cool to 930C (90-120h)" "Magnetization and transport properties of single crystalline RPd2P2 (R=Y, La-Nd, Sm-Ho, Yb)" 2016 "Department of Physics and Astronomy, Iowa State University, Ames, IA50011, USA" "J.Mag.Mag.Mat., 417(2016)66"
156364 MMM4170420 "not SC. RRR = 3. unit volume = 164.2 A^3. Curie-T = -25K(H//ab), -27 K(H//c). Tm(AFM) = 10.0 and 7.0 K." GdPd2P2 Gd1Pd2P2 Gd 1 Pd 2 P 2 3 2016 myu-B/R 8.01 -25 10.1 AB2C2 ThCr2Si2 I4/mmm A 4.08 9.86 K 0.03 "Crystals grown from self flux by adding 5-10% R in to Pd67P33. resultant(R10Pd54P36) - alumina crucible - silica ampules - heat (300C,3h + 6h) - heat(1180C,12h) - cool to 930C (90-120h)" "Magnetization and transport properties of single crystalline RPd2P2 (R=Y, La-Nd, Sm-Ho, Yb)" 2016 "Department of Physics and Astronomy, Iowa State University, Ames, IA50011, USA" "J.Mag.Mag.Mat., 417(2016)66"
156365 MMM4170420 "not SC. RRR = 2.5. unit volume = 162.5 A^3. Curie-T = -10.7K(H//ab), 4.3 K(H//c). Three magnetic transitions (T1= 12.0 K(AFM), T2 = 7.5 K(AFM) T3 = 4.6 K, in R(T)." TbPd2P2 Tb1Pd2P2 Tb 1 Pd 2 P 2 3 2016 myu-B/R 9.71 -107 12 AB2C2 ThCr2Si2 I4/mmm A 4.06 9.86 K 0.03 "Crystals grown from self flux by adding 5-10% R in to Pd67P33. resultant(R10Pd54P36) - alumina crucible - silica ampules - heat (300C,3h + 6h) - heat(1180C,12h) - cool to 930C (90-120h)" "Magnetization and transport properties of single crystalline RPd2P2 (R=Y, La-Nd, Sm-Ho, Yb)" 2016 "Department of Physics and Astronomy, Iowa State University, Ames, IA50011, USA" "J.Mag.Mag.Mat., 417(2016)66"
156366 MMM4170420 "not SC. RRR = 2.5. unit volume = 161.2 A^3. Curie-T = -37K(H//ab), 16 K(H//c). Two magnetic transitions (T1= 6.2 K(AFM), T2 = 2.5 K , in R(T)." DyPd2P2 Dy1Pd2P2 Dy 1 Pd 2 P 2 3 2016 myu-B/R 10.62 -37 6.3 AB2C2 ThCr2Si2 I4/mmm A 4.02 9.85 K 0.03 "Crystals grown from self flux by adding 5-10% R in to Pd67P33. resultant(R10Pd54P36) - alumina crucible - silica ampules - heat (300C,3h + 6h) - heat(1180C,12h) - cool to 930C (90-120h)" "Magnetization and transport properties of single crystalline RPd2P2 (R=Y, La-Nd, Sm-Ho, Yb)" 2016 "Department of Physics and Astronomy, Iowa State University, Ames, IA50011, USA" "J.Mag.Mag.Mat., 417(2016)66"
156367 MMM4170420 "not SC. RRR = 2. unit volume = 159.8 A^3. Curie-T = -10K(H//ab), 2 K(H//c). magnetic transition Tn = 5.2 K in R(T)." HoPd2P2 Ho1Pd2P2 Ho 1 Pd 2 P 2 3 2016 myu-B/R 1.64 -10 5.2 AB2C2 ThCr2Si2 I4/mmm A 4.03 9.84 K 0.03 "Crystals grown from self flux by adding 5-10% R in to Pd67P33. resultant(R10Pd54P36) - alumina crucible - silica ampules - heat (300C,3h + 6h) - heat(1180C,12h) - cool to 930C (90-120h)" "Magnetization and transport properties of single crystalline RPd2P2 (R=Y, La-Nd, Sm-Ho, Yb)" 2016 "Department of Physics and Astronomy, Iowa State University, Ames, IA50011, USA" "J.Mag.Mag.Mat., 417(2016)66"
156368 MMM4170420 not SC. RRR = 5. unit volume = 163.0 A^3. broad magnetic transition around 5.2 K. YbPd2P2 Yb1Pd2P2 Yb 1 Pd 2 P 2 3 2016 AB2C2 ThCr2Si2 I4/mmm A 4.1 8.72 K 0.03 "Crystals grown from self flux by adding 5-10% R in to Pd67P33. resultant(R10Pd54P36) - alumina crucible - silica ampules - heat (300C,3h + 6h) - heat(1180C,12h) - cool to 930C (90-120h)" "Magnetization and transport properties of single crystalline RPd2P2 (R=Y, La-Nd, Sm-Ho, Yb)" 2016 "Department of Physics and Astronomy, Iowa State University, Ames, IA50011, USA" "J.Mag.Mag.Mat., 417(2016)66"
156369 NATCOM0055508 RRR = 240. SC properties at P = 9.5 kbar are in DB. Coexistence of AFM and SC for 3 < P < 8 kbar CrAs As1Cr1 As 1 Cr 1 3 2014 AB MnP A 5.649 3.463 6.2084 K 1.506 0 1.506 MPH156369 T "RES(mid), T^2 approx." 0.96 MHC156369 A from Hc2 185 Flux method using Sn-flux Superconductivity in the vicinity of antiferromagnetic order in CrAs 2014 "Beijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Nature Commun., 5(2014)5508"
156370 NATM0120605 Annealing step= 15. Tc and gap size ( measured by photoemission) depend on annealing conditions. FeSe monolayer Fe1Se1 Fe 1 Se 1 2013 AB K 65 65 MGAP156370 meV 19 FeSe monolayers grown on SrTiO3 sibstrate by MBE method. Phase diagram and electronic indication of high-temperature superconductivity at 65 K in single-layer FeSe films 2013 "National Lab for Superconductivity, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China," "Nature Materials, 12(2013)605"
156371 NATM0120605 Annealing step= 13. Tc and gap size ( measured by photoemission) depend on annealing conditions. FeSe monolayer Fe1Se1 Fe 1 Se 1 2013 AB K 60 60 MGAP156371 meV 16 FeSe monolayers grown on SrTiO3 sibstrate by MBE method. Phase diagram and electronic indication of high-temperature superconductivity at 65 K in single-layer FeSe films 2013 "National Lab for Superconductivity, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China," "Nature Materials, 12(2013)605"
156372 NATM0120605 Annealing step= 12. Tc and gap size ( measured by photoemission) depend on annealing conditions. FeSe monolayer Fe1Se1 Fe 1 Se 1 2013 AB K 55 55 MGAP156372 meV 14 FeSe monolayers grown on SrTiO3 sibstrate by MBE method. Phase diagram and electronic indication of high-temperature superconductivity at 65 K in single-layer FeSe films 2013 "National Lab for Superconductivity, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China," "Nature Materials, 12(2013)605"
156373 NATM0120605 Annealing step= 10. Tc and gap size ( measured by photoemission) depend on annealing conditions. FeSe monolayer Fe1Se1 Fe 1 Se 1 2013 AB K 40 40 MGAP156373 meV 10 FeSe monolayers grown on SrTiO3 sibstrate by MBE method. Phase diagram and electronic indication of high-temperature superconductivity at 65 K in single-layer FeSe films 2013 "National Lab for Superconductivity, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China," "Nature Materials, 12(2013)605"
156374 PCS0840017 "Impurity phase: Bi2S3,Bi. unit volume =221.71A^3. Hc2(0) = 15.9 T at P=1.68 GPa." La(O0.5F0.5)BiS2 La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 1 2015 ABCD2 2 P4/nmm A 4.06 13.38 K 2.7 2.7 MTC156374 T "RES(on),WHH" 1.64 MHC156374 "La,La2O3,LaF3,Bi,S" "mixture - pellet - sealed in quartz tube - SIN(650C,12h) cool to RT" "Effect of hydrostatic pressures on the superconductivity of new BiS2 based REO0.5F0.5BiS2 (RE = La, Pr and Nd) superconductors" 2015 "CSIR-National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi 110012, India" "J.Phys.Chem.Solids, 84(2015)17"
156375 PCS0840017 "Impurity phase: Bi2S3,Bi. unit volume =216.33A^3. Hc2(0) = 8.8 T at P=1.97 GPa" Pr(O0.5F0.5)BiS2 Pr1Bi1S2F0.5O0.5 Pr 1 Bi 1 S 2 F 0.5 O 0.5 1 2015 ABCD2 2 P4/nmm A 4.03 13.42 K 3.5 3.5 MTC156374 T "RES(on),WHH" 2.65 MHC156375 "Pr,Pr6O11,PrF3,Bi,S" "mixture - pellet - sealed in quartz tube - SIN(650C,12h) cool to RT" "Effect of hydrostatic pressures on the superconductivity of new BiS2 based REO0.5F0.5BiS2 (RE = La, Pr and Nd) superconductors" 2015 "CSIR-National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi 110012, India" "J.Phys.Chem.Solids, 84(2015)17"
156376 PCS0840017 "Impurity phase: Bi2S3,Bi. unit volume =214.60A^3. Hc2(0) = 8.2 T at P=1.97 GPa." Nd(O0.5F0.5)BiS2 Nd1Bi1S2F0.5O0.5 Nd 1 Bi 1 S 2 F 0.5 O 0.5 1 2015 ABCD2 2 P4/nmm A 3.99 13.38 K 4.5 4.5 MTC156374 T "RES(on),WHH" 2.84 MHC156376 "Nd,Nd2O3,NdF3,Bi,S" "mixture - pellet - sealed in quartz tube - SIN(650C,12h) cool to RT" "Effect of hydrostatic pressures on the superconductivity of new BiS2 based REO0.5F0.5BiS2 (RE = La, Pr and Nd) superconductors" 2015 "CSIR-National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi 110012, India" "J.Phys.Chem.Solids, 84(2015)17"
156377 PHC2620249 "Weak FM component of 0.33 mhi-B/Er for T<2.3 K. M vs H measured for H//[100], H//[110], and H//[001]." ErNi2B2C Er1Ni2B2C1 Er 1 Ni 2 B 2 C 1 3 1996 2.3 6 ABC2D2 LuNi2B2C K 10.5 10.5 T 1.2 MSP156377 flux method Possible co-existence of superconductivity and weak ferromagnetism in ErNi2B2C 1996 5 "Ames Laboratory and Department of Physics and Astronomy, lowa State University, Ames, IA 50011, USA" "Physica.C,262(1996)249-254" "Er, Ni, B, C"
156378 PHC470S298 "LaFeP(O,F)" La1Fe1P1F0.1O0.9 La 1 Fe 1 P 1 F 0.1 O 0.9 1 2010 ABCD oxypnictide Fe-1111 K 5.25 5.25 "LaAs,LaP,Fe2O3,LaF3,Fe" "mixture - pellet-ANN(1000C,40h , in evacuated quartz tube)" "Non-monotonic change of electronic properties by As substitution in LaFeP(O,F)" 2010 "a Department of Physics, Graduate School of Science, Osaka University, 1-1 Machikaneyama, Toyonaka, Osaka 560-0043, Japan" "Physica C, 470(2010)S298"
156379 PHC470S298 "LaFe(P,As)O0.9F0.1" La1Fe1P0.6As0.4F0.1O0.9 La 1 Fe 1 P 0.6 As 0.4 F 0.1 O 0.9 1 2010 ABCD oxypnictide Fe-1111 K 20.86 20.86 "LaAs,LaP,Fe2O3,LaF3,Fe" "mixture - pellet-ANN(1000C,40h , in evacuated quartz tube)" "Non-monotonic change of electronic properties by As substitution in LaFeP(O,F)" 2010 "a Department of Physics, Graduate School of Science, Osaka University, 1-1 Machikaneyama, Toyonaka, Osaka 560-0043, Japan" "Physica C, 470(2010)S298"
156380 PHC470S298 "LaFe(P,As)O0.9F0.1" La1Fe1P0.6As0.6F0.1O0.9 La 1 Fe 1 P 0.6 As 0.6 F 0.1 O 0.9 1 2010 ABCD oxypnictide Fe-1111 K 26.9 26.9 MTC156380 "LaAs,LaP,Fe2O3,LaF3,Fe" "mixture - pellet-ANN(1000C,40h , in evacuated quartz tube)" "Non-monotonic change of electronic properties by As substitution in LaFeP(O,F)" 2010 "a Department of Physics, Graduate School of Science, Osaka University, 1-1 Machikaneyama, Toyonaka, Osaka 560-0043, Japan" "Physica C, 470(2010)S298"
156381 PHC470S298 "LaFe(P,As)O0.9F0.1" La1Fe1P0.6As0.8F0.1O0.9 La 1 Fe 1 P 0.6 As 0.8 F 0.1 O 0.9 1 2010 ABCD oxypnictide Fe-1111 K 25.3 25.3 "LaAs,LaP,Fe2O3,LaF3,Fe" "mixture - pellet-ANN(1000C,40h , in evacuated quartz tube)" "Non-monotonic change of electronic properties by As substitution in LaFeP(O,F)" 2010 "a Department of Physics, Graduate School of Science, Osaka University, 1-1 Machikaneyama, Toyonaka, Osaka 560-0043, Japan" "Physica C, 470(2010)S298"
156382 PHC470S298 "LaFeAs(O,F)" La1Fe1As1F0.1O0.9 La 1 Fe 1 As 1 F 0.1 O 0.9 1 2010 ABCD oxypnictide Fe-1111 K 24.3 24.3 "LaAs,LaP,Fe2O3,LaF3,Fe" "mixture - pellet-ANN(1000C,40h , in evacuated quartz tube)" "Non-monotonic change of electronic properties by As substitution in LaFeP(O,F)" 2010 "a Department of Physics, Graduate School of Science, Osaka University, 1-1 Machikaneyama, Toyonaka, Osaka 560-0043, Japan" "Physica C, 470(2010)S298"
156383 PHC5240024 "gap=1.11 meV(2d/kTc = 4.1) from s-wavw fitting of d(penet)(T) measured by TDO. [penet] estimated from Hc1, cohere (literature data)" Nb2PdS5 Nb2Pd1S5 Nb 2 Pd 1 S 5 1 2016 AB2C5 C2/m A 12.132 3.2774 15.024 K 6 6.25 6.4 6 6.25 90 nm "Hc1,cohere,GL-eq.," 225 meV 1.11 4.1 solid state reaction Single gap s-wave superconductivity in Nb2PdS5 2016 "School of Physical Sciences, JNU, New Delhi, India" "Physica C, 524(2016)24"
156384 PHC5280012 "Hirr = [(1-Tirr)/Tc(0)]^n, where n = 2.49 for H > 400 Oe." "(Hg,La)Ba2Ca3(Cu,Ag)4O10-z" Hg0.3La0.7Ba2Ca3Cu3.6Ag0.4O10-z Hg 0.3 La 0.7 Ba 2 Ca 3 Cu 3.6 Ag 0.4 O 10-z 1 2016 AB2C3D4E10 Hg1234 K 121.6 121.6 MHC156384 solid state reaction AC susceptibility of the Hg0.3La0.7Ba2Ca3(Cu0.95Ag0.5)4O10+z superconductor 2016 "Department of Physics, Faculty of Science, University of Cairo, Giza, Egypt" "Physica C, 528(2016)12"
156385 PHC5280012 "Hirr = [(1-Tirr)/Tc(0)]^n, where n = 2.57 for H > 400 Oe." "(Hg,La)Ba2Ca3(Cu,Ag)4O10-z" Hg0.3La0.7Ba2Ca3Cu3.2Ag0.8O10-z Hg 0.3 La 0.7 Ba 2 Ca 3 Cu 3.2 Ag 0.8 O 10-z 1 2016 AB2C3D4E10 Hg1234 K 126.8 126.8 MHC156384 solid state reaction AC susceptibility of the Hg0.3La0.7Ba2Ca3(Cu0.95Ag0.5)4O10+z superconductor 2016 "Department of Physics, Faculty of Science, University of Cairo, Giza, Egypt" "Physica C, 528(2016)12"
156386 PHC5280012 "Hirr = [(1-Tirr)/Tc(0)]^n, where n = 2.59 for H > 400 Oe." "(Hg,La)Ba2Ca3(Cu,Ag)4O10-z" Hg0.3La0.7Ba2Ca3Cu2.8Ag1.2O10-z Hg 0.3 La 0.7 Ba 2 Ca 3 Cu 2.8 Ag 1.2 O 10-z 1 2016 AB2C3D4E10 Hg1234 K 126.9 126.9 MHC156386 solid state reaction AC susceptibility of the Hg0.3La0.7Ba2Ca3(Cu0.95Ag0.5)4O10+z superconductor 2016 "Department of Physics, Faculty of Science, University of Cairo, Giza, Egypt" "Physica C, 528(2016)12"
156387 PHC5280012 "Hirr = [(1-Tirr)/Tc(0)]^n, where n = 2.74 for H > 400 Oe." "(Hg,La)Ba2Ca3(Cu,Ag)4O10-z" Hg0.3La0.7Ba2Ca3Cu2Ag2O10-z Hg 0.3 La 0.7 Ba 2 Ca 3 Cu 2 Ag 2 O 10-z 1 2016 AB2C3D4E10 Hg1234 K 106.7 106.7 MHC156386 solid state reaction AC susceptibility of the Hg0.3La0.7Ba2Ca3(Cu0.95Ag0.5)4O10+z superconductor 2016 "Department of Physics, Faculty of Science, University of Cairo, Giza, Egypt" "Physica C, 528(2016)12"
156388 PHC5280023 "(Bi,Co)4O4S3" Bi3.925Co0.075S3O4 Bi 3.925 Co 0.075 S 3 O 4 1 2016 A3B4C4 A 3.9619 41.296 K 3.95 4.83 4.39 uOhm.cn 4.41 "Bi(4N),Bi2O3(4N), S(5N),Co3O4(4N)" "mixture - pellet - sealed in quartz tube - heat to 510C - keep(510C,10h) - cool to RT" Co-doping induced coexistence of superconductivity and ferromagnetism in Bi3.9Co0.1O4S3 2016 "Department of Physics, Shanghai University, Shanghai 2004 4 4, China" "Physica C, 528(2016)23"
156389 PHC5280023 "M-H curves below Tc, show coexistence of SC and FM" "(Bi,Co)4O4S3" Bi3.9Co0.1S3O4 Bi 3.9 Co 0.1 S 3 O 4 1 2016 A3B4C4 A 3.9595 41.286 K 4.96 5.5 5.23 uOhm.cn 3.1 "Bi(4N),Bi2O3(4N), S(5N),Co3O4(4N)" "mixture - pellet - sealed in quartz tube - heat to 510C - keep(510C,10h) - cool to RT" Co-doping induced coexistence of superconductivity and ferromagnetism in Bi3.9Co0.1O4S3 2016 "Department of Physics, Shanghai University, Shanghai 2004 4 4, China" "Physica C, 528(2016)23"
156390 PHC5280023 "(Bi,Co)4O4S3" Bi3.875Co0.125S3O4 Bi 3.875 Co 0.125 S 3 O 4 1 2016 A3B4C4 A 3.9578 41.272 K 3.95 4.57 4.26 uOhm.cn 2.42 "Bi(4N),Bi2O3(4N), S(5N),Co3O4(4N)" "mixture - pellet - sealed in quartz tube - heat to 510C - keep(510C,10h) - cool to RT" Co-doping induced coexistence of superconductivity and ferromagnetism in Bi3.9Co0.1O4S3 2016 "Department of Physics, Shanghai University, Shanghai 2004 4 4, China" "Physica C, 528(2016)23"
156391 PHC5280023 "(Bi,Co)4O4S3" Bi3.85Co0.15S3O4 Bi 3.85 Co 0.15 S 3 O 4 1 2016 A3B4C4 A 3.9571 41.265 K 3.65 4.26 3.955 uOhm.cn 1.61 "Bi(4N),Bi2O3(4N), S(5N),Co3O4(4N)" "mixture - pellet - sealed in quartz tube - heat to 510C - keep(510C,10h) - cool to RT" Co-doping induced coexistence of superconductivity and ferromagnetism in Bi3.9Co0.1O4S3 2016 "Department of Physics, Shanghai University, Shanghai 2004 4 4, China" "Physica C, 528(2016)23"
156392 PMB0950804 decant at 550 C. As-grown sample. RRR = 30. not SC YFe2Ge2 Y1Fe2Ge2 Y 1 Fe 2 Ge 2 3 2015 AB2C2 ThCr2Si2 K 0.05 "Flux method (Sn-flux). mixture(Y:Fe:Ge:Sn = 1:2.4:2:95) - inAl2O3 crucible - sealed in silica ampoule heat (1190C,2h) - cool to 300 - 500 C(decant) for 4 days." "Crystal growth and annealing study of fragile, non-bulk superconductivity in YFe2Ge2" 2015 "Department of Physics & Astronomy, Iowa State University, Ames 50011, USA; bAmes Laboratory, Iowa State University, Ames 50011, USA" "Phil.Magazine, 95(2015)804"
156393 PMB0950804 "decant at 550 C.ANN(500 C, 7days). RRR = 36" YFe2Ge2 Y1Fe2Ge2 Y 1 Fe 2 Ge 2 3 2015 AB2C2 ThCr2Si2 K 0.6 0.6 "Flux method (Sn-flux). mixture(Y:Fe:Ge:Sn = 1:2.4:2:95) - inAl2O3 crucible - sealed in silica ampoule heat (1190C,2h) - cool to 300 - 500 C(decant) for 4 days." "Crystal growth and annealing study of fragile, non-bulk superconductivity in YFe2Ge2" 2015 "Department of Physics & Astronomy, Iowa State University, Ames 50011, USA; bAmes Laboratory, Iowa State University, Ames 50011, USA" "Phil.Magazine, 95(2015)804"
156394 PMB0950804 "decant at 550 C. ANN(600 C, 10days). RRR = 38" YFe2Ge2 Y1Fe2Ge2 Y 1 Fe 2 Ge 2 3 2015 AB2C2 ThCr2Si2 K 0.9 0.9 "Flux method (Sn-flux). mixture(Y:Fe:Ge:Sn = 1:2.4:2:95) - inAl2O3 crucible - sealed in silica ampoule heat (1190C,2h) - cool to 300 - 500 C(decant) for 4 days." "Crystal growth and annealing study of fragile, non-bulk superconductivity in YFe2Ge2" 2015 "Department of Physics & Astronomy, Iowa State University, Ames 50011, USA; bAmes Laboratory, Iowa State University, Ames 50011, USA" "Phil.Magazine, 95(2015)804"
156395 PMB0950804 "decant at 550 C. ANN(800 C, 7days). RRR = 20. not SC" YFe2Ge2 Y1Fe2Ge2 Y 1 Fe 2 Ge 2 3 2015 AB2C2 ThCr2Si2 K 0.05 "Flux method (Sn-flux). mixture(Y:Fe:Ge:Sn = 1:2.4:2:95) - inAl2O3 crucible - sealed in silica ampoule heat (1190C,2h) - cool to 300 - 500 C(decant) for 4 days." "Crystal growth and annealing study of fragile, non-bulk superconductivity in YFe2Ge2" 2015 "Department of Physics & Astronomy, Iowa State University, Ames 50011, USA; bAmes Laboratory, Iowa State University, Ames 50011, USA" "Phil.Magazine, 95(2015)804"
156396 PMB0950804 "decant at 400 C. ANN(600 C, 7days). RRR = 57" YFe2Ge2 Y1Fe2Ge2 Y 1 Fe 2 Ge 2 3 2015 AB2C2 ThCr2Si2 K 1 1 "Flux method (Sn-flux). mixture(Y:Fe:Ge:Sn = 1:2.4:2:95) - inAl2O3 crucible - sealed in silica ampoule heat (1190C,2h) - cool to 300 - 500 C(decant) for 4 days." "Crystal growth and annealing study of fragile, non-bulk superconductivity in YFe2Ge2" 2015 "Department of Physics & Astronomy, Iowa State University, Ames 50011, USA; bAmes Laboratory, Iowa State University, Ames 50011, USA" "Phil.Magazine, 95(2015)804"
156397 PMB0950804 "decant at 300 C. ANN(600 C, 7days). RRR = 57" YFe2Ge2 Y1Fe2Ge2 Y 1 Fe 2 Ge 2 3 2015 AB2C2 ThCr2Si2 K 1.2 1.4 1.2 uOhm.cm 3.38 "Flux method (Sn-flux). mixture(Y:Fe:Ge:Sn = 1:2.4:2:95) - inAl2O3 crucible - sealed in silica ampoule heat (1190C,2h) - cool to 300 - 500 C(decant) for 4 days." "Crystal growth and annealing study of fragile, non-bulk superconductivity in YFe2Ge2" 2015 "Department of Physics & Astronomy, Iowa State University, Ames 50011, USA; bAmes Laboratory, Iowa State University, Ames 50011, USA" "Phil.Magazine, 95(2015)804"
156398 PPROC0810057 RRR = 3.4. not SC. NbIrSi Nb1Ir1Si1 Nb 1 Ir 1 Si 1 1 2016 ABC 3 Pnma A 6.408 3.794 7.273 K 0.28 uOhm.cm 301 "Nb(3N),Ta(3N),Ir(3N),Pt(3N),Si(5N)" arc-melting "Superconducting and Normal State Properties in the Ternary Silicide NbIrSi, TaIrSi and NbPtSi" 2016 "Graduate School of Science and Technology, Niigata University, 8050 Ikarashi 2-no-cho, Nishi-ku, Niigata, 950-2181, Japan" "Phys.Procedia, 81(2016)57"
156399 PPROC0810057 RRR = 2.0. R(T) not to zero at T=0.28 K. TaIrSi Ta1Ir1Si1 Ta 1 Ir 1 Si 1 1 2016 ABC 3 Pnma A 6.378 3.786 7.27 K 0.5 0.5 uOhm.cm 94 "Nb(3N),Ta(3N),Ir(3N),Pt(3N),Si(5N)" arc-melting "Superconducting and Normal State Properties in the Ternary Silicide NbIrSi, TaIrSi and NbPtSi" 2016 "Graduate School of Science and Technology, Niigata University, 8050 Ikarashi 2-no-cho, Nishi-ku, Niigata, 950-2181, Japan" "Phys.Procedia, 81(2016)57"
156400 PPROC0810057 NbPtSi Nb1Pt1Si1 Nb 1 Pt 1 Si 1 1 2016 ABC 3 Pnma A 6.424 3.823 7.381 K 1.24 1.27 0.07 1.24 T "R(mid), T^2 extrapolation" 1.15 MHC156400 A from Hc2 169 uOhm.cm 82 "Nb(3N),Ta(3N),Ir(3N),Pt(3N),Si(5N)" arc-melting "Superconducting and Normal State Properties in the Ternary Silicide NbIrSi, TaIrSi and NbPtSi" 2016 "Graduate School of Science and Technology, Niigata University, 8050 Ikarashi 2-no-cho, Nishi-ku, Niigata, 950-2181, Japan" "Phys.Procedia, 81(2016)57"
156401 PRB078064516 "Tc = 4.75 K , Hc(0) = 50 mT from SP and entropy balance, kappa(GL) = 3. (dC/gamma*Tc) = 1.75." ThPt4Ge4 Th1Pt4Ge12 Th 1 Pt 4 Ge 12 1 2008 AB4C12 skutterudite A 8.5931 LaFe4Sb12-type K 4.8 4.8 T "SP, WHH" 0.21 T/K SP 0.064 A "Hc(0), GL theoru" 4 A "Hc(0), GL theoru" 12 meV 0.72 3.6 14 mJ/mol.K2 35 SP uOhm.cm 3 "arc-melting - in quartz capsule - ANN(800C,2w)" "Superconductivity and spin fluctuations in {Th,U}Pt4Ge12 skutterudites" 2008 "Institute of Solid State Physics, Vienna University of Technology, A-1040 Wien, Austria" "Phys.Rev.B, 78(2008)064516"
156402 PRB078064516 "not SC. R(T) = R0 + A*T^n (R0 = 14.5 uOhm.cm, A = 0.42 uOhm.cm/K^(-1.5), n = 1.5" UPt4Ge4 U1Pt4Ge12 U 1 Pt 4 Ge 12 1 2008 AB4C12 skutterudite A 8.5887 LaFe4Sb12-type K 1.9 mJ/mol.K2 156 SP uOhm.cm 14.5 "arc-melting - in quartz capsule - ANN(800C,2w)" "Superconductivity and spin fluctuations in {Th,U}Pt4Ge12 skutterudites" 2008 "Institute of Solid State Physics, Vienna University of Technology, A-1040 Wien, Austria" "Phys.Rev.B, 78(2008)064516"
156403 PRB078024521 not SC For stoichiometric sample. SP contains Shottky type anomaly. Impure sampe contains FeP impurity ( Curie-T = 215 K) LaFePO La1Fe1P1O1 La 1 Fe 1 P 1 O 1 1 2008 ABCD oxypnictide P4/nmm 129 A 3.96306 8.5087 K 0.35 mJ/mol.K2 12.5 SP 340 SP uV/K -18.9 MTP156403 mOhm.cm 0.64 1.51 "LaP,Fe,Fe3O4" mixture - pellet - (pellet + 5%-excess P) - alimina crucible - heat to 1200C(180C/h) - keep(48h) - cool to RT(180C/h) - reground - ( with 5%-excess P) - same heat treatment Intrinsic properties of stoichiometric LaFePO 2008 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 78(2008)024521"
156404 PRB083184509 Thermodynamic Hc calculated from SP-data. Hc(0) = 37.0 mT. kappa(GL) = 19.5. (dC/gamma*Tc) = 1.84. La3Rh4Sn13 La3Rh4Sn13 La 3 Rh 4 Sn 13 3 2011 A3B4C13 Yb3Rh4Sn13 Pm3[-]n 223 A 9.7457 K 3.1 3.1 3.1 mT "from Hc, Hc2" 2.5 T "R(mid), polynominal fn fitting" 1.02 MHC156404 nm from Hc2 18 nm "Hc(0),Hc2, GL-eq." 401 meV 0.505 3.78 14 mJ/mol.K2 22.2 SP 284 SP "La(3N),Sr(3N),Rh(3N),Ir(3N),Sn(5N)" "Sn-flux method. starting((La or Sr):(Rh orIr):Sn = 1:1.33:10) - alumina crucible in quartz tube - heat(105C,3h) - cool to 200C (5C/h)" "Superconducting state in the ternary stannide superconductors R3T4Sn13 (R = La, Sr; T = Rh, Ir) with a quasiskutterudite structure" 2011 "Department of Physics and Mathematics, Aoyama-Gakuin University, Fuchinobe 5-10-1, Sagamihara, Kanagawa 229-8558, Japan" "Phys.Rev.B, 83(2011)184509"
156405 PRB083184509 Thermodynamic Hc calculated from SP-data. Hc(0) = 37.1 mT. kappa(GL) = 25.9. (dC/gamma*Tc) = 1.67. La3Ir4Sn13 La3Ir4Sn13 La 3 Ir 4 Sn 13 3 2011 A3B4C13 Yb3Rh4Sn13 Pm3[-]n 223 A 9.755 K 2.5 2.5 2.5 mT "from Hc, Hc2" 4.1 T "R(mid), polynominal fn fitting" 1.02 MHC156405 nm from Hc2 18 nm "Hc(0),Hc2, GL-eq." 509 meV 0.389 3.61 14 mJ/mol.K2 19.2 SP 296 SP "La(3N),Sr(3N),Rh(3N),Ir(3N),Sn(5N)" "Sn-flux method. starting((La or Sr):(Rh orIr):Sn = 1:1.33:10) - alumina crucible in quartz tube - heat(105C,3h) - cool to 200C (5C/h)" "Superconducting state in the ternary stannide superconductors R3T4Sn13 (R = La, Sr; T = Rh, Ir) with a quasiskutterudite structure" 2011 "Department of Physics and Mathematics, Aoyama-Gakuin University, Fuchinobe 5-10-1, Sagamihara, Kanagawa 229-8558, Japan" "Phys.Rev.B, 83(2011)184509"
156406 PRB083184509 Thermodynamic Hc calculated from SP-data. Hc(0) = 60.1 mT. kappa(GL) = 29.4. (dC/gamma*Tc) = 1.78. Sr3Rh4Sn13 Sr3Rh4Sn13 Sr 3 Rh 4 Sn 13 3 2011 A3B4C13 Yb3Rh4Sn13 Pm3[-]n 223 A 9.8048 K 4.15 4.15 4.15 mT "from Hc, Hc2" 4.7 T "R(mid), polynominal fn fitting" 2.5 MHC156404 nm from Hc2 11.5 nm "Hc(0),Hc2, GL-eq." 363 meV 0.692 3.87 14 mJ/mol.K2 31 SP 252 SP "La(3N),Sr(3N),Rh(3N),Ir(3N),Sn(5N)" "Sn-flux method. starting((La or Sr):(Rh orIr):Sn = 1:1.33:10) - alumina crucible in quartz tube - heat(105C,3h) - cool to 200C (5C/h)" "Superconducting state in the ternary stannide superconductors R3T4Sn13 (R = La, Sr; T = Rh, Ir) with a quasiskutterudite structure" 2011 "Department of Physics and Mathematics, Aoyama-Gakuin University, Fuchinobe 5-10-1, Sagamihara, Kanagawa 229-8558, Japan" "Phys.Rev.B, 83(2011)184509"
156407 PRB083184509 Thermodynamic Hc calculated from SP-data. Hc(0) = 78.2 mT. kappa(GL) = 32.0. (dC/gamma*Tc) = 2.09. Sr3Ir4Sn13 Sr3Ir4Sn13 Sr 3 Ir 4 Sn 13 3 2011 A3B4C13 Yb3Rh4Sn13 Pm3[-]n 223 A 9.8159 K 4.95 4.95 4.95 mT "from Hc, Hc2" 9.7 T "R(mid), polynominal fn fitting" 3.54 MHC156405 nm from Hc2 9.65 nm "Hc(0),Hc2, GL-eq." 328 meV 0.87 4.08 14 mJ/mol.K2 39.3 SP 184 SP "La(3N),Sr(3N),Rh(3N),Ir(3N),Sn(5N)" "Sn-flux method. starting((La or Sr):(Rh orIr):Sn = 1:1.33:10) - alumina crucible in quartz tube - heat(105C,3h) - cool to 200C (5C/h)" "Superconducting state in the ternary stannide superconductors R3T4Sn13 (R = La, Sr; T = Rh, Ir) with a quasiskutterudite structure" 2011 "Department of Physics and Mathematics, Aoyama-Gakuin University, Fuchinobe 5-10-1, Sagamihara, Kanagawa 229-8558, Japan" "Phys.Rev.B, 83(2011)184509"
156408 PRB086144526 CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 5 2012 ABC5 HoCoGa5 A 4.6199 7.5324 K 1.95 1.95 uOhm.cm 4.91 m3/C MRH156408 MBE method. Substrate = MgF2(001). T_{= 530-550 C. Evap. rate = 0.01 - 0.02 nm/s. Thickness = 120 nm. Compositions by EDX. Strong suppression of superconductivity by divalent ytterbium Kondo holes in CeCoIn5 2012 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 86(2012)144526"
156409 PRB086144526 "(Ce,Yb)CoIn5" Ce0.98Yb0.02Co1In5 Ce 0.98 Yb 0.02 Co 1 In 5 5 2012 ABC5 HoCoGa5 A 7.5322 K 1.89 1.89 MTC156409 uOhm.cm 6.09 m3/C MRH156409 MBE method. Substrate = MgF2(001). T_{= 530-550 C. Evap. rate = 0.01 - 0.02 nm/s. Thickness = 120 nm. Compositions by EDX. Strong suppression of superconductivity by divalent ytterbium Kondo holes in CeCoIn5 2012 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 86(2012)144526"
156410 PRB086144526 "(Ce,Yb)CoIn5" Ce0.95Yb0.05Co1In5 Ce 0.95 Yb 0.05 Co 1 In 5 5 2012 ABC5 HoCoGa5 A 4.6218 7.5309 K 1.73 1.73 uOhm.cm 8.27 m3/C MRH156410 MBE method. Substrate = MgF2(001). T_{= 530-550 C. Evap. rate = 0.01 - 0.02 nm/s. Thickness = 120 nm. Compositions by EDX. Strong suppression of superconductivity by divalent ytterbium Kondo holes in CeCoIn5 2012 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 86(2012)144526"
156411 PRB086144526 "(Ce,Yb)CoIn5" Ce0.9Yb0.1Co1In5 Ce 0.9 Yb 0.1 Co 1 In 5 5 2012 ABC5 HoCoGa5 A 4.6186 7.5292 K 1.47 1.47 uOhm.cm 13.8 m3/C MRH156411 MBE method. Substrate = MgF2(001). T_{= 530-550 C. Evap. rate = 0.01 - 0.02 nm/s. Thickness = 120 nm. Compositions by EDX. Strong suppression of superconductivity by divalent ytterbium Kondo holes in CeCoIn5 2012 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 86(2012)144526"
156412 PRB086144526 "(Ce,Yb)CoIn5" Ce0.85Yb0.15Co1In5 Ce 0.85 Yb 0.15 Co 1 In 5 5 2012 ABC5 HoCoGa5 A 4.6214 7.5218 K 1.19 1.19 uOhm.cm 16.8 MBE method. Substrate = MgF2(001). T_{= 530-550 C. Evap. rate = 0.01 - 0.02 nm/s. Thickness = 120 nm. Compositions by EDX. Strong suppression of superconductivity by divalent ytterbium Kondo holes in CeCoIn5 2012 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 86(2012)144526"
156413 PRB086144526 "(Ce,Yb)CoIn5" Ce0.8Yb0.2Co1In5 Ce 0.8 Yb 0.2 Co 1 In 5 5 2012 ABC5 HoCoGa5 A 4.6216 7.5146 K 0.92 0.92 uOhm.cm 22.5 MBE method. Substrate = MgF2(001). T_{= 530-550 C. Evap. rate = 0.01 - 0.02 nm/s. Thickness = 120 nm. Compositions by EDX. Strong suppression of superconductivity by divalent ytterbium Kondo holes in CeCoIn5 2012 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 86(2012)144526"
156414 PRB088020505 "(Sn,In)Te" Sn0.8In0.2Te1 Sn 0.8 In 0.2 Te 1 3 2013 AB A 6.2976 K 2.71 2.97 2.97 T "RES(onset), WHH" 1.08 T/K RES(onset) 0.58 MHC156414 poly crystal samples - set in floating zone system in 1 bar Ar. growth velocity = 0.5-1.0 mm/h. Optimizing the superconducting transition temperature and upper critical field of Sn1-xInxTe 2013 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 88(2013)020505"
156415 PRB088020505 "(Sn,In)Te" Sn0.7In0.3Te1 Sn 0.7 In 0.3 Te 1 3 2013 AB A 6.2887 K 3.22 3.68 3.68 T "RES(onset), WHH" 1.18 T/K RES(onset) 0.55 MHC156414 poly crystal samples - set in floating zone system in 1 bar Ar. growth velocity = 0.5-1.0 mm/h. Optimizing the superconducting transition temperature and upper critical field of Sn1-xInxTe 2013 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 88(2013)020505"
156416 PRB088020505 "(Sn,In)Te" Sn0.6In0.4Te1 Sn 0.6 In 0.4 Te 1 3 2013 AB A 6.2772 K 4.18 4.27 4.27 MTC156416 T "RES(onset), WHH" 1.42 T/K RES(onset) 0.49 MHC156416 poly crystal samples - set in floating zone system in 1 bar Ar. growth velocity = 0.5-1.0 mm/h. Optimizing the superconducting transition temperature and upper critical field of Sn1-xInxTe 2013 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 88(2013)020505"
156417 PRB088020505 small amount of 2nd phase by XRD "(Sn,In)Te" Sn0.55In0.45Te1 Sn 0.55 In 0.45 Te 1 3 2013 AB A 6.2743 K 4.5 4.46 4.46 T "RES(onset), WHH" 1.49 T/K RES(onset) 0.48 MHC156416 poly crystal samples - set in floating zone system in 1 bar Ar. growth velocity = 0.5-1.0 mm/h. Optimizing the superconducting transition temperature and upper critical field of Sn1-xInxTe 2013 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 88(2013)020505"
156418 PRB088020505 "(Sn,In)Te" Sn0.7In0.3Te1 Sn 0.7 In 0.3 Te 1 1 2013 AB A 6.2875 K 3.51 3.51 MTC156418 "Sn(4N),In(4N),Te(5N)" mixture - sealed in quartz ampoule - heat (850C) - cool to RT over 24h Optimizing the superconducting transition temperature and upper critical field of Sn1-xInxTe 2013 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 88(2013)020505"
156419 PRB089020505 RRR = 6. Tc(SP) = 3.72 K. Hc(0) = 57.4 mT from Hc1/Hc2. Lattice term in SP (beta) = 2.67 mJ/mol.K4. (dC/gamma*Tc) = 1.41. e-ph = 0.74.kappa(GL) = 17. Hc2(0) = 1.47 T from Hc2=Hc2(0)(1-t^1.5)^1.5 PbTaSe2 Pb1Ta1Se2 Pb 1 Ta 1 Se 2 1 2014 ABC2 "layer sequence, TaSe2-Pb-TaSe2-" K 3.7 3.79 3.7 0.15 3.7 mT "M-H curve, (1-t^2) dependence" 7.5 T "RES(onset), WHH" 1.19 T/K RES(onset) 0.46 MHC156419 nm from Hc2 15 nm calc. from Hc1 248 mJ/mol.K2 6.9 SP 112 Debye & Einstein model "PbSe,TaSe2.Ta" "mixture(PbSe,TaSe2,Ta) - sealed in quartz tube in PbSe atmosphere - heat(800C,1w)" Noncentrosymmetric superconductor with a bulk three-dimensional Dirac cone gapped by strong spin-orbit coupling 2014 "Department of Chemistry, Princeton University, Princeton New Jersey, 08544, USA" "Phys.Rev.B, 89(2014)020505"
156420 PRB089140504 "<195>Pt-NMR, <75>As-NQR measured. [penet] calculated from NMR fitting.. Tc(H=0.0842 T) = 1.43 K." SrPtAs Sr1Pt1As1 Sr 1 Pt 1 As 1 1 2014 ABC KZnAs K 2.4 2.4 nm NMR "Sr,Pt,PtAs2" "mixture - alumina crucible - heat(700C,3h + 1000C,24h) - reground - pellet - wrapped in Ta foil - heat(800C,2h)" Spin-singlet superconductivity with a full gap in locally noncentrosymmetric SrPtAs 2014 "Department of Physics, and Research Center of New Functional Materials for Energy Production, Storage and Transport, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 89(2014)140504"
156421 PRB091020507 RRR = 50.Pauli limit = 11T. (dC/gamma*Tc) = 2.2. kappa(GL) = 100. H-direction : // means H//rod direction. C/T vs T graph in Fig.4. K2Cr3As3 K2Cr3As3 K 2 Cr 3 As 3 3 2015 emu/mol 0.0007 myu-B/f.u 0.36 -40 A2B3C3 K2Cr3As3 A 9.983 4.23 K 6.1 6.1 MTC156421 K/GPa -0.34 mT M-T curve 7 2 T "RES(offset), WHH" 534 312 T/K RES(offset) 12 7 MHC156421 mJ/mol.K2 73 "SP,For 7As-NMR measured. multiple fully gapped SC. "(Y,La)FeAsO1-z" Y0.95La0.05Fe1As1H0.15O1-z Y 0.95 La 0.05 Fe 1 As 1 H 0.15 O 1-z 1 2012 oxypnictide A 3.863 8.337 "Fe-1111, or La-1111" K 50 50 High-pressure synthesis "High-Tc Nodeless s<+-> -wave Superconductivity in (Y,La)FeAsO1-y with Tc = 50 K: <75>As-NMR Study" 2012 "Graduate School of Engineering Science, Osaka University, Osaka 560-8531, Japan" "Phys.Rev.Lett., 109(2012)157001"
156432 PRL111087001 Topological insulator. P = 5.5 GPa. not SC Bi2Se3 Bi2Se3 Bi 2 Se 3 3 2013 A2B3 R-3m K 0 n/cm3 2.40E+19 Modified Bridgman method using excess Se. Pressure-Induced Unconventional Superconducting Phase in the Topological Insulator Bi2Se3 2013 "Department of Physics, Center for Nanophysics and Advanced Materials, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.Lett., 111(2013)087001"
156433 PRL111087001 Topological SC. SC-properties at P = 20.8 GPa. Bi2Se3 Bi2Se3 Bi 2 Se 3 3 2013 A2B3 C2/m monoclinic K 2.42 0 2.42 T "RES(mid), WHH" 2.28 MHC156433 MRH156433 n/cm3 1.68E+21 Modified Bridgman method using excess Se. Pressure-Induced Unconventional Superconducting Phase in the Topological Insulator Bi2Se3 2013 "Department of Physics, Center for Nanophysics and Advanced Materials, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.Lett., 111(2013)087001"
156434 PRL111087001 Topological SC. SC-properties at P = 34.4 GPa. Bi2Se3 Bi2Se3 Bi 2 Se 3 3 2013 A2B3 C2/m bcc-like K 6.86 0 6.86 MTC156434 T "RES(mid), WHH" 3.84 n/cm3 2.14E+22 Modified Bridgman method using excess Se. Pressure-Induced Unconventional Superconducting Phase in the Topological Insulator Bi2Se3 2013 "Department of Physics, Center for Nanophysics and Advanced Materials, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.Lett., 111(2013)087001"
156435 PRL111087001 Topological SC. SC-properties at P = 50.1 GPa. Bi2Se3 Bi2Se3 Bi 2 Se 3 3 2013 A2B3 C2/m bcc-like K 7.01 0 7.01 T "RES(mid), WHH" 3.38 MHC156435 n/cm3 2.60E+22 Modified Bridgman method using excess Se. Pressure-Induced Unconventional Superconducting Phase in the Topological Insulator Bi2Se3 2013 "Department of Physics, Center for Nanophysics and Advanced Materials, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.Lett., 111(2013)087001"
156436 PSSL0080928 "RRR = 41. Hc2(0) = 1.7 T from extrapolation. Polycrystals with RRR=30-50, show fully SC transitions." YFe2Ge2 Y1Fe2Ge2 Y 1 Fe 2 Ge 2 1 2014 AB2C2 ThCr2Si2 A 3.964 10.457 K 1.4 1.8 1.5 1.4 80 T WHH 2.8 T/K RES(on) 2.4 MHC156436 A from Hc2 108 MSP156436 "Y(3N),Fe(4N),Ge(6N)" "mixture - melt in water cooled Cu-boat - ANN(800C,7 days)" Fermi liquid breakdown and evidence for superconductivity in YFe2Ge2 2014 "Cavendish Laboratory, University of Cambridge, J. J. Thomson Ave, Cambridge CB3 0HE, UK" "Phys.Status Solidi RRL, 8(2014)928"
156437 SCIR0032016 "Topological insulator, not SC SC-critical P = 4 GPa." Sb2Te3 Sb2Te3 Sb 2 Te 3 3 2013 A2B3 R-3m A 4.3225 30.8679 K 1.5 Sb(5N).Te(5N) "mixture - press into pills - quartz Bridgman ampoule - heat(800C,3d) - cool to 300C with 5C/h" Superconductivity in Topological Insulator Sb2Te3 Induced by Pressure 2013 "Beijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China," "Sci. Rep., 3(2013)2016"
156438 SCIR0032016 P = 6.7 GPa. P-induced SC. carrier conc. shows at 218 K. Sb2Te3 Sb2Te3 Sb 2 Te 3 3 2013 A2B3 R-3m A 4.1143 29.17 K 4.3 1.5 4.3 MTC156438 K/GPa 0.45 T "RES(on), WHH" 2.6 MHC156438 n/cm3 1.38E+21 Sb(5N).Te(5N) "mixture - press into pills - quartz Bridgman ampoule - heat(800C,3d) - cool to 300C with 5C/h" Superconductivity in Topological Insulator Sb2Te3 Induced by Pressure 2013 "Beijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China," "Sci. Rep., 3(2013)2016"
156439 SCIR0032016 P = 8.6 GPa. P-induced SC. Sb2Te3 Sb2Te3 Sb 2 Te 3 3 2013 A2B3 R-3m K 6.2 1.5 6.2 Sb(5N).Te(5N) "mixture - press into pills - quartz Bridgman ampoule - heat(800C,3d) - cool to 300C with 5C/h" Superconductivity in Topological Insulator Sb2Te3 Induced by Pressure 2013 "Beijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China," "Sci. Rep., 3(2013)2016"
156440 SCIR0032016 P = 19.6 GPa. P-induced SC. Sb2Te3 Sb2Te3 Sb 2 Te 3 3 2013 A2B3 C2/m K 6.97 1.5 6.97 MTC156440 Sb(5N).Te(5N) "mixture - press into pills - quartz Bridgman ampoule - heat(800C,3d) - cool to 300C with 5C/h" Superconductivity in Topological Insulator Sb2Te3 Induced by Pressure 2013 "Beijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China," "Sci. Rep., 3(2013)2016"
156441 SCIR0032016 P = 30.6 GPa. P-induced SC. Sb2Te3 Sb2Te3 Sb 2 Te 3 3 2013 A2B3 Im-3m K 7.24 1.5 7.24 Sb(5N).Te(5N) "mixture - press into pills - quartz Bridgman ampoule - heat(800C,3d) - cool to 300C with 5C/h" Superconductivity in Topological Insulator Sb2Te3 Induced by Pressure 2013 "Beijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China," "Sci. Rep., 3(2013)2016"
156442 SCM0580016 "R(T) = 0.657 + 0.00524*T(mOhm.cm). Hp = 4.0 T. SC-vol = 6%(T=1.9K), Lattice term in SP (beta) = 3.8 mJ/mol.K4" Cs2Cr3As3 Cs2Cr3As3 Cs 2 Cr 3 As 3 1 2015 emu/mol 0.002 myu-B/Cr 0.14 -5.5 A2B3C3 K2Cr3As3 P6[-]m2 187 A 10.605 4.2478 K 2.2 2.2 T "RES(on),GL-fitting" 6.45 6 0.44 MHC156442 MSP156442 mJ/mol.K2 39 SP 160 SP "Cs,Cr,As" "solid state reaction. mixture(with 3%-excess of Cs) - sealed in quartz ampoule - homogenize(423K,15h) - pellet - sealed in Ta tube) - heat(973K,24h)" Superconductivity in quasi-one-dimensional Cs2Cr3As3 with large interchain distance 2015 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Sci.China Mater., 58(2015)16"
156443 SNM0283173 Tc(onset) = 3.75 K. Upward curvature of Hc2(T) fitting by modified two band calculation. PbTaSe2 Pb1Ta1Se2 Pb 1 Ta 1 Se 2 1 2015 ABC2 K 3.26 3.38 3.53 3.38 MTC156443 T "RES(0.9Rn), two band fitting" 3.05 MHC156443 uV/K -6.44 MTP156443 solid state reaction. See Phys.Rev.B 89(2014)020505 Upward Curvature of the Upper Critical Field and the V-Shaped Pressure Dependence of Tc in the Noncentrosymmetric Superconductor PbTaSe2 2015 "Department of Physics and Hangzhou Key Laboratory of Quantum Matters, Hangzhou Normal University, Hangzhou 310036, China" "J.Supercond.Nov.Magn., 28(2015)3173"
156444 SSC2230040 "Nd(O,F)Bi1-xPbxS2" Nd1Bi0.99Pb0.01S2F0.3O0.7 Nd 1 Bi 0.99 Pb 0.01 S 2 F 0.3 O 0.7 3 2015 P4/nmm A 13.53 BiS2 layered SC K 4.85 4.85 "Bi,Bi2S3,Bi2O3,BiF3,Nd2S3,PbO" "Crystals grown by CsCl-flux method. Nominal mixture mixed with CsCl powder - sealed in quartz tube - heat(800C,10h) - cool to 630C,0.5 or 1.0 C/h - remove the flux." Enhancement of Tc in BiS2-based superconductors NdO0.7F0.3BiS2 by substitution of Pb for Bi 2015 "Tokyo University of Science, Department of Physics, Kagurazaka, Shinjyuku-ku, Tokyo 162-8601, Japan" "Solid State Commun., 223(2015)40"
156445 SSC2230040 "R(T) = R(0) + A*T^n, where R(0) = 0.049 mOhm.cm, A=1.20E-4, n=0.98" "Nd(O,F)Bi1-xPbxS2" Nd1Bi0.98Pb0.02S2F0.3O0.7 Nd 1 Bi 0.98 Pb 0.02 S 2 F 0.3 O 0.7 3 2015 P4/nmm A 3.9732 13.5219 BiS2 layered SC K 5.27 5.62 5.17 5.17 "Bi,Bi2S3,Bi2O3,BiF3,Nd2S3,PbO" "Crystals grown by CsCl-flux method. Nominal mixture mixed with CsCl powder - sealed in quartz tube - heat(800C,10h) - cool to 630C,0.5 or 1.0 C/h - remove the flux." Enhancement of Tc in BiS2-based superconductors NdO0.7F0.3BiS2 by substitution of Pb for Bi 2015 "Tokyo University of Science, Department of Physics, Kagurazaka, Shinjyuku-ku, Tokyo 162-8601, Japan" "Solid State Commun., 223(2015)40"
156446 SSC2230040 "Nd(O,F)Bi1-xPbxS2" Nd1Bi0.97Pb0.03S2F0.3O0.7 Nd 1 Bi 0.97 Pb 0.03 S 2 F 0.3 O 0.7 3 2015 P4/nmm A 13.5168 BiS2 layered SC K 5.37 5.37 "Bi,Bi2S3,Bi2O3,BiF3,Nd2S3,PbO" "Crystals grown by CsCl-flux method. Nominal mixture mixed with CsCl powder - sealed in quartz tube - heat(800C,10h) - cool to 630C,0.5 or 1.0 C/h - remove the flux." Enhancement of Tc in BiS2-based superconductors NdO0.7F0.3BiS2 by substitution of Pb for Bi 2015 "Tokyo University of Science, Department of Physics, Kagurazaka, Shinjyuku-ku, Tokyo 162-8601, Japan" "Solid State Commun., 223(2015)40"
156447 SSC2230040 "R(T) = R(0) + A*T^n, where R(0) = 0.173 mOhm.cm, A = 0.94E-4, n = 1.15" "Nd(O,F)Bi1-xPbxS2" Nd1Bi0.96Pb0.04S2F0.3O0.7 Nd 1 Bi 0.96 Pb 0.04 S 2 F 0.3 O 0.7 3 2015 P4/nmm A 3.9742 13.5123 BiS2 layered SC K 5.4 5.98 5.35 5.35 "Bi,Bi2S3,Bi2O3,BiF3,Nd2S3,PbO" "Crystals grown by CsCl-flux method. Nominal mixture mixed with CsCl powder - sealed in quartz tube - heat(800C,10h) - cool to 630C,0.5 or 1.0 C/h - remove the flux." Enhancement of Tc in BiS2-based superconductors NdO0.7F0.3BiS2 by substitution of Pb for Bi 2015 "Tokyo University of Science, Department of Physics, Kagurazaka, Shinjyuku-ku, Tokyo 162-8601, Japan" "Solid State Commun., 223(2015)40"
156448 SSC2230040 "R(T) = R(0) + A*T^n, where R(0) = 0.431 mOhm.cm, A = 1.76E-4, n = 1.27" "Nd(O,F)Bi1-xPbxS2" Nd1Bi0.94Pb0.06S2F0.3O0.7 Nd 1 Bi 0.94 Pb 0.06 S 2 F 0.3 O 0.7 3 2015 P4/nmm A 3.9757 13.5038 BiS2 layered SC K 5.65 6 5.56 5.56 MTC156448 "Bi,Bi2S3,Bi2O3,BiF3,Nd2S3,PbO" "Crystals grown by CsCl-flux method. Nominal mixture mixed with CsCl powder - sealed in quartz tube - heat(800C,10h) - cool to 630C,0.5 or 1.0 C/h - remove the flux." Enhancement of Tc in BiS2-based superconductors NdO0.7F0.3BiS2 by substitution of Pb for Bi 2015 "Tokyo University of Science, Department of Physics, Kagurazaka, Shinjyuku-ku, Tokyo 162-8601, Japan" "Solid State Commun., 223(2015)40"
156449 SSC2230040 "R(T) = R(0) + A*T^n, where R(0) = 0.3.5 mOhm.cm, A = 1.08E-4, n = 1.28" "Nd(O,F)Bi1-xPbxS2" Nd1Bi0.9Pb0.1S2F0.3O0.7 Nd 1 Bi 0.9 Pb 0.1 S 2 F 0.3 O 0.7 3 2015 P4/nmm A 3.9797 13.5008 BiS2 layered SC K 5.85 5.52 4.83 4.83 "Bi,Bi2S3,Bi2O3,BiF3,Nd2S3,PbO" "Crystals grown by CsCl-flux method. Nominal mixture mixed with CsCl powder - sealed in quartz tube - heat(800C,10h) - cool to 630C,0.5 or 1.0 C/h - remove the flux." Enhancement of Tc in BiS2-based superconductors NdO0.7F0.3BiS2 by substitution of Pb for Bi 2015 "Tokyo University of Science, Department of Physics, Kagurazaka, Shinjyuku-ku, Tokyo 162-8601, Japan" "Solid State Commun., 223(2015)40"
156450 SSC2420006 "impurity phases: BiNi, Bi" Bi3Ni Bi3Ni1 Bi 3 Ni 1 1 2016 AB3 CaLiSi2 Pnma A 8.8832 4.0997 11.4839 K 4.05 4.05 83 Oe M-H curve 50 3 "Bi,Ni,Fe" "mixture - sealed in quartz tube - heat(1000C,24h) - slow cool to RT" Superconductivity and magnetism in intermetallic Bi3Ni1-xFex superconductor 2016 "Departamento de Fisica, Universidade Estadual de Ponta Grossa, Av. Gen. Carlos Cavalcanti 4748, 84.030-000, Ponta Grossa, Parana, Brazil" "Solid State Commun., 242(2016)6"
156451 SSC2420006 "impurity phases: BiNi, Bi" Bi3Ni1-xFex Bi3Ni0.95Fe0.05 Bi 3 Ni 0.95 Fe 0.05 1 2016 AB3 CaLiSi2 Pnma A 8.8819 4.1002 11.483 K 4.08 4.08 "Bi,Ni,Fe" "mixture - sealed in quartz tube - heat(1000C,24h) - slow cool to RT" Superconductivity and magnetism in intermetallic Bi3Ni1-xFex superconductor 2016 "Departamento de Fisica, Universidade Estadual de Ponta Grossa, Av. Gen. Carlos Cavalcanti 4748, 84.030-000, Ponta Grossa, Parana, Brazil" "Solid State Commun., 242(2016)6"
156452 SSC2420006 "impurity phases: BiNi, Bi. At 4K, M-H curve shows FM behavior (M = 0.08 emu/g)" Bi3Ni1-xFex Bi3Ni0.9Fe0.1 Bi 3 Ni 0.9 Fe 0.1 1 2016 AB3 CaLiSi2 Pnma A 8.8837 4.10283 11.4876 K 4.06 4.06 79 "Bi,Ni,Fe" "mixture - sealed in quartz tube - heat(1000C,24h) - slow cool to RT" Superconductivity and magnetism in intermetallic Bi3Ni1-xFex superconductor 2016 "Departamento de Fisica, Universidade Estadual de Ponta Grossa, Av. Gen. Carlos Cavalcanti 4748, 84.030-000, Ponta Grossa, Parana, Brazil" "Solid State Commun., 242(2016)6"
156453 SST025112001 single crystal. Tc by specific heat. [penet] measured by magnetic force microscopy MFM. "Ba(Fe,Co)2As2" Ba1Fe1.84Co0.16As2 Ba 1 Fe 1.84 Co 0.16 As 2 3 2012 AB2C2 ThCr2Si2 K 22 22 nm MFM 310 FeAs-flux method Direct measurement of the magnetic penetration depth by magnetic force microscopy 2012 "Los Alamos National Laboratory, Los Alamos, NM 87545, USA" "Supercond.Sci.Technol., 25(2012)112001"
156454 SST025112001 "film, d = 300nm. [penet] measured by magnetic force microscopy MFM." Nb Nb1 Nb 1 4 2012 A K 8.8 8.8 nm MFM 110 electron beam deposition Direct measurement of the magnetic penetration depth by magnetic force microscopy 2012 "Los Alamos National Laboratory, Los Alamos, NM 87545, USA" "Supercond.Sci.Technol., 25(2012)112001"
156455 SST025112001 "Film, d = 500nm. [penet] measured by magnetic force microscopy MFM." MgB2 B2Mg1 B 2 Mg 1 4 2012 AB2 AlB2 K 38.3 38.3 nm MFM 200 reactive evaporation Direct measurement of the magnetic penetration depth by magnetic force microscopy 2012 "Los Alamos National Laboratory, Los Alamos, NM 87545, USA" "Supercond.Sci.Technol., 25(2012)112001"
156456 PRB093104508 "M = NH3, intercalated materials which can be assigned to the on-center structure." (NH3)yCsxFeSe M0.37Cs0.268Fe1Se1 M 0.37 Cs 0.268 Fe 1 Se 1 2016 I4/mmm A 3.8272 16.243 "At 30 K, a=3.8082, c=16.2442 A." K 33.5 35 33.5 33.5 MTC156456 25 Using Liq.-NH3 technique with nominal x = 0.4 in (NH3)yCsxFeAs Correlation of superconductivity with crystal structure in (NH3)yCsxFeSe 2016 "Research Laboratory for Surface Science, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 93(2016)104508"
156500 PRB093104522 "Dielectric const, and optical conduct. are measured for THz E-field //ab. T= 90 K (I-M transition defined as isosbestic point ). T = 61 K (means gap appears)." "Rb0.75Fe1.6(Se,S)2" Rb0.75Fe1.6Se2 Rb 0.75 Fe 1.6 Se 2 3 2016 AB2C2 ThCr2Si2 K 32 32 single crystals grown by Bridgman method Tuning orbital-selective correlations in superconducting Rb0.75Fe1.6Se2-zSz 2016 "Experimental Physics V, Center for Electronic Correlations and Magnetism, Institute of Physics, University of Augsburg, D-86135 Augsburg, Germany" "Phys.Rev.B, 93(2016)104522"
156501 PRB093104522 "Dielectric const, and optical conduct. are measured for THz E-field //ab. T= 80 K (I-M transition defined as isosbestic point ). T = 24 K (means gap appears)." "Rb0.75Fe1.6(Se,S)2" Rb0.75Fe1.6Se1.75S0.25 Rb 0.75 Fe 1.6 Se 1.75 S 0.25 3 2016 AB2C2 ThCr2Si2 K 24 24 single crystals grown by Bridgman method Tuning orbital-selective correlations in superconducting Rb0.75Fe1.6Se2-zSz 2016 "Experimental Physics V, Center for Electronic Correlations and Magnetism, Institute of Physics, University of Augsburg, D-86135 Augsburg, Germany" "Phys.Rev.B, 93(2016)104522"
156502 PRB093104522 "Dielectric const, and optical conduct. are measured for THz E-field //ab. T= 105 K (I-M transition defined as isosbestic point ). T = 28 K (means gap appears)." "Rb0.75Fe1.6(Se,S)2" Rb0.75Fe1.6Se1.5S0.5 Rb 0.75 Fe 1.6 Se 1.5 S 0.5 3 2016 AB2C2 ThCr2Si2 K 28 28 MTC156502 single crystals grown by Bridgman method Tuning orbital-selective correlations in superconducting Rb0.75Fe1.6Se2-zSz 2016 "Experimental Physics V, Center for Electronic Correlations and Magnetism, Institute of Physics, University of Augsburg, D-86135 Augsburg, Germany" "Phys.Rev.B, 93(2016)104522"
156503 PRB093104522 "Dielectric const, and optical conduct. are measured for THz E-field //ab. T= 120 K (I-M transition defined as isosbestic point ). T = 22 K (means gap appears)." "Rb0.75Fe1.6(Se,S)2" Rb0.75Fe1.6Se1S1 Rb 0.75 Fe 1.6 Se 1 S 1 3 2016 AB2C2 ThCr2Si2 K 22 22 single crystals grown by Bridgman method Tuning orbital-selective correlations in superconducting Rb0.75Fe1.6Se2-zSz 2016 "Experimental Physics V, Center for Electronic Correlations and Magnetism, Institute of Physics, University of Augsburg, D-86135 Augsburg, Germany" "Phys.Rev.B, 93(2016)104522"
156504 PRB093104522 "Dielectric const, and optical conduct. are measured for THz E-field //ab. T= 170 K (I-M transition defined as isosbestic point )." "Rb0.75Fe1.6(Se,S)2" Rb0.75Fe1.6Se0.6S1.4 Rb 0.75 Fe 1.6 Se 0.6 S 1.4 3 2016 AB2C2 ThCr2Si2 K 8 single crystals grown by Bridgman method Tuning orbital-selective correlations in superconducting Rb0.75Fe1.6Se2-zSz 2016 "Experimental Physics V, Center for Electronic Correlations and Magnetism, Institute of Physics, University of Augsburg, D-86135 Augsburg, Germany" "Phys.Rev.B, 93(2016)104522"
156505 ACS1383410 Conditions for CaRb-1144 phase formation discussed. CaKFe4As4 Ca1K1Fe4As4 Ca 1 K 1 Fe 4 As 4 1 2016 ABC4D4 CaRb1144 P4/mmm A 3.866 12.817 CaK-1144 K 33.4 33.1 33.1 "(Ca,Sr)As,(K,Rb,Cs)As,FeAs,Fe2As" "starting materials - ground - pellet - placed in SUS pipe - sealed with caps - heat(860-920C, 2-6h) - rapid cool to RT. Repeat process with addition of excess As (15-20 at.%)" "New-Structure-Type Fe-Based Superconductors: CaAFe4As4 (A = K, Rb, Cs) and SrAFe4As4 (A = Rb, Cs)" 2016 "National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "J.Am.Chem.Soc., 138(2016)3410"
156506 ACS1383410 Conditions for CaRb-1144 phase formation discussed. CaRbFe4As4 Ca1Rb1Fe4As4 Ca 1 Rb 1 Fe 4 As 4 1 2016 ABC4D4 CaRb1144 P4/mmm A 3.8757 13.104 CaRb-1144 K 34.6 35 35 "(Ca,Sr)As,(K,Rb,Cs)As,FeAs,Fe2As" "starting materials - ground - pellet - placed in SUS pipe - sealed with caps - heat(860-920C, 2-6h) - rapid cool to RT. Repeat process with addition of excess As (15-20 at.%)" "New-Structure-Type Fe-Based Superconductors: CaAFe4As4 (A = K, Rb, Cs) and SrAFe4As4 (A = Rb, Cs)" 2016 "National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "J.Am.Chem.Soc., 138(2016)3410"
156507 ACS1383410 Conditions for CaRb-1144 phase formation discussed. CaCsFe4As4 Ca1Cs1Fe4As4 Ca 1 Cs 1 Fe 4 As 4 1 2016 ABC4D4 CaRb1144 P4/mmm A 3.891 13.414 CaCs-1144 K 32 31.6 31.6 "(Ca,Sr)As,(K,Rb,Cs)As,FeAs,Fe2As" "starting materials - ground - pellet - placed in SUS pipe - sealed with caps - heat(860-920C, 2-6h) - rapid cool to RT. Repeat process with addition of excess As (15-20 at.%)" "New-Structure-Type Fe-Based Superconductors: CaAFe4As4 (A = K, Rb, Cs) and SrAFe4As4 (A = Rb, Cs)" 2016 "National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "J.Am.Chem.Soc., 138(2016)3410"
156508 ACS1383410 Conditions for CaRb-1144 phase formation discussed. SrRbFe4As4 Sr1Rb1Fe4As4 Sr 1 Rb 1 Fe 4 As 4 1 2016 ABC4D4 CaRb1144 P4/mmm A 3.897 13.417 SrRb-1144 K 35.7 35.1 35.1 "(Ca,Sr)As,(K,Rb,Cs)As,FeAs,Fe2As" "starting materials - ground - pellet - placed in SUS pipe - sealed with caps - heat(860-920C, 2-6h) - rapid cool to RT. Repeat process with addition of excess As (15-20 at.%)" "New-Structure-Type Fe-Based Superconductors: CaAFe4As4 (A = K, Rb, Cs) and SrAFe4As4 (A = Rb, Cs)" 2016 "National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "J.Am.Chem.Soc., 138(2016)3410"
156509 ACS1383410 Conditions for CaRb-1144 phase formation discussed. SrCsFe4As4 Sr1Cs1Fe4As4 Sr 1 Cs 1 Fe 4 As 4 1 2016 ABC4D4 CaRb1144 P4/mmm A 3.91 13.729 SrCs-1144 K 37 36.8 36.8 "(Ca,Sr)As,(K,Rb,Cs)As,FeAs,Fe2As" "starting materials - ground - pellet - placed in SUS pipe - sealed with caps - heat(860-920C, 2-6h) - rapid cool to RT. Repeat process with addition of excess As (15-20 at.%)" "New-Structure-Type Fe-Based Superconductors: CaAFe4As4 (A = K, Rb, Cs) and SrAFe4As4 (A = Rb, Cs)" 2016 "National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "J.Am.Chem.Soc., 138(2016)3410"
156510 ACS1383410 Conditions for CaRb-1144 phase formation discussed. BaCsFe4As4 Ba1Cs1Fe4As4 Ba 1 Cs 1 Fe 4 As 4 1 2016 ABC4D4 CaRb1144 P4/mmm A 3.927 14.136 BaCs-1144 K 26 26 "(Ca,Sr)As,(K,Rb,Cs)As,FeAs,Fe2As" "starting materials - ground - pellet - placed in SUS pipe - sealed with caps - heat(860-920C, 2-6h) - rapid cool to RT. Repeat process with addition of excess As (15-20 at.%)" "New-Structure-Type Fe-Based Superconductors: CaAFe4As4 (A = K, Rb, Cs) and SrAFe4As4 (A = Rb, Cs)" 2016 "National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "J.Am.Chem.Soc., 138(2016)3410"
156511 APA0310201 "prepared by sintering at T < 1200C, LT phase" TiRuP Ti1Ru1P1 Ti 1 Ru 1 P 1 1 1983 ABC 2 ZrRuSi A 6.303 3.567 K 1.3 1.3 The Superconductivity and Structure of Equiatomic Ternary Transition Metal Pnictides 1983 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Appl.Phys. A, 31(1983)201"
156512 APA0310201 prepared by arc melting. HT phase TiRuP Ti1Ru1P1 Ti 1 Ru 1 P 1 1 1983 ABC 2 ZrRuSi A 6.325 3.542 K 1.3 1.3 The Superconductivity and Structure of Equiatomic Ternary Transition Metal Pnictides 1983 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Appl.Phys. A, 31(1983)201"
156513 APA0310201 prepared by sintering at T < 1250C LT phase ZrRuP Zr1Ru1P1 Zr 1 Ru 1 P 1 1 1983 ABC 2 ZrRuSi A 6.426 3.856 K 3.89 3.89 The Superconductivity and Structure of Equiatomic Ternary Transition Metal Pnictides 1983 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Appl.Phys. A, 31(1983)201"
156514 APA0310201 prepared by arc melting. HT phase ZrRuP Zr1Ru1P1 Zr 1 Ru 1 P 1 1 1983 ABC 2 ZrRuSi A 6.459 3.778 K 12.93 12.93 The Superconductivity and Structure of Equiatomic Ternary Transition Metal Pnictides 1983 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Appl.Phys. A, 31(1983)201"
156515 APA0310201 prepared by sintering at T > 1250C HfRuP Hf1Ru1P1 Hf 1 Ru 1 P 1 1 1983 ABC 2 ZrRuSi A 6.414 3.753 K 10.8 10.8 The Superconductivity and Structure of Equiatomic Ternary Transition Metal Pnictides 1983 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Appl.Phys. A, 31(1983)201"
156516 APA0310201 prepared by sintering at T = 1250C TiOsP Ti1Os1P1 Ti 1 Os 1 P 1 1 1983 ABC 2 ZrRuSi A 6.285 3.625 K 0.35 The Superconductivity and Structure of Equiatomic Ternary Transition Metal Pnictides 1983 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Appl.Phys. A, 31(1983)201"
156517 APA0310201 prepared by sintering at T < 1200C. LT phase ZrOsP Zr1Os1P1 Zr 1 Os 1 P 1 1 1983 ABC 3 TiNiSi Pnma 62 A 6.432 3.895 7.327 K 0.35 The Superconductivity and Structure of Equiatomic Ternary Transition Metal Pnictides 1983 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Appl.Phys. A, 31(1983)201"
156518 APA0310201 prepared by sintering at T > 1200C. HT phase ZrOsP Zr1Os1P1 Zr 1 Os 1 P 1 1 1983 ABC 2 ZrRuSi A 6.46 3.842 K 7.4 7.4 The Superconductivity and Structure of Equiatomic Ternary Transition Metal Pnictides 1983 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Appl.Phys. A, 31(1983)201"
156519 APA0310201 prepared by sintering at T = 1000C HfOsP Hf1Os1P1 Hf 1 Os 1 P 1 1 1983 ABC 2 ZrRuSi A 6.417 3.792 K 6.1 6.1 The Superconductivity and Structure of Equiatomic Ternary Transition Metal Pnictides 1983 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Appl.Phys. A, 31(1983)201"
156520 APA0310201 prepared by sintering at T = 900C TiRuAs Ti1Ru1As1 Ti 1 Ru 1 As 1 1 1983 ABC 3 TiFeSi A 7.287 11.227 6.515 K 0.35 The Superconductivity and Structure of Equiatomic Ternary Transition Metal Pnictides 1983 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Appl.Phys. A, 31(1983)201"
156521 APA0310201 prepared by Cu-flux method. ZrRuAs Zr1Ru1As1 Zr 1 Ru 1 As 1 1 1983 ABC 2 ZrRuSi A 6.624 3.823 K 3.2 3.2 The Superconductivity and Structure of Equiatomic Ternary Transition Metal Pnictides 1983 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Appl.Phys. A, 31(1983)201"
156522 APA0310201 prepared by sintering at T = 900C ZrRuAs Zr1Ru1As1 Zr 1 Ru 1 As 1 1 1983 ABC 2 ZrRuSi A 6.586 3.891 K 11.9 11.9 The Superconductivity and Structure of Equiatomic Ternary Transition Metal Pnictides 1983 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Appl.Phys. A, 31(1983)201"
156523 APA0310201 prepared by sintering at T < 1000C LT phase HfRuAs Hf1Ru1As1 Hf 1 Ru 1 As 1 1 1983 ABC 3 TiFeSi A 7.527 11.416 6.631 K 1 The Superconductivity and Structure of Equiatomic Ternary Transition Metal Pnictides 1983 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Appl.Phys. A, 31(1983)201"
156524 APA0310201 prepared by sintering at T > 1000C HT phase HfRuAs Hf1Ru1As1 Hf 1 Ru 1 As 1 1 1983 ABC 2 ZrRuSi A 6.568 3.842 K 4.93 4.93 The Superconductivity and Structure of Equiatomic Ternary Transition Metal Pnictides 1983 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Appl.Phys. A, 31(1983)201"
156525 APA0310201 TiOsAs<2/3>P<1/3> "TiOs(As,P)" Ti1Os1As0.67P0.33 Ti 1 Os 1 As 0.67 P 0.33 1 1983 ABC 2 ZrRuSi A 6.366 3.574 K 1 The Superconductivity and Structure of Equiatomic Ternary Transition Metal Pnictides 1983 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Appl.Phys. A, 31(1983)201"
156526 APA0310201 prepared by sintering at T = 1200C ZrOsAs Zr1Os1As1 Zr 1 Os 1 As 1 1 1983 ABC 2 ZrRuSi A 6.602 3.794 K 8 8 The Superconductivity and Structure of Equiatomic Ternary Transition Metal Pnictides 1983 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Appl.Phys. A, 31(1983)201"
156527 APA0310201 prepared by sintering at T = 1200C HfOsAs Zr1Hf1As1 Zr 1 Hf 1 As 1 1 1983 ABC 2 ZrRuSi A 6.569 3.808 K 3.2 3.2 The Superconductivity and Structure of Equiatomic Ternary Transition Metal Pnictides 1983 "Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "Appl.Phys. A, 31(1983)201"
156528 APE008023102 "Bi2(O,F)S2" Bi2F0.6S2O0.4 Bi 2 F 0.6 S 2 O 0.4 1 2015 AB2C2 A 3.969 13.729 K 5.1 5.1 uV/K -33.2 MTP156528 Topotactic reaction. Bi2OS2 + (x/2)XeFe2 = Bi2(O1-xFx)S2 + (x/2)Xe + (x/2)O2 at 400C for 72 h. "Topotactic synthesis of a new BiS2-based superconductor Bi2(O,F)S2" 2015 "Department of Applied Chemistry, The University of Tokyo, Bunkyo, Tokyo 113-8656, Japan" "Appl.Phys. Express, 8(2015)023102"
156529 APE008023102 "Bi2(O,F)S2" Bi2F0.2S2O0.8 Bi 2 F 0.2 S 2 O 0.8 1 2015 AB2C2 A 3.964 13.761 K 3 3 Topotactic reaction. Bi2OS2 + (x/2)XeFe2 = Bi2(O1-xFx)S2 + (x/2)Xe + (x/2)O2 at 400C for 72 h. "Topotactic synthesis of a new BiS2-based superconductor Bi2(O,F)S2" 2015 "Department of Applied Chemistry, The University of Tokyo, Bunkyo, Tokyo 113-8656, Japan" "Appl.Phys. Express, 8(2015)023102"
156530 ASS3800237 "impurity phase:CuO. small grain size, growth direction along a-axis. coercive force = 48.8 Oe at 300K" "Cu(Cr,Fe)O2" Cu1Cr0.95Fe0.05O2 Cu 1 Cr 0.95 Fe 0.05 O 2 2016 ABC2 A 2.976 17.103 delafossite structure K 97 138 117.5 Ohm.cm 38 materials prepared using a self-combustion urea process. small Characterization of transparent superconductivity Fe-doped CuCrO2 delafossite oxide 2016 "Materials Science and Nanotechnology Program, Faculty of Science, Khon Kaen University, Khon Kaen 40002, Thailand" "Appl.Surface Sci., 380(2016)237"
156531 ASS3800237 "impurity phase:CuO. small grain size, growth direction along a-axis. coercive force = 72.5 Oe at 300K" "Cu(Cr,Fe)O2" Cu1Cr0.9Fe0.1O2 Cu 1 Cr 0.9 Fe 0.1 O 2 2016 ABC2 A 2.981 17.111 delafossite structure K 89 107 98 Ohm.cm 24 materials prepared using a self-combustion urea process. small Characterization of transparent superconductivity Fe-doped CuCrO2 delafossite oxide 2016 "Materials Science and Nanotechnology Program, Faculty of Science, Khon Kaen University, Khon Kaen 40002, Thailand" "Appl.Surface Sci., 380(2016)237"
156532 ASS3800237 "impurity phase:CuO. small grain size, growth direction along a-axis" "Cu(Cr,Fe)O2" Cu1Cr1O2 Cu 1 Cr 1 O 2 2016 ABC2 A 2.973 17.093 delafossite structure K 118 132 150 132 Ohm.cm 104 materials prepared using a self-combustion urea process. small Characterization of transparent superconductivity Fe-doped CuCrO2 delafossite oxide 2016 "Materials Science and Nanotechnology Program, Faculty of Science, Khon Kaen University, Khon Kaen 40002, Thailand" "Appl.Surface Sci., 380(2016)237"
156533 EPL10667002 Energy gaps measured by scanning tunnelig spectroscopy. Two gap-model (gap = 3.5 and 7.5 meV). Anisotropy = 30-50. "Nd(O,F)BiS2" Nd1F0.5Bi0.84S2O0.5 Nd 1 F 0.5 Bi 0.84 S 2 O 0.5 3 2014 ABCD2 BiS2-layer K 4.5 4.5 T "RES(0.9Rn), WHH" 40 0.833 MHC156533 meV 3.5 16.8 1 "polycrystal by solid state reaction - flux method using KCl/LiCL flux. (KCl:LiCl:(Nd(O,F)BiS2 = 15:10:1) - heat(750C,5d) - cool to 450C (5C/h)" Giant superconducting fluctuation and anomalous semiconducting normal state in NdO1-xFxBi1-yS2 single crystals 2014 "Center for Superconducting Physics and Materials, National Laboratory of Solid State Microstructures and Department of Physics, National Center of Microstructures and Quantum Manipulation, Nanjing University Nanjing 210093, China" "EuroPhys.Lett., 106(2014)67002"
156534 INT0710073 Curie-T measured by real part of ac-susceptibility. T = 4.2 K from another method. Co7Y9 Co7Y9 Co 7 Y 9 1 2016 5.13 A7B9 A 4.0471 11.517 K 3 3 "Y,Co,Pd" "arc-melting - wrapped in Ta-foil - sealed in quartz ampoule - ANN(620 c, 520 C, 420 C for a week at each temperature)" Superconductivity and ferromagnetism in Pd doped Y9Co7 2016 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Intermetallics, 71(2016)73"
156535 JPCM027022202 impurity phase = BaPt4As6. Tetra-to-ortho phase transition at 272 K. Two step SC transitions. high-Tc(=1.69K) phase. BaPt2As2 Ba1Pt2As2 Ba 1 Pt 2 As 2 3 2015 AB2C2 CeBe2Ge2 P4/nmm A 4.564 10.02 K 1.35 1.69 1.52 T "RES(on), WHH" 0.85 0.52 T/K RES(on) 0.76 0.52 MHC156535 A from Hc2 197 252 MSP156535 "self-flux method. mixture(PtAs2,Ba,Pt) - alumina crucible - sealed in quartz ampule heat to 1100C - keep (12h) - cool to 950C at 1.5 C/h - FC to RT" Superconductivity and structural distortion in BaPt2As2 2015 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "J.Phys.Condens.Matter, 27(2015)022202"
156536 JPCM027022202 impurity phase = BaPt4As6. Tetra-to-ortho phase transition at 272 K. Two step SC transitions. Low-Tc(=1.35K) phase. (dC/gamma*Tc) = 1.27. e-ph = 0.496 BaPt2As2 Ba1Pt2As2 Ba 1 Pt 2 As 2 3 2015 AB2C2 CeBe2Ge2 P4/nmm A 4.564 10.02 K 1.35 1.69 1.52 T "RES(zero), WHH" 0.58 0.33 T/K RES(zero) 0.62 0.35 MHC156535 A from Hc2 238 316 3.46 14 MSP156535 mJ/mol.K2 7.42 SP 227 SP "self-flux method. mixture(PtAs2,Ba,Pt) - alumina crucible - sealed in quartz ampule heat to 1100C - keep (12h) - cool to 950C at 1.5 C/h - FC to RT" Superconductivity and structural distortion in BaPt2As2 2015 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "J.Phys.Condens.Matter, 27(2015)022202"
156537 INT0710073 Curie-T measured by real part of ac-susceptibility. "Y9(Co,Pd)7" Y9Co6.95Pd0.05 Y 9 Co 6.95 Pd 0.05 1 2016 9.4 A7B9 A 4.0432 11.521 K 1.8 "Y,Co,Pd" "arc-melting - wrapped in Ta-foil - sealed in quartz ampoule - ANN(620 c, 520 C, 420 C for a week at each temperature)" Superconductivity and ferromagnetism in Pd doped Y9Co7 2016 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Intermetallics, 71(2016)73"
156538 INT0710073 Curie-T measured by real part of ac-susceptibility. "Y9(Co,Pd)7" Y9Co6.9Pd0.1 Y 9 Co 6.9 Pd 0.1 1 2016 9.8 A7B9 A 4.0473 11.525 K 1.8 "Y,Co,Pd" "arc-melting - wrapped in Ta-foil - sealed in quartz ampoule - ANN(620 c, 520 C, 420 C for a week at each temperature)" Superconductivity and ferromagnetism in Pd doped Y9Co7 2016 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Intermetallics, 71(2016)73"
156539 INT0710073 Curie-T measured by real part of ac-susceptibility. "Y9(Co,Pd)7" Y9Co6.8Pd0.2 Y 9 Co 6.8 Pd 0.2 1 2016 10.5 A7B9 A 4.0412 11.534 K 1.8 "Y,Co,Pd" "arc-melting - wrapped in Ta-foil - sealed in quartz ampoule - ANN(620 c, 520 C, 420 C for a week at each temperature)" Superconductivity and ferromagnetism in Pd doped Y9Co7 2016 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Intermetallics, 71(2016)73"
156540 JPCM027225701 [penet] measured by TDO. Energy gap estimated from [penet] (in DB) using fitting process and superfluid density (gap = 2.14 kTc) "Nd(O,F)BiS2" Nd1F0.3Bi1S2O0.7 Nd 1 F 0.3 Bi 1 S 2 O 0.7 3 2015 K 0.0076 myu-B/mol 1.97 -0.73 ABCD2 BiS2-layer SC K 4.7 4.7 100 nm TDO 447 kTc 1.95 3.9 1 Single crystals grown by flux method using CsCl/KCl as a flux. Evidence for nodeless superconductivity in NdO1-xFxBiS2 (x = 0.3 and 0.5) single crystals 2015 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou, Zhejiang 310058, People's Republic of China" "J.Phys.Condens.Matter, 27(2015)225701"
156541 JPCM027225701 [penet] measured by TDO. Energy gap estimated from [penet] (in DB) using fitting process and superfluid density (gap = 2.15 kTc) "Nd(O,F)BiS2" Nd1F0.5Bi1S2O0.5 Nd 1 F 0.5 Bi 1 S 2 O 0.5 3 2015 K 0.0154 myu-B/mol 2.8 -1.02 ABCD2 BiS2-layer SC K 4.4 4.4 70 nm TDO 480 kTc 1.92 3.84 1 Single crystals grown by flux method using CsCl/KCl as a flux. Evidence for nodeless superconductivity in NdO1-xFxBiS2 (x = 0.3 and 0.5) single crystals 2015 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou, Zhejiang 310058, People's Republic of China" "J.Phys.Condens.Matter, 27(2015)225701"
156542 JPS085064705 "Pb and Sn content measured by EDX: (Pb/Ti) = 0.42 , (Sn/Ti) = 0.002" (Pb1-xSnxSe)1.6(TiSe2)2 Pb1.16Ti2Se5.16 Pb 1.16 Ti 2 Se 5.16 3 2016 K 3.25 3.25 "Pb(3N),Sn(2N5),Ti(3N),Se(5N)" mixture(stoichiometric) - heat to 700C(1C/min) - keep(48h) - reground - heat to 900C(3C/min) - keep(16h). Single crystals grown by CVD method using SeCl4 as transport agent Superconductivity in a Misfit Phase That Combines the Topological Crystalline Insulator Pb1-xSnxSe with the CDW-Bearing Transition Metal Dichalcogenide TiSe2 2016 "Department of Chemistry, Princeton University, Princeton, NJ 08544, U.S.A." "J.Phys.Soc.Jpn, 85(2016)064705"
156543 JPS085064705 "Pb and Sn content measured by EDX: (Pb/Ti) = 0.52, (Sn/Ti) = 0.059" (Pb1-xSnxSe)1.6(TiSe2)2 Pb1.044Sn0.116Ti2Se5.16 Pb 1.044 Sn 0.116 Ti 2 Se 5.16 3 2016 K 4.19 4.19 "Pb(3N),Sn(2N5),Ti(3N),Se(5N)" mixture(stoichiometric) - heat to 700C(1C/min) - keep(48h) - reground - heat to 900C(3C/min) - keep(16h). Single crystals grown by CVD method using SeCl4 as transport agent Superconductivity in a Misfit Phase That Combines the Topological Crystalline Insulator Pb1-xSnxSe with the CDW-Bearing Transition Metal Dichalcogenide TiSe2 2016 "Department of Chemistry, Princeton University, Princeton, NJ 08544, U.S.A." "J.Phys.Soc.Jpn, 85(2016)064705"
156544 JPS085064705 "Pb and Sn content measured by EDX: (Pb/Ti) = 0.38, (Sn/Ti) = 0.132" (Pb1-xSnxSe)1.6(TiSe2)2 Pb0.928Sn0.232Ti2Se5.16 Pb 0.928 Sn 0.232 Ti 2 Se 5.16 3 2016 K 4.53 4.53 "Pb(3N),Sn(2N5),Ti(3N),Se(5N)" mixture(stoichiometric) - heat to 700C(1C/min) - keep(48h) - reground - heat to 900C(3C/min) - keep(16h). Single crystals grown by CVD method using SeCl4 as transport agent Superconductivity in a Misfit Phase That Combines the Topological Crystalline Insulator Pb1-xSnxSe with the CDW-Bearing Transition Metal Dichalcogenide TiSe2 2016 "Department of Chemistry, Princeton University, Princeton, NJ 08544, U.S.A." "J.Phys.Soc.Jpn, 85(2016)064705"
156545 JPS085064705 (Pb1-xSnxSe)1.6(TiSe2)2 Pb0.812Sn0.348Ti2Se5.16 Pb 0.812 Sn 0.348 Ti 2 Se 5.16 3 2016 K 4.02 4.02 "Pb(3N),Sn(2N5),Ti(3N),Se(5N)" mixture(stoichiometric) - heat to 700C(1C/min) - keep(48h) - reground - heat to 900C(3C/min) - keep(16h). Single crystals grown by CVD method using SeCl4 as transport agent Superconductivity in a Misfit Phase That Combines the Topological Crystalline Insulator Pb1-xSnxSe with the CDW-Bearing Transition Metal Dichalcogenide TiSe2 2016 "Department of Chemistry, Princeton University, Princeton, NJ 08544, U.S.A." "J.Phys.Soc.Jpn, 85(2016)064705"
156546 JPS085064705 "Pb and Sn content measured by EDX: (Pb/Ti) = 0.37 , (Sn/Ti) = 0.13. Lattice term in SP (beta) = 3.89 mJ/mol.K4. (dC/gamma*Tc) = 1.38. e-ph = 0.72. DOS = 2.73 states/eV.fu from gamma." (Pb1-xSnxSe)1.6(TiSe2)2 Pb0.696Sn0.464Ti2Se5.16 Pb 0.696 Sn 0.464 Ti 2 Se 5.16 3 2016 K 3.82 3.82 MTC156546 MSP156546 mJ/mol.K2 11.06 SP 161 SP "Pb(3N),Sn(2N5),Ti(3N),Se(5N)" mixture(stoichiometric) - heat to 700C(1C/min) - keep(48h) - reground - heat to 900C(3C/min) - keep(16h). Single crystals grown by CVD method using SeCl4 as transport agent Superconductivity in a Misfit Phase That Combines the Topological Crystalline Insulator Pb1-xSnxSe with the CDW-Bearing Transition Metal Dichalcogenide TiSe2 2016 "Department of Chemistry, Princeton University, Princeton, NJ 08544, U.S.A." "J.Phys.Soc.Jpn, 85(2016)064705"
156547 JPS085064705 (Pb1-xSnxSe)1.6(TiSe2)2 Pb0.58Sn0.58Ti2Se5.16 Pb 0.58 Sn 0.58 Ti 2 Se 5.16 3 2016 K 3.6 3.6 "Pb(3N),Sn(2N5),Ti(3N),Se(5N)" mixture(stoichiometric) - heat to 700C(1C/min) - keep(48h) - reground - heat to 900C(3C/min) - keep(16h). Single crystals grown by CVD method using SeCl4 as transport agent Superconductivity in a Misfit Phase That Combines the Topological Crystalline Insulator Pb1-xSnxSe with the CDW-Bearing Transition Metal Dichalcogenide TiSe2 2016 "Department of Chemistry, Princeton University, Princeton, NJ 08544, U.S.A." "J.Phys.Soc.Jpn, 85(2016)064705"
156548 JPS085064710 RRR = 11.2. Minor impurity phase: Fe-122(ThCr2Si2) type phase. magnetic order appears at 15 K. EuRbFe4As4 Eu1Rb1Fe4As4 Eu 1 Rb 1 Fe 4 As 4 1 2016 ABC4D4 P4/mmm 123 A 3.889 13.3 Fe-1144 K 35.8 36.2 36 36 T "RES(0.9Rn), WHH" 92 T/K RES(0.9Rn) 3.692 MHC156548 A from Hc2 18 "Solid state reaction. See J.Am.Chem.Soc., 138(2016)3410" Superconductivity in Fe-Based Compound EuAFe4As4 (A = Rb and Cs) 2016 "IMRA Material R&D Co., Ltd., Kariya, Aichi 448-0032, Japan" "J.Phys.Soc.Jpn, 85(2016)064710"
156549 JPS085064710 RRR = 11.2. Minor impurity phase: Fe-122(ThCr2Si2) type phase. magnetic order appears at 15 K. EuCsFe4As4 Eu1Cs1Fe4As4 Eu 1 Cs 1 Fe 4 As 4 1 2016 ABC4D4 P4/mmm 123 A 3.901 13.63 Fe-1144 K 34.9 35.1 35 35 T "RES(0.9Rn), WHH" 87.5 T/K RES(0.9Rn) 3.612 MHC156548 A from Hc2 19 "Solid state reaction. See J.Am.Chem.Soc., 138(2016)3410" Superconductivity in Fe-Based Compound EuAFe4As4 (A = Rb and Cs) 2016 "IMRA Material R&D Co., Ltd., Kariya, Aichi 448-0032, Japan" "J.Phys.Soc.Jpn, 85(2016)064710"
156550 JPS085073708 "P-induced SC. P = 2.1 GPa. Figure captuon: polishe ""P"" and polished and ANN(900c,2w) ""P+A. Tc defined as R(end). Surface polishing affects Tc. Tn defined as kink in R(T)." CeIrSi3 Ce1Ir1Si3 Ce 1 Ir 1 Si 3 3 2016 ABC3 BaNiSn3 K 1.6 0 1.6 MPH156550 "Ce(3N),Ir(3N),Si(5N)" "Czochralski- method - single crystal - ANN(900C,1w, in vac)" Superconductivity Induced by Surface Polishing in CeIrSi3 2016 "Department of Physics, Tohoku University, Sendai 980-8578, Japan" "J.Phys.Soc.Jpn, 85(2016)073708"
156551 JPS085094713 R(T)max at T=47 K. R-exponent n=0.95. (dC/Tc) = 1.6 J/mol.K2 CeCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2016 ABC5 HoCoGa5 K 2.25 2.25 T "R(zero), WHH" 15.5 T/K RES(zero) 10 MHC156552 "In-flux method. (Ce,Co,Ni,In with excess flux) - quartz tube(Ar) - heat(1050 C) - cool by two stage process." Superconductivity and Non-Fermi-Liquid Behavior in the Heavy-Fermion Compound CeCo1-xNixIn5 2016 "Faculty of Science, Ibaraki University, Mito 310-8512, Japan" "J.Phys.Soc.Jpn, 85(2016)094713"
156552 JPS085094713 R(T)max at T=47 K. R-exponent n=0.69 "Ce(Co,Ni)In5" Ce1Co0.95Ni0.05In5 Ce 1 Co 0.95 Ni 0.05 In 5 3 2016 ABC5 HoCoGa5 K 1.86 1.86 T "R(zero), WHH" 12.3 T/K RES(zero) 9.58 MHC156552 "In-flux method. (Ce,Co,Ni,In with excess flux) - quartz tube(Ar) - heat(1050 C) - cool by two stage process." Superconductivity and Non-Fermi-Liquid Behavior in the Heavy-Fermion Compound CeCo1-xNixIn5 2016 "Faculty of Science, Ibaraki University, Mito 310-8512, Japan" "J.Phys.Soc.Jpn, 85(2016)094713"
156553 JPS085094713 R(T)max at T=48 K. R-exponent n=0.64 "Ce(Co,Ni)In5" Ce1Co0.925Ni0.075In5 Ce 1 Co 0.925 Ni 0.075 In 5 3 2016 ABC5 HoCoGa5 K 1.69 1.69 MTC156554 T "R(zero), WHH" 9.8 T/K RES(zero) 8.44 MHC156552 "In-flux method. (Ce,Co,Ni,In with excess flux) - quartz tube(Ar) - heat(1050 C) - cool by two stage process." Superconductivity and Non-Fermi-Liquid Behavior in the Heavy-Fermion Compound CeCo1-xNixIn5 2016 "Faculty of Science, Ibaraki University, Mito 310-8512, Japan" "J.Phys.Soc.Jpn, 85(2016)094713"
156554 JPS085094713 R(T)max at T=50 K. R-exponent n=0.65. (dC/Tc) = 1.2 J/mol.K2 "Ce(Co,Ni)In5" Ce1Co0.875Ni0.125In5 Ce 1 Co 0.875 Ni 0.125 In 5 3 2016 myu-B/Ce 2.5 -87 ABC5 HoCoGa5 K 1.41 1.41 MTC156554 T "R(zero), WHH" 7.8 T/K RES(zero) 7.99 MHC156554 "In-flux method. (Ce,Co,Ni,In with excess flux) - quartz tube(Ar) - heat(1050 C) - cool by two stage process." Superconductivity and Non-Fermi-Liquid Behavior in the Heavy-Fermion Compound CeCo1-xNixIn5 2016 "Faculty of Science, Ibaraki University, Mito 310-8512, Japan" "J.Phys.Soc.Jpn, 85(2016)094713"
156555 JPS085094713 R(T)max at T=53.5 K. R-exponent n=0.71. (dC/Tc) = 0.34 J/mol.K2 "Ce(Co,Ni)In5" Ce1Co0.8Ni0.2In5 Ce 1 Co 0.8 Ni 0.2 In 5 3 2016 ABC5 HoCoGa5 K 0.88 0.88 T "R(zero), WHH" 5.5 T/K RES(zero) 9.06 MHC156554 "In-flux method. (Ce,Co,Ni,In with excess flux) - quartz tube(Ar) - heat(1050 C) - cool by two stage process." Superconductivity and Non-Fermi-Liquid Behavior in the Heavy-Fermion Compound CeCo1-xNixIn5 2016 "Faculty of Science, Ibaraki University, Mito 310-8512, Japan" "J.Phys.Soc.Jpn, 85(2016)094713"
156556 JPS085094713 R(T)max at T=59.7 K. R-exponent n=0.85 "Ce(Co,Ni)In5" Ce1Co0.75Ni0.25In5 Ce 1 Co 0.75 Ni 0.25 In 5 3 2016 ABC5 HoCoGa5 K 0 0.5 0 "In-flux method. (Ce,Co,Ni,In with excess flux) - quartz tube(Ar) - heat(1050 C) - cool by two stage process." Superconductivity and Non-Fermi-Liquid Behavior in the Heavy-Fermion Compound CeCo1-xNixIn5 2016 "Faculty of Science, Ibaraki University, Mito 310-8512, Japan" "J.Phys.Soc.Jpn, 85(2016)094713"
156557 JPS085094713 R(T)max at T=67.9 K. R-exponent n=1.0 "Ce(Co,Ni)In5" Ce1Co0.7Ni0.3In5 Ce 1 Co 0.7 Ni 0.3 In 5 3 2016 ABC5 HoCoGa5 K 0.5 "In-flux method. (Ce,Co,Ni,In with excess flux) - quartz tube(Ar) - heat(1050 C) - cool by two stage process." Superconductivity and Non-Fermi-Liquid Behavior in the Heavy-Fermion Compound CeCo1-xNixIn5 2016 "Faculty of Science, Ibaraki University, Mito 310-8512, Japan" "J.Phys.Soc.Jpn, 85(2016)094713"
156558 JPS085103701 HP-synthesis. Lattice term in sp (beta) = 0.813 mJ/mol.K4. (dC/gamma*Tc) = 1.54. dC = 9.6 mJ/mol.K HP-Sn0.8Ag0.2Te Sn0.8Ag0.2Te1 Sn 0.8 Ag 0.2 Te 1 1 2016 AB Fm3[-]m A 6.1767 K 2.1 2.1 T "RES(0.9Rn), extrapolation" 0.9 MHC156558 A from Hc2 200 MSP156558 mJ/mol.K2 2.95 SP 169 SP "Ag(3N),Sn(4N),Te(6N)" "High P synthesis. mixture - press to pellet - heat(500C,30min, P=2 GPa)" Specific Heat and Electrical Transport Properties of Sn0.8Ag0.2Te Superconductor 2016 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 85(2016)103701"
156559 JPS085105001 RRR = 8.1. Tc(SP) = 0.72 K. Lattice term in SP (beta) = 3.00 mJ/mol.K4. [gamma]n = [gamma](in DB) - gamma(0) = 65.5 - 16 = 50 mJ/mol.K2 Y6Nb4Al43 Y6Nb4Al43 Y 6 Nb 4 Al 43 1 2016 A4B6C43 P63<3>/mcm 193 A 11.06 17.758 cage structure K 0.86 0.86 T "RES(0.5Rn), WHH" 0.22 MHC156559 A from Hc2 387 MSP156559 mJ/mol.K2 65.5 SP 325 SP uOhm.cm 5.5 "Y(3N),Nb(3N),Mo(3N),Ta(3M),Al(5N)" "mixture - arc-melting several times - ANN(1000C,7d, in quartz tube(vac)" "Superconductivity in Y6Tr4Al43 (Tr = Nb, Mo, Ta) with Peanut-Shaped Cage Structure" 2016 "Graduate School of Science and Technology, Niigata University, Niigata 950-2181, Japan" "J.Phys.Soc.Jpn, 85(2016)105001"
156560 JPS085105001 RRR = 13.8. Tc(SP) = 0.75 K. Lattice term in SP (beta) = 1.47 mJ/mol.K4. [gamma]n = [gamma](in DB) - gamma(0) = 77.0 - 32 = 45 mJ/mol.K2 Y6Mo4Al43 Y6Mo4Al43 Y 6 Mo 4 Al 43 1 2016 A4B6C43 P63<3>/mcm 193 A 10.997 17.734 cage structure K 0.75 0.75 T "RES(0.5Rn), WHH" 0.175 MHC156560 A from Hc2 434 MSP156560 mJ/mol.K2 77 SP 412 SP uOhm.cm 2.5 "Y(3N),Nb(3N),Mo(3N),Ta(3M),Al(5N)" "mixture - arc-melting several times - ANN(1000C,7d, in quartz tube(vac)" "Superconductivity in Y6Tr4Al43 (Tr = Nb, Mo, Ta) with Peanut-Shaped Cage Structure" 2016 "Graduate School of Science and Technology, Niigata University, Niigata 950-2181, Japan" "J.Phys.Soc.Jpn, 85(2016)105001"
156561 JPS085105001 RRR = 5.5. Tc(SP) = 0.53 K. Lattice term in SP (beta) = 2.00 mJ/mol.K4. [gamma]n = [gamma](in DB) - gamma(0) = 60.8 - 10 = 51 mJ/mol.K2 Y6Ta4Al43 Y6Ta4Al43 Y 6 Ta 4 Al 43 1 2016 A4B6C43 P63<3>/mcm 193 A 11.087 17.895 cage structure K 0.68 0.68 T "RES(0.5Rn), WHH" 0.15 MHC156561 A from Hc2 468 MSP156561 mJ/mol.K2 60.8 SP 372 SP uOhm.cm 10.3 "Y(3N),Nb(3N),Mo(3N),Ta(3M),Al(5N)" "mixture - arc-melting several times - ANN(1000C,7d, in quartz tube(vac)" "Superconductivity in Y6Tr4Al43 (Tr = Nb, Mo, Ta) with Peanut-Shaped Cage Structure" 2016 "Graduate School of Science and Technology, Niigata University, Niigata 950-2181, Japan" "J.Phys.Soc.Jpn, 85(2016)105001"
156562 JPS085103701 Ambient pressure synthesis. sample did not show bulk SC above 1.8 K. AP-Sn0.8Ag0.2Te Sn0.8Ag0.2Te1 Sn 0.8 Ag 0.2 Te 1 1 2016 AB Fm3[-]m A 6.2365 K 1.2 1.2 MSP156562 Ambient pressure synthesis. mixture - heat in evacuated quartz tube) Specific Heat and Electrical Transport Properties of Sn0.8Ag0.2Te Superconductor 2016 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 85(2016)103701"
156563 JPSCP003015011 RRR = 120 for I//a and 66 for I//c. Tc = 2.30 K for I//c. Hc2(T) by SUS is isotropic. Hc2(T) measured by R(zero) is much higher than Hc2 by SUS. LaRhSi3 La1Rh1Si3 La 1 Rh 1 Si 3 3 2014 ABC3 BaNiSn3 I4mm 107 K 2.32 2.32 T "RES(zero), extrapolation" 0.126 MHC156563 uOhm.cm 0.21 0.48 "La(3N),Rh(3N),Si(5N)" "Czochrarski method - ANN(900C,1w, in vac)" Robust Zero Resistance under Magnetic Fields in Non-centrosymmetric Superconductor LaRhSi3 2014 "Department of Physics, Tohoku University, Sendai 980-8578, Japan" "J.Phys.Soc.Jpn, Conf.Proc., 3(2014)015011"
156564 JPS085104710 Sample(La-Bi2201). Details of samples not given. described only by hole concentration calculated from Seebeck coeff. S(290K). Gaps measured by ARPES. "Bi2(Sr,La)2CuO6" Bi2Sr1.6La0.4Cu1O6+z Bi 2 Sr 1.6 La 0.4 Cu 1 O 6+z 3 2016 Bi2201 K 32 32 MTC156564 13.6 9.85 single crystals grown by floating zone method "Carrier Concentration Dependence of Superconducting Gap of Bi2(Sr,La)2CuO6+z" 2016 "Department of Crystalline Materials Science, Nagoya University, Nagoya 464-8603, Japan" "J.Phys.Soc.Jpn, 85(2016)104710"
156565 MAT1502.04304 dTc/dP = -0.38 K/GPa for hydrostatic P < 2 GPa. (dTc/dP) = -0.76 K/GPa at P = 2.1 GPa. K2Cr3As3 K2Cr3As3 K 2 Cr 3 As 3 3 2015 A2B3C3 K2Cr3As3 K 6.1 6.1 MTC156565 K/GPa -0.38 flux method Reversible tuning of superconductivity in pressurized qausi-one-dimensional K2Cr3As3 (A=K and Rb) 2015 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" cond-mat/1502.04304
156566 MAT1502.04304 Rb2Cr3As3 Rb2Cr3As3 Rb 2 Cr 3 As 3 3 2015 A2B3C3 K2Cr3As3 K 4.8 4.8 MTC156566 -0.814 flux method Reversible tuning of superconductivity in pressurized qausi-one-dimensional K2Cr3As3 (A=K and Rb) 2015 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" cond-mat/1502.04304
156567 MMM2700051 not SC. RRR = 32 YFe2Ge2 Y1Fe2Ge2 Y 1 Fe 2 Ge 2 3 2004 emu/mol 0.003 AB2C2 ThCr2Si2 I4/mmm A 3.968 10.463 Fe-122 K 1.8 mJ/mol.K2 60 SP 280 SP uOhm.cm 5.4 Flux method using Sn-flux "Anisotropic magnetization, specific heat and resistivity of RFe2Ge2 single crystals" 2004 "Ames Laboratory Condensed Matter Physics, Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J.Magn.Magn.Mater., 270(2004)51"
156568 MMM2700051 not SC. RRR = 23 LuFe2Ge2 Lu1Fe2Ge2 Lu 1 Fe 2 Ge 2 3 2004 emu/mol 0.003 AB2C2 ThCr2Si2 I4/mmm A 3.914 10.395 Fe-122 K 1.8 mJ/mol.K2 60 SP 240 SP uOhm.cm 9 Flux method using Sn-flux "Anisotropic magnetization, specific heat and resistivity of RFe2Ge2 single crystals" 2004 "Ames Laboratory Condensed Matter Physics, Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J.Magn.Magn.Mater., 270(2004)51"
156569 MMM2700051 not SC. RRR = 60. 2nd magnetic phase at 8.3 K. PrFe2Ge2 Pr1Fe2Ge2 Pr 1 Fe 2 Ge 2 3 2004 emu/mol 0.0053 myu-B/R 3.5 14.6 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 1.8 Flux method using Sn-flux "Anisotropic magnetization, specific heat and resistivity of RFe2Ge2 single crystals" 2004 "Ames Laboratory Condensed Matter Physics, Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J.Magn.Magn.Mater., 270(2004)51"
156570 MMM2700051 not SC. RRR = 53.2nd magnetic phase at 13.5 K NdFe2Ge2 Nd1Fe2Ge2 Nd 1 Fe 2 Ge 2 3 2004 emu/mol 0.0042 myu-B/R 3.4 16.4 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 1.8 Flux method using Sn-flux "Anisotropic magnetization, specific heat and resistivity of RFe2Ge2 single crystals" 2004 "Ames Laboratory Condensed Matter Physics, Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J.Magn.Magn.Mater., 270(2004)51"
156571 MMM2700051 not SC. RRR = 83. 2nd magnetic phase at 4.9 K SmFe2Ge2 Sm1Fe2Ge2 Sm 1 Fe 2 Ge 2 3 2004 emu/mol 0.0039 myu-B/R 0.46 5.9 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 1.8 250 SP Flux method using Sn-flux "Anisotropic magnetization, specific heat and resistivity of RFe2Ge2 single crystals" 2004 "Ames Laboratory Condensed Matter Physics, Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J.Magn.Magn.Mater., 270(2004)51"
156572 MMM2700051 not SC. RRR = 68. 2nd magnetic phase at 9.6 K GdFe2Ge2 Gd1Fe2Ge2 Gd 1 Fe 2 Ge 2 3 2004 emu/mol 0.0026 myu-B/R 7.6 10.8 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 1.8 Flux method using Sn-flux "Anisotropic magnetization, specific heat and resistivity of RFe2Ge2 single crystals" 2004 "Ames Laboratory Condensed Matter Physics, Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J.Magn.Magn.Mater., 270(2004)51"
156573 MMM2700051 not SC. RRR = 32 TbFe2Ge2 Tb1Fe2Ge2 Tb 1 Fe 2 Ge 2 3 2004 emu/mol 0.0058 myu-B/R 9.6 7.4 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 1.8 Flux method using Sn-flux "Anisotropic magnetization, specific heat and resistivity of RFe2Ge2 single crystals" 2004 "Ames Laboratory Condensed Matter Physics, Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J.Magn.Magn.Mater., 270(2004)51"
156574 MMM2700051 not SC. RRR = 31 DyFe2Ge2 Dy1Fe2Ge2 Dy 1 Fe 2 Ge 2 3 2004 emu/mol 0.0043 myu-B/R 10.6 2.1 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 1.8 Flux method using Sn-flux "Anisotropic magnetization, specific heat and resistivity of RFe2Ge2 single crystals" 2004 "Ames Laboratory Condensed Matter Physics, Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J.Magn.Magn.Mater., 270(2004)51"
156575 MMM2700051 not SC. RRR = 34 HoFe2Ge2 Ho1Fe2Ge2 Ho 1 Fe 2 Ge 2 3 2004 emu/mol 0.0024 myu-B/R 11 1.1 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 1.8 Flux method using Sn-flux "Anisotropic magnetization, specific heat and resistivity of RFe2Ge2 single crystals" 2004 "Ames Laboratory Condensed Matter Physics, Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J.Magn.Magn.Mater., 270(2004)51"
156576 MMM2700051 not SC. RRR = 38 ErFe2Ge2 Er1Fe2Ge2 Er 1 Fe 2 Ge 2 3 2004 emu/mol 0.0025 myu-B/R 9.5 2.5 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 1.8 Flux method using Sn-flux "Anisotropic magnetization, specific heat and resistivity of RFe2Ge2 single crystals" 2004 "Ames Laboratory Condensed Matter Physics, Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J.Magn.Magn.Mater., 270(2004)51"
156577 MMM2700051 not SC. RRR = 21 TmFe2Ge2 Tm1Fe2Ge2 Tm 1 Fe 2 Ge 2 3 2004 emu/mol 0.0049 myu-B/R 7.8 AB2C2 ThCr2Si2 I4/mmm Fe-122 K 1.8 Flux method using Sn-flux "Anisotropic magnetization, specific heat and resistivity of RFe2Ge2 single crystals" 2004 "Ames Laboratory Condensed Matter Physics, Department of Physics and Astronomy, Iowa State University, Ames, IA 50011, USA" "J.Magn.Magn.Mater., 270(2004)51"
156578 NATCOM0030931 Energy gpps measured by photoemission and ARPES. FeSe Fe1Se1 Fe 1 Se 1 2012 AB K 55 55 MGAP156578 meV 15 6.34 Electronic origin of high-temperature superconductivity in single-layer FeSe superconductor 2012 "National Lab for Superconductivity, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences , Beijing 100190, China." "Nature Commun., 3(2012)931"
156579 PCS0611591 "RRR = R(280)/R(8K) = 3.3. Demag. factor = 0.1173 for Hc1. Hc1=Hc1(0)(1-t^2). -(dHc2/dT) = 0.415 and 0.336 T/K for 3 = 46.2 K from R(T). R(T) = R(0) + A*T^n : n= 1.55. NaFe1-xCoxAs Na1Fe0.99Co0.01As1 Na 1 Fe 0.99 Co 0.01 As 1 3 2016 ABC PbFCl K 0 0 mOhm.cm 0.417 0.778 Electron doping evolution of structural and antiferromagnetic phase transitions in NaFe1-xCoxAs iron pnictides 2016 "Department of Physics, Beijing Normal University, Beijing 100875, China" "Phys.Rev.B, 94(2016)014509"
156631 PRB094014509 T = 43.2 K from NRD and 45.2 K from R(T). R(T) = R(0) + A*T^n : n= 1.38. NaFe1-xCoxAs Na1Fe0.9875Co0.0125As1 Na 1 Fe 0.9875 Co 0.0125 As 1 3 2016 30.1 ABC PbFCl K 13.9 13.9 mOhm.cm 0.371 0.789 Electron doping evolution of structural and antiferromagnetic phase transitions in NaFe1-xCoxAs iron pnictides 2016 "Department of Physics, Beijing Normal University, Beijing 100875, China" "Phys.Rev.B, 94(2016)014509"
156632 PRB094014509 T = 44.1 K from NRD. R(T) = R(0) + A*T^n : n= 1.32. NaFe1-xCoxAs Na1Fe0.985Co0.015As1 Na 1 Fe 0.985 Co 0.015 As 1 3 2016 30.6 ABC PbFCl K 12.6 13.4 12.6 MPH156632 mOhm.cm 0.46 1.015 Electron doping evolution of structural and antiferromagnetic phase transitions in NaFe1-xCoxAs iron pnictides 2016 "Department of Physics, Beijing Normal University, Beijing 100875, China" "Phys.Rev.B, 94(2016)014509"
156633 PRB094014509 T = 41.2 K from R(T). R(T) = R(0) + A*T^n : n= 1.28. NaFe1-xCoxAs Na1Fe0.9825Co0.0175As1 Na 1 Fe 0.9825 Co 0.0175 As 1 3 2016 28.5 ABC PbFCl K 15.8 15.8 mOhm.cm 0.526 1.144 Electron doping evolution of structural and antiferromagnetic phase transitions in NaFe1-xCoxAs iron pnictides 2016 "Department of Physics, Beijing Normal University, Beijing 100875, China" "Phys.Rev.B, 94(2016)014509"
156634 PRB094014509 R(T) = R(0) + A*T^n : n= 1.20. NaFe1-xCoxAs Na1Fe0.981Co0.019As1 Na 1 Fe 0.981 Co 0.019 As 1 3 2016 ABC PbFCl K 19.3 16.1 19.3 mOhm.cm 0.732 1.6 Electron doping evolution of structural and antiferromagnetic phase transitions in NaFe1-xCoxAs iron pnictides 2016 "Department of Physics, Beijing Normal University, Beijing 100875, China" "Phys.Rev.B, 94(2016)014509"
156635 PRB094014509 R(T) = R(0) + A*T^n : n= 1.35. NaFe1-xCoxAs Na1Fe0.977Co0.023As1 Na 1 Fe 0.977 Co 0.023 As 1 3 2016 28 ABC PbFCl K 15.7 15.7 mOhm.cm 0.546 1.1 Electron doping evolution of structural and antiferromagnetic phase transitions in NaFe1-xCoxAs iron pnictides 2016 "Department of Physics, Beijing Normal University, Beijing 100875, China" "Phys.Rev.B, 94(2016)014509"
156636 PRB094024106 magnetic moment shows coexistence of SC and FM. NiSm Ni1Sm1 Ni 1 Sm 1 4 2016 27 K 0.7 2.5 1.6 n/cm3 2.00E+21 Films prepared by MBE method. High purity Sm evaporated in 3E-4 mbar N2. Epitaxial films on aluminium nitride(AIN) substrate (400-500C) Superconductivity in the ferromagnetic semiconductor samarium nitride 2016 "MacDiarmid Institute for Advanced Materials and Nanotechnology, School of Chemical and Physical Sciences, Victoria University of Wellington, P. O. Box 600, Wellington 6140, New Zealand" "Phys.Rev.B, 94(2016)024106"
156637 PRB094024106 Superlattice films (10 nm-GdN/5 nm SmN)*12Tc increases and Curie-T increases higher than SmN films GdSmN2 Gd1Sm1Ni2 Gd 1 Sm 1 Ni 2 5 2016 70 K 4.2 4.8 4.5 T RES MHC156637 Films prepared by MBE method. High purity Sm evaporated in 3E-4 mbar N2. Epitaxial films on aluminium nitride(AIN) substrate (400-500C) Superconductivity in the ferromagnetic semiconductor samarium nitride 2016 "MacDiarmid Institute for Advanced Materials and Nanotechnology, School of Chemical and Physical Sciences, Victoria University of Wellington, P. O. Box 600, Wellington 6140, New Zealand" "Phys.Rev.B, 94(2016)024106"
156638 PRB094024518 "RRR = 1.08, demag-factor = 0.14. kappa(GL) = 50.2. Hc(0) = 1.26 kOe. Lattice term in SP (beta) = 0.43 mJ/mol.K4, (delta) = 0.9 mJ/mol.K6. (dC/Tc) = 41.3 mJ/mol.K2. (dC/gamma*Tc = 1.63" Re6Hf Hf1Re6 Hf 1 Re 6 1 2016 AB6 alpha-Mn I4[-]3m A 9.678 K 6.2 6.4 6.2 0.2 6.2 Oe "M-H curve, 1-t^2 fitting" 74 T "RES(0.9Rn), WHH" 8.9 T/K RES(0.9Rn) 2.09 MHC156638 A from Hc2 61.2 nm "Hc1, GL eq." 306 MSP156638 mJ/mol.K2 25.3 SP 316 SP "Re(3N),Hf(3N)" "arc-melting - ANN in quartz tube (1123 K, 1w, in vac) - cool to RT within 24h" Superconductivity in the noncentrosymmetric compound Re6Hf 2016 "Hangzhou Key Laboratory of Quantum Matter, Department of Physics, Hangzhou Normal University, Hangzhou 310036, China" "Phys.Rev.B, 94(2016)024518"
156639 PRB094035130 Compositions Y:Pt:Bi = 28.3:38:33.7 by EDX. Carrier = 5.6E+18 /cm3 for T<50K. Hall mobility = 1100 cm2/V.s for T<50K. Schottky term in SP = 0.052/T2 mJ/mol.K YPtBi Y1Pt1Bi1 Y 1 Pt 1 Bi 1 3 2016 ABC MgAgAs F4[-]3m A 6.65 "MgAgAs-type, Halh Heusler" K 0.85 0.97 0.86 0.45 0.97 T "RES(0.9Rn), extrapolation" 1.6 0.9 0.4 A from Hc2 140 mJ/mol.K2 0.69 SP 222 SP mOhm.cm 0.88 0.52 n/cm3 3.40E+20 "Bi-flux method. YBi by arc-melting - crush - mixed with Pt and Bi - alumina crucible - sealed in quartz tube - heat(1130C,12h) - cool to 925C(3C/h) - keep(12h) - cool to 550C(1C/h) - remove Bi" Superconductivity and Shubnikov-de Haas oscillations in the noncentrosymmetric half-Heusler compound YPtBi 2016 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P. O. Box 1410, 50-950 Wroc?aw, Poland" "Phys.Rev.B, 94(2016)035130"
156640 PRB094041114 Carrier from Hall effect. Multiple Fermi pockets observed using torque magnetometry upto H = 45 T. NbxBi2Se3 Nb0.25Bi2Se3 Nb 0.25 Bi 2 Se 3 3 2016 K 3 3.55 3.275 90 mOhm.cm 0.075 n/cm3 2.40E+20 Multiple Fermi surfaces in superconducting Nb-doped Bi2Se3 2016 "Department of Physics, University of Michigan, Ann Arbor, Michigan 48109, USA" "Phys.Rev.B, 94(2016)041114"
156641 PRB094041114 Carrier from Hall effect. Multiple Fermi pockets observed using torque magnetometry upto H = 45 T. NbxBi2Se3 Nb0.28Bi2Se3 Nb 0.28 Bi 2 Se 3 3 2016 K 3.13 3.57 3.35 60 mOhm.cm 0.131 n/cm3 1.80E+20 Multiple Fermi surfaces in superconducting Nb-doped Bi2Se3 2016 "Department of Physics, University of Michigan, Ann Arbor, Michigan 48109, USA" "Phys.Rev.B, 94(2016)041114"
156642 PRB094045131 not SC. RRR = 17.4. T = 470 K. 1T-TaSe2-xTex Se2Ta1 Se 2 Ta 1 3 2016 AB2 TX2 A 3.4737 6.2381 1T-TaX2 type K "Ta(4N),Se(4N),Te(4N)" "CVT method. Mixture - heat(900C,4d,in quartz tube. (TaSe2-xTex powder + Iodine(5mg/cm3)) - heat(950C(H) - 850C(L), two zone furnace)" Nature of charge density waves and superconductivity in 1T-TaSe2-xTex 2016 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 94(2016)045131"
156643 PRB094045131 T = 354 K. 1T-TaSe2-xTex Ta1Se1.7Te0.3 Ta 1 Se 1.7 Te 0.3 3 2016 AB2 TX2 A 3.4941 6.3479 1T-TaX2 type K 0 1.57 0.785 "Ta(4N),Se(4N),Te(4N)" "CVT method. Mixture - heat(900C,4d,in quartz tube. (TaSe2-xTex powder + Iodine(5mg/cm3)) - heat(950C(H) - 850C(L), two zone furnace)" Nature of charge density waves and superconductivity in 1T-TaSe2-xTex 2016 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 94(2016)045131"
156644 PRB094045131 T = 329 K. 1T-TaSe2-xTex Ta1Se1.6Te0.4 Ta 1 Se 1.6 Te 0.4 3 2016 AB2 TX2 A 3.5019 6.3883 1T-TaX2 type K 0 2.4 1.2 "Ta(4N),Se(4N),Te(4N)" "CVT method. Mixture - heat(900C,4d,in quartz tube. (TaSe2-xTex powder + Iodine(5mg/cm3)) - heat(950C(H) - 850C(L), two zone furnace)" Nature of charge density waves and superconductivity in 1T-TaSe2-xTex 2016 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 94(2016)045131"
156645 PRB094045131 T = 276 K. 1T-TaSe2-xTex Ta1Se1.5Te0.5 Ta 1 Se 1.5 Te 0.5 3 2016 AB2 TX2 1T-TaX2 type K 0 2.4 1.2 "Ta(4N),Se(4N),Te(4N)" "CVT method. Mixture - heat(900C,4d,in quartz tube. (TaSe2-xTex powder + Iodine(5mg/cm3)) - heat(950C(H) - 850C(L), two zone furnace)" Nature of charge density waves and superconductivity in 1T-TaSe2-xTex 2016 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 94(2016)045131"
156646 PRB094045131 optimal concentration 1T-TaSe2-xTex Ta1Se1.4Te0.6 Ta 1 Se 1.4 Te 0.6 3 2016 AB2 TX2 A 3.5273 6.4611 1T-TaX2 type K 1.6 2.5 2.05 MTC156646 "Ta(4N),Se(4N),Te(4N)" "CVT method. Mixture - heat(900C,4d,in quartz tube. (TaSe2-xTex powder + Iodine(5mg/cm3)) - heat(950C(H) - 850C(L), two zone furnace)" Nature of charge density waves and superconductivity in 1T-TaSe2-xTex 2016 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 94(2016)045131"
156647 PRB094045131 1T-TaSe2-xTex Ta1Se1.2Te0.8 Ta 1 Se 1.2 Te 0.8 3 2016 AB2 TX2 A 3.5473 6.5049 1T-TaX2 type K 0.78 2.39 1.585 "Ta(4N),Se(4N),Te(4N)" "CVT method. Mixture - heat(900C,4d,in quartz tube. (TaSe2-xTex powder + Iodine(5mg/cm3)) - heat(950C(H) - 850C(L), two zone furnace)" Nature of charge density waves and superconductivity in 1T-TaSe2-xTex 2016 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 94(2016)045131"
156648 PRB094045131 RRR = 0.85 1T-TaSe2-xTex Ta1Se1Te1 Ta 1 Se 1 Te 1 3 2016 AB2 TX2 A 3.5678 6.5441 1T-TaX2 type K 0.66 2.23 1.445 "Ta(4N),Se(4N),Te(4N)" "CVT method. Mixture - heat(900C,4d,in quartz tube. (TaSe2-xTex powder + Iodine(5mg/cm3)) - heat(950C(H) - 850C(L), two zone furnace)" Nature of charge density waves and superconductivity in 1T-TaSe2-xTex 2016 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 94(2016)045131"
156649 PRB094045131 1T-TaSe2-xTex Ta1Se0.8Te1.2 Ta 1 Se 0.8 Te 1.2 3 2016 AB2 TX2 A 3.5958 6.5996 1T-TaX2 type K 0.5 1.83 1.165 "Ta(4N),Se(4N),Te(4N)" "CVT method. Mixture - heat(900C,4d,in quartz tube. (TaSe2-xTex powder + Iodine(5mg/cm3)) - heat(950C(H) - 850C(L), two zone furnace)" Nature of charge density waves and superconductivity in 1T-TaSe2-xTex 2016 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 94(2016)045131"
156650 PRB094045131 1T-TaSe2-xTex Ta1Se0.7Te1.3 Ta 1 Se 0.7 Te 1.3 3 2016 AB2 TX2 A 3.602 6.6185 1T-TaX2 type K 0 0.54 0.27 "Ta(4N),Se(4N),Te(4N)" "CVT method. Mixture - heat(900C,4d,in quartz tube. (TaSe2-xTex powder + Iodine(5mg/cm3)) - heat(950C(H) - 850C(L), two zone furnace)" Nature of charge density waves and superconductivity in 1T-TaSe2-xTex 2016 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 94(2016)045131"
156651 PRB094045131 not SC. 1T-TaSe2-xTex Ta1Se0.6Te1.4 Ta 1 Se 0.6 Te 1.4 3 2016 AB2 TX2 A 3.6143 6.6472 1T-TaX2 type K 0 0 "Ta(4N),Se(4N),Te(4N)" "CVT method. Mixture - heat(900C,4d,in quartz tube. (TaSe2-xTex powder + Iodine(5mg/cm3)) - heat(950C(H) - 850C(L), two zone furnace)" Nature of charge density waves and superconductivity in 1T-TaSe2-xTex 2016 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Phys.Rev.B, 94(2016)045131"
156652 PRB094054508 "La(Fe,Mn)AsO0.89F0.11" La1Fe0.99975Mn0.00025As1F0.11O0.89 La 1 Fe 0.99975 Mn 0.00025 As 1 F 0.11 O 0.89 1 2016 ABCD oxypnictide Fe-1111 K 22.6 22.6 Two step solid state reaction Competing effects of Mn and Y doping on the low-energy excitations and phase diagram of La1-yYyFe1-xMnxAsO0.89F0.11 iron-based superconductors 2016 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 94(2016)054508"
156653 PRB094054508 "La(Fe,Mn)AsO0.89F0.11" La1Fe0.99925Mn0.00075As1F0.11O0.89 La 1 Fe 0.99925 Mn 0.00075 As 1 F 0.11 O 0.89 1 2016 ABCD oxypnictide Fe-1111 K 14.4 14.4 Two step solid state reaction Competing effects of Mn and Y doping on the low-energy excitations and phase diagram of La1-yYyFe1-xMnxAsO0.89F0.11 iron-based superconductors 2016 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 94(2016)054508"
156654 PRB094054508 "magnetic order not observed, Tm = 0 K." "La(Fe,Mn)AsO0.89F0.11" La1Fe0.999Mn0.001As1F0.11O0.89 La 1 Fe 0.999 Mn 0.001 As 1 F 0.11 O 0.89 1 2016 ABCD oxypnictide Fe-1111 K 9.67 9.67 MTC156654 Two step solid state reaction Competing effects of Mn and Y doping on the low-energy excitations and phase diagram of La1-yYyFe1-xMnxAsO0.89F0.11 iron-based superconductors 2016 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 94(2016)054508"
156655 PRB094054508 magnetic order Tm = 7.1 K. "La(Fe,Mn)AsO0.89F0.11" La1Fe0.998Mn0.002As1F0.11O0.89 La 1 Fe 0.998 Mn 0.002 As 1 F 0.11 O 0.89 1 2016 ABCD oxypnictide Fe-1111 K 0 Two step solid state reaction Competing effects of Mn and Y doping on the low-energy excitations and phase diagram of La1-yYyFe1-xMnxAsO0.89F0.11 iron-based superconductors 2016 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 94(2016)054508"
156656 PRB094054508 magnetic order Tm = 81.5 K. "La(Fe,Mn)AsO0.89F0.11" La1Fe0.995Mn0.005As1F0.11O0.89 La 1 Fe 0.995 Mn 0.005 As 1 F 0.11 O 0.89 1 2016 ABCD oxypnictide Fe-1111 K 0 Two step solid state reaction Competing effects of Mn and Y doping on the low-energy excitations and phase diagram of La1-yYyFe1-xMnxAsO0.89F0.11 iron-based superconductors 2016 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 94(2016)054508"
156657 PRB094054508 magnetic order Tm = 64.3 K. "La(Fe,Mn)AsO0.89F0.11" La1Fe0.9924Mn0.0076As1F0.11O0.89 La 1 Fe 0.9924 Mn 0.0076 As 1 F 0.11 O 0.89 1 2016 ABCD oxypnictide Fe-1111 K 0 Two step solid state reaction Competing effects of Mn and Y doping on the low-energy excitations and phase diagram of La1-yYyFe1-xMnxAsO0.89F0.11 iron-based superconductors 2016 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 94(2016)054508"
156658 PRB094054508 "La0.8Y0.2(Fe,Mn)AsO0.89F0.11" La0.8Y0.2Fe0.997Mn0.003As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.997 Mn 0.003 As 1 F 0.11 O 0.89 1 2016 ABCD oxypnictide Fe-1111 K 28.5 28.5 Two step solid state reaction Competing effects of Mn and Y doping on the low-energy excitations and phase diagram of La1-yYyFe1-xMnxAsO0.89F0.11 iron-based superconductors 2016 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 94(2016)054508"
156659 PRB094054508 "La0.8Y0.2(Fe,Mn)AsO0.89F0.11" La0.8Y0.2Fe0.992Mn0.008As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.992 Mn 0.008 As 1 F 0.11 O 0.89 1 2016 ABCD oxypnictide Fe-1111 K 22.7 22.7 MTC156659 Two step solid state reaction Competing effects of Mn and Y doping on the low-energy excitations and phase diagram of La1-yYyFe1-xMnxAsO0.89F0.11 iron-based superconductors 2016 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 94(2016)054508"
156660 PRB094054508 "La0.8Y0.2(Fe,Mn)AsO0.89F0.11" La0.8Y0.2Fe0.98Mn0.02As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.98 Mn 0.02 As 1 F 0.11 O 0.89 1 2016 ABCD oxypnictide Fe-1111 K 14.1 14.1 Two step solid state reaction Competing effects of Mn and Y doping on the low-energy excitations and phase diagram of La1-yYyFe1-xMnxAsO0.89F0.11 iron-based superconductors 2016 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 94(2016)054508"
156661 PRB094054508 "La0.8Y0.2(Fe,Mn)AsO0.89F0.11" La0.8Y0.2Fe0.975Mn0.025As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.975 Mn 0.025 As 1 F 0.11 O 0.89 1 2016 ABCD oxypnictide Fe-1111 K 10.1 10.1 Two step solid state reaction Competing effects of Mn and Y doping on the low-energy excitations and phase diagram of La1-yYyFe1-xMnxAsO0.89F0.11 iron-based superconductors 2016 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 94(2016)054508"
156662 PRB094054508 magnetic order Tm = 0 K. from muon-SR "La0.8Y0.2(Fe,Mn)AsO0.89F0.11" La0.8Y0.2Fe0.96Mn0.06As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.96 Mn 0.06 As 1 F 0.11 O 0.89 1 2016 ABCD oxypnictide Fe-1111 K 0 Two step solid state reaction Competing effects of Mn and Y doping on the low-energy excitations and phase diagram of La1-yYyFe1-xMnxAsO0.89F0.11 iron-based superconductors 2016 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 94(2016)054508"
156663 PRB094054508 magnetic order Tm = 4.6 K. from muon-SR "La0.8Y0.2(Fe,Mn)AsO0.89F0.11" La0.8Y0.2Fe0.9Mn0.1As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.9 Mn 0.1 As 1 F 0.11 O 0.89 1 2016 ABCD oxypnictide Fe-1111 K 0 Two step solid state reaction Competing effects of Mn and Y doping on the low-energy excitations and phase diagram of La1-yYyFe1-xMnxAsO0.89F0.11 iron-based superconductors 2016 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 94(2016)054508"
156664 PRB094054508 magnetic order Tm = 8.2 K. from muon-SR "La0.8Y0.2(Fe,Mn)AsO0.89F0.11" La0.8Y0.2Fe0.85Mn0.15As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.85 Mn 0.15 As 1 F 0.11 O 0.89 1 2016 ABCD oxypnictide Fe-1111 K 0 Two step solid state reaction Competing effects of Mn and Y doping on the low-energy excitations and phase diagram of La1-yYyFe1-xMnxAsO0.89F0.11 iron-based superconductors 2016 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 94(2016)054508"
156665 PRB094054508 magnetic order Tm = 18.9 K. from muon-SR "La0.8Y0.2(Fe,Mn)AsO0.89F0.11" La0.8Y0.2Fe0.8Mn0.2As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.8 Mn 0.2 As 1 F 0.11 O 0.89 1 2016 ABCD oxypnictide Fe-1111 K 0 Two step solid state reaction Competing effects of Mn and Y doping on the low-energy excitations and phase diagram of La1-yYyFe1-xMnxAsO0.89F0.11 iron-based superconductors 2016 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 94(2016)054508"
156666 PRB094054508 "(La,Y)Fe0.995Mn0.005AsO0.89F0.11" La0.995Y0.005Fe0.995Mn0.005As1F0.11O0.89 La 0.995 Y 0.005 Fe 0.995 Mn 0.005 As 1 F 0.11 O 0.89 1 2016 ABCD oxypnictide Fe-1111 K 2.89 2.89 Two step solid state reaction Competing effects of Mn and Y doping on the low-energy excitations and phase diagram of La1-yYyFe1-xMnxAsO0.89F0.11 iron-based superconductors 2016 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 94(2016)054508"
156667 PRB094054508 "(La,Y)Fe0.995Mn0.005AsO0.89F0.11" La0.99Y0.01Fe0.995Mn0.005As1F0.11O0.89 La 0.99 Y 0.01 Fe 0.995 Mn 0.005 As 1 F 0.11 O 0.89 1 2016 ABCD oxypnictide Fe-1111 K 7.5 7.5 Two step solid state reaction Competing effects of Mn and Y doping on the low-energy excitations and phase diagram of La1-yYyFe1-xMnxAsO0.89F0.11 iron-based superconductors 2016 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 94(2016)054508"
156668 PRB094054508 "(La,Y)Fe0.995Mn0.005AsO0.89F0.11" La0.95Y0.05Fe0.995Mn0.005As1F0.11O0.89 La 0.95 Y 0.05 Fe 0.995 Mn 0.005 As 1 F 0.11 O 0.89 1 2016 ABCD oxypnictide Fe-1111 K 18.6 18.6 MTC156668 Two step solid state reaction Competing effects of Mn and Y doping on the low-energy excitations and phase diagram of La1-yYyFe1-xMnxAsO0.89F0.11 iron-based superconductors 2016 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 94(2016)054508"
156669 PRB094054508 "(La,Y)Fe0.995Mn0.005AsO0.89F0.11" La0.9Y0.1Fe0.995Mn0.005As1F0.11O0.89 La 0.9 Y 0.1 Fe 0.995 Mn 0.005 As 1 F 0.11 O 0.89 1 2016 ABCD oxypnictide Fe-1111 K 24.1 24.1 Two step solid state reaction Competing effects of Mn and Y doping on the low-energy excitations and phase diagram of La1-yYyFe1-xMnxAsO0.89F0.11 iron-based superconductors 2016 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 94(2016)054508"
156670 PRB094054508 "(La,Y)Fe0.995Mn0.005AsO0.89F0.11" La0.8Y0.2Fe0.995Mn0.005As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.995 Mn 0.005 As 1 F 0.11 O 0.89 1 2016 ABCD oxypnictide Fe-1111 K 26.6 26.6 Two step solid state reaction Competing effects of Mn and Y doping on the low-energy excitations and phase diagram of La1-yYyFe1-xMnxAsO0.89F0.11 iron-based superconductors 2016 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 94(2016)054508"
156671 PRB094054508 "(La,Y)Fe0.995Mn0.005AsO0.89F0.11" La0.77Y0.23Fe0.995Mn0.005As1F0.11O0.89 La 0.77 Y 0.23 Fe 0.995 Mn 0.005 As 1 F 0.11 O 0.89 1 2016 ABCD oxypnictide Fe-1111 K 27.9 27.9 Two step solid state reaction Competing effects of Mn and Y doping on the low-energy excitations and phase diagram of La1-yYyFe1-xMnxAsO0.89F0.11 iron-based superconductors 2016 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 94(2016)054508"
156672 PRB094144515 RRR = 1.1. Lattice term in SP (beta) = 0.451 mJ/mol.K4. (dC/gamma*Tc) = 1.62. penet(London) = 2200 A. kappa(GL) = 69.3 Re6Zr Re6Zr1 Re 6 Zr 1 1 2016 AB6 1 alpha-Mn I4[-]3m 217 A 9.6989 non-centrosymmetry K 6.7 6.6 0.05 6.7 K/GPa -0.07 mT 8 T "RES(0.5Rn), WHH" 11.6 MHC156672 A from Hc2 53.3 A "Hc1, GL theory" 3696 MSP156672 mJ/mol.K2 27.5 SP W/K.m 8.5 MTHC156672 uOhm.cm 135 150 "Re(4N),Zr(4N)" arc-melting Complex superconductivity in the noncentrosymmetric compound Re6Zr 2016 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana 70808, USA" "Phys.Rev.B, 94(2016)144515"
156673 PRB094144516 "RRR = 1.8(P=0) to 2.3(P=1.7GPa). Hc2(T,P) measured for H//a-axis , I along a-axis. Anisotropy (Hc2(a)/Hc2(a*) = 5.36 for P=1.72 GPa, T=0.5 K)" Sr0.15Bi2Se3 Sr0.15Bi2Se3 Sr 0.15 Bi 2 Se 3 3 2016 K 3.05 3.05 MTC156673 T RES(0.5Rn) MHC156673 "stoichiometric mixture - melt(850C, in sealed quartz) - slow cool to 650C (3C/h)" High-pressure study of the basal-plane anisotropy of the upper critical field of the topological superconductor SrxBi2Se3 2016 "Van der Waals - Zeeman Institute, University of Amsterdam, Science Park 904, 1098 XH Amsterdam, The Netherlands" "Phys.Rev.B, 94(2016)144516"
156674 PRB094144516 "RRR = 1.8(P=0) to 3.72(P=2.1GPa). Hc2(T,P) measured for H//a*-axis , I along a-axis. Anisotropy (Hc2(a)/Hc2(a*) = 4.77 for P=1.72 GPa, T=0.84 K)" Sr0.15Bi2Se3 Sr0.15Bi2Se3 Sr 0.15 Bi 2 Se 3 3 2016 K 3.06 3.06 MTC156674 MHC156674 "stoichiometric mixture - melt(850C, in sealed quartz) - slow cool to 650C (3C/h)" High-pressure study of the basal-plane anisotropy of the upper critical field of the topological superconductor SrxBi2Se3 2016 "Van der Waals - Zeeman Institute, University of Amsterdam, Science Park 904, 1098 XH Amsterdam, The Netherlands" "Phys.Rev.B, 94(2016)144516"
156675 PRB094174505 Low-Tc phase R not to zero at 2K. M = NH3 intercalated. M0.03Na0.7Fe1.33Se0.48Te0.52 by EDX (NH3)yNaxFeSe0.5Te0.5 M1Na0.3Fe1Se0.5Te0.5 M 1 Na 0.3 Fe 1 Se 0.5 Te 0.5 1 2016 I4/mmm A 3.9824 17.789 K 21 23 21 100 Oe 100 T "RES(on), WHH" 34 T/K 1.76 MHC156675 A from Hc2 31 nm "Hc1, GL theory" 260 beta-FeSe0.5Te0.5 prepared using liquid NH3 technique. Superconductivity in (NH3)yNaxFeSe0.5Te0.5 2016 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 94(2016)174505"
156676 PRB094174505 High-Tc phase. R not to zero at 2K. M = NH3 intercalated. M0.63Na0.63Fe0.85Se0.55Te0.44 by EDX. (NH3)yNaxFeSe0.5Te0.5 M1Na0.3Fe1Se0.5Te0.5 M 1 Na 0.3 Fe 1 Se 0.5 Te 0.5 1 2016 I4/mmm A 4.029 16.84 K 27 31 27 84 Oe M-H curve 200 10 T "RES(on), WHH" 20 T/K 0.94 MHC156676 A from Hc2 41 nm "Hc1, GL theory" 180 beta-FeSe0.5Te0.5 prepared using liquid NH3 technique. Superconductivity in (NH3)yNaxFeSe0.5Te0.5 2016 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 94(2016)174505"
156677 PRB094184504 [penet] from M-H curve analysis for H//c-axis. Energy gap obtained from curve fitting superfluid density using fully gap model. Ir0.95Pt0.05Te2 Ir0.95Pt0.05Te2 Ir 0.95 Pt 0.05 Te 2 3 2016 AB2 K 2.92 2.92 nm Magnetization analysis 91 0.463 3.7 self-flux method mu-SR and magnetometry study of superconducting 5% Pt-doped IrTe2 2016 "Department of Physics and Astronomy, McMaster University, Hamilton, Ontario L8S 4M1, Canada" "Phys.Rev.B, 94(2016)184504"
156678 PRB094184504 [penet] from M-H curve analysis for H perpendicular to c-axis. Energy gap obtained from curve fitting superfluid density using fully gap model. Ir0.95Pt0.05Te2 Ir0.95Pt0.05Te2 Ir 0.95 Pt 0.05 Te 2 3 2016 AB2 K 2.84 2.84 nm Magnetization analysis 125 0.463 3.9 self-flux method mu-SR and magnetometry study of superconducting 5% Pt-doped IrTe2 2016 "Department of Physics and Astronomy, McMaster University, Hamilton, Ontario L8S 4M1, Canada" "Phys.Rev.B, 94(2016)184504"
156679 PRB094184504 poly crystal. [penet] from muon-SR. Energy gap obtained from curve fitting superfluid density using fully gap model. Ir0.95Pt0.05Te2 Ir0.95Pt0.05Te2 Ir 0.95 Pt 0.05 Te 2 1 2016 AB2 K 2.29 2.29 mT SUS 135 0.46 nm muon analysis 154 0.467 4.7 mu-SR and magnetometry study of superconducting 5% Pt-doped IrTe2 2016 "Department of Physics and Astronomy, McMaster University, Hamilton, Ontario L8S 4M1, Canada" "Phys.Rev.B, 94(2016)184504"
156680 PRB094180509 "Impurity phases: KCl(4.5%), KClO3(0.5%). hole conc. = 0.46 (overdoped sample. (dC/Tc) = 20 mJ/mol.K2. (dC) = 1.6 J/mol.K" "(Cu,Mo)Sr2YCu2O7.54" Y1Sr2Mo0.25Cu2.75O7.54 Y 1 Sr 2 Mo 0.25 Cu 2.75 O z 7.54 1 2016 Cu1212 A 11.455 "(Cu,Mo)-1212" K 78 78 "Y2O3,CuO,SrCO3,MoO3" "sol-gel method. - CAL(600C,12h) - pellet - ANN(980C,2x24h). oxidation: mixed powder sample with KClO3(35 mol%) - heat(500C, P = 4 GPa)" Bulk superconductivity at 84 K in the strongly overdoped regime of cuprates 2016 "IMPMC, Sorbonne Universites-UPMC, CNRS, IRD, MNHN, 4, place Jussieu, F-75005 Paris, France" "Phys.Rev.B, 94(2016)180509"
156681 PRB094184506 Hydrostatic P = 0 kbar. P-dependence of T shown in FIG-data. T = 275 K. T > 300K. BaPt2As2 Ba1Pt2As2 Ba 1 Pt 2 As 2 3 2016 AB2C2 CaBe2Ge2 P4/nmm A 4.5608 4.5643 10.042 "at 100K, a = 4.5489, b = 4.5700, c = 10.0192" K 1.6 1.6 MTC156681 T RES(mid) MHC156681 uOhm.cm 174 self-flux method Superconductivity and multiple pressure-induced phases in BaPt2As2 2016 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310058, China" "Phys.Rev.B, 94(2016)184506"
156682 PRB094184506 Hydrostatic P = 7 kbar. P-dependence of T shown in FIG-data. T = 217 K. BaPt2As2 Ba1Pt2As2 Ba 1 Pt 2 As 2 3 2016 AB2C2 CaBe2Ge2 P4/nmm K 2.13 2.13 160 self-flux method Superconductivity and multiple pressure-induced phases in BaPt2As2 2016 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310058, China" "Phys.Rev.B, 94(2016)184506"
156683 PRB094184506 Hydrostatic P = 19 kbar. P-dependence of T shown in FIG-data. T = 101 K. 2nd T = 270 K appears. BaPt2As2 Ba1Pt2As2 Ba 1 Pt 2 As 2 3 2016 AB2C2 CaBe2Ge2 P4/nmm K 3.8 3.8 78.1 self-flux method Superconductivity and multiple pressure-induced phases in BaPt2As2 2016 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310058, China" "Phys.Rev.B, 94(2016)184506"
156684 PRL100017002 RRR = 33. (dC/gamma*Tc) = 1.49. T = 96 K. Energy gap estimated from SP. LaPt4Ge12 La1Pt4Ge12 La 1 Pt 4 Ge 12 1 2008 AB4C12 akutterudite Im3[-] A 8.6235 LaFe4P12 type K 8.29 8.29 T "SP-jump(mid), extrapolation" 1.6 MHC156684 1.94 14 mJ/mol.K2 75.8 SP 209 SP uOhm.cm 5.3 177 "arc-melting - sealed in Ta ampoule - ANN(800C,7d)" Superconductivity in the Platinum Germanides MPt4Ge12 (M = Rare-Earth or Alkaline-Earth Metal) with Filled Skutterudite Structure 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Str. 40, 01187 Dresden, Germany" "Phys.Rev.Lett., 100(2008)017002"
156685 PRL100017002 RRR = 42. (dC/gamma*Tc) = 1.56. Energy gap estimated from SP. PrPt4Ge12 Pr1Pt4Ge12 Pr 1 Pt 4 Ge 12 1 2008 myu-B/Pr 3.67 -16.4 AB4C12 akutterudite Im3[-] A 8.6111 LaFe4P12 type K 7.92 7.92 T "SP-jump(mid), extrapolation" 2.06 MHC156685 2.35 14 mJ/mol.K2 87.1 SP 198 SP uOhm.cm 2.6 110 "arc-melting - sealed in Ta ampoule - ANN(800C,7d)" Superconductivity in the Platinum Germanides MPt4Ge12 (M = Rare-Earth or Alkaline-Earth Metal) with Filled Skutterudite Structure 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Str. 40, 01187 Dresden, Germany" "Phys.Rev.Lett., 100(2008)017002"
156686 PRL100017002 RRR = 4.78. (dC/gamma*Tc) = 1.13. SrPt4Ge12 Sr1Pt4Ge12 Sr 1 Pt 4 Ge 12 1 2008 AB4C12 akutterudite Im3[-] A 8.6509 LaFe4P12 type K 5.4 5.4 mJ/mol.K2 39.9 SP 198 SP uOhm.cm 50 239 "arc-melting - sealed in Ta ampoule - ANN(800C,7d)" Superconductivity in the Platinum Germanides MPt4Ge12 (M = Rare-Earth or Alkaline-Earth Metal) with Filled Skutterudite Structure 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Str. 40, 01187 Dresden, Germany" "Phys.Rev.Lett., 100(2008)017002"
156687 PRL100017002 RRR = 5.3. (dC/gamma*Tc) = 1.17. BaPt4Ge12 Ba1Pt4Ge12 Ba 1 Pt 4 Ge 12 1 2008 AB4C12 akutterudite Im3[-] A 8.6838 LaFe4P12 type K 4.98 4.98 mJ/mol.K2 34 SP 209 SP uOhm.cm 36 191 "arc-melting - sealed in Ta ampoule - ANN(800C,7d)" Superconductivity in the Platinum Germanides MPt4Ge12 (M = Rare-Earth or Alkaline-Earth Metal) with Filled Skutterudite Structure 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Str. 40, 01187 Dresden, Germany" "Phys.Rev.Lett., 100(2008)017002"
156688 PRL100017002 data from ref. 16 ( R.Gumeniuk et al unpublished) in PRL100017002 EuPt4Ge12 Eu1Pt4Ge12 Eu 1 Pt 4 Ge 12 1 2008 1.7 AB4C12 akutterudite Im3[-] A 8.6363 LaFe4P12 type K 0.48 Superconductivity in the Platinum Germanides MPt4Ge12 (M = Rare-Earth or Alkaline-Earth Metal) with Filled Skutterudite Structure 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Str. 40, 01187 Dresden, Germany" "Phys.Rev.Lett., 100(2008)017002"
156689 PRL100017002 data from ref. 16 ( R.Gumeniuk et al unpublished) in PRL100017002 NdPt4Ge12 Nd1Pt4Ge12 Nd 1 Pt 4 Ge 12 1 2008 0.67 AB4C12 akutterudite Im3[-] A 8.6074 LaFe4P12 type K 0.48 Superconductivity in the Platinum Germanides MPt4Ge12 (M = Rare-Earth or Alkaline-Earth Metal) with Filled Skutterudite Structure 2008 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Str. 40, 01187 Dresden, Germany" "Phys.Rev.Lett., 100(2008)017002"
156690 SCIR00512774 NaxMy-intercalated FeSe. M = NH3. Low Tc phase (y = 0.2 - 0.6). Nax(NH3)yFeSe Na0.1M0.3Fe1Se1 Na 0.1 M 0.3 Fe 1 Se 1 2015 I4/mmm A 3.912 14.145 K 35 32.5 32.5 30.5 Emergence of Multiple Superconducting Phases in (NH3)yMxFeSe (M: Na and Li) 2015 "Research Laboratory for Surface Science, Okayama University, Okayama 700-8530, Japan" "Sci.Reports, 5(2015)12774"
156691 SCIR00512774 High-Tc (single phase) phase. Nax(NH3)yFeSe Na1M0.3Fe1Se1 Na 1 M 0.3 Fe 1 Se 1 2015 I4/mmm A 3.8266 17.565 K 47 46 46 26 Emergence of Multiple Superconducting Phases in (NH3)yMxFeSe (M: Na and Li) 2015 "Research Laboratory for Surface Science, Okayama University, Okayama 700-8530, Japan" "Sci.Reports, 5(2015)12774"
156692 SCIR00512774 Two phases : high-Tc phase (Tc= 45 K) and low-Tc phase (Tc = 32 K). Nax(NH3)yFeSe Na0.7M0.3Fe1Se1 Na 0.7 M 0.3 Fe 1 Se 1 2015 I4/mmm K 45 45 MTC156692 Emergence of Multiple Superconducting Phases in (NH3)yMxFeSe (M: Na and Li) 2015 "Research Laboratory for Surface Science, Okayama University, Okayama 700-8530, Japan" "Sci.Reports, 5(2015)12774"
156693 SCIR00512774 LixMy-intercalated FeSe. M = NH3. y-value not given. Lix(NH3)yFeSe Li0.1M0.3Fe1Se1 Li 0.1 M 0.3 Fe 1 Se 1 2015 K 42 39.5 39.5 Emergence of Multiple Superconducting Phases in (NH3)yMxFeSe (M: Na and Li) 2015 "Research Laboratory for Surface Science, Okayama University, Okayama 700-8530, Japan" "Sci.Reports, 5(2015)12774"
156694 SCIR00512774 LixMy-intercalated FeSe. M = NH3. y-value not given. Lix(NH3)yFeSe Li0.3M0.3Fe1Se1 Li 0.3 M 0.3 Fe 1 Se 1 2015 K Emergence of Multiple Superconducting Phases in (NH3)yMxFeSe (M: Na and Li) 2015 "Research Laboratory for Surface Science, Okayama University, Okayama 700-8530, Japan" "Sci.Reports, 5(2015)12774"
156695 SCIR00512774 LixMy-intercalated FeSe. M = NH3. y-value not given. Lix(NH3)yFeSe Li0.5M0.3Fe1Se1 Li 0.5 M 0.3 Fe 1 Se 1 2015 K MTC156695 Emergence of Multiple Superconducting Phases in (NH3)yMxFeSe (M: Na and Li) 2015 "Research Laboratory for Surface Science, Okayama University, Okayama 700-8530, Japan" "Sci.Reports, 5(2015)12774"
156696 SCIR00512774 LixMy-intercalated FeSe. M = NH3. y-value not given. Lix(NH3)yFeSe Li0.7M0.3Fe1Se1 Li 0.7 M 0.3 Fe 1 Se 1 2015 K Emergence of Multiple Superconducting Phases in (NH3)yMxFeSe (M: Na and Li) 2015 "Research Laboratory for Surface Science, Okayama University, Okayama 700-8530, Japan" "Sci.Reports, 5(2015)12774"
156697 SCIR00512774 LixMy-intercalated FeSe. M = NH3. y-value not given. Lix(NH3)yFeSe Li0.9M0.3Fe1Se1 Li 0.9 M 0.3 Fe 1 Se 1 2015 K Emergence of Multiple Superconducting Phases in (NH3)yMxFeSe (M: Na and Li) 2015 "Research Laboratory for Surface Science, Okayama University, Okayama 700-8530, Japan" "Sci.Reports, 5(2015)12774"
156698 SCM0580016 Lattice term in SP (beta) = 3.8 mJ/fu.K4 Cs2Cr3As3 Cs2Cr3As3 Cs 2 Cr 3 As 3 1 2015 emu/fu 0.002 myu-B/Cr 0.14 -5.5 A2B3C3 K2Cr3As3 P6[-]m2 A 10.605 4.2478 K 1.5 2.2 0.43 1.85 6 T "RES(0.9Rn), GL" 6.45 6 0.44 MHC156698 mJ/f.u.K2 39 SP 160 SP Superconductivity in quasi-one-dimensional Cs2Cr3As3 with large interchain distance 2015 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Sci.China Mater., 58(2015)16"
156699 SSC2450011 LaOBiS2 La1Bi1S2O1 La 1 Bi 1 S 2 O 1 1 2016 CeOBiS2 K 1.3 "R2S3,Bi2S3,Bi2O3(3N)" "mixture - sealed in quartz tube(vac) - heat(700C,10h) - reground - pellet - sealed in quartz tube(vac) - heat(700C,20h) - FC to RT" Superconductivity in CeOBiS2 with cerium valence fluctuation 2016 "University of Yamanashi, 7-32 Miyamae, Kofu, Yamanashi 400-8511, Japan" "Solid State Commun., 245(2016)11"
156700 SSC2450011 CeOBiS2 Ce1Bi1S2O1 Ce 1 Bi 1 S 2 O 1 1 2016 CeOBiS2 K 1.3 1.9 1.6 "R2S3,Bi2S3,Bi2O3(3N)" "mixture - sealed in quartz tube(vac) - heat(700C,10h) - reground - pellet - sealed in quartz tube(vac) - heat(700C,20h) - FC to RT" Superconductivity in CeOBiS2 with cerium valence fluctuation 2016 "University of Yamanashi, 7-32 Miyamae, Kofu, Yamanashi 400-8511, Japan" "Solid State Commun., 245(2016)11"
156701 SSC2450011 PrOBiS2 Pr1Bi1S2O1 Pr 1 Bi 1 S 2 O 1 1 2016 CeOBiS2 K 1.3 "R2S3,Bi2S3,Bi2O3(3N)" "mixture - sealed in quartz tube(vac) - heat(700C,10h) - reground - pellet - sealed in quartz tube(vac) - heat(700C,20h) - FC to RT" Superconductivity in CeOBiS2 with cerium valence fluctuation 2016 "University of Yamanashi, 7-32 Miyamae, Kofu, Yamanashi 400-8511, Japan" "Solid State Commun., 245(2016)11"
156702 SSC2450011 "R(T) measured at 2.0 =< T =< 5.0 K, for H//ab and H//c ( H =< 0.3 T). R(onset) around 3K, but R not to zero at T=2 K." CeOBiS2 Ce1Bi1S2O1 Ce 1 Bi 1 S 2 O 1 3 2016 CeOBiS2 K 3 3 single crystals grown by CsCl flux method Superconductivity in CeOBiS2 with cerium valence fluctuation 2016 "University of Yamanashi, 7-32 Miyamae, Kofu, Yamanashi 400-8511, Japan" "Solid State Commun., 245(2016)11"
156703 SST029035011 RRR = 22. lattice term in SP (beta) = 0.127 mJ/mol.K4. (dC/gamma*Tc) = 1.4. Hc(0) = 9.95 mT. e-ph = 0.441. DOS = 3.18 states/eV.f.u. TiIrSi Ti1Ir1Si1 Ti 1 Ir 1 Si 1 1 2016 ABC TiNiSi Pnma 62 A 6.249 3.858 7.202 K 1.42 0.25 1.42 mT calc from Hc(0) 0.535 T "RES(0.5Rn), empirical" 0.751 MHC156703 A from Hc2 209 nm "Hc1, GL" 1110 mJ/mol.K2 10.8 SP 358 SP uOhm.cm 11 240 "Ir(3N),Si(5N),Ti(3N),Zr(2N),Hf(2N)" "mixture - arc melting - remelt several times - ANN(950-1000 C,7 days)" "Superconductivity in the ternary silicide TrIrSi (Tr = Ti, Zr, and Hf)" 2016 "Graduate School of Science and Technology, Niigata University, 8050, Ikarashi 2-no-cho, Nishi-ku, Niigata 950?2181, Japan" "Supercond. Sci. Technol., 29(2016)035011"
156704 SST029035011 RRR = 6.5. lattice term in SP (beta) = 0.117 mJ/mol.K4. (dC/gamma*Tc) = 1.4. Hc(0) = 10.8 mT. e-ph = 0.464. DOS = 2.21 states/eV.f.u. ZrIrSi Zr1Ir1Si1 Zr 1 Ir 1 Si 1 1 2016 ABC TiNiSi Pnma 62 A 6.537 3.952 7.393 K 1.85 0.1 1.85 mT calc from Hc(0) 0.713 T "RES(0.5Rn), empirical" 0.618 MHC156704 A from Hc2 231 nm "Hc1, GL" 960 mJ/mol.K2 7.63 SP 368 SP uOhm.cm 40 260 "Ir(3N),Si(5N),Ti(3N),Zr(2N),Hf(2N)" "mixture - arc melting - remelt several times - ANN(950-1000 C,7 days)" "Superconductivity in the ternary silicide TrIrSi (Tr = Ti, Zr, and Hf)" 2016 "Graduate School of Science and Technology, Niigata University, 8050, Ikarashi 2-no-cho, Nishi-ku, Niigata 950?2181, Japan" "Supercond. Sci. Technol., 29(2016)035011"
156705 SST029035011 RRR = 2.9. lattice term in SP (beta) = 0.127 mJ/mol.K4. (dC/gamma*Tc) = 1.4. Hc(0) = 21.8 mT. e-ph = 0.545. DOS = 1.79 states/eV.f.u. HfIrSi Hf1Ir1Si1 Hf 1 Ir 1 Si 1 1 2016 14.1 ABC TiNiSi Pnma 62 A 6.463 3.93 7.376 K 3.43 0.14 3.43 80 mT calc from Hc(0) 0.929 T "RES(0.5Rn), empirical" 2.23 MHC156705 A from Hc2 121 nm "Hc1, GL" 841 mJ/mol.K2 12.7 SP 304 SP uOhm.cm 79.5 230 "Ir(3N),Si(5N),Ti(3N),Zr(2N),Hf(2N)" "mixture - arc melting - remelt several times - ANN(950-1000 C,7 days)" "Superconductivity in the ternary silicide TrIrSi (Tr = Ti, Zr, and Hf)" 2016 "Graduate School of Science and Technology, Niigata University, 8050, Ikarashi 2-no-cho, Nishi-ku, Niigata 950?2181, Japan" "Supercond. Sci. Technol., 29(2016)035011"
156800 ANN3580248 "C=a*T + b*T^3 + c*T^5 + d*T~7, b=1.906mJ/mol.K4, c=0.097mJ/mol.K6, d=-0.00007mJ/mol.K8. gap = 0.93 meV, (dC/gamma*Tc) = 1.7 from SP fitting." Ba0.67Pt3B2 Ba0.67Pt3B2 Ba 0.67 Pt 3 B 2 1 2015 A1B2C3 CeCo3B2 P6<3>/mmc A 6.16 5.27 hexagonal K 5.53 5.65 5.74 5.45 5.65 100 T MHC156800 meV 0.93 3.53 14 mJ/mol.K2 5.93 SP 175 "Ba(4N),Pt(3N),B" "arc-melting. mixture - pellet - arc-melting , several times." Superconductivity in Ba2/3Pt3B2 with the Kagome lattice 2015 "Center for Superconducting Physics and Materials, National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University,Nanjing 210093, China," "Anals of Physics, 358(2015)248"
156801 CPL029037402 one unit cell FeSe films on Se-etched STO(001) substrate by MBE method. Tc estimates from STM gap measurement assuming 2*gap = 5.5 kTc(bulk ) FeSe(film) Fe1Se1 Fe 1 Se 1 5 2012 AB beta-phase FeSe K 80 80 meV 20.1 5.5 11 one unit cell FeSe films on Se-etched STO(001) substrates by MBE method (co-evaporation) Interface-Induced High-Temperature Superconductivity in Single Unit-Cell FeSe Films on SrTiO3 2012 "State Key Lab of Low-Dimensional Quantum Physics, Department of Physics, Tsinghua University, Beijing 100084" "Chin.Phys.Lett., 29(2012)037402"
156802 JAC6770057 "RRR = R(250)/R(5) = 9 , R(T) along b-axis. AFM below 247K(T-decreasing) and 258 K(T-increasing) R0 = 28.4 uOhm.cm and A = 0.00241 uOhm.cm/K2 for R(T) = R0 + A*T^2" CrAs As1Cr1 As 1 Cr 1 3 2016 258 AB MnP Pnma 62 A 5.651 3.465 6.209 K 2 "Cr(3N),As(4N),I(4N)" CVT method. using iodine agent. mixture - sealed in quartz tube - slow heating to 800 C - source zone heating to 900C - hold one week- cool to RT Single crystal growth of the new pressure-induced-superconductor CrAs via chemical vapor transport 2016 "High Magnetic Field Laboratory, Chinese Academy of Sciences, Hefei, 230031, PR China" "J.Alloys Compd., 677(2016)57"
156803 JAC6860431 "metastable at P=AP. Tm = 140 K(ferro-mag).(dC/gamma*Tc) = 0.16. gamma fitting for 4 < T < 7K. gap measured by point contact, gap1 = 0.46(singlet), gap2 = 0.93meV(triplet)" RhGe0.989 Ge0.989Rh1 Ge 0.989 Rh 1 1 2016 140 AB FeSi P2<1>3 198 A 4.85954 B20-type K 2.6 4.5 4.1 4.1 T/K onset 0.065 meV 0.46 1 mJ/mol.K2 2.9 SP uOhm.cm 28 "Rh(4N),Ge(5N)" "polycrystalline of RhGe cubic phase synthesized at P=8GPa, 1700K using toroidal high-P apparatus by melting Rh and Ge" Superconductivity and magnetism in noncentrosymmetric RhGe 2016 "L. F. Vereshchagin Institute for High Pressure Physics, Russian Academy of Sciences, 142190, Moscow, Troitsk, Russia" "J.Alloys Compd., 686(2016)431"
156804 JAC6860431 RhGe1.003 Ge1.003Rh1 Ge 1.003 Rh 1 1 2016 AB FeSi P2<1>3 198 B20-type K 2.9 4 3.45 MTC156804 K/GPa 0.15 "Rh(4N),Ge(5N)" "polycrystalline of RhGe cubic phase synthesized at P=8GPa, 1700K using toroidal high-P apparatus by melting Rh and Ge" Superconductivity and magnetism in noncentrosymmetric RhGe 2016 "L. F. Vereshchagin Institute for High Pressure Physics, Russian Academy of Sciences, 142190, Moscow, Troitsk, Russia" "J.Alloys Compd., 686(2016)431"
156805 JAC6860431 RhGe4 Ge4Rh1 Ge 4 Rh 1 1 2016 AB4 K 2.27 2.56 2.66 2.56 MTC156805 mOhm.cm 0.8 "Rh(4N),Ge(5N)" "polycrystalline of RhGe cubic phase synthesized at P=8GPa, 1700K using toroidal high-P apparatus by melting Rh and Ge" Superconductivity and magnetism in noncentrosymmetric RhGe 2016 "L. F. Vereshchagin Institute for High Pressure Physics, Russian Academy of Sciences, 142190, Moscow, Troitsk, Russia" "J.Alloys Compd., 686(2016)431"
156806 JAC6880206 "k(GL) = 32. Hc(0) = 983 Oe. beta(SP) = 3.9E-4 J/mol.K^4. (dC/gamma*Tc) = 1.26. gamma = 6.8 mJ/mol.K2, Debye-T = 455K,, Ein-T = 110K from SP(0 < T< 300K)" ThCoSi Th1Co1Si1 Th 1 Co 1 Si 1 1 2016 emu/mol 0.0004 ABC LaPtSi I4<1>md A 4.081 14.003 LaPtSi-type K 2.95 2.95 Oe "M-H curve, Hc1(T)=A*(1-t^2)" 74 T defined as R=0.1Rn 4.5 MHC156806 nm from Hc2 8.55 nm "Hc1, GL theory" 277 mJ/mol.K 22.12 mJ/mol.K2 15.5 SP 392 SP uOhm.cm 90 221 "Th(98wt%),Co(99.95wt%),Si(5N-wt%)" arc-melting Superconductivity in a non-centrosymmetric compound ThCoSi 2016 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O.Box 1410, 50-950 Wroc?aw, Poland" "J.Alloys Compd., 688(2016)206"
156807 PRB089144514 K-content measured by WDS. Tc defined as max of (dR/dT). T same as Tn BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2014 135 AB2C2 ThCr2Si2 Fe-122 K 0 FeAs flux method. cleaved samples are a:b:c = 0.5:0.5:0.02 mm3 Interplane resistivity of underdoped single crystals (Ba1-xKx)Fe2As2 (0 =< x =< 0.34) 2014 "Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)144514"
156808 PRB089144514 K-content measured by WDS. Tc defined as max of (dR/dT). T same as Tn "(Ba,K)Fe2As2" Ba0.892K0.108Fe2As2 Ba 0.892 K 0.108 Fe 2 As 2 3 2014 126 AB2C2 ThCr2Si2 Fe-122 K 0 MPH156808 FeAs flux method. cleaved samples are a:b:c = 0.5:0.5:0.02 mm3 Interplane resistivity of underdoped single crystals (Ba1-xKx)Fe2As2 (0 =< x =< 0.34) 2014 "Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)144514"
156809 PRB089144514 K-content measured by WDS. Tc defined as max of (dR/dT). T same as Tn "(Ba,K)Fe2As2" Ba0.832K0.168Fe2As2 Ba 0.832 K 0.168 Fe 2 As 2 3 2014 120 AB2C2 ThCr2Si2 Fe-122 K 7.74 7.74 MTC156809 FeAs flux method. cleaved samples are a:b:c = 0.5:0.5:0.02 mm3 Interplane resistivity of underdoped single crystals (Ba1-xKx)Fe2As2 (0 =< x =< 0.34) 2014 "Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)144514"
156810 PRB089144514 K-content measured by WDS. Tc defined as max of (dR/dT). T same as Tn "(Ba,K)Fe2As2" Ba0.807K0.193Fe2As2 Ba 0.807 K 0.193 Fe 2 As 2 3 2014 102 AB2C2 ThCr2Si2 Fe-122 K 17.2 17.2 FeAs flux method. cleaved samples are a:b:c = 0.5:0.5:0.02 mm3 Interplane resistivity of underdoped single crystals (Ba1-xKx)Fe2As2 (0 =< x =< 0.34) 2014 "Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)144514"
156811 PRB089144514 K-content measured by WDS. Tc defined as max of (dR/dT). T same as Tn "(Ba,K)Fe2As2" Ba0.765K0.235Fe2As2 Ba 0.765 K 0.235 Fe 2 As 2 3 2014 90 AB2C2 ThCr2Si2 Fe-122 K 20.5 20.5 FeAs flux method. cleaved samples are a:b:c = 0.5:0.5:0.02 mm3 Interplane resistivity of underdoped single crystals (Ba1-xKx)Fe2As2 (0 =< x =< 0.34) 2014 "Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)144514"
156812 PRB089144514 K-content measured by WDS. Tc defined as max of (dR/dT). "(Ba,K)Fe2As2" Ba0.66K0.34Fe2As2 Ba 0.66 K 0.34 Fe 2 As 2 3 2014 AB2C2 ThCr2Si2 Fe-122 K 37.5 37.5 FeAs flux method. cleaved samples are a:b:c = 0.5:0.5:0.02 mm3 Interplane resistivity of underdoped single crystals (Ba1-xKx)Fe2As2 (0 =< x =< 0.34) 2014 "Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)144514"
156813 PRB091060508 "RRR = 1900. Tc defined as R=0 and R=onset for SC1 and SC2 phases , respectively. Tetra-to-collapsed tetra transition at 16.4 GPa. (dTc/dP) = 2.1 K/GPa estimated for P//[001]." KFe2As2 K1Fe2As2 K 1 Fe 2 As 2 3 2015 AB2C2 ThCr2Si2 Fe-122 K 3.6 4.2 3.9 MTC156813 cm3/C MRH156813 KAs flux method High-temperature superconductivity stabilized by electron-hole interband coupling in collapsed tetragonal phase of KFe2As2 under high pressure 2015 "Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, College Park, Maryland 20742, USA" "Phys.Rev.B, 91(2015)060508"
156814 PRB094054514 "Two band full-gap model. 2d/kTc) = 1.4(small in DB), =3.52(large). small gap is nodeless. from SP. (dC/gamma*Tc) = 1.25. Cel(H)/T = 0.012J/mol.K2.kOe(H//a)" CeCu2Si2 Ce1Cu2Si2 Ce 1 Cu 2 Si 2 3 2016 AB2C2 ThCr2Si2 Fe-122 K 0.6 0.6 T "SP, WHH" 10 14.7 T/K SP 24 35 MHC156814 K 0.39 1.4 14 Flux method Thermodynamic study of gap structure and pair-breaking effect by magnetic field in the heavy-fermion superconductor CeCu2Si2 2016 "Institute for Solid State Physics (ISSP), University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.B, 94(2016)054514"
156815 PRB094054515 "RRR=1.47. SP(beta)=0.28 mJ/mol.K4, SP(delta)=0.004 mJ/mol.K6. (dC/gamma*Tc) = 1.53. Hc2(0) = 9.77 T from WHH. Hc(0) = 126.7 mT. GL = 68. e-Ph = 0.63." Re6Hf Hf1Re6 Hf 1 Re 6 1 2016 AB6 alpha-Mn I4[-]3m 217 A 9.685 K 5.96 5.94 0.41 5.94 mT "M-H curve, Hc1(T)=A*(1-t^2)" 5.6 5.2 1.8 T "M and SP, GL-eq." 12.2 T/K SP 2.36 MHC156815 A from Hc2 52 A "Hc1, GL theory" 3538 meV 0.94 3.64 14 MSP156815 mJ/mol.K2 27.2 SP 364 SP uOhm.cm 106.12 "Hf(4N),Re(4N)" arc-melting Superconducting properties of the noncentrosymmetric superconductor Re6Hf 2016 "Indian Institute of Science Education and Research Bhopal, Bhopal 462066, India" "Phys.Rev.B, 94(2016)054515"
156816 PRB094054517 "P-induced SC. Tc(max) = 4.8 K at P=20 GPa.. Pcr = 5 GPa. gamma = 0, Debye model, CDW not detected. SC properties (in DB) at P=19.5 GPa. . Hc2(0) = 4.5 T from GL" HfTe5 Hf1Te5 Hf 1 Te 5 3 2016 AB5 Cmcm A 3.974 14.481 13.72 K 4.8 0 4.8 MPH156816 T "RES(0.9Rn), WHH" 3.6 T/K RES(0.9Rn) 1.08 nm from Hc2 8.5 "Flux method. (Hf0.0025Te99.9975) - alumina crucible - quartz tube - heat(900C,1d) - rapid cool to 580C - slow cool to 470 C (0.5K/h)" Pressure-driven superconductivity in the transition-metal pentatelluride HfTe5 2016 "Max Planck Institute for Chemical Physics of Solids, 01187 Dresden, Germany" "Phys.Rev.B, 94(2016)054517"
156817 PRB094054523 RRR = 17. SP (beta) = 3.7 mJ/mol.K4. Einstain-T = 95.5 K from C(T) fitting for 0.3 analysis.. Hc2 determined by thermal conductivity measurements. LaPt4Ge12 La1Pt4Ge12 La 1 Pt 4 Ge 12 3 2016 AB4C12 skutterudite K 8 8 T thermal cond. 1.4 A from Hc2 200 4.06 14 mJ/mol.K2 56 SP 208 SP uOhm.cm 3.8 "(bulk sample) - in glassy-C crucible - sealed in Ta-tube in quartz tube - heat(870C within 5h and hold 10h) - cool to 845C, hold 30d) - furnace cool to RT" Superconducting gap structure of the skutterudite LaPt4Ge12 probed by specific heat and thermal transport 2016 "Max Planck Institute for Chemical Physics of Solids, 01187 Dresden, Germany" "Phys.Rev.B, 94(2016)054523"
156818 PRB094064501 "RRR = 15 for R, = 7 for R. Carrier = 0.74 (40K) and 1.3 (200K) E+22/cm^3 from Hall coefficient." CaKFe4As4 Ca1K1Fe4As4 Ca 1 K 1 Fe 4 As 4 3 2016 ABC4D4 CaRb1144 P4/mmm A 3.8696 12.837 "CaK-1144. a=3.8609, c=12.674 at T=6.7 K" K 35 35 35 MTC156818 T RES(onset) 92 71 T/K RES(on) 10.9 4.4 MHC156818 MSP156818 uV/K 27.3 MTP156818 uOhm.cm 300 1500 n/cm3 1.30E+22 "K:Ca:(Fe0.512As0.488) = 1.2:0.8:20. welded in Ta crucible - in alumina ampoule - heat(650C,1h) - hold(3h) - heat(1180C,2h) - hold(5h) - cool to 1050C over5h - slow cool to 930C" Anisotropic thermodynamic and transport properties of single-crystalline CaKFe4As4 2016 "Ames Laboratory US DOE, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 94(2016)064501"
156819 PRB094064522 (dC/dT) vs T curve shows the step corresponding to the hidden SC at 15 K. coexistence of SC and FM(below 50K) "(Bi,Mn)4O4S3" Bi3.925Mn0.075S3O4 Bi 3.925 Mn 0.075 S 3 O 4 1 2016 50 A3B4C4 I4/mmm A 3.9652 41.3563 K 6.04 4.67 4.67 MTC156819 "Bi(4N),Bi2O3(4N),S(5N),MnO2(4N)" solid state reaction. mixture - pressed to pellet - sealed in quartz tube - heat to 510 C - hold(10h) Mn-doping induced ferromagnetism and enhanced superconductivity in Bi4-xMnxO4S3 (0.075 =< x =< 0.15) 2016 "Department of Physics, Shanghai University, Shanghai 200444, China" "Phys.Rev.B, 94(2016)064522"
156820 PRB094064522 (dC/dT) vs T curve shows the step corresponding to the hidden SC at 15 K. coexistence of SC and FM(below 50K) "(Bi,Mn)4O4S3" Bi3.9Mn0.1S3O4 Bi 3.9 Mn 0.1 S 3 O 4 1 2016 50 A3B4C4 I4/mmm A 3.9631 41.3562 K 6.28 4.75 4.75 "Bi(4N),Bi2O3(4N),S(5N),MnO2(4N)" solid state reaction. mixture - pressed to pellet - sealed in quartz tube - heat to 510 C - hold(10h) Mn-doping induced ferromagnetism and enhanced superconductivity in Bi4-xMnxO4S3 (0.075 =< x =< 0.15) 2016 "Department of Physics, Shanghai University, Shanghai 200444, China" "Phys.Rev.B, 94(2016)064522"
156821 PRB094064522 (dC/dT) vs T curve shows the step corresponding to the hidden SC at 15 K. coexistence of SC and FM(below 50K). R(T) minimum at 55 K. "(Bi,Mn)4O4S3" Bi3.875Mn0.125S3O4 Bi 3.875 Mn 0.125 S 3 O 4 1 2016 50 125 A3B4C4 I4/mmm A 3.9464 40.9695 K 6.43 4.77 4.77 MTC156819 m3/C 0.00003716 n/m3 1.69E+23 "Bi(4N),Bi2O3(4N),S(5N),MnO2(4N)" solid state reaction. mixture - pressed to pellet - sealed in quartz tube - heat to 510 C - hold(10h) Mn-doping induced ferromagnetism and enhanced superconductivity in Bi4-xMnxO4S3 (0.075 =< x =< 0.15) 2016 "Department of Physics, Shanghai University, Shanghai 200444, China" "Phys.Rev.B, 94(2016)064522"
156822 PRB094064522 (dC/dT) vs T curve shows the step corresponding to the hidden SC at 15 K. coexistence of SC and FM(below 50K). R(T) minimum at 23 K. "(Bi,Mn)4O4S3" Bi3.85Mn0.15S3O4 Bi 3.85 Mn 0.15 S 3 O 4 1 2016 50 125 A3B4C4 I4/mmm A 3.9368 40.9544 K 5.53 4.02 4.02 "Bi(4N),Bi2O3(4N),S(5N),MnO2(4N)" solid state reaction. mixture - pressed to pellet - sealed in quartz tube - heat to 510 C - hold(10h) Mn-doping induced ferromagnetism and enhanced superconductivity in Bi4-xMnxO4S3 (0.075 =< x =< 0.15) 2016 "Department of Physics, Shanghai University, Shanghai 200444, China" "Phys.Rev.B, 94(2016)064522"
156823 PRB094064522 "(Bi,Co)4O4S3" Bi3.875Co0.125S3O4 Bi 3.875 Co 0.125 S 3 O 4 1 2016 A3B4C4 I4/mmm A 3.9614 41.2995 K 5.93 4.79 4.79 "Bi(4N),Bi2O3(4N),S(5N),MnO2(4N)" solid state reaction. mixture - pressed to pellet - sealed in quartz tube - heat to 510 C - hold(10h) Mn-doping induced ferromagnetism and enhanced superconductivity in Bi4-xMnxO4S3 (0.075 =< x =< 0.15) 2016 "Department of Physics, Shanghai University, Shanghai 200444, China" "Phys.Rev.B, 94(2016)064522"
156824 PRB094064522 "(Bi,Ni)4O4S3" Bi3.875Ni0.125S3O4 Bi 3.875 Ni 0.125 S 3 O 4 1 2016 A3B4C4 I4/mmm A 3.953 41.0972 K 6.09 4.87 4.87 "Bi(4N),Bi2O3(4N),S(5N),MnO2(4N)" solid state reaction. mixture - pressed to pellet - sealed in quartz tube - heat to 510 C - hold(10h) Mn-doping induced ferromagnetism and enhanced superconductivity in Bi4-xMnxO4S3 (0.075 =< x =< 0.15) 2016 "Department of Physics, Shanghai University, Shanghai 200444, China" "Phys.Rev.B, 94(2016)064522"
156825 PRB094094501 RRR = 28.3. LaPt4Ge12 La1Pt4Ge12 La 1 Pt 4 Ge 12 1 2016 cm3/mol 390 -19.2 AB4C12 skutterudite Im3[-] A 8.6145 K 8.33 8.54 9.3 8.54 "La(3N),Ce(3N),Th(3N),Pt(6N),Ge(6N)" "arc-melting. ANN(800C,336h, in quartz tube(vac))" "Superconducting and normal state properties of the systems La1-xMxPt4Ge12 (M = Ce, Th)" 2016 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 94(2016)094501"
156826 PRB094094501 RRR = 8.75. (dTc/dx) = -0.4 K/at%Ce. Energy gap D/Tc = 1.52 rom SP analysis. "(La,Ce)Pt4Ge12" La0.95Ce0.05Pt4Ge12 La 0.95 Ce 0.05 Pt 4 Ge 12 1 2016 AB4C12 skutterudite Im3[-] A 6.6159 K 5.42 5.73 6.32 5.73 MSP156826 mJ/mol.K2 51.2 SP 204 SP "La(3N),Ce(3N),Th(3N),Pt(6N),Ge(6N)" "arc-melting. ANN(800C,336h, in quartz tube(vac))" "Superconducting and normal state properties of the systems La1-xMxPt4Ge12 (M = Ce, Th)" 2016 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 94(2016)094501"
156827 PRB094094501 Energy gap D/Tc = 1.38 from SP analysis. "(La,Ce)Pt4Ge12" La0.9Ce0.1Pt4Ge12 La 0.9 Ce 0.1 Pt 4 Ge 12 1 2016 AB4C12 skutterudite Im3[-] A 8.6141 K 3.14 5.61 4.53 5.61 MTC156826 mJ/mol.K2 67.6 SP 210 SP "La(3N),Ce(3N),Th(3N),Pt(6N),Ge(6N)" "arc-melting. ANN(800C,336h, in quartz tube(vac))" "Superconducting and normal state properties of the systems La1-xMxPt4Ge12 (M = Ce, Th)" 2016 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 94(2016)094501"
156828 PRB094094501 RRR = 5.85 "(La,Ce)Pt4Ge12" La0.85Ce0.15Pt4Ge12 La 0.85 Ce 0.15 Pt 4 Ge 12 1 2016 AB4C12 skutterudite Im3[-] A 8.6139 K 1.59 2.17 2.99 2.17 mJ/mol.K2 81.3 SP 210.3 SP "La(3N),Ce(3N),Th(3N),Pt(6N),Ge(6N)" "arc-melting. ANN(800C,336h, in quartz tube(vac))" "Superconducting and normal state properties of the systems La1-xMxPt4Ge12 (M = Ce, Th)" 2016 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 94(2016)094501"
156829 PRB094094501 RRR = 4.59. T*(broad max point in M/H vs T curve) = 41.3 K "(La,Ce)Pt4Ge12" La0.8Ce0.2Pt4Ge12 La 0.8 Ce 0.2 Pt 4 Ge 12 1 2016 cm3/mol 1580 myu-B/Ce 3.16 -69.8 AB4C12 skutterudite Im3[-] A 8.613 K 1.57 1.57 "La(3N),Ce(3N),Th(3N),Pt(6N),Ge(6N)" "arc-melting. ANN(800C,336h, in quartz tube(vac))" "Superconducting and normal state properties of the systems La1-xMxPt4Ge12 (M = Ce, Th)" 2016 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 94(2016)094501"
156830 PRB094094501 RRR = 3.54. T*(broad max point in M/H vs T curve) = 51.3 K "(La,Ce)Pt4Ge12" La0.6Ce0.4Pt4Ge12 La 0.6 Ce 0.4 Pt 4 Ge 12 1 2016 cm3/mol 2340 myu-B/Ce 2.77 -57.9 AB4C12 skutterudite Im3[-] A 8.6128 K 0 "La(3N),Ce(3N),Th(3N),Pt(6N),Ge(6N)" "arc-melting. ANN(800C,336h, in quartz tube(vac))" "Superconducting and normal state properties of the systems La1-xMxPt4Ge12 (M = Ce, Th)" 2016 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 94(2016)094501"
156831 PRB094094501 RRR = 2.7. T*(broad max point in M/H vs T curve) = 64.9 K "(La,Ce)Pt4Ge12" La0.4Ce0.6Pt4Ge12 La 0.4 Ce 0.6 Pt 4 Ge 12 1 2016 cm3/mol 2840 myu-B/Ce 2.59 -64.1 AB4C12 skutterudite Im3[-] A 8.6163 K 0 "La(3N),Ce(3N),Th(3N),Pt(6N),Ge(6N)" "arc-melting. ANN(800C,336h, in quartz tube(vac))" "Superconducting and normal state properties of the systems La1-xMxPt4Ge12 (M = Ce, Th)" 2016 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 94(2016)094501"
156832 PRB094094501 RRR = 3.91. T*(broad max point in M/H vs T curve) = 74.7 K "(La,Ce)Pt4Ge12" La0.4Ce0.8Pt4Ge12 La 0.4 Ce 0.8 Pt 4 Ge 12 1 2016 cm3/mol 3980 myu-B/Ce 3.03 -98 AB4C12 skutterudite Im3[-] A 8.6104 K 0 "La(3N),Ce(3N),Th(3N),Pt(6N),Ge(6N)" "arc-melting. ANN(800C,336h, in quartz tube(vac))" "Superconducting and normal state properties of the systems La1-xMxPt4Ge12 (M = Ce, Th)" 2016 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 94(2016)094501"
156833 PRB094094501 RRR = 20.8. T*(broad max point in M/H vs T curve) = 80.3 K "(La,Ce)Pt4Ge12" Ce1Pt4Ge12 Ce 1 Pt 4 Ge 12 1 2016 cm3/mol 3640 myu-B/Ce 2.71 -84 AB4C12 skutterudite Im3[-] A 8.6145 K 0 "La(3N),Ce(3N),Th(3N),Pt(6N),Ge(6N)" "arc-melting. ANN(800C,336h, in quartz tube(vac))" "Superconducting and normal state properties of the systems La1-xMxPt4Ge12 (M = Ce, Th)" 2016 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 94(2016)094501"
156834 PRB094094501 RRR = 12.3 "(La,Th)Pt4Ge12" La0.8Th0.2Pt4Ge12 La 0.8 Th 0.2 Pt 4 Ge 12 1 2016 AB4C12 skutterudite Im3[-] A 8.627 K 7.78 8.06 8.29 8.06 mJ/mol.K2 30.7 SP 201 SP "La(3N),Ce(3N),Th(3N),Pt(6N),Ge(6N)" "arc-melting. ANN(800C,336h, in quartz tube(vac))" "Superconducting and normal state properties of the systems La1-xMxPt4Ge12 (M = Ce, Th)" 2016 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 94(2016)094501"
156835 PRB094094501 RRR = 10.4 "(La,Th)Pt4Ge12" La0.6Th0.4Pt4Ge12 La 0.6 Th 0.4 Pt 4 Ge 12 1 2016 AB4C12 skutterudite Im3[-] A 8.6113 K 7.03 7.55 7.41 7.55 "La(3N),Ce(3N),Th(3N),Pt(6N),Ge(6N)" "arc-melting. ANN(800C,336h, in quartz tube(vac))" "Superconducting and normal state properties of the systems La1-xMxPt4Ge12 (M = Ce, Th)" 2016 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 94(2016)094501"
156836 PRB094094501 RRR = 10.6. (dTc/dx) = -0.04 K/at%Th "(La,Th)Pt4Ge12" La0.4Th0.6Pt4Ge12 La 0.4 Th 0.6 Pt 4 Ge 12 1 2016 AB4C12 skutterudite Im3[-] A 8.6141 K 6.22 6.77 7.13 6.77 MTC156836 "La(3N),Ce(3N),Th(3N),Pt(6N),Ge(6N)" "arc-melting. ANN(800C,336h, in quartz tube(vac))" "Superconducting and normal state properties of the systems La1-xMxPt4Ge12 (M = Ce, Th)" 2016 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 94(2016)094501"
156837 PRB094094501 RRR = 26.8 "(La,Th)Pt4Ge12" La0.2Th0.8Pt4Ge12 La 0.2 Th 0.8 Pt 4 Ge 12 1 2016 AB4C12 skutterudite Im3[-] A 8.6081 K 5.36 5.67 6.2 5.67 "La(3N),Ce(3N),Th(3N),Pt(6N),Ge(6N)" "arc-melting. ANN(800C,336h, in quartz tube(vac))" "Superconducting and normal state properties of the systems La1-xMxPt4Ge12 (M = Ce, Th)" 2016 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 94(2016)094501"
156838 PRB094094501 RRR = 38.5 "(La,Th)Pt4Ge12" Th1Pt4Ge12 Th 1 Pt 4 Ge 12 1 2016 AB4C12 skutterudite Im3[-] A 8.5995 K 4.35 4.56 4.97 4.56 "La(3N),Ce(3N),Th(3N),Pt(6N),Ge(6N)" "arc-melting. ANN(800C,336h, in quartz tube(vac))" "Superconducting and normal state properties of the systems La1-xMxPt4Ge12 (M = Ce, Th)" 2016 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 94(2016)094501"
156839 PRB094094523 "(La,Ce)Ru3Si2" La0.9Ce0.1Ru3Si2 La 0.9 Ce 0.1 Ru 3 Si 2 1 2016 AB2C3 LaRu2Si2 P6/mmm K 5.12 5.12 5.12 arc-melting.Excess Ru added in nominal compositions to avoid LaRu2Si2 phase formation. Chemical doping effect in the LaRu3Si2 superconductor with a kagome lattice 2016 "National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 94(2016)094523"
156840 PRB094094523 "(La,Ce)Ru3Si2" La0.8Ce0.2Ru3Si2 La 0.8 Ce 0.2 Ru 3 Si 2 1 2016 AB2C3 LaRu2Si2 P6/mmm K 4.62 4.62 4.62 MTC156840 arc-melting.Excess Ru added in nominal compositions to avoid LaRu2Si2 phase formation. Chemical doping effect in the LaRu3Si2 superconductor with a kagome lattice 2016 "National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 94(2016)094523"
156841 PRB094094523 "(La,Ce)Ru3Si2" La0.6Ce0.4Ru3Si2 La 0.6 Ce 0.4 Ru 3 Si 2 1 2016 AB2C3 LaRu2Si2 P6/mmm K 3.35 3.35 3.35 arc-melting.Excess Ru added in nominal compositions to avoid LaRu2Si2 phase formation. Chemical doping effect in the LaRu3Si2 superconductor with a kagome lattice 2016 "National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 94(2016)094523"
156842 PRB094094523 "(La,Ce)Ru3Si2" La0.4Ce0.6Ru3Si2 La 0.4 Ce 0.6 Ru 3 Si 2 1 2016 AB2C3 LaRu2Si2 P6/mmm K 2.47 2.47 2.47 arc-melting.Excess Ru added in nominal compositions to avoid LaRu2Si2 phase formation. Chemical doping effect in the LaRu3Si2 superconductor with a kagome lattice 2016 "National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 94(2016)094523"
156843 PRB094094523 CeRu3Si2 Ce1Ru3Si2 Ce 1 Ru 3 Si 2 1 2016 AB2C3 LaRu2Si2 P6/mmm K 2 arc-melting.Excess Ru added in nominal compositions to avoid LaRu2Si2 phase formation. Chemical doping effect in the LaRu3Si2 superconductor with a kagome lattice 2016 "National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 94(2016)094523"
156844 PRB094094523 "(La,Lu)Ru3Si2" La0.95Lu0.05Ru3Si2 La 0.95 Lu 0.05 Ru 3 Si 2 1 2016 AB2C3 LaRu2Si2 P6/mmm K 6.19 6.19 6.19 arc-melting.Excess Ru added in nominal compositions to avoid LaRu2Si2 phase formation. Chemical doping effect in the LaRu3Si2 superconductor with a kagome lattice 2016 "National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 94(2016)094523"
156845 PRB094094523 "(La,Y)Ru3Si2" La0.92Y0.08Ru3Si2 La 0.92 Y 0.08 Ru 3 Si 2 1 2016 AB2C3 LaRu2Si2 P6/mmm K 6.13 6.13 6.13 arc-melting.Excess Ru added in nominal compositions to avoid LaRu2Si2 phase formation. Chemical doping effect in the LaRu3Si2 superconductor with a kagome lattice 2016 "National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 94(2016)094523"
156846 PRB094094523 RRR = 4.76 LaRu3Si2 La1Ru3Si2 La 1 Ru 3 Si 2 1 2016 AB2C3 LaRu2Si2 P6/mmm A 5.675 3.5574 K 6.89 6.89 6.89 arc-melting.Excess Ru added in nominal compositions to avoid LaRu2Si2 phase formation. Chemical doping effect in the LaRu3Si2 superconductor with a kagome lattice 2016 "National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 94(2016)094523"
156847 PRB094094523 RRR = 5.40 "La(Ru,Cr)3Si2" La1Ru2.94Cr0.06Si2 La 1 Ru 2.94 Cr 0.06 Si 2 1 2016 AB2C3 LaRu2Si2 P6/mmm A 5.6737 3.5568 K 6.23 6.23 6.23 arc-melting.Excess Ru added in nominal compositions to avoid LaRu2Si2 phase formation. Chemical doping effect in the LaRu3Si2 superconductor with a kagome lattice 2016 "National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 94(2016)094523"
156848 PRB094094523 RRR = 2.96 "La(Ru,Cr)3Si2" La1Ru1Cr0.21Si2 La 1 Ru 1 Cr 0.21 Si 2 1 2016 AB2C3 LaRu2Si2 P6/mmm A 5.6694 3.5517 K 4.88 4.88 4.88 arc-melting.Excess Ru added in nominal compositions to avoid LaRu2Si2 phase formation. Chemical doping effect in the LaRu3Si2 superconductor with a kagome lattice 2016 "National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 94(2016)094523"
156849 PRB094094523 RRR = 2.14 "La(Ru,Ni)3Si2" La1Ru2.919Ni0.081Si2 La 1 Ru 2.919 Ni 0.081 Si 2 1 2016 AB2C3 LaRu2Si2 P6/mmm A 5.672 3.5556 K 5.42 5.42 5.42 arc-melting.Excess Ru added in nominal compositions to avoid LaRu2Si2 phase formation. Chemical doping effect in the LaRu3Si2 superconductor with a kagome lattice 2016 "National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 94(2016)094523"
156850 PRB094094523 RRR = 1.67 "La(Ru,Ni)3Si2" La1Ru2.865Ni0.135Si2 La 1 Ru 2.865 Ni 0.135 Si 2 1 2016 AB2C3 LaRu2Si2 P6/mmm A 5.669 3.554 K 5.02 5.02 5.02 arc-melting.Excess Ru added in nominal compositions to avoid LaRu2Si2 phase formation. Chemical doping effect in the LaRu3Si2 superconductor with a kagome lattice 2016 "National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 94(2016)094523"
156851 PRB094094523 RRR = 1.40 "La(Ru,Ni)3Si2" La1Ru2.814Ni0.186Si2 La 1 Ru 2.814 Ni 0.186 Si 2 1 2016 AB2C3 LaRu2Si2 P6/mmm A 5.6672 3.5514 K 4.8 4.8 4.8 arc-melting.Excess Ru added in nominal compositions to avoid LaRu2Si2 phase formation. Chemical doping effect in the LaRu3Si2 superconductor with a kagome lattice 2016 "National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 94(2016)094523"
156852 PRB094094523 "La(Ru,Cu)3Si2" La1Ru2.94Cu0.06Si2 La 1 Ru 2.94 Cu 0.06 Si 2 1 2016 AB2C3 LaRu2Si2 P6/mmm K 6.44 6.44 arc-melting.Excess Ru added in nominal compositions to avoid LaRu2Si2 phase formation. Chemical doping effect in the LaRu3Si2 superconductor with a kagome lattice 2016 "National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 94(2016)094523"
156853 PRB094094523 "La(Ru,Cu)3Si2" La1Ru2.88Cu0.12Si2 La 1 Ru 2.88 Cu 0.12 Si 2 1 2016 AB2C3 LaRu2Si2 P6/mmm K 5.93 5.93 arc-melting.Excess Ru added in nominal compositions to avoid LaRu2Si2 phase formation. Chemical doping effect in the LaRu3Si2 superconductor with a kagome lattice 2016 "National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 94(2016)094523"
156854 PRB094094523 "La(Ru,Fe)3Si2" La1Ru2.97Fe0.03Si2 La 1 Ru 2.97 Fe 0.03 Si 2 1 2016 AB2C3 LaRu2Si2 P6/mmm K 6.16 6.16 arc-melting.Excess Ru added in nominal compositions to avoid LaRu2Si2 phase formation. Chemical doping effect in the LaRu3Si2 superconductor with a kagome lattice 2016 "National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 94(2016)094523"
156855 PRB094094523 "La(Ru,Fe)3Si2" La1Ru2.94Fe0.06Si2 La 1 Ru 2.94 Fe 0.06 Si 2 1 2016 AB2C3 LaRu2Si2 P6/mmm K 4.51 4.51 MTC156855 arc-melting.Excess Ru added in nominal compositions to avoid LaRu2Si2 phase formation. Chemical doping effect in the LaRu3Si2 superconductor with a kagome lattice 2016 "National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 94(2016)094523"
156856 PRB094094523 "La(Ru,Fe)3Si2" La1Ru2.925Fe0.075Si2 La 1 Ru 2.925 Fe 0.075 Si 2 1 2016 AB2C3 LaRu2Si2 P6/mmm K 3 3 arc-melting.Excess Ru added in nominal compositions to avoid LaRu2Si2 phase formation. Chemical doping effect in the LaRu3Si2 superconductor with a kagome lattice 2016 "National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 94(2016)094523"
156857 PRB094094523 "La(Ru,Fe)3Si2" La1Ru2.9175Fe0.0825Si2 La 1 Ru 2.9175 Fe 0.0825 Si 2 1 2016 AB2C3 LaRu2Si2 P6/mmm K 2.49 2.49 arc-melting.Excess Ru added in nominal compositions to avoid LaRu2Si2 phase formation. Chemical doping effect in the LaRu3Si2 superconductor with a kagome lattice 2016 "National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 94(2016)094523"
156858 PRB094094524 RH(250K) = -0.29E-3 cm3/C. LiFeAs Li1Fe1As1 Li 1 Fe 1 As 1 3 2016 ABC A 6.3641 K 17 16.2 16.2 cm3/C MRH156858 "Li3As,Fe1-xVxAs" "self-flux method. mixture(Li3As:Fe1-xVxAs:As = 1:0.9:1.1) - alumina crucible - sealed in Nb tube - in quartz tube - heat(1100C,50h) - slow cool to 750 C(2C/h)" Observation of non-Fermi liquid behavior in hole-doped LiFe1-xVxAs 2016 "Beijing National Laboratory for Condensed Matter Physics, and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 94(2016)094524"
156859 PRB094094524 dTc/dx = 7 K/at%V "Li(Fe,V)As" Li1Fe0.993V0.007As1 Li 1 Fe 0.993 V 0.007 As 1 3 2016 ABC A K 12.6 12.2 12.2 "Li3As,Fe1-xVxAs" "self-flux method. mixture(Li3As:Fe1-xVxAs:As = 1:0.9:1.1) - alumina crucible - sealed in Nb tube - in quartz tube - heat(1100C,50h) - slow cool to 750 C(2C/h)" Observation of non-Fermi liquid behavior in hole-doped LiFe1-xVxAs 2016 "Beijing National Laboratory for Condensed Matter Physics, and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 94(2016)094524"
156860 PRB094094524 "Li(Fe,V)As" Li1Fe0.986V0.014As1 Li 1 Fe 0.986 V 0.014 As 1 3 2016 ABC A 6.3625 K 7.77 5.7 5.7 "Li3As,Fe1-xVxAs" "self-flux method. mixture(Li3As:Fe1-xVxAs:As = 1:0.9:1.1) - alumina crucible - sealed in Nb tube - in quartz tube - heat(1100C,50h) - slow cool to 750 C(2C/h)" Observation of non-Fermi liquid behavior in hole-doped LiFe1-xVxAs 2016 "Beijing National Laboratory for Condensed Matter Physics, and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 94(2016)094524"
156861 PRB094094524 "Li(Fe,V)As" Li1Fe0.981V0.019As1 Li 1 Fe 0.981 V 0.019 As 1 3 2016 ABC A 6.366 K 3 3 "Li3As,Fe1-xVxAs" "self-flux method. mixture(Li3As:Fe1-xVxAs:As = 1:0.9:1.1) - alumina crucible - sealed in Nb tube - in quartz tube - heat(1100C,50h) - slow cool to 750 C(2C/h)" Observation of non-Fermi liquid behavior in hole-doped LiFe1-xVxAs 2016 "Beijing National Laboratory for Condensed Matter Physics, and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 94(2016)094524"
156862 PRB094094524 n = 1.25 in R = A*T^n. RH(260K) = +0.24E-3 cm3/C. "Li(Fe,V)As" Li1Fe0.958V0.042As1 Li 1 Fe 0.958 V 0.042 As 1 3 2016 ABC A 6.3881 K 0 cm3/C MRH156862 "Li3As,Fe1-xVxAs" "self-flux method. mixture(Li3As:Fe1-xVxAs:As = 1:0.9:1.1) - alumina crucible - sealed in Nb tube - in quartz tube - heat(1100C,50h) - slow cool to 750 C(2C/h)" Observation of non-Fermi liquid behavior in hole-doped LiFe1-xVxAs 2016 "Beijing National Laboratory for Condensed Matter Physics, and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 94(2016)094524"
156863 PRB094104507 "R(T) has quadratic dependence of T for all P-range RRR = 1.3. (dR/dT) has two peaks in SC transition, Tc1(lower) and Tc2(higher ones). See TCFIG." Ba8Si46 Ba8Si46 Ba 8 Si 46 2016 A8B46 3 clathrate K 7.31 8 7.31 MTC156863 "mixed(BaSi2 + Si) - in h=BN cell - high-P synthesis(1000K,P=1-5 GPa) - Quench to RT - P release" Enhanced high-pressure superconductivity and local structure of the Ba8Si46 clathrate 2016 "Instituto de Investigaciones en Materiales, Universidad Nacional Autonoma de Mexico, Mexico, D.F. 04510, Mexico" "Phys.Rev.B, 94(2016)104507"
156864 PRB094125110 RRR = 28. Hc2//b measured UCoGe U1Co1Ge1 U 1 Co 1 Ge 1 3 2016 ABC 3 TiNiSi K 0.76 0.15 0.76 MPH156864 T RES(0.5Rn) MHC156864 uOhm.cm 10.6 crystals grown in a tetra-arc furnace by Chzochralski method. Quantum criticality in the ferromagnetic superconductor UCoGe under pressure and magnetic field 2016 "Universite Grenoble Alpes, CEA, INAC-PHELIQS, F-38000 Grenoble, France" "Phys.Rev.B, 94(2016)125110"
156865 PRB094125110 Hc2//c measured UCoGe U1Co1Ge1 U 1 Co 1 Ge 1 3 2016 ABC 3 TiNiSi K 0.76 0.76 T RES(0.5Rn) MHC156865 crystals grown in a tetra-arc furnace by Chzochralski method. Quantum criticality in the ferromagnetic superconductor UCoGe under pressure and magnetic field 2016 "Universite Grenoble Alpes, CEA, INAC-PHELIQS, F-38000 Grenoble, France" "Phys.Rev.B, 94(2016)125110"
156866 PRB094134507 "Trigonal(H) to monoclinic(L) phase transition, T = 249 K. Hall const in DB shows ones at 2 K." IrTe2 Ir1Te2 Ir 1 Te 2 1 2016 AB2 CdI2 A 3.9317 5.3995 c/a = 1.374 K 1.8 mJ/mol.K2 1.82 SP 204 SP cm3/C -0.000041 solid state reaction Relation between the structural phase transition and superconductivity in CuxIrTe2-ySey 2016 "Department of Applied Physics, University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 94(2016)134507"
156867 PRB094134507 "Trigonal(H) to monoclinic(L) phase transition, T = 290 K. Hall const in DB shows ones at 2 K." "Ir(Te,Se)2" Ir1Te1.9Se0.1 Ir 1 Te 1.9 Se 0.1 1 2016 AB2 CdI2 A 3.9017 5.378 c/a = 1.378 K 1.8 cm3/C -0.000312 solid state reaction Relation between the structural phase transition and superconductivity in CuxIrTe2-ySey 2016 "Department of Applied Physics, University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 94(2016)134507"
156868 PRB094134507 "Trigonal(H) to monoclinic(L) phase transition, T = 314 K. Hall const in DB shows ones at 2 K." "Ir(Te,Se)2" Ir1Te1.8Se0.2 Ir 1 Te 1.8 Se 0.2 1 2016 AB2 CdI2 A 3.8889 5.429 c/a = 1.397 K 1.8 mJ/mol.K2 1.8 SP 204 SP cm3/C -0.000416 solid state reaction Relation between the structural phase transition and superconductivity in CuxIrTe2-ySey 2016 "Department of Applied Physics, University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 94(2016)134507"
156869 PRB094134507 "Trigonal(H) to monoclinic(L) phase transition, T = 342 K. Hall const in DB shows ones at 2 K." "Ir(Te,Se)2" Ir1Te1.7Se0.3 Ir 1 Te 1.7 Se 0.3 1 2016 AB2 CdI2 A 3.8885 5.3968 c/a = 1.388 K 1.8 mJ/mol.K2 1.61 SP 204 SP cm3/C -0.000844 solid state reaction Relation between the structural phase transition and superconductivity in CuxIrTe2-ySey 2016 "Department of Applied Physics, University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 94(2016)134507"
156870 PRB094134507 "Trigonal(H) to monoclinic(L) phase transition, T = 408 K. Hall const in DB shows ones at 2 K." "Ir(Te,Se)2" Ir1Te1.5Se0.5 Ir 1 Te 1.5 Se 0.5 1 2016 AB2 CdI2 A 3.8446 5.3992 c/a = 1.404 K 1.8 mJ/mol.K2 1.52 SP 208 SP cm3/C -0.000942 solid state reaction Relation between the structural phase transition and superconductivity in CuxIrTe2-ySey 2016 "Department of Applied Physics, University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 94(2016)134507"
156871 PRB094134507 Hall const in DB shows ones at 2 K. "Ir(Te,Se)2" Ir1Te1.3Se0.7 Ir 1 Te 1.3 Se 0.7 1 2016 AB2 CdI2 A 3.7311 5.377 c/a = 1.441 K 1.8 mJ/mol.K2 1.39 SP 215 SP cm3/C -0.001186 solid state reaction Relation between the structural phase transition and superconductivity in CuxIrTe2-ySey 2016 "Department of Applied Physics, University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 94(2016)134507"
156872 PRB094134507 IrTe2 Ir1Te2 Ir 1 Te 2 1 2016 AB2 A 3.93 5.3995 K 1.8 solid state reaction Relation between the structural phase transition and superconductivity in CuxIrTe2-ySey 2016 "Department of Applied Physics, University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 94(2016)134507"
156873 PRB094134507 CuxIrTe2 Cu0.05Ir1Te2 Cu 0.05 Ir 1 Te 2 1 2016 AB2 A 3.9408 5.3941 K 2.85 2.85 MTC156873 solid state reaction Relation between the structural phase transition and superconductivity in CuxIrTe2-ySey 2016 "Department of Applied Physics, University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 94(2016)134507"
156874 PRB094134507 CuxIrTe2 Cu0.1Ir1Te2 Cu 0.1 Ir 1 Te 2 1 2016 AB2 A 3.9504 5.3992 K 2.6 2.6 solid state reaction Relation between the structural phase transition and superconductivity in CuxIrTe2-ySey 2016 "Department of Applied Physics, University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 94(2016)134507"
156875 PRB094134507 "CuxIr(Te,Se)2" Cu0.05Ir1Te1.8Se0.2 Cu 0.05 Ir 1 Te 1.8 Se 0.2 1 2016 AB2 A 3.9166 5.3825 K 2.8 2.8 MTC156873 solid state reaction Relation between the structural phase transition and superconductivity in CuxIrTe2-ySey 2016 "Department of Applied Physics, University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 94(2016)134507"
156876 PRB094134507 "CuxIr(Te,Se)2" Cu0.2Ir1Te1.8Se0.2 Cu 0.2 Ir 1 Te 1.8 Se 0.2 1 2016 AB2 A 3.9395 5.3873 K 2.21 2.21 solid state reaction Relation between the structural phase transition and superconductivity in CuxIrTe2-ySey 2016 "Department of Applied Physics, University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 94(2016)134507"
156877 PRB094134507 "CuxIr(Te,Se)2" Cu0.05Ir1Te1.7Se0.3 Cu 0.05 Ir 1 Te 1.7 Se 0.3 1 2016 AB2 A 3.9039 5.377 K 2.45 2.45 solid state reaction Relation between the structural phase transition and superconductivity in CuxIrTe2-ySey 2016 "Department of Applied Physics, University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 94(2016)134507"
156878 PRB094134507 "CuxIr(Te,Se)2" Cu0.125Ir1Te1.7Se0.3 Cu 0.125 Ir 1 Te 1.7 Se 0.3 1 2016 AB2 A 3.9174 5.3764 K 2.71 2.71 solid state reaction Relation between the structural phase transition and superconductivity in CuxIrTe2-ySey 2016 "Department of Applied Physics, University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 94(2016)134507"
156879 PRB094134507 "CuxIr(Te,Se)2" Cu0.2Ir1Te1.7Se0.3 Cu 0.2 Ir 1 Te 1.7 Se 0.3 1 2016 AB2 A 3.9312 5.378 K 1.68 1.68 solid state reaction Relation between the structural phase transition and superconductivity in CuxIrTe2-ySey 2016 "Department of Applied Physics, University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 94(2016)134507"
156880 PRB094134507 "CuxIr(Te,Se)2" Cu0.1Ir1Te1.5Se0.5 Cu 0.1 Ir 1 Te 1.5 Se 0.5 1 2016 AB2 A 3.8907 5.3606 K 1.95 1.95 solid state reaction Relation between the structural phase transition and superconductivity in CuxIrTe2-ySey 2016 "Department of Applied Physics, University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 94(2016)134507"
156881 PRB094134507 "CuxIr(Te,Se)2" Cu0.15Ir1Te1.5Se0.5 Cu 0.15 Ir 1 Te 1.5 Se 0.5 1 2016 AB2 A 3.8946 5.3606 K 2.35 2.35 solid state reaction Relation between the structural phase transition and superconductivity in CuxIrTe2-ySey 2016 "Department of Applied Physics, University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 94(2016)134507"
156882 PRB094134507 "CuxIr(Te,Se)2" Cu0.2Ir1Te1.5Se0.5 Cu 0.2 Ir 1 Te 1.5 Se 0.5 1 2016 AB2 A 3.9022 5.3611 K 2.3 2.3 solid state reaction Relation between the structural phase transition and superconductivity in CuxIrTe2-ySey 2016 "Department of Applied Physics, University of Tokyo, Hongo, Tokyo 113-8656, Japan" "Phys.Rev.B, 94(2016)134507"
156883 PRB094144502 gaps composed of nodeless (in DB) and nodal (d=1.73 meV) component for x < 0.07. nodal component = 79%. gaps obtained from electronic SP analysis. beta (in SP) = 5.2 mJ/mol.K4 PrPt4Ge12 Pr1Pt4Ge12 Pr 1 Pt 4 Ge 12 1 2016 AB4C12 skutterudite K 7.77 7.77 meV 1.09 14 MSP156883 mJ/mol.K2 73.7 SP arc-melting Multiband superconductivity in the correlated electron filled skutterudite system Pr1-xCexPt4Ge12 2016 "Department of Physics, Kent State University, Kent, Ohio 44242, USA" "Phys.Rev.B, 94(2016)144502"
156884 PRB094144502 gaps composed of nodeless (in DB) and nodal (d = 1.47 meV) component for x < 0.07. nodal component = 40%. gaps obtained from electronic SP analysis. "(Pr,Ce)Pt4Ge12" Pr0.98Ce0.02Pt4Ge12 Pr 0.98 Ce 0.02 Pt 4 Ge 12 1 2016 AB4C12 skutterudite K 6.63 6.63 meV 0.98 14 arc-melting Multiband superconductivity in the correlated electron filled skutterudite system Pr1-xCexPt4Ge12 2016 "Department of Physics, Kent State University, Kent, Ohio 44242, USA" "Phys.Rev.B, 94(2016)144502"
156885 PRB094144502 gaps composed of nodeless (in DB) and nodal (d = 1.23 meV) component for x < 0.07. nodal component = 30%. gaps obtained from electronic SP analysis. "(Pr,Ce)Pt4Ge12" Pr0.96Ce0.04Pt4Ge12 Pr 0.96 Ce 0.04 Pt 4 Ge 12 1 2016 AB4C12 skutterudite K 5.59 5.59 MTC156885 meV 0.83 14 arc-melting Multiband superconductivity in the correlated electron filled skutterudite system Pr1-xCexPt4Ge12 2016 "Department of Physics, Kent State University, Kent, Ohio 44242, USA" "Phys.Rev.B, 94(2016)144502"
156886 PRB094144502 nodeless gap for 0.07 < x. gaps obtained from electronic SP analysis. "(Pr,Ce)Pt4Ge12" Pr0.915Ce0.085Pt4Ge12 Pr 0.915 Ce 0.085 Pt 4 Ge 12 1 2016 AB4C12 skutterudite K 3.62 3.62 MGAP156886 meV 0.55 14 MSP156886 arc-melting Multiband superconductivity in the correlated electron filled skutterudite system Pr1-xCexPt4Ge12 2016 "Department of Physics, Kent State University, Kent, Ohio 44242, USA" "Phys.Rev.B, 94(2016)144502"
156887 PRB094144502 nodeless gap for 0.07 < x. gaps obtained from electronic SP analysis. "(Pr,Ce)Pt4Ge12" Pr0.9Ce0.1Pt4Ge12 Pr 0.9 Ce 0.1 Pt 4 Ge 12 1 2016 AB4C12 skutterudite K 3.03 3.03 meV 0.44 14 arc-melting Multiband superconductivity in the correlated electron filled skutterudite system Pr1-xCexPt4Ge12 2016 "Department of Physics, Kent State University, Kent, Ohio 44242, USA" "Phys.Rev.B, 94(2016)144502"
156888 CHM0281927 Ti1-xTaxSe2 Ti0.98Ta0.02Se2 Ti 0.98 Ta 0.02 Se 2 2016 AB2 1T-MX2 K 1.02 1.02 "Ta'2N8),Nb(2N8),Ti(3N),Se(5N9" "mixture - pellet - heat to 700C(1C/min) - hold(120h) - reground - pellet - heat to 700C(3C/min) - hold(129h), CVD method (725C(H) and 675C(L)." Differences in Chemical Doping Matter: Superconductivity in Ti1-xTaxSe2 but Not in Ti1-xNbxSe2 2016 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, United States" "Chem.Mater., 28(2016)1927"
156889 CHM0281927 Ti1-xTaxSe2 Ti0.85Ta0.15Se2 Ti 0.85 Ta 0.15 Se 2 2016 AB2 1T-MX2 K 2.29 2.29 MPH156889 T "RES(0.5Rn), WHH" 2.21 T/K RES(0.5Rn) 1.4 MHC156889 "Ta'2N8),Nb(2N8),Ti(3N),Se(5N9" "mixture - pellet - heat to 700C(1C/min) - hold(120h) - reground - pellet - heat to 700C(3C/min) - hold(129h), CVD method (725C(H) and 675C(L)." Differences in Chemical Doping Matter: Superconductivity in Ti1-xTaxSe2 but Not in Ti1-xNbxSe2 2016 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, United States" "Chem.Mater., 28(2016)1927"
156890 CHM0281927 "beta (SP) = 0.701 mJ/mol.K4. (dC/T) = 3.78, (dC/gamma:Tc) = 1.9. e-ph = 0.61, N(0) = 0.53 states/eV.f.u." Ti1-xTaxSe2 Ti0.8Ta0.2Se2 Ti 0.8 Ta 0.2 Se 2 2016 AB2 1T-MX2 K 2.29 2.29 T "RES(0.5Rn), WHH" 2.23 T/K RES(0.5Rn) 1.4 MHC156890 A from Hc2 120 mJ/mol.K2 1.99 SP 202 SP Ohm.cm -0.00019 "Ta'2N8),Nb(2N8),Ti(3N),Se(5N9" "mixture - pellet - heat to 700C(1C/min) - hold(120h) - reground - pellet - heat to 700C(3C/min) - hold(129h), CVD method (725C(H) and 675C(L)." Differences in Chemical Doping Matter: Superconductivity in Ti1-xTaxSe2 but Not in Ti1-xNbxSe2 2016 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, United States" "Chem.Mater., 28(2016)1927"
156891 CHM0281927 Ti1-xTaxSe2 Ti0.6Ta0.4Se2 Ti 0.6 Ta 0.4 Se 2 2016 AB2 1T-MX2 K 1.22 1.22 "Ta'2N8),Nb(2N8),Ti(3N),Se(5N9" "mixture - pellet - heat to 700C(1C/min) - hold(120h) - reground - pellet - heat to 700C(3C/min) - hold(129h), CVD method (725C(H) and 675C(L)." Differences in Chemical Doping Matter: Superconductivity in Ti1-xTaxSe2 but Not in Ti1-xNbxSe2 2016 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, United States" "Chem.Mater., 28(2016)1927"
156892 CHM0281927 not SC for x < 0.4 in Ti1-xNbxSe2. beta (SP) = 0.475 mJ/mol.K4. no CDW (T <89 K.). Ti1-xNbxSe2 Ti0.8Nb0.2Se2 Ti 0.8 Nb 0.2 Se 2 2016 AB2 1T-MX2 K 0.3 mJ/mol.K2 0.45 SP 230 SP Ohm.cm -0.0025 MRH156892 "Ta'2N8),Nb(2N8),Ti(3N),Se(5N9" "mixture - pellet - heat to 700C(1C/min) - hold(120h) - reground - pellet - heat to 700C(3C/min) - hold(129h), CVD method (725C(H) and 675C(L)." Differences in Chemical Doping Matter: Superconductivity in Ti1-xTaxSe2 but Not in Ti1-xNbxSe2 2016 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, United States" "Chem.Mater., 28(2016)1927"
156893 JAC2810112 not SC. Hf3Ni4Ge4 Hf3Ni4Ge4 Hf 3 Ni 4 Ge 4 1 1998 eum/mol 0.000123 emu/mol 3.38 -0.29 10.845 A3B4C4 Immm A 12.873 6.484 3.892 ortho-. Hf3Cu4Si4 type K 2 uOhm.cm 16.3 "Hf(3N),Ni(3N),Ge(5N),Pt(5N)" "arc-melting - in quartz ampoule (Ar) - heat(900C,3days) - Q to water" New intermetallic compounds found in Hf-Ni-Ge and Hf-Pt-Ge systems 1998 "College of Science and Engineering, Aoyama Gakuin University, Chitosedai, Setagaya, Tokyo 157-8572, Japan" "J.Alloys Compd., 281(1998)112"
156894 JAC2810112 not SC. Diamagnetic for T < 250 K HfPtGe Hf1Pt1Ge1 Hf 1 Pt 1 Ge 1 1 1998 14.917 ABC Pnma A 6.603 3.95 7.617 ortho-. Co2Si type K 2 mOhm.cm 1.59 "Hf(3N),Ni(3N),Ge(5N),Pt(5N)" "arc-melting - in quartz ampoule (Ar) - heat(900C,3days) - Q to water" New intermetallic compounds found in Hf-Ni-Ge and Hf-Pt-Ge systems 1998 "College of Science and Engineering, Aoyama Gakuin University, Chitosedai, Setagaya, Tokyo 157-8572, Japan" "J.Alloys Compd., 281(1998)112"
156895 JAC2980051 HfPtSi Hf1Pt1Si1 Hf 1 Pt 1 Si 1 1 2000 emu/mol -0.000133 emu/mol 0.000288 myu-B/mol 0.00482 -1.82 13.98 ABC 3 Co2Si Pnma A 6.549 3.883 7.506 ortho K 1.5 "Hf(3N),Si(6N),Pt(4N),Pd(3N)" "arc-melting - sealed in quartz ampoule (Ar) - heat(700C,3days) - Q to water" "Magnetism and transport properties of HfMSi (M = Pt, Pd) and HfRh1-xPdxSi" 2000 "College of Science and Engineering, Aoyama Gakuin University, Chitosedai, Setagaya, Tokyo 157-8572, Japan" "J.Alloys Compd., 298(2000)51"
156896 JAC2980051 HfPdSi Hf1Pd1Si1 Hf 1 Pd 1 Si 1 1 2000 emu/mol -0.000051 emu/mol 0.0000717 myu-B/mol 0.00482 -1.23 10 ABC 3 Co2Si Pnma A 6.57 3.874 7.565 ortho K 1.5 "Hf(3N),Si(6N),Pt(4N),Pd(3N)" "arc-melting - sealed in quartz ampoule (Ar) - heat(700C,3days) - Q to water" "Magnetism and transport properties of HfMSi (M = Pt, Pd) and HfRh1-xPdxSi" 2000 "College of Science and Engineering, Aoyama Gakuin University, Chitosedai, Setagaya, Tokyo 157-8572, Japan" "J.Alloys Compd., 298(2000)51"
156897 JAC2980051 HfPdSi Hf1Rh1Si1 Hf 1 Rh 1 Si 1 1 2000 emu/mol 0.00013 ABC A 6.4697 3.8995 7.4061 K 2.18 2.18 Oe "M-H curve, Linear approx." 57 10 1.7 T Linear approx. 0.54 MHC156897 uOhm.cm 67 "Hf(3N),Si(6N),Pt(4N),Pd(3N)" "arc-melting - sealed in quartz ampoule (Ar) - heat(700C,3days) - Q to water" "Magnetism and transport properties of HfMSi (M = Pt, Pd) and HfRh1-xPdxSi" 2000 "College of Science and Engineering, Aoyama Gakuin University, Chitosedai, Setagaya, Tokyo 157-8572, Japan" "J.Alloys Compd., 298(2000)51"
156898 JAC2980051 "Hf(Rh,Pd)Si" Hf1Rh0.9Pd0.1Si1 Hf 1 Rh 0.9 Pd 0.1 Si 1 1 2000 emu/mol 0.000127 ABC A 6.4851 3.8985 7.434 K 1.95 1.95 uOhm.cm 344 "Hf(3N),Si(6N),Pt(4N),Pd(3N)" "arc-melting - sealed in quartz ampoule (Ar) - heat(700C,3days) - Q to water" "Magnetism and transport properties of HfMSi (M = Pt, Pd) and HfRh1-xPdxSi" 2000 "College of Science and Engineering, Aoyama Gakuin University, Chitosedai, Setagaya, Tokyo 157-8572, Japan" "J.Alloys Compd., 298(2000)51"
156899 JAC2980051 "Hf(Rh,Pd)Si" Hf1Rh0.8Pd0.2Si1 Hf 1 Rh 0.8 Pd 0.2 Si 1 1 2000 emu/mol 0.000122 ABC A 6.4984 3.8938 7.4598 K 1.85 1.85 MLAT156899 uOhm.cm 392 "Hf(3N),Si(6N),Pt(4N),Pd(3N)" "arc-melting - sealed in quartz ampoule (Ar) - heat(700C,3days) - Q to water" "Magnetism and transport properties of HfMSi (M = Pt, Pd) and HfRh1-xPdxSi" 2000 "College of Science and Engineering, Aoyama Gakuin University, Chitosedai, Setagaya, Tokyo 157-8572, Japan" "J.Alloys Compd., 298(2000)51"
156900 JAC2980051 "Hf(Rh,Pd)Si" Hf1Rh0.7Pd0.3Si1 Hf 1 Rh 0.7 Pd 0.3 Si 1 1 2000 emu/mol 0.000113 ABC A 6.4897 3.8756 7.4606 K 1.75 1.75 uOhm.cm 901 "Hf(3N),Si(6N),Pt(4N),Pd(3N)" "arc-melting - sealed in quartz ampoule (Ar) - heat(700C,3days) - Q to water" "Magnetism and transport properties of HfMSi (M = Pt, Pd) and HfRh1-xPdxSi" 2000 "College of Science and Engineering, Aoyama Gakuin University, Chitosedai, Setagaya, Tokyo 157-8572, Japan" "J.Alloys Compd., 298(2000)51"
156901 JAC6940459 Compositions: Ba8.00Al6.31Si39.69 By EDS Ba8Al5Si41 Ba8Al5Si41 Ba 8 Al 5 Si 41 1 2017 A8B46 clathrate Pm3[-]n A 10.4423 K 6.8 6.8 20.4 Oe "M-H cuve, (1-t2) approx." 58 MHC156901 "Ba(4N),Eu(4N),Al(5N),Si(5N)" arc-melting ((8-x)*1.05:x:5:41) - ground and washed with dilute NaOH solution and HCl in order to remove impurity phases Magnetic moment of Eu-dopant and superconductivity in Eu-substitutional Ba8Al5Si41 clathrates 2017 "Department of Physics, University of Science and Technology Beijing, Beijing 100083, China" "J.Alloys Compd., 694(2017)459"
156902 JAC6940459 Compositions: Ba7.91Eu0.09Al6.21Si39.79 By EDS "(Ba,Eu)8Al5Si41" Ba7.9Eu0.1Al5Si41 Ba 7.9 Eu 0.1 Al 5 Si 41 1 2017 3.89 A8B46 clathrate Pm3[-]n A 10.4413 K 5.9 5.9 "Ba(4N),Eu(4N),Al(5N),Si(5N)" arc-melting ((8-x)*1.05:x:5:41) - ground and washed with dilute NaOH solution and HCl in order to remove impurity phases Magnetic moment of Eu-dopant and superconductivity in Eu-substitutional Ba8Al5Si41 clathrates 2017 "Department of Physics, University of Science and Technology Beijing, Beijing 100083, China" "J.Alloys Compd., 694(2017)459"
156903 JAC6940459 Compositions: Ba7.77Eu0.23Al5.87Si40.13 By EDS "(Ba,Eu)8Al5Si41" Ba7.8Eu0.2Al5Si41 Ba 7.8 Eu 0.2 Al 5 Si 41 1 2017 myu-B/mol 7.45 5.58 A8B46 clathrate Pm3[-]n A 10.4413 K 5.2 5.2 "Ba(4N),Eu(4N),Al(5N),Si(5N)" arc-melting ((8-x)*1.05:x:5:41) - ground and washed with dilute NaOH solution and HCl in order to remove impurity phases Magnetic moment of Eu-dopant and superconductivity in Eu-substitutional Ba8Al5Si41 clathrates 2017 "Department of Physics, University of Science and Technology Beijing, Beijing 100083, China" "J.Alloys Compd., 694(2017)459"
156904 JAC6940459 Compositions: Ba7.75Eu0.25Al5.45Si40.55 By EDS "(Ba,Eu)8Al5Si41" Ba7.7Eu0.3Al5Si41 Ba 7.7 Eu 0.3 Al 5 Si 41 1 2017 5.71 A8B46 clathrate Pm3[-]n A 10.4405 K 4.5 4.5 "Ba(4N),Eu(4N),Al(5N),Si(5N)" arc-melting ((8-x)*1.05:x:5:41) - ground and washed with dilute NaOH solution and HCl in order to remove impurity phases Magnetic moment of Eu-dopant and superconductivity in Eu-substitutional Ba8Al5Si41 clathrates 2017 "Department of Physics, University of Science and Technology Beijing, Beijing 100083, China" "J.Alloys Compd., 694(2017)459"
156905 JAC6940459 Compositions: Ba7.63Eu0.37Al5.59Si40.41 By EDS "(Ba,Eu)8Al5Si41" Ba7.6Eu0.4Al5Si41 Ba 7.6 Eu 0.4 Al 5 Si 41 1 2017 7 A8B46 clathrate Pm3[-]n A 10.4376 K 2 "Ba(4N),Eu(4N),Al(5N),Si(5N)" arc-melting ((8-x)*1.05:x:5:41) - ground and washed with dilute NaOH solution and HCl in order to remove impurity phases Magnetic moment of Eu-dopant and superconductivity in Eu-substitutional Ba8Al5Si41 clathrates 2017 "Department of Physics, University of Science and Technology Beijing, Beijing 100083, China" "J.Alloys Compd., 694(2017)459"
156906 JAP111123912 C: interstitial sites by ND analysis.. Lattice term in SP (beta) = 0.395 mJ/mol.K4. (dC) = 120 mJ/mol.K. (dC/gamma*Tc) = 0.231(maybe small SC volume) Nb5Ge3Cx Nb5Ge3C0.3 Nb 5 Ge 3 C 0.3 1 2012 A3B5 P6<3>/mcm A 7.65 5.307 K 15 15.3 15.3 15.3 25 T "(dR/dT), GL eq." 10.6 MHC156906 A from Hc2 55 mJ/mol.K2 34 SP 343 SP "graphite,Nb,Ge" "mixture - press to 10*10*2 mm3 - sealed in quartz ampoule - heat(1200C,48h) - reground - press - sealed in quartz - SIN(1200C,96h) - rapid quench" Interstitial doping induced superconductivity at 15.3 K in Nb5Ge3 compound 2012 "Escola de Engenharia de Lorena?Universidade de Sao Paulo, P. O. Box 116, Lorena?SP 12600-970, Brazil" "J.Appl.Phys., 111(2012)123912"
156907 JPS085114708 "not SC.RRR = 21. R(T) = A*T2 for T < 16 K, A = 1.0E-8 ohm.cm/K2. Kadowaki-Woods ratio (A/gamma^2) = 7.3E-6 uOhm.cm.mol2/mJ2. R0 at 2 K." YbOs4Sb12 Yb1Os4Sb12 Yb 1 Os 4 Sb 12 3 2016 AB4C12 skutterudite A 9.3193 K 2 mJ/mol.K2 37 SP 226 SP uOhm.cm 75.6 8.89 191 m3/C 1.28E-09 MRH156907 "Yb(3N),Os(4N),Sb(6N)" "(Yb:Os:Sb = 2:4:20) - sealed in silica tube - heat to 900C(60C/h) - keep(1day) - cool to 600C(60C/h) - ANN(600C, 1w) - furnace cool to RT" "First Report on the Electronic, Magnetic, and Thermal Properties of Filled Skutterudite YbOs4Sb12" 2016 "Department of Physics, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 85(2016)114708"
156908 JPS085123703 SC island (x > 0.91) in SC matrix (x < 0.80). D (SC) escape slower than D (not SC). Ic defined as finite V in I-V characteristics. x = 0.80 from R(T) anomaly (T= 78K) PdDx D0.92Pd1 D 0.92 Pd 1 2016 AB K 6.8 6.8 MIV156908 Pd(3N)-wire D charged by electrolytic at RT. R(T) meaured immediately ater charging Effect of Deuterium Interactions with Lattice Defects on Superconducting PdDx System 2016 "Research Center for Condensed Matter Physics, Hiroshima Institute of Technology, Hiroshima 731-5193, Japan" "J.Phys.Soc.Jpn, 85(2016)123703"
156909 JPS085123703 SC island (x > 0.91) in SC matrix (x < 0.80). D (SC) escape slower than D (not SC). Ic defined as finite V in I-V characteristics. x = 0.65 from R(T) anomaly (T= 62K) PdDx D0.91Pd1 D 0.91 Pd 1 2016 AB K 6.4 6.4 MIV156908 Pd(3N)-wire D charged by electrolytic at RT. R(T) measured after one month annealing at RT Effect of Deuterium Interactions with Lattice Defects on Superconducting PdDx System 2016 "Research Center for Condensed Matter Physics, Hiroshima Institute of Technology, Hiroshima 731-5193, Japan" "J.Phys.Soc.Jpn, 85(2016)123703"
156910 JPS085124708 BiF3(<5%). fillamentary SC Eu0.5La0.5FBiS2 Eu0.5La0.5F1Bi1S2 Eu 0.5 La 0.5 F 1 Bi 1 S 2 1 2016 ABCD2 P4/nmm BiS2-layered SC K 1.2 2.2 1.7 "EuS,La2S3,BiF3,LaF3,Bi,S,Se" "mixture - pelletize - sealed in quartz tube - heat(780C or 700C or 650C, 20h). one more process." Bulk Superconductivity Induced by In-Plane Chemical Pressure Effect in Eu0.5La0.5FBiS2-xSex 2016 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 85(2016)124708"
156911 JPS085124708 Two step SC-transitions. "Eu0.5La0.5FBi(S,Se)2" Eu0.5La0.5F1Bi1S1.8Se0.2 Eu 0.5 La 0.5 F 1 Bi 1 S 1.8 Se 0.2 1 2016 ABCD2 P4/nmm BiS2-layered SC K 0.5 2.7 1.6 "EuS,La2S3,BiF3,LaF3,Bi,S,Se" "mixture - pelletize - sealed in quartz tube - heat(780C or 700C or 650C, 20h). one more process." Bulk Superconductivity Induced by In-Plane Chemical Pressure Effect in Eu0.5La0.5FBiS2-xSex 2016 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 85(2016)124708"
156912 JPS085124708 "Eu0.5La0.5FBi(S,Se)2" Eu0.5La0.5F1Bi1S1.6Se0.4 Eu 0.5 La 0.5 F 1 Bi 1 S 1.6 Se 0.4 1 2016 ABCD2 P4/nmm BiS2-layered SC K 3 3 MTC156912 "EuS,La2S3,BiF3,LaF3,Bi,S,Se" "mixture - pelletize - sealed in quartz tube - heat(780C or 700C or 650C, 20h). one more process." Bulk Superconductivity Induced by In-Plane Chemical Pressure Effect in Eu0.5La0.5FBiS2-xSex 2016 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 85(2016)124708"
156913 JPS085124708 "Eu0.5La0.5FBi(S,Se)2" Eu0.5La0.5F1Bi1S1.4Se0.6 Eu 0.5 La 0.5 F 1 Bi 1 S 1.4 Se 0.6 1 2016 ABCD2 P4/nmm BiS2-layered SC K 3.5 3.5 T RES MHC156913 "EuS,La2S3,BiF3,LaF3,Bi,S,Se" "mixture - pelletize - sealed in quartz tube - heat(780C or 700C or 650C, 20h). one more process." Bulk Superconductivity Induced by In-Plane Chemical Pressure Effect in Eu0.5La0.5FBiS2-xSex 2016 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 85(2016)124708"
156914 JPS085124708 "Bi2Se3(12%). Two step SC transitions, Hc2 defined as R(on) for each transitions" "Eu0.5La0.5FBi(S,Se)2" Eu0.5La0.5F1Bi1S1.2Se0.8 Eu 0.5 La 0.5 F 1 Bi 1 S 1.2 Se 0.8 1 2016 ABCD2 P4/nmm BiS2-layered SC K 3.8 6.2 5 T RES MHC156914 "EuS,La2S3,BiF3,LaF3,Bi,S,Se" "mixture - pelletize - sealed in quartz tube - heat(780C or 700C or 650C, 20h). one more process." Bulk Superconductivity Induced by In-Plane Chemical Pressure Effect in Eu0.5La0.5FBiS2-xSex 2016 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 85(2016)124708"
156915 JPS085124708 "Two step SC transitions, Hc2 defined as R(on) for each transitions" "Eu0.5La0.5FBi(S,Se)2" Eu0.5La0.5F1Bi1S1Se1 Eu 0.5 La 0.5 F 1 Bi 1 S 1 Se 1 1 2016 ABCD2 P4/nmm BiS2-layered SC K 3.69 3.69 "EuS,La2S3,BiF3,LaF3,Bi,S,Se" "mixture - pelletize - sealed in quartz tube - heat(780C or 700C or 650C, 20h). one more process." Bulk Superconductivity Induced by In-Plane Chemical Pressure Effect in Eu0.5La0.5FBiS2-xSex 2016 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 85(2016)124708"
156916 PRB084052509 <93>Nb-NMR measured. gap (d) = 10.3 K at Tc(H) = 5.8 K. Re24Nb5 Nb5Re24 Nb 5 Re 24 1 2011 A5B24 I4[-]3m 217 A 9.6076 Re24Ti5 type K 8.7 8.7 3.55 6 "Re(4N7),Nb(3N5)" "arc-melting - ANN(800C,5d, in quartz tube) - furnace cool to RT" Evidence for s-wave superconductivity in noncentrosymmetric Re24Nb5 from <93>Nb NMR measurements 2011 "Department of Physics, National Cheng Kung University, Tainan 70101, Taiwan" "Phys.Rev.B, 84(2011)052509"
156917 PRB086174513 "RRR = 6.1. penet = 213nm, Tc = 4.45K from muon-SR.. G-L = 8.0" BaPt4Ge12 Ba1Pt4Ge12 Ba 1 Pt 4 Ge 12 2012 AB4C12 skutterudite K 4.9 4.9 Oe M-H curve 60 1.85 T "RES(mid), GL-eq." 1.46 MHC156917 A M-H curve(1.7K) 255 nm M-H curve(1.7K) 2.4 meV 0.65 3.4 16 uOhm.m 15.1 90 Superconducting parameters of BaPt4-xAuxGe12 filled skutterudite 2012 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 86(2012)174513"
156918 PRB086174513 "penet = 241 nm, Tc = 4.93K from muon-SR.. G-L = 12.7" "Ba(Pt,Au)4Ge12" Ba1Pt3.5Au0.5Ge12 Ba 1 Pt 3.5 Au 0.5 Ge 12 2012 AB4C12 skutterudite K 5.3 5.3 T muon-SR 0.84 1.7 A M-H curve(1.7K) 188 nm M-H curve(1.7K) 239 meV 0.88 4.14 16 uOhm.m 33.6 Superconducting parameters of BaPt4-xAuxGe12 filled skutterudite 2012 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 86(2012)174513"
156919 PRB086174513 "penet = 243nm, Tc = 6.10 K from muon-SR.. G-L = 16.0" "Ba(Pt,Au)4Ge12" Ba1Pt3.25Au0.75Ge12 Ba 1 Pt 3.25 Au 0.75 Ge 12 2012 AB4C12 skutterudite K 6.25 6.25 T muon-SR 1.68 1.7 A M-H curve(1.7K) 150 nm M-H curve(1.7K) 240 meV 1.13 4.3 16 uOhm.m 36.8 Superconducting parameters of BaPt4-xAuxGe12 filled skutterudite 2012 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 86(2012)174513"
156920 PRB086174513 "penet = 210nm, Tc = 6.86 K from muon-SR.. G-L = 15.7" "Ba(Pt,Au)4Ge12" Ba1Pt3Au1Ge12 Ba 1 Pt 3 Au 1 Ge 12 2012 AB4C12 skutterudite K 6.95 6.95 Oe M-H curve 117 T muon-SR 1.93 1.7 A M-H curve(1.7K) 134 nm M-H curve(1.7K) 210 meV 1.2 4.04 16 uOhm.m 31.5 Superconducting parameters of BaPt4-xAuxGe12 filled skutterudite 2012 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 86(2012)174513"
156921 PRB087214509 "RRR = 200. residual-gamma = 108 mJ/mol.K2. beta(SP) = 0.466 mJ/mol.K4, delta(SP) = 0.00474 mJ/mol.K6. (dC/gamma*Tc) = 0.35. (dC/Tc) = 64 mJ/mol.K2" CsFe2As2 Cs1Fe2As2 Cs 1 Fe 2 As 2 3 2013 AB2C2 ThCr2Si2 A 15.13 Fe-122 K 1.8 1.88 1.84 T SP(mid) 1.65 mJ/mol.K2 184.01 SP 275 SP uOhm.cm 1.8 "(Cs:Fe:As = 6:1:6) - alumina crucible - sealed in stainless container - sealed in quartz tube - heat(200C,400min) - heat to 950 C within 10h - keep(10h) - cool to 550c (3C/h)" Calorimetric study of single-crystal CsFe2As2 2013 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China,n Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 87(2013)214509"
156922 PRB088180509 Hc2(0) from reference data. effective-[penet] (1.7K) = 637 nm from muon-SR. [penet](1.7K) //ab obtained from [penet]eff. G-L = 85. LaOs0.5F0.5BiS2 La0.5Bi1S2F0.5O0.5 La 0.5 Bi 1 S 2 F 0.5 O 0.5 1 2013 BiS2-layered K 10 10 T 10 A from Hc2 57 nm muon-SR 484 "High-P synthesis. mixture - pellet - ANN(600C, P=2 GPa)" s-wave pairing in the optimally doped LaO0.5F0.5BiS2 superconductor 2013 "CNR-SPIN and Universita di Genova, via Dodecaneso 33, I-16146 Genova, Italy" "Phys.Rev.B, 88(2013)180509"
156923 PRB088224514 under doped sample. point defect introduced by H+-ion irradiation. dR0(in Fig) = R0(irrad) - R0. dR0(Tc tends to 0 K) = 376 uOhm.cm "(Ba,K)Fe2As2" Ba0.77K0.23Fe2As2 Ba 0.77 K 0.23 Fe 2 As 2 3 2013 AB2C2 Fe-122 K 24.4 24.4 MTC156924 FeAs flux method. Other flux for x=0.69. cleaved samples with thickness less than 25 micron meter Pair-breaking effects induced by 3-MeV proton irradiation in Ba1-xKxFe2As2 2013 "Department of Applied Physics, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B, 88(2013)224514"
156924 PRB088224514 Optimaly doped sample. point defect introduced by H+-ion irradiation. dR0(in Fig) = R0(irrad) - R0. dR0(Tc tends to 0 K) = 396 uOhm.cm "(Ba,K)Fe2As2" Ba0.58K0.42Fe2As2 Ba 0.58 K 0.42 Fe 2 As 2 3 2013 AB2C2 Fe-122 K 37.4 37.4 MTC156924 FeAs flux method. Other flux for x=0.69. cleaved samples with thickness less than 25 micron meter Pair-breaking effects induced by 3-MeV proton irradiation in Ba1-xKxFe2As2 2013 "Department of Applied Physics, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B, 88(2013)224514"
156925 PRB088224514 Over doped sample. point defect introduced by H+-ion irradiation. dR0(in Fig) = R0(irrad) - R0. dR0(Tc tends to 0 K) = 110 uOhm.cm "(Ba,K)Fe2As2" Ba0.31K0.69Fe2As2 Ba 0.31 K 0.69 Fe 2 As 2 3 2013 AB2C2 Fe-122 K 17.8 17.8 MTC156925 FeAs flux method. Other flux for x=0.69. cleaved samples with thickness less than 25 micron meter Pair-breaking effects induced by 3-MeV proton irradiation in Ba1-xKxFe2As2 2013 "Department of Applied Physics, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan" "Phys.Rev.B, 88(2013)224514"
156926 PRB089134504 "RRR = 6.96 . Anisotropy = 2.09 (onset), 2.07 (off). K-content x from WDS." "(Ba,K)Fe2As2" Ba0.78K0.22Fe2As2 Ba 0.78 K 0.22 Fe 2 As 2 3 2014 AB2C2 2 ThCr2Si2 A 13.1673 Fe-122 K 24.8 24.8 T "R(on),R(off), WHH" 92.6 43.9 T/K "R(on), R(off)" 5.36 2.55 MHC156926 uOhm.cm 364 "starting (Ba:K:Fe:As = 1-x:x:6:6), soaking temperature = 1453 K, soaking time = 2h, cooling rate = 2K/h to 1313 K." Comprehensive scenario for single-crystal growth and doping dependence of resistivity and anisotropic upper critical fields in (Ba1-xKx)Fe2As2 (0.22 =< x =< 1) 2014 "Division of Materials Sciences and Engineering, Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)134504"
156927 PRB089134504 "RRR = 10.2 . Anisotropy = 2.09 (onset), 2.06 (off). K-content x from WDS." "(Ba,K)Fe2As2" Ba0.66K0.34Fe2As2 Ba 0.66 K 0.34 Fe 2 As 2 3 2014 AB2C2 2 ThCr2Si2 A 13.273 Fe-122 K 38.9 38.9 T "R(on),R(off), WHH" 253 124.7 T/K "R(on), R(off)" 9.48 4.79 MHC156927 uOhm.cm 300 "starting (Ba:K:Fe:As = 1-x:2x:4:5), soaking temperature = 1413 K, soaking time = 2h, cooling rate = 1K/h to 1293 K." Comprehensive scenario for single-crystal growth and doping dependence of resistivity and anisotropic upper critical fields in (Ba1-xKx)Fe2As2 (0.22 =< x =< 1) 2014 "Division of Materials Sciences and Engineering, Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)134504"
156928 PRB089134504 "RRR = 9.69 . Anisotropy = 1.90 (onset), 2.09 (off). K-content x from WDS" "(Ba,K)Fe2As2" Ba0.61K0.39Fe2As2 Ba 0.61 K 0.39 Fe 2 As 2 3 2014 AB2C2 2 ThCr2Si2 A 13.2796 Fe-122 K 38.6 38.6 T "R(on),R(off), WHH" 282 142.5 T/K "R(on), R(off)" 10.35 5.23 MHC156928 uOhm.cm 340 "starting (Ba:K:Fe:As = 1-x:2x:4:5), soaking temperature = 1413 K, soaking time = 2h, cooling rate = 1K/h to 1293 K." Comprehensive scenario for single-crystal growth and doping dependence of resistivity and anisotropic upper critical fields in (Ba1-xKx)Fe2As2 (0.22 =< x =< 1) 2014 "Division of Materials Sciences and Engineering, Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)134504"
156929 PRB089134504 "RRR = 10.9 . Anisotropy = 1.65 (onset), 2.00 (off). K-content x from WDS" "(Ba,K)Fe2As2" Ba0.53K0.47Fe2As2 Ba 0.53 K 0.47 Fe 2 As 2 3 2014 AB2C2 2 ThCr2Si2 A 13.3201 Fe-122 K T "R(on),R(off), WHH" 238 156 T/K "R(on), R(off)" 8059 5.68 MHC156929 uOhm.cm 327 "starting (Ba:K:Fe:As = 1-x:2x:4:5), soaking temperature = 1413 K, soaking time = 2h, cooling rate = 1K/h to 1293 K." Comprehensive scenario for single-crystal growth and doping dependence of resistivity and anisotropic upper critical fields in (Ba1-xKx)Fe2As2 (0.22 =< x =< 1) 2014 "Division of Materials Sciences and Engineering, Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)134504"
156930 PRB089134504 "RRR = 12.2 . Anisotropy = 2.44 (onset), 2.45 (off). K-content x from WDS" "(Ba,K)Fe2As2" Ba0.47K0.53Fe2As2 Ba 0.47 K 0.53 Fe 2 As 2 3 2014 AB2C2 2 ThCr2Si2 A 13.4235 Fe-122 K 34.3 34.3 MTC156930 T "R(on),R(off), WHH" 193 83.6 T/K "R(on), R(off)" 7.88 3.42 MHC156930 uOhm.cm "starting (Ba:K:Fe:As = 1-x:2x:4:5), soaking temperature = 1413 K, soaking time = 2h, cooling rate = 1K/h to 1293 K." Comprehensive scenario for single-crystal growth and doping dependence of resistivity and anisotropic upper critical fields in (Ba1-xKx)Fe2As2 (0.22 =< x =< 1) 2014 "Division of Materials Sciences and Engineering, Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)134504"
156931 PRB089134504 "RRR = 11.56 . Anisotropy = 2.13 (onset), 2.56 (off). K-content x from WDS" "(Ba,K)Fe2As2" Ba0.45K0.55Fe2As2 Ba 0.45 K 0.55 Fe 2 As 2 3 2014 AB2C2 2 ThCr2Si2 A 13.4275 Fe-122 K 33.1 33.1 T "R(on),R(off), WHH" 183 88.6 T/K "R(on), R(off)" 8.04 3.97 MHC156931 uOhm.cm 397 "starting (Ba:K:Fe:As = 1-x:3x:4:5), soaking temperature = 1393 K, soaking time = 2h, cooling rate = 0.5K/h to 1293 K." Comprehensive scenario for single-crystal growth and doping dependence of resistivity and anisotropic upper critical fields in (Ba1-xKx)Fe2As2 (0.22 =< x =< 1) 2014 "Division of Materials Sciences and Engineering, Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)134504"
156932 PRB089134504 "RRR = 11.6 . Anisotropy = 2.71 (onset), 2.89 (off)). K-content x from WDS" "(Ba,K)Fe2As2" Ba0.35K0.65Fe2As2 Ba 0.35 K 0.65 Fe 2 As 2 3 2014 AB2C2 2 ThCr2Si2 A 13.5102 Fe-122 K 24.8 24.8 T "R(on),R(off), WHH" 99 37.2 T/K "R(on), R(off)" 5.84 2.09 MHC156932 uOhm.cm 370 "starting (Ba:K:Fe:As = y:4:2:5 and Ba:y for y = 0.2-0.3), soaking temperature = 1273 K, soaking time = 6h, cooling rate = 4K/h to 1173,then 1K/h to 973 K K." Comprehensive scenario for single-crystal growth and doping dependence of resistivity and anisotropic upper critical fields in (Ba1-xKx)Fe2As2 (0.22 =< x =< 1) 2014 "Division of Materials Sciences and Engineering, Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)134504"
156933 PRB089134504 "RRR = 12.0 . Anisotropy = 3.04 (onset), 3.22 (off)). K-content x from WDS" "(Ba,K)Fe2As2" Ba0.2K0.8Fe2As2 Ba 0.2 K 0.8 Fe 2 As 2 3 2014 AB2C2 2 ThCr2Si2 A 13.5633 Fe-122 K 14.5 14.5 T "R(on),R(off), WHH" 61.8 19.8 T/K "R(on), R(off)" 5.11 1.61 MHC156933 "starting (Ba:K:Fe:As = y:4:2:5 and Ba:y for y = 0.2-0.3), soaking temperature = 1273 K, soaking time = 6h, cooling rate = 4K/h to 1173,then 1K/h to 973 K K." Comprehensive scenario for single-crystal growth and doping dependence of resistivity and anisotropic upper critical fields in (Ba1-xKx)Fe2As2 (0.22 =< x =< 1) 2014 "Division of Materials Sciences and Engineering, Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)134504"
156934 PRB089134504 "RRR = 9.73 . Anisotropy = 2.33 (onset), 2.56 (off)). K-content x from WDS" "(Ba,K)Fe2As2" Ba0.18K0.82Fe2As2 Ba 0.18 K 0.82 Fe 2 As 2 3 2014 AB2C2 2 ThCr2Si2 A 13.6403 Fe-122 K 10 10 T "R(on),R(off), WHH" 24.9 10.3 T/K "R(on), R(off)" 3.86 1.53 MHC156934 uOhm.cm 338 "starting (Ba:K:Fe:As = y:4:2:5 and Ba:y for y = 0.2-0.3), soaking temperature = 1273 K, soaking time = 6h, cooling rate = 4K/h to 1173,then 1K/h to 973 K K." Comprehensive scenario for single-crystal growth and doping dependence of resistivity and anisotropic upper critical fields in (Ba1-xKx)Fe2As2 (0.22 =< x =< 1) 2014 "Division of Materials Sciences and Engineering, Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)134504"
156935 PRB089134504 "RRR = 12.3 . Anisotropy = 3.93 (onset), 3.93 (off)). K-content x from WDS" "(Ba,K)Fe2As2" Ba0.1K0.9Fe2As2 Ba 0.1 K 0.9 Fe 2 As 2 3 2014 AB2C2 2 ThCr2Si2 A 13.767 Fe-122 K 7.39 7.39 T "R(on),R(off), WHH" 21.1 7.84 T/K "R(on), R(off)" 4.12 1.07 MHC156935 "Starting (Ba:K:Fe:As = y:4:2:5, y = 0.1). soaking temperature = 1273K, soaking time = 2h, cooling rate = 3K/h to 1173K, then 1K/h to 973 K." Comprehensive scenario for single-crystal growth and doping dependence of resistivity and anisotropic upper critical fields in (Ba1-xKx)Fe2As2 (0.22 =< x =< 1) 2014 "Division of Materials Sciences and Engineering, Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)134504"
156936 PRB089134504 "RRR = 12.5 . Anisotropy = 3.83 (onset), 3.85 (off)). K-content x from WDS" "(Ba,K)Fe2As2" Ba0.08K0.92Fe2As2 Ba 0.08 K 0.92 Fe 2 As 2 3 2014 AB2C2 2 ThCr2Si2 A 13.7716 Fe-122 K 6.37 6.37 T "R(on),R(off), WHH" 17.8 5.94 T/K "R(on), R(off)" 3.61 1.03 MHC156936 uOhm.cm 308 "Starting (Ba:K:Fe:As = y:4:2:5, y = 0.1). soaking temperature = 1273K, soaking time = 2h, cooling rate = 3K/h to 1173K, then 1K/h to 973 K." Comprehensive scenario for single-crystal growth and doping dependence of resistivity and anisotropic upper critical fields in (Ba1-xKx)Fe2As2 (0.22 =< x =< 1) 2014 "Division of Materials Sciences and Engineering, Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)134504"
156937 PRB089134504 "RRR = 12.5 . Anisotropy = 5.02 (onset), 6.48 (off)). K-content x from WDS" KFe2As2 K1Fe2As2 K 1 Fe 2 As 2 3 2014 AB2C2 2 ThCr2Si2 A 13.8629 Fe-122 K 3.94 3.94 T "R(on),R(off), WHH" 10.1 3.24 T/K "R(on), R(off)" 3.06 0.52 MHC156937 uOhm.cm 284 "Starting (Ba:K:Fe:As = y:5:2:6, y=0). soaking temperature = 1193K, soaking time = 1h, cooling rate = 4K/h to 1093K, then 1K/h to 893 K." Comprehensive scenario for single-crystal growth and doping dependence of resistivity and anisotropic upper critical fields in (Ba1-xKx)Fe2As2 (0.22 =< x =< 1) 2014 "Division of Materials Sciences and Engineering, Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.B, 89(2014)134504"
156938 PRB090140507 muon-SR. [penet](1.7K) = 134 nm using two band (gap1=gap2 but different Fermi velocity). (dHc2/dT) = -0.77 T/K for T < 6K. SrPt3P Sr1Pt3P1 Sr 1 Pt 3 P 1 1 2014 ABC3 K 8.4 8.4 T SUS T/K SUS 0.49 MHC156938 nm muon-SR 162 meV 1.55 4.29 16 "Sr,Pt,P purity all 4N" High-T-High-P synthesis using cubic anvil. mixture - in BN - heat to 1050C at P=2 GPa - keep(20-40h) - cool to RT in 1h SrPt3P: A two-band single-gap superconductor 2014 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 90(2014)140507"
156939 PRB090214508 M = NH3. x and y not given. LixMyFe2Se2 Li0.45M0.3Fe2Se2 Li 0.45 M 0.3 Fe 2 Se 2 2014 A 3.8287 16.452 "LiM-122, phase1" K 41.2 41.2 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156940 PRB090214508 M = NH3. x and y not given. "LixMyFe2(Se,Te)2" Li0.45M0.3Fe2Se1.8Te0.2 Li 0.45 M 0.3 Fe 2 Se 1.8 Te 0.2 2014 A 3.8309 16.699 LiM-122. phase1 K 42.3 42.3 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156941 PRB090214508 "M = NH3. x and y not given. Two phase-SC, Tc = 25.5 K for phase2." "LixMyFe2(Se,Te)2" Li0.45M0.3Fe2Se1.6Te0.4 Li 0.45 M 0.3 Fe 2 Se 1.6 Te 0.4 2014 A 3.8398 16.762 "LiM-122. Two phses, for phase2, a=3.8545, c=17.685" K 41.5 41.5 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156942 PRB090214508 "M = NH3. x and y not given. Two phase-SC, Tc = 22.8 K for phase2." "LixMyFe2(Se,Te)2" Li0.45M0.3Fe2Se1.4Te0.6 Li 0.45 M 0.3 Fe 2 Se 1.4 Te 0.6 2014 A 3.837 16.893 "LiM-122.Two phases, for phase 2, a=3.8558, c=17.782" K 38.8 38.8 MPH156942 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156943 PRB090214508 "M = NH3. x and y not given. Two phase-SC, Tc = 25.2 K for phase2." "LixMyFe2(Se,Te)2" Li0.45M0.3Fe2Se1.2Te0.8 Li 0.45 M 0.3 Fe 2 Se 1.2 Te 0.8 2014 A 3.8418 17.031 "LiM-122. Two phases, for phase2 a=3.8613, c=17.813" K 36.6 36.6 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156944 PRB090214508 M = NH3. x and y not given. "LixMyFe2(Se,Te)2" Li0.45M0.3Fe2Se1Te1 Li 0.45 M 0.3 Fe 2 Se 1 Te 1 2014 A 3.8591 17.845 LiM-122. phase2 K 21.7 21.7 MPH156942 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156945 PRB090214508 M = NH3. x and y not given. T = 26.7 K "LixMyFe2(Se,Te)2" Li0.45M0.3Fe2Se0.8Te1.2 Li 0.45 M 0.3 Fe 2 Se 0.8 Te 1.2 2014 A 3.8666 17.869 LiM-122. phase2 K 16.5 16.5 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156946 PRB090214508 M = NH3. x and y not given. T = 32.9 K "LixMyFe2(Se,Te)2" Li0.45M0.3Fe2Se0.6Te1.4 Li 0.45 M 0.3 Fe 2 Se 0.6 Te 1.4 2014 A 3.8764 17.985 LiM-122. phase2 K 8.1 8.1 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156947 PRB090214508 M = NH3. x and y not given. T = 29.1 K "LixMyFe2(Se,Te)2" Li0.45M0.3Fe2Se0.4Te1.6 Li 0.45 M 0.3 Fe 2 Se 0.4 Te 1.6 2014 A 3.8893 18.168 LiM-122. phase2 K 0 0 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156948 PRB090214508 M = NH3. x and y not given. T = 38.1 K "LixMyFe2(Se,Te)2" Li0.45M0.3Fe2Se0.2Te1.8 Li 0.45 M 0.3 Fe 2 Se 0.2 Te 1.8 2014 A 3.8959 18.359 LiM-122. phase2 K 0 0 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156949 PRB090214508 M = NH3. x and y not given. AFM at 30.0 K LixMyFe2Te2 Li0.45M0.3Fe2Te2 Li 0.45 M 0.3 Fe 2 Te 2 2014 A 3.894 18.371 LiM-122. phase2 K 0 0 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156950 PRB090214508 M = NH3. x and y not given. NaxMyFe2Se2 Na0.45M0.3Fe2Se2 Na 0.45 M 0.3 Fe 2 Se 2 2014 A 3.8012 17.435 NaM-122. phase1 K 45.6 45.6 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156951 PRB090214508 M = NH3. x and y not given. "NaxMyFe2(Se,Te)2" Na0.45M0.3Fe2Se1.8Te0.2 Na 0.45 M 0.3 Fe 2 Se 1.8 Te 0.2 2014 A 3.8174 17.5 NaM-122. phase1 K 44.2 44.2 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156952 PRB090214508 "M = NH3. x and y not given. Two phase-SC, Tc = 25.7 K for phase2." "NaxMyFe2(Se,Te)2" Na0.45M0.3Fe2Se1.6Te0.4 Na 0.45 M 0.3 Fe 2 Se 1.6 Te 0.4 2014 A 3.8271 17.535 "NaM-122. Two phases, for phase2, a=3.8413, c=18.089" K 43.2 43.2 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156953 PRB090214508 "M = NH3. x and y not given. Two phase-SC, Tc = 22.0 K for phase2." "NaxMyFe2(Se,Te)2" Na0.45M0.3Fe2Se1.4Te0.6 Na 0.45 M 0.3 Fe 2 Se 1.4 Te 0.6 2014 A 3.8283 17.599 "NaM-122. Two phases, for phase2, a=3.8531, c=18.211" K 42.5 42.5 MPH156953 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156954 PRB090214508 "M = NH3. x and y not given. Two phase-SC, Tc = 23.1 K for phase2." "NaxMyFe2(Se,Te)2" Na0.45M0.3Fe2Se1.2Te0.8 Na 0.45 M 0.3 Fe 2 Se 1.2 Te 0.8 2014 A 3.8319 17.666 "NaM-122. Two phases, for phase2, a=3.8541, c=18.302" K 39.6 39.6 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156955 PRB090214508 M = NH3. x and y not given. "NaxMyFe2(Se,Te)2" Na0.45M0.3Fe2Se1Te1 Na 0.45 M 0.3 Fe 2 Se 1 Te 1 2014 A 3.8647 18.259 NaM-122. phase2 K 23.1 23.1 MPH156953 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156956 PRB090214508 M = NH3. x and y not given. T = 31.7 K "NaxMyFe2(Se,Te)2" Na0.45M0.3Fe2Se0.8Te1.2 Na 0.45 M 0.3 Fe 2 Se 0.8 Te 1.2 2014 A 3.8622 18.401 NaM-122. phase2 K 17.4 17.4 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156957 PRB090214508 M = NH3. x and y not given. T = 33.3 K "NaxMyFe2(Se,Te)2" Na0.45M0.3Fe2Se0.6Te1.4 Na 0.45 M 0.3 Fe 2 Se 0.6 Te 1.4 2014 A 3.8742 18.438 NaM-122. phase2 K 9.5 9.5 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156958 PRB090214508 M = NH3. x and y not given. T = 34.3 K "NaxMyFe2(Se,Te)2" Na0.45M0.3Fe2Se0.4Te1.6 Na 0.45 M 0.3 Fe 2 Se 0.4 Te 1.6 2014 A 3.8703 18.697 NaM-122. phase2 K 0 0 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156959 PRB090214508 M = NH3. x and y not given. T = 38.0 K "NaxMyFe2(Se,Te)2" Na0.45M0.3Fe2Se0.2Te1.8 Na 0.45 M 0.3 Fe 2 Se 0.2 Te 1.8 2014 A 3.8724 18.78 NaM-122. phase2 K 0 0 "samples prepared by solid state reaction. reaction vessel(sample with NH3) stirred (223-243K, 3-10h). after intercalation, vessel opened and NH3 evaporated" Emergence of magnetism and controlling factors of superconductivity in Li/Na-ammonia cointercalated FeSe1-zTez 2014 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 90(2014)214508"
156960 PRB091094514 Tc(max) = 8.49 K(P = 9.90 kbar). gap from SP using alpha-model. (dC/gamma*Tc) = 1.87. SrPt3P Sr1Pt3P1 Sr 1 Pt 3 P 1 1 2015 ABC3 K 8.35 8.4 0.5 8.35 MTC156960 meV 1.65 4.8 14 mJ/mol.K2 6.31 SP High-pressure and doping studies of the superconducting antiperovskite SrPt3P 2015 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 91(2015)094514"
156961 PRB091094514 gap from SP using alpha-model. (dC/gamma*Tc) = 1.28. SrPt3P1-xSix Sr1Pt3P0.8Si0.2 Sr 1 Pt 3 P 0.8 Si 0.2 1 2015 ABC3 K 7.8 1 7.8 meV 1.28 4.4 14 mJ/mol.K2 7.77 SP High-pressure and doping studies of the superconducting antiperovskite SrPt3P 2015 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 91(2015)094514"
156962 PRB091094514 SrPt3P1-xSix Sr1Pt3P0.6Si0.4 Sr 1 Pt 3 P 0.6 Si 0.4 1 2015 ABC3 K 7.5 7.5 High-pressure and doping studies of the superconducting antiperovskite SrPt3P 2015 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 91(2015)094514"
156963 PRB091094514 SrPt3P1-xSix Sr1Pt3P0.4Si0.6 Sr 1 Pt 3 P 0.4 Si 0.6 1 2015 ABC3 K 7 7 High-pressure and doping studies of the superconducting antiperovskite SrPt3P 2015 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 91(2015)094514"
156964 PRB091134508 "RRR= R300/R10K) = 1.14 (ab-plane). SP heat, (beta) = 0.039 mJ/mol.K4, (delta) = 2.6E-4 mJ/mol.K6. Two band gap analysis D1 = 1.86meV (in DB), D2 = 1.36 meV." Nb0.18Re0.82 Nb0.18Re0.82 Nb 0.18 Re 0.82 3 2015 K 8.5 8.5 meV 1.86 14 mJ/mol.K2 6.1 SP Floating zone method Evidence of double-gap superconductivity in noncentrosymmetric Nb0.18Re0.82 single crystals 2015 "CNR-SPIN and Dipartimento di Fisica ""E. R. Caianiello"", Universita di Salerno, I-84084 Fisciano (Salerno), Italy" "Phys.Rev.B, 91(2015)134508"
156965 PRB093144502 "RRR = 2.8. Anisotropy (Hc2) = 1.25. Anisotropy = 1.14(Hc1), = 1.25(Hc2,penet). GL(kappa) = 5.7. Hc2(R-mid) corresponts to Hc3, not shown in Fig." beta-Bi2Pd Bi2Pd1 Bi 2 Pd 1 3 2016 AB2 K 4.93 0.1 4.93 mT "Hall probe, demag-correction" 19.7 22.5 T "SP(mid), extrapolation." 0.76 0.61 MHC156965 nm from Hc2 23.2 18.5 nm "Hc1,GL(kappa), GL-eq." 132 105 4.1 14 "Bi,Pd" "melt-growth technique (quartz ampoule, 140 mbar-He gas)" Single-gap superconductivity in beta-Bi2Pd 2016 "Centre of Low Temperature Physics, Institute of Experimental Physics, Slovak Academy of Sciences, and P. J. Safarik University, 040 01 Kosice, Slovakia" "Phys.Rev.B, 93(2016)144502"
156966 PRB093144514 There are three phases depending on pressure. SG(spacegroup) = R-3m for P < 10GPa. Sr0.065Bi2Se3 Sr0.065Bi2Se3 Sr 0.065 Bi 2 Se 3 3 2016 R-3m A 4.1132 28.622 topological insulator K 3 3 MLAT156966 See ACS13710512 Pressure-induced reemergence of superconductivity in topological insulator Sr0.065Bi2Se3 2016 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, China" "Phys.Rev.B, 93(2016)144514"
156967 PRB093144514 There are three phases depending on pressure. SG(spacegroup) = C2/m for 10 < P < 30GPa. Reemerging SC. Fig-Hc2(T) at P = 19.5 GPa. Sr0.065Bi2Se3 Sr0.065Bi2Se3 Sr 0.065 Bi 2 Se 3 3 2016 C2/m A 13.784 3.7419 16.465 topological insulator K 7.78 7.78 MTC156967 T RES(0.9Rn) MHC156967 See ACS13710512 Pressure-induced reemergence of superconductivity in topological insulator Sr0.065Bi2Se3 2016 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, China" "Phys.Rev.B, 93(2016)144514"
156968 PRB093144514 There are three phases depending on pressure. SG(spacegroup) = I4/mmm for 30 GPa < P Reemerging SC. Sr0.065Bi2Se3 Sr0.065Bi2Se3 Sr 0.065 Bi 2 Se 3 3 2016 I4/mmm A 3.3615 16.636 topological insulator K 7.07 7.07 MTC156967 See ACS13710512 Pressure-induced reemergence of superconductivity in topological insulator Sr0.065Bi2Se3 2016 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, China" "Phys.Rev.B, 93(2016)144514"
156969 PRB094214513 non-stoichiometric. Re:Zr = 85.7:14.3. gap derived from 1/T1 of NQR. Re6Zr1 Re6Zr1 Re 6 Zr 1 1 2016 alpha-Mn I4[-]3m A 9.714 K 6.72 6.72 3.58 6 "Re(4N),Zr(3N)" arc-melting "Full-gap superconductivity in noncentrosymmetric Re6Zr, Re27Zr5, and Re24Zr5" 2016 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 94(2016)214513"
156970 PRB094214513 non-stoichiometric. Re:Zr = 84.4:15.6. gap derived from 1/T1 of NQR Re27Zr5 Re27Zr5 Re 27 Zr 5 1 2016 alpha-Mn I4[-]3m A 9.726 K 6.53 6.53 3.55 6 "Re(4N),Zr(3N)" arc-melting "Full-gap superconductivity in noncentrosymmetric Re6Zr, Re27Zr5, and Re24Zr5" 2016 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 94(2016)214513"
156971 PRB094214513 stoichiometric. Re:Zr = 82.8:17.2. gap derived from 1/T1 of NQR Re24Zr5 Re24Zr5 Re 24 Zr 5 1 2016 alpha-Mn I4[-]3m A 9.762 K 5 5 3.51 6 "Re(4N),Zr(3N)" arc-melting "Full-gap superconductivity in noncentrosymmetric Re6Zr, Re27Zr5, and Re24Zr5" 2016 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 94(2016)214513"
156972 PRB094224508 RRR=1.77. T=46.9K (cubic-Tetra). A(T-linear term coeff. in R(T)) = 4.2E-8 Ohm.cm/K. Mo3Sb7 Mo3Sb7 Mo 3 Sb 7 3 2016 A3B7 K 2.37 2.37 MPH156972 uOhm.cm 99.8 Sb-flux method Competition of superconductivity with the structural transition in Mo3Sb7 2016 "Beijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 94(2016)224508"
156973 PRB094224508 RRR=2.37. T=46.6 K (cubic-Tetra). A(T-linear term coeff. in R(T)) = 11.7E-8 Ohm.cm/K. Mo3Sb7 Mo3Sb7 Mo 3 Sb 7 3 2016 A3B7 K 2.36 2.36 MPH156973 95 Sb-flux method Competition of superconductivity with the structural transition in Mo3Sb7 2016 "Beijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 94(2016)224508"
156974 PRB094224508 "RRR = 1.94. T=45.9K (cubic-Tetra). -(dHc2/dT) = 1.33, 1.42, 1.52, 1.57, 1.57, 1.54 T/K and Hc2(0) = 4.0, 5.1, 6.1, 8.9, 8.7, 8.5 T for P = 3.5, 6, 8.5, 12, 14, 15 GPa, respectively." Mo3Sb7 Mo3Sb7 Mo 3 Sb 7 3 2016 A3B7 K 2.35 2.35 MPH156974 T "RES(0.5Rn), linear fitting" 2.96 T/K RES(0.5Rn) 1.25 MHC156974 79.6 Sb-flux method Competition of superconductivity with the structural transition in Mo3Sb7 2016 "Beijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 94(2016)224508"
156975 PRB095014502 "RRR = 60. Anisotropy = (Hc2//c)/(Hc2/n/c) = 3.3(5.8K), = 0.82(1.68K). Angular dependence of Hc2 measured. (//c) means (//rod axis), current direction." K2Cr3As3 K2Cr3As3 K 2 Cr 3 As 3 3 2017 A2B3C3 K2Cr3As3 K 6.2 6.2 T max of dR/dt 26 19.6 1.68 T/K max of dR/dT 4.2 10.3 MHC156975 self flux method Temperature and angular dependence of the upper critical field in K2Cr3As3 2017 "Wuhan National High Magnetic Field Center, School of Physics, Huazhong University of Science and Technology, Wuhan 430074, China" "Phys.Rev.B, 95(2017)014502"
156976 PRB095014507 P-induced SC. P = 3.6 GPa. Hc2-FIG shows Hc2/Tc vs P. Tc in TC-FIG. Structural transition (fcc-to-tetra) at 11 GPa. LaBi Bi1La1 Bi 1 La 1 3 2017 AB Fm3[-]m phase transition(fcc-to-tetra) to P4/mmm at P=11 GPa. K 4.1 0 4.1 MTC156976 T "R(zero), GL fitting" MHC156976 mm3/C MRH156976 In-flux method Tuning the electronic and the crystalline structure of LaBi by pressure: From extreme magnetoresistance to superconductivity 2017 "Department of Physics, Boston College, Boston, Massachusetts, 02467 USA" "Phys.Rev.B, 95(2017)014507"
156977 PRB095014507 P-induced SC. data shows at P = 5.6 GPa. LaBi(P=5.6GPa) Bi1La1 Bi 1 La 1 3 2017 AB Fm3[-]m phase transition(fcc-to-tetra) to P4/mmm at P=11 GPa. K 6.12 6.12 T "R(zero), GL fitting" 11.5 MHC156977 In-flux method Tuning the electronic and the crystalline structure of LaBi by pressure: From extreme magnetoresistance to superconductivity 2017 "Department of Physics, Boston College, Boston, Massachusetts, 02467 USA" "Phys.Rev.B, 95(2017)014507"
156978 PRB095014507 P-induced SC. data shows at P = 17.9 GPa. Space G = P4/mmm for P > 11 GPa. LaBi(P=17.9GPa) Bi1La1 Bi 1 La 1 3 2017 AB P4/mmm K 7.2 7.2 T "R(zero), GL fitting" 6.1 MHC156977 In-flux method Tuning the electronic and the crystalline structure of LaBi by pressure: From extreme magnetoresistance to superconductivity 2017 "Department of Physics, Boston College, Boston, Massachusetts, 02467 USA" "Phys.Rev.B, 95(2017)014507"
156979 PRB095024510 "P-induced SC. P = 2.55 GPa. Bi-I(P<2.55 GPa), Bi-II(2.55-1 = 283 K, T-2 = 167 K, At 300K, monoclinic. At 250K, triclinic. (beta) in SP = 0.60 mJ/mol.K4, (dC/gamma*Tc) = 0.83" IrTe2 Ir1Te2 Ir 1 Te 2 3 2017 AB2 P3[-]m1 164 A 3.94 3.94 5.406 "alpha=beta=90, gamma=120 at 300K. At 250K, SG = P1[-], a=3.954, b=6.649, c=14.458, alpha=98.11,beta=92.53,gamma=107.10" K 2.5 2.5 mJ/mol.K2 1.8 SP 213 SP uOhm.cm 2.97 2440 cm3/C -0.000112 MRH156980 self-flux method Electrical anisotropy and coexistence of structural transitions and superconductivity in IrTe2 2017 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana 70803, USA" "Phys.Rev.B, 95(2017)035148"
156981 PRB095054501 "T = 47.0 K, R-expornent, n = 1.76 in R = R0 + A*T^n" "Na(Fe,Cu)As" Na1Fe0.996Cu0.004As1 Na 1 Fe 0.996 Cu 0.004 As 1 3 2017 35.1 ABC PbFCl K 10.14 10.14 MPH156983 self-flux method Phase diagram and neutron spin resonance of superconducting NaFe1-xCuxAs 2017 "Department of Physics, Beijing Normal University, Beijing 100875, China" "Phys.Rev.B, 95(2017)054501"
156982 PRB095054501 "T = 27.2 K, R-expornent, n = 1.12 in R = R0 + A*T^n" "Na(Fe,Cu)As" Na1Fe0.986Cu0.014As1 Na 1 Fe 0.986 Cu 0.014 As 1 3 2017 ABC PbFCl K 12.25 12.25 self-flux method Phase diagram and neutron spin resonance of superconducting NaFe1-xCuxAs 2017 "Department of Physics, Beijing Normal University, Beijing 100875, China" "Phys.Rev.B, 95(2017)054501"
156983 PRB095054501 "R-expornent, n = 1.17 in R = R0 + A*T^n. optimal doping x = 0.02 (Tc=11.8 K)" "Na(Fe,Cu)As" Na1Fe0.982Cu0.018As1 Na 1 Fe 0.982 Cu 0.018 As 1 3 2017 ABC PbFCl K 12.6 12.6 MPH156983 self-flux method Phase diagram and neutron spin resonance of superconducting NaFe1-xCuxAs 2017 "Department of Physics, Beijing Normal University, Beijing 100875, China" "Phys.Rev.B, 95(2017)054501"
156984 PRB095054501 "R-expornent, n = 1.16 in R = R0 + A*T^n" "Na(Fe,Cu)As" Na1Fe0.978Cu0.022As1 Na 1 Fe 0.978 Cu 0.022 As 1 3 2017 ABC PbFCl K 11.6 11.6 self-flux method Phase diagram and neutron spin resonance of superconducting NaFe1-xCuxAs 2017 "Department of Physics, Beijing Normal University, Beijing 100875, China" "Phys.Rev.B, 95(2017)054501"
156985 PRB095054501 "R-expornent, n = 1.61 in R = R0 + A*T^n" "Na(Fe,Cu)As" Na1Fe0.975Cu0.025As1 Na 1 Fe 0.975 Cu 0.025 As 1 3 2017 ABC PbFCl K 11.3 11.3 self-flux method Phase diagram and neutron spin resonance of superconducting NaFe1-xCuxAs 2017 "Department of Physics, Beijing Normal University, Beijing 100875, China" "Phys.Rev.B, 95(2017)054501"
156986 PRB095054501 "R-expornent, n = 1.97 in R = R0 + A*T^n" "Na(Fe,Cu)As" Na1Fe0.968Cu0.032As1 Na 1 Fe 0.968 Cu 0.032 As 1 3 2017 ABC PbFCl K 10.8 10.8 self-flux method Phase diagram and neutron spin resonance of superconducting NaFe1-xCuxAs 2017 "Department of Physics, Beijing Normal University, Beijing 100875, China" "Phys.Rev.B, 95(2017)054501"
156989 PRB095060505 "not SC. In-plane uniaxial pressure effect measured by NED, muon-SR. Tn(P) measured. (dTn/dP) = 0.22 K/MPa" BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2017 140 AB2C2 K 0 MTN156989 "Uniaxial pressure effect on the magnetic ordered moment and transition temperatures in BaFe2-xTxAs2 (T = Co,Ni)" 2017 "Department of Physics and Astronomy, Rice University, Houston, Texas 77005, USA" "Phys.Rev.B, 95(2017)060505"
156990 PRB095060505 "In-plane uniaxial pressure effect measured by NED, muon-SR. Tn(P) measured. (dTn/dP) = 0.26 K/MPa" "Ba(Fe,Ni)2As2" Ba1Fe1.915Ni0.085As2 Ba 1 Fe 1.915 Ni 0.085 As 2 3 2017 35 AB2C2 K 18 18 MTN156990 "Uniaxial pressure effect on the magnetic ordered moment and transition temperatures in BaFe2-xTxAs2 (T = Co,Ni)" 2017 "Department of Physics and Astronomy, Rice University, Houston, Texas 77005, USA" "Phys.Rev.B, 95(2017)060505"
156991 PRB095064514 "P-induced SC. As p increases, amorphous - high density amor - (high density amor + bcc) - bcc, phase change. SC appears for P > 10 GPa. Tc(in DB) = 6K for Amor, P=30 GPa" Amor-GeSb2Te4 Ge1Sb2Te4 Ge 1 Sb 2 Te 4 2017 AB2C4 amorphous. bcc for P>32 GPa. K 0 MTC156991 T R(0.5Rn) 2.8 2 MHC156991 Superconductivity in multiple phases of compressed GeSb2Te4 2017 "Raymond and Beverly Sackler School of Physics and Astronomy, Tel Aviv University, Tel Aviv 69978, Israel" "Phys.Rev.B, 95(2017)064514"
156992 PRB095064514 "P-induced SC. Crystalline sample. Phase transition (hexa , ortho , bcc) with increasing P. See MTC156992. Tc(in DB) = 8.1 K at P=30 GPa, bcc" GwSb2Te4 Ge1Sb2Te4 Ge 1 Sb 2 Te 4 2017 AB2C4 hexagonal to ortho transition at P=28 GPa K 8.1 0 8.1 MTC156992 Superconductivity in multiple phases of compressed GeSb2Te4 2017 "Raymond and Beverly Sackler School of Physics and Astronomy, Tel Aviv University, Tel Aviv 69978, Israel" "Phys.Rev.B, 95(2017)064514"
156993 PRB095064515 "Eu-valence measured by XAS and XPS. Eu = 2.24. Effective Eu valence decreases with increasing Se-content, lead to mobility, metallicity, and Tc increasing." "Eu0.5La0.5FBi(S,Se)" Eu0.5La0.5F1Bi1S1.8Se0.2 Eu 0.5 La 0.5 F 1 Bi 1 S 1.8 Se 0.2 2017 CeOBiS2 BiS2-layer SC K 0.5 2.7 1.6 MTC156993 mOhm.cm 6.19 Evolution of Eu valence and superconductivity in layered Eu0.5La0.5FBiS2-xSex system 2017 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1 Minami-osawa, Hachioji, Tokyo, 192-0397, Japan" "Phys.Rev.B, 95(2017)064515"
156994 PRB095064515 "Eu-valence measured by XAS and XPS. Eu = 2.18. Effective Eu valence decreases with increasing Se-content, lead to mobility, metallicity, and Tc increasing." "Eu0.5La0.5FBi(S,Se)" Eu0.5La0.5F1Bi1S1.2Se0.8 Eu 0.5 La 0.5 F 1 Bi 1 S 1.2 Se 0.8 2017 CeOBiS2 BiS2-layer SC K 3.8 6.2 5 MVAL156994 mOhm.cm 2.17 Evolution of Eu valence and superconductivity in layered Eu0.5La0.5FBiS2-xSex system 2017 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1 Minami-osawa, Hachioji, Tokyo, 192-0397, Japan" "Phys.Rev.B, 95(2017)064515"
157000 SSC0350091 La0.9Ru3B2 La0.9Ru3B2 La 0.9 Ru 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.605 3.006 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157001 SSC0350091 CeRu3B2 Ce1Ru3B2 Ce 1 Ru 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.527 2.991 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157002 SSC0350091 PrRu3B2 Pr1Ru3B2 Pr 1 Ru 3 B 2 1 1980 6.85 AB2C3 CeCo3B2 P6/mmm A 5.554 3.006 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157003 SSC0350091 NdRu3B2 Nd1Ru3B2 Nd 1 Ru 3 B 2 1 1980 33.2 AB2C3 CeCo3B2 P6/mmm A 5.544 3.01 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157004 SSC0350091 Tm > 45 K. magnetic hardness = 100 kOe at 4.2K SmRu3B2 Sm1Ru3B2 Sm 1 Ru 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.536 2.997 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157005 SSC0350091 Tm > 45 K GdRu3B2 Gd1Ru3B2 Gd 1 Ru 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.508 3.018 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157006 SSC0350091 Tm > 45 K TbRu3B2 Tb1Ru3B2 Tb 1 Ru 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.495 3.01 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157007 SSC0350091 DyRu3B2 Dy1Ru3B2 Dy 1 Ru 3 B 2 1 1980 40.1 AB2C3 CeCo3B2 P6/mmm A 5.485 3.011 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157008 SSC0350091 HoRu3B2 Ho1Ru3B2 Ho 1 Ru 3 B 2 1 1980 16.1 AB2C3 CeCo3B2 P6/mmm A 5.474 3.017 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157009 SSC0350091 magnetic hardness = 10 kOe ErRu3B2 Er1Ru3B2 Er 1 Ru 3 B 2 1 1980 27.3 AB2C3 CeCo3B2 P6/mmm A 5.467 3.017 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157010 SSC0350091 TmRu3B2 Tm1Ru3B2 Tm 1 Ru 3 B 2 1 1980 18.3 AB2C3 CeCo3B2 P6/mmm A 5.461 3.012 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157011 SSC0350091 YbRu3B2 Yb1Ru3B2 Yb 1 Ru 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.464 3.006 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157012 SSC0350091 LuRu3B2 Lu1Ru3B2 Lu 1 Ru 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.454 3.004 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157013 SSC0350091 YRu3B2 Y1Ru3B2 Y 1 Ru 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.481 3.028 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157014 SSC0350091 Tc = 1.79--1.60 ThRu3B2 Th1Ru3B2 Th 1 Ru 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.526 3.07 K 1.79 1.79 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157015 SSC0350091 URu3B2 U1Ru3B2 U 1 Ru 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.476 2.96 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157016 SSC0350091 Tc = 1.53--1.40 Y0.5Th0.5Ru3B2 Y0.5Th0.5Ru3B2 Y 0.5 Th 0.5 Ru 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.499 3.048 K 1.53 1.53 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157017 SSC0350091 Tc = 2.82--2.60 LaRh3B2 La1Rh3B2 La 1 Rh 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.48 3.137 K 2.82 2.82 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157018 SSC0350091 CeRh3B2 Ce1Rh3B2 Ce 1 Rh 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.474 3.085 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157019 SSC0350091 PrRh3B2 Pr1Rh3B2 Pr 1 Rh 3 B 2 1 1980 1.68 AB2C3 CeCo3B2 P6/mmm A 5.461 3.105 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157020 SSC0350091 NdRh3B2 Nd1Rh3B2 Nd 1 Rh 3 B 2 1 1980 13.5 AB2C3 CeCo3B2 P6/mmm A 5.466 3.109 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157021 SSC0350091 Tm > 45 K SmRh3B2 Sm1Rh3B2 Sm 1 Rh 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.437 3.09 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157022 SSC0350091 EuRh3B2 Eu1Rh3B2 Eu 1 Rh 3 B 2 1 1980 41.7 AB2C3 CeCo3B2 P6/mmm A 5.601 2.906 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157023 SSC0350091 Tm > 45 K GdRh3B2 Gd1Rh3B2 Gd 1 Rh 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.404 3.115 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157024 SSC0350091 Tc = 1.88--1.56 Y0.5La0.5Rh3B2 Y0.5La0.5Rh3B2 Y 0.5 La 0.5 Rh 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.434 3.127 K 1.88 1.88 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157025 SSC0350091 Tc = 4.62--4.45 LuOs3B2 Lu1Os3B2 Lu 1 Os 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.457 3.052 K 4.62 4.62 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157026 SSC0350091 UOs3B2 U1Os3B2 U 1 Os 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.523 2.976 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157027 SSC0350091 Tc = 4.14--3.84 Lu0.5Th0.5Os3B2 U0.5Th0.5Os3B2 U 0.5 Th 0.5 Os 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.523 3.062 K 4.14 4.14 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157028 SSC0350091 Tc = 1.65--1.39 LaIr3B2 La1Ir3B2 La 1 Ir 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.543 3.116 K 1.65 1.65 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157029 SSC0350091 Tc = 2.09--1.90 ThIr3B2 Th1Ir3B2 Th 1 Ir 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.449 3.23 K 2.09 2.09 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157030 SSC0350091 UIr3B2 U1Ir3B2 U 1 Ir 3 B 2 1 1980 AB2C3 CeCo3B2 P6/mmm A 5.369 3.181 K 1.2 Superconducting and magnetic properties of new ternary borides with the CeCo3B2-type structure 1980 "Institute for Pure and Applied Physical Sciences University of California, San Diego, La Jolla, CA 92093" "Solid State Commun., 35(1980)91"
157032 SST026055011 "RRR = 1.3. Debye model, (beta) = 1.47 mJ/mol.K4, (delta) = 0.0049 mJ/mol.K6. (dC/gamma*Tc) = 1.51. e-ph = 0.6. DOS = 14.85 states/eV.f.u." Re24Ti5 Re24Ti5 Re 24 Ti 5 1 2013 A5B24 alpha-Mn I$[-]3m 217 A 9.6076 K 5.8 5.8 100 T "SP(mid), WHH" 10.75 kT 10.6 3.68 14 MSP157032 gamma*Tc 1.51 mJ/mol.K2 111.8 SP 428 SP W/m.K 7.29 MTHC157032 uV/K 10.1 MTP157032 uOhm.cm 214.8 279.2 "Re(4N7),Ti(3N5)" "arc-melting - ANN (800C, 5days, in quartz tube, vac)" Investigation of normal and superconducting states in noncentrosymmetric Re24Ti5 2013 "Department of Physics, National Cheng Kung University, Tainan 70101, Taiwan" "Supercond. Sci. Technol., 26(2013)055011"
157033 SCIB0620218 "not SC. AFM order, Tn= 41 K (Eu<2+> and Tn = 110K (Fe<2+., and STR transition)." EuFeAs2 Eu1Fe1As2 Eu 1 Fe 1 As 2 1 2017 41 ABC2 Fe-112 P2<1>/m 11 A 3.98 3.9 10.643 "Fe-112, alpfa = 90, beta = 90.035, gamma = 90" K 0 "EuAs,LaAs,FeAs" solid state reaction. mixture - pellet - in alumina crucuble - in quartz tube - heat to 1123 K - hold(2days) - reground - heat to 1073 K - hold(1 week) Discovery of a novel 112-type iron-pnictide and La-doping induced superconductivity in Eu1-xLaxFeAs2 (x = 0-0.15) 2017 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Sci.Bull., 62(2017)218"
157034 SCIB0620218 "impurity phase: Eu2O3, FeAs2. AFM order, Tn= 27 K (Eu<2+>. Coexistence of SC and AFM(Eu<2+>." "(Eu,La)FeAs2" Eu0.85La0.15Fe1As2 Eu 0.85 La 0.15 Fe 1 As 2 1 2017 ABC2 Fe-112 P2<1>/m 11 Fe-112 K 7.4 11.2 9.3 "EuAs,LaAs,FeAs" solid state reaction. mixture - pellet - in alumina crucuble - in quartz tube - heat to 1123 K - hold(2days) - reground - heat to 1073 K - hold(1 week) Discovery of a novel 112-type iron-pnictide and La-doping induced superconductivity in Eu1-xLaxFeAs2 (x = 0-0.15) 2017 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Sci.Bull., 62(2017)218"
157035 SCIB0620218 SC 91% at T=1.8 K. "(Eu,La)FeAs2" Eu0.9La0.1Fe1As2 Eu 0.9 La 0.1 Fe 1 As 2 3 2017 ABC2 Fe-112 P2<1>/m 11 A 3.982 3.8986 10.666 "Fe-112, alpfa = 90, beta = 90.240, gamma = 90" K 6 6 91 flux method Discovery of a novel 112-type iron-pnictide and La-doping induced superconductivity in Eu1-xLaxFeAs2 (x = 0-0.15) 2017 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Sci.Bull., 62(2017)218"
157036 SCIB0610921 SC-volume 80% (2K) LaRu2As2 La1Ru2As2 La 1 Ru 2 As 2 1 2016 AB2C2 ThCr2Si2 I4/mmm 139 A 4.182 10.59 K 6.8 7.8 7 1 7 80 T "RES(0.5Rn), Linear extrapolation" 1.6 MHC157036 "La,Ru(powfer),As(powder)" "solid state reaction. mixture - pellet - in quartz tube - SIN (between 900 and 1100C, 100h, repeat 3 times)" Superconductivity at 7.8 K in the ternary LaRu2As2 compound 2016 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Sci.Bull., 61(2016)921"
157037 SCIR0059158 "RRR = 1.8. SP (beta) = 0.8 mJ/mol.K4, (delta) = 0.02 mJ/mol.K6. carrier n=1.2E+19 /cm3 for T<50K from RH. Large magnetoresistance , not saturates upto 9T" LuPdBi Lu1Pd1Bi1 Lu 1 Pd 1 Bi 1 3 2015 ABC K 1.8 1.9 1.85 T "RES(0.9Rn),(1-t^2)^1.496" 2.3 MHC157037 nm from Hc2 17 nm from Hc1 3629 mJ/mol.K2 0.75 SP 194 SP mOhm.cm 0.21 0.387 n/cm3 2.80E+19 "Shubnikov - de Haas oscillations, weak antilocalization effect and large linear magnetoresistance in the putative topological superconductor LuPdBi" 2015 "Institute for Low Temperatures and Structure Research, Polish Academy of Sciences, P. O. Box 1410, 50-950 Wroc aw, Poland" "Sci.Report, 5(2015)9158"
157038 SCIR00628632 In-plane anisotropy (Hc2//a)/(Hc2//a*) measured for I//a. Hc2 defined as R(mid). ANI(aa*) = Hc2(a)/Hc2(a*) = 6.8 at 1.9 K. SrxBi2Se3 Sr0.1Bi2Se3 Sr 0.1 Bi 2 Se 3 3 2016 AB2C3 R3[-]m K 2.84 2.84 T RES(0.5Rn) 2.86 0.397 1.9 MHC157038 Rotational symmetry breaking in the topological superconductor SrxBi2Se3 probed by upper-critical field experiments 2016 "Van der Waals - Zeeman Institute, University of Amsterdam, Science Park 904, 1098 XH Amsterdam, The Netherlands." "Sci.Report, 6(2016)28632"
157039 SCIR00628632 "In-plane anisotropy (Hc2//a)/(Hc2//a*) measured for I//a. Hc2 defined as R(mid). ANI(aa*) = Hc2(a)/Hc2(a*) = 2.6 at 0.3 K. [cohere] = 19.6,7.6, 5.4 nm for a, a*, c axis, respectively at t=0.1" SrxBi2Se3 Sr0.15Bi2Se3 Sr 0.15 Bi 2 Se 3 3 2016 AB2C3 R3[-]m K 3.05 3.05 T RES(0.5Rn) 7.71 2.41 0.3 MHC157039 nm from Hc2 19.6 5.4 Rotational symmetry breaking in the topological superconductor SrxBi2Se3 probed by upper-critical field experiments 2016 "Van der Waals - Zeeman Institute, University of Amsterdam, Science Park 904, 1098 XH Amsterdam, The Netherlands." "Sci.Report, 6(2016)28632"
157040 PRL108057001 "Tc goto zero at P = 6.3 GPa.. Anisotropy (Hc2) = 2.9. For P=2.31 GPa, anisotropy (cohere) = (15 nm/7 nm ) = 2.1" CuxBi2Se3 Cu0.3Bi2.1Se3 Cu 0.3 Bi 2.1 Se 3 3 2012 AB2C3 R3[-]m K 3.38 0.25 3.38 MTC157040 T RES(0.5Rn) 5.6 1.9 T/K RES(0.5Rn) 2 0.6 MHC157040 nm from Hc2 13 4 mOhm.cm 0.15 0.15 n/cm3 1.20E+20 melt in sealed quartz tube (850C) - slow cool to (500-600C) and ANN (60-100h) Superconductivity in the Doped Topological Insulator CuxBi2Se3 under High Pressure 2012 "Van der Waals?Zeeman Institute, University of Amsterdam, Science Park 904, 1098 XH Amsterdam, The Netherlands" "Phys.Rev.Lett.,108(2012)057001"
157100 ACS13710512 topological SC. Sr-intercalation. Sr-content by EDX. Carrier n(10K) = 2.65E19 /cm3 SrxBi2Se3 Sr0.062Bi2Se3 Sr 0.062 Bi 2 Se 3 3 2015 A 4.1369 28.598 K 2.39 2.57 2.48 88 mOhm.cm 0.24 cm3/C 0.31 MRH157100 n/cm3 2.02E+19 SrxBi2Se3(nominal Sr-content x =<0.3) were grown. Cleaved crystals were used. Superconductivity with Topological Surface State in SrxBi2Se3 2015 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, PR China" "J.Am.Chem.Soc., 137(2015)10512"
157101 ACS13710512 topological SC. Sr-intercalation. Sr-content by EDX. SrxBi2Se3 Sr0.058Bi2Se3 Sr 0.058 Bi 2 Se 3 3 2015 K 1.98 2.14 2.06 34 SrxBi2Se3(nominal Sr-content x =<0.3) were grown. Cleaved crystals were used. Superconductivity with Topological Surface State in SrxBi2Se3 2015 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, PR China" "J.Am.Chem.Soc., 137(2015)10512"
157102 ACS13710512 topological SC. Sr-intercalation. Sr-content by EDX. Nominal x = 0.19. SrxBi2Se3 Sr0.065Bi2Se3 Sr 0.065 Bi 2 Se 3 3 2015 K 2.35 2.59 2.47 91 SrxBi2Se3(nominal Sr-content x =<0.3) were grown. Cleaved crystals were used. Superconductivity with Topological Surface State in SrxBi2Se3 2015 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, PR China" "J.Am.Chem.Soc., 137(2015)10512"
157103 ACS13710512 Sr-doped Bi2Se3. not SC for x =< 025 in Bi2-xSrxSe3 Bi2-xSrxSe3 Sr0.15Bi1.85Se3 Sr 0.15 Bi 1.85 Se 3 2015 A2B3 A 4.146 28.559 K 1.9 SrxBi2Se3(nominal Sr-content x =<0.3) were grown. Cleaved crystals were used. Superconductivity with Topological Surface State in SrxBi2Se3 2015 "High Magnetic Field Laboratory, Chinese Academy of Sciences and University of Science and Technology of China, Hefei 230026, PR China" "J.Am.Chem.Soc., 137(2015)10512"
157104 ACS1387856 "Impurity phases: KFe2As2(3.0%),FeAs(2%),CaF2(1.8%). Tc(SP) = 32 K. (dC/Tc) = 150 mJ/mol.K2. gamma = 105 mJ/mol.K2 assuming BCS (dC/gamma*Tc) = 1.43" KCa2Fe4As4F2 K1Ca2Fe4As4F2 K 1 Ca 2 Fe 4 As 4 F 2 2016 I4/mmm 139 A 3.8684 31.007 12442-structure K 32.3 32.8 33.1 33 32.8 100 T RES(0.9Rn) T/K SP 16 MHC157104 mJ/mol.K2 104 SP "KAs,CaF2,CaAs,Fe2As" "mixture - pellet - in alumina tube - sealed in Ta tube in quartz tube - SIN(930C, 36h) , reground and repeat reaction process" Superconductivity in KCa2Fe4As4F2 with Separate Double Fe2As2 Layers 2016 "Department of Physics and State Key Lab of Silicon Materials, Zhejiang University, Hangzhou 310027, China" "J.Am.Chem.Soc., 138(2016)7856"
157105 CEM2520106 SnAs As1Sn1 As 1 Sn 1 2017 AB NaCl A 5.722 K 3.8 3.8 Oe M-H curve 70 2 "Sn,As,Se" "mixture - ground - sealed in silica tube - heat to 973K in 10h - keap(973K,10h) - furnace cool to RT" Selenium doping NaCl-type superconductor: SnAs1-xSex (x = 0-0.13) 2017 "State Key Laboratory of High Performance Ceramics and Superfine Microstructure and CAS Key Laboratory of Materials for Energy Conversion, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 252(2017)106"
157106 CEM2520106 SnAs1-xSex Sn1As0.99Se0.01 Sn 1 As 0.99 Se 0.01 2017 AB NaCl A 5.725 K 39 3.8 3.8 Oe M-H curve 80 2 Oe "RES(0.9Rn),WHH" 294 Oe/K RES(0.9Rn) 109 uOhm.cm 3.03 "Sn,As,Se" "mixture - ground - sealed in silica tube - heat to 973K in 10h - keap(973K,10h) - furnace cool to RT" Selenium doping NaCl-type superconductor: SnAs1-xSex (x = 0-0.13) 2017 "State Key Laboratory of High Performance Ceramics and Superfine Microstructure and CAS Key Laboratory of Materials for Energy Conversion, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 252(2017)106"
157107 CEM2520106 SnAs1-xSex Sn1As0.97Se0.03 Sn 1 As 0.97 Se 0.03 2017 AB NaCl A 5.727 K 4 4 Oe M-H curve 110 2 "Sn,As,Se" "mixture - ground - sealed in silica tube - heat to 973K in 10h - keap(973K,10h) - furnace cool to RT" Selenium doping NaCl-type superconductor: SnAs1-xSex (x = 0-0.13) 2017 "State Key Laboratory of High Performance Ceramics and Superfine Microstructure and CAS Key Laboratory of Materials for Energy Conversion, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 252(2017)106"
157108 CEM2520106 SnAs1-xSex Sn1As0.95Se0.05 Sn 1 As 0.95 Se 0.05 2017 AB NaCl A 5.729 K 4.3 4.3 4.3 Oe M-H curve 70 2 Oe "RES(0.9Rn),WHH" 649 Oe/K RES(0.9Rn) 217 uOhm.cm 3.53 "Sn,As,Se" "mixture - ground - sealed in silica tube - heat to 973K in 10h - keap(973K,10h) - furnace cool to RT" Selenium doping NaCl-type superconductor: SnAs1-xSex (x = 0-0.13) 2017 "State Key Laboratory of High Performance Ceramics and Superfine Microstructure and CAS Key Laboratory of Materials for Energy Conversion, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 252(2017)106"
157109 CEM2520106 SnAs1-xSex Sn1As0.93Se0.07 Sn 1 As 0.93 Se 0.07 2017 AB NaCl A 5.732 K 4.3 4.3 Oe M-H curve 90 2 "Sn,As,Se" "mixture - ground - sealed in silica tube - heat to 973K in 10h - keap(973K,10h) - furnace cool to RT" Selenium doping NaCl-type superconductor: SnAs1-xSex (x = 0-0.13) 2017 "State Key Laboratory of High Performance Ceramics and Superfine Microstructure and CAS Key Laboratory of Materials for Energy Conversion, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 252(2017)106"
157110 CEM2520106 SnAs1-xSex Sn1As0.9Se0.1 Sn 1 As 0.9 Se 0.1 2017 AB NaCl A 5.734 K 4.3 4.5 4.5 Oe M-H curve 80 2 Oe "RES(0.9Rn),WHH" 1011 Oe/K RES(0.9Rn) 328 uOhm.cm 19.55 "Sn,As,Se" "mixture - ground - sealed in silica tube - heat to 973K in 10h - keap(973K,10h) - furnace cool to RT" Selenium doping NaCl-type superconductor: SnAs1-xSex (x = 0-0.13) 2017 "State Key Laboratory of High Performance Ceramics and Superfine Microstructure and CAS Key Laboratory of Materials for Energy Conversion, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 252(2017)106"
157111 CEM2520106 SnAs1-xSex Sn1As0.87Se0.13 Sn 1 As 0.87 Se 0.13 2017 AB NaCl A 5.729 K 4.4 4.4 Oe M-H curve 115 2 "Sn,As,Se" "mixture - ground - sealed in silica tube - heat to 973K in 10h - keap(973K,10h) - furnace cool to RT" Selenium doping NaCl-type superconductor: SnAs1-xSex (x = 0-0.13) 2017 "State Key Laboratory of High Performance Ceramics and Superfine Microstructure and CAS Key Laboratory of Materials for Energy Conversion, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 252(2017)106"
157112 CHM0280779 "Tl content by ICP. Tl not intercalated. Carrier = 1.8E+20 /cm3, mobility = 175 cm3/V.s at 2.5 K. SP (beta) = 4.4 mJ/mol.K4. Hc2 using SP data." Tl0.6Bi2Te3 Tl0.6Bi2Te3 Tl 0.6 Bi 2 Te 3 3 2016 R3[-]m A 4.385 30.438 gamma = 120 degree K 2.15 2.42 2.35 2.35 83 T "SP(mid), WHH" 1.06 MHC157112 nm from Hc2 17.6 mJ/mol.K2 4.8 SP mOhm.cm 0.2 "Tl(4N),Bi(6N),Te(6N)" mixture - sealed in quartz tube - heat to 1123 K - keep (48h) - cool to 823 K(5K/h) - Q to ice water Superconductivity in Tl0.6Bi2Te3 Derived from a Topological Insulator 2016 "Institute of Physics II, University of Cologne, D-50937 Cologne, Germany" Chem.Mater. 28(2016)779
157113 CHM0281927 not SC. T = 221 K. TiSe2 Se2Ti1 Se 2 Ti 1 3 2016 P3[-]m 164 A 3.5387 6.0118 K 0.4 "Ta(2N8) or Nb(2N8),Ti(3N),Se(5N)" mixture - pellet - heat to 700C (1C/min) - hold(120h) - repeat reactions. Single crystals grown by CTV (675K(L)-725K(H)) Differences in Chemical Doping Matter: Superconductivity in Ti1-xTaxSe2 but Not in Ti1-xNbxSe2 2016 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, United States" "Chem.Mater., 28(2016)1927"
157114 CHM0281927 T = 201 K. Ti1-xTaxSe2 Ti0.95Ta0.05Se2 Ti 0.95 Ta 0.05 Se 2 3 2016 P3[-]m 164 A 3.537 6.019 K 1.75 1.75 "Ta(2N8) or Nb(2N8),Ti(3N),Se(5N)" mixture - pellet - heat to 700C (1C/min) - hold(120h) - repeat reactions. Single crystals grown by CTV (675K(L)-725K(H)) Differences in Chemical Doping Matter: Superconductivity in Ti1-xTaxSe2 but Not in Ti1-xNbxSe2 2016 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, United States" "Chem.Mater., 28(2016)1927"
157115 CHM0281927 T = 189 K. Ti1-xTaxSe2 Ti0.9Ta0.1Se2 Ti 0.9 Ta 0.1 Se 2 3 2016 P3[-]m 164 A 3.5335 6.0297 K 2.23 2.23 "Ta(2N8) or Nb(2N8),Ti(3N),Se(5N)" mixture - pellet - heat to 700C (1C/min) - hold(120h) - repeat reactions. Single crystals grown by CTV (675K(L)-725K(H)) Differences in Chemical Doping Matter: Superconductivity in Ti1-xTaxSe2 but Not in Ti1-xNbxSe2 2016 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, United States" "Chem.Mater., 28(2016)1927"
157116 CHM0281927 T = 199 K. SP (beta) = 0.70 mJ/mol.K4 (dC/gamm*Tc) = 1.9. DOS = 0.53 states/eV from gmma. Ti1-xTaxSe2 Ti0.8Ta0.2Se2 Ti 0.8 Ta 0.2 Se 2 3 2016 P3[-]m 164 A 3.518 6.0093 K 2.28 2.28 MTC157116 T "R(0.5Rn), WHH" 2.33 T/K RES(0.5Rn) 1.4 MHC157116 A from Hc2 120 mJ/mol.K2 1.99 SP 202 SP "Ta(2N8) or Nb(2N8),Ti(3N),Se(5N)" mixture - pellet - heat to 700C (1C/min) - hold(120h) - repeat reactions. Single crystals grown by CTV (675K(L)-725K(H)) Differences in Chemical Doping Matter: Superconductivity in Ti1-xTaxSe2 but Not in Ti1-xNbxSe2 2016 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, United States" "Chem.Mater., 28(2016)1927"
157117 CHM0281927 T = 200 K. Ti1-xTaxSe2 Ti0.85Ta0.15Se2 Ti 0.85 Ta 0.15 Se 2 3 2016 P3[-]m 164 A 3.529 6.0405 K 2.3 2.3 T "R(0.5Rn), WHH" 2.21 T/K RES(0.5Rn) 1.4 MHC157117 "Ta(2N8) or Nb(2N8),Ti(3N),Se(5N)" mixture - pellet - heat to 700C (1C/min) - hold(120h) - repeat reactions. Single crystals grown by CTV (675K(L)-725K(H)) Differences in Chemical Doping Matter: Superconductivity in Ti1-xTaxSe2 but Not in Ti1-xNbxSe2 2016 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, United States" "Chem.Mater., 28(2016)1927"
157118 CHM0281927 not SC for x < 0.4 in Ti1-xNbxSe2. SP (beta) = 0.48 mJ/mol.K4 Ti1-xNbxSe3 Ti0.8Nb0.2Se2 Ti 0.8 Nb 0.2 Se 2 2016 P3[-]m 164 A 3.5217 6.0443 K 0.4 mJ/mol.K2 0.45 SP 230 SP "Ta(2N8) or Nb(2N8),Ti(3N),Se(5N)" mixture - pellet - heat to 700C (1C/min) - hold(120h) - repeat reactions. Single crystals grown by CTV (675K(L)-725K(H)) Differences in Chemical Doping Matter: Superconductivity in Ti1-xTaxSe2 but Not in Ti1-xNbxSe2 2016 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, United States" "Chem.Mater., 28(2016)1927"
157119 CHM0281927 CuxTiSe2 Cu0.05Ti1Se2 Cu 0.05 Ti 1 Se 2 2016 A 3.5423 6.0246 K 1.52 1.52 "Ta(2N8) or Nb(2N8),Ti(3N),Se(5N)" mixture - pellet - heat to 700C (1C/min) - hold(120h) - repeat reactions. Single crystals grown by CTV (675K(L)-725K(H)) Differences in Chemical Doping Matter: Superconductivity in Ti1-xTaxSe2 but Not in Ti1-xNbxSe2 2016 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, United States" "Chem.Mater., 28(2016)1927"
157120 CHM0281927 CuxTiSe2 Cu0.08Ti1Se2 Cu 0.08 Ti 1 Se 2 2016 A 3.544 6.0359 K 4.18 4.18 MTC157120 "Ta(2N8) or Nb(2N8),Ti(3N),Se(5N)" mixture - pellet - heat to 700C (1C/min) - hold(120h) - repeat reactions. Single crystals grown by CTV (675K(L)-725K(H)) Differences in Chemical Doping Matter: Superconductivity in Ti1-xTaxSe2 but Not in Ti1-xNbxSe2 2016 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, United States" "Chem.Mater., 28(2016)1927"
157121 CHM0281927 PdxTiSe2 Pd0.12Ti1Se2 Pd 0.12 Ti 1 Se 2 2016 K 2.18 2.18 "Ta(2N8) or Nb(2N8),Ti(3N),Se(5N)" mixture - pellet - heat to 700C (1C/min) - hold(120h) - repeat reactions. Single crystals grown by CTV (675K(L)-725K(H)) Differences in Chemical Doping Matter: Superconductivity in Ti1-xTaxSe2 but Not in Ti1-xNbxSe2 2016 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, United States" "Chem.Mater., 28(2016)1927"
157122 EPJ0850414 TP300 in DB shows the value at 320 K. Bi4O4S3 Bi4S3O4 Bi 4 S 3 O 4 1 2012 A3B4C4 I4/mmm A 3.9687 41.324 K 4.6 4.41 4.41 uV/K -33.1 MTP157122 "Ag(4N),Bi(3N),S(3N),Ni2O3(>4N)" "mixture - pellet - sealed in quartz tube - heat(450C, 10h) - heat(510C,10h) - repeat again" Suppression of superconductivity in layered Bi4O4S3 by Ag doping 2012 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, P.R. China" "Eur.Phys.J.B, 85(2012)414"
157123 EPJ0850414 Bi4-xAgxO4S3 Bi3.99Ag0.01S3O4 Bi 3.99 Ag 0.01 S 3 O 4 1 2012 A3B4C4 I4/mmm A 3.9654 41.2982 K 4.39 4.31 4.31 "Ag(4N),Bi(3N),S(3N),Ni2O3(>4N)" "mixture - pellet - sealed in quartz tube - heat(450C, 10h) - heat(510C,10h) - repeat again" Suppression of superconductivity in layered Bi4O4S3 by Ag doping 2012 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, P.R. China" "Eur.Phys.J.B, 85(2012)414"
157124 EPJ0850414 Bi4-xAgxO4S3 Bi3.97Ag0.03S3O4 Bi 3.97 Ag 0.03 S 3 O 4 1 2012 A3B4C4 I4/mmm A 3.9637 41.2376 K 4.24 4.2 4.2 "Ag(4N),Bi(3N),S(3N),Ni2O3(>4N)" "mixture - pellet - sealed in quartz tube - heat(450C, 10h) - heat(510C,10h) - repeat again" Suppression of superconductivity in layered Bi4O4S3 by Ag doping 2012 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, P.R. China" "Eur.Phys.J.B, 85(2012)414"
157125 EPJ0850414 TP300 in DB shows the value at 320 K. Bi4-xAgxO4S3 Bi3.95Ag0.05S3O4 Bi 3.95 Ag 0.05 S 3 O 4 1 2012 A3B4C4 I4/mmm A 3.964 41.2211 K 3.52 3.52 MTC157125 uV/K -33.8 "Ag(4N),Bi(3N),S(3N),Ni2O3(>4N)" "mixture - pellet - sealed in quartz tube - heat(450C, 10h) - heat(510C,10h) - repeat again" Suppression of superconductivity in layered Bi4O4S3 by Ag doping 2012 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, P.R. China" "Eur.Phys.J.B, 85(2012)414"
157126 EPJ0850414 Bi4-xAgxO4S3 Bi3.93Ag0.07S3O4 Bi 3.93 Ag 0.07 S 3 O 4 1 2012 A3B4C4 I4/mmm A 3.9635 41.2132 K 3.01 2.1 2.1 "Ag(4N),Bi(3N),S(3N),Ni2O3(>4N)" "mixture - pellet - sealed in quartz tube - heat(450C, 10h) - heat(510C,10h) - repeat again" Suppression of superconductivity in layered Bi4O4S3 by Ag doping 2012 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, P.R. China" "Eur.Phys.J.B, 85(2012)414"
157127 EPJ0850414 TP300 in DB shows the value at 320 K. Bi4-xAgxO4S3 Bi3.9Ag0.1S3O4 Bi 3.9 Ag 0.1 S 3 O 4 1 2012 A3B4C4 I4/mmm A 3.9622 41.1662 K 1.99 1.99 uV/K -40.4 MTP157127 "Ag(4N),Bi(3N),S(3N),Ni2O3(>4N)" "mixture - pellet - sealed in quartz tube - heat(450C, 10h) - heat(510C,10h) - repeat again" Suppression of superconductivity in layered Bi4O4S3 by Ag doping 2012 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, P.R. China" "Eur.Phys.J.B, 85(2012)414"
157128 EPJ0850414 TP300 in DB shows the value at 320 K. Bi4-xAgxO4S3 Bi3.85Ag0.15S3O4 Bi 3.85 Ag 0.15 S 3 O 4 1 2012 A3B4C4 I4/mmm A 3.9617 41.1648 K 2 uV/K -43.4 "Ag(4N),Bi(3N),S(3N),Ni2O3(>4N)" "mixture - pellet - sealed in quartz tube - heat(450C, 10h) - heat(510C,10h) - repeat again" Suppression of superconductivity in layered Bi4O4S3 by Ag doping 2012 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, P.R. China" "Eur.Phys.J.B, 85(2012)414"
157129 EPJ0850414 TP300 in DB shows the value at 320 K. Bi4-xAgxO4S3 Bi3.8Ag0.2S3O4 Bi 3.8 Ag 0.2 S 3 O 4 1 2012 A3B4C4 I4/mmm A 3.9616 41.0652 K 2 uV/K -45.2 MTP157129 "Ag(4N),Bi(3N),S(3N),Ni2O3(>4N)" "mixture - pellet - sealed in quartz tube - heat(450C, 10h) - heat(510C,10h) - repeat again" Suppression of superconductivity in layered Bi4O4S3 by Ag doping 2012 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, P.R. China" "Eur.Phys.J.B, 85(2012)414"
157130 JAC2910066 Only structural data. SC not measured. SrFe4Sb12 Sr1Fe4Sb12 Sr 1 Fe 4 Sb 12 1 1999 AB4C12 skutterudite Im3[-] A 9.1812 a = 9.176 for Sr0.935Fe4Sb12 K "mixture - pellet - alumina crucible - sealed in silica crucible - heat to 900C (60C/h) - ANN(900C, between 1day and 1week) - Q to water" "The antimony-rich parts of the ternary systems calcium, strontium, barium and cerium with iron and antimony; structure refinements of theLaFe4Sb12-type compounds SrFe4Sb12 and CeFe4Sb12 ; the new compounds CaOs4Sb12 and YbOs4Sb" 1999 "Anorganisch-Chemisches Institut, Universitat Munster, Wilhelm-Klemm-Strasse 8, D-48149 Munster, Germany" "J.Alloys Compd, 252(1999)66"
157131 JAC2910066 Only structural data. SC not measured. CeFe4Sb12 Ce1Fe4Sb12 Ce 1 Fe 4 Sb 12 1 1999 AB4C12 skutterudite Im3[-] A 9.136 a = 9.126 for Ce0.892Fe4Sb12 K "mixture - pellet - alumina crucible - sealed in silica crucible - heat to 900C (60C/h) - ANN(900C, between 1day and 1week) - Q to water" "The antimony-rich parts of the ternary systems calcium, strontium, barium and cerium with iron and antimony; structure refinements of theLaFe4Sb12-type compounds SrFe4Sb12 and CeFe4Sb12 ; the new compounds CaOs4Sb12 and YbOs4Sb" 1999 "Anorganisch-Chemisches Institut, Universitat Munster, Wilhelm-Klemm-Strasse 8, D-48149 Munster, Germany" "J.Alloys Compd, 252(1999)66"
157132 JAC2910066 Only structural data. SC not measured. CaOs4Sb12 Ca1Os4Sb12 Ca 1 Os 4 Sb 12 1 1999 AB4C12 skutterudite A 9.321 K "mixture - pellet - alumina crucible - sealed in silica crucible - heat to 900C (60C/h) - ANN(900C, between 1day and 1week) - Q to water" "The antimony-rich parts of the ternary systems calcium, strontium, barium and cerium with iron and antimony; structure refinements of theLaFe4Sb12-type compounds SrFe4Sb12 and CeFe4Sb12 ; the new compounds CaOs4Sb12 and YbOs4Sb" 1999 "Anorganisch-Chemisches Institut, Universitat Munster, Wilhelm-Klemm-Strasse 8, D-48149 Munster, Germany" "J.Alloys Compd, 252(1999)66"
157133 JAC2910066 Only structural data. SC not measured. YbOs4Sb12 Yb1Os4Sb12 Yb 1 Os 4 Sb 12 1 1999 AB4C12 skutterudite A 9.316 K "mixture - pellet - alumina crucible - sealed in silica crucible - heat to 900C (60C/h) - ANN(900C, between 1day and 1week) - Q to water" "The antimony-rich parts of the ternary systems calcium, strontium, barium and cerium with iron and antimony; structure refinements of theLaFe4Sb12-type compounds SrFe4Sb12 and CeFe4Sb12 ; the new compounds CaOs4Sb12 and YbOs4Sb" 1999 "Anorganisch-Chemisches Institut, Universitat Munster, Wilhelm-Klemm-Strasse 8, D-48149 Munster, Germany" "J.Alloys Compd, 252(1999)66"
157134 JAC6940439 "(dC/gamma*Tc) = 0.59 , (2d/kTc) = 2.0 ." SrRhGe3 Sr1Rh1Ge3 Sr 1 Rh 1 Ge 3 3 2017 ABC3 BaNiSn3 A 4.4399 10.1321 K 0.71 0.71 mJ/mol.K2 5.1 SP 200 SP "Sr(3N),T(4N),Ge(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - in alumina crucible - in quartz tube - heat(1130C, 3d) - cool to 500C within 15 days. Flux removed at 250C." "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157135 JAC6940439 "RRR = 150. (dC/gamma*Tc) = 1.9 , (2d/kTc) = 5.6 ." SrIrGe3 Sr1Ir1Ge3 Sr 1 Ir 1 Ge 3 3 2017 ABC3 BaNiSn3 K 0.53 0.53 mJ/mol.K2 5.3 SP 230 SP uOhm.cm 0.3 "Sr(3N),T(4N),Ge(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - in alumina crucible - in quartz tube - heat(1130C, 3d) - cool to 500C within 15 days. Flux removed at 250C." "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157136 JAC6940439 "(dC/gamma*Tc) = 0.93 , (2d/kTc) = 3.5 ." SrNiGe3 Sr1Ni1Ge3 Sr 1 Ni 1 Ge 3 3 2017 ABC3 BaNiSn3 A 4.3785 10.0231 K 0.46 0.46 mJ/mol.K2 5.6 SP 280 SP "Sr(3N),T(4N),Ge(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - in alumina crucible - in quartz tube - heat(1130C, 3d) - cool to 500C within 15 days. Flux removed at 250C." "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157137 JAC6940439 "(dC/gamma*Tc) = 1.2 , (2d/kTc) = 3.1 ." SrPdGe3 Sr1Pd1Ge3 Sr 1 Pd 1 Ge 3 3 2017 ABC3 BaNiSn3 K 1.47 1.38 1.38 mJ/mol.K2 5.3 SP 250 SP "Sr(3N),T(4N),Ge(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - in alumina crucible - in quartz tube - heat(1130C, 3d) - cool to 500C within 15 days. Flux removed at 250C." "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157138 JAC6940439 "(dC/gamma*Tc) = 1.1 , (2d/kTc) = 2.8 ." SrPtGe3 Sr1Pt1Ge3 Sr 1 Pt 1 Ge 3 3 2017 ABC3 BaNiSn3 K 0.84 0.84 mJ/mol.K2 4.7 SP 260 SP "Sr(3N),T(4N),Ge(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - in alumina crucible - in quartz tube - heat(1130C, 3d) - cool to 500C within 15 days. Flux removed at 250C." "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157139 JAC6940439 "2nd Tn = 13.4 K. magnetic properties: DB values for H//[100]. For H//[001, moment = 7.33 my-B/Eu, Curie-T = -14.8 K." EuCoGe3 Eu1Co1Ge3 Eu 1 Co 1 Ge 3 3 2017 My-B/Eu 7.7 -20.7 15.4 ABC3 BaNiSn3 4.3191 9.8847 K 0.5 "Sr(3N),T(4N),Ge(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - in alumina crucible - in quartz tube - heat(1130C, 3d) - cool to 500C within 15 days. Flux removed at 250C." "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157140 JAC6940439 "magnetic properties: DB values for H//[100]. For H//[001, moment = 7.94 my-B/Eu, Curie-T = -19.8 K." EuRhGe3 Eu1Rh1Ge3 Eu 1 Rh 1 Ge 3 3 2017 My-B/Eu 7.8 -16 11.6 ABC3 BaNiSn3 4.4129 10.0906 K 0.5 "Sr(3N),T(4N),Ge(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - in alumina crucible - in quartz tube - heat(1130C, 3d) - cool to 500C within 15 days. Flux removed at 250C." "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157141 JAC6940439 "2nd Tn = 7.0 K. magnetic properties: DB values for H//[100]. For H//[001, moment = 7.85 my-B/Eu, Curie-T = -20.2 K." EuIrGe3 Eu1Ir1Ge3 Eu 1 Ir 1 Ge 3 3 2017 My-B/Eu 7.92 -19.6 12.2 ABC3 BaNiSn3 4.4358 10.0581 K 0.5 "Sr(3N),T(4N),Ge(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - in alumina crucible - in quartz tube - heat(1130C, 3d) - cool to 500C within 15 days. Flux removed at 250C." "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157142 JAC6940439 "magnetic properties: DB values for H//[100]. For H//[001, moment = 7.97 my-B/Eu, Curie-T = -5.8 K." EuNiGe3 Eu1Ni1Ge3 Eu 1 Ni 1 Ge 3 3 2017 My-B/Eu 7.88 -2.81 13.3 ABC3 BaNiSn3 4.349 9.9087 K 0.5 "Sr(3N),T(4N),Ge(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - in alumina crucible - in quartz tube - heat(1130C, 3d) - cool to 500C within 15 days. Flux removed at 250C." "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157143 JAC6940439 "magnetic properties: DB values for H//[100]. For H//[001, moment = 7.91 my-B/Eu, Curie-T = -2.8 K." EuPdGe3 Eu1Pd1Ge3 Eu 1 Pd 1 Ge 3 3 2017 My-B/Eu 7.78 -3 12.2 ABC3 BaNiSn3 4.4606 10.2324 K 0.5 "Sr(3N),T(4N),Ge(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - in alumina crucible - in quartz tube - heat(1130C, 3d) - cool to 500C within 15 days. Flux removed at 250C." "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157144 JAC6940439 "magnetic properties: DB values for H//[100]. For H//[001, moment = 7.95 my-B/Eu, Curie-T = -6.4 K." EuPtGe3 Eu1Pt1Ge3 Eu 1 Pt 1 Ge 3 3 2017 My-B/Eu 7.96 -6 10.8 ABC3 BaNiSn3 4.4758 10.0887 K 0.5 "Sr(3N),T(4N),Ge(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - in alumina crucible - in quartz tube - heat(1130C, 3d) - cool to 500C within 15 days. Flux removed at 250C." "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157145 JAC7210261 "small SC volume fraction, Anomaly in R(T) are 69 K, 02 K(maybe SC)" "(Ca,Ce)FeAs2" Ca0.82Ce0.18Fe1As2 Ca 0.82 Ce 0.18 Fe 1 As 2 3 2017 ABC2 Fe-112 K 6.2 20 13.1 mOhm.cm 0.418 cm3/C -2.26E-08 MRH157145 "Ca,Ce,FeAs,CoAs,As" self-flux method. Mixture - sealed in aluminum crucible - sealed in quartz tube - heat to 1000C - hold(15h) - cool to 1050C (1.25C/h) - furnace cool Synthesis and transport properties of 112-type iron pnictide superconductors Ca1-xCexFe1-yCoyAs2 2017 "School of Physics and Key Laboratory of MEMS of the Ministry of Education, Southeast University, Nanjing 211189, China" "J.Alloys Compd, 721(2017)261"
157146 JAC7210261 "Anomaly in R(T) are 72 K, 22 K(maybe SC). R not to zero at T=2.8 K." "(Ca,Ce)FeAs2" Ca0.76Ce0.24Fe1As2 Ca 0.76 Ce 0.24 Fe 1 As 2 3 2017 ABC2 Fe-112 K 22 22 mOhm.cm 0.434 cm3/C -9.55E-09 MRH157145 "Ca,Ce,FeAs,CoAs,As" self-flux method. Mixture - sealed in aluminum crucible - sealed in quartz tube - heat to 1000C - hold(15h) - cool to 1050C (1.25C/h) - furnace cool Synthesis and transport properties of 112-type iron pnictide superconductors Ca1-xCexFe1-yCoyAs2 2017 "School of Physics and Key Laboratory of MEMS of the Ministry of Education, Southeast University, Nanjing 211189, China" "J.Alloys Compd, 721(2017)261"
157147 JAC7210261 Anomali in R(T) appears at 81 K. not SC "(Ca,Ce)FeAs2" Ca0.73Ce0.27Fe1As2 Ca 0.73 Ce 0.27 Fe 1 As 2 3 2017 ABC2 Fe-112 K 2.8 mOhm.cm 0.437 cm3/C -1.35E-09 MRH157145 "Ca,Ce,FeAs,CoAs,As" self-flux method. Mixture - sealed in aluminum crucible - sealed in quartz tube - heat to 1000C - hold(15h) - cool to 1050C (1.25C/h) - furnace cool Synthesis and transport properties of 112-type iron pnictide superconductors Ca1-xCexFe1-yCoyAs2 2017 "School of Physics and Key Laboratory of MEMS of the Ministry of Education, Southeast University, Nanjing 211189, China" "J.Alloys Compd, 721(2017)261"
157148 JAC7210261 stable Fe-112 phase. "(Ca,Ce)(Fe,Co)As2" Ca0.8Ce0.2Fe0.975Co0.025As2 Ca 0.8 Ce 0.2 Fe 0.975 Co 0.025 As 2 3 2017 ABC2 Fe-112 K 33 34.5 38 33 34.5 80 T "RES(0.5Rn), WHH" 151 48.77 T/K RES(0.5Rn) 6.32 2.04 MHC157148 mOhm.cm 0.472 cm3/C -1.92E-08 MRH157148 "Ca,Ce,FeAs,CoAs,As" self-flux method. Mixture - sealed in aluminum crucible - sealed in quartz tube - heat to 1000C - hold(15h) - cool to 1050C (1.25C/h) - furnace cool Synthesis and transport properties of 112-type iron pnictide superconductors Ca1-xCexFe1-yCoyAs2 2017 "School of Physics and Key Laboratory of MEMS of the Ministry of Education, Southeast University, Nanjing 211189, China" "J.Alloys Compd, 721(2017)261"
157149 JAP117213912 "RRR = 1.1. Ba8Si38.83Al3.47 by EPMA. Hc2 defined as R=0.5Rn (H-sweep) and R=zero (T-sweep), SC properties calculated using T-sweep Hc2." Ba8Si42Al4 Ba8Si42Al4 Ba 8 Si 42 Al 4 1 2015 A8B46 clathrate A 10.39 K 5.7 5.7 30 Oe "M-H curve, (1-t^2)" 40.2 T "R=zero, T-sweep, GL" 6.64 MHC157149 A from Hc2 70 A "Hc1, GL" 4360 "Ba8Si46-xAlx prepared based on the multistep melting of Ba, Al, and Si under Ar atmosphere and subsequent solid state reaction" Critical magnetic fields of superconducting aluminum-substituted Ba8Si42Al4 clathrate 2015 "School of Engineering, University of Puerto Rico at Mayaguez, Mayaguez, Puerto Rico 00681-9000, USA" "J.Appl.Phys., 117(2015)213912"
157150 JPCM027385701 "Impurity phases: Bi2S3,CeS. Tn (in phase diagram) obtained from hump in R(T,H) at H constant." "(Eu,Ce)BiS2F" Eu0.5Ce0.5Bi1S2F1 Eu 0.5 Ce 0.5 Bi 1 S 2 F 1 1 2015 ABCD2 CeOBiS2 P4/nmm 129 A 4.0697 13.3286 BiS2 layer SC K 2.2 2.2 T "RES(on), WHH" 0.75 mJ/mol.K2 127 SP 212 SP "EuF2(3N),Bi2S3(4N5),S(5N5),Ce(2N8)" "solid state reaction. Mixture - alumina tube in quartz ampoule - heat(1000K, 10h) - ground - pellet - SIN(1000K, 10h)" Coexistence of superconductivity and complex 4 f magnetism in Eu0.5Ce0.5BiS2F 2015 "Department of Physics, Zhejiang University, Hangzhou 310027, People's Republic of China" "J.Phys.Condens.Matter, 27(2015)385701"
157151 JPS081113703 "RRR = 41 for J//b-axis. Hc2 = 2 kOe for bulk (SP). Hc2 measured also for H//a-,b-,c-axis for J//b-axis defined as R=0. SP (beta) = 0.15 mJ/mol.K4. (2gap/k) = 7.8 K from SP." LaNiC2 La1Ni1C2 La 1 Ni 1 C 2 3 2012 ABC2 CeNiC2 Amm2 A 3.959 4.564 6.204 K 2.7 2.7 T SP 0.2 MHC157151 2.9 14 MSP157151 mJ/mol.K2 6.7 SP uOhm.cm 2.9 120 "La(3N),Ni(4N),C(4N)" single crystals grown by Czochralsky method in tetra-arc furnace using (La:Ni:C = 1:1:2004-2.08) Fermi Surface and Superconducting Properties of Non-centrosymmetric LaNiC2 2012 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 81(2012)113703"
157152 JPS086014704 RRR = 18. Curie-Weiss for T > 150K. Gamma(SP) = 145 mJ/mol-Ce.K2 from fitting for T < 1.0 K. lambda-type anomaly at around 1.0 K in C(T) Ce2Pt8P Ce2Pt8P1 Ce 2 Pt 8 P 1 1 2017 My-B/Ce 2.3 12 AB2C8 Amm2 38 A 4.242 17.38 5.39 CePt5 intergrowth in CePt3P K mJ/mol.K2 145 SP "Ce(3N),La(3N),Pt(3N),P(5N)" "solid state reaction. CePt2(or LaPt2) - arcmelting - crush & ground to powder - mixture(CePt2 + P) - sealed in quartz tube - heat(1100C, 48h) - slow cool to RT" Heavy-Fermion Compound of the Ternary Phosphide Ce2Pt8P with a Non-Centrosymmetric Structure 2017 "Graduate School of Science and Technology, Niigata University, Niigata 950-2181, Japan" "J.Phys.Soc.Jpn, 86(2017)014704"
157153 JPS086014704 RRR = 56. gamma(SP) = 26.8 mJ/mol-La.K2. beta(SP) = 18.4 mJ/mol-La.K2 La2Pt8P La2Pt8P1 La 2 Pt 8 P 1 1 2017 9.6 AB2C8 Amm2 38 A 4.248 17.382 5.394 LaPt5 intergrowth in CePt3P K 0.28 mJ/mol.K2 26.8 SP 200 SP "Ce(3N),La(3N),Pt(3N),P(5N)" "solid state reaction. CePt2(or LaPt2) - arcmelting - crush & ground to powder - mixture(CePt2 + P) - sealed in quartz tube - heat(1100C, 48h) - slow cool to RT" Heavy-Fermion Compound of the Ternary Phosphide Ce2Pt8P with a Non-Centrosymmetric Structure 2017 "Graduate School of Science and Technology, Niigata University, Niigata 950-2181, Japan" "J.Phys.Soc.Jpn, 86(2017)014704"
157154 JPS086023704 SP measured for unannealed sample. SP anomaly appears at around 36 K due to Einstein-phonon with T(Ein) = 177 K. La3Be13 Be13La1 Be 13 La 1 3 2017 AB13 MnZn13 Fm3[-]c 226 A 10.506 K 0.53 0.53 mJ/mol.K2 9.1 SP 950 SP "La(3N),Be(3N)" "Al-flux method. Mixture(La:Be:Al(4N) = 1:13:35) - in Al2O3 crucible - sealed in quartz tube - heat(1050C, 72h) - cool (2C/h) -flux remove - ANN(700C, 2weeks)" Observation of Low-Energy Einstein Phonon and Superconductivity in Single-Crystalline LaBe13 2017 "Graduate School of Science, Hokkaido University, Sapporo 060-0810, Japan" "J.Phys.Soc.Jpn, 86(2017)023704"
157155 JPS086034707 "T = 151 K. SP(lattice) has Debye and two Einstein temperature, Debye= 258 K for T < 3 K. Ein(1) = 34, Ein(2) = 76 K." LaOs2Zn20 La1Os2Zn20 La 1 Os 2 Zn 20 1 2017 AB2C20 CeCr2Al20 Fd3[-]m A 14.4223 K 0.07 0.07 T RES(R=zero) T/K RES(R=zero) 0.057 MHC157155 mJ/mol.K2 10.4 SP 258 SP Zn-flux method "Structural, Magnetic, and Superconducting Properties of Caged Compounds ROs2Zn20 (R = La, Ce, Pr, and Nd)" 2017 "Department of Quantum Matter, Graduate School of Advanced Sciences of Matter, Hiroshima University, Higashihiroshima, Hiroshima 739-8530, Japan" "J.Phys.Soc.Jpn, 86(2017)034707"
157156 JPS086034707 T = 109 K. CeOs2Zn20 Ce1Os2Zn20 Ce 1 Os 2 Zn 20 1 2017 emu/mol 0.0027 AB2C20 CeCr2Al20 Fd3[-]m A 14.3865 K 0.04 Zn-flux method "Structural, Magnetic, and Superconducting Properties of Caged Compounds ROs2Zn20 (R = La, Ce, Pr, and Nd)" 2017 "Department of Quantum Matter, Graduate School of Advanced Sciences of Matter, Hiroshima University, Higashihiroshima, Hiroshima 739-8530, Japan" "J.Phys.Soc.Jpn, 86(2017)034707"
157157 JPS086034707 T = 87 K. PrOs2Zn20 Pr1Os2Zn20 Pr 1 Os 2 Zn 20 1 2017 AB2C20 CeCr2Al20 Fd3[-]m A 14.3494 K 0.06 0.06 T RES(R=zero) T/K RES(R=zero) 0.2 MHC157155 Zn-flux method "Structural, Magnetic, and Superconducting Properties of Caged Compounds ROs2Zn20 (R = La, Ce, Pr, and Nd)" 2017 "Department of Quantum Matter, Graduate School of Advanced Sciences of Matter, Hiroshima University, Higashihiroshima, Hiroshima 739-8530, Japan" "J.Phys.Soc.Jpn, 86(2017)034707"
157158 JPS086034707 T = 62 K. NdOs2Zn20 Nd1Os2Zn20 Nd 1 Os 2 Zn 20 1 2017 AB2C20 CeCr2Al20 Fd3[-]m A 14.329 K 0.04 Zn-flux method "Structural, Magnetic, and Superconducting Properties of Caged Compounds ROs2Zn20 (R = La, Ce, Pr, and Nd)" 2017 "Department of Quantum Matter, Graduate School of Advanced Sciences of Matter, Hiroshima University, Higashihiroshima, Hiroshima 739-8530, Japan" "J.Phys.Soc.Jpn, 86(2017)034707"
157159 JPS086035001 "P-P dimer distance, P(1)-P(1) = 3.2328 A, P(2)-P(2) = 2.7097 A." SrNi2P2 Sr1Ni2P2 Sr 1 Ni 2 P 2 1 2017 AB2C2 ThCr2Si2 Immm A 3.9552 11.87 10.4889 K 1.41 1.41 "solid state reaction. Mixture - ground - in alumina clucible - sealed in quartz tube - heat(300C,5h), (700C,3h), (1000C,24h) - natural cooling" Enhanced Superconductivity in Close Proximity to the Structural Phase Transition of Sr1-xBaxNi2P2 2017 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 86(2017)035001"
157160 JPS086035001 "P-P dimer distance, P(1)-P(1) = 3.3936 A, P(2)-P(2) = 2.7518 A. not bulk SC(SC and non-SC regions)" Sr1-xBaxNi2P2 Sr0.8Ba0.2Ni2P2 Sr 0.8 Ba 0.2 Ni 2 P 2 1 2017 AB2C2 ThCr2Si2 Immm A 3.9422 11.825 10.8652 K 2.87 2.87 48 "solid state reaction. Mixture - ground - in alumina clucible - sealed in quartz tube - heat(300C,5h), (700C,3h), (1000C,24h) - natural cooling" Enhanced Superconductivity in Close Proximity to the Structural Phase Transition of Sr1-xBaxNi2P2 2017 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 86(2017)035001"
157161 JPS086035001 "P-P dimer distance, P(1)-P(1) = 3.4594 A, P(2)-P(2) = 2.7892 A. not bulk SC(SC and non-SC regions)" Sr1-xBaxNi2P2 Sr0.6Ba0.4Ni2P2 Sr 0.6 Ba 0.4 Ni 2 P 2 1 2017 AB2C2 ThCr2Si2 Immm A 3.9432 11.8354 11.0662 K 2.84 2.84 MTC157161 73 "solid state reaction. Mixture - ground - in alumina clucible - sealed in quartz tube - heat(300C,5h), (700C,3h), (1000C,24h) - natural cooling" Enhanced Superconductivity in Close Proximity to the Structural Phase Transition of Sr1-xBaxNi2P2 2017 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 86(2017)035001"
157162 JPS086035001 "P-P dimer distance, P(1)-P(1) = 3.3919 A, P(2)-P(2) = 2.6347 A." Sr1-xBaxNi2P2 Sr0.5Ba0.5Ni2P2 Sr 0.5 Ba 0.5 Ni 2 P 2 1 2017 AB2C2 ThCr2Si2 Immm A 3.9379 11.8053 10.9835 K 2.76 2.76 80 "solid state reaction. Mixture - ground - in alumina clucible - sealed in quartz tube - heat(300C,5h), (700C,3h), (1000C,24h) - natural cooling" Enhanced Superconductivity in Close Proximity to the Structural Phase Transition of Sr1-xBaxNi2P2 2017 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 86(2017)035001"
157163 JPS086035001 P-P dimer distance = 3.5301A uncollapsed tetragonal structure Sr1-xBaxNi2P2 Sr0.3Ba0.7Ni2P2 Sr 0.3 Ba 0.7 Ni 2 P 2 1 2017 AB2C2 ThCr2Si2 I4/mmm 139 A 3.9521 11.5448 uncolapsed tetragonal K 2.55 2.55 MTC157161 75 "solid state reaction. Mixture - ground - in alumina clucible - sealed in quartz tube - heat(300C,5h), (700C,3h), (1000C,24h) - natural cooling" Enhanced Superconductivity in Close Proximity to the Structural Phase Transition of Sr1-xBaxNi2P2 2017 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 86(2017)035001"
157164 JPS086035001 P-P dimer distance = 3.5600A uncollapsed tetragonal structure Sr1-xBaxNi2P2 Sr0.15Ba0.85Ni2P2 Sr 0.15 Ba 0.85 Ni 2 P 2 1 2017 AB2C2 ThCr2Si2 I4/mmm 139 A 3.9485 11.7116 uncolapsed tetragonal K 2.53 2.53 72 "solid state reaction. Mixture - ground - in alumina clucible - sealed in quartz tube - heat(300C,5h), (700C,3h), (1000C,24h) - natural cooling" Enhanced Superconductivity in Close Proximity to the Structural Phase Transition of Sr1-xBaxNi2P2 2017 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 86(2017)035001"
157165 JPS086035001 P-P dimer distance = 3.6760A uncollapsed tetragonal structure BaNi2P2 Ba1Ni2P2 Ba 1 Ni 2 P 2 1 2017 AB2C2 ThCr2Si2 I4/mmm 139 A 3.9454 11.8183 uncolapsed tetragonal K 2.53 2.53 73 "solid state reaction. Mixture - ground - in alumina clucible - sealed in quartz tube - heat(300C,5h), (700C,3h), (1000C,24h) - natural cooling" Enhanced Superconductivity in Close Proximity to the Structural Phase Transition of Sr1-xBaxNi2P2 2017 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 86(2017)035001"
157166 JPS086044710 "[penet]London, and SC carrier density = 4.98E+26 /m3 derived from muon-SR. e-ph = 0.75." Cs2Cr3As3 Cs2Cr3As3 Cs 2 Cr 3 As 3 1 2017 A2B3C3 K2Cr3As3 P6[-]m2 187 K 2.1 2.1 10 Oe M-H curve 10 0.5 A from Hc2=6.45T 71.4 nm "muon-SR, London theory" 954 3 16 "See Sci.China Mater., 58(2015)16 (SCM0580016)" Nodal Superconducting Gap Structure in the Quasi-One-Dimensional Cs2Cr3As3 Investigated Using muon-SR Measurements 2017 "ISIS Facility, Rutherford Appleton Laboratory, Chilton, Didcot Oxon, OX11 0QX, U.K." "J.Phys.Soc.Jpn, 86(2017)044710"
157167 JPS086054711 "irreversible temperature defined as ZFC & FC curves split, T(irr) = 4.4 K .Impurity phase: SnSe2(3%), Ag8SnSe6(1%)" AgSnSe2 Ag1Sn1Se2 Ag 1 Sn 1 Se 2 1 2017 ABC2 NaCl Fm3[-]m 225 A 5.6749 K 4.5 5.7 4.7 4.7 mOhm.cm 2.12 "Ag(3N),Sn(4N),Bi(5N),Se(5N)" "solid state reaction. Ground - mixture - pellet - sealed in quartz tube - SIN(400C,20h) - reground - repeat one more process" Bi Substitution Effects on Superconductivity of Valence-Skip Superconductor AgSnSe2 2017 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 193-0397, Japan" "J.Phys.Soc.Jpn, 86(2017)054711"
157168 JPS086054711 "irreversible temperature defined as ZFC & FC curves split, T(irr) = 4.8 K. Impurity phase: SnSe2(3%), Ag8SnSe6(1%)" "Ag(Sn,Bi)Se2" Ag1Sn0.9Bi0.1Se2 Ag 1 Sn 0.9 Bi 0.1 Se 2 1 2017 ABC2 NaCl Fm3[-]m 225 A 5.6953 K 5 6.3 5.2 5.2 mOhm.cm 0.985 "Ag(3N),Sn(4N),Bi(5N),Se(5N)" "solid state reaction. Ground - mixture - pellet - sealed in quartz tube - SIN(400C,20h) - reground - repeat one more process" Bi Substitution Effects on Superconductivity of Valence-Skip Superconductor AgSnSe2 2017 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 193-0397, Japan" "J.Phys.Soc.Jpn, 86(2017)054711"
157169 JPS086054711 "irreversible temperature defined as ZFC & FC curves split, T(irr) = 4.9 K. Impurity phase: SnSe2(4%), Ag8SnSe6(2%)" "Ag(Sn,Bi)Se2" Ag1Sn0.8Bi0.2Se2 Ag 1 Sn 0.8 Bi 0.2 Se 2 1 2017 ABC2 NaCl Fm3[-]m 225 A 5.7176 K 4.8 9.7 5.1 5.1 MTC157169 mOhm.cm 4.71 "Ag(3N),Sn(4N),Bi(5N),Se(5N)" "solid state reaction. Ground - mixture - pellet - sealed in quartz tube - SIN(400C,20h) - reground - repeat one more process" Bi Substitution Effects on Superconductivity of Valence-Skip Superconductor AgSnSe2 2017 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 193-0397, Japan" "J.Phys.Soc.Jpn, 86(2017)054711"
157170 JPS086054711 "irreversible temperature defined as ZFC & FC curves split, T(irr) = 3.3 K." "Ag(Sn,Bi)Se2" Ag1Sn0.7Bi0.3Se2 Ag 1 Sn 0.7 Bi 0.3 Se 2 1 2017 ABC2 NaCl Fm3[-]m 225 A K 0 4 4 "Ag(3N),Sn(4N),Bi(5N),Se(5N)" "solid state reaction. Ground - mixture - pellet - sealed in quartz tube - SIN(400C,20h) - reground - repeat one more process" Bi Substitution Effects on Superconductivity of Valence-Skip Superconductor AgSnSe2 2017 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 193-0397, Japan" "J.Phys.Soc.Jpn, 86(2017)054711"
157171 JPS086063704 (dC/gamma*Tc) = 2.3. Lattice paraeter not given BaPd2As2 Ba1Pd2As2 Ba 1 Pd 2 As 2 3 2017 AB2C2 ThCr2Si2 I4/mmm 139 K 3.85 3.85 mJ/mol.K2 6.1 SP 144 SP "Two-step process. firstly PdAs2 prepared by solisd state reaction. mixture(Ba,Pd,PdAs2) - alumina crucible - sealed in quartz tube - heat(900C,48h)" Strong-Coupling Superconductivity in BaPd2As2 Induced by Soft Phonons in the ThCr2Si2-Type Polymorph 2017 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 86(2017)063704"
157172 JPS086063704 not bulk SC.down to 1.8 K. Lattice paraeter not given BaPd2As2 Ba1Pd2As2 Ba 1 Pd 2 As 2 3 2017 AB2C2 CeMgSi2 P4/mmm 123 K 1.8 mJ/mol.K2 5.4 SP 259 SP "mixture(Ba,Pd,PdAs2) in alumina crucible - saled in quartz tube - heat(700 - 1150C) - Q to iced water" Strong-Coupling Superconductivity in BaPd2As2 Induced by Soft Phonons in the ThCr2Si2-Type Polymorph 2017 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 86(2017)063704"
157173 JPS086064710 P-induced SC. P = 11.7 GPa for Tc(on). Tc (DB) shows Tc(max) at P = 20.3 GPa. Tm in TCFIG shows R(T) anomaly due to reconstruction of magnetic order. CeAu2Si2 Ce1Au2Si2 Ce 1 Au 2 Si 2 3 2017 AB2C2 ThCr2Si2 I4/mmm K 2.24 2.54 0 2.24 MPH157173 T P = 13.0 GPa 3 MHC157173 uV/K MTP157173 Sn-flux method. Details in Phys.Rev.X4(2014)031055 High-Pressure Study of the Ground- and Superconducting-State Properties of CeAu2Si2 2017 "DQMP?University of Geneva, 1211 Geneva 4, Switzerland" "J.Phys.Soc.Jpn, 86(2017)064710"
157174 JPS086064710 Data shows for P = 18.3 GPa CeAu2Si2 (P=18.3GPa) Ce1Au2Si2 Ce 1 Au 2 Si 2 3 2017 AB2C2 ThCr2Si2 I4/mmm K 0 uV/K MTP157174 Sn-flux method. Details in Phys.Rev.X4(2014)031055 High-Pressure Study of the Ground- and Superconducting-State Properties of CeAu2Si2 2017 "DQMP?University of Geneva, 1211 Geneva 4, Switzerland" "J.Phys.Soc.Jpn, 86(2017)064710"
157175 JPS086064710 Data shows for P = 21.5 GPa CeAu2Si2 (P=21.5GPa) Ce1Au2Si2 Ce 1 Au 2 Si 2 3 2017 AB2C2 ThCr2Si2 I4/mmm K 0 uV/K MTP157175 Sn-flux method. Details in Phys.Rev.X4(2014)031055 High-Pressure Study of the Ground- and Superconducting-State Properties of CeAu2Si2 2017 "DQMP?University of Geneva, 1211 Geneva 4, Switzerland" "J.Phys.Soc.Jpn, 86(2017)064710"
157176 LES098L1 Tc = 3.7K(in DB) maybe due to beta-Sn (impurity phase) IrSn4 Ir1Sn4 Ir 1 Sn 4 1984 5.4 AB4 Aba2 A 6.274 6.337 11.352 PtSn4-type K 3.7 3.7 "mixture - compress - placed in graphite ampoule - heat (900 - 1100K, p = 6.0 GPa)" The new phases IrSn4 and RhGe4 formed by high pressure treatment 1984 "Institute of High Pressure Physics of the U.S.S.R. Academy of Sciences, 142092 Troitsk, Moscow Region (U.S.S.R.)" "J.Less-Common Metals, 98(1984)L1"
157177 LES098L1 RhGe4 Ge4Rh1 Ge 4 Rh 1 1984 7.5 AB4 A 6.19 7.802 "hexagonal, IrGe4-type" K 2.5 2.5 "mixture - compress - placed in graphite ampoule - heat( 1000 - 1300K, p = 2.5 GPa)" The new phases IrSn4 and RhGe4 formed by high pressure treatment 1984 "Institute of High Pressure Physics of the U.S.S.R. Academy of Sciences, 142092 Troitsk, Moscow Region (U.S.S.R.)" "J.Less-Common Metals, 98(1984)L1"
157178 MCP1940219 main phase: Nb2GeC(94 wt%). SP (beta) = 0.095 mJ/mol.K4. (dC/gamma*Tc) = 1.3 Nb2GeC Nb2Ge1C1 Nb 2 Ge 1 C 1 2017 ABC2 Cr2AlC P6<3>/mmc 194 A 3.23 12.54 K 8.8 10 10 10 80 T "RES(0.5Rn), WHH" 7.4 MHC157178 A from Hc2 66.7 mJ/mol.K2 3.89 SP 434 SP "graphite,Nb,Ge" "mixture - pellet - sealed in quartz ampoule - heat(1200C,300h in microwave furnace)" Superconducting evidence of a processed Nb2GeC compound under a microwave heating 2017 "School of Applied Sciences/FCA, Research Group in Manufacturing of Advanced Materials, University of Campinas, UNICAMP, Campus Limeira, 1300, Pedro Zaccaria St., 13484-350, Limeira, SP, Brazil" "Mat.Chem.Phys., 194(2017)219"
157179 MRB0201229 Si2Th Si2Th1 Si 2 Th 1 1 1985 AB2 alpha-ThSi2 A 4.127 14.194 K 3.16 3.16 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157180 MRB0201229 ThSi2-xCox Th1Si1.95Co0.05 Th 1 Si 1.95 Co 0.05 1 1985 AB2 alpha-ThSi2 A 4.119 14.121 K 2.38 2.38 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157181 MRB0201229 ThSi2-xCox Th1Si1.9Co0.1 Th 1 Si 1.9 Co 0.1 1 1985 AB2 alpha-ThSi2 A 4.107 14.061 K 2.18 2.18 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157182 MRB0201229 ThSi2-xCox Th1Si1.85Co0.15 Th 1 Si 1.85 Co 0.15 1 1985 AB2 alpha-ThSi2 A 4.114 14.019 K 1.7 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157183 MRB0201229 ThSi2-xCox Th1Si1.7Co0.3 Th 1 Si 1.7 Co 0.3 1 1985 AB2 alpha-ThSi2 A 4.117 14.976 K 1.7 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157184 MRB0201229 ThSi2-xCox Th1Si1.65Co0.35 Th 1 Si 1.65 Co 0.35 1 1985 AB2 alpha-ThSi2 A 4.11 13.999 K 1.7 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157185 MRB0201229 There exists trace of beta-Thsi2 ThSi2-xCox Th1Si1.6Co0.4 Th 1 Si 1.6 Co 0.4 1 1985 AB2 alpha-ThSi2 A 4.091 13.985 K 1.7 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157186 MRB0201229 Two phases: alpha- and beta-ThSi2 ThSi2-xCox Th1Si1.58Co0.42 Th 1 Si 1.58 Co 0.42 1 1985 AB2 alpha-ThSi2 A 4.204 14.003 "alpha- and beta-ThSi2(a=4.031, c=4.200)" K 1.7 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157187 MRB0201229 There exists trace of alpha-Thsi2 ThSi2-xCox Th1Si1.55Co0.45 Th 1 Si 1.55 Co 0.45 1 1985 AB2 beta-ThSi2 A 4.03 4.197 K 1.7 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157188 MRB0201229 Broad SC transition around 2 K. ThSi2-xCox Th1Si1.5Co0.5 Th 1 Si 1.5 Co 0.5 1 1985 AB2 beta-ThSi2 A 4.043 4.189 K 2 2 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157189 MRB0201229 ThSi2-xCox Th1Si1.45Co0.55 Th 1 Si 1.45 Co 0.55 1 1985 AB2 beta-ThSi2 A 4.05 4.162 K 1.7 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157190 MRB0201229 ThSi2-xCox Th1Si1.35Co0.65 Th 1 Si 1.35 Co 0.65 1 1985 AB2 beta-ThSi2 A 4.056 4.136 K 1.7 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157191 MRB0201229 Two phases: alpha- and beta-ThSi2 ThSi2-xCox Th1Si1.3Co0.7 Th 1 Si 1.3 Co 0.7 1 1985 AB2 beta-ThSi2 A 4.068 14.091 "alpha- and beta-ThSi2(a=4.070, c=4.100)" K 1.7 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157192 MRB0201229 There exists trace of beta-Thsi2 ThSi2-xCox Th1Si1.25Co0.75 Th 1 Si 1.25 Co 0.75 1 1985 AB2 alpha-ThSi2 A 4.074 14.094 K 1.7 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157193 MRB0201229 There exists trace of beta-Thsi2 ThSi2-xCox Th1Si1.2Co0.8 Th 1 Si 1.2 Co 0.8 1 1985 AB2 alpha-ThSi2 A 4.078 14.119 K 1.7 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157194 MRB0201229 There exists trace of beta-Thsi2 ThSi2-xCox Th1Si1.15Co0.85 Th 1 Si 1.15 Co 0.85 1 1985 AB2 alpha-ThSi2 A 4.078 14.122 K 1.7 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157195 MRB0201229 ThSi2-xCox Th1Si1.075Co0.925 Th 1 Si 1.075 Co 0.925 1 1985 AB2 alpha-ThSi2 A 4.084 14.133 K 2.7 1.7 2.7 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157196 MRB0201229 ThCoSi Th1Si1Co1 Th 1 Si 1 Co 1 1 1985 ABC alpha-ThSi2 A 4.077 14.115 K 2.84 1.7 2.84 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157197 MRB0201229 ThSi2-xRhx Th1Rh0.96Si1.04 Th 1 Rh 0.96 Si 1.04 1 1985 ABC A 4.129 14.28 K 6.45 6.45 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157198 MRB0201229 ThIrSi Th1Ir1Si1 Th 1 Ir 1 Si 1 1 1985 ABC A 4.143 14.27 K 6.5 6.5 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157199 MRB0201229 ThNiSi Th1Ni1Si1 Th 1 Ni 1 Si 1 1 1985 ABC A 4.073 14.099 K 2 2 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157200 MRB0201229 ThPtSi Th1Pt1Si1 Th 1 Pt 1 Si 1 1 1985 ABC A 4.154 14.582 K 2.98 2.98 "arc-melting using tri-arc furnace. ANN(950C, 8 days)" "Structural and Electrical Properties of Silisides: ThCoxSi2-x (0 =< x =<1) and ThTSi (T = Ni, Pt)" 1985 "Laboratoire de Chemie du Solide du C.N.R..S. 351cours de la Liberation, 33405 Talence cedex, France" "Mat.Res.Bull., 20(1985)1229"
157201 NATCOM0067805 P-induced SC. SC appears Tc(on) = 3.1K at P=2.5 GPa. Tc(max) = 7 K (in DB) at P=16.8 GPa. Hc2 measured at P = 24.6 GPa. TCFIG for three runs for different samples. WTe2 Te2W1 Te 2 W 1 3 2015 AB2 Pnm2<1> A 3.53 6.201 14.015 K 7 1.8 7 MTC157201 T "RES(on), WHH" 2.72 MHC157201 "CVT method. (W & Te powder, TeBr4 as a transport agent) - quartz tube (800C(H) and 700C(L) zone, for 8 days)" Pressure-driven dome-shaped superconductivity and electronic structural evolution in tungsten ditelluride 2015 "National Laboratory of Solid State Microstructures, College of Physics, Nanjing University, Nanjing 210093, China" "Nat.Cmmun., 6(2015)7805"
157202 NATCOM0067804 P-induced SC. P = 10.8 GPa where Tc = 2.8 K. LMR(large magnetoresistance) below T*. Tc(max) = 6.5 K (in DB) at 13.0 GPa. Hc2(0) in Fig from GL fitting. WTe2 Te2W1 Te 2 W 1 3 2015 AB2 A 3.5965 6.0401 13.6948 P = 0.8 GPa from Fig of T-dependence of lattice const. K 6.5 0 6.5 MTC157202 T "RES(on), GL-fitting, P=13.7 GPa" 1.86 MHC157202 cm3/C MRH157202 "W(3N),Te(5N)" "mixture(W + excess Te) - alumina ampoule - sealed in quartz tube - heat to 1000C(100C/h) - keep(1000C,5h) - cool to 800C(1C/h) - cool to 700C(5C/h)" Superconductivity emerging from a suppressed large magnetoresistant state in tungsten ditelluride 2015 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Nat.Cmmun., 6(2015)7804"
157203 NATCOM00711038 "RRR = 36. Phase transition, monoclinic 1T' to ortho-Td phase at 250 K. Tc(on) = 0.25 k for Td-phase." MoTe2 Mo1Te2 Mo 1 Te 2 3 2016 AB2 P2<1>/m A 6.32 3.469 13.86 "1T'- MoTe2 phase at RT, beta = 93.91. phase transition to Td-phase around 250 K" K 0.1 0.25 0.175 MTC157203 "Mo(4N),Te(4N)" CVT method. (Mo & Te pellet + TeCl4 as transport agent) - quartz tube - two zone furnace (1000C(H) and 900C(L)) Superconductivity in Weyl semimetal candidate MoTe2 2016 "Max Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Nat.Cmmun., 7(2016)11038"
157204 NATCOM00711038 P = 1.1 GPa. no structural transition. MoTe2 Mo1Te2 Mo 1 Te 2 3 2016 AB2 K 6.1 6.1 T "RES(0.9Rn), GL fitting" 1.67 MHC157204 "Mo(4N),Te(4N)" CVT method. (Mo & Te pellet + TeCl4 as transport agent) - quartz tube - two zone furnace (1000C(H) and 900C(L)) Superconductivity in Weyl semimetal candidate MoTe2 2016 "Max Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Nat.Cmmun., 7(2016)11038"
157205 NATCOM00711038 P = 11.7 GPa. no structural transition. MoTe2 Mo1Te2 Mo 1 Te 2 3 2016 AB2 K 8.1 8.1 T "RES(0.9Rn), GL fitting" 4 MHC157205 "Mo(4N),Te(4N)" CVT method. (Mo & Te pellet + TeCl4 as transport agent) - quartz tube - two zone furnace (1000C(H) and 900C(L)) Superconductivity in Weyl semimetal candidate MoTe2 2016 "Max Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Nat.Cmmun., 7(2016)11038"
157206 NATM0141008 P-induced SC. P = 10 GPa. Tc(max) = 17 K (in DB) at 13.5 GPa. (dTc/dH) = -3.8 K/T at 11.5 GPa. BaFe2S3 Ba1Fe2S3 Ba 1 Fe 2 S 3 3 2015 myu-B/Fe 1.2 119 AB2C3 ladder type K 17 0 17 MTC157206 "solid state reaction. mixture(various nominal compositions) - carbon crucible - in quartz tube - heat(1100C, 40h) - slow cool to 750C over 24h." Pressure-induced superconductivity in the iron-based ladder material BaFe2S3 2015 "College of Humanities & Sciences, Nihon University, Sakurajosui, Setagaya-ku, Tokyo 156-8550, Japan" "Nat.Mater., 14(2015)1008"
157207 NJP015053005 RRR = 26. Tc(SP) = 2.75 K. Hc2(0) = 0.48 T from SP measurements. Two-gap model (d1 - 2.0 and d2 = 1.2Tc) is better from [penet] and SP data. LaNiC2 La1Ni1C2 La 1 Ni 1 C 2 1 2013 ABC2 3 CeNiC2 Amm2 38 A 3.9599 4.5636 6.2031 "At 8K, beta-SrRh2As2(Fmmm)" K 3.5 2.95 3.5 T "RES, extrapolation" 1.67 MHC157207 A TDO measurement 3940 4 MSP157207 mJ/mol.K2 7.7 SP 450 SP uOhm.cm 6 121 "La(3N),Ni(2N),graphite(3N)" "arc-melting several times - ANN(1050C, 7days, insealed quartz tube(vac) - Q to RT" Evidence for two-gap superconductivity in the non-centrosymmetric compound LaNiC2 2013 "Department of Physics and Center for Correlated Matter, Zhejiang University, Hangzhou, Zhejiang 310027, People's Republic of China" "New J.Phys., 15(2013)053005"
157208 PRB0586287 not SC. RRR = 13.8. Curie-Weiss for 120mc A 7.4629 4.7141 hexagonal K 3.3 3.3 0.3 3.3 Oe M-H curve 90 T RES(zero) 1.1 T/K RES(zero) 0.277 MHC157209 A from Hc2 172 A carrier density 2140 meV 0.5 3.6 14 MSP157209 mJ/mol.K2 80.15 SP 470.175 SP uOhm.cm 9 m3/C 4.47E-10 9 "Ru(3N), B(3N5)" "Solid state reaction. mixture - pellet - wrapped with Ta-foil - sealed in silicon tube(95%Ar, 5%H2) - heat to 1000C(100C/h) - SIN(100h) - FC to RT." Physical properties of the noncentrosymmetric superconductor Ru7B3 2009 "National Laboratory for Superconductivity, Institute of Physics and National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, P.O. Box 603, Beijing 100190, People's Republic of China" "Phys.Rev.B, 79(2009)144509"
157210 PRB088094510 T = Tn = 136.6 K. Tn defined by NED and peak of (dM/dT). "(Ba,Na)Fe2As2" Ba0.9Na0.1Fe2As2 Ba 0.9 Na 0.1 Fe 2 As 2 1 2013 myu-B/f.u 0.73 137 AB2C2 ThCr2Si2 I4/mmm A 3.9417 13.0563 "At 8K, beta-SrRh2As2(Fmmm), a=5.58558, b=5.5454, c=12.9669" K "Ba,Na,FeAs" "mixture - in alumina tube - sealed in Nb tube(Ar) - quartz tube(vac) - heat(850C,1d) - ground to powder - heat(850C,3d)" "Structural, magnetic, and superconducting properties of Ba1-xNaxFe2As2" 2013 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 88(2013)094510"
157211 PRB088094510 T = Tn = 128.1 K. Tn defined by NED and peak of (dM/dT). "(Ba,Na)Fe2As2" Ba0.85Na0.15Fe2As2 Ba 0.85 Na 0.15 Fe 2 As 2 1 2013 myu-B/f.u 0.728 128 AB2C2 ThCr2Si2 I4/mmm A 3.9378 13.0759 "At 8K, beta-SrRh2As2(Fmmm), a=5.5793, c=5.5397, c=12.9773" K 1.4 1.4 "Ba,Na,FeAs" "mixture - in alumina tube - sealed in Nb tube(Ar) - quartz tube(vac) - heat(850C,1d) - ground to powder - heat(850C,3d)" "Structural, magnetic, and superconducting properties of Ba1-xNaxFe2As2" 2013 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 88(2013)094510"
157212 PRB088094510 T = Tn = 107.0 K. Tn defined by NED and peak of (dM/dT). "(Ba,Na)Fe2As2" Ba0.8Na0.2Fe2As2 Ba 0.8 Na 0.2 Fe 2 As 2 1 2013 myu-B/f.u 0.669 107 AB2C2 ThCr2Si2 I4/mmm A 3.9262 13.0988 "At 8K, beta-SrRh2As2(Fmmm), a=5.5611, b=5.5302, c=12.9838" K 15.2 15.2 "Ba,Na,FeAs" "mixture - in alumina tube - sealed in Nb tube(Ar) - quartz tube(vac) - heat(850C,1d) - ground to powder - heat(850C,3d)" "Structural, magnetic, and superconducting properties of Ba1-xNaxFe2As2" 2013 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 88(2013)094510"
157213 PRB088094510 "(Ba,Na)Fe2As2" Ba0.7Na0.3Fe2As2 Ba 0.7 Na 0.3 Fe 2 As 2 1 2013 AB2C2 ThCr2Si2 I4/mmm A 3.9108 13.1222 "At 8K, ThCr2Si2(I4/mmm, a=3.9031, c=13.0126" K 25.8 25.8 "Ba,Na,FeAs" "mixture - in alumina tube - sealed in Nb tube(Ar) - quartz tube(vac) - heat(850C,1d) - ground to powder - heat(850C,3d)" "Structural, magnetic, and superconducting properties of Ba1-xNaxFe2As2" 2013 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 88(2013)094510"
157214 PRB088094510 "(Ba,Na)Fe2As2" Ba0.6Na0.4Fe2As2 Ba 0.6 Na 0.4 Fe 2 As 2 1 2013 AB2C2 ThCr2Si2 I4/mmm A 3.8959 13.1313 "At 8K, ThCr2Si2(I4/mmm, a=3.8867, c=13.0282" K 34.2 34.2 MTC157214 "Ba,Na,FeAs" "mixture - in alumina tube - sealed in Nb tube(Ar) - quartz tube(vac) - heat(850C,1d) - ground to powder - heat(850C,3d)" "Structural, magnetic, and superconducting properties of Ba1-xNaxFe2As2" 2013 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 88(2013)094510"
157215 PRB088094510 "(Ba,Na)Fe2As2" Ba0.5Na0.5Fe2As2 Ba 0.5 Na 0.5 Fe 2 As 2 1 2013 AB2C2 ThCr2Si2 I4/mmm A 3.8809 13.1208 "At 8K, ThCr2Si2(I4/mmm, a=3.8692, c=13.0171" K 33.2 33.2 "Ba,Na,FeAs" "mixture - in alumina tube - sealed in Nb tube(Ar) - quartz tube(vac) - heat(850C,1d) - ground to powder - heat(850C,3d)" "Structural, magnetic, and superconducting properties of Ba1-xNaxFe2As2" 2013 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 88(2013)094510"
157216 PRB088094510 "(Ba,Na)Fe2As2" Ba0.4Na0.6Fe2As2 Ba 0.4 Na 0.6 Fe 2 As 2 1 2013 AB2C2 ThCr2Si2 I4/mmm A 3.8649 13.0893 "At 8K, ThCr2Si2(I4/mmm, a=3.8533, c=12.9791" K 28.7 28.7 "Ba,Na,FeAs" "mixture - in alumina tube - sealed in Nb tube(Ar) - quartz tube(vac) - heat(850C,1d) - ground to powder - heat(850C,3d)" "Structural, magnetic, and superconducting properties of Ba1-xNaxFe2As2" 2013 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 88(2013)094510"
157217 PRB088094510 "(Ba,Na)Fe2As2" Ba0.3Na0.7Fe2As2 Ba 0.3 Na 0.7 Fe 2 As 2 1 2013 AB2C2 ThCr2Si2 I4/mmm A 3.8515 13.0244 "At 8K, ThCr2Si2(I4/mmm, a=3.8361, c=12.9217" K 24 24 "Ba,Na,FeAs" "mixture - in alumina tube - sealed in Nb tube(Ar) - quartz tube(vac) - heat(850C,1d) - ground to powder - heat(850C,3d)" "Structural, magnetic, and superconducting properties of Ba1-xNaxFe2As2" 2013 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 88(2013)094510"
157218 PRB088094510 "(Ba,Na)Fe2As2" Ba0.2Na0.8Fe2As2 Ba 0.2 Na 0.8 Fe 2 As 2 1 2013 AB2C2 ThCr2Si2 I4/mmm A K 18.6 18.6 "Ba,Na,FeAs" "mixture - in alumina tube - sealed in Nb tube(Ar) - quartz tube(vac) - heat(850C,1d) - ground to powder - heat(850C,3d)" "Structural, magnetic, and superconducting properties of Ba1-xNaxFe2As2" 2013 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439-4845, USA" "Phys.Rev.B, 88(2013)094510"
157219 PRB088094516 NaFeAs Na1Fe1As1 Na 1 Fe 1 As 1 3 2013 ABC K 9.6 9.6 m3/C MRH157219 "NaAs,Fe,Cu" "NaAs-flux method. mixture(NaAs:Fe:Cu = 4:(1-x):x) - wrapped in alumina crucible - sealed in Fe crucible(ar) - heat(950 C,10h) - cool to 600 C(3C/h)" Phase diagram and physical properties of NaFe1-xCuxAs single crystals 2013 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 88(2013)094516"
157220 PRB088094516 Anisotropy (Hc2) = 1.88 "Na(Fe,Cu)As" Na1Fe0.994Cu0.006As1 Na 1 Fe 0.994 Cu 0.006 As 1 3 2013 ABC K 10.2 10.2 MTC157220 T "RES(off), WHH" 30 16 T/K RES(off) 4.23 2.24 MRH157220 "NaAs,Fe,Cu" "NaAs-flux method. mixture(NaAs:Fe:Cu = 4:(1-x):x) - wrapped in alumina crucible - sealed in Fe crucible(ar) - heat(950 C,10h) - cool to 600 C(3C/h)" Phase diagram and physical properties of NaFe1-xCuxAs single crystals 2013 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 88(2013)094516"
157221 PRB088094516 "Anisotropy (Hc2) = 2.22. SP (beta) = 0.238 mJ/mol.K4, (delta) = -5.0E-5 mJ/mol.K6, (dC/Tc) = 9.85. (dC/gamma*Tc) = 1.32." "Na(Fe,Cu)As" Na1Fe0.981Cu0.019As1 Na 1 Fe 0.981 Cu 0.019 As 1 3 2013 ABC K 11.5 11.5 MTC157221 T "RES(off), WHH" 49 22 T/K RES(off) 6.33 2.55 mJ/mol.K2 7.44 SP 290 SP MRH157221 "NaAs,Fe,Cu" "NaAs-flux method. mixture(NaAs:Fe:Cu = 4:(1-x):x) - wrapped in alumina crucible - sealed in Fe crucible(ar) - heat(950 C,10h) - cool to 600 C(3C/h)" Phase diagram and physical properties of NaFe1-xCuxAs single crystals 2013 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 88(2013)094516"
157222 PRB088094516 "Na(Fe,Cu)As" Na1Fe0.963Cu0.037As1 Na 1 Fe 0.963 Cu 0.037 As 1 3 2013 ABC K 2.6 2.6 MTC157222 MRH157222 "NaAs,Fe,Cu" "NaAs-flux method. mixture(NaAs:Fe:Cu = 4:(1-x):x) - wrapped in alumina crucible - sealed in Fe crucible(ar) - heat(950 C,10h) - cool to 600 C(3C/h)" Phase diagram and physical properties of NaFe1-xCuxAs single crystals 2013 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 88(2013)094516"
157223 PRB088094516 "Na(Fe,Cu)As" Na1Fe0.976Cu0.024As1 Na 1 Fe 0.976 Cu 0.024 As 1 3 2013 ABC K 11.1 11.1 MPH157223 "NaAs,Fe,Cu" "NaAs-flux method. mixture(NaAs:Fe:Cu = 4:(1-x):x) - wrapped in alumina crucible - sealed in Fe crucible(ar) - heat(950 C,10h) - cool to 600 C(3C/h)" Phase diagram and physical properties of NaFe1-xCuxAs single crystals 2013 "Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, People's Republic of China" "Phys.Rev.B, 88(2013)094516"
157224 PRB091060503 "SP (delta) = 0.32 mJ/mol.K6. (dC/gamma*Tc) = 2.06. Energy gap measured by muon-SR (in DB). (2d/kTc) = 4.26 from SP analysis. From muon-SR, m* = 1.32m, n = 2.6E+28 /m3." Lu5Rh6Sn18 Lu5Rh6Sn18 Lu 5 Rh 6 Sn 18 3 2015 A5B6C18 2 I4<1>/acd K 4 4 53 Oe 20 meV 0.75 4.4 16 mJ/mol.K 397 mJ/mol.K2 48.1 SP 152 SP "Sn-flux method. nominal composition (Lu:Rh:Sn = 1:2:20). See Solid State Commun., 34(1980)923" Broken time-reversal symmetry probed by muon spin relaxation in the caged type superconductor Lu5Rh6Sn18 2015 "ISIS Facility, Rutherford Appleton Laboratory, Chilton, Didcot Oxon OX11 0QX, United Kingdom" "Phys.Rev.B, 91(2015)060503"
157225 PNAS1132904 P-induced SC. SC-1 for P > Pc=6.7 GPa. Data for P = 14.6 GPa. R-anomaly at 128 K (P=0) where phase transition to C2/m. ZrTe5 Te5Zr1 Te 5 Zr 1 3 2016 AB5 C2/m Low temperature phase K 4 4 MTC157225 T "RES(0.9Rn), WHH" 1.54 MHC157225 "Zr(4N),Te(4N)" Crystals grown by vapor transport method in two zone furnace using iodine as a transport agent Pressure-induced superconductivity in a three-dimensional topological material ZrTe5 2016 "High Magnetic Field Laboratory, Chinese Academy of Sciences, Hefei 230031, China" "Proc.Natl,Acad.Sci.USA, 113(2016)2904"
157226 PNAS1132904 "P-induced SC. Two SC phases, SC-1(for P > 6.7 GPa) and Sc2 ( for P > 21.2 GPa. SC-data for P = 30.0 GPa. no phase transition. SC-2 shows no zero resistivity at 1.8 K. maybe topological surface SC" ZrTe5 Te5Zr1 Te 5 Zr 1 3 2016 AB5 P-1 Low temperature phase K 6 6 MTC157225 T "RES(0.9Rn), WHH" 0.46 MHC157226 "Zr(4N),Te(4N)" Crystals grown by vapor transport method in two zone furnace using iodine as a transport agent Pressure-induced superconductivity in a three-dimensional topological material ZrTe5 2016 "High Magnetic Field Laboratory, Chinese Academy of Sciences, Hefei 230031, China" "Proc.Natl,Acad.Sci.USA, 113(2016)2904"
157227 PRB093100504 "Space-G = P6<3>mc for RT, P=0. normal state: Insulator, semiconductor for P < 5 GPa. SC data for P = 24.1GPa. Hall const. at 10 K." BiTeCl Bi1Te1Cl1 Bi 1 Te 1 Cl 1 3 2016 ABC Pnma normal state STR from Raman K 6.93 6.93 MTC157227 T "RES(0.9Rn), WHH" 8 MHC157227 mm3/C -94.3 MRH157227 "Crystals grown by self-flux method. See New J. Phys., 15(2013)085022" Realization of insulating state and superconductivity in the Rashba semiconductor BiTeCl 2016 "Center for High Pressure Science and Technology Advanced Research, Shanghai 201203, China" "Phys.Rev.B, 93(2016)100504"
157228 PRB093100504 Normal state: metallic. SC data for P = 50.1 GPa. Hall const. at 10K. BiTeCl Bi1Te1Cl1 Bi 1 Te 1 Cl 1 3 2016 ABC cubic from Raman K 4.52 4.52 MTC157227 T "RES(0.9Rn), WHH" 3.5 MHC157227 mm3/C -0.3 MRH157227 "Crystals grown by self-flux method. See New J. Phys., 15(2013)085022" Realization of insulating state and superconductivity in the Rashba semiconductor BiTeCl 2016 "Center for High Pressure Science and Technology Advanced Research, Shanghai 201203, China" "Phys.Rev.B, 93(2016)100504"
157229 PRB092064507 T = 53 K from C(T) measurement. Mo3Sb7 Mo3Sb7 Mo 3 Sb 7 3 2015 A3B7 K 2.35 2.35 2.35 "Sb-flux method. (Te or Ru-doped sample):Sb = 1:49, crystals separated from residual flux after decanting at 700 C" Fragile structural transition in Mo3Sb7 2015 "Materials Science and Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 92(2015)064507"
157230 PRB092064507 Te-content = nominal. no structural transition "Mo3(Sb,Te)7" Mo3Sb6.975Te0.025 Mo 3 Sb 6.975 Te 0.025 3 2015 A3B7 K 2.05 2.05 2.05 "Sb-flux method. (Te or Ru-doped sample):Sb = 1:49, crystals separated from residual flux after decanting at 700 C" Fragile structural transition in Mo3Sb7 2015 "Materials Science and Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 92(2015)064507"
157231 PRB092064507 Ru-content by EDX. no structural transition "(Mo,Ru)3Sb7" Mo2.91Ru0.09Sb7 Mo 2.91 Ru 0.09 Sb 7 3 2015 A3B7 K 2.15 2.15 2.15 "Sb-flux method. (Te or Ru-doped sample):Sb = 1:49, crystals separated from residual flux after decanting at 700 C" Fragile structural transition in Mo3Sb7 2015 "Materials Science and Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 92(2015)064507"
157232 PRB092064507 T = 48 K from C(T) measurement. SUS shows Curie-Weiss law for T < 40 K. Effective moment = 1.1 myu-B/Cr. "(Mo,Cr)3Sb7" Mo2.9Co0.1Sb7 Mo 2.9 Co 0.1 Sb 7 3 2015 A3B7 K 1.8 "Sb-flux method. (Te or Ru-doped sample):Sb = 1:49, crystals separated from residual flux after decanting at 700 C" Fragile structural transition in Mo3Sb7 2015 "Materials Science and Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev.B, 92(2015)064507"
157233 PRB095094505 not SC. SUS and R(T) shows SC-transition due to impurity phase (0.5 % ZrB12) at 5.5 K. ZrB2 B2Zr1 B 2 Zr 1 1 2017 AB2 AlB2 K 2 Doping-induced superconductivity of ZrB2 and HfB2 2017 "Laboratorium fur Festkorperphysik, ETH Zurich, CH-8093, Zurich, Switzerland" "Phys.Rev.B, 95(2017)094505"
157234 PRB095094505 not SC. HfB2 B2Hf1 B 2 Hf 1 1 2017 AB2 AlB2 K 2 Doping-induced superconductivity of ZrB2 and HfB2 2017 "Laboratorium fur Festkorperphysik, ETH Zurich, CH-8093, Zurich, Switzerland" "Phys.Rev.B, 95(2017)094505"
157235 PRB095094505 GL(kappa) = 125 "(Zr,V)B2" Zr0.96V0.04B2 Zr 0.96 V 0.04 B 2 1 2017 AB2 AlB2 K 8.33 8.33 mT H-V curve 2.5 T "RES, WHH" 16.4 MHC157235 A from Hc2 45 A from GL(kappa) 5700 uOhm.cm 0.7 Doping-induced superconductivity of ZrB2 and HfB2 2017 "Laboratorium fur Festkorperphysik, ETH Zurich, CH-8093, Zurich, Switzerland" "Phys.Rev.B, 95(2017)094505"
157236 PRB095094505 GL(kappa) = 80 "(Hf,V)B2" Hf0.97V0.03B2 Hf 0.97 V 0.03 B 2 1 2017 AB2 AlB2 K 7.31 7.31 mT H-V curve 3.6 T "RES, WHH" 10.8 MHC157236 A from Hc2 55 A from GL(kappa) 4450 uOhm.cm 0.8 Doping-induced superconductivity of ZrB2 and HfB2 2017 "Laboratorium fur Festkorperphysik, ETH Zurich, CH-8093, Zurich, Switzerland" "Phys.Rev.B, 95(2017)094505"
157237 PRB095094510 "Energy gap measured by optical conductivity. Two gaps: large gap in DB. small gap d2=4.9 meV, (2d2/kTc) = 3.6." (C8.5La1.5)(Pt3As8)(Fe2As2)5 Ca8.5La1.5Pt3Fe10As18 Ca 8.5 La 1.5 Pt 3 Fe 10 As 18 2017 Ca-10-3-8 K 32.8 35.2 34 meV 14.2 10.2 15 "CaAs,LaAs,FeAs" Bridgman method with a Mo-crucible at 1250 C Optical properties of optimally doped single-crystal Ca8.5La1.5(Pt3As8)(Fe2As2)5 2017 "Department of Emerging Materials Science, Daegu Gyeongbuk Institute of Science and Technology (DGIST), Daegu 711-873, Republic of Korea" "Phys.Rev.B, 95(2017)094510"
157238 PRB095100501 RRR = 60. T = 250 K where (P2<1>/m)1T' phase to (Pnm2<1> Td phase transition. Pc (T = 0) = 0.75 GPa. (dTc/dP) = 4 K/GPa near Pc MoTe2 Mo1Te2 Mo 1 Te 2 3 2017 AB2 P2<1>/m to Pnm2<1> Td transition at 250 K K 0.1 0.1 MTC157238 single crystals grown by chemical vapor transport method (CVT) Anticorrelation between polar lattice instability and superconductivity in the Weyl semimetal candidate MoTe2 2017 "Department of Applied Physics and Quantum Phase Electronics Center (QPEC), University of Tokyo, Tokyo 113-8656, Japan" "Phys.Rev.B, 95(2017)100501"
157239 PRB095100501 SP (beta) = 0.923 mJ/mol.K4 MoTe2 Mo1Te2 Mo 1 Te 2 1 2017 AB2 LT phase = Td(polar) K 0.3 0.3 mJ/mol.K2 3.7 SP 180 SP uV/K 34.4 MTP157239 solid state reaction in evacuated quartz tube Anticorrelation between polar lattice instability and superconductivity in the Weyl semimetal candidate MoTe2 2017 "Department of Applied Physics and Quantum Phase Electronics Center (QPEC), University of Tokyo, Tokyo 113-8656, Japan" "Phys.Rev.B, 95(2017)100501"
157240 PRB095100501 "Mo(Te,Se)2" Mo1Te1.94Se0.06 Mo 1 Te 1.94 Se 0.06 1 2017 AB2 LT phase = Td(polar) K 0.46 0.46 uV/K 24.4 solid state reaction in evacuated quartz tube Anticorrelation between polar lattice instability and superconductivity in the Weyl semimetal candidate MoTe2 2017 "Department of Applied Physics and Quantum Phase Electronics Center (QPEC), University of Tokyo, Tokyo 113-8656, Japan" "Phys.Rev.B, 95(2017)100501"
157241 PRB095100501 "Mo(Te,Se)2" Mo1Te1.9Se0.1 Mo 1 Te 1.9 Se 0.1 1 2017 AB2 LT phase = Td(polar) K 0.49 0.49 uV/K 26.6 solid state reaction in evacuated quartz tube Anticorrelation between polar lattice instability and superconductivity in the Weyl semimetal candidate MoTe2 2017 "Department of Applied Physics and Quantum Phase Electronics Center (QPEC), University of Tokyo, Tokyo 113-8656, Japan" "Phys.Rev.B, 95(2017)100501"
157242 PRB095100501 "Mo(Te,Se)2" Mo1Te1.8Se0.2 Mo 1 Te 1.8 Se 0.2 1 2017 AB2 1T'(nonpolar) phase K 1.12 1.12 MTC157242 uV/K 23.4 solid state reaction in evacuated quartz tube Anticorrelation between polar lattice instability and superconductivity in the Weyl semimetal candidate MoTe2 2017 "Department of Applied Physics and Quantum Phase Electronics Center (QPEC), University of Tokyo, Tokyo 113-8656, Japan" "Phys.Rev.B, 95(2017)100501"
157243 PRB095100501 "Mo(Te,Se)2" Mo1Te1.7Se0.3 Mo 1 Te 1.7 Se 0.3 1 2017 AB2 1T'(nonpolar) phase K 1.91 1.91 uV/K 12.8 solid state reaction in evacuated quartz tube Anticorrelation between polar lattice instability and superconductivity in the Weyl semimetal candidate MoTe2 2017 "Department of Applied Physics and Quantum Phase Electronics Center (QPEC), University of Tokyo, Tokyo 113-8656, Japan" "Phys.Rev.B, 95(2017)100501"
157244 PRB095100501 SP (beta) = 0.923 mJ/mol.K4 "Mo(Te,Se)2" Mo1Te1.6Se0.4 Mo 1 Te 1.6 Se 0.4 1 2017 AB2 1T'(nonpolar) phase K 2.14 2.14 T RES(zero) MHC157244 mJ/mol.K2 3.7 SP 180 SP uV/K 7.98 MTP157244 solid state reaction in evacuated quartz tube Anticorrelation between polar lattice instability and superconductivity in the Weyl semimetal candidate MoTe2 2017 "Department of Applied Physics and Quantum Phase Electronics Center (QPEC), University of Tokyo, Tokyo 113-8656, Japan" "Phys.Rev.B, 95(2017)100501"
157245 PRB095100502 "RRR = 15. energy gap measured by tunneling. Two gaps , large 5.70 meV (DB) and small 1.97 meV obtained from superfluid density analysis with penet = 239 nm." CaKFe4As4 Ca1K1Fe4As4 Ca 1 K 1 Fe 4 As 4 3 2017 ABC4D4 CaRb1144 K 35.8 35.8 A 2390 meV 5.7 3.76 1 FeAs-flux method Nodeless multiband superconductivity in stoichiometric single-crystalline CaKFe4As4 2017 "Ames Laboratory, Ames and Department of Physics & Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 95(2017)100502"
157246 PRB095100502 [penet] is average of two values obtained from Hc2 and Hc1 CaKFe4As4 Ca1K1Fe4As4 Ca 1 K 1 Fe 4 As 4 3 2017 ABC4D4 CaRb1144 K 35.8 35.8 T 71 A 21.5 A average 1330 FeAs-flux method Nodeless multiband superconductivity in stoichiometric single-crystalline CaKFe4As4 2017 "Ames Laboratory, Ames and Department of Physics & Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 95(2017)100502"
157247 PRB095115151 "RRR=40. Tc, Hc2, T measured by thermal expansion . Fig, shows Hc2-anisotropy. TCFIG shows pressure effect." UCoGe U1Co1Ge1 U 1 Co 1 Ge 1 3 2017 ABC TiNiSi Pnma K 0.53 0.53 T thermal expansion MHC157247 Tetra-arc furnace using Czochoralski method Superconducting and ferromagnetic phase diagram of UCoGe probed by thermal expansion 2017 "Van der Waals?Zeeman Institute, University of Amsterdam, Science Park 904, NL-1098 XH Amsterdam, The Netherlands" "Phys.Rev.B, 95(2017)115151"
157248 PRB095115151 "RRR=40. Tc, Hc2, T measured by thermal expansion . Fig, shows Hc2- and T-anisotropy." UCoGe U1Co1Ge1 U 1 Co 1 Ge 1 3 2017 ABC TiNiSi Pnma K 0.53 0.53 MTC157248 T thermal expansion MHC157248 Tetra-arc furnace using Czochoralski method Superconducting and ferromagnetic phase diagram of UCoGe probed by thermal expansion 2017 "Van der Waals?Zeeman Institute, University of Amsterdam, Science Park 904, NL-1098 XH Amsterdam, The Netherlands" "Phys.Rev.B, 95(2017)115151"
157249 PRB095125102 T = 53 K.(cubic to tetra). Two SC phases for 10.4 < P < 12.5 GPa by ac-SUS. (dT/dP) = 2.5 K/GPa. Curie-Weiss for 230mc A 10.2376 6.4692 K 2.25 2.25 nm "muon-SR, s-wave fitting" 482 meV 0.369 3.81 16 mJ/mol.K2 47 SP "La(3N),Ir(4N)" "arc melting. For muon-SR, sample was ground to powder in high purity Ar - sealed in evacuated quartz tube" Unconventional Superconductivity in La7Ir3 Revealed by Muon Spin Relaxation: Introducing a New Family of Noncentrosymmetric Superconductor That Breaks Time-Reversal Symmetry 2015 "Physics Department, University of Warwick, Coventry CV4 7AL, United Kingdom" "Phys.Rev.Lett., 115(2015)267001"
157253 PRL117277001 "SC gap: (gap(meV), gap size) = (10.5, 7.4), (13, 9.1), (8, 5.6), (12, 8.4) for alpha-sheet, beta-hole, gamma-sheet, delta-sheet in Fermi surface, respectively. Largest (beta) in DB" CaKFe4As4 Ca1K1Fe4As4 Ca 1 K 1 Fe 4 As 4 3 2016 ABC4D4 CaRb1144 K 35 35 meV 13 9.1 16 flux method Enhancement of the Superconducting Gap by Nesting in CaKFe4As4: A New High Temperature Superconductor 2016 "Division of Materials Science and Engineering, Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.Lett., 117(2016)277001"
157254 PRL118107002 "T = 177K. Strain induced by gluind to glass substrate. The strain size not clear (See text). For strain free sample, T = 166 K." CaFe2As2 Ca1Fe2As2 Ca 1 Fe 2 As 2 2017 AB2C2 ThCr2Si2 K 0 "FeAs flux method. ANN(400C). To create strain, samples were glued with epoxy to thin(160 um) borosilicate glass" Effect of Biaxial Strain on the Phase Transitions of CadFe1-xCoxT2As2 2017 "Ames Laboratory, US DOE, Ames, Iowa 50011, USA" "Phys.Rev.Lett., 118(2017)107002"
157255 PRL118107002 "T = 123 K. Strain induced by gluind to glass substrate. The strain size not clear (See text). For strain free sample, T = 76.6 K." "Ca(Fe,Co)2As2" Ca1Fe1.948Co0.052As2 Ca 1 Fe 1.948 Co 0.052 As 2 2017 AB2C2 ThCr2Si2 K 0 "FeAs flux method. ANN(400C). To create strain, samples were glued with epoxy to thin(160 um) borosilicate glass" Effect of Biaxial Strain on the Phase Transitions of CadFe1-xCoxT2As2 2017 "Ames Laboratory, US DOE, Ames, Iowa 50011, USA" "Phys.Rev.Lett., 118(2017)107002"
157256 PRL118107002 T = 118 K. Strain induced by gluind to glass substrate. The strain size not clear (See text). Tc = 15.1K due to strain free phase fraction in the strained sample. "Ca(Fe,Co)2As2" Ca1Fe1.94Co0.06As2 Ca 1 Fe 1.94 Co 0.06 As 2 2017 AB2C2 ThCr2Si2 K 15.1 15.1 "FeAs flux method. ANN(400C). To create strain, samples were glued with epoxy to thin(160 um) borosilicate glass" Effect of Biaxial Strain on the Phase Transitions of CadFe1-xCoxT2As2 2017 "Ames Laboratory, US DOE, Ames, Iowa 50011, USA" "Phys.Rev.Lett., 118(2017)107002"
157257 PRL118107002 T = 102 K. Strain induced by gluind to glass substrate. The strain size not clear (See text). Tc = 17.4 K due to strain free phase fraction in the strained sample. "Ca(Fe,Co)2As2" Ca1Fe1.93Co0.07As2 Ca 1 Fe 1.93 Co 0.07 As 2 2017 AB2C2 ThCr2Si2 K 17.4 17.4 "FeAs flux method. ANN(400C). To create strain, samples were glued with epoxy to thin(160 um) borosilicate glass" Effect of Biaxial Strain on the Phase Transitions of CadFe1-xCoxT2As2 2017 "Ames Laboratory, US DOE, Ames, Iowa 50011, USA" "Phys.Rev.Lett., 118(2017)107002"
157258 PRL118107002 "T = 98.8 K. Strain induced by gluind to glass substrate. The strain size not clear (See.text). For strain free sample, Tc = 12.1 K." "Ca(Fe,Co)2As2" Ca1Fe1.926Co0.074As2 Ca 1 Fe 1.926 Co 0.074 As 2 2017 AB2C2 ThCr2Si2 K 16.9 16.9 "FeAs flux method. ANN(400C). To create strain, samples were glued with epoxy to thin(160 um) borosilicate glass" Effect of Biaxial Strain on the Phase Transitions of CadFe1-xCoxT2As2 2017 "Ames Laboratory, US DOE, Ames, Iowa 50011, USA" "Phys.Rev.Lett., 118(2017)107002"
157259 PRL118107002 "Strain induced by gluind to glass substrate. The strain size not clear (See text). For strain free sample, Tc = 6.88 K." "Ca(Fe,Co)2As2" Ca1Fe1.902Co0.098As2 Ca 1 Fe 1.902 Co 0.098 As 2 2017 AB2C2 ThCr2Si2 K 15.8 15.8 "FeAs flux method. ANN(400C). To create strain, samples were glued with epoxy to thin(160 um) borosilicate glass" Effect of Biaxial Strain on the Phase Transitions of CadFe1-xCoxT2As2 2017 "Ames Laboratory, US DOE, Ames, Iowa 50011, USA" "Phys.Rev.Lett., 118(2017)107002"
157260 SCIB0620857 "P-induced SC. P = 2.88 GPa, Tc (onset) = 26.02 K at P. Tn = 53.6 K and T = 57.1 K are at P = 1 bar." "(Ca,La)FeAs2" Ca0.73La0.27Fe1As2 Ca 0.73 La 0.27 Fe 1 As 2 3 2017 53.6 ABC2 Fe-112 K 0 MPH157260 Flux method Observation of a bi-critical point between antiferromagnetic and superconducting phases in pressurized single crystal Ca0.73La0.27FeAs2 2017 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Sci.Bull., 62(2017)857"
157261 SCIB0620857 P = 4.95 GPa "(Ca,La)FeAs2" Ca0.73La0.27Fe1As2 Ca 0.73 La 0.27 Fe 1 As 2 3 2017 ABC2 Fe-112 K 21 29.1 0 25.05 T RES(on) 8 25.6 Flux method Observation of a bi-critical point between antiferromagnetic and superconducting phases in pressurized single crystal Ca0.73La0.27FeAs2 2017 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Sci.Bull., 62(2017)857"
157262 SCIR0045709 "Carrier = 4.9E+25 /m3, hole mobility = 300cm2/Vs at Tc. SP (beta) = 1.0 mJ/mol.k2, (delta) = 0.36 mJ/mol.K6. Energy gap from SP using modified BCS" LuPdBi Lu1Pd1Bi1 Lu 1 Pd 1 Bi 1 3 2014 ABC MgAgAs A 6.63 MgAgAs-type K 1.7 1.7 T "RES(on), GL fitting" 2.2 MHC157262 A from Hc2 120 meV 0.32 5.2 14 mJ/mol.K2 11.9 SP 295 SP mOhm.cm 0.42 n/m3 1.00E+26 Weak Antilocalization Effect and Noncentrosymmetric Superconductivity in a Topologically Nontrivial Semimetal LuPdBi 2014 "State Key Laboratory for Magnetism, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Sci.Rep., 4(2014)5709"
157263 SST021125014 not SC. T = T = 135 K BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2008 AB2C2 ThCr2Si2 A K 0 "FeAs,Ba,K" FeAs self-flux method. mixture - sealed in alumina crucible - sealed in quartz tube in muffle furnace - heat(1000-1150 C) - cool to 800 C(<10 C/h) - FC to RT "Growth and characterization of A1-xKxFe2As2 (A = Ba, Sr) single crystals with x = 0-0.4" 2008 "National Laboratory for Superconductivity, Institute of Physics and National Laboratory for Condensed Matter Physics, PO Box 603, Beijing 100190, People's Republic of China" "Supercond.Sci.Technol., 21(2008)125014"
157264 SST021125014 "not SC. compositions by EDX, cleaved sample" "(Ba,K)Fe2As2" Ba0.94K0.06Fe2As2 Ba 0.94 K 0.06 Fe 2 As 2 3 2008 AB2C2 ThCr2Si2 A 13.065 K 0 "FeAs,Ba,K" FeAs self-flux method. mixture - sealed in alumina crucible - sealed in quartz tube in muffle furnace - heat(1000-1150 C) - cool to 800 C(<10 C/h) - FC to RT "Growth and characterization of A1-xKxFe2As2 (A = Ba, Sr) single crystals with x = 0-0.4" 2008 "National Laboratory for Superconductivity, Institute of Physics and National Laboratory for Condensed Matter Physics, PO Box 603, Beijing 100190, People's Republic of China" "Supercond.Sci.Technol., 21(2008)125014"
157265 SST021125014 "not SC. compositions by EDX, cleaved sample" "(Ba,K)Fe2As2" Ba0.92K0.08Fe2As2 Ba 0.92 K 0.08 Fe 2 As 2 3 2008 AB2C2 ThCr2Si2 A 13.077 K 0 "FeAs,Ba,K" FeAs self-flux method. mixture - sealed in alumina crucible - sealed in quartz tube in muffle furnace - heat(1000-1150 C) - cool to 800 C(<10 C/h) - FC to RT "Growth and characterization of A1-xKxFe2As2 (A = Ba, Sr) single crystals with x = 0-0.4" 2008 "National Laboratory for Superconductivity, Institute of Physics and National Laboratory for Condensed Matter Physics, PO Box 603, Beijing 100190, People's Republic of China" "Supercond.Sci.Technol., 21(2008)125014"
157267 SST021125014 "compositions by EDX, cleaved sample" "(Ba,K)Fe2As2" Ba0.77K0.23Fe2As2 Ba 0.77 K 0.23 Fe 2 As 2 3 2008 AB2C2 ThCr2Si2 A 13.189 K 24.5 23.4 0.4 23.4 "FeAs,Ba,K" FeAs self-flux method. mixture - sealed in alumina crucible - sealed in quartz tube in muffle furnace - heat(1000-1150 C) - cool to 800 C(<10 C/h) - FC to RT "Growth and characterization of A1-xKxFe2As2 (A = Ba, Sr) single crystals with x = 0-0.4" 2008 "National Laboratory for Superconductivity, Institute of Physics and National Laboratory for Condensed Matter Physics, PO Box 603, Beijing 100190, People's Republic of China" "Supercond.Sci.Technol., 21(2008)125014"
157268 SST021125014 "compositions by EDX, cleaved sample" "(Ba,K)Fe2As2" Ba0.75K0.25Fe2As2 Ba 0.75 K 0.25 Fe 2 As 2 3 2008 AB2C2 ThCr2Si2 A 13.196 K 28.7 27.5 0.71 27.5 "FeAs,Ba,K" FeAs self-flux method. mixture - sealed in alumina crucible - sealed in quartz tube in muffle furnace - heat(1000-1150 C) - cool to 800 C(<10 C/h) - FC to RT "Growth and characterization of A1-xKxFe2As2 (A = Ba, Sr) single crystals with x = 0-0.4" 2008 "National Laboratory for Superconductivity, Institute of Physics and National Laboratory for Condensed Matter Physics, PO Box 603, Beijing 100190, People's Republic of China" "Supercond.Sci.Technol., 21(2008)125014"
157269 SST021125014 "compositions by EDX, cleaved sample" "(Ba,K)Fe2As2" Ba0.72K0.28Fe2As2 Ba 0.72 K 0.28 Fe 2 As 2 3 2008 AB2C2 ThCr2Si2 A 13.226 K 31.4 31.8 0.49 31.8 "FeAs,Ba,K" FeAs self-flux method. mixture - sealed in alumina crucible - sealed in quartz tube in muffle furnace - heat(1000-1150 C) - cool to 800 C(<10 C/h) - FC to RT "Growth and characterization of A1-xKxFe2As2 (A = Ba, Sr) single crystals with x = 0-0.4" 2008 "National Laboratory for Superconductivity, Institute of Physics and National Laboratory for Condensed Matter Physics, PO Box 603, Beijing 100190, People's Republic of China" "Supercond.Sci.Technol., 21(2008)125014"
157270 SST021125014 "compositions by EDX, cleaved sample" "(Ba,K)Fe2As2" Ba0.6K0.4Fe2As2 Ba 0.6 K 0.4 Fe 2 As 2 3 2008 AB2C2 ThCr2Si2 A 13.344 K 36.6 36.3 0.44 36.3 "FeAs,Ba,K" FeAs self-flux method. mixture - sealed in alumina crucible - sealed in quartz tube in muffle furnace - heat(1000-1150 C) - cool to 800 C(<10 C/h) - FC to RT "Growth and characterization of A1-xKxFe2As2 (A = Ba, Sr) single crystals with x = 0-0.4" 2008 "National Laboratory for Superconductivity, Institute of Physics and National Laboratory for Condensed Matter Physics, PO Box 603, Beijing 100190, People's Republic of China" "Supercond.Sci.Technol., 21(2008)125014"
157271 SST021125014 not SC. T = T = 173 K SrFe2As2 Sr1Fe2As2 Sr 1 Fe 2 As 2 3 2008 AB2C2 ThCr2Si2 A 12.58 K 0 "FeAs,Ba,K" FeAs self-flux method. mixture - sealed in alumina crucible - sealed in quartz tube in muffle furnace - heat(1000-1150 C) - cool to 800 C(<10 C/h) - FC to RT "Growth and characterization of A1-xKxFe2As2 (A = Ba, Sr) single crystals with x = 0-0.4" 2008 "National Laboratory for Superconductivity, Institute of Physics and National Laboratory for Condensed Matter Physics, PO Box 603, Beijing 100190, People's Republic of China" "Supercond.Sci.Technol., 21(2008)125014"
157272 SST028115010 "Impurity phases: Bi2S3, EuF2.4. R not to zero at 2.0 K. Semicon-like down to Tc." "(Eu,La)BiS2F" Eu0.5La0.5F1Bi1S2 Eu 0.5 La 0.5 F 1 Bi 1 S 2 1 2015 ABCD2 CeOBiS2 P4/nmm 129 A 4.0744 13.3336 K 2.2 2.2 MTC157272 T "RES(on), WHH" 10 MHC157272 "EuF3,La2S3,Bi2S3,Eu" "mixture - sealed in quartz tube - heat(800C,24h) - reground - pellet - heat(800C,24h)" Pressure enhanced superconductivity at 10K in La doped EuBiS2F 2015 "Department of Chemistry, Indian Institute of Technology, New Delhi110016, India" "Supercond.Sci.Technol., 28(2015)115010"
157273 PRB095134517 "RRR = 47.5. n = 4.56, A = 0.248 uOhm.cm/K in R(T) = R0 + A*T^n" PrPt4Ge12 Pr1Pt4Ge12 Pr 1 Pt 4 Ge 12 1 2017 My-B/mol 3.64 -20.8 AB4C12 skutterudite Im3[-] A 8.6205 K 8.13 7.8 8.13 mJ/mol.K2 43 SP 191.6 SP uOhm.cm 2.31 "Pr(3N),Eu(3N),Pt(3N5),Ge(6N)" arc-melting - ANN Crossover and coexistence of superconductivity and antiferromagnetism in the filled-skutterudite system Pr1-xEuxPt4Ge12 2017 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 95(2017)134517"
157274 PRB095134517 "RRR = 25.0. n = 4.19 , A = 0.097 uOhm.cm/K in R(T) = R0 + A*T^n" "(Pr,Eu)Pt4Ge12" Pr0.95Eu0.05Pt4Ge12 Pr 0.95 Eu 0.05 Pt 4 Ge 12 1 2017 My-B/mol 4.16 -19.6 AB4C12 skutterudite Im3[-] A 8.6219 K 7.78 7.7 7.78 mJ/mol.K2 45.6 SP 194.6 SP uOhm.cm 2.89 "Pr(3N),Eu(3N),Pt(3N5),Ge(6N)" arc-melting - ANN Crossover and coexistence of superconductivity and antiferromagnetism in the filled-skutterudite system Pr1-xEuxPt4Ge12 2017 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 95(2017)134517"
157275 PRB095134517 "RRR = 14.8. n = 4.74 , A = 0.248 uOhm.cm/K in R(T) = R0 + A*T^n" "(Pr,Eu)Pt4Ge12" Pr0.9Eu0.1Pt4Ge12 Pr 0.9 Eu 0.1 Pt 4 Ge 12 1 2017 My-B/mol 4.29 -14.2 AB4C12 skutterudite Im3[-] A 8.623 K 7.62 7.6 7.62 MPH157275 mJ/mol.K2 43.7 SP 193.2 SP uOhm.cm 8.39 "Pr(3N),Eu(3N),Pt(3N5),Ge(6N)" arc-melting - ANN Crossover and coexistence of superconductivity and antiferromagnetism in the filled-skutterudite system Pr1-xEuxPt4Ge12 2017 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 95(2017)134517"
157276 PRB095134517 "RRR = 11.4. n = 3.90 , A = 0.248 uOhm.cm/K in R(T) = R0 + A*T^n" "(Pr,Eu)Pt4Ge12" Pr0.85Eu0.15Pt4Ge12 Pr 0.85 Eu 0.15 Pt 4 Ge 12 1 2017 My-B/mol 4.6 -14.7 AB4C12 skutterudite Im3[-] A 8.6236 K 7.28 7.01 7.28 mJ/mol.K2 51.4 SP 193.7 SP uOhm.cm 14.3 "Pr(3N),Eu(3N),Pt(3N5),Ge(6N)" arc-melting - ANN Crossover and coexistence of superconductivity and antiferromagnetism in the filled-skutterudite system Pr1-xEuxPt4Ge12 2017 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 95(2017)134517"
157277 PRB095134517 "RRR = 9.32. n = 3.32 , A = 0.248 uOhm.cm/K in R(T) = R0 + A*T^n" "(Pr,Eu)Pt4Ge12" Pr0.8Eu0.2Pt4Ge12 Pr 0.8 Eu 0.2 Pt 4 Ge 12 1 2017 My-B/mol 4.86 -12.6 AB4C12 skutterudite Im3[-] A 8.6271 K 6.54 6.52 6.54 mJ/mol.K2 52.3 SP 196.9 SP uOhm.cm 12.03 "Pr(3N),Eu(3N),Pt(3N5),Ge(6N)" arc-melting - ANN Crossover and coexistence of superconductivity and antiferromagnetism in the filled-skutterudite system Pr1-xEuxPt4Ge12 2017 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 95(2017)134517"
157278 PRB095134517 "RRR = 9.06. n =3.07 , A = 0.248 uOhm.cm/K in R(T) = R0 + A*T^n" "(Pr,Eu)Pt4Ge12" Pr0.7Eu0.3Pt4Ge12 Pr 0.7 Eu 0.3 Pt 4 Ge 12 1 2017 My-B/mol 5.17 -11.5 AB4C12 skutterudite Im3[-] A 8.6275 K 5.28 4.9 5.28 mJ/mol.K2 53.2 SP 199.3 SP uOhm.cm 9.05 "Pr(3N),Eu(3N),Pt(3N5),Ge(6N)" arc-melting - ANN Crossover and coexistence of superconductivity and antiferromagnetism in the filled-skutterudite system Pr1-xEuxPt4Ge12 2017 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 95(2017)134517"
157279 PRB095134517 "RRR = 6.02 . n =2.46 , A = 1.074 uOhm.cm/K in R(T) = R0 + A*T^n" "(Pr,Eu)Pt4Ge12" Pr0.62Eu0.38Pt4Ge12 Pr 0.62 Eu 0.38 Pt 4 Ge 12 1 2017 My-B/mol 5.55 -9 0.58 AB4C12 skutterudite Im3[-] A 8.6334 K 5.12 4.5 5.12 mJ/mol.K2 65.7 SP 199.4 SP uOhm.cm 15.1 "Pr(3N),Eu(3N),Pt(3N5),Ge(6N)" arc-melting - ANN Crossover and coexistence of superconductivity and antiferromagnetism in the filled-skutterudite system Pr1-xEuxPt4Ge12 2017 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 95(2017)134517"
157280 PRB095134517 "RRR =6.33 . n = 2.74 , A =0.602 uOhm.cm/K in R(T) = R0 + A*T^n" "(Pr,Eu)Pt4Ge12" Pr0.55Eu0.45Pt4Ge12 Pr 0.55 Eu 0.45 Pt 4 Ge 12 1 2017 My-B/mol 5.57 -9.2 AB4C12 skutterudite Im3[-] A 8.6356 K 2.72 2.98 2.72 mJ/mol.K2 61.7 SP 204.1 SP uOhm.cm 18.2 "Pr(3N),Eu(3N),Pt(3N5),Ge(6N)" arc-melting - ANN Crossover and coexistence of superconductivity and antiferromagnetism in the filled-skutterudite system Pr1-xEuxPt4Ge12 2017 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 95(2017)134517"
157281 PRB095134517 "RRR = 5.14. n = 2.64 , A = 0.753 uOhm.cm/K in R(T) = R0 + A*T^n" "(Pr,Eu)Pt4Ge12" Pr0.5Eu0.5Pt4Ge12 Pr 0.5 Eu 0.5 Pt 4 Ge 12 1 2017 My-B/mol 6.03 -8.9 0.78 AB4C12 skutterudite Im3[-] A 8.6374 K 2.12 2.12 mJ/mol.K2 74.9 SP 200.6 SP uOhm.cm 17.03 "Pr(3N),Eu(3N),Pt(3N5),Ge(6N)" arc-melting - ANN Crossover and coexistence of superconductivity and antiferromagnetism in the filled-skutterudite system Pr1-xEuxPt4Ge12 2017 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 95(2017)134517"
157282 PRB095134517 "RRR = 5.70 . n =1.04 (2.59) , A = 13.5 uOhm.cm/K in R(T) = R0 + A*T^n. () for T > T* where kink temperature in R(T)." "(Pr,Eu)Pt4Ge12" Pr0.4Eu0.6Pt4Ge12 Pr 0.4 Eu 0.6 Pt 4 Ge 12 1 2017 My-B/mol 6.31 -10.9 AB4C12 skutterudite Im3[-] A 8.6379 K 2 mJ/mol.K2 99.8 SP 205.4 SP uOhm.cm 14.47 "Pr(3N),Eu(3N),Pt(3N5),Ge(6N)" arc-melting - ANN Crossover and coexistence of superconductivity and antiferromagnetism in the filled-skutterudite system Pr1-xEuxPt4Ge12 2017 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 95(2017)134517"
157283 PRB095134517 "RRR = 5.22. n = 1.39 (2.64) , A = 9.27 uOhm.cm/K in R(T) = R0 + A*T^n. () for T > T* where kink temperature in R(T)." "(Pr,Eu)Pt4Ge12" Pr0.3Eu0.7Pt4Ge12 Pr 0.3 Eu 0.7 Pt 4 Ge 12 1 2017 My-B/mol 6.74 -10.6 1 AB4C12 skutterudite Im3[-] A 8.6405 K 2 mJ/mol.K2 124.9 SP 203.8 SP uOhm.cm 14.43 "Pr(3N),Eu(3N),Pt(3N5),Ge(6N)" arc-melting - ANN Crossover and coexistence of superconductivity and antiferromagnetism in the filled-skutterudite system Pr1-xEuxPt4Ge12 2017 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 95(2017)134517"
157284 PRB095134517 "RRR = 4.80. n = 0.79(2.51) , A = 27.6 uOhm.cm/K in R(T) = R0 + A*T^n. () for T > T* where kink temperature in R(T)." "(Pr,Eu)Pt4Ge12" Pr0.2Eu0.8Pt4Ge12 Pr 0.2 Eu 0.8 Pt 4 Ge 12 1 2017 My-B/mol 6.9 -11.9 1.19 AB4C12 skutterudite Im3[-] A 8.6435 K 2 MPH157275 mJ/mol.K2 123.6 SP 206.3 SP uOhm.cm 11.42 "Pr(3N),Eu(3N),Pt(3N5),Ge(6N)" arc-melting - ANN Crossover and coexistence of superconductivity and antiferromagnetism in the filled-skutterudite system Pr1-xEuxPt4Ge12 2017 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 95(2017)134517"
157285 PRB095134517 "RRR = 8.28 . n =0.88 (3.03 , A = 9.78 uOhm.cm/K in R(T) = R0 + A*T^n. () for T > T* where kink temperature in R(T)." "(Pr,Eu)Pt4Ge12" Pr0.1Eu0.9Pt4Ge12 Pr 0.1 Eu 0.9 Pt 4 Ge 12 1 2017 My-B/mol 7.23 -14.2 1.58 AB4C12 skutterudite Im3[-] A 8.644 K 2 mJ/mol.K2 132.1 SP 211.1 SP uOhm.cm 6.33 "Pr(3N),Eu(3N),Pt(3N5),Ge(6N)" arc-melting - ANN Crossover and coexistence of superconductivity and antiferromagnetism in the filled-skutterudite system Pr1-xEuxPt4Ge12 2017 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 95(2017)134517"
157286 PRB095134517 "RRR = 8.65 . n = 0.90 (2.68) , A = 16.8 uOhm.cm/K in R(T) = R0 + A*T^n. () for T > T* where kink temperature in R(T)." "(Pr,Eu)Pt4Ge12" Pr0.05Eu0.95Pt4Ge12 Pr 0.05 Eu 0.95 Pt 4 Ge 12 1 2017 My-B/mol 7.43 -14.5 1.63 AB4C12 skutterudite Im3[-] A 8.6459 K 2 uOhm.cm 7.77 "Pr(3N),Eu(3N),Pt(3N5),Ge(6N)" arc-melting - ANN Crossover and coexistence of superconductivity and antiferromagnetism in the filled-skutterudite system Pr1-xEuxPt4Ge12 2017 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 95(2017)134517"
157287 PRB095134517 "RRR = 13.3. n = 0.96 (2.22) , A = 29.8 uOhm.cm/K in R(T) = R0 + A*T^n. () for T > T* where kink temperature in R(T)." EuPt4Ge12 Eu1Pt4Ge12 Eu 1 Pt 4 Ge 12 1 2017 My-B/mol 7.9 -16.3 1.73 AB4C12 skutterudite Im3[-] A 8.6489 K 2 mJ/mol.K2 225.1 SP 219.4 SP uOhm.cm 5.14 "Pr(3N),Eu(3N),Pt(3N5),Ge(6N)" arc-melting - ANN Crossover and coexistence of superconductivity and antiferromagnetism in the filled-skutterudite system Pr1-xEuxPt4Ge12 2017 "Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 95(2017)134517"
157288 PRB095140505 s + s wave two gap model gives best fitting. gap = 8.6 meV ( in DB) and 2.5 meV (2d/kTc) = 1.69 CaKFe4As4 Ca1K1Fe4As4 Ca 1 K 1 Fe 4 As 4 1 2017 ABC4D4 CaRb1144 K 34.3 34.3 nm muon-SR 289 meV 8.6 5.83 16 Poly crystals synthesized using the stainless steel pipe and cap method Signature of multigap nodeless superconductivity in CaKFe4As4 2017 "ISIS Pulsed Neutron and Muon Source, STFC Rutherford Appleton Laboratory, Harwell Campus, Didcot, Oxfordshire OX11 0QX, United Kingdom" "Phys.Rev.B, 95(2017)140505"
157289 PRB095144505 not bulk SC. Cu0.3ZrTe2 Cu0.3Zr1Te2 Cu 0.3 Zr 1 Te 2 1 2017 CdI2 P3[-]ml A 3.959 6.656 K 10 10 "high purity powder of Zr,Cu,Te" "mixture - pellet - in quartz tube(Ar) - heat(850C,48h) - reground - pellet - in quartz tube - heat(1000C,48h) - Q to ice water" Evidence for topological behavior in superconducting CuxZrTe2-y 2017 "Universidade de Sao Paulo Escola de Engenharia de Lorena, Lorena, Brazil" "Phys.Rev.B, 95(2017)144505"
157290 PRB095144505 Tc is completely insensitive to pressure for P < 1.3 GPa. n-type carrier Cu0.3ZrTe1.2 Cu0.3Zr1Te1.2 Cu 0.3 Zr 1 Te 1.2 1 2017 CdI2 P3[-]ml K 8.43 9.07 9.7 9.7 1.2 9.07 Oe M-H curve 11 2 T RES(on) 0.9 2.4 MHC157290 um London 0.5 uV/K -13.5 MTP157290 mOhm.cm 1.52 6 n/cm3 8.10E+18 "high purity powder of Zr,Cu,Te" "mixture - pellet - in quartz tube(Ar) - heat(850C,48h) - reground - pellet - in quartz tube - heat(1000C,48h) - Q to ice water" Evidence for topological behavior in superconducting CuxZrTe2-y 2017 "Universidade de Sao Paulo Escola de Engenharia de Lorena, Lorena, Brazil" "Phys.Rev.B, 95(2017)144505"
157291 PRB095174521 Tc(SP) = 3.5 K. Hc(0) = 70 mT from Hc1/Hc2. Lattice term in SP (beta) = 0.173 mJ/mol.K4. (dC/gamma*Tc) = 1.55. e-ph = 0.56. kappa(GL) = 20. Hc2(0) = 1.95 T from Hc2=Hc2(0)(1-t^1.5)^1.5 TaIr2Ge2 Ta1Ir2Ge2 Ta 1 Ir 2 Ge 2 1 2017 AB2C2 CaBe2Ge2 Pnnm 58 A 8.515 12.553 2.9247 "Samples decompose to TaIrGe and TaIr3 by ANN(1000-1450,30min-2days)" K 3.9 3.9 Oe M-H curve 72 T RES(0.5Rn) 1.95 1 2.02 T/K SP(mid) 0.6 MHC157291 nm from Hc2 13 nm from Hc1 262 MSP157291 mJ/mol.K2 11 SP 355 SP "Ta(3N5),Ir(3N5),Ge(6N)" "arc-melting. pellet(Ir,Ge) - arc-melt firstly, then with Ta foil. Annealed below 1150C in quartz tube and in Ar-backfilled induction furnace (1150-1450C)" Superconductivity in a new intermetallic structure type based on endohedral Ta@Ir7Ge4 clusters 2017 "Department of Chemistry, Princeton University, Princeton New Jersey 08544, USA" "Phys.Rev.B, 95(2017)174521"
157292 NATCOM0055657 x = 0.33 - 0.36 in BaFe(2As1-xPx)2. Tc=28 K sample. e-irradiation effect investigated by TDO measurements. e-dose = 2.0 C/cm2. Value of penetration depth not given. "BaFe2(As,P)2" Ba1Fe2As1.34P0.66 Ba 1 Fe 2 As 1.34 P 0.66 2014 AB2C2 ThCr2Si2 K 24.6 24.6 1.1 Disorder-induced topological change of the superconducting gap structure in iron pnictides 2014 "Department of Physics, Kyoto University, Sakyo-ku, Kyoto 606-8502, Japan." "Nat.Cmmun., 5(2014)5657"
157293 NATCOM0055657 x = 0.33 - 0.36 in BaFe(2As1-xPx)2.Tc = 29 K sampl. e-irradiation effect investigated by TDO measurements. e-dose = 2.7 C/cm2. Value of penetration depth not given. "BaFe2(As,P)2" Ba1Fe2As1.34P0.66 Ba 1 Fe 2 As 1.34 P 0.66 2014 AB2C2 ThCr2Si2 K 23.2 23.2 1.3 Disorder-induced topological change of the superconducting gap structure in iron pnictides 2014 "Department of Physics, Kyoto University, Sakyo-ku, Kyoto 606-8502, Japan." "Nat.Cmmun., 5(2014)5657"
157294 NATCOM0055657 x = 0.33 - 0.36 in BaFe(2As1-xPx)2.Tc = 30 K sample. e-irradiation effect investigated by TDO measurements. TCFIG shows Tc vs e-dose. Value of penetration depth not given. "BaFe2(As,P)2" Ba1Fe2As1.34P0.66 Ba 1 Fe 2 As 1.34 P 0.66 2014 AB2C2 ThCr2Si2 K 30 30 MTC157294 Disorder-induced topological change of the superconducting gap structure in iron pnictides 2014 "Department of Physics, Kyoto University, Sakyo-ku, Kyoto 606-8502, Japan." "Nat.Cmmun., 5(2014)5657"
157295 AIPC8500535 "Li-intercalated sample. SC-volume fraction = 2% at 2 K, independent of Li-content." LixSr2CuO2I2 Li0.25Sr2Cu1I2O2 Li 0.25 Sr 2 Cu 1 I 2 O 2 2006 T K2NiF4-type K 4.5 4.5 2 electrochemical Li-intercalation carried out at RT using three-electrode cell. with constant potencial of 500 mV (vs Li/Li+) using potentiostat "Synthesis of New Electron-Doped Cuprates LixSr2CuO2X2 (X= Cl, Br, I)" 2006 "Department of Applied Physics, Tohoku University, 6-6-05 Aoba, Aramaki, Aoba-ku, Sendai 980-8579, Japan" "AIP conf. Proc., 850(2006)0535"
157296 AIPC8500535 LixSr2CuO2Br2 Li0.15Sr2Cu1Br2O2 Li 0.15 Sr 2 Cu 1 Br 2 O 2 2006 T K2NiF4-type K 8 8 electrochemical Li-intercalation carried out at RT using three-electrode cell. with constant potencial of 500 mV (vs Li/Li+) using potentiostat "Synthesis of New Electron-Doped Cuprates LixSr2CuO2X2 (X= Cl, Br, I)" 2006 "Department of Applied Physics, Tohoku University, 6-6-05 Aoba, Aramaki, Aoba-ku, Sendai 980-8579, Japan" "AIP conf. Proc., 850(2006)0535"
157297 JPS081125002 bulk SC observed in SP measurements. SP (beta) = 3.0 mJ/mol.K4. Bi4O4S3 Bi4S3O4 Bi 4 S 3 O 4 1 2012 BiS2-layer K 4.4 4.7 4.7 mJ/mol.K2 2.8 SP 192 SP mOhm.cm 0.8 solid state reaction Bulk Superconductivity in Bi4O4S3 Revealed by Specific Heat Measurement 2012 "Department of Physics, Tokyo Metropolitan University, Hachioji, Tokyo, Japan" "J.Phys.Soc.Jpn, 81(2012)125002"
157298 PRB095144502 "Tc from R(T) graph. N(0) calculated from SP{gamma} data, which in not given." LaNiC2 La1Ni1C2 La 1 Ni 1 C 2 1 2017 ABC2 CeNiC2 K 2.92 2.92 "La(3N),Ce(3N),Ni(4N8),C(5N5)" "arc-melting, several times" Magnetic impurity effects on the superconductivity of noncentrosymmetric LaNiC2: Ce substitution for La 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama, Saitama 338-8570, Japan" "Phys.Rev.B, 95(2017)144502"
157299 PRB095144502 "Tc from R(T) graph. N(0) calculated from SP{gamma} data, which in not given." "(La,Ce)NiC2" La0.995Ce0.005Ni1C2 La 0.995 Ce 0.005 Ni 1 C 2 1 2017 ABC2 CeNiC2 K 2.41 2.41 MTC157299 MDOS157299 "La(3N),Ce(3N),Ni(4N8),C(5N5)" "arc-melting, several times" Magnetic impurity effects on the superconductivity of noncentrosymmetric LaNiC2: Ce substitution for La 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama, Saitama 338-8570, Japan" "Phys.Rev.B, 95(2017)144502"
157300 PRB095144502 "Tc from Tc/Tc0 vs x graph using Tc0 = 2.92 K.N(0) calculated from SP{gamma} data, which in not given." "(La,Ce)NiC2" La0.99Ce0.01Ni1C2 La 0.99 Ce 0.01 Ni 1 C 2 1 2017 ABC2 CeNiC2 K 2 2 "La(3N),Ce(3N),Ni(4N8),C(5N5)" "arc-melting, several times" Magnetic impurity effects on the superconductivity of noncentrosymmetric LaNiC2: Ce substitution for La 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama, Saitama 338-8570, Japan" "Phys.Rev.B, 95(2017)144502"
157301 PRB095144502 "Tc from R(T) graph. N(0) calculated from SP{gamma} data, which in not given." "(La,Ce)NiC2" La0.985Ce0.015Ni1C2 La 0.985 Ce 0.015 Ni 1 C 2 1 2017 ABC2 CeNiC2 K 1.4 1.4 "La(3N),Ce(3N),Ni(4N8),C(5N5)" "arc-melting, several times" Magnetic impurity effects on the superconductivity of noncentrosymmetric LaNiC2: Ce substitution for La 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama, Saitama 338-8570, Japan" "Phys.Rev.B, 95(2017)144502"
157302 PRB095144502 "R(T) not to zero at 0.4 K. Tc obtained from extrapolation to R=0. N(0) calculated from SP{gamma} data, which in not given." "(La,Ce)NiC2" La0.98Ce0.02Ni1C2 La 0.98 Ce 0.02 Ni 1 C 2 1 2017 ABC2 CeNiC2 K 0.1 0.1 "La(3N),Ce(3N),Ni(4N8),C(5N5)" "arc-melting, several times" Magnetic impurity effects on the superconductivity of noncentrosymmetric LaNiC2: Ce substitution for La 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama, Saitama 338-8570, Japan" "Phys.Rev.B, 95(2017)144502"
157303 PRB095144502 "not SC. x for SC = 0.022 in La1-xCexNiC2. N(0) calculated from SP{gamma} data, which in not given." "(La,Ce)NiC2" La0.975Ce0.025Ni1C2 La 0.975 Ce 0.025 Ni 1 C 2 1 2017 ABC2 CeNiC2 K 0.4 "La(3N),Ce(3N),Ni(4N8),C(5N5)" "arc-melting, several times" Magnetic impurity effects on the superconductivity of noncentrosymmetric LaNiC2: Ce substitution for La 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama, Saitama 338-8570, Japan" "Phys.Rev.B, 95(2017)144502"
157400 ADV0262346 P-induced SC. Tc(max) in DB at P = 4.1 GPa. T' (semicon-transition) and Tn (AFM) obtained by R(T) measurements in TC-FIG. Ca10(Pt3As8)(Fe1.996Pt0.004As2)5 Ca10Pt3.02As18Fe9.98 Ca 10 Pt 3.02 As 18 Fe 9.98 3 2014 90 Ca-10-3-8 phase K 8.4 7.62 0 7.62 MTC157400 cm3/C MRH157400 single crystals grown by flux method Pressure-Induced Superconductivity and Its Scaling with Doping-Induced Superconductivity in the Iron Pnictide with Skutterudite Intermediary Layers 2014 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics Chinese Academy of Sciences Beijing 100190 , China" "Adv.Mater., 26(2014)2346"
157401 AIPC8500535 Li-intercalated (electron doped cuprates). SC volume nearly 2% independent of Li-content. Li0.25Sr2CuO2I2 Li0.25Sr2Cu1I22 Li 0.25 Sr 2 Cu 1 I 2 O 2 2006 K2NiF4 structure K 4.5 4.5 2 "(SrCuO2 + SrI2) - pellet - SIN(580 C, 24h) - Sr2CuO2I2. Li-intercalation using three electrode cell. 1.0M-LiClO4 dissolved in PC is used as electrolyte." "Synthesis of New Electron-Doped Cuprates LixSr2CuO2X2 (X= Cl, Br, I)" 2006 "Department of Applied Physics, Tohoku University, 6-6-05 Aoba, Aramaki, Aoba-ku, Sendai 980-8579, Japan" "AIP conf. Proc., 850(2006)0535"
157402 AIPC8500535 Li-intercalated (electron doped cuprates). Li0.15Sr2CuO2Br2 Li0.15Sr2Cu1Br22 Li 0.15 Sr 2 Cu 1 Br 2 O 2 2006 K2NiF4 structure K 8 8 "(SrCuO2 + SrI2) - pellet - SIN(580 C, 24h) - Sr2CuO2I2. Li-intercalation using three electrode cell. 1.0M-LiClO4 dissolved in PC is used as electrolyte." "Synthesis of New Electron-Doped Cuprates LixSr2CuO2X2 (X= Cl, Br, I)" 2006 "Department of Applied Physics, Tohoku University, 6-6-05 Aoba, Aramaki, Aoba-ku, Sendai 980-8579, Japan" "AIP conf. Proc., 850(2006)0535"
157403 APL108162601 "T = 240 K (Td - 1T'). R(min) = 8 K. R(T) = R0 +A*T2 for T < 50 K, R0=0.136 mOhm.cm, A=0.00238 uOhm.cm. SP (beta) = 0.635 mJ/mol.K4, e-ph = 0.49" MoTe1.8S0.2 Mo1Te1.8S0.2 Mo 1 Te 1.8 S 0.2 2016 AB2 Pmn2<1> Td phase K 1.3 1.3 MTC157403 60 mJ/mol.K2 2.07 SP 143 SP mOhm.cm 0.136 Superconductivity enhancement in the S-doped Weyl semimetal candidate MoTe2 2016 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, China" "Appl.Phys.Lett., 108(2016)162601"
157404 APL108162601 "SP (beta) = 0.758 mJ/mol.K4, e-ph = 0.32" MoTe2 Mo1Te2 Mo 1 Te 2 2016 AB2 Td phase K 0.1 0.1 mJ/mol.K2 3.06 SP 135 SP Superconductivity enhancement in the S-doped Weyl semimetal candidate MoTe2 2016 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, China" "Appl.Phys.Lett., 108(2016)162601"
157405 APL108162601 T = 295 K "Mo(Te,S)2" Mo1Te1.88S0.12 Mo 1 Te 1.88 S 0.12 2016 AB2 Td phase K 0.832 0.832 Superconductivity enhancement in the S-doped Weyl semimetal candidate MoTe2 2016 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, China" "Appl.Phys.Lett., 108(2016)162601"
157406 APL108162601 T = 230 K "Mo(Te,S)2" Mo1Te1.84S0.16 Mo 1 Te 1.84 S 0.16 2016 AB2 Td phase K 0.893 0.893 Superconductivity enhancement in the S-doped Weyl semimetal candidate MoTe2 2016 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, China" "Appl.Phys.Lett., 108(2016)162601"
157407 APL108162601 R(min) = 3.86 K. "Mo(Te,S)2" Mo1Te1.82S0.18 Mo 1 Te 1.82 S 0.18 2016 AB2 Td phase K 0.981 0.981 Superconductivity enhancement in the S-doped Weyl semimetal candidate MoTe2 2016 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, China" "Appl.Phys.Lett., 108(2016)162601"
157408 APL108162601 R(min) = 11.9 K. "Mo(Te,S)2" Mo1Te1.78S0.22 Mo 1 Te 1.78 S 0.22 2016 AB2 Td phase K 1.143 1.143 Superconductivity enhancement in the S-doped Weyl semimetal candidate MoTe2 2016 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, China" "Appl.Phys.Lett., 108(2016)162601"
157409 APL108162601 R(min) = 31.4 K. "Mo(Te,S)2" Mo1Te1.72S0.28 Mo 1 Te 1.72 S 0.28 2016 AB2 Td phase K 0.736 0.736 Superconductivity enhancement in the S-doped Weyl semimetal candidate MoTe2 2016 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, China" "Appl.Phys.Lett., 108(2016)162601"
157410 APL108162601 R(min) = 28.3 K. "Mo(Te,S)2" Mo1Te1.63S0.37 Mo 1 Te 1.63 S 0.37 2016 AB2 Td phase K 0.04 0.04 Superconductivity enhancement in the S-doped Weyl semimetal candidate MoTe2 2016 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, China" "Appl.Phys.Lett., 108(2016)162601"
157411 CEM2580131 "M = NH3, M-content measured therm gravimetric method" Cax(NH3)yMoS2 Ca0.1M0.05Mo1S2 Ca 0.1 M 0.05 Mo 1 S 2 2018 AB2 A 3.186 18.51 K 6.31 6.31 "Ca(2N5),MoS2,NH3(5N)" "Ca-intercalation using low temperature reaction bath (213K, 3days), using high purity ammonia(99.999%)" "Synthesis, crystal structure and superconducting properties of calcium intercalates of MoS2" 2018 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Solid State Chem., 258(2018)131"
157412 CEM2580131 "M = NH3, M-content measured therm gravimetric method" Cax(NH3)yMoS2 Ca0.15M0.15Mo1S2 Ca 0.15 M 0.15 Mo 1 S 2 2018 AB2 A 3.184 18.512 K 7.53 7.53 "Ca(2N5),MoS2,NH3(5N)" "Ca-intercalation using low temperature reaction bath (213K, 3days), using high purity ammonia(99.999%)" "Synthesis, crystal structure and superconducting properties of calcium intercalates of MoS2" 2018 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Solid State Chem., 258(2018)131"
157413 CEM2580131 "M = NH3, M-content measured therm gravimetric method" Cax(NH3)yMoS2 Ca0.2M0.17Mo1S2 Ca 0.2 M 0.17 Mo 1 S 2 2018 AB2 A 3.191 18.518 K 8.55 8.55 MTC157413 T "SUS, GL theory" 0.098 MHC157413 nm from Hc2 58 "Ca(2N5),MoS2,NH3(5N)" "Ca-intercalation using low temperature reaction bath (213K, 3days), using high purity ammonia(99.999%)" "Synthesis, crystal structure and superconducting properties of calcium intercalates of MoS2" 2018 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Solid State Chem., 258(2018)131"
157414 CEM2580131 "M = NH3, M-content measured therm gravimetric method" Cax(NH3)yMoS2 Ca0.25M0.2Mo1S2 Ca 0.25 M 0.2 Mo 1 S 2 2018 AB2 A 3.188 18.517 K 5.75 5.75 "Ca(2N5),MoS2,NH3(5N)" "Ca-intercalation using low temperature reaction bath (213K, 3days), using high purity ammonia(99.999%)" "Synthesis, crystal structure and superconducting properties of calcium intercalates of MoS2" 2018 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Solid State Chem., 258(2018)131"
157415 CEM2580131 "M = NH3, M-content measured therm gravimetric method" Cax(NH3)yMoS2 Ca0.3M0.31Mo1S2 Ca 0.3 M 0.31 Mo 1 S 2 2018 AB2 A 3.186 18.526 K 5.37 5.37 "Ca(2N5),MoS2,NH3(5N)" "Ca-intercalation using low temperature reaction bath (213K, 3days), using high purity ammonia(99.999%)" "Synthesis, crystal structure and superconducting properties of calcium intercalates of MoS2" 2018 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Solid State Chem., 258(2018)131"
157416 CEM2580131 "M = NH3, M-content measured therm gravimetric method" Cax(NH3)yMoS2 Ca0.35M0.33Mo1S2 Ca 0.35 M 0.33 Mo 1 S 2 2018 AB2 A 3.19 18.522 K 5.12 5.12 "Ca(2N5),MoS2,NH3(5N)" "Ca-intercalation using low temperature reaction bath (213K, 3days), using high purity ammonia(99.999%)" "Synthesis, crystal structure and superconducting properties of calcium intercalates of MoS2" 2018 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Solid State Chem., 258(2018)131"
157417 CEM2580131 "M = NH3, M-content measured therm gravimetric method" Cax(NH3)yMoS2 Ca0.4M0.41Mo1S2 Ca 0.4 M 0.41 Mo 1 S 2 2018 AB2 A 3.194 18.523 K 0 2 0 "Ca(2N5),MoS2,NH3(5N)" "Ca-intercalation using low temperature reaction bath (213K, 3days), using high purity ammonia(99.999%)" "Synthesis, crystal structure and superconducting properties of calcium intercalates of MoS2" 2018 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Solid State Chem., 258(2018)131"
157418 CEM2580131 "M = NH3, M-content measured therm gravimetric method" Cax(NH3)yMoS2 Ca0.45M0.38Mo1S2 Ca 0.45 M 0.38 Mo 1 S 2 2018 AB2 A 3.193 18.527 K 2 "Ca(2N5),MoS2,NH3(5N)" "Ca-intercalation using low temperature reaction bath (213K, 3days), using high purity ammonia(99.999%)" "Synthesis, crystal structure and superconducting properties of calcium intercalates of MoS2" 2018 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Solid State Chem., 258(2018)131"
157419 CEM2580131 "M = NH3, M-content measured therm gravimetric method" Cax(NH3)yMoS2 Ca0.5M0.4Mo1S2 Ca 0.5 M 0.4 Mo 1 S 2 2018 AB2 P-3m1 A 3.198 18.543 K 2 "Ca(2N5),MoS2,NH3(5N)" "Ca-intercalation using low temperature reaction bath (213K, 3days), using high purity ammonia(99.999%)" "Synthesis, crystal structure and superconducting properties of calcium intercalates of MoS2" 2018 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Solid State Chem., 258(2018)131"
157420 CEM2520106 SnAs As1Sn1 As 1 Sn 1 1 2017 AB NaCl A 5.722 K 3.8 3.8 Oe M-H curve 70 2 "Sn,As,Se" "mixture - in silica tube - heat(973 K,10h) - FC to RT" Selenium doping NaCl-type superconductor: SnAs1-xSex (x = 0-0.13) 2017 "State Key Laboratory of High Performance Ceramics and Superfine Microstructure and CAS Key Laboratory of Materials for Energy Conversion, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 252(2017)106"
157421 CEM2520106 SnAs1-xSex Sn1As0.99Se0.01 Sn 1 As 0.99 Se 0.01 1 2017 AB NaCl A 5.725 K 3.9 3.8 0.15 3.8 Oe M-H curve 80 2 Oe "RES(0.9Rn),WHH" 294 Oe/K RES(0.9Rn) 109 uOhm.cm 3.03 "Sn,As,Se" "mixture - in silica tube - heat(973 K,10h) - FC to RT" Selenium doping NaCl-type superconductor: SnAs1-xSex (x = 0-0.13) 2017 "State Key Laboratory of High Performance Ceramics and Superfine Microstructure and CAS Key Laboratory of Materials for Energy Conversion, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 252(2017)106"
157422 CEM2520106 SnAs1-xSex Sn1As0.97Se0.03 Sn 1 As 0.97 Se 0.03 1 2017 AB NaCl A 5.727 K 4 4 Oe M-H curve 110 2 "Sn,As,Se" "mixture - in silica tube - heat(973 K,10h) - FC to RT" Selenium doping NaCl-type superconductor: SnAs1-xSex (x = 0-0.13) 2017 "State Key Laboratory of High Performance Ceramics and Superfine Microstructure and CAS Key Laboratory of Materials for Energy Conversion, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 252(2017)106"
157423 CEM2520106 SnAs1-xSex Sn1As0.95Se0.05 Sn 1 As 0.95 Se 0.05 1 2017 AB NaCl A 5.729 K 4.3 4.3 0.22 4.3 Oe M-H curve 70 2 Oe "RES(0.9Rn),WHH" 649 Oe/K RES(0.9Rn) 217 uOhm.cm 3.53 "Sn,As,Se" "mixture - in silica tube - heat(973 K,10h) - FC to RT" Selenium doping NaCl-type superconductor: SnAs1-xSex (x = 0-0.13) 2017 "State Key Laboratory of High Performance Ceramics and Superfine Microstructure and CAS Key Laboratory of Materials for Energy Conversion, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 252(2017)106"
157424 CEM2520106 SnAs1-xSex Sn1As0.93Se0.07 Sn 1 As 0.93 Se 0.07 1 2017 AB NaCl A 5.732 K 4.3 4.3 Oe M-H curve 90 2 "Sn,As,Se" "mixture - in silica tube - heat(973 K,10h) - FC to RT" Selenium doping NaCl-type superconductor: SnAs1-xSex (x = 0-0.13) 2017 "State Key Laboratory of High Performance Ceramics and Superfine Microstructure and CAS Key Laboratory of Materials for Energy Conversion, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 252(2017)106"
157425 CEM2520106 SnAs1-xSex Sn1As0.9Se0.1 Sn 1 As 0.9 Se 0.1 1 2017 AB NaCl A 5.734 K 4.5 4.5 0.23 4.5 Oe M-H curve 80 2 Oe "RES(0.9Rn),WHH" 1011 Oe/K RES(0.9Rn) 328 uOhm.cm 19.55 "Sn,As,Se" "mixture - in silica tube - heat(973 K,10h) - FC to RT" Selenium doping NaCl-type superconductor: SnAs1-xSex (x = 0-0.13) 2017 "State Key Laboratory of High Performance Ceramics and Superfine Microstructure and CAS Key Laboratory of Materials for Energy Conversion, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 252(2017)106"
157426 CEM2520106 SnAs1-xSex Sn1As0.87Se0.13 Sn 1 As 0.87 Se 0.13 1 2017 AB NaCl A 5.729 K 4.4 4.4 Oe M-H curve 115 2 "Sn,As,Se" "mixture - in silica tube - heat(973 K,10h) - FC to RT" Selenium doping NaCl-type superconductor: SnAs1-xSex (x = 0-0.13) 2017 "State Key Laboratory of High Performance Ceramics and Superfine Microstructure and CAS Key Laboratory of Materials for Energy Conversion, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China" "J.Solid State Chem., 252(2017)106"
157427 CHM0267209 RRR = 30.8. Type-1 SC. SP (beta) = 0.30 mJ/mol.K4. (dC/gamma*Tc) = 1.42. GL = 0.05. e-ph = 0.62 AsSn As1Sn1 As 1 Sn 1 1 2014 AB NaCl Fm3[-]m 225 A 5.72513 K 3.58 0.27 3.58 84 Oe "type-1,Hc, BCS" 178 MHC157427 nm "BCS, from gamma" 454.4 nm London 23.2 MSP157427 mJ/mol.K2 2.18 SP 235 SP uOhm.cm 5.42 cm3/C -0.0000921 MRH157427 "Sn(5N),As(4N)" "mixture - sealed in silica ampule - heat(500C,10h) - press to pellet - heat(500C,5h, in silica ampule). For Hall effect, 70 nm SnAs films grown on silica substrates by laser deposition" SnAs with the NaCl-type Structure: Type-I Superconductivity and Single Valence State of Sn 2014 "Materials and Structures Laboratory, Tokyo Institute of Technology, Mailbox R3-1, 4259 Nagatsuta-cho, Midori-ku, Yokohama, Kanagawa 226-8503, Japan" "Chem.Mater., 26(2014)7209"
157428 EPL11317002 RRR = 12.5 BaPd2As2 Ba1Pd2As2 Ba 1 Pd 2 As 2 3 2016 AB2C2 ThCr2Si2 I4/mmm 139 A 4.489 10.322 K 3.8 3.85 3.85 3.85 87 T "RES(0.5Rn), Linear approx." 0.21 MHC157428 MSP157428 self flux method. mixture(Ba:Pd:As = 1:2:2) - alumina clucible sealed in quartz tube - heat to 1100 C(50 C/h) - keep(20h) - slow cool to 800 C(2 C/h) - cool to RT Superconductivity at 3.85 K in BaPd2As2 with the ThCr2Si2-type structure 2016 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences - Beijing 100190, China" "Europhys.Lett., 113(2016)17002"
157429 JAC6940439 "not SC. successive magnetic transition at 13.4 K. magnetic data for H//[100] in DB, for H//[00], effective moment = 7.33 uB/Eu and Curie-T = -14.8 K." EuCoGe3 Eu1Co1Ge3 Eu 1 Co 1 Ge 3 3 2017 my-B/Eu 7.7 -20.7 15.4 ABC3 BaNiSn3 A 4.3191 9.8847 K 0 MTN157429 "Sr(3N),T(4N),Ge(5N),In(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - alumina crucible - quartz tube - heat(1130 C,3d) - cool to 500C within 15 days - remove flux at 250C by spinning method" "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157430 JAC6940439 "not SC. magnetic data for H//[100] in DB, for H//[00], effective moment = 7.94 uB/Eu and Curie-T = -19.8 K." EuRhGe3 Eu1Rh1Ge3 Eu 1 Rh 1 Ge 3 3 2017 my-B/Eu 7.8 -16 11.6 ABC3 BaNiSn3 A 4.4129 10.0906 K 0 MTN157430 "Sr(3N),T(4N),Ge(5N),In(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - alumina crucible - quartz tube - heat(1130 C,3d) - cool to 500C within 15 days - remove flux at 250C by spinning method" "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157431 JAC6940439 "not SC. successive magnetic transition at 7.0 K. magnetic data for H//[100] in DB, for H//[00], effective moment = 7.85 uB/Eu and Curie-T = -20.2 K." EuIrGe3 Eu1Ir1Ge3 Eu 1 Ir 1 Ge 3 3 2017 my-B/Eu 7.92 -19.6 12.2 ABC3 BaNiSn3 A 4.4358 10.0581 K 0 MTN157431 "Sr(3N),T(4N),Ge(5N),In(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - alumina crucible - quartz tube - heat(1130 C,3d) - cool to 500C within 15 days - remove flux at 250C by spinning method" "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157432 JAC6940439 "not SC. magnetic data for H//[100] in DB, for H//[00], effective moment = 7.97 uB/Eu and Curie-T = -5.8 K." EuNiGe3 Eu1Ni1Ge3 Eu 1 Ni 1 Ge 3 3 2017 my-B/Eu 7.88 -2.81 13.3 ABC3 BaNiSn3 A 4.349 9.9087 K 0 "Sr(3N),T(4N),Ge(5N),In(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - alumina crucible - quartz tube - heat(1130 C,3d) - cool to 500C within 15 days - remove flux at 250C by spinning method" "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157433 JAC6940439 "not SC. magnetic data for H//[100] in DB, for H//[00], effective moment = 7.91 uB/Eu and Curie-T = -2.8 K." EuPdGe3 Eu1Pd1Ge3 Eu 1 Pd 1 Ge 3 3 2017 my-B/Eu 7.78 -3 12.2 ABC3 BaNiSn3 A 4.4606 10.2324 K 0 "Sr(3N),T(4N),Ge(5N),In(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - alumina crucible - quartz tube - heat(1130 C,3d) - cool to 500C within 15 days - remove flux at 250C by spinning method" "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157434 JAC6940439 "not SC. magnetic data for H//[100] in DB, for H//[00], effective moment = 7.95 uB/Eu and Curie-T = -6.4 K." EuPtNi3 Eu1Pt1Ge3 Eu 1 Pt 1 Ge 3 3 2017 my-B/Eu 7.96 -6 10.8 ABC3 BaNiSn3 A 4.4758 10.0887 K 0 "Sr(3N),T(4N),Ge(5N),In(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - alumina crucible - quartz tube - heat(1130 C,3d) - cool to 500C within 15 days - remove flux at 250C by spinning method" "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157435 JAC6940439 (dC/gamma*Tc) = 0.59 SrRhGe3 Sr1Rh1Ge3 Sr 1 Rh 1 Ge 3 3 2017 ABC3 BaNiSn3 A 4.4399 10.1321 K 0.71 0.71 2 mJ/mol.K2 5.1 SP 200 SP "Sr(3N),T(4N),Ge(5N),In(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - alumina crucible - quartz tube - heat(1130 C,3d) - cool to 500C within 15 days - remove flux at 250C by spinning method" "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157436 JAC6940439 (dC/gamma*Tc) = 0.93 SrNiGe3 Sr1Ni1Ge3 Sr 1 Ni 1 Ge 3 3 2017 ABC3 BaNiSn3 A 4.3785 10.0231 K 0.46 0.46 3.5 mJ/mol.K2 5.6 SP 280 SP "Sr(3N),T(4N),Ge(5N),In(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - alumina crucible - quartz tube - heat(1130 C,3d) - cool to 500C within 15 days - remove flux at 250C by spinning method" "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157437 JAC6940439 (dC/gamma*Tc) = 1.9 SrIrGe3 Sr1Ir1Ge3 Sr 1 Ir 1 Ge 3 3 2017 ABC3 BaNiSn3 K 0.53 0.53 5.6 mJ/mol.K2 5.3 SP 230 SP "Sr(3N),T(4N),Ge(5N),In(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - alumina crucible - quartz tube - heat(1130 C,3d) - cool to 500C within 15 days - remove flux at 250C by spinning method" "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157438 JAC6940439 RRR = 150. (dC/gamma*Tc) = 1.2 SrPdGe3 Sr1Pd1Ge3 Sr 1 Pd 1 Ge 3 3 2017 ABC3 BaNiSn3 K 1.38 1.38 3.1 mJ/mol.K2 5.3 SP 250 SP uOhm.cm 0.3 "Sr(3N),T(4N),Ge(5N),In(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - alumina crucible - quartz tube - heat(1130 C,3d) - cool to 500C within 15 days - remove flux at 250C by spinning method" "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157439 JAC6940439 (dC/gamma*Tc) = 1.1 SrPtGe3 Sr1Pt1Ge3 Sr 1 Pt 1 Ge 3 3 2017 ABC3 BaNiSn3 K 0.84 0.84 2.8 mJ/mol.K2 4.7 SP 260 SP "Sr(3N),T(4N),Ge(5N),In(5N)" "(Sr:T:Ge:In = 1.2:1:(3-4):30) - alumina crucible - quartz tube - heat(1130 C,3d) - cool to 500C within 15 days - remove flux at 250C by spinning method" "Superconducting, Fermi surface, and magnetic properties in SrTGe3 and EuTGe3 (T: transition metal) with the Rashba-type tetragonal structure" 2017 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa, 903-0213, Japan" "J.Alloys Compd, 694(2017)439"
157440 EPL0060659 P-induced SC. Tc(max) = 8.68 K(in DB) at P=8 GPa. many phases depending P. See TCFIG(Tc vs P) Bi Bi1 Bi 1 1988 A K 8.68 0 8.68 MTC157440 K/GPa -0.3 Bi(5N5) Evidence for an Electronic Phase Transition in Bismuth under Pressure 1988 "Institut fur Festkorperforschung - KFA Julich, D-5170 Julich" "Europhys.Lett., 6(1988)659"
157441 JPS080103701 "Ca(Fe,Rh)2As2" Ca1Fe1.958Rh0.042As2 Ca 1 Fe 1.958 Rh 0.042 As 2 3 2011 AB2C2 ThCr2Si2 K 11.9 11.9 Flux method. mixture(Ca:FeAs:RhAs = 1:(4-4x):4x) - alumina crucible in sealed quartz tube - heat(1100C) - cool to 1050 C(1.25 C/h) - cool to RT - remove flux mechanically Interplay of Superconductivity and Fermi-Liquid Transport in Rh-Doped CaFe2As2 with Lattice-Collapse Transition 2011 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 80(2011)103701"
157442 JPS080103701 uncollapsed-tetra to collapsed tetra transition at T = 54.2 K. "Ca(Fe,Rh)2As2" Ca1Fe1.952Rh0.048As2 Ca 1 Fe 1.952 Rh 0.048 As 2 3 2011 AB2C2 ThCr2Si2 K 12.8 12.8 Flux method. mixture(Ca:FeAs:RhAs = 1:(4-4x):4x) - alumina crucible in sealed quartz tube - heat(1100C) - cool to 1050 C(1.25 C/h) - cool to RT - remove flux mechanically Interplay of Superconductivity and Fermi-Liquid Transport in Rh-Doped CaFe2As2 with Lattice-Collapse Transition 2011 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 80(2011)103701"
157443 JPS080103701 uncollapsed-tetra to collapsed tetra transition at T = 64.3 K. "Ca(Fe,Rh)2As2" Ca1Fe1.94Rh0.06As2 Ca 1 Fe 1.94 Rh 0.06 As 2 3 2011 AB2C2 ThCr2Si2 K 0 0 0 Flux method. mixture(Ca:FeAs:RhAs = 1:(4-4x):4x) - alumina crucible in sealed quartz tube - heat(1100C) - cool to 1050 C(1.25 C/h) - cool to RT - remove flux mechanically Interplay of Superconductivity and Fermi-Liquid Transport in Rh-Doped CaFe2As2 with Lattice-Collapse Transition 2011 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 80(2011)103701"
157444 JPS080103701 uncollapsed-tetra to collapsed tetra transition at T = 154 K. CaFe2As2 Ca1Fe2As2 Ca 1 Fe 2 As 2 3 2011 154 AB2C2 ThCr2Si2 A 3.8953 11.7153 K 0 Flux method. mixture(Ca:FeAs:RhAs = 1:(4-4x):4x) - alumina crucible in sealed quartz tube - heat(1100C) - cool to 1050 C(1.25 C/h) - cool to RT - remove flux mechanically Interplay of Superconductivity and Fermi-Liquid Transport in Rh-Doped CaFe2As2 with Lattice-Collapse Transition 2011 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 80(2011)103701"
157445 JPS080103701 uncollapsed-tetra to collapsed tetra transition at T = 108 K. "Ca(Fe,Rh)2As2" Ca1Fe1.968Rh0.032As2 Ca 1 Fe 1.968 Rh 0.032 As 2 3 2011 107 AB2C2 ThCr2Si2 A 3.8997 11.713 K 0 Flux method. mixture(Ca:FeAs:RhAs = 1:(4-4x):4x) - alumina crucible in sealed quartz tube - heat(1100C) - cool to 1050 C(1.25 C/h) - cool to RT - remove flux mechanically Interplay of Superconductivity and Fermi-Liquid Transport in Rh-Doped CaFe2As2 with Lattice-Collapse Transition 2011 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 80(2011)103701"
157446 JPS080103701 uncollapsed-tetra to collapsed tetra transition at T = 79.3 K. "Ca(Fe,Rh)2As2" Ca1Fe1.96Rh0.04As2 Ca 1 Fe 1.96 Rh 0.04 As 2 3 2011 77.2 AB2C2 ThCr2Si2 A 3.9012 11.692 K 10.8 10.8 Flux method. mixture(Ca:FeAs:RhAs = 1:(4-4x):4x) - alumina crucible in sealed quartz tube - heat(1100C) - cool to 1050 C(1.25 C/h) - cool to RT - remove flux mechanically Interplay of Superconductivity and Fermi-Liquid Transport in Rh-Doped CaFe2As2 with Lattice-Collapse Transition 2011 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 80(2011)103701"
157447 JPS080103701 "Ca(Fe,Rh)2As2" Ca1Fe1.956Rh0.044As2 Ca 1 Fe 1.956 Rh 0.044 As 2 3 2011 AB2C2 ThCr2Si2 A 3.8996 11.6742 K 11.4 11.4 Flux method. mixture(Ca:FeAs:RhAs = 1:(4-4x):4x) - alumina crucible in sealed quartz tube - heat(1100C) - cool to 1050 C(1.25 C/h) - cool to RT - remove flux mechanically Interplay of Superconductivity and Fermi-Liquid Transport in Rh-Doped CaFe2As2 with Lattice-Collapse Transition 2011 "Department of Physics, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 80(2011)103701"
157448 JPS083063707 P=0 GPa. semiconductor like resistivity. Sr0.5La0.5FBiS2 Sr0.5La0.5F1Bi1S2 Sr 0.5 La 0.5 F 1 Bi 1 S 2 1 2014 P4/nmm A 4.077 13.388 BiS2-plane SC K 2 2.2 2.1 "La,SrF2,Bi,S" "mixture - pellet - sealed in quartz tube - heat to 650 C(2 C/min) - SIN(650 C,12h) - cool to RT, one more process" Impact of Hydrostatic Pressure on Superconductivity of Sr0.5La0.5FBiS2 2014 "CSIR-National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi 110012, India" "J.Phys.Soc.Jpn, 83(2014)063707"
157449 JPS083063707 "P = 1.97 GPa where Tc(max). R(T) = R0 + A*T for 20 < T < 240 K, where A = 1.57 uOhmcm/K." Sr0.5La0.5FBiS2 Sr0.5La0.5F1Bi1S2 Sr 0.5 La 0.5 F 1 Bi 1 S 2 1 2014 BiS2-plane SC K MTC157449 T "RES(0.9Rn), WHH" 20 MHC157449 mOhm.cm 0.134 "La,SrF2,Bi,S" "mixture - pellet - sealed in quartz tube - heat to 650 C(2 C/min) - SIN(650 C,12h) - cool to RT, one more process" Impact of Hydrostatic Pressure on Superconductivity of Sr0.5La0.5FBiS2 2014 "CSIR-National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi 110012, India" "J.Phys.Soc.Jpn, 83(2014)063707"
157450 JETP0341263 not SC. Tc (in DB) = 8.4 K at 100 kbar for Bi-IV phase. Bi Bi1 Bi 1 1972 A Bi-IV phase K 8.4 8.4 MTC157450 "Superconductivity of Bismuth, Barium, and Lead at Pressures Exceeding 100 kbar" 1972 "Institute of the Physics of High Pressures, USSR Academy of Sciences" "oviet hysics JETP, 34(1972)1263"
157451 JETP0341263 not SC. Tc (in DB) = 4.85 K at 164 kbar for Ba-IV phase. Ba Ba1 Ba 1 1972 A Ba-IV phase K 4.85 4.85 MTC157451 "Superconductivity of Bismuth, Barium, and Lead at Pressures Exceeding 100 kbar" 1972 "Institute of the Physics of High Pressures, USSR Academy of Sciences" "oviet hysics JETP, 34(1972)1263"
157452 JETP0341263 Phase boundary at P = 160 kbar (Pb-I and Pb-II) Pb Pb1 Pb 1 1972 A K MTC157452 "Superconductivity of Bismuth, Barium, and Lead at Pressures Exceeding 100 kbar" 1972 "Institute of the Physics of High Pressures, USSR Academy of Sciences" "oviet hysics JETP, 34(1972)1263"
157453 JPS086063704 (dC/gamma*Tc) = 2.3. gap size (2D/kTc) = 4.58 from SP-alpha model. BaPd2As2 Ba1Pd2As2 Ba 1 Pd 2 As 2 1 2017 AB2C2 ThCr2Si2 I4/mmm 139 K 3.85 3.85 4.58 14 MSP157453 mJ/mol.K2 6.1 SP 144 SP "(Ba,Pd,PdAs2 powder) - alumina crucible in quartz tube - heat(900C,48h) - Q to iced water. preparatin condition is very strict." Strong-Coupling Superconductivity in BaPd2As2 Induced by Soft Phonons in the ThCr2Si2-Type Polymorph 2017 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 86(2017)063704"
157454 JPS086063704 not SC. BaPd2As2 Ba1Pd2As2 Ba 1 Pd 2 As 2 1 2017 AB2C2 CeMg2Si2 P4/mmm 123 K 1.8 MSP157453 mJ/mol.K2 5.4 SP 259 SP "(Ba,Pd,PdAs2 powder) - alumina crucible in quartz tube - heat(700 - 1150 C)) - Q to iced water or furnace cool to RT. very stable." Strong-Coupling Superconductivity in BaPd2As2 Induced by Soft Phonons in the ThCr2Si2-Type Polymorph 2017 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 86(2017)063704"
157455 JPS086074701 not SC LaOBiSSe La1Bi1S1Se1O1 La 1 Bi 1 S 1 Se 1 O 1 1 2017 P2<1>/m A 4.1159 4.1159 14.091 BiS2-layer SC K 0 uV/K -47.6 mOhm.cm "Bi2S3,La2S3,BiF3,Bi2S3,Bi2Se3,Bi" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,20h)" Intrinsic Phase Diagram of Superconductivity in the BiCh2-Based System Without In-Plane Disorder 2017 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 86(2017)074701"
157456 JPS086074701 SC suddenly induced by a small amount of electron doping of 0.05-0.1per Bi "La(O,F)BiSSe" La1F0.1Bi1S1Se1O0.9 La 1 F 0.1 Bi 1 S 1 Se 1 O 0.9 1 2017 P4/nmm A 4.12 13.8576 BiS2-layer SC K 3.2 3.5 3.5 85 uV/K -25.3 mOhm.cm 1.58 "Bi2S3,La2S3,BiF3,Bi2S3,Bi2Se3,Bi" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,20h)" Intrinsic Phase Diagram of Superconductivity in the BiCh2-Based System Without In-Plane Disorder 2017 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 86(2017)074701"
157457 JPS086074701 "La(O,F)BiSSe" La1F2Bi1S1Se1O0.8 La 1 F 2 Bi 1 S 1 Se 1 O 0.8 1 2017 P4/nmm A 4.1337 13.7472 BiS2-layer SC K 3.8 3.8 3.8 uV/K -24.9 mOhm.cm 1.38 "Bi2S3,La2S3,BiF3,Bi2S3,Bi2Se3,Bi" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,20h)" Intrinsic Phase Diagram of Superconductivity in the BiCh2-Based System Without In-Plane Disorder 2017 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 86(2017)074701"
157458 JPS086074701 "La(O,F)BiSSe" La1F0.3Bi1S1Se1O0.7 La 1 F 0.3 Bi 1 S 1 Se 1 O 0.7 1 2017 P4/nmm A 4.1349 13.6963 BiS2-layer SC K 3.8 3.9 3.9 MTC157458 uV/K -23.5 mOhm.cm 0.744 "Bi2S3,La2S3,BiF3,Bi2S3,Bi2Se3,Bi" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,20h)" Intrinsic Phase Diagram of Superconductivity in the BiCh2-Based System Without In-Plane Disorder 2017 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 86(2017)074701"
157459 JPS086074701 "La(O,F)BiSSe" La1F0.4Bi1S1Se1O0.6 La 1 F 0.4 Bi 1 S 1 Se 1 O 0.6 1 2017 P4/nmm A 4.1363 13.6389 BiS2-layer SC K 3.8 3.9 3.9 uV/K -20.2 mOhm.cm 0.867 "Bi2S3,La2S3,BiF3,Bi2S3,Bi2Se3,Bi" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,20h)" Intrinsic Phase Diagram of Superconductivity in the BiCh2-Based System Without In-Plane Disorder 2017 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 86(2017)074701"
157460 JPS086074701 "La(O,F)BiSSe" La1F0.5Bi1S1Se1O0.5 La 1 F 0.5 Bi 1 S 1 Se 1 O 0.5 1 2017 P4/nmm A 4.1375 13.6272 BiS2-layer SC K 3.8 3.9 3.9 uV/K -19.9 mOhm.cm 0.714 "Bi2S3,La2S3,BiF3,Bi2S3,Bi2Se3,Bi" "solid state reaction. mixture - pellet - sealed in quartz tube - heat(700C,20h)" Intrinsic Phase Diagram of Superconductivity in the BiCh2-Based System Without In-Plane Disorder 2017 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 86(2017)074701"
157461 JPS086083706 "Effect of disorder (induced by e-irradiation) on Tc, Tn" BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2017 AB2C2 ThCr2Si2 K 0 MPH157461 cm3/C MRH157461 single crystals synthesized by self-flux method Impact of Disorder on the Superconducting Phase Diagram in BaFe2(As1-xPx)2 2017 "Department of Advanced Materials Science, University of Tokyo, Kashiwa, Chiba 277-8561, Japan" "J.Phys.Soc.Jpn, 86(2017)083706"
157462 JPS086083706 "Effect of disorder (induced by e-irradiation) on Tc, Tn" "BaFe2(As,P)2" Ba1Fe2As1.52P0.48 Ba 1 Fe 2 As 1.52 P 0.48 3 2017 AB2C2 ThCr2Si2 K 23.3 23.3 MPH157462 cm3/C MRH157462 single crystals synthesized by self-flux method Impact of Disorder on the Superconducting Phase Diagram in BaFe2(As1-xPx)2 2017 "Department of Advanced Materials Science, University of Tokyo, Kashiwa, Chiba 277-8561, Japan" "J.Phys.Soc.Jpn, 86(2017)083706"
157463 JPS086083706 "Effect of disorder (induced by e-irradiation) on Tc, Tn" "BaFe2(As,P)2" Ba1Fe2As1.44P0.56 Ba 1 Fe 2 As 1.44 P 0.56 3 2017 AB2C2 ThCr2Si2 K 30 30 single crystals synthesized by self-flux method Impact of Disorder on the Superconducting Phase Diagram in BaFe2(As1-xPx)2 2017 "Department of Advanced Materials Science, University of Tokyo, Kashiwa, Chiba 277-8561, Japan" "J.Phys.Soc.Jpn, 86(2017)083706"
157464 JPS086083706 "Effect of disorder (induced by e-irradiation) on Tc, Tn" "BaFe2(As,P)2" Ba1Fe2As1.4P0.6 Ba 1 Fe 2 As 1.4 P 0.6 3 2017 AB2C2 ThCr2Si2 K 21.7 21.7 MTC157464 single crystals synthesized by self-flux method Impact of Disorder on the Superconducting Phase Diagram in BaFe2(As1-xPx)2 2017 "Department of Advanced Materials Science, University of Tokyo, Kashiwa, Chiba 277-8561, Japan" "J.Phys.Soc.Jpn, 86(2017)083706"
157465 JPS086104704 "DOS = 26.4 states/eV.spin , obtained from [gamma]" LaNiC2 La1Ni1C2 La 1 Ni 1 C 2 1 2017 emu/mol 0.00003 ABC2 3 CeNiC2 A 3.9521 4.5571 6.1929 K 2.8 2.8 mJ/mol.K2 7.8 uOhm.cm 13.1 "La(3N),Ce(3N),Ni(4N8),C(5N5)" arc-melting with 4 at% excess C. several times. Competition between Superconductivity and Magnetism in Non-centrosymmetric (La1-xCex)NiC2 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama 338-8570, Japan" "J.Phys.Soc.Jpn, 86(2017)104704"
157466 JPS086104704 "DOS = 29.6 states/eV.spin , obtained from [gamma]" "(La,Ce)NiC2" La0.995Ce0.005Ni1C2 La 0.995 Ce 0.005 Ni 1 C 2 1 2017 emu/mol 0.0005 emu/K/mol 3.2 myu-B/Ce 2.27 ABC2 3 CeNiC2 A 3.9547 4.5578 6.1956 K 2.4 2.4 MTC157466 mJ/mol.K2 8.7 uOhm.cm 17.6 "La(3N),Ce(3N),Ni(4N8),C(5N5)" arc-melting with 4 at% excess C. several times. Competition between Superconductivity and Magnetism in Non-centrosymmetric (La1-xCex)NiC2 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama 338-8570, Japan" "J.Phys.Soc.Jpn, 86(2017)104704"
157467 JPS086104704 "DOS = 26.2 states/eV.spin , obtained from [gamma]" "(La,Ce)NiC2" La0.99Ce0.01Ni1C2 La 0.99 Ce 0.01 Ni 1 C 2 1 2017 emu/mol 0.0006 emu/K/mol 6.6 myu-B/Ce 2.3 ABC2 3 CeNiC2 A 4.5553 6.1919 K 1.9 1.9 mJ/mol.K2 7.7 uOhm.cm 15.4 "La(3N),Ce(3N),Ni(4N8),C(5N5)" arc-melting with 4 at% excess C. several times. Competition between Superconductivity and Magnetism in Non-centrosymmetric (La1-xCex)NiC2 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama 338-8570, Japan" "J.Phys.Soc.Jpn, 86(2017)104704"
157468 JPS086104704 "DOS = 28.2 states/eV.spin , obtained from [gamma]" "(La,Ce)NiC2" La0.985Ce0.015Ni1C2 La 0.985 Ce 0.015 Ni 1 C 2 1 2017 emu/mol 0.001 emu/K/mol 10.1 myu-B/Ce 2.32 ABC2 3 CeNiC2 A K 1.5 1.5 mJ/mol.K2 8.3 uOhm.cm 14.2 "La(3N),Ce(3N),Ni(4N8),C(5N5)" arc-melting with 4 at% excess C. several times. Competition between Superconductivity and Magnetism in Non-centrosymmetric (La1-xCex)NiC2 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama 338-8570, Japan" "J.Phys.Soc.Jpn, 86(2017)104704"
157469 JPS086104704 "DOS = 30.5 states/eV.spin , obtained from [gamma]" "(La,Ce)NiC2" La0.98Ce0.02Ni1C2 La 0.98 Ce 0.02 Ni 1 C 2 1 2017 emu/mol 0.002 emu/K/mol 14.1 myu-B/Ce 2.38 ABC2 3 CeNiC2 A 3.9507 6.1934 K 0.1 0.1 mJ/mol.K2 9 uOhm.cm 17.6 "La(3N),Ce(3N),Ni(4N8),C(5N5)" arc-melting with 4 at% excess C. several times. Competition between Superconductivity and Magnetism in Non-centrosymmetric (La1-xCex)NiC2 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama 338-8570, Japan" "J.Phys.Soc.Jpn, 86(2017)104704"
157470 JPS086104704 not SC "(La,Ce)NiC2" La0.975Ce0.025Ni1C2 La 0.975 Ce 0.025 Ni 1 C 2 1 2017 emu/mol 0.002 emu/K/mol 15.6 myu-B/Ce 2.24 ABC2 3 CeNiC2 A 4.5549 6.1909 K 0.4 mJ/mol.K2 8.5 uOhm.cm 23 "La(3N),Ce(3N),Ni(4N8),C(5N5)" arc-melting with 4 at% excess C. several times. Competition between Superconductivity and Magnetism in Non-centrosymmetric (La1-xCex)NiC2 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama 338-8570, Japan" "J.Phys.Soc.Jpn, 86(2017)104704"
157471 JPS086104704 not SC "(La,Ce)NiC2" La0.97Ce0.03Ni1C2 La 0.97 Ce 0.03 Ni 1 C 2 1 2017 emu/mol 0.001 emu/K/mol 15.7 myu-B/Ce 2.05 ABC2 3 CeNiC2 A 3.9521 4.5564 6.1923 K 0.4 mJ/mol.K2 9.3 uOhm.cm 17.1 "La(3N),Ce(3N),Ni(4N8),C(5N5)" arc-melting with 4 at% excess C. several times. Competition between Superconductivity and Magnetism in Non-centrosymmetric (La1-xCex)NiC2 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama 338-8570, Japan" "J.Phys.Soc.Jpn, 86(2017)104704"
157472 JPS086104704 not SC "(La,Ce)NiC2" La0.95Ce0.05Ni1C2 La 0.95 Ce 0.05 Ni 1 C 2 1 2017 emu/mol 0.002 emu/K/mol 28.3 myu-B/Ce 2.13 -0.4 ABC2 3 CeNiC2 A 3.9497 4.5536 6.1904 K 0.4 mJ/mol.K2 8.3 uOhm.cm 30 "La(3N),Ce(3N),Ni(4N8),C(5N5)" arc-melting with 4 at% excess C. several times. Competition between Superconductivity and Magnetism in Non-centrosymmetric (La1-xCex)NiC2 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama 338-8570, Japan" "J.Phys.Soc.Jpn, 86(2017)104704"
157473 JPS086104704 not SC "(La,Ce)NiC2" La0.9Ce0.1Ni1C2 La 0.9 Ce 0.1 Ni 1 C 2 1 2017 emu/mol 0.002 emu/K/mol 73.1 myu-B/Ce 2.42 -0.8 ABC2 3 CeNiC2 A 3.9447 4.5549 6.1891 K 0.4 mJ/mol.K2 9 uOhm.cm 30.7 "La(3N),Ce(3N),Ni(4N8),C(5N5)" arc-melting with 4 at% excess C. several times. Competition between Superconductivity and Magnetism in Non-centrosymmetric (La1-xCex)NiC2 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama 338-8570, Japan" "J.Phys.Soc.Jpn, 86(2017)104704"
157474 JPS086104704 not SC "(La,Ce)NiC2" La0.8Ce0.2Ni1C2 La 0.8 Ce 0.2 Ni 1 C 2 1 2017 emu/mol 0.002 emu/K/mol 177 myu-B/Ce 2.66 -0.4 ABC2 3 CeNiC2 A 3.9372 4.5549 6.1877 K 0.4 mJ/mol.K2 16.6 uOhm.cm 45.5 "La(3N),Ce(3N),Ni(4N8),C(5N5)" arc-melting with 4 at% excess C. several times. Competition between Superconductivity and Magnetism in Non-centrosymmetric (La1-xCex)NiC2 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama 338-8570, Japan" "J.Phys.Soc.Jpn, 86(2017)104704"
157475 JPS086104704 not SC "(La,Ce)NiC2" La0.5Ce0.5Ni1C2 La 0.5 Ce 0.5 Ni 1 C 2 1 2017 emu/mol 0.002 emu/K/mol 417 myu-B/Ce 2.58 -16.4 ABC2 3 CeNiC2 A 3.9178 4.5565 6.1833 K 0.4 mJ/mol.K2 62.3 uOhm.cm 51.9 "La(3N),Ce(3N),Ni(4N8),C(5N5)" arc-melting with 4 at% excess C. several times. Competition between Superconductivity and Magnetism in Non-centrosymmetric (La1-xCex)NiC2 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama 338-8570, Japan" "J.Phys.Soc.Jpn, 86(2017)104704"
157476 JPS086104704 not SC "(La,Ce)NiC2" La0.35Ce0.65Ni1C2 La 0.35 Ce 0.65 Ni 1 C 2 1 2017 emu/mol 0.003 emu/K/mol 415 myu-B/Ce 2.26 -24.4 ABC2 3 CeNiC2 A 3.9084 4.556 6.182 K 0.4 mJ/mol.K2 79.2 uOhm.cm 50.7 "La(3N),Ce(3N),Ni(4N8),C(5N5)" arc-melting with 4 at% excess C. several times. Competition between Superconductivity and Magnetism in Non-centrosymmetric (La1-xCex)NiC2 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama 338-8570, Japan" "J.Phys.Soc.Jpn, 86(2017)104704"
157477 JPS086104704 "not SC. AFIC = incommensurate AFM state, AFC= commensurate AFM state, F = FM or Ferrimag state, in TC-fig." "(La,Ce)NiC2" La0.25Ce0.75Ni1C2 La 0.25 Ce 0.75 Ni 1 C 2 1 2017 emu/mol 0.003 emu/K/mol 534 myu-B/Ce 2.39 -16.2 ABC2 3 CeNiC2 A 3.8992 4.5556 6.1792 K 0.4 MPH157477 mJ/mol.K2 152 uOhm.cm 46.4 "La(3N),Ce(3N),Ni(4N8),C(5N5)" arc-melting with 4 at% excess C. several times. Competition between Superconductivity and Magnetism in Non-centrosymmetric (La1-xCex)NiC2 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama 338-8570, Japan" "J.Phys.Soc.Jpn, 86(2017)104704"
157478 JPS086104704 not SC "(La,Ce)NiC2" La0.15Ce0.85Ni1C2 La 0.15 Ce 0.85 Ni 1 C 2 1 2017 emu/mol 0.004 emu/K/mol 539 myu-B/Ce 2.25 -15.1 ABC2 3 CeNiC2 A 3.8942 4.556 6.1773 K 0.4 mJ/mol.K2 166 uOhm.cm 40.6 "La(3N),Ce(3N),Ni(4N8),C(5N5)" arc-melting with 4 at% excess C. several times. Competition between Superconductivity and Magnetism in Non-centrosymmetric (La1-xCex)NiC2 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama 338-8570, Japan" "J.Phys.Soc.Jpn, 86(2017)104704"
157479 JPS086104704 not SC. Ferro- or Ferrimag-state in low temperature. CeNiC2 Ce1Ni1C2 Ce 1 Ni 1 C 2 1 2017 emu/mol 0.006 emu/K/mol 654 myu-B/Ce 2.29 -17.5 ABC2 3 CeNiC2 A 3.8821 4.556 6.1724 K 0.4 mJ/mol.K2 292 uOhm.cm 15.7 "La(3N),Ce(3N),Ni(4N8),C(5N5)" arc-melting with 4 at% excess C. several times. Competition between Superconductivity and Magnetism in Non-centrosymmetric (La1-xCex)NiC2 2017 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Saitama 338-8570, Japan" "J.Phys.Soc.Jpn, 86(2017)104704"
157480 JPS086104712 R(T) not zero down to 1.9 K. Eu0.5Ce0.5FBiS2 Eu0.5Ce0.5F1Bi1S2 Eu 0.5 Ce 0.5 F 1 Bi 1 S 2 1 2017 ABCD2 2 CeOBiS2 4.0702 13.3418 "BiS2-layer SC, EuFBiS2-type" K 2.3 2.3 "EuS,Ce2S3,BiF3,Bi(5N),S(4N),Se(5N)" "mxture - pellet - sealed in quartz tube - heat(20h, 780C(x=0), 700C(x=0.2, 0.4), 650C(x=0.6,0.8), 600C(x=1))" Bulk Superconductivity Induced by Se Substitution in BiCh2-Based Layered Compounds Eu0.5Ce0.5FBiS2-xSex 2017 "Department of Physics, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 86(2017)104712"
157481 JPS086104712 Eu0.5Ce0.5FBiS2-xSex Eu0.5Ce0.5F1Bi1S1.8Se0.2 Eu 0.5 Ce 0.5 F 1 Bi 1 S 1.8 Se 0.2 1 2017 ABCD2 2 CeOBiS2 A 4.0774 13.3626 "BiS2-layer SC, EuFBiS2-type" K 2.68 2.68 "EuS,Ce2S3,BiF3,Bi(5N),S(4N),Se(5N)" "mxture - pellet - sealed in quartz tube - heat(20h, 780C(x=0), 700C(x=0.2, 0.4), 650C(x=0.6,0.8), 600C(x=1))" Bulk Superconductivity Induced by Se Substitution in BiCh2-Based Layered Compounds Eu0.5Ce0.5FBiS2-xSex 2017 "Department of Physics, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 86(2017)104712"
157482 JPS086104712 Eu0.5Ce0.5FBiS2-xSex Eu0.5Ce0.5F1Bi1S1.6Se0.4 Eu 0.5 Ce 0.5 F 1 Bi 1 S 1.6 Se 0.4 1 2017 ABCD2 2 CeOBiS2 A 4.0916 13.3996 "BiS2-layer SC, EuFBiS2-type" K 3.02 3.02 "EuS,Ce2S3,BiF3,Bi(5N),S(4N),Se(5N)" "mxture - pellet - sealed in quartz tube - heat(20h, 780C(x=0), 700C(x=0.2, 0.4), 650C(x=0.6,0.8), 600C(x=1))" Bulk Superconductivity Induced by Se Substitution in BiCh2-Based Layered Compounds Eu0.5Ce0.5FBiS2-xSex 2017 "Department of Physics, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 86(2017)104712"
157483 JPS086104712 Eu0.5Ce0.5FBiS2-xSex Eu0.5Ce0.5F1Bi1S1.4Se0.6 Eu 0.5 Ce 0.5 F 1 Bi 1 S 1.4 Se 0.6 1 2017 ABCD2 2 CeOBiS2 A 4.1036 13.4153 "BiS2-layer SC, EuFBiS2-type" K 3.53 3.53 MTC157483 "EuS,Ce2S3,BiF3,Bi(5N),S(4N),Se(5N)" "mxture - pellet - sealed in quartz tube - heat(20h, 780C(x=0), 700C(x=0.2, 0.4), 650C(x=0.6,0.8), 600C(x=1))" Bulk Superconductivity Induced by Se Substitution in BiCh2-Based Layered Compounds Eu0.5Ce0.5FBiS2-xSex 2017 "Department of Physics, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 86(2017)104712"
157484 JPS086104712 Eu0.5Ce0.5FBiS2-xSex Eu0.5Ce0.5F1Bi1S1.2Se0.8 Eu 0.5 Ce 0.5 F 1 Bi 1 S 1.2 Se 0.8 1 2017 ABCD2 2 CeOBiS2 A 4.1203 13.4416 "BiS2-layer SC, EuFBiS2-type" K 3.61 3.61 "EuS,Ce2S3,BiF3,Bi(5N),S(4N),Se(5N)" "mxture - pellet - sealed in quartz tube - heat(20h, 780C(x=0), 700C(x=0.2, 0.4), 650C(x=0.6,0.8), 600C(x=1))" Bulk Superconductivity Induced by Se Substitution in BiCh2-Based Layered Compounds Eu0.5Ce0.5FBiS2-xSex 2017 "Department of Physics, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 86(2017)104712"
157485 JPS086104712 Eu0.5Ce0.5FBiS2-xSex Eu0.5Ce0.5F1Bi1S1Se1 Eu 0.5 Ce 0.5 F 1 Bi 1 S 1 Se 1 1 2017 ABCD2 2 CeOBiS2 A 4.1375 13.4786 "BiS2-layer SC, EuFBiS2-type" K 3.36 3.36 "EuS,Ce2S3,BiF3,Bi(5N),S(4N),Se(5N)" "mxture - pellet - sealed in quartz tube - heat(20h, 780C(x=0), 700C(x=0.2, 0.4), 650C(x=0.6,0.8), 600C(x=1))" Bulk Superconductivity Induced by Se Substitution in BiCh2-Based Layered Compounds Eu0.5Ce0.5FBiS2-xSex 2017 "Department of Physics, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 86(2017)104712"
157486 MMM0150042 Specific heat of ErxLa1-xBe13 (x = 0-0.09) were measured. SP (beta = 0.16 mJ/mol.K4. SC properties not described LaBe13 Be13La1 Be 13 La 1 1980 AB13 K 0 mJ/mol.K2 11 SP SPECIFIC HEAT AND ELECTRON SPIN RESONANCE OF ErxLa1-xBe13 1980 "Kamerlingh Onnes Laboratorium der Rijks-Universiteit, Leiden, The Netherlands" "J.Mag.Mag.Mat., 15(1980)42"
157487 PRB0110440 not SC above 0.45 K LaBe13 Be13La1 Be 13 La 1 1975 cm3/mole -0.0000241 AB13 NaZn13 A 10.451 K 0.45 mJ/gat.K2 0.58 SP 820 SP Electronic properties of beryllides of the rare earth and some actinides 1975 "Bell Laboratories,Murry Hill, New Jersey 07974" "Phys.Rev. B, 11(1975)440"
157488 PRB0110440 SC properties not investigated CeBe13 Be13Ce1 Be 13 Ce 1 1975 cm3/mole 0.00164 AB13 NaZn13 A 10.372 K 0 Electronic properties of beryllides of the rare earth and some actinides 1975 "Bell Laboratories,Murry Hill, New Jersey 07974" "Phys.Rev. B, 11(1975)440"
157489 PRB0110440 SC properties not investigated PrBe13 Be13Pr1 Be 13 Pr 1 1975 cm3/mole 0.047 -8 AB13 NaZn13 A 10.369 K 0 Electronic properties of beryllides of the rare earth and some actinides 1975 "Bell Laboratories,Murry Hill, New Jersey 07974" "Phys.Rev. B, 11(1975)440"
157490 PRB0110440 SC properties not investigated NdBe13 Be13Nd1 Be 13 Nd 1 1975 2.5 2.63 AB13 NaZn13 A 10.348 K 0 Electronic properties of beryllides of the rare earth and some actinides 1975 "Bell Laboratories,Murry Hill, New Jersey 07974" "Phys.Rev. B, 11(1975)440"
157491 PRB0110440 SC properties not investigated. rambda-type SP anomaly at 9.05 K SmBe13 Be13Sm1 Be 13 Sm 1 1975 8.8 AB13 NaZn13 A 10.304 K 0 Electronic properties of beryllides of the rare earth and some actinides 1975 "Bell Laboratories,Murry Hill, New Jersey 07974" "Phys.Rev. B, 11(1975)440"
157492 PRB0110440 SC properties not investigated EuBe13 Be13Eu1 Be 13 Eu 1 1975 cm3/mole 0.00647 AB13 NaZn13 A 10.286 K 0 Electronic properties of beryllides of the rare earth and some actinides 1975 "Bell Laboratories,Murry Hill, New Jersey 07974" "Phys.Rev. B, 11(1975)440"
157493 PRB0110440 SC properties not investigated GdBe13 Be13Gd1 Be 13 Gd 1 1975 25 25.7 AB13 NaZn13 A 10.273 K 0 Electronic properties of beryllides of the rare earth and some actinides 1975 "Bell Laboratories,Murry Hill, New Jersey 07974" "Phys.Rev. B, 11(1975)440"
157494 PRB0110440 SC properties not investigated TbBe13 Be13Tb1 Be 13 Tb 1 1975 14 15.3 AB13 NaZn13 A 10.247 K 0 Electronic properties of beryllides of the rare earth and some actinides 1975 "Bell Laboratories,Murry Hill, New Jersey 07974" "Phys.Rev. B, 11(1975)440"
157495 PRB0110440 SC properties not investigated DyBe13 Be13Dy1 Be 13 Dy 1 1975 13 9.3 AB13 NaZn13 A 10.233 K 0 Electronic properties of beryllides of the rare earth and some actinides 1975 "Bell Laboratories,Murry Hill, New Jersey 07974" "Phys.Rev. B, 11(1975)440"
157496 PRB0110440 SC properties not investigated HoBe13 Be13Ho1 Be 13 Ho 1 1975 6 5.45 AB13 NaZn13 A 10.219 K 0 Electronic properties of beryllides of the rare earth and some actinides 1975 "Bell Laboratories,Murry Hill, New Jersey 07974" "Phys.Rev. B, 11(1975)440"
157497 PRB0110440 SC properties not investigated ErBe13 Be13Er1 Be 13 Er 1 1975 6 2.37 AB13 NaZn13 A 10.203 K 0 Electronic properties of beryllides of the rare earth and some actinides 1975 "Bell Laboratories,Murry Hill, New Jersey 07974" "Phys.Rev. B, 11(1975)440"
157498 PRB0110440 SC properties not investigated TmBe13 Be13Tm1 Be 13 Tm 1 1975 1 AB13 NaZn13 A 10.189 K 0 Electronic properties of beryllides of the rare earth and some actinides 1975 "Bell Laboratories,Murry Hill, New Jersey 07974" "Phys.Rev. B, 11(1975)440"
157499 PRB0110440 SC properties not investigated YbBe13 Be13Yb1 Be 13 Yb 1 1975 AB13 NaZn13 A 10.18 K 0 Electronic properties of beryllides of the rare earth and some actinides 1975 "Bell Laboratories,Murry Hill, New Jersey 07974" "Phys.Rev. B, 11(1975)440"
157500 PRB0110440 not SC above 0.45 K LuBe13 Be13Lu1 Be 13 Lu 1 1975 AB13 NaZn13 A 10.17 K 0.45 mJ/gat.K2 0.6 SP 930 SP Electronic properties of beryllides of the rare earth and some actinides 1975 "Bell Laboratories,Murry Hill, New Jersey 07974" "Phys.Rev. B, 11(1975)440"
157501 PRB0110440 SC properties not investigated "(La,Tm)Be13" Be13La0.75Tm0.25 Be 13 La 0.75 Tm 0.25 1975 AB13 NaZn13 A 10.394 K 0 Electronic properties of beryllides of the rare earth and some actinides 1975 "Bell Laboratories,Murry Hill, New Jersey 07974" "Phys.Rev. B, 11(1975)440"
157502 PRB0110440 not SC above 0.45 K ThBe13 Be13Th1 Be 13 Th 1 1975 AB13 NaZn13 A 10.383 K 0.45 mJ/gat.K2 507 SP 618 SP Electronic properties of beryllides of the rare earth and some actinides 1975 "Bell Laboratories,Murry Hill, New Jersey 07974" "Phys.Rev. B, 11(1975)440"
157503 PRB0110440 SC properties not investigated. no ordering down to 0.65 K. UBe13 Be13U1 Be 13 U 1 1975 -98 AB13 NaZn13 A 10.257 K 0 Electronic properties of beryllides of the rare earth and some actinides 1975 "Bell Laboratories,Murry Hill, New Jersey 07974" "Phys.Rev. B, 11(1975)440"
157504 SSC0480835 SC properties not investigated CeBe13 Be13Ce1 Be 13 Ce 1 1983 cm3/mol 2050 AB13 NaZn13 K mJ/Mol.K2 58.6 SP 895 SP ON THE VALENCE REGIME 1N THE (CexLa1-x)Be13 SYSTEM 1983 "L.M.S.E.S., Institut de Physique, 3, rue de I'Universite, 6084 Strasbourg, France" "Solid State Commun., 48(1983)835"
157505 SSC0480835 SC properties not investigated "(Ce,La)Be13" Be13Ce0.648La352 Be 13 Ce 0.648 La 352 1983 cm3/mol 2860 AB13 NaZn13 K mJ/Mol.K2 74 SP 815 SP ON THE VALENCE REGIME 1N THE (CexLa1-x)Be13 SYSTEM 1983 "L.M.S.E.S., Institut de Physique, 3, rue de I'Universite, 6084 Strasbourg, France" "Solid State Commun., 48(1983)835"
157506 SSC0480835 SC properties not investigated "(Ce,La)Be13" Be13Ce0.307La0.693 Be 13 Ce 0.307 La 0.693 1983 cm3/mol 5010 AB13 NaZn13 K mJ/Mol.K2 126.6 SP 705 SP ON THE VALENCE REGIME 1N THE (CexLa1-x)Be13 SYSTEM 1983 "L.M.S.E.S., Institut de Physique, 3, rue de I'Universite, 6084 Strasbourg, France" "Solid State Commun., 48(1983)835"
157507 SSC0480835 SC properties not investigated "(Ce,La)Be13" Be13Ce0.115La0.885 Be 13 Ce 0.115 La 0.885 1983 cm3/mol 7270 AB13 NaZn13 K mJ/Mol.K2 214 SP 720 SP ON THE VALENCE REGIME 1N THE (CexLa1-x)Be13 SYSTEM 1983 "L.M.S.E.S., Institut de Physique, 3, rue de I'Universite, 6084 Strasbourg, France" "Solid State Commun., 48(1983)835"
157508 SSC0480835 SC properties not investigated LaBe13 Be13La1 Be 13 La 1 1983 cm3/mol -290 AB13 NaZn13 K mJ/Mol.K2 7.8 SP 865 SP ON THE VALENCE REGIME 1N THE (CexLa1-x)Be13 SYSTEM 1983 "L.M.S.E.S., Institut de Physique, 3, rue de I'Universite, 6084 Strasbourg, France" "Solid State Commun., 48(1983)835"
157509 MSP0300092 "matrix(Ti2GeC) , minor phase (Ti2C)" T12GeC Ti2Ge1C1 Ti 2 Ge 1 C 1 1 2012 ABC2 Cr2AlC P6<3>/mmc A 3.078 12.92 hexagonal K 9.5 9.5 T "R(onset), GL" 8.1 MHC157509 A from Hc2 64 "Ti,Ge,graphite" "mixture - compact (8*8*2 mm3) - sealed in quartz ampoule - heat(1000C,24h) - reground - compact - heat(1200C,120h) - ANN(1500C,30min)" Superconductivity at 9.5 K in the Ti2GeC compound 2012 "Departamento de Engenharia de Materiais, Escola de Engenharia de Lorena ? USP, P.O. BOX 116, Lorena ? SP, 12600-970 Brazil" "Mat.Sci. Poland, 30(2012)92"
157510 NAT5250073 P-induced SC. High-Tc phase obtained by initial P loading at 200 K. Tc(max) = 203 K at P = 155 GPa. H2S H2S1 H 2 S 1 2015 AB2 K 203 203 MTC157510 T "R(onset), GL" 70 MHC157510 Conventional superconductivity at 203 kelvin at high pressures in the sulfur hydride system 2015 "Max-Planck-Institut fur Chemie, Hahn-Meitner-Weg 1, 55128 Mainz, Germany. 2Institut fur Anorganische Chemie und Analytische Chemie, Johannes Gutenberg-Universitat Mainz, Staudingerweg 9, 55099 Mainz, Germany." "Nature, 525(2015)73"
157511 NAT5250073 P-induced SC. High-Tc phase obtained by initial P loading at 200 K. Isotope ffect by deutorium. Tc(max) = 153 K at P = 173 GPa. D2S D2S1 D 2 S 1 2015 AB2 K 53 53 MTC157511 Conventional superconductivity at 203 kelvin at high pressures in the sulfur hydride system 2015 "Max-Planck-Institut fur Chemie, Hahn-Meitner-Weg 1, 55128 Mainz, Germany. 2Institut fur Anorganische Chemie und Analytische Chemie, Johannes Gutenberg-Universitat Mainz, Staudingerweg 9, 55099 Mainz, Germany." "Nature, 525(2015)73"
157512 NAT5250073 P-induced SC. High-Tc phase obtained by initial P loading at 200 K. Tc(max) = 135 K at P = 200 GPa. H2S H2S1 H 2 S 1 2015 AB2 K 135 135 MTC157512 Conventional superconductivity at 203 kelvin at high pressures in the sulfur hydride system 2015 "Max-Planck-Institut fur Chemie, Hahn-Meitner-Weg 1, 55128 Mainz, Germany. 2Institut fur Anorganische Chemie und Analytische Chemie, Johannes Gutenberg-Universitat Mainz, Staudingerweg 9, 55099 Mainz, Germany." "Nature, 525(2015)73"
157513 PHB4850084 Compositions: Ba7.4(vacancy)0.6Si46 by EDS Ba8Si46 Ba8Si46 Ba 8 Si 46 2016 A8B46 clathrate A 10.32056 K 7.5 7.5 30 Oe M-H curve 155 2 "Si,BaSi2,EuSi2" "High-T-High-P method (P=3GPa, 840C, 1h)" High-pressure synthesis and properties of the Eu-substituted Ba8-xEuxSi46 clathrates 2016 "Department of Physics, University of Science and Technology Beijing, Beijing 100083, China" "Physica B, 485(2016)84"
157514 PHB4850084 Compositions: Ba7.47Eu0.53Si46 by EDS. no diamag signal down to 2K "(Ba,Eu)8Si46" Ba7.5Eu0.5Si46 Ba 7.5 Eu 0.5 Si 46 2016 myu-B/Eu 7.74 2.3 A8B46 clathrate A 10.313 K 2 "Si,BaSi2,EuSi2" "High-T-High-P method (P=3GPa, 840C, 1h)" High-pressure synthesis and properties of the Eu-substituted Ba8-xEuxSi46 clathrates 2016 "Department of Physics, University of Science and Technology Beijing, Beijing 100083, China" "Physica B, 485(2016)84"
157515 PHB4850084 Compositions: Ba6.91Eu1.09Si46 by EDS. no diamag signal down to 2K "(Ba,Eu)8Si46" Ba7Eu1Si46 Ba 7 Eu 1 Si 46 2016 myu-B/Eu 6.6 4 A8B46 clathrate A 10.30913 K 2 "Si,BaSi2,EuSi2" "High-T-High-P method (P=3GPa, 840C, 1h)" High-pressure synthesis and properties of the Eu-substituted Ba8-xEuxSi46 clathrates 2016 "Department of Physics, University of Science and Technology Beijing, Beijing 100083, China" "Physica B, 485(2016)84"
157516 PHB5210013 Tc = 3 K at P = 3 GPa for phase I. Phase transition observed between 8 and 45 K. Topological SC due to interface state from proximity effect. Bulk modulus from lattice const. Bi2Te3 Bi2Te3 Bi 2 Te 3 3 2017 GPa 45 A2B3 R-3m A 4.3674 30.0228 "P = 1 GPa, T=8 K. See FIG-MLAT157516" K 7 7 MLAT157516 "Bi(5N),Te(5N)" "Bridgman method. mixture - pellet - sealed in quartz ampoule - heat(1000C,3days) - cool to 500C (5 C/h) - FC to RT" Structural stability and phase transition of Bi2Te3 under high pressure and low temperature 2017 "Faculty of Electrical Engineering and Computer Science, Ningbo University, Ningbo 315211, China" "Physica B, 521(2017)13"
157517 PHC4830094 Bi4O4S3 Bi4S3O4 Bi 4 S 3 O 4 1 2012 A3B4C4 I4/mmm A 3.978 41.07 K 4.02 4.5 4.02 0.3 4.02 33 Oe M-H curve 7.04 2 W/K.m 4.84 MTHC157517 uV/K -54.3 MTP157517 mOhm.cm 0.431 0.678 "Bi2S3,Bi2O3,S" "solid state reaction. mixture - pellet - sealed in silica tube - heat(510 C,10h) - reground - one more heat process" Superconducting and thermoelectric properties of new layered superconductor Bi4O4S3 2012 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, People's Republic of China" "Physica C, 483(2012)94"
157518 PCS1110070 "M = NH3. Increased hybridization between 4p(Se) and 4d(Mo), by intercalation, induce SC." Nax(NH3)yMoSe2 Na0.55M0.41Mo1Se2 Na 0.55 M 0.41 Mo 1 Se 2 2017 MX2 layered material K 5 5 Effect of molecular intercalation on the local structure of superconducting Nax(NH3)yMoSe2 system 2017 "CELLS - ALBA Synchrotron Radiation Facility, Carrer de la Llum 2-26, 08290, Cerdanyola del Valles, Barcelona, Spain" "J.Phys.Chem.Solids, 111(2017)70"
157519 PHC5420001 RRR = 57.6. RH(200K) = 1.05 cm3/C. DB value for 100K. SP (beta) = 2.54 mJ/mol.K4. (dC/gamma*Tc) = 1.05. GL(kappa) = 0.6. SUS(300K) = 1.18E-4 cm3/mol. BaNbS3 Ba1Nb1S3 Ba 1 Nb 1 S 3 1 2017 3.93 ABC3 P6<3>/mmc A 6.825 5.761 hexagonal K 1.89 0.01 1.89 Oe "R(0.9Rn), R(0.1Rn)" 1640 338 K/kOe "R=0.5,0.9,0.1Rn used" 1.02 3.46 0.68 MHC157519 A from Hc2 987 204 A London 2340 MSP157519 mJ/Mol.K2 1.35 SP 91.4 SP cm3/C 0.01067 n/cm3 5.86E+20 "BaCO3,Nb2O5" solid state reaction. (mixture-pellet-heat) - process several times using several heat conditions Superconductivity in quasi-one-dimensional BaNbS3 2017 "Physics Department, Montana State University, Bozeman, MT 59717-3840, USA" "Physica C, 542(2017)1"
157520 PHC5430058 RRR = R250/R4 = 6. Tc(P) measured by Tc(SUS) at H=2 Oe. Nb0.25Bi2Se3 Nb0.25Bi2Se3 Nb 0.25 Bi 2 Se 3 3 2017 R3[-]m K 3.25 3.4 0.5 3.4 MTC157520 K/GPa 0.47 mOhm.cm 0.25 n/cm3 1.50E+20 sample crystals cleaved naturally along the ab plane of the R3[-]m lattice An increase in Tc under hydrostatic pressure in the superconducting doped topological insulator Nb0.25Bi2Se3 2017 "Materials Science Division, Argonne National Laboratory, Argonne, IL 60439, United States" "Physica C, 543(2017)58"
157521 PRB082052502 crystals with a-axis long. RRR=30. Anisotropic thermal expansion. TCFIG shows volumetric expansion. (dTc/dP) calculated from thermal expansion using Ehrenfest relation. FM at 2.6 K. UCoGe U1Co1Ge1 U 1 Co 1 Ge 1 3 2010 2.6 ABC TiNiSi K 0.42 0.42 MEXP157521 K/GPa 0.98 single crystals grown bu Czochralski method Thermal expansion of the superconducting ferromagnet UCoGe 2010 "Van der Waals-Zeeman Institute, University of Amsterdam, Valckenierstraat 65, 1018 XE Amsterdam, The Netherlands" "Phys.Rev. B, 82(2010)052502"
157522 PRB082052502 "crystals with b-axis long. RRR=40. SP (gamma-0) = 0.04 J/mol.K2, which suggest two band SC. (dC/gamma*Tc) = 0.7." UCoGe U1Co1Ge1 U 1 Co 1 Ge 1 3 2010 ABC TiNiSi K 0.35 0.35 MSP157522 J/mol.K2 0.062 SP single crystals grown bu Czochralski method Thermal expansion of the superconducting ferromagnet UCoGe 2010 "Van der Waals-Zeeman Institute, University of Amsterdam, Valckenierstraat 65, 1018 XE Amsterdam, The Netherlands" "Phys.Rev. B, 82(2010)052502"
157523 PRB083060505 "Tetra-to-ortho transiton at T = 164 K, T = 152 K." CaFe2As2 Ca1Fe2As2 Ca 1 Fe 2 As 2 3 2011 AB2C2 ThCr2Si2 A 3.8977 11.755 Tetra-to-orth transition K 4 cm3/C MRH157523 Abrupt recovery of Fermi-liquid transport following the collapse of the c axis in CaFe2(As1-xPx)2 single crystals 2011 "Research Center for Low Temperature and Materials Sciences, Kyoto University, Kyoto 606-8501, Japan" "Phys.Rev. B, 83(2011)060505"
157524 PRB083060505 Coexist of SC and SDW. "CaFe2(As,P)2" Ca1Fe2As1.94P0.06 Ca 1 Fe 2 As 1.94 P 0.06 3 2011 AB2C2 ThCr2Si2 A 3.9048 11.6493 Tetra-to-orth transition K 11 11 MPH157524 cm3/C MRH157524 Abrupt recovery of Fermi-liquid transport following the collapse of the c axis in CaFe2(As1-xPx)2 single crystals 2011 "Research Center for Low Temperature and Materials Sciences, Kyoto University, Kyoto 606-8501, Japan" "Phys.Rev. B, 83(2011)060505"
157525 PRB083060505 "CaFe2(As,P)2" Ca1Fe2As1.9P0.1 Ca 1 Fe 2 As 1.9 P 0.1 3 2011 AB2C2 ThCr2Si2 Tetra-to-orth transition K 12.6 12.6 MTC157525 cm3/C MRH157523 Abrupt recovery of Fermi-liquid transport following the collapse of the c axis in CaFe2(As1-xPx)2 single crystals 2011 "Research Center for Low Temperature and Materials Sciences, Kyoto University, Kyoto 606-8501, Japan" "Phys.Rev. B, 83(2011)060505"
157526 PRB083060505 SC disappers. Collapsed tetragonal phase for x >= 0.055. "CaFe2(As,P)2" Ca1Fe2As1.89P0.11 Ca 1 Fe 2 As 1.89 P 0.11 3 2011 AB2C2 ThCr2Si2 A 3.9008 11.6585 Tetra-to-cllapsed tetra transition K 4 MPH157524 cm3/C MRH157524 Abrupt recovery of Fermi-liquid transport following the collapse of the c axis in CaFe2(As1-xPx)2 single crystals 2011 "Research Center for Low Temperature and Materials Sciences, Kyoto University, Kyoto 606-8501, Japan" "Phys.Rev. B, 83(2011)060505"
157527 PRB083060505 Tetra-to-collapsed tetra transition has thermal hysteress (cooling and warming). "CaFe2(As,P)2" Ca1Fe2As1.86P0.14 Ca 1 Fe 2 As 1.86 P 0.14 3 2011 AB2C2 ThCr2Si2 A 3.9258 11.5769 Tetra-to-cllapsed tetra transition K 20 20 MPH157524 Abrupt recovery of Fermi-liquid transport following the collapse of the c axis in CaFe2(As1-xPx)2 single crystals 2011 "Research Center for Low Temperature and Materials Sciences, Kyoto University, Kyoto 606-8501, Japan" "Phys.Rev. B, 83(2011)060505"
157528 PRB083060505 Tetra-to-collapsed tetra transition has thermal hysteress (cooling and warming). "CaFe2(As,P)2" Ca1Fe2As1.83P0.17 Ca 1 Fe 2 As 1.83 P 0.17 3 2011 AB2C2 ThCr2Si2 A 3.8728 11.4703 Tetra-to-cllapsed tetra transition K 28.8 28.8 Abrupt recovery of Fermi-liquid transport following the collapse of the c axis in CaFe2(As1-xPx)2 single crystals 2011 "Research Center for Low Temperature and Materials Sciences, Kyoto University, Kyoto 606-8501, Japan" "Phys.Rev. B, 83(2011)060505"
157529 PLA3812040 Bicrystal of Bi0.93Sn0.07 with 0.01 % Sn. bicrystal has 4.6 and 1 degree interface (small disorientation angle). Two step SC transitions (T1 and T3). Bi1-xSbx Bi0.93Sb0.07 Bi 0.93 Sb 0.07 2017 bicrystal with small angle interface K 4.35 8.48 6.415 kOe R(onset) MHC157529 Compound bicrystal seeds were prepared by cutting a single crystalline block into two parts Coexistence of superconductivity and weak ferromagnetism at the interface of twisting bicrystals of 3D topological insulator Bi1-xSbx(0.07 depends on B-direction (see TCFIG). Hc2(T) not given. Tc = 0.06 K same as T at H=0." PrRh2Zn20 Pr1Rh2Zn20 Pr 1 Rh 2 Zn 20 3 2012 Myu-B/f.u. 3.55 -4.8 AB2C20 CeCr2Al20 A 14.2702 K 0.06 0.06 MPH157538 50 "Pr(4N),Rh(3N),Zn(6N)" Zn-self flux method Simultaneous superconducting and antiferroquadrupolar transitions in PrRh2Zn20 2012 "Department of Quantum Matter, Graduate School of Advanced Sciences of Matter, Hiroshima University, Higashi-Hiroshima 739-8530, Japan" "Phys.Rev. B, 86(2012)184426"
157539 PRB087180502 "1.4 GeV <208>Pb ion irradiation. [penet] measured by TDR, absolute value not given. gap size (d/kTc) = 0.99 and 0.81 for irradiation 2T and 4T, obtained by analysis of T-dependence of d[penet]." Ba0.6K0.4Fe2As2 Ba0.6K0.4Fe2As2 Ba 0.6 K 0.4 Fe 2 As 2 3 2013 AB2C2 ThCr2Si2 K 39 39 nm TDR 1.98 1 Effect of heavy-ion irradiation on superconductivity in Ba0.6K0.4Fe2As2 2013 "Loomis Laboratory of Physics, University of Illinois at Urbana-Champaign, Urbana, Illinois 61801, USA" "Phys.Rev.B, 87(2013)180502"
157540 PRB087180502 "1.4 GeV <208>Pb ion irradiation. columnar distance = 10 nm, fluence = 1.0E+12 ions/cm2.s (columnar defect density = 21 T) not change Tc. [penet] not given, only d[penet](T)" Ba0.6K0.4Fe2As2 Ba0.6K0.4Fe2As2 Ba 0.6 K 0.4 Fe 2 As 2 3 2013 AB2C2 ThCr2Si2 K 36.8 36.8 nm TDR Effect of heavy-ion irradiation on superconductivity in Ba0.6K0.4Fe2As2 2013 "Loomis Laboratory of Physics, University of Illinois at Urbana-Champaign, Urbana, Illinois 61801, USA" "Phys.Rev.B, 87(2013)180502"
157541 PRB088054514 "d[penet] measured by TDR, [penet] values not given. d[penet] = A*T^n, n(Tc/3) = 2.59, 2.39, for before and after Pb-ion irradiation. small but clear decrease inTc after irradiation" "Ba(Fe,Co)2As2" Ba1Fe1.784Co0.216As2 Ba 1 Fe 1.784 Co 0.216 As 2 3 2013 AB2C2 ThCr2Si2 K 16 16 T "R(mid), Linear approx." 30 MHC157541 FeAs-flux method Effect of heavy-ion irradiation on London penetration depth in overdoped Ba(Fe1-xCox)2As2 2013 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev. B, 88(2013)054514"
157542 PRB088054514 "d[penet] measured by TDR, [penet] values not given. d[penet] = A*T^n, n(Tc/3) = 2.04, 1.94, for before and after Pb-ion irradiation. small but clear decrease inTc after irradiation" "Ba(Fe,Co)2As2" Ba1Fe1.746Co0.254As2 Ba 1 Fe 1.746 Co 0.254 As 2 3 2013 AB2C2 ThCr2Si2 K 8 8 T "R(mid), Linear approx." 10 MHC157542 FeAs-flux method Effect of heavy-ion irradiation on London penetration depth in overdoped Ba(Fe1-xCox)2As2 2013 "Ames Laboratory and Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev. B, 88(2013)054514"
157543 PRB093134507 "RRR = 1.1. SP (beta) = 0.29 mJ/mol.K4, (delta) = 4.96 uJ/mol.K6. (dC/gamma*Tc) = 1.46. e-ph = 0.41" ScV2Al20 Sc1V2Al20 Sc 1 V 2 Al 20 1 2016 2.993 AB2C20 CeCr2Al20 A 14.4978 K 1.03 1 1.03 T "R(mid), WHH" 0.333 T/K R(mid) 0.482 A from Hc2 314 MSP157543 mJ/mol.K2 29.6 SP 536 "R(3N),V(2N8),Al(5N)" "arc-melting(R:V:Al = 1:2:20/3) - 2nd arc-melting with addition of remaining Al - sealed in quartz tube - ANN(650C, 3w) - Q to water(RT)" "Rattling-enhanced superconductivity in MV2Al20 (M = Sc, Lu, Y) intermetallic cage compounds" 2016 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Phys.Rev. B, 93(2016)134507"
157544 PRB093134507 "RRR = 7.2. SP (beta) = 0.32 mJ/mol.K4, (delta) = 0.33 uJ/mol.K6. (dC/gamma*Tc) = 1.24. e-ph = 0.39" YV2Al20 Y1V2Al20 Y 1 V 2 Al 20 1 2016 3.158 AB2C20 CeCr2Al20 A 14.5378 K 0.61 0.6 0.61 T "R(mid), WHH" 0.028 T/K R(mid) 0.067 A from Hc2 1084 MSP157544 mJ/mol.K2 26.5 SP 516 "R(3N),V(2N8),Al(5N)" "arc-melting(R:V:Al = 1:2:20/3) - 2nd arc-melting with addition of remaining Al - sealed in quartz tube - ANN(650C, 3w) - Q to water(RT)" "Rattling-enhanced superconductivity in MV2Al20 (M = Sc, Lu, Y) intermetallic cage compounds" 2016 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Phys.Rev. B, 93(2016)134507"
157545 PRB093134507 "RRR = 12.2. SP (beta) = 0.3 mJ/mol.K4, (delta) = 0.525 uJ/mol.K6." LaV2Al20 La1V2Al20 La 1 V 2 Al 20 1 2016 3.316 AB2C20 CeCr2Al20 A 14.6212 K 0.48 mJ/mol.K2 19.6 SP 525 "R(3N),V(2N8),Al(5N)" "arc-melting(R:V:Al = 1:2:20/3) - 2nd arc-melting with addition of remaining Al - sealed in quartz tube - ANN(650C, 3w) - Q to water(RT)" "Rattling-enhanced superconductivity in MV2Al20 (M = Sc, Lu, Y) intermetallic cage compounds" 2016 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Phys.Rev. B, 93(2016)134507"
157546 PRB093134507 "RRR = 3.6. SP (beta) = 0.31 mJ/mol.K4, (delta) = 0.64 uJ/mol.K6. (dC/gamma*Tc) = 1.29. e-ph = 0.39" LuV2Al20 Lu1V2Al20 Lu 1 V 2 Al 20 1 2016 3.548 AB2C20 CeCr2Al20 A 14.513 K 0.6 0.57 0.6 T "R(mid), WHH" 0.207 T/K R(mid) 0.501 A from Hc2 399 MSP157546 mJ/mol.K2 30.1 SP 502 "R(3N),V(2N8),Al(5N)" "arc-melting(R:V:Al = 1:2:20/3) - 2nd arc-melting with addition of remaining Al - sealed in quartz tube - ANN(650C, 3w) - Q to water(RT)" "Rattling-enhanced superconductivity in MV2Al20 (M = Sc, Lu, Y) intermetallic cage compounds" 2016 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Phys.Rev. B, 93(2016)134507"
157547 PRB093174513 La-content =0.27 by WDS. T(monoclinic-to-triclinic) = 58 K. Ca0.74La0.26FeAs2 Ca0.74La26Fe1As2 Ca 0.74 La 26 Fe 1 As 2 3 2016 54 ABC2 Fe-112 A 10.3897 K 2 self-flux (CaAs:LaAs:FeAs:CoAs:As = 1.3:0.5:(1-x):x:0.7) method Effect of interlayer coupling on the coexistence of antiferromagnetism and superconductivity in Fe pnictide superconductors: A study of Ca0.74(1)La0.26(1)(Fe1-xCox)As2 single crystals 2016 "Department of Physics and Astronomy and California NanoSystems Institute, University of California, Los Angeles, California 90095, USA" "Phys.Rev. B, 93(2016)174513"
157548 PRB093174513 La-content =0.25 by WDS. T(monoclinic-to-triclinic) = 48.3 K. "Ca0.74La0.26(Fe,Co)As2" Ca0.74La26Fe0.992Co0.008As2 Ca 0.74 La 26 Fe 0.992 Co 0.008 As 2 3 2016 44.4 ABC2 Fe-112 A 10.3818 K 2 self-flux (CaAs:LaAs:FeAs:CoAs:As = 1.3:0.5:(1-x):x:0.7) method Effect of interlayer coupling on the coexistence of antiferromagnetism and superconductivity in Fe pnictide superconductors: A study of Ca0.74(1)La0.26(1)(Fe1-xCox)As2 single crystals 2016 "Department of Physics and Astronomy and California NanoSystems Institute, University of California, Los Angeles, California 90095, USA" "Phys.Rev. B, 93(2016)174513"
157549 PRB093174513 La-content =0.269 by WDS. T(monoclinic-to-triclinic) = 36.3 K. "Ca0.74La0.26(Fe,Co)As2" Ca0.74La26Fe0.975Co0.025As2 Ca 0.74 La 26 Fe 0.975 Co 0.025 As 2 3 2016 30.2 ABC2 Fe-112 A 10.3845 K 11.2 11.1 11.2 mOhm.cm 0.134 self-flux (CaAs:LaAs:FeAs:CoAs:As = 1.3:0.5:(1-x):x:0.7) method Effect of interlayer coupling on the coexistence of antiferromagnetism and superconductivity in Fe pnictide superconductors: A study of Ca0.74(1)La0.26(1)(Fe1-xCox)As2 single crystals 2016 "Department of Physics and Astronomy and California NanoSystems Institute, University of California, Los Angeles, California 90095, USA" "Phys.Rev. B, 93(2016)174513"
157550 PRB093174513 "La-content =0.249 by WDS. Anisotropy (Hc2) = 4.7, SP (dC/Tc) = 6.7 mJ/mol-Fe.K2." "Ca0.74La0.26(Fe,Co)As2" Ca0.74La26Fe0.954Co0.046As2 Ca 0.74 La 26 Fe 0.954 Co 0.046 As 2 3 2016 ABC2 Fe-112 A 10.3693 K 21.5 19.3 21.5 MPH157550 T R(mid) MHC157550 self-flux (CaAs:LaAs:FeAs:CoAs:As = 1.3:0.5:(1-x):x:0.7) method Effect of interlayer coupling on the coexistence of antiferromagnetism and superconductivity in Fe pnictide superconductors: A study of Ca0.74(1)La0.26(1)(Fe1-xCox)As2 single crystals 2016 "Department of Physics and Astronomy and California NanoSystems Institute, University of California, Los Angeles, California 90095, USA" "Phys.Rev. B, 93(2016)174513"
157551 PRB093174513 La-content =0.270 by WDS. "Ca0.74La0.26(Fe,Co)As2" Ca0.74La26Fe0.935Co0.065As2 Ca 0.74 La 26 Fe 0.935 Co 0.065 As 2 3 2016 ABC2 Fe-112 A 10.3667 K 16.2 16.4 16.2 self-flux (CaAs:LaAs:FeAs:CoAs:As = 1.3:0.5:(1-x):x:0.7) method Effect of interlayer coupling on the coexistence of antiferromagnetism and superconductivity in Fe pnictide superconductors: A study of Ca0.74(1)La0.26(1)(Fe1-xCox)As2 single crystals 2016 "Department of Physics and Astronomy and California NanoSystems Institute, University of California, Los Angeles, California 90095, USA" "Phys.Rev. B, 93(2016)174513"
157552 PRB093174513 La-content =0.259 by WDS. "Ca0.74La0.26(Fe,Co)As2" Ca0.74La26Fe0.967Co0.033As2 Ca 0.74 La 26 Fe 0.967 Co 0.033 As 2 3 2016 myu-B/Fe 0.6 ABC2 Fe-112 A 10.377 K 15.6 18.6 15.6 self-flux (CaAs:LaAs:FeAs:CoAs:As = 1.3:0.5:(1-x):x:0.7) method Effect of interlayer coupling on the coexistence of antiferromagnetism and superconductivity in Fe pnictide superconductors: A study of Ca0.74(1)La0.26(1)(Fe1-xCox)As2 single crystals 2016 "Department of Physics and Astronomy and California NanoSystems Institute, University of California, Los Angeles, California 90095, USA" "Phys.Rev. B, 93(2016)174513"
157553 PRB095174522 optical Ir-doped sample. Two gaps (d1 = 0.97 meV and d2 in DB) obtained by optical reflectivity measurements. "Eu(Fe,Ir)2As2" Eu1Fe1.82Ir0.18As2 Eu 1 Fe 1.82 Ir 0.18 As 2 3 2017 AB2C2 ThCr2Si2 K 18.9 21 19.95 meV 1.18 15 uOhm.cm 92.7 237 self-flux method Reentrant phases in electron-doped EuFe2As2: Spin glass and superconductivity 2017 "I. Physikalisches Institut, Universitut Stuttgart, Pfaffenwaldring 57, 70550 Stuttgart, Germany" "Phys.Rev. B, 95(2017)174522"
157554 PRB095174522 Reentrant SC in R(T) measurement. R(max) at 15K below Tc(=19.6 K. Two gaps (d1 = 2.3 meV and d2 in DB) obtained by optical reflectivity measurements. "Eu(Fe,Rh)2As2" Eu1Fe1.86Rh0.14As2 Eu 1 Fe 1.86 Rh 0.14 As 2 3 2017 AB2C2 ThCr2Si2 K 9.1 19.6 14.35 meV 2.65 15 uOhm.cm 92.7 204 self-flux method Reentrant phases in electron-doped EuFe2As2: Spin glass and superconductivity 2017 "I. Physikalisches Institut, Universitut Stuttgart, Pfaffenwaldring 57, 70550 Stuttgart, Germany" "Phys.Rev. B, 95(2017)174522"
157555 PRB095180503 Impurity phase = BiNb2Se3 NbxBi2Se3 Nb0.05Bi2Se3 Nb 0.05 Bi 2 Se 3 3 2017 R-3m rhombohedral Bi2Se3 structure K 2.57 2.57 T "ARPES, WHH" 0.75 "Nb(4N),Bi,Se" mixture - sealed in quartz tube - heat(800C) - slow cool to 650C for 5h - Q to ice water Unusual upper critical field behavior in Nb-doped bismuth selenides 2017 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "Phys.Rev. B, 95(2017)180503"
157556 PRB095180503 NbxBi2Se3 Nb0.2Bi2Se3 Nb 0.2 Bi 2 Se 3 3 2017 R-3m rhombohedral Bi2Se3 structure K 3.27 3.27 T "ARPES, WHH" 0.63 "Nb(4N),Bi,Se" mixture - sealed in quartz tube - heat(800C) - slow cool to 650C for 5h - Q to ice water Unusual upper critical field behavior in Nb-doped bismuth selenides 2017 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "Phys.Rev. B, 95(2017)180503"
157557 PRB095180503 (Bi2)m(Bi2Se3)n structure Nb dope in (Bi2) layer. Two set of Hc2(T) shown in HCFIG. NbxBi2Se3 Nb0.25Bi2Se3 Nb 0.25 Bi 2 Se 3 3 2017 K 3.31 3.31 "ARPES, WHH" 1.8 MHC157557 "Nb(4N),Bi,Se" mixture - sealed in quartz tube - heat(800C) - slow cool to 650C for 5h - Q to ice water Unusual upper critical field behavior in Nb-doped bismuth selenides 2017 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "Phys.Rev. B, 95(2017)180503"
157558 PRB095180503 NbxBi2Se3 Nb0.3Bi2Se3 Nb 0.3 Bi 2 Se 3 3 2017 K 3.47 3.27 3.27 uOhm.cm 219 "Nb(4N),Bi,Se" mixture - sealed in quartz tube - heat(800C) - slow cool to 650C for 5h - Q to ice water Unusual upper critical field behavior in Nb-doped bismuth selenides 2017 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "Phys.Rev. B, 95(2017)180503"
157559 PRB095180503 (Bi2)m(Bi2Se3)n structure Nb dope in (Bi2) layer NbxBi2Se3 Nb0.4Bi2Se3 Nb 0.4 Bi 2 Se 3 3 2017 K 3.52 3.52 T "ARPES, WHH" MHC157559 "Nb(4N),Bi,Se" mixture - sealed in quartz tube - heat(800C) - slow cool to 650C for 5h - Q to ice water Unusual upper critical field behavior in Nb-doped bismuth selenides 2017 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "Phys.Rev. B, 95(2017)180503"
157560 PRB095180503 (Bi2)m(Bi2Se3)n structure Nb dope in (Bi2) layer NbxBi2Se3 Nb1Bi2Se3 Nb 1 Bi 2 Se 3 3 2017 K 2.9 2.9 T "ARPES, WHH" MHC157560 "Nb(4N),Bi,Se" mixture - sealed in quartz tube - heat(800C) - slow cool to 650C for 5h - Q to ice water Unusual upper critical field behavior in Nb-doped bismuth selenides 2017 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "Phys.Rev. B, 95(2017)180503"
157561 PRB095184501 "[penet] measured by TDO. gap size obtained using two gap model (small d(0) = 1.25 kTc, large (inDB) ) analysis of [penet](T)." Lu3Os4Ge13 Lu3Os4Ge13 Lu 3 Os 4 Ge 13 3 2017 A3B4C12 Yb3Rh4Ge13 Pm3[-]n K 3.2 3.05 3.2 T "RES(mid), extrapolation" 4.8 MHC157561 A "TDO, s-wave model" 4736 5 Crystals grown using Czochralski method in tetra-arc furnace underAr atmosphere Nodeless superconductivity and the peak effect in the quasiskutterudites Lu3Os4Ge13 and Y3Ru4Ge13 2017 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310058, China" "Phys.Rev. B, 95(2017)184501"
157562 PRB095184501 "[penet] measured by TDO. gap size obtained using two gap model (small d(0) = 1.4 kTc, large (inDB) ) analysis of [penet](T)." Y3Ru4Ge13 Y3Ru4Ge13 Y 3 Ru 4 Ge 13 3 2017 A3B4C12 Yb3Rh4Ge13 Pm3[-]n K 2.8 2.3 2.8 T "RES(mid), extrapolation" 3.4 MHC157562 A "TDO, s-wave model" 4951 4.3 Crystals grown using Czochralski method in tetra-arc furnace underAr atmosphere Nodeless superconductivity and the peak effect in the quasiskutterudites Lu3Os4Ge13 and Y3Ru4Ge13 2017 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310058, China" "Phys.Rev. B, 95(2017)184501"
157563 PRB095184514 RRR=5. SP (beta) = 0.96 mJ/mol.K4. gamma(8.55) = gamma(n) in DB * gamma(0) (1.53mJ/mol.K2). (dC/gamma(n)*Tc) = 1.50. Hc(0) = 18mT. kappa(GL) = 25. e-ph = 0.48 Ag2Pd3S Ag2Pd3S1 Ag 2 Pd 3 S 1 3 2017 AB2C3 beta-Mn P4<1>32 A 7.2292 K 2.25 2.25 40 Oe M-H curve 3.5 1.8 T "RES(onset), linear approx." 0.63 MHC157563 nm from Hc2 23 nm "Hc, GL model" 568 3.48 14 MSP157563 mJ/mol.K2 7.02 SP 230 SP uOhm.cm 62.1 "Ag2S,Pd" "self-flux method. mixture(Ag2S:Pd = 1:3) - pellet - sealed in quartz tube - heat(1000C,48h) - slow cool to 500 C(5C/h) - Q to RT" Superconductivity in noncentrosymmetric Ag2Pd3S 2017 "National Institute for Materials Science, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan" "Phys.Rev. B, 95(2017)184514"
157564 PRB095195146 "RRR = 2.2. spin-glass, T = 14.1 K. T goes to zero at H = 250 Oe. Hc2(T) shows for H//ab." Eu(Fe0.93Rh0.07)2As2 Eu1Fe1.86Rh0.14As2 Eu 1 Fe 1.86 Rh 0.14 As 2 3 2017 16.6 AB2C2 ThCr2Si2 K 5.4 19.8 12.6 T "RES(onset), linear approx." 12 MHC157564 self-flux method Effects of pressure and magnetic field on the reentrant superconductor Eu(Fe0.93Rh0.07)2As2 2017 "1. Physikalisches Institut, Universitat Stuttgart, Pfaffenwaldring 57, D-70569 Stuttgart, Germany" "Phys.Rev. B, 95(2017)195146"
157565 PRB095195146 "RRR = 2.2. spin-glass, T = 14.1 K. T goes to zero at H = 250 Oe. Hc2(T) shows for H//c." Eu(Fe0.93Rh0.07)2As2 Eu1Fe1.86Rh0.14As2 Eu 1 Fe 1.86 Rh 0.14 As 2 3 2017 16.6 AB2C2 ThCr2Si2 K 5.4 19.8 12.6 T "RES(onset), linear approx." 10 MHC157565 self-flux method Effects of pressure and magnetic field on the reentrant superconductor Eu(Fe0.93Rh0.07)2As2 2017 "1. Physikalisches Institut, Universitat Stuttgart, Pfaffenwaldring 57, D-70569 Stuttgart, Germany" "Phys.Rev. B, 95(2017)195146"
157566 PRB095195146 "Pressure effects measured. For low T, coexistence of SC and c-axis FM components. For low T, n (R(T) = R0 + A*T^n) shown in MTC157566(dat)" Eu(Fe0.93Rh0.07)2As2 Eu1Fe1.86Rh0.14As2 Eu 1 Fe 1.86 Rh 0.14 As 2 3 2017 16.6 AB2C2 ThCr2Si2 K 5.4 19.8 12.6 MPH157566 self-flux method Effects of pressure and magnetic field on the reentrant superconductor Eu(Fe0.93Rh0.07)2As2 2017 "1. Physikalisches Institut, Universitat Stuttgart, Pfaffenwaldring 57, D-70569 Stuttgart, Germany" "Phys.Rev. B, 95(2017)195146"
157567 PRB095224506 "[penet] = 140 nm(in DB) at H=250Oe, = 180 nm at H=400 Oe. Two-gap model, d1 = 0.399 meV (n DB) and d2 = 0.109 meV (2d2/kTc) = 0.71. From muon-SR." PbTaSe2 Pb1Ta1Se2 Pb 1 Ta 1 Se 2 2017 ABC2 P6[-]m2 K 3.6 3.6 77 Oe M-H curve 40 0.5 T M-H curve 0.1 0.5 nm muon-SR 140 meV 0.399 2.57 16 (preheated-PbTaSe2 + PbCl2) - CVT(850 C) Muon-SR study of the noncentrosymmetric superconductor PbTaSe2 2017 "Department of Physics and Astronomy, McMaster University, Hamilton, Ontario, Canada L8S 4M1" "Phys.Rev. B, 95(2017)224506"
157568 PRB095220501 "data for H//ab. Commensurate-incommensurate transition at 473K. T = dTc/dP shows for Tc(onset). Tc(on) = 5.3, Tc(zero) = 4.6 K at P = 15 GPa. T = 472 K." 1T-TaSe2 Se2Ta1 Se 2 Ta 1 3 2017 AB2 TX2 P3[-]m1 164 1T-TaSe2 K MPH157568 K/GPa 0.148 single crystals grown by chemical vapor transport using iodine agent. Pressure-induced bulk superconductivity in a layered transition-metal dichalcogenide 1T-tantalum selenium 2017 "Institute for Solid State Physics, University of Tokyo, Kashiwanoha 5-1-5, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev. B, 95(2017)220501"
157569 PRB095220501 data for H//c 1T-TaSe2 Se2Ta1 Se 2 Ta 1 3 2017 AB2 TX2 P3[-]m1 164 1T-TaSe2 K MPH157569 K/GPa 0.231 single crystals grown by chemical vapor transport using iodine agent. Pressure-induced bulk superconductivity in a layered transition-metal dichalcogenide 1T-tantalum selenium 2017 "Institute for Solid State Physics, University of Tokyo, Kashiwanoha 5-1-5, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev. B, 95(2017)220501"
157570 PRB095224508 RRR = 115-120. (Hc2/dT) defined as R(onset) PbTaSe2 Pb1Ta1Se2 Pb 1 Ta 1 Se 2 3 2017 ABC2 P6[-]m2 A 3.415 9.382 K 3.9 3.96 3.79 3.79 MTC157570 kOe/K R(on) 96 MHC157570 204 R(T) Sngle crystals grown by chemical vapor transport using PbCl2 as agent Highly responsive ground state of PbTaSe2: Structural phase transition and evolution of superconductivity under pressure 2017 "Ames Laboratory, US DOE, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev. B, 95(2017)224508"
157571 PRB095224508 "(Hc2/dT) defined as R(onset). Phase boundary. sample has two Tc, Tc(zero) = 3.75 and 2.81 K." PbTaSe2 Pb1Ta1Se2 Pb 1 Ta 1 Se 2 3 2017 ABC2 P6[-]m2 K 3.75 3.78 3.11 3.11 MPH157571 kOe/K R(on) 0.45 MHC157571 215 R(T) Sngle crystals grown by chemical vapor transport using PbCl2 as agent Highly responsive ground state of PbTaSe2: Structural phase transition and evolution of superconductivity under pressure 2017 "Ames Laboratory, US DOE, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev. B, 95(2017)224508"
157572 PRB095224508 MDEB157572 shows P-dependence of Debye-T obtained from R(T). PbTaSe2 Pb1Ta1Se2 Pb 1 Ta 1 Se 2 3 2017 ABC2 P6[-]m2 K 2.07 2.21 2.14 MDEB157572 kOe/K R(on) 1.65 220 R(T) Sngle crystals grown by chemical vapor transport using PbCl2 as agent Highly responsive ground state of PbTaSe2: Structural phase transition and evolution of superconductivity under pressure 2017 "Ames Laboratory, US DOE, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev. B, 95(2017)224508"
157573 PRB095235149 "P-induced SC. optimal P = 16 GPa(Tc(max) = 4.2 K). T = 80 K(P=0). P-dependence of T in MTC157573. R(T), s(T), k(T) are measured." beta-Bi4I4 Bi4I4 Bi 4 I 4 3 2017 A4B4 K 4.2 0 4.2 MTC157573 Single crystals obtained by chemical reaction method using (Bi + HgI2) powders as a starting materials Pressure effect and superconductivity in the beta-Bi4I4 topological insulator 2017 "Institute of Physics, Ecole Polytechnique Federale de Lausanne (EPFL), CH-1015 Lausanne, Switzerland" "Phys.Rev. B, 95(2017)235149"
157575 PRB095241109 "P-induced SC. P = 12.7GPa, SC for 12.7 =< P < 15 GPa." BaFe2S3 Ba1Fe2S3 Ba 1 Fe 2 S 3 3 2017 AB2C3 Pnma "CsAg2I3 type structure, Fe ladder compound" K 11.2 0 11.2 MTC157575 T "RES(onset), WHH" 15.5 T/K R(onset) 2.16 MHC157575 Singe crystals grown by self-flux method Interplay of magnetism and superconductivity in the compressed Fe-ladder compound BaFe2Se3 2017 "Geophysical Laboratory, Carnegie Institution of Washington, Washington, DC 20015, USA" "Phys.Rev. B, 95(2017)241109"
157576 PRB096014504 "d[penet](T) measured by TDO for H//ab. exponent of [penet] = 2.83. Analysis of d[penet](T) shows good fit to two gap model (gap size = 1.6 and 3.8 , alpha = 0.13)" (Li0.8Fe0.2)OHFeSe Li0.8Fe1.2H1Se1O1 Li 0.8 Fe 1.2 H 1 Se 1 O 1 2017 K 40 40 100 T 79 nm from Hc2 2 A d[penet](T) analysis for T < 0.2Tc 636 174 mOhm.cm 0.1 Probing the superconducting gap structure of (Li1-xFex)OHFeSe 2017 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310058, China" "Phys.Rev. B, 96(2017)014504"
157577 PRB096014504 some inhomogeneity. d[penet](T) measured by TDO for H//ab. exponent of [penet] = 2.46. (Li0.8Fe0.2)OHFeSe Li0.8Fe1.2H1Se1O1 Li 0.8 Fe 1.2 H 1 Se 1 O 1 2017 K 37 37 100 mT M-H curve 4.5 2 A d[penet](T) analysis for T < 0.2Tc 1228 156 n/cm3 1.04E+21 Probing the superconducting gap structure of (Li1-xFex)OHFeSe 2017 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310058, China" "Phys.Rev. B, 96(2017)014504"
157578 PRB096014507 (dC/gamma*Tc) = 0.86. e-ph = 0.493. DOS = 2.38 /eV.fu. ThCoC2 Th1Co1C2 Th 1 Co 1 C 2 1 2017 ABC2 3 CeNiC2 Amm2 A 3.8044 4.5275 6.1401 K 2.47 2.63 2.59 2.47 MTC157582 T "RES(onset)," MHC157579 MSP157578 mJ/mol.K2 8.38 SP 449 SP "Arc-melting several times. ANN(1100C,2w, in evacuated quartz tube)" Tuning of superconductivity by Ni substitution into noncentrosymmetric ThCo1-xNixC2 2017 "Department of Physics and Astronomy, University of California?Irvine, Irvine, California 92697, USA" "Phys.Rev. B, 96(2017)014507"
157579 PRB096014507 (dC/gamma*Tc) = 0.36. e-ph = 0.553. DOS = 2.92 /eV.fu. "Th(Co,Ni)C2" Th1Co0.9Ni0.1C2 Th 1 Co 0.9 Ni 0.1 C 2 1 2017 ABC2 3 CeNiC2 Amm2 A 3.8194 4.5268 6.1396 K 4.38 4.22 4.51 4.38 T "RES(onset)," MHC157579 MSP157579 mJ/mol.K2 10.7 SP 454 SP uOhm.cm 29 159 "Arc-melting several times. ANN(1100C,2w, in evacuated quartz tube)" Tuning of superconductivity by Ni substitution into noncentrosymmetric ThCo1-xNixC2 2017 "Department of Physics and Astronomy, University of California?Irvine, Irvine, California 92697, USA" "Phys.Rev. B, 96(2017)014507"
157580 PRB096014507 (dC/gamma*Tc) = 0.95. e-ph = 0.610. DOS = 3.08 /eV.fu. "Th(Co,Ni)C2" Th1Co0.8Ni0.2C2 Th 1 Co 0.8 Ni 0.2 C 2 1 2017 ABC2 3 CeNiC2 Amm2 A 3.8209 4.5242 6.1383 K 7.65 7.76 7.82 7.65 T "RES(onset)," MHC157582 MSP157580 mJ/mol.K2 11.7 SP 542 SP uOhm.cm 48.1 137.4 "Arc-melting several times. ANN(1100C,2w, in evacuated quartz tube)" Tuning of superconductivity by Ni substitution into noncentrosymmetric ThCo1-xNixC2 2017 "Department of Physics and Astronomy, University of California?Irvine, Irvine, California 92697, USA" "Phys.Rev. B, 96(2017)014507"
157581 PRB096014507 (dC/gamma*Tc) = 1.25. e-ph = 0.677. DOS = 3.16 /eV.fu. "Th(Co,Ni)C2" Th1Co0.7Ni0.3C2 Th 1 Co 0.7 Ni 0.3 C 2 1 2017 ABC2 3 CeNiC2 Amm2 A 3.8229 4.52 6.1402 K 10.34 10.24 10.53 10.34 T "RES(onset)," MHC157582 MSP157581 mJ/mol.K2 12.5 SP 520 SP uOhm.cm 90.9 188 "Arc-melting several times. ANN(1100C,2w, in evacuated quartz tube)" Tuning of superconductivity by Ni substitution into noncentrosymmetric ThCo1-xNixC2 2017 "Department of Physics and Astronomy, University of California?Irvine, Irvine, California 92697, USA" "Phys.Rev. B, 96(2017)014507"
157582 PRB096014507 (dC/gamma*Tc) = 1.23. e-ph = 0.681. DOS = 3.46 /eV.fu. "Th(Co,Ni)C2" Th1Co0.6Ni0.4C2 Th 1 Co 0.6 Ni 0.4 C 2 1 2017 ABC2 3 CeNiC2 Amm2 A 3.8379 4.5167 6.1414 K 11.83 12.08 11.93 11.83 MTC157582 T "RES(onset)," MHC157582 MSP157582 mJ/mol.K2 13.7 SP 584 SP uOhm.cm 90.9 247.5 "Arc-melting several times. ANN(1100C,2w, in evacuated quartz tube)" Tuning of superconductivity by Ni substitution into noncentrosymmetric ThCo1-xNixC2 2017 "Department of Physics and Astronomy, University of California?Irvine, Irvine, California 92697, USA" "Phys.Rev. B, 96(2017)014507"
157583 PRB096014507 "Th(Co,Ni)C2" Th1Co0.5Ni0.5C2 Th 1 Co 0.5 Ni 0.5 C 2 1 2017 ABC2 3 CeNiC2 Amm2 A 3.8462 4.5115 6.1431 K 10.96 11.82 11.31 10.96 uOhm.cm 68.1 147.8 "Arc-melting several times. ANN(1100C,2w, in evacuated quartz tube)" Tuning of superconductivity by Ni substitution into noncentrosymmetric ThCo1-xNixC2 2017 "Department of Physics and Astronomy, University of California?Irvine, Irvine, California 92697, USA" "Phys.Rev. B, 96(2017)014507"
157584 PRL093247004 Li:Pd:B = 1.90:2.97:1 by ICP. Hc2(0) = 6.2T using linear approx. Li2Pd3B Li2Pd3B1 Li 2 Pd 3 B 1 1 2004 AB2C3 A 6.7523 "cubic, 6.7436 A at 7.6 K. composd of distorted Pd6B octahedron" K 8.2 8 0.6 8 T "RES(on),WHH" 4.8 T/K "R(on), T<7 K." 0.84 MHC157584 arc melting Superconductivity in the Metal Rich Li-Pd-B Ternary Boride 2004 "Institute for Materials Research, Tohoku University, 2-1-1, Katahira, Aoba-ku, Sendai 980-8577, Japan" "Phys.Rev.Lett., 93(2004)247004"
157585 SSS0680032 "Compositions, Nb:Os:Si = 32:33:35 by EDX, SUS(300) = 6.0E-5 emu/mol. molar weight = 311.2g/mol. unit cell = 0.1781 nm3" NbOsSi Nb1Os1Si1 Nb 1 Os 1 Si 1 1 2017 11.61 ABC TiNiSi Pnma A 6.2978 3.8872 7.2748 K 3.2 3.3 3.3 Oe M-H curve 35 2.5 uOhm.cm 0.617 "arc-melting method. mixture(1:1:1) - pellet - arc melting (several times) - ANN(1223K, 2days, in muffle furnace) - slow cool to RT (5K/h)" NbOsSi and TaOsSi - Two new superconducting ternary osmium silicides 2017 "Institut fur Anorganische und Analytische Chemie, Universitat Munster, Corrensstrasse 30, D-48149 Munster, Germany" "Solid State Science, 68(2017)32"
157586 SSS0680032 "Compositions, Ta:Os:Si = 31:34:25 by EDX, SUS(300) = 8.9 E-5 emu/mol. molar weight = 399.2g/mol. unit cell = 0.1772 nm3" TaOsSi Ta1Os1Si1 Ta 1 Os 1 Si 1 1 2017 14.96 ABC TiNiSi Pnma A 6.268 3.8936 7.2922 K 5.4 5.5 5.5 Oe M-H curve 67 2.5 "arc-melting method. mixture(1:1:1) - pellet - arc melting (several times) - ANN(1223K, 2days, in muffle furnace) - slow cool to RT (5K/h)" NbOsSi and TaOsSi - Two new superconducting ternary osmium silicides 2017 "Institut fur Anorganische und Analytische Chemie, Universitat Munster, Corrensstrasse 30, D-48149 Munster, Germany" "Solid State Science, 68(2017)32"
157587 SSS0680032 "SC not measured. Compositions, Zr:Os:Si = 29:34:35 by EDX, molar weight = 309.5 g/mol. unit cell = 0.1925 nm3" ZrOsSi Zr1Os1Si1 Zr 1 Os 1 Si 1 1 2017 10.68 ABC TiNiSi Pnma A 6.4046 4.0407 7.4366 K "arc-melting method. mixture(1:1:1) - pellet - arc melting (several times) - ANN(1223K, 2days, in muffle furnace) - slow cool to RT (5K/h)" NbOsSi and TaOsSi - Two new superconducting ternary osmium silicides 2017 "Institut fur Anorganische und Analytische Chemie, Universitat Munster, Corrensstrasse 30, D-48149 Munster, Germany" "Solid State Science, 68(2017)32"
157588 SSS0680032 "SC not measured. Compositions, Zr:Ir:Si = 30:32:? by EDX, molar weight = 311.5 g/mol. unit cell = 0.1910 nm3" ZrIrSi Zr1Ir1Si1 Zr 1 Ir 1 Si 1 1 2017 10.84 ABC TiNiSi Pnma A 6.5348 3.9535 7.3919 K "arc-melting method. mixture(1:1:1) - pellet - arc melting (several times) - ANN(1223K, 2days, in muffle furnace) - slow cool to RT (5K/h)" NbOsSi and TaOsSi - Two new superconducting ternary osmium silicides 2017 "Institut fur Anorganische und Analytische Chemie, Universitat Munster, Corrensstrasse 30, D-48149 Munster, Germany" "Solid State Science, 68(2017)32"
157589 SSS0680032 "SC not measured. Compositions, Hf:Ir:Si = 27:48:38 by EDX, molar weight = 398.8 g/mol. unit cell = 0.1874 nm3" HfIrSi Hf1Ir1Si1 Hf 1 Ir 1 Si 1 1 2017 14.13 ABC TiNiSi Pnma A 6.4634 3.9357 7.368 K "arc-melting method. mixture(1:1:1) - pellet - arc melting (several times) - ANN(1223K, 2days, in muffle furnace) - slow cool to RT (5K/h)" NbOsSi and TaOsSi - Two new superconducting ternary osmium silicides 2017 "Institut fur Anorganische und Analytische Chemie, Universitat Munster, Corrensstrasse 30, D-48149 Munster, Germany" "Solid State Science, 68(2017)32"
157590 SST027035004 RRR (R300/R4) = 218. SP (beta)= 0.0856 mJ/mol.K4. (delta) = 5.59E-4 mJ/mol.K6. (dC/gamma*Tc) = 0.86 ThCoC2 Th1Co1C2 Th 1 Co 1 C 2 1 2014 ABC2 CeNiC2 Amm2 38 A 3.8053 4.5321 6.1424 K 2.55 2.65 2.55 0.2 2.65 110 T RES(mid) MHC157590 MSP157590 mJ/mol.K2 8.38 SP 449 SP uOhm.cm 0.37 "Th(3N),Co(4N),C(5N)" "arc-melting 5times - wrapped in Ta foil - sealed in quartz tube - ANN(1100C,14 days)" Superconductivity in non-centrosymmetric ThCoC2 2014 "Department of Physics and Astronomy, University of California-Irvine, Irvine, CA 92697, USA" "Supercond.Sci.Technol., 27(2014)035004"
157591 SST030035007 "Impurity phase: Ir. SP (beta) = 1.17 mJ/mol.K4, (delta) = 10.7 uJ/mol.K6. (dC/gamma*Tc) = 1.36" BaIr2As2 Ba1Ir2As2 Ba 1 Ir 2 As 2 1 2017 AB2C2 ThCr2Si2 I4/mmm 139 A 4.052 12.787 K 2.35 2.45 0.1 2.4 92 T "RES(on), GL fitting" 0.2 0.08 1.8 mJ/mol.K2 14.6 SP 202 SP "BaAs,IrAs,Ir" "High-T-High-P synthesis. mixture(BaAs:IrAs:Ir=1:1:1) - ground - pellet - put in BN capsule - SIN(950 C, 2GPa, 2h)." Superconductivity in the ternary iridium-arsenide BaIr2As2 2017 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" "Supercond.Sci.Technol., 30(2017)035007"
157592 SST027104006 [penet] measured by TDR for Hac //c-axis. [penet] in DB shows the value of d[penet] at 0.3Tc (Ca1-xLax)10(Pt3As8)(Fe2As2)5 Ca9.6La0.4Pt3Fe10As18 Ca 9.6 La 0.4 Pt 3 Fe 10 As 18 1 2014 10-3-8 phase K 12.7 12.7 nm d[penet](0.3Tc) 133 single crystals grown by CaAs-flux method Doping-evolution of the superconducting gap in single crystals of (Ca1-xLax)10(Pt3As8) (Fe2As2)5 superconductor from London penetration depth measurements 2014 "The Ames Laboratory, Ames, IA 50011, USA" "Supercond.Sci.Technol., 27(2014)104006"
157593 SST027104006 [penet] measured by TDR for Hac //c-axis. [penet] in DB shows the value of d[penet] at 0.3Tc (Ca1-xLax)10(Pt3As8)(Fe2As2)5 Ca8.9La1.1Pt3Fe10As18 Ca 8.9 La 1.1 Pt 3 Fe 10 As 18 1 2014 10-3-8 phase K 23.3 23.3 nm d[penet](0.3Tc) 51.5 single crystals grown by CaAs-flux method Doping-evolution of the superconducting gap in single crystals of (Ca1-xLax)10(Pt3As8) (Fe2As2)5 superconductor from London penetration depth measurements 2014 "The Ames Laboratory, Ames, IA 50011, USA" "Supercond.Sci.Technol., 27(2014)104006"
157594 SST027104006 [penet] measured by TDR for Hac //c-axis. [penet] in DB shows the value of d[penet] at 0.3Tc (Ca1-xLax)10(Pt3As8)(Fe2As2)5 Ca8.2La1.8Pt3Fe10As18 Ca 8.2 La 1.8 Pt 3 Fe 10 As 18 1 2014 10-3-8 phase K 21.9 21.9 nm d[penet](0.3Tc) 49 single crystals grown by CaAs-flux method Doping-evolution of the superconducting gap in single crystals of (Ca1-xLax)10(Pt3As8) (Fe2As2)5 superconductor from London penetration depth measurements 2014 "The Ames Laboratory, Ames, IA 50011, USA" "Supercond.Sci.Technol., 27(2014)104006"
157595 SST027104006 [penet] measured by TDR for Hac //c-axis. [penet] in DB shows the value of d[penet] at 0.3Tc (Ca1-xLax)10(Pt3As8)(Fe2As2)5 Ca9.4La0.6Pt3Fe10As18 Ca 9.4 La 0.6 Pt 3 Fe 10 As 18 1 2014 10-3-8 phase K 18.2 18.2 nm d[penet](0.3Tc) 129 single crystals grown by CaAs-flux method Doping-evolution of the superconducting gap in single crystals of (Ca1-xLax)10(Pt3As8) (Fe2As2)5 superconductor from London penetration depth measurements 2014 "The Ames Laboratory, Ames, IA 50011, USA" "Supercond.Sci.Technol., 27(2014)104006"
157596 SST027104006 [penet] measured by TDR for Hac //c-axis. [penet] in DB shows the value of d[penet] at 0.3Tc (Ca1-xLax)10(Pt3As8)(Fe2As2)5 Ca9.1La0.9Pt3Fe10As18 Ca 9.1 La 0.9 Pt 3 Fe 10 As 18 1 2014 10-3-8 phase K 22.2 22.2 nm d[penet](0.3Tc) 41 single crystals grown by CaAs-flux method Doping-evolution of the superconducting gap in single crystals of (Ca1-xLax)10(Pt3As8) (Fe2As2)5 superconductor from London penetration depth measurements 2014 "The Ames Laboratory, Ames, IA 50011, USA" "Supercond.Sci.Technol., 27(2014)104006"
157600 JAP117013901 Curie-Weiss for T>2 K. R not to zero at P = 0. Hc2(T) at P = 2.5 GPa. Ferro-Mag hysteresis loop in M-H at 2K. Sr0.5Ce0.5FBiS2 Sr0.5Ce0.5F1Bi1S2 Sr 0.5 Ce 0.5 F 1 Bi 1 S 2 1 2015 emu/mol.Oe 1.19 My-B/f.u 2.97 -216.31 ABCD2 P4/nmm A 4.065 13.35 BiS2 layer SC K 2.7 2.7 MTC157600 T "RES(0.9Rn), WHH, P=2.5 GPa" 13.8 MHC157600 mOhm.cm 9.3 "R(Ce,Nd,Pr,Sm),F,Bi,S" "solid statereaction. stoichiometric powder mixture - in quartz tube(vac) - heat to 650C(2C/min) - SIN(650C,12h) - slow cool to RT" "Appearance of bulk superconductivity under hydrostatic pressure in Sr0.5RE0.5FBiS2 (RE = Ce, Nd, Pr, and Sm) compounds" 2015 "CSIR-National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi 110012, India" "J.Appl.Phys., 117(2015)013901"
157601 JAP117013901 P-induced SC. Curie-Weiss for T>2 K. Hc2(T) at P = 2.5 GPa. Sr0.5Nd0.5FBiS2 Sr0.5Nd0.5F1Bi1S2 Sr 0.5 Nd 0.5 F 1 Bi 1 S 2 1 2015 emu/mol.Oe 1.429 My-B/f.u 2.87 -72.61 ABCD2 P4/nmm A 4.056 13.38 BiS2 layer SC K 2 MTC157601 T "RES(0.9Rn), WHH, P=2.5 GPa" 11.6 MHC157601 mOhm.cm 8.81 "R(Ce,Nd,Pr,Sm),F,Bi,S" "solid statereaction. stoichiometric powder mixture - in quartz tube(vac) - heat to 650C(2C/min) - SIN(650C,12h) - slow cool to RT" "Appearance of bulk superconductivity under hydrostatic pressure in Sr0.5RE0.5FBiS2 (RE = Ce, Nd, Pr, and Sm) compounds" 2015 "CSIR-National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi 110012, India" "J.Appl.Phys., 117(2015)013901"
157602 JAP117013901 P-induced SC. Curie-Weiss for T>2 K. Hc2(T) at P = 2.5 GPa. Sr0.5Pr0.5FBiS2 Sr0.5Pr0.5F1Bi1S2 Sr 0.5 Pr 0.5 F 1 Bi 1 S 2 1 2015 emu/mol.Oe 1.24 My-B/f.u 3.14 -59.18 ABCD2 P4/nmm A 4.061 13.36 BiS2 layer SC K 2 MTC157602 T "RES(0.9Rn), WHH, P=2.5 GPa" 13.5 MHC157602 mOhm.cm 6.43 "R(Ce,Nd,Pr,Sm),F,Bi,S" "solid statereaction. stoichiometric powder mixture - in quartz tube(vac) - heat to 650C(2C/min) - SIN(650C,12h) - slow cool to RT" "Appearance of bulk superconductivity under hydrostatic pressure in Sr0.5RE0.5FBiS2 (RE = Ce, Nd, Pr, and Sm) compounds" 2015 "CSIR-National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi 110012, India" "J.Appl.Phys., 117(2015)013901"
157603 JAP117013901 P-induced SC. Curie-Weiss for T>2 K. Hc2(T) at P= 2.5 GPa. Ferro-Mag hysteresis loop in M-H at 2K. Sr0.5Sm0.5FBiS2 Sr0.5Sm0.5F1Bi1S2 Sr 0.5 Sm 0.5 F 1 Bi 1 S 2 1 2015 emu/mol.Oe 1.31 My-B/f.u 3.24 -160.9 ABCD2 P4/nmm A 4.053 13.4 BiS2 layer SC K 2 MTC157603 T "RES(0.9Rn), WHH, P=2.5 GPa" 14.5 MHC157603 mOhm.cm 10.8 "R(Ce,Nd,Pr,Sm),F,Bi,S" "solid statereaction. stoichiometric powder mixture - in quartz tube(vac) - heat to 650C(2C/min) - SIN(650C,12h) - slow cool to RT" "Appearance of bulk superconductivity under hydrostatic pressure in Sr0.5RE0.5FBiS2 (RE = Ce, Nd, Pr, and Sm) compounds" 2015 "CSIR-National Physical Laboratory, Dr. K.S. Krishnan Marg, New Delhi 110012, India" "J.Appl.Phys., 117(2015)013901"
157604 JPCM0165095 not SC. Curie-Weiss Law for T > 200 K. Einstein T = 82 K by SUS. EuFe4Sb12 Eu1Fe4Sb12 Eu 1 Fe 4 Sb 12 3 2004 My-B/Eu 7.7 89 7.903 AB4C12 skutterudite Im3[-] A 9.1725 LaFe4Sb12-type K 1.8 mJ/mol.K2 85 SP 348 SP "Eu(4N),T(3N),Sb(6N)" Sb-flux method. (Eu:T:Sb=1:4:20) - in carbon coated quartz tube - heat to 950 C for 24h - cool to 650 C (3 C/h) - Q to RT "Investigation of ferromagnetic filled skutterudite compounds EuT4Sb12 (T = Fe, Ru, Os)" 2004 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "J.Phys.:Condens.Matter, 16(2004)5095"
157605 JPCM0165095 not SC. Curie-Weiss Law for T > 20 K. Einstein T = 78 K by SUS. EuRu4Sb12 Eu1Ru4Sb12 Eu 1 Ru 4 Sb 12 3 2004 My-B/Eu 8 3 8.362 AB4C12 skutterudite Im3[-] A 9.2877 LaFe4Sb12-type K 1.8 mJ/mol.K2 73 SP 262 SP "Eu(4N),T(3N),Sb(6N)" Sb-flux method. (Eu:T:Sb=1:4:20) - in carbon coated quartz tube - heat to 950 C for 24h - cool to 650 C (3 C/h) - Q to RT "Investigation of ferromagnetic filled skutterudite compounds EuT4Sb12 (T = Fe, Ru, Os)" 2004 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "J.Phys.:Condens.Matter, 16(2004)5095"
157606 JPCM0165095 not SC. Curie-Weiss Law for T > 20 K. Einstein T = 74 K by SUS. EuOs4Sb12 Eu1Os4Sb12 Eu 1 Os 4 Sb 12 3 2004 My-B/Eu 7.3 8 9.721 AB4C12 skutterudite Im3[-] A 9.3255 LaFe4Sb12-type K 1.8 mJ/mol.K2 135 SP 304 SP "Eu(4N),T(3N),Sb(6N)" Sb-flux method. (Eu:T:Sb=1:4:20) - in carbon coated quartz tube - heat to 950 C for 24h - cool to 650 C (3 C/h) - Q to RT "Investigation of ferromagnetic filled skutterudite compounds EuT4Sb12 (T = Fe, Ru, Os)" 2004 "Department of Physics and Institute for Pure and Applied Physical Sciences, University of California, San Diego, La Jolla, CA 92093, USA" "J.Phys.:Condens.Matter, 16(2004)5095"
157607 PHB2810308 "not SC. RRR = 30. FM ordering at 18 K. Effective moment(my-B) and Curie-T(K) are (7.75, 20), (7.81, 21), (7.69, 21) for H//[100], [110], [111], respectively." EuRu4P12 Eu1Ru4P12 Eu 1 Ru 4 P 12 3 2000 My-B/Eu 7.75 20 AB4C12 skutterudite A 8.0516 K 1.7 Sn-flux method. mixture(Eu:Ru:P:Sn = 1:4:20:50) - in quartz tube(150mHg-Ar) - heat to 1000 C -hold(1w) - cool to 600C(2 C/h) - Q to water Magnetic and electrical properties of the filled skutterudite-type compound EuRu4P12 2000 "Department of Electrical and Electronic Engineering, Muroran Institute of Technology, 27-1 Mizumoto-cho, Muroran, Hokkaido 050-8585, Japan" "Physica B, 281&282(2000)308"
157608 PRB096060509 "P-induced SC. Tc shows Tc(max) at 23 GPa. (dTc/dP) for 7 < P < 13 GPa. R(Tc) = 3.54, 5.66, 6.41, 10.9 uOhm.cm for P = 7.2, 8.4, 21.2, 32.7 GPa,respectively" PdSe2 Pd1Se2 Pd 1 Se 2 3 2017 AB2 "PdS2-type at P - 0. pyrite(NiSe2) for 6 38 GPa" K 13.1 0 13.1 MTC157608 K/GPa -1.2 "Chemical vapor transport (CVT) method using poly-PdSe2, Iodine agent. thickness= 5 micron meter" Pressure-induced superconductivity up to 13.1 K in the pyrite phase of palladium diselenide PdSe2 2017 "Max Planck Institute for Chemical Physics of Solids, 01187 Dresden, Germany" "Phys.Rev.B, 96(2017)060509"
157609 PRB096064512 M=NH3. LiM intercalated SC. RRR=( = 12. R300/R50). Anisotropy(R300) = 900. Anisotropy(Hc2(0.5Rn)) = 12. Li0.36(NH3)yFe2Se2 Li0.36M1Fe2Se2 Li 0.36 M 1 Fe 2 Se 2 3 2017 I4/mmm A 3.7704 16.973 K 44.56 1.1 44.56 100 T "RES(0.5Rn), WHH" 208.7 29.5 T/K RES(0.5Rn) 6.83 0.97 MHC157609 cm3/C -0.000264 14 MRH157609 n/cm3 2.37E+22 FeSe grown by CVT Extreme anisotropy and anomalous transport properties of heavily electron doped Lix(NH3)yFe2Se2 single crystals 2017 "Department of Physics and Beijing Key Laboratory of Opto-electronic Functional Materials and Micro-nano Devices, Renmin University of China, Beijing 100872, China" "Phys.Rev.B, 96(2017)064512"
157610 JPS086124802 "Impurity phase: La2O2S, AgBiS2. The sample is not SC, will be non-SC upon carrier doping. Seebeck effect measured for 300 < T <800 K." La2O2Bi3AgS6 La2Bi3Ag1S6O2 La 2 Bi 3 Ag 1 S 6 O 2 1 2017 AB2C2D3E6 P4/nmm 129 A 4.0644 19.412 K 2 uV/K -23 MTP157610 "Bi2O3(3N),La2S3(3N),Ag(3N),Bi(5N),S(4N)" "Solid state reaction. mixture - pelletize - sealed in quartz tube - heat(700C,15h) - reground - in quartz tube - heat(720C,15h)" "Synthesis, Crystal Structure, and Physical Properties of New Layered Oxychalcogenide La2O2Bi3AgS6" 2017 "Graduate School of Science and Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 86(2017)124802"
157611 PRB096064528 "1 st order phase transition at Ts (=425 K at P=0 GPa). For P > 0.25 GPa, no phase transition." PbTaSe2 Pb1Ta1Se2 Pb 1 Ta 1 Se 2 3 2017 ABC2 P6[-]m2 "For T>Ts, P6[-]m2, For T= 3V. Tc(onset) = 9.4 K for V(G) = 4V. Hc2(onset) = 3 T for (V(G) = 3 V, H//(001)." MoS2 Mo1S2 Mo 1 S 2 3 2012 AB2 P6<3>/mmc 2H-type K 9.4 0 9.4 MoS2 crystal. 6-electrodes on (001) surface. Final treatment: channel area & Pt-electrode immersed in ionic liquid (DEME-TFSI) Electric-field-induced superconductivity at 9.4K in a layered transition metal disulphide MoS2 2012 "Department of Physics, The University of Tokyo, Bunkyo, Tokyo 113-0033, Japan" "Appl.Phys.Lett., 101(2012)042603"
157613 CEM1420057 not SC. seminon-like R(T). DOS = 0.99 states/eV. from susceptibility. samples BaNbS3+z for 2.93 <(3+z) < 3.06 BaNbS2.93 Ba1Nb1S2.93 Ba 1 Nb 1 S 2.93 1 1999 My-B/Nb 0.04 ABC3 P6<3>mmc A 6.862 5.742 Fe-22241 K 4.2 "BaCO3(4N),Nb2O5(3N)" mixture - in alumina boat - in quartz tube - heat to 700 C(30C/min) - sulfurization using CS2 by flowing Ar gas Resistance Anomaly in Quasi-One-Dimensional Sulfide BaNbS3+z 1999 "Department of Materials Science and Engineering, Muroran Institute of Technology, 27-1 Mizumoto-cho, Muroran, Hokkaido 050-8585, Japan" "J.Solid State Chem., 142(1999)57"
157614 JAC7310064 RRR = 7. energy gap from SP-alpha-model. Hc(0) = 167 Oe. kappa(GL) = 6.2. e-ph = 0.44. SP also measured for 0.3 < T < 300K ThNiSi Th1Ni1Si1 Th 1 Ni 1 Si 1 1 2018 ABC 2 LaPtSi I4<1>md A 4.0697 14.0891 Fe-22241 K 0.85 0.9 0.875 Oe "M-H curve, (1-t^2)" 30 20 0.48 T "RES(zero), GL" 0.126 0.09 0.37 MHC157614 nm from Hc2 53.6 nm from Hc1 316.2 3.528 14 MSP157614 mJ/mol.K2 8.54 SP 285 SP uOhm.cm 63 458 "Th(98 wt%),Ni(4N wt%),Si(5N wt%)" "arc-melting - wrapped in Mo foil - sealed in quartz ampoule - ANN(1173K,14 days)" Superconductivity in non-centrosymmetric ThNiSi 2018 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P.O.Box 1410, 50-950 Wroc?aw, Poland" "J.Alloys Compd., 731(2018)64"
157615 JAC7450460 Tc by M(T) at H=10 Oe. Ba2Ti2Fe2As4O Ba2Ti2Fe2As4O1 Ba 2 Ti 2 Fe 2 As 4 O 1 1 2018 AB2C2D2E4 I4/mmm A 4.0296 27.345 Fe-22241 K 21.1 21.1 mOhm.cm 0.558 "Ba,Ti,Fe,Cr,TiO2,CeO3(>=3N)" "solid state reaction. mixture - sealed in quartz ampule - heat to 900 C - hold(1day) - reground - SIN(1050C,3days) - ANN(500C,2days, in vac)" Cr doping effects on structure and superconductivity of Ba2Ti2Fe2As4O 2018 "Key Laboratory of Levitation Technology and Maglev (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "J.Alloys Compd., 745(2018)460"
157616 JAC7450460 Tc by M(T) at H=10 Oe. Tc(x) obeys A-G theory. Ba2Ti2(Fe1-xCrx)2As4O Ba2Ti2Fe1.98Cr0.02As4O1 Ba 2 Ti 2 Fe 1.98 Cr 0.02 As 4 O 1 1 2018 AB2C2D2E4 I4/mmm A 4.0297 27.3484 Fe-22241 K 19.1 19.1 MTC157616 mOhm.cm 0.747 "Ba,Ti,Fe,Cr,TiO2,CeO3(>=3N)" "solid state reaction. mixture - sealed in quartz ampule - heat to 900 C - hold(1day) - reground - SIN(1050C,3days) - ANN(500C,2days, in vac)" Cr doping effects on structure and superconductivity of Ba2Ti2Fe2As4O 2018 "Key Laboratory of Levitation Technology and Maglev (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "J.Alloys Compd., 745(2018)460"
157617 JAC7450460 Tc by M(T) at H=10 Oe. Ba2Ti2(Fe1-xCrx)2As4O Ba2Ti2Fe1.96Cr0.04As4O1 Ba 2 Ti 2 Fe 1.96 Cr 0.04 As 4 O 1 1 2018 AB2C2D2E4 I4/mmm A 4.0296 27.3585 Fe-22241 K 15.7 15.7 mOhm.cm 0.893 "Ba,Ti,Fe,Cr,TiO2,CeO3(>=3N)" "solid state reaction. mixture - sealed in quartz ampule - heat to 900 C - hold(1day) - reground - SIN(1050C,3days) - ANN(500C,2days, in vac)" Cr doping effects on structure and superconductivity of Ba2Ti2Fe2As4O 2018 "Key Laboratory of Levitation Technology and Maglev (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "J.Alloys Compd., 745(2018)460"
157618 JAC7450460 Tc by M(T) at H=10 Oe. Ba2Ti2(Fe1-xCrx)2As4O Ba2Ti2Fe1.94Cr0.06As4O1 Ba 2 Ti 2 Fe 1.94 Cr 0.06 As 4 O 1 1 2018 AB2C2D2E4 I4/mmm A 4.0299 27.359 Fe-22241 K 11.8 11.8 mOhm.cm 1.02 "Ba,Ti,Fe,Cr,TiO2,CeO3(>=3N)" "solid state reaction. mixture - sealed in quartz ampule - heat to 900 C - hold(1day) - reground - SIN(1050C,3days) - ANN(500C,2days, in vac)" Cr doping effects on structure and superconductivity of Ba2Ti2Fe2As4O 2018 "Key Laboratory of Levitation Technology and Maglev (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "J.Alloys Compd., 745(2018)460"
157619 JAC7450460 Tc by M(T) at H=10 Oe. Ba2Ti2(Fe1-xCrx)2As4O Ba2Ti2Fe1.92Cr0.08As4O1 Ba 2 Ti 2 Fe 1.92 Cr 0.08 As 4 O 1 1 2018 AB2C2D2E4 I4/mmm A 4.0301 27.3617 Fe-22241 K 8.21 8.21 mOhm.cm 1.11 "Ba,Ti,Fe,Cr,TiO2,CeO3(>=3N)" "solid state reaction. mixture - sealed in quartz ampule - heat to 900 C - hold(1day) - reground - SIN(1050C,3days) - ANN(500C,2days, in vac)" Cr doping effects on structure and superconductivity of Ba2Ti2Fe2As4O 2018 "Key Laboratory of Levitation Technology and Maglev (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "J.Alloys Compd., 745(2018)460"
157620 JAC7450460 Tc by M(T) at H=10 Oe. Ba2Ti2(Fe1-xCrx)2As4O Ba2Ti2Fe1.9Cr0.1As4O1 Ba 2 Ti 2 Fe 1.9 Cr 0.1 As 4 O 1 1 2018 AB2C2D2E4 I4/mmm A 4.0302 27.365 Fe-22241 K 5.29 5.29 MTC157616 mOhm.cm 1.24 "Ba,Ti,Fe,Cr,TiO2,CeO3(>=3N)" "solid state reaction. mixture - sealed in quartz ampule - heat to 900 C - hold(1day) - reground - SIN(1050C,3days) - ANN(500C,2days, in vac)" Cr doping effects on structure and superconductivity of Ba2Ti2Fe2As4O 2018 "Key Laboratory of Levitation Technology and Maglev (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "J.Alloys Compd., 745(2018)460"
157621 JAC7450460 Tc by M(T) at H=10 Oe. Tc(x) obeys A-G theory. Ba2Ti2(Fe1-xCrx)2As4O Ba2Ti2Fe1.88Cr0.12As4O1 Ba 2 Ti 2 Fe 1.88 Cr 0.12 As 4 O 1 1 2018 AB2C2D2E4 I4/mmm A 4.0305 27.3819 Fe-22241 K 2.89 2.89 mOhm.cm 1.32 "Ba,Ti,Fe,Cr,TiO2,CeO3(>=3N)" "solid state reaction. mixture - sealed in quartz ampule - heat to 900 C - hold(1day) - reground - SIN(1050C,3days) - ANN(500C,2days, in vac)" Cr doping effects on structure and superconductivity of Ba2Ti2Fe2As4O 2018 "Key Laboratory of Levitation Technology and Maglev (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "J.Alloys Compd., 745(2018)460"
157622 JAC7450460 not SC. Tc by M(T) at H=10 Oe. R(T) not to zero down to 1.8 K. Ba2Ti2(Fe1-xCrx)2As4O Ba2Ti2Fe1.84Cr0.16As4O1 Ba 2 Ti 2 Fe 1.84 Cr 0.16 As 4 O 1 1 2018 AB2C2D2E4 I4/mmm A 4.0306 27.3841 Fe-22241 K 1.8 mOhm.cm 1.46 "Ba,Ti,Fe,Cr,TiO2,CeO3(>=3N)" "solid state reaction. mixture - sealed in quartz ampule - heat to 900 C - hold(1day) - reground - SIN(1050C,3days) - ANN(500C,2days, in vac)" Cr doping effects on structure and superconductivity of Ba2Ti2Fe2As4O 2018 "Key Laboratory of Levitation Technology and Maglev (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "J.Alloys Compd., 745(2018)460"
157623 JPS086084710 "not SC down to 0.14 K. RRR = 22. AFM order (Tn=1.9K) decreases with H, desappear at H=3T." "CePt(In,Zn)4" Ce1Pt1In3.6Zn0.4 Ce 1 Pt 1 In 3.6 Zn 0.4 3 2017 My-B/Ce 2.49 1.9 ABC4 YNiAl4 Cmcm 63 A 4.5175 16.757 7.3668 K 0.14 uOhm.cm 2.6 58 "Ce(3N),Pt(3N),In(3N),Zn(3N)" Flux method. mixture(Ce:Pt:Zn:In = 2:2:2:94) - C-coated quartz tube - heat to 1000C(60C/h) - hold(0.3h) - cool to 750C(over 4h) -cool to 450C(over150h) - hold(48h) "Growth, Crystal Structure and Magnetic Characterization of Zn-Stabilized CePtIn4" 2017 "Department of Chemistry, Princeton University, Princeton, NJ 08544, U.S.A." "J.Phys.Soc.Jpn, 86(2017)084710"
157624 JPS086104701 M-content y not given. MyTiSe2 M1Ti1Se2 M 1 Ti 1 Se 2 1 2017 P3[-]m1 A 10.107 phase-II K 2.15 2.8 2.8 1T-TiSe2 by solid state reaction. co-intercalation Li & EDA or HEDA prepared by reaction (50C 2 weeks) in 0.01M solution of Li desolved in EDA or HMDA New Lithium- and Diamines-Intercalated Superconductors Lix(C2H8N2)yTiSe2 and Lix(C6H16N2)yTiSe2 2017 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 86(2017)104701"
157625 JPS086104701 "M=EDA(ethylenediamine, C2H8N2), M-content y not given." LixMyTiSe2 Li0.02M1Ti1Se2 Li 0.02 M 1 Ti 1 Se 2 1 2017 P3[-]m1 A 11.44 phase-III K 2.73 4 4 1T-TiSe2 by solid state reaction. co-intercalation Li & EDA or HEDA prepared by reaction (50C 2 weeks) in 0.01M solution of Li desolved in EDA or HMDA New Lithium- and Diamines-Intercalated Superconductors Lix(C2H8N2)yTiSe2 and Lix(C6H16N2)yTiSe2 2017 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 86(2017)104701"
157626 JPS086104701 "M=EDA(ethylenediamine, C2H8N2), M-content y not given. For phase-III, c = 11.57, Tc(SUS) = 4.0 K." LixMyTiSe2 Li0.04M1Ti1Se2 Li 0.04 M 1 Ti 1 Se 2 1 2017 P3[-]m1 A 10.117 "phase-II, phase-III (c=11.57 A)" K 2.42 2.8 2.8 1T-TiSe2 by solid state reaction. co-intercalation Li & EDA or HEDA prepared by reaction (50C 2 weeks) in 0.01M solution of Li desolved in EDA or HMDA New Lithium- and Diamines-Intercalated Superconductors Lix(C2H8N2)yTiSe2 and Lix(C6H16N2)yTiSe2 2017 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 86(2017)104701"
157627 JPS086104701 "M=EDA(ethylenediamine, C2H8N2), M-content y not given. For phase-III, c = 11.62, Tc(SUS) = ?? K." LixMyTiSe2 Li0.06M1Ti1Se2 Li 0.06 M 1 Ti 1 Se 2 1 2017 P3[-]m1 A 10.12 "phase-II, phase-III (c=11.62 A)" K 1.51 2.7 2.7 1T-TiSe2 by solid state reaction. co-intercalation Li & EDA or HEDA prepared by reaction (50C 2 weeks) in 0.01M solution of Li desolved in EDA or HMDA New Lithium- and Diamines-Intercalated Superconductors Lix(C2H8N2)yTiSe2 and Lix(C6H16N2)yTiSe2 2017 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 86(2017)104701"
157628 JPS086104701 "M=EDA(ethylenediamine, C2H8N2), M-content y not given. For phase-III, c = 11.58, Tc(SUS) = 4.2 K." LixMyTiSe2 Li0.08M1Ti1Se2 Li 0.08 M 1 Ti 1 Se 2 1 2017 P3[-]m1 A 10.1 "phase-II, phase-III (c=11.58 A)" K 1.38 2.7 2.7 1T-TiSe2 by solid state reaction. co-intercalation Li & EDA or HEDA prepared by reaction (50C 2 weeks) in 0.01M solution of Li desolved in EDA or HMDA New Lithium- and Diamines-Intercalated Superconductors Lix(C2H8N2)yTiSe2 and Lix(C6H16N2)yTiSe2 2017 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 86(2017)104701"
157629 JPS086104701 "M=EDA(ethylenediamine, C2H8N2), M-content y not given. For phase-III, c = 11.53, Tc(SUS) = 4.2 K." LixMyTiSe2 Li0.1M1Ti1Se2 Li 0.1 M 1 Ti 1 Se 2 1 2017 P3[-]m1 A 9.97 "phase-II, phase-III (c=11.53 A)" K 0.97 2.7 2.7 1T-TiSe2 by solid state reaction. co-intercalation Li & EDA or HEDA prepared by reaction (50C 2 weeks) in 0.01M solution of Li desolved in EDA or HMDA New Lithium- and Diamines-Intercalated Superconductors Lix(C2H8N2)yTiSe2 and Lix(C6H16N2)yTiSe2 2017 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 86(2017)104701"
157630 JPS086104701 "M=EDA(ethylenediamine, C2H8N2), M-content y not given. For phase-III, c = 11.59, Tc(SUS) = 4.2 K." LixMyTiSe2 Li0.15M1Ti1Se2 Li 0.15 M 1 Ti 1 Se 2 1 2017 P3[-]m1 A 9.94 "phase-II, phase-III(c=11.59A)" K 0.78 2.7 2.7 1T-TiSe2 by solid state reaction. co-intercalation Li & EDA or HEDA prepared by reaction (50C 2 weeks) in 0.01M solution of Li desolved in EDA or HMDA New Lithium- and Diamines-Intercalated Superconductors Lix(C2H8N2)yTiSe2 and Lix(C6H16N2)yTiSe2 2017 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 86(2017)104701"
157631 JPS086104701 "M=EDA(ethylenediamine, C2H8N2), M-content y not given. For phase-III, c = 11.55, Tc(SUS) = 4.2 K." LixMyTiSe2 Li0.2M1Ti1Se2 Li 0.2 M 1 Ti 1 Se 2 1 2017 P3[-]m1 A 6.11 "phase-I, phase-III(c=11.55A)" K 2.4 2.4 1T-TiSe2 by solid state reaction. co-intercalation Li & EDA or HEDA prepared by reaction (50C 2 weeks) in 0.01M solution of Li desolved in EDA or HMDA New Lithium- and Diamines-Intercalated Superconductors Lix(C2H8N2)yTiSe2 and Lix(C6H16N2)yTiSe2 2017 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 86(2017)104701"
157632 JPS086104701 "M=EDA(ethylenediamine, C2H8N2), M-content y not given. For phase-III, c = 11.52, Tc(SUS) = ?? K." LixMyTiSe2 Li0.3M1Ti1Se2 Li 0.3 M 1 Ti 1 Se 2 1 2017 P3[-]m1 A 9.96 "phase-II, phase-III (c=11.52A)" K 0.7 2.8 2.8 1T-TiSe2 by solid state reaction. co-intercalation Li & EDA or HEDA prepared by reaction (50C 2 weeks) in 0.01M solution of Li desolved in EDA or HMDA New Lithium- and Diamines-Intercalated Superconductors Lix(C2H8N2)yTiSe2 and Lix(C6H16N2)yTiSe2 2017 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 86(2017)104701"
157633 JPS086104701 "M=EDA(ethylenediamine, C2H8N2), M-content y not given. For phase-III, c = 11.43, Tc(SUS) = ?? K." LixMyTiSe2 Li1M1Ti1Se2 Li 1 M 1 Ti 1 Se 2 1 2017 P3[-]m1 A 10.12 "phase-II, phase-III (c=11.43 A)" K 2.8 2.8 1T-TiSe2 by solid state reaction. co-intercalation Li & EDA or HEDA prepared by reaction (50C 2 weeks) in 0.01M solution of Li desolved in EDA or HMDA New Lithium- and Diamines-Intercalated Superconductors Lix(C2H8N2)yTiSe2 and Lix(C6H16N2)yTiSe2 2017 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 86(2017)104701"
157634 JPS086104701 "M=HMDA(hexamethylenediamine, C6H16N2), M-content y not given." LixMyTiSe2 Li0.1M1Ti1Se2 Li 0.1 M 1 Ti 1 Se 2 1 2017 P3[-]m1 A 14.07 K 2.57 4.2 4.2 1T-TiSe2 by solid state reaction. co-intercalation Li & EDA or HEDA prepared by reaction (50C 2 weeks) in 0.01M solution of Li desolved in EDA or HMDA New Lithium- and Diamines-Intercalated Superconductors Lix(C2H8N2)yTiSe2 and Lix(C6H16N2)yTiSe2 2017 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 86(2017)104701"
157635 JPS086104701 "M=HMDA(hexamethylenediamine, C6H16N2), M-content y not given." LixMyTiSe2 Li0.2M1Ti1Se2 Li 0.2 M 1 Ti 1 Se 2 1 2017 P3[-]m1 A 14.08 K 2.66 4.2 4.2 1T-TiSe2 by solid state reaction. co-intercalation Li & EDA or HEDA prepared by reaction (50C 2 weeks) in 0.01M solution of Li desolved in EDA or HMDA New Lithium- and Diamines-Intercalated Superconductors Lix(C2H8N2)yTiSe2 and Lix(C6H16N2)yTiSe2 2017 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 86(2017)104701"
157636 JPS086113705 Tc(max) = 36.2 K at P=1.3 GPa. Tn defined as a peak of (dR/dT). "(Ca,La)FeAs2" Ca0.82La0.18Fe1As2 Ca 0.82 La 0.18 Fe 1 As 2 3 2017 47 ABC2 P2<1> 4 Fe-112 K 20.5 41.4 30.95 MPH157636 "Ca,La,FeAs,As" "mixture(x=0.1, 0= = 1.48 GPa. Tc shows Tc(max) at P = 3.82 GPa. Tn defined as a peak of (dR/dT). "(Ca,La)FeAs2" Ca0.79La0.21Fe1As2 Ca 0.79 La 0.21 Fe 1 As 2 3 2017 63 ABC2 P2<1> 4 Fe-112 K 31.8 40.9 0 36.35 MPH157637 "Ca,La,FeAs,As" "mixture(x=0.1, 0= = 3.4 GPa. Tc shows Tc(max) at P = 3.4 GPa. Tn defined as a peak of (dR/dT). "(Ca,La)FeAs2" Ca0.74La0.26Fe1As2 Ca 0.74 La 0.26 Fe 1 As 2 3 2017 63 ABC2 P2<1> 4 Fe-112 K 14 38.2 0 26.1 MPH157638 "Ca,La,FeAs,As" "mixture(x=0.1, 0=mmc A BaVS3-type K 2 MLAT157640 uV/K MTP157640 Ohm.cm 1.29 2.05 "mixture - in C-coated silica tube(vac) - heat to 1073 K(100K/h) - ANN(1073K, 7days) - reground - pelletize - in sealed silica tube - SIN(1073 K, 7days) - slow cool to RT" Phase transitions in quasi-one-dimensional chalcogenides of BaNbxS3 and BaTaxSe3 2004 "Laboratory for Solid State Chemistry, Okayama University of Science, Ridai-cho 1-1, Okayama 700-0005, Japan" "Mater.Res.Bull., 39(2004)561"
157641 MRB0390561 "not SC for 0.8 < x < 1.0, in BaNbxS3. Semicon-to-semicon(2) at 140 K." BaTa0.95Se3 Ba1Ta0.95Se3 Ba 1 Ta 0.95 Se 3 1 2004 ABC3 P6<3>mmc A 7.118 6.009 BaVS3-type K 2 uV/K MTP157641 "mixture - in C-coated silica tube(vac) - heat to 1073 K(100K/h) - ANN(1073K, 7days) - reground - pelletize - in sealed silica tube - SIN(1073 K, 7days) - slow cool to RT" Phase transitions in quasi-one-dimensional chalcogenides of BaNbxS3 and BaTaxSe3 2004 "Laboratory for Solid State Chemistry, Okayama University of Science, Ridai-cho 1-1, Okayama 700-0005, Japan" "Mater.Res.Bull., 39(2004)561"
157642 PHB2810308 "not SC. RRR = 30. Curie-Weiss law for T > 50 K. (Curie-T, moment) = (20,7.75), (21,7.81), (21,7.69) for H//[100], [110], [111] direction, respectively. magnetic order = FM." EuRu4P12 Eu1Ru2P12 Eu 1 Ru 2 P 12 3 2000 My-B/Eu 7.75 20 AB4C12 skutterudite A 8.0516 K 1.7 Flux method. mixture(Eu:Ru:P:Sn = 1:4:20:50) - in quartz tube(Ar) - heat to 1000 C - keep (1 week) - cool to 600 C (2C/h) - Q to water - remove Sn-flux Magnetic and electrical properties of the filled skutterudite-type compound EuRu4P12 2000 "Department of Electrical and Electronic Engineering, Muroran Institute of Technology, 27-1 Mizumoto-cho, Muroran, Hokkaido 050-8585, Japan" "Physica B, 281&282(2000)308"
157643 PHC3880445 not SC LixCsSr2Nb3O10 Cs1Sr2Nb3O10 Cs 1 Sr 2 Nb 3 O 10 1 2003 AB2C3D10 Layered perovskite K 2 "host sample by solid state reaction. (sample + 25% napfthalene) - pelletize - SIN - Li-intercalation(1.0M LiClO4/PC/Pt, three electrode cell)" Superconductivity in the electrochemically Li-intercalated niobates with the layered perovskite structure 2003 "Department of Applied Physics, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Physica C, 388-389(2003)445"
157644 PHC3880445 Li-intercalated sample. SC volume by measuring M. Tc does not depend on Li-content (x>0.05) LixCsSr2Nb3O10 Li0.05Cs1Sr2Nb3O10 Li 0.05 Cs 1 Sr 2 Nb 3 O 10 1 2003 AB2C3D10 Layered perovskite K 5.43 5.43 0.06 "host sample by solid state reaction. (sample + 25% napfthalene) - pelletize - SIN - Li-intercalation(1.0M LiClO4/PC/Pt, three electrode cell)" Superconductivity in the electrochemically Li-intercalated niobates with the layered perovskite structure 2003 "Department of Applied Physics, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Physica C, 388-389(2003)445"
157645 PHC3880445 Li-intercalated sample.. SC volume by measuring M. Tc does not depend on Li-content (x>0.05) LixCsSr2Nb3O10 Li0.1Cs1Sr2Nb3O10 Li 0.1 Cs 1 Sr 2 Nb 3 O 10 1 2003 AB2C3D10 Layered perovskite K 5.43 5.43 3.11 "host sample by solid state reaction. (sample + 25% napfthalene) - pelletize - SIN - Li-intercalation(1.0M LiClO4/PC/Pt, three electrode cell)" Superconductivity in the electrochemically Li-intercalated niobates with the layered perovskite structure 2003 "Department of Applied Physics, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Physica C, 388-389(2003)445"
157646 PHC3880445 Li-intercalated sample. SC volume by measuring M. Tc does not depend on Li-content (x>0.05) LixCsSr2Nb3O10 Li0.2Cs1Sr2Nb3O10 Li 0.2 Cs 1 Sr 2 Nb 3 O 10 1 2003 AB2C3D10 Layered perovskite K 5.21 5.21 0.33 "host sample by solid state reaction. (sample + 25% napfthalene) - pelletize - SIN - Li-intercalation(1.0M LiClO4/PC/Pt, three electrode cell)" Superconductivity in the electrochemically Li-intercalated niobates with the layered perovskite structure 2003 "Department of Applied Physics, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Physica C, 388-389(2003)445"
157647 PHC3880445 Li-intercalated sample. SC volume by measuring M. Tc does not depend on Li-content (x>0.05) LixCsSr2Nb3O10 Li0.3Cs1Sr2Nb3O10 Li 0.3 Cs 1 Sr 2 Nb 3 O 10 1 2003 AB2C3D10 Layered perovskite K 5.22 5.22 0.1 "host sample by solid state reaction. (sample + 25% napfthalene) - pelletize - SIN - Li-intercalation(1.0M LiClO4/PC/Pt, three electrode cell)" Superconductivity in the electrochemically Li-intercalated niobates with the layered perovskite structure 2003 "Department of Applied Physics, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Physica C, 388-389(2003)445"
157648 PHC3880445 Li-intercalated sample. SC volume by measuring M. Tc does not depend on Li-content (x>0.05) LixCsSr2Nb3O10 Li0.5Cs1Sr2Nb3O10 Li 0.5 Cs 1 Sr 2 Nb 3 O 10 1 2003 AB2C3D10 Layered perovskite K 5 5 0.03 "host sample by solid state reaction. (sample + 25% napfthalene) - pelletize - SIN - Li-intercalation(1.0M LiClO4/PC/Pt, three electrode cell)" Superconductivity in the electrochemically Li-intercalated niobates with the layered perovskite structure 2003 "Department of Applied Physics, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Physica C, 388-389(2003)445"
157649 PHC3880445 Li-intercalated sample. SC volume by measuring M. Tc does not depend on Li-content (x>0.05) LixCsSr2Nb3O10 Li0.6Cs1Sr2Nb3O10 Li 0.6 Cs 1 Sr 2 Nb 3 O 10 1 2003 AB2C3D10 Layered perovskite K 5.01 5.01 0.02 "host sample by solid state reaction. (sample + 25% napfthalene) - pelletize - SIN - Li-intercalation(1.0M LiClO4/PC/Pt, three electrode cell)" Superconductivity in the electrochemically Li-intercalated niobates with the layered perovskite structure 2003 "Department of Applied Physics, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Physica C, 388-389(2003)445"
157650 PHC3880445 Li-intercalated sample. Li-content not given LixRbCa2Nb3O10 Li0.1Rb1Ca2Nb3O10 Li 0.1 Rb 1 Ca 2 Nb 3 O 10 1 2003 AB2C3D10 A 7.721 Layered perovskite K 3.51 3.51 "host sample by solid state reaction. (sample + 25% napfthalene) - pelletize - SIN - Li-intercalation(1.0M LiClO4/PC/Pt, three electrode cell)" Superconductivity in the electrochemically Li-intercalated niobates with the layered perovskite structure 2003 "Department of Applied Physics, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Physica C, 388-389(2003)445"
157651 PHC3880445 Li-intercalated sample. Li-content not given LixKCa2Nb3O10 Li0.1K1Ca2Nb3O10 Li 0.1 K 1 Ca 2 Nb 3 O 10 1 2003 AB2C3D10 A 7.7326 Layered perovskite K 5.51 5.51 MTC157651 "host sample by solid state reaction. (sample + 25% napfthalene) - pelletize - SIN - Li-intercalation(1.0M LiClO4/PC/Pt, three electrode cell)" Superconductivity in the electrochemically Li-intercalated niobates with the layered perovskite structure 2003 "Department of Applied Physics, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Physica C, 388-389(2003)445"
157652 PHC3880445 Li-intercalated sample. Li-content not given LixCsCa2Nb3O10 Li0.1Cs1Ca2Nb3O10 Li 0.1 Cs 1 Ca 2 Nb 3 O 10 1 2003 AB2C3D10 A 7.7404 Layered perovskite K 5.62 5.62 "host sample by solid state reaction. (sample + 25% napfthalene) - pelletize - SIN - Li-intercalation(1.0M LiClO4/PC/Pt, three electrode cell)" Superconductivity in the electrochemically Li-intercalated niobates with the layered perovskite structure 2003 "Department of Applied Physics, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Physica C, 388-389(2003)445"
157653 PHC3880445 Li-intercalated sample. Li-content not given LixRbSr2Nb3O10 Li0.1Rb1Sr2Nb3O10 Li 0.1 Rb 1 Sr 2 Nb 3 O 10 1 2003 AB2C3D10 A 7.7891 Layered perovskite K 6.02 6.02 "host sample by solid state reaction. (sample + 25% napfthalene) - pelletize - SIN - Li-intercalation(1.0M LiClO4/PC/Pt, three electrode cell)" Superconductivity in the electrochemically Li-intercalated niobates with the layered perovskite structure 2003 "Department of Applied Physics, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Physica C, 388-389(2003)445"
157654 PHC3880445 Li-intercalated sample. Li-content not given LixCsBa2Nb3O10 Li0.1Cs1Ba2Nb3O10 Li 0.1 Cs 1 Ba 2 Nb 3 O 10 1 2003 AB2C3D10 A 7.9743 Layered perovskite K 2 "host sample by solid state reaction. (sample + 25% napfthalene) - pelletize - SIN - Li-intercalation(1.0M LiClO4/PC/Pt, three electrode cell)" Superconductivity in the electrochemically Li-intercalated niobates with the layered perovskite structure 2003 "Department of Applied Physics, Tohoku University, Aoba-yama 08, Aoba-ku, Sendai 980-8579, Japan" "Physica C, 388-389(2003)445"
157655 PRB065064504 P-induced SC. P = 93 GPa. Tc(max) = 17.4 K at P = 185 GPa ( beta-Po structure S S1 S 1 2002 A K 17.4 0 17.4 MTC157655 S(5N5) were loaded in Mao-Bell cell. Tc measured by ac-SUS. Superconductivity in the chalcogens up to multimegabar pressures 2002 "Geophysical Laboratory and Center for High Pressure Research, Carnegie Institution of Washington, 5251 Broad Branch Road NW, Washington, D.C. 20015" "Phys.Rev.B, 65(2002)064504"
157656 PRB093224512 Energy gap = 10.5 meV for [penet]ab analysis using s-wave model. Anisotropy(T=0) = [penet]c/[penet]ab = 5.6. (Li1.84Fe0.16)OHFe0.98Se Li1.84H1Fe1.14Se1O1 Li 1.84 H 1 Fe 1.14 Se 1 O 1 2016 ABCDE P4/nmm K 40.5 40.5 nm muon-SR 286 1830 meV 10.5 "(0.012 mol selenourea, 0.00375 mol Fe, 4g LiOH H2O, K0.8Fe1.6Se2) - mixed with 5 ml deionized water - stainles autoclave - heat(1100 C, 3days)" Proximity-induced superconductivity within the insulating (Li0.84Fe0.16)OH layers in (Li0.84Fe0.16)OHFe0.98Se 2016 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 93(2016)224512"
157657 PRB094180510 "SC properties measured by TDO method. d[penet](T) = A*T^2, indicate the presence of point node in SC order parameter." Nb0.25Bi2Se3 Nb0.25Bi2Se3 Nb 0.25 Bi 2 Se 3 3 2016 K 3.5 3.5 100 Oe "TDO, GL" 75 T "TDO, Extrapolation" 1.8 0.9 MHC157657 nm from Hc2 19 9.5 nm "Hc1, GL" 237 "Details, See arXiv:1512.04554v2" Evidence of nodes in the order parameter of the superconducting doped topological insulator NbxBi2Se3 via penetration depth measurements 2016 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439, USA" "Phys.Rev.B, 94(2016)180510"
157658 PRB096094523 "optimal doping. Irradiation(5.5 MeV proton. fluence = 4E+16 /cm2) effect. point defect, interdefect distance = 2.8 nm. dTc/d(phi) = 0.3E+16 K/cm2." "Ba(Fe,Rh)2As2" Ba1Fe1.864Rh0.136As2 Ba 1 Fe 1.864 Rh 0.136 As 2 3 2017 AB2C2 ThCr2Si2 K 23.3 23.3 23.3 MTC157658 uOhm.cm 106 230 Effect of proton irradiation on the normal-state low-energy excitations of Ba(Fe1-xRhx)2As2 superconductors 2017 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 96(2017)094523"
157659 PRB096094523 "over doped. Irradiation(5.5 MeV proton. fluence = 4E+16 /cm2) effect. point defect, interdefect distance = 2.8 nm. dTc/d(phi) = 0.2E+16 K/cm2." "Ba(Fe,Rh)2As2" Ba1Fe1.786Rh0.214As2 Ba 1 Fe 1.786 Rh 0.214 As 2 3 2017 AB2C2 ThCr2Si2 K 13.3 13.3 MTC157658 uOhm.cm 100 230 Effect of proton irradiation on the normal-state low-energy excitations of Ba(Fe1-xRhx)2As2 superconductors 2017 "Department of Physics, University of Pavia-CNISM, I-27100 Pavia, Italy" "Phys.Rev.B, 96(2017)094523"
157660 PRB096134503 "M=NH3. LiM-intercalate to FeTe0.6Se0.4. (-dHc2/dT) is 11.5(onset) and 5.9(zero) for H//ab, 5.1(on) and 2.1(zero) for H//c. Anisotropy(RES) = 92 at 50K, (Hc2) = 6.5 at 19K." Lix(NH3)yFe2Te1.2Se0.8 Li0.32M1Fe2Se0.8Te1.2 Li 0.32 M 1 Fe 2 Se 0.8 Te 1.2 3 2017 AB2C2 2 I4/mmm 139 "LiM-intercalated Fe(Te,Se)" K 20.84 21 2.97 21 T "RES(0.5Rn), WHH" 119.8 42.8 T/K RES(0.5Rn) 9 3.2 MHC157660 mOhm.cm 1.77 169 4.36 294 cm3/C 0.00926 9 MRH157660 Low temperature ammonothermal technique Enhanced superconductivity and anisotropy of FeTe0.6Se0.4 single crystals with Li-NH3 intercalation 2017 "Department of Physics and Beijing Key Laboratory of Opto-electronic Functional Materials & Micro-nano Devices, Renmin University of China, Beijing 100872, China" "Phys.Rev.B, 96(2017)134503"
157661 PRB096134503 FeTe0.6Se0.4 Fe1Se0.4Te0.6 Fe 1 Se 0.4 Te 0.6 2017 AB 2 P4/nmm 129 K 8 8 cm3/C 0.00068 9 MRH157661 Enhanced superconductivity and anisotropy of FeTe0.6Se0.4 single crystals with Li-NH3 intercalation 2017 "Department of Physics and Beijing Key Laboratory of Opto-electronic Functional Materials & Micro-nano Devices, Renmin University of China, Beijing 100872, China" "Phys.Rev.B, 96(2017)134503"
157662 PRB096134504 "Energy gap and [penet] obtained by TF-muon-SR analysis. Two-band gaps , d1 = 4.3 (in DB) and d2=1.76 meV." Ga41Mo8 Ga41Mo8 Ga 41 Mo 8 3 2017 A8B41 K 9.8 9.8 T muon-SR 3.77 3 MHC157662 nm muon-SR 216.2 meV 4.3 16 Crystals grown by Ga flux method Two-gap superconductivity in Mo8Ga41 and its evolution upon vanadium substitution 2017 "Department of Chemistry, Lomonosov Moscow State University, 119991 Moscow, Russia" "Phys.Rev.B, 96(2017)134504"
157663 PRB096134504 Energy gap and [penet] obtained by TF-muon-SR analysis. Ga41Mo7V Ga41Mo7V1 Ga 41 Mo 7 V 1 3 2017 A8B41 K 9.2 9.2 T muon-SR MHC157663 nm muon-SR 292 meV 1.87 4.72 16 Crystals grown by Ga flux method Two-gap superconductivity in Mo8Ga41 and its evolution upon vanadium substitution 2017 "Department of Chemistry, Lomonosov Moscow State University, 119991 Moscow, Russia" "Phys.Rev.B, 96(2017)134504"
157664 PRB096144502 "R(T) exponent n=1.3 for T < 150 K. From muon-SR analysis, two-gap model (larger in DB, lower d2=0.3 meV, 2d2/kTc = 0.25). carrier = 4.97E+27 /m^3. SP (dC/Tc) = 25 mJ/mol.K2" ThAsFeN Th1As1Fe1N1 Th 1 As 1 Fe 1 N 1 1 2017 ABCD 2 oxypnictide P4/nmm 129 A 4.0367 8.5262 ZrCuSiAs-type K 30 30 30 Oe M-H curve 30 5 T 8 26 T/K 2.4 nm "muon-SR, London" 375 meV 5.2 4.29 16 MSP157664 solid state reaction method Multigap superconductivity in ThAsFeN investigated using muon-SR measurements 2017 "ISIS Facility, Rutherford Appleton Laboratory, Chilton, Didcot Oxon OX11 0QX, United Kingdom" "Phys.Rev.B, 96(2017)144502"
157665 PRB096184503 P = 0 GPa. Tc(max) at P = 3.9 GPa. Tc goes to zero at P = 17 GPa. "(Ca,La)(Fe,Co)As2" Ca0.8La0.2Fe0.98Co0.02As2 Ca 0.8 La 0.2 Fe 0.98 Co 0.02 As 2 3 2017 ABC2 Fe-112 K 37.5 37.5 MTC157665 mm3/C -2.47E-08 MRH157665 self-flux method "Correlation between non-Fermi-liquid behavior and superconductivity in (Ca, La)(Fe,Co)As2 iron arsenides: A high-pressure study" 2017 "Advanced Functional Materials Laboratory and Department of Physics, Changshu Institute of Technology, Changshu 215500, China" "Phys.Rev.B, 96(2017)184503"
157666 PRB096184503 P= 14.1 GPa. Hc2(0) = 5.31 T using two band fitting. "(Ca,La)(Fe,Co)As2" Ca0.8La0.2Fe0.98Co0.02As2 Ca 0.8 La 0.2 Fe 0.98 Co 0.02 As 2 3 2017 ABC2 Fe-112 K 8.95 8.95 T "RES, WHH" 5.24 T/K RES 0.85 MHC157666 self-flux method "Correlation between non-Fermi-liquid behavior and superconductivity in (Ca, La)(Fe,Co)As2 iron arsenides: A high-pressure study" 2017 "Advanced Functional Materials Laboratory and Department of Physics, Changshu Institute of Technology, Changshu 215500, China" "Phys.Rev.B, 96(2017)184503"
157667 PRB096184503 P = 12.1 GPa. Hc2(0) = 13.92 T using two band fitting. "(Ca,La)(Fe,Co)As2" Ca0.8La0.2Fe0.98Co0.02As2 Ca 0.8 La 0.2 Fe 0.98 Co 0.02 As 2 3 2017 ABC2 Fe-112 K 16.08 16.08 T "RES, WHH" 11.81 T/K RES 1.05 MHC157667 self-flux method "Correlation between non-Fermi-liquid behavior and superconductivity in (Ca, La)(Fe,Co)As2 iron arsenides: A high-pressure study" 2017 "Advanced Functional Materials Laboratory and Department of Physics, Changshu Institute of Technology, Changshu 215500, China" "Phys.Rev.B, 96(2017)184503"
157668 PRB096184503 P = 9.8 GPa. Hc2(0) = 30.61 T using two band fitting. "(Ca,La)(Fe,Co)As2" Ca0.8La0.2Fe0.98Co0.02As2 Ca 0.8 La 0.2 Fe 0.98 Co 0.02 As 2 3 2017 ABC2 Fe-112 K 23.89 23.89 T "RES, WHH" 17.79 T/K RES 1.08 MHC157668 self-flux method "Correlation between non-Fermi-liquid behavior and superconductivity in (Ca, La)(Fe,Co)As2 iron arsenides: A high-pressure study" 2017 "Advanced Functional Materials Laboratory and Department of Physics, Changshu Institute of Technology, Changshu 215500, China" "Phys.Rev.B, 96(2017)184503"
157669 PRB096214505 Tc(0.99Rn) = 3.5 K. Tc(max) = 3.7 K at P=0.95 GPa. "(La,Ti)OBiS2" La0.8Ti0.2Bi1S2O1 La 0.8 Ti 0.2 Bi 1 S 2 O 1 1 2017 ABCD2 CeOBiS2 BiS2-layer SC K 2.19 2.48 2.76 2.48 MTC157669 mOhm.cm 12.3 solid state reaction method High-pressure effects on nonfluorinated BiS2-based superconductors La1-xMxOBiS2 (M =Ti and Th) 2017 "1Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 96(2017)214505"
157670 PRB096214505 Tc(0.99Rn) = 2.88 K. Tc(max) = 3.14 K at P=0.42 GPa. "(La,Th)OBiS2" La0.85Th0.15Bi1S2O1 La 0.85 Th 0.15 Bi 1 S 2 O 1 1 2017 ABCD2 CeOBiS2 BiS2-layer SC K 2.46 2.64 2.8 2.64 MTC157670 mOhm.cm 7.32 solid state reaction method High-pressure effects on nonfluorinated BiS2-based superconductors La1-xMxOBiS2 (M =Ti and Th) 2017 "1Materials Science and Engineering Program, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 96(2017)214505"
157671 PRB096214506 no SP jump at Tc. maybe not bulk SC. Semicond-like R(T). "La(O,F)BiS2" La1F0.5Bi1S2O0.5 La 1 F 0.5 Bi 1 S 2 O 0.5 3 2017 ABCD2 CeOBiS2 A 4.0512 13.41 BiS2-layer SC K 2.2 0.7 2.2 mOhm.cm 5.8 CsCl/NaCl-flux method. typical crystal size = 1 x 1 mm2 Superconducting gap symmetry of the BiS2-based superconductor LaO0.5F0.5BiSSe elucidated through specific heat measurements 2017 "Graduate School of Science and Technology, Niigata University, Niigata 950-2181, Japan" "Phys.Rev.B, 96(2017)214506"
157672 PRB096214506 "SP (beta)=1.34 mJ/mol.K4, (delta)=0.0198 mJ/mol.K6. gamma(0) = 0.60 mJ/mol.K2. (dC/gamma*Tc) = 2.31" "La(O,F)BiSe2" La1F0.5Bi1Se2O0.5 La 1 F 0.5 Bi 1 Se 2 O 0.5 3 2017 ABCD2 CeOBiS2 A 4.1074 13.486 BiS2-layer SC K 3.95 0.02 3.95 T "RES, GL" 18.5 0.572 MHC157672 nm from Hc2 24 0.742 4.5 14 mJ/mol.K2 3.59 SP 194 SP mOhm.cm 0.47 CsCl/NaCl-flux method. typical crystal size = 1 x 1 mm2 Superconducting gap symmetry of the BiS2-based superconductor LaO0.5F0.5BiSSe elucidated through specific heat measurements 2017 "Graduate School of Science and Technology, Niigata University, Niigata 950-2181, Japan" "Phys.Rev.B, 96(2017)214506"
157673 PRB096220506 "Type-I SC. Surface layer SC(Tc=1.33 K = 28.9 K. Tm(FM) = 15.0 K. FSC(ferromagnetic superconductor) below Tc "RbEu(Fe,Ni)4As4" Rb1Eu1Fe3.8Ni0.2As4 Rb 1 Eu 1 Fe 3.8 Ni 0.2 As 4 1 2017 My-B/Eu 8 24.5 ABC4D4 CaRb1144 A 3.8909 13.274 RbEu-1144 K 23 22.1 23 MPH157684 "Rb(2N75),As(5N),Eu(3N),Fe(4N8),Ni(2N75)" "precrsor(EuAs,FeAs,NiAs,RbFe2As2 with 5%excess Rb) + Fe powder - mixture - sealed in Ta tube in quartz ampoule - heat(1133 K, 20h)" RbEu(Fe1-xNix)4As4: From a ferromagnetic superconductor to a superconducting ferromagnet 2017 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 96(2017)224510"
157685 PRB096224510 T = 31.1 K. Tm(FM) = 15.0 K. FSC(ferromagnetic superconductor) below Tc "RbEu(Fe,Ni)4As4" Rb1Eu1Fe3.76Ni0.24As4 Rb 1 Eu 1 Fe 3.76 Ni 0.24 As 4 1 2017 My-B/Eu 7.65 24.3 ABC4D4 CaRb1144 A 3.8878 13.268 RbEu-1144 K 18.1 15.9 18.1 "Rb(2N75),As(5N),Eu(3N),Fe(4N8),Ni(2N75)" "precrsor(EuAs,FeAs,NiAs,RbFe2As2 with 5%excess Rb) + Fe powder - mixture - sealed in Ta tube in quartz ampoule - heat(1133 K, 20h)" RbEu(Fe1-xNix)4As4: From a ferromagnetic superconductor to a superconducting ferromagnet 2017 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 96(2017)224510"
157686 PRB096224510 T = 35.0 K. Tm(FM) = 15.1 K. SFM(superconducting ferromagnet) below Tc. "RbEu(Fe,Ni)4As4" Rb1Eu1Fe3.72Ni0.28As4 Rb 1 Eu 1 Fe 3.72 Ni 0.28 As 4 1 2017 My-B/Eu 7.46 24.2 ABC4D4 CaRb1144 A 3.8889 13.263 RbEu-1144 K 11.2 11.2 "Rb(2N75),As(5N),Eu(3N),Fe(4N8),Ni(2N75)" "precrsor(EuAs,FeAs,NiAs,RbFe2As2 with 5%excess Rb) + Fe powder - mixture - sealed in Ta tube in quartz ampoule - heat(1133 K, 20h)" RbEu(Fe1-xNix)4As4: From a ferromagnetic superconductor to a superconducting ferromagnet 2017 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 96(2017)224510"
157687 PRB096224510 T = 33.6 K. Tm(FM) = 14.7 K. SFM(superconducting ferromagnet) below Tc. "RbEu(Fe,Ni)4As4" Rb1Eu1Fe3.68Ni0.32As4 Rb 1 Eu 1 Fe 3.68 Ni 0.32 As 4 1 2017 My-B/Eu 7.85 24.4 ABC4D4 CaRb1144 A 3.8877 13.261 RbEu-1144 K 2.1 2.1 "Rb(2N75),As(5N),Eu(3N),Fe(4N8),Ni(2N75)" "precrsor(EuAs,FeAs,NiAs,RbFe2As2 with 5%excess Rb) + Fe powder - mixture - sealed in Ta tube in quartz ampoule - heat(1133 K, 20h)" RbEu(Fe1-xNix)4As4: From a ferromagnetic superconductor to a superconducting ferromagnet 2017 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 96(2017)224510"
157688 PRB096224510 T = 31.3 K. Tm(FM) = 14.7 K. "RbEu(Fe,Ni)4As4" Rb1Eu1Fe3.64Ni0.36As4 Rb 1 Eu 1 Fe 3.64 Ni 0.36 As 4 1 2017 My-B/Eu 7.79 24.8 ABC4D4 CaRb1144 A 3.8892 13.256 RbEu-1144 K "Rb(2N75),As(5N),Eu(3N),Fe(4N8),Ni(2N75)" "precrsor(EuAs,FeAs,NiAs,RbFe2As2 with 5%excess Rb) + Fe powder - mixture - sealed in Ta tube in quartz ampoule - heat(1133 K, 20h)" RbEu(Fe1-xNix)4As4: From a ferromagnetic superconductor to a superconducting ferromagnet 2017 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 96(2017)224510"
157689 PRB096224510 T = 29.4 K. Tm(FM) = 14.8 K. "RbEu(Fe,Ni)4As4" Rb1Eu1Fe3.6Ni0.4As4 Rb 1 Eu 1 Fe 3.6 Ni 0.4 As 4 1 2017 My-B/Eu 7.74 24.4 ABC4D4 CaRb1144 A 3.8877 13.25 RbEu-1144 K "Rb(2N75),As(5N),Eu(3N),Fe(4N8),Ni(2N75)" "precrsor(EuAs,FeAs,NiAs,RbFe2As2 with 5%excess Rb) + Fe powder - mixture - sealed in Ta tube in quartz ampoule - heat(1133 K, 20h)" RbEu(Fe1-xNix)4As4: From a ferromagnetic superconductor to a superconducting ferromagnet 2017 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 96(2017)224510"
157690 MAT1503.05331 "P-induced SC. Pc = 90 GPa. SC properties in DB shows for P=200 GPa. Cell volume V(P) , See HallFig = MLAT157690" 2H-MoS2 Mo1S2 Mo 1 S 2 3 2015 AB2 TX2 K 12.2 0 12.2 MTC157690 T "RES(0.9Rn), GL fitting" 7.33 MHC157690 MLAT157690 Ultrahigh Pressure Superconductivity in Molybdenum Disulfide 2015 "Key Laboratory of Materials Physics, Institute of Solid State Physics, Hefei Institutes of Physical Science, Chinese Academy of Sciences, Hefei 230031, China" cond-mat/1503.05331
157691 PRB097014501 RRR = 38. SP (beta) = 66.4 uJ/mol.K4. (dC/gamma*Tc) = 1.26. e-ph = 0.5. GL(kappa) = 2.34. Debye-T = 398 K from R(T). BeAu Au1Be1 Au 1 Be 1 1 2018 AB FeSi P2<1>3 198 A 4.6699 "For 860K < T, CsCl-type, Pm3[-]m, #221" K 3.3 3.3 3.3 100 Oe "M-H curve, GL fitting" 32 Oe "See FIG, GL fitting" 335 MHC157691 nm from Hc2 99.1 nm Hc1 231.7 meV 0.26 3.72 14 MSP157691 mJ/mol.K2 1.94 SP 388 SP uOhm.cm 0.97 37 "Be(3N),Au(3N5)" "arc melting. mixture(Be:Au = 51:49). Sealed in Ta-tube in alumina crucible - ANN(400C, 48h)" Noncentrosymmetric superconductor BeAu 2018 "Max-Planck-Institut fur Chemische Physik fester Stoffe, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Phys.Rev.B, 97(2018)014501"
157692 PRB097014514 STS measured. gap vanishes at about 3.2 K. Tc = 3.05 K and Hc2 = 0.45 T assuming (2d/kTc) = 3.528(BCS) and BCS type T-dependence . TlNi2Se2 Tl1Ni2Se2 Tl 1 Ni 2 Se 2 3 2018 AB2C2 ThCr2Si2 I4/mmm A 3.87 13.435 Ni-based SC K 3.7 3.7 "Tl,Ni,Se" "self-flux method. stoichiometric(Tl,Ni,Se) - sealed in alumina crucible - heat(950C,12h) - cool to 700C(6 C/h). cleaved suface (001) under vac(1E-9 mbar)" Scanning tunneling microscopy and spectroscopy studies of the heavy-electron superconductor TlNi2Se2 2018 "Physikalisches Institut, Experimentelle Physik II, Universitat Wurzburg, Am Hubland, D-97074 Wurzburg, Germany" "Phys.Rev.B, 97(2018)014514"
157693 PRB097014523 RRR = 75. Inhomogeneneity on surface. majority of Hc = 250 G at T=385 mK. Hc2(in DB) shows the field where STS signal deisapperes. gap = 326 uV at 385mK PdTe2 Pd1Te2 Pd 1 Te 2 3 2018 AB2 CdI2 P3[-]m1 164 K 1.78 1.78 MGAP157693 T "STS, (1-t^2)" 1.6 MHC157693 nm from Hc2 14 2 1 MSP157693 "Pd(4N),Te(6N)" "mixture(Pd:Te=1:2.2) - sealed in quartz tube - heat(790C,15h) - hold(48h) - cool to 500C over 7 days - ANN(500C,5d)" Conventional superconductivity in the type-II Dirac semimetal PdTe2 2018 "Department of Physical Sciences, Indian Institute of Science Education and Research (IISER), Mohali, Sector 81, S. A. S. Nagar, Manauli, PO: 140306, India" "Phys.Rev.B, 97(2018)014523"
157694 PRB097020502 GL(kappa) = 53. [penet] = 298 nm from muon-SR. Gap size(2d/kTc) from SP analysis. (dC/gamma*Tc) = 1.4. Hc2(T)-FIG assuming Tc=6K (definition not described) Re24Ti5 Re24Ti5 Re 24 Ti 5 1 2018 A5B24 alpha-Mn K 6 6.8 6 6 mT "M-H curve, GL fitting" 8.3 T "RES, SP, WHH" 11.2 MHC157694 nm from Hc2 5.41 nm Hc1 286 3.8 14 mJ/mol.K2 26.4 SP "arc-melting - ANN(900C,2w)" Nodeless superconductivity and time-reversal symmetry breaking in the noncentrosymmetric superconductor Re24Ti5 2018 "Laboratory for Multiscale Materials Experiments, Paul Scherrer Institut, Villigen CH-5232, Switzerland" "Phys.Rev.B, 97(2018)020502"
157695 PRB097020508 M=NH3. intercalated sample. M-content not shown. compositions by ICP. measuements under hydrostatic-P. Hall effect measured at 50 K. 2nd SC phase appears at P = 2 GPa. Li0.36(NH3)yFe2As2 Li0.36M1Fe2As2 Li 0.36 M 1 Fe 2 As 2 3 2018 I4/mmm 139 A 3.7704 16.973 K 42 44.3 43.15 MTC157695 m3/C MRH157695 See PREPID = 157609 High-Tc superconductivity up to 55 K under high pressure in a heavily electron doped Li0.36(NH3)yFe2Se2 single crystal 2018 "Beijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 97(2018)020508"
157696 PRB097024501 "NMR, muon-SR measured. [penet](T) nearly const. for T < (Tc/3). penet(London) and energy gap obtained from muon-SR fitting. nodeless SC." SrAuSi3 Sr1Au1Si3 Sr 1 Au 1 Si 3 1 2018 ABC3 BaNiS3 I4mm 107 K 1.54 1.54 nm muon-SR 398 meV 0.213 3.3 16 "solid state reaction method. Heat (1000-1200 C, P=6 GPa)" Microscopic investigation of the weakly correlated noncentrosymmetric superconductor SrAuSi3 2018 "Laboratorium fur Festkorperphysik, ETH Zurich, CH-8093 Zurich, Switzerland" "Phys.Rev.B, 97(2018)024501"
157697 PRB097024516 "Structurally homogeneous material. X-ray coherence = 91 nm. Co-exist-phase(FM&SC) has Tc(17K) and Hc2(120T), 2nd SC-phase(Tc=41K, Hc2=9T). DB shows higher values. Tm(ferromag) = 12 K." "(Li,Fe)OHFeSe" Li0.8Fe1.2Se1H1O1 Li 0.8 Fe 1.2 Se 1 H 1 O 1 1 2018 2 P4/nmm 129 A 3.7881 9.2714 K 40 40 mT "M-H curve, GL fitting" 8.3 T Mag-field-microwave-spectroscopy 120 MHC157697 nm from Hc2 1.63 "(Fe + selenourea ; LiOH/H2O) -mixed with distilled water(10 ml) -sealed in Teflon-lined autoclave - heat (155 C, 6d) - washed - dry under vac." Coexistence of multiphase superconductivity and ferromagnetism in lithiated iron selenide hydroxide [(Li1-xFex)OH]FeSe 2018 "Department of Physics and Center for Advanced Nanoscience, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 97(2018)024516"
157698 PRB097054506 "RRR=21. SP (beta) = 0.014 mJ/mol.K4. Two gap model, large(in DB), small (d2/kTc = 1.13) from SP analysis. (dC/gamma*Tc) = 1.42. Thermodynamic Hc(0) = 114Oe. e-ph = 0.37.GL(kappa) = 0.1. Type-I SC." RuB2 B2Ru1 B 2 Ru 1 1 2018 AB2 RuB2 Pmmn A 4.6457 2.8657 4.0442 STR data same as PRB076214510 K 1.5 1.55 1.5 90 Oe "Type-I, M-H" 122 MHC157698 nm effective mass 450 nm "London, effective mass" 47 3.76 14 MSP157698 mJ/mol.K2 1.65 SP 720 SP uOhm.cm 1.1 22.5 "Ru(5N),B(6N)" ac-melting Possible multigap type-I superconductivity in the layered boride RuB2 2018 "Department of Physical Sciences, Indian Institute of Science Education and Research (IISER) Mohali, Knowledge City, Sector 81, Mohali 140306, India" "Phys.Rev.B, 97(2018)054506"
157699 PRB097054515 RRR = 75. Tc(SP) = 1.72 k. SP (beta) = 0.66 mJ/mol.K4. (dC/gamma*Tc) =1.52 PdTe2 Pd1Te2 Pd 1 Te 2 3 2018 AB2 CdI2 P3m1 164 K 1.75 1.75 Oe "SP, Entropy correction" 195 MSP157699 mJ/mol.K2 6.01 SP uOhm.cm 0.94 70 "Pd(4N),Te(6N)" "Modified Bridgman method. mixture(Pd:Te = 1:2.2) - in quartz tube - heat(790C, 15h) - keep(48h) - cool to 500C over 7 days - ANN(500C,5d) - cool to RT naturally" Heat capacity evidence for conventional superconductivity in the type-II Dirac semimetal PdTe2 2018 "Department of Physical Sciences, Indian Institute of Science Education and Research (IISER) Mohali, Knowledge City, Sector 81, Mohali 140306, India" "Phys.Rev.B, 97(2018)054515"
157700 PRB097054522 "La(Fe,Mn)AsO0.89F0.11" La1Fe0.995Mn0.005As1F0.11O0.89 La 1 Fe 0.995 Mn 0.005 As 1 F 0.11 O 0.89 1 2018 oxypnictide A 8.7098 Fe-1111 K 15 15 Impact of concomitant Y and Mn substitution on superconductivity in La1-yYyFe1-xMnxAsO0.89F0.11 2018 "Leibniz Institute for Solid State and Materials Research, 01069 Dresden, Germany" "Phys.Rev.B, 97(2018)054522"
157701 PRB097054522 "(La,Y)Fe0.995Mn0.005AsO0.89F0.11" La0.99Y0.01Fe0.995Mn0.005As1F0.11O0.89 La 0.99 Y 0.01 Fe 0.995 Mn 0.005 As 1 F 0.11 O 0.89 1 2018 oxypnictide A 8.7126 Fe-1111 K 10.9 10.9 Impact of concomitant Y and Mn substitution on superconductivity in La1-yYyFe1-xMnxAsO0.89F0.11 2018 "Leibniz Institute for Solid State and Materials Research, 01069 Dresden, Germany" "Phys.Rev.B, 97(2018)054522"
157702 PRB097054522 "(La,Y)Fe0.995Mn0.005AsO0.89F0.11" La0.97Y0.03Fe0.995Mn0.005As1F0.11O0.89 La 0.97 Y 0.03 Fe 0.995 Mn 0.005 As 1 F 0.11 O 0.89 1 2018 oxypnictide A 8.697 Fe-1111 K 19 19 Impact of concomitant Y and Mn substitution on superconductivity in La1-yYyFe1-xMnxAsO0.89F0.11 2018 "Leibniz Institute for Solid State and Materials Research, 01069 Dresden, Germany" "Phys.Rev.B, 97(2018)054522"
157703 PRB097054522 "(La,Y)Fe0.995Mn0.005AsO0.89F0.11" La0.95Y0.05Fe0.995Mn0.005As1F0.11O0.89 La 0.95 Y 0.05 Fe 0.995 Mn 0.005 As 1 F 0.11 O 0.89 1 2018 oxypnictide A 8.7075 Fe-1111 K 21 21 MTC157703 Impact of concomitant Y and Mn substitution on superconductivity in La1-yYyFe1-xMnxAsO0.89F0.11 2018 "Leibniz Institute for Solid State and Materials Research, 01069 Dresden, Germany" "Phys.Rev.B, 97(2018)054522"
157704 PRB097054522 "(La,Y)Fe0.995Mn0.005AsO0.89F0.11" La0.9Y0.1Fe0.995Mn0.005As1F0.11O0.89 La 0.9 Y 0.1 Fe 0.995 Mn 0.005 As 1 F 0.11 O 0.89 1 2018 oxypnictide A 8.6978 Fe-1111 K 25 25 Impact of concomitant Y and Mn substitution on superconductivity in La1-yYyFe1-xMnxAsO0.89F0.11 2018 "Leibniz Institute for Solid State and Materials Research, 01069 Dresden, Germany" "Phys.Rev.B, 97(2018)054522"
157705 PRB097054522 "(La,Y)Fe0.995Mn0.005AsO0.89F0.11" La0.85Y0.15Fe0.995Mn0.005As1F0.11O0.89 La 0.85 Y 0.15 Fe 0.995 Mn 0.005 As 1 F 0.11 O 0.89 1 2018 oxypnictide A 8.6735 Fe-1111 K 26 26 Impact of concomitant Y and Mn substitution on superconductivity in La1-yYyFe1-xMnxAsO0.89F0.11 2018 "Leibniz Institute for Solid State and Materials Research, 01069 Dresden, Germany" "Phys.Rev.B, 97(2018)054522"
157706 PRB097054522 "(La,Y)Fe0.995Mn0.005AsO0.89F0.11" La0.8Y0.2Fe0.995Mn0.005As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.995 Mn 0.005 As 1 F 0.11 O 0.89 1 2018 oxypnictide A 8.6686 Fe-1111 K 29.1 29.1 Impact of concomitant Y and Mn substitution on superconductivity in La1-yYyFe1-xMnxAsO0.89F0.11 2018 "Leibniz Institute for Solid State and Materials Research, 01069 Dresden, Germany" "Phys.Rev.B, 97(2018)054522"
157707 PRB097054522 La0.8Y0.2Fe1-xMnxAsO0.89F0.11 La0.8Y0.2Fe1As1F0.11O0.89 La 0.8 Y 0.2 Fe 1 As 1 F 0.11 O 0.89 1 2018 oxypnictide A Fe-1111 K 33.2 33.2 Impact of concomitant Y and Mn substitution on superconductivity in La1-yYyFe1-xMnxAsO0.89F0.11 2018 "Leibniz Institute for Solid State and Materials Research, 01069 Dresden, Germany" "Phys.Rev.B, 97(2018)054522"
157708 PRB097054522 La0.8Y0.2Fe1-xMnxAsO0.89F0.11 La0.8Y0.2Fe0.999Mn0.001As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.999 Mn 0.001 As 1 F 0.11 O 0.89 1 2018 oxypnictide A 3.9956 8.6539 Fe-1111 K 31.8 33.3 31.8 Impact of concomitant Y and Mn substitution on superconductivity in La1-yYyFe1-xMnxAsO0.89F0.11 2018 "Leibniz Institute for Solid State and Materials Research, 01069 Dresden, Germany" "Phys.Rev.B, 97(2018)054522"
157709 PRB097054522 La0.8Y0.2Fe1-xMnxAsO0.89F0.11 La0.8Y0.2Fe0.998Mn0.002As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.998 Mn 0.002 As 1 F 0.11 O 0.89 1 2018 oxypnictide A 4.0041 8.6688 Fe-1111 K 31.2 32.1 31.2 Impact of concomitant Y and Mn substitution on superconductivity in La1-yYyFe1-xMnxAsO0.89F0.11 2018 "Leibniz Institute for Solid State and Materials Research, 01069 Dresden, Germany" "Phys.Rev.B, 97(2018)054522"
157710 PRB097054522 La0.8Y0.2Fe1-xMnxAsO0.89F0.11 La0.8Y0.2Fe0.992Mn0.008As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.992 Mn 0.008 As 1 F 0.11 O 0.89 1 2018 oxypnictide A 4.0039 8.6722 Fe-1111 K 25 25 25 MTC157710 Impact of concomitant Y and Mn substitution on superconductivity in La1-yYyFe1-xMnxAsO0.89F0.11 2018 "Leibniz Institute for Solid State and Materials Research, 01069 Dresden, Germany" "Phys.Rev.B, 97(2018)054522"
157711 PRB097054522 La0.8Y0.2Fe1-xMnxAsO0.89F0.11 La0.8Y0.2Fe0.985Mn0.015As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.985 Mn 0.015 As 1 F 0.11 O 0.89 1 2018 oxypnictide A 4.0016 8.6694 Fe-1111 K 20.2 18.9 20.2 Impact of concomitant Y and Mn substitution on superconductivity in La1-yYyFe1-xMnxAsO0.89F0.11 2018 "Leibniz Institute for Solid State and Materials Research, 01069 Dresden, Germany" "Phys.Rev.B, 97(2018)054522"
157712 PRB097054522 La0.8Y0.2Fe1-xMnxAsO0.89F0.11 La0.8Y0.2Fe0.98Mn0.02As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.98 Mn 0.02 As 1 F 0.11 O 0.89 1 2018 oxypnictide A 4.0052 8.6795 Fe-1111 K 11 11 Impact of concomitant Y and Mn substitution on superconductivity in La1-yYyFe1-xMnxAsO0.89F0.11 2018 "Leibniz Institute for Solid State and Materials Research, 01069 Dresden, Germany" "Phys.Rev.B, 97(2018)054522"
157713 PRB097054522 La0.8Y0.2Fe1-xMnxAsO0.89F0.11 La0.8Y0.2Fe0.975Mn0.025As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.975 Mn 0.025 As 1 F 0.11 O 0.89 1 2018 oxypnictide A 4.0052 8.6817 Fe-1111 K 10.1 8.9 10.1 Impact of concomitant Y and Mn substitution on superconductivity in La1-yYyFe1-xMnxAsO0.89F0.11 2018 "Leibniz Institute for Solid State and Materials Research, 01069 Dresden, Germany" "Phys.Rev.B, 97(2018)054522"
157714 PRB097054522 La0.8Y0.2Fe1-xMnxAsO0.89F0.11 La0.8Y0.2Fe0.97Mn0.03As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.97 Mn 0.03 As 1 F 0.11 O 0.89 1 2018 oxypnictide A 4.0035 8.6717 Fe-1111 K 10.8 9.1 10.8 Impact of concomitant Y and Mn substitution on superconductivity in La1-yYyFe1-xMnxAsO0.89F0.11 2018 "Leibniz Institute for Solid State and Materials Research, 01069 Dresden, Germany" "Phys.Rev.B, 97(2018)054522"
157715 PRB097054522 La0.8Y0.2Fe1-xMnxAsO0.89F0.11 La0.8Y0.2Fe0.965Mn0.035As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.965 Mn 0.035 As 1 F 0.11 O 0.89 1 2018 oxypnictide A 4.0015 8.6803 Fe-1111 K 4.7 0 4.7 Impact of concomitant Y and Mn substitution on superconductivity in La1-yYyFe1-xMnxAsO0.89F0.11 2018 "Leibniz Institute for Solid State and Materials Research, 01069 Dresden, Germany" "Phys.Rev.B, 97(2018)054522"
157716 PRB097054522 not SC La0.8Y0.2Fe1-xMnxAsO0.89F0.11 La0.8Y0.2Fe0.95Mn0.05As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.95 Mn 0.05 As 1 F 0.11 O 0.89 1 2018 oxypnictide A 4.0009 8.6835 Fe-1111 K 0 Impact of concomitant Y and Mn substitution on superconductivity in La1-yYyFe1-xMnxAsO0.89F0.11 2018 "Leibniz Institute for Solid State and Materials Research, 01069 Dresden, Germany" "Phys.Rev.B, 97(2018)054522"
157717 PRB097054522 not SC La0.8Y0.2Fe1-xMnxAsO0.89F0.11 La0.8Y0.2Fe0.9Mn0.1As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.9 Mn 0.1 As 1 F 0.11 O 0.89 1 2018 oxypnictide A 4.0092 8.7227 Fe-1111 K 0 Impact of concomitant Y and Mn substitution on superconductivity in La1-yYyFe1-xMnxAsO0.89F0.11 2018 "Leibniz Institute for Solid State and Materials Research, 01069 Dresden, Germany" "Phys.Rev.B, 97(2018)054522"
157718 PRB097054522 not SC La0.8Y0.2Fe1-xMnxAsO0.89F0.11 La0.8Y0.2Fe0.85Mn0.15As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.85 Mn 0.15 As 1 F 0.11 O 0.89 1 2018 oxypnictide A 4.012 8.7304 Fe-1111 K 0 Impact of concomitant Y and Mn substitution on superconductivity in La1-yYyFe1-xMnxAsO0.89F0.11 2018 "Leibniz Institute for Solid State and Materials Research, 01069 Dresden, Germany" "Phys.Rev.B, 97(2018)054522"
157719 PRB097054522 not SC La0.8Y0.2Fe1-xMnxAsO0.89F0.11 La0.8Y0.2Fe0.8Mn0.2As1F0.11O0.89 La 0.8 Y 0.2 Fe 0.8 Mn 0.2 As 1 F 0.11 O 0.89 1 2018 oxypnictide A 4.0181 8.751 Fe-1111 K 0 Impact of concomitant Y and Mn substitution on superconductivity in La1-yYyFe1-xMnxAsO0.89F0.11 2018 "Leibniz Institute for Solid State and Materials Research, 01069 Dresden, Germany" "Phys.Rev.B, 97(2018)054522"
157720 PRB097060503 "P-induced SC. quasi-hydrostatic P. P releasing at 7GPa, Tc(on) = 3.2 k and Tc(zero) = 1.6 K at P = 0.5 GPa, P-quenching. (dTc/dP) shows at P(=5 GPa)" 1T-TiTe2 Te2Ti1 Te 2 Ti 1 3 2018 AB2 1T-TiTe2 K 2.5 0 2.5 MTC157720 K/GPa 0.35 T RES(0.9Rn) MHC157720 m3/C 0.00083 MRH157720 vapor transport method using iodine as a transport agent. Pressure-induced superconductivity in semimetallic 1T-TiTe2 and its persistence upon decompression 2018 "High Pressure & Synchrotron Radiation Physics Division, Bhabha Atomic Research Centre, Trombay, Mumbai 400085, India" "Phys.Rev.B, 97(2018)060503"
157721 PRB097060503 P-induced SC. non-hydrostatic P. Semimetal for P < 1.8 GPa. (dTc/dP) shows at P(=6 GPa) 1T-TiTe2 Te2Ti1 Te 2 Ti 1 3 2018 AB2 1T-TiTe2 K 2.98 0 2.98 MTC157721 K/GPa 0.06 vapor transport method using iodine as a transport agent. Pressure-induced superconductivity in semimetallic 1T-TiTe2 and its persistence upon decompression 2018 "High Pressure & Synchrotron Radiation Physics Division, Bhabha Atomic Research Centre, Trombay, Mumbai 400085, India" "Phys.Rev.B, 97(2018)060503"
157722 PRB097060506 "SC poperties obtained by muon-SR analysis. two gap fitting : large gap in DB, small one ( d2=1.5 meV), weight of d1/d2 = 0.73)" CsCa2Fe4As4F2 Cs1Ca2Fe4As4F2 Cs 1 Ca 2 Fe 4 As 4 F 2 1 2018 AB2C2D4E4 12442-structure K 28.31 28.31 PENE157722 nm muon-SR 244 meV 7.5 3.1 16 "solid state reaction metod. Details , See J.Am.Chem.Soc., 138(2016)7856" Two-gap superconductivity with line nodes in CsCa2Fe4As4F2 2018 "Department of Physics, University of Oxford, Clarendon Laboratory, Parks Road, Oxford OX1 3PU, United Kingdom" "Phys.Rev.B, 97(2018)060506"
157723 PRB097060509 "SC poperties obtained by muon-SR analysis. two gap fitting : large gap in DB, small one ( d2=1.84 meV, 2d2/kTc = 1.29)." KCa2Fe4As4F2 K1Ca2Fe4As4F2 K 1 Ca 2 Fe 4 As 4 F 2 1 2018 AB2C2D4E4 12442-structure K 33.36 33 33.36 nm muon-SR 229.5 meV 10.12 7.11 16 "solid state reaction metod. Details , See J.Am.Chem.Soc., 138(2016)7856" Nodal multigap superconductivity in KCa2Fe4As4F2 2018 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310058, China" "Phys.Rev.B, 97(2018)060509"
157724 PRB097064514 "P-induced SC. P = 19.7 GPa. RRR = 13. SC-properties shows for P=21.5 GPa. For P < 13.6 GPa, two Tn(AFM). At P = 0, Tn1=14.7K, Tn2=7.51K. bulk modulas = 115 GPa." CeRhGe3 Ce1Rh1Ge3 Ce 1 Rh 1 Ge 3 3 2018 14.7 ABC3 I4mm A 4.3977 10.0345 K 1.33 0 1.33 MPH157724 T "RES, linear approx." 15 T/K RES 11.5 MHC157724 "(Ce:Rh:Ge = 1:3.5:13.5, CeRhGe6 + 10Rh0.25Ge0.75) - arc melting - alumina crucible - sealed in quartz tube - heat(1150C,12h) - cool to 875C(2C/h) - remove flux" Superconductivity in pressurized CeRhGe3 and related noncentrosymmetric compounds 2018 "Institute of Physics, National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 97(2018)064514"
157725 PRB097064514 Lattice const measured for P < 30 GPa. CeRhGe3 Ce1Rh1Ge3 Ce 1 Rh 1 Ge 3 3 2018 ABC3 I4mm A 4.3977 10.0345 K MLAT157725 "(Ce:Rh:Ge = 1:3.5:13.5, CeRhGe6 + 10Rh0.25Ge0.75) - arc melting - alumina crucible - sealed in quartz tube - heat(1150C,12h) - cool to 875C(2C/h) - remove flux" Superconductivity in pressurized CeRhGe3 and related noncentrosymmetric compounds 2018 "Institute of Physics, National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 97(2018)064514"
157726 PRB097094505 M=(NH3). Low-Tc phase(contains 3 phases: low-Tc + beta-FeSe + Fe7Se8). NH3 content not shown (NH3)yNaxFeAs(x=0.4) Na0.4M1Fe1As1 Na 0.4 M 1 Fe 1 As 1 2018 A 3.8697 13.5451 K 38 35 35 MTC157726 48 Pressure dependence of superconductivity in low- and high-Tc phases of (NH3)yNaxFeSe 2018 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700?8530, Japan" "Phys.Rev.B, 97(2018)094505"
157727 PRB097094505 M=(NH3). High-Tc phase(contains 3 phases: High-Tc + low-Tc + Fe7Se8). NH3 content not shown. (NH3)yNaxFeAs(x=0.6) Na0.6M1Fe1As1 Na 0.6 M 1 Fe 1 As 1 2018 A 3.7836 17.0834 K 45 44 44 MTC157727 33 Pressure dependence of superconductivity in low- and high-Tc phases of (NH3)yNaxFeSe 2018 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700?8530, Japan" "Phys.Rev.B, 97(2018)094505"
157728 PRB097094506 "[penet], energy gap, carrier obtained from muon-SR analysis. Fully gaped s-wave gap. effective mass = 9.8m estimated." LuRuB2 Lu1Ru1B2 Lu 1 Ru 1 B 2 1 2018 ABC2 3 LuRuB2 Pnma A 5.8075 5.2323 6.279 K 9.8 9.8 nm muon-SR 221 meV 1.36 3.3 16 n/m3 2.73E+28 "arc-melting using tri-arc furnace(Ar) - ANN(1050C, 1 week, in evacuated quartz tube)" "Probing the superconducting ground state of the rare-earth ternary boride superconductors RRuB2 (R = Lu,Y) using muon-spin rotation and relaxation" 2018 "Physics Department, University of Warwick, Coventry CV4 7AL, United Kingdom" "Phys.Rev.B, 97(2018)094506"
157729 PRB097094506 "[penet], energy gap, carrier obtained from muon-SR analysis. Fully gaped s-wave gap. effective mass = 15.0m estimated." YRuB2 Y1Ru1B2 Y 1 Ru 1 B 2 1 2018 ABC2 3 LuRuB2 Pnma A 5.9071 5.2971 6.3535 K 7.8 7.8 nm muon-SR 190 meV 1.1 3.4 16 n/m3 2.17E+28 "arc-melting using tri-arc furnace(Ar) - ANN(1050C, 1 week, in evacuated quartz tube)" "Probing the superconducting ground state of the rare-earth ternary boride superconductors RRuB2 (R = Lu,Y) using muon-spin rotation and relaxation" 2018 "Physics Department, University of Warwick, Coventry CV4 7AL, United Kingdom" "Phys.Rev.B, 97(2018)094506"
157730 PRB097094509 "Isotope effect dTc < 0.01 K for sample with <76>Se and <80>Se, then isotope exponent = 0." "LaO0.6F0.4Bi(S,Se)2" La1F0.4Bi1S0.899Se1.101O0.6 La 1 F 0.4 Bi 1 S 0.899 Se 1.101 O 0.6 1 2018 P4/nmm A 4.13711 13.6022 BiS2-layer SC K 3.73 3.75 3.77 3.77 0 Se 99.8 0 "La2S3,La2O3,BiF3(3N),Bi2O3(4N),Bi(5N)" "mixture - pellet - sealed in quartz tube -heat(700C,20h) - ground - pellet - ANN(700C,20h, in quartz tube)" "Selenium isotope effect in the layered bismuth chalcogenide superconductor LaO0.6F0.4Bi(S,Se)2" 2018 "Department of Physics, Tokyo Metropolitan University, 1-1, Minami-osawa, Hachioji 192-0397, Japan" "Phys.Rev.B, 97(2018)094509"
157731 PRB097094509 "Isotope effect dTc < 0.01 K for sample with <76>Se and <80>Se, then isotope exponent = 0." "LaO0.6F0.4Bi(S,Se)2" La1F0.4Bi1S0.906Se1.094O0.6 La 1 F 0.4 Bi 1 S 0.906 Se 1.094 O 0.6 1 2018 P4/nmm A 4.13887 13.6031 BiS2-layer SC K 3.76 3.76 0 Se 99.8 0 "La2S3,La2O3,BiF3(3N),Bi2O3(4N),Bi(5N)" "mixture - pellet - sealed in quartz tube -heat(700C,20h) - ground - pellet - ANN(700C,20h, in quartz tube)" "Selenium isotope effect in the layered bismuth chalcogenide superconductor LaO0.6F0.4Bi(S,Se)2" 2018 "Department of Physics, Tokyo Metropolitan University, 1-1, Minami-osawa, Hachioji 192-0397, Japan" "Phys.Rev.B, 97(2018)094509"
157732 PRB097094509 "Isotope effect dTc < 0.01 K for sample with <76>Se and <80>Se, then isotope exponent = 0." "LaO0.6F0.4Bi(S,Se)2" La1F0.4Bi1S0.872Se1.128O0.6 La 1 F 0.4 Bi 1 S 0.872 Se 1.128 O 0.6 1 2018 P4/nmm A 4.13567 13.6014 BiS2-layer SC K 3.73 3.75 3.76 3.76 0 Se 99.91 0 "La2S3,La2O3,BiF3(3N),Bi2O3(4N),Bi(5N)" "mixture - pellet - sealed in quartz tube -heat(700C,20h) - ground - pellet - ANN(700C,20h, in quartz tube)" "Selenium isotope effect in the layered bismuth chalcogenide superconductor LaO0.6F0.4Bi(S,Se)2" 2018 "Department of Physics, Tokyo Metropolitan University, 1-1, Minami-osawa, Hachioji 192-0397, Japan" "Phys.Rev.B, 97(2018)094509"
157733 PRB097094509 "Isotope effect dTc < 0.01 K for sample with <76>Se and <80>Se, then isotope exponent = 0." "LaO0.6F0.4Bi(S,Se)2" La1F0.4Bi1S0.863Se1.137O0.6 La 1 F 0.4 Bi 1 S 0.863 Se 1.137 O 0.6 1 2018 P4/nmm A 4.13917 13.6333 BiS2-layer SC K 3.72 3.77 3.77 0 Se 99.91 0 "La2S3,La2O3,BiF3(3N),Bi2O3(4N),Bi(5N)" "mixture - pellet - sealed in quartz tube -heat(700C,20h) - ground - pellet - ANN(700C,20h, in quartz tube)" "Selenium isotope effect in the layered bismuth chalcogenide superconductor LaO0.6F0.4Bi(S,Se)2" 2018 "Department of Physics, Tokyo Metropolitan University, 1-1, Minami-osawa, Hachioji 192-0397, Japan" "Phys.Rev.B, 97(2018)094509"
157734 PRB097100504 "Structure, SG= Cmme (#67) at T=15 K. R(T) shows Fermi liquid type above Tc." LaFeSiH La1Fe1Si1H1 La 1 Fe 1 Si 1 H 1 1 2018 ABCD P4/nmm 129 A 4.027 8.0374 "At 15K, SG = Cmme, #67, a= 5.6831, b=5.7039, c=7.9728" K 9.7 11 9.7 MTC157734 64 mT M-H curve 0.3 2 T "RES(0.5Rn), WHH" 17 T/K RES(0.5Rn) MHC157734 nm from Hc2 4.3 Iron-based superconductivity extended to the novel silicide LaFeSiH 2018 "Dipartimento di Fisica, Universita di Cagliari, IT-09042 Monserrato, Italy" "Phys.Rev.B, 97(2018)100504"
157735 PRB097100505 "muon-SR fitting: Tc=5.98 K, gap(d) = 0.95 meV, d(0)/kTc = 1.84. SP (dC/gamma*Tc) = 1.58" Re6Ti Re6Ti1 Re 6 Ti 1 1 2018 AB6 alpha-Mn I4[-]3m 217 A 9.58 K 6 6 A muon-SR 4937 meV 0.95 3.68 16 MSP157735 "Re(3N5),Ti(3N5)" "arc-melting - ANN(850C,1week, in quartz tube)" Time-reversal symmetry breaking in the noncentrosymmetric superconductor Re6Ti 2018 "Indian Institute of Science Education and Research Bhopal, Bhopal 462066, India" "Phys.Rev.B, 97(2018)100505"
157736 PRB097104503 "Phase-I(P <8.8 GPa). not SC. Ag replaced Bi, not intercalated." AgxBi2-xSe3 Ag0.05Bi1.95Se3 Ag 0.05 Bi 1.95 Se 3 3 2018 R3[-]m 166 A 4.146 28.66 K 0 "stoichiometric(Ag,Bi,Se) powder - sealed in quartz tube - heat(800C,12h) - slow cool to 650C(30C/h) - Q to ice water" Pressure-induced superconductivity in AgxBi2-xSe3 2018 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 97(2018)104503"
157737 PRB097104503 Phase-II(8.8 21 GPa). P-induced SC. Tc & Hc2 for P=20.5 GPa. AgxBi2-xSe3 Ag0.05Bi1.95Se3 Ag 0.05 Bi 1.95 Se 3 3 2018 I4/mmm 139 A 3.461 16.628 K 0 MTC157737 MHC157738 "stoichiometric(Ag,Bi,Se) powder - sealed in quartz tube - heat(800C,12h) - slow cool to 650C(30C/h) - Q to ice water" Pressure-induced superconductivity in AgxBi2-xSe3 2018 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 97(2018)104503"
157739 PRB097104509 Anisotropy(Hc2)= 16 at 0 K. Hc2(T) measured by H-sweep and T-sweep. Hc2(0) by using two gap model. Angular dependence of Hc2 also measured. "La(O,F)BiS2" La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 3 2018 ABCD2 CeOBiS2 P4/nmm A 4.0585 13.324 K 3.7 5 3.7 T "RES(0.5Rn),two gap model" 16.2 1 MHC157739 nm from Hc2 21.7 1.13 "La2S3,Bi2S3,BiF3,Bi,BiS3" "CsCl-flux method. sealed in quartz tube(vac) - ANN(900C,12h) - cool to 500C(2.4C/h) - remove flux by H2O" Anisotropic two-gap superconductivity and the absence of a Pauli paramagnetic limit in single-crystalline LaO0.5F0.5BiS2 2018 "Department of Physics, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China" "Phys.Rev.B, 97(2018)104509"
157740 PRL102207001 "[penet] measured by surface impedance. [penet](0) not shown. Energy gap obtained by d{penet] using 2 gap model, large in DB, small (d1) = 1.17 kTc." "(Ba,K)Fe2As2" Ba0.45K0.55Fe2As2 Ba 0.45 K 0.55 Fe 2 As 2 3 2009 AB2C2 ThCr2Si2 K 32.7 32.7 4.8 7 self-flux method. mixture - heat(1190C) - cool to 850C(4C/h) - quench. cleaved surface were used. Microwave Surface-Impedance Measurements of the Magnetic PenetrationDepth in Single Crystal Ba1-xKxFe2As2 Superconductors: Evidence for a Disorder-Dependent Superfluid Density 2009 "Department of Physics, Kyoto University, Sakyo-ku, Kyoto 606-8502, Japan" "Phys.Rev.Lett., 102(2009)207001"
157741 PRL109187004 P-induced SC. data for P = 8.7 GPa. RRR=76. Tmax(max of Rmag(T)) = 27.9 K. Tq(quadrupole order) = 2.1 K. m*/m0 = 106. PrTi2Al20 Pr1Ti2Al20 Pr 1 Ti 2 Al 20 3 2012 AB2C20 CeCr2Al20 Fd3[-]m K 1.08 1.12 0 1.12 T "RES(zero), WHH" 4.7 T/K RES(zero) 6 MHC157742 A from Hc2 84 uOhm.cm 3.28 Al-flux method Pressure-Induced Heavy Fermion Superconductivity in the Nonmagnetic Quadrupolar System PrTi2Al20 2012 "Institute for Solid State Physics, The University of Tokyo, Kashiwanoha, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.Lett., 109(2012)187004"
157742 PRL109187004 "P-induced SC. P = 6.7 GPa. Tc(DB) shows for P = P. Hc2(T) for P=6.7, 7.7, 8.7 GPa." PrTi2Al20 Pr1Ti2Al20 Pr 1 Ti 2 Al 20 3 2012 AB2C20 CeCr2Al20 Fd3[-]m K 0.5 0.61 0 0.61 MTC157742 MHC157742 Al-flux method Pressure-Induced Heavy Fermion Superconductivity in the Nonmagnetic Quadrupolar System PrTi2Al20 2012 "Institute for Solid State Physics, The University of Tokyo, Kashiwanoha, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.Lett., 109(2012)187004"
157743 PRL113267001 "RRR = 19. Tc depends on RRR. SP (dC/Tc) = 0.3 J/mol.K2, (dC/gamma*Tc) = 0.3. effective mass m* = 140 m0." PrV2Al20 Pr1V2Al20 Pr 1 V 2 Al 20 3 2014 AB2C20 CeCr2Al20 K 0.046 0.05 0.048 82 mT "RES(zero), WHH" 14.3 T/K RES(zero) 0.41 MHC157743 nm from Hc2 150 mJ/mol.K2 900 Heavy-Fermion Superconductivity in the Quadrupole Ordered State of PrV2Al20 2014 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.Lett., 113(2014)267001"
157744 PRL120037002 "P-induced SC. phase transition (Hc-to-Ha) at P=25 GPa. P = 90 GPa. Tc & Hc2 for P = 220 GPa. R-exponent n = 3 for 0 (measured by the Hall effect at 20 K), controlled by voltage of liquid gate(LG) and back gate(BG)." e-doped MoS2 Mo1S2 Mo 1 S 2 2012 AB2 K 10.8 0 10.8 MTC157746 "To make, we isolated thin flakes of MoS2 from a bulk 2H-type single crystal by Scotch tape method and transferred them onto the surface of HfO2 grown by atomic layer deposition on a Nb-doped SrTiO3" Superconducting Dome in a Gate-Tuned Band Insulator 2012 "Quantum-Phase Electronics Center and Department of Applied Physics, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan." "Science, 338(2012)1193"
157800 CHPL6920249 "2H-phase. volume=128.5 A3. bulk modulus , compressbility from X-ray analysis." 2H-NbSe2 Nb1Se2 Nb 1 Se 2 1 2018 GPa 52 AB2 7 MX2 P6<3>mmc 194 A 3.442 12.539 k0/GPa 0.0033 0.0174 k0 = a0 or c0 at ambient P K 7 7 "Nb,Se,Te,powder(4N5 all)" "mixture - pellet - sealed in quartz tube in furnace - heat to 750C (10K/min) - keep (750C,16h) - ANN(600C,96h)" "Effect of pressure on crystal structure and superconductivity of NbSexTe2-x (x = 2, 1.5)" 2018 "High Pressure Science and Engineering Center and Department of Physics and Astronomy, University of Nevada Las Vegas, Las Vegas, NV 89154, USA" "Chem.Phys.Lett., 692(2018)249"
157801 CHPL6920249 "2H-phase. volume=132 A3. bulk modulus , compressbility from X-ray analysis. (dTc/dP) for P < 1.8 GPa" "2H-Nb(Se,Te)2" Nb1Se1.5Te0.5 Nb 1 Se 1.5 Te 0.5 1 2018 GPa 61.7 AB2 7 MX2 P6<3>mmc 194 A 3.461 12.728 k0/GPa 0.0029 0.0115 k0 = a0 or c0 at ambient P K 3.35 3.35 MTC157801 K/GPa 0.6 "Nb,Se,Te,powder(4N5 all)" "mixture - pellet - sealed in quartz tube in furnace - heat to 750C (10K/min) - keep (750C,16h) - ANN(600C,96h)" "Effect of pressure on crystal structure and superconductivity of NbSexTe2-x (x = 2, 1.5)" 2018 "High Pressure Science and Engineering Center and Department of Physics and Astronomy, University of Nevada Las Vegas, Las Vegas, NV 89154, USA" "Chem.Phys.Lett., 692(2018)249"
157802 JAC7410840 "YGe1.5+z, vacancy z = 0.17" YGe1.5+z Ge1.67Y1Ge2 Ge 1.67 Y 1 Ge 2 1 2018 Cmmm 63 A K 3.9 3.9 "Y(3N),Ge(6N),T(2N8-3N8)" arc-melting. (Y:T:Ge = 1:x:2(with 3% excess Ge) "Electron counts, structural stability, and magnetism in BaCuSn2-CeNi1- xSi2-type YTxGe2 (T = Cr, Mn, Fe, Co, and Ni)" 2018 "Department of Chemistry, Louisiana State University, Baton Rouge, LA 70803, USA" "J.Alloys Compd., 741(2018)840"
157803 JAC7410840 "not SC. Ferro-mag at low-T. YMnxGe2, YGe1.5+x(minor phase)" YMnxGe2 Y1Mn0.24Ge2 Y 1 Mn 0.24 Ge 2 1 2018 emu.K/mol 0.093 my-B/f.u 0.86 273 Cmmm 63 A 4.1063 15.863 3.9571 K 0 "Y(3N),Ge(6N),T(2N8-3N8)" arc-melting. (Y:T:Ge = 1:x:2(with 3% excess Ge) "Electron counts, structural stability, and magnetism in BaCuSn2-CeNi1- xSi2-type YTxGe2 (T = Cr, Mn, Fe, Co, and Ni)" 2018 "Department of Chemistry, Louisiana State University, Baton Rouge, LA 70803, USA" "J.Alloys Compd., 741(2018)840"
157804 JAC7410840 "not SC. Para-mag at low-T. YCrxGe2, YGe1.5+x(minor phase)" YCrxGe2 Y1Cr0.23Ge2 Y 1 Cr 0.23 Ge 2 1 2018 emu.K/mol 0.00056 my-B/f.u 0.07 -3.58 Cmmm 63 A 4.119 15.861 3.997 K 0 "Y(3N),Ge(6N),T(2N8-3N8)" arc-melting. (Y:T:Ge = 1:x:2(with 3% excess Ge) "Electron counts, structural stability, and magnetism in BaCuSn2-CeNi1- xSi2-type YTxGe2 (T = Cr, Mn, Fe, Co, and Ni)" 2018 "Department of Chemistry, Louisiana State University, Baton Rouge, LA 70803, USA" "J.Alloys Compd., 741(2018)840"
157805 JAC7410840 "not SC. Para-mag at low-T. YFexGe2, YGe1.5+x(minor phase)" YFexGe2 Y1Fe0.282Ge2 Y 1 Fe 0.282 Ge 2 1 2018 emu.K/mol 0.003 my-B/f.u 0.15 -22 Cmmm 63 A 4.0974 15.839 3.9774 K 0 "Y(3N),Ge(6N),T(2N8-3N8)" arc-melting. (Y:T:Ge = 1:x:2(with 3% excess Ge) "Electron counts, structural stability, and magnetism in BaCuSn2-CeNi1- xSi2-type YTxGe2 (T = Cr, Mn, Fe, Co, and Ni)" 2018 "Department of Chemistry, Louisiana State University, Baton Rouge, LA 70803, USA" "J.Alloys Compd., 741(2018)840"
157806 JAC7410840 "not SC. Para-mag at low-T. YCoxGe2, YGe1.5+x(minor phase)" YCoxGe2 Y1Co0.493Ge2 Y 1 Co 0.493 Ge 2 1 2018 emu.K/mol 0.00081 my-B/f.u 0.08 -0.25 Cmmm 63 A 4.103 16.034 4.006 K 0 "Y(3N),Ge(6N),T(2N8-3N8)" arc-melting. (Y:T:Ge = 1:x:2(with 3% excess Ge) "Electron counts, structural stability, and magnetism in BaCuSn2-CeNi1- xSi2-type YTxGe2 (T = Cr, Mn, Fe, Co, and Ni)" 2018 "Department of Chemistry, Louisiana State University, Baton Rouge, LA 70803, USA" "J.Alloys Compd., 741(2018)840"
157807 JPS087023704 "Bi-S(1) interplane distance = 3.2996, Bi-S(1) in plane distance = 2.8760, Bi-S(2) distance = 2.5242 A. Tc(bulk) depends on R-ion radius." La(O0.5F0.5)BiS2 La1Bi1S2F0.5O0.5 La 1 Bi 1 S 2 F 0.5 O 0.5 1 2018 ABCD2 CeOBiS2 P4/nmm A 4.0674 13.431 K 2.2 2.2 "solid state reaction. mixture - pellet - ANN(700C,20h, in quartz tube)" "Evolution of Anisotropic Displacement Parameters and Superconductivity with Chemical Pressure in BiS2-Based REO0.5F0.5BiS2 (RE = La, Ce, Pr, and Nd)" 2018 "Graduate School of Science and Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" J.Phys.Soc.Jpn. 87(2018)023704
157808 JPS087023704 "Bi-S(1) interplane distance = 3.3201, Bi-S(1) in plane distance = 2.8540, Bi-S(2) distance = 2.5186 A. Tc(bulk) depends on R-ion radius." Ce(O0.5F0.5)BiS2 Ce1Bi1S2F0.5O0.5 Ce 1 Bi 1 S 2 F 0.5 O 0.5 1 2018 ABCD2 CeOBiS2 P4/nmm A 4.0331 13.4802 K 2 "solid state reaction. mixture - pellet - ANN(700C,20h, in quartz tube)" "Evolution of Anisotropic Displacement Parameters and Superconductivity with Chemical Pressure in BiS2-Based REO0.5F0.5BiS2 (RE = La, Ce, Pr, and Nd)" 2018 "Graduate School of Science and Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" J.Phys.Soc.Jpn. 87(2018)023704
157809 JPS087023704 "Bi-S(1) interplane distance = 3.3067, Bi-S(1) in plane distance = 2.8426, Bi-S(2) distance = 2.5457 A. Tc(bulk) depends on R-ion radius." Pr(O0.5F0.5)BiS2 Pr1Bi1S2F0.5O0.5 Pr 1 Bi 1 S 2 F 0.5 O 0.5 1 2018 ABCD2 CeOBiS2 P4/nmm A 4.0164 13.4006 K 3.4 3.4 MTC157809 "solid state reaction. mixture - pellet - ANN(700C,20h, in quartz tube)" "Evolution of Anisotropic Displacement Parameters and Superconductivity with Chemical Pressure in BiS2-Based REO0.5F0.5BiS2 (RE = La, Ce, Pr, and Nd)" 2018 "Graduate School of Science and Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" J.Phys.Soc.Jpn. 87(2018)023704
157810 JPS087023704 "Bi-S(1) interplane distance = 3.3538, Bi-S(1) in plane distance = 2.8272, Bi-S(2) distance = 2.5632 A. Tc(bulk) depends on R-ion radius." Nd(O0.5F0.5)BiS2 Nd1Bi1S2F0.5O0.5 Nd 1 Bi 1 S 2 F 0.5 O 0.5 1 2018 ABCD2 CeOBiS2 P4/nmm A 3.997 13.4119 K 4.8 4.8 "solid state reaction. mixture - pellet - ANN(700C,20h, in quartz tube)" "Evolution of Anisotropic Displacement Parameters and Superconductivity with Chemical Pressure in BiS2-Based REO0.5F0.5BiS2 (RE = La, Ce, Pr, and Nd)" 2018 "Graduate School of Science and Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" J.Phys.Soc.Jpn. 87(2018)023704
157811 PRB095214515 La0.9Sr0.1FeAsO La0.9Sr0.1Fe1As1O1 La 0.9 Sr 0.1 Fe 1 As 1 O 1 1 2017 142 ABCD oxypnictide P4/nmm A 4.0498 8.7909 Fe-1111 K 0 "LaAs,LaP,Fe2O3,Fe,SrAs" "solid state reaction. mixture - pellet - ANN(1130C,40h, in evacuated silica tube)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157812 PRB095214515 La0.9Sr0.1FeAs1-xPxO La0.9Sr0.1Fe1As0.8P0.2O1 La 0.9 Sr 0.1 Fe 1 As 0.8 P 0.2 O 1 1 2017 40 ABCD oxypnictide P4/nmm A 4.0382 8.7247 Fe-1111 K 0 "LaAs,LaP,Fe2O3,Fe,SrAs" "solid state reaction. mixture - pellet - ANN(1130C,40h, in evacuated silica tube)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157813 PRB095214515 La0.9Sr0.1FeAs1-xPxO La0.9Sr0.1Fe1As0.8P0.3O1 La 0.9 Sr 0.1 Fe 1 As 0.8 P 0.3 O 1 1 2017 30 ABCD oxypnictide P4/nmm A 4.0285 8.6971 Fe-1111 K 6.72 6.72 "LaAs,LaP,Fe2O3,Fe,SrAs" "solid state reaction. mixture - pellet - ANN(1130C,40h, in evacuated silica tube)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157814 PRB095214515 AFM2 observed only by NMR. La0.9Sr0.1FeAs1-xPxO La0.9Sr0.1Fe1As0.8P0.4O1 La 0.9 Sr 0.1 Fe 1 As 0.8 P 0.4 O 1 1 2017 ABCD oxypnictide P4/nmm A 4.0279 8.666 Fe-1111 K 11.14 11.14 MTC157814 "LaAs,LaP,Fe2O3,Fe,SrAs" "solid state reaction. mixture - pellet - ANN(1130C,40h, in evacuated silica tube)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157815 PRB095214515 AFM2 observed only by NMR. La0.9Sr0.1FeAs1-xPxO La0.9Sr0.1Fe1As0.8P0.5O1 La 0.9 Sr 0.1 Fe 1 As 0.8 P 0.5 O 1 1 2017 20.4 ABCD oxypnictide P4/nmm A 4.0172 8.6451 Fe-1111 K 6.38 6.38 "LaAs,LaP,Fe2O3,Fe,SrAs" "solid state reaction. mixture - pellet - ANN(1130C,40h, in evacuated silica tube)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157816 PRB095214515 AFM2 observed only by NMR. La0.9Sr0.1FeAs1-xPxO La0.9Sr0.1Fe1As0.8P0.6O1 La 0.9 Sr 0.1 Fe 1 As 0.8 P 0.6 O 1 1 2017 22.9 ABCD oxypnictide P4/nmm A 4.0098 8.6284 Fe-1111 K 0 "LaAs,LaP,Fe2O3,Fe,SrAs" "solid state reaction. mixture - pellet - ANN(1130C,40h, in evacuated silica tube)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157817 PRB095214515 AFM2 observed only by NMR. La0.9Sr0.1FeAs1-xPxO La0.9Sr0.1Fe1As0.8P0.7O1 La 0.9 Sr 0.1 Fe 1 As 0.8 P 0.7 O 1 1 2017 22.3 ABCD oxypnictide P4/nmm A 3.992 8.5764 Fe-1111 K 5.04 5.04 "LaAs,LaP,Fe2O3,Fe,SrAs" "solid state reaction. mixture - pellet - ANN(1130C,40h, in evacuated silica tube)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157818 PRB095214515 La0.9Sr0.1FeAs1-xPxO La0.9Sr0.1Fe1As0.8P0.8O1 La 0.9 Sr 0.1 Fe 1 As 0.8 P 0.8 O 1 1 2017 ABCD oxypnictide P4/nmm A 3.9819 8.574 Fe-1111 K 11.76 16 13.88 MTC157814 "LaAs,LaP,Fe2O3,Fe,SrAs" "solid state reaction. mixture - pellet - ANN(1130C,40h, in evacuated silica tube)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157819 PRB095214515 La0.9Sr0.1FePO La0.9Sr0.1Fe1P1O1 La 0.9 Sr 0.1 Fe 1 P 1 O 1 1 2017 ABCD oxypnictide P4/nmm A 3.963 8.5098 Fe-1111 K 5.6 6.79 6.195 "LaAs,LaP,Fe2O3,Fe,SrAs" "solid state reaction. mixture - pellet - ANN(1130C,40h, in evacuated silica tube)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157820 PRB095214515 "R-exponent n=1.99, pnivctogen hight =1.324 A, bond-angle = 113.5 degree" LaFeAs1-xPxO0.86F0.14 La1Fe1As1F0.14O0.86 La 1 Fe 1 As 1 F 0.14 O 0.86 1 2017 ABCD oxypnictide P4/nmm A 4.0262 8.7155 Fe-1111 K 11.9 11.9 "LaAs,LaP,Fe2O3,Fe,SrAs" "solid state reaction. mixture - pellet - ANN(1130C,40h, in evacuated silica tube)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157821 PRB095214515 "R-exponent n=1.82, pnivctogen hight =1.305 A, bond-angle = 114.2 degree" LaFeAs1-xPxO0.86F0.14 La1Fe1As0.8P0.2F0.14O0.86 La 1 Fe 1 As 0.8 P 0.2 F 0.14 O 0.86 1 2017 ABCD oxypnictide P4/nmm A 4.0233 8.6795 Fe-1111 K 11.1 11.1 "LaAs,LaP,Fe2O3,Fe,SrAs" "solid state reaction. mixture - pellet - ANN(1130C,40h, in evacuated silica tube)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157822 PRB095214515 "R-exponent n=1.48, pnivctogen hight =1.294 A, bond-angle = 114.4 degree" LaFeAs1-xPxO0.86F0.14 La1Fe1As0.7P0.3F0.14O0.86 La 1 Fe 1 As 0.7 P 0.3 F 0.14 O 0.86 1 2017 ABCD oxypnictide P4/nmm A 4.0172 8.6478 Fe-1111 K 12.9 12.9 "LaAs,LaP,Fe2O3,Fe,SrAs" "solid state reaction. mixture - pellet - ANN(1130C,40h, in evacuated silica tube)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157823 PRB095214515 "R(T) = R0 + A*T^n where A = 4.8 uOhm.cm/K^n, n=1.12. pnivctogen hight =1.278 A, bond-angle = 115.2 degree" LaFeAs1-xPxO0.86F0.14 La1Fe1As0.6P0.4F0.14O0.86 La 1 Fe 1 As 0.6 P 0.4 F 0.14 O 0.86 1 2017 ABCD oxypnictide P4/nmm A 4.0066 8.6222 Fe-1111 K 26.1 26.1 MTC157823 mOhm.cm 0.16 "LaAs,LaP,Fe2O3,Fe,SrAs" "solid state reaction. mixture - pellet - ANN(1130C,40h, in evacuated silica tube)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157824 PRB095214515 "R(T) = R0 + A*T^n where A = 2.8 uOhm.cm/K^n, n=1.14. pnivctogen hight =1.249 A, bond-angle = 116.0 degree" LaFeAs1-xPxO0.86F0.14 La1Fe1As0.5P0.5F0.14O0.86 La 1 Fe 1 As 0.5 P 0.5 F 0.14 O 0.86 1 2017 ABCD oxypnictide P4/nmm A 3.9984 8.606 Fe-1111 K 26.1 26.1 mOhm.cm 0.1 "LaAs,LaP,Fe2O3,Fe,SrAs" "solid state reaction. mixture - pellet - ANN(1130C,40h, in evacuated silica tube)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157825 PRB095214515 "R-exponent n=1.51, pnivctogen hight =1.225 A, bond-angle = 116.8 degree" LaFeAs1-xPxO0.86F0.14 La1Fe1As0.4P0.6F0.14O0.86 La 1 Fe 1 As 0.4 P 0.6 F 0.14 O 0.86 1 2017 ABCD oxypnictide P4/nmm A 3.986 8.5796 Fe-1111 K 21.1 21.1 "LaAs,LaP,Fe2O3,Fe,SrAs" "solid state reaction. mixture - pellet - ANN(1130C,40h, in evacuated silica tube)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157826 PRB095214515 "R-exponent n=2.04, pnivctogen hight =1.205 A, bond-angle = 117.6 degree" LaFeAs1-xPxO0.86F0.14 La1Fe1As0.2P0.8F0.14O0.86 La 1 Fe 1 As 0.2 P 0.8 F 0.14 O 0.86 1 2017 ABCD oxypnictide P4/nmm A 3.9624 8.5505 Fe-1111 K 10.1 10.1 "LaAs,LaP,Fe2O3,Fe,SrAs" "solid state reaction. mixture - pellet - ANN(1130C,40h, in evacuated silica tube)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157827 PRB095214515 "R-exponent n=2.07, pnivctogen hight =1.190 A, bond-angle = 118.0 degree" LaFeAs1-xPxO0.86F0.14 La1Fe1P1F0.14O0.86 La 1 Fe 1 P 1 F 0.14 O 0.86 1 2017 ABCD oxypnictide P4/nmm A 3.9451 8.4849 Fe-1111 K 2.98 2.98 "LaAs,LaP,Fe2O3,Fe,SrAs" "solid state reaction. mixture - pellet - ANN(1130C,40h, in evacuated silica tube)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157828 PRB095214515 "R-exponent n=1.90, pnivctogen hight =1.326 A, bond-angle = 113.0 degree" LaFeAsO0.75H0.25 La1Fe1As1H0.25O0.75 La 1 Fe 1 As 1 H 0.25 O 0.75 1 2017 ABCD oxypnictide P4/nmm A 3.9949 8.6676 Fe-1111 K 15.4 15.4 "LaAs,LaP,Fe2O3,Fe,LaH2" "High-P synthesis. mixture - press into BN capsule - heat(1100C,2h, P=4 GPa)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157829 PRB095214515 "R-exponent n=2.13, pnivctogen hight =1.316 A, bond-angle = 113.4 degree" LaFeAs1-xPxO0.75H0.25 La1Fe1As0.9P0.1H0.25O0.75 La 1 Fe 1 As 0.9 P 0.1 H 0.25 O 0.75 1 2017 ABCD oxypnictide P4/nmm A 3.9868 8.6392 Fe-1111 K 7.6 7.6 "LaAs,LaP,Fe2O3,Fe,LaH2" "High-P synthesis. mixture - press into BN capsule - heat(1100C,2h, P=4 GPa)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157830 PRB095214515 "R-exponent n=2.15, pnivctogen hight =1.271 A, bond-angle = 115.2 degree" LaFeAs1-xPxO0.75H0.25 La1Fe1As0.8P0.2H0.25O0.75 La 1 Fe 1 As 0.8 P 0.2 H 0.25 O 0.75 1 2017 ABCD oxypnictide P4/nmm A 3.984 8.6154 Fe-1111 K 0 "LaAs,LaP,Fe2O3,Fe,LaH2" "High-P synthesis. mixture - press into BN capsule - heat(1100C,2h, P=4 GPa)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157831 PRB095214515 "R-exponent n=2.12, pnivctogen hight =1.259 A, bond-angle = 115.3 degree" LaFeAs1-xPxO0.75H0.25 La1Fe1As0.6P0.4H0.25O0.75 La 1 Fe 1 As 0.6 P 0.4 H 0.25 O 0.75 1 2017 ABCD oxypnictide P4/nmm A 3.9719 8.5689 Fe-1111 K 0 "LaAs,LaP,Fe2O3,Fe,LaH2" "High-P synthesis. mixture - press into BN capsule - heat(1100C,2h, P=4 GPa)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157832 PRB095214515 "R-exponent n=2.24, pnivctogen hight =1.193 A, bond-angle = 117.6 degree" LaFePO0.75H0.25 La1Fe1P1H0.25O0.75 La 1 Fe 1 P 1 H 0.25 O 0.75 1 2017 ABCD oxypnictide P4/nmm A 3.9212 8.4886 Fe-1111 K 0 "LaAs,LaP,Fe2O3,Fe,LaH2" "High-P synthesis. mixture - press into BN capsule - heat(1100C,2h, P=4 GPa)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157833 PRB095214515 "R(T) = R0 + A*T^n where A = 2.14 uOhm.cm/K^n, n=1.08. pnivctogen hight =1.359 A, bond-angle = 111.8 degree" LaFeAsO0.7H0.3 La1Fe1As1H0.3O0.3 La 1 Fe 1 As 1 H 0.3 O 0.3 1 2017 ABCD oxypnictide P4/nmm A 3.9812 8.6782 Fe-1111 K 35 35 mOhm.cm 0.05 "LaAs,LaP,Fe2O3,Fe,LaH2" "High-P synthesis. mixture - press into BN capsule - heat(1100C,2h, P=4 GPa)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157834 PRB095214515 LaFeAs1-xPxO0.7H0.3 La1Fe1As0.9P0.1H0.3O0.3 La 1 Fe 1 As 0.9 P 0.1 H 0.3 O 0.3 1 2017 ABCD oxypnictide P4/nmm A Fe-1111 K 20 20 "LaAs,LaP,Fe2O3,Fe,LaH2" "High-P synthesis. mixture - press into BN capsule - heat(1100C,2h, P=4 GPa)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157835 PRB095214515 "not SC. R-exponent n=1.51, pnivctogen hight =1.304 A, bond-angle = 112.7 degree" LaFeAs1-xPxO0.7H0.3 La1Fe1As0.8P0.2H0.3O0.3 La 1 Fe 1 As 0.8 P 0.2 H 0.3 O 0.3 1 2017 ABCD oxypnictide P4/nmm A 3.9803 8.6232 Fe-1111 K 0 "LaAs,LaP,Fe2O3,Fe,LaH2" "High-P synthesis. mixture - press into BN capsule - heat(1100C,2h, P=4 GPa)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157836 PRB095214515 "not SC. R-exponent n=2.70, pnivctogen hight =1.259 A, bond-angle = 114.9 degree" LaFeAs1-xPxO0.7H0.3 La1Fe1As0.6P0.4H0.3O0.3 La 1 Fe 1 As 0.6 P 0.4 H 0.3 O 0.3 1 2017 ABCD oxypnictide P4/nmm A 3.9648 8.5677 Fe-1111 K 0 "LaAs,LaP,Fe2O3,Fe,LaH2" "High-P synthesis. mixture - press into BN capsule - heat(1100C,2h, P=4 GPa)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157837 PRB095214515 "not SC. R-exponent n=2.71, pnivctogen hight =1.196 A, bond-angle = 117.1 degree" LaFePO0.7H0.3 La1Fe1P1H0.3O0.3 La 1 Fe 1 P 1 H 0.3 O 0.3 1 2017 ABCD oxypnictide P4/nmm A 3.9061 8.4741 Fe-1111 K 0 "LaAs,LaP,Fe2O3,Fe,LaH2" "High-P synthesis. mixture - press into BN capsule - heat(1100C,2h, P=4 GPa)" Three superconducting phases with different categories of pairing in holeand electron-doped LaFeAs1-xPxO 2017 "Department of Physics, Osaka University, Osaka 560-0043, Japan" "Phys.Rev.B, 95(2017)214515"
157838 ACS1373622 "not SC for 0.2 < x < 0.4 in Li1-xSn2+xAs2. R(T), thermal conductivity measured." Li0.65Sn2.35As2 Li0.65Sn2.35As2 Li 0.65 Sn 2.35 As 2 1 2015 AB2C2 R3[-]m 166 K 0 "Sn(2N7),As(6N),Li(2N)" "solid state reaction. mixture(with excess Li) - sealed in silica ampule - heat(973K,10h) - ANN(973K,2h) - cool to 423 K over 30h" Intricate Short-Range Ordering and Strongly Anisotropic Transport Properties of Li1-xSn2+xAs2 2015 "Department of Chemistry and Department of Chemical Engineering and Materials Science, University of California Davis, Davis, California 95616, United States" "J.Am.Chem.Soc., 137(2015)3622"
157839 ACS1382170 No anomaly in R(T). ThFeAsN Th1Fe1As1 Th 1 Fe 1 As 1 1 2016 ABCD oxypnictide P4/nmm A 4.0367 8.5262 "Fe-1111, volume = 138.937 A3" K 28 30 29 100 "Th3N4,Th,FeAs" "mixture(Th3N4,Th,FeAs) - heat(1000C,20h) - pellet - SIN(1150C,50h)" A New ZrCuSiAs-Type Superconductor: ThFeAsN 2016 "Department of Physics, Shandong University of Technology, Zibo 255049, China" "J.Am.Chem.Soc., 137(2016)2170"
157840 ANG0540293 "(Li1-xFex)OH(Fe1-yLiy)Se, x=0.205,y=0.085 by XRD. Coexist (SC,F) below Tm (=10 K). FM-layer (Li1-Fex)OH and SC-layer (Fe1-yLiy)Se. Mossbauer measured." "(Li,Fe)OH(Fe,Li)Se" Li0.88Fe1.12Se1H1O1 Li 0.88 Fe 1.12 Se 1 H 1 O 1 1 2015 K 43 40 40 polycrystalline synthesized under hydrothermal conditions Coexistence of 3d-Ferromagnetism and Superconductivity in [(Li1-xFex)OH](Fe1-yLiy)Se 2015 "Department Chemie, Ludwig-Maximilians-Universitat Munchen Butenandtstrasse 5?13, Munchen, Germany" "Angew.Chem.Int.Ed., 54(2015)293"
157841 APL106112601 "composition: La,Bi:S:Se:O:F = 1:0.95:0.92:0.9:0.32:0.19 by XRD. Anisotropy = (Hc2//ab/Hc2//c) = 34" "La(O,F)BiSSe" La1Bi1S1Se1F0.5O0.5 La 1 Bi 1 S 1 Se 1 F 0.5 O 0.5 3 2015 ABCD2 P4/nmm A 4.1102 13.601 "bond length, angle shown in table" K 3.8 4.1 4.1 T "RES(on), wHH" 24.3 0.7 MHC157841 single crystals were prepared by an alkali metal chloride flux method "Site selectivity on chalcogen atoms in superconducting La(O,F)BiSSe" 2015 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Appl.Phys.Lett., 106(2015)112601"
157842 EPL11757005 "R(T)-exponnt n=1.30 for 40 < T < 150. structure, h(Th-As) =1.7858, h(Fe-As) = 1.2964, d(Th-As) = 2.3700, d(Fe-As) = 2.4010" ThFeAsN Th1Fe1As1N1 Th 1 Fe 1 As 1 N 1 1 2017 ABCD oxypnictide P4/nmm A 4.0414 8.5152 "ZrCuSiAs-type. alpha(Fe-As-Fe) = 114.65, beta(Fe-As-Fe) = 106.95" K 30 30 m3/C MRH157842 Solid state reaction Neutron powder diffraction study on the iron-based nitride superconductor ThFeAsN 2017 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of SciencesBeijing 100190, China" "Europhys.Lett., 117(2017)57005"
157843 HPST0070589 Li-RbCaNb3O10 Li0.1Rb1Ca2Nb3O10 Li 0.1 Rb 1 Ca 2 Nb 3 O 10 1 1998 Li-intercalation K 5 5 MTC157843 "K2CO3,Rb2CO3,CaCO3,Nb2O3" "solid state reaction. mixture - SIN(1150C, in air)" High pressure studies of the non-copper superconductors KCa2Nb3O10 and RbCa2Nb3O10 1998 "Institute for Solid State Physics, Univ. of Tokyo, Roppongi, Minato-ku 106, Japan" "Rev.High Pressure Sci.Technol., 7(1998)589"
157844 HPST0070589 Li-intercalated RbCa2Nb3O10. Intercalation using n-butyllithium hexane solution. Li-intercalation content not measured. Li-KCa2Nb3O10 Li0.1K1Ca2Nb3O10 Li 0.1 K 1 Ca 2 Nb 3 O 10 1 1998 Li-intercalation K 5 5 "K2CO3,Rb2CO3,CaCO3,Nb2O3" "solid state reaction. mixture - SIN(1150C, in air)" High pressure studies of the non-copper superconductors KCa2Nb3O10 and RbCa2Nb3O10 1998 "Institute for Solid State Physics, Univ. of Tokyo, Roppongi, Minato-ku 106, Japan" "Rev.High Pressure Sci.Technol., 7(1998)589"
157845 JAC7430547 "Bond distance: d(Bi-S1) = 2.552 , d(Bi-S2) = 2.888, where S1(in plane S), S2(out-of plane S), angle (S1-Bi-S1) = 173 deg. Eu-valence = .2.23" Eu3Bi2S4F4 Eu3Bi2S4F4 Eu 3 Bi 2 S 4 F 4 1 2018 A2B3C4D4 A 4.077 K 1.5 1.5 "Ba,Ti,Fe,Cr,As,TiO2,CrO3" "solid state reaction. mixture - sealed in quartz tube - heat(900C,1d) - cool to RT - reground - pellet - SIN(1050C,3d) -cool to RT - ANN(500C,2d)" Role of local structure distortion in the suppression of superconductivity for Eu3-xSrxBi2S4F4 system 2018 "College of Science, New Energy Technology Engineering Laboratory of Jiangsu Province, Nanjing University of Posts and Telecommunications, Nanjing, Jiangsu, 210023, China" "J.Alloys Compd., 743(2018)547"
157846 JAC7430547 "Bond distance: d(Bi-S1) = 2.583, d(Bi-S2) = 2.886 , where S1(in plane S), S2(out-of plane S), angle (S1-Bi-S1) = 172 deg. Eu-valence = .2.49" "(Eu,Sr)3Bi2S4F4" Eu2.5Sr0.5Bi2S4F4 Eu 2.5 Sr 0.5 Bi 2 S 4 F 4 1 2018 A2B3C4D4 A 4.0725 K 0.87 0.87 "Ba,Ti,Fe,Cr,As,TiO2,CrO3" "solid state reaction. mixture - sealed in quartz tube - heat(900C,1d) - cool to RT - reground - pellet - SIN(1050C,3d) -cool to RT - ANN(500C,2d)" Role of local structure distortion in the suppression of superconductivity for Eu3-xSrxBi2S4F4 system 2018 "College of Science, New Energy Technology Engineering Laboratory of Jiangsu Province, Nanjing University of Posts and Telecommunications, Nanjing, Jiangsu, 210023, China" "J.Alloys Compd., 743(2018)547"
157847 JAC7430547 "Bond distance: d(Bi-S1) = 2.606 , d(Bi-S2) = 2.885 , where S1(in plane S), S2(out-of plane S), angle (S1-Bi-S1) = 170 deg. Eu-valence = 2.70. Tc from SST030015005." "(Eu,Sr)3Bi2S4F4" Eu2Sr1Bi2S4F4 Eu 2 Sr 1 Bi 2 S 4 F 4 1 2018 A2B3C4D4 A 4.071 K 0.48 0.48 "Ba,Ti,Fe,Cr,As,TiO2,CrO3" "solid state reaction. mixture - sealed in quartz tube - heat(900C,1d) - cool to RT - reground - pellet - SIN(1050C,3d) -cool to RT - ANN(500C,2d)" Role of local structure distortion in the suppression of superconductivity for Eu3-xSrxBi2S4F4 system 2018 "College of Science, New Energy Technology Engineering Laboratory of Jiangsu Province, Nanjing University of Posts and Telecommunications, Nanjing, Jiangsu, 210023, China" "J.Alloys Compd., 743(2018)547"
157848 JAC7430547 "Bond distance: d(Bi-S1) = 2.634, d(Bi-S2) = 2.882 , where S1(in plane S), S2(out-of plane S), angle (S1-Bi-S1) = 168 deg. Eu-valence = 2.89. Tc from SST030015005." "(Eu,Sr)3Bi2S4F4" Eu1Sr2Bi2S4F4 Eu 1 Sr 2 Bi 2 S 4 F 4 1 2018 A2B3C4D4 A 4.065 K 0.3 "Ba,Ti,Fe,Cr,As,TiO2,CrO3" "solid state reaction. mixture - sealed in quartz tube - heat(900C,1d) - cool to RT - reground - pellet - SIN(1050C,3d) -cool to RT - ANN(500C,2d)" Role of local structure distortion in the suppression of superconductivity for Eu3-xSrxBi2S4F4 system 2018 "College of Science, New Energy Technology Engineering Laboratory of Jiangsu Province, Nanjing University of Posts and Telecommunications, Nanjing, Jiangsu, 210023, China" "J.Alloys Compd., 743(2018)547"
157849 JAC7450460 h(As) = 1.3450A. Angle(As-Fe-As) = 112.139 deg. Ba2Ti2Fe2As4O Ba2Ti2Fe2As4O1 Ba 2 Ti 2 Fe 2 As 4 O 1 1 2018 AB2C2D2E4 P4/mmm A 4.0296 27.3448 22241-phase K 21 21 mOhm.cm 0.564 Cr doping effects on structure and superconductivity of Ba2Ti2Fe2As4O 2018 "Key Laboratory of Levitation Technology and Maglev (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "J.Alloys Compd., 745(2018)460"
157850 JAC7450460 h(As) = 1.3451 A. Angle(As-Fe-As) = 112.137 deg. "Ba2Ti2(Fe,Cr)2As4O" Ba2Ti2Fe1.98Cr0.02As4O1 Ba 2 Ti 2 Fe 1.98 Cr 0.02 As 4 O 1 1 2018 AB2C2D2E4 P4/mmm A 4.0297 27.3489 Cr-doped 22241-phase K 19.1 19.1 MTC157850 mOhm.cm 0.747 Cr doping effects on structure and superconductivity of Ba2Ti2Fe2As4O 2018 "Key Laboratory of Levitation Technology and Maglev (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "J.Alloys Compd., 745(2018)460"
157851 JAC7450460 h(As) = 1.3453 A . Angle(As-Fe-As) = 112.131 deg. "Ba2Ti2(Fe,Cr)2As4O" Ba2Ti2Fe1.96Cr0.04As4O1 Ba 2 Ti 2 Fe 1.96 Cr 0.04 As 4 O 1 1 2018 AB2C2D2E4 P4/mmm A 4.0296 27.3585 Cr-doped 22241-phase K 15.7 15.7 mOhm.cm 0.896 Cr doping effects on structure and superconductivity of Ba2Ti2Fe2As4O 2018 "Key Laboratory of Levitation Technology and Maglev (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "J.Alloys Compd., 745(2018)460"
157852 JAC7450460 h(As) = 1.3453 A . Angle(As-Fe-As) = 112.131 deg. "Ba2Ti2(Fe,Cr)2As4O" Ba2Ti2Fe1.94Cr0.06As4O1 Ba 2 Ti 2 Fe 1.94 Cr 0.06 As 4 O 1 1 2018 AB2C2D2E4 P4/mmm A 4.0299 27.359 Cr-doped 22241-phase K 11.8 11.8 mOhm.cm 1.029 Cr doping effects on structure and superconductivity of Ba2Ti2Fe2As4O 2018 "Key Laboratory of Levitation Technology and Maglev (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "J.Alloys Compd., 745(2018)460"
157853 JAC7450460 h(As) = 1.3453 A . Angle(As-Fe-As) = 112.13 deg. R(T) not to zero at 1.8 K. "Ba2Ti2(Fe,Cr)2As4O" Ba2Ti2Fe1.92Cr0.08As4O1 Ba 2 Ti 2 Fe 1.92 Cr 0.08 As 4 O 1 1 2018 AB2C2D2E4 P4/mmm A 4.0301 27.361 Cr-doped 22241-phase K 8.16 8.16 mOhm.cm 1.098 Cr doping effects on structure and superconductivity of Ba2Ti2Fe2As4O 2018 "Key Laboratory of Levitation Technology and Maglev (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "J.Alloys Compd., 745(2018)460"
157854 JAC7450460 h(As) = 1.3454 A . Angle(As-Fe-As) = 112.127 deg. R(T) not to zero at 1.8 K. "Ba2Ti2(Fe,Cr)2As4O" Ba2Ti2Fe1.9Cr0.1As4O1 Ba 2 Ti 2 Fe 1.9 Cr 0.1 As 4 O 1 1 2018 AB2C2D2E4 P4/mmm A 4.0302 27.3649 Cr-doped 22241-phase K Cr doping effects on structure and superconductivity of Ba2Ti2Fe2As4O 2018 "Key Laboratory of Levitation Technology and Maglev (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "J.Alloys Compd., 745(2018)460"
157855 JAC7450460 h(As) = 1.3458 A . Angle(As-Fe-As) = 112.116 deg. R(T) not to zero at 1.8 K. "Ba2Ti2(Fe,Cr)2As4O" Ba2Ti2Fe1.88Cr0.12As4O1 Ba 2 Ti 2 Fe 1.88 Cr 0.12 As 4 O 1 1 2018 AB2C2D2E4 P4/mmm A 4.0305 27.3821 Cr-doped 22241-phase K Cr doping effects on structure and superconductivity of Ba2Ti2Fe2As4O 2018 "Key Laboratory of Levitation Technology and Maglev (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "J.Alloys Compd., 745(2018)460"
157856 JAC7450460 h(As) = 1.3458 A . Angle(As-Fe-As) = 112.115 deg. R(T) not to zero at 1.8 K. "Ba2Ti2(Fe,Cr)2As4O" Ba2Ti2Fe1.84Cr0.16As4O1 Ba 2 Ti 2 Fe 1.84 Cr 0.16 As 4 O 1 1 2018 AB2C2D2E4 P4/mmm A 4.0306 27.3839 Cr-doped 22241-phase K Cr doping effects on structure and superconductivity of Ba2Ti2Fe2As4O 2018 "Key Laboratory of Levitation Technology and Maglev (Ministry of Education of China), Superconductivity R&D Center (SRDC), Mail Stop 165#, Southwest Jiaotong University, Chengdu, Sichuan 610031, China" "J.Alloys Compd., 745(2018)460"
157857 JPCM027395701 "RRR = 100 . Tc(SP) = 3.46 K. SP (beta) = 1.65 mJ/mol.K4, (delta) = 0.135 mJ/mol.K6." TlNi2Se2 Tl1Ni2Se2 Tl 1 Ni 2 Se 2 3 2015 AB2C2 ThCr2Si2 I4/mmm A 3.87 13.438 K 3.6 3.69 3.69 mJ/mol.K2 40 SP "self-flux method. mixture(Tl:NiSe:NiS = 1:2-x:x) - placed in alumina crucible - sealed in quartz tube - heat(950C,12h) - cool to 650C(6 C/h) - FC to RT" Superconductivity and disorder effect in TlNi2Se2-xSx compounds 2015 "Hangzhou Key Laboratory of Quantum Matter, Department of Physics, Hangzhou Normal University, Hangzhou 310036, People's Republic of China" "J.Phys.Condens.Matter, 27(2015)395701"
157858 JPCM027395701 "RRR = 9.3 . Tc(SP) = 2.96 K. SP (beta) = 1.32 mJ/mol.K4, (delta) = 0.104 mJ/mol.K6." "TlNi2(Se,S)2" Tl1Ni2Se1.8S0.2 Tl 1 Ni 2 Se 1.8 S 0.2 3 2015 AB2C2 ThCr2Si2 I4/mmm A 3.8571 13.332 K 2.85 2.83 2.83 MSP157858 mJ/mol.K2 35.68 SP "self-flux method. mixture(Tl:NiSe:NiS = 1:2-x:x) - placed in alumina crucible - sealed in quartz tube - heat(950C,12h) - cool to 650C(6 C/h) - FC to RT" Superconductivity and disorder effect in TlNi2Se2-xSx compounds 2015 "Hangzhou Key Laboratory of Quantum Matter, Department of Physics, Hangzhou Normal University, Hangzhou 310036, People's Republic of China" "J.Phys.Condens.Matter, 27(2015)395701"
157859 JPCM027395701 RRR = 6.3 "TlNi2(Se,S)2" Tl1Ni2Se1.6S0.4 Tl 1 Ni 2 Se 1.6 S 0.4 3 2015 AB2C2 ThCr2Si2 I4/mmm A 3.8518 13.2698 K 2.59 2.65 2.65 "self-flux method. mixture(Tl:NiSe:NiS = 1:2-x:x) - placed in alumina crucible - sealed in quartz tube - heat(950C,12h) - cool to 650C(6 C/h) - FC to RT" Superconductivity and disorder effect in TlNi2Se2-xSx compounds 2015 "Hangzhou Key Laboratory of Quantum Matter, Department of Physics, Hangzhou Normal University, Hangzhou 310036, People's Republic of China" "J.Phys.Condens.Matter, 27(2015)395701"
157860 JPCM027395701 RRR = 5.6 "TlNi2(Se,S)2" Tl1Ni2Se1.4S0.6 Tl 1 Ni 2 Se 1.4 S 0.6 3 2015 AB2C2 ThCr2Si2 I4/mmm A 3.8432 13.193 K 2.03 2.2 2.2 MTC157860 "self-flux method. mixture(Tl:NiSe:NiS = 1:2-x:x) - placed in alumina crucible - sealed in quartz tube - heat(950C,12h) - cool to 650C(6 C/h) - FC to RT" Superconductivity and disorder effect in TlNi2Se2-xSx compounds 2015 "Hangzhou Key Laboratory of Quantum Matter, Department of Physics, Hangzhou Normal University, Hangzhou 310036, People's Republic of China" "J.Phys.Condens.Matter, 27(2015)395701"
157861 JPCM027395701 "RRR = 4.9 . Tc(SP) = 2.05 K. SP (beta) = 0.744 mJ/mol.K4, (delta) = 0.093 mJ/mol.K6." "TlNi2(Se,S)2" Tl1Ni2Se1.2S0.8 Tl 1 Ni 2 Se 1.2 S 0.8 3 2015 AB2C2 ThCr2Si2 I4/mmm A 3.8397 13.146 K 2.06 2.16 2.16 MSP157861 mJ/mol.K2 31.13 SP "self-flux method. mixture(Tl:NiSe:NiS = 1:2-x:x) - placed in alumina crucible - sealed in quartz tube - heat(950C,12h) - cool to 650C(6 C/h) - FC to RT" Superconductivity and disorder effect in TlNi2Se2-xSx compounds 2015 "Hangzhou Key Laboratory of Quantum Matter, Department of Physics, Hangzhou Normal University, Hangzhou 310036, People's Republic of China" "J.Phys.Condens.Matter, 27(2015)395701"
157862 JPCM027395701 RRR = 4.1 "TlNi2(Se,S)2" Tl1Ni2Se1S1 Tl 1 Ni 2 Se 1 S 1 3 2015 AB2C2 ThCr2Si2 I4/mmm A 3.832 13.0758 K 1.93 1.96 1.96 "self-flux method. mixture(Tl:NiSe:NiS = 1:2-x:x) - placed in alumina crucible - sealed in quartz tube - heat(950C,12h) - cool to 650C(6 C/h) - FC to RT" Superconductivity and disorder effect in TlNi2Se2-xSx compounds 2015 "Hangzhou Key Laboratory of Quantum Matter, Department of Physics, Hangzhou Normal University, Hangzhou 310036, People's Republic of China" "J.Phys.Condens.Matter, 27(2015)395701"
157863 JPCM027395701 "RRR = 4.7 . Tc(SP) = 2.02 K. SP (beta) = 0.511 mJ/mol.K4, (delta) = 0.090 mJ/mol.K6." "TlNi2(Se,S)2" Tl1Ni2Se0.8S1.2 Tl 1 Ni 2 Se 0.8 S 1.2 3 2015 AB2C2 ThCr2Si2 I4/mmm A 3.8245 13.0305 K 1.99 2.03 2.03 MSP157863 mJ/mol.K2 29.66 SP "self-flux method. mixture(Tl:NiSe:NiS = 1:2-x:x) - placed in alumina crucible - sealed in quartz tube - heat(950C,12h) - cool to 650C(6 C/h) - FC to RT" Superconductivity and disorder effect in TlNi2Se2-xSx compounds 2015 "Hangzhou Key Laboratory of Quantum Matter, Department of Physics, Hangzhou Normal University, Hangzhou 310036, People's Republic of China" "J.Phys.Condens.Matter, 27(2015)395701"
157864 JPCM027395701 RRR = 4.9 "TlNi2(Se,S)2" Tl1Ni2Se0.6S1.4 Tl 1 Ni 2 Se 0.6 S 1.4 3 2015 AB2C2 ThCr2Si2 I4/mmm A 3.815 12.9547 K 1.89 1.98 1.98 "self-flux method. mixture(Tl:NiSe:NiS = 1:2-x:x) - placed in alumina crucible - sealed in quartz tube - heat(950C,12h) - cool to 650C(6 C/h) - FC to RT" Superconductivity and disorder effect in TlNi2Se2-xSx compounds 2015 "Hangzhou Key Laboratory of Quantum Matter, Department of Physics, Hangzhou Normal University, Hangzhou 310036, People's Republic of China" "J.Phys.Condens.Matter, 27(2015)395701"
157865 JPCM027395701 RRR = 4.7 "TlNi2(Se,S)2" Tl1Ni2Se0.4S1.6 Tl 1 Ni 2 Se 0.4 S 1.6 3 2015 AB2C2 ThCr2Si2 I4/mmm A 3.8052 12.8907 K 1.94 1.99 1.99 MTC157860 "self-flux method. mixture(Tl:NiSe:NiS = 1:2-x:x) - placed in alumina crucible - sealed in quartz tube - heat(950C,12h) - cool to 650C(6 C/h) - FC to RT" Superconductivity and disorder effect in TlNi2Se2-xSx compounds 2015 "Hangzhou Key Laboratory of Quantum Matter, Department of Physics, Hangzhou Normal University, Hangzhou 310036, People's Republic of China" "J.Phys.Condens.Matter, 27(2015)395701"
157867 JPCM027395701 RRR = 6.9 "TlNi2(Se,S)2" Tl1Ni2Se0.2S1.8 Tl 1 Ni 2 Se 0.2 S 1.8 3 2015 AB2C2 ThCr2Si2 I4/mmm A 3.7982 12.8296 K 2.11 2.09 2.09 "self-flux method. mixture(Tl:NiSe:NiS = 1:2-x:x) - placed in alumina crucible - sealed in quartz tube - heat(950C,12h) - cool to 650C(6 C/h) - FC to RT" Superconductivity and disorder effect in TlNi2Se2-xSx compounds 2015 "Hangzhou Key Laboratory of Quantum Matter, Department of Physics, Hangzhou Normal University, Hangzhou 310036, People's Republic of China" "J.Phys.Condens.Matter, 27(2015)395701"
157868 JPCM027395701 "RRR = 8.3 . Tc(SP) = 2.15 K. SP (beta) = 1.14 mJ/mol.K4, (delta) = 0.094 mJ/mol.K6. (dC/gamma*Tc) = 1.55. Curie-Weiss for T < 100 K. Two gaps (large in DB, small = 0.95 kTc) from SP." TlNi2S2 Tl1Ni2S2 Tl 1 Ni 2 S 2 3 2015 emu/mol 0.00053 AB2C2 ThCr2Si2 I4/mmm A 3.7919 12.7809 K 2.25 2.3 2.3 T RES. GL-fitting 0.53 MHC157868 nm from Hc2 24.9 MSP157868 mJ/mol.K2 30.57 SP 197 SP uOh.cm 68 92 "self-flux method. mixture(Tl:NiSe:NiS = 1:2-x:x) - placed in alumina crucible - sealed in quartz tube - heat(950C,12h) - cool to 650C(6 C/h) - FC to RT" Superconductivity and disorder effect in TlNi2Se2-xSx compounds 2015 "Hangzhou Key Laboratory of Quantum Matter, Department of Physics, Hangzhou Normal University, Hangzhou 310036, People's Republic of China" "J.Phys.Condens.Matter, 27(2015)395701"
157869 JPCM028085701 RRR = 72.5. type-I SC. kappa(GL) = 0.611. Tc(SP) = 3.573 K. SP (beta) = 3.1 mJ/mol.K4. (dC/gamma*Tc) = 6.06. e-ph = 0.774. KBi2 Bi2K1 Bi 2 K 1 3 2016 AB2 MgCu2(Laves) A 9.5233 K 3.549 3.517 3.517 100 Oe type-I SC 234.3 MHC157869 nm GL 133.7 nm "See text, GL" 81.7 MSP157869 mJ/mol.K2 1.3 SP 123.4 SP "Flux method. (K:Bi = 1:9) - mixed - alumina crucible covered with quartz wool - sealed in quartz tube - heat(580C, 12 h) - slow cool to 280C" Type-I superconductivity in KBi2 single crystals 2016 "Department of Physics, Renmin University of China, Beijing 100872, People's Republic of China" "J.Phys.Condens.Matter, 28(2016)085701"
157870 JPS081083702 "RRR = 150. Ferroquadrupole order T = 2.0 K. R=R0 + A*T^2exp(-d/T), A=5.6 uOhm.cm/K2, d=2.1 K. cohere(0)= 280 nm penet = 330 nm from gamma(SP). GL = 1.2" PrTi2Al20 Pr1Ti2Al20 Pr 1 Ti 2 Al 20 3 2012 AB2C20 CeCr2Al20 Fd3[-]m K 0.2 0.2 60 Oe "SUS, WHH" 63 mT/K WHH fitting 47 MHC157870 nm from Hc2 230 nm from gamma(SP) 280 mJ/mol.K2 100 uOh.cm 0.38 "Pr(4N),La(3N),Ti(3N),Al(5N)" Al-self flux method Superconductivity in the Ferroquadrupolar State in the Quadrupolar Kondo Lattice PrTi2Al20 2012 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "J.Phys.Soc.Jpn, 81(2012)083702"
157871 JPS081083702 "RRR = 60. Ferroquadrupole order T = 2.0 K. R=R0 + A*T^2exp(-d/T), A = 5.1 uOhm.cm/K2, d = 2.0 K." PrTi2Al20 Pr1Ti2Al20 Pr 1 Ti 2 Al 20 3 2012 AB2C20 CeCr2Al20 Fd3[-]m K 0.14 0.14 uOh.cm 0.93 "Pr(4N),La(3N),Ti(3N),Al(5N)" Al-self flux method Superconductivity in the Ferroquadrupolar State in the Quadrupolar Kondo Lattice PrTi2Al20 2012 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "J.Phys.Soc.Jpn, 81(2012)083702"
157872 JPS081083702 not SC down to 0.03 K. LaTi2Al20 La1Ti2Al20 La 1 Ti 2 Al 20 3 2012 AB2C20 CeCr2Al20 Fd3[-]m K 0.03 mJ/mol.K2 23 "Pr(4N),La(3N),Ti(3N),Al(5N)" Al-self flux method Superconductivity in the Ferroquadrupolar State in the Quadrupolar Kondo Lattice PrTi2Al20 2012 "Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "J.Phys.Soc.Jpn, 81(2012)083702"
157873 JPS0673601 not SC CeRhSi3 Ce1Rh1Si3 Ce 1 Rh 1 Si 3 1 1998 -128 1.8 ABC3 BaNiSn3 A 4.269 9.738 K 0.5 mJ/mol.K2 120 "arc-melting - ANN(900 - 950 C,10d)" Contrasting Kondo-Lattice Behavior in CeTSi3 and CeTGe3 (T = Rh and Ir) 1998 "Institute for Solid State Physics, University of Tokyo, Roppongi, Minato-ku, Tokyo 106-8666" "J.Phys.Soc.Jpn, 67(1998)3601"
157874 JPS0673601 not SC CeIrSi3 Ce1Ir1Si3 Ce 1 Ir 1 Si 3 1 1998 -142 5 ABC3 BaNiSn3 A 4.252 9.715 K 0.5 mJ/mol.K2 125 "arc-melting - ANN(900 - 950 C,10d)" Contrasting Kondo-Lattice Behavior in CeTSi3 and CeTGe3 (T = Rh and Ir) 1998 "Institute for Solid State Physics, University of Tokyo, Roppongi, Minato-ku, Tokyo 106-8666" "J.Phys.Soc.Jpn, 67(1998)3601"
157875 JPS0673601 not SC. Curie-Weiss for T > 100 K. CeRhGe3 Ce1Rh1Ge3 Ce 1 Rh 1 Ge 3 1 1998 My-B/mol 2.53 -28 14.6 ABC3 BaNiSn3 A 4.402 9.993 K 0.5 mJ/mol.K2 40 "arc-melting - ANN(900 - 950 C,10d)" Contrasting Kondo-Lattice Behavior in CeTSi3 and CeTGe3 (T = Rh and Ir) 1998 "Institute for Solid State Physics, University of Tokyo, Roppongi, Minato-ku, Tokyo 106-8666" "J.Phys.Soc.Jpn, 67(1998)3601"
157876 JPS0673601 not SC. Curie-Weiss for T > 100 K. CeIrGe3 Ce1Ir1Ge3 Ce 1 Ir 1 Ge 3 1 1998 My-B/mol 2.39 -21 8.7 ABC3 BaNiSn3 A 4.409 10.032 K 0.5 mJ/mol.K2 80 "arc-melting - ANN(900 - 950 C,10d)" Contrasting Kondo-Lattice Behavior in CeTSi3 and CeTGe3 (T = Rh and Ir) 1998 "Institute for Solid State Physics, University of Tokyo, Roppongi, Minato-ku, Tokyo 106-8666" "J.Phys.Soc.Jpn, 67(1998)3601"
157877 JPS0760166 "P-induced SC. Tc = 0.986, 1.12, 1.06 K for P = 2.0, 2.2, 2.8 GPa, respectively" CeRhSi3 Ce1Rh1Si3 Ce 1 Rh 1 Si 3 1 2007 ABC3 BaNiSn3 K 0.5 "arc-melt using tetra-arc furnace. Wrapped in Ta-foil - sealed in quartz tube - ANN(850-950 C, 5d)" "Pressure Effect of Electronic States in Antiferromagnets CeTX3 (T: Transition metal, X: Si and Ge)" 2007 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 76(2007)Suppl.A 166"
157878 JPS0760166 not SC for P < 8 GPa. Fig shows Tn(P). CePtSi3 Ce1Pt1Si3 Ce 1 Pt 1 Si 3 1 2007 ABC3 BaNiSn3 K 0.5 MTN157878 "arc-melt using tetra-arc furnace. Wrapped in Ta-foil - sealed in quartz tube - ANN(850-950 C, 5d)" "Pressure Effect of Electronic States in Antiferromagnets CeTX3 (T: Transition metal, X: Si and Ge)" 2007 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan" "J.Phys.Soc.Jpn, 76(2007)Suppl.A 166"
157879 JPS077064716 not SC for P = 0 GPa CeRuSi3 Ce1Ru1Si3 Ce 1 Ru 1 Si 3 3 2008 1.8 ABC3 BaNiSn3 I4/mm 107 A 4.21577 9.9271 K 0 Czochralski mehod Magnetic and Superconducting Properties of CeTX3 (T: Transition Metal and X: Si and Ge) with Non-centrosymmetric Crystal Structure 2008 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043" "J.Phys.Soc.Jpn, 77(2008)064716"
157880 JPS077064716 not SC for P = 0 GPa CeRhGe3 Ce1Rh1Ge3 Ce 1 Rh 1 Ge 3 3 2008 15.3 ABC3 BaNiSn3 I4/mm 107 A 4.3976 10.0322 K 0 MPH157880 mJ/mol.K2 40.1 Bi-flux method Magnetic and Superconducting Properties of CeTX3 (T: Transition Metal and X: Si and Ge) with Non-centrosymmetric Crystal Structure 2008 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043" "J.Phys.Soc.Jpn, 77(2008)064716"
157881 JPS077064716 not SC for P = 0 GPa CeIrGe3 Ce1Ir1Ge3 Ce 1 Ir 1 Ge 3 3 2008 8.75 ABC3 BaNiSn3 I4/mm 107 A 4.401 10.024 K 0 MPH157881 mJ/mol.K2 80.3 Bi-flux method Magnetic and Superconducting Properties of CeTX3 (T: Transition Metal and X: Si and Ge) with Non-centrosymmetric Crystal Structure 2008 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043" "J.Phys.Soc.Jpn, 77(2008)064716"
157882 JPS077064716 not SC for P = 0 GPa CeCoSi3 Ce1Co1Si3 Ce 1 Co 1 Si 3 3 2008 ABC3 BaNiSn3 I4/mm 107 K 0 mJ/mol.K2 36.8 Bi-flux method Magnetic and Superconducting Properties of CeTX3 (T: Transition Metal and X: Si and Ge) with Non-centrosymmetric Crystal Structure 2008 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043" "J.Phys.Soc.Jpn, 77(2008)064716"
157883 JPS077064716 P-induced SC. P = 6.5 GPa. SC data shows for P = 6.5 GPa. CeCoGe3 Ce1Co1Ge3 Ce 1 Co 1 Ge 3 3 2008 21 ABC3 BaNiSn3 I4/mm 107 K 0.69 0 0.69 MPH157883 T/K RES(on) 20 mJ/mol.K2 32.6 Bi-flux method Magnetic and Superconducting Properties of CeTX3 (T: Transition Metal and X: Si and Ge) with Non-centrosymmetric Crystal Structure 2008 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043" "J.Phys.Soc.Jpn, 77(2008)064716"
157884 JPS077114704 P = 0 GPa. RRR = 200. CeRhIn5 Ce1Rh1In5 Ce 1 Rh 1 In 5 3 2008 ABC5 HoCoGa5 K 0 The Quantum Critical Point in CeRhIn5: A Resistivity Study 2008 "Commissariat a l Energie Atomic, INAC, SPSMS, 17 rue des Martyrs, 38054 Grenoble, France" "J.Phys.Soc.Jpn, 77(2008)114704"
157885 JPS077114704 P = 1.7 GPa. RRR = 200. Hc2(WHH) = 25.7 T CeRhIn5 Ce1Rh1In5 Ce 1 Rh 1 In 5 3 2008 ABC5 HoCoGa5 K 2.124 2.124 MPH157884 T RES(on). extrapolation 10.19 T/K RES(on) 17.28 MHC157885 A "BCS, Fermi velocity" 41.2 The Quantum Critical Point in CeRhIn5: A Resistivity Study 2008 "Commissariat a l Energie Atomic, INAC, SPSMS, 17 rue des Martyrs, 38054 Grenoble, France" "J.Phys.Soc.Jpn, 77(2008)114704"
157886 JPS077114704 P = 2.4 GPa. RRR = 200. Hc2(WHH) = 36.1 T CeRhIn5 Ce1Rh1In5 Ce 1 Rh 1 In 5 3 2008 ABC5 HoCoGa5 K 2.258 2.258 T RES(on). extrapolation 10.62 T/K RES(on) 22.83 MHC157886 A "BCS, Fermi velocity" 36.9 The Quantum Critical Point in CeRhIn5: A Resistivity Study 2008 "Commissariat a l Energie Atomic, INAC, SPSMS, 17 rue des Martyrs, 38054 Grenoble, France" "J.Phys.Soc.Jpn, 77(2008)114704"
157887 JPS077114704 P = 2.6 GPa. RRR = 200. Hc2(WHH) = 31.4 T CeRhIn5 Ce1Rh1In5 Ce 1 Rh 1 In 5 3 2008 ABC5 HoCoGa5 K 2.207 2.207 T RES(on). extrapolation 9.34 T/K RES(on) 20.34 MHC157887 A "BCS, Fermi velocity" 38.5 The Quantum Critical Point in CeRhIn5: A Resistivity Study 2008 "Commissariat a l Energie Atomic, INAC, SPSMS, 17 rue des Martyrs, 38054 Grenoble, France" "J.Phys.Soc.Jpn, 77(2008)114704"
157888 JPS077114704 P = 2.8 GPa. RRR = 200. Hc2(WHH) = 30.8 T CeRhIn5 Ce1Rh1In5 Ce 1 Rh 1 In 5 3 2008 ABC5 HoCoGa5 K 2.21 2.21 T RES(on). extrapolation 9.35 T/K RES(on) 19.93 MHC157888 A "BCS, Fermi velocity" 38.43 The Quantum Critical Point in CeRhIn5: A Resistivity Study 2008 "Commissariat a l Energie Atomic, INAC, SPSMS, 17 rue des Martyrs, 38054 Grenoble, France" "J.Phys.Soc.Jpn, 77(2008)114704"
157889 JPS077114704 P = 3.7 GPa. RRR = 200. Hc2(WHH) = 17.3 T CeRhIn5 Ce1Rh1In5 Ce 1 Rh 1 In 5 3 2008 ABC5 HoCoGa5 K 1.82 1.82 T RES(on). extrapolation 5.7 T/K RES(on) 13.6 MHC157887 A "BCS, Fermi velocity" 47.35 The Quantum Critical Point in CeRhIn5: A Resistivity Study 2008 "Commissariat a l Energie Atomic, INAC, SPSMS, 17 rue des Martyrs, 38054 Grenoble, France" "J.Phys.Soc.Jpn, 77(2008)114704"
157890 JPS077114704 P = 4.5 GPa. RRR = 200. Hc2(WHH) = 5.9 T CeRhIn5 Ce1Rh1In5 Ce 1 Rh 1 In 5 3 2008 ABC5 HoCoGa5 K 1.16 1.16 T RES(on). extrapolation 2.76 T/K RES(on) 7.25 MHC157887 A "BCS, Fermi velocity" 74.75 The Quantum Critical Point in CeRhIn5: A Resistivity Study 2008 "Commissariat a l Energie Atomic, INAC, SPSMS, 17 rue des Martyrs, 38054 Grenoble, France" "J.Phys.Soc.Jpn, 77(2008)114704"
157891 JPS087025003 Bi3O2S3 Bi3S3O2 Bi 3 S 3 O 2 1 2018 A2B3C3 A 41.2825 K 4.64 6 5.32 mOhm.cm 2.58 4.56 Superconducting Properties in Y-doped Semimetallic Bi3O2S3 Superconductors 2018 "Department of Physics, Pusan National University, Busan 46241, Korea" "J.Phys.Soc.Jpn, 87(2018)025003"
157892 JPS087025003 "(Bi,La)3O2S3" Bi2.95La0.05S3O2 Bi 2.95 La 0.05 S 3 O 2 1 2018 A2B3C3 A 41.3152 K 4.44 4.44 mOhm.cm 5.85 Superconducting Properties in Y-doped Semimetallic Bi3O2S3 Superconductors 2018 "Department of Physics, Pusan National University, Busan 46241, Korea" "J.Phys.Soc.Jpn, 87(2018)025003"
157893 JPS087025003 "(Bi,Y)3O2S3" Bi2.95Y0.05S3O2 Bi 2.95 Y 0.05 S 3 O 2 1 2018 A2B3C3 A 41.2428 K 4.93 4.93 mOhm.cm 0.82 1.65 Superconducting Properties in Y-doped Semimetallic Bi3O2S3 Superconductors 2018 "Department of Physics, Pusan National University, Busan 46241, Korea" "J.Phys.Soc.Jpn, 87(2018)025003"
157894 JPS087033707 RRR = 41.2. Tc(SP) = 0.46 K. e-ph = 0.376. (dC/gamma*Tc) = 1.26. Thermodynamic Hc(0) =25 Oe. LaTi2Al20 La1Ti2Al20 La 1 Ti 2 Al 20 3 2018 AB2C20 CeCr2Al20 Fd3[-]m 227 A 14.7946 K 0.3 0.3 100 MHC157894 3.34 14 MSP157894 mJ/mol.K2 22 SP 510 SP "La(3N),Al(4N)/mmc A 3.289 12.92 2H-type K 1.8 "2H-MoSe2 made by solid state reaction. Mixture(Li:MoSe2 = x:1) - heat(50C,2w). 0.2 M solution of Li, EDA" "New Lithium- and Diamine-Intercalated Superconductors Lix(CnH2n+4N2)yMoSe2 (n = 2,6)" 2018 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 87(2018)054704"
157900 JPS087054704 "Cointercalated(Li, M) sample. M = EDA(C2H8N2). M-content not known. Li-content x is nominal value..SUS(300K) = -0.97 emu/g." Lix(C2H8N2)yMoSe2 Li0.25M1Mo1Se2 Li 0.25 M 1 Mo 1 Se 2 1 2018 P6<3>/mmc A 23.7 K 4 4.2 4.2 "2H-MoSe2 made by solid state reaction. Mixture(Li:MoSe2 = x:1) - heat(50C,2w). 0.2 M solution of Li, EDA" "New Lithium- and Diamine-Intercalated Superconductors Lix(CnH2n+4N2)yMoSe2 (n = 2,6)" 2018 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 87(2018)054704"
157901 JPS087054704 "Cointercalated(Li, M) sample. M = EDA(C2H8N2). M-content not known. Li-content x is nominal value. SUS(300K) = -0.94 emu/g." Lix(C2H8N2)yMoSe2 Li0.5M1Mo1Se2 Li 0.5 M 1 Mo 1 Se 2 1 2018 P6<3>/mmc A 23.7 phase-II (c = 20.49) K 4 4.2 4.2 "2H-MoSe2 made by solid state reaction. Mixture(Li:MoSe2 = x:1) - heat(50C,2w). 0.2 M solution of Li, EDA" "New Lithium- and Diamine-Intercalated Superconductors Lix(CnH2n+4N2)yMoSe2 (n = 2,6)" 2018 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 87(2018)054704"
157902 JPS087054704 "Cointercalated(Li, M) sample. M = EDA(C2H8N2). M-content not known. Li-content x is nominal value. SUS(300K) = -0.73 emu/g." Lix(C2H8N2)yMoSe2 Li1M1Mo1Se2 Li 1 M 1 Mo 1 Se 2 1 2018 P6<3>/mmc A 23.6 phase-II (c = 20.56) K 3.9 4.2 4.2 "2H-MoSe2 made by solid state reaction. Mixture(Li:MoSe2 = x:1) - heat(50C,2w). 0.2 M solution of Li, EDA" "New Lithium- and Diamine-Intercalated Superconductors Lix(CnH2n+4N2)yMoSe2 (n = 2,6)" 2018 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 87(2018)054704"
157903 JPS087054704 "Cointercalated(Li, M) sample. M = HMDA(= C6H16N2). M-content not known. Li-content x is nominal value. SUS(300K) = -1.60 emu/g." Lix(C6H16N2)yMoSe2 Li0.25M1Mo1Se2 Li 0.25 M 1 Mo 1 Se 2 1 2018 P6<3>/mmc A 30.8 K 3.8 3.8 "New Lithium- and Diamine-Intercalated Superconductors Lix(CnH2n+4N2)yMoSe2 (n = 2,6)" 2018 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 87(2018)054704"
157904 JPS087054704 "Cointercalated(Li, M) sample. M = HMDA(= C6H16N2). M-content not known. Li-content x is nominal value. SUS(300K) = -1.11 emu/g." Lix(C6H16N2)yMoSe2 Li0.5M1Mo1Se2 Li 0.5 M 1 Mo 1 Se 2 1 2018 P6<3>/mmc A 37.4 K 4.2 4.2 "New Lithium- and Diamine-Intercalated Superconductors Lix(CnH2n+4N2)yMoSe2 (n = 2,6)" 2018 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 87(2018)054704"
157905 JPS087054704 "Cointercalated(Li, M) sample. M = HMDA(= C6H16N2). M-content not known. Li-content x is nominal value. SUS(300K) = -0.88 emu/g." Lix(C6H16N2)yMoSe2 Li1M1Mo1Se2 Li 1 M 1 Mo 1 Se 2 1 2018 P6<3>/mmc A 37.5 K 6 6 "New Lithium- and Diamine-Intercalated Superconductors Lix(CnH2n+4N2)yMoSe2 (n = 2,6)" 2018 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 87(2018)054704"
157906 JPS087054705 "ANN(200C,100H,in O2). Tc(P)-FIG shows inflection point in M(T). hydrostatic (HSP) and uniaxial pressure. (dTc/dP) value in DB for HSP." Fe1+yTe1-xSx Fe1.07Te0.88S0.12 Fe 1.07 Te 0.88 S 0.12 3 2018 AB Fe-11 K 8.2 9 8.4 8.4 MTC157906 K/GP -3.8 "crystals made by Tammann method. nominal(x=0.2,y=0) sealed in quartz ampule - heat(1050C,20h) - ground - furnace( T- gradient = 3C/cm) - heated(950 C,20h) - cool to 650( 3C/h) - kept( 650C,20 h)" Anisotropic Pressure Effects on Superconductivity in Fe1+yTe1-xSx 2018 "Department of Physics, Faculty of Science and Technology, Tokyo University of Science, Noda, Chiba 278-8510, Japan" "J.Phys.Soc.Jpn, 87(2018)054705"
157907 JPS087063702 Tc by SP measurements. (dC/Tc) = 9.80 mJ/mol.K2. (dC/gamma*Tc) = 1.43. BaPtSb Ba1Pt1Sb1 Ba 1 Pt 1 Sb 1 3 2018 ABC SrPtAs P6[-]m2 187 K 1.64 1.64 MSP157907 mJ/mol.K2 6.86 SP 186 SP uOhm.cm 13 150 "Ba,Pt,Sb powder" mixture(Ba:Pt:Sb=1.5:1:1.2) - alumina crucible - sealed in quartz tube (Ar) - heat(1150 C) - cool to 1100C (2.08 C/h) - FC to RT Superconductivity in BaPtSb with an Ordered Honeycomb Network 2018 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 87(2018)063702"
157908 JPS087073708 decomposed in air within several days. BaPtAs Ba1Pt1As1 Ba 1 Pt 1 As 1 3 2018 ABC SrPtSb P6[-]m2 187 A 4.308 4.761 K 2.75 2.82 2.8 2.8 T "RES(0.5Rn), extrapolation" 0.55 MHC157908 A from Hc2 245 "Ba,Pt,PtAs2 powder" "mixture - in alumina crucible - sealed in quartz tube - heat(1150 C,24-27 h) - furnace cool" Superconductivity in Hexagonal BaPtAs: SrPtSb- and YPtAs-type Structures with Ordered Honeycomb Network 2018 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 87(2018)073708"
157909 JPS087073708 decomposed in air within several days. (dC/Tc) = 8.40 mJ/mol.K2. (dC/gamma*Tc) = 1.46 BaPtAs Ba1Pt1As1 Ba 1 Pt 1 As 1 3 2018 ABC YPtAs P6<3>/mmc 194 A 4.324 19.101 K 2.87 2.92 2.895 T "RES(0.5Rn), extrapolation" 3 MHC157909 A from Hc2 105 MSP157909 mJ/mol.K2 5.74 SP 211 SP "Ba,Pt,PtAs2 powder" "mixture - in alumina crucible - sealed in quartz tube - heat(1150 C,24-27 h) - rapid cooling to iced water" Superconductivity in Hexagonal BaPtAs: SrPtSb- and YPtAs-type Structures with Ordered Honeycomb Network 2018 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 87(2018)073708"
157910 JPS087073708 decomposed in air within several days. BaPtAs Ba1Pt1As1 Ba 1 Pt 1 As 1 3 2018 ABC YPtAs P6<3>/mmc 194 A 4.324 19.101 K 2.17 2.22 2.195 T "RES(0.5Rn), extrapolation" 0.5 MHC157909 A from Hc2 256 MSP157909 mJ/mol.K2 4.77 SP 213 SP "Ba,Pt,PtAs2 powder" "mixture - in alumina crucible - sealed in quartz tube - heat(1150 C,24-27 h) - rapid cooling to iced water" Superconductivity in Hexagonal BaPtAs: SrPtSb- and YPtAs-type Structures with Ordered Honeycomb Network 2018 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 87(2018)073708"
157911 JPS087073708 not SC above 0.1 K. BaPtAs Ba1Pt1As1 Ba 1 Pt 1 As 1 3 2018 ABC LaIrSi P2<1>3 198 K 0.1 "Ba,Pt,PtAs2 powder" "mixture - in alumina crucible - sealed in quartz tube - heat(1100 C,24-27 h) - furnace cool" Superconductivity in Hexagonal BaPtAs: SrPtSb- and YPtAs-type Structures with Ordered Honeycomb Network 2018 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "J.Phys.Soc.Jpn, 87(2018)073708"
157912 JPS087073703 not SC. M-I transition at 255 K and 200 K. RuAs As1Ru1 As 1 Ru 1 3 2018 AB P2<1>/c A 5.723 3.3276 6.3206 K 1.4 MLAT157913 Bi-flux method. (Ru:Rh:As:Bi = (1-x):x:1:10) - sealed in silica tube - heat to 1100 C - cool to 500 C (2 C/h) <75>As-NQR Investigation of the Relationship between the Instability of Metal-Insulator Transition and Superconductivity in Ru1-xRhxAs 2018 "Department of Physics, Kobe University, Kobe 657-8501, Japan" "J.Phys.Soc.Jpn, 87(2018)073703"
157913 JPS087073703 Ru1-xRhxAs Ru0.75Rh0.25As1 Ru 0.75 Rh 0.25 As 1 3 2018 AB P2<1>/c A 5.6296 3.4572 6.197 K 1.8 1.8 Bi-flux method. (Ru:Rh:As:Bi = (1-x):x:1:10) - sealed in silica tube - heat to 1100 C - cool to 500 C (2 C/h) <75>As-NQR Investigation of the Relationship between the Instability of Metal-Insulator Transition and Superconductivity in Ru1-xRhxAs 2018 "Department of Physics, Kobe University, Kobe 657-8501, Japan" "J.Phys.Soc.Jpn, 87(2018)073703"
157914 JPS087073703 SC-volume is max for x = 0.4 in Ru1-xRhxAs. gap estimated from NMR measurements. Ru1-xRhxAs Ru0.6Rh0.4As1 Ru 0.6 Rh 0.4 As 1 3 2018 AB P2<1>/c A 5.5965 3.5256 6.1545 K 1.8 1.8 2 6 Bi-flux method. (Ru:Rh:As:Bi = (1-x):x:1:10) - sealed in silica tube - heat to 1100 C - cool to 500 C (2 C/h) <75>As-NQR Investigation of the Relationship between the Instability of Metal-Insulator Transition and Superconductivity in Ru1-xRhxAs 2018 "Department of Physics, Kobe University, Kobe 657-8501, Japan" "J.Phys.Soc.Jpn, 87(2018)073703"
157915 LES1100321 not SC. (dR(T)/dT) = 1.4 uOhm.cm/K) for T < 25 K. CeRhSi3 Ce1Rh1Si3 Ce 1 Rh 1 Si 3 1 1985 ABC3 BaNiSn3 K 0 uOhm.cm 145 "arc-melting - ANN(800-850 C, 6-8 days)" "LOW-TEMPERATURE MAGNETIC AND ELECTRICAL PROPERTIES OF THE NEW TERNARY SILICIDES LaMSi AND CeMSi, WITH M = Co, Rh, Ir, Ru, OS" 1985 "CRTBT-CNRS, BP 166 X, F-38042 Grenoble Cedex (France)" "J.Less-Common Metals, 110(1985)321"
157916 LES1100321 not SC. (dR(T)/dT) = 1.5 uOhm.cm/K) for T < 12 K. CeIrSi3 Ce1Ir1Si3 Ce 1 Ir 1 Si 3 1 1985 ABC3 BaNiSn3 K 0 uOhm.cm 130 "arc-melting - ANN(800-850 C, 6-8 days)" "LOW-TEMPERATURE MAGNETIC AND ELECTRICAL PROPERTIES OF THE NEW TERNARY SILICIDES LaMSi AND CeMSi, WITH M = Co, Rh, Ir, Ru, OS" 1985 "CRTBT-CNRS, BP 166 X, F-38042 Grenoble Cedex (France)" "J.Less-Common Metals, 110(1985)321"
157917 LES1100321 "not SC. T(T)-exponent, n = 2 for T < 100 K." CeRuSi3 Ce1Ru1Si3 Ce 1 Ru 1 Si 3 1 1985 ABC3 BaNiSn3 K 0 uOhm.cm 190 "arc-melting - ANN(800-850 C, 6-8 days)" "LOW-TEMPERATURE MAGNETIC AND ELECTRICAL PROPERTIES OF THE NEW TERNARY SILICIDES LaMSi AND CeMSi, WITH M = Co, Rh, Ir, Ru, OS" 1985 "CRTBT-CNRS, BP 166 X, F-38042 Grenoble Cedex (France)" "J.Less-Common Metals, 110(1985)321"
157918 LES1100321 "not SC. T(T)-exponent, n = 2 for T < 100 K." CeOsSi3 Ce1Os1Si3 Ce 1 Os 1 Si 3 1 1985 ABC3 BaNiSn3 K 0 uOhm.cm 210 "arc-melting - ANN(800-850 C, 6-8 days)" "LOW-TEMPERATURE MAGNETIC AND ELECTRICAL PROPERTIES OF THE NEW TERNARY SILICIDES LaMSi AND CeMSi, WITH M = Co, Rh, Ir, Ru, OS" 1985 "CRTBT-CNRS, BP 166 X, F-38042 Grenoble Cedex (France)" "J.Less-Common Metals, 110(1985)321"
157919 LES1100321 "T(T)-exponent, n = 2.5 for T < 100 K." CeCoSi3 Ce1Co1Si3 Ce 1 Co 1 Si 3 1 1985 ABC3 BaNiSn3 K 1.4 1.4 uOhm.cm 160 "arc-melting - ANN(800-850 C, 6-8 days)" "LOW-TEMPERATURE MAGNETIC AND ELECTRICAL PROPERTIES OF THE NEW TERNARY SILICIDES LaMSi AND CeMSi, WITH M = Co, Rh, Ir, Ru, OS" 1985 "CRTBT-CNRS, BP 166 X, F-38042 Grenoble Cedex (France)" "J.Less-Common Metals, 110(1985)321"
157920 MAT1704.07194 RRR = 10. Debye-T = 116 K from R(T). SP (beta) = 2.10 mJ/mol.K4. (dS/dT) = 0.00298 uV/K2 for 150O(enriched 98% isotope, addition with Cd or <116>Cd(enriched 88.7 %), then CVT method" Isotope effect on superconductivity and Raman phonons of Pyrochlore Cd2Re2O7 2018 "Department of Physics, Brock University, St. Catharines, Ontario L2S 3A1, Canada" "Physica C, 549(2018)11"
157928 PHC5490011 "SP (beta) = 0.223 mJ/mol.K4. isotope effect of <18>O , alpha =< 0.04" Cd2Re2<18>O7 Cd2Re2O7 Cd 2 Re 2 O 7 3 2018 A2B2C7 pyrochlore Fd3m K O 98 MSP157928 "Re(4N),Cd(4N75),O" "Firstly prepared Re2O7 from Re and O or <18>O(enriched 98% isotope, addition with Cd or <116>Cd(enriched 88.7 %), then CVT method" Isotope effect on superconductivity and Raman phonons of Pyrochlore Cd2Re2O7 2018 "Department of Physics, Brock University, St. Catharines, Ontario L2S 3A1, Canada" "Physica C, 549(2018)11"
157929 PHC5490011 "isotope effect of <116>Cd , alpha = 0.04" <116>Cd2Re2<18>O7 Cd2Re2O7 Cd 2 Re 2 O 7 3 2018 A2B2C7 pyrochlore Fd3m K MGAP157929 0.04 Cd 88.7 MSP157928 mJ/mol.K2 30.4 SP "Re(4N),Cd(4N75),O" "Firstly prepared Re2O7 from Re and O or <18>O(enriched 98% isotope, addition with Cd or <116>Cd(enriched 88.7 %), then CVT method" Isotope effect on superconductivity and Raman phonons of Pyrochlore Cd2Re2O7 2018 "Department of Physics, Brock University, St. Catharines, Ontario L2S 3A1, Canada" "Physica C, 549(2018)11"
157930 PHC5490088 RRR = 8.0. - (dHc2/dT) = 5.77 and 4.44 for R(0.9Rn) and R(0.1Rn). SP (beta) = 1.14 mJ/mol.K4. (dC/gamma*Tc) = 1.04. SUS(300K) = 3.21E-4 cm3/mol. BaNb2S5 Ba1Nb2S5 Ba 1 Nb 2 S 5 2018 AB2C5 3.318 24.65 hexagonal K 1.09 1.09 T/K RES(mid) 0.5 MHC157930 A 62.1 A London 2090 meV 0.184 14 mJ/mol.K2 9.02 SP 119.3 SP "BaCO3,Nb2O5" "mixture quartz tube - solid state reaction, several times using CS2/N2 gas flow." Observation of superconductivity in BaNb2S5 2018 "Physics Department, Montana State University, Bozeman, MT 59717-3840, USA" "Physica C, 549(2018)88"
157931 PHC5490088 RRR = 17. -(dHc2/dT) = 7.64 and 4.86 for R(0.9Rn) and R(0.1Rn). SP (beta) = 0.963 mJ/mol.K4. (dC/gamma*Tc) = 0.993. SUS(300K) = 3.25E-4 cm3/mol. BaNb2S5 Ba1Nb2S5 Ba 1 Nb 2 S 5 2018 AB2C5 3.316 24.77 hexagonal K 0.95 0.95 T/K RES(mid) 0.576 MSP157931 mJ/mol.K2 11.2 SP 126 SP cm3/C -0.0015 MRH157931 n/cm3 2.40E+21 "solid state reaction using elements of Ba, Nb metal s and S, details in text." Observation of superconductivity in BaNb2S5 2018 "Physics Department, Montana State University, Bozeman, MT 59717-3840, USA" "Physica C, 549(2018)88"
157932 PRB087121101 nodeless SC for x =< 0.4 in (Ca4Al2O6)Fe2(As1-xPx)2. (Ca4Al2O6)Fe2(As1-xPx)2 Ca4Al2Fe2As2O6 Ca 4 Al 2 Fe 2 As 2 O 6 1 2013 Fe-42622 Al-42622As K 26.8 26.8 "High-P, solid state reaction method. O-content = nearly 6" Emergent phases of nodeless and nodal superconductivity separated by antiferromagnetic order in iron-based superconductor (Ca4Al2O6)Fe2(As1-xPx)2: <75>As- and <31>P-NMR studies 2013 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.B, 87(2013)121101"
157933 PRB087121101 nodeless SC for x =< 0.4 in (Ca4Al2O6)Fe2(As1-xPx)2. (Ca4Al2O6)Fe2(As1-xPx)2 Ca4Al2Fe2As1.6P0.4O6 Ca 4 Al 2 Fe 2 As 1.6 P 0.4 O 6 1 2013 Fe-42622 Al-42622As K 22.5 22.5 MPH157933 "High-P, solid state reaction method. O-content = nearly 6" Emergent phases of nodeless and nodal superconductivity separated by antiferromagnetic order in iron-based superconductor (Ca4Al2O6)Fe2(As1-xPx)2: <75>As- and <31>P-NMR studies 2013 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.B, 87(2013)121101"
157934 PRB087121101 "open symbol in Figure, means Tn of minority phase." (Ca4Al2O6)Fe2(As1-xPx)2 Ca4Al2Fe2As1.2P0.8O6 Ca 4 Al 2 Fe 2 As 1.2 P 0.8 O 6 1 2013 0 Fe-42622 Al-42622As K 0 0 0 "High-P, solid state reaction method. O-content = nearly 6" Emergent phases of nodeless and nodal superconductivity separated by antiferromagnetic order in iron-based superconductor (Ca4Al2O6)Fe2(As1-xPx)2: <75>As- and <31>P-NMR studies 2013 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.B, 87(2013)121101"
157935 PRB087121101 "AFM occures for 1.32 < h (pnictide hight) < 1.42. open symbol in Figure, means Tc of minority phase." (Ca4Al2O6)Fe2(As1-xPx)2 Ca4Al2Fe2As1P1O6 Ca 4 Al 2 Fe 2 As 1 P 1 O 6 1 2013 45.3 Fe-42622 Al-42622As K 0 0 0 "High-P, solid state reaction method. O-content = nearly 6" Emergent phases of nodeless and nodal superconductivity separated by antiferromagnetic order in iron-based superconductor (Ca4Al2O6)Fe2(As1-xPx)2: <75>As- and <31>P-NMR studies 2013 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.B, 87(2013)121101"
157936 PRB087121101 AFM occures for 1.32 < h (pnictide hight) < 1.42. (Ca4Al2O6)Fe2(As1-xPx)2 Ca4Al2Fe2As0.5P1.5O6 Ca 4 Al 2 Fe 2 As 0.5 P 1.5 O 6 1 2013 62 Fe-42622 Al-42622As K 0 0 0 MPH157933 "High-P, solid state reaction method. O-content = nearly 6" Emergent phases of nodeless and nodal superconductivity separated by antiferromagnetic order in iron-based superconductor (Ca4Al2O6)Fe2(As1-xPx)2: <75>As- and <31>P-NMR studies 2013 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.B, 87(2013)121101"
157937 PRB087121101 AFM occures for 1.32 < h (pnictide hight) < 1.42. (Ca4Al2O6)Fe2(As1-xPx)2 Ca4Al2Fe2As0.1P1.9O6 Ca 4 Al 2 Fe 2 As 0.1 P 1.9 O 6 1 2013 50 Fe-42622 Al-42622As K 0 0 0 "High-P, solid state reaction method. O-content = nearly 6" Emergent phases of nodeless and nodal superconductivity separated by antiferromagnetic order in iron-based superconductor (Ca4Al2O6)Fe2(As1-xPx)2: <75>As- and <31>P-NMR studies 2013 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.B, 87(2013)121101"
157938 PRB087121101 nodal SC for x > 0.95 in (Ca4Al2O6)Fe2(As1-xPx)2. (Ca4Al2O6)Fe2(As1-xPx)2 Ca4Al2Fe2P2O6 Ca 4 Al 2 Fe 2 P 2 O 6 1 2013 Fe-42622 Al-42622As K 16.6 16.6 "High-P, solid state reaction method. O-content = nearly 6" Emergent phases of nodeless and nodal superconductivity separated by antiferromagnetic order in iron-based superconductor (Ca4Al2O6)Fe2(As1-xPx)2: <75>As- and <31>P-NMR studies 2013 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "Phys.Rev.B, 87(2013)121101"
157939 PRB093064501 Mo8.1Ga40.9 by EDX. SP (beta) = 11.76 mJ/mol.K4. (dC/gamma*Tc) = 2.83. DOS = 22.36 state/eV.fu from gamma. Hc3(0) =12.3 T. Hc3/Hc2 = 1.5 Mo8Ga41 Ga41Mo8 Ga 41 Mo 8 3 2016 A8B41 R3[-] 148 K 9.8 9.8 Oe M-H curve 131 T "SP, SUS, GL fitting" 8.3 T/K "SP,SUS" 1 MHC157939 A from Hc2 158 "Mo(3N),V(3N),Ga(5N)" "(Mo:V:Ga = (8-x:x:400) - quartz ampoule - ANN(830 C,55h) - slow cool to 170 C(4 C/h) - remove excess of liquid Ga - 0.5M Hcl (24h) - washed by water" Strong electron-phonon coupling in the intermetallic superconductor Mo8Ga41 2016 "Department of Chemistry, Lomonosov Moscow State University, 119991 Moscow, Russia" "Phys.Rev.B, 93(2016)064501"
157940 PRB093064501 Mo8-xVxGa41 Ga41Mo7V1 Ga 41 Mo 7 V 1 3 2016 A8B41 R3[-] 148 K 9.2 9.2 "Mo(3N),V(3N),Ga(5N)" "(Mo:V:Ga = (8-x:x:400) - quartz ampoule - ANN(830 C,55h) - slow cool to 170 C(4 C/h) - remove excess of liquid Ga - 0.5M Hcl (24h) - washed by water" Strong electron-phonon coupling in the intermetallic superconductor Mo8Ga41 2016 "Department of Chemistry, Lomonosov Moscow State University, 119991 Moscow, Russia" "Phys.Rev.B, 93(2016)064501"
157941 PRB093064501 Mo8-xVxGa41 Ga41Mo6V2 Ga 41 Mo 6 V 2 3 2016 A8B41 R3[-] 148 K 8.7 8.7 mJ/mol.K2 99.1 SP 201 SP mOhm.cm 0.221 "Mo(3N),V(3N),Ga(5N)" "(Mo:V:Ga = (8-x:x:400) - quartz ampoule - ANN(830 C,55h) - slow cool to 170 C(4 C/h) - remove excess of liquid Ga - 0.5M Hcl (24h) - washed by water" Strong electron-phonon coupling in the intermetallic superconductor Mo8Ga41 2016 "Department of Chemistry, Lomonosov Moscow State University, 119991 Moscow, Russia" "Phys.Rev.B, 93(2016)064501"
157942 PNAS112E7048 SP (beta) = 4.68 mJ/mol.K4. (dC/gamma*Tc) = 1.6. e-ph = 0.51. DOS = 1.3 states/eV.fu from gamma. ReGa5 Ga5Re1 Ga 5 Re 1 2015 AB5 Cmce "PdGa5-type, ortho-" K 2.1 2.3 2.1 MSP157942 mJ/mol.K2 4.7 SP 314 SP "Re(5N),Ga(4N5)" "(Re1.5Ga98.5,Re3Ga97) - sealed in SiO2 jackets - heat to 900 C for 24h at 3 C/min - cool to 500 C (4 C/h) - ANN(2days)" Endohedral gallide cluster superconductors and superconductivity in ReGa5 2015 "Department of Chemistry, Princeton University, Princeton, NJ 08540; and bFaculty of Applied Physics and Mathematics, Gdansk University of Technology, 80-233 Gdansk, Poland" Proc.Natl.Acad.Sci. (PNAS). (2015)112E7048
157943 PRB097104513 P-induced SC. RRR = 120. Tc(P) and Tn(P) measured. Tc(DB) shows Tc(max) at P = 2.52 GPa CeIrSi3 Ce1Ir1Si3 Ce 1 Ir 1 Si 3 3 2018 ABC3 BaNiSn3 K 1.52 0 1.52 MPH157943 "Czochralski method. crystals - sealed in quartz tube - ANN(950 C, 5 days, in vac" Unconventional superconductivity and quantum criticality in the heavy fermions CeIrSi3 and CeRhSi3 2018 "Centro de Fisica, Instituto Venezolano de Investigaciones Cientificas, Apartado 20632, Caracas 1020-A, Venezuela" "Phys.Rev.B, 97(2018)104513"
157944 PRB097104513 P-induced SC. RRR = 180. Tc(P) and Tn(P) measured. Tc(DB) shows Tc(max) at P = 2.45 GPa CeRhSi3 Ce1Rh1Si3 Ce 1 Rh 1 Si 3 3 2018 ABC3 BaNiSn3 K 0.92 0 0.92 MPH157944 "Czochralski method. crystals - sealed in quartz tube - ANN(950 C, 5 days, in vac" Unconventional superconductivity and quantum criticality in the heavy fermions CeIrSi3 and CeRhSi3 2018 "Centro de Fisica, Instituto Venezolano de Investigaciones Cientificas, Apartado 20632, Caracas 1020-A, Venezuela" "Phys.Rev.B, 97(2018)104513"
157945 PRB097134508 Gap measured by Andreev reflection. gap size = 4.76 by SP analysis. SP (beta) = 1.16 mJ/mol.K4. Isotropic Hc2 (Hc2//ab = Hc2//c). BaPd2As2 Ba1Pd2As2 Ba 1 Pd 2 As 2 3 2018 AB2C2 ThCr2Si2 I4/mmm K 3.5 3.75 3.5 MGAP157945 Oe M-H curve 43 T "M-H, RES, WHH" 0.18 0.18 MHC157945 nm from Hc2 42.7 nm "cohere, kappa" 26.4 meV 0.85 5.4 mJ/mol.K2 5.9 SP 144 SP self-flux method High-pressure effects on isotropic superconductivity in the iron-free layered pnictide superconductor BaPd2As2 2018 "Center for High Pressure Science and Technology Advanced Research, Beijing, 100094, China" "Phys.Rev.B, 97(2018)134508"
157946 PRB097134508 "Lattice const measured up to 30 GPa by angle dispersive XRD. bulk modulus= 40 (in DB) and 142 GPa for P < 12 and for P < 30 GPa, respectively." BaPd2As2 Ba1Pd2As2 Ba 1 Pd 2 As 2 3 2018 AB2C2 ThCr2Si2 I4/mmm A 4.474 10.331 lattice const measured for P < 30.2 GPa K MTC157946 K/GPa -0.25 self-flux method High-pressure effects on isotropic superconductivity in the iron-free layered pnictide superconductor BaPd2As2 2018 "Center for High Pressure Science and Technology Advanced Research, Beijing, 100094, China" "Phys.Rev.B, 97(2018)134508"
157947 PRB097174516 Sn-content not shown. P = 0. volume=153.7 A3. SG = R-3m for P < 19.1 GPa Sn-doped Bi1.1Sb0.9Te2S Sn0.1Bi1.1Sb0.9Te2S1 Sn 0.1 Bi 1.1 Sb 0.9 Te 2 S 1 3 2018 GPa 51.4 R-3m A 4.219 29.672 K 0 single crystals grown by modified Bridgman method Pressure-induced topological insulator-to-metal transition and superconductivity in Sn-doped Bi1.1Sb0.9Te2S 2018 "Anhui Province Key Laboratory of Condensed Matter Physics at Extreme Conditions, High Magnetic Field Laboratory, Chinese Academy of Sciences, Hefei 230031, China" "Phys.Rev.B, 97(2018)174516"
157948 PRB097174516 Sn-content not shown. P = 14.3 GPa. SG = C2/c for P > 11.7 GPa Sn-doped Bi1.1Sb0.9Te2S Sn0.1Bi1.1Sb0.9Te2S1 Sn 0.1 Bi 1.1 Sb 0.9 Te 2 S 1 3 2018 GPa 97.2 AB2C2 C2/c Two phases(R-3m + C2/c) K 4.31 4.31 MTC157948 T "RES(0.9Rn), WHH" 2.31 MHC157948 single crystals grown by modified Bridgman method Pressure-induced topological insulator-to-metal transition and superconductivity in Sn-doped Bi1.1Sb0.9Te2S 2018 "Anhui Province Key Laboratory of Condensed Matter Physics at Extreme Conditions, High Magnetic Field Laboratory, Chinese Academy of Sciences, Hefei 230031, China" "Phys.Rev.B, 97(2018)174516"
157949 PRB097174516 Sn-content not shown. P = 31.6 GPa. SG = Im-3m for P > 24 GPa Sn-doped Bi1.1Sb0.9Te2S Sn0.1Bi1.1Sb0.9Te2S1 Sn 0.1 Bi 1.1 Sb 0.9 Te 2 S 1 3 2018 GPa 122.9 AB2C2 Im-3m A 6.1885 12.92 18.083 Two phases(C2/c + Im-3m) K 9.62 9.62 single crystals grown by modified Bridgman method Pressure-induced topological insulator-to-metal transition and superconductivity in Sn-doped Bi1.1Sb0.9Te2S 2018 "Anhui Province Key Laboratory of Condensed Matter Physics at Extreme Conditions, High Magnetic Field Laboratory, Chinese Academy of Sciences, Hefei 230031, China" "Phys.Rev.B, 97(2018)174516"
157950 PRB097184517 summary data of alpha-Ga(MP = 302.9 K). Type-I SC. (dC/gamma*Tc) = 1.41. N(0) = 0.25 states/eV.atom from gamma. alpha-Ga Ga1 Ga 1 2018 A Cmca ortho- K 1.08 1.08 mT 5.03 meV 0.18 3.94 14 mJ/mol.K2 0.6 SP 350 SP Raising the superconducting Tc of gallium: In situ characterization of the transformation of alpha-Ga into beta-Ga 2018 "Department of Physics, Stockholm University, SE-106 91 Stockholm, Sweden" "Phys.Rev.B, 97(2018)184517"
157951 PRB097184517 beta-Ga(MP = 255 K). (dC/gamma*Tc) = 1.83. N(0) = 0.65 states/eV.atom from gamma. beta-Ga Ga1 Ga 1 2018 A C2/c monoclinic K 6.04 6.04 mT SP(mid) 57 MHC157951 meV 1.04 4 14 mJ/mol.K2 1.53 SP 120 SP heat to 317 K - supercooling at 255 K to beta-Ga. Raising the superconducting Tc of gallium: In situ characterization of the transformation of alpha-Ga into beta-Ga 2018 "Department of Physics, Stockholm University, SE-106 91 Stockholm, Sweden" "Phys.Rev.B, 97(2018)184517"
157952 PRB097224506 "SP (beta)=0.39mJ/mol.K4, (delta) = 1 microJ/mol.K6. (dC/gamma*Tc) = 1.76. [penet] measured using tuuel diode oscillator(TDO) and SP analysis. gap from SP and [penet]" Re6Zr Re6Zr1 Re 6 Zr 1 3 2018 AB6 K 6.8 6.8 0.2 6.8 nm from Hc2 5.5 nm TDO 200 3.9 14 MSP157952 mJ/mol.K2 27.4 SP mOhm.cm 0.3 Czochralski method Fully gapped superconductivity in single crystals of noncentrosymmetric Re6Zr with broken time-reversal symmetry 2018 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310058, China" "Phys.Rev.B, 97(2018)224506"
157953 PRB097224508 "T-O transition, Ts = 58.0 K," NaFe1-xNixAs Na1Fe1As1 Na 1 Fe 1 As 1 3 2018 44.7 ABC PbFCl tetra-to-ortho transition at Ts K 8.64 8.64 10 self-flux method Disentangling superconducting and magnetic orders in NaFe1-xNixAs using muon spin rotation 2018 "Department of Physics, Columbia University, New York, New York 10027, USA" "Phys.Rev.B, 97(2018)224508"
157954 PRB097224508 "T-O transition, Ts = 44.8 K," NaFe1-xNixAs Na1Fe1Ni0.004As1 Na 1 Fe 1 Ni 0.004 As 1 3 2018 32.9 ABC PbFCl tetra-to-ortho transition at Ts K 8.42 8.42 MPH157954 70 self-flux method Disentangling superconducting and magnetic orders in NaFe1-xNixAs using muon spin rotation 2018 "Department of Physics, Columbia University, New York, New York 10027, USA" "Phys.Rev.B, 97(2018)224508"
157955 PRB097224508 inhomogeneous magnetic order for 0.004 < x =< 0.13. NaFe1-xNixAs Na1Fe1Ni0.006As1 Na 1 Fe 1 Ni 0.006 As 1 3 2018 31.6 ABC PbFCl tetra-to-ortho transition at Ts K 12.6 12.6 100 self-flux method Disentangling superconducting and magnetic orders in NaFe1-xNixAs using muon spin rotation 2018 "Department of Physics, Columbia University, New York, New York 10027, USA" "Phys.Rev.B, 97(2018)224508"
157956 PRB097224508 inhomogeneous magnetic order for 0.004 < x =< 0.13. NaFe1-xNixAs Na1Fe1Ni0.008As1 Na 1 Fe 1 Ni 0.008 As 1 3 2018 ABC PbFCl tetra-to-ortho transition at Ts K 17.4 17.4 100 self-flux method Disentangling superconducting and magnetic orders in NaFe1-xNixAs using muon spin rotation 2018 "Department of Physics, Columbia University, New York, New York 10027, USA" "Phys.Rev.B, 97(2018)224508"
157957 PRB097224508 inhomogeneous magnetic order for 0.004 < x =< 0.13. NaFe1-xNixAs Na1Fe1Ni0.01As1 Na 1 Fe 1 Ni 0.01 As 1 3 2018 24.1 ABC PbFCl tetra-to-ortho transition at Ts K 17.8 17.8 100 self-flux method Disentangling superconducting and magnetic orders in NaFe1-xNixAs using muon spin rotation 2018 "Department of Physics, Columbia University, New York, New York 10027, USA" "Phys.Rev.B, 97(2018)224508"
157958 PRB097224508 "T-O transition, Ts = 33.1 K. Energy gap, two gaps (large in DB, small ( D=1.8 meV, gap size = 2.8)) from muon-SR. Another Tn = 10 K. inhomogeneous magnetic order for 0.004 < x =< 0.13." NaFe1-xNixAs Na1Fe1Ni0.013As1 Na 1 Fe 1 Ni 0.013 As 1 3 2018 18.4 ABC PbFCl tetra-to-ortho transition at Ts K 17.7 17.7 100 meV 4.5 6.9 16 self-flux method Disentangling superconducting and magnetic orders in NaFe1-xNixAs using muon spin rotation 2018 "Department of Physics, Columbia University, New York, New York 10027, USA" "Phys.Rev.B, 97(2018)224508"
157959 PRB097224508 magnetic order completely suppressed. NaFe1-xNixAs Na1Fe1Ni0.015As1 Na 1 Fe 1 Ni 0.015 As 1 3 2018 ABC PbFCl K 18.6 18.6 100 self-flux method Disentangling superconducting and magnetic orders in NaFe1-xNixAs using muon spin rotation 2018 "Department of Physics, Columbia University, New York, New York 10027, USA" "Phys.Rev.B, 97(2018)224508"
157960 PRB097224511 SP-heat shows no clear jump at Tc. carrier from Hall effect at RT. Tn obtained from kink in R(T). TbPdBi Tb1Pd1Bi1 Tb 1 Pd 1 Bi 1 3 2018 5.5 ABC MgAgAs F4[-]3m 216 A 6.653 K 1.58 1.7 1.64 T "RES(on), Linear approx." 2.36 T/K RES(on) 1.53 MHC157960 A from Hc2 120 n/cm3 9.43E+18 Flux method using Bi-flux Superconductivity in the half-Heusler compound TbPdBi 2018 "Center for High Pressure Science and Technology Advanced Research, Beijing 100094, China" "Phys.Rev.B, 97(2018)224511"
157961 PRB097235149 Ce1-xSmxCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2018 ABC5 HoCoGa5 P4/mmm A 4.6122 7.5606 K 2.3 2.3 single crystals grown by In-flux method Temperature versus Sm concentration phase diagram and quantum criticality in the correlated electron system Ce1-xSmxCoIn5 2018 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 97(2018)235149"
157962 PRB097235149 Ce1-xSmxCoIn5 Ce0.95Sm0.05Co1In5 Ce 0.95 Sm 0.05 Co 1 In 5 3 2018 ABC5 HoCoGa5 P4/mmm K 1.78 1.78 single crystals grown by In-flux method Temperature versus Sm concentration phase diagram and quantum criticality in the correlated electron system Ce1-xSmxCoIn5 2018 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 97(2018)235149"
157963 PRB097235149 Ce1-xSmxCoIn5 Ce0.9Sm0.1Co1In5 Ce 0.9 Sm 0.1 Co 1 In 5 3 2018 ABC5 HoCoGa5 P4/mmm A 4.611 7.5483 K 1.44 1.44 single crystals grown by In-flux method Temperature versus Sm concentration phase diagram and quantum criticality in the correlated electron system Ce1-xSmxCoIn5 2018 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 97(2018)235149"
157964 PRB097235149 Ce1-xSmxCoIn5 Ce0.85Sm0.15Co1In5 Ce 0.85 Sm 0.15 Co 1 In 5 3 2018 ABC5 HoCoGa5 P4/mmm A 4.6114 7.5512 K 0.59 0.59 single crystals grown by In-flux method Temperature versus Sm concentration phase diagram and quantum criticality in the correlated electron system Ce1-xSmxCoIn5 2018 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 97(2018)235149"
157965 PRB097235149 Ce1-xSmxCoIn5 Ce0.82Sm0.18Co1In5 Ce 0.82 Sm 0.18 Co 1 In 5 3 2018 1.2 ABC5 HoCoGa5 P4/mmm A 4.6091 7.5507 K 0 0.025 0 single crystals grown by In-flux method Temperature versus Sm concentration phase diagram and quantum criticality in the correlated electron system Ce1-xSmxCoIn5 2018 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 97(2018)235149"
157966 PRB097235149 "T2 in TCFIG shows another peak in C(T), corresponding to some magnetic order" Ce1-xSmxCoIn5 Ce0.3Sm0.7Co1In5 Ce 0.3 Sm 0.7 Co 1 In 5 3 2018 832 ABC5 HoCoGa5 P4/mmm A 4.5953 7.5134 K 0.025 single crystals grown by In-flux method Temperature versus Sm concentration phase diagram and quantum criticality in the correlated electron system Ce1-xSmxCoIn5 2018 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 97(2018)235149"
157967 PRB097235149 "T2 and T3 in TCFIG show another peak in C(T), corresponding to some magnetic order" Ce1-xSmxCoIn5 Sm1Co1In5 Sm 1 Co 1 In 5 3 2018 -73 11.7 ABC5 HoCoGa5 P4/mmm A 4.5872 7.4951 K 0.025 single crystals grown by In-flux method Temperature versus Sm concentration phase diagram and quantum criticality in the correlated electron system Ce1-xSmxCoIn5 2018 "Department of Physics, University of California, San Diego, La Jolla, California 92093, USA" "Phys.Rev.B, 97(2018)235149"
157968 PRB098014502 "(dC/gamma*Tc) = 1.57. SP data best fit to s-s two gap model, large one in DB, small (d0 =0.14 meV, gap size = 0.54). [penet] measured by muon-SR. GL (kappa)= 139." TaRh2B2 Ta1Rh2B2 Ta 1 Rh 2 B 2 1 2018 AB2C2 6 P3<1> A 4.6984 8.7338 trigonal K 6 6 mT "H-H curve, GL approx." 3.8 T "RES(mid), GL approx." 15.2 T/K RES(mid) 3.1 MHC157968 nm from Hc2 4.67 nm muon-SR 648 meV 1.16 4.56 14 MSP157968 mJ/mol.K2 4.29 SP 374 SP mOhm.cm 2 "Ta(3N),Rh(3N),B(2N)" mixture(Ta:Rh:B = 1:1.9:2.1) - pellet - wrapped in Ta foil - heat to 1200 C(150 C/h) - react (6h) - FC to RT Multigap superconductivity in chiral noncentrosymmetric TaRh2B2 2018 7 "Physics Department, University of Warwick, Coventry CV4 7AL, United Kingdom; ISIS Facility, STFC Rutherford Appleton Laboratory, Harwell Science and Innovation Campus, Oxfordshire OX11 0QX, United Kingdom" "Phys.Rev.B, 98(2018)014502"
157969 PRB098020503 van der Waals layered structure. [penet] measured using TDO system. [penet](London) = 44 nm from calc. NaSn2As2 Na1Sn2As2 Na 1 Sn 2 As 2 3 2018 AB2C2 K 1.18 1.18 T "RES(zero), WHH" 0.567 0.241 MHC157969 A from Hc2//c 380 nm TDO 960 4.2 uOhm.cm 122 Melt synthesis. (Na:Sn:As = 1:2:2) Evidence for s-wave pairing with atomic scale disorder in the van der Waals superconductor NaSn2As2 2018 "Department of Advanced Materials Science, University of Tokyo, Kashiwa, Chiba 277-8561, Japan" "Phys.Rev.B, 98(2018)020503"
157970 PRB098024511 "SP (beta) = 0.13 mJ/mol.K4, (delta) = 0.32 mJ/mol.K6. GL(kappa) = 51.7. C fitting well by alpha model(= 2.65)." Sc5Rh6Sn18 Sc5Rh6Sn18 Sc 5 Rh 6 Sn 18 3 2018 A5B6C18 I4<1>/acd K 4.4 4.4 T 7.24 nm from Hc2 6.74 nm "Hc1, Hc(0)" 34.2 5.3 14 MSP157970 mJ/mol.K2 51.1 SP 271 SP "(Sc:Rh:Sn = 1:2:20) - placed in quartz tube - heat(1050 C, 3h) - cool to 200 C(5 C/h) - removed excess flux" Unconventional superconductivity in the cage-type compound Sc5Rh6Sn18 2018 "ISIS Facility, Rutherford Appleton Laboratory, Chilton, Didcot Oxon OX11 0QX, United Kingdom" "Phys.Rev.B, 98(2018)024511"
157971 PRL121037003 nominal x = 7% Hg. Tc and Tn measured by C(T). (dC/gamma*Tc) = 0.8. magnetic order below Tc measured by neutron diffraction. CeCo(In1-xHgx)5 Ce1Co1In4.95Hg0.05 Ce 1 Co 1 In 4.95 Hg 0.05 3 2018 3.41 ABC5 HoCoGa5 K 1.73 1.73 crystals grown by In/Hg flux method. From Ising Resonant Fluctuations to Static Uniaxial Order in Antiferromagnetic and Weakly Superconducting CeCodIn1-xHgxT5dx=0.01T 2018 "School of Physics and Astronomy, University of Edinburgh, Edinburgh EH9 3JZ, United Kingdom" "Phys.Rev.Lett.,121(2018)037003"
157972 PRL121037003 nominal x = 9% Hg. Tc and Tn measured by C(T). magnetic order below Tc measured by neutron diffraction. CeCo(In1-xHgx)5 Ce1Co1In4.935Hg0.065 Ce 1 Co 1 In 4.935 Hg 0.065 3 2018 3.51 ABC5 HoCoGa5 K 1.37 1.37 crystals grown by In/Hg flux method. From Ising Resonant Fluctuations to Static Uniaxial Order in Antiferromagnetic and Weakly Superconducting CeCodIn1-xHgxT5dx=0.01T 2018 "School of Physics and Astronomy, University of Edinburgh, Edinburgh EH9 3JZ, United Kingdom" "Phys.Rev.Lett.,121(2018)037003"
157973 PRL121037003 Tc measured by C(T) CeCo(In1-xHgx)5 Ce1Co1In4.9625Hg0.0375 Ce 1 Co 1 In 4.9625 Hg 0.0375 3 2018 My-B/mol 0.98 ABC5 HoCoGa5 K 2.19 2.19 crystals grown by In/Hg flux method. From Ising Resonant Fluctuations to Static Uniaxial Order in Antiferromagnetic and Weakly Superconducting CeCodIn1-xHgxT5dx=0.01T 2018 "School of Physics and Astronomy, University of Edinburgh, Edinburgh EH9 3JZ, United Kingdom" "Phys.Rev.Lett.,121(2018)037003"
157974 SCIR00512926 (dC/gamma*Tc) = 1.95. C well fitting to T^3 dependence(alpha = 2.93). muon-SR measured at H=0 and transverse field. Y5Rh6Sn18 Y5Rh6Sn18 Y 5 Rh 6 Sn 18 3 2015 A5B6C18 I4<1>/acd A 13.75 27.45 K 3 3 MSP157974 mJ/mol.K 223 mJ/mol.K2 38.13 SP 183 SP uOhm.cm 350 "Sn-flux method. mixture(Y:Rh:Sn = 1:2:20) - quartz tube - heat to 1323 K - keep(1323K,3h) - cool to 473 K(5 K/h) - excess flux was detached" Unconventional superconductivity in Y5Rh6Sn18 probed by muon spin relaxation 2015 "ISIS Facility, Rutherford Appleton Laboratory, Chilton, Didcot Oxon, OX11 0QX, UK." "Sci,Rep., 5(2015)12926"
157975 PRX004041032 electron(2.5 MeV) irradiation effect. irradiation rate = 3E-5 C/s.cm2. (dTc/dR0) = -350 mK/uOhm.cm Ba(Fe1-xRux)2As2 Ba1Fe1.52Ru0.48As2 Ba 1 Fe 1.52 Ru 0.48 As 2 3 2014 AB2C2 ThCr2Si2 K 17.8 17.8 MTC157975 uOhm.cm 866 sel-flux method Effect of Electron Irradiation on Superconductivity in Single Crystals of Ba(Fe1-xRux)2As2 (x = 0.24) 2014 "The Ames Laboratory, Ames, Iowa 50011, USA" "Phys.Rev.X, 4(2014)041032"
157976 SCIR00514968 "Tc depends on in-plane chemical pressure (definition , See text), =1.0081." Ce1-xNdxO0.5F0.5BiS2 Ce1F0.5Bi1S2O0.5 Ce 1 F 0.5 Bi 1 S 2 O 0.5 1 2015 ABCD2 CeOBiS2 A 4.0414 13.4752 "S-Bi-S angle = 176.28, Bi-S(in-plane) distance = 3.2881 A" K 0 0 "In-plane chemical pressure essential for superconductivity in BiCh2-based (Ch: S, Se) layered structure" 2015 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1, Minami-osawa, Hachioji 192-0397, Japan." "Sci,Rep., 5(2015)14968"
157977 SCIR00514968 "Tc depends on in-plane chemical pressure (definition , See text), = 1.0101" Ce1-xNdxO0.5F0.5BiS2 Ce0.8Nd0.2F0.5Bi1S2O0.5 Ce 0.8 Nd 0.2 F 0.5 Bi 1 S 2 O 0.5 1 2015 ABCD2 CeOBiS2 A 4.0327 13.4524 "S-Bi-S angle = 176.45 , Bi-S(in-plane) distance = 3.2883 A" K 0 0 "In-plane chemical pressure essential for superconductivity in BiCh2-based (Ch: S, Se) layered structure" 2015 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1, Minami-osawa, Hachioji 192-0397, Japan." "Sci,Rep., 5(2015)14968"
157978 SCIR00514968 "Tc depends on in-plane chemical pressure (definition , See text), =1.0119" Ce1-xNdxO0.5F0.5BiS2 Ce0.6Nd0.4F0.5Bi1S2O0.5 Ce 0.6 Nd 0.4 F 0.5 Bi 1 S 2 O 0.5 1 2015 ABCD2 CeOBiS2 A 4.027 13.4508 "S-Bi-S angle = 177.74, Bi-S(in-plane) distance = 3.3050 A" K 3 3 "In-plane chemical pressure essential for superconductivity in BiCh2-based (Ch: S, Se) layered structure" 2015 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1, Minami-osawa, Hachioji 192-0397, Japan." "Sci,Rep., 5(2015)14968"
157979 SCIR00514968 "Tc depends on in-plane chemical pressure (definition , See text), =1.0151" Ce1-xNdxO0.5F0.5BiS2 Ce0.4Nd0.6F0.5Bi1S2O0.5 Ce 0.4 Nd 0.6 F 0.5 Bi 1 S 2 O 0.5 1 2015 ABCD2 CeOBiS2 A 4.015 13.4026 "S-Bi-S angle = 178.10, Bi-S(in-plane) distance = 3.2931 A" K 3.94 3.94 "In-plane chemical pressure essential for superconductivity in BiCh2-based (Ch: S, Se) layered structure" 2015 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1, Minami-osawa, Hachioji 192-0397, Japan." "Sci,Rep., 5(2015)14968"
157980 SCIR00514968 "Tc depends on in-plane chemical pressure (definition , See text), = 1.0169" Ce1-xNdxO0.5F0.5BiS2 Ce0.2Nd0.8F0.5Bi1S2O0.5 Ce 0.2 Nd 0.8 F 0.5 Bi 1 S 2 O 0.5 1 2015 ABCD2 CeOBiS2 A 4.0069 13.3982 "S-Bi-S angle = 178.48 , Bi-S(in-plane) distance = 3.3086 A" K 4.48 4.48 MTC157980 "In-plane chemical pressure essential for superconductivity in BiCh2-based (Ch: S, Se) layered structure" 2015 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1, Minami-osawa, Hachioji 192-0397, Japan." "Sci,Rep., 5(2015)14968"
157981 SCIR00514968 "Tc depends on in-plane chemical pressure (definition , See text), = 1.0184" Ce1-xNdxO0.5F0.5BiS2 Nd1F0.5Bi1S2O0.5 Nd 1 F 0.5 Bi 1 S 2 O 0.5 1 2015 ABCD2 CeOBiS2 A 4.0018 13.4153 "S-Bi-S angle = 179.44 , Bi-S(in-plane) distance = 3.3352 A" K 4.79 4.79 "In-plane chemical pressure essential for superconductivity in BiCh2-based (Ch: S, Se) layered structure" 2015 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1, Minami-osawa, Hachioji 192-0397, Japan." "Sci,Rep., 5(2015)14968"
157982 SCIR00514968 LaO0.5F0.5Bi(S1-xSex)2 La1F0.5Bi1S2O0.5 La 1 F 0.5 Bi 1 S 2 O 0.5 1 2015 ABCD2 CeOBiS2 A 4.0699 13.4828 "S-Bi-S angle = 178.16 , Bi-S(in-plane) distance = 3.2890A" K 2.48 2.48 "In-plane chemical pressure essential for superconductivity in BiCh2-based (Ch: S, Se) layered structure" 2015 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1, Minami-osawa, Hachioji 192-0397, Japan." "Sci,Rep., 5(2015)14968"
157983 SCIR00514968 LaO0.5F0.5Bi(S1-xSex)2 La1F0.5Bi1S1.8Se0.2O0.5 La 1 F 0.5 Bi 1 S 1.8 Se 0.2 O 0.5 1 2015 ABCD2 CeOBiS2 A 4.0792 13.4902 "S-Bi-S angle = 178.60 , Bi-S(in-plane) distance = 3.3226 A" K 2.18 2.18 "In-plane chemical pressure essential for superconductivity in BiCh2-based (Ch: S, Se) layered structure" 2015 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1, Minami-osawa, Hachioji 192-0397, Japan." "Sci,Rep., 5(2015)14968"
157984 SCIR00514968 "Tc depends on in-plane chemical pressure (definition , See text), = 1.0135" LaO0.5F0.5Bi(S1-xSex)2 La1F0.5Bi1S1.6Se0.4O0.5 La 1 F 0.5 Bi 1 S 1.6 Se 0.4 O 0.5 1 2015 ABCD2 CeOBiS2 A 4.0913 13.5069 "S-Bi-S angle = 177.52 , Bi-S(in-plane) distance = 3.3352 A" K 2.48 2.48 "In-plane chemical pressure essential for superconductivity in BiCh2-based (Ch: S, Se) layered structure" 2015 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1, Minami-osawa, Hachioji 192-0397, Japan." "Sci,Rep., 5(2015)14968"
157985 SCIR00514968 "Tc depends on in-plane chemical pressure (definition , See text), = 1.0180" LaO0.5F0.5Bi(S1-xSex)2 La1F0.5Bi1S1.4Se0.6O0.5 La 1 F 0.5 Bi 1 S 1.4 Se 0.6 O 0.5 1 2015 ABCD2 CeOBiS2 A 4.1071 13.5416 "S-Bi-S angle = 177.50 , Bi-S(in-plane) distance = 3.3662 A" K 2.99 2.99 "In-plane chemical pressure essential for superconductivity in BiCh2-based (Ch: S, Se) layered structure" 2015 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1, Minami-osawa, Hachioji 192-0397, Japan." "Sci,Rep., 5(2015)14968"
157986 SCIR00514968 "Tc depends on in-plane chemical pressure (definition , See text), = 1.0221" LaO0.5F0.5Bi(S1-xSex)2 La1F0.5Bi1S1.2Se0.8O0.5 La 1 F 0.5 Bi 1 S 1.2 Se 0.8 O 0.5 1 2015 ABCD2 CeOBiS2 A 4.1273 13.5821 "S-Bi-S angle = 176.95 , Bi-S(in-plane) distance = 3.3885 A" K 3.69 3.69 "In-plane chemical pressure essential for superconductivity in BiCh2-based (Ch: S, Se) layered structure" 2015 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1, Minami-osawa, Hachioji 192-0397, Japan." "Sci,Rep., 5(2015)14968"
157987 SCIR00514968 "Tc depends on in-plane chemical pressure (definition , See text), = 1.0270" LaO0.5F0.5Bi(S1-xSex)2 La1F0.5Bi1S1Se1O0.5 La 1 F 0.5 Bi 1 S 1 Se 1 O 0.5 1 2015 ABCD2 CeOBiS2 A 4.1349 13.6074 "S-Bi-S angle = 176.06 , Bi-S(in-plane) distance = 3.3856 A" K 3.79 3.79 MTC157980 "In-plane chemical pressure essential for superconductivity in BiCh2-based (Ch: S, Se) layered structure" 2015 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1, Minami-osawa, Hachioji 192-0397, Japan." "Sci,Rep., 5(2015)14968"
157988 SCIR00514968 "Tc depends on in-plane chemical pressure (definition , See text), = 1.0303" LaO0.5F0.5Bi(S1-xSex)2 La1F0.5Bi1S0.8Se1.2O0.5 La 1 F 0.5 Bi 1 S 0.8 Se 1.2 O 0.5 1 2015 ABCD2 CeOBiS2 A 4.1406 13.6625 "S-Bi-S angle = 176.12 , Bi-S(in-plane) distance = 3.3728 A" K 3.59 3.59 "In-plane chemical pressure essential for superconductivity in BiCh2-based (Ch: S, Se) layered structure" 2015 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1, Minami-osawa, Hachioji 192-0397, Japan." "Sci,Rep., 5(2015)14968"
157989 SCIR00514968 "Tc depends on in-plane chemical pressure (definition , See text), = 1.0308" LaO0.5F0.5Bi(S1-xSex)2 La1F0.5Bi1Se2O0.5 La 1 F 0.5 Bi 1 Se 2 O 0.5 1 2015 ABCD2 CeOBiS2 A "S-Bi-S angle = , Bi-S(in-plane) distance = A" K 3.59 3.59 "In-plane chemical pressure essential for superconductivity in BiCh2-based (Ch: S, Se) layered structure" 2015 "Department of Electrical and Electronic Engineering, Tokyo Metropolitan University, 1-1, Minami-osawa, Hachioji 192-0397, Japan." "Sci,Rep., 5(2015)14968"
157990 SCIR00626530 "not SC, T = 148 K. Tm(FM) = 17.2 K" Sm1-xLaxNiC2 Sm1Ni1C2 Sm 1 Ni 1 C 2 1 2016 17.2 ABC2 CeNiC2 Amm2 38 cell volume = 102.1 A^3 K 1.8 "arc-melting. weight loss less than 1%. ANN(1173 K, 10 days in sealed quartz tube) - Q to NaCl-ice water mixture" Tuning the ferromagnetic phase in the CDW compound SmNiC2 via chemical alloying 2016 "Department of Physics, Sungkyunkwan University, Suwon 440-746, Korea." "Sci,Rep., 6(2016)26530"
157991 SCIR00626530 "not SC, T = 80 K. Tm(FM) = 17.8 K" Sm1-xLaxNiC2 Sm0.8La0.2Ni1C2 Sm 0.8 La 0.2 Ni 1 C 2 1 2016 17.8 ABC2 CeNiC2 Amm2 38 cell volume = 104.0 A^3 K 1.8 "arc-melting. weight loss less than 1%. ANN(1173 K, 10 days in sealed quartz tube) - Q to NaCl-ice water mixture" Tuning the ferromagnetic phase in the CDW compound SmNiC2 via chemical alloying 2016 "Department of Physics, Sungkyunkwan University, Suwon 440-746, Korea." "Sci,Rep., 6(2016)26530"
157992 SCIR00626530 "not SC, T = 34 K. Tm(FM) = 17.8 K" Sm1-xLaxNiC2 Sm0.7La0.3Ni1C2 Sm 0.7 La 0.3 Ni 1 C 2 1 2016 17.82 ABC2 CeNiC2 Amm2 38 cell volume = 105.0 A^3 K 1.8 "arc-melting. weight loss less than 1%. ANN(1173 K, 10 days in sealed quartz tube) - Q to NaCl-ice water mixture" Tuning the ferromagnetic phase in the CDW compound SmNiC2 via chemical alloying 2016 "Department of Physics, Sungkyunkwan University, Suwon 440-746, Korea." "Sci,Rep., 6(2016)26530"
157993 SCIR00626530 "not SC, Tm(FM) = 5.2 K. T not observed for x > 0.3." Sm1-xLaxNiC2 Sm0.2La0.8Ni1C2 Sm 0.2 La 0.8 Ni 1 C 2 1 2016 5.2 ABC2 CeNiC2 Amm2 38 cell volume = 110.3 A^3 K 1.8 "arc-melting. weight loss less than 1%. ANN(1173 K, 10 days in sealed quartz tube) - Q to NaCl-ice water mixture" Tuning the ferromagnetic phase in the CDW compound SmNiC2 via chemical alloying 2016 "Department of Physics, Sungkyunkwan University, Suwon 440-746, Korea." "Sci,Rep., 6(2016)26530"
157994 SCIR00626530 R not to zero. maybe filamentary SC. T not observed for x > 0.3. Sm1-xLaxNiC2 Sm0.05La0.95Ni1C2 Sm 0.05 La 0.95 Ni 1 C 2 1 2016 ABC2 CeNiC2 Amm2 38 cell volume = 102.1 A^3 K 1.8 1.8 "arc-melting. weight loss less than 1%. ANN(1173 K, 10 days in sealed quartz tube) - Q to NaCl-ice water mixture" Tuning the ferromagnetic phase in the CDW compound SmNiC2 via chemical alloying 2016 "Department of Physics, Sungkyunkwan University, Suwon 440-746, Korea." "Sci,Rep., 6(2016)26530"
157995 SCIR00626530 R not to zero. maybe filamentary SC Sm1-xLaxNiC2 Sm0.03La0.97Ni1C2 Sm 0.03 La 0.97 Ni 1 C 2 1 2016 ABC2 CeNiC2 Amm2 38 cell volume = 112.0 A^3 K 1.8 1.8 MPH157995 MSP157995 "arc-melting. weight loss less than 1%. ANN(1173 K, 10 days in sealed quartz tube) - Q to NaCl-ice water mixture" Tuning the ferromagnetic phase in the CDW compound SmNiC2 via chemical alloying 2016 "Department of Physics, Sungkyunkwan University, Suwon 440-746, Korea." "Sci,Rep., 6(2016)26530"
157996 SCIR00626530 Sm1-xLaxNiC2 Sm0.02La0.98Ni1C2 Sm 0.02 La 0.98 Ni 1 C 2 1 2016 ABC2 CeNiC2 Amm2 38 K 2 2 "arc-melting. weight loss less than 1%. ANN(1173 K, 10 days in sealed quartz tube) - Q to NaCl-ice water mixture" Tuning the ferromagnetic phase in the CDW compound SmNiC2 via chemical alloying 2016 "Department of Physics, Sungkyunkwan University, Suwon 440-746, Korea." "Sci,Rep., 6(2016)26530"
157997 SCIR00626530 (dC/gamma*Tc) = 1.33. Tc(SP) = 2.9 K. Sm1-xLaxNiC2 La1Ni1C2 La 1 Ni 1 C 2 1 2016 ABC2 CeNiC2 Amm2 38 cell volume = 112.2 A^3 K 3.4 3.4 MSP157997 mJ/mol.K2 7.3 SP 445 SP "arc-melting. weight loss less than 1%. ANN(1173 K, 10 days in sealed quartz tube) - Q to NaCl-ice water mixture" Tuning the ferromagnetic phase in the CDW compound SmNiC2 via chemical alloying 2016 "Department of Physics, Sungkyunkwan University, Suwon 440-746, Korea." "Sci,Rep., 6(2016)26530"
157998 SCIR00626530 not SC. T = 152 K. FM for T < Tm = 10.4 K. Sm1-xLuxNiC2 Sm0.2Lu0.2Ni1C2 Sm 0.2 Lu 0.2 Ni 1 C 2 1 2016 10.4 ABC2 CeNiC2 Amm2 38 cell volume = 101.42 A^3 K 1.8 Tuning the ferromagnetic phase in the CDW compound SmNiC2 via chemical alloying 2016 "Department of Physics, Sungkyunkwan University, Suwon 440-746, Korea." "Sci,Rep., 6(2016)26530"
157999 SCIR00626530 not SC. FM for T < Tm = 8.9 K. Sm1-xLuxNiC2 Sm0.6Lu0.4Ni1C2 Sm 0.6 Lu 0.4 Ni 1 C 2 1 2016 8.9 ABC2 CeNiC2 Amm2 38 cell volume = 98.42 A^3 K 1.8 Tuning the ferromagnetic phase in the CDW compound SmNiC2 via chemical alloying 2016 "Department of Physics, Sungkyunkwan University, Suwon 440-746, Korea." "Sci,Rep., 6(2016)26530"
158000 MAT1805.07847 "van der Waals material. SP (beta) = 0.73 mJ/mol.K4, T(Ein) = 34 K. (dC/Tc) = 9.15 mJ/mol.K2. (dC/gamma*Tc) = 1.0. e-ph = 0.4" Na1-xSn2P2 Na0.926Sn2P2 Na 0.926 Sn 2 P 2 1 2018 AB2C2 6 R3[-]m 166 A 3.8847 27.1766 trigonal. gamma = 120 degree K 1.9 2 1.95 T "RES(0.9Rn), Linear approx." 1.6 T/K MHC158000 nm from Hc2 15 MSP158000 mJ/mol.K2 5.31 SP 237 SP "Na3P,Sn(4N),P(6N)" "solid state reaction. mixture(Na3P:Sn:P = 1:3:2) - pellet - heat(400C, 20h, in quartz tube) - reground - pellet - heat(400C,20h)" Na1-xSn2P2 as a new member of van der Waals-type layered tin pnictide superconductors 2018 "Department of Physics, Tokyo Metropolitan University, 1-1 Minami-osawa, Hachioji, Tokyo 192-0397, Japan" cond-mat/1805.07847
158050 JPS077073705 P-induced SC. H//[001]. SC properties shows for P = 2.65 GPa. Hc2(0)//[001] for various P are shown in figure MHC158050 CeIrSi3 Ce1Ir1Si3 Ce 1 Ir 1 Si 3 3 2008 ABC3 BaNiSn3 K 1.56 0 1.56 MTC158050 T "RES(zero)," 45 T/K RES(zero) 17 MHC158050 tetra-arc furnace. Huge Upper Critical Field and Electronic Instability in Pressure-induced Superconductor CeIrSi3 without Inversion Symmetry in the Crystal Structure 2008 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043" "J.Phys.Soc.Jpn, 77(2008)073705"
158051 JPS077073705 P-induced SC. H//[110]. SC properties shows for P = 2.65 GPa. CeIrSi3 Ce1Ir1Si3 Ce 1 Ir 1 Si 3 3 2008 ABC3 BaNiSn3 K 1.5 0 1.5 MTC158050 T "RES(zero)," 9.5 T/K RES(zero) 14.5 MHC158051 tetra-arc furnace. Huge Upper Critical Field and Electronic Instability in Pressure-induced Superconductor CeIrSi3 without Inversion Symmetry in the Crystal Structure 2008 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043" "J.Phys.Soc.Jpn, 77(2008)073705"
158052 JPS077073705 LaIrSi3 La1Ir1Si3 La 1 Ir 1 Si 3 3 2008 ABC3 BaNiSn3 K 0.9 0.9 T 0.125 0.17 T/K 0.19 0.26 MHC158052 tetra-arc furnace. Huge Upper Critical Field and Electronic Instability in Pressure-induced Superconductor CeIrSi3 without Inversion Symmetry in the Crystal Structure 2008 "Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043" "J.Phys.Soc.Jpn, 77(2008)073705"
158053 PRB098161103 T*(anomaly in R(T)) = 129 K (= T) from inelastic x-ray scattering data. Sr3Rh4Sn13 Sr3Rh4Sn13 Sr 3 Rh 4 Sn 13 3 2018 A3B4C13 Pm3[-]m K 4.18 4.18 Sn-flux method Evidence of a structural quantum critical point in (CaxSr1-x)3Rh4Sn13 from a lattice dynamics study 2018 "Department of Physics, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China" "Phys.Rev.B, 98(2018)161103"
158054 PRB098161103 T*(anomaly in R(T)) = 48.6 K (= T) from inelastic x-ray scattering data. (CaxSr1-x)3Rh4Sn13 Ca1.5Sr1.5Rh4Sn13 Ca 1.5 Sr 1.5 Rh 4 Sn 13 3 2018 A3B4C13 Pm3[-]m K 6.41 6.41 Sn-flux method Evidence of a structural quantum critical point in (CaxSr1-x)3Rh4Sn13 from a lattice dynamics study 2018 "Department of Physics, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China" "Phys.Rev.B, 98(2018)161103"
158055 PRB098161103 T*(anomaly in R(T)) = 13.3 K (= T) from inelastic x-ray scattering data. (CaxSr1-x)3Rh4Sn13 Ca2.25Sr0.75Rh4Sn13 Ca 2.25 Sr 0.75 Rh 4 Sn 13 3 2018 A3B4C13 Pm3[-]m K 7.32 7.32 Sn-flux method Evidence of a structural quantum critical point in (CaxSr1-x)3Rh4Sn13 from a lattice dynamics study 2018 "Department of Physics, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China" "Phys.Rev.B, 98(2018)161103"
158056 PRB098161103 "T*(anomaly in R(T)) = -5.8 K (= T) from inelastic x-ray scattering data. From this extrapolation, structural QCP occurs near x=0.86." (CaxSr1-x)3Rh4Sn13 Ca2.55Sr0.45Rh4Sn13 Ca 2.55 Sr 0.45 Rh 4 Sn 13 3 2018 A3B4C13 Pm3[-]m K 7.6 7.6 Sn-flux method Evidence of a structural quantum critical point in (CaxSr1-x)3Rh4Sn13 from a lattice dynamics study 2018 "Department of Physics, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China" "Phys.Rev.B, 98(2018)161103"
158057 PRB098140506 RRR = 15.7. FM(ab plane EU moment) below Tm = 15 K. energy gap measured by infrared reflectivity. EuRbFe4As4 Eu1Rb1Fe4As4 Eu 1 Rb 1 Fe 4 As 4 3 2018 15 ABC4D4 Fe-1144 K 36.25 36.5 36.375 MGAP158057 nm optical conductivity 420 cm(-1) 40 3.17 15 mOhm.cm 0.23 See PRB093214503. shiny ab face with 1 mm size Unique interplay between superconducting and ferromagnetic orders in EuRbFe4As4 2018 "Moscow Institute of Physics and Technology, Dolgoprudny, Moscow 141700, Russia" "Phys.Rev.B, 98(2018)140506"
158058 PHB1350434 "Tc measured inductively, defined as mid point in transition." LaRu2 La1Ru2 La 1 Ru 2 1 1985 AB2 MgCu2(Laves) K 4.3 4.3 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method." The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158059 PHB1350434 "Tc measured inductively, defined as mid point in transition." La1-xThxRu2 La0.94Th0.06Ru2 La 0.94 Th 0.06 Ru 2 1 1985 AB2 MgCu2(Laves) K 3.44 3.44 MTC158059 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method." The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158060 PHB1350434 "Tc measured inductively, defined as mid point in transition." La1-xThxRu2 La0.9Th0.1Ru2 La 0.9 Th 0.1 Ru 2 1 1985 AB2 MgCu2(Laves) K 2.62 2.62 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method." The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158061 PHB1350434 "Tc measured inductively, defined as mid point in transition." La1-xThxRu2 La0.47Th0.53Ru2 La 0.47 Th 0.53 Ru 2 1 1985 AB2 MgCu2(Laves) K 1.73 1.73 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method." The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158062 PHB1350434 "Tc measured inductively, defined as mid point in transition." La1-xThxRu2 La0.3Th0.7Ru2 La 0.3 Th 0.7 Ru 2 1 1985 AB2 MgCu2(Laves) K 3.61 3.61 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method." The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158063 PHB1350434 "Tc measured inductively, defined as mid point in transition." ThRu2 Ru2Th1 Ru 2 Th 1 1 1985 AB2 MgCu2(Laves) K 3.4 3.4 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method." The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158064 PHB1350434 "Tc measured inductively, defined as mid point in transition." Ce1-xThxRu2 Ce0.93Th0.07Ru2 Ce 0.93 Th 0.07 Ru 2 1 1985 AB2 MgCu2(Laves) K 5.6 5.6 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method. ANN(1000C, 5d, in quartz tube (He))" The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158065 PHB1350434 "Tc measured inductively, defined as mid point in transition." Ce1-xThxRu2 Ce0.7Th0.3Ru2 Ce 0.7 Th 0.3 Ru 2 1 1985 AB2 MgCu2(Laves) K 4.89 4.89 MTC158065 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method. ANN(1000C, 5d, in quartz tube (He))" The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158066 PHB1350434 "Tc measured inductively, defined as mid point in transition." Ce1-xThxRu2 Ce0.6Th0.4Ru2 Ce 0.6 Th 0.4 Ru 2 1 1985 AB2 MgCu2(Laves) K 4.5 4.5 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method. ANN(1000C, 5d, in quartz tube (He))" The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158067 PHB1350434 "Tc measured inductively, defined as mid point in transition." Ce1-xThxRu2 Ce0.3Th0.7Ru2 Ce 0.3 Th 0.7 Ru 2 1 1985 AB2 MgCu2(Laves) K 4.12 4.12 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method. ANN(1000C, 5d, in quartz tube (He))" The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158068 PHB1350434 "Tc measured inductively, defined as mid point in transition." ThRu2 Ru2Th1 Ru 2 Th 1 1 1985 AB2 MgCu2(Laves) K 3.5 3.5 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method. ANN(1000C, 5d, in quartz tube (He))" The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158069 PHB1350434 "Tc measured inductively, defined as mid point in transition." LaIr3 Ir3Th1 Ir 3 Th 1 1 1985 AB3 K 2.47 2.47 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method. ANN(1000C, 5d, in quartz tube (He))" The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158070 PHB1350434 "Tc measured inductively, defined as mid point in transition." La1-xThxIr3 La0.9Th0.1Ir3 La 0.9 Th 0.1 Ir 3 1 1985 AB3 K 3.18 3.18 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method. ANN(1000C, 5d, in quartz tube (He))" The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158071 PHB1350434 "Tc measured inductively, defined as mid point in transition." La1-xThxIr3 La0.6Th0.4Ir3 La 0.6 Th 0.4 Ir 3 1 1985 AB3 K 3.63 3.63 MTC158071 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method. ANN(1000C, 5d, in quartz tube (He))" The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158072 PHB1350434 "Tc measured inductively, defined as mid point in transition." La1-xThxIr3 La0.4Th0.6Ir3 La 0.4 Th 0.6 Ir 3 1 1985 AB3 K 4.03 4.03 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method. ANN(1000C, 5d, in quartz tube (He))" The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158073 PHB1350434 "Tc measured inductively, defined as mid point in transition." La1-xThxIr3 La0.2Th0.8Ir3 La 0.2 Th 0.8 Ir 3 1 1985 AB3 K 4.48 4.48 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method. ANN(1000C, 5d, in quartz tube (He))" The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158074 PHB1350434 "Tc measured inductively, defined as mid point in transition." La1-xThxIr3 Ir3Th1 Ir 3 Th 1 1 1985 AB3 K 4.99 4.99 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method. ANN(1000C, 5d, in quartz tube (He))" The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158075 PHB1350434 "Tc measured inductively, defined as mid point in transition." La1-xCexIr3 La0.9Ce0.1Ir3 La 0.9 Ce 0.1 Ir 3 1 1985 AB3 K 2.82 2.82 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method. ANN(1000C, 5d, in quartz tube (He))" The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158076 PHB1350434 "Tc measured inductively, defined as mid point in transition." La1-xCexIr3 La0.71Ce0.29Ir3 La 0.71 Ce 0.29 Ir 3 1 1985 AB3 K 3.08 3.08 MTC158076 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method. ANN(1000C, 5d, in quartz tube (He))" The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158077 PHB1350434 "Tc measured inductively, defined as mid point in transition." La1-xCexIr3 La0.39Ce0.61Ir3 La 0.39 Ce 0.61 Ir 3 1 1985 AB3 K 2.74 2.74 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method. ANN(1000C, 5d, in quartz tube (He))" The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158078 PHB1350434 "Tc measured inductively, defined as mid point in transition." La1-xCexIr3 La0.2Ce0.8Ir3 La 0.2 Ce 0.8 Ir 3 1 1985 AB3 K 2.79 2.79 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method. ANN(1000C, 5d, in quartz tube (He))" The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158079 PHB1350434 "Tc measured inductively, defined as mid point in transition." ThIr3 Ir3Th1 Ir 3 Th 1 1 1985 AB3 K 3.05 3.05 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method. ANN(1000C, 5d, in quartz tube (He))" The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158080 PHB1350434 "Tc measured inductively, defined as mid point in transition." Ce1-xThxIr3 Ce0.52Th0.48Ir3 Ce 0.52 Th 0.48 Ir 3 1 1985 AB3 K 3.83 3.83 MTC158080 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method. ANN(1000C, 5d, in quartz tube (He))" The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158081 PHB1350434 "Tc measured inductively, defined as mid point in transition." Ce1-xThxIr3 Ce0.32Th0.68Ir3 Ce 0.32 Th 0.68 Ir 3 1 1985 AB3 K 4.22 4.22 "RRu2,RIr2, firstly arc-melted. Then, pseudobinary samples made by arc-melting method. ANN(1000C, 5d, in quartz tube (He))" The valence of Ce in CeRu2 and CeIr3 THRU superconductivity 1985 "Physica B, 135(1985)434"
158082 JPS086114605 not SC. S-intercalated Nd3.5Sm0.5Ni3O8. Nd3.5Sm0.5Ni3O8Sx Nd3.5Sm0.5Ni3S0.26O8 Nd 3.5 Sm 0.5 Ni 3 S 0.26 O 8 1 2017 I4/mmm 139 A 3.8518 26.825 K "Nd3.5Sm0.5Ni3O10 by solid state reaction - ANN(350C,5h, in flowing O2. S-intercalation by heating (300C,60h) with pellet of S." Synchrotron X-ray Diffraction and High-Pressure Electrical Resistivity Studies for High-Tc Candidate Nd3.5Sm0.5Ni3O8 2017 "Department of Physics, Yokohama National University, Yokohama 240-8501, Japan" "J.Phys.Soc.Jpn, 86(2017)114605"
158083 JPS086114605 "not SC for P =< 8 GPa. S-deintercalated Nd3.5Sm0.5Ni3O8Sx. R(T) shows metallic for T > 60 K, semicond. for T < 60 K at P = 0." Nd3.5Sm0.5Ni3O8Sx Nd3.5Sm0.5Ni3O8 Nd 3.5 Sm 0.5 Ni 3 O 8 1 2017 I4/mmm 139 A 3.9137 25.287 K "deintercalation performed by heating (290C, 20h, in flowing H2 gas)" Synchrotron X-ray Diffraction and High-Pressure Electrical Resistivity Studies for High-Tc Candidate Nd3.5Sm0.5Ni3O8 2017 "Department of Physics, Yokohama National University, Yokohama 240-8501, Japan" "J.Phys.Soc.Jpn, 86(2017)114605"
158084 JPS087013701 <27>Al-NMR measured for H//c. Linewidth of NMR supports to be [penet]//ab = 4600 A. UPd2Al3 U1Pd2Al3 U 1 Pd 2 Al 3 3 2018 14.5 AB2C3 PrNi2Al3 P6/mmm hexagonal K 2 2 A NMR(Al) 4600 Chochralski method in triarc furnace Spatially Inhomogeneous Superconducting State near Hc2 in UPd2Al3 2018 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "J.Phys.Soc.Jpn, 87(2018)013701"
158085 PRB080165107 "not SC. P-P and Co-Co distance, Co-P-Co angle were measured" Sr1-xCaxCo2P2 Sr1Co2P2 Sr 1 Co 2 P 2 1 2009 AB2C2 ThCr2Si2 A 3.7885 11.601 K 1.8 mJ/m-Co.K2 21.9 "P,Sr,Ca,CoP" Lattice collapse and the magnetic phase diagram of Sr1-xCaxCo2P2 2009 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 80(2009)165107"
158086 PRB080165107 "not SC. P-P and Co-Co distance, Co-P-Co angle were measured" Sr1-xCaxCo2P2 Sr0.56Ca0.44Co2P2 Sr 0.56 Ca 0.44 Co 2 P 2 1 2009 AB2C2 ThCr2Si2 A 3.7867 11.202 K 1.8 MLAT158086 MSP158086 mJ/m-Co.K2 18.2 "P,Sr,Ca,CoP" Lattice collapse and the magnetic phase diagram of Sr1-xCaxCo2P2 2009 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 80(2009)165107"
158087 PRB080165107 "not SC. P-P and Co-Co distance, Co-P-Co angle were measured. T in TCFIG shows Fermi Liquid temperature." Sr1-xCaxCo2P2 Sr0.46Ca0.54Co2P2 Sr 0.46 Ca 0.54 Co 2 P 2 1 2009 AB2C2 ThCr2Si2 A 3.7909 11.0736 K 1.8 MPH158087 mJ/m-Co.K2 20 "P,Sr,Ca,CoP" Lattice collapse and the magnetic phase diagram of Sr1-xCaxCo2P2 2009 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 80(2009)165107"
158088 PRB080165107 "not SC. P-P and Co-Co distance, Co-P-Co angle were measured" Sr1-xCaxCo2P2 Ca1Co2P2 Ca 1 Co 2 P 2 1 2009 AB2C2 ThCr2Si2 A 3.8552 9.5686 K 1.8 "P,Sr,Ca,CoP" Lattice collapse and the magnetic phase diagram of Sr1-xCaxCo2P2 2009 "Department of Chemistry, Princeton University, Princeton, New Jersey 08544, USA" "Phys.Rev.B, 80(2009)165107"
158089 PRB082060518 "[penet]London measured by TDR. but absolut value not shown. d[penet] = T^n, n = 2.78" Ba(Fe1-xCox)2As2 Ba1Fe1.86Co0.14As2 Ba 1 Fe 1.86 Co 0.14 As 2 3 2010 AB2C2 K 22.5 22.5 FeAs flux method "London penetration depth in Ba(Fe1-xTx)2As2 (T= Co, Ni) superconductors irradiated with heavy ions" 2010 "Ames Laboratory and Department of Physics & Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)060518"
158090 PRB082060518 "Irradiation (1.4 GeV, <208>Pb-ion) effect. Density of deffect expressed by matching field B (T-unit). B = 0.5 T. d[penet] = T^n, n = 2.66" Ba(Fe1-xCox)2As2 Ba1Fe1.86Co0.14As2 Ba 1 Fe 1.86 Co 0.14 As 2 3 2010 AB2C2 K 22.3 22.3 FeAs flux method "London penetration depth in Ba(Fe1-xTx)2As2 (T= Co, Ni) superconductors irradiated with heavy ions" 2010 "Ames Laboratory and Department of Physics & Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)060518"
158091 PRB082060518 "Irradiation (1.4 GeV, <208>Pb-ion) effect. Density of deffect expressed by matching field B (T-unit). B = 1.0 T. d[penet] = T^n, n = 2.49" Ba(Fe1-xCox)2As2 Ba1Fe1.86Co0.14As2 Ba 1 Fe 1.86 Co 0.14 As 2 3 2010 AB2C2 K 22 22 FeAs flux method "London penetration depth in Ba(Fe1-xTx)2As2 (T= Co, Ni) superconductors irradiated with heavy ions" 2010 "Ames Laboratory and Department of Physics & Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)060518"
158092 PRB082060518 "B = 0 T. d[penet] = T^n, n = 2.47" BaFe1-xNix)2As2 Ba1Fe1.91Ni0.09As2 Ba 1 Fe 1.91 Ni 0.09 As 2 3 2010 AB2C2 K 18.9 18.9 FeAs flux method "London penetration depth in Ba(Fe1-xTx)2As2 (T= Co, Ni) superconductors irradiated with heavy ions" 2010 "Ames Laboratory and Department of Physics & Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)060518"
158093 PRB082060518 "Irradiation (1.4 GeV, <208>Pb-ion) effect. Density of deffect expressed by matching field B (T-unit). B = 1.0 T. d[penet] = T^n, n = 2.30" BaFe1-xNix)2As2 Ba1Fe1.91Ni0.09As2 Ba 1 Fe 1.91 Ni 0.09 As 2 3 2010 AB2C2 K 18.27 18.27 FeAs flux method "London penetration depth in Ba(Fe1-xTx)2As2 (T= Co, Ni) superconductors irradiated with heavy ions" 2010 "Ames Laboratory and Department of Physics & Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)060518"
158094 PRB082060518 "Irradiation (1.4 GeV, <208>Pb-ion) effect. Density of deffect expressed by matching field B (T-unit). B = 2.0 T. d[penet] = T^n, n = 2.08" BaFe1-xNix)2As2 Ba1Fe1.91Ni0.09As2 Ba 1 Fe 1.91 Ni 0.09 As 2 3 2010 AB2C2 K 17.86 17.86 FeAs flux method "London penetration depth in Ba(Fe1-xTx)2As2 (T= Co, Ni) superconductors irradiated with heavy ions" 2010 "Ames Laboratory and Department of Physics & Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 82(2010)060518"
158095 JPCM0145067 not SC. T = 151 K for both commensurate and incommensurate superstructures. CDW and AFM states coexist below Tn(=2.8 K) Er5Ir4Si10 Er5Ir4Si10 Er 5 Ir 4 Si 10 3 2002 2.8 A4B5C10 Sc5Co4Si10 P4/mbm A 12.543 4.203 K 1.8 single crystals grown by tri-arc Czochralski method Coexistence of charge density wave and antiferromagnetism in Er5Ir4Si10 2002 "Kamerlingh Onnes Laboratory, Leiden University, NL-2300 RA Leiden, The Neitherlands" "J.Phys.: Condens.Matter, 14(2002)5067"
158096 JPS078074714 P-induced SC. Many AFM phases appear with increasing pressure. SC phase for 4 < P < 8 GPa. Figure shows magnetic (AFM) phase diagram for P < 8 GPa CeCoGe3 Ce1Co1Ge3 Ce 1 Co 1 Ge 3 3 2009 21.5 ABC3 BaNiSn3 I4mm K 0 MPH158096 mJ/mol.K2 32 Bi-flux method High Pressure Phase Diagram of the Non-centrosymmetric Antiferromagnet CeCoGe3 2009 "Commissariat a l'Energie Atomique, INAC, SPSMS, 17 rue des Martyrs, 38054 Grenoble, France" "J.Phys.Soc.Jpn, 78(2009)074714"
158097 JPS078074714 "P-induced SC. SC poperties (Tc, Hc2) are for P = 5.7 GPa." CeCoGe3 Ce1Co1Ge3 Ce 1 Co 1 Ge 3 3 2009 ABC3 BaNiSn3 I4mm K 0.65 0 0.65 MPH158097 T/K 73 MHC158097 Bi-flux method High Pressure Phase Diagram of the Non-centrosymmetric Antiferromagnet CeCoGe3 2009 "Commissariat a l'Energie Atomique, INAC, SPSMS, 17 rue des Martyrs, 38054 Grenoble, France" "J.Phys.Soc.Jpn, 78(2009)074714"
158098 JPS080SA112 (dC/gamma*Tc) = 1.96. C: T^3 (anisotropic gap with point node. gamma(H) = H^(0.5) dependency at T = 0.63 K. Y5Rh6Sn18 Y5Rh6Sn18 Y 5 Rh 6 Sn 18 3 2011 A5B6C18 I4<1>/acd A 13.74 27.48 K 3 3 MSP158098 mJ/mol.K 222 mJ/mol.K2 37.8 SP 185 SP "Y(3N) or Lu(3N),Rh(3N),Sn(5N)" Sn-flux method Highly Anisotropic Gap Function in a Nonmagnetic Superconductor Y5Rh6Sn18 2011 "Department of Physics and Mathematics, Aoyana-Gakuin University, Fuchinobe 5-10-1, Sagamihara, Kanagawa 252-5258, Japan" "J.Phys.Soc.Jpn, 80(2011) SA 112"
158099 JPS080SA112 (dC/gamma*Tc) = 2.02. gamma(H) = linear H dependency at T = 0.63 K. Energy gap obtained from SP measurements Lu5Rh6Sn18 Lu5Rh6Sn18 Lu 5 Rh 6 Sn 18 3 2011 A5B6C18 I4<1>/acd A 13.63 27.26 K 4 4 4.26 14 MSP158099 mJ/mol.K 397 mJ/mol.K2 49.1 SP 158 SP "Y(3N) or Lu(3N),Rh(3N),Sn(5N)" Sn-flux method Highly Anisotropic Gap Function in a Nonmagnetic Superconductor Y5Rh6Sn18 2011 "Department of Physics and Mathematics, Aoyana-Gakuin University, Fuchinobe 5-10-1, Sagamihara, Kanagawa 252-5258, Japan" "J.Phys.Soc.Jpn, 80(2011) SA 112"
158100 JPS080SA112 (Y1-xLux)5Rh6Sn18 Y4Lu1Rh6Sn18 Y 4 Lu 1 Rh 6 Sn 18 3 2011 A5B6C18 I4<1>/acd K 3.58 3.58 "Y(3N) or Lu(3N),Rh(3N),Sn(5N)" Sn-flux method Highly Anisotropic Gap Function in a Nonmagnetic Superconductor Y5Rh6Sn18 2011 "Department of Physics and Mathematics, Aoyana-Gakuin University, Fuchinobe 5-10-1, Sagamihara, Kanagawa 252-5258, Japan" "J.Phys.Soc.Jpn, 80(2011) SA 112"
158101 JPS080SA112 (Y1-xLux)5Rh6Sn18 Y3Lu2Rh6Sn18 Y 3 Lu 2 Rh 6 Sn 18 3 2011 A5B6C18 I4<1>/acd K 3.75 3.75 MTC158101 "Y(3N) or Lu(3N),Rh(3N),Sn(5N)" Sn-flux method Highly Anisotropic Gap Function in a Nonmagnetic Superconductor Y5Rh6Sn18 2011 "Department of Physics and Mathematics, Aoyana-Gakuin University, Fuchinobe 5-10-1, Sagamihara, Kanagawa 252-5258, Japan" "J.Phys.Soc.Jpn, 80(2011) SA 112"
158102 JPS080SA112 (Y1-xLux)5Rh6Sn18 Y1Lu4Rh6Sn18 Y 1 Lu 4 Rh 6 Sn 18 3 2011 A5B6C18 I4<1>/acd K 3.93 3.93 "Y(3N) or Lu(3N),Rh(3N),Sn(5N)" Sn-flux method Highly Anisotropic Gap Function in a Nonmagnetic Superconductor Y5Rh6Sn18 2011 "Department of Physics and Mathematics, Aoyana-Gakuin University, Fuchinobe 5-10-1, Sagamihara, Kanagawa 252-5258, Japan" "J.Phys.Soc.Jpn, 80(2011) SA 112"
158103 JPS083023702 "Tc depends on Pd-content. Tc(x=0.94) = 5.56, Tc(x=0.89) = 317K." Ta2PdxS5 Ta2Pd0.97S5 Ta 2 Pd 0.97 S 5 1 2014 AB2C5 A 12.273 3.28 15.294 "alpha = gamma = 90, beta = 105.20 degree" K 6.05 6.53 5.91 5.91 MSP158103 mJ/mol.K2 27.6 SP 231 SP mOhm.cm 4.2 solid state reaction Superconductivity at 6K and the Violation of Pauli Limit in Ta2PdxS5 2014 "Department of Advanced Materials, University of Tokyo, Kashiwa, Chiba 277-8561, Japan" "J.Phys.Soc.Jpn, 83(2014)023702"
158104 JPS083023702 Pauli limit = 10.2 T. Maki parameter = 4.4. Ta2PdxS5 Ta2Pd0.92S5 Ta 2 Pd 0.92 S 5 3 2014 AB2C5 K 5.4 5.4 T "RES(0.5Rn),WHH" 32 14 T/K RES(0.5Rn) 8.5 3.7 MHC158104 nm from Hc2 3.2 4.8 mOhm.cm 0.32 Chemical vapor transport (CVT) method Superconductivity at 6K and the Violation of Pauli Limit in Ta2PdxS5 2014 "Department of Advanced Materials, University of Tokyo, Kashiwa, Chiba 277-8561, Japan" "J.Phys.Soc.Jpn, 83(2014)023702"
158105 JPS087083704 slightly high Ag conc. by EDS. Anomaly in R(T) at 180 K due to CDW. R(T) starts to deviate from normal value at 2.5 K La2O2Bi3AgS6 La2Bi3Ag1S6O2 La 2 Bi 3 Ag 1 S 6 O 2 1 2018 P4/nmm A 4.0568 19.348 stacking of (BiAg)S and LaO(BiAg)S2 K 0.5 0.5 "Bi2O3(3N),La2S3(3N),AgO(3N),Bi(5N),S(4N)" "Solid state reaction. mixture - pellet - sealed in quartz tube - heat(720C, 15h)" Superconductivity in Layered Oxychalcogenide La2O2Bi3AgS6 2018 "Department of Physics, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan" "J.Phys.Soc.Jpn, 87(2018)083704"
158106 JPS087094717 not SC. as-grown sample. muonSR measured. T'-La1.8Eu0.2Cu1-xNixO4 La1.8Eu0.2Cu1O4 La 1.8 Eu 0.2 Cu 1 O 4 1 2018 50 T' K 0 low temperature synthesis Impurity Effects on the Electronic State in the Undoped (Ce-free) Superconductor T'-La1.8Eu0.2CuO4 Studied by Muon Spin Relaxation 2018 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 87(2018)094717"
158107 JPS087094717 reduced sample.muonSR measured. T'-La1.8Eu0.2Cu1-xNixO3.5 La1.8Eu0.2Cu1O3.5 La 1.8 Eu 0.2 Cu 1 O 3.5 1 2018 22 T' K 20 20 "T-type materials - reduced sample(solid state reaction with CaH2) - N-type materials - react(400C,12h flowing O2) - reduction annealing" Impurity Effects on the Electronic State in the Undoped (Ce-free) Superconductor T'-La1.8Eu0.2CuO4 Studied by Muon Spin Relaxation 2018 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 87(2018)094717"
158108 JPS087094717 reduced sample. muonSR measured. T'-La1.8Eu0.2Cu1-xNixO3.5 La1.8Eu0.2Cu0.995Ni0.005O3.5 La 1.8 Eu 0.2 Cu 0.995 Ni 0.005 O 3.5 1 2018 20 T' K 17 17 "T-type materials - reduced sample(solid state reaction with CaH2) - N-type materials - react(400C,12h flowing O2) - reduction annealing" Impurity Effects on the Electronic State in the Undoped (Ce-free) Superconductor T'-La1.8Eu0.2CuO4 Studied by Muon Spin Relaxation 2018 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 87(2018)094717"
158109 JPS087094717 reduced sample. muonSR measured. T'-La1.8Eu0.2Cu1-xNixO3.5 La1.8Eu0.2Cu0.99Ni0.01O3.5 La 1.8 Eu 0.2 Cu 0.99 Ni 0.01 O 3.5 1 2018 37 T' K 15 15 "T-type materials - reduced sample(solid state reaction with CaH2) - N-type materials - react(400C,12h flowing O2) - reduction annealing" Impurity Effects on the Electronic State in the Undoped (Ce-free) Superconductor T'-La1.8Eu0.2CuO4 Studied by Muon Spin Relaxation 2018 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 87(2018)094717"
158110 JPS087094717 reduced sample. muonSR measured. T'-La1.8Eu0.2Cu1-xZnxO3.5 La1.8Eu0.2Cu0.995Zn0.005O3.5 La 1.8 Eu 0.2 Cu 0.995 Zn 0.005 O 3.5 1 2018 20 T' K 16 16 "T-type materials - reduced sample(solid state reaction with CaH2) - N-type materials - react(400C,12h flowing O2) - reduction annealing" Impurity Effects on the Electronic State in the Undoped (Ce-free) Superconductor T'-La1.8Eu0.2CuO4 Studied by Muon Spin Relaxation 2018 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 87(2018)094717"
158111 JPS087094717 reduced sample. muonSR measured. T'-La1.8Eu0.2Cu1-xZnxO3.5 La1.8Eu0.2Cu0.99Zn0.01O3.5 La 1.8 Eu 0.2 Cu 0.99 Zn 0.01 O 3.5 1 2018 17 T' K 14 14 "T-type materials - reduced sample(solid state reaction with CaH2) - N-type materials - react(400C,12h flowing O2) - reduction annealing" Impurity Effects on the Electronic State in the Undoped (Ce-free) Superconductor T'-La1.8Eu0.2CuO4 Studied by Muon Spin Relaxation 2018 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 87(2018)094717"
158112 JPS087105001 coexistence of Sc and weak FM. remanence = 0.002 my-B/f.u at 50 K. Magnetic state studied by x-ray magnetic circular dichroism. Sr2VFeAsO3-z Sr2V1Fe1As1O2.75 Sr 2 V 1 Fe 1 As 1 O 3-z 2.75 3 2018 210 ABCD2E3 21113 stacking of FeAs and SrVO3 K 20 20 self flux method Local Magnetic States of the Weakly Ferromagnetic Iron-Based Superconductor Sr2VFeAsO3-z Studied by X-ray Magnetic Circular Dichroism 2018 "Department of Physics, University of Tokyo, Bunkyo, Tokyo 113-0033, Japan" "J.Phys.Soc.Jpn, 87(2018)105001"
158113 JPS087113702 M = EDA. co-intercalated (Ca and EDA) to 2H-MoSe2. lattice const (a) and EDA content x not measured. SC-volume fraction = 2 % at 2K. Tc depends on EDOS. Ca(EDA)xMoSe2 Ca1M1Mo1Se2 Ca 1 M 1 Mo 1 Se 2 1 2018 P6<3>/mmc A 24.13 2H-Mose2 K 6 6 "Mo(3N),Se(5N)" mixture(2H-MoSe2 and alkaline-earth metal) - placed in a Teflon-lined steel autoclave together with EDA. (molar ratio of A:2H-MoSe2 = 1 : 1) - sealed in Teflonlined autoclave - heat (120 C for 7 d) "New Intercalation Superconductors Ax(C2H8N2)yMoSe2 (A = Ca, Sr, Ba) Synthesized by Solvothermal Method" 2018 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 87(2018)113702"
158114 JPS087113702 M = EDA. co-intercalated (Ca and EDA) to 2H-MoSe2. lattice const (a) and EDA content x not measured. SC-volume fraction = 2 % at 2K. Tc depends on EDOS. Sr(EDA)xMoSe2 Sr1M1Mo1Se2 Sr 1 M 1 Mo 1 Se 2 1 2018 P6<3>/mmc A 24.16 2H-Mose2 K 6.4 6.4 "Mo(3N),Se(5N)" mixture(2H-MoSe2 and alkaline-earth metal) - placed in a Teflon-lined steel autoclave together with EDA. (molar ratio of A:2H-MoSe2 = 1 : 1) - sealed in Teflonlined autoclave - heat (120 C for 7 d) "New Intercalation Superconductors Ax(C2H8N2)yMoSe2 (A = Ca, Sr, Ba) Synthesized by Solvothermal Method" 2018 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 87(2018)113702"
158115 JPS087113702 M = EDA. co-intercalated (Ca and EDA) to 2H-MoSe2. lattice const (a) and EDA content x not measured. SC-volume fraction = 2 % at 2K. Tc depends on EDOS. Ba(EDA)xMoSe2 Ba1M1Mo1Se2 Ba 1 M 1 Mo 1 Se 2 1 2018 P6<3>/mmc A 24.07 2H-Mose2 K 7.2 7.2 "Mo(3N),Se(5N)" mixture(2H-MoSe2 and alkaline-earth metal) - placed in a Teflon-lined steel autoclave together with EDA. (molar ratio of A:2H-MoSe2 = 1 : 1) - sealed in Teflonlined autoclave - heat (120 C for 7 d) "New Intercalation Superconductors Ax(C2H8N2)yMoSe2 (A = Ca, Sr, Ba) Synthesized by Solvothermal Method" 2018 "Department of Applied Physics, Tohoku University, Sendai 980-8579, Japan" "J.Phys.Soc.Jpn, 87(2018)113702"
158116 JPS087114712 not SC UPd5Al2 U1Pd5Al2 U 1 Pd 5 Al 2 1 2018 -12.7 AB2C5 ZrNi2Al5 I4/mmm A 4.0893 14.628 K 0 mJ/mol.K2 20 uOhm.cm 26.3 55.5 129.3 arc-melting Localized 5f<2> States in UPd5Al2 and Valence Crossover in the Vicinity of Heavy-Fermion Superconductivity 2018 "Japan Atomic Energy Agency, Tokai, Ibaraki 319-1195, Japan" "J.Phys.Soc.Jpn, 87(2018)114712"
158117 JPS087114712 not SC ThPd5Al2 Th1Pd5Al2 Th 1 Pd 5 Al 2 1 2018 AB2C5 ZrNi2Al5 I4/mmm A 4.1971 14.682 K 0 arc-melting Localized 5f<2> States in UPd5Al2 and Valence Crossover in the Vicinity of Heavy-Fermion Superconductivity 2018 "Japan Atomic Energy Agency, Tokai, Ibaraki 319-1195, Japan" "J.Phys.Soc.Jpn, 87(2018)114712"
158118 JPS087114712 not SC PuPd5Al2 Pu1Pd5Al2 Pu 1 Pd 5 Al 2 1 2018 -12 5.6 I4/mmm A 4.1309 14.803 K 0 arc-melting Localized 5f<2> States in UPd5Al2 and Valence Crossover in the Vicinity of Heavy-Fermion Superconductivity 2018 "Japan Atomic Energy Agency, Tokai, Ibaraki 319-1195, Japan" "J.Phys.Soc.Jpn, 87(2018)114712"
158119 JPS087114712 not SC AmPd5Al2 Am1Pd5Al2 Am 1 Pd 5 Al 2 1 2018 -0.7 I4/mmm A 4.1303 14.615 K 0 arc-melting Localized 5f<2> States in UPd5Al2 and Valence Crossover in the Vicinity of Heavy-Fermion Superconductivity 2018 "Japan Atomic Energy Agency, Tokai, Ibaraki 319-1195, Japan" "J.Phys.Soc.Jpn, 87(2018)114712"
158120 MSE0310289 SC for 0.3 =< x =< 0.6 in NaxMoS2 Na0.3MoS2 Na0.3Mo1S2 Na 0.3 Mo 1 S 2 1 1977 2 A 14.97 A-intercalated MoS2 K 3.6 3.6 T 5 0.76 T/K 2 Physics and Chemistry of MoS2 Intercalation Compounds 1977 "NASA Lewis Research Center, Cleveland, Ohio 44135, USA" "Mat.Res.Engineering, 31(1977)289"
158121 MSE0310289 SC for 0.05 =< x =< 0.07 in CaxMoS2 Ca0.05MoS2 Ca0.05Mo1S2 Ca 0.05 Mo 1 S 2 1 1977 3 A 18.64 A-intercalated MoS2 K 4 4 T 2.1 0.65 T/K 1.8 Physics and Chemistry of MoS2 Intercalation Compounds 1977 "NASA Lewis Research Center, Cleveland, Ohio 44135, USA" "Mat.Res.Engineering, 31(1977)289"
158122 MSE0310289 SC for 0.06 =< x =< 0.1 in SrxMoS2 Sr0.06MoS2 Sr0.06Mo1S2 Sr 0.06 Mo 1 S 2 1 1977 2 A 18.62 A-intercalated MoS2 K 5.6 5.6 T 4.6 1.36 T/K 1.6 Physics and Chemistry of MoS2 Intercalation Compounds 1977 "NASA Lewis Research Center, Cleveland, Ohio 44135, USA" "Mat.Res.Engineering, 31(1977)289"
158123 MSE0310289 K0.4MoS2 K0.4Mo1S2 K 0.4 Mo 1 S 2 1 1977 7 A 16.58 A-intercalated MoS2 K 6.9 6.9 T 4 T/K 4 Physics and Chemistry of MoS2 Intercalation Compounds 1977 "NASA Lewis Research Center, Cleveland, Ohio 44135, USA" "Mat.Res.Engineering, 31(1977)289"
158124 MSE0310289 Rb0.3MoS2 Rb0.3Mo1S2 Rb 0.3 Mo 1 S 2 1 1977 7 A 17.19 A-intercalated MoS2 K 6.9 6.9 T 4 T/K 3 Physics and Chemistry of MoS2 Intercalation Compounds 1977 "NASA Lewis Research Center, Cleveland, Ohio 44135, USA" "Mat.Res.Engineering, 31(1977)289"
158125 MSE0310289 Cs0.3MoS2 Cs0.3Mo1S2 Cs 0.3 Mo 1 S 2 1 1977 7 A 19.61 A-intercalated MoS2 K 6.9 6.9 T 22 3.3 T/K 5 MHC158125 Physics and Chemistry of MoS2 Intercalation Compounds 1977 "NASA Lewis Research Center, Cleveland, Ohio 44135, USA" "Mat.Res.Engineering, 31(1977)289"
158126 MSE0310289 2H-type MoS2. not SC 2H-MoS2 Mo1S2 Mo 1 S 2 1 1977 7 A 12.29 2H-Mos2 K 0 Physics and Chemistry of MoS2 Intercalation Compounds 1977 "NASA Lewis Research Center, Cleveland, Ohio 44135, USA" "Mat.Res.Engineering, 31(1977)289"
158127 SST030015005 Eu3-xSrxBi2S4F4 Eu3Bi2S4F4 Eu 3 Bi 2 S 4 F 4 1 2017 my-B/Eu 7.28 2.14 A2B3C4D4 I4/mmm 139 A 4.0769 32.4358 K 1.5 1.5 mJ/mol.K2 159 SP 203 SP mOhm.cm 2.406 2.284 "EuS,SrS,Bi2S3,EuF2,SrF2" "mixture - ground - pellet - sealed in quartz ampoule - heat(1123K, 35h)" Effect of Sr doping in layered Eu3Bi2S4F4 superconductor 2017 "State Key Lab of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People?s Republic of China" "Supercond.Sci.Technol., 30(2017)015005"
158128 SST030015005 SP (beta) = 3.27 mJ/mol.K4 Eu3-xSrxBi2S4F4 Eu2.5Sr0.5Bi2S4F4 Eu 2.5 Sr 0.5 Bi 2 S 4 F 4 1 2017 my-B/Eu 7.19 2.07 A2B3C4D4 I4/mmm 139 A 4.0724 32.5594 K 0.87 0.87 MSP158128 mJ/mol.K2 214.7 SP 213 SP mOhm.cm 3.404 3.423 "EuS,SrS,Bi2S3,EuF2,SrF2" "mixture - ground - pellet - sealed in quartz ampoule - heat(1123K, 35h)" Effect of Sr doping in layered Eu3Bi2S4F4 superconductor 2017 "State Key Lab of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People?s Republic of China" "Supercond.Sci.Technol., 30(2017)015005"
158129 SST030015005 Eu3-xSrxBi2S4F4 Eu2Sr1Bi2S4F4 Eu 2 Sr 1 Bi 2 S 4 F 4 1 2017 my-B/Eu 7.02 1.62 A2B3C4D4 I4/mmm 139 A 4.0705 32.6309 K 0.48 0.48 mJ/mol.K2 302.3 SP 221 SP mOhm.cm 1.902 2.178 "EuS,SrS,Bi2S3,EuF2,SrF2" "mixture - ground - pellet - sealed in quartz ampoule - heat(1123K, 35h)" Effect of Sr doping in layered Eu3Bi2S4F4 superconductor 2017 "State Key Lab of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People?s Republic of China" "Supercond.Sci.Technol., 30(2017)015005"
158130 SST030015005 not SC Eu3-xSrxBi2S4F4 Eu1Sr2Bi2S4F4 Eu 1 Sr 2 Bi 2 S 4 F 4 1 2017 my-B/Eu 6.58 1.41 A2B3C4D4 I4/mmm 139 A 4.0681 32.8011 K 0 mJ/mol.K2 338.2 SP 245 SP "EuS,SrS,Bi2S3,EuF2,SrF2" "mixture - ground - pellet - sealed in quartz ampoule - heat(1123K, 35h)" Effect of Sr doping in layered Eu3Bi2S4F4 superconductor 2017 "State Key Lab of Silicon Materials and Department of Physics, Zhejiang University, Hangzhou 310027, People?s Republic of China" "Supercond.Sci.Technol., 30(2017)015005"
158131 JPCM0068585 not SC. Tn measured by resistivity anomaly CeAu2Si2 Ce1Au2Si2 Ce 1 Au 2 Si 2 1 1994 9.4 AB2C2 ThCr2Si2 I4/mmm A 4.318 10.223 K 0 Antiferromagnetis in CeAu2Si2- and CeAg2Si2-based Kondo-lattice systems 1994 "Low Temperature Physics Group, Tata Institute of Fundamental Research, Road, Colaba. Bombay400 005, India" "J.Phys.: Condens.Matte, 6(1994)8585"
158132 JPCM0068585 not SC. Tn measured by resistivity anomaly Ce1-xLaxAu2Si2 Ce0.85La0.15Au2Si2 Ce 0.85 La 0.15 Au 2 Si 2 1 1994 7.8 AB2C2 ThCr2Si2 I4/mmm A 4.321 10.219 K 0 MLAT158132 Antiferromagnetis in CeAu2Si2- and CeAg2Si2-based Kondo-lattice systems 1994 "Low Temperature Physics Group, Tata Institute of Fundamental Research, Road, Colaba. Bombay400 005, India" "J.Phys.: Condens.Matte, 6(1994)8585"
158133 JPCM0068585 not SC. Tn measured by resistivity anomaly Ce1-xLaxAu2Si2 Ce0.3La0.7Au2Si2 Ce 0.3 La 0.7 Au 2 Si 2 1 1994 4 AB2C2 ThCr2Si2 I4/mmm A 4.333 10.225 K 0 MTN158133 Antiferromagnetis in CeAu2Si2- and CeAg2Si2-based Kondo-lattice systems 1994 "Low Temperature Physics Group, Tata Institute of Fundamental Research, Road, Colaba. Bombay400 005, India" "J.Phys.: Condens.Matte, 6(1994)8585"
158134 JPCM0068585 not SC. Tn measured by resistivity anomaly Ce1-xYxSu2Si2 Ce0.95Y0.05Au2Si2 Ce 0.95 Y 0.05 Au 2 Si 2 1 1994 9 AB2C2 ThCr2Si2 I4/mmm A 4.317 10.223 K 0 Antiferromagnetis in CeAu2Si2- and CeAg2Si2-based Kondo-lattice systems 1994 "Low Temperature Physics Group, Tata Institute of Fundamental Research, Road, Colaba. Bombay400 005, India" "J.Phys.: Condens.Matte, 6(1994)8585"
158135 JPCM0068585 not SC. Tn measured by resistivity anomaly Ce1-xYxSu2Si2 Ce0.6Y0.4Au2Si2 Ce 0.6 Y 0.4 Au 2 Si 2 1 1994 6.6 AB2C2 ThCr2Si2 I4/mmm A 4.296 10.204 K 0 Antiferromagnetis in CeAu2Si2- and CeAg2Si2-based Kondo-lattice systems 1994 "Low Temperature Physics Group, Tata Institute of Fundamental Research, Road, Colaba. Bombay400 005, India" "J.Phys.: Condens.Matte, 6(1994)8585"
158136 JPCM0068585 not SC. Tn measured by resistivity anomaly CeAg2Si2 Ce1Ag2Si2 Ce 1 Ag 2 Si 2 1 1994 7.3 AB2C2 ThCr2Si2 I4/mmm A 4.285 10.552 K 0 Antiferromagnetis in CeAu2Si2- and CeAg2Si2-based Kondo-lattice systems 1994 "Low Temperature Physics Group, Tata Institute of Fundamental Research, Road, Colaba. Bombay400 005, India" "J.Phys.: Condens.Matte, 6(1994)8585"
158137 JPCM0068585 not SC. Tn measured by resistivity anomaly Ce1-xLaxAg2Si2 Ce0.6La0.4Ag2Si2 Ce 0.6 La 0.4 Ag 2 Si 2 1 1994 4.3 AB2C2 ThCr2Si2 I4/mmm A 4.307 10.547 K 0 MLAT158137 Antiferromagnetis in CeAu2Si2- and CeAg2Si2-based Kondo-lattice systems 1994 "Low Temperature Physics Group, Tata Institute of Fundamental Research, Road, Colaba. Bombay400 005, India" "J.Phys.: Condens.Matte, 6(1994)8585"
158138 JPCM0068585 not SC. Tn measured by resistivity anomaly Ce1-xLaxAg2Si2 Ce0.3La0.7Ag2Si2 Ce 0.3 La 0.7 Ag 2 Si 2 1 1994 2.7 AB2C2 ThCr2Si2 I4/mmm A 4.312 10.543 K 0 Antiferromagnetis in CeAu2Si2- and CeAg2Si2-based Kondo-lattice systems 1994 "Low Temperature Physics Group, Tata Institute of Fundamental Research, Road, Colaba. Bombay400 005, India" "J.Phys.: Condens.Matte, 6(1994)8585"
158139 JPCM0068585 not SC. Tn measured by resistivity anomaly Ce1-xYxAg2Si2 Ce0.95Y0.05Ag2Si2 Ce 0.95 Y 0.05 Ag 2 Si 2 1 1994 7.6 AB2C2 ThCr2Si2 I4/mmm A 4.28 10.549 K 0 Antiferromagnetis in CeAu2Si2- and CeAg2Si2-based Kondo-lattice systems 1994 "Low Temperature Physics Group, Tata Institute of Fundamental Research, Road, Colaba. Bombay400 005, India" "J.Phys.: Condens.Matte, 6(1994)8585"
158140 JPCM0068585 not SC. Tn measured by resistivity anomaly Ce1-xYxAg2Si2 Ce0.3Y0.7Ag2Si2 Ce 0.3 Y 0.7 Ag 2 Si 2 1 1994 4.1 AB2C2 ThCr2Si2 I4/mmm A 4.247 10.502 K 0 MTN158140 Antiferromagnetis in CeAu2Si2- and CeAg2Si2-based Kondo-lattice systems 1994 "Low Temperature Physics Group, Tata Institute of Fundamental Research, Road, Colaba. Bombay400 005, India" "J.Phys.: Condens.Matte, 6(1994)8585"
158141 NAL0160629 "For 0 =< x =<0.4, 2H-phase." 2H-KxMoS2 K0.4Mo1S2 K 0.4 Mo 1 S 2 2016 2H-phase K 6.9 6.9 "Liquid ammonia method. Intercalation achieved by immersion of 2H-MoS2 powder in a solution inliquid ammonia at -78 C, various time" Superconductivity in Potassium-Doped Metallic Polymorphs of MoS2 2016 "School of Physics and Astronomy, Atmospheric, and Environmental Sciences, University of Manchester, Oxford Road, Manchester M13 9PL, United Kingdom" "Nano Lett., 16(2016) 629"
158142 NAL0160629 "For 0.4 =< x < 1.0, coexistence of 2H-phase and 1T-KxMoS2. K-concentration x not shown explicitly." 1T-KxMoS2 K0.6Mo1S2 K 0.6 Mo 1 S 2 2016 1T-phase K 2.8 2.8 "Liquid ammonia method. Intercalation achieved by immersion of 2H-MoS2 powder in a solution inliquid ammonia at -78 C, various time" Superconductivity in Potassium-Doped Metallic Polymorphs of MoS2 2016 "School of Physics and Astronomy, Atmospheric, and Environmental Sciences, University of Manchester, Oxford Road, Manchester M13 9PL, United Kingdom" "Nano Lett., 16(2016) 629"
158143 NAL0160629 "For 0.8 < x, coexistence of 2H-phase and 1T'-KxMoS2. These two phases continue to higher concentration of 50 at.% K (average )." 1T'-KMoS2 K1Mo1S2 K 1 Mo 1 S 2 2016 1T'-phase K 4.6 4.6 "Liquid ammonia method. Intercalation achieved by immersion of 2H-MoS2 powder in a solution inliquid ammonia at -78 C, various time" Superconductivity in Potassium-Doped Metallic Polymorphs of MoS2 2016 "School of Physics and Astronomy, Atmospheric, and Environmental Sciences, University of Manchester, Oxford Road, Manchester M13 9PL, United Kingdom" "Nano Lett., 16(2016) 629"
158144 PHC5520027 Tc defined as R-onset. T1(R=0) = 91 K estimated from R(T) fig. H3S H3S1 H 3 S 1 2018 AB3 Im-3m H3S-phase K 91 203 147 MTC158144 H2S transforms to H3S under high-P(150GPa) by 3H2S = 2H3S + S process. Superconductivity and structural studies of highly compressed hydrogen sulfide 2018 "KYOKUGEN, Osaka University, 1-3 Machikaneyama, Toyonaka, Osaka 560-8531, Japan" "Physica C, 552(2018)27"
158145 PHC5520027 Tc defined as R-onset. D3S D3S1 D 3 S 1 2018 AB3 Im-3m H3S-phase K 148 148 MTC158144 H2S transforms to H3S under high-P(150GPa) by 3H2S = 2H3S + S process. Superconductivity and structural studies of highly compressed hydrogen sulfide 2018 "KYOKUGEN, Osaka University, 1-3 Machikaneyama, Toyonaka, Osaka 560-8531, Japan" "Physica C, 552(2018)27"
158146 PHI0944219 "RRR = 5.64. Yb content of sngle crystals(Ce1-xYbxCoIn5) were corrected by EDS,WDS,TXAS analysis. Tc vs x phse diagram revised using correctef x values" Ce1-xYbxCoIn5 Ce0.95Yb0.05Co1In5 Ce 0.95 Yb 0.05 Co 1 In 5 3 2014 ABC5 HoCoGa5 K 2.14 2.14 MTC158146 In-flux method in alumina crucible Resolution of the discrepancy between the variation of the physical properties of Ce1-xYbxCoIn5 single crystals and thin films with Yb composition 2014 "Materials Science and Engineering Program, University of California, La Jolla, San Diego, CA 92093, USA" "Philos.Mag., 94(2014)4219"
158147 PHI0944219 "RRR = 2.34. Yb content of sngle crystals(Ce1-xYbxCoIn5) were corrected by EDS,WDS,TXAS analysis. Tc-x phase diagram of previous paper revised after correction of x." Ce1-xYbxCoIn5 Ce0.8Yb0.2Co1In5 Ce 0.8 Yb 0.2 Co 1 In 5 3 2014 ABC5 HoCoGa5 K 1.92 1.92 MTC158147 In-flux method in alumina crucible Resolution of the discrepancy between the variation of the physical properties of Ce1-xYbxCoIn5 single crystals and thin films with Yb composition 2014 "Materials Science and Engineering Program, University of California, La Jolla, San Diego, CA 92093, USA" "Philos.Mag., 94(2014)4219"
158148 PHI0944219 RRR = 1.23. Ce1-xYbxCoIn5 Ce0.6Yb0.4Co1In5 Ce 0.6 Yb 0.4 Co 1 In 5 3 2014 ABC5 HoCoGa5 K 1.2 1.2 In-flux method in alumina crucible Resolution of the discrepancy between the variation of the physical properties of Ce1-xYbxCoIn5 single crystals and thin films with Yb composition 2014 "Materials Science and Engineering Program, University of California, La Jolla, San Diego, CA 92093, USA" "Philos.Mag., 94(2014)4219"
158149 PRB0292664 not SC. AFM for T < Tn CeAu2Si2 Ce1Au2Si2 Ce 1 Au 2 Si 2 1 1984 my-B/mol 1.29 10 AB2C2 ThCr2Si2 I4/mmm A 4.32 10.19 "a=4.3002, c=10.2106 at T=15 K, a=4.3005, c=10.2116 at T=5K" K 0 "arc-melting - ANN(800C, 4-5 days, in vac)" "Magnetic ordering in CeMzSiz (M =Ag, Au, Pd, Rh) compounds as studied by neutron diffraction" 1984 "Physics Department, Brookhaven National Laboratory, Upton, Pew York 11973" "Phys.Rev.B, 29(1984)2664"
158150 PRB0292664 not SC. AFM for T < Tn CePd2Si2 Ce1Pd2Si2 Ce 1 Pd 2 Si 2 1 1984 my-B/mol 0.62 10 AB2C2 ThCr2Si2 I4/mmm A 4.24 9.88 "a=4.2235, c=9.8971 at 15 K, a=4.2231, c=9.8962 at T= 5 K" K 0 "arc-melting - ANN(800C, 4-5 days, in vac)" "Magnetic ordering in CeMzSiz (M =Ag, Au, Pd, Rh) compounds as studied by neutron diffraction" 1984 "Physics Department, Brookhaven National Laboratory, Upton, Pew York 11973" "Phys.Rev.B, 29(1984)2664"
158151 PRB0292664 not SC. AFM for T < Tn CeAg2Si2 Ce1Ag2Si2 Ce 1 Ag 2 Si 2 1 1984 10 AB2C2 ThCr2Si2 I4/mmm A 4.25 10.66 "a=4.2330, c=10.6342 at T=15 K" K 0 "arc-melting - ANN(800C, 4-5 days, in vac)" "Magnetic ordering in CeMzSiz (M =Ag, Au, Pd, Rh) compounds as studied by neutron diffraction" 1984 "Physics Department, Brookhaven National Laboratory, Upton, Pew York 11973" "Phys.Rev.B, 29(1984)2664"
158152 PRB0292664 "not SC. there are two Tn, higher 39 K, lower 27 K." CeRh2Si2 Ce1Rh2Si2 Ce 1 Rh 2 Si 2 1 1984 39 AB2C2 ThCr2Si2 I4/mmm A 4.09 10.18 "a=4.0840, c=1693 at 47.5 K, a=4.0834,c=10.1713 at 32 K, a=4.0828, c=10.1705 at 10K" K 0 "arc-melting - ANN(800C, 4-5 days, in vac)" "Magnetic ordering in CeMzSiz (M =Ag, Au, Pd, Rh) compounds as studied by neutron diffraction" 1984 "Physics Department, Brookhaven National Laboratory, Upton, Pew York 11973" "Phys.Rev.B, 29(1984)2664"
158153 MPL0213238 "P-induced SC. Two Tn (= 21K and 13.5 K). RRR = 54. SC properties for P = 5.6 GPa. Tc= 0.696, 0.69, 0.693, 0.646 for P = 5.6, 5.5, 5.4, 4.9 GPa, respectively." CeCoGe3 Ce1Co1Ge3 Ce 1 Co 1 Ge 3 1 2007 21 ABC3 2 BaNiSn3 A 4.319 9.829 K 0.75 0 0.75 MPH158153 T RES(onset) 7 T/K RES(onset) 18 MHC158153 A from Hc2 70 uOhm.cm 1.68 "Ce(3N),Co(4N),Ge(6N)" "arc-melting - wrapped in Ta-foil - sealed in quartz tube - ANN(850C,1w)" Non-centrosymmetric heavy Fermion superconductivity in CeCoGe3 2007 "Graduate School of Science, Osaka University, Toyonaka, Osaka, Japan" "Int'l J.Mod.Phys., 21(2007)3238"
158155 PRB097174505 "P-induced SC. Pcr = 8.6 GPa, where Tc(onset) = 25.7 K. T = 118 K, T = 9.6 GPa. (dT/dP) = -6.25 K/GPa, P dependence of Hall coeff. measured at 40K" CaFeAsF Ca1Fe1As1F1 Ca 1 Fe 1 As 1 F 1 3 2018 ABCD oxypnictide "Fe-1111, Tetra- to Ortho- transition at 118 K" K 25.7 0 25.7 MPH158155 m3/C MRH158155 self-flux method Pressure-induced superconductivity in parent CaFeAsF single crystals 2018 "Center for High Pressure Science and Technology Advanced Research, Beijing 100094, China" "Phys.Rev.B, 97(2018)174505"
158156 PRB097174505 "P = 21.6 GPa. Hc2(T) = Hc2(0)(1-t)^n, Hc2 = 15-20 T for 18.5 < P < 27.7 GPa." CaFeAsF Ca1Fe1As1F1 Ca 1 Fe 1 As 1 F 1 3 2018 ABCD oxypnictide Fe-1111 K 15.5 15.5 T RES(0.9Rn) 15 MHC158156 self-flux method Pressure-induced superconductivity in parent CaFeAsF single crystals 2018 "Center for High Pressure Science and Technology Advanced Research, Beijing 100094, China" "Phys.Rev.B, 97(2018)174505"
158157 PRB098014518 "bulk modulus obtained from lattice const. SC, FM , and SC+FM phases investigated using loading and unloading conditions" RbEuFe4As4 Rb1Eu1Fe4As4 Rb 1 Eu 1 Fe 4 As 4 1 2018 GPa 50.7 ABC4D4 CaRb1144 P4/mmm A 3.889 13.3213 K 26.6 36.4 26.6 MPH158157 "See Phys.Rev.B, 93(2016)214503" Superconducting and magnetic phase diagram of RbEuFe4As4 and CsEuFe4As4 at high pressure 2018 "Department of Physics, University of Florida, Gainesville, Florida 32611, USA" "Phys.Rev.B, 98(2018)014518"
158158 PRB098014518 "bulk modulus obtained from lattice const. SC, FM , and SC+FM phases investigated using loading and unloading conditions" CsEuFe4As4 Cs1Eu1Fe4As4 Cs 1 Eu 1 Fe 4 As 4 1 2018 GPa 46.3 ABC4D4 CaRb1144 P4/mmm A 3.9004 13.6357 K 287 33.5 287 MPH158158 "See Phys.Rev.B, 93(2016)214503" Superconducting and magnetic phase diagram of RbEuFe4As4 and CsEuFe4As4 at high pressure 2018 "Department of Physics, University of Florida, Gainesville, Florida 32611, USA" "Phys.Rev.B, 98(2018)014518"
158159 PRB098014518 P-dependence of CsEuFe4As4(#158158) shown in MLAT158159 CsEuFe4As4 Cs1Eu1Fe4As4 Cs 1 Eu 1 Fe 4 As 4 1 2018 ABC4D4 K 287 33.5 287 MLAT158159 "See Phys.Rev.B, 93(2016)214503" Superconducting and magnetic phase diagram of RbEuFe4As4 and CsEuFe4As4 at high pressure 2018 "Department of Physics, University of Florida, Gainesville, Florida 32611, USA" "Phys.Rev.B, 98(2018)014518"
158160 PRB098014518 P-dependence of RbEuFe4As4(#158157) shown in MLAT158160 RbEuFe4As4 Rb1Eu1Fe4As4 Rb 1 Eu 1 Fe 4 As 4 1 2018 ABC4D4 K 26.6 36.4 26.6 MLAT158160 "See Phys.Rev.B, 93(2016)214503" Superconducting and magnetic phase diagram of RbEuFe4As4 and CsEuFe4As4 at high pressure 2018 "Department of Physics, University of Florida, Gainesville, Florida 32611, USA" "Phys.Rev.B, 98(2018)014518"
158161 PRB098024520 "P-induced SC.needle crystal. RRR = 330. Hc2(T) = Hc2(0)(1-t^n), n = 1.36. SC data at P = 1.3 GPa. Hc2 has 6-fold angular dependence in bc-plane" CrAs As1Cr1 As 1 Cr 1 3 2018 AB MnP distorted NiAs type at RT K 1.85 0 1.85 T "RES(0.5Rn), WHH" 1.03 T/K RES(0.5Rn) 0.77 MHC158161 uOhm.cm 1.5 "crystals by Sn-flux method. (Cr:As:Sn = 3:3:20) - in alumina crucible - in quartz tube - heat(650C,8h) - heat(1000C,15h)" Evidence for triplet superconductivity near an antiferromagnetic instability in CrAs 2018 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310058, China" "Phys.Rev.B, 98(2018)024520"
158162 PRB098064506 Pr1-xEuxPt4Ge12 Pr1Pt4Ge12 Pr 1 Pt 4 Ge 12 1 2018 AB4C12 skutterudite K 8.11 7.91 7.91 mJ/mol.K2 73.1 SP 185.2 SP "arc-melting, ANN" Short-range antiferromagnetic correlations in the superconducting state of filled skutterudite alloys Pr1-xEuxPt4Ge12 2018 "Department of Physics, Kent State University, Kent, Ohio 44242, USA" "Phys.Rev.B, 98(2018)064506"
158163 PRB098064506 Tn = T of SP-peak. Schottky peak = peak-T of Schottky term = 0.427 K. SP (beta) = 4.97 mJ/mol.K4 Pr1-xEuxPt4Ge12 Pr0.95Eu0.05Pt4Ge12 Pr 0.95 Eu 0.05 Pt 4 Ge 12 1 2018 AB4C12 skutterudite K 7.81 7.41 7.41 MPH158163 MSP158163 mJ/mol.K2 76.39 SP 188.1 SP "arc-melting, ANN" Short-range antiferromagnetic correlations in the superconducting state of filled skutterudite alloys Pr1-xEuxPt4Ge12 2018 "Department of Physics, Kent State University, Kent, Ohio 44242, USA" "Phys.Rev.B, 98(2018)064506"
158164 PRB098064506 Tn = T of SP-peak. Schottky peak = peak-T of Schottky term = 0.488 K. Pr1-xEuxPt4Ge12 Pr0.9Eu0.1Pt4Ge12 Pr 0.9 Eu 0.1 Pt 4 Ge 12 1 2018 AB4C12 skutterudite K 7.62 7.12 7.12 mJ/mol.K2 78.82 SP 187.1 SP "arc-melting, ANN" Short-range antiferromagnetic correlations in the superconducting state of filled skutterudite alloys Pr1-xEuxPt4Ge12 2018 "Department of Physics, Kent State University, Kent, Ohio 44242, USA" "Phys.Rev.B, 98(2018)064506"
158165 PRB098064506 Tn = T of SP-peak. Schottky peak = peak-T of Schottky term = 0.488 K. Pr1-xEuxPt4Ge12 Pr0.85Eu0.15Pt4Ge12 Pr 0.85 Eu 0.15 Pt 4 Ge 12 1 2018 AB4C12 skutterudite K 7.26 6.45 6.45 mJ/mol.K2 75.21 SP 190.2 SP "arc-melting, ANN" Short-range antiferromagnetic correlations in the superconducting state of filled skutterudite alloys Pr1-xEuxPt4Ge12 2018 "Department of Physics, Kent State University, Kent, Ohio 44242, USA" "Phys.Rev.B, 98(2018)064506"
158166 PRB098064506 Tn = T of SP-peak. Schottky peak = peak-T of Schottky term = 0.521 K. Pr1-xEuxPt4Ge12 Pr0.8Eu0.2Pt4Ge12 Pr 0.8 Eu 0.2 Pt 4 Ge 12 1 2018 AB4C12 skutterudite K 6.48 5.77 5.77 mJ/mol.K2 78.39 SP 190.2 SP "arc-melting, ANN" Short-range antiferromagnetic correlations in the superconducting state of filled skutterudite alloys Pr1-xEuxPt4Ge12 2018 "Department of Physics, Kent State University, Kent, Ohio 44242, USA" "Phys.Rev.B, 98(2018)064506"
158167 PRB098064506 Tn = T of SP-peak. Schottky peak = peak-T of Schottky term = 0.613 K. Pr1-xEuxPt4Ge12 Pr0.7Eu0.3Pt4Ge12 Pr 0.7 Eu 0.3 Pt 4 Ge 12 1 2018 AB4C12 skutterudite K 5.28 5.28 mJ/mol.K2 79.7 SP 191 SP "arc-melting, ANN" Short-range antiferromagnetic correlations in the superconducting state of filled skutterudite alloys Pr1-xEuxPt4Ge12 2018 "Department of Physics, Kent State University, Kent, Ohio 44242, USA" "Phys.Rev.B, 98(2018)064506"
158168 PRB098064506 Tn = T of SP-peak. Schottky peak = peak-T of Schottky term = 0.662 K. Pr1-xEuxPt4Ge12 Pr0.62Eu0.38Pt4Ge12 Pr 0.62 Eu 0.38 Pt 4 Ge 12 1 2018 AB4C12 skutterudite K mJ/mol.K2 97.83 SP 192 SP "arc-melting, ANN" Short-range antiferromagnetic correlations in the superconducting state of filled skutterudite alloys Pr1-xEuxPt4Ge12 2018 "Department of Physics, Kent State University, Kent, Ohio 44242, USA" "Phys.Rev.B, 98(2018)064506"
158169 PRB098064506 Tn = T of SP-peak. Schottky peak = peak-T of Schottky term = 0.645 K. Pr1-xEuxPt4Ge12 Pr0.5Eu0.5Pt4Ge12 Pr 0.5 Eu 0.5 Pt 4 Ge 12 1 2018 AB4C12 skutterudite K 2.09 2.09 mJ/mol.K2 99.34 SP 195.1 SP "arc-melting, ANN" Short-range antiferromagnetic correlations in the superconducting state of filled skutterudite alloys Pr1-xEuxPt4Ge12 2018 "Department of Physics, Kent State University, Kent, Ohio 44242, USA" "Phys.Rev.B, 98(2018)064506"
158170 PRB098064506 Tn = T of SP-peak. second AFM peak appears. Pr1-xEuxPt4Ge12 Pr0.3Eu0.7Pt4Ge12 Pr 0.3 Eu 0.7 Pt 4 Ge 12 1 2018 1 AB4C12 skutterudite K 0.5 MPH158163 mJ/mol.K2 105.8 SP 198.5 SP "arc-melting, ANN" Short-range antiferromagnetic correlations in the superconducting state of filled skutterudite alloys Pr1-xEuxPt4Ge12 2018 "Department of Physics, Kent State University, Kent, Ohio 44242, USA" "Phys.Rev.B, 98(2018)064506"
158171 PRB098064506 Tn = T of SP-peak. second AFM peak appears. Pr1-xEuxPt4Ge12 Pr0.2Eu0.8Pt4Ge12 Pr 0.2 Eu 0.8 Pt 4 Ge 12 1 2018 1.214 AB4C12 skutterudite K 0.5 mJ/mol.K2 125.9 SP 203.3 SP "arc-melting, ANN" Short-range antiferromagnetic correlations in the superconducting state of filled skutterudite alloys Pr1-xEuxPt4Ge12 2018 "Department of Physics, Kent State University, Kent, Ohio 44242, USA" "Phys.Rev.B, 98(2018)064506"
158172 PRB098064506 Tn = T of SP-peak. second AFM peak appears. Pr1-xEuxPt4Ge12 Pr0.1Eu0.9Pt4Ge12 Pr 0.1 Eu 0.9 Pt 4 Ge 12 1 2018 1.472 AB4C12 skutterudite K 0.5 mJ/mol.K2 131.5 SP 208.5 SP "arc-melting, ANN" Short-range antiferromagnetic correlations in the superconducting state of filled skutterudite alloys Pr1-xEuxPt4Ge12 2018 "Department of Physics, Kent State University, Kent, Ohio 44242, USA" "Phys.Rev.B, 98(2018)064506"
158173 PRB098064506 Tn = T of SP-peak. second AFM peak appears. Pr1-xEuxPt4Ge12 Eu1Pt4Ge12 Eu 1 Pt 4 Ge 12 1 2018 1.731 AB4C12 skutterudite K 0.5 mJ/mol.K2 216.8 SP 207.6 SP "arc-melting, ANN" Short-range antiferromagnetic correlations in the superconducting state of filled skutterudite alloys Pr1-xEuxPt4Ge12 2018 "Department of Physics, Kent State University, Kent, Ohio 44242, USA" "Phys.Rev.B, 98(2018)064506"
158174 PRB098094504 "P = 21 GPa(Tc goes to zero). R = R0 + AT^n, n = 2.0(P=0), n= 1.5(P=Pc=21 GPa), n=2.0(P=50 GPa)" NdFeAsO0.9F0.1 Nd1Fe1As1F0.1O0.9 Nd 1 Fe 1 As 1 F 0.1 O 0.9 3 2018 ABCD oxypnictide Fe-1111 K 45.4 45.4 MPH158174 K/GPa -2.2 uOhm.cm 448.5 m3/C MRH158174 single crystals grown from NaCl/KCl flux using molar ratio of sample:flux = 1:7. crystal size = 70*70*10 micron-m High-pressure phase diagram of NdFeAsO0.9F0.1: Disappearance of superconductivity on the verge of ferromagnetism from Nd moments 2018 "Center for High Pressure Science and Technology Advanced Research, Beijing, 100094, China" "Phys.Rev.B, 98(2018)094504"
158175 PRB098094505 "TF-muon-SR used for SC properties measurements. Two gaps ( large one in DB, small one is 0.11 meV). large (86%), small(14%)" LuxZr1-xB12 Lu0.04Zr0.96B12 Lu 0.04 Zr 0.96 B 12 1 2018 AB2 AlB2 K 4.09 4.09 um muon-SR 0.198 meV 0.76 16 "mixture(amorphous B, Lu2O3, ZrO2) - press into tablets - heat(1650C, in vac) - crush - tablets - heat(1650C) - crush - tablets - SIN(1750C, 1h)" Observation of a crossover from nodal to gapped superconductivity in LuxZr1-xB12 2018 "Department of Physics, University of Oxford, Clarendon Laboratory, Parks Road, Oxford OX1 3PU, United Kingdom" "Phys.Rev.B, 98(2018)094505"
158176 PRB098094505 "TF-muon-SR used for SC properties measurements. Two gaps ( large one in DB, small one is 0.135 meV). large (88%), small(12%)" LuxZr1-xB12 Lu0.07Zr0.93B12 Lu 0.07 Zr 0.93 B 12 1 2018 AB2 AlB2 K 3.64 3.64 um muon-SR 261 meV 0.78 16 "(crushedsingle crystals of LuB12 & ZrB12) - mix - SIN(1750C, in vac)" Observation of a crossover from nodal to gapped superconductivity in LuxZr1-xB12 2018 "Department of Physics, University of Oxford, Clarendon Laboratory, Parks Road, Oxford OX1 3PU, United Kingdom" "Phys.Rev.B, 98(2018)094505"
158177 PRB098094505 "TF-muon-SR used for SC properties measurements. Two gaps ( large one in DB, small one is 0.151 meV). large (90%), small(10%)" LuxZr1-xB12 Lu0.17Zr0.83B12 Lu 0.17 Zr 0.83 B 12 1 2018 AB2 AlB2 K 3.41 3.41 um muon-SR 0.366 meV 0.66 16 "mixture(amorphous B, Lu2O3, ZrO2) - press into tablets - heat(1650C, in vac) - crush - tablets - heat(1650C) - crush - tablets - SIN(1750C, 1h)" Observation of a crossover from nodal to gapped superconductivity in LuxZr1-xB12 2018 "Department of Physics, University of Oxford, Clarendon Laboratory, Parks Road, Oxford OX1 3PU, United Kingdom" "Phys.Rev.B, 98(2018)094505"
158178 PRB098094505 "TF-muon-SR used for SC properties measurements. Two gaps ( large one in DB, small one is 0.006 meV). large (10%), small(90%)" LuxZr1-xB12 Lu0.8Zr0.2B12 Lu 0.8 Zr 0.2 B 12 1 2018 AB2 AlB2 K 0.55 0.55 um muon-SR 0.621 meV 0.087 16 "mixture(amorphous B, Lu2O3, ZrO2) - press into tablets - heat(1650C, in vac) - crush - tablets - heat(1650C) - crush - tablets - SIN(1750C, 1h)" Observation of a crossover from nodal to gapped superconductivity in LuxZr1-xB12 2018 "Department of Physics, University of Oxford, Clarendon Laboratory, Parks Road, Oxford OX1 3PU, United Kingdom" "Phys.Rev.B, 98(2018)094505"
158179 PRB098094519 Thermopower and Thermal conductivity has thermal hysteresis due to structural transition from P3[-]1 to P1[-] at 250 K Ir1-xRhxTe2 Ir1Te2 Ir 1 Te 2 1 2018 AB2 CdI2 P3[-]m1 A 3.9294 5.3974 trigonal symmetry K 2 mJ/mol.K2 3.77 SP 215 SP W/K.m 18 MTHC158179 uV/K 2.37 MTP158179 solid state reaction method Thermoelectric studies of Ir1-xRhxTe2 (0 =< x =< 0.3) 2018 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 98(2018)094519"
158180 PRB098094519 Thermopower and Thermal conductivity has thermal hysteresis due to structural transition from P3[-]1 to P1[-] at 180 K Ir1-xRhxTe2 Ir0.9Rh0.1Te2 Ir 0.9 Rh 0.1 Te 2 1 2018 AB2 CdI2 P3[-]m1 A 3.9284 5.3945 trigonal symmetry K 2 mJ/mol.K2 6.47 SP 210 SP W/K.m 11.6 MTHC158180 uV/K 2.74 MTP158180 solid state reaction method Thermoelectric studies of Ir1-xRhxTe2 (0 =< x =< 0.3) 2018 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 98(2018)094519"
158181 PRB098094519 Ir1-xRhxTe2 Ir0.8Rh0.2Te2 Ir 0.8 Rh 0.2 Te 2 1 2018 AB2 CdI2 P3[-]m1 A 3.9272 5.3962 trigonal symmetry K 2.45 2.6 2.525 mJ/mol.K2 8.06 SP 201 SP W/K.m 15.4 MTHC158181 uV/K 2.95 MTP158181 solid state reaction method Thermoelectric studies of Ir1-xRhxTe2 (0 =< x =< 0.3) 2018 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 98(2018)094519"
158182 PRB098094519 not SC for T > 2 K. Ir1-xRhxTe2 Ir0.7Rh0.3Te2 Ir 0.7 Rh 0.3 Te 2 1 2018 AB2 CdI2 P3[-]m1 A 3.9255 5.3927 trigonal symmetry K 2 mJ/mol.K2 8.6 SP 198 SP W/K.m 13.5 MTHC158182 uV/K 3.12 MTP158182 solid state reaction method Thermoelectric studies of Ir1-xRhxTe2 (0 =< x =< 0.3) 2018 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 98(2018)094519"
158183 PRB098094525 Einstein T of As-Pd atomic pairs = 220 K. SC in BaPd2As2 comes from structural instability. CeMg2Si2 type sample not SC. BaPd2As2 Ba1Pd2As2 Ba 1 Pd 2 As 2 1 2018 AB2C2 ThCr2Si2 K 3.85 3.85 MLAT158183 heat treatment in quartz tube Temperature-dependent local structure and superconductivity of BaPd2As2 and SrPd2As2 2018 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 98(2018)094525"
158184 PRB098094525 Einstein T = 265 K from EXAFS analysis SrPd2As2 Sr1Pd2As2 Sr 1 Pd 2 As 2 1 2018 AB2C2 ThCr2Si2 K 0.92 0.92 MLAT158184 265 EXAFS heat treatment in quartz tube Temperature-dependent local structure and superconductivity of BaPd2As2 and SrPd2As2 2018 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 98(2018)094525"
158185 PRB098094525 Einstein T = 276 K from EXAFS analysis CaPd2As2 Ca1Pd2As2 Ca 1 Pd 2 As 2 1 2018 AB2C2 ThCr2Si2 K 1.27 1.27 276 EXAFS heat treatment in quartz tube Temperature-dependent local structure and superconductivity of BaPd2As2 and SrPd2As2 2018 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700-8530, Japan" "Phys.Rev.B, 98(2018)094525"
158186 PRB098104503 "(dC/Tc) = 0.21 J/mol.K2. gama estimated assuming (dC/gamma*Tc) = 1.43(BCS). k = 108, 67 for and direction, Anisotropy = 1.7. magnetic data shows for H//ab." RbEuFe4As4 Rb1Eu1Fe4As4 Rb 1 Eu 1 Fe 4 As 4 3 2018 emu/mol.G 0.034 K/mol.G 7.476 my-B/Eu 7.75 24.18 15 ABC4D4 CaRb1144 P4/mmm A 3.882 13.273 K 36.8 36.8 36.8 T "RES(0.9Rn), linear approx." 250 160 T/K RES(0.9Rn) 7 4.2 MHC158186 nm from Hc2 1.4 0.92 MSP158186 mJ/mol.K2 147 SP single crystals grown using RbAs flux method. crystal sze= 0.8*0.8*60 micron-m Anisotropic superconductivity and magnetism in single-crystal RbEuFe4As4 2018 "Materials Science Division, Argonne National Laboratory, 9700 S. Cass Avenue, Argonne, Illinois 60439, USA" "Phys.Rev.B, 98(2018)104503"
158187 PRB098104506 "demag(N = 0.25), RRR =1.04, Debye-T = 300K from R(T). SP (beta) = 0.232 mJ/mol.K4, (delta) = 0.44 uJ/mol.K6. Energy gap = 0.72 meV, penet = 599 nm, M* = 14.5 m from muon-SR. Hc(0) = 58.9 mT." Re3Ta Re3Ta1 Re 3 Ta 1 1 2018 AB3 alpha-Mn I4[-]3m A 9.6907 K 4.6 4.65 4.7 4.68 4.65 mT M-H curve 2.13 T "WHH," 7.3 T/K RES 2.25 MHC158187 nm from Hc2 6.71 nm from Hc1 588 meV 0.742 3.68 14 MSP158187 mJ/mol.K2 13.1 SP 321 SP uOhm.cm 248.52 "Re(4N),Ta(5N)" "arc-melting(tri-arc furnace) - ANN(800C,1w, in quartz tube, vac)" Superconducting and normal-state properties of the noncentrosymmetric superconductor Re3Ta 2018 "Physics Department, University of Warwick, Coventry CV4 7AL, United Kingdom" "Phys.Rev.B, 98(2018)104506"
158188 PRB098134506 Two phases (nondimerized ( P3[-]m1) and dimerized(P1[-] phaseusing atomic pair distribution function (PDF) method. dimerized phase (SG = P1[1]) = 25%. Ir1-xRhxTe2 Ir0.88Rh0.12Te2 Ir 0.88 Rh 0.12 Te 2 1 2018 AB2 P3[-m1 space group = P1[-] K MPH158188 "mixture - pellet - alumina crucible - sealed in quartz tube - SIN(1000C,15h)" Phase separation at the dimer-superconductor transition in Ir1-xRhxTe2 2018 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 98(2018)134506"
158189 PRB098134506 Ir1-xRhxTe2 Ir0.8Rh0.2Te2 Ir 0.8 Rh 0.2 Te 2 1 2018 AB2 P3[-m1 K MTC158188 "mixture - pellet - alumina crucible - sealed in quartz tube - SIN(1000C,15h)" Phase separation at the dimer-superconductor transition in Ir1-xRhxTe2 2018 "Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA" "Phys.Rev.B, 98(2018)134506"
158190 PRB098134512 SP (dC/Tc) = 10 mJ/mol.K. Spin fluctuation effect disappears at x = 0.17 and conventional SC appears for x > X. Cr0.8Ru0.2 Cr0.8Ru0.2 Cr 0.8 Ru 0.2 3 2018 A K 1.35 1.54 1.35 MPH158190 MSP158190 mJ/mol.K2 6.2 "arc-zoning method. as-cast ingot - alumina Bridgman crucible - heat(1700C, in vac) - heat(1900C9. withdrawn from heat zone at a rate of 5mm/h" Suppression of antiferromagnetic spin fluctuations in superconducting Cr0.8Ru0.2 2018 "Physics Engineering Department, Istanbul Technical University, 34469, Maslak, Istanbul, Turkey" "Phys.Rev.B, 98(2018)134512"
158191 PRB098140506 T = 490 K. CDW anomaly = 20 J/mol.K. EuRbFe4As4 Eu1Rb1Fe4As4 Eu 1 Rb 1 Fe 4 As 4 3 2018 ABC4D4 CaRb1144 K 36.5 36.5 MGAP158191 nm far infrared reflectivity 420 cm(-1) 80 3.17 2 Unique interplay between superconducting and ferromagnetic orders in EuRbFe4As4 2018 "Moscow Institute of Physics and Technology, Dolgoprudny, Moscow 141700, Russia" "Phys.Rev.B, 98(2018)140506"
158193 NATP0130967 T = 318 K. SP (beta) = 1.13 mJ/mol.K4. Lu(Pt1-xPdx)2In Lu1Pt2In1 Lu 1 Pt 2 In 1 1 2017 ABC2 L2<1> "cubic Heusler, RT2X type" K 0.45 0.45 MSP158195 mJ/mol.K2 4.29 SP arc-melting Charge density wave quantum critical point with strong enhancement of superconductivity 2017 "Max Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Nat.Physics, 13(2017)967"
158194 NATP0130967 T = 155 K. SP (beta) = 1.02 mJ/mol.K4. Lu(Pt1-xPdx)2In Lu1Pt1.6Pd0.4In1 Lu 1 Pt 1.6 Pd 0.4 In 1 1 2017 ABC2 L2<1> "cubic Heusler, RT2X type" K 0.42 0.42 MCDW158193 mJ/mol.K2 4.43 SP arc-melting Charge density wave quantum critical point with strong enhancement of superconductivity 2017 "Max Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Nat.Physics, 13(2017)967"
158195 NATP0130967 T = 80.3 K. SP (beta) = 1.12 mJ/mol.K4. Lu(Pt1-xPdx)2In Lu1Pt1.2Pd0.8In1 Lu 1 Pt 1.2 Pd 0.8 In 1 1 2017 ABC2 L2<1> "cubic Heusler, RT2X type" K 0.67 0.67 MSP158195 mJ/mol.K2 5.09 SP arc-melting Charge density wave quantum critical point with strong enhancement of superconductivity 2017 "Max Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Nat.Physics, 13(2017)967"
158196 NATP0130967 T = 68.6 K. SP (beta) = 1.55 mJ/mol.K4. Lu(Pt1-xPdx)2In Lu1Pt0.96Pd1.04In1 Lu 1 Pt 0.96 Pd 1.04 In 1 1 2017 ABC2 L2<1> "cubic Heusler, RT2X type" K 1 1 MGAM158196 MSP158195 mJ/mol.K2 5.63 SP arc-melting Charge density wave quantum critical point with strong enhancement of superconductivity 2017 "Max Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Nat.Physics, 13(2017)967"
158197 NATP0130967 SP (beta) = 1.54 mJ/mol.K4. Lu(Pt1-xPdx)2In Lu1Pt0.92Pd1.08In1 Lu 1 Pt 0.92 Pd 1.08 In 1 1 2017 ABC2 L2<1> "cubic Heusler, RT2X type" K 1.103 1.103 MTC158197 MSP158195 mJ/mol.K2 5.89 SP arc-melting Charge density wave quantum critical point with strong enhancement of superconductivity 2017 "Max Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Nat.Physics, 13(2017)967"
158198 NATP0130967 SP (beta) = 1.46 mJ/mol.K4. T = 0 for x = 0.58 where Tc = 1.10 K (max) and SC volume fraction = 80 %. Lu(Pt1-xPdx)2In Lu1Pt0.88Pd1.12In1 Lu 1 Pt 0.88 Pd 1.12 In 1 1 2017 ABC2 L2<1> "cubic Heusler, RT2X type" K 1.109 1.109 MBET158198 MSP158199 mJ/mol.K2 5.96 SP arc-melting Charge density wave quantum critical point with strong enhancement of superconductivity 2017 "Max Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Nat.Physics, 13(2017)967"
158199 NATP0130967 SP (beta) = 0.667 mJ/mol.K4. Lu(Pt1-xPdx)2In Lu1Pt0.72Pd1.28In1 Lu 1 Pt 0.72 Pd 1.28 In 1 1 2017 ABC2 L2<1> "cubic Heusler, RT2X type" K 0.903 0.903 MSP158199 mJ/mol.K2 6.37 SP arc-melting Charge density wave quantum critical point with strong enhancement of superconductivity 2017 "Max Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Nat.Physics, 13(2017)967"
158200 NATP0130967 SP (beta) = 0.857 mJ/mol.K4. Lu(Pt1-xPdx)2In Lu1Pt0.6Pd1.4In1 Lu 1 Pt 0.6 Pd 1.4 In 1 1 2017 ABC2 L2<1> "cubic Heusler, RT2X type" K 0.822 0.822 MSP158199 mJ/mol.K2 6.07 SP arc-melting Charge density wave quantum critical point with strong enhancement of superconductivity 2017 "Max Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Nat.Physics, 13(2017)967"
158201 NATP0130967 SP (beta) = 0.634 mJ/mol.K4. Lu(Pt1-xPdx)2In Lu1Pt0.4Pd1.6In1 Lu 1 Pt 0.4 Pd 1.6 In 1 1 2017 ABC2 L2<1> "cubic Heusler, RT2X type" K 0.399 0.399 mJ/mol.K2 6.29 SP arc-melting Charge density wave quantum critical point with strong enhancement of superconductivity 2017 "Max Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Nat.Physics, 13(2017)967"
158202 NATP0130967 not SC down to 0.35 K (Tc < 0.35 K). SP (beta) = 0.462 mJ/mol.K4. Lu(Pt1-xPdx)2In Lu1Pd2In1 Lu 1 Pd 2 In 1 1 2017 ABC2 L2<1> "cubic Heusler, RT2X type" K 0.35 MSP158199 mJ/mol.K2 6.18 SP arc-melting Charge density wave quantum critical point with strong enhancement of superconductivity 2017 "Max Planck Institute for Chemical Physics of Solids, Nothnitzer Strasse 40, 01187 Dresden, Germany" "Nat.Physics, 13(2017)967"
158203 PRL109186402 "CeCo(In,Sn,Hg)5" Ce1Co1In4.91Sn0.09 Ce 1 Co 1 In 4.91 Sn 0.09 1 2012 ABC5 HoCoGa5 K 1.19 1.19 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158204 PRL109186402 "CeCo(In,Sn,Hg)5" Ce1Co1In4.9095Sn0.0899Hg0.025 Ce 1 Co 1 In 4.9095 Sn 0.0899 Hg 0.025 1 2012 ABC5 HoCoGa5 K 1.24 1.24 MPH158204 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158205 PRL109186402 "CeCo(In,Sn,Hg)5" Ce1Co1In4.8488Sn0.0889Hg0.062 Ce 1 Co 1 In 4.8488 Sn 0.0889 Hg 0.062 1 2012 1.27 ABC5 HoCoGa5 K 0.77 0.77 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158206 PRL109186402 "CeCo(In,Sn,Hg)5" Ce1Co1In4.7867Sn0.0877Hg0.126 Ce 1 Co 1 In 4.7867 Sn 0.0877 Hg 0.126 1 2012 2.88 ABC5 HoCoGa5 K 0 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158207 PRL109186402 "Ce(Co,Pt)(In,Hg)5" Ce1Co0.91Pt0.09In5 Ce 1 Co 0.91 Pt 0.09 In 5 1 2012 ABC5 HoCoGa5 K 1.11 1.11 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158208 PRL109186402 "Ce(Co,Pt)(In,Hg)5" Ce1Co0.91Pt0.09In4.975Hg0.025 Ce 1 Co 0.91 Pt 0.09 In 4.975 Hg 0.025 1 2012 ABC5 HoCoGa5 K 1.41 1.41 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158209 PRL109186402 "Ce(Co,Pt)(In,Hg)5" Ce1Co0.91Pt0.09In4.962Hg0.038 Ce 1 Co 0.91 Pt 0.09 In 4.962 Hg 0.038 1 2012 ABC5 HoCoGa5 K 1.36 1.36 MPH158209 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158210 PRL109186402 "Ce(Co,Pt)(In,Hg)5" Ce1Co0.91Pt0.09In4.938Hg0.062 Ce 1 Co 0.91 Pt 0.09 In 4.938 Hg 0.062 1 2012 1.42 ABC5 HoCoGa5 K 1.56 1.56 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158211 PRL109186402 "Ce(Co,Pt)(In,Hg)5" Ce1Co0.91Pt0.09In4.85Hg0.15 Ce 1 Co 0.91 Pt 0.09 In 4.85 Hg 0.15 1 2012 4.13 ABC5 HoCoGa5 K 0 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158212 PRL109186402 "CeCo(In,Sn)5" Ce1Co1In4.972Sn0.028 Ce 1 Co 1 In 4.972 Sn 0.028 1 2012 ABC5 HoCoGa5 K 1.93 1.93 uOhm.cm 3 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158213 PRL109186402 "CeCo(In,Sn)5" Ce1Co1In4.91Sn0.09 Ce 1 Co 1 In 4.91 Sn 0.09 1 2012 ABC5 HoCoGa5 K 1.22 1.22 uOhm.cm 5.52 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158214 PRL109186402 "CeCo(In,Sn)5" Ce1Co1In4.85Sn0.15 Ce 1 Co 1 In 4.85 Sn 0.15 1 2012 ABC5 HoCoGa5 K 0.44 0.44 uOhm.cm 8.62 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158215 PRL109186402 "CeCo(In,Sn)5" Ce1Co1In4.821Sn0.179 Ce 1 Co 1 In 4.821 Sn 0.179 1 2012 ABC5 HoCoGa5 K 0 uOhm.cm 9.73 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158216 PRL109186402 T2 shows Tc from C(T). "Ce(Co,Pt)In5" Ce1Co1In5 Ce 1 Co 1 In 5 1 2012 ABC5 HoCoGa5 K 2.31 2.29 2.31 uOhm.cm 1.83 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158217 PRL109186402 T2 shows Tc from C(T). "Ce(Co,Pt)In5" Ce1Co0.96Pt0.04In5 Ce 1 Co 0.96 Pt 0.04 In 5 1 2012 ABC5 HoCoGa5 K 1.76 1.74 1.76 uOhm.cm 2.49 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158218 PRL109186402 T2 shows Tc from C(T). "Ce(Co,Pt)In5" Ce1Co0.91Pt0.09In5 Ce 1 Co 0.91 Pt 0.09 In 5 1 2012 ABC5 HoCoGa5 K 1.05 1.09 1.05 uOhm.cm 5 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158219 PRL109186402 "Ce(Co,Pt)In5" Ce1Co0.83Pt0.17In5 Ce 1 Co 0.83 Pt 0.17 In 5 1 2012 ABC5 HoCoGa5 K 0.28 0.28 uOhm.cm 7.51 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158220 PRL109186402 "Ce(Co,Pt)In5" Ce1Co0.78Pt0.22In5 Ce 1 Co 0.78 Pt 0.22 In 5 1 2012 ABC5 HoCoGa5 K 0 uOhm.cm 8.33 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158221 PRL109186402 "Ce(Co,Pt)In5" Ce1Co0.74Pt0.26In5 Ce 1 Co 0.74 Pt 0.26 In 5 1 2012 ABC5 HoCoGa5 K 0 uOhm.cm 11.2 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158222 PRL109186402 CeCoIn-xCdx Ce1Co1In5 Ce 1 Co 1 In 5 1 2012 ABC5 HoCoGa5 K 2.26 2.26 MTC158222 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158223 PRL109186402 CeCoIn-xCdx Ce1Co1In4.95Cd0.05 Ce 1 Co 1 In 4.95 Cd 0.05 1 2012 ABC5 HoCoGa5 K 1.83 1.83 MTC158223 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158224 PRL109186402 CeCoIn-xCdx Ce1Co1In4.925Cd0.075 Ce 1 Co 1 In 4.925 Cd 0.075 1 2012 ABC5 HoCoGa5 K 0.44 0.44 MTC158224 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158225 PRL109186402 CeCoIn-xCdx Ce1Co1In4.9Cd0.1 Ce 1 Co 1 In 4.9 Cd 0.1 1 2012 ABC5 HoCoGa5 K 0.4 MTC158225 Electronic Tuning and Uniform Superconductivity in CeCoIn5 2012 "Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA" "Phys.Rev.Lett., 109(2012)186402"
158226 PRL114027003 "T-dependence of penet(London) measured by tunnel diode resonator (TDR). penet(0) not given. d[penet] = A*T^n, n = 2 for all doping" Ce1-xLaxCoIn5 Ce0.98La0.02Co1In5 Ce 0.98 La 0.02 Co 1 In 5 3 2015 ABC5 HoCoGa5 K 2.1 2.1 MTC158226 "single crystals grown by In-flux method.," Nodal to Nodeless Superconducting Energy-Gap Structure Change Concomitant with Fermi-Surface Reconstruction in the Heavy-Fermion Compound CeCoIn5 2015 "Ames Laboratory and Department of Physics & Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.Lett., 114(2015)027003"
158227 PRL114027003 "T-dependence of penet(London) measured by tunnel diode resonator (TDR). penet(0) not given. d[penet] = A*T^n, n = 2 for all doping" Ce1-xNdxCoIn5 Ce0.98Nd0.02Co1In5 Ce 0.98 Nd 0.02 Co 1 In 5 3 2015 ABC5 HoCoGa5 K 2.01 2.01 MTC158227 "single crystals grown by In-flux method.," Nodal to Nodeless Superconducting Energy-Gap Structure Change Concomitant with Fermi-Surface Reconstruction in the Heavy-Fermion Compound CeCoIn5 2015 "Ames Laboratory and Department of Physics & Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.Lett., 114(2015)027003"
158228 PRL114027003 "T-dependence of penet(London) measured by tunnel diode resonator (TDR). penet(0) not given. d[penet] = A*T^n, n = 2 for x =< 0.002, n>2 for x >=0.015" Ce1-xYbxCoIn5 Ce0.985Yb0.015Co1In5 Ce 0.985 Yb 0.015 Co 1 In 5 3 2015 ABC5 HoCoGa5 K 2.03 2.03 MTC158228 "single crystals grown by In-flux method.," Nodal to Nodeless Superconducting Energy-Gap Structure Change Concomitant with Fermi-Surface Reconstruction in the Heavy-Fermion Compound CeCoIn5 2015 "Ames Laboratory and Department of Physics & Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.Lett., 114(2015)027003"
158229 PRL121037004 "P-induced SC. Tc = 1.04 K at Pc= 86 GPa.Tc measured by R(T) (dR/dT)-max to zero line, and SUS(real part of ac-SUS. dTc/dH = 1.3 mK/Oe for 116 GPa." Yb Yb1 Yb 1 1 2018 A 1 "fcc, at RT, P=0. for P = 202 GPa, hexagonal" K 1.04 0 1.04 MTC158229 thin square shaped Yb (3N) Pressure-Induced Superconductivity in Elemental Ytterbium Metal 2018 "Department of Physics, Washington University, St. Louis, Missouri 63130, USA" "Phys.Rev.Lett., 121(2018)037004"
158230 PRX008031017 "P-induced SC. Tc(max) = 1.62 K (DB) atP = 9.4 kbar. P = 10 kbar (Tn = 0). R(T)-R0= A*T^1.5, A=1.55E-3 uOhm.cm/K2 & n = 1.91." CrAs1-xPx As1Cr1 As 1 Cr 1 3 2018 265 AB MnP A 3.4591 6.189 a-axis value not given K 0 MPH158230 mJ/mol.K2 8.21 SP Sn-flux method Evolution of Magnetic Double Helix and Quantum Criticality near a Dome of Superconductivity in CrAs 2018 "Neutron Scattering Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev. X, 8(2018)031017"
158231 PRX008031017 "R(T)-R0= A*T^1.5, A=4.93E-3 uOhm.cm/K2 & n = 1.63." CrAs1-xPx Cr1As0.965P0.035 Cr 1 As 0.965 P 0.035 3 2018 244 AB MnP A 3.4367 6.2075 a-axis value not given K 10 mJ/mol.K2 7.59 SP Sn-flux method Evolution of Magnetic Double Helix and Quantum Criticality near a Dome of Superconductivity in CrAs 2018 "Neutron Scattering Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev. X, 8(2018)031017"
158232 PRX008031017 "no anomaly in R(T), AFM not appears. R(T)-R0= A*T^1.5, A=12.8E-3 uOhm.cm/K2 & n = 1.58." CrAs1-xPx Cr1As0.95P0.05 Cr 1 As 0.95 P 0.05 3 2018 AB MnP A 3.416 6.2158 a-axis value not given K 10 mJ/mol.K2 32.2 SP Sn-flux method Evolution of Magnetic Double Helix and Quantum Criticality near a Dome of Superconductivity in CrAs 2018 "Neutron Scattering Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev. X, 8(2018)031017"
158233 PRX008031017 "R(T)-R0= A*T^1.5, A=18.4E-3 uOhm.cm/K2 & n = 1.79." CrAs1-xPx Cr1As0.9P0.1 Cr 1 As 0.9 P 0.1 3 2018 AB MnP K 10 mJ/mol.K2 29.6 SP Sn-flux method Evolution of Magnetic Double Helix and Quantum Criticality near a Dome of Superconductivity in CrAs 2018 "Neutron Scattering Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev. X, 8(2018)031017"
158234 PRX008031017 "R(T)-R0= A*T^1.5, A=26.7E-3 uOhm.cm/K2 & n = 1.95." CrAs1-xPx Cr1As0.8P0.2 Cr 1 As 0.8 P 0.2 3 2018 AB MnP K 10 mJ/mol.K2 26.7 SP Sn-flux method Evolution of Magnetic Double Helix and Quantum Criticality near a Dome of Superconductivity in CrAs 2018 "Neutron Scattering Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA" "Phys.Rev. X, 8(2018)031017"
158235 SCIA0047969 demag N = 0.504. Hc(0) = 169 mT. H(P) = 10.7 T. GL(kappa) = 48. beta(SP) = 0.178 mJ/mol.K4. (dC/gamma*Tc) = 1.56. DOS = 1.52 states/eV.fu TaRh2B2 Ta1Rh2B2 Ta 1 Rh 2 B 2 1 2018 AB2C2 P3<1> 144 A 4.6994 8.766 K 5.8 5.8 mT "M-H curve, demag-correction" 9.56 T "RES(0.5Rn), WHH" 11.7 T/K RES(0.5Rn) 2.91 MHC158235 A from Hc2 53 A Hc1 2580 meV 0.98 3.98 14 mJ/mol.K2 5.8 SP 379 SP "Ta(3N),Nb(3N),Rh(3N),B" "mixture(Ta(Nb):Rh:B=1:1.9:2.1) - pellet - heat(1200C,6h) - arc-melting - ANN(1100C,1w, in silica tube)" TaRh2B2 and NbRh2B2: Superconductors with a chiral noncentrosymmetric crystal structure 2018 "Department of Chemistry, Princeton University, Princeton, NJ 08544, USA." "Sci.Advances, 4(2018)7969"
158236 SCIA0047969 demag N = 0.448. Hc(0) = 248 mT. H(P) = 14.1 T. GL(kappa) = 51. beta(SP) = 0.203 mJ/mol.K4. (dC/gamma*Tc) = 1.60. DOS = 2.21 states/eV.fu NbRh2B2 Nb1Rh2B2 Nb 1 Rh 2 B 2 1 2018 AB2C2 P3<1> 144 A 4.716 8.749 K 7.6 7.6 mT "M-H curve, demag-correction" 13.5 T "RES(0.5Rn), WHH" 18 T/K RES(0.5Rn) 3.42 MHC158236 A from Hc2 43 A Hc1 2190 meV 1.4 4.28 14 mJ/mol.K2 8.8 SP 362 SP "Ta(3N),Nb(3N),Rh(3N),B" "mixture(Ta(Nb):Rh:B=1:1.9:2.1) - pellet - heat(1200C,6h) - arc-melting - ANN(1100C,1w, in silica tube)" TaRh2B2 and NbRh2B2: Superconductors with a chiral noncentrosymmetric crystal structure 2018 "Department of Chemistry, Princeton University, Princeton, NJ 08544, USA." "Sci.Advances, 4(2018)7969"
158237 SCICM0600083 "Jc(2 K, H=0) = 2.2E+5 A/cm2 from M-H hysteresis and Bean's model" RbCa2Fe4As4F2 Rb1Ca2Fe4As4F2 Rb 1 Ca 2 Fe 4 As 4 F 2 1 2017 AB2C2D4E4 I4/mmm 139 A 3.8716 31.667 12442-structure type K 30.5 30.5 30.5 90 T RES(0.9Rn) T/K RES(0.9Rn) 13.9 MHC158237 "Rb(2N),Cs(2N),Ca(2N),Fe(4N8),As(5N),CaF2" "solid state reaction. mixture - alumina tube, Ta-tube - quartz ampoule - heat(1203 K,5h)" "Crystal structure and superconductivity at about 30 K in ACa2Fe4As4F2 (A = Rb, Cs)" 2017 "Department of Physics and Stat Key Lab of Silicon Materials, Zhejiang University, Hangzhou 310027, China" "Sci.China Mater., 60(2017)83"
158238 SCICM0600083 "Jc(2 K, H=0) = 5.2E+5 A/cm2 from M-H hysteresis and Bean's model" CsCa2Fe4As4F2 Cs1Ca2Fe4As4F2 Cs 1 Ca 2 Fe 4 As 4 F 2 1 2017 AB2C2D4E4 I4/mmm 139 A 3.8807 32.363 12442-structure type K 28.5 28.2 28.2 65 T RES(0.9Rn) T/K RES(0.9Rn) 14.2 MHC158238 "Rb(2N),Cs(2N),Ca(2N),Fe(4N8),As(5N),CaF2" "solid state reaction. mixture - alumina tube, Ta-tube - quartz ampoule - heat(1203 K,5h)" "Crystal structure and superconductivity at about 30 K in ACa2Fe4As4F2 (A = Rb, Cs)" 2017 "Department of Physics and Stat Key Lab of Silicon Materials, Zhejiang University, Hangzhou 310027, China" "Sci.China Mater., 60(2017)83"
158239 SCICM0600083 KCa2Fe4As4F2 K1Ca2Fe4As4F2 K 1 Ca 2 Fe 4 As 4 F 2 1 2017 AB2C2D4E4 I4/mmm 139 A 3.8684 31.007 12442-structure type K "Rb(2N),Cs(2N),Ca(2N),Fe(4N8),As(5N),CaF2" "solid state reaction. mixture - alumina tube, Ta-tube - quartz ampoule - heat(1203 K,5h)" "Crystal structure and superconductivity at about 30 K in ACa2Fe4As4F2 (A = Rb, Cs)" 2017 "Department of Physics and Stat Key Lab of Silicon Materials, Zhejiang University, Hangzhou 310027, China" "Sci.China Mater., 60(2017)83"
158240 SST031055012 "Sr3SnO shows Tc = 3.7 K , due to excess Sn" Sr3-xSnO Sr3Sn1O1 Sr 3 Sn 1 O 1 1 2018 ABC3 K 2 Sr(3N) "starting composition (3.0Sn + SnO) using Sr(3N), alumina crucible - heat(800C,3h, in quartz tube(vac))" Controlled synthesis of the antiperovskite oxide superconductor Sr3-xSnO 2018 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "Supercond.Sci.Technol., 31(2018)055012"
158241 SST031055012 using 99.9 % Sn Sr3-xSnO Sr2.5Sn1O1 Sr 2.5 Sn 1 O 1 1 2018 ABC3 K 4.7 4.7 Sr(3N) "starting composition (2.5Sn + SnO) using Sr(3N), alumina crucible - heat(825C,3h, in quartz tube(30 kPa-Ar))" Controlled synthesis of the antiperovskite oxide superconductor Sr3-xSnO 2018 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "Supercond.Sci.Technol., 31(2018)055012"
158242 SST031055012 using 99.99 % Sn Sr3-xSnO Sr2.5Sn1O1 Sr 2.5 Sn 1 O 1 1 2018 ABC3 A 5.137 12.097 Sr2.5SnO phase K 5.4 5.4 Sr(4N) "starting composition (2.5Sn + SnO) using Sr(4N), alumina crucible - heat(825C,3h, in quartz tube(30 kPa-Ar))" Controlled synthesis of the antiperovskite oxide superconductor Sr3-xSnO 2018 "Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan" "Supercond.Sci.Technol., 31(2018)055012"
158243 SST031065001 e-ph = 0.67. DOS = 3.02 states/eV. T = 73.1 K from R(T) anomaly. 2H-PdxTaS2 Pd0.01Ta1S2 Pd 0.01 Ta 1 S 2 1 2018 AB2 P31c 159 A 3.3142 12.113 "hexagonal , distorted 2H-structure" K 3.02 3.02 mJ/mol.K2 12.62 SP 192.2 SP "Pd(4N),Ta(3N),S(2N5)" "mixture - pellet - sealed in quartz tube(vac) - heat(923K,2d) - air quenched to RT - reground - pellet - sealed in quartz tube - heat(1023K, 2d) - ANN(923K,2w) - Q to RT" Superconductivity in palladium-doped 2H-TaS2 2018 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People?s Republic of China" "Supercond.Sci.Technol., 31(2018)065001"
158244 SST031065001 e-ph = 0.71. DOS = 3.70 states/eV. T = 72.7 K from R(T) anomaly. 2H-PdxTaS2 Pd0.02Ta1S2 Pd 0.02 Ta 1 S 2 1 2018 AB2 P31c 159 A 3.3149 12.1214 "hexagonal , distorted 2H-structure" K 3.93 3.95 3.95 mJ/mol.K2 14.94 SP 210.8 SP "Pd(4N),Ta(3N),S(2N5)" "mixture - pellet - sealed in quartz tube(vac) - heat(923K,2d) - air quenched to RT - reground - pellet - sealed in quartz tube - heat(1023K, 2d) - ANN(923K,2w) - Q to RT" Superconductivity in palladium-doped 2H-TaS2 2018 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People?s Republic of China" "Supercond.Sci.Technol., 31(2018)065001"
158245 SST031065001 e-ph = 0.72. DOS = 4.06 states/eV. T = 71.4 K from R(T) anomaly. 2H-PdxTaS2 Pd0.03Ta1S2 Pd 0.03 Ta 1 S 2 1 2018 AB2 P31c 159 A 3.3143 12.1249 "hexagonal , distorted 2H-structure" K 4.14 4.12 4.12 MSP158245 mJ/mol.K2 16.47 SP 210.3 SP "Pd(4N),Ta(3N),S(2N5)" "mixture - pellet - sealed in quartz tube(vac) - heat(923K,2d) - air quenched to RT - reground - pellet - sealed in quartz tube - heat(1023K, 2d) - ANN(923K,2w) - Q to RT" Superconductivity in palladium-doped 2H-TaS2 2018 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People?s Republic of China" "Supercond.Sci.Technol., 31(2018)065001"
158247 SST031065001 e-ph = 0.70. DOS = 3.93 states/eV. T = 65.5 K from R(T) anomaly. 2H-PdxTaS2 Pd0.05Ta1S2 Pd 0.05 Ta 1 S 2 1 2018 AB2 P31c 159 A 3.3151 12.1343 "hexagonal , distorted 2H-structure" K 3.87 3.89 3.89 MSP158247 mJ/mol.K2 15.85 SP 212.8 SP "Pd(4N),Ta(3N),S(2N5)" "mixture - pellet - sealed in quartz tube(vac) - heat(923K,2d) - air quenched to RT - reground - pellet - sealed in quartz tube - heat(1023K, 2d) - ANN(923K,2w) - Q to RT" Superconductivity in palladium-doped 2H-TaS2 2018 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People?s Republic of China" "Supercond.Sci.Technol., 31(2018)065001"
158248 SST031065001 e-ph = 0.69. DOS = 3.86 states/eV. 2H-PdxTaS2 Pd0.06Ta1S2 Pd 0.06 Ta 1 S 2 1 2018 AB2 P31c 159 A 3.3154 12.1465 "hexagonal , distorted 2H-structure" K 3.67 3.73 3.73 MPH158246 mJ/mol.K2 15.41 SP 214.9 SP "Pd(4N),Ta(3N),S(2N5)" "mixture - pellet - sealed in quartz tube(vac) - heat(923K,2d) - air quenched to RT - reground - pellet - sealed in quartz tube - heat(1023K, 2d) - ANN(923K,2w) - Q to RT" Superconductivity in palladium-doped 2H-TaS2 2018 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People?s Republic of China" "Supercond.Sci.Technol., 31(2018)065001"
158249 SST031065001 e-ph = 0.65. DOS = 3.84 states/eV. 2H-PdxTaS2 Pd0.08Ta1S2 Pd 0.08 Ta 1 S 2 1 2018 AB2 P31c 159 A 3.3155 "hexagonal , distorted 2H-structure" K 2.97 3 3 mJ/mol.K2 14.98 SP 215.1 SP "Pd(4N),Ta(3N),S(2N5)" "mixture - pellet - sealed in quartz tube(vac) - heat(923K,2d) - air quenched to RT - reground - pellet - sealed in quartz tube - heat(1023K, 2d) - ANN(923K,2w) - Q to RT" Superconductivity in palladium-doped 2H-TaS2 2018 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People?s Republic of China" "Supercond.Sci.Technol., 31(2018)065001"
158250 PHB5360767 Debye-T = 256 K from R(T) anlysis. (dC/gamma*Tc) = 1.6 YCo2Ge2 Y1Co2Ge2 Y 1 Co 2 Ge 2 1 2018 AB2C2 ThCr2Si2 I4/mmm A 3.9705 10.098 K 0.4 0.4 mJ/mol.K2 11.7 SP 331 SP uOhm.cm 53.1 53.1 "arc-melting. pellet - wrapped in Mo-foil - ANN(1273 K, 2w, in silica tube)" Superconductivity in YTE Ge 2 2 compounds (TE = d-electron transition metal) 2018 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P Nr 1410, 50-590 Wroc?aw 2, Poland" "Physica B, 536(2018)767"
158251 PHB5360767 Debye-T = 173 K from R(T) anlysis. YNi2Ge2 Y1Ni2Ge2 Y 1 Ni 2 Ge 2 1 2018 AB2C2 ThCr2Si2 I4/mmm A 4.04504 9.7978 K 0.4 mJ/mol.K2 13.7 SP 295 SP uOhm.cm 18.8 18.8 "arc-melting. pellet - wrapped in Mo-foil - ANN(1273 K, 2w, in silica tube)" Superconductivity in YTE Ge 2 2 compounds (TE = d-electron transition metal) 2018 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P Nr 1410, 50-590 Wroc?aw 2, Poland" "Physica B, 536(2018)767"
158252 PHB5360767 Debye-T = 224 K from R(T) anlysis. YRu2Ge2 Y1Ru2Ge2 Y 1 Ru 2 Ge 2 1 2018 AB2C2 ThCr2Si2 I4/mmm A 4.2289 9.8372 K 0.4 mJ/mol.K2 7.9 SP 298 SP uOhm.cm 57.2 57.2 "arc-melting. pellet - wrapped in Mo-foil - ANN(1273 K, 2w, in silica tube)" Superconductivity in YTE Ge 2 2 compounds (TE = d-electron transition metal) 2018 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P Nr 1410, 50-590 Wroc?aw 2, Poland" "Physica B, 536(2018)767"
158253 PHB5360767 Debye-T = 235 K from R(T) anlysis. YRh2Ge2 Y1Rh2Ge2 Y 1 Rh 2 Ge 2 1 2018 AB2C2 ThCr2Si2 I4/mmm A 4.10212 10.2618 K 0.4 mJ/mol.K2 6.9 SP 305 SP uOhm.cm 63 63 "arc-melting. pellet - wrapped in Mo-foil - ANN(1273 K, 2w, in silica tube)" Superconductivity in YTE Ge 2 2 compounds (TE = d-electron transition metal) 2018 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P Nr 1410, 50-590 Wroc?aw 2, Poland" "Physica B, 536(2018)767"
158254 PHB5360767 Debye-T = 169 K from R(T) anlysis. (dC/gamma*Tc) = 1.7 YPd2Ge2 Y1Pd2Ge2 Y 1 Pd 2 Ge 2 1 2018 AB2C2 ThCr2Si2 I4/mmm A 4.2387 10.0305 K 1.1 1.1 MSP158254 mJ/mol.K2 6.6 SP 231 SP uOhm.cm 13.7 13.7 "arc-melting. pellet - wrapped in Mo-foil - ANN(1273 K, 2w, in silica tube)" Superconductivity in YTE Ge 2 2 compounds (TE = d-electron transition metal) 2018 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P Nr 1410, 50-590 Wroc?aw 2, Poland" "Physica B, 536(2018)767"
158255 PHB5360767 Debye-T = 123 K from R(T) anlysis. (dC/gamma*Tc) = 1.6 YPt2Ge2 Y1Pt2Ge2 Y 1 Pt 2 Ge 2 1 2018 AB2C2 CaBe2Ge2 P4/mmm A 4.27 9.906 K 1.6 1.6 MSP158255 mJ/mol.K2 5.9 SP 195 SP uOhm.cm 26.2 26.2 "arc-melting. pellet - wrapped in Mo-foil - ANN(1273 K, 2w, in silica tube)" Superconductivity in YTE Ge 2 2 compounds (TE = d-electron transition metal) 2018 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P Nr 1410, 50-590 Wroc?aw 2, Poland" "Physica B, 536(2018)767"
158256 SCIB0630952 Pauli limit Hp = 19.1 T. (dC/gamma*Tc) = 1.54 K2Mo3As3 K2Mo3As3 K 2 Mo 3 As 3 1 2018 A2B3C3 P-6m2 187 A 10.145 4.453 Cr-233 type K 10.1 10.4 0.3 10.25 T "RES(on), GL approx." 22 MHC158256 mJ/mol.K2 13 SP 234 SP mOhm.cm 2.26 4.1 "K(2N),M0(3N5),As(5N)" "mixture(K:Mo:As = 2.5:3:3) - alumina crucible - heat(523 K,20h) - cool to RT - reground - pellet - (Ta-tube with cap (welding)) - sealed in quartz tube - SIN(1123K,50h) - furnace cool to RT" Superconductivity at 10.4 K in a novel quasi-one-dimensional ternary molybdenum pnictide K2Mo3As3 2018 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Science Bulletin, 63(2018)952"
158257 JPS087084708 Isostructure of NpPd5Al2. Crystalline electric field (CEF) measured by neutron inelastic scattering(NIS) NdPd5Al2 Nd1Pd5Al2 Nd 1 Pd 5 Al 2 1 2018 Myu-B 2.7 1.2 AB2C5 ZrNi2Al5 I4/mmm Isostructure of NpPd5Al2 K 0.3 "Nd(3N),Pd(3N5),Al(5N)" arc-melting. As-grown sample - sandwiched between Al-foil and fixed in Al can. Neutron Inelastic Scattering Study of the f-Electron States in NdPd5Al2 2018 "Materials Sciences Research Center, Japan Atomic Energy Agency, Tokai, Ibaraki 319-1195, Japan" "J.Phys.Soc.Jpn, 87(2018)084708"
158300 PRL106177001 "SP measured for 0.04 < T < 300 K. AFQ ordering T = 0.11 K defined as peak in C(T). Curie-Weiss for T > 20 K. M measured for H//[110], H//[100]" PrIr2Zn20 Pr1Ir2Zn20 Pr 1 Ir 2 Zn 20 3 2011 my-B/f.u 3.49 AB2C20 CeCr2Al20 Fd3[-]m K 0.05 0.05 MPH158300 MSP158300 melt growth method Antiferroquadrupolar Ordering in a Pr-Based Superconductor PrIr2Zn20 2011 "Department of Quantum Matter, Graduate School of Advanced Sciences of Matter, Hiroshima University, Higashi-Hiroshima 739-8530, Japan" "Phys.Rev.Lett., 106(2011)177001"
158301 JAC6941149 RRR = 1.4. Curie-Weiss for T < 200 K. SP (beta) = 0.995 mJ/mol.K4 Ba2Ti2Cr2As4O Ba2Ti2Cr2As4O1 Ba 2 Ti 2 Cr 2 As 4 O 1 2017 emu/mol 0.0016 emu.K/mol 0.0758 my-B/f.u 0.778 -5.7 350 AB2C2D2E4 oxypnictide I4/mmm 139 A 4.0391 27.8474 22241-type K 2 mJ/mol.K2 99.6 SP 277.78 SP mOhm.cm 0.304 0.43 "Ba,Ti,As,Cr,TiO2,all 3N" "mixture - in alumina ampoule - heat(1253K,1500 min, in quartz tube - cool to RT - SIN(1273K,1500 min)" "Synthesis, crystal structure and physical properties of a new oxypnictide Ba2Ti2Cr2As4O containing [Ti2As2O]<2-> and [Cr2As2]<2-> layers" 2017 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "J.Alloys Compd., 694(2017)1149"
158302 ACTM1660543 "heat(1370 K,4.0 GPa, 2 h)" LaxRh4P12 La0.59Rh4P12 La 0.59 Rh 4 P 12 2019 AB4C12 skutterudite A 8.0569 K 3.55 4.58 5.87 4.58 "La(3N),Rh(3N),P(5N)" "mixture(La:Rh:P = 1:4:12) - loaded in BN capsule - pressurize to 4.0 - 9.4 Gpa at RT - heat(1370 K,2h)" Superconductivity in filled skutterudite LaxRh4P12 (0.5 < x =< 1): Experimental and computational studies 2019 "Research Center for Functional Materials, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki, 305-0048, Japan" "Acta Materialia, 166(2019)543"
158303 ACTM1660543 "heat(1470 K,4.0 GPa, 2 h)" LaxRh4P12 La0.69Rh4P12 La 0.69 Rh 4 P 12 2019 AB4C12 skutterudite A 8.0621 K 6.15 8.07 10.37 8.07 MTC158303 "La(3N),Rh(3N),P(5N)" "mixture(La:Rh:P = 1:4:12) - loaded in BN capsule - pressurize to 4.0 - 9.4 Gpa at RT - heat(1370 K,2h)" Superconductivity in filled skutterudite LaxRh4P12 (0.5 < x =< 1): Experimental and computational studies 2019 "Research Center for Functional Materials, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki, 305-0048, Japan" "Acta Materialia, 166(2019)543"
158304 ACTM1660543 "heat(1370 K, 5.5 GPa, 2 h)" LaxRh4P12 La0.75Rh4P12 La 0.75 Rh 4 P 12 2019 AB4C12 skutterudite A 8.0719 K 7.84 8.71 9.65 8.71 "La(3N),Rh(3N),P(5N)" "mixture(La:Rh:P = 1:4:12) - loaded in BN capsule - pressurize to 4.0 - 9.4 Gpa at RT - heat(1370 K,2h)" Superconductivity in filled skutterudite LaxRh4P12 (0.5 < x =< 1): Experimental and computational studies 2019 "Research Center for Functional Materials, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki, 305-0048, Japan" "Acta Materialia, 166(2019)543"
158305 ACTM1660543 "heat(1470 K,7.7 GPa, 2 h)" LaxRh4P12 La0.81Rh4P12 La 0.81 Rh 4 P 12 2019 AB4C12 skutterudite A 8.0737 K 9.25 9.81 10.39 9.81 "La(3N),Rh(3N),P(5N)" "mixture(La:Rh:P = 1:4:12) - loaded in BN capsule - pressurize to 4.0 - 9.4 Gpa at RT - heat(1370 K,2h)" Superconductivity in filled skutterudite LaxRh4P12 (0.5 < x =< 1): Experimental and computational studies 2019 "Research Center for Functional Materials, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki, 305-0048, Japan" "Acta Materialia, 166(2019)543"
158306 ACTM1660543 "heat(1470 K, 9.4 GPa, 2 h)" LaxRh4P12 La0.99Rh4P12 La 0.99 Rh 4 P 12 2019 AB4C12 skutterudite A 8.0787 K 16.19 16.41 16.49 16.41 "La(3N),Rh(3N),P(5N)" "mixture(La:Rh:P = 1:4:12) - loaded in BN capsule - pressurize to 4.0 - 9.4 Gpa at RT - heat(1370 K,2h)" Superconductivity in filled skutterudite LaxRh4P12 (0.5 < x =< 1): Experimental and computational studies 2019 "Research Center for Functional Materials, National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki, 305-0048, Japan" "Acta Materialia, 166(2019)543"
158307 APP1311036 Lu behaves like non-magnetic impurities. (dTc/dx) = 0.12 K/at% Lu. Zr1-xLuxB12 Zr0.96Lu0.04B12 Zr 0.96 Lu 0.04 B 12 3 2017 UB12 K 5.47 5.47 MTC158307 single crystals made by floating zone method in an inert gas atmosphere Superconductivity in LuxZr1-xB12 Dodecaborides with Cage-Glass Crystal Structure 2017 "Prokhorov General Physics Institute, RAS, Vavilov Str. 38, 119991 Moscow, Russia" "ACTA Phys.Polonica A, 131(2017)1036"
158308 APP1311036 Zr1-xLuxB12 Zr0.8Lu0.2B12 Zr 0.8 Lu 0.2 B 12 3 2017 UB12 K 3.9 3.9 single crystals made by floating zone method in an inert gas atmosphere Superconductivity in LuxZr1-xB12 Dodecaborides with Cage-Glass Crystal Structure 2017 "Prokhorov General Physics Institute, RAS, Vavilov Str. 38, 119991 Moscow, Russia" "ACTA Phys.Polonica A, 131(2017)1036"
158309 APP1311036 Lu behaves like magnetic impurities. (dTc/dx) = 0.21 K/at% Lu. Zr1-xLuxB12 Zr0.993Lu0.007B12 Zr 0.993 Lu 0.007 B 12 3 2017 UB12 K 5.81 5.81 MTC158307 single crystals made by floating zone method in an inert gas atmosphere Superconductivity in LuxZr1-xB12 Dodecaborides with Cage-Glass Crystal Structure 2017 "Prokhorov General Physics Institute, RAS, Vavilov Str. 38, 119991 Moscow, Russia" "ACTA Phys.Polonica A, 131(2017)1036"
158310 APP1311036 Zr1-xLuxB12 Zr0.926Lu0.074B12 Zr 0.926 Lu 0.074 B 12 3 2017 UB12 K 4.49 4.49 single crystals made by floating zone method in an inert gas atmosphere Superconductivity in LuxZr1-xB12 Dodecaborides with Cage-Glass Crystal Structure 2017 "Prokhorov General Physics Institute, RAS, Vavilov Str. 38, 119991 Moscow, Russia" "ACTA Phys.Polonica A, 131(2017)1036"
158313 EPL12027006 RRR = 2.3. Centrosymmetric. Hc2 = 57.4 T from WHH fitting. RbCr3As3 Rb1Cr3As3 Rb 1 Cr 3 As 3 3 2017 AB3C3 P6<3>/m 176 A 9.373 4.203 hexagonal K 7.3 6.2 6.2 100 T "RES(on), GL fitting" 72.4 MHC158313 "RbAs,CrAs" "single crystal Rb2Cr3As3 by high-T solution growth method. Deintercalating Rb by immersing in dehydrated ethanol (1 week) - ANN(273 K, 10h)" Superconductivity at 7.3 K in the 133-type Cr-based RbCr3As3 single crystals 2017 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences - Beijing 100190, China" "Europhys.Lett., 120(2017)27006"
158314 EPL12347004 "RRR = 3.7. Anomaly in R(T) at 193 K, maybe CDW. S-wave full gaped SC from thermal conductivity. R = R0 + A*T^n where n = 3.5 for 2 < T<10K" NaSn2As2 Na1Sn2As2 Na 1 Sn 2 As 2 3 2018 AB2C2 2 R3[-]/m K 1.48 1.6 1.54 T "RES(on), GL fitting" 0.54 0.22 MHC158314 MSP158314 mJ/mol.K2 1.9 SP 218 SP mW/cm.K2 MTHC158314 uOhm.cm 60.3 "As(5N),Na(4N),Sn(5N)" "Sn-flux method. Mixture(Na:Sn:As = 1:10:2) - im alumina crucible in quartz tube - heat(750C, 3d) - cool (1.5 K/h) - remove Sn flux at 350 C" Nodeless superconductivity in the SnAs-based van der Waals-type superconductor NaSn2As2 2018 "State Key Laboratory of Surface Physics, Department of Physics, and Laboratory of Advanced Materials, Fudan University - Shanghai 200433, China" "Europhys.Lett., 123(2018)47004"
158315 EPL12357001 H dependence of C obtained by subtract lattice and Schottky type SP terms. SP (beta = 1.45 mJ/mol.K4. (dC/gamma*Tc) = 2.5. K2Cr3As3 K2Cr3As3 K 2 Cr 3 As 3 3 2018 A2B3C3 K2Cr3As3 K 6.1 6.1 T "SP, WHH fitting" 32.2 MHC158315 15.7 14 MSP158315 mJ/mol.K2 71 SP 221 SP self-flux method Evidence of line nodes in superconducting gap function in K2Cr3As3 from specific-heat measurements 2018 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences Beijing 100190, China" "Europhys.Lett., 123(2018)57001"
158316 JAC4640047 not SCCurie-Weiss law for T > 200 K. UPd5Al2 U1Pd5Al2 U 1 Pd 5 Al 2 2 2008 my-B/U 3.4 -13 AB2C5 ZrNi2Al5 I4/mmm 123 A 4.1693 14.629 K 4 poly crystal. Arc melting "Crystal structure and magnetic properties of the new ternary actinide compounds AnPd5Al2 (An =U, Np)" 2008 "Advanced Science Research Center, Japan Atomic Energy Agency, Tokai, Ibaraki 319-1195, Japan" "J.Alloys Compd., 464(2008)47"
158317 JAC4640047 Curie-Weiss law for T > 50 K. H//[110] NpPd5Al2 Np1Pd5Al2 Np 1 Pd 5 Al 2 2 2008 my-B/Np 3.22 -42 AB2C5 ZrNi2Al5 I4/mmm 123 A 4.148 14.716 K 5 5 Pb flux method "Crystal structure and magnetic properties of the new ternary actinide compounds AnPd5Al2 (An =U, Np)" 2008 "Advanced Science Research Center, Japan Atomic Energy Agency, Tokai, Ibaraki 319-1195, Japan" "J.Alloys Compd., 464(2008)47"
158318 JAC7720745 "Major= 1212 , Minor = 1201 , Minor = CSCO , CSCO = Ca0.3Sr0.7CuO2" (Tl0.7Gd0.3)Sr2Ca0.8Cr0.2Cu2O7 Tl0.7Gd0.3Sr2Ca0.8Cr0.2Cu2O7 Tl 0.7 Gd 0.3 Sr 2 Ca 0.8 Cr 0.2 Cu 2 O 7 2019 Tl-1212 Tl1212 A 3.799 12.046 K 75 102 61 27 61 "An appropriate ammount of Tl2O3 (excess 10%) was added to the precursor, mixed, pressed. Heat(1000C, 5min, in flowing O2) - furnace cool to RT." "Effects of rare-earth elements and alkali metals on the superconductivity of (Tl0.7M0.3)Sr2Ca0.8Cr0.2Cu2O7 with M = Gd, Er, La, Li, Na, K, and Rb" 2019 "School of Applied Physics, Universiti Kebangsaan Malaysia, 43600, Bangi, Selangor, Malaysia" "J.Alloys Compd., 772(2019)745"
158319 JAC7720745 "Major= 1212 , Minor = 1201 , Minor = CSCO , CSCO = Ca0.3Sr0.7CuO2" (Tl0.7Er0.3)Sr2Ca0.8Cr0.2Cu2O7 Tl0.7Er0.3Sr2Ca0.8Cr0.2Cu2O7 Tl 0.7 Er 0.3 Sr 2 Ca 0.8 Cr 0.2 Cu 2 O 7 2019 Tl-1212 Tl1212 A 3.791 12.022 K 60 98 50 38 50 "An appropriate ammount of Tl2O3 (excess 10%) was added to the precursor, mixed, pressed. Heat(1000C, 5min, in flowing O2) - furnace cool to RT." "Effects of rare-earth elements and alkali metals on the superconductivity of (Tl0.7M0.3)Sr2Ca0.8Cr0.2Cu2O7 with M = Gd, Er, La, Li, Na, K, and Rb" 2019 "School of Applied Physics, Universiti Kebangsaan Malaysia, 43600, Bangi, Selangor, Malaysia" "J.Alloys Compd., 772(2019)745"
158320 JAC7720745 "Major= 1212 , Minor = 1201 , Minor = CSCO , CSCO = Ca0.3Sr0.7CuO2" (Tl0.7La0.3)Sr2Ca0.8Cr0.2Cu2O7 Tl0.7La0.3Sr2Ca0.8Cr0.2Cu2O7 Tl 0.7 La 0.3 Sr 2 Ca 0.8 Cr 0.2 Cu 2 O 7 2019 Tl-1212 Tl1212 A 3.774 12.051 K 50 83 50 33 50 "An appropriate ammount of Tl2O3 (excess 10%) was added to the precursor, mixed, pressed. Heat(1000C, 5min, in flowing O2) - furnace cool to RT." "Effects of rare-earth elements and alkali metals on the superconductivity of (Tl0.7M0.3)Sr2Ca0.8Cr0.2Cu2O7 with M = Gd, Er, La, Li, Na, K, and Rb" 2019 "School of Applied Physics, Universiti Kebangsaan Malaysia, 43600, Bangi, Selangor, Malaysia" "J.Alloys Compd., 772(2019)745"
158321 JAC7720745 "Major= 1212 , Minor = 1201 , Minor = CSCO , CSCO = Ca0.3Sr0.7CuO2" (Tl0.7Li0.3)Sr2Ca0.8Cr0.2Cu2O7 Tl0.7Li0.3Sr2Ca0.8Cr0.2Cu2O7 Tl 0.7 Li 0.3 Sr 2 Ca 0.8 Cr 0.2 Cu 2 O 7 2019 Tl-1212 Tl1212 A 3.766 12.081 K 89 100 92 11 92 "An appropriate ammount of Tl2O3 (excess 10%) was added to the precursor, mixed, pressed. Heat(1000C, 5min, in flowing O2) - furnace cool to RT." "Effects of rare-earth elements and alkali metals on the superconductivity of (Tl0.7M0.3)Sr2Ca0.8Cr0.2Cu2O7 with M = Gd, Er, La, Li, Na, K, and Rb" 2019 "School of Applied Physics, Universiti Kebangsaan Malaysia, 43600, Bangi, Selangor, Malaysia" "J.Alloys Compd., 772(2019)745"
158322 JAC7720745 "Major= 1212 , Minor = 1201 , Minor = CSCO , CSCO = Ca0.3Sr0.7CuO2" (Tl0.7Na0.3)Sr2Ca0.8Cr0.2Cu2O7 Tl0.7Na0.3Sr2Ca0.8Cr0.2Cu2O7 Tl 0.7 Na 0.3 Sr 2 Ca 0.8 Cr 0.2 Cu 2 O 7 2019 Tl-1212 Tl1212 A 3.757 12.092 K 72 93 93 21 93 "An appropriate ammount of Tl2O3 (excess 10%) was added to the precursor, mixed, pressed. Heat(1000C, 5min, in flowing O2) - furnace cool to RT." "Effects of rare-earth elements and alkali metals on the superconductivity of (Tl0.7M0.3)Sr2Ca0.8Cr0.2Cu2O7 with M = Gd, Er, La, Li, Na, K, and Rb" 2019 "School of Applied Physics, Universiti Kebangsaan Malaysia, 43600, Bangi, Selangor, Malaysia" "J.Alloys Compd., 772(2019)745"
158323 JAC7720745 "Major= 1212 , Minor = 1201 , Minor = CSCO , CSCO = Ca0.3Sr0.7CuO2" (Tl0.7K0.3)Sr2Ca0.8Cr0.2Cu2O7 Tl0.7K0.3Sr2Ca0.8Cr0.2Cu2O7 Tl 0.7 K 0.3 Sr 2 Ca 0.8 Cr 0.2 Cu 2 O 7 2019 Tl-1212 Tl1212 A 3.761 12.095 K 81 94 86 13 86 "An appropriate ammount of Tl2O3 (excess 10%) was added to the precursor, mixed, pressed. Heat(1000C, 5min, in flowing O2) - furnace cool to RT." "Effects of rare-earth elements and alkali metals on the superconductivity of (Tl0.7M0.3)Sr2Ca0.8Cr0.2Cu2O7 with M = Gd, Er, La, Li, Na, K, and Rb" 2019 "School of Applied Physics, Universiti Kebangsaan Malaysia, 43600, Bangi, Selangor, Malaysia" "J.Alloys Compd., 772(2019)745"
158324 JAC7720745 "Major= CSCO , Minor = 1212 , Minor = 1201 , CSCO = Ca0.3Sr0.7CuO2" (Tl0.7Rb0.3)Sr2Ca0.8Cr0.2Cu2O7 Tl0.7Rb0.3Sr2Ca0.8Cr0.2Cu2O7 Tl 0.7 Rb 0.3 Sr 2 Ca 0.8 Cr 0.2 Cu 2 O 7 2019 Tl-1212 Tl1212 A 3.785 12.056 K 82 100 84 18 84 "An appropriate ammount of Tl2O3 (excess 10%) was added to the precursor, mixed, pressed. Heat(1000C, 5min, in flowing O2) - furnace cool to RT." "Effects of rare-earth elements and alkali metals on the superconductivity of (Tl0.7M0.3)Sr2Ca0.8Cr0.2Cu2O7 with M = Gd, Er, La, Li, Na, K, and Rb" 2019 "School of Applied Physics, Universiti Kebangsaan Malaysia, 43600, Bangi, Selangor, Malaysia" "J.Alloys Compd., 772(2019)745"
158325 JAC7720745 "Major= 1212 , Minor = 1201 , Minor = CSCO , CSCO = Ca0.3Sr0.7CuO2" (Tl0.7Tl0.3)Sr2Ca0.8Cr0.2Cu2O7 Tl1Sr2Ca0.8Cr0.2Cu2O7 Tl 1 Sr 2 Ca 0.8 Cr 0.2 Cu 2 O 7 2019 Tl-1212 Tl1212 A 3.787 12.086 K 96 104 102 8 102 "An appropriate ammount of Tl2O3 (excess 10%) was added to the precursor, mixed, pressed. Heat(1000C, 5min, in flowing O2) - furnace cool to RT." "Effects of rare-earth elements and alkali metals on the superconductivity of (Tl0.7M0.3)Sr2Ca0.8Cr0.2Cu2O7 with M = Gd, Er, La, Li, Na, K, and Rb" 2019 "School of Applied Physics, Universiti Kebangsaan Malaysia, 43600, Bangi, Selangor, Malaysia" "J.Alloys Compd., 772(2019)745"
158326 JAC7730034 "There are two humps in R(T). T'(low), T''(high).. They depend on P. T' depends on heating or cooling" La3Co4Sn13 La3Co4Sn13 La 3 Co 4 Sn 13 3 2019 A3B4C13 Yb3Rh4Sn13 Pm3[-]n K 2.7 2.7 MTC158326 K/Gpa 0.07 T "RES(zero), WHH" 1.03 T/K RES(zero) 0.55 MHC158326 single crystals grown by using flux (Sn-excess) Pressure effects on the structural and superconducting transitions in La3Co4Sn13 2019 "Centro de Ciencias Naturais e Humanas, Universidade Federal do ABC, 09210-170, Santo Andre, SP, Brazil" "J.Alloys Compd., 773(2019)34"
158327 JAC7730034 P = 2.53 G Pa La3Co4Sn13 La3Co4Sn13 La 3 Co 4 Sn 13 3 2019 A3B4C13 Yb3Rh4Sn13 Pm3[-]n K 2.87 2.87 MTST158327 T "RES(zero), WHH" 1.04 T/K RES(zero) 0.52 MHC158326 single crystals grown by using flux (Sn-excess) Pressure effects on the structural and superconducting transitions in La3Co4Sn13 2019 "Centro de Ciencias Naturais e Humanas, Universidade Federal do ABC, 09210-170, Santo Andre, SP, Brazil" "J.Alloys Compd., 773(2019)34"
158328 JAC7820170 "Tn by C(T).. dC = 170 mJ/mol.K. (beta) = 3.66 mJ/mol.K4. Curie-Weis law for T>75 K. Curie-T = 19.1 K, moment = 4.17 my-B, for H//c. DB for H//ab. Anisotropy(hc2) = 2.6 at 0 K." NdPdxBi2 Nd1Pd0.77Bi2 Nd 1 Pd 0.77 Bi 2 3 2019 my-B 3.23 -148 4 ABC2 P4/nmm 129 A 4.515 9.509 K 3.2 3.2 T "RES(0.9Rn), WHH" 6.2 2.4 MHC158328 nm from Hc2 18.6 7.3 MSP158328 mJ/mol.K2 300 SP 127 SP "La,Pd,Bi" "mixture(La:Pd:Bi) = 1:1:10) - in alumina crucible - sealed in quartz tube - heat(1273 K,10 h, in vac) - cool to 973 K (5K/h) - cool to RT - remove flux at 673 K." Synthesis and thermodynamic properties of superconducting NdPd1- dBi2 (d~0.23) single crystals 2019 "Department of Physics, Soochow University, Suzhou, 215006, China" "J.Alloys Compd.,782(2019)170"
158329 JPCL0090868 vol = 197.67 A3. RRR = 5.8 "(La,Na)RbFe4As4" La0.4Na0.6Rb1Fe4As4 La 0.4 Na 0.6 Rb 1 Fe 4 As 4 2018 ABC4D4 CaRb1144 P4/mmm 123 A 3.8606 13.2624 K 25 26.4 25.5 25.5 T "RES(mid), WHH" 98 T/K RES(mid) 5.464 MHC158329 A from Hc2 18 "LaAs,Aas(A=Na,Rb,Cs),FeAs,Fe2As" "mixture with 5% excess Aas using stainless steel pipe - heat(860-890 C, 2h) - quench to RT" "Superconductivity in a New 1144-Type Family of (La,Na)AFe4As4 (A = Rb or Cs)" 2018 "IMRA Material R&D Co., Ltd., 2-1 Asahi-machi, Kariya, Aichi 448-0032, Japan" "J.Phys.Chem.Lett., 9(2018)868"
158330 JPCL0090868 RRR = 5.6 "(La,Na)CsFe4As4" La0.4Cs0.6Rb1Fe4As4 La 0.4 Cs 0.6 Rb 1 Fe 4 As 4 2018 ABC4D4 CaRb1144 P4/mmm 123 K 23 24.8 24 24 T "RES(mid), WHH" 82 T/K RES(mid) 4.841 MHC158329 A from Hc2 20 "LaAs,Aas(A=Na,Rb,Cs),FeAs,Fe2As" "mixture with 5% excess Aas using stainless steel pipe - heat(860-890 C, 2h) - quench to RT" "Superconductivity in a New 1144-Type Family of (La,Na)AFe4As4 (A = Rb or Cs)" 2018 "IMRA Material R&D Co., Ltd., 2-1 Asahi-machi, Kariya, Aichi 448-0032, Japan" "J.Phys.Chem.Lett., 9(2018)868"
158331 JPCM030475603 "T = 106.7 K from Tthermo power, = 109.8 K from thermal cond.." LaPt2Si2 La1Pt2Si2 La 1 Pt 2 Si 2 1 2018 AB2C2 CaBe2Ge2 P4/nmm K 1.22 1.22 W/m.K 2.87 MTHC158331 uV/K -8.52 MTP158331 "La(3N),Pr(3N),Pt(3N),Si(6N)" "arc-melting - ANN(1000C,7 d, in vac)" Thermal transport studies on charge density wave materials LaPt2Si2 and PrPt2Si2 2018 "Department of Physics, Indian Institute of Technology, Kanpur 208016, India" "J.Phys.Condens.Matter, 30(2018)475603"
158332 JPCM030475603 T = 86.9 K from thermal cond.. PrPt2Si2 Pr1Pt2Si2 Pr 1 Pt 2 Si 2 1 2018 AB2C2 CaBe2Ge2 P4/nmm K 0 W/m.K 3.05 MTHC158332 uV/K -10.15 MTP158332 "La(3N),Pr(3N),Pt(3N),Si(6N)" "arc-melting - ANN(1000C,7 d, in vac)" Thermal transport studies on charge density wave materials LaPt2Si2 and PrPt2Si2 2018 "Department of Physics, Indian Institute of Technology, Kanpur 208016, India" "J.Phys.Condens.Matter, 30(2018)475603"
158333 JPCM030475802 ThO2 less than 3.2 wt%. SP (beta) = 1.65 mJ/mol.K4. (dC) = 108 mJ/mol.K at Tc. (dC/gamma*Tc) = 1.23. e-ph = 0.53. k(GL) = 20. Th7Ni3 Ni3Th7 Ni 3 Th 7 1 2018 cm3/mol 0.00176 my-B/mol 0.018 -1.4 A3B7 Fe3Th7 A 9.89 6.23 K 1.94 1.96 0.04 1.94 97 Oe 30 1.73 T "SP, GL fitting" 1.24 0.08 1.73 MHC158333 nm from Hc2 16.3 nm 32.6 2.69 14 MSP158333 mJ/mol.K2 45.3 SP 227.8 SP "Th(2N8),Ni(4N)" arc-melting - stoichiometric ratio (Th:Ni = 7:3) - arc melting several times Superconducting-state properties and electronic band structure calculations of a noncentrosymmetric Th7Ni3 compound 2018 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, PO Box 1410, 50-422 Wroc?aw, Poland" "J.Phys.Condens.Matter, 30(2018)475802"
158334 JPCS969012027 magnetic transition Tm = 15 K defined as kink in SUS(T). "(Eu,Ca)RbFe4As4" Eu1Rb1Fe4As4 Eu 1 Rb 1 Fe 4 As 4 1 2018 ABC4D4 CaRb1144 P4/mmm 123 A 3.8899 13.307 K 36.78 36.78 solid state reaction using stainless steel pipe and cap method Superconducting state in (Eu1-xCax)RbFe4As4 with 1144-type Structure 2018 "IMRA Material R&D Co., Ltd., Kariya, Aichi 448-0032, Japan" "J.Phys: Conf.Ser., 969(2018)012027"
158335 JPCS969012027 magnetic transition Tm = 12 K defined as kink in SUS(T). "(Eu,Ca)RbFe4As4" Eu0.75Ca0.25Rb1Fe4As4 Eu 0.75 Ca 0.25 Rb 1 Fe 4 As 4 1 2018 ABC4D4 CaRb1144 P4/mmm 123 A 3.8874 13.279 K 36.54 36.54 MTC158335 solid state reaction using stainless steel pipe and cap method Superconducting state in (Eu1-xCax)RbFe4As4 with 1144-type Structure 2018 "IMRA Material R&D Co., Ltd., Kariya, Aichi 448-0032, Japan" "J.Phys: Conf.Ser., 969(2018)012027"
158336 JPCS969012027 magnetic transition Tm = 7 K defined as kink in SUS(T). "(Eu,Ca)RbFe4As4" Eu0.5Ca0.5Rb1Fe4As4 Eu 0.5 Ca 0.5 Rb 1 Fe 4 As 4 1 2018 ABC4D4 CaRb1144 P4/mmm 123 A 3.8846 13.231 K 36.49 36.49 solid state reaction using stainless steel pipe and cap method Superconducting state in (Eu1-xCax)RbFe4As4 with 1144-type Structure 2018 "IMRA Material R&D Co., Ltd., Kariya, Aichi 448-0032, Japan" "J.Phys: Conf.Ser., 969(2018)012027"
158337 JPCS969012027 "(Eu,Ca)RbFe4As4" Eu0.25Ca0.75Rb1Fe4As4 Eu 0.25 Ca 0.75 Rb 1 Fe 4 As 4 1 2018 ABC4D4 CaRb1144 P4/mmm 123 A 3.8811 13.181 K 36 36 solid state reaction using stainless steel pipe and cap method Superconducting state in (Eu1-xCax)RbFe4As4 with 1144-type Structure 2018 "IMRA Material R&D Co., Ltd., Kariya, Aichi 448-0032, Japan" "J.Phys: Conf.Ser., 969(2018)012027"
158338 JPCS969012027 "(Eu,Ca)RbFe4As4" Ca1Rb1Fe4As4 Ca 1 Rb 1 Fe 4 As 4 1 2018 ABC4D4 CaRb1144 P4/mmm 123 A 3.8773 13.109 K 36.26 36.26 solid state reaction using stainless steel pipe and cap method Superconducting state in (Eu1-xCax)RbFe4As4 with 1144-type Structure 2018 "IMRA Material R&D Co., Ltd., Kariya, Aichi 448-0032, Japan" "J.Phys: Conf.Ser., 969(2018)012027"
158339 JPS0720017 not SC Cr1-xRux Cr0.841Ru0.159 Cr 0.841 Ru 0.159 1 2003 283 K 0.45 uOhm.cm 42.4 m3/C MRH158339 "arc-melting - ANN(1500C, 150 h, in sealed W crucible" Competition of Antiferromagnetism and Superconductivity in Cr-Ru Alloys 2003 "Department of Physics, Tohoku University Aoba, Aoba-ku, Sendai 980-8578" "J.Phys.Soc.Jpn, 72(2003)17"
158340 JPS0720017 Cr1-xRux Cr0.808Ru0.182 Cr 0.808 Ru 0.182 1 2003 K 1.27 1.27 MTC158340 MHC158341 MSP158340 uOhm.cm 33.8 "arc-melting - ANN(1500C, 150 h, in sealed W crucible" Competition of Antiferromagnetism and Superconductivity in Cr-Ru Alloys 2003 "Department of Physics, Tohoku University Aoba, Aoba-ku, Sendai 980-8578" "J.Phys.Soc.Jpn, 72(2003)17"
158341 JPS0720017 Cr1-xRux Cr0.797Ru0.203 Cr 0.797 Ru 0.203 1 2003 K 1.69 1.69 MHC158341 MSP158341 uOhm.cm 39.3 "arc-melting - ANN(1500C, 150 h, in sealed W crucible" Competition of Antiferromagnetism and Superconductivity in Cr-Ru Alloys 2003 "Department of Physics, Tohoku University Aoba, Aoba-ku, Sendai 980-8578" "J.Phys.Soc.Jpn, 72(2003)17"
158342 JPS0720017 Cr1-xRux Cr0.774Ru0.226 Cr 0.774 Ru 0.226 1 2003 K 2.06 2.06 MHC158341 MSP158342 uOhm.cm 42.1 "arc-melting - ANN(1500C, 150 h, in sealed W crucible" Competition of Antiferromagnetism and Superconductivity in Cr-Ru Alloys 2003 "Department of Physics, Tohoku University Aoba, Aoba-ku, Sendai 980-8578" "J.Phys.Soc.Jpn, 72(2003)17"
158343 JPS087123705 Compositions: Lu:Nd:Ba:Cu = 0.89:0.14:1.98:4 by EDX. Tc increases with increasing c (lattice constant) in Y124 phase. "(Lu,Nd)Ba2Cu4O8" Lu0.8Nd0.2Ba2Cu4O8 Lu 0.8 Nd 0.2 Ba 2 Cu 4 O 8 3 2018 AB2C4D8 3 Y124 Ammm A 3.835 3.879 27.195 K 65 75 75 75 "Lu2O3,Nd2O3,Ba(OH)2,CuO" "KOH flux method. Mixture with 70 wt% KOH - Al2O3 crucible with lid - heat(700 -730 C, 15-40 h) - FC to RT - remove flux - dried at 110C, 30 min." Single Crystal Growth of Cuprate Superconductor (Lu0.8Nd0.2)Ba2Cu4O8 by KOH Flux Method 2018 "MANA, National Institute for Materials Science (NIMS), Tsukuba, Ibaraki 305-0047, Japan" "J.Phys.Soc.Jpn, 87(2018)123705"
158344 JPS087124705 "ZF-muon-SR. s+d wave model. Two gaps (higher in DB, lower = 0.92 meV). (dC/Tc) = 94.6 mJ/mol.K2 effective mass m* = 2.45 m" RbCa2Fe4As4F2 Rb1Ca2Fe4As4F2 Rb 1 Ca 2 Fe 4 As 4 F 2 1 2018 AB2C2D4E4 I4/mmm 139 A 3.8716 31.667 12442-type K 30 30 100 mT M-H curve 20 3 T WHH 300 T/K 13.9 nm from Hc2 1.04 nm muon-SR 231 meV 8.08 6.42 16 MSP158344 Multigap Superconductivity in RbCa2Fe4As4F2 InvestigatedUsing muon-SR Measurements 2018 "ISIS Facility, Rutherford Appleton Laboratory, Chilton, Didcot Oxon, OX11 0QX, United Kingdom" "J.Phys.Soc.Jpn, 87(2018)124705"
158345 MCP2170451 "Autoclave heating (180C, 3days) Fe/S = 1.31 by EDX. Hall coehh. RH(0 K) = 0.06 cm3/C. SP (beta) = 0.11 mJ/mol.K4" Li1-xFexOHFeS Li0.69Fe1.31S1H1O1 Li 0.69 Fe 1.31 S 1 H 1 O 1 2018 8 P4/nmm 129 A 3.70087 8.88824 K 2.71 0.15 2.71 80 Oe "RES(mid), WHH" 386.6 MHC158345 MSP158345 mJ/mol.K2 130 SP mOhm.cm 0.17 Effect of hydrothermal conditions on superconductivity and magnetism in [Li1-xFexOH]FeS 2018 "Department of Physics, Boston College, Chestnut Hill, MA 02467, USA" "Mat.Chem.Phys., 217(2018)451"
158346 MCP2170451 "Autoclave heating (150C, 3days): Fe/S = 1.52 by EDX." Li1-xFexOHFeS Li0.48Fe1.52S1H1O1 Li 0.48 Fe 1.52 S 1 H 1 O 1 2018 P4/nmm 129 K 2.51 2.51 10 mOhm.cm 0.36 Effect of hydrothermal conditions on superconductivity and magnetism in [Li1-xFexOH]FeS 2018 "Department of Physics, Boston College, Chestnut Hill, MA 02467, USA" "Mat.Chem.Phys., 217(2018)451"
158347 MCP2170451 "Autoclave heating (110C, 3days): Fe/S = 1.71 by EDX." Li1-xFexOHFeS Li0.29Fe1.71S1H1O1 Li 0.29 Fe 1.71 S 1 H 1 O 1 2018 my-B 3 67.1 P4/nmm 129 K 2.18 2.18 mOhm.cm 0.6 Effect of hydrothermal conditions on superconductivity and magnetism in [Li1-xFexOH]FeS 2018 "Department of Physics, Boston College, Chestnut Hill, MA 02467, USA" "Mat.Chem.Phys., 217(2018)451"
158348 MCP2260095 Nb-Nb chain//c-axis. NbTe4 :Te = 0.8:0.2 (weight fraction). T = 208 K another anomaly at 50 K in R(T). Not SC NbTe4-x Nb1Te4 Nb 1 Te 4 2018 AB4 2 P4/mcc 124 A 6.4965 6.8232 NbTe4 phase K 2 "Nb(2N8),Te(4N8)" "solid state reaction. Mixture - pellet - sealed in quartz tube - heat(400C, 72h) - Q to iced water - reground - one more same process" Large enhancement of the CDW resistivity anomaly and traces of superconductivity in imperfect samples of NbTe4 2018 "Escola de Engenharia de Lorena, Universidade de Sao Paulo, Lorena, SP, 12600-970, Brazil" "Mat.Chem.Phys., 226(2018)95"
158349 MCP2260095 Nb-Nb chain//c-axis. NbTe4 :Te = 0.9:0.1 (weight fraction). SC not detected NbTe4-x Nb1Te3.4 Nb 1 Te 3.4 2018 AB4 2 P4/mcc 124 A 6.5017 6.8326 NbTe4 phase K 2 "Nb(2N8),Te(4N8)" "solid state reaction. Mixture - pellet - sealed in quartz tube - heat(400C, 72h) - Q to iced water - reground - one more same process" Large enhancement of the CDW resistivity anomaly and traces of superconductivity in imperfect samples of NbTe4 2018 "Escola de Engenharia de Lorena, Universidade de Sao Paulo, Lorena, SP, 12600-970, Brazil" "Mat.Chem.Phys., 226(2018)95"
158350 MCP2260095 Nb-Nb chain//c-axis. NbTe4 :Te = 1:0 (weight fraction). SC not detected NbTe4-x Nb1Te3 Nb 1 Te 3 2018 AB4 2 P4/mcc 124 A 6.5025 6.8338 NbTe4 phase K 2 "Nb(2N8),Te(4N8)" "solid state reaction. Mixture - pellet - sealed in quartz tube - heat(400C, 72h) - Q to iced water - reground - one more same process" Large enhancement of the CDW resistivity anomaly and traces of superconductivity in imperfect samples of NbTe4 2018 "Escola de Engenharia de Lorena, Universidade de Sao Paulo, Lorena, SP, 12600-970, Brazil" "Mat.Chem.Phys., 226(2018)95"
158351 MCP2260095 Nb-Nb chain//c-axis. NbTe4 :Te = 1:0 (weight fraction) NbTe4-x Nb1Te2 Nb 1 Te 2 2018 AB4 2 P4/mcc 124 A 6.5025 6.8338 NbTe4 phase K 5.5 5.5 5.5 45 "Nb(2N8),Te(4N8)" "solid state reaction. Mixture - pellet - sealed in quartz tube - heat(400C, 72h) - Q to iced water - reground - one more same process" Large enhancement of the CDW resistivity anomaly and traces of superconductivity in imperfect samples of NbTe4 2018 "Escola de Engenharia de Lorena, Universidade de Sao Paulo, Lorena, SP, 12600-970, Brazil" "Mat.Chem.Phys., 226(2018)95"
158352 MRB1120384 Bi1-xPbxPd Bi1Pd1 Bi 1 Pd 1 2019 AB4 P2<1> A 7.231 10.607 8.722 "monoclinic, alpha-BiPd structure" K 3.7 3.8 3.8 "Bi(4N),Pb(3N),Pd(3N)" "mixture - sealed in quartz tube(vac) - SIN(1273 K, 34 h) - quench" Influence of Pb doping on superconductivity of alpha-BiPd and beta-Bi2Pd alloys 2019 "Department of Chemistry, University of Science and Technology of China, Hefei, 230026, China" "Mater.Res.Bull., 112(2019)384"
158353 MRB1120384 Bi1-xPbxPd Bi0.9Pb0.1Pd1 Bi 0.9 Pb 0.1 Pd 1 1 2019 AB P2<1> A 7.214 10.628 8.722 "monoclinic, alpha-BiPd structure" K 3.3 3.2 3.2 "Bi(4N),Pb(3N),Pd(3N)" "mixture - sealed in quartz tube(vac) - SIN(1273 K, 34 h) - quench" Influence of Pb doping on superconductivity of alpha-BiPd and beta-Bi2Pd alloys 2019 "Department of Chemistry, University of Science and Technology of China, Hefei, 230026, China" "Mater.Res.Bull., 112(2019)384"
158354 MRB1120384 Bi1-xPbxPd Bi0.8Pb0.2Pd1 Bi 0.8 Pb 0.2 Pd 1 1 2019 AB P2<1> A 7.218 10.579 8.73 "monoclinic, alpha-BiPd structure" K 2.7 2.6 2.6 "Bi(4N),Pb(3N),Pd(3N)" "mixture - sealed in quartz tube(vac) - SIN(1273 K, 34 h) - quench" Influence of Pb doping on superconductivity of alpha-BiPd and beta-Bi2Pd alloys 2019 "Department of Chemistry, University of Science and Technology of China, Hefei, 230026, China" "Mater.Res.Bull., 112(2019)384"
158355 MRB1120384 Bi1-xPbxPd Bi0.7Pb0.3Pd1 Bi 0.7 Pb 0.3 Pd 1 1 2019 AB P2<1> A 7.208 10.503 8.742 "monoclinic, alpha-BiPd structure" K 2 "Bi(4N),Pb(3N),Pd(3N)" "mixture - sealed in quartz tube(vac) - SIN(1273 K, 34 h) - quench" Influence of Pb doping on superconductivity of alpha-BiPd and beta-Bi2Pd alloys 2019 "Department of Chemistry, University of Science and Technology of China, Hefei, 230026, China" "Mater.Res.Bull., 112(2019)384"
158356 MRB1120384 Bi1-xPbxPd Bi0.6Pb0.4Pd1 Bi 0.6 Pb 0.4 Pd 1 1 2019 AB P2<1> A 7.19 10.494 8.725 "monoclinic, alpha-BiPd structure" K 2 "Bi(4N),Pb(3N),Pd(3N)" "mixture - sealed in quartz tube(vac) - SIN(1273 K, 34 h) - quench" Influence of Pb doping on superconductivity of alpha-BiPd and beta-Bi2Pd alloys 2019 "Department of Chemistry, University of Science and Technology of China, Hefei, 230026, China" "Mater.Res.Bull., 112(2019)384"
158357 MRB1120384 Bi1-xPbxPd Bi0.5Pb0.5Pd1 Bi 0.5 Pb 0.5 Pd 1 1 2019 AB P2<1> A 7.243 10.42 8.685 "monoclinic, alpha-BiPd structure" K 2 "Bi(4N),Pb(3N),Pd(3N)" "mixture - sealed in quartz tube(vac) - SIN(1273 K, 34 h) - quench" Influence of Pb doping on superconductivity of alpha-BiPd and beta-Bi2Pd alloys 2019 "Department of Chemistry, University of Science and Technology of China, Hefei, 230026, China" "Mater.Res.Bull., 112(2019)384"
158358 MRB1120384 Bi2-xPbxPd Bi2Pd1 Bi 2 Pd 1 1 2019 AB2 I4/mmm A 3.348 12.983 beta-Bi2Pd K 5.3 5.3 5.3 "Bi(4N),Pb(3N),Pd(3N)" "mixture - sealed in quartz tube(vac) - SIN(1273 K, 34 h) - quench" Influence of Pb doping on superconductivity of alpha-BiPd and beta-Bi2Pd alloys 2019 "Department of Chemistry, University of Science and Technology of China, Hefei, 230026, China" "Mater.Res.Bull., 112(2019)384"
158359 MRB1120384 Bi2-xPbxPd Bi1.8Pb0.2Pd1 Bi 1.8 Pb 0.2 Pd 1 1 2019 AB2 I4/mmm A 3.336 12.971 beta-Bi2Pd K 4.5 4.4 4.4 "Bi(4N),Pb(3N),Pd(3N)" "mixture - sealed in quartz tube(vac) - SIN(1273 K, 34 h) - quench" Influence of Pb doping on superconductivity of alpha-BiPd and beta-Bi2Pd alloys 2019 "Department of Chemistry, University of Science and Technology of China, Hefei, 230026, China" "Mater.Res.Bull., 112(2019)384"
158360 MRB1120384 Bi2-xPbxPd Bi1.6Pb0.4Pd1 Bi 1.6 Pb 0.4 Pd 1 1 2019 AB2 I4/mmm A 3.339 12.941 beta-Bi2Pd K 3.1 3.1 3.1 "Bi(4N),Pb(3N),Pd(3N)" "mixture - sealed in quartz tube(vac) - SIN(1273 K, 34 h) - quench" Influence of Pb doping on superconductivity of alpha-BiPd and beta-Bi2Pd alloys 2019 "Department of Chemistry, University of Science and Technology of China, Hefei, 230026, China" "Mater.Res.Bull., 112(2019)384"
158361 MRB1120384 Bi2-xPbxPd Bi1.5Pb0.5Pd1 Bi 1.5 Pb 0.5 Pd 1 1 2019 AB2 I4/mmm A 3.336 12.958 beta-Bi2Pd K 2.4 2.5 2.5 "Bi(4N),Pb(3N),Pd(3N)" "mixture - sealed in quartz tube(vac) - SIN(1273 K, 34 h) - quench" Influence of Pb doping on superconductivity of alpha-BiPd and beta-Bi2Pd alloys 2019 "Department of Chemistry, University of Science and Technology of China, Hefei, 230026, China" "Mater.Res.Bull., 112(2019)384"
158362 MRB1120384 Bi2-xPbxPd Bi1.4Pb0.6Pd1 Bi 1.4 Pb 0.6 Pd 1 1 2019 AB2 I4/mmm A 3.341 12.917 beta-Bi2Pd K 2 "Bi(4N),Pb(3N),Pd(3N)" "mixture - sealed in quartz tube(vac) - SIN(1273 K, 34 h) - quench" Influence of Pb doping on superconductivity of alpha-BiPd and beta-Bi2Pd alloys 2019 "Department of Chemistry, University of Science and Technology of China, Hefei, 230026, China" "Mater.Res.Bull., 112(2019)384"
158363 PHB1990103 muon-SR measured at H = 350 Oe (Tc = 1.65 K). Penetration depth for H//ab and H//c measured. UPd2Al3 U1Pd2Al3 U 1 Pd 2 Al 3 3 1994 AB2C3 PrNi2Al3 K 2 2 A muon-SR 4600 4200 muon +SR studies of magnetism and superconductivity of the heavy fermion superconductor UPd2A13 1994 "Institute for Intermediate Energy Physics (ETH Zurich), CH-3232 Villigen, Switzerland" "Physica B, 199&200(2014)103"
158364 PHB4042946 R(200K) = 15.05 uOhm.cm YPd5Al2 Y1Pd5Al2 Y 1 Pd 5 Al 2 1 2009 AB2C5 ZrNi2Al5 I4/mmm A 4.121 14.823 K 0.3 mJ/mol.K2 5 SP uOhm.cm 4.53 "arc-melting - sealed in quartz tube -ANN(800 C, 7 days)" "Magnetic propertiesof RPd5Al2 (R = Y,Ce,Pr,Nd,Sm,Gd)" 2009 "Institute for Advanced Materials Research, Hiroshima University, Higashi-Hiroshima 739-8530, Japan" "Physica B, 404(2009)2946"
158365 PHB4042946 Tn = 3.9 K for poly crystal. Second Tn = 2.9 K for poly and single crystal. R(200K) = 17.76 uOhm.cm CePd5Al2 Ce1Pd5Al2 Ce 1 Pd 5 Al 2 3 2009 my-B/f.u 2.5 4.1 AB2C5 ZrNi2Al5 I4/mmm A 4.168 14.941 K 0.3 uOhm.cm 3.1 single crystals made by Czochralski method "Magnetic propertiesof RPd5Al2 (R = Y,Ce,Pr,Nd,Sm,Gd)" 2009 "Institute for Advanced Materials Research, Hiroshima University, Higashi-Hiroshima 739-8530, Japan" "Physica B, 404(2009)2946"
158366 PHB4042946 no magnetic order down to 0.3 K. R(200K) = 8.07 uOhm.cm PrPd5Al2 Pr1Pd5Al2 Pr 1 Pd 5 Al 2 1 2009 my-B/f.u 3.79 AB2C5 ZrNi2Al5 I4/mmm A 4.156 14.938 K 0.3 uOhm.cm 2.01 "arc-melting - sealed in quartz tube -ANN(800 C, 7 days)" "Magnetic propertiesof RPd5Al2 (R = Y,Ce,Pr,Nd,Sm,Gd)" 2009 "Institute for Advanced Materials Research, Hiroshima University, Higashi-Hiroshima 739-8530, Japan" "Physica B, 404(2009)2946"
158367 PHB4042946 Tn from SP measurement. R(200K) = 21.04 uOhm.cm NdPd5Al2 Nd1Pd5Al2 Nd 1 Pd 5 Al 2 1 2009 my-B/f.u 3.7 1.2 AB2C5 ZrNi2Al5 I4/mmm A 4.149 14.905 K 0.3 uOhm.cm 6.39 "arc-melting - sealed in quartz tube -ANN(800 C, 7 days)" "Magnetic propertiesof RPd5Al2 (R = Y,Ce,Pr,Nd,Sm,Gd)" 2009 "Institute for Advanced Materials Research, Hiroshima University, Higashi-Hiroshima 739-8530, Japan" "Physica B, 404(2009)2946"
158368 PHB4042946 "Tn from SP measurement," SmPd5Al2 Sm1Pd5Al2 Sm 1 Pd 5 Al 2 1 2009 1.7 AB2C5 ZrNi2Al5 I4/mmm A 4.136 14.86 K 0.3 "arc-melting - sealed in quartz tube -ANN(800 C, 7 days)" "Magnetic propertiesof RPd5Al2 (R = Y,Ce,Pr,Nd,Sm,Gd)" 2009 "Institute for Advanced Materials Research, Hiroshima University, Higashi-Hiroshima 739-8530, Japan" "Physica B, 404(2009)2946"
158369 PHB4042946 R(200K) = 9.31 uOhm.cm GdPd5Al2 Gd1Pd5Al2 Gd 1 Pd 5 Al 2 1 2009 AB2C5 ZrNi2Al5 I4/mmm A 4.125 14.801 K 0.3 uOhm.cm 2.245 "arc-melting - sealed in quartz tube -ANN(800 C, 7 days)" "Magnetic propertiesof RPd5Al2 (R = Y,Ce,Pr,Nd,Sm,Gd)" 2009 "Institute for Advanced Materials Research, Hiroshima University, Higashi-Hiroshima 739-8530, Japan" "Physica B, 404(2009)2946"
158370 PHC5560019 "RRR = 4.6. SP (beta) = 2.72 mJ/mol.K4. (dC/gamma*Tc) = 1.20, Tc(SP mid) = 2.27 K" SrTa2S5 Sr1Ta2S5 Sr 1 Ta 2 S 5 2019 AB2C5 7 A 3.318 24.03 hexagonal K 2.4 2.4 T "RES(0.5Rn), (1-t^2) fitting" 2.32 2.17 0.6 T/K RES(0.5Rn) 1.435 MHC158370 A from Hc2 3.3 A 3200 meV 0.288 2.95 14 MSP158370 mJ/mol.K2 7.62 SP 89.4 SP mOhm.cm 0.445 2.136 cm3/C 0.0168 n/cm3 3.72E+20 several heat process in CS2/N2 gas flow. Details see text. Physical properties and superconductivity of SrTa2S5 2019 "Physics Department, Montana State University, Bozeman, MT 59717-3840, USA" "Physica C, 556(2019)19"
158371 PRB0133843 Na-intercalated MoS2. 0.3 =< x =< 0.6 in NaxMoS2. NaxMoS2 Na0.4Mo1S2 Na 0.4 Mo 1 S 2 1976 2 tetra- K 3.6 3.6 T 5 0.76 T/K 2 0.3 MHC158371 Alkali or alkaline-earth metals dissolved in liquid ammonia with MoS2 for intercalated materials Superconducting critical fields of alkali and alkalne-earth intercalates of MoS2 1976 "NASA Levvis Research Center, Cleveland, Ohio 44135" "Phys.Rev.B, 13(1976)3843"
158372 PRB0133843 Ca-intercalated MoS2. 0.05 =< x =< 0.07 in CaxMoS2. CaxMoS2 Ca0.06Mo1S2 Ca 0.06 Mo 1 S 2 1976 3 ortho- K 4 4 T 2.1 0.65 T/K 1.8 0.3 MHC158372 Alkali or alkaline-earth metals dissolved in liquid ammonia with MoS2 for intercalated materials Superconducting critical fields of alkali and alkalne-earth intercalates of MoS2 1976 "NASA Levvis Research Center, Cleveland, Ohio 44135" "Phys.Rev.B, 13(1976)3843"
158373 PRB0133843 Sr-intercalated MoS2. 0.06 =< x =< 0.1 in SrxMoS2. SrxMoS2 Sr0.08Mo1S2 Sr 0.08 Mo 1 S 2 1976 2 tetra- K 5.6 5.6 T 4.6 1.36 T/K 1.6 0.3 MHC158373 Alkali or alkaline-earth metals dissolved in liquid ammonia with MoS2 for intercalated materials Superconducting critical fields of alkali and alkalne-earth intercalates of MoS2 1976 "NASA Levvis Research Center, Cleveland, Ohio 44135" "Phys.Rev.B, 13(1976)3843"
158374 PRB0133843 K-intercalated MoS2 K0.4MoS2 K0.4Mo1S2 K 0.4 Mo 1 S 2 1976 7 hexagonal K 6.9 6.9 T 4 T/K 4 0.7 Alkali or alkaline-earth metals dissolved in liquid ammonia with MoS2 for intercalated materials Superconducting critical fields of alkali and alkalne-earth intercalates of MoS2 1976 "NASA Levvis Research Center, Cleveland, Ohio 44135" "Phys.Rev.B, 13(1976)3843"
158375 PRB0133843 Rb-intercalated MoS2 Rb0.3MoS2 Rb0.3Mo1S2 Rb 0.3 Mo 1 S 2 1976 7 hexagonal K 6.9 6.9 T 4 T/K 3 0.8 Alkali or alkaline-earth metals dissolved in liquid ammonia with MoS2 for intercalated materials Superconducting critical fields of alkali and alkalne-earth intercalates of MoS2 1976 "NASA Levvis Research Center, Cleveland, Ohio 44135" "Phys.Rev.B, 13(1976)3843"
158376 PRB0133843 Cs-intercalated MoS2 Cs0.3MoS2 Cs0.3Mo1S2 Cs 0.3 Mo 1 S 2 1976 7 hexagonal K 6.9 6.9 T 22 3.3 T/K 5 0.6 MHC158376 Alkali or alkaline-earth metals dissolved in liquid ammonia with MoS2 for intercalated materials Superconducting critical fields of alkali and alkalne-earth intercalates of MoS2 1976 "NASA Levvis Research Center, Cleveland, Ohio 44135" "Phys.Rev.B, 13(1976)3843"
158377 PRB0315775 As-arc melted sample. Cr1-xRex Cr0.82Re0.18 Cr 0.82 Re 0.18 1 1985 1 A 2.9342 cubic K 0.49 0.49 kOe "RES(0.5Rn), extrapolation" 1.67 MHC158377 mJ/mol.K2 2.48 "Cr(4N),Re(4N)" arc-melting Itinerant-electron antiferromagnetism and superconductivity in bcc Cr-Re alloys 1985 "Electrotechnical Laboratory, Sakura-mura, Ibaraki 305, Japan" "Phys.Rev.B, 31(1985)5775"
158378 PRB0315775 As-arc melted sample. Cr1-xRex Cr0.74Re0.26 Cr 0.74 Re 0.26 1 1985 1 A 2.9511 cubic K 2.69 2.69 kOe "RES(0.5Rn), extrapolation" 5.8 MHC158377 mJ/mol.K2 5.39 "Cr(4N),Re(4N)" arc-melting Itinerant-electron antiferromagnetism and superconductivity in bcc Cr-Re alloys 1985 "Electrotechnical Laboratory, Sakura-mura, Ibaraki 305, Japan" "Phys.Rev.B, 31(1985)5775"
158379 PRB0315775 As-arc melted sample. Cr1-xRex Cr0.66Re0.34 Cr 0.66 Re 0.34 1 1985 1 A 2.9697 cubic K 4.19 4.19 MTC158379 kOe "RES(0.5Rn), extrapolation" 13.6 MHC158377 mJ/mol.K2 5.58 "Cr(4N),Re(4N)" arc-melting Itinerant-electron antiferromagnetism and superconductivity in bcc Cr-Re alloys 1985 "Electrotechnical Laboratory, Sakura-mura, Ibaraki 305, Japan" "Phys.Rev.B, 31(1985)5775"
158380 PRB0315775 As-arc melted sample. Cr1-xRex Cr0.6Re0.4 Cr 0.6 Re 0.4 1 1985 1 A 2.9817 cubic K 5.49 5.49 MTC158380 kOe "RES(0.5Rn), extrapolation" 24.1 MHC158377 mJ/mol.K2 5.96 "Cr(4N),Re(4N)" arc-melting Itinerant-electron antiferromagnetism and superconductivity in bcc Cr-Re alloys 1985 "Electrotechnical Laboratory, Sakura-mura, Ibaraki 305, Japan" "Phys.Rev.B, 31(1985)5775"
158381 PRB0315775 Annealed sample. FIG shows annealing effect of Tc and Hc2 Cr1-xRex Cr0.74Re0.26 Cr 0.74 Re 0.26 3 1985 1 cubic K 2.75 2.75 MTC158381 MHC158381 "Cr(4N),Re(4N)" arc-melting Itinerant-electron antiferromagnetism and superconductivity in bcc Cr-Re alloys 1985 "Electrotechnical Laboratory, Sakura-mura, Ibaraki 305, Japan" "Phys.Rev.B, 31(1985)5775"
158383 PRB0343446 Tn appears for x =< 0.14. Cr1-xRux Cr0.86Ru0.14 Cr 0.86 Ru 0.14 1 1986 A 2.9145 bcc K 0.5 "Cr(4N),Ru(3N)" arc-melting Superconductivity and magnetism of bcc Cr-Ru alloys 1986 "Electrotechnical Laboratory, Sakura-mura, Ibaraki 305, Japan" "Phys.Rev.B, 34(1986)3446"
158384 PRB0343446 Cr1-xRux Cr0.82Ru0.18 Cr 0.82 Ru 0.18 1 1986 A 2.9244 bcc K 1.42 1.42 T RES(0.5Rn) 0.88 0.5 MHC158384 "Cr(4N),Ru(3N)" arc-melting Superconductivity and magnetism of bcc Cr-Ru alloys 1986 "Electrotechnical Laboratory, Sakura-mura, Ibaraki 305, Japan" "Phys.Rev.B, 34(1986)3446"
158385 PRB0343446 "(C/gamma*Tc) = 1.28, Tc(peak) = 1.87 K." Cr1-xRux Cr0.75Ru0.25 Cr 0.75 Ru 0.25 1 1986 A 2.9357 bcc K 2.4 0.05 2.4 Oe M-H curve 143 0.51 T RES(0.5Rn) 2.9 0.5 MHC158385 MSP158385 mJ/mol.K2 "Cr(4N),Ru(3N)" arc-melting Superconductivity and magnetism of bcc Cr-Ru alloys 1986 "Electrotechnical Laboratory, Sakura-mura, Ibaraki 305, Japan" "Phys.Rev.B, 34(1986)3446"
158386 PRB0343446 Tc not given Cr1-xRux Cr0.72Ru0.28 Cr 0.72 Ru 0.28 1 1986 A 2.9426 bcc K "Cr(4N),Ru(3N)" arc-melting Superconductivity and magnetism of bcc Cr-Ru alloys 1986 "Electrotechnical Laboratory, Sakura-mura, Ibaraki 305, Japan" "Phys.Rev.B, 34(1986)3446"
158387 PRB0343446 "A15 compound. ANN(800C, 2 weeks)" Cr3Ru Cr3Ru1 Cr 3 Ru 1 1 1986 A15 A 4.677 K 3.25 3.25 T RES(0.5Rn) 4.2 1 MHC158387 "Cr(4N),Ru(3N)" arc-melting Superconductivity and magnetism of bcc Cr-Ru alloys 1986 "Electrotechnical Laboratory, Sakura-mura, Ibaraki 305, Japan" "Phys.Rev.B, 34(1986)3446"
158388 PRB077092405 modified Curie-Weiss law for T > 10 K.. not SC. PuPd5Al2 Pu1Pd5Al2 Pu 1 Pd 5 Al 2 3 2008 emu/mol 0.00069 myu-B 1.05 -12.5 5.6 AB2C5 ZrNi2Al5 I4/mmm A 4.1302 14.8428 K 2 MSP158388 mJ/mol.K2 67 uV/K -7 MTP158388 uOhm.cm 6.36 arc-melting. small single crystals (0.03*0.2*0.05 mm3) obtained from as arc-melted sample Magnetic and electronic properties of antiferromagnetic PuPd5Al2 2008 "European Commission, Joint Research Centre, Institute for Transuranium Elements, Postfach 2340, 76125 Karlsruhe, Germany" "Phys.Rev.B, 77(2008)092405"
158389 PRB077165129 not SC. Tn measured by SP and SUS. Tn = 9.0 K in text. Nd1-xCexCoIn5 Nd1Co1In5 Nd 1 Co 1 In 5 3 2008 8.6 ABC5 HoCoGa5 4.591 7.5126 K 0.5 flux method using excess In Composition and field-tuned magnetism and superconductivity in Nd1-xCexCoIn5 2008 "Condensed Matter Physics, Brookhaven National Laboratory, Upton, New York 11973-5000, USA" "Phys.Rev.B, 77(2008)165129"
158390 PRB077165129 not SC. Tn measured by SP and SUS Nd1-xCexCoIn5 Ce0.2Nd0.8Co1In5 Ce 0.2 Nd 0.8 Co 1 In 5 3 2008 8.4 ABC5 HoCoGa5 4.5938 7.5292 K 0.5 flux method using excess In Composition and field-tuned magnetism and superconductivity in Nd1-xCexCoIn5 2008 "Condensed Matter Physics, Brookhaven National Laboratory, Upton, New York 11973-5000, USA" "Phys.Rev.B, 77(2008)165129"
158391 PRB077165129 not SC. Tn measured by SP and SUS Nd1-xCexCoIn5 Ce0.4Nd0.6Co1In5 Ce 0.4 Nd 0.6 Co 1 In 5 3 2008 4.5 ABC5 HoCoGa5 4.6004 7.5331 K 0.5 MPH158391 flux method using excess In Composition and field-tuned magnetism and superconductivity in Nd1-xCexCoIn5 2008 "Condensed Matter Physics, Brookhaven National Laboratory, Upton, New York 11973-5000, USA" "Phys.Rev.B, 77(2008)165129"
158392 PRB077165129 not SC. Tn measured by SP and SUS. Tcoh (in FIg shows coherence T of Kondo lattice ) = 27 K. Nd1-xCexCoIn5 Ce0.6Nd0.4Co1In5 Ce 0.6 Nd 0.4 Co 1 In 5 3 2008 1.81 ABC5 HoCoGa5 4.6053 7.5407 K 0.5 MLAT158392 flux method using excess In Composition and field-tuned magnetism and superconductivity in Nd1-xCexCoIn5 2008 "Condensed Matter Physics, Brookhaven National Laboratory, Upton, New York 11973-5000, USA" "Phys.Rev.B, 77(2008)165129"
158393 PRB077165129 Tcoh (in FIg shows coherence T of Kondo lattice ) = 36 K. Tm(in Fig shows anomaly in C/T below Tc) = 1.31 K Nd1-xCexCoIn5 Ce0.83Nd0.17Co1In5 Ce 0.83 Nd 0.17 Co 1 In 5 3 2008 ABC5 HoCoGa5 K 0.74 0.74 flux method using excess In Composition and field-tuned magnetism and superconductivity in Nd1-xCexCoIn5 2008 "Condensed Matter Physics, Brookhaven National Laboratory, Upton, New York 11973-5000, USA" "Phys.Rev.B, 77(2008)165129"
158394 PRB077165129 Tm(in Fig shows anomaly in C/T below Tc) = 0.6 K Nd1-xCexCoIn5 Ce0.95Nd0.05Co1In5 Ce 0.95 Nd 0.05 Co 1 In 5 3 2008 ABC5 HoCoGa5 K 1.97 1.97 flux method using excess In Composition and field-tuned magnetism and superconductivity in Nd1-xCexCoIn5 2008 "Condensed Matter Physics, Brookhaven National Laboratory, Upton, New York 11973-5000, USA" "Phys.Rev.B, 77(2008)165129"
158395 PRB077165129 Tcoh (in FIg shows coherence T of Kondo lattice ) = 45.6K. Nd1-xCexCoIn5 Ce1Co1In5 Ce 1 Co 1 In 5 3 2008 ABC5 HoCoGa5 4.6128 7.5514 K 2.26 2.26 flux method using excess In Composition and field-tuned magnetism and superconductivity in Nd1-xCexCoIn5 2008 "Condensed Matter Physics, Brookhaven National Laboratory, Upton, New York 11973-5000, USA" "Phys.Rev.B, 77(2008)165129"
158396 PRB091180404 not bulk SC. Cluster spin glass state below 5 K. Semicon-like R(T) for T* < 60 K. Curie-Weiss law for T > 60 K. KCr3As3 K1Cr3As3 K 1 Cr 3 As 3 2015 emu/mol-Cr 0.0003 my-B/Cr 0.68 -83 AB3C3 AlFe3Te3 P6<3>/m 176 A 9.0909 4.1806 133-phase K 4 MSP158396 mOhm.cm 3.5 1 Cluster spin-glass ground state in quasi-one-dimensional KCr3As3 2015 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Phys.Rev.B, 91(2015)180404"
158397 PRB092195122 ".P = 0.15 GPa. For P = 0, Tc = 6.79 K from (dTc/dP)." Ca3Ir4Sn13 Ca3Ir4Sn13 Ca 3 Ir 4 Sn 13 3 2015 A3B4C13 Yb3Rh4Sn13 K 6.97 6.97 MTC158397 K/GPa 0.592 um muon-SR 0.344 2.48 16 "See Phys.Rev.B, 86(2012)024522" Strong enhancement of s-wave superconductivity near a quantum critical point of Ca3Ir4Sn13 2015 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 92(2015)195122"
158398 PRB092195122 P = 1.13 GPa. d(1/pen^2)/dP = 2.84 um^(-2)/Gpa for P =< Pc . Pc = 1.6 GPa Ca3Ir4Sn13 Ca3Ir4Sn13 Ca 3 Ir 4 Sn 13 3 2015 A3B4C13 Yb3Rh4Sn13 K 7.69 7.69 MPEN158398 um muon-SR 0.302 2.24 16 "See Phys.Rev.B, 86(2012)024522" Strong enhancement of s-wave superconductivity near a quantum critical point of Ca3Ir4Sn13 2015 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 92(2015)195122"
158399 PRB092195122 P = 2.18 Gpa. d(1/pen^2)/dP = 10.17 um^(-2)/Gpa for P >= Pc . Pc = 1.6 GPa Ca3Ir4Sn13 Ca3Ir4Sn13 Ca 3 Ir 4 Sn 13 3 2015 A3B4C13 Yb3Rh4Sn13 K 8.09 8.09 MGAP158399 um muon-SR 0.233 3.41 16 "See Phys.Rev.B, 86(2012)024522" Strong enhancement of s-wave superconductivity near a quantum critical point of Ca3Ir4Sn13 2015 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.B, 92(2015)195122"
158400 PRB093241112 "Structural phase transition at 152 K from R(T) & C(T). SP (beta) = 3.53 mJ/mol.K4. (dC/gamma*Tc) = 1.93. R = R0 + A*T^2, R0=24.9 uOhm.cm, A = 0.026 uOhm.cm/T^2" La3Co4Sn13 La3Co4Sn13 La 3 Co 4 Sn 13 3 2016 A3B4C13 Yb3Rh4Sn13 Pm3[-]n K 2.7 2.7 mJ/mol.K2 27.87 "La(3N),Co(3N),Sn(3N)" Flux method. Mixture(La:Co:Sn = 2:1:30) - sealed in quartz tube - heat(1050 C) - cool to 600 C(3 C/h) - remove excess Sn after reheating to 500 C Second-order structural transition in the superconductor La3Co4Sn13 2016 "Department of Physics, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China" "Phys.Rev.B, 93(2016)241112"
158401 PRB093245119 "T*(=T) = 135.2 K from SP data. Below T*, CDW appears. (dT*/dP) = -1.9 K/kbar from linear thermal expansion coefficient." Sr3Rh4Sn13 Sr3Rh4Sn13 Sr 3 Rh 4 Sn 13 3 2016 A3B4C13 Yb3Rh4Sn13 Pm3[-]n K MSP158401 self-flux method Comparative study of thermodynamic properties near the structural phase transitions in Sr3Rh4Sn13 and Sr3Ir4Sn13 2016 "Department of Physics, National Cheng Kung University, Tainan 70101, Taiwan" "Phys.Rev.B, 93(2016)245119"
158402 PRB093245119 "T*(=T) = 146.3 K from SP data. Below T*, CDW appears. (dT*/dP) = -1.6 K/kbar from linear thermal expansion coefficient." Sr3Ir4Sn13 Sr3Ir4Sn13 Sr 3 Ir 4 Sn 13 3 2016 A3B4C13 Yb3Rh4Sn13 Pm3[-]n K MSP158402 self-flux method Comparative study of thermodynamic properties near the structural phase transitions in Sr3Rh4Sn13 and Sr3Ir4Sn13 2016 "Department of Physics, National Cheng Kung University, Tainan 70101, Taiwan" "Phys.Rev.B, 93(2016)245119"
158403 PRB096064521 "RRR = 1.09. Debye-T = 237 K from R(T). SP (beta) = 0.35 mJ/mol.K4, (delta) = 1.2 uJ/mol.K6. (dC/gamma*Tc) = 1.60. GL = 46.2." Re6Zr Re6Zr1 Re 6 Zr 1 1 2017 AB6 alpha-Mn I4[-]3m K 6.75 6.7 0.2 6.75 mT "M-H curve, (1-t^2)" 10.3 T SUS. WHH 11.2 T/K SUS 2.44 MHC158403 nm from Hc2 5.37 nm 247 3.72 14 MSP158403 mJ/mol.K2 26.9 SP 338 SP uOhm.cm 142 "Re(4N),Zr(4N)" arc-melting. Several times. Superconducting and normal-state properties of the noncentrosymmetric superconductor Re6Zr 2017 "Physics Department, University of Warwick, Coventry CV4 7AL, United Kingdom" "Phys.Rev.B, 96(2017)064521"
158404 PRB096140504 R(T) shows semiconducting behaviour below 100 K. KCr3As3 K1Cr3As3 K 1 Cr 3 As 3 3 2017 AB3C3 AlFe3Te3 P6<3>/m 176 A 9.09 4.182 133-phase K 3 4.5 3.75 9 mOhm.cm 0.765 133-type single crystals prepared by intercalation of K from 233-type crystals ( immersing in dehydrated ethanol) Superconductivity at 5 K in quasi-one-dimensional Cr-based KCr3As3 single crystals 2017 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 96(2017)140504"
158405 PRB096140504 RRR = 3. SP (dC/gamma*Tc) = 0.47. KCr3As3 K1Cr3As3 K 1 Cr 3 As 3 3 2017 AB3C3 AlFe3Te3 P6<3>/m 176 133-phase K 4.54 5 4.77 98 T "RES(0.5Rn), GL fitting" 20.8 MHC158405 MSP158405 mJ/mol.K2 81.31 SP 319 SP mOhm.cm 0.16 0.492 "(#158404 sample) - ANN(373 K, 12 h, in evacuated quartz tube)" Superconductivity at 5 K in quasi-one-dimensional Cr-based KCr3As3 single crystals 2017 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 96(2017)140504"
158406 PRB096140501 "Structural phase transition Tetra-to-hcT (half collapsed tetra) at 4 GPa. For P >= 4 Gpa, hcT phase stabilized and not bulk SC." CaKFe4As4 Ca1K1Fe4As4 Ca 1 K 1 Fe 4 As 4 3 2017 ABC4D4 CaRb1144 P4/mmm K 35 35 35.6 0.2 35.6 MTC158406 single crystals grown using high-T solution growth technique Pressure-induced half-collapsed-tetragonal phase in CaKFe4As4 2017 "Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 96(2017)140501"
158407 PRB098214505 "SP (beta) = 1.83 mJ/mol.K4. (delta) = 0.49 uJ/mol.K6. GL(kappa) = 23. (dC/gamma*Tc) = 1.17. Hc(0) = 21 mT. gap d = 0.46 meV, 2d = 3.58 kTc from muon-SR" LaPtGe La1Pt1Ge1 La 1 Pt 1 Ge 1 1 2018 ABC LaPtSi I4<1>md 109 A 4.2655 14.9654 K 3.05 3.05 3.05 100 mT "M-H curve, (1-t^2)" 2.1 T "RES(on), GL fitting" 0.69 T/K RES(on) 0.67 MHC158407 A from Hc2 218 A from Hc1 5047 3.2 14 MSP158407 mJ/mol.K2 6.6 SP 147 SP uOhm.cm 195 400 "La(4N),Pt(4N),Ge(4N)" "arc-melting , several times" Superconducting properties of the noncentrosymmetric superconductor LaPtGe 2018 "Department of Physics, Indian Institute of Science Education and Research Bhopal, Bhopal 462066, India" "Phys.Rev.B, 98(2018)214505"
158408 PRB098214509 "Three phases, alpha-(P =< 0.33), beta-(0.33 < P =<1.05), gamma-(1.05 < P < 2.13 GPa). Hc2(T) measured for three phases" BaBi3 Ba1Bi3 Ba 1 Bi 3 3 2018 AB3 P4/mmm A 5.06 5.13 K MTC158408 Bi-self flux method Pressure-induced multiple phase transformations of the BaBi3 superconductor 2018 "Ames Laboratory, Iowa State University, Ames, Iowa 50011, USA" "Phys.Rev.B, 98(2018)214509"
158409 PRB098214517 RRR = 1.1. SP (beta) = 0.169 mJ/mol.K4. dC = 8.14 mJ/mol.K. (dC/gamma*Tc) = 1.42. e-ph = 0.49. GL = 111. Ru0.75Rh0.25As Ru0.75Rh0.25As1 Ru 0.75 Rh 0.25 As 1 1 2018 AB 3 MnP Pnma A 5.6322 3.473 6.2065 K 1.63 1.8 1.6 1.6 100 mT M-H curve 5.4 T "R(T), extrapolation" 2.6 T/K 1.72 MHC158409 nm from Hc2 11 nm muon-SR 487 meV 0.25 3.62 16 MSP158409 mJ/mol.K2 3.79 SP 284 SP mOhm.cm 7.25 "Ru(3N),Rh(4N),P(3N5),As(5N)" "mixture - pellet - sealed in quartz tube - SIN(1100 C for P, 1000 C for AS, 60 h) - reground - SIN(1100 C for P, 1000 C for AS, 80 h)" Superconductivity in Ru0.55Rh0.45P and Ru0.75Rh0.25As probed by muon spin relaxation and rotation measurements 2018 "Helmholtz-Zentrum Berlin fur Materialien und Energie GmbH, Hahn-Meitner Platz 1, D-14109 Berlin, Germany" "Phys.Rev.B, 98(2018)214517"
158410 PRB098214517 RRR = 1.2. SP (beta) = 0.078 mJ/mol.K4. dC = 5.4 mJ/mol.K. (dC/gamma*Tc) = 1.42. e-ph = 0.56. GL = 93. Ru0.55Rh0.45P Ru0.55Rh0.45P1 Ru 0.55 Rh 0.45 P 1 1 2018 AB 3 MnP Pnma A 5.423 3.3891 5.9255 K 3.8 3.9 3.7 3.7 100 mT M-H curve 5.6 T "R(T), extrapolation" 3.3 T/K 1.08 MHC158410 nm from Hc2 10 nm muon-SR 309 meV 0.57 3.56 16 MSP158410 mJ/mol.K2 1.03 SP 368 SP mOhm.cm 0.55 "Ru(3N),Rh(4N),P(3N5),As(5N)" "mixture - pellet - sealed in quartz tube - SIN(1100 C for P, 1000 C for AS, 60 h) - reground - SIN(1100 C for P, 1000 C for AS, 80 h)" Superconductivity in Ru0.55Rh0.45P and Ru0.75Rh0.25As probed by muon spin relaxation and rotation measurements 2018 "Helmholtz-Zentrum Berlin fur Materialien und Energie GmbH, Hahn-Meitner Platz 1, D-14109 Berlin, Germany" "Phys.Rev.B, 98(2018)214517"
158411 PRB098220507 nematic transition at about 45 K observed in asymmetry factor measured by NQR. BaTi2Bi2O Ba1Ti2Bi2O1 Ba 1 Ti 2 Bi 2 O 1 2018 ABC2D2 P4/mmm 123 nematic K 4.6 4.6 "BaO,Ti,Bi" solid state reaction. mixture - pellet - wrapped in Ta-foil - sealed in quartz tube - heat (850 C). poly sample mixed with Araldite adhesive Nematic transition and highly two-dimensional superconductivity in BaTi2Bi2O revealed by <209>Bi-nuclear magnetic resonance/nuclear quadrupole resonance measurements 2018 "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" "Phys.Rev.B, 98(2018)220507"
158412 PRB098224505 "SC gaps measured by infrared spectroscopy. There are three gaps. 2d/kTc = 1.97, 3.63, 5.44. The largest one , 5.44 in DB. gap-origin discussed in text." BaFe1.9Pt0.1As2 Ba1Fe1.9Pt0.1As2 Ba 1 Fe 1.9 Pt 0.1 As 2 3 2018 AB2C2 ThCr2Si2 K 23 23 meV 5.1 5.44 2 single crystals grown using FeAs self-flux method Strong electron-boson coupling in the iron-based superconductor BaFe1.9Pt0.1As2 revealed by infrared spectroscopy 2018 "Department of Physics, College of William & Mary, Williamsburg, Virginia 23187-8795, USA" "Phys.Rev.B, 98(2018)224505"
158413 PRB098220512 "In-plane anisotropy of Hc2, C are measured. C depends on H-direction (H//a or H//b)" Cu1.5(PbSe)5(Bi2Se3)6 Cu1.5Pb5Bi6Se23 Cu 1.5 Pb 5 Bi 6 Se 23 3 2018 K 2.7 2.7 75 T RES(0.5Rn) MHC158413 Modified Bridgman method Nematic superconductivity in Cu1.5(PbSe)5(Bi2Se3)6 2018 "Physics Institute II, University of Cologne, 50937 Koln, Germany" "Phys.Rev.B, 98(2018)220512"
158414 PRB098220512 "same as #158413, only different of SC volume fraction." Cu1.5(PbSe)5(Bi2Se3)6 Cu1.5Pb5Bi6Se23 Cu 1.5 Pb 5 Bi 6 Se 23 3 2018 K 2.7 2.7 104 T RES(0.5Rn) MHC158414 MSP158414 Modified Bridgman method Nematic superconductivity in Cu1.5(PbSe)5(Bi2Se3)6 2018 "Physics Institute II, University of Cologne, 50937 Koln, Germany" "Phys.Rev.B, 98(2018)220512"
158415 PRB098220506 "RRR = 90.SP (beta) = 13.86 mJ/mol.K4. C/gamma*Tc) = 0.67. e-ph = 0.98. kappa(GL) = 10.35. (dTc/dP) = -0.55 for P < Pc(0.88 GPa, = -0.73 K/GPa for P>Pc" BaBi3 Ba1Bi3 Ba 1 Bi 3 2018 AB3 2 I4/mmm K 5.95 6 5.975 MTC158415 K/GPa -0.55 100 Oe "M-H curve, (1-t^2)" 237.8 T WHH 21.8 MHC158415 nm from Hc2 12.3 nm London 127.3 3.28 14 MSP158415 mJ/mol.K2 49.19 SP 149 SP uOhm.cm 356 Two distinct superconducting phases and pressure-induced crossover from type-II to type-I superconductivity in the spin-orbit-coupled superconductors BaBi3 and SrBi3 2018 "Beijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 98(2018)220506"
158416 PRB098220506 RRR = 549.SP (beta) = 5.84 mJ/mol.K4. C/gamma*Tc) = 2.41. e-ph = 0.93. kappa(GL) = 0.76 SrBi3 Bi3Sr1 Bi 3 Sr 1 2018 AB3 K 5.5 5.6 5.55 MTC158416 K/GPa -0.49 85 Oe "M-H curve, (1-t^2)" 488.7 T WHH 1.9 MHC158416 nm from Hc2 42.28 nm London 31.79 6.09 14 MSP158416 mJ/mol.K2 11.03 SP 180 SP uOhm.cm 0.11 Two distinct superconducting phases and pressure-induced crossover from type-II to type-I superconductivity in the spin-orbit-coupled superconductors BaBi3 and SrBi3 2018 "Beijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 98(2018)220506"
158417 PRB098235130 "RRR = 18. not SC down to 2 K. For hydrostatic P upto 2.13 GP, SC not observed in R(T), C(T) and Hall effect." SrAg4As2 Sr1Ag4As2 Sr 1 Ag 4 As 2 3 2018 AB2C4 R3[-]m K 2 140 SP uOhm.cm 3 "Sr,Ag2As" Single crystals grown by self-flux method. mixture(Sr:Ag2As = 1:4) - in alumina crucible - sealed in quartz tube - heat to 1100 C - slow cool to 650 C(5 C/h) Significant change in the electronic behavior associated with structural distortions in monocrystalline SrAg4As2 2018 "Department of Physics and Astronomy and California NanoSystems Institute, University of California, Los Angeles, California 90095, USA" "Phys.Rev.B, 98(2018)235130"
158418 PRB099014501 "T*(cohere-incohere crossover temp) = 150 K. R(T) = R0 + A*T^n for Tc < T 80 K, n =1.05" KCa2Fe4As4F2 K1Ca2Fe4As4F2 K 1 Ca 2 Fe 4 As 4 F 2 1 2019 AB2C2D4E4 I4/mmm 139 A 3.8785 31.282 12442-type structure. 2(CaFeAs +KFe2As2 K 32.2 33.5 33.2 33.2 MTC158418 mOhm.cm 0.257 solid state reaction Pressure-induced enhancement of superconductivity and quantum criticality in the 12442-type hybrid-structure superconductor KCa2Fe4As4F2 2019 "Beijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 99(2019)014501"
158419 PRB099014501 "Data for P = 9.5 GPa. T*(cohere-incohere crossover temp) = 224 K. R(T) = R0 + A*T^n for Tc < T 80 K, n =1.8" KCa2Fe4As4F2 K1Ca2Fe4As4F2 K 1 Ca 2 Fe 4 As 4 F 2 1 2019 AB2C2D4E4 A 3.736 29.0388 12442-type structure. 2(CaFeAs +KFe2As2 K 18 28.6 23.3 MLAT158419 mOhm.cm 0.06 solid state reaction Pressure-induced enhancement of superconductivity and quantum criticality in the 12442-type hybrid-structure superconductor KCa2Fe4As4F2 2019 "Beijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 99(2019)014501"
158420 PRB099020503 P-induced SC. Pc = 23.8 GPa. SC properties (in DB) are for P = 45 GPa. TaIrTe4 Ta1Ir1Te4 Ta 1 Ir 1 Te 4 3 2019 ABC4 3 A 3.8 12.47 13.24 K 1.752 0 1.752 MTC158420 T "RES(on), WHH" 0.83 MHC158420 "flux method using Te as a flux.. (Ta:Ir:Te = 3:3:94) - alumina crucible - sealed in quartz tube - heat(1200 C, 3 h) - cool to 550 C (2 C/h)" Observation of superconductivity in the pressurized Weyl-semimetal candidate TaIrTe4 2019 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 99(2019)020503"
158421 PRB099020503 Data for P = 23.8 GPa. Hall coeff. (FIG) shows RH(P) at T= 10 K. Lattice const.(FIG) shows pressure dependence. TaIrTe4 Ta1Ir1Te4 Ta 1 Ir 1 Te 4 3 2019 ABC4 3 A 3.6078 11.8057 11.8933 K 0.54 0 0.54 MLAT158421 cm3/C MRH158421 "flux method using Te as a flux.. (Ta:Ir:Te = 3:3:94) - alumina crucible - sealed in quartz tube - heat(1200 C, 3 h) - cool to 550 C (2 C/h)" Observation of superconductivity in the pressurized Weyl-semimetal candidate TaIrTe4 2019 "Institute of Physics and Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 99(2019)020503"
158422 PRB099024508 P-induced SC. Pc = 90 GPa. lattice const. at P = 0 Li5MoH11 Li5Mo1H11 Li 5 Mo 1 H 11 2019 AB5C11 P6<3>cm A K 0 MLAT158422 High-P-High-T synthesis. Annealing at RT under high pressure Superconductivity of the hydrogen-rich metal hydride Li5MoH11 under high pressure 2019 "KYOKUGEN, Graduate School of Engineering Science, Osaka University, 1?3 Machikaneyama, Toyonaka, Osaka 560?8531, Japan" "Phys.Rev.B, 99(2019)024508"
158423 PRB099024508 "P-induced SC. Pc = 90 GPa. Data for P = 160 GPa. Tc defined as inflection point in R(T). For P = 160 GPa, three point , three different Hc2(T)" Li5MoH11 Li5Mo1H11 Li 5 Mo 1 H 11 2019 AB5C11 K 0 MTC158423 T RES(on) MHC158423 High-P-High-T synthesis. Annealing at RT under high pressure Superconductivity of the hydrogen-rich metal hydride Li5MoH11 under high pressure 2019 "KYOKUGEN, Graduate School of Engineering Science, Osaka University, 1?3 Machikaneyama, Toyonaka, Osaka 560?8531, Japan" "Phys.Rev.B, 99(2019)024508"
158424 PRL109237008 Substitution Ca to Sr induces negative pressure effect. x =0 (Ca3Ir4Sn13) equal to P = -52 kbar for Sr3Ir4Sn13. Tc-Fig shows Tc vs P. T* = 147 K. (CaxSr1-x)3Ir4Sn13 Sr3Ir4Sn13 Sr 3 Ir 4 Sn 13 3 2012 A3B4C13 Yb3Rh4Sn13 Pm3[-]n A 9.7968 I phase K 5 5 MTC158424 single crystals grown by flux method Pressure- and Composition-Induced Structural Quantum Phase Transition in the Cubic Superconductor dSr; CaT3Ir4Sn13 2012 "Cavendish Laboratory, University of Cambridge, J. J. Thomson Avenue, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett., 109(2012)237008"
158425 PRL109237008 T* (superlattice transition) = 82 K. (CaxSr1-x)3Ir4Sn13 Ca1.5Sr1.5Ir4Sn13 Ca 1.5 Sr 1.5 Ir 4 Sn 13 3 2012 A3B4C13 Yb3Rh4Sn13 K 5.75 5.75 MTC158425 single crystals grown by flux method Pressure- and Composition-Induced Structural Quantum Phase Transition in the Cubic Superconductor dSr; CaT3Ir4Sn13 2012 "Cavendish Laboratory, University of Cambridge, J. J. Thomson Avenue, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett., 109(2012)237008"
158426 PRL109237008 T* (superlattice transition) = 44 K. (CaxSr1-x)3Ir4Sn13 Ca2.25Sr0.75Ir4Sn13 Ca 2.25 Sr 0.75 Ir 4 Sn 13 3 2012 A3B4C13 Yb3Rh4Sn13 K 6.36 6.36 single crystals grown by flux method Pressure- and Composition-Induced Structural Quantum Phase Transition in the Cubic Superconductor dSr; CaT3Ir4Sn13 2012 "Cavendish Laboratory, University of Cambridge, J. J. Thomson Avenue, Cambridge CB3 0HE, United Kingdom" "Phys.Rev.Lett., 109(2012)237008"
158427 PRL114097002 T*(phase transition measured by R(T)) = 138 K. Chemical P (x=0) correspond to -68 kbar of x=1 in (CaxSr1-x)3Rh4Sn13. (CaxSr1-x)3Rh4Sn13 Sr3Rh4Sn13 Sr 3 Rh 4 Sn 13 3 2015 A3B4C13 Yb3Rh4Sn13 Pm3[-]n A 9.8061 Phase transition (I to I' phase at T*) K 4.65 4.65 Sn-flux method Ambient Pressure Structural Quantum Critical Point in the Phase Diagram of (CaxSr1-x)3Rh4Sn13 2015 "Department of Physics, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China" "Phys.Rev.Lett., 114(2015)097002"
158428 PRL114097002 T* = 87 K (CaxSr1-x)3Rh4Sn13 Ca0.75Sr2.25Rh4Sn13 Ca 0.75 Sr 2.25 Rh 4 Sn 13 3 2015 A3B4C13 Yb3Rh4Sn13 Phase transition (I to I' phase at T*) K 4.86 4.86 Sn-flux method Ambient Pressure Structural Quantum Critical Point in the Phase Diagram of (CaxSr1-x)3Rh4Sn13 2015 "Department of Physics, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China" "Phys.Rev.Lett., 114(2015)097002"
158429 PRL114097002 T* = 55 K (CaxSr1-x)3Rh4Sn13 Ca1.5Sr1.5Rh4Sn13 Ca 1.5 Sr 1.5 Rh 4 Sn 13 3 2015 A3B4C13 Yb3Rh4Sn13 Phase transition (I to I' phase at T*) K 6.42 6.42 MTC158429 Sn-flux method Ambient Pressure Structural Quantum Critical Point in the Phase Diagram of (CaxSr1-x)3Rh4Sn13 2015 "Department of Physics, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China" "Phys.Rev.Lett., 114(2015)097002"
158430 PRL114097002 T* = 28 K (CaxSr1-x)3Rh4Sn13 Ca2.25Sr0.75Rh4Sn13 Ca 2.25 Sr 0.75 Rh 4 Sn 13 3 2015 A3B4C13 Yb3Rh4Sn13 Phase transition (I to I' phase at T*) K 7.34 7.34 Sn-flux method Ambient Pressure Structural Quantum Critical Point in the Phase Diagram of (CaxSr1-x)3Rh4Sn13 2015 "Department of Physics, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China" "Phys.Rev.Lett., 114(2015)097002"
158431 PRL114097002 T* = 0 K. Pc = -6.8 kbar (CaxSr1-x)3Rh4Sn13 Ca2.7Sr0.3Rh4Sn13 Ca 2.7 Sr 0.3 Rh 4 Sn 13 3 2015 A3B4C13 Yb3Rh4Sn13 K 7.65 7.65 Sn-flux method Ambient Pressure Structural Quantum Critical Point in the Phase Diagram of (CaxSr1-x)3Rh4Sn13 2015 "Department of Physics, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China" "Phys.Rev.Lett., 114(2015)097002"
158432 PRL114097002 (CaxSr1-x)3Rh4Sn13 Ca3Rh4Sn13 Ca 3 Rh 4 Sn 13 3 2015 A3B4C13 Yb3Rh4Sn13 K 7.76 7.76 MTC158432 Sn-flux method Ambient Pressure Structural Quantum Critical Point in the Phase Diagram of (CaxSr1-x)3Rh4Sn13 2015 "Department of Physics, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China" "Phys.Rev.Lett., 114(2015)097002"
158433 PRL114146403 P-induced SC. Pc(Tn=0 K) at P = 3.2 GPa CeIrIn4.95Cd0.05 Ce1Ir1In4.95Cd0.05 Ce 1 Ir 1 In 4.95 Cd 0.05 3 2015 ABC5 HoCoGa5 K 1.05 0.99 0 0.99 MTC158433 self-flux method Reemergent Superconductivity and Avoided Quantum Criticality in Cd-Doped CeIrIn5 under Pressure 2015 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou 310058, China" "Phys.Rev.Lett., 114(2015)146403"
158434 PRL115207003 T*(phase transition measured by R(T)) = 138. (dC/gamma*Tc) = 1.48. Einstein-T = 47.1 K. (CaxSr1-x)3Rh4Sn13 Sr3Rh4Sn13 Sr 3 Rh 4 Sn 13 3 2015 A3B4C13 Yb3Rh4Sn13 Pm3[-]n for T > T* K 4.15 4.15 3.47 14 mJ/mol.K2 35.1 SP 244.3 SP Sn-flux method Strong Coupling Superconductivity in the Vicinity of the Structural Quantum Critical Point in (CaxSr1-x)3Rh4Sn13 2015 "Department of Physics, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China" "Phys.Rev.Lett., 115(2015)207003"
158435 PRL115207003 T*(phase transition measured by R(T)) = 92.2. (dC/gamma*Tc) = 1.87. Einstein-T = 43.9 K. (CaxSr1-x)3Rh4Sn13 Ca0.75Sr2.25Rh4Sn13 Ca 0.75 Sr 2.25 Rh 4 Sn 13 3 2015 A3B4C13 Yb3Rh4Sn13 K 4.84 4.84 4.11 14 mJ/mol.K2 36.8 SP 234.3 SP Sn-flux method Strong Coupling Superconductivity in the Vicinity of the Structural Quantum Critical Point in (CaxSr1-x)3Rh4Sn13 2015 "Department of Physics, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China" "Phys.Rev.Lett., 115(2015)207003"
158436 PRL115207003 T*(phase transition measured by R(T)) = 57.7. (dC/gamma*Tc) = 3.08. Einstein-T = 43.8 K. (CaxSr1-x)3Rh4Sn13 Ca1.5Sr1.5Rh4Sn13 Ca 1.5 Sr 1.5 Rh 4 Sn 13 3 2015 A3B4C13 Yb3Rh4Sn13 K 6.46 6.46 5.56 14 mJ/mol.K2 40.5 SP 199.7 SP Sn-flux method Strong Coupling Superconductivity in the Vicinity of the Structural Quantum Critical Point in (CaxSr1-x)3Rh4Sn13 2015 "Department of Physics, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China" "Phys.Rev.Lett., 115(2015)207003"
158437 PRL115207003 T*(phase transition measured by R(T)) = 22.4. (dC/gamma*Tc) = 3.31. Einstein-T = 33.3 K. (CaxSr1-x)3Rh4Sn13 Ca2.25Sr0.75Rh4Sn13 Ca 2.25 Sr 0.75 Rh 4 Sn 13 3 2015 A3B4C13 Yb3Rh4Sn13 K 7.5 7.5 6.04 14 mJ/mol.K2 48.2 SP 162.6 SP Sn-flux method Strong Coupling Superconductivity in the Vicinity of the Structural Quantum Critical Point in (CaxSr1-x)3Rh4Sn13 2015 "Department of Physics, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China" "Phys.Rev.Lett., 115(2015)207003"
158438 PRL115207003 (dC/gamma*Tc) = 2.91. Einstein-T = 32.1 K. (CaxSr1-x)3Rh4Sn13 Ca2.7Sr0.3Rh4Sn13 Ca 2.7 Sr 0.3 Rh 4 Sn 13 3 2015 A3B4C13 Yb3Rh4Sn13 K 7.76 7.76 6.36 14 MSP158438 mJ/mol.K2 49.7 SP 162.9 SP Sn-flux method Strong Coupling Superconductivity in the Vicinity of the Structural Quantum Critical Point in (CaxSr1-x)3Rh4Sn13 2015 "Department of Physics, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China" "Phys.Rev.Lett., 115(2015)207003"
158439 PRL115207003 (dC/gamma*Tc) = 3.46. Einstein-T = 31.6 K. (CaxSr1-x)3Rh4Sn13 Ca2.85Sr0.15Rh4Sn13 Ca 2.85 Sr 0.15 Rh 4 Sn 13 3 2015 A3B4C13 Yb3Rh4Sn13 K 7.9 7.9 6.66 14 mJ/mol.K2 51.5 SP 161.3 SP Sn-flux method Strong Coupling Superconductivity in the Vicinity of the Structural Quantum Critical Point in (CaxSr1-x)3Rh4Sn13 2015 "Department of Physics, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China" "Phys.Rev.Lett., 115(2015)207003"
158440 PRL115207003 (dC/gamma*Tc) = 2.71. Einstein-T = 32.7 K. (CaxSr1-x)3Rh4Sn13 Ca3Rh4Sn13 Ca 3 Rh 4 Sn 13 3 2015 A3B4C13 Yb3Rh4Sn13 K 7.94 7.94 5.71 14 mJ/mol.K2 59.6 SP 166.9 SP Sn-flux method Strong Coupling Superconductivity in the Vicinity of the Structural Quantum Critical Point in (CaxSr1-x)3Rh4Sn13 2015 "Department of Physics, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China" "Phys.Rev.Lett., 115(2015)207003"
158441 SST031015003 M = NH3. x and y in LixMyFe2(TezSe1-z)2 not given. compositions = (Li:Fe:Se = 0.18:1:0.9 ) by ICP-AES. H*= unpinned to pinned vortex transition. Hg= transition to vortex glass state Lix(NH3)yFe2(TezSe1-z)2 Li1M1Fe2Se2 Li 1 M 1 Fe 2 Se 2 2018 M-intercalated material K 44.36 44.36 T RES(0.9Rn) 14 43.7 MHC158441 nm from Hc2 0.27 single crystals of LiFeSe-122 and LiFeTeSe-122 were synthesized via low temperature ammonothermal technique. Transport properties of Lix(NH3)yFe2(TezSe1-z)2 single crystals in the mixed state 2018 "Department of Physics and Beijing Key Laboratory of Opto-electronic Functional Materials & Micro-nano Devices, Renmin University of China, Beijing 100872, People?s Republic of China" "Supercond.Sci.Technol., 31(2018)015003"
158442 SST031015003 M = NH3. x and y in LixMyFe2(TezSe1-z)2 not given. compositions = (Li:Fe:Te:Se= 0.16:1:0.60:0.38 ) by ICP-AES. H*= unpinned to pinned vortex transition. Hg= transition to vortex glass state Lix(NH3)yFe2(TezSe1-z)2 Li1M1Fe2Se0.4Te0.6 Li 1 M 1 Fe 2 Se 0.4 Te 0.6 2018 M-intercalated material K 20.28 20.28 T RES(0.9Rn) 14 19.7 MHC158442 nm from Hc2 0.9 single crystals of LiFeSe-122 and LiFeTeSe-122 were synthesized via low temperature ammonothermal technique. Transport properties of Lix(NH3)yFe2(TezSe1-z)2 single crystals in the mixed state 2018 "Department of Physics and Beijing Key Laboratory of Opto-electronic Functional Materials & Micro-nano Devices, Renmin University of China, Beijing 100872, People?s Republic of China" "Supercond.Sci.Technol., 31(2018)015003"
158443 SST031015020 Compositions by XRD and ICP. RRR = 1.5. SP (beta) = 1.3 mJ/mol.K4. (dC) at Tc = 8.02 mJ/mol.K. Anisotropy (Hc2) = 1.8. HfAs1.67Te0.12 Hf1As1.67Te0.12 Hf 1 As 1.67 Te 0.12 3 2018 ABC PbFCl P4/nmm 129 A 3.6695 8.1395 K 1.67 1.7 0.04 1.7 100 T "RES(zero),SP,SUS, WHH" 0.5 0.28 MHC158443 A from Hc2 342 194 MSP158443 mJ/mol.K2 4 SP uOhm.cm 62 93 single crystals grown using chemical transport method ( agent : Iodine). 1123 K(sink) - 1223 K(source) Superconductivity and valence state in layered single-crystal HfAs1.67Te0.12 2018 "Beijing National Laboratory for Condensed Matter Physics, and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People?s Republic of China" "Supercond.Sci.Technol., 31(2018)015020"
158444 SST031034007 as-grown crystal. e-ph = 0.6. strong coupling correction factor = 1.14. Anisotropy (dHc2/dT) = 5.6 NdFeAsO0.7F0.3 Nd1Fe1As1F0.3O0.7 Nd 1 Fe 1 As 1 F 0.3 O 0.7 3 2018 ABCD oxypnictide K 46.4 46.4 T/K 7.3 1.3 MHC158444 Clean to dirty limit and Tc suppression in NdFeAsO0.7F0.3 studied by Hc2 analysis 2018 "CNR-SPIN, c/o Department of Physics, via Dodecaneso 33, 16146, Genoa, Italy" "Supercond.Sci.Technol., 31(2018)034007"
158445 SST031034007 "2MeV alpha-particle irradiation effect . Tc = 11.5 K . Tc depends on irradiation dose and disorder parameter, not shown explicitely. Anisotropy (dHc2/dT) = 2.5" NdFeAsO0.7F0.3 Nd1Fe1As1F0.3O0.7 Nd 1 Fe 1 As 1 F 0.3 O 0.7 3 2018 ABCD oxypnictide K 11.5 11.5 T/K 5.7 2.3 MHC158445 uOhm.cm 775 Clean to dirty limit and Tc suppression in NdFeAsO0.7F0.3 studied by Hc2 analysis 2018 "CNR-SPIN, c/o Department of Physics, via Dodecaneso 33, 16146, Genoa, Italy" "Supercond.Sci.Technol., 31(2018)034007"
158446 SST031034007 "2MeV alpha-particle irradiation effect . Tc = 41.4 K . Tc depends on irradiation dose and disorder parameter, not shown explicitely. Anisotropy (dHc2/dT) = 3.1" NdFeAsO0.7F0.3 Nd1Fe1As1F0.3O0.7 Nd 1 Fe 1 As 1 F 0.3 O 0.7 3 2018 ABCD oxypnictide K 41.4 41.4 T/K 6.75 2 MHC158446 Clean to dirty limit and Tc suppression in NdFeAsO0.7F0.3 studied by Hc2 analysis 2018 "CNR-SPIN, c/o Department of Physics, via Dodecaneso 33, 16146, Genoa, Italy" "Supercond.Sci.Technol., 31(2018)034007"
158447 PRB099014516 RRR = 1.02. Hc(0) = 51 mT. kappa(GL) = 46.5. SP (beta) = 0.123 mJ/mol.K4. (dC/gamma*Tc) = 1.45. e-ph = 0.52. NbOs2 Nb1Os2 Nb 1 Os 2 1 2019 AB2 alpha-Mn I4[-]3m A 9.654 K 2.7 2.7 2.7 100 mT "M-H curve, (1-t^2)" 2.98 T "RES(onset),WHH" 3.36 T/K RES(onset) 1.8 MHC158447 A from Hc2 99 A "Hc1, GL analysis" 4608 3.54 14 MSP158447 mJ/mol.K2 8.58 SP 362 SP "Nb(3N5),Os(3N5)" arc-melting several times - sealed in quartz tube - ANN( 1 week) Superconducting and normal state properties of the noncentrosymmetric superconductor NbOs2 investigated by muon spin relaxation and rotation 2019 "Indian Institute of Science Education and Research Bhopal, Bhopal 462066, India" "Phys.Rev.B, 99(2019)014516"
158448 PRB099014516 muon-SR measurements. [ penet] = 3720 A. [cohere]0 - 90 A NbOs2 Nb1Os2 Nb 1 Os 2 1 2019 AB2 alpha-Mn I4[-]3m A 9.654 K 2.7 2.7 2.7 A muon-SR 6190 n/m3 2.74E+27 "Nb(3N5),Os(3N5)" arc-melting several times - sealed in quartz tube - ANN( 1 week) Superconducting and normal state properties of the noncentrosymmetric superconductor NbOs2 investigated by muon spin relaxation and rotation 2019 "Indian Institute of Science Education and Research Bhopal, Bhopal 462066, India" "Phys.Rev.B, 99(2019)014516"
158500 CEM1802670 "not SC. T-independent Pauli paramagnetic. SUS(300 K) = 6E-4 emu/mol. XPS,PES measured for band structure." Hf(SixAs1-x)As Hf1Si0.5As1.5 Hf 1 Si 0.5 As 1.5 3 2007 emu/mol 0.0008 ABC 2 PbFCl P4/nmm 129 A 3.641 8.155 ZrSiS -type structure K 2 mOhm.cm 0.19 "Hf(2N6),Si(4N),As(5N8)" "mixture (Hf:Si:As = 1:0.5:1.5) - sealed in silica tube - heat(873 K, 12 h) - hold (3 days) - heat (1173 K,24 h) - ANN ( 1-4 weeks) - Q to water" Analysis of the electronic structure of Hf(Si0.5As0.5)As by X-ray photoelectron and photoemission spectroscopy 2007 "Department of Chemistry, University of Alberta, Edmonton, Alberta, Canada T6G 2G2" "J.Solid State Chem., 180(2007)2670"
158501 CPC0112639 Compositions were quantatively measured by ICP-OES. Anisotropy (Rc/Rab) = 3 at Tc. RRR = 1.1. SP (beta = 0.161 J/mol.K4. HfAs1.7Se0.2 Hf1As1.7Se0.2 Hf 1 As 1.7 Se 0.2 3 2010 ABC 2 PbFCl A 3.7084 8.0496 "Hf-(As,Se)-As , three layers" K 0.52 0.04 0.52 MSP158501 mJ/mol.K2 2.7 SP 330 SP W/K.m MTHC158501 uV/K 11.5 MTP158501 uOhm.cm 143 426 Chemical transport method using iodine as agent. 1073 K(source) and 1173 K(sink) Crystal Chemistry and Physical Properties of the Nonmagnetic Kondo Compound HfAs1.7Se0.2 2010 "Max-Planck-Institut fur Chemische Physik fester Stoffe Ncthnitzer Strasse 40, Dresden , Germany" "Chem.Phys.Chem., 11(2010)2639"
158502 JAC7930393 RRR = 4.3. Hc1:after demag-correction (N = 0.65). GL(kappa) = 9.5. Hc(0) = 250 mT. e-ph = 0.63. (dC/gamma*Tc) =1.78. DOS = 6.44 eV/fu CaRh2 Ca1Rh2 Ca 1 Rh 2 1 2019 AB2 MgCu2(Laves) Fd-3m 227 A 7.5326 C15 K 5.2 5.16 5.16 100 Oe "M-H curve, demag = 0.65" 418 T "RES(0.5Rn), GL approx." 3.37 MHC158502 A from Hc2 98 A "Hc1, GL equation" 942 MSP158502 mJ/mol.K2 24.7 SP 322 SP uOhm.cm 56.3 56.3 "Ca(4N),Rh(3N8)" "Two step solid state reaction. mixture (25% excess Ca) - alumina crucible - in quartz tube - heat (870 C,12h) - slow cool to 800 C, keep 2h - reground - pellet - heat (800 C, 12h)" The electronic characterization of the cubic Laves-phase superconductor CaRh2 2019 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, ul. Narutowicza 11/12, 80-233, Gdansk, Poland" "J.Alloy.Compound, 793(2019)393"
158503 JAC7960287 not SC Zr4Rh2Ox Zr4Rh2O0.4 Zr 4 Rh 2 O 0.4 1 2019 AB2C4 Fd3[-]m A 12.4127 eta-carbide structure K 1.75 "Zr(sponge, 2N5),ZrO2(4N5),Rh(2N8)" mixture - pellet - (arc melting) - ground to powder - pellet - sealed in quartz tube - heat in furnace (10 days) - ANN (1000C) Superconductivity in the eta-carbide-type oxides Zr4Rh2Ox 2019 "Department of Chemistry and Department of Physics, University of Zurich, CH-8057 Zurich, Switzerland" "J.Alloys Compd., 796(2019)287"
158504 JAC7960287 not SC Zr4Rh2Ox Zr4Rh2O0.5 Zr 4 Rh 2 O 0.5 1 2019 AB2C4 Fd3[-]m A 12.4061 eta-carbide structure K 1.75 "Zr(sponge, 2N5),ZrO2(4N5),Rh(2N8)" mixture - pellet - (arc melting) - ground to powder - pellet - sealed in quartz tube - heat in furnace (10 days) - ANN (1000C) Superconductivity in the eta-carbide-type oxides Zr4Rh2Ox 2019 "Department of Chemistry and Department of Physics, University of Zurich, CH-8057 Zurich, Switzerland" "J.Alloys Compd., 796(2019)287"
158505 JAC7960287 not SC Zr4Rh2Ox Zr4Rh2O0.6 Zr 4 Rh 2 O 0.6 1 2019 AB2C4 Fd3[-]m A 12.4014 eta-carbide structure K 1.75 "Zr(sponge, 2N5),ZrO2(4N5),Rh(2N8)" mixture - pellet - (arc melting) - ground to powder - pellet - sealed in quartz tube - heat in furnace (10 days) - ANN (1000C) Superconductivity in the eta-carbide-type oxides Zr4Rh2Ox 2019 "Department of Chemistry and Department of Physics, University of Zurich, CH-8057 Zurich, Switzerland" "J.Alloys Compd., 796(2019)287"
158506 JAC7960287 highest phase purity. RRR = 1.08. SP (beta) = 1.43 mJ/mol.K4. (dC/gamma*Tc) = 2.25. Hp = 5.18 T. e-ph = 0.60 Zr4Rh2Ox Zr4Rh2O0.7 Zr 4 Rh 2 O 0.7 1 2019 AB2C4 Fd3[-]m A 12.41014 eta-carbide structure K 2.8 2.6 2.8 mT M-H curve T "RES(0.5Rn), WHH" 4.89 T/K RES(0.5Rn) 2.51 MHC158506 A from Hc2 8.3 A "Hc1, GL equation" meV 0.47 4.2 14 MSP158506 mJ/mol.K2 14.5 SP 209 SP mOhm.cm 0.11 "Zr(sponge, 2N5),ZrO2(4N5),Rh(2N8)" mixture - pellet - (arc melting) - ground to powder - pellet - sealed in quartz tube - heat in furnace (10 days) - ANN (1000C) Superconductivity in the eta-carbide-type oxides Zr4Rh2Ox 2019 "Department of Chemistry and Department of Physics, University of Zurich, CH-8057 Zurich, Switzerland" "J.Alloys Compd., 796(2019)287"
158507 JAC7960287 RRR = 1.62. SP (beta) = 2.01 mJ/mol.K4. (dC/gamma*Tc) = 1.74. Hc(0) = 101 mT. Hp = 8.70 T. GL(kappa) = 44. e-ph = 0.73 Zr4Rh2Ox Zr4Rh2O1 Zr 4 Rh 2 O 1 1 2019 AB2C4 Fd3[-]m A 12.38112 eta-carbide structure K 4.7 4.3 4.7 mT M-H curve 8.8 T "RES(0.5Rn), WHH" 6.08 T/K RES(0.5Rn) 1.95 MHC158507 A from Hc2 72 A "Hc1, GL equation" 3199 meV 0.64 3.46 14 MSP158507 mJ/mol.K2 17.9 SP 189 SP mOhm.cm 0.23 "Zr(sponge, 2N5),ZrO2(4N5),Rh(2N8)" mixture - pellet - (arc melting) - ground to powder - pellet - sealed in quartz tube - heat in furnace (10 days) - ANN (800)C Superconductivity in the eta-carbide-type oxides Zr4Rh2Ox 2019 "Department of Chemistry and Department of Physics, University of Zurich, CH-8057 Zurich, Switzerland" "J.Alloys Compd., 796(2019)287"
158508 JAC8030597 Ta1-xZrxB Ta1B1 Ta 1 B 1 1 2019 AB CrB proto-type K 4 4 mixture - arc-melting . weight loss during arc melting less than 0.2 % Evidence of multiband behavior in a new superconductor Ta0.8Zr0.2B with FeB-prototype structure 2019 "Escola de Engenharia de Lorena, University of Sao Paulo, P. O. Box 116, Lorena, 12602-810, Brazil" "J.Alloy.Compound, 803(2019)597"
158509 JAC8030597 Ta1-xZrxB Ta0.9Zr0.1B1 Ta 0.9 Zr 0.1 B 1 1 2019 AB FeB prototype K 4.62 4.62 mixture - arc-melting . weight loss during arc melting less than 0.2 % Evidence of multiband behavior in a new superconductor Ta0.8Zr0.2B with FeB-prototype structure 2019 "Escola de Engenharia de Lorena, University of Sao Paulo, P. O. Box 116, Lorena, 12602-810, Brazil" "J.Alloy.Compound, 803(2019)597"
158510 JAC8030597 Ta1-xZrxB Ta0.85Zr0.15B1 Ta 0.85 Zr 0.15 B 1 1 2019 AB FeB prototype K 6.01 6.01 mixture - arc-melting . weight loss during arc melting less than 0.2 % Evidence of multiband behavior in a new superconductor Ta0.8Zr0.2B with FeB-prototype structure 2019 "Escola de Engenharia de Lorena, University of Sao Paulo, P. O. Box 116, Lorena, 12602-810, Brazil" "J.Alloy.Compound, 803(2019)597"
158511 JAC8030597 SP (beta) = 0.1511 mJ/mol.K4. (dC/gamma*Tc) = 1.44. Ta1-xZrxB Ta0.8Zr0.2B1 Ta 0.8 Zr 0.2 B 1 1 2019 AB A 6.14 3.159 4.62 FeB prototype K 7.51 7.8 7.8 7.51 MTC158511 95 Oe "M-H curve. Hc1(T), Fig." T "RES(0.5Rn), two-band model" 8.8 MHC158511 MSP158511 mJ/mol.K2 3.067 SP 295 SP mixture - arc-melting . weight loss during arc melting less than 0.2 % Evidence of multiband behavior in a new superconductor Ta0.8Zr0.2B with FeB-prototype structure 2019 "Escola de Engenharia de Lorena, University of Sao Paulo, P. O. Box 116, Lorena, 12602-810, Brazil" "J.Alloy.Compound, 803(2019)597"
158512 JAC8030597 Ta1-xZrxB Ta0.75Zr0.25B1 Ta 0.75 Zr 0.25 B 1 1 2019 AB FeB prototype K 6 6 mixture - arc-melting . weight loss during arc melting less than 0.2 % Evidence of multiband behavior in a new superconductor Ta0.8Zr0.2B with FeB-prototype structure 2019 "Escola de Engenharia de Lorena, University of Sao Paulo, P. O. Box 116, Lorena, 12602-810, Brazil" "J.Alloy.Compound, 803(2019)597"
158513 JAC8030597 Ta1-xZrxB Ta0.7Zr0.3B1 Ta 0.7 Zr 0.3 B 1 1 2019 AB FeB prototype K 5 5 mixture - arc-melting . weight loss during arc melting less than 0.2 % Evidence of multiband behavior in a new superconductor Ta0.8Zr0.2B with FeB-prototype structure 2019 "Escola de Engenharia de Lorena, University of Sao Paulo, P. O. Box 116, Lorena, 12602-810, Brazil" "J.Alloy.Compound, 803(2019)597"
158514 JPCC11918007 "P-induced SC.. Phase diagram from run-1,run-2, run-3 pressure experiments. SC observed by R(T)." BaReH9 Ba1Re1H9 Ba 1 Re 1 H 9 2015 ABC9 NiAs P6<3>/mmc K 7 7 MPH158514 Sample synthesized through the reduction of perrhnate in aqueous ethylenediamiine solutions Metallization and Superconductivity in the Hydrogen-Rich Ionic Salt BaReH9 2015 "Geophysical Laboratory, Carnegie Institution of Washington, Washington, DC 20015, United States" "J.Phys.Chem.C, 119(2015)18007"
158515 JPS088035001 Film. prepared under P(O2) = 1 E-7 Torr . not SC. Fig. shows M-I transition temperature vs P. Ti4O7 Ti4O7 Ti 4 O 7 2019 A4B7 A 5.52 7.12 20.43 "alpha = 67.5, beta = 57.3, gamma = 108.8." K 0 MPH158515 Pulsed laser deposition. deposition under P(O2) = 1 E-7 Torr (oxidative condition). Substrates = LSAT and LaAlO3 High-pressure Study of Superconductivity in Ti4O7 Film 2019 "Department of Physics, College of Humanities and Sciences, Nihon University, Setagaya, Tokyo 156-8550, Japan" "J.Phys.Soc.Jpn, 88(2019)035001"
158516 JPS088035001 Film. deposited under P(Ar) = 1 E-3 Torr (less oxidative condition). Fig shows P-dependence of Tc. Ti4O7 Ti4O7 Ti 4 O 7 2019 A4B7 A 5.52 7.11 20.46 "alpha = 67.5, beta = 57.2, gamma = 108.8." K 2.07 2.56 2.315 MTC158516 K/GPa -0.7 Pulsed laser deposition. deposition under P(Ar) = 1 E-3 Torr (less oxidative condition). Substrate = LaAlO3 High-pressure Study of Superconductivity in Ti4O7 Film 2019 "Department of Physics, College of Humanities and Sciences, Nihon University, Setagaya, Tokyo 156-8550, Japan" "J.Phys.Soc.Jpn, 88(2019)035001"
158517 JPS088043702 Oarai sample (CVT). RRR = 35. (dC/gamma*Tc) = 1.51 UTe2 Te2U1 Te 2 U 1 3 2019 AB2 Immm 71 A 4.161 6.122 13.955 UTe2-type K 1.65 1.65 T RES(0.5Rn) MHC158517 MSP158517 J/mol.K2 0.117 SP uOhm.cm 18.5 single crystals grown using chemical vapor transport method (CVT) in Oarai Unconventional Superconductivity in Heavy Fermion UTe2 2019 "IMR, Tohoku University, Oarai, Ibaraki 311-1313, Japan" "J.Phys.Soc.Jpn, 88(2019)043702"
158518 JPS088043702 Self-flux sample. RRR = 4. UTe2 Te2U1 Te 2 U 1 3 2019 AB2 UTe2-type K 1.1 1.1 uOhm.cm 340 "Self-flux method. starting material with the ratio, U:Te = 22:78, in alumina crucible in double sealed (Ta/quartz) ampoule." Unconventional Superconductivity in Heavy Fermion UTe2 2019 "IMR, Tohoku University, Oarai, Ibaraki 311-1313, Japan" "J.Phys.Soc.Jpn, 88(2019)043702"
158519 JPS088043702 Grenoble sample (CVT) UTe2 Te2U1 Te 2 U 1 3 2019 AB2 UTe2-type K 1.4 1.4 T RES(0.5Rn) MHC158519 MSP158519 single crystals grown using chemical vapor transport method (CVT) in Grenoble Unconventional Superconductivity in Heavy Fermion UTe2 2019 "IMR, Tohoku University, Oarai, Ibaraki 311-1313, Japan" "J.Phys.Soc.Jpn, 88(2019)043702"
158520 JPS088063707 HCFIG shows angular dependence of Hc2(T = 30 mK) for b-to a-axis and b-to c-axiis angle direction. UTe2 Te2U1 Te 2 U 1 3 2019 AB2 Immm "Ortho-, UTe2-type" K 1.5 1.5 T MHC158520 single crystals grown using chemical vapor transport method (CVT) in Grenoble Field-Reentrant Superconductivity Close to a Metamagnetic Transition in the Heavy-Fermion Superconductor UTe2 2019 "Univ. Grenoble Alpes, CEA, IRIG-Pheliqs, 38000 Grenoble, France" "J.Phys.Soc.Jpn, 88(2019)063707"
158521 JPS088063707 "HCFIG shows Hc2 (T) for several H-direction , angle (theta) from b- to a- direction" UTe2 Te2U1 Te 2 U 1 3 2019 AB2 Immm "Ortho-, UTe2-type" K 1.5 1.5 T RES(0) MHC158521 single crystals grown using chemical vapor transport method (CVT) in Grenoble Field-Reentrant Superconductivity Close to a Metamagnetic Transition in the Heavy-Fermion Superconductor UTe2 2019 "Univ. Grenoble Alpes, CEA, IRIG-Pheliqs, 38000 Grenoble, France" "J.Phys.Soc.Jpn, 88(2019)063707"
158522 SCIR0059477 "M = NH3. y not given. High Tc phase (SC-2) appears above 8 GPa. For low Tc phase (SC-1) , Tc linearly decreases with P." (NH3)yCs0.4FeSe M1Cs0.4Fe1Se1 M 1 Cs 0.4 Fe 1 Se 1 2015 I4/mmm A 3.8331 16.217 K 33 31 31 MTC158522 Liquid ammonia method Emergence of double-dome superconductivity in ammoniated metal-doped FeSe 2015 "Research Laboratory for Surface Science, Okayama University, Okayama 700-8530, Japan" "Sci.Report, 5(2015)9477"
158523 SCIR0059477 M = NH3. y not given. Lattice constant measured by XRD and SPring - 8. (NH3)yCs0.4FeSe M1Cs0.4Fe1Se1 M 1 Cs 0.4 Fe 1 Se 1 2015 I4/mmm K 33 31 31 MLAT158523 Liquid ammonia method Emergence of double-dome superconductivity in ammoniated metal-doped FeSe 2015 "Research Laboratory for Surface Science, Okayama University, Okayama 700-8530, Japan" "Sci.Report, 5(2015)9477"
158524 PCS1280211 P-induced SC. Tc = 3.4 K at Pcr = 6.8 GPa. SC properties for P = 14 GPa. BiTeCl Bi1Te1Cl1 Bi 1 Te 1 Cl 1 3 2019 ABC 7 P6<3>mc Phase transition P6<3>/mc to Pnma at P=6.7 GPa. K 3.6 0 3.6 MTC158524 T "RES(onset), WHH" 5.63 MHC158524 cm3/C MRH158524 n/cm3 3.89E+20 "Te(powder),Bi & Cl (reagent)" "Bridgeman method. mixture - sealed in quartz tube(1E-4 Pa) - heat (660 C, 24 h) - slow cool to 100C (12 C/h) - Q to RT" Pressure-induced superconductivity and quantum phase transitions in the Rashba material BiTeCl 2019 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Phys.Chem.Solids, 128(2019)211"
158525 PCS1280211 P-induced SC. Tc = 3.4 K at Pcr = 6.8 GPa. SC properties for P = 28 GPa. BiTeCl Bi1Te1Cl1 Bi 1 Te 1 Cl 1 3 2019 ABC K 4.12 0 4.12 T "RES(onset), WHH" 4.44 MHC158524 n/cm3 9.10E+21 "Te(powder),Bi & Cl (reagent)" "Bridgeman method. mixture - sealed in quartz tube(1E-4 Pa) - heat (660 C, 24 h) - slow cool to 100C (12 C/h) - Q to RT" Pressure-induced superconductivity and quantum phase transitions in the Rashba material BiTeCl 2019 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Phys.Chem.Solids, 128(2019)211"
158526 PCS1280211 P-induced SC. Pcr = 8.0 GPa. Tc = 5.39 K (in DB) at Pcr. topological phase transition at about 2 GPa. BiTeI Bi1Te1I1 Bi 1 Te 1 I 1 2019 ABC P3m1 K 5.39 0 5.39 MTC158526 Pressure-induced superconductivity and quantum phase transitions in the Rashba material BiTeCl 2019 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "J.Phys.Chem.Solids, 128(2019)211"
158527 PHB5360816 not SC. Debye-T = 332 K from R(T) analysis. LuFe2Si2 Lu1Fe2Si2 Lu 1 Fe 2 Si 2 1 2018 AB2C2 ThCr2Si2 I4/mmm A 3.8726 9.8698 K 0 mJ/mol.K2 40.4 SP 323 SP uOhm.cm 6.2 6.2 "arc melting (Ar) - wrapped in Mo-foil - ANN(1173 K,2w, in silica tube)" Electronic structures and superconductivity in LuTE2Si2 phases (TE = d-electron transition metal) 2018 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P Nr 1410, 50-590 Wroc?aw 2, Poland" "Physica B, 536(2018)816"
158528 PHB5360816 not SC. Debye-T = 259 K from R(T) analysis. LuCo2Si2 Lu1Co2Si2 Lu 1 Co 2 Si 2 1 2018 AB2C2 ThCr2Si2 I4/mmm A 3.8494 9.6765 K 0 mJ/mol.K2 8.5 SP 355 SP uOhm.cm 51.4 51.4 "arc melting (Ar) - wrapped in Mo-foil - ANN(1173 K,2w, in silica tube)" Electronic structures and superconductivity in LuTE2Si2 phases (TE = d-electron transition metal) 2018 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P Nr 1410, 50-590 Wroc?aw 2, Poland" "Physica B, 536(2018)816"
158529 PHB5360816 not SC. Debye-T = 236 K from R(T) analysis. LuNi2Si2 Lu1Ni2Si2 Lu 1 Ni 2 Si 2 1 2018 AB2C2 ThCr2Si2 I4/mmm A 3.9085 9.5035 K 0 mJ/mol.K2 12.6 SP 360 SP uOhm.cm 5.2 5.2 "arc melting (Ar) - wrapped in Mo-foil - ANN(1173 K,2w, in silica tube)" Electronic structures and superconductivity in LuTE2Si2 phases (TE = d-electron transition metal) 2018 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P Nr 1410, 50-590 Wroc?aw 2, Poland" "Physica B, 536(2018)816"
158530 PHB5360816 not SC. Debye-T = 243 K from R(T) analysis. LuRu2Si2 Lu1Ru2Si2 Lu 1 Ru 2 Si 2 1 2018 AB2C2 ThCr2Si2 I4/mmm A 4.138 9.4199 K 0 mJ/mol.K2 7.7 SP 359 SP uOhm.cm 3.2 3.2 "arc melting (Ar) - wrapped in Mo-foil - ANN(1173 K,2w, in silica tube)" Electronic structures and superconductivity in LuTE2Si2 phases (TE = d-electron transition metal) 2018 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P Nr 1410, 50-590 Wroc?aw 2, Poland" "Physica B, 536(2018)816"
158531 PHB5360816 Debye-T = 150 K from R(T) analysis. (dC/gamma*Tc) = 1.7 LuPd2Si2 Lu1Pd2Si2 Lu 1 Pd 2 Si 2 1 2018 AB2C2 ThCr2Si2 I4/mmm A 4.0898 9.8513 K 0.6 0.6 mJ/mol.K2 6.9 SP 290 SP uOhm.cm 3 3 "arc melting (Ar) - wrapped in Mo-foil - ANN(1173 K,2w, in silica tube)" Electronic structures and superconductivity in LuTE2Si2 phases (TE = d-electron transition metal) 2018 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P Nr 1410, 50-590 Wroc?aw 2, Poland" "Physica B, 536(2018)816"
158532 PHB5360816 Debye-T = 144 K from R(T) analysis. (dC/gamma*Tc) = 1.5 LuPt2Si2 Lu1Pt2Si2 Lu 1 Pt 2 Si 2 1 2018 AB2C2 CaBe2Ge2 P4/nmm A 4.0998 9.9463 K 1.8 1.8 MSP158532 mJ/mol.K2 4.7 SP 198 SP uOhm.cm 51.6 51.6 "arc melting (Ar) - wrapped in Mo-foil - ANN(1173 K,2w, in silica tube)" Electronic structures and superconductivity in LuTE2Si2 phases (TE = d-electron transition metal) 2018 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, P Nr 1410, 50-590 Wroc?aw 2, Poland" "Physica B, 536(2018)816"
158533 PHB5360830 Li-intercalated KSr2Nb3O10 (LT phase). Li-content by electro-chemical method. LixKSr2Nb3O10 Li1.3K1Sr2Nb3O10 Li 1.3 K 1 Sr 2 Nb 3 O 10 3 2018 P2<1>/m A 7.831 7.801 15.292 "monoclinic, beta = 97.44. LT-phase" K 4 4 "K2SO3,SrCoO3,Nb2O5" "mixture (K2SO3:SrCoO3:Nb2O5 = 10:2:3) - heat (1350 C, 30h, in pt crucible) slow cool to 1000 C (4 C/h) - rapid cool to RT" Crystal structure and superconducting properties of KSr2Nb3O10 2018 "Graduate School of Natural Science and Technology, Okayama University, Okayama, Japan" "Physica B, 536(2018)830"
158534 PHB5450152 splat cooled alloy U0.85Nb0.15 U0.85Nb0.15 U 0.85 Nb 0.15 2018 A 3.435 3.565 distorted gamma-U structure K 1.9 1.9 0.18 1.9 T "RES(mid), GL" 5.4 T/K RES(mid) 3.2 MHC158534 mJ/mol.K2 13.5 SP 154 SP uOhm.cm 86 84 arc-melting - splat cooling apparatus - cool with cooling rate of E+6 K/s. Superconductivity in U-Nb alloys with gamma-U phase and ferromagnetism of their hydrides 2018 "aInstitute of Physics, Pedagogical University, Podchorazych 2, 30-084 Krakow, Poland" "Physica B, 545(2018)152"
158535 PHB5450152 splat cooled alloy U0.85Mo0.15 U0.85Mo0.15 U 0.85 Mo 0.15 2018 gamma-phase K 2.11 2.11 0.02 2.11 T "RES(mid), GL" 6.7 T/K RES(mid) 3.6 MHC158535 mJ/mol.K2 16 SP 139 SP uOhm.cm 95 89 arc-melting - splat cooling apparatus - cool with cooling rate of E+6 K/s. Superconductivity in U-Nb alloys with gamma-U phase and ferromagnetism of their hydrides 2018 "aInstitute of Physics, Pedagogical University, Podchorazych 2, 30-084 Krakow, Poland" "Physica B, 545(2018)152"
158536 PHB5450152 splat cooled alloy U0.85Pt0.15 U0.85Pt0.15 U 0.85 Pt 0.15 2018 gamma + alpha phase K 0.75 0.08 0.75 T "RES(mid), GL" 2.5 T/K RES(mid) 3.8 mJ/mol.K2 19.5 SP 145 SP uOhm.cm 166 164 arc-melting - splat cooling apparatus - cool with cooling rate of E+6 K/s. Superconductivity in U-Nb alloys with gamma-U phase and ferromagnetism of their hydrides 2018 "aInstitute of Physics, Pedagogical University, Podchorazych 2, 30-084 Krakow, Poland" "Physica B, 545(2018)152"
158537 PHB5450152 splat cooled alloy U0.85Ru0.15 U0.85Ru0.15 U 0.85 Ru 0.15 2018 gamma-phase K 1.4 0.09 1.4 T "RES(mid), GL" 4.5 T/K RES(mid) 4.3 mJ/mol.K2 13.2 SP 142 SP uOhm.cm 214 220 arc-melting - splat cooling apparatus - cool with cooling rate of E+6 K/s. Superconductivity in U-Nb alloys with gamma-U phase and ferromagnetism of their hydrides 2018 "aInstitute of Physics, Pedagogical University, Podchorazych 2, 30-084 Krakow, Poland" "Physica B, 545(2018)152"
158538 PHB5450152 splat cooled alloy U0.85Ti0.15 U0.85Ti0.15 U 0.85 Ti 0.15 2018 gamma + alpha phase K 0.45 1.9 0.3 0.45 T "RES(mid), GL" 1.5 T/K RES(mid) 2.7 mJ/mol.K2 13.4 SP 157 SP uOhm.cm 166 167 arc-melting - splat cooling apparatus - cool with cooling rate of E+6 K/s. Superconductivity in U-Nb alloys with gamma-U phase and ferromagnetism of their hydrides 2018 "aInstitute of Physics, Pedagogical University, Podchorazych 2, 30-084 Krakow, Poland" "Physica B, 545(2018)152"
158539 PHB5450152 splat cooled alloy U0.89Mo0.11 U0.89Mo0.11 U 0.89 Mo 0.11 2018 K MSP158539 arc-melting - splat cooling apparatus - cool with cooling rate of E+6 K/s. Superconductivity in U-Nb alloys with gamma-U phase and ferromagnetism of their hydrides 2018 "aInstitute of Physics, Pedagogical University, Podchorazych 2, 30-084 Krakow, Poland" "Physica B, 545(2018)152"
158540 PHB5700296 "SP shows two AFM peaks, Tn = 3.5 K and 4.3 K (in DB). SP (beta) = 1.76 mJ/mol.K4." Pr2Pt3Ge5 Pr2Pt3Ge5 Pr 2 Pt 3 Ge 5 1 2019 4.3 U2Co3Si5 Ibam A 10.156 11.894 6.247 K 6.7 6.7 T "RES(mid), WHH" 2.1 MHC158540 A from Hc2 126 mJ/mol.K2 170 SP 222.6 SP uOhm.cm 20 arc-melting Robust superconductivity against the antiferromagnetic ordering in Pr2Pt3Ge5 2019 "UGC-DAE CSR, University Campus, Khandwa Road, Indore, 452001, Madhya Pradesh, India" "Physica B, 570(2019)296"
158542 PHC5630007 "hexagonal MoC + zeta-Mo2C + unknown phase. MoCx, x not given. x=1 (DB) is tentative. R(T) not to zero down to 3 K." MoCx Mo1C1 Mo 1 C 1 2019 K 5.8 5.8 T "RES(0.9Rn), GL" 1.7 uOhm.cm 4.1 22 127 "Mo(4N),C(3N5)" arc-melting. mixture (Mo:C = 1:1) - press to pellet - arc-melting ( 4 times). weight loss = 6.73% Superconductivity in an arc melted MoCx 2019 "College of Science, Henan University of Engineering, Zhengzhou 451191, China" "Physica C, 563(2019)7"
158543 PRB090220504 Cu intercalated - (PbSe)5(Bi2Se3)6 Cux(PbSe)5(Bi2Se3)6 C1.36Pb5Bi12Se23 C 1.36 Pb 5 Bi 12 Se 23 2014 K 2.9 2.9 2.9 MTC158543 mT M-H 0.34 T "RES(0.5Rn), extrapolation" 4.3 2.6 T/K RES(0.5Rn) 0.936 1.615 MHC158543 nm from Hc2 6.8 11.3 um 1.3 2.2 MSP158543 Cu-intercalation Superconductor derived from a topological insulator heterostructure 2014 "Institute of Scientific and Industrial Research, Osaka University, Ibaraki, Osaka 567-0047, Japan" "Phys.Rev.B, 90(2014)220504"
158544 PRB090220504 Cu intercalated - (PbSe)5(Bi2Se3)6 Cux(PbSe)5(Bi2Se3)6 C1.66Pb5Bi12Se23 C 1.66 Pb 5 Bi 12 Se 23 2014 K MSP158544 Cu-intercalation Superconductor derived from a topological insulator heterostructure 2014 "Institute of Scientific and Industrial Research, Osaka University, Ibaraki, Osaka 567-0047, Japan" "Phys.Rev.B, 90(2014)220504"
158545 PRB096144501 Tc = 7.55 K sample. dC(at Tc) = 62.1 mJ/mol.K. (dC/gamma*Tc) = 2.21. Hc(0) = 615 Oe YB6 B6Y1 B 6 Y 1 3 2017 CaB6 A 4.1001 K 7.55 0.3 7.55 Oe M-H curve 267 Oe 2850 Oe/K 559 MHC158545 A from Hc2 340 A 1109 K 14.8 4.01 14 mJ/mol.K2 3.73 uOhm.cm 8.28 "Y2O3(5N),amorphous B (2N5)" "Induction zone melting using sintered rod, which are synthesized by thermal reaction" Lattice instability and enhancement of superconductivity in YB6 2017 "Prokhorov General Physics Institute of RAS, 38 Vavilov Street, 119991 Moscow, Russia and Moscow Institute of Physics and Technology, 9 Institutskiy Lane, 141700 Dolgoprudny, Moscow Region, Russia" "Phys.Rev.B, 96(2017)144501"
158546 PRB096144501 Tc = 7.4 K sample. dC(at Tc) = 59 mJ/mol.K. (dC/gamma*Tc) = 2.1. Hc(0) = 610 Oe YB6 B6Y1 B 6 Y 1 3 2017 CaB6 A 4.1001 K 7.4 0.12 7.4 Oe M-H curve 267 Oe 2912 Oe/K 575 A from Hc2 336.4 A 1130 K 14.6 3.99 14 mJ/mol.K2 3.79 uOhm.cm 9.68 "Y2O3(5N),amorphous B (2N5)" "Induction zone melting using sintered rod, which are synthesized by thermal reaction" Lattice instability and enhancement of superconductivity in YB6 2017 "Prokhorov General Physics Institute of RAS, 38 Vavilov Street, 119991 Moscow, Russia and Moscow Institute of Physics and Technology, 9 Institutskiy Lane, 141700 Dolgoprudny, Moscow Region, Russia" "Phys.Rev.B, 96(2017)144501"
158547 PRB096144501 Tc = 6.6 K sample. dC(at Tc) = 29.3 mJ/mol.K. (dC/gamma*Tc) = 1.23. Hc(0) = 470 Oe YB6 B6Y1 B 6 Y 1 3 2017 CaB6 A 4.1001 K 6.6 0.2 6.6 Oe M-H curve 147 Oe 2927 Oe/K 623 MHC158547 A from Hc2 335.5 A 1618 K 12.1 3.91 14 mJ/mol.K2 3.58 uOhm.cm 13.35 "Y2O3(5N),amorphous B (2N5)" "Induction zone melting using sintered rod, which are synthesized by thermal reaction" Lattice instability and enhancement of superconductivity in YB6 2017 "Prokhorov General Physics Institute of RAS, 38 Vavilov Street, 119991 Moscow, Russia and Moscow Institute of Physics and Technology, 9 Institutskiy Lane, 141700 Dolgoprudny, Moscow Region, Russia" "Phys.Rev.B, 96(2017)144501"
158548 PRB096144501 Tc = 5.2 K sample. Tc(SP) = 4.2 K. dC(at Tc) = 15.1 mJ/mol.K. (dC/gamma*Tc) = 1.39. Hc(0) = 211 Oe YB6 B6Y1 B 6 Y 1 3 2017 CaB6 A 4.1001 K 5.2 0.45 5.2 Oe M-H curve 50 Oe 2840 Oe/K 980 A from Hc2 340.6 A 3242 K 6.2 2.65 14 MSP158548 mJ/mol.K2 2.09 uOhm.cm 25.6 "Y2O3(5N),amorphous B (2N5)" "Induction zone melting using sintered rod, which are synthesized by thermal reaction" Lattice instability and enhancement of superconductivity in YB6 2017 "Prokhorov General Physics Institute of RAS, 38 Vavilov Street, 119991 Moscow, Russia and Moscow Institute of Physics and Technology, 9 Institutskiy Lane, 141700 Dolgoprudny, Moscow Region, Russia" "Phys.Rev.B, 96(2017)144501"
158549 PRB099054501 unit volume = 75.58 A^3. RRR = 27.1. alpha-PdBi2 Bi2Pd1 Bi 2 Pd 1 1 2019 C2/m A 12.557 4.1989 5.6553 monoclinic K 1.6 1.6 0.17 1.6 Oe M-H curve 40 0.5 Oe "RES8onset), WHH" 290 260 0.5 "Pd(5N),Bi(5N)" "flux method. mixture - sealed in quartz tube - SIN(900 C, 24h) - cool to RT with the cooling rate of (2-3) C/h" Pressure-induced irreversible evolution of superconductivity in PdBi2 2019 "Anhui Province Key Laboratory of Condensed Matter Physics at Extreme Conditions, High Magnetic Field Laboratory, Chinese Academy of Sciences, Hefei 230031, China" "Phys.Rev.B, 99(2019)054501"
158550 PRB099054501 "data for P = 17.1 GPa. Hc2 = 2.2 an d = 5.6 kOe for P = 3.3 and 42.8 GPa,respectively. For P>8 GPa, alpha- and beta- phase coexist." PdBi2 Bi2Pd1 Bi 2 Pd 1 1 2019 I4/mmm A 3.2037 11.937 alpha- phase + beta-phase K 2.78 2.78 MTC158550 kOe "RES8onset), WHH" 6.2 MHC158550 "Pd(5N),Bi(5N)" "flux method. mixture - sealed in quartz tube - SIN(900 C, 24h) - cool to RT with the cooling rate of (2-3) C/h" Pressure-induced irreversible evolution of superconductivity in PdBi2 2019 "Anhui Province Key Laboratory of Condensed Matter Physics at Extreme Conditions, High Magnetic Field Laboratory, Chinese Academy of Sciences, Hefei 230031, China" "Phys.Rev.B, 99(2019)054501"
158551 PRB099054503 "STM measurement. Two gaps. gap = 1.6 meV(in DB) and 0.9 meV, (2d/kTc) 3.72 (in DB) and 2.09. magnetic field dependence of gap also measured." MoGa41 Ga41Mo1 Ga 41 Mo 1 2019 AB41 R3[-] 148 A 9.5788 "rhombohedral, alpha = beta = gamma = 94.974" K 10 10 10 MGAP158551 meV 1.6 3.72 11 "solid state reaction. stoichiometric mixture - in quartz ampoule - heat(850C, in vac) - cool down slowly" Multiband superconductivity in Mo8Ga41 driven by a site-selective mechanism 2019 "1Department of Physical Sciences, Indian Institute of Science Education and Research (IISER) Mohali, Sector 81, S. A. S. Nagar, Manauli, PO 140306, India" "Phys.Rev.B, 99(2019)054503"
158552 PRB099094512 Film. thickness = 40-50 nm. Tc and Hc not given explicitly in the text. DB value is tentative from R(T) figure. polycrystal of alpha- and alpha' phase. Cd3As2 film As2Cd3 As 2 Cd 3 2019 A2B3 I4<1>acd A 12.6461 25.4378 alpha-phase K 0.186 0.186 Oe RES(0.5Rn) MHC158552 magnetron nonreactive sputtering.using single crystal Cd3As2 on polished p-Si substrate at Ts = RT. deposition time = 20 min. Observation of subkelvin superconductivity in Cd3As2 thin films 2019 "National High Magnetic Field Laboratory, Tallahassee, Florida 32310, USA" "Phys.Rev.B, 99(2019)094512"
158553 PRB099094512 Film. thickness = 80 nm. Tc and Hc not given explicitly in the text. DB value is tentative from R(T) figure. polycrystal of alpha- and alpha' phase. Cd3As2 film As2Cd3 As 2 Cd 3 2019 A2B3 P4<2>nbc A 12.6848 25.4887 alpha'-phase K 0.185 0.185 Oe RES(0.5Rn) MHC158553 magnetron nonreactive sputtering.using single crystal Cd3As2 on Al2O3 substrate at Ts = RT. deposition time = 40 min. Observation of subkelvin superconductivity in Cd3As2 thin films 2019 "National High Magnetic Field Laboratory, Tallahassee, Florida 32310, USA" "Phys.Rev.B, 99(2019)094512"
158554 PRB099094512 Film. thickness = 40-50 nm. Tc and Hc not given explicitly in the text. DB value is tentative from R(T) figure. polycrystal of alpha- and alpha' phase. Cd3As2 film As2Cd3 As 2 Cd 3 2019 A2B3 I4<1>acd A 12.6461 25.4378 alpha-phase K 0.186 0.186 Oe RES(0.5Rn) MHC158554 magnetron nonreactive sputtering.using single crystal Cd3As2 on polished p-Si substrate at Ts = RT. deposition time = 20 min. Observation of subkelvin superconductivity in Cd3As2 thin films 2019 "National High Magnetic Field Laboratory, Tallahassee, Florida 32310, USA" "Phys.Rev.B, 99(2019)094512"
158555 NPJ00116014 P-induced SC. Pc = 8.5 GPa. Tc and Hc2 shows the values at P = 13.5 GPa. Hc2 measured for H perpendicular to (112) plane. Cd3As2 As2Cd3 As 2 Cd 3 3 2016 A2B3 K 3.55 0 3.55 MPH158555 T "RES(0.9Rn), linear approx." 4.29 single crystals grown by CD flux method Pressure-induced superconductivity in the three-dimensional topological Dirac semimetal Cd3As2 2016 "State Key Laboratory of Surface Physics, Department of Physics, Fudan University, Shanghai, China" "NJP Quantum Materials, 1(2016)16014"
158556 PRB099100501 P-induced SC . SC for 10.5 < P < 11.5. SC properties (DB) are for P = 11.4 GPa. CeNiC2 Ce1Ni1C2 Ce 1 Ni 1 C 2 1 2019 ABC2 3 Amm2 A 3.882 4.556 6.172 orthorhombic K 2.5 3.5 0 3 MPH158556 T "RES(onset), GL" 20 T/K RES(onset) 7.1 MHC158556 A from Hc2 42 uOhm.cm 23 "Ce(3N),Ni(4N8),C(5N5)" Ar-arc furnace melting Exotic superconductivity in noncentrosymmetric and magnetic CeNiC2 revealed under high pressure 2019 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Sakura-ku, Saitama, Saitama 338-8570, Japan" "Phys.Rev.B, 99(2019)100501"
158557 PRB099134509 Type-I SC. RRR = 83. (dC/gamma*Tc) = 1.51. SP (beta) = 0.076 mJ/mol.K4. kappa(GL) = 0.4. e-ph = 0.54. penet(L) = 450 A. Hc defined as M(H) = 0 in M-H curve. AuBe Au1Be1 Au 1 Be 1 1 2019 AB FeSi A 4.6684 K 3.15 3.2 3.15 3.2 3.2 100 Oe Type-I SC 259 MHC158557 A 2052 A 821 3.76 14 MSP158557 mJ/mol.K2 2.35 SP 370 SP uOhm.cm 1.35 112 "Au(5N),Be(5N)" arc-melting Type-I superconductivity in the noncentrosymmetric superconductor BeAu 2019 "Indian Institute of Science Education and Research Bhopal, Bhopal, 462066, India" "Phys.Rev.B, 99(2019)134509"
158558 PRB099144511 "Two phases: PtH-I phase(SG = P321), and PtH-II phase (SG = P6<3>/mmc). PtH-II exhibit P-induced SC. Tc = 6.7 K(P = 32 GPa) , Tc = 4.8 K (P = 36 GPa)" PTH - II H1Pt1 H 1 Pt 1 2019 AB P6<3>/mmc A 2.776 4.718 P = 41 GPa K 6.7 0 6.7 "Pt foil(3N5), H2" "(Pt + NH3BH3) - heat (1800C using IR laser, P = 30 GPa)" Superconductivity of platinum hydride 2019 "Department of Electrical, Electronic and Computer Engineering, Faculty of Engineering, Gifu University, Gifu 501-1193, Japan" "Phys.Rev.B, 99(2019)144511"
158559 PRB099144519 R(T) = T^3.67 for T < 23 K. RRR = 375. Type-I SC. Hc not depends on H-direction. SP (dC/gamma*Tc) = 1.37. Thermodynamic Hc(0) = 43 Oe. Al6Re Al6Re1 Al 6 Re 1 3 2019 AB6 Cmcm 63 A 7.599 6.602 9.04 T = 203 K. K 0.74 0.74 95 Oe Type-I SC 48 MHC158559 MSP158559 mJ/mol.K2 3.9 SP 400 SP "Al(wire),Re(powder)" Al-flux method. (Al:Re = 200:1) - alumina crucible with Al2O3 lid - sealed under inside quartz tube - heat to 975 C - cool to 830 C (5 days) Type-I superconductivity in Al6Re 2019 "State Key Laboratory of Surface Physics, Department of Physics; and Advanced Materials Laboratory, Fudan University, Shanghai 200438, China" "Phys.Rev.B, 99(2019)144519"
158560 PRB099174513 gap measured by TF-muonSR. s-wave model analysis. ZrIrSi Zr1Ir1Si1 Zr 1 Ir 1 Si 1 1 2019 ABC 3 Pnma A 6.557 3.942 7.413 K 1.7 1.7 mT 0.7 T 0.6 meV 0.37 5.1 16 "Zr(4N),Ir(4N),Si(5N)" "arc-melting several times. ANN(1000 C,1week) in sealed quartz tube." Probing the superconducting ground state of ZrIrSi: A muon spin rotation and relaxation study 2019 "Department of Physics, Ramakrishna Mission Vivekananda Educational and Research Institute, Howrah 711202, India" "Phys.Rev.B, 99(2019)174513"
158561 PRB099184502 P-induced SC. Pcr = 47.8 GPa. SC data( in DB) show for P = 47.8 GPa. RRR = 1.46 at Pcr. Debye-T = 202 K from R(T) analysis SnS S1Sn1 S 1 Sn 1 3 2019 AB Pnma "P = 0. beta-SnS(Cmcm) for P < 8.1 GPa, gamma-SnS(Pm-3m) for P > 18 GPa." K 5.8 0 5.8 T "RES(on), WHH" 1.6 A from Hc2 14 202 R(T) "Sn(4N),S(4N)" "stoichiometric composition - in ampoule - heat(350C,4 h) - heat (900 C,20 h) - cool to 830 C for 20 h - FC to RT." Pressure-induced superconductivity in tin sulfide 2019 "International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 99(2019)184502"
158562 PRB099184502 P-induced SC. Pcr = 30 GPa. Tc = 4.2 K (in DB) for P = 30 GPa. Insulator-to metal transition at 14 GPa. SnSe Se1Sn1 Se 1 Sn 1 3 2019 AB K 4.2 0 4.2 92 R(T) See J.Phys.Soc.Jpn. 87(2018)065001 Pressure-induced superconductivity in tin sulfide 2019 "International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 99(2019)184502"
158563 PRB099184509 RRR = 37. (dC/gamma*Tc) = 1.54. e-ph = 0.453. Debye-T from R(T) analysis. WP P1W1 P 1 W 1 3 2019 AB 3 MnP Pnma 62 A 5.722 3.2434 6.211 K 0.834 0.85 0.02 0.834 mT "RES(mid), WHH" 12.5 MHC158563 A from Hc2 1642 MSP158563 mJ/mol.K2 1.355 SP 238 R(T) uOhm.cm 40 "CVT method. WP poly crystal in quartz tube, two zone furnace, 1100 C(source end), 1050 C (sink end), for 1 week, using iodine agent" Superconductivity in WP single crystals 2019 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.B, 99(2019)184509"
158564 PRB099184513 "RRR = 45. SP (beta) = 0.67 mJ/mol.K4. e-ph = 0.72. (dC/gamma*Tc) = 1.44. Hc2(0) = 1.09 T from R(T) measurements, Debye-T = 251 K from R(T). kappa(GL) = 6.04" Mo3P Mo3P1 Mo 3 P 1 1 2019 AB3 2 I4[-]2m 121 A 9.79094 4.826099 alpha-V3S type structure K 5.5 5.7 5.5 0.2 5.5 mT "M-H curve, (1-t^2) fitting" 29.4 T "SUS, SP, GL" 0.94 MHC158564 nm from Hc2 18.7 nm "Hc1,GL-eq." 113 meV 0.82 3.47 14 MSP158564 mJ/mol.K2 10.3 SP 225 SP uOhm.cm 5.92 "Mo(5N) powder,P pieces" "solid state reaction. mixture - heat(1100 C,48 h) - reground - pellet - SIN(1100 C,48 h)" Nodeless superconductivity and preserved time-reversal symmetry in the noncentrosymmetric Mo3P superconductor 2019 "Laboratory for Multiscale Materials Experiments, Paul Scherrer Institut, Villigen CH-5232, Switzerland" "Phys.Rev.B, 99(2019)184513"
158565 PRB099224505 Y0.96Ni1.00Si3.09 by EPMA. RRR = 54. SP (beta) = 0.096 mJ/mol.K4.. e-ph = 0.43. (dC/gamma*Tc) = 1.14. GL(kappa) = 0.113. YNiSi3 Y1Ni1Si3 Y 1 Ni 1 Si 3 3 2019 ABC3 K 1.42 1.36 1.36 mT "M(T),(1-t^2) dependence" 9.6 MHC158565 nm "BCS, xi(0)" 780 nm London 34 mJ/mol.K2 4.04 SP 466 SP uOhm.cm 0.33 Sn-flux method. (Y/Lu:Ni:Si:Sn = 1:1:3.5:45) Superconductivity in monocrystalline YNiSi3 and LuNiSi3 2019 "CCNH, Universidade Federal do ABC (UFABC), Santo Andre, Sao Paulo, Brazil" "Phys.Rev.B, 99(2019)224505"
158567 PRB099224505 Lu1.00Ni0.68Si3.13 by EPMA. RRR = 38. SP (beta) = 0.091 mJ/mol.K4.. e-ph = 0.44. (dC/gamma*Tc) = 0.71. GL(kappa) = 0.42. LuNiSi3 Lu1Ni1Si3 Lu 1 Ni 1 Si 3 3 2019 ABC3 K 1.63 1.63 1.63 mT "M(T),(1-t^2) dependence" 10.4 MHC158565 nm "BCS, xi(0)" 690 nm London 33 mJ/mol.K2 3.97 SP 474 SP uOhm.cm 1.6 Sn-flux method. (Y/Lu:Ni:Si:Sn = 1:1:3.5:45) Superconductivity in monocrystalline YNiSi3 and LuNiSi3 2019 "CCNH, Universidade Federal do ABC (UFABC), Santo Andre, Sao Paulo, Brazil" "Phys.Rev.B, 99(2019)224505"
158568 PRB099245152 T = 106.5 K Nd1-xLaxNiC2 Nd0.9La0.1Ni1C2 Nd 0.9 La 0.1 Ni 1 C 2 1 2019 myu-B/f.u 3.56 -4.6 16.1 ABC2 CeNiC2 Amm2 relative value a/a0 only K 1.8 "C(4N),Ni(5N),Nd(3N).La(4N)" "arc-melting. ANN(900 C,12 h)" Crossover from charge density wave stabilized antiferromagnetism to superconductivity in Nd1-xLaxNiC2 compounds 2019 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Phys.Rev.B, 99(2019)245152"
158569 PRB099245152 T = 83.0 K Nd1-xLaxNiC2 Nd0.8La0.2Ni1C2 Nd 0.8 La 0.2 Ni 1 C 2 1 2019 myu-B/f.u 3.49 -16.3 15.2 ABC2 CeNiC2 Amm2 relative value a/a0 only K 1.8 "C(4N),Ni(5N),Nd(3N).La(4N)" "arc-melting. ANN(900 C,12 h)" Crossover from charge density wave stabilized antiferromagnetism to superconductivity in Nd1-xLaxNiC2 compounds 2019 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Phys.Rev.B, 99(2019)245152"
158570 PRB099245152 T = 53.7 K Nd1-xLaxNiC2 Nd0.7La0.3Ni1C2 Nd 0.7 La 0.3 Ni 1 C 2 1 2019 myu-B/f.u 3.15 -8 13.2 ABC2 CeNiC2 Amm2 relative value a/a0 only K 1.8 MPH158570 "C(4N),Ni(5N),Nd(3N).La(4N)" "arc-melting. ANN(900 C,12 h)" Crossover from charge density wave stabilized antiferromagnetism to superconductivity in Nd1-xLaxNiC2 compounds 2019 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Phys.Rev.B, 99(2019)245152"
158571 PRB099245152 Nd1-xLaxNiC2 Nd0.6La0.4Ni1C2 Nd 0.6 La 0.4 Ni 1 C 2 1 2019 myu-B/f.u 2.72 -3 11.1 ABC2 CeNiC2 Amm2 relative value a/a0 only K 1.8 "C(4N),Ni(5N),Nd(3N).La(4N)" "arc-melting. ANN(900 C,12 h)" Crossover from charge density wave stabilized antiferromagnetism to superconductivity in Nd1-xLaxNiC2 compounds 2019 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Phys.Rev.B, 99(2019)245152"
158572 PRB099245152 SUS(T) shows sharp peak at Tn for x =< 0.5. Nd1-xLaxNiC2 Nd0.5La0.5Ni1C2 Nd 0.5 La 0.5 Ni 1 C 2 1 2019 myu-B/f.u 2.56 -3.7 9.7 ABC2 CeNiC2 Amm2 relative value a/a0 only K 1.8 "C(4N),Ni(5N),Nd(3N).La(4N)" "arc-melting. ANN(900 C,12 h)" Crossover from charge density wave stabilized antiferromagnetism to superconductivity in Nd1-xLaxNiC2 compounds 2019 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Phys.Rev.B, 99(2019)245152"
158573 PRB099245152 SUS(T) shows broad peak at Tn for 0.6 =< x =< 0.8. Nd1-xLaxNiC2 Nd0.4La0.6Ni1C2 Nd 0.4 La 0.6 Ni 1 C 2 1 2019 myu-B/f.u 2.31 -7.2 6.02 ABC2 CeNiC2 Amm2 relative value a/a0 only K 1.8 "C(4N),Ni(5N),Nd(3N).La(4N)" "arc-melting. ANN(900 C,12 h)" Crossover from charge density wave stabilized antiferromagnetism to superconductivity in Nd1-xLaxNiC2 compounds 2019 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Phys.Rev.B, 99(2019)245152"
158574 PRB099245152 Nd1-xLaxNiC2 Nd0.3La0.7Ni1C2 Nd 0.3 La 0.7 Ni 1 C 2 1 2019 myu-B/f.u 2.02 -121 3.68 ABC2 CeNiC2 Amm2 relative value a/a0 only K 1.8 "C(4N),Ni(5N),Nd(3N).La(4N)" "arc-melting. ANN(900 C,12 h)" Crossover from charge density wave stabilized antiferromagnetism to superconductivity in Nd1-xLaxNiC2 compounds 2019 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Phys.Rev.B, 99(2019)245152"
158575 PRB099245152 Nd1-xLaxNiC2 Nd0.2La0.8Ni1C2 Nd 0.2 La 0.8 Ni 1 C 2 1 2019 myu-B/f.u 1.68 -17.2 1.92 ABC2 CeNiC2 Amm2 relative value a/a0 only K 1.8 "C(4N),Ni(5N),Nd(3N).La(4N)" "arc-melting. ANN(900 C,12 h)" Crossover from charge density wave stabilized antiferromagnetism to superconductivity in Nd1-xLaxNiC2 compounds 2019 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Phys.Rev.B, 99(2019)245152"
158576 PRB099245152 Nd1-xLaxNiC2 Nd0.1La0.9Ni1C2 Nd 0.1 La 0.9 Ni 1 C 2 1 2019 myu-B/f.u 1.24 -29.8 ABC2 CeNiC2 Amm2 relative value a/a0 only K 1.8 "C(4N),Ni(5N),Nd(3N).La(4N)" "arc-melting. ANN(900 C,12 h)" Crossover from charge density wave stabilized antiferromagnetism to superconductivity in Nd1-xLaxNiC2 compounds 2019 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Phys.Rev.B, 99(2019)245152"
158577 PRB099245152 Nd1-xLaxNiC2 Nd0.04La0.96Ni1C2 Nd 0.04 La 0.96 Ni 1 C 2 1 2019 myu-B/f.u 0.65 -4.3 ABC2 CeNiC2 Amm2 relative value a/a0 only K 2.16 2.28 1.99 2.16 MTC158577 "C(4N),Ni(5N),Nd(3N).La(4N)" "arc-melting. ANN(900 C,12 h)" Crossover from charge density wave stabilized antiferromagnetism to superconductivity in Nd1-xLaxNiC2 compounds 2019 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Phys.Rev.B, 99(2019)245152"
158578 PRB099245152 Nd1-xLaxNiC2 Nd0.03La0.97Ni1C2 Nd 0.03 La 0.97 Ni 1 C 2 1 2019 myu-B/f.u 0.6 -8.1 ABC2 CeNiC2 Amm2 relative value a/a0 only K 2.36 2.46 2.16 2.36 "C(4N),Ni(5N),Nd(3N).La(4N)" "arc-melting. ANN(900 C,12 h)" Crossover from charge density wave stabilized antiferromagnetism to superconductivity in Nd1-xLaxNiC2 compounds 2019 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Phys.Rev.B, 99(2019)245152"
158579 PRB099245152 Nd1-xLaxNiC2 Nd0.02La0.98Ni1C2 Nd 0.02 La 0.98 Ni 1 C 2 1 2019 -1.1 ABC2 CeNiC2 Amm2 relative value a/a0 only K 2.66 2.8 2.75 2.66 "C(4N),Ni(5N),Nd(3N).La(4N)" "arc-melting. ANN(900 C,12 h)" Crossover from charge density wave stabilized antiferromagnetism to superconductivity in Nd1-xLaxNiC2 compounds 2019 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Phys.Rev.B, 99(2019)245152"
158580 PRB099245152 Nd1-xLaxNiC2 Nd0.01La0.99Ni1C2 Nd 0.01 La 0.99 Ni 1 C 2 1 2019 ABC2 CeNiC2 Amm2 relative value a/a0 only K 3.25 3.34 2.83 3.25 "C(4N),Ni(5N),Nd(3N).La(4N)" "arc-melting. ANN(900 C,12 h)" Crossover from charge density wave stabilized antiferromagnetism to superconductivity in Nd1-xLaxNiC2 compounds 2019 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Phys.Rev.B, 99(2019)245152"
158581 PRB099245152 LaNiC2 La1Ni1C2 La 1 Ni 1 C 2 1 2019 ABC2 CeNiC2 Amm2 relative value a/a0 only K 3.25 3.41 3 3.25 "C(4N),Ni(5N),Nd(3N).La(4N)" "arc-melting. ANN(900 C,12 h)" Crossover from charge density wave stabilized antiferromagnetism to superconductivity in Nd1-xLaxNiC2 compounds 2019 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Phys.Rev.B, 99(2019)245152"
158582 PRB099245152 T = 120 K NdNiC2 Nd1Ni1C2 Nd 1 Ni 1 C 2 1 2019 myu-B/f.u 4.07 -23 16.7 ABC2 CeNiC2 Amm2 relative value a/a0 only K 1.8 "C(4N),Ni(5N),Nd(3N).La(4N)" "arc-melting. ANN(900 C,12 h)" Crossover from charge density wave stabilized antiferromagnetism to superconductivity in Nd1-xLaxNiC2 compounds 2019 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland" "Phys.Rev.B, 99(2019)245152"
158583 PRB100014507 P-induced SC. Pcr = 20.7 GPa. SC properties show for P = Pcr(20.7 GPa). Semicond -to-metal at 7 GPa. PdS2-type to pyrite at 16 GPa. SC in pyrite PdS2 Pd1S2 Pd 1 S 2 3 2019 AB2 pyrite "PdS2 type ,SG = Pbca at P = 0 GPa" K 2 0 2 MTC158583 K/GPa 0.35 "Pd(3N5),S(5N)" "CVT method. (Pd + S) - heat(550C,10d in silica tube), - CVT (600C(source) to 500C(sink) with PdCl2 as additive)" "Pressure-induced metallization, transition to the pyrite-type structure, and superconductivity in palladium disulfide PdS2" 2019 "Max Planck Institute for Chemical Physics of Solids, Dresden 01187, Germany" "Phys.Rev.B, 100(2019)014507"
158584 PRB100014507 not SC upto 50 GPa. NiSe2 Ni1Se2 Ni 1 Se 2 3 2019 AB2 pyrite "PdS2 type ,SG = Pbca at P = 0 GPa" K 1.4 "Ni(4N6),Se(5N)" "CVT method. (Pd + S) - heat(800C,10d in silica tube), - CVT (800C(source) to 700C(sink) with SeCl4 as additive)" "Pressure-induced metallization, transition to the pyrite-type structure, and superconductivity in palladium disulfide PdS2" 2019 "Max Planck Institute for Chemical Physics of Solids, Dresden 01187, Germany" "Phys.Rev.B, 100(2019)014507"
158585 PRB100024508 (dC/gamma*Tc) = 1.56 Pr1-xLaxPt4Ge12 Pr1Pt4Ge12 Pr 1 Pt 4 Ge 12 1 2019 AB4C12 skutterudite Im3[-] A 8.6111 K 7.91 7.91 T "SUS, H-sweep(onset)" 2.07 mJ/mol.K2 87.1 SP 198 SP Broken time-reversal symmetry in superconducting Pr1-xLaxPt4Ge12 2019 "State Key Laboratory of Surface Physics, Department of Physics, Fudan University, Shanghai 200433, People's Republic of China" "Phys.Rev.B, 100(2019)024508"
158586 PRB100024508 (dC/gamma*Tc) = 1.56 Pr1-xLaxPt4Ge12 Pr0.9La0.1Pt4Ge12 Pr 0.9 La 0.1 Pt 4 Ge 12 1 2019 AB4C12 skutterudite Im3[-] A 8.6134 K 7.85 7.85 T "SUS, H-sweep(onset)" 2.2 MHC158586 mJ/mol.K2 76.3 SP 201.3 SP Broken time-reversal symmetry in superconducting Pr1-xLaxPt4Ge12 2019 "State Key Laboratory of Surface Physics, Department of Physics, Fudan University, Shanghai 200433, People's Republic of China" "Phys.Rev.B, 100(2019)024508"
158587 PRB100024508 (dC/gamma*Tc) = 1.67 Pr1-xLaxPt4Ge12 Pr0.7La0.3Pt4Ge12 Pr 0.7 La 0.3 Pt 4 Ge 12 1 2019 AB4C12 skutterudite Im3[-] A 8.615 K 7.87 7.87 T "SUS, H-sweep(onset)" 2.13 MHC158587 2.66 14 mJ/mol.K2 67.9 SP 203.7 SP Broken time-reversal symmetry in superconducting Pr1-xLaxPt4Ge12 2019 "State Key Laboratory of Surface Physics, Department of Physics, Fudan University, Shanghai 200433, People's Republic of China" "Phys.Rev.B, 100(2019)024508"
158588 PRB100024508 (dC/gamma*Tc) = 1.55 Pr1-xLaxPt4Ge12 Pr0.5La0.5Pt4Ge12 Pr 0.5 La 0.5 Pt 4 Ge 12 1 2019 AB4C12 skutterudite Im3[-] A 8.6198 K 7.97 7.97 mJ/mol.K2 70.5 SP 203.1 SP Broken time-reversal symmetry in superconducting Pr1-xLaxPt4Ge12 2019 "State Key Laboratory of Surface Physics, Department of Physics, Fudan University, Shanghai 200433, People's Republic of China" "Phys.Rev.B, 100(2019)024508"
158589 PRB100024508 (dC/gamma*Tc) = 1.54 Pr1-xLaxPt4Ge12 Pr0.3La0.7Pt4Ge12 Pr 0.3 La 0.7 Pt 4 Ge 12 1 2019 AB4C12 skutterudite Im3[-] A 8.6213 K 8.02 8.02 T "SUS, H-sweep(onset)" 2.04 MHC158589 2.26 14 mJ/mol.K2 68.8 SP 216.4 SP Broken time-reversal symmetry in superconducting Pr1-xLaxPt4Ge12 2019 "State Key Laboratory of Surface Physics, Department of Physics, Fudan University, Shanghai 200433, People's Republic of China" "Phys.Rev.B, 100(2019)024508"
158590 PRB100024508 (dC/gamma*Tc) = 1.53 Pr1-xLaxPt4Ge12 Pr0.2La0.8Pt4Ge12 Pr 0.2 La 0.8 Pt 4 Ge 12 1 2019 AB4C12 skutterudite Im3[-] A 8.6229 K 8.07 8.07 mJ/mol.K2 67.2 SP 208.1 SP Broken time-reversal symmetry in superconducting Pr1-xLaxPt4Ge12 2019 "State Key Laboratory of Surface Physics, Department of Physics, Fudan University, Shanghai 200433, People's Republic of China" "Phys.Rev.B, 100(2019)024508"
158591 PRB100024508 (dC/gamma*Tc) = 1.53 Pr1-xLaxPt4Ge12 Pr0.1La0.9Pt4Ge12 Pr 0.1 La 0.9 Pt 4 Ge 12 1 2019 AB4C12 skutterudite Im3[-] A 8.6222 K 8.22 8.22 mJ/mol.K2 64.6 SP 207.9 SP Broken time-reversal symmetry in superconducting Pr1-xLaxPt4Ge12 2019 "State Key Laboratory of Surface Physics, Department of Physics, Fudan University, Shanghai 200433, People's Republic of China" "Phys.Rev.B, 100(2019)024508"
158592 PRB100041109 P-induced SC. Pcr = 56 GPa. Hc(0) = 1370 Oe (in DB) for P = 71 GPa. Tc = 2.1 K (DB) for P = 56 GPa. SC observed for oC16 phase. Rb Rb1 Rb 1 1 2019 A oC16 tI4 phase for P < 50 GPa K 2.1 0 2.1 MTC158592 K/GPa -0.039 Oe P = 71 GPa 1370 MHC158592 Rb(2N75) from Alfa Aesar Evidence for superconductivity in Rb metal above 55 GPa pressure 2019 "Department of Physics, Washington University, St. Louis, Missouri 63130, USA" "Phys.Rev.B, 100(2019)041109"
158594 PRB100014503 NED measured. Lattice const. shows anomaly at Tc via strong e-ph interaction. Tc = 27 K (DB) for P = 24.7 kbar. EuFe2As2 Eu1Fe2As2 Eu 1 Fe 2 As 2 3 2019 AB2C2 ThCr2Si2 I4/mmm K 27 0 27 MLAT158594 Coexistence of Eu antiferromagnetism and pressure-induced superconductivity in single-crystal EuFe2As2 2019 "Julich Centre for Neutron Science JCNS at Heinz Maier-Leibnitz Zentrum (MLZ), Forschungszentrum Julich GmbH, Lichtenbergstrasse 1, D-85747 Garching, Germany" "Phys.Rev.B, 100(2019)014503"
158595 PRL117106601 Two channel Kondo material. vacancy in the Se-site. ZrAs1.58Se0.39 Zr1As1.58Se0.39 Zr 1 As 1.58 Se 0.39 2016 ABC PbFCl P4/nmm K 0.14 0.14 0.14 MSP158595 mJ/mol.K2 1.7 SP Two-Channel Kondo Physics due to As Vacancies in the Layered Compound ZrAs1.58Se0.39 2016 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, 50-950 Wroclaw, Poland" "Phys.Rev.Lett., 117(2016)106601"
158596 PRL117106601 ZrP1.54S0.46 Zr1P1.54S0.46 Zr 1 P 1.54 S 0.46 2016 ABC PbFCl P4/nmm K 3.9 3.9 3.9 MSP158596 mJ/mol.K2 1.7 SP Two-Channel Kondo Physics due to As Vacancies in the Layered Compound ZrAs1.58Se0.39 2016 "Institute of Low Temperature and Structure Research, Polish Academy of Sciences, 50-950 Wroclaw, Poland" "Phys.Rev.Lett., 117(2016)106601"
158597 PRL122067001 UBe13 Be13U1 Be 13 U 1 2019 AB13 NaZn13 K 0.96 0.88 0.88 MTC158597 T various method MHC158597 Spin-Triplet p-Wave Superconductivity Revealed under High Pressure in UBe13 2019 "Universite Grenoble Alpes, INAC/PHELIQS, CEA-Grenoble, F-38000 Grenoble, France" "Phys.Rev.Lett., 122(2019)067001"
158598 PRL122067001 UBe13 Be13U1 Be 13 U 1 2019 AB13 NaZn13 K 0.96 0.88 0.88 T various method MHC158598 Spin-Triplet p-Wave Superconductivity Revealed under High Pressure in UBe13 2019 "Universite Grenoble Alpes, INAC/PHELIQS, CEA-Grenoble, F-38000 Grenoble, France" "Phys.Rev.Lett., 122(2019)067001"
158600 PRM003024801 Energy gap from SP analysis. (dC/gamma*Tc) = 1.30 . e-ph = 0.46 . Re Re1 Re 1 1 2019 Mg P6<3>/mmc 194 hexagonal K 1.69 1.69 kTc 1.71 3.42 14 mJ/mol.K2 2.3 SP 415 SP uOhm.cm 20.1 "Mo,Re" "arc-melting several times to homogeneity. ANN(900 C, 2 weeks)" Structure and superconductivity in the binary Re1-xMox alloys 2019 "Laboratory for Multiscale Materials Experiments, Paul Scherrer Institut, Villigen CH-5232, Switzerland" "Phys.Rev.Mater.,3(2019)024801"
158601 PRM003024801 Composition: x = 0.18 by XRF. Energy gap from SP analysis. (dC/gamma*Tc) = 1.18 . e-ph = 0.66 . Re1-xMox Re0.88Mo0.12 Re 0.88 Mo 0.12 1 2019 Mg P6<3>/mmc 194 A 2.76798 4.48728 hexagonal K 7.45 7.45 kTc 1.85 3.7 14 mJ/mol.K2 3.8 SP 402.9 SP 40.1 "Mo,Re" "arc-melting several times to homogeneity. ANN(900 C, 2 weeks)" Structure and superconductivity in the binary Re1-xMox alloys 2019 "Laboratory for Multiscale Materials Experiments, Paul Scherrer Institut, Villigen CH-5232, Switzerland" "Phys.Rev.Mater.,3(2019)024801"
158602 PRM003024801 Energy gap from SP analysis. (dC/gamma*Tc) = 0.98 . e-ph = 0.72 . Re1-xMox Re0.8Mo0.2 Re 0.8 Mo 0.2 1 2019 Mg P6<3>/mmc 194 hexagonal K 9.02 9.02 kTc 1.8 3.6 14 mJ/mol.K2 3.77 SP 363.7 SP 49.9 "Mo,Re" "arc-melting several times to homogeneity. ANN(900 C, 2 weeks)" Structure and superconductivity in the binary Re1-xMox alloys 2019 "Laboratory for Multiscale Materials Experiments, Paul Scherrer Institut, Villigen CH-5232, Switzerland" "Phys.Rev.Mater.,3(2019)024801"
158603 PRM003024801 Composition: x = 0.29 by XRF. centrosymmetric. Energy gap from SP analysis. (dC/gamma*Tc) = 1.07 . e-ph = 0.77 . Re1-xMox Re0.77Mo0.23 Re 0.77 Mo 0.23 1 2019 alpha-Mn I4[-]3m 217 A 9.58476 cubic K 9.43 9.43 kTc 1.8 3.6 14 mJ/mol.K2 3.53 SP 333 SP 69.1 "Mo,Re" "arc-melting several times to homogeneity. ANN(900 C, 2 weeks)" Structure and superconductivity in the binary Re1-xMox alloys 2019 "Laboratory for Multiscale Materials Experiments, Paul Scherrer Institut, Villigen CH-5232, Switzerland" "Phys.Rev.Mater.,3(2019)024801"
158604 PRM003024801 non-centrosymmetric. Energy gap from SP analysis. (dC/gamma*Tc) = 1.90 . e-ph = 0.76 . Re1-xMox Re0.77Mo0.23 Re 0.77 Mo 0.23 1 2019 alpha-Mn I4[-]3m 217 A 9.58476 cubic K 8.65 8.65 MTC158608 kTc 2 4 14 mJ/mol.K2 3.66 SP 311.4 SP "Mo,Re" "arc-melting several times to homogeneity. ANN(900 C, 2 weeks)" Structure and superconductivity in the binary Re1-xMox alloys 2019 "Laboratory for Multiscale Materials Experiments, Paul Scherrer Institut, Villigen CH-5232, Switzerland" "Phys.Rev.Mater.,3(2019)024801"
158605 PRM003024801 Energy gap from SP analysis. (dC/gamma*Tc) = 1.51 . e-ph = 0.63 . Re1-xMox Re0.65Mo0.35 Re 0.65 Mo 0.35 1 2019 alpha-Mn I4[-]3m K 6.3 6.3 kTc 1.9 3.8 14 mJ/mol.K2 3.2 SP 391.1 SP 63.6 "Mo,Re" "arc-melting several times to homogeneity. ANN(900 C, 2 weeks)" Structure and superconductivity in the binary Re1-xMox alloys 2019 "Laboratory for Multiscale Materials Experiments, Paul Scherrer Institut, Villigen CH-5232, Switzerland" "Phys.Rev.Mater.,3(2019)024801"
158606 PRM003024801 Composition: x = 0.47 by XRF. Energy gap from SP analysis. (dC/gamma*Tc) = 1.44 . e-ph = 0.58 . Re1-xMox Re0.6Mo0.4 Re 0.6 Mo 0.4 1 2019 beta-CrFe P4<2>/mnm 136 A 9.58514 4.9789 tetragonal K 6.07 6.07 kTc 1.82 3.64 14 MSP158606 mJ/mol.K2 3.01 SP 520 SP 60.4 "Mo,Re" "arc-melting several times to homogeneity. ANN(900 C, 2 weeks)" Structure and superconductivity in the binary Re1-xMox alloys 2019 "Laboratory for Multiscale Materials Experiments, Paul Scherrer Institut, Villigen CH-5232, Switzerland" "Phys.Rev.Mater.,3(2019)024801"
158607 PRM003024801 Energy gap from SP analysis. (dC/gamma*Tc) = 1.59 . e-ph = 0.64 . Re1-xMox Re0.55Mo0.45 Re 0.55 Mo 0.45 1 2019 beta-CrFe P4<2>/mnm K 6.6 6.6 kTc 1.85 3.7 14 mJ/mol.K2 3.45 SP 397.2 SP 54.2 "Mo,Re" "arc-melting several times to homogeneity. ANN(900 C, 2 weeks)" Structure and superconductivity in the binary Re1-xMox alloys 2019 "Laboratory for Multiscale Materials Experiments, Paul Scherrer Institut, Villigen CH-5232, Switzerland" "Phys.Rev.Mater.,3(2019)024801"
158608 PRM003024801 Composition: x = 0.66 by XRF. Energy gap from SP analysis. (dC/gamma*Tc) = 2.00 . e-ph = 0.87 . Re1-xMox Re0.4Mo0.6 Re 0.4 Mo 0.6 1 2019 W Im3[-]m 229 A 3.12627 cubic K 13 13 MTC158608 kTc 2.14 4.28 14 MSP158608 mJ/mol.K2 4.05 SP 341.8 SP 26.9 "Mo,Re" "arc-melting several times to homogeneity. ANN(900 C, 2 weeks)" Structure and superconductivity in the binary Re1-xMox alloys 2019 "Laboratory for Multiscale Materials Experiments, Paul Scherrer Institut, Villigen CH-5232, Switzerland" "Phys.Rev.Mater.,3(2019)024801"
158609 PRM003024801 Composition: x = 0.70 by XRF. Energy gap from SP analysis. (dC/gamma*Tc) = 1.96 . e-ph = 0.79 . Re1-xMox Re0.35Mo0.65 Re 0.35 Mo 0.65 1 2019 W Im3[-]m K 12.05 12.05 kTc 2.1 4.2 14 mJ/mol.K2 3.89 SP 397.3 SP 23.5 "Mo,Re" "arc-melting several times to homogeneity. ANN(900 C, 2 weeks)" Structure and superconductivity in the binary Re1-xMox alloys 2019 "Laboratory for Multiscale Materials Experiments, Paul Scherrer Institut, Villigen CH-5232, Switzerland" "Phys.Rev.Mater.,3(2019)024801"
158610 PRM003024801 Composition: x = 0.80 by XRF. Energy gap from SP analysis. (dC/gamma*Tc) = 1.64 . e-ph = 0.69 . Re1-xMox Re0.25Mo0.75 Re 0.25 Mo 0.75 1 2019 W Im3[-]m K 10.3 10.3 kTc 1.9 3.8 14 mJ/mol.K2 3.69 SP 480.6 SP 27.1 "Mo,Re" "arc-melting several times to homogeneity. ANN(900 C, 2 weeks)" Structure and superconductivity in the binary Re1-xMox alloys 2019 "Laboratory for Multiscale Materials Experiments, Paul Scherrer Institut, Villigen CH-5232, Switzerland" "Phys.Rev.Mater.,3(2019)024801"
158611 PRM003024801 Energy gap from SP analysis. (dC/gamma*Tc) = 1.51 . e-ph = 0.68 . Re1-xMox Re0.2Mo0.8 Re 0.2 Mo 0.8 1 2019 W Im3[-]m K 8.5 8.5 kTc 1.87 3.74 14 mJ/mol.K2 3.65 SP 420.7 SP 16.01 "Mo,Re" "arc-melting several times to homogeneity. ANN(900 C, 2 weeks)" Structure and superconductivity in the binary Re1-xMox alloys 2019 "Laboratory for Multiscale Materials Experiments, Paul Scherrer Institut, Villigen CH-5232, Switzerland" "Phys.Rev.Mater.,3(2019)024801"
158612 PRM003024801 Energy gap from SP analysis. (dC/gamma*Tc) = 1.50 . e-ph = 0.62 . Re1-xMox Re0.15Mo0.85 Re 0.15 Mo 0.85 1 2019 W Im3[-]m K 6.74 6.74 kTc 1.85 3.7 14 mJ/mol.K2 3.41 SP 436.2 SP 14.1 "Mo,Re" "arc-melting several times to homogeneity. ANN(900 C, 2 weeks)" Structure and superconductivity in the binary Re1-xMox alloys 2019 "Laboratory for Multiscale Materials Experiments, Paul Scherrer Institut, Villigen CH-5232, Switzerland" "Phys.Rev.Mater.,3(2019)024801"
158613 PRM003024801 Energy gap from SP analysis. (dC/gamma*Tc) = 1.35 . e-ph = 0.51 . Re1-xMox Re0.1Mo0.9 Re 0.1 Mo 0.9 1 2019 W Im3[-]m K 3.02 3.02 MTC158608 kTc 1.8 3.6 14 mJ/mol.K2 2.39 SP 429.9 SP 11.47 "Mo,Re" "arc-melting several times to homogeneity. ANN(900 C, 2 weeks)" Structure and superconductivity in the binary Re1-xMox alloys 2019 "Laboratory for Multiscale Materials Experiments, Paul Scherrer Institut, Villigen CH-5232, Switzerland" "Phys.Rev.Mater.,3(2019)024801"
158614 PRM003024801 Energy gap from SP analysis. (dC/gamma*Tc) = 1.25 . e-ph = 0.41 . Mo Mo1 Mo 1 1 2019 W Im3[-]m K 0.92 0.92 kTc 1.7 3.4 14 mJ/mol.K2 1.83 SP 460 SP 5.98 "Mo,Re" "arc-melting several times to homogeneity. ANN(900 C, 2 weeks)" Structure and superconductivity in the binary Re1-xMox alloys 2019 "Laboratory for Multiscale Materials Experiments, Paul Scherrer Institut, Villigen CH-5232, Switzerland" "Phys.Rev.Mater.,3(2019)024801"
158615 PRM003024802 "Compositions = Y7Ru3.67In0.86Ge11.2 by EDS. RRR = 3. Anisotropy(Hc2) = 2.2. (dC/gamma*Tc) = 2.4. SP (beta) = 3.55 mJ/mol.K4, (delta) = 7.48 uJ/mol.K6. e-ph = 0.73" Y7Ru4InGe12 Y7Ru4In1Ge12 Y 7 Ru 4 In 1 Ge 12 3 2019 emu/mol 0.00088 7.129 AB4C7D12 2 P4/m A 10.5348 4.2239 "tetragonal, volume = 468.78 A^3" K 5.6 5.8 5.8 5.8 Oe H-M curve 33 2 T "RES(0.9Rn), WHH" 2.4 5.3 T/K RES(0.9Rn) 0.62 1.35 MHC158615 A from Hc2 78.8 174 4.36 14 mJ/f.u.K2 43 SP 236 SP mOhm.cm 0.026 0.079 "Ru(5N),Y(3N8),Ge(5N),In(5N)" "(Y:Ru:Ge:In = 7:4:12:63) - alumina crucible - covered stailess frit - fused silica tube - heat(1000C,10 h) - hold (1000 C, 12h) - cool to 500 C with 2 C/h" Superconductivity in Y7Ru4InGe12 2019 "Materials Science Division, Argonne National Laboratory, Argonne, Illinois 60439, USA" "Phys.Rev.Mater.,3(2019)024802"
158616 PRM003074201 TF muSR shows nodeless SC. [penet] and energy gap are obtained. ZF muSR shows triplet paring Sr0.1Bi2Se3 Sr0.1Bi2Se3 Sr 0.1 Bi 2 Se 3 3 2019 K 2.5 2.5 nm muSR 1622 meV 0.49 4.36 16 "single crystals grown by modified Bridgeman method. mixture - in quartz ampoule(vac) - heat(850 C,8 d) -slow cool to 650 C (10 C/h) - Q to ices water" Time-reversal symmetry breaking in topological superconductor Sr0.1Bi2Se3 2019 "School of Physical Sciences, Jawaharlal Nehru University, New Delhi-110067, India" "Phys.Rev.Mater.,3(2019)074201"
158617 SCM0580543 R(T) anomaly at about 50 K. Curie-Weiss for 100 < T < 280 K. cluster spin glass below 6 K. R(4K)/R(300K) = 8.64 RbCr3As3 Rb1Cr3As3 Rb 1 Cr 3 As 3 1 2015 emu/mol-Cr 0.00067 myu-B/Cr 1.22 -79 AB3C3 P6<3>/m 176 A 9.334 4.1775 K 2 mJ/mol.K2 89 SP mOhm.cm 2 single crystals grown using chemical vapor transport method (CVT) in Oarai "Synthesis, crystal structure and physical properties of quasi-one-dimensional ACr3As3 (A = Rb, Cs)" 2015 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Sci. China Mater., 58(2015)543"
158618 SCM0580543 R(T) anomaly at about 50 K. cluster spin glass below 5 K. R(4K)/R(300K) = 19.9 CsCr3As3 Cs1Cr3As3 Cs 1 Cr 3 As 3 1 2015 myu-B/Cr 1.59 -80 AB3C3 P6<3>/m 176 A 9.632 4.1814 K 2 mJ/mol.K2 185 SP mOhm.cm 60 single crystals grown using chemical vapor transport method (CVT) in Oarai "Synthesis, crystal structure and physical properties of quasi-one-dimensional ACr3As3 (A = Rb, Cs)" 2015 "Department of Physics, Zhejiang University, Hangzhou 310027, China" "Sci. China Mater., 58(2015)543"
158619 SST02903LT02 RRR = 16.9 LaBi3 Bi3La1 Bi 3 La 1 1 2016 AB3 AuCu3 A 4.99 K 7.4 7.3 7.3 MTC158619 K/GPa -0.26 111 T "R(mid), Linear approx." 1.7 T/K R(mid) 0.238 MHC158619 A from Hc2 139 "LaBi,Bi" "starting compositions (La:Bi = 1.3:3) - press into pellet - in BN crucible - heat(450C, 1 h, P = 3.4 GPa)" Superconductivity in LaBi3 with AuCu3-type structure 2016 "National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "Supercond.Sci.Technol., 29(2016)03LT02"
158620 SST029055004 RH(20K) = -0.861 E-3 cm^3/C. ZrP2-xSex Zr1P1.6Se0.4 Zr 1 P 1.6 Se 0.4 1 2016 PBFCl A 3.6216 7.9127 K 3.98 3.5 3.98 T "RES(0.9Rn), GL" 0.99 MHC158622 mOhm.cm 0.127 "Zr(3N),P(5N),Se(5N)" "mixture(Zr:P:Se = 1:(2-x):x) - SIN(1300-1400 C, P = 2 GPa)" Superconductivity in layered ZrP2-xSex with PbFCl-type structure 2016 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "Supercond.Sci.Technol., 29(2016)055004"
158621 SST029055004 RH(20K) = -0.673 E-3 cm^3/C. ZrP2-xSex Zr1P1.5Se0.5 Zr 1 P 1.5 Se 0.5 1 2016 PBFCl A 3.629 7.9151 K 5.19 5.33 5.19 T "RES(0.9Rn), GL" 1.39 MHC158622 mOhm.cm 0.112 "Zr(3N),P(5N),Se(5N)" "mixture(Zr:P:Se = 1:(2-x):x) - SIN(1300-1400 C, P = 2 GPa)" Superconductivity in layered ZrP2-xSex with PbFCl-type structure 2016 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "Supercond.Sci.Technol., 29(2016)055004"
158622 SST029055004 RH(20K) = -0.594 E-3 cm^3/C. ZrP2-xSex Zr1P1.4Se0.6 Zr 1 P 1.4 Se 0.6 1 2016 PBFCl A 3.6396 7.9209 K 6.28 6.2 6.28 MTC158622 T "RES(0.9Rn), GL" 1.93 MHC158622 mOhm.cm 0.186 "Zr(3N),P(5N),Se(5N)" "mixture(Zr:P:Se = 1:(2-x):x) - SIN(1300-1400 C, P = 2 GPa)" Superconductivity in layered ZrP2-xSex with PbFCl-type structure 2016 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "Supercond.Sci.Technol., 29(2016)055004"
158623 SST029055004 RH(20K) = -0.193 E-3 cm^3/C. ZrP2-xSex Zr1P1.3Se0.7 Zr 1 P 1.3 Se 0.7 1 2016 PBFCl A 3.6503 7.9347 K 6.22 5.99 6.22 T "RES(0.9Rn), GL" 2.46 MHC158624 mOhm.cm 0.343 "Zr(3N),P(5N),Se(5N)" "mixture(Zr:P:Se = 1:(2-x):x) - SIN(1300-1400 C, P = 2 GPa)" Superconductivity in layered ZrP2-xSex with PbFCl-type structure 2016 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "Supercond.Sci.Technol., 29(2016)055004"
158624 SST029055004 RH(20K) = -0.136 E-3 cm^3/C. ZrP2-xSex Zr1P1.2Se0.8 Zr 1 P 1.2 Se 0.8 1 2016 PBFCl A 3.6562 7.9572 K 5 5 5 T "RES(0.9Rn), GL" 1.72 MHC158624 mOhm.cm 0.399 "Zr(3N),P(5N),Se(5N)" "mixture(Zr:P:Se = 1:(2-x):x) - SIN(1300-1400 C, P = 2 GPa)" Superconductivity in layered ZrP2-xSex with PbFCl-type structure 2016 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "Supercond.Sci.Technol., 29(2016)055004"
158625 SST029055004 ZrP2-xSex Zr1P1.1Se0.9 Zr 1 P 1.1 Se 0.9 1 2016 K 4.61 4.19 4.61 T "RES(0.9Rn), GL" 1.68 MHC158624 mOhm.cm 0.439 "Zr(3N),P(5N),Se(5N)" "mixture(Zr:P:Se = 1:(2-x):x) - SIN(1300-1400 C, P = 2 GPa)" Superconductivity in layered ZrP2-xSex with PbFCl-type structure 2016 "National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Ibaraki 305-8568, Japan" "Supercond.Sci.Technol., 29(2016)055004"
158626 SST030025015 Hc(0) = 5.015 kOe. Hc2(0) = 22 kOe from RES(0.9Rn) and WHH. (dC/gamma*Tc) = 1.05. kappa(GL) = 2.074. BaBi3 Ba1Bi3 Ba 1 Bi 3 3 2017 AB3 AuCu3 P4/mmm A 5.06 5.13 tetragonal distorted AuCu3 phase K 6 6 MTC158626 K/GPa 1.22 100 Oe H-M curve 1710 T "M-H curve, (1-t^2)" 1.47 MHC158626 A from Hc2 149 A GL(kappa) 309 mJ/mol.K2 3.2 SP 171 SP mOhm.cm 0.15 "Ba(3N5),Sr(3N5),Bi(4N)" "Bi-self flux method. Ba(or Sr):Bi = 1:4, sealed in quartz tube (vac) - heat slowly to 600C and keep 10 h - cool to 350 C with 2 C/h - remove excess Bi" Hydrostatic pressure effect on the superconducting properties of BaBi3 and SrBi3 single crystals 2017 "CCNH, Universidade Federal do ABC (UFABC), Santo Andre, SP, 09210-580 Brazil" "Supercond.Sci.Technol., 30(2017)025015"
158627 SST030025015 Hc(0) = 357 Oe. Hc2(0) = 2.9 kOe from RES(0.9Rn) and WHH. (dC/gamma*Tc) = 2.08. kappa(GL) = 1.76. SrBi3 Bi3Sr1 Bi 3 Sr 1 3 2017 AB3 AuCu3 Pm-3m A 5.05 cubic phase K 5.6 5.6 MTC158627 K/GPa -0.41 80 Oe H-M curve 210 T "M-H curve, (1-t^2)" 0.089 MHC158627 A from Hc2 608 A GL(kappa) 1070 mJ/mol.K2 6.5 SP 180 SP uOhm.cm 5.3 "Ba(3N5),Sr(3N5),Bi(4N)" "Bi-self flux method. Ba(or Sr):Bi = 1:4, sealed in quartz tube (vac) - heat slowly to 600C and keep 10 h - cool to 350 C with 2 C/h - remove excess Bi" Hydrostatic pressure effect on the superconducting properties of BaBi3 and SrBi3 single crystals 2017 "CCNH, Universidade Federal do ABC (UFABC), Santo Andre, SP, 09210-580 Brazil" "Supercond.Sci.Technol., 30(2017)025015"
158628 SST031085001 Zr5Ge3 Ge3Zr5 Ge 3 Zr 5 1 2018 A3B5 Mn5Si3 K 1.8 "Zr(2N8),Ge(4N),Pt(3N)" "arc-melting with Zr-getter. remelt several times (weight loss (<1%) - into Nb tube - in quartz tube - ANN (1000 C, 1 w)" Superconductivity and phase diagram in a transition metal doped Zr5Ge3 compound 2018 "Department of Physics, The University of Texas at Dallas, Richardson, TX 75080, United States of America" "Supercond.Sci.Technol., 31(2018)085001"
158629 SST031085001 Zr5Ge2.5Pd0.5 Zr5Ge2.5Pd0.5 Zr 5 Ge 2.5 Pd 0.5 1 2018 A3B5 Mn5Si3 K 1.8 "Zr(2N8),Ge(4N),Pt(3N)" "arc-melting with Zr-getter. remelt several times (weight loss (<1%) - into Nb tube - in quartz tube - ANN (1000 C, 1 w)" Superconductivity and phase diagram in a transition metal doped Zr5Ge3 compound 2018 "Department of Physics, The University of Texas at Dallas, Richardson, TX 75080, United States of America" "Supercond.Sci.Technol., 31(2018)085001"
158630 SST031085001 R(T) shows small drop at 1.8 K due to SC of Zr-Ir alloy (SEM) Zr5Ge2.5Ir0.5 Zr5Ge2.5Ir0.5 Zr 5 Ge 2.5 Ir 0.5 1 2018 A3B5 Mn5Si3 K 1.8 "Zr(2N8),Ge(4N),Pt(3N)" "arc-melting with Zr-getter. remelt several times (weight loss (<1%) - into Nb tube - in quartz tube - ANN (1000 C, 1 w)" Superconductivity and phase diagram in a transition metal doped Zr5Ge3 compound 2018 "Department of Physics, The University of Texas at Dallas, Richardson, TX 75080, United States of America" "Supercond.Sci.Technol., 31(2018)085001"
158631 SST031085001 Tc(SP) = 2.5 K. SP (beta) = 0.48 mJ/mol.K4. (dC/gamma*Tc) = 0.72 Zr5Ge2.5Pt0.5 Zr5Ge2.5Pt0.5 Zr 5 Ge 2.5 Pt 0.5 1 2018 A3B5 Mn5Si3 K 2.8 0.1 2.8 70 H-M curve 20 1.8 T "RES(0.9Rn), WHH" 4.3 MHC158631 mJ/mol.K2 16.15 SP 325 SP "Zr(2N8),Ge(4N),Pt(3N)" "arc-melting with Zr-getter. remelt several times (weight loss (<1%) - into Nb tube - in quartz tube - ANN (1000 C, 1 w)" Superconductivity and phase diagram in a transition metal doped Zr5Ge3 compound 2018 "Department of Physics, The University of Texas at Dallas, Richardson, TX 75080, United States of America" "Supercond.Sci.Technol., 31(2018)085001"
158632 SST031085001 "SC might already be induced for x < 0.2 with Tc < 2K, in Zr5Ge3-xPtx" Zr5Ge2.8Pt0.2 Zr5Ge2.8Pt0.2 Zr 5 Ge 2.8 Pt 0.2 1 2018 A3B5 Mn5Si3 K 2.6 0.1 2.6 "Zr(2N8),Ge(4N),Pt(3N)" "arc-melting with Zr-getter. remelt several times (weight loss (<1%) - into Nb tube - in quartz tube - ANN (1000 C, 1 w)" Superconductivity and phase diagram in a transition metal doped Zr5Ge3 compound 2018 "Department of Physics, The University of Texas at Dallas, Richardson, TX 75080, United States of America" "Supercond.Sci.Technol., 31(2018)085001"
158633 SST031085001 "For x > 1, phase separation appears in Zr5Ge3-xPtx" Zr5Ge2Pt Zr5Ge2Pt1 Zr 5 Ge 2 Pt 1 1 2018 A3B5 Mn5Si3 K 3.5 0.5 3.5 "Zr(2N8),Ge(4N),Pt(3N)" "arc-melting with Zr-getter. remelt several times (weight loss (<1%) - into Nb tube - in quartz tube - ANN (1000 C, 1 w)" Superconductivity and phase diagram in a transition metal doped Zr5Ge3 compound 2018 "Department of Physics, The University of Texas at Dallas, Richardson, TX 75080, United States of America" "Supercond.Sci.Technol., 31(2018)085001"
158634 SST031085001 Pt in Zr site. not SC Zr4.5Pt0.5Ge3 Zr4.5Ge3Pt0.5 Zr 4.5 Ge 3 Pt 0.5 1 2018 A3B5 Mn5Si3 K 1.8 "Zr(2N8),Ge(4N),Pt(3N)" "arc-melting with Zr-getter. remelt several times (weight loss (<1%) - into Nb tube - in quartz tube - ANN (1000 C, 1 w)" Superconductivity and phase diagram in a transition metal doped Zr5Ge3 compound 2018 "Department of Physics, The University of Texas at Dallas, Richardson, TX 75080, United States of America" "Supercond.Sci.Technol., 31(2018)085001"
158635 SST031105002 P-induced SC. Pc = 9 GPa. The large shrinkage of the Fe-ladder unit. BaFe2S3 Ba1Fe2S3 Ba 1 Fe 2 S 3 1 2018 GPa 46 AB2C3 LAD (dL/L)/GPa 0.00552 0.0113 0.00362 two leg ladder structure K 24 0 24 solid state reaction Crystal structure determination under high pressure in the iron-based ladder superconductor BaFe2S3 2018 "Condensed Matter Research Center, Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), Tsukuba, Ibaraki 305-0801, Japan" "Supercond.Sci.Technol., 31(2018)105002"
158636 SST031125008 Tn = 106 K. T = 106 K by R(T) measurement. "(La,Na)Fe2As2" La0.34Na0.66Fe2As2 La 0.34 Na 0.66 Fe 2 As 2 3 2018 106 AB2C2 ThCr2Si2 I4/m A 3.8676 12.287 K 26.9 27.3 27 27 T "RES(0.9Rn),WHH" 128 67 T/K RES(0.9Rn) 6.8 3.6 MHC158636 m3/C 1.54E-10 "starting material = LaFeAs(O,F):NaAs:NaF = 1:17:11. mixture - sealed in Ta tube(ar) - sealed in quartz tube(vac) - heat(1150C,10h) - cool to 700C with 2 C/h" Single-crystal growth of the iron-based superconductor La0.34Na0.66Fe2As2 2018 "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" "Supercond.Sci.Technol., 31(2018)125008"
158700 SCIR00739699 P-induced SC. Pcr = 8 GPa. Tc(14 GPa) = 4.5 K. (dTc/dP) = -0.14 K/Gpa at Pcr. Hc2(0)//c = 2.9 T (P = 14 GPa) and = 2.8 T (26 GPa). BiTeI Bi1Te1I1 Bi 1 Te 1 I 1 3 2017 ABC P3m1 A 4.3392 6.854 trigonal K 5.3 0 5.3 MTC158700 K/GPa -0.14 T "RES(on), WHH, P=14 GPa" 2.9 MHC158700 "Bridgeman method. stoichiometric mixture - sealed in quartz(vac) - heat (600 C,24h) - cool to 100 C (12 C/h) - q to RT" Superconductivity Bordering Rashba Type Topological Transition 2017 "Beijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China." "Sci.Rep., 7(2017)39699"
158701 PRB095184503 R(T) = R0 + A*T^2. Tc(zero) depends linearly on root(A). coeff. = 170 K/(uOhm.cm)^(0.5) Nb3Sn Nb3Sn1 Nb 3 Sn 1 1 2017 AB3 Cr3Si(A15) K 17.49 17.75 17.9 17.75 MTC158701 uOhm.cm 9.7 "HIP (hot isostatic pressure) synthesis. react (1250 C, 24 h, at 250 MPa) - cool to 0 C with 30 C/h" Evolution of T2 resistivity and superconductivity in Nb3Sn under pressure 2017 "DQMP - University of Geneva, 24 Quai Ernest-Ansermet, 1211 Geneva 4, Switzerland" "Phys.Rev.B, 95(2017)184503"
158702 PRB095184503 R(T) = R0 + A*T^2. Tc(zero) depends linearly on root(A). coeff. = 51 K/(uOhm.cm)^(0.5) Nb3Sn Nb3Sn1 Nb 3 Sn 1 3 2017 AB3 Cr3Si(A15) K 17.06 17.29 17.48 17.29 MTC158702 uOhm.cm 0.71 single crystals grown by Iodine vapor transport method Evolution of T2 resistivity and superconductivity in Nb3Sn under pressure 2017 "DQMP - University of Geneva, 24 Quai Ernest-Ansermet, 1211 Geneva 4, Switzerland" "Phys.Rev.B, 95(2017)184503"
158704 EPL11127002 "T*(dR/dT anomaly, maybe CDW transition) = 280 K." Eu3Bi2S4-xSexF4 Eu3Bi2S4F4 Eu 3 Bi 2 S 4 F 4 1 2015 myu-B/Eu 7.28 2.16 A2B3C4D4 I4/mmm 139 A 4.0774 32.4328 K 1.45 1.45 m3/C -3.03E-09 MRH158708 "Superconductivity enhanced by Se doping in Eu3Bi2(S,Se)4F4" 2015 "Department of Physics and State Key Laboratory of Silicon Materials, Zhejiang University Hangzhou 310027, China" "Europhys.Lett., 111(2015)27002"
158705 EPL11127002 "T*(dR/dT anomaly, maybe CDW transition) = 269 K." Eu3Bi2S4-xSexF4 Eu3Bi2S3.8Se0.2F4 Eu 3 Bi 2 S 3.8 Se 0.2 F 4 1 2015 myu-B/Eu 7.23 A2B3C4D4 I4/mmm 139 A 4.0838 32.4528 K 1.78 1.78 "Superconductivity enhanced by Se doping in Eu3Bi2(S,Se)4F4" 2015 "Department of Physics and State Key Laboratory of Silicon Materials, Zhejiang University Hangzhou 310027, China" "Europhys.Lett., 111(2015)27002"
158706 EPL11127002 "T*(dR/dT anomaly, maybe CDW transition) = 209 K." Eu3Bi2S4-xSexF4 Eu3Bi2S3.4Se0.6F4 Eu 3 Bi 2 S 3.4 Se 0.6 F 4 1 2015 myu-B/Eu 7.02 A2B3C4D4 I4/mmm 139 A 4.0929 32.4826 K 2.17 2.17 MTC158706 "Superconductivity enhanced by Se doping in Eu3Bi2(S,Se)4F4" 2015 "Department of Physics and State Key Laboratory of Silicon Materials, Zhejiang University Hangzhou 310027, China" "Europhys.Lett., 111(2015)27002"
158707 EPL11127002 "T*(dR/dT anomaly, maybe CDW transition) = 175 K. Tn1 = 2.15 K, Tn2 = 1.48 K." Eu3Bi2S4-xSexF4 Eu3Bi2S3Se1F4 Eu 3 Bi 2 S 3 Se 1 F 4 1 2015 myu-B/Eu 6.96 2.15 A2B3C4D4 I4/mmm 139 A 4.1017 32.5035 K 2.39 2.39 "Superconductivity enhanced by Se doping in Eu3Bi2(S,Se)4F4" 2015 "Department of Physics and State Key Laboratory of Silicon Materials, Zhejiang University Hangzhou 310027, China" "Europhys.Lett., 111(2015)27002"
158708 EPL11127002 "T*(dR/dT anomaly, maybe CDW transition) = 118 K. Tn1 = 2.3 K, Tn2 = 0.6 K. SP (beta) = 3.44 mJ/mol.K4." Eu3Bi2S4-xSexF4 Eu3Bi2S2.5Se1.5F4 Eu 3 Bi 2 S 2.5 Se 1.5 F 4 1 2015 myu-B/Eu 6.92 -2.67 2.3 A2B3C4D4 I4/mmm 139 A 4.1171 32.5477 K 2.72 2.72 MSP158708 mJ/mol.K2 18.1 SP 194.2 SP m3/C -2.72E-10 MRH158708 "Superconductivity enhanced by Se doping in Eu3Bi2(S,Se)4F4" 2015 "Department of Physics and State Key Laboratory of Silicon Materials, Zhejiang University Hangzhou 310027, China" "Europhys.Lett., 111(2015)27002"
158709 EPL11127002 "T*(dR/dT anomaly, maybe CDW transition) = 64 K." Eu3Bi2S4-xSexF4 Eu3Bi2S2Se2F4 Eu 3 Bi 2 S 2 Se 2 F 4 1 2015 myu-B/Eu 6.77 A2B3C4D4 I4/mmm 139 A 4.1295 32.6263 K 3.26 3.26 100 "Superconductivity enhanced by Se doping in Eu3Bi2(S,Se)4F4" 2015 "Department of Physics and State Key Laboratory of Silicon Materials, Zhejiang University Hangzhou 310027, China" "Europhys.Lett., 111(2015)27002"
158710 INO0570037 not SC above 0.3 K. broad hump appears at 250 K in R(T). EuSr2Bi2S4-xSexF4 Eu1Sr2Bi2S3.5Se0.5F4 Eu 1 Sr 2 Bi 2 S 3.5 Se 0.5 F 4 1 2018 A2B3C4D4 I4/mmm K 0.3 "EuF3,EuF2,SrF2,BiS3,BiSe3,Bi" "solid state reaction. mixture - pellet - heat(1123 K,30 h, in quartz ampule). Impurity phases are Bi2S3, Bi2Se3, EuF2.4" Valence State of Eu and Superconductivity in Se-Substituted EuSr2Bi2S4F4 and Eu2SrBi2S4F4 2018 "Department of Chemistry, Indian Institute of Technology, New Delhi 110016, India" "Inorganic Chem.,57(2018)37"
158711 INO0570037 not SC above 0.3 K. EuSr2Bi2S4-xSexF4 Eu1Sr2Bi2S3Se1F4 Eu 1 Sr 2 Bi 2 S 3 Se 1 F 4 1 2018 A2B3C4D4 I4/mmm K 0.3 "EuF3,EuF2,SrF2,BiS3,BiSe3,Bi" "solid state reaction. mixture - pellet - heat(1123 K,30 h, in quartz ampule). Impurity phases are Bi2S3, Bi2Se3, EuF2.4" Valence State of Eu and Superconductivity in Se-Substituted EuSr2Bi2S4F4 and Eu2SrBi2S4F4 2018 "Department of Chemistry, Indian Institute of Technology, New Delhi 110016, India" "Inorganic Chem.,57(2018)37"
158712 INO0570037 not SC above 0.3 K. EuSr2Bi2S4-xSexF4 Eu1Sr2Bi2S2.5Se1.5F4 Eu 1 Sr 2 Bi 2 S 2.5 Se 1.5 F 4 1 2018 A2B3C4D4 I4/mmm K 0.3 "EuF3,EuF2,SrF2,BiS3,BiSe3,Bi" "solid state reaction. mixture - pellet - heat(1123 K,30 h, in quartz ampule). Impurity phases are Bi2S3, Bi2Se3, EuF2.4" Valence State of Eu and Superconductivity in Se-Substituted EuSr2Bi2S4F4 and Eu2SrBi2S4F4 2018 "Department of Chemistry, Indian Institute of Technology, New Delhi 110016, India" "Inorganic Chem.,57(2018)37"
158713 INO0570037 bulk SC. broad hump in R(T) disappears. EuSr2Bi2S4-xSexF4 Eu1Sr2Bi2S2Se2F4 Eu 1 Sr 2 Bi 2 S 2 Se 2 F 4 1 2018 A2B3C4D4 I4/mmm K 2.46 2.94 2.3 2.94 T "RES(0.9Rn), WHH" 0.585 T/K RES(0.9Rn) 0.287 "EuF3,EuF2,SrF2,BiS3,BiSe3,Bi" "solid state reaction. mixture - pellet - heat(1123 K,30 h, in quartz ampule). Impurity phases are Bi2S3, Bi2Se3, EuF2.4" Valence State of Eu and Superconductivity in Se-Substituted EuSr2Bi2S4F4 and Eu2SrBi2S4F4 2018 "Department of Chemistry, Indian Institute of Technology, New Delhi 110016, India" "Inorganic Chem.,57(2018)37"
158714 INO0570037 not SC above 0.3 K. Eu2SrBi2S4-xSexF4 Eu2Sr1Bi2S4F4 Eu 2 Sr 1 Bi 2 S 4 F 4 1 2018 A2B3C4D4 I4/mmm K 0.3 "EuF3,EuF2,SrF2,BiS3,BiSe3,Bi" "solid state reaction. mixture - pellet - heat(1123 K,30 h, in quartz ampule). Impurity phases are Bi2S3, Bi2Se3, EuF2.4" Valence State of Eu and Superconductivity in Se-Substituted EuSr2Bi2S4F4 and Eu2SrBi2S4F4 2018 "Department of Chemistry, Indian Institute of Technology, New Delhi 110016, India" "Inorganic Chem.,57(2018)37"
158715 INO0570037 not SC above 0.3 K. Eu2SrBi2S4-xSexF4 Eu2Sr1Bi2S3.5Se0.5F4 Eu 2 Sr 1 Bi 2 S 3.5 Se 0.5 F 4 1 2018 A2B3C4D4 I4/mmm K 0.3 "EuF3,EuF2,SrF2,BiS3,BiSe3,Bi" "solid state reaction. mixture - pellet - heat(1123 K,30 h, in quartz ampule). Impurity phases are Bi2S3, Bi2Se3, EuF2.4" Valence State of Eu and Superconductivity in Se-Substituted EuSr2Bi2S4F4 and Eu2SrBi2S4F4 2018 "Department of Chemistry, Indian Institute of Technology, New Delhi 110016, India" "Inorganic Chem.,57(2018)37"
158716 INO0570037 not SC above 0.3 K. Eu2SrBi2S4-xSexF4 Eu2Sr1Bi2S3Se1F4 Eu 2 Sr 1 Bi 2 S 3 Se 1 F 4 1 2018 A2B3C4D4 I4/mmm K 0.3 "EuF3,EuF2,SrF2,BiS3,BiSe3,Bi" "solid state reaction. mixture - pellet - heat(1123 K,30 h, in quartz ampule). Impurity phases are Bi2S3, Bi2Se3, EuF2.4" Valence State of Eu and Superconductivity in Se-Substituted EuSr2Bi2S4F4 and Eu2SrBi2S4F4 2018 "Department of Chemistry, Indian Institute of Technology, New Delhi 110016, India" "Inorganic Chem.,57(2018)37"
158717 INO0570037 not bulk SC (diamagnetic signal not observed). Eu2SrBi2S4-xSexF4 Eu2Sr1Bi2S2.5Se1.5F4 Eu 2 Sr 1 Bi 2 S 2.5 Se 1.5 F 4 1 2018 A2B3C4D4 I4/mmm K 2.1 2.6 2.35 T "RES(0.9Rn), WHH" 0.8 T/K RES(0.9Rn) 0.45 "EuF3,EuF2,SrF2,BiS3,BiSe3,Bi" "solid state reaction. mixture - pellet - heat(1123 K,30 h, in quartz ampule). Impurity phases are Bi2S3, Bi2Se3, EuF2.4" Valence State of Eu and Superconductivity in Se-Substituted EuSr2Bi2S4F4 and Eu2SrBi2S4F4 2018 "Department of Chemistry, Indian Institute of Technology, New Delhi 110016, India" "Inorganic Chem.,57(2018)37"
158718 INO0570037 not bulk SC (diamagnetic signal not observed). Eu2SrBi2S4-xSexF4 Eu2Sr1Bi2S2Se2F4 Eu 2 Sr 1 Bi 2 S 2 Se 2 F 4 1 2018 A2B3C4D4 I4/mmm K 2.35 2.8 2.575 "EuF3,EuF2,SrF2,BiS3,BiSe3,Bi" "solid state reaction. mixture - pellet - heat(1123 K,30 h, in quartz ampule). Impurity phases are Bi2S3, Bi2Se3, EuF2.4" Valence State of Eu and Superconductivity in Se-Substituted EuSr2Bi2S4F4 and Eu2SrBi2S4F4 2018 "Department of Chemistry, Indian Institute of Technology, New Delhi 110016, India" "Inorganic Chem.,57(2018)37"
158719 INO0575364 Volume fraction of tetra-phase = 100 % Ce1-xPrxOBiS2 Ce1Bi1S2O1 Ce 1 Bi 1 S 2 O 1 1 2018 ABCD2 2 P4/nmm A 4.01002 13.5602 "at 100K, a = 4.00018, c = 13.5422" K 1.3 1.3 "Bi2O3,Bi2S3,Ce2S3,Pr2S3" "mixture - ground - press to pellet - sealed in quartz tube - heat(700 C, 20 h) - FC to RT" Crystal Structure and Superconductivity of Tetragonal and Monoclinic Ce1-xPrxOBiS2 2018 "Faculty of Engineering, Hokkaido University, Kita 13, Nishi 8, Sapporo 060-8628, Japan" "Inorganic Chem.,57(2018)5364"
158720 INO0575364 Volume fraction of tetra-phase = 100 % Ce1-xPrxOBiS2 Ce0.9Pr0.1Bi1S2O1 Ce 0.9 Pr 0.1 Bi 1 S 2 O 1 1 2018 ABCD2 K 1.4 1.4 "Bi2O3,Bi2S3,Ce2S3,Pr2S3" "mixture - ground - press to pellet - sealed in quartz tube - heat(700 C, 20 h) - FC to RT" Crystal Structure and Superconductivity of Tetragonal and Monoclinic Ce1-xPrxOBiS2 2018 "Faculty of Engineering, Hokkaido University, Kita 13, Nishi 8, Sapporo 060-8628, Japan" "Inorganic Chem.,57(2018)5364"
158721 INO0575364 Volume fraction of tetra-phase = 76 % Ce1-xPrxOBiS2 Ce0.7Pr0.3Bi1S2O1 Ce 0.7 Pr 0.3 Bi 1 S 2 O 1 1 2018 ABCD2 K 2.12 2.12 "Bi2O3,Bi2S3,Ce2S3,Pr2S3" "mixture - ground - press to pellet - sealed in quartz tube - heat(700 C, 20 h) - FC to RT" Crystal Structure and Superconductivity of Tetragonal and Monoclinic Ce1-xPrxOBiS2 2018 "Faculty of Engineering, Hokkaido University, Kita 13, Nishi 8, Sapporo 060-8628, Japan" "Inorganic Chem.,57(2018)5364"
158722 INO0575364 Volume fraction of tetra-phase = 55 % Ce1-xPrxOBiS2 Ce0.5Pr0.5Bi1S2O1 Ce 0.5 Pr 0.5 Bi 1 S 2 O 1 1 2018 ABCD2 2 P4/nmm A 4.00363 13.6088 "at 100K, a = 3.99299, c = 13.5831 A" K 2.21 2.21 "Bi2O3,Bi2S3,Ce2S3,Pr2S3" "mixture - ground - press to pellet - sealed in quartz tube - heat(700 C, 20 h) - FC to RT" Crystal Structure and Superconductivity of Tetragonal and Monoclinic Ce1-xPrxOBiS2 2018 "Faculty of Engineering, Hokkaido University, Kita 13, Nishi 8, Sapporo 060-8628, Japan" "Inorganic Chem.,57(2018)5364"
158723 INO0575364 Volume fraction of tetra-phase = 37 % Ce1-xPrxOBiS2 Ce0.3Pr0.7Bi1S2O1 Ce 0.3 Pr 0.7 Bi 1 S 2 O 1 1 2018 ABCD2 K 1.92 1.92 "Bi2O3,Bi2S3,Ce2S3,Pr2S3" "mixture - ground - press to pellet - sealed in quartz tube - heat(700 C, 20 h) - FC to RT" Crystal Structure and Superconductivity of Tetragonal and Monoclinic Ce1-xPrxOBiS2 2018 "Faculty of Engineering, Hokkaido University, Kita 13, Nishi 8, Sapporo 060-8628, Japan" "Inorganic Chem.,57(2018)5364"
158724 INO0575364 Volume fraction of tetra-phase = 9 %. R(T) not to zero down to 0.1 K. Ce1-xPrxOBiS2 Ce0.1Pr0.9Bi1S2O1 Ce 0.1 Pr 0.9 Bi 1 S 2 O 1 1 2018 ABCD2 K 2 2 "Bi2O3,Bi2S3,Ce2S3,Pr2S3" "mixture - ground - press to pellet - sealed in quartz tube - heat(700 C, 20 h) - FC to RT" Crystal Structure and Superconductivity of Tetragonal and Monoclinic Ce1-xPrxOBiS2 2018 "Faculty of Engineering, Hokkaido University, Kita 13, Nishi 8, Sapporo 060-8628, Japan" "Inorganic Chem.,57(2018)5364"
158725 INO0575364 monoclinic not SC. Ce1-xPrxOBiS2 Pr1Bi1S2O1 Pr 1 Bi 1 S 2 O 1 1 2018 ABCD2 P2<1>/m A 4.01269 4.00837 13.8371 "monoclinic beta = 90.276 deg. At 100K, monoclinic, a=4.01231, b=3.99363, c=13.8371, beta = 90.200 drg" K 0.1 "Bi2O3,Bi2S3,Ce2S3,Pr2S3" "mixture - ground - press to pellet - sealed in quartz tube - heat(700 C, 20 h) - FC to RT" Crystal Structure and Superconductivity of Tetragonal and Monoclinic Ce1-xPrxOBiS2 2018 "Faculty of Engineering, Hokkaido University, Kita 13, Nishi 8, Sapporo 060-8628, Japan" "Inorganic Chem.,57(2018)5364"
158726 INO0575364 "single crystal. Bi:Ce:Pr = 1:0.5:0.5, distributed homogeneously by SEM and EDX" Ce0.5Pr0.5OBiS2 Ce0.5Pr0.5Bi1S2O1 Ce 0.5 Pr 0.5 Bi 1 S 2 O 1 3 2018 ABCD2 2 P4/nmm K 2.4 2.4 2.4 "single crystal grown by CsCl flux method. mixture with CsCl flux - sealed in quartz tube - heat(950 C, 10 h) - cool to 650 C (1 C/h) - remove flux" Crystal Structure and Superconductivity of Tetragonal and Monoclinic Ce1-xPrxOBiS2 2018 "Faculty of Engineering, Hokkaido University, Kita 13, Nishi 8, Sapporo 060-8628, Japan" "Inorganic Chem.,57(2018)5364"
158727 JAC7870414 SP (beta) = 0.022 mJ/mol.K4. e-ph = 0.36. Nb1-xNixB2 B2Nb1 B 2 Nb 1 1 2019 AB2 7 AlB2 P6/mmm A 3.1125 3.2653 hexagonal K 1.3 1.3 mJ/mol.K2 2.217 SP 642 SP "Nb(4N),Ni(4N),B(4N)" arc-melting Evidence of unconventional superconductivity in the Ni-doped NbB2 system 2019 "Universidad de Salamanca - Departamento de Fisica Fundamental, Nanolab - Grupo de Nanotecnologia, Salamanca, 37008, Spain" "J.Alloys Compd., 787(2019)414"
158728 JAC7870414 Nb1-xNixB2 Nb0.99Ni0.01B2 Nb 0.99 Ni 0.01 B 2 1 2019 AB2 7 AlB2 P6/mmm A 3.1042 3.2475 hexagonal K 3.9 3.9 "Nb(4N),Ni(4N),B(4N)" arc-melting Evidence of unconventional superconductivity in the Ni-doped NbB2 system 2019 "Universidad de Salamanca - Departamento de Fisica Fundamental, Nanolab - Grupo de Nanotecnologia, Salamanca, 37008, Spain" "J.Alloys Compd., 787(2019)414"
158729 JAC7870414 Nb1-xNixB2 Nb0.97Ni0.03B2 Nb 0.97 Ni 0.03 B 2 1 2019 AB2 7 AlB2 P6/mmm A 3.0991 3.2379 hexagonal K 4.3 4.3 "Nb(4N),Ni(4N),B(4N)" arc-melting Evidence of unconventional superconductivity in the Ni-doped NbB2 system 2019 "Universidad de Salamanca - Departamento de Fisica Fundamental, Nanolab - Grupo de Nanotecnologia, Salamanca, 37008, Spain" "J.Alloys Compd., 787(2019)414"
158730 JAC7870414 Nb1-xNixB2 Nb0.95Ni0.05B2 Nb 0.95 Ni 0.05 B 2 1 2019 AB2 7 AlB2 P6/mmm A 3.0956 3.2272 hexagonal K 4.6 4.6 MTC158730 "Nb(4N),Ni(4N),B(4N)" arc-melting Evidence of unconventional superconductivity in the Ni-doped NbB2 system 2019 "Universidad de Salamanca - Departamento de Fisica Fundamental, Nanolab - Grupo de Nanotecnologia, Salamanca, 37008, Spain" "J.Alloys Compd., 787(2019)414"
158731 JAC7870414 Nb1-xNixB2 Nb0.93Ni0.07B2 Nb 0.93 Ni 0.07 B 2 1 2019 AB2 7 AlB2 P6/mmm A 3.0897 3.2254 hexagonal K 5.1 5.1 "Nb(4N),Ni(4N),B(4N)" arc-melting Evidence of unconventional superconductivity in the Ni-doped NbB2 system 2019 "Universidad de Salamanca - Departamento de Fisica Fundamental, Nanolab - Grupo de Nanotecnologia, Salamanca, 37008, Spain" "J.Alloys Compd., 787(2019)414"
158732 JAC7870414 SP (beta) = 0.046 mJ/mol.K4 Nb1-xNixB2 Nb0.91Ni0.09B2 Nb 0.91 Ni 0.09 B 2 1 2019 AB2 7 AlB2 P6/mmm A 3.0869 3.2226 hexagonal K 6.5 6 6 Oe "M-H curve, linear" 116 kOe "RES(on), M(T), linear fitting" 8.2 mJ/mol.K2 3.602 SP 500 SP "Nb(4N),Ni(4N),B(4N)" arc-melting Evidence of unconventional superconductivity in the Ni-doped NbB2 system 2019 "Universidad de Salamanca - Departamento de Fisica Fundamental, Nanolab - Grupo de Nanotecnologia, Salamanca, 37008, Spain" "J.Alloys Compd., 787(2019)414"
158733 JAC7870414 Nb1-xNixB2 Nb0.9Ni0.1B2 Nb 0.9 Ni 0.1 B 2 1 2019 AB2 7 AlB2 P6/mmm A 3.0882 3.2237 hexagonal K 5.4 5.4 "Nb(4N),Ni(4N),B(4N)" arc-melting Evidence of unconventional superconductivity in the Ni-doped NbB2 system 2019 "Universidad de Salamanca - Departamento de Fisica Fundamental, Nanolab - Grupo de Nanotecnologia, Salamanca, 37008, Spain" "J.Alloys Compd., 787(2019)414"
158734 JPCM026212201 RRR = 50. SP (beta) = 1.44 mJ/mol.K4. (dC/Tc) = 2.6 mJ/mol.K2. (dC/gamma*Tc) = 0.78. e-ph = 0.62. DOS = 0.88 states/eV.fu. NaBi Bi1Na1 Bi 1 Na 1 1 2014 AB 2 P4/mmm K 2.15 2.15 0.15 2.15 Oe M-H curve 30 0.4 Oe "RES(mid), H-sweep, WHH" 250 MHC158734 nm from Hc2 115 MSP158734 mJ/mol.K2 3.4 SP 140 SP "Bi(5N),Na(3N5)" "mixture(Bi:Na = 1:1) - sealed in metallic tube(arc-welded) - heat to 600 C(60 C/h) - hold(12 h) - Q to iced water - ANN(400 C, 24 h)" Superconducting properties and electronic structure of NaBi 2014 "Department of Chemistry, Princeton University, Princeton, NJ 08544, USA" "J.Phys.Condens.Matter, 26(2014)212201"
158735 JPCM026395701 "SP measured for 0.35 = 6.48 T, Hc2//<110> = 6.56 T at 1.5 K. penet = 1100 ~ 1400 A." CeRu2 Ce1Ru2 Ce 1 Ru 2 3 1995 AB2 MgCu2(Laves) K 6.18 6.18 T RES. H//<110> 7.4 2.8 4.25 MHC158739 A from Hc2 67 A "Hc1, cohere, GL" 1100 "Ce(4N),Ru(3N)" zone melting method. Superconducting Properties of CeRu2 Single Crystal 1995 "Faculty of Science, Tokyo Metropolitan University, Minami-Osawa 1-1 Hachioji, Tokyo 192-03" "J.Phys.Soc. Jpn, 64(1995)4849"
158740 JPS0644849 Fig shows H* is peak effect field in M(H) curve. H* appears for T < 5.0 K.Hc2 and H* of for #158740. CeRu2 Ce1Ru2 Ce 1 Ru 2 3 1995 AB2 MgCu2(Laves) K 6.17 6.17 MHC158740 "Ce(4N),Ru(4N)" zone melting method. ANN at melting point - q uench Superconducting Properties of CeRu2 Single Crystal 1995 "Faculty of Science, Tokyo Metropolitan University, Minami-Osawa 1-1 Hachioji, Tokyo 192-03" "J.Phys.Soc. Jpn, 64(1995)4849"
158741 JPS084124702 "RRR = 350, where J//<100>. (dC) = 120 mJ/mol.K. (dC/gamma*Tc) = 1.56 where Tc(SP) = 5.5 K. Several dHvA branches are observed." SrBi3 Bi3Sr1 Bi 3 Sr 1 3 2015 AB3 AuCu3 A 5.042 K 5.9 5.9 mJ/mol.K2 14 SP uOhm.cm 0.21 "Sr(3N),Bi(6N)" Bi-self flux method. starting(Sr:Bi = 14:86) - alumina crucible - in quartz tube - heat(800 C) - slow cool from 560 to 300 C(total 10 days) - remove excess Bi. Fermi Surface Properties Based on the Relativistic Effect in SrBi3 with AuCu3-Type Cubic Structure 2015 "Graduate School of Engineering and Science, University of the Ryukyus, Nishihara, Okinawa 903-0213, Japan" "J.Phys.Soc. Jpn, 84(2015)124702"
158742 JPS088083705 SP (beta = 2.81 mJ/mol.K2. residual (gamma) = 53.0 mJ/mol.K2. (dC/gamma*Tc) = 1.6. SP anomaly detected upto 36 T for magnetic hard axis (H//b) UTe2 Te2U1 Te 2 U 1 3 2019 AB2 UTe2-type K 1.65 1.65 MSP158742 mJ/mol.K2 123.5 SP CVT method Thermodynamic Investigation of Metamagnetism in Pulsed High Magnetic Fields on Heavy Fermion Superconductor UTe2 2019 "The Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "J.Phys.Soc. Jpn, 88(2019)083705"
158743 JPS088093709 vols = 39 % at 0.07 K. SP (beta) = 0.346 mJ/mol.K4 for 2 < T < 4.5K. PtSbS Pt1Sb1S1 Pt 1 Sb 1 S 1 1 2019 ABC FeS2(pyrite) P2<1>3 A 6.17 ullmannite-type structure. ordered pyrite K 0.15 0.18 0.12 0.12 39 Oe "RES(zero), GL" 620 MHC158743 nm from Hc2 73 mJ/mol.K2 4.22 SP 256 SP mOhm.cm 0.27 "Pt(3N),Sb(3N),S(4N)" "solid state reaction. mixture - press - sealed in quartz tube - heat (400 C,24 h) - heat (750 C,3 h) - hold (500 C,24 h) - FC to RT" Superconductivity in PtSbS with a Noncentrosymmetric Cubic Crystal Structure 2019 "Department of Applied Physics, Nagoya University, Nagoya 464-8603, Japan" "J.Phys.Soc. Jpn, 88(2019)093709"
158744 JPS088113702 not SC. <75>As-NMR measured. Fig shows (1/T1*T) vs T. La0.5-xNa0.5+xFe2As2 La0.5Na0.5Fe2As2 La 0.5 Na 0.5 Fe 2 As 2 1 2019 130 AB2C2 ThCr2Si2 K 4 polycrystals synthesized using a cubic-anvil-type high pressure apparatus. Unconventional Multi-gap Superconductivity and Antiferromagnetic Spin Fluctuations in New Iron-arsenide LaFe2As2 in Heavily Electron-doped Regime 2019 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "J.Phys.Soc. Jpn, 88(2019)113702"
158745 JPS088113702 <75>As-NMR measured. Fig shows (1/T1*T) vs T. La0.5-xNa0.5+xFe2As2 La1Fe2As2 La 1 Fe 2 As 2 1 2019 AB2C2 ThCr2Si2 K 9.4 9.4 TNMR158745 polycrystals synthesized using a cubic-anvil-type high pressure apparatus. Unconventional Multi-gap Superconductivity and Antiferromagnetic Spin Fluctuations in New Iron-arsenide LaFe2As2 in Heavily Electron-doped Regime 2019 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "J.Phys.Soc. Jpn, 88(2019)113702"
158746 JPS088113702 <75>As-NMR measured. Fig shows (1/T1*T) vs T. La0.5-xNa0.5+xFe2As2 La0.2Na0.8Fe2As2 La 0.2 Na 0.8 Fe 2 As 2 1 2019 AB2C2 ThCr2Si2 K 27 27 polycrystals synthesized using a cubic-anvil-type high pressure apparatus. Unconventional Multi-gap Superconductivity and Antiferromagnetic Spin Fluctuations in New Iron-arsenide LaFe2As2 in Heavily Electron-doped Regime 2019 "Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan" "J.Phys.Soc. Jpn, 88(2019)113702"
158747 JPS088113703 <125>Te-NMR. Knight shift shows two gap model of two point nodes is better. d1 = 3.8 kTc (in DB) and d2 = 0.28 kTc. UTe2 Te2U1 Te 2 U 1 3 2019 AB2 UTe2-type K 1.65 1.65 T SUS. 5 1.34 MHC158747 7.6 6 "cubic anvil type HP apparatus. mixture(la1.1Fe2As2.1) - press to pellet - in BN crucible - heat(960C,15h,P=3.4 GPa) - rapid cooling (100 C/min)" Superconducting Properties of Heavy Fermion UTe2 Revealed by <125>Te-nuclear Magnetic Resonance 2019 "Depertment of Phisics, Kyoto University, Kyoto 606-8502, Japan" "J.Phys.Soc. Jpn, 88(2019)113703"
158748 JPCL0101018 Collapsed tetragonal(as-synthesized). Impurity phase: LaAs. Compositions : La:Fe:As = 1.02:1.80:2.0. RRR = 15.5 LaFe2As2 La1Fe2As2 La 1 Fe 2 As 2 1 2019 AB2C2 ThCr2Si2 I4/mmm A 4.0035 11.0144 K 7.4 7.4 40 "LaAs,FeAs" "cubic anvil type HP apparatus. mixture(la1.1Fe2As2.1) - press to pellet - in BN crucible - heat(960C,15h,P=3.4 GPa) - rapid cooling (100 C/min)" Superconductivity in Uncollapsed Tetragonal LaFe2As2 2019 "National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "J.Phys.Chem.Lett., 10(2019)1018"
158749 JPCL0101018 Uncollapsed tetragonal(as-annealed). Impurity phase: LaAs increased. Compositions : La:Fe:As = 1.01:1.94:2.0. RRR = 2.3 LaFe2As2 La1Fe2As2 La 1 Fe 2 As 2 1 2019 AB2C2 ThCr2Si2 I4/mmm A 3.9376 11.7317 K 12.2 13 12.1 12.2 100 T "RES(mid), WHH" 15 T/K RES(mid) 1.77 MHC158749 "LaAs,FeAs" "cubic anvil type HP apparatus. mixture(la1.1Fe2As2.1) - press to pellet - in BN crucible - heat(960C,15h,P=3.4 GPa) - rapid cooling (100 C/min)- ANN" Superconductivity in Uncollapsed Tetragonal LaFe2As2 2019 "National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "J.Phys.Chem.Lett., 10(2019)1018"
158750 ACS1400369 not SC La0.5-xNa0.5+xFe2As2 La0.7Na0.3Fe2As2 La 0.7 Na 0.3 Fe 2 As 2 1 2018 AB2C2 ThCr2Si2 I4/mmm A 3.8745 12.134 K 5 MLAT158750 mOhm.cm 2.91 "LaAs,NaAs,Fe2As,FeAs" mixture - ground in N2 - (5 at% excess As added) - pellet - wrapped in Ta foil - in SUS pipe with cap - heat at Ts ( = 940 C for x < 0). Superconductivity on Hole-Doping Side of (La0.5-xNa0.5+x)Fe2As2 2018 "National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "J.Am.Chem.Soc., 140(2018)369"
158751 ACS1400369 not SC La0.5-xNa0.5+xFe2As2 La0.6Na0.4Fe2As2 La 0.6 Na 0.4 Fe 2 As 2 1 2018 AB2C2 ThCr2Si2 I4/mmm A 3.8724 12.141 K 5 mOhm.cm 1.45 "LaAs,NaAs,Fe2As,FeAs" mixture - ground in N2 - (5 at% excess As added) - pellet - wrapped in Ta foil - in SUS pipe with cap - heat at Ts ( = 940 C for x < 0). Superconductivity on Hole-Doping Side of (La0.5-xNa0.5+x)Fe2As2 2018 "National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "J.Am.Chem.Soc., 140(2018)369"
158752 ACS1400369 T = Tn = 131 K (tetra-to-ortho) La0.5-xNa0.5+xFe2As2 La0.5Na0.5Fe2As2 La 0.5 Na 0.5 Fe 2 As 2 1 2018 AB2C2 ThCr2Si2 I4/mmm A 3.8744 12.1631 K 5 mOhm.cm 1.74 "LaAs,NaAs,Fe2As,FeAs" mixture - ground in N2 - (5 at% excess As added) - pellet - wrapped in Ta foil - in SUS pipe with cap - heat at Ts ( = 900 - 200x for 0 =< x =<0.5. Superconductivity on Hole-Doping Side of (La0.5-xNa0.5+x)Fe2As2 2018 "National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "J.Am.Chem.Soc., 140(2018)369"
158753 ACS1400369 T = Tn = 112.9 K (tetra-to-ortho). SC trace below 15 K. La0.5-xNa0.5+xFe2As2 La0.4Na0.6Fe2As2 La 0.4 Na 0.6 Fe 2 As 2 1 2018 AB2C2 ThCr2Si2 I4/mmm A 3.8621 12.2082 K 5 mOhm.cm 2.1 "LaAs,NaAs,Fe2As,FeAs" mixture - ground in N2 - (5 at% excess As added) - pellet - wrapped in Ta foil - in SUS pipe with cap - heat at Ts ( = 900 - 200x for 0 =< x =<0.5. Superconductivity on Hole-Doping Side of (La0.5-xNa0.5+x)Fe2As2 2018 "National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "J.Am.Chem.Soc., 140(2018)369"
158754 ACS1400369 bulk-Tc for x >=0.15 in La0.5-xNa0.5+xFe2As2. La0.5-xNa0.5+xFe2As2 La0.3Na0.7Fe2As2 La 0.3 Na 0.7 Fe 2 As 2 1 2018 AB2C2 ThCr2Si2 I4/mmm A 3.8515 12.2604 K 22.1 22.1 mOhm.cm 2.21 "LaAs,NaAs,Fe2As,FeAs" mixture - ground in N2 - (5 at% excess As added) - pellet - wrapped in Ta foil - in SUS pipe with cap - heat at Ts ( = 900 - 200x for 0 =< x =<0.5. Superconductivity on Hole-Doping Side of (La0.5-xNa0.5+x)Fe2As2 2018 "National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "J.Am.Chem.Soc., 140(2018)369"
158755 ACS1400369 La0.5-xNa0.5+xFe2As2 La0.2Na0.8Fe2As2 La 0.2 Na 0.8 Fe 2 As 2 1 2018 AB2C2 ThCr2Si2 I4/mmm A 3.8439 12.3149 K 27 27 MPH158755 122 mOhm.cm 2.16 "LaAs,NaAs,Fe2As,FeAs" mixture - ground in N2 - (5 at% excess As added) - pellet - wrapped in Ta foil - in SUS pipe with cap - heat at Ts ( = 900 - 200x for 0 =< x =<0.5. Superconductivity on Hole-Doping Side of (La0.5-xNa0.5+x)Fe2As2 2018 "National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "J.Am.Chem.Soc., 140(2018)369"
158756 ACS1400369 La0.5-xNa0.5+xFe2As2 La0.15Na0.85Fe2As2 La 0.15 Na 0.85 Fe 2 As 2 1 2018 AB2C2 ThCr2Si2 I4/mmm A 3.8382 12.3305 K 26 26 "LaAs,NaAs,Fe2As,FeAs" mixture - ground in N2 - (5 at% excess As added) - pellet - wrapped in Ta foil - in SUS pipe with cap - heat at Ts ( = 900 - 200x for 0 =< x =<0.5. Superconductivity on Hole-Doping Side of (La0.5-xNa0.5+x)Fe2As2 2018 "National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "J.Am.Chem.Soc., 140(2018)369"
158757 ACS1400369 La0.5-xNa0.5+xFe2As2 La0.1Na0.9Fe2As2 La 0.1 Na 0.9 Fe 2 As 2 1 2018 AB2C2 ThCr2Si2 I4/mmm A 3.8421 12.3393 K 5 "LaAs,NaAs,Fe2As,FeAs" mixture - ground in N2 - (5 at% excess As added) - pellet - wrapped in Ta foil - in SUS pipe with cap - heat at Ts ( = 900 - 200x for 0 =< x =<0.5. Superconductivity on Hole-Doping Side of (La0.5-xNa0.5+x)Fe2As2 2018 "National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "J.Am.Chem.Soc., 140(2018)369"
158758 ACS1400369 La0.5-xNa0.5+xFe2As2 La0.05Na0.95Fe2As2 La 0.05 Na 0.95 Fe 2 As 2 1 2018 AB2C2 ThCr2Si2 I4/mmm A 3.8397 12.3445 K 5 "LaAs,NaAs,Fe2As,FeAs" mixture - ground in N2 - (5 at% excess As added) - pellet - wrapped in Ta foil - in SUS pipe with cap - heat at Ts ( = 900 - 200x for 0 =< x =<0.5. Superconductivity on Hole-Doping Side of (La0.5-xNa0.5+x)Fe2As2 2018 "National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" "J.Am.Chem.Soc., 140(2018)369"
158759 PCCP01821737 RRR = 200. SP (beta) = 1.21 mJ/mol.K4. (dC/Tc) = 6.4 mJ/mol.K2. gamma(residual) = 0.5 mJ/mol.K2. Type-I SC. Hc defined as M goes to normal value ( H/n/b-axis). e-ph = 0.59. DOS = 1.07 states/eV.fu CaBi2 Bi2Ca1 Bi 2 Ca 1 1 2016 8.225 AB2 3 ZrSi2 Cmcm A 4.696 17.081 4.611 "orthorhombic, ZrSi2 type. cell vol = 369.9 A^3" K 2 1.95 2 Oe "SUS, (1-t^2 fitting" 124 MHC158759 meV 0.23 14 MSP158759 mJ/mol.K2 4.6 SP 157 SP "Ca(2N5),Bi(4N)" "(Ca:Bi = 3:17) - carbon coated quartz tube (Ar) - heat(550 C,8h) - slow cool to 310 C (3 C/h) - remove the excess Bi" Superconductivity in CaBi2 2016 "Faculty of Applied Physics and Mathematics, Gdansk University of Technology, Narutowicza 11/12, 80-233 Gdansk, Poland." "Phys.Chem.Chem.Phys., 18(2016)21737"
158760 PHB2370068 The sample of 4 month intercalation has Tc = 2 K(onset) and shows mwtallic behavior below 60 K. Li-content not given. LixKCaNb3O10 Li0.1K1Ca1Nb3O10 Li 0.1 K 1 Ca 1 Nb 3 O 10 1997 triple layered NbO6 octahedra K 1.5 2 1.75 "K2CO3,CaCO3,Nb2O5" "mixture with 10%-excess K2CO3 - pellet - CAL(1150 C,10 h, in air. Li-intercalation using n-butyl lithium n-hexane solution" Transport properties of Li intercalated KCa2Nb3O10 1997 "Institute for Solid State Physics, University of Tokyo, Minato-ku, Japan" "Physica B, 237-238(1997)68"
158761 PHC3000067 Average ompositions of 10 grains are Eu:Nb:S = 17.2:22:61 by EDX . EuNb2S5 Eu1Nb2S5 Eu 1 Nb 2 S 5 1998 AB2C5 K 3 3 80 "samples synthesized by heating (1100 C, 48 h) in silica tube" A new superconducting sulfide-EuNb2S5 1998 5 "Chemical Department, Moscow State University, 119899 Moscow, Russian Federation" "Physica.C,300(1998)67-70"
158762 PHC5651353518 Pb2-xBixPd Pb2Pd1 Pb 2 Pd 1 1 2019 AB2 2 CuAl2 A 6.873 5.834 cell volume = 275.587 A^3 K 3 3 3 "Pb,Bi,Pd" "mixture - ground - encapsulated into quartz tube - SIN(1273 K, 24 h) - cool to RT" Bi substitution effect on superconductivity of novel Pb2Pd alloy 2019 "Hefei National Laboratory for Physical Sciences at the Microscale, University of Science and Technology of China, Hefei, 230026, China" "Physica C, 565(2019)1353518"
158763 PHC5651353518 Pb2-xBixPd Pb1.8Bi0.2Pd1 Pb 1.8 Bi 0.2 Pd 1 1 2019 AB2 2 CuAl2 A 6.881 5.85 cell volume = 276.986 A^3 K 3.3 3.3 3.3 "Pb,Bi,Pd" "mixture - ground - encapsulated into quartz tube - SIN(1273 K, 24 h) - cool to RT" Bi substitution effect on superconductivity of novel Pb2Pd alloy 2019 "Hefei National Laboratory for Physical Sciences at the Microscale, University of Science and Technology of China, Hefei, 230026, China" "Physica C, 565(2019)1353518"
158764 PHC5651353518 Pb2-xBixPd Pb1.6Bi0.4Pd1 Pb 1.6 Bi 0.4 Pd 1 1 2019 AB2 2 CuAl2 A 6.884 5.875 cell volume = 278.413 A^3 K 2.8 2.8 2.8 "Pb,Bi,Pd" "mixture - ground - encapsulated into quartz tube - SIN(1273 K, 24 h) - cool to RT" Bi substitution effect on superconductivity of novel Pb2Pd alloy 2019 "Hefei National Laboratory for Physical Sciences at the Microscale, University of Science and Technology of China, Hefei, 230026, China" "Physica C, 565(2019)1353518"
158765 PHC5651353518 Pb2-xBixPd Pb1.4Bi0.6Pd1 Pb 1.4 Bi 0.6 Pd 1 1 2019 AB2 2 CuAl2 A 6.876 5.891 cell volume = 278.523 A^3 K 3.3 3.3 3.3 "Pb,Bi,Pd" "mixture - ground - encapsulated into quartz tube - SIN(1273 K, 24 h) - cool to RT" Bi substitution effect on superconductivity of novel Pb2Pd alloy 2019 "Hefei National Laboratory for Physical Sciences at the Microscale, University of Science and Technology of China, Hefei, 230026, China" "Physica C, 565(2019)1353518"
158766 PRB082094517 "RRR = 13. SP (beta) = 0.83 mJ/mol.K4, (delta) = 0.01 mJ/mol.K6, (dC/gamma*Tc) = 2.19. kappa(GL) = 4.1" YSn3 Sn3Y1 Sn 3 Y 1 1 2010 AB3 AuCu3 Pm3[-]m A 4.667 K 7 7.3 7 7 Oe "M-H curve, (1-t^2) fitting" 90 Oe "RES(mid), WHH" 3000 Oe/K RES(mid) 600 MHC158766 nm from Hc2 66 nm from Hc1 270 MSP158766 mJ/mol.K2 7.57 SP 210 SP "Y(3N),Sn(5N)" "mixture - encapsuled in hBN. High-T-High-P synthesis, (700 C, 2-10 min, P=5.5 GPa) - (470 C, 10-30 min, P = 5.5 GPa) - Q to RT" Superconducting state in YSn3 with a AuCu3-type structure 2010 "Department of Physics and Mathematics, Aoyama Gakuin University, Fuchinobe 5-10-1, Sagamihara, Kanagawa 229-8558, Japan" "Phys.Rev.B, 82(2010)094517"
158767 PRB090220508 "RRR = 20. Hydrostatic P. (dTc/dP) for P < 4 GPa. For P > 4 GPa, P-induced phase (PI-phase) appears , then Tc decreases and goes to zero below 8GPa. dT/dP = 51.5 K/GPa." LaNiC2 La1Ni1C2 La 1 Ni 1 C 2 1 2014 ABC2 3 CeNiC2 Amm2 A 3.952 4.557 6.193 K 2.8 2.8 MTC158767 K/GPa 0.25 uOhm.cm 8.5 "La(3N),Ni(4N7),C(5N5)" arc-melting Anomalous pressure dependence of the superconductivity in noncentrosymmetric LaNiC2: Evidence of strong electronic correlations 2014 "Department of Physics, Graduate School of Science and Engineering, Saitama University, Sakura-ku, Saitama, Saitama 338-8570, Japan" "Phys.Rev.B, 90(2014)220508"
158768 PRB091214512 P = 0.3 GPa. T = 260 K. EuBiS2F Eu1Bi1S2F1 Eu 1 Bi 1 S 2 F 1 1 2015 ABCD2 2 CeOBiS2 P4/nmm K 0.35 0.35 mOhm.cm 0.762 solid state reaction method Evidence for two distinct superconducting phases in EuBiS2F under pressure 2015 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou, Zhejiang 310058, China" "Phys.Rev.B, 91(2015)214512"
158769 PRB091214512 P = 2.4 GPa. monoclinic for P > 1.4 GPa. Hc2 = 1.8 T (defined as R=0.1Rn). EuBiS2F Eu1Bi1S2F1 Eu 1 Bi 1 S 2 F 1 1 2015 ABCD2 CeOBiS2 P2<1>/m K 8.61 8.61 MTC158769 T "RES(0.9Rn), extrapolation" 3.1 MHC158769 A from Hc2 103 4.5 14 mOhm.cm 0.263 solid state reaction method Evidence for two distinct superconducting phases in EuBiS2F under pressure 2015 "Center for Correlated Matter and Department of Physics, Zhejiang University, Hangzhou, Zhejiang 310058, China" "Phys.Rev.B, 91(2015)214512"
158770 PRB093134505 "structural anomaly T* = 38 K. SP (beta) = 12.0 mJ/mol.K4. (dC/Tc) = 100 mJ/mol.K2, (dC/gamma*Tc) = 2.5. Hc(0) = 78 mT from C(T)." Ca3Ir4Sn13 Ca3Ir4Sn13 Ca 3 Ir 4 Sn 13 3 2016 A3B4C13 Yb3Rh4Sn12 Pm3[-]n K 6.8 6.8 MTC158770 4.9 14 MSP158770 mJ/mol.K2 40 SP 150 SP "Ca(4N),Ir(3N),Sn(5N)" Strong-coupling phonon-mediated scenario of superconductivity in Ca3Ir4Sn13 and Ca3(Ir0.91Co0.09)4Sn13 2016 "Department of Physics, The Hong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong Kong" "Phys.Rev.B, 93(2016)134505"
158771 PRB093134505 "SP (beta) = 12.0 mJ/mol.K4. (dC/Tc) = 160 mJ/mol.K2, (dC/gamma*Tc) = 2.7. Hc(0) = 100 mT from C(T)." Ca3(Ir0.91Co0.09)4Sn13 Ca3Ir3.64Co0.36Sn13 Ca 3 Ir 3.64 Co 0.36 Sn 13 3 2016 A3B4C13 Yb3Rh4Sn12 Pm3[-]n K 75 75 MSP158771 mJ/mol.K2 60 SP 149 SP uOhm.cm 25.6 "Ca(4N),Ir(3N),Co(3N),Sn(5N)" "starting(Ca:Ir:Co:Sn = 3:2.2:1.8:90) - heat (1050 C,2h, in sealed quartz tube) - cool to 500 C (3 C/h) - Q to RT - remove excess Sn using HCl" Strong-coupling phonon-mediated scenario of superconductivity in Ca3Ir4Sn13 and Ca3(Ir0.91Co0.09)4Sn13 2016 "Department of Physics, The Hong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong Kong" "Phys.Rev.B, 93(2016)134505"
158772 PRB095184503 poly crystal. TCFIG shows Tc vs P. A = 6.9 nOhm.cm/K^2. Tc(bulk) = Tc(zero) = Tc(SP). structural transition (cubic-to-tetra) at 41 K. Nb3Sn Nb3Sn1 Nb 3 Sn 1 1 2017 AB3 Cr3Si(A15) K 17.5 17.8 17.9 17.8 MTC158772 MSP158772 uOhm.cm 9.7 "HIP (hot isostatic pressure) furnace (200 MPa, 1250 C, 24 h) - cool to 0 C with 30 C/h" Evolution of T2 resistivity and superconductivity in Nb3Sn under pressure 2017 "DQMP - University of Geneva, 24 Quai Ernest-Ansermet, 1211 Geneva 4, Switzerland" "Phys.Rev.B, 95(2017)184503"
158773 PRB095184503 single crystal. TCFIG shows Tc vs root(A) where R = R0 + A*T^2. A = 7.7 nOhm.cm/K^2. Tc(bulk) = Tc(zero) = Tc(SP). Nb3Sn Nb3Sn1 Nb 3 Sn 1 3 2017 AB3 Cr3Si(A15) K 17.1 17.3 17.5 17.3 MTC158773 uOhm.cm 0.71 Tiny single crystals by vapor transport method Evolution of T2 resistivity and superconductivity in Nb3Sn under pressure 2017 "DQMP - University of Geneva, 24 Quai Ernest-Ansermet, 1211 Geneva 4, Switzerland" "Phys.Rev.B, 95(2017)184503"
158774 PRB096165123 P-induced SC. Pc = 27 GPa. SC properties (in DB) for P = 39.0 GPa. phase transition: alpha-to-beta SnSe (15 GPa) and to CsCl-type (26 GPa). semicond-metal (10 GPa) SnSe Se1Sn1 Se 1 Sn 1 2017 AB Pnma 62 A 11.4447 4.3825 4.1616 "At 39 GPa, CsCl type, a = 3.2060 A." K 3.25 0 3.25 MTC158774 T "RES(0.9Rn), linear approx." 1.12 MHC158774 Topological Dirac line nodes and superconductivity coexist in SnSe at high pressure 2017 "Anhui Province Key Laboratory of Condensed Matter Physics at Extreme Conditions, High Magnetic Field Laboratory, Chinese Academy of Sciences, Hefei 230031, China" "Phys.Rev.B, 96(2017)165123"
158775 PRB100045152 "half collapsed phase (hcT) for 6 22 GPa. for P = 3.1 GPa, dTc/dH = -0.3 K/T." CaRbFe4As4 Ca1Rb1Fe4As4 Ca 1 Rb 1 Fe 4 As 4 3 2019 ABC4D4 CaRb1144 A 3.8762 13.093 K MTC158775 T RES(0.9Rn) MHC158775 cm3/C 10 MRH158775 "(ca:Rb:FeAs = 0.8:1.2:10) - crucible in capped stainless tube - heat to 560C, hold 3h - heat to 1180 C, hold2 h - cool to 1030 C(30h) - 900 C(30h) - FC to RT" Observation of two collapsed phases in CaRbFe4As4 2019 "Lawrence Livermore National Laboratory, Livermore, California 94550, USA" "Phys.Rev.B, 100(2019)045152"
158776 PRB100060103 "HCFIG shows h* vs t for P = 6.5 GPa, where h* = [Hc(T)/Tc]/[dHc2/dT at Tc]." Au2Pb Au2Pb1 Au 2 Pb 1 3 2019 AB2 Fd3[-]m "cubic Laves. For low-T (SC states ), SG = I4[-]2d" K 3.61 3.61 MTC158776 T "RES(0.9Rn), WHH" 0.16 T/K RES(0.9Rn) 0.0645 MHC158776 Au2Pb powder in scre-pressure-type diamond-anvil cell Ground states of Au2Pb and pressure-enhanced superconductivity 2019 "National Laboratory of Solid State Microstructures, School of Physics and Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 100(2019)060103"
158777 PRB100064516 "Hc2,Hc1 for H//ab. demag-correction. Anisotropy (Hc2) = 14.9. kappa(GL) = 7.58. SP (dC/gamma*Tc) = 1.23. e-ph = 0.66. N(0) = 1.14 states/eV.fu." SnTaS2 Sn1Ta1S2 Sn 1 Ta 1 S 2 3 2019 ABC2 P6<3>/mmc A 3.309 17.45 K 3 2.97 3 100 Oe "M-H cuve(5% deviation, (1-t^2) fitting" 53.5 81.7 Oe RES(0.5Rn). two band model fitting 3034 203.6 MHC158777 nm from Hc2 127 8.5 nm 64.4 962.4 MSP158777 mJ/mol.K2 4.45 SP 154.4 SP "Sn0.33TaS2,Sn" crystals grown by CVT method using iodine agent. mixture(Sn:Ta:S = 1.2:1:2) - two zone furnace (1000 C(H) and 970 C(L) in quartz tube for 2weeks Superconducting properties in a candidate topological nodal line semimetal SnTaS2 with a centrosymmetric crystal structure 2019 "College of Physics, Qingdao University, Qingdao 266071, China" "Phys.Rev.B, 100(2019)064516"
158778 PRB100064516 "Hc2,Hc1 for H//c. demag-correction. Anisotropy (Hc2) = 14.9. kappa(GL) = 5.07. SP (dC/gamma*Tc) = 1.23. e-ph = 0.66. N(0) = 1.14 states/eV.fu." SnTaS2 Sn1Ta1S2 Sn 1 Ta 1 S 2 3 2019 ABC2 P6<3>/mmc A 3.309 17.45 K 3 2.97 3 100 Oe "M-H cuve(5% deviation, (1-t^2) fitting" 53.5 81.7 Oe "RES(0.5Rn), GL fitting" 3034 203.6 MHC158778 nm from Hc2 127 8.5 nm 64.4 962.4 MSP158777 mJ/mol.K2 4.45 SP 154.4 SP "Sn0.33TaS2,Sn" crystals grown by CVT method using iodine agent. mixture(Sn:Ta:S = 1.2:1:2) - two zone furnace (1000 C(H) and 970 C(L) in quartz tube for 2weeks Superconducting properties in a candidate topological nodal line semimetal SnTaS2 with a centrosymmetric crystal structure 2019 "College of Physics, Qingdao University, Qingdao 266071, China" "Phys.Rev.B, 100(2019)064516"
158779 PRB100094103 "Anisotropy (Rc/Rab) = 55 (40 K), = 16 (30 K). Thermal conductivity K,ab> shows with K via Wiedemann-Franz law." "Ca10Pt4As8((Fe1-xPtx)2As2)5, x=0.05" Ca10Pt4.5Fe9.5As18 Ca 10 Pt 4.5 Fe 9.5 As 18 3 2019 P2<1>/n A 8.76 8.76 20.18 "gamma-1048 phase. monoclinic. alpha= beta = 90, gamma = 90.5." K 32 32 32 W/K.m 1.18 MTHC158779 mOhm.cm 0.26 14.2 0.62 9.85 Atomically imaged crystal structure and normal-state properties of superconducting Ca10Pt4As8((Fe1-xPtx)2As2 )5 2019 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana 70803, USA" "Phys.Rev.B, 100(2019)094103"
158780 PRB100094103 "data from Angew.Chem.Int.Ed., 50(2011)9195." "Ca10Pt4As8((Fe1-xPtx)2As2)5, x=0" Ca10Pt4Fe10As18 Ca 10 Pt 4 Fe 10 As 18 2019 P4/n A 8.716 10.462 alpha-1048 phase. tetra-. alpha = beta = gamma = 90 K 35 35 Atomically imaged crystal structure and normal-state properties of superconducting Ca10Pt4As8((Fe1-xPtx)2As2 )5 2019 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana 70803, USA" "Phys.Rev.B, 100(2019)094103"
158781 PRB100094103 "data from Proc.Natl.Acad.Sci.USA, 108(2011)E1019" "Ca10Pt4As8((Fe1-xPtx)2As2)5, x=0.03" Ca10Pt4.3Fe9.7As18 Ca 10 Pt 4.3 Fe 9.7 As 18 2019 P4/n A 8.733 10.481 alpha-1048 phase. tetra-. alpha = beta = gamma = 90 K 27 27 Atomically imaged crystal structure and normal-state properties of superconducting Ca10Pt4As8((Fe1-xPtx)2As2 )5 2019 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana 70803, USA" "Phys.Rev.B, 100(2019)094103"
158782 PRB100094103 "data from Angew.Chem.Int.Ed., 50(2011)9195." "Ca10Pt4As8((Fe1-xPtx)2As2)5, x=0.13" Ca10Pt4.3Fe8.7As18 Ca 10 Pt 4.3 Fe 8.7 As 18 2019 P1[-] A 8.7382 8.7887 11.225 "beta-1048 phase. triclinic. alpha=81.049, beta=71.915, gamma=89.980" K 13 13 Atomically imaged crystal structure and normal-state properties of superconducting Ca10Pt4As8((Fe1-xPtx)2As2 )5 2019 "Department of Physics and Astronomy, Louisiana State University, Baton Rouge, Louisiana 70803, USA" "Phys.Rev.B, 100(2019)094103"
158784 PRB100094511 "needle like crystals. RRR = 2.17. Energy gap measured by PCAR, STS. Two gaps , 1.8 and 5 meV (2d/kTc = 5.83 and 16) obtained from PCAR measurements" RbCr3As3 Rb1Cr3As3 Rb 1 Cr 3 As 3 3 2019 AB3C3 P6<3>/m hexagonal K 7.17 0.64 7.17 meV 5 16 1 uOhm.cm 249 540 single crystals grown by deintercalation process of Rb ions from Rb2Cr3As3 precursors. Multiband superconductivity and possible nodal gap in RbCr3As3 revealed by Andreev reflection and single-particle tunneling measurements 2019 "National Laboratory of Solid State Microstructures and Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Phys.Rev.B, 100(2019)094511"
158785 PRB100094513 "[penet] measured by TDR, MWR, NV center method. n = 2.5, where d[penet] = a + b*(T/Tc)^n." CaK(Fe1-xNix)4As4 Ca1K1Fe4As4 Ca 1 K 1 Fe 4 As 4 3 2019 ABC4D4 CaRb1144 K 36 36 nm microwave resonator 196.4 Single crystals grown by high-T solution growth out of FeAs flux. Analysis of the London penetration depth in Ni-doped CaKFe4As4 2019 "Politecnico di Torino, Department of Applied Science and Technology, Torino 10129, Italy" "Phys.Rev.B, 100(2019)094513"
158786 PRB100094513 "[penet] measured by TDR, MWR, NV center method. n = 2.5, where d[penet] = a + b*(T/Tc)^n." CaK(Fe1-xNix)4As4 Ca1K1Fe3.932Ni0.068As4 Ca 1 K 1 Fe 3.932 Ni 0.068 As 4 3 2019 ABC4D4 CaRb1144 K 28.2 28.2 nm microwave resonator 227 Single crystals grown by high-T solution growth out of FeAs flux. Analysis of the London penetration depth in Ni-doped CaKFe4As4 2019 "Politecnico di Torino, Department of Applied Science and Technology, Torino 10129, Italy" "Phys.Rev.B, 100(2019)094513"
158787 PRB100094513 "[penet] measured by TDR, MWR, NV center method. n = 1.9, where d[penet] = a + b*(T/Tc)^n." CaK(Fe1-xNix)4As4 Ca1K1Fe3.864Ni0.136As4 Ca 1 K 1 Fe 3.864 Ni 0.136 As 4 3 2019 ABC4D4 CaRb1144 K 19.3 19.3 nm microwave resonator 285.2 Single crystals grown by high-T solution growth out of FeAs flux. Analysis of the London penetration depth in Ni-doped CaKFe4As4 2019 "Politecnico di Torino, Department of Applied Science and Technology, Torino 10129, Italy" "Phys.Rev.B, 100(2019)094513"
158788 PRB100094522 W3Al1.78C0.8 by ICP-AES. SP (beta) = 0.62 mJ/mol.K4. (dC/gamma*Tc) = 2.7. Hc2(0) = 15.4 T using (1-t^2)/(1+t^2) fitting. N(Ef) = 2.37 state/eV.fu. W3Al2C W3Al2C1 W 3 Al 2 C 1 1 2019 AB2C3 beta-Mn P4<1>32 213 A 6.8757 K 7.5 7.6 7.5 0.1 7.5 A "M-H curve, linear" 100 T "RES(mid), WHH" 13.1 T/K RES(mid) 2.5 MHC158788 nm from Hc2 5.7 nm from Hc1 320 5.43 14 mJ/mol.K2 7.3 SP 266 SP uOhm.cm 215 "mixture(W:Al:C = 3:1.8:0.8) - pellet - in h-BN capsule - heat(2173 K, 24 h, P=5 GPa) - slow cool to RT within 1 day" Superconductivity with strong electron-phonon coupling in noncentrosymmetric W3Al2C 2019 "Materials Research Center for Element Strategy, Tokyo Institute of Technology, Yokohama 226-8503, Japan" "Phys.Rev.B, 100(2019)094522"
158789 PRB100094525 P-induced SC. Pc = 2.69 GPa.Tc(max) = 5.45 K(P = 13.5 GPa). Tc defined as R = 0.99Rn. R not to zero down to 1.4 K. structural phase transition shows in num = 158790. Bi2Te2Se Bi2Te2Se1 Bi 2 Te 2 Se 1 2019 A2B3 R3[-]m 166 A 4.2609 29.766 rhombohedral K 5.45 0 5.45 MTC158789 Pressure-induced superconductivity in Bi2-xSbxTe3-ySey 2019 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700?8530, Japan" "Phys.Rev.B, 100(2019)094525"
158790 PRB100094525 "Bi2.1Te1.8Se1.2 from EDX. Phase I (rhombohedral, SG = R3[-]m, #166), Phase-II (monoclinic, SG = C2/m, #12), PhaseIII (9/10-fold monoclinic, SG = C2/m, #12)" Bi2Te2Se Bi2Te2Se1 Bi 2 Te 2 Se 1 2019 R3[-]m 166 A 4.2609 29.766 phase transition K 5.45 0 5.45 MPH158790 Pressure-induced superconductivity in Bi2-xSbxTe3-ySey 2019 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700?8530, Japan" "Phys.Rev.B, 100(2019)094525"
158791 PRB100094525 P-induced SC. Pc = 5.15 GPa.Tc(max) = 3.90 K(P = 11.9 GPa). Tc defined as R = 0.99Rn. R not to zero down to 1.4 K. structural phase transition shows in num = 158792. Bi1.75Sb0.25Te2Se Bi1.75Sb0.25Te2Se1 Bi 1.75 Sb 0.25 Te 2 Se 1 2019 R3[-]m 166 A 4.2695 29.869 rhombohedral K 3.9 0 3.9 MTC158791 T RES(0.99Rn) MHC158791 Pressure-induced superconductivity in Bi2-xSbxTe3-ySey 2019 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700?8530, Japan" "Phys.Rev.B, 100(2019)094525"
158792 PRB100094525 "Bi1.75Sb0.25Te1.89Se1.11 from EDX. Phase I (rhombohedral, SG = R3[-]m, #166), Phase-II (monoclinic, SG = C2/m, #12), PhaseIII (9/10-fold monoclinic, SG = C2/m, #12)" Bi1.75Sb0.25Te2Se Bi1.75Sb0.25Te2Se1 Bi 1.75 Sb 0.25 Te 2 Se 1 2019 R3[-]m 166 A 4.2695 29.869 phase transition K 3.9 0 3.9 MPH158792 Pressure-induced superconductivity in Bi2-xSbxTe3-ySey 2019 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700?8530, Japan" "Phys.Rev.B, 100(2019)094525"
158793 PRB100094525 P-induced SC. Pc = 5.02 GPa.Tc(max) = 5.28 K(P = 14.2 GPa). Tc defined as R = 0.99Rn. R not to zero down to 1.4 K. structural phase transition shows in num = 158792. Bi1.5Sb0.5Te2Se Bi1.5Sb0.5Te2Se1 Bi 1.5 Sb 0.5 Te 2 Se 1 2019 R3[-]m 166 A 4.263 29.99 rhombohedral K 5.28 0 5.28 MTC158793 Pressure-induced superconductivity in Bi2-xSbxTe3-ySey 2019 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700?8530, Japan" "Phys.Rev.B, 100(2019)094525"
158794 PRB100094525 "Bi1.50Sb0.50Te1.68Se1.32 from EDX. Phase I (rhombohedral, SG = R3[-]m, #166), Phase-II (monoclinic, SG = C2/m, #12), PhaseIII (9/10-fold monoclinic, SG = C2/m, #12)" Bi1.5Sb0.5Te2Se Bi1.5Sb0.5Te2Se1 Bi 1.5 Sb 0.5 Te 2 Se 1 2019 R3[-]m 166 A 4.263 29.99 phase transition K 5.28 0 5.28 MPH158794 Pressure-induced superconductivity in Bi2-xSbxTe3-ySey 2019 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700?8530, Japan" "Phys.Rev.B, 100(2019)094525"
158795 PRB100094525 P-induced SC. Pc = 8.49 GPa.Tc(max) = 2.40 K(P = 11.2 GPa). Tc defined as R = 0.99Rn. R not to zero down to 1.4 K. structural phase transition shows in num = 158792. BiSbTe2Se Bi1Sb1Te2Se1 Bi 1 Sb 1 Te 2 Se 1 2019 R3[-]m 166 A 4.2212 29.9869 rhombohedral K 2.4 0 2.4 MTC158795 Pressure-induced superconductivity in Bi2-xSbxTe3-ySey 2019 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700?8530, Japan" "Phys.Rev.B, 100(2019)094525"
158796 PRB100094525 "Bi1.089Sb0.911Te1.81Se1.19 from EDX. Phase I (rhombohedral, SG = R3[-]m, #166), Phase-II (monoclinic, SG = C2/m, #12), PhaseIII (9/10-fold monoclinic, SG = C2/m, #12)" BiSbTe2Se Bi1Sb1Te2Se1 Bi 1 Sb 1 Te 2 Se 1 2019 R3[-]m 166 A 4.2212 29.9869 phase transition K 2.4 0 2.4 MPH158796 Pressure-induced superconductivity in Bi2-xSbxTe3-ySey 2019 "Research Institute for Interdisciplinary Science, Okayama University, Okayama 700?8530, Japan" "Phys.Rev.B, 100(2019)094525"
158797 PRB100094527 gap (d--wave) "Fe1-xVxSe, x=0.005" Fe0.995V0.005Se1 Fe 0.995 V 0.005 Se 1 2019 AB A 3.77076 5.52137 K 8.6 8.6 um muon-SR 0.36 meV 1.72 "Fe(4N8),Se(5N),V(4N)" "mixture - ground - sealed in silica tube - heat to 700 C(2 C/min) - hold(36 h) - cool to 400 C - ANN(400 C,10 d) Q to 0 C." Robustness of superconducting properties to transition metal substitution and impurity phases in Fe1-xVxSe 2019 "1Department of Physics, University of Oxford, Clarendon Laboratory, Parks Road, Oxford OX1 3PU, United Kingdom" "Phys.Rev.B, 100(2019)094527"
158798 PRB100094527 gap (d--wave) "Fe1-xVxSe, x=0.01" Fe0.99V0.01Se1 Fe 0.99 V 0.01 Se 1 2019 AB A 3.77129 5.52105 K 8.5 8.5 um muon-SR 0.39 meV 1.71 "Fe(4N8),Se(5N),V(4N)" "mixture - ground - sealed in silica tube - heat to 700 C(2 C/min) - hold(36 h) - cool to 400 C - ANN(400 C,10 d) Q to 0 C." Robustness of superconducting properties to transition metal substitution and impurity phases in Fe1-xVxSe 2019 "1Department of Physics, University of Oxford, Clarendon Laboratory, Parks Road, Oxford OX1 3PU, United Kingdom" "Phys.Rev.B, 100(2019)094527"
158799 PRB100094527 gap (d--wave) "Fe1-xVxSe, x=0.02" Fe0.98V0.02Se1 Fe 0.98 V 0.02 Se 1 2019 AB A 3.77152 5.52164 K 8.5 8.5 um muon-SR 0.38 meV 1.83 "Fe(4N8),Se(5N),V(4N)" "mixture - ground - sealed in silica tube - heat to 700 C(2 C/min) - hold(36 h) - cool to 400 C - ANN(400 C,10 d) Q to 0 C." Robustness of superconducting properties to transition metal substitution and impurity phases in Fe1-xVxSe 2019 "1Department of Physics, University of Oxford, Clarendon Laboratory, Parks Road, Oxford OX1 3PU, United Kingdom" "Phys.Rev.B, 100(2019)094527"
158800 PRB100094527 "M-intercalated material. M = (NH2)0.2(NH3)0.8. two gaps, w = 0.61 where gap = d1(1-w) + d2*w, d1(in DB) = 0.62 meV(s-wave), d2 =0.14 meV(d)" "Li0.6MFe1-xVxSe, x=0.005" Li0.6M1Fe0.995V0.005Se1 Li 0.6 M 1 Fe 0.995 V 0.005 Se 1 2019 A 3.8315 16.3968 K 41.1 41.1 um muon-SR 0.2 meV 0.62 "(Fe,V,Se) - in Schlenk tube with Li and stirred bar - evacuate - cool to -78 C. NH3 condenced in flusk, stirred (-78 C, 4h) - warm to RT ( NH3 intercalated)" Robustness of superconducting properties to transition metal substitution and impurity phases in Fe1-xVxSe 2019 "1Department of Physics, University of Oxford, Clarendon Laboratory, Parks Road, Oxford OX1 3PU, United Kingdom" "Phys.Rev.B, 100(2019)094527"
158801 PRB100094527 "M-intercalated material. M = (NH2)0.2(NH3)0.8. two gaps, w = 0.64 where gap = d1(1-w) + d2*w, d1(in DB) = 1.1 meV(s-wave), d2 =0.18 meV(d)" "Li0.6MFe1-xVxSe, x=0.005" Li0.6M1Fe0.995V0.005Se1 Li 0.6 M 1 Fe 0.995 V 0.005 Se 1 2019 A 3.8315 16.3968 K 40.2 40.2 um muon-SR 0.19 meV 1.1 "(Fe,V,Se) - in Schlenk tube with Li and stirred bar - evacuate - cool to -78 C. NH3 condenced in flusk, stirred (-78 C, 4h) - warm to RT ( NH3 intercalated)" Robustness of superconducting properties to transition metal substitution and impurity phases in Fe1-xVxSe 2019 "1Department of Physics, University of Oxford, Clarendon Laboratory, Parks Road, Oxford OX1 3PU, United Kingdom" "Phys.Rev.B, 100(2019)094527"
158802 PRB100094527 "M-intercalated material. M = (NH2)0.2(NH3)0.8. two gaps, w = 0.45 where gap = d1(1-w) + d2*w, d1(in DB) = 1.23 meV(s-wave), d2 =0.14 meV(d)" "Li0.6MFe1-xVxSe, x=0.01" Li0.6M1Fe0.995V0.01Se1 Li 0.6 M 1 Fe 0.995 V 0.01 Se 1 2019 A 3.8336 16.3429 K 41.7 41.7 um muon-SR 0.18 meV 1.23 "(Fe,V,Se) - in Schlenk tube with Li and stirred bar - evacuate - cool to -78 C. NH3 condenced in flusk, stirred (-78 C, 4h) - warm to RT ( NH3 intercalated)" Robustness of superconducting properties to transition metal substitution and impurity phases in Fe1-xVxSe 2019 "1Department of Physics, University of Oxford, Clarendon Laboratory, Parks Road, Oxford OX1 3PU, United Kingdom" "Phys.Rev.B, 100(2019)094527"
158803 PRB100094527 "M-intercalated material. M = (NH2)0.2(NH3)0.8. two gaps, w = 0.53 where gap = d1(1-w) + d2*w, d1(in DB) = 2.1 meV(s-wave), d2 =0.16 meV(d)" "Li0.6MFe1-xVxSe, x=0.01" Li0.6M1Fe0.995V0.01Se1 Li 0.6 M 1 Fe 0.995 V 0.01 Se 1 2019 A 3.8336 16.3429 K 40.9 40.9 um muon-SR 0.18 meV 2.1 "(Fe,V,Se) - in Schlenk tube with Li and stirred bar - evacuate - cool to -78 C. NH3 condenced in flusk, stirred (-78 C, 4h) - warm to RT ( NH3 intercalated)" Robustness of superconducting properties to transition metal substitution and impurity phases in Fe1-xVxSe 2019 "1Department of Physics, University of Oxford, Clarendon Laboratory, Parks Road, Oxford OX1 3PU, United Kingdom" "Phys.Rev.B, 100(2019)094527"
158804 PRB100094527 "M-intercalated material. M = (NH2)0.2(NH3)0.8. two gaps, w = 0.46 where gap = d1(1-w) + d2*w, d1(in DB) = 1.17 meV(s-wave), d2 =0.14 meV(d)" "Li0.6MFe1-xVxSe, x=0.02" Li0.6M1Fe0.995V0.02Se1 Li 0.6 M 1 Fe 0.995 V 0.02 Se 1 2019 A 3.8295 16.4504 K 40.7 40.7 um muon-SR 0.19 meV 1.17 "(Fe,V,Se) - in Schlenk tube with Li and stirred bar - evacuate - cool to -78 C. NH3 condenced in flusk, stirred (-78 C, 4h) - warm to RT ( NH3 intercalated)" Robustness of superconducting properties to transition metal substitution and impurity phases in Fe1-xVxSe 2019 "1Department of Physics, University of Oxford, Clarendon Laboratory, Parks Road, Oxford OX1 3PU, United Kingdom" "Phys.Rev.B, 100(2019)094527"
158805 PRB100094527 "M-intercalated material. M = (NH2)0.2(NH3)0.8. two gaps, w = 0.55 where gap = d1(1-w) + d2*w, d1(in DB) = 2.3 meV(s-wave), d2 =0.16 meV(d)" "Li0.6MFe1-xVxSe, x=0.02" Li0.6M1Fe0.995V0.02Se1 Li 0.6 M 1 Fe 0.995 V 0.02 Se 1 2019 A 3.8295 16.4504 K 40 40 um muon-SR 0.2 meV 2.3 "(Fe,V,Se) - in Schlenk tube with Li and stirred bar - evacuate - cool to -78 C. NH3 condenced in flusk, stirred (-78 C, 4h) - warm to RT ( NH3 intercalated)" Robustness of superconducting properties to transition metal substitution and impurity phases in Fe1-xVxSe 2019 "1Department of Physics, University of Oxford, Clarendon Laboratory, Parks Road, Oxford OX1 3PU, United Kingdom" "Phys.Rev.B, 100(2019)094527"
158808 PRB100094528 not SC. Insulator NdO0.8F0.2SbSe2 Nd1F0.2Sb1Se2O0.8 Nd 1 F 0.2 Sb 1 Se 2 O 0.8 2019 CeOBiS2 P4/nmm A 4.0478 14.0568 impurity phase K 0 "Nd2O3,NdSe,NdSe2,Sb(3N),Bi(5N),Se(5N)" "mixture - pellet - heat(700 C,15 h, in evacuated silica tube) - ground - pelletize - heat(700 C,15 h)" Pressure-induced superconductivity in the layered pnictogen diselenide NdO0.8F0.2Sb1-xBixSe2 (x = 0.3 and 0.7) 2019 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 100(2019)094528"
158809 PRB100094528 "Impurity phase: Nd2O2Se(4.1 wt%), NdOF(1.9 wt%), Bi2Se3(0.8 wt%). P-induced SC. Tc(on) = 7.68 K at 70.6 GPa, but R not to zero down to 2 K." "NdO0.8F0.2Sb1-xBixSe2, x=0.3" Nd1F0.2Sb0.7Bi0.3Se2O0.8 Nd 1 F 0.2 Sb 0.7 Bi 0.3 Se 2 O 0.8 2019 CeOBiS2 P4/nmm A 4.0568 14.1322 impurity phase K 0 MTC158809 T "RES(onset), WHH" 6.7 MHC158809 "Nd2O3,NdSe,NdSe2,Sb(3N),Bi(5N),Se(5N)" "mixture - pellet - heat(650 C,15 h, in evacuated silica tube) - ground - pelletize - heat(650 C,15 h)" Pressure-induced superconductivity in the layered pnictogen diselenide NdO0.8F0.2Sb1-xBixSe2 (x = 0.3 and 0.7) 2019 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 100(2019)094528"
158810 PRB100094528 P-induced SC. SC data not given. "NdO0.8F0.2Sb1-xBixSe2, x=0.5" Nd1F0.2Sb0.5Bi0.5Se2O0.8 Nd 1 F 0.2 Sb 0.5 Bi 0.5 Se 2 O 0.8 2019 CeOBiS2 P4/nmm A 4.0625 14.2284 impurity phase K 0 MLAT158810 "Nd2O3,NdSe,NdSe2,Sb(3N),Bi(5N),Se(5N)" "mixture - pellet - heat(650 C,15 h, in evacuated silica tube) - ground - pelletize - heat(650 C,15 h)" Pressure-induced superconductivity in the layered pnictogen diselenide NdO0.8F0.2Sb1-xBixSe2 (x = 0.3 and 0.7) 2019 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 100(2019)094528"
158811 PRB100094528 "Impurity phase: Nd2O2Se(4.1 wt%), NdOF(1.9 wt%), Bi2Se3(0.8 wt%). P-induced SC. Tc(on) = 5.76 K at 52 GPa, but R not to zero down to 2 K." "NdO0.8F0.2Sb1-xBixSe2, x=0.7" Nd1F0.2Sb0.3Bi0.7Se2O0.8 Nd 1 F 0.2 Sb 0.3 Bi 0.7 Se 2 O 0.8 2019 CeOBiS2 P4/nmm A 4.0701 14.2224 impurity phase K 0 MTC158811 T "RES(onset), WHH" 10.9 MHC158811 "Nd2O3,NdSe,NdSe2,Sb(3N),Bi(5N),Se(5N)" "mixture - pellet - heat(650 C,15 h, in evacuated silica tube) - ground - pelletize - heat(650 C,15 h)" Pressure-induced superconductivity in the layered pnictogen diselenide NdO0.8F0.2Sb1-xBixSe2 (x = 0.3 and 0.7) 2019 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 100(2019)094528"
158812 PRB100094528 "Nd2O2Se(13.2 wt%), Bi2Se3(12.9 wt%), solubility limit around x = 0.8." "NdO0.8F0.2Sb1-xBixSe2, x=0.8" Nd1F0.2Sb0.2Bi0.8Se2O0.8 Nd 1 F 0.2 Sb 0.2 Bi 0.8 Se 2 O 0.8 2019 CeOBiS2 P4/nmm A 4.0728 14.2502 impurity phase K 0 "Nd2O3,NdSe,NdSe2,Sb(3N),Bi(5N),Se(5N)" "mixture - pellet - heat(650 C,15 h, in evacuated silica tube) - ground - pelletize - heat(650 C,15 h)" Pressure-induced superconductivity in the layered pnictogen diselenide NdO0.8F0.2Sb1-xBixSe2 (x = 0.3 and 0.7) 2019 "National Institute for Materials Science, 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan" "Phys.Rev.B, 100(2019)094528"
158813 PRB100134503 "RRR = 5.9. SP (beta)= 0.027 mJ/mol.K2. (dC/gamma*Tc) = 1.3, (delta) = 0.0015 mJ/mol.K6. Two gaps , (2d/kTc) = 1.06 and 3.74 (in DB) from SP analysis." TaOsSi Ta1Os1Si1 Ta 1 Os 1 Si 1 1 2019 ABC 3 TiNiSi Pnma 62 A 6.26 3.89 7.25 ortho- K 4.2 5.51 4.855 MTC158813 T "RES(0.9Rn), two band model." 4.52 MHC158813 3.74 14 MSP158813 mJ/mol.K2 8.52 SP 595 SP uOhm.cm 4.9 28.9 "Ta(4N),Os(4N),Si(4N)" "arc-melting. starting(Ta:Os:Si = 1:1:1, molar volume ratio) - arc-melting 10 times - ANN (1273 K, 9 days, in sealed quartz tube)" Two-gap superconductivity and topological surface states in TaOsSi 2019 "School of Physics and Key Laboratory of MEMS of the Ministry of Education, Southeast University, Nanjing 211189, China" "Phys.Rev.B, 100(2019)134503"
158815 PRB100144505 penetration depth and anisotropy measured by torque method. [ppenet] = 0.33 um at 25 K (in DB). Anisotropy (penet) = 17.4 independent of T. KCa2Fe4As4F2 K1Ca2Fe4As4F2 K 1 Ca 2 Fe 4 As 4 F 2 3 2019 AB2C2D4E4 12442-type structure K 33 33 MPEN158815 um "torque, 25 K" 0.33 self-flux method using KAs-flux. Probing superconducting anisotropy of single crystal KCa2Fe4As4F2 by magnetic torque measurements 2019 "State Key Laboratory of Functional Materials for Informatics, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, Shanghai 200050,China" "Phys.Rev.B, 100(2019)144505"
158816 PRB092174404 Hall coeff. at 10 K ( in DB). beta-PdBi2 Bi2Pd1 Bi 2 Pd 1 3 2015 AB2 A 12.963 beta-phase K 5.4 0.3 5.4 MTC158816 K/GPa -0.28 cm3/C -0.000424 5 MRH158816 n/cm3 1.47E+22 "melt-grown method. (Pd + Bi) - sealed in evacuated quartz tube - heat to 700 C - keep(700C,10h) - slow cool to 450 C over 30 h - Q to iced water" Chemical doping and high-pressure studies of layered beta-PdBi2 single crystals 2015 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 92(2015)174404"
158817 PRB092174404 impurity phase: alpha-PdBi2. beta-PdBi2-xPbx Pd1Bi1.92Pb0.08 Pd 1 Bi 1.92 Pb 0.08 3 2015 AB2 beta-phase K 4.9 0.3 4.9 "melt-grown method. (Pd + Bi) - sealed in evacuated quartz tube - heat to 700 C - keep(700C,10h) - slow cool to 450 C over 30 h - Q to iced water" Chemical doping and high-pressure studies of layered beta-PdBi2 single crystals 2015 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 92(2015)174404"
158818 PRB092174404 beta-PdBi2-xPbx Pd1Bi1.85Pb0.15 Pd 1 Bi 1.85 Pb 0.15 3 2015 AB2 beta-phase K 4.4 0.3 4.4 "melt-grown method. (Pd + Bi) - sealed in evacuated quartz tube - heat to 700 C - keep(700C,10h) - slow cool to 450 C over 30 h - Q to iced water" Chemical doping and high-pressure studies of layered beta-PdBi2 single crystals 2015 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 92(2015)174404"
158819 PRB092174404 Hall coeff. at 10 K ( in DB). beta-PdBi2-xPbx Pd1Bi1.8Pb0.2 Pd 1 Bi 1.8 Pb 0.2 3 2015 AB2 beta-phase K 3.8 0.3 3.8 MTC158819 cm3/C -0.000112 n/cm3 5.56E+21 "melt-grown method. (Pd + Bi) - sealed in evacuated quartz tube - heat to 700 C - keep(700C,10h) - slow cool to 450 C over 30 h - Q to iced water" Chemical doping and high-pressure studies of layered beta-PdBi2 single crystals 2015 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 92(2015)174404"
158820 PRB092174404 beta-PdBi2-xPbx Pd1Bi1.72Pb0.28 Pd 1 Bi 1.72 Pb 0.28 3 2015 AB2 beta-phase K 2.5 0.3 2.5 "melt-grown method. (Pd + Bi) - sealed in evacuated quartz tube - heat to 700 C - keep(700C,10h) - slow cool to 450 C over 30 h - Q to iced water" Chemical doping and high-pressure studies of layered beta-PdBi2 single crystals 2015 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 92(2015)174404"
158821 PRB092174404 beta-PdBi2-xPbx Pd1Bi1.65Pb0.35 Pd 1 Bi 1.65 Pb 0.35 3 2015 AB2 beta-phase K 2.2 0.3 2.2 "melt-grown method. (Pd + Bi) - sealed in evacuated quartz tube - heat to 700 C - keep(700C,10h) - slow cool to 450 C over 30 h - Q to iced water" Chemical doping and high-pressure studies of layered beta-PdBi2 single crystals 2015 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 92(2015)174404"
158822 PRB092174404 "Tc eventually above 2 K. For x > 0.6, alpha-phase increases with increasing x. For x = 1, only alpha-phase." beta-PdBi2-xPbx Pd1Bi1.6Pb0.4 Pd 1 Bi 1.6 Pb 0.4 3 2015 AB2 A 12.94 beta-phase K 2 0.3 2 "melt-grown method. (Pd + Bi) - sealed in evacuated quartz tube - heat to 700 C - keep(700C,10h) - slow cool to 450 C over 30 h - Q to iced water" Chemical doping and high-pressure studies of layered beta-PdBi2 single crystals 2015 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 92(2015)174404"
158823 PRB092174404 nominal Na x = 0.1. Na-concentration x = 0.044 in NaxPdBi2 by WDS. impurity phase : NaBi and Pd (total 10 %) in beta-PdBi2 phase. beta-NaxPdBi2 Na0.044Pd1Bi2 Na 0.044 Pd 1 Bi 2 3 2015 AB2 beta-phase K 4.1 4.1 "melt-grown method. (Na + PdBi2) - sealed in evacuated quartz tube - heat to 700 C - keep(700C,10h) - slow cool to 450 C over 30 h - Q to iced water" Chemical doping and high-pressure studies of layered beta-PdBi2 single crystals 2015 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 92(2015)174404"
158824 PRB092174404 nominal Na x = 0.4. Na-concentration x = 0.057 in NaxPdBi2 by WDS. impurity phase : NaBi and Pd (total 10 %) in beta-PdBi2 phase. beta-NaxPdBi2 Na0.044Pd1Bi2 Na 0.044 Pd 1 Bi 2 3 2015 AB2 beta-phase K 3.9 3.9 cm3/C MRH158824 n/cm3 3.09E+22 "melt-grown method. (Na + PdBi2) - sealed in evacuated quartz tube - heat to 700 C - keep(700C,10h) - slow cool to 450 C over 30 h - Q to iced water" Chemical doping and high-pressure studies of layered beta-PdBi2 single crystals 2015 "Texas Center for Superconductivity and Department of Physics, University of Houston, Houston, Texas 77204-5002, USA" "Phys.Rev.B, 92(2015)174404"
158825 PRB097134505 "P = 0.001 kbar. SP (beta) = 2.37 mJ/mol.K4, e-ph = 0.97" beta-PdBi2 Bi2Pd1 Bi 2 Pd 1 3 2018 AB2 K 4.98 0.08 4.98 MTC158825 K/GPa -0.25 T "RES(0.5Rn), WHH" 0.6 MHC158825 nm from Hc2 23.4 mJ/mol.K2 13.23 SP 91 SP uOhm.cm 24.23 22 "Bi(4N),Pd(3N5)" "melt-growth method. stoichiometric (Bi,Pd) - sealed in 14 mbar He in quartz ampoules" Pressure effect on the superconducting and the normal state of beta-Bi2Pd 2018 "Centre of Low Temperature Physics, Institute of Experimental Physics SAS, Watsonova 47, 040 01 Kosice, Slovakia" "Phys.Rev.B, 97(2018)134505"
158826 PRB097134505 P = 6.8 kbar. e-ph = 0.85 beta-PdBi2 Bi2Pd1 Bi 2 Pd 1 3 2018 AB2 K 4.81 4.81 T "RES(0.5Rn), WHH" 0.52 MHC158826 nm from Hc2 25.1 uOhm.cm 23.23 "Bi(4N),Pd(3N5)" "melt-growth method. stoichiometric (Bi,Pd) - sealed in 14 mbar He in quartz ampoules" Pressure effect on the superconducting and the normal state of beta-Bi2Pd 2018 "Centre of Low Temperature Physics, Institute of Experimental Physics SAS, Watsonova 47, 040 01 Kosice, Slovakia" "Phys.Rev.B, 97(2018)134505"
158827 PRB097134505 P = 10.6 kbar. e-ph = 0.83 beta-PdBi2 Bi2Pd1 Bi 2 Pd 1 3 2018 AB2 K 4.72 4.72 T "RES(0.5Rn), WHH" 0.49 MHC158825 nm from Hc2 25.9 uOhm.cm 22.79 "Bi(4N),Pd(3N5)" "melt-growth method. stoichiometric (Bi,Pd) - sealed in 14 mbar He in quartz ampoules" Pressure effect on the superconducting and the normal state of beta-Bi2Pd 2018 "Centre of Low Temperature Physics, Institute of Experimental Physics SAS, Watsonova 47, 040 01 Kosice, Slovakia" "Phys.Rev.B, 97(2018)134505"
158828 PRB097134505 P = 13.3 kbar. e-ph = 0.81 beta-PdBi2 Bi2Pd1 Bi 2 Pd 1 3 2018 AB2 K 4.62 4.62 MTC158825 T "RES(0.5Rn), WHH" 0.47 MHC158826 nm from Hc2 26.4 uOhm.cm 22.47 "Bi(4N),Pd(3N5)" "melt-growth method. stoichiometric (Bi,Pd) - sealed in 14 mbar He in quartz ampoules" Pressure effect on the superconducting and the normal state of beta-Bi2Pd 2018 "Centre of Low Temperature Physics, Institute of Experimental Physics SAS, Watsonova 47, 040 01 Kosice, Slovakia" "Phys.Rev.B, 97(2018)134505"
158829 PRB097134505 P = 21.4 kbar. e-ph = 0.78 beta-PdBi2 Bi2Pd1 Bi 2 Pd 1 3 2018 AB2 K 4.47 4.47 MTC158829 T "RES(0.5Rn), WHH" 0.42 MHC158825 nm from Hc2 27.9 uOhm.cm 21.85 "Bi(4N),Pd(3N5)" "melt-growth method. stoichiometric (Bi,Pd) - sealed in 14 mbar He in quartz ampoules" Pressure effect on the superconducting and the normal state of beta-Bi2Pd 2018 "Centre of Low Temperature Physics, Institute of Experimental Physics SAS, Watsonova 47, 040 01 Kosice, Slovakia" "Phys.Rev.B, 97(2018)134505"
158830 PRB097134505 P = 24.0 kbar. e-ph = 0.77 beta-PdBi2 Bi2Pd1 Bi 2 Pd 1 3 2018 AB2 K 4.36 4.36 T "RES(0.5Rn), WHH" 0.39 MHC158826 nm from Hc2 28.9 uOhm.cm 21.74 "Bi(4N),Pd(3N5)" "melt-growth method. stoichiometric (Bi,Pd) - sealed in 14 mbar He in quartz ampoules" Pressure effect on the superconducting and the normal state of beta-Bi2Pd 2018 "Centre of Low Temperature Physics, Institute of Experimental Physics SAS, Watsonova 47, 040 01 Kosice, Slovakia" "Phys.Rev.B, 97(2018)134505"
158831 PRL0820169 P = 0. single crystal. Hc2(T) shows best fitting to strong coupling model UBe13 Be13U1 Be 13 U 1 3 1999 AB13 K 0.956 0.956 T "RES(0.9Rn), strong coupling model" 13.9 T/K "R(0.9Rn)," 55 MHC158831 Pressure Dependence of the Upper Critical Field of the Heavy Fermion Superconductor UBe13 1999 "Centre de Recherches sur les Tres Basses Temperatures, CNRS, BP 166, 38042 Grenoble-Cedex 9, France" "Phys.Rev.Lett., 82(1999)0169"
158832 PRL0820169 P = 4 kbar. Hc2(T) shows best fitting to strong coupling model UBe13 Be13U1 Be 13 U 1 1 1999 AB13 K 0.911 0.911 T "RES(0.9Rn), strong coupling model" 11.5 T/K "R(0.9Rn)," 42 Pressure Dependence of the Upper Critical Field of the Heavy Fermion Superconductor UBe13 1999 "Centre de Recherches sur les Tres Basses Temperatures, CNRS, BP 166, 38042 Grenoble-Cedex 9, France" "Phys.Rev.Lett., 82(1999)0169"
158833 PRL0820169 P = 6 kbar. Hc2(T) shows best fitting to strong coupling model UBe13 Be13U1 Be 13 U 1 1 1999 AB13 K 0.865 0.865 T "RES(0.9Rn), strong coupling model" 10.2 T/K "R(0.9Rn)," 32 MHC158831 Pressure Dependence of the Upper Critical Field of the Heavy Fermion Superconductor UBe13 1999 "Centre de Recherches sur les Tres Basses Temperatures, CNRS, BP 166, 38042 Grenoble-Cedex 9, France" "Phys.Rev.Lett., 82(1999)0169"
158834 PRL0820169 P = 10 kbar. Hc2(T) shows best fitting to strong coupling model UBe13 Be13U1 Be 13 U 1 1 1999 AB13 K 0.786 0.786 T "RES(0.9Rn), strong coupling model" 8.2 T/K "R(0.9Rn)," 21 Pressure Dependence of the Upper Critical Field of the Heavy Fermion Superconductor UBe13 1999 "Centre de Recherches sur les Tres Basses Temperatures, CNRS, BP 166, 38042 Grenoble-Cedex 9, France" "Phys.Rev.Lett., 82(1999)0169"
158835 PRL0820169 P = 20 kbar. Hc2(T) shows best fitting to strong coupling model UBe13 Be13U1 Be 13 U 1 1 1999 AB13 K 0.65 0.65 T "RES(0.9Rn), strong coupling model" 4.2 T/K "R(0.9Rn)," 8.5 MHC158831 Pressure Dependence of the Upper Critical Field of the Heavy Fermion Superconductor UBe13 1999 "Centre de Recherches sur les Tres Basses Temperatures, CNRS, BP 166, 38042 Grenoble-Cedex 9, France" "Phys.Rev.Lett., 82(1999)0169"
158836 PRL0814476 MSP158837 shows C/T vs B at T = 208 mK for UBe13. Tc = 0.898 K from SP. (dC/gamma*Tc) = 1.26. T (thermal expansion anomaly) = 0.77 K. UBe13 Be13U1 Be 13 U 1 3 1998 AB13 K 0.92 0.025 0.92 K/GPa -0.13 T "SP, Thermal expansion" MHC158836 MSP158836 Revision of the Phase Diagram of Superconducting U1-xThxBe13 1998 "Max-Planck Institute for Chemical Physics of Solides, D-01187 Dresden, Germany" "Phys.Lev.Lett.,81(1998)4476"
158837 PRL0814476 MTEX158838 shows T-dependence of thermal expansion coeffic. of U1-xThxBe13. T (thermal expansion anomaly) = 0.50 K. U1-xThxBe13 U0.99Th0.01Be13 U 0.99 Th 0.01 Be 13 1998 AB13 K 0.63 0.63 K/GPa -0.19 MSP158837 Revision of the Phase Diagram of Superconducting U1-xThxBe13 1998 "Max-Planck Institute for Chemical Physics of Solides, D-01187 Dresden, Germany" "Phys.Lev.Lett.,81(1998)4476"
158838 PRL0814476 MTEX158838 shows T-dependence of thermal expansion coeffic. of U1-xThxBe13. T (thermal expansion anomaly) = 0.43 K. U1-xThxBe13 U0.983Th0.017Be13 U 0.983 Th 0.017 Be 13 1998 AB13 K 0.51 0.51 MTEX158838 K/GPa -0.3 Revision of the Phase Diagram of Superconducting U1-xThxBe13 1998 "Max-Planck Institute for Chemical Physics of Solides, D-01187 Dresden, Germany" "Phys.Lev.Lett.,81(1998)4476"
158839 PRL114117001 needle like single crystals. not SC. P-induced SC for 7.6=< P =<8.3 GPa. Tm(FM) = 291 K. Tm = 250 K for P = 2.8 GPa. MnP Mn1P1 Mn 1 P 1 3 2015 AB K 0 crystals grown using Sn-flux Pressure Induced Superconductivity on the border of Magnetic Order in MnP 2015 "Beijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.Lett., 114(2015)117001"
158840 PRL114117001 not SC under P =0. SC data for 7.8 GPa. "MnP, P=7.8 GPa)" Mn1P1 Mn 1 P 1 3 2015 AB A 5.26 3.17 5.92 ortho-. B31-type K 0.68 0.94 1.04 0 0.94 MTC158840 T "RES(0.5Rn), linear fitting)" 0.33 T/K RES(0.5Rn) 0.34 MHC158840 A from Hc2 315 crystals grown using Sn-flux Pressure Induced Superconductivity on the border of Magnetic Order in MnP 2015 "Beijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China" "Phys.Rev.Lett., 114(2015)117001"
158841 PRL122067001 Tc shows for P = 0. Hc2 measured for various P. UBe13 Be13U1 Be 13 U 1 1 2019 AB13 K 0.89 0.89 T RES MHC158841 Spin-Triplet p-Wave Superconductivity Revealed under High Pressure in UBe13 2019 "Universite Grenoble Alpes, INAC/PHELIQS, CEA-Grenoble, F-38000 Grenoble, France" "Phys.Rev.Lett., 122(2019)067001"
158842 PRL122067001 Tc sdhows for P = 2.1 GPa. Hc2 measured for various P. UBe13 Be13U1 Be 13 U 1 1 2019 AB13 K 0.53 0.53 MPH158842 T RES MHC158842 Spin-Triplet p-Wave Superconductivity Revealed under High Pressure in UBe13 2019 "Universite Grenoble Alpes, INAC/PHELIQS, CEA-Grenoble, F-38000 Grenoble, France" "Phys.Rev.Lett., 122(2019)067001"
158843 PRL122067001 Tc shows for P = 4.3 GPa. Hc2 measured for various P. UBe13 Be13U1 Be 13 U 1 1 2019 AB13 K 0.22 0.22 T RES MHC158843 Spin-Triplet p-Wave Superconductivity Revealed under High Pressure in UBe13 2019 "Universite Grenoble Alpes, INAC/PHELIQS, CEA-Grenoble, F-38000 Grenoble, France" "Phys.Rev.Lett., 122(2019)067001"
158844 PRL123027002 Nematic single crystal x = 0.1 in SrxBi2Se3. Specific heat (dC/T) exhibits two-fold symmetry in azimuthal angle behavior. Anisotropy Hc2/Hc2 = 2.5. SrxBi2Se3 Sr0.1Bi2Se3 Sr 0.1 Bi 2 Se 3 3 2019 hexagonal. x-axis defined as Se-Bi bond direction in hexagonal plane K 3.1 3.1 3.1 80 T RES MHC158844 single crystal (nematic state) grownn by flux method Quasiparticle Evidence for the Nematic State above Tc in SrxBi2Se3 2019 "Institute for Solid State Physics (ISSP), The University of Tokyo, Kashiwa, Chiba 277-8581, Japan" "Phys.Rev.Lett., 123(2019)027002"
158845 PRL123147001 x = 0.11(av). AFM order for x = 0.11(av) sample for P > 0.6 GPa.. MTC158845 shows phase diagram from muSR and ac-SUS. Ts shows nematic order. FeSe1-xSx Fe1Se0.89S0.11 Fe 1 Se 0.89 S 0.11 1 2019 K 10 10 MTC158845 Extended Magnetic Dome Induced by Low Pressures in Superconducting FeSe1-xSx 2019 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.Lett., 123(2019)147001"
158846 PRL123147001 Tc(max) at P = 0.68 GPa. "FeSe1-xSx, x=0" Fe1Se1 Fe 1 Se 1 3 2019 K 8.91 8.91 MTC158847 Extended Magnetic Dome Induced by Low Pressures in Superconducting FeSe1-xSx 2019 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.Lett., 123(2019)147001"
158847 PRL123147001 Tc(max) at P = 0.49 GPa. "FeSe1-xSx, x=0.05" Fe1Se0.95S0.05 Fe 1 Se 0.95 S 0.05 3 2019 K 9.86 9.86 MTC158847 Extended Magnetic Dome Induced by Low Pressures in Superconducting FeSe1-xSx 2019 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.Lett., 123(2019)147001"
158848 PRL123147001 Tc(max) at P = 0.30 GPa. "FeSe1-xSx, x = 0.09" Fe1Se0.91S0.09 Fe 1 Se 0.91 S 0.09 3 2019 K 10.33 10.33 MTC158847 Extended Magnetic Dome Induced by Low Pressures in Superconducting FeSe1-xSx 2019 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.Lett., 123(2019)147001"
158849 PRL123147001 Tc(max) at P = 0.24 GPa. "FeSe1-xSx, x=0.14" Fe1Se0.86S0.14 Fe 1 Se 0.86 S 0.14 3 2019 K 10.52 10.52 MTC158847 Extended Magnetic Dome Induced by Low Pressures in Superconducting FeSe1-xSx 2019 "Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland" "Phys.Rev.Lett., 123(2019)147001"
158850 SCIR00637527 semicond-like R(T) Sr0.5Ce0.5FBiS2 Sr0.5Ce0.5F1Bi1S2 Sr 0.5 Ce 0.5 F 1 Bi 1 S 2 1 2016 7.5 2 CeOBiS2 P4/nmm SrFBiS2-type K 2 2.4 2.2 mOhm.cm 42.5 4.12 "Coexistence of superconductivity and ferromagnetism in Sr0.5Ce0.5FBiS2-xSex (x = 0.5 and 1.0), a non-U material with Tc < T-FM" 2016 "Department of Chemistry, Indian Institute of Technology, New Delhi, 110016, India" "Sci.Rep., 6(2016)37527"
158851 SCIR00637527 "impurity phase: Bi2Se3, Bi2S3. semicond-like R(T)" Sr0.5Ce0.5FBiS1.7Se0.3 Sr0.5Ce0.5F1Bi1S1.7Se0.3 Sr 0.5 Ce 0.5 F 1 Bi 1 S 1.7 Se 0.3 1 2016 4.1 2 CeOBiS2 P4/nmm SrFBiS2-type K 2.5 2.7 2.6 mOhm.cm 8.51 3.96 "Coexistence of superconductivity and ferromagnetism in Sr0.5Ce0.5FBiS2-xSex (x = 0.5 and 1.0), a non-U material with Tc < T-FM" 2016 "Department of Chemistry, Indian Institute of Technology, New Delhi, 110016, India" "Sci.Rep., 6(2016)37527"
158852 SCIR00637527 "impurity phase: Bi2Se3, Bi2S3. SP-FIG shows (C-C) vs T. (beta) = 1.48 mJ/mol.K4. Itinerant FM and SC coexist below Tc. Magnetic data from C-W law." Sr0.5Ce0.5FBiS1.5Se0.5 Sr0.5Ce0.5F1Bi1S1.5Se0.5 Sr 0.5 Ce 0.5 F 1 Bi 1 S 1.5 Se 0.5 1 2016 myu-B/Ce 2.22 3.6 2 CeOBiS2 P4/nmm A 4.0886 13.4143 SrFBiS2-type K 2.6 2.9 2.65 2.65 95 T "RES(0.9Rn), WHH" 2.6 T/K RES(0.9Rn) 1.3 MHC158852 MSP158852 mJ/mol.K2 12 SP 187 SP mOhm.cm 1.09 0.88 "Coexistence of superconductivity and ferromagnetism in Sr0.5Ce0.5FBiS2-xSex (x = 0.5 and 1.0), a non-U material with Tc < T-FM" 2016 "Department of Chemistry, Indian Institute of Technology, New Delhi, 110016, India" "Sci.Rep., 6(2016)37527"
158853 SCIR00637527 "impurity phase: Bi2Se3, Bi2S3. metallic R(T). Itinerant FM and SC coexist below Tc. Magnetic data from C-W law." Sr0.5Ce0.5FBiSSe Sr0.5Ce0.5F1Bi1S1Se1 Sr 0.5 Ce 0.5 F 1 Bi 1 S 1 Se 1 1 2016 myu-B/Ce 2.29 2 CeOBiS2 P4/nmm A 4.1057 13.4756 SrFBiS2-type K 3.1 3.3 3.12 0.2 3.12 95 T "RES(0.9Rn), WHH" 3.3 T/K RES(0.9Rn) 1.45 MHC158852 mOhm.cm 1.51 1.7 "Coexistence of superconductivity and ferromagnetism in Sr0.5Ce0.5FBiS2-xSex (x = 0.5 and 1.0), a non-U material with Tc < T-FM" 2016 "Department of Chemistry, Indian Institute of Technology, New Delhi, 110016, India" "Sci.Rep., 6(2016)37527"
158854 SCIR00717370 Tm(FM) = 3.5 K. spontaneous moment = 0.09 myu-B/Ce from M(H) and muSR. volume fraction of FM = 8 % from muSR. Sr0.5Ce0.5FBiS1.5Se0.5 Sr0.5Ce0.5F1Bi1S1.5Se0.5 Sr 0.5 Ce 0.5 F 1 Bi 1 S 1.5 Se 0.5 1 2017 myu-B/Ce 0.09 3.5 2 CeOBiS2 P4/nmm SrFBiS2-type K 2.7 2.7 Macroscopic phase separation of superconductivity and ferromagnetism in Sr0.5Ce0.5FBiS2-xSex revealed by muSR 2017 "Van der Waals-Zeeman Institute, University of Amsterdam, 1098 XH, Amsterdam, The Netherlands" "Sci.Rep., 7(2017)17370"
158855 SCIR00717370 Tm(FM) = 3.3 K. spontaneous moment = 0.2 myu-B/Ce from M(H) and muSR. Volume fractions of SC and FM plotted in FIG from muSR analysis. Sr0.5Ce0.5FBiSSe Sr0.5Ce0.5F1Bi1S1Se1 Sr 0.5 Ce 0.5 F 1 Bi 1 S 1 Se 1 1 2017 myu-B/Ce 0.2 3.3 2 CeOBiS2 P4/nmm SrFBiS2-type K 2.9 2.9 MVOL158855 mT 0.6 T 2.9 nm muSR 390 Macroscopic phase separation of superconductivity and ferromagnetism in Sr0.5Ce0.5FBiS2-xSex revealed by muSR 2017 "Van der Waals-Zeeman Institute, University of Amsterdam, 1098 XH, Amsterdam, The Netherlands" "Sci.Rep., 7(2017)17370"
158856 SST028095016 RRR = 1.3. TaB-phase increass with x for 0.05 =< x =< 0.45. SP (beta) = 0.11222 mJ/mol.K4. (dC/gamma*Tc) = 1.11. Ta0.7Hf0.3B Ta0.7Hf0.3B1 Ta 0.7 Hf 0.3 B 1 1 2015 AB 3 FeB Pnma A 6.2462 3.1513 4.7496 K 6.2 6.7 6.7 6.7 55 T "RES(0.5Rn), WHH" 10.5 MSP158856 mJ/mol.K2 2 Sp 325.93 SP "arc-melting 5 times for 0=< x =< 0.45. sealed in furnace - ANN(2000 C, 8h)" Ta1-xHfxB: a new FeB-prototype superconductor 2015 "Escola de Engenharia de Lorena?USP, P. O. Box 116, Lorena, 12602-810, Brazil" "Supercond.Sci.Technol., 28(2015)095016"
158857 SST028095016 TaB B1Ta1 B 1 Ta 1 1 2015 AB 3 FeB Pnma K 4 4 "arc-melting 5 times for 0=< x =< 0.45. sealed in furnace - ANN(2000 C, 8h)" Ta1-xHfxB: a new FeB-prototype superconductor 2015 "Escola de Engenharia de Lorena?USP, P. O. Box 116, Lorena, 12602-810, Brazil" "Supercond.Sci.Technol., 28(2015)095016"
158858 SST028095016 Ta0.85Hf0.15B Ta0.85Hf0.15B1 Ta 0.85 Hf 0.15 B 1 1 2015 AB 3 FeB Pnma K MTC158858 "arc-melting 5 times for 0=< x =< 0.45. sealed in furnace - ANN(2000 C, 8h)" Ta1-xHfxB: a new FeB-prototype superconductor 2015 "Escola de Engenharia de Lorena?USP, P. O. Box 116, Lorena, 12602-810, Brazil" "Supercond.Sci.Technol., 28(2015)095016"
158859 SST028095016 secondary FeB-phase appears for x > 0.4. FeB phase is stable. Ta0.6Hf0.4B Ta0.6Hf0.4B1 Ta 0.6 Hf 0.4 B 1 1 2015 AB 3 FeB Pnma K "arc-melting 5 times for 0=< x =< 0.45. sealed in furnace - ANN(2000 C, 8h)" Ta1-xHfxB: a new FeB-prototype superconductor 2015 "Escola de Engenharia de Lorena?USP, P. O. Box 116, Lorena, 12602-810, Brazil" "Supercond.Sci.Technol., 28(2015)095016"
158860 SST030115011 P-induced SC. Pc = 2.37 GPa. SC properties(DB) for P = 2.9 GPa. RRR = 89.4. Activation energy Eg = 6.08 meV from R(T) fitting. Eu2SrBi2S4F4 Eu2Sr1Bi2S4F4 Eu 2 Sr 1 Bi 2 S 4 F 4 1 2017 A2B3C4D4 I4/nmm BiS2-plane SC K 9.8 0 2.2 9.8 T "RES(0.9Rn), WHH" 3.04 T/K RES(0.9Rn) 0.45 MHC158860 A from Hc2 104 mOhm.cm 1.4 1.27 "Superconductivity induced by external pressure in Eu3-xSrxBi2S4F4 (x = 1, 2) compounds" 2017 "Centre for High Pressure Research, School of Physics, Bharathidasan University, Tiruchirapalli-620024, India" "Supercond.Sci.Technol., 30(2017)115011"
158861 SST030115011 P-induced SC. Pc = 2.37 GPa. SC properties(DB) for P = 2.9 GPa. RRR = 85.9. Activation energy Eg = 13.6 meV from R(T) fitting. EuSr2Bi2S4F4 Eu1Sr2Bi2S4F4 Eu 1 Sr 2 Bi 2 S 4 F 4 1 2017 A2B3C4D4 I4/nmm BiS2-plane SC K 8.2 0 8.2 T "RES(0.9Rn), WHH" 1.17 T/K RES(0.9Rn) 0.21 MHC158861 A from Hc2 167 mOhm.cm 2.69 2.31 "Superconductivity induced by external pressure in Eu3-xSrxBi2S4F4 (x = 1, 2) compounds" 2017 "Centre for High Pressure Research, School of Physics, Bharathidasan University, Tiruchirapalli-620024, India" "Supercond.Sci.Technol., 30(2017)115011"
158862 SST031115005 RRR = 1.3. SP (beta) = 0.02 mJ/mol.K4. (dC/gamma*Tc) = 1.56. e-ph = 0.43. Gap from SP analysis. Hc2 = 0.47 T from WHH using dHc2/dT. WB4.2 B4.2W1 B 4.2 W 1 3 2018 AB4.2 P6<3>/mmc 194 A 5.191 6.345 K 2 2.1 2.1 Oe M-H curve 10 0.5 T "RES(0.5Rn), Linear approx." 0.71 T/K RES(0.5Rn) 0.33 MHC158862 A from Hc2 260 meV 0.22 2.44 14 MSP158862 mJ/mol.K2 2.07 SP 780 SP "B(2N5),W(3N)" mixture(W:B = 1:10) - arc-melting three times(600 mbar-Ar). single crystals obtained from arc-melted samples Superconductivity in the superhard boride WB4.2 2018 "Department of Chemistry, Princeton University, Princeton, NJ 08544, United States of America" "Supercond.Sci.Technol., 31(2018)115005"
158863 SST031125005 needle-like (b-axis) crystals. Energy gap measured by Andreev reflection method. isotropic gap. NiBi3 Bi3Ni1 Bi 3 Ni 1 3 2018 AB3 NiBi3 K 4.07 4.07 MGAP158863 3.51 16 self-flux method. mixture(Ni:Bi = 1:10) - sealed in quartz tube - heat to 1150 C and soaked 2 h - cool to 400 C with 5 C/h - remove the excess flux. Singlet superconductivity in a single-crystal NiBi3 superconductor 2018 "Institute for Quantum Science and Engineering and Department of Physics of Southern University of Science and Technology, Shenzhen 518055, People's Republic of China" "Supercond.Sci.Technol., 31(2018)125005"
158864 SST032035001 T = 122 K. Ta1+xSe2 Se2Ta1 Se 2 Ta 1 1 2019 AB2 MX2 A 3.432 12.76 mixed phase of 2H + 3R K 2 "Ta(3N),Se(4N)" "mixture - sealed in quartz tube - heat(1173 K, 24 h) - FC to RT - reground - pellet - sealed in quartz tube - ANN(1173 K, 240 h) - cool to RT" Superconductivity enhancement in Ta1+xSe2 with a randomly stacked structure 2019 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" "Supercond.Sci.Technol., 32(2019)035001"
158865 SST032035001 Ta1+xSe2 Se2Ta1.02 Se 2 Ta 1.02 1 2019 AB2 MX2 A 3.432 12.74 mixed phase of 2H + 3R K 2 "Ta(3N),Se(4N)" "mixture - sealed in quartz tube - heat(1173 K, 24 h) - FC to RT - reground - pellet - sealed in quartz tube - ANN(1173 K, 240 h) - cool to RT" Superconductivity enhancement in Ta1+xSe2 with a randomly stacked structure 2019 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" "Supercond.Sci.Technol., 32(2019)035001"
158866 SST032035001 Ta1+xSe2 Se2Ta1.04 Se 2 Ta 1.04 1 2019 AB2 MX2 A 3.432 12.748 mixed phase of 2H + 3R K 2 "Ta(3N),Se(4N)" "mixture - sealed in quartz tube - heat(1173 K, 24 h) - FC to RT - reground - pellet - sealed in quartz tube - ANN(1173 K, 240 h) - cool to RT" Superconductivity enhancement in Ta1+xSe2 with a randomly stacked structure 2019 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" "Supercond.Sci.Technol., 32(2019)035001"
158867 SST032035001 SP (beta) = 0.7131 mJ/mol.K4. N(Ef) = 2.51 states/eV.fu. e-ph = 0.675. (dC/gamma*Tc) = 0.517 Ta1+xSe2 Se2Ta1.06 Se 2 Ta 1.06 1 2019 AB2 MX2 A 3.434 12.732 mixed phase of 2H + 3R K 3.2 3.2 kOe "SUS(on), GL fitting" 10.14 MHC158867 nm from Hc2 18 MSP158867 mJ/mol.K2 9.88 SP 201.5 SP "Ta(3N),Se(4N)" "mixture - sealed in quartz tube - heat(1173 K, 24 h) - FC to RT - reground - pellet - sealed in quartz tube - ANN(1173 K, 240 h) - cool to RT" Superconductivity enhancement in Ta1+xSe2 with a randomly stacked structure 2019 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" "Supercond.Sci.Technol., 32(2019)035001"
158868 SST032035001 N(Ef) = 2.35 states/eV.fu. e-ph = 0.675. (dC/gamma*Tc) = 0.507 Ta1+xSe2 Se2Ta1.08 Se 2 Ta 1.08 1 2019 AB2 MX2 A 3.432 12.65 3R-phase K 2.95 2.95 mJ/mol.K2 9.27 SP 182.3 SP "Ta(3N),Se(4N)" "mixture - sealed in quartz tube - heat(1173 K, 24 h) - FC to RT - reground - pellet - sealed in quartz tube - ANN(1173 K, 240 h) - cool to RT" Superconductivity enhancement in Ta1+xSe2 with a randomly stacked structure 2019 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" "Supercond.Sci.Technol., 32(2019)035001"
158869 SST032035001 Tc(SUS) < 2.0 K. maybe small SC volume. Ta1+xSe2 Se2Ta1.1 Se 2 Ta 1.1 1 2019 AB2 MX2 A 3.432 12.62 3R-phase K 2.1 2.1 "Ta(3N),Se(4N)" "mixture - sealed in quartz tube - heat(1173 K, 24 h) - FC to RT - reground - pellet - sealed in quartz tube - ANN(1173 K, 240 h) - cool to RT" Superconductivity enhancement in Ta1+xSe2 with a randomly stacked structure 2019 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" "Supercond.Sci.Technol., 32(2019)035001"
158870 SST032035001 M-I transition at about 25 K from R(T). Ta1+xSe2 Se2Ta1.12 Se 2 Ta 1.12 1 2019 AB2 MX2 3R-phase K 2 "Ta(3N),Se(4N)" "mixture - sealed in quartz tube - heat(1173 K, 24 h) - FC to RT - reground - pellet - sealed in quartz tube - ANN(1173 K, 240 h) - cool to RT" Superconductivity enhancement in Ta1+xSe2 with a randomly stacked structure 2019 "Institute of Physics, Chinese Academy of Sciences, Beijing 100190, People's Republic of China" "Supercond.Sci.Technol., 32(2019)035001"
158871 SST032115014 SP (beta) = 0.085 mJ/mol.K4. (dC/gamma*Tc) = 1.72. e-ph = 0.58. kappa(GL) = 6.6. DOS = 5.4 states/eV.fu from gamma. Anisotropy(R) = 14(300C) Mo3P Mo3P1 Mo 3 P 1 3 2019 AB3 I4[-]2m A 9.8084 4.8352 K 5.6 5.6 Oe "M-H curve, (1-t^2)" 190 kOe "RES(0.5Rn), GL fitting" 41.2 13.7 kOe/K RES(0.5Rn) 5 2.5 MHC158871 A from Hc2 183 A "from Hc1, Hc2" 1210 3.42 14 MSP158871 mJ/mol.K2 12.8 SP 454 SP uOhm.cm 2.94 166 Superconductivity in noncentrosymmetric Mo3P single crystal 2019 "Department of Physics, Hangzhou Normal University, Hangzhou 310036, People's Republic of China" "Supercond.Sci.Technol., 32(2019)115014"
158872 SST032045010 SP (beta) = 0.396 mJ/mol.K4. (dC/gamma*Tc) = 0.86. e-ph = 0.46. kappa(GL) = 15.6. carrier = electron Nb5Sn2Al Nb5Sn2Al1 Nb 5 Sn 2 Al 1 1 2019 AB2C5 2 W5Si3 A 10.638 5.225 K 2 2 2 85 mT "M-H curve, demag-correction" 2 T "RES(zero), WHH" 0.3 MHC158872 nm from Hc2 32.8 nm "from Hc1, Hc2" 516 MSP158872 mJ/mol.K2 19 SP 340 SP n/cm3 1.30E+22 Type-II superconductivity in W5Si3-type Nb5Sn2Al 2019 "Department of Physics, Fudan University, Shanghai 200433, People?s Republic of China" "Supercond.Sci.Technol., 32(2019)045010"
158873 SST032045010 SP (beta) = 0.270 mJ/mol.K4. carrier = hole Ti5Sn2Al Ti5Sn2Al1 Ti 5 Sn 2 Al 1 1 2019 AB2C5 2 W5Si3 A 10.558 5.262 K 0.5 MSP158872 mJ/mol.K2 31.5 SP 386 SP n/cm3 1.50E+22 Type-II superconductivity in W5Si3-type Nb5Sn2Al 2019 "Department of Physics, Fudan University, Shanghai 200433, People?s Republic of China" "Supercond.Sci.Technol., 32(2019)045010"
158874 NAT05720624 "Possibility of nickelate superconducors; GL coherence length 3.25+-0.01 nm, Jc(2K)~ 170kAcm-2." Nd0.8Sr0.2NiO2 Nd0.8Sr0.2Ni1O2 Nd 0.8 Sr 0.2 Ni 1 O 2 2 2019 2 P4/mmm A 3.92 3.34 SrFBiS2-type K 7.5 2 7.5 158874Fig4 158874fig3 nm 3.25 micrometer 2.2 170000 158874Fig2 "NdNiO3, NdSrNiO3" 3 "PLD method; stoichiometric targets of NdNiO3 and Nd0.8Sr0.2NiO3 were used. After the deposition, the films were reduced to Nd0.8Sr0.2NiO2 with CaH2 powders." SrTiO3 Superconductivity in an infinite-layer nickalate 2019 8 "infinite-layer, nickalate" "Stanford Institute for Materials and Energy Science, SLAC National Accelerator Laboratory, Menlo Park, CA, USA" "Nature, 572(2019)624"
158875 COMSMA01016 "Absence of superconductivity in bulk Nd1-xSrxNiO2, even in high pressures up to 50.2GPa. Superconductivity happens in interface or stress-related effects in thin films." "Nd1-xSrxNiO2 (x=0,0.2,0.4)" Nd0.8Sr0.2Ni1O2 Nd 0.8 Sr 0.2 Ni 1 O 2 1 2020 muB/f.u. 2.32 emu mol-1 0.001 2 P4/mmm A 3.914 3.239 SrFBiS2-type K Nd0.8Sr0.2NiO2 1 "solid state reaction of Nd2O3, NiO, and SrO at 1200C for 24 hrs, and the precursor of Nd2-2xSr2xNiO4, NiO, and KClO4 to synthesize Nd1-xSrxNiO3 with Oxygen sealed in a gold capsule at 1000C and 2GPa" Absence of superconductivity in bilk Nd1-xSrxNiO2 2020 4 "nickelate, superconductivity" "National Laboratory of Solid State Microstructures and Depeartment of Physics, Center for Superconducting Physics and Naterials, Collaborative Innovation Center for Advanced Microstructures, Nanjing University, Nanjing 210093, China" "Communications Materials, 1(2020)16"
158876 NATCOM01910233 "Proximity-induced surface superconductivity of Dirac semi-metal Cd3As2 between Nb strands, Josephson coherent length x = 228-424 nm. Fraunhofer-like pattern was observed." Cd3As2 Cd3As2 Cd 3 As 2 2 2019 2 I41/acd A 12.67 25.48 "tetragonal, 158876fig1" K 2.1 1 2.1 158876Fig2 nm 50 meV 0.2 158876Fig3 Cd3As2 3 Argon gas transport of Cd3As2 powders on Nb thin films Nb Proximity-induced surface superconductivity in Dirac semimetal Cd3As2 2019 5 "Dirac semimetal, surface superconductivity" "State Key Laboratory of Surface Physics and Department of Physics, Fudan University, Shanghai 200433, China" "Nature Communications, 10(2019)10233"
158877 NATCOM110990 "By X-ray diffraction method, F-CDW and AF-CDW coupling modify the electronic structure, in which F-CDW dominates in the superconducting and normal state properties of YBCO" YBa2Cu3O6.7 Y1Ba2Cu3O6.7 Y 1 Ba 2 Cu 3 O 6.7 3 2020 3 A 3.82 3.87 11.7 T' phase K 67 67 YBa2Cu3O7 3 self-flux method Spatially inhomogeneous competetion between superconductivity and the charge density wave in YBa2Cu36.67 2020 2 "YBaCuO, CDW, superconductivity" "Physik-Institut, Universitaet Zuerich, Winterthuresrstrasse 190, CH-8057, Switzerland" "Nature Communications, 11(2020)0990"
158878 PRM3093601 smectic-nematic transition in perpendicular direction to Cu-O plane Tb2Cu0.83Pd0.17O4 Tb2Cu0.83Pd0.17O4 Tb 2 Cu 0.83 Pd 0.17 O 4 1 2019 2 K2NiO4 Pbca K 0 0 0 0 158878fig1 "Gd2O3, Tb4O7, Dy2O3, PdO, CuO" 1 "Tb4O7 was reduced to Tb2O3 at 700C for 24hrs. Mixture with intermediate grinding heated in a alumina crucible at 1000C under air for 36hrs, and at 1050C for 36hrs." Smectic and nematic phase modulations and transitions under electron beam in Tb2Cu0.83Pd0.17O4 2019 12 "214, Tb, Pd, smectic, nematic" "Beijing National Laboratory of Condenced Matter, Insitute of Physics, Chinese Academy of Science, Beijing 100190, China" Physical Review Materials 3(2019)093601
158879 PRM3091401R Ferroelectric fluctuations may be a origin of superconductivity in SrTiO3 SrTiO3 Sr1Ti1O3 Sr 1 Ti 1 O 3 4 2019 2 Perovskite "4/mmm, 4mm" K 0 0 0 0 158879fig1 158879fig2 SrTiO3 17 Sm-doped SrTiO3 film was epitaxially grown on (LaAlO3)0.3(Sa2AlTaO6)0.7(LAST) substrate at 900C by MBE. Ferroelectric enhancement of superconductivity in compressively strained SrTiO3 films 2019 9 "SrTiO3, strained, ferroelectric" "Materials Department, University of California, Santa Barbara, California 93106, USA" Physical Review Materials 3(2019)091401(R)
158880 SADEAAW0120 Enhancing superconductivity in SrTiO3 films with strain SrTiO3 Sr1Ti1O3 Sr 1 Ti 1 O 3 5 2019 2 Perovskite "4/mmm, 4mm" K 0.67 158880fig1 T 0.91 158880fig3 nm 19 micro-eV 100 158880fig2 SrTiO3 17 Sm-doped SrTiO3 film was epitaxially grown on (LaAlO3)0.3(Sa2AlTaO6)0.7(LAST) substrate at 900C by MBE. Enhancing superconductivity in SrTiO3 films with strain 2019 4 "SrTiO, strain, ferroelectric" "Materials Department, University of California, Santa Barbara, California 93106, USA" "Science Advances,5(2019)eaaw0120"
158881 NAT5690528 "highest critical temperature of around 250K was achieved in a high pressure as around 150GPa, isotope effect observed" LaH La1H10 La 1 H 10 1 2019 1 fcc Fm3m A 5.1019 K 250 158881fig1 0.46 T 136 158881fig2 158881fig3 "La, H2" 1 "synthesized from La+H2 mixture, heated at high pressure as 145GPa" Superconductivity at 250K in lanthanaum hydride under high pressures 2019 5 "LaH10,high pressure" "Maxplanck Institut fuer Chemie, Mainz, Germany" Nature 569(2019)528
158882 NCT110569 "In the overdoped Bi2Sr2Cu2O8+d, superconductivity disappears due to vanishing copupling, eliminating phononic mechanism and originating the spin-fluctuation." Bi2Sr2CuO2O8+d Bi2Sr2Cu1O8+d Bi 2 Sr 2 Cu 1 O 8+d 3 2020 3 K 91 158882fig1 16 9 158882fig2 "Bi2O3, Sr2O, CuO, CaO" 7 "as-grown single crystal is overdoped, and by annealing in ozone atomosphere at 350-480C" Disappearance of superconductivity due to vanishing coupling in the overdoped Bi2Sr2CaCu2O8+deltha 2020 1 "Bi2Sr2CaCu2O8+deltha, ARPES, overdoped" "Condensed Matter Physics and Materials Science Department, Brookhaven Lab., Upton, NY 11973, USA" Nature Communications 11(2020)569
158883 SAD3E1601667 heavy-fermion of CeCu2Si2 has a fully-gapped superconductivity with no sign change and nodes in Fermi surface. CeCu2Si2 Ce1Cu2Si2 Ce 1 Cu 2 Si 2 3 2017 2 ThCr2Si2 K 0.71 158883fig1 1 mT Hall sensor 1.2 0.32 nm 4.7 6.9 nm tunnel diode oscillator tech 700 K 0.39 3 mJ/K2mol 15 C/T W/K2m 158883fig2 CeCu2Si2 5 self-flux method combined with a Bridgman cooling technique in an Al2O3 crucible together with a 40 mol% excess Cu as self flux Fully gapped supercondcutivity with no sign change in the prototypical heavy-fermion CeCu2Si2 2017 6 "heavy-fermion, CeCu2Si2" "Department of Physics, Kyoto University, Kyoto 606-8502, Japan" Science Advances 3(2017)e160667
158884 SADEABB8570 Transparent p-type superconductor Li1-xNbO2 was epitaxially grown on MgAl2O4 substrate with Tc of about 4K. Li1-xNbO2 Li1Nb1O2 Li 1 Nb 1 O 2 5 2020 2 MoS2 A 2.914 10.468 1 K 3.9 158884fig1 1 158884fig2 Li3NbO4 17 "After growing by a PLD in vacuum, in-situ annealing was made at 800C with Ar/H2 atomosphare of 0.1mTorr, and then, Li deintercalation was made with 0.02Ml2/CH3CN in air." 17 MgAl2O4 Li3NbO4 p-type transparent superconductivity in a layered oxide 2020 7 "superconductivity, LiNbO2, two-dimmensional" "Department of Chemical Science and Engineering, Tokyo Institute of Technology, 2-12-1 Ookayama, Megro, Tokyo 152-8552, Japan" Science Advances 6(2020)eabb8570
158885 STA190909 "For data-driven approach, pressure-induced superconductivity was found in PbBi2Te4" Pb0.9Bi2Te3.8 Pb0.9Bi2Te3.8 Pb 0.9 Bi 2 Te 3.8 3 2018 6 R-3m A 4.42 4.42 41.57 1 K 7.9 158885fig1 1 GPa 50.8 T resistivity 5.8 21.7 0 158885fig2 W/K.m 1.54 microW/mK2 100 PbBi2Te4 9 "In the stoichiometric composition of Pb grains, Bi ones, and Te chips was melted and slow-cooling to grow single crystals in a evacuated quartz tube from 100C to 800C." Data-driven exploaration of new pressure-induced superconductivity in PbBi2Te4 2018 11 "data-driven, supercnductivity, high-ressure" "MA, National Institute for Materials Science, Sengen 1-2-1, Tsukuba 305-0047, Japan" Science and Technology of Advanced Materials 19(2018)909
158886 TSF1280275 The influence of film thickness and annealing temperature in Li1+xTi2-x4thin films was examined on the electrical resistivity and the superconducting transition temperature. Li1+xTi2-xO4 Li1Ti2O4 Li 1 Ti 2 O 4 4 1985 spinel K 13.6 158886fig1 1 800000 158886fig2 ohmcm 0.0013 cm3C-1 -61 cm3C-1 1.10E+22 LiTi2O4 16 LTO films were deposited onto suppire(1102) substrates at 200-300C by r.f. magnetron sputtering. The films were annealed at 750-1000C in a hydrongen flow for 6 hrs. Al2O3 LiTi2O4 r.f.hot pressing mixed Li2Ti2O5 and Ti2O3 powders Influence of film thickness and annealing temperature on superconducting Li1+xTi2-xO4 1985 2 "LiTi2O4, superconductivity, thin films" "Ibaraki Electrical Communication Laboratory, Nippon Telegraph and Telephone Public Corporation, Tokai, Ibaraki^ken, 319-11, Japan" "Thin Solid Films, 128(1985)275"
158887 APL1010123103 The epitxial thin film growth of LiTi2O4 superconductor has been achieved with the highest Tc of 12K on the substrate of MgAl2O4 (111). LiTi2O4 Li1Ti2O4 Li 1 Ti 2 O 4 4 2012 spinel nm K 12 12 158887fig1 2 ohmcm 0.00033 158887fig2 Li4Ti5O12 17 "By PLD method, Li4Ti5O12 and LiTi2O4 epitaxial thin films were obtained with varyong the Oxygen partial pressure between 1 x 10-3 and 1 x 10-7 Torr." MgAl2O4 Li4Ti5O12 Growth processes of lithium titanate thin films deposited by using pulsed laser deposition 2012 9 "PLD, LiTi2O4, superconductivity" "Advanced Institute for Materials Research, Tohoku University, 980-8577 Sendai, Japan" Applied Physics Letters 101(2012)123103
158888 PRR02013373 "From a Raman scattering study, a distinct pair-breaking excitation was detected across the gap. Analyzing the phonon self-energy effects, the e-p coupling constant is too small to explain SC." Fe1+yTe0.6Se0.4 Fe1Te0.6Se0.4 Fe 1 Te 0.6 Se 0.4 3 2020 2 PbO P4/nmm K 14 14 158888fig1 2 meV 2.8 4 158888Tab1 Fe1+yTe0.6Se0.4 10 modified Bridgeman method. Superconductivity and phonon self-energy effects in Fe(1+y)Te0.6Se0.4 2020 3 "superconductivity, FeTeSe, Raman spectroscopy, electron-phonon coupling" "Department of Physics and Astronomy, Ruttgers University, Piscataway, New Jersey 08854, USA" "Physical Review Research, 2(2020)013373"
158889 NAT56700213 "Electronic nematicity was clarified around the quantum critical point(x=0.16) of FeSe(1-x)Sx(x=0-0.25) in the normal state of resistivity, braeking the superconductivity in high magnetic fields." Fe1Se1S0 Fe1Se1S0 Fe 1 Se 1 S 0 3 2019 2 PbO P4/nmm K 8.75 158889fig1 2 158889fig2 microohmcm 5.3 350000 Fe1Se1S0 18 "chemical vapour transport technique. Fe, Se and S powders with KCL and AlCl3 was sealed in an evacuated quartz tube heated at 390-450C on one end, while the other end was kept at 140-200C." Electrical resistivity across a nematic quantum critical point 2019 3 "FeSeS, quantum critical point, nematic phase" "High Field Magnet Laboratory(HFML-EMFL) and institute for Molecules and Materials, Radboud University, Nijimegen, The netherlands" Nature 567(2019)213
158890 NAT56700213 "Electronic nematicity was clarified around the quantum critical point(x=0.16) of FeSe(1-x)Sx(x=0-0.26) in the normal state of resistivity, braeking the superconductivity in high magnetic fields." Fe1Se0.95S0.05 Fe1Se0.95S0.05 Fe 1 Se 0.95 S 0.05 3 2019 2 PbO P4/nmm K 9.12 158890fig1 2 microohmcm 16.9 350000 Fe1Se0.95Se0.05 18 "chemical vapour transport technique. Fe, Se and S powders with KCL and AlCl3 was sealed in an evacuated quartz tube heated at 390-450C on one end, while the other end was kept at 140-201C." Electrical resistivity across a nematic quantum critical point 2019 3 "FeSeS, quantum critical point, nematic phase" "High Field Magnet Laboratory(HFML-EMFL) and institute for Molecules and Materials, Radboud University, Nijimegen, The netherlands" Nature 567(2019)213
158891 NAT56700213 "Electronic nematicity was clarified around the quantum critical point(x=0.16) of FeSe(1-x)Sx(x=0-0.27) in the normal state of resistivity, braeking the superconductivity in high magnetic fields." Fe1Se0.90S0.10 Fe1Se0.9S0.1 Fe 1 Se 0.9 S 0.1 3 2019 2 PbO P4/nmm K 8.91 158891fig1 2 microohmcm 11.3 350000 Fe1Se0.90Se0.10 18 "chemical vapour transport technique. Fe, Se and S powders with KCL and AlCl3 was sealed in an evacuated quartz tube heated at 390-450C on one end, while the other end was kept at 140-202C." Electrical resistivity across a nematic quantum critical point 2019 3 "FeSeS, quantum critical point, nematic phase" "High Field Magnet Laboratory(HFML-EMFL) and institute for Molecules and Materials, Radboud University, Nijimegen, The netherlands" Nature 567(2019)213
158892 NAT56700213 "Electronic nematicity was clarified around the quantum critical point(x=0.16) of FeSe(1-x)Sx(x=0-0.28) in the normal state of resistivity, braeking the superconductivity in high magnetic fields." Fe1Se0.87S0.13 Fe1Se0.87S0.13 Fe 1 Se 0.87 S 0.13 3 2019 2 PbO P4/nmm K 8.7 158892fig1 2 microohmcm 17.46 350000 Fe1Se0.87Se0.13 18 "chemical vapour transport technique. Fe, Se and S powders with KCL and AlCl3 was sealed in an evacuated quartz tube heated at 390-450C on one end, while the other end was kept at 140-203C." Electrical resistivity across a nematic quantum critical point 2019 3 "FeSeS, quantum critical point, nematic phase" "High Field Magnet Laboratory(HFML-EMFL) and institute for Molecules and Materials, Radboud University, Nijimegen, The netherlands" Nature 567(2019)213
158893 NAT56700213 "Electronic nematicity was clarified around the quantum critical point(x=0.16) of FeSe(1-x)Sx(x=0-0.29) in the normal state of resistivity, braeking the superconductivity in high magnetic fields." Fe1Se0.84S0.16 Fe1Se0.84S0.16 Fe 1 Se 0.84 S 0.16 3 2019 2 PbO P4/nmm K 8.91 158893fig1 2 microohmcm 17.08 350000 Fe1Se0.84Se0.16 18 "chemical vapour transport technique. Fe, Se and S powders with KCL and AlCl3 was sealed in an evacuated quartz tube heated at 390-450C on one end, while the other end was kept at 140-204C." Electrical resistivity across a nematic quantum critical point 2019 3 "FeSeS, quantum critical point, nematic phase" "High Field Magnet Laboratory(HFML-EMFL) and institute for Molecules and Materials, Radboud University, Nijimegen, The netherlands" Nature 567(2019)213
158894 NAT56700213 "Electronic nematicity was clarified around the quantum critical point(x=0.16) of FeSe(1-x)Sx(x=0-0.30) in the normal state of resistivity, braeking the superconductivity in high magnetic fields." Fe1Se0.82S0.18 Fe1Se0.82S0.18 Fe 1 Se 0.82 S 0.18 3 2019 2 PbO P4/nmm K 7.96 158894fig1 2 microohmcm 13.56 350000 Fe1Se0.82Se0.18 18 "chemical vapour transport technique. Fe, Se and S powders with KCL and AlCl3 was sealed in an evacuated quartz tube heated at 390-450C on one end, while the other end was kept at 140-205C." Electrical resistivity across a nematic quantum critical point 2019 3 "FeSeS, quantum critical point, nematic phase" "High Field Magnet Laboratory(HFML-EMFL) and institute for Molecules and Materials, Radboud University, Nijimegen, The netherlands" Nature 567(2019)213
158895 NAT56700213 "Electronic nematicity was clarified around the quantum critical point(x=0.16) of FeSe(1-x)Sx(x=0-0.31) in the normal state of resistivity, braeking the superconductivity in high magnetic fields." Fe1Se0.80S0.20 Fe1Se0.8S0.2 Fe 1 Se 0.8 S 0.2 3 2019 2 PbO P4/nmm K 5.99 158895fig1 2 microohmcm 13.06 350000 Fe1Se0.80Se0.20 18 "chemical vapour transport technique. Fe, Se and S powders with KCL and AlCl3 was sealed in an evacuated quartz tube heated at 390-450C on one end, while the other end was kept at 140-206C." Electrical resistivity across a nematic quantum critical point 2019 3 "FeSeS, quantum critical point, nematic phase" "High Field Magnet Laboratory(HFML-EMFL) and institute for Molecules and Materials, Radboud University, Nijimegen, The netherlands" Nature 567(2019)213
158896 NAT56700213 "Electronic nematicity was clarified around the quantum critical point(x=0.16) of FeSe(1-x)Sx(x=0-0.32) in the normal state of resistivity, braeking the superconductivity in high magnetic fields." Fe1Se0.75S0.25 Fe1Se0.75S0.25 Fe 1 Se 0.75 S 0.25 3 2019 2 PbO P4/nmm K 7.39 158896fig1 2 microohmcm 8.37 350000 Fe1Se0.75Se0.25 18 "chemical vapour transport technique. Fe, Se and S powders with KCL and AlCl3 was sealed in an evacuated quartz tube heated at 390-450C on one end, while the other end was kept at 140-207C." Electrical resistivity across a nematic quantum critical point 2019 3 "FeSeS, quantum critical point, nematic phase" "High Field Magnet Laboratory(HFML-EMFL) and institute for Molecules and Materials, Radboud University, Nijimegen, The netherlands" Nature 567(2019)213
158897 PRR01033154 Direct evidence for the coupling between nematicity and superconductivity has been confirmed. The nematic fluctuations is important for the superconductivity in iron-based superconductors. BaFe1.9Ni0.1As2 Ba1Fe1.9Ni0.1As2 Ba 1 Fe 1.9 Ni 0.1 As 2 12 2019 2 ThCr2Si2 K 19.2 158897fig1 1 mK/MPa 4 15 158897fig3 5 self-flux method Nonlinear uniaxial pressure dependence of Tc in iron-based superconductor 2019 12 "iron-based superconductors, pressure, Tc" "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Science, Beijing 100190, China" Physical Review Research 1(2019)033154
158898 PRR01033154 Direct evidence for the coupling between nematicity and superconductivity has been confirmed. The nematic fluctuations is important for the superconductivity in iron-based superconductors. Ba0.67Fe2K0.33As2 Ba0.67Fe2K0.33As2 Ba 0.67 Fe 2 K 0.33 As 2 12 2019 2 ThCr2Si2 K 158897fig2 1 mK/MPa -1 15 158897fig3 5 self-flux method Nonlinear uniaxial pressure dependence of Tc in iron-based superconductor 2019 12 "iron-based superconductors, pressure, Tc" "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Science, Beijing 100190, China" Physical Review Research 1(2019)033154
158899 PRR01033154 Direct evidence for the coupling between nematicity and superconductivity has been confirmed. The nematic fluctuations is important for the superconductivity in iron-based superconductors. KFe2As2 K1Fe2As2 K 1 Fe 2 As 2 12 2019 2 ThCr2Si2 K 1 mK/MPa -2 15 158897fig3 5 self-flux method Nonlinear uniaxial pressure dependence of Tc in iron-based superconductor 2019 12 "iron-based superconductors, pressure, Tc" "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Science, Beijing 100190, China" Physical Review Research 1(2019)033154
158900 PRR01033154 Direct evidence for the coupling between nematicity and superconductivity has been confirmed. The nematic fluctuations is important for the superconductivity in iron-based superconductors. LaFeAsO0.74F0.26 La1Fe1As1F0.26O0.74 La 1 Fe 1 As 1 F 0.26 O 0.74 12 2019 2 ThCr2Si2 K 1 mK/MPa 4 15 158897fig3 5 self-flux method Nonlinear uniaxial pressure dependence of Tc in iron-based superconductor 2019 12 "iron-based superconductors, pressure, Tc" "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Science, Beijing 100190, China" Physical Review Research 1(2019)033154
158901 SST024065004 "High-quality large single crystals of Ni-doped Ba2Fe2As2 were grown, and the phase diagram was established with QCP point of x=0.096." BaFe2As2 Ba1Fe2As2As2 Ba 1 Fe 2 As 2 As 2 3 2011 134 2 ThCr2Si2 nm 1.303 Structual transition at around 134K K 158901fig1 1 158901fig2 Fe/Ni-As powders 5 self-flux method with Fe/Ni-As powders as precursor sealed in an evacuated quartz tube(BFNA in aluminum oxide crucible). Systemtic growth of BaFe2-xNixAs2 large crystals 2011 2 "iron-based superconductors, Ni doping, Tc, crystal growth" "Institute of Physics and National Laboratory for Condenced Matter Physics, Chinese Academy of Science, Beijing 100191, China" Supercond. Sci. Technol. 24(2011)065004
158902 SST024065004 "High-quality large single crystals of Ni-doped Ba2Fe2As2 were grown, and the phase diagram was established with QCP point of x=0.097." BaFe1.97Ni0.03As2 Ba1Fe1.97Ni0.03As2 Ba 1 Fe 1.97 Ni 0.03 As 2 3 2011 105 2 ThCr2Si2 Structual transition at around 110K K 158902fig1 1 158901fig2 Fe/Ni-As powders 5 self-flux method with Fe/Ni-As powders as precursor sealed in an evacuated quartz tube(BFNA in aluminum oxide crucible). Systemtic growth of BaFe2-xNixAs2 large crystals 2011 2 "iron-based superconductors, Ni doping, Tc, crystal growth" "Institute of Physics and National Laboratory for Condenced Matter Physics, Chinese Academy of Science, Beijing 100191, China" Supercond. Sci. Technol. 24(2011)065004
158903 SST024065004 "High-quality large single crystals of Ni-doped Ba2Fe2As2 were grown, and the phase diagram was established with QCP point of x=0.098." BaFe1.935Ni0.065As2 Ba1Fe1.935Ni0.065As2 Ba 1 Fe 1.935 Ni 0.065 As 2 3 2011 64 2 ThCr2Si2 Structual transition at around 74K K 7.8 7.8 158903fig1 1 158901fig2 Fe/Ni-As powders 5 self-flux method with Fe/Ni-As powders as precursor sealed in an evacuated quartz tube(BFNA in aluminum oxide crucible). Systemtic growth of BaFe2-xNixAs2 large crystals 2011 2 "iron-based superconductors, Ni doping, Tc, crystal growth" "Institute of Physics and National Laboratory for Condenced Matter Physics, Chinese Academy of Science, Beijing 100191, China" Supercond. Sci. Technol. 24(2011)065004
158904 SST024065004 "High-quality large single crystals of Ni-doped Ba2Fe2As2 were grown, and the phase diagram was established with QCP point of x=0.099." BaFe1.925Ni0.075As2 Ba1Fe1.925Ni0.075As2 Ba 1 Fe 1.925 Ni 0.075 As 2 3 2011 52 2 ThCr2Si2 Structual transition at around 62K K 13.2 13.2 158904fig1 1 158901fig2 Fe/Ni-As powders 5 self-flux method with Fe/Ni-As powders as precursor sealed in an evacuated quartz tube(BFNA in aluminum oxide crucible). Systemtic growth of BaFe2-xNixAs2 large crystals 2011 2 "iron-based superconductors, Ni doping, Tc, crystal growth" "Institute of Physics and National Laboratory for Condenced Matter Physics, Chinese Academy of Science, Beijing 100191, China" Supercond. Sci. Technol. 24(2011)065004
158905 SST024065004 "High-quality large single crystals of Ni-doped Ba2Fe2As2 were grown, and the phase diagram was established with QCP point of x=0.100." BaFe1.915Ni0.085As2 Ba1Fe1.915Ni0.085As2 Ba 1 Fe 1.915 Ni 0.085 As 2 3 2011 41 2 ThCr2Si2 Structual transition at around 42K K 16.9 16.9 158905fig1 1 158901fig2 Fe/Ni-As powders 5 self-flux method with Fe/Ni-As powders as precursor sealed in an evacuated quartz tube(BFNA in aluminum oxide crucible). Systemtic growth of BaFe2-xNixAs2 large crystals 2011 2 "iron-based superconductors, Ni doping, Tc, crystal growth" "Institute of Physics and National Laboratory for Condenced Matter Physics, Chinese Academy of Science, Beijing 100191, China" Supercond. Sci. Technol. 24(2011)065004
158906 SST024065004 "High-quality large single crystals of Ni-doped Ba2Fe2As2 were grown, and the phase diagram was established with QCP point of x=0.101." BaFe1.908Ni0.092As2 Ba1Fe1.908Ni0.082As2 Ba 1 Fe 1.908 Ni 0.082 As 2 3 2011 43 2 ThCr2Si2 Structual transition at around 40K K 18.5 18.5 158906fig1 1 158901fig2 Fe/Ni-As powders 5 self-flux method with Fe/Ni-As powders as precursor sealed in an evacuated quartz tube(BFNA in aluminum oxide crucible). Systemtic growth of BaFe2-xNixAs2 large crystals 2011 2 "iron-based superconductors, Ni doping, Tc, crystal growth" "Institute of Physics and National Laboratory for Condenced Matter Physics, Chinese Academy of Science, Beijing 100191, China" Supercond. Sci. Technol. 24(2011)065004
158907 SST024065004 "High-quality large single crystals of Ni-doped Ba2Fe2As2 were grown, and the phase diagram was established with QCP point of x=0.102." BaFe1.90Ni0.10As2 Ba1Fe1.9Ni0.1As2 Ba 1 Fe 1.9 Ni 0.1 As 2 3 2011 2 ThCr2Si2 K 20.1 20.1 158907fig1 1 158901fig2 Fe/Ni-As powders 5 self-flux method with Fe/Ni-As powders as precursor sealed in an evacuated quartz tube(BFNA in aluminum oxide crucible). Systemtic growth of BaFe2-xNixAs2 large crystals 2011 2 "iron-based superconductors, Ni doping, Tc, crystal growth" "Institute of Physics and National Laboratory for Condenced Matter Physics, Chinese Academy of Science, Beijing 100191, China" Supercond. Sci. Technol. 24(2011)065004
158908 SST024065004 "High-quality large single crystals of Ni-doped Ba2Fe2As2 were grown, and the phase diagram was established with QCP point of x=0.103." BaFe1.88Ni0.12As2 Ba1Fe1.88Ni0.12As2 Ba 1 Fe 1.88 Ni 0.12 As 2 3 2011 2 ThCr2Si2 K 19 19 158908fig1 1 158901fig2 Fe/Ni-As powders 5 self-flux method with Fe/Ni-As powders as precursor sealed in an evacuated quartz tube(BFNA in aluminum oxide crucible). Systemtic growth of BaFe2-xNixAs2 large crystals 2011 2 "iron-based superconductors, Ni doping, Tc, crystal growth" "Institute of Physics and National Laboratory for Condenced Matter Physics, Chinese Academy of Science, Beijing 100191, China" Supercond. Sci. Technol. 24(2011)065004
158909 SST024065004 "High-quality large single crystals of Ni-doped Ba2Fe2As2 were grown, and the phase diagram was established with QCP point of x=0.104." BaFe1.85Ni0.15As2 Ba1Fe1.85Ni0.15As2 Ba 1 Fe 1.85 Ni 0.15 As 2 3 2011 2 ThCr2Si2 K 14.1 14.1 158909fig1 1 158901fig2 Fe/Ni-As powders 5 self-flux method with Fe/Ni-As powders as precursor sealed in an evacuated quartz tube(BFNA in aluminum oxide crucible). Systemtic growth of BaFe2-xNixAs2 large crystals 2011 2 "iron-based superconductors, Ni doping, Tc, crystal growth" "Institute of Physics and National Laboratory for Condenced Matter Physics, Chinese Academy of Science, Beijing 100191, China" Supercond. Sci. Technol. 24(2011)065004
158910 SST024065004 "High-quality large single crystals of Ni-doped Ba2Fe2As2 were grown, and the phase diagram was established with QCP point of x=0.105." BaFe1.82Ni0.18As2 Ba1Fe1.82Ni0.18As2 Ba 1 Fe 1.82 Ni 0.18 As 2 3 2011 2 ThCr2Si2 K 8.7 8.7 158910fig1 1 158901fig2 Fe/Ni-As powders 5 self-flux method with Fe/Ni-As powders as precursor sealed in an evacuated quartz tube(BFNA in aluminum oxide crucible). Systemtic growth of BaFe2-xNixAs2 large crystals 2011 2 "iron-based superconductors, Ni doping, Tc, crystal growth" "Institute of Physics and National Laboratory for Condenced Matter Physics, Chinese Academy of Science, Beijing 100191, China" Supercond. Sci. Technol. 24(2011)065004
158911 SST024065004 "High-quality large single crystals of Ni-doped Ba2Fe2As2 were grown, and the phase diagram was established with QCP point of x=0.106." BaFe1.80Ni0.20As2 Ba1Fe1.8Ni0.2As2 Ba 1 Fe 1.8 Ni 0.2 As 2 3 2011 2 ThCr2Si2 K 5.2 5.2 158911fig1 1 158901fig2 Fe/Ni-As powders 5 self-flux method with Fe/Ni-As powders as precursor sealed in an evacuated quartz tube(BFNA in aluminum oxide crucible). Systemtic growth of BaFe2-xNixAs2 large crystals 2011 2 "iron-based superconductors, Ni doping, Tc, crystal growth" "Institute of Physics and National Laboratory for Condenced Matter Physics, Chinese Academy of Science, Beijing 100191, China" Supercond. Sci. Technol. 24(2011)065004
158912 SST024065004 "High-quality large single crystals of Ni-doped Ba2Fe2As2 were grown, and the phase diagram was established with QCP point of x=0.107." BaFe1.75Ni0.25As2 Ba1Fe1.75Ni0.25As2 Ba 1 Fe 1.75 Ni 0.25 As 2 3 2011 2 ThCr2Si2 K 158912fig1 1 158901fig2 Fe/Ni-As powders 5 self-flux method with Fe/Ni-As powders as precursor sealed in an evacuated quartz tube(BFNA in aluminum oxide crucible). Systemtic growth of BaFe2-xNixAs2 large crystals 2011 2 "iron-based superconductors, Ni doping, Tc, crystal growth" "Institute of Physics and National Laboratory for Condenced Matter Physics, Chinese Academy of Science, Beijing 100191, China" Supercond. Sci. Technol. 24(2011)065004
158913 SST024065004 "High-quality large single crystals of Ni-doped Ba2Fe2As2 were grown, and the phase diagram was established with QCP point of x=0.108." BaFe1.70Ni0.30As2 Ba1Fe1.7Ni0.3As2 Ba 1 Fe 1.7 Ni 0.3 As 2 3 2011 2 ThCr2Si2 nm 1.297 K 158913fig1 1 158901fig2 Fe/Ni-As powders 5 self-flux method with Fe/Ni-As powders as precursor sealed in an evacuated quartz tube(BFNA in aluminum oxide crucible). Systemtic growth of BaFe2-xNixAs2 large crystals 2011 2 "iron-based superconductors, Ni doping, Tc, crystal growth" "Institute of Physics and National Laboratory for Condenced Matter Physics, Chinese Academy of Science, Beijing 100191, China" Supercond. Sci. Technol. 24(2011)065004
158914 PRB101104504 magnetic-flux evolution in the magnetic superconductor RbEuFe4As4 was confirmed with magneto-optical imaging. RbEuFe4As4 Rb1Eu1Fe4As4 Rb 1 Eu 1 Fe 4 As 4 3 2020 2 P4/mmm nm 3.88825 3.8825 13.273 K 0.5 37 158914fig1 2 158914fig2 nm magnetization 1.4 0.92 nm 160 94 5 "large single crystal growth by RbAs flux with an alumina crucible emcapseled in a silica tube, using prereacted binary precursors RbAs, EuAs, and Fe2As powders." Cooperative response of magnetism and superconductivity in the magnetic superconductor RbEuFe4As4 2020 3 "RbEuFe4As4, magnetic superconductor" "Materials Science Divisio, Argonne National Laboratory, Argonne, Illinois 60439, USA" "Phys. Rev, B101 (2020)104504"
158915 CGD01803517 "large single crystal growth of RbEuFe4As4, and the results of Tc and heat capacity measurements." RbEuFe4As4 Rb1Eu1Fe4As4 Rb 1 Eu 1 Fe 4 As 4 4 2018 emu/mol 0.0128 17 2 P4/mmm nm 3.88825 3.8825 13.273 K 37.8 158915fig1 2 37 158915fig2 5 "large single crystal growth by RbAs flux with an alumina crucible emcapseled in a silica tube, using prereacted binary precursors RbAs, EuAs, and Fe2As powders." Single crystal growth and study of the ferromagnetic superconductor RbEuFe4As4 2018 4 "RbEuFe4As4, ferromagnetic superconductor, crystal growth" "Materials Science Divisio, Argonne National Laboratory, Argonne, Illinois 60440, USA" Cryst. Growth Des. 18(2018)3517
158916 NAC01201462 "Enhancement of in-plane upper critical magnetic field, caused by spin-orbit coupling locking measured by in-situ electron transport measurements." In In1 In 1 3 2021 atomic layer on Si(111) K 3.14 158916fig1 3 T 158916fig2 nm 41.3 158916Tab1 ohm 35.9 In 17 atomic layer of In on Si(111) "Due to the Si surface, causing the out-of-plane inversion symmetry and leading to the Rashbatype SOC." Atomic-layer Rashba-type superconductor protected by dynamic spin-momentum locjing 2021 3 "atomic layer, Rashba-tyoe, superconductor, spin-orbit coupling" "Research Center for Advnced Measurement and Characterization, National Institute for Materials Science, Tsukuba, Ibaraki, JAPAN" Nature Commun. 12(2021)1462
158917 PRB101104511 "By high-energy X-ray diffraction measurements at high pressures and low temperatures, a rapid suppression of the superlattice transition is associated with the emergency of quantum fluctuations." Ca3Ir4Sn13 Ca3Ir4Sn13 Ca 3 Ir 4 Sn 13 3 2020 Pm3n K 5 158917fig1 3 158917fig1 "Ca, Ir, Sn" 5 Sn-flux method "Possible quantum fluctuations in the vicinity of the quantum critical point of (Sr,Ca)3Ir4Sn13 revealed by high-energy x-ray diffraction" 2020 5 "(Sr,Ca)3Ir4Sn13, quantum fluctuation, quantum critical point, x-ray" "Deutches Elektronen-Synchrotron(DESY), Hamburg 22607, Germany" Phys. Rev. B101 (2020)104511
158918 PRB101104511 "By high-energy X-ray diffraction measurements at high pressures and low temperatures, a rapid suppression of the superlattice transition is associated with the emergency of quantum fluctuations." Sr3Ir4Sn13 Sr3Ir4Sn13 Sr 3 Ir 4 Sn 13 3 2020 Pm3n K 7 158917fig1 3 158917fig1 "Ca, Ir, Sn" 5 Sn-flux method "Possible quantum fluctuations in the vicinity of the quantum critical point of (Sr,Ca)3Ir4Sn13 revealed by high-energy x-ray diffraction" 2020 5 "(Sr,Ca)3Ir4Sn13, quantum fluctuation, quantum critical point, x-ray" "Deutches Elektronen-Synchrotron(DESY), Hamburg 22607, Germany" Phys. Rev. B101 (2020)104511
158919 PRB101134502 The upper critical field of multiband superconductor CaKFe4As4 was mapped out up to 90T for different orientations and at temperature down to 4.K. CaKFe4As4 Ca1K1Fe4As4 Ca 1 K 1 Fe 4 As 4 3 2020 ThCr2Si2-type I4/mmm K 34.94 34.97 35.01 0.07 34.97 158919fig1 2 T 158919fig2 158919fig3 "Sr, Ir, Sn" 5 Sn-flux method Competing pairing interactions responsible for the large upper critical field in a stoichiometric iron-based superconductor CaKFe4As4 2020 4 "CaKFe4As4, upper critical field, FFLO state" "Clarendon Laboratory, Department of Phusics, University of Oxford, Parks Road, Oxford OX1 3PU, United Kingdom" Phys. Rev. B101 (2020)134502
158920 PRB101115422 "The transport characteristics in 2D superconductor NbC are understood in terms of coupled Josephson junctions, forming between isolated NbC crystals." NbC Nb1C1 Nb 1 C 1 4 2020 1 NaCl Pm3m nm 0.45 0.45 0.45 1 K 7 158920fig1 3 158920fig2 CH4 18 "Nb atoms are diffused to Cu foil, become the high nucleation density, and NbC samples have the thickness of 10 to 20 nm." Cu/Nb foil NbC islands grow along (111) perpendicular to the substrate. Transport through a network of two-dimensional NbC superconducting crystals connected via weak links 2020 3 "NbC, weak link" "Key Laboratory for the Physics and Chemistry of Nanodevices and Department of Electronics, Peking University, Beijing 100871, China" Phys. Rev. B101 (2020)115422
158921 PRB101134506 "By measuring resistivity, Hall coefficient, and Raman scattering at high pressures on TaS2, CDW was observed to disappear at 7.3 Gpa, and reveals characeristics of distinct pressure-tunable." TaS Ta1S2 Ta 1 S 2 3 2020 7 R3c nm 0.33 0.33 0.6 1 K 0.8 158921fig3 3 "Ta, S" 2H-TaS was systhesized at HQ-Graphene. Pressure tuning of the charge density wave and superconductivity in 2H-TaS2 2020 4 "TaS2, charge density wave, pressure" "College of Materials Science and Engineering, Henan University of Technology, Zhengzhou, Zhengzhou 450001, China" Phys. Rev. B101 (2020)134506
158922 PRB101134513 "By extensive measurements of muon-spin technique, electrical resistivity, magnetizatio, and specific heat, a multiple- to single gap SC is suggested in the Nb5Ir3-xPtxO family." Nb5Ir3O Nb5Ir3O1 Nb 5 Ir 3 O 1 3 2020 2 Ti5Ga4-type P4/mmm nm 0.7861 0.5092 1 K 10.5 158922fig1 5 T MH 11.2 158922fig2 nm 5.4 nm TF-mueSR 230 158922fig3 Jmol-1K-2 0.075 mJmol-1K-2 37 380 sp-heat "Nb, Ir, O" 9 "Nb5Ir3-xO was prepared by arc-melting with a mixture of Nb, Nb2O5 and Ir poaders." arc-melting method. Crossover from multiple- to single-gap superconductivity in Nb5Ir3-PtxO 2020 4 "Nb5Ir3-PtxO, mu-SR, nodeless" "Physik-Institut, Universitat Zurich, Winterthureerstrasse 190, CH-8057 Zurich, Switzerland; Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan" Phys. Rev. B101 (2020)134513
158923 PRB101134513 "By extensive measurements of muon-spin technique, electrical resistivity, magnetizatio, and specific heat, a multiple- to single gap SC is suggested in the Nb5Ir3-xPtxO family." Nb5Ir1.4Pt1.6O Nb5Ir1.4Pt1.6O1 Nb 5 Ir 1.4 Pt 1.6 O 1 3 2020 2 Ti5Ga5-type P4/mmm nm 0.7916 0.5065 1 K 9.1 158922fig1 5 T MH 12.7 158922fig2 nm 5.1 nm TF-mueSR 314 158922fig3 Jmol-1K-2 0.05 mJmol-1K-2 42 365 sp-heat "Nb, Ir, Pt, O" 9 Nb5Ir1.4Pt1.6O was prepared by remelting the Nb5Ir3-xO with Pt wire. arc-melting method. Crossover from multiple- to single-gap superconductivity in Nb5Ir3-PtxO 2020 4 "Nb5Ir3-PtxO, mu-SR, nodeless" "Physik-Institut, Universitat Zurich, Winterthureerstrasse 190, CH-8057 Zurich, Switzerland; Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan" Phys. Rev. B101 (2020)134513
158924 PRB101134516 "Measuring the c-axis Jc current in Fe1+yTe1-xSex single crystals, depairing limit along the c-axis is investigated, based on the GL theory." FeTeSe Fe1Te0.8Se0.2 Fe 1 Te 0.8 Se 0.2 3 2020 2 P4/mmm nm 0.39744 0.50219 K 8.6 158924fig3 3 "Fe, Te, Se" 10 "The powders of Fe, Te, and Se are doubly sealed in the fused quartz tube." Gradient freezing method. Achieving the depairing limit along the c axis in Fe1+yTe1-xSex single crystals 2020 4 "Fe1+yTe1-xSex, depairing, Jc" "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan; Institut Jean La, mour, UMR 7198 CNRS-Universite de Lorraine, Campus ARTEM, 2 allee Andre Guinier, Boite Postale 50840, 54013 Nancy, France" Phys. Rev. B101 (2020)134516
158925 PRB101134516 "Measuring the c-axis Jc current in Fe1+yTe1-xSex single crystals, depairing limit along the c-axis is investigated, based on the GL theory." FeTeSe Fe1Te0.7Se0.3 Fe 1 Te 0.7 Se 0.3 3 2020 2 P4/mmm K 11.9 158924fig3 3 "Fe, Te, Se" 10 "The powders of Fe, Te, and Se are doubly sealed in the fused quartz tube." Gradient freezing method. Achieving the depairing limit along the c axis in Fe1+yTe1-xSex single crystals 2020 4 "Fe1+yTe1-xSex, depairing, Jc" "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan; Institut Jean La, mour, UMR 7198 CNRS-Universite de Lorraine, Campus ARTEM, 2 allee Andre Guinier, Boite Postale 50840, 54013 Nancy, France" Phys. Rev. B101 (2020)134516
158926 PRB101134516 "Measuring the c-axis Jc current in Fe1+yTe1-xSex single crystals, depairing limit along the c-axis is investigated, based on the GL theory." FeTeSe Fe1Te0.6Se0.4 Fe 1 Te 0.6 Se 0.4 3 2020 2 P4/mmm K 13.7 158924fig1 3 nm Jc 3 um Jc 1.32 13000000 158924fig3 "Fe, Te, Se" 10 "The powders of Fe, Te, and Se are doubly sealed in the fused quartz tube." Gradient freezing method. Achieving the depairing limit along the c axis in Fe1+yTe1-xSex single crystals 2020 4 "Fe1+yTe1-xSex, depairing, Jc" "Department of Physics and Mathematics, Aoyama Gakuin University, Sagamihara 252-5258, Japan; Institut Jean La, mour, UMR 7198 CNRS-Universite de Lorraine, Campus ARTEM, 2 allee Andre Guinier, Boite Postale 50840, 54013 Nancy, France" Phys. Rev. B101 (2020)134516
158927 PRB101134521 The cooperative electronic phenomena of charge density wave and superconductivity are demonstrated to coexist in the cluster compound K2Mo15Se19. K2Mo15Se19 K1Mo15Se19 K 1 Mo 15 Se 19 3 2020 7 R3c nm 0.97093 5.81385 1 K 2.8 2.8 158927fig1 2 mT 12 0 T 2.9 158927fig2 nm 11 nm 200 meV 0.4 mJmol-1K-2 63 183 "K, Mo, Se" 1 "Synthsizing MoSe2, K2Mo6Se6 and Mo powders (K2Mo6Se6 was synthsized with In2Mo6Se6 and KCl chemical reaction), single crystal is obatined from polycrystalline K2Mo15Se19 with furnace-cooled process." "During the crystal growth process, contamination by oxygen and moisture must be avoided." Coexistence of a charge density wave and superconductivity in the cluster compound K2Mo15Se19 2020 4 "K2Mo15Se19, charege density wave" "School of Physics and Astronomy, University of Birmingham, Birmingham B15 4TT, United Kingdom" Phys. Rev. B101 (2020)134523
158928 PRB101134523 "Using a SANS, empirical fittings to the temperature dependence of the form factor and penetration depth rule out a simple s-wave model, but support the nodes in the gap function." TlNi2Se2 Tl1Ni2Se2 Tl 1 Ni 2 Se 2 3 2020 2 ThCr2Si2-type I4/mmm nm 0.387 1.3435 1 K 3.55 158928fig1 3 T 0.48 158928fig2 nm 26.1 nm 71.2 158928fig3 "Fe, Te, Se" 10 "The powders of Fe, Te, and Se are doubly sealed in the fused quartz tube." Gradient freezing method. Unconventional superconductivity in the nickel chalcogenide superconductor TlNi2Se2 2020 4 "TlNi2Se2, two-gap superconductor, node" "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Science, Beijing 100190, China" Phys. Rev.Lett. 117 (2016)157002
158929 PRL117157002 The nematic fluctuations are systematically studied by the uniaxis pressure-dependent resistivity in the electron-doped iron-based superconductor BaFe2-xNixAs2. BaNi2As2 Ba1Ni2As2 Ba 1 Ni 2 As 2 3 2016 2 ThCr2Si2-type I4/mmm nm 1.303 1 structual transition x<0.10 K 158929fig1 "Ba, Fe, As" 5 Extra Fe-As is used as a flux The mixture in an aulminium oxide cruicible is sealed in an evacuated quartz tube. Nematic quantum critical fluctuations in BaFe2-xNixAs2 2016 10 "BaFe2-xNixAs2, nematic phase, quantum critical fluctuations" "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Science, Beijing 100190, China" Phys. Rev.Lett. 117 (2016)157002
158930 PRL117157002 The nematic fluctuations are systematically studied by the uniaxis pressure-dependent resistivity in the electron-doped iron-based superconductor BaFe2-xNixAs2. BaFe1.97Ni0.03As2 Ba1Fe1.97Ni0.03As2 Ba 1 Fe 1.97 Ni 0.03 As 2 3 2016 2 I4/mmm 1 structual transition x<0.11 K 158929fig1 "Ba, Fe, As" 5 Extra Fe-As is used as a flux The mixture in an aulminium oxide cruicible is sealed in an evacuated quartz tube. Nematic quantum critical fluctuations in BaFe2-xNixAs2 2016 10 "BaFe2-xNixAs2, nematic phase, quantum critical fluctuations" "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Science, Beijing 100190, China" Phys. Rev.Lett. 117 (2016)157002
158931 PRL117157002 The nematic fluctuations are systematically studied by the uniaxis pressure-dependent resistivity in the electron-doped iron-based superconductor BaFe2-xNixAs2. BaFe1.935Ni0.065As2 Ba1Fe1.935Ni0.065As2 Ba 1 Fe 1.935 Ni 0.065 As 2 3 2016 2 I4/mmm 1 structual transition x<0.12 K 7.8 158929fig1 5 "Ba, Fe, As" 5 Extra Fe-As is used as a flux The mixture in an aulminium oxide cruicible is sealed in an evacuated quartz tube. Nematic quantum critical fluctuations in BaFe2-xNixAs2 2016 10 "BaFe2-xNixAs2, nematic phase, quantum critical fluctuations" "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Science, Beijing 100190, China" Phys. Rev.Lett. 117 (2016)157002
158932 PRL117157002 The nematic fluctuations are systematically studied by the uniaxis pressure-dependent resistivity in the electron-doped iron-based superconductor BaFe2-xNixAs2. BaFe1.915Ni0.085As2 Ba1Fe1.915Ni0.085As2 Ba 1 Fe 1.915 Ni 0.085 As 2 3 2016 2 I4/mmm 1 structual transition x<0.13 K 16.9 158929fig1 5 "Ba, Fe, As" 5 Extra Fe-As is used as a flux The mixture in an aulminium oxide cruicible is sealed in an evacuated quartz tube. Nematic quantum critical fluctuations in BaFe2-xNixAs2 2016 10 "BaFe2-xNixAs2, nematic phase, quantum critical fluctuations" "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Science, Beijing 100190, China" Phys. Rev.Lett. 117 (2016)157002
158933 PRL117157002 The nematic fluctuations are systematically studied by the uniaxis pressure-dependent resistivity in the electron-doped iron-based superconductor BaFe2-xNixAs2. BaFe1.87Ni0.13As2 Ba1Fe1.87Ni0.13As2 Ba 1 Fe 1.87 Ni 0.13 As 2 3 2016 2 I4/mmm 1 nematic transition above x > 0.10 K 158929fig1 "Ba, Fe, As" 5 Extra Fe-As is used as a flux The mixture in an aulminium oxide cruicible is sealed in an evacuated quartz tube. Nematic quantum critical fluctuations in BaFe2-xNixAs2 2016 10 "BaFe2-xNixAs2, nematic phase, quantum critical fluctuations" "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Science, Beijing 100190, China" Phys. Rev.Lett. 117 (2016)157002
158934 PRL117157002 The nematic fluctuations are systematically studied by the uniaxis pressure-dependent resistivity in the electron-doped iron-based superconductor BaFe2-xNixAs2. BaFe185Ni0.15As2 Ba1Fe1.85Ni0.15As2 Ba 1 Fe 1.85 Ni 0.15 As 2 3 2016 2 I4/mmm 1 nematic transition above x > 0.11 K 14.1 158929fig1 5 "Ba, Fe, As" 5 Extra Fe-As is used as a flux The mixture in an aulminium oxide cruicible is sealed in an evacuated quartz tube. Nematic quantum critical fluctuations in BaFe2-xNixAs2 2016 10 "BaFe2-xNixAs2, nematic phase, quantum critical fluctuations" "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Science, Beijing 100190, China" Phys. Rev.Lett. 117 (2016)157002
158935 PRL117157002 The nematic fluctuations are systematically studied by the uniaxis pressure-dependent resistivity in the electron-doped iron-based superconductor BaFe2-xNixAs2. BaFe1.84Ni0.16As2 Ba1Fe1.84Ni0.16As2 Ba 1 Fe 1.84 Ni 0.16 As 2 3 2016 2 I4/mmm 1 nematic transition above x > 0.12 K 158929fig1 "Ba, Fe, As" 5 Extra Fe-As is used as a flux The mixture in an aulminium oxide cruicible is sealed in an evacuated quartz tube. Nematic quantum critical fluctuations in BaFe2-xNixAs2 2016 10 "BaFe2-xNixAs2, nematic phase, quantum critical fluctuations" "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Science, Beijing 100190, China" Phys. Rev.Lett. 117 (2016)157002
158936 PRL117157002 The nematic fluctuations are systematically studied by the uniaxis pressure-dependent resistivity in the electron-doped iron-based superconductor BaFe2-xNixAs2. BaFe1.82Ni0.18As2 Ba1Fe1.82Ni0.18As2 Ba 1 Fe 1.82 Ni 0.18 As 2 3 2016 2 I4/mmm 1 nematic transition above x > 0.13 K 8.7 158929fig1 5 "Ba, Fe, As" 5 Extra Fe-As is used as a flux The mixture in an aulminium oxide cruicible is sealed in an evacuated quartz tube. Nematic quantum critical fluctuations in BaFe2-xNixAs2 2016 10 "BaFe2-xNixAs2, nematic phase, quantum critical fluctuations" "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Science, Beijing 100190, China" Phys. Rev.Lett. 117 (2016)157002
158937 PRL117157002 The nematic fluctuations are systematically studied by the uniaxis pressure-dependent resistivity in the electron-doped iron-based superconductor BaFe2-xNixAs2. BaFe1.75Ni0.25As2 Ba1Fe1.75Ni0.25As2 Ba 1 Fe 1.75 Ni 0.25 As 2 3 2016 2 I4/mmm nm 1.297 1 nematic transition above x > 0.14 K 158929fig1 "Ba, Fe, As" 5 Extra Fe-As is used as a flux The mixture in an aulminium oxide cruicible is sealed in an evacuated quartz tube. Nematic quantum critical fluctuations in BaFe2-xNixAs2 2016 10 "BaFe2-xNixAs2, nematic phase, quantum critical fluctuations" "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Science, Beijing 100190, China" Phys. Rev.Lett. 117 (2016)157002
158938 PRL117157002 The nematic fluctuations are systematically studied by the uniaxis pressure-dependent resistivity in the electron-doped iron-based superconductor BaFe2-xNixAs2. BaFe1.70Ni0.30As2 Ba1Fe1.7Ni0.3As2 Ba 1 Fe 1.7 Ni 0.3 As 2 3 2016 nematic transition above x > 0.15 K 158929fig1 "Ba, Fe, As" 5 Extra Fe-As is used as a flux The mixture in an aulminium oxide cruicible is sealed in an evacuated quartz tube. Nematic quantum critical fluctuations in BaFe2-xNixAs2 2016 10 "BaFe2-xNixAs2, nematic phase, quantum critical fluctuations" "Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Science, Beijing 100190, China" Phys. Rev.Lett. 117 (2016)157002
158939 JPS30011055 "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency." Nb5Ir3O Nb5Ir3O1 Nb 5 Ir 3 O 1 3 2020 2 Ti5Ga5-type P4/mmm nm 0.7808 0.5091 1 158939fig1 K 10.84 158939fig2 2 158939Tab1 microohm 271 158939fig3 "Nb, Ir, Pt" 1 "Nb5Ir3-xO was initially prepared by arc-melting, and Pt wires are added to the Nb5Ir3-xO pellet to form stoichiometric composition." Superconductivity in Nb5Ir3-xPtxO 2020 3 "Nb5Ir3-xPtxO, superconductivity, Mathias rule" "Department og Electrical Engineering, Faculty of Engineering, Fukuoka Institute of Technology, 3-30-1 Wajiro-higashi, Higashi-ku, Fukuoka 811-0295, Japan" Jap. J. Phys. Soc. 30(2020)011055 Nb5Pt3O "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency."
158940 JPS30011055 "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency." Nb5Ir2.4Pt0.6O Nb5Ir2.4Pt0.6O1 Nb 5 Ir 2.4 Pt 0.6 O 1 3 2020 17 2 Ti5Ga5-type P4/mmm nm 0.7879 0.5081 1 158939fig1 K 10.27 158939fig2 2 158939Tab1 37 microohm 186 158939fig3 "Nb, Ir, Pt" 1 "Nb5Ir3-xO was initially prepared by arc-melting, and Pt wires are added to the Nb5Ir3-xO pellet to form stoichiometric composition." Superconductivity in Nb5Ir3-xPtxO 2020 3 "Nb5Ir3-xPtxO, superconductivity, Mathias rule" "Department og Electrical Engineering, Faculty of Engineering, Fukuoka Institute of Technology, 3-30-1 Wajiro-higashi, Higashi-ku, Fukuoka 811-0295, Japan" Jap. J. Phys. Soc. 30(2020)011055 Nb5Pt3O "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency."
158941 JPS30011055 "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency." Nb5Ir2.2Pt0.8O Nb5Ir2.2Pt0.8O1 Nb 5 Ir 2.2 Pt 0.8 O 1 3 2020 2 Ti5Ga5-type P4/mmm nm 0.78906 0.50785 1 158939fig1 K 10.44 158939fig2 2 158939Tab1 "Nb, Ir, Pt" 1 "Nb5Ir3-xO was initially prepared by arc-melting, and Pt wires are added to the Nb5Ir3-xO pellet to form stoichiometric composition." Superconductivity in Nb5Ir3-xPtxO 2020 3 "Nb5Ir3-xPtxO, superconductivity, Mathias rule" "Department og Electrical Engineering, Faculty of Engineering, Fukuoka Institute of Technology, 3-30-1 Wajiro-higashi, Higashi-ku, Fukuoka 811-0295, Japan" Jap. J. Phys. Soc. 30(2020)011055 Nb5Pt3O "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency."
158942 JPS30011055 "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency." Nb5Ir2.0Pt1.0O Nb5Ir2Pt1O1 Nb 5 Ir 2 Pt 1 O 1 3 2020 2 Ti5Ga5-type P4/mmm nm 0.7891 0.50734 1 158939fig1 K 9.01 158939fig2 2 158939Tab1 "Nb, Ir, Pt" 1 "Nb5Ir3-xO was initially prepared by arc-melting, and Pt wires are added to the Nb5Ir3-xO pellet to form stoichiometric composition." Superconductivity in Nb5Ir3-xPtxO 2020 3 "Nb5Ir3-xPtxO, superconductivity, Mathias rule" "Department og Electrical Engineering, Faculty of Engineering, Fukuoka Institute of Technology, 3-30-1 Wajiro-higashi, Higashi-ku, Fukuoka 811-0295, Japan" Jap. J. Phys. Soc. 30(2020)011055 Nb5Pt3O "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency."
158943 JPS30011055 "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency." Nb5Ir1.4Pt1.6O Nb5Ir1.4Pt1.6O1 Nb 5 Ir 1.4 Pt 1.6 O 1 3 2020 2 Ti5Ga5-type P4/mmm nm 0.7915 0.5065 1 158939fig1 K 8.56 158939fig2 2 158939Tab1 microohm 162 158939fig3 "Nb, Ir, Pt" 1 "Nb5Ir3-xO was initially prepared by arc-melting, and Pt wires are added to the Nb5Ir3-xO pellet to form stoichiometric composition." Superconductivity in Nb5Ir3-xPtxO 2020 3 "Nb5Ir3-xPtxO, superconductivity, Mathias rule" "Department og Electrical Engineering, Faculty of Engineering, Fukuoka Institute of Technology, 3-30-1 Wajiro-higashi, Higashi-ku, Fukuoka 811-0295, Japan" Jap. J. Phys. Soc. 30(2020)011055 Nb5Pt3O "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency."
158944 JPS30011055 "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency." Nb5Ir1.2Pt1.8O Nb5Ir1.2Pt1.8O1 Nb 5 Ir 1.2 Pt 1.8 O 1 3 2020 2 Ti5Ga5-type P4/mmm nm 0.7922 0.50618 1 158939fig1 K 7.98 158944fig1 2 158939Tab1 "Nb, Ir, Pt" 1 "Nb5Ir3-xO was initially prepared by arc-melting, and Pt wires are added to the Nb5Ir3-xO pellet to form stoichiometric composition." Superconductivity in Nb5Ir3-xPtxO 2020 3 "Nb5Ir3-xPtxO, superconductivity, Mathias rule" "Department og Electrical Engineering, Faculty of Engineering, Fukuoka Institute of Technology, 3-30-1 Wajiro-higashi, Higashi-ku, Fukuoka 811-0295, Japan" Jap. J. Phys. Soc. 30(2020)011055 Nb5Pt3O "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency."
158945 JPS30011055 "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency." Nb5Ir1.0Pt2.0O Nb5Ir1Pt2O1 Nb 5 Ir 1 Pt 2 O 1 3 2020 2 Ti5Ga5-type P4/mmm nm 0.7926 0.50935 1 158939fig1 K 7.41 158944fig1 2 158939Tab1 "Nb, Ir, Pt" 1 "Nb5Ir3-xO was initially prepared by arc-melting, and Pt wires are added to the Nb5Ir3-xO pellet to form stoichiometric composition." Superconductivity in Nb5Ir3-xPtxO 2020 3 "Nb5Ir3-xPtxO, superconductivity, Mathias rule" "Department og Electrical Engineering, Faculty of Engineering, Fukuoka Institute of Technology, 3-30-1 Wajiro-higashi, Higashi-ku, Fukuoka 811-0295, Japan" Jap. J. Phys. Soc. 30(2020)011055 Nb5Pt3O "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency."
158946 JPS30011055 "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency." Nb5Ir0.8Pt2.2O Nb5Ir0.8Pt2.2O1 Nb 5 Ir 0.8 Pt 2.2 O 1 3 2020 2 Ti5Ga5-type P4/mmm nm 0.7933 0.5053 1 158939fig1 K 6.69 158944fig1 2 158939Tab1 micro-ohm 337 158939fig3 "Nb, Ir, Pt" 1 "Nb5Ir3-xO was initially prepared by arc-melting, and Pt wires are added to the Nb5Ir3-xO pellet to form stoichiometric composition." Superconductivity in Nb5Ir3-xPtxO 2020 3 "Nb5Ir3-xPtxO, superconductivity, Mathias rule" "Department og Electrical Engineering, Faculty of Engineering, Fukuoka Institute of Technology, 3-30-1 Wajiro-higashi, Higashi-ku, Fukuoka 811-0295, Japan" Jap. J. Phys. Soc. 30(2020)011055 Nb5Pt3O "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency."
158947 JPS30011055 "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency." Nb5Ir0.4Pt2.6O Nb5Ir0.4Pt2.6O1 Nb 5 Ir 0.4 Pt 2.6 O 1 3 2020 2 Ti5Ga5-type P4/mmm nm 0.7945 0.50441 1 158939fig1 K 6.42 158944fig1 2 158939Tab1 micro-ohm 150 158939fig3 "Nb, Ir, Pt" 1 "Nb5Ir3-xO was initially prepared by arc-melting, and Pt wires are added to the Nb5Ir3-xO pellet to form stoichiometric composition." Superconductivity in Nb5Ir3-xPtxO 2020 3 "Nb5Ir3-xPtxO, superconductivity, Mathias rule" "Department og Electrical Engineering, Faculty of Engineering, Fukuoka Institute of Technology, 3-30-1 Wajiro-higashi, Higashi-ku, Fukuoka 811-0295, Japan" Jap. J. Phys. Soc. 30(2020)011055 Nb5Pt3O "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency."
158948 JPS30011055 "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency." Nb5Ir0.2Pt2.8O Nb5Ir0.2Pt2.8O1 Nb 5 Ir 0.2 Pt 2.8 O 1 3 2020 2 Ti5Ga5-type P4/mmm nm 0.7953 0.503884 1 158939fig1 K 4.89 158944fig1 2 158939Tab1 "Nb, Ir, Pt" 1 "Nb5Ir3-xO was initially prepared by arc-melting, and Pt wires are added to the Nb5Ir3-xO pellet to form stoichiometric composition." Superconductivity in Nb5Ir3-xPtxO 2020 3 "Nb5Ir3-xPtxO, superconductivity, Mathias rule" "Department og Electrical Engineering, Faculty of Engineering, Fukuoka Institute of Technology, 3-30-1 Wajiro-higashi, Higashi-ku, Fukuoka 811-0295, Japan" Jap. J. Phys. Soc. 30(2020)011055 Nb5Pt3O "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency."
158949 JPS30011055 "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency." Nb5Pt3O Nb5Ir0Pt3O1 Nb 5 Ir 0 Pt 3 O 1 3 2020 2 Ti5Ga5-type P4/mmm nm 0.7958 0.5034 1 158939fig1 K 5.03 158944fig1 2 158939Tab1 micro-ohm 503 158939fig3 "Nb, Ir, Pt" 1 "Nb5Ir3-xO was initially prepared by arc-melting, and Pt wires are added to the Nb5Ir3-xO pellet to form stoichiometric composition." Superconductivity in Nb5Ir3-xPtxO 2020 3 "Nb5Ir3-xPtxO, superconductivity, Mathias rule" "Department og Electrical Engineering, Faculty of Engineering, Fukuoka Institute of Technology, 3-30-1 Wajiro-higashi, Higashi-ku, Fukuoka 811-0295, Japan" Jap. J. Phys. Soc. 30(2020)011055 Nb5Pt3O "The lattice parameters show a linear x-dependence in Nb5Ir3-xPtxO, but Tc shows nonlinear x-dependency."
158950 PRB101134503 Bulk superconductivity was induced at point contacts on t-TaAs in this topological semimetal. TaAs Ta1As1 Ta 1 As 1 4 2020 7 NbAS-type I41md K 3 158950fig1 5 T 4.2 2.5 1.8 158950fig2 Two superconducting phase induced at point contacts on the Weyl semimetal TaAs 2020 4 "TaAs, Weyl semimetal, point contact" "Key Laboratory of Structure and Functional Regulation of Hybrid Materials of Ministry of Education, Institute of Physical Science and Information Technology, Anhui University, Hefei 230601, China" Phys. Rev. B 101(2020)134503 TaAs Bulk superconductivity was induced at point contacts on h-TaAs of the topological semimetal.
158951 PRB101134503 Bulk superconductivity was induced at point contacts on h-TaAs in this topological semimetal. TaAs Ta1As1 Ta 1 As 1 4 2020 7 WC-type P6m2 I41md K 7.3 158950fig2 5 T 1.1 1 1.8 158950fig2 Two superconducting phase induced at point contacts on the Weyl semimetal TaAs 2020 4 "TaAs, Weyl semimetal, point contact" "Key Laboratory of Structure and Functional Regulation of Hybrid Materials of Ministry of Education, Institute of Physical Science and Information Technology, Anhui University, Hefei 230601, China" Phys. Rev. B 101(2020)134503 TaAs Bulk superconductivity was induced at point contacts on h-TaAs of the topological semimetal.
158952 NAM01401135 Large-area high-quality 2D ultrathin Mo2C superconducting crystals Mo2C Mo2C1 Mo 2 C 1 3 2015 1 orthrhombic A 4.77 5.98 5.21 1 alpha-Mo2C K 2.76 3.3 3.03 158952fig1 3 T 8.35 0.327 1.8 158952fig2 resistivity 22 ohm 4.85 10 cm-2 4.80E+16 "Mo, C" 18 With methane as the carbon source on a Cu foil sitting ona Mo foil as the substrate at temperature above 1085C 18 Mo foil Large-area high-quality 2D ultrathin Mo2C superconducting crystals 2015 8 "2D superconductor, Mo2C, ultrathin crystal" "Nat. Mater., 14(2015)1135" Mo2C High-quality 2D ultrathin Mo2C crystals have been successfully grown by CVD with a few nanometer thick and over 100 micrmeter.
158953 PRR001023011 The coexistence of two independent charge sectors in a quantum critical system of nonmagnetic FeSe1-xSx. FeSe Fe1Se1 Fe 1 Se 1 3 2019 2 tetragonal K 158953fig4 "Fe, Se,S" 20 "A mixture of Fe, Se, and S powders with KCL and AlCl3 sealed in an evacuated quartz tube was put in the furnace with temperature gradieant at 140-200C one end and 390-450C the others." Coexixtence of orbital and quantum critical magnetoresistance in FeSe1-xSx 2019 9 "FeSeS, quantum critical point, nematicity, magnetiresistance" "High Field Magnetic Laboratory(HFML-EMFL) and Institute for Molecules and Materials, Radboud University, Toernooiveld 7, 6525 ED Nijmegen, The Neatherlands" "Phys. Rev. Research, 1(2019)023011" FeSe0.80S0.25 The coexistence of two independent charge sectors in a quantum critical system.
158954 PRR001023011 The coexistence of two independent charge sectors in a quantum critical system of nonmagnetic FeSe1-xSx. FeSe0.95S0.05 Fe1Se0.95S0.05 Fe 1 Se 0.95 S 0.05 3 2019 2 tetragonal K 158953fig4 "Fe, Se,S" 20 "A mixture of Fe, Se, and S powders with KCL and AlCl3 sealed in an evacuated quartz tube was put in the furnace with temperature gradieant at 140-200C one end and 390-450C the others." Coexixtence of orbital and quantum critical magnetoresistance in FeSe1-xSx 2019 9 "FeSeS, quantum critical point, nematicity, magnetiresistance" "High Field Magnetic Laboratory(HFML-EMFL) and Institute for Molecules and Materials, Radboud University, Toernooiveld 7, 6525 ED Nijmegen, The Neatherlands" "Phys. Rev. Research, 1(2019)023011" FeSe0.80S0.25 The coexistence of two independent charge sectors in a quantum critical system.
158955 PRR001023011 The coexistence of two independent charge sectors in a quantum critical system of nonmagnetic FeSe1-xSx. FeSe0.9S0.10 Fe1Se0.9S0.1 Fe 1 Se 0.9 S 0.1 3 2019 2 tetragonal K 158953fig4 "Fe, Se,S" 20 "A mixture of Fe, Se, and S powders with KCL and AlCl3 sealed in an evacuated quartz tube was put in the furnace with temperature gradieant at 140-200C one end and 390-450C the others." Coexixtence of orbital and quantum critical magnetoresistance in FeSe1-xSx 2019 9 "FeSeS, quantum critical point, nematicity, magnetiresistance" "High Field Magnetic Laboratory(HFML-EMFL) and Institute for Molecules and Materials, Radboud University, Toernooiveld 7, 6525 ED Nijmegen, The Neatherlands" "Phys. Rev. Research, 1(2019)023011" FeSe0.80S0.25 The coexistence of two independent charge sectors in a quantum critical system.
158956 PRR001023011 The coexistence of two independent charge sectors in a quantum critical system of nonmagnetic FeSe1-xSx. FeSe0.87S0.13 Fe1Se0.87S0.13 Fe 1 Se 0.87 S 0.13 3 2019 2 tetragonal K 158953fig4 "Fe, Se,S" 20 "A mixture of Fe, Se, and S powders with KCL and AlCl3 sealed in an evacuated quartz tube was put in the furnace with temperature gradieant at 140-200C one end and 390-450C the others." Coexixtence of orbital and quantum critical magnetoresistance in FeSe1-xSx 2019 9 "FeSeS, quantum critical point, nematicity, magnetiresistance" "High Field Magnetic Laboratory(HFML-EMFL) and Institute for Molecules and Materials, Radboud University, Toernooiveld 7, 6525 ED Nijmegen, The Neatherlands" "Phys. Rev. Research, 1(2019)023011" FeSe0.80S0.25 The coexistence of two independent charge sectors in a quantum critical system.
158957 PRR001023011 The coexistence of two independent charge sectors in a quantum critical system of nonmagnetic FeSe1-xSx. FeSe0.84S0.16 Fe1Se0.84S0.16 Fe 1 Se 0.84 S 0.16 3 2019 2 tetragonal K 8.2 8.2 158953fig2 3 158953fig3 158953fig4 "Fe, Se,S" 20 "A mixture of Fe, Se, and S powders with KCL and AlCl3 sealed in an evacuated quartz tube was put in the furnace with temperature gradieant at 140-200C one end and 390-450C the others." Coexixtence of orbital and quantum critical magnetoresistance in FeSe1-xSx 2019 9 "FeSeS, quantum critical point, nematicity, magnetiresistance" "High Field Magnetic Laboratory(HFML-EMFL) and Institute for Molecules and Materials, Radboud University, Toernooiveld 7, 6525 ED Nijmegen, The Neatherlands" "Phys. Rev. Research, 1(2019)023011" FeSe0.80S0.25 The coexistence of two independent charge sectors in a quantum critical system.
158958 PRR001023011 The coexistence of two independent charge sectors in a quantum critical system of nonmagnetic FeSe1-xSx. FeSe0.82S0.18 Fe1Se0.82S0.18 Fe 1 Se 0.82 S 0.18 3 2019 2 tetragonal K 7.4 8.1 8.3 8.1 158953fig1 3 158953fig4 "Fe, Se,S" 20 "A mixture of Fe, Se, and S powders with KCL and AlCl3 sealed in an evacuated quartz tube was put in the furnace with temperature gradieant at 140-200C one end and 390-450C the others." Coexixtence of orbital and quantum critical magnetoresistance in FeSe1-xSx 2019 9 "FeSeS, quantum critical point, nematicity, magnetiresistance" "High Field Magnetic Laboratory(HFML-EMFL) and Institute for Molecules and Materials, Radboud University, Toernooiveld 7, 6525 ED Nijmegen, The Neatherlands" "Phys. Rev. Research, 1(2019)023011" FeSe0.80S0.25 The coexistence of two independent charge sectors in a quantum critical system.
158959 PRR001023011 The coexistence of two independent charge sectors in a quantum critical system of nonmagnetic FeSe1-xSx. FeSe0.80S0.20 Fe1Se0.8S0.2 Fe 1 Se 0.8 S 0.2 3 2019 2 tetragonal K 158953fig4 "Fe, Se,S" 20 "A mixture of Fe, Se, and S powders with KCL and AlCl3 sealed in an evacuated quartz tube was put in the furnace with temperature gradieant at 140-200C one end and 390-450C the others." Coexixtence of orbital and quantum critical magnetoresistance in FeSe1-xSx 2019 9 "FeSeS, quantum critical point, nematicity, magnetiresistance" "High Field Magnetic Laboratory(HFML-EMFL) and Institute for Molecules and Materials, Radboud University, Toernooiveld 7, 6525 ED Nijmegen, The Neatherlands" "Phys. Rev. Research, 1(2019)023011" FeSe0.80S0.25 The coexistence of two independent charge sectors in a quantum critical system.
158960 PRR001023011 The coexistence of two independent charge sectors in a quantum critical system of nonmagnetic FeSe1-xSx. FeSe0.75S0.25 Fe1Se0.75S0.25 Fe 1 Se 0.75 S 0.25 3 2019 2 tetragonal K 158953fig4 "Fe, Se,S" 20 "A mixture of Fe, Se, and S powders with KCL and AlCl3 sealed in an evacuated quartz tube was put in the furnace with temperature gradieant at 140-200C one end and 390-450C the others." Coexixtence of orbital and quantum critical magnetoresistance in FeSe1-xSx 2019 9 "FeSeS, quantum critical point, nematicity, magnetiresistance" "High Field Magnetic Laboratory(HFML-EMFL) and Institute for Molecules and Materials, Radboud University, Toernooiveld 7, 6525 ED Nijmegen, The Neatherlands" "Phys. Rev. Research, 1(2019)023011" FeSe0.80S0.25 The coexistence of two independent charge sectors in a quantum critical system.
158961 PRR002013211 Determination of the electromechanical limits of high-performance Nb3Sn Rutherford cables under transverse stress(up to 210MPa) from a single-wire experiments with variuous impregnants. Nb3Sn Nb3Sn1 Nb 3 Sn 1 1 2020 K T resistivity 4.2 24.9 337 158961fig1 "Nb, Sn" 1 PIT(Powder-In-Tube) method. Determination of the electromechanical limits of high-performance Nb3Sn Rutherford cables under transverse stress from a single-wire experiments with variuous impregnants. 2020 2 "Nb3Sn, Rutherford cable, stress, single-wire" "Dep. Of Quantum Matter Physics, University of Geneva, 1211 Geneva, Switzerland" "Phys. Rev. Research, 2(2020)013211" Nb3Sn
158962 PNA113008139 Nematic fluctuations are divergently enhanced at the nematic QCP in FeSe1-xSx superconductors without accompanying other orders. FeSe Fe1Se1 Fe 1 Se 1 3 2016 K 30.9 2 tetragonal K 8.7 158962fig1 3 158962fig7 158962fig2 "Fe, Se" 20 "A mixture of Fe, Se, and S powders with KCL and AlCl3 sealed in an evacuated quartz tube was put in the furnace with temperature gradieant at 140-200C one end and 390-450C the others." Nematic quantum critical point without magnetism in FeSe1-xSx superconductors 2016 5 "FeSeS, quantum critical point, nematicity" "Dep. Of Advanced Materials Science, University of Tokyo, Kashiwa, Chiba 277-8561, Japan" Proc. Natl. Acad. Sci. USA 113(2016)8139 FeSe1-xSx Nematic fluctuations are divergently enhanced at the nematic QCP in FeSe1-xSx superconductors without accompanying other orders.
158963 PNA113008139 Nematic fluctuations are divergently enhanced at the nematic QCP in FeSe1-xSx superconductors without accompanying other orders. FeSe0.96S0.04 Fe1Se0.96S0.04 Fe 1 Se 0.96 S 0.04 3 2016 2 tetragonal K 9.6 158962fig1 3 158962fig7 "Fe, Se" 20 "A mixture of Fe, Se, and S powders with KCL and AlCl3 sealed in an evacuated quartz tube was put in the furnace with temperature gradieant at 140-200C one end and 390-450C the others." Nematic quantum critical point without magnetism in FeSe1-xSx superconductors 2016 5 "FeSeS, quantum critical point, nematicity" "Dep. Of Advanced Materials Science, University of Tokyo, Kashiwa, Chiba 277-8561, Japan" Proc. Natl. Acad. Sci. USA 113(2016)8139 FeSe1-xSx Nematic fluctuations are divergently enhanced at the nematic QCP in FeSe1-xSx superconductors without accompanying other orders.
158964 PNA113008139 Nematic fluctuations are divergently enhanced at the nematic QCP in FeSe1-xSx superconductors without accompanying other orders. FeSe0.92S0.08 Fe1Se0.92S0.08 Fe 1 Se 0.92 S 0.08 3 2016 K 20.6 2 tetragonal K 10.3 158962fig1 3 158962fig7 158962fig3 "Fe, Se" 20 "A mixture of Fe, Se, and S powders with KCL and AlCl3 sealed in an evacuated quartz tube was put in the furnace with temperature gradieant at 140-200C one end and 390-450C the others." Nematic quantum critical point without magnetism in FeSe1-xSx superconductors 2016 5 "FeSeS, quantum critical point, nematicity" "Dep. Of Advanced Materials Science, University of Tokyo, Kashiwa, Chiba 277-8561, Japan" Proc. Natl. Acad. Sci. USA 113(2016)8139 FeSe1-xSx Nematic fluctuations are divergently enhanced at the nematic QCP in FeSe1-xSx superconductors without accompanying other orders.
158965 PNA113008139 Nematic fluctuations are divergently enhanced at the nematic QCP in FeSe1-xSx superconductors without accompanying other orders. FeSe0.88S0.12 Fe1Se0.88S0.12 Fe 1 Se 0.88 S 0.12 3 2016 K 14.7 2 tetragonal K 9.4 158962fig1 3 158962fig7 "Fe, Se" 20 "A mixture of Fe, Se, and S powders with KCL and AlCl3 sealed in an evacuated quartz tube was put in the furnace with temperature gradieant at 140-200C one end and 390-450C the others." Nematic quantum critical point without magnetism in FeSe1-xSx superconductors 2016 5 "FeSeS, quantum critical point, nematicity" "Dep. Of Advanced Materials Science, University of Tokyo, Kashiwa, Chiba 277-8561, Japan" Proc. Natl. Acad. Sci. USA 113(2016)8139 FeSe1-xSx Nematic fluctuations are divergently enhanced at the nematic QCP in FeSe1-xSx superconductors without accompanying other orders.
158966 PNA113008139 Nematic fluctuations are divergently enhanced at the nematic QCP in FeSe1-xSx superconductors without accompanying other orders. FeSe0.85S0.15 Fe1Se0.85S0.15 Fe 1 Se 0.85 S 0.15 3 2016 2 tetragonal K 7.5 158962fig1 3 158962fig7 158962fig4 "Fe, Se" 20 "A mixture of Fe, Se, and S powders with KCL and AlCl3 sealed in an evacuated quartz tube was put in the furnace with temperature gradieant at 140-200C one end and 390-450C the others." Nematic quantum critical point without magnetism in FeSe1-xSx superconductors 2016 5 "FeSeS, quantum critical point, nematicity" "Dep. Of Advanced Materials Science, University of Tokyo, Kashiwa, Chiba 277-8561, Japan" Proc. Natl. Acad. Sci. USA 113(2016)8139 FeSe1-xSx Nematic fluctuations are divergently enhanced at the nematic QCP in FeSe1-xSx superconductors without accompanying other orders.
158967 PNA113008139 Nematic fluctuations are divergently enhanced at the nematic QCP in FeSe1-xSx superconductors without accompanying other orders. FeSe0.83S0.17 Fe1Se0.83S0.17 Fe 1 Se 0.83 S 0.17 3 2016 K 0 2 tetragonal K 7.2 158962fig1 3 158962fig7 158962fig5 "Fe, Se" 20 "A mixture of Fe, Se, and S powders with KCL and AlCl3 sealed in an evacuated quartz tube was put in the furnace with temperature gradieant at 140-200C one end and 390-450C the others." Nematic quantum critical point without magnetism in FeSe1-xSx superconductors 2016 5 "FeSeS, quantum critical point, nematicity" "Dep. Of Advanced Materials Science, University of Tokyo, Kashiwa, Chiba 277-8561, Japan" Proc. Natl. Acad. Sci. USA 113(2016)8139 FeSe1-xSx Nematic fluctuations are divergently enhanced at the nematic QCP in FeSe1-xSx superconductors without accompanying other orders.
158968 PNA113008139 Nematic fluctuations are divergently enhanced at the nematic QCP in FeSe1-xSx superconductors without accompanying other orders. FeSe0.79S0.21 Fe1Se0.79S0.21 Fe 1 Se 0.79 S 0.21 3 2016 K -31.2 2 tetragonal K 5.6 158962fig1 3 158962fig7 158962fig6 "Fe, Se" 20 "A mixture of Fe, Se, and S powders with KCL and AlCl3 sealed in an evacuated quartz tube was put in the furnace with temperature gradieant at 140-200C one end and 390-450C the others." Nematic quantum critical point without magnetism in FeSe1-xSx superconductors 2016 5 "FeSeS, quantum critical point, nematicity" "Dep. Of Advanced Materials Science, University of Tokyo, Kashiwa, Chiba 277-8561, Japan" Proc. Natl. Acad. Sci. USA 113(2016)8139 FeSe1-xSx Nematic fluctuations are divergently enhanced at the nematic QCP in FeSe1-xSx superconductors without accompanying other orders.
158969 PRR002013311 "Measuring upper critical fields on LaAlO3/SrTiO3 with applying a gate voltage to the interface, Elliot-Yafet type spin relaxation is suggested dominantly to the spin-orbit scattering lifetime." LaAlO3/SrTiO3 La1Al1O3 La 1 Al 1 O 3 5 2020 2 tetragonal K 0.36 158969fig1 3 T resistivity 1.32 1.32 0.74 0.09 0.72 nm GL theory 90 cm2/Vs 10 2.5 158969fig3 cm-2 1.90E+13 "La, Al, O3" 21 "During the LAO layer-by-layer film growth, a highly concentrated ozone was supplied at a pressure of 1x10-6 torr at 800C on Atomically-flat TiO2-terminated (100)SrTiO3 substrates." SrTiO3 Films were prepared by an oxige molecular beam epitaxy on atomically flat TiO2-terminated (100) SrTiO3. Determination of spi-orbit scattering lifetime at the interface of LaAlO3/SrTiO3 from the superconducting upper critical fields 2020 3 "LaAlO3, spin-orbit coupling, gates device" "Institute of Physics, Academia Sinica, Nankang, Teipei 11529, Taiwan" "Phys. Rev. Research, 2(2020)013311" LaAlO3/SrTiO3 "Measuring upper critical fields on LaAlO3/SrTiO3 with applying a gate voltageto the interface, Elliot-Yafet type spin relaxation is suggested dominantly to the spin-orbit scattering lifetime."
158970 PRR002013311 "Measuring upper critical fields on LaAlO3/SrTiO3 with applying a gate voltage to the interface, Elliot-Yafet type spin relaxation is suggested dominantly to the spin-orbit scattering lifetime." LaAlO3/SrTiO3 La1Al1O3 La 1 Al 1 O 3 5 2020 2 tetragonal Ts=90K(PM Tetragonal to PM Orthorhombic transition) K 0.296 158970fig1 3 T resistivity 0.4 2.5 158970fig2 nm GL theory 90 cm2/Vs 200 0.4 158970fig3 cm-2 2.30E+13 "La, Al, O3" 21 "During the LAO layer-by-layer film growth, a highly concentrated ozone was supplied at a pressure of 1x10-6 torr at 800C on Atomically-flat TiO2-terminated (100)SrTiO3 substrates." SrTiO3 Films were prepared by an oxige molecular beam epitaxy on atomically flat TiO2-terminated (100) SrTiO3. Determination of spi-orbit scattering lifetime at the interface of LaAlO3/SrTiO3 from the superconducting upper critical fields 2020 3 "LaAlO3, spin-orbit coupling, gates device" "Institute of Physics, Academia Sinica, Nankang, Teipei 11529, Taiwan" "Phys. Rev. Research, 2(2020)013311" LaAlO3/SrTiO3 "Measuring upper critical fields on LaAlO3/SrTiO3 with applying a gate voltageto the interface, Elliot-Yafet type spin relaxation is suggested dominantly to the spin-orbit scattering lifetime."
158971 SCI373001122 Electronic nematicity shows peculiar sinusoidal waves in real-space with wavelength more than 1000 times as long as unit cell. FeSe Fe1Se1 Fe 1 Se 1 9 2021 2 tetragonal "Ts,n=93K(PM Tetragonal to AFM Orthorhombic transition)" K 9 3 158971fig2 158971fig1 20 Fe and Se powders were sealed in an evacuated SiO2 ampoule together with KCl and AlCl3 powders. The ampoule was heated to 390C on one end while the other end was kept at 240C for 28.5 days. Discovery of mesoscopic nematicity wave in iron-based superconductivity 2021 9 "iron-base superconductors, mesoscopic, nematicity" "RIKEN Center for Emergent Matter Science(CEMS), Wako 351-0199, Japan" Science373(2021)1123 BaFe2(As0.87P0.13)2 Electronic nematicity shows peculiar sinusoidal waves in real-space with wavelength more than 1000 times as long as the unit cell.
158972 SCI373001122 Electronic nematicity shows peculiar sinusoidal waves in real-space with wavelength more than 1000 times as long as unit cell. BaFe2(As0.87P0.13)2 Ba1Fe2As1.74P0.26 Ba 1 Fe 2 As 1.74 P 0.26 9 2021 2 tetragonal K 3 158972fig2 158972fig1 5 "Ba2As3, Ba2P3, FeAs, and FeP were adopted as a atarting materials." "The quartz tube with the compositional materials was heated at 1150C for 10 h, and slowly colled to 900Cat a rate of 1C/h." Discovery of mesoscopic nematicity wave in iron-based superconductivity 2021 9 "iron-base superconductors, mesoscopic, nematicity" "RIKEN Center for Emergent Matter Science(CEMS), Wako 351-0199, Japan" Science373(2021)1123 BaFe2(As0.87P0.13)2 Electronic nematicity shows peculiar sinusoidal waves in real-space with wavelength more than 1000 times as long as the unit cell.
158973 PRR002012064 "Unifying the origins of the upper critical field with the orbital and the paramagnetic effect, comprehensive understanding of Hc2 has been proposed on 2D NbSe2." NbSe2 Nb1Se2 Nb 1 Se 2 3 2020 K 6.2 158973fig1 3 T 30 2 158973fig2 nm 7.85 158973fig3 5 "Ba2As3, Ba2P3, FeAs, and FeP were adopted as a atarting materials." "The quartz tube with the compositional materials was heated at 1150C for 10 h, and slowly colled to 900Cat a rate of 1C/h." Angle dependence of Hc2 with crossover between the orbital and paramagnetic limits 2020 3 "iron-base superconductors, high-magnetic field, nematicity" "Department of Applied Physics, The University of Tokyo, Tokyo 113-8657, Japan" Physical Review Research2(2020)012065 NbSe2 "Unifying the origins of the upper critical field with the orbital and the paramagnetic effect, comprehensive understanding of Hc2 has been proposed on 2D NbSe2"
158974 PRR002013309 "Anomalous transport inside the nematic phase has been observed, influenced by both changes in the electronic structure and the scattering with the lattice and spin fluctuations." FeSe Fe1Se1S0 Fe 1 Se 1 S 0 3 2020 K 9.01 158974fig1 3 158974fig3 m3C-1(20K) -0.000000025 1 158974fig2 "Nb, Se" 21 molecular-beam epitaxy with observing RHEED for getting a layer-by-layer growth of NbSe2. Al2O3 "Nb, Se" Atomically flat surface of Al2O3 was obtained by annealing the substrate. Anomalous high-magnetic field electronic state of the nematic superconductors FeSe1-xSx 2020 3 "iron-base superconductors, high-magnetic field, nematicity" "Clarendon Laboratory, Department of Physics, University of Oxford, Parks aroad, Oxford OX1 3PU, United Kingdom" Physical Review Research2(2020)013309 FeSe0.75S0.25 "Anomalous transport inside the nematic phase has been observed, influenced by both changes in the electronic structure and the scattering with the lattice and spin fluctuations."
158975 PRR002013309 "Anomalous transport inside the nematic phase has been observed, influenced by both changes in the electronic structure and the scattering with the lattice and spin fluctuations." FeSe0.93S0.07 Fe1Se0.93S0.07 Fe 1 Se 0.93 S 0.07 3 2020 K 10.42 158975fig1 3 m3C-1(20K) -0.000000002 1 158974fig2 "Fe, Se" Anomalous high-magnetic field electronic state of the nematic superconductors FeSe1-xSx 2020 3 "iron-base superconductors, high-magnetic field, nematicity" "Clarendon Laboratory, Department of Physics, University of Oxford, Parks aroad, Oxford OX1 3PU, United Kingdom" Physical Review Research2(2020)013309 FeSe0.75S0.25 "Anomalous transport inside the nematic phase has been observed, influenced by both changes in the electronic structure and the scattering with the lattice and spin fluctuations."
158976 PRR002013309 "Anomalous transport inside the nematic phase has been observed, influenced by both changes in the electronic structure and the scattering with the lattice and spin fluctuations." FeSe0.89S0.11 Fe1Se0.89S0.11 Fe 1 Se 0.89 S 0.11 3 2020 K 10.64 158976fig1 3 m3C-1(20K) 0.000000007 1 158974fig2 "Fe, Se, S" Anomalous high-magnetic field electronic state of the nematic superconductors FeSe1-xSx 2020 3 "iron-base superconductors, high-magnetic field, nematicity" "Clarendon Laboratory, Department of Physics, University of Oxford, Parks aroad, Oxford OX1 3PU, United Kingdom" Physical Review Research2(2020)013309 FeSe0.75S0.25 "Anomalous transport inside the nematic phase has been observed, influenced by both changes in the electronic structure and the scattering with the lattice and spin fluctuations."
158977 PRR002013309 "Anomalous transport inside the nematic phase has been observed, influenced by both changes in the electronic structure and the scattering with the lattice and spin fluctuations." FeSe0.83S0.17 Fe1Se0.83S0.17 Fe 1 Se 0.83 S 0.17 3 2020 K 10.33 158977fig1 3 m3C-1(20K) 0.000000011 1 158974fig2 "Fe, Se, S" Anomalous high-magnetic field electronic state of the nematic superconductors FeSe1-xSx 2020 3 "iron-base superconductors, high-magnetic field, nematicity" "Clarendon Laboratory, Department of Physics, University of Oxford, Parks aroad, Oxford OX1 3PU, United Kingdom" Physical Review Research2(2020)013309 FeSe0.75S0.25 "Anomalous transport inside the nematic phase has been observed, influenced by both changes in the electronic structure and the scattering with the lattice and spin fluctuations."
158978 PRR002013309 "Anomalous transport inside the nematic phase has been observed, influenced by both changes in the electronic structure and the scattering with the lattice and spin fluctuations." FeSe0.75S0.25 Fe1Se0.75S0.25 Fe 1 Se 0.75 S 0.25 3 2020 K 6.09 158978fig1 3 m3C-1(20K) 0 1 158974fig2 "Fe, Se, S" Anomalous high-magnetic field electronic state of the nematic superconductors FeSe1-xSx 2020 3 "iron-base superconductors, high-magnetic field, nematicity" "Clarendon Laboratory, Department of Physics, University of Oxford, Parks aroad, Oxford OX1 3PU, United Kingdom" Physical Review Research2(2020)013309 FeSe0.75S0.25 "Anomalous transport inside the nematic phase has been observed, influenced by both changes in the electronic structure and the scattering with the lattice and spin fluctuations."
158979 RRR002013329 "A novel vortex distribution in betha-Bi2Pd has been observed with SOT and MFM, influenced by the defects." betha-Bi2Pd Bi2Pd1 Bi 2 Pd 1 3 2020 2 tetragonal I4/mmm nm 0.336 0.336 1.297 1 K 0.03 5 gauss 225 gauss 6000 158979fig1 nm 23.5 nm 132 158979fig2 "Bi, Pd" 9 "High-purity Bi and Pd in quartz ampoule with 140mbar of He was heated at 900C, cooled down to 490C, and to 395C, and was quenched by immersion in cold water." "To avoid the formation of alpha-Bi2Pd, the sibgle crystals were quenched from 395C(15C higher than the temperature of alpha-Bi2Pd) to room temperature/" Observation of a gel of quantum vortices in a superconductor at very low magnetic fields 2020 3 "Bi2Pd, vortex" "Laboratorio de Bajas Temperaturas y Altos Campos Magneticos, Departamento de Fisico de la Materia Condensada, Instituto Nicolas Cabrera and Condensed Matter Physics Center (IFIMAC), Universidad Autonoma de Madrid, E-28049 Madrid, Spain" Physical Review Research2(2020)013310 Bi2Pd "A novel vortex distribution in betha-Bi2Pd has been observed with SOT and MFM, influenced by the defects.."
158980 PRB092054507 "betha-Bi2Pd is a single-gap multiband superconductor, measured by STM." betha-Bi2Pd Bi2Pd1 Bi 2 Pd 1 3 2015 2 tetragonal I4/mmm nm 0.336 0.336 1.297 1 K 0.03 5.07 158980fig3 nm 23 meV 0.75 1 158980fig1 mJ/K2mol 13 microohmcm 18 158980fig2 "Bi, Pd" 9 "High-purity Bi and Pd in quartz ampoule with 140mbar of He was heated at 900C, cooled down to 490C, and to 395C, and was quenched by immersion in cold water." "To avoid the formation of alpha-Bi2Pd, the sibgle crystals were quenched from 395C(15C higher than the temperature of alpha-Bi2Pd) to room temperature/" Magnetic field dependence of the density of states in the multiband superconductor betha-Bi2Pd 2015 8 "Bi2Pd, vortex, STM, multiband, single gap" "Laboratorio de Bajas Temperaturas y Altos Campos Magneticos, Departamento de Fisico de la Materia Condensada, Instituto Nicolas Cabrera and Condensed Matter Physics Center (IFIMAC), Universidad Autonoma de Madrid, E-28049 Madrid, Spain" "Physical Review B, 92(2015)054507" Bi2Pd "betha-Bi2Pd is a single-gap multiband superconductor, measured by STM."
158981 PRB102165125 Superconductivity in La2Ni2O shows a dirty type-II superconductor with likely s-wave gap symmetry. La2Ni2In La2Ni2In1 La 2 Ni 2 In 1 3 2020 2 tetragonal P4/mbm nm 0.76448 0.389149 K 0.89 158981fig1 1 Oe 11.2 Oe 1918 158981fig4 nm 34.4 nm 250 158981fig2 158981fig3 mJ/K2mol 13.01 226 "La, Ni, O" 5 Single crystals of La2Ni2In were sythsized using a LaNi self-flux. "LaNi, sealed under ~250mBar argon atomosphere in a quartz tube. The precursor of powdered LaNi with In in a ratio of 6:1set on Al2O3 crucible were heated in open furnace to 770C and down to 725C." Superconductivity in La2Ni2In 2020 10 "La2Ni2In, specific heat, superconductivity" "Quntum Matter Institute, University of British Columbia, Vancouver, BC, Canada V6T IZ1" "Physical Review B, 102(2020)165125" La2Ni2In Superconductivity in La2Ni2O shows a dirty type-II superconductor with likely s-wave gap symmetry.
158982 PRB087180505 "Superconductivity does not reduce the orthorhombicity below Tc, instead superconductivity couples strongly to the in-plane area." FeSe Fe1Se1 Fe 1 Se 1 3 2013 2 tetragonal I4/mmm 158982fig3 nm 0.37707 0.5521 K 7.75 7.75 158982fig1 1 158982fig2 158982fig4 "Fe, Se" 20 vapor-grown single crystal with temperature difference 390C at one end and 240C at the other end for 28.5 days.. Stoichiometric Fe and Se powders are mixed and sealed in an evacuated SiO2 ampoule together with a eutectic mixture of KCl and AlCl3. Lack of coupling between superconductivity and orthorhombic distortion in stoichiometric single-crystalline FeSe 2013 5 "FeSe, superconductivity, distortion" "Institute fuer Physik, Karlsruhe Institute of Technology, 76021 Karlsruhe, Germany" "Physical Review B, 87(2013)180505" FeSe "Superconductivity does not reduce the orthorhombicity below Tc, instead superconductivity couples strongly to the in-plane area."
158983 PRB102184502 "By ARPES measurements on LiFeAs, a spontaneous breaking of rotational symmetry in the gap amplitude on all Fermi surfaces, as well as unidirectional distortion of the Fermi pockets." LiFeAS Li1Fe1As1 Li 1 Fe 1 As 1 2020 2 tetragonal C4/mmm K 18 18 meV 3.57 9 158983fig1 "Li, Fe, As" 5 All preparation steps were made in an argon box. Li/Fe/As = 3:2:3 molar ratio for the raw materials. Nematic superconductivity in LiFeAs 2020 11 "LiFeAs, nematicity, ARPES, superconductivity" "IFW Dresden, Helmholtzstrasse 20, 01069 Dresden, Germany" "Physical Review B, 102(2020)184502" LiFeAs "By ARPES measurements on LiFeAs, a spontaneous breaking of rotational symmetry in the gap amplitude on all Fermi surfaces, as well as unidirectional distortion of the Fermi pockets."
158984 PNA117007645 "Identification of superconducting phases in Mundrabilla, by MFMMS, VSM, and EDX." Mundrabilla(a typical sample) In74.72Sn15.36Pb8.75Si1.17 In 74.72 Sn 15.36 Pb 8.75 Si 1.17 4 2020 1 Iron IAB K 6 158984fig1 13 158984fig2 "In, Sn, Pb, Si" Extreme environments found in space(Field Museum of Chicago) "After MFMMS measurements, superconducting samples were separated and taken as MUND-1 and -2." Superconductivity found in meteorites 2020 4 "meteorites, MFMMS, astronomy, superconductivity" "Department of Physics, University of California San Diego, La Jolla, CA 92093, USA" Proceedings of the National Academy of Sciences GRA 95205 "Identification of superconducting phases in Mundrabilla, by MFMMS, VSM, and EDX"
158985 PNA117007645 "Identification of superconducting phases in GRA 95205, by MFMMS, VSM, and EDX." GRA 95205(a typical sample) Mg1C1Na1Sn1Ca1Al1Si1Ni1In1Pb1 Mg 1 C 1 Na 1 Sn 1 Ca 1 Al 1 Si 1 Ni 1 In 1 Pb 1 4 2020 1 Ureilite K 5.5 158985fig1 13 "In, Sn, Pb, Si" Extreme environments found in space(Field Museum of Chicago) "After MFMMS measurements, superconducting samples were separated and taken as MUND-1 and -2." Superconductivity found in meteorites 2020 4 "meteorites, MFMMS, astronomy, superconductivity" "Department of Physics, University of California San Diego, La Jolla, CA 92093, USA" Proceedings of the National Academy of Sciences GRA 95205 "Identification of superconducting phases in Mundrabilla, by MFMMS, VSM, and EDX"
158986 NAT586000373 "Using a photochemically transformed carbonaceous sulfur hydride system, a maximum superconducting transition temperature of 287.7ﾂｱ1.2K was achieved at 267ﾂｱ10GPa." C-S-H C1S1 C 1 S 1 4 2020 K 287.7 158986fig1 3 158986fig2 158986fig3 158986fig4 "Mg, C, Na, Sn, Ca, Al, Si, Ni, In" "Extreme environments found in space(Antarctic meteorite collection, curated at Johns Space Center)" "After MFMMS measurements, superconducting samples were separated." Room-temperature superconductivity in a carbonaceous sulfur hydride 2020 10 "room-temperature, high pressure, superconductivity, C-S-H" "Department of Mechanical Engineering, School of Engineering and Applied Sciences, University of Rochester, Rochester, NY, USA" "Nature, 586(2020)373" C-S-H "Using a photochemically transformed carbonaceous sulfur hydride system, a maximum superconducting transition temperature of 287.7ﾂｱ1.2K was achieved at 267ﾂｱ10GPa."
158987 JPS081104710 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux. BaFe2As2 Ba1Fe2As2 Ba 1 Fe 2 As 2 3 2012 tetragonal nm 1.301 1 "After antiferromagnetic transition at 142K, structure changes to orthrhombic." K 158987fig1 3 158987fig3 "Ba, Fe, As" 5 "Prepared pieces of Ba2As3, Ba2P3, FeAs and FeP in molar ratio were placed in an alumina cruicible, and sealed in a quartz tube." "The tube was heated at 1150C(x・・ｦ0.15)・or 1200C(0.15・E・x) for 10 hrs, followed by decanting the flux." Growth of BaFe2(As1-xPx)2 single crystals (0 ・・ｦ x ・・ｦ 1) by Ba2As3/Ba2P3-flux method 2012 9 "iron-based superconductor, isovalent chemical substitution, BaFe2(As1-xPx)2, single crystal growth, transport properties, annealing effect" "Department of Physics, University of Tokyo, Bunkyo, Tokyo 113-0033, Japan" "Journal of the Physical Society of Japan, 81(2012)104710" BaFe2P2 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux.
158988 JPS081104710 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux. BaFe2(As0.93P0.07)2 Ba1Fe2As0.14P1.86 Ba 1 Fe 2 As 0.14 P 1.86 3 2012 tetragonal nm 1.296 1 "After antiferromagnetic transition, structure changes to orthrhombic." K 158987fig1 3 158987fig3 "Ba, Fe, As" 5 "Prepared pieces of Ba2As3, Ba2P3, FeAs and FeP in molar ratio were placed in an alumina cruicible, and sealed in a quartz tube." "The tube was heated at 1150C(x・・ｦ0.15)・or 1200C(0.15・E・x) for 10 hrs, followed by decanting the flux." Growth of BaFe2(As1-xPx)2 single crystals (0 ・・ｦ x ・・ｦ 1) by Ba2As3/Ba2P3-flux method 2012 9 "iron-based superconductor, isovalent chemical substitution, BaFe2(As1-xPx)2, single crystal growth, transport properties, annealing effect" "Department of Physics, University of Tokyo, Bunkyo, Tokyo 113-0033, Japan" "Journal of the Physical Society of Japan, 81(2012)104710" BaFe2P2 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux.
158989 JPS081104710 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux. BaFe2(As0.87P0.13)2 Ba1Fe2As0.26P1.74 Ba 1 Fe 2 As 0.26 P 1.74 3 2012 tetragonal nm 1.293 1 "After antiferromagnetic transition at 100K, structure changes to orthrhombic." K 158987fig1 3 158987fig3 "Ba, Fe, As" 5 "Prepared pieces of Ba2As3, Ba2P3, FeAs and FeP in molar ratio were placed in an alumina cruicible, and sealed in a quartz tube." "The tube was heated at 1150C(x・・ｦ0.15)・or 1200C(0.15・E・x) for 10 hrs, followed by decanting the flux." Growth of BaFe2(As1-xPx)2 single crystals (0 ・・ｦ x ・・ｦ 1) by Ba2As3/Ba2P3-flux method 2012 9 "iron-based superconductor, isovalent chemical substitution, BaFe2(As1-xPx)2, single crystal growth, transport properties, annealing effect" "Department of Physics, University of Tokyo, Bunkyo, Tokyo 113-0033, Japan" "Journal of the Physical Society of Japan, 81(2012)104710" BaFe2P2 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux.
158990 JPS081104710 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux. BaFe2(As0.80P0.20)2 Ba1Fe2As0.4P1.6 Ba 1 Fe 2 As 0.4 P 1.6 3 2012 tetragonal nm 1.289 1 "After antiferromagnetic transition at 77K, structure changes to orthrhombic." K 9.1 158987fig2 3 158987fig3 "Ba, Fe, As" 5 "Prepared pieces of Ba2As3, Ba2P3, FeAs and FeP in molar ratio were placed in an alumina cruicible, and sealed in a quartz tube." "The tube was heated at 1150C(x・・ｦ0.15)・or 1200C(0.15・E・x) for 10 hrs, followed by decanting the flux." Growth of BaFe2(As1-xPx)2 single crystals (0 ・・ｦ x ・・ｦ 1) by Ba2As3/Ba2P3-flux method 2012 9 "iron-based superconductor, isovalent chemical substitution, BaFe2(As1-xPx)2, single crystal growth, transport properties, annealing effect" "Department of Physics, University of Tokyo, Bunkyo, Tokyo 113-0033, Japan" "Journal of the Physical Society of Japan, 81(2012)104710" BaFe2P2 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux.
158991 JPS081104710 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux. BaFe2(As0.76P0.24)2 Ba1Fe2As0.48P1.52 Ba 1 Fe 2 As 0.48 P 1.52 3 2012 tetragonal nm 1.286 1 "After antiferromagnetic transition at 62K, structure changes to orthrhombic." K 17.1 158987fig2 3 158987fig3 "Ba, Fe, As" 5 "Prepared pieces of Ba2As3, Ba2P3, FeAs and FeP in molar ratio were placed in an alumina cruicible, and sealed in a quartz tube." "The tube was heated at 1150C(x・・ｦ0.15)・or 1200C(0.15・E・x) for 10 hrs, followed by decanting the flux." Growth of BaFe2(As1-xPx)2 single crystals (0 ・・ｦ x ・・ｦ 1) by Ba2As3/Ba2P3-flux method 2012 9 "iron-based superconductor, isovalent chemical substitution, BaFe2(As1-xPx)2, single crystal growth, transport properties, annealing effect" "Department of Physics, University of Tokyo, Bunkyo, Tokyo 113-0033, Japan" "Journal of the Physical Society of Japan, 81(2012)104710" BaFe2P2 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux.
158992 JPS081104710 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux. BaFe2(As0.68P0.32)2 Ba1Fe2As0.64P1.36 Ba 1 Fe 2 As 0.64 P 1.36 3 2012 tetragonal nm 1.283 1 K 32 158987fig2 3 158987fig3 "Ba, Fe, As" 5 "Prepared pieces of Ba2As3, Ba2P3, FeAs and FeP in molar ratio were placed in an alumina cruicible, and sealed in a quartz tube." "The tube was heated at 1150C(x・・ｦ0.15)・or 1200C(0.15・E・x) for 10 hrs, followed by decanting the flux." Growth of BaFe2(As1-xPx)2 single crystals (0 ・・ｦ x ・・ｦ 1) by Ba2As3/Ba2P3-flux method 2012 9 "iron-based superconductor, isovalent chemical substitution, BaFe2(As1-xPx)2, single crystal growth, transport properties, annealing effect" "Department of Physics, University of Tokyo, Bunkyo, Tokyo 113-0033, Japan" "Journal of the Physical Society of Japan, 81(2012)104710" BaFe2P2 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux.
158993 JPS081104710 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux. BaFe2(As0.62P0.38)2 Ba1Fe2As0.76P1.24 Ba 1 Fe 2 As 0.76 P 1.24 3 2012 tetragonal nm 1.278 1 K 26.7 158987fig2 3 158987fig3 "Ba, Fe, As" 5 "Prepared pieces of Ba2As3, Ba2P3, FeAs and FeP in molar ratio were placed in an alumina cruicible, and sealed in a quartz tube." "The tube was heated at 1150C(x・・ｦ0.15)・or 1200C(0.15・E・x) for 10 hrs, followed by decanting the flux." Growth of BaFe2(As1-xPx)2 single crystals (0 ・・ｦ x ・・ｦ 1) by Ba2As3/Ba2P3-flux method 2012 9 "iron-based superconductor, isovalent chemical substitution, BaFe2(As1-xPx)2, single crystal growth, transport properties, annealing effect" "Department of Physics, University of Tokyo, Bunkyo, Tokyo 113-0033, Japan" "Journal of the Physical Society of Japan, 81(2012)104710" BaFe2P2 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux.
158994 JPS081104710 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux. BaFe2(As0.55P0.45)2 Ba1Fe2As0.9P1.1 Ba 1 Fe 2 As 0.9 P 1.1 3 2012 tetragonal nm 1.276 1 K 24.3 158987fig2 3 158987fig3 "Ba, Fe, As" 5 "Prepared pieces of Ba2As3, Ba2P3, FeAs and FeP in molar ratio were placed in an alumina cruicible, and sealed in a quartz tube." "The tube was heated at 1150C(x・・ｦ0.15)・or 1200C(0.15・E・x) for 10 hrs, followed by decanting the flux." Growth of BaFe2(As1-xPx)2 single crystals (0 ・・ｦ x ・・ｦ 1) by Ba2As3/Ba2P3-flux method 2012 9 "iron-based superconductor, isovalent chemical substitution, BaFe2(As1-xPx)2, single crystal growth, transport properties, annealing effect" "Department of Physics, University of Tokyo, Bunkyo, Tokyo 113-0033, Japan" "Journal of the Physical Society of Japan, 81(2012)104710" BaFe2P2 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux.
158995 JPS081104710 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux. BaFe2(As0.48P0.52)2 Ba1Fe2As1.04P0.96 Ba 1 Fe 2 As 1.04 P 0.96 3 2012 tetragonal nm 1.27 1 K 15.2 158987fig2 3 158987fig3 "Ba, Fe, As" 5 "Prepared pieces of Ba2As3, Ba2P3, FeAs and FeP in molar ratio were placed in an alumina cruicible, and sealed in a quartz tube." "The tube was heated at 1150C(x・・ｦ0.15)・or 1200C(0.15・E・x) for 10 hrs, followed by decanting the flux." Growth of BaFe2(As1-xPx)2 single crystals (0 ・・ｦ x ・・ｦ 1) by Ba2As3/Ba2P3-flux method 2012 9 "iron-based superconductor, isovalent chemical substitution, BaFe2(As1-xPx)2, single crystal growth, transport properties, annealing effect" "Department of Physics, University of Tokyo, Bunkyo, Tokyo 113-0033, Japan" "Journal of the Physical Society of Japan, 81(2012)104710" BaFe2P2 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux.
158996 JPS081104710 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux. BaFe2(As0.39P0.61)2 Ba1Fe2As1.22P0.78 Ba 1 Fe 2 As 1.22 P 0.78 3 2012 tetragonal nm 1.266 1 K 9.1 158987fig2 3 158987fig3 "Ba, Fe, As" 5 "Prepared pieces of Ba2As3, Ba2P3, FeAs and FeP in molar ratio were placed in an alumina cruicible, and sealed in a quartz tube." "The tube was heated at 1150C(x・・ｦ0.15)・or 1200C(0.15・E・x) for 10 hrs, followed by decanting the flux." Growth of BaFe2(As1-xPx)2 single crystals (0 ・・ｦ x ・・ｦ 1) by Ba2As3/Ba2P3-flux method 2012 9 "iron-based superconductor, isovalent chemical substitution, BaFe2(As1-xPx)2, single crystal growth, transport properties, annealing effect" "Department of Physics, University of Tokyo, Bunkyo, Tokyo 113-0033, Japan" "Journal of the Physical Society of Japan, 81(2012)104710" BaFe2P2 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux.
158997 JPS081104710 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux. BaFe2(As0.34P0.66)2 Ba1Fe2As1.32P0.68 Ba 1 Fe 2 As 1.32 P 0.68 3 2012 tetragonal nm 1.262 1 K 158987fig1 3 158987fig3 "Ba, Fe, As" 5 "Prepared pieces of Ba2As3, Ba2P3, FeAs and FeP in molar ratio were placed in an alumina cruicible, and sealed in a quartz tube." "The tube was heated at 1150C(x・・ｦ0.15)・or 1200C(0.15・E・x) for 10 hrs, followed by decanting the flux." Growth of BaFe2(As1-xPx)2 single crystals (0 ・・ｦ x ・・ｦ 1) by Ba2As3/Ba2P3-flux method 2012 9 "iron-based superconductor, isovalent chemical substitution, BaFe2(As1-xPx)2, single crystal growth, transport properties, annealing effect" "Department of Physics, University of Tokyo, Bunkyo, Tokyo 113-0033, Japan" "Journal of the Physical Society of Japan, 81(2012)104710" BaFe2P2 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux.
158998 JPS081104710 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux. BaFe2(As0.26P0.74)2 Ba1Fe2As1.48P0.52 Ba 1 Fe 2 As 1.48 P 0.52 3 2012 tetragonal nm 1.258 1 K 158987fig1 3 158987fig3 "Ba, Fe, As" 5 "Prepared pieces of Ba2As3, Ba2P3, FeAs and FeP in molar ratio were placed in an alumina cruicible, and sealed in a quartz tube." "The tube was heated at 1150C(x・・ｦ0.15)・or 1200C(0.15・E・x) for 10 hrs, followed by decanting the flux." Growth of BaFe2(As1-xPx)2 single crystals (0 ・・ｦ x ・・ｦ 1) by Ba2As3/Ba2P3-flux method 2012 9 "iron-based superconductor, isovalent chemical substitution, BaFe2(As1-xPx)2, single crystal growth, transport properties, annealing effect" "Department of Physics, University of Tokyo, Bunkyo, Tokyo 113-0033, Japan" "Journal of the Physical Society of Japan, 81(2012)104710" BaFe2P2 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux.
158999 JPS081104710 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux. BaFe2(As0.13P0.87)2 Ba1Fe2As1.74P0.26 Ba 1 Fe 2 As 1.74 P 0.26 3 2012 tetragonal nm 1.251 1 K 158987fig1 3 158987fig3 "Ba, Fe, As" 5 "Prepared pieces of Ba2As3, Ba2P3, FeAs and FeP in molar ratio were placed in an alumina cruicible, and sealed in a quartz tube." "The tube was heated at 1150C(x・・ｦ0.15)・or 1200C(0.15・E・x) for 10 hrs, followed by decanting the flux." Growth of BaFe2(As1-xPx)2 single crystals (0 ・・ｦ x ・・ｦ 1) by Ba2As3/Ba2P3-flux method 2012 9 "iron-based superconductor, isovalent chemical substitution, BaFe2(As1-xPx)2, single crystal growth, transport properties, annealing effect" "Department of Physics, University of Tokyo, Bunkyo, Tokyo 113-0033, Japan" "Journal of the Physical Society of Japan, 81(2012)104710" BaFe2P2 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux.
159000 JPS081104710 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux. BaFe2P2 Ba1Fe2P2 Ba 1 Fe 2 P 2 3 2012 tetragonal nm 1.244 1 K 158987fig1 3 158987fig3 "Ba, Fe, As" 5 "Prepared pieces of Ba2As3, Ba2P3, FeAs and FeP in molar ratio were placed in an alumina cruicible, and sealed in a quartz tube." "The tube was heated at 1150C(x・・ｦ0.15)・or 1200C(0.15・E・x) for 10 hrs, followed by decanting the flux." Growth of BaFe2(As1-xPx)2 single crystals (0 ・・ｦ x ・・ｦ 1) by Ba2As3/Ba2P3-flux method 2012 9 "iron-based superconductor, isovalent chemical substitution, BaFe2(As1-xPx)2, single crystal growth, transport properties, annealing effect" "Department of Physics, University of Tokyo, Bunkyo, Tokyo 113-0033, Japan" "Journal of the Physical Society of Japan, 81(2012)104710" BaFe2P2 Single crystal of BaFe2(As1-xPx)2 has been grown successfully by a Ba2As3/Ba2P3 self-flux.
159001 NAP0120139 Observation of the in-plane upper critical field is six times larger than Pauli paramegnetic limit in the monolayer NbSe2. NbSe2 Nb1Se2 Nb 1 Se 2 5 2016 trigonal K 3 159001fig1 3 T 0.3 31.5 159001fig2 "Nb, Se" 5 Atomically-thin layers of the sample were fabricated by exfoliating mechanically 2H-NbSe2. The layer thickness was measured by using Raman measurements. Ising pairing in superconducting NbSe2 atomic layers 2016 2 "NbSe2, atomic layers, Ising pairing, superconductors" "Department of Physics and Center for 2-dimensional and Layered Materials, The Pennsylvania State University, University Park, Pennsilvania 16802-6300, USA" "Nature Physics, 12(2016)139" NbSe2 Observation of the in-plane upper critical field is six times larger than Pauli paramegnetic limit in the monolayer NbSe2.
159002 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. ZrPS Zr1Pd1S1 Zr 1 Pd 1 S 1 2 2020 tetragonal nm 0.3584 0.7674 3 K 3.64 159002fig1 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159003 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Zr0.5Lu0.5PS Zr0.5Lu0.5P1S1 Zr 0.5 Lu 0.5 P 1 S 1 2 2020 tetragonal nm 0.3575 0.7379 3 K 5.78 159002fig1 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159004 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Zr0.6Lu0.4PS Zr0.6Lu0.4P1S1 Zr 0.6 Lu 0.4 P 1 S 1 2 2020 tetragonal nm 0.3575 0.7446 3 K 6.41 159002fig1 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159005 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Zr0.675Lu0.325PS Zr0.675Lu0.325P1S1 Zr 0.675 Lu 0.325 P 1 S 1 2 2020 tetragonal nm 0.3578 0.7467 3 K 5.9 159002fig1 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159006 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Zr0.75Lu0.25PS Zr0.75Lu0.25P1S1 Zr 0.75 Lu 0.25 P 1 S 1 2 2020 tetragonal nm 0.3581 0.7592 3 K 5.81 159002fig1 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159007 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Zr0.4Y0.6PS Zr0.4Y0.6P1S1 Zr 0.4 Y 0.6 P 1 S 1 2 2020 tetragonal nm 0.3562 0.7181 3 K 5.35 159002fig2 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159008 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Zr0.5Y0.5PS Zr0.5Y0.5P1S1 Zr 0.5 Y 0.5 P 1 S 1 2 2020 tetragonal nm 0.3559 0.7184 3 K 5.34 159002fig2 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159009 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Zr0.6Y0.4PS Zr0.6Y0.4P1S1 Zr 0.6 Y 0.4 P 1 S 1 2 2020 tetragonal nm 0.3562 0.7385 3 K 4.88 159002fig2 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159010 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Zr0.75Y0.25PS Zr0.75Y0.25P1S1 Zr 0.75 Y 0.25 P 1 S 1 2 2020 tetragonal nm 0.3572 0.7382 3 K 4.97 159002fig2 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159011 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. HfPS Hf1P1.55S0.45 Hf 1 P 1.55 S 0.45 2 2020 tetragonal nm 0.3603 0.7816 3 K 4.9 159002fig3 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159012 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Hf0.8Lu0.2P1.55S0.45 Hf0.8Lu0.2P1.55S0.45 Hf 0.8 Lu 0.2 P 1.55 S 0.45 2 2020 tetragonal nm 0.3579 0.7816 3 K 4.81 159002fig3 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159013 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Hf0.7Lu0.3P1.55S0.45 Hf0.7Lu0.3P1.55S0.45 Hf 0.7 Lu 0.3 P 1.55 S 0.45 2 2020 tetragonal nm 0.3575 0.7834 3 K 4.75 159002fig3 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159014 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Hf0.6Lu0.4P1.55S0.45 Hf0.6Lu0.4P1.55S0.45 Hf 0.6 Lu 0.4 P 1.55 S 0.45 2 2020 tetragonal nm 0.3574 0.7881 3 K 5.91 159002fig3 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159015 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Hf0.5Lu0.5P1.55S0.45 Hf0.5Lu0.5P1.55S0.45 Hf 0.5 Lu 0.5 P 1.55 S 0.45 2 2020 tetragonal nm 3 K 5.68 159002fig3 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159016 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Hf0.8Y0.2P1.55S0.45 Hf0.8Y0.2P1.55S0.45 Hf 0.8 Y 0.2 P 1.55 S 0.45 2 2020 tetragonal nm 0.357 0.7824 3 K 5.01 159002fig3 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159017 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Hf0.7Y0.3P1.55S0.45 Hf0.7Y0.3P1.55S0.45 Hf 0.7 Y 0.3 P 1.55 S 0.45 2 2020 tetragonal nm 0.356 0.7829 3 K 4.52 159002fig3 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159018 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Hf0.6Y0.4P1.55S0.45 Hf0.6Y0.4P1.55S0.45 Hf 0.6 Y 0.4 P 1.55 S 0.45 2 2020 tetragonal nm 0.355 0.7827 3 K 4.81 159002fig3 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159019 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Hf0.5Y0.5P1.55S0.45 Hf0.5Y0.5P1.55S0.45 Hf 0.5 Y 0.5 P 1.55 S 0.45 2 2020 tetragonal nm 3 K 159002fig3 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159020 JPC12930012003 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors." ZrP1.25Se0.75 Zr1P1.25Se0.75 Zr 1 P 1.25 Se 0.75 2 2019 PbFCl-type nm 3.65958 7.95654 3 K 5.907 159020fig1 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors II" 2019 10 "Zr(P,Se)2, superconductor, rare earth, substituition" "Department of Physics, Tokyo University of Science, 1-3 Kagrazaka, Shinjuku-ku, Tokyo 162-8601, Japan" Journal of Physics:Conf. Series 1293(2019)012003 Zr1.50Lu0.50P1.25Se0.75 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors."
159021 JPC12930012003 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors." Zr1.85Sc0.15P1.25Se0.75 Zr1.85Sc0.15P1.25Se0.75 Zr 1.85 Sc 0.15 P 1.25 Se 0.75 2 2019 PbFCl-type nm 3.65564 7.95052 3 K 7.333 159020fig1 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors II" 2019 10 "Zr(P,Se)2, superconductor, rare earth, substituition" "Department of Physics, Tokyo University of Science, 1-3 Kagrazaka, Shinjuku-ku, Tokyo 162-8601, Japan" Journal of Physics:Conf. Series 1293(2019)012003 Zr1.50Lu0.50P1.25Se0.75 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors."
159022 JPC12930012003 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors." Zr1.75Sc0.25P1.25Se0.75 Zr1.75Sc0.25P1.25Se0.75 Zr 1.75 Sc 0.25 P 1.25 Se 0.75 2 2019 PbFCl-type nm 3.65591 7.95366 3 K 7.574 159020fig1 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors II" 2019 10 "Zr(P,Se)2, superconductor, rare earth, substituition" "Department of Physics, Tokyo University of Science, 1-3 Kagrazaka, Shinjuku-ku, Tokyo 162-8601, Japan" Journal of Physics:Conf. Series 1293(2019)012003 Zr1.50Lu0.50P1.25Se0.75 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors."
159023 JPC12930012003 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors." Zr1.70Sc0.30P1.25Se0.75 Zr1.7Sc0.3P1.25Se0.75 Zr 1.7 Sc 0.3 P 1.25 Se 0.75 2 2019 PbFCl-type nm 3.65696 7.97042 3 K 7.352 159020fig1 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors II" 2019 10 "Zr(P,Se)2, superconductor, rare earth, substituition" "Department of Physics, Tokyo University of Science, 1-3 Kagrazaka, Shinjuku-ku, Tokyo 162-8601, Japan" Journal of Physics:Conf. Series 1293(2019)012003 Zr1.50Lu0.50P1.25Se0.75 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors."
159024 JPC12930012003 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors." Zr1.60Sc0.40P1.25Se0.75 Zr1.6Sc0.4P1.25Se0.75 Zr 1.6 Sc 0.4 P 1.25 Se 0.75 2 2019 PbFCl-type nm 3.64882 7.96021 3 K 7.315 159020fig1 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors II" 2019 10 "Zr(P,Se)2, superconductor, rare earth, substituition" "Department of Physics, Tokyo University of Science, 1-3 Kagrazaka, Shinjuku-ku, Tokyo 162-8601, Japan" Journal of Physics:Conf. Series 1293(2019)012003 Zr1.50Lu0.50P1.25Se0.75 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors."
159025 JPC12930012003 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors." Zr1.30Sc0.70P1.25Se0.75 Zr1.3Sc0.7P1.25Se0.75 Zr 1.3 Sc 0.7 P 1.25 Se 0.75 2 2019 PbFCl-type nm 3.65249 7.97042 3 K 3.444 159020fig1 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors II" 2019 10 "Zr(P,Se)2, superconductor, rare earth, substituition" "Department of Physics, Tokyo University of Science, 1-3 Kagrazaka, Shinjuku-ku, Tokyo 162-8601, Japan" Journal of Physics:Conf. Series 1293(2019)012003 Zr1.50Lu0.50P1.25Se0.75 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors."
159026 JPC12930012003 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors." Zr1.85La0.15P1.25Se0.75 Zr1.85La0.15P1.25Se0.75 Zr 1.85 La 0.15 P 1.25 Se 0.75 2 2019 PbFCl-type nm 3 K 5.889 159020fig2 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors II" 2019 10 "Zr(P,Se)2, superconductor, rare earth, substituition" "Department of Physics, Tokyo University of Science, 1-3 Kagrazaka, Shinjuku-ku, Tokyo 162-8601, Japan" Journal of Physics:Conf. Series 1293(2019)012003 Zr1.50Lu0.50P1.25Se0.75 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors."
159027 JPC12930012003 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors." Zr1.75La0.25P1.25Se0.75 Zr1.75La0.25P1.25Se0.75 Zr 1.75 La 0.25 P 1.25 Se 0.75 2 2019 PbFCl-type nm 3 K 5.185 159020fig2 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors II" 2019 10 "Zr(P,Se)2, superconductor, rare earth, substituition" "Department of Physics, Tokyo University of Science, 1-3 Kagrazaka, Shinjuku-ku, Tokyo 162-8601, Japan" Journal of Physics:Conf. Series 1293(2019)012003 Zr1.50Lu0.50P1.25Se0.75 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors."
159028 JPC12930012003 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors." Zr1.60La0.40P1.25Se0.75 Zr1.6La0.4P1.25Se0.75 Zr 1.6 La 0.4 P 1.25 Se 0.75 2 2019 PbFCl-type nm 3 K 5.185 159020fig2 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors II" 2019 10 "Zr(P,Se)2, superconductor, rare earth, substituition" "Department of Physics, Tokyo University of Science, 1-3 Kagrazaka, Shinjuku-ku, Tokyo 162-8601, Japan" Journal of Physics:Conf. Series 1293(2019)012003 Zr1.50Lu0.50P1.25Se0.75 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors."
159029 JPC12930012003 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors." Zr1.85Y0.15P1.25Se0.75 Zr1.85Y0.15P1.25Se0.75 Zr 1.85 Y 0.15 P 1.25 Se 0.75 2 2019 PbFCl-type nm 3 K 6.37 159020fig2 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors II" 2019 10 "Zr(P,Se)2, superconductor, rare earth, substituition" "Department of Physics, Tokyo University of Science, 1-3 Kagrazaka, Shinjuku-ku, Tokyo 162-8601, Japan" Journal of Physics:Conf. Series 1293(2019)012003 Zr1.50Lu0.50P1.25Se0.75 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors."
159030 JPC12930012003 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors." Zr1.75Y0.25P1.25Se0.75 Zr1.75Y0.25P1.25Se0.75 Zr 1.75 Y 0.25 P 1.25 Se 0.75 2 2019 PbFCl-type nm 3 K 6.056 159020fig2 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors II" 2019 10 "Zr(P,Se)2, superconductor, rare earth, substituition" "Department of Physics, Tokyo University of Science, 1-3 Kagrazaka, Shinjuku-ku, Tokyo 162-8601, Japan" Journal of Physics:Conf. Series 1293(2019)012003 Zr1.50Lu0.50P1.25Se0.75 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors."
159031 JPC12930012003 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors." Zr1.60Y0.40P1.25Se0.75 Zr1.6Y0.4P1.25Se0.75 Zr 1.6 Y 0.4 P 1.25 Se 0.75 2 2019 PbFCl-type nm 3 K 5.09 159020fig2 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors II" 2019 10 "Zr(P,Se)2, superconductor, rare earth, substituition" "Department of Physics, Tokyo University of Science, 1-3 Kagrazaka, Shinjuku-ku, Tokyo 162-8601, Japan" Journal of Physics:Conf. Series 1293(2019)012003 Zr1.50Lu0.50P1.25Se0.75 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors."
159032 JPC12930012003 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors." Zr1.50Y0.50P1.25Se0.75 Zr1.5Y0.5P1.25Se0.75 Zr 1.5 Y 0.5 P 1.25 Se 0.75 2 2019 PbFCl-type nm 3 K 5.63 159020fig2 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors II" 2019 10 "Zr(P,Se)2, superconductor, rare earth, substituition" "Department of Physics, Tokyo University of Science, 1-3 Kagrazaka, Shinjuku-ku, Tokyo 162-8601, Japan" Journal of Physics:Conf. Series 1293(2019)012003 Zr1.50Lu0.50P1.25Se0.75 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors."
159033 JPC12930012003 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors." Zr1.85Lu0.15P1.25Se0.75 Zr1.85Lu0.15P1.25Se0.75 Zr 1.85 Lu 0.15 P 1.25 Se 0.75 2 2019 PbFCl-type nm 3 K 6.278 159020fig2 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors II" 2019 10 "Zr(P,Se)2, superconductor, rare earth, substituition" "Department of Physics, Tokyo University of Science, 1-3 Kagrazaka, Shinjuku-ku, Tokyo 162-8601, Japan" Journal of Physics:Conf. Series 1293(2019)012003 Zr1.50Lu0.50P1.25Se0.75 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors."
159034 JPC12930012003 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors." Zr1.75Lu0.25P1.25Se0.75 Zr1.75Lu0.25P1.25Se0.75 Zr 1.75 Lu 0.25 P 1.25 Se 0.75 2 2019 PbFCl-type nm 3 K 7.093 159020fig2 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors II" 2019 10 "Zr(P,Se)2, superconductor, rare earth, substituition" "Department of Physics, Tokyo University of Science, 1-3 Kagrazaka, Shinjuku-ku, Tokyo 162-8601, Japan" Journal of Physics:Conf. Series 1293(2019)012003 Zr1.50Lu0.50P1.25Se0.75 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors."
159035 JPC12930012003 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors." Zr1.60Lu0.40P1.25Se0.75 Zr1.6Lu0.4P1.25Se0.75 Zr 1.6 Lu 0.4 P 1.25 Se 0.75 2 2019 PbFCl-type nm 3 K 7.241 159020fig2 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors II" 2019 10 "Zr(P,Se)2, superconductor, rare earth, substituition" "Department of Physics, Tokyo University of Science, 1-3 Kagrazaka, Shinjuku-ku, Tokyo 162-8601, Japan" Journal of Physics:Conf. Series 1293(2019)012003 Zr1.50Lu0.50P1.25Se0.75 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors."
159036 JPC12930012003 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors." Zr1.50Lu0.50P1.25Se0.75 Zr1.5Lu0.5P1.25Se0.75 Zr 1.5 Lu 0.5 P 1.25 Se 0.75 2 2019 PbFCl-type nm 3 K 6.778 159020fig2 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors II" 2019 10 "Zr(P,Se)2, superconductor, rare earth, substituition" "Department of Physics, Tokyo University of Science, 1-3 Kagrazaka, Shinjuku-ku, Tokyo 162-8601, Japan" Journal of Physics:Conf. Series 1293(2019)012003 Zr1.50Lu0.50P1.25Se0.75 "Effect of non-magnetic rare earth substitution for Zr on mixed anion Zr(P,Se)2 superconductors."
159037 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. HfPS Hf1P1.45S0.55 Hf 1 P 1.45 S 0.55 2020 tetragonal nm 0.3559 0.7715 3 K 3.13 159002fig4 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159038 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Hf0.8Lu0.2P1.45S0.55 Hf0.8Lu0.2P1.45S0.55 Hf 0.8 Lu 0.2 P 1.45 S 0.55 2020 tetragonal nm 0.3562 0.7769 3 K 4.09 159002fig4 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159039 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Hf0.7Lu0.3P1.45S0.55 Hf0.7Lu0.3P1.45S0.55 Hf 0.7 Lu 0.3 P 1.45 S 0.55 2020 tetragonal nm 0.3557 0.7772 3 K 4.85 159002fig4 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159040 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Hf0.8Lu0.4P1.45S0.55 Hf0.6Lu0.4P1.45S0.55 Hf 0.6 Lu 0.4 P 1.45 S 0.55 2020 tetragonal nm 0.3555 0.7794 3 K 4.48 159002fig4 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159041 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Hf0.7Lu0.5P1.45S0.55 Hf0.5Lu0.5P1.45S0.55 Hf 0.5 Lu 0.5 P 1.45 S 0.55 2020 tetragonal nm 0.3556 0.7802 3 K 5.87 159002fig4 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159042 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Hf0.8Lu0.6P1.45S0.55 Hf0.4Lu0.6P1.45S0.55 Hf 0.4 Lu 0.6 P 1.45 S 0.55 2020 tetragonal nm 3 K 5 159002fig4 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159043 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Hf0.8Y0.2P1.55S0.45 Hf0.8Y0.2P1.45S0.55 Hf 0.8 Y 0.2 P 1.45 S 0.55 2020 tetragonal nm 0.356 0.7519 3 K 159002fig4 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159044 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Hf0.6Y0.3P1.55S0.45 Hf0.7Y0.3P1.45S0.55 Hf 0.7 Y 0.3 P 1.45 S 0.55 2020 tetragonal nm 0.356 0.776 3 K 4.53 159002fig4 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159045 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Hf0.5Y0.4P1.55S0.45 Hf0.6Y0.4P1.45S0.55 Hf 0.6 Y 0.4 P 1.45 S 0.55 2020 tetragonal nm 0.3562 0.777 3 K 4.74 159002fig4 1 "Zr, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.
159046 JPC1590012007 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors. Hf0.5Y0.5P1.55S0.45 Hf0.5Y0.5P1.45S0.55 Hf 0.5 Y 0.5 P 1.45 S 0.55 2020 tetragonal nm 0.3559 0.7799 3 K 4.42 159002fig4 1 "Zr, Lu, P, S" 1 "Polycrystalline samples were synthsized by using a cubic-anvil high pressure apparatus, heated at ~1425C~1651C under a pressure of ~2 Gpa for 1 hr to quench to room rapidly temperature." "The metal powders were mixed and pelletized in a nitrogen-filled glove box, were put into BN crucible." Effect of non-magnetic rare earth substitution for A site in mixed anion APX superconductors 2020 8 "APX, superconductors, non-magnetic, rare earth, substitution" "National Institute for Advanced Industrial Science and Technology (AIST), 1-1-1 Umezono, Tsukuba, Ibaraki 305-8568, Japan" Journal of Physics:Conf. Series 1590(2020)012007 Hf0.5Y0.5P1.45S0.55 Effect on superconducting transition temperature of non-magnetic rare earth atoms was studied to substitute A-atom into APX-based superconductors.}}}}}}}}}}}}}